Google
This is a digital copy of a book that was preserved for generations on library shelves before it was carefully scanned by Google as part of a project
to make the world's books discoverable online.
It has survived long enough for the copyright to expire and the book to enter the public domain. A public domain book is one that was never subject
to copyright or whose legal copyright term has expired. Whether a book is in the public domain may vary country to country. Public domain books
are our gateways to the past, representing a wealth of history, culture and knowledge that's often difficult to discover.
Marks, notations and other maiginalia present in the original volume will appear in this file - a reminder of this book's long journey from the
publisher to a library and finally to you.
Usage guidelines
Google is proud to partner with libraries to digitize public domain materials and make them widely accessible. Public domain books belong to the
public and we are merely their custodians. Nevertheless, this work is expensive, so in order to keep providing tliis resource, we liave taken steps to
prevent abuse by commercial parties, including placing technical restrictions on automated querying.
We also ask that you:
+ Make non-commercial use of the files We designed Google Book Search for use by individuals, and we request that you use these files for
personal, non-commercial purposes.
+ Refrain fivm automated querying Do not send automated queries of any sort to Google's system: If you are conducting research on machine
translation, optical character recognition or other areas where access to a large amount of text is helpful, please contact us. We encourage the
use of public domain materials for these purposes and may be able to help.
+ Maintain attributionTht GoogXt "watermark" you see on each file is essential for in forming people about this project and helping them find
additional materials through Google Book Search. Please do not remove it.
+ Keep it legal Whatever your use, remember that you are responsible for ensuring that what you are doing is legal. Do not assume that just
because we believe a book is in the public domain for users in the United States, that the work is also in the public domain for users in other
countries. Whether a book is still in copyright varies from country to country, and we can't offer guidance on whether any specific use of
any specific book is allowed. Please do not assume that a book's appearance in Google Book Search means it can be used in any manner
anywhere in the world. Copyright infringement liabili^ can be quite severe.
About Google Book Search
Google's mission is to organize the world's information and to make it universally accessible and useful. Google Book Search helps readers
discover the world's books while helping authors and publishers reach new audiences. You can search through the full text of this book on the web
at|http: //books .google .com/I
.us"
THE
AMERICAN EPHEMERIS
" AND
NAUTICAL ALMANAC
FOR THE YEAR
1912
FIRST EDITION
PUBLISHED BY THE NAUTICAL ALMANAC OFFICE, U. S.
NAVAL OBSERVATORY, BY DIRECTION OF THE SECRETARY
OF THE NAVY AND UNDER THE AUTHORITY OF CONGRESS
WASHINGTON
GOVERNMENT PRINTING OFFICS
PREFACE.
While the general arrangement of the matter contained in the
American Ephemeris and Nautical Almanac for the year 191 2 is the
same as in the issues of previous years, yet advances in astronomy and
navigation have made certain changes necessary. The more important
of these are three in number, to wit,
a. The lunar distance tables have been omitted by authority of
the Chief of the Bureau of Equipment, Navy Department, who found
after investigation that they are no longer of practical use to navigators.
b. The vacancy of seventy-four and one-half pages thus created
has made possible a large increase in the number of fixed stars with-
out greatly augmenting the size of the book. The number of stars of
which loday ephemerides are given has been increased from 378 to
800, and the number of circumpolar stars of which daily ephemerides
are given, from 5 to 25, 15 of these being northern and 10 southern,
the total number of stars being increased from 383 to 825.
c. The constants of nutation and aberration adopted by the Paris
Conference of May, 1896, have been used in the body of the book, as
they were in the volume for the year 1900, instead of the Struve-Peters
constants, and Part IV, which contain^ ephemerides of stars computed
with the constants of the Paris Conference, has been omitted.
The more important minor alterations will be mentioned else-
where. The size of the printed page has been reduced from 8.65 by
5.58 inches to 8.25 by 5.00 inches, for the reason that the smaller size
seems to be sufficiently large.
This volume is divided into three parts, as follows :
Part I, Ephemeris for the Meridian of Greenwich^ which gives
the ephemerides of the Sun and Moon, the geocentric and heliocentric
positions of the major planets, the Sun's coordinates, and other funda-
mental astronomical data for equidistant intervals of Greenwich mean
time.
Part II, Ephemeris for the Meridian of Washington^ which gives
ephemerides of the fixed stars. Sun, Moon, and major planets for
transit over the meridian of the Naval Observatory, Washington,
which passes midway between the West and East Transit Circles of
the Observatory. The mean places of the fixed stars and the data for
their reduction are also included in this part.
Part III, Phenomena^ which contains predictions of phenomena
to be observed, with data for their computation. Washington mean
time for the meridian of the Naval Observatory is used throughout
this part except in a few cases, notably those of eclipses, where Green-
wich mean time seems more convenient.
MILTON UPDEGRAFP,
Professor of Mathematics^ U. S. Navy^
Director Nautical Almanac:.
Washington, November^ igog.
^•"204457 "^
CORRECTIONS.
Page.
235,
267,
367.
404,
261,
265,
308.
4x9,
425,
425.
441,
Epkemeris 1910, first ediiian only.
Dec 32, Meridian Passage for 2 1 45.8
Dec. 32, Log. Dist for 0.7656854
d Bootis R. A. decrease the column of seconds by o. i'
Aug. 1 2, R. A., App. Noon for 4.84
Epkemeris 191 1, first ediiian,
Dec. 33, Log. Dist for 9-9^15309
Dec. 31, Log. Dist.- for 9.8419039
/3 Ursae Minoris /or— 0.2096
Dec. 32, App. Ded for 23.1
Dec. 31, App. R. A for 33.95
Dec. 32, App. R. A _ for 42.70
Oct. II, Perigee for 3.5
IV IBph I a]
read 21 45.6
read 0.7656857
read 3.84
read
9-9815313
read
9.8419042
read
—0.2086
read
23.5
read
33.94
read
42.65
read
13.5
CONTENTS.
Introduction
Astronomical Constants
Elements of Planetaxy Orbits
Anniversaries and Festivals
Chronological Eras and Cycles
Symbols and Abbreviations
Page.
VII
XII
XIII
XIV
XV
XVI
PART 1—EPHEMERIS FOR THE MERIDIAN OF GREENWICH. EaSM^Sth.
for every
Ephemeris of the Sun .........
Ephemeris of the Moon .........
Phases of the Moon .........
Geocentric Ephemerides of the Planets Mercury, Venus, Mars, Jupiter, Saturn, Uranus,
Neptune
Heliocentric Ephemerides of the Plcmets Mercury, Venus, Mars, Jupiter, Saturn, Uranus,
Neptune ......
Sun's Co-ordinates ...
Moon's Longitude and Latitude
Moon's Equator, Mean Longitude, etc.
Moon's Libration; Sun's Al^rration and Horizontal Parallax
Precession, Nutation, Obliquity, etc.
PART II— EPHEMERIS FOR THE MERIDIAN OF WASHINGTON,
Bbssbl's Formulae for Star-Reductions, Constants of fiiris Conference
Besselian and Independent Star-Numbers, " *' "
Besselian and Independent Star-Numbers, exclusive of short period terms,
tenth sidereal day ....
Nutation, Terms of Short Period in the
Mean Places of 825 Standard Stars for 191 2.0
Mean Places of 25 Circumpolar Stars for 191 2.0
Apparent Places of 15 Northern Circumpolar Stars
Apparent Places of 800 Standard Stars
Apparent Places of 10 Southern Circumpolar Stars
Mean Errors for 1920 ....
Solar Ephemeris ....
Moon-Culminations ....
Transit-Ephemerides of the Planets Mercury, Venus, Mars, Jupiter, Saturn, Uranus,
Neptune ..........
FART III— PHENOMENA.
Eclipses ..........
The Equinoxes and Solstices, Moon's Phases, Apogee, Perigee, and Greatest Libration
Mean Places of Stars Occulted by the Moon
Elements for the Prediction of Occultations
Occultations Visible at Washington
Disks of Mercury, Venus, and Mars
Satellites of Jupiter, Saturn, Uranus, and Neptune
Phenomena, Planetary Configurations
Positions of Observatories
Problem in Lunar Distances .
TABLES,
Table I — R. A. and Decl. of Polaris and Local Mean Times of Culminations and Elon-
gations, and Greenwich Sidereal Time of Mean Noon
Table la — Corrections to the Times of Elongations for Different Latitudes
Table II — Sidereal into Mean Solar Time ....
Table III — Mean Solar into Sidereal Time ....
Table IV — For Finding the Latitude by an Observed Altitude of Polaris
Table IVa — Auxiliary Table of Corrections for Latitudes other than 45®
Table V — Azimuth of Polaris at all Hour Angles
Table VI — Azimuth of Polaris at Elongation ....
Table Via — For Reducing to Elongation, Observations made Near Elongation
Table VII — For Finding the Times of Upper and Lower Culmination of Polaris
On the Arrangement and Use of The American Ephemeris and Nautical Almanac
Index .........
[Eph 12]
I-III
IV-XII
XII
Pa^e.
146
178
200
208
212
213
214
216
218
230
231
233
250
251
287
487
5"
518
526
542
560
566
567
571
605
607
6x0
648
650
660
661
664
665
668
671
675
676
678
682
683
685
71:
INTRODUCTION.
The Bphemeris for the Meridian of Greenwich, comprising Part I of this
volume, has been constructed from various tables of the Sun, Moon, and planets,
as stated below, and the ephemerides of these bodies for the meridian of Washing-
ton contained in Part II have been computed from the same tables.
The Bphemeris of the Sun is constructed from Professor Nbwcomb's Tables of
the Sun, Astronomical Papers of the American Bphemeris, Vol. VI, part i.
The adopted value of the mean equatorial horizontal parallax of the Sun is
8".8o, Paris Conference, May, j8g6.
The Sun's rectangular equatorial coordinates are computed from the longi-
tudes and latitudes by the following formulae:
X ^ RcosX
Y = R sinX cos co — 19.3 R /S
Z = R sin X sin GO + 44.5 R /?
The reductions to mean equinox are computed by the formulae —
jdX ^-{-YsecGo/JXsini"
AY « - X cos a? J\ sin i" -h ZAoo sin 1" + 9.1 r /? sin (A. -|- 6®)
AZ X sin c» AX sin \" - YAgo sin i" - 21.0 r R sin (A. + 6°)
where the numerical coefficients are in units of the seventh place of decimals and
/^ = the Sun's radius vector;
A. = the Sun's true longitude;
/?=the Sun's true latitude, expressed in seconds of arc;
a?=the obliquity of the ecliptic;
JA. = the reduction of longitude for precession and nutation from the begin-
ning of the Besselian fictitious year;
J COS the reduction of the mean to the apparent obliquity;
r = the fraction of the year since the beginning of the Besselian fictitious year.
The longitude, latitude, and parallax of the moon are derived from Hansen's
'^Tables de la Lune'* (London, 1857), the mean longitude being corrected as in
previous years, beginning with the volume for the year 1883. The statement
concerning these corrections which is contained in the volumes from 1883 to 1911
inclusive, is erroneous, in that they have not been computed strictly in accordance
with the formulae in Nbwcomb's Researches on the Motion of the Moon, part i, page
268. The expression actually used for these corrections is as follows:
-i".i4-o".29i7 (t-i8oo)- 0^.0376 (t-i8oo)*-V,-i5".49COS A
which is the same as the formula referred to, except that the term — o".09 sin A
has been omitted, and the constant 3'^86 has been replaced by 3".76.
tEph la] VII
VIU INTRODUCTION.
The ephemerides of Mercury, Venus, and Mars are derived from Professor
Newcomb's tables of these planets, Astronomical Papers of the American Ephemerts,
Vol. VI, parts 2, 3, and 4.
The ephemerides of Jupiter and Saturn are derived from the tables constructed
in this office by Dr. George W. Hill, Astronomical Papers of the American Ephem-
eris, Vol. VII, parts i and 2.
The ephemerides of Uranus and Neptune are derived from Professor New-
comb's tables of these planets. Astronomical Papers of the American Ephemeris,
Vol. VII, parts 3 and 4.
The nutation used in computing the ephemerides of the Sun, Moon, and planets
has been taken from Tables XXXII and XXXIII of Newcomb's Tables of the Sun,
Astronomical Papers of the American Ephemeris, Vol. VI, part i, and is given at
intervals of five dajrs on page 214. The formulae from which the nutation is com-
puted are as follows, the time interval T being expressed in units of 100 years»
reckoned from 1900. See Tables of the Sun, page 26.
dtp = -(i7''.234 + o".oi7 T) sin ft de ^ +9".2i4 cos ft
+ o".209 sin 2 ft — o".090 cos 2 ft
— i".257 sin 2 L -f 0^.546 cos 2 L
- o".049 sin (3 L + 78^.7) +o".02i cos (3 L + 78^.7)
+ o".iio sin (L + 75*'.3) -o".oo9 cos (L - 78^.7)
These formulae for the nutation are practically the same as those used in the
reduction to apparent place of the 10-day stars, pages 287 to 486.
The list of 825 stars contained in Part II has been selected from Newcomb's
Catalogue of Fundamental Stars, Astronomical Papers of the American EphemeriSf
Vol. VIII, part 2. The mean places and annual variations of the stars have been
taken from Newcomb's Catalogue, except that those of e Hydri, 38 Horologii (G),
and TT Centauri have been taken from **Veroeffentlichungen des Koeniglichen Astro-
nomischen Rechen-Instituts zu Berlin, No. jj.'*
The relative accuracy with which the places of the stars are determined in
both right ascension and declination, may be estimated approximately from the
mean errors for the year 1920, given on pages 51 1-5 17, and taken from Astronomical
Papers of the American Ephemeris, Vol. VIII, part 2, pages 370-382.
The constants of precession, nutation, aberration, and obliquity of the ecliptic,
used in the reduction of stars to apparent place, are given on page 214, and the
formulae for the computation of the Besselian and Independent Star Numbers are
given on page 216, the coefficients being those given by Professor Newcomb in
Bulletin Astronomique, Tome XV, page 241.
The terms of short period of the nutation depending on the Moon's mean
longitude are tabulated for Washington mean midnight of each day on pages
231-232, and have been taken from Tables XXXIV to XXXVII of Newcomb's
Tables of the Sun mentioned above, which tables are computed from formulae given
on page 27 of the same work.
The method by which the right ascensions and declinations of the stars inter-
polated from the 10-day ephemerides (pp. 287-486) are corrected for the effect of
these short-period terms is given on page 217.
According to the formulae on pages 216 and 217 the star constants a, 6, c, d,
a\ b\ c', d' are computed for each star from its mean place at the beginning of the
[Epb IS]
INTRODUCTION.
IX
year, but if strict accuracy is required they should be computed from the star's
mean place at date, and the following second order terms should be added to the
usual expressions for the reduction from mean to apparent place, namely —
To a— ao
s
-ho.ooo 003 T^ sin <x
To d-d.
n
3
tan d
—0.000 149 T^ cos
—0.000 0650 T^ sin 3 a
+0.000 0103 sin 2 Q cos 2a^tan ^d
—0.000 0107 cos 2 Q sin la
4-0.000 0620 sin 2 O cos id
—0.0000622 cos 2 0 sin ia
4-0.000 0513 sin (0+0) cos 2d
— 0.000 0507 cos (0+Q) sin ia
+0.000 0097 sin (0—0) cos 2a
—0.000 0053 cos (0-0) sin aa
tan b
sec'd
tan ^ sec ^
+0.000 975 T* sin 'a
—0.000 023 cos 2 0
—0.000 080 cos 2 0 cos 2a
—0.000 077 sin 2 Q sin 2a
+0.000 040 cos 2 0
—0.000 467 cos 2 0 cos 2 a
—0.000 465 sin 2 0 sin 2a .
—0.000 039 cos (0+0)
—0.000 380 cos (0+0) cos 2a
—0.00c 385 sin (0+0) sin 2a
—0.000 380 cos (0—0)
—0.000 040 cos (0—0) cos 2a
—0.000073 sin (0—0) sin 2a
sin b tan b
These terms are negligible for stars whose declination is numerically less than
80°, but in computing the apparent places given in the American Ephemeris they
have been applied whenever sensible.
The apparent places of a Canis Majoris (Sirius), cr Canis Minoris (Procyon),
a^ Centauri and 61 Cygni have been corrected for the effect of annual parallax,
the adopted constants of parallax being o".38, o".27, 0^.75, and o".40, respectively.
The apparent places of a Canis Majoris (Sirius), a Cams Minoris (Procyon),
and a* Centauri have been corrected for the effect of orbital motion, as tabulated
on pages 98 and 99 of " VeroeffenUichungen des Koeniglichen Astronomischen Rechen-
Instituts zu Berlin, No. jj,'* AuwER's elements were used for Sirius and Procyon,
and Sbe's elements for a* Centauri. The values of these corrections are —
Sirius.
Procyon.
a' Centauri.
1912.0 1913.0
1912.0 1913.0
1912.0 1913.0
^a
— 0P.218 — 0P.223
— 0^.042 — 0P.048
+ 0P.693 +o'».686
M
-o".38 -o''.52
-o".66 -o".57
+ 7".22 +7" .00
[In former issues of the Atnencan Ephemeris, values differing from the above,
were used for Sirius and Procyon, and no correction was applied to a* Centauri.]
The mean places of these three stars as printed are those derived from Nsw*
comb's Ftmdamental Catalogue, without correction, being in each case the position
of the center of gravity of the system.
The values of J a and ^d which are given for the companions to the stars
Y Andromedae, ^ Ursae Majoris -and 61 Cygni have been taken from the Greenwich
10- year catalogue for 1890, those for a Cruds from the Cape Catalogue for 1900,
and those for a Geminorum from Dobbrck's elements in the Astfonomische Nach-
richten No. 3970.
The magnitudes of the stars have, with a few exceptions, been taken from
Annals of the Harvard College Observatory, Vol. L.
In general, the names of the stars are the same as in Nbwcomb's Suggested
List of Fundamental Stars, except that the Plamsteed number has been omitted
in all cases where Greek or italic letters are available. In some cases the con-
[Eph xa]
X INTRODUCTION.
stellation and number of the uranometries of Heis or Gould have been used. In
aU such cases, Heis or the letter G in parentheses, follows the constellation name,
as, for example, 5 Cassiopeiae (Heis) and 38 Horologii (G).
The stars occulted by the Moon, pages 567-570, have been selected from the
catalogue of zodiacal stars contained in Vol. VIII, Part 3, Astronomical Papers of
the American Ephemeris, and the mean places for 191 2.0 have been derived from
the same catalogue.
In Part III the elements of eclipses of the Sun and occultations of stars by
the Moon are given in accordance with Bessbl's method, the special forms employed
being a modification of those developed in Chauvenet's Spherical and Practical
Astronomy.
In the computation of the elements of Eclipses of the Sun, the following
corrections to the longitude, latitude, and parallax of the Moon, deduced by the
late Prof. Simon Newcomb from recent observations of occultations of stars by
the Moon, have been applied. These corrections have been assumed in each case
to be constant during the eclipse.
G. M. T.
dv
6b
dx
1912
//
//
//
April 17** 0**
+ 9-8
+ 1-7
+ 0.4
Oct. 10 2
+ 7-8
+ 0.4
-fO.4
The satellites of Mars are computed from manuscript tables based upon
elements deduced by Prof. Walter S. Harshman.
The eclipses of Jupiter's satellites are computed from a Continuation of
Damoiseau's Tables. The occultations, transits, etc., are computed from Wool-
house's tables, published in the British Nautical Almanac for 1835; Table II of
each satellite having been adapted to Damoiseau's tables.
The Vth. satellite of Jupiter is computed from manuscript tables based upon
unpublished elements deduced from the observations of Prof. £. E. Barnard.
The dififerential coordinates of Jupiter's Vlth. and Vllth. satellites have been
computed from elements and tables published in Lick Observatory Bulletin No. 112
and in Astronomische Nachrichten, Vol. 174, p. 359, respectively.
The elongations and conjunctions of the satellites and the positions of the
rings of Saturn are computed from manuscript tables based on Prof. H. Struve's
elements as published in Bechachtungen der Saturnstrabanten, St. Petersburg, 1898.
The differential coordinates of Phoebe have been computed from elements and
tables printed in the Annals of Harvard College Observatory, Vol. LIII, No. VI.
The apparent dimensions of the rings of Saturn are computed from Bessel's
data, except those for the dusky ring, which are based on the observations of
various astronomers.
The elongations of the satellites of Uranus are computed from the data of
Professor Newcomb's Uranian and Neptunian Systems, Washington Observations,
1873, Appendix I.
The elongations of the satellite of Neptune are computed from manuscript
tables based upon the late Prof. A. Hall's elements published in the Astronomical
Journal, 1898, Vol. XIX, p. 65.
[Eph 12]
INTRODUCTION. XI
The adopted apparent semidiameter of the Sun at the Earth's mean distance
is 1 6' I'^5o; while in the computation of eclipses, the value given by AuwERS in
the Astronomische Nachrichten, 1891, Bd. 128, S. 367, is employed, viz, 15' 59".63.
The apparent semidiameter of the Moon is computed from the Moon's equa-
torial horizontal parallax, tt, by the formula,
8=0.272 506 7C + l".50
where the constant 0.272 506 is based on data from occultations given by Mr.
J. Peters in the Astronomische Nachrichten, 1895, Bd. 138, S. 147; and the
constant I'^50 is added to cover the average effect of irradiation.
The value of the Moon's semidiameter employed in the computation of eclipses
is computed from the formula,
8=0.272 274 Tt
the constant being the one used in this Bphemeris prior to 1902.
The adopted semidiameters of the planets are given on page XIII and the
parallaxes of the 8un and Moon on page XII.
The stellar magnitudes of the planets given on pages 607-609 have been
computed from formulae given by Dr. G. MuELLER in the Potsdam Observations,
vol. 8, p. 366.
In the list of observatories, pages 650-659, the latitudes given are in most
cases astronomical. In some instances they have been determined by geodetic
triangulation from other points. The reductions from geographic to geocentric
latitude, ^'-<p, and the distance from the center of the earth, p, are computed
from the formuke for Clarke's 8pheroid of 1866 as given on page XII.
[Eph xa]
ASTRONOMICAL CONSTANTS.
//
Paris Conference.
Newcomb.
Solar Parallax 8.80
Constant of Nutation 9.21
Constant of Aberration 20.47
General Precession 5o".25644-o".ooo222(t— 1900)
Obliquity of the Ecliptic .... 23'' 27' 8".26-o''.4684(t- 1900) .
Equatorial Horizontal Parallax of the Moon .... 57'2".68* (Newcomb).
Mean distance Earth to Moon 384395 kilometers=238 85i miles, or 60.2669 radii.
Mean distance Earth to Sun 149 499935 kilometers ==92 894767 statute miles.
Velocity of light 299 860 kilometers = 186324 statute miles per second (Newcomb
and Michelson).
Light travels unit distance in 498^.566.
Gaussian Gravitation Constant, tk=o.oi7 202 099=3 548".i87 61.
m » 2h
Acceleration in one sec. due to gravity, ^=9.8060— 0.0260 cos 2 qf— :^^4
« «, f ^ Helmert.
m m 2h
Length of seconds pendulum, 7=0.993 549— 0.002 631 cos 2 9?——/. t
R
Length of the year: d
Tropical (ordinary) . 365.242 198 79 — 0.000 000 0614 (t — 1 900)
Sidereal .... 365.25636042 4- 0.000 000 001 1 (t— 1900) [ Newcomb.
Anomalistic . . . 365.259641 34 -fo.ooooooo304(t— 1900)
Length of the month: d h m
Synodical (ordinary) 29 12 44 2.8
Tropical 27 7 43 4.7
Sidereal 27 7 43 11. 5
Anomalistic 27 13 18 33.1 i
Length of the day: h m s
Sidereal 23 56 4.091 of mean solar time.
Mean Solar 24 3 56.555 of sidereal time.
Dimensions of the Earth (Clarke's Spheroid of 1866).
Equatorial Radius, 0=6378.206 kilometers or 3963.23 statute miles.
Polar Radius, 6=6356.584 ** 0^3949.79 " "
Flattening, -^^ =
a 295.0
Logarithm of the eccentricity -^^ = log 6 = 8.915 251 28
Logarithm radius = log p = 9*999 2645 + 0.000 7374 cos 2 ^ — 0.000 001 9 cos ^<p.
Reduction from geographic latitude qf to geocentric latitude <p',
^'— ^= —11' 40^.44 sin 2 9>4- i".i9 sin 4 <p.
I meter= 3.280 8333 feet, i foot = 0.304 8006 meters.
I statute mile = 0.868 392 nautical or geographical miles.
I nautical mile= 1.151 553 statute miles.
^ The paraJlax used in the computation of the ephemeris of the Moon contained in this volume is 57' a^.aj
(Hansen).
t k> is the acceleration due to the Sun's attraction at the mean distance of the Earth from the Sun, which is
also the astronomical unit of distance, the unit of time heing one mean solar day.
X 9*latitude. h ^^ elevation above sea level in meters, and log R ^^ 6. 804 16.
XII lEph 12]
Hansen.
ASTRONOMICAL CONSTANTS.
SBMIDIAMBTBRS OF THE SUN, MOON, AND PLANBTS.
At imit
Name. Distance.
f it
Sun IS 59.63
Moon 15 31.91*
Mercury 3.34
Venus 8.55
Mars 5.05
Jupiter (Equatorial) . . i 40.20
Jupiter (Pblar) .... i 34-i2
Saturn (Ei|uatorial) . . i 24.88
Saturn (Polar) .... i 17.47
Uranus 33-52
Neptune 38.66
At mean
least
Distance.
In Kilo-
meters.
In Statute
Miles.
Authority.
• ■
695 533.61
432 183.68
Auwers.
• •
I 736.69
1079.13
Newcomb.
545
2 420.83
I 504.24
Le Verrier.
30.90
6 197.01
3 850.67
Peirce.
9.64
3 660.22
2 274.37
Peirce.
23.84
72 624.56
45 127.16
Am. Eph.
22.40
68217.80
42 388.90
Peirce.
9.94
61 520.69
38 227.48
Barnard.
9.07
56 149.95
34 890.23
Barnard.
1.84
24 295.16
15 096.43
Am. Eph.
1.33
28 020.61
17411.34
Am. Eph.
ELEMENTS OF THE PLANETARY ORBITS FOR THE EPOCH 1912 — ^January 0<* G. M. T.
Mean Longi- Mean Longi- Mean Longi- Indina-
tude at the tude of the tude of the tion to the
Name. Epoch. Perihelion. Node. BcUptic.
o / // o / // O / // O / //
5 Mercury "5 4 326 76 5 10.9 47 17 17.4 7 o 11.2
9 Venus 165 4 20.94 »30 19 58.0 75 53 i5-5 3 23 37.5
© Earth 99 47 20.22 loi 25 37.7 ... ...
$ Mars 70 45 5.47 334 26 21.8 48 52 42.6 1 51 1.0
% Jupiter 242 24 21.96 12 54 18.0 99 33 33.3 I 18 29.1
\l Saturn 53 23 10.90 91 19 26.1 112 53 17.7 2 29 30.6
§ Uranus 294 57 2.33 169 14 25.8 73 33 2.1 o 46 21.9
^ Neptune in 24 32.14 43 51 38.2 130 48 38.9 i 46 41.2
Name.
5 Merctuy .
9 Venus
© Earth . .
$ Mars . .
% Jupiter
\ Saturn
S Uranus
tp Neptune .
Eccen-
tricity.
0.205 6167
0.006 8150
0.016 7460
0-093 3198
0.048 3570
0.055 84S2
0.0470781
0.0085410
Mean Dis-
tance.
0.387 099
0.723 331
1. 000 000
1.523688
5.202 803
9538 843
19.190978
30.070 672
Logarithm
of the mean
Distance.
9.587 8216
9.859 3374
0.0000001
0.182 8962
0.7162374
0-9794957
1.283 0971
1.478 1431
Mean daUy
Motion.
//
14732.420
5 767.670
3548.193
I 886.519
299.128
120.455
42.23
21.53
Logarithm of
Mass in unit
of Sun's Mass.
3.221 8487 — 10
4.3893398-10
4.482 2896 — 10
3-5095499-10
6.9799082 — 10
6.4557335-10
5.6407528 — 10
5705 5338-10
The elements of the four inner planets are derived from those given by New-
comb in Vol. VI of the Astronomical Papers of the American Ephemeris, and are
the same as those used in computing the ephemerides of these planets. Those of
Jupiter, Saturn, Uranus, and Neptune are taken from Vol. VII of the Astronomical
Papers for the epoch of the tables. They are reduced to 191 2 by applying Le
Verrier's variations, and can not be regarded as being strictly identical with the
elements used in computing the ephemerides of those planets in this volume.
^At mean distance.
[Eph xa]
XIII
ANNIVERSARIES AND FESTIVALS, 1912.
New Year's Day Jan. i
Epiphany Jan. 6
Septuagesima Sunday Feb. 4
Lincoln's Birthday Feb. 12
Quinquagesima (Shrove Sunday) . Feb. 18
Ash Wednesday Feb. 21
Washington's Birthday Feb. 22
Pahn Sunday Mar. 31
First Day of Passover Apr. 2
Good Friday Apr. 5
Easter Sunday Apr. 7
Rogation Sunday May 12
Ascension Day (Holy Thursday) May 16
Hebrew Pentecost (Shebuoth) May 22
Pentecost (Whit Sunday) May 26
Memorial Day May 30
Trinity Sunday June 2
Corpus Christi June 6
Independence Day July 4
Labor Day (except in certain States) .... Sept. 2
Day of Atonement (Yom Kippur) Sept. 21
First Day of Tabernacle (Sucoth) Sept. 26
General Election Day (except in certain States) Nov. 5
Thanksgiving Day Nov. 28
First Sunday in Advent Dec. i
Christmas Day Dec. 25
XIV [Eph lal
CHRONOLOGICAL ERAS AND CYCLES.
CHRONOLOGICAL ERAS.
THB YBAR 19 1 2, WHICH COMPRISBS THB'LATTBR PART OP THB I36TH AND THB BBGINNING OP TH8
137TH YBAR OP THB INDBPBNDBNCB OP THB UNITBD STATBS OP AMBRICA, CORRBSPONDS
11
It
II
If
The year 6625 of the Julian Period;
7420-7421 of the Byzantine era, the year 7421 commencing on Sep-
tember I ;
5672-5673 of the Jewish era, the year 5671 commencing on September
12, or, more exactly, at sunset on September 11 ;
2665 since the foundation of Rome, according to Varro;
2659 since the beginning of the era of Nabonassar, which has been
assigned to Wednesday, the 26th of February of the 3967th
year of the Julian Period; corresponding, in the notation of
chronologists, to the 747th, and, in the notation of astronomers,
to the 746th year before the birth of Christ;
2688 of the Olympiads, or the second year of the 672d Olympiad,
commencing in July, 1912, if we fix the era of the Olympiads
at 775)4 years before Christ, or near the beginning of July of
the year 3938 of the Julian Period;
2224 of the Grecian era, or the era of the SZhBVCJDM, which began
near the vernal equinox of the year, — 311 = B. C. 312, = 4402
of the Julian Period;
1628 of the era of Diocletian;
2572 of the Japanese era and to the 43d year of the period entitled
"Meiji."
The year 1331 of the Mohammedan era, or the era of the Hegira, begins on
the nth day of December, i9i2.'
The first day of January of the year 1912 is the 2,419,403d day since the com-
mencement of the Julian Period.
CHRONOLOGICAL CYCLES.
It
II
Dominical Letter GF
Epact II
Lunar Cycle or Golden Number 13
Solar Cycle 17
Roman Indiction .... 10
Julian Period 6625
(Bph za]
XV
SYMBOLS AND ABBREVIATIONS.
O The Sun.
C The Moon.
S Mercury.
9 Venus,
e The Earth.
SIGNS OF THE PLANETS, ETC.
V
Mars.
Jupiter.
Saturn.
Uranus,
Neptune.
Summer] *
Signs, j
n
Aries.
Taurus.
Gemini.
Cancer.
Leo.
Virgo.
SIGNS OF THE ZODIAC,
Autumn
Signs
Winter
Signs
:^ Libra.
TTL Scorpius.
/ Sagittarius.
yj Capricomus.
Off Aquarius.
K Pisces.
ASPECTS,
6 Conjunction, or having the same Longitude or Right Ascension.
D Quadrature, or differing ±90® in Longitude or Right Ascension,
^ Opposition, or differing 180® in Longitude or Right Ascension.
ABBREVIATIONS.
Q Ascending Node.
15 Descending Node.
N. North.
S. South.
E. East.
W. West.
o
f
ff
h
m
■
Degrees.
Minutes of Arc.
Seconds of Arc.
Hours.
Minutes of Time.
Seconds of Time.
XVI
[Bph lad
PART I.
ASTRONOMICAL EPHEMERIS FOR THE
MERIDIAN OF GREENWICH.
[Eph x2]
JANUARY, 1912.
AT GREENWICH APPARENT NOON.
Day of
the Week.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
I
2
3
4
5
6
7
8
lO
II
12
13
14
15
i6
17
i8
20
21
22
23
24
25
26
27
28
29
30
31
32
THE SUNS
Apparent Right
Ascension.
m
84221.37
8 46 46.49
8 51 11.26
8 55 35.68
85959.71
9 423.33
9 846.53
913 9.28
91731.55
921 53.31
9 26 14.54
9 30 35.23
9 34 55.33
9 39 14.83
94333.71
94751.96
952 9.54
9 56 26.42
20 o 42.58
20 4 58.02
20 9 12.71
20 13 26.64
20 17 39.80
20 21 52.16
20 26 3.72
20 30 14.46
20 34 24.38
20 38 33.48
20 42 41.74
204649.16
20 50 55.74
2055 1-49
Diflf. for
X Hour.
s
11.053
11.039
11.025
11.009
10.992
10.975
10.957
10.939
10.919
10.896
10.873
10.850
10.826
10.800
10.773
10.746
10.717
10.688
10.658
10.628
10.597
10.565
10.533
10.500
10.465
10.430
10.396
10.361
10.326
10.291
10.256
I0.222
Apparent Decli-
nation.
S.23 543.7
23 I 1.5
225551.6
22 50 14.4
22 44 lO.O
22 37 38.5
22 30 40.3
22 23 15.3
22 15 23.9
22 7 6.3
21 58 22.7
21 49 13.3
21 39 38.4
21 2938.3
21 19 I3.I
21 8 23.3
2057 9.2
2045 31.0
203329.1
20 21 3.9
20 8 15.7
1955 4.8
19 41 31.7
19 27 36.7
19 13 20.0
18 5842.3
18 43 43.9
18 28 25.0
18 12 46.2
17 5648.0
174030.7
S. 17 23 54-5
Diflf. for
z Hour.
+11. 19
12.34
13-49
+I4'63
15.75
16.87
+17.98
19.09
20.19
+21.28
22.36
23.43
+24.49
25.53
26.57
+27.59
28.59
29.58
+30.56
31.53
32.48
+33-41
34.33
35-24
+36.13
37.01
37.86
+38.70
39.52
40.32
41.11
+41.89
Semidiam-
eter.
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
7.89
7.90
7.90
7.91
7.91
7.90
7.87
7.84
7.80
7.76
7.72
7.67
7.61
7-55
7.48
7.41
7.34
7.26
7.18
7.10
7.01
6.92
6.82
6.72
6.62
6.52
6.41
6.29
6.16
6.03
5.90
6 15.76
Sidereal
Time of
Semidi-
ameter
Passing
Me-
ridian.
s
71.09
71.04
71.00
70.95
70.90
70.84
70.78
70.71
70.64
70.57
70.50
70.42
70-34
70.26
70.17
70.08
69.98
69.88
69.78
69.68
69.57
69.47
69.36
69.26
69.15
69.04
68.93
68.82
68.71
68.60
68.48
68.37
Egnation of
Time, to be
Added to
Apparent
Time.
m
8
3 13.30
3 41.79
4 9-93
4 37.71
5 5.11
532.11
5 58.67
6 24.78
6 50.41
7 15.54
740.15
8 4.21
8 27.70
8 50.59
9 12.86
9 34.48
9 55.42
10 15.68
o 35.24
0 54.08
1 12.17
I 29.49
I 46.04
2
1.80
Diff.
for
X Hour.
2 16.76
2 30.91
2 44.24
2 56.74
3 8.41
3 19.25
3 29.25
1338.41
s
.193
.179
.165
.149
-133
.115
.097
-077
.057
.036
.014
0.990
0.966
0.941
0.914
0.887
0.859
0.830
a 800
0.769
0.738
0.706
0.673
0.640
0.607
0-573
0.538
0.504
0.469
0.434
0.400
0.365
NoTS.— The mean time of semldiameter passing may be found by subt:
The sign + prefixed to the hourly change of declination Indica
cting OP. 19 from the sidereal time.
es that south declinations are decreasing.
11.
JANUARY, 1912.
AT GREENWICH MEAN NOON.
Day of
the week.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN
Mon.
Tues.
Wed.
rhur.
o
I
2
3
4
5
6
7
8
lO
II
12
13
15
i6
17
i8
20
21
22
23
24
25
26
27
28
29
30
31
32
THE SUN'S
Apparent Right
Ascension.
m
8
8 42 20.78
8 46 45.81
8 51 10.50
8 55 34-84
8 59 58.79
9 422.33
9 845-45
9 13 8.12
9 1730.30
921 51-99
926 13.15
9 30 33-77
93453-81
93913-25
9 43 32.07
9 47 50.25
952 7.76
9 56 24.58
20 o 40.70
20 4 56.09
20 9 10.73
20 13 24.62
201737-74
20 21 50.06
20 26 1.58
20 30 12.29
20 34 22.18
20 38 31.25
20 42 39.48
20 46 46.87
20 50 53.44
205459-17
Diff. for
X Hour.
s
1.049
1-035
T.021
1.006
0.990
0.972
0.953
0.934
0.914
0.893
0.870
0.847
0.822
0.797
0.770
0.743
0.7x5
0.686
a656
0.626
0.595
0.563
0.530
0.497
0.463
0.429
0.395
0.360
0.326
0.291
0.256
10.221
Apparent Declina-
tion.
S.23 544.3
23 I 2.2
22 55 52.5
22 50 15.5
22 44 1 1. 3
22 3740.1
22 30 42.0
22 23 17.3
22 15 26.2
22 7 8.8
21 58 25.5
21 49 16.4
21 3941.8
21 29 42.0
21 19 17.2
21 8 27.7
205713.9
20 45 36. 1
20 33 34.6
2021 9.7
20 8 21.8
19 55 II. 2
19 41 38.4
19 27 43.7
19 13 27.4
18 58 50.0
184351-9
iS 28 33.4
18 12 55.0
17 56 57-0
17 40 39.9
S. 17 24 4.0
Diff. for
I Hour.
+11. 18
12.33
13-47
+14.61
15.74
16.86
+17.97
19.08
20.17
+21.26
22.34
23.41
+24.47
25.51
26.55
+27.57
28.58
29.57
+30.55
31.52
32.47
+33«40
34-32
35-23
+36.12
37.00
37-85
+38.69
39.51
40.31
41.10
+41.88
Equation of
Tune, to be
Subtracted
from
Mean Time
m
3 13-24
341.72
4 9.85
4 37-62
5 5.01
5 32.00
5 58.56
6 24.66
6 50.29
7 15-42
7 40.02
8 4.08
8 27.57
8 50.45
9 12.71
9 34-33
9 55-28
10 15.54
o 35.10
0 53-94
1 12.03
I 29.36
1 45-91
2 1.68
2 16.65
2 30.80
244.13
2 56.64
3 8.31
319-15
3 29.16
Diff. fox
I Hour.
s
-193
.179
.165
.149
.133
.115
.097
.077
-057
.036
.014
0.990
0.966
0.940
0.914
0.887
0.859
0.830
0.800
0.769
0.738
0.706
0.673
0.640
0.607
0.573
0.538
0.504
0.469
0.434
0.400
3 38.33 ' 0.365
Sidereal Time,
or Right A8cen>
aion of Mean
Sun.
h m s
839 7-54
843 4.10
8 47 0.66
8 50 57.22
8 54 53.78
8 58 50.33
9 2 46.89
9 643.45
9 10 40.01
9 14 36.57
91833.13
9 22 29.68
9 26 26.24
9 30 22.80
9 34 19-36
9 38 15.92
9 42 12.48
946 9-03
950 5.59
9 54 2.15
9 57 58.71
20 I 55.27
20 551.82
20 948.38
20 13 44.94
20 17 41.50
20 21 38.05
ao 25 34.61
20 29 31.17
20 33 27.72
20 37 24.28
20 41 20.84
Note. — The semldiameter for mean noon may be assumed the same as that for apparent noon.
The sign + prefixed to the hourly change of declination indicates that south declina-
tions are decreasing.
Diff. for X Hour»
+9«.8565.
(Table III.)
JANUARY, 1912.
III.
AT GREENWICH MEAN NOON.
•
I
2
3
4
5
6
7
8
lO
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
«
1
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
THE SUN'S
True Longitude.
27944 7-0
28045 15.6
281 46 24*2
282 47 32.6
283 48 40.9
284 49 49-3
285 50 57.6
28652 6.1
287 53 14-5
288 54 23.0
2895531-5
290 56 40.0
291 57 48.4
292 58 56.7
294 o 4-7
295 I 12.4
296 2 19.8
297 326.7
298 433.1
299 538.9
300 6 44.0
301 7 48.2
302 8 51.6
303 954.0
304 10 55.4
305 II 55-7
306 12 54.8
307 13 52.8
308 14 49.5
309 15 44.9
310 16 39.0
311 1731-9
A'
4414-3
45 22.7
46 31.0
47 39-2
48 47-4
49 55'^
51 3.8
52 12.0
53 20.3
54 28.6
55 36.9
56 45-2
57 53-4
59 1-5
0 9.3
1 16.9
2 24.1
330.8
4 37-0
5 42.6
647-5
751-6
854.8
9 57-0
10 58.2
11 58.3
12 57.3
13 55-1
14 51.6
1546.9
1640.9
17 33.6
Diff. for
X Hour.
NoTB. — The longitudes in the column A are referred to the true equinox of their own date, while
those in the column A' are referred to
selian fictitious year.
52.86
52.86
52.85
52.85
52.85
52-85
52.85
52.85
52.85
52.85
52.85
52.85
52.85
52.84
52.83
52.82
52.80
52.78
52.75
52.72
52.69
52.66
52.62
52.58
52.54
52.49
52.44
52.39
52.34
52.29
52.23
52.18
Latitude.
+0.61
0.71
0.78
+0.83
0.84
0.82
+ 0.77
0.69
0-59
+0.47
0-34
0.21
+0.08
—0.04
0.15
— 0.24
0.30
0.34
-0.35
0.33
0.29
—0.23
0.15
—0.04
+0.07
0.19
0.32
+0.44
0-54
0.63
0.67
+0.67
Logarithm of the
Radius Vector of
the Earth.
9.992 6508
9.992 6467
9.992 6454
9.992 6470
9-9926516
9.992 6592
9.992 6696
9.992 6828
9.992 6987
9.992 7171
9.992 7378
9.992 7607
9.992 7857
9.992 8127
9.992 8416
9.992 8722
9.992 9046
9.992 9387
9.992 9745
9.993 01 19
9-993 0509
9.9930915
9-993 1338
9-993 1778
9.993 2235
9.993 2710
9-993 3205
9-993 3721
9-993 4259
9.993 4820
9-993 5405
9.993 6015
Diff. for
X Hour.
- 2.3
— I.I
+ 0.1
+ 1.3
2.6
3.8
+ 4.9
6.0
7.1
+ 8.1
9.1
10.0
•fio.8
11.7
12.5
+13.2
13.9
14.6
+15.2
15.9
x6.6
+17.3
18.0
18.7
+19.4
20.2
21.0
+21.9
22.9
23-9
24.9
+26.0
he mean equinox of the beginning of the Bes-
Mean Time of
Sidereal Noon.
m
5 19 59-90
5 16 398
5 12 8.07
5 812.15
5 4 16.24
5 020.33
4 56 24.42
4 52 28.50
4 48 32.59
4 44 36.68
4 40 40.76
4 36 44,85
4 32 48.94
4 28 53.03
42457.12
421 1.20
417 5-29
413 9-38
4 913-47
4 517.55
4 I 21.64
3 57 25.73
3 53 29.82
34933-91
3 45 38.00
3 41 42.08
33746.17
3 33 50-26
3 29 54-35
3 25 58.44
322 2.53
3 18 6.62
Diff. for X Hour,
-9^.8296.
(Table 11.)
IV.
JANUARY, 1912.
GREENWICH MEAN TIME.
THE MOON'S
a
o
«
«-•
o
cd
Q
I
2
3
4
5
6
7
8
lO
II
12
13
14
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
31
32
SBMIDIAMBTBR.
Noon.
6 23.2
6 35.6
6 44.2
6 47.4
6 44.9
6 37.1
6 25.0
6 10.3
5 54-4
5 38.8
5 24.5
5 12.2
5 2.0
4 54-2
4 48.6
4 45.1
4 43-3
4 43-2
4 44-5
4 47-2
4 51-2
4 56.6
5 3-5
5 12.0
5
5
6
6
6
6
22.2
33-9
5 47.0
0.8
14-5
26.8
36.3
16 41.8
Midnight
6 29.8
6 40.5
6 46.5
6 46.9
6 41.6
6 31-5
6
6
5
5
5
4
4
4
5
5
5
17.9
2.4
46.5
31-4
18. 1
6.8
4 57.8
4 51-2
4 46.6
4 44-0
4 43-1
4 43-7
HORIZONTAL PARALLAX.
45-7
49.0
53.7
59.8
16.9
27.9
40-3
5 53.9
6 7.7
6 20.9
6 32.0
6 39.6
16 42.7
Noon.
60 2.4
60 48.4
61 19.4
61 31.3
61 22.1
60 53.4
60
59
58
9.1
15.0
16.8
57 19-7
56 27.2
55 41-8
55 4-6
54 35-9
54 15.4
54 2.4
53 56.0
53 55*5
54 0-3
54 lo-i
54 24.8
54 44-6
55 9-9
55 4I-I
56 18.5
57 1.6
57 49-6
58 40-3
59 30-4
60 15.6
60 50.6
61 10.7
Diflf. for
X Hour.
+2.14
1.63
0.91
+0.06
—0.80
X.55
-2.08
2.36
2.42
-^.30
2.05
1.72
-1.38
1.02
0.69
—0.40
-0.14
40.09
+0.31
0.51
0.72
+0.94
1. 18
X.43
+1.68
1.91
2.07
+2.12
2.01
1.70
I.X7
+0.47
Midnight
60 26.9
61 6.1
61 27.9
61 29.3
61 10.0
60 32.9
59 42.9
58 46.1
57 47.8
56 52.7
56 3.5
55 22.2
54 49-2
54 24.7
54 8.0
53 58.4
53 55-0
53 57.3
54 4-6
54 16.8
54 34-0
54 56.5
55 24.8
55 59-0
56 39.4
57 25.1
58 14.8
59 5-7
59 53-9
60 34.7
61 2.8
61 14.0
Diff.for
X Hour.
+1.91
1.29
+0.50
-0.38
1.20
1.85
—2.25
2.42
2.38
--2. 19
1.89
1-55
—1.20
0.85
0.54
-a27
—0.02
+0.20
+0.41
0.61
0.83
+1.06
1.30
1.56
+1.80
2.00
2.11
4-2.09
1.88
1.46
0.84
+0.07
UPPER TRANSIT.
Meridian of
Greenwich.
h m
9 17-9
10 21. 1
11 28.6
12 36.7
13 41-6
14 40.9
15 34-4
16 23.2
17 8.9
17 52.8
18 36.4
19 20.8
20 6.9
20 55.0
21 45.0
22 36.2
23 27.3
o
X
I
2
3
3
17.2
5-C'
50-4
33.8
-^5-7
57.1
4 39-3
5 23.4
6 ii.o
7
8
9
lO
3.4
1.5
5-0
11.7
Diff. for
X Hour.
11 17.9
m
2.51
2.74
2.85
2.79
2.60
2.35
2.12
1.96
1.86
1.81
1.82
1.88
1.96
2.05
2.12
2.14
2.II
2.04
1.94
1.85
1.77
1.72
1-73
1.79
1.90
2.08
2.30
2.54
2.73
2.80
2.70
AGE.
Noon.
d
1 1.8
12.8
13.8
14.8
15.8
16.8
17.8
18.8
19.8
20.8
21.8
22.8
23.8
24.8
25.8
26.8
27.8
28.8
0.0
I.O
2.0
30
4.0
5.0
6.0
7.0
8.0
9.0
10.0
II.O
12.0
13-0
JANUARY, 1912.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diflf.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
X Min.
Declination.
for
I Min.
Hoar.
Right Ascension.
for
X Min.
DecUnadoa
for
z Min.
MONDAY I.
WEDNESDAY 3.
h m 8
s
0 « n
"
h m 8
8
0 t ft
»»
O
3 35 3-56
2.4849
N.2I 46 0.3
11.379
0
5 44 26.92
a. 8604
N.27 41 41. 1
3.76^
I
3 37 32-94
2.4946
21 57 13.3
II. 153
I
5 47 18.66
a.8643
27 44 20.4
2.546
2
3 40 2.90
2.5042
22 8 18.6
11.023
2
5 50 10.62
3.8679
274646.5
a- 325
3
3 42 33.45
2.5139
22 19 16. 1
ID. 892
3
5 53 2.79
3.8712
27 48 59-4
2.103
4
3 45 4.58
a. 5236
22 30 5.7
10.759
4
5 55 55-16
3.8743
27 50 58.9
x.88a|^
5
3 47 36.28
2.533a
22 40 47.3
10.624
5
5 58 47.71
3.8771
27 52 44.9
1.656
6
3 50 8-56
a.54a8
22 51 20.6
XO.486
6
6 I 40.42
2.8797
27 54 17.6
1.433
7
3 52 41.42
a. 55*4
23 I 45.5
10.345
7
6 433.28
2.882X
27 55 36.8
Z.Z08
8
3 55 14.86
3.5630
23 12 2.0
xo.aoa
8
6 7 26.27
2.8841
27 56 42.6
0.983
9
3 57 48.86
a. 5715
23 22 9.9
10.057
9
6 10 19.38
a. 8859
27 57 34.8
0.757
lO
4 023.44
a. 58x0
23 32 9.0
9.910
10
6 13 12.59
3.8875
27 58 13.4
0.531
II
4 2 58.59
a. 5905
2341 59.1
9.761
II
6 16 5.88
3.8888
27 58 38.5
0.305
12
4 534.30
3.5999
23 51 40.2
9.609
12
6 18 59.24
3.8899
27 58 50.0
40,078
13
4 8 10.57
a.6o9a
24 I 12. 1
9.454
13
6 21 52.66
3.8907
27 58 47.8
-0.X49
14
4 10 47.40
a. 6185
24 10 34.7
9.397
14
6 24 46.12
3.89x3
27 58 32.1
0.376
15
4 13 24.79
a. 6378
24 19 47.8
9.138
15
6 27 39.60
3.89x4
27 58 2.7
0.604
i6
4 16 2.73
a. 6369
24 28 51.3
8.977
16
6 30 33.09
3.8913
27 57 19.6
0.83X
17
4 18 41.22
a. 6460
243745.1
8.814
17
6 33 26.57
3.89x0
27 56 22.9
X.058
i8
4 21 20.26
2.6550
24 46 29.1
8.649
18
6 36 20.02
3.8905
27 55 12.6
x.a84
19
4 23 59.83
a. 6639
2455 3.0
8.481
19
6 39 13.43
a.8897
27 53 48.7
X.5XZ
20
4 26 39.93
a. 6738
25 3 26.7
8.310
20
6 42 6.78
3.8886
27 52 II. 2
1.738
21
4 29 20.56
a. 6815
25 II 40.2
8.138
21
6 45 0.06
3.8873
27 50 20.1
1.965
22
432 1.71
a.69ox
25 19 43.3
7.964
22
647 53.26
3.8857
27 48 15.4
3.191
23
4 34 43.37
Tt
3.6986
rESD/
N.25 27 35.8
lY 2.
7.787
23
6 50 46.35
THl
a. 8838
JRSD.
N.27 45 57.2
AY 4.
a.416
0
4 37 25.54
3.7070
N.25 35 17.7
7.608
0
6 53 39.32
3.88x7
N.27 43 25.6
a. 640
I
4 40 8.21
3.7153
25 42 48.8
7.427
I
6 56 32.16
2.8794
274040.5
8.864
2
4 42 51.38
3.7335
25 50 9.0
7.344
2
6 59 24.85
3.8768
27 37 41.9
3.086
3
4 45 35.03
3.73x6
25 57 18. 1
7.059
3
7 2 17.38
2.8739
27 34 29.9
3.309
4
4 48 19.16
a. 7395
26 4 16.0
6.87a
4
7 5 9.73
2.8708
27 31 4.6
3.533
5
4 51 3.76
a. 7473
26 II 2.7
6.683
5
7 8 1.88
3.8675
27 27 26.0
3.753
6
4 53 48.82
3.7548
26 17 38.0
6.492
6
7 10 53.83
3.8639
27 23 34.2
3.973
7
4 56 34.33
3.7623
26 24 1.7
6.299
7
7 1345.55
2.8600
27 19 29.3
4.19a
8
4 59 20.29
3.7696
26 30 13.8
6.104
8
7 16 37.03
a. 8560
27 15 II. 3
4.410
9
5 2 6.68
a. 7767
26 36 14.2
5.907
9
7 19 28.27
2.85x7
27 10 40.2
4.626
lO
5 4 53.49
3.7836
26 42 2.7
5.708
10
7 22 19.24
3.8471
27 5 56. 1
4.841
II
5 740.72
3.7904
26 47 39.2
5.508
II
7 25 9.93
3.8424
27 0 59.2
5.055
12
5 10 28.35
3.7970
26 53 3.6
5.306
12
7 28 0.33
2.8375
26 55 49.5
5.268
13
5 13 16.37
3.8034
26 58 15.9
5.X02
13
7 30 50.43
2.8334
26 50 27.0
5.480
14
5 16 4.77
3.8097
27 3 15.9
4.897
14
7 33 40.21
2.8370
26 44 51.9
5.690
15
5 18 53.53
3.8x57
27 8 3.5
4.690
15
7 36 29.67
3.83x4
26 39 4.3
5.898
i6
5 21 42.65
3.8215
27 12 38.6
4.481
16
7 39 18.78
3.8x56
26 33 4.2
6.105
17
5 24 32.11
3.8273
27 17 1.2
4.3/1
17
742 7.54
3.8096
26 26 51.7
6.3x0
x8
5 27 21.90
3.8336
27 21 II. 2
4.060
18
7 44 55.94
a. 8035
26 20 26.9
6.514
19
5 30 12.02
3.8378
27 25 8.5
3.847
19
7 47 43.96
3.7973
26 13 50.0
6.7x6
20
5 33 2.44
3.8428
27 28 52.9
3.633
20
7 5031.60
2.7907
26 7 I.I
6.9x6
21
5 35 53.16
2.8475
27 32 24.4
3.418
21
7 53 18.84
2.7840
26 0 0.2
7.114
22
53844.15
3.8530
27 35 43.0
3.301
22
7 56 5-68
2.7771
25 52 47.4
7.310
23
5 41 35.41
3.8563
27 38 48.6
3.983
23
7 58 52.10
2.7701
25 45 22.9
7-505
24
5 44 26.92
2.8604
N.27 41 41. 1
a. 765
24
8 I 38.10
2.7630
N.25 37 46.8
7.698
VI.
JANUARY, 1912.
GREENWICH MEAN TIMK
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DUL
Diff.
Diff.
DiiL
Hour.
Right Asoention.
for
zMin.
DecUnatioa
for
zMln.
Hour.
Right Ateenaioii.
for
xMin.
Declination.
for
xMiiL
F]
RIDA^
c 5.
SUNDAY 7.
h m 8
■
• 1 M
M
h m t
8
e > M
**
O
8 I 38.10
a.7«3o
N.25 37 46.8
7.698
0
10 4 20.39
a. 3399
N.16 28 57.7
14.360
I
8 4 23.66
a.7557
25 29 59.2
7.889
I
10 6 40.52
8.3313
16 14 39.7
14.339
2
8 7 8.78
a.748a
25 22 0.2
8.077
2
10 9 0.13
3.3337
16 0 17.0
14.4x6
3
8 9 53.45
a. 7406
25 13 49.9
8.863
3
10 11 19.23
3.3x43
15 45 49.7
X4.49X
4
8 12 37.65
8.7339
25 5 28.5
8.448
4
10 13 37.83
3.3058
15 31 18.1
X4.563
5
8 15 21.38
8.7350
24 56 56. 1
8.631
5
10 15 55.93
3.3974
15 16 42.2
14.633
6
8 18 4.64
a. 7170
24 48 12.8
8.8IZ
6
10 18 13.53
3.3891
15 2 2.1
14.703
7
8 20 47.42
a.7089
24 39 18.8
8.989
7
10 20 30.63
3.3810
14 47 18.0
14.768
8
8 23 29.71
a. 7006
24 30 14.2
9.X65
8
10 22 47.24
3.3739
14 32 29.9
14.833
9
8 26 11.50
a.6923
24 20 59. 1
9.338
9
1025 3.37
3.3648
14 17 38.1
14.894
lO
8 28 52.78
a.6839
24 II 33.6
9.509
10
10 27 19.02
3.3569
14 2 42.7
14.954
II
831 33.56
a.6753
24 I 57.9
9.678
II
10 29 34.20
3.3490
13 47 43.7
15.013
12
8 34 13.83
a. 6667
23 52 12. 1
9.846
12
10 31 48.90
3.34ZI
13 3241.3
15.068
13
83653.58
a.6580
23 42 16.3
XO.OXI
13
1034 3.14
8.8334
13 17 35.6
15.129
14
8 39 32.80
3.6493
23 32 10.7
10.173
14
10 36 16.92
a. 3358
13 2 26.7
X5.X73
15
8 42 11.49
a.6404
23 21 55.5
10.333
15
10 38 30.25
3.3x83
12 47 14.8
15.333
i6
8 44 49.65
a. 6315
23 n 30.8
10.490
16
104043.13
3.3109
12 31 59.9
15.278
17
8 47 27.28
a.6aa5
23 0 56.7
10.645
17
1042 55- 56
8.8035
12 16 42.1
15.3x9
i8
850 4.37
a. 61 35
22 50 13.4
10.798
18
1045 7.55
3.1963
12 I 21.6
15.363
19
8 52 40.91
8.6045
22 39 21. 0
ZO.948
19
10 47 19. 1 1
3.1891
II 45 58.6
X5.405
20
8 55 16.90
a. 5954
22 28 19.6
11.096
20
10 49 30.24
8.Z890
II 3033.1
15.446
21
8 57 52.35
a. 5863
22 17 9.4
ZX.848
21
10 51 40.95
8.1750
II 15 5.2
15.485
22
9 0 27.25
a. 5770
22 5 50.6
11.385
22
10 53 51.24
a.z68i
10 59 35.0
X5.533
23
9 3 i-6o
SAl
8.5678
rURDi
N.2I 54 23.3
\Y 6.
IX. 535
23
1056 1. 12
M(
3.16x3
3NDA
N.1044 2.6
Y 8.
15.557
O
9 535.40
8.5586
N.2I 42 47.6
XX.663
0
10 58 10.60
3.X546
N.xo 28 28.1
15.590
I
9 8 8.64
a. 5493
21 31 3.7
XX. 800
I
II 0 19.68
3.X479
10 12 51.7
15.631
2
9 10 41.32
3.5400
21 19 II. 7
XX.933
2
11 2 28.36
8.14x4
9 57 13.5
X5.65X
3
9 13 13-44
a. 5307
21 7 II. 7
Z8.064
3
II 436.65
3.1350
9 41 33.5
15.680
4
9 15 45.00
8.5314
20 55 3.9
X3.X93
4
II 644.56
3.1387
9 25 51.9
X5.707
5
9 18 16.01
a.5i3z
20 42 48.5
X8.3X9
5
II 8 52.10
3.X335
9 10 8.8
X5.73a
6
9 20 46.46
3.5038
20 30 25.7
X3.443
6
II 10 59.27
3.x 165
8 54 24.2
15.755
7
9 23 16.35
3.4936
20 17 55.5
12.564
7
II 13 6.07
2.XI0S
8 38 38.2
X5.776
8
9 25 45.68
a. 4843
20 5 18. 1
13.683
8
II 15 12.51
a. 1044
8 22 51.0
X5.796
9
9 28 14.46
a. 4750
19 52 33.6
13.798
9
II 17 18.59
2.0985
8 7 2.6
15.815
lO
9 30 42.68
3.4657
19 39 42.2
13.9x3
10
II 19 24.33
3.0938
7 51 13.2
X5.838
II
9 33 10.35
8.4564
19 26 44.1
13.033
II
II 21 29.73
3.087a
7 35 22.8
15.847
12
9 35 37.46
8.4478
19 13 39.4
13.133
12
II 23 34.80
3.0817
7 19 31.5
15.861
13
9 38 4.02
3.4380
19 0 28.2
13.340
13
II 25 39.54
3.0763
7 3 39.4
15.874
14
9 40 30.03
a. 4289
18 47 10.7
X3.343
M
II 2743.95
8.0709
6 47 46.7
15.885
15
9 42 55.49
3.4198
18 33 46.9
X3.445
15
II 29 48.04
3.0656
6 31 53.3
X5.894
i6
9 45 20.40
8.4x07
18 20 17.0
X3.546
i6
II 31 51.82
3.0605
6 15 59.4
15.903
17
9 47 44-77
3.4017
18 6 41.3
13.644
17
II 33 55.30
8.0555
6 0 5.1
X5.909
i8
9 50 8.60
2.3987
17 52 59.9
13.738
18
II 35 58.48
2.0505
5 44 10.4
I5.9M
19
9 52 31.90
a.3837
17 39 12.8
X3.830
19
II 38 1.36
a.0457
5 28 15.4
15.9x8
20
9 54 54.66
8.3748
17 25 20.2
13. 981
20
II 40 3.96
3.0410
5 12 20.3
15-980
21
9 57 16.88
3.3660
17 II 22.3
14.009
21
II 42 6.28
8.0363
4 56 25.0
15.931
22
9 59 38.57
a. 357a
i6 57 19. 1
X4.095
22
II 44 8.32
3.03x8
4 40 29.8
X5.921
23
10 I 59.74
8.3485
16 43 10.9
X4.X79
23
11 46 10.09
3.0874
4 24 34.6
15.9x9
24
10 4 20.39
8.3399
N.16 28 57.7
14.860
24
II 48 11.60
3.0330
N. 4 8 39.5
15.916
8
JANUARY, 1912.
VII
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hoar.
Right ABcention.
for
zMin.
Declination.
for
X Min.
Hour.
Right Aacenaion.
for
xMin.
Declination.
for
xMin.
TUESDAY 9.
THURSDAY 11.
h m ■
8
or*
1*
h xn 8
8
or f»
n
O
II 48 11.60
a. 0330
N. 4 8 39.5
XS.9X6
0
13 22 6.25
1.9345
S. 8 10 27.6
14.500
I
II 50 12.85
a. 0187
3 52 44-6
X5.912
I
1324 1.72
1.9847
8 24 56.0
I4.44B
2
II 52 13.85
a. 0146
3 36 50.0
15.907
2
13 25 57-20
X.9248
83921.3
14.395
3
II 54 14.60
8.0106
3 20 55.8
15.900
3
13 27 52.69
1.9850
8 53 43.4
14.341
4
II 56 15.12
a.oo66
3- 5 2.1
15.893
4
13 29 48.20
1.9354
9 8 2.3
X4.387
5
II 58 15.40
a. 0037
249 8.9
15.883
5
13 31 43-72
X.9358
9 aa 17.9
14.233
6
12 0 15.45
Z.9990
a 33 16.3
15.873
6
13 33 39.27
x.9s6x
9 36 30. 1
14.176
7
12 2 15.28
Z.99S4
2 17 24.3
XS.860
7
13 35 34-85
1.9365
9 50 39.0
14.119
8
12 4 14.89
z.9gi8
2 I 33.0
15.847
8
13 37 30.46
1.9371
10 444.4
X4.O61
9
12 6 14.29
X.9883
I 45 42.5
15.833
9
13 39 26.10
1.9378
10 18 46.4
14.003
lO
12 8 13.49
1.9850
I 29 52.9
X5.8x8
10
13 41 21.79
x.9a86
10 32 44.8
13.944
II
12 10 12.49
X.9818
I 14 4-3
X5.808
II
13 43 17.52
1.9394
10 46 39.7
13.884
12
12 12 11.30
X.9786
0 58 16.7
15.785
12
13 45 13-30
x.9303
II 0 30.9
13.833
13
12 14 9.92
1.9754
0 42 30.2
I5.7fi6
13
1347 9.14
1.9311
II 14 18.5
13-763
M
12 16 8.35
1.97*4
0 26 44.8
15.746
14
1349 5.03
x.9sax
II a8 a.4
13.700
15
12 18 6.61
2.9696
N. 0 11 0.6
X5.7a6
15
13 51 0.98
1.9S3X
II 41 42.5
13.637
i6
12 20 4.70
X.9668
S. 0 4 42.3
15.705
16
13 52 57.00
i.934«
II 55 18.8
13.574
17
12 22 2.63
Z.964Z
0 20 23.9
15.683
17
13 54 53.09
1.9354
12 851.3
13.509
i8
12 24 0.40
2.96x5
036 4.1
15.658
18
13 56 49.25
1.9367
la 22 19.9
13.444
19
12 25 58.01
X.9S90
0 51 42.8
15.633
19
13 58 45.49
X.938X
12 35 44-6
13.378
20
12 27 55.47
X.9566
I 7 19.9
15.607
20
14 0 41.81
1.9395
1249 5.3
13.311
21
12 29 52.79
X.9543
I 22 55-5
15.580
21
14 2 38.2a
X.9409
13 2 22.0
13.344
22
12 31 49.98
i.95«x
I 38 29.5
15.55a
22
M 434.71
1.9434
13 15 34-6
13.176
23
12 33 47-04
1.9500
S. I 54 1.7
15.593
23
14 6 31.30
1.9440
S.13 28 43.1
13.107
WED]
NESD
AY 10.
FF
LIDAY
12.
O
12 35 43-97
X.9479
S. 2 9 32.2
15.493
0
14 827.99
1.9456
S.134147.4
13.037
I
12 37 40.78
1.9458
2 25 0.8
15.46a
I
14 10 24.78
1.9473
13 5447.5
13.967
2
12 39 37-47
X.94S9
2 40 27.6
15.430
2
14 12 21.67
X.9491
14 7 43-4
13.896
3
12 41 34.06
X.943Z
2 55 52.4
15.397
3
14 14 18.66
1.9309
14 20 35.0
X2.834
4
1243 30.54
Z.9404
3 II 15-2
15.363
4
14 16 15.77
1.9537
14 33 22.3
13.751
5
12 45 26.92
X.9S88
3 26 36.0
15.328
5
14 18 12.99
1.9546
1446 5.2
X3.678
6
12 47 23.21
1.937a
3 41 54-6
15.393
6
14 20 10.33
x.9566
14 58 43.7
X2.604
7
12 49 19.41
X.9357
3 57 ii.i
15.356
7
14 22 7.79
X.9586
15 11 17.7
12.539
8
12 51 15-53
X.9343
4 12 25.4
15.319
8
14 24 5.38
1.9607
15 23 47.2
13.454
9
12 53 11-57
Z.9330
4 27 37.4
15.180
9
14 26 3.09
1.9639
15 36 12.1
13.377
lO
12 55 7.53
1.93x8
4 42 47.0
15.140
10
14 28 0.93
1.9651
15 48 32.4
13.300
II
12 57 3-43
1.9309
4 57 54.2
xs.xoo
II
14 29 58.91
1.9673
16 0 48.1
13.333
12
12 58 59.f?7
1.9302
5 12 59.0
15.059
12
14 31 57.02
1.9696
16 12 59.1
12.143
13
13 0 55.05
x.9a9a
528 1.3
15.017
13
14 33 55.27
1.9730
1625 5.3
X3.064
14
13 2 50.77
Z.9284
5 43 i.i
14.975
14
14 35 53.66
1.9744
16 37 6.8
11.984
15
13 446.45
X.9276
5 57 58.3
14.931
15
14 37 52.20
X.9768
1649 3-5
11.904
i6
13 6 42.09
X.9369
6 12 52.8
X4.886
16
14 39 50.89
1.9793
17 0 55.3
11.823
17
13 837.69
x.9'63
6 27 44.6
14.841
17
14 41 49.73
1.98x9
17 12 42.2
11.740
i8
13 10 33.26
2.9358
6 42 33.7
14.795
18
14 43 48.72
1.9845
1724 34.1
X 1.657
19
13 12 28.80
1.9254
6 57 20.0
14.748
19
14 45 47.86
1.9871
17 36 I.O
11.574
20
13 14 24.31
x.9a50
7 12 3.4
X4.700
20
144747.16
1.9897
17 47 32.9
n.489
21
13 16 19.81
1.9*47
7 26 43.9
14.651
21
14 49 46.63
1.9934
17 58 59-7
11.404
22
13 18 15.30
1.9345
741 21.5
14.601
22
14 51 46.26
1.9953
18 10 21.4
IX. 317
23
13 20 10.78
1.9944
7 55 56.1
14.551
23
14 53 46.06
1.9980
18 21 37.8
11.231
24
13 22 6.25
x.9a4S
S. 8 10 27.6
14.500
24
14 55 46.02
2.0008
S.18 32 49.1
11.144
VIIL
JANUARY, 1912.
GREENWICH MEAN TIMK
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Right Ascension.
Diff.
for
zMin.
Declination.
Diflf.
f6r
z Min.
Honr.
SATURDAY i.^.
Right Ascension.
DifF.
for
I Min.
Declination.
Diff.
for
X Min.
O
I
2
3
4
5
6
7
8
9
lO
II
12
13
15
i6
I?
i8
19
20
21
22
23
O
I
2
3
4
5
6
7
8
9
lO
II
12
13
14
15
i6
17
i8
19
20
21
22
23
24
AW 8
4 55 46.02
4 5746.15
4 59 46.45
5 I 46-93
5 347-58
5 548.42
5 749.43
5 9 50.62
5 II 52.00
5 13 53-57
5 15 55.32
5 17 57-26
5 19 59.39
5 22 1.71
5 24 4.22
5 26 6.92
5 28 9.82
5 30 12.91
5 32 16.20
5 34 19-69
5 36 23.37
5 38 27.25
5 40 31-33
5 42 35-60
s
a.oooB
2.0036
a. 0065
2.0095
2.0x24
2.0x53
2.0x83
2.0tX5
2.0246
2.0276
2.0908
2.0340
2.0371
2.0402
2.0434
8.0466
2.0498
2.0530
2.0562
2.0596
2.0630
2.0663
2.0696
2.0729
S.I8 32
1843
1854
19 5
19 16
19 27
1938
1948
19 59
20 9
20 19
20 29
20 40
20 50
2059
21 9
21 19
21 29
21 38
21 47
21 57
22 6
22 15
S.22 24
49.1
55.1
55.8
51.2
41.2
25.7
4.7
38.2
6.2
28.5
45.2
56.2
1.5
I.O
54-6
42.4
24-3
0.2
30.1
54- o
11.8
23.4
28.8
28.1
SUNDAY
5
5
5
5
5
5
5
5
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
44
46
48
50
52
55
57
59
I
3
5
7
9
II
14
16
18
20
22
24
26
28
31
33
35
40.07
44.75
49.63
54.70
59.97
5-44
II. II
16.98
23.05
29.32
35.78
42.44
49.30
56.35
3.60
11.04
18.67
26.50
34.51
42.71
51.10
59.67
8.42
17-35
26.47
2.0763
2.0796
2.0829
2.0862
2.0895
2.0929
2.0962
2.0995
2.X028
2.106X
2.1094
2. 1x26
2.1x59
2.XI92
2.2224
2.X356
2.X288
2.X320
2.X35I
2.X382
2.X4I3
2.X443
2.1474
2.1504
2.X533
14.
S.22
22
22
22
23
23
23
23
23
23
23
24
24
24
24
24
24
24
24
25
25
25
25
25
S.25
33 21. 1
42 7.8
50 48.2
59 22.2
749.8
16 10.9
24 25.5
32 33.5
40 35-0
48 29.9
56 18. 1
3 59.5
II 34.2
19 2.1
26 23.2
33 37.5
40 44.9
47 45-3
54 38.8
I 25.2
8 4.6
14 36.9
21 2.0
27 20.0
33 30.8
m
XI.X44
0
XI. 056
I
10.967
2
XO.876
3
XO.788
4
XO.696
5
XO.604
6
XO.5X2
7
XO.4X9
8
XO.325
9
IO.23X
10
IO.X36
II
XO.O4O
12
9.943
13
9.845
14
9.747
15
9.648
16
9.548
17
9.448
18
9.347
19
9.845
20
9.143
21
9.040
22
8.936
23
8.83X
0
8. 7*5
I
8.6x9
2
8.513
3
8.406
4
8.298
5
8.X89
6
8.079
7
7.969
8
7.858
9
7.747
10
7- 635
II
7.5M
12
7.4a)
13
7.a95
14
7.180
15
7.065
16
6.949
17
6.832
18
6.715
19
6.597
20
6.478
21
6.359
22
6.340
23
6. 120
24
MONDAY 15.
h m 8 8 • # •
6 35 26.47 *-«533 S.25 33 30.8
6 37 35.76 8.1563 25 39 34.4
6 39 45.23 2.X593 25 45 30.7
[6 41 54.87 2.X623 25 51 19.7
[6 44 4.68 2.1650 25 57 1.4
:6 46 14.66 2.X677 26 2 35.7
:6 48 24.80 2.1704 26 8 2.6
:6 50 35.11 2.X731 26 13 22.1
6 52 45.58 2.1757 26 18 34.1
:6 54 56.21 2.1783 26 23 38.6
6 57 6.99 2.X809 26 28 35.6
6 59 17.92 a.x834 26 33 25.0
7 I 29.00 2.X858 26 38 6.9
7 3 40.22 2.x88s 26 42 41.2
7 5 51.59 «.'9o6 26 47 7.8
7 8 3.10 2.X929 26 51 26.7
7 10 14.75 2.X95X 26 55 38.0
7 12 26.52 2.Z973 26 59 41.5
7 14 38.43 «.»995 27 3 37.3
7 16 50.46 2.20x6 27 7 25.4
7 19 2.61 2.2036 27 II 5.6
7 21 14.88 2.2055 27 14 38.0
7 23 27.26 2.2073 27 18 2.6
7 25 39.76 2.209X S.27 21 19.4
TUESDAY 16.
7 27 52.36 2.2109 S.27 24 28.3
[7 30 5.06 2.2126 27 27 29.2
7 32 17.86 2.2x42 27 30 22.2
7 34 30.76 2.2x57 27 33 7.3
73643-75 «.M7i 273544.5
7 38 56.82 2.2185 27 38 13.6
7 41 9.97 2.2x98 27 40 34.8
7 43 23.19 2.22IO 27 42 48.0
7 45 36.49 2.2232 27 44 53.2
7 47 49.85 2.2233 27 46 50.3
7 50 3.28 2.2243 27 48 39.4
7 52 16.77 a.M53 27 50 20.4
7 54 30.31 a.2a62 27 51 53.4
7 56 43-90 2.2269 27 53 18.3
75857.53 a.M76 275435.1
8 I 1 1. 21 2.2283 27 55 43.9
:8 3 24.92 2.3288 27 56 44.5
8 5 38.66 a.2392 27 57 37.0
:8 7 52.43 2.2296 27 58 21.4
8 10 6.21 2.2299 27 58 57.7
8 12 20.0I 2.230X 27 59 25.9
8 14 33.83 a.23« 27 59 46.0
8 16 47.65 2.2303 27 59 58.0
8 19 1.46 2.2303 28 o 1.8
8 21 15.28 2.230X S.27 59 57.5
6.130
5.999
5.877
5.755
5.633
5.5x0
5.386
5.S63
5.X38
5.0x3
4.887
4.76X
4.^5
4.508
4.380
4.25«
4.X24
3.995
3.865
3.735
3.605
3.475
3.344
3.213
3.083
3.950
2.818
2.686
2.553
2.430
2.287
a.x53
2.0x9
X.685
X.75X
z.6x7
1.483
1.348
1.2x3
1.078
0.943
0.808
0.673
0.538
0.402
0.367
-0.X32
-1-0.004
0.Z40
10
JANUARY, 1912.
IX.
GREENWICH MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Diflf.
DiflE.
Dilf.
Diff.
Hour.
Right AscensiofL
for
X Min.
DeclinatioiL
for
X MiiL
Honr.
Right AocensioiL
for
zMin.
Declination.
for
X Min.
WEDNESDAY 17.
FRIDAY
19.
h m 8
8 1
Of n
n
h m t
%
Of n
n
O
18 21 15.28
a.230x
S.27 59 57-5
O.X40
0
20 6 43.89
2.1380
S. 25 21 9.0
6.331
z
18 23 29.09
2.2299
27 5945.1
0.275
I
20 8 51.06
2.1345
25 14 45.6
6.448
2
18 25 42.88
2.2297
27 59 24.5
0.4x0
2
20 10 59.03
3.I3IZ
25 8 15.2
6.564
3
18 27 56.66
2.2294
27 58 55.8
0.546
3
20 13 6.80
3.1377
25 I 37-9
6.680
4
18 50 10.41
2.2290
27 58 19.0
0.681
4
20 15 14.36
3.1343
24 54 53-6
6.795
5
18 32 24.13
2.2285
27 5734.1
0.8x6
5
20 17 21.71
3.X208
24 48 2.4
6.909
6
18 34 37-82
2.2279
27 56 41. 1
0.951
6
20 19 28.85
3.x 173
2441 4.4
7.023
7
18 36 51.47
2.2272
27 55 40.0
X.086
7
20 21 35.78
3.1x37
24 33 59.6
7.136
8
18 39 5.08
2.2264
27 54 30.8
Z.23X
8
20 23 42.50
3.ZZ0X
24 26 48.0
7.248
9
18 41 18.64
2.2256
27 53 13.6
1.355
9
20 25 49.00
3.1064
24 19 29.7
7.360
lO
1843 32.15
2.2248
27 51 48.3
X.489
10
20 27 55.28
2.1088
24 12 4.7
7.471
II
18 45 45.60
2.2238
27 50 14.9
1.623
II
20 30 1.34
2.0993
24 4 33-1
7.581
12
18 47 58.99
2.2226
27 48 33.4
1.758
12
2032 7.18
2.0955
23 56 55-0
7.690
13
18 50 12.31
2.23X4
27 46 43.9
1.893
13
20 34 12.80
2.0918
23 49 10.4
7'7g»
14
i8 52 25.56
2.2202
27 44 46-4
2.025
14
20 36 18.20
2.088X
23 41 19.3
7.906
15
18 54 38.74
2.2189
27 42 40.9
2.159
15
20 38 23.38
2.0844
23 33 21.7
8.013
i6
18 56 51.83
2.ai75
27 40 27.4
3.293
16
20 40 28.33
3.0807
23 25 17.6
8.1x9
17
18 59 4.84
2.2x60
2738 5-9
3.4»5
17
20 42 33.05
3.0769
23 17 7.2
8.325
i8
19 I 17.76
2.2x45
27 35 36.4
a. 557
18
204437.55
3.0731
23 8 50.5
8.330
19
19 3 30.58
2.2129
27 32 59.0
3.6S9
19
20 46 41.83
3.0693
23 0 27.6
8.434
20
19 543.30
2.2XXX
27 30 13-7
3. 831
20
20 48 45.88
a.0655
22 51 58.5
8.537
21
19 7 55-91
2.2093
27 27 20.5
a. 953
21
20 50 49.70
3.0617
22 43 23.2
8.639
22
19 10 8.42
2.2075
27 24 19.4
3.084
22
20 52 53.29
3.0579
22 34 41.8
8.740
23
19 12 20.82
THl
2.2056
JRSDi
S. 27 21 10.4
VY 18.
3.215
23
20 54 56.65
SAT
3.0541
URDi^
S. 22 25 54.4
lY 20.
8.84X
O
19 1433.10
3.2036
S.27 17 53-6
3.346
0
20 56 59-79
3.0503
S. 22 17 I.O
8.941
I
19 16 45.26
2.30X6
27 14 28.9
3.476
I
20 59 2.70
3.0463
22 8 1.6
9.040
2
19 18 57.30
2.1995
27 10 56.5
3.605
2
21 I 5.38
8.0437
21 58 56.2
9-139
3
19 21 9.21
3.1973
27 7 16.3
3.735
3
21 3 7-83
3.0389
31 49 44.9
9.236
4
19 23 20.98
2.X951
27 3 28.4
3.864
4
21 5 10.05
2.0351
31 40 37.8
9.33a
5
19 25 32.61
2.1938
26 59 32.7
3.992
5
21 7 12.04
2.0313
31 31 5.0
9.428
6
19 2744.11
3.1904
26 55 29.4
4. 180
6
21 9 13.80
3.0275
21 21 36.5
9.523
7
19 29 55-46
2.1879
26 51 18.4
A-H7
7
21 II 15.34
2.0837
21 12 3.3
9.6x7
8
19 32 6.66
2. X854
26 46 59.7
4-374
8
21 13 16.65
3.0x99
31 2 22.5
9.7ti
9
19 34 17.71
2. 1829
2642 33.5
4.50X
9
21 15 17.73
2.0x61
20 52 37. 1
9.803
lO
19 36 28.60
2.1803
26 37 59.7
4.627
10
21 17 18.59
2.0104
20 43 46. 1
9.894
11
19 38 39.34
3.1776
26 33 18.3
4.753
II
21 19 19.22
2.0087
20 32 49.6
9.985
12
19 40 49.91
2.X748
26 28 29.4
4.877
12
21 21 19.63
2.0049
20 22 47.7
10.075
13
19 43 0.32
3.X73O
26 23 33.0
5.002
13
21 23 19.81
3.0OI3
20 12 40.5
zo. 165
14
1945 10.55
3.169X
26 18 29.2
5.126
14
21 25 19.77
1.9975
20 2 28.0
10.253
15
19 47 20.61
2.1662
26 13 17.9
5.249
15
21 27 19.51
X.9938
19 52 10.2
Z0.340
i6
19 49 30.49
2.1633
26 7 59.3
5.371
16
21 29 19.03
1.990s
19 41 47.2
10.437
17
19 51 40.20
2.1603
26 2 33.3
5.493
17
21 31 18.33
1.9863
19 31 19.0
10.513
i8
19 53 49.73
a. 1573
25 57 0.0
5.6x5
18
21 33 17.41
1.9828
19 20 45.6
X0.598
19
19 55 59.07
2.154X
25 51 19.5
5.736
19
21 35 16.28
1.9793
19 TO 7.2
Z0.682
20
19 58 8.22
3. 15 10
2545 31.7
5.856
20
21 37 14-93
X.9757
18 59 23.8
10.763
21
20 0 17.18
a. 1478
25 39 36.7
5.976
21
21 39 13-37
X.9722
18 48 35.4
Z0.847
22
20 2 25.95
3. 1445
25 33 34.6
6.095
22
21 41 11.59
X.9686
18 37 42.0
Z0.939
23
20 4 34.52
2.141S
25 27 25.3
6.2x3
23
21 43 9.60
1.9651
18 36 43.8
ZX.OXO
24
20 6 42.89
2.1380
S. 25 21 9.0
6.331
24
2145 7.41
1.96X7
S. 18 15 40.8
ZI.090
X.
JANUARY, 1912.
11
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hoar.
Right Ascension.
for
z Min.
Deellnation.
tor
zMin.
Hour.
Right Ascension.
for
I Min.
Declination.
for
z Min.
su
NDA^
' 21.
TUESDAY 23.
h ra s
s
or n
»
h m B
8
Of n
M
O
21 45 7-41
I.96I7
S.I8 15 40.8
1X.090
0
23 16 4.18
1.8475
S. 8 7 4.1
X3.954
I
21 47 5.01
X.9583
18 4 33.0
ZZ.169
I
23 17 55.00
1.846s
7 53 5.7
13.994
2
21 49 7.40
Z.9549
17 53 20.5
ZI.847
2
23 19 45.77
X.8456
7 39 4.9
14.033
3
21 50 59.59
1.95x5
1742 3.3
IX. 385
3
23 21 36.48
Z.8448
725 1.8
X4.O7I
4
21 52 56.58
1.948X
17 30 41.5
ZI.403
4
23 23 27.15
X.844O
7 10 56.4
14.108
5
21 54 53.37
X.9448
17 19 15. 1
11.478
5
23 25 17.77
i.«433
6 56 48.8
14.144
6
21 56 49.96
1.94x6
17 744.2
XX. 553
6
23 27 8.35
X.8437
6 42 39-0
Z4.I8O
7
21 58 46.35
X.9383
16 56 8.8
ZI.637
7
23 28 58.90
X.8433
6 28 27.1
14.215
8
23 042.55
1.935X
16 44 29.0
zr.700
8
23 30 49.42
1.8417
6 14 13.2
14.349
9
22 2 38.56
x*93*>
16 32 44.8
xi.TTa
9
23 32 39.91
1.84x3
5 59 57.2
14.383
lO
22 4 34.38
Z.9288
16 20 56.3
XX.844
10
23 34 30.37
X.8409
5 45 39.2
Z4.5I6
II
22 6 30.02
x.9a57
16 9 3.5
11.9x5
11
23 36 20.82
1.8407
5 31 19.3
14.348
12
22 8 25.47
1.9337
15 57 6.5
Z1.984
12
23 38 11.25
Z.8405
5 16 57.5
14.379
13
22 10 20.74
1.9x97
1545 5.4
X3.053
13
23 40 1.68
Z.8404
5 233.9
X4.4O9
14
22 12 15.83
1.9167
1533 0.2
13.Z33
14
23 41 52.10
1.8404
448 8.5
X4.438
15
22 14 10.75
1.9x38
15 20 50.9
13.189
15
23 43 42.52
1.8404
4 33 41.4
Z4.466
i6
22 16 5.49
Z.9XX0
15 837.6
13.355
16
23 45 32.94
X.8405
4 19 12.5
X4.494
I?
22 18 0.06
Z.9083
14 56 20.3
Z3.3SX
17
23 47 23.37
z.8^07
4 4 42.0
i4.5ai
i8
22 19 54.46
1.9054
14 43 59.0
13.386
18
23 49 13.82
1.8409
3 50 9.9
14-547
19
22 21 48.70
Z.9036
14 31 33.9
13.450
19
23 51 4.29
1.84X8
3 35 36.3
X4.573
20
22 23 42.78
1.8999
14 19 5.0
xa.5X3
20
23 52 54.78
X.8416
3 21 1.2
Z4.598
21
22 25 36.70
1.8973
14 6 32.3
X3.575
21
23 54 45.29
1.8431
3 624.7
14.631
22
22 27 30.46
X.8947
13 53 55.9
13.637
22
23 56 35.83
1.8437
2 51 46.7
14.644
23
22 29 24.07
MG
z.892a
►NDA\
S.1341 15.9
^ 22.
13.698
23
23 58 26.41
WED]
x.8433
NESD
S. 2 37 7.4
AY 24.
Z4.666
o
22 31 i7«53
X.8898
S.13 28 32.2
X3.757
0
0 0 17.03
X.8440
S. 2 22 26.8
14.687
I
22 33 10.84
X.8874
13 15 44.9
13.8x6
I
0 2 7.70
1.8448
2 745.0
X4.708
2
22 35 4.01
1.8850
13 254.1
Z3.875
2
0 3 58.42
Z.8457
I 53 1.9
14.727
3
22 36 57.04
Z.8836
12 49 59.9
Z3.933
3
0 549.19
1.8467
I 38 17.7
X4.745
4
22 38 49.93
Z.8803
12 37 2.3
Z3.990
4
0 7 40.02
1.8478
I 23 32.4
X4.763
5
22 40 42.68
Z.878X
12 24 1.3
Z3.Q45
5
0 9 30.92
1.8490
I 8 46. 1
Z4.78X
6
22 42 35.30
X.8760
12 10 56.9
Z3.ZO0
6
0 II 21.89
X.8503
0 53 58.8
X4.797
7
22 44 27.80
1.8739
II 5749.2
13.X55
7
0 13 12.94
X.8515
0 39 10.5
14.8x3
8
22 46 20.18 »
1.87x8
II 44 38.3.
Z3.208
8
0 15 4.06
1.8538
0 24 21.3
14.837
9
22 48 12.43
Z.8698
II 31 24.2
Z3.361
9
0 16 55.27
1.8543
S. 0 9 31.3
14.84X
lO
22 50 4.56
1.8679
II 18 7.0
13.3x3
10
0 18 46.57
1.8558
N. 0 5 19.5
14.854
II
22 51 56. 5§
Z.8661
II 446.7
X3.363
II
0 20 37.97
1.8574
0 20 1 1. 1
Z4.865
12
22 53 48.49
Z.S643
10 51 23.4
13.4x3
12
0 22 29.46
X.859X
035 3.4
14.876
13
22 55 40.30
Z.862S
10 37 57.1
13.463
13
0 24 21.06
X.8609
0 49 56.3
X4.887
14
22 57 32.00
1.8608
10 24 27.8
i3.5xa
14
0 26 12.77
1.8687
I 4 49.8
14.896
15
22 59 23.60
Z.8593
10 10 55.7
13.560
15
0 28 4.59
1.8647
I 19 43-7
14.904
i6
23 I I5.II
X.8577
9 57 20.7
13.607
16
0 29 56. 53
X.8668
I 34 38.2
14.9XX
17
23 3 6.52
1.8563
9 43 42.9
X3.653
17
0 31 48.60
X.8689
I 49 33. 1
14.918
i8
23 4 57.85
1.8547
930 2.4
Z3.698
18
0 33 40.80
X.8711
2 4 28.4
14.924
19
23 6 49.09
I.853*
9 16 19. 1
13.74a
19
035 33.13
X.8734
2 19 24.0
14.938
20
23 8 40.25
Z.853Z
9 2 33.2
13.786
20
0 37 25.60
X.8758
2 34 19.8
X4-93a
21
23 10 31.34
X.8S08
8 48 44.7
13.8*9
21
0 39 18.22
Z.8788
2 49 15.8
14.935
22
23 12 22.35
1.8496
8 34 53.7
13.87X
22
0 41 10.99
Z.8807
3 4 12.0
14.937
23
23 14 13.30
Z.8485
8 21 0.1
13.9x3
23
043 3.92
T.8834
3 19 8.3
X4.938
24
23 16 4.18
1.8475
S. 8 7 4.1
X3.954
24
0 44 57.01
X.8868
N. 3 34 4.6
14.938
12
JANUARY, 1912.
XI
GREENWICH MEAN TIMK
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
DifT.
Hour.
RightAscension.
for
X Min.
Decimation.
for
x Min.
Hour.
RightAscension.
for
I Min.
Declinetion.
for
I Min.
THURSDAY 25.
SATURDAY 27.
h m 8
s
0 » tt
m
h m s
8
0 » t»
tt
O
0 44 57.01
Z.8862
N. 3 34 4.6
14.938
0
2 20 21.66
3.1344
N.15 II 7.7
X3.6W
I
0 46 50.26
1.8890
3 49 0.9
14.937
I
2 22 29.34
3.X3X6
15 24 44.6
13.584
2
0 48 43.69
1. 8919
4 3 57.1
X4.935
2
2 24 37.46
3.1389
15 38 17.9
13.524
3
05037.29
1.8949
4 18 53.1
14.933
3
2 26 46.01
3.X463
15 51 47.5
13.462
4
0 52 31.08
X.8980
4 33 49.0
14.930
4
2 28 55.00
2.1537
16 5 13.3
13.398
5
0 54 2505
X.9013
4 48 44.6
14.925
5
2 31 4.44
3.161X
16 18 35.2
13.333
6
0 56 19.21
X.9044
5 339.9
14.919
6
2 33 14.33
3.X686
16 31 53.2
13.266
7
0 58 13.58
1.9077
5 18 34.9
14.9x3
7
2 35 24.68
3.1763
1645 7.1
13.197
8
I 0 8.16
X.9113
5 33 29.5
14.904
8
2 37 35.49
3.X84X
16 58 16.9
13.127
9
I 2 2.94
1.9x48
5 48 23.5
14.896
9
23946.77
3. 1919
17 I z 22.4
13.055
lO
I 3 57-93
1.9184
6 3 16.9
14.887
10
241 58.52
2.1997
17 24 23.5
X2.98X
II
I 55315
1.9221
6 18 9.8
X4.876
II
2 44 IO-74
3.2076
17 37 20. 1
12.906
12
I 7 48.59
1.9259
6 33 2.0
X4.864
12
2 46 23.44
3.3x57
17 50 12.2
12.839
13
I 9 44.26
I. 9498
647 53.5
14.851
13
2 48 36.62
3.3338
18 2 59.6
X2.750
14
I II 40.17
1.9338
7 244.1
14.837
14
2 50 50.29
3.3319
18 15 42.2
12.669
15
I 13 3632
1.9379
7 17 33.8
14.833
15
2 53 4.46
3.34OX
18 28 19.9
12.587
i6
I 15 32.72
i.94ai
7 32 22.6
14.806
16
2 55 19.12
2.2484
18 40 52.6
X2.503
17
I 17 29.38
1.9464
7 47 10.5
14.789
17
a 57 34.27
3.3568
18 53 20.3
12.417
i8
I 19 26.29
1.9508
8 I 57.3
14. 770
18
2 59 49.93
3.365a
19 542.7
X3.330
19
I 21 23.47
x.955a
8 16 42.9
14. 750
19
3 2 6.10
a. 3737
19 17 59.8
X3.340
20
I 23 20.92
1.9597
8 31 27.3
14.730
20
3 4 22.78
3.3833
19 30 II.5
X3. X48
21
I 25 18.64
1.9643
8 46 10.5
14.709
21
3 639.97
3.3909
19 42 17.7
X3.O56
22
I 27 16.65
1.9691
9 0 52.4
14.686
22
3 8 57.68
2.8995
19 54 18.2
XI.96X
23
I 29 14.94
FB
X.9740 .
:iDAY
N. 9 15 32.8
26.
> 14. 663
23
3 II 15.91
SU
3.3083
NDAY
N.20 6 13.0
28.
XX. 863
O
I 31 13.53
X.9789
N. 9 30 II. 8
14.637
0
3 13 34.66
3.3x69
N.20 18 1.9
11.765
I
I 33 12.41
1.9839
9 44 49.2
14. 610
I
3 15 53.94
2.3256
20 29 44.8
Xr.665
2
I 35 11.60
1.9890
9 59 25.0
14. 581
2
3 18 13.74
2.3344
20 41 21.6
XX. 562
3
I 37 II. 10
1.9942
10 13 59.1
M.553
3
3 20 34.07
3.3433
20 52 52.2
11.457
4
I 39 10.91
1.9995
10 28 31.4
X4.5«4
4
3 22 54.94
2.3523
21 4 16.5
11.351
5
I 41 11.04
3.0049
10 43 1.9
14.49a
5
3 25 16.34
3.36x3
21 15 34.3
xt.243
6
I 43 11.49
2.0104
xo 57 30.5
14.460
6
3 27 38.28
a. 3701
21 26 45.5
11. 132
7
I 45 12.28
2.0x60
11 II 57-1
14. 4*6
7
3 30 0.76
2.3791
21 37 50.0
11.019
8
I 47 13.41
3.0216
II 26 21.6
14.391
8
3 32 23.77
3.3881
"21 48 47.8
10.905
9
I 49 14.88
a. 0373
II 40 44.0
14.355
9
3 34 47-33
2.397a
21 59 38.7
X0.789
lO
I 51 16.69
3.0333
II 55 4.2
J4.317
10
3 37 11.43
3.4064
22 10 22.5
10.670
II
I 53 18.86
3.039a
12 9 22.1
14.378
II
3 39 36.08
2.4155
22 20 59.1
10.549
12
I 55 21.39
2.0453
12 23 37.6
14.238
12
342 1.27
3.4245
22 31 28.4
10.427
13
I 57 24.28
2.0513
12 37 50.6
14.197
13
3 44 27.01
2.4335
22 41 50.3
10. 303
14
I 59 27.54
2.0575
12 52 I.I
X4.X54
14
3 46 53.29
3.4426
22 52 4.7
10.176
15
2 I 31.18
3.0638
13 6 9.0
14.109
15
3 49 20.12
3.4517
23 2 II. 5
XO.047
i6
2 3 35.20
3.0703
13 20 14.2
14.063
16
3 51 47.50
2.4608
23 12 10.5
9.917
17
2 5 39.60
3.0766
13 34 16.6
14.016
17
3 54 15-42
2.4699
23 22 1.6
9.785
i8
2 744.39
2.0632
13 48 16. 1
13.967
18
3 56 43.89
2.4790
23 31 44.6
9.650
19
2 949.58
2.0899
14 2 12.6
13.917
19
3 59 12.90
3.4881
2341 19.5
9.513
20
2 II 55.17
2.0966
14 16 6.1
13.866
20
4 I 42.46
3.4971
23 50 46.2
9.374
21
2 14 1. 17
2.1034
14 29 56.4
13.8x3
21
4 4 12.56
3.5061
24 0 4.5
9.233
22
2 16 7.58
2.XI03
14 43 43.5
13.758
22
4 6 43.20
2.5151
24 9 14.2
9.090
23
2 18 14.41
3.1173
14 57 27.3
13.702
23
4 9 14.38
2.5241
24 18 15.3
8.945
24
2 20 21.66
3.1344
N.15 11 7.7
13.644
24
4 II 46.10
a. 5331
N.2427 7.7
8.798
JANUARY, 1912.
13
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
O
I
2
3
4
5
6
7
8
9
lO
II
12
14
15
16
17
18
19
20
21
22
23
Right Aaeemion.
Diff.
for
X Min.
Declination.
4
4
4
4
4
4
4
5
5
5
5
5
MONDAY 29.
h m 8 8 [ "
411 46.10 a.533X N.24
4 14 18.35 ^'M^o 24
4 16 51.14 2.3508 24
4 19 24.46 9.3596 24
4 21 58.30 a.5684 25
4 24 32.67 2.577* 25
4 27 7-57 ««5859 25
4 29 42.98 2.5944 25
4 32 18.90 9.6028 25
4 34 55- 3a «-6"2 25
43732-24 «-6»96 25
4 40 9.67 2.6279 25
42 47*59 S.6360 26
45 26.00 2.6441 26
48 4.88 2.6321 26
50 44.24 2.6599 a6
53 24.07 2.6677 26
56 4.36 2.6753 26
58 45. 10 a.68S7 26
X 26.29 2.6901 26
4 7.92 2.6974 26
6 49.98 2.7045 26
9 32.46 2.7x13 27
12 15.36 2.7x83 N.27
TUESDAY 30.
N.27
27
27
27
27
27
27
27
27
27
27
27
27
27
27
27
28
28
28
28
28
28
28
28
N.28
27 7-7
35 51-2
44 25.7
52 51.1
I 7.2
9 14.0
17 "-3
24 59.0
32 37»o
40 5.1
47 23.2
54 31-3
I 29.2
8 16.8
14 53.9
21 20.5
27 36.5
33 41-7
39 36-0
45 19-4
50 51-7
56 12.8
I 22.6
6 21.0
0
5 14 58.66
2.7249
I
5 17 42.35
2.7314
2
5 20 26.43
9.7378
3
5 23 10.89
9.7440
4
5 25 55.72
2.7500
5
5 28 40.90
2.7558
6
5 31 26.43
2.76x5
7
5 34 12.29
2.767X
8
5 36 58.47
2.7724
9
5 39 44-96
2.7775
10
5 4a 31.76
2.7824
II
5 45 1B.85
2.787X
12
5 48 6.21
2.79x6
13
5 50 53.84
2.7959
14
5 53 41.72
2.8000
15
5 56 29.84
2.8039
16
5 59 18.19
2.8076
17
6 2 6.75
3.811X
18
6 455.51
2.8143
19
6 744.46
9.8x73
20
6 10 33.58
2.820X
21
6 13 22.86
2.8996
22
6 16 12.30
9.8249
23
6 19 1.86
2.8270
24
6 21 51.54
2.8289
II 7.9
1543.2
20 6.9
24 18.8
28 18.8
32 6.9
35 43.0
39 6.9
42 X8.7
45 18.2
48 5.3
50 40.0
53 2.3
55 12.0
57 9.1
58 53.5
o 25.2
44.1
50.1
43.3
23.5
50.8
5.1
6.4
54.6
I
2
3
4
4
5
5
4
Diff.
for
X Min.
8.798
8.650
8.499
8.346
8.Z9X
8033
7.874
7.7x3
7.550
7.385
7.2x8
7.049
6.878
6.706
6.532
6.355
6.176
5.996
5.8x4
5.630
5.445
5.257
5.068
4.878
4.686
4.492
4.296
4.099
3.901
3.70X
3.500
3.998
3.094
2.889
2.689
9.474
9.266
9.056
1.845
1.634
1.422
X.20»
0.993
0.778
0.56a
0.346
+O.X30
-0.087
0.306
Hoar.
Right Aacanaion.
Diff.
for
zMin.
Decllaation.
O
X
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
h
6
6
6
6
6
6
6
m
21 5
244
273
30 2
WEDNESDAY 31.
8 a
54 a. 8289
33 «.83o6
.21 2.8320
17
33 II. 19
36 1.26
38 51.36
6 41 41.49
6 44 31.62
6 47 21.74
6 50 IX. 84
6 53 1. 91
6 55 51.93
6 58 41.88
7 I 31.75
7 421.53
7 7 11.20
7 10 0.75
7 12 50.17
7 15 39.45
7 18 28.57
7 2X 17.51
7 24 6.27
7 26 54.83
a. 8331
8.8340
a. 8347
2.8352
a. 8355
9.8355
9.8353
9.8347
2.8340
9.833X
2.8390
2.8305
2.8287
a.8a69
a.8a49
a. 8825
8.8x99
9.8x72
a. 8x43
a.8xxx
a. 8076
N.28
28
454.6
429.7
28 3 51.7
28 3 0.6
28 I 56.3
28 o 38.8
27 59 8.2
27 57 24.5
27 55 27.6
27 53 17.5
27 50 54.3
27 48 17.9
27 45 28.4
27 42 25.8
27 39 10. 1
27 35 41.4
27 31 59.6
27 28 4.9
27 23 57.2
27 19 36.5
27 15 3.0
27 10 16.7
27 5 17.6
N.27 o 5*8
THURSDAY, FEBRUARY i.
7 29 43. 18
2.8040
N.26 54 41.3
PHASES OF THE MOON.
Diff.
for
X Min.
0.306
0.595
0.743
0.962
x.x8x
X.400
x.6ao
X.839
2.038
2.278
9.497
a. 7x5
9.933
3.X59
3.370
3.587
3.804
4.oao
4.236
4.45X
4.665
4.878
5.090
5.302
5.5x3
O Full Moon .
(t Last Quarter
0 New Moon .
]) First Quarter
. Jan.
d h xn
4 I 29.5
10 19 42.8
18 23 9.9
26 20 51.2
(t Perigee Jan. 4 1.6
C Apogee 17 13.9
14
FEBRUARY, 1912.
I.
AT GREENWICH APPARENT NOON.
Day of
the Week.
Thur.
Frid.
Sat.
SUN.
Mod.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
I
2
3
4
5
6
7
8
lO
II
12
13
14
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
THE SUN'S
Apparent Right
Ascension.
h m s
2055 1.49
20 59 6.41
21 3 10.51
2
2
2
2
2
2
2
2
2
2
2
2
2
2
22
7 13.78
II 16.24
15 17.90
19 18.76
23 18.83
27 18.11
31 16.62
35 14.35
39 ii'32
43 7-54
47 3.00
50 57-72
5451.70
58 44.96
237-51
Diff. for
I Hour.
22 18 0.74
22 21 49.86
22 25 38.34
22 29 26.19
2233 13.41
22 37 0,04
22 40 46.09
224431.57
22 48 16.50
s
10.222
10.188
10.154
10.120
10.086
10.052
10.019
9.986
9.954
9.922
9.890
9-858
9.827
9.796
9.765
9.735
9.705
9.675
22 6 29.35 9.646
22 10 20.49 I 9.6x7
22 14 10.95 9.588
9.561
9.534
9.507
9.481
9.455
9.429
9.406
9.384
9.362
Apparent Decli-
nation.
72354.5
7 7 0.0
6 49 47.5
632 17.4
6 14 30.1
5 56 25.9
538 5-3
5 19 28.6
5 036.2
441 28.7
4 22 6.3
4 2 29.4
3 42 38.5
32234.1
3 2 16.6
2 41 46.3
2 21 3.7
2 o 9.3
I 39 3-4
I 1746.5
056 19.1
03441.6
o 12 54.5
9 50 58.0
9 28 52.7
9 638.9
844 17.2
8 21 47.9
7 59 ".3
S. 7 36 27.8
Diff. for
I Hour.
w
+41.89
42.65
43.39
+44*12
44.82
45.5a
+46.20
46.86
47.51
+48.13
48.73
49.32
+49.89
50.45
50.99
+51.52
52.02
52.51
+52.97
53.42
53.85
+54.27
54.67
55.04
+55.40
55-74
56.07
+56.38
56.68
+56.95
Semidiam-
eter.
6 15.76
6 15.62
6 15-47
6 15.32
6 15.16
6 15.00
6 14.83
6 14.66
6 14.48
6 14.30
6 14.11
6 13.92
6 13.72
6 13.52
6 13.32
6 13.12
6 12.92
6 12.71
6 12.50
6 12.29
6 12.08
6 11.86
6 11.65
6 11.43
6 II. 21
6 10.99
6 10.76
6 10.52
6 10.29
6 10.05
Siderea
Time of
Semidi'
ameter
Passing
Me-
ridian.
68.'37
68.25
68,14
68.02
67.91
67.79
67.68
67.56
67-45
67.33
67.22
67.11
67.00
66.89
66.78
66.68
66.58
66.48
66.38
66.28
66.18
66.08
65.99
65.90
65.81
65.73
65.64
65.56
65.48
65.40
Equation of
Time, to be
Added to
Apparent
Time.
m
3 38.41
3 46.75
3 54-27
4 0.96
4 6.85
411.94
4 16.24
4 19.75
4 22.47
4 24.41
4 25-58
425.99
4 25.65
424.56
4 22.73
420.16
4 16.88
4 12.89
4 8.19
4 2.80
3 56.72
3 49.97
3 42.56
334-51
3 25.82
3 16.52
3 6.61
2 56.13
2 45.08
2 33.49
Diff.
for
I Hoar.
0.365
0.330
0.296
0.262
0.229
0.196
0.163
0.130
0.097
0.065
0.033
0.002
0.030
0.061
0.091
O.I2I
0.151
O.Z81
0.210
0.239
0.267
0.295
0.322
0.348
0.374
O.4OO
0.424
0.448
0.471
0.493
NOTB. — ^Tbe mean time of semidiajneter passing may be found by subtracting o^.iS from the sidereal time.
The sign -t- prefised to the hourly change of decliaation indicates that south declinations are decreasing.
II.
FEBRUARY, 1912.
15
AT GREENWICH MEAN NOON.
Day of
the Week.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
e
I-
Q
I
2
3
4
5
6
7
8
lO
II
12
13
14
15
i6
17
i8
19
20
21
22
23
24
26
27
28
29
30
THE SUNS
Apparent Right
Ascension.
h m 8
205459-17
2059 4.07
21 3 8.14
21 7 11.40
21 II 13.86
21 15 15.52
21 19 16.38
21 23 16.44
21 27 15.72
21 31 14.23
21 35 11.97
2139 8.95
2143 5-17
21 47 0.64
21 50 55.37
215449.37
21 5842.65
22 235.21
22 6 27.07
22 10 18.24
22 14 8.73
22 17 58.54
22 21 47.69
2225 36.19
22 29 24.06
22 33 11.32
22 36 57.98
22 40 44.06
22 44 29.57
22 48 14.54
Diff. for
X Hour.
s
I0.22I
10.187
10.153
10. 1 19
10.086
10.052
10.019
9.986
9.954
9.922
9.890
9.858
9.827
9.796
9.765
9.735
9.705
9.675
9.646
9.617
9.589
9.562
9.535
9.508
9.482
9.456
9.430
9.407
9.385
9.363
Apparent Declina-
tion.
DiflF. for
I Hour.
s.
s.
7 24 4.0
7 7 9.8
6 49 57.5
6 32 27.7
6 1440.6
5 56 36.7
5 38 16.3
5 19 39.8
5 047.6
4 41 40.2
4 22 18.0
4 241.3
3 42 50.6
3 22 46.3
3 2 28.9
2 41 58.7
2 21 16.1
2 o 21.7
I 39 15.9
I 17 59.0
05631.6
o 34 54.0
o 13 6.8
9 51 10.2
9 29 4.8
9 651.0
8 44 29.2
821 59.8
7 59 23.2
7 36 39.7
+41.88
42.64
43.39
+44.11
44.81
45.51
+46.19
46.85
47.50
+48.13
48.73
49.32
+49.89
50.45
50.99
+51.52
52.02
52.51
+52.97
53.42
53.85
+54.27
54.67
55.04
+55.40
55.74
56.07
+56.38
56.68
+56.95
Equation of
Time, to be
Subtracted
from
Mean Time.
m
3 38.33
3 46.67
3 54.19
4
4
4 11.90
0.90
6.80
4 j6.2o
4 19-71
4 22.44
424.39
4 25.57
4 25.99
4 25.65
424-57
4 22.75
4 20.20
4 16.92
4 12.93
4 8.24
4 2.85
3 56.78
3 50-03
3 42.63
3 34-58
3 25.90
3 16.60
3 6.70
2 56.22
245.18
2 33.59
Diff. for
I Hour.
0.365
0.330
0.296
0.263
0.229
0.196
0.163
0.130
0.097
0.065
0.034
0.002
0.030
0.061
0.091
O.X2I
0.151
O.181
0.210
0.239
0.267
0.295
0.322
0.348
0.374
0.400
0.424
0.448
0.471
0.493
Sidereal Time,
or Right Ascen-
sion of Mean
Sun.
h m s
20 41 20.84
204517.39
204913.95
20 53 10.51
20 57 7.06
21 I 3.62
21 5 0.18
21 856.73
21 12 53.29
21 1649.84
21 2046.40
21 2442.95
21 28 39.51
21 32 36.07
21 36 32.62
21 4029.18
214425.73
21 48 22.29
21 52 18.84
21 56 15.40
22 011.95
22 4 8.51
22 8 5.06
22 12 1.62
22 1558.17
22 19 54.72
22 2351.28
22 27 47.84
22 31 44-39
22 35 40.94
Note. — ^The semidiameter for mean noon may be assumed the same as that for apparent noon.
The sign + prefixed to the hourly change of declination indicates thai south declina-
tions are decreasing.
Diff. for X Hour,
+9».8565.
rrable HI.)
16
FEBRUARY, 1912.
III.
AT GREENWICH MEAN NOON.
I
2
3
4
5
6
7
8
lO
n
12
13
J5
i6
17
i8
19
21
22
23
24
26
27
28
29
30
Is-
Q
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
THE SUN'S
True Longitude.
311 1731-9
312 18 23.7
313 19 14.4
31420 3.9
3152052.4
316 21 39.8
3172226.3
318 23 II. 8
319 23 56.3
320 24 39.7
321 25 22.1
32226 3.3
323 26 43.4
32427 22.3
325 27 59-9
32628 36.1
327 29 10.9
328 29 44.2
329 30 16.0
330 30 46.2
331 31 14.6
332 31 41.2
333 32 6.0
334 32 28.8
335 32 49-6
33633 8.4
3373325.1
338 33 39.8
339 33 52.5
34034 3.2
17 33.6
18 25.2
19 15-7
20 5.1
20 53.4
21 40.7
22 27.0
23 12.4
23 56.7
24 40.0
25 22.2
26 3.4
26 43.3
27 22.0
27 59.5
28 35.6
29 10.3
29 43.5
3015-1
3045.1
31 13.4
31 39-9
32 4-5
32 27.2
32 47.9
33 6.6
33 232
33 37-8
33 50.4
34 0.9
DilLfor
z Hour.
152.18
152.13
152.08
152.04
152.00
151.96
151.92
151.87
151.83
151.79
I5».74
151.69
15X.64
151.59
151.54
15Z.48
151.42
151.36
151-29
151.22
151.15
151.07
150.99
150.91
150.82
150.74
150.66
150.57
150.49
150.40
Latitude.
+0.67
0.66
0.61
+0.54
0.44
0.32
+0.18
+0.05
—0.08
— 0.21
0.31
0.40
— 0.46
0.51
0.51
— 0.50
0.45
0.40
—0.32
0.21
—0.09
+0.04
0.16
0.28
+0.38
0.47
0.52
+0.54
0.54
+0.50
Lof[arithmofthe
Radius Vector of
the Earth.
9.993 6015
9.993 6652
9-993 7314
9.993 8002
9-993 8716
9-993 9453
9.9940213
9.994 0994
9.994 1794
9.994 2613
9.994 3448
9-994 4299
9.9945164
9.994 6042
9-994 6932
9-994 7834
9.994 8746
9-994 9667
9-995 0598
9-995 1538
9.995 2487
9-995 3445
9-9954413
9-995 5392
9.995 6382
9.995 7385
9-995 8401
9.995 9431
9.996 0477
9.996 1540
Diff.for
X Hour.
+26.0
27.1
28.1
+29.2
30.2
31-2
+32.1
32.9
33.7
+34-4
35.1
35.7
+36.3
36.8
37-3
+37.8
38.2
38.6
+39.0
39.4
39.7
+40.1
40.6
41.0
4-41.5
42.0
42.6
+43.2
43-9
4-44.6
Mean Time of
Sidereal Noon.
8
6.62
h m
318
3 14 10.71
3 10 14.80
3 6 18.89
3 2 22.98
2 58 27.07
25431.16
2 50 35-25
24639-34
2 42 43-43
2 38 47-52
23451.61
2 30 55.70
2 26 59.79
223 3.88
2 19 7-97
2 15 12.06
2 II 16.15
2 7 20.24
2 324.33
I 59 28.42
I 55 32.51
151 36.60
I 47 40.69
I 43 44-79
I 39 48.88
I 35 52.97
I 31 57.06
I 28 1. 15
124 5.24
l*IoTB.— 'The longitudes in the column k are referred to the true equinos of their own date, while
those in the column A' are referred to the mean equinox of the beginning of the Bea-
selian fictitious year.
Diff. for X Hour,
(Table H.)
IV.
FEBRUARY, 1912.
17
GREENWICH MEAN TIME.
•
O
o
THE MOON'S
o
SEMIDIAMBTKK.
HORIZONTAL PARALLAX
UPPER TRANSIT.
AGE.
•8
Noon.
Midnight
Noon.
Difl. for
I Hoar.
Midnight
Diff. for
z Hour.
•
Meridian of
Greenwich.
Di&for
X Hour.
Noon.
I
2
3
16 41.8
16 42.2
16 37-5
16 42.7
16 40.5
16 33.2
t ft
61 10.7
61 12.4
60 54.8
M
+0.47
-<5-33
Z.II
t If
61 14.0
61 6.0
60 39.2
99
+0.07
-0-73
1.46
h m
11 17.9
12 20.5
13 18.0
m
2.70
2.51
2.29
d
13.0
14.0
15-0
4
5
6
16 27.8
16 14.7
15 59-4
16 21.6
16 7.2
15 514
60 19.7
59 313
58 35-1
-1-77
2.21
2.41
59 56.8
59 3-8
58 5-9
—2.02
2.34
2.43
14 10.5
14 59.1
15 45-3
2.10
1.97
1.90
16.0
17.0
18.0
7
8
9
15 43-5
15 28.2
15 14-7
15 35-7
15 21.2
15 8.8
57 36.8
56 40.9
55 51-2
-2.40
2.22
1.90
57 8.3
56 I5-I
55 29.4
-2.33
2.07
Z.72
16 30.5
17 15.8
18 2.2
1.88
1.90
1.97
19.0
20.0
21.0
lO
II
12
15 3-5
14 54-8
14 48.8
14 58-8
14 51-5
14 46.8
55 9-9
54 38.1
54 i6-i
-1.52
X.12
0.72
54 52.8
54 25.9
54 8.7
-1.32
0.92
0.52
18 50.3
19 40.1
20 31. 1
2.04
2.10
2.14
22.0
23.0
24.0
13
14
15
14 45-4
14 44.4
14 45-5
14 44.6
14 44.7
14 46.7
54 37
53 59-9
54 3.8
■-0.33
+0.01
0.30
54 O.S
54 i-o
54 8.2
-0.16
40.16
0.43
21 22.4
22 12.8
23 1.5
2.12
2.07
Z.98
25.0
26.0
27.0
i6
17
i8
14 48.3
14 52.5
14 57-9
14 50-2
14 55-1
15 i.o
54 14-1
54 29.7
54 49-5
+0.55
0.74
0.90
54 21.3
54 39-1
55 07
+0.65
0.82
0.97
23 47-9
6
0 32.2
X.89
• •
1.80
28.0
29.0
0.3
19
20
21
15 4-2
15 11.4
15 19.2
15 7-7
15 15.2
15 23.4
55 12.7
55 38.8
56 7.6
+1.03
1.15
1.25
55 25.4
55 52.9
56 23.0
+1.09
1.20
1-31
I 14-8
1 56.7
2 38.7
1-75
1.74
1.77
1.3
2.3
3-3
22
23
24
15 27.7
15 37.0
IS 46.8
15 32.3
15 41.8
15 51.8
56 39-0
57 12.9
57 48.9
+X.36
Z.46
1.53
56 55-6
57 30.7
58 7-4
-I-I.4I
1.50
1-55
3 22.0
4 7-9
4 57.7
1.85
x-99
2.17
4-3
5.3
6.3
25
26
27
15 56.9
16 7.0
16 16.2
16 2.0
16 11.8
16 20.3
58 26.1
59 3-0
59 36.9
+1.56
1.49
1.30
58 44-7
59 20.5
59 51-8
+1.54
1.41
1. 16
5 52.3
6 51.8
7 55-1
2.38
2.57
2.68
7.3
8.3
9.3
28
29
30
16 23.8
16 28.8
16 30.2
16 26.7
16 30.0
16 29.5
60 4.8
60 23.0
60 28.3
+0.98
+0.50
-ao8
60 15.3
60 27.4
60 25.5
+0.76
•fO.22
-0.39
8 59-4
10 1.9
11 a6
2.66
2.53
2.35
10.3
"•3
12.3
I9I2-
18
FEBRUARY, 1912.
GREENWICH MEAN TIME.
THE MCXJN'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour^
Rifht Ascension.
for
xMin.
Declination.
for
X Min.
Hour.
Right Ascension.
for
X Min.
Declination.
for
X Min.
THURSDAY i.
SATURDAY 3.
h m 8
•
or w
M
h m B
8
e * 1*
m
O
7 29 43. i8
2.8040
N.26.54 41.3
5.3«3
0
9 37 14-68
a. 4733
N.18 58 19. I
13.558
I
. 73231-31
3. 8008
2649 4.3
5-7aa
I
9 39 42.82
2.4650
18 44 42. I
13.67a
2
7 35 19-20
2.7961
26 43 14.8
5.930
2
9 42 10.46
a.4567
18 30 58.4
13.783
3
738 6-84
2.7919
26 37 12.8
6.137
3
9 44 37.61
2.4484
18 17 8.1
13.892
4
7 40 54.22
2.7873
26 30 58.4
6.34a
4
9 47 4-27
8.44OX
18 3 II. 4
13.999
5
7 43 41-34
2.7829
26 24 31.7
6.546
5
9 49 30.43
2.4319
1749 8.3
14.103
6
7 46 28.18
2.778a
26 17 52.8
6.749
6
9 51 56. 10
2.4237
17 34 59-0
14-205
7
7 49 14-72
2.773a
26 II 1.8
6.951
7
9 54 21.28
2.4x56
17 20 43.7
14-305
8
7 52 0.96
2. 7681
26 3 58.7
7.x5a
8
9 56 45-98
a. 4075
17 6 22.5
14.402
9
7 54 46-89
2.7629
25 56 43-6
7.351
9
9 59 10.19
a. 3994
16 51 55.6
14.496
lO
7 57 32.50
a. 7574
25 49 16.6
7.548
10
10 I 33.91
2.3914
16 37 23.0
14-588
II
8 0 17.77
a.7517
25 41 37.9
7.743
II
10 3 57.16
2.3834
16 22 45.0
X4.678
12
8 3 2.70
2.7459
25 33 47-5
7-937
12
10 6 19.93
a.375«
16 8 1.6
14.766
13
8 5 47-28
2.7400
25 25 45.5
8.X29
13
10 8 42.22
a. 3674
15 53 13.0
14.852
14
8 8 31.49
a.7339
25 17 32-0
8.319
14
10 II 4.04
a. 3597
1538 19.4
14.935
15
8 II 15.33
2.7276
25 9 7-2
8.508
15
10 13 25.39
a. 3519
15 23 20.9
XS.O16
i6
8 13 58.80
2.72x2
25 031. 1
8.695
16
10 15 46.28
2.344a
15 8 17.5
15.094
17
8 16 41.88
2.7147
24 51 43.8
8.880
17
10 18 6.71
2.3366
14 53 9-6
15.170
i8
8 19 24-57
2.7081
24 42 45.4
9.063
18
10 20 26.67
2.3990
14 37 57-1
15.244
19
8 22 6.85
2.70x4
2433 36.1
9.a44
19
10 22 46.18
2.32x4
14 22 40.3
15.316
20
8 24 48.72
2.6945
24 24 16.0
9.424
20
10 25 5.24
a. 3x39
14 7 19-2
15.386
21
8 27 30.18
2.6875
24 14 45.2
9.602
21
10 27 23.85
2.3065
13 51 54-1
15.453
22
8 30 11.22
2.6804
24 5 3-8
9.777
22
10 29 42.01
a. 2991
13 36 25.0
15.518
23
8 32 51-83
Fl
2.673a
XIDA\
N.23 55 II. 9
' 2.
9.950
23
10 31 59.73
SI
2.29x8
JNDA1
N.13 20 52.0
I 4.
15.581
o
8 35 32.00
2.6659
N.23 45 9.7
XO.I22
0
10 34 17.02
2.2846
N.13 515-3
15.64a
I
8 38 11.73
2.6585
23 34 57.3
XO.292
I
10 36 33.88
2.2774
12 49 35.0
15.700
2
8 40 51.01
2.65x0
23 24 34.8
10. 459
2
10 38 50.31
8.2703
12 33 51.3
15.756
3
8 43 29.84
2.6434
23 14 2.3
XO.624
3
10 41 6.31
a. 2633
12 18 4.3
X5.81I
4
8 46 8.21
a. 6357
23 3 20.0
10.786
4
10 43 21.90
2.2563
12 2 14.0
15.863
5
8 48 46.12
2.6279
22 52 28.0
XO.946
5
10 45 37.07
2.2494
II 46 20.7
15.913
6
8 51 23.57
2.6201
22 41 26.4
XI.X05
6
10 47 51.84
2.2427
11 30 24.5
15.961
7
8 54 0.55
2.6123
22 30 15.4
xi.a6i
7
10 50 6.20
2.2360
II 14 25.5
X6.OO6
8
8 56 37-05
2.6044
22 18 55.1
XI. 415
8
10 52 20. 16
2.2293
10 58 23.7
x6. 050
9
8 59 13-07
2.5964
22 7 25.6
1X.567
9
10 54 33.72
2.2228
10 42 19.4
16.092
lO
9 I 48.62
2.5884
21 55 47-t
XX. 7x6
10
10 56 46.89
2.2x64
10 26 12.7
16.132
II
9 4 23.68
a. 5803
21 43 59-7
XX. 863
II
10 58 59.68
a. 2x00
10 10 3.6
X6.X70
12
9 6 58.26
2.57ai
21 32 3.6
X2.008
12
II I 12.09
2.2037
9 53 52.3
x6.2o6
13
9 932.35
2.5640
21 19 58.8
X2.X50
13
II 324.12
a. 1975
9 37 38.9
X6.240
14
9 12 5.95
a.SSS9
21 745.6
12.290
14
11 5 35.78
a.X9X4
9 21 23.5
X6.272
15
9 14 39-05
a. 5477
20 55 24. 1
X2.438
15
II 747.07
a. 1853
9 5 6.2
X6.303
i6
9 17 11.66
a. 5395
20 42 54.4
xa.563
16
II 9 58.01
a. 1793
8 48 47.2
16.331
17
9 1943-78
a.53>a
20 30 16.6
X2.696
17
II 12 8.60
2.1735
8 32 26.6
16.357
i8
9 22 15.40
2.5aa9
20 17 30.9
X2.826
18
II 14 18.84
a.x677
8 16 4.4
X6.382
19
9 24 46.52
a.5«47
20 437.5
xa.954
19
11 16 28.73
2.1620
7 59 40.8
X6.405
20
927 17-15
a. 5064
19 51 36.5
13.080
20
II 18 38.28
2.X564
7 43 15-9
X6.426
21
9 29 47.28
9.4980
19 38 28.0
X3.ao3
21
II 2047.49
1 a. 1509
7 26 49.8
16.445
22
9 32 16.91
2.4897
19 25 12.1
13.324
22
II 22 56.38
2.X455
7 10 22.6
X6.462
23
9 34 46.04
a.4815
19 II 49.1
13.44a
23
11 25 4.95
2. X40X
6 53 54-4
16.477
24
9 37 14-68
a. 4733
N.18 58 19.1
13.558
24
II 27 13.20
a.X349
N. 6 37 25.4
X6.490
VI.
FEBRUARY, 1912.
19
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
Declination.
for
Hour.
Right AscensioxL
for
Declination.
for
X Min.
X Min.
xMin.
xMin.
M(
)NDA'
1^ 5.
WEDNESDAY 7.
h m B
8
e r If
**
h m
8
B
e •
1*
O
II 27 13.20
a.X349
N. 6 37 25.4
16.490
0
13 523.93
X.9903
S. 6 21 0.9
15.437
I
II 29 21.14
2.X998
6 20 55.6
X6.502
I
13 7 23.32
1.9894
6 36 25.6
15.386
2
II 31 28.77
a. 1247
6 4 25.2
X6.513
2
13 9
22.66
X.9886
6 51 47.2
15.333
3
II 33 36-10
«."97
54754.2
16.530
3
13 II
21.95
X.9878
7 7 5.6
15.279
4
"35 43-H
3.1x48
5 31 22.7
16.537
4
13 13
21.20
1.9871
7 22 20.7
X5.225
5
II 37 49.89
3.XX00
5 14 50.8
16.533
5
13 15
20.41
1.9865
7 37 32.6
15.170
6
II 39 56.35
a.xo53
4 58 18.7
16.537
6
13 17
19.59
X.9860
7 5241.1
15.114
7
II 42 2.53
2.1007
4 41 46.4
X6.539
7
13 19
18.75
X.9856
8 746.3
15.057
8
II 44 8.44
2.0963
4 25 14.0
16.540
8
13 21
17.88
1.9853
8 22 48.0
14.999
9
II 46 14.08
3.09x8
4 841.7
»6.539
9
1323
16.99
1.9851
8 37 46.1
14.940
lO
II 48 19.46
a. 0875
3 52 9-4
x6. 536
10
13 25
16.08
1.9849
8 52 40.7
14.880
II
II 5024.59
3.0833
3 35 37-3
16.532
II
13 27
15.17
1.9848
9 731.7
14.8x9
12
II 52 29.47
3.0792
3 19 5.6
16.526
12
13 29
14.25
1.9848
9 22 19.0
14.757
13
II 54 34- 10
2.0732
3 234.3
X6.5X8
13
1331
13.33
X.9848
9 37 2.5
14.694
14
II 56 38.49
3.07x8
246 3.4
X6.509
14
1333
12.41
1.9849
9 51 42.2
X4.630
15
II 58 42.64
2.0673
2 29 33.1
16.499
15
1335
11.50
1.9851
10 6 18. 1
14.566
i6
12 0 46.57
8.0636
2 13 3.5
X6.488
16
1337
10.61
1.9833
10 20 50. 1
14.501
17
12 2 50.27
2.0600
I 56 34«7
16.475
17
13 39
9.72
1.9855
10 35 18.2
14.435
i8
12 453.76
2.0564
I 40 6.7
X6.460
18
13 41
8.86
X.9858
lo 49 42.3
14.368
19
12 6 57.03
2.0529
I 23 39.5
16.444
19
1343
8.03
1.9863
II 4 2.4
14.300
20
12 9 O.IO
2.0495
I 7 13.3
16.427
20
1345
7.22
X.9869
II 18 18.3
14.231
21
12 II 2.97
3.0462
0 50 48.2
16.409
21
1347
6.44
1.9875
II 32 30.1
X4. z6x
22
12 13 5.64
3.0430
0 34 24.3
X6.389
22
1349
5.70
Z.988X
II 46 37.7
X4.09X
23
12 15 8.12
TU
3.0399
ESDA
N. 0 18 1.7
.Y 6.
X6.367
23
13 51
5.00
THI
Z.98S8
JRSDi
S.12 041. 1
\Y 8.
X4.020
O
12 17 10.42
3.0369
N. 0 I 40.4
X6.344
0
13 53
4.35
1.9896
S.12 14 40.1
13.947
I
12 19 12.54
3.0339
S. 0 14 39.5
X6.320
I
13 55
3.74
1.9904
12 28 34.8
13.874
2
12 21 14.48
2.0310
0 30 57-9
16.394
2
13 57
3.19
1.9913
12 42 25.1
X3.80X
3
12 23 16.25
3.0283
0 47 14.8
X6.267
3
13 59
2.69
1.9923
12 56 10.9
13.7*7
4
12 25 17.86
2.0255
I 3 30.0
X6.240
4
14 I
2.25
1.9933
13 952.3
13.658
5
12 27 19.32
2.0230
I 19 43.5
16.212
5
14 3
1.87
1.9943
13 23 29.1
13.575
6
12 29 20.63
2.0205
I 35 55.2
x6.x8x
6
14 5
1.56
1.9954
1337 1.3
13.498
7
12 31 21.79
2.oi8o
I 52 51
x6. 148
7
14 7
1.32
1.9966
13 50 28.8
13.421
8
12 33 22.80
2.0157
2 8 13.1
16. 116
8
14 9
1. 16
1.9979
14 3 51.7
13.343
9
12 35 23.67
2.0x35
2 24 19.0
16.082
9
14 11
1.07
1.9993
14 17 9.9
13.264
TO
12 37 24.41
2.0x14
2 40 22.9
X6.046
10
14 13
1.07
2.0006
14 30 23.3
13.184
II
12 39 25.03
2.0093
2 56 24.6
X6.0ZO
II
14 15
1. 15
2.00x9
1443 31.9
13.103
12
12 41 25.53
3.0073
3 12 24.1
15.973
12
14 17
1.31
2.0034
14 56 35.6
13.03Z
13
12 43 25.91
2.0055
3 28 21.3
15. 934
13
14 19
1.56
3.0050
15 934.4
13.939
14
12 45 26.18
2.0037
3 44 16. 1
15.894
14
14 21
1. 91
2.0066
15 22 28.3
X3.856
15
12 47 26.35
2.00x9
4 0 8.6
15.853
15
1423
2.36
3.0083
1535 17.1
12.773
i6
12 49 26.42
2.0002
4 15 58.5
xs.8xx
16
14 25
2.91
2.0100
15 48 0.9
X3.688
17
12 51 26.39
1.9987
4 31 45.9
15.768
17
1427
3.56
2.0x17
16 0 39.6
X3.603
18
12 53 26.27
1.9973
4 47 30.7
X5.7a4
18
14 29
4.32
2.0135
16 13 13.2
ia.517
19
12 55 26.07
1.9939
5 3 12.8
15.679
19
14 31
5.19
2.0x54
16 25 41.6
X3.430
20
12 57 25.78
1.9946
5 18 52.1
15.633
20
1433
6.17
3.0x74
16 38 4.8
ia.343
21
12 59 25.42
I '9934
5 34 28.7
15.586
£1
1435
7.26
3.0x93
16 50 22.8
X8.355
22
13 1 24.99
x.99a3
5 50 2.4
15.337
22
1437
8.47
2.02X3
17 235.4
Z8.Z66
23
13 3 24.49
1.99x3
6 533.1
13.487
23
1439
9.81
2.0233
17 14 42.7
X8.077
24
13 523.93
X.9903
S. 6 21 0.9
15.437
24
14 41
XI. 27
8.0354
S.I7 26 44.6
ZX.9B6
20
FEBRUARY, 1912.
VII.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
1
Diff.
Diff.
Diff.
Diff.
Knj» A If jguston*
for
I Min.
Declixiation.
for
X Min.
Hour.
Right Ascension.
for
X Min.
Declination.
for
z Min.
FRIDAY 9.
SUNDAY
' II.
h m s
r 8
or M
■»
h m 8
a
Of w
tt
o
14 41 11.27
8.0154
S.I7 26 44.6
XX.986
0
16 21 19.59
2.15x9
s.25 5 16.6
6.876
I
14 43 12.85
2.0274
17 38 41. I
".895
I
16 23 28.79
a.x545
25 12 5.6
6.755
2
H 45 14-56
2.0095
17 50 32.0
XX. 804
2
16 25 38.15
a.257x
25 18 47.3
6.633
3
14 47 16.40
a.0317
18 2 17.5
XX. 712
3
16 27 47.66
2.1598
25 25 21.6
6.51X
4
14 49 18.37
2.C^40
18 13 57.4
XX. 6x9
4
16 29 57.32
a.x634
25 31 48.6
6.389
5
14 51 20.47
2.0363
18 25 31.7
ix.5a5
5
1632 7.14
a. 1649
2538 8.3
6.866
6
14 53 22.71
2. 0386
1837 0.3
X1.430
6
16 34 17.12
a.x675
25 44 20.5
6.X42
7
14 55 25. 10
2.04x0
18 48 23.3
".335
7
16 36 27.25
2.1700
25 50 25.3
6.018
8
14 57 27.63
2.0433
i8 59 40.5
11.239
8
16 38 37-52
a.x7a4
25 56 22.7
5.B93
9
14 59 30-30
2.0457
19 10 51.9
1Z.X42
9
16 40 47.94
a.x748
26 2 12.5
5.768
lO
15 I 33-11
2.0482
19 21 57.6
X1.045
10
16 42 58.50
2.x77a
26 7 54.8
5.643
II
15 336.07
2.0506
19 32 57-4
10.947
II
16 45 9.21
2.1796
26 13 29.6
5.517
12
15 5 39-18
2.053X
19 43 51.3
Z0.848
12
16 47 20.06
2.X820
26 18 56.8
5.39X
13
15 742.45
2.0557
19 54 39-2
10.749
13
16 49 31.05
a.x843
26 24 16.4
5.264
H
15 945-87
2.0583
20 5 21. 1
10.650
H
16 51 42.17
a.x86s
26 29 28.4
5-X36
»5
15 II 49.44
2.0609
20 15 57.0
X0.549
15
16 53 5342
a.x887
26 34 32.8
5.008
i6
15 13 53-17
2.0^5
20 26 26.9
10.447
16
16 56 4.81
2.X908
26 39 29.5
4.880
17
15 15 57-05
2.066X
20 36 50.7
X0.345
17
16 58 16.33
2.X930
26 44 18.5
4.75a
i8
15 18 1.09
2.0687
2047 8.3
10.243
18
17 027.97
a.X95i
26 48 59.7
4.623
»9
15 20 5.29
2.0714
20 57 19.8
xo. 140
19
17 239.73
a. 1970
26 53 33.2
4.493
20
1522 9.65
a.0741
21 7 25.1
X0.036
20
17 451-61
2.X990
26 57 58.9
4.363
21
15 24 14.18
2.0768
21 17 24.1
9.93X
21
17 7 3.61
2.2009
27 2 16.8
4.333
22
15 26 18.87
2.0795
21 27 16.8
9.8a6
22
17 9 15-72
2.2027
27 6 26.9
4.X03
23
15 28 23.72
SAT
2.oBaa .
URDA
S.2I 37 3.2
y 10.
9.7«>
23
17 II 27.94
MO
2.2046
NDA\
S.27 10 29.2
' 12.
3.97a
o ;
15 30 28.74
2.0850
S.21 46 43.2
9.6x3
0
17 13 40.27
a. 2064
S.27 H 23.6
3.84X
I
15 32 33.92
2.0678
21 56 16.8
9.506
I
17 15 52.70
2.ao8x
27 18 10.2
$•7x0
2 ,
15 34 39-27
2.0906
22 543.9
9.398
2
17 18 5.24
2.2098
27 21 48.9
3.578
3 ,
153644-79
2.0934
22 15 4.6
9.290
3
17 20 17.88
2.aiZ4
27 25 19.6
3.446
4
15 38 50.48
2.0962
22 24 18.8
9.18X
4
17 22 30.61
a.2xa9
27 28 42.4
3.3x4
5
15 40 56.33
2.0990
22 33 26.4
9.071
5
17 24 43.43
2.2X44
27 31 57.3
3.18a
6
1543 2.35
2.10x8
22 42 27.4
8.96X
6
17 26 56.33
2.2159
27 35 4.2
3.049
7
1545 8.55
2.1046
22 51 21.7
8.850
7
17 29 9.32
2.2x72
2738 3.1
8.915
B
15 47 14.91
2.1074
23 0 9.4
8.739
8
17 31 22.39
2.2x66
27 40 54. 1
a. 782
9
154921.44
2.1x0a
23 8 50.4
8.627
9
17 33 35.54
2.ai99
27 43 37.0
t.649
lO
15 51 28.14
2.XX30
23 17 24.7
8.5x4
10
17 35 48.76
2.2209
27 46 1 1.9
a.515
II
15 53 35.01
a. "59
23 25 52.2
8.40X
II
17 38 2.05
2.22a0
27 48 38.8
8.38X
12
15 55 42.05
3.X188
23 34 12.8
8.287
12
17 40 15.41
2.a23X
27 50 57.6
•.847
13
155749.26
2.12X6
23 42 26.6
8.173
13
17 42 28.83
2.a24X
2753 8.3
8.1X8
H
15 59 56.64
2.1244
23 50 33.6
8.058
14
17 44 42.30
8.2250
27 55 ii.o
X.977
15
16 2 4.19
2.1272
23 58 33.6
7.941
15
17 46 55.82
a. 2258
27 57 5.6
X.843
i6
16 4 11.90
2.1300
24 6 26.6
7.826
16
1749 9.40
27 58 52.1
1.708
17
16 6 19.78
2.1328
24 14 12.7
7.709
17
17 51 23.02
2.2273
28 0 30.5
X.574
i8
16 8 27.83
a. 1356
24 21 51.8
7.59X
18
17 53 36.68
2.2279
28 2 0.8
X.439
19
16 10 36.05
2.1384
24 29 23.7
7.473
19
17 55 50.38
2.2285
28 3 23.0
x.y>a
20
16 12 44.43
2.X4X1
24 36 48.6
7.335
20
17 58 4-10
2.2290
28 4 37.0
X.166
21
16 14 52.98
2.1438
2444 6.4
7.236
21
18 0 17.86
2.8294
28 5 42.9
x.ost
22
16 17 1.69
2.1465
24 51 17.0
7.116
22
18 2 31.64
2.2298
28 6 40.7
0.896
23
16 19 10.56
2.X492
24 58 20.4
6.996
23
18 445.44
8.23OX
28 7 30.4
0.760
24
16 21 19.59
a.x5i9
S.25 5 16.6
6.876
24
18 6 59.25
8.8303
S.28 8 II. 9
0.684
VIII.
FEBRUARY, 1912.
21
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
I Min.
Declination.
for
xMin.
Hoar.
Right Ascension.
for
xMin.
Declination.
for
iMin.
■
TUl
ESDA^
Y 13.
THURSDAY 15.
h m s
B
0 » H
M
h m s
s
e * M
m
O
l8 6 59.25
3.3303
S.28 8 I 1.9
0.624
0
19 52 56.07
3.1588
S.26 4 6.7
5.685
X
18 9 13.08
3.3305
28 8 45.3
0.488
I
19 55 5.51
2.1559
25 58 21.9
5.807
2
18 IX 26.91
3. 3306
28 9 10.5
0.353
2
19 57 14.78
3.X539
25 52 29.8
5.939
3
18 13 40.75
3.3306
28 9 27.6
0.317
3
19 59 23.86
3.2499
25 46 30.4
0.050
4
18 15 54.58
3.3305
28 9 36.5
-0.082
4
20 I 32.76
3.1469
25 40 23.8
6.X70
5
18 x8 8.41
3.3303
28 9 37«3
+0.054
5
20 3 41.48
a. 1438
25 34 lO.O
0.390
6
18 20 22.22
3.33OX
28 9 30.0
0.189
6
20 5 50.01
3.1406
252749.1
6.409
7
18 22 36.02
3.2398
28 9 14.5
0.335
7
20 758.35
a.x374
25 21 21.0
6.527
8
18 24 49.80
2.3394
28 8 50.9
0.463
8
20 10 6.50
8.134a
25 14 45.8
6.645
9
18 27 3.55
3.2290
28 8 19. X
0.598
9
20 12 14.45
2.X310
25 8 3.6
6.76a
lO
18 29 17.27
3. 2385
28 7 39.2
0.733
10
20 14 22.21
8.X277
25 X 14.4
6.878
11
18 31 30.96
3.3279
28 6 51.2
0.868
II
20 16 29.78
3.X344
24 54 18. 2
6.994
12
18 33 44.61
2.2373
28 5 55.0
X.OO3
12
20 18 37.14
3.X2ZX
2447 15. 1
7.109
13
18 35 58.22
3.3364
28 4 50.7
I. 138
13
20 20 44.30
2.1X77
24 40 5. 1
7.325
14
18 38 11.78
3.2356
28 3 38.4
X.273
14
20 22 51.26
2.x 143
24 32 48.2
7.337
15
18 40 25.29
3.3348
28 2 18.0
X.4O8
15
20 24 58.02
3. 1x09
24 25 24.5
7.451
i6
18 42 38.75
8.3339
28 0 49.4
1.543
16
2027 4.57
3.XO75
24 17 54-1
7.564
I?
18 44 52.15
3.3238
27 59 12.8
X.677
17
20 29 XO.9I
3.1040
24 10 17.0
7.675
i8
X847 5.49
3.3217
27 57 28. 1
i.8xx
18
20 31 17.05
3.XOO5
24 2 33.2
7. 786
19
18 49 18.76
3.320S
27 55 35.4
X.943
19
20 33 22.98
2.0970
23 54 42.7
7.89«
20
18 51 31.95
3.2193
27 53 34.7
3.079
20
20 35 28.70
a. 0935
23 46 45.6
8.00s
21
18 53 45.07
3.3x80
27 51 25.9
2.3x3
21
20 37 34.21
3.0900
23 38 42.0
8.XX4
22
x8 55 58. XI
3.3X66
2749 9.1
a. 347
22
20 39 39.50
3.0864
23 30 31.8
8.333
23
18 58 11.07
WED]
2.3X5X
^ESD.
S.27 46 44.3
AY 14.
3.480
23
20 41 44.58
FF
3.0839
^IDAY
S.23 22 15.2
16.
8.330
O
19 023.94
3.3x36
S.27 44 11-5
3.6x3
0
20 43 49.45
a. 0794
S.23 13 52.2
8.437
I
19 2 36.7X
3.3X20
27 41 30.7
3.746
I
20 45 54.10
3.0758
23 5 22.8
8.543
2
19 449.38
8.3x04
27 38 42.0
3.878
2
20 47 58.54
3.0723
22 56 47.1
8.648
3
19 7 1.95
3.3087
27 35 45.4
3.OZ0
3
20 50 2.76
3.0686
22 48 5.1
8.75a
4
19 9 14.42
3.2069
27 32 40.9
3.X4X
4
20 52 6.77
3.0650
22 39 16.8
8.856
5
19 II 26.78
2.203X
27 29 28.5
3.373
5
20 54 10.56
3. 0614
22 30 22.3
8.959
6
19 13 39.03
3.3032
27 26 8.2
3.403
6
20 56 14.14
3.0578
22 21 21.7
9.061
7
19 15 51.16
3.30X2
27 22 40.1
3.533
7
20 58 17.50
a. 0543
22 12 15.0
9.x6a
8
19 18 3.17
«.X99a
27 19 4.2
3.663
8
21 0 20.64
3.0506
22 3 2.3
9.363
9
19 20 15.05
3.1971
27 15 20.5
3.793
9
21 2 23.56
3.0470
21 53 43.6
9.36a
lO
19 22 26.81
3.X949
27 II 29.0
3.9*3
10
21 4 26.27
a.0434
2X 44 18.9
9.46Z
II
19 24 38.44
3.X987
27 729.7
4.053
II
21 6 28.76
3. 0398
21 34 48.3
9.559
12
19 26 49.93
2. 1904
27 3 22.7
4.X80
12
21 8 31.04
3.0363
21 25 II. 8
9.656
13
19 29 1.28
3.X880
26 59 8.1
4.308
13
21 10 33.10
3.0336
21 15 29.5
9.75a
^4
19 31 12.49
3.1856
26 54 45.8
4.436
14
21 12 34.95
2.0290
21 541.5
9.848
15
19 33 23.56
2. 1832
26 50 15.8
4.564
15
2X 14 36.58
a.0254
20 55 47.8
9*943
i6
19 35 34.48
3.X807
26 45 38.2
4.69X
16
21 16 38.00
3.0218
20 45 48.4
XO.037
17
19 37 45.24
3. I781
26 40 53.0
4.8«7
17
21 18 39.20
3.0183
20 35 43.3
xo. X3X
i8
19 39 55.84
a. 1755
26 36 0.2
4.944
18
21 20 40.-19
a.0147
20 25 32.6
xo.3a4
19
19 42 6.29
3. 1738
26 30 59.9
5.069
19
21 22 40.97
3.0XX3
20 15 16.4
10.3x5
20
1944 16.58
3.1701
26 25 52.2
5.x9a
20
21 2441.53
3.0077
20 4 54.8
xo.405
21
19 46 26.71
3.1674
26 20 36.9
5.316
21
21 26 41.88
3.0043
19 54 27.8
Z0.495
22
19 48 36.66
3.1646
26 15 14.3
5.440
22
21 28 42.02
3.0007
19 43 55-4
XO.584
23
19 50 46.45
3. x6x7
26 9 44.2
5.563
23
21 30 41.96
1.997a
19 33 17.7
10.6^
24
19 52 56.07
2.X588
S.26 4 6.7
5.685
24
2X 32 41.69
1.9937
S.19 22 34.7
X0.760
22
FEBRUARY, 1912.
IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DiflF.
Diflf.
Diff.
Diff.
Hoar.
Right Ascension.
for
Declination.
for
Hour.
Right Ascension.
for
Declination.
for
xMin.
X Min.
X Min.
X Min.
SATURDAY 17.
MONDAY 19.
h m 8
8
9 f t
n
h m s
s
9 f ft
M
O
21 32 41.69
X.9937
S.I9 22 34.7
10,760
0
23 5 1.37
1.8695
S. 9 21 46.4
13.938
I
21 34 41.21
1.9903
19 II 46.5
10.847
I
23 6 53.50
1.668X
9 7 48.8
Z3.982
2
21 3640.53
X.9869
19 053.1
10.933
2
23 845.55
X.8668
8 53 48.5
Z4.O86
3
21 38 39.64
1.9835
18 49 54.6
XX.OZ8
3
23 10 37.52
1.8656
8 39 45.6
14.069
4
21 40 38.55
Z.9801
18 38 51.0
IX.XOX
4
23 12 29.41
1.8644
8 25 40.1
X4.XIX
5
21 42 37.26
1.9767
18 27 42.4
1Z.Z84
5
23 14 21.23
1.8638
8 II 32.1
14.153
6
21 44 35-77
X.9734
18 16 28.9
IX. 267
6
23 16 12.99
X.862X
7 57 21.7
I4.X93
7
21 46 34.08
I.97OX
18 5 10.4
11.348
7
23 18 4.69
X.86XX
7 43 8.9
X4.a32
8
21 48 32.20
Z.9668
17 5347.1
XX.428
8
23 19 56.33
X.86OX
7 28 53.8
14. 271
9
21 50 30.12
1.9636
17 42 19.0
XX.508
9
23 21 47.91
1.8591
7 H 36.4
14.309
10
21 52 27.85
X.9605
17 30 46.2
IX.587
10
23 23 39.43
1,8582
7 0 16.7
14.346
II
21 54 25.39
1.9574
17 19 8.6
XI. 665
II
23 25 30.90
1.8575
6 45 54.9
14- 388
12
21 56 22.74
1.954a
17 726.4
11.74a
12
23 27 22.33
1.8569
6 31 31.0
14.417
13
21 58 19.90
1.95"
16 55 39.6
XX. 8x8
13
23 29 13.72
1.8562
6 17 5.0
14.45X
14
22 0 16.87
X.9481
16 43 48.2
11.894
14
23 31 5.07
1.8556
6 2 37.0
14.484
15
22 2 13.66
1.945X
16 31 52.3
11.969
15
23 32 56.39
1.8551
548 7.0
14.516
i6
22 4 10.27
1.9431
16 19 52.0
12.042
16
23 34 47.69
1.8546
53335.1
X4.547
17
22 6 6.70
X.9391
16 747.3
12.1X5
17
23 36 38.95
1.854a
5 19 1.3
14-577
i8
22 8 2.96
Z.936X
15 55 38.2
Z2.X87
18
23 38 30.20
1.8539
5 4 25.8
14.607
19
22 9 59.04
1.933a
15 43 24.8
X8.258
19
23 40 21.43
1.8537
4 49 48.5
14. 636
20
22 11 54.95
1.9304
15 31 7.2
12.329
20
23 42 12.64
1.8535
4 35 9.6
14.663
21
22 13 50.69
X.9276
15 18 45.4
12.398
21
2344 3.85
1.8534
4 20 29.0
X4.689
22
22 15 46.26
1.9848
15 6 19.5
12.466
22
23 45 55.05
X.8534
4 5 46.8
X4.715
23
22 17 41.67
SU
X.932Z
NDA\
S.14 5349.5
' 18.
xa.533
23
23 47 46.25
TU]
X.8534
ESDA^
S. 3 51 3.1
Y 20.
14.740
0
22 T9 36.91
1.9x94
S.1441 15.5
12.600
0
23 49 37.46
X.8535
S. 3 36 18.0
14.764
I
22 21 31.99
1.9x67
14 28 37.5
IS. 667
I
23 51 28.67
X.8537
3 21 31.4
14.787
. 2
1
22 23 26.92
1.9x41
14 15 55.5
X2.73a
2
23 53 19.90
X.8539
3 643.5
14.809
' 3
22 25 21.69
X.9ZZ6
14 3 9.7
18.796
3
23 55 11.14
x.854t
2 51 54.3
14. 830
4
22 27 16.31
X.909X
13 50 20.1
18. 859
4
23 57 2.40
X.8546
237 3.8
14-850
. 5
22 29 10.78
t.9066
13 37 26.7
Z2.921
5
23 58 53.69
1.8550
2 22 12.1
X4.870
6
22 31 5.II
1.9048
13 24 29.5
18. 983
6
0 0 45.01
1.8554
2 7 19.3
14.889
7
22 32 59.29
X.90X8
13 II 28.7
X3.043
7
0 2 36.36
1.8560
I 52 25.4
14.906
8
22 34 53.33
1.8993
12 58 24.3
13.X02
8
0 4 27.75
1.8568
I 37 30.5
X4.9ta
9
22 36 47.23
1.8973
12 45 16.4
iS.x6a
9
0 .6 19.18
1.S576
I 22 34.7
14.938
10
22 38 41.00
X.8951
1233 4.9
13.880
10
0 8 10.66
X.8584
I 7 38.0
X4.9S3
II
22 40 34.64
1.8929
12 18 50.0
X3.a77
II
0 10 2.19
X.8593
0 52 40.4
14.967
12
22 42 28.15
1.8908
12 5 31.7
X3.333
12
0 II 53.77
Z.8603
0 37 42.0
14. 980
13
224421.53
1.8887
II 52 10. 1
13.388
13
0 13 45.41
1.86X3
0 22 42.8
14.99a
H
22 46 14.79
1.8866
II 38 45.2
13.443
14
0 15 37.12
X.8624
S. 0 7 43.0
15.003
15
22 48 7.93
X.8847
II 25 17.0
13.496
15
0 17 28.90
X.8636
N. 0 7 17.4
15.013
i6
22 50 0.95
X.8888
II II 45.6
X3.548
16
0 19 20.75
1.8648
0 22 18.4
15.088
17
22 51 53.86
1.8809
10 58 II. I
i3«6oo
17
0 21 12.68
X.866X
0 37 20.0
15. 030
i8
22 53 46.66
1.879X
10.44 33.6
13.651
18
0 23 4.69
X.8676
0 52 22.0
15.037
19
22 55 39.36
X.8774
10 30 53.0
X3.701
19
0 24 56.79
1.869X
I 724.4
15.043
20
22 57 31.95
1.8738
10 17 9.4
13.750
20
0 26 48.98
X.8706
I 22 27.2
15.048
21
22 59 24.45
X.8748
10 3 22.9
13.798
21
0 28 41.27
X.8723
I 37 30.2
15-058
22
33 I 16.85
Z.8786
9 49 33.5
13.846
22
0 30 33.66
1.874X
I 52 33.4
15.055
83
23 3 9.15
Z.8710
9 35 41.3
13.893
23
0 32 26.15
1.8759
2 7 36.8
15.057
24
23 5 1.37
X.8695
S. 9 21 46.4
13-938
24
0 34 18.76
X.8777
N. 2 22 40.3
15.058
X.
FEBRUAEY, 1912.
23
GREENWICH MEAN TIMK
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diflr.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
X Min.
Declination.
for
X Min.
Hour.
Right Ascension.
for
xMin.
Declination.
for
X Min.
WED
NESD
AY 21.
FRIDAY
23.
h m s
s
or f
w
h xn 8
s
0 * *•
w
O
o 34 18.76
t.8777
N. 2 22 40.3
15.058
0
2 8 7.76
3.0624
N.14 635.4
13.839
I
0 36 11.48
1.8796
2 37 43.8
X5.058
I
2 10 11.68
3.0683
14 20 23.5
13.773
2
0 38 4.32
x.88x7
2 52 47.3
15.058
2
2 12 15.95
3.0741
14 34 8.2
13.716
3
0 39 57.28
Z.8838
3 7 50.8
X5.057
3
2 14 20.57
a. 0800
14 47 49.4
X3.658
4
0 41 50-37
1.8859
3 22 54. 1
X5.054
4
2 16 25.56
3.0861
15 1 27.1
13.598
5
0 43 43.60
x.888a
3 37 57.2
X5.050
5
2 18 30.91
3.0933
15 15 1.1
13.337
6
0 45 36.97
Z.8906
3 53 0.0
15.045
6
2 20 36.63
3.0985
15 28 31.5
13.474
7
0 47 30.48
X.8930
4 8 2.5
15. 039
7
2 22 42.73
a.xo47
15 41 58.1
13.410
8
04924.13
1.8955
4 23 4.6
X3.0SX
8
2 24 49.20
a.xizo
15 55 20.8
13.345
9
0 51 17.94
1.898X
438 6.3
X5.033
9
2 26 56.05
3.1x74
16 8 39.5
X3.278
lO
0 53 II.9I
1.9008
4 53 7.5
X5.0I5
10
2 29 3.29
3. 1339
16 21 54.2
X3.3ZO
II
0 55 6.04
X.9036
5 8 8.1
15.005
II
2 31 10.92
3.X305
1635 4.7
13.141
12
0 57 0.34
1.9064
5 23 8.0
X4.994
12
2 33 18.95
3.1371
16 48 II. 0
13. 068
13
0 58 54.81
1.9093
538 7.2
X4.98I
13
2 35 27.38
3.1438
17 X 13.0
13.995
14
I 0 49.46
X.9M3
5 53 5.7
14.967
14
2 37 36.20
3.1505
17 14 10.6
X3.923
15
I 244.29
I.9154
6 8 3.3
X4.953
15
2 39 45.43
3.1573
17 27 3.6
12.846
x6
I 439-31
1.9x86
6 23 0. 1
14.938
16
2 41 55.07
8.X643
17 39 52.0
X3.769
17
I 634.52
1.92x8
6 37 55.9
14.931
17
244 5.13
3.17x1
17 52 35.8
X3.690
i8
I 8 29.92
1.9851
6 52 50.6
14. 90s
18
2 46 15.61
3.178X
18 5 14.8
X2.6X0
19
X 10 25.52
1.9*83
7 744.3
14.885
19
2 48 26.51
9. X85X
18 17 49.0
X3.528
20
I 12 21.33
1.9330
7 22 36.9
X4.866
20
.2 50 37.83
9.X933
18 30 18.2
13.444
21
I 14 17.35
X.9356
7 37 28.2
14.845
21
25249.57
3.1994
18 42 42.3
13.359
22
I 16 13.59
1.9393
7 52 18.2
14.823
22
2 55 1.75
a.9o66
18 55 1.3
X3.373
23
I 18 10.05
THl
x.94a9
IRSDJ
N. 8 7 6.9
VY 22.
X4.800
23
2 57 14.37
SAT
3.3x39
URDA
N.19 7 15.1
lY 24.
X9. 185
O
I 20 6.74
X.9467
N. 8 21 54.2
14.775
0
2 59 27.42
3.33X3
N.19 19 23.5
X9.095
I
I 22 3.66
X.9506
8 36 40.0
X4.749
I
3 I 40.91
3.3385
19 31 26.5
18. 004
2
I 24 0.81
X.9546
8 51 24.1
14.733
2
3 3 54.84
3.3359
19 43 24.0
XX.9XI
3
I 25 58.21
1.9586
9 6 6.7
X4.696
3
3 6 9.22
3.3434
19 55 158
ZX.816
4
I 27 55.85
i.96«7
9 20 47.6
14.667
4
3 8 24.05
3.3509
20 7 1.9
XI. 720
5
I 29 53.74
X.9669
9 35 26.7
X4.636
5
3 10 39.33
3.3584
20 18 42.2
IX. 622
6
I 31 51.89
i.97«
9 50 4.0
X4.605
6
3 12 55.07
2.3660
20 30 16.6
XX. 533
7
X 33 50.29
1.9756
10 439.3
X4.573
7
3 15 11.26
3.3737
20 41 44.9
XX.43X
8
I 35 48.96
X.980X
10 19 12.6
14.539
8
3 17 27.91
3.38x4
2053 7.1
xx.3i8
9
I 37 47-91
1.9847
10 33 43.9
X4.504
9
3 19 45.02
3.289X
21 4 23.1
XX.2I4
ID
I 3947.12
1.9893
10 48 13. 1
X4.468
10
3 22 2.60
8.2968
21 15 32.8
XX. 108
II
I 41 46.62
1.9940
II 2 40.1
14.431
II
3 24 20.64
3.3045
21 26 36.1
XX. 000
12
I 43 46.40
X.9988
II 17 4.8
14.393
12
32639.15
8.3133
21 37 32.8
10.890
13
I 45 46.47
2.0037
II 31 27.1
14.353
13
3 28 58.12
3.3901
21 48 22.9
X0.778
H
I 47 46.84
3.0087
II 45 47.0
14.311
14
3 31 17.57
3.3379
21 59 6.3
X0.665
15
I 49 47.51
2.0137
12 0 4.4
X4.268
15
3 33 37.49
3.3358
22 9 42.8
10.551
i6
I 51 48.48
9. 0188
12 14 19.2
14.334
16
3 35 57.88
3.3437
22 20 12.4
10.435
17
I 53 49.76
2.0240
'12 28 31.3
14.179
17
3 38 18.74
3.3516
22 30 34.9
10.317
i8
1 55 51.36
3.039a
12 42 40.7
14.133
18
3 40 40.07
3.3596
22 40 50.3
X0.197
19
I 57 53.27
3.0345
12 56 47.3
X4.066
19
3 43 1.88
3.3675
22 50 58.5
X0.07S
20
I 59 55.50
3.0399
13 10 51.0
14.037
20
34524.17
3.3754
23 0 59.4
9.953
21
2 I 58.06
3.0454
13 24 51.8
X3.987
21
3 47 46.93
3.3833
23 10 52.8
9.837
22
2 4 0.95
a. 0510
133849.5
13.936
22
3 50 10.16
3.3913
23 20 38.6
9.700
23
2 6 4.18
a. 0366
13 52 44.0
13.883
23
3 52 33.87
3.3991
23 30 16.8
9.571
24
2 8 7.76
2.0624
N.14 635.4
X3.839
24
3 54 58.06
3.4070
N.23 39 47.2
9. 441
24
FEBRUARY, 1912.
»/\ La
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
Declination.
for
Hour.
Right Ascension.
for
Declination.
for
iMin.
xMin.
xMin.
X Min.
SUNDAY 25.
TUESDAY 27.
h m B
B
• f M
w
h m s
B
Of «*
M
O
3 54 58.06
a. 4070
N.23 39 47.2
9-44Z
0
5 58 38.67
3.7086
N.28 II 42.5
X.33X
I
3 57 22.72
9.4x49
2349 9-7
9.3x0
z
6 I 21.29
3. 71 18
28 12 56.4
1.138
2
3 59 47-85
9.4338
23 58 24.3
9.176
2
6 4 4.09
3.7148
28 13 58.3
0.93a
3
4 2 13.46
2.4307
24 7 30.8
9.040
3
6 6 47.07
3.7176
28 14 48.2
0.731
4
4 4 39-54
a. 4385
24 16 29.1
8.903
4
6 9 30.21
«.7«>3
28 15 26.0
0.539
5
4 7 6.09
3.4464
24 25 19. 1
8.764
5
6 12 13.50
3.7237
28 15 51.7
0.337
6
4 9 33-11
3.4543
24 34 0.8
8.624
6
6 14 56.93
8.7349
28 16 5.3
4 0.125
7
4 12 0.59
3.4619
24 42 34.0
8.482
7
6 17 40.49
3.7270
28 16 6.7
-0.078
8
4 14 28.54
3.4697
24 50 58.6
8.338
8
6 20 24.17
2.7389
28 15 55.9
0.28a
9
4 16 56-95
3.4774
24 59 14-5
8.192
9
6 23 7.96
3.7306
28 15 32.9
0.486
10
4 19 35-83
3.4851
25 7 21.6
8.044
10
6 25 51.84
3.733X
28 14 57.6
0.689
II
4 21 55.16
3*4937
25 15 19.8
7.895
II
6 28 35.81
3.7333
28 14 10. 1
0.893
12
4 24 24.95
3.5003
25 23 9.0
7.744
12
6 31 19.85
3.7344
28 13 10.3
1,099
13
426 55.19
3.5078
25 30 49.2
7.598
13
634 3.94
3.7354
28 II 58.2
1.304
14
4 29 25.88
3.5x53
25 38 20.2
7.438
14
6 36 48.08
8.7361
28 10 33.8
1.509
15
4 31 57-02
t.5«7
25 45 41.8
7.383
15
6 39 32.27
3.7366
28 857.1
1.7x5
i6
4 34 28.60
3.5300
25 52 54.0
7.126
16
6 42 16.48
3.7369
28 7 8.1
1.920
17
4 37 0.62
3.5373
25 59 56.7
6.967
17
6 45 0.70
3.7370
28 5 6.8
8. 125
i8
4 39 33.07
3.5445
26 6 49.8
6.805
18
6 47 44.92
3.7370
28 2 53.1
3.390
19
442 5.96
3.55x6
26 13 33.3
6.642
19
6 50 29.14
2.7368
28 0 27.1
3.585
20
4 44 39-27
3.5587
26 20 6.9
6.478
20
6 53 13.34
8.7363
27 57 48.8
3.740
21
4 47 13.00
3.5657
26 26 30.6
6.3x3
21
6 55 57.50
3.7357
27 54 58.3
3.9*5
22
4 49 47. 14
3.5736
26 32 44.4
6.X46
22
6 58 41.62
3.7349
27 51 55-5
3.X30
23
4 52 21.70
MG
3.5793
>NDA1
N.26 3848.1
r 26.
5.977
23
7 I 25.69
WED
3.7339
NESD
N.27 48 40.4
AY 28.
5.354
o
4 54 56.66
3.5860
N.26 44 41.7
5.807
0
7 4 9.69
8.7337
N.27 45 13.0
3.558
I
4 57 32.02
3.59^
26 50 25.0
5.636
I
7 6 53.61
«.73X3
27 41 33.4
3.763
2
5 0 7.77
3.599X
26 55 57.9
5.462
2
7 937.45
3.7398
27 37 41-6
S.965
3
5 243.91
a. 6055
27 1 20.4
5.337
3
7 12 21.19
8.7380
27 33 37.6
4.X67
4
5 520.43
3.61x7
27 6 32.4
S.XX2
4
7 15 4.81
8.7360
27 29 21.5
4.369
5
5 7 57-33
3.6x79
27 11 33.7
4.934
5
7 17 48.31
3.7339
27 24 53.3
4.57X
6
5 1034.59
3.6040
27 16 24.4
4.755
6
7 20 31.68
8.72x6
27 20 13.0
4.773
7
5 13 12.21
3.6299
27 21 4.3
4.575
7
7 23 14.91
3.7x90
27 15 20.6
4.973
8
5 15 50.18
2.6356
27 25 33.3
4.393
8
7 25 57.98
3.7x64
27 10 16.3
5.X78
9
5 18 28.49
3.6413
27 29 51-4
4.2x0
9
7 28 40.89
3.7137
27 5 0.0
5.37X
10
521 7.14
3.6469
27 33 58.5
4.oa6
lO
7 31 23.62
3.7x07
26 59 31.8
5.569
II
5 23 46.12
3.6533
27 37 54.5
3.841
II
7 34 6.17
3.7075
26 53 51.7
5.766
12
5 26 25.42
3.6576
27 41 39.4
3.654
12
73648.52
3.704X
26 47 59.9
5.963
13
529 5.03
3.6637
27 45 13.0
3.466
13
7 39 30.67
3.7007
26 41 56.3
6.158
14
5 31 44-94
3.6677
27 48 35.3
3.377
14
7 42 12.61
3.6971
26 35 41.0
6.353
15
53425-15
3.6725
27 51 46.3
3.087
15
7 44 54.32
3.6933
26 29 14.0
6.545
i6
5 37 5.64
2.6771
27 54 45.8
3.896
i6
7 47 35-80
3.6894
26 22 35.5
6.738
17
5 39 46.41
3.68x6
27 57 33.8
3.704
17
7 50 17.04
3.6853
26 15 45.5
6.939
i8
5 42 27.44
3.6860
28 0 10.2
3.3XX
18
7 52 58.03
8.68x0
26 8 44. 1
7.1x9
19
5 45 8.73
8.6902
28 2 35.0
3.3x6
19
7 55 38.76
8.6766
26 I 31.3
7.308
20
5 47 50.26
3.6942
28 4 48. 1
3.X30
20
7 58 19.23
2.6731
25 54 7.3
7.495
21
5 50 32-03
3.698X
28 6 49.4
1.934
21
8 0 59.42
3.6675
25 ^46 32.0
7.681
22
5 53 14.03
3.70x8
28 8 39.0
X.737
22
8 339.33
3.6688
25 38 45.5
7.866
23
5 55 5625
a. 7053
28 10 16.7
x.5«9
23
8 6 18.95
8.6579
25 30 48.0
8.049
24
5 58 38.67
S.70S6
N.28 iz 42.5
1.331
24
8 8 58.27
8.6938
N.25 22 39.6
8.8SI
XIL
FEBRUARY, 1912.
GREENWitH MEAN TIME.
25
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Right Ascension.
Diff.
for
X Min.
Declination.
Diff.
for
X Min.
Hour.
Right Ascension.
Diff.
for
X Min.
Declination.
Diff.
for
X Man.
O
I
2
3
4
5
6
7
8
9
lO
XI
12
^3
14
15
i6
17
i8
19
20
21
22
33
h m
8 8
8 II
8 14
8 16
8 19
8 22
8 24
8 27
830
832
835
837
8 40
842
845
848
8 50
853
855
858
9 o
9 3
9 5
9 8
THURSDAY
N.
s
8
58.27
t.6)a8
37.28
2.6476
15.99
2.6433
54.37
a.6s69
32.42
a. 6315
10.15
3.6SS9
47.53
9,62m
24.57
a. 6x45
1.26
a. 6086
V.6(»6
37.60
13.57
a. 5965
49.18
a. 5903
24.42
2.5841
59.28
a. 5779
33.76
a. 57x6
7.86
a.5«5x
41.58
a. 5586
14.90
2.552X
47.83
a. 5455
20.36
2.5389
52.50
2.53aa
24.23
a. 5255
55.55
2.5x88
26.48
a.sxao
1
N,
29.
o t
25 22
25 14
25 5
2457
24 48
2439
2430
24 20
24 II
24 I
23 51
2341
23 31
23 20
23 10
22 59
22 48
22 37
22 26
22 15
22 3
21 52
21 40
21 28
7
.3
5
-4
39.6
ao.3
50.1
9.2
17.7
15-
3<
40.
7'
24.2
31.0
27.8
14.8
52.1
19.7
37.8
46.5
45.9
36.2
17.4
49.6
12.9
27.6
33.6
H
8.23X
8.412
8.592
8.770
8.946
9.X2X
9.294
9.465
9.635
9.804
9.971
xo. X36
10.299
X0.460
10.6x9
X0.776
X0.932
XX.086
XX. 238
XX.389
IX. 537
XX.683
XX. 628
n.970
FRIDAY, MARCH i.
h xn B
9 10 56.99
s
2.5052
N.2I 16 31.2
X3.XXO
PHASES OF THE MOON.
O Full Moon .
C Last Quarter
0 New Moon .
3) First Quarter
, Feb.
...
...
d h m
2 II 58.0
9 12 50.8
17 17 44.2
25 7 26.8
d h
(t Perigee . . ' . . . Feb. i 14. i
C Apogee 13 23.1
([ Perigee 29 2i.i
26
MARCH, 1912.
I.
AT GREENWICH APPARENT NOON.
Day of
the Week.
I
2
3
THE SUN'S
Sidereal
Time of
Semidi-
ameter
Passing
Me-
ridian.
Sanation of
Time, to be
Added to
Apparent
Time.
Diff.
for
Apparent Rinbt
Ascension.
Diff. for
X Hour.
Apparent Decli-
nation.
DifE. for
X Hour.
Semi diam-
eter.
I Hour.
Frid.
Sat.
SUN.
h m 8
22 48 16.50
22 52 0.92
22 55 44.84
8
9.340
9.320
Oft*
S. 73627.8
71338.0
65042.1
+56-95
57.20
57-45
* m
16 10.05
16 9.81
16 9-57
8
65.40
65.33
65.26
m 8
12 33.49
12 21.39
12 8.79
•
0.493
0.514
0.535
Mon.
Tues.
Wed.
4
5
6
22 59 28.28
23 311.28
23 653.85
9»30i
9.382
9.265
62740.5
6 433.5
541 21.5
4-57.68
57-90
58.10
16 9.32
16 9.07
16 8.81
65.20
65.14
65.08
1155-72
II 42.20
II 28.26
0.554
0.572
0.589
Thur.
Frid.
Sat.
7
8
9
23 10 36.01
23 14 17.80
23 17 59-22
9.249
9.233
9.218
518 4.9
4 54 43 9
431 19.0
4-58.29
58.46
58.62
16 8.55
16 8.29
16 8.02
65^
64.96
64.91
II 13-91
1059.18
10 44.09
0.605
0.621
0.636
SUN.
Mon.
Tues.
lO
II
12
2321 40.30
23 25 21.06
2329 I.5I
9.205
9.192
9.180
4 750.5
3 44 18.8
3 20 44.4
4-58.76
58.88
58.99
16 7.76
16 7.49
16 7.22
64.85
64.80
64-75
10 28.65
10 12.90
9 56.84
0.650
0.663
0.675
Wed.
Thur.
Frid.
13
14
15
23 32 41.68
23 36 21.59
23 40 1.25
9.168
9.158
9.148
257 7.6
2 33 28.6
2 9 48.0
4-59.08
59.16
59.22
16 6.95
1 6 6.68
16 6.41
64.71
64.67
64.63
9 40.50
9 23.89
9 7.04
0.686
0.697
0.707
Sat.
SUN.
Mon.
i6
17
i8
23 43 40.68
23 47 19-90
23 50 58-93
9139
9-131
9.123
I 46 6.1
I 22 23.4
05840.1
+59.26
59-29
59.30
16 6.14
16 5.87
16 5.60
64.60
64-57
64-54
8 49.97
8 32.69
8 15.22
0.716
0.725
0.732
Tues.
Wed.
Thur.
19
20
21
23 54 37.79
23 58 16.50
0 I 55.06
9.116
9.110
9.104
0 34 56.6
S. 0 II 13.5
N. 0 12 28.9
+59.29
59-28
59.25
16 5.33
16 5.06
i6 4.79
64.52
64.50
64.48
7 57.58
7 39.78
7 21.83
0.739
0.745
0.750
Frid.
Sat.
SUN.
22
23
24
0 533-50
0 9 11.83
012 50.08
9-099
9.095
9.092
0 36 10.3
0 59 50.2
1 23 28.3
+59.20
59.13
59.04
16 4-53
16 4.26
16 3.99
64.46
64-45
64.44
7 3-76
6 45.59
6 27.33
0.755
0.759
0.762
Mon.
Tues.
Wed.
25
26
27
0 16 28.26
0 20 6.40
0 23 44.50
9.090
9.089
9.089
147 4.2
2 10 37.5
234 7.9
4-58.94
58.83
58.70
16 3.72
16 3-45
16 3.17
64.44
64.43
64-43
6 9.01
5 50.64
5 32.23
0.764
0.766
0.767
Thur.
Frid.
Sat.
SUN.
28
29
30
31
0 27 22.58
031 0.68
0 34 38.81
038 17.00
9.090
9.090
9.091
9.093
2 57 35.0
3 20 58.5
3 44 18.0
4 733.2
+58.55
58.39
58.22
58.04
16 2.90
16 2.62
16 2.35
16 2.07
64.43
64.44
64.45
64.46
5 13-82
4 55-42
4 37-05
4 18.74
0.767
0.766
0.764
0.761
Mon.
32
0 41 55.28
9.097
N. 43043-9
+57.84
16 1.80
64.48
4 0.51
0.758
NoTX.— -The mean time of semidiameter passing may be found by subtracting o>.i8 from the sidereal time.
The sign -f- prefixed to the hourly change of declination indicates that south declinations are decreasing;
north declinations increasing.
II.
MARCH, 1912.
27
AT GREENWICH MEAN NOON.
Day of
the Week.
U
THE SUN'S
Equation of
Time, to be
Subtracted
from
Mean Time.
Diff. for
z Hour.
Sidereal Time,
or Right Ascen-
sion of Mean
Sun.
Apparent Right
Ascension.
Diff. for
z Hour.
Apparent Declina-
tion.
Diff. for
I Hour.
Frid.
Sat.
SUN.
I
2
3
h m s
22 48 14.54
22 51 58.99
22 55 42.95
s
9.363
9.342
9.322
0 t M
s. 73639.7
71349.8
6 50 53.8
It
+56.95
57.20
57-45
m s
12 33.59
12 21.49
12 8.90
s
0.493
0.514
0.535
h m s
22 35 40.94
22 39 37.50
22 43 34.05
Mon.
Tues.
Wed.
4
5
6
22 59 26.43
23 3 947
23 652.08
9.303
9.284
9.267
6 27 52.0
6 4 44.8
5 41 32.6
+57.68
57.90
58.10
1155.83
II 42.31
II 28.37
0.554
0.572
0.589
22 47 30.61
22 51 27.16
• 22 55 23.71
Thur.
Frid.
Sat.
7
8
9
23 10 34.29
23 14 16.11
231757.57
9.251
9.235
9.220
5 18 15.8
4 54 54.6
43129.5
+58.29
58.46
58.6a
II 14.02
10 59.29
10 44.20
0.606
0.621
0.636
22 59 20.27
23 3 16.82
23 713.37
SUN.
Mon.
Tues.
lO
II
12
23 21 38.69
23 25 19.49
23 28 59.99
9.207
9.194
9.182
4 8 0.8
3 44 28.9
3 20 54.2 *
+58.76
58.89
59.00
10 28.77
10 13.01
9 56.95
0.650
0.663
0.675
23 II 9.93
23 15 6.48
23 19 3.04
Wed.
Thur.
FriA
13
H
15
23 32 40.20
23 36 20.15
23 39 59.85
9.170
9.160
9.150
2 57 17.1
2 33 37.9
2 957.0
+59.09
59.17
5923
9 40.61
9 24.00
9 7.15
0.686
0.697
0.707
23 22 59.60
23 2656.15
23 30 52.70
Sat.
SUN,
Mon.
i6
17
i8
23 43 39.33
23 47 18.60
23 50 57.68
9. 141
9.132
9.125
I 46 14.8
I 22 31.8
0 58 48.2
+59.28
59.31
59.32
8 50.08
8 32.80
8 15.32
0.716
0.724
0.732
23 34 49.25
23 38 45.80
23 42 42.36
Tues.
Wed.
Thur.
19
20
21
23 54 36.58
23 58 15-33
0 153.94
9.118
9.112
9.106
035 4.5
S. 0 II 21. 1
N. 0 12 21.6
+59.31
59.29
59.26
7 57.67
7 39.87
721.93
0.739
0.745
0.750
23 46 38.91
23 50 35.46
23 54 32.02
Frid.
Sat.
SUN.
22
23
24
0 532.43
0 9 10.81
0 12 49.10
9.10Z
9.097
9.094
036 3.3
0 59 43.6
1 23 22.0
+59.21
59-14
59-05
7 3.86
6 45.68
6 27.42
0.755
0.759
0.762
23 58 28.57
0 225.13
0 621.68
Mon.
Tues.
Wed.
25
26
27
0 16 27.32
020 5.49
0 23 43.64
9.092
9.090
9.089
1 46 58.2
2 10 31.8
234 2.5
+58.95
58.84
58.71
6 9.09
5 50.71
5 32.30
0.765
0.766
0.767
0 10 18.23
0 14 14.79
0 18 11.34
Thur.
Frid.
Sat.
SUN.
28
29
30
31
02721.78
0 30 59.93
03438.11
0 38 16.35
9.089
9.090
9.092
9.095
2 57 29.9
3 20 53.7
34413.5
4 7 29.0
+58.57
58.41
58.24
58.06
5 13.88
4 55-47
437.10
4 18.79
0.767
0.766
0.764
0.761
0 22 7.89
026 4.45
0 30 1. 00
0 33 57.56
Mon.
32
0 41 54.67
9.099
N. 4 30 40.0
+57.86
4 0.56
0.758
03754."
Note.— 1
1
'hesc
rhesi
tiom
smidlameter for me
gn + prefixed to tb
1 are decreasing; ni
an noon m
\e hourly c
Drth declic
tay be assumed the 1
change of declinatio
lations increasing.
Mme as tt
n indicati
lat for apparer
»8 that south c
It noon,
ieclina-
Diff. for z Hour,
+9».8365.
(Table HI^
28
MARCH, 1912.
Ill
AT GREENWICH MEAN NOON.
og
Q
I
2
3
4
5
6
7
8
lO
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
9a
THE sxnrs
Ttuo Longitndo.
34034 3.2
341 34 1 1.9
342 34 18.7
«
343 34 23-7
344 34 26.9
345 34 28.4
346 34 28.2
347 34 26.4
348 34 22.9
349 34 17.7
350 34 10.8
35134 2.3
352 33 52.1
353 33 40-1
354 33 26.3
355 33 IO-7
356 32 53-2
357 32 33.8
358 32 12.5
359 31 49-1
031 23.6
1 30 55-9
2 30 26.0
3 29 53-8
4 29 19.2
5 28 42.2
6 28 2.9
727 21.2
8 26 37.3
92551-1
10 25 2.6
11 24 12.0
34 0-9
34 9.5
34 i6-2
34 21. 1
3424.2
34 25-6
34 25.3
34 23-3
34 19-7
34 14-4
34 7.4
33 58.7
33 48.4
33 36.3
33 22.4
33 6.7
32 49-2
32 29.7
32 8.2
31447
31 19.1
3051-3
30 21.2
29 48.8
29 14. 1
28 37.1
27 57-7
27 16.0
2631.9
25 45.5
24 57-0
24 6-3
Diff. for
X Hour.
NoTC— The longitudes in the colnmn A are refe
those in the column X' are referred to
selian fictitious year.
50.40
50.32
50.25
5a 17
50.10
50-03
49.96
49.89
49.82
49.75
49.68
49.61
49-54
49-47
49*39
49.31
49-23
49.15
49.07
48.98
48.89
48.80
48.70
48.61
48.51
48.42
48.32
48.22
48.12
48.03
47.94
47.85
latitude.
+0.50
0.44
0.33
+0.21
4-0.08
—0.06
—0.19
0.32
0.44
—0.54
0.61
0.66
—0.67
0.67
0.63
—0.57
0.48
0.38
-1-0.27
0.14
—0.01
4-0.12
0.25
0.34
+0.41
0.44
0.45
+0.42
0.35
0.26
0.15
4-0.02
Loffarithm of the
Radius Vector of
the Earth.
9.996 1540
9.996 2620
9.9963717
9.9964831
9.996 5962
9.996 7108
9.996 8268
9.996 9440
9.997 0623
9.997 1816
9-997 3017
9.997 4225
9.997 5438
9.997 6655
9.997 7875
9.997 9097
9.998 0320
9-998 1543
9.998 2764
9.998 3984
9.998 5203
9.998 6420
9.998 7636
9.998 8851
9.999 0067
9.999 1284
9-999 2503
9.999 3726
9.999 4954
9.999 6187
9.999 7426
9.999 8671
Diif . for
z Hour.
+44.6
45.3
46.1
4*46.8
47.4
48.0
4*48.6
49.1
49.5
+49.9
5a8
50.4
4*50.6
50.8
50.9
+50.9
50.9
50.9
4*50.9
50.9
5a8
4-50.7
50.7
5a6
+50.7
50.8
50.9
4*51.1
51.3
51-5
51-7
4-52.0
ed to the true equinox of their own date, while
he mean equinox of the beginning of the Bee-
Mean Time of
Sidereal Noon.
h m s
I 24 5.24
I 20 9.33
I 16 13.43
I 12 17.52
I 821.61
I 4 25.70
I o 29.80
o 56 33.89
o 52 37.98
o 48 42.07
04446.16
o 40 50.26
o 36 54-35
o 32 58.44
029 2.53
o 25 6.62
o 21 10.72
o 17 14.81
o 13 18.90
o 922.99
o 527.09
o I 31.18
23 57 35 27
23 53 39.36
23 49 43.45
{
23 45 47.55
234151.64
23 37 55.73
23 33 5982
23 30 3.91
23 26 8.01
23 22 12.10
23 18 16.19
Diff. for z Hour,
— 9».8996.
(Table H.)
IV
MARCH, 1912.
29
GREENWICH MEAN TIME.
I
O
S
o
•3
I
a
3
4
5
6
7
8
lO
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
THE MOON'S
SBMIDIAMETEB.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGE.
Noon.
6 30.2
6 27.7
6 21.0
6 10.9
5 58.2
5 44-1
5 30-0
5 16.9
5 5-6
4 56.7
4 50.6
4 47.3
4
4
4
4
5
5
5
5
5
5
5
6
6
6
6
6
6
6
46.7
48.7
52.9
58-9
6.2
14.3
22.8
31.2
39-3
46.8
53.8
0.1
5-7
10.4
13-7
15.6
15-2
12.5
7.1
15 59-3
Midnight
Noon.
6
6
6
6
5
5
4
4
4
4
4
4
29-5
24.8
16.3
4.8
51.2
37-0
5 23.3
5 ii.o
5 0-8
53-3
48.6
46.7
47.4
50.6
55^7
5 2.4
5 10.2
5 18.6
5 27.0
5 35-3
5 43-1
5 50.4
5 57.0
6 3.0
6 8.2
6 12.2
6 14.9
6 15-7
6 14.2
6 10. 1
6 3-5
15 54-6
60 28.3
60 18.9
59 54-5
59 17-3
58 30.7
57 39-1
56 47.3
55 59-2
55 17-8
54 45-2
54 22.7
54 IO-5
54 8.5
54 15-8
54 31-2
54 53-2
55 20.0
55 49-8
56 20.8
56 516
57 21.3
57 49.0
58 14.6
58 37.8
58 58.3
59 15-3
59 27.8
59 34-4
59 33.3
59 23.2
59 3-4
58 34-6
Diff.for
X Honr.
-0.08
0.71
1.30
-1.77
2.07
2.18
-2.IO
1.88
1-55
-1.15
0.72
-0.29
+0.11
0.48
0.79
+1.03
Z.19
1.27
+1.29
Z.27
Z.30
+X.II
1.02
0.91
+0.79
0.62
0.40
+0.12
-0.23
0.62
1.02
-1.36
Midnight
60
60
59
25-5
8.5
37.3
58 54-9
58 5-2
57 I3-0
56 22.6
55 37-5
55 0-3
54 32.6
54 15-3
54 8.3
54 "o
54 22.6
54 41-5
55 6.1
55 34-6
56 5.3
56 36.3
57 6.7
57 35-4
58 2.1
58 26.5
58 48.4
59 7-3
59 22.2
59 31-9
59 34-9
59 29.4
59 14-5
58 50-0
58 17.3
Diff.for
X Honr.
Meridian of
Greenwich.
-0.39
1.02
1-55
-1.94
2.15
2.16
-2.00
1-73
1.36
■0.94
0.51
.08
+0.30
0.64
0.92
+I.I2
Z.24
Z.29
+1.28
1.24
Z.I5
+X.07
0.97
0.85
+O.7Z
0.52
+0.27
-0.05
0.42
0.82
Z.20
-Z.5Z
h m
II 0.6
11 54-9
12 45-5
13 33.4
14 20.0
15 6.4
15 53-6
16 42.2
17 32.4
18 23.8
19 15.5
20 6.5
20 55.8
21 43.0
22 28.1
23 "-5
23 54-0
6
0 36.4
1 19.8
2 5-5
2 54-7
3 48.0
4 45-8
5 47-2
6 49.9
7 51-4
8 49.7
9 43.9
10 34-5
11 22.5
12 9.2
Diff.for
I Hour.
m
2-35
2.18
2.04
Z.96
Z.93
1.95
X.99
2.06
2.12
2.X5
2.Z5
2.10
2.01
1.92
1.84
Z.78
Z.76
z.78
Z.85
Z.97
2,Z3
2.32
2.50
2.60
2.60
2.50
2.35
2.z8
2.05
1.96
X.93
Noon.
d
12.3
13.3
14-3
15.3
16.3
17.3
18.3
19-3
20.3
21.3
22.3
233
24-3
25.3
26.3
27.3
28.3
29-3
0.6
1.6
2.6
3.6
4.6
5-6
6.6
7.6
8.6
9.6
10.6
1 1.6
12.6
13-6
30
MARCH, 1912.
GREENWICH MEAN TIME,
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
I Min.
Declination.
for
xMin.
Hour.
Right Ascension.
for
xMin.
Declination.
for
xMin.
FRIDAY X.
SUNDAY 3.
h m s
s
0 • w
H
h m s
8
e * M
M
O
9 lo 56.99
8.5058
N.2I 16 31.2
I2.ZIO
0
II 3 28.99
8.X983
N. 9 33 5.4
X6.398
X
9 13 27-09
a. 4983
21 4 20.4
12.248
I
II 540.74
8.X938
9 16 40.3
16.437
2
9 15 56.78
3.4914
20 52 1.4
12. 384
2
II 752.19
3.X883
9 0 13.0
16.474
3
9 18 26.06
8.4845
20 39 34.3
12.5x9
3
II 10 3.33
2.X833
8 43 43.5
16.509
4
9 20 54.92
a.4776
20 26 59.2
I2.65X
4
II 12 14.17
a.x7«4
8 27 II. 9
16.543
5
9 23 23.37
2.4707
20 14 16.2
X2.78X
5
II 14 24.73
8.X736
8 10 38.4
16.575
6
9 25 51-40
2.4637
20 I 25.4
X8.909
6
II 16 35.00
3.X689
7 54 3-0
16.604
7
9 28 19.02
2.4568
19 48 27.0
13.035
7
IX 18 44.99
8.1643
7 37 25-9
X6.633
8
9 30 46.22
a. 4499
19 35 21. 1
13.159
8
II 20 54.71
8.X597
7 20 47. 1
X6.658
9
9 33 13-00
8.4489
19 22 7.9
13.281
9
II 23 4-15
8.155a
7 4 7-0
X6.683
10
9 35 39-37
a.4359
19 847.4
X3.4OX
10
II 25 13.33
8.X508
6 47 25.3
16.704
II
938 5-32
8.4390
18 55 19.8
13.518
II
II 27 22.25
3.X465
6 30 42.4
16-724
12
9 40 30.85
8.4221
18 41 45.2
13.634
12
II 29 30.91
a. 1423
6 13 58.4
16.743
13
9 42 55-97
3.415a
18 28 3.7
13.748
13
II 31 39-32
8.X38X
5 57 13.3
16.760
14
9 45 20.67
3.4083
18 14 15.4
13.859
14
II 33 47.48
a. 1340
5 40 27.2
16.775
15
9 47 44-96
8.4014
18 0 20.5
13.968
15,
II 35 55.40
8.X300
5 23 40.3
X6.788
i6
9 50 8.84
a. 3945
17 46 19. 1
X4.075
16
II 38 3.08
a. Z86x
5 6 52.6
X6.8OO
17
9 52 32.30
8.3876
17 32 11.4
X4.Z80
17
II 40 10.53
8.XS83
4 50 4.3
x6.8xo
i8
9 54 55.35
8.3808
17 17 57.5
X4.283
18
II 42 17.76
a. ZX85
4 33 15.4
X6.818
19
9 57 18.00
2.3741
17 3 37-5
14.384
19
II 44 24.76
8.1x48
4 16 26.1
X6.825
20
9 59 40-24
a. 3674
16 49 II. 4
14.483
20
II 46 31.54
8.XIX3
3 59 36.5
Z6.830
21
10 2 2.08
8.3606
16 34 39-5
14.580
21
II 48 38.11
8.X078
3 42 46.6
X6.833
22
10 4 23.52
a.3539
16 20 1.9
14.674
22
II 5044-47
2.1043
3 25 56.6
X6.834
23
10 644.55
a. 3473
N.x6 5 18.7
14.766
23
II 52 50.64
a. xozo
N. 3 9 6.5
X6.834
SAT
'URD/
^Y 2.
MC
)NDA^
if 4.
O
10 9 5.19
9.3407
N.15 50 30.0
14.857
0
II 54 56.60
a.0978
N. 2 52 16.5
X6.833
I
10 II 25.43
a. 3341
15 35 35-9
14.945
I
II 57 2.37
8.0946
2 35 26.7
X6.828
2
10 13 45.28
2.3876
15 20 36.6
15.030
2
II 59 7.96
8.09x5
2 18 37.1
16.823
3
10 16 4.74
8.38XZ
15 532-3
I5.XX4
3
12 I 13.36
8.0885
2 I 47.9
x6.8x6
4
10 18 23.81
a. 3146
14 50 23.0
I5.X96
4
12 3 18.58
3.0856
X 44 59.2
X6.808
5
10 20 42.49
8.308a
1435 8.8
X5.a75
5
12 5 23.63
3.0838
I 28 II. 0
X6.798
6
10 23 0.79
8.30x9
14 19 49-9
15.353
6
12 7 28.52
a.o8oo
I 11 23.5
16.786
7
10 25 18.72
8.8957
14 4 26.5
X5.4a9
7
12 933.23
8.0773
0 54 36.7
16.773
8
10 27 36.27
8.2895
13 48 58.6
15.50a
8
12 II 37.80
a. 9747
0 37 50.7
16-259
9
10 29 53.45
8.8833
13 33 26.3
15.573
9
12 13 42.20
8.0722
0 21 5.6
16.743
lO
10 32 10.26
8.8771
13 17 49.8
15.648
10
12 15 46.46
a.0698
N. 0 4 21.6
16.785
II
10 34 26.70
8.8710
13 2 9.3
15.709
II
12 17 50.58
8.0675
S. 0 12 21.3
X6.706
12
10 36 42.78
2.8650
12 46 24.8
15.774
12
12 19 54-56
8.0653
029 3.1
X6.685
13
10 38 58.51
a. 2591
12 30 36.4
15.837
13
12 21 58.41
a.0630
0 45 43-6
16.663
14
10 41 13.89
2.2533
12 14 44.3
15.898
14
12 24 2.12
2.0609
I 2 22.7
X6.640
15
10 43 28.91
2.2475
II 58 48.6
15.957
15
12 26 5.71
8.0589
I 19 0.3
x6.6x5
i6
104543-58
2.2417
II 42 49.4
X6.0X4
16
12 28 9.19
a.0570
I 35 36.4
x6.s88
17
10 47 57.91
a. 2360
II 26 46.9
16.069
17
12 30 12.55
a.0551
I 52 10.9
X6.560
i8
10 50 1 1. 91
2.2304
II 10 41. 1
X6.188
18
12 32 15.80
a. 0533
2 8 43.6
16.531
19
10 52 25.57
2.8849
10 54 32.2
16.173
19
12 34 18.95
a.0516
2 25 14.5
X6.500
20
10 54 38.90
2.2195
10 38 20. 4
16.283
20
12 36 21.99
8.0500
2 41 43.6
X6.468
21
10 56 51.90
3.2141
10 22 5.7
16.269
21
12 38 24.95
a.0485
2 58 10.7
16.435
22
1059 4-58
2.8087
10 5 48.2
16.314
22
12 40 27.81
8.0470
3 14 35.8
16.400
23
II I 16.94
8.8Q34
9 49 28.1
16.357
23
12 42 30.58
3.0456
3 30 58.8
16.364
24
n 3 28.99
a. 1983
N. 9 33 5-4
X6.398
24
12 44 33.28
a. 0443
S. 3 47 19-5
X6.387
VI.
MARCH, 1912.
31
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Aecention.
for
xMin.
Declination.
for
zMin.
Hour.
Right Ascension.
for
iMin.
Declination.
for
iMin.
TU
ESDA
Y5.
THURSDAY 7.
h m 8
t
• f I*
m
h m 8
8
0 » t»
w
O
12 44 33.28
3.0443
S. 3 47 19.5
16.337
0
14 22 31.43
3.0620
S.1545 4-4
13.167
I
12 46 35.90
a. 0430
4 337.9
Z6.388
Z
14 24 35.20
8.0637
15 58 II. 7
13.077
2
12 48 38.45
2.Q419
4 19 54-0
16.348
2
14 26 39.07
3.0655
16 zi 13.6
12.986
3
12 50 40.93
a. 0409
436 7.6
16.307
3
14 28 43.06
3.0673
16 24 lO.O
12.894
4
12 52 43.35
8.0999
4 52 18.7
Z6.I64
4
143047.16
3.o6ga
16 37 0.8
12. Sox
5
12 54 45.71
3.9389
5 8 27.2
x6.xao
5
14 32 51.37
8.07x8
16 49 46.0
12.707
6
12 56 48.02
3.0980
52433.1
16.075
6
14 34 55.70
2.073a
17 2 25.5
12.612
7
12 58 50.28
a. 0973
5 40 36.2
16.028
7
1437 0.14
8.0753
17 14 59.3
12.516
8
13 052.49
2.0966
5 56 36.4
15.980
8
1439 4.71
3.0773
17 27 27.4
12.430
9
13 2 54.66
3.0359
6 12 33.7
15.93X
9
14 41 9.40
3.0798
17 39 49.8
12.323
zo
13 4 56.80
3.0934
6 28 28. 1
15.881
10
14 43 Z4.22
3.08x3
17 52 6.4
12.235
II
13 6 58.92
3.0350
6 44 19.5
15.830
II
1445 19.16
3.0835
18 4 17.0
X2.X37
12
13 9 i.oo
3. 0346
7 0 7.7
15.777
12
14 47 24.23
8.0B56
18 16 21.6
12.088
13
13 II 3.06
3.034a
7 15 52.7
15.783
13
14 49 29.43
2.0877
18 28 20.3
XI.928
14
13 13 5.X0
a.0939
7 31 34.4
15.668
14
14 5t 34.76
2.0900
18 40 12.9
11.827
15
13 15 7-12
3.0337
7 47 12.8
15. 612
15
14 53 40.23
3.0983
18 51 59.5
11.733
i6
13 17 9.14
3.QS36
8 247.8
15.555
16
14 55 45-83
8.0945
19 339.9
11.683
17
13 19 II.I5
3.0335
8 18 19.4
15.496
17
14 57 51.57
3.og66
19 15 14.1
11.530
i8
13 21 13.16
3.0935
8 33 47-4
15.436
18
14 59 57.45
8.0991
19 26 42.1
11.4x5
19
13 23 15.17
3,0336
8 49 II. 8
15.376
19
15 2 3.47
3.X014
19 38 3.9
XI. 3x0
20
13 25 17.19
3.0337
9 432.5
15.315
20
15 4 9.63
2.XO38
^9 49 19-4
11.805
21
13 27 19.23
3.0339
9 19 49.5
15.35a
21
15 6 15.93
3.1062
20 0 28.5
11. 098
22
13 29 21.26
3.0343
9 35 2.6
15.188
22
15 8 22.38
3. XO67
20 II 31.2
X0.99X
23
13 31 23.32
WEE
a.0346
►NESE
S. 9 50 1 1.9
lAY 6.
15. W3
23
15 10 28.98
Fl
8.xixa
UDA\
S.20 22 27.5
' 8.
ZO.884
o
13 33 25.41
3.0350
S.io 5 17.3
15.056
0
15 12 35.72
8.X135
S.20 33 17.3
XO.775
z
13 35 27.52
3.0354
10 20 18,6
14.988
I
15 14 42.61
2.1X59
20 44 0.5
X0.666
2
13 37 29.66
3. 0359
10 35 15.9
14.920
2
15 16 49.64
2.1184
20 54 37. 1
10.556
3
13 39 31.83
3.0365
10 50 9.0
14.851
3
15 18 56.82
2.1309
21 5 7.1
10.445
4
13 41 34.04
8.037«
" 457.9
14.780
4
15 21 4.15
3.X334
21 15 30.5
X0.334
5
13 43 36.30
3.0379
II 19 42.6
14.709
5
15 23 11.63
3.1359
21 25 47.2
ZO.222
6
13 45 38.60
3.0387
II 34 23.0
14.637
6
15 25 19.26
3.1384
21 35 57.2
X0.X10
7
13 47 40.94
3. 0396
II 48 59.0
14.563
7
15 27 27.04
2.1310
21 46 0.4
9.997
8
13 49 43.34
3.Q404
12 3 30.6
14.489
8
15 29 34.98
2. 1335
21 55 56.8
9.883
9
13 51 45.79
3.04x3
12 17 57.7
14.414
9
15 31 43.07
2. 1361
22 546.3
9.768
lO
13 53 48.30
3.0434
12 32 20.2
X4.3S7
10
15 33 51.31
2.1386
22 15 28.9
9.653
II
13 55 50.88
a. 0435
12 46 38.1
14.859
II
15 35 59.70
2.1411
22 25 4.6
9.536
12
13 57 53.52
a.0445
13 0 51.3
14. 181
12
15 38 8.25
a. 1437
22 34 33.3
9.480
13
13 59 56.23
3.0456
13 14 59.8
14.102
13
15 40 16.95
2.1468
22 43 55.0
9.303
14
14 I 59.01
3.Q469
13 29 3-5
14.021
14
15 42 25.80
2.1487
22 53 9.7
9. 185
15
14 4 1.86
3.048a
13 43 2.3
X3.939
15
15 44 34.80
2.1513
23 2 17.3
9.067
i6
14 6 4.79
8.0496
13 56 56.2
13 857
16
15 46 43.95
2.1538
23 II 17.7
8.948
17
14 8 7.80
3.0SQ9
14 1045.2
13.774
17
15 48 53-25
2.1963
23 20 II.O
8.828
i8
14 10 10.90
3.0534
14 24 29. 1
13.690
18
15 51 2.71
2.1589
23 28 57. 1
8.708
19
14 12 14.09
a. 0539
14 38 8.0
13.605
19
15 53 12.32
2.16x4
23 37 36.0
8.588
20
14 14 17.37
8.0554
14 51 41.8
13.519
20
15 55 22.08
2.1638
23 46 7.6
8.467
21
14 16 20.74
3.0570
15 5 10.4
13.438
21
15 57 31.98
2.1663
23 54 31.9
8.345
22
14 18 24.20
3.0586
15 18 33.7
13.344
22
15 5942.03
8.1668
24 2 48.9
8.228
23
14 20 27.76
3.0603
15 31 51.7
13.356
23
16 I 52.23
3.1713
24 10 58.6
8.099
'-4
14 22 31.43
9.o6ao
S.1545 4-4
13.167
24
16 4 2.58
8.1737
S.24 19 0.8
7.976
32
MARCH, 1912.
GREENWICH MEAN TIME.
VII
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Ascenaion.
Diff.
for
zMin.
Declination.
DifE.
for
X Min.
Elonr.
Right Ascension.
Diff.
for
I Min.
Declinarimi.
Diff.
for
xMin.
SATURDAY 9.
h m s
s
• * w
o
16 4 2.58
a- 1737
S.24 19 0.8
I
16 6 13.08
2.1763
24 26 55.6
2
16 8 23.72
2.1786
24 34 43.0
3
16 10 34.50
2.X809
24 42 22*9
4
16 12 45-42
2.1832
24 49 55.2
5
16 14 56.49
3.X856
24 57 20.0
6
16 17 7.69
3.X879
25 437.2
7
16 19 19.03
2.X90X
25 II 46.8
8
16 21 30.51
2.X924
25 18 48.8
9
16 23 42.12
2.X947
25 25 43. 1
lO
16 25 53.86
2.X969
25 32 29.7
IZ
16 28 5.74
2.X990
25 39 8.6
22
16 30 17.75
2.20XX
25 45 39.7
13
16 32 29.88
2.2032
25 52 3.0
14
163442.13
8.9053
25 58 18.5
15
16 36 54.51
2.9073
26 4 26.2
i6
16 39 7.01
3.9093
26 10 26. 1
17
16 41 19.63
2.2XX2
26 16 18.2
i8
16 43 32.36
2.SZ3X
26 22 2.3
19
16 45 45.20
2.2X49
26 27 38.5
20
16 47 58.16
3.2X66
26 33 6.7
21
16 50 11.22
8.2X86
26 38 27.0
22
16 52 24.39
2.9903
26 43 39.3
23
x6 54 37-66
2.2220
S.26 48 43.6
SU
NDA\7
' 10.
o
16 56 51.03
8.2236
S.26 53 39.9
z
16 59 4.50
8.3252
26 58 28. 1
2
17 I 18.06
2.2968
27 3 8.3
3
17 3 31.71
3.2383
27 740.4
4
17 545.45
2.8397
27 12 4.4
5
17 759.27
2.83XX
27 16 20.3
6
17 10 13.17
2.8324
27 20 28.1
7
17 12 27.15
2.2336
27 24 27.8
8
17 14 41.21
3. 8348
27 28 19.3
9
17 16 55.34
2.3360
27 32 2.6
10
17 19 9-54
2.3371
27 35 37.7
II
17 21 23.80
8.3381
2739 4.6
12
17 23 38.11
2.3»X
27 42 23.3
13
17 25 52.48
2.2400
27 45 33.8
H
17 28 6.91
3. 3408
27 48 36.1
15
17 30 21.39
2.34x6
27 51 30.2
16
17 32 35.91
3.2434
27 54 16. 1
17
17 34 50.47
3. 8431
27 56 53.7
18
17 37 5.07
2.8437
27 59 23.0
19
17 39 X9«7i
2.844a
28 I 44.0
20
17 4X 34.38
2.3446
28 3 56.8
21
17 43 49.07
2.3450
28 6 1.3
22
1746 3.78
8.8454
28 7 57.5
23
17 48 18.51
8.2457
28 945.4
24
17 50 33.26
2.2450
S.28 II 25.0
MONDAY II.
7.976
7.85a
7.603
7.477
7.350
7.223
7.096
6.968
6.840
6.718
6.583
6.454
6.325
6.194
6.063
5.93a
5.80X
5.670
5.537
5*404
5.372
5. 139
5.005
4.87X
4.737
4.603
4.468
4.333
4.198
4.063
3.986
3.790
3.654
3.518
3.381
3.344
3.107
8.970
a.833
a.695
a. 557
a.419
8.281
2.143
8.005
X.867
1.729
1.591
O
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
o
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
h m s
s
Of m
m
7 50 33.26
8.9459
S.28 II 25.0
1.591
7 52 48.02
8.2460
28 12 56.4
1.453
7 55 2.78
8.3460
28 14 19.5
1.315
7 57 17.55
3.Sf6o
28 15 34.3
i»i77
7 59 32.31
2.2460
28 16 40.8
1.039
8 147.07
3.3459
28 17 39.0
0.901
.8 4 1.82
2.2457
28 18 28.9
0.763
8 6 16.55
a. 2454
28 19 10.5
0.625
8 8 31.26
2.3450
28 19 43.8
0.487
8 10 45.96
2.8446
28 20 8.9
0.349
8 13 0.62
2.2441
28 20 25.7
0.211
8 15 15-25
3.3435
28 20 34.2
-0.073
8 17 29.85
2.3499
28 20 34.4
+0.065
8 19 44.41
8.2492
28 20 26.4
0.203
8 21 58.92
2.2415
28 20 10. 1
0.340
8 24 13.39
2.3407
28 19 45.6
0.477
8 26 27.81
8.2398
28 19 12.9
0.6x4
8 28 42.17
2.2389
28 18 31.9
0.751
8 30 56.47
8.2379
28 17 42.7
0.888
8 33 10.71
2.3368
28 16 45.3
1.084
8 35 24.88
2.2336
28 15 39.7
x.x6i
8 37 38.98
2.8344
28 14 26.0
X.898
8 39 53.00
a.233«
28 13 4.1
1*434
8 42 6.94
8.8317
S.28 II 34.1
1*569
TU]
ESDA
Y 12.
8 44 20.80
3.3303
S.28 9 55.9
1.704
8 46 34.57
3.8888
28 8 9.6
X.840
8 48 48.25
8.297a
28 6 15. 1
1-975
8 51 1.83
8.8856
28 4 12.6
2.X09
8 53 15.32
8.8239
28 2 2.0
a.243
8 55 28.70
a.888X
27 59 43.4
a.S77
8 57 41.97
8.8a03
27 57 16.7
2.SIX
8 59 55.13
8.8X84
27 54 42.0
2.645
9 2 8.18
8.8X65
27 51 59-4
2.778
9 421.12
8.2x46
27 49 8.8
8.9x0
9 633.93
3.8X35
27 46 10.2
3.04a
9 8 46.61
2.2x03
2743 3.6
3174
9 xo 59.17
8.208X
27 39 49.2
3.306
9 13 11.60
9.3059
27 36 26.9
3.437
9 15 23.89
2.2037
27 32 56.7
3.568
9 17 36.04
8.3014
27 29 18.7
3.699
9 19 48.05
a. 1990
27 25 32.9
3.889
9 21 59-91
8.X966
27 21 39.3
3958
9 24 1X.63
a.i94X
27 17 38.0
4.087
9 26 23.20
a. 1915
27 13 29.0
4.216
9 28 34.61
a.x889
27 9 12.2
4.344
9 30 45.87
2.X863
27 447.7
4.471
9 32 56.97
8.X836
27 0 15.6
4.598
9 35 7.91
8.X809
26 55 35.9
4.7«S
9 37 18.68
8.X788
S.26 50 48.6
4.851
VIII.
MARCH, 1912.
33
GREENWICH MEAN TIME,
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
DiflF.
Diff.
Diff.
Hour.
Right Ascension.
for
Declination.
for
Hour.
Right Ascension.
for
Declination.
for
iMin.
X Min.
X Min.
I Min.
WED]
NESD
AY 13.
FRIDAY
15.
b m 1
8
0 f It
H
h
m 8
1
e 1 I*
n
O
ig 37 18.68
8.1782
S.26 50 48.6
4.85X
0
21
18 8.53
2.0x85
S.20 43 46.7
10.185
I
19 39 29.28
2.1754
36 45 53.7
4.977
I
21
20 9.54
2.0x51
20 33 32.8
10.279
2
19 41 39.72
a.i7«5
26 40 51.3
5.XO3
2
21
22 10.34
2.0117
20 23 13.2
10.373
3
19 43 49-99
2.1696
26 35 41.4
5.228
3
21
24 10.94
2.0084
20 12 48.0
10.466
4
19 46 0.08
2.1667
26 30 24.0
5.352
4
21
26 11.34
2.0051
20 2 17.3
10.557
5
1948 9.99
2.1637
26 24 59.2
5.475
5
21
28 11.55
2.0018
19 51 41.2
10.647
6
19 50 19.72
2.1607
26 19 27.0
5.598
6
21
30 11.56
X.9986
19 40 59.7
10.737
7
19 52 29.27
2.1577
26 13 47.5
5.72X
7
21
32 11.37
X.9953
19 30 12.7
10.827
8
19 54 38.64
2.1546
26 8 0.6
5.843
8
21
34 10.99
X.9920
19 19 20.4
10.9x6
9
19 56 47.83
2.15x5
26 2 6.4
5.964
9
21
36 10.42
X.9888
19 8 22.9
11. 003
lO
19 58 56.83
2.1484
25 56 5.0
6.084
zo
21
38 9.66
1.9857
18 57 20.1
xi.o6g
II
20 I 5.63
2.1452
25 49 56.3
6.204
II
21
40 8.71
1.9826
18 46 12. 1
".«75
12
20 3 14.24
2.1420
25 43 40. 5
6.324
12
21
42 7-57
X.9795
18 34 59.0
11.261
13
20 5 22.66
2.1388
25 37 17.5
6.443
13
21
44 6.25
1.9764
18 23 40.8
11.346
14
20 7 30.89
2.X355
25 30 47-3
6.56X
14
21
46 4.74
X.9733
18 12 17.5
11.429
15
20 9 38.92
a. 1322
25 24 10. 1
6.679
15
21
48 3.05
1.9703
18 0 49.3
XI. 512
i6
20 II 46.76
2.1289
25 17 25.8
6.796
16
21
50 1. 18
X.9673
17 49 16. 1
XX. 595
17
20 13 54.40
2.1255
25 1034.5
6.9X3
17
21
51 59.13
1.9643
17 37 38.0
11.676
i8
20 x6 1.83
2.1222
25 3 36.2
7.029
18
21
53 56.90
X.96X5
17 25 55.0
XI. 756
19
20 18 9.06
2.1189
24 56 31.0
7.X44
19
21
55 54.50
X.9586
17 14 7-3
XX.836
20
20 20 16. xo
2.1155
24 49 18.9
7.259
20
21
57 51.93
1.9558
17 2 14.8
11.915
21
20 22 22.93
2.I12I
24 42 • 0.0
7.37s
21
21
59 49. 19
1.9530
16 50 17.6
11.993
22
20 24 29.55
2.1087
24 34 34-2
7.486
22
22
I 46.28
1.9502
16 38 15.7
12.070
23
20 26 35.97
THl
2.1053
JRSD/
S.24 27 1.7
LY 14.
7.598
23
22
3 43.21
SAT
1.9474
URDA
S.16 26 9.2
^Y 16.
12.146
O
20 28 42.18
2.1018
S.24 19 22.4
7.7X0
0
22
5 39.98
1.9447
S.16 13 58.2
12.221
I
20 30 48.18
2.0983
24 II 36.4
7.822
I
22
7 36.58
X.942Z
16 I 42.7
12.295
2
20 32 53.98
2.0949
24 343.8
7.933
2
22
9 33.03
X.9395
15 49 22.7
12.369
3
2034 59-57
2.0914
235544-5
8.043
3
22
II 29.32
1.9369
15 36 58.3
12.443
4
2037 4-95
2.0879
23 47 38.7
8.152
4
22
13 25.46
1.9344
15 24 29.6
12.5x6
5
20 39 10.12
2.0644
23 39 26.3
8.260
5
22
15 21.44
1.93x9
15 II 56.6
12.587
6
20 41 15.08
2.0809
2331 7.4
8.368
6
22
17 17.28
1.9294
14 59 19.4
12.657
7
20 43 19.83
2.0775
23 22 42.1
8.475
7
22
19 12.98
X.9270
14 46 37.9
12.727
8
20 45 24.37
2.0740
23 14 10.4
8.58X
8
22 21 8.53
1.9247
14 33 52.2
12.796
9
20 47 28.70
2.0704
23 532.3
8.687
9
22
23 3.94
1.9224
14 21 2.4
12.864
lO
20 49 32.82
2.0669
22 56 47.9
8.793
10
22
24 59.22
X.9201
14 8 8.5
12.931
II
20 51 36.73
2.0634
22 47 57-2
8.897
ZI
22
26 54.36
X.9X79
13 55 10.6
12.997
12
20 53 40.43
2.0599
22 39 0.3
9.000
Z2
22
28 49.37
1.9157
13 42 8.7
13.063
13
20 55 43-92
2.0564
22 29 57.2
9.XO3
13
22
3044-25
X.9136
13 29 2.9
13.128
H
205747.19
2.0529
22 20 47.9
9.205
14
22
32 39.00
Z.9XX6
13 15 53.3
X3.192
15
20 59 50.26
2.0494
22 II 32.5
9.307
15
22
34 33.63
1.9096
13 239.9
X3.255
i6
21 I 53.12
2.0459
22 2 1 1. 1
9.408
z6
22
36 28.15
X.9076
12 49 22.7
13.3x7
17
21 3 55-77
2.0424
21 52 43.6
9.508
17
22
38 22.55
X.9056
12 36 1.9
13.378
i8
21 5 58.21
2.0389
21 43 10.2
9.607
z8
22
40 16.83
1.9037
Z2 22 37.4
13.438
19
21 8 0.44
2.0355
2X 33 30.8
9.705
19
22
42 XI. 00
1.90x9
Z2 9 9.3
13.498
20
21 10 2.47
2.0321
21 23 45.6
9.803
20
22
44 5-o6
X.9002
" 55 37.6
13.557
21
21 12 4.29
2.0387
21 13 54.5
9.900
21
22
45 59.03
X.8985
iz 42 2.5
13.6x4
22
21 14 5.91
2.0253
21 3 57.6
9>996
22
22
47 52.89
Z.8968
ZI 28 23.9
13.671
«3
21 16 7.32
2.0219
20 53 55-0
10.09X
23
22
49 46.65
1.8952
II 14 42.0
X3.727
24
21 18 8.53
2.0185
S.20 43 46.7
xo.x8s
24
22
51 40.32
1.8937
S.iz 0 56.7
X3.782
I9I2-
34
MARCH, 1912.
IX.
GREENWICH MEAN TIMK
THE MOON'S RIGHT ASCENSION AND DECLINATION.
1
Diflf.
DifE.
Diflf.
Diff.
Hour.
Right Atcension.
for
I Min.
Declination.
for
I Min.
Hour.
Right Ascension.
for
iMin.
DecllnatioiL
for
z Min.
SUNDAY
' 17.
TUESDAY 19.
h m t
8
e » w
H
h m s
8
9 t tt
»
O
22 51 40.32
X.8937
S.ii 0 56.7
13.78a
0
0 21 57-33
1.8934
N. 0 46 47.0
15-336
I
22 53 33.90
1.8983
1047 8.1
13.837
I
0 23 50.99
1.8951
I 2 7.4
15-344
2
22 55 27.39
1.8909
10 33 16.3
13.890
a
0 25 44.75
1.8969
I 17 28.3
15.351
3
22 57 20.79
X.8895
10 19 21.3
13.94a
3
0 27 38.61
1.8987
I 32 49.6
15.357
4
22 59 14. 1 1
1.888Z
10 5 23.2
13.994
4
0 29 32.58
1.9006
I 48 1 1. 1
15.362
5
23 I 7.36
Z.8868
9 51 22.0
14.045
5
031 26.67
Z.9OS6
2 332.9
15.365
6
23 3 0-54
1.8857
9 37 17-7
14.095
6
0 33 20.89
1.9046
2 18 54.9
15.367
7
23 4 53.65
Z.8846
9 23 10.6
14.144
7
0 35 15-23
1.9067
2 34 17.0
15-369
8
23 6 46.69
1.8835
9 9 0.5
14. 19a
8
037 9.70
1.9089
2 49 39.2
15.370
9
23 839.67
1.8835
85447-5
I4.a39
9
039 4.30
Z.9ZI2
3 5 1.3
15.369
lO
23 10 32.59
1.88x5
8 40 31.8
Z4.a85
10
0 40 59.04
I. 9136
3 20 23.4
15.367
II
23 12 25.45
Z.8806
8 26 13.3
14.331
II
0 42 53.93
Z.9160
3 35 45.3
15.364
12
23 14 18.26
1.8798
8 II 52.1
14.376
12
0 44 48.96
1.9X85
3 51 7.0
15.359
13
23 16 11.02
Z.8790
7 57 28.3
14.419
13
0 46 44.14
Z.92ZZ
4 6 28.4
15.353
H
23 18 3-74
Z.8783
7 43 1.9
14.461
14
0 48 39.48
1.9237
4 31 49.4
15-347
15
23 19 56.41
Z.8776
7 28 32.9
14.503
15
0 50 34.98
z.9«64
4 37 lo.o
15.340
i6
23 21 49.05
1.8770
7 14 1-5
14.544
16
0 52 30.65
z.929a
4 52 30. 1
15.331
17
23 23 41-65
Z.8765
6 59 27.6
14.584
17
0 54 26.49
x-93ai
5 749.6
15.330
i8
23 25 34«22
Z.8760
6 44 51.4
14.623
18
0 56 22.51
1.9351
523 8.5
15.308
19
23 27 26.77
Z.8756
6 30 12.9
14.661
19
0 58 18.70
1.9381
5 38 26.6
Z5.296
20
23 29 19.29
1.8753
6 15 32.1
14.698
20
I 0 15.07
1.9411
5 53 44-0
i5.a^3
21
23 31 11.80
Z.8750
6 0 49.2
14.734
21
I 2 11.63
1*9443
6 9 0.5
Z5.268
22
23 33 4-29
Z.8748
546 4.1
14.769
22
I 4 8.39
1.9476
6 24 16. 1
i5.a5a
23
23 34 56.77
1.8747
S. 5 31 16.9
14.803
23
I 6 5.35
1.9509
N. 6 39 30.7
15. "35
MO
iNDAl
r 18.
WED
NESD
AY 20.
0
23 36 49-25
Z.8746
S. 5 16 27.7
14.836
0
I 8 2.50
Z.9543
N. 6 54 44.2
Z5.2i6
I
23 38 41.72
Z.8746
5 X 36.5
14.868
I
I 9 59-86
1.9578
7 9 56.6
15.196
2
23 40 34- 20
Z.8746
44643.5
14.900
2
I n 57.43
1.9614
7 25 7.7
15.175
3
23 42 26.68
1.8747
4 31 48.6
14.931
3
I 13 55.22
1.9650
7 40 17.5
15.153
4
2344 19.17
1.8749
4 16 51.8
14.960
4
I 15 5323
1.9687
7 55 25.9
15.129
5
23 46 11.67
1.875a
4 1 53.4
14.988
5
I 17 51.47
i.97a5
8 10 32.9
15.104
6
2348 4.19
1.8755
3 46 53-3
Z5.OZ6
6
I 19 49.93
1.9763
8 25 38.4
Z5.078
7
23 49 56.73
1.8759
331 51-5
15.043
7
I 21 48.63
1.9808
8 40 42.3
15.050
8
23 51 49-30
X.8764
3 16 48.2
15.068
8
I 23 47.57
1.9843
8 55 44-5
15.022
9
23 53 41-90
1.8769
3 I 43.4
15.09a
9
1 25 46.75
1.9884
9 10 44-9
14.99a
lO
23 55 34-53
1.8775
2 46 37.1
15.X15
10
I 27 46.17
1.99*5
9 25 43.5
14.960
ZI
23 57 27.20
z.8783
2 31 29.5
15.137
II
I 29 45.85
1.9968
9 40 40.2
Z4.928
12
23 59 19.92
z.8790
2 16 20.6
15.159
12
1 31 45.79
2.0012
9 55 34.9
14.895
13
0 I 12.68
X.8798
2 I 10.4
Z5.Z80
13
I 33 45.99
a. 0056
10 10 27.5
Z4.b6o
14
0 3 5-49
1.8806
I 45 59.0
15.199
14
I 35 46.45
2. 0100
10 25 18.0
14.823
15
0 4 58.35
Z.88Z5
I 30 46.5
15.217
15
I 3747.18
3.0145
10 40 6.3
14.785
i6
0 6 51.27
i.88a6
I 15 32.9
i5.a35
16
I 3948.19
2.0191
10 54 52.2
14.746
17
0 8 44.26
1.8837
I 0 18.3
iS.asa
17
I 41 49.48
3.0238
II 9 35-7
14.705
i8
0 10 37.32
X.8848
04s 2.8
15.867
18
I 43 51.05
3.0286
11 24 16.7
14.663
19
0 12 30.45
X.886Z
0 29 46.3
i5.a8z
19
I 45 52.91
2.0334
II 38 55.2
14.620
20
0 14 23.65
1-8875
S. 0 14 29. z
i5.a94
20
I 47 55-o6
2.0383
II 53 31. 1
14.575
21
0 16 16.93
1.8S90
N. 0 0 48.9
15.306
21
I 49 57. 50
2.0433
12 8 4.2
14.5«9
22
0 18 10.30
1.8904
0 16 7.7
15.317
22
I 52 0.24
2.0483
12 22 34.5
14.48*
23
0 20 3.77
1.89x8
0 31 27.1
15.327
23
I 54 3-28
, 2.0534
12 37 1.9
14.433
24
0 21 57.33
1.8934
N. 0 46 47.0
15.336
24
I 56 6.64
3.0586
N.12 51 26.4
14.382
X.
MARCH, 1912.
35
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
DiflF.
Diff.
Diff.
Hour.
Right Ascension.
for
X Min.
Declination.
for
I MiiL
Hour.
Right Ascension.
for
X Min.
Declination.
for
xMin.
THl
JRSD>
^y 21.
SATURDAY 23.
h m 8
8
Of I*
n
h m 8
8
e f t$
n
0
I 56 6.64
a. 0586
N.I2 51 26.4
14.382
0
3 41 59-98
2.3696
N.22 55 9.1
XO.X65
I
I 58 10.31
2.0638
13 547.8
14.330
I
3 44 22.37
2.3767
23 5 15.2
XO.O38
2
2 0 14.30
S.069X
13 20 6.0
14.277
2
3 46 45-18
2.3838
23 15 13*6
9.909
3
2 Z 18.61
a.0745
13 34 21.0
X4.222
3
3 49 8.42
2.3909
23 25 4.2
9.778
4
2 4 23.24
2.0800
13 48 32.7
X4.X66
4
3 51 32.08
2.3980
23 34 46.9
9.6*6
5
2 6 28.20
2.0855
14 2 41.0
14.109
5
3 53 56.17
a.4051
23 44 21.6
9.512
6
2 8 33-49
2.0910
14 16 45.8
14.050
6
3 56 20.69
2.4x21
23 53 48.3
9.376
7
2 10 39.12
2.0967
14 30 47.0
13.989
7
3 58 45.63
2.419X
24 3 6.8
9.239
8
2 12 45.10
2.X024
14 44 44.5
13.927
8
4 I 10.98
a.426x
24 12 17.0
9.100
9
2 14 51.42
2.Z082
14 58 38.2
13.864
9
4 3 36.75
2.4331
24 21 18.8
8.960
10
2 16 58.08
2.1X4X
15 12 28.1
13.799
10
4 6 2.94
2.4400
24 30 12.2
8.8x9
II
2 19 5.10
2. 1200
15 26 I4.I
13.733
II
4 8 29.54
2.4468
24 38 57.0
8.675
12
2 21 12.48
2.ia6o
1539 56.1
13.665
12
4 10 56.56
2.4537
24 47 33.2
8.530
13
2 23 20.22
2. 132X
15 53 33-9
13.595
13
4 13 23.99
2.4605
24 56 0.6
8.384
M
2 25 28.32
2.X382
16 7 7.5
13.524
14
4 15 51.82
2.4672
25 4 19.2
8.235
15
2 27 36.78
a.x442
16 20 36.8
13.452
15
4 18 20.05
2.4739
25 12 28.8
8.085
i6
2 29 45.62
2.X504
16 34 1.8
13-378
16
4 20 48.69
2.4805
25 20 29.5
7.934
17
2 31 54-83
2.X567
16 47 22.3
X3.302
X7
4 23 17.72
2.487X
25 28 20.9
7.782
i8
2 34 4.42
2.X630
17 038.1
13.225
18
42547.15
2.4937
25 36 3.3
7.628
19
2 36 14.39
2.1694
17 1349-2
13.146
19
4 28 16.97
2.500a
25 43 36.3
7.472
20
2 38 24.74
2. 1758
17 26 55.6
13.066
20
43047-17
2.5065
25 50 59.9
7.315
21
2 40 35.47
2. 1822
17 39 57-2
12.985
21
4 33 17.75
2.5x28
25 58 14. 1
7.157
22
2 42 46.60
2.X887
17 52 53-8
12.902
22
4 35 48.70
2.5x91
26 5 18,7
6.997
23
2 44 58.12
2.1953
IIDAY
N.18 545.3
22.
12.8x7
23
4 38 20.03
SU
2.5252
NDA^
N.26 12 13.6
'24.
6.835
0 1
2 47 10.03
2.20x9
N.18 18 31.7
X2.730
0
4 40 51.73
2.53x3
N.26 18 58.9
6.67a
I
2 49 22.34
a. 2085
18 31 12.8
X2.642
I
4 43 23.79
2.5373
26 25 34.3
6.508
2
2 51 35-05
2.2x52
18 43 48.6
12-552
2
4 45 56.20
2.5432
26 31 59.9
6.343
3
25348.17
2.2220
18 56 19.0
X2.460
3
4 48 28.97
2.549X
26 38 15.4
6,176
4
2 56 1.69
2.2288
19 8 43.9
12.367
4
4 51 2.09
2.5548
26 44 20.9
6.0117
5
2 58 15.62
2.2356
19 21 3.1
12.273
5
4 53 35.54
2.5604
26 50 16.3
5.837
6
3 0 29.96
2.2424
19 33 16.6
12.177
6
4 56 9.33
2.5659
26 56 1.4
5.667
7
3 244.71
a. 2493
19 45 24.3
X2.079
7
4 58 43.45
2.5713
27 I 36.3
5.495
8
3 4 59-87
2.2562
19 57 26.1
XI. 980
8
5 I 17.89
2.5766
27 7 0.8
5.321
9
3 7 15.45
2. 2631
20 9 21.9
tl.879
9
5 3 52.65
2.58x8
27 12 14.9
5.X47
10
3 9 31.45
2.270X
20 21 II. 5
11.776
10
5 6 27.71
2.5869
27 17 18.5
4.972
II
3 II 47-87
2.2771
20 32 54.9
IZ.67X
II
5 9 3-08
2.5919
27 22 11.5
4.795
12
3 14 4-71
2.2842
20 44 32.0
XI. 565
12
5 II 38.74
2.5^
27 26 53.9
4.6x6
13
3 i6 21.97
2.2913
20 56 2.7
IX. 457
13
5 14 14-69
2.6015
27 31 25.6
4*437
H
3 18 39.66
2.2983
21 7 26.9
XI. 347
14
5 16 50.91
2.6060
27 35 46.5
4.258
15
3 20 57.77
2.3054
21 18 44.5
11.237
15
5 19 27.41
2.6x04
27 39 56.6
4.077
i6
3 23 16.31
2.3125
21 29 55.4
XX. 125
16
5 22 4.17
2.6x48
27 43 55.7
3.895
17
3 25 35.27
2.3x96
21 40 59.4
ZX.OIO
17
5 2441.19
2.6x90
27 47 44.0
3.7x2
i8
3 27 54-66
2.3268
21 51 56.5
10.894
18
5 27 18.45
2.6230
27 51 21.2
3.528
19
3 30 14-48
2.3339
22 2 46.7
10.777
19
5 29 55.95
2.6269
27 54 47.3
3.343
20
3 32 34.72
2.3410
22 13 29.8
XO.658
20
5 32 33.69
2.6307
27 58 2.4
3.X57
21
3 34 55.39
2.3481
22 24 5.7
10.537
21
5 35 11.65
2.6344
28 1 6.2
2.971
22
3 37 16.49
2.3552
22 34 34.3
10.4x5
22
5 37 49-82
2.6379
28 3 58.8
2.784
23
3 39 38.02
2.3624
22 44 55-4
10.291
23
5 40 28.19
2.64x2
28 6 40.2
2.595
24
3 41 59.98
a. 3696
N.22 55 9.1
zo. 165
24
5 43 6.76
8.6444
N.28 9 10.2
a. 406
34
MARCH, 1912.
IX.
GREENWICH MEAN TIMK
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right AsconuoD.
for
zMin.
DecUaation.
for
xMixL
Hour.
Right Ascension.
for
xMin.
DacUnation.
for
z Min.
SUNDA\f
' 17.
TUESDAY 19.
h m 8
s
e f M
It
h m 1
s
mi IT
m
O
22 51 40.32
X.8937
S.I I 0 56.7
13.78a
0
0 21 57.33
1.8934
N. 0 46 47.0
15.336
I
22 53 33.90
1.8983
10 47 8. 1
X3.837
I
0 23 50.99
1.8951
I 2 7.4
15.344
2
22 55 27.39
1.8909
10 33 16.3
13.890
2
0 25 44.75
1.8969
I 17 28.3
15.351
3
22 57 20.79
1.8895
10 19 21.3
13.94*
3
0 27 38.61
1.8987
I 32 49-6
15-357
4
22 59 I4.II
1.888X
10 5 23.2
13.994
4
0 29 32.58
X.9006
I 48 1 1. 1
15.562
5
23 I 7-36
1.8868
9 51 22.0
14.045
5
031 26.67
1.9086
2 332.9
15.365
6
23 3 0-54
X.8857
9 37 17.7
14.095
6
0 33 20.89
1.9046
2 18 54.9
15-367
7
23 4 53-65
1.8846
9 23 10.6
14.144
7
0 35 15.23
1.9067
2 34 17.0
15.369
8
23 6 46.69
X.8835
9 9 0.5
14. 19*
8
037 9.70
1.9089
2 49 39.2
15.370
9
23 8 39.67
t.88s5
85447.5
i4.a39
9
039 4.30
x.9iia
3 5 1.3
15.3'^
lO
23 10 32.59
1.8815
8 40 31.8
X4.a85
10
0 40 59.04
X.9Z36
3 20 23.4
15.367
II
23 12 25.45
Z.8806
8 26 13.3
14.331
II
0 42 53.93
I. 9160
3 35 45.3
15-364
12
23 14 18.26
1.8798
8 II 52.1
14.376
12
0 44 48.96
X.9Z85
3 51 7.0
15.359
13
23 16 11.02
Z.8790
7 57 28.3
14.419
13
0 46 44.14
x.saiz
4 6 28.4
15.353
14
23 x8 3.74
X.8783
7 43 1-9
14.461
14
0 48 39.48
1.9837
4 2X 49.4
15.347
15
23 19 56.41
1.8776
7 28 32.9
14.503
15
0 50 34.98
1.9364
4 37 xo.o
15.340
i6
23 21 49.05
1.8770
7 14 1.5
14.544
16
0 52 30.65
x.989a
4 52 30. X
15.331
17
23 23 41.65
1.8765
6 59 27.6
14.584
17
0 54 26.49
1.93M
5 749.6
15.320
i8
23 25 34-22
Z.8760
6 44 51.4
14.623
18
0 56 22.51
1.9351
523 8.5
X5.3''«
19
23 27 26.77
1.8756
6 30 12.9
Z4.66Z
19
0 58 18.70
I.938X
5 38 26.6
15.896
20
23 29 19.29
X.8753
6 15 32.1
14.698
20
I 0 15.07
1.9411
5 53 44.0
15.2^3
21
23 31 11.80
1.8750
6 0 49. 2
14.734
21
I 2 11.63
X.9443
6 9 0.5
15. 8»
22
23 33 4-29
1.8748
546 4«i
14.769
22
I 4 8.39
1.9476
6 24 16. 1
15.252
23
23 34 56.77
MO
X.8747
»NDA\
S. 5 31 16.9
r 18.
14.803
23
I 6 5.35
WED
1.9509
NESD
N. 6 39 30.7
AY 20.
I5.t35
O
23 36 49-25
1.8746
S. 5 16 27.7
X4.836
0
I 8 2.50 1
I.9S43
N. 6 54 44.2
15.216
I
23 38 41.72
X.8746
5 I 36.5
X4.866
I
I 9 59.86
1.9578
7 9 56.6
15.196
2
23 40 34- 20
Z.8746
44643.5
14.900
2
I II 57.43
1.9614
7 25 7.7
15.175
3
23 42 26.68
x.8747
4 31 48.6
14.931
3
I 13 55.22
1.9650
7 40 17.5
15.153
4
23 44 19.17
1.8749
4 16 51.8
14.960
4
I 15 53-23
X.9687
7 55 25.9
15.1*9
5
23 46 H.67
1.875a
4 I 53.4
14.988
5
I 17 51.47
1.97*5
8 10 32.9
15.104
6
2348 4.19
1.8755
3 46 53.3
15.0x6
6
I 19 49.93
1.9763
8 25 38.4
15.078
7
23 49 56.73
1.8759
331 51.5
15.043
7
I 21 48.63
z.9Boa
8 40 42.3
15.0^
8
23 51 49-30
1.8764
3 16 48.2
15.068
8
I 23 47.57
1.9843
8 55 44.5
15.(^2
9
23 53 41.90
1.8769
3 I 43.4
15.09a
9
I 25 46.75
1.9884
9 xo 44.9
M.99«
10
23 55 34.53
1.8775 '
24637.1
15. «5
10
I 27 46.17
i.99>5
9 25 43.5
14.960
II
23 57 27.20
1.878a >
2 31 29.5
15.137
II
I 29 45.85
1.9968
9 40 40.2
X4.9iS
12
23 59 19.92
X.8790
2 16 ao.6
15.139
12
I 31 45-79
a.ooia
9 55 34.9
14.»<95
13
0 I 12.68
1.8798
2 I 10.4
15.X80
13
I 33 45-99
a. 0056
10 10 27.5
14.^60
M
0 3 5-49
1.8806
I 45 59.0
15.199
14
I 35 46.45
a. 0x00
10 25 18.0
14.823
15
0 4 58.35
1.86x5
1 3046.5
i5.ai7
15
13747.18
8.0x45
1040 6.3
14.785
i6
0 6 51.27
t.8826
I 15 32.9
15.«35
16
I 3948.19
8.0Z9X
10 54 52.2
14.746
17
0 8 44.26
1.8837
I 0 18.3
i5.«5«
17
I 41 49.48
8.0338
XX 935.7
14.7*^5
i8
0 10 37.32
1.8848
0 45 2.8
i5.a^
18
X 43 51.05
a.oa86
II 24 16.7
Z4.<*3
19
0 12 30.45 ,
Z.8861
0 29 46.3
i5*i8i
19
X 45 52-91
a. 0334
XX 38 55.2
l4.(>JO
20
0 14 23.65 1
X.8875
S. 0 14 29.1
15.394
20
I 47 55.06
2.0383
XX 53 3X.I
14.575
21
0 16 16.93
1.8890
N. 0 0 48.9
15.306
21
X 49 57-50
«.Q433
12 8 4.2
14.529
22
0 18 10.30
«.89«H
0 16 7.7
15.S17
22
I 52 0.24
2.0483
12 22 34.5
14.48a
23
0 20 3.77
1. 8918
0 31 27.1
I5.3a7
23
X 54 3.28
a.0534
12 37 1.9
14.435
24
0 21 57.33
1.8934
N. 0 46 47.0
15.336
24
I 56 6.64
8.0586
N.12 51 26.4
14.38a
ill.
\ •
APRIL, 1912.
\T GREENWICH MEAN NOON.
39
iH:e
> 'HE SUNS
Equation of
Time, to be
Sidereal Time,
>N
Subtracted
fmin
Diff.for
I Hour.
or Right Ascen-
'«»i*lo
^
^ 1
^ ^ Apparent Declina-
Di&for
*& wui
sion of Mean
Added to
San.
--,
^
•..».
txon
•
I Hour.
Mean Time.
\
t »
m
m
m s
s
h m s
\
V
$ '*°
40.0
+57.86
4 0.56
0.758
03754.11
\
46.1
57-64
3 42-43
0-753
0 41 50.66
\
^
7.0
57-42
324.43
0.747
0 45 47.22
+57.18
3 6.57
0.740
0 49 43.77
56.93
2 48.89
0.732
0 53 40-32
•
It-
t6
6.67
2 31.41
0.724
0 57 36.88
V
.69
16 0
•
2 14.14
0.715
I I 33.43
.2711
1549
I 57.10
0.705
I 529.99
2.a654
15 3430..
40.31
0.694
1 926.54
D
8.3598
15 19 5I-I
•47
56.55
zi 11.30
2.2542
2.2486
2.2431
15 5 6.7
14 50 17.3
14 35 23.1
»4-.
14.862
14.941
79
14 "
0.682
0.670
I 1323.10
I 17 19.65
lO 23 25.72
2.2376
14 20 24.3
15.018
15
1 ^ 0-657
I 21 16.20
^
10 25 39.81
2.2322
14 5 21.0
X5.093
16
12 7 .
17
lo 27 53-58
2.2269
13 50 13-3
15.166
17
12 9 b^'> M4
z 25 12.76
18
10 30 7.03
2.22x6
13 35 1.2
15.237
18
12 II 59.78 2,0.^ 'i
I 29 9.31
19
10 32 20.17
2.2164
13 19 44-9
15.306
19
12 14 2.89
2.0510 , '
133 5.87
20
10 34 33-00
2.2x12
13 4 24.4
15-374
20
12 16 5.90
2.0494 N. ' •
21
10 36 45.52
2.2061
12 48 59.9
15.440
21
12 18 8.82
'•°*79 S. ^ /
T 37 2.42
V:- '^58.98
'Z'Z
10 38 57-74
2.2011
12 33 31.5
X5.504
22 j la 20 11.65
2.0466 ' ^j ;^
23
10 41 9.65
2.Z961
N.
12 17 59-3
15.567
23 1 12 22 14.41
«.0453 S. 0;^
SAT
URDAY
30.
MONDAY, APRIL
0
10 43 21.27
2. 1912
N.
12 2 23.5
15.628
0
12 24 17.09
2.0440
S. 1
5 ..... ^9
I
10 45 32.60
10 47 43.64
2.1^64
2. 18x6
1 1 46 44. 1
X5.687
z
11 31 1.2 15.744
^^^r^—.^ '
3
1049 54-39
2.1769
II 15 14.9 1 15.799
4
5
10 52 4.86
10 54 15.06
2. 1723
2.1677
10 59 25.3
1043 32.5
15.852
15.904
PHASES OF THE MOON.
6
10 56 24.99
2. 1632
10 27 36.7
15.955
7
10 58 34.65
2. 1588
10 II 38.0
16.003
8
9
II 0 44.04
II a 53.18
a. 1545
2.1502
9 55 36.4
9 39 32. 1
16.049
16.094
". 2 22 41.9
10
II
II 5 2.07
II 7 10.70
2.1460
2.1419
9 23 25.1
9 7 15.5
16. 138
16.180
0 Full Moon . . . Mai
12
II 9 19.09
2.1378
851 3.5
16.219
([ Last Quarter ....
10 7 55.5
13
II II 27.24
2.1338
8 34 49.2
16.257
% New Moon
18 10 8.8
14
II 13 35.15
2.X299
8 18 32.6
16.294
3) First Quarter ....
25 15 1.9
15
16
17
II 15 42.83
II 17 50.28
II 19 57-51
2. 2261
9 T<94J
8 2 13.9
7 45 53.2
7 29 30.6
16. 329
16.362
X6.393
2.1187
d h
18
II 22 4.53
2.1151
7 13 6.1
16.423
^ A
u u
19
II 24 11.33
2.1X16
6 56 39-9
16.45X
(£ Apogee
Mar. 12 16.9
20
II 26 17.92
2.IO8X
6 40 12.0
16.477
(^ Perigee
. . 28 8.9
21
II 28 24.31
II 30 30.50
2. 1048
2. xox6
6 23 42.6
6 7 II. 7
16.502
16.525
^
b3
II 32 36-49
2.0984
5 5039.5
16.547
II 3442.30
2.0952
N.
5 34 6.1
16.567
36
MARCH, 1912.
XI.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascensioa
for
zMin.
Declination.
for
X Min.
Hour.
Right Ascension.
for
zMin.
Declination.
for
X Min.
MONDAY 25.
WEDNESDAY 27.
b m 8
8
Of M
N
h m a
a
• » ft
ft
O
5 43 6.76
2.6444
N.28 9 10.2
3.406
0
7 50 35.08
•.6054
N.26 21 58.2
6.785
I
5 45 45.51
a. 6475
28 II 28.9
3.2X7
I
7 53 11.27
8.6009
26 15 5.7
6.963
2
5 48 24.44
a. 6504
28 13 36.2
3.026
2
7 55 47.18
3.5963
26 8 2.6
7.140
3
551 3.54
a.6s30
28 15 32.0
X.835
3
7 58 22.82
3.5916
26 0 48.9
7.316
4
5 53 42.80
9.6555
28 17 16.4
X.644
4
8 058.18
8.5868
25 53 24.7
7.491
5
5 56 22.21
«.6579
28 18 49.2
X.43X
5
8 333.25
3.5830
25 45 50. 1
7.664
6
5 59 1.75
3.660Z
28 20 10.5
Z.358
6
8 6 8.02
3.5771
2538 5.1
7.836
7
6 I 41.42
a. 6633
28 21 20.2
X.O65
7
8 8 42.49
3.57ao
25 30 9.8
8.007
8
6 4 21.21
3.6641
28 22 18.3
O.87X
8
8 II 16.66
3.5668
25 22 4.3
8.176
9
6 7 I. II
a.6658
28 23 4.7
0.677
9
8 13 50.52
3. 56x6
25 13 48.6
8.344
zo
6 9 41. II
a. 6674
28 23 39. 5
0.483
10
8 16 24.06
a. 5563
25 5 22.9
8.51X
II
6 12 21.20
3.6688
28 24 2.7
0.288
II
8 18 57.27
3.5509
24 56 47.2
8.677
12
6 15 1.36
3.6700
28 24 14.2
+0.093
12
8 21 30.16
a. 5454
24 48 1.7
8.842
13
6 17 41.59
3.671X
28 24 13.9
-0.X02
13
8 24 2.72
3.5398
2439 6.3
9.004
14
6 20 21.88
3.6730
28 24 1.9
0.398
14
8 26 34.94
a. 534a
24 30 1.2
9.165
15
6 23 2.22
8.6737
28 23 38.2
0.494
15
8 29 6.83
8.5885
24 20 46.5
9.325
z6
6 25 42.60
3.6733
28 23 2.7
0.689
16
8 31 38.37
8.5338
24 II 22.3
9.483
I?
6 28 23.01
3.6736
28 22 15.5
0.884
17
834 9.56
8.517X
24 I 48.5
9.640
i8
631 3.43
3.6738
28 21 16.6
Z.080
18
8 36 40.41
3.5xta
23 52 5.5
9.795
19
6 33 43.86
8.6738
28 20 5.9
X.376
19
8 39 10.90
8.5053
23 42 13. 1
9.949
20
6 36 24.29
3.6737
28 18 43.4
X.473
20
8 41 41.03
a. 499a
23 32 II. 6
XO. XOI
21
6 39 4.70
3.6734
28 17 9.1
X.668
21
8 44 10.81
a. 493a
23 22 I.O
X0.35I
22
6 41 45.09
8.6739
28 15 23.1
Z.864
22
8 46 40.22
3.4872
23 II 41.4
10.400
33
6 44 25.44
TU]
3.672a
ESDA^
N.28 13 25.4
Y 26.
3.060
23
849 9.27
THl
a.4811
JRSD>
N.23 I 13.0
^Y 28.
X0.548
O
647 5.75
3.67x4
N.28 II 15.9
3.356
0
8 51 37.95
a.4750
N.22 50 35.7
10.694
I
6 49 46.00
3.6704
28 8 54.7
a. 453
I
8 54 6.26
3.4688
22 39 49.7
XO.S38
2
6 52 26.19
3.6692
28 6 21.8
3.648
2
8 56 34. 20
3.4625
22 28 55.2
X0.98X
3
6 55 6.31
3.6679
28 3 37.2
3.841
3
8 59 1.77
a. 4363
22 17 52.1
XI. 133
4
6 57 46.35
3.6664
28 0 41.0
3.035
4
9 I 28.97
3.4501
22 6 40.7
IX.26X
5
7 0 26.29
3.6648
27 57 33. 1
3.829
5
9 3 55.79
a. 4438
21 55 20.9
11.398
6
7 3 6.12
8.6630
27 54 13.6
3.483
6
9 6 22.23
a. 4375
21 43 53.0
XI. 533
7
7 545.84
3.66x0
27 50 42. 5
3.614
7
9 8 48.29
3.431a
21 32 16.9
11.667
8
7 8 25.44
3.6589
27 46 59.8
3.807
8
9 " 13.97
8.4349
21 20 32.9
XI. 800
9
7 II 4.91
3.6366
2743 5.7
3.999
9
9 13 39.28
3.4x86
21 8 41.0
11.93X
lO
7 13 44.24
8.654a
27 39 0.0
4.190
10
9 16 4.21
2.4x33
20 56 41.2
X3.o6o
II
7 16 23.41
3.65x6
27 34 42.8
4-381
II
9 18 28.76
3.4060
ao 44 33.9
13. 187
12
7 19 2.43
3.6488
27 30 14.3
4.571
12
9 20 52.93
8.3996
20 32 18.9
12.312
13
7 21 41.28
3.fi459
27 25 34.4
4.760
13
9 23 16.71
a. 3933
20 19 56.5
ia.435
14
7 24 19.95
3.6439
27 20 43. 1
4.948
14
9 25 40.11
3.3870
20 7 26.7
13.557
15
7 26 58.43
3.6398
27 1540.5
5.136
15
9 28 3. 14
3.3807
19 54 49.6
13.677
i6
7 29 36.72
a. 6365
27 10 26.7
5. 3*3
16
9 30 25.79
«.3744
1942 5.4
".795
17
7 32 14.80
a. 6330
27 5 1.8
5.509
17
9 32 48.06
a.368x
19 29 14.2
12.91a
i8
7 34 52.68
«.6a94
26 59 25.7
5.694
18
9 35 9.96
8.36x8
19 16 16.0
13.037
19
7 37 30.34
3.6857
26 53 38.5
5.878
19
9 37 31.48
a. 3555
19 3 ".0
13.140
20
740 7.77
3.62x9
26 47 40.2
6.063
20
9 39 52.63
a. 3493
18 49 59.3
I3.a5i
21
7 42 44.96
3.6180
26 41 31.0
6.345
21
9 42 13.40
a. 3431
18 36 41.0
13.360
22
7 45 21.92
8.6x39
26 35 10.9
6.436
22
9 44 33.80
a. 3369
18 23 16.2
13.468
33
7 47 58.63
8.6097
26 28 40.0
6. 606
23
9 46 53.83
a. 3307
18 9 45.0
13.573
H
7 50 35.08
a. 6054
N.26 21 58.2
6.785
24
9 49 13.49
3.3846
N.1756 7.5
X3.676
XII.
MARCH, 1912.
37
GREENWICH MEAN TIME.
THE
MOO(
Diff.
rS RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Hov.
RifbtAACODBioil.
lor
D«cUnatioiL
for
Hour.
Right Aacensioa
for
Doclinadon.
for
s MiA.
iMin.
I Min.
xMin.
FF
tIDAY
29.
SUNDAV
' 31-
h m •
t
• f M
M
h m 8
8
• f m
m
0
9 49 I3«49
8.3246
N.I756 7.5
13>676
0
II 34 4a. 30
8.095a
N. 5 34 6.1
X6.567
1 •
9 51 3«-78
a. 3186
17 42 23.8
13.779
I
II 3647.92
3.098I
5 17 31.5
X6.585
2
9 53 51.71
«.3i«5
17 28 34.0
13.879
2
" 38 53.36
3.0893
5 055.9
x6.6o3
3
9 56 10.28
8.3064
17 14 38.3
13.977
3
II 40 58.62
a. 0863
4 44 19.4
x6.6x7
4
9 58 28.49
3.3004
17 0 36.8
14.074
4
II 43 3.71
8.0835
4 27 42.0
X6.630
5
lo 0 46.34
S.194S
16 46 29.5
14.169
5
XI 45 8.64
8.0808
4 II 3.8
X6.648
6
10 3 3.83
S.S8B6
x6 32 16.5
14.863
6
IX 47 13.41
8.078X
3 54 25.0
16.6SX
7
10 5 20.97
9.a8«7
16 17 58.0
14.353
7
II 49 18.02
8.0756
3 37 45.6
X6.659
8
10 7 37.76
*.«7«9
16 334.1
14*443
8
IX 51 22.48
a.o73x
3 2X 5.7
X6.667
9
10 9 54.20
a. 171 I
1549 4.9
14.530
9
II 53 26.79
3.0706
3 425.4
X6.673
10
10 12 10.30
a.a654
15 34 30.5
14.616
10
II 5530.96
3.0683
2 47 44.9
X6.677
II
10 14 26.05
«.a598
15 19 51.1
14.700
II
II 5735.00
3.066X
2 31 4-2
16.679
12
10 16 41.47
a. 2548
15 5 6.7 X4.788
12
II 59 38.90
8.0639
2 14 23.4
X6.680
U
10 x8 56.55
a. 2486
14 50 17.3 M.868
13
12 I 42.67
8.0618
I 57 42.6
16.680
M
10 21 11.30
a. 3431
1435 23.1
14.94*
14
12 3 46.32
8.0598
I 41 1.9
16.678
15
10 23 25.72
a. 8376
14 20 24.3
X5.018
15
12 549.85
8.0579
I 24 21.3
X6.674
i6
10 25 39.81
a.a3aa
14 5 21.0
15.093
x6
12 7 53.27
8.0561
X 7 41. 0
X6.669
17
10 27 53.58 i
s.aa69
13 50 13.3
15.166
17
12 9 56.58
3.0543
0 51 I.O
16.668
IS
10 30 7.03 1
s.aai6
13 35 1.2 , 15.837
18
12 II 59.78
8.0586
03421.5
X6.654
19
10 32 20.17
a.at64
13 19 44.9 , X5.306
19
12 14 2.89
3.0510
0 17 42.6
16.644
20
^0 34 33.00 ;
s.aiia
13 4 24.4 15.374
20
12 16 5.90
8.0494
N. 0 I 4.3
X6.633
21
1
10 36 45-52
s.ao6i
12 48 59.9 X5.440
21
12 18 8.82
2.0479
S. 0 15 33.3
16.630
22 !
10 38 57-74
a.aoix
12 33 31.5
15.504
22
12 20 11.65
3.0466
0 32 10. 1
16.606
23
10 41 9.65
2.1961
N.I2 17 59.3 X5.567
23
12 22 14.41
8.0453
S. 0 48 46. 1
16.590
SAT
URD>^
.Y 30.
MOND
AY, APRIL I.
0
10 43 21.27
a. 191a
N.I2 223.5
15.688
0
12 24 17.09
3.0440
S. I 5 ai.o
16.573
I
10 45 32.60
10 47 43.64
a. 1^64
a. 1B16
II 46 44.1
15.687
2
1
II 31 1.2 15.744
3 '
1049 54.39
2.1769
II 15 14.9 15.799
4
S
xo 52 4.86
10 54 15.06
3.1733
a. 1677
10 59 25.3 15.85a
10 43 32.5 I 15.904
PHASES
OF T
HE MOON.
6
10 56 24.99
3.1633
10 27 36.7 1 15.955
7
10 58 34.65
a.x}88
10 II 38.0
16.003
8
xz 044.04
■.J545
0 ^K. 96. A
vft nan
%^
^ Dj j".n •— -^»
9
XI 253.18
8.130a
9 39 32.1 16.094
d
U m
10
1 1 5 2.07
8.X460
9 23 25.1 , 16.138
v^ • « % ^
II
XI 7 10.70
8.14x9
^ •» *^ 1 ^
9 7 15.5 1 »6.»8o
0
Full Moon
. .
. Mar. 2 2
2 41.9
12
IX 9 19.09
8.1378
8 51 3.5 16.8x9
a
Last Quart<
er .
. . . 10
7 55.5
'3
IX II 27.24
3.1338
8 34 49.2
16.857
•
New Moon
. .
. . . 18 10 8.8
M
11 i3 35«5
8.1399
8 18 32.6
16.894
3)
First Quart
er .
. . . 25 I
5 1.9
15
' XX X5 42.83
8.1261
8 2 13.9
16.339
i6
! IX X7 50.28
IX 19 57.51
8.1834
8.x 187
7 45 53.2
7 29 30.6
16.363
16.393
^ — . -- _ —
_ _
.
^
17
d h
i8
II 22 4.53
8. USX
7 13 6.1
16.483
A
« m
»9
IX 24 11.33
a.iii6
6 56 39.9
16.451
C
Apogee .
■ •
. . Mar. 12 ib.9
M)
XI 26 17.92
II 28 24.31
XI 30 30.50
8.X08X
8.1048
8. 10x6
ft An T '7 r%
.£ ;.«*
C
Peritree ,
• . 2
8 8.9
21
6 23 42.6 ' X6.508
6 7 H.7 ' 16.535
^ ^K • m ^k ^» ^1^ 9
22
»3
I« 3*36.49
8.0984
1 5 5039.5 i «6. 547
^
XX 34 42.30
8.0958
jN. 5 34 6.1
1 18.567
38
APRIL, 1912.
AT GREENWICH APPARENT NOON.
Day of
the week.
2 •
•3:9
o o
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SC/N,
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
sc/j\r.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
sc/j\r.
Mon.
Tues.
Wed.
I
2
3
4
5
6
7
8
lO
II
12
13
H
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
31
THE SUN'S
Apparent Right
Ascension.
m
8
o 41 55.28
o 45 33-66
049 12.16
o 52 50.81
0 56 29.64
1 o 8.67
3 47.91
7 27.38
II 7.10
14 47.09
18 27.37
22 7.95
25 48.85
29 30.08
33 11.66
36 53.61
40 35.93
44 18.61
48 1.69
51 45-17
55 29.07
1 59 13.39
2 258.14
2 643.34
210 28.99
2 14 15.10
2 18 1.69
2 21 48.78
2 25 36.37
2 29 24.47
2 33 13.08
DIff. for
X Hour.
s
9.097
9.102
9.107
9-I13
9.121
9.130
9.140
9.150
9. 161
9.172
9.184
9.197
9.2 1 1
9.225
9.239
9.254
9.270
9.287
9.304
9.321
9.338
9.356
9.374
9.393
9.412
9.431
9.451
9.472
9-493
9.515
9.537
Apparent Decli-
nation.
N. 43043-9
4 53 49.7
5 16 50.3
53945.3
6 2 34.4
62517.5
6 47 54.0
7 10 23.7
7 32 46.3
7 55 1.4
8 17 8.6
839 7.7
9 058.1
9 22 39.8
944 12.2
10 535.0
10 26 47.8
10 47 50.3
11 842.1
II 29 22.8
11 4952.1
12 10 9.7
12 30 15.2
12 50 8.3
13 948.5
13 29 15.7
134829.5
14 7 29.6
14 26 15.8
144447.6
N.15 3 4.9
Diff. for
z Hour.
+57.84
57.63
57.41
+57.18
56.94
56.68
+56.39
56.09
55.78
+55.46
55.13
54.78
+54.42
54-04
53-65
+53.24
52.82
52.38
+51.93
51.46
50.97
+50.48
49.97
49.44
+48.90
48.35
47.79
+47.22
46.63
46.03
+45.41
Semidiam-
eter.
6 1.80
6 1.52
6 1.24
6 0.96
6 0.68
6 0.40
6 0.12
5 59.84
5 59.56
5 59.28
5 59.00
5 58.73
5 58.45
558.18
5 57.91
5 57.64
5 57.37
557.11
5 56.85
5 56.59
5 56.34
5 56.09
5 55.84
5 55.59
5 55.34
555.10
5 54-86
5 54.62
5 54.38
5 54-H
5 53-90
Sidereal
Time of
Semidi-
ameter
Passing
Me-
ridiaa
64.48
64.50
64.52
64-54
64.56
64.59
64.62
64.66
64.70
64.74
64.78
64.83
64.87
64.92
64.97
65.02
65.07
65.12
65.18
65.24
65.31
65.38
65-44
65.51
65.58
65.65
65.72
65.80
65.87
65.95
66.03
Equation of
Time, to be
Added to
Subtracted
from
Apparent
Time.
m s
4 0.51
3 42.39
324.39
3 6.54
2 48.87
2 31.39
2 14.12
I 57.08
I 40.29
I 23.77
I 7.54
o 51.61
o 35.99
o 20.71
o 5-78
o 8.79
o 23.00
o 36.83
0 50.27
I 3-30
I 15.92
1 28.12
1 39.89
I 51.22
2 2.10
2 12.51
2 22.44
2 31.89
2 40.84
2 49.27
2 57.18
Diff.
for
Hoar.
8
0.758
0.753
0.747
0.740
0.732
0.724
0.715
0.705
0.694
0.682
0.670
0.657
0.644
0.630
0.615
0.600
0.584
0.568
0.551
0.534
0.517
0.499
0.481
0.463
0.444
0.424
0.404
0.383
0.362
a 340
0.318
NoTB. — The mean time of semidiameter passing may be found by subtrac
ing o*.i8 from the sidereal time.
The sign + prefixed to the hourly change of declination indicates that north declinations are increasing.
II.
APRIL, 1912.
39
AT GREENWICH MEAN NOON.
Day of
the Week.
•
THE SUN'S
Equation of
Time, to be
Subtracted
from
DiflF.for
X Hour.
Sldereal Time,
or Right Ascen-
Apparent Right
Aacension.
Diff . for
I Hour.
Apparent Declina-
tion.
DiiF. for
X Hour.
axon of Mean
Added to
Mean Time.
Sun.
Mon.
Tues.
Wed.
I
2
3
h m a
0 41 54,67
0 45 33-09
049 11.64
s
9.099
9.104
9.109
e t n
N. 4 30 40.0
45346.1
516 47.0
+57.86
57.64
57.42
m s
4 0.56
3 42.43
3 24.43
8
0.758
0.753
0.747
h m a
03754.11
0 41 50.66
0 45 47.22
Thur.
Frid.
Sat.
4
5
6
0 52 50.34
0 56 29.22
1 0 8.29
9.II5
9.123
9.132
5 39 42.3
6 231.8
625 15.1
+57.18
56-93
56.67
3 ^'57
2 48.89
231.41
0.740
0.732
0.724
0 49 43.77
0 53 40.32
0 S7 36.88
sc/jsr.
Mon.
Tues.
7
8
9
I 347.57
I 7 27.08
I II 6.85
9.142
9.152
9.162
64751.9
7 10 21.9
7 32 44-8
+56.39
56.10
55.79
2 14.14
I 57.10
I 40.31
0.715
0.705
0.694
I I 33.43
I 529.99
I 926.54
Wed.
Thur.
Frid.
lO
II
12
I 14 46.88
I 18 27.20
I 22 7.82
9.173
9.186
9.199
7 55 0.1
817 7.6
839 6.9
+55.47
55.14
54.79
I 23.79
I 7.55
0 51.62
0.682
0.670
0.657
I 13 23.10
I 17 19.65
I 21 16.20
Sat.
sc/j\r.
Mon.
13
14
16
17
18
I 25 48.76
I 29 30.03
I 33 11.65
I 36 53.63
I 40 35-97
I 44 18.69
9.213
9.227
9.241
9.256
9.272
9.288
9 057.6
9 22 39.5
944 12. 1
10 535.1
10 26 48.1
10 47 50.8
+54.43
54.05
53.66
+53.25
52.83
52.39
0 36.00
0 20.72
0 5-7^
0.644
0.630
0.615
0.600
0.584
0.568
I 25 12.76
I 29 9.31
133 5.87
Tues.
Wed.
Thur.
0 8.80
0 23.01
0 36.84
I 37 2.42
I 40 58.98
I 44 55.53
Frid.
Sat.
SUN.
19
20
21
148 1.81
I 51 45.33
I SS 2927
9.305
9.322
9-339
II 8 42.8
II 29 23.7
II 49 53.2
+51.94
51.47
50.98
0 50.28
1 3.31
I 15.93
0.551
0.534
0.517
I 48 52.09
I 52 48.64
I 56 45.20
Mon.
Tues.
Wed.
22
23
24
1 59 13.62
2 2 58.40
2 643.63
9.357
9.375
9.394
12 10 II.O
12 30 16.6
12 50 9.8
+50.49
49.98
49-45
I 28.13
I 39.90
I 51.23
0.499
0.481
0.463
2 041.75
2 4 38.31
2 834.86
Thur.
Frid.
Sat.
25
26
27
2 10 29.31
2 14 15.45
2 18 2.07
9.413
9.433
9.453
13 950.2
13 29 17.5
13 48 31.4
+48.91
48.35
47.79
2 2.11
2 12.52
2 22.46
0.444
0.424
0.404
2 12 31.42
2 16 27.97
2 20 24.53
SUN.
Mon.
Tues.
28
29
30
2 21 49.18
2 25 36.79
2 29 24.91
9.473
9.494
9.516
14 731.6
14 26 17.8
14 44 49.7
+47.22
46.63
46.03
2 31.91
2 40.86
2 49.29
0.383
0.362
0.340
2 2421.08
2 28 17.64
232 14-19
Wed.
31
23313.55
9.538
N.15 3 7.1
+45.41
2 57.20
.0.318
2 36 10.75
Note,—!
1
'heae
rhesi
tions
>midiameter for me
gn + prefixed to tb
( are increasing.
an noon m
e hourly c
ay be assumed the \
change of declinatio
same as tt
n indicati
lat for apparei
BS that north <
It noon,
leclina-
Diff. for x Hour,
+9'-8565.
(Table HI.)
40
APRIL, 1912.
III.
AT GREENWICH MEAN NOON.
I
2
3
4
5
6
7
8
lO
II
12
13
14
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
31
o tt
92
93
94
95
96
97
98
99
100
01
02
03
04
05
06
07
08
09
10
II
12
13
14
15
16
17
18
19
20
21
122
THE SUN'S
Tme Longitude.
11 24 12.0
12 23 19.4
13 22 24.7
14 21 28.1
15 20 29.6
16 19 29.3
17 18 27.1
18 17 23.2
19 16 17.6
20 15 10.2
21 14 I.O
22 12 50.1
23 II 37.4
24 10 22.9
25 9 6.6
26 748.5
27 6 28.5
28 5 6.6
29 342.7
30 2 16.7
31 o 48.6
31 59 18.3
32 57 45.9
3356 1 1.4
34 54 34-6
35 52 55^7
3651 14.8
374931.8
38 47 46.8
39 45 59.9
4044 1 1.2
X'
24 6.3
23 13.5
22 18.7
21 22.0
20 23.4
19 22.9
18 20.7
17 16.7
16 10.9
15 3.3
I3 54-0
12 43.0
II 30.2
10 15.6
859.2
741.0
6 20.9
458.8
3 34-7
2 8.6
o 40.4
59 1 0.0
57 37-5
56 2.8
54 25.9
52 46.9
51 5.8
49 22.6
47 37.5
45 50.5
44 1.6
DiflF. for
I Hour.
47.85
47.76
47.68
47.60
47.52
47.44
47.37
47.30
47.23
47.15
47.08
47.01
46.93
46.86
46.78
46.71
46.63
46.55
46.46
46.37
46.28
46.19
46.10
46.01
45.92
45.83
45.75
45.67
45.59
45.51
45.43
Latitude.
+0.02
—0.12
0.26
—0.39
0.51
0.61
— 0.69
0.74
0.77
—0.76
0.75
0.70
—0.61
0.52
0.40
—0.26
—0.13
0.09
+0.12
0.22
0.30
+0.35
0.36
0.34
+0.29
0.21
+0.1 1
—0.02
0.16
0.30
— 0.42
Logarithm of the
Raaius Vector of '
the Earth.
9.999 8671
9.999 9922
0.000 1 178
0.000 2439
0.000 3704
0.000 4971
0.000 6239
0.000 7506
0.000 8772
o.ooi 0034
o.ooi 1292
O.OOI 2544
0.001 3789
O.OOI 5026
O.OOI 6253
O.OOI 7469
O.OOI 8673
O.OOI 9865
0.002 1045
0.002 2212
0.002 3366
0.0024510
0.002 5644
0.002 6768
0.002 7884
0.002 8992
0.003 0094
0.003 1 191
0.003 2284
0.003 3373
0.003 4457
Diff. for
I Hour.
+52.0
52.2
52.4
+52.6
52.7
52.8
+52.8
52.8
52.7
+52.5
52.3
52.0
+51.6
51.3
50.9
+50.4
49.9
49.4
+48.9
48.4
47-9
+47-4
47.0
46.6
+46.3
46.0
45.8
+45.6
45.4
45-2
+45.1
Mean Time of
Sidereal Noon.
m
s
23 18 16.19
23 14 20.28
23 10 24.38
23 628.47
23 2 32.56
22 58 36.65
22 54 40.74
22 50 44.84
22 46 48.93
22 42 53.02
223857.11
22 35 1.20
22 31 5.29
22 27 9.38
22 23 13.48
22 19 17.57
22 15 21.66
22 II 25.75
22 7 29.84
22 3 33-93
21 59 38.02
21 5542.11
21 51 46.20
21 47 50.30
21 43 54.39
21 39 58.48
21 36 2.57
21 32 6.66
21 28 10.75
21 24 14.84
21 20 18.93
Note. — ^The longitudes in the column A are referred to the true equinox of their own date, while
those in the column X' are referred to
selian fictitious year.
he mean equinox of the beginning of the Bes-
Diff. for I Hour.
— §'.8296,
(Table IL)
IV,
APRIL, 1912.
41
GREENWICH MEAN TIME.
s
THE ]
MOONS
a
1
SBMIDIAMBTBR.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGE.
1
Noon.
MidniKht
Noon.
Diff. for
I Hour.
Midnight
Diff. for
z Hoar.
Meridian of
Greenwich.
Diff. for
I Hour.
Noon.
I
2
3
15 59-3
15 49-4
15 382
15 54-6
15 43-9
15 32.4
S8 34.6
57 58.4
57 17.2
-1.36
1.63
1.77
58
57
56
17-3
38.2
55-7
n
-I.5I
1.72
1.79
h m
12 9.2
12 55.6
13 42-8
m
1.93
1.94
2.00
d
13.6
14.6
15-6
4
5
6
15 26.5
15 15-2
15 5-2
15 20.7
15 lO.O
15 0.9
56 34-3
55 53.1
55 16.4
-1.77
1.64
X.4O
56
55
55
13.3
34-0
0.5
—1.72
1.53
1.24
14 31-6
15 22.0
16 13.9
2.07
2.13
2.18
16.6
17.6
18.6
7
8
9
14 57-1
14 51-5
14 48,5
14 54.0
14 49.7
14 48.1
54 46.7
54 25.9
54 I5-I
—1.06
0.66
-0.23
54
54
54
35-x
19.2
13-6
-0.87
0.45
—0.0 1
17 6.3
17 58.1
18 48.3
2.18
2.13^
2.05
19.6
20.6
21.6
lO
II
12
14 48.5
14 51.2
14 565
14 49-5
14 53-5
15 0.0
54 H-8
54 24.7
54 44-3
+0.20
0.62
0.99
54
54
54
18.5
33-4
57-2
+0.41
0.82
I.I5
19 36.3
20 21.9
21 5-7
1-95
1.86
1.80
22.6
23.6
24.6
13
14
1^5
15 4.0
15 13-3
15 23.7
15 8.5
15 18.4
15 29.0
55 12.0
55 46.1
56 24.1
+ 1.30
1.52
1.62
55
56
56
28.4
4.8
43-7
+1.42
1.58
1.63
21 48.3
22 30.7
23 14.1
1.76
1.78
Z.84
25.6
26.6
27.6
16
17
18
15 34-4
15 44.6
15 53-7
15 39-6
15 49-3
15 57.7
57 3-3
57 40-9
58 14-3
+1.62
1.49
1.27
57
57
58
22.5
58.3
28.8
+1.57
1.39
I.I4
23 59-5
6
0 48.2
1.95
• •
2.12
28.6
0.0
I.O
19
20
21
16 1.2
16 6.7
16 IO.I
16 4,2
16 8.7
16 II. I
58 41.6
59 1-8
59 14-5
+0.99
0.69
0.38
58
59
59
52.6
9-1
18.2
+0.84
0.53
+0.24
1 41-3
2 39.0
3 40.6
2-31
2.50
2.62
2.0
30
4.0
22
23
24
16 II.7
16 1 1.6
16 10.1
16 1 1.9
16 II.O
16 8.8
59 20.3
59 20.0
59 14-4
+O.H
-0.13
0.33
59
59
59
20.9
17.8
9.8
-0.01
0.23
0.42
4 43.9
5 45-9
6 44.6
2.63
2.53
2.36
5-0
6.0
7.0
25
26
27
16 7-3
16 3.4
15 58.2
16 5.5
16 0.9
15 55.2
59 4-2
58 49.7
58 30.9
-0.51
0.69
0.87
58
58
58
57-5
40.8
19.9
—0.60
0.78
0.96
7 39.0
8 29.4
9 16.9
2.18
2.03
1-93
8.0
9.0
1 0.0
28
29
30
31
15 52.0
15 44.6
15 363
15 27.3
15 48.4
15 40-5
15 31.8
15 22.7
58 7.9
57 40-8
57 IO-3
56 37.3
—1.04
1,21
1-33
-1.40
57
57
56
56
54-9
25-9
54-0
20.4
-I.I3
X.27
1.38
—1.40
10 2.7
10 48.2
11 34-3
12 22.1
1.89
X.90
1.95
2.03
II.O
12.0
13-0
14.0
42
APRIL, 1912.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Ascension.
DifL
for
I Min.
Declination.
Diflf.
for
X Min.
Hour.
Right Ascension.
Diff.
for
[ Min.
Declination.
Diff.
for
I Min.
O
I
2
3
4
5
6
7
8
9
lO
II
12
13
14
15
i6
17
i8
19
20
21
22
23
O
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
i6
17
i8
19
20
21
22
^3
24
MONDAY I.
h m
2 24
2 26
2 28
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
4
4
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
o
2
5
7
9
II
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
52
54
56
58
o
2
8
s
17.09
2.0440
19.70
2.0439
22.24
a.0418
24.72
2.0407
27.14
2.0398
29.50
3.0390
31.81
3.0382
34- 08
3.0375
36.31
3.0369
38.51
3.0364
40.68
2.0359
42.^2
a. 0355
44-94
2.0351
47.04
3.0348
49.12
2.0346
51.19
3.0345
53.26
a. 0344
55.33
2.0345
57-40
2.0346
59.48
2.0347
1-57
2.0350
3.67
a. 0353
5.80
2.0356
7.95
2.0361
s.
s.
I
I
I
I
2
2
2
3
3
3
3
4
4
4
4
5
5
5
5
6
6
6
7
7
5 2I.O
21 54.8
38 27.5
54 59.0
II 29.1
27 57.8
44 25.0
o 50.6
17 14.6
33 36.8
49 57-2
6 15.6
22 32.1
3846.5
54 58.7
II 8.6
27 16.2
43 21.5
59 24.3
15 24.5
31 22.0
47 16.8
3 8.8
18 57-9
TUESDAY 2.
10.13
2.0366
12.34
a. 0371
14.58
a. 0377
16.86
3.0384
19.19
2.0392
21.57
2.0400
23.99
2.0409
26.47
2.0418
29.01
2.0427
31.61
2.0438
34.27
2.0450
37.00
3.0462
39.81
3.0474
42.69
3.0487
45.65
2.0501
48.69
2.0515
51.82
3.0529
55.04
a. 0544
58.35
3.0560
1.75
2.0576
5.26
2.0593
8.86
3.0609
12.57
2.0627
16.39
2.0645
20.31
2.0663
7 34
7 50
8 6
8 21
837
8 52
9 8
23
38
54
9
24
39
54
9
24
39
54
8
I
3
4
3
9
2
2
2
3
3
3
23
37
52
6
21
35
44
27
7
44
17
48.2
15.1
38.5
58.3
14.6
27.1
35.8
40.7
41.7
38.6
31.5
20.3
4.9
45.2
21.2
52.7
19.7
42.2
0.1
13.4
16.573
16.554
X6.534
16.513
16.490
16.466
16.440
16.413
16.385
16.355
16.324
16.291
16.257
x6. 222
16. 185
16. 147
x6.io8
16.067
16.025
15.982
15-937
15.891
15.844
15.795
15.745
X5.694
15.641
15.587
15.532
15.476
15.419
15.360
15.300
X5.a39
15.177
15. 114
15.049
14.983
14.916
14.847
14.777
14.707
14.636
14.563
14.489
14.414
14.337
14.259
14. 181
O
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
o
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
h
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
m
2
4
6
8
10
12
H
16
18
21
23
25
27
29
31
33
35
37
39
41
44
46
48
50
52
54
56
58
I
3
5
7
9
II
13
16
18
20
22
24
26
29
31
33
35
37
39
42
44
WEDNESDAY 3
S.
8
20.31
24.35
28.50
32.77
37-16
41.68
46.33
51.10
56.00
1.03
6.20
II. 51
16.96
22.55
28.28
34.16
40.18
46.35
52.68
59.16
5.79
12.58
19.53
26,63
8
2.0663
2.0682
3.070a
2.0722
3.0742
2.0763
2.0785
2.0807
3.0829
2.0851
3.0873
2.0896
3.0930
2.0944
2.0968
2.0992
2.IOI7
2.1042
2.1067
2.1093
2.XII9
2.1145
2.ZI7X
3.1197
s.
THURSDAY
33.89
41.31
48.89
56.64
4.55
12.62
20.86
29.26
37.83
46.56
55.46
4.53
13.77
23.18
32.75
42.49
52.40
2.47
12.71
23.12
33.70
44.44
55.34
6.40
17.63
2.1223
2.1230
2,1277
2.1304
2.133a
a. 1359
2.1386
2.X414
3. 144a
2.1470
2.1498
2.1536
a. 1554
3.1581
2.1609
2.1638
2.Z666
2.1693
2.1720
a. 1748
2.1775
2.1802
2. 1830
3. 1858
2. 1885
s.
3 35
3 49
4 3
4 17
431
4 45
458
5 12
26
39
5
5
52
6
19
32
45
58
II
23
36
7 49
8 I
8 13
8 26
838
4.
8 50
9 2
14
25
37
48
o
9
9
9
9
20
20 II
20 22
20 33
20 44
2055
21 6
21 17
21 27
21 37
21 48
21 58
22 8
22 18
22 28
2237
22 47
22 56
S.23 6
13.4
21.9
25.5
24.3
18.2
7.0
50.8
29.4
2.9
31. 1
53-9
II. 4
23.4
29.9
30.8
26.1
15.7
59.5
37.6
9.8
36.0
56.3
10.6
18.7
20.7
16.5
6.0
49.2
26.1
56.5
20.5
37.9
48.7
52.9
50.4
41.2
25.2
2.4
32.6
56.0
12.4
21.8
24.1
19.2
7.2
48.0
21.6
47.9
6.8
14.18X
14. 102
14.021
13-939
13.856
13.772
13.687
13.601
13.514
13.425
13.335
13.245
13.154
13.062
13.969
12.874
12.778
12.682
12.585
12.487
13.388
12.283
12.187
12.085
IX. 982
11.878
".773
IX. 667
11.561
11.454
".345
".235
11.125
11.014
10.9C2
10.790
10.677
10.563
10.447
10.332
10.2x5
10.097
9-979
9.Kfo
9.740
9.620
9-499
9.377
0.aS4
VI.
APRIL, 1912.
43
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DlfE.
Diff.
Diff.
Diff.
Honr.
Right Ascension.
for
I Min.
Declinatica
for
zMin.
Honr.
Right Ascension.
for
xMin.
Declination.
for
I Min.
F]
RIDAl
r 5.
SUNDAY 7.
h m s
8
0 * »•
n
h m 8
s
0 1 n
n
O
15 44 17.63
3.1885
S.23 6 6.8
9.254
0
17 31 48.99
3.9794
S.27 58 29.8
2.775
I
15 46 29.02
2.I9IZ
23 15 18.4
9.131
I
1734 5.35
9.9737
28 I 12.0
2.633
2
154840.57
2.X938
23 24 22.5
9.007
2
17 36 21.71
3.3739
28 345.7
9.491
3
15 50 52.28
a. 1965
23 33 19.2
8.889
3
17 38 38.10
9.973X
28 6 10.9
9.349
4
1553 4-15
3.199X
23 42 8.4
8.757
4
17 40 54.48
3. 3739
28 8 27.6
9.207
5
1555 16.17
8.90x7
23 50 50.0
8.631
5
17 43 10.87
3.3733
28 10 35.7
2.065
6
15 57 28.35
a.ao43
23 59 24. 1
8.505
6
17 45 27.26
9.373X
28 12 35.3
X.993
7
15 59 40.68
8.9069
24 7 50.6
8.378
7
17 47 43.64
2.9729
28 14 26.4
X.78X
8
16 153.17
2.8094
24 16 9.4
8.350
8
17 50 O.OI
8.2737
28 16 9.0
1.639
9
16 4 5.81
8.8X19
24 24 20.5
8.X2Z
9
17 52 16.36
2.2734
28 17 43.0
X.497
lO
16 6 18.60
3.8I44
24 32 23.9
7.99a
10
17 54 32.70
2.3730
28 19 8.6
1.356
II
16 831.53
8.3x68
2440 19.5
7.863
II
17 56 49.01
3.37x6
28 20 25.6
X.214
12
16 10 44.61
3.3192
2448 7.3
7.739
12
17 59 5.29
2.27x1
28 21 34.1
X.07X
13
16 12 57.84
3.33X6
24 55 47.3
7.601
13
18 I 21.54
2.9705
28 22 34.1
0.929
14
16 15 11.20
8.2239
25 3 19.5
7.470
14
18 3 37-75
9.2698
28 23 25.6
0.787
15
16 17 24.70
2.8962
25 10 43.7
7.338
15
18 5 53.92
2.969X
28 24 8.6
0.646
i6
16 19 38.34
8.2285
25 18 0.0
7.306
16
18 8 10.05
9.8683
28 24 43. 1
0.505
17
16 21 52.12
2.2307
25 25 8.4
7.073
17
18 10 26.12
2.2674
28 25 9.2
0.364
i8
16 24 6.03
2.2339
25 32 8.8
6.939
18
18 12 42.13
2.2664
28 25 26.8
0.923
19
16 26 20.07
2.2350
25 39 1.2
6.805
19
18 14 58.08
3.2653
28 25 36.0
-0.082
20
16 28 34.23
2.8370
254545.5
6.671
20
18 17 13.97
8.2643
28 25 36.7
+0.058
21
16 30 48.51
2.239X
25 52 21.8
6.537
21
18 19 29.79
2.3630
28 25 29.0
0.198
22
16 33 2.92
2.24IX
25 58 49.9
6.403
22
18 21 45.53
2.86x8
28 25 12.8
0.338
23
16 35 17-44
SAl
2.8430
rURDi
S.26 5 9.9
VY 6.
6.866
23
18 24 1.20
M(
8.3605
3NDA
S.28 24 48.3
Y 8.
0.478
O
16 37 32.08
2.8449
S.26 II 21.8
6.Z30
0
18 26 16.79
3.859X
S.28 24 15.4
0.6x8
I
16 39 46.83
8.2468
26 17 25.5
5.993
I
18 28 32.29
8.8576
28 23 34.1
0.758
2
16 42 1.69
3.2486
26 23 21.0
5.856
2
18 30 47.70
9.8560
28 22 44.5
0.897
3
16 44 16.66
8.2503
26 29 8.3
5.719
3
1833 3.02
8.3544
28 21 46.5
X.035
4
16 46 31.73
8.3530
26 34 47.3
5.58X
4
18 35 18.23
8.3537
28 20 40.2
1.174
5
16 48 46.90
3.2536
26 40 18. 1
5.443
5
18 37 33.34
3.3509
28 19 25.6
X.313
6
1651 2.17
8.8558
26 45 40.5
5.305
6
18 39 48.35
3.3491
28 18 2.7
1-450
7
16 53 17.53
3.8567
26 50 54.7
5.167
7
1842 3.24
8.2472
28 16 31.6
X.587
8
16 55 32.97
8.2581
26 56 0.6
5.028
8
18 44 l8.02
2.2458
28 14 52.3
1.724
9
16 57 48.49
a. 9595
27 0 58.1
4.889
9
18 46 32.67
2.2432
28 13 4.7
X.861
lO
17 0 4.09
8.2608
27 547.2
4.750
10
18 48 47.21
2.24I8
28 II 8.9
X.998
II
17 2 19.78
8.2690
27 10 28.0
4.6x0
II
18 51 1.62
2.8391
28 9 5.0
2.134
12
17 435.54
2.2633
27 15 0.4
4.470
12
18 53 15.89
8.2369
28 6 52.9
9.970
13
17 651.37
2.2645
27 19 24.4
4.330
13
18 55 30.03
2.2346
28 4 32.7
2.405
14
17 9 7.27
2.9655
27 23 39.9
4.X89
14
18 57 44.04
8.9322
28 2 4.3
2.539
15
17 n 23.23
2.2665
27 27 47.0
4.048
15
18 59 57.90
8.2298
27 59 27.9
9.674
i6
17 13 39.25
2.2674
27 31 45.7
3.908
16
19 2 II. 61
2.2274
27 56 43.4
8.808
17
17 15 55.32
2.2683
27 35 35.9
3.767
17
19 4 25.18
8.2249
27 53 50.9
3.941
i8
17 18 11.45
2.269X
27 39 17.6
3.635
18
19 6 38.59
9.9823
27 50 50.4
3.074
19
17 20 27.61
3.3698
27 42 50.9
3.484
19
19 8 51.85
2.8X97
27 47 42.0
3.806
20
17 22 43.83
8.9705
27 46 15.7
3.343
20
19 II 4.95
9.9170
27 44 25.6
3. 338
21
17 25 0.07
2.371X
27 49 32.0
3.901
21
19 13 17.88
2.9149
27 41 1.3
3.470
22
17 27 16.35
2.37x6
27 52 39.8
3.059
22
19 15 30.65
2.21x4
27 37 29.2
3.603
23
17 29 32.66
2.2730
27 5539.1
3.917
23
19 17 43.25
2.9086
27 33 49.1
3.733
24
17 31 48.99
2.2724
S,27 58 29.8
9.775
24
19 19 55.68
2.2057
S.27 30 1.2
3.863
44
APRIL, 1912.
VIL
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
I Min.
Declination.
for
1 Min.
Hour.
Right Ascension.
for
X Min.
Declination.
for
I Min.
TUESDAY 9.
THURSDAY 11.
h m s
8
e » M
f*
h m 8
8
e » M
rr
O
19 19 55'68
a.2057
S.27 30 1.2
3.863
0
21 I 52.26
8.0362
S.22 6 3.0
9.385
I
19 22 7.93
2.2027
27 26 5.6
3.99a
I
21 3 54.33
2.0326
21 56 37.0
9-483
2
19 24 20.01
a. 1997
27 22 2.2
4.I2X
2
21 5 56.18
2.0290
21 47 5.0
9-581
3
19 26 31.91
2.1967
27 17 51. 1
4.250
3
21 7 57.81
2.0254
21 37 27.2
9.678
4
19 28 43.63
a. 1937
27 13 32.3
4.378
4
21 9 59.23
2.02X9
21 27 43.6
9-774
5
193055.16
2.1906
27 9 5.8
4.505
5
21 12 0.44
2.0184
21 17 54.3
9.870
6
19 33 6.50
2.1874
27 431.7
4.632
6
21 14 1.44
2.0149
21 7 59.3
9.965
7
19 35 17.65
2.1842
26 59 50.0
4.759
7
21 16 2.23
2.0114
20 57 58.6
ID. 059
8
19 37 28.61
2. 1810
26 55 0.8
4.884
8
21 18 2.81
2.0079
20 47 52.3
xo. 152
9
19 39 39.37
2.1778
26 50 4.0
5.009
9
21 20 3.18
a. 0045
20 37 40.4
X0.244
lO
19 41 49.93
2.X745
26 44 59.7
5-134
10
21 22 3.35
2.00x1
20 27 23.0
10.336
II
19 44 0.30
2.17x1
26 39 48.0
5.258
II
21 24 3.31
1.9977
20 17 0.1
10.427
12
19 46 10.47
2.1677
26 34 28.8
5.381
12
21 26 3.07
1.9943
20 6 31.8
10.5x7
13
19 48 20.43
2.1643
26 29 2.2
5.504
13
21 28 2.63
X.9910
19 55 58.1
10.607
H
19 50 30.19
2.1609
26 23 28.3
5.626
14
21 30 1.99
X.9878
19 45 19.0
X0.696
15
19 52 39.74
a. 1574
26 17 47.1
5.747
15
21 32 1. 16
1.9845
19 34 34.5
X0.784
i6
19 54 49.08
a. 1539
26 II 58.6
5.868
16
21 34 0.13
1.9812
19 23 44.8
10.872
17
19 56 58.21
2.1504
26 6 2.9
5.988
17
21 35 58.91
1.9780
19 12 49.9
10.959
i8
1959 7.13
2.1468
26 0 0.0
6.108
18
21 37 57.50
1-9749
19 I 49.8
XX. 045
19
20 I 15.84
a. 1433
25 53 50.0
6.227
19
21 39 55-90
1.9718
18 50 44.6
11.130
20
20 3 24.33
2.1398
25 47 32.8
6.345
20
21 41 54.11
1.9687
18 39 34-3
XX. 214
21
20 5 32.61
2.1362
2541 8.5
6.463
21
21 43 52.14
1.9657
18 28 18.9
XI. 298
22
20 7 40.67
a. 1325
25 34 37.2
6.580
22
21 45 49.99
i.96a7
18 16 58.5
XX. 382
23
20 948.51
WED
2.X288
NESD
S.25 27 58.9
AY 10.
6.696
23
21 47 47.66
1.9597
LIDAY
S.18 533.1
12.
".464
O
20 II 56.13
a. 1252
S.25 21 13.6
6.812
0
21 4945.15
X.9568
S.17 54 2.8
".544
I
20 14 3.53
2.12x6
25 14 21.4
6.927
I
21 51 42.47
1-9539
17 42 27.7
XI. 625
2
20 16 10.72
2.1X79
25 7 22.3
7.041
2
21 53 39.62
X.9510
17 30 47.8
XX. 706
3
20 18 17.68
2. 1 142
25 0 16.4
7.155
3
21 5536.59
X.9482
17 19 3-1
XI. 785
4
20 20 24.42
2.II05
24 53 3-7
7.269
4
21 57 33.40
X.9455
17 7 13.6
XX. 863
5
20 22 30.93
2.1067
24 45 44.2
7.382
5
21 59 30.05
X.9428
16 55 19.4
XI.94I
6
20 24 37.22
2.1030
24 38 17.9
7.493
6
22 I 26.53
1.940X
16 43 20.6
X2.0J9
7
20 26 43.29
2-0993
24 30 44.9
7.604
7
22 3 22.85
X.9375
16 31 17.2
X2.096
8
20 28 49.14
2.0955
2423 5.3
7-7x5
8
22 5 19.02
1.9349
16 19 9.2
X2.X7X
9
20 30 54.76
2.0918
24 15 19. 1
7.825
9
22 7 15.04
i.93a4
16 6 56.7
X2.246
lO
2033 o.i6
2.o88z
24 7 26.4
7-934
10
22 9 10.91
1.9099
15 54 39.7
12.320
II
2035 5.33
2.0843
23 59 27.2
8.042
II
22 II 6.63
1.9274
1542 18.3
xa.393
12
20 37 10,28
2.0806
23 51 21.5
8.149
12
22 13 2.20
X.9250
15 29 52.6
X2.466
^3
20 39 15.00
2.0769
23 43 9-3
8.256
13
22 14 57.63
1.9227
15 17 22.5
X2.5i8
14
20 41 19.50
2.0731
23 34 50.8
8.363
14
22 16 52.93
i.9ao4
15 448.1
12. 609
15
20 43 23.78
2.0694
23 26 25.9
8.46S
15
22 18 48.09
1.9x82
14 52 9.5
12.679
i6
2045 27.83
2.0657
23 17 54-7
8.57a
16
22 20 43.11
X.9161
14 39 26.6
12. 749
17
20 47 31.66
2.0620
23 9 17.2
8.676
17
22 22 38.01
1.9139
14 26 39.6
X2.8x8
i8
20 49 35-27
2.0583
23 0 33.5
8.780
18
22 24 32.79
X.9118
14 1348.5
X2.886
19
20 51 38.65
2.0546
22 51 43.6
8.883
19
22 26 27.44
1-9098
14 0 53,3
".953
20
20 53 41.81
2.0509
22 42 47.6
8.985
20
22 28 21.97
1.9079
1347 54.1
X3.019
21
20 55 44.75
2,0472
22 33 45.5
9.086
21
22 30 16.39
1.9060
13 34 51.0
13,085
22
20 57 47.47
2.0436
22 24 37.3
9.186
22
22 32 10.69
I. 9041
13 21 43.9
X3.t5i
23
20 59 49.97
a.0399
22 15 23.1
9.286
23
22 34 4.88
1.9023
13 8 32.9
13.215
24
21 I 52.26
2.0362
S,22 6 3.0
9.385
24
22 35 58.97
X.9006
S.12 55 18. 1
X3,a78
VIII.
APEIL, 1912.
45
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
•
Diff.
Diff.
Hoar.
Right Ascanaion.
for
I Min.
Declination.
for
I Min.
Hour.
Right Ascension.
for
X Min.
Declination.
for
X Min.
SAT
URDA
Y 13.
MONDAY 15.
h m s
s
0 * n
H
h m s
a
e t t»
i»
O
22 35 58.97
1.9006
S.I2 55 18. 1
13.378
0
0 6 24.25
1.8931
S. I 20 16.9
15.347
I
22 37 52.95
X.8989
12 41 59.5
13.341
I
0 8 17.88
X.8946
I 4 55.5
15.368
2
22 39 46.84
1.8973
12 28 37.2
13.403
2
0 10 II. 61
X.8963
0 49 32.8
15.387
3
22 41 40.63
1.8957
12 15 II. 2
13.464
3
0 12 5.44
I. 8981
034 9.0
15.405
4
2243 34.33
1.894a
12 I 41.6
13.524
4
0 13 59.38
1.8999
0 18 44.1
15.423
5
22 45 27.94
i.89«7
II 48 8.3
13.584
5
0 15 53.43
1.90x8
S. 0 3 18.2
15.440
6
22 47 21.46
X.8914
II 34 31-5
13.643
6
0 17 47-59
1.9038
N. 0 12 8.6
15.455
7
22 49 14.90
Z.890X
II 20 51.2
13.701
7
0 19 41.87
X.9058
0 27 36.4
15.469
8
22 51 8.27
1.8888
II 7 7.4
13.758
8
0 21 36.28
1.9079
043 5.0
15.483
9
22 53 1.56
1.8876
10 53 20.2
X3.8I4
9
0 23 30.82
X.9X01
0 58 34.4
15.496
lO
22 54 54-78
1.8865
10 39 29.7
13.870
10
0 25 25.49
X.9124
I 14 4.5
15.507
II
22 56 47.94
1.8854
10 25 35.8
I3.9a5
II
0 27 20.30
X.9X48
I 29 35.2
15.517
12
22 58 41.03
1.8843
10 II 38.7
13-979
12
0 29 15.26
X.9X73
I 45 6.4
15.525
13
23 0 34.06
1.8834
9 57 38.4
14.033
13
0 31 10.36
X.9196
2 0 38. 1
15.532
14
23 2 27.04
1.8836
9 43 34-9
14.084
14
0 33 5.61
X.9233
2 16 10.3
15.539
15
23 4 19-97
I. 8818
9 29 28.3
14.136
15
0 35 1.02
1.9349
2 31 42.8
15.544
i6
23 6 12.85
1.88ZO
9 15 18.6
14- 187
16
036 56.59
X.9376
2 47 15.6
15.548
17
23 8 5.68
1.8803
9 I 5-8
14.237
17
0 38 52.33
1.9304
3 248.7
15.552
i8
23 9 58.47
1.8797
8 46 50. 1
14.286
18
0 40 48.24
1.9333
3 18 21.9
15-554
19
23 II 51.23
I. 8791
832 31-5
14.334
19
0 42 44-33
1.9363
3 33 55-1
15.554
20
23 13 43.96
Z.8786
8 18 lo.o
14. 381
20
0 44 40.60
1.9394
3 49 28.4
15.554
21
23 15 36.66
1.878a
8 345.8
14.428
21
0 46 37.06
X.9426
4 5 1-7
15.553
22
23 17 29.33
1.8778
7 49 18.7
14.474
22
0 48 33.71
1.9458
4 20 34.8
15.550
23
23 19 21.99
SU
1.8775
NDA\
S. 7 34 48.9
' 14.
14.518
23
05030.55
TU]
1.9491
ESDA'
N. 436 7.7
Y 16.
15.546
O
23 21 14.63
X.8773
S. 7 20 16.5
14.563
0
0 52 27.59
X.9525
N. 4 51 40.3
15.541
I
23 23 7.26
I. 8771
7 541.5
14.605
I
0 54 24.84
X.9559
5 7 12.6
15.534
2
23 24 59.88
1.8770
6 51 3.9
14.647
2
0 56 22.29
1.9594
5 22 44.4
15.526
3
23 26 52.50
1.8770
6 36 23.7
14.689
3
0 58 19.96
X.9630
5 38 15-7
15.5x7
4
23 28 45.12
1.8770
6 21 41. 1
14.730
4
I p 17.85
1.9667
5 53 46.4
15.507
5
23 30 37.74
1.8771
6 6 56.1
14.770
5
I 2 15.96
1.9705
6 9 16.5
15.495
6
23 32 30.37
1.8773
5 52 8.8
14.809
6
I 4 14.30
1.9743
6 24 45.9
15.482
7
23 34 23.02
X.8776
5 37 19. 1
14.847
7
I 6 12.88
X.9783
6 40 14.4
15.468
8
23 36 15.68
X.8780
5 22 27.2
14.884
8
I 8 11.69
Z.9823
6 55 42.0
15.452
9
23 38 8.37
1.8784
5 733.1
14.920
9
I 10 10.74
1.9863
7 II 8.7
15.436
lO
23 40 1.08
X.8788
4 52 36.9
14.955
10
I 12 10.04
1-9905
7 26 34.3
15.418
II
23 41 53.82
x.879a
4 37 38.6
14.989
II
I 14 9.59
1.9948
7 41 58.8
15.398
12
23 43 46.60
X.8798
4 22 38.3
15.033
12
I 16 9.40
1.9991
7 5722.1
15.377
13
23 45 39-42
X.8806
4 7 36.0
15.054
13
I 18 9.47
8.0034
8 12 44.1
15.355
14
23 47 32.28
1.8814
3 5231.8
15.086
14
I 20 9.81
3.0079
8 28 4.7
15.331
15
23 49 25.18
x.88aa
3 37 25.8
15.117
15
I 22 10.42
3.0x35
8 43 23.8
15.306
i6
23 51 18.14
X.883Z
3 22 17.9
15.146
16
I 24 11.30
a.oz7x
8 58 41.4
X5.380
17
23 53 II. 16
X.884X
3 7 8.2
15. 174
17
I 26 12.46
3.0218
9 13 57.4
15.252
i8
23 55 4.24
1.8853
2 51 569
15.203
18
I 28 13.91
3.0266
9 29 II. 6
15.233
^9
23 56 57- 38
X.8864
2 36 44.0
15.229
19
I 30 15.64
3.03x4
9 44 24.0
15.192
20
23 58 50.60
1.8876
2 21 29.5
i5.«55
20
I 32 17.67
3.0363
9 59 34-6
15.159
21
0 0 43.89
X.8888
2 6 13.5
15.380
21
I 34 20.00
3.0413
10 14 43.2
15.125
22
0 2 37.26
X.8901
I 50 56.0
15.303
22
I 36 22.63
8.0464
10 29 49.7
15.090
23
0 4 30.71
1.8916
I 35 37.1
i5-3«5
23
I 38 25.57
3.0516
10 44 54.0
15.053
24
0 6 24.25
1.8931
S. I 20 16.9
15.347
24
I 40 28.82
3.0568
N.io 59 56.x
15.015
46
APRIL, 1912.
IX
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Ascension.
Diff.
for
X Min.
•
Declination.
Diff.
for
I Min.
Hour.
Right Ascension.
Diff.
for
X Min.
Declination.
Diff.
for
X Min.
WEDNESDAY 17.
FRIDAY
19.
h m 8
8
e * n
M
h m 8
8
e t M
't
O
I 40 28.82
2.0568
N.io 59 56.1
15.0X5
0
3 26 25.79
9.3755
N.2I 45 43.7
XX. 827
1
I 42 32.39
2.062X
II 14 55.9
14.974
I
32848.55
8.3829
21 56 53.7
IX.X04
2
I 44 36.28
a. 0675
II 29 53.2
14.933
2
331 11.75
a. 3903
22 7 56.3
10.980
3
I 46 40.49
2.0739
II 44 48.0
14.891
3
3 33 35.39
2.3977
22 18 51.3
XO.854
4
I 48 45.03
2.0784
II 59 40.2
X4.847
4
3 35 59.47
2.4051
22 29 38.7
XO.726
5
I 50 49.90
2.0840
12 14 29.7
I4.8OX
5
3 38 23.99
8.4x24
22 40 18.4
10.597
6
I 52 55-"
2,0897
12 29 16.4
14.754
6
3 40 48.96
2.4x97
22 50 50.3
X0.465
7
I 55 0-66
2.0955
12 44 0.2
14.705
7
3 43 14-36
2.427X
23 I 14-3
X0.33X
8
I 57 6.56
2. IOI3
12 58 41.0
14.654
8
34540.20
a.4344
23 II 30.2
XO.X96
9
I 59 12.82
2.IO7X
13 13 18.7
14.603
9
348 6.48
3.4416
23 21 37.9
XO.060
10
2 I 19.43
2.XX30
13 27 53-3
14.549
10
3 5033.19
a.4488
23 31 37.4
9.922
II
2 3 26.39
2.x 190
13 42 24.6
14.493
II
3 53 0.33
2.4560
23 41 28.5
9.781
12
2 533.72
2. X25X
13 56 52.5
14.435
12
3 55 27.90
3.4631
23 51 II. I
9.638
13
2 741.41
2.13x3
14 II 16.9
14. 377
13
3 57 55.90
2.4702
24 0 45. 1
9.494
14
2 949.47
2.1375
142537.8
14.3x7
14
4 0 24.32
a. 4773
24 10 10.4
9.349
15
2 II 57.91
a. 1437
14 39 55.0
14.255
15
4 253.16
a.4843
24 19 27.0
9*302
i6
2 14 6.72
2.1500
14 54 8.4
14.192
16
4 5 22.42
2.4912
24 28 34.7
9.053
17
2 16 15.91
2.X564
15 8 17.9
14.126
17
4 7 52.10
2.4980
24 37 33.4
8.903
i8
2 18 25.49
a. 1629
15 22 23.5
X4.059
18
4 10 22.19
a. 5048
24 46 23.0
8.750
19
2 20 35.46
2.1694
15 36 25.0
13-991
19
4 12 52.69
8.51x6
24 55 3.4
8.596
20
2 22 45.82
2.1758
15 50 22.3
i3.9ao
20
4 15 23.58
2.5183
25 3 34-5
8.440
21
224 56.57
a. 1824
16 4 15.3
X3.848
21
4 17 54.88
2.5249
25 II 56.3
8.263
22
2 27 7.72
2.1892
16 18 4.0
13.774
22
4 20 26.57
2.5314
25 20 8.6
8. 124
23
2 29 19.27
THL
2. 1959
JRSDA
N.16 31 48.2
lY 18.
13.698
23
4 22 58.65
SAT
8.5378
URDA
N.a5 28 II. 3
.Y 20.
7.964
O
2 31 3i'23
a.2oa6
N.16 45 27.8
13.621
0
4 25 31. II
2.5442
N.25 36 4.3
7.803
I
2 33 43.59
a. 2095
16 59 2.7
13.54a
I
428 3.95
3.5505
254347.5
7.638
2
2 35 56.37
a.2164
17 12 32.7
X3.46X
2
43037.17
a. 5567
25 51 20.9
7.473
3
2 38 9.56
a. 2233
17 25 57.9
13.378
3
4 33 10.76
3.5628
25 58 44.4
7.307
4
2 40 23.16
2.2303
17 39 18.1
13.294
4
4 35 44.72
2.5688
26 5 57.8
7.139
5
2 42 37.18
2.2373
17 52 33-2
13.208
5
4 38 19.03
a. 5747
26 13 I.I
6.970
6
2 44 51.63
a. 2443
18 5 43.0
13.X20
6
4 40 53.69
2.5805
26 19 54.2
6.800
7
2 47 6.50
2.2514
18 18 47.5
13.030
7
4 43 38.69
2.5863
26 26 37.0
6. 627
8
2 49 21.79
2.2585
18 31 46.6
12.938
8
446 4.03
2.5918
2633 9.4
6.453
9
2 51 37.51
2.2656
18 44 40.2
12.845
9
44839.71
a. 5973
26 39 31.4
6.879
lO
2 53 53-66
a. 2728
18 57 28.1
12.750
10
4 51 15-71
2.6026
26 45 42.9
6.103
II
2 56 10.25
a. 2800
19 10 10.2
12.653
II
4 53 52.02
2.6078
26 51 43.7
5.925
12
2 58 27.27
2.2872
19 22 46.4
12.554
12
4 56 28.65
2.6X39
26 57 33.9
5.746
13
3 044.72
2.2943
19 35 16.6
12.453
13
4 59 5.58
2.6179
27 3 13.3
5.566
14
3 3 2.61
2.30x9
19 47 40.8
12.351
14
5 I 42.80
2.6228
27 8 41.9
5.3S5
15
3 5 20.94
2.3092
19 59 58.8
X2.247
15
5 420.31
3.6375
27 13 59.5
5.903
i6
3 7 39.71
2.3x65
20 12 10.5
12.141
16
5 6 58.09
3.6320
27 19 6.2
5.020
17
3 9 58.92
2.3239
20 24 15.8
12. 034
17
5 936.14
8.6364
27 24 1.9
4.833
i8
3 12 18.57
a. 33x3
20 36 14.5
11.934
18
5 12 14.45
3.6407
27 28 46.5
4.649
19
3 14 38.67
2.3387
20 48 6.6
II. 8X2
19
5 14 53.02
3.6448
27 33 19.8
4.463
20
3 16 59.21
2.3460
20 59 52.0
11.699
20
5 17 31.83
3.6488
27 37 42.0
4.876
21
3 19 20.19
a. 3533
21 II 30.5
11.584
21
5 20 10.87
2.6526
27 41 52.9
4.087
22
3 21 41.61
2.3607
21 23 2.0
11.467
22
5 22 50. 14
2.6563
2745 52.5
S.898
23
3 24 3.48
2.3681
21 34 26.4
IX. 348
23
5 25 29.62
2.6597
27 49 40.7
S.708
24
3 26 25.79
2.3755
N.2I 45 43-7
11.387
24
5 28 9.31
2.6631
N-27 53 17.4
3.516
X.
APRIL, 1912.
47
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
DiflF.
Diff.
Diff.
Hour,
Right Ascension.
for
X Min.
Declinatioxi.
for
X Min.
Hour.
Right Ascension.
for
X Min.
Declination.
for
X Min.
su
NDAY
' 21.
TUESDAY 23.
h m 8
8
or '•
II
h m s
s
e 1 n
H
O
5 28 9.31
2.6631
N.27 53 17.4
3.516
0
7 36 30.72
3.6x90
N.26 56 23.2
5.798
Z
5 3049-19
a. 6663
27 56 42.6
3.324
I
7 39 7.72
3.6x4a
26 50 29.9
5.97»
2
5 33 29- a6
a. 6693
27 59 56.3
3.132
2
7 41 44.42
2.6093
26 44 25.8
6.157
3
5 36 9-51
a. 6723
28 2 58.5
a. 939
3
7 44 20.82
2.604a
26 38 II. 0
6.335
4
5 38 49.92
a. 6750
28 5 49.0
a. 745
4
7 46 56.92
a. 5990
26 31 45.6
6.5x3
5
5 41 30.49
a. 6774
28 8 27.9
a. 550
5
7 49 32.70
a. 5937
26 25 9.6
6.687
6
5 44 11.20
«.6797
28 10 55.1
2.355
6
7 52 8.17
3.5883
26 18 23.1
6.861
7
5 46 52.05
3.6818
28 13 10.5
2.160
7
7 54 43.31
2.5829
26 II 26.2
7.034
8
5 49 33.02
a. 6838
28 15 14. 1
X.963
8
7 57 18.12
a.5774
26 4 19.0
7.ao5
9
5 52 14.11
2.6856
28 17 6.0
1.766
9
7 59 52.59
2.5717
25 57 1.6
7.375
lO
5 54 55.30
2.687a
28 18 46.1
X.569
10
8 2 26.72
a. 5659
25 49 34- 0
7.544
II
55736.58
2.6887
28 20 14.3
X.371
II
8 5 0.50
2.560X
25 41 56.3
7,7^1
12
6 0 17.94
2.6900
28 21 30.7
I.X74
12
8 7 33.93
2.5542
25 34 8.6
7.877
13
6 2 59.37
3.6911
28 22 35.2
0.976
13
8 10 7.00
3.5482
25 26 II. 0
8.043
14
6 5 40.86
2.6920
28 23 27.8
0.777
14
8 12 39.71
2.5421
25 18 3.6
8.205
15
6 8 22.40
a. 6927
28 24 8.6
0.579
15
8 15 12.05
2.5359
25 946.5
8.366
16
6 II 3.98
2.6932
28 24 37.4
0.381
16
8 17 44.02
3.5297
25 I 19.7
8.526
17
6 1345.59
2.6936
28 24 54.3
+0. 183
17
8 20 15.61
2.5334
24 52 43.4
8.685
18
6 16 27.22
2.6938
28 24 59.2
-0.017
18
8 22 46.83
2.5170
24 43 57-6
8.843
19
6 19 8.84
«.6937
28 24 52.2
0.2x6
19
8 25 17.66
3.5x06
2435 2.5
8.997
20
6 21 50.46
2.6935
28 24 33.3
0.415
20
8 27 48.11
2.5042
24 25 58.1
9.150
21
6 24 32.06
2.6932
28 24 2.5
0.613
21
8 30 18.17
a. 4977
24 16 44.5
9.303
22
6 27 13.64
2.6926
28 23 19.8
0.812
22
8 32 47.83
a. 49"
24 7 21.8
9.453
23
6 29 55.18
MO
2.69x8
►NDA^
N.28 22 25.1
r 22,
X.OXI
23
8 35 17.10
WED
3.4845
NESD
N.23 57 50.1
AY 24.
9.603
0
6 32 36.67
a. 6909
N.28 21 18.5
X.209
0
8 37 45.98
a.4779
N.23 48 9.5
9.749
I
6 35 18.10
2.6898
28 20 0.1
1.407
I
8 40 14.46
3.471a
23 38 20. 1
9*895
2
6 37 59.45
2.688s
28 18 29.8
1.604
2
84242.53
a.4645
23 28 22.1
10.039
3
6 40 40.72
2.6871
28 16 47.6
X.80I
3
8 45 10.20
a. 4578
23 18 15.5
xo. x8x
4
6 43 21.90
2.6855
28 14 53.6
X.998
4
8 47 37.47
2.4510
23 8 0.3
X0.323
5
6 46 2.98
2.6837
28 12 47.8
2.195
5
8 50 4.33
a. 4443
22 57 36.7
X0.463
6
6 48 43.94
2.6817
28 10 30.2
2.391
6
8 52 30.79
a. 4376
22 47 4-9
XO.600
7
6 51 24.78
2.6795
28 8 0.9
2.586
7
8 54 56.83
a. 4307
22 36 24.8
XO.735
8
6 54 5.49
2.677a
28 5 19.8
2.782
8
8 57 22.47
2.4238
22 25 36.6
X0.869
9
6 56 46.05
2.6749
28 2 27.1
2.977
9
8 59 47.70
2.4x70
22 14 40.4
XX. 003
10
6 59 26.46
2.6723
27 59 22.7
3.170
10
9 2 12.52
2.410a
22 3 36.4
IX.X33
II
7 2 6.70
3.6693
27 56 6.7
3.363
II
9 4 36.92
3.4033
21 52 24.6
XX. 263
12
7 446.77
2.6663
27 52 39.1
3.556
12
9 7 0.91
a. 3964
21 41 5.0
XX.389
13
7 7 26.66
a. 6632
27 49 0.0
3.748
13
9 9 24.49
2.3896
21 29 37.8
".515
14
7 10 6.35
2.6599
2745 9.4
3.939
14
9 II 47.67
2.3828
21 18 3.1
11.639
15
7 12 45.84
2.6564
2741 7-3
4.129
15
9 14 10.43
3.3760
21 6 21. 1
IX. 761
16
7 15 25.12
2.6528
27 36 53.8
4.318
16
9 16 32.78
3.3693
20 54 31.8
XX. 882
17
7 18 4.18
2.6491
27 32 29.0
4.506
17
9 18 54.73
2.3624
20 42 35.3
X3.00I
18
7 20 43.01
2.6452
27 27 53.0
4.694
18
9 21 16.27
a. 3556
20 30 31.7
X3.XI8
19
7 23 21.61
2.6412
27 23 5.8
4.881
19
9 23 37.40
3.3488
20 18 21. 1
X3.233
20
7 25 59.96
2.6372
27 18 7.4
5.067
20
925 58.13
3.34*1
20 6 3.7
12.347
21
7 28 38.05
2.6329
27 12 57.8
5.«5a
21
9 28 18.46
a. 3354
19 5339.5
X3.459
22
7 31 15.88
2.6283
27 7 37.2
5.435
22
9 30 38.39
2.3287
19 41 8.6
X2.569
23
7 33 53-44
2.6237
27 2 5.7
5.617
23
9 32 57.91
2. 3220
19 28 31.1
23.678
24
7 36 30.72
2.6190
N.26 56 23.2
5.798
24
9 35 17-04
3.3154
N.19 15 47.2
12.785
48
APEIL, 1912.
XI.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DiflF
DiflF.
Diff.
Diff.
Hour.
Right Ascension.
for
X Min.
Declination.
for
zMin.
Hour.
Right Ascension.
for
X Min.
Declination.
for
X Min.
THURSDAY 25.
SATURDAY 27.
h m 8
8
0 * tt
m
h m 8
8
9 f n
m
O
9 35 17.04
8.3x54
N.19 15 47.2
18. 785
0
II 19 48.68
8.O66X
N. 73037.5
15.983
I
9 37 35-77
a. 3089
19 2 56.9
12.890
I
II 21 52.55
8.0628
7 14 37.7
X6.0XX
2
9 39 54. 10
8.3013
18 50 0.4
ia.993
2
II 23 56.22
a. 0595
6 58 36.2
X6.038
3
9 42 12.04
a. 8958
18 36 57.7
13.095
3
II 25 59.69
8.0563
64233.1
Z6.064
4
9 44 29.60
2.3893
18 23 49.0
13. 195
4
II 28 2.97
8.0533
6 26 28.5
X6.088
5
9 46 46-77
8.2828
18 10 34.3
13.893
5
II 30 6.07
a. 0501
6 10 22.5
Z6.111
6
9 49 3.55
8.2765
17 57 13.7
13.390
6
II 32 8.99
8.047a
5 54 15.2
16.133
7
9 5t 19.95
2.2702
17 43 47.4
13.485
7
II 34 11.74
2.0444
5 38 6.6
16.152
8
9 53 35-97
8.2639
1730 15.5
13.578
8
11 36 14.32
8.0416
5 21 56.8
16.171
9
9 55 51-62
a. 2577
17 16 38.0
13.670
9
II 38 16.73
8.0389
5 545.9
16.189
lO
9 58 6.89
a.aSiS
17 255.1
13.760
10
II 40 18.98
a. 0363
4 49 34- 1
z6.aos
II
10 0 21.79
«.«453
16 49 6.8
13.848
II
II 42 21.08
a.0338
4 33 21.4
16.219
12
10 2 36.33
8.2399
16 35 13-3
J3.935
12
II 44 23.03
8.0314
4 17 7-8
16.333
13
10 4 50.50
a.833«
16 21 14.6
14. 020
13
II 46 24.83
2.0390
4 0 53.5
16.844
14
10 7 4.32
8.2278
16 7 10.9
14.103
14
II 48 26.50
3.0867
3 44 38.5
16.254
15
10 9 17.78
8.2213
15 53 2.3
14.184
15
II 50 28.04
a. 0245
3 28 23.0
16.863
i6
10 II 30.88
2. 81 55
15 38 48.9
14.264
16
11 52 29.45
3.0224
3 12 7.0
16.371
I?
10 13 43.63
a.«097
15 24 30.7
14.34a
17
II 5430.73
3.0204
2 55 50.6
16.877
i8
10 15 56.04
8.2039
15 10 7.8
14.418
18
11 56 31.89
a.0184
2 39 33-8
16.28a
19
10 i8 8.11
2.1982
14 55 40.4
M.494
19
II 5832.94
3.0165
2 23 16.8
16.285
20
10 20 19.84
8.1927
14 41 8.5
14.568
20
12 0 33.88
a. 0148
2 6 59.6
16.887
21
10 22 31.23
2.1872
14 26 32.3
14.639
21
12 2 34.72
8.0133
1 50 42.3
x6.a88
22
10 24 42.29
8. 18x7
14 II 51.8
14.709
22
12 435.47
8. 01 16
I 34 25.0
x6.aB7
23
10 26 53.03
FB
3.1763
II DAY
N.13 57 7.2
26.
14.777
23
12 6 36.12
SU
3.0x00
NDAY
N. I 18 7.9
28.
16.885
O
1029 3.45
8.1710
N.13 42 18.6
14.844
0
12 8 36.67
8.0086
N. I I 50.S
z6.88a
I
10 31 13.55
8. X658
13 27 26.0
X4.910
I
12 10 37.14
8.0073
0 45 34.0
16.877
2
10 33 23.34
8.1606
13 12 29.5
14.973
2
12 1237-54
8.0060
0 29 17.5
16.871
3
10 35 32.82
«.I554
12 57 29.2
»5.035
3
12 14 37-86
8.0Q48
N. 0 13 1.4
16.864
4
103741.99
2.1504
12 42 25.2
15.096
4
12 16 38.11
a. 0037
S. 0 3 14.2
16.256
5
10 39 50.86
2.1455
12 27 17.7
I5.»55
5
12 18 38.30
3.0027
0 19 29.3
16.246
6
10 41 59.44
2.1406
12 12 6.7
15.2x2
6
12 20 38.43
a.0017
0 35 43-7
16.234
7
1044 7-73
2.1358
II 56 52.3
15.268
7
12 22 38.50
3.0008
0 51 57.4
i6.8aa
8
1046 15.73
2.X310
II 41 34-6
15.322
8
12 24 38.52
8.0000
I 8 10.3
x6.ao9
9
10 48 23.45
8.X263
II 26 13.7
15.374
9
12 26 38.50
1.9993
I 24 22.4
X6.194
lO
10 50 30.90
2.12X8
n 10 49.7
15.425
10
12 28 38.44
1.9987
I 40 33.6
16.177
II
10 52 38.07
8.1173
10 55 22.6
15.475
II
12 30 38.35
1.9981
I 56 43.7
16.159
12
10 54 44.97
8.1188
10 39 52.6
15.523
12
12 32 38.22
1.9976
2 12 52.7
16.140
13
10 56 51.61
a. 1085
10 24 19.8
15.569
13
12 34 38.06
1.997a
2 29 0.5
16. 180
14
10 58 57-99
2.1043
10 8 44.2
15.614
14
12 36 37.89
1.9969
245 7.1
16.099
15
II I 4.12
2.X00Z
9 53 6.0
15.658
15
12 38 37-69
1.9967
3 I 12.4
16.076
i6
II 3 10.00
8.0960
9 37 25.2
15.700
16
124037.48
1.9965
3 17 16.2
16.058
17
II 5 15.64
8.0920
9 21 42.0
15.740
17
1242 37.27
1.9964
3 33 18.6
x6.oa7
i8
II 7 21.04
2. 0880
9 5 56.4
15.779
18
1244 37.05
1.9964
3 49 19.4
16.000
19
II 9 26.20
2.0841
8 50 8.5
15.817
19
12 46 36.84
1.9965
4 5 18.6
15.97a
20
II II 31.13
8.0803
8 34 18.4
15.854
20
12 48 36.63
X.9966
4 21 16.0
15.943
21
II 13 35-84
8.0766
8 18 26.1
15.888
21
12 50 36.43
1.9968
4 37 11.7
15.913
22
II 1540.33
2.0730
8 2 31.8
15.921
22
12 52 36.25
1.9971
4 53 5.5
15.881
23
II 17 44.61
8.0695
7 46 35.6
15.953
23
12 54 36.08
1.9974
5 8 57.4
15.848
24
II 19 48.68
8.0661
N. 7 30 37.5
15.983
24
12 56 35.94
1.9978
S. 5 24 47-3
15.814
XII.
APRIL, 1912.
49
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Dlff.
Diff.
DiflF.
Dt£f.
Hour.
Right Ascension.
for
zMin.
Declination.
for
iMin.
Hour.
Right Ascension.
for
xMin.
Declination.
for
X Min.
MC
>NDA\
r 29.
WEDNESDAY, MAY i.
h m 8
8
Of 0
It
h m 8
8
e 1 M
n
O
la 56 35-94
1.9978
s. 52447.3
15.814
0
X4 34 12.68
3.O9OX
S. 17 I 31.2
12.768
I
12 58 35.84
13 035-76
1.9984
1.9989
5 40 35-0
5 56 20.6
15.778
15.741
2
3
13 2 35-71
».9995
6 12 3.9
15.703
4
13 435-70
2.0003
6 27 45.0
15.665
5
13 6 35.74
2.00XX
6 43 23.7
15.634
6
13 835.83
3.0090
6 58 59.9
15.583
7
13 10 35.98
3.0029
7 14 33.6
15.540
8
13 12 36.18
3.0038
730 4.7
15.496
9
13 14 36.44
3.0048
7 45 33-1
15.450
10
13 16 36.76
3.0060
8 0 58.7
15.403
II
13 18 37.16
3.0073
8 16 21.5
15.357
12
13 20 37.63
a. 0085
831 41.5
15.308
13
13 22 38.18
3.0098
846 58.5
15.358
14
13 24 38.81
3.0112
9 2 12.4
15.206
15
13 26 39.52
3.0x26
9 17 23.2
15.153
16
13 28 40.32
3.0143
9 32 30.8
15.099
PHASES OF THE MOON.
17
13 30 41.22
3.0158
94735.1
15.044
18
13 32 42.21
13 34 43.30
3.0173
2.ozgo
10 2 36.1
10 17 33.8
14.989
14.93a
19
20
13 36 44.49
2.0208
10 32 27.9
14.873
d h m
21
13 38 45.79
2.0326
10 47 18.5
X4.813
0
Full Moon . . . Apr. i 10 4.6
22
23
13 40 47.20
13 42 48.73
TU
2.0245
3.0364
ESDA
II 2 5.5
S, II 16 48.8
Y30.
14.753
14.691
•
Last Quarter .... 9 3 23.8
New Moon 16 23 40.2
First Quarter . , . . 23 20 47.2
0
13 44 50.37
3.0283
S. II 31 28.4
14. 638
0
Full Moon 30 22 19.4
I
13 46 52.13
8.0304
II 46 4.1
14.563
\^
*/ ^1
2
13 48 54.02
13 50 56.03
2.0335
3.0346
12 0 35.9
12 15 3.8
14.498
14.432
3
4
13 52 58.17
2.0368
12 29 27.7
14.363
d h
5
13 55 0.45
3.039X
12 43 47.4
14.393
c
Apogee Apr. 9 12.8
6
13 57 2.86
2.0413
12 58 2.9
i4.a33
c
Perigee 22 10.3
7
0
13 59 5.41
a. 04 37
13 12 14.2
13 26 21.2
14. 15a
8
14 I 8.10
2.0461
14.080
9
14 3 10.94
a. 0486
13 40 23.8
14.007
10
14 5 13.93
3.05ZX
13 54 22.0
13.932
II
14 7 17.07
3.0536
14 8 15.5
13.856
12
14 9 20.36
2.0563
14 22 4.7
13.779
13
14 n 23.81
2.0588
14 35 49-1
13.701
H
14 13 27.41
3.0614
14 49 28.8
13.622
15
14 15 31.18
3.0642
15 3 3.7
13.541
16
14 17 35.11
3.0668
15 16 33.7
13.459
17
14 19 39.20
2.0697
15 29 58.8
13.377
18
14 21 43.47
3.0735
15 43 18.9
13.293
19
14 23 47-90
2.0753
15 56 34.0
13.209
20
14 25 52.50
3.0783
16 9 44.0
13.123
21
14 27 57.28
3.0812
16 22 48.8
13.036
22
1430 2.24
a. 0843
16 35 48.3
12.948
23
1432 7.38
2.0871
16 48 42.5
12.858
24
14 34 12.68
3.0901
S. 17 I 31.2
12.768
I9I2-
50
MAY, 1912.
AT GREENWICH APPARENT NOON.
Day of
the Week.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
I
2
3
4
5
6
7
8
lO
II
12
13
15
i6
17
i8
20
21
22
23
24
26
27
28
29
30
31
32
THE SUN'S
Apparent Right
Ascension.
h in 8
2 33 13-08
2 37 2.24
24051-95
2 44 42.22
2 48 33.06
2 52 24.47
2 56 16.46
3 o 9.04
3 4 2.21
3 755-96
3 1 1 50.30
31545-24
3 19 40.78
3 23 36.91
3 27 33.62
3 31 30-91
3 35 28.77
3 39 27.20
34326.17
3 47 25.67
3 51 25.70
3 S5 26.26
3 59 27.33
4 3 28.90
4 730.96
4" 33.50
4 15 36.52
4 19 40.00
4 23 43.93
4 27 48.30
431 53.11
Diff. for
X Hour.
43558.34 iO-"6
s
9.537
9.560
9.583
9.606
9.630
9.654
9.678
9.702
9.727
9.752
9.777
9.802
9.826
9.851
9.875
9.899
9.923
9.946
9.969
9.991
10.013
10,034
10.055
10.076
10.096
10.116
10.135
10.154
10.173
10. 191
ia209
Apparent Decli-
nation.
N.15 3 4-9
521 7.3
5 38 54-5
5 56 26.4
61342.5
6 30 42.6
6 47 26.3
7 3 53-4
720 3.5
7 35 56.4
7 51 31.8
8 649.3
821 48.6
8 36 29.5
8 50 51.6
9 4 54-7
9 18 38.4
932 2.5
9 45 6.5
9 57 50.3
20 TO 13.7
20 22 16.3
20 33 57.9
2045 18.3
20 56 17.2
21 6 54.4
21 17 9.9
21 27 3.3
21 36 34.4
214543.0
21 5429.1
N.22 2 52.4 +20.50
Diff. for
z Hour.
+45.41
44.78
44.15
+43.50
42.84
42.17
+41.48
40.78
40.06
+39-33
38.60
37.85
+37-09
36.3*
35.53
+34.73
33.92
33-09
+32.25
31.40
30.54
+29.67
28.79
27.90
-»-27.00
26.10
25.19
+24.26
23.33
22.39
21.45
Semidiam-
eter.
5 53.90
5 53.66
5 53.43
55319
5 52.96
5 52.73
5 52.50
5 52.28
5 52.06
5 51.84
5 51.62
5 51-40
551-19
5 50.98
5 50.78
5 50.58
5 50.39
5 50.20
5 50.02
5 49.84
5 49.66
5 49.49
5 49.32
549.15
5 48.99
5 48.83
5 48.68
5 48.53
548.38
5 48-23
5 48-09
5 47.95
Sidereal
Time of
Semidi-
ameter
Passing
Me-
ridian.
66.03
66.11
66.19
66.27
66.35
66.43
66.51
66.59
66.67
66.75
66.83
66.91
66.99
67.08
67.16
67.24
67.32
67.40
67.48
67.56
67.64
67.71
67.79
67.86
67.93
68.00
68.07
68.13
68.19
68.25
68.31
68.37
Equation of
Time, to be
Subtracted
from
Apparent
Time.
Diff.
for
X Hoar.
m
2 57.18
3 4-56
3 ".39
3 17-66
3 23-36
3 28.49
3 33-04
3 37-01
3 40.39
343.18
3 45.39
347.00
3 48.02
3 48.45
3 48.29
3 47-56
3 46.26
344.40
342.00
339.06
3 35-59
331.59
3 27.09
3 22.09
3 16.60
3 10.64
3 4-20
2 57.30
2 49.95
242.15
2 33.92
2 25.28
8
0.318
0.296
0.273
0.250
0.226
0.202
0.178
0.153
0.129
0.104
0.079
0.055
0.030
0.006
0.018
0.042
0.066
0.089
O.II2
0.134
0.156
0.177
0.198
0.218
0.238
0.258
0.277
0.296
0.315
0.334
0.352
0.369
NoTB. — ^The mean time of semidiameter passing may be found bj subtracting C.ig from the sidereal time.
The sign + prefixed to the hourly change of declination indicates that north declinations are increasing.
II.
MAY, 1912.
51
AT GREENWICH MEAN NOON.
Davof
the Week.
•
«
I
2
3
THE SUN'S
Equation of
Time, to be
Added to
Mean Time.
Diff.for
I Hour.
Sidereal Time,
or Right Ascen-
Apparent Right
Ascension.
Diff.for
I Honr.
Apparent Declina-
tion.
Diff.for
I Hour.
sion ox Mean
Sun.
Wed.
Thur.
Frid.
h m s
2 33 13-55
237 2.73
2 40 52.46
s
9.538
9.561
9.584
N.15 3 7-1
15 21 9-6
15 38 56.9
+45.41
44.78
44.15
m 8
2 57.20
3 4-57
3 11.40
8
0.318
0.296
0.273
h m s
2 36 10.75
240 7.31
244 3.86
Sat
SUN.
Mon.
4
5
6
2 44 42.75
2 48 33.60
2 52 25.02
9.607
9.631
9.655
155628.8
16 13 44.9
16 30 45.0
+43.50
42.84
42.17
3 17.67
3 23.37
3 28.50
0.250
0.226
0.202
2 48 0.42
2 51 56.97
2 55 53.53
Tues.
Wed.
Thur.
7
8
9
2 56 17.03
3 0 9.62
3 4 2.80
9.679
9.703
9.728
16 47 28.7
17 3 55-8
1720 5.9
+41.48
40.78
40.06
3 33.05
3 37.02
3 40.40
0.178
0.153
0.129
2 59 50.09
3 346.64
3 743.20
Frid.
Sat.
SUN.
lO
II
12
3 756.56
3 II 50.91
31545-86
9.752
9.777
9.802
17 35 58.8
17 51 34-2
18 651.6
+39.33
38.60
37.85
3 43-19
3 45-39
3 47.0P
0.104
0.079
0.055
31139.75
3 15 36.31
3 19 32.87
Mon.
Tues.
Wed.
13
15
3 19 41.41
3 23 37-54
3 27 34-25
9.826
9.851
9.875
18 21 50.9
18 36 31.8
18 50 53.9
+37.09
36-31
35.52
3 48.^2
3 48.45
3 48.29
0.030
0.006
0.018
3 23 29.43
3 27 25.98
3 31 22.54
Thur.
Frid.
Sat.
i6
17
i8
33131-54
3 35 29.40
3 39 27-82
9.899
9.922
9.945
19 456.9
19 18 40.5
1932 4-5
+34.72
33.91
33.08
3 47.56
3 46.26
344.40
0.042
0.066
0.089
33519.10
3 39 15.65
343 12.21
SUN
Mon.
Tues.
19
20
21
3 43 26.78
3 47 26.28
3 51 26.31
9.968
'9.990
10.012
1945 8.5
195752.2
20 10 15.5
+32.24
31-39
30.54
3 41.99
3 39-05
3 35-58
O.II2
0.134
0.156
3 47 8.77
351 5.33
3 55 1.88
Wed.
Thur.
Frid.
22
23
24
3 55 26.86
3 59 27-92
4 329-48
10.033
10.054
10.075
20 22 1 8.0
20 33 59.6
204519.9
+29.67
28.79
27.90
331-58
3 27.08
3 22.08
0.177
0.198
0.218
3 58 58.44
4 255.00
4 651.56
Sat
SUN
Mon.
25
26
27
4 731-52
411 34.04
4 15 37.04
10.095
IO.115
10.134
20 56 18.7
21 655.8
21 17 II. 2
+27.00
26.09
25.18
3 16.59
3 10.63
3 4-19
0.238
0.258
0.277
4 10 48.11
4 14 44.67
41841.23
Tues.
Wed.
Thur.
Frid.
28
29
30
31
4 19 40.50
4 23 44-41
4 27 48.76
431 53-54
10.153
10.172
10.190
10.208
21 27 4.5
213635-5
21 4544-0
21 5430.0
+24.25
23.32
22.38
21.44
2 57-29
2 49-94
242.15
2 33.92
0.296
0.315
0.334
0.352
4 22 37.79
4 26 34.34
4 30 30.90
4 34 27.46
Sat
32
4 35 58.74
10.225
N.22 2 53.2
+20.49
2 25.28
0.369
4 38 24.02
Not..-'
rheB4
rhe s
tion
emidiameter for me
ign + prefixed to tl
B are increasing.
»an noon n
tie hourly <
lay be assumed the
change of declinati(
same as tl
>n indicat
liat for apparei
es that north
Qt noon,
declina-
Diff. for X Hour,
+9».8565.
(Table III.)
52
MAY, 1912.
III.
AT GREENWICH MEAN NOON.
** a
I
2
3
4
5
6
7
8
lO
II
12
13
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
31
32
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
153
THE SUN'S
True Longitude.
4044 1 1.2
41 42 20.8
42 40 28.7
43 38 35-0
44 36 39-8
453443.1
46 32 45.0
47 30 45.6
48 28 44.8
49 26 42.6
50 24 39-2
51 22 34-5
52 20 28.5
53 18 21.2
54 16 12.6
55 14 2.6
561151-3
57 938.5
58 7 24.2
59 5 8.4
60 2 51.0
61 o 32.0
61 58 1 1.4
62 55 49.3
63 53 25.6
6451 0.5
65 48 34,0
66 46 6.2
674337.1
6841 6.8
69 38 35.4
7036 3.0
44 1.6
42 II.O
40 z8.8
38 25.0
36 29.6
34 32.8
3234.6
30 35.0
28 34.0
2631.7
24 28.1
22 23.2
20 17. 1
18 9.6
16 0.9
13 50.8
II 39-3
926.3
711.8
455.8
238.2
o 19.0
57 58.3
55 36.0
53 12.2
50 46.9
48 20.2
45 52.2
43 22.9
40 52.4
38 20.9
35 48.4
Diff. for
X Hour.
45.43
45.36
45.30
45.23
45.17
45.11
45.05
45.00
44.94
44.88
44.82
44.77
44.72
44.66
44.61
44.56
44-50
44.37
44.31
44.24
44.18
44.11
44.04
43-98
43.92
43.87
43.81
43.76
43.71
43.67
43.63
Latitude.
— 0.42
0.54
0.65
-0.73
0.79
0.82
—0.84
0.81
0.77
— 0.69
0.60
0.49
-0.37
0.24
—0.09
+0.04
0.15
0.23
+0.28
0.30
0.30
+0.26
0.19
+0.10
— 0.02
0.15
0.29
—0.41
0.53
0.64
0.73
-0.79
Logarithm of the
Radius Vector of
the Earth.
0.003 4457
0.003 5536
0.003 6610
0.003 7679
0.003 8740
0.003 9793
0.004 0837
0.004 1 87 1
0.004 2893
0.004 3902
0.004 4897
0.004 5877
0.004 6840
0.004 7785
0.0048710
0.004 9615
0.005 0499
0.005 1 361
0.005 2203
0.005 3024
0.005 3825
0.005 4607
0.005 5372
0.005 6121
0.005 6854
0.005 7573
0.005 8279
0.005 8973
0.005 9655
0.006 0325
0.006 0984
0.006 1630
Diff. for
X Hour.
+45.1
44-9
44.7
+44-4
44.0
43.7
+43.3
42.8
42.3
+41.7
4X.X
40.4
+39.7
38.9
38.1
+37.3
36.4
35.5
+34-6
33.8
33.0
+32.2
31.5
30.9
+30.3
29.7
29.2
+28.7
28.2
27.7
27.2
+26.7
NoTB.— The longitudes in the column X are referred to the true equinox of their own date, while
those in the column K' are referred to the mean equinox of the beginning of the Bes-
selian fictitious year.
Mean Time of
Sidereal Noon.
m
21 20 18.93
21 16 23.02
21 12 27.11
21 8 31.20
21 435.29
21 039.38
20 56 43.47
20 52 47.56
204851.65
204455.74
20 40 59.82
2037 3.91
20 33 8.00
20 29 12.09
20 25 16.18
2021 20.27
20 17 24.36
20 13 28.45
20 932.54
20 5 36.62
20 I 40.71
195744.80
19 53 48.89
19 49 52.98
194557.06
1942 1. 15
1938 5.24
1934 9.33
19 30 13.42
19 26 17.51
19 22 21.59
19 18 25.68
Diff. for I Hour,
— 9«.8a96.
(Table 11.)
IV.
MAY, 1912.
53
GREENWICH MEAN TIMK
•s
THE
MOON'S
6
SEMIDIAMKTKK.
•
HORIZONTAL PARALLAX
UPPER TRANSIT.
AGE.
o
Noon.
Midnight.
Noon.
Diff. for
I Hour.
Midnight
Diff. for
1 Hour.
Meridian of
Greenwich.
Diff. for
X Hour.
Noon.
I
2
3
t rr
15 27-3
15 18.1
15 9-2
t tt
15 22.7
15 13.6
15 5-1
t n
56 37.3
56 3.6
55 31.0
—1.40
1-39
1.30
» »»
56 20.4
55 47-0
55 15.8
n
— 1.40
1.36
1.22
h m
12 22.1
13 II.9
14 3.6
m
2.03
2.12
2.z8
d
14.0*
15-0
16.0
4
5
6
15 1-3
14 54-7
14 50.2
14 57'^
14 52.2
14 48.8
55 1.8
54 37-8
54 21.2
—1. 12
0.85
0.52
54 49.0
54 28.5
54 160
-1.00
a69
-0.34
14 56.3
15 49-0
16 40.1
2.20
2.17
2.09
17.0
18.0
19.0
7
8
9
14 48.0
14 48.5
14 51-7
14 47.9
14 49.7
14 54-4
54 I3-I
54 14.8
54 26.8
—0.14
+0.28
0.71
54 12.7
54 19-5
54 36.6
+0.07
0.50
0.92
17 29.0
18 15.3
18 59.4
1.98
1.88
1.80
20.0
21.0
22.0
lO
II
12
14 57-8
15 6.4
15 17.2
15 1.8
15 23.2
54 48.9
55 20.6
56 0.2
+1.12
1-50
1.79
55 3-6
55 39-5
56 22.4
+1.32
1.65
1.89
19 41.8
20 23.6
21 6.0
1-75
1-75
1.80
23.0
24.0
25.0
13
14
15
15 295
15 42.6
15 55-4
15 36.0
15 49.1
16 1.3
^6 45.6
57 33.5
58 20.3
+1.96
2.00
1.86
57 94
57 57.3
58 42.0
+2.00
1-95
1-73
21 50.2
22 37.5
23 29.3
Z.90
2.06
2.27
26.0
27.0
28.0
16
17
18
16 6.7
16 15.6
16 21.5
16 II. 5
16 19.0
16 23.1
59 1.9
59 34-7
59 56.0
+1.57
1. 14
0.63
59 19.6
59 46.9
60 2.0
+1-37
0.89
+0.36
6
0 26.3
1 28.3
2.49
2.66
29.0
0.6
1.6
19
20
21
16 23.8
16 22.9
16 ig.i
16 23.7
16 21.3
16 16.3
60 4.8
60 1.3
59 47-4
+0.10
-0.38
0.76
60 4.5
59 55.5
59 37.3
—0.15
0.58
0.91
2 33-1
3 37-7
4 39-0
2.72
2.64
2.46
2.6
3.6
4.6
22
23
24
16 13.1
16 5-8
15 57-5
16 9.6
16 1.7
15 53.2
59 25.5
58 58.3
58 28.2
—1.04
1.20
1.29
59 12.4
58 43.5
58 12.6
-1. 1 3
1.25
1-31
5 35-5
6 27.2
7 15-2
2.25
2.07
1.94
S.6
6.6
7.6
25
26
27
15 48.9
15 40.3
15 31.8
15 44.6
15 36.0
15 27.6
57 56.8
57 25.1
56 53-9
-1.32
1.31
1.28
57 40-9
57 9.4
56 38.6
-1.32
1.30
1.27
8 0.8
8 45-4
9 30-3
1.87
1.86
Z.89
8.6
9.6
10.6
28
29
30
31
15 23.5
15 15-5
15 8.0
15 I.I
15 19-5
15 ix-7
15 4-4
14 58.0
56 23.5
55 54-1
55 26.5
55 1-2
-1.25
1.19
I.IZ
0.99
56 8.6
55 40-1
55 13-5
54 49-7
—1.22
1.15
1.05
0.92
10 16.6
11 5.1
IX 55-7
12 48.0
1.97
2.07
2.15
2.20
1 1.6
12.6
13-6
14.6
32
14 55-1
14 52.6
54 39.2
-0.82
54 29.9
-0.72
13 40.8
2.19
15-6
54
MAY, 1912.
V.
GREENWICH MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diflf.
Diff.
Diff.
Hour.
Right Ascension.
for
I Min.
Declination.
for
zMin.
Hour.
Right AscensioiL
for
X Min.
Declination.
for
1 Min.
WEDNESDAY i.
FRIDAY 3.
h m s
8
0 f If
•»
h m 8
s
0 » »
if
O
14 34 12.68
2.O9OZ
S.17 I 31.2
X2.768
0
16 18 12.96
2.240X
S.25 II 39-5
7-315
I
14 36 18.17
2.0931
17 14 14.6
12.677
I
16 20 27.44
3.3437
25 18 54.4
7.182
2
14 38 23.85
2.O96X
17 26 52.4
X2.585
2
16 22 42.08
3.2452
25 26 1.3
7.04S
3
14 40 29.71
a.a»a
17 39 24.7
12.491
3
16 24 56.86
2.2476
25 33 o-i
6.913
4
14 42 35-76
2.Z024
17 51 51.4
12.397
4
16 27 11.79
2.2500
25 39 50.9
6.778
5
14 44 42.00
2. 1056
18 4 12.3
X2.302
5
16 29 26.87
3.2524
2546 33.5
6.&13
6
14 46 48.42
2.1087
18 16 27.5
X2.205
6
16 31 42.09
2.3547
25 53 8.0
6.508
7
14 48 55.04
2.ZXZ8
18 28 36.9
12.107
7
16 33 57.44
2.2569
25 59 34.4
6.371
8
1451 1-85
2.ZISO
18 40 40.4
X2.009
8
16 36 12.93
2.259Z
26 5 52.5
6.233
9
14 53 8.85
2. I 183
18 52 37.9
XI. 9x0
9
16 38 28.55
2.3613
26 12 2.4
6.096
lO
14 55 16.04
a. Z2i6
19 4 29.4
XX. 809
10
16 40 44.29
3.3634
26 18 4.0
5.959
II
14 57 23.43
2.Z248
19 16 14.9
11.707
II
1643 0.15
3.3654
26 23 57.4
S.Sao
12
14 59 31.02
3.1280
19 27 54.2
11.604
12
16 45 16.13
2.3673
26 29 42.4
5.681
13
15 I 38.80
«.I3Z3
19 39 27.3
XI. 500
13
16 47 32.22
2.369Z
26 35 19. 1
5.542
14
15 346.78
a.z346
19 50 54.2
XI.396
14
16 49 48.43
a. 2709
26 40 47.4
5.40a
15
15 5 54-95
a.Z379
20 2 14.8
ZX.29I
15
16 52 4.74
3.3727
26 46 7.3
5.262
i6
15 8 3.32
2.14x3
20 13 29.1
I I. 184
16
16 54 21.15
a. 3744
26 51 18.7
S.X2I
17
15 10 11.89
2.1445
20 24 36.9
11.076
17
16 56 37.66
3.3760
26 56 21.7
4.9S0
i8
15 12 20.66
2.X478
20 35 38.2
10.967
18
16 58 54.26
2.2775
27 I 16.3
4.839
19
15 14 29.63
2.Z5XZ
20 46 33.0
10.858
19
17 I 10.95
2.2789
27 6 2.4
4.698
20
15 16 38.79
2.X544
20 57 21. 1
Z0.748
20
17 3 27.73
2.3803
27 10 40. 1
4.557
21
15 18 48.16
2.x 577
21 8 2.6
10. 636
21
17 544.59
2.2816
27 15 9.2
4.414
22
15 20 57.72
a. x6xo
21 18 37.4
10.524
22
17 8 1.52
2.3828
27 19 29.8
4.271
23
15 23 7-48
THI
2.xd43
JRSDi
S.21 29 5.5
\Y 2.
10. 41 I
23
17 10 18.52
SAT
3.2839
rURDi
S.27 23 41.8
PlY 4.
4.129
O
15 25 17-44
a.xG76
S.21 39 26.7
10. 397
0
17 12 35.59
3.3850
S.27 27 45-a
3.986
I
15 27 27.59
2.1708
21 49 41. 1
10.182
I
17 14 52.72
2.3860
27 31 40.0
3.843
2
15 29 37-94
2.174X
21 59 48.5
10.066
2
17 17 9.90
3.2868
27 35 26,3
3.700
3
15 31 48.49
2.1774
22 9 48.9
9.949
3
17 19 27.14
3.2877
2739 4.0
3.556
4
15 33 59.23
2.X806
22 19 42.3
9.831
4
17 21 44.43
a. 8885
2742 33.1
3.4»2
5
15 36 10.16
2.X838
22 29 28.7
9.713
5
17 24 1.76
2.8891
27 45 53.5
3.26S
6
15 38 21.29
2.1870
2239 7.9
9.594
6
17 26 19.12
3.3897
2749 5.3
3.124
7
15 40 32.61
2.Z903
22 48 39.9
9.474
7
17 28 36.51
2.3902
27 52 8.4
3.980
8
154244.13
2.1934
22 58 4.7
9-353
8
17 30 53.93
3.3906
27 55 2.9
8.836
9
15 44 55.83
3.X966
23 7 22.2
9.231
9
17 33 11.38
2.9909
27 57 48.7
2.692
10
1547 7.72
2.1997
23 16 32.3
9.108
10
17 35 28.84
3. 391 I
28 0 25.9
2.548
II
15 49 19.80
2.2038
23 2535.1
8.984
II
173746.31
3.39x3
28 2 54.4
8.403
12
15 51 32.06
2.2059
23 34 30.5
8.860
12
17 40 3.79
2.3914
28 5 14.3
2.258
13
15 53 44-51
2.2089
23 43 18.4
8.736
13
17 42 21.27
3.2913
28 7 25.5
2. 1 14
14
15 55 57.14
3.2x19
23 51 58.8
8.610
14
17 44 38.75
3.3912
28 9 28.0
1.970
15
15 58 9.95
2.3x49
24 0 31.6
8.483
15
17 46 56.22
3. 391 I
28 II 21.8
I.S26
i6
16 0 22.93
3.3179
24 8 56.8
8.356
16
17 49 13.67
2.2908
28 13 7.0
X.681
17
16 2 36.09
3.3208
24 17 14.3
8.228
17
17 51 31.10
2.2904
28 14 43.6
1.536
i8
16 4 49.43
a. 2337
24 25 24.2
8. too
18
17 53 48.51
S.S899
28 16 II. 5
1.39a
19
16 7 2.94
3.3266
24 33 26.3
7.971
19
17 56 5.89
3.8693
28 17 30.7
1.848
20
16 9 16.62
3.2394
24 41 20.7
7.841
20
17 58 23.24
3.3887
28 18 41.3
1.104
21
16 II 30.46
3.23az
2449 7.2
7.710
21
18 040.54
2.2880
28 19 43.2
0.960
22
16 13 44.46
2.8348
24 56 45.9
7.579
22
18 2 57.80
2.8873
28 20 36.5
0.816
23
16 15 58.63
2.2375
25 4 16.6
7.447
23
18 5 15.01
a. 2863
28 21 21. ts
0.673
24
16 18 12.96
3.a40x
S.25 II 39.5
7.315
24
18 7 32.16
8.8853
S.28 21 57.3
0.530
VL
MAY, 1912.
GREENWICH MEAN TIME.
55
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Atcwisson.
Diff.
for
z Min.
Declination.
DifiF.
for
X Min.
Hoot.
Right Ascension.
Diff.
for
z Min.
Declination.
Diff.
tor
z Min.
O
I
2
3
4
5
6
7
8
9
10
II
12
13
15
i6
17
i8
19
20
21
22
23
O
I
2
3
4
5
6
7
3
9
ID
II
12
13
H
15
16
18
19
20
21
22
23
24
h m
8 7
8 9
8 12
8 14
8 16
8 18
8 21
8 23
8 25
8 28
8 30
8 32
834
837
839
8 41
843
846
848
8 50
8 52
855
857
859
SUNDAY 5.
t t
32.16 a.a853
49.25 a.a843
6.28 2.383a
23.23 a.aSao
TUESDAY 7.
40.11
56.91
13-62
30.24
46.77
3.20
19.52
35.73
51.83
7.81
23.66
39.38
54.97
10.43
25.75
40.92
55.93
10.79
25.50
40.04
a.a8o7
2.8793
a. 3778
a.a76a
3.2746
2.2729
3.3711
2.2693
3.2673
3.36S3
3.2631
2.2609
3.3587
2.2564
2.2540
3.3515
3.3489
3.3463
3.3437
3.2410
S.28
28
28
28
28
28
28
28
28
28
28
28
28
28
28
28
28
28
28
28
28
28
27
S.27
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
I
4
6
8
10
13
15
17
19
21
24
26
28
30
32
35
37
39
41
43
46
48
50
52
54
MONDAY 6.
S.27
27
27
27
27
27
27
27
27
27
27
27
27
27
27
26
26
26
26
26
26
26
26
26
S.26
54-41
2.3383
8.61
3.3353
22.64
a. 3323
36.49
2.2293
50.16
3.3363
3.65
3.3233
16.95
3.3300
30.05
3.3168
42.96
a.ax35
55.68
3.3I03
8.19
3.3069
20.50
3.3035
32.60
3.300O
44.49
2.1964
56.17
2.1918
7.63
2.1893
18.88
3.1856
29.91
3. Z819
40.71
3. 1783
51.29
a.x745
1.65
3.1707
11.78
2.1G69
21.67
2.1630
31.33
2.1591
40.76
«.i55a
21 57.3
22 24.8
22 43.7
22 54.0
22 55.7
22 48.9
22 33.6
22 9.8
21 37.5
20 56.7
20 7.4
19 9.6
18 3.4
16 48.9
15 26.0
13 54.8
12 15.2
10 27.3
83I.I
6 26.7
4 14.0
I 53.1
59 24. 1
56 47.0
54 1.8
51 8.5
48 7-1
44 57.7
41 40.4
38 15. 1
34 41.9
31 0.8
27 II. 9
23 15.3
19 10.7
14 58.5
lo 38.6
6 II. o
135.8
56 53. I
52 2.8
47 5.0
41 59.8
3647.1
31 27.0
25 59.6
20 24.9
14 43.0
8 53-9
0.530
0.386
0.343
— 0.101
+0.043
0.18s
0.327
0.469
0.610
0.751
0.893
z.o3a
Z.X73
Z.3X3
1.45a
1.591
1.739
Z.867
3.005
3.143
3.279
3.4x6
3.55X
3.686
2.831
•955
.069
aa3
.356
.488
.619
750
.S8x
.010
.139
.368
.396
.523
.649
.775
.90X
.036
.150
.a73
>39S
.517
.638
.759
.879
O
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
o
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
i6
17
18
19
20
21
22
23
24
h m
19 54
1956
1958
20 I
3
5
7
9
20
20
20
20
20 II
20 13
20 16
20 18
20 20
20 22
20 24
20 26
20 28
20 30
20 32
2034
20 36
20 39
20 41
2043
2045
2047
20 49
20 51
20 53
20 55
2057
2059
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
8
40.76
49.95
58.90
7.62
16.10
24.34
32.33
40.08
47.59
54.85
1.86
8.63
15.15
21.42
27.45
33.23
38.76
44.04
49.07
53.86
58.40
2.69
6.74
10.54
t
3.155a
3.Z51S
a. 147a
2. Z433
3.139a
3.135a
3.131a
3.1371
3.Z3SZ
3.ZI9O
3.XX49
3.ZZ07
3.1066
2.1025
3.0984
3.0943
3.0901
3.0860
3.0819
3.0777
3.0736
3.o«95
a. 0653
3.06ZZ
S.26
26
8
2
25 56
25 50
2544
2538
2531
2524
25 18
25 II
25 4
2457
2449
24 42
2435
2427
24 20
24 12
24 4
23 56
23 48
23 40
2331
S.23 23
I
3
5
7
9
II
13
15
17
19
21
23
25
27
29
31
33
WEDNESDAY 8.
S.23 15
23 6
22 57
2249
22 40
22 31
22 22
22 12
22 3
21 54
21 44
21 35
21 25
21 15
21 5
20 56
2045
2035
20 25
20 15
20 5
19 54
1943
1933
S.19 22
14.09
3.0571
17.40
2.053X
20.46
2.0490
23.28
3.0450
25.85
3.0409
28.18
3.03G8
30.27
3.0328
32.12
3.0288
33.73
3.0S49
35.11
3.0210
36.25
3.0170
37.15
3. 01 31
37.82
3.0093
38.26
3.0053
38.47
3.00x5'
38.45
1.9977
38.20
1.9940
37.72
1.9903
37.02
X.9866
36.10
Z.9829
34.97
1.979a
33.62
1.9756
32.05
1.9721
30.27
Z.9686
28.28
X.965I
53.9
57.6
54.1
43.6
26.0
1.4
29.9
51.5
6.2
14. 1
15.2
9.5
57.2
38.2
12.6
40.5
1.8
16.7
25.2
27.3
23.1
12.6
55.8
32.9
3.8
28.6
47.3
0.0
6.8
7.7
2.7
51.8
35.2
12.8
44.7
ii.o
31.7
46.8
56.4
0.5
59.1
52.4
40.4
23.0
0.4
32.6
59.7
21.6
38.5
5.879
5.998
6.x 17
6.234
6.35«
6.468
6.583
6.698
6.8x3
6.935
7.038
7.150
7.36Z
7.37»
7.481
7-590
7.698
7.805
7.9x3
8.0x8
8.Z23
8.238
8.331
8.433
8.535
8.637
8.738
8.838
8.937
9.035
9*133
9.230
9.326
9.4a»
9.515
9.609
9.702
9-794
9.886
9.977
ZO.067
10.156
10.245
10.333
ZO.430
10.507
10.593
Z0.676
ZO.760
56
MAY, 1912.
VII.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
DifiF.
Diff.
DifiF.
Hour.
Right Ascension.
for
Declination.
for
Hour.
Right Ascension.
for
Declination.
for
I Min.
I Min.
I Min.
1 Min.
THURSDAY g.
SATURDAY 11.
h
m s
8
or f*
m
h m s
s
Of H
M
O
21
33 28.28
X.9651
S.19 22 38.5
10.760
0
23 443.16
1.859a
S. 9 22 42.0
13.965
I
21
35 26.08
1.96x7
19 IX 50.3
10.844
I
23 6 34.69
1.8585
9 8 42.6
14.014
2
21
37 23.68
1.9583
19 057.1
10.927
2
23 8 26. 18
1.8579
8 54 40.3
14.063
3
21
39 21.07
X.9S49
18 49 59.0
11.009
3
23 10 17.64
1.8574
8 40 35.1
X4.1ZI
4
21
41 18.26
1.9516
18 38 56.0
11.090
4
23 12 9.07
1.8570
8 26 27.0
14.158
5
21
43 15.25
X.9483
18 27 48.1
11. 171
5
23 14 0.47
1.6566
. 8 12 16. 1
14.805
6
21
45 12.05
1.9450
18 i6 35.4
11.251
6
23 15 51.85
1.8563
7 58 2.5
14.250
7
21
47 8.66
1.9419
18 5 18.0
IX. 330
7
23 17 43.22
1.8561
7 43 46. 1
14-295
8
21
49 5.08
1.9388
17 53 55.9
11.409
8
23 19 34.58
1.8559
7 29 27.1
14.340
9
21
51 I-3I
1.9357
17 42 29.1
IZ.486
9
23 21 25.93
1.8558
7 15 5.4
14.383
lO
21
52 57.35
1.9386
17 30 57.6
11.563
10
23 23 17.28
1.6558
7 0 41.2
14.425
ZI
21
54 53.21
X.9296
17 19 21.5
11. 640
II
23 25 8.63
1.8558
6 46 14.4
14.467
12
21
56 48.90
Z.9267
17 7 40.9
IX.715
12
23 26 59.98
1.8560
6 31 45.1
14.508
13
21
58 44.42
1.9238
16 55 55-8
11.789
13
23 28 51.35
1.8563
6 17 13.4
14-548
H
22
0 39.76
i.9ao9
16 44 6.2
11.863
14
23 30 42.73
1.8566
6 2 39.2
14.588
15
22
2 34-93
1.9181
16 32 12. 1
XI.937
15
233234.13
1.8569
548 2.7
14.627
i6
22
4 29.93
X.9154
16 20 13.6
12.010
16
23 34 25.55
1.8573
5 33 23.9
14.665
17
22
6 24.77
1.9127
16 8 10.8
12.082
17
23 36 17.01
1.8579
5 18 42.9
14.703
i8
22
8 19.45
X.9101
1556 3-8
12.153
18
23 38 8.50
1.8585
5 3 59.6
14.740
19
22
10 13.98
1.9075
15 43 52.5
12.224
19
23 40 0.03
1.8592
4 49 14-2
14.775
20
22
12 8.36
X.9050
15 31 37.0
12.294
20
23 41 51.60
Z.8600
4 34 26.6
14.809
21
22
14 2.58
1.9025
15 19 17-3
12.363
21
23 43 43.22
1.8608
4 19 37.0
14.843
22
22
15 56.66
1.9000
15 6 53.4
12.43a
22
23 45 34-89
X.8617
4 445.4
14.877
23
22
17 50.59
FB
1.8977
^IDAY
S.145425.5
10.
12.500
23
23 47 26.62
SU
Z.8627
NDA\!
S. 3 49 51.8
' 12.
14.909
O
22
19 44.38
1.8954
S.1441 53.5
12.567
0
23 49 18.41
1.8637
S. 3 34 56.3
14.940
z
22
21 38,04
X.8931
14 29 17.5
12. 633
I
23 51 10.27
1.8648
3 19 59.0
14.971
2
22
23 31.56
1.8909
14 16 37.6
12.698
2
23 53 2.20
1.8661
3 4 59.8
15.001
3
22
25 24.96
1.8888
14 3 53.8
12.763
3
23 54 54.20
X.8675
2 49 58.9
X5.030
4
22
27 18.23
1.8868
13 51 6.1
12.828
4
23 56 46.29
1.8689
2 34 56.2
15.058
5
22
29 11.38
1.8848
13 38 14.5
12.89X
5
23 58 38.46
1.870s
2 19 51.9
15.085
6
22
31 4.41
i.88a9
13 25 19. 1
12.954
6
0 0 30.73
I. 8718
2 4 46.0
15. Ill
7
22
32 57.32
Z.8810
13 12 20.0
13.017
7
0 2 23.09
1.8735
z 49 38.5
15.137
8
22
34 50.13
1.8791
12 59 17.2
13.078
8
0 4 15.55
1.8753
I 34 29.5
15.162
9
22
36 42-83
1.8774
12 46 10.7
13.138
9
0 6 8.12
1.8771
I 19 19.1
15.186
zo
22
38 35.42
1.8758
1233 0.5
13.198
10
0 8 0.80
1.8789
I 4 7.3
15.209
II
22
40 27.92
1.874a
12 19 46.8
13.258
II
0 953.59
1.8809
0 48 54. 1
X5.a3i
12
22
42 20.32
i.87«6
12 6 29.6
13.317
12
0 II 46.51
X.8890
0 33 39.6
15.251
13
22
44 12.63
1.8711
II 53 8.9
13.374
13
0 13 39.55
1.8851
0 18 23.9
15.170
H
22
46 4.85
1.8697
II 3944.7
13.431
14
0 15 32.73
1.8873
S. 0 3 7.1
15.289
15
22
47 56.99
1.8683
II 26 17.1
13.488
15
0 17 26.04
1.8896
N. 0 12 10.8
15.307
i6
22
49 49.05
1.8670
II 12 46.1
13.544
16
0 19 19.49
1.8920
0 27 29.8
15.325
17
22
51 4^.03
1.8658
zo 59 II. 8
13.599
17
0 21 13.08
1.8945
0 42 49.8
15.341
i8
22
53 32.94
X.8647
1045 34.2
13.653
18
0 23 6.83
1.8971
0 58 10.7
15.356
19
22
55 24.79
1.8636
10 31 53.3
13.707
19
0 25 0.74
1.8998
I 1332.5
15.371
20
22
57 16.57
1.86SS
10 18 9.3
13.760
20
0 26 54.81
1.9025
I 28 55. 1
15.384
21
22
59 8.30
i.86t6
10 4 22.1
13.81a
21
0 28 49.04
1.9053
I 44 18.5
15.396
22
23
0 59-97
1.8608
9 50 31-8
13.864
22
0 30 43-44
1.9083
I 59 42.6
15.407
a3
23
2 51.59
1.8600
9 36 38.4
«3-9»5
23
0 32 38.02
X.9113
2 15 7.3
15.417
«4
23
4 43-16
i.859»
S. 9 22 42.0
13.965
24
0 34 32.79
1.9143
N. 2 30 32.6
15.426
VIII.
MAY, 1912.
57
GREENWICH MEAN TIMK
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hoar.
Right Aacension.
for
z Min.
Declination.
for
I Min.
Hour.
Right Ascensioo.
for
xMin.
Declination.
for
I Min.
MO
►NDA\
' 13.
WEDNESDAY 15.
h m s
s
0 1 n
n
h m 8
s
Off*
H
0
0 34 32.79
1.9x43
N. 2 30 32.6
15.486
0
2 II 37.41
a. 1630
N.I437 59.3
X4.345
I
0 36 27.74
1.9x74
2 45 58.4
X5.433
I
2 13 47.41
2.1702
14 52 18.2
14.285
2
0 38 22.88
i.9ao7
3 I 24.6
15.440
2
2 15 57.84
3.1774
15 6 33.5
14.223
3
0 40 18.22
1.9141
3 16 51. 1
15.446
3
2 18 8.70
8.1847
15 20 45.0
14.160
4
0 42 13.77
1.9275
3 32 18.0
15-450
4
2 20 20.00
2.1921
15 34 52.7
14.095
5
044 9.52
2.93x0
3 47 45. 1
X5.454
5
2 22 31.75
a. 1995
15 48 56.4
14.028
6
046 5.49
1.9346
4 3 12.4
15.456
6
2 24 43.95
2.2070
16 2 56.0
13.959
7
0 48 1.67
1.9383
4 18 39.9
X5.457
7
2 26 56.60
8.2146
16 16 51.3
13.888
8
0 49 58.08
i.94ax
4 34 7.3
15.458
8
2 29 9.70
8.8282
16 30 42.4
13.815
9
0 51 54.71
I '9459
4 49 34.7
15.457
9
2 31 23.26
8.2399
16 44 29. 1
13.740
lO
0 53 51.58
1*9498
5 5 2.1
15.454
10
2 33 37.28
2.2376
16 58 II. 2
13.663
II
0 55 48-69
1.9538
5 20 29.3
15.450
II
2 35 51.77
8.2453
17 II 48.7
13.585
12
0 57 46.05
X.9579
5 35 56.2
15.445
12
238 6.73
8.2532
17 25 21.4
13.505
13
0 59 43.65
Z.9fe8
5 51 22.7
15.439
13
2 40 22.16
a. 2611
17 38 49.2
13.422
H
1 I 41.51
X.9665
6 6 48.8
15.43a
14
2 42 38.06
2.2690
17 52 12.0
13.337
15
I 3 39.63
1.9708
6 22 14.5
15.4«4
15
2 44 54.44
8.8770
18 5 29.7
13.251
i6
I 5 38.02
1.9753
6 37 39.6
X5.415
16
2 47 11.30
8.2850
18 18 42.2
13.163
I?
1 7 36.68
X.9799
653 4.1
X5-404
17
2 49 28.64
2.2930
18 31 49.3
13.073
i8
I 9 35.61
1.9845
7 8 28.0
15.391
18
2 51 46.47
3.301Z
18 44 51.0
13.981
19
I 11 34.82
1.9892
7 23 51.1
15.377
19
2 54 4.78
2.3093
18 57 47.0
12.886
20
I 13 34.32
1.994X
7 39 13.3
15.36a
20
2 56 23.58
2.3x75
19 10 37.3
12.790
21
I 15 34.11
1.9990
7 54 34.6
15.346
21
2 58 42.87
2.3257
19 23 21.8
12.693
22
I 17 34.20
a.0040
8 9 54«9
15.329
22
3 I 2.66
8.3339
19 36 0.3
12.591
23
I 19 34.59
TU]
8.0091
ESDA^
N. 8 25 14. 1
"i 14.
15.3x0
23
3 3 22.94
THL
8. 3481
FRSD/
N.19 48 32.8
LY 16.
12.489
0
I 21 35.29
8.0Z42
N. 8 40 3a. I
15.389
0
3 543.72
8.3504
N.20 0 59.0
12.385
I
I 23 36.30
a. 0x9s
8 55 48.8
15.867
I
3 8 5.00
2.3587
20 13 18.9
13.879
2
I 25 37.63
2.0349
9 II 4.2
15.844
2
3 10 26.77
2.3670
20 25 32.4
12.171
3
I 27 39.29
2.0303
9 26 18.2
15.220
3
3 12 49.04
2.3753
20 37 39.4
12.060
4
I 29 41.27
2.0358
9 41 30.6
15.194
4
3 15 ii«8i
2.3836
20 49 39.6
11.947
5
I 31 43.58
8.0414
9 56 41.4
15.166
5
3 17 35.09
2.3980
21 I 33.0
IX. 832
6
I 33 46.23
a.0471
10 II 50.5
15.137
6
3 19 58.87
2.4004
21 13 19.5
11.715
7
I 35 49.23
2.0529
10 26 57.9
15.107
7
3 22 23.15
2.4088
21 24 58.9
11.596
8
I 37 52.58
2.0587
10 42 3.4
15.075
8
3 24 47.93
2.4x72
21 36 31. 1
11.476
9
I 39 56.28
2.0646
10 57 6.9
X5.04X
9
3 27 13.22
2.4256
21 47 56.0
11.354
10
I 42 0.33
2.0706
II 12 8.3
15.006
10
3 29 39.00
8.4340
21 59 13.5
11.838
II
I 44 4-75
2.0767
II 27 7.6
14.970
II
3 32 529
2.4483
22 10 23.4
11.100
12
I 46 9.54
a. 0829
II 42 4.7
14.93a
12
3 34 32.08
2.4506
22 21 25.6
10.973
13
I 48 14.70
2.0891
II 56 59.5
14.898
13
3 36 59.37
8.4589
22 32 20.0
Z0.842
14
I 50 20.24
2.0954
12 11 51.8
14.851
14
3 39 27.15
2.4672
2243 6.5
10.709
15
I 52 26.16
a. 1018
12 26 41.6
14.S08
15
3 41 55.43
8.4755
22 53 45.0
10.573
16
I 54 32.47
2.1083
12 41 28.7
X4.763
i6
3 44 24.21
a. 4837
23 4 15.3
10.435
17
I 5639.17
2.1X49
12 56 13. 1
14.717
17
3 46 53.48
2.4919
23 14 37.3
X0.996
18
I 58 46.26
a. I2i6
13 10 54.7
14.669
18
3 49 23.24
2.5001
23 24 50.8
10.155
19
2 053.75
2.1284
13 25 33.4
14.619
19
3 51 53.49
3.5082
23 34 55.8
lo.oia
20
2 3 1.65
2.1358
1340 9.1
14.568
20
3 54 24.22
2.5162
2344 52.2
9.866
21
a 5 9.97
2. 1420
13 54 41.6
14.515
21
3 56 55.44
2.5242
23 54 39.8
9.718
22
2 7 18.70
2.1489
14 9 10.9
14.460
22
3 59 27.14
2.5322
24 4 18.5
9.569
23
2 9 27.84
2.1559
14 23 36.8
14.403
23
4 I 59.31
2.5402
24 13 48.1
9.418
24
2 II 37.41
a. 1630
N.I437 59.3
14.345
24
4 4 31.96
3.5481
N.24 23 8.6
9.265
58
MAY, 1912.
IX.
GREENWICH MEAN TIMR
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DifiF.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
xMin.
Declination.
for
zMin.
Hour.
Right Ascension.
for
xMin.
Declination.
for
X Mixi.
FRIDAY
' 17.
SUNDAY Z9.
h m s
8
Of n
rt
h m s
8
e * M
n
O
4 431-96
8.5481
N.24 23 8.6
9.265
0
6 13 38.33
2.7683
N.28 20 2.8
4-0. 149
I
4 7 5-07
a. 5558
24 32 19.8
9.ZXO
Z
6 16 24.43
t.7683
28 20 5.5
—0.061
2
4 938.65
«.5635
24 41 21.7
8.952
2
6 19 10.52
3.7681
28 19 55.6
0.271
3
4 12 12.69
a. 57"
24 50 14. 1
8.793
3
6 21 56.60
3.7677
28 19 33.1
O.48X
4
4 1447.19
2.5787
24 58 56.9
8.63X
4
6 24 42.64
2.7668
28 18 58.0
0.690
5
4 17 22.13
3.5861
25 7 29.9
8.469
5
6 27 28.63
a.7659
28 18 10.3
0.899
6
4 19 57.52
«.593S
25 15 53.1
8.305
6
6 30 14.57
2.7650
28 17 lO.O
X.ZO8
7
4 22 33.35
2.6008
25 24 6.4
8. 138
7
633 0.44
2.7637
28 15 57.2
1.3X7
8
4 25 9.61
2.6079
25 32 9.7
7.969
8
6 35 46.22
3.763a
28 14 32.0
X.526
9
4 27 46.30
3.6x50
25 40 2.8
7.799
9
6 38 31.90
2.7605
28 Z2 54.3
1.734
lO
4 30 23.41
3. 6320
25 47 45.6
7.627
zo
6 41 17.47
a.7586
28 II 4.1
I.94I
II
4 33 0.94
2.6288
25 55 18.0
7.453
II
6 44 2.92
2.7565
28 9 1.4
3.X48
12
4 35 38.87
3.6356
26 2 40.0
7.278
12
6 46 48.24
2.754a
28 6 46.3
a. 355
13
4 38 17.20
2.6422
26 9 51.4
7.X01
13
6 49 33.41
2.7516
28 4 18.9
2.560
14
4 40 55.93
2.6487
26 16 52.1
6.933
14
6 52 18.43
2.7488
28 I 39.1
a.765
^5
4 43 35.05
2. 6551
26 23 42.0
6.74a
15
6 55 3.28
a.7459
27 58 47.0
a. 970
i6
446 14.54
2.66x3
26 30 21. 1
6.560
16
6 57 47.94
2.7438
27 55 42.7
3.174
^7
4 48 54.40
3.6674
26 36 49.2
6.376
17
7 0 32.41
3.7395
27 52 26.2
3.377
i8
4 51 34.62
3.6733
26 43 6.3
6.19X
18
7 3 16.67
2.7360
274857.5
3-579
19
4 54 15.19
2.679Z
26 49 12.3
6.005
19
7 6 0.72
3.73a3
27 45 16.8
3.780
^o
4 56 56.11
3.6848
26 55 7.0
5.8x8
20
7 844.54
8.7284
27 4Z 24.0
3.980
21
4 59 37.36
a.6903
27 0 50.3
5.629
21
7 II 28.12
a.7a43
27 37 19.2
4.179
22
5 2 18.93
3.6956
27 6 22.3
5.438
22
7 14 1Z.46
2.720X
2733 2.5
4.377
«3
5 5 o«82
SAT
a.;uu7
URDA
N.27 zi 42.8
.Y 18.
5.846
23
7 16 54.54
MO
a. 7157
NDA\
N.27 28 33.9
^ 20.
4.574
o
5 743.02
a.7057
N.27 16 51.8
5.053
0
7 19 37.34
a.7xxx
N.27 23 53.6
4.770
I
5 1025.51
3.7x06
27 2Z 49. 1
4.858
Z
7 22 Z9.87
2.7064
27 19 1.5
4.965
2
5 13 8.29
3.7x53
27 26 34.7
4.663
2
7 25 2.Z0
3.7015
27 13 57.8
5.«59
3
5 15 51.34
3.7x98
2731 8.5
4.465
3
7 27 44.04
3.6964
27 842.5
5.35X
4
5 18 34.65
2.7241
27 35 30.5
4.267
4
7 30 25.66
3.69x3
27 3 15.7
5.54«
5
5 21 18.22
2.7283
27 39 40.6
4.068
5
7 33 6.97
8.6858
26 57 37.4
5.732
6
5 24 2.03
a.73ax
27 43 38.7
3.868
6
7 35 47.96
3.6803
26 51 47.8
5.930
7
5 26 46.07
3.7358
27 47 24.7
3.667
7
7 38 28.6Z
2.6747
26 45 47.0
6.107
8
5 29 30.33
a. 7393
27 50 58.7
3.465
8
7 41 8.91
2.6689
26 39 35.0
6.293
9
5 32 14.79
3.7427
27 54 20.5
3.363
9
7 43 48.87
2.6630
26 33 II. 8
6.477
lO
5 34 59.45*
a.7459
27 57 30. 1
3.058
10
7 46 28.46
3.6569
26 26 37.7
6.659
II
53744.29
2.7488
28 0 27.5
t.854
IZ
7 49 7.69
a.6507
26 19 52.7
6.841
12
5 40 29.31
3.75x6
28 3 12.6
3.649
12
7 51 46.55
3.6444
26 12 56.8
7.021
13
5 43 14.49
3.754a
28 545.3
a.443
13
7 54 25.02
2.6380
26 5 50.2
7.X98
14
5 45 59.81
a. 7565
28 8 5.7
a. 336
14
7 57 3. II
2,6315
25 58 33.0
7.374
15
5 48 45.27
3.7586
28 10 13.7
8.039
15
7 59 40.80
a. 6849
25 51 5.3
7.549
z6
5 51 30.85
a. 7605
28 12 9.2
1.82a
16
8 2 18.09
3.6183
25 43 27. 1
7.7a2
17
5 54 16. 53
3.763a
28 13 52.3
X.6X4
17
8 454.98
a«6xx3
25 35 38.6
7.894
i8
5 57 2.32
3.7637
28 15 22.9
1.405
18
8 731.45
a. 6043
25 27 39.8
8.064
19
5 59 48. 19
2.7650
28 16 41. 0
X.X96
19
8 10 7.50
a. 5973
25 19 30.9
8.83a
20
6 234.13
3.766X
28 17 46.5
0.987
20
8 12 43.13
a. 5903
25 II 12.0
8.398
21
6 520.13
3.7670
28 18 39.4
0.778
2Z
8 15 18.33
3.5830
25 243.2
8.568
22
6 8 6.17
3.7676
28 19 19.8
0.569
22
8 17 53. 10
a. 5758
24 54 4.5
8.7«5
^S
6 10 52.24
2.7680
28 19 47.6
0.359
23
8 20 27.43
a. 5685
2445 z6.z
8.886
24
6 13 38.33
3.7683
N.28 20 2.8
O.X49
24
8 23 1.32
a.56ix
,N.24 36 z8.z
9.Q45
X.
MAY, 1912.
59
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right ABcenaioiL
Diff.
for
xMin.
DecliAAtion.
Diff.
for
xMin.
Hour.
Right Ascension.
Diff.
for
xMin.
Declination.
Diff.
for
I Mixi.
TU]
ESDA
V 21.
THURSDAY 23.
h m t
s
Of m
w
h m a
s
1., • ' "
r»
O
8 23' 1.32
2.56XX
N.24 36 18. I
9.045
0
10 17 7.77
2.2022
N.14 54 37-6
14.468
I
8 25 34.76
2.5537
24 27 10.6
9.203
I
10 19 19.71
a.x958
1440 7.5
14.536
2
8 28 7.76
3.5462
24 17 53.7
9.359
2
10 21 31.26
2.1894
14 25 33.3
14.603
3
8 30 40.31
a. 5386
24 8 27.6
9.51a
3
10 23 42.44
a. 1833
14 10 55.1
X4.668
4
8 33 12.40
a. 5310
23 58 52.3
9.664
4
10 25 53.24
3.1771
13 56 13. 1
14.731
5
8 35 44- 03
a. 5334
2349 7-9
9.814
5
10 28 3.68
2.1709
13 41 27.4
14.79a
6
8 38 15.20
a.5157
23 39 14.6
9.968
6
10 30 13.75
3.Z648
13 26 38.1
14.852
7
8 40 45.91
2.9080
23 29 12.4
10.Z08
7
10 32 23.46
2.1589
13 II 45.2
14.911
8
8 43 16.15
a. 5003
23 19 1.5
XO.252
8
10 34 32.82
2.1531
12 56 48.8
14.968
9
8 45 45-93
8.4925
23 842.1
10.395
9
10 36 41.83
2.1473
12 41 49.1
15.023
lO
8 48 15.24
2.4847
22 58 14.2
XO.536
10
10 38 50.50
2. 1416
12 26 46.1
X5.O76
II
8 50 44.09
2.4768
22 47 37.9
XO.674
II
10 40 58.83
2. 1361
12 II 40.0
15.X38
12 !
8 53 12.46
2.4689
22 36 53.3
X0.8X0
12
10 43 6.83
2. 1306
11 56 30.8
15.178
13 1
8 55 40.36
2.4611
22 26 0.6
10.945
13
1045 14.50
2.X25X
11 41 18.6
15.226
14 :
858 7.79
a. 4533
22 14 59.9
XZ.078
14
10 47 21.84
2.II9B
11 26 3.6
i5.a73
15 t
9 034.75
«.4454
22 3 51.3
iz.ao9
15
10 49 28.87
2. XX46
11 10 45.8
15.319
i6 1
9 3 1.24
a.4375
21 52 34.9
11.338
16
10 51 35.59
2.XO94
10 55 25.3
15-364
17 1
9 527.25
2.4297
21 41 10.8
X1.465
17
10 53 42.00
a.xo43
10 40 2.2
15.406
i8 1
9 7 52.79
2.4218
21 29 39.1
1X.990
18
10 55 48. 10
2.0993
10 24 36.6
15.447
19
9 10 17.86
2.4139
21 18 0.0
11.7*3
19
10 57 53.91
2.0944
10 9 8.6
15.487
20
9 12 42.46
2.4061
21 6 13.6
XX. 834
20
10 59 59.43
2.0896
9 53 38.2
X5.5a5
21
9 15 6.59
2.3983
20 54 20.0
11.953
21
II 2 4.66
2.0849
938 5.6
15.563
22
9 17 30.25
2.3904
20 42 19.2
X3.07X
22
II 4 9.61
2.o6q3
9 22 30.8
15.597
23
9 19 53.44
WED]
2.3826
NESD
N.20 30 11.4
AY 22.
12. X87
23
II 6 14.28
FF
2.0757
IDAY
N. 9 6 54.0
24.
15.631
O
9 22 x6.i6
S.3749
N.20 17 56.8
X3.900
0
II 8 18.69
2.0712
N. 8 51 15.2
15.663
I
9 24 38.4Z
2.3671
20 5 35.5
I3.4ZI
I
11 10 22.83
2.0668
8 35 34.5
15.693
2
9 27 0.21
2.359*
1953 7.5
xa.S2x
2
II 12 26.71
2.0625
8 19 52.0
15.723
3
9 29 21.54
a. 3517
19 40 33.0
12.639
3
II 14 30.34
3.0584
8 4 7.8
15.751
4
9 31 42.41
2.3440
19 27 52.0
13. 734
4
II 16 33.72
2.0544
7 48 21.9
15.777
5
9 34 2.82
2.3364
19 15 4.8
12.838
5
II 18 36.86
2.0504
73234.5
15.803
6
9 36 22.78
2.3289
19 2 11.4
12.941
6
11 20 39.76
2.0465
7 16 45.6
15.837
7
9 38 42.29
2.3214
18 49 II. 9
13.042
7
II 22 42.43
2.0427
7 055.4
15.849
8
941 1.35
2.3139
18 36 6.4
13.140
8
II 24 44.88
2.0390
645 3.8
X5.870
9
9 43 19.96
a. 3065
18 22 55.1
13.236
9
11 26 47.11
2.0354
6 29 10.9
15-890
lO
94538.13
a. 2991
18 9 38.0
13.331
10
II 28 49.12
2.03x8
6 13 16.9
15.909
II
9 47 55.85
3.29x8
17 56 15.3
13.424
II
II 30 50.92
2.0283
5 57 21.9
X5.926
12
9 50 13.14
2.2846
17 42 47.1
13.515
12
II 32 52.52
2.0250
5 41 25.9
15-941
13
9 52 29.99
a. 2774
17 29 13.5
13.604
13
" 34 5392
3.02x8
5 25 29.0
15.955
14
9 54 46.42
a. 2702
17 15 34.6
13.693
14
" 3655.13
3.0x86
5 9 31.2
15.969
15
9 57 2.41
2.2631
17 I 50.5
13.778
15
11 38 56.15
2.0x55
4 53 32.7
15.981
i6
9 59 17.98
2.2561
16 48 1.3
Z3.861
16
II 40 56.99
2.0x25
4 37 33.5
15.991
17
10 133.13
a.a49x
1634 7.2
13.943
17
II 42 57.66
2.0096
4 21 33.7
X6.00X
i8
10 347.87
3.3433
16 20 8.2
14.024
18
11 44 58.15
a. 0068
4 5 33.4
16.009
19
10 6 2.19
a.3354
16 6 4.4
14.X02
19
II 46 58.48
2.0Q41
3 49 32.7
16.015
20
10 8 16.11
3.3386
15 51 55.9
14.178
20
II 48 58.65
3.00x5
3 33 31.6
X6.02I
21
10 10 29.62
a. 33x9
15 37 42.9
14.253
21
11 50 58.66
1.9990
3 17 30.2
X6.026
22
10 12 42.73
3.3153
15 23 25.5
14.387
22
" 52 58.53
1.9966
3 I 28.6
x6.029
23
10 14 55.44
3.3087
15 9 3.7
14.399
23
II 54 58.25
1.994a
2 45 36.8
X6.030
24
10 17 7.77
a. 3032
N.I4 5437.6
14.468
24
II 5657.84
•1.9919
N. 2 29 25.0
X6.030
60
MAY, 1912.
XI.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diflf.
Diff.
DiflL
Diff.
Hour.
Right Ascension.
for
X Min.
Declination.
for
X Min.
Hour.
Right Asceiuion.
for
X Min.
Declination.
for
X Min.
SATURDAY 25.
MONDAY 27.
h m s
s
0 1 n
M
h m 8
s
Of •/
»»
O
II 56 57.84
1.9919
N. 2 29 25.0
16.030
0
13 31 37.57
X.9832
S. 9 58 26.8
14.701
I
II 58 57.29
1.9898
2 13 23.2
16.039
I
13 33 36.61
1.9849
10 13 7.2
14.646
2
12 0 56.62
1.9878
I 57 21.5
16.027
2
13 35 35.76
1.9867
10 27 44.3
14. 590
3
12 2 55.82
1.9858
I 41 19.9
16.0Z4
3
13 37 35.02
1.9885
10 42 18.0
14.533
4
12 4 54.91
1.9839
I 25 18.5
16.020
4
13 39 34.38
1.9904
10 56 48.2
14.475
5
12 6 53.89
i.98ai
I 9 17.4
16.0x5
5
13 41 33.86
1.9933
II II 15.0
14.416
6
12 8 52.76
X.9804
0 53 16.7
16.008
6
13 43 33-46
X.9943
II 25 38.2
14.356
7
12 10 51.53
Z.9788
037 16.5
16.000
7
1345 33.18
1.9964
II 39 57.8
14.395
8
12 12 50.21
x.977a
0 21 16.8
15.991
8
13 47 33.02
1.9985
II 54 13-7
14.333
9
12 14 48.80
1.9757
N. 0 5 17.7
15.981
9
13 49 32.99
2.0007
12 8 25.8
X4.170
lO
12 16 47.30
1.9744
S. 0 10 40.8
15.970
10
13 51 33.10
2.0029
12 22 34.1
14.X06
II
12 1845.73
1.973a
0 26 38.6
15.957
II
13 53 33.34
a. 0052
12 36 38.5
14.041
Z2
12 20 44.08
x.97ao
0 42 35.6
15.943
12
13 55 33.72
2.0076
12 50 39.0
13.974
13
12 22 42.36
Z.9709
0 58 31.7
15.928
13
13 57 34.24
2.0100
13 435.4
13.906
H
12 24 40.58
Z.9699
I 14 26.9
15.9x1
14
13 59 34.91
2.0x24
13 18 27.8
X3.838
15
12 26 38.74
1.9689
I 30 21.0
X5.894
15
14 I 35-73
2.0x49
13 32 16.0
13.770
i6
12 28 36.85
X.96B0
I 46 14. 1
15.876
16
14 336.70
2.0175
13 46 0.1
13.700
I?
12 30 34-91
1.9673
2 2 6.1
15.856
17
14 5 37-82
2.O20X
13 59 39.9
13.627
i8
12 32 32.93
1.9667
2 17 56.9
15.835
18
14 739.11
2.0227
14 13 15.3
13.554
19
12 34 30.91
X.966X
2 33 46.4
15.813
19
14 940.55
2.0254
14 26 46.4
13.481
20
12 36 28.86
1.9656
249 34.5
15.790
20
14 II 42.16
2.0282
14 40 13.0
13.406
21
12 38 26.78
1.965a
3 521.2
15.766
21
14 13 43.94
2.0310
1453 35.1
13.330
22
12 40 24.67
X.9648
3 21 6.5
15.741
22
14 15 45.89
2.0339
15 6 52.7
13.354
23
12 42 22.55
SU
1.96*5
NDA\
S. 3 36 50.2
' 26.
15.7x5
23
14 17 48.01
TU]
S.Q368
ESDA
S.1520 5.6
Y 28.
13.177
O
12 44 20.42
1.9643
S. 3 52 32.3
15.688
0
14 19 50.30 ,
2.9307
S.1533 13.8
13.098
z
12 46 18.28
1.964a
4 8 12.7
15.659
I
14 21 52.77
2.0427
15 46 17.2
13.017
2
12 48 16.13
1.964a
4 23 51.3
15.629
2
14 23 55.42
2.0457
15 59 15.8
12.936
3
12 50 13.99
1.9643
4 39 28. 1
15.598
3
14 25 58.25
2.0488
16 12 9.6
12.855
4
12 52 11.85
1.9645
4 55 3.1
15.566
4
14 28 1.27
2.05x9
16 24 58.4
12.77a
5
12 54 9.72
X.9647
5 10 36.1
15.533
5
1430 4.48
2.0550
16 37 42.1
xa.687
6
12 56 7.62
1.9650
5 26 7. 1
13.499
6
1432 7-88
2.0582
16 50 20.8
X2.602
7
12 58 5-53
1.9654
541 36.1
15.464
7
14 34 11.47
a.0614
17 2 54.4
12.516
8
13 0 3.47
1.9659
5 57 2.9
15.488
8
14 36 15.25
2.0647
17 15 22.7
12.429
9
13 2 1.43
1.9664
6 12 27.5
15.391
9
14 38 19.23
2.o68o
17 27 45.8
xa.341
lO
13 3 59.43
1.9670
6 27 49.8
15.35a
10
14 40 23.40
2.07x3
1740 3.6
xa.2Si
II
13 5 57-47
1.9677
643 9.7
15.31a
II
14 42 27.78
2.0747
17 52 16.0
X2. x6i
12
13 7 55.56
1.9684
6 58 27.3
X5.a7a
12
14 44 32.36
a. 0780
18 4 23.0
12.070
13
13 9 53.69
1.9693
7 13 42.4
i5.a3x
13
144637.14
2.08x4
18 16 24.5
XX. 978
14
13 II 51.87
X.9703
7 28 54.9
15.188
14
144842.13
a.0849
18 28 20.4
XX. 885
15
13 13 50.12
1.9713
7 44 4.8
15.144
15
14 50 47.32
a. 0883
18 40 10.7
X1.791
i6
13 15 48.42
i.97a3
7 59 12. 1
15.099
16
14 52 52.72
2.0917
18 51 55.3
X1.696
17
13 17 46.79
X.9734
8 14 16.7
15.053
17
14 54 58.32
a. 0952
19 3 34-1
11.599
i8
13 19 45.23
1.9746
8 29 18.5
X5.006
18
1457 4.14
2.0987
19 15 7.1
11.902
19
13 21 43.74
1.9759
8 44 17.4
14.958
19
14 59 10.17
2. 1022
19 26 34.3
11.404
20
13 23 42.33
X.9773
8 59 13.4
14.909
20
15 I 16.41
2. XO58
19 37 55.6
11.304
21
13 25 41.01
1.9787
9 14 6.4
14.858
21
15 3 22.86
2.1093
19 49 10.9
ix.ao4
22
13 27 39.77
X.980Z
9 28 56.3
14.806
22
15 529.52
2.xia8
20 0 20.2
11.X03
23
13 29 38.62
X.9816
9 43 43. 1
14.754
23
15 7 36.40
3.1x64
20 II 23.3
IX.OOX
24
13 31 37.57
t.gSsa
S. 9 58 26.8
14.701
24
15 943.50
2.1200
S.20 22 20.3
10.898
XII.
MAY, 1912.
61
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
DiiE.
Diff.
Diff.
Hour.
Right Ascension.
for
I Min.
Declination.
for
X Min.
Hoar.
Right AacenaioiL
for
xMin.
Declinatioii.
for
zMin.
WED
NESD
AY 29.
FRIDAY
31.
h m s
8
1 0 r *»
N
h m s
8
e r m
m
O
15 94350
2.X900
S. 20 22 20.3
XO.898
0
16 55 22.26
2.2684
S. 26 50 8.0
4.979
I
15 II 50.81
3. 1236
20 33 II.O
10.794
I
16 57 38.42
2.2703
26 55 2.1
4.833
2
15 13 58.33
2.1273
2043 55.5
XO.689
2
16 59 54.70
2.2722
26 59 47.9
4.693
3
15 16 6.07
2. 1308
20 54 33.7
10. 583
3
17 2 11.09
2.2739
27 425.3
4.553
4
15 18 14.03
2.1344
21 5 5.5
10.477
4
17 427.57
2.2755
27 8 54.2
4.41a
5
15 20 22.20
a. 1380
21 15 30.9
10.369
5
17 644.15
3.2773
27 13 14.7
4.272
6
15 22 30.59
2.14x6
21 25 49.8
10.960
6
17 9 0.83
2.2787
27 17 26.8
4.X3X
7
15 2439.19
2.1452
21 36 2.1
XO.I5O
7
17 II 17.59
2.2800
27 21 30.4
3.988
8
15 26 48.01
2.1488
21 46 7.8
XO.O39
8
17 13 34.43
3.3813
27 25 25.4
3.847
9
15 28 57.05
2.1524
21 56 6.8
9.928
9
17 15 51.35
3.3826
27 29 12.0
3.706
lO
15 31 6.30
2.1559
22 559.1
9.8X6
10
17 18 8.34
2.2838
27 32 50. 1
3.563
II
15 33 15.76
a. 1595
22 15 44.7
9.703
II
17 20 25.40
2.2848
27 36 19.6
3.420
12
15 35 25.44
2. 1631
22 25 23.4
9.588
12
17 22 42.52
3.2858
27 39 40.5
3.278
13
15 37 35.33
2.1667
22 34 55.3
9.473
13
17 24 59.69
3.2867
27 42 52.9
3.135
14
15 39 45.44
2.1703
22 44 20.2
9.357
14
17 27 16.92
2.2876
27 45 56.7
a.991
15
^541 55.76
2.1738
22 53 38.1
9.240
15
17 29 34.20
3.2883
27 48 51.8
2.848
16
15 44 6.29
2.177a
23 2 49.0
9.X23
16
1731 51.51
2.2888
27 51 38.4
3.705
17
15 46 17.02
2.1807
23 II 52.8
9.004
17
17 34 8.86
2.2894
27 54 16.4
3.56X
18
15 48 27.97
2.1842
232049.5
8.885
18
17 36 26.24
2.2898
27 5645.7
3.4x7
19
15 5039.12
2.1876
23 29 39.0
8.765
19
17 38 43.64
3.2902
27 59 6.4
3.273
20
15 52 50.48
a. 1910
23 38 21.3
8.643
20
17 41 1.06
2.2904
28 I 18.5
3.x 30
21
15 55 2.04
a. 1943
23 46 56.2
8.522
21
17 43 18.49
2.2906
28 3 22.0
1.986
22
15 57 13.80
a. 1977
23 55 23.9
8.400
22
17 45 35.93
2.2907
28 5 16.8
1.842
23
15 59 25.77
a.ioxi
S. 24 344.2
8.276
23
17 47 53.37
2.2907
S. 28 7 3.0
X.698
THU
rRSD^
lY 30.
SATUR
DAY,
JUNE I.
0
16 I 37-93
2.2043
S. 24 II 57.0
8.x 52
0
17 50 io.8i
2.3906
S. 28 840.5
1.554
I
16 3 50.29
16 6 2.84
2.2076
2.2x08
24 20 2.4
24 28 0.2
8.027
7.901
2
3
16 8 15.59
2.2x40
24 35 50.5
7.775
4
16 10 28.52
16 12 41.64
2.2171
24 43 33.2
7.648
PHASES i
OF Tl
HIE MOON.
5
2.2202
24 51 8.3
7.5*0
6
16 14 54.94
2.2232
24 58 35.6
7.391
7
8
16 17 8.42
16 ig 22.08
2.2262
M QJIJtJ*
25 5 55-2
25 13 7.0
7.262
2.2292
7.132
9
16 21 35.92
2.2321
25 20 II.O
7.002
d 1
1 xn
10
II
16 23 49-93
16 26 4. 1 1
2.2349
2.2377
25 27 7.2
25 33 55.4
6.870
6.738
c
Last Quarte
jr .
May 8 2
I 56.1
12
16 28 18.46
2.2405
25 40 35-7
6.605
•
New Moon
. •
. . . 16 i(
3 13.6
13
16 30 32.97
2.3432
25 47 8.0
6.472
:d
First Quarts
at*
. . . 23 \
2 II. 3
14
16 32 47.64
2.2458
25 53 32.3
6.338
0
Full Moon
. •
. . . 30 I
I 29.6
15
16
16 35 2.46
16 37 17.44
2.2483
25 59 48.6
26 5 56.8
6.204
3.2509
6.069
^^
17
163932.57
2.2533
26 II 56.9
5.934
d h
18
19
16 41 47.83
16 44 3.24
3.2557
2.2580
26 17 48.9
26 23 32.7
5.798
5.662
c
Apogee .
. .
. . May '
7 8.0
o/\
16 46 18.79
2.2602
26 29 8.3
5.524
c
Perigee .
. ... II
3 4.6
zo
21
\ 16 48 34.47
16 50 50.28
2.2G24
2.2645
26 34 35.6
26 39 54.7
5.387
5.249
22
23
16 53 6.21
2.2665
2645 5.5
5.XIX
24
16 55 22.26
2.2684
S. 26 50 8.0
4.97a
62
JUNE, 1912.
AT GREENWICH APPARENT NOON.
Day oft
the Week.
Day of the
Month.
THE SUN'S
Sidereal
Time of
Semidi-
ameter
Passing
Me-
ridian.
Equation of
Time, to be
Subtracted
from
Diff.
for
Apparent Right
Ascension.
Diff. for
I Hour.
Apparent Decli-
nation.
Diff. for
I Hour.
Semidiam-
eter.
Added to
Apparent
Time,
z Hour.
h m 8
8
e » '»
ft
t §»
s
m 8
s
Sat.
I
4 35 58.34
10.226
N.22 252.4
+20.50
15 47.95
68.37
2 25.28
0.369
SUN.
2
440 3.97
10.243 «
22 1052.7
19.54
15 47.81
68.43
2 16.24
0.385
Mon.
3
4 44 9-99
10.259
22 18 29.8
18.57
15 47-67
68.49
2 6.80
0.401
Tues.
4
4 48 16.40
10.274
22 25 43.7
+17.59
15 47.54
68.54
I 56.97
0.417
Wed.
S
45223.18
10.289
2232 34.1
i6.6i
15 47.41
68.59
I 46.77
0.432
Thur.
6
4 56 30-30
10.303
22 39 0.9
15.62
15 47.28
68.64
I 36.23
0.446
Frid.
7
5 037.76
10.317
2245 4.0
+14.63
1547.16
68.68
I 25.36
0.459
Sat.
8
5 4 45-54
10.330
22 50 43.2
13.63
15 47.04
68.72
I 14.18
0.472
SUN.
9
5 853.61
10.342
22 55 58.3
12.63
15 46.92
68.75
I 2.70
0.484
Mon.
lO
513 1-95
10.353
23 049.3
+H.62
15 46.81
68.78
0 50.96
0.495
Tues.
II
5 17 10.55
10.363
23 5 16.0
10.61
15 46.71
68.81
0 38.96
0.505
Wed.
12
5 21 19.37
10.372
23 9 18.4
9.59
15 46.62
68.84
0 26.73
0.514
Thur.
13
5 25 28.39
10.380
23 12 56.3
+ 8.57
15 46.53
68.86
014.30
0.521
Frid.
15
5 29 37-59
5 33 46.93
10.386
ia39i
23 16 9.6
23 18 58.2
7.54
6.51
15 46.44
15 46.36
68.88
68.90
0 1.69
0.528
Sat.
0 11.06
0.533
SUN.
i6
5 37 56.39
10.395
23 21 22.1
+ 5.48
15 46.28
68.91
0 23.93
0.537
Mon.
17
542 5-94
X0.399
23 23 21.2
4-45
15 46.20
68.92
0 36.90
0.540
Tues.
i8
5 46 15.56
10.401
23 24 55-5
3.41
1546.13
68.93
049.92
0.542
Wed.
19
55025.21
10.402
23 26 5.0
+ 2.38
15 46.08
68.93
I 2.97
0.543
Thur.
20
5 54 34.87
10.401
23 26 49.7
1.34
15 46.03
68.94
I 16.03
0.544
Frid.
21
55844-51
10.400
2327 9.5
+ 0.31
15 45.98
68.94
I 29.08
0.543
Sat.
22
6 254.10
10.398
2327 4.5
- a72
1545.94
68.93
I 42.08
0.540
SUN.
23
6 7 3.63
10.394
23 26 34.7
1.76
15 45.90
68.93
I 55.02
0.536
Mon.
24
611 13.07
10.390
23 2540.1
2.79
15 45.86
68.92
2 7.87
0.532
Tues.
35
6 15 22.40
10.385
23 24 20.7
- 3-82
15 45.82
68.91
2 20.60
a528
Wed.
26
6 19 31.60
10.380
23 22 36.7
4.85
15 45.79
68.89
2 33.20
0.523
Thur.
27
6 23 40.65
10.373
23 20 28.0
5.87
15 45.76
68.87
2 45.65
0.516
Frid.
28
6 27 49.53
10.366
23 17 54.8
- 6.89
1545.73
68.85
2 57-94
0.508
Sat.
29
6 31 58.22
10.358
231457.2
7.91
1545-71
68.82
3 10.05
0.500
SUN.
30
6 36 6.70
10.349
23 II 35.1
8.92
15 45-69
68.79
3 21.95
0.491
Mon.
31
6 40 14.96
10.340
N.23 748.6
- 9-93
1545-68
68.76
3 33.61
0.481
NoTB. — ^The mean time of semidiameter passing may be found by subtracting os.19 from the sidereal time.
The sign + prefixed to the hourly change of declination indicates that north declinations are increasing;
the sign — indicates that north declinations are decreasing.
n.
JUNE, 1912.
63
AT GREENWICH MEAN NOON.
Dav of
the Week.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
5*38
Q
I
2
3
4
5
6
7
8
lO
II
12
13
14
15
i6
17
i8
20
21
22
23
24
25
26
27
28
29
30
31
THE SUN'S
Apparent RiRht
Ascension.
h ID 8
4 35 58.74
440 4-35
4 44 10.35
4 48 16.74
4 52 23.49
4 56 30.58
5 o 38.01
5 445.76
5 853.80
513 2.10
5 17 10.65
5 21 19.43
5 25 28.42
5 29 37.59
5 33 46.90
5 37 56.33
542 5.84
5 46 15-42
5 50 25.03
5 54 34.65
5 58 44.25
6 253.81
6 7 3.30
611 12.70
6 15 22.00
6 19 31.17
6 23 40.18
6 27 49.02
6 31 57.68
636 6.13
6 40 14.36 10.338
DiflLfor
X Hoar.
8
0.225
0.242
0.258
0.273
0.288
0.302
0.316
0.328
0.340
0.351
0.361
0.371
0.379
0.385
0.390
0.394
0.398
0.400
0.401
0.401
0.399
0.397
0.393
0.389
0.384
0.379
0.372
0.365
0.356
0.347
1
Apparent Decllna-
tioiL.
N.22 2 53.2
22 1053.4
22 18 30.5
22 25 44.3
22 32 34.6
22 39 1.3
2245 4.3
22 50 43.5
22 55 58.6
23 049.5
23 5 16.2
23 9 18.5
23 1256.3
23 16 9.6
23 18 58.2
23 21 22.1
23 23 21.2
232455.5
23 26 5.0
23 26 49.7
2327 9.5
2327 4-5
23 26 34.7
23 2540.1
23 24 20.8
23 22 36.9
23 20 28.3
23 17 55.2
23 14 57.6
23 II 35.6
N.23 749.2
DiflLfor
X Hour.
+20.49
19.53
18.56
+17.59
16.61
15.62
+14.63
13.64
12.63
+11.62
10.61
9.59
+ 8.57
7.54
6.51
+ 5.48
4.45
3.41
+ 2.38
1.34
+ 0.31
- 0.72
1.76
2.79
- 3.82
4.85
5.87
- 6.89
7.91
8.92
- 9.93
Sanation of
Time, to be
Added to
Subtracted
from
Mean Time.
m 8
2 25.28
2 16.23
2 6.78
I 56.95
I 46.76
I 36.22
I 25.35
I 14.17
I 2.69
o 50.94
o 38.95
o 26.73
o 14.30
o 1.69
O II
.06
o 23.93
o 36.89
0 49.91
1 2.96
I 16.02
I 29.07
I 42.07
I 5500
2 7.84
2 20.58
2 33.19
2 45.64
2 57.92
3 10.02
3 21.92
3 33.58
Diflf.for
xHour.
8
0.369
0.385
0.401
0.417
0.432
0.446
0.459
0.472
0.484
0.495
0.505
0.513
0.521
0.528
0.533
0.537
0.541
0.543
0.544
0.544
0.543
0.540
0.537
0.533
0.528
0.522
0.515
0.508
0.500
0.491
0.481
NoT&i—The semidiameter for mean noon may be assumed the same as that for apparent noon.
The 8if;n + prefixed to the hourly change of declination indicates that north declina-
tions are increasing; the sign — indicates that north declinations are decreasing.
Sidereal Time,
or Right Ascen^
8ion of Mean
Son.
h m 8
4 38 24.02
4 42 20. 5&
44617.13
45013.69
4 54 10.25
458 6.8i
5 2 3.37
5 559.9s
5 956.4S
5 13 5304
51749.60
5 21 46.16
5 25 42.72
5 29 39.28
5 33 35.84
5 37 32.39
5 41 28.95
5 45 25.51
5 49 22.07
5 53 18.63
55715.19
6 I 11.75
6 5 8.30
6 9 4.86
6 13 1.42
6 16 57.98
6 20 54.54
6 24 51.10
6 28 47.66
6 32 44.22
6 36 40.77
Diff. for x Hoar»
+9'.8565.
(Table III.)
64
JUNE, 1912.
III.
AT GREENWICH MEAN NOON.
I
2
3
4
S
6
7
8
lO
II
12
13
H
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
31
o
Q
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
183
THE SUN'S
Tme Longitude.
70 36 3.0
71 33 29.7
72 30 55'^
73 28 20.7
742545-1
7523 8.8
76 20 31.9
77 17 54-4
78 15 16.4
79 12 37.9
80 9 58.9
81 719.5
82 4 39-5
83 I 59.0
83 59 18.0
84 56 36.4
85 53 54-1
86 51 II. I
87 48 27.4
88 45 43.0
K'
35 48.4
33 14-9
30 40.6
28 5.5
25 297
22 53.2
20 16.1
17 38.4
15 0.3
12 21.6
942.4
7
2.8
4 22.6
I 41.9
59 0,7
56 18.9
53 36.4
50 53-3
48 9-4
45 24.8
"y ^'* J/*'-'
^^ O^-'t-
90 40 12.0
91 37 25.5
92 34 38.3
39 53-3
37 6.6
34 19-3
9331 50.6
94 29 2.4
95 26 13.9
31 31-4
28 43.0
25 54-3
962325.1
97 20 36.0
98 1746.8
23 5-3
20 16.1
17 26.7
99 14 57'^
14 37.2
Diff. for
I Hour.
143-63
143-59
143-56
143.53
143-50
143-47
143-45
143-43
143-41
143-39
143-37
143-34
143-32
143-30
143-28
Latitude.
-0.79
0.83
0.84
—0.82
0.78
0.71
— 0.62
0.51
0.39
— 0.26
—0.13
0.00
+0.1 1
0.19
0.25
Logarithm of the
Radius Vector of
the Earth.
143-25
+0.28
143.22
0.28
143-19
0.25
143-16
+0.18
143.13
4-0.09
143.10
—0.02
143.07
— 0.14
X43-05
0.27
143-02
0-39
143.00
—0.50
142.98
0.60
142.97
0.69
142.96
— 0.76
142.95
0.80
M2.95
0.80
142.95
-0-79
0.006 1630
0.006 2264
0.006 2884
0.006 3490
0.0064081
0.006 4657
0.006 5216
0.006 5757
0.006 6279
0.006 6780
0.006 7260
0.006 7717
0.006 8149
0.006 8556
0.006 8936
0.006 9290
0.006 9618
0.0069921
0.007 0199
0.007 0453
0.007 0686
0.007 0898
0.007 1090
0.007 1264
0.007 1422
0.007 1564
0.007 1690
0.007 1800
0.007 1895
0.007 1975
0.007 2040
Diff. for
X Hour.
+26.7
26.2
25.6
+25.0
24.3
23.6
+22.9
22.1
21.3
+20.4
19.5
18.5
+17.5
16.4
15.3
+14.2
13.I
12. 1
+11. 1
10.2
9-3
+ 8.5
7-7
6.9
+ 6.2
5-5
4-9
+ 4.3
3-7
3-1
•»• 2.4
Mean Time of
Sidereal Noon.
NoTS. — The longitudes in the column A are referred to the true equinox of their own date, while
those in the column \' are referred to the mean equinox of the beginning of the Bes-
selian fictitious year.
m
s
9 18 25.68
9 14 29.77
9 10 33.86
9 637.94
9 242.03
8 58 46.12
85450.21
85054-30
8 46 58.38
843 2.47
839 6.56
8 35 10.64
8 31 14-73
8 27 18.82
8 23 22.91
8 19 26.99
8 15 31.08
81135-17
8 739.26
8 3 43-34
7 59 47-43
75551-52
7 51 55-60
7 47 59.69
7 44 3-78
740 7.87
73611.95
7 32 16.04
7 28 20.13
7 24 24.22
17 2028.30
Diff. for I Hour,
— g«.8ag6.
(Table II.)
IV.
JUNE, 1912.
65
GREENWICH MEAN TIME.
s
THE MOON'S
a
1
SBMIDIAMBTBR.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGE.
1
Noon.
Midnight
Noon.
Diff. for
z Hour.
Midnight.
Diff. for
I Hour.
Meridian of
Greenwich.
Diff. for
X Hour.
Noon.
I
2
3
1 m
14 55-1
14 50-4
14 47.2
t n
14 52.6
14 48.6
14 46.4
54 39.2
54 21.9
54 IO-4
-0.82
o.6z
0.33
» It
54 29.9
54 15.3
54 7.3
-0.72
0.48
-0.18
h m
13 40-8
14 32.8
15 22.6
m
2.19
2.13
2.02
d
15.6
16.6
17.6
4
5
6
14 46.1
14 47.2
14 50.9
14 46.4
14 48.7
14 53-7
54 6.2
54 IO-3
54 23.7
-O.OI
+0.36
0.76
54 7.1
54 15.8
54 34-0
+0.17
0.56
0.96
i6 9.8
16 54-3
17 36.7
1.9Z
Z.80
1-73
18.6
19.6
20.6
7
8
9
14 57.2
15 6.1
15 17.6
15 1-3
15 11.6
15 24.1
54 46.8
55 19-7
56 1.6
+I.I7
1-57
1.9^
55 2.1
55 39-6
56 25.5
+ 1.37
1-75
2.05
18 17.9
18 59.0
19 41-3
Z.7Z
1-73
z.8z
21.6
22.6
23.6
lO
IX
12
15 3I-0
15 45.6
16 0.5
15 38.2
15 S3-I
16 7.6
56 50.9
57 44-6
58 39-2
•f2.l6
2.28
2.22
57 17.4
58 I2.I
59 5-3
+2.24
2.28
2.ZI
20 26.2
21 15.2
22 9.4
Z.95
2.Z4
2.38
24.6
25.6
26.6
13
H
15
16 14.3
16 25.6
16 33.3
16 20.3
16 30.0
16 35-5
59 29.8
60 1 1.4
60 39.6
+1.95
1.48
0.84
59 52.0
60 27.4
60 47.6
+1.73
1. 18
+0.49
23 9.6
6
0 14.6
2.62
• •
2.77
27.6
28.6
0.2
i6
17
18
16 36.5
16 35-1
16 29.5
1 6 36.4
16 32.8
16 25.4
60 51.4
60 46.2
60 25.5
+0.13
-0.55
1.13
60 50.9
60 37.6
60 10.5
—0.22
0.86
1.36
1 21.5
2 26.6
3 27.0
2.75
2.63
2.40
1.2
2.2
3.2
19
20
21
16 20.6
16 9.6
IS 57-7
16 15.3
16 3.7
IS 51-6
59 53.0
59 12.7
58 28.7
-1-54
1.78
1.85
59 33-6
58 50-9
58 6.4
-1.68
1.83
1.85
4 22.0
5 12.3
5 59-2
2.19
2.02
Z.9Z
4.2
5.2
6.2
22
23
24
15 45.6
13 34-1
15 23.6
15 39-7
IS 28.7
15 18.8
57 44-4
57 2.3
56 23.8
-i.8i
1.68
1.51
57 23.0
56 42.5
56 6.2
-1.75
Z.60
1.42
6 44.3
7 29.0
8 14.5
Z.86
Z.87
1.93
7.2
8.2
9.2
25
26
27
15 14-3
15 6.2
H 59-4
15 10.1
15 2.6
14 56.4
55 49.7
55 20.0
54 54-9
-1-33
1. 14
o,g6
55 34-3
55 6.9
54 43.9
-1.24
a 87
9 1.8
9 51.2
10 42.5
2.0Z
2.Z0
2.17
I0.2
II.2
12.2
28
29
30
31
14 53-7
14 49.3
14 46.2
14 44-5
H 51-3
14 47.6
H 45-2
14 44-3
54 34-1
54 17.9
54 6-5
54 0-3
-0.77
0.58
0.37
—0.14
54 25.4
54 "-6
54 2.7
53 59.4
-0.68
0.48
—0.26
0.00
11 35.0
12 27.2
13 17.7
14 5.8
2.Z9
2.Z5
2.o6
1-95
13-2
14.2
15-2
16.2
32
H 44-5
14 45.2
54 0-2
+0.14
54 2.7
+0.28
14 51.1
Z.83
17.2
I9I2-
66
JUNE, 1912.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
Declination.
for
Hour.
Right Ascension.
for
Declination.
for
xMin.
iMin.
•
xMtn.
X Min.
SATURDAY i.
MONDAY 3.
h m s
s
e # n
»»
h m 8
s
0 t ft
f*
O
17 50 10.81
9.9906
S.28 840.5
X.554
0
19 38 18.85
2. 1849
S.26 41 36.0
5.oao
I
17 52 28.24
a.a904
28 10 9.4
1.4x0
I
19 40 29.83
2.1810
26 36 31.1
5.144
2
17 54 45-66
S.990X
28 II 29.6
X.266
2
194240.57
2.1771
26 31 18.8
5.267
3
17 57 3.05
a. 2897
28 12 41.2
I.X22
3
19 44 51.07
a.x732
26 25 59.1
5.389
4
17 59 20.42
a. 2892
28 13 44.2
0.978
4
1947 1.34
2.1692
26 20 32. 1
5-5"
5
18 I 37.76
2.2887
28 14 38.6
0.834
5
1949 11.37
a. 1652
26 14 57.8
5.632
6
18 3 55.05
a.a88o
28 15 24.3
0.690
6
19 51 21.16
2.16XX
26 9 16.3
5.75a
7
18 6 12.31
a.aS/a
28 16 1.4
0.547
7
19 53 30.70
2.1570
26 3 27.6
5. 871
8
18 8 29.52
a. 2864
28 16 29.9
0.404
8
19 55 39-99
2.1539
25 57 31.8
5.989
9
18 10 46.67
2.2855
28 16 49.8
0.260
9
19 57 49.04
2.1487
25 51 28.9
6.107
lO
18 13 3.77
a. 2844
28 17 I.I
—0.117
10
19 59 57.83
2.1445
25 45 19.0
6.224
II
18 15 20.80
a. 283a
28 17 3.9
+0.026
II
20 2 6.37
2.1403
25 39 2.0
6.340
12
18 17 37.75
2.2890
28 16 58.1
O.X69
12
20 4 14.66
3.1360
25 32 38.1
6.456
13
18 19 54.63
a. 2807
28 16 43.7
0.3x1
13
20 6 22.69
2.X317
25 26 7.3
6.57»
H
18 22 11.43
2.2793
28 16 20.8
0.453
14
20 8 30.46
3.X274
25 19 29.6
6.685
15
iS 24 28. 14
a. 2778
28 15 49.4
0.595
15
20 10 37.98
2. 1231
25 12 45.0
6-798
i6
18 26 44.76
3.27^
28 15 9.5
0.736
16
20 12 45.24
3.XX88
25 5 53.7
6.9x0
17
18 29 1.29
a. 2745
28 14 21. 1
0.877
17
20 14 52.24
2. "44
24 58 55.7
7.022
i8
18 31 17.71
2.2727
28 13 24.3
x.oz8
18
20 16 58.98
3.ZXOX
24 51 51.0
7.X33
19
1 8 33 34.02
2.2709
28 12 19.0
x.xsS
19
20 19 5.45
3.X05S
24 44 39.7
7-243
20
18 35 50.22
2.2690
28 II 5.3
X.298
20
20 21 11.66
3.10x4
24 37 21.9
7.352
21
18 38 6.29
2.2670
28 9 43.2
X.438
21
20 23 17.61
3.0970
2429 57.5
7.460
22
18 40 22.25
2.2649
28 8 12.7
X.577
22
20 25 23.30
3.0926
24 22 26.6
7.568
23
18 42 38.08
SL
2.2637
rNDAl
S.28 6 33.9
{ 2.
1. 716
23
20 27 28.72
TU
2.088a
ESDA
S.24 14 49.3
Y4.
7.675
o
18 44 53.77
a. 2604
S.28 446.8
1.855
0
20 29 33.88
a.0838
S.24 7 5.7
7.78X
I
1847 9.32
a. 2580
28 2 51.4
1.993
I
20 31 38.77
2.0794
23 59 15.7
7.886
2
18 49 24.73
2.2556
28 0 47.7
2.X31
2
20 33 43.40
2.0749
23 51 19.4
7-990
3
18 51 40.00
2.2531
27 58 35.7
a. 368
3
20 35 47.76
2.0704
23 43 16.8
8.094
4
18 53 55.11
2.2505
27 56 15.5
2.405
4
20 37 51.86
3 0660
2335 8.1
8.197
5
18 56 10.07
2.2479
27 53 47. 1
2.542
5
20 39 55.69
3.06x6
23 26 53.3
8.298
6
18 58 24.86
2.2452
27 51 10.5
2.677
6
20 41 59.25
2.0572
23 18 32.4
8.399
7
19 039.49
2.2424
27 48 25.8
2.8X2
7
2044 2.55
2.0528
23 10 5.4
8.500
8
19 2 53-94
2.2395
274533.1
2.947
8
2046 5.59
a. 0484
23 I 32.5
8.599
9
19 5 8.22
a. 2365
27 42 32.3
3.081
9
20 48 8.37
2.0440
22 52 53.6
8.697
lO
19 7 22.33
2.2335
27 39 23.4
3.215
10
20 50 10.88
2.0397
22 44 8.9
8.795
II
19 936.25
2.2304
27 36 6.5
3.348
II
20 52 13.13
2.0354
22 35 18.3
8.892
12
19 II 49.98
a. 2273
273241.7
3.480
12
20 54 15.12
3.03x0
22 26 21.9
8.988
13
19 14 3.52
2.2242
27 29 8.9
3.61a
13
20 56 16.85
3.0266
22 17 19.8
9-083
H
19 16 16.87
9.2209
27 25 28.2
3.743
14
20 58 18.32
a. 0223
22 8 12.0
9.177
15
19 i8 30.02
2.2175
2721 39.7
3.874
15
21 0 19.53
2.0180
21 58 58.5
9.271
i6
19 20 42.97
2.2x41
27 17 43.4
4.004
16
21 2 20.48
3.0X37
21 49 39.4
9.364
17
19 22 55.71
2.2106
27 13 39.3
4.133
17
21 4 21.18
2.0095
21 40 14.8
9.456
i8
19 25 8.24
2. 2071
27 9 27.4
4.362
18
21 6 21.62
3.0053
21 30 44.7
9.547
J9
19 27 20.56
2.2036
27 5 7.8
4.390
19
21 8 21.81
2.00x1
21 21 9.1
9.637
20
19 29 32.66
2.X999
27 0 40.6
4.517
20
21 10 21.75
1.9969
21 II 28.1
9.727
21
19 31 44.54
2.196a
26 56 5.8
4.643
21
21 12 21.43
1.9927
21 1 41.8
9.816
22
19 33 56.20
2.1925
26 51 23.4
4.769
22
21 14 20.87
X.9886
20 51 50.2
9.904
23
19 36 7.64
2.1887
26 46 33-4
4.895
23
21 16 20.06
1.9845
20 41 53.3
9.991
24
19 38 18.85
a. 1849
S.26 41 36.0
5.020
24
21 18 19.01
1.9804
S.20 31 51.2
XO.077
VI.
JUNE, 1912.
67
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DifiF.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
Dsclination.
for
Hour.
Right Ascension.
for
Declination.
for
zMin.
zMin.
1 Min.
iMin.
WEE
►NESE
)AY 5.
FRIDAY 7.
h
m 8
s
e 1 w
H
h m 8
8
or M
n
O
2Z
i8 19.01
1.9804
S.20 31 51.2
10,077
0
22 49 30.04
1.8395
S.II 3 7-5
13.340
Z
2Z
20 17.71
1.9764
20 21 44.0
10.163
I
22 51 20.36
1.8380
10 49 45.6
13.391
2
21
22 16.17
X.9724
20 XI 31.7
10.248
2
22 53 ZO.60
1.8366
10 36 20.6
13.441
3
21
24 14.39
1.9684
'20 I 14.3
10.332
3
22 55 0.76
1.8353
10 22 52.7
13.490
4
21
26 12.38
I.9fi44
19 50 51-9
10.415
4
22 56 50.84
1.8340
10 9 21.8
13.538
5
21
28 10.13
x.9fiQ5
194024.5
10.497
5
22 58 40.84
1.8328
95548.1
13.586
6
21
30 7.64
1.9567
19 29 52.2
10.579
6
2 J 0 30.77
1.83x7
9 42 II. 5
13.633
7
21
32 4-93
1.95*9
19 19 I5.I
10.660
7
23 2 20.63
1.8306
9 28 32.1
13.680
8
21
34 1-99
Z.9491
19 833.1
10,740
8
23 4 10.43
1.8296
9 14 49-9
13.726
9
21
35 58.82
1.9453
18 57 46.3
10.819
9
23 6 0.18
1.8287
9 I 5.0
13.771
lO
21
37 55-43
1.9416
18 46 54.8
10.897
10
23 7 49-88
1.8278
8 47 17.4
13.816
II
21
39 51-81
1.9380
18 35 58.6
10.975
II
23 9 39-53
X.8271
83327.1
13.859
12
21
41 47.98
1.9343
18 24 57.7
XI.O53
12
23 II 29.13
1.8264
8 19 34.3
13.90a
13
21
43 43.93
1.9307
18 13 52.2
11.130
13
23 13 Z8.69
1.8257
8 538.9
13.945
14
21
45 39-67
1.9278
18 2 42.2
It. 905
14
23 15 8.22
z,825a
7 51 41.0
13.987
15
21
47 35-19
1.9837
17 51 27.7
11.279
15
23 16 57.73
X.8248
7 37 40.6
14.038
i6
21
49 30.51
1.9203
1740 8.7
11.353
16
23 z8 47.20
1.8244
7 23 37-7
14.068
17
21
51 25-62
1.9169
17 28 45.3
11.426
17
23 20 36.65
1.8241
7 932.4
14.108
i8
21
53 20.53
I. 9135
17 17 17.6
11.498
18
23 22 26.09
1.8239
6 55 24.8
14.147
19
21
55 15.24
1.9102
17 5 45-5
11,570
19
23 24 15-52
1.8237
6 4Z 14.8
14.185
20
21
57 9.76
1.9070
1654 9.1
11.642
20
23 26 4.94
1.8336
6 27 2.6
14.823
21
21
59 4-o8
1.9038
16 42 28.5
11.712
21
23 27 54-36
1.8236
6 12 48.1
14.260
22
22
0 58.21
1.9006
16 30 43.7
11.781
22
23 29 43-77
1.8337
5 58 31.4
14.296
23
22
2 52.16
1.8975
S.16 18 54.7
11.850
23
23 31 33-20
1.8339
S. 5 44 Z2.5
14.331
THl
JRSDj
\Y 6.
SAT
*urd;
^Y 8.
O
22
4 45-92
1.8945
S.16 7 1.7
SI.9I8
0
33 33 22.64
Z.8341
s. 52951.5
14.366
I
22
6 39.50
1.8915
15 55 4.6
11.985
I
23 35 12. zo
1.8243
5 15 28.5
14.401
2
22
8 32.90
1.8885
1543 3-5
12.051
2
2337 1-58
1.8248
5 I 3.5
14.434
3
22
10 26.13
1.8856
15 30 58.4
12.117
3
23 38 5Z.08
1,8353
44636.5
14.467
4
22
12 19.18
1.8838
15 18 49.4
12. 183
4
23 40 40.61
1.8259
432 7.5
14.499
5
22
14 12.07
1.8801
15 636.5
12.248
5
23 42 30.18
1.836s
4 17 36.6
14.530
6
22
16 4.80
1.8774
14 54 19.8
13.312
6
23 44 19-79
1.8273
4 3 3.9
14.561
7
22
17 57-36
1.8747
14 41 59.2
13.375
7
2346 9-45
1.8380
3 48 29.4
I4.59X
8
22
19 49.77
1.8729
14 29 34.8
12.437
8
234759-16
Z.8389
3 33 53. 1
14.620
9
22
21 42.03
1.8697
14 17 6.7
12.499
9
23 49 48.93
1.8399
3 19 15-0
14.648
lO
22
23 34.14
1.8672
14 435.0
12.560
10
23 51 38.76
1.8310
3 4 35-3
14.675
II
22
25 26.10
1.8648
13 51 59.6
12.620
II
23 53 28.65
1.8323
2 49 54.0
14.703
12
22
27 17.92
1.8625
13 39 20.6
12.679
12
23 55 i8.6i
1.8334
3 35 II. I
14.728
13
22
29 9.60
1.8602
13 26 38.1
12.738
13
23 57 8.65
1.8346
2 20 26.7
14.753
14
22
31 I-I5
1.8580
13 13 52.0
12.797
14
23 58 58.77
1.8360
2 5 40.8
14.778
15
22
32 52.56
1.8559
13 I 2.5
13.854
15
0 0 48.97
1.8375
. I 50 53.4
14.803
i6
22
34 43.85
1.8538
1248 9.5
12.910
16
0 2 39.26
1.8390
I 36 4.6
14.825
17
22
36 3501
1.85x8
12 35 13.2
12.966
17
0 4 29.65
1.8407
Z 2Z Z4.4
14.847
i8
22
38 26.05
1.8498
12 22 13.5
13.022
x8
0 6 20. 14
1.8425
z 6 22.9
14.868
19
22
40 16.98
1.8479
12 9 10.5
13.077
19
0 8 10.74
1.8443
0 51 30.2
14.888
20
22
42 7.80
1.8461
II 56 4.3
13.131
20
0 10 Z.45
1.84G3
0 36 36.3
14.908
21
22
43 58.51
1.8443
iz 42 54.8
13.184
21
0 zi 52.28
1.8483
0 21 41.2
14.987
22
22
4549.12
X.8426
II 29 42.1
13.337
22
0 13 43.23
1.8502
S. 0 6 45.0
14*945
23
22
47 39.63
X.8410
II 16 26.3
13.289
23
0 15 34.31
1.8523
N. 0 8 12.3
14.963
24
22
49 30.04
1.8395
S.ii 3 7-5
13.340
24
0 17 25.52
1.8546
N. 0 23 Z0.6
14.980
68
JUNE, 1912.
vn.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DifiF.
DifiF.
DifiF.
DifiT.
Hour.
Right Ascension.
for
xMin.
Declination.
for
xMin.
Honr.
Right Ascension.
for
xMin.
Declination.
for
xMin.
SUNDAY 9.
TUESDAY II.
h m s
8
Q r tf
ti
h m s
s
0 * »
f*
O
o 17 25.52
X.8S46
N. 0 23 10.6
X4.980
0
I 50 47.26
2.071s
N.I2 22 43.0
14.566
I
0 19 16.87
1.8570
0 38 9.8
14.995
I
I 52 51.74
2.0781
12 37 15.8
14.526
2
0 21 8.36
1.8594
0 53 lO.O
15.010
2
I 54 56.63.
2.0850
12 51 46.2
14.4*5
3
0 23 0.00
x.86z9
I 8 II. 0
15.024
3
I 57 1.94
2.09x9
13 6 14. 1
14.443
4
0 24 51.79
T.8646
I 23 12.8
15.037
4
I 59 7.67
2.0990
13 20 39.3
14.399
5
0 26 43.75
X.8673
I 38 15.4
X5.050
5
2 I 13.82
a.xo62
1335 1.8
14.353
6
0 28 35.87
X.8700
I 53 18^7
XS.C61
6
2 3 20.40
2.X134
13 49 21.6
14.306
7
0 30 28.15
1.8729
2 8 22.7
15.071
7
2 5 27.42
2.xao7
14 338.5
14.257
8
0 32 20.61
1.8759
2 23 27.2
X5.08X
8
2 734.89
a.x28x
14 17 52.4
X4.ao6
9
0 34 13.26
X.8790
3 38 32.3
15.090
9
2 9 42.80
2.X356
1432 3.3
14.154
10
0 36 6.XO
Z.88S2
2 53 37.9
15.097
xo
2 II 51.16
2.1432
14 46 X0.9
X4.X00
II
03759.13
1.8854
3 843.9
15.103
II
2 13 59.98
a. 1508
15 0 15.2
14.044
12
0 39 52.35
X.8887
3 23 50.3
15.109
12
2 16 9.26
2.1585
15 14 16.2
13.987
13
0 41 45.77
X.89S3
3 38 57.0
15.114
13
2 18 19.01
2.X663
15 28 13.7
X3.928
M
0 43 39.41
X.8957
3 54 3.9
15.117
14
2 20 29.22
a.x74a
1542 7.5
13.8^
15
0 45 33.26
1.8993
4 9 XI.O
15. 120
15
2 22 39.91
8.x8a2
15 55 57.6
13.804
i6
0 47 27.33
Z.9030
4 24 18.3
X5.X22
16
2 24 51.08
2.x9oa
16 943.9
13.739
17
0 49 21.62
X.9068
4 39 25.6
X5.X22
17
2 27 2.74
2.1983
16 23 26.3
13.673
i8
0 51 16.14
X.9108
4 54 330
X5.X22
18
2 29 14.89
a. 2065
1637 4.7
13.605
19
0 53 10.90
1.9x48
5 940.3
X5.iax
19
2 31 27.53
a. 3148
16 50 38.9
13.535
20
055 5.91
X.9188
5 24 47.5
15.119
20
2 33 40.67
2.223a
17 4 8.8
13.4^
21
057 1.16
x.9«30
5 39 54-5
XS.XX6
21
2 35 54.31
2.23x6
17 17 34.4
13.389
22
0 58 56.66
X.9873
5 55 13
X5.XXX
22
238 8.45
a. 2400
17 30 55.5
13.314
23
1 052.43
1.93x6
N. 6 10 7.8
15.105
23
2 40 23.10
1.2485
N.X7 44 X2.0
13.236
MO
>NDA\
' 10. 1
WED]
^lESD,
AY 12.
O
I 2 48.46
1.936X
N. 6 25 14.0
15.098
0
2 42 38.27
2.2571
N.17 57 23.8
13.156
I
I 444.76
1.9407
6 40 19.7
15.090
I
2 44 53.95
a.a657
18 10 30.7
13.075
2
I 6 41.33
Z.94S3
6 55 24.8
X5.08X
2
2 47 10.16
2.2744
18 23 32.7
12.991
3
I 838.19
X.9500
7 10 29.4
15.071
3
2 49 26.89
2.2832
x8 36 29.7
12.905
4
1 10 35.34
1-9549
7 25 33.4
15.060
4
25144.15
2.2930
18 49 21.4
X2.818
5
I 12 32.78
X.9598
7 40 36.6
15.048
5
2 54 1.93
2.3009
19 2 7.8
12.729
6
I 14 30.51
1.9648
7 5539.1
15.035
6
2 56 20.25
2.3098
19 14 48.8
12.637
7
I 16 28.54
X.9G99
8 10 40.8
15.020
7
2 58 39.11
2.3188
19 27 24.2
12.543
8
I x8 26.89
X.975X
82541.5
15.004
8
3 0 58.51
2.3279
19 39 54.0
12.448
9
I 20 25.56
1.9805
8 40 41.2
14.987
9
3 3 18.45
2.3369
19 52 18.0
12.350
lO
I 22 24.55
X.9859
8 55 39.8
14.968
10
3 538.93
2.3459
20 4 36. 1
12.250
II
I 24 23.86
1.9914
9 10 37.3
14.948
II
3 7 59.96
2.3550
20 16 48. 1
12.149
12
I 26 23.51
1.9970
92533.5
14.927
12
3 10 21.54
a. 3642
20 28 53.9
ia.045
13
I 28 23.49
2.0026
9 40 28.4
14.904
13
3 12 43.67
2.3734
2040 53.5
IX. 939
14
I 30 23.82
S.OO84
9 55 21.9
14.880
14
3 15 6.35
a. 3826
20 52 46.6
IX. 831
15
I 32 24.50
a. 0143
10 10 14.0
14.855
15
3 17 29.58
2.3918
21 433.1
11.720
i6
I 34 25.53
a. 0202
1025 4.5
14.828
x6
3 19 53.37
a.4011
21 16 13.0
XI. 607
17
I 36 26.93
2.0263
10 39 53.4
X4.800
17
3 22 17.71
a.4104
21 27 46.0
11.492
i8
I 38 28.69
t.0325
10 54 40.6
14.771
18
3 24 42.61
2.4196
21 39 12.0
n.375
19
X 40 30.82
2.0587
II 9 26.0
14.741
19
3 27 8.07
2.4289
21 50 31.0
11.256
20
I 42 33.33
a. 0450
11 24 9.5
14.709
20
3 29 34.08
2.4382
22 I 42.7
XI. 135
21
I 44 36.22
2.05x4
II 38 51.0
14.675
21
3 32 0.65
2.4475
22 12 47.2
xx.oxa
22
I 46 39.50
2.0579
II 5330.5
X4.640
22
3 34 27.78
2.4568
22 23 44.2
10.886
23
I 48 43.18
2.0646
12 8 7.9
14.604
23
3 36 55.46
2.4660
22 34 33.5
10.758
«4
I 50 47.26
2.0713
N.12 22 43.0
14.566
24
3 39 23.70
2.4753
'N.22 45 15.1
Z0.62B
vni.
JUNE, 1912.
GREENWICH MEAN TIME.
69
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right AMenaioa.
for
xMia.
DocUaation.
for
xMixL
Hour.
Right AsconBion.
for
xMip.
D«clixiation.
for
xMin.
THl
JRSDi
VY 13.
SATURDAY 15.
h m ■
s
Of m
w
h m 8
8
or w
w
o
3 39 23.70
t.4753
N.22 45 15. X
X0.688
0
5 47 34-27
a.8154
N.28 5 58.7
a.CH5
I
3 41 52.50
a.4846
22 55 48.9
10.496
I
5 50 23.29
8.8184
28 7 54.9
x.830
2
3 44 31.85
8.4938
23 6 14.6
ZO.368
2
5 53 12.47
8. Sax I
28 9 38.2
1.613
3
3 46 51-75
a. 5030
23 16 32.2
10.883
3
5 56 1-81
8.8836
28 iz 8.5
1.396
4
3 49 22.21
3«sxaa
23 26 41.5
10.086
4
5 58 51.30
8.8858
28 12 25.7
1.179
5
3 51 53.22
a. 33x4
23 36 42.4
9.94s
5
6 I 40.91
8.8378
28 13 29.9
0.96X
6
3 54 24. 7»
8.3305
23 46 34.8
9.8OX
6
6 4 30.63
8.8996
28 14 21.0
0.748
7
3 56 56.88
1.3396
23 56 18.5
9.635
7
6 7 20.45
a.83xx
28 14 59.0
o.5a4
8
3 59 29.52
a. 5487
24 5 53.5
9.308
8
6 10 10.36
8.8334
28 15 23.9
0.303
9
4 2 2.71
a. 5576
24 15 19.5
9.338
9
6 13 0.34
8.8334
28 15 35.6
+0.086
10
4 436.43
a. 5665
24 24 36.4
9.ao6
10
6 15 50.37
8.8348
28 15 34.1
-«.134
II
4 7 10.69
a. 3734
24 33 44.2
9.P5a
II
6 18 40.44
3.8348
28 15 19.5
0.354
12
4 945.48
a. 584a
24 42 42.6
8.895
12
6 21 30.54
a. 8351
28 14 51.7
0.374
13
4 12 20.79
a.S9«9
24 51 31.6
8.737
13
6 24 20.65
8.833a
28 14 10.7
0.794
14
4 14 56.63
a. 60x3
25 0 II. 0
8.377
14
6 27 10.76
3.8350
28 13 16.4
X.0X4
15
4 17 32.98
8.6x01
25 8 40.8
8.4x4
15
6 30 0.85
a. 8346
28 12 9.0
1.834
i6
4 20 9.85
a. 6x86
25 17 0.7
8.849
16
6 32 50.91
3.8340
28 10 48.4
1.453
17
4 22 47.22
a. 6370
25 25 10.7
8.06a
17
6 35 40.92
3.8330
28 9 14.6
X.673
i8
4 25 25.09
a. 6353
25 33 10.6
7.913
18
6 38 30.87
3.83x8
28 7 27.7
1.891
19
4 28 3.46
a. 6433
2541 0.3
7.74a
19
6 41 20.75
a. 8304
28 5 27.7
8.109
20
4 30 42.32
8.63x6
25 48 39.7
7.569
20
644 10.53
8.8388
28 3 14.6
a.3a7
21
4 33 21.66
8.6397
25 56 8.6
7.394
21
6 47 0.20
3.8370
28 0 48.4
a. 545
22
4 36 1.48
a. 6675
26 3 27.0
7.8x7
22
6 49 49.76
8.8849
27 58 9. 1
8.763
a3
4 38 41.76
FF
8.673a
UDAY
N.26 10 34.8
14.
7.039
23
6 52 39. 18
SU
3.8383
NDAY
N.27 55 16.8
' x6.
a.980
o
4 41 22. 5x
8.6889
N.26 17 31.7
6.859
0
6 55 28.46
8.8x99
N.27 52 II. 6
3.196
I
4 44 3.71
8.6904
26 24 17.7
6.676
Z
6 58 17.58
3.8x73
27 48 53.4
3.4"
a
44645.36
a. 6978
26 30 52.7
6.49X
2
7 I 6.53
3.8x43
27 45 22.3
3.635
3
4 49 27.44
a. 7030
26 37 16.6
6.305
3
7 3 55.29
8.8109
27 41 38.4
3.839
4
4 52 9.95
a.7iaz
26 43 29.3
6.x 17
4
7 643.84
8.8<>75
27 37 41.7
4.05a
5
4 54 52.88
8.7x90
26 49 30.6
5.927
5
7 932.18
8.8Q39
27 33 32.2
4. •63
6
4 57 36.22
a. 7857
26 55 20.5
5.736
6
7 12 20.29
3.8000
27 29 10. 1
4.473
7
5 0 19.96
a. 73*3
27 0 58.9
5.543
7
7 15 8.17
a. 7959
27 24 35.4
4.683
8
5 3 4.IO
a.7388
27 6 25.6
5.348
8
7 17 55.79
a.79«6
27 19 48.1
4.893
9
5 5 48.62
8.7450
27 II 40.6
5.151
9
72043.15
8.7871
27 14 48.3
5.099
10
5 833.50
a. 7510
27 16 43.7
4.9S3
10
7 23 30.23
8.7834
27 9 36.2
5.305
II
5 II 18.74
a. 7369
27 21 34.9
4.754
II
7 26 17.03
a. 7775
27 4 11.8
5.510
12
5 14 4.33
a.7«a7
27 26 14. 1
4.553
12
729 3.53
a. 7734
26 58 35. 1
5.7"3
13
5 16 50.26
a. 7683
27 30 41.2
4.350
13
731 49.72
8.7671
26 52 46.2
5.915
14
5 19 36.51
a. 7736
27 34 56. 1
4.X46
14
7 34 35.58
8.76x6
26 46 45.3
6.116
15
5 22 23.08
a.7787
27 38 58.7
3.94Z
15
7 37 21. II
a.7560
26 40 32.3
6.315
16
525 9.95
8.7836
27 42 49.0
3.735
16
7 40 6.30
a. 7503
2634 7.5
6.513
17
527 57."
a. 7883
27 46 26.9
3.538
17
742 51.14
a. 7443
26 27 30.8
6.709
18
53044.55
3.79a8
27 49 52.3
3. 319
18
7 45 35.62
8.738a
26 20 42.4
6.903
19
5 33 32.26
a.7971
27 53 5. 1
3.109
X9
7 48 19.72
8.7330
26 13 42.4
7.096
20
5 36 20.22
8.8oxa
27 56 5.3
a.896
20
7 51 3.45
3.7355
26 6 30.9
7.387
21
5 39 8.41
a.8o3x
27 58 52.8
a.686
21
7 53 46.79
8.7189
25 59 8.0
7.476
22
5 41 56.82
8.8087
28 I 27.6
a.473
22
7 56 29.73
8.7x83
25 51 33.7
7.664
«3
54445.44
a.8iax
28 3 49.6
8.839
23
7 59 12.26
3.7054
25 43 48.2
7.850
84
54734.27
•.8x34
N.28 5 58.7
a. 045
24
8 I 54.38
a. 6985
N.25 35 51.7
8.034
70
JUNE, 1912.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
DiflF.
Diff.
Difr.
Hoar.
Right Ascensioa
for
2 Min.
Declination.
for
X Min.
Hoar.
Right Ascension.
for
z Min.
Declination.
for
1 Min.
MONDAY 17.
WEDNESDAY 19.
h m s
s
e » »
«r
h m 8
8
0 » M 1 «r
o
8 I 54.38
a. 6985
N.25 35 51.7
8.034
0
XO 2 7.40
•.3057
N,i6 17 40.2
14.589
I
8 4 36.07
a. 6914
25 27 44.2
8.3X7
X
10 425.51
3.3980
16 3 14.4
14.469
2
8 7 17.34
a. 6842
25 19 25.8
8.397
2
10 643.16
3.2904
n 48 43-9
14. »6
3
8 9 58.17
a. 6769
25 10 56.6
8.575
3
XO 9 0.35
3.8K28
15 34 8.8 14.633
4
8 12 38.56
3.6694
25 2 16.8
8.753
4
10 II 17.09
3.3753
15 19 29.3 u-ege
5
8 15 18.50
a. 66x8
24 53 26.5
8.936
5
10 X3 33.38
3.3677
15 445.4
14.767
6
8 17 57.98
a. 654a
24 44 25.7
9.098
6
10 15 49.22
3.3604
14 49 57.3
14.836
7
8 20 37.00
a. 6465
24 35 14-6
9.369
7
10 18 4.62
3.2531
1435 5.1
14.904
8
8 23 15.56
3.6386
24 25 53.4
9.437
8
10 20 19.59
3.3457
14 20 8.8
14.970
9
8 25 53-64
a. 6307
24 16 22.2
9.603
9
XO 22 34.12
3.3386
14 5 8.7
15.034
xo
8 28 31.24
3.6338
24 6 41. 1
9.767
10
10 24 48.23
3.33x6
13 50 4.8
15.096
II
831 8.36
3.6147
23 56 50. 1
9.929
II
10 27 1. 91
3.3346
13 34 57.2
15.156
12
8 33 45-00
3.6065
23 46 49. 5
10.090
12
10 29 15.18
3.3x77
13 19 46.1
15.8X4
13
8 36 21.15
a. 5983
23 36 39-3
10.248
13
10 31 28.03
3.3X07
13 431.6
15.370
14
8 38 56.80
3.5901
23 26 19.7
10.404
14
10 33 40.48
3.3040
12 49 13.7
15.334
15
8 41 31.96
3.58x8
23 15 50.8
10. 558
15
1035 52.53
3.1975
12 33 52.6
13.376
i6
8 44 6.62
a. 5734
23 5 12.8
XO.709
16
1038 4.18
3.1909
12 18 38.5
15.437
17
8 46 40.78
3.5650
22 54 25.8
10.858
17
10 40 X5.44
3.1844
12 3 1.4
15.476
i8
8 49 14-43
3.5566
22 43 29.9
XX. 005
18
10 42 26.31
3.X780
" 47 31.3
15.534
19
8 51 47-57
a. 548a
22 32 25.3
IX.X49
19
10 44 36.80
3.1717
II 31 58.5
15.570
20
8 54 20.21
a. 5397
22 21 12.0
II. 291
20
10 46 46.92
3.2655
XI 16 23.0
15.613
21
8 56 52-34
3.53"
22 9 50.3
21.433
2X
XO 48 56.67
3.1594
11 044.9
15.655
22
8 59 23.95
3.5827
21 58 20.2
XI. 570
22
10 51 6.05
a. 1534
1045 4.4
X5.«96
23
9 I 55-05
TUl
a. 5x41
ESDA^
N.21 46 41.9
"i x8.
ZI.706
23
XO 53 15.08
THl
3.1475
JRSD/
N.io 29 21.5 1 15.735
LY 20.
O
9 425.64
a. 5055
N.21 34 55.5
XX. 840
0
10 55 23.75
3.1417
N.IO 13 36.3
i5.77»
I
9 6 55.71
a. 4969
21 23 I.I
IX.972
I
10 57 32.07
3. 1359
9 57 49.0
15.806
2
9 9 25.27
3.4883
2X XO 58.9
22.XOO
2
10 59 40.06
3.1303
9 41 59.6
15.840
3
9 " 54.32
3.4798
20 58 49.1
13.337
3
XI I 47.71
3.X347
9 26 8.2
15.873
4
9 14 22.85
a.47>3
20 46 31.7
ia.35a
4
n 3 55.03
3.1x93
9 10 15.0
15.903
5
9 16 50.86
3.4627
20 34 6.8
ia.475
6
II 6 2.02
8.1139
8 54 20.0
15.933
6
9 19 18.36
a.454X
20 21 34.7
IS. 595
6
IX 8 8.69
3.1086
8 38 23.3
15.959
7
9 21 45.35
a. 4455
20 8 55.5
13.7x3
7
11 10 15.05
3.1035
8 22 25.0
15.984
8
9 24 11.83
a. 4370
19 56 9.2
12.839
8
II 12 21. II
8.0984
8 6 25.2
16.006
9
9 26 37.79
3.4385
19 43 16.0
ia.943
9
11 14 26.86
3.0934
7 50 24.0
16.031
lO
929 3.25
3.4300
19 30 16.0
13.055
10
II 16 32.32
3.0886
7 34 21.5
16.053
II
9 31 28.20
3.41x6
19 17 9.4
23.164
II
XI 18 37.49
3.0838
7 18 17.8
16.071
12
9 33 52.64
3.4033
19 3 56.3
13.371
12
11 20 42.38
3.0791
7 2 13.0
16.089
13
9 36 16.58
3.3948
x8 50 36.9
13.376
13
II 22 46.99
3.0746
6 46 7. X
16.106
14
9 38 40.01
3.3865
1837 11.3
13.479
14
" 24 51.33
3.0701
6 30 0.3
16.1SI
15
94X 2.95
3.3783
18 23 39.5
13.580
15
XI 26 55.40
3.0657
6 13 52.6
16.134
i6
9 43 25.39
3. 3699
18 xo X.7
23.678
16
XI 28 59.21
3.0614
5 57 44.2
16. 146
17
9 45 47.34
3.3617
17 56 18. 1
13.774
17
IX 31 2.77
3.0573
541 35-1
16.157
i8
948 8.79
3.3535
17 42 28.8
13.868
18
IX 33 6.08
3.0333
5 25 25.4
16.167
19
9 50 29.76
a. 3454
17 28 33.9
,13.960
19
" 35 9.15
3.0493
5 9 15.1
16.175
20
9 52 50.25
a. 3374
17 14 33.6
14.050
20
II 37 11.98
8.0453
4 53 4.4
i6.t8t
21
9 55 10.25
3.3394
17 0 27.9
14.138
21
" 39 14-58
3.01x5
4 36 53.3
x6.x86
22
9 57 29.77
3.3314
16 46 17.0
14.324
22
IX 41 16.96
3.0378
4 20 41.9
16.190
23
9 59 48.8a
3.3135
16 32 I.I
14. 307
«3
11 43 19.12
a. 0348
4 430.4
16. 19s
24
10 2 7.40
3.3057
N.16 X7 40.2
14.389
24
IX 45 21.06
8.0307
N. 3 48 x8.8
16.194
X.
JUNE, 1912.
71
GREENWICH MEAN TIMK
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Aacension.
for
Declination.
for
Hoar.
Right Ascension.
for
Declination.
for
X Min.
xMin.
X Min.
X Min.
FF
IIDAY
21.
SUNDAY 23.
m ■
■
0 t M
«f
h m 8
a
e > . m
n
0
II
45 21.06
8.0307
N. 3 48 18.8
26.294
0
13 20 35.04
2.9725
S. 8 47 39.6
X4.88a
I
II
47 22.80
8.0073
3 32 7.1
X6.194
I
13 22 33.35
2.9793
9 2 31.0
X4.829
2
II
49 24.34
8.0940
3 15 55.5
z6. 193
2
13 24 31.72
2.9733
9 17 19. 1
24.775
3
II
51 25.68
8.O808
2 59 44.0
X6.190
3
13 26 30.14
2.9743
9 32 4-0
24.722
4
II
53 26.83
8.0X77
2 43 32.7
16.186
4
13 28 28.63
2.9753
9 46 45.6
24.665
5
II
55 27.80
a. 0147
2 27 21.7
x6.x8x
5
13 30 27.18
2.97«4
10 I 23.8
24.608
6
II
57 28.59
8.0XX8
2 II II. 0
26.X75
6
13 32 25.80
2.9776
10 15 58.6
24.552
7
II
59 29.21
8.0090
I 55 0.7
16.167
7
13 34 24.50
2.9789
10 30 29.9
24.492
8
12
I 29.66
8.006s
I 38 50.9
16.138
8
13 36 23.27
2.9804
10 44 57.6
24.43a
9
12
3 29.95
a. 0036
I 22 41.7
z6. X48
9
13 38 22.13
2.98x8
10 59 21.7
24.372
10
12
5 30.09
t.OOIX
I 6 33.2
J6.X36
10
13 40 21.07
I. 9831
II 13 42.1
24.309
II
12
7 30.08
X.99B6
0 50 25.4
16.124
II
13 42 20.10
1.9846
II 27 58.8
24.947
12
12
9 29.93
2.9963
0 34 18.4
x6.xxo
12
13 44 19.23
2.9863
II 42 II. 8
24.284
13
12
II 29.64
X.9941
0 18 12.3
X6.094
13
13 46 18.46
X.9880
II 56 20.9
24.229
14
12
13 29.21
2.99x9
N. 0 2 7.1
16.078
14
13 48 17.79
2.9897
12 10 26.1
24.053
15
12
15 28.66
2.9898
S. 0 13 57.1
x6.o6z
15
13 50 17.23
2.9915
12 24 27.4
23.937
i6
12
17 27.99
1.9879
0 30 0.3
26.043
16
13 52 16.78
1.9934
12 38 24.6
13.990
17
12
19 27.21
1.986X
0 46 2.3
16.024
17
13 54 16.44
2.9954
12 52 17.8
23.858
i8
12 21 26.32
1.9843
I 2 3.0
16.003
18
13 56 16.22
2.9974
13 6 6.9
23.783
19
12
23 25.32
X.9886
I 18 2.5
15.981
19
13 58 16.12
2.9994
13 19 51-8
13.723
20
12
25 24.22
X.98X0
I 34 0.7
25.958
20
14 0 16.15
a. 0015
13 33 32.4
23.649
21
12
27 23.03
2.9795
I 49 57.5
25.934
21
14 2 16.31
2.0037
1347 8.8
23.570
22
12
29 21.75
X.9782
2 5 52.8
25.909
22
14 4 16.60
2.0059
14 0 40.8
23.498
23
12
31 20.39
1.9767
S. 2 21 46.5
X5.88a
23
14 6 17.03
2.0082
S.14 14 8.4
23.494
SAT
URD/
lY 22.
MO
>NDA\
^24.
o
12
33 18.96
1.9754
S. 2 37 38.6
25.854
0
14 8 17.59
8.oto6
S.14 27 31.6
23.348
I
12
35 17.45
1.9743
2 53 29.0
25.825
I
14 10 18.29
8.0130
14 40 50.2
13.272
2
12
37 15.88
1.9733
3 9 17.6
25.795
2
14 12 19.14
2.0x54
M 54 4.3
13.296
3
12
39 14.24
2. 97*3
3 25 4.4
25.765
3
14 14 20.14
8.0179
15 7 13.8
23.229
4
12
41 12.55
2.9724
3 40 49.4
25.734
4
14 16 21.29
8.0205
15 20 18.6
23.040
5
12
43 10.81
1.9706
3 56 32.4
25.702
5
14 18 22.60
2.083X
15 33 18.6
X2.960
6
12
45 9.03
2.9699
4 12 13.4
25.667
6
14 20 24.06
8.0857
15 46 13.9
12.880
7
12
47 7.20
2.9693
4 27 52.4
25.632
7
14 22 25.69
2.0284
15 59 4.3
28.799
8
12
49 5.34
2.9688
4 43 29.3
25.596
8
14 24 27.48
2.03X8
16 II 49.8
29.717
9
12
51 3.46
2.9684
4 59 4.0
25.559
9
14 26 29.43
a. 0340
16 24 30.4
28. 634
zo
12
53 1.55
2.9680
5 14 36.4
25.5*1
10
14 28 31.55
8.036B
1637 5.9
29.550
II
12
54 59.62
2.9677
530 6.5
25.48a
II
14 30 33.85
8.0397
16 49 36.4
28.465
12
12
56 57.68
2.9675
5 45 34.2
25.44a
12
14 32 36.32
8.0486
17 2 1.7
28. 379
13
T2
58 55.73
x.9^4
6 0 59.5
25.402
13
14 34 38.97
a. 0455
17 14 21.8
28.893
14
13
0 53.77
2.9674
6 16 22.3
25.359
14
14 36 41.79
2.0485
17 26 36.7
X8.205
15
13
2 51.81
2.9674
6 31 42.5
25.326
15
14 38 44.79
a. 05 16
17 38 46.4
X8.XX6
i6
13
4 49.86
2.9675
6 47 0.1
25.972
16
14 40 47-98
2.0547
17 50 50.8
x8.oa7
17
13
6 47.92
x.9678
7 2 15.0
X5.886
17
14 42 51.36
a. 0578
18 249.7
22.937
i8
13
8 46.00
I.968X
7 17 27.2
25.180
18
14 44 54.92
a. 06x0
18 14 43.1
xz.846
19
13
10 44.09
2.9684
7 32 36.6
25.23a
19
14 46 58.67
a. 0648
18 26 31. 1
22.754
20
13
12 42.21
2.9689
7 47 43.2
25.084
20
14 49 2.61
2.0674
18 38 13.6
XX.66X
21
13 14 40.36
2.9695
8 246.8
25.033
21
14 51 6-75
2.0706
18 49 50.4
22.567
22
13
i6 38.55
2.970X
8 17 47.5
24.983
22
14 53 TI.08
8.0738
19 1 21.5
22.47a
23
13
18 36.77
X.9706
8 32 45.1
24.934
23
14 55 15.60
8.0772
19 12 46.9
22.376
24
13
20 35.04
2.9725
S. 8 47 39.6
14.88a
24
14 57 20.33
8.0804
S.X9 24 6.6
ix.a8o
72
JUNE, 1912.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Dm.
Diff.
Hour.
Right Ateonsion.
for
xMin.
for
zMin.
Hour.
Right Aaoonaion.
for
xMia.
for
z Min.
TUESDAY 25.
THURSDAY 27.
h m ■
» \
0 » w
n
h m 8
a
Of It
n
O
14 57 ao.33
a.0804
S.1924 6.6
zx.aSo
0
16 41 6.15
2.2363
S.a6 x8 10. 1
5.679
z
14 59 25.25
a. 0837
19 35 20.5
ZX.X83
I
16 43 20.41
a. 8391
26 23 46.9
5-546
2
15 I 30-37
2.0871
19 46 28.5
ZX.084
2
16 45 34.82
«.a4i5
26 29 15.6
5.41a
3
15 335.70
a.0905
19 57 30.5
X0.984
3
16 47 49.37
a. 8438
26 34 36.3
5.«77
4
15 541.23
a. 0939
20 8 26.5
X0.884
4
16 50 4.06
8.8461
26 39 48.9
5.14a
5
15 746.97
2.0973
20 19 16.5
X0.783
5
16 52 18.88
8.2482
26 44 53.3
5.006
6
15 9 52.91
2.X007
20 30 0.5
Z0.68X
6
16 54 33.83
8.2503
26 49 49.6
4.870
7
15 " 59.05
2.1042
20 40 38.3
10.378
7
16 5648.91
8.2583
26 54 37.7
4.734
8
15 14 5.40
a. 1077
20 51 9.9
X0.474
8
1659 4.II
».a54a
26 59 17.6
4.597
9
15 16 H.97
2.1XIZ
21 I 35.2
Z0.370
9
17 I 19.42
2.8568
27 349.3
4.45»
lO
15 18 18.75
2.x 146
21 II 54.2
X0.265
10
17 334.85
8.2581
27 8 12.7
4.321
II
15 20 25.73
2.Z18X
21 22 6.8
X0.XS8
II
17 550.39
2.2598
27 12 27.9
4.xQj
12
15 22 32.92
2.12X6
21 32 13.1
Z0.050
12
17 8 6.04
8.86x6
27 16 34.7
4.045
13
15 24 40.32
2. 1251
21 42 12.9
9.943
13
17 10 21.77
8.8638
27 20 33.2
3.906
14
15 26 47.93
a.xase
21 52 6.2
9.834
14
17 12 37.61
8.2647
27 24 23.4
3.766
15
15 28 55.75
a.x32z
22 I 53.0
9.725
15
17 14 53.54
8.2662
27 28 5.2
3.627
i6
15 31 3.78
2.X356
22 II 33.1
9.614
16
17 17 9.56
8.8677
27 31 38.6
3.486
17
15 33 12.03
2.1391
22 21 6.6
9.50a
17
17 19 25.66
8.2690
2735 3.7
3.347
i8
15 35 20.48
2.1426
22 30 33.4
9.390
18
17 21 41.83
a. 8702
27 38 20.3
3.206
19
1537 29.14
2. 1461
22 39 53-4
9.277
19
17 23 58.07
2.^3
27 41 28.5
3.066
20
15 39 38.01
2.1496
22 49 6.6
9.x«3
20
17 26 14.38
a. 2723
27 44 28.2
8.985
21
15 41 47.09
a. 1531
22 58 13.0
9.049
21
17 28 30.75
8.8733
27 47 19. 5
a.7«4
22
15 43 56.38
2.X565
23 7 12.5
8.934
22
173047.18
8.2743
27 50 2.3
a. 643
23
1546 5.88
WED
2.Z599
NESD
S.23 16 5.0
AY 26.
8.8x7
23
1733 3.66
Fi
2.2750
tlDAY
S.27 52 36.6
' 28.
8.501
O
15 48 15.58
2.1634
S.23 24 50.5
8.700
0
17 35 ao.i8
2.8757
S.27 55 2.5
8.360
I
15 50 25.49
2.X669
23 33 29.0
8.583
I
17 37 36.74
8.8763
27 57 19.9
a.az9
2
15 52 35.60
2.Z702
23 42 0.4
8.464
2
17 39 53.33
2.8768
27 59 28.7
8.077
3
15 54 45.91
a. 1735
23 50 24.7
8.345
3
1742 9.96
2.2778
28 I 29.0
X.935
4
15 56 56.42
2.1769
23 58 41.8
8.225
4
17 44 26.61
2.8776
28 3 20.8
1.795
5
1559 7.14
2.X803
24 651.7
8.Z04
5
17 46 43.27
2.2779
28 5 4.1
X.65X
6
16 I 18.06
a. 1836
24 14 54.3
7.983
6
17 48 59.95
2.2780
28 6 38.9
1.509
7
16 3 29.17
2.Z868
24 22 49.5
7.860
7
17 51 16.63
2.^1
28 8 5.x
1.366
8
16 540.47
2.1900
24 30 37.4
7.737
8
17 53 33.32
8.278Z
28 9 22.8
z.823
9
16 7 51.97
S.1932
24 38 17.9
7.6x4
9
17 55 50.00
8.2779
28 10 31.9
x.oBi
lO
16 lo 3.67
2.Z964
24 45 51.0
7.489
10
17 58 6.67
8.2777
28 II 32.5
0.939
II
16 12 15.55
2.1996
24 53 16.6
7.363
II
18 0 23.33
2.2774
28 12 24.6
0.797
12
16 14 27.62
2.2027
25 034.7
7.237
12
18 239.97
a. 8770
28 13 8.1
0.655
X3
16 16 39.87
«.ao57
25 745.2
7.XXX
13
18 4 56.58
3.2765
28 13 43.1
0.515
X4
16 18 52.31
2.2087
25 14 48.1
6.984
14
18 7 13.16
a. 2759
28 14 9.6
0.371
15
16 21 4.93
2.axx7
25 21 43.3
6.836
15
18 9 29.70
8.8753
28 14 27.6
0.829
i6
16 23 17.73
2.2x47
25 28 30.9
6.728
z6
18 II 46.20
2.2746
28 14 37.x
-0.087
17
16 25 30.70
2.2x76
25 35 10.7
6.599
17
18 14 2.65
8.8737
28 14 38.0
+0.055
i8
16 27 43.84
a. 2204
25 41 42.7
6.469
18
18 16 19.04
8.2787
28 14 30.5
0.196
19
16 29 57.16
8.2232
2548 7.0
6.339
19
18 18 35.38
8.27x7
28 14 14.5
0.337
20
16 32 X0.64
a. 2260
25 54 23.5
6.ao8
ao
18 20 51.65
2.2706
28 13 50.x
0.478
21
16 34 24.28
a.aa87
26 0 32.0
6.076
21
18 23 7.85
2.2694
28 13 17.2
a6t8
22
16 36 38.08
2.23x3
26 6 32.6
5.944
22
18 25 23.97
a.268x
28 X2 35.9
0.789
23
16 38 52.04
2.8339
26 12 25.3
S.8x2
23
18 27 40.01
2.8667
28 XI 46.1
agoo
H
16 41 6.15
2.«36S
S.26 18 XO.I
5*679
24
18 29 55.97
2. 8658
S.28 10 47.9
1.Q40
xn.
JUNE, 1912.
73
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Right Ascension.
Diir.
for
X lid in.
Dodination.
SATURDAY 29,
Di9.
for
xMin.
h m 4
B
• 1 m
0
0
18 29 55.97
a.96s«
S. 38 10 47.9
X.040
X
18 32 11.83
8.2636
28 9 41.3
I.X79
2
18 34 27-59
8.a6x9
28 8 26.4
X.3X8
3
18 36 43.25
9.a6oi
28 7 3.1
X.457
4
18 38 58.80
a. 3383
28 531.5
1.596
5
18 41 14.24
8.3364
38 3 51.6
X.734
6
18 43 29.57
3.8344
38 3 3.4
X.873
7
18 45 44.77
3.3333
38 0 6.9
a.oxo
8
18 47 59.85
8.3508
27 58 2.3
8.147
9
18 50 14.79
a. 8478
27 55 49.2
3.384
10
18 52 29.59
a. 2453
27 53 28.1
8.430
II
18 5444.25
8.3431
27 50 58.8
a. 557
12
18 56 58.76
3.3406
27 48 31.3
3.693
13
x8 59 13.12
3.8380
27 45 35.7
3.B27
14
19 I 27.32
3.3353
27 42 42.1
8.961
15
19 341.36
3.3336
27 39 40.4
3.095
16
19 555.23
3.8298
27 36 30.7
3.338
17
19 8 8.94
8.3870
a7 33 13.0
3.36X
18
19 10 32.47
3.3239
27 29 47.4
3.493
19
19 12 35.81
8.3309
27 26 13.8
3.685
20
19 14 48.98
3.3179
37 23 33.4
3.756
21
19 17 1.96
8.8X47
27 18 43.1
S.887
22
19 19 14.75
a.2xx3
27 14 45.9
4.0x7
23
19 31 37.34
su
8.2082
NDA\
S. 27 zo 41. 0
'30.
4.X46
0
19 23 39-73
8.2048
S. 27 6 28.4
4.a74
I
19 25 51.92
8.80X4
27 2 8. 1
4.403
3
19 28 3.90
a. 1979
26 57 40. 1
4.531
3
19 30 15.67
8.X944
2653 4.4
4.658
4
19 32 27.23
8.1908
26 48 21.3
4.783
5
19 34 38.57
8.X872
26 43 30. 5
4. 90S
6
19 36 49.69
8.X835
26 38 32.2
5.033
7
1939 0.59
a. 1798
36 33 26.5
5.X57
8
79 41 11.27
a. 1760
26 28 13.3
5.a8z
9
19 43 31.71
8.X788
26 22 52.8
5.403
10
19 45 31-93
2.X683
26 17 25.0
5.584
II
19 47 41.91
2.X643
26 II 49.9
5.646
12
19 49 51.65
2.1603
26 6 7.5
5.767
13
19 52 1.15
8.1563
26 0 17.9
5.886
H
19 54 10.41
a. 1323
25 54 31.2
6.004
15
19 56 19.43
8.1488
25 48 17.4
6.X28
16
19 58 28.20
a.X44x
25 43 6.6
6.839
17
20 0 36.72
a.x399
25 35 48.7
6.356
18
30 344.99
a. 1357
25 29 23.9
6.47a
19
20 4 53.01
a.x3X5
35 32 52.1
6.587
20
20 7 0.77
8.X273
25 16 13.5
6.701
21
20 9 8.28
a.i83o
25 9 28.0
6.8x4
22
20 Ji 15.53
3.XX87
25 235.8
6.927
23
20 13 23.52
a.xx43
24 55 36.8
7.038
24
30 15 39.35
a.iioo
S. 24 48 3X.2
7.14B
Hour.
Right Ascension.
Difl.
for
xMin.
Declination.
Diff.
for
xMin.
MONDAY, JULY i.
h m B s
20 15 29.25 a.xioo
S. 34 48 3Z.3
7.X48
PHASES OF THE MOON.
O
d h xn
Last Quarter . . June 7 14 35.6
New Moon 14 x8 23.6
First Quarter . . . .31 8 38.9
Full Moon 29 z 33.8
C
Apogee
Perigee
d h
June 4 0.9
. . 16 4.5
74
JULY, 1912.
I.
AT GREENWICH APPARENT NOON.
Day of
the Week.
o8
&"
Mon.
Tues.
Wed.
I
2
3
Thur.
Frid.
Sat.
4
5
6
SUN.
Mon.
Tues.
7
8
9
Wed.
Thur.
Frid.
lO
II
12
Sat.
SUN.
Mon.
13
15
Tues.
Wed.
Thur.
i6
17
i8
Frid.
Sat.
SUN.
19
20
21
Mon.
Tues.
Wed.
22
23
24
Thur.
Frid.
Sat.
25
26
27
SUN.
Mon.
Tues.
Wed.
28
29
30
31
Thur.
32
THE SUN'S
Apparent Right
Ascension.
m
6 40 14.96
6 44 22.98
6 48 30.74
6 52 38.21
6 56 45.38
7 052.23
7 458.74
7 9 4.91
7 13 10.71
7 17 16.12
7 21 21.12
7 25 25.69
7 29 29.81
7 33 33-47
7 37 36.64
7 41 39.30
74541.44
7 49 43.04
7 53 44-09
7 57 44.57
8 144.47
8 543.78
8 942.51
813 40.65
81738.18
821 35.10
82531.42
8 29 27.14
8 33 22.25
8 37 16.76
8 41 10.67
845 3.98
Diff. for
X Hour.
8
0.340
0.329
0.317
0.305
0.292
0.278
0.264
a 249
0.233
0.2x7
0.200
o.z8i
0.162
0.142
0.122
0.100
0.078
0.055
0.032
0.008
9.984
9.959
9.934
9-909
9^884
9.859
9.834
9^809
9.784
9-759
9.734
9.709
Apparent Decli-
nation.
N.23 748.6
23 337.9
2259 3.1
2254 4.3
2248 41.6
22 42 55.0
22 36 44.8
22 30 II. I
22 23 14.0
22 15 53.5
22 8 10.0
22 O 3.7
21 51 34.6
21 42 43.0
21 33 29.1
21 23 53.2
21 1355.3
21 335.9
20 52 55.2
20 41 53.4
20 30 30.6
20 18 47.3
20 643.7
19 54 20.0
19 41 36.5
19 28 33.4
19 15 10.9
19 I 29.5
184729.3
18 33 10.5
18 18 33.5
N.18 338.6
Diff. for
X Hour.
9.93
0.94
1.95
2.95
3-94
4.93
5.92
6.90
7.87
8.83
9.79
20.74
—21.68
22.61
23.53
-24.45
25.36
26.25
-27.13
28.01
28.87
—29.72
30-57
31.41
-32.23
33-04
33-84
-34.63
35.40
36.16
36.91
-37.66
Semidiam-
eter.
1545.68
15 45.67
15 45.66
1545.66
15 45.66
15 45.67
15 45.67
15 45.68
15 45.70
15 45.72
15 45.75
15 45.78
1545.82
1545.87
15 45.92
1545.98
15 46.04
15 46.10
1546.17
1546.25
1546.33
15 46.42
1546.51
15 46.60
15 46.70
15 46.80
1546.91
15 47.02
1547.13
15 47.24
^5 47.35
15 47.47
Sidereall
Time of
Semidi*
ameter
Passing
Me-
ridian.
68.76
68.72
68.68
68.64
68.59
68.54
68.49
68.44
68.38
68.32
68.26
68.20
68.13
68.06
67.99
67.92
67.85
67.78
67.70
67.63
67-55
67.47
67.39
67.30
67.21
67.12
67.03
66.95
66.86
66.78
66.70
66.62
Equation of
Time, to be
Added to
Apparent
Time.
m 8
3 33.61
3 45.03
3 56.20
4 7.08
4 17.66
4 27.93
4 37.86
447.44
4 56.66
5 5.48
5 13.90
5 21.89
529.44
5 36.52
543.12
5 49.21
554.77
5 59.80
6 4.28
6 8.19
6 11.52
6 14.27
6 16,43
6 18.00
6 18.97
6 19.34
6 19.11
6 18.28
6 16.84
6 14.80
6 12.16
6 8.92
Diff.
for
I Hour.
8
0.481
0.471
0.459
0-447
0.434
0.421
0.407
0.392
0.376
0.359
0.34a
0.324
0.305
0.285
0.264
0.243
0.221
az98
0.175
0.151
0.127
0.102
ao78
0.053
0.028
0.003
0.022
0.047
0.079
0.097
O.X22
0.147
Note. — The mean time of semidiameter passing may be found by subtracting a^.ig from the sidereal time.
The sign — prefixed to the hourly change of declination indicates that north declinations are decreasing.
11.
JULY, 1912.
75
AT GREENWICH MEAN NOON.
Day of
the Week.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
SUN.
Mon.
Tues.
Wed.
Thur.
e
-I
Q
I
2
3
4
5
6
7
8
lO
II
12
13
15
i6
17
i8
20
21
22
23
24
25
26
27
28
29
30
31
32
THE SUN'S
Apparent Right
Ascension.
m
6 40 14.36
6 44 22.34
6 48 30.06
6 52 37-50
6 56 44.64
7 051.46
7 4 57-95
7 9 4-09
713 9.87
7 17 15-25
721 20.22
7 25 24.77
7 29 28.88
7 33 32.52
7 37 35.68
7 41 38.33
7 45 40.46
7 49 42.04
7 53 43-07
7 57 43-54
8 143.44
8 542.75
8 9 4M7
8 13 39.60
81737.13
821 34.06
8 25 30.39
8 29 26.12
8 33 21.24
8 37 15.76
8 41 9.68
845 3.00
Dift. for
X Hour.
s
0.338
0.328
0.316
0.304
0.291
0.277
0.263
0.248
0.232
0.2x5
0.198
0.180
0.161
0.141
O.121
0.099
0.077
0.054
0.031
0.007
9.983
9.959
9-934
9.9x0
9.885
9.860
9.834
9.809
9.784
9-759
9-734
9.709
Apparent
Declination.
N.23 749.2
23 3 38.6
2259 3-9
22 54 5.2
22 48 42.6
2242 56.1
22 36 46.0
22 30 12.4
22 23 15.4
22 15 55.1
22 8 11.7
22 o 5.5
21 51 36.6
21 42 45.1
21 33 31.3
21 23 55.5
21 1357-8
21 338.5
20 52 57.9
20 41 56.2
20 30 33.6
20 18 50.4
20 6 46.9
19 54 23.3
19 41 39.9
19 28 36.9
19 15 14-5
19 I 33.1
18 47 33.0
18 33 14-3
18 18 37.3
N.I 8 342.4
Diff. for
X Hour.
- 9.93
XO.94
".95
-"•95
13.94
14.93
-15.91
X6.89
X7.86
-18.83
19.79
20.73
— 2X.67
22.60
23.53
-24.45
25.36
26.25
-27.13
28.OX
28.87
—29.72
30.57
31.40
—32.22
33.03
33.83
-34-62
35-39
36-15
36.91
-37.66
Equation of
Time, to be
Subtracted
from
Mean Time.
m
3 33-58
3 45-00
356.17
4 7-05
4 17-63
427.90
4 37-83
4 47-41
4 56.63
5 5-45
5 13-87
5 21.86
5 29.41
5 36.49
5 43.09
549.18
554.75
5 59-78
6 4.26
6 8.17
6 11.50
6 14.25
6 16.42
6 18.00
6 18.97
6 19.34
6 19.11
6 18.28
6 16.85
6 14.81
6 12.17
6 8.94
Di«r.for
X Hour.
s
0.48 X
0.471
0.459
0.447
0.434
0.42 z
0.407
0.392
0.376
0.359
0.342
0.324
0.305
a285
a 264
0.243
0.22X
0.198
0.175
0.151
0.127
0.102
0.078
0.053
0.028
0.003
0.022
0.047
0.072
0.097
0.122
0.147
NoTB.-- The sexoldiameter for mean noon may be assnmed the same as that for apparent noon.
The sign — prefixed to the hourly change of declination indicates that north declina-
tions are decreasing.
Sidereal Time,
or Right Ascen-
sion of Mean
Sun.
h m a
6 36 40.77
6 40 37.33
6 44 33.89
6 48 30.45
6 52 27.01
6 56 23.56
7 020.12
7 4 16.68
7 8 13,24
7 12 9.80
7 16 6.36
7 20 2.91
7 23 59.47
7 27 56.03
7 31 52.59
7 35 49.15
7 39 45-70
7 43 42.26
7 47 38.82
75135-38
75531-94
7 59 28.49
8 325.05
8 721.61
811 18.16
8 15 14.72
8 19 11.28
8 23 7.84
827 4.39
831 0.95
83457.51
8 38 54.06
DiflE. for X Hoor,
-|-9».8565.
(Table IIL)
76
JULY, 1912.
III.
AT GREENWICH MEAN NOON.
I
2
3
4
5
6
7
8
lO
II
12
13
14
15
i6
17
i8
20
21
22
23
24
25
26
27
28
29
30
31
32
«
o 4
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
THE SUN'S
True Longitude.
99 14 57'^
00 12 8.3
01 9 19.1
02 6 30. 1
03 341.4
04 052.9
04 58 4.8
05 55 17.0
06 52 29.7
07 49 42.9
08 46 56.5
09 44 10.6
10 41 25.2
11 3840.1
12 35 55-4
1333 ii-o
14 30 26.8
15 27 42.8
162459.0
1722 15.5
18 19 32.2
19 16 49.2
20 14 6.5
21 II 24.2
22 8 42.3
23 6 i.o
24 3 20.2
25 o 40.1
2558 0.8
26 55 22.3
27 52 44-7
12850 8.0
y
14 37.2
II 47.8
858.4
6 9.2
320.3
031.6
57 43.3
54 55.4
52 7.9
49 20.9
46 34-3
43 48*2
41 2.6
38 17.3
35 32.4
32 47.8
30 3.5
27 19-3
24 35-4
21 51.7
19 8.2
16 25.0
13 42.2
10 59.7
817.6
536.1
255.2
o 15.0
57 35-5
54 56.8
52 19.0
49 42.2
DifF. for
X Hour.
42.95
42.95
42.96
42.96
42.97
42.98
43*00
43.02
43.04
43.06
43.08
43.10
43."
43-13
43.14
43.15
43.16
43.17
43.18
43.19
43- 20
43.22
43.23
43.25
43.27
43.29
43-32
43.35
4338
43.41
43.45
143.50
Latitude.
-0.79
0.76
0.69
—0.60
0.50
0.38
— 0.25
—0.12
+0.01
-f-O.I2
0.21
0.28
+0.31
0.32
0.30
-f-0.24
0.15
+0.04
—0.08
0.21
0.34
— 0.46
0.57
0.66
—0.72
0.76
0.78
—0.76
0.73
0.66
0.57
-0.47
Lonrithm of the
Radius Vector ot
the Earth.
0.007 2040
0.007 2089
0.007 2122
0.007 2139
0.007 2139
0.007 2120
0.007 2082
0.007 2024
0.007 1945
0.007 1843
0.007 1717
0.007 1566
0.007 1389
0.007 1 185
0.007 0954
0.007 0696
0.007 041 1
0.007 0102
0.006 9769
0.006 9414
0.006 9038
0.006 8642
0.006 8229
0.006 7799
0.006 7353
0.006 6892
0.0066417
0.006 5927
0.006 5424
0.006 4907
0.006 4376
0.006 3832
Diff. tor
X Hour.
+ 2.4
1.7
x.o
+ Ob3
- 0.4
Z.2
- 2.0
2.9
3.8
- 4.8
5.8
6.8
-7.9
9.0
ia2
-II. 3
12.4
13.4
-14.3
15.2
16. 1
—16.9
17.6
Z8.3
-18.9
19.5
20.1
—20.7
21.2
21.8
22.4
-23.0
Note. — ^The longitudes in the column A are referred to the true equinox of their own date, while
those in the column A' are referred to the mean equinox of the begixming of the Bes-
selian fictitious year.
Mean Time of
Sidereal Noon.
m
7 20 28.30
7 16 32.39
712 36-48
7 840.57
7 444.65
7 048.74
6 56 52.83
6 52 56.92
649 i.oo
645 "5.09
641 9.18
637 13.27
6 33 17.35
6 29 21.44
6 25 25.53
6 21 29.62
6 17 33.71
613 37.80
6 941.88
6 545.97
6 1 50.06
55754.15
5 53 58.24
550 2.32
546 6.41
5 42 10.50
5 38 14.59
5 34 18.68
5 30 22.77
5 26 26.86
5 22 30.95
15 18 35,04
Diff. for X Hour,
(Table II.)
IV.
JULY, 1912.
77
GREENWICH MEAN TIME.
•
1
THE
MOON'S
•9
SEMIDIAMBTBR.
HORIZONTAL PARALLAX.
UPPB& TRANSIT.
AGE.
1
Noon.
Midnight
Noon.
Diff. for
z Hour.
Midnight
Diff. for
z Hour.
Meridian of
Greenwich.
Diff. for
z Hour.
Noon.
I
2
3
14 44-5
14 44-5
14 46.3
• m
14 44-3
H 45'2
14 48.0
1 w
54 0-3
54 0.2
54 7.0
—0.14
+0.14
0.44
f n
53 59.4
54 2.7
54 13-2
M
0.00
+0.28
0.60
h m
14 5.8
14 51.I
15 33.9
m
1.94
1.83
1.74
d
16.2
17.2
18.2
4
5
6
14 50-3
14 56.5
15 5-2
H 53.1
15 0.6
15 10.4
54 21.5
54 44-4
55 16.2
+0.78
I. 14
I.5I
54 31-9
54 59.2
55 35-4
+0.96
X.32
1.69
16 14.9
16 55-3
17 36.0
1.68
1.68
1.72
19.2
20.2
21.2
7
8
9
15 16.2
15 29.5
15 44.2
15 22.6
15 36.7
15 52.0
55 56.8
56 45.2
57 39.5
+1.86
2.15
2.34
56 20.1
57 11.8
58 8.0
+2.02
2.26
2.39
18 18.5
19 4.2
19 54-5
1.83
1.99
2.21
22.2
23.2
24.2
lO
11
12
15 59-9
16. 15.0
16 28.3
16 7.6
16 22.0
16 33.8
58 36.8
59 32.4
60 21.2
+2.38
2.20
1.80
59 5.1
59 58.0
60 41.3
+2.32
2.03
I.5I
20 50.7
21 52.8
22 59.1
2.47
2.69
2.80
25.2
26.2
27.2
13
14
15
16 38.2
16 43.5
16 43-5
16 41.5
16 44.2
16 41.5
1
60 57.6
6x 17.0
6x 17.0
+1.18
+0.41
-0.41
61 9.6
61 19.5
61 9.7
+0.81
0.00
-0.80
6
0 6.2
1 10.4
• •
2.76
2.58
28.2
29.2
I.O
i6
17
i8
16 38.3
16 28.7
16 15.9
16 34.0
16 22.6
16 8.9
60 57.8
60 22.5
59 35-9
— x.i6
1-73
2.10
60 41.9
60 0.3
59 lo-o
-1.47
1.94
2.20
2 9-7
3 3.7
3 53-4
2-35
2.15
2.01
2.0
3.0
4.0
19
20
21
16 1.6
15 47-0
15 33.0
IS 54-3
15 39-8
15 26.6
58 43-3
57 49.5
56 58.4
—2.24
2.20
2.03
58 16.3
57 23.4
56 34-7
—2.24
2.13
1.92
4 40-5
5 26.3
6 12.2
1.92
Z.90
1-93
5.0
6.0
7.0
22
23
24
15 20.5
15 9.8
15 i-o
15 14-9
15 5.1
14 57.3
56 12.4
55 330
55 0.7
-X.79
1*50
X.19
55 51-8
55 ^5-9
54 47-3
-1.64
1.35
1.05
6 59-3
7 48.1
8 38.9
1.99
2.08
2.15
8.0
9.0
1 0.0
25
26
27
14 54-1
14 49.1
14 457
14 51.4
14 47.2
14 44.6
54 35-6
54 17.1
54 4-8
—0.91
0.64
0.39
54 25.5
54 10.2
54 0-8
-0.77
0.51
0.27
9 30.9
10 23.0
11 14.0
2.18
2.16
2.09
1 1.0
12.0
13.0
28
29
30
31
14 43.9
14 43-7
14 44.8
14 47.6
14 43.6
14 44.1
14 46.0
14 49.5
53 58.3
53 57-2
54 1-5
54 "-5
—0.15
+0.06
0.30
0.54
53 57'^
53 58.7
54 5.8
54 18.7
-0.05
+0.18
0.42
0.66
12 2.9
12 49.0
13 32.6
14 14.0
1.98
1.87
1.77
1.70
14.0
15.0
16.0
17.0
32
14 51-9
14 54-7
54 27.4
+0.80
54 37.8
+0.94
14 54-3
1.67
18.0
78
JULY, 1912.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DiiE.
DiflF.
Diff.
Diff.
Hour.
Right Ascension.
for
X Min.
Declination.
for
I Min.
Hour.
Right Ascension.
for
X Min.
Declination.
for
X Mixx.
MONDAY I.
WEDNESDAY 3.
h m ■
s
e t m
1*
h m s
■
Of m
•*
O
20 15 29.25
s.zxoo
S.24 48 31.2
7.148
0
21 51 43.79
1.9064
S.17 13 56.8
XX.464
I
20 17 35.72
a.xo57
24 41 19.0
7.358
I
21 53 38.07
1.9039
17 2 26.9
IX. 533
2
20 19 41.93
2.XOXS
24 34 0.2
7.368
2
21 5532.14
1.8993
16 50 52.8
IX.608
3
20 21 47.87
3.0968
24 26 34.8
7.477
3
21 57 25.99
X.8958
16 39 14.7
XX.669
4
20 23 53-55
8.09*4
24 19 3.0
7.583
4
21 59 19.64
1.8984
16 27 32.5
XX.737
5
20 25 58.96
2.0R80
24 II 24.8
7.690
5
22 I 13.08
1.8890
16 15 46.3
XX. 803
6
20 28 4. 1 1
2.0836
24 3 40.2
7.796
6
22 3 6.32
1.8857
16 3 56.2
XX.868
7
20 30 8.99
3.079X
23 55 49.3
7.900
7
22 4 59.36
X.8834
15 52 a.i
11.933
8
20 32 13.60
3.0746
23 47 52.2
8.004
8
22 6 52.21
X.8793
1540 4-2
1X.997
9
20 34 17.94
3.0703
23 39 48.8
8.108
9
22 8 44.86
X.8760
15 28 2.5
X8.060
lO
20 36 22.01
3.0657
23 31 39.2
8.2ZX
10
22 10 37.33
1.8729
15 15 57-1
Z3.123
II
20 38 25.82
3.o6za
23 23 23.5
8.313
II
22 12 29.61
1.8698
15 3 47.9
13.183
12
20 40 29.36
3.0567
23 15 1.8
8.412
12
22 14 21.70
X.86G7
M 51 35.1
X2.243
13
20 42 32.63
3. 0533
23 6 34.0
8.5x2
13
22 16 13.61
X.8637
14 39 18.7
18. 303
14
20 44 35.63
a. 0477
22 58 0.3
8.6zx
14
22 18 5.35
X.8608
14 26 58.7
1 8. 363
15
20 46 38.36
8.0433
22 49 20.7
8.709
15
22 19 56.91
X.8580
14 14 35.1
X8.48S
i6
20 48 40.82
3.0388
22 40 35.2
8.807
16
22 21 48.31
1.8558
14 2 8.1
ia.479
I?
20 50 43.02
3.0344
22 31 43.9
8.903
17
22 23 39.54
1.8534
13 49 37.6
ia.535
i8
20 52 44.95
3.0399
22 22 46.9
8.998
18
22 25 30.60
1.8497
13 37 3.8
X3.59*
19
20 54 46.61
8.0254
22 13 44.2
9.093
19
22 27 21.50
1.8471
13 24 26.6
13.647
20
20 56 48.00
3.0310
22 4 35.8
9.187
20
22 29 12.25
X.8446
13 II 46.1
18.703
21
205849.13
8.0166
21 55 21.8
9.379
2Z
22 31 2.85
X.842X
12 59 2.4
18 756
22
21 0 49.99
3.0X33
21 46 2.3
9.371
22
22 32 53.30
X.8396
12 46 15.4
X3.809
23
2Z 2 50.59
3.0078
S.21 36 37.3
9.463
23
22 34 43.60
1.8371
S.1233 25.3
18.868
TU
ESDA
Y 2.
THl
JRSD.
\Y 4.
O
21 4 50.93
8,0035
S.21 27 6.8
9.553
0
22 36 33.76
X.8348
S.12 20 32.0
18. 913
I
21 6 51.01
Z.9991
21 17 31.0
9.643
I
22 38 23.78
X.8336
12 735.7
X8.964
2
21 8 50.82
1.9947
21 7 49.8
9.731
a
22 40 13.67
1.8304
" 54 36.3
13.015
3
21 10 50.37
1.9903
20 58 3.3
9.8x8
3
2242 3.43
1.8383
1141 33.9
13.064
4
21 12 49.66
Z.986X
20 48 1 1.6
9-904
4
22 43 53.06
1.8363
II 28 28.6
X3.113
5
21 14 48.70
X.9818
20 38 14.8
9.990
5
224542.57
X.8843
II 15 20.4
13. i6x
6
21 16 47.48
X.9776
20 28 12.8
10.076
6
22 47 31.96
t.8283
II 2 9.3
13.308
7
21 18 46.OX
1.9733
20 18 5.7
10.Z60
7
22 49 21.24
X.8803
10 48 55.4
13.455
8
21 20 44.28
X.9691
20 7 53.6
10.843
8
22 51 10.40
X.8Z85
10 35 38.7
13.303
9
21 22 42.30
X.9649
19 57 36.5
XO.337
9
22 52 59.46
1.8x68
10 22 19.2
13.348
lO
21 24 40.07
X.9608
19 47 14.4
XO.408
10
22 54 48.41
1.8151
10 8 57.0
I3.39t
II
21 26 37.59
1.9567
19 36 47.5
ZO.488
II
22 56 37.27
1.8135
9 55 32.2
13.435
12
21 28 34.87
1.9536
19 26 15.8
10.568
12
22 58 26.03
X.8119
942 4.8
13.478
13
21 30 31.90
X.9485
19 15 39.3
10.647
13
23 0 14.70
x.8tos
9 28 34.9
13.5*)
14
21 32 28.69
X.9446
19 4 58.1
10.736
H
23 2 3.29
X.809X
9 15 2.4
13.563
15
21 34 25.25
x.940«
18 54 12.2
10.803
15
23 3 51-79
Z.8078
9 I 27.4
13.603
x6
21 36 21.56
Z.9366
1843 21.7
10.880
16
23 5 40.22
1.806s
8 47 50.0
13.643
17
21 38 17.64
1.93*7
18 32 26.6
10.957
17
23 7 28.57
1.8053
8 34 10.2
13.683
i8
21 40 13.49
X.9388
18 21 26.9
ZI.033
18
23 9 16.85
Z.804S
8 20 28sO
i3.7«
19
21 42 9.10
1.9350
18 10 22.8
ZI.105
19
23 II 5.07
1.803X
8 643.5
13.760
20
21 44 4.49
X.93X3
17 59 14.3
XX.X78
20
23 12 53.22
X.808X
7 52 56.8
13.798
21
21 45 59.65
X.9174
17 48 1.4
11.353
21
23 144^-32
Z.8013
7 39 7.8
13.835
22
2X 47 54.58
1.9137
17 36 44.1
11.333
22
23 16 29.36
X.8003
7 25 16.6
13.871
23
21 49 49.30
X.9XOX
17 25 22.6
".394
23
23 18 17.36
1.7996
7 II 23.3
13.906
24
21 51 43-79
1.9064
S.17 13 56.8
11.464
24
23 20 5,31
1.7989
S. 6 57 27.9
X3.941
VI.
JULY, 1912.
79
GREENWICH MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
DifF.
Diff.
Diff.
Hour.
Right Ascension.
for
Declination.
for
Hour.
Right Ascension.
for
Declination.
for
■
z Min.
xMin.
X Min.
xMin.
FJ
RIDA^
f 5.
SUNDAY 7.
h m 8
B
Of tt
It
h m 8
8
e » w
••
O
23 20 5.31
1.7989
S. 6 57 27.9
13.941
0
0 47 8.22
X.8603
N. 4 38 Z4.5
14.759
I
23 21 53.23
X.7983
6 43 30.4
13.975
Z
0 48 59.93
1.8636
4 53 0.0
14.757
2
23 23 41. 1 1
I.7W7
6 29 30.9
X4.008
2
0 50 51.85
Z.867Z
5 7 45-3
14.753
3
23 25 28.96
1.797*
6 Z5 29.4
14.043
3
0 52 43.98
X.8707
5 22 30.3
14.748
4
23 27 16.78
X.7968
6 z 25.9
14.074
4
0 54 36.33
1.8743
5 37 15. 1
14.744
5
23 29 4.58
X.7966
5 47 20.6
14.104
5
0 56 28.90
1.878Z
5 51 59-6
14.738
6
23 30 52.37
X.7963
5 33 13-4
14.135
6
0 58 2Z.70
1.8819
6 6 43.6
14.730
7
23 32 40.14
x.796a
5 19 4-4
14.164
7
z 0 Z4.73
X.8858
6 2Z 27.2
X4.7aa
8
23 34 27.91
X.796X
5 453.7
14.193
8
Z 2 8.00
X.8898
6 36 Z0.3
14.713
9
23 36 15.67
X.796X
4 50 4Z.2
X4.323
9
X 4 1.51
X.8940
6 50 52.8
14.703
lO
23 38 3-44
1.796a
4 36 27.0
X4.85X
zo
I 555.28
1.8983
7 534.7
14.693
ZI
23 39 51-21
1.7963
4 22 zz.z
X4.377
IZ
I 7 49-30
1.9026
7 20 X5.9
X4.68X
12
23 41 38.99
1-7965
4 7 53*7
14.303
Z2
I 9 43-59
1.9070
7 34 56.4
Z4.668
13
23 43 26.79
1.7968
3 53 34-7
14.330
13
z zz 38. Z4
1.9115
7 49 36. z
14.653
14
23 45 14.61
X.7973
3 39 14- 1
14.355
14
JC 13 32.97
1.9x63
8 4 Z4.9
X4.638
15
23 47 2.46
X.7977
3 24 52. 1
14.378
15
z Z5 28.08
1.9208
8 z8 52.7
14.623
i6
23 48 50.33
x.798a
3 10 28.7
14.403
z6
z Z7 23.47
1.9256
8 33 29.5
X4.606
17
23 50 38.24
X.7988
2 56 3.8
X4.4a6
17
X Z9 X9.Z5
1.9305
848 5-3
14.587
i8
23 52 26.19
X.7996
2 41 37.6
14.447
18
I 2Z Z5.Z3
1.9355
9 239.9
14.568
19
23 54 14.19
I.80Q3
2 27 ZO.Z
X4.468
19
z 23 ZZ.4Z
1.9406
9 17 13.4
14.548
20
23 56 2.23
X.80X2
2 Z2 41.4
14.489
20
z 25 8.00
1.9458
9 31 45.6
X4.5a6
21
23 57 50.33
x.8on
z 58 ZZ.4
14.510
2Z
I 27 4.90
Z.95X0
9 46 16.5
14.503
22
23 59 38.49
Z.8032
z 43 40.2
14. 529
22
Z 29 2.12
1.9563
zo 0 45.9
14.478
23
0 I 26.71
X.8043
S. I 29 7.9
14.547
23
z 30 59.66
X.9618
N.zo Z5 Z3.9
14.454
SAl
rURDi
\y 6.
M(
3NDA
Y 8.
0
0 3 15.01
X.80S6
S. z 14 34.5
14.565
0
I 32 57.54
1.9674
N.zo 29 40.4
14.428
I
0 5 3.38
X.8068
Z 0 o.z
14.582
Z
I 34 55.75
1.9731
Z044 5.3
14.401
2
0 6 51.83
1.8082
0 45 24.6
14.599
2
I 36 54.31
1.9788
zo 58 28.5
14.37a
3
0 8 40.36
X.8096
0 30 48.2
X4.6X4
3
I 38 53.21
X.9846
zz Z2 49.9
14.34a
4
0 zo 28.98
X.8IZX
0 z6 Z0.9
14.628
4
z 40 52.46
1.9906
ZZ 27 9.5
14.311
5
0 Z2 17.69
x.SzaS
S. 0 I 32.8
14.643
5
X 42 52.08
1.9967
ZZ 41 27.2
14.378
6
0 14 6.51
1.8x45
N. 0 Z3 6.2
14.657
6
z 44 52.06
2.0038
" 55 42.9
14.845
7
0 15 55-43
X.8I63
0 27 46.0
14.669
7
z 46 52.41
2.0089
Z2 9 56.6
14.210
8
0 Z7 44.46
Z.8I83
0 42 26.5
14.681
8
I 48 53.13
2.0x52
Z2 24 8.Z
14.174
9
0 Z9 33.6Z
z.8ao2
057 7.7
Z4.693
9
z 50 54.24
2.0217
12 38 Z7.5
14.137
10
0 2Z 22.88
X.8223
z zz 49.5
14.70a
zo
I 52 55.73
2.0383
Z2 52 24.5
14.098
11
0 23 Z2.27
1.8143
z 26 3Z.9
14.711
ZI
I 54 57.62
3.0348
13 6 29.2
Z4.058
12
0 25 1.79
x.8a65
z 4z 14.8
14.719
Z2
z 56 59.9Z
2.0415
Z3 20 3Z.4
14.016
13
0 26 5Z.45
1.8288
I 55 58.2
14.727
13
z 59 2.60
2.0483
13 34 31-1
13.973
H
0 28 41.25
1.33x3
2 zo 42. z
14.735
14
2 z 5.70
3.0551
Z3 48 28.1
13*928
15
0 30 3Z.2O
1.8338
2 25 26.4
14.741
15
2 3 9.2Z
2.0631
Z4 2 22.4
13.883
i6
0 32 21.30
X.8363
2 40 ZI.O
14.746
z6
2 5 13.15
3.0692
14 z6 Z4.0
13.836
17
0 34 ZI.56
1.8390
2 54 55.9
14.751
17
2 7 17.51
2.0763
Z4 30 2.7
13.787
i8
0 36 1.98
1.84x8
3 9 41. 1
14.755
z8
2 9 22.30
3.083s
Z4 43 48.4
13.737
19
0 37 52.57
1.8446
3 24 26.5
14.757
19
2 ZZ 27.53
2.0908
14 5731.1
13.685
20
0 39 43.33
1.8475
3 39 12.0
14.759
20
2 Z3 33.20
a. 0983
Z5 zz 10.6
13.633
21
0 41 34.27
1.8505
3 53 57.6
X4.761
21
2 Z5 39.3Z
2.X057
Z5 24 46.9
13.577
22
0 43 25.39
1.8537
4 843.3
14.761
22
2 Z7 45.88
2.XX33
Z5 38 Z9.8
13.521
23
045 16.7Z
1.8569
4 23 28.9
14.760
23
2 Z9 52.91
3.X2I0
15 51 49.4
13.463
24
0 47 8.22
X.8602
N. 4 38 Z4.5
14.759
24
2 22 0.40
3.X388
N.z6 5 Z5.4
13.403
80
JULY, 1912.
VII
GREENWICH MEAN- TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DiflF.
Diff.
DifF.
Diff.
Hour.
Right Ascension.
for
xMin.
Declination.
for
xMin.
Hour.
Right Ascension.
for
xMin.
Declination.
for
xMin.
TUESDAY 9.
THURSDAY 11.
h m 8
■
or M
n
h m 8
a
0 f m
m
O
2 22 0.40
3.xa88
N.16 5 15.4
13.403
0
4 14 19.27
8.5^6
N.as 5 50.9
8.358
I
2 24 8.36
a. 1366
16 i8 37.8
13.34a
I
4 16 53.36
•.57a8
25 14 7.8
8.«os
2
2 26 16.79
8.X444
16 31 56.5
I3.a79
2
4 19 28.00
2.58x9
25 22 15.2
8.044
3
2 28 25.69
2.1524
16 45 11.4
i3.ai5
3
422 3.19
8.59x0
25 30 13. 1
7.884
4
2 30 35.08
2.1605
16 58 22.4
13.150
4
4 24 38.92
2. 6000
25 38 1.3
7-7aa
5
2 32 44.95
a. 1687
17 II 29.3
X3.082
5
4 27 15.19
2.6088
25 45 39-8
7-558
6
2 34 55.32
2.1770
17 24 32.1
13.0x3
6
4 29 51.98
2.6x76
25 53 8.3
7.39a
7
237 6.19
8.X853
17 37 30.7
X2.942
7
4 32 29.30
a. 6263
26 0 26.8
7.884
8
2 39 17.56
a. 1937
17 50 25.1
12.869
8
4 35 7.14
a.6349
26 7 35.2
7.054
9
2 41 29.43
2.902X
18 3 15.1
X2.795
9
4 37 45.49
8.6434
26 14 33.3
6.888
lO
2 43 41.81
2.2107
18 16 0.5
X2.7X8
10
4 40 24.35
8.65x9
26 21 21.0
6.707
II
2 45 54.71
2.2X93
18 28 41.3
12. 640
II
4 43 3.72
a. 6602
26 27 58.9
6.531
12
2 48 8.12
2.2279
18 41 17.3
12.560
12
4 45 43.58
2.6684
26 34 24.7
6.353
13
2 50 22.06
2.3367
18 53 48.5
ia.478
13
4 48 23.93
2.6765
2640 40.5
6.X73
M
2 52 36.52
a. 2454
19 6 14.7
X2.395
M
4 51 4.76
2.6645
264645.5
5-991
15
2 54 51.51
a. 2542
19 18 35.8
X2.309
15
4 53 46.07
a. 6923
26 52 39.4
5.807
i6
2 57 7.03
2.2632
19 30 5i«8
X2.222
16
4 56 27.84
2.7000
26 58 22.3
5.62a
17
2 59 23.09
2.2782
1943 2.5
ia.x33
17
4 59 10.07
a. 7075
27 3 54.0
5.433
i8
3 I 39-70
2.2812
19 55 7.8
X2.042
18
5 I 52.74
a.7148
27 9 14.3
5. 143
19
3 3 56.85
2.2903
20 7 7.5
11.948
19
5 4 35.85
2.7222
27 14 23.2
5.05a
20
3 6 14.54
«.a994
20 19 1.6
11.853
20
5 7 19.40
•.7a93
27 19 20.6
4.860
21
3 832.78
2.3087
20 30 49.9
11.757
21
5 xo 3.37
a.73«3
27 24 6.4
4.666
22
3 10 51.58
2.3179
20 42 32.4
11.658
«22
5 12 47.75
a.7430
27 28 40.5
4.469
23
3 13 10.93
2.3272
N.20 54 8.9
11.558
23
5 15 32.53
a.7496
N.2733 2.7
4.871
WED]
NESD
AY 10. 1
FB
!IDAY
12.
o
3 15 30.84
a. 3365
N.21 539.3
11.454
0
5 18 17.70
8.7561
N.27 37 13,0
4.07*
I
3 17 51.31
2.3458
21 17 3.4
11.349
I
5 21 3.26
8.76S3
27 41 11.3
3.871
2
3 20 12.34
2.335a
21 28 21.2
ii.a43
2
52349.18
a. 7683
27 44 57.5
3.66B
3
3 22 33.94
a. 3647
21 39 32.5
11.133
3
5 26 35.46
a.774«
27 48 31.4
3.463
4
3 24 56. 1 1
a. 374a
21 50 37.2
XX. 02a
4
5 29 22.08
2.7798
2751 53.1
3.258
5
3 27 18.84
a. 3837
22 I 35.2
10.909
5
532 9.04
a. 7853
27 55 2.4
3.05a
6
32942.14
a. 3931
22 12 26.3
10.794
6
5 34 56.32
8.7907
27 57 59-3
2.844
7
3 32 6.01
2.4026
22 23 10.5
XO.677
7
5 37 4392
a. 7957
28 0 43.7
a.635
8
3 34 30.45
a.4122
22 33 47.5
10.557
8
5 40 31.81
2.8005
28 3 15.5
2.484
9
3 36 55.47
2.42x8
22 44 17.3
X0.436
9
5 43 19.98
2.8052
28 5 34.6
2.812
lO
3 39 21.06
2.4313
22 54 39.8
10.313
10
546 8.43
a.Qo9y
28 7 40.9
1.999
II
3 41 47.22
2.4408
23 4 54.8
X0.X87
II
5 48 57. 14
8.8138
38 9 34.5
1.766
12
3 44 13.96
2.4504
23 15 2.2
X0.059
12
5 51 46.09
2.8x78
28 II 15.2
1.570
13
3 46 41.27
2.4600
23 25 1.9
9.9*9
13
5 54 35.28
2.82x7
28 12 42.9
1.354
M
3 49 9.15
a. 4695
23 34 53.7
9.797
14
5 57 24.69
2.8252
28 13 57.7
1. 138
15
3 51 37.61
2.4790
2344 37-5
9.663
15
6 0 14.30
2.8284
28 14 59.5
0.9S0
i6
3 54 6.64
2.4886
23 54 13.2
9.5a6
16
6 3 4.10
2.83x5
28 15 48.1
0.701
17
3 56 36.24
2.498X
24 3 40.6
9.388
17
6 5 54.08
a. 8343
28 16 23.6
0.482
i8
3 59 6.41
a. 5076
24 12 59.7
9.247
18
6 8 44.22
a. 8368
28 16 46.0
0.863
19
4 137.15
2.5x70
24 22 10.2
9.103
19
6 II 34.50
2.8392
28 16 55.2
+0.043
20
4 4 8.45
a. 5263
24 31 I2.I
8.959
20
6 14 24.92
2.8413
28 16 51.2
-0.178
21
4 6 40.31
a. 5358
2440 5.3
8.813
21
6 17 15.46
2.8432
28 16 33.9
0.399
22
4 9 12.74
2.545a
24 48 49.6
8.663
22
6 20 6.10
2.8448
28 16 3.3
0.62X
23
4 " 45.73
a. 5544
24 57 24.8
8.51X
23
6 22 56.83
2.8462
28 15 19.4
0.843
24
4 14 19.27
2.5636
N.25 5 50.9
8.358
24
6 25 47.64
a.8473
N.28 14 22.2
X.0G6
VIII.
JULY, 1912.
GREENWICH MEAN TIME.
81
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Atceosion.
Diif.
for
xMin.
DeclinaUon.
Diif.
for
iMin.
Hour.
Right Ascension.
Diff.
for
E Min.
Declination.
Diff.
for
[ Min.
O
I
2
3
4
5
6
7
8
9
lO
II
12
13
14
15
i6
17
i8
19
20
21
22
23
o
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
SATURDAY 13.
h
6
6
6
6
6
6
6
6
6
6
6
6
6
7
7
7
7
7
7
7
7
7
7
7
m
25
28
31
34
37
40
42
45
48
51
54
57
59
2
5
8
II
14
x6
19
22
25
28
31
s
s
47.64
«.8473
38.51
3.8482
29.43
3.8488
20.37
3.8491
11.32
3.8493
2.28
3.8493
53.23
3.8488
44.14
3.8483
35.01
3.8473
25.82
3.8463
16.56
3.8450
7.22
a. 8434
57-77
3.84x6
48.21
3.8395
38.51
3.8373
28.67
3.8347
18.67
3.83x9
8.50
3.8389
58.14
3.8357
47.59
3.8333
36.82
3.8x87
25.83
3.8x48
14.60
3.8x08
3. 13
3.8066
N.28 14
28 13
II
10
8
6
3
I
7 33 51.
7 36 39.
7 39 27.
7 42 14.
7 45 I.
7 47 48.
7 50 34.
7 53 20.
28
28
28
28
28
28
2758
2755
27 52
2749
2745
2741
2737
«7 33
27 28
27 24
27 19
27 14
27 8
27 3
26 57
N.26 51
SUNDAY 14.
N.26 45
26 38
7
7
8
8
8
8
56 6.
5852.
1 37.
4 21.
7 6.
949.
8 12 33.
8 15 16.
8 17 59.
8 20 41.
8 23 23.
8 26 4.
8 28 45.
8 31 25.
834 5.
8 36 45.
8 39 24.
39
38
08
48
58
36
81
93
69
10
14
80
07
95
42
48
13
35
14
49
39
85
85
39
46
3.803X
«.7974
3.7935
3.7875
3.78^3
3.7769
3.77x4
3.7657
3.7598
3.7538
a.7475
3.74XX
3.7346
a.7379
3.73XX
3.7148
3.7073
3.700X
3.6938
S.6854
3.6780
3.6705
3.6638
3.655X
26 32
26 25
26 18
26 II
26 3
25 56
2548
2540
2531
25 23
25 14
25 6
2457
2448
2438
24 29
24 19
24 g
23 59
2349
2338
23 28
8.6473 1N.23 17
22.2
II. 6
47.7
10.4
19.7
15.7
58.4
27.7
43.7
46.4
35.8
12.0
34.9
44.6
41. 1
24-5
54.9
12.2
16.6
8.0
46.6
12.4
25-5
25.9
13.8
49.1
12.0
22.6
20.9
7.0
41. 1
3-2
13.4
II. 8
58.6
33.8
57.5
9.9
II. o
I.I
40.1
8.3
25.7
32.5
28.7
14.6
50.3
15.8
31.3
x.o66
X.S88
Z.5X0
X.733
1.956
3.X78
3. 400
3.633
a.844
3.066
3.«87
3.50S
3.738
3.948
4.X67
4.385
4.608
4.819
5.033
5.350
5.463
5.676
5.888
6.098
6.307
6.515
6.73X
6.936
7.X30
7.333
7.53a
7.73X
7.938
8.133
8.3x7
8.509
8.699
8.886
9.073
9.358
9.440
9.630
9.798
9.975
«>.X49
X0.330
XO.490
XO.658
xo.8f3
O
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
O
I
2
3
4
5
6
7
8
9
10
II
12
^3
14
15
16
17
18
19
40
21
22
23
24
h m
839
842
844
847
849
8 52
855
857
9 o
2
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
5
8
10
13
15
18
20
23
25
28
30
33
35
38
40
43
45
47
50
52
55
57
59
2
MONDAY 15.
■ 8
24.46 3.6473
3.06 3.6393
41.18 3.63x3
18.82 3.6333
55.98 3.6x53
32.65 8.607X
8.83 3.5989
44.52 a. 5907
19.71 3.5833
54.40 3.5741
28.60 3.5657
2.29 8.5573
35.48 3.5489
8.16 3.5405
40.34 3.5333
12.02 3.5238
43.19
13.85
44.00
13.65
42.80
11.44
39.57
7.21
8.5153
8. 5068
8.4983
3.4900
3.48x6
3.473X
3.4648
3.4564
N.23 17
23 6
22 55
2244
22 32
22 21
22 9
21 57
21 45
21 33
21 21
21 9
20 56
2043
20 30
20 17
20 4
951
938
924
9 II
857
843
8 29
N.
TUESDAY
4
7
9
II
14
16
18
21
23
o 25
o 27
o 30
o 32
034
037
34.34
3.4480
0.97
3.4398
27.11
8.43x5
52.75
a.4a33
17.90
8.4150
42.55
8.4068
6.72
3.3987
30.40
3.3907
53.60
3.3837
16.32
a. 3747
38.56
3.3668
0.33
3.3589
21.63
3.35x1
42.46
3.3433
2.83
a.3357
22.74
3.3a8x
42.20
3.3806
1. 21
3.3131
19.77
a. 3057
37.89
3.3983
55.57
3.39XX
12.82
3.8839
29.64
8.3768
46.03
3.2698
2.01
3.3628
N.
N,
6.
815
8 I
7 47
7 33
18
4
49
34
19
4
49
5 34
4
4
3
3
3
2
19
4
:4 49
^4 33
18
2
47
31
15
59
244
:2 28
12
31.3
37.0
32.9
19.3
56.2
23.8
42.2
51.7
52.2
44.0
27.1
1.8
28.2
46.4
56.6
58.9
53.5
40.5
20.0
52.2
17.2
35.2
46.4
50.8
48.6
40.0
25.1
4.0
36.9
4.0
25.3
41.0
51.3
56.3
56.1
50.9
40.8
25.9
6.5
42.5
14.2
41.6
5.0
24.4
40.0
51.9
0.3
5.2
6.8
X0.833
10.987
IX. 147
XX. 306
XX.463
XX.6X7
XX. 768
XI.917
12.064
X3.80g
X3.353
I3.49Z
X2.628
12.763
12.896
X3.036
13.153
i3'«79
13.40a
13.533
13.641
13.757
13.870
X3.98X
14.090
14.196
14.300
14.40a
14.500
14.597
14.69a
14.783
14.87a
14.960
15.045
X5.X88
x5.ao8
X5.866
XS.363
15.436
15.507
15.376
15.643
15.708
15.771
15.831
15.889
15.946
X6.000
I912-
82
JULY, 1912.
IX.
GREENWICH MEAN TIMK
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DiiF.
Diff.
DiiF.
Diff.
Hour.
RiKhtAiceiisioii.
for
z Min.
Declination.
for
xMin.
Hoar.
Right Asceniion.
for
iMin.
Decliaatloa
for
1 Min.
WEDNESDAY 17.
FRIDAY
19.
h m s
s
Of M
w
h m s
s
Of 1*
t*
O
10 37 2.01
3.3698
N.I2 12 6.8
X6.O0O
0
Z2 19 23.67
3.0390
S. I 2 32.6
X6.475
I
10 39 17.57
2.3560
II 56 5.2
16.053
Z
12 21 25.94
8.0368
I 19 0.3
X6.448
2
1041 32.73
8.3493
II 40 0.6
z6.xo3
2
12 23 28.08
8.0346
1 35 26.3
16.4x9
3
10 43 47.48
3.3436
II 23 53.0
X6.XSO
3
12 25 30.09
a.05«4
I 51 50.6
16.389
4
10 46 1.84
3.3360
II 7 42.6
Z6.196
4
12 27 31.97
3.0303
2 8 13.0
16.358
5
10 48 15.80
3.3394
10 51 29.5
16.339
5
12 29 33.73
3.0284
2 24 33.6
16.337
6
10 50 29.37
3.3330
10 35 13.9
Z6.381
6
12 31 35.38
3.0366
2 40 52.2
16.393
7
10 52 42.56
3.3167
10 18 55.8
16.321
7
12 33 36.92
8.0348
257 8.7
16.358
8
10 54 55.37
3.8Z04
10 235.4
16.358
8
12 35 38.36
3.0233
3 13 23.1
16.333
9
10 57 7.81
3.3043
9 46 12.8
16.394
9
12 37 39.71
2.02x7
3 2935.3
16.185
lO
10 59 19.88
3.1983
9 29 48. 1
Z6.438
10
12 39 40.97
2.0203
3 45 45.3
16.147
II
II 131.59
3.1933
9 13 21.4
16.461
II
12 41 42.14
3.0188
4 1 52.9
16.107
12
11 342.95
3.1864
8 56 52.8
16.491
12
12 43 43.23
8.0175
4 17 58.2
16.067
13
II 5 53.96
3.1806
8 40 22.5
16.519
13
12 45 44.24
3.0163
4 34 1.0
16.035
14
II 8 4.62
3.1748
8 23 50. 5
16.546
14
124745.18
3.0153
4 50 1.2
15.983
15
iz 10 14.94
3.1693
8 7 17.0
16.570
15
12 49 46.06
3.0Z43
5 5 58.9
15-939
i6
II 12 24.93
3.2638
7 50 42. 1
16.593
16
12 51 46.88
2.0133
5 21 53.9
X5.893
17
II 14 34.60
3.1584
7 34 5.8
16.615
17
12 53 47.65
3.0x33
53746.1
15.847
i8
II 1643.94
«.i53i
7 17 28.3
16.634
18
12 55 48.36
3.01x5
5 53 35.6
X5.80X
19
II 18 52.97
2.1479
7 049.7
16.653
19
12 57 49.03
3.0x08
6 9 22.2
15.753
20
II 21 1.69
3.Z438
6 44 10. 1
16.667
20
12 59 49.66
3.0103
6 25 5.9
15.703
21
II 23 10. 10
a.iS77
6 27 29.6
16.68Z
21
13 I 50.26
3.0098
6 40 46.6
15.653
22
II 25 18.21
3.1338
6 10 48.4
X6.693
22
13 3 50.83
3.0093
6 56 24.3
15.603
«3
II 27 26.03
THL
3.1980
rRSDi^
N. 5 54 6.4
lY 1 8.
16.705
23
13 5 51.37
SAT
3.0089
URDA
S. 7 II 58.8
Y 20.
15.549
O
II 29 33-57
3.1333
N. 53723.8
16.714
0
13 751.90
3.0087
S. 7 27 30.2
X5-49«
I
II 31 40.83
3.XX87
5 20 40.7
16.731
I
13 9 52.41
9.00B5
7 42 58.3
X5.44X
2
II 33 47.81
3. ZI4X
5 3 57.2
16.727
2
13 11 52.92
3.0084
7 58 23.1
15.385
3
II 35 54.5a
3.1097
4 47 13.5
16.731
3
13 13 53.42
8.0083
8 13 44.5
X5.3a8
4
II 38 0.97
a.xo53
4 30 29.6
X6.733
4
13 15 53.92
3*0083
8 29 2.5
X5.873
5
II 40 7.16
8. lOZZ
4 1345.5
16.735
5
13 17 54.42
3.0084
8 44 17. 1
X5.31S
6
II 42 13.10
3.U969
3 57 1.4
X6.734
6
13 19 54.93
3.0067
8 59 28.1
X5.153
7
II 44 18.79
3.0938
3 40 17.4
16.733
7
13 21 55.46
3.0090
9 1435.5
X5.093
8
II 46 24.24
3.0889
3 23 33.6
16.738
8
13 23 56.01
3.0093
9 29 39.2
X5.031
9
II 48 29.46
3.0851
3 6 50.0
16.733
9
13 25 56.58
8.0098
9 44 39.2
X4.969
10
II 50 34.45
3.0813
2 50 6.8
16.717
10
132757.18
3.0x03
9 59 35.5
14.906
IX
II 52 39.22
3.0777
2 33 24.0
16.708
II
13 29 57.82
3.0x09
10 14 27.9
14.84X
12
11 5443.77
3.0741
2 16 41.8
X6.698
12
13 31 58.49
8.0x15
10 29 16.4
14.776
13
II 56 48.11
3.0707
2 0 0.2
16.687
13
13 33 59.20
3.0x33
10 44 I.O
14.709
14
II 58 52.25
8.0673
I 43 19.3
16.675
14
13 35 59.96
3.0x31
10 58 41.5
X4.648
15
12 0 56.19
3.064Z
I 26 39.2
x6.66x
15
13 38 0.77
8.0139
II 13 18.0
X4.574
x6
12 2 59.94
3.0609
I 10 0.0
16.646
16
13 40 1.63
3.0x48
II 27 50.4
X4.505
17
la 5 3.50
3.0578
0 53 21.7
16.630
17
1342 2.55
3.0x58
IZ 42 18.6
X4.435
i8
12 7 6.88
8.0548
0 36 44.4
16.61X
18
1344 3.53
8.0x69
II 56 42.6
14.364
19
12 9 10.08
3.0519
0 20 8.3
16.593
19
1346 4.58
3.ox8x
12 II 2.3
X4.398
20
12 IZ Z3.IZ
3.0493
N. 0 3 33.4
16.571
20
1348 5.70
3.0x93
12 25 17.7
14.8x9
21
Z2 13 15.98
3.0466
S. 0 13 0.2
16.549
21
13 50 6.89
3.0305
12 39 28.6
14.145
22
12 15 18.70
3.0440
0 29 32.5
16.536
22
Z3 52 8.16
3.08I9
12 53 35.1
X4.071
«3
12 17 21.26
3.04X4
046 3.3
16.301
23
13 54 9.52
3.08S3
13 737.1
13.996
34
12 19 23.67
3.0390
S. I 2 32.6
16.475
24
13 56 X0.96
3.0B48
S.I3 21 34.6
X3.9SO
X.
JULY, 1912.
GREENWICH MEAN TIME.
83
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Right Ascansion.
Diff.
for
X Min.
Declinmtion.
Diff.
for
z Min.
Hoar.
Right Ascension.
Diff.
for
z Min.
Declination.
Diff.
for
I Min.
SUNDAY 21.
TUESDAY 23.
h m s
s
0 « »
0
13 56 io«96
3.0148
S.I3 21 34.6
I
13 58 12.49
a. 0363
13 35 27.5
2
14 0 14.12
a. 0279
13 49 15.7
3
X4 2 15.84
a.oa95
14 2 59.1
4
14 4 17.66
a.«3xa
14 16 37.8
5
14 6 19.59
a.o33o
14 30 11.7
6
14 8 21.62
8.0348
14 43 40.8
7
14 10 23.77
8.0368
14 57 4.9
8
14 12 26.04
8.0387
15 xo 24.0
9
14 14 28.42
a.0407
15 23 38.1
10
14 16 30.92
8.0487
15 36 47-1
II
14 18 33-55
8.0448
15 49 5X-0
12
14 20 36.30
8.0469
x6 2 49.7
13
14 22 39.18
a.Q498
16 15 43.2
14
14 24 42.20
a.05^4
x6 28 31.4
15
14 26 45.35
a.0537
x6 41 14.2
16
14 28 48.64
8.0S60
16 53 51-7
17
14 30 52.07
a.0584
17 6 23.7
18
14 3a 55-65
a.o6o8
X7 18 50.3
19
14 34 59.37
8.0633
17 31 "-3
20
M 37 3-24
8.0658
17 43 26.7
21
1439 7-26
a.0683
175536.5
22
1441 11.44
8.0710
z8 7 40.6
23
14 43 15.78
8.0736
S.z8 19 39.0
MO
INDA\
^ 22.
0
1445 20.27
a.076a
S.18 31 31.6
I
14 47 24.92
a. 0789
18 43 18.4
2
14 49 29.74
a.0817
x8 54 59.3
3
14 51 34.72
a. 0843
19 6 34.2
4
14 53 39-86
8.0871
19 18 3.2
5
14 55 45-17
a.0900
19 29 26.2
6
14 57 50.66
8.0939
19 40 43.1
7
14 59 56.32
8.0958
19 51 53.9
8
15 2 2.15
8.0986
20 2 58.5
9
15 4 8.15
a.iois
20 13 56.9
10
15 6 14-33
3.Z044
20 24 49. 1
II
15 8 20.69
8.1074
20 35 34.9
12
15 10 27.22
a.xi04
20 46 14.4
13
15 12 33.93
a.iZ33
20 56 47.5
14
15 Z4 40.82
a.1164
21 7 14.2
15
15 16 47.90
8.1X95
21 17 34.4
16
15 18 55.16
a. zaas
21 27 48.0
17
15 21 2.60
a.zass
21 37 55-1
18
15 23 10.22
8.xa8s
21 47 55.5
19
15 25 18.02
8.X3Z6
21 57 49.3
20
15 27 26.01
2.1347
22 7 36.3
21
152934.19
8.1378
22 17 16.6
22
15 31 42.55
8.Z408
22 26 50.1
a3
15 33 51-09
t.Z439
22 36 16.8
84
15 35 59.82
a.z47o
S.22 45 36.5
13.920
13.842
13.763
13.684
13.605
13.585
13.443
13.360
13.877
X3.193
13.108
13. 088
18.935
ia.847
18.738
ia.669
12.579
18. 488
18.397
18.303
ia.8zo
xa.ii6
la.oai
11.935
1X.828
11.731
11.633
11.533
11.433
11.333
11.331
XZ.138
X1.035
10.933
10.817
10.711
10.605
10.498
10.391
10.883
Z0.173
10.063
9.9Sa
9.840
9*7*7
9.615
9.503
9.387
9.871
O
I
2
3
4
5
6
7
8
9
10
IX
12
13
15
16
17
18
19
20
2X
22
23
O
I
2
3
4
5
6
7
8
9
10
XI
12
13
14
15
x6
17
18
19
20
21
22
23
24
h
5
5
5
5
5
5
5
5
5
5
5
5
6
6
6
6
6
6
6
6
6
6
6
6
m
35
38
40
42
44
46
48
51
53
55
57
59
I
4
6
8
xo
Z2
15
17
19
21
23
26
s
59.82
8.73
17-83
27. H
36.57
46.22
56.05
6.06
X6.26
26.63
37. X9
47.92
58.83
9.91
21. X7
32.60
44.20
55.97
7.9X
20.01
32.28
44.70
57.29
10.03
a
a. 1470
3.1501
«.i53a
3.1568
8.1593
8.1633
3.165s
3.1684
8.X7X4
3.1744
3.1774
8.1803
8.1833
3.186a
8.1891
8. 1919
8.1948
8.1976
8.8003
8.8031
8.8O58
8.3084
3.3IZ1
8.8137
22 45 36.5
9.371
22 54 49.3
9.156
23 3 55.2
9.040
23 12 54.x
€.983
a3 21 45.9
8.804
23 30 30.6
8.685
23 39 8.x
8.566
23 47 38.5
8.446
23 56 X.6
8.335
24 4 17. 5
8.804
24 12 26.1
8.088
24 20 27.3
7.958
24 28 21. X
7.835
2436 7.5
7.718
24 43 46.5
7.588
24 51 z8.o
7.46a
24 58 4X.9
7.336
25 558.3
7.ato
25 X3 7.1
7.083
25 20 8.2
6.955
25 27 1.7
6*837
«5 33 47.5
6.698
254025.5
6.569
25 46 55.8
6.439
WEDNESDAY 24.
6 28 22.93 ^."63 S.25 53 18.2
6 30 35-98 8.8188 25 59 32.8
6 32 49.18 3.3313 26 5 39.6
6 35 2.52 3.3336 26 XI 38.5
6 37 16.01 8.3360 26 17 29.4
6 39 29.64 8.8283 26 23 12.3
6 41 43.40 3.8305 26 28 47.3
6 43 57.30 3.8387 26 34 14.3
6 46 11. 33 3.8348 26 39 33.3
6 48 25.48 3.8369 26 44 44.2
6 50 39.76 3.8390 26 49 46.9
6 52 54.16 3.3410 26 54 41.6
655 8.68 8.3439 265928.1
6 57 23.31 8.3448 27 4 6.4
6 59 38.05 8.3466 27 8 36.6
7 I 52.90 a.8483 27 12 58.6
7 4 7.85 8.3499 27 17 X2.4
7 6 22.89 >.>sz5 27 21 17.9
7 8 38.03 3.853X 27 25 1 5.x
7 10 53.26 3.3546 27 29 4.0
7 13 8.58 8.8559 27 32 44.6
7 X5 23.97 «.«57a 27 36 16.9
7 17 39.44 8.3584 27 39 40.9
7 19 54.98 8.8596 27 42 56.5
72210.59 3.3607 S.27 46 3.8
6.308
6.178
6.047
5.915
5.783
5.6^9
5.516
5.383
5.849
5.X13
4.978
4.843
4.707
4.571
4-434
4.398
4.16Z
4.«3
3.684
3-746
3.607
3.468
3*330
3.191
3.053
84
JULY, 1912.
XI.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right AscanBion.
for
zMin.
Declination.
for
X Min.
Hour.
Right Aacension.
for
xMin.
Declination.
tor
X Min.
THURSDAY 25.
SATURDAY 27.
h m 8
8
0 t n
•»
h m B
8
e t n
n
O
17 22 10.59
8.2607
S.27 46 3.8
3.052
0
19 10 22.77
3.3Z59
S.27 31 16.5
3.6OX
I
17 24 26.26
2.S617
2749 2.7
2.912
I
19 12 35.64
3.8X30
27 27 36.5
3.73a
2
17 26 41.99
3. 3696
27 51 53-2
2.772
2
19 14 48.33
2.3ZOI
27 23 48.7
3.86a
3
17 28 57.77
8.8634
27 54 35-3
2.632
3
19 17 0.85
2.207X
27 19 53.0
3.99a
4
17 31 13-60
2.264a
27 57 9.0
a.491
4
19 19 13.18
2.3040
27 15 49-6
4. 122
5
17 33 39.48
2.2650
27 59 34.2
2.350
5
19 21 25.33
2.2009
27 II 38.4
4.251
6
17 35 45'40
8.8656
28 I 51.0
2.210
6
19 23 37.29
2.1977
27 7 19.5
4.379
7
1738 1.35
2.266X
28 3 59.4
3.070
7
19 25 49.05
2.X944
27 2 52.9
4-507
8
17 40 17.33
2.3666
28 5 59.4
1.939
8
19 28 0.62
a. 19x1
26 58 18.7
4-^
9
17 42 33.34
2.3670
28 7 50.9
1.788
9
19 30 11.98
2.X877
26 53 36.9
4.760
lO
17 44 49.37
2.3673
28 933-9
X.647
10
1932 23.14
2.X843
26 48 47.5
4.886
II
1747 5.42
3.2675
28 II 8.5
1.506
II
1934 34-10
2.1809
26 43 50.6
5.0x1
12
17 49 21.47
2.2675
28 12 34.6
1.364
12
19 36 44.85
a. 1773
26 38 46.2
5.135
13
17 51 37-52
2.3676
28 13 52.2
1.223
13
19 38 55-38
2.X738
26 33 34-4
5.a59
14
17 53 53.5«
2.2676
28 15 1.4
X.083
14
19 41 5.70
2.1703
26 28 15. 1
S.Sto
15
17 56 9.63
2.2674
28 16 2.1
0.942
15
19 43 15.80
8.X665
26 22 48.5
5.505
i6
17 58 25.67
2.2673
28 16 54.4
0.800
16
19 45 25.68
3.Z627
26 17 14.5
5-627
17
18 0 41.70
2.3669
28 17 38.2
0.659
17
19 47 35.33
3.1589
26 II 33.3
5.748
i8
18 2 57.70
2.3665
28 18 13.5
0.5x8
18
19 49 44.75
a-x55a
26 5 44.8
5.868
19
18 5 13.68
2.3660
28 18 40.4
0.377
19
19 51 53.95
3.X5X3
25 59 49.2
5.987
20
18 7 29.62
2.3654
28 18 58.8
0.837
20
19 54 2.91
3.1474
25 53 46.4
6.X06
21
18 945.53
2.2647
28 19 8.8
-0.097
21
19 56 11.64
a. 1435
25 47 36.5
6.824
22
18 12 1.39
2.2640
28 19 10.4
+0.044
22
19 58 20.13
a. 1395
25 41 19.5
6.34a
23
18 14 17.21
FF
2.8638
LI DAY
S.28 19 3.5
26.
0.185
23
20 0 28.38
SU
3.X355
NDAY
S.25 34 55.5
28.
6.458
o
18 16 32.98
3.3623
S.28 18 48.2
0.385
0
20 2 36.39
a- 13x5
S.25 28 24.6
6.573
I
18 18 48.69
3.3613
28 18 24.5
0.465
I
20 444.16
3.X274
25 21 46.7
6.688
2
18 21 4.34
3.2602
28 17 52.4
0.605
2
20 6 51.68
2.X333
25 15 2.0
6.803
3
18 23 19.92
2.2590
28 17 II. 9
0.744
3
20 8 58.96
2.1192
25 8 10.4
6.9x6
4
18 25 35.42
2.2578
28 16 23.1
0.883
4
20 II 5.99
2.XZ50
25 I 12. 1
7. 088
5
18 27 50.85
2.2565
28 15 25.9
X.023
5
20 13 12.77
2.1x08
24 54 7.0
7.140
6
18 30 6.20
2.3551
28 14 20.3
X.X62
6
20 15 19.29
2.1066
24 46 55.3
7.351
7
18 32 21.46
2.3536
28 13 6.5
1.300
7
20 17 25.56
2.1024
24 39 36.9
7.362
8
18 34 36.63
2.2530
28 II 44.3
1.439
8
20 19 31.58
2.0983
24 32 II. 9
7.471
9
18 36 51.70
3.3503
28 10 13.8
1.577
9
20 21 37.35
2.0940
24 24 40.4
7-579
lO
18 39 6.66
3,3485
28 8 35.0
1.715
10
20 23 42.86
2.0897
24 17 2.4
7.687
II
18 41 21.52
2.3467
28 6 48.0
Z.852
II
20 25 48.11
2.0833
24 9 17.9
7.794
12
18 43 36.27
3.3448
28 4 52.8
1.989
12
20 27 53.10
2.oBxo
24 I 27.1
7.899
13
18 45 50.90
3.3428
28 2 49.3
3.136
13
20 29 57.83
3.0767
23 53 30.0
8.005
14
18 48 5.41
2.3408
28 0 37.7
2.262
14
20 32 2.31
8.Q724
23 45 26.5
8.XX0
15
i8 50 19.79
2.3386
27 58 17.9
•.397
15
2034 6.53
8.0681
23 37 16.8
8.8X3
i6
18 52 34.04
3.3363
27 55 50.0
«-533
16
20 36 10.48
2.0637
23 29 0.9
8.3x6
17
18 5448.15
2.2340
27 53 13-9
3.669
17
20 38 14.17
a. 0593
23 20 38.9
8.4x7
i8
18 57 2.12
2.23x7
27 50 29.7
3.803
18
20 40 17.60
2.0550
23 12 10.8
8.5x8
19
18 59 15.95
a.t293
2747 37.5
a. 937
19
20 42 20.77
a.0507
23 3 36.6
8.619
20
19 X 29.63
8.8267
27 44 37-2
3.071
20
20 44 23.68
a. 0463
22 54 56.5
8.7x8
21
19 343.15
3.2241
27 41 29.0
3.«>3
21
20 46 26.33
3.0419
22 46 10.5
8.8x6
22
19 5 56- 52
2. 3215
27 38 12.8
3.337
22
20 48 28.71
8.0376
22 37 18.6
8.9x4
23
19 8 9.73
3.2X88
27 34 48.6
3.469
23
20 50 30.83
8.083a
22 28 20.8
9.011
24
19 10 22.77
3.2x59
S.27 31 16.5
3.601
24
20 52 32.69
8.0I88
S.22 19 X7.3
9.Z06
XII.
JULY, 1912.
85
GREENWICH MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour. Right Ascension. 1
for
Dacliaation.
for
Bour.
Right Ascension.
for
Dadination.
for
X Min.
iMin.
1 Min.
I Min.
MO
iNDA\
' 39. 1
WEDNESDAY 31.
h m 8
s
0 • «r
•»
h m 8
8
0 t n
m
o
20 52 32.69
a. 0288
S.22 19 17.3
9.106
0
22 25 17.05
1.8481
S.I3 28 24.4
13.684
I
20 54 34-29
a. 0844
22 10 8.1
9.aox
I
22 27 7.85
1.8453
13 15 41-7
X2.738
2
20 56 35.62
3.020Z
22 0 53.2
9. 895
2
22 28 58.49
1.8427
13 2 55.8
X2.79a
3
20 58 36.70
2.0x58
21 51 32.7
9.388
3
22 30 48.97
1.8400
12 50 6.7
la.844
4
21 037.52
2.0115
21 42 6.6
9.481
4
22 32 39.29
1.8374
1237 14-5
12.895
5
21 2 38.08
2.007a
21 32 35.0
9.573
5
22 34 29.46
1.8349
12 24 19.3
X2.946
6
21 4 38.38
fl.oofl8
21 22 57.9
9.663
6
22 36 19.48
1.8324
12 II 21.0
X2.996
7
21 6 38.42
Z.9985
21 13 15.5
9.75a
7
22 38 9.35
1.8300
II 58 19.8
13.045
8
21 8 38.20
z.994a
21 3 27.7
9.841
8
22 39 59.08
1.8376
II 45 15.6
13.093
9
21 10 37.73
z.9yoo
20 53 34-6
9*929
9
22 41 48.66
1.8253
II 32 8.6
13.14X
lO
21 12 37.00
1.9858
20 43 36.2
Z0.016
10
22 43 38.11
1.8330
II 18 58.7
13.188
II
21 14 36.02
1.98x5
30 33 32.7
Z0.102
II
22 45 27.42
1.8906
II 5 46.0
13.334
12
21 16 34.78
X.9773
20 23 24.0
10.187
12
22 47 16.61
1.8187
10 52 30.6
13.379
13
21 18 33.29
X.9732
20 13 10.2
xo.27a
13
2249 5-67
1.8166
10 39 12.5
13.3*3
H
21 20 31.56
X.9690
20 2 51.4
10.355
14
22 50 54.60
1.8x46
10 25 51.8
13.367
15
21 22 29.57
1.9648
19 52 27.6
10.437
15
22 52 43.42
1.8127
10 12 28.4
13.411
i6
21 24 27.34
X.9607
19 41 58.9
10. 519
16
22 54 32.12
1.8108
9 59 2.5
13.453
17
21 26 24.86
X.9567
19 31 25.3
Z0.601
17
22 56 20.71
1.8090
9 45 34-1
13.494
i8
21 28 22.14
1.95*6
19 20 46.8
10.681
18
22 58 9.20
1.8073
932 3-2
13.535
19
21 30 19.17
X.948S
19 10 3.6
10.759
19
22 59 57.58
1.8055
9 18 29.9
13.574
20
21 32 15.96
1.9446
18 59 167
X0.S38
20
23 I 45.86
1.8038
9 4 54.3
13.6x3
21
21 34 12.52
Z.9406
18 48 23.1
10.9x6
21
23 3 34-04
1.8023
8 51 16.3
X3.653
22
21 36 8-83
Z.9366
18 37 25.8
10.993
22
23 5 22.13
1.8007
83736.1
13.689
23
21 38 4.91
1.9327
S.18 26 24.0
11.067
23
23 7 10.13
1.7993
S. 8 23 53.6
13.7*7
TU]
£SDA^
V 30.
THURSD
AY, AUGUST I.
o
21 40 0.76
t.9388
S.18 15 17.7
11.142
0
23 8 58.05
1.7980
S. 8 10 8.9
13.763
I
21 41 56.37
21 43 51.76
1.9250
1.9313
18 4 6.9
17 52 51.7
11.2X6
IZ.289
2
3
21 45 46.92
X.9X74
17 41 32.2
11.361
4
21 47 41.85
1.9137
1730 8.3
11.433
PHASES
OF T
HE MOON.
5
6
21 49 36' 56
21 51 31.05
Z.9X00
1.9063
17 18 40.2
17 7 7.9
11.503
11.573
7
21 53 25.32
1.9037
16 55 31-4
11.642
d h m
8
9
21 55 19-37
21 57 13.21
1.8991
X.8956
16 43 50.8
16 32 6.2
XX. 7x0
XT. 777
(L
Last Quarts
- July 7 4 46.9
lO
21 59 6.84
1.8921
16 20 17.5
11.844
m
New Moon
« •
. . . 14 I 13.2
II
22 I 0.26
1.8887
16 8 24.9
11.909
i>
First Quart
er .
. . . 20 17 18.4
12
22 2 53.48
1.8852
15 56 28.4
11.973
0
Full Moon
. •
. . . 28 16 28.2
13
y J
22 4 46.49
22 6 39.30
1.8818
1.8786
15 44 28.1
15 32 23.9
12.037
13. XOX
^4
15
22 8 31.92
1.8753
15 20 16.0
X2. X63
d h
i6
I?
22 10 24.34
22 12 16.57
1.8721
1.8689
15 8 44
14 55 49-2
X2.323
12.283
a
Apogee .
• •
%4 ^M
. . July I 12.6
i8
22 14 8.61
1.8658
14 43 30-4
12.343
a
Perigee
1
4 I2.0
19
20
22 16 0.47
22 17 52.14
22 19 43.63
X.8627
1-8597
1.8567
14 31 8.0
14 18 42.1
14 6 12.7
12.403
a
Ado^ ee .
• ■ • ■ 28 16.8
I2.46X
12.518
**J'*'0*'^' .
• •
V V W V ^^^^ ^m ^^ m ^^
21
22
22 21 34.94
1.8538
13 53 39-9
12.574
23
22 23 26.08
1.8509
13 41 3-8
12.629
24
'•2 25 17.05
1.8481
S.13 28 24.4
12.684
86
AUGUST, 1912.
AT GREENWICH APPARENT NOON.
]| Equation of
ITme, to be
Added to
Day of
the Week.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
SUN.
I
2
3
4
5
6
7
8
lo
II
12
13
15
i6
17
i8
20
21
22
23
24
25
26
27
28
29
30
31
32
THE SUN'S
Apparent Right
Ascension.
m
845 3-98
8 48 56.70
8 52 48.82
8 56 40.36
9 031.32
9 421.70
9 8 H.50
9 12 0.72
9 15 49.37
9 19 37.45
9 23 24.97
92711.93
9 30 58.34
93444.19
9 38 29.48
9 42 14.22
9 45 58.43
9 4942.11
9 53 25.27
9 57 7-93
10 o 50.09
10 431.77
10 8 12.98
10 II 53.74
Diff. for
X Hour.
8
9.709
9.684
9.659
9.635
9.61 1
9.587
9.563
9-539
9.515
9.492
9.469
9-445
9.422
9.399
9.376
9.353
9.331
9.309
9.288
9.267
9.247
9.227
9.208
9.190
Apparent Decli-
nation.
10 15 34.07
9.172
10 19 13.99
9.155
102253.51
9.139
10 26 32.64
9.123
10 30 II.4I
9.108
10 33 49.84
9.094
10 37 27.95
9.081
10 41 5.75
9.069
N.I8 338.6
7 48 25.9
7 32 55.8
717 8.5
7 I 4-3
6 44 43.5
6 28 6.4
6 II 13.2
5 54 4.3
5 36 40.0
519 0.5
5 I 6.3
4 42 57.7
4 24 35.0
4 558.5
3 47 8.6
328 5.6
3 850.0
2 49 21.9
2 29 41.8
2 9 49.8
I 49 46.4
I 2931.9
I 9 6.6
o 48 30.8
o 27 44.8
o 648.8
9 45 43-2
9 24 28.3
9 3 4.4
8 41 31.7
N. 8 19 50.7
Diff. for
X Hour.
-37.66
38.39
39."
-39.82
40.52
4X.21
-41.88
42.54
43.19
-43-83
44.45
45.06
-45-65
46.23
46.79
-47.34
47.89
48.42
-48.93
49.42
49.90
-50.37
50.83
51.28
-51-71
52.12
52.53
-52.93
53-31
53.68
54.04
-54.39
Sexnidiam-
eter.
15 47.47
15 47.59
15 47.72
15 47.85
15 47.98
15 48.11
15 48.25
15 48.40
15 48.54
15 48.69
15 48.85
15 49.01
1549.18
15 49.36
15 49.54
15 49.72
15 49.91
1550.10
15 50.29
15 50.49
15 50.69
15 50.89
15 51.10
15 51.31
1551.52
1551.74
15 51.95
1552.17
15 52.38
15 52.60
15 52.82
15 53.05
Siderea
Time of
Semidi-
aineter
Passing
Me-
ridian.
8
66.62
66.53
66.45
66.36
66.27
66.18
66.09
66.01
65.92
65.84
65.75
65.67
65.59
65.51
65.43
65.36
65.28
65.21
65.14
65.07
65.00
64.94
64.87
64.81
64.75
64.69
64.63
64.57
64.52
64.47
64.42
64.38
Subtracted
from
Apparent
Time.
m
6 8.92
6 5.09
6 0.68
5 55.67
5 50.08
5 43.91
537.16
5 29.85
5 21.97
5 13.52
5 4-51
4 54-94
444.82
4 34-14
4 22.91
411-13
3 58.81
3 45.97
3 32.62
3 18.76
3 4-40
2 49-56
2 34.26
2 18.51
2 2.33
I 45.74
I 28.75
I 11.38
o 53.64
o 35.56
o 17.16
Diff.
for
z Hoar.
o 1.54
8
0.147
0.172
0.197
0.22X
0.245
0.269
0.293
0.317
0.341
0.364
0.387
0.410
0-433
0.456
0.479
0.502
0.524
0.546
0.567
0.588
0.608
0.628
0.647
0.665
0.683
0.700
0.716
0.731
0.746
0.760
0.773
0.785
NoTB.— The mean time of semidiameter passing may be found by subtracting o».i8 from the sidereal time.
The sign — prehzed to the hourly change of declination indicates that north declinations are decreasing.
11.
AUGUST, 1912.
87
AT GREENWICH MEAN NOON.
Day of
theWaek.
i
■9
THE SUNS
B^nation of
Time, to be
Subtracted
from
Diff. for
I Hour.
Sidereal Time,
or Right Ascen-
Apparent Right
ABcanaion.
Diif. for
X Hour.
Apparent Declina-
tion.
Diff. for
z Hour.
sion of Mean
Added to
Mean Time.
Sun.
Thur.
Frid.
Sat.
I
2
3
h m B
845 3.00
8 48 55-73
8 52 47.87
. B
9.709
9.684
9.660
0 • M
N.I 8 342.4
17 48 29.8
17 32 59-7
It
-37.66
38.39
39."
m •
6 8.94
6 5.11
6 0.70
8
0.147
0.172
O.X97
h m s
8 38 54.06
8 42 50.62
84647.18
SUN,
Mon.
Tues.
4
5
6
8 56 39-42
9 030.39
9 4 20.78
9.636
9.612
9.588
17 17 12.4
17 I 8.2
164447.4
-39.82
40.52
41.2Z
5 55.69
550.10
5 43.93
0.221
0.245
a 269
8 50 43.73
8 54 40.29
8 58 36.84
Wed.
Thur.
Frid.
7
8
9
9 8 10.59
9 " 59-84
91548.51
9.564
9.540
9.516
16 28 10.3
16 II 17.1
1554 8.1
-41.88
42.54
43.19
537.19
5 29.88
5 22.00
0.293
0.317
0.34X
9 233.40
9 ^29.96
9 10 26.52
Sat.
SUN
Mon.
ID
II
12
9 19 36.62
92324.17
927 II. 16
9-493
9.470
9.446
15 36 43.8
15 19 4-3
15 I lO.O
-43.83
44.46
45.07
5 13.55
5 4.54
4 54-97
0.364
0.387
0.4x0
9 14 23.07
9 18 19.63
9 22 16.18
Tues.
Wed
Thur.
13
14
15
9 30 57-59
9 34 43-46
9 38 28.78
9.423
9.400
9.377
1443 1-3
14 24 38.5
14 6 1.9
-45.66
46.24
46.80
4 44-85
4 34-17
4 22.94
0.433
0.456
0.479
926 12.74
930 9.29
9 34 5-85
Frid.
Sat.
SUN
i6
17
i8
942 13.56
94557.81
9 49 41-53
9.354
9.332
9.310
134711.9
1328 8.8
13 853.0
-47.35
47.89
48.42
4 II. 16
3 58.85
3 46.01
0.502
0.524
0.546
938 2.40
9 41 58.96
9 45 55-52
Mon.
Tues.
Wed.
19
20
21
9 53 24.73
9 57 7.42
10 0 49.62
9.289
9.268
9.248
12 49 24.8
122944.5
12 952.4
-48.93
49.42
49.90
3 32.65
3 18.79
3 4-43
0.567
0.5S8
0.608
9 49 52.07
9 53 48.63
95745.18
Thur.
Frid.
Sat.
22
23
24
10 431.34
10 8 12.59
101153-39
9.229
9.210
9. 191
II 4948.8
II 2934.1
II 9 8.6
-50.38
50.84
51.29
2 49-59
2 34.29
2 18.54
0.628
0.647
0.665
10 I 41.74
10 538.29
10 934-85
SUN
Mon.
Tues.
25
26
27
10 15 33-76
10 19 13.72
1022 53.28
9.173
9.156
9.140
10 48 32.6
10 27 46.3
10 650.1
-51.72
52.14
52.55
2 2.36
1 45.76
I 28.76
0.683
0.700
0.716
10 13 31.40
10 17 27.96
10 21 24.51
Wed.
Thur.
Frid.
Sat.
28
29
30
31
32
10 26 32.46
10 30 11.27
10 33 49-75
10 37 27.90
10 41 S'75
9.125
9. 1 10
9.096
9.083
9.071
9 45 44.3
924 29.1
9 3 4-9
8 41 32.0
N. 8 19 50.7
-52.94
53.32
53.69
54.04
-54.39
I 11.39
0 53.65
035.57
0 17.17
0.731
0.746
0.760
0.773
0.785
10 25 21.06
10 29 17.62
103314.17
10 37 10.73
SUN
0 1.54
10 41 7.28
N0TB.-.1
rhesc
rhe si
tioni
»midiamater for me
gn — prefixed to tt
1 are decreasing.
an noon a
te hourly 4
lay be assumed the 1
change of dedinatio
same as tt
to indicat
lat for apparel
es that north (
It noon,
declina-
Diff. for I Hour*
(Table III.)
88
AUGUST, 1912.
III.
AT GREENWICH MEAN NOON.
U
a
I
2
3
4
5
6
7
8
lO
II
12
13
H
15
i6
17
i8
20
21
22
23
24
25
26
27
28
29
30
31
32
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
THE SUN'S
True Longitude.
28 50 8.0
29 47 32.4
30 44 57.9
31 42 24.6
32 39 52.6
33 37 21.9
34 34 52.5
35 32 24.5
36 29 57.8
37 27 32.5
3825 8.6
39 22 45.9
40 20 24.4
41 18 4.1
42 15 45.0
431327.0
44 II 10. 1
45 854.2
46 639.4
47 4257
48 2 13.1
48 60 1.7
49 57 51.6
50 55 42.8
51 53 35-3
52 51 29.2
53 49 24.6
544721.5
554520.1
56 43 20.4
5741 22.4
1583926.3
A'
49 42.2
47 6.4
44 31-8
41 58.4
39 26.2
36 55.3
34 25.8
31 57-6
29 30.8
27 5.3
2441.2
22 18.4
19 56.8
17 36.4
15 17.2
1259.0
10 41.9
825.9
6 10.9
357.1
144.4
59 32.9
57 22.6
55 13.6
53 6.0
50 59-8
48 55-1
4651.9
44 50.4
42 50.5
40 52.4
38 56.2
Dlff. for
X Hottr.
43.50
43-54
43.59
43.64
43.69
43.74
43.80
43.86
43.92
43.98
44.03
44.08
44.13
44.18
44.23
44.27
44.32
44.36
44.41
44.45
44.50
44.55
44.60
44.66
44.72
44.78
44.84
44.91
44.98
45.05
45.12
145.20
Latitude.
—0.47
0.35
0.22
— 0.09
+0.04
0.16
+0.25
0.33
0.37
+0.39
0.37
0.32
+0.24
0.13
+0.01
—0.12
0.25
0.37
-0.47
0.56
0.64
—0.68
0.70
0.69
— 0.65
0.59
0.51
—0.40
0.28
0.16
— 0.03
4-0.1 1
Losarithm of the
Radius Vector of
the Earth.
0.006 3832
0.006 3274
0.006 2702
0.006 21 14
0.006 1 5 10
0.006 0889
0.0060251
0.005 9593
0.005 8915
0.005 8215
0.005 7493
0.005 6747
0.005 5978
0.005 5186
0.005 4371
0.005 3536
0.005 2680
0.005 1806
0.005 0915
0.005 0009
0.004 9090
0.0048158
0.0047215
0.004 ^262
0.004 5299
0.004 4327
0.004 3347
0.004 2359
0.004 1364
0.004 0361
0.0039351
0.003 8334
Diff. for
X Hour.
-23.0
23.6
24.2
-24.8
25.5
26.2
—27.0
27.8
28.7
-29.6
30.6
31.6
-32.5
33.5
34.4
-35.2
36.0
36.7
-37.4
38.0
38.6
-39-1
39-5
39-9
-40.3
40.7
4X.0
-41-3
41. 6
41.9
42.2
—42.6
Note.- The longitudes in the column k are referred to the true equinox of their own date, while
those in the colunm X' are referred to the mean equinox of the begiiming of the Bes-
selian fictitious year.
Mean Time of
Sidereal Noon.
m
5 18 35.04
5 14 39-12
5 1043.21
5 647.30
5 251.39
4 58 55.48
4 54 59.57
451 3.66
4 47 7.75
44311.84
4 39 15-93
4 35 20.02
431 24.11
4 27 28.20
4 23 32.29
4 19 36.38
4 15 40.47
41144,56
4 748.66
4 352.75
3 59 56.84
356 0.93
352 5.02
348 9.1 1
3 44 13.20
3 40 17.29
3 36 21.38
3 32 25.48
3 28 29.57
3 24 33.66
3 20 37.75
13 1641.84
Diff. for X Hour,
(Table IL)
IV.
AUGUST, 1912.
GREENWICH MEAN TIME.
89
a
o
01
THE MOON'S
SBMIDUMETER.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGE.
I
2
3
4
5
6
7
8
lO
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Noon.
4 51 9
4 58.0
5 6.1
5 1 6.0
5 27.8
5 41-3
5 55-8
6 10.4
6 24.0
6 35.0
6 42.1
6 44.2
6
6
6
6
5
5
4
4
41.0
32.7
20.5
5.9
50-3
35.0
5 21. 1
5 9-2
4 59.6
52.4
47.6
4 45-0
4 44-4
4 45.4
4 48.0
4 51-9
4 57.0
5 3.3
5 10.8
15 19-5
Midnight
4 54-7
5 1.8
5 10.8
5
5
5
6
6
6
6
6
6
5
5
5
4
4
4
4
4
4
21.7
34-4
48.5
3-1
17.4
29.9
6 39.1
6 43.8
6 43-3
37-4
27.0
13.4
58.1
42.5
27.8
5 14-9
5 4-1
4 55-7
49-7
46.0
44-5
44-7
46.5
49.8
4 54-3
5 0.0
5 6.9
5 15.0
15 24.3
Noon.
54 27.4
54 49-9
55 19.3
55 55.9
56 39-4
57 28.7
58
59
60
21.9
^5-5
5-3
60 45.7
6i 11.8
61 19.6
61 7.7
60 37.5
59 52.8
58
58
57
59.0
1.7
5.7
56 14.6
55 30-8
54 55'^
54 29.3
54 "-7
54 2.1
53 59.8
54 3.7
54 I3-I
54 27.4
54 46.1
55 9-2
55 36.7
56 8.7
Diflf. for
X Hour.
+0.80
1.08
1-37
+1.67
1.94
2.15
+2.25
2.18
1. 91
+1.41
+0.72
-0.09
—0.89
i.o8
-2.35
2.38
2.25
-1.99
1.65
1.28
—0.91
0-57
—0.24
-1-0.04
0.28
0.50
-1-0.69
0.87
1.05
1.24
+1.42
Midnight
*f
54
55
55
37.8
3-7
36.7
56 16.8
57 3-4
57 55-0
58 48.9
59 41-2
60 27.0
61 0.8
61 18.2
61 16. 1
60
60
59
54-7
1 6.6
26.7
58 30-4
57 33.3
56 39-4
55 5^-7
55 I2.I
54 41-3
54 '19-5
54 5-9
54 0.1
54 i-o
54 7-8
54 19-7
54 36.2
54 57.1
55 22.4
55 52.2
56 26.4
Diff. for
X Hour.
n
+0.94
1.22
1.52
-H.81
2.05
2.22
+2.23
2.08
1.68
+1.09
+0.32
-0.50
—1.26
1.86
2.24
-2.39
2.33
2.13
-1.83
1.47
1. 10
-0.73
0.40
—0.10
-l-o.i6
0.39
0.60
-ho. 78
0.96
1.15
1.33
-M.52
Meridian of
Greenwich.
m
h
14 54-3
15 34-4
16 15.5
16
17
58.8
45.8
18 37.8
19 35-4
20 38.2
21 44.0
22
23
o
I
2
3
4
4
49-3
51-2
6
48.5
41.4
31-0
18.8
6.1
54-0
5 43.3
6 34.2
7 26.3
8 18.7
9 10.2
9 59.8
10 46.7
11 31.1
12 13.3
12 54.1
13 34-3
14 15.0
14 57-4
15 42.6
Diff. for
X Hour.
m
1.67
1.68
1.75
1.87
2.06
2.28
2.52
2.70
2.75
2.66
2,49
2.29
2.12
2.02
1.97
1.97
2.02
2.09
2.15
2.18
2.17
2.11
2.01
1.90
1.80
1.72
1.68
1.68
1.72
1.82
Z.96
Noon.
d
18.0
19.0
20.0
21.0
22.0
23.0
24.0
25.0
26.0
27.0
28.0
29.0
0.7
1-7
2.7
3.7
4-7
5-7
6.7
7-7
8.7
9.7
10.7
11.7
12.7
13.7
14.7
^5-7
16.7
17.7
18.7
19.7
90
AUGUST, 1912.
V.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DiflF.
Diff.
•
Diff.
Diff.
Hour.
Righ t Ascension.
for
I Min.
Declination.
for
X Min.
Hoar.
Right Ascension.
for
X Min.
Declination.
for
X Min.
THURSDAY x.
SATURDAY 3.
h m 8
8
0 # H
w
h m s
s
e t It
m
O
23 8 58.05
X.7980
S. 8 10 8.9
13.763
0
0 35 1.40
1.6166
N. 3 17 38.9
14.603
X
23 10 45.89
X.7967
7 56 22.1
13.798
I
0 36 50.46
X.8188
3 32 15.1
14.602
2
23 X2 33-65
X.7933
7 42 33-2
13.83a
2
0 38 39.66
x.Saxa
3 46 51. 1
X4.598
3
23 H 21-33
1.794a
7 28 42.3
13.866
3
0 40 29.01
1.8237
4 z 26.9
14.596
4
23 16 8.95
1.7938
7 14 49-3
13.899
4
0 42 18.51
i.8a6s
4 16 2.5
14.39*
5
23 17 56.51
x.79«x
7 054.4
13.931
5
044 8.16
1.8288
4 30 37-9
X4.3«7
6
23 19 44.00
1.79"
6 46 57.6
13.96a
6
0 45 57.97
X.8316
4 45 13-0
14.581
7
23 21 31.44
x.79oa
6 32 58.9
13.993
7
0 47 47-95
X.8344
4 59 47-7
14.374
8
23 23 18.82
1.7893
6 18 58.4
14.023
8
0 49 38. zo
1.8373
5 14 21.9
14.567
9
23 25 6.16
X.7886
6 4 56.1
14.052
9
0 51 28.42
X.8403
5 28 55.7
14*559
lO
23 26 53.45
X.7878
5 50 52. 1
14.081
10
0 53 18.93
1.8433
5 43 29.0
X4.549
IZ
23 28 40.70
1.787a
5 36 46.4
14.X09
II
0 55 9.62
X.8464
5 58 1.6
14.538
12
23 30 27.92
X.7867
5 22 39.0
14.136
12
0 57 0.50
1.8497
6 12 33.6
14.5*7
13
23 32 Z5.IO
1.7862
5 8 30. 1
14.162
13
0 58 51.58
1.8530
627 4.9
14.516
14
23 34 2.26
X.7858
4 54 19-6
14.188
1.4
I 0 42.86
X.8563
6 41 35-5
X4-5oa
^5
23 35 49-40
1.7855
440 7.6
14.213
15
I 234.34
1.8598
6 56 5.2
X4.488
i6
23 37 36.52
1.7858
4 25 54- 1
I4.a37
16
I 4 26.04
1.8634
7 10 34-1
X4.474
17
23 39 23.62
X.7849
411 39-2
X4.260
17
I 6 17.95
X.867X
725 2. 1
X4.45B
i8
23 41 10.71
1.7848
3 57 22.9
X4.282
18
z 8 10.09
1.8709
73929.1
14.44a
19
23 42 57-So
X.7848
3 43 5.3
14.304
19
I 10 2.46
1.8747
7 53 55- 1
14.4*4
20
23 44 44.88
1.7848
3 28 46.4
14.325
20
I II 55-05
1.8786
8 8 20.0
14.406
21
23 46 31.97
1.7849
3 X4 26.3
14.345
21.
I 13 47.89
1.8827
8 22 43.8
14.386
22
23 48 19.07
1.7851
3 0 5.0
14.365
22
I 15 40.97
X.8867
837 6.3
14.365
33
23 50 6.18
1.7853
S. 2 45 42.5
14.384
23
I 17 34-29
X.8908
N. 8 51 27.6
14. 344
Fl
RIDAl
r 2.
SI
JNDA1
I 4.
o
23 51 53-31
1.7857
S. 2 31 18.9
14.40a
0
X 19 27.87
1.8952
N. 9 5 47.6
X4.3aa
I
23 53 40.46
X.7860
2 16 54.3
14.419
I
I 21 21.71
1.8995
9 20 6.2
X4.99B
2
23 55 27.63
X.7865
2 2 28.6
14.436
2
I 23 15.81
1.9039
9 34 23-3
14.273
3
23 57 i4.fi4
X.787X
I 48 2.0
14.45a
3
I 25 10.18
1.9085
9 48 39.0
14.348
4
23 59 2.08
1.7877
1 33 34-4
14.467
4
I 27 4.83
1.9132
10 2 53. 1
X4.a9x
5
0 0 49.36
1.7883
z 19 6.0
14.480
5
I 28 59.76
r.9178
10 17 5.5
X4.X93
6
0 2 36.68
X.7891
I 4 36.8
X4.493
6
I 30 54-97
1.9227
10 31 l6.2
X4.X64
7
0 4 24.05
X.7900
0 50 6.8
14.507
7
I 32 50.48
1.9376
10 45 25.2
14.135
8
0 6 11.48
1.7909
0 35 36.0
14.519
8
I 34 46.28
i.93a5
10 59 33-4
14.104
9
0 7 58.96
1.7919
021 4.5
14.530
9
I 36 42.38
1.9375
II 1337.7
X4.o7a
lO
0 9 46.51
X.7930
S. 0 6 32.4
14.540
10
• I 38 38.78
1.9437
II 27 41.0
14.038
ZI
0 II 34.12
1.794a
N. 0 8 0.3
14.550
iz
I 40 35.50
1.9480
II 41 42.3
14.004
12
0 13 21.81
1.7954
0 22 33.6
14.559
12
14232.54
X.9S33
II 55 41-5
13.969
13
0 15 9.57
1.7967
037 7.4
14.567
13
I 44 29.90
X.9587
12 9 38.6
13.93a
14
0 16 57.41
1.7981
0 51 41.6
14.574
14
I 46 27.58
1.9642
12 23 33.4
13.894
15
0 18 45.34
1.7996
I 6 16.3
14.581
15
I 48 25.60
1.9698
12 37 25.9
13.856
i6
0 20 33.36
x.Soia
I 20 51.3
14.586
z6
I 50 23.96
1.9755
12 51 16.I
13. 816
17
0 22 21.48
X.8038
I 35 26.6
14.591
17
I 52 22.66
1.9813
13 5 3.9
13.775
z8
0 24 9.70
1.8045
I 50 2.2
14.596
18
I 54 21.71
1.9872
13 18 49.1
13.73a
19
0 25 58.02
1.8063
2 4 38. 1
14.599
19
I 56 21.12
1.9931
13 32 31.7
13. 688
20
0 27 46.46
i.8o8a
2 19 14.I
14.60X
20
I 58 20.88
1.9991
13 46 II. 7
13.643
21
0 29 35.01
X.8103
2 33 50.2
14.603
21
2 0 21.01
2.0032
13 59 48.9
13.597
22
0 31 23.68
1.8x2a
2 48 26.4
14.604
22
2 2 21.51
2.0114
14 13 23.4
13.551
23
0 33 12.47
1.8143
3 3 2.7
14.604
23
2 4 22.38
2.0177
14 26 55.0
13.50a
24
0 35 1.40
X.8166
N. 3 17 38.9
14.603
24
2 6 23.63
f.0240
N.14 40 23.6
13.45a
VI.
AUGUST, 1912.
91
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hoar.
for
X MixL
DecUnatioo.
for
xMin.
Hour.
Right Aacaosion.
for
xMin.
DecUnation.
for
xMin.
M(
DNDA
y 5.
WEDNESDAY 7.
h m •
8
e » m
m
h m a
a
Of 0
M
O
a 6 23.63
8.004)0
N.I4 40 23.6
X3.45a
0
3 5a 17-96
8*4X08
N.24 0 39.5
9.861
I
2 8 25.36
8.0905
14 53 49. a
X3.40X
I
3 54 42.84
a.4X9a
24 9 51.3
9. 131
a
a 10 27.29
a.0371
15 7 xi-7
X3.348
2
3 57 8.26
8.4988
24 18 55.2
8*999
3
a 12 29.71
8.0437
15 20 31.0
X3.994
3
3 59 34.22
8.4371
24 27 51.2
8.866
4
a 14 3«.53
8.0504
15 33 47.0
13.338
4
4 2 0.71
a. 4460
24 36 39.1
8.729
5
2 16 35.76
•.0578
15 46 59.6
X3.X88
5
4 427.74
8.4550
24 45 18.7
8.591
6
a 18 39.40
8.064X
16 0 8.8
X3.xa4
6
4 655.31
8.4640
24 53 50.0
8.45X
7
a 20 43.45
8.07x0
16 13 14.5
13.065
7
4 9 23.42
•-47a8
25 2 12.9
8.3XX
8
a 22 47.92
8.0761
16 26 16.6
13.004
8
411 52.05
8.48x6
25 10 27.3
8.x68
9
2 24 52.82
a. 0858
16 39 15.0
X8.943
9
4 14 21.21
a. 4904
25 18 33.0
8.033
lO
a 26 58.15
a. 0984
16 52 9.7
X8.879
10
4 16 50.90
3.499a
25 26 29.9
7.873
II
2 29 3.91
8.u9if;
17 5 0.5
12.8x3
II
4 19 21.12
8.50B0
25 34 17-8
7.7*4
12
2 31 lO.II
8.1070
17 17 47.3
I8.747
12
4 21 51.86
8.5x67
25 41 56.8
7.574
13
a 33 X6.75
a. "44
17 30 30.1
X8.679
13
4 24 23.12
a.5a53
25 49 a6.7
7.4ax
14
2 35 23.84
a.xaao
17 43 8.8
X8.6XO
14
4 26 54.90
a. 5339
25 56 47.3
7.365
15
a 37 31.39
8.1896
17 55 43.3
xa.539
15
42927.19
8.5435
26 3 58.5
7.X08
16
a 39 39.39
«.XS7«
18 8 13.5
I8.467
16
4 32 0.00
8.55x0
26 II 0.3
6.950
17
2 41 47.85
8.1449
18 20 39.3
M.39«
17
4 34 33.31
a. 5593
26 17 52.5
6.789
28
a 43 56.78
8.1587
18 33 0.6
X8.3X7
18
4 37 7.12
8.5676
26 24 35.0
6.627
19
246 6.17
8.X605
18 45 17.3
X8.839
19
4 39 41.42
a. 5758
26 31 7.7
6.463
20
2 48 16.04
8.Z685
18 57 29.3
X2. z6i
20
4 42 16.22
a.584X
26 37 30.5
6.397
21
a 50 26.39
8.X765
19 9 36.6
X8.08x
21
44451-51
8.59»a
26 43 43.3
6.ia9
22
2 52 37.22
8.1845
19 21 39.0
"•999
22
4 47 27.28
a. 600a
26 49 46.0
5.959
33
a 54 48-53
TU
8.X926
ESDA
N.193336.5
Y 6.
IX. 9x6
23
4 50 3-53
THI
8.6060
JRSDi
N.26 55 38.4
\Y 8.
5.787
0
a 57 0.33
8.aoo8
N.19 45 28.9
XX.830
0
4 52 40.24
8.6x58
N.27 I 20.5
5.6x4
I
2 59 12.62
8.8090
19 57 16. 1
".743
I
4 55 17.42
8.6335
27 6 52.1
5.439
2
3 X 25.41
8.8X73
20 8 58. 1
XX.655
2
4 57 55.06
a.63ix
27 12 13.2
5.863
3
3 3 38.70
8.8857
20 20 34.7
11.565
3
5 033.15
3.6385
27 17 23.6
5.083
4
3 5 5a.5o
8.834*
20 32 5.9
XX.473
4
5 3 11.68
8.6458
27 22 23.2
4.903
5
3 8 6.80
a. 3486
2043 31.5
XI. 379
5
5 5 50.65
a. 6531
27 27 12.0
4.7aa
6
3 10 21.61
a.tsxi
ao 54 51-4
XI. 883
6
5 8 30.05
8.660a
27 31 49.8
4.538
7
3 12 36.93
8.8597
21 6 5.5
Z1.X87
7
5 II 9.87
8.6678
27 36 16.6
4.353
8
3 14 52.77
8.8685
21 17 13.8
Z1.088
8
5 13 50."
8.6740
27 40 32.2
4.X66
9
3 17 9.1a
8. 2769
21 28 16.1
XO.987
9
5 16 30.75
3.6807
274436.5
3.978
10
3 19 26.00
8.8857
21 39 12.3
10.885
10
5 19 11.79
3.6878
27 48 29.5
3.788
n
3 21 43.40
a.a943
21 50 2.3
X0.788
II
5 21 53.22
8.6936
27 52 II. I
3.597
12
3 24 1.32
8.303X
22 0 46. 1
10.676
12
5 24 35.03
8.6999
27 55 41-2
3.404
13
3 26 19.77
8.31x9
22 II 23.4
XO.S68
13
5 27 17.20
a. 7059
27 58 59-6
3.810
14
3 28 38.75
8.3207
22 21 54.2
10.458
14
5 29 59-73
3.7x18
28 2 6.4
3.0x5
15
3 30 58.26
8.3396
22 32 18.4
X0.347
15
5 32 42.61
3.7x76
28 5 1.4
8.8x8
16
3 33 18.30
a. 3385
22 42 35.8
10.233
16
5 35 25.84
8.7338
28 744.5
8.6x9
^7
3 35 38.88
a. 3474
22 52 46.4
lo.xzS
17
538 9-39
3.7385
28 10 15.7
3.430
18
3 37 59.99
a. 3563
23 2 50.0
IO.0O2
18
5 40 53.26
a. 7337
28 12 34.9
8.8x9
19
3 40 21.64
a. 3653
23 12 46.6
9.883
19
5 43 37.44
2.7387
28 14 42.0
3.017
20
3 42 43-83
a.3743
23 22 36.0
9.763
20
5 46 21.91
3.7436
28 16 37.0
x.8x4
21
3 45 6.55
a. 3833
23 32 18.1
9.640
21
5 49 6.67
2.7483
28 18 19.7
x.6xo
22
3 47 29.82
8.9983
23 41 52.8
9.516
22
551 51-71
3.7538
28 19 50.2
1.405
33
3 49 53-62
8.40x8
23 51 20.0
9.389
23
5 54 37.01
a. 7571
28 21 8.3
X.X98
24
3 52 17.96
3.4x02
N.24 0 39.5
9.86X
24
5 57 22.56
8.76x8
N.28 22 14.0
0.99X
92
AUGUST, 1912.
vn.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ateaniioii.
for
xMin.
DecUnadoD.
for
xMin.
Hour.
Right AieeiisioiL
for
xMin.
DecUnatloii.
for
X Min.
FRIDAY 9.
SUNDAY
' II.
h m s
8
e # w
»»
h m 8
8
0 t m
m
O
5 57 23. 56
2.76X2
N.28 22 14.0
0.991
0
8 10 35.67
2.7XXg
N.25 5 18.7
9-044
I
6 0 8.35
2.7651
28 23 7.2
0.782
I
8 13 18.17
2.7056
24 56 10.4
9-^3S
2
6 2 54.37
2.7688
28 23 47.9
0.573
2
8 16 0.34
2.6999
24 46 50.9
9-418
3
6 5 40.61
2.7723
28 24 16.0
0.363
3
8 18 42.16
2.6941
24 37 20.2
9-603
4
6 8 27.05
«.7755
28 24 31.5
+O.X53
4
8 21 23.63
2.6882
24 27 38.5
9.786
5
6 II 13.67
2.7786
28 24 34.4
-0.058
5
824 4.74
2.688X
24 17 45-9
9.968
6
6 14 0.47
2.7813
28 24 24.5
0.271
6
8 26 45.48
a. 6759
24 742.5
10.147
7
6 16 47.43
2.7840
28 24 1.9
0.483
7
8 29 25.85
2.6697
23 57 28.3
10.324
8
6 19 34.55
a. 7865
28 23 26. 5
0.697
8
8 32 5.84
2.6633
2347 3-5
XO.50X
9
6 22 21.81
2.7887
28 22 38.3
0.9x0
9
8 34 45.45
2.6569
23 36 28.2
XO.674
lO
625 9.19
2.7906
28 21 37.3
X.124
10
8 37 24.67
2.6503
23 25 42.6
XO.845
II
6 27 56.68
2.7924
2.8 20 23.4
X.339
II
840 3.49
2.6437
23 14 46.8
11.0x5
12
6 30 44.28
a. 7940
28 i8 56.6
X.554
12
8 42 41.91
2.6369
23 3 40.8
XX.X83
13
6 33 31.96
a. 7953
28 17 16.9
1.770
13
8 45 19.92
2.630X
22 52 24.8
XI. 348
14
6 36 19.72
2.7965
28 15 24.2
X.986
14
8 47 57.52
2.6232
22 40 59.0
XX.5X2
15
639 7.54
2.7973
28 13 18.6
2.201
15
8 50 34.70
2.6x63
22 29 23.4
11.673
i6
6 41 55.40
a. 7979
28 II O.T
a 4>7
16
8 53 11.47
2.6093
22 17 38.2
ix.a3a
17
6 44 43.29
2.7984
28 8 28.6
2.632
17
8 55 47.81
2.6022
22 543.5
11.990
i8
6 47 31.21
2.7987
28 5 44.2
2.848
18
8 58 23.73
a. 5951
2X 53 39.4
12.145
19
6 50 19.13
2.7986
28 2 46.8
3.065
19
9 0 59.22
a. 5879
21 41 26.1
ia.297
20
6 53 7.04
2.7984
27 59 36.4
3.28X
20
9 3 34.28
a. 5807
21 29 3.7
X2.448
21
6 55 54.94
2.7981
27 56 13. 1
3.496
21
9 6 8.90
a. 5734
21 16 32.3
X2.597
22
6 58 42.81
a. 7974
27 52 36.9
3.7"
22
9 843.09
3.5662
21 3 52.1
xa.743
23
7 I 30.63
SAT
a. 7965
URD^
N.27 48 47.8
lY 10.
3.926
23
9 XI 16.84
MO
a. 5588
►NDAl
N.ao 51 3.2
r 12.
12.887
o
7 4 18.39
a.7954
N.27 44 45.8
4.141
0
9 13 50.15
a. 5514
N.20 38 5.7
13.028
I
7 7 6.08
2.794X
27 40 30.9
4.356
I
9 16 23.01
a. 5440
20 24 59.8
X3.X68
2
7 9 53.68
2.7926
3736 3.1
4.571
2
9 18 55.43
a. 5366
20 II 45.6
13.305
3
7 12 41.19
a.7909
27 31 22.5
4.783
3
9 21 27.40
2.529a
19 58 23.2
13.439
4
7 15 28.59
2.7890
27 26 29.2
4.995
4
9 23 58.93
2.5ax8
19 44 52.9
13.571
5
7 18 15.87
2.7866
27 21 23.1
5.ao7
5
9 26 30.01
a. 5143
19 31 14.7
13.702
6
7 21 3.01
2.7844
27 16 4.3
5.418
6
9 29 0.64
2.5068
19 17 28.7
13.839
7
7 23 50.00
2.78x9
27 10 32.9
5.629
7
9 31 30.83
a.4994
19 3 35.2
13.954
8
7 26 36.84
a.779a
27 4 48.8
5.839
8
9 34 0.57
a. 4919
18 49 34.2
14.077
9
7 29 23.51
a. 7763
26 58 52.2
6.048
9
9 36 29.86
2.4844
x8 35 25.9
14.198
lO
7 32 9-99
2.773a
26 52 43.1
6.256
10
9 38 58.70
2.4770
18 21 10.5
14.316
II
7 34 56.28
2.7698
26 46 21.5
6.463
II
9 41 27.10
2.4696
18 6 48.0
14.433
12
7 37 42.37
2.7663
26 39 47.5
6.669
12
9 43 55.05
2.4622
17 52 18.7
14.54s
13
7 40 28.24
2.7626
26 33 X.2
6.874
13
9 46 22.56
a. 4547
17 37 42.6
14.656
14
7 43 13.88
2.7587
26 26 2.6
7.078
14
9 48 49.62
a.4473
17 23 0.0
14.764
15
7 45 59.29
a. 7547
26 18 51.8
7.281
15
9 51 16.24
2.4401
17 8 10.9
14.871
i6
7 48 44.45
2.7505
26 II 28.9
7.483
16
9 53 42.43
2.4328
16 53 15.5
14.975
17
7 51 29.35
2.746a
26 3 53.9
7.683
17
956 8.17
2.4354
16 38 13.9
15.077
i8
7 54 13.99
2.7417
25 56 6.9
7.882
18
9 58 33.48
2.4182
16 23 6.3
15.176
19
7 56 58.35
2.7369
2548 8.1
8.079
19
10 0 58.35
2.4x09
16 7 52.9
X5.27a
20
7 59 42.42
2.7311
25 39 57.5
8.274
20
10 3 22.79
2.4038
15 52 33.7
15.366
21
8 2 26.20
2.7271
25 31 35.2
8.469
21
10 5 46.80
2.3967
15 37 8.9
15.459
22
8 5 9.67
a.7ax9
25 23 1.2
8.662
22
10 8 10.39
a. 3896
15 21 38.6
15.548
23
8 752.83
2.7167
25 14 15.7
8.854
23
10 1033.55
2.3824
15 6 3.1
15.635
24
8 10 35.67
2.7x12
N.25 5 18.7
9.044
24
10 12 56.28
a. 3754
N.14 50 22.4
i5.7ao
VIII.
AUGUST, 1912.
93
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
I Min.
Declination.
for
xMin.
Honr.
Right Ascension.
for
X Min.
Declination.
for
X Min.
TUESDAY 13.
THURSDAY 15.
li m B
8
or M
t
h m s
s
0 » »•
n
O
10 12 56.28
a. 3754
N.I4 50 22.4
X5.7ao
0
12 0 12.43
8.1257
N. I 20 7.3
X7.a54
I
10 15 18.60
8.3685
14 34 36.7
X5.802
I
12 2 19.88
2. X226
I 2 52.5
17.839
4W
10 17 40.50
2.36x6
14 18 46.1
15.883
2
12 427.14
2.1196
0 45 38.6
17. 383
3
10 20 1.99
2.3548
14 2 50.7
X5.962
3
12 6 34.23
2.1X68
0 28 25.8
17.804
4
10 22 23.07
2.3480
13 46 50.7
16.037
4
12 841.15
8. 1 140
N. 0 II 14.1
17.185
5
10 24 43.75
a. 3413
13 30 46.3
X6.109
5
12 10 47.91
2.X1X3
S. 0 5 56.4
17.163
6
10 27 4.02
a. 3346
13 14 37.6
x6.x8o
6
12 12 54.50
2.X086
023 5.5
17.140
7
10 29 23.90
2.3a8o
12 58 24.7
16.249
7
12 15 0.94
2.1060
0 40 13.2
17.1x6
8
10 31 43.38
a. 38X4
12 42 7.7
16.3x6
8
12 17 7.22
8.1035
0 57 19.4
17.090
9
10 34 2.47
2.3150
12 25 46.8
16.380
9
12 19 13.36
8.ioxa
I 14 24.0
17.068
lO
10 36 21.18
2.3086
12 9 22.1
16.442
10
12 21 19.37
a. 0990
I 31 26.8
17.033
II
10 38 39.50
2.3022
II 52 53.8
16.501
II
12 23 25.24
8.0968
I 48 27.9
17.OO8
12
10 40 57.44
2.2959
II 36 22.0
16.558
12
12 25 30.99
2.0948
2 527.1
16.970
13
10 43 15.01
2.2898
II 19 46.8
16.6x4
13
12 27 36.61
2.0928
2 22 24.3
16.937
14
10 45 32.21
2.2837
II 3 8.3
X6.667
14
12 29 42.12
2.0908
2 39 19.5
X6.908
15
10 47 49.05
8.877^
10 46 26.8
X6.717
15
12 31 47.51
2.0889
2 56 12.5
16.865
i6
10 50 5.52
2.2716
10 29 42.3
16.766
16
12 33 52.79
2.0872
3 13 3.3
16.837
17
10 52 21.64
2.8657
10 12 54.9
x6.8x2
17
12 35 57.97
3.0856
3 29 51.7
16.787
i8
10 54 37-41
2.2599
9 56 4.8
X6.856
18
12 38 3.05
3.0B40
3 46 37.7
16.747
^9
10 56 52.83
2.2542
9 39 12.2
X6.898
19
12 40 8.04
2.0824
4 3 21.3
X6.705
20
10 59 7.91
2.2485
9 22 17. 1
16.938
20
12 42 12.95
a.oSxx
4 20 2.3
16.663
21
II I 22.65
8.2429
9 5 19-6
16.977
21
12 44 17.78
2.0798
4 36 40.7
16.617
22
II 3 37.06
2.2375
8 48 19.9
X7,OI2
22
12 46 22.53
8.0786
4 53 16.3
16.570
23
" 5 51.15
WED]
8.2381
NESD
N. 8 31 18.2
AY 14.
X7.045
23
12 48 27.21
2.0774
aDAY
S. 5 949.1
16.
16.588
O
II 8 4.91
8.2268
N. 8 14 14.5
17.077
0
12 50 31.82
2.0763
S. 5 26 19.0
16.473
I
II 10 18.36
2.22x5
7 57 9.0
17.106
I
12 52 36.37
8.0753
5 42 45.9
16.433
2
11 12 31.49
2.8163
7 40 1.8
17. 133
2
12 54 40.86
a. 0744
5 59 9.8
16.373
3
II 1444.32
2.2XX3
7 22 53.0
17.159
3
12 56 45.30
a.0737
6 15 30.6
16.320
4
II 16 56.85
2.2063
7 542.7
17.182
4
12 58 49.70
2.0729
6 31 48.2
X6.266
5
II 19 9.08
2.20x4
6 48 31.1
17.803
5
13 0 54.05
2.0733
648 2.5
16.210
6
II 21 21.02
3.1967
6 31 18.3
17.823
6
13 2 58.37
8.07x8
7 4 13.4
16.153
7
11 23 32.68
8.X92O
6 14 4.3
17.241
7
13 5 2.66
2.07x8
7 20 20.9
X6.097
8
II 25 44.06
8. 1873
5 56 49.4
17.256
8
13 7 6.92
2.0707
7 36 25.0
X6.O38
9
II 27 55.16
8. 1828
5 39 33.6
17.270
9
13 9 II. 15
2.0704
7 52 25.5
15. 978
lO
II 30 5.99
2.1783
5 22 17.0
17.882
10
13 II 15.37
2.0708
8 8 22.3
15.916
11
II 32 16.56
8-1740
5 4 59.8
17.292
II
13 13 19.58
2.0700
8 24 15.4
15.853
12
II 34 26.87
8.X698
44742.1
17.299
12
13 15 23.77
2.0698
840 4.7
15.790
13
II 3636.93
2.1656
4 30 23.9
17.305
13
13 17 27.96
2.o6gB
8 55 50.2
X5.785
14
II 38 46.74
2.X615
4 13 5.4
17.3x0
14
13 1932.15
2.0699
9 II 31.7
15.659
15
II 40 56.31
a. 1575
3 55 46.7
17.31a
15
13 21 36.35
2.0700
927 9.3
X5.598
16
II 43 5.64
2.1536
3 38 28.0
X7.3«3
16
13 23 40.55
8.0702
9 42 42.8
15.583
17
II 45 14.74
2.X498
3 21 9.2
17.31a
17
13 25 44.77
2.0704
9 58 12. 1
15.454
18
II 47 23.62
8.X461
3 3 50.6
17. 308
18
13 27 49.00
3.0707
10 13 37.3
15.384
19
II 49 32.27
2.X424
2 46 32.2
17.304
19
13 29 53.26
2.07x2
10 28 58.2
I5.3I8
20
II 51 40.71
2.1389
2 29 14. 1
17.398
20
13 31 57.55
2.0717
10 44 14.8
15.840
21
II 53 48.94
8.1355
2 II 56.5
17.289
21
13 34 1.86
2.0722
10 59 27.0
15.167
22
II 55 56.97
2.1333
I 54 39.4
17.879
22
13 36 6.21
3.0738
II 14 34.8
15.093
23
iz 58 4.80
2.1288
I 37 23.0
17.367
23
13 38 10.59
t.0734
II 29 38.0
X5.OI5
24
12 0 12.43
2.1857
N. I 20 7.3
17.354
24
13 40 15.02
8.074a
S.I I 44 36.6
14*936
94
AUGUST, 1912.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DUL
DifE.
Diff.
DHL
Hoar.
Right ABcansion.
for
iMin.
for
zMiB.
Hour.
Right AscoDsioiL
for
xMin.
DecliaatioiL
tor
X Min.
SATURDAY 17.
MONDAY 19.
h m s
B
• r M
ft
h m s
8
0 » M
«r
O
13 40 15.02
a.074a
S.I I 44 36.6
14-938
0
15 21 40.06
3.1664
S.2I 55 II.O
10-174
I
13 42 19.50
2.0750
II 59 30.6
14.86X
I
15 23 50.12
t.1690
22 5 17.9
XO.055
2
13 44 24.02
3.0758
12 14 19.9
X4.788
2
15 26 0.34
3.1716
22 15 17.6
9-936
3
13 46 28.60
8.0767
12 29 4.4
14.703
3
15 28 10.71
8.X74I
22 25 10.2
9*8x6
4
13 48 33.23
a.<777
124344.1
X4.63X
4
15 30 21.23
3.1767
22 34 55.5
9.695
5
13 50 37-93
3.0788
12 58 18.9
14.539
5
15 32 31.91
3.1793
22 44 33.6
9.573
6
13 52 42.69
t.0799
13 12 48.8
14.456
6
15 34 42.75
8.x8ao
22 54 4.3
9-451
7
13 54 47-52
3.081 z
13 27 13.6
14-372
7
15 36 53.75
3.Z846
23 3 27.7
9-389
8
13 56 52.42
2.0823
13 41 33.4
14.887
8
1539 4.90
3. 1871
23 12 43.8
9.ao6
9
13 58 57.40
a. 0837
13 55 48.0
X4.8OX
9
15 41 16.20
3.1897
23 21 52.4
9.0B8
zo
14 I 2.46
3.0850
14 9 57.5
14.115
10
15 43 27.66
3. 1933
23 30 53.6
8.957
II
14 3 7.60
8.0863
14 24 1.8
14.037
II
15 45 39.27
a. 1948
23 39 47.2
8. 831
12
14 5 12.82
3.0878
1438 0.7
13.938
12
15 47 51-04
3.1974
23 48 33-3
8.706
13
14 7 18.13
3.0893
H 51 54-3
X3.848
13
15 50 2.96
3.1999
23 57 "-9
8.579
H
14 923.54
8.USIU9
15 542.5
13.757
14
15 52 1503
3.8034
24 5 42.8
8.458
15
14 I z 29.04
a.oga5
15 19 25.2
13. 666
15
15 54 27.25
3.3049
24 14 6.1
8.384
i6
14 13 34.64
8.0948
15 33 2.4
13.573
16
15 56 39.62
8.8074
24 22 21.7
8. 197
17
14 15 40.34
3.0959
15 46 34.0
13.480
17
1558 52.14
3.3098
24 30 29.7
8.06B
i8
14 1746.15
3.0977
16 0 0.0
13.386
18
16 I 4.80
3.8X83
24 38 29.9
7.938
19
14 19 52.06
8.0994
16 13 20.3
13.891
19
16 3 17.61
3.8I47
24 46 22.3
7.80B
20
14 21 58.08
3.X013
16 26 34.9
13.195
20
16 5 30.56
8.8X71
24 54 6.9
7.678
21
14 24 4.21
3.X033
16 39 43.7
13.098
21
16 7 43.66
3.3195
25 143.6
7.547
22
14 26 10.46
3.X053
16 52 46.7
X3.000
22
16 9 56.90
8.331B
25 9 12.5
7-416
23
14 28 16.83
3.X07Z
S.17 543.7
X3.90I
23
16 12 10.27
8.8840
S.25 16 33.5
7.384
SU
fNDAl
r 18.
TUl
ESDA^
Y 20.
O
14 30 23.31
3.X09Z
S.17 18 34.8
13.803
0
16 14 23.78
3.8863
S.25 23 46.6
7.158
I
14 32 29.92
8.IXX3
17 31 19.9
13.702
I
16 16 37.43
8.8886
25 30 51.7
7.019
2
14 34 36.65
3.1x33
17 43 59.0
X3.60X
2
16 18 51.21
a. 8308
25 37 48.9
6.886
3
143643.51
8.XI54
17 56 32.0
X2.498
3
16 21 5.12
8.8389
25 44 38.0
6.758
4
14 38 50.50
8.ZZ76
18 8 58.8
18.395
4
16 23 19.16
8.3350
2551 19. 1
6.617
5
14 40 57.62
8.XX98
18 21 19.4
13.898
5
16 25 33.32
8.8371
255752.1
6.483
6
1443 4.87
a.X330
18 33 33.8
13.187
6
16 27 47.61
8.3391
26 4 17.0
6.347
7
14,45 12.26
8.1843
18 45 41.9
X8.083
7
16 30 2.01
8.34XX
26 10 33.8
6.318
8
14 47 19. 79
8.1366
18 57 43.7
11-977
8
16 32 16.54
8.3431
26 16 42.4
6.076
9
14 49 27.45
3.xa89
19 939.1
XZ.869
9
16 34 31.18
3.3450
26 22 42.9
5.940
10
14 51 35-26
8.X3X3
19 21 28.0
11.761
10
16 36 45.94
3.3469
26 28 35.2
5.803
ZI
14 53 43-21
8.X337
19 33 10.4
XX.658
II
16 39 0.81
3.8487
26 34 19.2
5.665
Z2
14 55 51.30
3. X36X
19 44 46.3
11.543
12
16 41 15.78
8.3504
26 39 55.0
5.5«8
13
14 57 59.54
3.X385
19 56 15.6
".43s
13
16 43 30.86
3.8588
26 45 22.6
5.390
14
15 0 7.92
3.X4O9
20 738.3
11.3*3
14
16 45 46.04
a. 8538
26 50 41.8
5.358
15
15 2 16.45
3.X434
20 18 54.4
XX. 3X3
15
1648 1. 31
8.8553
26 55 52.8
5.1M
i6
15 4 25.13
3.X459
20 30 3.7
XI. 098
16
16 50 16.68
8.8569
27 055.5
4.975
17
15 633.96
8.1484
20 41 6.2
X0.986
17
16 52 32.14
S.3584
27 549.8
4.855
i8
15 842.94
3.X5XO
20 52 2.0
Z0.873
18
16 54 47.69
8.8598
27 10 35.7
4.696
19
15 10 52.08
8.X536
21 2 50.9
10.757
19
16 57 3.32
3.86X3
27 15 X3.3
4.557
20
15 13 1.37
8.I56X
21 13 32.9
10.648
20
16 59 19.04
8.86a6
27 19 42.5
4.416
21
15 15 10.81
3.1586
21 24 7.9
10. 536
21
17 I 34.83
8.8638
27 24 3.2
4.875
22
15 17 20.40
3.t6Z3
21 34 36.0
XO.409
22
17 3 50.69
3.8649
27 28 15.5
4.IS5
23
15 1930.15
2.X638
21 44 57.0
10.893
23
17 6 6.62
8.866Z
27 32 19.4
3.99s
24
15 21 40.06
8.1664
S.21 55 ZI.O
10.174
24
17 8 22.62
8.8678
S.27 36 14.9
3.854
X.
AUGUST, 1912.
GREENWICH MEAN TIME.
95
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Ascension.
Diff.
for
X Min.
DecUnation.
Diff.
for iHonr.
X Min.
Right Ascension.
Diff.
for
X Min.
Declination.
Diff.
for
X Min.
O
z
a
3
4
5
6
7
8
9
lo
IX
12
13
14
15
i6
I?
i8
19
20
21
22
23
o
I
a
3
4
5
6
7
8
9
10
II
12
^3
15
i6
17
i8
19
20
21
22
23
WEDNESDAY ai.
FRIDAY 23.
h
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
8
m
8
10
za
15
17
19
ai
24
a6
28
31
33
35
37
40
4a
44
47
49
51
53
56
58
o
8
aa.6a
38.68
54-79
10.96
27. z8
43-44
59.74
16.08
32.45
48.84
5.26
21. 70
38.16
54-62
ZI.09
27.56
44.03
0.49
16.93
33.36
49.76
6.13
22.47
38.78
s
3.9679
2.9681
9.9690
9.9699
9.9707
9.«7X3
9.9790
2.9790
9.9730
9.9734
2.«738
9.9749
a. 9743
9,9744
9.9745
9.9745
9.9744
9.9743
9.9739
9.9736
8.973Z
9.9796
9.979X
9.«7X4
S.27
27
27
27
27
27
27
27
a8
28
28
28
28
28
28
28
28
28
a8
28
28
28
28
S.28
36 14-9
40 Z.9
43 40.4
47 10.4
50 32.0
53 45. 1
56 49,6
59 45.6
233.1
5 ia.o
742.4
10 4.3
12 17.6
14 22.4
16 z8.6
18 6.3
19 45.4
az 16.0
22 38.x
23 5Z.6
24 56.6
25 53.0
26 40.9
27 20.3
THURSDAY 22.
8 a
8 5
8 7
8 9
8 IX
8 14
8 z6
8 z8
8 21
8 23
8 as
8 27
830
8 32
834
836
839
841
843
845
848
850
852
854
857
55.04
9.9707
zi.a6
3.9698
27.42
a. 9689
43.53
3.9680
59.58
9.9669
15.56
9.9658
31.47
3.9646
47.31
9.9633
3.07
9.96x9
18.74
9.960s
34.33
9.9590
49.82
a. 3573
5.21
9.9557
20.50
a. 9539
35.68
a.259x
50.75
3.3503
5.71
a. 3483
20.54
8.9469
35.25
9.944X
49.83
9.94x9
4.28
a. 3397
18.59
a. 3373
32.76
a. 3349
46.78
9.3395
0.66
3.3300
S.a8
28
28
a8
28
28
28
28
28
28
28
28
28
28
28
28
28
28
28
a8
a8
a8
a8
a8
S.27
27 5Z.2
a8 13.6
28 27.4
28 32.8
a8 29.7
28 18. 1
27 58.1
27 29.7
26 52.8
26 7.5
25 13.8
24 Z1.8
23 1.4
21 42.6
20 15.6
18 40.2
16 56.5
15 4.6
13 4.4
10 56.0
8395
6 14.8
341.9
z 0.9
58 ZI.9
3.854
3.71a
3.571
3.430
3.a89
3.X47
3.004
9.869
3.790
a. 577
a.435
9.993
9.X5X
9.008
1.866
1.793
X.58X
X.439
1.997
I.X54
X.0X9
0.869
0.797
0.586
0.444
0.303
o.x6x
-0.0x9
-H>.X99
0.963
0.403
0.544
0.685
o.8as
0.964
X.X03
1.343
X.389
X.590
x.^
X.797
Z.934
■.079
3.306
a. 343
8.480
8. 616
3.750
S.884
O
z
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
O
z
2
3
4
5
6
7
8
9
zo
ZI
Z2
13
14
15
16
17
z8
19
20
2Z
22
23
24
h m
857
859
9 I
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
3
5
8
10
12
14
z6
19
21
23
25
27
30
32
34
36
38
41
43
45
47
8
0.66
14.38
27.94
41.34
54.57
7.64
20.53
33.24
45.77
58.12
ZO.28
22.26
34.04
45.62
57.01
8.19
19.16
29.93
40.48
50.82
0.94
10.84
ao.52
29.98
8
9.9300
8.9373
9.9947
9.99x9
9.9x99
9.9x63
9.9133
9.9Z03
3.3073
9.9043
9.90Z9
2.1980
9.1947
2.X914
9.188Z
9.1846
9.X8I9
a. 1777
9.X74X
9.X705
9.Z668
9.Z639
a.x595
9.1558
S.a7
27
27
27
27
27
27
27
27
27
27
27
27
27
27
27
26
26
a6
a6
26
26
26
S.26
58 1Z.9
55 14.8
52 9.6
48.56.5
45 35.4
42 6.4
38 29.4
34 44.6
30 51.9
26 51.4
22 43.2
z8 27.2
14 3.5
9 32.2
453.2
o 6.6
55 12.5
50 10.8
45 1.7
39 45. 1
34 21.1
28 49.8
23 ZZ.2
17 25-3
9 49
951
9 53
956
58
o
9
20
20
20
20
20
2
4
6
8
20 zo
20 13
20 Z5
20 17
20 19
20 21
20 23
ao 25
20 27
20 29
20 3Z
20 33
20 36
20 38
20 40
SATURDAY 24.
39.21 9.X5Z9 S.a6 zz 3a. z
48.21 9.Z48X 26 5 31.8
56.98 9.x44a 25 59 24.3
5.52 9.Z403 25 53 9.7
Z3.82 9.1364 a5 46 48.0
2Z.89 8.1395 25 40 19.3
29. 7a 9.1335 as 33 43.6
37.3Z 9.X345 as 27 z.o
44.66 9.Z905 25 ao II. 5
51.77 9.ZX64 25 13 15.2
58.63 9.XZ93 as 6 Z2.0
5.24 9.1069 a4 59 a.z
xi.6x 9.104X 24 5z 45.6
17.73 a.09» 24 44 22.4
23.60 9.0958 24 36 52.6
29.23 9.09x7 24 29 Z6.2
34.60 9.0874 24 21 33.3
39.72 8.0833 24 Z3 43.9
44.59 3.079X 24 5 48.1
49. a I 3.0748 23 57 46.0
53.57 a.0706 23 49 37.5
57.68 a.0663 23 4Z 22.8
Z.53 3.069Z 23 33 Z.8
5.13 a. 0579 23 24 34.7
8.48 8.0537 S.23 16 Z.4
»»
2.884
3.019'
3.159
3.985
3.4x7
3.550
3.683
3.8x3
3.943
4.073
4.909
4.33Z
4.45»
4.586
4.71S
4.839
4.965
5.090
5.914
5.338
5.461
5.583
5.704
5.826
5.946
6.065
6.X84
6.309
6.490
6.537
6.653
6.768
6.883
6.996
7.XO9
7.990
7.331
7.44a
7.55a
7.661
7.769
7.877
7.983
8.088
8.Z93
8.397
8.40Z
8.503
8.60s
96
AUGUST, 1912.
JSk l«
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION,
Di£
Diff.
Diff.
Diff.
Hour.
Right Atcention.
for
I Min.
Declination.
for
z Min.
Honr.
Right Ascentiozi.
for
zMin.
Declination.
for
zMin.
SUNDAY
25.
TUESDAY 27.
h m s
s
or H
w
h zn 8
3
or n
ft
O
20 40 8.48
a.0537
S.23 16 1.4
8.60s
0
22 14 5.38
Z.87Z2
S.I4 41 59.1
13.486
I
20 42 11.57
2.0494
23 722.1
8.706
I
22 15 57.56
Z.868S
14 29 28.1
12.546
2
20 44 14.41
2.0452
22 58 36.7
8.806
2
22 17 49.57
1.8653
14 16 53.6
Z2.60S
3
20 46 17.00
2.0410
22 49 45.4
8.904
3
22 19 41.40
Z.8624
14 4 15.5
12.663
4
20 48 19.33
2.0368
22 40 48.2
9.ocq
4
22 21 33.06
1.8597
13 51 34.0
X2.73X
5
20 50 21.41
a. 0325
2231 45.1
9.ZOX
5
22 23 24.56
1.8569
13 38 49.0
X2.777
6
20 52 23.23
2.0283
22 22 36.1
9.198
6
22 25 15.89
1.854a
13 26 0.7
13.833
7
20 54 24.80
2.0241
22 13 21.4
9.293
7
22 27 7.06
1.8515
13 13 9.0
12.889
8
20 56 26.12
2.0x98
22 4 I.O
9.388
8
22 28 58.07
1.8489
13 0 14.0
Z3.943
9
20 58 27.18
2.0156
21 54 34.9
9.483
9
22 30 48.93
1.8464
12 47 15.8
Z3.996
10
21 0 27.99
2.0Z14
2x45 3-1
9.576
10
22 32 39.64
1.8438
1234 14.5
13.048
IZ
21 2 28.55
2.0073
21 35 25.8
9.668
II
22 34 30. 19
1.8413
12 21 lO.O
13. xoz
12
21 4 28.86
2.0031
21 25 43.0
9.759
12
22 36 20.60
1.8390
12 8 2.4
13.15«
13
21 6 28.92
1.9990
21 15 54-7
9.850
13
22 38 10.87
Z.8367
II 54 51.8
13.303
14
21 8 28.74
1.9949
21 6 1.0
9.939
14
22 40 1. 00
1.8343
II 41 38.2
13.351
15
21 10 28.31
X.9908
20 56 2.0
X0.028
15
22 41 50.99
1.833Z
II 28 21.7
13.399
i6
21 12 27.63
X.9866
20 45 57.6
10.Z17
16
22 43 40.85
Z.8399
II 15 2.3
13.347
17
21 14 26.70
1.9835
20 35 47.9
zo.aQ4
17
2245 30.58
1.8278
II I 40.1
13*393
i8
21 16 25.53
X.9785
20 25 33. 1
XO.290
z8
22 47 20.19
z.8t57
10 48 15. 1
13.439
19
21 18 24.12
1.9745
20 15 13.1
10.377
19
22 49 9.67
1.8237
10 34 47.4
13.484
20
21 20 22.47
X.9704
20 447.9
Z0.462
20
22 50 59.04
X.82X8
10 21 17.0
13.539
21
21 22 20.57
1.9664
19 54 17.7
10.544
21
22 52 48.29
1.8x99
10 743.9
13.573
22
21 24 18.44
X.9625
19 43 42-5
Z0.627
22
22 54 37.43
x.8x8z
9 54 8.2
13.6x6
23
21 26 16.07
1.9586
S. 19 33 2.4
I0.7ZO
23
22 56 26.46
1.8x63
S. 9 40 30.0
13.657
MO
►NDA\
^ 26.
WED
NESD
AY 28.
o
21 28 13.47
X.9547
S.19 22 17.4
Z0.791
0
22 58 15.38
1.8145
S. 9 26 49.4
13.698
I
21 30 10.63
1.9508
19 II 27.5
Z0.872
I
23 0 4.20
z.8z39
9 13 6.3
13.738
2
21 32 7.56
1.9469
19 0 32.8
Z0.951
2
23 I 52.93
z.8zz3
8 59 20.8
13.778
3
21 34 4.26
X.9431
18 49 33.4
11.029
3
23 341.56
1.8098
8 45 32.9
13.817
4
21 36 0.73
Z.9393
18 38 29.3
ZX.Z07
4
23 530.11
x.8084
8 31 42.8
13.854
5
21 37 56.97
X.9355
18 27 20.5
ZZ.X84
5
23 7 18.57
Z.8069
8 17 50.4
15.893
6
21 39 52.99
1.93x8
18 16 7.2
ZI.260
6
23 9 6.94
1.8055
8 355.8
13.938
7
21 41 48.78
1.9280
18 449.3
IZ.336
7
23 10 55.23
1.8043
7 49 59. 1
13.963
8
21 43 44-35
X.9244
17 53 26.9
XI.4IZ
8
23 12 43.45
X.80SX
736 0.3
13.998
9
21 45 39.71
x.9«)8
17 42 0.0
1X.484
9
23 14 31.60
X.80Z9
7 21 59.4
14.052
lO
21 47 34.85
1.9173
17 30 28.8
11.557
10
23 16 19.68
7 7 56.5
14.064
II
21 49 29.78
1.9137
17 18 53.2
zi.6a9
II
23 18 7.69
1.7997
6 53 51.7
M.096
12
21 51 24.49
X.9Z0Z
17 7 13.3
Z1.70D
12
23 19 55.64
1.7997
6 39 45.0
14.1*7
13
21 53 18.99
Z.906;
16 55 29.2
11.770
13
2321 43.54
1.7978
6 25 36.4
14.158
14
21 55 13.29
1.9032
16 43 40.9
IX. 839
14
23 23 31.38
1.7970
6 II 26.0
14. 187
15
21 57 7.38
1.8998
16 31 48.5
11.907
15
23 25 19.18
1.7963
5 57 13.9
14. «5
i6
21 59 1.26
X.8964
16 19 52.0
11.975
16
2327 6.93
1.7955
5 43 0.1
14.«44
17
22 054.95
1.8933
16 7 51.5
12.042
17
23 28 54.64
1.7948
5 28 44.6
14.373
i8
22 2 48.44
1.8899
15 55 47.0
Z3.Z06
18
23 30 42.31
i.794«
5 14 27.5
14.198
19
22 441.74
Z.8867
15 43 38.5
Z2.I73
19
23 32 29.95
1.7937
5 0 8.8
14.333
20
22 6 34.84
1.8834
15 31 26.2
Z2.237
20
23 34 17.56
1.7933
4 45 48.6
14.348
21
22 8 27.75
Z.8803
15 19 lO.O
Z2.30X
21
2336 5.15
i.79a9
4 31 27.0
M.S73
22
22 10 20.48
X.8772
15 6 50.1
13. 363
22
23 37 52.71
1.7926
4 17 3.9
14.396
23
22 12 13.02
1.874a
14 54 26.4
X3.425
23
23 39 40.26
1.7934
4 2 39.5
14.418
«4
22 14 5.38
X.8718
S.Z441 59.1
10.486
24
23 41 27.80
1.7933
S. 3 48 13.8
14.439
XII.
AUGUST, 1912.
97
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DiflF.
Diff.
DiflF.
DiflF.
Hour.
Right Ascension.
for
X Min.
DeclinatioiL
for
zMin.
Hour.
Right AscensioiL
for
I Min.
Declination.
for
1 Min.
THURSDAY 29.
SATURDAY 31.
h m 8
8
e t M
M
h m 8
8
• t m
n
O
23 41 27.80
X.79M
S. 3 48 13.8
X4.439
0
I 8 38.00
X.8685
N. 7 53 36-7
14.466
I
23 43 15-33
i.7sr«
3 33 46.8
14.460
I
I 10 30.21
1.8719
8 8 4.0
Z4.444
2
23 45 2.85
1.7920
3 19 18.6
X4.479
2
1 12 22.63
1.8754
8 22 30.0
14.422
3
23 46 50.37
i.79ai
3 4 49-3
14.498
3
I 14 15.26
Z.8790
8 36 54.6
14.398
4
23 48 37-90
i.79«
2 50 18.8
14.5X7
4
I 16 8.II
1.8837
8 51 17.7
14.373
5
23 50 25.43
1.7923
2 35 47-3
14.534
5
I 18 1. 18
1.8864
9 5 39-3
14.347
6
23 52 12.97
1.7925
2 21 14.7
14.551
6
I 19 54.48
1.8903
9 19 59-3
14.330
7
23 54 0.53
1.7928
2 6 41.2
14.567
7
I 21 48.02
1.8942
9 34 17.7
14.392
8
23 5548-11
1.7932
I 52 6.7
14.583
8
1 23 41.79
1.8983
9 48 34-3
14.263
9
23 57 35-72
1.7937
I 37 31.4
14.596
9
I 25 35.80
1.9023
10 2 49.2
14.233
lO
23 59 23.35
1.7942
I 22 55.2
14.609
10
I 27 30.06
1.9065
10 17 2.3
14.303
II
0 I 11.02
X.7947
I 8 18.3
Z4.62X
11
I 29 24.58
X.9ZO7
10 31 13-5
14.170
12
0 2 58.72
X.7953
0 53 40.7
14.632
12
I 31 19-35
1.9150
10 45 22.7
14.137
13
0 4 46.46
1.7961
039 2.4
14.643
13
I 33 14.38
1.9194
10 59 29.9
14.103
14
0 6 34.25
1.7969
0 24 23.5
14.653
14
I 35 9-68
1.9239
II 13 35.0 14.067
15
0 8 22.09
1.7978
S. 0 9 44.0
Z4.G63
15
1 37 5-25
1.9285
11 2737.9
14.030
16
0 10 9.99
X.7987
N. 0 4 56.0
14.671
16
I 39 I'lo
1.9331
11 41 38.6
13.992
17
0 II 57-94
J.7997
0 19 36.5
14.678
17
I 40 57.22
1.9378
II 55 37-0 13.954
18
0 13 45.96
X.8008
0 34 17-4
14.685
18
I 42 53.63
1.9426
12 9 33.1
13.915
19
0 15 34.04
z.Soao
0 48 58.7
14.691
19
I 44 50.33
1.9475
12 23 26.8
13.873
20
0 17 22.20
1.8033
I 3 40.3
14.695
20
I 46 47.33
1.95*4
12 37 17.9
13.831
21
0 19 10.43
1.8045
I 18 22.1
14.699
21
1 48 44.62
1.9573
12 51 6.5
13.788
22
0 20 58.74
1.8059
I 33 4.2
14.702
22
I 50 42.21
1.9634
13 452.5
13.744
23
0 22 47.14
1.8074
N. I 47 46.4
14.704
23
I 52 40. 1 1
^'^^
N.13 18 35.8 \ 13.698
FF
IIDAY
30.
SUNDAY, SEPTEMBER i.
0
0 24 35.63
Z.8089
N. a 2 28.7
14.706
0
I 54 38.33
1.9729
N.13 32 16.3
13.653
I
0 26 24.21
0 28 12.89
I. 8105
1.8X23
2 17 ii.i
231 53-5
14.707
14.706
2
3
0 30 1.68
Z.814O
2 46 35.8
14.704
4
5
0 31 50.57
033 39-57
1.8158
X.8177
3 I 18.0
3 16 0.1
14.702
14.699
PHASES OF Tl
[IE moon:
0
0 35 28.69
I. 8197
3 3041-9
14.695
7
0 37 17.93
Z.8318
3 45 23.5
14.691
8
039 7.30
0 40 56.80
1.8239
Z.8361
4 0 4.8
4 1445.7
Z4.685
X4.678
9
J 1-
10
II
0 42 46.43
0 44 36.20
1.8283
1.8307
4 29 26.2
4 44 6.2
Z4.67I
Z4.662
c
Last Quarter .
ohm
. Aug. 5 16 17.6
12
0 46 26. 1 1
I.833X
4 58 45-6
14.653
•
New Moon .
. . . 12 7 57.6
13
0 48 16.17
1.8357
5 13 24.5
14.643
3)
First Quarter .
. . . 19 4 56.6
14
0 50 6.39
Z.8383
5 28 2.7
14.631
0
Full Moon . .
. . . 27 7 58.9
15
16
17
0 51 56.76
0 53 47-30
0 55 38.00
Z.84O9
1.8437
Z.8465
5 42 40.2
5 57 16.9
6 II 52.8
14.618
14.605
14.592
m m A# ^
« •_
18
0 57 28.88
1.8494
6 26 27.9
14.577
T*^ •
d h
19
0 59 19-93
1.8523
6 41 2.0
14.561
C
Perigee . . ,
. , Aug. 11 21.6
20
I I II. 16
1.8554
6 55 35-2
14.544
d
Apogee . . .
24 20.6
21
I 3 2.58
I 454-19
Z.8586
1.86x8
7 10 7.3
7 24 38.3
14.526
14.507
22
23
I 6 45.99
I. 8651
7 39 8.1
14.487
24
I 8 38.00
1.8685
N. 7 53 36-7
14.466
I9I2-
98
SEPTEMBER, 1912.
AT GREENWICH APPARENT NOON.
Day of
the Week.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
5^-
I
2
3
4
5
6
7
8
lO
II
12
13
14
15
16
17
18
20
21
22
23
24
25
26
27
28
29
30
31
THE SUN'S
Apparent Right
Ascension.
h m 8
041 5-75
o 44 43.26
o 48 20.51
05157-51
o 55 34-28
o 59 10.84
2 47.20
6 23.38
9 59-41
13 35-29
17 11-03
20 46.65
24 22.16
27 57-5^
31 32.94
35 8-25
38 4352
42 18.77
45 54-03
49 29-32
53 4-66
1 56 40.07
2 015.57
2 351-18
2 726.93
211 2.84
2 14 38.94
2 18 15.24
2 21 51.78
2 25 28.57
12 29 5.64
Diff . for
I Hour.
s
9.069
9.058
9.046
9.036
9.027
9.019
9.0ZI
9.004
8.998
8.992
8.986
8.981
8.977
8.974
8.972
8.970
8.969
8.969
8.970
8.971
8.972
8.975
8.980
8.986
8.993
9.000
9.009
9.018
9.028
9.039
9.051
Apparent Decli-
nation.
tf
N. 8 19 50.7
758 1.6
736 4.6
7 14 0.0
6 51 48.3
6 29 29.7
674-5
5 44 33-1
5 21 55-8
45913-1
43625.1
4 13 32.4
3 50 35-3
3 27 34-1
3 429.2
2 41 21.0
2 18 9.8
I 54 56.0
I 31 39-8
I 8 21.6
045 1.7
N. o 21 40.4
S. o 1 41.9
o 25 4.9
0 48 28.2
1 " 51-5
I 35 H-5
1 58 36.9
2 21 58.5
2 45 18.9
S. 3 837.7
Dilf. for
I Hour.
-54-39
54-72
55.04
-55-35
55.64
55-92
-56.18
56.43
56.67
-56.89
57.10
57.29
-57.47
57.63
57-77
-57.90
58.02
58-13
-58.22
58.30
58.36
-58.41
58.44
58.46
-58.47
58.46
58.44
-58.41
58.37
58.32
-58.25
Semidiam-
eter.
tt
5 53-05
5 53-27
5 53-50
5 53-73
5 53-96
554-19
5 54-43
5 54-67
5 54-92
5 55''^7
5 55-42
5 55.67
5 55.93
556.19
5 56.45
5 56.71
5 56.98
5 57-25
5 57-52
5 57.79
5 58.07
5 58.34
5 58.62
5 58.90
5 59-17
5 59-44
5 59-71
5 59.98
6 0.25
6 0.52
16 0.79
Siderea
Time of
Semidi-
ameter
Passing
Me-
ridian.
64.38
64.34
64.30
64.26
64.23
64.19
64.16
64-13
64.10
64.08
64.06
64.04
64.03
64.02
64.01
64.01
64.01
64.01
64.02
64.03
64.04
64.05
64.07
64.09
64.11
64.14
64.17
64.20
64.23
64.26
64.29
E(]nation of
Time, to be
Subtracted
from
Apparent
Time.
m B
o 1.54
o 20.53
039-78
0 59.28
1 19.01
1 38.95
1 59.08
2 19-39
2 39.87
3 0.50
3 21.26
342-13
4 3.10
424.17
445-31
5 6.50
5 27.72
5 48.97
6 10.20
6 31-41
6 52.57
7 13.66
7 34.66
7 55.55
8 16.29
8 36.88
8 57.28
9 17.47
9 37-43
957.13
lo 16.56
Diff.
for
X Hour.
B
0.785
0.797
0.808
0.817
0.826
0.835
0.843
0.850
0.856
0.862
0.867
0.872
0.876
0.879
0.882
0.884
0.885
0.885
0.884
0.883
0.880
0.877
0.872
0.867
0.861
0.854
0.846
0.837
0.826
0.815
0.803
Note.— The mean time of semidiameter passing may be found by subtracting 0^.18 from the sidereal time.
The sign — prefixed to the hourly change of declination indicates that north declinations are decreasinR-
south declinations increasing.
IL
SEPTEMBER, 1912.
99
AT GREENWICH MEAN NOON.
Day of
the Week.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
SUN
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN,
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
SUN.
Mon.
Tues.
I
2
3
4
5
6
7
8
9
lO
II
12
13
14
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
31
THE SUN'S
Apparent Right
Ascenaion.
h m 8
041 5-75
04443.31
o 48 20.61
051 57-66
o 55 34-48
059 11.08
2 47.49
6 23.73
9 59-8i
13 35-74
171^-53
20 47.20
24 22.77
27 58.25
31 33-66
35 9.02
38 44.34
42 19.65
45 54-96
49 30-30
53 5-69
1 5641.15
2 o 16.70
2 352.36
2 728.16
211 4.13
2 1440.28
2 18 16.64
2 21 53.23
2 25 30.07
1229 7.19
Diff. for
X Hour.
8
9.071
9.060
9.049
9.039
9.030
9.022
9.014
9.006
9.000
8-994
8.989
8.984
8.980
8.977
8.974
8.972
8.971
8.971
8.972
8.973
8.975
8.979
8.984
8.989
8.995
9.002
9.01 1
9.020
9.030
9.041
9.053
Apparent Declina-
tion.
N. 8 19 50.7
758 1.3
736 4-0
71359-1
6 51 47.1
6 29 28.2
6 7 2.7
5 44 3I-0
5 21 53-4
4 59 10.3
4 36 22.0
4 13 28.9
35031-4
3 27 29.9
3 424-7
241 16.1
2 18 4.5
I 54 50.3
I 31 33-7
I 8 15.2
0 44 55-0
N. o 21 33.4
S. o I 49.2
025 12.5
048 36.1
1 1 1 59-8
I 35 23.2
1 58 46.0
2 22 7.9
2 45 28.6
S. 3 847.7
Diff. for
z Hour.
H
-54-39
54.7a
55-04
-55-35
55-64
55-92
-56.19
56-44
56.68
-56.90
57.11
57-30
-57.48
57.64
57.79
-57.92
58.04
58.14
-58.23
58.31
58.37
-58.42
58.46
58.48
-58.49
58.48
58.46
-58.43
58.39
58.33
-58.26
Equation of
Time, to be
Added to
Mean Time.
m 8
o 1.54
o 20.53
a 39.79
0 59.29
1 19.02
I 38.97
1 59.11
2 19-43
2 39-91
3 0.54
3 21.30
3 42.18
4 3-i6
4 24.23
4 45-38
5 6.57
5 27.80
5 49.05
6 10.29
631.50
6 52.67
7 13-77
7 34-77
7 55.66
8 16.41
837.00
8 57.40
.9 17.60
9 37-56
9 57-27
10 16.70
Diff. for
X Hour.
8
0.785
0.797
0.808
0.817
0.826
0.835
0.843
0.850
0.856
0.862
0.867
0.872
0.876
0.879
0.882
0.884
0.885
0.885
0.884
0.883
0.880
0.877
0.873
0.867
0.861
0.854
0.846
0.837
0.826
0.815
0.803
Sidereal Time,
or Right Ascen-
sion of Mean
Sun.
h m 8
o 41 7.28
045 3.84
049 0.39
o 52 56.95
o 56 53-50
I 050.05
4 46.61
843.16
12 39.72
16 36.27
20 32.82
24 29.38
28 25.93
32 22.49
36 1904
40 15-59
44 12.15
48 8.70
52 5.25
56 1.81
59 58.36
2 354-92
2 751-47
211 48.02
2 1544.58
2 I9 4i'i3
2 23 37.68
2 27 34.24
2 31 30.79
2 35 27.34
12 3923.90
NoTB.— The semidiameter for mean noon may be assumed the same as that for apparent noon.
The sign — prefixed to the hourly change of decUnation indicates that north declina-
tions are decreasing; south declinations increasing.
Diff. for z Hoar,
(Table III.)
100
SEPTEMBER, 1912.
TIL
AT GREENWICH MEAN NOON.
o
Day of the
Year.
ay of th
Month.
U
I
2
3
245
246
247
4
5
6
248
249
250
7
8
9
251
252
253
lO
II
12
254
255
256
13
H
15
257
258
259
i6
17
i8
260
261
262
19
20
21
263
264
265
22
23
24
266
267
268
25
26
27
269
270
271
28
29
30
272
273
274
31
275
THE SUN'S
True Longitude.
58 39 26.3
593732.1
60 35 39-8
61 33 49.6
62 32 1.4
63 30 15.2
64 28 3 1. 1
65 26 49.0
66 25 8.9
67 23 30.8
68 21 54.6
69 20 20.2
70 18 47.5
71 17 16.6
721547-4
73 14 19-8
741253.8
75 II 29.5
76 10 6.9
n 845.9
78 7 26.7
79 6 9.3
80 453.6
81 339.8
82 2 27.9
83 I 18.0
83 60 10. 1
8459 4.2
8558 0.4
86 56 58.9
87 55 59.6
A'
38 56.2
37 1-9
35 9-5
33 I9-I
31 30-8
2944.5
28 0.3
26 18.1
24 37-9
22 59.6
21 23.3
19 48.8
18 16.0
16 45.0
15 15.6
13 47-9
12 21.8
10 57-4
9 34-7
813.6
654-3
536.8
4 21.0
3 7-1
I 55-1
o 45.0
59 36.9
58 30.9
5727.1
56 25.5
Diff. for
X Hour.
I45«20
145.28
145-36
145-44
145.53
145.62
145-70
145-79
145.87
145.95
146.03
146.10
146.18
146.25
146.32
146.38
146.45
146.52
146.59
146.66
146.73
146.81
146.88
146.96
147.04
147-13
147.21
147.30
147.39
147.48
5526.1 I 147.58
Latitude.
+O.II
0.23
0.33
+0.41
0.46
0.49
+0.48
0-43
0.35
+0.26
0.14
+0.01
—0.13
0.27
0-39
-0.49
0.57
0.62
— 0.64
0.64
0.60
-0.55
0.47
0.36
—0.25
— 0.13
0.00
+0.14
0.27
0.39
+0.47
Logarithm of the
Radius Vector of
the Earth.
0.003 8334
0.003 7308
0.003 6274
0.003 5230
0.0034175
0.003 3108
0.003 2029
0.003 0936
0.002 9827
0.002 8703
0.002 7564
0.002 6409
0.002 5239
0.002 4056
0.002 2860
0.002 1654
0.002 0439
0.00 1 9216
0.00 1 7987
o.ooi 6754
o.ooi 5518
O.OOI 4280
O.OOI 3040
O.OOI 1800
O.OOI 0561
0.000 9323
0.000 8087
0.000 6854
0.000 5624
0.000 4396
0.000 3170
Diff. for
X Hour.
—42.6
42.9
43.3
-43-7
44-2
44-7
-45.3
45-9
46.5
-47.1
47.8
48.4
-49.0
49.5
50.0
-50.4
50.8
5I-I
-51-3
51.5
51.6
-51.7
51.7
51.7
-51.6
51-5
51.4
-5I-3
51.2
5I.I
-51.0
NoTB. — The lon^iude^ Ai t|ie column A are referred to the true equinox of their own date, while
•tho«e iivthe cdluibn A' are referred to the mean equinox of the beginning of the Bes-
selian fictitious year.
Mean Time of
Sidereal Noon.
m
3 16 41.84
3 12 45.93
3 8 50.02
3 45412
3 058.21
257 2.30
253 6.39
2 49 10.48
2 45 14-57
241 18.67
2 37 22.76
2 33 26.85
2 29 30.94
2 25 35.03
2 21 39.13
2 17 43.22
21347.31
2 951.40
2 Sbb'S^
2 I 59-59
I 58 3.66
154 7-77
I 50 11.86
I 46 15.96
I 42 20.05
I 3824.14
I 3428.23
I 30 32.32
I 26 36.42
I 2240.51
II 18 44.60
Diff. for T Hour,
(Table IL)
IV.
SEPTEMBER, 1912.
GREENWICH MEAN TIME.
101
THE MOON'S
SEMIDIAMETER.
Noon.
19-5
29.4
5 40-5
5
S
5 52-3
6 4.4
6 16.0
6
6
6
6
6
5
S
5
4
4
4
4
4
5
25-9
33-1
36.4
35-2
29.4
19-5
6.5
51.8
36.9
22.8
10.4
5 0-4
53-0
48.3
46.3
46.6
49.0
53.2
58.7
5-3
12.6
20.3
28.3
5 36.5
5 44-9
32
IS 53-3
Midnight
n
5 24.3
5 34-8
5 46-3
5 58.4
6 10.3
6 21.2
6
6
6
6
5
5
5
5
5
4
4
4
4
4
4
4
5
5
5
5
5
29.9
35-3
36.4
32.9
24.9
13-3
59.3
44-3
29.7
16.3
5.1
56.4
50-3
47.0
46.2
47.6
50-9
55.8
1.9
8.9
16.4
24-3
32.4
5 40-7
5 49-1
IS 57.S
HORIZONTAL PARALLAX.
Noon.
56
57
58
58
59
8.7
45-2
25-7
9.1
53.5
36.0
60 12.5
60 38.9
60 5 1. 1
60 46.7
60 25.2
59 48.7
59 i-i
58 7.4
57 12.5
56 20.8
55 35-5
54 58.7
54
54
54
31.6
14.3
6.8
54 8.0
54 I7-0
54 32.3
54 52.6
55 16.7
55 43.2
56 1 1.5
56 41.0
57 1 1-2
57 41-9
58 12.8
DlfF. for
X Hour.
+1.42
1. 61
1-75
+1.84
1.83
1.67
+1.33
0.82
+0.17
-0-55
1.23
1.77
—2.14
2.29
2.24
-2.03
1.72
1.33
—0.92
0.51
—0.12
+0.22
0.51
0.75
40.93
1.06
1.15
+1.20
1.25
1.27
1.29
+1.28
Midnight.
56 26.4
57 5-0
57 47-1
58 31.3
59 15-2
59 55-3
60 27.2
60 47.0
60 51. 1
60 38.0
60 8.6
59 26.0
58 34-7
57 39.8
56 46.0
55 57.2
55 15-9
54 43.9
54 21.7
54 9-4
54 6.4
54 11*6
54 23.9
54 41-9
55 4-3
55 29.7
55 57.2
56 26.1
56 56.0
57 26.5
57 57-4
58 28.1
Diff. for
X Hour.
w
-I-I.52
1.69
I.8I
+1.85
1.77
1-52
+1.10
+0.51
-0.18
—0.90
1-52
1.98
—2.24
2.29
2-15
-1.89
1.53
I.I3
—0,72
-0.31
+0.05
+0.37
0.64
0.85
+1.00
I. II
I.I8
+1.23
1.26
1.28
1.29
+1.26
UPPER TRANSIT.
Meridian of
Greenwich.
h m
15 42-6
16 31.9
17 26.1
18 25.2
19 27.8
20 31.4
21 33-3
22 31.7
23 26.1
6
0 17.4
1 6.6
I
2
3
4
5
6
55.1
44.0
34-1
25.8
18.7
12.0
7 4-4
7 54-9
8 42.8
9 28.1
10 II. I
10 52.4
11 33.0
12 13.8
12 56.0
13 40.8
14 29.1
15 21.8
16 18.9
17 19.5
Diff. for
X Hour.
m
1.96
2.15
2-37
2.55
2.65
2.63
2.51
2.35
2.20
2.09
2.03
2.02
2.06
2.12
2.18
2.22
2.21
2.15
2.05
1.94
1.84
1-75
1.70
1.69
1.72
1.80
1-93
2.10
2.29
2.46
2.57
AGE.
Noon.
d
19.7
20.7
21.7
22.7
23-7
24.7
25.7
26.7
27.7
28.7
0.3
1-3
2.3
3.3
4-3
5.3
6.3
7-3
8.3
9.3
10.3
11.3
12.3
13-3
14-3
15.3
16.3
17-3
18.3
19.3
20.3
21.3
102
SEPTEMBER, 1912.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Di£F.
DifF.
DiflF.
Diff.
Honr.
Right Ascension.
for
iMin.
Declination.
for
xMin.
Hour.
Right Ascension.
for
z Min.
Declination.
for
I Min.
V SUNDAY I.
TUESDAY 3.
h m 8
s
0 1 n
tt
h m 8
s
0 f n
f*
O
I 54 38.33
1.9729
N.I3 32 16.3
13.652
0
3 36 41-39
2.3008
N.23 8 58.5
9.831
I
I 56 36.86
1.9783
13 45 53-9
13.604
I
3 38 59-67
a. 3087
23 18 44.9
9.715
2
I 58 35-72
1.9837
13 59 28.6
13.555
2
3 41 18.43
a. 3166
23 28 24.3
9.597
3
2 0 34.90
1.9891
14 13 0.4
13.504
3
3 43 37-67
a. 3245
23 37 56.5
9.478
4
2 234.41
1.9946
14 26 29.1
13.45a
4
3 45 57-38
2.3324
23 47 21.5
9.357
5
2 4 34-25
2.0003
14 39 54.7
13.400
5
348 17-56
a. 3404
23 56 39.3
9.254
6
2 6 34.44
2a 0060
14 53 17.0
13.346
6
3 50 38.22
2.3483
24 5 49.6
9.109
7
2 834.97
a.0118
15 636.1
13.290
7
3 52 59.36
2.3562
24 14 52.3
8.983
8
2 lo 35.85
a. 0177
15 19 51-9
13.234
S
3 55 20.98
2.3642
24 2347-5
8.S56
9
2 12 37.09
2.0236
15 33 4.2
13.177
9
3 57 43.07
2.3722
24 32 35-0
8.736
lO
2 14 38.68
8.0296
15 46 13.0
13.118
10
4 0 5.64
a. 3801
24 41 14.6
8.594
II
2 16 40.63
2.0356
15 59 18.3
13.057
II
4 2 28.68
2.3879
24 49 46.3
8.461
12
2 18 42.95
2.0417
16 12 19.9
12. 995
12
4 452.19
2.3958
24 58 lO.O
8.327
13
2 20 45.64
2.0479
16 25 17.8
12.932
13
4 7 16.17
2.4037
25 6 25.6
8.193
14
2 22 48.70
2.0542
16 38 II. 8
12.868
14
4 9 40.63
2.4115
25 14 32.9
8.054
15
2 24 52.14
2.0605
16 51 1.9
12.803
15
4 12 5.55
2.4x93
25 22 32.0
7.914
i6
2 26 55.96
2.0669
17 348.1
12.736
i6
4 14 30.94
2.4271
25 30 22.7
7.773
17
2 29 0.17
2.0734
17 16 30.2
12.668
17
4 16 56.80
2.4348
25 38 4.8
7.631
i8
2 31 4-77
2.0799
17 29 8.2
12.598
18
4 19 23.12
3.4425
25 45 38.4
7.487
19
2 33 9-76
2.0865
17 41 41.9
12.527
19
4 21 49.90
2.4502
25 53 3-2
7.341
20
235 15-15
2.0932
17 54 II. 4
12.455
20
4 24 17-13
a. 4578
26 0 19.2
7.194
21
2 37 20.95
s. 1000
18 6 36.5
12.381
21
4 26 44.83
a.4654
26 7 26.4
7.045
22
2 39 27.15
2.X068
18 18 57.1
12.306
22
4 29 12.97
2.4739
26 14 24.6
6.894
23
2 41 33-76
MC
2. Z136
)NDA
N.18 31 13.2
V^ 2.
ia.329
23
4 31 41.57
WEE
3.4803
»NES1
N.26 21 13.7
)AY 4.
6.74a
o
2 43 40.78
2.1205
N.18 43 24.6
12. 131
0
4 34 10.61
2.4877
N.26 27 53.6
6.588
I
2 45 48.22
2.1275
18 55 31-3
12.072
I
4 36 40.09
2.4951
26 34 24.2
6.43a
2
2 47 56.08
2.1345
19 7 33-2
11.991
2
4 39 10.01
2.5024
264045.5
6.275
3
2 50 4-37
2.1416
19 19 30.2
11.909
3
4 41 40.37
2.5096
26 46 57.3
6.1x7
4
2 52 13.08
2.1488
19 31 22.3
11.825
4
4 44 1 1. 16
2.5167
26 52 59-5
5-957
5
2 54 22.22
2.1560
1943 9.3
11.740
5
4 46 42.37
a. 5237
26 58 52.1
5.795
6
2 56 31.80
a. 1633
19 54 51- 1
IX. 654
6
4 49 14.01
a. 5307
27 4 34.9
5.63a
7
2 58 41.81
2.1706
20 6 27.7
11. 565
7
4 51 46.06
2.5376
27 10 7.9
5.467
8
3 0 52.26
2.1779
20 17 58.9
".475
8
4 54 18.52
2.5444
27 15 31.0
5.301
9
3 3 3-i6
a. 1853
20 29 24.7
11.384
9
4 56 51.38
2.5511
27 20 44.0
5.134
10
3 5 14.51
2. 1928
20 40 45.0
11.291
10
4 59 24.65
2.5577
27 25 47.0
4.965
II
3 7 26.30
2.2003
20 51 59.7
11.197
II
5 I 58.31
2.5642
27 30 39.8
4.794
12
3 9 38.54
2.ao78
21 3 8.7
11.102
12
5 43236
2.5706
27 35 22.3
4.62a
13
3 ^i 51.23
2.2154
21 14 II. 9
11.005
13
5 7 6.79
2.5770
27 39 54.4
4.449
14
3 14 4.38
a. 2230
21 25 9.2
10.906
14
5 9 41.60
2.583a
27 44 16. 1
4.274
15
3 16 17.99
2.2306
21 36 0.6
10.805
15
5 12 16.77
2.5i$92
27 48 27.3
4.098
i6
3 18 32.06
2.2383
21 46 45.9
10.703
16
5 14 52.31
2.595a
27 52 27.9
3.921
X7
3 20 46.59
8.2461
21 57 25.0
10.600
17
5 17 28.20
2.60IX
27 56 17.8
8.74a
i8
3 23 1-58
2.2538
22 7 57.9
10.495
18
5 20 4.44
2.6068
27 59 56.9
3.56a
19
3 25 17.04
a.26r5
22 18 24.4
X0.388
19
5 22 41.02
2.6X34
28 3 25.2
3.381
20
3 27 32.97
2.2693
22 28 44.5
10.280
20
5 25 17.94
2.6179
28 6 42.6
3.199
21
3 29 49-37
2.2773
2238 58.1
10. 171
21
5 27 55.18
2.6233
28 9 49.0
3.0x5
22
3 32 6.24
2.2851
22 49 5.0
10. 059
22
5 30 32.73
2.6285
28 12 44.4
3.830
23
3 34 23.58
2.2929
22 59 5.2
9*945
23
5 33 10.60
a. 6335
28 15 28.6
3.644
24
3 36 41.39
2.3008
N.23 8 58.5
9.831
24
5 35 48.76
3.6385
N.28 18 1.7
«.457
VI.
SEPTEMBER, 1912.
103
GREENWICH MEAN TIMK
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DifF.
DifF.
DifF.
DifiF.
Hour.
Right Ascension.
for
X Min.
Declination.
for
z Min.
Hour.
Right Ascension.
for
zMin.
Declination.
for
zMin.
TH1
LJRSD
AY 5.
SATURDAY 7.
h m s
s
or m
tr
h m s
8
Of n
M
O
5 35 48-76
3.638s
N.28 18 1.7
«.457
0
7 44 56.93
3.6748
N.26 28 16.7
7.075
I
5 38 27.23
a. 6433
28 20 23.5
a. 368
I
7 47 37.32
3.67x4
26 21 6.4
7.367
2
541 5-95
a. 6478
28 22 33.9
3.079
2
7 50 17-50
3.6679
26 13 44.7
7.458
3
5 43 44-96
8.6523
28 24 33.0
X.890
3
7 52 57.47
3.6643
26 6 IX. 5
7.648
4
546 24.23
2.6567
28 26 20.7
Z.698
4
7 55 37-22
a. 6605
25 58 27.0
7.837
5
5 49 3-76
3.6608
28 27 56.8
1.506
5
7 58 16.73
3.6565
25 50 31- 1
8.036
6
5 51 43.53
a. 6648
28 29 21.4
i.3«3
6
8 0 56.00
3.6525
25 42 23.9
8.3Z3
7
5 54 23-54
3.-6687
28 30 34.4
X.XZ9
7
8 3 35.03
3.6483
25 34 5.6
8.398
8
5 57 3-77
3.6733
28 31 35.7
0.934
8
8 6 13.80
a. 6440
25 25 36.2
8.583
9
5 59 44-22
3.6758
28 32 25.3
0.739
9
8 8 52.31
a. 6397
25 16 55.8
8.765
lO
6 2 24.87
3*6793
28 33 3.2
0.53a
10
8 II 30.56
3.635a
25 8 4.4
8.947
II
6 5 5.72
3.6834
28 33 29.2
0.335
IX
8 14 8.53
3.6305
2459 2.1
9.137
12
6 7 46.76
a. 6854
28 33 43.4
+O.X37
12
8 16 46.22
3.6257
24 49 49- 1
9.306
13
6 10 27.97
3.688a
28 33 45-7
-o.o6x
13
8 19 23.62
3.6ao8
24 40 25.4
9.484
H
6 13 9.34
3.6908
28 33 36. 1
0.360
14
8 22 0.72
3.6159
24 30 51.0
9.66Z
15
6 15 50.87
S.6933
28 33 14.5
0.460
15
8 24 37.53
3.6Z09
24 21 6.1
9.836
16
6 18 32.54
3.6957
28 32 40.9
0.661
16
8 27 14.03
3.6058
24 II 10.7
XO.009
17
6 21 14.35
2.6978
28 31 55.2
0.863
17
8 29 50.22
3.6006
24 I 5.0
lo.zSx
18
6 23 56.28
2.6997
28 30 57.5
Z.063
18
8 32 26.10
3.595a
23 50 49.0
zo.35a
19
6 26 38.31
3.7014
28 29 47.8
Z.363
19
8 35 1-65
a. 5898
23 40 22.8
Z0.520
20
6 29 20.44
3.7030
28 28 26.0
1.465
20
8 37 36.88
3.5844
23 29 46.6
ZO.687
21
6 32 2.67
a.7<H5
28 26 52.0
X.667
21
8 40 11.78
3.5789
23 19 0.4
ZO.858
22
6 34 44.98
a. 7057
28 25 5.9
X.869
22
8 42 46.35
a. 5733
23 8 4.3
zz.oz6
23
6 37 27.35
3.7067
N.28 23 7.7
3.073
23
8 45 20.58
3.5676
N.22 56 58.5
ZZ.178
Fl
[(IDAl
' 6.
SL
fNDAI
f 8.
0
6 40 9.78
«.7075
N.28 20 57.3
«.975
0
8 47 54.46
3.56x8
N.22 45 43.0
11.338
I
6 42 52.25
3.7083
28 18 34.7
3.478
I
8 50 28.00
3.5561
22 34 17.9
11.497
2
6 45 34.76
3.7087
28 15 59.9
3.681
2
853 1. 19
3.5503
22 22 43.4
1Z.653
3
6 48 17.29
3.7090
28 13 13.0
3.883
3
8 55 34.03
a. 5444
22 10 59.6
ZZ.808
4
6 50 59.84
3.7091
28 10 13.9
3.087
4
8 58 6.52
3.5385
21 59 6.5
ZZ.96Z
5
6 53 42.38
«.7o89
28 7 2.6
3. ago
5
9 0 38.65
a.53a5
21 47 4-3
Z3.xza
6
6 56 24.91
a. 7087
28 3 39. 1
3.492
6
9 3 10.42
a.5a65
21 3453.1
13.36Z
7
6 59 7.43
3.7083
28 0 3.5
3.695
7
9 541.83
3.5304
21 22 33.0
13.408
8
7 I 49-91
a. 7077
27 56 15.7
3.898
8
9 8 12.87
a. 5143
21 10 4.x
ia.554
9
7 432.35
a. 7069
27 52 15.8
4.100
9
9 1043.55
8.5083
20 57 26.5
za.698
10
7 7 14.74
3.7060
2748 3.7
4.302
10
9 13 13.86
3.503Z
20 44 40.3
Z3.840
II
7 9 57.07
3.7048
274339.5
4.503
II
9 15 43.80
a. 4959
20 31 45.7
Z3.979
12
7 12 39.32
3.7035
27 39 3-3
4.704
12
9 i8 13.37
3.4898
20 18 42.8
Z3.Z17
13
7 1521.49
3.7030
27 34 15.0
4.906
13
9 20 42.57
3*4836
20 5 31.7
I3.a53
14
7 18 3.56
a. 7003
27 29 14.6
5.107
14
9 23 11.40
a.4774
19 52 12.5
13.387
15
72045.53
3.6985
27 24 2.2
5.307
15
9 25 39-86
a.47ia
19 38 45.3
13.5x8
16
7 23 27.38
a. 6965
27 18 37.8
5.506
16
9 28 7.94
3.4649
19 25 10.3
Z3.648
17
7 26 9. 1 1
a. 6944
27 13 1.5
5.704
17
9 30 35-65
a.4587
19 II 27.5
13.776
18
7 28 50.70
3.6930
27 7 13-3
5.903
18
9 33 2.99
a.45a5
18 57 37.2
X3.90Z
19
731 32.15
a.6895
27 I 13.3
6.099
19
9 35 29.95
a. 4463
i8 43 39.4
Z4.025
20
7 34 13.45
3.6870
26 55 1.4
6.396
20
9 37 56. 54
a.440z
18 29 34.2
14.147
21
7 36 54.59
3.6843
26 48 37.8
6.493
21
9 40 22.76
a. 4339
18 15 21.8
Z4.366
22
7 39 35.56
3.6813
26 42 2.4
6.687
22
9 42 48.61
3.4277
18 I 2.3
Z4.383
23
7 42 16.34
3.678Z
26 35 15-4
6.881
23
9 45 14.08
a.4az5
17 46 35.9
14.498
24
7 44 56.93
3.6748 ,
N.26 28 16.7
7.075
24
9 47 39-19
a.4X54
N.1733 2.6
X4*6za
104
SEPTEMBER, 1912.
VIL
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DiflF.
Diff.
Diff.
DiiF.
Honr.
Right Ascension.
for
Declination.
for
Hoar.
Right Ascension.
for
Declination.
for
xMin.
xMin.
iMin.
X Mill.
M(
)NDA^
IT 9.
WEDNESDAY 11.
h m s
s
e f M
n
h
m s
s
e 1 ft
m
O
9 47 39- 19
a. 4154
N.17 32 2.6
14.6x2
0
II
37 21.10
8.1797
N. 4 21 2.7
17.537
I
9 50 3-93
a. 4093
17 17 22.5
14.723
I
II
39 31.78
2.1765
4 330.1
X7.548
2
9 52 28.30
2.403a
17 235.9
X4.83X
2
II
41 42.28
a. 1734
3 45 56.9
17.557
3
9 54 52.31
a. 3973
16 47 42.8
14. 937
3
II
43 52.59
2.1704
3 28 23.2
17-564
4
9 57 15-96
a. 39"
16 32 43.4
15.043
4
II
46 2.73
2.1675
3 10 49.2
17.568
5
9 59 39.24
2.3850
16 17 37.8
15.X44
5
II
48 12.69
2.1647
2 53 15.0
i7-57«
6
10 2 2.16
2.3790
16 2 26.1
15.245
6
II
50 22.49
2. 1619
2 35 40.6
17.573
7
10 4 24.72
a. 3731
1547 8.4
X5.343
7
II
52 32.12
2.X593
2 18 6.2
17.573
8
10 6 46.93
2.3672
15 31 44.9
15.439
8
11
54 41.60
8.1567
2 0 31.9
17.570
9
10 9 8.78
2.3613
15 16 15.7
15.53a
9
II
56 50.92
3.1543
I 42 57.8
17.566
lO
10 n 30.28
a. 3554
15 0 41.0
15.624
10
11
59 o.io
2.15x8
I 25 24.0
17.559
II
10 13 51.43
2.3497
14 45 0.8
15.714
II
12
I 9.13
3.1494
I 7 50.7
17.55X
12
10 16 12.24
a. 3439
14 29 15-3
15.802
12
12
3 18.03
2.X473
0 50 17.9
17.543
13
10 18 32.70
a. 3382
14 13 24.6
15.887
13
12
5 26.79
3.X450
0 32 45.7
17.530
14
10 20 52.82
2.3326
13 57 28.9
15.970
14
12
7 35.43
2.1430
N. 0 15 14.3
17.5x6
15
10 23 12.61
2.3270
13 41 28.2
16.051
15
12
9 43.95
a. X410
S. 0 2 16.2
17.501
i6
10 25 32.06
2.3214
13 25 22.8
16.X29
16
12
II 52.35
3.1390
0 19 45.8
17.484
17
10 27 51.18
2.3160
13 9 12.7
Z6.206
17
12
14 0.63
2.x37a
0 37 14.3
17.465
i8
10 30 9.98
2.3106
12 52 58.1
z6.a8o
18
12
16 8.81
3.1355
0 54 41.6
17.445
19
10 32 28.45
a. 3051
12 36 39.1
16.35a
19
12
18 16.89
2.1338
I 12 7.7
17.423
20
103446.59
2.2998
12 20 15.8
16.422
20
12 20 24.87
2.1323
I 29 32.4
17.399
21
1037 4.42
2.3946
12 3 48.4
16.491
21
12
22 32.76
2.X308
I 46 55.6
X7.37S
22
10 39 21.94
2.2894
II 47 16.9
16.557
22
12
24 40.56
3.X293
2 4 17.2
X7.346
«3
10 41 39.15
a. 2843
N.ii 30 41.6
x6.6ao
23
12
26 48.27
8.1279
S. 2 21 37.1
17.317
TU]
ESDA^
kr 10.
THL
rRSD/
LY 12.
O
10 43 56.05
a. 2792
N.II 14 2.5
16.682
0
12
28 55.91
2.1267
S. 2 38 55.2
17.886
I
10 46 12.65
2.2742
10 57 19.7
16.743
I
12
31 3.47
2. 1255
2 56 II. 4
17.254
2
10 48 28.96
2.2693
104033.5
X6.798
2
12
33 10.97
2.1244
3 13 25.7
17.331
3
10 50 44.97
2.3644
10 23 43.9
16.853
3
12
35 18.40
2.1834
3 30 37.9
X7.185
4
10 53 0.69
2.2596
10 6 51. 1
16.907
4
12
37 25.78
2.X2a5
3 47 47-9
X7.147
5
10 55 16.12
2.2548
9 49 55. 1
16.958
5
12
3933.10
2.X216
4 4 55.6
17.X06
6
10 57 31.27
a. 2502
9 32 56.1
17.007
6
12
41 40.37
2.1208
4 22 0.9
X7.068
7
10 5946.15
a. 8457
9 15 54.3
17.053
7
12
43 47.59
8.Z200
4 39 3.8
X7.087
8
II ? 0.76
2.2412
8 5849.7
17.099
8
12
45 54.77
a. I 194
4 56 4.2
16.984
9
II 4 15.09
2.2367
8 41 42.4
17.142
9
12
48 1.92
2.1189
5 13 1.9
16-938
10
11 6 29.16
2.2323
8 24 32.7
17.182
10
12
50 9.04
8.x 184
5 29 56.8
16.898
II
II 842.97
2.2281
8 7 20.6
17.220
II
12
52 16.13
2.x 180
5 46 48.9
16,843
12
II 10 56.53
8.3239
7 50 6.3
17.257
12
12
54 23.20
2.1177
6 3 38.0
16.793
13
II 13 9.84
8.2x98
7 32 49.8
17.292
13
12
56 30.25
3.1174
6 20 24.1
16.743
14
II 15 22.90
2.2157
7 1531.3
17.334
14
12
58 37.29
3.1173
637 7.1
16.690
15
II 1735.72
8.81x8
6 58 10.9
17.354
15
13
0 44.32
8.II72
6 53 46.9
16.637
i6
II 19 48.31
2.2079
6 40 48.8
17. 383
16
13
2 51.35
2.II7I
7 10 23.4
16.581
17
II 22 0.67
8.2041
6 23 25.0
17.409
17
13
4 58.37
2.1x71
7 26 56.6
X6.523
i8
II 24 I2.8o
8.3003
6 5 59.7
17.433
18
13
7 5.40
3.xx7a
7 43 26.3
16.465
19
II 26 24.71
2.1967
5 48 33.0
17.456
19
13
9 12.44
8.1174
7 59 52.4
16.405
20
II 28 36.40
2.1931
531 5.0
17.476
20
13
II 19.49
3.1x76
8 16 14.9
X6.344
21
II 30 47.88
2.X896
5 13 35.9
X7.494
21
13
13 26.55
2.1x79
8 32 33.7
X6.388
22
" 32 59.15
a.x862
4 56 5.7
17.5"
22
13
15 33.64
3.1184
8 48 48.7
16.318
23
II 35 10.22
2.x82g
4 38 34-6
17-535
23
13
17 40.76
2.1188
9 4 59.8
X6.Z38
24
II 37 21.10
8.1797
N. 4 21 2.7
17.537
24
13
19 47.90
3.1193
S. 9 21 6.9
X6.085
VIII.
SEPTEMBER, 1912.
105
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Difr.
Diflf.
DiflF.
DiflF.
Hour.
Right Ascension.
for
X Min.
Declination.
for
X Min.
Hour.
Right Ascension.
for
X Min.
Declination.
for
X Min.
FE
IIDAY
13.
SUNDAY
15.
h m s
s
0 # M
M
h m s
s
0 $ n
tt
O
13 19 47.90
2.1X93
S. 9 21 6.9
16.085
0
15 3 9-65
8.203X
S.20 32 44.7
11.479
I
13 21 55.08
a. "99
9 37 lO.O
X6.0X7
I
15 5 21.91
a.ao55
20 44 9.8
XX. 358
2
13 24 2.29
S.XS05
9 53 8.9
«5.947
2
15 7 34.31
8.3080
20 55 27.7
XI. 237
3
13 26 9.54
3.13X3
10 9 3.6
15.876
3
15 946.87
2.2x05
21 6 38.3
XI. 115
4
13 28 16.84
S.I33X
10 24 54.0
15.803
4
15 11 59.57
2.3x29
21 17 41.5
X0.993
5
13 3024.19
2.X239
10 40 40.0
15.730
5
15 14 12.42
3.8155
21 28 37.3
in. 868
6
13 32 31-59
2.X338
zo 56 21.6
X5.656
6
15 16 25.43
2.2180
21 39 25.7
10.744
7
13 34 39-04
2. 1248
II II 58.7
15.579
7
15 18 38.58
2.2204
21 50 6.6
10.618
8
13 36 46.56
2.X2S8
II 27 31. 1
15.501
8
15 20 51.88
2.2229
22 0 39.9
XO.493
9
13 38 54-14
3.1368
II 42 58.8
X5,422
9
15 23 5-33
3.2253
22 II 5.6
XO.365
lO
13 41 1.78
2.1279
II 58 21.8
15.343
10
15 25 18.92
2.2378
22 21 23.7
XO.237
II
13 43 9-49
2.1293
12 13 40.0
15.262
II
15 27 32.67
3.3303
22 31 34.1
10.109
12
13 45 17.28
2.I3<H
12 28 53.3
15.179
12
15 29 46.56
3.2338
22 41 36.8
9.981
13
13 47 25.14
2. 13x8
1244 1.5
15.095
13
15 32 0.60
a.a353
22 51 31.8
9.851
14
13 49 33-09
2.1334
12 59 4.7
15.0x1
14
15 34 14-79
2.2377
23 I 18.9
9.7ao
15
13 51 41.12
a. 1345
13 14 2.8
14. 9*5
15
15 36 29.12
2.2400
23 10 58.2
9.589
i6
13 53 49.23
a.x359
13 28 55.7
14-837
16
15 38 43.59
8. 2484
23 20 29.6
9.457
17
13 55 57.43
a-x375
13 43 43.3
X4.748
17
15 40 58.21
2.2448
23 29 53- 1
9.325
i8
13 58 5.73
2.X391
13 58 25.5
14.658
18
15 43 12.97
2.2472
23 39 8.6
9.19a
19
14 0 14.12
2.1407
14 13 2.3
14.568
19
15 45 27.87
2.2494
23 48 16. 1
9.05a
20
14 '2 22.6l
3.X423
14 27 33.7
14.477
20
15 47 42-90
8.25x8
23 57 15.6
8.934
21
14 4 31.20
3.1441
1441 59-5
14.383
21
15 49 58.08
8.254X
24 6 7.0
8.789
22
14 6 39.90
2-X458
14 56 19.7
14.289
22
15 52 13.39
a. 2563
24 14 50.3
8.653
23
14 8 48.70
SAT
a. 1476
UKDA
S.15 10 34.2
lV 14.
14.193
23
15 54 28.83
MO
a.2585
>NDA\
S.24 23 25.4
r 16.
8.5x8
0
14 lo 57.61
2.X494
S.15 24 42.9
14.097
0
15 56 44.41
3.2607
s.24 31 52.4
8.383
I
14 13 6.63
2.15x3
15 38 45.8
13.999
I
15 59 0.12
3.3629
24 40 II. 2
8.844
2
14 15 15.77
2.153a
15 52 42.8
13.901
2
16 I 15.96
2.2650
24 48 21.7
8.X07
3
14 17 25.02
a. 155a
16 6 33.9
13.802
3
16 3 31.92
8.3671
24 56 24.0
7.968
4
14 19 34-39
a. 1573
16 20 19.0
13.701
4
16 5 48.01
8.8693
25 4 17.9
7.839
5
14 21 43.89
2.X593
16 33 58.0
13.598
5
16 8 4.22
2.27x3
25 12 3.5
7.690
6
14 23 53-51
2. x6x3
16 47 30.8'
13.496
6
16 10 20.55
2.2733
25 19 40.8
7.551
7
14 26 3.25
8.1634
17 057.5
13.39a
7
16 12 37.00
2.2751
25 27 9.6
7.410
8
14 28 13.12
2. 1656
17 14 17.9
13.287
8
16 14 53-56
2.2770
25 34 30.0
7.269
9
14 30 23.12
2.1677
17 27 31.9
13.181
9
16 17 10.24
2.2788
2541 41.9
7.X28
lO
14 32 33-25
2.1699
17 40 39.6
13.075
10
16 19 27.02
2.8806
25 48 45.4
6.987
11
14 34 43.51
2.1723
17 53 40.9
12.967
II
16 21 43.91
2.2824
25 55 40.4
6.846
12
14 36 53.91
a. 1744
18 6 35.6
12.858
12
16 24 0.91
2.2842
26 2 26.9
6.703
13
1439 4-44
2.1767
18 19 23.8
12.748
13
16 26 18.01
8.2858
26 9 4.8
6.56X
14
14 41 15.11
2,x79o
1832 5.3
18. 637
14
16 28 35.20
2.3873
26 15 34.2
6.417
15
14 43 25.92
2.X813
18 44 40.2
ia.525
15
16 30 52.49
3.3889
26 21 54.9
6.273
16
14 45 36.87
2.1837
1857 8.3
12.412
16
1633 9.87
2.2904
26 28 7.0
6.130
17
14 47 47.96
3.X860
19 9 29.7
12.299
17
16 35 27.34
2.29x8
26 34 10.5
5.987
18
1449 59-19
2.1884
19 21 44.2
12.185
18
16 37 44.89
3.8932
26 40 5.4
5.843
19
14 52 10.57
2.1908
19 33 51.9
12.070
19
16 40 2.53
2.8946
26 45 51.6
5.698
20
14 54 22.09
2.1933
19 45 52.6
11.953
20
16 42 20.24
2.2958
26 51 29.1
5.55a
21
14 56 33.76
2.1957
19 57 46.2
11.835
21
16 44 38.02
2.3970
26 56 57.8
5.407
22
145845-58
2.1982
20 9 32.8
11.717
22
16 46 55.88
2.2983
27 2 17.9
5.263
23
15 057-54
2.2006
20 21 12.3
11.599
23
16 49 13.80
2.2993
27 7 29.2
5.116
M
15 3 9-65
2.203X
S.20 32 44.7
11.479
24
16 51 31.79
2.30<q
s.27 12 31.8
4.970
106
SEPTEMBER, 1912.
IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diflf.
DiflE.
Diff.
Hour.
Right Ascension.
for
I Min.
Declination.
for
xMin.
Hour.
Right Ascension.
for
zMin.
DeclanatioiL
for
X Min.
TUESDAY 17.
THURSDAY 19.
h m s
s
0 » r»
H
h m 8
s
0 t m
n
O
16 51 31.79
a. 3003
S.27 12 31.8
4.970
0
18 41 43.07
2.26x5
S.28 22 18.5
2,004
I
16 53 49.84
2.30x2
27 17 25.6
4.823
I
18 43 58.68
2.2588
28 20 14. 1
2.143
2
16 56 7.94
a.3oax
27 22 10.6
4.677
2
18 46 14.12
2.2560
28 18 1.4
2.981
3
16 58 26.09
2.3009
27 26 46.9
4.531
3
18 48 29.40
2.253a
28 15 40.4
2.418
4
17 044.29
2.3037
27 31 14.3
4.383
4
18 50 44.51
2.2504
28 13 II. 2
2.556
5
17 3 a.53
2.3043
27 35 32.9
4.237
5
18 52 59.45
2.2475
28 10 33.7
2.693
6
17 5 20.81
2.3049
27 39 42.8
4.091
6
18 55 14.21
2.2445
28 7 48.0
2.S29
7
17 7 39.12
2.3055
27 43 43.8
3.943
7
18 57 28.79
2.24x5
28 4 54.2
2.964
8
17 9 57.47
2.3060
27 47 36.0
3.796
8
18 59 43.19
2.2385
28 I 52.3
3.099
9
17 12 15.84
2.3063
27 51 19.3
3.648
9
19 I 57.41
2.2353
27 58 42.3
3.233
lO
17 14 34.23
a. 3067
27 54 53.8
3.5OX
10
19 4 11.43
a.232X
27 55 24.3
3.367
II
17 16 52.64
2.3069
27 58 19.4
3.353
II
19 6 25.26
2.2288
27 51 58.2
3.5OX
12
17 19 11.06
a. 3071
28 I 36.2
3.207
12
19 8 38.89
2.2255
27 48 24.2
3.633
13
17 21 29.49
9.3072
28 4 44.2
3.059
13
19 10 52.32
2.9222
27 44 42.2
3.766
X4
17 23 47.9a
a. 3072
28 743.3
2.9X1
14
19 13 5.55
a. 2x88
27 40 52.3
3.897
15
17 26 6.35
2.3071
28 10 33.5
2.763
15
19 15 18.57
2.2X53
27 36 54.6
4.038
i6
17 28 24.77
2.3069
28 13 14.9
2.617
16
19 17 31.38
2.21X8
27 32 49.0
4.X58
17
173043.18
2.3067
28 15 47.5
2.469
17
19 19 43.98
2.2082
27 28 35.6
4.288
i8
17 33 1.58
2.3065
28 18 II. 2
2.322
18
19 21 56.36
2.2046
27 24 14.4
4.417
19
17 35 19.96
S.306Z
28 20 26.1
2.X74
19
19 24 8.53
2.2009
27 1945.5
4.545
20
17 37 38.31
2.3057
28 22 32.1
2.027
20
19 26 20.47
2.X972
27 15 9.0
4.672
21
17 39 56.64
2.3052
28 24 29.3
X.880
21
19 28 32.19
2.1934
27 10 24.9
4.799
22
17 42 14.93
2.3045
28 26 17.7
1.733
22
19 30 43.68
2.1897
27 533.2
4.926
33
174433.18
WED
2.3038
NESD
S.28 27 57.2
»AY 18.
1.586
23
19 32 54.95
a. 1858
^IDAY
S.27 0 33.9
20.
5.052
o
17 46 51.39
2.3031
S.28 29 28.0
1.440
0
1935 5.98
a.x8x9
S.26 55 27.0
5.»77
I
1749 9.55
2.3022
28 30 50.0
1.293
I
19 37 16.78
2.X781
26 50 12.6
5.30X
2
17 51 27.65
2.3013
2832 3.1
Z.X46
2
19 39 27.35
2.X742
26 44 50.8
5.424
3
17 53 45.70
2.3003
2833 7.5
1. 000
3
19 41 37.68
2.1702
26 39 21.7
5.547
4
17 56 3.69
2.299a
2834 3.1
0.853
4
19 43 47.77
2.X662
26 33 45.2
5.669
5
17 58 21.61
2.9981
28 34 49.9
0.707
5
19 45 57.62
2.1622
26 28 1.4
5.790
6
18 0 39.46
2.2968
28 35 28.0
0.562
6
1948 7.23
2.1 581
26 22 10.4
5.9"
7
18 2 57.23
2.2935
28 35 57-4
0.417
7
19 50 16.59
2.X539
26 16 12. 1
6.03X
8
18 5 14.92
2.2941
28 36 18.0
0.271
8
19 52 25.70
2.1498
26 10 6.7
6.150
9
18 7 32.52
2.9926
28 36 29.9
—0.127
9
19 54 34.57
2.X457
26 3 54. I
6.268
lO
18 9 50.03
2.2911
28 36 33.2
+0.017
10
19 5643.19
2.Z416
255734.5
6.386
IZ
18 12 7.45
2.2894
28 36 27.8
0.Z62
II
19 58 51.56
2.1374
25 51 7.8
6.503
12
18 14 24.76
2.2877
28 36 13.8
0.307
12
20 0 59.68
2.1333
25 44 34. 1
6.619
^3
18 16 41.97
2.2B59
28 35 51.1
0.450
13
20 3 7.55
2.X291
25 37 53.5
6.734
14
18 18 59.07
2.2840
28 35 19.8
0.593
14
20 5 15.16
2.1248
25 31 6.0
6.849
15
18 21 16.05
2.282Z
28 34 39.9
0.736
15
20 7 22.52
2.X205
25 24 II. 6
6.963
i6
18 23 32.92
2.280Z
28 33 51.5
0.878
16
20 9 29.62
2.XX62
25 17 10.4
7.077
17
18 25 49.66
2.2780
28 32 54.5
X.02Z
17
20 II 36.46
2.11x9
25 10 2.4
7.X89
i8
18 28 6.28
2.2758
28 31 49.0
X.X63
18
20 13 43.05
2.X077
25 247.7
7.300
19
18 30 22.76
a. 2736
28 30 35.0
1.303
19
20 15 49.38
2.X033
24 55 26.4
7.4"
20
i8 32 39.11
2.27x3
28 29 12.6
1.444
20
20 17 55.45
2.U990
24 47 58.4
7.592
21
18 34 55.32
2.2689
28 27 41.7
Z.586
21
20 20 1.26
2.0947
24 40 23.8
7.631
22
1837 11.38
2.2665
28 26 2.3
X.726
22
20 22 6.81
2.0903
24 32 42.7
7.738
^3
18 39 27.30
2.2641
28 24 14.6
X.865
23
20 24 12.10
2.0860
24 24 55.2
7.846
«4
18 41 43.07
2.96x5
S.28 22 18.5
2.004
24
20 26 17.13
a. 08x7
S.24 17 1.2
7.953
X.
SEPTEMBER, 1912.
107
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diflf.
Diff.
Diff.
Hour.
Right Aacanaion.
for
I llin.
Declination.
for
iMin.
Hour.
Right Ascension.
for
I Min.
Declination.
for
X Min.
SAT
URD^
lY 21.
MONDAY 23.
h m s
8
0 > ft
n
h m 8
8
0 1 M
u
o
20 26 17.13
a.o8i7
S.24 17 1.2
7.953
0
22 I 27.29
1.8937
S.16 734.4
13.127
I
20 28 21.90
a. 0773
24 9 0.8
8.059
I
22 3 20.82
X.8906
15 55 24.7
13. 195
2
20 30 26.41
2.0730
24 0 54. 1
8.X64
2
22 5 14.16
X.8876
1543 ii.o
13.263
3
20 32 30.66
a. 0687
23 52 41. 1
8.369
3
22 7 7.33
1.8846
15 30 53.3
13.337
4
20 34 34.66
a.0644
23 44 21.8
8.373
4
22 9 0.31
1.88x6
15 18 31.7
12.39a
5
20 36 38.39
23 35 56.4
8.475
5
22 10 53.12
1.8787
15 6 6-3
12.456
6
20 38 41.86
8.Q557
23 27 24.8
8.577
6
22 12 45.76
1.8759
14 53 37.0
13.5x9
7
20 40 45.07
3.0513
23 i8 47.1
8.678
7
22 14 38.23
1.8731
14 41 4.0
12.581
8
20 42 48.02
a. 0471
23 10 3.4
8.779
8
22 16 30.53
1.8703
14 28 27.3
13.643
9
20 44 50.72
a. 0418
23 I 13.6
8.879
9
22 18 22.67
X.8677
14 15 46.9
X3.703
lO
20 46 53.16
3.0385
22 52 17.9
8.978
10
22 20 14.65
1.8650
14 3 2.9
13.763
II
20 48 55.34
a. 0343
22 43 16.3
9.075
II
22 22 6.47
1.8624
13 50 15.3
13. 823
12
20 50 57.26
a.ui99
22 34 8.9
9.x7a
12
22 23 58.14
1.8599
13 37 24.2
12.881
13
20 52 58.93
3.0357
22 24 55.7
9.868
13
22 25 49.66
1.8574
13 24 29.6
12.938
14
20 55 0.34
3.03x4
22 15 36.7
9.364
14
22 27 41.03
1.8549
13 II 31.6
13.995
15
20 57 1.50
3.0173
22 6 12.0
9.459
15
22 29 32.25
1.8535
12 58 30.2
X3.O5X
i6
20 59 2.41
3.0x31
21 56 41.6
9.553
16
22 31 23.33
1.8503
12 45 25.5
I3.X06
17
21 I 3.07
2.0088
21 47 5-6
9.646
17
22 33 14.27
1.8479
1232 17.5
13.160
i8
21 3 3-47
3.0047
21 37 24.x
9.738
18
22 35 5.08
X.8457
12 19 6.3
13.313
19
21 5 3-63
3.0006
21 27 37.0
9.830
19
22 36 55.76
1.8436
12 551.9
13.366
20
21 7 3-54
1.99^4
21 1744.5
9.930
20
22 38 46.31
1.8415
II 52 34.4
13.3x8
21
21 9 3.20
X.998S
21 7 46.6
xo.oxo
21
22 40 36.74
X.8395
" 39 13.8
13.369
22
21 II 2.61
X.9883
20 57 43.3
10.099
22
22 42 27.05
1.8375
II 25 50.1
13.420
33
21 13 1.78
SU
X.9843
NDA\
S.204734.7
' 22.
xo.t88
23
22 44 17.24
TU]
X.8355
ESDA^
S.xi 12 23.4
^ 24.
13.469
O
21 15 0.71
2.9803
S.20 37 20.8
10.375
0
22 46 7.31
X.8336
S.1058 53.8
X3-5X7
I
21 16 59.40
1.9763
20 27 1.7
XO.36X
I
22 47 57.27
1.8318
1045 21.3
X3.565
2
21 18 57.85
1.9733
20 16 37.5
10.447
2
224947.13
X.8301
10 31 46.0
13.612
3
21 20 56.06
X.9683
20 6 8. 1
10.533
3
22 51 36.88
1.8383
10 18 7.8
13.659
4
21 22 54.04
1.9643
19 55 33-6
10.6x7
4
22 53 26.53
1.8367
10 4 26.9
13.704
5
21 24 51.78
1.9604
1944 54-1
10.699
5
22 55 16.08
1.8251
9 50 43.3
X3.748
6
21 26 49.29
X.9566
19 34 9.7
X0.783
6
22 57 5.54
1.8336
936 57.1
13.79a
7
21 28 46.57
X.9538
19 23 20.3
10.863
7
22 58 54.91
1.8233
9 23 8.2
13.836
8
21 30 43.62
Z.9490
19 12 26.1
10.944
8
23 044.20
1.8208
9 9 16.8
13.878
9
21 32 40.45
1.9453
19 I 27.0
XX.Q25
9
23 2 33.40
1.8194
8 55 22.9
I3.9«9
lO
21 34 37.05
1.94x6
18 50 23.1
II. 104
10
23 4 22.53
1.8182
8 41 26.5
13.960
II
21 36 33.44
X.9379
18 39 14.5
II. 183
II
23 6 11.58
1.8169
8 27 27.7
14.000
12
21 38 29.60
1.9343
18 28- 1.2
IX. 360
12
23 8 0.56
I.8158
8 13 26.5
14.039
13
21 40 25.54
1.9306
18 16 43.3
11.337
13
23 949.47
X.8147
7 59 23.0
14.077
14
21 42 21.27
1.937X
18 5 20.8
".4x3
14
23 II 38.32
X.8137
7 45 17.3
14.X14
15
21 44 16.79
1.9336
17 53 53-8
11.488
15
23 13 27.11
1.8127
731 9.3
X4.X5X
i6
21 46 12.10
1.9301
17 42 22.3
11.563
16
23 15 15-85
1.81x8
7 16 59.2
14.187
17
21 48 7.20
1.9166
17 30 46.3
XX. 636
17
23 17 4.53
X.8XXO
7 2 46.9
14.333
i8
21 50 2.09
1.9x32
17 19 6.0
IT. 708
18
23 18 53.17
1.8x03
6 48 32.6
X4.255
19
21 51 56.78
1.9098
17 721.3
11.781
19
23 20 41.76
X.8095
6 34 16.3
14. 288
20
21 53 51-27
1.9066
16 55 32.3
tX.852
20
23 22 30.31
X.8088
6 19 58.0
X4.332
21
21 55 45-57
1.9033
1643 39-1
11.932
21
23 24 18.82
X.8083
6 5 37-7
X4.353
22
21 57 39-67
X.9001
16 31 41.6
IX.993
22
23 26 7.30
1.8077
5 51 15.6
X4.383
23
21 5933.58
1.8968
16 19 40.0
12.060
23
23 27 55.75
1.8073
5 36 51.7
X4.4X3
24
22 I 27.29
1.8937
S.16 7 34.4
13.187
24
23 29 44.18
X.8070
S. 5 22 26.0
14.442
108
SEPTEMBER, 1912.
XI.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diflf.
Diflf.
Diff.
Hour.
Right Ascension.
for
X Min.
Declination.
for
I Min.
Hour.
Right Ascension.
for
1 Min.
Declination.
for
xMin.
WED
NESD
AY 85.
FRIDAY
27-
h m 8
6
0 f H
ft
h m 8
8
Of H
m
O
23 29 44.18
Z.807O
S. 5 22 26.0
14.44a
0
0 57 19.97
1.8703
N. 6 27 40.2
14.790
I
23 31 32.59
1.8067
5 758.6
14.471
I
0 59 12.27
1.873a
6 42 27.1
14.773
2
23 33 20.98
Z.8063
4 53 29.5
14.498
2
I I 4.75
1.8763
6 57 13.0
X4.757
3
23 35 9-35
Z.8063
4 38 58.8
14.524
3
I 2 57.42
Z.8797
7 II 57.9
X4.738
4
23 36 57.72
Z.806Z
4 24 26.6
14.550
4
I 4 50.30
1.8830
7 26 41.6
14.7X8
5
23 38 46.08
X.806O
4 9 52.8
14.575
5
I 6 43.38
1.8863
741 24.1
14.697
6
23 40 34-44
X.8061
3 55 17-6
U.599
6
I 8 36.66
1.8897
7 56 5.3
14.675
7
23 42 22.81
z.8o6a
3 40 40.9
14.632
7
I 10 30.14
x.893a
8 10 45.1
X4.653
8
23 44 1 1. 18
X.8063
3 26 2.9
14.644
8
I 12 23.84
1.8968
8 25 23.6
14.609
9
23 45 59-56
1.8065
3 II 23.6
14.666
9
I 14 17.76
1.9005
8 40 0.6
X4.6(H
lO
23 47 47-96
X.8068
2 56 43.0
14.687
10
I 16 11.90
X.9043
8 54 36. 1
14.578
II
23 49 36-38
z.8o7a
2 42 1.2
14.706
II
I 18 6.27
X.90B1
9 9 lO.O
X4.55X
12
23 51 24.82
X.8076
2 27 18.3
14.724
12
I 20 0.87
X.9Z30
9 23 42.2
X4.5<3
13
23 53 13-29
Z.8081
2 12 34.3
14.74a
13
I 21 55.71
1.9159
9 38 12.7
X4.4»
H
23 55 1-79
X.8087
I 57 49.2
14.760
14
I 23 50.78
1.9x99
9 52 41.3
X4.463
15
23 56 50.33
1.8093
143 3-1
14. 777
15
I 25 46.10
x.9«4X
10 7 8.1
14.430
i6
23 58 38.91
Z.8100
I 28 16.0
14. 79a
16
I 27 41.67
1.9283
10 21 32.9
14. 397
17
0 0 27.53
Z.8108
I 13 28.1
14.806
17
I 29 37.49
I. 93*4
10 35 55.7
14.36J
18
0 2 16.20
1.8116
0 58 39.3
14.830
18
I 31 33.56
X.9367
10 50 16.4
14.398
19
0 4 4.92
1.8x25
0 43 49.7
14.833
19
I 33 29.90
1.9413
II 4 35.0
X4.99a
20
0 5 53.70
X.8135
0 28 59.4
14*844
20
I 35 26.51
X.9457
II 18 51.4
X4.as4
21
0 742.54
X.8146
S. 0 14 8.4
H.855
21
I 37 23.38
1.9503
II 33 5.5
14.315
22
0 9 31.45
X.8157
N. 0 0 43.2
14.864
22
I 39 20.53
1.9548
II 47 17.2
14.174
23
0 II 20.42
x.8z68
N. 0 15 35.3
14.873
23
I 41 17.95
I.9S94
N.12 I 26.5
14.133
THl
JRSD>
VY 26.
SAT
urd;\
.Y 28.
0
0 13 9.47
1.8x83
N. 0 30 28.0
14.882
0
I 43 15.66
1.9643
N.12 15 33.2
14.091
1
0 14 58.60
Z.8195
0 45 21.2
14.890
I
I 45 13.66
x.9691
12 29 37.3
14. 047
2
0 16 47.81
X.8208
I 0 14.8
14.896
2
I 47 11.95
1.9739
12 43 38.8
14.003
3
0 18 37.10
1.8233
I 15 8.7
14.901
3
I 49 10.53
X.9788
12 57 37.6
13.956
4
0 20 26.48
Z.8338
I 30 2.9
14.906
4
I 51 9.41
1.9839
13 II 33.5
13.908
5
0 22 15.96
1.8255
I 44 57.4
14.909
5
I 53 8.60
1.9891
13 25 26.6
13.860
6
024 5.54
x.837a
I 59 52.0
14.91a
6
I 55 8.10
x.994a
13 39 16.7
13.809
7
0 25 55.23
X.8290
2 14 46.8
14.913
.7
I 57 7.90
1.9993
13 53 3.7
13.758
8
0 27 45.02
Z.8308
2 29 41.6
14.913
8
I 59 8.02
2.0047
14 647.6
13.706
9
0 29 34.93
1.8327
2 44 36.4
14.913
9
2 I 8.46
2.0Z0Z
14 20 28.4
13.653
10
0 31 24.95
1.8347
2 59 31-2
14.91a
10
2 3 9.23
2.0155
1434 5.9
13- 598
II
0 33 1509
X.836S
3 14 25.9
14.910
II
2 5 10.32
2.03XO
14 47 40.1
13.54X
12
035 5-36
1.8389
3 29 20.4
X4.907
12
2 711. 75
2.ot66
15 I 10.8
X3.483
13
0 36 55.76
X.8411
3 44 14.7
14.903
13
2 9 13-51
2.0323
15 14 38.0
X3.4a3
14
0 38 46.29
X.8433
3 59 8.7
X4.898
14
2 II 15.61
2.0378
15 28 1.6
13.363
15
0 40 36.96
X.8457
4 14 2.4
14.893
15
2 13 18.05
2.0436
15 41 21.6
X3.303
16
0 42 27.78
1.8482
4 28 55.7
14.884
16
2 15 20.84
2.049I
15 54 37.8
13.838
17
0 44 18.74
X.8S06
4 43 48.5
14.876
17
2 17 23.98
a.0553
16 7 50.2
X3-X74
18
0 46 9.85
1.8533
4 58 40.8
X4.867
18
2 19 27.47
2.06x2
16 20 58.7
13.108
19
0 48 1. 12
1.8558
5 13 32.5
14.856
19
2 21 31.32
8.0672
1634 3.2
13.043
20
049 52.55
X.8586
5 28 23.5
14. 84 5
20
2 23 35.54
a.0733
1647 3-7
xa.973
21
0 51 44.15
X.8613
5 43 13.9
14.833
21
2 25 40.12
a. 0793
17 0 0.0
13.903
22
0 53 35-9^
1.8642
5 58 3.5
X4.8ao
22
2 27 45.06
a. 0855
17 12 52.1
13.833
23
0 55 27-85
1.8673
6 12 52.3
14.806
23
2 29 50.38
3.0917
17 25 39.8
13.759
24
0 57 19.97
1.8703
N. 6 27 40.2
14.790
24
2 31 56.07
s.og8o
N.17 38 23.1
X2.684
SEPTEMBER, 1912.
109
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
. DiflF.
DiflF.
Diff.
DifF.
Hour.
Right Ascension.
for
X Min.
Declination.
for
1 Min.
Hour.
Right Ascension.
for
1 Min.
Defiliaation.
for
iMin.
SUNDAY
' 29.
TUESDAY, OCTOBER i.
h m s
6
0 » tt
tt
h m 8
s
e f M
If
O
2 31 56.07
2.0980
N.17 38 23.1
12.684
0
4 20 31.46
2.4305
N.25 53 44.1
7.373
I
234 2.14
2 36 8.59
2.1043
2. I 107
17 51 1.9
18 3 36.2
12.609
12.539
2
3
2 38 15.42
9.1171
18 16 5.8
12.454
4
2 40 22.64
2. 1236
18 28 30.7
12.374
5
2 42 30.25
2.1302
18 40 50.7
12.292
6
a 44 38.26
2.1367
1853 5-8
12.2XO
7
2 46 46.66
2.1433
19 5 15.9
12. 126
8
2 48 55.46
3.1500
19 17 20.9
12.040
9
2 51 4.66
2.1567
19 29 20.7
XI.95*
lO
2 53 14.26
2. 1634
19 41 15.2
11.864
II
2 55 24.27
2.1702
19 53 4-4
11.774
12
2 57 34.68
2.1769
20 4 48. 1
1X.683
13
2 5945.50
2.1838
20 16 26.3
".590
•
14
3 I 56.74
2.1907
20 27 58.9
11.495
15
3 4 8.39
2.1977
20 39 25.7
11.398
i6
3 6 20.46
2.2047
20 50 46.7
11. 301
17
3 832.95
2.2117
21 2 1.8
11.202
i8
3 10 45.86
2.2x87
21 13 10.9
11.101
PHASES OF THE MOON.
19
3 12 59.19
2.2257
21 24 13.9
10.999
20
3 15 12.94
2.2327
21 35 10.8
10.896
21
3 17 27.11
3 19 41-71
2.2398
2.2469
21 46 1.4
21 56 45-7
10.791
10.684
22
d h m
a Last Quarter . . Sept. 4 i 23. i
23
3 21 56.74
2.2541
N.22 7 23.5
10.576
MO
)NDA\
' 30.
0 New Moon 10 15 48.5
o
3 24 12.20
2.26x2
N.22 17 54.8
XO.467
J) First Quarter . . . . 17 19 54.7
I
2
3 26 28.09
3 28 44.40
2.2683
a. 8754
22 28 19.5
22 38 37.4
10.355
XO.242
0 Full Moon 25 23 34.2
3
331 1. 14
3 33 18.31
3.2826
2.2898
22 48 48.5
22 58 52.6
10. 127
10.011
4
5
3 35 35.92
2.2970
23 8 49.8
9.894
d h
6
3 37 53.96
2.3042
23 18 39.9
9.775
(^ Perigee Sept. 9 6.3
7
3 40 12.43
2.3114
23 28 22.8
9-655
(^ Apogee 21 8.3
8
3 4231.33
3 44 50.65
2.3185
23 37 58.5
23 47 26.8
9.533
9
2.3257
9.409
lO
3 47 10.41
8.3339
23 56 47.6
9.283
II
3 49 30.60
2.3400
24 6 0.8
9.«57
12
3 51 51.21
2.347J
24 15 6.4
9.029
13
3 54 12.25
9.354a
24 24 4.3
8.899
14
3 56 33.72
2.36x3
24 32 54.3
8.768
15
3 58 55.61
2.3683
24 41 36.4
8.635
16
4 I 17.92
2.3754
24 50 10.5
8.501
17
4 3 40.66
2.3825
24 58 36.5
8.365
18
4 6 3.82
a. 3895
25 6 54.3
8.228
19
4 8 27.40
a. 3964
25 15 3.8
8.089
20
4 1051.39
a. 4033
25 23 5.0
7-949
21
4 13 15.79
2.4102
25 30 57-7
7.807
22
4 15 40.61
2.4170
25 38 41.8
7.663
23
4 18 5.83
2.4238
25 46 17.3
7.519
24
4 20 31.46
2.4305
N.25 5344.1
7.373
110
OCTOBER, 1912.
AT GREENWICH APPARENT NOON,
Day of
the Week.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues,
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Q
I
2
3
4
5
6
7
8
ID
II
12
13
14
15
i6
17
i8
20
21
22
23
24
25
26
27
28
29
30
31
32
THE SUN'S
Apparent RiRbt
Ascension.
h m s
229 5.64
2 32 43.02
2 36 20.73
2 39 58.78
24337.19
24715-99
25055-19
2 54 34.82
2 58 14.89
3 I 55-41
3 536.39
3 917-86
3 12 59.83
3 1642.31
3 20 25.31
324 8.86
3 27 52.97
3 31 37.66
3 35 22.95
3 39 8.85
3 42 55-39
3 46 42.57
3 50 30-41
3 54 18.93
358 8.15
4 I 58.09
4 548.77
4 940.19
4 13 32.38
41725.34
4 21 19.11
142513.69
Diff. for
X Hour.
9.051
9.064
9.078
9.093
9.109
9.125
9.142
9.160
9.179
9.198
9.218
9.238
9-259
9.281
9-303
9.326
9-350
9.375
9.400
9.426
9.453
9.480
9.508
9.537
9.566
9.596
9.627
9.659
9.691
9.724
9.757
9.791
Apparent Decli-
nation.
S. 3 837.7
3 31 54-6
3 55 9.3
4 18 21.4
4 41 30.7
5 436.7
5 27 38.9
5 50 37-0
6 13 30.7
6 36 19.5
659.3-1
7 21 41.0
7 44 12.8
8 638.0
8 28 56.5
851 7.6
9 13 ii.o
9 35 6.4
9 56 53-3
10 18 31.4
10 40 0.4
J I I 19.8
11 22 29.1
11 43 28.1
12 4 16.5
12 24 53.9
12 45 19.7
13 5 33-7
132535-5
1345247
14 5 i-o
S. 14 24 23.8
Diff. for
I Hour.
-58-25
58.17
58.07
-57.95
57.82
57.67
-57.51
57.33
57-14
-56.93
56.70
56.45
-56.19
55-91
55-61
-55.30
54-97
54.63
-54-27
53-90
53-51
-53-10
52.68
52.24
-51.79
51-32
50.83
-50.33
49.81
49.28
48.73
-48.16
Semidiam-
eter.
16 0.79
16 1.06
16 1.34
16 1. 61
16 1.88
16 2.15
16 2.43
16 2.71
16 2.99
16 3.26
16 3-54
16 3.82
16 4.10
16 4.37
16 4.65
16 4.93
16 5.21
16 5-49
16 5.77
16 6.05
16 6.32
16 6.59
16 6.86
16 7.13
16 7.40
16 7.66
16 7.92
16 8.18
16 8.43
16 8.68
16 8.93
16 9.18
Sidereal
Time of
Semidi-
ameter
Passing
Me-
ridian.
64.29
64-33
64-37
64.42
64.48
64-55
64.62
64.68
64-75
64.81
64.88
64-95
65.03
65.11
65.19
65.27
65.36
65-45
65-54
65-63
65.73
65.82
65-92
66.02
66.13
66.23
66.34
66.45
66.56
66.67
66.78
66.89
Equation of
Time, to be
Subtracted
from
Apparent
Time.
m 8
o 16.56
035.69
054.49
I 12.95
I 31.04
1 48.74
2 6.04
2 22.92
2 39-36
2 55-35
3 10.88
3 25.93
3 40.48
3 54-51
4 8.02
4 20.99
4 33-40
4 45-23
4 56.46
5 7-09
5 1709
5 26.44
5 35-13
5 43-H
5 50.45
5 57.04
6 2.91
6 8.03
6 12.38
6 15-95
6 18.73
1620.71
Diff.
for
X Hour.
s
0.803
0.790
0.776
0.761
0.745
0.729
0.712
0.694
0.676
0.657
0.637
0.616
0.595
0.573
0.551
0.528
0.504
0.480
0.455
0.430
0.404
0.376
0.348
0.319
0.289
0.259
0.228
0.197
a 165
a 132
0.099
0.065
NoTB.— The mean time of semidiameter passiag may be found by subtracting o&.t8 from the sidereal time.
The Bign — prefixed to the hourly change of declination indicates that south declinations are increasing.
IL
OCTOBER, 1912.
Ill
AT GREENWICH MEAN NOON.
Day of
the Week.
e
Q
Tues.
Wed.
Thur.
Frid.
Sat.
scrj\r.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SC/N.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
SC/N.
Mon.
Tues.
Wed.
Thur.
Frid.
I
2
3
4
5
6
7
8
lO
II
12
13
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
31
32
THE SUN'S
Apparent Right
Ascension.
h m 8
2 29 7.19
2 32 44.62
2 36 22.38
2 40 0.48
2 43 38.94
2 47 17.79
2 50 57.04
2 54 36.72
2 58 16.83
3 157.39
3 53842
3 919.93
313 1.94
3 1644.46
3 20 27.50
32411.09
3275524
3 31 39.97
3 35 25.30
33911.24
3 42 57.80
3 46 45.01
3 50 32.88
35421.43
3 58 10.68
4 2 0.64
4 551.34
4 942.79
4 13 35.00
4 17 27.99
421 21.77
14 25 16.36
Diff. for
z Hour.
8
9.053
9.066
9.080
9.095
9.III
9.127
9.144
9.162
9. 18 1
9.200
9.220
9.240
9.261
9.283
9.305
9.328
9.352
9.376
9.401
9.427
9.454
9.481
9.509
9.538
9.567
9.597
9.628
9.660
9.692
9.725
9.758
9.792
Apparent Declina-
tion.
Diff. for
X Hour.
S. 3 847.7
332 4.9
3 55 19.9
4 18 32.3
441 41.8
5 448.0
5 27 50.5
5 50 48.9
613 42.8
6 36 31.8
6 59 ^5-5
7 21 53.6
7 44 25.6
8 651.1
8 29 9.6
851 20.8
91324.3
9 35 19.8
957 6.8
10 18 45.0
10 40 14.0
11 133.4
II 22 42.8
11 43 41.9
12 4 30.2
1225 7.5
12 45 33.3
13 547.2
13 25 48.9
134538.0
14 5 14-2
S. 14 24 36.9
-58.26
58.17
58.07
-57.96
57.83
57.68
-57.52
57.34
57.15
-56.93
56.70
56.46
—56.20
5592
55.62
-55.31
54.98
54.64
-54.28
5390
53.51
-53. xo
52.68
52.24
-51.78
51.31
50.83
-50.33
49.81
49.28
48.73
-48.16
Equation of
Tune, to be
Added to
Mean Time.
m 8
o 16.70
o 35.83
o 5463
I 13.09
I 3I-I8
1 48.88
2 6.18
2 23.06
2 39.50
2 55.49
3 11.02
3 26.07
3 40.61
354.64
4 8.15
421.12
4 33.52
4 45.34
4 56.57
5 7.19
5 17.19
5 26.54
5 35.22
5 43.22
5 50.52
557.11
6 2.97
6 8.08
612.43
6 16.00
6 18.77
6 20.73
Diff. for
xHour.
s
a 803
0.790
0.776
0.761
0.745
0.729
0.712
0.694
0.676
0.657
0.637
a6i6
0-595
0.574
0.551
a 528
0.504
0.480
0.455
0.430
0.404
0.376
a 348
a 319
0.289
0.259
0.228
0.197
0.165
0.132
0.099
0.065
Sidereal Time,
or Right Ascen-
sion of Mean
Sun.
m
2 39 23.90
2 43 20.46
2 47 17.01
2 51 13.56
255 10.12
259 6.67
3 3 3.22
3 659.78
3 10 56.33
3 14 52.88
31849.44
3 22 45.99
3 26 42.55
33039.10
3 34 35.66
3 38 32.21
3 42 28.76
34625.32
35021.87
3 54 18.43
3 58 14.98
2 11.54
6 8.09
4 10 4.65
4
4
4 14 1.20
4 17 57.76
42154.31
4 25 50.87
4 29 47.42
4 33 43.98
4 37 40.53
14 41 37-09
Note.— The semidiameter for mean noon may be assumed the same as that for apparent noon.
The sign — prefixed to the hourly change of declinatior indicates that south declina-
tions are increasing.
Diff. for I Hour,
(Table III.)
112
OCTOBER, 1912.
ILL
AT GREENWICH MEAN NOON.
«
Day of the
Year.
THE SUNS
Logarithm of the
Radius Vector of
the Earth.
Diff. for
X Hour.
Mean Time of
Sidereal Noon.
)ay of tl
Month.
True Longitude.
Diff. for
X Hour.
Latitude.
w
A
A'
0 » f
« i>
n
w
h m s
I
275
187 55 59-6
55 26.1
147.58
+0.47
0.000 3170
-51.0
II 18 44.60
2
276
18855 2.6
54 29-0
Z47.68
0.52
0.000 1945
51.0
II 14 48.69
3
277
18954 8.0
53 34-2
147-77
0-55
0.0000721
51.0
II 10 52.78
4
278
19053157
5241.8
147.87
+0.54
9.999 9497
—51.0
II 656.88
5
279
191 5225.8
51 51.8
147-97
0.51
9.999 8271
51.I
II 3 0.97
6
280
192 51 38.2
51 4-1
148.07
0.47
9.999 7042
51.2
1059 5.06
7
281
193 50 52.9
50 18.7
148.16
+0.37
9.999 5810
-51.4
1055 9.15
8
282
19450 9.9
49 35.6
148.26
0.24
9.999 4574
51.6
10 51 13.24
9
283
195 49 29.1
48 54-7
148-35
+0.1 1
9.999 3333
51.8
104717.34
lO
284
1964850.5
48 15-9
148.44
—0.03
9.999 2086
-52.0
104321.43
II
285
197 48 13.9
47 39-2
148.52
0.17
9.999 0834
52.2
10 39 25.52
12
286
198 47 39-3
47 4-5
148.60
0.30
9.998 9578
52.4
10 35 29.61
13
287
19947 6.6
4631.7
148.68
—0.42
9.9988319
-52.5
10 31 33.70
H
288
200 46 35.8
46 0.8
148.76
0.49
9.998 7058
52.6
10 27 37.80
15
289
201 46 6.8
45 31-6
148.83
0.55
9.998 5796
52.6
10 2341.89
i6
290
'202 45 39.6
45 4-3
148.91
-0.59
9.998 4534
-52.5
10 19 45.98
17
291
203 45 14.2
44 38.8
148.98
0.60
9.998 3275
52.4
10 15 50.07
i8
292
204 44 50.5
44 15-0
149.05
0.58
9.998 2020
52.2
10 II 54.16
19
293
205 44 28.6
43 530
149. 1 1
-0.53
9.998 0770
-51.9
10 758.25
20
294
206 44 8.4
43 32.7
149.19
0.46
9.997 9527
51.6
10 4 2.34
21
295
207 43 50.0
43 14-2
149.27
0.35
9.997 8292
51-3
10 0 6.44
22
296
2084333.5
42 57-4
M9-35
—0.23
9.997 7065
-50.9
9 56 10.53
23
297
20943 18.7
42 42.5
149.42
— O.I I
9.997 5849
50.4
9 52 14.62
24
298
21043 5.7
42 29.5
149.50
-[-0.02
9.997 4644
50.0
948 18.71
25
299
211 42 54.6
42 18.3
149.58
+0.15
9.997 3452
-49.5
9 44 22.80
26
300
2124245.5'
42 9.0
149.66
0.27
9.997 2273
48.9
9 40 26.89
27
301
21342 38.3
42 1.7
149.74
0.39
9.997 1 1 07
48.3
9 36 30.98
28
302
2144233.2
41 56.4
149.83
+0.48
9.996 9955
-47.7
9 32 3507
29
303
2 1 5 42 30. 1
41 53-1
149.92
0.56
9.996 H818
47.1
9 28 39.16
30
304
21642 29.1
41 52.0
150.01
0.60
9.996 7694
46.6
9 24 43.25
31
305
21742 30.3
41 53.1
150.10
0.60
9.996 6582
46.1
9 20 47.34
32
306
2184233.7
41 56.3
150.19
+0.59
9.996 5482
-45.6
91651.43
NOTI
c— The U
sngitudes in the column A are rel
ferred to the true equinox of their own dc
ite, while
Diff. for X Hour.
thoa
e in the column K' are referred I
.0 the mean equinox of the beginning of
the Bes-
-9».8a96.
selii
in fictitious year.
(Table IL)
IV.
OCTOBER, 1912.
113
GREENWICH MEAN TIME.
.4
a
o
o
O
Q
THE MOON'S
SEMIDIAMETER.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGE.
I
2
3
4
5
6
7
8
lO
II
12
13
14
15
i6
17
i8
20
21
22
23
24
26
27
28
29
30
31
32
Noon.
S 44-9
5 53.3
6 1.6
6 9.3
6 15.9
6 20.8
6
6
6
6
6
5
5
4
4
4
4
4
4
5
5
5
5
23.2
22.5
18.3
10.8
0-5
48.3
S 35-3
5 22.5
5 10.8
1.2
53-9
49-5
47.8
48.9
52.6
58.5
6.0
14.7
23.9
33-0
5 41-6
49.3
55.8
6 1.2
6 5-3
16 8.3
1912-
MidnighL
5 49-1
5 57-5
6 5.5
6 12.8
6 18.6
6 22.4
6
6
6
6
5
5
5
5
23-3
20.8
15-0
6.0
54-6
41.8
5 28.8
5 i6-5
5 5-7
4 57.2
4 51.4
4 48.3
4 48.0
4 50-5
4 55.3
5 2.1
5 IO-2
5 19.3
28.S
37-4
5 45-6
52.7
58.6
6 3-4
6 6.9
16 9.4
-8
Noon.
Diflf. for
I Hour.
f w
n
57 41-9
+1.29
58 12.8
1.28
58 43-1
1.23
59 "-4
+I.H
59 35-9
0.90
59 53-8
0.57
60 2.5
+0.14
59 59.8
-0.37
59 44-6
0.90
59 17.1
-1.38
58 39-3
1-75
57 54-5
1.96
57 6.6
—2.00
56 19.7
1.89
55 37.0
1.64
55 1.5
-1.30
54 34-9
0.90
54 18.5
0.47
54 12.5
-0.04
54 16.6
+0.37
54 30.1
0.74
54 51-5
+1.04
55 19-2
1.25
55 5I-0
1.38
56 24.8
+1.42
56 58.4
1-37
57 29.9
1.25
57 58.1
+1.09
58 22.0
0.91
58 41.6
0.72
58 56.8
0.55
59 7.8
+0.37
Midnight.
57 57-4
58 28.1
58 57.6
59 24.3
59 45-8
59 59-5
60 2.7
59 53-8
59 32.3
58 59-3
58 17-5
57 30-7
56 42.8
55 57'^
55 18.2
54 47.0
54 25.4
54 14-2
54 13.3
54 22.3
54 39-9
55
55
56
4-7
34-7
7.8
56 41.8
57 14-5
57 44-5
58 10.6
58 32.4
58 49-7
59 2.8
59 "-8
DiflF. for
X Hour.
Meridiap of
Greenwich.
+1.29
1.26
z.x8
+I.02
0.75
+0.37
-O.II
0.64
I.I5
-1.58
1.88
2.00
-1.96
1.78
1.48
—I. II
0.69
-0.25
+0.17
0.56
0.90
+1.16
1-33
1. 41
+1.40
1.32
1. 17
+1.00
0.82
0.63
•0.46
+0.28
m
16 18.9
17 19.5
18 21.4
19 22.0
20 19.8
21 14.0
22 5.1
22 54.2
23 42.6
6
o 31.4
I 21.5
2 13-5
3 7-1
4 1-5
4 55-4
5 47.4
6 36.7
7 22.9
8 6.6
8 48.3
9 29.1
10 9.8
10 51.8
11 36.1
12 24.0
13 16.2
14 13.1
15 13.6
16 15.6
17 16.4
18 14.2
Diff . for
X Hour.
m
2.46
2.57
2.57
2.48
2.33
2.19
2.08
2.02
2.02
2.05
2.13
2. 20
2.26
2.27
2.21
2.12
1.99
1.87
1.77
I.7I
X.69
I.7I
1.79
Z.9I
2.08
2.27
2.46
2.57
2.58
2.48
2.33
Noon.
d
20.3
21.3
22.3
23-3
24.3
25-3
26.3
27.3
28.3
29.3
.0.9
1-9
2.9
3.9
4-9
5-9
6.9
7.9
8.9
9-9
10.9
1 1.9
12.9
13-9
14.9
15-9
16.9
17.9
18.9
19.9
20.9
21.9
114
OCTOBER, 1912.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hoar.
Right Ascension.
for
I Min.
Declination.
for
I Min.
Hour.
Right Ascension.
for
xMin.
Declination.
for
I Min.
TUESDAY I.
THURSDAY 3.
h m 8
s
e r tt
m
h m a
8
• > 1*
•*
O
4 20 31.46
a.4S05
N.25 5344.1
7'S73
0
6 23 15.64
8.6367
N.28 35 31.2
X.OOI
I
4 22 57.49
2.437a
26 I 2.0
7.225
I
6 25 53.87
8.6376
28 34 25.4
Z.195
2
4 25 2392
a.4438
26 8 II. I
7.077
2
6 28 32.15
2.6383
28 33 8. 1
1.385
3
4 27 50.75
2.4504
26 15 II. 2
6.926
3
6 31 10.47
2.6388
28 31 39.2
X.577
4
4 30 17.97
a. 4569
26 22 2.2
6.773
4
6 33 48.81
2.6393
28 29 58.8
1.770
5
43245.58
9.4633
26 28 44.0
6.620
5
6 36 27.18
a. 6396
28 28 6.8
X.962
6
4 35 13.57
2.4697
26 35 16.6
6.466
6
639 5.56
a. 6397
28 26 3.3
2.154
7
4 37 41.94
a. 4759
26 41 39.9
6.3x0
7
6 41 43.94
2.6396
28 23 48.3
a. 347
8
4 40 10.68
3.4821
26 47 53.8
6.152
8
6 44 22.31
8.6393
28 21 21.7
2.539
9
4 42 39.79
2.4882
26 53 58.1
5.993
9
6 47 0.66
2.6389
28 18 43.6
a. 73a
lO
4 45 9.27
2.4943
26 59 52.9
5.833
10
6 49 38.98
2.6384
28 15 53.9
a. 923
II
44739.11
2.5003
27 538.1
5.672
II
6 52 17.27
a. 6377
28 12 52.8
3. us
12
4 50 9.31
2.5062
27 11 13.6
5.509
12
6 54 55.51
8.6368
28 9 40.1
3.307
13
4 52 39.86
a. 5120
27 16 39.2
5*345
13
6 57 33.69
2.6358
28 6 15.9
3-499
14
4 55 10.75
2.5x77
27 21 55.0
5.180
14
7 0 II. 81
a. 6347
28 2 40.2
3.690
15
4 57 41.98
2.5233
27 27 0.8
5.013
15
7 249.85
a. 6333
27 5853.1
3.880
i6
5 0 13.55
2.5288
27 31 56.6
4.846
16
7 527.81
2.6318
27 54 54.6
4.07X
17
5 245.44
a. 534a
27 36 42.3
4.678
17
7 8 5.67
2.6302
27 50 44.6
4.261
18
5 5 17.65
a. 5395
27 41 17.9
4.508
18
7 10 43.43
2.6284
27 46 23.3
4.450
19
5 7 50. 18
a. 5447
27 45 43.2
4.336
19
7 13 21.08
2.6a65
27 41 50.6
4.640
20
5 10 23.01
a. 5498
27 49 58.2
4.X64
20
7 15 58.61
8.ftl45
2737 6.5
4.828
21
5 1256.15
a. 5547
27 54 2.9
3.991
21
7 18 36.02
8.6aa3
27 32 II. 2
5-015
22
5 15 29.58
a. 5595
27 57 57.1
3.817
22
7 21 13.29
a.6aoo
27 27 4.6
5.204
23
5 18 3.29
WEI
2.5643
3NES]
N.28 I 40.9
DAY 2.
3.64a
23
7 23 50.42
FF
a. 6x75
LIDAY
N,27 21 46.7
4-
5.391
0
5 20 37.29
a.5689
N.28 5 14. 1
S.464
0
7 26 27.39
8.6148
N.27 16 17,7
5.577
I
5 23 11.56
a. 5733
28 8 36.6
3.a87
I
7 29 4.20'
8.6X21
27 10 37.5
5.763
2
5 25 46.09
a. 5777
28 II 48.5
3.109
2
7 31 40.84
2.6093
27 4 46.2
5.948
3
5 28 20.88
2.5818
28 14 49.7
2.929
3
7 34 17.31
2.6063
26 58 43.8
6.13a
4
5 30 55.91
a. 5859
28 17 40.0
a.748
4
7 36 53.59
8.603Z
26 52 30.4
6.3x4
5
53331.19
a. 5899
28 20 19.5
2.567
5
7 39 29.68
2.5998
26 46 6.1
6.497
6
5 36 6.70
a. 5937
28 22 48.1
8.386
6
742 5.57
a. 5965
26 39 30.8
6.678
7
5 38 42.43
a. 5973
28 25 5.8
8.203
7
7 44 41.26
a. 5930
26 32 44.7
6.859
8
5 41 18.38
2.6009
28 27 12.5
a. 019
8
7 47 16.73
a. 5893
26 25 47.7
7.039
9
5 43 54-54
2.6043
2829 8.1
X.834
9
7 49 51.98
a. 5857
26 x8 40.0
7.2x7
10
5 46 30.89
2.6075
28 30 52.6
1.649
10
7 52 27.01
2.5819
26 II 21.6
7.395
II
5 49 7.44
2.6107
28 32 26.0
1.463
II
7 55 1.81
8.5780
26 3 52.6
7.57a
12
5 51 44.17
2.6136
28 33 48.2
1.877
12
7 57 36.37
a. 5739
25 56 12.9
7.748
13
5 54 21.07
2.6163
28 34 59.2
X.089
13
8 0 10.68
a. 5698
25 48 22.8
7.983
14
5 56 58.13
2.6189
28 35 58.9
0.902
H
8 244.75
a. 5657
25 40 22.2
8.097
15
5 59 35.34
2. 62x4
28 36 47-4
0.714
15
8 5 18.56
a. 5613
25 32 11.2
8.a69
16
6 2 12.70
2.6238
28 37 24.6
0.525
16
8 752.11
2.5569
25 23 49.9
8.441
17
6 4 50.20
2.6260
28 37 50.4
0.335
17
8 10 25.39
a. 5534
25 15 18.3
8.61X
18
6 7 27.82
2.6279
28 38 4.8
+0.145
18
8 12 58.40
2.5478
25 6 36.6
8.779
19
6 10 5.55
2.6298
28 38 7.8
-0.045
19
8 1531.13
a. 543a
24 57 44.8
8.947
20
6 12 43.39
2.6315
28 37 59.4
0.235
20
8 18 3.58
a. 5384
24 48 42.9
9.XI5
21
6 15 21.33
8.6331
a8 37 39.6
0.446
21
8 ao 35.74
a. 5337
24 39 3X-0
9.8S0
22
6 17 59.36
a. 6345
2«37 8.3
0.617
22
8 23 7.62
8.5888
24 30 9.3
9*443
23
6 20 37.47
2.6357
28 36 25.5
0.809
23
8 25 39.20
a.5a38
24 20 37.8
9.606
24
6 23 15.64
a. 6367
N.28 35 31.2
X.OOI
24
8 28 10.48
8.5188
N.24 10 56.6
9.767
VI.
OCTOBEK, 1912.
115
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hotxr.
Right Ascension.
for
xMin.
Declination.
for
xMin.
Hoar.
Right Ascension.
for
xMin.
Declination.
for
xMin.
SAl
'URDi
VY 5.
MONDAY 7.
h m •
8
0 r «r
m
h m 8
s
9 r »
»*
0
8 28 10.48
2.5x88
N.24 10 56.6
9.767
0
10 22 50.76
2.2625
N.13 45 54.2
15.623
I
8 30 41.46
a. 5138
24 I 5.8
9.937
I
10 25 6.37
2.2578
13 30 14.5
15.70X
2
8 33 12.13
2.5087
23 51 5.4
10.086
2
10 27 21.70
2.2532
13 14 30.1
15.778
3
83542.50
2.5036
23 40 55.5
XO.243
3
10 29 36.75
2.2486
12 58 41. 1
15.854
4
8 38 12.56
2.4983
23 30 36.3
XO.398
4
10 31 51.53
2.2442
12 42 47.6
15.987
5
8 40 42.30
2.4930
23 20 7.7
10.553
5
10 34 6.05
2.2397
12 26 49.8
15*998
6
8 43 11.72
2.4877
23 9 30.0
10.705
6
10 36 20.30
3.3353
12 10 47.8
X6.068
7
8 45 40.82
a.4823
22 58 43.1
XO.857
7
10 38 34.29
2.23XX
" 5441.7
16.136
8
8 48 9.60
2.4769
22 47 47.2
11.007
8
10 40 48.03
2.2268
II 3831.5
16. 808
9
8 50 38.05
«.47i4
22 36 42.3
".155
9
1043 I.5I
2.2227
II 22 17.4
16.266
10
853 6.17
2.4660
22 25 28.6
XI. 302
10
10 45 14.75
2.2X86
II 559.5
X6.32S
II
8 55 33.97
2.4606
22 14 6.1
XX.447
II
10 47 27.74
2.2x45
10 49 38.0
X6.389
12
8 58 1.44
2.4551
22 2 35.0
11.590
12
10 49 40.49
2.2106
10 33 12.9
16.448
13
9 0 28.58
a. 4495
21 50 55.3
11.733
13
10 51 53.01
2.2067
10 16 44.3
16.504
14
9 2 55.38
a. 4439
21 39 7.1
IX. 872
14
1054 5.29
2.2028
10 0 12.4
16.559
15
9 5 21.85
a.4384
21 27 10.6
X2.0IX
15
10 56 17.35
2.X992
9 43 37.2
X6.6I8
16
9 747.99
8.4328
21 15 5.8
X2.X48
16
10 58 29.19
3.1955
9 26 58.9
x6.66s
17
9 10 13.79
2.4273
21 2 52.8
12.284
17
II 040.81
2. 19x9
9 10 17.6
16.713
18
9 13 39.26
2.42x7
20 50 31.7
12.4X8
18
XI 2 52.22
2.X883
8 53 33.4
16.761
19
9 15 4-39
2.4160
20 38 2.6
12.550
19
II 5 3.41
2.X848
8 36 46.3
X6.807
20
9 17 29.18
2.4x04
20 25 25.7
12.680
20
II 7 14.40
2.x8x6
8 19 56.5
16.851
21
9 19 5364
2.4048
20 12 41.0
X2.809
21
II 9 25.20
2.X783
8 3 4.2
X6.893
22
9 22 17.76
3-3993
19 59 48.6
13.937
22
II II 35.79
2.1750
746 9.4
16.933
23
9 24 41-54
2.3936
N.I9 46 48.6
13.063
23
IX 13 46.20
3.17x9
N. 7 29 12.2
X6.972
SI
JNDA1
{ 6.
TU
ESDA
y 8.
0
927 4.99
2.3880
N.^9 33 41. 1
13.186
0
II 1556.42
2.X688
N. 7 12 12.7
17.009
I
9 29 28. 10
2.3824
19 20 26.3
13.308
I
II 18 6.46
2. 1658
6 55 II. I
17.043
2
9 31 50.88
a. 3769
19 7 4.2
X3.438
2
II 20 16.32
2.X629
638 7.5
17.077
3
9 34 13.33
a. 3713
18 53 34.9
13.547
3
II 22 26.01
2.16OX
6 21 1.9
X7.X08
4
9 36 35-44
2.3658
18 39 58.6
13.663
4
II 2435.53
a.x573
6 3 54.6
17.137
5
9 38 57.22
2.3603
18 26 15.3
13.778
5
II 26 44.89
2.X547
54645.5
17.165
6
9 41 18.67
a. 3548
iS 12 25.2
13.892
6
II 28 54.09
2.X52I
5 29 34.8
17.191
7
9 43 39.80
a. 3494
17 58 28.3
14. 003
7
II 31 3.14
3.1496
5 12 22.6
17.8x5
8
9 46 0.60
2.3440
17 44 24.8
I4.XI3
8
II 33 12.04
2.1472
4 55 9.0
17.337
9
9 48 21.08
a. 3386
17 30 14.8
X4.22X
9
II 35 20.80
2.1448
4 37 54. 1
17.358
10
9 50 41-23
2.333a
17 15 58.3
14.338
10
II 37 29.42
2.1435
4 20 38.0
17.377
II
9 53 i-o6
2.3278
17 I 35.5
14.433
II
II 39 37.90
2. 1403
4 3 20.9
17.393
12
9 55 20.57
2.3225
1647 6.5
14.534
12
II 41 46.25
2. 1382
3 46 2.8
17.309
13
9 5739.76
a. 3X73
16 32 31.4
14. 635
13
II 43 54.48
2.1362
3 28 43.8
17.333
H
9 59 58.64
2.3121
i6 17 50.3
14.733
14
II 46 2.59
a. 1343
3 II 24.1
17.334
15
10 2 17.21
2.3069
16 3 3.4
14.830
15
11 48 10.59
8.1324
2 54 3.7
17.344
16
10 4 35.47
2.30x8
15 48 10.7
14.926
16
II 50 18.48
2.1306
2 36 42.8
17.35a
17
10 6 53.43
2.2967
15 33 12.3
15.0x9
17
II 52 26.26
2.1288
2 19 21.5
17.358
18
10 9 11.08
2.2917
15 18 8.4
15. 1X1
18
II 54 33.94
8.X872
2 I 59.8
17.363
19
10 II 28.43
2.2867
15 2 59.0
I5.2OX
19
II 56 41.53
2.1257
I 44 37.9
17.366
20
10 13 45.48
2.2818
14 47 44.3
15.289
20
II 5849.03
2.1242
I 27 15.9 1 X7.3^
21
10 16 2.24
2.2768
14 32 24.3
15.376
21
12 0 56.44
2. 1228
I 9 53.9
17.367
22
10 1 8 18.70
2.2719
14 16 59.2
15.459
22
12 3 3.77
2. X2X6
0 52 31.9
17.365
23
10 20 34.87
2.2672
14 I 29.1
15.54a
23
12 5 11.03
2.X204
0 35 10. 1
17.360
24
10 22 50.76
2.3625
N.134554.2
15.623
24
12 7 18.22
a.xx93
N. 0 17 48.7
17.354
116
OCTOBER, 1912.
■
GREENWICH MEAN TIME,
VII.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Ascension.
Diff.
for
I Min.
Declination.
O
I
2
3
4
5
6
7
8
9
lO
XI
12
13
15
i6
17
i8
19
20
21
22
^3
O
I
3
4
5
6
7
8
9
lO
II
12
13
15
i6
17
i8
19
20
21
22
23
24
WEDNESDAY 9.
m
7 18.22
9 25.34
II 32.40
13 39.41
2 15 46.36
2 17 53-27
2 20 0.13
2 22 6.95
2 24 13.74
2 26 20.51
2 28 27.25
2 30 33-97
2 32 40.68
2 34 47-38
2 36 54.07
2 39 0.77
2 41 7.47
2 43 14.18
2 45 20.91
2 47 27.65
2 49 34-41
2 51 41.20
2 53 48.02
2 55 54-88
s
a. 1193
a.xiSa
3.1x7a
2.1x63
a. "55
2.1x47
a.xi4o
2.1x34
2.Z130
2.1x26
2.1X22
2.XIX9
2.XII7
2.11X6
2.XZI6
2.XZX7
2.11X8
2.XX20
2.IZ22
2.II25
2.ZX29
2.II34
2.1X40
2. II46
N.
N.
S.
o
o
o
o
o
I
I
I
2
2
2
2
3
3
3
4
4
S.
17
o
16
34
5^
8
26
43
o
17
35
52
9
26
43
o
17
4 34
451
8
25
42
59
16
5
5
5
5
6
2 58
3 o
3 2
THURSDAY
S.
1.77
8.71
15.69
3 4 22.73
3 6 29.82
3 8 36.98
3 10 44.20
3 12 51.49
3 H 58.85
3 17 6.28
3 19 13.79
3 21 21.39
3 23 29.08
3 25 36.86
3 27 44.73
3 «9 52.69
3 32 0.76
3 34 8.94
3 36 17.22
3 38 25.61
3 4034.12
3 42 42.75
34451.50
3 47 0.37
3 49 9.37
2.1153
a.xi6o
2.1x68
2. I 177
2.XZ87
2.1198
2.1209
a.I22X
2. X233
a.x245
2.x 259
2.X274
2.X289
2.X304
2.13x9
2.1336
a. 1354
2.X372
2.1389
2.1408
2. Z428
2.1448
2.Z468
a. 1489
8.X51Z
10.
6 32
649
7 6
7 22
7 39
7 55
8 12
8 28
845
9 I
9 17
9 33
9 49
10 5
10 21
1037
10 53
11 9
II 24
II 40
11 55
12 II
12 26
12 42
S.12 57
48.7
27.6
52.9
12.9
32.2
50.6
8.1
24-7
40.2
54.5
7.4
18.9
28.9
37-3
44.0
48.9
51.9
52.9
51.8
48.5
42.9
34.9
24-5
II-5
55.8
37.3
16.0
51-7
24.4
53-9
20.2
43.1
2.6
18.7
31-1
39.8
44.8
45.9
43-0
36.1
25.1
9.8
50.2
26.2
57.7
24.7
47.0
4.6
17.4
Diff.
for
I Min.
17.354
17.347
17.338
17.327
17.314
17.300
17.284
17.267
17.248
17.227
17.204
17.X79
17.153
17.126
17.097
17.066
17.033
16-999
X6.963
16.926
16.887
X6.847
16.805
16.761
16.7x5
X6.668
X6.620
16.570
X6.5Z8
16.465
X6.4XO
16.353
16.297
16.238
X6.X76
x6. 114
16.05X
15.985
15.918
15.851
15.781
15.709
15.637
15.563
15.488
15.411
15.333
X5.253
15.17a
Hour.
Right Ascension.
O
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
o
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
Diff.
for
z Min.
Declination.
FRIDAY II.
h
3
3
3
3
3
3
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
m
49
51
53
55
57
59
2
4
6
8
10
12
15
17
19
21
23
26
28
30
32
34
37
39
9.37
18.50
27.76
37-16
46.69
56.37
6.19
16.15
26.26
36.53
46.95
57.52
8.25
19.14
30.19
41.41
52.79
4.33
16.04
27-93
39.98
52.20
4.60
17.17
s
2.X5XX
a. 1533
a.x555
2.1578
a.x6ox
a. 1625
2.X648
2.1673
2.1698
a. 1724
2.1749
2.1775
2.1801
2.1828
2. 1856
2.X883
2. 19x0
2. 1938
2.1967
3.1995
2.2023
2.2052
a.ao8x
2.2109
S.
s.
SATURDAY
4 41 29.91
4 43 42.83
4 45 55.93
4 48 9.20
4 50 22.65
4 52 36.28
4 54 50.08
4 57 4.07
4 59 18.23
5 I 32.57
5 3 47-09
5 6 1.79
5 8 16.67
5 10 31.73
5 12 46.96
5 15 2.37
5 17 17.96
5 19 33.72
5 21 49.66
5 24 5.77
5 26 22.05
5 28 38.51
530 55-13
5 33 11.92
5 35 28.87
a. 2 138
2.2x68
2.2198
2.2227
2.9257
2.2286
2.2326
2.2346
a.a375
a. 2405
a. 2435
a. 2465
2.2495
2.2524
9.2553
2.2583
a. 26x3
2.2642
2.3671
2.2699
2.2728
3.2757
3.3784
a. 3812
3.3839
S.
2 57
3 12
27
42
57
12
26
41
55
10
24
38
53
7
21
34
48
2
15
29
42
55
8 8
8 21
3
3
3
4
4
4
4
5
5
5
5
6
6
6
6
7
7
7
7
7
17.4
25.3
28.1
25-9
18.6
6.0
48.1
24.8
56.0
21.7
41.7
56.0
4.6
7.3
4.1
54.8
39.5
18.0
50.2
16.2
35.8
48.9
55-5
55.5
2.
8
8
9
9
9
9
9
20
20
20
20
20
21
21
21
21
21
21
22
22
22
22
22
22
S.23
34 48.9
47 35.5
0 15.3
12 48.3
25 14.3
37 33.3
49 45.3
1 50.1
13 47.8
25 38.2
37 21.2
48 56.9
o 25.2
II 46.0
22 59.2
34 4.8
45 2.7
55 52.9
635.4
17 10.0
27 36.7
37 55-5
48 6.3
58 9.1
8 3.7
Diff.
for
x Min.
15.17a
15.089
X5.005
14.921
14.834
14.746
14.657
14.566
14.474
14.381
14.286
14.191
14.094
13.996
13.896
13.795
13.693
13.589
13.485
13.378
13.273
13.164
13.055
12.945
12. 833
13.730
12.607
12.492
13.375
12.358
X2. 140
13.021
XX.90Z
XX. 778
X 1.656
11.533
XI. 409
IX.2%3
11.157
XI. 029
X0.90X
10.772
X0.642
10.5IX
X0.379
10.247
10.113
9.978
9.84s
vm.
OCTOBER, 1912.
117
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Dilf.
Hoar.
Right Ascension.
for
X Min.
Declination.
for
I Min.
Hour.
Right AscendoxL
for
I Min.
DecUnatioa
for
I Min.
SU
NDA\
' 13.
TUESDAY 15.
h m 8
8
• f f
M
h m a
8
0 f w
w
0
15 35 28.87
3.2839
S.23 8 3.7
9.843
0
17 27 19.94
2.3503
S. 28 13 14.3
2.728
I
15 37 45-99
2.38G7
23 17 50.2
9.707
I
17 29 40.94
a. 3497
28 15 53.4
a. 575
2
15 40 3.27
2.2894
23 27 28.5
9.570
2
17 32 1.90
a. 3490
28 18 23.3
a.433
3
15 42 20.73
2.292X
23 36 58.6
9.43a
3
17 34 22.82
a. 3483
28 20 44.0
8.368
4
15 44 38.32
2.2946
23 46 20.4
9.a94
4
17 36 43.70
a. 3476
28 22 55.5
3.XX5
5
15 46 56.07
a. 297a
23 55 33-9
9.155
5
1739 4.53
2.3467
28 24 57.8
1.963
6
15 49 13-98
a. 2998
24 439.0
9.015
6
17 41 25.30
a. 3456
28 26 50.9
1.809
7
15 51 32.05
2.3023
24 13 35.7
8.874
7
17 43 46.00
a. 3445
28 28 34.9
1.657
8
15 53 50.26
2.3048
24 22 23.9
8.733
8
17 46 6.64
a. 3434
28 30 9.7
X.504
9
15 56 8.62
2.3072
2431 3.7
8.59a
9
17 48 27.21
2.34ai
28 31 35.4
1.353
10
15 58 27.12
a. 3095
24 39 34.9
8.449
10
17 50 47.70
a. 3407
28 32 51.9
X.200
II
16 0 45.76
a.3zx8
24 47 57.6
8.306
II
1753 8.10
2.3393
28 33 59.4
X.049
12
16 3 4.54
2.3x41
24 56 11.6
8.X62
12
17 55 28.42
a. 3378
28 34 57.8
0.898
13
16 5 23.45
2.3163
25 4 17.0
8.018
13
17 57 48.64
2.3362
283547.1
0.747
H
16 742.50
2.3x86
25 12 13.7
7.873
M
i8 0 8.76
a. 3344
28 36 27.4
0.596
15
16 10 1.68
2.3ao7
25 20 1.7
7.727
15
18 2 28.77
3.3337
28 36 58.6
0.445
i6
16 12 20.98
2.3227
25 27 40.9
7.580
16
18 448.68
a. 3308
28 37 20.8
0.295
17
16 14 40.40
a. 3847
2535 11.3
7.433
17
18 7 8.47
3.3388
28 37 34.0
-0.146
i8
16 16 59-94
2.3266
25 42 32.9
7.287
18
18 9 28.14
2.3267
28 37 38.3
+0.003
19
16 19 19.59
2.3285
25 49 45.7
7.139
19
18 II 47.68
3.3346
28 37 33.7
0.X52
20
16 21 39.36
a. 3303
25 56 49.6
6.991
20
18 14 7.09
3.3334
28 37 20.1
0.30X
21
16 23 59.23
2.33ao
26 3 44.6
6.843
21
18 16 26.37
3.3302
28 36 57.6
0.449
22
16 26 19.20
a. 3337
26 10 30.7
6.693
22
18 18 45.51
3.3x78
28 36 26.2
0.597
23
16 28 39.28
MC
a. 3334
)NDA1
5.2617 7.8
{ 14.
6.543
23
18 21 4.50
WED
3.3153
NESD
S. 28 35 46.0
AY 16.
0.743
0
16 30 59.45
a. 3369
S. 26 23 35.9
6.303
0
18 23 23.34
3.3137
S. 28 34 57.0
0.890
I
16 33 19-71
a. 3383
26 29 55.0
6.243
X
18 25 42.02
3.3100
28 33 59.2
X.036
2
16 35 40.05
a.3397
26 36 5. 1
6.093
2
18 28 0.54
2.3073
28 32 52.7
1. 182
3
t6 38 0.48
a. 34"
26 42 6.2
5-94a
3
18 30 18.90
2.3046
28 31 37.4
1.337
4
16 40 20.98
a. 3483
26 47 58.2
5.791
4
18 32 37.09
3.3018
28 30 13.5
1.471
5
16 42 41.56
a. 3436
26 53 41. 1
5.639
5
1834 55.11
2.2988
28 28 40.9
1.6x5
6
16 45 2.21
a. 3447
26 59 14-9
5.488
6
18 37 12.94
2.3957
28 26 59.7
1.758
7
16 47 22.92
a. 3457
27 4 39.6
5.336
7
183930.59
2.3927
28 25 9.9
X.90Z
8
16 49 43.69
2.3466
27 9 55.2
5.183
8
18 41 48.06
3.2895
28 23 1 1.6
3.043
9
16 52 4.51
a. 3474
27 15 1.6
5.031
9
18 44 5.33
2.3863
28 21 4.7
3.186
10
16 54 25.38
a. 3483
27 19 58.9
4.878
10
18 46 22.41
2.3830
28 18 49.3
2.337
II
16 56 46.30
2.3490
27 24 47.0
4.7a5
II
18 48 39.29
2.3796
28 16 25.5
3.467
12
16 59 7.26
a. 3496
27 29 25.9
4.57a
12
i8 50 55.96
3.3762
28 13 53.3
3.607
13
17 I 28.25
2.3501
2733 55-6
4.418
13
18 53 12.43
2.2727
28 II 12.7
3.746
H
17 3 49-27
a. 3505
27 38 16. 1
4.265
14
18 55 28.68
2.269X
28 8 23.8
3.884
15
17 6 10.32
2.3509
27 42 27.4
4.XX2
15
18 57 44.72
2.3655
28 5 26.6
3.083
i6
17 831.38
2.351a
27 46 29.5
3.958
16
19 0 0.54
2.2618
28 2 21. 1
3.160
17
17 10 52.46
a. 35x3
27 50 22.4
3.805
17
19 2 16,13
2.2580
27 59 7.4
3.396
i8
17 13 13.54
2.3314
2754 6.1
3.651
18
19 431.50
2.2542
27 55 45.6
3.43a
19
17 15 34-63
2.3515
275740.5
3.497
19
19 6 46.64
2.3503
27 52 15.6
3.567
20
17 17 55.72
2.3514
28 I 5.7
3.343
20
19 9 1.54
3.3464
27 48 37.6
3.7OX
21
17 20 16.80
a. 351a
28 4 21.7
3.189
21
19 11 16.21
2.3435
27 44 51.5
3.835
22
17 22 37.86
a.3509
28 7 28.4
3.036
22
19 13 30.64
3.2385
27 40 57.4
3.968
23
17 24 58.91
a. 3507
28 10 26.0
2.882
23
19 15 44.83
3.3344
27 36 55.4
4.XOO
34
17 27 19.94
3.3503
S, 28 13 14.3
a. 728
24
19 17 58.77
a.2303
S. 27 32 45.4
4*333
118
OCTOBER, 1912.
IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
Declination.
for
Hour.
Right Ascension.
for
Declination.
for
I Min.
X Min.
xMin.
X Min.
THURSDAY 17.
SATURDAY 19.
h in 8
6
e t H
H
h m 8
8
• t n
M
O
19 17 5S.77
2.2303
S.27 32 45.4
4.232
0
20 59 48.02
2.0098
S.2I 53 24.6
9.569
I
19 20 12.47
2.3363
27 28 27.6
4.362
I
21 I 48.48
2.0054
21 43 46.5
9.6bx
2
19 22 25.91
a.22zg
27 24 1.9
4.49a
2
21 3 48.67
2.00x0
21 34 2.9
9.77a
3
19 24 39.10
3.2X77
27 19 28.5
4.621
3
21 5 48.60
1.9966
21 24 13.9
9.861
4
19 26 52.03
2.2134
27 14 47.4
4.750
4
21 7 48.26
1.9923
21 14 19.6
9.950
5
19 29 4:71
2.3091
27 9 58.5
4.878
5
21 947.67
1.9880
21 4 19.9
X0.038
6
19 31 17.12
3.2047
27 5 2.0
5.004
6
21 II 46.82
1.9837
20 54 15.0
XO. X2S
7
19 33 29.27
2. 2003
26 59 58.0
5.130
7
21 1345.71
X.9794
20 44 4.9
I0.2IX
8
19 35 41.16
2. 1959
26 54 46.4
5.256
8
21 15 44.35
x.975a
203349.7
XO.297
9
19 37 52.78
3.1914
26 49 27.3
5.381
9
21 1742.73
1.97x0
20 23 29.3
XO.382
lO
1940 4.13
2.1869
26 44 0.7
5.504
10
21 19 40.87
1.9669
20 13 3.8
XO.466
II
19 42 15.21
2.Z824
26 38 26.8
5.6*7
II
21 21 38.76
1.9628
20 2 33.4
10.548
12
19 44 26.02
3.1779
263245.5
5.749
12
21 23 36.40
1.9587
19 51 58.0
XO.63X
13
19 46 36.56
2. 1733
26 26 56.9
5.870
13
21 25 33,80
1.9547
19 41 17.7
XO.713
14
19 48 46.82
2.1687
26 21 I.I
5.990
14
21 27 30.96
1.9507
193032.5
10.794
15
19 50 56.80
3.1640
26 14 58.1
6. no
15
21 29 27.88
X.9467
19 19 42.4
10.874
i6
19 53 6.50
3.1594
26 8 47.9
6.229
16
21 31 24.57
X.9428
19 847.6
10.953
17
19 55 15.93
2.1548
26 2 30.6
6.347
17
21 33 21.02
X.9389
18 5748.1
11.031
i8
19 57 25.08
2.1502
25 56 6.2
6.465
18
21 35 17.24
1.9352
18 46 43.9
XI.X09
19
19 59 33-95
a. 1454
25 49 34.8
6.581
19
21 37 13.24
1.9314
18 35 35.0
IX.1S6
20
20 I 42.53
2.1407
2542 56.5
6.696
20
21 39 9.01
1.9277
18 24 21.6
11.26s
21
20 3 50.83
2.1360
25 36 II. 3
6.8x0
21
21 41 4.56
1.9240
18 13 3.6
XX. 338
22
20 5 58.85
2.1313
25 29 19.3
6.334
22
21 42 59.89
X.9203
18 I 41. 1
XI.4I3
23
20 8 6.59
2.1266
S.25 22 20.4
7.037
23
21 44 55.00
1.9167
S.17 50 14.1
11.486
FB
LI DAY
18.
SU
NDAY
20.
O
20 10 14.04
3.X218
S,25 15 14.8
7.149
0
21 46 49.90
1.9x3a
S. 17 38 42.8 11.558
I
20 12 21.21
2.1171
25 8 2.5
7.261
I
21 48 44.59
1.9097
17 27 7.1 j 11.631
2
20 14 28.09
2.x 123
25 043.5
7.372
2
ai 50 39.07
1.9062
17 15 27.1 I 1X.703
3
20 16 34.68
2.1075
24 53 17.9
7.481
3
21 52 33.34
X.9088
17 3 42.8 XX.773
4
20 18 40.99
2.XO28
24 45 45.8
7.589
4
21 54 27.41
1.8996
16 51 54.3
11.843
5
20 20 47.02
3.0981
24 38 7.2
7.697
5
21 56 21.29
1.8963
16 40 1.6
11.913
6
20 22 52.76
2.0933
24 30 22.1
7.805
6
21 58 14.97
X.8930
16 28 4.8
XX. 981
7
20 24 58.22
2.0886
24 22 30.6
7.912
7
22 0 8.45
1.8898
16 16 3.9
12.048
8
20 27 3.39
3.0838
24 14 32.7
8.017
8
22 2 1.75
1.8867
16 3 59.0
12.115
9
20 29 8.28
3.0793
24 6 28.6
8.131
9
22 3 54.86
1.8837
15 51 50.1
I3.X82
lO
20 31 12.89
2.0744
23 58 18,2
8.225
10
22 547.79
1.8807
15 39 37.2
X2.247
II
20 33 17.21
2.0697
23 50 1.6
8.327
II
22 7 40.54
1.8777
15 27 20.5
12.3x1
12
20 35 21.25
2.0650
23 41 38.9
8.429
12
22 933.11
X.8748
15 14 59.9
ia.375
13
20 37 25.01
2.0603
23 33 10. 1
8.53«
13
22 II 25.51
X.8719
15 235.5
12.438
14
20 39 28.48
2.0556
23 24 35.2
8.632
14
22 13 17.74
1.8691
14 50 7.3
X2.S0X
15
20 41 31.68
2.05x0
23 15 54.3
8.733
15
22 15 9,80
X.8663
14 37 35.4
12.563
i6
20 43 34.60
2.0463
23 7 7-4
8.830
16
22 17 1.70
1.8637
14 24 59.8
12.634
17
2045 37.24
2.0417
22 58 14.7
8.927
17
22 18 53.45
X.8612
14 12 20.5
X2.684
i8
20 47 39.60
2.0371
22 49 16.2
9.024
18
22 20 45.04
X.8585
13 59 37.7
X3.743
19
20 49 41.69
2.0325
22 40 II. 8
9. 132
19
22 22 36.47
X.8560
13 46 51.4
13.802
20
20 51 43.50
2.0278
22 31 1.6
9.217
20
22 24 27.76
1.8536
1334 1.5
13. 860
21
20 53 45.03
2.0233
22 21 45.8
9.311
21
22 26 18.90
1.85x2
13 21 8.2
ia.917
22
20 55 46.30
2.0189
22 12 24.3
9.405
22
22 28 9.90
1.8488
13 8 II. 4
12.974
a3
20 57 47.30
3.0143
22 2 57.2
9.498
23
22 30 0.76
X.8466
12 55 ".3
13.030
a4
20 59 48.02
2.0098
S.21 53 24.6
9.589
24
22 31 51.49
1.8444
S.1242 7.8
13.085
X.
OCTOBER, 1912.
119
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
zMin.
Declination.
for
X Min.
Honr.
Right Ascension.
for
X Min.
Declination.
for
X MiiL
MO
NDA\
' 21.
WEDNESDAY 23.
h m s
8
0 1 H
f>
h m s
a
e r H
*»
o
22 31 51.49
X.8444
S.I242 7.8
13.085
0
23 59 5.78
X.8170
S. I 24 43.3
14.844
I
22 33 42.09
2.8433
12 29 I.I
13.139
I
0 0 54.83
X.8X82
I 952.1
X4.862
2
22 35 32.56
X.84O8
12 15 51. 1
13.193
2
0 2 43.96
X.8194
0 54 59.9
14.878
3
22 37 22.91
1.8382
12 2 37.9
13.847
3
0 433.16
X.8208
0 40 6.8
14.893
4
2239 13.14
1.8368
II 49 21.5
X3.a99
4
0 6 22.45
X.8222
0 25 12.8
14.908
5
22 41 3.26
1.8343
II 36 a.o
13.350
5
0 8 11.82
X.8236
S. 0 10 17.9
X4.9aa
6
22 42 53.26
1.8385
II 22 39.5
13.401
6
0 10 1.28
X.8251
N. 0 4 37.8
14.934
7
22 44 43. 16
1.8307
II 9 13.9
13- 451
7
0 II 50.83
X.8967
0 19 34.2
X4.946
8
22 46 32.95
1.8390
10 55 45.4
13.500
8
0 13 40.48
X.8284
0 34 31.3
X4.957
9
22 48 22.64
x.8a73
10 42 13.9
13.548
9
0 15 30.24
X.8308
0 49 29.0
X4.967
lO
22 50 12.23
1.8238
10 28 39.6
13.596
10
0 17 20.11
x.83ax
I 427.3
X4.976
II
22 52 1.73
1.8243
10 15 2.4
13.64a
II
0 19 10.09
X.8339
I 19 26.1
X4.983
12
22 53 51.15
X.8329
10 I 22.5
X3.688
12
0 21 0.18
X.8359
I 34 25.3
X4.990
13
22 55 40.48
X.82X5
9 47 39.8
13.735
13
0 22 50.40
X.8380
I 49 24.9
14.997
H
22 57 29.73
X.8903
9 33 54.3
13.780
14
0 24 40.74
X.84OX
2 4 24.9
x5.ooa
15
22 59 18.91
X.8190
9 20 6.2
13.824
15
0 26 31.21
X.8423
2 19 25.2
X5-007
i6
23 I 8.01
1.8x76
9 6 15.4
X3.867
16
0 28 21.82
X.8447
2 34 25.7
X5.0XO
I?
23 257.04
1.8x67
8 52 22.1
13.9x0
17
0 30 12.57
X.8470
2 49 26.4
x5.oxa
i8
23 4 46.01
1.8x57
8 38 26.2
X3.95a
18
0 32 3.46
X.8494
3 4 27.2
15.0x4
19
23 634.92
1.8X47
8 24 27.9
13.993
19
0 33 54.50
X.8520
3 19 28.1
X5.015
20
23 8 23.77
X.8138
8 10 27.1
14.033
20
0 35 45.70
X.8546
3 34 29.0
15.0x4
21
23 10 12.57
1.8x29
7 56 24.0
14.07a
21
0 37 37.05
X.8573
3 49 29.8
15.0x2
22
23 12 1.32
1.8x22
7 42 18.5
X4.XXX
22
03928.57
X.8600
4 430.5
15.0x0
23
23 13 50.03
1.8XXS
S. 7 28 10.7
14. 149
23
0 41 20.25
X.869B
N. 4 19 31.0
15.007
TU]
ESDA
y 22.
THl
JRSD/
iY 24.
o
23 15 38.70
X.8X08
S. 7 14 0.6
X4.X87
0
0 43 12. II
X.8657
N. 4 34 31.3
15.003
1
23 17 27.33
1.8x03
6 59 48.3
X4.223
I
045 4-14
T tUtSfm
4 49 31.3
X4.997
2
23 19 1593
X.8098
6 45 33-9
14.258
2
0 46 56.36
X.87I8
5 430.9
X4.989
3
23 21 4.51
1.8093
6 31 17.4
X4.293
3
0 48 48.76
1.8749
5 19 30.0
X4.982
4
23 22 53.06
X.8090
6 16 58.7
14.328
4
0 50 41.35
X.8782
5 34 28.7
X4.973
5
23 24 41.59
X.8088
6 2 38.0
14.361
5
052 34.14
X.88X4
5 49 26.8
X4.963
6
23 26 30. 1 1
I. 0000
5 48 15.4
14.393
6
0 54 27.12
X.8847
6 4 24.3
X4.953
7
23 28 18.62
X.8084
5 33 50.9
14. 4*5
7
0 56 20.31
X.888S
6 19 21. 1
14.94X
8
23 30 7.1a
X.8083
5 19 24.4
XA-457
8
0 58 13.71
X.8918
6 34 17.2
X4.927
9
23 31 55.62
X.8083
5 4 56.1
X4.487
9
I 0 7.33
X.8954
6 49 12.4
14.9x3
10
23 3344.12
X.80R4
4 50 26.0
14.5x6
10
I 2 1. 16
X.8990
7 4 6.7
X4.898
II
23 35 32.63
1.8085
4 35 54.2
14.545
II
I 3 55.21
1 1.9028
7 19 0.1
14.882
12
23 37 21.14
1.8087
4 21 20.6
X4.573
12
I 549.49
X.9066
7 33 52.5
X4.864
13
23 39 9-67
X.8O9O
4 645.4
14.600
13
I 7 44.00
X.9105
7 48 43.8
X4.845
H
23 40 58.22
1.8094
3 52 8.6
14.636
14
I 9 38.75
1.9x45
8 3 33.9
14.824
15
23 42 46.80
2.8098
3 37 30.3
X4.652
15
I II 33.74
1.9x85
8 18 22.7
14.803
i6
23 44 35.40
i.8tQ3
3 22 50.4
14.677
16
I 13 28.97
X.9826
8 33 10.3
14.78a
17
23 46 24.04
X.8X09
3 8 9.1
14.700
17
I 15 24.45
X.9268
8 47 56. 5
X4.758
i8
23 48 12.71
x.8xx6
2 53 26.4
X4.7«3
18
I 17 20.19
x.93xa
9 241.3
'4.733
19
23 50 1.43
X.8X33
2 38 42.3
14.746
19
I 19 16.19
X.9355
9 17 24.5
X4.707
20
23 51 50.19
x.8x3x
2 23 56.9
.14.767
20
I 21 12.45
X.9399
9 32 6.2
14.681
21
23 53 39.00
1.8x40
2 9 10.3
14.787
21
I 23 8.98
X.9444
9 46 46.2
14.653
22
23 55 27.87
X.8149
I 54 22.4
14.807
22
I 25 5.78
1.9490
10 I 24.5
X4.623
23
23 57 16.79
1.8x59
1 39 33.4
14.826
23
I 27 2.86
X.9537
10 16 0.9
X4.592
24
23 59 5.78
1.8x70
S. I 24 43.3
X4.844
24
I 29 0.22
I 1.9584
N.io 30 35.5
14.560
120
OCTOBER, 1912.
XL
GREENWICH MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Dilf.
DifF.
DiflC.
Diff.
Hour.
Right Aacention.
for
I Min.
DeclixiaUoii.
for
I Min.
Hoor.
Right AacanaioiL
for
I Min.
DecUxuttion.
for
I Min.
FRIDAY 25.
SUNDAY 27.
h m s
■ a
e « ti
w
:h m 8
8
0 1 w
m
0
I 29 0.22
X.9584
N.IO3O35.5
14.560
0
3 942.46
2.3585
N.2I 6 12.3
IX.J46
I
I 30 57-87
1.9632
1045 8.1
14. 5*7
I
3 II 58.19
3.2658
21 17 29.9
IX. 240
2
I 32 55- 80
1.9660
10 59 38.7
X4.49a
2
3 14 14.36
3.3731
21 28 41. 1
XI. 133
3
I 34 54-03
1.9730
n 14 7.1
14.456
3
3 16 30.96
3. 3804
21 39 45-9
XX. 035
4
I 36 52.56
1.9780
11 2833.4
14 419
4
3 t8 48.01
2.3877
21 50 44.1
10.9x4
5
I 3S 51-39
X.9831
II 4257-4
14.381
5
3 21 5.49
a. 3951
22 I 35.6
X0.802
6
I 40 50. 53
1.9883
II 57 19.1
14.341
6
3 23 23.42
3.3025
22 12 20.3
X0.68S
7
I 42 49.98
Z.9935
12 II 38.3
14.300
7
3 2541.79
3.3098
22 22 58. 1
10.573
8
I 44 49-75
X.9988
12 25 55.1
14.257
8
3 28 0.60
8.3172
22 33 29.0
X0.456
9
I 46 49.84
a. 0043
12 40 9.2
14.2x3
9
3 30 19.85
a. 3245
22 43 52.8
X0.338
lO
I 48 50.25
3.0096
12 54 20.7
14. 168
10
3 32 39.54
2.33x8
22 54 9.5
X0.217
II
I 50 50.99
3.0x51
13 8 29.4
14.13a
II
3 34 59-66
2.339X
23 4 18.8
X0.094
12
I 52 52.06
2.0207
13 22 35.3
X4.073
12
3 37 20.23
a. 3465
23 14 20.8
9.97X
13
I 54 53-47
a. 0263
13 36 38.2
14.084
13
3 39 41.24
2.3538
23 24 15.3
9.845
H
I 56 55-22
3.0321
13 50 38.2
13.974
14
3 42 2.68
3.36x0
23 34 2.2
9.7x7
15
I 58 57-32
2.0378
14 4 35-1
13.922
15
3 44 24.56
a. 3683
23 43 41-4
9.588
i6
2 0 59.76
3.0437
14 18 28.8
13.868
16
3 46 46.87
2.3755
23 53 12.8
9.458
17
2 3 2.56
a. 0496
14 32 19-2
13.8x3
17
3 49 9-62
2.3837
24 2 36.4
9-327
z8
2 5 5-71
a. 0556
1446 6.3
13.757
18
3 51 32.79
2.3898
24 II 52.0
9.193
19
2 7 9.23
a. 061 7
14 59 50.0
13.699
19
3 53 56.40
3.3970
24 20 59.5
9.058
20
2 9 13. 1 1
a. 0677
15 13 30.2
13.639
20
3 56 20.43
3.4041
24 29 58.9
8.931
21
2 II 17.35
2.0738
15 27 6.7
13.578
21
3 58 44-89
2.41x3
24 38 50.0
8.783
22
2 13 21.97
3.0801
154039.5
I3.5«6
22
4 I 9.77
2.4x8a
24 47 32.8
8.642
23
2 15 26.96
3.0B63
N.1554 8.6
13.453
23
4 3 35.07
3.4353
N.24 56 7.1
8.500
SAT
URDi^
lY 26.
MC
INDA^
r 28.
O
2 17 32.33
3.0937
N.16 733.8
13.387
0
4 6 0.79
3.4321
N.25 4 32.8
8.357
I
2 19 38.08
3.0991
16 20 55.0
13.320
I
4 8 26.92
a. 4389
25 12 49.9
8.3X3
2
2 21 44.22
a. 1055
16 34 12.2
13.253
2
4 10 53.46
2.4457
25 20 58.2
8.065
3
2 23 50.74
2.1120
i6 47 25.2
I3.>82
3
4 13 20.41
2.4525
25 28 57.7
7.917
4
2 25 57.66
2.1x86
17 034.0
T3.X10
4
4 15 47.76
2.4592
25 36 48.3
7.768
5
2 28 4.97
2.1252
17 13 38.4
13.037
5
4 18 15.51
2.4658
25 44 29.9
7.617
6
2 30 12.68
2.X318
17 26 38.4
13.962
6
4 20 43.66
2.4723
25 52 2.3
7.4fH
7
2 32 20.79
3.1386
17 39 33-9
12.886
7
4 23 12.19
2.4788
25 59 25.6
7.311
8
2 34 29.31
a.X433
17 52 24.7
12. 80S
8
4 25 41. II
2.4853
26 6 39.6
7.155
9
2 36 38.23
2.X521
18 5 10.8
13.729
9
4 28 10.42
8.4916
26 13 44.2
6.997
lO
23847-56
a. 1589
18 17 52.2
X2.648
10
4 30 40. 10
2.4978
26 20 39.3
6.839
II
2 40 57.30
2.1658
18 30 28.7
12.566
II
4 33 10.15
2.5039
26 27 24.9
6.680
12
243 7.46
a. 1727
18 43 0. 1
13.481
12
4 35 40.57
2.5x00
26 34 0.9
6.518
13
2 45 18.03
3.1797
18 55 26.4
12.396
13
4 38 11.35
3.5160
26 40 27.1
6.356
14
2 47 29.02
3.1868
19 747.6
X2.309
14
4 40 42.49
8.5218
26 46 43.6
6.x 93
15
2 49 40.44
3. 1938
19 20 3.5
13. 220
15
4 43 13-97
3.5276
26 52 50.2
6.028
i6
2 51 52.28
3.2008
19 32 14.0
12.129
16
4 45 45-80
2.5333
26 58 46.9
5.86X
17
2 54 4-54
3.3080
19 44 19.0
12.037
17
4 48 17.96
2.53«8
27 4 33.5
5.693
i8
2 56 17.24
3.aiS2
19 56 18.4
XI.943
18
4 50 50.45
2.5443
27 10 lO.O
5-5^3
19
2 58 30.36
2.2223
20 8 12.2
X 1.848
19
4 53 23.27
2.5496
27 15 36.3
5.353
20
3 043.91
a. 2295
20 20 0.2
11.751
20
4 55 56.40
2.5548
27 20 52.4
5.182
21
3 2 57-90
2.2367
20 31 42.3
11.652
21
4 58 29.84
^-SSQ**
27 25 58.2
5.009
22
3 5 12.32
a. 243^
20 43 18.4
11.551
22
5 I 3-58
a. 5^148
27 30 53.5
4.835
23
3 727-17
2.35x3
20 54 48.4
X 1.449
23
5 3 37-62
2.5697
27 35 38.4
4.661
24
3 942.46
a. 2585
N.21 6 12.3
IX. 346
24
5 6 11.95
2.5745
N.27 40 12.8
4.485
XII.
OCTOBER, 1912.
121
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
f
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
1 Min.
Declination.
for
I Min.
Hour.
Right Ascension.
for
X Min.
Declination.
for
zMin.
Tu:
ESDA
Y 29.
THURSDAY 31.
h m s
s
or It
H
h m 8
s
0 » n
n
O
5 6 11.95
«-5745
N.27 40 12.8
4.485
0
7 12 17.98
9.6169
N.27 40 9.0
4.561
I
5 8 46.56
a. 5790
27 44 36.6
4.308
I
7 14 54-90
9.6x38
27 35 29-8
4.746
2
5 II 5:1.43
•.5834
27 48 49-7
4.xa9
2
7 17 31-64
9.6x07
27 30 39-5
4.93X
3
5 13 56.57
2.5878
27 52 52.1
3.950
3
7 20 8.19
2.6074
27 25 38.1
5.1x4
4
5 16 31-97
2.5920
27 56 43.7
3.770
4
72244-53
2.6039
27 20 25.8
5.2^
5
5 19 7-6i
9.5960
28 0 24.5
3.589
5
7 25 20.66
9.6003
27 15 2.5
5.478
6
5 21 43-49
a. 5998
28 3 54-4
3.407
6
7 27 56.57
9.5966
27 9 28.4
5.659
7
5 24 19-59
2.6036
28 7 13.3
3.224
7
73032.25
a. 5927
27 343.4
5.840
8
5 26 55.92
2.6073
28 10 21.3
3.041
8
7 33 7.70
9.5888
26 57 47.6
6.019
9
5 29 32.46
2.6107
28 13 18.2
2.856
9
7 35 42.91
9.5848
26 51 41. 1
6.X98
10
5 32 9.20
2.6x39
28 16 4.0
2.671
10
7 38 17.88
9.5807
26 45 23.9
6.375
II
5 3446-13
2.6171
28 18 38.7
2.485
II
74052.59
a. 5763
26 38 56. 1
6.551
12
5 37 23-25
2.6901
28 21 2.2
9.998
12
7 43 27.04
a.57«9
26 32 17.8
6.796
13
5 40 0-54
2.6229
28 23 14,5
9.111
13
746 1.22
9.5674
26 25 29.0
6.900
H
5 42 38.00
2.6256
28 25 15.5
X.923
14
74835-13
9.5628
26 18 29.8
7.073
15
5 45 15.61
a. 6281
28 27 5.2
1.734
15
7 51 8.75
a. 5580
26 II 20.2
7.845
i6
5 47 53-37
S.6304
28 28 43.6
1.545
16
7 53 42.09
a. 553a
26 4 0.4
7.415
17
5 50 31.26
9.6396
28 30 10.6
1.356
17
756 15-14
9.5483
25 56 30.4
7.584
i8
5 53 9-28
9.6346
28 31 26.3
1.166
18
7 58 47-89
a. 54 33
25 48 50.3
7.753
19
5 55 47.41
2.6364
28 32 30.5
0.975
19
8 I 20.34
9.5383
2541 0.1
7.920
20
5 58 25.65
2.63S2
28 33 23-3
0.784
20
8 3 52.49
a. 533a
25 32 59.9
8.086
21
6 I 3.99
a. 6397
28 34 4.6
0.593
21
8 6 24.32
9.5979
25 24 49.8
8. 951
22
6 3 42.41
9.6410
28 34 34-5
0.402
22
8 8 55.84
a. 5297
25 16 29.8
8.414
23
6 6 20.91
WED
2.6422
NESD
N.28 34 52.8
AY 30.
0.209
23
8 II 27.04
FRIDAY
a. 5173
,NOv:
N.25 8 0.1
EMBER I.
8.575
o
6 859.47
a. 6431
N.28 34 59.6
+0.017
0
8 13 57.91
9.5x18
N.24 59 20.8
8.735
I
6 n 38.08
6 14 16.74
2.6439
2.6446
28 34 54.9
28 34 38.6
-0.175
0.368
2
3
6 16 55.43
a. 6451
28 34 I0.8
0.560
4
5
6 1934-15
6 22 12.88
2.6454
28 33 31-4
28 32 40.5
0.752
a.6455
0.945
6
6 24 51.61
a. 6455
28 31 38.0
1. 138
PHASES
OF T
HE MOON.
7
6 27 30.34
6 30 9-05
9.6453
9.6449
28 30 23.9
28 28 58.3
X.331
x.5a3
8
9
6 32 47-73
a. 6443
28 27 21. 1
1.7x6
d
h m
lO
6 35 26.37
9.6437
28 25 32.4
X.908
c
Last Quart(
. Oct. 3
8 48.1
II
638 4.97
2.6428
28 23 32.2
9.100
•
New Moon
. •
. . . 10
I 40.6
4 6.2
12
13
64043.51
6 43 21.98
9.6417
2.6405
28 21 20.4
28 18 57.1
9.292
2.483
D
First Quart
er
. . . 17 I
H
6 46 0.37
9.6392
28 16 22.4
2.674
0
Full Moon
• •
. . . 25 I
4 30.5
15
6 48 38.68
6 51 16.89
«.6377
a. 6359
28 13 36.2
28 1038.5
9.866
3.056
16
17
6 53 54-99
9.6341
28 7 29.5
3.246
d h
18
6 56 32-98
9.6321
28 4 9.0
3.436
C
Perigee . .
• •
. . Oct.
7 6.8
19
20
6 59 10.84
7 I 48.57
2.6299
2.6277
28 0 37.2
27 56 54- 1
3.624
3.813
C
Apogee . .
• *
■ ... I
9 2.0
21
7 4 26.16
9.6953
27 52 50.7
4.00X
22
7 7 3.60
9.6226
27 48 54.0
4.188
23
7 940.87
2.6x98
274437-1
4.375
24
7 12 17.98
9.6169
N.27 40 9-0
4.562
122
NOVEMBER, 1912.
AT GREENWICH APPARENT NOON.
I.
Day of
the Week.
Frid.
Sat.
Sl/N.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
cgS
I
2
3
4
5
6
7
8
lO
II
12
13
14
15
i6
17
i8
20
21
22
23
24
25
26
27
28
29
30
31
THE SUN'S
Apparent Right
Ascension.
m
42513.69
4 29 9.09
4 33 5-32
4 37 2.38
4 41 0.28
4 44 59-03
4 48 58.64
45259-10
457 0.40
5 I 2.55
5 5 5.54
5 9 9.38
5 13 14-07
5 17 19-59
5 21 25.95
52533-14
52941.15
5 33 49-98
*
5 37 59-63
5 42 10.09
54621.35
5 50 33-40
5 54 46.23
5 58 59-84
6 3 14.23
6 729-38
6 II 45.27
6 16 1.90
6 20 19.25
6 24 37.32
Diff. for
I Hour.
s
9.791
9.825
9.860
9.894
9.929
9.964
0.000
0.035
0.071
0.106
0.142
0.177
0.212
0.247
0.282
0.316
0-350
0.384
0.418
0.452
0.486
0.519
0.552
0.584
0.616
0.647
0.678
0.708
0.738
0.767
16 28 56.08 10.795
Apparent Decli-
nation.
S. 14 24 23.8
14 43 32.9
15 2 27.8
15 21 8.2
15 39 33-4
15 S7 43-2
16 15 37.1
1633 14.6
16 50 35.4
17 739.0
17 2424.9
17 40 52.8
^7 57 2.4
18 12 53.0
18 28 24.3
18 43 36.0
18 58 27.6
19 1258.9
1927 9.5
19 40 58.9
19 54 26.8
20 732.9
20 20 16.9
20 32 38.3
20 44 36.9
20 56 12.4
21 7 24.4
21 18 12.6
21 28 36.7
21 3836.4
Diff. for
I Hour.
-48.16
47.58
46.98
-46.36
45-73
45.08
-44.41
43.71
43-00
-42.28
41-54
40.78
—40.00
39-21
38.40
-37.57
36.73
35.87
-35-0O
34-"
33- 20
-32.28
31.36
30.42
—29.46
28.49
27.51
-26.51
25.50
24.48
S. 21 48 1 1.5 -23.44
Semidiam-
eter.
6 9.18
6 9.42
6 9.66
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
9.90
0.14
0.37
0.60
0.83
1.07
1.30
1-53
1.76
1.99
2.21
2.43
2.65
2.86
3-07
3.28
3.48
3.68
3-87
4.06
4-25
4-43
4.60
4.77
4-93
5-09
5.24
16 15.39
Siderea
Time of
Semidi-
ameter
Passing
Me-
ridian.
66.89
67.00
67.11
67.23
67-34
67.46
67.58
67.70
67.82
67.94
68.07
68.19
68.31
68.43
68.55
68.67
68.79
68.90
69.02
69.13
69.24
6935
69.46
69-56
69.67
69.77
69.87
69.97
70.07
70.16
70.25
E9aation of
Time, to be
Subtracted
from
Apparent
Time.
Note. — The mean time of semidlameter passing may be found by subtracting 0&.19 from the side
m s
6 20.71
6 21.87
6 22.20
6 21.69
6 20.35
6 18.16
6 15.12
6 11.23
6 6.50
6 0.92
5 54-50
5 47-23
5 39-12
530.18
5 20.41
5 9.81
4 58.38
4 46.14
4 33-09
4 19-23
4 4-57
349.12
3 32.89
3 15-8S
Diff.
for
zHonr.
8
0.065
0.031
0.004
0.039
0.074
O.IIO
0.145
0.180
0.215
0.251
0.286
0.321
0.356
0.390
0.425
0.459
0.493
0.527
0.561
0.594
0.627
0.660
0.693
0.725
2 58.10; 0.757
239.57 0.788
2 20.29 0.819
2 0.27
I 39-52
I 18.07
o 55-93
0.849
0.879
0.908
0.936
eal time.
The sign - prefixed to the hourly change of declination indicates that south declinations are increasing.
11.
NOVEMBER, 1912.
AT GREENWICH MEAN NOON.
123
Day of
the Week.
Frid.
Sat
SUN.
Mon.
Tues.
Wed.
Thur,
Frid.
Sat
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
SUN
Mon.
Tues.
Wed.
Thur.
Frid.
Sat,
SUN
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
SUN
o
I
2
3
4
5
6
7
8
lO
II
12
13
15
i6
17
i8
20
21
22
23
24
26
27
28
29
30
31
THE SUN'S
Apparent Right
Ascension.
m
4 25 16.36
42911.77
4 33 8.01
4 37 5-o8
441 2.99
4 45 1-74
4 49 1-34
4 53 1-79
4 57 3-09
5 I 5-24
5 5 8.23
5 9 12.06
5 13 16.73
5 17 22.24
521 28.58
5 25 35-75
5 29 43.73
5 33 52.54
538 2.16
542 12.58
5 46 23.80
5 50 35.81
5 54 48.61
5 59 2.18
6 3 16.52
6 7 31.62
611 47.46
6 16 4.04
6 20 21.34
6 24 39.35
16 28 58.05
Diff. for
z Hour.
8
9.792
9.826
9.861
9.895
9.930
9.965
O.OOZ
0.036
0.071
0.107
0.142
0.177
Q.212
0.247
0.282
0.316
0.350
0.384
0.418
0.451
0.484
0.517
0.550
0.582
0.614
0.645
0.676
0.706
0.736
0.765
10.793
Apparent Declina-
tion.
S. 14 24 36.9
14 43 45.9
15 240.7
15 21 20.8
153945.8
15 57 55.4
16 15 49.1
16 33 26.4
16 50 46.9
17 750.3
17 24 36.0
17 41 3.6
17 57 12.8
18 13 3.1
18 28 34.1
18 43 45.5
18 58 36.8
19 13 7.8
19 27 18.0
1941 7.1
19 54 34-7
20 7 40.4
20 20 24.0
203245.1
20 44 43.3
20 56 18.4
21 7 30.0
21 18 17.8
21 2841.6
21 38 41.0
S. 21 48 15.7
Diff. for
X Hour.
-48.16
47.58
46.98
-46-36
45.72
45.07
-44.40
43.71
43.00
—42.28
41.53
40.77
-39.99
39.19
38.38
-37.56
36.72
35.86
-34.99
34.10
33-19
-32.27
31.35
30.40
-29.44
28.46
27.48
—26.49
25.48
24.46
—23.42
Equation of
Time, to be
Added to
Mean Time.
m 8
6 20.73
621.88
6 22.20
6 21.68
6 20.33
6 18.13
6 15.08
6 II. 18
6 6.44
6 0.85
5 54.42
547.14
5 39-03
5 30.08
5 20.30
5 9.69
4 58.26
4 46.01
4 32.95
4 19.09
4 4.43
3 48.97
3 32.73
3 15.72
2 57.94
2 39.40
2 20. 1 1
2 0.09
I 39.34
I 17.89
o 55-76
Diff. for
z Hour.
ao65
0.031
0.004
0.039
0.074
0.1 10
0.145
0.180
0.215
0.251
0.286
0.321
0.356
0.390
0.425
0.459
0.493
0.527
0.561
0.594
0.627
0.660
0.693
0.725
0.757
0.788
0.819
0.849
0.879
0.908
0.936
Note.— The semidiameter for mean noon may be assumed the same as that for apparent noon.
The sign — prefixed to the hourly change of declination indicates that south declina-
tions are increasing.
Sidereal Time,
or Right Ascen-
sion of Mean
Sun.
h m 8
4 41 37.09
4 45 33.65
4 49 30.20
4 53 26.76
45723.31
5 I 19.87
5 516.43
5 9 ^2.98
5 13 9-54
5 17 6.10
521 2.65
52459.21
5 28 55.77
5 32 52.32
5 36 48.88
5 40 45.44
5 44 42.00
5 48 38.55
55235.11
5 56 31.67
6 o 28.22
6 4 24.78
6 821.34
6 12 17.90
6 16 14.46
6 20 ii.oi
624 7.57
628 4.13
6 32 0.69
6 35 57.25
16 39 53.81
Diff. for I Hour,
+9'-8565.
(Table III.)
124
NOVEMBER, 1912.
IIL
AT GREENWICH MEAN NOON.
0
rS
THE SUN'S
Loearitfam of the
Radius Vector of
the Earth.
Diff. for
I Hour.
Mean Time of
Sidereal Noon.
Day of tl
Month
True Longitude.
Diff. for
I Hour.
Latitude.
A
A*
I
2
3
306
307
308
Of M
2184233.7
21942 39.2
220 42 46.9
« m
41 56.3
42 1-7
42 9-3
M
150.19
150.28
150.37
+ 0.59
0.53
0.44
9.996 5482
9.996 4393
9.996 3314
-45.6
45-2
44.8
h m s
91651.43
9 12 55.52
9 859.61
4
5
6
309
310
311
221 42 56.8
222 43 8.7
223 43 22.6
42 19.0
42 30.7
4244-5
150.46
150.54
150.62
+ 0.33
0.20
-|-o.o6
9.996 2244
9.996 1 181
9.9960124
-44.5
44.2
43.9
9 5 3.70
9 I 7.79
85711.88
7
8
9
312
313
314
224 43 38.5
225 43 56.3
226 44 15.9
43 0.3
43 18.0
43 37.4
150.70
150.78
150.85
—0.07
0.20
0.32
9-995 9074
9.995 8030
9.995 6992
-43.6
43.3
43.1
8 53 15-97
8 49 20.06
84524.15
lO
II
12
315
316
317
227 44 37-2
22845 0.1
229 45 24.6
43 5^-5
44 21.2
44 45-5
150.92
150.99
151.05
—0.41
0.48
0.53
9-995 5960
9.995 4936
9.995 3920
-42.8
42.5
42.1
8 41 28.24
8 37 32.33
8 33 36.42
13
14
15
318
319
320
230 45 50-5
231 46 17.8
232 46 46.5
45 1 1-3
45 38.5
46 7.0
I5I.II
151.17
151.22
-0.54
0.52
0.47
9.995 2913
9.995 1916
9.995 0932
-41.7
41.3
40.8
82940.51
8 25 44.60
821 48.69
i6
17
i8
321
322
323
233 47 i6.6
234 47 47.9
235 48 20.6
46 36.8
47 8.0
47 40.5
151.28
151.33
151.39
—0.40
0.31
0.21
9.994 9960
9-994 9003
9.994 8062
-40.2
39.6
38.9
8 17 52.77
8 13 56.86
8 10 0.95
19
20
21
324
325
326
236 48 54.5
237 49 29.6
238 50 6.0
48 14.2
48 49.2
49 25.4
151.44
151.49
151.54
— 0.09
+0.04
0.16
9.9947137
9.994 6231
9.994 5345
-38.1
37.3
36.5
8 6 5.04
8 2 9.13
758 13.22
22
23
24
327
328
329
239 50 43-7
240 51 22.6
241 52 2.9
50 2.9
50 41-7
51 21.8
151.59
151.65
151.70
+0.28
0.39
0.48
9.994 4480
9.994 3636
9.9942815
-35.6
34.7
33.7
7 54 17.30
7 50 21.39
7 46 25.48
25
26
27
330
331
332
242 52 44-5
243 53 27.5
2445411.9
52 3-2
52 46.0
53 30.2
151.76
151.82
151.88
+0.56
0.6 1
0.63
9.994 2018
9.994 1245
9.994 0495
-32.7
31.7
30.7
7 42 29.57
7 38 33.66
7 34 37-74
28
29
30
333
334
335
245 54 57'^
246 55 45-2
2475634-1
54 15-9
55 3.1
5551.8
151.94
Z52.OO
152.07
+o.6i
0.56
0.48
9.993 9769
9.993 9065
9.993 8382
-29.8
28.9
28.0
73041.83
7 26 45.92
7 22 50.01
31
336
248 57 24.4
56 42.0
152.13
+0.37
9.993 7719
! -27.2
7 1854.10
Note
,.— The 1<
thos
selii
sngitndes in the col
e in the column A' .
m fictitious year.
unin A are reJ
are referred t
Perred to th
0 the mean
e true equir
equinox of
lox of their own da
the beginning of
ite, while
the Bes-
Diff. for I Hour.
-9«.8ag6.
(Table H.)
IV.
NOVEMBER, 1912.
125
GREENWICH MEAN TIME.
THE MOON'S
o
«
•9
I
2
3
4
5
6
7
8
lO
II
12
13
H
15
16
17
18
20
21
22
23
24
25
26
27
28
29
30
31
SEMIDIAMETER.
Noon.
6 8.3
6 10.2
6 10.8
6 9.9
6 7.4
6 3.0
5 56.6
5 48.5
5 38-9
5
5
5
4
4
4
4
4
4
6
6
6
6
6
6
28.5
18.0
8.2
59.8
53.3
49-3
48.0
49-7
54-2
5
5
5 21.5
1-3
10.6
5 33-3
5 45-1
5 55-9
4.8
1 1.4
15-2
16.3
15.1
12.0
16 7.5
Midnight
6 9.4
6 10.6
6 10.6
6
6
6
5
5
5
4
4
4
4
4
4
5
5
5
5
5
6
8.9
5-5
0.1
5 52.8
5 43-8
5 33.8
23.2
13.0
3.8
56.3
51.0
48.3
48.5
51.6
57.4
5-7
15-9
27.4
39-3
50-7
0.6
HORIZONTAL PARALLAX.
6 8.4
6 13.6
6 16.0
6 15.9
6 13.7
6 9.8
16 4.8
Noon.
59
59
59
59
59
58
7.8
14,7
16.9
13-9
4.6
48.4
58 25.1
57 55'^
57 19-9
56 41-7
56 3-2
55 27.2
54 56.2
54 32.6
54 17-9
54 13-3
54 19-3
54 35-7
55
55
56
1.8
36.0
16. 1
56 59.4
57 42.6
58 22.2
58 55.1
59 19- 1
59 33-0
59 37.2
59 32.7
59 21.2
59 4-8
Diflf. for
X Hour.
+0.37
+0.19
—0.01
-0.25
0.52
0.83
— I.I2
1-37
1-55
—1.62
1-57
1.41
-1.15
0.81
—0.41
+0.03
0.47
0.89
+1.27
i«57
1.76
+1.82
1-75
1-53
+1.20
0.79
+0.37
02
0.34
0-59
77
Midnight.
59 1 1.8
59 16.4
59 16.1
59 10. t
58 57-4
58 37.6
58 10.8
57 38.0
57 i.o
56 22.3
55 44-7
55 IO-9
54 43-4
54 24.0
54 14-3
54 15-0
54 26.2
54 47-6
55 18.0
55 55-5
56 37.6
57 21.2
58 3.1
58 39-6
59
59
59
8.3
27.3
36.3
59 35.9
59 27.7
59 13-5
58 55'-^
DiflF. for
X Hour.
+0.28
+0.09
13
-0.38
0.67
0.98
-1.25
1.47
1.60
-I.61
I.51
Z.29
99
0.61
—0.19
+0.25
0.68
1.09
+1-43
1.68
X.81
+1.80
1.66
1.37
+1.00
0.58
+0.17
—0.19
a48
0.69
—0.84
UPPER TRANSIT.
Meridian of
Greenwich.
h m
18 14.2
19 8.1
19 58.6
20 46.8
21 33-9
22 21.3
23 lO.O
6
o 0.9
o 54.1
I 48.8
2 43-8
3 37-5
4 28.4
5 16.1
6
6
7
8
8
9
13
14
15
0.7
42.9
235
3-7
44-7
27.8
10 14.3
" 5-3
12 1.5
2.4
6.0
9.1
16 9.2
17 4.8
17 56.2
18 44.4
Diflf. for
X Hour.
m
2.33
2.17
2.05
1.98
1.96
2.00
2.07
• •
2.17
a. 25
2.29
2.27
2.19
2.05
1.92
Z.80
1.72
Z.68
1.68
1.74
1.86
2.02
2.23
2.45
2.61
2.66
2.58
2.41
2.22
2.07
Z.96
AGE.
Noon.
• d
21.9
22.9
23.9
24.9
25.9
26.9
27.9
28.9
0.4
1.4
2.4
3.4
4-4
5-4
6.4
7.4
8.4
9.4
10.4
11.4
12.4
13.4
14.4
15-4
16.4
17.4
18.4
19.4
20.4
21.4
22.4
126
NOVEMBER, 1912.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
DiflE.
DiflF.
Diff.
Hour.
Right Ascension.
for
zMin.
Declinatioa
for
zMin.
Hour.
Right Ascension.
for
xMin.
Declination.
for
xMin.
FRIDAY I.
SUNDAY 3.
h m s
s
0 * tt
M
h XU 8
8
o t n
w
O
8 13 57-91
2.51x8
N.24 59 20.8
8.735
0
10 7 45.06
2.2327
N.I5 23 45.0
14.635
I
8 i6 28.45
2.5063
24 50 31.9
8.894
I
10 9 58.87
2.2276
15 9 4.4
X4.7»8
2
8 18 58.66
a. 5007
24 41 33.5
9.052
2
10 12 12.37
a. 2225
14 54 18.9
14-799
3
8 21 28.53
2.4950
24 32 25.6
9.209
3
10 14 25.57
a. 2175
14 39 28.5
14.879
4
8 23 58.06
a.4«93
24 23 8.4
9.363
4
10 16 38.47
a.aias
14 24 33.4
14.957
5
8 26 27.25
a.4837
24 13 42.0
9.517
5
10 18 51.07
2.2077
14 933.7
15.033
6
8 28 56.10
a. 4779
24 4 6.4
9.669
6
10 21 3.39
a. 2030
13 54 29.4
15.X09
7
8 31 24.60
2.4721
23 54 21.7
9.8ao
7
1023 15.43
a. 1983
13 39 20.6
15.X83
8
8 33 52.75
2.4662
23 44 28.0
9.968
8
10 25 27.18
2. 1935
13 24 7-5
15. as*
9
8 36 20.54
2.4603
23 34 25.5
10.XX6
9
10 27 38.65
2.1888
13 8 50.1
15.325
lO
8 38 47.98
2.4543
23 24 14. 1
X0.263
10
10 29 49.84
2.1843
12 53 28.5
X5.393
II
8 41 15.06
a. 4484
23 13 54.0
X0.408
II
10 32 0.77
2.1800
12 38 2.9
15.460
12
8 43 41.79
2.4424
23 3 25.2
to. 55 I
12
1034 11.44
2.X757
12 22 33.3
15.526
13
846 8.15
2.4363
22 52 47.9
ZO.692
13
10 36 21.85
a.1713
12 6 59.8
"5.589
14
84834.15
2.4303
22 42 2.2
X0.832
14
10 38 32.00
2.1671
II 51 22.6
15.651
15
8 50 59-79
2.4243
22 31 8.1
X0.97X
15
10 40 41.90
2.1629
II 3541-7
15.712
i6
8 53 25.07
a.4183
22 20 5.7
XI. 106
16
1042 51.55
2.1588
II 19 57.2
15.771
17
8 55 49-98
2.4x22
22 8 55.2
11.243
17
10 45 0.96
a. 1548
II 4 9.2
X5.8a8
i8
8 58 14-53
2.406X
21 57 36.6
".377
18
1047 10.13
2. 1509
10 48 17.8
15.884
19
9 0 38.71
2.4000
21 46 lO.O
XI. 509
19
10 49 19.07
a.1471
10 32 23.1
15.938
20
9 3 2.53
2.3939
21 3435.5
ZI.639
20
10 51 27.78
2.1433
10 16 25.2
15.991
21
9 5 25.98
a. 3878
21 22 53.3
IX. 768
21
10 53 36.27
a. 1397
10 0 24.2
16.042
22
9 749.07
2.38x8
21 II 3-3
11.897
22
105544.54
3.1360
9 44 20. 2
16.092
23
9 10 11.79
SAT
2.3757
:URDi
N.20 59 5.7
\Y 2.
Z2.022
23
10 57 52.59
M(
2.1385
DNDA
N. 9 28 13.2
Y4.
16.x 40
o
9 12 34.15
2.3696
N.20 47 0.7
12. 145
0
II 0 0.44
a.xa9a
N. 9 12 3.4
z6.x86
I
9 14 56.14
2.3635
20 34 48.3
12.267
z
II 2 8.09
a. 1258
8 55 50.9
X6.231
2
9 17 17.77
2.3575
20 22 28.6
12. 389*
2
II 4 15.53
2. 1224
8 39 35.7
16.274
3
9 19 39.04
2.3515
20 10 1.6
12.509
3
11 6 22.78
2.1x92
8 23 18.0
16.3x5
4
9 21 59-95
2.3454
19 57 27.5
12.626
4
II 8 29.84
a.xz62
8 6 57.9
16.355
5
9 24 20.49
2.3394
19 44 46.5
12.742
5
II 10 36.72
2.1x31
7 50 35.4
16.394
6
9 26 40.68
2.3334
19 31 58.5
12.857
6
II 12 43.41
2.XX01
7 34 10.6
16.43X
7
9 29 0.51
2.3274
19 19 3-7
12.969
7
II 1449.93
2.1073
7 17 43.7
16.466
8
9 31 19.98
a. 3216
19 6 2.2
13.080
8
II 16 56.29
2.1046
7 I 14.7
16.500
9
9 33 39-10
2.3158
18 52 54.1
13. 190
9
II 19 2.48
a. loiS
64443.7
X6.532
lO
9 35 57.87
2.3099
18 39 39.4
13.298
10
II 21 8.51
2.099a
6 28 10.8
16.563
II
9 38 16.29
2.3041
18 26 18.3
13.404
II
II 23 14.39
2.0967
6 II 36.1
16.59a
12
9 40 34.36
2.2983
18 12 50.9
13.508
12
II 25 20.12
a. 0943
5 54 59.7
16.620
13
9 42 52.09
2.2926
17 59 17.3
13.6IZ
13
II 27 25.71
2.0930
53821.7
16.647
H
9 45 9-47
2.2863
17 45 37.6
13.7J2
14
11 29 31.16
2.0897
5 21 42.1
16.672
15
9 47 26.51
2.28x2
17 31 51.8
13.8x2
15
II 31 36.47
2.0874
5 5 I.I
16.694
i6
9 49 43.22
2.2757
17 18 0.1
13.910
16
II 3341.65
2.0853
4 48 18.8
16.715
17
9 51 59.59
2.270X
17 4 2.6
14.007
17
II 3546.71
2.0834
431 35.3
16.735
i8
9 54 15-63
2.2646
16 49 59.4
X4.XOX
18
II 3751.66
2.0815
4 14 50.6
16.754
19
9 56 31-34
a. 2591
16 35 50.5
14. 194
19
II 39 56.49
2.0797
358 4.8
16.773
20
9 58 46.72
a. 2537
16 21 36.1
14.286
20
II 42 1.22
a. 0779
3 41 18.0
16.787
21
10 I 1.78
a. 2483
16 7 16.2
14.376
21
II 44 5.84
2.0762
3 24 30.3
16.801
22
10 3 16.52
2.243t
15 5251.0
14.463
22
II 46 10.36
a.0746
3 741.9
t6.8x3
23
10 5 30.95
a. 2378
15 38 20.6
14.550
23
II 48 14.79
a. 073a
2 50 52.8
16.824
24
10 7 45.06
8.2327
N.15 23 45.0
14. 635
24
n 50 19.14
a. 07x8
N. 2 34 3.0
16.834
VI.
NOVEMBER, 1912.
127
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hoar.
Right AseensioiL
for
zMin.
DecUnatioii.
for
zMixi.
Hour.
Right Ascension.
for
xMin.
Declination.
for
X Min.
TU
ESDA
Y 5.
THURSDAY 7.
h m 8
8
e 1 w
m
h m 8
8
Of n
•*
O
II 50 19.14
a. 0718
N. 2 34 3.0
X6.834
0
13 29 43.38
3.0998
S. 10 36 39.9
15.550
I
II 52 23.40
3.0704
2 17 12.7
16.843
I
13 31 49-44
2.X083
10 52 II.O
X5.488
2
II 5427-59
a. 0693
2 0 22.0
16.848
2
13 33 55.65
2 1047
II 7 38.4
15.424
3
II 56 31.71
3.068Z
I 43 31.0
16.853
3
13 36 2.00
2.1073
II 23 1.9
15.35*
4
" 58 35-76
3.0670
I a6 39.7
X6.857
4
1338 8.51
3.XO97
II 38 21.4
X5.398
5
la 039-75
3.0661
I 9 48.2
16.858
5
1340 15.17
3.XX33
n 53 36.9
15.234
6
12 2 43.69
3.0633
0 52 56.7
X6.859
6
13 42 21.99
3.II49
12 848.3
15.154
7
12 447.57
a.0643
0 36 5. 1
X6.858
7
13 44 28.96
3.ZI76
12 23 55.4
15.083
8
12 6 51.41
3.0637
0 19 13.7
X6.855
8
13 46 36,10
3.X204
12 38 58.3
X5.013
9
12 8 55.21
3.0630
N. 0 2 22.5
16.851
9
13 48 43.41
a.X233
12 53 56.8
14.938
10
12 10 58-97
2.0624
S. 0 14 28.4
Z6.846
10
13 50 50.89
3.Z36X
13 8 50.9
X4.863
II
12 13 2.70
2.0630
0 31 19.0
16.839
II
13 52 58.54
2.Z290
13 23 40.4
14.787
12
12 15 6.41
2.06x7
0 48 9. 1
X6.83X
12
13 55 6.37
2.1319
13 38 25.3
14.709
13
12 17 10.10
2.0613
I 458.7
16.821
13
13 57 14.37
3.X349
13 53 5.5
X4.630
H
12 19 13.77
2.061Z
I 21 47.6
X6.809
14
13 59 22.56
2.X380
14 740.9
14.549
15
12 21 17.43
3.0609
I 38 35.8
X6.796
15
14 I 30.93
2.X4XX
14 22 II. 4
14.467
i6
12 23 21.08
2.0609
I 5523.1
X6.78X
16
14 339.49
3.X443
14 36 37.0
14.384
17
12 25 24.74
2.0610
2 12 9.5
16.766
17
14 548.24
3.X474
14 50 57.5
14.299
i8
12 27 28.40
3.06x0
2 28 55.0
16.749
18
14 757.18
3.X507
15 5 12.9
14.2x3
19
12 29 32.06
2.06x2
2 45 39.4
X6.73O
19
14 10 6.32
2.1540
15 19 23.1
74. X26
20
12 31 35.74
2.o6z6
3 2 22.6
16.709
20
14 12 15.66
3.1573
15 33 28.0
X4.038
21
12 33 39.45
3.06x9
3 19 4-5
X6.688
21
14 1425.19
3.X605
15 47 27.6
13.948
22
123543.17
3.0623
3 35 45-1
x6.66s
22
14 16 34.92
3.1638
16 I 21.8
13.857
23
12 37 46-92
WEE
2.0628
)NESE
S. 3 52 24.3
)AY 6.
26.640
23
14 18 44.85
Fl
3.X673
XIDA\
S. 16 15 10.4
' 8.
13.763
0
12 39 50.71
3.0634
S. 4 9 1.9
z6.6z3
0
14 20 54.99
2.X708
S. 16 28 53.4
13.669
I
12 41 54.53
3.0641
4 25 37-9
X6.586
I
1423 5.34
3.X743
16 42 30.7
13.574
2
12 43 58.40
2.0648
4 42 12.2
16-557
2
14 25 15.89
3.X776
16 56 2.3
13.478
3
12 46 2.31
3.0657
4 58 44.7
16.527
3
14 27 26.65
3.X8X2
17 9 28.1
13.380
4
12 48 6.28
3.0666
5 15 15.4
16.495
4
14 29 37.63
3.X848
17 22 47.9
13.380
5
12 50 10.30
2.0676
531 44.1
X6.461
5
14 31 48.82
3.X883
17 36 1.7
X3.180
6
12 52 14.39
2.0687
5 48 10.7
X6.426
6
1434 0.23
3. 19x9
1749 9.5
13.078
7
12 54 18.54
8.0698
6 4 35-2
X6.390
7
14 36 11.85
2.1954
18 2 II. I
12.975
8
12 56 22.76
2.0710
6 20 57.5
16.352
8
14 38 23.68
2.1991
18 15 6.5
12.87X
9
12 58 27.06
3.0723
6 37 17-4
16.312
9
14 40 35.74
3.3087
18 27 55.6
12.765
10
13 031.43
3.0736
6 53 34.9
X6.272
10
14 42 48.01
2.3063
18 40 38.3
X2.658
II
13 2 35.89
3.0751
7 9 50.0
16.330
II
14 45 0.50
2.2I0X
18 53 14.6
12.551
12
13 440.44
3.0766
7 26 2.5
Z6.X86
12
14 47 13.22
3.2138
19 5 44.4
12.441
13
13 6 45.08
2.0781
7 42 12.3
X6.X41
13
14 49 26.15
2.3174
19 18 7.5
X2.330
H
13 8 49.81
2.0798
7 58 19-4
X6.094
14
14 51 39-31
2.23X3
19 30 24.0
13.319
15
13 10 54.65
3.o8z6
8 14 23.6
X6.046
15
14 53 52.69
3.2348
19 42 33.8
12.106
16
13 12 59.60
2.0833
8 30 24.9
15.998
16
14 56 6.28
3.2284
19 54 36.7
11.991
17
13 15 4.65
3.0851
8 46 23.3
15.947
17
14 58 20.10
2.3323
20 6 32.7
X 1.876
18
13 17 9.81
2.0870
9 2 18.5
15.893
18
15 034.14
3.2359
20 18 21.8
XI. 760
19
13 19 15.09
3.0890
9 18 10.5
15.839
19
15 2 48.41
2.3396
20 30 3.9
H.64*
20
13 21 20.49
3.09x1
9 33 59.2
15.784
20
15 5 2.89
2.3433
20 41 38.8
11.523
21
13 23 26.02
2.0933
9 49 44.6
15.728
21
15 7 17.60
2.3470
20 53 6.6
11.403
22
13 25 31.67
3.0953
10 5 26.6
15.670
22
15 932.53
2.3507
21 4 27.1
XX.383
23
13 27 37-46
3.0976
10 21 '5.0
Z5.6XI
23
15 II 47.68
S.2543
21 15 40.4
ZZ.I60
24
13 29 43.38
a.0998
S. 10 36 39.9
15.550
24
15 14 3.04
9.2579
S. 2Z 26 46.3
XI.P37
128
NOVEMBER, 1912.
VII.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
iMff.
Diff.
Diff.
Honr.
Right Ascension.
for
I Min.
Declination.
for
X Min.
Hour.
Ri^ht Ascension.
for
xMin.
I>ecIination.
for
X Min.
SATURDAY 9,
MONDAY ZI.
h m 8
s
0 * m
m
h m 8
8
e » ..
**
O
15 14 3-04
2.2579
S.2Z 26 46.3
11.037
0
17 5 52.29
2.37^
S.27 37 7.2
4.X33
I
15 16 18.63
2.a6x6
21 37 44.8
X0.9Z2
Z
Z7 8 Z4.90
3.377X
27 4Z Z0.4
3.976
2
15 x8 34.43
2.2653
21 48 35.7
10.786
2
17 1037.54
2.3776
2745 4.3
3.820
3
15 20 50.45
2.2668
21 59 Z9.1
X0.659
3
Z7 Z3 0.2Z
3.3779
27 48 48.8
3.663
4
15 23 6.68
2.2723
22 9 54.8
X0.532
4
Z7 Z5 22.89
3.37«i
27 52 23.9
3.506
5
Z5 25 23.12
8.2758
22 20 22.9
Z0.403
5
17 17 45.58
3.3783
27 55 49.5
3.349
6
15 27 39.78
2.2794
22 30 43.2
X0.273
6
Z7 20 8.28
3.3783
2759 5.8
3.X93
7
15 29 56.65
2.2829
22 40 55.7
10. 143
7
Z7 22 30.97
3.3783
28 2 Z2.7
3.036
8
15 32 13-73
a. 2863
22 51 0.3
XO.OZI
8
17 24 53.66
2.3781
28 5 10. z
2.878
9
15 34 31.01
2.2698
23 0 57.0
9.878
9
17 27 16.34
3.3778
38 7 58. z
2.722
zo
15 36 48.50
a. 2932
23 10 45.7
9-745
zo
Z7 29 38.99
3.3773
28 zo 36.8
3.566
zz
15 39 6.19
3.2965
23 20 26.4
9.61X
ZI
17 32 1.62
2.3768
28 Z3 6.0
a. 408
12
Z5 4Z 24.08
a. 8998
23 29 59.0
9.475
Z2
17 34 24.21
3.3762
28 15 25.8
3.253
13
154342.17
2.3031
23 39 23.4
9.338
13
17 36 46.76
3.3755
28 17 36.2
9.096
14
1546 0.45
2.3063
23 48 39.6
9.20Z
14
1739 9.27
2.3747
28 19 37.3
X.940
15
15 48 18.93
a. 3095
23 57 47.5
9.063
15
Z7 4Z 31.73
3.3738
28 21 29.0
1.783
i6
15 50 37-59
3.3x26
24 6 47. z
8.933
z6
1743 54.12
2.3727
28 23 ZZ.3
X.627
17
15 52 56.44
2.3x57
24 15 38.3
8.783
17
17 46 16.45
3.37x6
28 24 44.2
1.47X
i8
15 55 15.48
2.3188
24 24 21. 1
8.643
z8
Z7 48 38.71
3.3703
28 26 7.8
1.3x6
19
15 57 34.70
2.32x8
24 32 55.5
8.502
19
Z7 51 0.89
3.3690
28 27 22. z
x.x6o
20
15 59 54.09
9.3247
24 4Z 21.3
8.358
20
Z7 53 22.99
3.3676
28 28 27.0
Z.005
21
16 2 13.66
2.3276
24 49 38.5
8.215
21
17 55 45.00
3.3660
28 29 22.7
0.851
22
z6 433.40
2.3304
24 57 47. 1
8.072
22
Z7 58 6.91
3.3643
2830 9.Z
0.696
23
z6 6 53.31
SU
2.3333
NDA\
S.25 547.Z
' zo.
7.937
23
18 0 28.72
TU]
3.3626
ESDA^
S.28 30 46.2
Y Z2.
0.543
O
z6 9 Z3.38
3.3358
S.25 13 38.4
7.783
0
z8 2 50.42
2.3608
s.28 3Z Z4.Z
0.388
z
z6 iz 33.61
2.3384
25 2 z 20.9
7.636
Z
X8 5 Z2.0Z
3.3588
28 31 32.8
0.234
2
16 13 53.99
a. 3410
25 28 54.7
7.489
2
18 733.47
3.3567
28 31 42.2
— o.o8x
3
z6 16 Z4.53
3.3435
25 36 19.6
7.34X
3
z8 9 54.8Z
3.3545
28 3Z 42.5
+0.07X
4
z6 z8 35.21
3.3459
25 43 35.6
7.X93
4
18 12 z6.oi
3.353a
28 31 33.7
0.233
5
16 20 56.04
2.3462
25 50 42.8
7.045
5
z8 Z4 37.07
3.3498
28 3Z Z5.7
0.376
6
z6 23 17.00
2.3505
25 57 41-0
6.895
6
z8 z6 57.99
3.3473
28 30 48.6
0.527
7
i6 25 38. zo
2.3527
26 4 30.2
6.746
7
z8 Z9 Z8.75
2.3448
28 30 Z2.5
0.678
8
16 27 59.33
3.3548
26 II 10.5
6.596
8
z8 21 39.36
2.3432
28 29 27.3
0.828
9
16 30 20.68
3.3568
26 Z7 41.7
6.444
9
18 23 59.81
3.3394
28 28 33.2
0.977
lO
z6 32 42. Z5
3.3588
26 24 3.8
6.393
10
18 26 20.09
2.3366
28 27 30.1
X.X27
ZI
1635 3.74
2.3607
26 30 Z6.9
6.142
ZI
18 28 40.20
3.3337
28 26 18. z
X.275
12
16 37 25.43
2.3624
26 36 20.8
5.988
12
18 31 0.13
2.3306
28 24 57.1
X.433
13
16 39 47.23
3.3642
26 42 15.5
5.836
13
18 33 Z9.87
2.3274
28 23 27.3
X.570
14
1642 9.13
2.3658
2648 z.z
5.683
M
18 35 39.42
2.3343
28 21 48.7
X.7X7
15
z6 44 31.12
2.367a
26 53 37.5
5.539
15
z8 37 58.78
2.3210
28 20 Z.2
X.864
i6
164653.19
3.3686
26 59 4.6
5.375
16
z8 40 17.94
2.3x77
28 z8 5.0
3.008
17
16 49 15.35
2.3700
27 4 22.5
S,»2l
17
z8 42 36.90
2.3143
28 z6 0.2
3.153
i8
16 51 37.59
2.37x3
27 9 31. 1
5.067
18
18 44 55.64
3.3106
28 13 46.6
3.298
19
16 53 59.90
2.3723
27 14 30.5
4.9x3
19
1847 14.17
3.3070
28 II 24.4
2.442
20
16 56 22.27
3.3733
27 19 20.5
4.756
20
18 49 32.48
3.3033
28 8 53.6
3.585
2Z
16 58 44.70
3.3743
27 24 1.2
4.600
21
18 51 50.57
2.0996
28 6 Z4.2
3.737
22
17 I 7.19
3.3753
27 28 32.5
4.444
22
1854 8.43
3.2957
28 3 26.3
2.868
23
17 3 29.72
3.3758
27 32 54.5
4.389
23
z8 56 26. 05
2.39x8
28 0 30.0
3.008
24
17 5 52.29
3.3765
S.27 37 7-2
4.133
24
z8 58 43.44
8.0878
S.27 57 25.3
3.X48
VIII.
NOVEMBER, 1912.
129
GREENWICH MEAN TIMS.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
for
iMin.
DecUfifttloa.
for
xMiiL
Hoar.
Right AsoenaloxL
for
xMixL
Declination.
for
X Min.
WED]
NESD<
AY 13.
FRIDAY
15.
b m t
B
0 f H
m
h m a
B
0 f m
If
O
18 58 43.44
a. 2878
S.27 57 25.3
3. 148
0
2043 4.14
3.0514
S.23 I M-4
8.84s
I
19 I 0-59
a.flB38
27 54 12.2
S.988
I
2045 7.07
3.0463
22 52 20.9
8.939
2
19 3 17-49
a.a796
27 50 50.7
5.4*7
2
20 47 9.70
a. 0415
22 43 21.7
9.034
3
19 5 34-14
a.2754
27 47 21.0
3.564
3
20 49 12.03
2.0363
22 34 16.8
9.129
4
19 7 50-54
3.2712
27 43 43-0
S.70X
4
20 51 14.06
2.03x3
22 25 6.2
9.222
5
19 10 6.68
8.9668
27 39 56.9
3.837
5
20 53 15.78
2.0363
22 15 50.1 9.314
6
19 12 22.56
a. 2625
27 36 2.6
3.973
6
20 55 17.21
2.0213
22 6 28.5
9.406
7
19 14 38.18
a.asSz
27 32 0.2
4.107
7
20 57 18.34
2.0x63
21 57 1.4
9.497
8
19 16 53.53
a. 3536
27 27 49.8
4.240
8
20 59 19.17
3.0TX4
21 47 28.8
9.587
9
19 19 8.61
a.249x
27 23 31-4
4.373
9
21 I 19.71
2.0066
21 37 50.9
9.676
lO
19 ai 23.42
a.a445
27 19 5.0
4.505
10
21 3 19.96
3.0017
21 28 7.7
9.764
II
19 23 37-95
2.2398
27 14 30.8
4.636
II
21 5 19.92
1.9969
21 18 19.2
9.852
12
19 25 52.20
3.2352
27 948.7
4.766
12
21 7 19.59
1.9922
21 8 25.5
9.938
13
19 28 6.17
2.2304
27 458.9
4.895
13
21 9 18.98
1.9874
20 58 26.7
XO.023
14
19 30 19.85
2.2256
27 0 1.3
5.O84
14
21 II 18.08
X.9827
20 48 22.7
XO.108
15
19 32 33.24
2.3908
26 54 56.0
5.15a
15
21 13 16.90
1.9781
20 38 13.7
xo.xga
16
19 34 46.35
2.2x60
26 49 43. 1
5.«78
16
5ii 15 15.45
1.9735
20 27 59.7
10.374
17
19 36 59.16
2.axio
26 44 22.7
5.403
17
21 17 13.72
X.9688
20 17 40.8
10.357
18
19 39 11.67
1.9061
26 38 54-7
5.528
18
21 19 11.71
X.9643
20 7 16.9
10.438
19
19 41 23.89
3.20x2
26 33 19.3
5.652
19
21 21 9.43
1.9598
19 56 48.2
10.5x8
20
19 43 35.81
2.xg62
26 27 36.4
5.776
20
21 23 6.89
1.9554
19 46 14.7
XO.598
21
19 45 47.43
2. X9X3
26 21 46.2
5.898
21
21 25 4.08
X.95X0
19 35 36.5
10.677
22
19 47 58.75
2.X86I
26 15 48.7
6.0x9
22
21 27 I.OI
1.9466
19 24 53-5
10.755
23
1950 9.76
2. 1810
S.26 9 43.9
6-139
23
21 28 57.67
1.9423
S.1914 5.9
10.83a
THl
FRSD^
LY 14.
SATi
URDA
Y 16.
0
X9 52 20.47
9.1759
S.26 3 32.0
6.258
0
21 30 54.08
1.9380
S.19 3 13.7
10.908
I
19 54 30.87
2.X708
25 57 12.9
6.377
I
21 32 50.23
1.9338
18 52 17.0
10.983
2
19 56 40.97
3.X657
25 50 46.8
6.494
2
21 34 46.13
X.9297
18 41 15.7
XX.058
3
19 58 50.76
2.X605
25 44 13.6
6.6xx
3
21 36 41.79
X.9256
18 30 lO.O
xx.x3a
4
20 I 0.23
3.X553
25 37 33.5
6.727
4
21 38 37.20
1.9214
18 18 59.8
xx.ao6
5
20 3 9.40
3.1502
25 30 46.4
6.843
5
21 40 32.36
1.9173
18 745.3
1Z.278
6
20 5 18.25
3.1449
25 23 52.5
6.955
6
21 42 27.28
1.9134
17 56 26.5
IX. 349
7
20 7 26.79
2.1398
25 16 51.8
7.067
7
21 44 21.97
1.9095
1745 3.4
ix.4ao
8
20 9 35.02
a.X346
25 944.4
7.X79
8
21 46 16.42
1.9057
17 33 36.1
1X.490
9
20 II 42.94
2.1293
25 230.3
7.291
9
21 48 10.65
x.gotg
17 22 4.6
11.559
10
20 13 50.54
2.X24X
24 55 9.5
7.40X
10
21 50 4.65
X.898X
17 10 29.0
XI. 627
II
20 15 57-83
2.tx88
24 47 42.2
7.509
II
21 51 58.42
1.8944
x6 58 49.3
11.695
12
20 18 4.80
3.1x36
24 40 8.4
7.6x7
12
21 53 51-98
x.a90o
16 47 5.6
X1.762
13
20 20 11.46
2.1084
24 32 28.1
7.7«5
13
21 55 45-32
1.887a
x6 35 17-9
ii.8a8
H
20 22 17.81
2.1032
24 24 41.4
7.832
14
21 57 38.44
1.8837
16 23 26.2
11.893
15
20 24 23.84
a. 0979
24 16 48.3
7.937
15
21 59 31-36
X.88Q3
16 II 30.7
11.958
16
20 26 29.56
3.0928
24 8 49.0
8.041
16
22 I 24.07
X.8708
15 59 31.3
12.022
17
20 28 34.97
2.0876
24 043.4
8.144
17
22 3 16.58
1.8735
15 47 28.0
12.086
18
20 30 40.07
2.0824
23 52 31.7
8.247
18
22 5 8.89
X.8702
15 35 2X.O
I3.X48
19
20 32 44.86
2.0772
23 44 13.8
8.349
19
22 7 1. 00
X.8669
15 23 10.3
12.209
20
20 34 49.33
2.0720
23 35 49.8
8.450
20
22 8 52.92
1.8638
15 10 55.9
13.370
21
20 36 53.50
2.0668
23 27 19.8
8.549
21
22 10 44.66
X.8607
. 14 58 37-9
12.330
22
20 38 57.35
2.06x7
23 18 43.9
8.648
22
22 12 36.21
1.8577
14 46 16.3
ia.389
23
20 41 0.90
2.0566
23 10 2.1
8.746
23
22 14 27.58
1.8547
14 33 5X.2
xa.448
M
2043 4.14
3.0514
S.23 I 14.4
8.843
24
22 16 18.77
x.8sx8
S.14 21 22.5
M.507
I9I2-
130
NOVEMBER, 1912.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
xMin.
Declination.
for
X Min.
Hour.
Right Asceiwion.
for
xMin.
Declination.
for
xMxn.
SUNDAY
17.
TUESDAY 19.
h m s
s
0 t m
M
h m s
s
Of m
m
0
22 16 18.77
X.8518
S.I4 21 22.5
Xa.507
0
23 43 9-03
1*7944
S. 3 27 14.2
14.4^
I
22 18 9.79
X.8489
14 8 50.4
X2.5fi4
I
23 44 56.71
1.7950
3 12 44.3
I4.5XX
2
22 20 0.64
X.8463
13 56 14.8
X2.62X
2
23 46 44-43
1.7958
2 58 12.9
14.535
3
22 21 51.33
1.8435
13 43 35-9
12.677
3
23 48 32.20
1.7966
2 43 40. 1
14.55*
4
22 23 41.86
X.8408
13 30 53-6
X2.73a
4
23 50 20.02
1.7975
229 5.9
I4.58X
5
22 25 32.23
X.8382
13 18 8.0
xa.787
5
23 52 7.90
1.7984
2 14 30.4
x4>6oa
6
22 27 22.44
X.8357
13 5 19-2
X2.840
6
23 53 55-83
1.7994
I 59 53.7
14.629
7
22 29 12.51
I. 8331
12 52 27.2
X2.893
7
23 55 43.83
1.8006
1 45 15-7
14.643
8
22 31 2.43
X.8308
12 39 32.0
12.946
8
23 57 31.90
X.8018
I 30 36.6
X4.66t
9
22 32 52.21
X.8385
12 26 33.7
12.998
9
23 59 20.04
X.8030
I 15 56.4
14.679
10
22 34 41.85
X.8263
12 13 32.3
13.049
10
0 I 8. 26
1.8044
I I 15.1
14.697
II
22 36 31-36
I. 8341
12 0 27.8
13.099
II
0 2 56.57
1.8059
0 46 32.7
14.7x5
12
22 38 20.74
x.82ao
II 47 20.4
13.148
12
0 4 44-97
1.8074
0 31 49.3
X4.73X
13
22 40 10.00
X.8200
II 34 lO.O
13. 197
13
0 6 33.46
X.8090
0 17 5.0
14.746
14
22 41 59.14
x.8x8o
II 20 56.7
13.246
14
0 8 22.05
X.8107
S. 0 2 19.8
14.760
15
22 43 48.16
X.8160
II 740.5
13.394
15
0 10 10.75
1.8x25
N. 0 12 26.2
X4.773
i6
22 45 37-07
x.8x4a
10 54 21.4
13.34a
16
0 II 59-55
1.8x43
0 27 13.0
X4.787
17
22 47 25.87
1.8x25
1040 59.5
13.388
17
0 13 48.47
X.8163
0 42 0.6
X4.799
i8
22 49 14.57
I. 8108
10 27 34.9
13.433
18
0 1537-51
X.8X83
0 56 48.9
14.8x0
19
2251 3.17
1.8092
10 14 7.5
13.478
19
0 17 26.67
X.8204
I 11 37.8
X4.831
20
22 52 51.67
X.8076
10 037.5
X3.5«3
20
0 19 15.96
x.82a6
I 26 27.4
14.831
21
22 54 40.08
X.8062
9 47 4-8
13.567
21
0 21 5.38
X.8248
I 41 17.5
14.839
22
22 56 28.41
X.8048
9 33 29-5
13.609
22
0 22 54.94
X.8272
I 56 8.1
14.847
23
22 58 16.65
1.8033
S. 9 19 51.7
13.651
23
0 24 44.64
X.8296
N. 2 10 59.2
14.854
MO
►NDA\
' 18.
WED
NESD
AY 20,
0
23 0 4.81
1.802X
S. 9 6 II. 4
13.69a
0
0 26 34.49
x.83a2
N. a 25 50.6
X4.860
z
23 I 52.90
X.8009
8 52 28.6
13.733
I
0 28 24.50
X.8348
2 40 42.4
X4.866
2
23 3 40-92
1.7998
8 38 43.4
13.773
2
0 30 14.66
1.8374
2 55 34-5
X4.870
3
23 5 28-88
1.7988
8 24 55.8
13.8x3
3
0 32 4.99
1.8402
3 10 26.8 1 14.873
4
23 7 16.78
1-7978
8 II 5.8
13.853
4
0 33 55-48
1.8430
3 25 19.3 14.876
5
23 9 4.62
X.7969
7 57 13-5
13.^1
5
03546.15
X.8460
3 40 II. 9
14.877
6
23 10 52.41
1.796X
7 43 18.9
X3.928
6
0 37 37-00
X.8490
3 55 4.6
X4.878
7
23 12 40.15
1.7953
7 29 22.1
13.965
7
0 39 28.03
1.852X
4 9 57.3
X4.878
8
23 14 27.85
1.7947
7 15 23.1
14.003
8
0 41 19.25
1.8553
4 24 50.0
14.877
9
23 16 15.51
X.7941
7 I 21.9
14. 038
9
0 43 10.66
1.8585
4 39 42.6
14.875
lO
23 18 3.14
X.7956
6 47 18.6
14.072
10
045 2.27
x.86t9
4 54 35-0
14.872
II
23 19 50.74
1.793a
6 33 13.3
14.X06
II
0 46 54.09
1.8652
5 9 27.2
14. 868
12
23 21 38.32
i.79«8
6 19 5.9
14.140
12
0 48 46. 1 1
X.8688
5 24 19. 1
14.863
13
23 23 25.88
x.79a5
6 4 56.5
14.173
13
0 50 38.35
1.8725
5 39 10.7
14. 857
14
23 25 13-42
1.79*3
5 50 45-2
X4.ao4
14
0 52 30.81
X.8762
5 54 1.9 X4.849
15
23 27 0.95
1.79W
5 36 32.0
14.235
15
0 54 23- 49
1.8799
6 8 52.6 ' X4.84X
16
23 28 48.48
i,79»i
5 22 17.0
14.067
16
0 56 16.40
1.8838
6 23 42.8
14.83a
17
23 30 36.00
1,7911
5 8 0.0
14.297
X7
058 9-55
X.8878
6 38 32.5 M.82a
18
23 32 23.53
J.79«
4 53 41-3
X4.326
18
I 0 2.93
X.8918
6 53 21.5 X4.81X
19
23 34 "-07
x.79a4
4 39 20.9
14.355
19
1 I 56.56
1.8959
7 8 9.8 ■ 14:799
20
23 35 58.62
1.7927
4 24 58.7
14.38a
20
I 3 50.44
X.9002
7 22 57.4
14.787
21
23 3746.18
x.79a9
4 10 35.0
X4.409
21
I 544-58
1.9045
7 37 44-2
14.772
22
23 39 33-77
X.7933
3 56 9.6
14.436
22
I 738.98
X.9088
7 52 30.0
14.756
33
23 41 21.38
X.7938
3 41 42.7
14.46a
23
I 933.64
1.9x32
8 7 14.9
14.739
a4
2343 9.03
x*7944
S. 3 27 14.2
14.487
24
I II 28.57
1.9x77
N. 8 21 58.7
I4.7tl
X.
NOVEMBER, 1912.
131
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hoar.
Right Ascension.
for
X Min.
Declination.
for
iMin.
Hour.
Right AscensioiL
for
iMin.
DecUnatlQii.
for
1 Min.
THt
rRSD/
LY 21.
SATURDAY 23.
h m 8
8
9 » M
n
h m s
s
Q 1 M
n
O
I II 28.57
1.9177
N. 8 21 58.7
14.721
0
2 50 16.99
a. 2267
N.I9 23 26.0
12.373
I
I 13 23.77
1.9224
8 36 41.4
14.703
I
2 52 30.83
2.3346
19 35 39.6
13. 18a
2
I 15 19.26
1.927a
8 51 23.0
14.683
2
25445.14
3.2426
19 47 47.8
12.090
3
I 17 15-03
1.9319
9 6 3.3
14.663
3
2 56 59.94
2.2507
19 59 50.4
11.997
4
z 19 11.09
X.9368
9 20 42.4
X4.639
4
2 59 15.22
2.2587
20 II 47.4
11.903
5
I 21 7.45
I.94«8
9 35 20.0
14.615
5
3 I 30.98
3.3668
20 23 38.6
11.803
6
I 23 4. II
1.9468
9 49 56.2
14.591
6
3 3 47.23
3.3749
20 35 23.8
11.704
7
I 25 1.07
I.95I9
lo 4 30.9
14.565
7
3 6 3.97
3.3831
2047 3.1
11.604
8
I a6 58.34
X.9572
10 19 4.0
14.537
8
3 8 21.20
2.2913
20 58 36.3
11.503
9
I 28 55.93
1.9625
10 33 35.4
14.508
9
3 10 38.92
2.2994
21 10 3.3
11.397
lO
I 30 53.84
1.9678
10 48 5.0
14.478
10
3 12 57.13
2.3076
21 21 23.9
IX. 290
II
I 32 52.07
1.9733
II 2 32.8
14.448
II
3 15 15.83
2.3x58
21 32 38.1
IX. 183
12
I 34 50.64
1.9789
II 16 58.8
14.416
12
3 17 35.03
2.3241
21 43 45.7
11.071
13
I 36 49. 54
1.9844
II 31 22.7
14.38a
13
3 19 54.72
2.3323
21 54 46.6
10.959
14
I 38 48.77
1.9901
II 45 44.6
14.347
14
3 22 14.91
2.3406
22 5 40.8
10.845
15
1 40 48.35
1.9959
12 0 4.4
14.3"
15
3 24 35.59
2.3488
22 16 28.0
10.729
16
I 42 48.28
3.0018
12 14 21.9
14.273
16
3 26 56.77
2.3571
22 27 8.3
10.613
17
I 44 48.57
2.0078
12 28 37.2
X4.234
17
3 29 18.44
2.3653
22 37 41.4
10.493
18
I 46 49.21
2.0138
12 42 50.0
14. 193
18
3 31 40.60
a. 3735
22 48 7.3
10.371
19
I 48 50.22
2.0198
12 57 0.4
14.152
19
3 34 3.26
2.3817
22 58 25.9
10.347
20
I 50 51.59
2.0260
13 II 8.3
14.109
20
3 36 26.41
a. 3899
23 8 37.0
10. 123
21
I 52 53.34
3.0323
13 25 13.5
14.064
21
3 38 50.05
2.3981
23 18 40.5
9.995
22
I 54 55.47
2.0387
13 39 16.0
14. 018
22
3 41 14.18
2.4063
23 28 36.4
9.866
23
I 56 57.98
FF
2.0450
tlDAY
N.13 53 15.7
' 22.
13.971
23
3 43 38.80
SU
2.4144
NDAY
N.23 38 24.4
' 24.
9.734
0
I 59 0.87
2.0515
N.14 7 12.5
13.922
0
3 46 3.91
2.4226
N.23 48 4.5
9.603
I
2 I 4.16
3.0581
14 21 6.3
13.872
I
3 48 29.51
a.4307
23 57 36.6
9.468
2
2 3 7.84
2.0647
1434 57.1
13*830
2
3 50 55.59
2.4387
24 7 0.6
9.331
3
2 5 11.92
2.0713
14 48 44.7
13.766
3
3 53 22.16
2.4467
24 16 16.3
9.19a
4
2 7 16.40
2.0781
15 2 29.0
13.711
4
3 55 49.20
2.4547
24 25 23.6
9.05a
5
2 9 21.29
2.0850
15 16 lO.O
13.655
5
3 58 16.72
3.4627
24 34 22.5
8.9x0
6
2 II 26.60
2.0919
15 29 47.6
13.597
6
4 044.72
2.4706
24 43 12.8
8.766
7
2 13 32.3a
2.0989
15 43 21.6
13.537
7
4 3 13.19
2.4783
24 51 54.4
8.630
8
2 15 38.47
2.X060
15 56 52.0
13.476
8
4 542.12
2.4861
25 0 27.2
8.473
9
2 17 45.04
2.x 130
16 10 18.7
13.413
9
4 8 11.52
2.4938
25 8 51. 1
8.323
10
2 19 52.03
3.1303
16 23 41.6
13.348
10
4 10 41.38
2.5014
25 17 6.0
8.17a
n
2 21 59.46
2.1275
1637 0.5
13.283
II
4 13 11.69
2.5089
25 25 11.7
8.018
12
2 24 7.33
2.1348
16 50 15.5
13.3x6
12
4 15 42.45
2.5164
25 33 8.2
7.B64
13
2 26 15.63
3.1421
17 3 26.4
13.146
13
4 18 13.66
2.5239
25 40 55.4
7.707
i^
2 28 24.38
2.1496
17 16 33.0
13.075
14
4 20 45.32
2.5312
254833.1
7.549
^5
23033.58
2.1570
17 29 35-4
13.003
15
4 23 17.41
2.5384
25 56 1.3
7.390
16
2 32 43.22
2.1645
17 42 33.3
13.928
16
4 25 49.93
a. 5455
26 3 19.9
7.228
17
2 34 53.32
3.1723
17 55 26.7
13.853
17
4 28 22.87
2.55a6
26 10 28.7
7.064
18
2 37 3.88
3.1798
18 8 15.5
12.775
18
4 30 56.24
2.5596
26 17 27.6
6.899
19
2 39 14.90
2. 1875
18 20 59.7
12.696
19
4 33 30.02
2.5664
26 24 16.6
6.733
20
2 41 26.38
2.1952
18 33 39.0
12.614
20
4 36 4.21
2.573a
26 30 55.6
6.566
21
2 43 38.33
2.2030
x8 46 13.4
12.532
21
4 38 38.80
3.5798
26 37 24. 5
6.396
22
2 45 50.74
3.aio8
18 58 42.8
12.447
22
4 41 13.78
2.5863
26 43 43. 1
6.234
23
2 48 3.63
3.2187
19 II 7.0
12.360
23
44349.15
a. 5927
26 49 51.4
6.052
24
1 2 50 16.99
3.3367
N.19 23 26.0
12.372
24
4 46 24.90
3.5990
N.26 55 49.3
5.878
132
NOVEMBER, 1912.
XI.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Die
Diff.
1
1
DifF.
Difir
ffi^lit A^«»^m«f5^
for
xllin.
for
xllin.
Hour.
Right Ascansion.;
for
I Min.
Declinotion.
for
iMin.
MONDAY 25.
WEDNESDAY 27.
b m B
8
or 1*
m
b m 2
2
or •>
m
o
4 46 24.90
s*S99o
N.26 55 49.3
5.878
0
6 55 16.29
2.6978
N.27 57 25.0
3-500
X
4 49 I-03
a.6osz
27 I 36.7
5.701
I
6 57 58.08
2.6952
27 53 49. 1
3.69*
2
4 51 37-51
S.6IIO
27 7 13-4
5.5*3
2
7 039.71
2.6923
27 50 1.3
3-895
3
4 54 14-35
2.6169
27 12 39-5
5- 343
3
7 3 21.16
2.6893
27 46 1.7
4-091
4
4 56 51-54
S.6827
27 17 54.8
5.165
4
7 6 2.42
2.6861
27 41 50-4
4.986
5
4 59 «9-07
2.6003
27 22 59.3
4.9B4
5
7 843.49
2.6608
27 37 a7.4
4.48X
6
5 « 6.93
a.^38
27 27 52.9
4.80Z
6
7 XI 24.36
2.6793
27 32 52.7
4.674
7
5 4 45-12
9.6990
27 32 35-4
4.6x7
7
7 14 5.01
2.6756
27 28 6.4
4.867
8
5 723-61
2.6441
2737 6.9
4.43a
8
7 16 45-43
2.^x8
27 23 8.6
5.059
9
5 xo 2.41
2.6493
27 41 27.2
4.«4S
9
7 19 25.62
2.6678
27 17 59.3
5.050
to
5 12 41.51
2.6541
27 45 36.3
4.057
10
7 22 5.56
2.6636
27 X 2 38.6
5.440
II
5 15 20.89
2.6586
27 49 34-1
3.869
II
7 24 45.25
2.6593
27 7 6.5
5.609
12
5 18 0.54
2.6631
27 53 20.6
3.679
12
7 27 24.68
0.6548
27 I 23.x
5.8X7
13
5 20 40.46
2.6675
27 56 55.6
3.488
13
730 383
2.6302
26 55 28.5
6. 003
14
5 23 20.63
2.^X6
28 0 19.2
3.097
14
7 32 42.70
2.6455
26 49 22.7
6.189
15
5 26 1.05
2.6755
28 3 31.2
3.X03
15
7 35 21.29
2.6407
2643 5.8
6.373
i6
5 28 41.70
a. 6793
28 6 31.6
2.909
16
7 37 59-58
a.6356
26 36 38.0
6.555
17
5 31 22.57
28 9 20.3
2.715
17
7 40 37.56
a.6304
26 29 59.2
6.737
i8
5 34 3.65
2.6B64
28 XI 57.4
2.590
18
7 43 15.23
2.6252
26 23 9.6
6.9x7
19
5 36 44-94
2.6B97
29 14 22.7
2.303
19
74552.58
2.619B
26 16 9.2
7.097
20
5 39 26.41
2.6927
28 16 36.2
2.106
20
7 48 29.60
2.6143
26 8 58.0
7-074
21
5 42 8.06
a. 6955
28 18 37.8
1.928
21
7 51 6.29
2. 6066
26 I 36.3
7.4»8
22
5 44 49-87
2.69B2
28 20 27.6
X.73X
22
7 53 42.63
2.6008
2554 4.1
7-603
^3
5 47 31-84
TU
2.7007
ESDA
N.28 22 5.5
Y 26.
1.532
23
7 56 18.63
THl
2.307X
JRSDi
N.25 46 21.4
\Y 28.
7.798
O
5 50 13-95
2.7029
N.28 23 31.4
x.33a
0
7 58 54.28
2.S9IX
N.25 38 28.3
7.970
i
5 52 56.19
2.7050
28 24 45.3
1.132
X
8 I 29.56
2.5850
25 30 25.0
8.X39
2
5 55 38.55
2.706B
28 25 47.2
0.931
2
8 4 4.48
2.5789
25 22 1 1.6
8.306
3
5 58 21.01
2.7065
28 26 37.0
0.730
3
8 6 39.03
0.5707
25 13 48. 1
8.475
4
6 I 3.57
2.7ZOZ
28 27 14.8
0.529
4
8 9 13.20
0.56^3
25 5 14.6
8.641
5
6 3 46.22
2.7114
28 27 40.5
0.327
5
8 II 46.99
0.5600
24 56 31.2
8.805
6
6 6 28.94
a. 7125
28 27 54.0
+ O.X25
6
8 14 20.40
2.5536
24 47 38.0
8.967
7
6 9 11.72
2.7x33
28 27 55-5
-0.077
7
8 16 53.42
0.5470
243835.1
9.X08
8
6 II 54-54
2.7x40
28 27 44.8
0.280
8
8 19 26.04
2.5404
24 29 22.6
9.087
9
6 14 37.40
2.7146
28 27 21.9
0.482
9
8 21 58.27
0.5338
24 20 0.6
9.444
lO
6 17 20.29
2.7148
28 26 46.9
0.684
10
8 24 30. 10
0.5071
24 10 29.3
9.600
II
6 20 3.18
2.7x49
28 25 59.8
0.887
II
8 27 1.52
0.5003
24 0 48.7
9*754
12
6 22 46.08
2.7x48
28 25 0.5
1.090
12
8 29 32.54
0.5x35
23 50 58.8
9.907
13
6 25 28.96
a.7X44
28 23 49.0
1.292
13
832 3.14
0.5066
23 40 59-9
10.057
14
6 28 II. 81
2.7x38
28 22 25.4
X.494
14
8 34 33.33
a. 4997
23 30 52.0
to. 006
15
6 30 54.62
2.7131
28 20 49.7
1.697
15
837 3.10
a.4«7
23 20 35.2
X0.SS3
i6
6 33 37.38
2.7x22
28 19 X.8
1.899
16
8 39 32.45
0.4857
23 10 9.7
XO.498
17
6 36 20.08
2.7111
28 17 1.8
2.100
17
8 42 1.38
a.4787
22 59 35.5
X0.641
i8
6 39 2.71
2.7098
28 14 49.8
2.301
18
8 44 29.89
a.47X7
22 48 52.8
XO.783
19
6 41 45.25
«.7o83
28 12 25.7
2.502
19
8 46 57.98
0.4646
22 38 1.6
10.993
20
6 44 27.70
2*7<o66
28 9 49-5
2.703
20
8 49 25.64
a.4574
22 27 2.0
XI. 062
21
6 47 10.04
2.7046
28 7 1.3
2.903
21
8 51 52.87
0.45<>3
22 15 54.2
11.X98
22
6 49 52.25
2.7015
28 4 1.2
3.X02
22
8 54 19.68
•-4433
22 438.3
XX.330
23
6 52 34-34
2.7003
28 0 49. 1
3.30a
23
8 56 46.06
0.4360
21 53 14.4
XI.464
34
6 55 16.29
2.6978
N.27 57 25.0
3.500
24
8 59 12.02
0.4090
N.2I 41 42.6
XX.59S
xn.
NOVEMBER, 1912.
133
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hoar.
Right Ascension.
for
xllin.
Declination.
for
iMin.
Hoar.
Right Ascension.
for
xMin.
Declination.
for
xMin.
FRIDAY 29.
SUNDAY, DECEMBER i.
h m s
s 1 • ' "
ft
h m s
s
p » *t
H
0
8 59 12.02
3.4990 N.2I 41 42.6
XX. 595
0
zo 48 8.23
2.13x7
N.IO 28 54.4
I5.7«7
I
9 I 37-54
9 4 2.64
3.42x8
a.4147
21 30 3.0
21 18 15.8
".723
IZ.850
2
3
9 6 27-31
2.4076
21 6 21.0
XI.976
4
9 851.55
2.4004
20 54 18.7
X2.I0O
5
9 II 15.36
a. 3933
20 42 9.0
X2.222
6
9 13 38.75
2.3863
20 29 52.1
I2.34X
7
9 16 1. 71
a. 379a
20 17 28.1
X2.458
8
9 18 24.25
2.37ax
20 4 57.1
13.575
9
9 20 46.36
2.3651
19 52 19. 1
12.690
10
9 23 8.06
a. 3581
19 39 34-3
X2.803
II
9 25 29.33
a.3510
19 26 42.8
X2.9X3
12
9 27 50.18
«.544X
19 13 44.8
X3.03X
13
9 30 10.62
«.337a
19 0 40.3
X3.X28
H
9 32 30.64
2.3303
18 47 29.5
X3.233
15
9 34 50.25
a. 3234
18 34 12.4
13.337
16
9 37 9-45
2.3x66
18 20 49. 1
13.438
PHASES OF THE MOON.
17
9 39 28.24
a. 3098
18 7 19.8
X3.538
18
9 41 46.63
9 44 4.62
2.3032
2.2965
17 53 44-6
1740 3-5
X3.636
X3.73a
19
20
9 46 22.21
a. 2899
17 26 16.8
13.826
d h xn
Last Quarter . . Nov. i 15 37.6
21
22
9 48 39.41
9 50 56.21
2.1833
2.2768
17 12 24.4
16 58 26.6
13.918
14. 008
(C
23
9 53 12.62
2.2703
N.i6 44 23.4
14.098
•
New Moon 8 14 4.8
SAT
URDAY 30.
3)
First Quarter . . . . 16 10 43.3
0
9 55 28.65
2.2639
N.16 30 T4.8
X4.X86
0
Full Moon 24 4 12.2
I
9 57 44-29
2.2576
16 16 i.i
X4.370
(C
Last Quarter . . . . 30 23 4.8
2
9 59 59-56
10 2 14.45
2.2513
a.«45i
z6 I 42.4
1547 18.7
X4.3S3
X4.436
3
4
10 4 28.97
2.2390
1532 50-1
14.5x6
. 1.
5
10 643.13
3.2339
15 18 16.8
X4.594
d n
6
10 8 56.92
2.2269
15 338.8
X4.671
(C
Perigee Nov. 2 22.9
7
8
10 II 10.36
10 13 23.44
a.92XO
14 48 56.3
1434 9-3
X4.746
X4.819
AooGree . . • .is 22. S
J*. m4A1#
2.2I5X
Perigee 27 22.7
9
10 15 36.17
10 17 48.55
2.2093
14 19 18.0
X4.89X
10
2.3035
14 4 22.4
X4.96r
II
10 20 0.59
a.X979
13 49 22.7
X5.039
12
10 22 12.30
2.1923
13 34 18.9
X5.096
13
10 24 23.67
2.X868
13 19 II. 2
X5.160
14
10 26 34.72
2. 18x4
13 3 59.7
X5.a33
15
10 28 45.44
2.176X
12 48 44.4
15.383
16
10 30 55.85
2.1708
12 33 «5-5
I5>345
17
1033 5.94
2.X656
12 18 3.0
X5.403
18
10 35 15.72
3.X605
12 2 37.1
15.460
19
10 37 25.20
a.x555
II 47 7-8
15.5x5
20
10 39 34-38
3.1506
II 31 35.3
X5.568
21
10 41 43.27
3.1458
II 15 59.6
15.62X
22
10 43 51.87
3. 14x0
II 0 20.8
X5.673
23
10 46 0. 19
a. 1363
10 44 39.0
x5.7ao
24
10 48 8.23
a.x3i7
N.io 28 54.4
X3.767
134
DECEMBER. 1912.
AT GREENWICH APPARENT NOON.
Day of
the Week.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
og
I
2
3
4
5
6
7
8
lO
II
12
13
15
i6
17
i8
20
21
22
23
24
25
26
27
28
29
30
31
32
THE SUN'S
Apparent Right
Aacension.
m
6 28 56.08
6 33 15-52
6 37 35.60
6 41 56.29
64617.59
6 50 39.46
655 1.87
6 59 24.79
7 348.18
7 8 12.01
712 36.25
7 17 0.87
7 21 25.82
72551.08
7 30 16.63
7 34 42.41
7 39 8.40
7 43 34-56
748 0.85
7 52 27.26
7 56 53-74
8 I 20.26
8 546.78
8 10 13.29
8 14 39-77
8 19 6.16
8 23 32.44
8 27 58.59
8 32 24.58
8 36 50.38
8 41 15.94
18 45 41.24
DiCfor
I Hour.
8
0.795
0.823
0.850
0.875
0.899
0-923
0.945
0.965
0.984
001
018
047
059
070
079
087
093
098
102
104
105
105
103
lOZ
097
092
086
079
070
060
11.050
•Apparent Dedi-
netion.
Diff. tor
z Hoor.
S. 21 48 II.5
21 57 21.5
22 6 6.2
-23.44
22.40
21.34
22 14 25.3 ■ —20.27
22 22 18.6 ' 19.18
22 29 45.7 ' 18.08
6.97
5.86
4-74
3-61
2.47
1.33
22 36 46.5
22 43 20.7
22 49 28.0
2255 8.2
23 021.2
23 5 6.8
23 924.8
23 13 15.1
23 16 37.6
23 19 32.2
23 21 58.8
23 23 57-2
23 25 27.5
23 26 29.6
2327 3-4
2327 8.9
23 26 46.2
23 25 55.2
23 24 36.0
23 22 48.6
23 20 33.0
231749.3
23 14 37.5
23 10 57.7
23 6 50.0
S.23 2 14.8
-10.18
9.02
7.85
- 6.69
5-52
4-35
- 3-18
2.00
- 0.82
+ 0.36
1.54
2.71
+ 3-38
5.06
6.23
-«- 7.40
8.57
9.74
10.90
-HZ2.06
eter.
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
5.39
5.53
5.67
5.81
5.94
6.07
6.20
6.32
6.44
6.56
6.67
6.78
6.89
6.99
7.09
7.18
7.27
7.36
7-44
7.51
7.58
7.64
7.69
7.74
7.78
7.81
7.83
7.85
7.87
7.89
7.89
6 17.89
Sideraal Sanation
Time of
Semidi-
amecer
Me-
ridian.
70-25
70.33
70.41
70.49
70.57
70.64
70.71
70.78
70.85
70.91
70.96
71.01
•05
.09
•13
.16
.19
.22
.24
.25
.26
.27
.27
.26
-25
.24
.22
.20
-17
•14
.10
.06
of
Time. 10 be
SabtracCed
firom
Added to
Apparent
Time.
m
10 55-93
1033.12
10 9.66
9 45-58
9 20.91
8 55-67
8 29.89
8 3.61
7 36.85
7 9.65
6 42.05
6 14.06
5 45-74
517.11
448.21
419.07
3 49-72
3 20.20
250-54
2 20.78
150.95
I 21.07
051.18
021.31
o 8.52
o 38.27
I 7.91
1 37.43
2 6.78
2 35.93
3 4.86
3 33-52
Diff.
Cor
iHonr.
s
0.936
0.964
0.990
.015
•039
.063
.085
.105
.124
.141
•157
-173
.186
.198
.209
.218
.226
•232
-237
.241
•244
.245
.245
.243
.241
.237
.232
.226
.218
.210
• 199
1. 1 87
NoTB. — The mean time of semldiameter passing may be found by subtracting 0.19 from the sidereal time.
The sign - prefixed (o the hourly change of declination Indicates that south declinations are incr«asing,-
tbe sign -t- indicates that south declinations are decreasing.
n.
DECEMBER, 1912.
135
AT GREENWICH MEAN NOON.
D«y of
the Week.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Q
I
2
3
4
5
6
7
8
lO
II
12
13
14
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
31
32
THE SUN'S
Apparent Right
Ascension.
h m 8
6 28 58.05
6 33 17.42
6 37 37-43
6 41 58.06
6 46 19.29
6 50 41.08
^ss 3-42
6 59 26.26
7 3 49-57
7 8 13.32
7 12 37.48
7 17 2.01
7 21 26.88
7 25 52.06
7 30 17-52
7 34 43-21
7 39 9-"
7 43 35-18
748 1.39
7 52 27.70
7 56 54-09
8 I 20.51
8 546.94
8 10 13.36
8 14 39-74
8 19 6.04
8 23 32.23
8 27 58.29
8 32 24.19
8 36 49.90
841 15-37
18 45 40.58
Diff. for
z Hour.
s
10.793
10.820
10.847
10.872
10.896
10.919
10.941
10.96Z
10.980
10.997
11.014
IZ.029
H.043
11.055
11.066
11.075
11.083
11.089
11.094
z 1.098
ZI.IOO
IZ.ZOZ
ZZ.IOZ
IZ.099
z 1.097
ZZ.094
ZZ.089
ZZ.082
z 1.075
ZI.067
z 1.057
Apparent Declina-
tion.
S. 21 48 15.7
21 57 25.4
22 6 9.8
22 14 28.6
22 22 21.6
22 29 48.4
22 36 48.9
22 43 22.7
22 49 29.8
2255 9.8
23 O 22.6
23 5 8.0
23 9 25.8
23 13 15-9
23 16 38.2
23 19 32.7
23 21 59.2
23 23 57-5
23 25 27.7
23 26 29.6
2327 3-4
2327 8.9
23 26 46.2
23 25 55-2
23 24 36.0
23 22 48.7
23 20 33.2
23 17 49-5
23 14 37.8
23 10 58.2
23 650.7
Diff. for
X Hour.
ZZ.046 S. 23 2 15.5
-23.42
22.38
2Z.32
—20.25
19.16
z8.o6
—16.96
15.85
14-73
-Z3.60
Z2.46
ZZ.32
— Z0.Z7
9.0Z
7.84
- 6.68
5-51
4-34
- 3-17
Z.99
- 0.82
+ 0.36
Z.54
2.7Z
+ 3.88
5.06
6.23
+ 7.40
8.57
9-73
ZO.89
Equation of
Time, to be
Added to
Subtracted
from
Mean Time.
m
10 55.76
10 32.95
10 9.49
9 45-42
9 20.75
8 55-51
8 29.74
8 3.46
7 36.71
7 9-52
6 41.92
6 13.94
5 45*63
5 17.01
448.11
4 18.98
3 49-64
320.13
2 50.48
2 20.73
150.91
I 21.04
051.16
o 21.30
o 8.52
o 38.26
I 7.89
1 37.40
2 6.74
2 35.88
3 4.80
+"*o5 3 33-45
Diff. for
z Hour.
8
0.936
0.964
0.990
.015
.039
.063
.085
.ZO5
.Z24
.Z4Z
.157
.173
.z86
.Z98
.209
.2Z8
.226
.232
.237
.241
.244
.245
.245
•243
.24Z
.237
.232
.226
.218
.2x0
.199
Z.Z87
Sidereal Time,
or Right Ascen>
sion of Mean
Sun.
h m s
6 39 53.81
6 43 50.36
6 47 46.92
65143.48
6 55 40.04
6 59 36.60
7 333.16
7 729.72
711 26.28
7 15 22.83
7 19 19.39
7 23 15.95
7 27 12.51
731 9.07
7 35 5.63
7 39 2.19
7 42 58.75
74655-31
7 5051.86
7 54 48.42
7 58 44-98
8 2 41.54
8 638.10
8 10 34.66
8 14 31.22
8 18 27.78
8 22 24.34
8 26 20.90
8 30 17.46
8 34 14.02
8 38 10.58
1842 7.14
Non.— The semidiameter for mean noon may be assumed the same as that for apparent noon.
The sign '— prefixed to the hourly change of declination indicates that south declina-
tions ar<B increasing ; the sign 4- indicates that sonth declinations are decreasing.
DUSL for X Hour,
(Table III.)
136
DECEMBER, 1912.
ni.
AT GREENWICH MEAN NOON.
I
2
3
4
5
6
7
8
lO
ZI
12
13
15
i6
17
i8
20
21
22
23
24
25
26
27
5>
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
THE SUNS
True Longitade.
28
363
29
364
30
365
31
366
32
367
248 57 24.4
249 58 16.2
25059 9.5
251 60 4.1
253 I 0.0
254 I 57.1
255 255.3
256 3 54-6
257 4 54-8
258 5 55-8
259 657.6
260 8 0.0
261 9 3.0
262 10 6.6
263 II 10.7
264 12 15.2
265 13 20.0
266 14 25.2
267 15 30.6
268 16 36.3
269 17 42.3
270 18 48.6
271 19 55.2
272 21 2.1
27322 9.3
274 23 17.0
2752425.1
276 25 33.6
277 26 42.6
2782752.1
279 29 2.0
280 30 12.2
A'
56 42.0
57 33.6
58 26.7
59 21. 1
016.8
1 13.7
2 1 1.7
3 10.8
4 10.8
5 H.6
613.2
715-5
818.3
921.7
10 25.6
11 29.9
12 34.5
13 39.4
1444.7
15 502
16 56.0
18 2.1
19 8.5
20 15.2
21 22.2
22 29.6
23 37.5
24 45-9
25 54-7
27 4.0
28 13.7
29 23.7
Diff. for
I Hour.
152.13
152.19
152.25
152.30
152.35
152.40
152.45
152.49
152.52
152.56
152.59
152.62
152.64
152.66
152.68
152.69
152.71
152.72
152.73
152.74
152.76
152.77
152.78
Z52.80
152.81
152.83
152.85
152.87
152.89
152.90
152.92
152.93
Latitude.
+0.37
0.25
+0.1 1
—0.02
0.15
0.27
—0.36
0.44
0.49
—0.51
0.50
0.47
—0.41
0.33
0.23
—0.13
—0.01
+0.12
+0.24
0.35
0-45
+0.52
0.57
0.59
+0.57
0.52
0.44
+0-35
0.23
+0.09
—0.05
—0.18
Loearithm of the
Radius Vector of
the Earth.
9.993 7719
9-993 7076
9-993 6451
9.993 5842
9-993 5248
9.993 4669
9.993 4105
9.993 3556
9-993 3021
9.993 2500
9.993 1995
9.993 1506
9.993 1034
9*993 0580
9-993 0145
9.992 9730
9.992 9337
9.992 8966
9.992 8619
9.992 8296
9.992 8000
9-992 7731
9-992 7490
9.992 7278
9.992 7096
9.992 6943
9.992 6818
9.992 6720
9.992 6648
9.992 6601
9.992 6577
9.992 6576
Diff. for
X Hour.
—27.2
26.4
25.7
-25.0
24.4
23.8
-23.2
22.6
22.0
-21.4
20.7
20.0
-19.3
18.5
17.7
-16.8
15.9
15.0
—14.0
12.9
XI.8
— ia6
9-4
8.2
- 7.0
5.8
4.6
- 3.5
2.5
X.5
-0.5
+ 0.4
Mean Time of
Sidereal Noon.
m
7 1854.10
71458.18
711 2.27
7 7 6.36
7 3 10.44
65914.53
6 55 18.62
651 22.70
6 47 26.79
6 43 30.88
6 39 34-97
6 35 39.05
63143,14
6 27 47.23
62351.31
6 19 55.40
6 15 59.49
6 12 3.57
6 8 7.66
6 4 "-75
6 015.83
5 56 19.92
5 52 24.01
548 28.10
54432.18
5 40 36.27
5 36 40.36
s 32 44.44
5 28 48.53
5 24 52.62
5 20 56.70
5x7 0.79
NoTK.— The longitudes in the column A are referred to the true equinox of their own date, while
those in the column A' are referred to the mean equinox of the beginning of the Bea-
telian fictitious year.
Diff. for 1 Hour,
—9^.8396.
(Table II.)
IV.
DECEMBER. 1912.
137
GREENWICH MEAN TIME.
•
•3
a
o
o
THE MOON'S
SEMIDIAMETER.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGE.
O
Noon.
Midnight.
Noon.
Diff. for
z Hour.
Midnight.
Diff. for
I Honr.
Meridian of
Greenwich.
Diff. for
I Hour.
Noon.
I
2
3
16 7.5
16 2.0
15 55-8
f n
16 4.8
15 59-0
15 52.5
t If
59 4-8
58 44-7
58 22.0
n
-0.77
0.90
0.99
t M
58 55-1
58 33-6
58 9-9
It
-0.84
0.95
1-03
h m
18 44.4
1 9 30.8
20 16.8
m
1.96
1.92
1.93
d
22.4
234
24.4
4
5
6
15 49-1
15 41-8
15 34-1
15 45.5
15 38.0
15 30-1
57 57-3
57 30-6
57 2.4
—1.07
I.I5
I.2Z
57 44-2
57 16.7
56 47-7
—I. 1 1
I.I8
X.24
21 3.8
21 52.8
22 44.2
2.00
2.09
2. 19
25.4
26.4
27.4
7
8
9
15 26.0
15 17.8
15 9-7
IS 21.9
15 13.7
15 5.8
56 32.7
56 2.5
55 32.7
-X.25
1.26
Z.2Z
56 17-6
55 47-4
55 18,5
—1.26
1.24
I.I6
23 37-9
6
0 32.8
2.27
• •
2.29
28.4
29.4
0.8
lO
II
12
15 2.1
14 55-6
14 50-5
14 58.7
14 52.8
14 48.7
55 5-0
54 40-9
54 22.3
—1.09
0.90
0.64
54 52-4
54 30-8
54 15-6
—I. 01
0.78
0.48
1 27.3
2 19.7
3 8.9
2.24
2.12
1.98
1.8
2.8
3.8
13
15
14 47.4
14 46.6
14 48.5
14 46.7
14 47.2
14 50.5
54 10.9
54 8.1
54 15-0
-0.30
+0.08
0.50
54 8.3
54 IO-3
54 22.3
—0.12
+0.29
0.72
3 54-8
4 37.8
5 18.S
1.85
1.74
1.67
4.8
5.8
6.8
i6
I?
i8
H 53-2
15 0-7
IS IO-9
14 56.6
15 5-5
IS 16.8
54 32.2
54 59.8
55 37.1
+0.94
1.36
1-74
54 44-7
55 17-3
55 58.9
+ I.I5
1.56
1.90
5 58.2
6 38.0
7 19- 1
1*65
1.67
1.76
7.8
8.8
9.8
19
20
21
IS 23.2
15 37-1
15 51-6
IS 30-0
IS 44-4
15 58.6
56 22.5
57 135
58 6.5
+2.03
2.19
2.19
56 47-5
57 40,0
58 32.4
+2.13
2.21
2.12
8 3.1
8 51.2
9 44-6
Z.9Z
2.ZZ
2-35
10.8
1 1.8
12.8
22
23
24
16 5-3
16 17.3
16 26.0
16 1 1.6
16 22.1
16 28.9
58 57.1
59 40-7
60 12.8
+2.00
1.60
Z.05
59 20.1
59 58.4
60 23.4
+1.82
1-34
0.73
10 43.8
11 47.6
12 53.1
2.58
2.72
2.7Z
13.8
14.8
15.8
25
26
27
16 30.8
16 31.3
16 27.8
16 31.6
16 30.0
16 24.8
60 30.2
60 32.1
60 19.4
+0.40
-0.24
0.80
60 33.1
60 27.4
60 8.4
+0.08
-0.54
1.03
13 56.8
14 56.4
15 51.0
2.58
2.38
2.Z8
16.8
17.8
18.8
28
29
30
31
16 21. 1
16 12.2
16 2.0
IS 51-5
16 16.8
16 7.2
15 56.7
IS 46.2
59 54-8
S9 22.0
58 44-7
58 6.0
-1.22
1.48
1.60
1.61
59 39-2
59 3-7
58 25.4
57 46-9
-1.37
1.56
1.62
1.58
16 41.S
17 29.1
j8 1S.4
19 1.8
2.03
X.95
Z.92
1.95
19.8
20.8
21.8
22.8
32
15 41-1
15 36.2
57 28.1
-1-54
57 9-9
-1.49
19 49.6
2.04
23.8
138
DECEMBER, 1912.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DifE.
DiflE.
Diff.
Diff.
Hour.
Right AacensioD.
for
Declination.
for
Howr.
Right A8c«nBion.
for
DecUnatioiL
for
z Min.
I Min.
X MizL
X Mia.
SUNDAY I.
TUESDAY 3.
h m 8
8
0 / >»
ft
h m 8
8
0 * •»
t
O
lO 48 8.23
3.1317
N.io 28 54.4
15.767
0
12 26 54.59
2.0x93
S. a 34 20.4
16.337
I
10 50 16.00
2,1772
10 13 7.0
15.8x2
1
12 28 55.74
2.0x93
2 50 40.0
16. 3x6
2
10 52 23.50
s.inS
9 57 16.9
15.856
2
12 30 56.89
8.0x92
3 658.3
16.393
3
10 54 30.74
3.1x85
941 24.3
15.898
3
12 32 58.04
8.0x93
3 23 15.2
x6.3;x>
4
10 56 37.72
2.1143
9 25 29.1
15.940
4
12 34 59.20
2.0x94
3 39 30.7
16.246
5
10 58 44.45
a.izo2
9 931.5
15.979
5
1237 0.37
3.0197
3 55 44-7
z6.ai9
6
II 050.94
2.X06X
8 53 31.6
X6.017
6
12 39 1.56
8.0200
4 II 57.0
16.192
7
II 2 57.18
s.ioax
83729.5
16.053
7
12 41 2.77
8. 0203
428 7.7
16. 163
8
II 5 3-19
a. 0983
8 21 25.2
16.088
8
12 43 4.00
a. 0208
4 44 16.6
16.133
9
II 7 8.97
a. 0945
8 5 18.9
Z6. 123
9
1245 5.27
3.0214
5 023.7
X6.Z02
lO
II 9 14-53
a.0908
7 49 10.6
16.154
10
1247 6.57
2.022Z
5 16 28.9
16.070
II
II II 19.87
3.087a
7 33 0.4
x6. 185
II
12 49 7.92
2.0289
53232.1
16.036
12
II 13 24.99
a. 0837
7 16 48.4
X6.2Z5
12
12 51 9.32
2.0238
5 48 33.2
x6.ooi
13
11 15 29.91
a.0803
7 034.8
16.24X
13
12 53 10.77
2.0847
6 4 32.2
15.965
14
II 17 34.62
2.0769
644 19.5
16.267
14
12 55 12.28
2.0257
6 20 29.0
X5.928
15
II 1939-14
9-0757
6 28 2.7
X6.293
15
12 57 13.85
2.0267
6 36 23. 5
15.889
i6
II 21 43.47
2.0706
6 II 44.5
16.3x5
16
12 59 15.48
2.0278
6 52 15.7
15.849
17
II 23 47.61
2.0675
5 55 24.9
16.337
17
13 I 17,19
3.0291
7 8 5.4
15.808
i8
II 25 51-57
2.0646
5 39 4.1
16.357
18
13 3 18.97
3.0304
7 23 52.7
15.767
19
II 27 55-36
2.06x7
5 22 42.1
X6.376
19
13 5 20.84
2.0318
7 39 37.4
15.7*3
20
II 29 58.98
2.0589
5 6 19.0
16.393
20
13 722.79
t.0333
7 55 19.4
X5.678
21
II 32 2.43
2.0562
4 49 54.9
16.4x0
21
13 9 24.83
8.0348
8 10 58.7
15.631
22
II 34 5-73
2.0537
4 33 29.8
16.425
22
13 II 26.97
3.0365
8 26 35.2
15.583
23
II 36 8.88
M(
2.05x2
)NDA
N. 4 17 3.9
Y 2.
X6.458
23
13 13 29.21
WEE
2.0382
)NESI
S. 8 42 8.8
)AY 4.
15.536
O
II 38 11.88
2.0488
N. 4 037.3
16.449
0
13 1531.55
2.0399
S. 8 57 39.4
15-486
I
II 40 14.74
2.0466
3 44 lO.O
16.459
I
13 17 34-00
3.0418
9 13 7-0
15.434
a
II 42 17.47
2.0443
3 2742.1
16.469
2
13 19 36.57
2.0438
9 28 31.5
15.38a
3
II 44 20.07
8.0422
3 II 13.7
16.477
3
13 21 39.25
2.0458
9 43 52.9
15.3*9
4
II 46 22.54
2.Q402
2 54 44.8
16.484
4
13 23 42.06
2.0478
9 59 II. 0
15. 474
5
II 48 24.89
2.0383
2 38 15.6
16.489
5
13 25 44.99
2.0499
10 14 25.8
15.318
6
II 50 27.13
3.0365
2 21 46.1
16.493
6
13 27 48.05
2.052X
10 29 37.2
15. i6x
7
II 52 29.27
2.0348
2 5 16.5
16.495
7
13 29 51.24
3.0543
10 44 45.1
15*108
8
II >54 31.30
2.033X
I 48 46.7
16.497
8
13 31 54.57
3.0567
10 59 49-4
15.04a
9
II 56 33.24
2.0316
I 32 16.9
X6.497
9
13 33 58.05
3.0593
II 14 50.1
14-981
lO
II 5835.09
2.030Z
I 15 47.1
16.496
10
13 36 1.67
2.06x6
II 29 47.1
14.919
II
12 0 36.85
2.0287
0 59 17-4
16.493
II
1338 5.44
2.0641
II 44 40.4
14.856
12
12 2 38.54
2.0375
0 42 48.0
16.488
12
1340 9.36
8.0667
II 59 29.8
14.791
13
12 4 40. 1 5
a.oa63
0 26 18.9
16.483
13
13 42 13.44
3.0693
12 14 15.3
14.7*5
H
12 6 41.70
2.0252
N. 0 9 50.1
16.477
14
13 44 17.68
2.0731
12 28 56.8
14.658
15
12 843.18
2.0242
S, 0 6 38.3
16.468
15
13 46 22.09
a. 0749
12 43 34.2
14.589
i6
12 10 44.61
2.ot33
0 23 6. 1
16.458
16
13 48 26.67
a. 0778
12 58 7,5
14.519
17
12 12 45,98
2.0225
0 39 33.3
16.448
17
13 50 31.42
8.0807
13 12 36.5
14.448
i8
12 1447-31
a.oax8
0 55 59.8
16.436
18
13 52 36.35
a. 0836
13 27 X.3
14.377
t9
12 16 48.59
2. 021 I
I 12 25.6
16.423
19
13 54 4i«45
3.0866
13 41 21.7
14.303
20
12 18 49.84
3.0206
1 28 50.5
16.408
ao
13 56 46.74
3.0897
13 55 37-7
14.338
21
12 ao 51.06
a. 0202
I 45 14.5
16.393
21
13 58 52.22
'3.0928
14 9 49-1
X4.i5«
22
12 22 52.26
3.0x98
2 I 37.6
16.376
22
14 0 57.88
8. 0960
14 23 55.9
14.075
23
12 24 53.43
2.0194
2 17 59.6
16.357
23
14 3 3.74
2.0992
14 37 58.1
13.997
24
12 26 54.59
2.0x9a
S. 2 34 20.4
16.337
24
14 5 9.79
2.1025
S.14 51 55.6
13.918
VI.
DECEMBER, 1912.
139
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
X Min.
Declination.
for
I Min.
Hour.
Right Ascension.
for
I Min.
Declination.
for
1 Min.
TH1
JRSD-
AY 5.
SATURDAY 7.
h m 8
s
0 » w
It
h m 8
8
Of w
»
O
14 5 9-79
a.xoas
S.I4 51 55.6
13.918
0
15 50 25.40
8.2860
s.24 538.1
8.718
I
14 7 16.04
a.iQs8
15 548.2
13.837
I
15 52 42.67
8.2896
24 14 17.2
8.584
2
14 9 22.49
8.1093
15 19 36.0
X3.755
2
1555 0.15
2.393X
24 22 48.2
8.449
3
14 II 29.15
3.1x27
15 33 18.8
X3.673
3
15 57 17.84
2.2966
24 31 1 1. 1
8.313
4
14 13 36.01
3.ix6x
15 46 56.6
13.588
4
15 59 35.74
8.3000
24 39 25.8
8.176
5
14 15 43.08
2.ZI96
16 0 29.3
X3.5oa
5
16 I 53.84
3.3<W
24 47 32.2
8.038
6
14 17 50-36
3. 1333
16 13 56.8
13.414
6
16 4 12.15
8.3067
24 55 30.3
7.899
7
14 19 57.86
2.za68
16 27 19.0
13.336
7
16 6 30.65
8*3099
25 3 20.1
7.760
8
14 22 5.58
2.1304
16 40 35.9
X3.«37
8
16 849.34
8.3x38
25 11 1.5
7.6x9
9
14 24 13.51
3.1340
16 53 47.4
13.147
9
16 II 8.23
a. 3163
25 18 34.4
7.478
lO
14 26 21.66
3.X377
17 6 53.5
13.055
10
16 13 27.30
8.3194
25 25 58.9
7.337
II
14 28 30.03
3.1414
17 19 54.0
13.968
II
16 15 46.56
8.3884
25 33 14.8
7.X93
12
14 30 38.63
WiS»
17 32 48.9
X2.868
12
16 18 5.99
8.3853
25 40 22. 1
7.050
13
14 32 47.46
3.1490
174538.1
X8.773
13
16 20 25.60
a. 3888
25 47 20.8
6.907
H
14 34 56.51
3.1338
17 58 21.6
12.676
14
16 22 45.38
8.3310
25 54 10.9
6.763
15
1437 5.79
a. 1567
i8 10 59.3
13.578
15
16 25 5.32
8.3337
26 0 52.2
6.616
i6
14 39 15.31
a.x6o6
18 23 31.0
ia.479
16
16 27 25.43
8.3364
26 7 24.8
6.470
17
14 41 25.06
2.1644
18 35 56.7
13.378
17
16 29 45.69
8.3389
26 13 48.6
6.323
i8
14 43 35.04
3.1683
18 48 16.4
18.877
18
16 32 6.10
8.34x4
26 20 3.6
6.176
19
14 45 45.26
3.1733
19 0 30.0
13.X75
19
16 34 26.66
8.3439
26 26 9.7
6.088
20
14 47 55.72
3.1763
19 12 37.4
18. 073
20
16 36 47.37
3.3468
26 32 6.9
5.879
21
14 50 6.41
a.x8o3
19 24 38.6
11.967
21
16 39 8.21
3.3484
26 37 55.2
5.730
22
14 52 17.34
3.Z843
19 36 33.4
11. 861
22
16 41 29.18
3.3506
26 43 34.5
5.58X
23
14 54 28.51
2.1883
S.19 48 21.9
XI. 754
23
16 43 50.28
a. 35*7
S.26 49 4.9
3.43X
Fl
RIDA\
' 6.
SL
FNDAT
f 8.
0
14 56 39.92
S.X9«
S.20 0 3.9
".645
0
16 46 11.50
a. 3547
S.26 54 26.2
5.280
I
14 58 51.57
3.196a
20 II 39.3
XX.535
I
16 48 32.84
3.3566
26 59 38.5
5.129
2
15 I 3.46
3.9003
20 23 8. 1
11.485
2
16 50 54.29
8.3383
27 441.7
4.978
3
15 3 15.59
3.3043
20 34 30.3
11.313
3
16 53 15.84
8.3600
27 935.8
4.836
4
15 5 27.96
3.3083
20 45 45.7
11.300
4
16 55 37.49
3.36x6
27 14 20.8
4.674
5
15 740.5S
a. 3113
20 56 54.3
II.0B6
5
16 57 59.23
8.363X
27 18 56.7
4-581
6
15 9 53.44
3.3x63
21 7 56.0
10.971
6
17 0 21.06
8.3645
27 23 23.3
4.368
7
15 12 6.54
3.3304
21 18 50,8
10.854
7
17 242.97
a. 3658
27 27 40.8
4.8x5
8
15 14 19.89
t.2344
21 29 38.5
10.737
8
17 5 4.96
3.3670
27 31 49.1
4.062
9
15 16 33.47
3.3383
21 40 19.2
10.6x9
9
17 7 27.01
8.368X
27 35 48.2
3.908
10
15 18 47.29
3.93^3
21 50 52.8
10.499
10
17 949.13
3.3698
27 39 38.0
3.753
II
15 21 1.35
a. 3363
22 1 19. 1
10.378
II
17 12 II. 31
3.3700
27 43 18.5
3.598
12
15 23 15.65
3.3403
22 II 38.2
10.857
12
17 1433.53
8.3707
27 46 49.8
S.444
13
152530.19
a. 3443
22 21 50.0
10.135
13
17 16 55.80
8.37x4
27 50 II. 8
3.889
H
15 27 44.97
3.3483
22 31 54-4
10. oil
14
17 19 18.10
8.37x9
27 53 24.5
3.X34
15
15 29 59.98
2.8S3X
22 41 51.3
9.886
15
17 21 40.43
8.3783
27 56 27.9
8.979
i6
15 32 15.22
8.3360
22 51 40.7
9.760
16
17 24 2.78
3.3737
27 59 22.0
8.823
^7
15 34 30.70
a.9S99
23 I 22.5
9.633
17
17 26 25.16
8.3730
28 2 6.7
a. 667
i8
15 36 46.41
8.8637
23 10 56.7
9.506
18
172847.54
8.373X
28 4 42. 1
2.5x8
19
1539 2.35
a.a675
23 20 23.2
9.377
19
17 31 9.93
a.373X
28 7 8.2
a. 357
20
1541 18.51
3.8713
23 29 41.9
9.847
20
17 33 32.31
3.3730
28 9 25.0
2.202
21
15 43 34.90
3.2750
23 38 52.8
9.X17
21
17 35 54.69
8.3788
28 II 32.5
a.047
22
154551.51
3.3787
23 47 55.9
8.9BS
22
17 38 17.05
8.3734
28 13 30.7
1.898
23
1548 8.35
2.2884
23 56 51.0
. 8.858
23
174039.38
2.3720
28 15 19.5
X.736
24
155025.40
3.a86o
S.24 538.1
3.^x8
24
1743 1.69
3.37x5
S.2S 16 59.0
X.58X
140
DECEMBER, 1912.
VII.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
RiKhtAooMitioii.
for
DocUnation.
for
Hour.
Right Aaeaoaion.
for
DediMtioa.
for
I Min.
xMin.
xllin.
xMisL
MONDAY 9.
WEDNESDAY 11.
b m B
s
Of W
•»
b m 8
» 1
Q * w
n
O
17 43 1.69
2.37x5
is.28 16 59.0
X.58X
0
1934 12.52
a. 3361
S.26 40 50.2
5-357
I
17 45 23-96
3.3708
a8 18 29.2
X.435
X
19 36 25.94
3.3313
26 35 25.0
5.483
2
174746.19
a. 3700
28 19 50.0
X.870
2
19 38 39.06
a. 3163
26 29 52.2
5.609
3
X7 50 8.37
a. 3691
28 21 1.6
X.Z16
3
19 40 51.88
3.3X13
26 24 1 1.9
5-733
4
17 5* 30.49
2.368a
28 22 3.9
0.96X
4
1943 4.40
3.ao6a
a6 18 24.2
5.857
5
17 54 52-54
3.3670
28 22 56.9
0.807
5
19 45 16.62
3.aoii
26 12 29.0
S.98X
6
17 57 14-52
a. 3658
28 23 40.7
0.653
6
19 47 28.53
a.x9S9
26 6 26.5
6.108
7
17 59 36.43
a. 3644
28 24 15.2
0.498
7
194940.13
8.X908
26 0 16.8
6.32$
8
x8 I 58.25
a. 3629
28 24 40.4
0-344
8
19 5t 51.42
a. 1856
25 53 59-8
6.343
9
18 4 19.98
a. 3614
28 24 56.4
0.X91
9
19 54 2.40
3.z8q3
25 47 35.6
6.463
lO
18 6 41.62
a. 3597
28 25 3.3
-0.038
10
19 56 13.06
3.X751
2541 4.3
6.580
IZ
18 9 3-15
a. 3579
28 25 I.O
40.115
II
19 58 23.41
a.x698
25 34 26.0
6.697
12
18 II 24.57
2.3560
28 2449.5
0.36B
12
20 033.44
3.1645.
25 27 40.7
6.813
13
18 13 45.87
a. 3540
28 24 28.9
0.490
13
20 243.15
3.159a
25 20 48.4
6.928
H
18 16 7.05
a.35«9
28 23 59. 1
0.57a
14
20 4 52.55
8.X539
25 13 49.3
7.<H»
15
18 18 28.10
a. 3497
28 23 20.3
o.7a3
15
20 7 1.62
a. 1485
25 643.4
7.«55
i6
18 20 49.02
a. 3474
28 22 32.4
0.874
16
ao 9 10.37
3.1431
24 59 30.7
7.867
17
18 23 9-79
a. 3449
28 21 35.4
1.024
17
20 II 18.79
3.1377
24 52 11.3
7.37«
i8
18 25 30.41
a. 3433
28 20 29.5
1.173
18
20 13 26.89
8.1333
24 44 45.3
7.488
19
18 27 50.87
a. 3397
28 19 14.6
x.3a3
19
20 15 34.67
8.1370
24 37 12.7
7.598
20
18 30 1 1. 18
a. 3371
28 17 50.8
1.47a
20
20 17 42.13
2. Z3X6
24 29 33.6
7.706
21
18 32 31.32
a. 334a
28 16 18.0
i.6ao
21
20 19 49.26
3.X16X
24 21 48.0
7.818
22
18 34 51.28
a. 3313
28 14 36.4
X.768
22
20 21 56.06
3.XX06
24 13 56.1
7.918
23
18 37 11.07
TUl
a.3a83
ESDA^
S.28 12 45.9
V 10.
1.915
33
2024 2.53
THU
3.1053
rRSD>^
S.24 5 57.8
lY 12,
8.084
O
18 39 30.67
2.3251
S.28 10 46.6
3.063
0
20 26 8.68
3.0998
S.23 57 53.2
8.188
I
18 41 50.08
a.3ai9
28 8 38. 5
3.308
z
20 28 14.50
3.0943
23 49 42.4
8.23X
2
18 44 9.30
a. 3186
28 6 21.7
a. 353
2
20 30 20.00
3.0889
2341 25.5
8.333
3
18 46 28.31
a.3i5x
28 3 56.2
3.497
3
20 32 25.17
a. 0835
2333 2.5
8.433
4
18 48 47.11
a.3117
28 I 22.1
3.641
4
20 34 30.02
3.0781
232433.5
8.533
5
18 51 5-71
a. 308a
27 58 39.3
8.784
5
203634-54
3.0737
23 15 58.5
8.633
6
18 53 24.09
a. 3044
27 55 48.0
3.9t7
6
ao 38 38.74
3.0673
23 7 17.5
8.73a
7
18 55 42.24
a. 3007
27 52 48. 1
3.069
7
20 40 42.61
3.0618
22 58 30.7
8.888
8
18 58 0.17
a. 3969
27 49 39-7
3.aio
8
20 42 46.16
3.0565
22 49 38.2
8.923
9
19 0 17.87
2.3930
27 46 22.9
3.350
9
20 44 49.39
2.0513
22 40 39.9
9.0x8
lO
19 235.33
3.3890
27 42 57.7
3-490
10
20 46 52.30
8.0458
22 31 36.0
9.XX3
II
19 4 52.55
3.2849
27 39 24. 1
3.689
II
20 48 54.89
8.0405
22 22 26.4
9.206
12
19 7 9.52
3.3808
27 35 42.2
S.767
12
20 50 57. 16
3.0S5I
22 13 II. 3
9.898
13
19 9 26.24
3.^*66
27 31 52.1
3.903
13
20 52 59.11
3.0299
22 3 50.7
9.389
14
19 II 42.71
3.8733
27 27 53.8
4.040
14
2055 0.75
3.0847
21 54 24.6
9.479
15
19 13 58.92
3.3679
27 23 47.3
4.176
15
20 57 a.07
3.0x94
21 44 53.2
9.568
i6
19 16 14.86
3.3633
27 «9 32.7
4.3"
16
20 59 3.08
8.0143
2X 35 16.4
9.657
17
19 18 30.54
3.3391
27 15 10.0
4.445
17
21 X 3.78
3.OO9X
21 25 34.4
9-743
i8
19 20 45.95
3.3545
27 10 39.3
4.577
18
21 3 4.17
8.0039
21 15 47.2
9.830
19
19 23 1.08
a. 3499
27 6 0.7
4.709
19
21 5 4.25
X.9988
21 554.8
9.9x6
20
19 25 15.94
3.3453
27 I 14.2
4.84X
20
21 7 4.03
X.9937
20 55 57.3
XO.000
21
192730.51
3.3405
26 56 19.8
4.97«
21
21 9 3.50
1.9887
20 45 54.8
10.083
22
19 29 44.80
3.3358
26 51 17.7
5.100
22
21 II 2.67
1.9837
20 35 47.3
10.166
a3
19 31 58.81
3.3310
26 46 7.8
5.339
23
21 13 1.54
1.9787
20 25 34.9
10.347
«4
19 34 12,52
a.aaSx
S.26 40 50.2
S.SS7
24
21 15 O.IZ
X.97S7
S.20 15 17.6
xo.irt
VIIL
DECEMBER, 1912.
141
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
VUL
Diff.
Diff.
Diff.
Hour.
Right A«c«Biioii.
for
iMin.
for
xllin.
Hour.
Rifht Aacwiaion.
for
iMin.
for
Xllin.
FB
LIDAY
13-
SUNDAY
' 15.
1
1
h m 8
8
e * H
ff
h m 8
B
0 t »
»
0
ai 15 o.ii
X.9737
S.ao 15 17.6
X0.328
0
22 44 58.26
1.7976
S. xo 42 54. X
X3.2X8
I
21 16 58.39
X.96B8
20 4 55-5
X0.408
X
22 46 46.05
1.7954
10 29 39.8
13.360
2
21 18 56.37
1.9639
X9 54 28.7
XO.487
2
22 48 33.71
1.7933
10 16 23.0
13.301
3
21 20 54.06
Z.9S9X
1943 57-1
X0.565
3
22 50 21. 25
1.7914
10 3 3.7
13.341
4
21 22 51.46
1.9543
19 33 20.9
xo 648
4
22 52 8.68
1.7896
9 49 42.0
13.38a
5
21 24 48.57
X.9495
19 22 40. 1
XO.717
5
22 53 56.00
1.7877
9 36 17.9
I3.4ai
6
21 26 45.40
1.9448
X9 IX 54.8
10.79s
6
22 55 43.21
1.7859
9 22 51.5
13.459
7
21 28 41.95
x.94oa
19 X 5-0
10.867
7
22 57 30.31
1.7848
9 9 22.8
13.497
8
21 30 38.22
X.9556
x8 50 X0.7
10.941
8
22 59 17.32
x.78t7
8 55 51.9
13.534
9
21 32 34.22
1.9310
X8 39 X2.X
XX.013
9
23 X 4.24
X.7818
8 42 X8.7
X3.571
10
21 34 29.94
1.9264
1828 9.1
XX.08S
10
23 2 5X.06
1-7797
8 28 43.4
13.607
II
21 36 as- 39
1.9390
x8 17 1.9
XX.X56
XX
23 437.80
1.7783
8 15 5.9
13.643
12
21 38 20.58
1.9177
18 5 50.4
11.886
X2
23 6 24.46
1.7770
8 X 26.4
13.676
13
21 40 15.51
x.9X3a
17 54 34.8
xx.a95
13
23 8 IX. 04
1.7758
7 47 44.8
13.710
14
21 42 10.17
X.9088
17 43 15.0
11.363
14
23 9 57.56
X.7747
7 34 1.2
13.743
15
21 44 4.57
X.9046
17 31 51.2
11.431
15
23 XI 44.01
1.7736
7 20 15.6
13.776
i6
21 45 58.72
X.9WH
X7 20 23.3
11.498
16
23 13 30.39
1.7736
7 6a8.i
13.806
17
21 47 52.62
X.8963
17 851.5
11.563
17
23 15 16.72
1.7717
6 52 38.6
13.840
i8
21 49 46.27
x.89sa
16 57 15.8
ix.6a8
18
23 17 2.99
1.7708
6 38 47.3
X3.870
19
21 51 39.68
X.8881
16 45 36.2
xz.69a
19
23 18 49.21
1.7700
6 24 54.2
13.900
20
21 53 32.84
X.884X
16 33 52.7
xi.756
20
23 20 35.39
1.7693
6 10 59.3
X3.9«9
21
21 55 25-77
Z.8808
16 22 5.5
xx.8x8
21
23 22 21.53
1.7687
5 57 2.7
13.958
22
21 57 18.47
1.87^
16 10 14.5
xi.880
22
2324 7.64
X.7688
5 43 4.3
13.987
23
21 59 10.93
1.8784
S.I5 58 X9.9
11.940
23
23 25 53-72
1.7677
s. 529 4.3
14.014
SAT
URD/
^Y X4.
MO
IN DAI
r x6.
0
22 X 3. x6
1.8687
S.15 46 2X.7
13.000
0
23 27 39.77
1.7673
S. 5 15 2.6
14.04a
I
22 2 55.17
Z.8690
15 34 19-9
Z8.060
X
23 29 25.80
X.7671
5 059.3
14.068
2
22 4 46.96
X.8613
X5 22 14.5
18. 118
2
23 31 11.82
X.7668
446 54.5
14.093
3
22 6 38.53
X.8377
15 10 5.7
18. 176
3
23 32 57.82
X.7667
4 32 48.2
14. 1x8
4
22 8 29.89
Z.8542
14 57 53.4
X2.833
4
23 34 43.82
x.76^
4 x8 40.4
i4.X4a
5
22 10 21.04
X.8S08
14 45 37-7
I8.889
5
23 36 29.82
x.7667
4 431.2
14.165
6
22 12 11.99
X.8474
14 33 18.7
".345
6
23 38 15.82
x.7668
3 50 ao.6
14.X88
7
22 14 2.73
X.8440
14 20 56.3
18. 400
7
23 40 1.83
X.7670
336 8.6
14.1x9
8
22 15 53.27
X.8408
14 8 30.7
H.453
8
23 41 47.86
1.7673
3 21 55.2
I4.a33
9
22 17 43.62
X.8376
13 56 X.9
18. 506
9
23 43 33.90
X.7676
3 740.6
i4.a53
10
22 19 33.78
1.8344
13 43 30.0
18. 558
10
23 45 1997
X.7680
2 53 24.8
X4.a73
II
22 21 23.75
1.83x3
13 30 54.9
X3.6X1
XI
23 47 6.06
1.7685
239 7.8
14.893
12
23 23 13.54
x.8a83
13 i8 X6.7
18.668
12
23 48 52. 19
1.7691
2 24 49.6
14.313
13
2225 3.15
1.8854
13 535.5
X8.718
13
23 50 38.35
1.7698
2 10 30.3
14.331
14
22 26 52.59
1.8836
12 52 51.3
13.761
14
23 52 24.56
1.7705
I 56 9.9
14.348
15
22 28 41.86
1.8X97
12 40 4.2
ia.8xo
15
23 54 10. 8x
1.7713
X 41 48.5
14.366
16
22 30 30.96
Z.8169
12 27 14. X
18. 858
16
235557.12
i.77«3
I 27 26.0
14.383
17
22 32 19.89
1.8x43
12 X4 21.2
18.906
17
23 57 43-49
1.7733
I 13 2.6
14.398
18
22 34 8.67
X.8X17
X2 X 25.4
12.953
18
23 59 29.92
1.7743
0 58 38.3
14.4x3
19
22 35 57.30
Z.8099
IX 48 26.9
X8.998
19
0 I 16.41
X.7755
044 13.1
14.438
20
22 37 45.77
x.8o67
" 35 25.7
13.04s
20
0 3 2.98
X.77OO
0 29 47.0
14.441
21
22 39 34.10
1.8043
II 22 21.7
13.088
2X
0 4 49.62
1.7781
0 15 20.2
14.454
22
22 41 22.29
X.8080
II 9 15. 1
13.13a
22
0 6 36.35
1.7796
S. 0 0 52.6
14.466
23
22 43 10.34
1.7998
10 56 5.9
13.175
23
0 823.17
X.78XI
N. 0 13 35.7
14.478
24
22 44 58.26
1.7976
S. 10 42 54. 1
13.3x8
24
0 xo XO.08
1*7837
N. 0 28 4.7
14.488
142
DECEMBER, 1912.
IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hoar.
Right Ascension.
for
zMin.
DecUn«tion.
for
X Min.
Hour.
Right Ascension.
for
I Min.
Declination.
for
1 Min.
TUESDAY 17.
THURSDAY 19.
h m 8
s
Q • M
0f
li m 8
8
0 » n
1*
O
0 10 10.08
x.78«7
N. 0 28 4.7
14.488
0
I 39 14.07
1.9699
N.I2 055.6
14.030
I
0 II 57.09
1.7843
0 42 34.3
14.498
I
I 41 12.02
X.9688
12 14 56.4
13.996
2
0 13 44.20
X.7861
057 4-5
14.508
2
1 43 10.33
X.9749
12 28 55.1
13.960
3
0 15 3i«42
1.7879
I 11 35.3
X4-517
3
I 45 9.01
1.9811
12 42 51.6
13.933
4
0 17 18.75
X.7898
I 26 6.6
14.525
4
I 47 8.06
1.9873
12 56 45.9
13.885
5
0 19 6.20
1.7918
I 40 38.3
14.538
5
I 49 7.49
1.9937
13 10 37.8
13.846
6
0 20 53.77
1.7939
1 55 10.4
X4.538
6
1 51 7.30
3.0000
13 24 27.4
13.806
7
0 22 41.47
x.796a
2 942.9
X4.544
7
1 53 7.49
a. 0065
13 38 14.5
13.763
8
0 24 29.31
X.7984
2 24 15.7
X4.549
8
I 55 8.08
3.013a
13 51 59-0
X3.7ao
9
0 26 17.28
X.8008
2 38 48.8
X4.553
9
I 57 9.07
a. 0198
14 540.9
13.676
lO
0 28 5.40
X.8033
2 53 22.1
14.557
10
I 59 10.46
a.oa6s
14 19 20.1
13.630
II
0 29 53- 67
X.80S8
3 7 55.6
14.560
II
2 I 12.25
2.0333
14 32 56.5
13.588
12
0 31 42.10
X.8085
3 22 29.3
X4.363
12
2 3 14.46
a. 0403
14 46 30.0
X3.533
13
0 33 30.69
x.Sxxa
3 37 3.0
14.563
13
2 5 17.08
a.0473
15 0 0.5
X3.483
14
0 35 19.44
X.8139
3 51 36.8
14.563
14
2 7 20. 13
2.0544
15 13 28.0
13.432
15
0 37 8.36
X.8168
4 6 10.6
14.563
15
2 9 23.61
a. 06x6
15 26 52.4
X3.379
i6
0 38 57.46
X.8X98
4 20 44.4
14.562
16
2 IX 27.52
a.o688
15 40 13.5
13.324
17
0 40 46.74
x.8t99
4 35 18.1
14.560
17
2 13 31.86
a. 0761
15 53 31.3
13.268
i8
0 42 36.21
X.826Z
4 49 51.6
14.557
18
2 15 36-65
a. 0836
16 645.7
13.2x1
19
0 44 25.87
X.8393
5 424.9
X4.553
19
2 17 41.89
a.0911
16 19 56.6
X3.x5a
20
046 15.73
x.83a7
5 18 57.9
X4.348
20
2 1947.58
a.0986
1633 3-9
13.091
21
048 5.79
X.836X
5 33 30-7
X4.543
21
2 21 53.72
a.io6a
1646 7.5
13.089
22
0 49 56.06
X.8396
548 3.1
X4.537
22
2 24 0.32
a. 1139
16 59 7.4
18. 966
23
0 51 46,54
1.8433
N. 6 2 35.1 14.539
23
2 26 7.39
a.xai7
N.17 12 3,4
18. 901
WED
NESD
AY 18.
FF
^IDAY
20.
O
0 53 37-25
X.8470
N. 6 17 6.6
X4.5«
0
2 28 X4.93
a. 1896
N.172455.5
M.834
I
0 55 28.18
Z.8S0B
6 31 37.6
i4.5xa
I
2 30 22.94
a.x375
173743.5
18.765
2
0 57 19.34
1,8546
646 8.1
14.50a
2
2 32 31.43
a.x455
17 50 27.3
I8.695
3
0 59 10.73
X.8585
7 037.9
14.491
3
2 34 40.40
a. 1336
x8 3 6.9
Xa.624
4
I I 2.36
X.8020
7 15 7.0
X4.479
4
2 36 49.86
a. 16x7
18 15 42.2
I2.55X
5
I 2 54.24
1.8668
7 29 35-4
14.467
5
2 38 59.81
8.1699
18 28 13.0
12.475
6
I 4 46.38
X.87XX
7 44 3.0
14.454
6
2 41 10.25
a.x78a
18 40 39.2
18. 398
7
I 638.77
X.8754
7 58 29.8
X4-439
7
2 43 21.19
a.x865
x8 53 0.8
la.sao
8
1 8 31.43
1.8798
8 12 55.7
14.423
8
2 45 32.63
8.1948
19 5 17.6
18.840
9
I 10 24.35
X.8843
8 27 20.6
14.407
9
24744.57
a.ao33
19 17 29.6
18.138
lO
I 12 17.54
X.8889
8 41 44.5
14.389
xo
2 49 57.02
a.aix8
19 29 36.6
18.074
II
I 14 II.02
X.8937
856 7.3
14.370
11
a 52 9.99
8.8803
1941 38.5
X1.989
12
1 16 4.78
1.8984
9 10 28.9
14.350
12
2 54 23.47
8.8891
19 53 35.3
11.90a
13
I 17 58.83
1.903a
9 24 49.3
X4.330
13
2 56 37.47
a. 2377
20 5 26.8
11. 813
14
1 19 53.17
X.908S
9 39 8.5
14.308
14
2 58 51.99
8.3463
20 17 12.8
11.733
15
X 21 47.82
1.9133
9 53 26.3
14.285
15
3 1 7.03
a. 3551
20 28 53.4
ix.6a9
i6
I 23 42.77
X.9185
10 7 42.7
14.961
16
3 3 22.60
8.3639
20 40 28.3
XX. 534
17
I 25 38.04
1.9437
10 21 57.6
14.237
17
3 5 38.70
8.1728
20 51 57.5
XX.437
i8
I 27 33.62
x.9a9o
10 36 II. I
14.2x1
18
3 755.33
8.8817
21 3 20.8
XI. 339
19
I 29 29.52
X.9344
10 50 22.9
14.183
19
3 10 12.50
a.a9o6
21 14 38.2
11.839
20
I 31 25.75
x.94a>
11 433.0
14.154
20
3 12 30.20
2.a994
21 2549.5
11.138
21
X 33 22.32
1.9456
II 18 41.4
X4.xa5
21
3 14 48.43
2.3084
21 36 54.7
11.034
22
I 35 19.22
1.95x3
II 32 48.0
14.095
22
3 17 7.21
a. 3175
21 47 53.6
10.987
23
1 37 16-47
X.957X
II 46 52.8
14.063
23
3 19 26.53
t.32«5
21 58 46.0
10.8x9
24
X 39 14.07
1.9619
N.12 0 55.6
14.030
24
3 21 46.39
a. 3355
N.22 9 31.9
1 10.710
X.
DECEMBER, 1912.
143
GREENWICH MEAN TIMK
THE MOON'S RIGHT ASCENSION AND DECLINATION.
VOL
Di£E.
Diff.
Diff.
Hour.
Right AacansioD.
for
xMin.
for
iMin.
Hour.
for
xMin.
DecUnatioa
for
I Min.
SAT
URD/
lY 21.
MONDAY 23.
h m t
t
e * n
»
h m 8
t
Q f W
ff
0
3 ai 46.39
3.3355
N.22 9 31.9
10.7x0
0
5 23 46.89
3.7x74
N.27 59 46.0
3.169
I
3 Z4 6.79
3.3445
22 20 II.2
X0.598
I
5 26 30.09
a. 7325
28 2 50.2
2. 970
2
3 26 27.73
«.3536
22 30 43.7
X0.484
2
529 13.59
a. 7373
28 542.5
3.77X
3
3 28 49.22
a.36a7
22 4X 9.3
X0.368
3
5 31 57.37
2.7330
28 8 22.7
3.570
4
3 31 XI. 26
a. 3718
22 51 27.9
10. 251
4
5 34 41.43
3.7365
28 10 50.9
3.368
5
3 33 33.84
a. 3809
23 I 39.4
10. 132
5
5 37 25.75
2.7408
28 13 6.9
3. 165
6
3 35 56.97
a. 3900
23 II 43.7
10. 010
6
5 40 10.33
3.7449
28 15 10.7
X.96Z
7
3 38 ao.64
2.3991
23 21 40.6
9.886
7
54255.14
3.7487
28 17 2.2
1.756
8
3 40 44.86
a. 408a
23 3X 30.0
9.760
8
54540.17
3.7533
28 18 4X.4
I-55X
9
3 43 9.62
a.4173
23 41 IX.8
9.^3
9
5 48 25.42
2.7558
28 20 8.3
1.344
10
3 45 34.93
a. 4263
23 50 45.9
9.503
xo
5 51 10.87
2.759X
28 21 22.7
X.137
II
3 48 0.78
a. 4353
24 0 12. 1
9.371
XI
5 53 56.51
3.7633
28 22 24.7
0.928
12
3 5027.17
•.4443
24 930.4
9.238
12
5 56 42.33
8.7650
28 23 14. X
0.7x9
13
3 5254.10
a- 4533
24 18 40.6
9.X03
13
5 59 28.31
3.7676
28 23 51.0
0.5x0
14
3 55 «i.57
a.4fe3
24 27 42.7
8.965
14
6 2 14.44
3.7700
28 24 15.3
0.299
15
35749.58
2.4713
24 36 36.4
8.834
15
6 5 0.71
3.7733
28 24 26.9
•H>.o88
i6
4 0 18.13
a. 4803
24 45 2X.6
8.6B3
x6
6 747.10
2.7740
28 24 25.9
— 0.X3}
17
4 2 47*21
2.4891
24 53 58.3
8.539
17
6 1033.59
3.7757
28 24 12. 2
0.334
i8
4 5 16.82
a. 4978
25 2 26.3
8.393
18
6 13 20.18
3.7773
28 23 45.8
0.546
19
4 746.95
a. 5066
35 10 45.5
8.246
19
6 16 6.85
a. 7783
28 23 6.7
0.758
20
4 zo 17.61
3.5x53
25 18 55.8
8.097
20
6 18 53.58
3.7793
28 22 14.9
0.970
21
4 12 48.79
3.5239
25 26 57. X
7.945
2X
6 21 40.37
3.7803
28 21 10.3
i.x8a
22
4 15 20.48
3.5335
25 34 49.2
7.79t
22
6 24 27.21
3.7808
28 19 53.0
Z.395
23
4 17 52.69
SU
3.54"
rNDAI
N.25 42 32.0
r 22.
7.635
23
6 27 14.07
TUl
3.78x1
ESDA^
N.28 18 22.9
Y 24.
Z.608
0
4 20 25.4X
2.5495
N.25 50 5-4
7.477
0
6 30 0.94
3.78x3
N.28 16 40.0
X.83X
I
4 22 58.63
2.5578
25 57 29.3
7.3x8
X
6 32 47.82
3.781a
28 14 44.4
2.033
2
4 2S 32.35
2.5661
26 4 43.6
7-X57
2
6 35 34.68
a. 7808
28 12 36.0
2.347
3
4 28 6.56
2.5743
26 II 48.2
6.994
3
6 38 21.51
2.780a
28 10 14.8
2.459
4
4 30 41.26
a.58a3
26 18 42.9
6.829
4
6 41 8.30
3.7794
28 7 40.9
a. 671
5
4 33 16.44
a. 5903
26 25 27.7
6.66a
5
6 43 55.04
a. 7784
28 4 54.3
2.885
6
4 35 52.10
2.598a
26 32 2.4
6.493
6
6 46 41.71
2.7773
28 I 55.0
3.094
7
4 38 28.23
2.6060
26 38 26.8
6.322
7
6 49 28.30
2.7757
27 58 43.0
3.305
8
4 41 4.82
3.6x37
26 44 41.0
6.150
8
6 52 14.79
2.7739
27 55 18.4
3.5x5
9
4 43 41.87
a. 6313
26 50 44.8
5.976
9
655 1.17
3.772X
27 51 41.2
3.726
10
4 46 19.37
2.6387
26 56 38. 1
5.800
10
6 57 47.44
2.770X
27 47 51.3
3.936
II
4 48 57.31
a. 6360
27 2 20.8
5.62a
II
7 033.58
2.7678
27 43 48.9
4.X44
12
4 51 35.69
3.6433
27 7 52.8
5*443
12
7 3 19.57
3.7653
27 39 34.0
4.355
13
4 54 14.49
a. 630a
27 13 14.0
5. 262
13
7 6 5.40
2.7634
27 35 6.6
4.56X
H
4 56 53.71
3.6571
27 18 24.3
5.079
14
7 8 51.06
2.7594
27 30 26.7
4.768
15
4 59 33.34
a. 6639
27 23 23.5
4.895
15
7 II 36.53
2.7563
27 25 34.5
4.975
16
5 2 13.38
a. 6705
27 28 11.6
4.708
16
7 14 21.81
2.7529
27 20 30.0
5.178
17
5 453.80
3.6768
27 32 48.5
4.521
17
7 17 6.88
2.7494
27 15 13.2
5.383
18
5 734.60
2.683Z
2737 14- 1
4.332
18
7 19 51.74
2.7457
27 944.2
5.584
19
5 10 15.77
3.6893
27 41 28.4
4.143
19
7 22 36.37
a. 7418
27 4 3.1
5.786
20
5 12 57.31
3.6953
27 45 31.2
3.950
20
7 25 20.76
3.7377
26 58 9.9
5.987
21
5 15 39.20
2.7011
27 49 22.4
3.757
21
7 28 4.89
2.7334
26 52 4.6
6.187
22
5 18 21.44
a.yu6;
27 53 2.0
3.563
22
7 30 48.77
3.7291
^6 45 47.4
6.385
23
5 ax 4.00
a.7iax
27 56 29.9
3.367
23
7 33 32.38
2.7244
26 39 X8.4
6.583
M
5 23 46.89
3.7174
N.27 59 46.0
3.X69
24
7 36 15.70
3.7196
N.26 32 37.5
6.77*
146
MERCURY, 1912.
GREENWICH MEAN TIME.
JANUARY.
FEBRUARY.
■S
a
o
I
2
3
4
5
6
7
8
9
lo
II
12
13
14
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Right Aacen-
sion.
Noon.
h m 8
173950-31
17 37 38.35
1736 9.85
17 35 23.31
17 35 16-54
17 35 46-90
17 36 51.61
17 38 27.82
17 40 32.75
1743 3.74
17 45 58-34
17 49 14.26
17 52 49-44
17 56 42.00
18 o 50.25
i8 5 12.67
18 9 47.92
18 14 34.77
18 1932.14
18 24 39.05
18 29 54.64
1835 18.12
18 40 48.79
18 46 26.02
1852 9.25
18 57 57-95
19 351-67
19 9 49-97
191552.49
19 21 58.88
1928 8.83
19 34 22.04
Var. of
R.A.
fori
Hour.
Noon.
8
- 6.4X5
4.586
a. 800
- x-094
+ 0.510
+ 3.000
3-373
4.636
5.766
6.799
+ 7-734
8.578
9.340
laosS
za649
+ii.aio
1Z.718
13.178
13.595
13.974
+13.319
13.633
13.919
14.180
14.418
+X4-637
14.837
15.090
15.187
15.343
+15.485
+15.615
Apparent
Dechnation.
Noon.
-20 II 25.2
20 II 13.5
2013 1.4
20 16 38.5
20 21 52.2
-20 28 28.7
2036 14. 1
20 44 54.4
20 54 16. 1
21 4 6.6
—21 14 14.4
21 24 28.7
21 34 39.9
21 44 39-3
21 54 18.9
-22 3 31.9
22 12 12.3
22 20 14.2
22 27 32.8
2234 3'9
-22 39 43-6
22 44 28.4
22 48 15.3
22 51 1.4
22 52 44.4
-225322.1
22 52 52.6
22 51 14.1
22 48 25.0
224423.9
•2239 9-5
-22 32 40.7
Var. of
Decl.
fori
Hour.
Noon.
+ 3-10
Merid-
ian Pa8-
sage.
h m
22 55.0
— ^cr; 22 49.4
6.8s 22 44.6
11.15 22 40.6
14.89 22 37.1
—18.05
90^63
33.63
34.08
95.04
-35.53
35-59
35.38
34.63
33.65
39
90W90
19.90
17.33
15.96
-13.03
10.68
8.31
5.63
3.95
— 0.18
+ 3.66
5-57
8.54
11.57
+14-64
22 34.2
22 31.9
22 30.0
22 28.5
22 27.5
22 26.8
22 26.4
22 26.3
22 26.5
22 26.9
22 27.5
22 28.4
22 29.4
22 30.5
22 31.9
22 33-3
22 34.8
22 36.5
22 38.3
22 40.2
22 42.1
22 44.2
22 46.3
2248.4
22 50.6
22 52.9
22 55.2
■s
a
o
Id
Q
Day of the Month.
Semidiameter. . . .
Horizontal Parallax
I3t.
6th.
nth.
i6th.
31 St.
a6th.
m
H
n
f
H
m
4.57
IZ03
4.05
za69
3.61
9.5X
6!6i
3.0X
7.94
3.83
7.45
318t
n
2.68
7.07
I
2
3
4
5
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Right Ascen-
sion.
Noon.
h m 8
19 34 22.04
19 40 38.26
19 46 57.25
19 53 18.79
19 59 42.69
20 6 8.77
20 12 36.85
20 19 6.80
20 25 38.47
203211.74
20 38 46.51
20 45 22.67
2052 0.14
20 58 38.86
21 5 18.77
21 II 59.80
21 18 41.91
21 25 25.08
21 32 9.29
21 38 54-52
214540.76
21 5228.00
21 59 16.26
22 6 5.55
22 12 55.87
22 19 47.22
22 26 39.62
22 33 33-o6
22 40 27.53
22 47 23.00
22 54 19.44
23 1 16.78
Var. of
R.A.
fori
Hour.
Noon.
Apparent
Decimation.
Noon.
s
+15.615
15.735
15.845
15.948
16.049
+16.199
i6.aio
16.985
16.354
16.418
+16.478
16.535
16.588
16.638
16.686
+16.739
16.777
16.820
16.863
16.905
+16.947
16.989
17.032
17.075
17.118
+17.161
17.905
17.348
17.990
17.331
+17-371
+17.407
—22 32 40.7
22 24 56.3
22 15 55-4
22 537.1
21 54 0.7
-21 41 5.4
21 26 50.5
21 II 15.5
20 54 19.8
2036 3.0
20 16 24.5
95524.0
9 33 1-2
9 915-8
844 7.4
8 17 35-9
74941.1
7 20 22.9
6 49 41. X
6 17 35.8
5 44 ' 7-0
5 9X+7
4 32 59-2
3 55 ao-9
3 16 20.0
2 35 57-1
I 54 I3-0
I II 8.6
o 26 45.0
941 3-7
-854 6.4
- 8 5 55.4
Var. of
DecL
fori
Hour.
Noon.
+ ^7'77
ao.93
94.14
97.38
30.65
+ 33-96
37-39
40.64
44.01
47-40
+ 50.81
54-33
57.67
61.13
64.58
+ 68.05
71.53
75.00
78.48
81.96
+ 85.44
88.91
93-37
95-89
99.96
+109.66
io6.ot
X09..M
xit.61
ZIS.8X
+118.94
+131.96
Merid-
ian Pas-
sage.
h m
22 55.2
22 57.6
23 0.0
23 2.5
23 5-0
23 7-5
23 X0.1
23 12.7
23 15-3
23 17-9
23 20.6
23 23.3
23 26.0
23 28.7
23 31-5
23 34-2
23 37-0
23 39-8
23 42.6
23 45-5
23 48.3
23 51.2
23 54.1
23 57-0
23 59-9
• • .
o 2.8
o 5.8
o 8.8
o 11.7
014.7
017.7
Day of the Month.
Semidiameter ....
Horizontal Parallai .
3th.
258
6.79
loth.
xso
6.59
i5tb.
345
645
90th.
2sth.
349
&37
241
&96
NoTB.— The sign + indicates north declinations; the sign — indicates sooth decUnations*
MERCURY, 1912.
147
GREENWICH MEAN TIME.
MARCH.
e
o
s
0
>^
19
Q
z
2
3
4
5
6
7
8
9
10
II
12
13
14
15
i6
17
i8
19
20
21
22
23
25
26
27
28
29
30
31
32
Apparent
Right Ascen-
sion.
Noon,
h ro s
22 47 23.00
22 54 19.44
23 z 16.78
23 8 14.91
23 15 13-69
23 22 12.94
23 29 12.39
23 36XX-73
23 43 10-56
2350 8.40
2357 4-64
o 358.59
O TO 49.42
01736.19
o 24 17.83
03053-14
o 37 20.83
04339-52
04947-74
0 55 43-97
z I 26.66
1 654.28
I" 5-33
1 16 58.35
I 21 31.97
I 25 44.91
I 29 36.01
133 4-25
136 8.73
I 38 48.71
141 3.64
14253.15
Var. of
R.A.
fori
Hour.
Noon,
s
+17.331
X7.371
17.407
17-437
17.461
+17.475
17-477
17.465
17-434
X7.38X
+17.301
17.189
17.040
16.850
16.61s
+16.322
15.976
15.570
X5.X03
14.57a
+13.976
13.316
13.595
11.814
xa978
•f-zaogs
9.160
8.188
7.X81
6.X48
+ 5.095
+ 4.030
Apparent
Declination.
Var. of
DecL
fori
Hour.
Noon.
Noon,
e » w
m
- 94X 3.7
+115.81
854 6.4
XI8.94
8 555.4
131.96
7 16 33.3
124.86
6 26 3.4
127.61
- 5 34 29.5
+130.19
44156.2
132.55
3 48 29.0
134.67
2 54 M-3
136.50
I 59 19.5
138.00
- X 353.1
+139."
-. 0 8 4.9
139*82
+ 0 47 54.4
140.04
I 43 52.8
139.73
2 39 37-1
138.85
+ 3 34 53-0
+137.37
4 29 25.7
135.85
5 22 59.6
132.47
615 18.9
129.03
7 6 7.7
124.93
+ 75510.1
+120.17
842 II.O
114.81
9 26 56.2
ZO8.86
zo 9 12. 1
102.37
10 48 46.1
95-39
+11 25 27.0
+ 87.96
"59 4-7
80.13
122930.1
71.94
12 56 35.2
63.44
13 20 13.0
54.66
+13 40 17.2
+ 45.65
+135642.7
+ 36.45
Merid-
ian Pas-
sage.
h zn
O II. 7
014.7
017.7
o 2a8
023.8
o 26.9
o 29.9
o 33.0
o 36.0
039.1
042.1
045.0
047.9
o 50.8
053-5
0 56.1
058.7
1 .1.0
I 3-2
I 5-3
I 7.0
I 8.5
1 9.7
I 10.6
I 11.2
I 11.5
I II. 4
I 10.9
I Z0.0
I 8.7
I 7.0
I 4.9
APRIL.
6
O
•8
Q
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
z6
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Right Ascen-
sion.
Noon,
h m s
425315
44 17-07
45 15-44
4548.58
45 57-08
45 41-80
45 3.9X
44 4-91
42 46.58
41 11.03
39 20.62
37 17-96
35 5-84
3247-17
30 24.89
28 1.94
2541-15
23 25.21
21 16.58
19 17.47
17 29.80
15 55.19
1434-97
13 30.17
1241.55
Z2 9.62
II 54.66
11 56.76
12 15.87
12 51.79
13 44.22
14 52.80
Var. of
R.A.
fori
Hour.
Noon.
s
+4.030
a.963
1.903
•fo.862
-0.148
—1.116
8.029
2.874
3.638
4-308
-4.874
5.338
5.662
5.874
5.963
-5.931
5.783
5.5a8
5.176
4.737
-4.224
3.650
3.027
a.367
1.68Z
.978
—0.268
+0.443
Z.148
X.843
+2.524
+3.188
Apparent
Declination.
Var. of
Decl.
for I
Hour.
Noon,
Noon.
e r t*
M
+13 56 42.7
+36.45
14 925.3
97.09
14 18 21.9
17. 62
14 23 30.7
+ 8.11
14 24 51.2
- 1.39
+14 22 24.7
-XO.79
14 16 14.6
ao.01
14 626.5
38.95
13 53 8.7
37.47
133632.4
45.46
+13 16 52.0
-52.79
12 54 24.8
59.34
Z2 29 31.0
64.98
12 233.6
69.62
II 33 57.8
73.17
+11 4 10.3
-75.59
10 33 38.6
76.85
10 2 5a3
76.97
9 32 12.6
75.99
9 2 IZ.I
73.98
+ 8 33 9.4
-71.02
8 528.9
67.33
73928.3
62.71
7 15 23.4
57.60
6 53 27.1
52.02
+ 6 33 49-4
-46.07
6 16 37.9
39.85
6 I 57.8
33.46
5 49 52.2
26.99
54022.1
20.51
+ 5 33 27.1
-14.08
+ 5 29 5-7
-7.73
Merid-
ian Pas-
sage.
h m
1 4.9
Z 2.3
059-3
055-9
o 52.1
047-9
043.4
038.5
0 33-2
o 27.7
o 21.9
015.9
o 9.8
( 0 8.«
ISS 57.S
23 51.0
23 44-8
23 38.6
23 32.5
23 26.6
23 20.9
23 15-4
23 10.1
23 5-1
23 0.4
22 55-9
22 51.7
22 47.8
22 44.2
22 4a8
22 37-7
22 34-9
22 32.4
Day of the Month.
Semldiaxneter ....
Horisontal Parallax
XSt.
6th.
nth.
i6th.
2I8t.
26th.
n
0*
*>
M
**
M
243
6.41
2.50
&58
&6i
6.89
2.81
7.4a
3.13
8.25
3.58
943
3zst.
Day of the Month.
4.15
10.94
Semidiameter
Horisontal Parallax . .
5th.
12.64
zoth.
If
5-39
14.20
X5th.
5.77
15.20
20th.
25th.
5.82
15-34
5.58
14.71
30th.
5.18
13.65
The sijgn + prefixed to the hourly change of declination indicates that south declinations are decreasing, or north
declinations increasing. The sign — indicates tha t north declinations are decreasing.
148
MERCURY, 1912.
GREENWICH MEAN TIME.
MAY.
JUNE.
d
o
o
>»
Q
I
2
3
4
5
7
8
9
zo
II
12
13
M
15
i6
17
i8
19
■20
21
^2
23
^4
25
26
27
28
29
30
31
32
Apparent
Right Ascen-
sion.
Neon,
h m s
1344.22
14 52.80
16 17.08
17 56.58
19 50-83
21 59-33
24 21.59
2657.12
29 45-47
32 46.22
35 58.97
3923.35
42 59.04
4645.74
5043.21
54 51.24
59 9-67
2 3 38.36
2 8 17.21
2 13 6.18
2 x8 5.27
2 23 14.50
2 28 33.92
234 3-65
2 39 43.81
2 45 34.55
251 36.07
25748.56
3 412.25
3 10 47-37
31734-15
3 24 32.80
Var. of
R. A.
for I
Hoar.
Noon,
Apparent
Decunation.
s
+ a. 5*4
3.188
3.83a
4.456
5.061
+ 5.645
6.307
6.730
7.376
7.784
+ 8.276
8.754
9.3x9
9.672
0.XZ3
0.55a
a983
X.408
X.830
3.35X
3.673
3.096
3.533
3-955
4.393
4.838
5.39X
5.75a
6.333
6.704
Noon.
7.X94
7.695
+ 53327-1
529 5-7
52715-3
5 27 52.2
5 30 52.5
+ 53611.6
5 43 44.6
5 53 26.5
6 5 12.0
6 18 55.9
+ 6 34 32.9
65157.9
711 5.8
7 31 51.4
7 54 9-8
+ 8 17 56.2
843 5.6
9 933.4
93714.8
10 6 5.3
+1036 0.3
11 655.1
11 38 44.9
12 II 25.1
12 44 50.8
+13 18 56.9
13 53 38.0
14 28 48.6
15 422.8
15 40 14.4
4-16 16 16.6
-M6 52 22.2
Var. of
Dec!.
for z
Hour.
Noon.
—14.08
7.73
- 1.51
+ 4.55
10.43
+X6.I3
31. 60
36.86
31.90
36.73
+41.34
45.73
49*90
53.86
57.63
+61.19
64.55
67.7a
70.70
73.'<8
+76.07
78.46
80.65
8a.6s
84.45
+86.03
87.38
88.49
89.34
89.93
+90.31
+90. ao
Merid-
ian Pas-
sage.
h m
22 34-9
22 32.4
22 30.1
22 28.0
22 26.2
22 24.6
22 23.2
22 22.1
22 21. 1
22 20.4
22 19.9
22 19.5
22 19.3
22 19.3
22 19.5
22 19.9
22 20.4
22 21. 1
22 22.0
22 23.0
22 24.2
22 25.5
22 27.1
22 28.8
22 30.7
22 32.8
22 35.0
22 37.5
22 40.1
22 43.0
22 46.0
22 49.2
d
o
o
Q
Day of the Month.
Semidiameter . . .
Horizontal Parallax
5th.
47a
IM5
loth.
4.38
ZI.39
15th.
3.89
10.34
3oth.
3.53
9,31
35th. 30th.
3.a3
8.53
3.98
7.85
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Right Ascen-
sion.
Noon,
h m s
3 24 32.80
3 31 43.55
3 39 6-58
3 46 42.01
3 54 29.89
4 2 30.22
4 1042.88
419 7.63
4 27 44-09
4 36 31-72
44529.81
4 54 37-47
5 353.65
5 13 17.12
5 22 46.49
5 32 20.28
5 41 56.90
.5 51 34-74
6 I 12.16
6 10 47.56
6 20 19.44
6 29 46.40
639 7-14
6 48 20.51
6 57 25.52
7 621.32
7 15 7-22
7 23 42.64
732 7-13
74020.36
748 22.10
7 56 12.18
Var. of
R. A.
for I
Hour.
Noon.
8
+17.695
18.203
18.717
19.335
19.754
-I-3O.37X
30.781
3X.378
31.756
33.308
+33-637
33.005
a3.335
33.6x1
33.837
+33.978
34.06a
34.079
34.038
33.9x2
+a3.735
33.503
33.3x8
33.889
33.533
-Hw.133
31.698
31.351
30.788
30.3x4
+19.831
+19.348
Apparent
Decimation.
Noon,
+16 52 22.2
17 28 23.5
18 4 12.0
18 39 38.7
19 14 34.2
+19 48 48.1
2022 9.2
205426.3
21 25 27.5
21 55 0.6
+22 22 53.1
224853.1
23 12 48.9
23 34 29.6
23 53 45-3
+24 10 27.7
24 24 29.7
24 35 46.3
24 44 14.1
24 49 51-9
+245240.1
24 52 40-7
24 49 57.2
24 44 34-6
24 36 38.8
+24 26 16.7
24 13 35.5
23 58 42.9
23 41 47.1
2322 56.1
+23 2 18. 1
+2240 0.9
Var. of
DecL
for I
Hour.
Noon.
-H90.30
89.85
89.14
88.04
86.53
+84.56
83.13
79.3X
75.79
71.86
+67.48
63.49
57.08
51. a3
45.OX
+38.47
31.67
34.70
17.63
ia53
+ 3.49
-3.43
zai7
16.68
33.93
—88.87
34-51
39.83
44.78
49.40
-53.70
-57.66
Merid-
ian Pas-
sage.
h zn
22 49.2
22 52.7
22 56.3
23 0.2
23 4.2
23 8.5
23 I3-0
23 ^7-7
23 22.5
23 27.6
23 32.8
23 38.1
23 43.6
23 49.2
23 54-8
o as
o 6.2
o 1 1.9
o 17.6
023.2
028.7
034.1
039-4
044.5
049.5
054.4
0 59.0
1 3-5
I 7.8
I 11.9
I 15.8
Day of the Month.
Semidiameter
Horizontal Parallax . .
4th.
n
3.78
7.31
9th.
3.63
6.93
14th.
6.i9
X9th.
3.53
6.6s
34th.
f.
6,78
39th.
x68
7jo6
NoTK. — The sign + indicates north declinations; the sign ~- indicates south declinations.
MERCURY, 1912.
149
GREENWICH MEAN TIME.
JULY.
AUGUST.
B
O
Apparent
Right Ascen-
sion.
Var. of
R.A.
fori
Hour.
Apparent
Declination.
Var. of
DecL
fori
Hour.
Merid-
ian Pas-
•
§
Apparent
Right Ascen-
sion.
Var. of
R.A.
fori
Hour.
Apparent
Declination.
Var. of
Decl.
fori
Hour.
Merid-
ian Pa»>
»4
o
sage.
*4
0
sage.
J^a^M.
Noon.
Noon,
Noon.
1
Noon.
Noon.
Noon,
Noon,
b m 8
s
e r I*
H
b m
h m 8
8
• » »•
n
h m
I
748 22. 10
+19.831
+23 2 18. 1
-53.70
I II.9
I
1022 2.19
+4.4a8
+ 7 31 23.7
-58.77
143.0
2
7 56 12.18
19.34a
22 40 0.9
57.66
I 15.8
2
10 23 40.69
3.776
7 838.5
54.94
I 40.7
3
8 350.51
18.853
22 16 12.6
61.30
I 19.5
3
1025 3.27
3.101
6 47 29.7
50.75
I 38.x
4
8 II 17.06
18.361
21 51 0.7
64.63
I 23.0
4
1026 9.37
2.403
628 5.7
46.20
I 35-2
5
1
8 18 31.84
17.871
21 24 32.6
67.66
I 26.3
5
10 26 58.43
X.682
6 10 35.1
41.29
I 32.x
6
8 25 34.90
+17.384
+20 56 55.4
-70.40
I 29.4
6
10 27 29.91
+0.939
+ 5 55 6.8
—36.01
I 28.7
7
8 32 26.30
16.900
20 28 x6.o
73-85
I 32.3
7
102743.31
-I-O.I76
5 41 49.8
30.34
I 25.0
8
8 39 6.14
16.420
19 58 40.9
75.03
I 35.0
8
10 27 38.20
-0.603
5 30 53-3
34.30
I 20.9
9
8 45 34-51
15.944
19 28 16.4
76.96
I 37.5
9
10 27 14.24
X.395
5 22 26.2
17.90
I 16.6
10
85151.51
15.47a
1857 8.7
78.64
I 39.8
10
10 26 31.20
3.192
5 16 37.0
ZI.I5
I XI.9
II
8 57 57-23
+15.004
+18 25 23.7
~8o.o8
I 42.0
II
10 25 29.05
-2.987
+ 5 13 33-6
— 4.08
I 6.9
12
9 3 51-77
14.540
1753 7-0
81.28
143.9
12
1024 7.94
3.770
5 13 23.0
+ 3. as
X 1.6
13
9 9 35-20
14.079
17 2024.1
82.26
I 45-7
13
10 22 28.28
4.530
5 x6 10.8
low 77
0 56.X
14 915 7-58
13.620
1647 20.4
83.02
147-3
M
10 20 30.78
5.854
5 22 0.6
18.40
0 50.2
15 . 9 20 28.97
13.163
16 14 1.2
83.56
148.7
15
10 18 16.50
5.9a6
5 30 53.8
86.03
0 44.0
16
92539-39
+12.705
+154031.5
-83.89
149.9
16
10 15 46.88
-6.539
+ 54249-2
+33.55
037.6
17
9 30 38.83
12.247
15 656.5
84.00
I 51.0
17
10 13 3-79
7.045
5 57 42.2
40.81
0 30.9
18
9 35 27.26
11.788
143321.1
83.91
I 51.8
18
10 10 9.52
7.458
6 15 24.7
47.65
0 24.1
19
940 4.65
11.327
13 59 50.4
83.62
I 52.5
19
10 7 6.78
7.749
6 35 44-9
53.9a
0 17.1
20
9 44 30.90
10.861
13 2629.3
83. 1 z
I 53-0
20
10 358.68
7.902
6 58 26.9
59-45
0 10. 1
21
9 48 45-92
+10.389
+12 53 22.9
-82.39
I 53.3
21
10 0 48.69
-7-905
+ 723 11.2
+64.09
( 0 S.0
22
95249-55
9.91 1
1220 36.3
81.46
I 53.4
22
9 57 40.53
7.747
7 49 35.0
67.71
23 49.1
23 95641.61
9.425
II 48 14.8
80.31
I 53.3
23
95438.11
7.425
8 17 12.5
70.22
23 42.3
24 10 0 21.90
8.930
11 1623.5
78.93
I 53.0
24
9 51 45-41
6.938
84536.1
71-54
23 35-7
25
10 350.16
8.423
1045 7.9
77.3a
152.5
25
9 49 6.38
6.288
9 H 16.7
71-64
2329.4
26
10 7 6.II
+ 7.903
+10 14 33.7
-75.48
I 51-8
26
9 46 44.79
-5.486
+ 9 42 44-9
+70.53
23 23.5
27 1 10 10 9.41
7.369
9 44 46.7
73.39
X 50.9
27
94444.15
4.544
10 10 31.8
68.20
23 17.9
28
10 12 59.70
6.8X9
9 15 53.0
71.04
X 49.8
28
9 43 7.62
3.480
1037 9.4
64.75
23 12.8
29
10 15 36.59
6.251
84759.1
68.42
X 48.4
29
9 41 57-92
2.312
II 2 XI. 6
6a 27
23 8.2
30
10 17 59.62
5.664
821 IX.5
65.51
I 46.8
30
941 17.31
—1.060
II 25 14.7
54.84
23 4.1
31
1020 8.32
+ 5.057
+ 75537.3
—62.30
X45.0
31
941 7-54
+0.254
+11 45 57.2
+48.57
23 0.5
32
1022 2.19
+ 4.4aP
+ 7 31 23.7
-58.77
X 43.0
32
9 41 29.83
+1.609 +12 4 0.0
+41.56
22 57-5
I
>ay of the Month.
4th.
m
9th.
Z4th.
19th.
a4th.
29th.
Day of the Month.
3d.
8th.
Z3th.
z8th.
23d.
28th.
M
w
M
m
t*
*»
•>
»
M
t
Se
midiameter . . .
inzontal Parallax
2.83
7.45
3.01
7.93
3.a3
8.51
3.49
9.19
3.79
9-97
4.13
10.87
Semidiameter . . .
Horizontal Parallax
.1:?!
4.91
12.93
5.26
13.86
5.44
X4.35
5.3a
Z4.O2
4.87
12.84
"^e sipi . prefixed to the hourly change of declination indicates that north declinations are decreasing; the sign
+ indicates that north declinations are increasing.
150
MERCURY, 1912.
GREENWICH MEAN TIME.
SEPTEMBER.
OCTOBER.
Q
I
2
3
4
5
6
7
8
9
lo
zz
Z2
13
14
X5
z6
17
z8
19
20
2Z
22
23
24
25
26
27
28
29
30
31
32
Apparent
Right Ascen-
sion.
Noon,
h m 8
9 41 29.83
9 42 24.89
9 43 52.96
9 45 53.80
9 43 26.74
9 51 30.71
9 55 4.29
9 59 5.79
o 3 33*22
o 8 24.40
o Z3 37.02
o 19 8.67
o 24 56.92
o 30 59.37
o 37 13.69
o 43 37.70
050 9.36
0 56 46.82
1 3 28.44
z zo Z2.78
z z6 58.59
I 23 44.83
z 30 30,66
I 37 15.36
14358.39
I 50 39.33
1 57 17.88
2 353.83
2 zo 27.03
2 z6 57.43
2 23 25.02
2 29 49.82
8
+ 1.
5
7
Var. of
R.A.
fori
Hour.
Noon,
609
.983
355
710
oa8
+ 8.293
9.494
ZO.617
IX.653
ia.595
+X3.439
14.182
14.823
15.365
15.8x3
+16.X73
16.45a
16.658
X6.800
X6.886
+16.924
16.923
Z6.890
16.83 1
x6.75a
+X6.658
X6.553
16.441
16.325
X6.208
+X6.091
+15.976
Apparent
Declination.
Var. of
DecL
fori
Hour.
Noon,
Noon.
e * if
m
+Z2 4 0.0
+ 4X.56
Z2 19 6.9
33.93
12 31 4.3
25.78
Z2 39 40.8
X7.2I
Z2 44 47.8
+ 8.34
+Z246 19. Z
- 0.75
Z2 44 Z0.8
9.96
Z2382Z.2
19.17
Z2285Z.3
28.30
12 Z5 44.3
37.95
+IZ 59 5.6
-45.9a
ZZ39 2.9
54.a4
II 1545.5
62.13
zo 49 24.4
69*54
zo 20 Z2.0
76.40
+ 94821.9
— 82.68
9Z4 8.Z
88.37
8 37 44.8
93.47
7 59 26.2
97.98
7 19 26.3
X0X.92
+ 6 37 58.6
-X05.31
5 55 15.8
X08.X8
5 zz 29.8
"0.57
4 26 51.6
"a.53
3 41 31.3
1x4.09
+ 2 55 38.1
— XX5.28
2 920.3
1x6. X4
z 22 45.6
1x6. 70
+ 0 36 0.6
1x7.00
- 01048.7
1x7.06
- 0 57 36.9
'-XX6.9X
- I 44 19.1
— X16.58
Merid-
ian Pas-
sage.
h xn
22 57.5
22 55.0
22 53.0
22 5Z.6
22 50.7
22 50.3
22 50.4
22 50.9
22 51.8
22 53.0
22 54.6
22 56.4
22 58.5
23 0.8
23 3.3
5.9
8.6
23
23
23 11.3
23 Z4.1
23 16.9
23 Z9.8
23 22.6
23 25.4
23 28.2
23 30.9
2333.6
23 36.3
23 38.9
23 41.5
2344.0
23 46.5
23 48.9
6
%
z
2
3
4
5
6
7
8
9
zo
xz
12
13
14
15
16
17
z8
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Right Ascen- ,
sion.
Var. of
R. A.
forx
Hour.
Noon.
Noon.
h m 8
s
Z2 23 25.02
+X6.09X
Z2 29 49.82
15.976
Z2 36 ZZ.90
X5.864
124231.35
15.757
Z2 48 48.3Z
15.656
Z2 55 2.89
+15.560
13 1 15.23
15.470
13 725.49
15.387
I3I333.8Z
15.310
131940.36
X5.239
132545.30
+15.175
Z3 31 48.78
15.117
133750.96
15.066
13 43 51.97
X5.02X
13 49 51.97
14.981
13 55 51.10
+14.947
14 149.48
14.919
14 747.25
14.896
141344.52
14.877
14 19 41 40
14.863
14 25 37.98
+14.853
14 31 34-35
X4.846
14 37 30.58
14.84a
14 43 26.74
14.840
Z4 49 22.88
X4.B40
14 55 19.04
+X4.84X
15 115.23
14.84a
15 711.45
X4.84a
15 13 7.68
14.84a
15 19 3.89
X4.840
Z525 0.00
+14.835
15 30 55.93
+14.825
Apparent
Declination.
Noon.
o 57 36.9
z 44 19. z
2 30 51.0
317 8.9
4 3 9.3
44849.1
5 34 5.5
6 z8 56.0
7 318.4
7 47 10.4
8 30 30.3
9 X3 Z6.3
9 55 26.7
o 36 59.9
z Z7 54.6
158 9.4
2 37 42.8
3 16 33.8
35441.0
432 3.1
5 839.0
54427.5
6 Z9 27.4
6 53 37.4
7 26 56.3
7 59 22.9
8 30 55.9
9 I 340
9 31 15.8
20 o 0.0
-202745.3
-2054 30. z
Var. of
Decl.
forx
Hoar.
Noon.
X6.9X
16.58
16.07
15.40
X4.6x
13.69
X2.66
xx.54
xa3x
:o9.ox
07.63
06. X9
04.67
03.09
01.46
99.77
98.02
96.22
94.37
9a.47
90.52
88.52
86.47
84.36
82.2X
80.00
77.74
75.43
73.05
7a 6a
— 68.13
- 63.58
Merid-
ian Pas-
sage.
h m
2346.5
23 48.9
23 51.3
23 53.6
23 55.9
23 58.2
• • •
o 0.4
O 2.6
o 4.8
o 6.9
o 9.x
O ZZ.2
o Z3.2
OZ5.3
OZ7.3
o X9.4
o 2Z.4
023.4
025.4
027.4
o 29.4
031.4
033.4
035.4
037.4
039.4
041.4
043.4
045.4
047.4
049.4
Day of the Month.
Semidiameter
Horizontal Parallax . . .
2d.
4-a5
IX.2X
7th.
3.65
9.6X
X2th.
3.X7
8.34
XTth.
2.83
7.45
22d.
2.61
6.88
27th,
Day of the Month.
2.47
6.52
Semidiameter
Horizontal Parallax . . .
2d.
2.40
6.3X
7th.
2,36
6.2X
xath.
a.35
6.19
XTth.
2.36
6.23
22d.
2.40
6.33
27th.
2.46
6,49
NoTB,— The sign + indicates north declinations; the sign — indicates south declinations.
MERCURY, 1912.
GREENWICH MEAN TIMK
151
NOVEMBER.
DECEMBER.
s
I
2
3
4
5
6
7
8
9
zo
zx
Z2
13
14
X5
i6
x8
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Right Asceii'
sioiL
Noon,
h m s
5 30 55-93
53651-55
54246.71
5 48 41.22
5 54 34-84
6 027.30
6 618.26
612 7.34
6 17 54.10
6 23 37.99
6 29 18.42
6 34 54-69
6 40 26.02
6 45 51-48
6 51 10.04
65620.54
7 I 21.61
7 6 "-73
71049.19
7 15 12.05
7 19 18.14
723 5-05
7 26 3aix
7 29 30.39
732 2.70
7 34 3-70
7 35 29.91
7 36 17-84
73624.15
7 35 45-90
73420.87
732 7.90
Var. of
R.A.
for X
Hour.
Noon,
8
+i4-8«5
14.809
X4.786
14-754
X4.7xa
+14-657
X4.5»7
14-500
X4-393
X4.a62
+I4-X03
13.914
13.690
X3.4a5
X3.XX4
+xa,75X
13.348
X 1.838
XX.371
XO.6X9
+ 9.87a
9.019
8.049
6.952
5.7x8
+ 4.34X
3.818
+ X.T51
-a647
a-557
1-4-539
6.54a
Apparent
Declination.
Aooi*.
r
-20 54 30.1
21 20 12.9
21 44 52.2
22 8 26.4
22 30 54.0
—22 52 13.2
23 12 22.3
23 31 19-7
2349 3.6
24 532.1
-24 20 43.6
24 34 36.2
2447 8.1
24 58 X7.4
25 8 2.5
-25 16 2X.7
252313.0
25 28 34.9
25 32 25.7
253443-8
-25 35 27.5
25 34 35.3
2532 5-5
25 27 56-3
2522 6.1
-25 14 32.8
25 514.x
2454 7.6
24 4X 10.8
24 262X.1
-24 936.5
-23 50 55-8
Var. of
Decl.
for I
Hoar.
Noon,
-€5-58
6a.97
60.99
57.55
54.73
-51.85
48.89
45.87
4a.77
39.59
-36.34
33.0a
29.63
26.X4
32.60
-X8.98
X5.29
".53
7.70
— 3.80
+ 0,17
4.20
8.30
12.47
X6.72
+3X.06
a5.50
30.05
34.70
39.46
+44.a8
4-49. 10
Merid-
ian Pas-
sage.
h m
049.4
051-4
053.3
055-3
057.3
059.2
X X.Z
I 3-0
X 4.8
X 6.6
X 8.3
I zao
X 11.6
X 13.x
X 14.4
X 15.6
X 16.7
X X7.6
X 18.3
I 18.7
X 18.9
I 18.7
X 18. 1
X X7.1
X X5.7
I X3.8
I II. 2
X 8.1
X 4.2
059.6
054-3
o 48.1
X
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Right Ascen-
sion.
Noon,
h m 8
7 34 20.87
732 7.90
729 7.28
7252X.19
7 20 53.95
71552.17
7 10 24.64
7 44X.88
6 58 55.42
6 53 16.99
6 47 57-57
6 43 6.62
6 38 51-59
6 35 17-69
6 32 27.97
63023.57
6 29 4.08
6 28 27.93
6 28 32.77
6 29 15.77
6 30 33-92
6 32 24. 1 1
63443-34
6 37 28.79
6 40 37-83
6 44 8.05
6 47 57-29
652 3.61
6 56 25.25
7 I 0.68
7 548.54
7 xo 47.61
Var. of
R.A.
for X
Hoar.
Noon,
8
■4.539
6.542
8.496
xa3i5
1X.908
-X3.X78
14.042
14-441
U.349
-19*775
n.4X9
9.799
8.007
6.X30
- 4.a4X
2.395
- 0.634
+ X.OX7
2.545
+ 3.944
5.2x6
6.366
7.402
8.334
+ 9.»70
9.920
XO.593
XX.X99
XX. 744
-I-X2.236
-I-X2.680
Apparent
Declination.
Noon,
-24 936.5
23 50 55.8
23 30 20.7
23 756.1
22 43 52.4
—22 X8 27.0
21 52 5.2
21 25 20.2
20 58 52.1
203324.6
-20 94X.6
19 48 23.0
1930 X.3
19 14 59.5
19 330.5
-18 55 37.3
18 51 14.5
x8 50 10.6
1852 9.2
x8 56 51.2
-19 3 55-8
19 13 2.9
19 23 52.4
1936 5-3
19 49 24. 1
-20 3 32.7
20 18 16.5
20 33 22.3
20 48 38.6
21 3 55-1
-21 X9 2.4
-2X 33 52.5
Var. of
Decl.
for X
Hour.
M
OOH,
+44-a8
49.10
53.80
58.19
62.0X
+64-94
66.64
66.8X
65.22
6X.76
+56.53
49.78
41.86
33.20
24.21
+15.27
+ 6.7X
— 1.26
8.48
X4.86
39
23.07
28.93
33.03
34.43
-36. X9
37.37
38.04
38.25
38.05
-37.50
—36.63
Merid-
ian Pa».
sage.
h m
054-3
o 48.x
041.2
033-5
025.x
o x6.2
( 0 e.8
(28 67.8
23 47-5
23 38.0
23 28.8
23 20.Z
23 xx.g
23 4.4
22 57.6
22 5X.6
22 46.3
22 4X.8
22 37.9
22 34.6
22 32.0
22 29.8
22 28.2
22 27.0
22 26.2
22 25.7
22 25.6
22 25.7
22 26.1
22 26.7
22 27.6
22 28.6
22 29.8
Day of the Month.
Semidiameter
Horizontal Parallax . . .
xst
a.55
6.73
6th.
x68
7^
xxth.
x6th.
2X8t
H
3.85
7.5a
34>9
8.X4
M
343
gjoi
a6th.
Day of the Month.
3.87
xai9
Semidiameter . . .
Horizontal Parallax
xst.
w
441
IX.63
6th.
tt
4-86
x&8x
xxth.
tt
X2.78
x6th.
m
4.40
XI.59
2ISt.
It
3.86
xax7
26th.
It
34a
gjoi
3XSt
3.X0
8.X6
The sign — prefixed to the hourly change of declination indicates that south decUxiations are increasing; the sign
4. izidicates thi^t south declinations are decreasing.
152
VENUS, 1912.
GREENWICH MEAN TIME.
JANUARY.
FEBRUARY.
■S
a
o
5"
I
2
3
4
5
6
7
8
9
lo
II
12
13
14
15
x6
17
i8
19
2o
2Z
22
23
24
25
26
27
28
29
30
31
32
Apparent
Rignt Ascen-
siozL
Noon.
h m s
15 37 55-IO
15 42 38.61
154723.48
1552 9.71
155657.29
16 I 46.20
i6 6 36.44
16 11 27.99
16 16 20.83
16 21 14.94
16 26 10.29
16 31 6.86
16 36 4.62
16 41 3.53
1646 3.57
1651 4.70
1656 6.88
17 I 10.09
17 6 14.27
17 IX 19.38
171625.39
17 21 32.26
17 26 39.93
17 31 48.36
17 36 57-52
1742 7-34
17 47 17.78
17 52 28.80
175740-35
18 2 52.38
18 8 4.83
18 13 17.67
Var. of
R.A.
fori
Hoar.
NOOH.
s
+1X.784
XX.843
11.898
1X.954
xa.010
+X2.066
xa.121
xa.175
X2.2a8
la.380
+xa.332
xa.383
xa.43x
12.478
12.385
+12.370
12.613
12.654
12.694
ia.733
+12.769
12.803
12.836
12.867
za.896
+12.922
12.947
12.971
12.99a
13.010
+13.027
+13.04*
Apparent
Decimation.
Noon,
—16 48 39.0
17 543.6
17 22 27.4
17 38 49.7
17 54 49.6
-18 10 26.4
18 25 39.2
184027.3
18 54 49.9
19 846.3
-19 22 15.7
19 35 17.2
19 47 50.3
19 59 54-2
20 I z 28.2
~20 22 31.9
2033 4-5
2043 5.2
20 52 33.6
21 I 29.1
-21 951-2
21 17 39.4
21 24 53.2
21 31 32.1
21 37 35.7
•2143 3.6
21 47 55.4
21 52 10.8
21 55 49.4
21 5851.0
-22 X 15.3
—22 3 2.1
Var. of
Decl.
fori
Hour.
Noon.
-43.1a
Merid-
ian Pas-
sage.
U3
a
o
Q
42.26
21
41.38
21
40.47
21
39-5a
21
-38.54
2Z
37.5a
21
36.48
21
35.40
21
34-39
21
-33. X5
21
31.98
21
30.78
21
39.55
21
28.29
21
—27.01
21
25.70
21
a4-36
21
23.00
2X
21.62
21
—20.32
2X
18.80
21
X7.35
21
X5.89
21
I4.4X
21
—12.91
21
11.40
21
9.88
2Z
8.34
21
6.79
21
- 5.a3
2X
- 3.67
21
h m
20 59.5
0.4
1.2
2.0
2.8
3-7
4.6
5-6
6.6
7-5
8.5
9-5
10.5
11.6
12.7
13.8
14.9
16.0
17. 1
X8.3
19-5
20.7
21.9
23.1
24.3
25-5
26.7
28.0
29-3
3a6
31.9
33.1
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Right Ascen-
sion.
Noon,
h m s
18 13 17.67
18 18 30.83
18 23 44.28
18 28 57.96
x8 34 11.82
18 39 25.81
18 44 39.87
18 49 53.94
1855 7.98
19 o 21.92
19 535.69
19 zo 49.26
19 16 2.57
19 21 15.57
19 26 28.21
19 31 40.43
193652.19
1942 3.43
194714.II
19 52 24.20
19 57 33.64
20 2 42.41
20 750.46
20 x 2 57.76
20 x8 4.27
2023 9.97
20 28 14.84
20 33 18.85
20 38 21.98
2043 24.22
20 48 25.55
20 53 25.96
Var. of
R.A
fori
Hour.
NOOM.
8
+13.042
13.054
13.065
13.074
13.081
+ 13.084
13.086
13.086
13.083
13.077
+13.070
13.060
13.048
13.034
13.018
+13.000
12.979
12.956
12.933
12.907
+13.879
12.850
12.820
I3.7S8
13.754
+13*730
13.685
X3.649
Z3.6za
13.574
+13.536
+13.497
Apparent
Declination.
Noon,
o # •»
1—22 3 2.Z
22 4 XI.2
22 442.3
22 435.3
22 3500
—22 2 26.3
22 024.2
21 57 43.7
21 54 24-7
21 5027.3
-21 45 51.4
21 40 37.2
21 3444.8
21 28 14.4
21 21 6.2
-21 1320.3
21 457.0
20 55 56.6
204619.3
20 36 5.6
-20 25 15.7
201350.0
20 I 49.0
19 49 13.0
1936 2.5
-19 22 18.0
19 7 59-9
1853 8.6
18 37 44-7
x8 21 48.6
•18 5 2I.O
174822.4
Var. of
DecL
fori
Hoar.
Noon.
-S.67
8.09
— 0.50
+ 1.09
8.69
+ 4-a9
5.89
7.49
9.09
10.70
+13.30
13.89
15.48
17.06
18.63
4.30.19
21.74
33.38
34.81
36.33
+37.83
39.31
30.77
S3.98
35-65
+35.06
36.45
37-83
39-17
40.50
+41.80
+43.08
Merid*
ianPas^
sage.
m
33-1
34-4
35.7
37.0
38.2
39.5
40.8
42.1
43.4
44-7
46.0
47.2
48.5
49.8
5X.I
52-4
53.6
54.8
56.0
57.2
58.5
59-7
22 0.9
22 2.1
22 3.2
22 4.3
22 5.4
22 6.5
22 7.6
22 8.7
22 9.8
22 Z0.8
Daj of the Month.
Semidiameter . . . .
Horisontal Parallax.
xst.
8.98
9^35
6th.
8.66
8.9a
ixth.
8.36
8.6X
16th.
8x>8
8.33
318U
7.S3
8.07
a6th.
7.60
7-83
3XSL
Day of the Month.
7.39
7.61
Semidiameter . . .
Horizontal Parallax
5th.
7.X9
7.4X
10th.
7X>I
7.«a
15th.
m
6^
7j04
30th.
It
&67
6^7
asth.
6.5a
6.71
NOTB.— The sign + indicates north decUnatioiM; the sign — indicatet south declinations.
VENUS, 1912.
153
GREENWICH MEAN TIME.
MARCH.
•3
Q
I
2
3
4
5
7
8
9
lO
II
12
13
M
15
i6
17
z8
19
20
22
23
24
25
26
27
28
29
30
31
32
Apparent
Rignt Ascen-
sion.
Noon,
h m s
20 43 24.22
20 48 25.55
20 53 25.96
20 58 25.43
21 323.95
21 8 2Z.52
21 13 18.13
21 z8 Z3.78
2Z 23 8.46
2Z 28 2.17
21 32 54.90
21 3746.66
21 42 37-45
21 47 27.28
2Z 52 16.15
2157 4-07
22 Z 51*05
22 637.10
22 ZZ 22.24
22 Z6 6.48
Var.of
R.A.
for z
Hour.
Noon,
21 222049.83
22 25 32.31
22 30 13.95
22 34 54-77
22 39 34-79
22 44 Z4.03
22 48 52.52
22 53 30.29
2258 7.38
23 243.81
23 719-63
23 IX 54.86
8
+W-574
13.536
ia.497
13.458
13.4x9
+13.379
13.339
13.399
Z3.358
13.3X8
+13. 177
13.137
13.096
13.056
I3.0X7
+11.977
ZZ.938
iz.goo
IX.863
11.835
+11.789
z 1.753
1Z.718
11.684
11.651
+11.619
11.589
1Z.560
1Z.533
11.505
+11.480
+11.456
Apparent
Declination.
Noon,
82X48.6
8 5 2Z.O
7 48 22.4
73053-2
7x254.1
6 54 25.6
6 35 28.3
6z6 2.8
556 9.8
5 35 49-8
515 3-6
4 53 51-7
4 32 Z4-9
4 10 Z3.7
3 47 48.8
325 i.o
3 z 51.0
2 38 19.4
2 Z4 27.0
15014-3
z 25 42.2
z 05Z.4
o 35 42.5
o zo x6.2
944 33-3
9 18 34-5
8 52 20.4
8 25 51.8
7 59 9.2
7 32 Z3.3
- 7 5 4-9
6 37 44.6
Var. of
Decl.
fori
Hour.
Noon,
+40.50
41.80
43.08
44-34
45-58
+46.79
47.98
49. X4
50.38
5X.38
+58.46
53.5a
54-55
55.55
56.5a
+57.46
58.37
59.35
60.11
60.94
+61.73
63.50
63.34
63.95
64.63
+65.38
65.90
66.49
67.05
67.59
+68.10
+68.58
Merid-
ian Pas-
sage.
h zn
22 8.7
22 9.8
22 10.8
22 ZI.9
22 12.9
22 Z3.9
22 14.9
22 15.9
22 16.9
22 17.8
22 18.7
22 Z9.6
22 20.5
22 21.4
22 22.2
22 23.0
22 23.8
22 24.7
22 25.5
22 26.3
22 27. Z
22 27.8
22 28,5
22 29.3
22 30.0
APRIL.
a
o
z
2
3
4
5
6
7
8
9
zo
ZI
Z2
13
14
15
z6
17
z8
19
20
2Z
22
23
24
25
22 30.7 26
22 31.4 27
22 32.0 28
22 32.7 29
22 33.4 30
22 34.0 31
22 34.6 32
Apparent
Rignt Ascen-
sion.
Noon,
h zn s
23 ZZ 54.86
23 z6 29.53
23 2Z 3.68
23 25 37.34
23 30 ZO.56
233443.36
23 39 15.78
23 43 47-85
23 48 19.62
235251.13
23 57 22.39
o z 53.46
o 6 24.36
ozo 55.14
0Z5 25.83
o Z9 56.47
02427.ZO
o 28 57.75
o 33 28.45
03759-25
04230.Z8
047 Z.28
0 51 32.59
056 4.15
z o 36.00
z 5 8.Z7
z 9 40.70
z Z4 Z3.64
z z8 47.02
z 23 20.89
1 27 55.29
I 32 3a24
Var. of
R. A.
fori
Hour.
Noon,
8
+11.456
11.434
11.4x3
11.394
XX.375
+11.358
IZ.344
11.330
11.3x8
IZ.307
+11.398
11.391
11.385
11.380
11.377
+ZI.376
11.376
IZ.378
11.381
11.386
+11.393
11.300
11.3x0
11.331
11.334
+11*348
11.363
11*381
IZ.401
11.433
+XI.445
+XI.468
Apparent
Declination.
Noon,
-6 yj 44.6
6 zo Z3.2
5 42 31-2
5 14 39-4
44638.3
-4 z8 28.8
3 50 ".5
32Z47.Z
2 53 Z6.3
2 24 39.7
-I 55 58. z
Z 27 Z2.2
o 58 22.7
o 29 30.2
-o 035.5
+0 28 20.7
0 57 17.8
z 26 Z4.9
1 55 11-4
2 24 6.6
+2 52 59.8
3 2Z 50.3
3 50 37-4
4 Z9 20.3
4 47 58.4
+5Z63Z.Z
5 44 57-7
6 Z3 Z7.4
64129.5
7 933.5
+7 37 28.6
+8 5Z4.Z
Var. of
DecL
for z
Hour.
Noon,
+6B.58
69.03
69.46
69.85
70.33
+70.56
70.87
7X.X5
71.41
71.63
+7X.83
7X.99
73.13
73.34
73.31
+72.36
73.38
73.37
73.33
73.96
+73.16
73.04
71.88
7X.69
71.48
+71.34
70.97
70.67
70.34
69.99
+69.60
+69. z8
Merid-
ian Pas-
sage.
h m
22 34.6
22 35.2
22 35-9
22 36.5
22 37. Z
22 37.7
22 38.3
22 38.9
22 39.5
22 40. Z
22 40.6
22 4Z.2
22 4Z.8
22 42.4
22 42.9
22 43.4
22 44.0
22 44.6
22 45.2
22 45.8
22 46.3
22 46.9
22 47.5
22 48. Z
22 48.7
2249.3
22 49.9
22 50.5
22 5Z.Z
22 5Z.7
22 52.4
22 53.0
Day of the Month.
Semidiametar ....
Horizontal Parallax.
18t.
6.38
6.57
6th.
&35
6.44
iith.
&13
6.33
16th.
6.03
6.30
31St.
6.09
36t]L
5A8
5-99
318t.
Day of the Month.
sS
Semidiameter
Horizontal Parallax .
5th.
5.63
5.80
10th.
5.55
5.7a
15th.
5.48
5.64
30th.
5.41
5.57
25th.
5.34
5.50
30th.
5.38
5-44
NoTB. — The sign + prefixed to the hourly change of declination indicates that south declinations are decreasing*
north declinations increasing.
154
VENUS, 1912.
GREENWICH MEAN TIME.
MAY.
JUNE.
%
5"
Q
Z
2
3
4
5
7
8
9
zo
II
12
13
M
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Right Ascen-
Var. of
R. A.
for I
sion.
Hour.
NoffM,
Noon,
h m s
s
I 27 55.29
+".445
I 32 30.24
Z1.46B
137 5-78
ZZ.494
z 4Z 41.96
xz.sax
I 46 18.81
XX. 550
15056.37
+11.580
I 55 34-66
XZ.6XX
2 0 13.72
XX.644
2 453.58
XX.G78
2 934.27
XX.7X3
2 14 15.82
+11.750
2 18 58.25
11.787
22341.59
X 1.825
2 28 25.88
XX.865
2 33 IZ.I2
XI.905
2 37 57-34
+xx,946
2 42 44.55
ZX.988
2 47 32.78
xa.03z
2 52 22.04
xa.074
2 57 12.34
xa.xz8
3 2 3.70
+ia.z6a
3 656.14
xa.ao7
31149.66
X2.253
3 16 44.27
X2.a98
3 21 39.98
xa.344
3 26 36.80
+ia.39x
3 31 34-74
xa.438
3 36 33.79
za.485
3 41 33.96
X3.53X
3 46 35-24
xa.577
3 51 37.64
+za.6a3
35641.15
+xa.669
Apparent
Declination.
Noon,
n
+ 7 37 28.6
8 5 14.1
8 32 49.3
9 013.5
92726.1
+ 9 54 26.3
021 13.5
0 47 46.8
114 5.5
1 40 9.0
2 556.5
2 31 27.3
2 56 40.6
32135-8
3 46 12.0
4 zo 28.6
4 34 24.7
4 57 59-6
5 21 12.6
5 44 3-0
6 6 30.1
6 28 33.2
65011.5
711 24.2
7 32 10.7
7 52 30.3
8 12 22.4
8 31 46.2
8 50 41. 1
9 9 6.4
+
+
927 1.5
9 44 25.6
Var. of
Decl.
for z
Hoar.
Noon,
4«9.6o
69. x8
68.74
68.37
•H7.M
66.68
66.09
65.47
64.8a
+64.13
63.4a
6a.68
61.91
6x.xz
+60.87
59.40
58.50
57.58
56.6a
+55.63
54.6a
53.57
5a.49
5X.38
+50.25
49.09
47.89
46.67
45*43
+44.»5
+48.85
Merid-
ian Pas-
sage.
h m
22 52.4
22 53.0
22 53.7
22 54.4
22 55.0
22 55.7
22 56.4
22 57.1
22 57.9
22 58.7
22 59.4
23 0.2
23 Z.O
23 Z.8
23 2.6
23 3.4
23 4.3
23 5.2
23 6.Z
23 70
23 8.0
23 9.0
23 9.9
23 10.9
23 11.9
23 12.9
23 13-9
23 14.9
23 16.0
23 17-1
23 18.2
23 19.3
4
g
o
Q
I
2
3
4
5
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Rignt Ascen-
sioiL
Noon.
h m 8
35641.15
4 145-76
4 651.46
411 58.24
4 17 6.09
4 22 14.97
4 27 24.88
4 32 35-79
4 37 47.67
4 43 0.50
4 48 Z4.23
4 53 28.84
4 58 44-29
5 4 0.53
5 917-53
5 14 35.24
5 19 53.60
5 25 12.57
53032.11
53552.16
5 41 Z2.66
54633.57
5 51 54.82
5 57 16.38
6 238,18
6 8 0.16
6 1322.28
6 z8 44.47
6 24 6.69
6 29 28.86
6 34 50.95
6 40 12.89
Var. of
R. A.
forz
Hour.
Noon.
8
+Z2.669
xa.7Z5
xa.76z
xa.805
xa.849
+18.893
xa.934
ia.975
13.015
X3.053
+13.09X
X3«za6
z3.z6o
X3-X93
X3.aa3
+X3.a5a
X3.a77
x3.3oa
X3.3a5
X3.345
+X3,363
13*378
X3.39S
Z3.403
X3-4"
+13.419
Z3.4t3
13.485
13.4*5
X3.433
+Z3.4«8
+X3-410
Apparent
Decimation.
Noon,
+19 44 25.6
20 Z 18. 2
20 17 38.6
203326.1
204840.1
+21 320.Z
21 1725.3
21 30 55.3
214349.5
21 56 7.3
+22 748.2
22 Z8 5Z.6
22 29 17.2
2239 4-4
22 48 Z2.7
+22 56 41.7
23 431.0
23 II 40.3
23 18 9.2
23 23 57-4
+2329 4.6
23 33 30.6
23 37 15. 1
23 40 17.9
234238.9
+23 44 17.9
23 45 14-9
23 45 29-7
2345 2.3
23 43 52.6
+2342 0.7
+23 39 26.6
Var. of
DecL
for I
Hoar.
Noon.
+4a-85
4X.5a
40. z6
38.78
37.38
+35.95
34.49
33.OX
31.5X
39.98
+38.43
36.86
35.37
33.66
33.03
+30.39
z8.7a
X7.05
Z5.36
X3.65
+XZ.94
ZO.33
8.49
6.75
5*00
+ 3.a5
+ Z.50
- 0.36
a.oa
5.78
- 5.54
- 7.30
Merid-
ian Pas-
sage.
h m
2319-3
23 20.5
23 21.7
23 22.9
23 24.1
23 25-3
23 26.5
23 27.8
2329.1
2330.4
23 31.7
2333.0
23 34.3
23 35.6
23 37.0
23 38.4
23 39.8
2341.Z
23 42.5
23 44.0
23 45.4
23 46.8
23 48.2
2349.6
23 51.0
23 52.5
23 53.9
23 55.3
2356.7
23 58.2
2359.6
Day of the Month.
Semidiameter
Horiaontal Parallax . .
5th.
5.33
5.39
zoth.
5.18
5-34
Z5th.
5.14
3.39
30th.
5.ZO
5.85
35th.
5.06
5.8Z
30th
Day of the Month.
5^
5.z8
Semidiameter
Horizontal Parallai . .
4th.
9th.
Z4th.
z9Ch.
m
4.94
5.09
84th.
m
5X»
5*5
4.97
5.xa
■
4.95
5.Z0
39th.
4.9a
5.07
NoTB.— The sign + indicates north decUnationa; the aign •> iiuUcatM aoath declinations.
VENUS, 1912.
155
GREENWICH MEAN TIME.
JULY.
AUGUST.
■3
a
o
S
«l
Q
X
2
3
4
5
6
7
8
9
lo
II
12
13
14
15
i6
x8
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Right Ascen-
aion.
NOQH.
h m s
6 34 50.95
6 40 12.89
6 45 34-63
6 50 56. 10
6 56 17.26
7 138.05
7 658.43
7 12 18.32
7 17 37-69
7 22 56.48
7 28 14.65
7 33 32.14
7 38 48.91
7 44 4-91
7 49 20.09
7 54 34-42
7 59 47-85
8 5 0.35
8 10 11.88
8 15 22.42
8 20 31.94
8 25 40.41
8 30 47.80
83554.10
8 40 59.29
Var. of
R.A.
fori
Hour.
Noon.
846
851
856
9 I
9 6
3-35
6.28
8.08
8.74
8.24
9 IX 6.59
916 3.78
3.4x8
3.410
3.400
3.389
3.375
3.358
3.340
3.319
3.296
3.271
3.244
3.2x4
3.X83
3.150
3.XX5
3.078
3.040
3.000
2.960
2.9x9
2.876
2.831
2.786
2.740
2.693
2.646
2.599
2.55X
2.503
a.455
2.407
2.359
Apparent
Decimation.
NooH»
+2342 0.7
23 39 26.6
23 36 ia3
23 32 XX.9
23 27 3X.7
42322 9.7
23 16 6.2
23 921.3
23 155-2
22 53 48.2
+2245 0.7
22 35 32.9
22 25 25.3
22 X438.I
22 3 II.8
+21 51 6.9
21 38 23.8
2t 25 3.1
2X II 5.2
20 56 30.6
+20 41 19.8
20 25 33.4
20 9 12. 1
19 52 16.3
19 34 46.8
+19x644.1
X858 8.8
1839 1-5
18 19 22.9
X7 59 13.6
+17 38 34-4
+17 X7 25.8
Var. of
Decl.
fori
Hour.
Noon,
-3.54
7.30
9.05
xa8o
12.54
— I4.s8
X6.0X
17.73
X9-44
21. 14
—22.82
24.49
26.15
27.79
29.40
—31.00
32.58
34- X4
35.68
37.20
-38.70
40.17
41.61
43.03
44.42
-45.79
47. X4
48.46
49.75
5X.09
-52.25
-53.46
Merid-
ian Pas-
sage.
h m
23 59-6
. . • •
O X.O
o 2.4
o 3.8
o 5.2
o 6.6
o 8.0
o 9-4
o XO.8
O X2.2
o 13.6
o X4.9
o 16.2
017.5
018.8
O 20.X
O 2X.4
O 22.6
o 23.8
o 25.0
o 26.2
027.4
o 28.6
o 29.7
o 30.8
031.9
o 33.0
034.1
035-2
o 36.2
o 37.2
g
o
Q
I
2
3
4
5
7
8
9
10
II
12
13
14
15
16
17
18
19
20
2X
22
23
24
25
26
27
28
29
30
31
32
Apparent
Right Ascen-
sion.
Noon,
h m s
916 3.78
9 20 59.83
9 25 54.73
93048.50
9 35 41-14
9 40 32.67
9 45 23.09
9 50 12.42
9 55 0.67
9 59 47-87
10
10
xo
10
10
10
10
10
10
10
10
10
II
XX
II
II
ZI
zx
IX
XI
zz
II
434-03
9 19.16
14 3-28
18 46.43
23 28.62
28 9.87
32 50.21
37 29.67
42 8.27
46 46.05
51 23.05
55 59-29
o 34.81
5 964
9 43-83
14 17.4Z
z8 50.41
23 22.89
27 54.88
32 26.42
36 57-55
4X 28.32
Var. of
R.A.
fori
Hour.
Noon,
s
+12.359
X2.3XX
12.264
12.217
I2.X70
+12. 124
ia.078
X2.Q33
IX.989
XX.945
+zx.9oa
11.860
IX.819
11.779
X 1.739
+11.700
11.662
IX.626
IX.592
11.558
+ZZ.526
11.495
IZ.466
XX. 438
11.412
+XX.388
IX.365
XX.344
XX.324
ZZ.306
+ZZ.290
+X1.275
Apparent
DecunatioiL
Var. of
Decl.
fori
Hour.
Noon,
•
Noon,
e » n
n
+17 17 25.8
-53.46
16 55 48.5
54.64
163343.3
55.79
x6 II 10.8
56.91
154811.7
58.00
+X5 24 46.7
-59.07
15 056.5
60.ZI
14 36 41.8
6Z.Z3
14 12 3.3
62.09
X3 47 1.8
63.03
+13 2X 37.9
-63.95
12 55 52.5
64.83
12 2946.2
65.68
12 319.9
66.50
"3634-3
67.29
+11 9 30.0
-68.05
1042 8.0
68.77
10 14 28.9
69.47
9 46 33-4
70.14
9 18 22.4
70.77
+ 8 49 56.5
-71.38
8 21 16.4
71.95
7 52 22.9
72.50
7 23 16.7
73.01
6 53 58.5
73.50
+ 62429.1
-73.95
55449.1
74.37
5 24 59-4
74.76
4 55 0.6
75. X2
4 24 53-3
75.46
+ 35438.3
-75.77
+ 32416.3
-76.05
Merid-
ian Pas-
sage.
h m
o 37.2
o 38.2
o 39.2
o 40.2
o 41. 1
o 42.0
o 42.9
043.8
o 44.6
045-4
o 46.2
o 47.0
o 47.8
o 48.6
049-4
o 50.1
o 50.8
o 51.6
052.3
053.0
053-7
054-3
054.9
055-6
o 56.2
o 56.8
057-4
o 58.0
o 58.6
o 59.2
059.8
z 0.3
Day of the Month.
Seinidlanietflf ...
Horizontal Parallax.
4th.
m
4.9a
5.07
9th.
14th.
19th.
24th.
4.9a
5.07
m
M
4.94
5.09
m
4.95
5.XO
29th.
Day of the Month.
4.97
5.12
Semidiameter . . .
Horisontal Parallax.
3d.
1*
8th.
13th.
z8th.
a3d.
H
f»
w
w
5/)0
5.X5
1.3
5.06
5.21
5.10
5.25
5.X4
5.29
28th.
5.X8
5.33
NoTB.— The sign — prefixed to the hourly change of declination indicates that north declinations are decreasing.
156
VENUS, 1912.
GREENWICH MEAN TIME.
SEPTEMBER.
OCTOBER.
•
•B
s
o
Apparent
Right Ascen-
sion.
Var. of
R.A.
fori
Hour.
Apparent
Declination.
Var. of
Decl.
fori
Hoar.
Merid-
ian Pas-
aagQ.
§
0
Apparent
Right Ascen-
sion.
Var. of
R. A.
fori
Hour.
Apparent
Declination.
Var. of
Deci
fori
Hour.
Merid-
ian Pas-
sage.
Q
I^<w$.
Noon,
Noon,
Noon,
Noon,
Noon,
Noon,
Noon,
h m 8
8
e f t*
0
h in
h m 8
8
Q $ N
M
h m
I
II 41 28.32
+IX.275
4- 3 24 16.3
-76.05
I a3
I
135729.44
4.IX.650
-IX 4050.2
-70.17
I 18. 1
2
II 45 58.76
XX.262
25348.1
76.30
X 0.9
2
14 2 9.48
11.688
X2 846.3
69.50
I 18.8
3
11 5028.93
IX. 232
2 23 14.3
76.51
I 1.5
3
14 650.44
ix,7*l
X2 36 25.7
68.79
I 19.5
4
115458.86
XX.243
I 52 35.6
76.70
X 2.1
4
14 IX 32.37
ix.768
13 347.8
68.05
I 20.3
5
II 5928.60
11.236
I 21 52.8
76.86
X 2.6
5
14 16 15.29
IX.810
X3 30 51.7
67.27
I 2I.X
6
12 3 58.20
+IX.23I
+ 051 6.5
—76.99
X 3.x
6
14 20 59.23
+XX-853
-13 57 36-7
-66.47
I 21.9
7
12 8 27.69
X 1.227
+ 020 17.5
77.09
I 3.7
7
14 25 44.22
11.897
X424 X.9
65.63
I 22.7
8
12 12 57.10
XI.22S
- 01033.5
77-15
X 4.3
8
14 30 30.28
11.94a
14 50 6.6
64.75
X23.5
9
12 17 26.48
XX.225
0 41 25.8
77.19
I 4.8
9
14 35 17.44
XX.989
15 15 50.0
63.8s
X24.4
lO
12 21 55.88
IX.226
X 12 18.6
TJ-TO
I 5.3
10
1440 5.72
12.036
X5 4x11.3
69U9X
125.3
II
12 2625.34
+x 1.230
- I43II.2
-77.18
X 5.9
II
144455.13
4-12.083
-x6 6 9.7
•..6I.94
X 26. X
12
12 30 54.90
".«35
2 14 2.8
77.12
I 6.5
12
144945.70
12.13X
163044.3
€0.93
X 27.0
13
12 35 24.61
11.242
2 44 52.7
77.03
X 7.0
13
14 54 37.43
12.180
16 54 54.4
59.89
127.9
M
12 39 54-49
11.250
31540.2
76.91
I 7.5
14
14 59 30.34
12.229
X7 x8 39.1
56.82
X28.8
15
12 44 24.59
x 1.259
34624.5
76.76
I 8.1
15
15 *4 24.44
12.279
17 41 57.7
57.79
X 29.8
i6
12 48 54.95
+11. 271
- 4 17 4.7
—76.58
X 8.7
16
15 919.73
+12.329
-18 449.4
-56.58
X 30.8
17
12 53 25.62
11.285
44740.3
76.37
I 9.2
17
15 14 16.23
12.379
18 27 13.5
55.41
X 3X.8
i8
12 57 56.63
XX. 300
5 18 10.5
76.13
I 9.8
18
15 19 13.94
12-429
1849 9.1
54.21
X 32.8
19
13 2 28.02
II.3I7
54834.5
75.86
I 10.4
19
15 24 12.85
12,479
19 10 35.4
59.97
X 33.9
20
13 659.83
".335
6 18 51.5
75.55
I XX.O
20
15 29 12.97
12.530
19 3x 3X.7
51.71
135.0
21
13 II 32.11
+11.355
— 649 0.9
-75.22
I XI.6
21
15 34 X4.30
+12.580
-X9 51 57.3
-50. 4 X
X 36.0
22
13 16 4.90
11.378
719 1.9
74.85
X X2.2
22
15 39 16.83
12.630
20 XI 51.4
49.09
I 37.x
23
13 20 38.25
IX. 402
7 48 53.7
74.46
I 12.8
23
15 44 20.56
12.680
203x13.3
47.73
X38.3
24
1325 12.18
XX.427
8 18 35.7
74.03
1 13.4
24
15 49 25.48
12.730
2050 2.3
46.34
X 39.5
25
132946.73
".453
848 7.0
73.57
I 14.0
25
15 54 3X.58
ia.779
21 8 17.6
44.92
I 40.6
26
133421.95
+XX.482
- 9 17 26.9
-73.08
X X4.6
26
15 59 38.84
+X2.827
-2X 25 58.6
-43.48
X 41.8
27
13 38 57.88
11.5x3
9 46 34-8
72.56
1 15.3
27
16 447.25
X2-874
2143 4.6
42.01
X43.0
28
13 43 34.56
".545
10 15 29.8
72.01
I 16.0
28
16 956.79
xa.92x
2X 59 35.0
40,51
144.2
29
13 48 12.02
xx.578
1044 1 1.2
7X.43
X X6.7
29
16x5 7.43
12.966
22 1529.0
38.98
145.4
30
13 52 50.30
xx.613
II 12 38.2
70.8a
1 17.4
30
1620 19.16
13.01 1
22 30 46.0
37.43
146.7
31
13 57 29.44
•fxx*650
-II 40 50.2
-70.17
I I8.I
31
16 25 31.95
+13.054
-22 45 25.4
-35.85
X 48.0
32
14 a 9.48
+XX.688
-12 846.3
-69.50
I x8.8
32
16 30 45.77
+13.096
—22 59 26.6
-34.95
149.3
Day of the Month.
Semidiameter . . .
Horizontal Parallax
• • •
2d.
7th.
i2th.
17th.
22d.
n
5.93
5.38
m
5.28
5.44
0»
5.34
5.50
5.41
5.57
5.48
5.64
5.55
5.71
Day of the Month.
Semidiameter . . .
Horixontat Parallax
2d.
5-63
5.79
7th.
5.71
5.88
I2th.
5.80
5.97
17th.
5.90
6.07
22d.
6.00
6.18
27th.
6.11
6.29
NoTK.— The sign + indicates north declinations; the sign — indicates south declinations.
VENUS, 1912.
157
GREENWICH MEAN TIMK
NOVEMBER.
DECEMBER.
■3
g
S
S
I
2
3
4
5
6
7
8
9
xo
II
12
13
14
15
i6
17
x8
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Rigiit Ascen-
sioxL
Noon,
h m 8
6 30 45-77
636 a58
641 16.36
6 4<5 33-05
6 51 5a62
657 9.02
7 2 28.20
7 74»-"
7 13 8.69
7 z8 29.88
7 23 51.62
7 29 13.84
7 34 36-48
7 39 59-48
7 45 22.75
7 50 46.25
756 9.89
8 I 33.60
8 657.31
8 12 20.95
8 17 44.45
823 7.73
8 28 30.73
8 33 53-37
8 39 15-59
84437-32
8 49 58-49
8 55 19-04
9 038.92
9 558.06
9 II 16.39
9 16 33.86
Var. of
R.A.
for X
Hour.
NOOH,
3.096
3.X37
3-177
3.ax4
3.850
3-t83
3-315
3-344
3.370
3.394
3.416
3.435
3-451
3.464
3.474
3.4*1
3.487
3-488
3.487
3.48«
3.475
3-464
3.45X
3-435
3-416
3-394
3-343
3.3M
3.280
3.346
3.209
Apparent
Declination.
Var. of
Decl.
for X
Hour.
Amw.
NOOH,
e » 0t
m
-22 59 26.6
-34-a5
23 12 49.0
3a. 6a
23 25 32.0
30.96
23 37 35.1
29.29
23 48 57-7
s*7.59
-23 59 39-3
—25.88
24 9 39-5
24.X4
24 18 57.8
22.38
24 27 33-6
20.6X
24 35 26.7
Z8.82
-24 42 36.6
—17.01
2449 3-0
15.19
24 54 45-6
13.36
24 59 44-2
ZZ.S2
25 358.4
9.67
-25 728.1
— 7.81
25 10 X3.2
5.9s
25" 13.5
4.08
25 13 28.9
3.20
251359-3
— 0.33
-25 13 44-7
4- J-54
25 12 45.2
3.41
25 II 0.8
5.28
25 831.6
7.X5
25 517-7
9.0X
-25 I 19.3
4xa86
24 56 36.5
X2«70
2451 9.5
X4-54
24 44 58.6
X6.36
2438 4-2
18. X7
-243026.5
+19.97
-2422 5.8
+ai-75
Merid-
ian Pas-
sage.
h m
149-3
X50.5
I 51-8
I 53-2
154.6
1 55-9
157-3
158-7
2 0.1
2 Z.S
2 2.9
2 4-4
2 5.9
2 7-3
2 8.7
2 10. 1
2 11.6
2 13.1
2 14.6
2 16.0
217.4
2 18.8
2 20.2
2 21.7
2 23.1
224.5
225.9
227.4
2 28.8
2 30.1
231.4
2 32.8
1
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Rignt Ascen*
Var. Of
R.A.
for I
SIOXL
Hour.
Mmms.
Noon.
h m s
s
19 II 16.39
+13.246
19 16 33.86
X3.209
19 21 50.40
13.X69
1927 5.96
13.X27
19 32 2a48
13.083
19 37 33-92
+13.036
194246.21
12.987
194757-31
12.937
1953 7.16
X2.884
195815-72
12.829
20 322.94
+i2.77a
20 828.78
12.7x4
20 13 33.20
X2.654
201836.16
x«.59«
20 23 37.63
12.530
20 28 37.59
4-X2.466
20 33 36.00
X2.401
20 38 32.83
12.335
20 43 28.06
X2.268
20 48 21.67
12. 200
205313.64
+12.X3X
2058 3.97
X2.062
21 2 52.63
11-993
21 739-63
XX.924
21 1224.96
11-855
21 17 8.62
+XI.785
21 21 50.61
11.7x5
21 26 30.93
XX.646
21 31 9-59
XI.577
21 35 46.60
XI.508
214021.96
+XX.439
21 44 55-68
+11.371
Apparent
Declination.
Var. of
Decl.
for I
Hour.
Noon,
Noon.
• r It
m
-243026.5
+19-97
24 22 5.8
aX.75
2413 2.4
33-52
24 317-0
a5.27
23 52 49-8
27.00
-23 41 41.2
+28.71
232951.7
30.40
23 17 21.9
32-07
23 412.4
33.7«
22 50 23.7
35-34
-22 35 56.4
+36.93
22 20 51. 1
38.50
22 5 8.4
40.05
21 4849.1
41-56
21 31 53.8
43-05
-21 1423.2
+44-50
20 56 17.9
4M9
20 37 38.8
47ia«
20 18 26.6
48^69
195842.1
50.02
-19 38 25.9
+51-32
19 17 38.8
5a.59
18 56 21.7
53.83
18 34 35-3
55-03
18 1220.3
56.21
-17 49 37-6
+57.35
17 26 27.9
58.46
17 251.9
59-53
163850.5
60.57
z6 14 24.4
6X.59
-15 49 34-4
4««-57
—15 24 21.2
+63.52
Merid.-
ian Pas-
sage.
h m
2 31-4
2 32.8
234.2
235.5
2 36.8
2 38.1
239-3
240-5
241.7
243.0
244.2
245-3
2 46.4
2 47-5
248.6
249.7
250-7
251-7
2 52.7
253-7
254.6
255.5
2 56.3
257-1
2 57.9
258.7
259-5
3 0.2
3 0.9
3 Z'6
3 2.3
3 2.9
Day of the Month.
Semidiameter
Horizontal Parallax . .
xst
6th.
xitb.
x6th.
axst.
M
»
If
m
M
6.22
64X
6.35
6.54
IS
6.63
6.83
6.78
6.98
26th.
Day of the Month.
6.94
7.15
Semidiameter . . .
Horicontal Parallax
xst
6th.
ixth.
x6th.
axst.
26th.
It
If
n
m
m
i»
7.13
7.33
7.31
7.53
7.52
7.73
7.73
7.96
siao
8.ax
846
3xst.
8.49
8.75
NoTB.— The sign — prefixed to the hourly change of declination indicates that south declinations are increasing;
the sign + indicates that south declinations are decreasing.
158
MARS, 1912.
GREENWICH MEAN TIME.
JANUARY.
FEBRUARY.
•
g
Apparent
Rignt Ascen-
sion.
Var. of
R. A.
for I
Hoar.
Apparent
Declination.
Var. of
Decl.
for x
Hour.
Merid-
ian Pas-
sage.
■
§
Apparent
Right Ascen-
sion.
Var. of
R. A.
for X
Hoar.
Apparent
Decimation.
Var. of
Decl.
for X
Hoar.
Merid-
ian Pas-
sage.
&
P
Noon,
Noon,
Noon.
Noon.
Q
Noon,
Noon.
Noon,
Noon.
h m s
s
0 t H
ft
h m
h xn ■
s
0 1 m
n
h m
z
3 25 37-21
-HX354
+21 037.8
+4.64
845.1
I
3 51 25.54
+3.497
4-22 28 24.2
+ 9.98
7 9.3
2
3 25 47-28
0.485
21 I 45.6
3.0X
841.4
2
3 5* 50.30
3.567
22 32 24.6
10.05
7 6.8
3
326 a48
0.6x5
21 3 2.1
3.37
837-7
3
3 54 16.73
3.Q36
22 36 26.4
ZO.XO
7 +3
4
32616.77
0.74a
21 427.1
3.73
8 34.0
4
3 55 4+80
3.703
22 40 29.6
xax5
7 1-9
5
3 26 36.09
0.867
21 6 0.5
4.06
830.4
5
3 57 14.47
3.769
22 44 33.9
xObZ9
659.4
6
32658.37
+0.990
+21 741-9
+4.39
8 26.9
6
3 58 45.72
+3.834
+22 48 38.9
+10.3S
657.0
7
32723.56
I.IZt
21 93Z.3
4-7a
823.4
7
4 0 18.51
3.898
22 52 44.4
XOb34
654.6
8
3 27 51.62
1.399
2t IZ 28.6
5.04
8 19.9
8
4 I 52.82
3.960
22 56 5a 3
Z0.3S
652*3
9
32822.50
1.345
21 Z3 33.6
5.36
816.5
9
4 328.60
4.08X
23 056.4
10.8S
649-9
zo
32856.16
1.459
21 1546.0
5.67
8Z3.2
zo
4 5 5-84
4.08a
23 5 2.4
ia35
647.6
ZI
32932.55
+1.571
+21 z8 5.7
+5-97
8 9-9
II
4 644.51
+4.14X
+23 9 8.2
+ia3s
645-3
Z2
3 30 iz.6i
Z.683
21 20 32.5
6.36
8 6.6
12
4 824.58
4.199
2313x3*5
IO.30
643.1
X3
3 30 53*30
1.79a
21 23 6.1
6.54
8 3.4
13
4 zo 6.03
4.356
23Z7Z8.Z
IO.Z7
640.8
14
3 31 37*6o
1.900
21 25 46.4
6.8X
8 0.2
14
4 zz 48.83
4.3i«
23 21 2Z.8
xais
638.6
X5
3 32 24.45
a.oos
21 28 33.2
7.08
7 57-1
15
4 13 32.97
4.367
23 25 24.3
zaoB
636.4
z6
3 33 13.79
+1.X08
+2Z 3Z 26.3
+7.34
754.0
16
4 Z5 Z8.40
+4.4ao
+232925.5
+X0b03
634*2
17
3 34 5-58
a.azo
213425-5
7.58
750.9
17
417 5-"
4.47a
23 33 25.2
9*95
632.Z
z8
3 34 59.79
8.309
2Z 37 30.4
7.83
7 47-9
18
4 z8 53.06
4.524
23 37 23.2
9.«7
629.9
19
3 35 56.36
3.406
21 40 4a9
8.05
7 44*9
19
4 20 42.24
4.574
23 4Z Z9.2
9.79
627.8
20
3 36 55-24
8.501
21 43 56.7
8.37
7 41-9
20
4 22 32.61
4.634
23 45 13.0
9.70
625.7
21
3 37 56.40
+8.595
+21 47 17.6
+8.48
739-0
21
42424.Z6
+4.673
+2349 4*6
+ 9.60
623.6
22
3 38 59.78
3.687
2Z 50 43-3
8.67
736.2
22
4 26 16.85
4.7«0
23 52 53.6
9.49
6 2Z.5
23
340 5.33
a.777
2Z 54 13.5
8.85
7 33-3
23
4 28 10.66
4.765
23 56 39.8
9.37
619.5
24
34113.00
3.864
2Z 57 48.0
9.0a
730.5
24
430 5-56
4.8x0
24 023.Z
9.84
6Z7.5
25
3 42 22.76
3.990
22 z 26.5
9.Z8
727.8
25
432 Z.52
4.854
24 4 3.2
9.Z0
615.5
26
3 43 34-57
+3*054
+22 5 8.7
+9.33
725.0
26
4 33 58.52
+4.897
+24 740.0
+ 8.96
6x3-5
27
34448.37
3.1x6
22 854.4
9.47
722.3
27
4 35 56.55
4*999
24 " 13.3
8.81
6 ZI.6
28
346 4.Z0
3.196
22 Z2 43.2
9.99
719.7
28
4 37 55.57
4.980
24 14 42.9
8.69
6 9.6
29
34721.74
3.274
22 Z6 34.8
9.71
717-0
29
4 39 55-54
5.019
24 z8 8.5
8.48
6 7.7
30
3484Z.22
3.350
222029.0
9.81
7x4-4
30
44156.43
5.037
24 2Z 30.0
8.SI
6 5.8
31
350 2.50
+3.425
+22 24 25.6
+9.90
7ZZ.9
31
4 43 58.24
+5.095
+242447.3
+ 8.Z3
6 3.9
32
3 51 25.54
+3.497
+22 28 24.2
+9.98
7 9-3
32
446 0.94
+5.x3a
+2428 0.2
+ 7*94
6 2.0
Day of the Month.
0
5th.
xoth.
i5t]
tl. 30th. 9
tSth.
m
9.80
30(h.
Day of the Month. i
Ith.
9th.
8.46
X4th.
8.07
Z9th.
84kh.
39th.
Semidiameter ....
Horizontal Parallax.
m
7.35
ia.79
6.97
I3.X3
6.60
".49
1*
6.9
XO.S
M
« 5.93
I9 W.33
m
5.35
9-32
Semidiameter j
Horiaontal Parallax. • .
1:^
m
4.4s
7.7a
m
4.85
7.40
4.08
7.10
NoTB.— The sign + indicates north declinations; the sign — indicates south declinatloni.
MARS, 1912.
159
GREENWICH MEAN TIME.
MARCH.
APRIL.
g
a
%4
Apparent
Right Ascen-
sion.
Var. ot
R.A.
fori
Hoar.
Apparent
Decunation.
Var. of
Decl.
for X
Honr.
Merid-
ian Pas-
8
Apparent
Right Ascen-
sion.
Var. of
R.A.
for z
Hour.
Apparent
DeclinatioxL
Var. of
DecL
for I
Hour.
Merid-
ian Pas-
o
sage.
0
sage.
^
&
^oon.
Noon.
NOOH,
Noon,
2
Noon,
Noon.
Noon,
Noon.
h m ■
8
e r w
M
h m
h m 8
8
or*
m
h m
Z
4 41 56.43
4-5.057
+24 21 30.0
+8.3X
6 5.8
I
5 50 33.23
+5.903
+25Z92Z.5
+ a35
5x2.3
2
4 43 58.24
5.095
24 24 47.3
8.X3
6 3.9
2
5 52 55.06
5.9x8
25 Z9 23.3
— 0.08
510.7
3
446 0.94
5.131
24 28 0.2
7.94
6 2.0
3
5 55 17-28
5.934
25 Z9 Z7.4
0.4X
5 9-2
4
448 4-52
5.167
24 31 8.6
7.75
6 0.1
4
5 57 39.88
5.950
2519 3.5
0.75
5 7.6
5
450 8.94
5.ao3
24 34 12.2
7.55
558.2
5
6 0 2.85
5.965
25 Z84Z.6
X.09
5 6.0
6
4 52 14.20
+5.236
+24 37 10.9
+7-35
556.4
6
6 226.Z7
+5.980
+25 z8 ZZ.6
- 1.43
5 4.5
7
4 54 20.28
5.370
2440 4.7
7.13
5 54-6
7
6 449.84
5.994
25 17 33.4
X.77
5 3.0
8
45627.16
5.303
24 42 53.4
6.9X
552.7
8
6 713.85
6.007
25 z6 47.Z
3.X1
5 1.4
9
4 58 3483
5.336
24 45 36.8
6.69
550.9
9
6 938.18
6.030
25 Z5 52.6
3.45
459.9
10
5 043.26
5.368
24 48 14.8
6.46
549.1
zo
6 Z2 2.82
6.033
25 Z4 49.8
a.8o
458.4
IZ
5 252-46
+5.400
+245047.3
+6.33
547.3
zz
6 Z4 27.77
+€.046
+25 13 38.6
-3.15
456.8
12
5 5 2-41
5.430
24 53 I4-I
5-99
5 45-6
Z2
6 z6 53.OZ
6.058
25 Z2 Z8.9
3.50
455.3
13
5 7Z3.08
5.460
24 55 35.1
5.75
543.8
13
6 Z9 Z8.54
6.070
25 zo 50.9
3.85
453.8
M
5 924.46
5.490
24 57 50.2
5.50
542.1
14
6 2z 44.35
6.o8x
25 9Z4.4
4.30
452.3
15
51136.54
5.5x9
24 59 59.3
5.35
540.3
15
6 24 ZO.42
6.093
25 729.3
4.56
4 50.8
x6
5x349.31
+5.547
+25 2 2.3
+4.99
538.6
z6
6 26 36.74
+6.X03
+25 5 35-7
-4.9a
449.3
17
516 2.75
5.575
25 3 59-0
4.73
536.9
17
629 3.30
6. 1 13
25 3 33-5
5.38
447.8
i8
5 18 16.85
5.603
25 5 49-3
4.46
535.2
z8
6 3Z 30.10
6. 133
25 1 22.7
5-63
446.3
19
5 20 31.58
5.638
25 7 33-1
4.19
533.5
19
63357."
6.Z3O
2459 3.3
5-99
444.8
20
5 22 46.94
5.653
25 9za3
3.91
531.8
20
6 36 24.32
6.X38
245635-1
6.36
4 43-3
2Z
525 2.90
+5-678
+25 zo 40.8
+3.63
530.1
2Z
6 38 5Z.72
+6.X46
+24 53 58.2
-6.73
441-8
22
5 27 19.45
5.70a
2512 4.5
3.34
528.5
22
64Z Z9.29
6.153
24 5z Z2.5
7.09
440.3
23
5 29 36.57
5.7*5
25 Z321.2
3.04
5 26.8
23
6 43 47.02
6.X60
2448Z8.Z
7.45
438.9
24
5 31 54.23
5.748
25 14 30.7
3.74
525.2
24
6 46 Z4.9Z
6.X66
24 45 Z4.9
7.83
4 37-4
25
5 34 12.43
5.770
25 15 33-0
3.44
5235
25
6 48 42.93
6.Z7X
2442 3.0
8. 19
4 35-9
26
53631.Z4
+5.791
+25 z6 28.2
+3. 14
5 21-9
26
651 ZZ.07
+6.176
+24 38 42.2
-8.55
4 34-4
V
5 38 50.35
5.8XX
25 17 16.0
X.83
520.3
27
6 53 39.32
6.180
24 35 Z2.6
8.98
4 33.0
28
5 41 10.04
5-831
25 17 56.3
1.53
518.7
28
656 7.67
6.184
24 31 34-2
9.39
4 31-5
29
54330.19
5.849
25 18 29.0
X.3I
517.1
29
65836.ZZ
6.X87
24 27 46.9
9.65
4 30-0
30
5 45 50.78
5.868
25 18 54.2
0.89
515-5
30
7 I 4.62
6.190
24 23 50.9
laos
4 28.6
31
548 IZ.80
+5.886
+25 19 Z1.7
+0.57
5 13.9
31
7 333.21
+€.193
-I-24Z946.Z
—to. 39
427.1
32
5 50 33-23
+5.903
+25 19 21.5
+0.35
512.3
32
7 6 Z.87
+6.196
+24 Z5 32.6
— X0.76
425.6
Day of the Month.
5th.
n
zoth.
X5th. '
3.63
6.33
aoth.
351
th.
30th.
Da
jr of the Month.
4th.
9th.
14th.
X9th.
34<
Oi.
39th.
Semidiameter . . .
Horizontal Parallax
3.77
6.57
n
3.51
6.XX
3.
5.
r
39
91
3.38
5.7a
Semidiameter . . .
Horizontal Parallax
t
3.18
5-55
3.00
5.a3
3.93
5.09
i
3.
4.
r
85
96
3.78
4.84
Note.— The sign + prefixed to the hourly change of declination indicates that north declinations are increasing;
the sign — indicates that north declinations are decreasing.
160
MARS, 1912.
GREENWICH MEAN TIMR
MAY.
JUNE.
•3
g
Apparent
Right Ascen-
sion.
Noon.
h m 8
I
7 3 33-21
2
7 6 1.87
3
7 830.58
4
71059-34
5
7 1328.14
6
7 15 56.98
7
7 18 25.85
8
7 20 54.74
9
7 23 23.66
lO
7 25 52.59
XI
7 28 21.52
12
7 30 50-45
13
7 33 19-38
14
73548.30
15
7 38 17.20
i6
7 40 46.08
17
7 43 14-92
i8
7 45 43-72
19
7 48 12.47
20
75041.17
21
7 53 9-80
22
7 55 38-36
23
758 6.84
24
8 035.23
25
8 3 3-52
26
8 531-71
27
8 7 59.80
28
8 10 27.77
29
8 12 55.63
30
81523-37
31
8 17 50.99
32
8 20 18.48
Var. of
R.A.
for I
Hour.
Noon.
s
4-6.193
6.196
6.198
6.199
6.90X
4«.903
6.304
6.aos
6. 906
6.906
4^.ao6
6.ao6
6.906
6.905
6.905
4«.904
6.902
6.900
6.197
6.195
+6.192
6.189
6. 185
6.x8z
6.177
+6.179
6.168
6.163
6.159
6.154
+6.148
+6.143
Apparent
Declination.
Noon.
+24 1946.Z
24 15 32.6
24 II ia2
24 638.9
24 I 58.8
+23 57 lo.o
23 52 12.5
2347 6.2
234x51.1
233627.3
+23 30 54.8
23 25 13.6
23 19 23-7
23 13 25-1
23 717-9
+23 Z 2.0
22 54 37-5
22 48 4.4
22 41 22.8
22 34 32.6
-t-22 27 33-9
22 20 26.8
22 13 II. 4
22 547.6
21 58 15.6
+215035.3
21 42 46.8
21 34 50.2
21 26 45.6
21 18 32.9
+21 10 X2.I
+21 I 43.4
Var. of
DecL
for z
Hoar.
Noon.
-10.39
xa76
iz.ia
11.49
IZ.86
—19.39
19.58
19.95
13.3X
13.67
-14.04
14.40
14.76
15.1a
15.48
-15.84
16. 90
16.56
16.9a
17-27
—17.6a
17-97
18.3a
18.67
I9.OX
-19.35
19.69
90.03
ao.37
90.70
— ax.03
-ai.37
Merid-
ian Pas-
sage.
h m
427.1
425.6
4 24.2
4 22.7
421.3
419.8
4 18.3
4 16.9
4 15-4
413-9
412.5
4 II.O
4 9-6
4 8.1
4 6.7
4 5-2
4 3-7
4 2.3
4 0.8
3 59-3
3 57-9
356.4
3 54-9
3 53-5
3 52-0
350.5
3 49-1
3 47-6
346.1
3 44-6
343.1
341-7
a
o
Id
Q
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Rignt Ascen-
sion.
Noon.
b m s
8 20 18.48
8 22 45.84
8 25 13.07
82740.18
830 7.18
8 32 34*05
835 0.77
8 37 27-36
8 39 53-82
842 20.15
84446.34
8 47 12.39
84938.31
852 4.09
8 54 29.73
8 56 55-23
8 59 20.58
9 145-78
9 4 10.83
9 635.72
9 9 0.45
9 II 25.02
91349.43
9 16 13.68
9 18 37.76
921 1.69
9 23 25.46
9 25 49.07
9 28 12.53
9 30 35-83
9 32 58.98
9 35 21.98
Var.of
R.A.
fori
Hour.
Noon.
s
+6.143
6.137
6.13a
6.za7
6.zaa
+«.ii7
6.11Z
6.106
6.100
6.095
+6.089
6.063
6.077
6.071
6.065
4^060
6.054
6.048
6.041
6.034
+6.097
6.090
6.0Z4
6.007
6.000
+5.994
5.987
^98I
5-974
^968
+5.961
+5-955
1
Apparent
Declination.
Var.of
Decl.
fotz
Honr.
Noon.
Noon.
e » n
It
+21 143-4
-91,37
2053 6.7
91.70
20 44 22.2
99.09
20 35 30.0
99.34
20 26 30.0
89.66
+20 17 22.2
—99.98
20 8 6.8
93.30
19 58 43-9
93.61
19 49 13.4
93.93
19 39 35-3
94.95
+19 29 49.7
-94.56
19 19 56.7
94.87
19 956.3
95.17
18 59 48.7
25.48
18 49 33.8
35.78
+18 39 1 1.7
—96.07
18 28 42.6
a6.37
18 18 6.4
96.66
18 723.2
■6.95
17 56 33.1
«7.a3
+X7 45 36.2
-97.51
17 34 32.7
a7.79
17 23 22.5
98.07
17 12 5.7
98.34
17 042.4
98.61
+Z649 12.7
-98.87
16 37 36.6
99.14
16 25 54.2
99.40
16 14 5.6
99.66
z6 2 10.9
99.9a
+15 50 10.1
-30W17
+1538 3.2
-30.41
Merid-
ian Pas-
sage.
h m
341-7
340.2
338.7
3 37-2
3 35-7
3 34-2
332.7
331.2
329.7
328.2
326.7
325.2
323.7
3 22.2
320.7
319-2
317-7
3 16. 1
314.6
3131
311.5
3 10.0
3 8.5
3 6.9
3 5-4
3 3-9
3 2.3
3 0.8
259.2
257-7
2 56.1
254.5
Day of the Month.
Semidiazneter
Horizontal Parallax . .
4th.
a.71
4.7a
9th.
a. 6s
4.62
i4tfa.
a. 59
4.5a
19th.
a. 54
4-43
a4th.
2.49
4.34
a9th.
a-45
4.26
Day of the Month.
Seznidiameter
Horizontal Parallax . .
3d.
8th.
z3th.
18th.
ajd.
1
H
H
w
m
H
9.40
4.18
a. 36
4.11
a. 33
4.03
3.29
3.99
a.a6
3-93
a. 23
3-88
NoTB.— The sign 4- indicates north declinations; the sign — indicates south decUnationsL
1
MARS, 1912.
161
GREENWICH MEAN TIME.
JULY.
AUGUST.
•
a
o
Apparent
Right ABcen-
sion.
Var.of
R.A.
fori
Hour.
Apparent
Declination.
Var. of
DecL
for I
Hour.
Merid-
ian Paa-
*
§
Apparent
Rignt Ascen-
sion.
Var. of
R.A.
fori
Hour.
Apparent
Declination.
Var. of
Decl.
fori
Hour.
Merid-
ian Pas-
0
sage.
0
sage.
►v
Q
Noon.
Noon.
Noon,
Noon.
Q
Noon.
Noon.
Noon.
Noon,
h m 8
8
0 t m
n
h m
h m s
8
• t n
It
h m
I
9 32 58.98
+5.961
+Z550 ZO.Z
-30.17
2 56. Z
z
104557.13
+5.837
+8 53 39.8
-36.49
2 6.9
2
9 35 2Z.98
5.955
1538 3.2
30.41
254.5
2
zo 48 Z6.95
5.835
839 2.2
36.65
2 5.3
3
9 37 44-83
5.949
152550.4
30.66
253.0
3
zo 50 36.73
5.834
8 24 20.8
36.80
2 3.7
4
940 7-55
5-944
15 13 31.6
30.91
251.4
4
10 52 56.47
5.8aa
8 9 35-9
36.94
2 2.Z
5
94230.Z3
5.938
15 I 7.0
31.15
249.9
5
Z055Z6.Z9
5.8ai
7 54 47.6
37.09
2 a5
6
9 44 52.57
+5-93a
+Z4 48 36.6
-31.39
248.3
6
zo 57 35.89
+5.8ao
+7 39 55.8
-37.33
1:58.9
7
9 47 14-88
5.927
Z436 0.5
31.63
246.7
7
105955.58
5.8ao
7 25 0.6
37.37
[ 57.2
8
9 49 37-o6
5.943
Z4 23 Z8.7
31.86
245.2
8
zz 2 Z5.26
5.8ao
7 zo 2.Z
37.51
t 55.6
9
9 51 59-X2
5.917
Z4 10 31.3
33.09
243.6
9
11 434.93
5.830
655 0.4
37.64
[ 54.0
zo
9 54 2Z.o6
5-9"
13 57 38.4
33.33
2 42.0
zo
ZZ 654.59
5.8ao
6 39 55.6
37-77
c 52.4
ZI
9 56 42.88
+5.907
+Z3 44 40.0
-33.55
240.4
zz
ZZ 9 Z4.26
+5.8ao
+6 24 47.8
-37.89
t 50.8
Z2
9 59 4-58
5.90a
133136.3
33,77
2 38.8
Z2
iz zz 33.96
5.8ax
6 937.1
38.OZ
C49.2
13
zo z 26. Z7
5.897
Z3Z827.3
33.99
2 37.3
13
II 13 53.67
5.8aa
5 54 23.6
38.1a
C47.6
14
zo 347-64
5.89a
13 513.0
33.30
2 35.7
14
zz z6 Z3.40
5.8a9
5 39 7.3
38.34
145.9
15
zo 6 9.00
5.888
12 51 53.5
33.43
234.1
15
ZZZ833.Z4
5.833
5 23 48.3
38.35
C44.3
z6
zo 8 30.25
+5.884
+Z2 38 29.0
-33-63
232.5
z6
zz 2052.90
+5.8a4
+5 826.7
—38.46
[42.7
17
zo Z05Z.39
5.879
Z2 24 59.5
33.83
2 30.9
17
zz 23 Z2.69
5.835
4 53 2.7
38.56
[4Z.Z
i8
zo Z3 Z2.43
5.874
Z2 ZZ 25.2
34.03
229.3
z8
zz 25 32.52
5.8a7
4 37 36.3
38.65
t 39.5
19
10 Z5 33-35
5.870
zz 5746.Z
34.33
2 27.7
19
zz 27 52.39
5.899
4 22 7.6
38.74
I 37.9
20
ZOZ754.Z7
5.866
1144 2.3
34.43
2 26. Z
20
zz 30 Z2.30
5.831
4 636.8
38.83
[ 36.3
21
zo 20 Z4.89
+5.861
+ZZ 30 Z3.9
-34.61
2 24.6
2Z
zz 32 32.26
+5.833
+351 4.0
-38.93
c 34.7
22
Z0 22 35.5Z
5.857
zz Z620.9
34.80
2 23.0
22
zz 34 52.27
5.836
33529.1
39.00
c 33.1
23
10 24 56.03
5.853
zz 223.5
34-99
2 2Z.4
23
zz 37 Z2.34
5.838
31952.3
39.08
1 31.5
24
ZO 27 Z6.46
5.849
Z0482Z.7
35.17
2 Z9.8
24
zz 39 32.48
5.841
3 413.7
39.15
[ 29.9
25
ZO 29 36.80
5.846
zo 34 Z5.6
35.34
2 Z8.2
25
zz 4Z 52.70
5.844
2 48 33.4
39.33
[ 28.3
26
ZO 3Z 57.05
+5.848
+Z020 5.4
-35.51
2 z6.6
26
zz 44 Z2.99
+5.847
+2 32 5Z.4
—39.38
c 26.7
27
zo 34 Z7.23
5.839
zo 5 5Z.Z
35.69
2 Z5.0
27
11 46 33.36
5.851
2^7 7.9
39.34
c 25.0
28
103637.33
5-836
9 51 32.7
35.86
2 Z3.3
28
zz 48 53.84
5.855
2 z 22.9
39.40
123.4
29
103857.37
^834
9 37 10.3
36.0a
2 ZZ.7
29
zz 5z Z4.42
5.860
I 45 36.4
39.46
[ 2Z.8
30
Z04ZZ7.35
5.831
9 22 43.9
36.18
2 ZO.Z
30
II 53 35-11
5.865
z 29 48.6
39.53
c 20.3
31
10 43 37-27
+5.829
+ 98 Z3.7
-36.34
2 8.5
31
115555.92
+5.870
+z Z3 59.6
-39.57
[ Z8.7
32
104557-13
+5.8*7
+ 8 53 39-8
-36.49
2 6.9
32
zz 58 Z6.85
+5.875
+058 9.5
-39.63
[Z7.I
Dayof the Month.
3d.
m
8th.
X3th.
z8th.
33d.
aSth.
Da
17 of the Month.
3d.
I*
7th.
lath.
xTth.
aad.
37th.
M
i»
p»
»
If
M
n
n
tt
H
Sei
Dldiameter . . .
rizontal Parallax
3.90
3.83
a. 17
3.78
3.15
3.74
a.xa
3.70
3.10
3.66
a.o8
3.63
Sen
Hoi
lidiameter . . .
izontal Parallax
9.07
3.60
2.05
3.57
2.04
3.55
3.0a
3.53
a.oz
3.50
a.00
3.48
NoTB.— The sign — prefixed to the hourly change of declination indicates that north declinations are decreasing.
I912 II
162
MAES, 1912.
GREENWICH MEAN TIME.
SEPTEMBER.
§
5"
z
2
3
4
5
6
7
8
9
zo
zz
Z2
13
14
15
z6
17
z8
19
20
2Z
22
23
24
25
26
27
28
29
30
31
32
Apparent
Right Aacen-
ftion.
Notm,
h m s
Z 58 Z6.85
2 037.91
2 2 59.12
2 5 20.47
2 74Z.98
2 ZO 3.66
2 Z2 25.50
21447.52
2 17 9.72
2 Z9 32.10
2 21 54.68
2 24 17.46
2 26 40.44
2 29 3.63
2 31 27.03
2 33 50.65
2 36 Z4.49
2 38 38.56
2 41 2.87
2 43 27.42
2 45 52.23
2 48 17.29
2 50 42.61
253 8.20
2 55 34-07
2 58 0.23
3 026.70
3 253.47
3 520.55
3 747.95
3 zo Z5.69
3 Z2 43.76
Var. of
R.A.
for X
Hour.
Noon.
a
+5.875
5.88X
5.887
5.893
5.900
+5.907
5.9x4
5.9W
5.999
5.937
+5.945
5.953
5.96a
5.971
5.980
+5.989
5.998
6.008
6.0x8
6.029
+6.039
6.050
6.061
6.072
6.084
+6.097
6.109
6.132
6.136
6. 149
+6.X6S
+6.X76
Apparent
Declination.
Var. of
Deel.
for X
Hour.
Noon,
Noon,
Of n
M
+058 9.5
—39.62
042 z8.i
39.66
0 26 25.7
39.70
40 10 32.4
39.74
-0 521.7
39.77
-0 21 16.5
-39.80
0 37 Z2.0
39.8a
053 8.1
39.84
I 9 4-7
39.86
z 25 Z.6
39.87
-z 40 58.7
—39.88
I 56 56.0
39.88
2 12 53.3
39.88
2 28 50.5
39.88
2 44 47.5
39.87
-3 044.1
-39.85
31640.3
39.83
3 32 35.9
39.80
3 48 30.9
39.77
4 425.2
39.74
—4 20 z8.6
-39.70
436ZZ.0
39.66
452 2.4
39.62
5 752.6
39.57
5234Z.6
39.5a
-5 39 29-2
-39.46
5 55 15-4
39.39
6 zz 0.0
39.3a
6 26 42.9
39.25
64224.1
39*17
-«58 3-5
-39.09
-7 13 40-9
-39.01
Merid-
ian Pas-
sage.
h m
17.1
15-5
13.9
Z2.3
10.7
9.2
7.6
6.0
4.4
2.9
z 1.3
059.7
058.2
o 56.6
0 55-I
053-5
o 52.0
050.5
o 48.9
047.4
045-9
044-3
o 42.8
041.3
o 39.8
038.3
036.8
035.3
033.8
032.3
o 30.8
o 29.3
Day of the Month.
Semidiameter
Horizontal Parallax . .
XSt
6th.
xxth.
x6th.
axst
X.99
347
m
1.98
345
If
X.97
344
m
X.97
3.43
m
X.97
343
a6th.
x.97
3-43
OCTOBER.
I
Of
z
2
3
4
5
7
8
9
zo
ZI
Z2
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Rignt Ascen-
sion.
Var. of
R.A.
for X
Hour.
Noon.
Noon.
h m s
s
13 10 15.69
+6.x6a
13 12 43.76
6.X76
13 15 12.18
6.X9X
13 17 40.95
6.206
13 20 10.07
13 22 39.56
+6.237
X325 9-43
6.253
132739-68
6.269
133010.31
6.285
133241.33
6.302
13 35 12.75
+6.318
13 37 44-57
6.334
134016.79
6.351
134249-42
6.368
134522.46
6.385
13 47 55.91
■W.403
135029.79
6.421
1353 4-"
6.439
135538.87
6.458
13 58 14.06
6.476
14 049.70
4^.495
14 325.80
6.514
14 6 2.36
6.533
14 83939
6.553
14 I z Z6.89
6.573
Z4 Z3 54.88
+6.593
14 16 33.35
6.6x4
Z4 19 12.32
6.635
14 21 51.79
6.656
14 24 31.77
6.677
14 27 Z2.26
+6.698
14 29 53.27
■W.7ao
Apparent
Declination.
Var. of
DecL
for X
Honr.
Noon,
Noon.
Oft
m
- 6 58 3.5
-39.09
71340.9
39.01
7 29 16.2
38.92
74449.3
38.82
8 020.1
38.72
-81548.4
—38-62
8 31 14.2
38.51
8 46 37-4
38.40
9 157-8
38.28
9 17 15-2
38.16
- 9 32 29.5
-38.03
9 47 40.6
37.89
zo 248.4
37.75
zo 17 52.7
37.60
10 32 53.4
37.45
-lo 47 50.2
-37.a9
11 243.1
37.12
11 17 32.0
36.95
11 32 z6.8
36.78
zi 46 57.4
36.59
-Z2 Z 33.6
-36.40
12 z6 5.Z
36. 2X
12 30 3Z.9
36.02
Z2 44 54.0
35.82
Z259II.2
35.61
-13 13 23.3
-35.39
.132730.2
35.17
134131.8
34.94
13 55 28.0
34.7*
14 918.5
34*48
-Z423 3-3
-34.a4
-143642.3
-34-00
Merid-
ian Pas-
sage.
h m
o 30.8
029.3
o 27.8
o 26.4
o 24.9
023.5
o 22.0
o 20.6
o 19.2
o 17.8
O Z6.4
o 15.0
o 13.6
O 12.2
o 10.8
o 9.4
o 8.0
o 6.6
o 5.3
o 3.9
O 2.6
( 0 1.8
its M.9
23 58,6
23 57.3
23 56.0
23 54.7
23 53-4
23 52. z
23 50.8
2349.6
23 48.3
23 47.0
Day of the Month.
Semidiameter . . .
Horisontal Parallax
XSt
X.96
34a
6th.
1.96
341
xxth.
X.96
341
x6ai.
34a
axst
x.96
3.4s
26Ch.
3I8t.
x.97
343
x.97
343
Note.— The sign + indicates north declinations; the sign — indicates south declinations.
MARS, 1912.
163
GREENWICH MEAN TIME.
NOVEMBER.
DECEMBER.
a
o
o
►«
t»
Q
I
2
3
4
5
7
8
9
10
Apparent
Rignt Ascen-
sion.
13
M
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Npon,
h m 8
14 29 53.27
14 32 34.81
14 35 16.88
14 37 59-49
14 40 42.63
14 43 26.31
14 461a 54
144855-31
14 51 40.63
14 54 26.50
II 14 57 12.92
« 1 14 59 59-89
15 247.42
15 5 35-50
15 824.13
15 " 13-31
15 14 305
15 16 53.35
15 19 44.22
15 22 35.66
15 25 27.66
15 28 20.22
15 3X 13-35
1534 7-04
1537 1-31
153956.15
154251-57
154547-56
154844.12
15 51 41.25
15 54 38-97
15 57 37-25
Var. of
R.A.
for I
Hour.
Noon,
8
+ 6.720
6.74a
6.764
6.787
6.809
+ 6.832
6.855
6.878
6.900
6.923
+ 6.946
6.969
6.992
7.015
7.038
+ 7.061
7.085
7.XO8
7.J3a
7-155
+ 7-179
7. 208
7.226
7.850
7-«73
+ 7-a97
7.381
7-345
7.369
7.393
+ 7.417
+ 7-440
Apparent
Declination.
Noon,
43642.3
4 50 15-3
5 342.1
5 17 2.6
5 30 16.7
5 43 24.2
5 56 24.9
6 9 18.7
622 5.4
6 34 44.9
6 47 16.9
65941.4
711 58.2
724 7-1
736 7.9
7 48 0.6
7 59 44-9
8x1 20.7
8 22 47.8
8 34 6.2
8 45 15.6
8 56 16.0
9 7 7-1
9 17 48.8
9 28 2I.O
93843-5
9 48 56.2
9 58 59-0
20 8 51.7
20 18 34.0
-20 28 5.8
-20 37 27.1
Var. of
Decl.
fori
Hour.
Noon,
-34.00
33.74
33.48
33.22
3a-95
-3a.67
32.38
32.09
31.79
31.48
-31.17
30.85
30.53
30.20
29.86
-29.52
29.16
28.80
88.44
28.07
-27.70
27.3a
26.93
26.53
86.13
-85.72
25.31
24.90
24.47
34.04
—25.60
— 23.X6
Merid-
ian Pas-
sage.
h m
23 47-0
23 45-8
23 44.6
23 43-3
23 42-1
23 40-9
23 39-7
23 38-5
23 37-4
23 36.2
23 35-0
23 33-9
23 32.7
23 31.6
23 30-5
23 29.4
23 28.3
23 27.2
23 26.1
23 25.0
23 24.0
23 22.9
23 21.8
23 20.8
23 19.8
23 18.8
23 17.8
23 16.8
23 15.8
23 14.8
23 13.8
23 12.8
a
o
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Rignt Ascen-
sion.
Noon,
h m s
5 54 38.97
5 57 37-25
6 036.10
6 335-51
6 635.48
6 9 36.00
6 12 37.07
6 15 38.67
6 18 40.80
6 21 43.46
6 24 46.65
62750.35
6 30 54-56
6 33 59.27
637 4-47
640 10.15
643 16.31
6 46 22.95
6 49 30.05
6 52 37.61
6 55 45.62
6 58 54.06
7 2 2.94
7 512.25
7 821.98
7 II 32.11
7 14 42-65
7 17 53-59
721 4.91
7 24 z6.6o
7 27 28.65
7 30 41.05
Var. of
R.A.
for I
Hour.
Noon.
s
+ 7.417
7.440
7.464
7.487
7.510
+ 7-533
7.556
7.578
7.600
7.632
+ 7.643
7.665
7.686
7.707
7-727
+ 7-747
7-767
7.786
7.805
7.824
+ 7.843
7.861
7.879
7.897
7-914
+ 7.931
7.948
7-964
7.979
7.994
+ 8.009
+ 8.024
Apparent
Declination.
Var. of
Decl.
for I
Hour.
Noon,
Noon.
e t f
H
-2028 5.8
—23.60
203727.1
23.16
20 46 37.7
22.70
20 55 37-4
22.24
21 4 26.0
21.78
-21 13 3-4
—21.32
21 21 29.4
20.84
21 29 43.9
20.36
21 37 46.8
19.86
21 45 37.8
19.37
—21 53 16.8
-18.87
22 043.7
18.36
22 758.4
17.84
22 15 0.7
17.32
22 21 50.5
16.80
—22 28 27.6
—16.27
22 34 52.0
15.74
2241 3.5
15.20
2247 1.9
14.65
22 52 47.2
14.10
-22 58 19.2
-X3.54
23 3 37-8
12.98
23 843.0
12.42
231334-6
11.86
23 18 12.4
11.28
-23 22 36.4
—10.70
232646.5
10.12
23 30 42.6
9-53
23 34 24.6
8.94
23 37 52.3
8.34
-2341 5.6
-7-74
-2344 4.6
-7.14
Merid-
ian Pas-
sage.
h m
23 13.8
23 12.8
23 II.9
23 II.O
23 10.0
23
23
23
23
23
23
23
23
23
23
9.1
8.2
7-3
6.4
5-5
4.6
3-7
2-9
2.0
1.2
23 0.3
22 59-5
22 58.7
22 57-9
22 57.1
22 56.3
22 55-5
22 54-7
22 53-9
22 53.1
22 52.3
22 51.6
22 50.8
22 50.1
22 49.3
22 48.6
22 47.9
Day of the Month.
Semidiameter
Horizontal Parallax . . .
5th.
1.98
3.44
10th.
1.98
3.45
iSth.
1-99
3.47
80th.
2.00
3.48
25th.
2.01
3.50
30th.
Da
of the Month.
8.08
351
Sem
diameter
Horizontal Parallax
5th.
8.03
3-53
loth.
3.04
3.55
15th.
X05
3.58
8oth.
2.07
3.60
25th.
2^
3.62
30th.
8.10
3.65
35th.
2.11
3.68
NoTS.— The Bign — prefixed to the hourly change of declination indicates that south declinations are increasing.
164
JUPITER, 1912.
GREENWICH MEAN TIME.
JANUARY.
a
o
>>
cd
1
2
3
4
5
6
7
8
9
zo
II
12
13
M
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Rignt Ascen-
sion.
Var. of
R. A.
for I
Hour.
Noon.
Noon.
h m 8
s
l6 II 15.82
-fa. 1x2
16 12 6.38
2.102
16 12 56.71
2.094
16 1346.79
2.082
16 14 36.63
2.072
16 15 26.22
+2.06X
16 16 15.55
2.050
16 17 4.61.
2.039
16 17 53.40
2.027
16 18 41.92
2.0x5
16 19 30.14
+2.003
16 20 18.06
X.99X
16 21 5.68
1.978
16 21 52.99
X.965
16 22 39.98
1.951
16 23 26.64
+1.937
16 24 12.96
1.923
16 24 58.94
1.909
i6 25 44.56
1-894
16 26 29.83
1.879
16 27 14.73
+X.863
16 27 59.25
1.847
162843.39
1. 831
162927.13
X.814
16 30 10.47
X.797
16 30 53.40
+1.780
i6 31 35-92
1.763
16 32 18.02
X.743
16 32 59.69
X.727
16 33 40.92
X.708
1634 21.71
+1.689
1635 2.05
+X.670
Apparent
Decimation.
Var. of
Decl.
for X
Hour.
Noon.
Noon.
0 f ti
—20 20 23.9
-5.50
20 22 34.9
5.43
20 24 44.3
5.36
20 26 52.1
5.29
20 28 58.2
5.22
—20 31 2.6
-5.15
2033 5-3
5.08
2035 6.4
5. ox
2037 5.8
4-94
2039 3.5
4.87
-20 40 59.5
—4.80
20 42 53.8
4-73
20 44 46.4
4.66
20 46 37.3
4.59
2048 26.5
4.52
—20 50 14.0
-4.45
20 51 59.8
4.37
20 53 43.9
4.30
20 55 26.2
4.23
20 57 6.8
4.X6
-20 58 45.7
-4.09
21 022.9
4.02
21 I 58.5
3.9s
21 332.4
3.88
21 5 4-5
3.81
-21 6 35.0
-3.74
21 8 3.9
3.67
21 931.2
3.60
21 1056.7
3.53
21 12 20.5
3.46
-21 1342.7
-3.39
-21 15 3.3
-3.33
Merid-
ian Pas-
sage.
h m
21 29.4
21 26.3
21 23.2
21 20.1
21 17.0
21 13.9
21 10.7
21 7.6
21 4.5
21 1.4
20 58.2
20 55.1
20 51.9
20 48.8
20 45.6
20 42.5
20 39.3
20 36.1
20 32.9
20 29.8
20 26.6
20 23.4
20 20.2
20 17.0
20 13.8
20 10.6
20 7.3
20 4.1
20 0.8
19 57-6
19 54-3
19 51.0
FEBRUARY.
0
O
cd
I
2
3
4
5
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Right Ascen-
sion.
Noon.
h m s
635 2.05
6 35 41-94
6 3621.36
637 0.31
6 37 38.78
6 38 16.77
6 38 54.26
63931.25
640 7.73
6 40 43.69
641 19.12
6 41 54.01
642 28.36
643 2.16
64335.39
644 8.05
644 40.14
645 11.64
64542-54
6 46 12.84
6 46 42-53
647 11.60
6 47 40-05
648 7.87
6 48 35-05
649 1.58
64927.46
6 49 52.69
6 50 17,26
65041.17
651 4.40
6 51 26.94
Var. of
R. A.
for X
Hour.
Noon.
s
+1.670
X.65X
X.632
1.612
1.592
+X.572
X.55X
X.530
1.509
1.487
+1.465
1.443
1.420
1.397
1.373
+X.349
1.325
X.300
1.275
X.250
+1.224
1. 198
X.X72
X.146
X.II9
+1.092
1.065
X.038
x.oxo
0.982
+0.954
+0.926
Apparent
Declination.
Noon.
-2
2
2
2
2
—2
2
2
2
2
—2
2
2
2
2
—2
2
2
2
2
—2
2
2
2
2
—2
2
2
2
2
-2
-2
15 3.3
1622.3
17 39.7
18 55-4
20 9.5
21 22.1
22 33.1
2342-5
24 50.3
25 56.5
27 1.2
28 4.4
29 6.0
30 6.0
31 4-5
32 X.5
32 56.9
33 50.8
3443.3
35 34-3
36 23.7
37 ".7
37 58.3
38 43.4
3927.1
40 9-4
40 50.3
41 29.7
42 7.8
42 44-5
43 19-9
43 53.9
Var. of
Decl.
for X
Hour.
Noon.
n
-3.33
3.26
3.19
3.12
3.05
-2.99
2.92
2.86
a.79
a.72
-2.66
a. 59
a. 53
3.46
a.40
-a. 34
a. 37
a.2x
3.X5
a.09
— a.03
1.97
1.91
X.85
X.79
-X.73
X.67
X.61
X.56
X.50
-X.45
-X.39
Merid-
ian Pas-
sage.
h m
951.0
9 47-7
9 44-4
9 4I.I
937.8
9 34-5
9 31.2
927.9
9 24.6
9 21.2
917.9
914-5
9 II. I
9 7.7
9 4.3
9 0.9
857.5
854.1
850.7
847.2
843.8
840.3
836.9
833.4
8 29.9
8 26.4
8 22.9
819.4
8 15.9
8 12.3
8 8.8
8 5.2
Day of the Month.
Semidiameter . . . .
Horizontal Parallax . .
0
8th.
16th.
n
n
tt
15.29
15.50
15.74
1.43
1-45
1-47
24th.
n
16.01
1.50
Day of the Month.
Semidiameter ....
Horizontal Parallax
1st.
«th.
17th.
n
17.02
1-59
n
16.31
1.53
M
16.65
1.56
Mth.
17.42
1.63
NoTB. — ^The sign + indicates north declinations; the sign — indicates south declinations.
JUPITER, 1912.
165
GREENWICH MEAN TIME.
MARCH.
APRIL.
•
a
a
o
Apparent
Right Ascen-
sion.
Var. of
R.A.
for X
Hour.
Apparent
DecunatioxL
Var. of
Decl.
for I
Hour.
Merid-
ian Pas-
4
g
Apparent
Right Ascen-
sion.
Var. of
R.A.
for X
Hour.
Apparent
Dechnation.
Var. of
Decl.
for X
Hour.
Merid-
ian Pas-
o
sage.
0
sage.
>.
0
I^oon.
Noon.
JVOOH.
Noon.
(8
Noon.
Noon.
Noon.
Noon.
h m 8
s
or M
It
h m
h m s
8
• t M
m
h m
z
i6 5041.17
40.98a
—2:
14244.5
—1.50
18 12.3
X
165657.62
+o,oox
-2
I 51 4.6
+O.XX
x6 16.4
2
16 51 4.40
0.954
2.
I 43 19-9
X.45
18 ' 8.8
2
16 56 57.26
—0.032
2
151 1.4
o.x6
16 12.4
3
16 51 26.94
0*936
2:
I 43 53-9
1.39
18 5.2
3
16 56 56.09
0.C66
2
I 50 57.1
0.2X
16 8.5
4
16 51 48.80
0.897
2.
I 44 26.6
X.33
18 1.6
4
16 56 54.12
0.099
2
I 50 51.6
0.26
16 4.5
5
1652 9.96
0.868
2.
t 44 57.9
X.28
17 58.0
5
165651.35
0.13a
2
I 50 44.9
0.3X
16 0.5
6
16 52 30.42
+0.838
—2
I 45 27.9
—1.22
17 54.4
6
16 56 47.78
•-0.166
—2
I 50 37-1
+0.35
15 56.5
7
16 52 50.18
0.808
2.
I 45 56.6
X.I7
17 50.8
7
165643.40
O.J99
2
I 50 28. 1
0.40
15 52.5
8
1653 9.22
0.778
2.
[ 46 24.0
x.xx
17 47-2
8
16 56 38.22
a 232
2
I 50 18.0
0.45
X5 48.5
9
16 53 27-54
0.748
2:
E 4650.1
X.06
17 43.5
9
16 56 32.24
0.265
2
I 50 6.8
0.50
15 44-5
10
165345.14
0.7x8
2:
I 47 14.8
x.oo
17 39-9
10
16 56 25.47
0.299
2
I 49 54-4
0.55
15 40.4
II
16 54 2.00
+0.687
— 2-
I 47 38.2
-0-95
17 36.2
II
16 56 17.90
-0.332
-2
1 49 40.8
+0.59
15 36.3
12
16 54 18.11
0.656
2:
[48 0.4
0.90
17 32.6
12
1656 9.54
0.365
2
I 4926.1
0.64
15 32.2
13
16 54 33.48
0.625
2:
[ 48 21.3
0.84
17 28.9
13
1656 0.39
0.398
2
I 49 10.2
0.69
15 28.1
H
16 5448.10
0.594
2J
I 48 40.9
0.78
17 25.2
14
16 55 50.46
0.430
2
1 48 53.2
0.74
1524.0
15
16 55 1.96
0.562
2:
I 48 59.2
0.73
17 21.5
15
16 55 39-75
0.463
2
14835-1
0.79
15 ^9.9
i6
165515.05
+0.530
-2]
f 4916.3
--0.68
17 17.8
16
i6 55 28.26
-0.494
-2
1 48 15.9
+0.83
15 15.8
17
16 55 27-37
0.498
2]
[ 49 32.2
0.63
17 14.0
17
16 55 16.00
a 526
2
14755-5
a88
15 11.7
i8
16 55 38.92
0.466
2:
[ 49 46.8
0.58
17 10.3
18
1655 2.99
0.558
2
I 47 34.0
0.93
15 7.5
19
165549-69
0.433
2]
[ 50 0.2
0.53
17 6.5
19
16 54 49.23
0.589
2
14711.4
0.98
15 3-4
20
16 55 59.67
0.400
2]
[ 50 12.3
0.48
17 2.7
20
16 54 34-72
0.620
2
I 46 47.7
1.02
1459.2
21
1656 8.87
+0.367
—2]
[ 5023.2
-0.43
16 58.9
21
16 54 19.47
— 0.65X
—2
I 46 22.8
+1.06
14 55.0
22
16 56 17.28
0.334
2]
t 50 32.8
0.38
16 55.1
22
1654 3-49
0.68X
2
I 45 56.8
x.xx
14 50.8
23
16 56 24.90
0.301
2]
[5041-2
0.33
16 51-3
23
16 53 46.81
0.711
2
1 45 29.8
X.I5
14 46.6
24
i6 56 31.73
0.268
2]
[5048.5
0.28
1647.5
24
16 53 29.43
0.740
2
145 1.7
X.20
14 42.3
25
16 56 37.76
0.235
2}
c 50 54-6
0.23
16 43.6
25
16 53 "-35
a768
2
I 44 32.5
x.as
14 38.1
26
x6 56 42.99
+0.202
—2:
[ 50 59.5
-0.18
16 39.8
26
16 52 52.59
-0.795
—2
144 2.2
+1.29
M 33-8
27
16 56 47.42
a 168
2]
C51 3.2
0.13
16 35.9
27
16 52 33.16
a 823
2
1 43 30.9
X.34
14 29.6
28
x6 56 51.06
0.135
21
[51 5-8
0.08
16 32.0
28
16 52 13.08
0.850
2
14258.5
X.38
M 25-3
29
16 56 53.90
a 102
2]
^51 7-3
--0.03
[628.1
29
16 51 52.35
0.877
2
14225.1
1.4a
14 21.0
30
16 56 55.94
0.069
21
[51 7.6
+0.02
16 24.2
30
i6 51 30.99
0.903
2
I 41 50.6
1.46
14 16.7
31
165657.18
+0.035
—21
[51 6.7
+0,07
[6 2a 3
31
16 51 9.00
-0.929
—2
14115.1
+X.50
14 12.4
32
16 56 57.62 +0.001
—21
:5i 4-6
+O.XX ]
l6 16.4
32
16 5046.40
-0.954
—2
1 40 38.5
4-X.55
14 8.1
Se
Day of the Month.
4th.
18th.
80th
. 88tb.
Day of the Month.
6th.
18th.
8l8t.
89th.
midiameter ....
17.85
1
18.
r
30
18.7:
7 19.24
Semidiameter ....
19.71
20.17
2o.6g
m
20.98
H<
>rizontal Parallax . .
1.67
I.
71
i.7<
3 1.80
Horizontal Parallax
1.84
1.89
1.93
1.96
The sign + prefixed to the hourly change of declination indicates that south declinatiims are decreasing; the
sign — indicates that south declinations are increasing.
166
JUPITER, 1912.
GREENWICH MEAN TIME.
•
MAY.
JUNE.
4
a
o
s
o
Apparent
Right Ascen-
sion.
Var. of
R.A.
for I
Hour.
Apparent
Declination.
Var. of
Decl.
for z
Hour.
Merid-
ian Pas-
sage.
1
0
Apparent
Right Ascen-
sion.
Var. of
R. A.
fori
Hour.
Apparent
Declination.
Var. of
Decl.
for I
Hour.
Merid-
ian Pas-
sage.
Q
JVo<m.
Noon.
Noon.
Noon,
Noon.
Noon.
Noon.
Noon.
h m s
8
e ' n
n
h m
h m 8
8
0 t M
m
h m
I
16 51 9.00
-0.919
-2Z 41 15.I
+1.50
14 12,4
Z
Z636 8.89
-X.355
—21 15 42.8
+a.44
11 55.5
2
16 50 46.40
0.954
21 40 38.5
x-55
14 8.1
2
X6 35 36.36
1.355
21 14 44-2
a.45
11 51.0
3
16 50 23.21
0.979
21 40 0.8
1.59
14 3.8
3
1635 3.84
1-354
211345.4
a.45
11 46.6
4
16 49 59.44
i.oos
21 3922.2
1.63
13 59-4
4
163431-36
x.SSa
21 12 46.5
a.46
11 42.2
5
16 49 35-09
1. 02s
21 38 42.6
1.67
1355-1
5
16 33 58.95
X.349
21 11 47.5
a.46
11 37.8
6
1649 10.19
— 1.04B
-21 38 2.0
+X.71
13 50.8
6
16 33 26.63
-X.345
-21 1048.5
•fa.46
II 33-3
7
16 48 44.75
1.070
21 37 20.3
1.75
1346.5
7
16 32 54.42
X.340
21 949.5
«.45
11 28.8
8
x6 48 18.79
X.099
213637.7
2.79
1342.1
8
16 32 22.35
X.S34
21 850.5
a-45
zz 24.3
9
16 47 52.32
X.1X3
213554.1
X.83
13 37-7
9
16 31 50.42
i-Sa?
21 7 51.6
S.44
11 19.8
lO
164725.36
X.X33
21 35 9.6
1.87
13 33-3
10
16 31 18.67
X.S19
21 6 52.9
a.4S
11 15.4
IZ
16 46 57.92
-1. 153
-21 34 24. Z
•♦•X.91
13 28.9
ZI
163047.11
—1.3x0
-21 554.5
+a.4a
11 Z0.9
12
z6 46 30.03
1,171
21 33 37-7
1.95
1324-5
Z2
16 30 15.77
1.300
21 456.3
a.4x 11 6.5
13
16 46 Z.70
1. 189
21 32 50.4
X.99 13 20.1
13
16 29 44.68
x.a89
21 358.4
a.40
11 2.0
14
16 45 32.96
i.ao6
21 32 2.3
a.oa 13 15.7
14
1629 13.85
x.a76
21 3 0.9
a. 39
10 57.6
15
1645 3.82
i.na
21 31 13.3
3.06 13 II. 3
15
16 28 43.30
i.a66
21 2 3.8
«-S7 JIO53-I
i6
164434.30
-i.a37
-21 3023.5
+a.09 Ii3 6.8
16
1628 13.06
-I. •53
-21 1 7.2
+8.35 1048.7
17
1644 4,43
T.a52
21 29 33.0
a.xa
13 2.4
17 162743.15
1.839
21 011.2
a.33 |io 44.2
i8
16 43 34.22
1.365
21 28 41.7
a. 15
12 57.9
18
162713.59
x.aa4
205915.8
8.30 jio 39.8
19
1643 3-70
X.378
21 27 49.6
a. 18
12 53.5
19
16 2644.41
i.aoB
20 58 21.0
a.a7
1035-4
20
z6 42 32.89
Z.389
21 26 56.8
a.«i
12 49.0
20
162615.62
1.191
20 57 26.9
•.•4
10 31.0
2t
z6 42 Z.82
—1.300
-21 26 3.5
+a.a4
12 44.6
21
16 25 47.23
-1,174 -205633.5
•fa.81 10 26.6
22
16 41 30.51
1.310
21 25 9.5
a.a7 12 40.1
22
1625 19.27
1.156 205541.0
a.18 10 22.2
23
16 40 58.97
1.319
21 24 14.9
a.«9 12 35-7
23
1624 51.76
1.137! 205449.3
a.14 110 17.8
24
16 40 27.23
i.3«6
21 23 19.7
a.31 |i2 31.2
24
16 24 24.70
1.117' 205358.4
8.10 10 13.5
25
163955-32
1-333
21 22 24.1
a.33 |12 26.7
25
1623 58.12
X.097 2053 8.5
a.06 10 9.1
26
16 39 23.26
-1.339
—21 21 28.0
-H.35 ;i2 22.2
26
16 23 32.04
—1.077 |— 20 52 19.6
-(-8.08 '10 4.8
27
16 38 51.07
I-S44
21 20 31.3
a.37il2 17.8
27
1623 6.47
x.os6' 20 51 31.8
1.9B 'lo 0.4
28
16 38 Z8.77
1.348
21 19 34-2
a. 39 112 13.3
28
162241.41
1.034 * 20 50 45.0
1.93 9 56.0
29
163746.38
I.351
21 18 36.9
a.41
12 8.8
29 1 16 22 16.89
t.ott { 204959.3
1.88 i 9 51. 7
30
x6 37 13-92
1.353
21 17 39.2
0.43
12 4.3
1
30 16 21 52.92
0.987 i 20 49 14.8
i.«3 947.3
31
16 36 41.41
-«.354
-21 1641.1
4*43
11 59-9
31
1621 29.51
— Oi.g63 '—20 48 31.6
4-1.78 9 43.0
32
1636 8.89
-X.355
-21 1542-8
+a.44
11 55-5
32
16 21 6.68
-0.93S
;-2o 47 49.6
+X.73
1
938.7
1
Day of the Month.
SemidUmeter . .
Horizontal Parallax
. . ;2i.3i
• . , 1 99
21.57 '21.74
2.02 2.03
21.82
2.04
Day of the Month.
9ch.
l«th. I t4th.
Seintdiameter 21.80 21.69 ; 21.48
Horizontal Parallax .... I 2.04 2.03 . 2.01
I
Notc—Hm aicn + indleatM north d«cliaaiiona ; the siga — indicatM tcrath deoUfiati«at.
JUPITER, 1912.
167
GREENWICH MEAN TIMR
JULY.
AUGUST.
a
o
S
o
Apparent
Right Ascen-
sion.
Var. of
R. A.
fori
• Hour.
Apparent
Declination.
Var. of
Decl.
fori
Hour.
Merid-
ian Pas-
sage.
1
«M
0
0
Apparent
Right Ascen-
sion.
Var. of
R.A.
for X
Hour.
Apparent
Decknation.
Var. of
Decl.
for X
Hour.
Merid-
ian Pas-
sage.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
h m s
s
Of tf
tt
h m
h m s
8
0 > n
tt
h m
I
16 21 29.51
-0.963
—20 48 31.6
+1.78
9 43-0
I
16 14 59.69
-a 043
-20 39 19.7
-0.44
7 34-9
2
1621 6.68
0.938
20 47 49.6
1.73
938.7
2
16 14 59.06
— 0.01X
20 39 31.2
0.52
730.9
3
16 20 44.44
0.913
2047 8.8
X.67
9 34-4
3
16 14 59.20
-H).02X
20 39 44.6
a6o
7 27.0
4
16 20 22.80
0.888
204629.4
z.6i
930.1
4
16 15 O.II
0.054
20 39 59.9
0.68
723.1
5
16 20 1.77
0.86a
204551.4
1.55
925.8
5
16 15 1.79
0.087
2040 17. 1
0.76
7 19.2
6
16 19 41.37
—0.836
-20 45 14.8
4-1.49
9 21.6
6
16 15 4.24
-ho. 119
—20 40 36.3
—0.84
7 15.3
7
16 19 21.61
0.809
20 44 39.6
X.43
917-3
7
16 15 7.47
O.Z5Z
20 40 57.4
0.92
7 "-4
8
16 19 2.50
0.782
2044 5.9
X.37
9 I3-I
8
16 15 11.47
0.X83
20 41 20.4
x.oo
7 7-5
9
16 18 44.04
0.755
20 43 33.8
X.31
9 8.9
9
16 15 16.25
0.2x5
204145.3
X.08
7 3.6
lO
16 18 26.25
0.737
2043 3.2
1.24
9 4-7
10
x6 1521.80
0.247
20 42 12.0
z.x6
6 59.8
XI
16 18 9.14
-0.698
-20 42 34.2
+X.X7
9 0-5
II
16 15 28.11
+0.279
—20 42 40.6
-X.24
6 56.0
12
i6 17 52.73
0.669
20 42 6.9
X.IO
856.3
12
16 15 35.19
0.311
2043 II. 2
1.3a
6 52.2
13
16 17 37.02
0.640
2041 41.3
X.03
8 52.1
13
16 15 43-05
0.343
204343.6
X.39
648.4
M
16 17 22.0X
0.6x0
2041 17.4
0.96
847.9
14
16 15 51.68
0.375
20 44 17.8
Z.46
6 44.6
15
16 17 7.72
0.380
20 40 55. 1
0.89
843-7
15
16 16 1.06
0.407
204453.8
X.54
6 40.9
i6
16 16 54.16
-0.550
-20 40 34.6
+o.8a
839.6
16
16 16 II. 19
+0.439
-20 45 31.6
— X.63
637.1
I?
16 1641.34
0.519
2040 15.9
0.75
835.4
17
16 16 22.07
0.470
2046 1 1.2
X.69
633.3
i8
16 16 29.26
0.488
20 39 59-0
0.67
831.3
18
16 16 33.71
0.501
204652.5
1.76
6 29.6
19
16 16 17.92
0.457
20 39 44.0
0.59
8 27.2
19
16 1646.10
0.53a
20 47 35-6
Z.83
625.9
20
16 16 7.33
0.426
20 39 30.8
0.51
823.1
20
16 16 59.23
0.563
20 48 2a 4
1.90
6 22.2
21
16 15 57-49
-0.395
-20 39 19.5
+0.44
8 19.0
21
16 17 13.09
+0.593
-2049 6.8
—1-97
6 18.5
22
16 1548.4 c
0.363
20 39 10.0
0.36
8 14.9
22
16 17 27.68
0.623
20 49 54.9
a.04
6 14.8
23
16 15 40.08
0.331
2039 2.4
0.38
8 10.8
23
16 1743.00
0.653
20 50 44.7
a.ix
6 II. I
24
16 15 32.52
0.399
20 38 56.7
0.20
8 6.8
24
16 17 59.04
0.683
20 51 36.1
2.17
6 7.4
25
16 15 25.73
0.267
20 38 52.9
O.Z2
8 2.8
25
16 18 15.79
0.713
20 52 29.0
2.24
6 3.8
26
16 15 19.70
-0.235
-20 38 51.0
4^04
758.7
26
16 x8 33.25
-Ho. 74a
-20 53 23.4
-4.30
6 0.1
27
z6 15 14.44
0.203
20 38 51.0
—0.04
7 54-7
27
16 18 51.42
0.771
20 54 19.4
a.36
556.5
28
16 15 9.95
0.17X
20 38 52.9
0.12
750.7
28
16 19 10.29
0.800
20 55 16.9
2.42
552.9
29
16 15 6.23
a 139
20 38 56.7
0.30
746.8
29
16 19 29.85
0.829
2056 15.8
2.48
5 49-3
30
i6 15 3.27
0.107
20 39 2.4
0.28
742.8
30
16 19 50.09
0.858
20 57 16. 1
a. 54
5 45-7
31
16 15 1.09
-0.075
-20 39 10. 1
—a 36
738.8
31
16 20 11.02
+0.886
-20 58 17.9
—2. 60
542.2
32 i6 14 59.69
-0.043
-20 39 19.7
-0.44
7 34-9
32
16 20 32.63
+0.914
—20 59 21. 0
-2.66
538.6
Day of the Month.
2d.
10th.
18th.
96th.
Day of the Month.
Sd.
11th.
19th.
27th.
Semidiameter ....
Horizontal Parallax . .
21.20
1.98
1
20
I
r
.86
.95
20.47
1.91
20.05
1.87
Semidiameter ....
Horizontal Parallax
19.60
1.83
19.14
1.79
18.69
1-75
18.25
I.71
The sign + prefixed to the hourly change of declination indicates that south declinations are decreasing; the
sign — indicates that south inclinations are increasing.
168
JUPITER, 1912.
GREENWICH MEAN TIME.
SEPTEMBER.
OCTOBER.
i
Apparent
Rignt ABcen-
sion.
Var. of
R.A.
for X
Hour.
Apparent
Declination.
Var. of
Decl.
for X
Honr.
Merid-
ian Pas-
i
^4
Apparent
Right Ascen-
sion.
Var. of
R.A.
for X
Hoar.
Apparent
Declination.
Var. of
DecL
for X
Hoar.
Merid-
ian Pas-
o
sage.
0
sage.
1
JVoon.
Noon.
Noon.
Noon.
Noon,
Noon.
Noon,
Noon.
h m a
s
e f n
»
h m
h m 8
s
e r <*
m
h m
I
16 20 32.63
+0.9x4
-20 59 2Z.O
-2.66
538.6
z
z6 36 ZO.40
+X.65X
-2Z 38 52.4
-3.71
356.2
2
16 20 54.9Z
0.942
2]
c 025.4
2.72
5 35-0
2
163650.27
X.672
2Z 402Z.4
3.72
353.0
3
z6 21 17.86
0.970
2]
[ z 3Z.Z
a.77
531-4
3
16 37 30.64
1.693
2Z 4Z 50.8
3-73
349.7
4
16 21 4Z.48
0.998
2\
c 238.Z
2.82
527.9
4
z6 38 ZZ.49
X.713
2Z 43 20.4
3.73
346.5
5
16 22 5.77
X.035
2]
[ 346.4
2.87
524-4
5
z6 38 52.83
1.733
2Z 44 50.2
3.74
343.2
6
16 22 30.71
+x.o5a
—2]
c 456.0
—2.92
520.9
6
16 39 34.65
+1.753
— 2Z4620.Z
-3-74
340-0
7
16 22 56. 30
X.079
2]
[ 6 6.8
9-97
517-4
7
z6 40 Z6.94
X.772
2Z 47 50.2
3-75
336.7
8
162322.54
X.X06
2]
[ 7 z8.8
3.02
513.9
8
z6 40 59.69
1.791
2Z 4920.4
3.76
3 33-5
9
162349.43
1. 133
2]
I 831.9
3.07
5 10.4
9
16 4Z 42.90
X.810
2Z 50 50.7
S.76
330.3
zo
16 24 Z6.95
x.xte
2]
[ 946.Z
3.XI
5 6.9
zo
z6 42 26.56
X.829
2Z 52 2Z.O
3.76
327.1
ZI
162445.10
+X.X86
—2]
[ zz Z.3
—3.16
5 3*4
zz
z6 43 Z0.66
+1.847
-21 53 51-3
-S.76
323.9
Z2
I6 25Z3.88
x.ax2
2]
[ Z2 Z7.6
3.20
5 0.0
Z2
164355.20
X.865
2Z 552Z.6
3.76
320.7
13
16 25 43.28
X.238
2]
^ 13 34-9
3.24
456.5
13
z6 44 4a 17
X.883
2Z 56 5Z.8
3-76
317-5
M
16 26 13.28
1.263
2]
t 14 53-1
3.28
4 53-1
14
164525.57
1.900
2Z 582Z.7
3.75
314.3
15
z6 26 43.89
1.288
2i
[ Z6 Z2.2
3.3a
4 49-7
15
Z646ZZ.39
1.9x7
2z 59 51.6
3.74
3 zz.i
z6
1627 Z5.Z0
+1.313
— 2J
c Z7 32.2
-3.35
446.3
z6
z6 46 57.6Z
+1.934
-22 Z 21.3
-3.73
3 8.0
17
16 27 46.90
X.338
2]
[Z853.Z
3-39
442.9
17
z6 47 44.23
1.951
22 2 50.8
3.7a
3 4-8
z8
16 28 Z9.29
X.3G2
2]
[ 20 Z4.8
3.4*
4 39-5
z8
Z6483Z.25
1.967
22 420.0
3-71
3 1-7
19
16 28 52.25
1.386
2J
C 2Z 37.2
3*45
436.1
19
16 49 z8.66
1.983
22 548.9
3.70
258.5
20
z6 29 25.78
X.409
2]
[23 0.3
3.48
432.8
20
Z650 6.45
x-999
22 7 Z7.4
3-69
255-4
2Z
z6 29 59.88
4-X.43*
-21
[ 24 24.2
-3.5X
429-4
2Z
z6 50 54.62
4-2.0I5
-22 8 45.6
-3.68
252.3
22
16 30 34.53
X.455
2]
[ 25 48.7
3.53
4 26. z
22
Z65Z43.Z6
2.Q30
22 ZO Z3.5
3.66
249.2
23
16 31 9.73
1.478
2]
c 27 Z3.8
3.36
422.7
23
z6 52 32.06
2.045
22 ZZ4Z.O
3.64
2 46.0
24
16 31 45-47
X.50X
2]
[ 28 39.4
3.58
4 19.4
24
Z6532Z.3Z
a.060
22 Z 3 8.0
3.62
242.9
25
z6 32 2Z.75
X.52S
2J
lyy 5-6
3.60
4 z6.o
25
z6 54 Z0.92
2.075
22 Z4 34.5
3.60
2 39.8
26
z6 32 58.56
4-1.545
-2]
t 31 32.3
—3.62
412.7
26
Z655 0.88
+2.089
-22 Z6 0.5
-S.58
2 36.7
27
16 33 35-90
X.567
2]
f 32 59-5
3.64
4 9-4
27
16555Z.Z8
2. 103
22 Z7 26.0
3-55
233-6
28
16 34 13.76
X.588
2]
I 34 27-2
3.66
4 6.Z
28
16564Z.8Z
2.XI7
22 Z8 50.9
3.5«
230.5
29
163452.Z4
X.609
2]
t 35 55-3
3.68
4 2.8
29
16 57 32.77
2.130
22 20 Z 5.2
S.50
227.4
30
z6 35 31.02
X.630
2]
c 37 23.7
3.69
359.5
30
z6 58 24.05
2.X43
22 2 Z 39.0
5.47
224.4
31
z6 36 Z0.40
+1.651
-2]
[ 38 52.4
-3.71
356.2
31
z6 59 Z5.66
+2. 156
-2223 2.Z
-3-45
2 21.3
32
z6 36 50.27
+1.672
-2 J
t40 2Z.4
-3.7a
3 53-0
32
17 0 7.57
•H.X69
-222424.5
-3.42
2 Z8.2
Day of the Month.
4th.
Itth.
80th.
88th.
Day of the Month.
eth.
14th.
SSd.
80th.
Semidiameter ....
ft
17.83
17
43
n
Z7.06
16.7Z
Semidiameter ....
ft
16.40
Z6.Z2
15.87
Z5.66
Horizontal Parallax . .
Z.67
z.
63
1.59
Z.56
Horizontal Parallax
153
Z.50
Z.48
Z.46
NoTK.— The sign + indicates north declinations; the sign — indicates south declinations.
JUPITER, 1912.
169
GREENWICH MEAN TIME.
NOVEMBER.
DECEMBER.
•
o
o
Apparent
Right Ascen-
sion.
Var. of
R.A.
fori
Hour.
Apparent
Declination.
Var. of
Decl.
fori
Honr.
Merid-
ian Pas-
•
g
Apparent
Right Ascen-
sion.
Var. of
R. A.
fori
Hour.
Apparent
Dechnation.
Var. of
DecL
fori
Honr.
Merid-
ian Pas-
o
sage.
0
sage.
ft
O
J^OOH,
Noon.
NOOM.
Noon.
1
Noon.
Noon.
Noon.
Noon.
h m s
s
0 t tt
n
h m
h m 8
s
• t *t
n
h m
I
17 0 7.57
+0.269
—22 2424.5
-3.4a
2 18.2
I
17 28 0.01
+a.437
-22 58 25.3
—3.13
047-9
2
17 059.79
3.z8a
222546.3
3.39
2 15. 1
2
172858.57
a.442
22 59 15.5
3.07
044.9
3
17 I 52.32
a. 194
22 27 7.3
3.36
2 I2.I
3
17 29 57-24
3.447
23 0 4.4
3.02
041.9
4
17 245-14
a. 906
22 28 27.6
3.33
2 9.0
4
17 30 56.03
3,453
23 052.0
X.96
0 39.0
5
17 338.25
a.ai8
22 2947.1
3.30
2 6.0
5
17 31 54-93
3.456
23 I 38.2
X.90
0 36.1
6
17 431-65
•fa.a3o
-2231 5.8
-3.a7
2 2.9
6
17 32 53-93
+3.460
-23 223.1
-1.84
033-1
7
17 525-33
9,242
22 32 23.7
3.33
I 59-9
7
17 33 53-02
3.464
23 3 6.6
X.78
0 30.2
8
17 6 19.28
a.a53
22 33 40.7
3*30
I 56.8
8
17 34 52.20
3.467
23 348.7
1.73
027.3
9
17 713-49
3.a64
22 34 56.9
3.X6
153.8
9
17 35 51-46
3.470
23 429.4
X.67
024.4
lO
17 8 7.96
a.«75
22 36 12.2
3.M
I 50.8
10
17 36 50.79
3.473
23 5 8.8
x.6x
0 21.5
II
17 9 a.69
+a.a86
—22 37 26.5
—3.08
147.8
II
17 37 50.19
+3.476
-23 546.7
-r.55
0 18.5
12
17 9 57-66
2.396
22 38 39-9
S.04
144-7
12
17 38 49.65
3.479
23 623.2
r.49
0 15.6
13
17 10 52.87
a.305
22 39 52.2
3.00
141.7
13
173949.16
3.481
23 658.3
1.43
0 12.6
14
17 II 48,31
a.314
22 41 3.6
3.95
138.7
14
17 40 48.72
3.483
23 732.0
1.37
0 9-7
15
17 12 43.97
8.3*3
22 42 13.9
9.9X
135-7
15
174148.32
3.484
23 8 4.2
X.3X
0 6.7
i6
17 13 39-85
+a.33a
-22 43 23.2
-3.86
I 32.7
16
17 42 47.95
+3.485
-23 835.0
-1.25
0 3.8
17
17 14 35-94
«.34X
22 44 31.5
3.83
129.7
17
17 43 47-60
3.486
23 9 4-4
X.X9
( 0 0.8
)23 67.9
i8
17 15 32.24
a.349
22 45 38.7
3.78
I 26.7
18
17 44 47-27
3.486
23 932.3
X.I3
23 54-9
19
17 16 28:73
a.357
224644.7
3.73
123.7
19
17 45 46.96
3.486
23 958.8
X.07
23 52.0
20
17 17 25.41
a.365
22 47 49.6
3.68
I 20.7
20
17 46 46.66
3.487
23 lo 23.8
X.OX
23 49.0
21
17 18 22.28
+a.373
L22 48 53.4
—3.63
I 17.7
21
174746.35
+3.487
-23 lo 47.4
-0.95
2346.1
22
17 19 19.33
a. 381
22 49 56.0
3.58
I 14.7
22
17 48 46.04
3.487
23 II 9.6
a89
2343-1
23
17 20 16.56
3.388
225057-5
a.54
I 11.8
23
17 49 45-73
3.486
23 II 30.3
0.83
23 40.2
24
17 21 13.96
a-395
22 51 57.8
3.49
X 8.8
24
17 50 45-40
3.485
231149.5
0.77
23 37.3
25
1722 11.51
a.4oa
22 52 56.9
a-44
I 5.8
25
17 51 45.05
3.484
2312 7.3
0.71
23 34-4
26
1723 9.23
+8.408
-22 53 54.8
—3.38
I 2.8
26
17 52 44.68
+3.483
-23 12 23.7
—0.65
23 31.4
27
17 24 7.10
a.414
22 54 51.4
3.33
059-9
27
175344-27
3.483
23 12 38.6
0.59
23 28.5
28
1725 5.12
3*430
22 55 46.8
3.38
0 56.9
28
17 54 43.83
3.480
23 12 52.1
0.53
23 25.5
29
17 26 3.28
3.436
22 56 40.9
3.23
053-9
29
17 55 43-35
3.478
2313 4-2
0.47
23 22.6
30
1727 1.58
3.43a
22 57 33.7
3.18
0 50.9
30
17 56 42.82
3.476
23 13 14.8
0.4X
23 19.6
31
1728 0.01
+a.437
-22 58 25.3
-3.X3
047-9
31
17 57 42-23
+3.474
-23 13 24.0
-0.35
23 16.7
32
17 28 58.57
+3.448
-22 59 15.5
—3.07
044.9
32
17 58 41-59
+3.473
-23 13 31.7
—0.29
23 13-7
Day of the Month.
7th.
16th
28d.
Day of the Month.
1st
9th.
17th.
26th
. 88d.
Semidiameter
15-47
15.32
It
I 15.21
Semidiameter . .
n
15.13
15.08
n
15.07
n
15.0c
ft
) 15 15
H<
srizontal Parallax ....
1.44
1-42
\ 1.42
Horizontal Par. .
I.4I
1.41
141
1.41
[ 1.42
The sign - prefixed to the hourly change of declination indicates that south declinations are increasing.
170
SATURN, 1912.
GREENWICH MEAN TIME.
JANUARY.
FKBRUARY.
*
§
Apparent
Right Ascen-
sion.
Var.of
R. A.
for X
Hour.
Apparent
Declination.
Var. of
Decl.
for X
Hour.
Merid-
ian Pas-
sage.
•
a
0
0
Apparent
Right Ascen-
sion.
Var. of
R. A.
for I
Hour.
Apparent
Declination.
Var. of
Decl.
for X
Hour.
Merid-
ian Pas-
sage.
^
&
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
h m 8
s
0 r n
•»
h m
h m 8
s
0 • »»
H
h m
I
2 47 7.01
-o.a75
+ 13 36 36.2
-a5x
8 6.6
I
2 47 12.03
+0.29X
+13 46 32.1
+2.09
6 4.9
2
2 47 0.65
0.257
133624.9
0.43
8 2.6
2
2 47 19.22
0.309
134723-1
2.X7
6 1.1
3
2 46 54.69
0.240
13 36 15.6
0.35
758.6
3
2 47 26.83
0.327
13 48 15.9
2.25
557.3
4
24649.15
0.222
1336 8-3
0.27
754.6
4
2 47 34.86
0.344
13 49 10.5
2*33
553.5
5
2 46 44,04
0.204
1336 3-1
o.x8
750.6
5
2 47 43.32
0.36X
1350 7.0
2.39
549.7
6
2 46 39.36
-0.186
+13 35 59-9
—0.09
746.6
6
24752.19
+0.379
+13 51 5-3
+2.47
5 45-9
7
246 35.IX
0.168
13 35 58.7
— 0.0X
742.6
7
2 48 1.48
0.396
1352 5-3
2.54
542.1
8
246 31.29
0.150
13 35 59-6
+ao8
738.6
8
2 48 11.19
0.413
1353 7-1
2.62
538.3
9
2 46 27.90
0.X32
1336 2.5
o.x6
7 34-6
9
2 48 21.31
0.430
13 54 10.6
a. 69
5 34-5
zo
2 46 24.95
0.1x3
1336 7-4
0.25
730.6
10
24831.83
0.447
13 55 15.9
a.76
530.7
II
2 46 22.44
-0.095
+13 36 14-4
+0.34
7 26.6
II
2 48 42.76
+0.464
+13 56 22.9
+2.83
527.0
12
2 46 20.37
0.076
133623.5
0.43
7 22.6
12
2 48 54. 1 1
0.48X
13 57 31.5
2.90
523.3
13
2 46 18.74
0.058
133634-6
0.52
718.7
13
2 49 5.86
0.498
13 58 41.8
a.97
519.6
14
24617-55
0.040
133647-8
o.6x
7 14-7
14
2 49 18.01
0.515
13 59 53.8
3.04
515.8
15
2 46 16.80
0.022
1337 3-1
0.69
7 10.8
15
2 49 30.55
0.53X
14 I 7.4
3.X0
5 12.1
i6
2 46 16.49
—0.004
+13 37 20.4
+0.77
7 6.8
16
a 49 43.49
+«-547
+14 2 22.6
+3.17
5 8.4
17
2 46 16.63
+0.015
13 37 39-8
0.86
7 2.9
17
2 49 56.82
0.563
14 339.4
3.^4
5 4.7
x8
2 46 17.22
0.034
13 38 1.2
0.94
659.0
18
2 50 10.54
0.579
14 457.8
3.30
5 i.o
19
2 46 18.26
0.052
13 38 24.7
X.03
655.1
19
2 50 24.64
0.595
14 617.7
3.36
457.3
20
2 46 29.74
0.07X
13 38 50.2
X.XX
6 51.2
20
25039.12
0.6XX
14 739.1
3.4a
453.6
21
2 46 21.66
+0.089
+13 39 17.8
+I.I9
647-3
21
2 50 53.98
+0.627
+14 9 2.0
+3.48
449.9
22
2 46 24.03
Ob 108
13 39 47-4
X.28
643-4
22
251 9.22
0.643
14 10 26.4
3.54
446.2
23
2 46 26.85
0.127
13 4019.Z
X.36
639-5
23
2 51 24.82
0.658
14 xi 52.2
3.60
442.5
24
246 30.12
0.145
13 40 52.8
X.45
635.6
24
2 51 4a 78
0.673
14 13 19-3
3.66
438.9
25
24633.83
0.164
134128.4
r.53
631.8
25
2 51 57.10
0.688
14 14 47.8
3.7a
435.3
26
2 46 37-98
+0.182
+1342 5.9
+X.61
627.9
26
2 52 13.78
+0.702
+14 16 17.7
+3.78
431.6
27
24642.57
0.20X
134245.4
X.69
6 24.1
27
2 52 30.82
0.717
14 17 48.9
3.83
4 28.0
28
24647.59
0.219
134326.9
1.77
620.2
28
2 52 48.20
0.73X
14 19 21.3
3.88
424.3
29
2 46 53.04
0.237
13 44 10.4
1.85
6 16.3
29
2 53 5.93
0.745
14 20 55,0
3.93
420.7
30
2 46 58-93
0.255
13 44 55-8
X.93
6 12.5
30
2 53 23-99
0.759
14 22 29.9
3.98
417.0
31
247 5.26
+«.a73
+I3 45 43-0
+2.01
6 8.7
31
2 53 42.38
+0.773
+14 24 6.0
+4.03
4 13.4
32
2 47 12.03
+0.29X
+134632.1
+2.09
6 4.9
32
254 I."
+0.787
+142543-3
+4-07
4 9.8
Day of the Month.
0
8th.
leth.
24th.
Day of the Month.
Ist.
•th.
17th.
85th.
Semidiameter ....
Horizontal Parallax . .
9.06
1.03
8.
I,
96
02
8.83
z.oo
8.69
0.99
Semidiameter ....
Horizontal Parallax . .
8.57
0.97
I.
8.45
0.96
m
8.33
0.95
8.21
0.93
NoTB.— The sign + indicates north declinations ; the sign — indicates south declinations.
SATURN, 1912.
171
GREENWICH MEAN TIME.
MARCH.
APRIL.
§
o
Apparent
Rignt Ascen-
sion.
Var. of
R.A.
for X
Hour.
Apparent
Decfination.
Var. of
Decl.
for I
Hour.
Merid-
ian Pas-
sage.
1
Apparent
Rignt Ascen-
sion.
Var. of
R.A.
for z
Hour.
Apparent
Dechnation.
Var. of
Decl.
for I
Hour.
Merid-
ian Pas-
sage.
»s
Noon,
Noon.
Noon,
Noon.
CO
Noon,
Noon,
Noon,
Noon.
h m s
8
e f n
n
h m
h m s
s
e » w
H
h m
I
2 53 23.99
+0.759
+14 22 29.9
+3.98
417.0
I
3 510.33
4x.xio
4x5 19 27.6
45.03
2 26.9
2
25342-38
0.773
14 24 6.0
4.03
4 13.4
2
3 537.07
Z.I 19
152128.5
5.05
2 23.4
3
2 54 I. II
0.787
142543.3
4.07
4 9.8
3
3 6 4.01
x.za7
152329.7
5.06
2 19.9
4
25420.17
aSox
14 27 21.8
4.1a
4 6.2
4
3 631.15
X.135
15 25 31.3
5.08
2 16.4
5
2 54 39-55
0.8x4
1429 1.5
4-17
4 2.6
5
3 658.47
X.X43
152733.2
5.09
2 13.0
6
2 54 59.25
+o.8«7
+143042.3
4-4.aa
3 59-0
6
3 725.98
4X.X5I
+15 29 35.5
45.10
2 9.5
7
2 55 19.26
0.840
14 32 24.2
4.27
355.4
7
3 753.67
Z.Z58
153138.1
5.II
2 6.0
8
2 55 39-59
0.853
1434 7.0
4.31
351.8
8
3 821.53
X.165
15 33 40.9
5.1a
2 2.5
9
2 56 0.23
0.866
14 35 50.9
4.35
348.2
9
3 849.58
z.x7a
153544.0
5.13
I 59.1
lO
2 5621.17
0.878
14 37 35.9
4.39
344.6
10
3 917.79
1.179
153747.3
5.14
155.6
II
2 56 42.41
+0.89X
+14 39 21.9
4-4.43
341.0
II
3 946.17
4i.z86
+153950.8
45.15
I 52.2
12
257 3-95
0.9Q3
14 41 8.7
4.47
337.5
12
3 10 14.71
1.193
15 41 54.5
5.15
148.7
13
2 57 25.79
0.915
14 42 56.6
4-51
3 33.9
13
3 10 43.41
1.199
154358.3
5.16
145.3
M
2 57 47.91
0.927
14 44 45.4
4-55
330.4
14
3 II 12.27
i.ao5
1546 2.3
5.17
I 41.8
15
2 58 10.31
0.939
14 46 35.0
4.59
326.8
15
3 II 41.27
z.azx
1548 6.4
5.17
I 38.4
i6
a 58 32.99
40.951
+14 48 25.5
44.6a
323.3
16
3 12 10.41
4i.ax7
415 50 10.6
45.17
I 34.9
17
2 58 55.95
0.962
14 50 16.9
4.66
3 19.7
17
3 12 39.69
z.aas
15 52 14.8
5.X8
I 31.5
i8
2 59 19.18
0.973
1452 9.0
4.69
3 16.2
18
313 9."
x.aa9
155419.1
5.X8
I 28.0
19
2 59 42.68
0.984
1454 1.9
4.7a
3 12.6
19
3 13 38.65
i.a34
15 56 23.4
5.17
I 24.6
20
3 0 6.45
0.995
14 55 55.6
4-75
3 9.1
20
314 8.31
z.a39
15 58 27.6
5.17
I 21. 1
21
3 030.48
+X.005
+14 57 50.0
44.78
3 5.5
21
3 14 38.10
4x.a44
4i6 031.8
45.17
I 17.7
22
3 054.75
Z.016
14 59 45.0
4.8X
3 2.0
22
315 8.01
z.a49
16 2 36.0
5.17
I 14.2
23
3 I 19.27
X.O^
15 140.7
4.84
258.4
23
3 15 38.02
1.353
16 440.1
5.Z6
I 10.8
24
3 144.03
X.036
15 3 37-1
4.87
254.9
24
316 8.13
i.«57
16 644.1
5.Z6
I 7-3
25 3 2 9-03
Z.046
15 534.1
4.89
251.4
25
3 16 38.35
X.26Z
16 847.9
5.16
I 3.9
26 3 2 34.27
4-X.056
+15 731.6
44.9a
247.9
26
317 8.66
4i.a65
416 10 51.6
45.15
I 0.4
27
3 259.74
Z.066
15 929.7
4-94
244.4
27
3 17 39.06
Z.369
16 12 55.1
5.X5
057.0
28
3 325.43
X-075
15 II 28.4
4.96
2 40.9
28
318 9.55
z.a7a
16 14 58.4
5.14
053.6
29 3 351.34
Z.084
15 1327.6
4.98
237.4
29
3 1840.13
z.a75
16 17 1.6
5.13
0 50.2
30
3 417.46
1.093
15 15 27.2
5.00
2 33.9
30
3 19 10.78
x.a78
16 19 4.6
5.za
0 46.7
31
3 443.79
4-x.xoa
+15 17 27.2
45.OX
2 30.4
31
31941.50
4x.a8x
416 21 7.3
45.11
043.3
32
3 510.33
+X.110
+15 19 27.6
45.03
2 26.9
32
3 20 12.29
4x.a84
41623 9.7
45.10
039.9
Day of the Month.
4th.
12th.
80th.
29th.
Day of the Month.
6th.
ISth.
21st.
29th.
Sei
Ho
nidiameter ....
rizontal Parallax . .
8.II
0.92
M
8.02
0.91
7-93
0.90
7.86
0.89
Semidiameter ....
Horizontal Parallax . .
*
7.79
0.88
n
7-74
0.88
7.7c
0.87
) 7.67
' 0.87
The sign 4- prefixed to the hourly change of declination indicates that north declinations are increasing.
172
SATURN, 1912.
GREENWICH MEAN TIME.
MAY.
JUNE.
4
§
s
0
Apparent
Right Ascen-
sion.
Var. of
R.A.
for X
Hour.
Apparent
Declination.
Var.of
DecL
for X
Hour.
Merid-
ian Pas-
sage.
i
0
Apparent
Right Ascen-
sion.
Var. of
R. A.
for X
Hour.
Apparent
Declination.
Var.of
Decl.
forx
Hour.
Merid-
ian Pas-
sage.
^
Co
Noon.
Noon.
Noon.
Noon.
CI
Noon.
Noon.
Noon.
Noon.
h m s
s
e t H
II
h m
h m s
s
e 1 ti
ti
h m
I
31941.50
+i.a8i
+1621 7.3
+5."
043-3
I
3 35 48.41
+X.288
+17 20 59.8
+4.44
22 54.2
2
3 20 12.29
1.284
1623 9.7
5.X0
0 39-9
2
3 36 19.28
1.285
17 2246.0
4.4X
22 50.8
3
32043.16
1.287
1625 II.9
5.09
036-5
3
3 36 50.09
X.282
17 24 31.5
4.38
22 47-3
4
321 14.10
1.290
1627 13.8
5.08
033.1
4
3 37 20.84
X.279
17 26 16.2
4.35
22 43.9
5
3 21 45.09
X.293
16 29 15.4
5.06
0 29.7
5
3 37 51-51
X.276
1728 0.2
4.32
22 40.5
6
322 16.13
+1.895
-H6 31 16.7
+5.05
0 26.3
6
33822.10
+i.«73
+172943.4
+4.99
22 37.1
7
3 22 47.23
1.297
16 33 17.6
5.03
0 22.9
7
3 38 52.61
X.269
17 31 25.8
4.26
22 33.6
8
32318.37
X.299
16 35 18.2
5*02
019.4
8
3 39 23-03
X.366
17 33 7-3
4.22
22 30.2
9
3 23 49-56
X.301
16 37 18.4
5.00
0 16.0
9
3 39 53.36
X.S62
17 34 48.0
4.x8
22 26.8
lO
3 24 20.79
X.302
16 39 18.2
4.98
0 12.6
10
3 40 23.59
1.258
17 36 27.9
4.15
22 23.4
II
3 24 52.05
4-X.303
+16 41 17.6
+4.97
0 9.2
II
3 40 53.72
+x.«54
+1738 7.0
+4- II
22 19.9
12
32523.34
1.304
1643 16.6
4.95
0 5.8
12
34123.75
1.249
17 39 45.3
4.08
22 16.5
13
3 25 54,66
1.305
164515.1
4.93
0 9t.4
123 M.O
13
3 41 53-67
X.244
17 41 22.6
4.04
22 13.0
14
3 26 26.00
X.306
1647 13.1
4.91
23 55-6
14
3 42 23.47
1.239
17 42 59.0
4.00
22 9.6
15
3 26 57.36
X.307
16 49 10.7
4.89
23 52.2
15
34253-15
1.234
17 44 34-6
3.97
22 6.1
i6
3 27 28.73
+X.307
+16 51 7.8
+4.87
23 48.8
16
3 43 22.70
+X.229
+1746 9.4
+3-93
22 2.7
17
328 0.10
1.308
1653 4.4
4.85
23 45.4
17
34352.12
X.223
.174743.3
3.89
21 59.2
i8
3 28 31.48
X.308
16 55 0.4
4.83
23 41-9
18
34421.42
X.2I8
1749 16. 1
3.85
21 55.8
19
329 2.85
x.307
16 56 55-9
4.80
23 38.5
19
3 44 50.57
I.2I2
17 50 48.0
3.8X
21 52.3
20
32934.21
x.307
16 58 50.8
4.77
23 35-1
20
3 45 19.58
X.206
17 52 18.9
3.77
21 48.9
21
330 5-56
+1.306
+17 045.1
+4.75
23 31-7
21
3 45 48.44
+X.I99
+17 53 48.9
+3.73
21 45.4
22
3 30 36.90
X.305
17 238.8
4.7a
2328.3
22
34617-15
1. 193
17 55 17.9
3.69
21 42.0
23
331 8.22
1.304
17 431.9
4.70
23 24.9
23
3 46 45.70
X.186
17 56 45.9
3.65
21 38.5
24
3 31 39-51
1.303
17 624.4
4.67
23 21.5
24
3 47 14-09
x.x8o
17 58 13.0
S.6x
21 35-1
25
3 32 10.77
X.303
17 8 16.2
4.64
23 18,1
25
3 47 42-32
t.x73
17 59 39.1
3.57
21 31.6
26
3 32 41-99
+X.300
+17 10 7.3
+4.62
23 14.6
26
34810.37
+1.166
+18 I 4.2
+3.53
21 28.1
27
33313-18
X.298
17 II 57.8
4.59
23 11.2
27
3 48 38.25
X.159
18 228.3
3*49
21 24.6
28
3 33 44-33
1.296
171347.6
4.56
23 7-8
28
3 49 5.96
X.151
18 351.4
3*45
21 21.2
29
3 34 15.43
1.294
17 15 36.7
4.53
23 4-4
29
3 49 33.48
1.X43
18 513.5
3.40
21 17.7
30
3 34 46-48
X.2C)2
17 17 25.1
4.50
23 I.O
30
3 50 0.82
1.135
18 634.6
3.36
21 14.2
31
3 35 17-47
+1.290
+17 19 12.8
+4.47
22 57.6
31
3 50 27.97
+X.X27
+18 754.7
+3.3«
21 10.7
32
33548-41
+X.288
+17 20 59.8
+4.44
22 54.2
32
3 50 54-93
+I-II9
+18 913.7
+3.28
21 7-3
Day of the Month.
7th.
16th.
8Sd.
Slst.
7.69
0.87
Day of the Month.
8th.
leth.
fi4th.
Semidiameter ....
Horizontal Parallax . .
n
7.65
0.87
n
7.65
0.87
7.66
0.87
Semidiameter
Horizontal Parallax ....
7.71
0.88
1*
7.75
0.88
ti
7.80
0.89
NoTK.— The sign -f* indicates north declinations; the sign — indicates south deeUnatfont.
SATURN, 1912.
173
GREENWICH MEAN TIME.
JULY.
AUGUST.
4
a
o
Apparent
Right Ascen-
sion.
Var. of
R.A.
fori
Hour.
Apparent
Declination.
Var. of
Decl.
forx
Hour.
Merid-
ian Pas-
•
1
Apparent
Right Ascen-
sion.
Var. of
R. A.
fori
Hour.
Apparent
Decknation.
Var. of
Decl.
for 1
Hour.
Merid-
ian Pas-
%4
o
>> ,
ca
Q 1
sage.
0
sage.
A^oon.
Noon.
JVOOH,
Noon.
Noon.
Noon.
Noon.
Noon.
h m 8
8
• f »f
tt
k m
h m 8
s
a * "
n
h m
1 3 50 27.97
+I.I27
+18 754.7
+3.3*
21 10.7
I
4 2 30.84
+0.787
+1
84015.5
+1.87
19 20.7
2
3 50 54-93
Z.IX9
18 913.7
3.28
21 7.3
2
4 249.54
0.773
8 40 59.8
1.82
19 17. 1
3
3 51 21.68
Z.III
18 zo 31.7
3.44
21 3.8
3
4 3 7.91
0.759
8 41 42.9
^'77
19 13.5
4
3 51 48.23
X.X08
18 II 48.7
3-19
21 0.3
4
4 325.95
0.745
8 42 24.9
x.Ta
19 9.8
5; 35214-58
X.O93
18 13 4.6
3.15
20 56.8
5
4 343.64
0.730
843 5.7
X.67
19 6.2
6
3 52 40.73
4-X.084
+i8 14 19.5
+3.I0
20 53.3
6
4 4 0.98
+0.715
+1
84345.3
+Z.62
19 2.5
7
353 6.66
X.075
18 15 33.3
3.06
20 49.8
7
4 417.97
0.701
8 44 23.7
1.57
18 58.9
8
3 53 32.37
1.066
18 16 46.0
3.0X
20 46.3
8
4 4 34-61
0.686
845 0.9
1.5a
18 55.2
9' 35357-84
1.057
18 17 57.7
2*96
20 42.7
9
4 450.88
0.671
8 45 36.9
1.47
18 51.6
10 3 54 23-08
X.047
18 19 8.3
2.92
20 39.2
zo
4 5 6.79
0.656
846 II. 7
1.4a
i8 47.9
" 35448.09
+X.037
+18 20 17.8
+2.87
20 35.7
IZ
4 522.34
+0.640
+Z
84645.3
+1.37
18 44.2
12 3 55 12.86
1.027
18 21 26.2
2.83
20 32.1
12
4 537.51
0.624
8 47 17-7
x.3a
18 40.5
13
3 55 37.39
1.017
18 22 33.5
2.78
20 28.6
13
4 552.30
0.608
8 47 48.8
1.27
18 36.8
H
356 1.68
x«oo6
18 23 39.6
a.73
20 25.1
14
4 6 6.70
0.59a
8 48 18.7
X.22
18 33. z
15
3 56 25.70
0.995
182444.6
2.69
20 21.5
15
4 620.72
0.576
84847.5
1. 17
18 29.4
x6
3 56 49.46
+0.984
+18 25 48.5
-h2.64
20 z8.o
16
4 634.36
+0.560
+1
8 49 15. 1
+1.12
18 25.7
17
3 57 12.96
0.973
18 26 51.3
2.60
20 14.5
17
4 647.60
0.544
8 49 41.4
1.07
18 22.0
18
3 57 36.19
0.963
18 27 53-0
a. 55
20 10.9
18
4 7 0.44
0.5*7
850 6.5
X.02
18 18.2
19
35759.15
0.951
18 28 53.5
2.50
20 7.4
19
4 7 12.88
0.5x0
8 50 30.4
0.97
18 z+5
20
3 58 21.83
0.939
18 29 52.9
2.46
20 3.8
20
4 724.93
0.493
85053.1
0.92
18 10.8
21
3 58 44.22
+o.9«7
+18 30 51. 1
+2.4X
20 0.2
21
4 736.57
+0.476
+ 1
8 51 14.5
+0.87
i8 7.Z
22
3 59 6.33
0.915
z8 31 48.2
2.36
19 56.6
22
4 747.80
0.459
851 34.8
0.82
18 3.3
23
35928.15
0.903
183244.2
3.31
19 53.0
23
4 758.62
0,44a
8 51 53.9
0.77
17 59.6
24
3 59 49.67
0.89X
18 33 39.0
2.26
1949.4
24
4 8 9.03
0.425
852 1 1.8
0.72
17 55.8
25
4 0 10.90
0.879
18 34 32.6
2.22
19 45.9
25
4 8 19.03
0.408
8 52 28.4
a67
17 52.0
26
4 031.83
+0.866
+»8 35 25.1
+2.17
19 42.3
26
4 828.61
+0.391
+1
8 52 43.9
+0.62
17 48.2
27
4 0 52.46
0.853
18 36 16.4
2.12
19 38.7
27
4 837.78
0.373
8 52 58.2
0.57
17 44.4
28
4 I 12.77
0.840
1837 6.6
2.07
19 35.1
28
4 846.52
0.355
85311.3
0.52
17 40.6
29
4 132.77
a837
18 37 55.6
2.02
19 31.5
29
4 854.83
0.337
8 53 23.2
0.47
17 36.8
30
4 152.45
0.814
i8 38 43.4
1.97
19 27.9
30
4 9 2.72
0.3x9
8 53 33.9
a42
17 33.0
31
4 2 ii.8z
+0.80X
+18 39 30.0
+i.9a
19 24-3
31
4 9 10.18
+0.30X
+1
85343.3
+0.37
17 29.2
32
4 230.84
+0.787
+18 40 15.5
+1.87
19 2a7
32
4 9 17.21
+0.283
+1
8 53 51.6
+0.32
17 25.4
Day of the Month.
8d.
10th.
18th.
26th.
Day of the Month.
Sd.
llth.
19th.
97th.
Setnidiameter ....
Horizontal Parallax . .
7.S6
0.89
1
7
0
1
94
90
8.03
0.9Z
8.12
0.92
Semidiameter ....
Horizontal Parallax . .
H
8.22
0.93
8.34
0.95
8.45
0.96
8.57
0.97
The sign + prefixed to the hourly change of declination indicates that north declinations are increasing.
174
SATURN, 1912.
GREENWICH MEAN TIME.
SEPTEMBER.
OCTOBER.
i
Apparent
Right Ascen-
sion.
Var. of
R.A.
for I
Hour.
Apparent
Declination.
Var. of
Decl.
for X
Hour.
Merid-
ian Pas-
i
«M
A
Rig
pparent
It Ascen-
sion.
Var. of
R.A.
for x
Hour.
1
Apparent
DecfinatioxL
Var. of
Decl.
for I
Hour.
Merid-
ian Pas-
o
sage.
0
sage.
IS*
C0
NOQH.
Noon.
Noon.
Noon.
1
cd
0
d
Noon.
Noon.
Noon.
Noon.
h m s
8
e 1 n
1
h ni
h
m B
s
0 1 f
M
h m
I
4 917-21
+0.283
+z8 53 5Z.6
+0.32
[7 25.4
Z
9 19-47
—0.276
+z8 48 53.9
— 1.X2
15 27.3
2
4 923.80
0.365
18 53 58.7
0.27
[7 2Z.6
2
■
9 Z2.62
0.994
z8 48 26.6
x.x6
15 23.3
3
4 929-95
0.247
1854 4.6
0.22 .
17 17.7
3
4
9 5-34
0.3x9
18 47 58.3
X.2X
15 19-2
4
4 9 35-66
0.229
1854 9-3
ax7
17 Z3.9
4
8 57-63
0.330
z8 47 29.0
X.25
15 15-2
5
4 940-93
0.2XX
z8 54 Z2.8
0.X2
17 10.0
5
8 49.49
0.348
z8 46 58.6
X.29
Z5 zz.z
6
4 9 45-75
+0.192
+Z854 15.Z
+0.07
fj 6.2
6
840.93
-0.366
+z8 46 27.2
-1.33
15 7.0
7
4 950.12
O.X73
z8 54 z6.2
+0.02
17 2.3
7
8 31.95
0.383
z8 45 54.7
1.37
15 2.9
8
4 954-04
0.155
z8 54 z6.o
—0.03
16 58.5
8
8 22.56
0.400
I8 45 2Z.3
X.41
Z4 58.8
9
4 957-51
0.136
18 54 14.7
0.08
16 54.6
9
8 Z2.75
0.4x7
z8 44 46.9
1.45
14 54-7
lO
410 0.53
0.1x7
Z8 54 Z2.2
0.X3
16 50.7
zo
8 2.53
0.434
1844 ZZ.6
X.49
14 50.6
ZI
4 10 3.10
+0.098
+Z854 8.5
-0.18
16 46.8
zz
7 51-91
-0.451
+18 43 35.3
-1.53
14 46.5
12
4 10 5.22
0.079
1854 3-5
0.23
16 42.9
Z2
7 40.90
0.467
z8 42 58.0
1-57
14 42.4
13
4 zo 6.87
0.060
18 53 57-4
0.28
16 39.0
13
7 29.49
0.483
z8 42 Z9.8
X.61
14 38.2
M
4 10 8.07
0.04 X
z8 53 50.2
0-33
16 35.Z
M
7 17.70
0.499
z8 4Z 40.8
X.65
14 34-1
15
4Z0 8.82
0.022
18 53 41.8
0.38
16 31.Z
15
7 5.53
0.5x5
Z84Z 0.9
1.68
Z4 30.0
i6
4 10 9.ZZ
+0.003
+18 53 32.2
-0.43
16 27.2
z6
6 52.99
-0.530
+Z84020.Z
-1.7a
M 25.9
17
4 zo 8.95
-0.0x6
18532Z.5
0.47
16 23.2
17
640.09
0.545
18 39 38.4
X.75
14 21.7
i8
410 8,33
0.035
Z853 9.7
0.52
16 Z9.3
18
6 26.83
0.560
18 38 55.9
1.79
£4 Z7.6
19
4 10 7.26
0.054
18 52 56.7
0.57
16 Z5.3
19
6 13.22
0.575
z8 38 Z2.6
X.82
14 13.5
20
410 5-74
0.073
z8 52 42.5
0.61
x6 ZI.4
20
5 59-26
0.589
z8 37 28.5
X.86
14 9-3
2Z
410 3-77
—0.092
+z8 52 27.2
-^66
16 7.4
2Z
5 44.96
—0.603
+z8 36 43.6
— X.89
14 5.0
22
410 1-35
0.XX0
z8 52 Z0.8
0.70
z6 3.4
22
530.33
0.6x6
18 35 58.0
X.99
14 0.9
23
4 958.48
0.X29
185153-3
0-75
15 59-4
23
5 15.38
0.630
z8 35 ZZ.6
1-95
13 56.7
24
4 955-15
0.148
z8 5Z 34.7
0.80
15 55-4
24
5 O.Z2
0.643
183424.5
1.98
13 52-5
25
4 951-38
0.167
18 5Z Z5.0
0.84
15 51-4
25
4 44.55
0.655
18 33 36.7
2.01
1348.3
26
4 9 47-17
— 0.X85
+z8 50 54.2
-0.89
15 47-4
'26
4 28.68
-0.667
+z8 32 48.2
-a.04
13 44-1
27
4 942.51
0.903
z8 50 32.3
0.94
15 43.4
27
4 12.52
0.679
z8 3z 59. z
9.06
13 39.9
28
4 9 37-41
0.22a
1850 9.3
0.98
15 39-4
28
3 56.07
0.691
18 31 9-3
9.09
13 35.7
29
4 931-87
0.240
184945-2
1.03
15 35.4
29
3 39.35
0.702
z8 30 Z8.9
8. 12
n 31.5
30
4 925-89
0^258
18 4920.Z
X.07
15 31.3
30
3 22.36
0.713
18 29 27.9
a- 14
13 27-3
31
4 919-47
-0.276
+z8 48 53.9
-X.J2
15 27.3
31
3 5.11
-0.724
+Z82836.3
-9.X6
13 23.1
32
4 9 Z2.62
-0.894
+z8 48 26.6
— x.x6
15 23.3
32
2 47.62
-0.734
+z8 27 44.2
-9.x8
Z3 z8.8
Day of the Month.
4th.
12th.
tOtl]
u 28th.
Day of the Month.
6th.
14th.
fSd.
tOUx.
Seniidiameter ....
Horizontal Parallax .
n
8.70
0.98
n
8.83
z.oo
n
8.9
z.o
6 9.08
2 Z.03
Se
midiameter ....
Drizontal Parallax . .
9.20
Z.04
9.30
Z.06
It
9-39
Z.07
tt
9-47
z.07
NoTB. — ^The lign ^V indicates north declinations; the sign — indicates sooth declinations.
SATURN, 1912.
175
GREENWICH MEAN TIME.
NOVEMBRR.
DECEMBER.
•
a
o
o
Apparent
Rignt Ascen-
sion.
Var. of
R.A.
fori
Hour.
Apparent
Declination.
Var. of
Decl.
fori
Hoar.
Merid-
ian Pas-
sage.
4
g
0
Apparent
Rignt Ascen-
sion.
Var. of
R.A.
fori
Hour.
Apparent
Declination.
Var. of
Decl.
fori
Hour.
Merid-
ian Pas-
sage.
►«
C9
0
Noon,
Noon,
Noon.
Noon,
Noon.
Noon.
Noon.
Noon.
h m 8
8
0 1 tt
tt
h m
h m 8
8
9 t tt
»
h m
I
4 2 47.62
-0.734
4-i8 27 44.2
-a. 18
13 18.8
I
3 52 58.93
—0.831
+17 59 53.1
—3. 86
II II.O
2
4 2 29.89
0.744
18 2651.6
a. so
13 14.6
2
3 52 39.05
0.837
17 58 59.2
8.34
II 6.7
3
4 2 II.91
0.753
18 25 58.4
9.9t
13 X0.4
3
3 52 1927
0.833
1758 5.7
8.33
II 2.5
4
4 I 53-71
a762
1825 4.7
2.84
13 6.2
4
3 51 59.60
a8i7
17 57 12.7
8. 30
10 58.3
5
4 I 35.31
0.771
18 24 10.7
8.36
13 1.9
5
3 51 40.06
0.81Z
17 56 20.3
8.z8
10 54.1
6
4 I 16.70
-0.779
+18 23 16.3
—8.88
12 57.6
6
3 51 20.66
—a 805
+17 55 28.4
-8.15
10 49.8
7
4 057-90
0.787
18 22 21.6
3.89
12 53.4
7
351 1.41
0.799
17 54 37.2
3.13
10 45.6
8
4 038.92
0.794
18 21 26.5
3.51
12 49.2
8
3 50 42.32
0.79a
17 53 46.7
3.09
10 41.3
9
4 019.77
0.801
18 20 30.9
3.33
12 44.9
9
3 50 23.40
0.784
17 52 56.8
8.06
10 37.1
10
4 0 0.46
0.808
18 19 34.8
3.33
1240.7
10
350 4-^7
0.776
1752 7.7
3.03
10 32.8
II
3 59 41.01
—0.814
+18 18 38.6
-3.34
12 36.5
II
34946.14
-0.768
+17 51 19.4
—3.00
10 28.6
12
3 59 21.42
0.819
18 17 42.3
«.35
12 32.2
12
34927.81
0.759
17 50 31.9
1.97
10 24.3
13
3 59 1.71
o.aa4
18 16 45.8
a.35
12 27.9
13
3 49 9.70
0.750
174945.2
X.93
10 20.1
»4
35841.89
0.838
18 15 49.2
3.36
12 23.6
14
34851.81
0.740
17 48 59.4
Z.89
10 15.8
15
3 58 21.97
0^833
18 14 52.4
3.36
12 19.4
15
34834.16
0.730
17 48 14,4
1.85
xo II.6
i6
358 1.96
-0.835
+18 13 55.5
-a.37
12 15.2
16
3 48 16.76
—0.730
+17 47 30.4
— X.81
10 7.4
17
3 57 41.87
0.838
18 12 58.5
a. 37
12 10.9
17
3 47 59.61
0.709
17 46 47.4
1.77
10 3.2
i8
35721.72
0.840
18 12 1.5
a. 37
12 6.5
18
3 47 42.72
0.698
1746 5.4
1.73
959.0
19
3 57 I-5I
a 843
18 II 4.6
8.36
12 2.2
19
347 26,11
0.686
174524.4
Z.69
954.8
20
3 56 41.26
0.844
18 10 7.7
3.36
II 58.0
20
3 47 9.79
0.674
17 44 44.4
Z.65
9 50.6
21
3 56 20.98
-0.845
+18 910.8
—3.36
II 53.8
21
3 46 53.76
-0.663
+1744 5.4
—1.60
946.4
22
356 0.68
0.846
18 8 14.0
a.35
II 49.5
22
3 46 38.03
0.649
17 43 27.6
Z.56
942.2
23
35540.37
0.846
18 717.4
a.35
II 45.2
23
3 46 22.61
0.636
174250.9
X.5X
9 38.0
24
3 55 20.07
0.846
18 6 21.0
a.34
II 41.0
24
346 7.50
0.633
17 42 15.4
Z.46
933.8
25
3 54 59.78
0.845
18 524.7
a. 34
II 36.7
25
3 45 52.70
0.609
17 41 41.0
1.41
929.7
26
3 54 39.51
-0.844
-I-18 428.7
-3.33
II 32.4
26
3 45 38.24
-0.595
+1741 7.8
— X.36
925.5
27
3 54 19.28
0.848
18 332.9
8.33
II 28.1
27
34524.12
0.58Z
17 40 35.8
1.3X
921.4
28
35359.10
0.840
18 237.4
8.31
II 23.8
28
3 45 10.34
0.567
1740 5.1
Z.36
917.2
29
3 53 38.97
0.837
18 I 42.2
3.89
II 19.6
29
3 44 56.91
0.553
17 39 35.6
x.ao
913.0
30
3 53 18.91
0.834
18 047.4
8.88
" 15.3
30
3 44 43.84
0.537
1739 7.4
2. 15
9 8.9
31
3 52 58.93
—0.831
+17 59 53.1
—3.36
II II.O
31
34431.13
—0.531
+17 38 40.5
— X.09
9 4.7
32
3 52 39.05
— a887
+17 58 59.2
—3.34
II 6.7
32
3 44 18.80
—a 506
+17 38 15.0
-X.04
9 0.6
Day of the Montfa
1.
7th.
16th.
28d.
Day of the Month.
Ist.
9th.
17th.
S6th
. 88d.
Se
H(
midiameter . . .
srizontal Parallax .
• • •
• • •
9-53
1.08
9.57
1.09
9.58
1.09
Semidiameter . .
Horizontal Par. .
9.56
1.09
m
9.53
1.08
n
9-47
1.07
9.3<
i.o;
n
) 9.29
f 1.06
Th« sign — pr«fiz«d to the hourly change of declination indicates that north declinations are decreasing.
176
URANUS, 1912.
GREENWICH MEAN TIME.
Month
and
Day.
Apparent
Right As-
cension.
Var. of
R. A.
for
I Day.
Apparent
Decunation.
Var.of
Decl.
for
X Day.
Merid-
ian Pas-
sage.
Month
and
Day.
Apparent
Right As-
cension.
Var. of
R.A.
for
x Day.
Apparent
Declination.
Var.of
Decl.
for
X Day.
Merid-
ian Pas-
sage.
Noon.
Noon.
Noon,
Noon.
Noon.
Noon.
Noon.
Noon.
h m s
s
0 1 tt
w
h m
h m s
8
0 t »
M
h m
Jan. o
20 I 47.08
+14.183
-21 2 40.3
+4X.05
Z 26.4
July 2
20 19 2.58
-8.943
-20i3 55.8-3a47
13 36.1
4
20 2 44.26
14.402
205954.3
41-90
I II.6
6
20 1826.13
9.274
20 15 59.4
31.301319.7
8
20 342.23
14.574
2057 5-3
43.64
056.8
10
20 17 48.47
9.548
20 18 5.9
3x.9a
13 3.4
12
20 4 40.79
14.696
205413.5
43. aa
042.Z
14
2017 9.83
9.757
20 20 14.5
32.3a
12 47.0
i6
20 539.75
XS,TJ^
20 51 19.7
43.66
027.3
18
20 16 30.50
9.897
20 22 24.2
32.49
12 30.6
20
20 638.93
•HX4.802
-20 48 24.4
+43.95
0 12.6
22
20 15 50.74
- 9.97a
-20 24 34.2
-32.44
12 14.3
24
20 7 38.09
14.770
204528.3
44. xo
2354.2
26
20 15 10.81
9.993
20 26 43.6
32.18
II 57.9
28
20 8 37.00
14.682
20 42 31.9
44.08
23 39.4
30
20 14 30.97
9.930
2028 51.5
31.7a
II 41.5
Feb. I
20 935-48
14.551
20 39 35.9
43.90
23 24.6
Aug. 3
20 13 51.46
9.8XX
203057.1
3X.07
II 25.1
5
201033.35
14.375
20 36 40.9
43.58
23 9.8
7
20 13 12.56
9.639
20 32 59.7
30. 3X
II 8.7
9
20 I z 30.42
+14. 153
-203347.5
+43.09
2255.1
11
20 12 34.50
-9.383
-20 34 58.6
-a9.x5
10 52.4
13
20 12 26.51
13.884
20 30 56.4
43.44
2240.3
15
20 11 57.56
9.072
20 36 52.8
37.91
10 36.0
17
201321.43
13.566
2028 8.2
41.64
22 25.4
19
20 II 22.00
8.69S
20 38 41.7
36.SX
10 19.7
21
20 14 14.97
13.198
2025 23.5
40.67
22 10.6
23
20 10 48.05
8.365
20 40 24.7
34.95
10 3.4
25
20 15 6.95
18.787
202243.1
39.53
21 55.7
27
20 10 15.95
7.779
2042 1.1
33.84
947.2
29
20 15 57.21
-hia.336
—2020 7.5
+38.33
21 40.8
31
20 945.88
-7.246
-20 43 30.4
-ax.40
931.0
Mar. 4
20 x6 45.58
11.843
201737.5
36.77
21 25.9
Sept. 4
20 9 18.05
6.663
20.4452.1
19.43
914.8
8
20 17 31.90
XI.3I1
20 15 13.6
35. x6
21 10.9
8
20 8 52.64
6.030
20 46 5.6
17.33
858.6
12
20 18 16.02
10.746
20 12 56.4
33.4a
20 55.9
12
20 8 29.87
5.350
2047 10.5
15.15
842.5
i6
20 18 57.82
XO.X44
20 10 46.4
31.54
20 40.9
z6
20 8 9.89
4.633
20 48 6.6
13.87
826.5
20
20 19 37-14
+ 9.508
—20 8 44.2
+a9.5a
20 25.8
20
20 752.84
-3.885
-204853.3
-10.49
8 10.5
24
2020 13.84
8.834
20 6 50.3
a7.38
20 10.7
24
20 738.84
3.XX3
20 49 30.4
8.06
754.5
28
20 20 47.77
8.133
20 5 5.3
35. XX
1955.5
28
20 7 27.97
a.3x7
20 49 57.7
5.57
738.6
Apr. I
20 21 18.87
7.414
20 3 29.6
33.74
1940.3
Oct. 2
20 7 20.33
1.499
205015.0
3.08
7 22.8
5
2021 47.05
6.671
20 2 3.5
30.28
19 25.0
6
20 7 16.00
-0.663
20 50 22. 3
-0.54
7 7.0
9
2022 12.21
+ 5.905
—20 0 47.4
+17.74
19 9.7
10
20 7 15.04
+ 0.185
—20 50 19.3
+ 3.05
651.2
13
20 22 34.26
5.118
19 59 41.7
X5.XI
18 54.3
14
20 717.49
X.042
20 50 5.9
4.65
635.6
17
202253.13
4.3"
19 58 46.7
la.40
18 38.9
18
20 723.38
X.90X
204942.1
7.25
6 19.9
21
2023 8.75
3.494
19 58 2.6
9.66
1823.4
22
20 7 32.69
a.754
2049 7.9
9.82
6 4.4
25
202321.08
a. 671
19 57 29.5
6.88
18 7.9
26
20 745.40
3.598
20 48 23.5
13.36
548.8
29
2023 30.12
+ 1.849
-19 57 7.6
+ 4.08
17 52.3
30
20 8 1.46
+ 4.43a
—20 47 29.0
+14.89
533.4
May 3
20 23 35.87
Z.025
19 56 56.9
+ X.39
17 36.6
Nov. 3
20 820.84
5.855
20 46 24.4
17-39
5 18.0
7
202338.32
+ aaoi
19 56 57.3
- X.47
17 20.9
7
20 843.48
6.063
2045 9.9
19.85
5 2.6
EI
20 23 37.48
— o.6ax
1957 8.7
4.33
17 5.2
II
20 9 9.32
6.850
204345.6
83.37
447.3
15
202333.36
1.436
195731.1
6.93
i6 49.4
15
20 938.27
7.6x3
2042 11.7
84-65
4 32.1
19
20 23 26.0Z
— 3.236
-1958 4.3
— 9.6X
16 33.5
19
20 10 10.21
+ 8.345
-204028.5
+86.94
416.9
23
2023 15.50
3.0x5
19 58 48.0
Z3.33
16 17.6
23
20 10 45.01
9.044
20 38 36.3
89.14
4 1.8
27
20 23 1.92
3.770
19 59 41-9
14.71
i6 1.7
27
20 11 22.52
9.711
20 36 35.5
31.87
346.7
31
20 22 45.38
4.494
20 045.5
17.06
15 45-7
Dec. I
20 12 2.64
10.345
20 34 26.3
33.32
331.6
June 4
20 22 26.00
5.195
20 I 58.2
19.29
15 29.6
5
20 12 45.23
10.943
2032 9.1
35.88
3 16.6
8
20 22 3.86
- 5.866
-20 3 19.6
— 3x.4a
15 13.5
9
201330.13
+XX.501
-20 29 44.2
+37.14
3 1.6
12
2021 39.12
6.498
20 449.2
as.38
14 57.4
13
20 14 17.18
X3.0X5
2027 12.1
38.89
246.7
i6
2021 Z1.93
7.088
20 6 26.4
as. 18
1441.2
17
2015 6.19
xa.483
20 24 33.2
40.51
231.8
20
20 20 42.48
7.650
20 8 10.4
36.79
14 24.9
21
20 15 56.98
xa.904
202148.1
48.00
2 16.9
24
20 20 10.96
8,iflo
20 10 0.5
38.33
14 8.7
25
201649.36
xs.a8o
20 x8 57.4
43.37
2 2.0
28
20 19 37.59
-8.557
-20 11 55.9
-»9.44
13 52.4
29
20 17 43.16
+13.6x3
-20 16 X.4
-44.61
147.2
July a
20 Z9 2.58
-8.94a
-20 13 55.8
-30.47
1336.1
33
20 18 38.20
+X3.900
—20 13 a7
+45.72
132.3
Least semidiameter,
Greatest semidiameter,
January ax, x".6a
July 34, i''.79
Least horiiontal parallax, January ax, 0^.43
Greatest horixontal parallax, July 34, o''.47
[Eph xa]
NEPTUNE, 1912.
177
GREENWICH MEAN TIME.
Month
and
Day.
Apparent
Right As-
cension.
Var. of
R. A.
for
z Day.
Apparent
Declination.
Var.of
Decl.
for
I Day.
Merid-
ian Pas-
sage.
Month
and
Day.
Apparent
Right As-
cension.
Var. of
R.A.
for
z Day.
Apparent
Declination.
Var.of
Dect.
for
1 Day.
Merid-
ian Pas-
sage.
Noon.
Noon,
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
H~^'
h tn s
s
0 • M
n
h m
h m s
8
0 I •'
•#
h m
Jan. o
7 37 58.00
-6.895
+20 57 10.9
+16.50
13 0.6
July 2
7 38 55-48
+9.220
+20 59 5.0
-20.93
058.1
4
7 37 30-14
7.029
20 58 17.7
16.82
1244.4
6
7 39 32.57
9.315
20 57 40.4
21.35
043.0
8
7 37 1-82
7.117
20 59 25.5
17-05
12 28.2
* 10
740 9-98
9-378
20 56 14.2
ai.71
027.9
12
7 36 33-23
7.X62
21 034.1
17.19
12 12.0
14
7 40 47-58
9.409
20 54 46.7
21-99
0 12.8
i6
736 4-54
7.162
21 I 43.0
17.20
II 55.8
18
74125.23
9.405
20 53 18.3
22. 18
23 53-9
20
7 35 35-96
—7. X 10
+21 2 51.7
+17-10
II 39-6
22
7 42 2.80
+9.367
+205149.3
—22.30
23 38.8
24
7 35 7-69
7.012
21 3 59-8
16.89
II 23.4
26
74240.15
9.298
20 50 19.9
22.35
23 23.7
28
7 34 39-90
6.866
21 5 6.8
16.57
II 7.2
30
74317.17
9.202
2048 50.4
22.31
23 8.6
Feb. I
7 34 12.79
6.677
21 6 12.3
16.14
10 51. 1
Aug. 3
7 43 53-75
9.075
2047 21.4
22.18
2253-5
5
73346.51
6.447
21 715.9
15.62
10 34.9
7
7 44 29-75
8.916
204553.1
21.95
22 38.3
9
73321.24
—6.176
+21 8 17.3
+15.02
10 18.8
II
7 45 5-06
+8.726
+20 44 25.8
— ai.65
22 23.1
13
73257-14
5.865
21 9 16. 1
14.34
10 2.6
15
7 45 39-55
8.505
20 42 59.9
ai.26
22 8.0
17
7 32 34-36
5.515
21 10 12.0
13.58
946.5
19
7 46 13.08
8.254
20 41 35-7
ao.80
21 52.8
21
7 32 13.05
5.125
21 II 4.8
12.76
930.4
23
7 46 45-54
7.973
204013.5
20.26
21 37-7
25
7 31 53-38
4.704
21 II 54.1
11.86
914.4
27
7 47 16.82
7.662
20 38 53.6
19.64
21 22.4
29
7 31 35.43
-4.258
+21 12 39.7
+XO.90
858.4
31
7 47 46.81
+7-324
+20 37 36.4
-18.93
21 7.2
Mar. 4
7 31 19.32
, 3.787
21 13 21.3
9.88
842.4
Sept. 4
7 48 15-41
6.963
20 36 22.2
18.11
20 52.0
8
731 5-15
3.293
21 1358.8
8.82
826.4
8
7 48 42.52
6.578
203511.5
17.21
20 36.7
12
7 30 53.00
a. 778
21 14 31.9
7-73
8 10.5
12
7 49 8.02
6.165
2034 4-5
16.24
2021.4
i6
7 30 42.94
8.245
21 15 0.6
6.60
7 54-7
16
7 49 31.82
5-726
2033 1.6
15.19
20 6.0
20
7 30 35-05
-X.698
+21 15 24.7
+ 5.42
738.8
20
7 49 53-81
+5-264
+20 32 3.0
—14.08
19 50.6
24! 7 30 29.38
1.137
21 1544.0
4.22
723.0
24
75013-92
4.785
20 31 9.0
12.90
19 35-2
28^ 7 30 25.99
-0.567
21 1558.5
3.01
7 7-2
28
7 50 32.07
4.288
20 30 19.8
11.66
19 19.8
Apr. 1
7 30 24.86
-H).002
21 16 8.1
1.79
651.4
Oct. 2
7 50 48.21
3.775
20 29 35.7
10.35
19 4.3
5
7 30 26.01
0.572
21 16 12.8
+ 0.55
635-7
6
7 51 2.26
3-246
20 28 57.0
8.99
18 48.8
9
7 30 29.43
+1.139
+21 16 12.5
— 0,70
620.0
10
751 14.17
+2.701
+20 28 23.8
-7.58
18 33.3
13
73035-12
1.704
21 16 7.2
1.95
6 4.4
14
7 51 23.86
a. 143
20 27 56.4
6.X2
18 17.7
17
7 30 43.06
2.267
21 15 56.9
3.19
548.8
18
751 31-31
1-579
20 27 34.9
4.64
18 2.2
21
7 30 53-25
2.82a
21 1541-7
4.40
5 33-2
22
7 51 36.49
1.012
2027 19.3
3.13
17 46.5
25
731 5-62
3.36a
21 15 21.7
5.61
517-7
26
751 39-39
+0.441
20 27 9.8
Z.60
17 30.8
29
7 31 20.13
+3.885
+21 1456.8
- 6.81
5 2.2
30
7 51 40.02
—0.132
+20 27 6.5
— 0.08
17 15.1
May 3
7 31 36.70
4.392
21 14 27.2
7.99
4 46.8
Nov. 3
75138.35
0.703
20 27 9.2
+ 1.44
16 59-3
7
7 31 55.27
4.887
21 1352.9
9.14
4 31-4
7
7 51 34-40
1.268
20 27 18.0
2.96
1643.5
II
7 32 15-78
5.365
21 13 14.1
ZO.25
4 16.0
II
7 51 28.21
1.823
20 27 32.9
4.49
1627,7
15
73238.15
5.819
21 12 30.9
".35
4 0.6
15
7 51 19.83
2.365
20 27 53.9
5.98
1611.8
19
7 33 2.30
+6.251
+21 II 43.3
-12-43
3 45-3
19
751 9-30
-a.894
+20 28 20.7
+ 7-39
1555-9
23
73328.14
6.657
21 10 51.5
13.45
330.0
23
7 50 56.68
3.407
20 28 53.0
8.76
15 39-9
27
7 33 55-54
7.037
21 955.7
14-43
314.8
27
7 50 42.06
3.897
20 29 30.8
10.09
15 24.0
31
7 34 24-42
7.394
21 856.1
15.35
259-5
Dec. I
75025.53
4.361
203013.7
11.34
15 8.0
June 4
7 34 54-68
7.726
21 7 52.9
16.24
244-3
5
750 7.18
4.801
20 31 1.5
12.52
14 52.0
8
7 35 26.20
+8.028
+21 646.2
—17.08
229.1
9
74947-13
-5.213
+20 31 53.8
+13.64
14 35-9
12
7 35 58.87
8.303
21 536.3
17.88
213.9
13
74925.50
5.590
20 32 50.5
14.65
14 19.8
16
7 36 32.60
8.55a
21 423.2
18.64
158.7
17
7 49 2.44
5.926
20 33 51.0
15.54
14 3-7
20
7 37 7-26
8.766
21 3 7.2
19.33
143.6
21
748 38.11
6.223
20 34 54-8
16.31
13 47-5
24
7 37 42-71
8.949
21 I 48.6
19.93
128.4
25
7 48 12.67
6.483
2036 1.5
17.00
13 31.4
28
7 38 18.83
+9.099
+21 0 27.8
-20.45
I 13-3
29
7 47 46.27
-6.702 +20 37 10.8
+17.58
13 15-a
Greatest setnidia meter,
Least semidiameter,
January 12, i".33
July 16, i".24
Greatest horizontal parallax, January 12, o".3i
Least horizontal parallax, July 16, o".29
I912
12
[Eph 12]
178 HELIOCENTRIC CO-ORDINATES, 1912.
MERCURY.
GREENWICH MEAN NOON.
Y\^A^
Heliocentric
Longitade,
Mean Kqaioox
of Date.
Dally
Motion.
Redaction
to Orbit.
Heliocentric
Latitude.
DaUy
Motion.
L<Hcarithm of
Radina Vec-
tor.
Logarithm of Distance from
Earth—
DfttO.
At Date.
At Interme-
diate Date.
Jan. I
133 II 49.2
0 f M
i 76 6,2
f H
+ 149.5
Off*
m
+6 59 7.6
« It
+ 349-0
9.523 1266
9.864 I200
9.868 8748
2
13833 8-9
5 x6 3X.6
- 0 33-9
7 •o 5.x
-050.7
9.529 6141
9-873 7794
9.878 8080
3
1434450.3
5 651.0
252.0
6 57 32.7
4x0.6
9.536 3166
9.883 9361
9.889 14 1 1
4
148 46 51.5
4 57 ia-5
5 0-5
6 51 50.6
7 I0.2
9.543 1613
9.894 4023
9.8997009
5
153 39 18.2
4 47 4«-9
656.3
643 19. 1
9 49-4
9.550 0826
9.905 0200
9.910 3443
6
158 22 22.0
4 3« 27.6
- 8 37-0
+6 32 18.4
—12 8,7
9-557 0220
9.915 6600
9-920 9551
7
162 56 19.4
42930.6
10 1.3
6 19 7.8
X4 9.4
9.563 9284
9.926 2190
9.931 4426
8
167 21 30.2
4 ao 55-0
II 8.5
6 4 5-3
15 52.7
9-5707576
9.936 6176
9-941 7370
9
171 38 17.2
4 xa 43-a
IX 58.6
5 47 27.6
x7ao.2
9-5774717
9.946 7949
9.951 7862
lO
17547 4.8
4 456-3
12 31.8
5 29 29.6
18 33.4
9.5840390
9.956 7067
9-961 5529
II
17948 18.3
3 57 35-0
-12 49.1
+5 10 25.0
-X9 33.7
9.590 4328
9.966 3220
9.971 0118
12
1834223.5
i 50 39.7
12 51.5
4 50 25.9
3022.7
9.5966311
9.975 6204
9.980 1468
13
187 29 46.4
3 44 »o.3
12 40.1
4 29 42-9
21 1.7
9.602 6159
9.984 5899
9.9889493
14
191 xo 52.6
338 6.a
12 16.2
4 825.4
31 31.9
9.608 3728
9.993 2247
9.997 416X
15
19446 7.0
3 3aa6.7
II 41.3
34641.5
2154-5
9.6138903
0.001 5238
0.005 5482
i6
198 15 54.0
3 27"-i
-10 56.6
+3 24 38.4
—22 XO.5
9.619 1594
0.009 4901
0.0133504
'7
201 40 36.9
3 22 18.5
10 3.5
3 2 22.3
22 20,%
9-624 1735
0.017 1299
0.020 8293
i8
205 038.3
3 17 47.9
9 3-3
2 39 58-5
22 26.1
9.628 9274
0.024 4498
0.027 9925
19
208 16 19.8
3 X3 38.5
757.2
2 17 31.6
2227.1
9.633 4174
0.031 4585
0.034 8492
20
211 28 2.0
3 9 49-2
646.5
I 55 5.5
22 24.5
9.637 641 1
0.038 1658
0.0414096
21
21436 4.6
3 6 19.2
- 5 32.1
+1 32 43.6
—22 18.7
9.641 5969
0.044 5817
0.047 6836
22
217 40 46.6
3 3 7.6
415-1
I 10 28.9
22 zo.a
9.645 2841
0.050 7166
0.0536819
23
220 42 25.8
3 0 13.6
256.5
0 48 24.0
31 59.3
9.648 7024
0.056 5809
0.059 4147
24
22341 19.4
2 57 36.4
137.2
0 26 31.0
3146.3
9.651 8521
0.062 1846
0.064 8918
25
226 37 44.0
25515-3
- 0 17.9
4-0 4 51.9
21 31.6
9-654 7338
0.067 5377
0.070 1233
26
229 31 55.2
8 53 9.6
+ I 0.6
—0 16 31.6
—21 X5.2
9-657 3483
0.072 6497
0.075 1182
27
232 24 8.3
2 51 Z8.9
2 17.6
0 37 38.1
3057.4
9.659 6965
0.077 5298
0.079 8857
28
235 14 37-9
3 49 42.5
332.5
0 58 26.2
2038.4
9.661 7794
0.082 1868
0.084 4342
29
238 3 38.0
a 48 90.0
444.6
I 18 54.6
ao 18. z
9-663 5981
0.086 6289
0.0887718
30
24051 22.4
347 ix.o
5 53-4
I 39 2.1
X956.8
9.665 1534
0.090 8639
0.092 9061
31
24338 4-4
346x5.1
+ 6 58.4
-I 58 47.8
-19 34.4
9.666 4463
0.094 8992
0.096 8440
Feb. X
246 23 56.9
a 45 32.0
7 59-2
2 18 10.6
Z9 X0.9
9.667 4775
0.098 7413
O.XOO 5919
2
249 9 12.6
345 x-5
855.3
237 9.3
X846.4
9.668 2477
0.I02 3965
0-104 1557
3
251 54 4.0
3 44 43-5
946.3
2 5543.1
X820.9
9.668 7574
0,105 8703
0.X07 5408
4
254 38 43.5
3 44 37.7
10 31.8
3 13 50.8
17 54-2
9.669 0068
0.109 1679
O.I 10 7522
5
2572323.5
3 44 44-2
+11 11.4
-3 31 31-2
-17 36.4
9.668 9963
0.1 12 2942
0.1 13 7943
6
260 8 16.1
345 3.9
"44-9
3 48 43.2
16 57.4
9.668 7258
0.115 2531
0.1166710
7
262 53 33.4
a 45 33.8
12 12.0
4 525.6
X637.1
9.668 195 1
0.1 18 0483
0- 1 19 3853
8
265 39 27.7
a 46 Z7.0
12 32.3
4 21 37.0
15 55.4
9.667 4038
0.120 6826
0.12 1 9404
9
268 26 1 1.5
a 47 xa.6
12 45.7
4 37 15.8
X5 22.0
9.666 3515
0.123 1590
0.124 3388
10
271 13 57.2
24820.9
+12 51.9
-4 52 20.4
-X4 46.9
9-665 0375
0.1254797
0. 126 5822
II
274 2 57-5
a 49 4>-o
12 50.7
5 649.0
X4 X0.0
9.663 4609
0.127 6463
0.128 6722
12
2765325-5
35Z x6.a
1241.9
5 20 39.7
13 31.0
9.661 6209
0.129 6599
0.1306096
13
279 45 34.4
3 53 3.8
12 25.5
5 33 50.3
13 49-7
9.659 5I65
O.I3I 5212
0.1323948
M
282 39 37.8
3 55 5.3
12 X.3
5 46 18.3
13 5.9
9.657 1467
0.133 2302
0.1340275
15
285 35 49.8
2 57 31.1
+11 29.3
-558 X-i
-XX X9.3
9.654 5106
0.1347865
0.1355071
16
288 34 24.9
a 59 5«-7
+1049,5
-6 8 55.9
— X039.6
9.651 6072
0.136 189I
0. 136 8323
[Eph la]
HELIOCENTRIC CO-ORDINATES, 1912. 179
MERCURY.
GREENWICH MEAN NOON.
Heliocentric
«
Logarithm of Distance from
Date.
Longitude,
Mean Equinox
Daily
Motion.
Reduction
to Orbit.
Heliocentric
Latitude.
Daily
Motion.
Logarithm of
Radius Vec-
Earth—
of Date.
tor.
At Date.
At Interme-
diate Date.
a r n
0 • w
t »
0 # M
» f»
Feb. 15
285 35 49.8
35721.1
+11 29.3
-558 I.I
-II 19.3
9.654 5106
0.134 7865
0.135 5071
16
288 34 24.9
a 59 51.7
1049.5
6 855.9
Z039.6
9.651 6072
0.136 1 891
0.1368323
X7
291 35 38.2
3 8 37-4
10 2.1
6 i8 59.3
936.5
9.648 4357
0-I37 4363
0.138 0010
18
294 39 45-0
3 539.0
9 7-1
6 28 7.7
839.7
9.644 9955
0.138 5259
0.139 0106
19
29747 1-6
3 857.0
8 4.7
6 36 17.3
738.8
9.641 2864
0-I39 4547
0.1398578
20
300 57 44.8
3 13 33.3
+ 6 55.4
-6 43 23.9
- 6 33.5
9.6373087
0.140 2192
0.1405384
21
304 12 12.0
3 16 35.3
539.5
6 49 22.7
523.3
9.633 0633
0.140 8149
0.141 0479
22
3073041.3
3 2036.6
417.6
654 8.5
4 7.5
9.628 5518
0.141 2367
0.141 3805
23
310 53 31.5
335 7.3
250.4
6 57 35.7
3 46.0
9.623 7766
0.14 1 4783
0. 141 5293
24
314 21 2.3
3 39 57.8
■f I 18.8
6 59 38.3
— X 18.3
9.618 7415
0-141 5325
0.141 4868
25
317 53 33.9
3 35 8.9
— 0 16.2
-7 0 9.8
+ 0 16.4
9.613 4516
0.141 3912
0. 141 2444
26
321 31 27.1
34041.3
153-3
659 3-1
X58.3
9.607 9140
0.141 0453
0.1407925
27
325x5 3.6
3 46 35.4
331.1
6 56 10.6
347.9
9.602 1378
0.140 4845
0.140 1 199
28
329 4 45-3
3 5« 5».8
5 7-9
6 51 24.5
545.7
9.5961349
0.1396971
0.139 2146
29
333 054.7
3 59 30.7
6 41.7
6 44 36.5
751.9
9.5899199
0.138 6706
0.1380632
Mar. I
337 3 54-2
4 633,1
- 8 10.3
-6 35 38.0
+10 6.7
9-583 5109
0.137 3905
a 136 6505
2
341 14 6.4
4 13 55.9
9 31-4
6 24 20.3
13 30.1
9.5769303
0.135 841 1
0.1349603
3
345 31 53.2
4 31 4Z.3
1042.5
6 10 34.9
15 2.Z
9.570 2051
0.134 0056
0.1329747
4
349 57 35.7
4 29 47.3
II 40.8
5 54 13-5
17 42.0
9-563 3677
0.1 31 8651
0.1306744
5
354 31 33.8
4 38 13.0
12 23.4
5 35 8.5
3039.0
9-5564565
0.129 3999
0.1280389
6
35914 5-2
4 46 53.3
—12 47.6
-5 13 13-7
+23 31.6
9-549 5162
0.1265886
0.125 0462
7
4 524.9
4 55 48.0
12 51.0
44824.1
36 18.x
9,542 5985
0.123 4087
0.121 6732
8
9 5 44-3
5 452.0
12 31.3
4 20 37.1
3915.8
9.5357624
0.1 19 8366
0.1 17 8959
9
14 15 10.2
5 14 0.1
II 47.0
3 49 53-1
32 II.5
9.529 0742
0.1 15 8480
0.1 13 6899
10
193343.7
533 6.0
10 37-5
3 16 16.2
35 I.I
9.522 6071
0.111 4185
0.1090308
II
25 I 19. 1
5 33 3.6
- 9 3.1
-2 39 54.6
+37 39.9
9.516 4405
o.io6 5239
0.1038948
12
303742.9
54041.3
7 5-6
2 I 1.8
40 2.5
9.5106587
0.1 01 1407
0.098 2590
13
3622 32.5
5 48 52.6
448.2
I 19 56.8
42 3-4
9-505 3493
0.095 2472
0.092 1030
14
42 15 15.6
5 56 26.4
— 2 15.6
-0 37 4.2
43 36.6
9.5006000
0.088 8241
0.085 4087
15
4815 9,3
6 3 13.0
+ 0 26.0
+0 7 5.4
44 36.5
9.496 4956
o.o8i 8553
0.078 1626
16
54 21 20.0
6 858.8
+ 3 9-2
+0 51 56.1
+44 58.3
9.493 1 1 51
0.074 3294
0.0703551
17
60 32 44.1
6 13 36.9
5 45-9
I 36 48.0
4438.2
9.490 5272
0.066 2396
0.061 9828
18
66 48 8.0
6 16 57.3
8 7.7
2 20 57.9
43 34.3
9.488 7869
0.057 5853
0.053 0480
19
73 6 10.6
6 18 53.1
lo 6.8
3 342.0
41 46.7
9.487 9326
0.048 3725
0.043 5605
20
79 25 24.8
6 19 19.7
II 36.8
3 44 17.4
39 17.5
9.487 9835
0.038 6142
0.033 5364
21
85 44 20.0
6 18 15.3
4-12 32.8
+422 4.5
+36 X0.7
9.488 9384
0.028 3305
0.023 0000
22
92 125.4
6 15 40.7
12 52.3
4 56 28.4
3232.4
9.490 7759
0.017 5490
o.oii 9819
23
98 15 12.9
6 XX 40.3
12 35.0
5 27 1.2
3839.7
9-493 4556
0.006 3036
0.000 5192
24
104 24 19.6
6 630.7
II 43-2
5 53 22.4
34 X0.6
9.496 9208
9.994 6345
9.988 6555
25
no 27 30.9
5 59 50.9
10 20.7
6 15 19.5
X9 43.0
9.501 1014
9.982 5885
•
9.976 4401
26
116 23 41.5
55231.3
+ 8 33.2
+6 32 47.9
+15 14.2
9.5059178
9.970 2173
9.963 9272
27
122 n 57.5
5 44 3.5
627.0
6 45 49.8
losi.x
9.5112844
9.957 5774
9-951 1755
28
1275136.3
5 35 9.0
4 8.8
6 54 33-7
639.0
9-517 1134
9.944 7294
9-938 2473
29
13322 6.9
5 25 49- 0
+ I 45-1
6 59 12.7
+ 2 41.9
9523 3177
9.931 7376
9.925 2090
30
13843 9-3
•
5 z6 14. I
- 038.3
7 0 3.4
- 0 57.3
9-5298135
9.918 6701
9.912 1 30 1
31
143 54 33-1
5 633.4
- 2 56.2
+6 57 24.8
- 4 X6.5
9.536 5219
9.905 5983
9.899 0839
Apr. I
148 56 16.8
4 56 55.0
- 5 4-4
+651 37.1
- 7 15-4
9-543 3703
9.892 5963
9.886 1454
[Eph 13]
180 HELIOCENTRIC CO-ORDINATES, 1912.
MERCURY.
GREENWICH MEAN NOON.
Heliocentric
Longitude,
Mean Equinox
of Date.
Daily
Motion.
Reduction
to OrbiL
Heliocentric
Latitude.
Daily
Motion.
Logarithm of
Radius Vec-
tor.
Logarithm of Distance from
Earth—
Date.
At Date.
At Interme-
diate Date.
0 1 n
0 t »
» «
or »f
t H
Apr. I
148 56 16.8
4 56 55.0
- 5 4-4
+6 51 37.1
-7X5.4
9.543 3703
9.892 5963
9.886 1454
2
153 48 26.1
4 47 25.7
659.7
643 0.7
954.0
9-550 2934
9.8797413
9.873 3940
3
158 31 13-0
4 38 Z0.8
839.9
6 31 55.7
12 12.8
9-557 2329
9.867 1 1 36
9.860 9104
4
163 4 53-9
4 a9 14.4
10 3.7
6 1841.3
14 12.9
9.564 1378
9.854 7949
9.848 7776
5
167 29 48.9
4 so 39.6
II 10.4
6 335.6
15 55.7
9.570 9643
9.842 8690
9.837 0799
6
171 4620.9
4 1228.5
-" 59.9
4-54655.1
—17 22.8
9.577 6748
9.831 4208
9.825 9023
7
175 54 54-1
4 442.3
12 32.6
5 28 54.8
18 35.5
9.584 2376
9.820 5348
9.815 3288
8
179 55 54-0
3 57 21.9
12 49.4
5 948.3
19 35.5
9.5906260
9.810 2944
9.805 4416
9
183 49 46.5
3 50 27.4
12 51.3
4 49 47-6
20 24.Z
9.5968182
9.800 7800
9.796 3188
lO
187 36 57-4
3 43 58.7
12 39.5
429 3-4
21 2.8
9.602 7964
9,792 0670
9.788 0328
II
191 1752.3
3 37 55.3
-12 15.3
4-4 7 44-9
—31 32.8
9.608 5463
9.784 2241
9.780 6481
12
194 52 56.2
3 32 16.6
II 40.0
346 0.4
2155.1
9.614 0565
9.7773113
9.774 2195
13
198 22 33.4
327 1.7
10 55.0
3 23 56.8
22 ZO.9
9.619 3181
9.771 3780
9.768 7909
14
20147 7.3
322 9.8
10 1.7
3 140-4
22 2X.O
9.624 3244
9.766 4614
9.764 3922
15
205 7 0.3
3 17 39.9
9 1.3
2 39 16.4
22 26.2
9.629 0703
9.762 5848
9.761 0400
i6
208 22 34.0
31331.1
- 755.1
4-2 16 49.4
—2227.1
9-633 5522
9.759 7576
9.758 7366
I?
211 34 9.1
3 942.4
644.2
I 54 23.4
22 24*4
9.637 7677
9.757 9750
9.757 4701
i8
214 42 5.2
3 6 12.9
529.8
I 32 1.7
22 18.5
9.641 7153
9.757 2183
9-757 2154
19
217 46 41. 1
3 3 1.9
412.7
I 9 47-3
22 9.9
9.645 3943
9.757 4564
9.757 9356
20
220 48 14.9
3 0 8.4
254.0
0 47 42.7
21 59.0
9.648 8045
9.758 6468
9.759 583a
21
22347 3-0
2 57 31.7
- I 34.7
4-025 50.1
—21 46.0
9.651 9460
9-760 7377
9.762 1026
22
2264323.7
255 ".I
- 0 15.4
4-0 4 II. 4
21 31. Z
9.654 8196
9.763 6699
9.765 4316
23
229 37 31.0
2 S3 6.0
+ I 3.1
—0 17 II. 6
21 X4.7
9.657 4260
9.767 3795
9.769 5052
24
232 29 40.6
2 5» »5.7
2 20.0
0 38 17.5
2056.9
9.659 7660
9.771 8001
9-774 2555
25
235 20 7.2
2 49 39.7
334.7
059 5.0
2037.8
9.661 8407
9.776 8629
9.7796139
26
238 9 4.7
2 48 17.6
+ 4 46.8
-I 19 32.7
-20x7.5
9.663 6512
9.782 5002
9-785 5137
27
240 56 46.9
2 47 9.0
5 55-5
I 39 39.6
Z9 56.1
9.665 1985
9.788 6464
9.791 8907
28
2434327.0
2 46 13-5
7 0-4
I 59 24.6
19 33.7
9.666 4833
9.795 2389
9.798 6838
29
24629 18. 1
2 45 30.8
8 i.o
2 18 46.6
19 X0.2
9.667 5065
9.802 2183
9.805 8358
30
249 14 32.8
245 0.7
857.0
2 37 44-6
18 45.7
9.668 2686
9.809 5296
9.8132937
May I
251 59 23.6
2 44 43.0
+ 9 47-8
-25617.5
—18 20.1
9.668 7702
9.817 1221
9.821 0093
2
25444 2.9
2 44 37.7
10 33-1
3 14 24.3
17 53.4
9.669 01 17
9.824 9499
9.828 9389
3
257 28 43.0
2 44 44.6
II 12.6
332 3-9
17 95.5
9.668 9931
9-832 9715
9.8370432
4
260 13 36.1
245 3.6
1145.9
34915.1
X656.5
9.668 7146
9.841 1498
9.845 2872
5
2625854.3
2 45 34-9
12 12.7
4 556.5
1626.1
9.668 1760
9.8494517
9.853 6396
6
265 44 49.9
246 18.5
4-12 32.9
-4 22 6.8
-15 54.3
9.667 3767
9.857 8477
9.862 0729
7
268 31 35.3
24714.5
12 46.0
4 37 44-6
1520.9
9.666 3163
9.866 3123
9.870 5633
8
271 19 23.0
2 48 23. X
12 52.0
4 52 48.1
14 45.8
9.664 9941
9.8748233
9.8790900
9
274 8 25.8
2 49 44.6
12 50.5
5 715-6
14 8.8
9.663 4093
9.883 3610
9.887 6344
10
276 58 56.6
2 SI 19*2
12 41.5
521 5-0
13«9.7
9.661 561 1
9.891 9082
9.896 x8o6
II
27951 8.7
2 53 7.3
4-12 24.8
-5 34 14.3
-12 48.3
9.659 4485
9.900 4500
9.9047147
12
282 45 15.8
255 9.2
12 0.4
5 46 40.9
12 4.4
9.657 0705
9.908 9733
9.9132244
13
285 41 31.9
2 57 25.4
II 28.2
55822.3
11 17.8
9.654 4261
9.917 4666
9.921 6988
H
288 40 II. 6
2 59 56,4
10 48.2
6 915-5
1028.0
9.651 5143
9.925 9198
9.930 1286
15
291 41 29.9
3 242.7
10 0.5
6 19 17.2
934.8
9.648 3344
9.934 3242
9.938 5055
16
2944542.3
3 5 44-8
+ 9 5-2
—6 28 23.9
- 8 37.9
9.644 8859
9.942 6716
9.9468217
17
29753 5.0
3 9 3.3
4- 8 2.7
-63631.7
- 7 36.9
9.641 1685
9-950 9550
9.955 0706
[Bph Z2l
HELIOCENTRIC CO-ORDINATES, 1912.
181
MERCURY.
GREENWICH MEAN NOON.
Logarithm of Distance from
^^_ A —
Heliocentric
Longitude,
Mean Equinox
of Date.
Daily
Motion.
Reduction
to Orbit.
Heliocentric
Latitude.
Daily
Motion.
LrOgarithm of
Radius Vec-
tor.
Earth—
Date.
At Date.
At Interme-
diate Date.
e ' n
0 r rf
» w
e » »
t H
May 17
29753 5-0
3 9 3.3
+ 8 2.7
-6 36 31.7
- 7 36.9
9.641 1685
9-950 9550
9-955 0706
18
301 3 54-7
3 12 39.0
653-1
6 43 36.2
631.3
9.637 1826
9.959 1676
9-963 2452
19
304 18 29.0
3 16 32.6
5 37-0
6 49 32.7
520.8
9.632 9288
9-967 3028
9.971 3395
20
30737 6.0
3 20 44.6
415.0
6 54 16.1
4 5.0
9.628 4090
9-975 3546
9-979 3473
21
311 0 4.6
3 25 X5-8
247.6
6 57 40.8
«43.3
9.623 6256
9.983 3168
9.987. 2622
22
3142744.3
330 7«o
+ I 15-9
-6 59 40.7
- X 15.3
9.618 5824
9.991 1827
9.995 0775
23
318 025.4
3 35 J8.7
— 0 19.2
7 0 9.2
4- 019.5
9.613 2847
9.998 9458
0.002 7866
24
321 38 28.8
3 40 51.8
156.3
6 58 59.3
a 1.5
9.607 7394
0.006 5990
0.010 3820
25
325 22 16.2
3 46 46-7
3 34-1
656 3.5
351.5
9.601 9559
0.014 1345
0.017 8555
26
329 12 9.6
3 53 3.8
5 10.8
6 51 13-7
549.5
9.5959461
0.02 1 5438
0.025 1983
27
333 831.3
3 59 43-4
- 644.5
-6 44 21.7
+ 7 55.9
9.589 7247
0.028 8175
0.032 4002
28
337 " 43-8
4 645-5
8 13.0
6 35 19.0
zo ZI.O
9.583 3098
0.035 9450
0.039 4504
29
341 22 9.6
414 9.9
933.9
6 23 56.9
12 34.7
9.576 7240
0.042 9149
0.046 3369
30
345 40 10.8
4 2Z s&o
10 44.6
6 10 6.8
15 6.9
9.569 9946
0.049 7147
0.053 0464
31
350 6 8.4
430 2«5
II 42.3
5 53 40-4
17 47.1
9.563 1542
0.056 3301
0.059 5638
June x
3544022.1
4 38 a7«9
—12 24.4
-5 34 30.3
4-2034.2
9.556 2412
0.062 7454
0.065 8727
2
35923 9.7
4 47 9.8
12 48.0
5 12 30.1
2327.0
9.549 3005
0.068 9436
0.071 9558
3
4 14 46.1
456 4*9
12 50.7
4 47 35.0
2623.6
9.542 3840
0.074 9069
0.077 7944
4
9 15 22.4
5 5 9.0
1230.3
41942.5
292X.3
9-535 55"
0.080 6155
0.083 3676
5
1425 5-3
5 H x7-«
11 45.2
3 48 53-1
32 x6.8
9.5288683
0.086 0479
0.088 6535
6
19 43 55-9
5 23 23.0
~io 34.9
-3 15 10.9
4-35 6.2
9.522 4089
0.091 1818
. 0.0936298
7
25 II 48.1
5 It i9-a
859.8
2 38 44-4
37 44-6
9.516 2526
0.095 9947
0.098 2734
8
30 48 28.2
5 40 57»a
7 1.6
I 59 47.2
40 6.7
9.510 4840
0.100 4630
0.X02 5605
9
36 33 33-3
5 49 7-6
443.6
I 18 38,3
42 6.8
9.505 1904
0.104 5631
0. 106 4678
zo
42 26 30.7
5 56 40bO
— 2 10.6
—0 35 42.8
4339.0
9.5004595
0.108 2721
0.109 9731
II
48 26 37.2
6 323.9
4- 031.1
-fo 8 28.6
4-44 S7.7
9.496 3763
0.111 5684
0.1130556
12
54 32 59-0
6 9 8.8
314-2
0 53 20.0
4458.2
9.493 0192
0.114 4326
0.1156973
13
604431.9
6 13 44.8
550.5
I 38 11.2
44 36.8
9-490 4565
0.1 16 8479
0.X178829
14
67 0 2.4
6 17 2.6
8x1.8
2 22 19.2
43 31.6
9.488 7432
0.1x8 8008
a 119 6006
15
7318 8.9
6 18 55.7
10 10. 1
3 5 0.0
4X 42-7
9-487 9169
0.120 2816
0.1208434
16
793724.1
6 19 19.5
+11 39.1
+3 45 30.8
4-39 12.2
9-487 9960
0.121 2858
0.121 6087
17
85 56 17.6
6 X8 12.2
12 34.0
4 23 12.0
36 4.4
9.488 9787
0.I2I 8126
0.121 8982
18
92 13 18.5
6 15 34.9
12 52.3
4 57 29.2
32 25.2
9-490 8431
O.I2I 8664
0.121 7x85
19
98 26 58.8
6 XX 31.9
12 33-9
5 27 54.4
aSax.S
9-493 5483
O.I2X 4561
0,l2i 0808
20
104 35 56.0
6 6 10.0
II 41.0
5 54 7-5
24 2.4
9-497 0369
0.120 5946
0. 119 9995
21
no 38 55.4
5 59 38.0
4-IO 17.7
+6 15 56.4
•I-X9 34.6
9.501 2386
O.I 19 2979
0.118492a
22
u6 34 52.2
55a 6.8
829.5
6 33 16.4
15 5.9
9.5060737
O.II7 5851
0.1 16 5792
23
122 22 52.9
5 43 47.6
622.8
6 46 10.1
xo 43.0
9. 51 1 4564
0.115 4774
0.1 14 2824
24
128 2 15.3
5 34 52.0
4 4-4
6 54 46.1
6 3X-3
9.517 2987
0.1 12 9972
O.XII 6246
25
133 32 28.7
5 25 3X.5
4. I 40.5
6 59 17-7
4- a 34.7
9-5235136
0.1 10 1675
0.1086288
26
138 53 13.3
5 15 56.2
— 0 42.8
-1-7 0 1.5
— X 3.8
9-5300x74
0.107 01x4
0.105 3x80
27
144 4 19.2
5 615-5
3 0.4
6 57 16.7
422.4
9.5367314
0.103 55x4
O.IOI 7144
28
149 5 45-0
4 56 37.a
5 8.2
6 51 23.4
720.7
9.543 5834
0.099 8097
0.097 8398
39
1535736-7
4 47 8.3
7 3-0
6 42 42.0
958.7
9-550 5081
0.095 8071
0.093 7MI
30
15840 6.4
4 37 53.9
842.8
6 31 32.6
X2 x6.8
9-557 4475
0.091 5631
0.089 3563
July I
163 13 30.7
42858.x
—10 6.0
+6 18 14.5
-X4 X6.3
9.564 3509
0.087 0958
0.084 7837
2
16738 9.8
42023.9
—II 12.2
-^6 3 5.6
-15 58.7
9.5711746
0.082 4218
0.080 0120
[Eph 12]
182 HELIOCENTRIC CO-ORDINATES, 1912.
MERCURY.
GREENWICH MEAN NOON.
Heliocentric
Longitude,
Mean Equinox
of Date.
Daily
Motion.
Reduction
to Orbit.
Heliocentric
Latitude.
Daily
Motion.
Logarithm of
Radius Vec-
tor.
Logarithm of Distance from
Earth—
Date.
At Date.
At Interme-
diate Date.
0 t n
0 ' M
« H
Oft*
1 w
July 1
163 13 30.7
4 2858.Z
— 10 6.0
+6 18 14.5
-14 16.3
9-564 3509
0.087 0958
0.084 7837
2
16738 9.8
4 ao 23.9
II 12.2
6 3 5.6
15 58.7
9.571 1745
0.082 4218
0.080 0120
3
171 54 26.4
4 12 13.5
12 I.I
54622.3
17 a5.3
9.577 8811
0.077 5561
0-075 0557
4
176 245.1
4 4 28.a
12 33-4
5 28 19.7
x8 37.6
9.584 4389
0.072 5123
0.069 9275
5
180 3 31.3
3 57 8-5
12 49.7
5 911-3
1937.1
9.5908216
0.067 3026
0.064 6390
6
183 57 I0.8
3 50 14.9
—12 51.2
+4 49 9-2
-2025.4
9.5970075
0.061 9378
0.059 2003
7
18744 9.6
3 43 47-0
12 38.9
4 28 23.8
21 3.8
9.602 9789
0.056 4276
0.053 6207
8
191 24 53.2
3 37 44-3
12 14.3
4 7 4-4
21 33-6
9.608 7216
0.050 7803
0.047 9074
9
1945946.5
333 6.3
II 38.7
34519-1
21 55.8
9.614 2243
0.045 0029
0.042 0676
zo
19829 13.9
3 26 sa.2
1053.5
3 23 15-0
22 XI. 4
9.619 4782
0.039 1 02 1
0.036 107 1
II
201 53 38.6
3 2a x.o
- 9 59-9
+3 058.2
—22 21.3
9.62 4 4766
0.033 0832
a 030 0309
12
205 1323.2
3 »7 31.8
859-3
23834.1
2226.3
9.629 2144
0.026 9507
0.023 8430
13
208 2849.1
3 13 23-6
752.9
2 16 7.1
22 27. 1
9.633 6881
0.020 7083
0.017 5471
M
211 40 17.0
3 9 35-5
641.9
I 53 41-1
22 24.3
9-637 8953
0.014 3598
0.01 1 1466
15
214 48 6.5
3 6 6.7
527.3
I 31 19-6
22 Z8.3
9.641 8346
0.007 9078
0.004 6437
i6
217 52 36-5
3 2 56.2
— 4 10.2
+1 9 5.4
—22 9.6
9.645 5052
0.001 3547
9.998 04 IX
17
22054 4.8
3 0 3.a
251.5
047 1.2
2Z 58.6
9.648 9070
9.994 7030
9.991 3408
i8
223 52 48.6
2 57 87. I
I 32.2
0 25 9.0
ai 45.5
9.652 0401
9.987 9546
9.984 5447
19
22649 4.3
8 55 7.0
— 0 12.9
+0 3 30.8
21 30.6
9-654 9053
9.981 II13
9-977 6547
20
22943 7-7
8 53 a-3
■f I 5-5
-0 17 51.7
21 14.2
9-657 5033
9.974 1753
9.970 6732
21
232 35 13-9
2 51 12.5
■f 2 22.4
-0 38 57.1
—2056.4
9.659 8351
9.967 1489
9.963 6025
22
235 25 37-4
24936.9
3 37-1
0 59 43-9
2037.2
9.661 9016
9.960 0344
9-956 4449
23
2381432.3
2 48 15*2
449.0
I 20 II.O
20 x6.8
9.663 7039
9-952 8344
9.949 2035
24
241 2 12.3
247 7'0
5 57-6
I 40 17.2
19 55.4
9.665 2430
9-945 5526
9.941 8821
25
243 48 50.7
2 46 X1.9
7 2.3
2 0 1.4
19 32.9
9.666 5196
9.938 1926
9.934 4848
^6
246 34 40-4
2 45 29.6
+ 8 2.9
—2 19 22.7
-19 9.4
9-667 5345
9-930 7594
9.927 0172
i27
2491954-1
a 44 59.9
858.6
2 38 19.9
18 44.9
9.668 2885
9-923 2589
9.919 4856
28
252 444.4
2 44 42.7
9 49-3
25652.1
x8 X9.3
9.668 7820
9,915 6984
9.91 1 8983
29
254 49 23.6
a 44 37-7
10 34-4
31458.1
17 52.5
9.6690153
9.908 0867
9.904 2649
30
25734 3-9
« 44 44.9
11 13.7
3 32 36.8
1734.6
9.668 9886
9.9004344
9.896 5969
31
260 18 57.5
2 45 4.3
+11 46.8
-3 49 47-0
-x6 55.5
9.668 7019
9-892 7543
9.888 9086
Aug. I
263 4 16.7
2 45 36*0
12 13-5
4 627.5
1625.1
9.668 1550
9.885 0620
9.8S1 2169
2
2655013-7
a 46 20.0
12 33-4
4 22 36.8
15 53.a
9.667 3475
9-877 3758
9.873 5416
3
268 37 0.9
a 47 16.5
1246,3
4 38 13-5
15 19.8
9.666 2788
9.869 7172
9.865 9061
4
271 24 50.8
a 48 25.5
12 52.0
. 4 53 15-9
14 44-7
9.6649485
9.862 1 1 18
9.858 3382
5
274 13 56.1
2 49 47.3
+12 50.3
-5 742-2
-14 7.6
9-663 3556
9.854 5895
9.850 8701
6
277 429-9
2 51 22.4
12 41. 1
5 21 30.4
13 28.5
9.661 4992
9.847 1848
9.843 5388
7
279 56 45-4
2 53 XI.O
12 24.2
5 34 38.4
1247.1
9.659 3783
9.8399376
9-8j6 3870
8
282 50 56.4
a 55 13-3
II 59.5
5 47 3-7
12 3-1
9.656 9919
9.8328934
9.829 4632
9
285 47 i6.8
a 57 29.9
II 27.0
5 58 43-6
IX 16.2
9.654 3391
9.826 1036
9.822 8221
10
28846 1.2
3 0 1.4
4-IO 46.8
-6 935.2
—1026.4
9.651 4189
9.8196264
9.816 5247
XI
291 47 24.7
3 348.2
958.9
61935-3
933.1
9.648 2306
9.8135256
9.810 6382
12
294 51 42.8
3 5 5«>.8
9 3-4
6 28 40.2
836.0
9.644 7736
9.8078717
9.805 2358
13
2975911-7
3 9 9-9
8 0.6
6 36 46.0
734.8
9.641 0479
9.802 7406
9.800 3963
14
301 10 8.2
3 X246.Z
650.8
64348.4
629.2
9637 0536
9.7982133
9.796 2022
15
304 24 49.8
3 16 40.2
+ 5 34-5
-64942.7
— 5 18.6
9.632 7916
9-794 3738
9.792 7387
16
307 43 34-7
3 ao 52.8
+ 412.3
-6 54 23.8
— 4 2.6
9.628 2635
9.791 3078
9.790 0916
[Eph 12]
HELIOCENTRIC CO-ORDINATES. 1912.
183
MERCURY.
GREENWICH MEAN NOON.
Heliocfintric
Logarithm of Distance from
W^ A^
LonRitude,
Mean Equinox
of Date.
Daily
Motion.
Reduction
to Orbit.
Heliocentric
Latitude.
Daily
Motion.
Logarithm of
Radius Vec-
tor.
Earth—
£>ate.
At Date.
At Interme-
diate Date.
0 f H
e * M
f tt
0 $ —
f M
Aug. 16
307 43 34-7
3 20 52.8
+ 4 12.3
-6 54 23.8
— 4 2.6
9.628 2635
9.791 3078
9.790 0916
17
31Z 641.8
3 25 24.6
244.8
6 57 46.0
240.7
9.623 4720
9.789 1002
9-788 3437
18
314 34 30.6
3 30 16.4
4- I 13-0
65943.1
— I 12.4
9.618 4209
9.787 8315
9.787 5729
19
318 721.5
3 35 a8.9
— 0 22.2
7 0 8.6
+ 0 22.6
9.613 1154
9.787 5762
9.787 8490
20
321 45 35-4
3 4X a.6
159.4
6 58 55.5
2 4.9
9.607 5626
9.788 3981
9.789 2292
21
325 29 33-9
34658.1
- 3 37-2
-6 55 56.2
+ 3 55.x
9.601 7719
9- 790 3471
9.791 7554
22
329 19 39.0
3 53 15.8
513.8
651 2.7
553.4
9-595 7553
9-793 4567 9-795 4523
23
333 16 1 3. 1
35956.1
6 47.4
6 44 6.7
8 0.0
9.589 5276
9.797 7421
9.800 3248
24
337 19 38-8
4 659.0
815.6
6 34 59.8
XO X5.3
9.583 1072
9.803 1978
9.806 3572
25
341 30 18.5
4 14 24.x
936.2
623 33.2
12 39.3
9.576 5168
9.809 7978
9.813 5134
26
3454834.2
4 22 ia8
—10 46.6
-6 938.3
+15 XI.8
9-569 7837
9.817 4964
9.821 7382
27
350 14 46,9
4 30 x8.o
" 43-9
5 53 6.9
X7 52.3
9.5629406
9.826 2290
9.8309584
28
354 49 16.4
4 38 44.0
12 25.4
5 33 51-5
2039.6
9.5560261
9.835 9146
9.841 0855
29
359 32 20.2
4 47 26-a
12 48.4
5 II 45.9
2332.5
9-549 0855
9.846 4585
9.852 0201
30
42413.1
4 56 21.6
12 50.4
44645-3
2629.1
9.542 1710
9-857 7564
9-863 6533
31
925 6.3
5 526.0
-12 29.2
-41847.3
+2926.8
9-535 3420
9.869 6964
9-875 8709
Sept. I
1435 6.2
5 X4 34.1
II 43.4
34752.4
3222.3
9.5286652
9.882 162 1
9.888 5552
2
19 54 13-6
5 23 39.7
10 32.3
3 14 4-9
35 ".3
9.522 2144
9-895 0357
9.901 5891
3
25 22 22.3
5 33 35.4
856.4
2 37 33-5
37 49.2
9.5160693
9.908 2009
9.914 8571
4
30 59 18,3
541 xa.7
657.6
I 58 31.9
40 X0.8
9.510 3144
9-921 5439
9.928 2477
5
36 44 38.4
5 49M.O
- 4 39-1
-I 17 19.3
4-42 10. 1
9.5050371
9-934 9553
9.941 6541
6
42 37 49.5
5 56 53.x
- 2 5-7
-0 34 21.0
43 4X.3
9-5003254
9-948 3317
9.954 9763
7
4838 8.3
6 335.4
4- 0 36.2
+0 9 52.2
44 39.0
9.496 2639
9.961 5766
9.968 1219
8
544440.5
6 9x8.3
319.3
0 54 44.2
44 58.2
9.492 9306
9.974 6020
9.981 0072
9
60 56 21.7
6 X3 51.8
5 55-2
I 39 34-7
44 35.5
9-490 3937
9.987 3285
9-993 5574
xo
67 II 58.0
6 17 7.2
+ 8 15.8
+2 23 40.6
+43 28.9
9.488 7075
9.999 6863
0.005 7079
IZ
7330 7-7
6 18 57.6
10 13.4
3 6 18.0
41 38.6
9.487 9091
0.01 1 6158
0.017 4039
12
79 49 23.3
6 19 18.5
II 41.4
3 46 44-0
39 6.8
9.488 0163
0.023 0672
0.028 6010
13
86 8 14.3
618 8.3
12 35.1
42419.3
35 58.0
9.489 0267
0.034 0016
0.039 2656
14
92 25 lO.O
6 X5 28.3
1252.3
4 58 29.6
32 17.9
9.490 9178
0.044 3904
0.049 3738
15
983842.5
6 II 22.7
+12 32.8
+5 28 47.2
4-28 14.0
9.493 6481
0.054 2144
0.058 91 1 3
16
104 47 29.3
6 558.4
II 38.9
5 54 52.3
23 54-2
9-497 1597
0.063 4638
0.067 8720
17
no 50 16.2
5 59 24.6
10 14.7
6 16 32.8
X926.2
9.501 3822
0.072 1364
0.076 2578
18
1164558.9
5 51 5X.8
825.8
6 33 44-4
14 57.6
9.506 2354
0.080 2374
0.084 0768
19
122 33 43-9
5 43 3».3
6 18.7
6 46 30.0
X035.1
9.51 1 6334
0.087 7778
0.091 3425
20
128 12 49.5
5 34 34.9
+ 3 59.9
+6 54 58.2
+ 6 23.7
9.517 4883
0.094 7732
0.098 0724
21
1334245-4
5 25 13.7
+ I 36.0
6 59 22.4
+ 2 27.6
9.5237132
0.101 2427
0.104 2869
22
139 312.0
5 15 38.0
- 0 47-2
6 59 59-5
— I X0.2
9.5302244
0.107 2079
0. no 0086
23
144 13 59.7
5 5 57-3
3 4-5
657 8.5
428.3
9-5369434
0.1 12 6922
0.1152615
24
14915 7-5
4 56 19.4
5 11-9
6 51 9.6
726.0
9-5437983
0.1 17 7196
0.1200696
25
154 641.6
4 46 50.8
- 7 6.4
4-64223.3
— xo 3.2
9.5507240
0.122 3144
0.1244570
26
158 48 54.0
4 37 36.9
845.6
631 9-7
12 20.8
9-5576628
0.126 5005
0.1284477
27
163 22 1.7
4 28 41.8
10 8.3
6 17 47.9
14 X9.8
9-564 5643
0.130 3013
0.1320640
28
167 46 24.9
4 20 8.4
II 13.9
6 235.8
x6 1.7
9.571 3847
0.1337387
0.135 3280
29
172 2 26.4
4 " 58.7
12 2.4
5 45 49-8
1727.8
9.5780868
0.1368342
0.138 2598
30
176 10 30.7
4 4 14.2
-12 34.1
+5 27 45-0
-i8 39.6
9 584 6394
0.1396072
0.1408787
Oct. I
180 II 3.3
3 56 55.4
—12 50.0
+5 834.8
—19 38.8
1 9.591 0162
0.142 0762
0.143 2019
[Epb 12]
184 HELIOCENTRIC CO-ORDINATES, 1912.
MERCURY.
GREENWICH MEAN NOON.
Date.
Heliocentric
Longitude,
Mean Equinox
of Date.
Daily
Motion.
Reduction
to Orbit.
Heliocentric
Latitude.
Daily
Motion.
Logarithm of
Radius Vec-
tor.
Logarithm of Distance from
Earth—
At Date.
At Interme-
diate Date.
0 » n
0 f tr
f rr
0 * M
t »»
Oct. I
180 II 3.3
3 56 55-4
—12 50.0
+5 834.8
—19 38.8
9.591 0162
0.142 0762
0.143 2019
2
184 430.1
350 a.5
12 51.0
448 31. 1
20 26.9
9-597 1955
0.144 2580
0.145 2462
3
187 51 16.9
3 43 35.4
12 38.4
4 27 44-4
21 5.0
9.603 1600
0.146 1684
0.147 0262
4
191 31 49-3
3 37 33.6
12 13.4
4 624.1
21 34.4
9.608 8953
0.147 8214
0.148 5555
5
195 632.3
3 31 56.4
" 37-5
34438.1
21 56.4
9.614 3902
0.149 2301
0.1498465
6
198 35 50-0
3 26 42.9
-10 51.9
+3 22 33.6
—22 xr.8
9.619 6361
0.150 4061
0.150 9102
7
202 0 5.7
3 2x 54.3
958.1
3 0 16.5
2221.5
9.624 6264
0.151 3599
0.1 51 7566
8
205 19 42.0
3 17 23.8
857-4
2 37 52.2
2226.4
9-629 3559
0.152 lOII
0.152 3945
9
20835 0.4
3 13 X6.3
750-8
2 1525.2
22 27.1
9.6338213
0.1526378
0.1528320
zo
211 46 21.3
3 928.8
6 39.6
I 52 59-3
2224.2
9.638 0203
0.1529778
0.1530760
II
21454 4.4
3 6 0.5
- 5 24.9
+1 30 37-9
—22 18. X
9.641 9512
0.153 1274
0.153 1327
12
217 58 28.5
3 250.7
4 7.8
I 8 24.0
22 9.3
9.6456133
0.1530926
0.1530076
13
220 59 51.6
2 59 58.3
249.1
04620.1
21 58.2
9.649 0067
0.1528782
0.152 7049
M
223 58 30.7
2 57 22.6
129.7
0 24 28.3
21 45.0
9.652 13x6
0.1524882
0.152 2286
15
2265442.1
2 55 a.9
— 0 10.4
+0 2 50.6
21 30.1
9.654 9885
0.I5I 9264
0.151 5820
i6
2294841.7
2 5a 58.7
+ I 7-9
-0 18 31.4
—21 13.6
9-657 5783
0.I5X 1957
0.1507677
17
2324044.5
251 9.4
224.8
0 39 36.2
2055.7
9.659 9019
0.150 2981
0.149 7871
i8
23531 5-2
2 49 34.3
3 39-4
I 0 22.4
2036.5
9.661 9602
0.1492349
0.148 6415
19
238 19 57.7
2 48 13.0
451.2
I 20 48.9
20 16.2
9-663 7544
0.148 0071
0.147 3317
20
241 735.7
247 5.2
5 59-7
I 40 54.5
19 54.8
9.665 2853
0.146 6154
0.145 858a
21
243 54 12.4
2 46 10.5
+ 7 4-3
—2 038.1
-19 32.3
9.666 5538
0.1450598
0.144 2201
22
24640 0.9
2 45 28.6
8 4.7
2 19 58.6
19 8.7
9.667 5607
0.143 3391
0.142 4167
23
2492513.8
2 44 59.3
9 0.3
23855-1
1844.1
9.6683066
0.I4I 4528
0.140 4471
24
252 10 3.7
2 44 42.4
950.8
2 57 26.5
18 Z8.4
9.668 7921
0.1393992
0.138 3087
25
254 54 42.8
2 44 37-8
10 35-7
31531-6
17 51.6
9.669 0174
0.137 1754
0.1359988
26
257 39 23.4
« 44 45.4
•fii 14.8
-3 33 9-4
-17 23.8
9.668 9826
0.1347787
0.133 5147
27
260 24 17.7
245 5.2
II 47.8
3 50 18.8
X654.7
9.668 6879
0.132 2063
0.1308529
28
263 937.9
2 45 37.3
12 14.2
4 658.3
1624.2
9.668 1 331
0.1294539
0.128 0090
29
265 55 3^-4
2 46 21.7
12 33.9
423 6.6
X5 52.3
9.667 3176
0.126 5174
0.1249786
30
268 42 25.4
2 47 X8.4
12 46.6
4 38 42.3
15 x8.8
9.666 2410
0.123 3918
ai2i 7564
31
271 30 17.4
2 48 27.8
+12 52.1
-4 53 43-6
-14 43.6
9.664 9026
0.120 0717
0.1 18 3369
Nov. I
274 19 25.4
2 49 5a2
12 50.2
5 8 8.8
14 6.4
9.663 3016
0.II6 5510
0.1 14 7132
2
277 10 2.2
2 51 25.6
12 40.7
52x55-8
13 27.2
9.661 4371
O.II28227
0.1 10 8784
3
280 2 21. 1
2 53 14.5
12 23.5
5 35 2.4
1245.7
9.659 3081
0.1088795
0.106 8251
4
282 56 35.9
a 55 17.3
II 58.6
54726.3
12 1.7
9.6569137
0.104 7I4I
0.102 5452
5
38553 0.6
a 57 34.4
•fii 25.9
-5 59 4-8
—11 14.8
9.654 2529
0.1003173
0.098 0294
6
288 51 49.7
3 0 6.4
1045.4
6 9 54.8
xo 24. 8
9.651 3247
0.095 6802
0.093 2685
7
291 53 18.4
3 253.6
957.2
6 19 53-2
931.4
9.648 1282
0.090 7930
0.088 2524
8
2945742.2
3 556.7
9 1-5
62856.3
834.2
9.644 6631
0.085 6452
0.082 9701
9
298 5 17.2
3 916.3
758.5
6 37 0.2
732.9
9.640 9292
0.080 2258
0.0774108
10
301 1620.4
3x253.1
+ 648.5
—6 44 0.6
— 6 27. 1
9.636 9268
0.074 5236
0.071 5625
II
30431 9.3
3 i6 47.7
532.0
6 49 52.7
516.3
9.632 6568
0.068 5260
0.065 4126
12
307 50 2.0
321 a8
4 9-6
6 54 3T.4
4 0.1
9.628 1209
0.062 2207
0.058 9488
13
3" 13 17-4
3 25 33.3
242.0
65751.0
238.0
9.623 3216
0.055 5951
0.052 1580
14
31441 15.2
3 30 25.7
+ I 10.0
65945.3
- X 9.5
9.618 2628
0.048 6359
0.045 0273
15
318 14 15.7
3 35 38.8
— 025.2
-7 0 7.8
+ 0 25.7
9.612 9498
0.041 3304
0.037 5437
16
321 52 39.8
3 4J 13.X
- 2 2.5
-6 58 51.5
+ 2 8.2
9.607 3902
0.033 6658
0.029 6951
[Eph 12]
HELIOCENTRIC CO-ORDHSTATES, 1912. 185
MERCURY.
GREENWICH MEAN NOON.
Logarithm of Distance from
v^ .
Heliocentric
Longitude,
Mean Equinox
of Date.
Daily
Motion.
•
Reduction
to Orbit.
Heliocentric
Latitude.
Daily
Motion.
Logarithm of
Radius Vec-
tor.
Earth—
Date.
At Date.
At Interme-
diate Date.
e t H
0 1 n
t m
Of #»
t m
Nov. i6
321 52 39.8
3 41 13.X
— 2 2.5
-6 58 51.5
+ 9 8.3
9.607 3902
0.033 6658
0.029 6951
17
3253649.2
3 47 9.3
340-2
6 55 48.8
358.5
9.601 5927
0.025 6305
0.021 4705
18
32927 5.8
3 53 «7.7
516.8
65051.7
557.1
9-595 5696
0.017 2141
0.012 8603
19
3332352.1
4 0 8.7
650.2
6 43 51.8
8 4.1
9.5893361
0.008 4083
0.003 8575
20
337 27 30.7
4 7 ".a
818.3
6 34 40.6
1019,7
9.582 9106
9.9992077
9.994 4588
21
341 3823.9
4 14 37.9
- 9 38.6
-623 9.5
+13 44.0
9^576 3157
9.989 61 1 1
9.984 6653
22
345 56 53.6
4 2t 25.3
10 48.6
6 9 9.9
15 16.6
9.569 5791
9.979 6227
9-974 4853
23
350 23 21.0
4 30 33.0
1145,5
5 52 33.6
1757.1
9.562 7336
9-969 2553
9.963 9358
24
35458 5-7
4 38 59.4
1226.5
5 33 13.1
3044.8
9.555 8181
9.958 5306
9.9530445
25
359 41 25.2
4 47 4*-!
12 48.8
511 2.1
33 38.0
9.548 8780
9.947 4834
9.941 8540
26
4 33 34-2
4 56 37.8
—12 50.1
-4 45 56.0
+2634.7
9.541 9656
9.936 1647
9.930 4247
27
9 34 43-7
5 5 42-3
12 28.2
4 17 52.5
2932.3
9.535 1407
9.924 6452
9.918 8386
28
1445 0.0
51450.4
11 41.6
34652.3
32 27:5
9.528 4702
9.913 0192
9,907 2030
29
20 4 23.6
5 a3 55.8
10 29.7
3 " 59.7
35 16.3
9.522 0279
9.901 4083
9.895 6552
30
25 32 48.2
3 33 51.0
853.1
2 36 23.5
3753.8
9-5158937
9.889 9659
9.884 3646
Dec. X
31 9 59-4
5 41 «7.5
- 6 53.6
-I 57 17-6
+40 14.8
9.5101524
9.878 8775
9.873 5330
2
36 55 33-8
5 49 35.8
4 34.5
I 16 1.4
42 13.3
9.5048913
9.868 36 1 1
9.863 3935
3
4248 58.1
5 57 5.5
- 2 0.8
-033 0.4
43 43.6
9.500 1983
9.858 6629
9.854 2029
4
48 49 28.5
6 346.x
+ 041.2
+0 II 14.5
4440.1
9.496 1580
9.850 0476
9.846 2306
5
54 56 10.5
6 9 37.0
324.2
056 7.0
4458.1
9.492 8482
9.842 7847
9.839 7410
6
61 7 59-3
61358.3
+ 5 59.8
+1 40 56.7
+44 34.0
9.490 3365
9.837 1281
9.834 9715
7
67 23 40.9
6 17 II. 3
819.8
2 25 0.4
4336.0
9.488 6767
9.833 2930
9.832 1 100
8
734153.3
6 18 39.0
10 16.5
3 734.3
41 34.5
9.487 9056
9.831 4347
9.831 2742
9
80 z 9.0
6 19 17.3
"43.5
3 47 55-7
39 1.5
9.488 0402
9.831 6297
9.832 4971
zo
86 19 57-3
6 x8 4«3
12 36.2
42525-1
35 51.5
9.489 0775
9.833 8665
9.835 7229
II
92 36 47.6
6 15 31.6
+12 52.2
+4 59 28.6
+32 10.7
9.4909943
9.838 0467
9.840 8 141
Z2
98 50 12.0
6 II 13.5
12 31.6
5 29 38.8
a8 6.3
9.493 748S
9.843 9978
9.847 5676
13
104 58 48.5
6 5 47.1
II 36.7
5 55 35.9
33 46.0
9,497 2829
9.851 4917
9.855 7367
14
zii I 23.1
5 59 ".4
ZO II. 7
617 8.2
19 17.9
9.501 5254
9.860 2687
9.865 0540
15
Z165651.7
5 51 36.9
8 22.2
634 ZI.6
1449.5
9.506 3957
9.870 0592
9.875 2522
16
122 44 21. 2
5 43 15.3
+ 6 14.6
+6 46 49.2
+10 37.3
9. 51 1 8082
9.880 6023
9,886 0802
17
Z28 23 10.3
5 34 »8.o
3 55-6
655 9.7
616.3
9.517 6751
9.891 6586
9-897 3124
18
1335249.0
3 24 56.2
■¥■ I 31.6
6 59 26.8
+ 330.8
9.5239094
9.903 0185
9.908 7557
19
Z39 12 58.0
5 J5 ao.3
- 051.4
65957.3
— 1 16.5
9.5304276
9.914 5050
9,920 2494
20
1442328.0
5 339.6
3 8.5
657 0.3
434.0
9.537 1513
9.925 9738
9-931 6648
21
149 24 l8.2
4 56 3.0
- 5 15.6
+6 50 56.0
— 731.1
9.544 0088
9.937 3106
9.942 9012
22
154 »5 35.0
4 46 33.8
7 9.6
642 4.9
10 7.7
9.5509354
9.948 4279
9.9538831
23
158 57 30.7
4 37 ao-4
848.4
63047.1
1334.7
9.5578734
9.959 2608
9.964 5556
24
163 30 22.2
4 aS 85.9
10 10.6
6 17 21.7
14 33.3
9.5647725
9.969 7632
9.974 8801
25
167 54 29.8
4 19 53.a
iz 15.7
6 2 6.5
16 4.5
9.571 5895
9.979 9037
9.984 8319
26
172 10 16.5
4 " 44.3
—12 3.6
+5 45 17.9
-17 30.3
9.5782873
9.989 6632
9-994 3967
27
176 18 6.8
4 4 0.6
12 34.8
5 27 10.9
18 41.7
9.5848346
9.9990319
0.003 5686
28
180 18 26.3
3 56 42.6
12 50.2
5 758.9
1940.5
9.591 2054
0.008 0069
O.OI2 3472
29
Z84 II 40.7
34950.5
12 50.8
44753.7
3038.1
9.597 3783
0.016 5902
0.020 7368
30
187 58 15.9
3 43 «4.«
12 37.8
427 5.9
31 6.0
9.603 3358
0.024 7883
0.028 7458
31
191 38 37.5
3 37 «3-2
-12 12.5
+4 5 44-6
— «I 35.2
9.609 0637
0.032 6106
0.036 3838
32
195 13 10.4
3 31 46.7
-II 36.2
+3 43 58.0
—31 56.9
9.614 5512
0.040 0670
0.0436620
1
[Eph 12]
186 HELIOCENTRIC CO-ORDINATES, 1912.
VENUS.
GREENWICH MEAN NOON.
Heliocentric
Longitude,
Mean Equinox
of Date.
Daily
Motion.
Reduction
to Orbit
Heliocentric
Latitude.
Daily
Motion.
Logarithm of
Radius Vec-
tor.
Logarithm of Distance from
Earth—
Date.
At Date.
«
At Interme-
diate Date.
e * rr
e r n
* m
0 r M
$ H
Jan. I
165 30 56.8
X 37 «a.7
+0 2.3
+3 23 37.2
+0 2.3
9.856 9079
9.978 2824
9-981 5313
3
168 45 39.7
X 3720.0
—0 18.I
3 23 22.1
-017.3
9.857 0071
9.984 7482
9.987 9333
5
172 0 16.8
I 37 17.0
038.3
3 22 28.0
036.7
9.857 1 1 36
9.991 0868
9.994 2090
7
1751447-5
I 37 13.6
058.0
3 20 55.2
056.0
9.857 2271
9.997 3003
0.000 3608
9
178 29 1 1.2
X 37 xObO
I 17.0
3 18 43.9
X X5.1
9.857 3472
0.003 3907
0.006 3902
11
181 43 27.4
X 37 6.x
-I 35.0
+3 15 54.7
-X 33.9
9.857 4735
0.009 3597
0.0x2*2994
13
184 57 35-4
137 1.9
I 51.7
3 12 28.2
152.4
9.857 6056
0.015 2098
0.018 091 X
15
188 II 34.7
I 36 57.4
2 7.0
3 825.1
2 XO.5
9.857 7431
0.020 9435
0.023 7674
17
191 25 24.9
X 36 sa.8
220.7
3 346.3
228.2
9.857 8855
0.026 5632
0.02933x3
19
19439 5-6
X 36 47.9
2 32.6
2 58 32.7
245.3
9.858 0324
0.032 0721
0.034 7859
21
197 52 36.4
X 36 4a.9
—2 42.6
+2 52 45.4
-3 x.S
9.858 1833
0.037 4731
0.040 1 34 1
23
201 5 57.0
X 36 37.7
250.5
2 46 25.7
317.7
9.858 3376
0.042 7692
0.045 3789
25
204 19 7.1
X 36 32-4
2 56.2
2 39 34.8
333.0
9,858 4950
0.047 9635
0.050 5234
27
20732 6.5
X 36 37.0
259.7
2 32 14.0
347.6
9.858 6549
0.053 0591
0.055 57x0
29
210 44 55.1
X 36 ai.5
3 i.o
2 24 24.8
4 X.4
9.858 8169
0.058 0594
0.060 5245
31
213 57 32.7
X 36 16.0
-3 0.0
+2 16 8.8
-4 X4.4
9.858 9803
0.062 9667
0.065 3862
Feb. 2
217 959.4
X 36 10.6
256.7
2 7 27.6
436.6
9.859 1448
0.067 7834
0.070 X583
4
220 22 1 3. 1
X36 5.x
251.2
I 58 22.9
437.9
9.859 3097
0.072 511 2
0.0748421
6
223 34 19.9
X 35 59.7
2436
I 48 56.5
448.3
9.859 4746
0.077 1512
0.079 4386
8
226 46 14.0
X 35 54.3
234.0
I 39 10.1
457.8
9.859 6389
0.081 7043
0.083 9486
xo
229 57 57.4
I 3549.1
—2 22.4
+x 29 5.6
-5 6.4
9.859 8022
0.086 1 716
0.088 3734
12
233 930.5
X 35 44.0
2 9.1
I 18 45.0
5 14.0
9.859 9639
0.090 5541
0.092 71 4 1
14
2362053.5
I 35 39-0
154.2
I 8 10.2
520.6
9.860 1235
0.094 8535
0.096 9725
i6
23932 6.7
X 35 34.a
1379
0 57 23.3
5 26.2
9.860 2806
ao99 07i2
0.X01 1499
i8
242 43 10.5
X 35 29.6
I 20.4
0 46 26.2
530.8
9.8604346
0.1032088
0.105 2482
20
24554 5.2
X 35 25. a
—I 1.9
+0 35 20.9
-534.4
9.860 5851
0.107 2683
0.109 2693
22
249 451.3
X 35 2X.0
042.6
0 24 9.6
536.9
9.860 7316
0.111 2515
0.1x3 2151
24
252 15 29.3
I 35 17. X
022.9
0 12 54.2
538.4
9.860 8737
0.115 1605
0.x 17 0878
26
255 25 59.7
X 35 X3.4
—0 2.9
+0 I 36.9
538.8
9.861 Olio
0.1 18 9973
0.1208892
28
258 36 23.0
X 35 XO.O
+0 17.2
-0 940.3
538.2
9.861 1430
o.'i22 7638
0.X24 6212
Mar. X
261 46 39.6
X35 6.8
+037.0
-0 20 55.3
-536.6
9.861 2693
0.126 4617
0.128 2853
3
264 56 50.2
X 35 3-9
056.3
0 32 6.1
534.0
9.861 3896
0.1300922
0.X3I 8824
5
268 655.4
X 35 X.3
1 15.0
0 43 10.6
530.4
9.86X 5035
0.133 6561
0.135 4133
7
2711655.7
X 34 59.0
132.7
054 6.9
525.7
9.861 6107
0.137 1539
0. 138 8780
9
274 26 51.6
X 34 57.0
149.3
I 452.9
5 20.Z
9.861 7108
0.1405857
O.X42 2769
ZI
277 36 43-8
X 34 55.3
+2 4.6
—I 15 26.8
-513.6
9.861 8035
0.143 9517
O.X456I02
13
280 46 32.9
X 34 53-9
218.3
I 25 46.7
5 6.x
9.861 8886
0.147 2525
0.1488787
15
283 56 19-5
X 34 5a.8
230.3
I 35 50.6
457.7
9.861 9658
0.150 4887
O.X52 0826
17
287 6 4.0
X 34 5X.9
240.5
I 45 36.8
448.4
9.862 0349
0.1536606
0.X55 2227
19
290 1547.0
X 34 5X.3
248.7
155 3.6
438.2
9.862 0956
0.156 7691
0. 158 2998
21
2932529.1
X 34 5X.0
+2 54.9
-2 4 9.2
-427.2
9.862 X478
0.1598x50
o.x6x 3148
23
296 35 10.9
X 34 50.9
259.0
2 12 52.1
4 X5.4
9.862 1914
0.162 7995
0.164 2692
25
299 44 52.8
I 34 51. X
3 0.9
2 21 10.6
4 2.9
9.862 2262
0.1657240
0.167 1640
27
302 54 35.2
X 34 51.5
3 0.6
229 3.3
3 49-7
9.862 2521
0. 168 5894
0.1700003
29
306 4 18.8
X 34 5a.a
258.0
2 36 28.8
335.7
9.862 2690
0.171 3969
0.1727793
31
30914 3.9
X 34 53.0
+2 53.3
-2 43 25.7
—3 21. 1
9.862 2769
0.174 1476
0.X755018
Apr. 2
312 23 50.9
X 34 54.x
+2 46.5
-2 49 52.7
-3 5.8
9.862 2757
0.176 8419
0.178 1678
[Eph 12]
HELIOCENTRIC CO-ORDINATES, 1912. 187
VENUS.
GREENWICH MEAN NOON.
Dace.
Heliocentric
Longitude,
Mean Equinox
of Date.
Daily
Motion.
Reduction
to Orbit
Heliocentric
Latitude.
Daily
Motion.
Logarithm of
Radius Vec-
tor.
Logarithm of Distance from
Earth—
At Date.
At Interme-
diate Date.
0 t n
0 1 ft
1 n
e f . H
t H
Apr. 2
312 23 50.9
X 34 54.x
+2 46.5
-24952.7
-3 5.8
9.862 2757
0.176 8419
0.178 1678
4
3153340-2
X 34 55.3
237.7
2 55 48-7
250.Z
9.862 2654
0.1794796
0.1807773
6
3184332.3
I 34 56.8
227.0
3 X 12.7
233.8
9.862 2462
0.1820608
0.183 3300
8
3215327.4
X 34 58.4
214.4
3 6 3.6
a X7.0
9.862 2180
0.184 5849
0.1858256
10
325 325-8
135 o-x
2 0.2
3 lo 20.5
159.8
9.862 1809
0.187 0521
0.188 2642
12
328 13 27.8
135 a-o
+1 44-6
-3 14 2.7
-I 42,3
9.862 1 351
0.189 4618
0.1906450
M
331 23 33-8
135 4.0
127.7
317 9.4
124.4
9.862 0806
0.I91 8139
0.1929684
i6
334 33 43.9
135 6.1
I 9.7
3 19 40.1
X 6.2
9.862 0176
0.194 ^085
0.1952342
i8
337 43 58.4
135 8.4
050.8
3 21 34-2
047.8
9.861 9464
0.1963455
0.197 4426
20
3405417.5
X 35 IO-7
031-3
3 22 51.4
029.3
9.861 8671
0.1985254
0.1995940
22
344 441-3
X 35 13. X
40 11.4
-3 23 31.4
—0x0.7
9.861 7800
0.200 6485
0.201 6890
24
347 15 10. 1
X 35 X5.6
-0 8.6
3 23 34-1
4o 8.0
9.861 6852
0.202 7157
0.203 7287
26
350 25 44.0
X 35 »8.2
028.5
3 22 59.3
026.7
9.861 5832
0.204 7279
0.2057134
28
353 36 23.0
I 35 20.8
048.1
3 21 47.1
045.4
9.861 4742
0.206 6854
0.207 6438
30
35647 7-4
X 35 23.5
I 7.1
3 19 57.7
I 3.9
9.861 3585
0.208 5886
0.209 5198
May 2
359 57 57-3
13526.3
-I 25.3
-3 17 31-4
+X 22.3
9.861 2365
0.2104373
0.211 3412
4
3 852.7
X 35 29.x
142.5
3 14 28.6
X4O.4
9.861 1085
0.212 2313
0.213 1076
6
6 19 53-7
X 35 31-9
158.4
3 10 49.7
X58.3
9.860 9750
0.213 9701
0.214 8187
8
9 31 0.4
I 35 34-8
2 12.8
3 635.4
2x5.9
9.860 8363
0.2156533
0.2164739
10
12 42 13.0
I 35 37.8
225.7
3 146.4
233.x
9.860 6928
0.217 2803
0.218 0725
12
155331-5
1 35 40.8
-2 36.7
-2 56 23.5
4^49-8
9.8605451
0.218 8505
0.219 6141
14
19 4 56.0
X 35 43.8
245.8
2 50 27.6
3 6.0
9.860 3935
0.220 3633
0.221 0980
16
22 16 26.5
I 35 46.8
252.8
2 43 59.8
321.7
9.860 2385
0.221 8182
0.222 5240
iS
2528 3.2
X 35 49-9
257-7
2 37 1.2
336.8
9.860 0806
0.223 2154
0.223 8923
20
283946.1
I 35 53.0
3 0.4
2 29 33.1
351.2
9.859 9203
0.224 5547
0.225 2026
22
31 51 35-3
X 35 56.2
-3 0.9
-2 21 36.8
+4 5.0
9.859 7580
0.225 8362
0.2264555
24
35 330.9
X 35 59.4
259.1
2 13 13.6
4x8,0
9-8595943
0.227 0607
0.227 6519
26
38 15 33-0
136 2.7
255.1
2 425.1
430.3
9-859 4297
0.228 2290
0.228 7919
28
41 27 41.6
I 36 6.0
248.9
I 55 X3.0
4 4X.8
9.859 2646
0.229 3407
0.229 8755
30
44 39 56.9
X 36 9-3
2 40.6
1 45 38.8
452.3
9.859 0997
0.230 3962
0.2309029
June I
47 52 18.9
I 36 ia.7
-2 30.2
-I 35 44-4
+5 1.9
9.858 9354
0.231 3955
0.231 8739
3
51 447.8
I 36 I 6.3
2 18.0
I 25 31.6
5x0.7
9.858 7722
0.232 3381
0.232 7880
5
54 17 23.6
z 36 X9.6
2 4.0
I 15 2.2
5x8.5
9.858 6107
0.233 2236
0.2336447
7
5730 6.3
1 3623.1
148.5
I 4 18.2
525.3
9.858 4514
0.2340514
0.2344436
9
6042 56.1
I 36 26.7
131-5
0 53 21.6
531-X
9.858 2947
0.234 8212
0.235 1841
II
635553-1
X 36 30.3
-I 13-4
—0 42 14.5
+5 35.9
9.858 1412
0.235 5321
0.235 8652
13
67 8 57.2
13633.8
054-4
0 30 58.9
539.6
9.857 9914
0.236 1835
0.2364868
15
70 22 8.4
X 36 37.4
034.7
0 19 37.0
5 42.2
9-857 8457
0.236 7751
0.237 0483
17
73 35 26.9
X 3641.0
-014.5
—0 8 10.9
543.7
9.857 7047
0.237 3065
0.237 5496
19
76 48 52.6
X 36 44-6
4-0 5.8
+0 3 17.2
544.x
9.857 5687
0.237 7778
0.237 9912
21
80 2 25.6
X 36 48.3
+026.1
+014 45-1
+5 43.5
9.857 4382
0.238 1897
0.238 3735
23
8316 5.7
I 36 51.8
046.1
0 26 10.6
541.8
9-857 3137
0.238 5427
0.238 6973
25
86 29 52.9
X 36 55.3
I 5-5
0 37 31.4
538.9
9.857 1955
0.238 8374
0.238 9630
27
89 43 47.0
X 36 58.8
I 24.1
0 48 45.5
535.0
9.857 0841
0.2390739
0.239 1703
29
92 57 48.0
I 37 2.2
I 41.7
0 59 50.6
530.0
9.8569797
0.239 2524
0.239 3200
July I
96 1 1 55.7
X37 5.5
+1 57-9
+1 10 44.6
+5 23.9
9.856 8828
0.2393731
0.239 4117
3
9926 9.9
X37 8.7
+2 12.6
+1 21 25.3
+5x6.7
9.856 7936
0.2394358
0.239 4453
[Eph 12]
188 HELIOCENTRIC CO-ORDINATES, 1912.
VENUS.
GREENWICH MEAN NOON.
Date.
Heliocentric
Longitude,
MeanEquinox
of Date.
Daily
Motion.
Reduction
to Orbit
Heliocentric
Latitude.
Daily
Motion.
Logarithm of
Radius Vec-
tor.
Logarithm of Distance trova.
Earth—
At Date.
At Interme-
diate Date.
o > n
Off'
» ft
0 t n
t It
July I
96 II 55-7
I 37 5.5
+1 57-9
+ 1 10 44.6
+5*3-9
9.856 8828
0.239 3731
0.239 4ZZ7
3
9926 9.9
137 8.7
2 12.6
I 21 25.3
516.7
9-856 7936
0.2394358
0.2394453
5
102 40 30.4
1 37 ".8
225.7
I 31 50.6
5 8.5
9.856 7125
0.239 4403
0.239 4206
7
105 54 56.8
X 37 14.7
236.9
I 41 58.6
4 59*3
9.856 6396
0.239 386Z
0.239 3369
9
Z09 928.9
I 37 17.4
2 46.1
I 51 47-2
449.x
9.856 5753
0.239 2729
0.239 1940
ZI
Z1224 6.4
i37«>.o
+2 53.2
+2 I 14. 5
+438.0
9.856 5Z98
0.239 zooz
0.238 99Z2
13
1x53848.9
X37W.4
2 58.0
2 10 z8.6
4«5.9
9.856 4733
0.238 8673
0.238 7283
15
118 53 35.9
X 37 H-5
3 0.6
2 18 57.8
4x3.0
9.856 4358
0.238 5743
0.238 4052
17
122 8 26.9
I 37*6.4
3 0.9
2 27 10.3
359.3
9.856 4075
0.238 2210
0.238 0219
19
125 23 21.6
13728.1
258.8
2 34 54.5
344.8
9.856 3886
0,237 8078
0.237 5789
21
128 38 19.4
X 37 29.5
+2 54.4
+2 42 8.9
+3*9.5
9.856 3790
0.237 3353
0.237 077a
23
131 53 19-6
I 37 30.6
247.8
2 48 52. 1
3x3.6
9.856 3789
0.236 8045
0.2:65173
25
135 821.7
X 37 3X.4
239.0
255 2.7
*57.o
9.856 3882
0.236 2Z57
0.2358997
27
138 23 25.1
X 37 31.9
228.2
3 039.6
*39.8
9.856 4068
0.235 5693
0.235 2248
29
141 38 29.2
I 37 3a-x
215.5
3 541.6
3 22.1
9.8564347
0.2348662
0.234 4934
31
144 53 33.3
I 37 31.9
+2 I.O
+3 10 7.8
+a 4-0
9.856 4718
0.234 1064
0.233 7053
Aug. 2
Z48 836.7
X 37 31.3
145.0
3 13 57.3
145.4
9.856 5z8z
0.233 2900
0.232 8606
4
151 23 38.6
13730.5
127.7
3 17 9.3
X 26.5
9.856 5733
0.232 4170
0.231 9593
6
154 38 38.5
X 37 89.3
I 9.2
3 19 43-3
X 7.4
9.856 6372
0.231 4874
0.23Z 00Z3
8
157 53 35-6
X 37 97-7
049.9
3 21 38.9
048.x
9.856 7097
a 230 5008
0.229 9860
zo
161 829.3
X 37 25.8
+029.9
+3 22 55.6
+028.6
9.856 7905
0.229 4567
0.228 9Z29
Z2
Z64 23 Z8.7
X 37 a3.5
+0 9,5
3 23 33-3
+0 9.1
9.856 8793
a228 3546
0.227 7819
14
167 38 3.2
I37«>.9
-0 11.0
3 23 31.9
—0 X0.5
9.856 9759
0.227 '947
0.226 5930
z6
170 52 42.2
I 37 z8.o
031.3
3 22 51.4
030.0
9.857 0799
0.225 9769
0.225 3466
i8
174 715-1
X 37 X4.7
051.2
3 2x 32.0
049.3
9.857 Z9ZO
0.224 7020
0.224 0432
20
177 21 41. z
X 37 ix.x
-I 10.5
+3 1934.1
-X 8.5
9.857 3088
0.223 3705
0.222 6838
22
180 35 59-7
X37 7.3
Z28.8
•
3 16 58.1
127.4
9-857 4330
aa2z 9832
0.22Z 2689
24
183 50 10.4
X37 3.«
z 46.0
3 13 44-6
z 46.0
9.857 5631
a22o 5409
0.2Z9 7993
26
1S7 4 Z2.6
13658.9
2 Z.9
3 9 54-2
a 4.3
9.857 6987
0.2190441
0.218 2754
28
Z90 18 5.8
X 36 54.3
2 Z6.2
3 527.7
222.Z
9.857 8393
0.217 4932
0.216 6976
30
193 31 49.7
X 3649.5
—228.7
+3 0 26.2
-239.4
9.857 9846
0.2158886
0.2150663
Sept z
Z96 45 23.8
13644.5
239.4
2 54 50.6
256.Z
9.858 1341
0.2 Z4 2307
0.2Z3 38Z7
3
199 58 47.8
X 36 39.4
2 48.0
2 48 42. z
3 X2.2
9.858 2873
0.212 5Z94
aaiz 6437
5
203 X2 Z.4
X 36 34.a
254.5
2 42 2.0
3*7-7
9.858 4436
0.210 7544
a209 85i5
7
206 25 4.4
z 36 28.8
258.8
2 34 51.5
3 4*-6
9.858 6026
0.208 9350
a 208 0049
9
209 37 56.6
X 36 83-4
-3 0.8
4-2 27 Z2.Z
-356.7
9.858 7638
0.207 o6z2
0.206 Z037
zz
212 50 37.9
X 36 X7.9
3 0.6
2 19 5-3
4 10.0
9.858 9266
0.205 1323
0.204 Z470
13
216 3 8.2
I 36 xa.4
258.1
2 10 32.7
422.4
9.859 0906
0.203 1478
0.202 1348
15
2Z9 Z5 27.6
X 36 6.9
253.4
2 I 36.0
434.0
9859 2553
0.20Z 1080
0.200 0673
17
222 27 36.0
X36 X.5
246.5
z 52 17.0
444.8
9.859 4202
O.Z990I3Z
0.1979452
19
225 39 33-6
X 35 56.9
-2 37.6
+1 42 37.4
-4 54*7
9.859 5846
a 196 8638
0.1957689
2Z
228 51 20.6
X 35 50.9
2 26.6
I 32 39.0
5 3.6
9.859 7481
0.1946607
0.Z935390
23
232 257.2
I 35 45.7
213.9
I 22 23.8
5XX.5
9.859 9Z03
0.Z92 4039
0.191 2556
25
235 14 23-5
X 35 40.7
159.6
I II 53-8
5x8.4
9.860 0705
0.Z900941
0.Z889Z94
27
238 25 39-9
X 35 35.8
I 43-7
z I Z0.9
5*4-4
9.860 2283
0.Z877315
0.Z865305
29
241 36 46.8
X 35 3X.a
-I 26.5
+0 50 17. 1
-5*9.3
9.860 3833
0.185 3163
0.Z840890
*>:t. z
244 47 44-6
X35«6.7
-I 8.4
+0 39 Z4.5
-5 33.*
9.860 5349
0.1828485
az8z 5947
[Eph X2]
HELIOCENTRIC CO-ORDINATES, 1912.
189
VENUS.
GREENWICH MEAN NOON.
Heliocentric
Longitude,
Mean Equinox
of Date.
Daily
Motion.
Reduction
to Orbit.
Heliocentric
Latitude.
Daily
Motion.
Logarithm of
Radius Vec-
tor.
Logarithm of Distance from
Earth—
Date.
At Date.
At Interme-
diate Date.
Oct. I
244 47 44-6
0 « M
13536.7
-1 8.4
0 f M
+0 39 M-5
-5 33.2
9.860 5349
0.1828485
0.181 5947
3
247 58 33-6
135M-4
049.4
0 28 5.0
536.1
9.860 6827
0.180 3276
0.179 0471
5
251 914-3
1 35 18.4
029.8
0 16 50.8
538.0
9.860 8262
0.177 7531
0.1764455
7
2541947-2
X 35 14.6
-0 9.9
+0 5 34.0
538.8
9.8609651
0.175 1241
0.1737888
9
257 30 12.8
I 35 "•!
+0 ia2
-0 543.5
538.6
9.861 0988
0.1724394
0.171 0762
11
260 40 31.7
135 7.9
4o 30.1
—0 16 59.5
-5 37.3
9.861 2269
0.1696986
0.168 3066
13
2635044.3
135 4-9
0 49.6
0 28 12.0
535.0
9.861 3492
0.1669003
0.165 4797
15
267 051.3
135 a-a
I 8.6
0 39 18.9
5 3X.8
9.861 4652
0.164 0446
0.162 5950
17
270 10 53.2
X 34 59.8
1 26.7
0 50 18.3
527.5
9.861 5746
0.161 1312
0.1596530
19
273 20 50.6
1 34 57-7
143.7
I 1 8.2
5 23.3
9.861 6770
0.158 1604
0.1566532
21
276 30 44. 1
X 34 55-9
+159-4
-I II 46.5
—5 16.0
9.861 7722
0.155 1316
0.153 5956
23
2794034.2
X 34 54-4
213.7
1 22 11.5
5 8.8
9.861 8598
0.152 0452
0.1504804
25
282 50 21.6
X 34 53.x
2 26.3
1 32 21.2
5 0.7
9.861 9397
0.148 9012
0.147 3076
27
286 0 6.8
X 34 5a»2
2 37-2
1 42 13.8
45X.7
9.8620115
0.1456995
0.1440769
29
289 950-3
I 34 51.5
2 46.1
I 51 47.6
44X.9
9.862 0750
0.142 4397
0.1407879
31
292 19 32.7
1345X.X
+2 53.0
-2 1 0.9
-4 3X.2
9.862 1301
0.139 I2Z2
0.1374396
Nov. 2
295 29 14.6
13450.9
257-8
2 951.9
419.7
9.862 1766
0.1357430
0.134 031 1
4
298 38 56.4
I 34 5X.0
3 0.5
2 18 19. 1
4 7.4
9.862 2143
0.132 3038
0.130 5608
6
301 48 38.6
X 34 5X-3
3 i.o
2 26 21.0
354.4
9.862 2432
0.128 8020
0.127 0270
8
304 58 21.8
X 34 51-9
259.2
23356.1
340.7
9.862 2631
0.125 2357
0.1234278
lO
308 8 6.4
X 34 52-7
+2 55.2
-241 3.1
-326.3
9.862 2740
O.I2I 6033
0.119 7619
12
311 1752.8
X 34 53-7
249.1
2 47 40.8
3 1X.3
9.862 2759
0.1 17 9035
0.1 16 0280
14
3142741.3
X 34 54.9
2 41.0
2 53 47-8
255.7
9.862 2688
O.II4I354
0.112 2254
i6
317 37 32.4
X 34 56-3
230.9
2 5923.1
239.6
9.862 2526
O.IIO 2979
0.108 3529
x8
320 47 26.4
X 34 57.8
2 19.0
3 425.7
322.9
9.862 2274
0.106 3902
0.1044097
20
323 57 23.7
13459.5
+2 5.4
-3 8 54.6
—3 5-8
9.862 1933
0.102 4II4
0.1003953
22
327 724.6
X35 X.4
I 50.2
3 12 49.0
148.4
9.862 1505
0.098 3612
0.096 3089
24
330 17 29.2
135 3.3
133-7
3 16 8,2
130.7
9.862 0990
0.094 2385
0.092 1499
26
333 27 37-9
X35 5-4
1 16.1
3 18 51.6
z 13.6
9.862 0389
0.090 0430
0.087 9175
28
336 37 50-9
135 7-6
057.5
3 20 58.5
054.3
9.861 9705
0.085 7733
0.083 6102
30
33948 8.5
135 9.9
+038.2
-3 22 28.6
-035.8
9.861 8940
0.081 4281
0.079 2266
Dec. 2
342 58 30.8
X 35 ia.3
+0 18.4
3 23 21.7
—0 17. 2
9.861 8095
0.077 0054
0.074 7642
4
346 857.9
X 35 X4.8
—0 1.6
3 23 37.4
4k) 1.5
9.861 7172
0.072 5027
0.070 2205
6
349 19 30.0
X 35 X7.4
021.6
3 23 15.7
020.2
9.861 6176
0,067 9^73
0.065 5928
8
35230 7-4
z 3530.0
041.3
3 22 16.6
038.9
9.861 5109
0.063 2466
0.060 8784
lO
355 40 50.0
I 35 32.6
—1 0.6
—3 20 40.2
+057.5
9.861 3974
0.058 4880
0.056 0749
12
358 51 38.0
I 35 a5.3
1 19.1
3 18 26.8
X 15.9
9.861 2774
0.053 6390
0.051 1799
H
2 231.5
I 35 28. z
136.6
3 15 36.7
X34.X
9.861 1 51 3
0.048 6975
0.046 1914
i6
5 13 30.6
I 35 3X.0
153.0
3 12 10.4
X 52. z
9.861 0196
0.043 6613
0.041 1070
i8
82435-5
X 35 33.9
2 8.0
3 8 8.4
3 9.8
9.860 8826
0.038 5283
0.035 9249
20
11 3546.2
I 35 36.8
—2 21.4
-3 331-4
+327.1
9.860 7406
0.033 2968
0.030 6438
22
1447 2.7
X 35 39.7
233.1
2 58 20.2
344.0
9.860 5942
0.027 9655
0.025 2618
24
175825.1
X 35 42.7
242.8
2 52 35-7
3 0.4
9.860 4437
0.022 5325
0.019 7771
26
21 953.6
I 35 45-8
250.6
2 46 19.0
3 Z6.2
9.860 2897
0.016 9955
0.014 1876
28
24 21 28.3
X 35 48.9
256.3
2 39 31.1
33X.5
9.860 1326
0.011 3530
0.008 4912
3°
2733 9-2
z 35 52.0
-259.8
—2 32 13. 1
+346.3
9.859 9729
0.005 6018
0.002 6843
32
304456.3
X 35 55.x
—3 1.0
—2 24 26.4
+4 0.3
9.8598111
9.999 7382
9.996 7632
[Eph 12]
190 HELIOCENTRIC CO-ORDINATES, 1912.
MARS.
GREENWICH MEAN NOON.
Logarithm of Distance from
v^
te.
Heliocentric
Longitude,
Mean Equinox
of Date.
Daily
Motion.
Reduction
to Orbit
Heliocentric
Latitude
Daily
MotioiL
Logarithm of
Radius Vec-
tor.
Earth—
Da
At Date.
At Interme-
diate Date.
« t t*
P w
w
0 r n
n
Jan.
o
80 39 41.9
30x3.13
+48.2
+0 58 29.3
+49.78
0.1905334
9.837 2654
9.841 9039
2
8z 40 2.3
30 7.3a
49.0
z 0 8.Z
49.07
O.Z9Z 2335
9.846 5580
9.851 2240
4
82 40 ZZ.2
30 1.58
49.7
I 145-5
48.35
0.Z9Z 9287
9.855 8999
9,860 5834
6
8340 8.6
3955.89
50.4
I 32Z.5
47.63
0.Z926Z88
9.865 2723
9.869 9644
8
84 39 54.7
3950.26
5Z.0
z 4 56.0
46.90
0.Z933036
9.874 6579
9.879 35 IZ
xo
85 39 29.7
9944-70
+51.6
+z 6 29. z
+46.17
O.Z939830
9.884 0420
9.888 7287
12
86 38 53.6
2939.19
52. z
z 8 0.7
45.43
0. Z94 6569
9.893 4098
9.898 0838
14
8738 6.5
39 33-75
52.5
z 9 30.8
44.66
0.195 3251
9.902 749Z
9.907 4042
i6
8837 8.6
2928.39
52.9
z zo 59.4
43.91
0. 195 9873
9.912 0473
9.916 6772
z8
8936 az
2923.09
53.2
Z Z2 26.4
43.15
0.Z966434
9.92 X 2927
9.925 8925
20
903441.0
29 17.85
+53.4
+z Z3 5Z.9
+43.38
0.Z972933
9.930 4754
9.935 0402
22
91 33 ".5
29x2.67
53.6
z Z5 Z5.9
4Z.6x
0.Z979369
9.939 5858
9.944 I "3
24
92 31 31.7
39 7.57
53.7
z z6 38.4
40.83
0.Z98 5740
9.948 6Z58
9.953 098Z
26
932941.8
29 «.54
53.8
I 17 59.3
40.05
0.Z992044
9.957 5575
9.96Z 9936
28
94 27 41-9
2857.58
53.8
z Z9 z8.6
39.37
0. Z99 8280
9.966 4054
9.970 7924
30
95 25 32.2
2852.68
+53.7
+z 20 36.3
+38.48
a 200 4448
9-975 1542
9.979 4903
Feb.
z
9623 12.7
a8 47.85
53.6
z 2z 52.5
37.69
a20z 0545
9.983 8004
9.988 0840
3
97 20 43.6
2843.09
53.4
z 23 7.1
36.89
0.20Z 6570
9-99234"
9.9965718
5
9818 5.1
28 38.40
53.1
z 24 20.0
36.09
0.202 2522
0.000 7759
0.004 9532
7
99 15 17.2
28 33.78
52.8
1 25 3Z.4
35.39
0.202 840Z
0.009 1038
0.013 2275
9
zoo Z2 20.2
2829.24
+52.5
+z 26 4Z.2
+34.49
0.203 4205
0.0x7 324Z
0.02 z 3934
zz
zoz 9 14.2
3824.77
52.1
z 27 49.4
33.68
0.203 9932
0.025 4353
0.029 4500
13
102 559.3
2820.37
5Z.6
z 28 55.9
33.87
0.204 5582
0.033 4371
0.037 3963
15
Z03 235.7
28 16.04
5Z.Z
z 30 0.8
32.06
0.205 ZZ53
0.041 3277
0.045 23XZ
17
10359 3.5
28 X1.77
50.5
z 3Z 4.Z
31-35
a 205 6644
0.049 1065
0.052 9536
19
Z04 55 22.8
28 7.58
+49.8
+Z32 5.8
+30.43
0.206 2055
0.056 7724
0.060 5629
2Z
Z05 5Z 33.8
28 3.48
49. z
I 33 5.9
29.61
0.206 7385
0.064 3249
0.068 0582
23
Z06 47 36.8
37 59.45
48.4
I 34 4.3
28.80
0.207 2632
0.071 7628
0.075 4388
25
Z07 43 3Z.7
«7 55.48
47.6
I 35 I.I
37.99
0.207 7796
0.079 086 Z
0.082 7048
27
Z08 39 18.7
2751.58
46.8
I 35 56.2
27.17
0.208 2876
0.086 2950
0.089 8569
29
Z09 34 58.0
27 47.76
+45.9
+1 36 49.7
+36.34
o.2o8 787 z
0.093 3906
0.096 896Z
Mar
. 2
ZZ03029.8
2744-02
45.0
I 37 41.6
35.53
0.2092779
a zoo 3737
0.Z038237
4
zzi 2554.Z
2740.36
44.0
z 38 3Z.8
24.70
0.209 760 z
0.X07 2465
axxo6423
6
ZZ2 2Z IZ.2
2736.76
43.0
z 39 20.4
33.89
0.2Z0 2335
0.1Z40ZZ3
0.ZZ73536
8
ZZ3 Z621 2
97 33-34
4Z.9
Z40 7.3
33.07
0.2Z0 698Z
0.Z20 6694
O.Z23 959Q
zo
ZZ4 zz 24.2
2729.80
-1-40.8
4-1 40 52.6
+32.24
0.2ZZ Z538
O.Z27 2225
0.Z304600
Z2
ZZ5 620.4
3736.43
39.7
I 41 36.3
21.42
0.2ZZ 6005
O.Z3367Z6
0.Z368574
14
zz6 z Z0.0
2733.X3
38.5
z 42 Z8.3
90.60
0.2x20382
az40oz76
0.Z43 Z52Z
z6
"65553.0
2719.89
37.3
I 42 58.7
19.78
0.2Z2 4667
O.Z46 26IX
0.149 3448
z8
ZZ7 50 29.6
2716.74
36.0
1 43 37.5
X8.97
0.2x2 886z
0.X52 4031
0.Z554360
20
Z1845 0.0
27x3.69
+34.7
+z 44 Z4.6
+18.15
a2Z3 2963
0.Z584437
o.z6z 426Z
22
"939244
27 xo.72
33.4
I 44 50.1
17-33
0.2Z36971
0.Z643834
0.167 3157
24
120 33 42.9
37 7.79
32. z
I 45 23.9
16. 5X
0.2Z40886
0.X702229
0.173 1052
96
Z2Z 27 55.6
37 4.91
30.7
I 45 56. z
15.70
0.2x4 4707
0.Z759630
0.Z787964
28
Z22 22 2.6
87 3.X5
29.3
z 46 26.7
14.88
0.2x48433
o.z8z 6055
0.Z84 3903
30
Z23 z6 4.2
26 59.46
+27.9
+1 46 55.7
+14.07
0.215 2063
0.187 Z5Z3
0.Z898888
Apr.
Z
Z24 ID a5
2656.84
+26.4
+z 47 23.0
+13.35
0.2Z5 5598
0.Z926030
0.Z952942
[Eph 12]
HELIOCENTRIC CO-ORDINATES, 1912. 191
MARS.
GREENWICH MEAN NOON.
^P^ A. _
Heliocentric
Longitude,
Daily
Reduction
Heliocentfic
Daily
Logarithm of
Logarithm of Distance from
Earth—
Date.
Mean Equinox
of Date.
Motion.
to Orbit.
Latitude.
Motion.
Kaoius Vec-
tor.
At Date.
At Interme-
diate Date.
0 t »
» n
n
e » w
n
Apr. I
124 zo 0.5
9656.84
+26.4
+z 47 23,0
+13.35
0.2Z5 5598
a Z92 6030
0.195 2942
3
125 351-6
a6 54.39
24.9
I 47 48.7
13.44
0.2Z59037
0.1979625
0.200 6083
5
125 57 37.7
7651.99
23.4
I 48 12.8
11.63
0.2x62379
0.203 2317
0.205 8330
7
126 5Z 18.9
9649.43
2T.9
1 48 35.2
ZO.83
0.2Z6 5624
0.208 4Z22
a 210 9695
9
127 44 55.4
3647.10
• 2a4
I 48 56.0
10.03
0.2Z6877Z
0.2x3 505Z
0.2Z6 OZ9Z
ZI
1283827.3
3644.85
+Z8.8
+z 49 Z5.2
+ 9.«
0.217 182Z
a2z8 5Z16
0.220 9828
13
129 31 54.8
3643.69
Z7.2
z 49 32.8
8.40
0.2Z7 4772
0.223 4328
0.225 86z6
15
130 25 18. 1
2640.60
Z5.6
z 49 48.8
7.60
0.2Z7 7624
0.228 2693
0.2306559
17
1311837.3
3638.57
Z4.0
150 3.3
6.80
o.2z8 0377
0.233 02Z4
0.235 3658
19
X32 iz 52.4
3636.61
Z2.4
z 50 z6.z
6.00
0.2Z8 303Z
0.237 6894
0.2399923
21
133 5 3.7
3634.74
+Z0.8
+z 50 27.2
-I- 5.«>
0.2Z8 5585
0.242 2745
0.244 5359
23
1335811.4
36 33.95
9.2
z 50 36.8
4.40
0.2Z8 8039
a 246 7769
0.248 9975
25
1345115.6
36 31.33
7.5
z 50 44.8
3.60
a 2 Z9 0392
0.25Z Z980
0.253 3784
27
1354416.3
3639.59
5-9
z 50 51.2
3.83
0.2Z9 2644
0.255 5389
0.257 6798
29
1363713.9
3638.0Z
4.2
I 50 56.1
3.05
0.2Z9 4795
0.259 80Z4
a26z 9039
May I
13730 8.4
3636.51
4- 2.6
+1 50 59.4
+ 1.35
0.2Z96845
0.263 9873
0.266 05 Z9
3
13823 0.0
3635.09
+ 0.9
z 5Z Z.O
+ 0.45
0.2Z9 8794
0.268 0978
0.270 Z252
5
139 15 48.8
36 83.74
- 0.7
Z 5Z Z.2
-0.34
0.2200641
0.272 1344
0.274 1255
7
140 835.0
3633.47
2.4
1 50 59.7
X.Z3
0.220 2386
0.276 0985
0.278 0535
9
Z4Z z 18.7
36 3Z.37
4.0
1 50 56.7
1.90
0.220 4029
0.2799907
0.281 9102
XI
14Z 54 0.1
3630.XS
- 5.7
+z 50 52. z
-8.68
0.220 5569
0.283 8X2Z
0.285 6963
13
1424639.3
36 Z9.I0
7.3
1 50 45.9
3.46
0.2207007
0.287 5630
0.289 4Z22
15
143 39 16.5
36l8«I3
8.9
z 50 38.2
4.33
0.220 8342
0.29Z 2440
0.293 0583
17
144 31 51.8
3617.33
10.5
z 50 29.0
5.0X
a 220 9574
0.294 8552
0.296 6348
19
145 24 25.4
36x6.40
Z2.Z
z 50 z8.2
5.78
0.22Z 0703
0.298 3970
a3oo Z4Z8
21
1461657.4
36 15.65
-13.7
+1 50 5.9
-6.SS
0.22Z Z729
0.30Z 8694
0.303 5800
23
147 9 28.0
36x4.97
15.3
z 49 52.0
7.33
0.22Z 2651
0.305 2737
0.3069507
25
148 157-3
36 X4.37
Z6.9
z 49 36.6
8.08
0.22 z 3470
0.308 61 IX
0.3x0 2547
27
1485425.5
36 X3.84
Z8.4
1 49 19.7
8.84
0.22Z 4186
0.3ZI 8819
0.3134932
29
149 46 52.7
36 13.39
20.0
1 49 1.3
9.59
0.22Z 4798
0.315 0885
a 3x6 6679
31
1503919.1
36 13.01
-2Z.5
+1 48 41.3
-10.35
0.22Z 5306
0.3x8 23Z7
0.3197799
June 2
151 31 44-8
3612.68
23.0
z 48 19.8
ZI.ZZ
0.22Z 5710
0.321 3Z27
0.322 8301
4
15224 9.9
36 X3.44
24.5
z 47 56.8
IZ.86
0.22Z 6OZZ
0.324 3323
0.325 8z94
6
153 16 34.6
36X3.3X
25.9
1 47 32.4
X3.6X
0.22Z 6208
0.327 29x4
0.328 7483
8
154 859.2
36x3.25
27.3
1 47 6.4
13.36
0.22Z 6301
0.330 X903
0.33X 6176
zo
155 123.7
36x3.34
-28.7
+z 46 38.9
—14. 1 1
0.22Z 629 Z
0.3330300
0.334 4275
12
155 53 48.2
36 13.30
30.1
z 46 9.9
14.85
0.22X 6X77
0.335 8x03
0.3371782
14
15646 12.9
36x3.44
31.4
1 45 39.5
X5.58
0.22Z 5959
0.3385313
0.3398697
i6
157 38 38.0
36x2.66
32.7
145 7-6
16.33
0.22 z 5637
0.341 1933
0.342 5023
z8
Z583Z 3.6
86 12.96
34.0
1 44 34.2
17.06
0.221 52ZZ
0.343 7965
0.345 076Z
20
159 23 29.9
36 X3.33
-35.3
+1 43 59-4
-17.79
0.22 z 468 Z
0.346 3412
0.347 5918
22
160 15 56.9
86 13.76
36.5
14323.1
X8.53
0.221 4048
0.348 828Z
0.3500502
24
z6i 8 24.9
86 14. 38
37-7
1 4245.3
19.24
0.22Z 33Z2
0.35Z 2582
0.3524523
26
162 0 54.0
86 14.87
38.9
z 42 6.Z
X9.97
0.22Z 2472
0.3536326
0.3547993
28
162 53 24.4
86 X5.54
40.0
I 41 25.4
30.69
0.22X 1528
0.3559524
0.357 092 z
30
163 45 56.2
86 16.29
— 41.Z
+1 40 43.3
—31.40
0.22Z 0481
0.358 2Z84
0.359 3315
July 2
164 38 29.6
86 17. XO
-42.1
+1 39 59.8
— 23.X3
0. 2 20 933 Z
0.3604315
0.36Z 5Z84
[Eph 12]
192 HELIOCENTRIC CO-ORDINATES, 1912.
MARS.
GREENWICH MEAN NOON.
TX^A.^
Heliocentric
Longitude,
MeaniKqoinox
of Date.
Daily
Motion.
Reduction
toOrbiL
Heliocentric
Latitude.
Daily
Motion.
Logarithm of
Radius Vec-
tor.
Logarithm of Distance from
Earth—
Date.
At Date.
At Interme-
diate Date.
e f »
« n
II
9 1 II
$1
July 2
164 38 29.6
26 17. ZO
— 42.Z
+z 39 59.8
— 3a.X3
0.220 933Z
0.36043x5
0.36Z 5x84
4
165 31 4.7
26x7.98
43.1
z 39 14.8
32.83
0.220 8078
0.362 5922
0.3636530
6
166 23 41.6
26 18.9s
44.1
z 38 28.5
a3.54
0.220 6722
0.3647009
0.365 7359
8
167 16 20.5
26x9.99
45.0
1 37 40.7
34.35
0.220 5263
0.366 758X
0.3677674
lO
168 9 Z.6
26ax.xz
45-9
I 36 51.5
24.95
0.220 3701
0.3687638
0.369 7474
12
169 Z44.9
2622.30
-46.7
+z 36 a9
-35.65
0.220 2037
0.370 7x8x
0.371 6759
14
169 54 30.7
3623.56
47-5
135 8.9
36.34
0.2200271
0.3726209
0.3735529
i6
Z70 47 Z9.2
2624.90
48.3
I 34 15.5
37.03
0.219 8403
0.374 4720
0.375 3785
z8
171 40 Z0.4
26 26*33
49.0
z 33 20.7
27.73
0.2196433
0.3762722
0.377 1530
20
17233 4-5
26 Z2»9o
49.6
z 32 24.6
38.4X
0.2194362
a 378 0212
0.378 8769
22
173 26 z.6
2629.37
—50.2
+z 31 27. z
-39.09
0.2x9 2190
0.3797202
0.38055x2
24
174 Z9 2.0
26 3X.OI
50.8
z 30 28.2
49.77
0.21899x6
0.381 3699
0.382 Z765
26
17512 5.7
2632.73
51.3
z 29 28.0
30-45
0.2x87541
0.38297x1
0.383 7539
28
176 5 Z2.9
2634.53
5Z.8
z 28 26.4
31.13
o.2z8 5066
0.384 5249
0.385 284 X
30
176 58 23.8
2636.39
52.2
I 27 23.5
31.79
0.2 z8 2491
0.3860316
0.3867674
Aug. I
177 51 38.5
9638.32
-52.6
+z 26 19.2
-38.45
0.2x798x6
0.387 4915
0.388 204 z
3
178 44 57.2
3640.34
52.9
z 25 Z3.6
33.11
0.217 7042
0. 388 9053
0.389 5951
5
179 38 Z9.9
9643.44
53.2
z 24 6.8
33.77
0.2x7 4168
0.3902735
0.390 9404
7
z8o 31 46.9
3644.6Z
53.4
z 22 58.6
34.43
a2X7 XZ96
0.391 5958
0.392 2398
9
181 25 Z8.4
3646.86
53.6
z 2Z 49.Z
35.08
o.2z6 8z25
0.3928724
0.393 4935
ZI
182 18 54.4
9649.18
-53.7
+1 '20 38.3
-35.7*
0.2164956
0.394 1030
0.3947009
13
183 12 35.1
2651.57
53.8
z 19 26.2
36.36
0.216 X690
0.3952873
0.395 862 X
15
184 620.7
2654.04
53.8
z z8 12.8
36.99
0.2x5 8327
0.3964254
0.3969773
17
185 0 IZ.3
2656^59
53.8
z 16 58.2
37.6a
0.2x5 4867
0.397 5177
0.398 0468
19
18554 7-1
9659.31
53.7
1 15 42.3
38.95
0.2x5 131Z
0.398 5646
0.3990713
21
18648 8.2
27 i.9«
-53.5
+1 Z4 25.2
—38.87
0.2x4 7659
0.399 5670
0.400 05x7
23
187 42 Z4.8
a? 4.69
53-3
ZZ3 6.9
39.48
0.214 3912
0.400 5255
0.400 9885
25
188 36 27.0
«7 7.54
53.1
ZIZ47.3
40.09
a 2x4 0070
0.401 4407
Ob4ox 8822
27
189 30 45.0
37ia46
52.8
z ZO 26.5
40.69
0.2x36x34
0.402 31 3Z
0.4027334
29
19025 8.9
a? 13.46
52.4
1 9 4-5
41.39
0.2x3 2x05
0.403 1433
0.403 5427
31
Z91 19 38.9
3716.54
—52.0
+1 741.4
-41.89
0.2Z2 7982
0.403 9317
a404 3x02
Sept. 2
192 14 15.Z
9719.70
51-5
1 6Z7.0
43.48
a2i2 3767
0.404 6783
0.405 0360
4
193 857.7
3733.93
5Z.0
1 451.4
43.07
a2xi 9460
0.405 3834
0.405 7204
6
194 346.8
3796.34
50-4
z 324.7
43.64
0.211 5063
0.406 0470
0.406 363Z
8
194 58 42.6
«7fl9*6s
49.8
z Z56.9
44.91
a2iz 0575
a4o6 6687
0.406 9638
10
195 53 45.3
3733.07
-49.1
+1 0 27.9
-44.78
0.210 5997
0.407 2484
a407 5223
Z2
196 48 54.9
87 36^60
48.4
0 58 57.7
45.33
0.2x0x330
a 407 7856
0.408 0383
14
197441Z.7
87 4a3i
47.6
0 57 26.5
45.88
0.2096575
0.408 2807
0.408 5x27
z6
X98 39 35.8
«7 43.90
46.8
0 55 54-2
46.43
0.209 1732
©•408 7343
0.408 9456
z8
19935 7-3
3747.66
45*9
0 54 20.8
46.97
0.2086803
0.409 Z467
0.409 3377
20
200 30 46.4
«7 51.49
-45.0
+0 52 46.3
-47.50
0.208 X788
0.409 5187
a4096897
22
20Z 26 33.3
•755.39
44.0
0 51 Z0.8
48.02
0.2076688
0.409 8509
0.4100023
24
202 22 28.1
a7 59.37
43.0
04934-3
48.53
0.207 X504
0.410 Z439
0.4x02758
26
203 18 30.8
s8 3.43
41.9
04756.7
49.04
0.206 6236
0.410 3980
0.4x05x06
28
204 Z4 41.7
98 7.56
4a8
046 z8.i
49.54
0.206 0886
0.4Z06X36
a4Z0 707z
30
205 ZZ z.o
8811.76
-39.6
+04438.5
-50.0s
©•205 5435
a4X0 79zx
0.4108656
Oct. 2
206 728.8
9816.04
-38.4
•fo 42 58.0
[Eph
-30.51
12)
0.2049943
0.410 9305
0.4x09859
HELIOCENTRIC CO-ORDINATES, 1912. 193
MARS.
GREENWICH MEAN NOON.
Date.
Heliocentric
Longitude,
Mean Squinoz
of Date.
Daily
Motion.
Reduction
to Orbit.
Heliocentric
Latitade.
Daily
Motion.
Logarithm of
Radios Vec-
tor.
Logarithm of Distance from
Earth—
At Date.
At Interme-
diate Date.
0 t M
» H
w
0 , n
t
Oct. 2
206 728.8
98 16.04
-38.4
+0 42 58.0
-50.51
0.2049943
0.410 9305
0.4109859
4
207 4 5.2
3830.40
37-1
0 41 16.5
50.98
0.2044352
O.411 0318
0.41 1 0681
6
208 050.4
3834.83
35.8
03934.1
5«.45
0.203 8682
0.4 1 1 0948
0.411 1118
8
208 57 44.5
3839.33
34-5
0 37 50.7
51.91
0.203 2936
0.41 1 1 192
0.41 1 1 169
10
209 54 47-7
3833.89
33.1
0 36 6.4
53.35
0.202 71 14
0.41 I 1049
0.4 1 1 0832
Z2
21052 0.1
38 38.53
-31-7
+03421.3
-53.78
0.202 1 2 16
0.41 I 0519
0.411 Olio
14
211 4921.9
38 43.35
30.2
0 32 35.3
53-31
0.201 5244
0.410 9605
0.4109006
i6
212 46 53.1
3848.04
28.7
0 30 48.4
53.63
0.200 9200
0.410 8313
0.410 7527
i8
2I3 44 34-0
3853.90
27.1
0 29 0.7
54«03
0.200 3084
0.410 6648
0.410 5677
20
214 42 24.7
38 57.83
25.5
0 27 12.3
54.43
0.1996898
0.410 4615
0.410 3464
22
2154025.4
39 3.83
-23.9
+0 25 23.1
-54.80
0. 199 0643
0.410 2223
0.4100894
24
216 38 36.1
39 7.90
22.3
0 23 33.1
55.17
0.198 4321
0.409 9476
0.409 7971
26
217 36 57.0
3913.04
20.6
0 21 42.4
55-53
0.1977933
0.409 6379
0.409 4701
28
218 35 28.3
3918.34
18.9
0 19 51.0
35.88
0.197 1480
0.409 2937
0.409 1086
30
219 34 10.0
39 23.51
17.2
0 17 58.9
56.31
0.1964963
0.408 9148
0.4087125
Nov. I
220 33 2.3
39 38.85
-15.4
+0 16 6.1
-56.53
0.1958384
0.408 5016
0.408 2820
3
221 32 5.4
3934.36
13.7
0 14 12.7
56.84
0.195 1745
0.408 0537
0.407 8167
5
222 31 19.4
39 39.73
1 1.9
0 12 18.7
57.13
0.1945048
0.407 5709
0.407 3165
7
223 30 44-4
3945.37
10.0
0 10 24.2
57.41
0.1938293
0.407 0533
0.406 7814
9
224 30 20.5
3950.88
8.2
0 8 29.1
57.68
0.193 1483
0.406 5008
0.406 2116
II
22530 7-9
3956.55
-6.3
+0 633.5
-57.93
0.192 4619
0.405 9137
0.405 6073
13
226 30 6.7
30 3.38
4-5
0 4 37-4
58.16
0.191 7703
0.405 2925
0.404 9694
15
227 30 17.0
30 8.06
2.6
0 2 40.8
58.39
0.191 0736
0.404 6380
0.404 2982
17
228 30 39.0
30 13.91
- 0.7
+0 0 43.8
58.59
0.190 3721
0.403 9503
0.403 5944
19
22931 12.7
30 19.83
+ 1.2
-0 I 13-5
58.78
0.1896659
0.403 2305
0.402 8587
21
230 31 58.3
30 35.79
+ 3.1
-0 3 II. 2
-58.95
0.1889553
0.402 4791
0.402 0918
23
231 32 55-9
30 31.81
5.0
0 5 9.3
59."
0.188 2403
0.401 6968
0.461 2942
25
23234 5-6
30 37.88
6.9
0 7 7.7
59.36
0.187 5212
0.400 8841
0.400 4666
27
233 35 27-5
3044.03
8.8
0 9 6.3
59.37
0.1867982
0.400 0416
0.399 6091
29
23437 1.7
30 50.33
10.7
0 II 5.2
59-47
0.1860716
0.399 1692
0,398 7218
Dec. I
235 38 48.4
30 56.49
+12.6
-0 13 4.2
-59.55
0.185 3414
0.398 2669
0.397 8044
3
236 40 47.6
31 3.77
14.5
015 3.4
59-61
0.184 6080
0-397 3344
0.396 8568
5
237 42 59-4
31 9.09
16.4
0 17 2.7
59.65
0.183 8715
0.396 3718
0.395 8793
7
238 45 23.9
31 15.47
18.2
0 19 2.0
59.67
0.183 1323
0.395 3794
0.394 8720
9
23948 1.3
31 31.91
20.0
021 1.3
59.68
0.182 3904
0.394 3572
0-393 8352
II
240 50 51.6
31 28,38
+21.8
—0 23 0.7
-59.67
0.18 1 6461
0.393 3059
0.392 7694
13
241 53 54-8
31 34.89
23.6
0 25 0.0
59.64
0.1808998
0.392 2258
0.391 6752
15
242 57 1 1. 1
31 41.45
25.4
0 26 59.2
59.58
0.180 1516
0.391 1 178
0.390 5536
n
244 0 40.6
31 48.05
27.1
028 58.3
59*49
0.179 4017
0.389 9827
0.389 4052
19
245 423-4
3154.68
28.8
0 30 57.2
59.39
0.178 6504
0.388 8213
0.388 2310
21
246 8 19.4
33 1.35
+30.5
-0 32 55-9
—59.36
a 1 77 8980
0.387 6344
0.387 0317
23
247 12 28.8
33 8.05
32.1
0 34 54.3
59."
0.177 1447
0.386 4228
0.3858078
25
248 16 51.6
33 14.78
33.7
0 36 52.3
58.94
0.1763908
0.385 1868
0.384 5599
27
249 21 27.9
33 31.53
35.3
0 38 50.0
58.74
0.1756366
0.383 9270
0.383 2881
29
250 26 17.8
33 38.31
36.8
0 40 47.3
58.53
0.1748823
0.382 6433
0.381 9925
31
251 31 21.2
3335."
+38.2
—0 42 44.1
-58.38
0.174 1282
0.381 3358
0.380 6732
33
252 36 38.2
33 4Z-94
+39.6
—0 44 40.4
—58.01
0. 173 3745
0.380 0046
0.379 3300
I9I2-
13
[Eph 12]
194 HELIOCENTRIC CO-ORDINATES, 1912.
JUPITER.
GREENWICH MEAN NOON.
Logarithm of Distance from
TN»
te.
Heliocentric
Longitude,
Mean Equinox
of Date.
Daily
Motion.
Redaction
to Orbit.
Heliocentric
Latitude.
Daily
Motion.
Logarithm of
Radius Vec-
tor.
Earth—
Da
At Date.
At Intermedi-
ate Date.
o # «
» If
M
0 1 M
»
Jan.
o
238 31 24.2
4 40-44
-26.6
+0 51 32.7
-4.84
0.730 0995
0.789 2507
0.787 9005
4
23850 6.1
4 40-5S
26.6
0 51 13-3
4.86
a730 0i52
0.786 4946
0.785 0332
8
239 848.5
440.66
26.5
0 50 53.8
4.88
0.729 9304
0.783 5168
0.781 9457
12
239 27 31-4
440.77
26.5
0 50 34.2
4.91
0.7298451
0.780 3201
0.778 6405
i6
239 46 14.7
440.88
26.4
0 50 14.5
4-93
0.729 7594
0.776 9075
0.775 1218
20
240 458.4
440.99
—26.4
+0 49 54.8
-4.96
0.729 6733
0.773 2843
0.771 3957
24
240 23 42.6
441.10
26.3
0 49 35.0
4-98
0.729 5867
0.769 4571
0.767 4695
28
24042 27.3
4 41.23
26.2
0 49 15.0
S.OX
0.729 4996
0.765 4341
0.763 3520
Feb.
I
241 I 12.4
4 41.33
26.2
0 48 54.9
5.03
a729 4i2i
0.761 2243
0.7590519
5
241 19 57-9
4 41.44
26.1
0 48 34.7
5.06
0.729 3242
0.756 8358
0.754 5770
9
2413843-8
4 41.5s
-26.1
+0 48 14.4
-5«o8
0.7292358
0.752 2765
0.749 9356
13
241 57 30.3
441.66
26.0
0 47 54.1
5.X0
0.729 1470
0.747 5557
0.7451383
17
242 16 17.2
4 41.78
25-9
0 47 33-7
5.12
0.7290577
0.742 6851
0.740 1979
21
24235 4-5
441.89
25.8
047 13.2
5.15
0.728 9680
0.737 6786
0.735 1294
25
242 53 52.3
4 4«-ox
25.8
0 46 52.5
5.17
0.728 8779
0-732 5523
0.729 9495
29
243 12 40.6
4 4«-i3
-25.7
+0 46 31.8
—5.20
0.728 7873
0.727 3231
0.724 6752
Mar.
4
243 31 29.4
4 4a.a5
25.6
0 46 II.O
S.22
0.728 6963
0.722 0078
0.719 3231
8
243 50 18.6
4 4«-36
25.5
04550.1
5-24
0.728 6048
0.7166233
0.7x39108
12
244 9 8.3
442.48
25.4
04529.1
5.26
0.728 5129
0.7 1.1 1885
0,708 4592
i6
244 27 58.5
442.60
25-3
0 45 8.0
3.28
0.728 4207
0.705 7258
0.702 9915
20
2444649.2
4 4a.7a
—25.2
+0 44 46.8
-5»30
0.728 3280
0.700 2597
0-697 5339
24
245 540-3
442.84
25.1
0 44 25.6
5.33
0.728 2349
0.694 8177
0.692 1 144
28
245 24 31.9
442.96
25.0
044 4-3
5.35
0.728 14 1 4
0.689 4276
0.686 7608
Apr.
I
245 43 24.0
443.08
24.9
0 43 42.8
5.37
0.728 0474
0.684 1 173
0.681 5008
5
246 2 16.6
4 43.ai
24.8
043 21.2
5.39
0.727 9530
0.678 9147
0.676 3629
9
246 21 9.7
443.34
-24.6
+0 42 59.6
-5.42
0.727 8582
0.673 8493
0.671 3783
13
24640 3.2
4 43.46
24-5
0 42 37.9
5*44
0.727 7630
0.668 9540
0.666 5806
17
246 58 57-3
4 43.58
24-4
042 16.1
5.46
0.727 6675
0.664 2626
0.662 0044
21
247 17 51-9
443.70
24-3
0 41 54.2
5.48
0-727 5715
0.659 8102
0.657 6844
25
247 36 46.9
4 43.83
24.2
0 41 32.3
5.50
0-727 4751
0.655 6309
0.653 6536
29
247 55 12.5
443.96
—24.0
+041 ia3
-5.52
0.727 3783
0.631 7560
0.6499417
May
3
248 14 38.6
444.08
23-9
0 40 48. 1
5.55
0.727 2812
0.648 2144
0.646 5775
7
248 33 35-2
4 44.ax
23.8
0 40 25.8
5.57
0.727 1836
0.645 0345
0.643 5891
II
248 52 32.2
4 44.33
23.6
040 3.5
5.59
0.727 0856
0.642 2446
0.641 004X
15
249 II 29.8
4 44.46
23-5
03941.1
S.6x
0.7269873
0.639 8708
0.638 8476
19
249 30 27.9
4 44.59
-23.3
-K) 39 18.7
-5.63
0.726 8886
0.637 9367
0.637 1403
23
2494926.5
4 44.7a
23.2
0 38 56.1
5.65
0.726 7895
0.636 4599
0.635 8968
27
250 8 25.7
444.85
23.0
0 38 33-5
5.67
0.726 6900
0.6354518
0.635 1255
31
250 27 25.4
444.98
22.9
0 38 10.8
5.69
0.726 5902
0.634 9184
0.634 8308
June
4
2504625.5
445.XI
22.7
0 37 48.0
5-7*
0.726 4899
0.634 8629
0.635 0144
8
251 5 26.2
4 45. 24
-22.6
+0 37 25. 1
-5.73
0.726 3893
0.635 2851
0.635 6742
12
251 24 27.4
4 45-37
22.4
0 37 2.2
5.75
0.726 2883
0.636 1808
0.636 8036
i6
251 43 29.2
4 45.50
22.2
0 36 39.2
5.77
0.726 1870
0.637 5410
0.638 3909
20
252 231.5
4 45.63
22.0
0 36 16. 1
5.79
0.7260853
0.639 3506
0.6404172
24
252 21 34.3
445.77
21.9
0 35 52.9
5.8Z
0.7259832
a64i 5878
0.642 8592
28
252 40 37-7
445.90
-21.7
+0 35 29.6
-5.83
0.725 8808
0.644 2281
0.6456915
July
2
2525941.6
446.04
-21.5
+0 35 6.2
-5.85
0.725 7780
0.647 2459
0.648 8880
[Eph 12]
HELIOCENTRIC CO-ORDINATES, 1912. 195
JUPITER.
GREENWICH MEAN NOON.
H eliocentric
Logarithm of Distance from
n«*M
Longitude,
MeanEqainoz
of Date.
Dttily
Motion.
Reduction
to Orbit
Heliocentric
Latitude.
Dally
Motion.
Logarithm of
Radius Vec-
tor.
Earth—
M^mWm
At Date.
A.t Intermedi-
ate Date.
• » »
f H
w
Of H
M
July 2
2525941.6
446.04
-2Z.5
+035 6.2
-5.85
0.725 7780
0.647 2459
0.648 8880
6
253 x8 46.0
446.17
21.3
0 34 42.8
5.87
0.725 6749
0.650 6x43
0.652 42ZZ
xo
253 37 5I-0
446.31
2Z.2
0 34 Z9.3
5.89
0.725 5714
0.654 3049
0.656 262 Z
M
253 56 56-5
446.43
2Z.0
0 33 55.8
5.90
0.725 46)6
0.658 2885
0.660 3797
i8
254 16 2.5
446.58
20.8
0 33 32.2
5.9a
0.725 3635
a662 5317
0.664 740X
22
25435 9-1
446.7a
—20.6
+033 8.4
-5.94
0.725 2590
a667 0004
a 669 3086
26
254 54 i«-3
446.86
2a 4
0 32 44.6
5.96
0.725 1542
a67i 6607
0.674 0528
30
255^324.0
447.00
2a 2
0 32 2a8
5.97
0.725 0490
a676 48ii
0.678 9422
Aug. 3
255 32 32.3
4 47«H
2ao
0 3x 56.9
S.99
0.724 9435
o.68x 4327
0.683 9489
7
2555Z41.Z
4 47.a8
Z9.8
0 3x 32.8
6.0X
0.724 8376
0.686 4873
0.689 0447
IZ
256 zo 50.5
447.4a
— Z9.6
+0 3Z 8.7
—6.03
a724 73x4
a69i 6x77
0.694 2028
15
25630 0.4
447-56
Z9.4
0 30 44*6
6.04
0.724 6250
0.696 7963
0.699 3949
19
256 49 Z0.9
447.70
Z9.2
0 30 20.4
6.06
0.724 5182
0.70X 9952
0.704 5943
23
257 8 22.0
447.84
19.0
0 29 56.x
6.08
0.724 41 Z I
0.707 X895
0.709 7781
27
257 27 33.7
447-98
z8.8
0 29 3Z.8
6.10
0.724 3037
0.712 3577
0.714 9259
31
257 46 45.9
4 48.xa
-z8.6
+029 7.4
—6.11
a724 X959
0.717 4806
0.720 0196
Sept. 4
258 558.7
448.26
Z8.3
0 28 42.9
6.13
0.724 0878
0.722 5406
a725 04x6
8
25S 25 12.0
448.40
z8.z
0 28 Z8.3
6.15
0.723 9795
a727 5206
0.729 9754
12
258 44 25.9
448.55
17.9
0 27 53.7
6.Z6
0.723 8709
0.732 4038
0.734 8037
z6
259 340-4
448.69
Z7.7
0 27 29.0
6.X8
0.723 7619
0.737 X731
0.739 5103
20
259 22 55.5
448.84
-X7.4
+027 4.3
—6.19
0.723 6527
0.74X 8x40
0.744 0827
24
25942 XI.2
448.98
Z7.2
0 26 39^5
6.2Z
0.723 5432
0.7463150
0.748 5097
28
260 z 27.4
449.X3
Z7.0
0 26 Z4«6
6.22
0.723 4334
0.750 6658
0.752 7822
Oct. 2
260 20 44.2
4 49.a8
Z6.7
0 25 49.7
6.24
0.723 3232
0.754 8578
0.75689x5
6
260 40 Z.6
4 49-4a
Z6.5
0 25 24.7
6.26
a723 2x28
0.758 88x9
0.760 8280
10
260 59 Z9.6
449.57
-X6.3
+0 24 59.6
—6.27
a723 I02X
0.762 7285
0.764 5824
14
26Z z8 38.2
449.7a
z6.o
0 24 34.5
6.2B
a722 99Xi
0.766 3885
a768 X459
z8
26z 37 57.3
449.86
15.8
024 9.4
6.30
0.722 8799
0.769 8539
0.77X 51x7
22
26Z 57 X7.0
450.01
15.5
0 23 44.Z
6.32
0.722 7684
0.773 1x88
0.774 6749
26
262 z 6 37.4
450.16
15.3
0 23 z8.8
6.33
0.722 6566
0.776 1793
0.777 6315
30
262 35 58.4
450.31
-X5.0
+0 22 53-5
-6.34
0.722 5446
0.77903"
0.780 3776
Nov. 3
262 55 Z9.9
450.46
Z4.8
0 22 28. z
6.36
0.722 4323
a78x 670X
0.782 9080
7
263 14 42.0
450.61
14-5
0 22 2.6
6.37
0.722 3197
0.784 0908
a785 2177
zz
26334 4.8
450.76
14-3
021 37.x
6.38
0.722 2069
0.786 288Z
0.787 3016
15
263 53 28.2
450.91
Z4.0
0 2Z ZZ.6
6.40
0.722 0938
0.788 2579
a789 1566
19
264 Z2 52. Z
451.06
-13.7
+0 20 46.0
-6.41
0.72X 9805
0.789 9977
0.790 781 X
23
264 32 z6.6
4 5x.ai
13.5
0 20 20.3
6.42
0.721 8669
0.79Z 5065
0.792 1738
27
264 5Z 4Z.8
45X.36
Z3.2
0 19 54.6
6.44
0.721 7531
a792 7828
0.793 3333
Dec. I
265 zz 7.6
4 51.5a
Z3.0
0 19 28.8
6.45
0.721 6391
0.793 825Z
0.794 2576
5
265 30 33.9
4 51.^
Z2.7
0 Z9 3.0
6.46
a72X 5248
0.794 6305
0.794 9434
9
26550 0.9
451.8a
— Z2.4
+0 18 37. z
-6.48
a72X 4x03
0.795 i960
a795 3882
13
266 928.5
451.97
Z2.Z
0 x8 II. z
6.49
0.721 2955
0.79s 5200
0.795 5915
17
266 28 56.7
452-13
ZZ.9
0 17 45.x
6.50
a72x X805
0.795 6027
0.795 5535
2Z
266 48 25.6
4 5a.a8
ZZ.6
0 17 X9.1
6.51
0.72X 0654
0.795 4442
0.795 2749
25
267 755.1
452.44
".3
0 16 53.x
6.52
a72o 9500
0.795 0456
0.794 7564
29
267 27 25. 1
4 5a. 59
— zz.o
+0 16 27.0
-6.54
0.720 8344
0.794 4072
0.793 9978
33
267 46 55.8
452.75
-X0.8
+0 16 0.8
-6.55
0.720 7186
0.793 5280
0.792 9977
[Eph za]
196 HELIOCENTRIC CO-ORDINATES, 1912.
SATURN.
GREENWICH MEAN NOON.
Date.
Heliocentric
Longitude,
Mean Equinox
of Date.
Daily
Motion.
Reduction
to Orbit.
Heliocentric
Latitude.
Daily
Motion.
Logarithm of
Radius Vec-
tor.
Logarithm of Distance from
Earth—
A.t Date.
At Intermedi>
ate Date.
e * H
f n
• n
Of r>
n
Jan.
o
48 35 45.6
2 IZ.06
—I 16.2
-2 14 45.8
+2.46
0.960 9583
0.931 6486
0.933 0498
4
48 44 29.9
a X1.08
I 16.6
2 14 35-9
2.48
0.960 9z86
0.934 4793
0.935 9348
8
48 53 14-3
2 ZX.IO
I 16.9
2 14 25.9
2.49
0.960 8789
0.937 4139
0.9389149
12
49 I 58.8
2 zr.x3
I 17.2
2 14 15-9
3.50
0.960 8393
0.940 4357
0.941 9740
i6
49 10 43-4
2 ZX.XS
I 17.5
2 14 5-9
2.52
0.960 7999
0.943 5274
0.945 0936
20
49 19 28.0
2XX.X7
-I 17.8
-2 Z3 55.8
•H.53
0.9607606
0.946 6705
0.948 2558
24
49 28 12.8
a xx.ao
I 18. I
2 13 45-6
2.55
0.9607214
0.949 8473
0.951 4427
28
49 36 57-6
a xx.a2
I 18.4
2 13 35-4
2.56
0.960 6823
0.953 0399
0.954 6368
Feb
I
49 45 42.5
2 XZ.24
I 18.7
2 13 25.1
a. 57
0.960 6433
0.956 2317
0.957 8230
5
49 54 27-6
21X.27
I 18.9
2 13 14.8
a. 59
0.960 6045
0.959 4088
0.9609875
9
50 312.7
axi.29
—I 19.2
-2Z3 4.4
+2.60
0.960 5658
0.962 5573
0.964 1167
13
501157.9
a X1.3Z
I 19.5
2 12 54.0
2.6x
0.960 5272
0.965 6640
0.967 1974
17
50 20 43.2
2x1.34
I 19.8
2 12 43.5
2.62
0.960 4887
0.968 7155
0.970 2165
21
50 29 28.6
2 11.36
I 20.1
2 Z2 33.0
2.64
0.960 4503
0.971 6991
0.973 1616
25
50 38 14.0
2 1Z.38
I 20.4
2 12 22.4
2.6s
0.960 4120
0.974 6027
0.9760212
29
50 46 59.6
2 ZX.4X
—I 20.7
—2 12 1 1.8
+2.67
0.960 3738
0.977 4159
0.978 7858
Mar
. 4
505545-3
2 X1.43
I 21.0
2 12 I.I
2.68
0.960 3357
0.980 1299
0.981 4473
8
51 4 3I-I
2 11.45
I 21.3
2 II 50-3
2.69
0.960 2977
0.982 7370
0.9839981
12
51 13 16.9
2 XX.48
I 21.6
2 II 39.5
2.70
0.960 2599
0.985 2296
0.986 4305
i6
51 22 2.9
2 ix.so
Z 21.8
2 II 28.7
2.72
0.960 2221
0.987 5999
0.988 7369
20
51 30 48.9
2 11.52
—I 22.1
-2 II 17.8
+a.73
0.960 1844
0.989 8407
0.990 9105
24
51 39 35-0
a 11.54
z 22.4
2 II 6.8
a. 75
0.960 1468
0.991 9456
0.9929453
28
51 48 21.2
a X1.S6
I 22.6
2 10 55.8
2.76
0.960 1094
0.993 9091
0.994 8367
Apr.
z
5157 7-5
a XX.58
I 22.9
2 10 44.8
a. 77
0.960 0721
0.995 7275
0.996 581a
5
52 5 53-9
2 xi.6x
I 23.1
2 10 33.7
2.78
0.960 0350
0.997 3974
0.998 1757
9
52 14 40.4
2XX.63
-I 23.4
-2 10 22.5
+2.80
0.959 9979
0.9989157
0.999 6169
13
52 23 27.0
2ft.65
Z23.6
2 10 It.3
2.8z
0.959 9609
1. 000 2788
1. 000 9011
17
52 32 13.6
2X1.68
123.9
2 10 ObO
2.82
0.959 9240
i.ooi 4833
1.002 0251
2T
5241 0.4
2 11.70
z 24.2
2 948.7
2.84
0.959 8872
I.002 5263
1.002 9867
25
52 49 47-2
2x1.72
124.4
2 937.3
2.85
0.959 8506
1.003 4061
1.003 7846
29
52 58 34-1
2 IX.74
-z 24.6
-2 925.9
+2.87
0.959 8141
1.004 1222
1.0044189
May
3
53 721.1
2IZ.76
124.9
2 914-4
2.88
0.959 7778
1.004 6746
1.004 8892
7
53 16 8.2
2 ZX.78
Z25.1
2 9 2.8
2.89
0.959 7416
1.005 0624
1.005 1942
II
53 24 55-4
2 xx.8x
125.3
2 8 51.2
2.90
0.959 7054
1.005 2845
I-005 3334
15
53 33 42-7
a 11.8s
125.6
2 8 39.6
S.9X
0.959 6693
1.005 3407
1.005 3063
19
53 42 30.1
a 11.85
-1 25.8
-2 8 28.0
+a.93
0.9596333
1.005 2303
1.005 1 128
23
53 51 17-5
a ZX.87
z 26.1
2 8 16.2
2.94
0.959 5975
1.0049541
1.004 7543
27
54 0 5-0
211.89
Z25.3
2 8 4.4
2.96
0.959 5618
1.004 5136
1.004 2324
31
54 852.6
2 11.91
Z26.6
2 752.5
a.97
0.959 5262
1.0039109
1-003 5493
June
4
541740-3
2 11.93
126.8
2 7 40.6
2.98
0-959 4908
1.003 1476
1.002 7059
8
54 26 28. z
2 11.96
—I 27. z
—2 7 28.7
+a.99
0.959 4554
1.002 2245
1.001 7035
12
54 35 16.0
2 1X.98
127.3
2 7 16.7
S.OZ
0.959 4201
I.OOI 1431
1.000 5435
i6
54 44 3.9
2 12.00
127.5
2 7 4.6
3.02
0.959 3849
0.999 9050
0.999 2280
20
54 52 51-9
2 1S.02
Z27.7
2 6 52.5
3.03
0.959 3498
0.998 5I3I
0.997 7607
24
55 M0.1
21S.O4
127.9
2 640.3
3.04
0.959 3149
0.9969713
0.996 1456
28
55 1028.3
axa.06
-I 28.1
—2 6 28.1
4-3.06
0.959 2801
0.995 2839
0.994 3867
July
2
55 19 16.5
a 12.08
-1 28.3
-2 6 Z5.9
+3.07
0.959 2455
0.993 4544 ,
0.99a 4874
[Eph 12]
HELIOCENTRIC CO-ORDINATES, 1912. 197
SATURN.
GREENWICH MEAN NOON.
Heliocentric
Logarithm of Distance from
Date
4P ^ ^^ V ^ ^^ ^^ ^^ ^i^ ^ ^ ^ ^^
Longitude,
Mean Equinox
of Date.
Daily
Motion.
Reduction
to Orbit.
Heliocentric
Latitude.
Daily
Motion.
Logarithm of
Radius Vec-
tor.
Earth—
A^Vik%^«
At Date.
At Intermedi-
ate Date.
0 t H
• »
• *•
e f ••
w
July 2
55 19 16.5
9 X3.08
-I 28.3
-2 6 15.9
+3.07
0.959 2455
0.993 4544
0.992 4874
6
5528 4.8
3 12. 10
128.5
2 6 3.6
3.09
0.959 2 1 12
0.991 4863
0.9904515
lO
55 36 53-3
2 12.12
128.7
2 551-2
3.Z0
0.959 1769
0.989 3833
0.988 2825
14
55 45 41-8
2 12.14
I 28.9
2 538.8
3.XX
0.959 1426
0.987 1498
0.985 9859
i8
55 54 30.4
3 12. j6
I 29.1
2 5 26.3
3.13
0.959 1084
0.984 7916
0.983 5680
22
56 319-1
3 13. Z8
-129.3
-2 5 13.8
+3.14
0.959 0744
0.982 3160
0.981 0364
26
56 12 7.9
3 X2.20
129.5
2 5 1.2
3.15
0.959 0404
0.979 7300
0.978 3978
30
56 20 56.7
3 12.32
129.7
2 4 48.6
3.16
0.959 0066
0.977 0406
0.975 6593
Aug. 3
56 29 45.7
3 12.24
129.9
2 4 35-9
3-x8
0.958 9729
0.974 2549
0.972 8283
7
56 38 34.7
3 12.26
I 30-1
2 4 23.2
3.Z9
0.958 9394
0.971 3805
0.969 9125
II
56 47 23.8
3 12.28
-I 30.3
-2 4 10.4
+3.80
0.958 9059
0.968 4256
0.9669212
15
565613.0
3 X2.30
130.5
2 3 57-6
3.21
0.958 8726
0.965 4008
0.963 8657
19
57 5 2.2
3 12.32
130.7
2 3 44-7
3.33
0.958 8394
0.962 3173
0.960 7574
23
57 13 51.5
212.34
130.9
2 331.8
3.24
0.958 8063
0.959 1874
0.957 ^86
27
57 22 40.9
3 12.36
I 31.0
2 3 18.8
3.25
0.9587733
0.956 0225
0.954 4307
31
57 31 30-4
3 12.38
-I 31.2
-2 3 5-8
-f3.a6
0.958 7405
0.952 8347
0.951 2361
Sept. 4
57 40 20.0
3 Z2.4O
I 31.4
2 2 52.7
3.38
0.958 7078
0.949 6366
0.948 0379
8
57 49 9.6
3 12.42
I 31.6
2 2 39.5
3.29
0.958 6752
0.946 4419
0.944 8506
12
57 57 59.4
3x2.44
I 31.8
2 2 26.4
3.30
0.958 6427
0.943 2661
0.941 6906
16
58 649.2
3 12.46
I 31-9
2 2 13.1
3.32
0.958 6104
0.940 1262
0.938 5749
20
58 15 39.1
3 X2.48
-I 32.1
-2 I 59.8
+3.33
0.958 5782
0.937 0388
0.935 5200
24
582429.1
3 12.50
I 32.2
2 I 46.5
3.34
0.958 5461
0.934 0205
0.932 5422
28
58 33 19. 1
8 13.52
132.4
2 I 33.1
3.35
0.958 5141
0.931 0872
0.929 6576
Oct. 2
5842 9.2
313.54
I 32.6
2 I 19.7
3.36
0.958 4823
0.928 2555
0.926 8830
6
58 50 59.4
3 X2.56
132.7
2 I 6.2
3.38
0.958 4506
0.925 5426
0.924 2366
lo
58 59 49.7
3x2.58
-I 32.9
-2 0 52.7
+3.39
0.958 4190
0.922 9673
0.921 7370
14
59 8 40.0
2 X2.60
133.0
2 039.1
3.40
0.958 3875
0.920 5480
0.919 4023
18
59 17 30-4
3 12.62
I 33.2
2 0 25.4
3.42
0.958 3562
0.918 3018
0.917 2486
22
59 26 20.9
3 X3.64
I 33.3
2 0 II. 8
3-43
0.958 3250
0.916 2446
0.915 2916
26
59 35 ".5
2 X2.65
133-5
I 59 58.0
3.44
0.958 2939
0.914 3911
0.913 5448
30
59 44 2.2
8 X3.67
-I 33-6
~i 59 44.2
+3.45
0.958 2630
0.912 7545
0.912 0217
Nov. 3
59 52 52.9
3 X2.69
133-8
I 59 30.4
3.46
0.958 2322
0.9 1 1 3480
0.910 7350
7
60 I 43.7
3 X2.7Z
I 33.9
I 59 16.5
3.48
0.958 2015
0.910 1842
0.909 6969
II
60 10 34.5
312.73
134.0
I 59 2.6
3-49
0.958 1709
0.909 2742
0.908 9170
15
60 19 25.5
3 X2.75
134-2
I 58 48.6
3.50
0.958 1405
0.908 6260
0.908 4018
19
6028 16.5
8 X2.76
-I 34.3
-I 58 34.6
+3.51
0.958 1 102
0.908 2447
0.908 1550
23
6037 7.6
3 12.78
134-4
I 58 20.5
3.53
0.958 0800
0.908 1330
0.908 1785
27
60 45 58.7
3 12.80
I 34.6
I 58 6.4
3.54
0.958 0499
0.908 2915
0.908 4719
Dec. I
60 54 50.0
8 12.83
134-7
I 57 52.2
3.55
0.958 0200
0.908 7196
0.909 0342
5
61 341.3
3 X3.84
134-8
I 57 38.0
3.56
0.957 9902
0.9094152
0.909 8622
9
61 12 32.6
8 X3.85
-I 34-9
-I 57 23.7
+3.57
0.957 9605
0.910 3741
0.910 9499
13
61 21 24.1
a 13.87
I 35.0
I 57 9.4
3.59
0.957 9310
a9ii 5884
0.912 2881
17
61 30 15.6
3 X3.89
135-2
I 56 55.0
3.60
0.957 9016
0.9130476
0.913 8651
21
61 39 7.2
3 X3.9X
135.3
I 56 40.6
3.6X
0.957 8723
0.914 7391
0.915 6678
25
61 47 58.9
3 X2.93
135.4
I 56 26.1
3.62
0.957 8431
a9i6 6493
0.917 6820
29
61 56 50.6
3 13.94
-I 35.5
—I 56 1 1.6
+3.64
0.957 8141
0.918 7640
0.919 8936
33
62 5 42.4
3 12.96
-I 35.6
-I 55 57.0
+3.65
0.957 7852
0.921 0688
0.922 2874
[Eph 12]
198 HELIOCENTRIC CO-ORDINATES, 1912.
URANUS.
GREENWICH MEAN NOON.
Date.
Heliocentric
Longitude,
Mean Equinoi
of Date.
Daily
Motion.
Reduction
to Orbit.
Heliocentric
Latitude.
Daily
Motion.
Logarithm of
Radius Vec-
tor.
Logarithm of Distance from
Earth—
At Date.
At Interme-
diate Date.
e > w
»f
H
« * n
M
Jan. 4
299 13 56.6
40.02
+9.4
-033 7-9
-0.38
1.295 5^10
I.3158088
1. 316 1677
Z2
299 19 16.7
40.01
9-4
0 33 II.O
0.38
1-295 5368
I.3164328
1.3166033
20
299 24 36.8
40.01
9.4
033 14.0
0.38
1.295 5626
I.3166784
1. 316 6577
28
299 29 56-9
4a 01
9.4
0 33 16.9
0.38
1.295 5883
I.3165415
1.316 3311
Feb. 5
299 35 16.9
40.00
9.4
0 33 19-9
0.38
1.295 6140
1. 316 0278
1.3156327
13
299 40 36.9
40.00
4^4
-0 33 22.9
-0.37
1.2956397
I.315 1468
1.3145719
21
299 45 56.9
39.99
9.4
0 33 25.9
0.37
1.295 6653
I.3139104
1.313 1651
29
299 51 16.8
39.99
9.4
0 33 28.9
0.37
1.2956909
I-3I2 3395
1-311 4373
Mar. 8
299 56 36.7
39.99
9.4
0 33 31.9
0.37
1.295 7164
1. 310 4617
1.309 4162
i6
300 I 56.6
39.98
9-4
0 33 34-8
0.37
1.295 7419
1.308 3049
1-307 1323
24
300 7 16.4
39.98
+9.4
-0 33 37-8
-0.37
1.295 7674
1.3059035
1.304 6240
Apr. I
300 12 36.2
39.97
9.4
0 33 40.8
0.37
1.295 7928
1.3032994
1.301 9350
9
300 17 56.0
39.97
9.4
0 33 43.7
0.37
1.295 8182
1.300 5361
1.299 1085
»7
30023 15.8
39.97
9-4
0 33 46.7
0.37
1.295 8435
1.297 6585
1.296 1930
as
300 28 35.4
39.96
9.4
0 33 49.6
0.37
1.295 8688
1.294 7188
1.293 2428
May 3
300 33 55-2
39.96
+9.4
-0 33 52.6
-0.37
1.295 8941
1.291 7715
X.290 3113
II
300 39 14.8
39.95
9-4
0 33 55.5
0.37
1.295 9193
X. 288 8689
1.287 4513
19
3004434.4
39.95
9.4
03358.5
0.37
1.295 9445
1.2860659
1.284 7201
27
300 49 54.0
39.95
9.3
034 1.4
0.37
1.295 9696
1.2834205
1.282 1736
June 4
3005513-5
39.94
9.3
034 4-3
0.37
1.2959947
1.2809853
1.279 8617
12
301 033.1
39.94
+9.3
-034 7.2
-0.37
1.296 0198
i'.278 8088
1.2778331
20
301 552.5
39r93
9.3
0 34 10. 1
a 36
1.296 0448
1.276 9403
1.2761351
28
301 II 12.0
39.93
9.3
03413.0
0.36
1.2960698
1.275 4218
1.274 8041
July 6
301 16 31.4
39.93
9.3
0 34 15.9
0.36
1.2960947
1.274 2853
1.2738689
14
301 21 50.8
39-92
9.3
0 34 18.9
0.36
1.296 1 196
1.273 5578
1-273 3544
22
301 27 10.2
39.92
+9.3
-0 34 21.7
—0.36
1.296 1444
1.273 2598
1.273 2742
30
301 32 29.5
39.91
9.3
0 34 24.6
0.36
1.296 1692
1-273 3974
1.2736290
Aug. 7
301 37 48.8
39.91
9.3
03427.5
0.36
1.296 1939
1.2739679
1.274 4130
15
301 43 8.0
39.91
9.3
0 34 30.5
0.36
1.296 2186
1.2749623
1.275 6126
23
301 48 27.3
39.90
9.3
0 34 33-2
0.36
1.296 2433
1.276 3597
1.277 1994
31
301 53 46-5
39-90
+9.3
-0 34 36.1
—0.36
1.296 2679
1.278 1273
1.279 13S6
Sept. 8
30159 5-6
39.89
9.3
0 34 39.0
0.36
1.296 2925
1.2802286
1.281 3916
16
302 424.7
39.89
9.3
03441.8
a 36
1.296 3170
1.282 6212
1.2839105
24
302 943.8
39.89
9-3
0 34 44.7
0.36
1.296 3415
1.2852525
1.286 6405
Oct. 2
302 15 2.9
39.88
9.3
03447.5
0.36
1.296 3660
1.288 0679
1.289 5280
10
302 20 21.9
39.88
+9.3
-0 34 50.4
-^35
1.296 3904
1. 291 0137
1.292 5173
18
302 25 40.9
39.87
9.3
0 34 53.2
<^35
1.296 4148
1.294 0312
1.295 5480
26
302 30 59.9
39.87
9-3
0 34 56.0
0.35
1.2964391
1.2970608
1.298 5629
Nov. 3
302 36 18.9
39.87
9.3
0 34 58.8
0.35
1.2964634
1.3000479
1-301 5093
II
30241 37.8
39.86
9-3
035 1.7
0.35
1.296 4876
1.302 9402
1.304 3338
19
302 46 56.7
39.86
+9.3
-035 4.5
-0.35
1.296 5118
1.305 6841
1.3069855
27
302 52 15.5
39.85
9-3
035 7-3
0^35
1.296 5360
1.308 2331
1.309 4220
Dec. 5
302 57 34-3
39.85
9-3
035 10. 1
0.35
1.296 5601
1.3105474
1. 31 1 6042
13
303 253.1
39.85
9.3
0 35 12.9
0.35
1.296 5842
1.312 5881
1.3134950
21
303 8 11.9
39.84
9.3
03515.7
0.35
1.296 6082
1.314 3216
1-3150654
29
303 13 30.6
39.84
+9.3
-03518.5
-0.35
1.2966322
1.3157241
1.316 2948
37
3031849.3
39.83
+9-3
-0 35 21.2
-0.35
1.296 6561
1.316 7749
[Eph la]
HELIOCENTRIC CO-ORDINATES, 1912. 199
NEPTUNE.
GREENWICH MEAN NOON.
Date.
Heliocentric
Longitude,
Mean Equinoi
of Date.
Daily
Motion.
Reduction
to Orbit.
Heliocentric
Latitude.
Daily
Motion.
Logarithm of
Radius Vec-
tor.
Logarithm of 1
Ban
Distance from
.h-
At Date.
At Intermedi-
ate Date.
0 t t*
I*
n
e t M
ff
Jan. 4
112 20 36.5
az.78
-29.8
-0 33 49.1
40.64
1.4767116
1.462 4375
1.462 2968
12
112 23 30.7
ax.77
29.8
0 33 43-9
0.64
1.4767140
1.462 2300
1.462 2381
20
112 2624.9
ai.77
29-7
0 33 38.8
0.64
1.476 7165
1.462 3217
1.462 4800
28
II22919.I
21,77
29.7
0 33 33-7
0.64
1.476 7189
1.462 71 14
1-463 0143
Feb. 5
112 32 13.3
21,77
29.6
0 33 28.6
0.64
1.476 7214
1.463 3868
1.463 8267
13
"2 35 7*5
21,77
-29.5
~o 33 23.5
40.64
1.476 7239
1.464 3314
1.464 8982
21
112 38 1.6
31.77
29.5
0 33 18.4
0.64
1.476 7264
1.465 5238
1.466 2043
29
112 40 55.8
ai.77
29.4
0 33 13-3
0.64
1.476 7289
1.466 9354
1.4677130
Mar. 8
112 43 50.0
ai.77
29-3
0 33 8.2
0.64
1.4767314
1.468 5330
1.469 3910
z6
112 46 44.1
21.77
29.2
033 3-1
0.64
1-47C 7339
1.470 2825
1.471 2024
24
1124938-3
21,77
—29.2
-0 32 57.9
+0.64
1.4767364
1.472 1458
1-473 1077
Apr. I
112 52 32.5
21,77
29.1
0 32 52.8
0.64
1.476 7389
1.474 0834
1.475 0683
9
112 5526.6
21,77
29.0
0 32 47.7
0.64
1.476 7414
1.476 0580
1.477 0480
I?
112 58 20.8
21,77
29.0
0 32 42.6
0.64
1.476 7439
1.4780335
1.479 0096
25
113 I 14-9
21,77
28.9
0 32 37.5
a64
1.476 7465
1.479 9717
1.480 9157
May 3
113 4 9-0
21,77
-28.8
-0 32 32.3
40.64
1.476 7490
1.481 8378
1.482 7344
II
113 7 3-1
21,77
28.8
0 32 27.2
0.64
X.476 7516
T.483 6020
1.484 4370
19
"3 9 57-3
21,77
28.7
0 32 22.1
0.64
1.476 7541
1.485 2358
1-485 9950
27
113 12 51.4
ax.77
28.7
0 32 17.0
0.64
1.476 7567
1.486 7118
1-487 3837
June 4
"31545-5
ai.76
28.6
0 32 II. 8
0.64
1.476 7592
1.488 0084
1.488 5837
12
113 18 39.6
ax.76
-28.5
-0 32 6.7
40.64
1.476 7618
1.489 1073
1-489 5772
20
113 21 33-7
21.76
28.4
0 32 1.6
0.64
1.476 7644
1.4899915
1.490 3488
28
1132427.8
az.76
28.4
0 31 56.4
0.64
1.476 7670
1.490 6481
1.490 8884
July 6
113 27 21.9
ax. 76
28.3
0 31 51-3
0.64
1.476 7696
1.491 0689
1.491 1888
14
113 3016.0
ax.76
28.2
0 31 46.2
0.64
1.476 7722
1.491 2475
1.49X 2446
22
1133310.1
ax.76
-28.2
-0 31 41.0
40.64
1.476 7748
1. 491 1804
1.491 0554
30
113 36 4-2
ax. 76
28.1
0 31 35-9
0.64
1.476 7774
1.490 8697
1.4906235
Aug. 7
"33858.3
ax.76
28.1
0 31 30.7
0.64
1.476 7800
1.490 3178
1-4899537
15
"34152.4
ai.76
28.0
0 31 25.6
0.64
1.476 7826
1.489 5324
1.4890554
23
113 44 46.4
ai.76
27.9
0 31 20.4
0.64
1.476 7852
1.488 52^5
1.487 9417
31
"34740-5
ax.76
-27.8
-0 31 15-3
40.64
1.476 7878
1.487 3092
1.486 6291
Sept. 8
"35034-6
ax.76
27-7
0 31 10,2
0.64
1.476 7904
1.485 9036
1.485 1353
16
1135328.6
ax.76
27.7
0 31 5.0
0.64
1.476 7930
1-484 3273
1.483 4832
24
113 56 22.7
ai.76
27.6
0 30 59.9
Oi64
1.476 7956
X.482 6068
1.481 7017
Oct. 2
"35916.7
ax.76
27.5
0 30 54-7
0.64
1.476 7983
1.4807715
1.479 8199
10
Z14 2 10.8
ax.76
-27-5
-0 30 49.6
40.64
1.476 8009
1.478 8505
1.477 8676
18
114 5 4-8
az.76
27.4
0 30 44.4
0.64
1.476 8036
1.476 8763
1.475 8818
26
114 758.9
ai.75
27-3
0 30 39-3
0.64
1.476 8063
1.474 8886
1.4739013
Nov. 3
114 10 52.9
ax.75
27.3
0 30 34.1
0.64
1.476 8090
1.472 9244
1.47 1 9629
II
114 13 46.9
az.75
27.2
0 30 29.0
0.64
1.476 81 17
1.471 0219
1.470 1065
19
114 1640.9
ax. 75
—27.1
-0 30 23.8
40.65
1.476 8144
1.469 2217
1.468 3724
27
114 19 35.0
ai.75
27.0
0 30 18.7
a65
1.4768171
1.467 5630
1.466 7976
Dec. 5
1 14 22 29.0
ax.75
27.0
0 30 13-5
0.65
1.4768198
1.466 0807
1.4654167
13
1142523.0
ax.75
26.9
0 30 8.3
0.65
1.476 8225
1.464 8097
1.464 2633
21
114 28 17.0
ai.75
26.8
0 30 3.2
0.65
1.476 8252
1.463 7806
1.463 3642
29
114 31 II.O
ai.75
-26.8
—0 29 58.0
40.65
1.476 8279
1.463 0163
1.462 7389
37
"4 34 5-0
ax.75
-26.7
-0 29 52.9
40.65
1.476 8307
1.462 5337
[Eph la]
200
SUN'S CO-ORDINATES, 1912.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
X
Reduc.
to
Mean
Y
Reduc.
to
Mean
z
Reduc.
to
Mean
Date.
True Equinox.
Eq'x ol
Jan. 0.
True Equinox.
Eq'x ol
Jan. 0.
True Equinox.
Eq'x of
Jan. 0.
Noon.
Midnight.
Noon.
Noon.
Midnight.
Noon.
Noon.
Midnight.
Noon.
Jan. X
+O.Z662589
+0.1748693
+34«
-0.889 0063
-0.8876099
- 88
-0.385 6784
-0.385 0724
+352
2
0.183 4^5^
0. 192 0479
331
0.880 X447
0.884 6x XO
84
0.3844365
0.3837709
353
3
0.2006149
0.209 1664
32 X
0.883 0089
0.881 3384
80
0.3830756
0.382 3507
353
4
0.217 701^
0.2262199
3x0
0.879 5996
0.877 7928
76
O.38Z 5963
0.3808x24
354
5
0.2347208
0.243 2037
300
0.8759x81
0.873 9755
73
0.3799991
0.379 1564
354
6
fo.251 6679
+0.260 1 128
+290
-0.871 9653
-0.869 8876
- 70
-0.3782844
-0.377 3832
+354
7
0.268 5378
0.276 9423
280
0.867 7424
0.865 5298
67
0.3764527
0.3754931
354
8
0.285 3256
0.293 6871
270
0.863 2499
a86o 9031
64
0.374 5043
0.3734865
354
9
0.3020262
0.3103423
260
0.858 4895
0.856 0090
62
0.3724396
0.371 3638
354
xo
0.3186346
0.3269025
250
0.853 4619
0.850 8483
60
0.370 2591
0.369x256
354
ZI
+0-335 1454+0.343 3626
+240
-0.848 X685
-0.845 4225
-58
-0.3679634
-0.3667725
+353
12
0.3515535 0.3597173
230
0.842 6106
0.839 7329
56
0.365 5530
0.364 3049
352
13
0.3678535
0.3759614
220
0.836 7897
0.833 78x2
55
0.3630283
0.361 7235
351
14
0.384 0402
0.3920893
2X0
0.8307075
0.827 5690
54
0.360 3905
0.3590293
350
15
0.400 X080
0.408 0958
201
0.824 3658
0.821 0982
53
0.357 6399
0.3562226
348
z6
-t-0.416 0520
+0.423 9758
+191
-0.8x7 7664
-0.8x4 3707
- 52
-0.354 7774
-0.353 3044
+346
17
0.431 8667
0.4397241
X82
0.8x09116
0.807 3893
52
0.351 8039
0-350 2760
344
i8
0.4475472. 0.4553355
173
0.803 8038
0.800 1554
52
0.348 7206
0.347 1378
342
X9
0.463 0882' 0.470 8047
164
0.7964445
0.792 67 z6
52
0.345 5279
0.343 891 1
339
20
0.478 4844
0.486 1268
155
0.788 8369
0.784 9407
52
0.342 2275
0-3405371
337
21
4-0.493 7313 +0.501 2971
+X46
-0.780 9833
-0.776 965 X
- 52
-0.3388202
-0.3370769
+334
22
0.508 8237' 0.5Z6 3104
137
0.772 8865
0.768 7477
53
0.335 3073
0.333 5"6
331
23
0.523 7566
0.531 16x9
X29
0.764 5491
0.760 2912
54
0.33x6899
0.3298424
328
24
0.538 5256
0.5458471
Z20
0.755 9742
0.751 5986
55
0.327 9693
0.326 0708
325
25
0.553 1259
0.560 36x5
XI2
0.747 X648
0.742 6732
56
0.324 1470
0.322 1980
321
26
+0.567 5532
+0.574 7005
+X04
-0.738 124X
-0.733 5x79
- 57
-0.320 224 X
-0.3182255
+317
27
0.581 8029
0.588 8598
96
0.728 855X
0.724 1362
59
0.316 2024
0.314 1548
313
28
0.595 8709 0.602 8356
88
0.719 36x4
0.714 53"
60
0.3x2 0830
0.3099872
309
29
0.609 7534 0.616 6237
81
0.709 6458
0.704 7059
62
0.307 8675
0.305 7243
304
30
0.623 4462
0.630 2204
74
0.69971x9
0.694 6642
64
0.3035576
0.30X 3677
300
31
+0.636 9459 +0.643 6220
+ 67
-0.689 563 X
-0.684 4091
- 66
-0.299 1547
-0.296 9187
+295
Feb. I
0.650 2485' 0.656 8249
60
0.679 2025
0.673 9439
68
0.294 6599
0.292 3785
290
2
0.663 3508 0.669 8256
53
0.668 6336
0.663 27x9
71
0.290 0748
0.287 7488
285
3
0.676 2489 0.682 6204
47
a657 8592
0.652 3958
73
0.285 4008
0.2830308
280
4
0.688 9395 0.695 2059
1
41
0.646 8822
0.641 3x89
76
0.280 6391
0.278 2258
274
5
+0.70Z 4190+0.707 5784
+ 35
-0.635 7063
-0.630 0447
-78
-0.275 7912
-0.273 3353
+269
6
0.7136836
0.7x97342
29
0.624 3345
0.6x8 576X
81
0.2708583
0.268 3605
263
7
0.725 7297
0.731 6697
24
0.6x2 7699
0.606 9x64
83
0.265 8420
0.263 3029
257
8
0.737 5536
0.743 381 1
19
0.601 0Z59
0.595 0688
86
0.260 7434
a 258 1637
251
9
0.749 Z5X6
0.754 8648
14
0.589 0757
0.5830371
89
0.255 5640
0.252 9446; 245
zo
+0.760 5200
+0.7661x68
+ 9
-0.5769534
-0.5708249
- 92
-0.250 3056
-0.2476472] +239
ZI
0.771 6548
0.777 1337
5
0.564 6521
0.558 4356
95
0.244 9695
0.242 2729
233
Z2
0.782 5530
0.787 9Z2X
+ X
0.552 1758
0.545 8733
98
0.239 5574
0.236 8233
226
13
0.793 2x07
0.798 4483
- 3
0.539 5285
0.533 »4i9
lOX
0.234 0708
0.23 X 3002
220
M
0.803 6245
0.808 7389
7
0.526 7141
0.520 2454
X04
0.228 5x17
a225 7054
213
15
+0.813 7912
+0.818 7809
— ZZ
-0.5137365
-0.507 Z878
-X07
-0.22288x6
-0.220 0406
+206
16
+0.823 7075
+0.828 5707
- 14
|-o. 500 6000
-0.493 9736
—no
-0.217 1825
-0.2 z 4 3076
+Z99
|Eph 13]
SUN'S CO-ORDINATES, 1912.
201
FOR GREENWICH MEAN NOON AND MIDNIGHT.
X
Rednc,
to
Mean
Y
Rednc
to
Mean
z
Rednc.
to
Mean
Date.
True Eqoinoz.
Eq'x of
Jan.o.
Trae Equinox.
Eq'x ol
Jan. 0.
Noon.
Ttue Equinox.
Eq'x of
Jan. 0.
iV«M».
Midnight.
Noon.
Noon.
Midnight,
Noon,
Midnight.
Noon,
Feb. i6
+0.823 7075
•+0.828 5707
-14
l-o. 500 6000
-0.493 9736
— XIO
-0.217 1825
-0.214 3076
+199
17
0-833 3701
0.838 Z054
17
0.487 3091
0.480 6070
XI3
0.21 1 4162
0.208 5085
192
18
0.842 7762
0.847 3820
20
0.473 8678
0.467 0922
116
0.205 5847
0.202 6450
184
19
0.851 9225
0.856 3974
23
0.460 2808
0.453 4340
119
0.1996897
0.196 7190
177
20
0.860 8063
0.865 1493
25
0.446 5524
0.439 6366
122
O.X937332
0.1907326
169
21
fo.869 4256
+0.873 6350
-27
-0.432 6872
-0.425 7048
-125
-0.187 7174
-0.1846878
+161
22
0.877 7772
0.881 8520
29
0.418 6900
O.411 6434
128
0.18 1 6442
0.1785868
153
23
0.885 8591
0.889 7983
31
0.404 5656
0.3974571
131
O.X755159
0.172 4316
145
24
0.893 P^^
0.897 47^6
33
0.390 3184
0.383 1502
134
0.1693343
0. 166 2242
137
25
0.901 2053
a 904 8700
34
0.3759532
0.3687279
X37
0.163 IO16
a 159 9667
129
26
fo.908 4656
+0.9119920
-35
-0.361 4748
-0.354 1946
-140
-0.156 8198
-0.X536612
+121
27
0.9154488
0.918 8359
36
0.3468877
0.3395548
143
0.150 491 1
0.1473098
"3
a8
0.922 1531
0.925 4003
36
0.332 1964
0.324 81 31
146
0.1441174
0.140 9143
105
29
0.928 5773
0.931 6839
37
0.317 4056
0.3099744
149
0.1377006
0.1344767
97
Mar. X
0.934 7200
0.937 6853
37
0.302 5200
0.295 0427
152
O.131 2428
0.127 9991
88
2
+0.940 5798
+0.943 4033
-37
-0.287 5432
—0.2800222
-155
-0.1247458
-O.I2I 4831
+ 80
3
0.946 1557
0.948 8366
36
0.272 4801
0.2649175
158
O.I182112
O.I 14 9306
71
4
0.951 4460
0.953 9838
36
0.257 3348
0.249 7326
161
O.III 6413
0.1083435
62
5
0.956 4498
0.9588437
35
0.242 II 15
0.234 4720
163
0.1050374
O.IOI 7235
53
6
0.961 1654
0.963 4147
34
0.226 8145
a2X9 1397
166
0.098 4018
0.095 0724
44
7
fo.965 5915
+0.967 6956
-33
-0.2 1 1 4482
-0.203 7404
-168
-0.091 7358
-0.088 3922
+ 35
8
0.969 7269
0.971 6851
32
0.196 0169
0.1882784
171
ao85 0418
ao8x 6849
26
9
0.973 570X
0.975 3818
31
0.1805254
0.1727584
173
0.078 3216
0.074 9523
17
10
0.977 1200
0.978 7846
29
0.164 9781
0.157 1849
176
0.071 5771
0.068 1963
+ 8
xz
0.980 3754
0.981 8923
27
0.1493796
0.14 1 5627
178
ao64 8102
o.o6x 4191
- X
12
+0.983 3353
+0.984 7042
-25
-0.1337348
-0.1258966
-181
-0.058 0232
—0.054 6227
— 10
13
0.985 9988
0.987 2191
23
0.1 18 0486
0.110 1914
183
ao5i 2x79
0.047 8091
19
14
0.988 3650
0.989 4363
21
0. 102 3255
0.09445x7
186
0.044 3966
a 040 9805
29
15
0.990 4330
0.991 3550
18
0.086 5705
0.078 6826
188
0.037 5612
0.034 1390
38
16
0.992 2023
0.992 9749
X5
0.070 7887
0.062 8894
190
0.030 714 1
0.027 2868
47
17
+0.993 6727
+0.994 2956
—12
-0.0549851
-0.047 0765
—192
-0.0238573
—0.020 4260
-56
18
0.994 8435
0.995 3x64
9
0.039 1643
0.031 2491
194
0.016 9931
0.013 5589
65
X9
0.995 7x43
0.996 0373
5
0.023 3316
-0.015 4123
196
0.010 1236
—0.006 6876
74
20
0.996 2854
0.996 4587
— 2
-0.007 4920
+0.000 4286
198
-0.003 251 1
+0.000 1856
83
2X
0.996 5571
0.996 5806
+ 2
+0.008 3491
0.016 2688
200
+0.003 6222
0.007 0584
92
22
+0.996 5293
+0.996 4033
+ 6
+0.024 187I +0.032 1032
—202
+0.010 4939 +0.013 9286
-lOI
23
0.996 2026
0.995 9273
10
0.040 OI65I 0.0479266
204
0.017 3621
0.020 7942
no
24
0.995 5776
0.995 1536
14
0.055 8329
0.063 7347
206
0.024 2245
0.027 6528
119
25
0.994 6553
0.994 0828
X9
0.071 6313
0.079 5221
207
0.031 0788
0.034 5023
127
26
0.993 4364
0.992 7 161
24
0.0874066
0.095 2842
209
0.037 9230
0.041 3406
136
27
+-a99i 9222
+0.991 0548
+29
+0.103 1544
+0.1 1 1 0165
—2x0
+0.044 7550
+0.048 1659
-145
28
0.990 1139
0.9890996
34
0. 118 8701
0.126 7146
211
0.051 5730
0.054 9761
154
29
0.988 0121
0.986 8516
39
0.X34 5494
0.142 3740
2X2
0.058 3750
0.061 7694
z6a
30
0.985 6183
0.984 3123
44
0.X50 1878
0.1579903
214
0.065 159X
0.068 5439
171
31
0.982 9337
0.981 4828
50
0.1657810
O.X73 5594
215
0.071 9235
0.075 2977
179
Apr. X
+0-979 9597
+0.978 3644
+55
+o.z8i 3249+0.1890770
—216
+0.078 6664
+0.082 0292
-x88
2
+0.976 6970
+0.974 9578
+61
1+0.1968x52
+0.204 5390
-217
+0.085 3859
+0.088 7364
-196
[Eph xa]
202
SUN'S CO-ORDINATES, 1912.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
X
Rednc.
to
Mean
Y
Reduc.
to
Mean
z
Rednc.
to
Mean
Date.
True Eqninox.
Eq'z of
Jan. 0.
True Equinox.
Eq'z of
Jan. 0.
True Equinox.
Eq'x of
Jan. 0.
Noon.
Midnight.
Noon.
Noon.
Midnight.
Noon.
Noon.
Midnight.
Noon.
Apr. I
+0.979 9597
+0.978 3644
+ 55
+O.181 3249
+0. 189 0770
—216
+0.078 6664
+0.082 0292
-188
2
0.976 6970
0.974 9578
61
0.196 8152
0.204 5390
217
0.085 3859
0.088 7364
196
3
0.973 1469
0.971 2645
67
0.212 2478
0.219 9412
218
0.092 0805
0.095 4x79
205
4
0.969 3106
0.967 2853
73
0.227 6186
0.235 2794
219
0.098 7483
0.102 0715
213
5
0.965 1888
0.963 0214
79
0.242 9231
0.250 5492
220
0.1053873
0.1086956
221
6
+0.960 7831
+0.958 4740
+ 86
+0.258 1 57 1
+0.265 7462
—221
+O.III 9960+0.115 2882
—229
7
0.956 0943
0.953 6442
93
0.273 3161
0.280 8664
222
0. 1 18 572 X
0.12 1 8476
237
8
0.951 1240
0.948 5337
100
a288 3963
0.295 9053
223
0.125 1143
0.128 3719
245
9
0.945 8736
0.9431438
107
0.303 3928
0.3108583
224
0.13 1 6202
0.1348590
253
lO
0.940 3445
0.937 4760
"4
0.318 3011
0.325 7209
225
0.1380880
0.14 1 3071
261
II
+0.934 5384
+0.931 5319
+121
+0.333 1171
+0.3404892
—226
+0.144 5159
+0.147 7142
—269
12
0.928 4568
0.925 3133
129
0.347 8365
0.355 1583
226
0.150 9019
0.1540787
276
13
0.922 1017
0.918 8221
137
0.362 4542
0.3697239
227
0.1572442
0. x6o 3983
284
M
0.9154749
0.912 0603
145
0.3769666
0.384 1818
227
0.1635407
0.16667x2
291
15
0.908 5786
0.905 0299
153
0.391 3688
0.3985271
227
0.1697895
0.1728954
298
i6
+0.901 4146
+0.897 7330
+161
+0.405 6563
+0.412 7558
-227
+0.1759887
+0.179 0691
-305
17
0.893 9854
0.890 1720
169
0.4x98250
a426 8632
227
0.182 1363
0.185 1902
312
i8
0.886 2934
0.882 3499
178
0.433 8701
0.4408451
227
0.1882304
0.191 2567
319
19
0.878 3418
0.874 2693
187
0.447 7877
0.454 6973
227
0. 194 2689
0.1972669
326
20
0.870 1328
0.865 9328
196
0.461 5735
0.468 4156
226
0.200 2503
0.203 2189
332
21
fo.86i 6696
+0.857 3437
+205
+0.475 2232
+0.481 9959
-225
+0.206 1725
+0.209 1109
-339
22
0.852 9554
0.848 5050
214
0.488 7331
0.495 4344
224
0.2120339
0.214 9412
345
23
0.843 9931
0.839 4200
223
0.502 0994
0.5087274
224
0.217 8327
0.2207081
351
24
0.834 7862
0.830 0920
233
0.515 3180
0.521 8710
223
0.223 5673
0.226 4 1 01
357
25
0.825 3379
0.820 5241
243
0.528 3858
0.534 8620
222
0.229 2364
0.232 0458
363
26
fo.8156511
+0.810 7194
+253
+0.541 2992
+0.5476971
—221
+0.234 8383
+0.237 6136
-369
27
0.805 7294
0.8006814
263
0.5540551
0.560 3728
220
0.240 3716
0.243 1121
375
28
0.795 5758
0.7904130
273
0.5666499
0.572 8860
219
0.245 8350
0.248 5401
380
29
0.785 1934
0.7799174
283
0.5790807
0.585 2337
218
0.251 2273
0.2538963
385
30
0.774 5855
0.769 1979
294
0.591 3445
0.597 4126
216
0.2565470
0.259 1792
390
May I
+0.7637551
+0.758 2574
+305
+0.603 4377
+0.6094196
-215
+0.261 7927
+0.264 3875
-394
2
0.752 7051
0.747 0987
316
0.615 3578
0.621 2517
213
0.2669634
0.2695201
398
3
0.741 4387
0.735 7254
327
0.627 10 II
0.632 9056
211
0.2720575
0.274 5755
402
4
0.7299591
0.724 1403
338
0.638 6648
0.644 3784
209
0.277 0738
0.279 5524
406
5
0.718 2693
0.712 3465
349
0.650 0459
0.655 66681 207
0.282 Olio
0.284 4495
410
6
+0.706 3723
+0.700 3472
+360
+0.661 2409
+0.6667677 —204
+a286 8676
+0.289 2652
-413
7
0.694 2716
0.688 X459
371
0.672 2469
0.677 6780 202
0.291 6422
a293 9984
417
8
0.681 9705
0.675 7459
383
0.6830606
0.688 3944
199
0.296 3337
0.2986477
420
9
0.669 4726
0.663 1509
394
0.693 6789
0.6989138
196
0.3009404
0.303 2 1 17
424
zo
0.6567812
0.650 3641
406
0.704 0988
0.709 2334
193
0.3054614
0.3076892
427
II
+0.643 8999
+0.637 3892
+418
+0.714 3172
+0.719 3500
-190
+0.3098950
+0.3120786
-43X
12
0.630 8324
0.624 2299
430
0.724 3312
0.729 2605
186
0.3M 2399
0.3163787
434
13
0.617 5823
0.610 8901
442
0.734 1375
0.738 9619
182
0.318 4948
0.320 58S I
437
14
0.604 1537
0.597 3737
454
0.743 7333
0.7484513
178
0.322 6585
0.3247057
440
15
0.5905505
.0.5836847
466
0.753 "55
0.757 7256
174
a 326 7296
0.3287300
442
i6
+0.5767769
+0.5698276
+479
+0.762 2813
+0.766 7822
—170
1+0.3307067
+0.3326597
-444
17
+0.562 8373
+0.555 8066
+491
+0.771 2280
+0.7756183
-166
+0.334 5887
+0.3364935
-446
[Bph xa]
SUN'S CO-ORDINATES, 1912.
203
FOR GREENWICH MEAN NOON AND MIDNIGHT.
X
Reduc,
to
Mean
Y
Rednc.
to
Mean
z
Reduc.
to
Mean
Date.
True Equinox.
Eq'x of
Jan.o.
True Equinox.
Eq'x ol
Jan. 0.
True Equinox.
Eq'x of
Jan.o.
Noam.
Midnight.
Noon,
Noon.
Midnight.
Noon.
Noon.
Midnight.
Noon.
May 17
-10.5628373
+0.555 8066
+491
+a77i 2280
+0.775 6183
-166
+0.334 5887
+0.3364935
-446
18
0.5487361
0.541 6263
504
0.779 9528
0.7842312
161
0.338 3741
0.340 2304
448
19
0.5344778
0.5272912
516
0.788 4533
0.792 6187
156
0.3420622
0.343 8693
449
20
0.5200672
0.5128062
529
0.7967271
0.800 7783
151
0.3456517
0.3474092
450
21
0.505 5087
0.498 1753
541
0.804 7720
0.808 7081
X46
0.349 1418
0.3508493
451
22
[fo.490 8067
+0.483 4035
+554
+0.812 5863
+0.816 4062
—140
+0.352 5316
+0.354 1887
-452
23
0.475 9663
0.468 4956
566
0.820 1677
0.823 8708
X34
0.3558204
0.3574267
452
24
0.460 9919
0.453 4558
579
0.827 5151
0.831 1003
Z28
0.3590074
0.360 5624
452
25
0.445 8879
0.438 2886
591
0.834 6264
0.838 0931
121
0.362 09x7
0.3635953
452
26
0.430 6586
0.422 9984
604
0.841 5003
0.844 8477
114
0.3650731
0.366 5249
452
27
fO.4153086
+0.407 5896
+617
+0.848 1 351
+0.851 3623
—107
+0.3679507
+0.3693505
-451
28
0.3998419
0.3920662
630
0.854 5292
0.857 6358
100
0.3707241
0.3720715
450
29
0.3842630
0.3764328
643
0.8606817
0.863 6^7
92
0.373 3925
0. 374 6872
449
30
0. 368 5760
0.3606932
655
0. 866' 5907
0.869 4535
84
0.375 9554
0.377 197X
448
31
0.352 7B50
0.3448518
668
0.872 2550
0.874 9950
76
0.3784123
0.3796008
447
June i
40,336 8943
+0.3289129 +681
+0.877 6733
+0.880 2896
- 68
40.3807625
+0.381 8975
-445
2
0.320 9081
0.312 8804
694
0.882 8438
0.885 3358
60
0. 383 0056
0.384 0866
443
3
0.3048305
0.296 7590
706
0.887 7654
0.8901325
51
0.385 1406
0.386 1675
441
4
0.288 6663
0.280 5529
719
0.892 4368
0.894 6782
42
0.387 1673
0.388 1398
439
5
0.272 4194
0.264 2663
731
0.896 8564
0.8989714
33
0.3890850
0.3900027
437
6
+0.2560943
+0.2479038
+743
+0.901 0230
+0.903 0109
- 23
+0.3908928
+0.391 7554
-434
7
0.2396953
0.231 4696
755
0.9049351
0.906 7955
13
0.392 5904
0.393 3978
431
8
0.223 2272
0.2149685
767
0.908 5919 0.9x0 3241
- 3
0.394 1774
0.3949291
428
9
0.206 6943
0.1984052
779
0.91 1 9920 0.9135954
+ 8
0.3956530
0.3963490
425
zo
0.190 1016
O.181 7842
791
0.915 1341
0.916 6080
19
0.397 0x69
0.397 6567
422
II
+o- 173 4535
+0.165 1102
+802
+0.918 0170
+0.919 3610
+ 30
+0.398 2683
+0.3988517
-419
12
0.1567549
0.1483883
814
0.920 6399
0.921 8535
41
0.3994068
0.3999336
415
13
0.Z400X09
O.13X 6234
825
0.923 0017
0.924 0845
53
0.400 4320
0.400 9020
4"
»4
0.1232264
0.1 14 8205
836
0.925 1017
0.926 0532
65
0.401 3436
0.401 7566
407
15
0.1064064
0.097 9848
847
0.9269389' 0.9277589
1
77
0.402 14x0
0.402 4969
403
16
4-0.089 5564
+0.081 1218
+858
+0.928 51 3 1 +0.929 2013
+ 89
+0.4028241
+0.403 1227
-398
17
0.072 6817
0.064 2366
869
0.929 8235
0.930 3798
102
0.403 3926
0.403 6338
393
18
0.055 7872
0.047 3343
879
0.930 8702
0.931 2947
"5
0.403 8464
0.404 0305
388
19
0.038 8783
0.030 4200
889
o.93» 6534
0.931 946 X
128
0.404 1859
0.404 3127
383
20
0.021 9599
+0.0134987
899
0.932 1730
0.932 3340
141
0.404 4x08
0.404 4804
377
21
fo.005 0369
-0.003 4247
+909
fo.932 4293;+o.932 4589
+155
+0.404 52x4
+0.404 5340
-371
22
-0.01 1 8856
0.020 345^ 918
0.932 4229
0.932 32x2
169
0.404 5180
0.404 4735
365
23
0.028 8033
0.037 2587
927
0.932 1538
0.931 9209
183
0.404 4005
0.404 2991
359
24
0.045 71 1 1
0.054 '600
936
0.93Z 6226
0.931 2589
197
0.404 1694
0.404 on 3
352
25
0.062 6049
0.071 0450
945
0.930 8299
0.930 3355
212
0.403 8249
0.403 6102
345
26
-0.079 4799
—0.0879090
+953
+0.929 7759
+0.929 151 X
+227
+0.403 3672
+0.403 0960
-338
27
0.096 3318
0.1047477
961
0.9284613
0.927 7064
243
0.402 7965
0.402 4688
331
28
0.113 1561
O.I2I 5565
969
0.926 8865
0.9260017
258
0.402 1 1 29
0.401 7289
324
29
0.1299483
0.138 331 1
976
0.925 0520
0.924 0375
274
0.401 3x68
a 400 8767
3x7
30
0.1467042
0.155 0671
983
0.922 9583
0.921 8x44
290
a 400 4085
0.3999123
3x0
July I
-0.163 4192
-O.I7I 7600
+990
40.920 6059
+0.919 3329
+306
+0.399 3881
+0.3988359
-302
2
-0.Z800890
-0.1884055
+996
+0.9x7 9955
+0.916 5937
+322
40.3982558
+0.397 6478
-294
[Eph 12]
204
SUN'S CO-ORDINATES, 1912.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
X
Reduc.
to
Mean
Y
Reduc.
to
Mean
z
Reduc.
to
Mean
Date.
Tnie Equinox.
Eq'z oi
Jan.o.
True Bquinoi.
Eq'z of
Jan. a
Noon.
True Eqoinoz.
Eq'z of
Jan. a
Nctm.
Midnight.
Noon.
Noon.
Midnight.
Noon.
Midnight,
Noon.
July I
-0.1634192
—0.1 71 7600
+ 990
-1-0.920 6059
+0.919 3329
+ 306
+0.3993881
+0.398 8359
-302
2
0.1800890
0.1884055
996
0.917 9955
0.916 5937
322
0.398 2558
0.3976478
294
3
0.1967090
0.204 9989
1002
0.915 1275
0.913 5971
339
0.397 01 19
0.396 3482
286
4
0.213 2747
0.22I 5359
1008
0.912 0026
0.910 3440
356
0.3956568
0.3949375
278
5
0.2297819
0.238 0120
1013
0.908 6215
0.9068351
373
0.394 1905
0.3934158
269
6
-0.246 2258
-0.254 4226
4-1018
+0.904 9848
40'903 0708
+ 390
+0.3926135
+0.391 7835
—261
7
0.262 6018
0.270 7630
1022
0.901 0932
0.899 0522
407
0.3909260
0.3900409
252
8
0.278 9056
0.287 0289
1026
0.896 9478
0.894 7801
424
0.389 1283
0.388 1882
243
9
0.295 1324
0.303 2154
1030
0.892 5491
0.890 2550
442
0.3872206
0.3862256
234
lO
0.311 2773
0.3^93175
1034
0.887 8980
0.885 4782
459
0.3852034
0.384 1540
225
II
-0.327 3354
-0.335 3306
+1037
■K>.882 99^8
+0.880 4508
+ 477
■N>. 383 0773
+0.381 9734
-215
12
0.343 3023
0.351 2498
1040
0.877 8434
0.875 1738
495
0.3808424
0.3796844
206
13
0.359 1726
0.367 0701
1042
0.872 4422
0.869 6487
513
0.3784994
0.3772675
196
14
0.3749416
0.382 7865
1043
0.866 7935
0.863 8768
531
0.3760488
0.3747835
186
15
0.3906042
0.398 3942
1044
0.860 8990
0.857 8602
550
0.3734917
0.372 1733
176
i6
-0.406 1558
-0.4138884
4-1045
-10.854 7607
+0.851 6007
+ 568
+0.3708284
+0.3694573
-166
17
0.421 5914
0.429 2642
1045
0.848 3805
0.845 1003
587
0.3680600
0.366 6367
156
i8
0.436 9064
0.444 5173
1045
0.841 7605
0.838 3612
605
0.365 1875
0.363 7"5
146
19
0.4520965
0.4596433
1044
0.834 9028
0.831 3856
624
0.362 2118
a 360 6855
135
20
a 467 1572
0.474 6379
1043
0.827 8099
0.824 '760
642
0.359 1339
0.357 557'
124
21
-0.482 0847
-0.489 4971
+104 1
fo.820 4841
+0.816 7345
+ 660
■H>. 355 9551
+0.354 3280
-"3
22
0.496 8747
0.504 2169
1039
0.812 9274
a8o9o632
678
0.352 6761
0.350 9994
102
23
0.5" 5233
0.518 7934
1036
0.805 1422
0.801 1648
697
0.3492981
0.347 5723
91
24
0.5260267
0.533 2228
1033
0.797 13"
0.793 0414
715
0.345 8222
0.344 0478
80
25
0.540 38 1 1
0.5475012
1029
0.788 8961
0.784 6954
734
0.342 2492
0.3404267
69
26
-0.554 5825
-0.561 6247
+1025
+0.780 4396
+0.776 1290
+ 752
+0.338 5804
+0.3367103
-58
27
0.568 6272
0.575 5897
1020
0.771 7639
0.767 3445
771
0.3348166
0.3328994
46
28
0.582 51 17
0.589 3927
1015
0.762 871 1
0.758 3442
790
0.3309587
0.328 9948
35
29
0.596 2322
0.603 0298
lOIO
0.753 7640
0.7491307
808
0.3270079
0.3249980
23
30
0.609 7849
0.616 4972
1004
0.7444447 0.7397061
827
0.3229653
0.3209098
— 11
31
-0.623 1661
-0.629 7913
+ 997
■H).734 9154
+0.730 0728
+ 845
+0.3188317
+o.3«6 73ii
+ I
Aug. X
0.636 3723
0.642 9086
990
0.725 17S6
0.7202333
864
0.3146082
0.3124630
13
2
0-649 3998
0,655 8454
982
0.715 2370
0.710 1900
882
0.3102958
0.308 1066
25
3
0.662 2448
0.668 5976
974
0.705 0927
0.699 9454
900
0.3058956
0.3036629
37
4
0.674 9035
0.681 1620
966
0.694 7484
0.689 5021
918
0.301 4086
0.299 1329
49
5
-0.687 3725
-0.693 5346
+ 957
+0.684 2067
+0,678 8626
+ 936
+0.2968360
+0.294 5x79
+ 61
6
0.699 6478
0.705 7 1 18
947
0.673 4701
a668o296
953
0.292 1787
a 289 8187
73
7
0.71 1 7260
a7i7 6897
937
0.662 5413
0.657 0056
970
0.287 4379
0.285 0366
85
8
0.723 6026
a729 4643
926
a65i 4230
0-645 7937
987
0.282 6148
0.280 1728
98
9
0.735 2742
0.741 0319
9x5
0.640 II 82
0.634 3968
1004
0.277 7x07
0.275 2286
no
zo
-0.746 7370
-0.752 3888 -f 903
+0.628 6300
+0.622 8181
+1020
+a272 7268
+0.270 2054
+122
ZI
0.757 9869
0.763 5309 891
a6i6 96i5
0.61 X 0607
1037
0.267 6645
0.265 1044
«34
Z2
0.769 0203
0.774 4547
879
a6o5 1 161
0.599 T281
1053
0.262 5252
0.259 9273
M7
13
0-779 8337
0.785 1567
866
0.593 0973
0.587 0240
1069
0.257 3107
0.254 6756
159
14
0.790 4234
0.795 6334 852
0.5809088
0.5747521
Z085
0.252 0223
0.249 35»o
172
15
-0.800 7862 -0.805 88 1 5 4- 838
+0.568 5545 +0.562 3163
+IX01
f 0.246 6619
+0.2439552
+185
16
-0.8ZO 9189,-0.815 8981,4- 823
f 0.556 0381 +0.549 7204
+IZ16
+0.241 2312
+0.238 4900
+198
[Bph
xa]
SUFS CO-ORDINATES, 1912.
205
FOR GREENWICH MEAN NOON AND MIDNIGHT.
X
Reduc.
to
Mean
Y
Reduc.
to
Mean
z
Reduc.
to
Mean
Date.
Tme Equinox.
Eq'x of
Jan.o.
True Bqninoz.
Eq'x of
Jan. 0.
True Equinox.
Eq'x of
Jan. 0.
Notm. 1 Midnight.
Noon.
Noon.
Midnight.
Noon.
Noon,
Midnight.
Noon.
Aug. i6
-0.810 9189
-0.8x5 8981
+823
f 0.5 56 0381
+0.549 7204
+IX16
+0.241 2312
•fO.238 4900
+198
17
0.8208187
0.825 ^03
809
0.543 3636
0.5369681
"31
0.235 7318
0.232 9569
211
18
0.830 4826
0.835 2252
794
0.530 5345
0.5240633
1146
0.230 1654
0.227 3577
224
19
0.839 9080
0.844 5306
779
0.517 5549
0.5IZ 0x00
X161
0.224 5339
0.221 6942
237
20
0.849 0927
0.853 5939
763
0.5044289
0.497 8120
1 176
0.2188389
0.215 9680
249
21
-0.858 0340
—0.862 4126
+746
4-0.491 1598
40.484 4729
+1190
+0.213 0818
+0.210 1806
+262
22
0.866 7295
0.870 9844
729
0.477 75x6
0.470 9965
1204
0.207 2646
0.204 3339
274
23
0.875 1771
0.879 3072
712
0.464 2080
0.457 3865
X2X8
0.20I 3888
0. 198 4294
287
24
0.883 3743
0.887 3782
694
0.450 5325
0.443 6467
I23I
0.1954559
0.1924687
299
as
0.891 3187
0.895 1955
676
0,436 7294
0.429 78 TO
1244
0.1894678
ax86 4534
312
26
-0.8990084
-0.902 7571
+657
40.422 8019
+0.4157927
+1257
+0.1834257
+0.180 3851
+324
27
0.9064413
0.910 0608
638
0.408 7539
0.401 6860
X269
O.X77 3317
0.X74 2656
336
28
0.913 6152
0.917 1042
618
0.394 5893
0.387 4642
I28I
0.171 187X
0.1680963
348
29
0.920 5277
0.923 8855
598
0.380 31 14
0.373 1314
1292
.0.X649934
0.16x8788
361
30
0.927 1772
0.930 4026
578
0.3659245
0.3586912
1303
0.1587525
0.1556x48
373
31
-0-933 5614
-0.936 6534
+557
fo.35X 4321
+0.344 1475
+1314
+0.1524658
+0.1493058
+385
Sept. I
0.939 ^7^2
0.942 6356
536
0.3368380
0-329 5040
1324
0.146 1350
0.1429536
397
2
0-945 5254
0.948 3473
515
0.322 X460
0.3147646
t334
0.13976x7
0.1365596
409
3
0.951 XOII
0.953 7864
493
0.307 3602
0.2999332
1344
0.1333475
0.130 1256
421
4
0.956 4030
0.958 9509
471
0.292 4842
0.285 0138
1354
0.126 8941
0.X236533
433
5
-0.961 4296
-0.963 8388
+449
+0.277 5225
+0.270 0X07
+1363
+0.1204034
+0.1x7 1446
+444
6
0.966 1783
0.968 4478
427
0.262 4790
0.254 9280
1371
0.1138771
0.1x060x2
456
7
0.970 6472
0.972 7763
404
0.247 3581
0.239 7700
1379
0.107 3170
0.1040248
467
8
0-9748347
0.9768221
381
0.232 1642
0.224 5412
1387
0.1007249
0.0974175
479
9
0.978 7384
0.980 5834
357
0.216 9016
a 209 2462
1394
0.094 1030
0.0907816
490
10
-0.982 3570
—0.984 0589
+333
-K).20i 5754
+0.1938898
+1401
+0.087 4534
+0.084 "87
+501
II
0.985 6889
0.987 2469
309
0.186 1900
0.1784767
X408
0.080 7779
0.0774312
5x2
Z2
0.988 7328
0.990 1465
284
0.1707504
0.163 0118
14x4
0.074 0788
0.070 7210
523
13
0.991 4877
0.992 7563
259
0.155 2613
0.1474997
Z420
0.067 3582
0.0639906
534
14
0.9939523
0.995 0757
234
0.1397276
0.1319456
X425
0.060 6x84
0.057 2419
545
15
[-0.996 1264
-0.997 1044
+208
4.0.124 1543
+0.1x63541
+1430
+0.0538613
+0.050 4770
+555
16
0.998 0095
0.9988415
183
0.1085457
0.1007297
1435
0.047 0891
0.043 6980
566
17
0.9996005
1.0002864
157
ao92 9o67
0.085 0773
1439
0.040 3039
0.0369071
576
18
i.ooo 8993
i.ooi 4393
131
0.077 2422
0.0694017
1443
0.033 5077
0.030 106 x
586
19
t.ooi 9062
1.002 2999
105
o.o6x 5564
0.053 7070
1446
0.026 7024
0.023 2969
596
20
I-I.002 6204
-1.002 8677
+ 79
4-0.0458539
+0.037 9978
4-1449
4-0.0x9 8899
+0.016 4817
+606
21
1.003 0418
1.003 1426
52
0.030 1392
0.022 2786
1452
0.0x30725
0.009 6624
6x5
22
1.003 1703
1.003 1248
+ 25
4-0.0x4 4x68
+0.006 5542
1454
+0.006 2517
+0.002 8407
625
23
1.003 0061
x.002 8142
— 2
-0.001 3088
-0.009 1717
1455
-0.000 5703
-0.003 9812
634
24
X.002 5490
x.002 2105
29
0.017 0337
0.024 8942
1456
0.007 3918
0.010 8018
643
25
-1. 001 7987
-i.ooi 3137
- 57
-0.032 7528
-0.040 6089
+1457
-0.014 2109
—0.017 6x90
+652
26
I.OOO 7556
I.ooo 1244
84
0.0484621
0.056 3x18
1457
0.02 X 0257
0.024 4308
661
27
0.999 4200
0.998 6424
1X2
0.064 1574
0.071 9984
1457
0.027 8342
0.031 2356
669
28
0.997 7916
0.996 8678
140
0.079 8342
0.087 6642
1457
0.034 6347
0.038 0314
677
29
0.995 8709
0.9948009
x68
0.095 4880
0.103 3050
1456
0.041 4253
0.044 8163
685
30
-0.993 6578
-0,992 4418
—196
-0.1 II 1x47
—0.1x89165
+-1454
-0.048 2042 -0.051 5887
+693
Oct. X
-0.991 1527
-0.989 7906
—224
-0.1267098
-0.134 4941
+1452
[-0.054 9696
—0.058 3466
+701
[Eph 12]
206
SUN'S CO-ORDINATES, 1912.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
X
Redac.
to
«. Redac.
1 to
z
RedaQ
to
Mean
Mean!
Mean
Date.
True Equinox.
Eq'x of
Jan. 0.
Trae Eqatnox.
Eq'x ol
Jan.0.
Trne Bqoinoz.
Eq'x of
Jan. a
Noon.
Midnight.
Noon.
Noon.
Midnight.
Noon.
Noon.
Midnight.
Noon.
Oct I
-0.991 1527
—0.989 7906
— 224
-0.1267098
-0.1344941
+1452
-0.054 9696
-0.058 3466' 470Z
2
0.988 3555
0.986 8473
252
0.142 2688
0.1500335
1450
0.061 7195
0.065 088 X 708
3
0.985 2662
0.9836123
281
01577874
0.1655299
1447
0.068 4520
0.071 81 11
715
4
0.981 8856
0.980 0861
309
0.1732606
0.1809790
1443
0.075 X650
0.078 5136
722
5
0.9782138
0.976 2687
338
0.1886843
0.1963759
1439
0.081 8565
0.085 X936
729
6
-0.974 2509
—0.972 1605
- 367
-0.204 0533
-0.211 7157
+1435
-o.o88 5245
-0.091 8490
+735
7
0.969 9977
0.967 7626
396
0.2x9 3627
0.226 9937
1431
0.095 X669
0.098 4778
741
8
0.965 4552
0.963 0757
425
0.234 6079
0.242 2047
1426
0.101 7815
0.1050777
747
9
0.960 6242
0.958 1009
454
0.249 7836
0.257 3439
1421
0.108 366X
0.111 6465
753
zo
0.955 5059
0.952 8395
483
0.2648851
0.272 4064
X416
0.114 9185
0.118 1819
758
ZI
-0.950 1018
—0.947 2928
- 513
-0.279 9073
-0.287 3872
4-1410
-0.121 4365
—0.1246819
+763
Z2
0.9444128
0.941 4621
542
a 294 8454
0.3022815
1403
0.X279179
O.131 1444
768
13
0.938 4409
0.935 3496
571
0.3096948
0.3170846
1396
0.1343609
0.137 5671
773
14
0.932 1883
0.928 9574
600
0.324 4505
0.331 7918
1388
0.1407628
0.1439479
778
15
0.925 6570
0.922 2874
630
0.3391079
0.346 3983
1380
0.147 1221
0.150 285 X
782
z6
-0.918 8488
-0.915 3416
- 660
-0.3536625
-0.3609000
+1372
-0.1534367
-0.1565767
+786
X7
0.911 7659
0.908 1 22 1
689
0.368 no I
0.3752924
1363
0.1597048
0.162 8207
790
z8
0.904 4105
0.9006313
718
0.382 4464
0.3895715
1354
0.165 9243
0.1690153
793
X9
0.896 7848
0.892 8714
747
0.3966671
0.4037325
1344
0.1720934
0.175 1584
796
20
0.8888913
0.884 8448
777
0.410 7673
0.417 7712
1334
0.1782102
0.181 2486
799
21
-0.880 7321
-0.876 5536
- 806
-^•424 7436
-0.431 6840
+1323
-0.Z842733
-0.1872840
+802
22
a872 3096
0.8680005
835
0.438 5919
0.445 4668
1312
0.1902805
0.193 2628
804
23
a 863 6265
0.859 1879
864
0.452 3081
0.459 1154
1300
0.1962305
0.199 "834
806
24
0.854 ^50
0.850 1182
893
0.465 8881
0.472 6258
1288
0.202 12x4
0.205 0441
808
25
0.845 4877
0.840 7938
922
0.479 3280
0.4859943
1275
0.2079514
O.2Z08432
809
26
-0.836 0368
-0.831 2171
- 951
-0.492 6242
-0.4992173
+1262
-0.2137192
—0.216 5792
+810
27
0.826 3351
O.82Z 3910
980
0.505 7729
0.512 2906
1249
0.2194230
0.222 2504
811
28
0.816 3851
o.8zi 3x77
1009
0.518 7698
0.525 2102
1235
0.2250611
0.227 8550
812
29
0.806 Z891
0.800 9997
1038
0.531 61 13
0.537 9727
1221
0.230 6318
0.2333913
812
3°
0.795 7497
0.790 4395
1067
0.544 2938
0.550 5741
1207
0.236 1335
0.238 8581
812
31
-0.785 0694
-0.779 6397
-Z096
-0.5568130
-0.563 010 x
+1192
-0.241 5648
-0.244 2534
+811
Nov. z
0.774 1508
0.768 6029
Z125
0.569 1650
0.575 2772
"77
0.246 9237
0.249 5755
810
2
0.762 9966
0.757 332a
"53
a 58 1 3460
0.587 3709
ii6x
0.252 2086
0.254 8227
809
3
0.751 6ioo
0.745 8303
1x82
0.5933515
0.599 2874
"45
0.257 4175
0.259 9929
808
4
0.739 9936
0.734 Z004
1210
0.605 1779
0.611 0226
1129
0.262 5487
a 265 0846
8c6
5
-0.728 1 5 10
-a722 X458
-1238
^616 8209
-0.622 5722
-♦•1112
-0.267 6005
—0.270 0960
+804
6
0.716 0852
0.709 9697
1266
0.628 2762
0.633 9326
1094
0.272 5709
0.275 0252
802
7
0.703 7997
0.697 5758
1294
0.639 5407
0.645 0999
1077
0.277 4586
0.279 8707
800
8
0.691 2984
0.684 9680
X322
0.650 6097
0.656 0697
1059
0.282 2613
a 284 6304
797
9
0.678 5851
0.672 1503
1349
0.661 4795
0.666 8386
1040
0.286 9776
0.289 3028
794
zo
-0.665 ^40
-0,659 1267
-1376
-0.672 1465
-0.677 4028
+1021
-0.291 6058
-0.293 8863
+790
ZI
0.652 5390
0.64590x5
1403
0.682 6071
0.687 7589
lOOX
0.296 1442
0.298 3794
786
Z2
a639 2x46
0.632 4788
1430
0.692 8579
0.697 9037
981
0.3005916
0.3027807
782
13
0.625 ^48
0.618 8630
1457
0.702 8958
0.707 8338
960
0.3049465
0.307 0887
777
14
0.61 1 9841
0.605 0586
1483
0.712 7Z74
0.7x7 5462
939
0.309 2073
0.311 3021
772
15
-0.598 0870
-0.591 0698
— 1510
-0.722 3198
-0.727 0378
+ 918
-0-3I3 3729
-0.3154196
4767
Z6
[-0.584 0076
-0.5769009
-1536
-0.73Z 7000
-0.736 3059
+ 896
-0.317 4420
-0.319 4399
+762
[Eph la]
SUN'S CO-ORDINATES, 1912.
207
FOR GREENWICH MEAN NOON AND MIDNIGHT.
X
Raduc.
to
Mean
Y
Reduc.
to
Mean
z
Reduc.
to
Mean
Date.
True Equinox.
Eq'zof
Jan.o.
True Equinox.
Eq'zof
Jan. a
True Equinox.
Eq'xof
Jan. 0.
Noon.
Midnight.
Noon.
Noon,
Midnight.
Noon.
Noon.
Midnight.
Noon.
Nov. i6
-0.584 0076
—0.576 9009
-1536
-0.731 7000
-0.736 3059
+896
-0.3174420
-0.319 4399
+762
17
0.5697503
0.5625564
1562
0.740 8552
0.745 3476
873
O.32Z 4133
0.323 3620
756
18
0.555 3198
0.548 0409
1588
0.749 7828
0.754 1604
850
0.325 2858
0.327 Z846
750
19
0.540 7203
0.533 3586
1613
0.758 4800
0.762 74Z5
827
0.3290583
0.3309066
743
20
0.525 9564
'0.5Z8 5Z42
1638
0.766 9444
0.771 0884
803
0.332 7296
0..334 5271
736
21
-0.51 1 0325
-0-5035^18
-1663
-0.775 1732
-0.779 1986
+778
-0.336 2989
-0.3380450
+729
22
0-495 9528
0.488 356Z
1687
0.783 1642
0.787 0699
753
0.3397651
0.3414592
722
23
0.480 7222
0.473 0516
1711
0.7909153
0.794 70OZ
728
0.343 1272
0.3447689
714
24
0.465 3448
0.457 6024
1735
0.798 4241
0.802 0870
703
0.3463842
0.3479730
706
25
0.449 8249
0.442 OZ29
1759
0.805 6886
0.809 2284
677
0.3495352
0.351 0708
698
26
-0.434 1670
-0.426 2876
-1782
-0.8 z 2 7063
-o.8z6 Z2Z9
+651
-0.3525795
-0.3540612
+689
27
0.418 3754
O.4ZO 4308
1805
0.8194751
0.822 7656
625
0.3555159
0.3569434
680
28
0.402 4544
0.3944467
Z827
0.825 9930
0.829 1569
598
0.358 3436
0.3597163
67 z
29
0.386 4084
0.378 3399
1849
0.832 2571
0.835 2933
570
0.361 0614
0.362 3788
66z
30
0.370 2419
0.362 II 50
1870
0.838 2653
0.841 1731
542
0.3636684
0.364 9301
651
Dec. z
-0.3539597
-0.345 7767
-1 891
-0.844 oz6z
-0.846 7939
+514
-0.366 Z638
—0.367 3692
+64Z
2
0-337 5665
0.329 3298
1912
0.849 5063
0.852 Z532
486
0.3685462
6.3696949
631
3
0.321 0672
0.3127794
Z932
0.854 7343
0.857 2492
457
0.370 8 z 50
0.37Z 9064
62Z
4
0.304 4670
0.296 1306
1952
0.859 6978
0.862 0797
427
0.3729689
0.3740026
6zo
5
0.287 7709
0.279 3887
Z97Z
0.864 3947
0.866 6426
397
0.3750073
0.3759829
599
6
-0.270 9845
-0.262 5590
-Z990
-0.868 8233
-0.8709365
+367
-0. 376 9292
-0.3778462
+587
7
0.254 1 1 30
0.245 6470
2008
0.872 9820
0.874 9596
336
0.378 7338
0.379 5919
575
8
0.237 1619
0.228 6583
2026
0.876 8690
0.878 7Z02
305
0.3804204
0.38Z 2Z93
563
9
0.220 1369
0.2 zz 5985
2044
0.880 4829
0.882 Z870
273
0.38Z 9885
0.3827279
551
zo
0.203 0438
0.1944734
2061
0.883 8224
0.885 3890
241
0.3834374
0.384 ZZ70
538
IZ
-0.1858880
-0.Z772881
-2077
-0.886 8866
-0.888 3152
+208
-0.3847667
-0.385 3864
+525
Z2
0.1686746
0.1600484
2093
0.889 6747
0.890 9648
175
0.385 976Z
0.3865356
512
13
0.151 4100
0.1427600
2108
0.892 Z854
0.893 3366
Z42
0. 387 0649
0.387 5641
499
M
0.1340993
0.1254285
2Z23
0.894 4Z83
0.895 4304
Z08
0.388 0332
0.388 4720
485
15
0.Z167483
0.Z08 0594
2Z37
0.896 3729
0.897 2456
74
0.388 8806
0.3892590
471
z6
-0.099 3624
-0.090 658 z
-2Z50
-0.898 0486
-0.898 7818
+ 40
-0.389 607 z
-0.3899248
+457
X7
0.081 9472
0.073 2302
2163
0.899 4451
0.900 0386
-H 5
0.3902122
0.3904695
443
z8
0.064 5079
0.055 7810
2Z76
0.900 5622
0.90Z 0160
- 30
0.3906963
0.3908928
428
19
0.047 0501
0,038 3160
2z88
0.901 3998
0.90Z 7Z37
65
0.3910590
0.39Z Z948
413
20
0.029 5792
0.020 8404
2Z99
0.90Z 9577
0.902 1 319 100
0.391 3004
0.391 3757
398
21
-O.OZ2 1003
-0.003 3595
—2209
-0.902 2362
-0.902 2706 -136
-0.39Z 4207
-0.391 4354
+383
22
fO.005 38x3
+aoz4 Z215
22x8
0.902 235Z
0.902 Z299 172
0.391 4»99
0.391 3741
367
23
0.022 8607
0.031 5980
2227
0.901 9549
0.901 7102
208
0.39Z 2980
0.39Z Z9z8
351
24
0.040 3329
0.049 0645
2235
0.9OZ 3957
0.901 0115
245
0.391 0554
0.3908888
335
25
0.057 7924
0.066 5z6z
2243
0.900 5575
•
0.900 0339
282
0.390 69 Z9
0.3904648
318
26
+0.075 2348
+0.083 9479
—2250
-0.899 4406
-0.898 7776
-319
-0. 390 2076
-0.3899202
+30Z
27
0.092 6548
0.Z0Z 3548
2256
0.898 0449
0.897 2427
356
0.3896026
0.3892548
285
28
0.1100474
0.ZZ873Z8
226Z
0.896 3709
0.895 4294
394
0.3888768
0.3884686
268
29
0.1274074
0.Z360735
2266
0.894 4183
0.893 3377
432
0.3880303
0.387 56Z9
25Z
30
0.1447295
0.Z533746
2270
0.892 1876
0.890 9680
470
0.3870633
0.3865346
234
31
+O.Z62 0081
+0.1706294
—2272
-0.889 679 z
-0.888 3208
-508
-0.3859757
-0.385 3868
+216
32
40.Z79 2378
+a 187 8326
-2273
-0.886 8932
-0.885 3963
-546
-0.3847678
-0.384 1 1 88
+Z98
[Eph la]
208 MOON'S LONGITUDE AND LATITUDE, 1912,
FOR MEAN NOON AND MIDNIGHT.
MOON'S LONGITUDE AND LATITUDE, 1912. 209
FOR GREENWICH MEAN NOON AND MIDNIGHT.
v^jta
APRIL. 1
Day of
Month.
MAY. 1
Day of
Month.
JUNE.
Moocli.
True Long.
Latitade.
True Long.
Latitude. 1
Tma Long.
Latitude.
0 » #»
e
» M
0
*
M
0
' "
e
t
tt
e
t ft
x.o
».5
2.0
2-5
30
186 0 z6.2
192 54 50.4
199 44 59.2
206 30 25.2
213 10 56.8
+1
0
+0
-0
I
24 44.7
47 23.4
9 43-8
27 39.0
4 12.3
I.O
15
2.0
2.5
30
221 34
228 2
234 26
240 47
247 4
16.5
II.8
28.0
5-9
9.3
-I 48 3 9
2 20 42.7
2 51 14 7
3 19 20.3
3 44 43 3
1.0
1-5
2.0
2.5
30
267 49 41.2
273 53 401
279 55 37-5
285 55 46.x
291 54 21. 1
-4 42 36.5
4 53 22.0
5 0 46.4
5 4 48.5
5 5 28.8
3.5
4.0
4-5
50
55
219 46 27.9
226 16 58.4
232 42 34.0
239 3 25.2
245 19 47.3
-I
2
2
3
3
39 26.8
12 56.6
44 19.5
13 16.8
39 33 I
3-5
4.0
4-5
5.0
5-5
253
259
265
271
277
17 45-5
28 4.8
35 20.7
39 49-9
41 52.3
-4
4
4
4
5
7 IO-4
26 31.2
42 38.0
55 25.5
4 50.3
3-5
4.0
4.5
50
5.5
297
303
309
315
321
51 40-5
48 51
43 58.6
39 47.5
36 1.2
-5
4
4
4
4
2 49.4
56 53 9
47 46.8
35 337
20 21.2
6.0
65
7.0
7-5
8.0
251 32 0.3
257 40 27.7
263 45 362
269 47 55.2
275 47 56.5
-4 2 56.3
4 23 16.9
4 40 27.6
4 54 23.2
5 5 0.0
6.0
6.5
7.0
75
8.0
283
289
295
301
307
41
40
37
33
30
51.0
11.8
22.9
547
19.8
-5
5
5
5
5
10 50.9
13 27.0
12 39.8
8 31.3
I 4.6
6.0
6.5
7.0
7.5
8.0
327
333
339
345
351
33
31
32
36
42
II.2
51.3
37.1
5.6
54-5
-4
3
3
2
2
2 16.7
41 28 6
18 6.0
52 19.3
24 20.3
8.5
90
95
10.0
10.5
281 46 1 3. 1
287 43 19.2
293 39 49 5
299 36 19- 1
305 33 23.0
-5
5
5
5
5
12 15.4
16 8.1
16 37.6
13 44 I
7 28.7
8.5
9.0
9 5
IO.O
10.5
313
319
325
331
337
27
25
24
26
31
12.1
6.5
38.8
24.9
0.5
-4
4
4
3
3
50 23.5
36 32.3
19 36.6
59 42.8
36 58.5
8.5
9.0
9-5
IO.O
10.5
357
4
10
16
23
53
9
29
55
28
41.6
39
36.8
531
21.4
-I
I
0
-0
+0
54 22.2
22 40.3
49 32.0
15 174
19 40.4
II.O
11.5
X2.0
12.5
X30
311 31 35.0
317 31 27.8
323 33 32.7
329 38 18.9
335 46 12.9
-4 57 53.1
4 45 0.2
4 28 53.8
4 9 39 4
3 47 24.0
II.O
II.5
12.0
12.5
13.0
343
349
356
2
8
39
50
7
28
55
0.1
56.8
21. 1
40.3
177
-3
2
2
I
X
II 32.9
43 36.9
13 23.8
41 9.4
7 12.4
XI.O
II.5
12.0
12.5
130
30
36
43
50
57
7
53
46
46
52
24.9
19.8
13.8
5.0
40.2
+0
I
2
2
3
54 55-3
29 58.0
4 15-9
37 14 3
8 16.0
135
14.0
M5
150
15-5
341 57 38.6
348 12 56.4
354 32 22.8
0 56 10.5
7 24 27.5
-3
2
2
I
I
22 16.8
54 29 2
24 15.5
51 52.8
17 415
135
14.0
145
15.0
155
15
22
28
35
42
27 31.4
5 33 9
49 30.6
39 193
34 497
-0
+0
0
I
X
31 54.6
4 18.6
40 58.4
17 32.8
53 27.0
135
14.0
145
15.0
155
65 5
72 24
79 47
87 15
94 45
341
97
38.3
0.7
9.4
+3 36 42.8
4 I 57 7
4 23 25.5
4 40 34.9
4 53 0.5
16.0
16.5
17.0
175
18.0
13 57 17.3
20 34 38.8
27 16 26.3
34 2 29.3
40 52 33 0
-0
-0
+0
I
X
42 5.2
5 30.7
31 32.4
8 31 9
44 53 6
16.0
16.5
17.0
175
18.0
49
56
63
71
78
35
41
51
5
22
432
327
432
32.9
14.1
+2
3
3
3
4
28 4.2
0 46.4
30 56.0
57 56.9
21 16.1
16.0
16.5
17.0
175
18.0
102
109
117
124
132
16 51.4
48 51.5
19 55-6
48 54.1
14 44-9
+5
5
4
4
4
0 23.8
2 34 5
59 31 0
51 199
38 15 8
18.5
19.0
195
20.0
20.5
47 46 19.0
54 43 25.6
61 43 28.2
68 46 0.4
75 50 34 6
+2
2
3
3
4
20 2.5
53 23 3
24 21.5
52 24.3
17 1.8
185
19.0
195
20.0
20.5
85
93
100
107
114
40
0
20
40
58
55-2
42.8
437
6.7
4.8
+4
4
5
5
5
40 25.0
55 0.4
4 45 6
9 311
9 14- 1
18.5
19.0
19.5
20.0
20.5
139
146
154
161
168
36
53
5
II
12
351
42.8
375
59.8
40.6
+4
3
3
3
2
20 40.2
58 59.6
33 44-6
5 28.2
34 44 4
21.0
21.5
22.0
22.5
23.0
82 56 42.9
90 3 57.7
97 " 52.2
X04 20 I.I
III 28 0.7
+4
4
5
5
5
37 47-6
54 195
6 20.2
13 37.6
16 4.7
21.0
21 5
22.0
22.5
23.0
122
129
136
143
150
13
27
37
43
46
56.5
6.8
7.8
38.6
25.2
+5
4
4
4
3
3 58.8
53 55 5
39 19 9
20 32.5
57 57- 1
21.0
21.5
22.0
22.5
23.0
175
181
188
195
201
7
57
41
20
54
397
4.6
8.3
8.3
24.8
+2
I
0
+0
-0
2 73
28 10.2
53 25.2
18 22.7
16 28.9
235
24.0
245
25.0
255
118 35 29.4
125 42 7.5
132 47 370
139 51 417
146 54 7.0
+5
5
4
4
4
13 400
6 27.3
54 35 3
38 17 4
17 51.4
235
24.0
245
25.0
255
157
164
171
178
185
45
40
31
18
2
19.8
19.6
26.2
44-3
20.8
+3
3
2
X
I
32 0.5
3 II 5
32 0.1
58 56.8
24 32.5
23.5
24.0
245
25.0
25.5
208
214
221
227
233
24
50
12
31
47
195
14.8
32.4
32.8
352
-0
I
I
2
2
50 43.2
23 56.0
55 44-8
25 492
53 510
26.0
26.5
27.0
275
28.0
153 54 39.4
160 53 6.1
167 49 15.0
174 42 54.6
181 33 53.7
+3
3
2
2
I
53 39 0
26 53
55 38.5
22 48.8
48 8.4
26.0
26.5
27.0
275
28.0
191
198
204
211
217
42 24.0
19 2.7
52 25.3
22 40.0
49 53.9
+0
+0
-0
0
I
49 17 8
13 42.5
21 44.4
56 35.2
30 23.8
26.0
26.5
27.0
27.5
28.0
240
246
252
258
264
0
II
20
27
32
56.8
527
36.3
19.1
II. 2
-3
3
4
4
4
19 33.6
42 42.6
3 5.4
20 31.7
34 52.9
28.5
29.0
29^5
30.0
30.5
z88 22 1.5
195 7 7.6
201 49 2.3
208 27 36^
215 2 43.5
+1
+0
-0
0
I
12 10.4
35 28.0
I 25.6
37 58.6
13 40.7
28.5
29.0
29.5
30.0
30.5
224
230
236
243
249
14 13-2
35 43.4
54 29.0
10 34.2
24 30
-2
2
3
3
3
2 45-8
33 190
I 43.2
27 40.7
50 56.2
28.5
29.0
29.5
30.0
30.5
270 35 21.6
276 36 58.6
282 37 10.5
288 36 6.2
294 33 550
-4
4
4
4
4
46 2.4
53 55-8
58 30.8
59 467
57 447
3x0
3x5
221 34 X6.5
228 2 11.8
-I
-2
48 3-9
20 42.7
31.0
315
255
261
35
43
0.0
30.6
-4
-4
II 17.0
28 35.0
31.0
300
30
48.0
VIA
1 -4 52 2iA
[Bph la]
210 MOON'S LONGITUDE AND LATITUDE, 1912.
FOR H MEAN NOON AND
MOON'S LONGITUDE AND LATITUDE, 1912. 211
FOR H MEAN NOON AND MIDNIGHT.
212 MOON'S EQUATOR, LONGITUDE, ETC., 1912.
GREENWICH MEAN NOON.
MOONS EQUATOR.
r'
^
<[
•
t
A
Q'
Dfttd.
Mean
Inclination
to the
Earth's
Equator.
Ascending
Node
on Earth's
Equator to As-
cending Node
on Ecliptic.
Ascending
Node on
Earth's
Equator.
Longitude of
the Moon's
Perigee.
Daily Motion,
+ 6'.684.
Lonsitode
of Moon's
Ascending
Node.
Daily Mo-
tion,
Moon's
Mean
Longitude.
Mean
Solar
Days.
Motion of
Moon
in Mean
LongitudeL
— 3'.i77-
0
1
0 '
0 *
0 /
e t
0 f
0 *
Jan. I
22
8.7
208 43.8
358 12.6
102 36.6
27 5.0
62 35.6
O.I
I 19.06
II
22
8.3
208 10.4
358 14-6
103 43.5
26 33.2
194 21.4
0.2
2 38.12
21
22
7.9
207 36.9
358 16.5
104 50.3
26 1.5
326 7.3
0.3
3 57.18
31
22
7.5
207 3.4
358 18.5
105 57.2
25 29.7
97 53.1
0.4
5 16.23
Feb. lo
22
7.2
206 29.9
358 20.5
107 4.0
24 57.9
229 39.0
0.5
0.6
6 35.29
7 54.35
20
22
6.8
205 56.3
358 22.5
108 10.9
24 26.1
I 24.8
0.7
9 13-41
Mar. I
22
6.4
205 22.7
358 24.4
109 17.7
23 54-4
133 10.6
0.8
10 32.47
II
22
6.1
204 49.0
358 26.4
I ID 24.5
23 22.6
264 56.5
0.9
II 51-53
21
22
5.7
204 153
358 28.4
III 31-4
22 50.8
36 42.3
I.O
13 10.58
31
22
5.4
203 41.6
358 30.4
112 38.2
22 19.0
168 28.1
2.0
26 21.17
Apr. lo
22
5.1
203 8.0
358 32.4
113 45.1
21 47-3
300 14.0
3.0
A ^\
39 31-75
20
22
4.8
202 34.4
358 34-4
114 51.9
21 155
71 59-8
4*o
52 42.33
65 52.92
30
22
4.4
202 0.8
358 36.4
115 58.8
20 43-7
203 45.7
5-0
6.0
May 10
22
4.1
201 27.2
358 38.5
117 5.6
20 12.0
335 31.5
79 350
20
22
3.8
200 53.5
358 40.5
118 12.4
19 40.2
107 17.3
7.0
8.0
92 14.09
105 24.67
30
22
3.5
200 19.8
358 42.5
119 19.3
19 8.4
239 3.2
9.0
118 35.25
June 9
22
22
3.2
2.9
199 46.2
199 12.6
358 44.6
358 46.6
120 26.1
121 33.0
18 36.6
18 4.9
ID 49.0
142 34.9
lO.O
I3» 45.84
19
e
29
22
2.7
198 38.9
358 48.7
122 39.8
17 331
274 20.7
I
0 32-94
July 9
22
2.4
198 5.2
358 50.8
123 46.7
17 1.3
46 6.5
2
3
1 5.88
I 38.82
19
22
2.2
197 31.5
358 52.9
124 53.5
16 29.5
177 52.3
4
2 XI.76
29
22
2.0
196 57.8
358 54-9
126 0.3
15 57.8
309 38.2
5
2 44.70
Aug. 8
22
1.8
196 24.1
358 57.0
127 7.2
15 26.0
81 24.0
6
3 17.65
18
22
1.6
195 50.4
358 59.1
128 14.0
14 54-2
213 9-9
7
3 50.59
28
22
1.4
195 16.7
359 1.2
129 20.9
14 22.5
344 55.7
8
9
4 23.53
4 56.47
Sept. 7
22
I.I
194 42.9
359 3.3
130 27.7
13 50.7
116 41.6
10
5 29.41
17
22
0.9
194 9.2
359 5.4
131 34-6
13 18.9
248 27.4
II
6 2.35
27
Oct. 7
22
22
0.7
0.5
193 35-5
193 1.8
359 7.5
359 9.7
132 41,4
133 48.2
12 47.1
12 15.4
20 13.2
151 59.1
12
13
14
6 35-29
7 8.23
7 4».»7
17
22
0.3
192 28.0
359 11.8
134 55.1
II 43.6
283 44.9
27
22
0.1
191 54.2
359 13.9
136 1.9
II 11.8
55 30.8
15
8 14. 1 1
Nov. 6
22
0.0
191 20.5
359 16.1
137 8.8
10 40.1
187 16.6
16
8 47.06
16
21
59.8
190 46.8
359 18.2
138 15-6
10 8.3
319 2.4
17
9 20.00
26
21
59-7
190 13.0
359 20.4
139 22.4
9 36.5
90 48.3
18
9 52.94
Dec. 6
21
59.5
189 39.2
359 22.6
140 29.3
9 4-7
222 34.1
19
20
10 25.88
10 58.82
16
21
594
189 5.5
359 24.8
141 36.1
8 330
354 20.0
21
II 31.76
26
21
59-3
188 31.7
359 26.9
142 43.0
8 1.2
126 5.8
22
12 4.70
36
21
59.2
187 57-9
359 29.1
143 49.8
[Bph 19]
7 29.4
257 51.6
23
13 37.64
MOOFS IIBRATIOK SUN'S ABERRATION AND PARALLAX. 213
QUANTITIES REQUIRED IN COMPUT-
ING THE MOON'S LIBRATION.
Argument, (Q— A), or (Q— A— 180O).
Q-A
o
2
4
6
8
zo
12
M
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
66
68
70
72
74
76
78
80
82
84
86
88
90
0.0
0.0
0.1
0.2
0.2
0.2
0.3
0.3
03
03
0.4
0.4
0.4
0.5
0.5
05
0.5
05
0.5
0.6
0.6
0.6
0.6
0.6
0.6
0.6
0.6
0.5
05
0.5
0.5
0.5
0.5
0.4
0.4
0.4
0.4
0.3
03
0.2
0.2
0.2
0.1
0.1
0.0
0.0
I
A
39
39
39
39
39
39
40
40
40
41
41
42
42
43
44
45
46
47
48
49
50
52
54
56
58
60
63
66
69
73
77
83
89
95
103
"3
125
141
160
186
222
278
370
554
mo
00
o
o
o
o
o
o
o
0.0
3.1
6.2
9 3
12.4
o 15.4
o 18.5
o 21.5
o 24.5
o 27.4
o 30 3
o 33.2
o 36.1
o 38.9
o 41.7
o 44.4
o 47.0
o 49.7
o 52.2
o 54-7
57.1
594
17
39
6.0
8.0
lO.O
II.8
136
153
16.9
18.4
19.8
21. z
22.3
23.4
24.4
253
26.1
26.8
27.4
27.9
28.3
28.6
28.7
28.8
fi has the sign of tan ( A — Q)
A has the sign of cos ( ^ ^ A )
B has the sign of sin ( Q ^ A )
See formulae, page 566.
ft -A
z8o
178
176
174
Z72
Z70
168
166
164
Z62
160
158
Z56
154
152
150
148
146
144
142
140
138
Z36
134
132
130
Z28
Z26
124
Z22
120
118
Z16
114
112
ZIO
Z08
Z06
104
Z02
100
98
96
94
92
90
SUN'S ABERRATION AND HORI-
ZONTAL PARALLAX.
For Grbsnwicb Mean Noon.
Date.
Z9Z2.
Jan. I
II
21
31
Feb. 10
March
April
May
June
July
Aug.
Sept.
Oct.
Nov.
Dec.
20
I
II
21
31
10
20
30
10
20
30
9
19
29
9
19
29
8
18
28
7
17
27
7
17
27
6
16
26
6
16
26
36
Aberration.
{Strttve.)
20.79
20.78
20.77
20.75
20.71
20.67
20.62
20.57
20.51
20.45
20.39
20.34
20.28
20.23
20.19
20. z6
20. z 3
20. z I
20. zo
20.10
20. zz
20.13
20. z 6
20.20
20.24
20.29
20.34
20.40
20.46
20.52
20.58
20.63
20.68
20.72
20.75
20.77
20.79
20.79
Hor. Par.
f ;
8.95
8.95
8.94
8.93
8.92
8.90
8.87
8.85
8.83
8.8z
8.78
8.76
8.73
8.7Z
8.69
8.68
8.67
8.66
8.65
8.66
8.66
8.67
8.68
8.70
8.72
8.74
8.76
8.78
8.8z
8.83
8.86
8.88
8.90
8.92
8.93
8.94
8.95
8.95
Sun's Mean Equatorial Horizontal
Parallax.
8 ".80; log = 0.94448.
[Eph 18]
214 PRECESSION AND OBLIQUITY, 1912,
(CONSTANTS OP PARIS CONFERENCE.)
FOR GREENWICH MEAN NOON.
Nutation.
Nutation.
Preces-
sion in
Longi-
tude
from
2913^.
Obliquity
Ecliptic.
Date.
Preces-
sion in
Longi-
rude
from
x9X3.a
Date.
In
Longi-
tude.
a' a
InR.A.
In
ObUqui-
ty.
In
Longi-
tude.
a'a
InR. A.
a'«
In
ObUqni-
ty.
Obliquity
Ecliptic.
{Ntwcomb.)
23' 27'
VT 77*
M
**
s
m
m
n
If
s
If
w
Jan. I
- 0.03
-7.25
-0.443
+7.62
10.26
July 4
+25.42
-4.50
-0.276
+8.24
ia64
6
+ 0.66
6.96
0.426
7.69
10.32
9
26.11
4.26
0.261
8.30
X0.69
XI
1-35
6.70
0.410
7.76
10.39
14
26.80
4.03
0.247
8.37
10.75
i6
2.03
6.46
0.395
7.84
10.47
19
27.49
3.83
0.234
8.44
io.8a
21
2.72
6.25
0.382
7-94
za56
24
28.17
3.66
0.224
8.53
Z0.90
26
+ 3.41
-6.07
-0.371
-H8.05
10.66
29
+28.86
-3.51
-0.215
+8.62
10.99
31
4.10
5-93
0.363
8.17
10.77
Aug. 3
29.55
3.40
0.208
8.72
Z1.08
Feb. 5
4-79
5.83
0.357
8.28
ia87
8
30.24
3.32
0.203
8.83
XI.18
zo
5.47
5.78
0.354
8.39
ia98
13
30.93
3.28
0.200
8.93
11.28
15
6.16
5.77
0.353
8.50
ZI.09
18
31.61
3.27
0.200
9.02
11.37
20
+ 6.85
-5.79
-0.354
+8.6z
II. 19
23
+32.30
-3.29
—0.201
+9."
".45
25
7-54
5.84
0.357
8.71
11.28
28
32.99
3.33
0.204
9.20
IX.53
Mar. z
8.23
5.91
0.361
8.79
".35
Sept. 2
33.68
3.41
0.209
9.28
11.60
6
8.91
6.02
0.368
8.86
X1.41
7
34.36
3.51
0.215
9.34
X1.66
ZI
9.60
6.Z5
0.376
8.91
11.46
Z2
35.05
3.63
0.222
9-39
11.70
z6
4-Z0.29
-€.28
-0.384
+8.95
11.50
17
+35.74
-3.76
-0.230
+9.42
11.73
21
Z0.98
6.42
0.393
8.98
11.52
22
36.43
3.89
0.238
9.44
H.74
26
11.67
6.57
a 402
8.98
11.52
27
37.12
4.03
0.246
9.45
XI.74
31
12.35
6.71
0.4x0
8.97
11.50
Oct. 2
37.80
4.16
0.254
9.44
ZI.72
Apr. 5
13.04
6.83
0.418
8.95
11.47
7
38.49
4.29
0.262
9.41
ZZ.69
zo
+13.73
-6.93
-0.424
+8.91
11.42
12
+39.18
-4.40
—0.269
+9.36
11.64
15
14.42
7.01
0.429
8.86
11.36
17
39.87
4.48
0.274
9.30
11.57
20
15.10
7.07
0.432
8.79
11.29
22
40.56
4-54
0.278
9.23
11.50
25
15.79
7.09
0.433
8.72
11.22
27
41.24
4-57
0.279
9.Z6
11.42
30
Z6.48
7.07
0.432
8.65
11.14
Nov. I
41.93
4.56
0.278
9.08
".33
May 5
+17.17
-7.03
-0.430
+8.58
ZI.06
6
+42.62
-4.50
-0.275
+8.99
11.23
10
17.86
6.95
0.425
8.50
10.97
II
43.31
4.40
0.269
8.90
11.13
15
18.54
6.83
0.418
8.43
10.89
16
43.99
4.26
a 261
8.81
11.04
20
19.23
6.67
0.408
8.36
10.82
21
44.68
4.09
0.251
8.73
10.95
25
19.92
6.49
0.397
8.29
10.75
26
45.37
3.89
0.238
8.65
X0.87
30
+20.61
-6.29
-0.385
+8.23
Z0.68
Dec. I
+46.06
-3.65
-0.223
+8.58
10.80
June 4
ai.30
6.06
0.371
8.19
10.63
6
46.75
3.39
0.207
8.53
10.74
9
21.98
5.82
0.356
8.17
10.60
II
47.43
3.10
0.189
8.50
10.70
14
22.67
5.56
0.340
8.15
10. 58
16
48.12
2.79
ai7i
8.48
10.67
19
23-36
5.30
0.324
8.15
10.58
21
48.81
2.48
0.152
8.48
Z0.66
24
+24-05
-5.03
-0.307
+8.16
10.58
26
+49.50
-2.17
-0.133
+8.49
10.67
29
24.73
4.76
0.291
8.19
10.60
31
50.19
1.86
aii4
8.52
10.69
July 4
+25.42
-4.50
-0.276
+8.24
10.64
36
+50.87
—1.56
-0.095
+8.57
10.73
Precessi
Precessi
Precessi
The sho
forW
on for I
on in a i
on in a S
rt perio
aahingt(
9x2 . .
Solar da]
>idereal (
d terms <
jn midn:
. 50. 2<
r . 0.12
day o.i-
3f the N
ight on {
19© log =
176 log =
172 log =
utation s
)p. 231-3
= 1.70121
= 9.13862
= 9.13742
ire given
832.
Newcoi
Hansen
Le Veri
Peters
Mean
rier .
. a •
Obliqu
• • •
« • •
« • •
• • •
ity, 19Z2
• « «
• • «
.0.
2
2
2
2
0 * H
3 27 2.64
3 27 2.40
3 27 2 32
3 27 2.18
[Eph 12]
PART II.
ASTRONOMICAL EPHEMERIS FOR THE
MERIDIAN OF WASHINGTON.
[Eph la] 215
216 FORMULiE FOR THE REDUCTION OF STARS
FROM MEAN TO APPARENT PLACE FOR THE YEAR 1912.
The constants of precession, nutation and aberration adopted by the C(mf€-
rence InUrnationale des £toUes Fondamentales which met in Paris in May, 1896, are
given on page XII, and together with the notation of Bessel are used in the for-
mulae which follow.
BESSELIAN STAR-NUMBERS.
Terms of Long Period. Terms of Short Period,
i4=r— 0.342 19 sin JJ —0.00405 sin 2 (C
-f- 0.004 15 sin 2 JJ -fo.ooo 23 sin ((C -{-F')
— 0.025 26 sin 2 L +0.001 34 sin (£ — F')
-f- 0.002 51 sin (L— r*) —0.00068 sin (2(C — SJ)
— 0.000 99 sin (3 L— r) —0.000 52 sin (3(C — r*')
+ 0.000 42 sin (L+r*) +o«ooo 30 sin (C —2 L+r*')
-|- 0.000 25 sin (2 L— Si) +0'Ooo 12 sin 2 (C — L)
// //
B= — 9.210 cos Q —0.088 cos 2(C
+ 0.090 COS 2 SX —0.018 cos (2(C — SX)
— 0.552 COS 2 L —0.01 1 COS (3(C — r*')
— 0.022 COS (3 L— r) +0.005 COS (C +1^)
+ 0.009 COS (L+JT)
+ 0.007 COS (2 L— Ji)
C= —204700 cos <» cos O
D= —20.4700 sin O
E^ — 0.0419 sin JJ+o".ooo5 sin 2 JJ— o".oo3i sin 2 L
Bbssel's Stor-CofMton/j.
a=3".072 56+ 1 ■.336 39 sin a^ tan ^o a'=2o".0458 cos a^
6=*tV cos a^ tan d^ ^= —sin a^
c—^ cos ttp sec ^o c/^tan (» cos S^—^n a^ sin dp
d=T>j sin a^ sec dp d'=cos a^ sin dp
FormuUBfor Reduction to Apparent Position.
♦ a=ap+r/i+i4a+B6+Cc+M+tJsE (in time)
d =dp + r/i' +i4a' +By ^Cc' +i?d' (in arc)
INDEPENDENT STAR-NUMBERS.
/+/» = +46''.o884 A +E (in arc) =3'.072 56 i4 + ^ E (in time)
/*s=— o".oi24 sin 2(C +o".oo4i sin (C — jT*) +o'.ooo7 sin (C +-r')
— o*.oo2i sin (2(C — Ji) — o".ooi6 sin (3<C — f)
+ o*.ooo9 an (C —2 L+r')-fo*.ooo4 sin 2 (C —L)
9 sin G^B h an H^C i^C tan 09
y cos G= 20^.0458 A h cos // =£>
FormulcBfor Reduction to Apparent Position.
♦ a=aro+/+y*+r/i+TV ^ sin (G+ap) ten dp+^J^ A sin (H+a^) sec dp (in time)
d=dp+r/«'+^ cos (G+ap)+A cos (//+ap) an dp+t cos dp (in arc)
•
In the above formulae
r denotes the time reckoned in units of one year, from the beginning of the
Besselianfictitiousyear (1912, January 1^.006, Washington mean time),
^o» <^oi the star's mean R. A. and Decl. at the beginning of the fictitious year,
a, d, the star's apparent right ascension and declination at the time r,
/I, /i^ the annual proper motion in right ascension and declination,
O, the Sun's true longitude,
L, the Sun's mean longitude,
SI , the longitude of the Moon's
ascending node,
<K>, the obliquity of the ecliptic,
r, the long, of the Sun's perigee,
r*, the long, of the Moon's perigee,
C , the Moon's mean longitude.
*Sce iMge az7 for statement concemiiig the use of these fonnulst.
[Eph li]
FORMULA FOR THE REDUCTION OF STARS, 1912. 217
The independent star-numbers are more convenient than BsssEi^'s, when only
one or two apparent positions of a star are required, or when Bessei^'s star-
constants are not known with sufficient accuracy.
In using the star-constants of the British Association Catalogue, a, b, c, d, a', b\
(/, d\ with the star-numbers of this Ephemeris, the quantities to be computed are
Ac, Bd, Ca, D6,-i4c',-Bd',-Ca',-D6'.
In the computation of the independent star-numbers given for Washington
mean midnight of each day of the year, on pages 222-229, the short-period terms —
that is, the terms involving the Moon's mean longitude — have been included in the
two coltmms headed G and Log g* The quantities/ and^ correspond to/ QXLdf\
respectively, as given on the page of constants in Part IV of the American Ephemeris
for the years 1901 to 191 1, inclusive, and are tabulated in the third and fourth
columns, respectively, giving separately the effect of the long-period and short-
period terms. / diflFers but slightly from the term — o".i866 sin 2 (L + o''.o622 sin
( (C —J^) given on page 37 of the Prochs-Verhaux of the Paris Conference, and also
on page 289 of the American Ephemeris and Nautical Almanac for 1900. In com-
puting the reduction of stars from mean to apparent place, or vice versa* using the
independent star-numbers, the quantity/' (which is the same for all stars) should
be omitted in using the formulae for a on page 216, in case it is desired to make the
reduction in conformity with the decision of the Paris Conference with reference
to this matter. See page of Procks-Verbaux above dted.
In the computation of the Besselian star-numbers, pages 218-221, all short-
period terms have been included, and hence in using these quantities in the reduction
of stars to apparent place by means of the formula for that purpose on page 216,/'
must be subtracted from the final result if it is desired, in compliance with the
decision of the Paris Conference, to omit that quantity.
In computing the ephemerides of the drctunpolar stars in this volume, all
short-period terms have been included, excepting the quantity/' above mentioned,
which has been omitted.
In the computation of the ephemerides of the ten-day stars, no short-period
terms have been included. These terms attain two maxima and two minima
during the tropical month. At maximum and minimum they may amount in
right ascension to ±0^.008 tan S, and in declination to ±©''.13. For computing
the effect of these terms for the correction of the positions of stars interpolated
from the ten-day ephemerides, the following formtdae may be used, in which ^a
and ^S denote the effect of the short-period terms in right ascension and decli-
nation, respectively, and S^'if> and d^'a>, the sum of the short-period terms of the
nutation in longitude and obliquity:
The values of S"^ and of 6*'oa for Washington mean midnight are given for
each day of the year on pages 231-232, and have been computed as follows:
d^'tf,^ 5o".37 A, (y"(»= - JB,
in which A, and B, are the sums of the short-period terms given in the expressions
for A and B on page 216.
The quantities D'^a^ £^»«> D^6, and D^^d are given for each ten-day star on
pages 287-486, and have been computed by means of the following formulae:
D'^a^ -i*y sin flf tan d sin a? ^a>^= ~ i^ir cos a tan d
D^6=cos or sin CO Df^6=sm a
The complete derivative of the right ascension with reference to tf^ is
D^o[=-f^ (cos co-f sin a tan d sin go)
and the omission of the term -^ cos <a is made in accordance with the above-
mentioned decision of the Paris Conference with reference to the quantity/.
[Eph 18]
218
BESSELIAN 8TAR-NUMBEBS, 1912.
FOR WASHINGTON MEAN laDNIGHT.
^4L^r ^^^' VogB. VogC,
UmD,
Solar Day. • m
(Sid. Hr.) ■^* ^'
UmB.
LocC.
Loci>.
Jan. o —9.18033 '-o.SSoo -0.48873
+1.30519
Feb. 15 +-8.14457
-0.9382
-1.19321
+1.05656
I
9-16438
0.8780; 0.53279 1
1.30384
16 8.22763
0.9314
1-19824
1.04491
2
9-M504
0.8771 1 0.57266 1
1.30234
17 8.27990
0.9346
1.20308
1.03280
3
9.12366
0.8776 t 0.60905 !
1.30070
18 8.31006
0.9376
i.ao772
X. 0202 2
4
9.10212
0.8797 • 0.64249 ■
1.29891
^ 19 8.32469
0.9397
1.2 1 2 19
I.007I3
h 5 -9-08243
-0.8829 '—0.67342
+1.29698
(10.0)20 +-8.33183
-0.9410
-1.21647
^-99350
(7«0) 6! 9.06614
0.8867 0.70216 •
1.29491
21 ' 8.34064
0.9411
1.22058
0.97929
7! 9-05392
0.8903 ' 0.72898
1.29268
22 8.36022
0.9402
1.2245 1
0.96447
8' 904521
0.8930 0.75412
1.29031
23' 8.39550
0.9386
1.22827
0.94900
9' 9.03846
1
0.8945 j 0.77775
1.28778
24 844654
1
0.9369
1.23x87
0.93282
iop903i77
pO.8947 ,-0.80003
+1.285 10
25 .+8.50705
-0.9358
-1.23530
+0.9x589
1 1 9.02325
0.8939
0.82109
1.28227
26 1 8.56855
0.9357
1.23857
0.898x5
12
9-01 153
0.8925
0.84105
1.27928
27 1 8.62438
0.9369
X. 24168
0.87952
13
«-99599
0.8909
0.86000
1.27613
28 1 8.66978
0.9393
1.24463
0.85992
14
8-97653
0.8899
0.87802
1.27282
29
8.70286
0.9426
1.24743
0.83928
«5
-8-95371
-0-8894
-0.89519
+1.26934
liar. I
+8.72423
-0.9460
-1.25008
+0.81747
16
8.92819
0.8899
0.91 157
1.26571
2
8.73566
0.9489
1.25258
0.79438
17
8.901 19
0.8913
0.92723
1.26190
3
8.74035
0.9509
1.25493
0.76987
18
8.87413
0.8937
0.94220
1.25792
4
8.74234
0.9517
1.25714
0.74377
19
8.84868
0.8967
0.95654
1.25376
h 5
8.74556
0.9514
1.25920
0.7x587
h 20
-8.82627
h-0.9002
-0.97029
+1.24943
(11.0) 6
+8.75309
-0.9502
-X.26112
+0.68592
(S.O) 21
8.80821
0.9036
0.98348
1.24491
7
8.76654
0.9486
X. 26290
0.65363
22
8.79491
0.9066
0.99615
1.24022
8
8.78546
0.9469
1.26454
0.6x862
23
8.78533
0.9089
1. 0083 1
1.23533
9
8.80801
0.9457
X.26604
0.5804 X
24
8.77714
0.9099
1.02002
1.23025
xo
8.83x93
0.9453
1.26740
0.53839
25
-8.76686
h-0.9098
-1.03127
+1.22497
11
+8.85547
-0.9455
-X. 26863
+0.49x73
26
8.75074
0.9087
1.04211
1.21949
12
8.87692
0.9466
1.26972
0.43933
27
8.72526
0.9071
1.05255
1.21380
13
8.89510
0.9484
1.27068
0.3796X
28
8.68798
0.9056
1.06260
1. 20791
14
8.90936
0.9507
X.27X50
0.3x024
29
8.63719
0.9050
1.07229
1. 201 79
15
8.91930
0.9531
X.27220
0.2275X
30
-8.57334
-0.9057
-1.08163
+1.19545
16
+8.925x7
-0.9553
-1.27275
•K).x25i3
3»
8.49928
0.9077
1.09064
1.18888
17
8.92758
0.9569
1.273x8
9.99083
Feb. I
8.42062
0.91 10
1.09933
1.18208
18
8.92783
0.9577
1.27348
9.79530
2
8.34577
0.9150
1.10771
1.17503
19
8.92794
0.9574
127364
+9.43015
3
8.28398
0.9189
1.X1580
1.16773
20
8.93024
0.9560
1.27367
-8.932x5
fa 4
-8.24030
—0.9222
-1. 12360
+1. 16016
h 21
+8.93678
-0.9539
-1.27358
-9.64353
(•.0) 5
8.21112
0.9244
I.I3"3
1.15233
(18.0)22
8.94871
0.9515
1.27335
9.89998
6
8.18526
0.9254
1.13840
1.14421
23
8.9656X
0.9493
X.27299
0.05995
7
8.14953
0.9253
1.14541
1.13581
24
8.98577
0.9480
1.27251
0.17643
8
8.08884
0.9244
1.15218
1. 12710
25
9.00671
0.9479
1.27189
0.26802
9
-7.98453
-0.9232
-1.15870
+1.11808
26
+9.02579
-0.9491
-I.27XX4
•^.34347
10
7.79796
0.9222
1. 16500
1. 10874
27
9.04x06
0.95x2
X. 27026
0.40758
XI
-7.36736
0.9217
1.17107
1.09905
28
9.05155
0.9537
1.26926
0.46329
12
+7.29226
0.9221
1. 17692
1.08900
29
9.05736
0.9560
X. 26812
0.5X25X
13
7.79796
0.9233
1.18255
1.07859
30
9.05967
0.9574
X.26685
0.55657
14
+8.01536
-0.9254
-1. 1 8798
+1.06778
31
-(.9.06029
-0.9578
-X.26544
-0.59643
15
+8.14457
-0.9282
-1.19321
+1.05656
Apr. I
+9.06XX9
-0.9570
-I.2639X
-0.63280
B
— — ©".OOX
[Eph la]
BESSELIAN STAR-NUMBERS, 1912.
219
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
(Sid. Hr.)
Logil.
LqsB.
LqsC
Ix>gl>.
Solar Day.
(Sid. Hr.)
Logil.
LogB.
LogC
LoffZ>.
Apr. I
+9.061 19
-0.9570
-1. 26391
-0.63280
May 17
+9.37870
-0.9185
-I.OIH2
-I.23414
2
9.06402
0.9552
1.26224
0.66622
18
938925
0.9168
0.99972
1.23882
3
9.06978
0.9528
1.26044
0.69711
19
9.39986
0.9165
0.98790
1.24332
4
9.07864
0.9503
1.25850
0.72582
20
9.40949
0.9175
0.97562
1.24765
h 5
9.09006
0.9480
1.25642
0.75261
h "'
9.41737
0.9194
0.96287
I.25181
(18.0) 6
+9. 1030 1
-0.9464
-1.25421
-0.77771
(18.0)22
+9.42315
-0.9216
-0.94960
-I.25581
7
9. 1 1625
0.9456
1.25186
O.80131
23
9.42701
0.9234
0.93581
1.25966
8
9.12884
0.9457
1.24937
0.82356
24
9.42953
0.9242
0.92144
1.26335
9
9.14008
0.9465
1.24674
0.84459
25
9.43160
0.9237
0.90646
1.26688
lO
9.14944
0.9478
1.24397
0.86452
26
9.43404
0.9221
0.89082
1.27026
II
•^9. 15655
-0.9494
-1.24105
-0.88344
27
+9.43755
-0.9194
-0.87448
-1.27350
12
9. 1 61 29
0.9509
1.23798
0.90145
28
9.44244
0.9164
0.85738
1.27659
13
9.16401
0.9520
1.23477
0.91 861
29
9.44869
0.9136
0.83946
1.27953
14
9.16543
0.9523
I.23140
0.93498
30
9.45601
0.9112
0.82064
1.28233
15
9.16648
0.9516
1.22789
0.95063
31
9.46382
0.9098
0.80086
1.28500
i6
49.16838
-0.9497
-1.22422
-0.96560
June I
+9.47165
-0.9093
-0.78000
-1.28752
17
9.17248
0,9471
1.22039
0.97995
2
9.47904
0.9098
0.75798
1.28992
i8
9.17968
0.9439
1.21641
0.99370
3
9.48568
0.91 10
0.73466
1.292 17
19
9- 19005
0.9409
1.21226
1.00691
4
9.49132
0.9127
0.70988
1.29430
h "^
9.20286
0.9385
1.20795
1.01959
h 5
9.49587
0.9146
0.68348
1.29629
(14.0)21
+9.21677
-^.9373
-1.20346
-1 .03 1 79
(17.0) 6
+9.49937
-0.9163
-0.65526
-1.29815
22
9.23019
0.9374
1.19881
1.04352
7
9.50201
0.9175
0.62494
1.29989
23
9.24174
0.9386
1.19398
1. 0548 1
8
9.50417
0.9177
0.59223
1.30149
24
9.25046
0.9405
1. 18898
1.06569
9
9.50640
0.9169
0.55672
1.30297
25
9.25620
0.9424
I. 18380
1.07618
10
9.50929
0.9150
0.5x792
1.30433
26
+9.25944
-0.9437
-1.17843
—1.08629
11
+9.51333
-0.9124
-0.47519
-1.30556
27
9.261x7
0.9440
1.17287
1.09604
12
9.51882
0.9095
0.42765
1.30666
28
9.26270
0.9430
1.16711
1.10545
13
9.52572
0.9070
0.37414
1.30764
29
9.26524
0.9408
1.16115
1.11455
14
9.53365
0.9055
0.3x297
1.30850
30
9.26961
0.9379
1.15499
1.12330
15
9.54193
0.9053
0.24162
1.30924
May I
+9.27599
-0.9348
-1.14861
-I. 13177
16
+9.54977
-0.9066
-0.15608
-1.30985
2
9.28425
0.93x9
1.14202
1.13995
17
9.55649
0.9090
0.04931
1.31034
3
9.29378
0.9296
1.13520
1. 14786
18
9.56171
0.9120
9.90729
1.31072
4
9.30382
0.9281
1. 12815
1.15550
19
9.56545
0.9147
9.69474
1.31097
h 5
9.31364
0.9276
1.12086
1.16288
h '°
9.56797
0.9166
-9.26117
1.31 1 10
(16.0) 6
+9.32269
-0.9279
-I. 11332
-1.17001
(18.0)21
+9.56986
—0.9172
+9. 1 1465
-1.31111
7
9.33059
0.9288
1.10553
1.17691
22
9.57179
0.9x68
9.64618
I.311OO
8
9.33706
0.9301
1.09748
1.18357
23
9-57433
0.9152
9.87805
1.31077
9
9.34199
0.9314
1.08914
1. 19001
24
9.57780
0.9130
0.02829
1.31042
10
9.34551
0.9325
1.08052
1.19623
25
9.58230
0.9107
0.13960
1.30994
II
+9.34803
-0.9329
—1.07161
—1.20224
26
+9.58764
-0.9088
+0.22801
-1.30935
12
9.35013
0.9323
1.06238
1.20804
27
9.59349
0.9080
0.30132
1.30864
13
9.35256
0.9306
1.05284
1.21364
28
9.59947
0.9080
0.36392
1.30780
H
9.35617
0.9280
1.04295
1.21904
29
9.60524
0.9089
0.41852
1.30684
15
9-36167
0.9247
1.03272
1.22426
30
9.61048
0.9108
0.46690
1.30577
16
+9.36928
-0.9213
—1.02211
—1.22929
July 1
+9.61498
-0.9x32
+0.51032
-1.30456
17
+9.37870
-0.9185
-1.01112
-1-23414
2
+9.61868
-0.9159
+0.54968
-1.30324
B-
~"0 .oa
[Eph
— — o'.oox
la]
220
BESSELIAN STAR-NUMBERS, 1912.
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
(Sid. Hr.)
Ix)g A.
LosB.
LogC.
Log 17.
Solar Day.
(Sid. Hr.)
JjogA,
LoffB.
LogC.
JjogD,
July I
+9.61498
-0.9132
+0.51032
-1.30456
Aug. 16
+9.74773
-0.9578
+I.18114
—1 .08 1 26
2
9.61868
0.9159
0.54968
1.30324
17
9.74890
0.9568
1.18637
1.07 108
3
9.62154
0.9185
0.58566
1. 301 78
18
9.75071
0.9554
119141
1.06052
4
9.62369
0.9206
0.61878
1.3002 1
19
9.75320
0.9541
1. 19627
1.04957
h 5
962535
0.9219
0.64944
1.29850
h "°
9.75620
0.9533
1.20096
1.0382 1
(10.0) 6
49.62688
-0.9223
+0.67796
—1.29667
(22.0)21
+9.75943
-0.9534
+1.20548
—1. 0264 1
7
9.62873
0.9216
0.70462
1.29471
22
9.76263
0.9543
1.20984
I.01415
8
9.63132
0.9200
0.72963
1.29262
23
9.76559
0.9561
1.21403
1. 00140
9
963495
0.9180
0.75316
1.29040
24
9.76814
0.9585
1. 21806
0.98814
lO
9.63971
0.9162
0.77537
1.28805
25
9.77017
0.9612
I.22193
0.97433
II
+9.64540
-0.915 1
+0.79639
-1.28556
26
+9.77161
-0.9639
+1.22565
-0.95993
12
965158
0.9152
0.81633
1.28294
27
9.77250
0.9665
1. 22921
0.94490
13
9.65764
0.9168
0.83528
1. 28018
28
9.77296
0.9683
1.23263
0.92919
H
9.66304
0.9197
0.85332
1.27728
29
9.77315
0.9694
1.23589
0.91276
15
9.66736
0.9232
0.87052
1.27424
30
9.77334
0.9695
1.23902
0.89555
i6
+9.67050
-0.9267
+0.88696
-I.27105
31
+9.77386
-0.9688
+1.24200
-0.87748
17
9.67259
0.9296
0.90268
1.26772
Sept. I
9.77496
0.9673
1.24484
0.85850
i8
9.67398
0.9314
0.91774
1.26425
2
9.77684
0.9656
1.24753
0.83850
19
9.67518
0.9319
0.93218
1.26062
3
9.77949
0.9641
1.25009
0.81740
h ^°
9.67670
0.9313
0.94604
1.25684
h ^
9.78273
0.9635
I.25251
0.79508
(20.0)21
+9.67891
-0.9301
+0.95935
-I.25291
(W.O) 5
+9.78623
-0.9640
+1 25479
-0.77139
22
9.68189
0.9285
0.97215
1.24882
6
9.78958
0.9657
1.25695
0.74620
23
.9.68559
0.9273
0.98447
1.24456
7
9.79239
0.9683
1.25896
0.71930
24
9.68979
0.9267
0.99633
1. 24014
8
9.79441
0.9714
1.26085
0.69048
25
9.69419
0.9270
1.00776
1.23556
9
9.79558
0.9742
1.26260
0.65946
26
+9.69848
-0.9283
+I.01879
—1.23080
10
+9.79610
-0.9762
+1.26422
-0.62589
27
9.70241
0.9305
1.02942
1.22587
II
9.79626
0.9771
1.26571
0.58935
28
9.70581
0.9332
1.03968
1.22075
12
9.79646
0.9768
1.26708
0.54930
29
9-70855
0.9363
1.04959
1.2 1546
13
9.79702
0.9755
1. 26831
0.50501
30
9.71061
0.9393
1. 0591 7
1.20997
14
9.79815
0.9737
I.26941
0.45552
31
+9.71206
-0.9420
+1.06842
—1.20429
15
+9.79991
-0.9719
+1.27039
-0.39949
Aug. I
9-7»303
0.9440
1.07736
I.I9841
16
9.80220
0.9703
1.27124
0.33496
2
9.71378
0.9450
1. 0860 1
1. 19232
17
9.80483
0.9695
I.27196
0.25895
3
9. 7 1465
0.9450
1.09437
1. 18602
18
9.80749
0.9696
1.27256
0.16654
4
9.71599
0.9441
1. 10245
I.X795I
h '9
9.80998
0.9704
1.27303
0.04881
h 5
+9.71811
-0.9428
+1. I 1028
-1. 1 7276
(0.0) 20
+9.81214
-0.9719
+1.27337
-9.88646
(21.0) 6
9.72116
0.9414
I.I1785
I. 16579
21
9.81385
0.9739
1.27359
9.62383
7
9.72505
0.9404
I.12517
1. 15858
22
9.81509
0.9759
1.27368
-8.85057
8
9.72949
0.9405
I. 13226
1.15112
23
9.81583
0.9778
1.27364
+9.44559
9
9.73405
0.9418
1. 139"
1. 14340
24
9.81615
0.9791
1.27347
9.79864
10
+9.73824
-0.9444
+1. 14574
-I.I3541
25
+9.8 162 1
-0.9797
+1.27318
+9.99077
II
9.74165
0.9478
I.15215
I.I2715
26
9.81622
0.9793
1.27276
0.12348
12
9.7441 1
0.9514
X. 15835
I.II860
27
9.81644
0.9782
1. 27221
0.22495
X3
974564
0.9546
1. 16434
1. 10974
28
9.81714
0.9761
1.27154
0.30708
14
9.74648
0.9570
I.I7OI4
1. 10058
29
9.81849
0.9737
1.27073
0.37605
15
+974705
-0.9580
+X.X7574
—1 .09109
30
+9.82055
-0.9714
+1.26979
+0.43547
16
+9.74773
-0.9578
+1.18114
—1.08126
Oct. z
+9.82325
I-O.9697
+1.26873
+0.48766
B-
— o"«ot — — o^oox
[Eph It]
BESSELIAN STAR-NUMBERS, 1912,
221
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
(Sid. Hr.)
IjogA.
togB.
LogC.
LogX>.
Solar Day.
(Sid. Hr.)
Lo8i4.
LogB.
LogC.
LogX>.
Oct. I
+9.82325
-0.9697
+1.26873
+0.48766
Nov. 16
+9.90145
^.9463
+1.03754
+1. 22185
2
9.82630
0.9691
1.26753
0.53415
17
9.90256
0.9472
1.02662
1.22720
3
9.82934
0.9699
1.26620
0.57606
18
9.90339
0.9475
I.01526
1.23236
4
9.83200
0.9712
1.26473
O.61418
h 19
9.90409
0.9469
1.00346
1.23732
h 5
9.83400
0.9733
1. 26313
0.64913
(4.0) 20
9.90486
0.9454
0.991 19
1. 24210
(1.0) 6
+^.83528
-0.9755
+1. 26139
+0.68137
21
+9.90590
-0.9430
+0.97842
+1.24669
7
9.83587
0.9771
1. 2595 1
O.71128
22
9.90742
0.9400
0.96512
I.2511O
8
9.83607
0.9776
1.25750
0.73916
23
9.90951
0.9368
0.95125
1-25534
9
9.83622
0.9769
1.25534
0.76525
24
9.91217
0.9339
0.93678
1.25940
lO
983665
0.9751
1.25305
0.78976
25
9.91527
0.9318
0.92166
1.26329
II
+9.83760
-0.9726
+1. 25061
+0.81284
26
+9-91855
-0.931 1
+0.90585
+1.26702
12
983916
0.9699
1.24802
0.83465
27
9.92170
0.9316
0.88930
1.27058
13
9.84127
0.9674
1.24528
0.85530
28
9-92445
0.9333
0.87194
1.27397
14
^984377
0.9655
1.24240
0.87490
29
9.92661
0.9354
0.85371
1. 27721
15
9.84640
0.9645
1.23936
0.89354
30
9.92816
0.9374
0.83453
1.28029
i6
+9.84895
-0.9643
+1. 23617
+0.91129
Dec. I
+9.92921
-0.9385
+0.81432
+1.28322
17
9.85124
0.9649
1.23283
0.92823
2
9.93001
0.^385
0.79296
1.28599
i8
9.85315
0.9660
1.22932
0.94442
3
9.93084
0.9372
0.77035
1. 28861
19
9.85460
0.9674
1.22565
0.95990
h 4
9.93199
0.9348
0.74634
1. 29108
h ^°
9.85560
0.9686
1. 22182
0.97474
(6.0) 5
993361
0.9318
0.72078
1-29339
(2.0) 21
+9.85623
-0.9695
+ 1. 21782
+0.98896
6
+9.93575
-0.9288
+0.69346
+1.29557
22
9.85660
0.9696
1. 21364
I.OO261
7
9.93832
0.9264
0.66415
1.29760
23
9.85689
0.9689
1.20930
I.OI573
8
9.941 13
0.9249
0.63257
1.29947
24
9.85731
0.9673
1.20477
1.02834
9
9.94400
0.9244
0.59835
1.30121
25
9.85812
0.9648
1.20006
1.04047
10
9.94671
0.9250
0.56104
1.30280
26
+9.85949
-0.9617
+I.19516
+ I.05215
II
+9.94915
-0.9263
+0.52007
+1.30426
27
9.86151
0.9586
1. 19007
1.06340
12
9.95122
0.9281
0.47466
1.30557
28
9.86412
0.9560
1. 18478
1.07425
13
9.95292
0.9300
0.42379
1.30674
29
9.86716
0.9543
1. 17929
1.0847 1
14
9.95426
0.9317
0.36599
1.30777
30
9.87031
0.9539
1. 17360
1.09480
15
9-95533
0.9328
0.29913
1.30866
31
+987321
-0.9545
+1. 16768
+1. 10454
16
+9.95620
-0.9333
+0.21990
+1.30942
Nov. I
9.87559
0.9561
I.16156
I-1I393
17
9.95709
0.9328
0.12273
1.31003
2
9.87730
0.9579
1. 15520
1. 1 2301
18
9-95815
0.9314
9-99717
1.3 105 1
3
9.87835
0.9593
I.14861
1.13177
19
9.95956
0.9292
9.81961
1.31085
h ^
9.87897
0.9598
I.14178
1. 14024
h '°
9.96144
0.9267
+9.51384
1. 3 1 105
(8.0) 5
+9.87944
^0.9589
+1.13470
+1. 14842
(6.0) 21
+9.96384
-0.9244
-7.86396
+1.31112
6
9.88008
0.9570
1. 12737
1. 15632
22
9.96667
0.9228
9.53289
1.31105
7
9.881 14
0.9542
1.11976
1.16395
23
9.96974
0.9224
9.82918
1. 3 1084
8
9.88278
0.9510
I.II189
1.17132
24
9.97280
0.9234
0.00361
1.31049
9
9.88497
0.9479
1. 10372
1. 17844
25
9.97556
0.9256
0.12762
1.31001
10
+9.88758
^.9452
+1.09526
+1. 18532
26
+9.97782
—0.9286 -0.22388
+1.30938
II
9.89041
0.9436
1.08650
1.19196
27
9.97952
0.9316 0.30251
1.30862
12
9.89323
0.9429
1.07741
119837
28
9.98069
0.9339 0.36896
1.30772
13
9.89583
0.9431
1.06798
1.20456
29
9.98155
0.9352 0.42646
1.30668
14
9.89810
0.9440
1.0582 1
1. 21053
30
9.98234
0.9352 0.47712
1
1.30550
15
+9.89998
^•945 1
+1.04807
+i.2'i630
31
+9.98331
-0.9340 (-0.52236
+1.30418
16
+9.90145
-0.9463
+1.03754
+1. 22185
32
+9.98463
-0.9321
-0.56321
+1.30272
E ■■ — o".ox — — o*.oox
[Eph xa]
222
INDEPENDENT STAR-NUMBEKS, 1912.
FOR WASHINGTON MEAN MIDNIGHT.
/
/'
G
H
Solar:
Day.
real
r
Log^.
Log A.
•
«
(Side
Hou
In
Time.
In
Time.
In
Arc.
In
Time.
h m
In
Arc.
In
Time.
Los t.
y
s
s
0 /
0 /
h m
//
Jan.
o
—0.0014
-^.449
-0.018
248 10.9
1632.7
351 194
23 25.3
O.91221
I.31019
-X.34
-0.1260
I
+0.0014
0.437
0.013
248 48.5
16352
35023.1
2321.5
0.90832
1.30998
1.48
0.1701
2
0.0041
0.425
-0.006
249 37.0
1638.5
349 26.7
23 17.8
0.90506
X. 30975
1.62
0.2099
3
0.0068
0.413
+0.003
25032.5
1642.2
348 30.2
23 14.0
0.90308
X. 30950
1.76
0.2463
4
0.0096
0.401
O.OII
251 30.0
1646.0
347 33.6
23 10.2
0.90267
X. 30923
1.90
0.2798
h
5
0.0123
-0.389
+0.016
252 23.6
1649.6
346 37.0
23 6.5
0.90372
1.30894
-2.04
-0.3106
(7.0)
6
0.0150
0.378
0.018
253 8-5
1652.6
345 40.3
23 2.7
0.90575
1.30863
2.18
0.3394
7
0.0178
0.366
0.016
253 42.6
1654.8
344 43-5
22 58.9
0.90803
1.30830
2.32
0.3663
8
0.0205
0.354
O.OII
254 6.7
1656.4
343 46.7
2255.1
0.90987
X. 30795
2.46
0.39x4
9
0.0232
0.342
+0.005
254 23.7
1657.6
342 49.7
2251.3
0.91076
X. 30758
2.60
0.4150
lO
0.0260
-0.331
-0.00 1
254 37.9
1658.5
341 52.7
22 47.5
0.91050
X. 307x9
-2.74
--O.4373
II
0.0287
0.319
0.006
254 53.4
1659.6
34055.5
22 43-7
0.90916
1.30680
2.87
0.4584
12
0.0315
0.307
0.009
255 13.7
17 0.9
339 58.2
22 39.9
0.90707
1.30638
3.01
0.4783
13
0.0342
0.296
0.0 10
255 40.7
17 2.7
339 0.8
22 36.1
0.90467
X. 30594
3x4
0.4972
14
0.0369
0.284
0.008
256 147
17 50
338 3.3
22 32.2
0.90244
X. 30548
328
0.5x52
15
0.0397
^.273
-0.004
256 54-8
17 7.7
337 5-7
22 28.4
0.90079
X. 30501
-34X
-^•5324
i6
0.0424
0.262
+0.001
257 390
17 10.6
336 8.0
22 24.5
0.90001
X. 30453
3.54
0.5488
17
0.0452
0.251
0.005
258 24.7
17 13.6
335 xo.i
22 20.7
0.90024
X. 30403
3.67
0.5645
i8
0.0479
0.240
0.009
259 91
17 16.6
334 12. 1
22 16.8
0.90150
X-3035X
3.80
0.5795
19
0.0506
0.229
O.OII
259 49.6
17 19.3
333 140
22 12.9
0.90361
1.30298
392
0.5938
h
20
0.0534
-0.218
+0.01 1
260 24.2
17 21.6
332 15.7
22 9.0
0.90630
X. 30245
-405
—0.6076
(S.0)
21
0.0561
0.207
0.009
26051.6
1723.4
331 17.3
22 5.2
0.90919
1.30189
4.18
0.6208
22
0.0588
0.197
+0.004
261 11.6
1724.8
330 18.8
22 1.3
0.91 180
1.30132
4.30
0.6334
23
0.0616
0.186
-0.002
261 25.4
1725.7
329 20.1
21 57.3
0.91370
1.30074
4.42
0.6456
24
0.0643
0.176
0.009
261 36.1
1726.4
32821.4
21 534
0.9x457
X. 3001 5
4-54
0.6573
25
0.0671
-0.165
-0.015
261 47.6
1727.2
327 22.4
21 49.5
0.91423
1.29956
-4.66
-0.6686
26
0.0698
0155
0.019
262 4.1
17 28.3
326 23.3
2145.6
0.91282
1.29895
4.78
0.6794
27
0.0725
0.145
0.019
262 29.1
1729.9
32524.1
21 41.6
0.91080
X. 29833
4.90
0.6898
28
0.0753
0.135
0.016
263 4-5
1732.3
324 24.7
21 37.6
0.90878
1. 29771
5.01
0.6999
29
0.0780
0.125
0.0 10
263 49-4
17 35-3
32325.1
21 33.7
0.90747
1.29707
5x2
0.7096
30
0.0808
-O.I15
-0,001
264 40.2
1738.7
322 25.4
21 29.7
0.90748
1.29643
-5.24
-0,7189
31
0.0835
0.105
+0.007
265 314
1742.1
321 25.6
21 25.7
0.90901
X. 29578
5.34
0.7279
Feb.
I
0.0862
0.095
0.014
266 17.4
1745.2
320 25.5
21 21.7
0.9 1 1 89
X. 295x3
5.45
0.7366
2
0.0890
0.086
0.017
266 54.4
1747.6
31925.4
21 17.7
0.91556
1.29448
556
0.7450
3
0.0917
0.076
0.016
267 20.4
1749.4
3x8 25.0
21 13.7
0.91936
1.29382
5.66
0.753 X
h
4
0.0944
-0.067
+0.012
267 36.8
1750.5
317 24.5
21 9.6
0.92258
1.29316
-5-77
-0.7609
(9-0)
5
0.0972
0.057
+0.006
267 46.8
175X.1
3x623.9
21 5.6
0.92474
1.29250
5.87
0.7684
6
0.0999
0.048
0.000
267 54.7
1751.6
315 23.0
21 1.5
0.92565
1. 29 1 84
5-97
0.7757
7
0.1026
0.039
-0.005
268 4.5
1752.3
31422.0
2057.5
0.92546
1.29II8
6.06
0.7827
8
0.1054
0.030
0.009
268 19.4
1753.3
313 20.8
20 53.4
0.92451
1.29052
6.16
0.7895
9
0.1081
-0.021
-0.0 10
268 40.7
17 547
3" 19.5
20 49.3
0.92326
1.28986
-6.35
-^.7960
10
0.1 109
0.012
0.008
269 8.3
1756.6
311 18.0
2045.2
0.92220
1. 3892 1
6.34
0.8023
II
0.1136
-0.003
-0.005
26940.91758.7
3x0.16.2
2041. 1
0.92172
1.28855
6.43
0.8084
12
0.1163
+0.005
0.000
27016.218 I.I
309 14.4
2037.0
0.92208
1.28790
6.52
0.8143
13
0.1191
0.014 +0.005
27051.718 3.4
308 12.42032.8
0.92337
1.28725
6.60
0.8198
14
0.1218
+0.022+0.009
271 24.818 5.7
307 10.2 20 28.7
0.92554
1. 3866 1
-6.69-0.8252
15
0. 1 246
+0.031
+0.01 1 1
27x53-518 7.6
306 7.9'20 24.5
0.92840
I.28598I
-6.77-0.8305
[Spb
la]
INDEPENDENT ST AR-N CTMBERS, 1912,
223
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
r
/
r
G
H
Log^.
LocA.
*
•
(Sidereal
Hour.)
In
Time.
In
Time.
In
Arc.
In
Time.
In
Arc.
In
Time.
Logt.
y
•
8
e t
h m
0 /
h m
//
Feb. 15
0.1246
+0.031
-K>.OII
271 53-5
18 7.6
306 7.9
20 24.5
0.92840
1.28598
-6.77
-0.8305
x6
0.1273
0.039
0.012
272 16.3
18 9.1
305 5.4
20 20.4
0.93167
1.28535
6.85
0.8355
n
0.1300
0.047
O.OII
27232.7
18 10.2
304 2.7
20 16.2
0.93500
1.28474
6.92
0.8404
18
0.1328
0.055
0.007
272 42.5
18 10.8
302 59.9
20 12.0
0.93800
I.28412
7.00
0.8450
h '^
0.1355
0.063
+0.001
27247.1
x8 IX. X
301 57.0
20 7.8
0.94027
1.28353
7.07
0.8495
(10.0) 20
0.1382
+0.07 X
-0.006
272 49-5
18 11.3
300 53.9
20 3.6
0.94153
1.28294
-7.14
-0.8538
21
0.1410
0.079
0.013
27252.9
1811.5
299 50.7
1959.4
0.94166
1.28237
7.21
0.8579
22
0.1437
0.087
0.017
273 1.1
x8 12. 1
29847.3
1955.2
0.94080
I.28181
7.27
0.8618
23
0.1465
0.095
0.0x9
273 17.1
1813.1
297 43.8
1950.9
0.93935
1. 28126
7.34
0.8656
24
0.1492
0.102
0.017
273 42.4
18 14.8
29640.2
1946.7
0.93788
1.28072
7.40
0.8692
25
0.15x9
+0.H0
—0.012
274 16.2
18 17. 1
295 36.5
1942.4
0.93703
1.28020
-7.46
-0.8726
26
0.1547
0.1 17
-0.004
274552
18 19.7
294 32.6
1938.2
0.93731
1.27970
7.51
0.8758
27
0.1574
0.125
+0.004
275 34-5
1822.3
293 28.7
1933.9
0.93897
1. 27921
7.57
0.8789
28
0.1602
0.132
O.OIX
276 9.1
18 24.6
292 24.6
19 29.6
0.94183
1.27873
7.62
0.8819
29
0.1629
0.139
0.015
27635.1
x8 26.3
29 X 20.5
19 25.4
0.94543
1.27828
7.67
0.8847
Mar. I
0.1656
+0.146
+0.016
27651.6
1827.4
290 X6.2
192X.I
0.94907
1.27785
-7.72
-0.8874
2
0.1684
0.153
0.013
276 59-7
1828.0
289 1 1.8
19 16.8
0.95214
1.27742
7.76
0.8899
3
0.1711
0.160
0.008
277 2.3
1828.2
288 7.4
19 12.5
0.95417
1.27703
7.80
0.8922
4
0.1738
0.167
+0.00 X
277 3.4
1828.2
287 2.9
19 8.2
0.95501
1.27665
7.84
0.8944
h 5
0.1766
0.174
-0.005
277 6.8
X 8 28.5
285 58.3
19 3.9
0.95475
1.27629
7.88
0.8965
(11.0) 6
0.1793
+0.18X
-0.009
277 15.3
x8 29.0
284 53.6
1859.6
0.95369
1.27596
-7.91
-0.8984
7
0.1820
0.188
0.0 10
277 30.6
1830.0
283 48.9
1855.3
0.95230
1.27565
7.95
0.9002
8
0.1848
0.195
0.009
277 52.2
1831.5
28244.1
1850.9
0.95x04
1 27535
7.98
0.9018
9
0.1875
0.202
0.006
278 18.3
1833.2
281 39.2
X 8 46.6
0.95032
1.27509
8.00
0.9033
10
0.1903
0.209
-0.00 X
278 46.7
1835.1
280 34.3
1842.3
0.95035
1.27484
8.03
0.9047
II
0.1930
+0.216
40.004
279 15.2
18 37.0
279 29.3
X 8 38.0
0.95x22
1.27462
-8.05
-0.9059
12
0.1957
0.222
0.008
279413
1838.8
278 24.4
x8 33.6
0.95287
1.27441
8.07
0.9070
13
0.1985
0.229
O.OII
280 3.3
1840.2
277 19.4
18 29.3
0.95515
1.27424
8.09
0.9080
14
0.20x2
0.236
0.012
280 19.8
1841.3
276 14.4
1825.0
0.95778
1.27408
8.II
0.9088
15
0.2040
0.243
O.OII
280 30.4
18 42.0
275 9.3
x8 20.6
0.96044
1.27396
8.X2
0.9095
16
0.2067
+0.249
+0.008
280 35.6
1842.4
274 4.3
x8 16.3
0.96277
1.27384
-8.x3'-o.9xoo
17
0.2094
0.256
+0.003
280 36.8
1842.5
272 59-3
18 12.0
0.96444
1.27377
8.14 0.9105
18
0.2x22
0.262
-0.003
280 36.0
1842.4
271 54.3
x8 7.6
0.96519
1.27372
8.14 0.9108
19
0.2149
0.269
0.0x0
280 36.6
1842.4
270 49-3
18 3.3
0.96488
1.27368
8.X5 0.9x09
20
0.2x76
0.276
O.OI5
28041.8
1842.8
26944.3
1759.0
0.96367
1.27367
8.15 0.9110
h 21
0.2204
+0.283
-0.018
280 54.4
1843.6
268 39.4
1754.6
0.96184
1.27370
-8.x4-o.9109
(12.0) 22
0.2231
0.289
0.017
281 15.9
1845-1
267 34.6
1750.3
0.95994
1.27374
8.14 0.9106
23
0.2259
0.296
O.OI3
281 45.4
1847.0
266 29.8
17 46.0
0.95854
1.27380
8.13' 0.9103
24
0.2286
0.303
-0.006
282 20.0
1849.3
265 25.0
1741.7
0.95817
1.27390
8.12 0.9098
25
0.2313
0.309
+0.002
282 55.5
1851.7
264 20.4
1737.4
0.95907
X. 27402
8.11
0.9092
26
0.2341
+0.316
+0.009
28327.1
1853.8
263 15.8
1733.1
0.961 18
1.27415
-8.xo'-o.9o84
27
0.2368
0.323
0.014
2835X.0
1855.4
262 1 1.3
1728.8
0.96402
1.27431
8.08
0.9075
28
0.2396
0.330
0.016
284 5.81856.4
261 6.9
1724.5
0.96699
1.27450
8.06
0.9065
29
0.2423
0.336
0.014
284 12.41856.8
260 2.6
1720.2
0.96947
1.27471
8.04
0.9054
30
0.2450
0.343 0.009
284 13.9 18 56.9
258 58.4
17 15.9
0.97 lOI
1,27494
8.02
0.9041
31
0.2478
+0.350+0.002
28414.41857.0
257 54.3
17 11.6
0.97137
I.275I9
-7.99-0.9027
Apr. I
0.2505
+0.356-0.004
28417.6,1857.2
25650.4x7 74 1
0.97064
1.27547
-7.97:-o.90i2
[Epl
i 12]
224
INDEPENDENT STAR-NUMBERS, 1912.
FOR WASHINGTON MEAN MIDNIGHT.
/
/'
G
H
Solar Day.
r
iMgg,
Log A.
•
•
(Sidereal
Hour.)
In
Time.
In
Time.
In
Arc.
In
Time.
In
Arc.
In
Time.
Loff «'.
y
s
s
e /
h m
0 t
h m
//
Apr. I
0.2505
+0.356
-0.004
284 17.6
1857.2
256 50.4
17 7.4
0.97064
1.27547
-7.97
-0.9012
2
0.2532
0.363
0.008
284 26.4
1857.8
255 46.5
17 3.1
0.9691 1
1.27577
7.94
0.8995
3
0.2560
0.370
O.OII
28442.2
1858.8
25442.8
1658.9
0.96722
1.27609
7.90
0.8977
4
0.2587
0.377
0.0 10
285 4.6
19 0.3
253 39.2
1654.6
0.96545
1.27642
7.87
0.8958
h 5
0.2614
0.384
0.007
285 32.2
19 2.1
252 35.7
1650.4
0.96418
1.27677
7.83
0.8937
(18.0) 6
0.2642
40.391
-0.003
286 2.2
19 4.1
25132.4
1646.2
0.96366
I.27715
-7.79
-0.8915
7
0.2669
0.398
+0.002
28632.2
19 6.1
250 29.2
1641.9
0.96397
1.27755
7-75
O.S891
8
0.2697
0.405
0.007
28659.7
19 8.0
249 26.2
1637.7
0.96506
1.27796
7.70
0.8866
9
0.2724
0.413
0.0 10
287 23.0
19 9.5
248 23.4
1633.6
0.96676
1.27839
7.66
0.8840
lO
0.2751
0.420
O.OI2
2874x3
19 10.8
247 20.7
1629.4
0.96881
1.27884
7.61
0.8812
II
0.2779
40.427
+0.012
287 54.0
19 11.6
246 1 8. 1
1625.2
0.97092
1. 2793 1
-756
-0.8783
12
0.2806
0.435
0.009
288 1.5
19 12. 1
245 15.7
16 21.0
0.97274
1.27979
7.50
0.8753
13
0.2834
0.442
+0.005
288 5.3
19 12.4
244 13.5
16 16.9
0.97398
1.28028
745
0.8720
14
0.2861
0.450
-0.00 1
288 7.9
19 12.5
243 "5
16 12.8
0.97438
1.28079
7.39
0.8687
15
0.2888
0.457
0.008
288 1 2. 1
19 12.8
242 9.6
16 8.6
0.97383
I.28131
7.33
0.8652
i6
0.2916
+0.465
-0.014
288 20.8
19 13.4
241 8.0
x6 4.5
0.97241
I.28184
-7.27-0.8615
17
0.2943
0.473
0.017
288 36.9
19 14.5
240 6.4
16 0.4
0.97042
1.28239
7.21
0.8577
i8
0.2970
0.481
0.017
289 1.9
19 16.1
239 5-2
15 56.3
0.96834
1.28295
7.14
0.8537
19
0.2998
0.489
0.014
28935.1
19 18.3
238 4.0
1552.3
0.96674
1.28352
7.07
0.8495
h ^°
0.3025
0.497
-0.008
290 13.6
19 20.9
237 3.2
15 48.2
0.96612
I.2841O
7.00
0.8452
(14.0)21
0.3053
+0.505
0.000
290 530
J9 23.5
236 2.4
1544.2
0.96678
1.28468
-6.93-0,8407
22
0.3080
0.513
+0.008
291 28.5
19 25.9
235 1.9
1540,1
0.96862
1.28528
6.86
0.8361
23
0.3107
0.521
0.014
291 56.5
1927.8
234 1.6
15 36.1
0.97127
1.28588
6.78
0.8313
24
0.3135
0.529
0.016
292 15.3
19 29.0
233 1.5
15 32.1
0.97414
1.28649
6.70
0.8263
25
0.3162
0.538
0.015
292 25.9
1929.7
232 1.7
15 28.1
0.97659
1. 287 10
6.62
0.82 1 1
26
0.3190
+0.546
+0.01 1
292 31 -5
19 30.1
231 2.0
15 24.1
0.97816
1.28772
-6.54
-0.8157
27
0.3217
0.555
+0.005
292 35-7
1930.4
230 2.5
15 20.2
0.97860
1.28835
6.46
0.8102
' 28
0.3244
0.563
-0.002
292 42.8
1930.9
229 3.2
15 16.2
0.97797
1.28897
6.37
0.8044
29
0.3272
0.572
0.008
292 55.9
1931.7
228 4.2
15 12.3
0.97657
1.28960
6.29
0.7984
30
0.3299
0.581
O.OII
293 16.7
19 33.1
227 5.3
15 8.4
0.97482
1.29023
6.20
0.7923
May I
0.3326
+0.590
-0.011
293 44.2
1934.9
226 6.6
»5 4.4
0.97322
1.29087
-6.11
-0.7859
2
0-3354
0.599
0.009
294 17.0
19 37.1
225 8.215 0.5
0.97216
I.2915O
6.02
0.7793
3
0.3381
0.608
-0.005
29452.5
19 39.5
224 9-91456.7
0.97190
1. 29214
5.92 0.7725
4
0.3408
0.617
0.000
295 27.5
19 41.8
223 II. 8 1452.8
0.97251
1.29277
5.83; 0.7654
h 5
0.3436
0.626
+0.005
295 59.6
1944.0
222 14.0 14 48.9
0.97390
1.29340
5.73
0.7581
(16.0) 6
0.3463
+0.635
+0.009
296 27.2
1945.8
221 16.31445.1
0.97590
1.29403
-5.63
-0.7506
7
0.3491
0.645
0.012
296 49.3
1947.3
220 18.8
1441.3
0.97823
1.29465
5.53
0.7428
8
0.3518
0.655
0.012
297 5-9
1948.4
219 21.5
1437.4
0.98060
1.29528
5.43
0.7348
9
0-3545
0.664
O.OIO
297 17.3
1949.2
21824.3
1433.6
0.98271
1.29589
5-33
0.7264
10
0.3573
0.674
+0.006
297 25.3
19 49.7
217 27.3
14 29.8
a98429
X.2965O
5.22
0.7178
II
0.3600
+0.684
0.000
297 32.2
19 50.1
21630.6
14 26.0
0.98512
1.297 1 1
-5-12
-0.7089
12
0.3627
0.693
-0.007
297 40.9
1950.7
215 34.0 14 22.3
0.9851 1
X.29771
501
0.6997
13
0.3655
0.703
0.013
297 54.3
1951.6
214 37.6 14 18.5
0.98433
I.29831
4.90
0.6901
14
0.3682
0.713
0.017
298 15.0
19 53.0
213 41.4 14 14.8
0.98306
1.29889
4.79
0.6802
15
0.3710
0.723
0.018
29844.1
1954.9
21245.414 II.O
0.98176
1.29947
4.68
0.6700
16
0.3737
40.733
-0.016
29921.0,1957.4
211 49.5 14 7.3
0.98099
1.30004
-4.56
-0.6594
17
0.3764
+0.744
-O.OIO
300 2.7
20 0.2 1
21053.7
14 3.61
0.981 17
X. 30060
-4.45
-0.6484
[Bph la]
INDEPENDENT STAR-NTJMBERS, 1912. 225
FOR WASHINGTON MEAN MIDNIGHT.
/
f
G
H
Solar Day.
r
Log^.
LoffA.
•
%
(Sidereal
Hour.)
In
Time.
In
Time.
In
In
Time.
In
Arc.
In
Time.
Los*.
y
•
8
e /
h m
0 /
h m
tt
May 17
0.3764
+0.744
-O.OIO
300 2.7
20 0.2
21053.7
14 3.6
0.981 17
X. 30060
-4.45
-0.6484
x8
0.3792
0.754
-0.002
30045.1
20 3.0
20958.1
13 59.9
0.98259
I.30115
4-34
0.6370
19
0.3819
0.764
+0.006
301 23.4
20 5.6
209 2.7
13 56.2
0.98517
I.30169
4.22
0.6252
20
0.3847
0.774
0.013
301 53-9
20 7.6
208 7.5
1352.5
0.98854
1.30222
4.10
0.6129
h "
0.3874
0.785
0.017
302 15. 1
20 9.0
207 12.5
13 48.8
0.99214
1.30274
3.98
0.6002
(16.0) 22
0.3901
40.796
+0.017
302 28.0
20 9.9
206 17.6
1345.2
0.99535
1.30324
-3.86-0.5869
23
0.3929
0.806
0.014
302 35.5
20 10.4
205 22.8
1341.5
0.99772
1.30374
3.74
0.5731
24
0.3956
0.817
0.008
30241.7
20 10.8
204 28.2
13 37.9
0.99902
1.30422
3.62
0.5587
25
0.3984
0.828
+0.001
302 50.8
20 1 1.4
203 33.7
13 34.2
0.99930
1.30468
3.50
0.5437
26
0.401 1
0.839
-0.006
303 5.6
20 12.4
202 39.3
1330.6
0.99885
1.30514
3.37
0.5281
27
0.4038
+0.850
-O.OIO
303 27.7
20 13.8
201 45.1
13 27.0
0.9981 1
1.30558
-3.25
-0.5 1 18
28
0.4066
0.861
O.OII
303 56.5
20 15.8
20051. 1
13234
0.99755
1.30600
3.12
0.4947
29
0.4093
0.872
O.OIO
304 30.2
20 18.0
199 571
13 19.8
0.99755
1.30641
3.00
0.4767
30
0.4120
0.883
0.006
305 5.9
2020.4
199 3.3
13 16.2
0.99837
1.30680
2.87
0.4579
31
0.4148
0.894
-O.OOI
305 40.6
2022.7
198 9.5
13 12.6
1.00002
1.30719
2.74
0.4381
June I
0.4175
+0.905
+0.004
306 1 1.9
20 24.8
197 15 9
13 9.1
1.00240
1.30755
-2.61
-0.4173
2
0.4202
0.916
0.008
306 38.0
20 26.5
19622.4
13 5.5
1.00530
1.30790
2.48
0.3953
3
0.4230
0.928
O.OII
306 58.6
2027.9
195 29.0
13 1.9
1.00847
1.30822
2.36
0.3719
4
0.4257
0.939
0.012
307 13.5
20 28.9
19435.6
1258.4
1. 01 162
1.30854
2.22
0.3472
h 5
0.4285
0.951
O.OII
307 23.6
20 29.6
193 42.4
12 54.8
1. 01450
1.30884
2.09
0.3208
(17.0) 6
0.4312
+0.963
+0.007
307 30.3
20 30.0
192 49.2
1251.3
1. 01 687
1.30912
r-1.96
-0.2925
7
0.4339
0.974
+0.002
30736.1
20 30.4
191 56.1
12 47.7
I.01857
130938
1.83
0.2622
8
0.4367
0.985
-0.005
307 43.6
20 30.9
191 3.1
1244.2
I.OI953
1.30962
1.70
0.2295
9
0.4394
0.997
0.012
307 55.2
2031.7
190 10. 1
1240.7
1. 01985
1.30984
1.56
0.1940
10
0.4422
1.008
0.017
308 13.5
20 32.9
189 17.2
12 37.1
1.01979
1.31006
1.43
0.1552
II
0.4449
+1.020
-0.019
308 39.3
20 34.6
188 24.4
12 33.6
1. 01975
1.31025
-1.30
-O.I 125
12
0.4476
1.032
0.018
309 1 1.6 20 36.8
187 31.6
12 30.1
1. 0201 6
1.31042
1. 16
0.0649
13
0.4504
1.043
0.013
309 48.2 20 39.2
186 38.9
12 26.6
1.02 145
1.31057
1.03
0.01 14
14
0.4531
1055
-0.006
310 25.1
2041.7
185 46.2
1223.1
1.02383
1.31070
0.89
9.9502
15
0.4558
1.066
+0.003
310 58.1
20 43.9
18453.5
12 19.6
1.02728
1. 3 1082
0.76
9.8789
16
0.4586
+1.078
+0.01 1
3" 23.9
2045.6
184 0.9
12 16.I
1.03142
1.31092
-0.62
-9.7934
17
0.4613
1.090
0.016
311 40.72046.7
183 8.3
12 12.6
1.03572
1-31099
0.49
9.6866
18
0.4641
I.IOI
0.018
311 49.72047.3
182 15.7
12 9.0
1.03967
1.31106
0.35
9.5446
19
0.4668
1. 113
0.016
31153-62047.6
181 23.2
12 5.5
1.04285
1.31110
0.22
93320
b ^°
0.4695
1. 125
O.OII
311 56.02047.7
180 30.6
12 2.0
1.04504
1.31112
-0.08
-8.8984
(18.0)21
0.4723
+•1.136
•+0.004
312 0.6,2048.0
179 38.1
1 1 58.5
1.Q4629
1.31112
+0.06
+8.7519
22
0.4750
1. 148
-0.003
312 10.5
2048.7
17845.6
11 55.0
I.Q4684
1.3 1 1 10
0.19
9.2835
23
0.4778
1. 160
0.008
312 26.8
20 49.8
177531
1151-5
1.04711
1.31107
0.33
9.5153
24
0.4805
1. 171
O.OIO
312 49.1
2051.3
177 0.6
1 1 48.0
1.04752
1.31101
0.46
9.6656
25
0.4832
1. 183
O.OIO
313 15.8 20 53.1
176 8.1
1144.5
1. 0484 1
1.31093
0.60
9.7769
26
0.4860
+I.I95
-0.007
31344.02054.9
175 15.6
II 41.0
1.04999
1.31083
+0.73
+9.8653
27
0.4887
1.206-0.002
314 10.92056.7
174 23.1
1137.5
1.05232
1.31073
0.87
9.9386
28
0.4914
1.218+0.003
31434.42058.3
17330.51134.0
1
1.05527
1.31060
1.00
0.0012
29
0.4942
1.229 0.007
31453.22059.5
172 37.9 II 30.5
1.05863
1.31044
1.14
0.0558
30
0.4969
X.241
0.01 1
315 6.621 0.4
1
171 45.2 II 27.0
t.06217
1.31027
1.27
0.1042
July I
0.4996
+1.253 +0.012]
315 14.821 1.0
17052.6 II 23.5
1.06565
1.31009
+1.40
+0.1476
2
0.5024
+1.264
+0.01 2 1
3x5 18.8
21 1.3 1
169 59.8
II 20.0 1
X. 06884
X. 30989
^1.54
+0.1870
I9I2-
[Bph xa]
226
INDEPENDENT STAR-NUMBEBB, 1912.
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
r
/
f
G
H
Log^.
Log A.
•
«
(Sidereal
Hour.)
In
Time.
In
Time.
In
Arc.
In
Time.
In
Arc.
In
Time.
Lost.
y
8
a
0 /
h m
0 /
h m
//
July I
0.4996
+1.253
+0.012
315 14.8
21 X.O
17052.6
1123.5
1.06565
1.31009
+1.40
+0.1476
2
0.5024
1.264
0.0x2
315 18.8
21 1.3
169 59.8
1 1 20.0
1.06884
1.30989
1.54
0.1870
3
0.505 !•
1.276
0.009
315 19-8
21 1.3
169 7.0
II 16.5
1.07x58
1.30966
1.67
0.2229
4
0.5079
1.287
+0.004
315 19.9
21 1.3
168 14.2
II 12.9
1.07372
1.30943
1.80
0.2561
h 5
0.5106
1.299
-0.003
31521.2
21 1.4
167 21.3
II 9.4
I.07521
I.30916
1.94
0.2867
(19.0) 6
0.5133
+I.3II
-O.OIO
315 26.0
21 1.7
166 28.3
11 5.9
1.07614
1.30889
+2.07
+0.3x52
7
O.5161
1.322
0.016
31536.3
21 2.4
165 35.3
II 2.4
1.07672
1.30860
2.20
0.3419
8
0.5188
1.334
0.019
31552.8
21 3.5
164 42. 1
1058.8
1.07728
1.30829
2.33
0.3669
9
0.5216
1-345
0.019
31615.1
21 5.0
163 48.9
1055.3
1.07820
1.30796
2.46
0.3904
xo
0.5243
1.356
0.016
31641.2
21 6.7
162 55.6
1051.7
1.07983
1.30763
2.59
0.4126
II
0.5270
+1.367
-O.OIO
317 7.9
21 8.5
162 2.2
10 48. 1
1.08236
1.30726
+2.71
+0.4337
12
0.5298
1.378
-o.oox
31731.6
21 IO.I
161 8.7
1044.6
1.08577
1.30689
2.84
0.4537
13
0.5325
1.389
+0.007
31749.2
21 II.3
160 15.1
1041.0
I.08981
1.3065 X
2.97
0.4726
H
0.5352
1.400
0.014
317593
21 X2.0
159 2 1.4
1037.4
1.09405
1.30610
3.10
0.4906
15
0.5380
1.410
0.017
318 2.4
21 12.2
15827.6
1033.8
1.09802
1.30568
3.22
0.5078
i6
0.5407
+1.422
+0,016
318 0.8
21 I2.X
157 33.7
10 30.2
1.10134
1.30525
+3.34
+0.5242
17
0.5435
1.433
0.0x2
31757.6
21 II.8
15639.7
1026.6
1. 1 0380
1.30480
3.47
0.5400
i8
0.5462
1.444
+0.006
31756.0
21 II.7
15545.5
1023.0
I.IO538
1.30434
3.59
0.5550
19
0.5489
1.454
0.000
31758.5
21 II.9
15451.2
10 19.4
1. 10628
1.30387
3.71
0.5695
h ^°
0.5517
1.465
-0.006
318 6.9
21 12.5
153 56.8
10 15.8
I.XO686
1.30338
3.83
0.5833
(«M))2I
0.5544
+1.475
-0.009
318 20.7
21 13.4
153 2.3
10 12.2
1. 10749
1.30288
+3.95
+0.5966
22
0.5571
1.486
0.009
31838.6
21 14.6
152 7.7
10 8.5
1. 10848
1.30237
4.07
0.6094
23
0.5599
1.496
0.007
31858.1
21 15.9
151 12.9
10 4.9
I.IIOO3
1. 30184
4.19
0.6218
24
0.5626
1.507
-0.003
319 16.8
21 I7.I
150 17.9
10 1.2
I.II219
1.30131
4.30
0.6336
25
0.5654
1.517
+0.002
31932.621 18.2
149 22.9
957.5
I.I 1487
1.30077
4.42
0.6450
26
O.568X
+1.527
+0.007
31944.321 19.0
148 27.6
9 53.8
X.II792
1.30022
+4.53
+0.6561
27
0.5708
1.537
O.OXX
319 51.3 21 19.4
147 32.3
950.2
1. 12X11
1.29966
4.64
0.6667
28
0.5736
1.547
0.013
31953.8
21 19.6
14636.7
946.4
1. 12423
1.29908
4.75
0.6770
29
0.5763
1.557
0.013
31952.5
21 195
14541.1
942.8
X.I271I
1.29850
4.86
0.6869
30
0.5790
1.567
0.0x0
31948.6
21 19.2
144 45.2
939.0
1.12959
X.29792
4.97
0.6964
31
0.5818
+1.577
+0.006
31943.921 18.9
143 49-2
935.3
1.13154
1.29733
+5.08
+0.7057
Aug. I
0.5845
1.587
0.000
3x940.021 18.7
142 53.0
931.5
1.13294
1.29673
5.18
0.7146
2
0.5873
1.596
-0.007
31938.921 18.6
141 56.6
927.8
1.13382
1. 2961 2
5.29
0.7233
3
0.5900
1.606
0.0x4
3 x942.x 21 18.8
141 o.x
924.0
1.13434
1.29551
5.39
0.7316
4
0.5927
1. 61 5
0.018
31950.721 19.4
140 3.4
920.2
1.13475
1.29490
5.49
0.7397
h 5
0.5955
+1.625
-0.020
320 4.52120.3
1
139 6.4
916.4
1.13540
1.29427
+5.59
40.7476
(81.0) 6
0.5982
1.634
0.0x8
32022.221 21.5
138 9-4
9 12.6
1. 13660
1.29366
5.69
0.7551
7
0.6010
1.643
0.0x3
32041.021 22.7
137 12.x
9 8.8
1.13853
1.29305
5.79
0.7624
8
0.6037
1.653
-0.005
32058.021 23.9
136 14.6
9 5.0
I.I4122
1. 2924 1
5.88
0.7695
9
0.6064
1.662
+0.003
321 XO.32X 24.7
135 17.0
9 I.I
1.14451
I.29178
5.98
0.7764
10
0.6092
+1.67 1
+0.0x0
321 16.521 25.x
13419.1
857.3
1.14807
I.29115
f6.07
+0.7830
II
0.61x9
1.680
0.0x5
321 16.52x25.1
133 21. X
853.4
1.15150
X. 29052
6.x6
0.7894
12
0.6146
1.689
0.0x6
321 11.921 24.8
132 22.9
849.5
1.15442
X. 28990
6.25
0.7956
13
0.6174
1.697
0.0x3
321 5.42124.4
131 24.5
845.6
1.15661
1.28927
6.33
0.8016
14
0.6201
1.706
0.008
321 0.0
21 24.0
13025.8
841.7
1.15801
1.28864
6.42
0.8074
15
0.6228
+1.7x4+0.001
32058.1
21 23.9
129 27.x
837.8
I.15876
1.28803
+6.50
+0.8130
16
0.6256
+1.723-0.005
321 1.42x24.11
128 28.x
833.9
I.I5912
1.28742
f6.58
+0.8184
[Bph
la]
INDEPENDENT STAR-NUMBERS, 1912. 227
FOR WASHINGTON MEAN MIDNIGHT.
/
r
G
H
Solar Day.
r
Log^.
LoffJb.
«
(Sidereal
Hour.)
In
Time.
In
Time.
In
Arc.
In
Time.
In
Arc.
In
Time.
Logi.
y
s
s
0 /
h m
0 /
h
m
Aug. x6
0.6256
+1.723
-0,005
321 1.4
21 24.1
128 28.1
8
33.9
I.15912
1.28742
+6.58
+0.8x84
17
0.6283
i.73»
0.008
321 9.7
21 24.6
127 29.0
8
29.9
1. 15943
1. 28681
6.66
0.8236
18
0.6311
1.740
0.009
321 22.2
21 25.5
126 29.6
8
26.0
1. 15998
1.28620
6.74
0.8287
19
0.6338
1.748
0.008
321 36.8
21 26.5
125 30.1
8
22.0
I.16100
1.28560
6.82
0.8336
h "°
0.6365
1.756
-0.004
321 51.3
21 27.4
124 30.4
8
18.0
1. 16255
1. 28501
6.89
0.8382
(88.0)21
0.6393
+1.764
+0.001
322 3.4
21 28.2
123 30.5
8
14.0
1. 16457
1.28442
+6.96
+0.8428
22
0.6420
1.772
0.006
322 12. 1
21 28.8
122 30.4
8
1 0.0
1. 16693
1.28384
7.03
0.8471
23
0.6448
1.780
0.0 10
322 16.6
21 29.1
121 30.2
8
6.0
1. 16944
1.28327
7.10
0.8513
24
0.6475
1.788
0.013
322 17.3
21 29.2
120 29.8
8
2.0
X.17193
1.28272
7.17
0.8553
25
0.6502
1.796
0.014
322 14.5
21 29.0
119 29.2
57.9
I.17422
1. 28217
7.23
0.8592
26
0.6530
+1.804
+0.012
322 9.5
21 28.6
118 28.4
53.9
I.17616
1. 28164
+7.29
+0.8629
27
0.6557
1.811
0.008
322 3.3
21 28.2
"7 27.5
49.8
I. 17766
I.28111
7.35
0.8665
28
0.6584
1.819
+0.002
32157.6
21 27.8
116 26.3
45.8
I.17867
1.28060
7.41
0.8699
29
0.6612
1.826
-0.005
32154.3
21 27.6
115 25.0
41.7
I.17919
1. 28010
7-47
08732
30
0.6639
1.834
O.OII
32154.6
21 27.6
"4 23.5
37.6
1. 1 7935
1.27962
7.52
0.8763
31
0.6667
+1.841
-0.016
32159-7
21 28.0
113 21.8
33.5
1. 1 7936
I.27915
■^7.57
+0.8793
Sept. I
0.6694
1.849
0.019
322 9.6
21 28.6
112 20.1
29.3
1. 17949
1.27870
7.62
0.8821
2
0.6721
1.856
0.019
322 23.5
21 29.6
III 18.1
25.2
1. 18002
1.27826
7.67
0.8848
3
0.6749
1.863
0.015
322 39.0
21 30.6
no 16.0
21. 1
1.18116
1.27785
7.72
0.8874
h ^
0.6776
1.871
-0.008
322 53.8
21 31.6
109 13.7
16.9
1. 18298
1.27744
7.76
0.8898
(23.0) 5
0.6804
+1.878
0.000
323 5.1
21 32.3
108 II.3
12.8
1. 18540
1.27705
+7.80
+0.8921
6
0.6831
1.885
+0.008
323 "4
21 32.8
107 8.7
8.6
1.18817
1.27669
7.84
0.8942
7
0.6858
1.892
0.013
323 12.1
21 32.8
106 6.0
4.4
1. 19092
1.27634
7.88
0.8962
8
0.6886
1.899
0.015
323 8.2
21 32.5
105 3.1
0.2
1.19330
1. 27601
7.91
0.8981
9
0.6913
1.906
0.013
323 1-9
21 32.1
104 0.2
6
56.0
1. 19506
1.27570
7.94
0.8999
10
0.6940
+1.913
+0.008
322 56.2
21 31.7
102 57.1
6
5».8
1.19613
1.27541
+7.97 40.9015
II
0.6968
1.920
+0.002
322 53-3
21 31.6
loi 53.9
6
47.6
1. 19657
1.27515
8.00 0.9030
12
0.6995
1.927
-0.004
32255.1
21 31.7
100 50.5
6
43.4
1. 19659
1.27490
8.02
0.9044
13
0.7022
1.933
0.008
323 2.1
21 32.1
99 47.1
6
39.1
1. 19648
1.27467
8.05
0.9056
14
0.7050
1-939
O.OIO
323 13.421 32.9
98 43.6
6
34.9
1. 19654
1.27447
8.07
0.9067
15
0.7077
+1.946
-0.009
32327.32133.8
97 40.0
6
30.7
1. 19700
1.27429
+8.08 +0.9077
16
0.7105
1.953
-0.005
32341.8
21 34.8
96 36.3
6
26.4
1. 19795
1.27413
8.10
0.9085
17
0.7132
1.960
0.000
32354.82135.7
95 32.6
6
22.2
1.19937
1.27400
8.11
0.9092
18
0.7159
1.966
+0.005
324 4.62136.3
94 28.8
6
17.9
1.20113
1.27389
8.12
0.9098
h '^
0.7187
1.973
O.OIO
324 10.7
21 36.7
93 24.9
6
13.7
1.20306
1.27380
8.13
0.9103
(0.0) 20
0.7214
+1.980
+0.013
32413.1
21 36.9
92 21.0
6
9.4
1. 2050 1
1.27374
+8.14
+0.9106
21
0.7242
1.987
0.014
324 12.3
21 36.8
91 17.0
6
5.1
1.20679
1.27370
8.14
0.9109
22
0.7269
1.993
0.013
324 9.3
21 36.6
90 1 30
6
0.9
1.20830
1.27368
8.15
0.91 10
23
0.7296
2.000
O.OIO
324 5-2
21 36.3
89 8.9
5
56.6
1.20941
1.27369
8.15
0.9109
24
0.7324
2.007
+0.005
324 1.4
21 36.1
88 4.8
5
52.3
1. 21009
1.27371
8.14
0.9108
25
0.7351
+2.014
-0.002
323 59-3
21 36.0
87 0.7
5 48.0
1. 2 1034
1.27377
+8.14
+0.9105
26
0.7378
2.020
0.008
324 0.5
21 36.0
85 56.6
5 43.8
1.2x024
1.27385
8.13
0.9100
27
0.7406
2.027
0.014
324 6.0
21 36.4
84 52.5
5
39-5
1.20996
1 27395
8.12
0.9095
28
0.7433
2.034
0.018
324 16.2
21 37.1
83 48.4
5
35.2
1.20973
1.27408
8.11
0.9088
29
0.7461
2.041
0.018
324 30.4
21 38.0
82 44.2
5
30.9
1.20980
1.27423
8.09
0.9080
30
0.7488
+2.048-0.015
32446.7
21 39.1
81 40.1
5
26.7
1. 2 1040
1.27440
+8.07
+0.9071
Oct. 1
0.7515
+2.054
-0.009
325 3.0
21 40.2
80 36.0
,5
22.4
1.21x64
1.27460
+8.05
+0.9060
[Eph 12]
228 INDEPENDENT STAR-NUMBEBS, 1912.
FOR WASHINGTON MEAN MIDNIGHT.
Sniar:
Day.
real
r
/
f
G
H
Log^.
Log A.
*
•
(Side
Hou
In
Time.
In
Time.
In
Arc
In
Time.
In
Arc.
In
Time.
Log*.
y
s
s
0 /
h m
e
t
h
m
#/
Oct.
X
0.7515
+2.054
-0.009
325 30
21 40.2
80
36.0
5
22.4
I.21164
1.27460
+8.05
+0.9060
2
0.7543
2.061
-0.002
325 16.8
21 41. 1
79 31.9
5
18.I
1. 2 1349
1.27482
8.03
0.9048
3
0.7570
2.068
+0.006
32526.1
2141.7
78
27.8
5
13.9
I.21572
1.27506
8.01
0.9035
4
0.7598
2.075
0.012
32530.1
21 42.0
77
23.8
5
9.6
1. 2 1803
1.27533
7.98
0.9020
h
5
0.7625
2.082
0.014
325 29.5
21 42.0
76
19.8
5
5.3
1.22008
I.27561
7.95
0.9004
(1.0)
6
0.7652
+2.089
+0.014
32526.1
21 41.7
75
15.8
5
I.I
1. 22 164
X.2759I
+7.92
+0.8987
7
0.7680
2.096
0.009
325 22.6
21 41.5
74
11.9
4
56.8
1.22256
1.27624
7.88
0.8968
8
0.7707
2.103
+0.003
32521.4
21 41.4
73
8.1
4 52.5
1.22285
1.27660
7.85
0.8948
9
0.7734
2.IIO
ko.oo3
325 24.5
21 41.6
72
4.3
4 48.3
1.22273
1.27696
7.81
0.8926
xo
0.7762
2. 118
0.008
32532.7
21 42.2
71
0.6
4 44.0
1.22245
1.27735
7.77
0.8903
IX
0.7789
+2.125
-O.OII
325 45-5
21 43.0
69 570
4 39-8
1.22230
1.27776
+7.72
+0.8879
12
0.7816
2.132
0.0 10
326 1.4
21 44.1
68
53.5
4 35.6
1.22249
1.27819
7.68
0.8853
X3
0.7844
2.139
0.007
326 18.3
21 45.2
67
50.1
4 31-3
1. 22318
1.27863
763
0.8826
14
0.7871
2.146
-0.003
32634.1
21 46.3
66
46.7
4
27.1
1.22434
1.27909
7.58
0.8797
15
0.7899
2.153
+0.003
32647.3
2147.2
65
43.5
4
22.9
1.22587
1.27957
7.53
0.8766
i6
0.7926
+2. 161
+0.008
32657.0
21 47.8
64
40.4
4
18.7
1.22763
1.28006
+7.47
+0.8734
17
0.7953
2.X68
0.012
327 3.2
21 48.2
63
37-4
4
14.5
1.22942
1.28058
7.42
0.8701
i8
0.798 X
2.176
0.014
327 6.0
21 48.4
62
34.5
4
10.3
1. 231 10
1.28110
7.36
0.8666
19
0.8008
2.184
0.0x4
327 6.4
21 48.4
6x
3X.7
4
6.1
I.23251
1. 28163
7.29
0.8629
h
20
0.8036
2.192
O.OXI
327 5.5
21 48.4
60
29.1
4
1-9
1.23359
1. 28219
7.23
0.8591
(a.o)
21
0.8063
+2.200
+0.006
327 4.8
21 48.3
59
26.6
3
57-8
1.23427
1.28276
+7.16
+0.8551
22
0.8090
2.208
0.000
327 5-5
21 48.4
58
24.2
3
53.6
1.23458
1.28333
7.09
0.8509
23
0.8118
2.216
-0.006
327 9-2
2148.6
57
22.0
3
49-5
1.23456
1.28392
7.02
0.8466
24
0.8145
2.224
0.012
327 16.7
21 49.1
56
19.8
3
45-3
1.23438
1.28452
6.95
0.8420
25
0.8172
2.232
0.017
327 28.6
21 49.9
55
17.9
3
41.2
1.23422
1. 285 1 2
6.88
0.8373
26
0.8200
+2.240
-0.018
327 44-4
21 51.0
54
16.0
3
37.1
1.23433
1.28574
+6.80
+0.8324
27
0.8227
2.249
0.016
328 2.6
21 52.2
53
14.4
3
33.0
1.23489
1.28636
6.72
0.8274
28
0.8255
2.257
O.OII
32821.3
2153-4
52
12.8
3
28.9
1.23606
1.28699
6.64
0.8221
29
0.8282
2.266
-0.004
328 37.9
2154.5
51
11.4
3
24.8
I.23781
1.28762
6.56
0.8166
30
0.8309
2.274
+0.004
328 50.5
2155.4
50
10. 1
3
20.7
1.23999
1.28827
6.47
0.8109
31
0.8337
+2.283
+0.01 1
32858.1
2155.9
49
9.0
3
16.6
1.24230
1.28891
+6.38
+0.8050
Nov.
I
0.8364
2.292
0.015
329 0.9
21 56.1
48
8.1
3
12.5
1.24447
1-28957
6.29
0.7988
2
0.8392
2.301
0.015
329 0.6
21 56.0
47
7-3
3
8.5
1. 2461 9
1.29022
6.20
0.7925
3
0.8419
2.310
O.OII
328 59-5
21 56.0
46
6.6
3
4.4
1.24735
1.29087
6.11
0.7859
h
4
0.8446
2.319
+0.005
329 0.1
21 56.0
45
6.1
3
0.4
1.24793
1.29153
6.01
0.7791
(8.0)
5
0.8474
+2.328
-O.OOI
329 4 4
2156.3
44
5.7
2
56.4
1.24806
1.29219
+5.92
+0.7720
6
0.8501
2.338
0.007
329 13.421 56.9
43
5-5
2
52.4
1. 24801
1.29284
582
0.7646
7
0.8528
2.347
O.OI I
32927.1 2x57.8
1
42
5.4
2
48.4
1.24806
1.29349
572
0.7570
8
0.8556
2.357
0.012
32944.02158.9
41
5.5
2
44-4
1.24845
1.29414
5.61
0.7492
9
0.8583
2.366
0.009
330 2.422 0.2
40
5-7
2
40.4
1.24929
1.29479
5.51
0.7410
10
0.8610
+2.376
-0.005
33020.122 1.3
39
6.1
2
36.4
1.25063
1.29544
■^5.40
+0.7325
II
0.8638
2.386
+0.001
33035.4122 2.4
38
6.7
2
32.4
1.25237
1.29609
5.29
0.7238
12
0.8665
2.396
0.007
33047.122 3.1
37
7.3
2
28.5
1.25435
1.29672
5.18
0.7147
X3
0.8693
2.406
O.OII
33055.122 3.7
36
8.1
2
245
1.25638
1.29735
507
0.7053
H
0.8720
2.416
0.013
331 0.022 4.0
35
9.1
2
20.6
1.25831
1.29797
4.96
0.6955
15 ' 0.8747 I+2.426I +0.014
331 2.322 4.2
34
33
10.2
2
16.7
1.26003
1.29859
+4.851+0,6854
x6
1 0.8775
1+2.436
'+O.OI2I
331 3.2
22 4.2
"5
2
12.8
1.26144
1.29920
+4.73
1+0.6748
[Bph xa]
INDEPENDENT STAR-NUMBERS, 1912. 229
FOR WASHINGTON MEAN MIDNIGHT.
/
/'
G
H
►
Solar
Day.
real
IT.)
r
Ijogg.
LogJb.
t
(Side
Hou
In
Time.
In
Time.
In
Arc.
In
Time.
In
Arc
In
Time.
Lost
y
8
a
0 /
h m
0 /
h m
It
Nov.
i6
0.8775
+2.436
+0.012
331 3.2
22 4.2
33 "5
2 12.8
1. 26144
1.29920
H.73
+0.6748
17
0.8802
2.447
0.008
331 4.0
22 4.3
32 12.9
2 8.9
1.26249
1.29980
4.61
0.6639
i8
0.8830
2.457
+0.002
331 5.8
22 4.4
31 14.4
2 5.0
I.263I9
1.30040
4-49
0.6525
h
19
0.8857
2.468
-0.005
331 lO.O
22 4.7
30 16.2
2 I.I
1.26360
130097
4.37
0.6407
(4.0)
20
0.8884
2.478
O.OII
331 176
22 5.2
29 18.0
157.2
1.26385
1.30155
4-25
0.6285
21
0.8912
+2.489
-0.016
331 29.0
22 5.9
28 19.9
153.3
1. 2641 1
1. 302 1 1
■♦-4.13
40.6157
22
0.8939
2.500
0.018
331 44.0
22 6.9
27 22.0
149.5
1.26459
1.30265
4.00
0.6024
23
0.8966
2.5II
0.017
332 1.6
22 8.1
26 24.2
145.6
1.26550
1.30318
3.88
0.5885
24
0.8994
2.522
0.013
332 19.8
22 9.3
25 26.6
I 41.8
1.26695
1.30370
3.75
0.5741
25
0.9021
2.533
-0.006
332 36.4
22 10.4
24 29.0
137-9
1.26895
1. 3042 1
362
0.5589
26
0.9049
+2.544
+0.002
332 49.4
22 1 1.3
2331.5
134.1
I.27I38
1.30471
+3.49
+0.5431
27
0.9076
2.555
0.0 10
332 57-8
22 1 1.9
2234.2
130.3
1.27400
1.30518
3.36
0.5266
28
0.9103
2.567
0.015
333 1.3
22 I2.I
21 36.9
126.5
1.2765 1
1 30564
3.23
0.5092
29
0.9131
2.578
0.016
333 1.5
22 I2.I
2039.8
I 22.7
1.27866
1.30609
3.10
0.4910
30
0.9158
2.589
0.014
333 0.2
22 12.0
1942.7
I 18.8
1.28029
1.30652
2.96
0.4718
Dec.
I
0.9186
+2.601
+0.009
332 59-9
22 12.0
1845.8
I 15.1
I.28I37
1.30693
+2.83
+0.4516
2
0.9213
2.613
+0.002
333 2.5
22 12.2
1748.9
I 11.3
1.28200
1.30732
2.69
0.4302
3
0.9240
2.624
-0.005
333 9.4
22 12.6
16 52.1
I 7.5
1.28239
1.30769
2.56
0.4076
h
4
0.9268
2.636
0.0 10
333 20.5
22 13.4
15 55.3
I 3-7
1.28282
1.30805
2.42
0.3836
(5.0)
5
0.9295
2.648
0.012
333 35.0
22 14.3
1458.7
059.9
1.28353
1.30840
2.28
0.3581
6
0.9322
+2.660
-O.OIO
333 51.1
22 15.4
14 2.1
056.1
1.28467
1.30873
+2.14
+0.3307
7
0.9350
2.672
0.006
334 6.6
22 16.4
13 5-5
052.4
1.28628
1.30904
2.00
0.3014
8
0.9377
2.684
-0.00 1
334 20.0
22 17.3
12 9.1
048.6
1.28827
1.30932
1.86
0.2698
9
0.9404
2.696
+0.005
334 30.4
22 18.0
II 12.7
044.8
1. 2905 1
1.30958
1.72
0.2356
10
0.9432
2.708
O.OIO
33437.x
22 18.5
10 16.3
041. 1
1.29282
1.30982
1.58
0.1983
II
0.9459
+2.720
+0.013
334 40.5
22 18.7
920.0
037.3
1.29505
1.31005
+1.44
+0.1574
12
0.9487
2.732
0.014
33441.3
22 18.8
823.8
033.6
1.29708
1.31025
1.29
O.I 1 19
13
0.9514
2.744
0.012
334 40.6
22 18.7
727.6
029.8
I.2988I
1.31043
1. 15
0.061 1
14
0.9541
2.756
0.009
334 39-6
22 18.6
631.4
026.1
1.3002 1
1.31059
1. 01
0.0033
15
0.9569
2.769
+0.004
334 39.2
22 18.6
5 35-2
022.3
1. 301 30
1. 3 1073
0.86
9.9364
16
0.9596
+2.781
-0.003
33440.7
22 18.7
439.1
0 18.6
1. 302 10
1.31085
+0.72
+9.8572
17
0.9624
2.793
O.OIO
334 44.9
22 19.0
343.0
014.9
1.30272
1.31094
0.58
9.7600
18
0.9651
2.805
0.015
334 52.5
22 19.5
247.0
0 II. I
1.30333
1. 3 1 102
0.43
9.6344
19
0.9678
2.817
0.018
335 3.4
22 20.2
150.9
0 7.4
1.30409
1.31108
0.29
94569
h
20
0.9706
2.830
0.018
335 X6.7
22 21. 1
054.8
0 3.7
I.3052I
1.31111
+0.14
+9.1511
(6.0)
21
0.9733
+2.842
-0.015
335 30.8
22 22.1
359 58.8
23 59-9
1.30678
1.31112
0.00
-7.5O"
22
0.9760
2.854
0.009
335 43-9
22 22.9
359 2.7
23 56.2
1.30887
1.31111
-0.15
9.1702
23
0.9788
2.866
-O.OOI
335541
22 23.6
358 6.6
2352.4
1.31137
1.31107
0.29
9.4665
24
0.9815
2.879
+0.007
336 0.1
22 24.0
357 10.5
23 48.7
1.31409
1.31101
0.44
9.6409
25
0.9843
2.891
0.013
336 1.7
22 24.1
356 144
2345-0
I.3I676
1.31094
0.58
9.7649
26
0.9870
+2.903
+0.016
335 59-7
22 24.0
355 18.3
2341.2
1.31913
1. 3 1084
-0.73
-9.8612
27
0.9897
2.915
0.015
335 55-9
22 23.7
35422.1
23 37.5
1.32104
1.31072
0.87
9.9398
28
0.9925
2.927
O.OII
335 52.4
22 23.5
353 25.9
23 33-7
I.3224I
1.31058
1. 01
0.0062
29
0.9952
2.940
+0,005
335 511
22 23.4
352 29.6
23 30.0
1.32335
1.31042
1. 16
0.0637
30
0.9980
2.952
-0.002
335 53-5
22 23.6
351 33.3
23 26.2
1.32400
1.31023
1.30
O.I 144
31
1.0007
+2.964
-0.008
335 59.8
22 24.0
350 36.9
23 22.5
1.32460
1. 3 1003
-1.44
-0.1596
32
1.0034
+2.976
-O.OII
336 9-4
22 24.6
349 40.5
23 18.7
1.32540
1.3098X
-1.59
-0.2005
[Bph ts]
230 BESSELIAN MD INDEPENDENT STAR-NUMBERS.
FOR WASHINGTON SIDEREAL TWELVE HOURS.
Mean Solar
Date.
1912.
Jan. 0.72
10.70
20.67
30.64
Feb. 9.61
Mar.
Apr.
May
June
July
19-59
2956
10.53
20.50
30.48
9-45
19.42
29.40
9.37
1934
29.31
8.29
18.26
28.23
8.20
18.18
28.15
Aug. 7.12
17.10
27.07
Sept.
Oct.
Nov.
Dec.
6.04
16.01
2599
5.96
15.93
25.90
4.88
14.85
24.82
4.80
1477
24-74
34.71
IfigA'.
-9.1605
9.0270
8.8461
8.5638
-7.7945
+8.3237
8.6599
8.8351
8.9548
9.0486
+9.1291
9.2021
9.2703
9.3347
9.3956
+9.4525
9.5053
9.5537
9.5974
9.6365
+9.6710
9.7013
9.7275
9.7502
9.7698
+9.7871
9.8027
9.8173
9.8317
9.8464
+9.8620
9.8786
9.8963
9.9150
9.9342
+9.9534
9.9722
+9.9900
i/)g5'.
-0.8820
0.8896
0.8999
0.91 18
0.9238
-0.9348
0.9437
0.9499
0.9530
0.9528
--0.9497
0.9442
0.9371
0.9294
0.9220
-0.9160
0.9122
0.91 12
0.9132
0.9182
-0.9256
0.9347
0.9446
0.9542
0.9628
—0.9694
0.9736
0.9749
0.9733
0.9690
-0.9624
0.9543
0.9457
0.9377
0.9316
-0.9283
0.9283
-0.9318
I*ogC
—0.4989
0.8043
0.9725
.0829
.1593
.2126
.2476
.2674
.2737
.2669
.2469
.2126
.1618
.0902
0.9898
-0.8428
0.5993
—9.9460
+0.3481
0.7225
+0.9130
.0362
.1225
.1S43
.2277
.2560
.2708
.2730
.2623
.2380
.1981
.139^
.0547
0.9319
0.7389
+0.3491
0370
-0.6415
i;ogZ>.
/
+1.3049
1.2846
1.2487
1. 1946
I.II70
+1.0060
0.8381
+0.5370
-8.9372
0.5556
-0.8436
.0059
.1136
.1892
.2426
.2790
.3012
.3106
.3080
.2932
.2654
.2226
.1613
.0752
0.9514
-0.7578
-0.3674
+0.0611
0.6645
0.9014
+1.0453
I.H34
1. 2126
1.2607
1.2918
+1.3080
1.3104
+1.2990
—0.446
0.328
0.217
0.1 14
—0.020
+0.064
0.139
0.209
0.276
0.343
+0.412
0.488
0.571
0.663
0.763
+0.870
0.983
1.099
1.215
1.330
+1.440
1.544
1.640
1.728
1.808
+1.881
1.950
2.017
2.085
2.157
+2.235
2.322
2.419
2.526
2.640
+2.760
2.881
+3.003
a
H
0 /
c /
249 10
351 7
254 37
341 41
259 58
332 6
264 52
322 17
269 9
3" 13
272 48
301 5«
275 57
291 17
278 45
280 32
281 23
269 44
284 2
259 0
286 51
248 26
289 57
238 9
293 21
228 10
297 I
218 32
300 49
209 12
304 35
200 7
308 9
191 14
3»i 21
182 28
314 6
173 44
316 20
164 58
318 7
156 3
319 30
146 56
320 34
137 33
321 24
"7 53
322 7
"7 54
322 48
107 37
323 31
97 7
324 21
86 29
325 21
75 50
326 31
65 16
327 51
54 52
329 18
44 43
330 48
34 48
332 16
25 8
333 37
15 38
334 47
6 16
335 44
356 57
336 26
347 35
I*og^.
O.
O
o,
o
o
o
o
o,
o
o
o
o
o
o
9II4
9054
9066
9135
9239
9353
9461
9550
9616
9659
9688
971 1
9742
9796
9881
0004
0165
0358
0570
0791
1012
1222
1416
1592
1746
1879
1994
2095
2185
2273
2363
2462
2574
2700
2839
2989
3144
3299
I^gA.
.3101
.3071
.3023
.2963
.2897
.2835
.2782
.2748
•2737
.2749
.2784
.2835
.2895
.2958
.3016
.3063
.3096
.3110
.3106
.3084
.3045
.2993
.2933
.2870
.2813
.2768
.2742
.2738
.2757
.2798
.2854
.2918
.2982
.3039
.3082
.3x06
.31x0
.3092
I*ogf«.
0.1362
0.4416
0.6098
0.7202
0.7966
—0.8499
0.8849
0.9047
0.9110
0.9042
-0.8842
0.8499
0.7991
0.7275
0.6271
■0.4801
0.2366
-9.5833
+9.9854
0.3598
+0.5503
0.6735
0.7598
0.8216
0.8650
+0.8933
0.9081
0.9103
0.8996
0.8753
+0.8354
0.7764
0.6920
0.5692
0.3762
+9.9864
-9.6743
0.2788
E = ~o".ooi
The above numbers give the same reductions from mean to apparent place as are
employed in computing the apparent places of the fixed stars, given on pages 287 to 486,
from the mean places, given on pages 233 to 250. In order to render exact interpolation
possible through intervals of ten days, all short period terms have been omitted.
[Eph lal
TERMS OF SHORT PERIOD IN THE NUTATION, 1912. 231
FOR WASHINGTON MEAN MIDNIGHT.
Dmttt.
d"Vr
d"u
Date.
rf"V'
d"«
Date.
«J"V
d"«
Date.
J'>
«J"o
w
M
H
n
w
M
H
»
Jan. o
-0.30
—0.03
Fob. 15
40.19
-Ob05
Apr. I
—0.06
40.09
May 17
—0.16
-0.09
X
0.22
0.08
X6
0.20
0.00
2
0.14
0.06
z8
—0.04
0.1 1
a
-0.10
O.XZ
17
0.17
40.04
3
0.17
40.02
X9
40.ZO
0.10
3
40.05
0.1 X
x8
O.II
0.08
4
0.17
—0.03
ao
0.2Z
ao7
4
o.x8
0.08
19
40.0I
0.10
5
0.12
0.07
az
a 27
—0.02
5
0.27
-0.04
20
-0.10
0.10
6
-0.05
0.09
22
a28
+0.03
6
0.30
+0.01
2Z
a2i
0.09
7
40.03
O.XO
23
0.22
ao8
7
a 27
0.06
22
a28
40.03
8
O.II
ao9
24
0.12
0.10
8
0.19
0.09
23
0.31
0.00
9
0.17
0.07
25
40.0I
0.1 X
9
40.08
O.IX
24
0.28
-0.05
xo
0.20
-0.03
26
—0.09
0.09
xo
-0.02
4a 09
25
—0.19
—0.09
XI
40.20
+aox
27
-0.16
40.05
XX
0.11
0.06
26
-0.07
0.11
X2
0.15
0.05
28
a 18
0.00
12
0.15
40.02
27
40.07
0.10
X3
+0.08
0.09
29
0.16
-0.04
13
0.16
—0.02
28
ax8
0.07
14
~0»02
a 10
30
0.10
0.08
M
O.X2
0.06
29
0.25.
—0.02
15
O.X3
a 10
31
—0.02
0.10
X5
-Ouo6
0.09
Mar. X
0.26
40.03
16
0.22
0.08
Jane x
40.06
axo
x6
40.01
0.10
2
0.2X
0.08
X7
0.28
40.03
2
0.13
0.08
17
0.09
0.09
3
0.12
0.10
x8
0.28
—0.02
3
0.18
0.05
x8
0.15
0.07
4
40.02
0.1 X
X9
0.23
0.07
4
0.20
-0.0 r
X9
0.19
-0.03
5
-0.07
0.09
20
-0.13
O.XO
5
0.17
40.03
ao
40. X9
+0.01
6
-0.14
40.05
21
0.00
-O.H
6
40.IX
40.07
ax
0.15
0.05
7
o.x6
0.00
22
40.13
0.09
7
40.02
0.09
aa
+0.07
0.09
8
0.X5
—0.04
23
0.23
—0.06
8
-0.08
0.10
23
-0.03
0.10
9
0.09
0.07
24
0.27
0.00
9
0.19
0.09
M
0.X5
0.10
10
—0.02
0.10
25
0.25
40.05
xo
0.27
ao6
as
0.25
0.0S
XI
+0.06
0.10
26
0.18
0.09
II
0.3X
40.02
a6
0.31
40.04
X2
0.13
0.08
27
40.07
0.11
X2
0.29
-a 04
27
0.32
-0.02
13
0.18
0.06
28
—0.03
0.10
13
0.21
0.08
38
0.26
0.07
14
0.20
—0.02
29
0.12
0.07
14
—0.09
axx
29
a 16
0.X0
15
O.T9
+0.03
30
0.17
40.03
15
40.05
0.1 1
30
-0.02
-O.H
16
40.14
40.07
May -I
-0.18
-0.01
16
40. 17
-0.0S
3X
•fax2
0.09
17
40.05
0.09
2
0.15
0.06
17
0.26
—0.04
Feb. X
0.22
ao6
z8
-0.05
O.II
3
-0.08
0.09
z8
0.29
40.0Z
2
0.27
— O.OX
19
o.x6
O.XO
4
0.00
0.10
19
0.26
0.06
3
0.27
40.05
20
0.25
0.06
5
40.08
ao9
20
0.17
0.10
4
0.20
0.09
21
a 29
+0.02
6
0.15
0.07
21
+0.06
0.11
5
40.X1
O.XI
22
0.28
—0.03
7
0.19
—a 04
22
-0.05
0.09
6
aoo
O.XO
23
0.2X
0.08
8
0.20
0.00
23
O.X3
0.06
7
-0.09
0.08
24
—0.10
O.II
9
o.z6
+0.04
24
0.17
4k>.o2
8
ax4
40.04
25
40.03
O.XI
10
40.09
0.08
25
0.16
-0.03
9
-0.16
—0.01
26
40.X5
-0.08
II
0.00
40.10
26
-O.XI
-0.07
xo
ai3
0.05
27
0.23
-ao4
12
-0.X1
0.10
27
-0.04
0.10
XX
-0.07
0.08
28
0.26
+0.01
13
0.21
0.09
28
40.04
0.10
X2
0.00
1 0.10
29
0.22
0.06
14
0.28
40.05
29
O.X2
0.09
X3
40.08
O.IO
30
0.14
O.IO
15
0.29
0.00
30
0.18
0.06
H
0.X4
0.08
31
40.04
0.11
16
0.26
-0.05
July I
0.20
-0.02
^5
40.19
—0-05
Apr. I
—0.06
40.09
[Eph
17
la]
-0.16
-0.09
2
40.19
40.02
232 TERMS OF SHORT PERIOD IN THE NITTATION, 1912.
FOR WASHINGTON MEAN MIDNIGHT.
Date.
<J"v
6*'Li
Date.
<J"V
6"u>
Date.
J"V
<J"w
Date.
«J'>
6"a
w
M
ft
n
t*
w
i»
ft
July I
+0.20
-0.02
Aug. z6
-0.08
+0.09
Oct. z
-0.Z5
-czo
Nov. z6
40.Z9
4-0.04
2
0.Z9
+0.02
17
0.Z4
+0.05
2
-0.03
O.ZZ
17
O.Z2
0.07
3
0.Z4
0.06
18
az5
0.00
3
40.09
0.09
z8
40.03
0.Z0
4
-fo.o6
ao9
19
0.13
-0.05
4
0.X9
-0.06
19
-0.08
0.Z0
5
—0.05
a 10
20
—0.06
ao8
5
0.23
0.00
20
o.z8
0.09
6
0.16
0.Z0
21
4-ao2
0.Z0
6
a 22
40.05
2Z
0.26
0.06
7
0.26
0.07
22
0.Z0
0.10
7
O.Z5
0.09
22
0.30
40.0Z
8
0.31
+0.03
23
0.Z7
0.08
8
40.05
O.ZZ
23
a28
-0.04
9
0.32
—0.02
24
0.2Z
0.05
9
-0.05
O.ZO
24
0.2Z
0.08
zo
0.26
0.07
25
0.22
— ObOZ
ZO
0.Z3
0.07
25
-O.ZO
0.ZI
ZI
-o.z6
-0.10
26
+a2o
+0.03
zz
— o.z8
40.03
26
40.04
-0.ZI
Z2
-0.02
O.XZ
27
0.Z3
0.07
Z2
0.Z7
—0.02
27
o.z6
0.08
13
+O.Z2
0.09
28
40.04
0.Z0
13
O.Z2
0.06
28
0.24
—0.04
14
0.22
—0.06
29
-0.07
azo
14
-0.04
0.09
29
0.26
40.02
15
0.27
0.00
30
o.z8
ao9
15
40.05
O.ZO
30
0.23
0.07
i6
0.27
+0.05
31
a27
0.06
z6
az4
0.09
Dec. z
0.Z4
0.Z0
17
0.20
0.09
Sept. I
0.3Z
40.0Z
17
0.20
0.07
2
40.03
O.ZZ
i8
+O.ZO
0.1 Z
2
0.30
-0.04
z8
0.23
-0.03
3
-0.08
O.ZO
19
-0.01
0.10
3
0.24
0.08
19
0.22
40.0Z
4
o.z6
ao6
20
0*10
0.07
4
-az3
O.ZZ
20
o.z8
0.05
5
0.Z9
40.01
21
-0.15
+0.03
5
0.00
— OUZZ
2Z
40.ZO
40.08
6
-az7
—0.04
22
0.16
— ao2
6
+O.Z2
0.08
22
0.00
O.ZO
7
O.ZZ
0.08
23
O.X2
0.06
7
0*2Z
—0.04
23
— 0.1Z
azo
8
-0.02
0.Z0
24
-0.05
0.09
8
0.24
+0.0Z
24
0.20
0.08
9
40.08
0.Z0
25
+0.03
0.Z0
9
0.2Z
0.06
25
0.27
40.04
zo
o.z6
ao8
26
0.1 1
0.09
zo
O.X4
0.Z0
26
0.29
— 0.0Z
zz
a2Z
ao5
27
0.17
0.07
zz
+0.03
O.ZZ
27
0.26
0.05
Z2
0.23
-0.0Z
28
0.21
—0.04
Z2
-ao6
O.ZO
28
o.z8
0.09
13
0.20
40.03
29
0.21
+aoz
13
0.Z4
0.06
29
-0.06
O.ZZ
X4
az4
ao7
30
0.17
0.05
14
o.z6
40.0Z
30
40.07
O.ZO
15
40.05
0.09
31
+0.09
40.08
15
-O.Z5
.-0b03
31
40. z8
-a 07
z6
-0.05
40.Z0
Aug. I
— ObOI
0.10
z6
0.09
ao7
Nov. z
0.24
-0.02
17
o.z6
ao9
2
0.12
o.zo
17
-0.0Z
0.Z0
2
0.24
40.03
z8
0.25
0.07
3
0.23
0.08
z8
+0.08
0.Z0
3
0.X9
0.08
19
0.30
40.02
4
0.30
+0.05
19
az6
ao9
4
40.09
azz
20
0.30
—0.02
5
0.33
0.00
20
0.21
0.06
5
-0.02
o*iz
2Z
0.25
0.07
6
0.29
-0.05
2Z
0.23
-0.02
6
O.Z2
0.09
22
o,Z5
0.Z0
7
0.2Z
ao9
22
0.21
40.02
7
o.z8
40.04
23
—0.02
O.ZZ
8
-0.08
O.ZZ
23
0.16
0.06
8
0.Z9
-0.0Z
24
40.ZI
ao9
9
+0.05
0.Z0
24
+0.07
0.09
9
O.Z5
ao5
25
0.22
-0.06
10
+0.17
—0*07
25
-0.03
+0.Z0
ZO
-Ouo8
—0.09
26
40.27
aoo
zz
0.24
-0.02
26
0.Z4
O.IO
zz
4o»oz
0.Z0
27
0.25
40.05
Z2
0.26
+0.03
27
0.23
0.07
Z2
azo
0.Z0
28
az8
0.09
13
0.21
0.08
28
0.29
+0.03
13
o.z8
0.08
29
40.08
0.XI
14
O.Z2
0.Z1
29
0.30
—0.02
14
0.22
—0.04
30
-0.03
0.10
15
+0.02
0.ZI
30
0.25
0.07
15
0.23
0.00
31
O.Z2
0.07
z6
-0.08
+0.09
Oct X
-0.15
— O.ZO
FBph
z6
40.Z9
40.04
32
-az7
40.02
MEAN PLACES OF STABS, 1912,
WASHINGTON, JANUARY i<oo6.
233
Name of Star.
Magni-
tude.
Right ABcenaion.
Annual
Variation.
Declination.
Annaal
Variation.
33 Pisdum .
a Andromedse (Alpheraiz)
/3 Cassiopeiae
e Phcenids .
22 Andromedae
y Pegasi
(T Andromedae
t Ceti
C Tucanae
44 Pisdum
/3 Hydri
ot Phcemds .
12 Ceti
13 Ceti . . t
Z Cassiopeiae
Tt Andromedae
e Andromedae
d Andromedae
a CsLSsiop. (Schedir) . f
/i Phoenids .
fi Ceti
o Cassiopeiae
21 Cassiopeiae
C Andromedae
7 Cassiopdae . . f
^ Pisdum
X Hydri
20 Ceti
y Cassiopeiae
}i Andromedae
a Sculptoris
43 H. Cephd
« Pisdum
P Phoenids . . . f
/< Cassiopeiae
V Ceti
P Andromedae
T Pisdum
C Pisdtmi . . . t
K Tucanae . . f
/ Pisdum .
V Pisdmn
<9Ceti
^ Cassiopeiae
y Phcenids .
38 Cassiopeiae
V Pisdum
a Ursae Min. {Polaris) . f
13 Ceti, dup. 5» 5, 6».2, o".3
a Caasiop.. var. irreg. 2™.2, 2"*.8
7 Cassiop. comp. 7™.6, 5" s. pr.
4-7
2.2
2.4
2.9
4-5
3.8
4-3
6.0
2.9
2.4
6x>
5.2
3.7
4.4
4-5
3.5
var.
4.6
2.2
4.7
5.6
4.3
3.6
4.6
5.0
4-9
2.2
3.9
4.4
4-5
4.4
3.4
5-3
3.6
2.4
4.7
5.6
5.0
53
4.7
3.8
2.8
3-4
6.0
3.7
2.1
h
O
O
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
m
o
3
4
4
5
8
13
14
15
20
21
21
25
30
32
32
33
34
35
37
39
39
39
42
43
44
45
48
51
51
54
56
58
2
2
49.898
50.162
28.504
56.832
44.571
42.161
43.613
56.674
29.743
53.464
8.620
56.254
32.885
43.080
3.748
10.631
54.131
37.138
30.339
10.086
10.381
48.961
48.984
40.273
46.125
6.921
32.752
30.554
23.243
51.855
21.918
31.244
22.474
9.407
24.358
4 9.775
4 48.009
6 48.605
9 7.938
12 47.111
13 15-525
14 37.566
19 37.455
20 2.942
24 32.676
24 39.740
26 46.307
27 51.07*
+ 3.0715
3.0955
3.1834
3.0520
3.1088
+ 3.0861
3.1269
3.0570
3.1497
3.0742
+ 3.2043
2.9731
3.0621
3.0871
3.3272
+ 3.1970
3.1638
3.2014
3.3852
2.8400
+ 3.0126
3.3302
3.9010
3.1742
3.6116
4- 3.XO99
2.I02I
3.0641
3.5958
3.3202
+ 2.8908
7.5725
3.IIIO
2.6803
3.9678
+ 3.0175
3.3499
3.2965
3.I316
2.0401
+ 3.0924
3.2901
2.9977
3.8983
2.6081
4- 4.4111
3.2054
+27.8225
- 6 II 59.45
+28 36 16.59
+58 39 51.97
-46 13 58.96
+45 34 57.27
+14 41 39.75
+36 17 50.52
- 9 18 42.04
-65 23 29.80
+ I 27 8.50
'77 44 59.48
-42 47 1.95
- 4 26 36.25
-44 37.57
+53 24 45.87
+33 14 6.22
+28 50 2.68
+30 22 45.98
+56 3 17.55
-46 34 5.92
-18 28 9.82
+47 48 10.61
+74 30 26.07
+23 47 19.04
+57 20 59.54
+ 76 22.84
-75 24 7.82
- I 37 18.43
+60 14 25.56
+38 I 19.99
59.04
8.15
59.64
24.48
21.00
54.34
15.21
21.71
36.94
36.92
+ 39 4.65
+26 48 6.47
- 8 38 13.83
+59 46 42.30
-43 46 8.58
+69 48 43.86
+14 53 32.97
+88 50 10.77
-29 49
+85 47
+ 7 24
-47 II
+54 29
-10 38
+35 9
+29 37
+ 76
-69 20
+20.136
19.880
19.862
19.848
20.035
+20.02 1
19-963
19-974
21.172
19.939
+20.279
19.551
19.921
19.849
19.843
+19.849
19-573
19.721
19-774
X9-751
+19.795
19-738
19.718
19.622
19-205
+19-631
19.650
19-595
»9-539
19-565
+19.472
19-435
19425
19.288
17-752
+19.140
19.133
19.172
19.089
19-132
+19.005
X8.985
18.633
18.799
18.472
+18.622
18.623
+18.594
P Phoenicia, dup. 4"*.i, 4».i, i".
C Piscium, star 6^.5, 24" n.f.
[Eph la]
K Tucanae, comp. 7"^, 6" n.
a Unae Min. star ^, x8" 8.pr.
234
MEAN PLACES OF STARS, 1912.
WASHINGTON, JANURAY x«».oo6.
Name of Star.
Macni-
tnae.
Right Ascension.
Annual
Variation.
Dedinatioa.
Annual
Variation.
40 Cassiopeiae
5.5
h m s
I 31 27.647
s
+4.7276
+72 35 31.38
I*
+18.469
V AndrotnedfR
4.2
I 31 37.598
3.5089
+40 57 56.46
18.088
TC Piscium .
5^6
I 32 25.868
3.1762
+11 41 30.01
18.47-?
V Persei
3.8
I 32 35.019
3.6661
+48 10 57.73
18.312
a Eridani (Achemar) .
0.6
I 34 26.269
2.2368
-57 41 1.28
18.327
<w Cassiopeiae
5.5
I 35 48.406
+4.3975
+67 35 54.26
+18.318
V Pisduni .
47
I 36 51.019
3.1 i94
+ 52 33.55
18.286
^ Persei
4.2
I 38 8.243
3.7428
+50 14 45 03
18.22 X
r Ceti
3.6
I 39 58.762
2.7865
-16 24 1.94
19.027
0 Piscium
4.5
I 40 44.692
3.1646
+ 8 42 54.56
18.185
€ Sculptoris. . . t
5.4
I 41 31.268
+2.8046
-25 29 31.10
+18.060
4 Octantis (G.) .
5.6
I 42 21.27*
-3.8135
-85 12 52.03
18.107
C Ceti
3-9
I 47 6.983
+2.9600
-10 46 9.75
17.869
e Cassiopeiae
3.4
I 48 3.067
4.2814
+63 14 14.02
17844
a Trianguli .
3.6
I 48 3.679
3.4126
+29 9 2.01
17.628
S Piscium
4.8
I 48 59.904
+3.1035
+ 2 45 12.57
+17.842
p Arietis
2.7
I 49 46.516
3.3078
+20 22 41.68
17.679
ip Phocnicis .
4.4
I 50 6.983
2.4039
-46 44 1.20
17.672
V Ceti
4.2
I 55 51.489
2.8258
-21 30 13.75
17.529
50 Cassiopeiae
41
I 55 53.726
5.0553
+71 59 45.76
17.557
a Hydri
3-0
I 55 59.435
+ 1.8819
-6i 59 52.16
+17-559
y Andromedai pr.
2.3
I 58 29.508
3.6700
+41 54 28.62
17-375
y Andromedae seq.
5.T
J Of + 0.889
» . •
J <y + 4.67
• ■ •
a Arietis
2.2
2 2 12.549
3.3755
+23 2 48.43
17.119
fi Trianguli .
3.1
2 4 18.159
3.5606
+34 34 17.39
17125
5S Cassiopeiae
6.2
2 7 33.612
+4.6647
+66 6 45.23
+ 17.018
6 Persei
5.4
2 7 44.691
3.9717
+50 39 27.08
16.845
^^Ceti
4.5
2 8 20.025
3.1766
+ 8 26 3.28
16.968
/i Fomacis .
5.2
2 9 1.718
2.6379
-31 8 11.66
16.920
y Trianguli .
4.1
2 12 4.699
3.5575
+33 26 26.48
16.756
67 Ceti
5.7
2 12 35.580
+2.9905
- 6 49 38.37
+16.673
^ Eridani
3.8
2 13 21.849
2.1413
-51 55 9.44
16.718
0 Ceti {Mira) . \
var.
2 14 54.005
3.0290
- 3 22 36.02
16.444
K Fornacis .
5.4
2 18 30.922
2.7448
-24 12 57.36
16.418
6 Hydri
4.3
2 20 10.726
X.0575
-69 3 34-63
16.431
t Cassiopeiae . f
4.6
2 21 47.998
+4.8990
+67 0 26.85
+16.340
^»Ceti
4.3
2 23 28.685
3.1861
+ 83 58.04
16.237
a Ceti
4.8
2 27 54.909
2.8414
-15 37 48.98
15.912
36 H. Cassiopeiae .
5-3
2 29 38.442
5.6321
+72 26 3.06
15.940
V Ceti
50
2 31 15.241
+3.1448
+ 5 12 35.30
15.818
pi Hydri
5.3
2 33 30.481
-J.3585
-79 29 36.51
+15.677
V Arietis
5.4
2 33 48.998
+3.4014
+21 34 52.95
15.677
<^ Ceti ...
4.0
2 34 58.242
3.0729
- 0 3 1.91
15.639
B Persei
4-2
2 38 10.945
4.0818
+48 51 24.95
15.370
fc^ Hydri
4.3
2 38 13.894
0.9128
-68 38 38.03
15.460
y Ceti seq, , . . f
3.7
2 38 44.347
+3-1056
+ 2 51 55.62
+15.276
TT Ceti
4.4
2 39 56.000
2.8536
-14 13 51.22
15.348
M Ceti
4.4
2 40 10,957
+3.2390
+ 9 44 35.52
+15.320
e Sculptoris. comp. 9™, 5" n.f.
o Ceti, var., 331**. i»7-9».6,star
9»£. 8«
t Cassiop.,triple, 7",8»>. 2",8
[Bpb. la]
ft
y Ceti, oomp., 6™.2, a".7 pr.
MEAN PLACES OF STARS, 1912.
WASHINGTON. JANUARY i<lu»6.
235
Name of Star.
7 Persei . f
41 Arietis
P Fomads .
<T Arietis
r* Eridani .
T Persei
7 Eridani
f Arietis (mean) . . f
47 H. Cephei.
e Eridani . . f
« Ceti
J' Persei
r* Eridani
p Persei . . f
}i Horologii .
e Hydri
/? Persei (>l/^o/) . . \
^ Arietis
12 Eridani . f
48 H. Cephei .
C Arietis
38 Horologii (G.) . . \
C Eridani ,
r Arietis
e Eridani
a Persei (Algenib)
t Hydri
o Tauri
2 H. Camelopardalis
S Tauri
/ Tauri
^ Eridani . |
T* Eridani .
^ Persei
S Eridani
y Persei
5 H. Camelopardalis
7 Tauri {Alcyone) . f
T* Eridani
^ Eridani
y Hydri
C Persei
9 H. Camelopardalis
« Persei
5 Persei
y Eridani .
A. Tauri
^ Reticuli .
tf Persei, star 8".5, 28" n. pr.
e Arietis, dup., 5". a, 5"».6,i".2
6 Eridani. comp. 4"^.4, f. 8"
p Persei, var. irreg., 3".4-4"*.2
t
t
t
Magni-
tude.
3.9
37
4.5
5.5
4.8
4.1
4.0
4.6
5.7
3.4
2.8
3-1
4.2
var.
5.2
5.5
3
var.
3
4.5
3
4.0
3
5.5
3
5-0
3
5.7
3
4-9
3
5.2
3
4.3
3
1-9
3
5.5
3
3^8
3
4.4
3
3.8
3
4-3
3.8
4.3
3.1
3-7
3.9
4-7
3.0
4.3
4-2
3-2
2.9
5-2
3-0
4.0
3.2
var,
4-4
Right Ascension.
h
2
2
2
2
2
m
44
44
45
46
47
2 48
52
54
54
54
2
2
2
2
16.158
48.008
24456
37.888
2.733
0.630
7.678
TO.609
20.380
55.581
2
2
2
2
3
57 40.657
58 24.898
58 30.721
59 31.942
1 32.139
2 3.825
2 26.258
6 35.65S
8 19.922
9 6.868
9
10
II
16
16
18
18
20
21
22
50.413
19.219
33.466
8.632
24.766
1.991
7.808
4.537
56.055
23.886
3 26 0.759
3 28 47.015
3 29 53.960
3 36 39.206
3 39 1.929
3
3
3
3
3
3
3
3
3
3
39
41
42
43
46
48
48
49
51
53
12.644
3-045
15.035
3.692
9.698
35.343
35.809
37.466
56.690
15.096
3 53 55.397
3 55 48. 1 95
3 57 20.864
Annual
Variation.
+4.3555
35241
2.5121
33076
2.7200
+4-2347
2.9300
34248
7.8344
2.2767
+3.1329
43262
2.6448
3.8343
1.4073
+0.0980
3.8924
34256
2.5466
7.4899
+3-4431
1-5145
2.9122
3-4588
2.3980
+4.2676
-1.5.592
+3.2250
48349
3-2480
+3.3086
2.8250
2.6482
4.2587
2.8728
+4.0659
6.2792
3.5611
2.5805
+2.2450
—0.9684
+3.7649
5.0917
40183
3.8861
+2.7983
3.3212
+0.9402
Declination.
+55 31 51.65
+26 53 54.34
-32 46 30.54
+14 43 11.64
-21 21 58.26
+52 24 11.03
- 9 14 52.26
+20 59 20.11
+79 4 19.97
-40 39 24.85
+ 3 44 42.15
+53 9 45.46
-23 58 7.83
+38 29 59.55
-60 4 42.98
-72. 14 45.99
+40 37 2.37
+19 23 40.43
-29 20 0.85
"^77 24 45.80
+20 43 7.95
-57 39 3.16
-98 45.57
+20 49 49.49
-43 24 20.98
+49 32 55.57
-^7 42 36.94
+ 8 43 11.34
+59 38 4.42
+ 9 25 34.96
+12 38 8.76
- 9 45 19.74
-21 55 39.25
+47 30 25.24
-lo 3 39.01
+42 18 5.23
+71 3 43-8o
+23 50 1.34
-23 30 30.63
-36 27 57.97
-74 30 31.91
+31 37 22.99
+60 51 7.31
+39 45 23.29
+35 32 19.16
-13 45 29.73
+12 14 32.60
-61 38 53.46
Annual
Variation.
+15.102
14.971
15-203
14-943
14.936
+14.893
14.440
14.520
14.530
14-509
+14-239
14.268
14-223
14.088
14.025
+14.060
14.021
13.762
14.286
13.545
+13.471
13.516
13.495
13-109
13.882
+12.988
13.050
12.806
12.756
12.677
+12.480
12.313
12. 171
11.700
12.298
+".554
11.366
11.286
10.796
11.024
+ 10.992
10.860
10.781
10.600
10.512
+10.369
10.328
+10.221
P Persei, var. 2'*.87, 2*. 1-3™. 2
12 Eridani, comp., 7» i".4 n. pr.
38 Horologii remarkable pur-
plish red star.
e Eridani, comp. 9", s. 7"
7 Tauri, quad., comps. 6".3,
7»6,8»2,ii7", i8i", 190"
9 H.Camelop.,comp.8"*, i".9n.f.
e Persei, comp. 8"*, 8".6 n. f.
X Tauri, var., 3«*.95, 3».3-4™ 2
236
MEAN PLACES OF STARS, 1912,
WASHINGTON, JANUARY i*.oo6.
Name of Star.
V Tauri
A Tauri . t
c Persei
p Tauri
o^ Eridani
Groombridge 750
/I Tauri
a Horologii .
a ReticuU .
y Tauri
d Tauri
t^ Eridani
e Tauri
S Mensse
m Persei . t
a Tauri {Aldebaran)
V Eridani
a Doradus .
53 Eridani .
r Tauri
Groombridge 848
a Coeli
4 Camelopardalis
// Eridani
n^ Ononis
9 Camelopardalis
t Tauri
1^ Orionis
I Aurigae
ft Camelopardalis
e Aurigae . . . f
C Aurigae
I Tauri
II Orionis
t} Aurigae
B lyeporis
ft Eridani
// Aurigae
19 H. Camelopardalis
}i Leporis
a Aurigae (CapeUa)
ft Orionis (Rigpl) . . t
A. Aurigae
r Orionis
o Columbae .
y Orionis (Bellatrix)
ft Tauri
17 Camelopardalis
A Tauri, Btar 6».5 f. 38", ayo", s.
m Persei, star 6".5, 115", s. pr.
Macni
tuae«
3.9
4-5
4.0
5.6
41
6.7
4-3
3.8
3-4
3-9
3.9
41
3-6
5.6
6.1
I.I
4.1
3.5
4.0
4-3
6.0
4-5
5-4
4.2
3.3
4-4
51
3-9
2.9
4.2
var,
3-9
4-7
4.6
3.3
3.3
2.9
4.8
5.2
3.3
0.2
0.3
4.8
3.7
4-9
1-7
1.8
5-8
Right Ascension.
h m s
3 58 28.433
3 59 29.423
4 2 16.110
4 5 28.132
4 7 34152
4 8 34697
4 10 45.266
4 II 5135
4 13 17.247
4 14 47.020
4 17 51.471
4 20 43.874
4 23 28.583
4 23 53.726
4 27 13.181
4 30 52.159
4 31 55253
4 32 5.636
4 34 8.919
4 36 57.699
4
4
4
4
4
4
4
4
4
4
36
37
40
41
45
45
46
49
51
55
58.270
43.476
40.078
6.098
3.706
17.698
13.473
40.009
15.637
35.048
4 55 39.115
4 56 19.455
4 57 50.083
4 59 32.370
5 o 20.505
5
5
5
5
5
5
5
5
5
5
5
5
5
I
3
7
8
8
10
10
12
13
14
20
20
21
44.120
31.401
24.233
2.021
58.691
II. 163
18.480
56.933
19.989
18.499
24.626
43.679
51.345
Annnal
Variation.
8
+ 3.1894
3.5428
4.3460
3.6487
2.9271
+ 17.5285
3.2553
X.9873
0.7643
3.4112
+ 3.4565
2.2527
+ 3.5003
- 4.1559
+ 4.2143
+ 3.4397
2.9956
1.2944
2.7454
3.5983
+ 8.0144
1.9299
4.9854
2.9986
3.2549
+ 5.9461
35073
31238
3.9034
5.3245
+ 4.3006
4.1890
3.5844
3.4264
4.2036
+ 2.5383
2.9490
4.1013
9.8275
2.6939
+ 4.4283
2.8822
4.2173
2.9124
2.1587
+ 3.2168
3.7911
+ 5.6589
P
Declination.
+ 5 44 44.90
+21 50 32.00
+47 28 42.36
+26 15 7.32
-73 58.86
+85 19 23.58
+ 8 40 21.58
-42 30 40.38
-62 41 38.21
+15 24 57.09
+17 20 12.71
-34 13 14.82
+18 59 9.68
-80 25 15.04
+42 52 36.57
+16 19 59.31
- 3 31 53.95
-55 13 36.30
-14 28 3i.:7
+22 47 19.97
+75 46 57.50
-42 I 53.94
+56 36 7.16
- 3 24 54.83
+ 6 48 30.50
466 II 40.25
+18 41 27.14
+ 2 17 50.56
+33 I 39.46
+60 18 53.44
+43 41
+40 56
+21
+15
+41
27
16
6
-22 29
-511
+38 22
+79 7
-16 18
+45 54
- 8 18
+40 I
- 6 56
-34 58
+ 6 16
+28 32
+62 59
38.48
54.13
53.89
56.41
58.96
19.08
58.05
52.18
56.09
32.40
34.28
9.36
18.56
19.66
51.40
14.49
2.38
41.74
Annual
Variation.
+10.133
10.003
9.819
9564
9.530
+ 9.409
9.173
8.941
9.044
8.857
+ 8.61 1
8.456
8. 161
8.234
7.899
+ 7.412
7.516
7.490
7. 181
7.086
+ 6.960
6.936
6.653
6.756
6.462
+ 6.424
6.307
6.061
5.901
5.549
+ 5.542
5.476
5.322
5.191
5.088
+ 4.978
4.816
4.480
4.662
4.398
+ 3.894
4.312
3.427
4.049
3.618
+ 3.428
3.241
+ 3.314
B Aarigae. var. irreg., 3"*.o-4"*.5.
[Bph. It]
Ononis, comp. 8>^.o, 9".5, 8.pr.
MEAN PLACES OP STARS, 1912.
WASHINGTON. JANUARY i*joo6.
237
Name of Star.
Manii.
tude.
Right Atcention.
Annnal
Variation.
Declination.
Annual
Variation.
/3 Leporis
3.0
b m 8
5 24 28.488
8
+ 2.5703
0 0 tf
-20 49 44.17
•f3.oo6
X Aurigae
4.9
5 26 59.951
3.9037
•4-32 7 40.08
2.863
S Orionis . t
2.5
5 27 30.616
3.0641
- 0 21 48.78
2.830
Groombridge 966
6.4
5 27 57.022
8.0068
+74 59 14-52
2. 811
ct Leporis
2.7
5 28 50.928
2.6456
-17 53 4-78
2.716
^^ Orionis
4-5
5 29 59.315
+ 3.2924
+ 9 25 50.39
•f2.602
t Orionis . t
2.9
5 31 7-688
2.9341
- 5 58 1. 19
2.516
e Orionis
1.8
5 31 44.858
3.0434
- I 15 26.48
2.466
C Tauri
3.0
5 32 23.096
3.5848
+21 5 22.58
2.378
Groombridge 944
6.4
5 33 38.985
18.7487
•f85 9 19. 1 1
2.296
C Orionis . t
2.0
5 36 19.093
+ 3.0269
- I 59 18.69
+2.054
a Columbae .
2.8
5 36 27.747
2.1724
-34 7 14.04
2.017
0 Aurigae
5.5
5 39 4.882
4.6449
+49 47 19.44
1.809
C Leix)ris
37
5 42 58.055
2.7178
-14 51 14.71
1.488
K Orionis
2.2
5 43 34.962
2.8448
- 9 42 0.76
1. 43 1
6 Doradtis .
4-5
5 44 36.802
•¥ O.1019
-65 46 6.72
+1.344
y Aurigae
4-2
5 45 23.412
+ 4.1572
+39 7 25.31
1.290
31 Mensae (G.)
6.2
5 47 13.194
-11.6913
-84 49 53.11
1.204
d Leporis
3-9
5 47 32.186
+ 2.5796
-20 53 9.27
0.441
a Orionis (Betelgeux) . f
var.
5 50 24.443
32478
-f 7 23 29.14
0.848
^ Aurigae
3-9
5 52 16.927
+ 49417
•f54 16 44.98
+0.556
7 Leporis
3.8
5 52 23.800
2.7322
-14 10 59.25
0.806
P Aurigae
2.1
5 53 4-455
4.4017
+44 56 22.30
0.600
0 Aurigae . . f
27
5 53 43-227
4.0916
+37 12 26.34
+0.458
I Geminorum
4.3
5 58 46.268
3.6474
•f23 16 7.91
— O.OOI
I Puppis (G.) . t
6.2
6 I 56.453
+ 1.7257
-45 2 10.05
+0.055
y Orionis
4-4
6 2 32.878
3.4264
+14 46 47.10
—0.248
22 H. Camelopardalis .
47
6 9 9.132
6.6188
+69 21 8.16
0.914
7 Geminorum . . f
var.
6 9 33.985
3.6227
+22 31 59.25
0.853
2 Lynds
4.4
6 II 51.711
5.2987
+59 2 38.65
1.007
C Canis Majoris .
3.1
6 16 56.020
+ 2.3018
«
-30 I 26.47
-1.503
pi Geminorum
3-2
6 17 38.233
3.6307
+22 33 34.64
1.656
^'^ Aurigae
5-1
6 18 7.408
4.6261
+49 20 2.04
1.587
P Canis Majoris .
2.0
6 18 49-447
2.6415
-17 54 41.43
1. 641
8 Monocerotis . f
4-5
6 19 6.324
3.1802
+ 4 38 17.90
1.660
a Argils (Canopus)
-0-9
6 21 59.906
+ 1.3319
-52 38 50.46
-1.912
10 Monocerotis
50
6 23 36.898
2.9641
- 4 42 25.20
2.056
y Geminorum
4.1
6 23 44.290
35629
+20 16 7.26
2.088
8 Lyncis
6.0
6 29 39-144
54927
+61 33 35-25
2.862
23 H. Camelopardalis .
5.6
6 31 14.073
10.3035
+79 39 42.89
3.356
f ' Canis Majoris .
4.5
6 31 22.107
+ 2.5157
-22 53 38.31
—2.700
51 Aurigae
57
6 32 33-736
4-1599
+39 28 9.62
2.951
y Geminorum
1.9
6 32 37.728
3.4671
+16 28 30.59
2.892
y Argils
3-2
6 35 4-199
1.8367
-43 7 6.17
3.074
S Monocerotis . f
47
6 36 7.921
3.3047
+ 9 58 40.35
3.155
f Geminorum
3-2
6 38 31.125
+ 3.6930
■f-25 13 8.88
-3-371
^ Geminorum .
3.4
6 40 21.054
3.3685
+12 59 28.61
3.704
^'5 Aurigae
5.3
6 40 23.971
+ 4.3301
+43 39 57.55
-3.355
d Orionis, star 6"^.9, 52^.6,
t Orionis.comp. 7™. 3, ii".5,
C Orionis, comp. 4™. 2, 2". 4,
n.
s.f.
s.f.
a Orionis, red star, var. irreg.
i™.o~i".4.
B Aurigae, comp. 7=5, 2".5, n. pr.
I Puppis, star, 5™.$, 150", s. f.
[Eph. 12.]
8
S
Gem., var. 231*4, 3»2-4".2,
comp. 8™.8, i".2, n. pr.
Monoc, star. 6^.5, 13". 7, n. f.
Monoc.comp. 8"».8, 2 ".9, s. pr.
238
MEAN PLACES OF STARS, 1912.
WASHINGTON, JANUARY id.006.
Name of Star.
Magni
tude.
Right Ascension.
Annual
Variation.
Declination.
Annual
Variation.
h
m
s
8
0 1 n
H
a Canis Majoris {Sirius) f
-1.6
6
41
16.216
+ 2.6435
-16 35 41.36
- 4-797
18 Monocerotis
47
6
43
16.323
3.1281
■»■ 2 30 33.15
3.778
43 Camelopardalis
51
6
44
13-406
6.4900
+68 59 31.50
3.832
6 Geminorum
3.6
6
46
59.454
3-9584
+34 4 5.75
4.132
a Pictoris
3-3
6
47
17387
+ 0.6178
-61 50 48.55
3.869
C Mensae
5.6
6
47
23.250
- 4.9372
-80 43 18.08
- 4 033
r Argtis
2.8
6
47
45-143
+ 1.4884
-50 30 35 03
4.253
15 Lyncis . . f
4-5
6
49
39.768
5.2078
+58 32 21.44
4.440
6 Canis Majoris .
4-2
6
50
6.108
2.7879
-" 55 39.42
4.355
e Canis Majoris . . f
1.6
6
55
10.030
2.3574
-28 51 6.17
4.776
C Geminorum . f
var.
6
58
53-444
+ 3.5608
+20' 42 0.62
- 5.102
0* Canis Majoris .
3-1
6
59
20.996
2.5048
-23 42 14.60
5.128
51 H. Cephei
5.3
6
59
37.82*
293185
+87 II 21.21
5.192
y Canis Majoris .
•4.1
6
59
46.646
2.7148
-15 30 9-34
5.179
S Canis Majoris .
2.0
7
4
48.740
2.4381
-26 15 10.38
5.590
63 Aurigae
5-1
7
5
36.325
+ 41333
+39 27 5408
- 5.663
51 Geminorum
5-3
7
8
19.177
+ 34482
+16 18 32.68
5-929
y^ Volantis . . f
3-9
7
9
29-785
— 0.5002
-70 21 22.16
5.908
25 H. Camelopardalis .
5-1
7
12
38.154
+12.8415
+82 35 1.82
6.294
X Geminorum
3.6
7
13
2.220
3.4504
+16 41 59.49
6.326
Tt Argds
27
7
14
2.086
+ 2.II89
-36 56 21.05
- 6.373
6 Geminorum . f
3-5
7
14
52.153
+ 3.5867
•f22 8 42.65
6.447
6 Volantis .
4.0
7
16
53.055
— 0.0186
-67 47 46.31
6.606
7 Octantis (G.) .
6.4
7
18
1-35*
-20.1468
-86 53 33.62
6.688
I Geminorum
3-9
7
20
15.786
+ 37307
+27 58 25.69
6.965
77 Canis Majoris .
2.4
7
20
36.902
+ 2.3737
-29 7 51.07
— 6.899
Groombridge 1308
5.8
7
21
44.134
6.2775
+68 38 48.21
7043
/3 Canis Minoris .
31
7
22
22.772
32556
+ 8 28 2.47
7.098
p Geminorum
4.2
7
23
27.199
3.8635
+31 57 37.78
6.956
<r Argils . . t
3-3
7
26
26.291
1. 901 8
-43 7 22.04
7.202
a' Geminorum (Castor)
2.0
7^
28
59.236
+ 3.8336
+32 4 57.49
- 7.671
a^ Geminorum
2.8
Jar -
- 0.276
• • • •
^a - 4.1 1
a ■ •
25 Monocerotis
5-2
7
32
54.154
2.9820
- 3 54 49.49
7.884
a Can. Min. (Procyon) . \
0.5
7
34 41765
3.1423
+ 5 27 3.85
9.086
24 Lyncis
5-0
7
35
34-108
5.0952
+58 55 2.44
8.175
K Geminorum . \
37
7
39
8.242
+ 3.6269
+24 36 35.07
- 8.463
/? Geminorum {Pollux) .
1.2
7
39
55-990
3.6761
+28 14 22.30
8.521
4 Puppis
5.1
7
41
53.745
2.7636
-14 20 57.43
8.634
4" Argds
3-5
7
45
35596
2.5232
-24 38 17.96
8.912
^ Geminorum
50
7
48
6.852
3.6770
+26 59 39.89
9.136
26 Lyncis
57
7
48
18.626
+ 4.3823
+47 47 37.10
- 9.130
Groombridge 1374 .
5-6
7
49 41.065
7.2497
+74 9 15.95
9.268
;r Argils
3.6
7
54 32.514
1.5260
-52 44 45.90
9.601
CO Cancri
5.9
7
55
36.505
3.6343
+25 38 3-9<3
9.692
X Geminorum .
50
7
58
6.987
3.6908
+28 2 30.34
9.932
27 Lyncis
4-9
8
I
50.746
+ 4.5312
+51 45 40.70
-IC.I65
p Argils
2.9
8
3
47.763
2.5546
-24 2 59.87
10.257
3 H. Ursap Majoris
5.5
8
4
4.179
+ 6.0156
+68 44 3.58
-10.325
15 Lyncis, dup., 4"*.9. 6"*.2, o'
c Can. Maj.,comp. 9", 7".8.8.f.
C Gem., var, 10^.15. 3™7-4" 3
y^ Volantis. comp. 5™.8, ia".9,
n. pr.
d Gem., comp. 8**, 7".o, s. pr.
6 Argds. star. 8", 22".4. n. f.
K Gem., comp. 8".5, 6".6, s. pr.
Positions given for Sirius and Procyon are those of the centers of gravity of the systems. Corrections given
on page IX remain to be applied to reduce to the positions of the stars.
[Eph xa]
MEAN PLACES OF STARS, 1912.
239
WASHINGTON. JANUARY l<oo6.
Name of Star.
y Argtls . t
C Cancri {mean) . . \
Bradley 1147
20 Puppis
Groombridge 1 1 1
/? Cancri
31 Lyncis
d} Cancri
e Argtls
30 Monocerotis
0 Ursae Majoris
6 Chamaeleontis
Grcx)mbridge 1450
fj Cancri
Grcx)mbridge 1446
S Hydrae
c Hydrae
y Cancri
d Cancri
a Pyxidis
1 Cancri
€ Hydrae
5 Argiis
<y* Cancri (mean)
C Hydrae
I Ursae Majoris
a Cancri
J^Carinae . t
K Ursae Majoris
(T* Ursae Majoris . . f
/f Cancri
A. Argtis
C Octantis
e Hydra
/3 Argds
83 Cancri
I Argds
40 Lyncis
6 Pjrxidis
or Hydrae
h Ursae Majoris
I H. Draconis
d Ursae Majoris
0 Ursae Majoris
S Leonis
^ Argtis . . t
10 Leonis Minoris
0 Leonis
r ArgAs, star 5", 42".5, s. pr.
C Cancri, triple; binary 5"*.6,
• 6".3, i" with comp. 6™.o,
5". 4 s.f.
1 Cancri, star 6".6, 3o".6, n. pr.
MafHii-
tude.
2.2
7.0
3.8
4-4
5.9
1:7
4.0
3.5
4-3
6.0
5.5
6.3
4-2
4-5
4.7
4.2
3-7
4.2
3.5
2.0
5-5
3.3
31
4-3
51
3-7
4-9
2.2
5-4
3.8
1.8
6.6
2.2
3-3
4-9
2.2
3.8
4.6
4.6
3-3
5-1
3.6
4.6
3.8
e
Right AscensioD.
h
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
m
6 49.298
7 10.019
8 30- 970
9 17.282
10 44772
11 44637
16 49.050
18 19.620
20 42.545
21 15.870
22 57.868
23 17.853
27 11.989
27 37.337
29 56.962
32 59.929
34 9.552
38 11.770
39 41-187
40 3329
41 22.546
42 7.042
42 16.243
48 52.750
50 44-631
53 "344
53 40.570
54 49-158
57 37.443
2 40.028
2 58.960
4 45-519
9 38.50*
9 47242
12 14.313
14 4.363
14 43.970
15 41.887
17 35.627
23 15.807
24 36.359
24 37.695
26 43.372
26 58.762
27 12.262
27 13.885
28 50.225
36 27.345
Annual
Variation.
+ 1.8498
3-4448
7.6284
2.7580
61.5386
+ 3-2559
4. 12 18
3.4394
1.2340
2.9997
+ 5.0145
- 1.7422
+ 3.9100
3.4748
6-7515
+ 3.1783
3-1384
3-4773
3-4142
2.4109
+ 3.6385
3.1800
1.6518
3.6686
3.1746
■f 4.1241
3.2848
1.4683
4. 1 1 20
5.3261
+
+
3.2530
2.2060
8.0707
3.1238
0.6710
3.3540
1. 6041
3.6643
2.6513
2.9487
4.7683
8.8239
5.3652
4.0320
3.2372
2.3592
3.6860
3.2053
Declination.
-47 4 37.01
+17 54 50.24
+76 I 36.62
-15 31 20.96
+88 53 55.27
-f 9 27
+43 28
+18 36
-59 13
- 3
+61
-77
+38
37
o
12
19
26.74
16.60
55.40
33.84
7-34
47.96
3.66
8.18
26.64
18.18
40.48
376
8.25
42.03
7.26
Annual
Variation.
Hydri, triple: binary 3^.5,
6™8, o".2. with comp. 7"*.8,
3 3
d Argiis, comp. 5» 2", s.
<P Cancri, dup. 5^.9, 6^.4, i".4
[Eph. Z2]
h'
^
+20 44
+73 56
+ 60
+ 3 39
+21 47
+18 28
-32 52
+29 4 56.78
■4- 6 44 32.37
-54 23 8.77
+30 54 48.01
+ 6 16 51.78
+48 23 16.27
+12 II 56.07
-58 53 22.30
+47 30 18.83
+67 29 33.62
+11 I 22.38
-43 4 37.41
-85 18 43.98
+ 2 41 9.98
-69 21 16.74
+18 4 44.14
-58 54 20.30
+34 45 54.94
-25 35 27.12
- 8 16 35-88
+63 26 50.33
+81 42 59.81
+70 13 4-39
+52 4 44-57
+11 41 24.11
-40 4 52.87
+36 47 19.91
+10 17 35.66
Carinas, comp. 7™. 2, 5
Urs. Maj., binary 4™.
i".3
0.546
0.689
0.668
0.717
0.808
0.951
1.368
1.409
1.541
1.608
1. 821
1. 716
2.187
2.093
2.317
2.424
2.50?
2.807
3.104
2.878
3.028
3.075
3.136
3.492
3.584
3.996
3.820
3869
4.094
4.405
4.371
4.472
4.716
5.079
4.817
5.154
5.050
5.099
5.252
5.505
5.588
5.640
5.656
6.285
5.837
5.716
5.862
6.274
,f.
9. 8»
i> Argils, dup. a^.S, 6».o, o".8
240
MEAN PLACES OF STARS, 1912.
WASHINGTON. JANUARY i<i.oo6.
Name of Star.
Macni-
tuae.
Right AscensioQ,
Annual
Variation.
DocUnation.
Annnal
Variation.
C Chamaeleontis .
5.2
h m 6
9 36 30-596
8
-1.6422
0 t n
-80 32 45.72
-16.225
6 Antliae
50
9 40 16.715
+2.6729
-27 21 58.20
16.405
€ Leonis
3.1
9 40 51.538
3.4II5
+24 10 47.48
16.485
V Ursap Majoris .
3.9
9 44 44.572
4.2946
+59 27 11.62
16.813
V Argtis . . t
3.2
9 44 54.185
I. 5010
-64 39 49.30
16.679
6 Sextantis .
6.0
9 46 48.014
+3.0246
- 3 49 49.64
-16.783
f4, Leonis
4.1
9 47 45.669
3.4177
+26 25 18.82
16.855
Groombridge 1586 .
6.0
9 50 32.438
5.4371
+73 17 54.76
16.992
19 Leonis Minoris .
5.2
9 52 17.972
3.6861
+41 28 30.86
17.036
q> Argds
3.7
9 53 46.252
2.IOI3
-54 8 55.58
17.102
7t Leonis
4.9
9 55 33.858
+3.1725
+ 8 28 0.67
-17.190
77 Leonis
3.6
10 2 32.132
3.2731
+17 II 31.94
17.474
a Leonis (Regulus)
1.3
10 3 41.230
3.1985
+12 23 51.63
17.521
X Hydne
3.8
10 6 17.880
2.9246
-II 55 7.28
»7.7»7
q Velorum .
4-1
10 II 2.322
2.5126
-41 41 8.31
17.790
32 Ursae Majoris .
5.7
10 II 39.468
+4.3967
+65 32 52.18
-17.860
A. UrsaR Majoris .
3.5
10 II 47.741
3.6322
+43 21 15.44
17.891
C Leonis
3.6
10 II 47.926
3.3428
+23 51 22.47
17.862
y Leonis pr, . . f
2.6
10 15 7.380
3.3*20
+20 17 13.41
18.135
/i Ursae Majoris .
3-2
10 17 5.516
3.5870
+41 56 32.93
18.032
30 H. Ursae Majoris
4.9
10 17 48.349
+4.3654
+66 0 42.78
-18.104
30 H. Camelopardalis .
5-3
10 20 26.885
7.6II3
+83 0 25.01
18.176
M Hydrae
41
10 21 50034
2.9004
-16 23 12.08
18.314
31 Leonis Minoris .
4-4
10 22 47.981
3.4800
+37 9 30.35
18.382
a Antliae
4.4
10 23 7.403
2.7421
-30 37 1 1. 01
18.304
36 Ursae Majoris .
4.8
10 25 0.266
+3.8628
+56 25 55.72
-18.387
9 H. Draconis
5.0
10 27 38.820
5.1926
+76 10 0.32
18.450
p Leonis
3.8
10 28 10.751
3.1618
+ 9 45 35.26
18.462
33 Sextantis .
6.4
10 36 55.577
3.0520
- I 16 42.51
18.854
41 Leonis Minoris .
5.0
10 38 38.040
3.2676
+23 38 57.87
18.786
0 Argds
3.0
10 39 48.827
+2.1318
-63 56 1.40
-18.858
42 Leonis Minoris .
5.4
10 40 58.500
3.3432
+31 8 45.89
18.907
7 Argils . t
var.
10 41 38.631
2.3201
-59 13 18.09
18.895
M Argds . t
2.8
10 42 58.891
2.5729
-48 57 18.89
19.006
/ Leonis
5.3
10 44 38.004
3.1567
+11 0 39.70
19005
<^ Chamaeleontis . . f
4.6
10 44 58.043
+0.5971
-80 4 33.71
-18.985
r Hydrdb
3-3
10 45 16.900
2.9580
-15 43 57.76
18.779
46 Leonis Minoris .
3-9
10 48 23.655
3.3643
+34 41 22.51
19.358
54 Leonis . . . f
4-5
10 50 51.053
32535
+25 13 9-73
19.158
I Antliae
4.7
10 52 37.128
2.7955
-36 39 52.25
19.323
Groombridge 1706
6.3
10 52 56.797
+4.8978
+78 14 30.71
-19.229
a Crateris
4-2
10 55 29.134
2.9204
-17 49 48.50
19.149
d Leonis
50
10 56 0.984
3.0993
+ 45 24.56
19.292
/3 Ursae Majoris (Merak)
2.4
10 56 32.390
3.6425
+56 51 15.65
19.256
a Ursae Majoris (Dubhe)
2.0
10 58 18.487
+3.7310
+62 13 34.69
19.395
7 Octantis .
6.3
10 59 57.052
-0.3460
-84 7 13.77
-19.366
X Leonis
4.7
II 0 28.724
+30963
+ 7 48 43.47
19.414
/>* Leonis
57
II 2 24.939
+3.0614
+ 2 26 0.76
-19.496
V Argds, comp. 6"».o, 4". 9, a. f.
y Leonis, comp. 3">.8, 3".7, s. f.
7} Argds, var., irreg., i
/i Arg{is, comp. 7™
[Eph. xa]
2".2
6-6".6 1 <5' Cham., star 5».5 pr. 32", 256", s.
, n. f. I 54 Leonis, comp. 6^.3, 6". 4, a. f.
MEAN PLACES OP STARS, 1912.
WASHINGTON, JANUARY 1^/306.
241
Name of Star.
Maeni-
tuae.
Right Ascension.
Annual
Variation.
Declination.
Annual
Variation.
h m
s
8
e *
f
tt
f UrsaR Majoris .
3.2
II 4 43.311
+3.3862
+44 58
34.31
-19.498
P Crateris .
4-5
II 7
19.687
2.9473
-22 20
43.27
19.625
6 Leonis
2.6
II 9
25.847
3.1956
+21 0
21.52
19.701
S Leonis
34
II 9
37407
3.1508
+15 54
38.57
19.648
r Ursap Majoris .
3.7
II 13
43757
3.2486
+33 34
28.81
19.612
6 Crateris
3.8
II 14
56.389
+2.9972
-14 18
7.86
-19.464
(T Leonis
4-1
II 16
35985
3.0951
+ 6 30 42.60
19.700
TT Centauri .
4.3
II 16
59.370
2.7252
-54 0
31. II
19.707
2 Leonis . . ^
\ 4.0
II 19
20.248
3.1288
+11 0
50.75
19.814
r Leonis
5.2
II 23
24.727
3.0858
+ 3 20
27.72
19.807
X Draconis .
41
II 26
1 1 .645
+3.5996
+69 49
0.80
-19.849
S Hydrae
37
II 28
40.274
2.9457
-31 22
14.45
19-913
X Centauri .
3.3
II 31
42.893
2.7488
-62 31
58.27
19.920
V Leonis
4.5
II 32
26.583
3.0716
- 0 20
16.02
19.862
TT Chamaeleontis .
57
II 33
37470
2.4508
-75 24
33.78
19-936
3 Draconis .
5.5
II 37
34.525
+3.3756
+67 13
55.17
-19.915
C Crateris
4-9
II 40
18.041
3.0374
-17 51
41.22
20.013
X Ursap Majoris .
3.8
II 41
24.548
3.I8H
+48 16
2.54
19.960
/3 Leonis (Denebola)
2.2
II 44
34.341
3.0626
+15 3
50.52
20.119
fi Virginis .
3.8
II 46
6.685
3.1252
+ 2 15
38.58
20.284
Groombridge, 1830 .
6.5
II 47
54.671
+3.4686
+38 21
I. II
—25.801
y Ursae Majoris .
2.5
II 49
12.502
3.I7I3
+54 II
2.57
20.019
TT Virginis .
4.6
II 56
21.809
3.0743
+ 76
18.10
20.075
0 Virginis
4.2
12 0
43.622
3.0571
+ 9 13
18.01
20.013
6 Centauri .
2.9
12 3
47.512
3.0941
-50 13
56.83
20.073
€ Corvi
3.2
12 5
35.801
+3.0808
-22 7 49.41
-20.037
4 H. Draconis
5.1
12 8
5.409
2.8512
+78 6
18.78
20.014
6 Cruds
3.1
12 10
28.190
3.1733
-58 15
3501
20.063
6 Ursae Majoris
34
12 II
4.692
2.9861
+57 31
17.58
20.017
y Corvi
2.8
12 II
16.696
3.0813
-17 3
11.81
20.005
2 Canum Venaticorum .
\ 5.8
12 II
43.275
+3.0167
+41 8
59.59
—20.065
/3 Chamaeleontis .
44
12 13
9.591
3.4420
-78 49
24.96
19.996
Bradley 1672 .
6.3
12 14
26.635
0.3397
+88 II
15.83
19.948
77 Virginis .
4.0
12 15
24.221
3.0693
- 0 10
40.17
20.028
or^ Cruds
1.6
12 21
41.623
3.3100
-62 36
41.45
19.996
a'Criids
2.1
-^flf-f 0.609
• • • •
M-
-1.31
• • • •
20 Comae
57
12 25
18.125
+3.0185
+21 22
59.97
—19.960
6 Corvi . . ^
• 3-1
12 25
18.559
3.1008
-16 I
32.13
20.072
y Crucis . J
1.6
12 26
16.512
3.3018
-56 37
13.37
20.175
8 Canum Venaticorum
4-3
12 29
34.056
2.8570
+41 50
7.81
19.600
/f Draconis .
3-9
12 29
44.035
+ 2.5792
+70 16
23.58
-19.867
/3 Corvi
2.8
12 29
45.678
3.1449
-22 54
36.72
19-938
24 Comae seq, . . \
\ 5.2
12 30
42.978
3.0109
+18 51
40.76
19-853
a Muscae
2.9
12 31
55368
35385
-^8 39
2.78
19.880
X Virginis
4.8
12 34
42.168
3.0935
- 7 30 41. II
19.847
y Centauri .
2.4
12 36
39.480
+32934
-48 28
36.04
—19.809
y Virginis {mean)
2.9
12 37
12.091
3.0397
- 0 58
0.74
19.778
p Virginis .
5.0
12 37
25.862
+3.0373
+10 43
13.30
-19.886
1 Leonis, comp. 6^.8, 2^.6, n. f.
2 Can. Ven., starS"*, ii".6, s. pr.
^ Corvi, star, 8™, 24 ".4, s. pr.
1912 16
y Crucis, star, 6™.6, 85
24 Comae, star, 6". 7, 20
y Cent., dup., 3.»i, 3«
[Eph 12]
", n. f.
".6. pr.
.1, i".4-
Virginis, binary, 3» 7, 3« 7.
6".2, P=:328*»
242
MEAN PLACES OP STARS, 1912.
WASHINGTON. JANUARY lAjo^
Name of Star.
Maeni-
tude.
Right Ascension.
Annual
Variation.
Declination.
Annual
Variation.
h m
s
s
e f -
n
76 Ursa* Majoris .
5-9
12 37
43.494
+2.6326
+63 II 45.84
-19793
/3 Cnicis
1.5
12 42
34.236
3.4803
-59 12 28.48
19734
t Octantis .
5.4
12 45
37.397
5.9286
-84 38 44.23
19.626
31 Comae
5.1
12 47
24.787
2.9242
+28 I 9.72
19-643
32 H. Camelop. seq, . f
5-3
12 48
28.229
0.4328
+83 53 28.38
19-583
n Centauri .
4.3
12 48
33.498
+3.31 19
-39 42 1.62
-19-632
e Ursjp Majoris (Alioih)
1-7
12 50
9.694
2.6490
+56 26 14.35
19.580
d Virginis
3.7
12 51
10.204
3.0207
+ 3 52 31.82
19.609
a CanumVenat. seq. . t
2.9
12 51
54.803
2.8110
+38 47 36.40
19-485
d Muscae
3.6
12 56
1 1 .897
4.0683
-71 4 27.80
19-477
e Virginis .
30
12 57
47.781
+2.9865
+11 25 54.93
-19397
0 Virginis . . f
44
13 5
23.519
3.1030
- 5 4 9.90
19275
43 Coma*
4-3
13 7
46.106
2.8028
+28 19 26.52
18.296
20 CanumVenaticorum.
4.7
13 13
35.969
2.6960
+41 2 8.62
19.006
y Hydrae
3.3
13 H
8.061
3.2549
-22 42 26.93
19059
I Centauri .
2.9
13 15
38.658
+3.3608
-36 14 54.12
—19.060
C^ UrsapMaj. (Mizar) . \
2.4
13 20
23.138
2.4226
+55 23 4.94
18.855
C* Ursae Majoris
4.0
Aa-
+■0.956
. • • .
-^<y-i2.67
• • ■ •
a Virginis {Spied)
1.2
13 20
33.305
3.1567
-10 42 7.95
18.853
Groombridge 2001
6.1
13 23
53.294
1.5240
+72 50 53.57
18.737
70 Virginis
5.2
13 24
7.557
+2.9340
+14 14 54.68
-19.295
K Octantis .
5.6
13 26
29.25*
9.0321
-85 20 8.98
18.659
C Virginis .
3.4
13 30
12.462
3.0543
- 0 8 46.42
18.474
17 H. Canum Ven.
5.0
13 30
52.163
2.6820
+37 37 59.00
18.495
£ Centauri .
2.6
13 34
18.229
3.7785
-53 I 9.88
18.412
tn Virginis .
5-2
13 36
59.475
+3.1449
- 8 15 33.36
-X8.245
r Bootis . . .
4-5
13 43
4.817
2.8509
+17 53 41.90
18.026
tj Ursae Majoris {Alkaid)
1-9
13 44
4.501
2.3683
+49 45 7.73
18.037
89 Virginis .
51
13 45
5.217
3.2536
-17 41 46.06
18.016
C Centauri . . * .
3.1
13 50
2.596
3.7242
-46 51 20.21
17.843
tf Bootis
2.8
13 50
29.684
+2.8567
+18 50 18.57
-18.124
6 Apodis . . . t
var.
13 56 43.007
5.7309
-76 22 21.22
17.531
r Virginis .
4.3
13 57
10.012
3.051 1
+ I 58 12.09
17-512
II Bootis
6.1
13 57
II. 121
2.7216
+27 48 40.39
17477
ft Centauri ,
0.9
13 57
36.206
4.2032
-59 56 56.08
17.497
n Hydne
3-5
14 I
21.397
+3.4087
-26 15 31.98
-17.447
6 Centauri .
2.3
14 I
29.921
3.5187
-35 56 14.78
17.819
a Draconis .
3.6
14 2
0.431
1.6243
+64 47 46.30
17.261
d Bootis
4.8
14 6
23.178
2.7371
+25 30 29.03
17.152
K Virginis
4.3
14 8
II.97I
+3.1964
- 9 51 52.32
16.858
4 Ursae Minoris .
5.0
14 9
10.463
-0.2860
"^77 57 39.48
—16.920
I Virginis .
4.2
14 II
23.880
+3.1422
- 5 34 51.51
17.268
a Bootis {Arctums)
0.2
14 II
38.823
2.7354
+19 38 24.52
18.832
6 Octantis .
4.1
14 12
41.586
9.2145
-83 15 57.15
16.793
A, Bootis
4-3
14 13
2.390
2.2833
+46 29 31.30
16.61 1
X Virginis .
4.6
14 14
20.708
+3.2404
-12 57 59.35
-16.679
2 Librae
6.3
14 18
41.360
3.2*^33
-II 18 45.17
16.553
0 Bootis
41
14 22
12. 113
+2.0433
+52 15 25.75
-16.715
32 H. Cam., star 5" 8, 2i".6, n.pr.
0 Vi
rginis, comp. 9", 7'
'.I, n. pr.
G
Apodis, var. irreg.
5«5-6».6
ix Can. Ven., stars™, 19" .8, s. pr.
C» Ui
s. Maj.,
7t/.2, 22a
st.ir Alcoi
t"n.
'4».o, £.
[Eph 12]
MEAN PLACES OF STARS, 1912.
WASHINGTON. JANUARY xd.006.
243
Name of SUr.
Maeni-
tude.
Right Ascension.
Annual
Variation.
Declination.
Annual
Variation.
/ Bootis
5.4
h m 8
14 22 21.752
s
+ 2.7901
Of M
+19 37 19.52
-16.287
^ Virginis . . t
50
14 23 40.014
+ 3.0887
- I 50 1.99
16.238
5 Ursa Minoris
4.4
14 27 41796
— 0.1662
+76 5 14.16
16.004
p Bootis
3.8
14 28 2.276
+ 2.5865
+30 45 26.17
15.894
y Bootis
30
14 28 32.114
2.4172
-f-38 41 34.06
15.836
T} Centauri .
2.6
14 29 54.840
+ 3.7957
-41 46 18.26
-15.940
(T Bootis
4-5
14 30 50.970
2.6132
+30 7 37.24
15.733
a Centauri . . t
0.1
14 33 36781
4.0525
-60 28 21.83
14.984
33 Bootis
5.4
14 35 33798
2.2342
+44 47 1.74
15.646
a Apodis
3.8
14 36 52.505
7.2818
-78 40 19.78
15-554
fi Virginis ...
4.0
14 38 25.257
+ 3.1584
- 5 16 34.00
-15.766
B Bootis . . . t
2.7
14 41 8.633
2.6203
+27 26 40.95
15.282
109 Virginis
3.8
14 41 47.931
3.0309
+ 2 15 47.58
15.289
8 Librae
5.3
14 45 48.995
3.3128
-15 37 54.59
15.098
a lyibrdb
2.9
14 46 0.439
3.3133
-15 40 35.80
15.089
Groombridge 2164 .
57
14 49 12.324
+ 1.5199
+59 39 4.74
-14.708
/? Ursap Minoris
2.2
14 50 57.086
— 0.2076
+74 30 54.42
14.720
^Librae
5.6
14 51 59.428
+ 3.2501
-II 3 18.25
14.662
Vvazix 221
5.8
14 52 3-945
2.8296
+14 48 5.13
14.668
ft Lupi
2.8
14 52 45.614
3.9119
-42 46 48.71
14.678
d Librae . . t
vat.
14 56 16.088
+ 3.2009
- 8 10 13.08
-14.419
P Bootis
3.6
14 58 37.882
2.2600
+40 44 13.91
14.299
y Scorpii
3.4
14.58 54.988
3.5042
-24 56 11.79
14.289
^ Bootis
47
15 0 40.483
2.5703
+27 17 24.93
14.146
c Bootis
5.0
15 3 26.153
+ 2.6347
+25 12 40.79
14.145
Groombridge 2283 .
7.2
15 5 18.999
-19.7324
+87 34 19.83
-13.810
C Lupi
3.5
15 5 57.361
+ 4.2901
-51 45 53.36
13.867
I Librae
47
15 7 12.122
34136
-19 27 33.75
13.775
y Trianguli Australis .
3.1
15 10 40.601
5.5484
-68 21 19.54
13.540
3 Serpentis .
5-4
15 10 48.808
2.9798
+ 5 15 55.83
13.495
d Bootis
3.5
15 II 57.309
+ 2.4193
+33 38 33.26
-13.541
/? Librae
27
15 12 16.169
+ 3.2245
- 9 3 31.67
13.420
y Ursae Minoris
31
15 20 51.640
- O.I179
+72 8 49.56
12.814
// Bootis pr. . t
4-5
15 21 9.964
+ 2.2663
+37 41 7. 1 1
12.726
T^ Serpentis .
5-5
15 21 42.423
2.7799
+15 44 12.69
12.794
p Octantis .
57
15 22 49.95*
+13.2938
-84 10 27.50
-12.615
I Draconis .
3.5
15 22 58.326
1.3330
+59 16 26.33
12.676
C Librae
5.6
15 23 17.460
3.3783
-16 24 37.21
12.706
ft Coronae Borealis
37
15 24 12.054
2.4737
+29 24 30.67
12.523
v^ Bootis
5.2
15 27 46.106
2.1551
+41 7 57.17
12.371
y Lupi {mean) . \
3.0
15 29 16.296
+ 3.9858
-40 52 18.57
-12.302
y Librae
4.0
15 30 36.095
3-3519
-14 29 47.58
12.155
a Coronae Borealis
2.3
15 30 57.695
2.5394
+27 0 36.95
12.236
C Coronae Borealis seq. . \
5-1
15 36 3.854
2.2595
+36 55 15.64
11.790
a Serpentis .
2.8
15 39 55.937
2.9529
+ 6 42 6.75
11.460
P Serpentis .
37
15 42 7.571
+ 2.7684
+15 41 47.63
-11.400
K Serpentis .
4-3
15 44 46.666
2.6994
+18 24 45.57
11.253
ti Serpentis .
3.6
15 45 1.564
+ 31281
- 3 9 41.61
-11.163
0 Virginis, comp. 9", 4".5 s. f.
<5 Li
brae, var., 2<*.33. 4".
8-6» 2 1 y Lupi, binary 3^.7, i
j»9,o".4
« Bootis, comp. 5".!, 2".8, n. pr.
/I Be
>6tis, star 6».7, io8
" s. C Cor. Bor.. comp., 6»
pr.
1 is that of the center of gravity of 1
.0, 6".3 n.
« CenUuri, dup., op>.3» i^.7', compar
lion s. p
r. The position given
the system.
Corrections given on page TX remain
to be ap
plied to reduce to the
positions of th
B stars.
rt7...u ««i
244
MEAN PLACES OP STARS, 1912.
WASHINGTON, JANUARY id.oofi.
Name ot Star.
Maeni-
tude.
Right Ascension.
Aannal
Variation.
Declination.
Annual
Variation.
12 H. Draconis
5.1
h
15
m
45
8
19-333
s
+0.9065
0
+62
52 16.56
-11.182
€ Serpentis .
3.8
15
46
25.683
+2.9882
+ 4 44 31.63
10.963
C Ursae Minoris .
4.3
15
47
10.714
—2.2096
+78
3 56.31
10.982
fi Trianguli Australis .
30
15
47
22.722
+5.2545
-63
9 36.14
II-37I
A. Librae
5.1
15
48
13364
3.4769
-19
54 17.33
10.948
y Serpentis .
3-9
15
52
23.258
+2.7695
+15
56 53.62
-11.883
TC Scorpii
30
15
53
31.524
3.6232
-25
51 41.37
10.558
€ Coronae Borealis
4.2
15
53
56.597
2.4822
+27
7 55.59
10.545
S Scorpii
2.5
15
55
7.620
35418
-22
22 19.12
XO.424
^ Draconis .
4.1
16
0
14.370
I.X2I3
+58 48 O.IO
9.666
/S Scorpii
2.9
16
0
19.023
+3.4831
-19
33 54.92
—10.027
K Herculis .
5-3
16
4
6.112
2.7050
+17
16 50.07
9-734
^ Herculis .
4.3
16
5
59.815
1.8896
+45
9 54.74
9.529
Groombridge 2320 .
5.4
16
6
4.709
0.1516
+68
2 30.53
9507
<^* Apodis
4.8
16
7
9463
8.8434
-78
28 32.91
9-531
6 Ophiuchi .
30
16
9 43.949
+3.1412
- 3
28 6.16
- 9.421
<r Coronae Bor. seq.
\ 5.8
16
II
22.959
2.2457
+34
4 52.46
9.220
y* Norniae
41
16
13
14.835
+4.4709
-49
56 26.01
9.067
19 Ursap Minoris .
5-5
16
13
19.162
-I. 7521
+76
5 58.06
8.990
B Ophiuchi .
3.3
16
13
39.811
+3.1716
- 4
28 43.22
8.934
<T Scorpii
\ 3.1
16
15
50.213
+3.641 1
-25
22 56.69
- 8.839
r Herculis .
3-9
16
17
5740
1.8030
+46
31 20.78
8.672
y Herculis .
3.8
16
18
2.249
2.6453
+19
21 32.78
8.590
y Apodis
3-9
16
19
55.'i20
+9.0928
-78
42 4.78
8.561
17 Ursae Minoris
50
16
20
3.696
-1.7939
+75
57 30.65
8.214
CO Herculis .
4-5
16
21
21.036
+2.7617
+14
14 6.86
- 8.424
V Draconis . . , '
\ 2.9
16
22
47.851
0.8073
+61
42 47.40
8.191
a Scorpii (AtUares) . ^
\ 1.2
16
24
0.553
3.6737
-26
14 14.92
8.181
/S Herculis .
2.8
16
26
26.144
2.5773
+21
40 50.37
7.983
X Ophiuchi .
^ 3.8
16
26
28.435
+3.0237
+ 2
10 33.06
8.034
A Draconis .
50
16
28
8.974
-0.1309
+68
57 30.77
- 7.785
r Scorpii
2.9
16
30 24.094
+3.7292
-28
2 3.34
7.674
<x Herculis .
4.2
16
31
15.948
1.9333
+42
37 4.49
7.543
C Ophiuchi .
2.7
16
32
18.691
33006
-10
23 22.42
7.462
24 Scorpii
50
16
36 28.887
3.4662
-17
34 21.12
7.148
C Herculis .
\ 30
16
37
58.1 II
+2.2613
+31
45 42.01
- 6.633
a Trianguli Australis .
1-9
16
39
20.140
6.3209
-68
52 2.78
6.960
7 Herculis .
3.6
16
39
52.705
2.0557
+39
5 20.53
6.959
Groombridge 2377 .
4.9
16
43
37.660
1.1370
+56 56 19.96
6.495
€ Scorpii
2.4
16
44
27.630
3.8793
-34
8 4.02
6.752
49 Herculis .
6.4
16
48
4.432
+2.7301
+15
7 16.05
— 6.202
«* Arae
4-2
16
52
33.893
4.7704
-53
I 34.89
5.830
K Ophiuchi .
3-4
16
53
30.124
+2.8381
+ 9
30 40.08
5.746
€ Ursae Minoris .
4-4
16
54
56.786
—6.2674
+82
1 1 0.93
5.614
30 Ophiuchi .
50
16
56
25.185
+3.1628
- 4
5 28.80
5.565
s Herculis .
3.9
16
56
55.332
+2.2945
+31
3 19.39
- 5.425
d Herculis .
5.3
16
58
21.356
2.2120
+33 41 42.13
5.336
7 Ophiuchi .
\ 2.6
17
5
19.763
+3.4373
-15
37 0.08
- 4645
fi Scorpii, comp. 5".i, I3".3n.£.
K Herculis. star 6".5, 29".7 n. £.
6 Cor. Bor.comp. 6".7, 4".68. pr.
6 Scorpii, star 8", 20 ' pr
7 Draconis, comp. 8"*, 5
a Scorpii, comp. 7"*, 3
fEph 12]
n
n
.4 8. f .
apr.
X Ophiuchi. comp. 6*^, i".2n. f.
C Herculis, binary,3™.o,6"'.o,i".
7 Oph., binary, 3».2, 3" 7, o".5
MEAN PLACES OF STARS, 1912.
245
WASHINGTON, JANUARY x«i.oofi.
Name of Star.
Tj Scorpii
C Draconis .
a Herculis . . . f
d Herculis . . . f
7t Herculis .
59 Apodis (G.)
6 Ophiuchi .
w Herculis .
P Arae
h Ophiuchi .
(T Ophiuchi .
tf Arae
a Arae
\ Herculis .
A. Scorpii
/9 Draconis .
a Ophiuchi .
£ Serpentis .
t Herculis .
tf Pavonis
67 Draconis .
P Ophiuchi .
i^ Scorpii
fJL Herculis .
y Ophiuchi .
fj) Draconis . . . f
89 Herculis .
5 Draconis .
6 Herculis .
35 Draconis .
V Ophiuchi .
5 Herculis .
y Draconis .
67 Ophiuchi .
e Arae
y Sagittarii .
6 Ursae Minoris
70 Ophiuchi . . . t
72 Ophiuchi .
X Octantis .
o Herculis .
fji Sagittarii .
Tf Sagittarii .
Groombridge 2533
36 Draconis .
S Sagittarii .
7; Serpentis .
£ Sagittarii
cr Herculis, var. irreg., 3"*.i-3"*.9
dup. comp. 6», 4".68. 1.
Maeni
tude.
34
3.2
var»
3.2
3.4
5.9
3.4
5.4
2.8
4.3
44
3-8
3.0
4.5
1.7
30
2.1
3.6
3.8
3.6
4.9
2.9
3-1
3-5
3.7
4.9
5-5
3.9
4.0
5.0
3-5
3.8
2.4
3-9
3-9
3-1
44
4.1
3-7
5-2
3.8
4.0
3.2
54
5.0
2.8
34
2.0
6 He
Right Atcension.
m
7 5 50.859
7 8 31.799
7 10 38.058
7 II 24.980
7 II 58.874
7 14 59.090
7 16 36.212
7 17 21.951
7 17 58.920
7 20 59-644
7 22 8.875
7 23 9.009
7 25 2.209
7 27 10.902
7 27 37.878
7 28 26.622
7 30 50.938
7 32 32.777
7 36 58.859
7 37 5.514
7 37 27.911
7 39 7.499
7 41 25.779
7 43 0.837
7 43 28.777
7 43 30.030
7 51 52.207
7 52 0.494
7 53 14.092
7 53 23.250
7 54 10.885
7 54 20.720
7 54 33.755
7 56 14.277
7 59 46.817
8 o 9.222
0 38.79*
1 0.401
3 10.631
3 13.216
4 6.562 + 2.3394
8 '8 30.008 35870
8 II 40.397 4.0597
8 12 54.523 1.8652
8 13 23.423 0.3456
8 15 21.620 + 3.8406
8 16 45.334 3.1027
8 18 19.848 + 3-9815
culis, binary, comp. 8", 70
. 3. pr.
^ Draconis, star 6™. i, 30". 4 n. £.
[.Eph laj
8
8
8
8
8
Annnal
Variation.
+ 4.2917
0.1684
2.7344
2.4631
2.0883
+11. 1556
3.6815
2.2428
4.9803
3.6606
+ 2.9755
5.4050
4.6324
2.4240
4.0707
+ I.3541
2.7837
3.4328
1 .6934
+ 5.8806
- 0.3545
+ 2.9628
4.1945
2.3469
+ 3.0071
— 1.0748
+ 2.4206
1.0379
+ 2.0570
— 2.6904
+ 3.3018
2.3314'
1.3924
3.0048
4.6698
+ 3.8519
-19.4977
+ 3.0315
2.8432
35.7415
Declination.
-43 7
+65 49
-1-14 29
+24 56
+36 54
-80 46
-24 54
+32 34
-55 26
-24 5
+ 4 12
-60 36
-49 48
+26 10
-37 2
+52 21
+12 37
-15 20
+46 3
-64 40
+68 47
+ 4 36
-40 5
+27 46
+ 2 44
+72 II
+26 3
+56 53
+37 15
+76 58
- 9 45
+29 15
+51
+ 2
-50
29
56
5
-30 25
+86 36
+ 2 31
+ 9 33
-87 39
+28 44
-21 4
-36 47
+42 7
+64 22
-29 51
- 2 55
-34 25
Ophiuchi,
27.23
22.50
23.69
32.44
27.96
47.01
45.16
49.01
51.47
43.08
58.28
42.50
26.65
34.93
25.43
58.15
23.97
37.78
9.82
58.77
55.27
12.08
37.65
17.55
22.90
32.25
48.23
10.33
41.81
30.44
48.85
24.41
55.83
6.31
54.53
33.71
5 1 01
8.99
2.54
53.25
59.10
57.62
19.56
43.86
2.32
58.95
20.37
37.03
comp. 6"*,
Annual
Variation.
-4.998
4-447
4.255
4.376
4.170
-3.950
3.809
4.754
3.682
3.533
-3.288
3.329
3130
2.843
2.849
-2.743
2.778
2.456
2.007
2.080
-1.650
1.666
1.630
2.233
1.516
—1. 710
0.705
0.622
C.587
0.335
-0.628
0.512
0.500
0.342
0.070
-0.185
+0.104
-1. 034
+0.365
0.157
+0.361
0.742
0.868
1.127
1. 196
+1.309
0.773
+1.479
2".I 8.
246
MEAN PLACES OP STARS, 1912.
WASHINGTON. JANUARY i<oo6.
Name of Star.
Maeni
tnde.
Right Ascensioii.
Annoal
Variation.
1
Dedinatioii.
Annual
Variation.
109 Herculis
3.9
b m 8
18 19 56.862
s
+ 2.5558
Q
+21
43 44-"
+I.481
a Telescopii
3.8
18 20 26.915
4-450I
-46
I 4-35
1.718
A. Sagittarii
2.9
18 22 32.398
•f 3-7027
-25
28 16.55
1.770
X Draconis
3.7
18 22 38.745
- 1.0783
+72
41 41.40
1.605
c Serpentis
54
18 25 6.187
+ 3.1215
- 2
2 34.61
2.156
I Aquilx .
4.1
18 30 25.097
+ 3.2646
- 8
18 22.80
+2.337
C Pavonis .
4.1
18 32 45-334
7.0213
-71
30 17.78
2.691
ot Lyrae (Vega) .
o.i
18 33 57.538
2.0314
+38
42 4.37
3240
2 Aquite .
4.7
18 37 27.384
3.2866
- 9
8 14.99
3256
4> Sagittarii
3.3
18 40 9.520
3.7488
-27
4 55.31
3.488
no Herculis .
4.3
18 41 52.419
+ 2.5803
+20
27 40.98
+3.299
6 Aquilae .
4-5
i8 42 30.317
3-1829
- 4
50 33.99
3.674
A. Pavonis .
44
18 44 3.956
5.5670
-62
17 22.18
3.808
fi Lyrae . . . t
var.
18 46 49.845
-f 2.2147
+33
15 35.76
4.063
50 Draconis
54
18 49 13.182
- 1.9183
+75
19 49.53
4-323
(f Sagittarii
2.1
18 49 48.514
+ 3.7202
-26
24 24.96
+4.248
0 Draconis . . t
4.8
18 49 54.290
0.8883
+59
16 49.96
4.354
6 Serpentis pr. , . t
4-5
18 51 50.671
2.9822
+ 4
5 18.09
4-524
R Lyrae . . . f
var.
18 52 39458
1.8260
+43 49 46.95
4.643
* Aquilae .
4-2
18 55 37-691
2.7220
+14 56 53.00
4.737
Y Lyrae
3.3
18 55 39.080
+ 2.2434
+32
34 5.63
+4.814
C Sagittarii . . f
2.7
18 57 0.794
3.8182
-30
0 24.91
4.916
C Aquilae .
30
19 I 21.913
2.7569
+13
43 55.06
5-204
A. Aquilae .
3.6
19 I 34-733
3.1836
- 5
0 54.45
5.239
a Coronae Australis
4.1
19 3 29.141
4.0835
-38
2 33.23
5364
I Lyrae
5.1
19 4 9.714
+ 2.1412
+35
57 41.87
+5-533
n Sagittani
3.0
19 4 31.868
+ 3.569X
-21
9 51.35
5.534
A. UrsaeMinoris .
6.6
19 8 36.99*
-70.8861
+89
0 33.82
5.919
4' Sagittarii
4.9
19 10 8.728
+ 3.6804
-25
24 33.04
6.005
d Sagittarii
5.0
19 12 29.203
3.5m
-19
6 37.03
6.218
S Draconis
3.2
19 12 32.302
+ 0.0230
+67
30 24.21
+6.327
0 Lyrae .
4.5
19 13 18.784
2.0808
+37
58 35.60
6.310
a> Aquilae .
5.1
19 13 41.157
2.8159
+11
26 9.70
6.349
K Cygni .
4.0
19 15 4.191
+ 1.3880
+53
12 20.63
6.570
r Draconis
4.6
19 17 15-213
- I. 1338
+73
II 32.69
6.739
(T Octantis .
5.5
19 19 42.17*
+97-2199
-89
14 4.37
+6.830
6 Aquilie .
34
19 21 3.694
3.0250
+ 2
56 19.04
7.025
fi Cygni . . f
3.2
19 27 10.332
2.4189
+27 46 27.20
7.432
I Cygni
3-9
19 27 29.269
1.5134
+51
32 30.91
7.596
/i Aquilae .
4.6
19 29 47.457
2.9312
+ 7
II 29.51
7.508
A Sagittarii
4.7
19 31 21.193
+ 3.6534
-25
4 43.02
+7.754
K Aquilae .
5.0
19 32 9-494
3.2290
- 7
13 2543
7.847
e Cygni .
4.6
19 34 4.919
1.6090
+50
I 0.78
8.250
54 Sagittarii
54
19 35 40.973
3.4390
-16
29 44.78
8.081
fi Sagittae .
44
19 37 5.774
2.6939
+17
16 17.58
r.209
15 Cygni .
5.0
19 41 6.213
-f 2.1640
+37
8 28.97
+8.600
/ Sagittarii
5.1
19 41 13.788
35018
-19
58 24.02
8.48 X
y Aquilae .
2.8
19 42 4.558
+ 2.8520
+10
23 53.27
+8.633
•4-4'
t.
fi Lyrae, var. xr^.g, 3
star 7", 46" s. f.
o I^aoo., star 7". 6, 32".!. n. pr
0 Serpentis. star 5'*.4. 22 ".as. f.
R. Lyre, var., 46^.4. 4"*.o-4"'.7
fEph la]
C Sag., binary 3".4. 3".6, o".5
p Cygni, star 5» 4. 34".7 n. t
MEAN PLACES OF STARS, 1912.
WASHINGTON, JANUARY z<l.oo6.
247
Name of Star.
<JCygm . . .t
tf Sagittae .
a Aquilae (Altair
Tj Aquilse .
s Draconis
t Sagittarii
£ Pavonis .
fi Aquilae .
y Sagittse .
c Sagittarii
T Aquilae .
6 Aquilae .
o Cygni seq, . . \
K Cephei . t
24 Vulpeculae
«* Capricomi
ft Capricomi
a Pavonis .
y Cygni
TT Capricomi . f
p Capricomi . \
41 Cygni .
d Cephei .
£ Delphini .
Groombridge 3241
a Indi
ft Delphini . . f
V Capricomi
a Delphini .
fi Pavonis ,
a Cygni
<^ Delphini .
tp Capricomi
y Delphini seq, . . \
€ Cygni
€ Aquarii
7 Cephei
/i Aquarii
/? Indi
76 Draconis
32 Vulpeculae
220 Draconis (Heis)
V Cygni
a Octantis .
y Microscopii
ff Capricomi
S Cygni
61 Cygni pr.
d Cygni. comp. 8™, i".6 n. pr.
7 Aquilae, var., 7**. 18, 3™. 7-4". 4
e Draconis, comp., 7^.6, 3".! n.
o Cygni, star 5™o pr. i9», 270"
n., atar 7™. 8 f. i', 96"s.
Maeni
tude.
3.0
3.8
0.9
var.
4.0
4.2
4-1
3-9
3.7
4.6
5.6
3.4
4.0
4-4
5.4
3.8
3-2
2.1
2.3
5-2
5.0
4.1
4-3
4.0
6.4
3.2
3.7
5.3
3-9
3.6
1-3
4.5
4-3
4.5
2.6
3.8
3.6
4.8
3.7
5.7
5-2
5.6
4.0
5-2
4.7
4.2
3-9
5.6
Right Ascension.
m
9 42 13-517
9 43 27.840
9 46 29.388
9 47 59.436
9 48 28.687
9 49 11-495
9 50 25.767
9 50 59.441
9 54 50.594
9 57 14.942
9 59 50.482
20 6 45.891
20 10 51.681
20 II 52.353
20 13 1. 172
20 13
20 16
20 18
20 19
20 22
20 23
20 25
20 28
20 29
20 30
20 31
20 33
20 35
20 35
20 37
20 38
20 39
20 40
20 42
20 42
20 42
20 43
20 47
20 47
20 49
20 50
20 51
20 53
20 54
20 55
10.393
4.133
41.515
4.185
17.132
50.567
48.040
6.457
0.545
23.715
22.810
25.384
2.514
33.054
2.462
25.895
21.040
53.268
34.532
39.032
54.807
30.103
54.517
56.418
1.268
48.556
36.854
53.512
5496
53.826
21 I 0.124
21 I 43.768
21 2 57.039
Annual
Variation.
4-1.8760
2.6748
2.9272
+3-0569
-0.1863
+4-1439
6.9922
2.9468
2.6673
3.6933
4-2 .9308
3 -096 1
4-1.8901
-1.9603
+2.5673
+3.3307
3.3736
4.7661
2.1526
3.4367
+3.4249
2.4515
1.0122
4-2.8664
—0.2366
+4.2310
2.8138
3.4184
2.7868
5.4467
4-2.0447
2.8008
3.5571
2.7831
2.4274
+3.2495
1.2250
3.2380
+4.7137
— 4.1410
+2.5562
-2.6187
+2.2354
7.3929
3.6873
+3.3758
2.1812
+2.6851
Declination.
38
46
2
+44 54
+18 18
+ 8
+ o
+70
-42
-73
+ 6
+19
-27
6
8
II
15
57
55.75
59-76
6.74
44.84
37.58
0.95
3763
10.77
9.13
18.84
+ 7 I 45.12
-14 59.21
+46 28 26.49
■^77 26 48.54
+24 23 58.06
-12 49
-15 3
-57 I
+39 58
-18 30
-18 6
+30
+62
+11
+72
4
41
o
5.65
35.65
4.50
28.28
2.63
18.82
27.91
52.96
12.82
0.94
-47 35 57.06
+14 17 18.38
-18 26 56.22
+15 36 4.56
-66 31 13.39
+44 57 55.48
+14 45 29.59
-25 35 15.22
+15 48 23.84
+33 38 24.51
- 9 49 6.46
+61 29 48.32
- 9 18 51.06
-58 47 12.05
+82 12 22.39
+27 43 20.88
+80 13 22.27
+40 49 40.27
-77 21 38.62
-32 36 8.18
-17 34 59.44
+43 34 35.20
+38 18 58.07
Annual
Variation.
ft
8.692
8.762
9.361
9.092
9.164
9.238
9.170
8.852
9655
9-827
0.040
0.536
0.839
0.934
0.981
1. 01 1
1. 221
I.312
1.432
1.658
I.75I
1.908
2.054
2.109
2.212
2.352
2.404
2.542
2.602
2.683
2.777
2.792
2.797
2.861
3.388
3049
3938
3.369
3.401
3.505
3.599
3.621
3.774
3.415
3.914
4.170
4.289
7.603
K Cephei, comp. 8", 7^.5 s. f.
cf Capricor., a^ Capricor., 4™. 6
pr. 24" 137" n.
fi Capricor., star 6™.2 pr. i4»,
10 s.
TEnh T2I
It
Capricor., comp. 9>>, 3".4, s. f.
Capricor., comp. 7™.6, 2".8 s.
Delphini, binary 4™.i, 5™.4,
o".5
y Delphini,comp. 5™.5,ii".2pr.
248
MEAN PLACES OF STARS, 1912.
WASHINGTON, JANUARY z<i.oo6.
Name of Star.
6 1 Cygni seq,
V Aquarii
Bradley 2777
3 Piscis Australis
C Cygni
r Cygni
a Equulei
(f Cygni
6^ Microscopii
a Cephei
I Capricomi
I Pegasi
y Pavonis
C Capricomi
g Cygni
ft Aquarii
ft Cephei
5 Aquarij
74 Cygni
y Capricorni
A. Octantis
B Pegasi
II Cephei
d Capricomi
n* Cygni
/i Capricomi
y Gruis
16 Pegasi
79 Draconis
B Indi
20 Pegasi
a Aquarii
I Aquarii
20 Cephei
a Gruis
I Pegasi
0 Pegasi
7t Pegasi
C Cephei
24 Cephei
6 Aquarii
a Tucanae
V Octantis
y Aquarii
31 Pegasi
3 Lacerts
n Aquarii
<T Aquarii
t
t
t
t
MaRni
ide.
6.3
5-9
5.6
3.4
3.8
4-1
4-3
4-9
2.6
4-3
4.2
4.3
3-9
5-3
3.1
3-3
4.8
5-1
3.8
5-4
2.5
4.8
3.0
4-3
5-2
3.2
50
6.6
47
57
3.2
4-4
5.4
2.2
4.0
37
4-4
3.6
50
4-3
2.9
57
4.0
4-9
4.6
4.6
4-9
Right Ascension.
m
-^«f+i.552
4 48.096
7 16.903
8 4.389
9 11.416
II 16.666
II 25.510
13 57527
15 8.064
16 28.848
17 20.930
18 0.994
19 10.863
21 38.741
26 12.078
26 55.643
27 31.801
33 41 1 1
33 25.274
35 13.040
37 31.844
39 51.822
40 38.174
42 II. 127
43 32.467
48 29.976
48 36.208
49 3.440
51 45.652
56 38.054
56 48.105
I 15.885
1 41.149
2 20.008
2 41.506
2 54.820
5 45.672
6 4.683
7 47.975
8 7.096
22 12 11.459
22 12 28.819
22 15 6.74*
22 17 6.690
22 17 II. 196
22 20 5.858
22 20 46.972
22 25 59.505
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
22
22
22
22
22
22
22
22
22
Annual
Variation.
+ 3-2703
- I.1361
+ 3.5640
2.5519
+ 2.3939
2.9993
2.3546
3.8457
1. 435 1
+ 3.3445
2.7740
5.0045
3.4308
2.2125
+ 3.1601
0.7871
3-1959
2.4031
3.3276
+ 9.5662
2.9462
0.8891
3.3145
2.2143
+ 3.2734
3.6422
2.7282
0.7203
4.61 19
+ 2.9221
3.0822
3.2429
1.8226
37951
+ 2.7913
3.0268
2.6624
2.0777
1.1584
+ 3.1674
4.1374
12.4599
3.0992
2.9529
+ 2.3551
3.0638
3.1774
Declination.
-^<^-i5.65
-II 43 42.38
-^-77 46 10.89
-27 58 43.68
+29 51 55.65
+37
+ 4
+39
-41
+62
40
53
I
10
12
9.64
0.68
32.03
55.50
44.88
-17 12 35.40
+19 25 39.13
-65 45 54.79
-22 47 34.78
+46 9 8.08
- 5
+70
- 8
+40
-17
-83
+ 9
+70
~i6
+48
57
10
14
I
3
7
28
54
31
54
31.79
27.33
57.53
4.02
3673
28.51
15.89
21.77
37.46
7.44
-13 57 59.64
-37 46 45.32
+25 30 38.84
+73 17 8.97
-57 8 52.83
+12 41
- o 44
-14 17
+62 21
-47 23
+24 54
+ 5 45
+32 44
+57 46
+71 54
-8 13
-60 41
-86 24
- I 49
+11 45
+51 47
+ o 55
-II 7
52.69
5171
49.28
21.61
15.97
53.64
52.60
45.83
2.13
27.07
18.41
54.31
57-52
51.62
41.14
16.43
49.70
42.68
Annual
Variation.
4.462
4.647
4.559
4.670
5.288
4-778
5-014
5.084
5.206
5.209
5.308
6.094
5.468
5.804
5.728
5.776
6.042
6.093
6.160
6.283
6.413
6.545
6.232
6.595
6.836
6.820
6.868
7.004
4.636
7.165
7.413
7.372
7-512
7.302
7-507
7.642
7.601
7.701
7.708
7.850
7.846
8.057
8.075
8.069
7-983
8.196
8.357
+
r Cygni. comp. 7"', o".8 pr. fi Cephei. star 8», 13". 3 s. pr. | A Octantis, binary 5*5, 8*o,
g Cygni, star 6».7 f. xo», 420" s.
3".an. 1
[Eph 12]
MEAN PLACES OF STARS, 1912.
WASHINGTON, JANUARY xd.oo6.
249
Name of Star.
a Lacerts .
V Aquarii .
226 B. Cephei
7 Aquarii .
10 Lacertae .
€ Piscis Australis
C Pegasi
/3 Octantis .
/? Gniis
7 Pegasi
X Pegasi
£ Gruis
r Aquarii .
/4 Pegasi .
I Cephei .
A. Aquarii .
p Indi
S Aquarii .
a Tisc.Aust, (Fomalha
o Andromedae
/3 Pegasi
a Pegasi (Markab)
55 Pegasi .
c* Aquarii .
TT Cephei
I Gruis
59 Pegasi .
5 Cassiopdae (Heis)
^ Aquarii .
tp Aquarii . . f
y Tucanae .
y Piscium .
y Sculptoris
o Cephei . t
r Pegasi
^^ Aquarii .
4 Cassiopeiae
V Pegasi
K Piscium .
0 Piscium .
70 Pegasi
39 H. Cephei
p Sculptoris
72 Pegasi {mean) . f
A. Andromedae
1 Andromedae
t Piscium .
y Cephei
fi Pegasi, var. irreg., 2™.2-2™.7
It Cephei, comp. y", o".9 n. f.
ut)
t
t
Magni
AKni
lae.
Right Ascanaion.
3.8
57
4.1
4.9
4.2
3.6
4.3
2.2
3.1
4.1
3-7
4-2
37
3-7
3.8
6.1
3-5
1.3
3.6
var,
2.6
4-7
3.8
4.6
41
5.2
5.6
4-4
4-5
41
3.8
4.5
4-9
4.6
4.2
5-2
4.6
4-9
4-4
4-7
5.6
4-5
5-2
4.0
4-3
4.3
3-4
h m a
22 27 39.860
22 29 52.874
22 30 43.907
22 30 50.089
22 35 18.659
22 35 47.432
22 37 4.368
22 37 7.388
22 37 25.059
22 38 52.520
22 42 17.448
22 43 14.643
22 44 56.061
22 45 45.283
22 46 32.669
22 48 1.458
22 48 32.870
22 49 58.875
22 52 47-444
22 57 52.143
22 59
23 o
23
23
23
23
23
23
23
23 II
2
4
5
5
7
9
9
30.382
22.571
34-238
45-366
5.738
22.886
17.581
2-504
45-914
16.942
23 12 17.952
23 12 36.184
23 14 4-459
23 15 0-413
23 16 16.757
23 18 20.996
23 20 55.341
23 20 59.114
23 22 25.283
23 23 30.208
23 24 42.178
23 27 45.399
23 28 15.332
23 29 35-074
23 33 15.188
23 33 48.994
23 35 25.403
23 35 43.667
Annual
Vaiiation.
+2.4675
3.2855
1 .0659
3.0833
2.6885
+3.3233
2.9914
6.3409
3.5973
2.ao88
+2.8867
3.6397
3.1794
2.8929
2.1274
+3.I3II
4.2197
3,1866
3.3216
2.7540
• +2.9048
2.9862
3.0208
3.2024
1.8987
+3.4082
3.0277
2.8776
3-I073
31450
+3.5214
3.1094
3.2455
2.4505
2.9654
+3.1534
2.6492
2.9902
3.0752
3.0419
+3.0319
-0.2393
+3.2254
2.9704
2.9273
+2.9341
3.0843
+2.4364
Declination.
+49 49 47.14
-21 9 33.92
+75 46 22.29
- o 34 16.79
+38 35 31.02
-27 30 1 1. 01
+10 22 17.98
-81 50 36.14
-47 20 42.65
+29 45 38.21
+23 6 8.28
-51 46 47.16
-14 3 26.17
+24 8 12.00
+65 44 14.47
- 8 2, 53.22
-70 32 38.72
-16 17 20.58
-30 5 20.09
+41 51 10.16
+27 36 18.78
+14 43 53.74
+ 8 56 1.92
-21 39 1.20
+74 54 41.86
-45 43 24.94
+ 8 14 31.55
+56 40 56.72
- 6 31 24.93
- 9 34 1.94
-58 43 7.14
+ 2 48 4.74
-33 o 41.79
+67 37 47.67
+23 15 30.50
-20 34
+61 47
+22 55
+ o 46
+ 5 53
+12 16
+86 49
-38 18
+30 50
+45 58
52.21
58.46
9.99
25.64
43.98
29-87
19.56
18.71
22.56
52.76
+42 46 50.99
+ 58 57.30
■¥77 8 28.37
Annual
Variation.
8.454
8.362
8.544
8.495
8.681
+18.697
18.734
^8.751
[8.732
[8.766
+18.896
[8.873
[8.947
[8.961
[8.899
9.IOI
9.133
9.092
9.019
9304
9.486
9332
9.407
9.50a
9.441
9.448
9.522
9.851
9.372
9.589
9.673
9.639
9.579
9.678
9.670
9.626
9.745
9.786
9.684
9-751
+19.844
[9.868
[9.859
[9 860
[9.489
9.915
[9.495
+20.091
o
Aquarii, star 8".5, 49". 4 n. pr.
Cephei, comp. 8"», 2". 9 s. pr.
[Eph xa]
72 Pegasi, 6».o, 6».o, o".4
250
MEAN PLACES OF STARS, 1912.
WASHINGTON, JANUARY id 006.
Name of Star.
Maspi-
tude.
Right Ascension.
Annual
Variation.
Declination.
Annual
Variation.
h
m 8
s
0
f
tt
tt
K Andromedae
4.3
23
36 4198
+ 2.9466
+43
50 47.57
+19.91 1
CO* Aquarii
4.6
23
38 9.579
3- "30
-15
I
53.23
19.892
t^ Aquarii
5.3
23
39 38.324
3-II47
-18
45
55-73
19.961
^ Andromeda*
51
23
41 40.149
2.9628
+45
55
53.72
19.974
41 H. Cephei
5.0
23
43 41.725
2.8476
+67
19
3.96
19.985
d Sculptoris
4.6
23
44 20.601
+ 3.1282
-28
37
2.21
+19.866
y^ Octantis .
5-1
23
46 58.337
36252
-82
30
28.43
20.002
(f> Pegasi
5.2
23
48 0.540
3.0477
+18
37
53.50
19.979
p Cassiopeiae
4.8
23
49 58.804
2.9803
+57
0
35.34
20.028
Groombridge4i63 ,
6.6
23
50 32.067
2.8772
+73
55
14.10
20.024
00 Pisdum
4.0
23
54 47500
+ 3 0794
+ 6
22
34.25
+19-933
B Tucanae
4.7
23
55 21.044
3.1412
-66
3
59.20
20.034
30 Piscium
4.7
23
57 26.828
3.0772
- 6
30
11.24
20.007
2 CeU
t i
4.6
23
59 13.962
+ 3.0755
-17
49
33.38
+20.033
NORTHERN CIRCUMPOLARS.
43 H. Cephei
a Ursae Minoris {Polaris)
Groombridge 750
Groombridge 944
51 H. Cephei
Groombridge 1 1 1 9 .
I H. Draconis
30 H. Camelop.
Bradley 1672 .
Groombridge 2283 .
e Ursae Minoris
6 Ursae Minoris
A. Ursae Minoris
76 Draconis
39 H. Cephei
4 Octantis (G.)
31 Mensae (G.)
7 Octantis (G.)
C Octantis .
tj Octantis .
I Octantis
6 Octantis
X Octantis
(T Octantis
V Octantis
4-5
2.1
6.7
6.4
5.3
7.0
4.6
5.3
6.3
7.2
4-4
4.4
6.6
5.7
5.6
0 56 31.244
+ 7.5725
+85
47
8.15
+19.435
I 27 51.07*
27.8225
+88
50
10.77
18.594
4 8 34.697
17.5285
+85
19
23.58
9.409
5 33 38.985
18.7487
+85
9
19.11
+ 2.296
6 59 37.82*
29-3185
+87
II
21.21
- 5.192
8 10 44.772
+61.5386
+88
53
55.27
-io.8o8
9 24 37.695
8.8239
+81
42
59.81
15.640
10 20 26.885
7.6113
+83
0
25.01
18.176
12 14 26.635
+ 0.3397
+88
II
15.83
19.948
15 5 18.999
-19-7324
+87
34
19.83
13.810
16 54 56.786
— 6.2674
+82
II
0.93
- 5.614
18 0 38.79*
19.4977
+86
36
51.01
+ 0.104
19 8 36.99*
70.8861
+89
0
33.82
5-919
20 49 1.268
4.1410
+82
12
22.39
13.505
23 27 45.399
- 0.2393
+86
49
19.56
+19.868
SOUTHERN CIRCUMPOLARS.
5.6
6.2
6.4
5.4
6.3
5.4
4.1
5.2
5-5
5.7
I
42 21.27*
- 3.8135
5
47 13.194
I I. 6913
7
18 1.35*
20.1468
9
9 38.50*
8.0707
10
59 57.052
- 0.3460
12
45 37.397
+ 5.9286
14
12 41.586
9.2145
18
3 13.216
35.7415
19
19 42.17*
97.2199
22
15 6.74*
[Eph la]
+ 12.4599
12
49
53
18
7
-85
-84
-86
-85
-84
-84 38
-83 15
-87 39
-89 14
-86 24
52.03
53.11
33.62
43.98
13.77
44.23
57.15
53.25
4.37
57.52
+18.107
+ 1.204
- 6.688
14.716
19-366
—19.626
-16.793
+ 0.157
6.830
+18.057
JANUAEY, 1912.
251
APPARENT PLACES OP CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASmNGTON.
48 H. Cephel.
Mag. 4.5
a Ursn Xinoris.
{Polaris.)
Mag. 2.1
Groombxldge 760.
Mag. 6.7
Groombridge 944.
Mag. 6.4
51 B. Cq^el.
Mag. 5.3
Mran
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina.
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Decli-
nation
North.
h m
0 1
h m
e /
h m
0 r
h m
0 /
h m
0 /
Jan.
056
+8547
Jan.
I 27
+8850
//
Jan.
4 8
+85 19
//
Jan.
5 33
+85 9
ft
Jan.
7 0
+87 1 1
0.3
s
25.29
27.24
0.3
s
39-34
30.68
0.4
s
42.61
40.86
0.5
s
51.04
31.52
0.5
3.66
27.05
1-3
25.06
27.34
1.3
38.51
30.80
1.4
42.54
41.14
1.5
51.06
31.80
1.5
3.83
27.31
2.3
24.82
27.46
2.3
37.65
30.95 '
2.4
42.47
41.43
2.4
51.09
32.10
2.5
4.02
27.58
3-3
24.56
27.58
3-3
36.72
31.13
3.4
42.39
41.73
3.4
51.12
32.43
3.5
4.23
27.88
4-3
24.27
27.70
4.3
35.71
31.31
4.4
42.30
42.05
4.4
51.13
32.78
4.5
4.44
28.22
5-2
23.96
27.81
5-3
34.62
31.48
5-4
42.19
42.38
5.4
51.13
33.14
5.5
4.62
28.57
6.2
2363
27.90
6.3
33.45
31-62
6.4
42.06
42.71
6.4
51.10
33.51
6.5
4.76
28.95
7.2
23.29
27.96
7.3
32.25
31.73
7.4
41.91
43.02
7.4
51.05
33.88
7.5
4.85
29.32
8.2
22.96
27.99
8.3
31.06
31.81
8.4
41.74
43.31
8.4
50.98
34.23
8.5
4.91
29.67
9.2
22.65
28.00
9.3
29.92
31.86
9.4
41.56
43.57
9.4
50.90
34.55
9.5
4-95
30.02
10.2
22.35
28.00
10.3
28.84
31.90
10.4
41.38
43.80
10.4
50.82
34.84
10.5
4.96
30.35
11.2
22.07
27.97
"•3
27.82
31.92
1 1.4
41.22
44.01
1 1.4
50.74
35.12
11.5
4.96
30.65
12.2
21.81
27.95
12.3
26.85
31.96
12.4
41.07
44.22
12.4
50.66
35.39
12.5
4.97
30.93
13-2
21.56
27.94
13.2
25.91
32.00
13.4
40.93
44.43
13.4
50.60
35.65
13.5
5.00
31.21
14.2
21.31
27.94
14.2
24.97
32.05
14.4
40.79
44.64
14.4
50.54
35.91
14.5
5.04
31.49
15.2
21.05
27.95
15-2
24.02
3«.io
15.4
40.65
44.87
15.4
50.48
36.18
15.5
5.09
31.79
16.2
20.78
27.97
16.2
23.03
32.17
16.4
40.50
45.09
16.4
50.42
36.47
16.5
5.14
32.09
17.2
20.50
27.99
17.2
21.99
32.23
17-3
40.35
45.33
17-4
50.36
36.78
17.5
5.19
32.41
18.2
20.20
28.00
18.2
20.90
32.29
18.3
40.18
45.59
18.4
50.29
37.10
18.5
5.23
32.75
19.2
19.89
28.00
19.2
19.76
32.34
19.3
40.00
45.86
19.4
50.21
37.42
19.5
5.24
33.10
20.2
19.57
27.98
20.2
18.57
32.38
20.3
3980
46.12
20.4
50.11
37.74
20.5
5.24
33.46
21.2
19-25
27.93
21.2
17.36
32.39
21.3
39.58
46.36
21.4
49.99
38.06
21.5
5.20
33.83
22.2
18.93
27.86
22.2
16.15
32.38
22.3
39-36
46.58
22.4
49.84
38.37
22.5
5.14
34.19
23.2
18.62
27.77
23.2
14.96
32.34
23.3
39.13
46.78
23.4
49.69
38.66
23.5
5.04
34.53
«4.2
18.33 27.67
24.2
13.83
32.30
243
38.90
46.95
24.4
49.54
38.92
24.4
4.92
34.85
S5.2
18.05
27.56
25.2
12.77
32.23
25.3
38.68
47.10
254
49.39
39.16
254
4.81
35.15
S6.2
17.80
27-45
26.2
11.78
32.16
26.3
38.47
47-24
26.4
49.25
39.38
26.4
4.69
35-44
«7.2
17.56
27.35
27.2
10.86
32.11
27.3
38.28
47.37
27.4
49.12
39.59
27-4
4.58
35.70
t8.2
17.33
27.27
28.2
9.98
32.06
28.3
38.10
47.51
28.4
49.00
39.80
28.4
4.49
35.97
t9.2
17.09
27.20
29.2
9.09
32.05
29.3
37.93
47.66
29.4
48.89
40.02
29.4
4.44
36.23
30.2
16.84
27.14
30.2
8.16
32.04
30.3
37.75
47.83
30.4
48.79
40.26
30.4
4-39
36.50
31.2
16.57
27.09
31.2
7-15
32.04
31.3
37-55
48.02
31.4
48.69
40.53
31.4
4.34
36.81
32.2
16.29
27.03
32.2
6.06
32.03
32.3
37-35
48.22
32.4
48.57
40.81
32.4
4.28
37.14
13.62 +13.59
49.49 +49.49
12.28 +12.24
11.85 +II.8I
20.41 +20.39
0^ 56" 3i"-244 1 i*^ 27" 5i».o7
+85** 47' 8".i5 1 +88<>5o' io".77
4»» 8»» 34-.697
5*^33" 38-.985
6*" 59" 37'.82
+85^19' 23^.58
+850 ^/ i^/,,i
+87® 11' 2l".2I
[Bph zi
>]
252
FEBRUARY, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
48 H. C^^ei.
Mag. 4.5
a Ursae Xinoxis.
{Polaris.)
Mag. 2.1
Chroombiidge 760.
Mag. 6.7
Oroombridge 944.
Mag. 6.4
61 H. Cephei.
Mag. 5.3
Mean
SoUr
Date.
Riffht
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Dedtna^
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
DecU-
nation
North.
h m
0 r
h m
0 /
h m
0 /
h m
0 /
h m
0 *
Feb.
056
+8547
ft
Feb.
I 26
+88 50
//
Feb.
4 8
+8519
Feb.
5 33
+85 9
P0
Feb.
659
+87 1 1
Mm
1.2
s
16.29
27.03
1.2
66.06
32.03
1.3
s
37.35
48.22
1.4
s
48.57
40.81
1-4
s
64.28
WW
37.14
2.2
1599
26.95
2.2
64.91
32.00
2.3
37.13
48.42
2.4
48.42
41.10
2.4
64.19
37.48
3.2
15.68
26.84
3.2
63.74
31.95
3.3
36.88
48.60
3-4
48.25
41.38
3-4
64.06
37.83
4.2
15.38.
26.71
4.2
62.56
31.87
4.3
36.62
48.75
4.4
48.07
41.65
4-4
63.90
38.17
5-2
15.09
26.55
5.2
61.43
31.75
5-3
36.36
48.88
5.4
47.87
41.90
5.4
63.70
38.49
6.2
14.82
26.37
6.2
60.36
31.62
6.3
36.10
48.98
6.4
47.67
42.11
6.4
63.48
38.79
7.2
14.57
26.19
7.2
59.38
31.48
7.3
35.85
49.06
7.4
47.46
42.29
7.4
63.24
39.07
8.2
14.34
26.01
8.2
58.46
31.33
8.3
35.61
49.13
8.3
47.26
42.46
8.4
63.01
39.32
9.2
14.12
25.83
9.2
57.60
31.20
9.3
35.38
49.19
9.3
47.08
42.62
9.4
62.80
39.55
10.2
13.92
25.66
10.2
56.76
31.07
10.3
35.16
49.26
10.3
46.92
42.78
10.4
62.59
39.79
II. I
13.71
25.50
II.2
55.94
30.96
11.3
34-95
49.33
11.3
46.75
42.93
11.4
62.39
40.02
I2.I
13.49
25.35
12.2
55.07
30.84
12.3
34.73
49.41
12.3
46.58 43.10
12.4
62.21
40.27
131
13.27
25.20
13.2
54.16
30.72
13.3
34.50
49.50
13.3
46.41
43.29
13.4
62.04
40.53
14. 1
13.03
25.05
14.2
53.21
30.61
14.3
34.27
49.59
14.3
46.24
43.49
14.4
61.85
40.79
I5.I
12.78
24.89.
15.2
52.23
30.49
15.3
34.03
49.69
15.3
46.05
43.69
15.4
61.65
41.08
16. 1
12.52
24.72
16.2
51.22
30.37
16.3
33.77
49.79
16.3
45.85
43.90
16.4
61.41
41.37
I7.I
12.26
24.53
17.2
50.17
30.22
17.3
33.50
49.88
17.3
45.62
44.10
17.4
61.16
41.66
18.I
12.00
24.31
18.2
49.15
30.05
18.3
33.22
49.94
18.3
45.39
44-30
18.4
60.89
41.95
19. 1
11.76
24.07
19. 1
48.14
1 29.87
19.3
32.94
49.98
19.3
45.15
44-47
19.4
60.59
42.22
20.1
".54
23.82
20.1
47.18
29.66
20.3
32.65
50.01
20.3
44.91 ! 44-62
1
20.4
60.26
42.47
21. 1
11.33
23.56
21. 1
46.29
29-*3
21.3 1 32.38
50.00
21.3
44.66 44.75
21-4 159.93
42.70
22.1
II.15
23.29
22.1
45.51
1 29.20
22.3 132.12
49.98
22.3
44.42 44.84
22.4 i 59-59
42.91
23.1
10.99
23.03
23-1
44.79
28.97
23.2! 31.88
49.94
23.3
44.20
44.92
23.4 ' 59.26
43.09
24.1
10.85
22.80
24.1
44.13
28.76
24.2 31.65
49.92
24.3
43.99
44.99
24.4 1 58.96
43.26
251
10.70
22.59
25.1
43.48
28.57
25.2 31.43
49.90
25.3
43.80 45.06
25.4 58.68
43.44
26.1
10.55
22.39
26.1
42.82
28.40
26.2 ' 31.22
49.89
26.3
43.62
45-15
26.4 58.43
43.63
27.1
10.38
22.20
27.1
42.12
28.23
27.2 31.00
49.91
27.3
43-43
45.26
27.4 58.19
43.82
28.1
10.19
22.00
28.1
41.36
28.07
28.2 30.77
49.94
28.3
43.22
45-40
28.4 57-94
44.04
29. 1 9.98
21.79
29.1
40.52
' 27.91
29.2
30.53
49.97
29.3
43.00 45-54
29.4 57.66 44.28
30.1 9.77
21.57
30.1
39.65
27.71
30.2
30.26
49-99
30.3
42.77 , 45.67
30.3 57.36 44.52
13-62 +
13.59
49.48
+49.47
12.28 -^
■12.24
11.86 +11.82
20.43 +20.41
o»^56» .
3i'.244
jh 2ym
5«".07
4»» 8-
34'.697
5^33" 38'.985
6^ 59* 37*.8»
+85 *•
47'
8".i5
+88 <»
50'
io".77
+85'
» 19' a
3".58
+85'
» 9' I
9". IX
+87*
'11'
2l''.2X
[Bph It]
MARCH, 1912.
253
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
48 H. Cephei.
Mag. 4.5
ct Ursn Mlnoris.
{Polaris.)
Mag. 2.1
Otoombxidge 760.
Mag. 6.7
Qroombridge 944.
Mag. 6.4
51 H. Cei^hel.
Mag. 5.3
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
DecU-
nation
North.
h m
0 /
h m
0 /
h m
e /
h m
e /
h m
0 1
Mar.
056
+8547
ff
Mar.
I 26
+8850
Mar.
4 8
+8519
It
Mar.
5 33
+85 9
Mar.
659
+8711
I.I
8
9-77
21.57
I.I
s
39.65
27.71
1.2
s
30.26
49.99
1.3
s
42.77
45.67
1.3
s
57.36
44.52
2.1
9.56
21.31
2.1
38.77
27.49
2.2
29.99
49.99
2.3
42.53
45.80
2.3
57.02
44.76
3.1
9-37
21.03
3.1
37.94
27.24
3.2
29.71
49.97
3.3
42.27
45.90
3-3
56.64
44.98
4.1
9.20
20.74
4-1
37.18
26.96
4.2
29.43
49.91
4.3
42.00
45.97
4.3
56.24
45.18
51
9.06
20.43
5.1
36.51
26.68
5.2
29.16
49.82
5-3
41.73
46.01
5.3
55.84
45.35
6.1
8.94
20.11
6.1
35.91
26.40
6.2
28.90
49.71
6.3
41.47
46.03
6.3
55.44
45.49
7.1
8.83
19.81
7.1
35.39
26.13
7.2
28.66
49.61
7.3
41.23
46.04
7.3
55.05
45.61
8.1
8.73
19-52
8.1
34.91
25.85
8.2
28.44
49.50
8.3
41.00
46.04
8.3
54.67
45.72
9.1
8.64
19-25
9.1
34.45
25.60
9.2
28.23
49.40
9.3
40.77
46.04
9.3
54.32
45.83
10. 1
8.55
18.99
10. 1
33.98
25.35
10.2
28.02
49.31
10.3
40.55
46.05
10.3
53.98
45.94
II. I
8.46
18.74
II. I
33.48
25.12
II.2
27.80
49.23
11.3
40.34
46.07
11.3
53.64
46.06
I2.I
8.36
18.49
12.1
32.96
24.89
12.2
27-57
49.15
12.3
40.12
46.10
12.3
53.30
46.20
I3.I
8.24
18.23
131
32.39
24.65
13.2
27.34
49.08
13.3
39.90
46.13
13.3
52.95
46.35
14. 1
8.10
17.96
14. 1
31.80
24.40
14.2
27.10
49.00
14.3
39.67
46.18
14.3
52.60
46.50
I5.I
7.97
17.68
15.1
31.18
24.15
15.2
26.85
48.93
15.3
39.42
46.23
15.3
52.23
46.66
16. 1
7.83
17-39
16.1
30.57
23.87
16.2
26.60
48.84
16.2
39.17
46.26
16.3
51.83
46.81
I7.I
7.71
17.08
17.1
29.98
23-57
17.2
26.34
48.73
17.2
38.90
46.28
17.3
51.40
46.95
18. 1
7.60
16.75
18.1
29.44
23.27
18.2
26.08
48.59
18.2
38.62
46.27
18.3
50.96
47.07
19.0
7.52
16.41
19. 1
28.98
22.94
19.2
25.83
48.44
19.2
38.35
46.24
19.3
50.49
47.16
20.0
7.48
16.07
20.1
28.61
22.61
20.2
25.60
48.27
20.2
38.09
46.18
20.3
50.04
47.24
21.0
7.46
15.74
21. 1
28.34
22.28
21.2
25.38
48.08
21.2
37.84
46.10
21.3
49.61
47.28
22.0
7-43
15.42
22.1
28.12
21.97
22.2
25.17
47.88
22.2
37.61
46.01
22.3
49.20
47.30
23.0
7.42
15.12
23.1
27.96
21.67
23.2
24.99
47.69
23.2
37.39
45.92
23.3
48.81
47.32
24.0
7.41
14.84
24.1
27.80
21.40
24.2
24.82
47.53
24.2
37.20
45.84
243
48.44
47.34
25.0
7.39
14.58
25.1
27.60
21.15
25.2
24.65
47.38
25.2 37.01
45.78
25.3
48,09
47.38
26.0
7.36
14.34
26.0
27.37
20.91
26.2
24.47
47.25
26.2 36.81
45.74
26.3
47.75
47-44
27.0
7-31
14.09
27.0
27.04
20.66
27.2
24.28
47.14
27.2
36.61
45.72
27.3
4741
47.52
28.0
7.24
13.81
28.0
26.67
20.40
28.2
24.08
47.02
28.2
36.39
45.69
28.3
47.03
47.60
29.0
7.16
13.51
29.0
26.29
20.11
29.2
23.86
46.87
29.2
36.15
45.66
29.3
46.63
47.68
30.0
7.10
13.19
30.0
25.96
19.80
30.2
23.63
46.70
30.2
35.89
45.60
30.3
46.19
47.75
310
7.06
12.85
31.0
25.68
19.47
31.1
23.41
46.51
31.2
35.63
45.53
31.3
45.73
47.79
32.0
7.04
12.50
32.0
25.48
19.14
32.1
23.21
46.28
32.2
35.38
45.42
32.3
45.26
47.81
1362 +
13.58
49.40 4
•49.39
12.28 4
-12.24
11.86 4
■11.82
20.45 +20.42
o»^56» ;
J 1*244
jh 27" ,
5i'o7
4^ 8™ ;
34".697
h^ 33* ,
38-.985
6** 59" 37*.82
■I-850
47'
8". 15
+88 «
^50' I
o".77
+85"
» 19' 2
3".58
+85 ^^
9' I
9". 1 1
+87 *»
II'
2l".2I
[Eph za]
254
APRIL, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
48 H. Cephei.
Mag. 4.5
a XJrsae Xinoris.
{Polaris.)
Mag. 2.1
Groombridge 760.
Mag. 6.7
Groombridge 944.
Mag. 6.4
51 H. Cephei.
Mag. 5.3
Mean
Solar
Date.
Richt
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Dedi*
nation
North.
h m
0 /
h m
0 /
h m
0 /
h m
0 /
h m
0 /
Apr.
056
+8547
If
Apr.
I 26
+8850
ff
Apr.
4 8
+8519
Apr.
5 33
+85 9
Apr.
659
+87 1 1
ff
I.O
s
7.04
12.50
1.0
s
25.48
19.14
I.I
s
23.21
46.28
1.2
s
35.38
45.42
1.3
s
45.26
47.81
2.0
7.06
12.16
2.0
25.38
18.79
2.1
23.02
46.04
2.2
35.13
45.28
2.3
44.80
47.80
30
7.II
XI.83
3.0
25.36
18.46
3-1
22.84
45.80
3.2
34.90
45.13
3.3
44.35
47.76
4.0
7-17
II.51
4.0
25.39
18.13
4.1
22.68
45.55
4.2
34.69
44.97
4-3
43.92
47.70
5.0
7-24
II. 21
5.0
25.46
17.83
5.1
22.52
45.31
5.2
34.49
44.81
5.3
43.51
47.65
5.9
7-30
10.92
6.0
25.52
17.54
6.1
22.38
45.08
6.2
34.30
44.66
6.3
43.13
47.60
6.9
7.35
10.64
7.0
25.56
17-25
7.1
22.25
44.86
7.2
34.12
44.52
7.2
42.77
47.56
7.9
7-39
10.37
8.0
25.58
16.98
8.1
22.11
44.65
8.2
33.94
44.39
8.2
42.40
47.52
8.9
7.43
10.10
9.0
25.58
16.70
9-1
21.97
44.45
9.2
33.75
44.27
9.2
42.03
47.51
9.9
7.46
9.83.
lO.O
25.53
16.44
10. 1
21.82
44.25
10.2
33.55
44.16
10.2
41.65
47.50
10.9
7-49
9.55
1 1.0
25.48
16.15
II. I
21.67
44.06
II.2
33.35
44.05
II. 2
41.26
47.48
11.9
7-51
9.27
12.0
25.40
15.85
12. 1
21.51
43.85
12.2
33.14
43.93
12.2
40.86
47.47
12.9
7-54
8.97
13.0
25.35
15.53
13.I
21.34
43.63
13.2
32.92
43.80
13.2
40.44
47.46
13.9
7.58
8.65
13.9
25.34
15.21
14. 1
21.17
43.38
14.2
32.70
43-66
14.2
40.00
47.43
14.9
763
8.32
14.9
25.41
14.87
15.1
21.01
43."
15.2
32.48
43.49
15.2
39.54
47.37
159
7-71
7.99
159
25.55
14.54
16.I
20.87
42.82
16.2
32.26
43.29
16.2
3909
47.28
16.9
7.83
7.67
16.9
2578
14.20
17.I
•
20.74
42.52
17.2
32.05
43.07
17.2
38.66
47.16
17.9
7.96
7.36
17.9
26.09
13.86
18.I
20.63
42.23
18.2
31.87
42.84
18.2
38.25
47.03
18.9
8.10
V.07
18.9
26.45
13.56
19.1
20.54
41.94
19.2
31.72
42.60
19.2
37.87
46.88
19.9
8.25
6.81
19.9
26.85
13.28
20.1
20.47
41.65
20.2
31.58
42.38
20.2
37.52
46.74
20.9
8.39
6.57
20.9
27.22
13.02
21. 1
20.41
41.39
21.2
31.45
42.17
21.2
37.21
46.61
21.9
8.51
6.35
21.9
27.55
12.78
22.1
20.34
41.15
22.1
31.32
41.98
22.2
36,90
46.50
22.9
8.62
6.13
22.9
27.80
12.55
23.1
20.27
40.92
23.1
31.19
41.80
23.2
36.60
46.40
239
8.71
5.90
239
28.01
12.31
24.1
20.19
40.70
24.1
31.05
41.64
24.2
36.28
46.33
24.9
8.80
5.6s
24.9
28.19
12.04
25.1
20.09
40.48
25.1
30.89
41.48
25.2
35.93
46.25
25.9
8.88
5-39
25.9
28.36
11.77
26.1
19.98
40.24
26.1
30.72
41.31
26.2
35.55
46.16
26.9
8.98
510
26.9
28.58
11.46
27.1
19.88
39.98
27.1
30.54
41.12
27.2
35.15
46.06
27.9
9.10
4.80
27.9
28.88
II. 14
28.1
19.77
39.69
28.1
30.36
40.89
28.2
34.75
45.94
28.9
9.26
4.50
28.9
29.28
10.82
29.1
19.68
39.37
29.1
30.19
40.63
29.2
34.35
45.78
29.9
9.44
4.22
29.9
29.76
10.50
30.1
19.61
39.04
30.1
30.04
40.36
30.2
33.96
45.59
309
963
3.96
30.9
30.31
10.19
31.1
19.57
38.71
31. 1
29.90
40.08
31.2
33.60
45.39
319
9.84
3-72
31.9
30.91
9.92
32.1
19.54
38.39
32.1 29.77
39.80
32.2
33.26
45.19
13-61 +
13.57
49.29 ^
■49.28
12
S.28 ^
-12.24
11.86 H
^11.82
20.45 +20.43
(^ 56* ;
ji».244
1^ 27» ,
5i'o7
4*^
gm
34'-697
5*^ 33"
38'.985
6'' 59" 37*.82
+85 «
47'
8". 15
+88°
50' I
o".77
+85*
> 19' a
•3".58
+85^
* 9' J
[9". 1 1
+87 «
'11'
2l".2I
[Eph xa]
MAY, 1912.
APPARENT PI,ACES OP CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
255
48 H. Cephel.
oc XJrsse Xinoris.
{Polaris.)
Mag. 2.1
Groombridge 750.
Groombrldge 944.
61 H. Cephel.
Mag. 4.5
Mag. 6.7
Mag. 64
Mag. 5.3
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
DecU-
nation
North,
h m
0 /
h m
0 /
h m
0 /
h m
e t
h m
0 /
May
056
+8546
May
I 26
+8850
May
4 8
+8519
May
5 33
+85 9
May
659
+87 II
mm
1-9
s
9.84
6372
1.9
s
30.91
9.92
I.I
s
19.57
38.71
I.I
s
29.90
9 r
40.08
1.2
s
33.60
WW
45.39
2.9
10.04
63.49
2.9
31.51
9.66
2.1
19-54
38.39
2.1
29.77
39.80
2.2
33.26
45.19
3-9
10.24
63.28
3.9
32.10
9.42
3.1
19.52
38.08
3.1
29.67
39.53
3-2
32.95
44.97
4-9
10.43
63.07
4-9
32.67
9.18
4.1
19-52
37.79
4-1
29.58
39.27
4.2
32.66
44-77
5-9
10.61
62.87
5-9
33-20
8.95
5.1
19-51
37-51
5-1
29.50
39-02
5-2
32.38
44.59
6.9
10.78
62.67
6.9
33-68
8.73
6.0
19.49
37.25
6.1
29.41
38.79
6.2
32.11
44.42
7-9
10.94
62.48
7.9
34.13
8.50
7.0
19-47
36.98
7.1
29.32
38.56
7-2
31.83
44.25
8.^
II. 10
62.27
8.9
34.57
8.27
8.0
19.44
36.72
8.1
29.22
38.35
8.2
31.55
44.10
9-9
11.25
62.05
9.9
35-03
8.02
9.0
19.40
36.47
9-1
29.11
38.13
9-2
31.26
43.94
10.9
11.41
61.82
10.9
35.50
7.76
lO.O
19.36
36,20
10. 1
29.00
37.91
10.2
30.95
43.78
1 1.9
"•59
61.58
H.9
36.03
750
II.O
19.33
35.92
II. I
28.88
37-67
II.2
30.62
43.61
12.9
11.80
61.33
12.9
36.63
7.22
12.0
19.30
35.63
12.1
28.76
37-41
12.2
30.28
43.42
•
13.9
12.03
61.09
13.9
37.32
6.95
13-0
19.28
35.31
13.1
28.64
37-12
13-1
29.94
43-21
14.9
12.28
60.87
14.9
38.08
6.71
14.0
19.28
34-98
14.1
28.54
36.82
I4.I
29.62
42.96
15-9
12.55
60.67
15.9
38.92
6.47
15.0
19.31
34-65
15.1
28.46
36.50
15-1
29.33
42.71
16.9
12.82
60.50
16.9
39.79
6.25
16.0
19.35
34-33
16. 1
28.40
36.18
16. 1
29.07
42.44
17.9
13.08
60.35
17.9
40.64
6.07
17.0
19.40
34.01
17.1
28.37
35-86
I7.I
28.84
42.15
18.9
13-32
60.23
18.9
41.46
5-90
18.0
19.47
33.71
18.1
28.34
35-56
18.I
28.64
41.89
19.9
13-55
60.12
19.9
42.21
5.76
19.0
19.53
33.45
19. 1
28.33
35.28
I9.I
28.48
41.64
20.9
13-77
60.00
20.9
42.89
5.61
20.0
19.60
33.19
20.1
28.31
35-03
20.1
28.32
41.41
21.9
13.97
59.87
21.9
43.51
5-46
21.0
19.65
32.95
21. 1
28.29
34.80
21. 1
28.16
41.21
22.9
14.16
59.72
22.9
44.11
5.27
22.0
19.69
32.71
22.1
28.25
34.56
22.1
27.97
41.02
23-9
14.37
5956
239
44.74
5.07
23.0
19.71
32.46
23.1
28.20
34.31
23.1
27.75
40.82
24.9
14.60
59-39
24-9
45.44
485
24.0
19.74
32.19
24.1
28.15
34.05
24.1
27-52
40.61
259
I4«85
59-21
25.9
46.23
4.64
24.9
19.77
31.90
25.1
28.08
33.77
25.1
27.26
40.38
26.9
15.12
5904
26.9
47.10
4.42
25.9
19.82
31.59
26.1
28.02
33.47
26.1
27.01
40.12
27.9
15.40
58.88
27.9
48.04
4.22
26.9
19.88
31.27
27.1
27.98
33-15
27.1
26.78
39.84
28.9
15-70
58.75
28.9
49.03
4.04
27.9
19.95
30.94
28.0
27.96
32.81
28.1
26.57
39.53
29-9,
16.00
58.64
29.9
50.02
3-88
28.9
20.05
30.62
29.0
27.96
32.48
29.1
26.39
39.21
30.8; 16.30
58.55
30.9
5 1 01
3-75
29.9
20.17
30.31
30.0
27.98
32.15
30.1
26.23
38.89
31-8
16.58
58.47
31.9
51.97
363
30.9
20.29
30.01
31.0
28.01
31.83
31-1
26.09
38.59
32.8
16.85 58.40 1
32.9
52.89
352
31.9 20.41
29.75
32.0
28.05
31.54
32.1
25.99
38.29
1360 413.56
49.19 +
49.18
12.27 +12.23
11.85 •fii.81
20.44 +20.41
0^ 56"* 3i'.244
,h 27in .
5I-.07
4»» 8"» 34-.697
5^ 33"* 38V985
6^ 59°" 37'.82
+85 *>
47'
8".i5 1
-f88°
50' I
o".77
+85 «
19' 2
3".58 1
+85°
9' I
9". 1 1 1
+87 «
*ii' :
2l".2I
[Eph xa]
256
JUNE, 1912.
APPARENT PLACES OE CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
48 H. Cephei.
Mag. 4.5
oc Vtut Minocis.
(PolaHs.)
Mag 2.1
Grooinliridge 760.
Mag. 6.7
Oroombxidge 944.
Mag. 6.4
51 H. Cepbel.
Mag. 5.3
Mean
Solar
Bate.
Right
Ascen-
sion.
Declina-
tion
North.
Mran
Solar
Date.
Kiffht
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North
Mean
Solar
Date.
Right
Ascen-
sion.
Decli-
nation
North.
h m
0 /
h m
e f
h m
e /
h m
0 /
h m
0 »
June
056
+8546
June
126
+8850
June
4 8
+8519
June
5 33
+85 9
June
659
+87 II
1.8
9
16.85
58.40
1-9
s
52.89
3-52
1.9
9
20.53
29.50
I.O
s
28.05
31.54
I.I
s
2599
WW
38.29
2.8
17.10
58.34
2.9
53-75
3-40
2.9
20.64
29.26
2.0
28.08
31.25
2.1
25.89
38.01
3.8
17.35
58.27
3.9
54.58
329
3.9
20.75
29.03
3.0
28.11
30.98
3.1
25.79
37.74
4.8
17.60
58.20
4.9
55.38
3.17
4-9
20.85
28.78
4-0
28.13
30.72
4.1
25.69
37-49
5-8
17.84
58.12
5-9
56.17
3.05
5.9
20.94
28.55
50
28.15
30.46
5.1
25.58
37.25
6.8
18.09
58.03
6.9
56.98
2.91
6-9
21.03
28.30
6.0
28.16
30.20
6.1
25.46
37.00
7.8
18.35
57-93
7-8
57.82
2.77
7.9
21.12
28.04
7-0
28.17
29-93
7.1
2532
36.75
8.8
18.63
57.82
8.8
58.71
2.63
8.9
21.22
27.75
8.0
28.17
29.64
8.1
25.17
36.48
9.8
18.93
57.72
9.8
59.69
2.47
9.9
21.35
27.46
9.0
28.18
2933
9.1
25-03
36.19
10.8
19.24
57.63
10.8
60.74
2.33
10.9
21.49
27.16
lO.O
28.20
29.00
10. 1
24.89
35.89
II. 8
19.57
57.56
II. 8
61.86
2.22
1 1.9
21.65
26.87
1 1.0
28.23
28.66
II. I
24.76
35.56
12.8
19.91
57.52
12.8
63.02
2.12
12.9
21.83
26.58
12.0
28.29
28.32
12.1
24.67
35.21
13.8
20.24
57-51
13.8
64.17
2.06
13.9
22.02
26.31
130
28.37
27.99
131
24.62
34.86
14.8
20.56
57-52
14.8
65-30
2.03
14.9
22.22
26.09
14.0
28.48
27.67
14. 1
24.62
34.51
15.8
20.86
57-55
15.8
66.37
2.01
15-9
22.41
25.88
14-9
28.59
27-37
I5.I
24.63
3417
16.8
21.14
57.58
16.8
67.34
1.99
16.9
22.60
2570
15.9
28.70
27.09
16. 1
24.66
33.87
17.8
21.41
57-61
17.8
68.25
1.97
17-9
22.77
25.51
16.9
28.81
26.83
I7.I
24.70
33.59
18.8
21.66
57.62
18.8
69.13
1-95
18.9
22.92
25.32
17-9
28.91
26.60
I8.I
24.73
33.33
19.8
21.91
57-61
19.8
70.01
1.90
19.9
23.06
25.11
18.9
29.00
26.37
19.0
24.73
33.07
20.8
22.18
57-59
20.8
70.92
1.83
20.9
23.21
24.88
19.9
29.06
26.13
20.0
24.71
32.81
21.8
22.47
57.57
21.8
71.90
1.74
21.9
23.37
24.63
20.9
29.13
25.87
21.0
24.66
32.54
22.8
22.78
57-55
22.8
72.96
1.66
22.9
23.55
24.38
21.9
29.20
25.58
22.0
24.61
32.24
23.8
23.11
57.54
23.8
74.09
1-59
23.9
23.74
24.11
22.9
29.28
25.27
23.0
24.57
31.91
24.8
23.44
57.54
24.8
75.27
1.55
24.9
23.94
23.86
23.9
29.36
24.95
24.0
24.55
31.56
25.8
23-78
57.56
25.8
76.48
1.52
25.9
24.16
23.62
24.9
29.47
24.62
25.0
24.57
3120
26.8
24.12
57.61
26.8
77.69
1.52
26.9
24.40
23.40
25.9
29.60
24.30
26.0
24.60
30.84
27.8
24.45
57.68
27.8
78.85
1.54
27.9
24.64
23.19
26.9
29.75
23-99
27.0
24.67
30.49
28.8
24-77
57.76
28.8
79-97
1.56
28.9
24.87
23.01
27.9 , 29.91
23.69
28.0
24.75
30.15
29.8
25.07
57-85
29.8
81.03
1.60
29-9
25.11
22.84
28.9 30.07
23.42
29.0
24.86
29.83
30.8
25-36
57-93
30.8
82.04
1.63
30.9 ' 25.33
22.69
29.9 30.23
23-17
30.0
24.97
29.52
31.8
25.64
58.01
31.8
83.01
1.67
49.12
31.9 25.54
22.53
30.9 30.39
22.94
31.0
25.08 29.23
13.60 +13.56
49.»3 •*
12.27 •\
•12.23
11.85 •♦
-11.80
2(
0.42 +20.40
o'' 56™ 3i'.244
,h 2yin
5»'.07
4»» 8» 34V697
5^ 33"
38-.985
6*^59" 3A82
+85 <>
47'
8". 1 5
+88*
»5o' 1
o".77
+85'
' 19' 2
3".58 1
+85*
» 9' 1
9". II
+87
<»n' <
2l".31
[Eph 12]
JULY, 1912.
257
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
48 H. Cephei.
Mag. 4.5
oc TJrssB Xinozls.
{Polaris.)
Mag. 2.1
Groombxidge 7M.
Mag. 6.7
Oroombridge 944.
Mag. 6.4
61 H. Cephel.
Mag. 5.3
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
DecU-
nation
North.
h m
0 /
h m
e /
•k
h m
0 /
h m
0 /
h m
e /
July
056
+8546
July
127
+8850
//
July
4 8
+8519
ft
July
5 33
+85 9
July
659
+87 1 1
ft
1.8
s
2564
58.01
1.8
s
23.01
1.67
1.9
s
2554
22.53
1.9
s
30.53
22.71
I.O
s
25.08
29.23
2.8
25.90
58.08
2.8
23.95
1.69
2.9
25.74
22.37
2.9
30.66
22.48
2.0
25.17
28.95
3.8
26.16
58.14
3.8
24.90
I.7I
3.9
2594
22.21
3.9
30.79
22.24
3.0
25.26
28.68
4.8
26.43
58.19
4-8
25.88
I.7I
4.9
26.14
22.04
4.9
30.91
22.00
4.0
25.34
28.40
5-7
26.71
58.24
5.8
26.89
I.7I
5.9
26.34
21.86
5.9
31.02
21.74
5.0
25.39
28.12
6.7
27.01
58.29
6.8
27.96
I.7I
6.9
26.55
21.65
6.9
31.14
21.46
6.0
25.44
27.82
7-7
27-33
58.35
7-8
29.10
1.72
7.9
26.78
21.43
7.9
31.28
21.17
6.9
25.50
2749
8.7
27.67
58.43
8.8
30.30
1.74
8.9
27.03
21.22
8.9
31.45
20.87
7.9
25.59
27.16
9.7
28.OX
58.53
9.8
31.54
1.78
9.9
27.30
21.03
9.9
31.64
20.57
8.9
25.69
26.80
10.7
28.36
58.66
10.8
32.80
1.85
10.9
27.59
20.85
10.9
31.84
20.28
9.9
25.83
26.44
11.7
28.69
58.81
11.8
34.02
1.95
1 1.9
27.88
20.70
1 1.9
32.06
20.02
10.9
26.00
26.07
12.7
29.OX
58.98
12.8
35.20
2.07
12.9
28.16
20.57
12.9
32.30
19.78
1 1.9
26.22
2574
13.7
29.30
59.17
13.8
36.29
2.20
13.9
28.45
20.48
13.9
32.53
19.58
12.9
26.47
25.41
147
29-57
59.36
14.7
37.29
2.33
14.9
28.72
20.41
14.9
32.74
19.39
13.9
26.71
25.11
157
29.82
59.53
15.7
38.24
2.46
15.9
28.97
20.33
15.9
32.93
19.21
14.9
26.94
24.85
16.7
30.06
59.68
16.7
39.16
2.57
16.9
29.21
20.24
16.9
33.12
19.03
15.9
27.16
24.60
17-7
30.31
59.81
17.7
40.09
2.66
17.9
29.44
20.11
17.9
33.30
18.83
16.9
27.35
2434
18.7
30.58
59.92
18.7
41.10
2.74
18.8
29.68
19.98
18.9
33.48
18.61
17.9
27.52
24.08
19.7
30.87
60.04
19.7
42.16
2.80
19.8
29.92
19.83
19.9
33.65
18.37
18.9
27.68
23.79
20.7
31.18
60.17
20.7
43.29
2.87
20.8
30.18
19.68
20.9
33.84
18.11
19.9
27.84
23.48
21.7
31.51
60.32
21.7
44.47
2.96
21.8
30.47
19.52
21.9
34.05
17.84
20.9
28.01
23.15
22.7
31.84
60.48
22.7
45.69
3-07
22.8
30.78
19.38
22.9
34.28
17.58
21.9
28.20
22.81
23.7
32.16
60.66
23.7
46.90
3.21
23.8
31.08
19.25
23.9
34.52
17.35
22.9
28.42
22.46
24-7
32.47
60.87
24.7
48.08
3-37
24.8
31.39
19.15
24.9
34.77
17.12
23-9
28.68
22.13
25.7
32.76
61.10
25.7
49.20
3.55
25.8
31.70
19.07
25.9
35.03
16.91
24.9
28.96
21.80
26.7
33-04
61.33
26.7
50.26
3.73
26.8
32.00
19.02
26.9
35.29
16.72
25.9
29-25
21.48
277
33.30
61.55
27.7
51.27
3.91
27.8
32.30
18.98
27.9
35.53
16.55
26.9
2955
21.20
28.7
33.54
61.77
28.7
52.22
4.09
28.8
32.58
18.95
28.9
35.77
16.40
27.9
29.85
20.93
29.7
33.77
61.98
29.7
53.12
4.26
29.8
32.85
18.91
29.9
36.00
16.25
28.9
30.16
20.67
30.7
34.00
62.19
30.7
54.03
4.44
30.8
33.12
18.86
30.9
36.22
16.10
29.9
30.45
20.42
31-7
34.24
62.39
31.7
54.94
4.59
31.8
33.38
18.81
31.9
36.45
15-94
30.9
30.73 20.19
32.7
34.49
62.57
32.7
55.87
4.74
32.8
33.64
18.74
32.9
36.67
15.77
31.9
30.97 19.95
13.60 +
13-56
49.14 •+
■49.13
12.26 -f
-12.22
11.84 4
11.80
20.40 +20.38
0^ 56" :
5i'.244
ih 27» ,
5I-.07
4^* 8»
34'.697
5^ 33" ,
38».985
6** 59° 37*.82
+85 0 47'
8".i5
+88® 50' I
o".77
+85 <» 19' 2
3".58 I+850 9' I
9". 1 1
+87® 11' 2l"-2I
191
17
[Eph X
«]
258
AUGUST, 1912.
APPARENT PLACES OE CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
48 H. Cephei.
Mag. 4.5
ct XJrsae Xinorls.
{Polaris.)
Mag. 2.1
Oroombzldce 750.
Mag. 6.7
Groombridge 944.
Mag. 6.4
61 H. Cephei .
Mag. 5.3
Mean
Solar
Date.
Risht
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
DecU-
natioa
North.
h m
0 f
h m
0 /
h m
0 /
h m
0 f
h m
0 r
Aug.
056
+8547
Aug.
127
+8850
Aug.
4 8
+85 19
Aug.
5 33
+85 9
Aug.
659
+8711
1.7
8
34.49
2.57
1-7
s
55.87
4-74
1.8
s
33.64
18.74
1.9
s
36.67
15.77
1.9
s
31.21
19.69
2.7
34-75
2.75
2.7
56.84
4.88
2.8
33.91
18.67
2.9
36.88
15.59
2.9
31.45
19.41
3.7
35.02
2.94
3.7
57.87
502
3.8
34.20
18.58
3.9
37.10
15.39
3.9
31.71
19.11
4.7
35.31
3.14
4-7
58.97
5.18
4.8
34.50
18.49
4.9
37.34
15.17
4.9
31.99
18.80
5.7
35.61
3.36
5-7
60.11
5.36
5.8
34.81
18.40
5.9
37.60
14.95
5.9
32.30
I8.4S
6.7
35.92
3.61
6.7
61.27
5.55
6.8
35.14
18.34
6.9
37.89
14.75
6.9
32.64
18.17
7.7
36.21
3.89
7.7
62.42
5.77
7.8
35.49
18.31
7.9
38.19
14.56
7-9
33.01
17.86
8.7
36.48
4.19
8.7
63.51
6.03
8.8
35.82
18.30
8.9
38.49
14.40
8.9
33.42
i7.5»
9-7
36.73
4-50
9-7
64.53
6.30
9.8
36.16
18.31
9.8
38.80
14.28
9.9
33.85
17.33
10.7
36.96
4.82
10.7
65.46
6.58
10.8
36.49
18.35
10.8
39.10
14.18
10.9
34.28
17.11
11.6
37.16
5.X2
11.7
66.28
6.83
11.8
36.80
18.39
II.8
39.38
14.09
1 1.9
34.68
16.89
12.6
37.36
5.40
12.7
67.07
7.08
12.8
37.09
18.42
12.8
39.66
14.01
12.9
35.05
16.67
136
37.56
5.66
13.7
67.88
7-30
13.8
37.37
18.46
13.8
39.92
13.91
13.9
35.41
16.47
14.6
37.77
591
14-7
68.70
7.52
14.8
37.64
18.47
14.8
40.16
13.79
14.9
35.74
16.25
15.6
37.99
6.15
15.7
69.58
7.73
15.8
37.93
18.46
15.8
40.41
13.66
15.9
36.05
16.02
J 6.6
38.23
6.40
16.7
70.55
7.92
16.8
38.23
18.43
16.8
40.66
13.51
16.9
36.38
15.76
17.6
38.49
6.66
17.7
71.56
8.14
17.8
38.54
18.40
17.8
40.93
13.36
17.9
36.74
15.47
18.6
38.76
6.94
18.7
72.60
8.36
18.8
38.86
18.39
18.8
41.22
13.20
18.9
37.13
15.19
19.6
39.02
7.24
19.6
73.65
8.62
19.8
39.20
18.38
19.8
41.52
13.05
19.9
37.54
14.91
20.6
39.27
7.55
20.6
74.67
8.89
20.8
39.55
18.41
20.8
41.84
12.91
20.9
37-97
14.65
21.6
39.50
7.88
21.6
75.64
9.19
21.8
39.89
18.45
21.8
42.16
12.80
21.9
38.42
14.41
22.6
39.71
8.22
22.6
76.53
9.49
22.8
40.22
18.51
22.8
42.47
12.72
22.9
38.88
14.18
23.6
3991
8.56
23.6
77.36
9.80
23.7
40.54
18.59
23.8
42.79
12.66
23.9
39-33
13.99
24.6
40.09
8.90
24.6
78.12
10.10
24.7
40.85
18.68
24.8
43.10
12.61
24.9
39.78
13.80
25.6
40.26
9.23
25.6
78.86
10.40
25.7
41.16
18.77
25.8
43.40
"12.57
25.9
40.22
13-62
26.6
40.42
9.55
26.6
79.55
10.69
26.7
41.45
18.85
26.8
43.68
12.53
26.9
40.64
1345
27.6
40.58
9.85
27.6
80.23
10.97
27.7
41.73
18.94
27.8
43.95
12.50
27.9
41.05
13.30
28.6
40.74
10.15
28.6
80.93
11.23
28.7
42.01
19.01
28.8
44.22
12.45
28.9
41.45
13.13
29.6
40.91
10.44
29.6
81.67
11.48
29.7
42.29
19.07
29.8
44.48
12.38
29.9
41.84
12.94
306
41.10
10.73
30.6
82.45
11.74
30.7
42.58
19.II
30.8
44.75
12.29
30.8
42.24
12.72
31.6
41.30
•11.03
31.6
83.30
12.00
31.7
42.89
19.14
31.8
4504
12.20
31.8
42.64
12.50
32.6
41.51
n.34
32.6
84.19
12.28
32.7
43.21
19.19
32.8
45.35
12.11
32.8
43.07
12.27
13-61 ■♦
•13.57
49.20 H
r49.i9
12.26 4
-12.22
11.84 -^
11.79
20.38 +20.36
o"* 56"
3i'.244
l^ 27»
5i'.07
4^* 8"
34".697
5^ 33" .
38*.985
6»' 59" 37*.82
+85*"
47'
8". 15
^SS*
'so" 1
o".77
+85 <
* 19' 2
3".58
+85 «
' 9' I
9". 11
+87
• 11'
2l".21
[Bph xa]
SEPTEMBER, 1912.
259
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
48 H. Cephel.
Mag. 4.5
or XJrsn Mlnozls.
{Polaris.)
Mag. 2.1
Oroombxldge 750.
Mag. 6.7
Oroombrldge 944.
Mag. 6.4
51 H. Cephei.
Mag. 5.3
Mean Right
Solar Ascen-
Date.' sion.
1
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Decli.
nation
North.
1 h m
0 /
h m
0 f
h m
0 /
h m
0 /
h m
0 /
Sept.! 056
+8547
If
Sept.
1 28
+8850
Sept.
4 8
+8519
Sept.
5 33
+85 9
Sept.
659
+8711
ff
s
1.6 41.51
"34
1.6
s
24.19
12.28
1.7
S
43.21
19.19
1.8
8
45.35
12.11
1.8
s
43-07
12.27
2.6
41-73
11.67
2.6
25.10
12.58
2.7
43.54
19.25
2.8
45.67
12.01
2.8
43.53
12.04
3.6
41.94
12.03
3.6
26.01
12.90
3.7
43.88
19.32
3.8
46.00
11-93
3.8
4403
11.82
4.6 1 43.14
12.41
4.6
26.85
13.24
4-7
44.23
19.42
4.8
46.35
11.87
4-8
44.56
11.62
5.6
42.31
12.81
5.6
27.61
13.62
5.7
44.58
19.56
5.8
46.70
11.85
5-8
45.10
11.44
6.6 1 42.45
13-21
6.6
28.30
13.99
6.7
44.91
19.72
6.8
47-05
11. 85
6.8
45.64
11.28
7-6 ' 42.57
13.60
7.6
28.91
14.36
7.7
45-22
19.89
7.8
47.38
11.88
7.8
46.18
II. 17
8.6
42.68
13.98
8.6
29.45
14.71
8.7
45.50
20.06
8.8
47.69
11.92
8.8
46.68
11.07
9.6
42.78
14.34
9.6
29-95
15.05
9.7
45.78
20.22
9.8
47.98
11-95
9.8
47.16
10.96
10.6
42.89
14.68
10.6
30.47
15.35
10.7
46.07
20.36
10.8
48.26
11.97
10.8
47.61
10.83
11.6
4301
15.00
11.6
31.04
15.66
11.7
46.34
20.49
11.8
48.53
11.96
11.8
48.06
10.70
12.6
4315
15.32
12.6
31.68
15.96
12.7
46.62
20.60
12.8
48.81
11.93
12.8
48.50
10.55
13-6
43-31
15.65
13.6
32.37
16.26
13.7
46.92
20.69
13.8
49.12
11.89
13-8
48.95
10.38
14.6
43.48
16.00
14.6
33.09
16.57
14.7
47.24
20.79
14.7
49.44
11.86
14.8
49.44
10.19
15.6
43.66
16.36
15.6
33.84
16.91
15.7
47.57
20.91
15.7
49.77
11.83
15.8
49.94
10.02
16.5
43.82
1674
16.6
34-58
17.28
16.7
47.90
21.05
16.7
50.11
1 1. 81
16.8
50.47
9.85
17-5
43.96
17.14
17.6
35-25
17.65
17-7
48.22
21.20
17.7
50.46
11.81
17.8
51-01
9.69
18.5
44,08
17.54
18.6
35.85
18.04
18.7
48.55
21.38
18.7
50.81
11.83
18.8
51.57
9-57
19-5
44.18
17.95
19.6
3638
18.43
19.7
48.85
21.57
19.7
51.15
11.88
19.8
52.13
9-47
20.5
44.26
18.35
20.6
36.85
18.83
20.7
49.14
21.78
20.7
51-47
11.95
20.8
52.68
9.38
21.5
44-33
18.75
21.6
37.25
19.21
21.7
49.42
22.00
21.7
51-78
12.03
21.8
53.21
9.32
22.5
44.39
19.14
22.6
37.61
19.58
22.7
49.69
22.21
22.7
52.08
12.11
22.8
53.73
9.26
23-5
44.44
19-51
23.6
3796
19.93
23.7
49.95
22.42
23-7
52.37
12.19
23.8
54.23
9.20
24.5
44.50
19.86
24.6
38.32
20.28
24.7
50.20
22.62
24.7
52.65
12.26
24.8
54.72
9.14
255
44.56
20.20
25.5
38.69
20.62
257
50.46
22.80
25.7
52.92
12.33
25.8
55.19
9.06
26.5
44.63
20.53
26.5
39.09
20.94
26.7
50.72
22.95
26.7
53-20
12.38
26.8
55.65
8.98
27.5
44.72
20.87
27.5
39-55
21.27
27.7
50.99
23.10
27.7
53.50
12.41
27.8
5613
8.88
28.5
44.82
21.22
28.5
40.06
2i.6x
28.7
51.28
23.27
28.7
53.80
12.43
28.8
5662
8.78
29-5
44-93
21.59
29.5
40.61
21.97
29.6
51.58
23.45
29.7
54-11
12.46
29.8
57.15
8.66
30.5
45.04
21.99
30.5
41.15
22.34
30.6
51.88
23.64
30.7
54.44
12.50
30.8
57.70
8.55
315
45.13
22.41
31.5
41.66
22.74
31-6
52.18
23.85
31.7
54-7^
12.57
31.8
58.28
8.44
13.62 +13.58
49.32 -f49.3i
12.26 +12.22
11.84 4
11.79
20.37 -f
20.35
0^ 56" 3»*-244
jli 2ym 5i».o7
4>» 8» 34'.697
5^ 33" :
58-.985
6^59" 3
;7-.82
+85**
47' <
B".i5 1
+88 <»
SO' I
o".77 1
+85 *»
19' 2
3".58 1
+85 *»
9' I
9". II
+87 «
11' 2
l".2I
[Eph za]
260
OCTOBER, 1912.
APPARENT PLACES OP CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
48 H. Cephei.
Mag. 4.5
•
a TJrsse Xinoris.
{PolaHs.)
Mag. 2.1
Qroombxldge 760.
Mag. 6.7
Otoombridge 944.
Mag. 6.4
61 H. Cephel.
Mag. 5.3
Mecm
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North,
Mean
Solar
Date.
RiSht
Ascen-
sion.
Declina-
tion
North,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Decli-
nation
North.
h m
e /
h m
0 »
h m
e /
h m
0 f
h m
0 t
Oct.
056
+8547
Oct.
128
+8850
Oct.
4 8
+8519
If
Oct.
5 33
+85 9
Oct.
659
+8711
1-5
8
45.13
22.41
1.5
s
41.66
22.74
1.6
s
52.18
23.85
1-7
8
54.78
12.57
1.8
8
58.28
8.44
2-5
45.20
22.84
2.5
42.09
23.16
2.6
52.49
24.09
2.7
55.13
12.66
2.8
58.89
8.37
3.5
45.25
23.28
3.5
42.43
23.60
3.6
52.79
24.35
3.7
55.48
12.79
3.8
59.50
8.34
4.5
45.27
23.72
4.5
4268
2403
4.6
53.07
24.63
4.7
55.80
12.94
4.8
60.09
8.32
5-5
45.27
24.14
5-5
42.84
2445
5.6
53.33
24.93
5.7
56.11
13.09
5.8
60.66
8.33
6.5
45.26
24.54
6.5
42.96
24.84
6.6
53.56
25.20
6.7
56.40
13.25
6.7
61.20
8.35
7-5
45.25
24.91
7.5
43.07
25.21
7.6
53.78
25.46
7-7
56.68
13.39
7-7
61.71
8.35
8.5
45.25
25.26
8.5
43.22
25.56
8.6
54.00
25.70
8.7
56.94
13.52
8.7
62.20
8.35
9.5
45.26
25.61
9-5
43.43
25.91
9.6
54.23
25.92
9.7
57.21
13.63
9.7
62.68
8.33
10.5
45.29
25.96
10.5
43.72
26.25
10.6
54.47
26.12
10.7
57.49
13.72
10.7
63.17
8.28
".5
45.34
26.33
"5
44.05
26.61
11.6
54.72
26.34
11.7
57.78
13.80
11.7
63.68
8.23
12.5
45.40
26.71
12.5
44.39
26.97
12.6
54.99
26.56
12.7
58.09
13.89
12.7
64.22
8.17
13.5
45.45
27.10
13.5
44.70
27.37
13.6
55.27
26.79
13.7
5841
13.99
13.7
64.77
8.12
14.5
45.48
27.51
14.5
44.98
27.78
14.6
55.54
27.05
14.7
58.73
14. XI
14.7
65.34
8.09
15.5
45.49
27.93
155
45- 19
28.20
15.6
55.81
27.33
15.7
59.05
14.25
15.7
65.93
8.09
16.5
45.48
28.36
16.5
45.33
28.64
16.6
56.06
27.63
16.7
59.37
14.42
16.7
66.51
8.10
17.5
45.45
28.78
17.5
45.40
29.05
17.6
56.30
27.93
17.7
59.67
14.61
17.7
67.08
8.15
18.5
4540
29.18
18.5
45.41
29.45
18.6
56.53
28.25
18.7
5996
14.81
18.7
67.64
8.20
19-5
45.34
29.56
19.5
45.36
29.85
19.6
56.73
28.56
19.7
60.24
1 501
19.7
68.19
8.27
20.5
45.27
29.92
20.5
45.27
30.24
20.6
56.92
28.86
20.7
60.50
15.21
20.7
68.72
8.34
21.5
45.20
30.27
21.5
45.18
30.62
21.6
57."
29.16
21.6
60.75
15.41
21.7
69.21
8.40
22.5
45.13
30.61
22.5
45.10
30.97
22.6
57.29
29.44
22.6
61.00
15.60
22.7
69.68
847
23.4
45.08
30.95
23.5
45.04
31.32
23.6
57.48
29.71
23.6
61.25
15.77
237
70.16
8.52
24.4
45.05
31.30
24.5
45.04
31.66
24.6
57.67
29.96
24.6
61.50
15.93
24.7 1 70.64
8.55
25.4
45.04
31.66
25.5
45.09
32.01
25.6
57.87
30.21
25.6
61.76
16.07
25.7171.13
8.58
26.4
45.03
32.02
26.5
45.18
32.38
26.6
58.08
30.47
26.6
62.03
16.21
26.7171.64
8.60
27.4
4501
32.39
27.5
45.27
32.75
27.6
58.31
30.74
27.6
62^1
16.37
27.7 172.17
8.63
28.4
44.98
32.78
28.5
45-33
33-16
28.6
58.54
31.03
28.6
62.60
16.55
28.7 : 72.72
8.65
29.4
44.94
33.20
29.5
45.35
33-57
29.6
58.76
31.34
29.6
62.90
16.75
29.7
73.30
8.70
304
44.88
3362
30.5
45.29
34.00
30.6
58.97
31.69
30.6
63.20
16.97
30.7
73.90
8.79
31.4
44.79
3403
31-5
45.12
34.43
31.6
59.18
32.06
31.6
63.49
17.22
31.7
74.48
8.89
32.4
•
44.67
34-43
32.4
44.84
34-86
32.6
59-36
32.43
32.6
63.75
17-49
32.7
75-03
9.02
13-62 +13.59
49.44 -t
■49.44
12.27 ^
-12.23
11.84 -1
-11.80
20.37 +20.34
o*» 56" 3i'.244
jh 2ym
5>'.07
4»» 8"
34'.697
5** 33" .
38'.985
6^ 59" 37*.8a
+85**
47'
8". 15 1
+88 «
'50' I
o".77
+85'
> 19' 3
3".58
+85*
' 9' I
9". 11
+87
■
2l''.21
[Bph la]
NOVEMBER, 1912.
261
APPARENT PLACES OP CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
tt H. Cephei.
Mag. 4.5
a Ursn Xlnoris.
{Polaris.)
Mag. 2.1
Groombridge 7M.
Mag. 6.7
Otoombxldge 944.
Mag. 6.4
61 H. Cephei.
Mag. 5.3
Mean
Solar
Date.
Risht
Ascen-
sion.
Declina*
tion
North.
Mean
Solar
Date.
Risht
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Decli-
nation
North.
h m
0 e
h m
0 t
h m
e /
h m
0 /
h m
0 /
Nov.
056
+8547
Nov.
I 28
+8850
Nov.
4 8
+8519
MM
Nov.
534
+85 9
Nov.
7 0
-1-8711
1.4
s
44.67
34-43
1-4
s
44.84
34.86
1.6
s
59.36
WW
32.43
1.6
s
3-75
WW
17.49
1-7
s
15.03
9.02
2.4
44-54
34.81
2.4
44.52
35.25
2.6
59-51
32.80
2.6
4.00
17.76
2.7
15-55
9.17
3.4
44.40
35-16
3.4
44.18
35.64
3.6
59.66
33.15
3.6
4.23
18.02
3.7
16.04
9.33
4-4
44.27
35.49
4.4
43.86
35.99
4.5
59-79
33.47
4.6
4.44
18.27
4.7
16.51
9.47
5.4
44.15
35.80
5.4
43.57
36.34
5.5
59.92
33.77
5.6
4.65
18.50
5.7
16.96
9.59
6.4
44-05
36.11
6.4
43.34
36.66
6.5
60.06
3406
6.6
4.86
18.70
6.7
17.40
9.69
7.4
43.97
36.43
7-4
43.18
36.98
7-5
60.21
34.33
7-6
509
18.89
7-7
17-85
9-78
8.4
43.91
36.76
8.4
43.05
37.33
8.5
60.37
34.63
8.6
5.32
19.08
8.7
18.34
9.87
9.4
43.84
37.11
9.4
42.92
37.70
9.5
60.55
34.94
9-6
5-56
19.29
9.7
18.84
9.95
10.4
43.75
37.46
10.4
42.76
38.08
10.5
60.72
35.25
10.6
5-81
19-51
10.7
19.34
10.04
11.4
43.64
37.83
11.4
42.53
38.47
xi-5
60.89
35-58
11.6
6.07
19.75
11.6
19.86
10.16
12.4
43.51
38.21
12.4
42.23
38.85
12.5
61.05
35.93
12.6
6.32
20.02
12.6
20.39
10.30
13.4
43.37
38.58
13.4
41.85
39.25
X3.5
61.19
36.30
13.6
6.56
20.30
13.6
20.91
10.46
14.4
43.21
38.93
14.4
41.41
39.64
14-5
61.32
36.69
14.6
6.79
20.60
14.6
21.41
10.64
154
43.03
39.27
15-4
40.91
40.01
15-5
61.43
37.06
15.6
7.00
20.90
15-6
21.89
10.84
16.4
4284
39.59
16.4
40.37
40.36
16.5
61.53
37.42
16.6
7.19
21.21
16.6
22.35
11.05
17.4
42.65
39.89
17-4
39.81
40.70
17-5
61 6x
37-78
17.6
7.37
21.51
17.6
22.78
11.25
18.4
42.47
40.17
18.4
39.26
41.02
18.5
61.68
38 12
18.6
7.54
21.80
18.6
23.19
11.44
19.4
42.30
40.44
19.4
38.74
41.31
19.5
61.74
38.46
19.6
7.70
22.08
19.6
23.58
11.64
20.4
42.15
40.71
20.4
38.26
41.61
20.5
61.82
38.78
20.6
7.86
22.34
20.6
23.96
II.81
21.4
42.01
40.97
21.4
37.83
41.91
21-5
61.90
39.07
21.6
8.02
22.58
21.6
24-35
11.98
22.4
41.87
41.24
22.4
37.43
42.21
22.5
62.00
39-37
22.6
8.19
22.82
22.6
24.75
12.13
23.4
41.74
41-53
23.4
37.05
42.53
23-5
62.10
39-68
236
8.38
23.07
23.6
25-17
12.27
24.4
41.60
41.84
24.4
36.67
42.85
24.5
62.22
40.00
24.6
8.58
23.32
24.6
25.63
12.41
25.4
41.45
42.16
25.4
36.26
43.20
25.5
62.34
40.35
25.6
8.79
23.59
25.6
26.10
12.59
26.4
41.27
42.49
26.4
35.76
4356
26.5
62.44
40.72
26.6
9.00
23.89
26.6
26.58
12.79
27.4 1 41.07
42.82
27.4
35-17
43.93
275
62.53
41. II
27-5
9.19
24.22
27.6
2705
1302
28.4
40.85
43.14
28.4
34.49
44.28
28.5
62.60
41.51
28.5
9.37
24.57
28.6
27.50
13.27
293
40.61
43.43
29.4
33.73
44.62
29.5
62.65
41.90
295
9-53
24.93
29.6
27.93
13.54
30.3
40.36
43.68
30.4
32.92
44.93
30.5
62.67
42-30
30.5
9.66
25.28
30.6
28.32
13.81
31.3
40.11
43.90
31.4
32.12
45-21
31.5
62.67
42.65
31.5
9.77
25.62
31.6
28.67
14.08
1363 ■^
13.60
49-59 ■»
•49-58
12.28 4
-12.23
11.84 4
-11.80
20.37 -i-20.35
o>» 56» ,
3i*-244
jh 27»
5i».07
^ 8»
34*697
5** 33"
38-.985
6** 59" 37'.82
-W5^ 4/
8". 15
+88<>5o' 1
o".77
+85 *» 19' 2
3".58
+85«> 9' I
9". 1 1
+87** 11' 2l".2l
£Bph la
']
262
DECEMBER, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
48 H. Cephel.
Mag. 4.5
a. UrssB Xinozls.
{Polaris.)
Mag. 2.1
Qioombxidge 760.
Mag. 6.7
Qioombridge 944.
Mag. 6.4
61 H. Ce^ei.
Mag. 5.3
Mean
Solar
Date.
Right
Ascen-
sion.
Declina.
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Sohtf
Date.
Right
Ascen-
sion.
Dedina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
DecU.
nation
North,
h m
0 f
h m
0 /
h m
0 /
h m
e /
h m
0 *
Dec.
056
+8547
MM
Dec.
128
•f88 5o
Dec*.
4 9
+8519
Dec.
534
+85 9
Dec.
7 0
+87 IX
1.3
8
40.11
9W
43.90
1-4
s
32.12
WW
45-21
1.5
s
2.67
r r
42.65
1.5
8
9.77
Wr
25.62
1.6
8
28.67
14.08
2.3
39.88
44.10
2.4
31.37
45.47
2.5
2.68
42.99
2.5
9.88
2593
2.6
28.99
14.34
3-3
39.67
44-30
3.4
30.67
45-72
3-5
2.70
43.30
3.5
9.99
26.22
3.6
29.31
14.57
4.3
39.47
44.53
4.4
30.05
45-96
4-5
2.72
43.60
4.5
10.10
26.49
4.6
29.61
14.78
5.3
39.28
44.77
5.4
29.47
46.21
5.5
2.75
43.91
5.5
10.22
26.75
5.6
29.94
14.98
6.3
39."
45.01
6.4
28.90
46.47
6.5
2.81
44.22
6.5
10.35
27.02
6.6
30.30
15.18
7.3
38.93
45-26
7.3
28.32
46.74
7.5
2.86
44.54
7.5
10.49
27.31
7.6
30.67
15.38
8.3
38.73
45-51
8.3
27.68
47.04
8.5
2.89
44.77
8.5
10.63
27.61
8.6
31.04
15.60
9.3
38.51
45.76
9.3
26.98
47.34
9-5
2.92
45.22
9.5
10.77
27.93
9.6
31.42
15.85
10.3
38.27
46.02
10.3
26.20
47.63
X0.5
2.93
45.59
10.5
10.90
28.27
10.6
31.79
16.12
11.3
38.01
46.27
"3
25.35
47.91
1 1.4
2.93
45.97
"5
1 1. OX
28.63
ZI.6
32.14
16.41
12.3
37.74
46.49
12.3
24.45
48.19
12.4
2.91
46.36
12.5
II. 10
28.99
12.6
32.47
16.71
13.3
37.46
46.69
133
23.51
48.43
13.4
2.88
46.72
13.5
II. 17
29.35
13.6
32.77
17.02
14.3
37.17
46.87
14-3
22.55
48.69
14.4
2.82
47.07
14.5
11.23
29.71
14.6
33.04
17.33
153
36.88
47.03
15.3
21.58
48.90
15.4
2.76
47.42
15.5
IX.28
30.05
15.6
33.29
17.65
16.3
36.61
47.18
16.3
20.64
49.10
16.4
2.70
47.74
16.5
11.32
30.38
16.6
33.51
17.95
17.3
36.35
47.32
17.3
19.73
49.27
17.4
2.64
48.04
17.5
".35
30.69
17.6
33.71
18.23
18.3
36.11
47.44
18.3
18.88
49.45
18.4
2.58
48.32
18.5
"39
30.99
18.5
33.92
X8.49
19-3
35.88
47-57
19.3
18.09
49.63
19.4
2.54
48.60
19.5
11.44
31.27
X9.5
34.13
18.74
20.3
35-66
47.72
20.3
17.33
49.81
20.4
2.51
48.89
20.5
11.50
31.55
20.5
34.36
18.99
21.3
35.45
47.88
21.3
16.58
49-99
21.4
2.48
49.18
21.5
11.56
31.84
21.5
34.62
19.23
22.3
35.23
48.05
22.3
15.81
50.21
22.4
2.46
49.48
22.5
11.63
32.14
22.5
34.90
19.49
23.3
34.99
48.23
23.3
14.99
50.44
23.4
2.45
49.81
23.5
11.71
32.47
23.5
35.18
19.77
24.3
34.72
48.41
24.3
14.08
50.67
24.4
2.40
50.16
24.5
11.78
32.82
24.5
35.47
20.07
25-3
34.43
48.59
25.3
13.08
50.90
25.4
2.34
50.53
25.5
11.84
33.19
25.5
35.74
20.41
26.3
34.12
48.75
26.3
12.00
51.10
26.4
2.26
50.89
26.5
11.87
33.58
26.5
35.97
20.75
27.3
33.80
48.88
27.3
10.87
51.30
27.4
2.16
51.24
27.5
11.88
33.96
27.5
36.17
21.12
28.3 33.48
1
48.98
28.3
9.75
51.46
28.4
2.03
51.56
28.5
11.87
34.33
28.5
36.33
21.48
29.3.33.17
49.05
29.3
8.66
5x59
29.4
1.90
51.86
29.5
11.85
34.67
29.5
36.47
21.S1
30.3
32.88
49.10
30.3
7.62
51.70
30.4
1.77
52.13
30.5
IX. 82
34.98
30.5
36.57
22.13
31.3
32.61
49.14
31.3
6.65
51-79
31.4
1.65
52.38
31.5
11.78
35.27
31.5
36.66
22.42
32.3 ' 32.36
1
49.19
32.3
5.75
51.88
32.4
1-55
52.62
32.5
11.75
35-54
32.5
36.76 22.69
13.64 H
-13.60
49.69 H
^49.68
12.28 +12.24
11.85 H
ril.8o
20.39 +20.36
0^56" ,
3J*.244
jh 27=
5i*.07
4^ 8» 34».697
5** 33"
38^.985
6** 59" 37*82
+85 «
*47'
8".i5
-f88*
»5o' 1
[o".77
+85'
' 19' 2
«3".58
+85*
> 9' ]
I9".'i I
+87
•11'
2l".21
[Eph zs]
JANUARY, 1912.
263
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
Cteoombcldge 1119.
Mag. 7.0
1 H. Diaoonls.
Mag. 4.6
80 H. Camelop.
Mag. 5.3
Bndley 1672.
Mag. 6.3
Oxoombridge 2288.
Mag. 7.2
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Risht
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Risht
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Risht
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
DecU-
nation
North.
h m
0 i
h m
0 f
h m
e f
h m
0 f
h m
0 /
Jan.
8 II
+8853
Jan.
924
+8142
Jan.
10 20
+83 0
Jan.
12 14
+88 10
mm
Jan.
15 5
+8733
0.6
s
54.44
54.95
0.6
8
46.06
53."
0.7
8
35.69
rw
13.92
0.7
8
46.41
57.99
0.8
s
10.72
60.15
1.6
55.14
55.18
1.6
46.19
53.23
1.7
35.86
13.98
1.7
47.04
57.90
1.8
10.99
59.90
2.6
55.91
55.41
2.6
46.33
53.36
2.6
36.04
14.04
2.7
47.72
57.82
2.8
11.28
59.63
3.6
56.73
55.66
3.6
46.47
53.51
3.6
36.23
14.12
3.7
48.44
57.75
3.8
11.60
59.34
4.6
57.56
55.93
4.6
46.62
53.68
4.6
36.43
14.21
4.7
49.21
57.69
4.8
11.96
59.04
5.6
58.36
56.23
5.6
46.78
53.88
5.6
36.63
14.33
5.7
50.02
57.65
5.8
12.37
58.74
6.5
59.08
56.55
6.6
46.93
54.10
6.6
36.83
14.48
6.7
50.85
57.63
6.8
12.82
58.46
7.5
59.70
56.88
7.6
47.08
54.35
7.6
37.03
14.67
7.7
51.67
57.63
7.8
13.29
58.21
8.5
60.22
57.22
8.6
47.21
54.61
8.6
37.21
14.87
8.7
52.45
57.67
8.8
13.78
57.99
9.5
60.64
57.55
9.6
47.32
54.86
9.6
37.37
15.06
9-7
53.18
57-73
9.8
14.26
57.79
10.5
61.01
57.87
10.6
47.42
55.10
10.6
37.52
15.25
10.7
53.86
57.79
10.8
14.70
57.61
11.5
61.35
58.16
11.6
47.52
55.33
11.6
37.66
1
15.44
11.7
54.50
57.84
11.8
15.12
57.45
12.5
61.69
58.44
12.6
47.61
55.55
12.6
37.79
15.61
12.7
55-12
57.89
12.8
15.52
57.29
135
62.04
58.70
13.6
47.71
55.76
13-6
37.92
15.77
13.7
55.73
57.92
13.8
15.91
57.14
14.5
62.43
58.97
14.6
47.81
55.96
14.6
38.06
15.92
14.7
56.36
57.95
14.8
16.29
56.97
155
62.85
59.25
15.6
47.90
56.16
156
38.20
16.08
15.7
5700
57.98
15.8
16.68
56.78
16.5
63.30
59.53
16.6
48.01
5637
16.6
38.36
16.24
16.7
57.67
58.01
16.8
17.09
56.58
175
63.75
59.83
17.6
48.12
56.59
17.6
38.52
16.41
17.7
58.37
58.05
17.8
17.53
56.38
18.5
64.19
60.15
18.6
48.23
56.83
18.6
38.69
16.60
18.7
59-11
58.10
18.8
18.00
56.18
19.5
64.61
60.49
19.6
48.34
57.09
19.6
38.85
16.81
19.7
59.87
58.17
19.8
18.49
55.98
20.5
64.98
60.84
20.6
48.45
57-37
20.6
39.01
17.04
20.7
60.64
58.25
20.8
19.01
55.79
21.5
65.27
61.20
21.6
48.55
57.67
21.6
39.17
17.28
21.7
61.40
58.35
21.8
19.55
55.63
22.5
65.48
61.57
22.6
48.64
57.98
22.6
39.31
17.54
22.7
62.14
53.48
22.8
20.10
55.49
23.5
65.62
61.93
23.6
«
48.72
58.29
23*6
39.44
17.81
23.7
62.84
58.63
23.8
20.64
55.37
24.5
65.68
62.27
24.5
48.78
58.59
24.6
39.56
18.08
24.7
63.48
58.79
24.8
21.17
55.28
25.5
65.69
62.59
25.5
48.84
58.88
25.6
39.66
18.34
25.7
64.07
58.94
25.8
21.67
55.20
26.5
65.69
62.89
26.5
48.89
59.15
26.6
39.75
18.58
26.7
64.62
59.08
26.8
22.13
55.13
27.5
65.70
63.17
27.5
48.94
59.40
27.6
39.84
18.80
27.7
65.15
59.21
27.8
22.57
55.06
28.5
65.77
6344
28.5
49.00
59.63
28.6
39.94
19.00
28.7
65.67
59.33
28.8
22.99
54.97
295
65.91
63.71
29.5
49.07
59.85
29.6
40.05
19.20
29.7
66.22
5942
29.8
23.40
54.86
30.5
66.10
63.99
30.5
49.14
60.09
30.6
40.17
19.40
30.7
66.83
59.51
30.8
23.83
54.74
31.5
66.31
64.29
31.5
49.22
60.35
31.6
40.30
19.61
31.6
67.47
59.61
31.8
24.29
54.60
32.5
66.51
64.62
32.5
49.31
60.63
32.6
40.43
19.84
32.6
68.15
59.72
32.8
24.80
54.46
52.08 +52.07
6.94 +6,87
8.21 +8.15
31.53 +31.52
2355 +23.52
8^ 16" 44'. 772
9^ 24« 37'.695
io»» 20»* 26».885
12*» i4» 26".635
I^h ^m igt.^^
+88^ 53' 55".27
+8i<»42' 59".8i
+83® & 25".OI
+88<> 11' i5".83
+87<»34' I9".83
[Bph zi
0
264
FEBRUARY, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
Groombridge 1119.
1 H. Draconls.
80 H. Camelop.
Bndley 1672.
Qfoombildi^ 8888*
Mag. :
fo
Mag. ^
h6
Mag. 5.3
Mag. e
►3
Mag. 7.2
Mean
Right
Declina-
Mean
Right
Declina-
Mean
Right
DecHna-
Mean
Right
DecfiBa-
Mean
Right
Dcdi-
Solur
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
natson
Date.
sion.
North.
Date.
sion.
North.
Date.
sion.
North.
Date.
sion.
North.
Date.
sion.
North.
h m
0 f
h m
0 /
h m
e /
h m
0 /
h m
0 ^
Feb.
811
+8854
Feb.
924
+8143
Feb.
10 20
+83 0
Feb.
12 15
-f88 10
Feb.
15 5
+8733
1.5
8
66.51
4.62
1-5
s
49.31
0.63
1.6
8
40.43
19.84
1.6
8
8.15
59.72
1.8
■
24.80
WW
54.46
2.5
66.66
4.97
2.5
49.38
0.94
2.6
40.56
20.11
2.6
8.85
59.86
2.8
25.35
54.34
3-5
66.71
5.33
3-5
49.45
1.26
3.6
40.68
20.40
3.6
9.53
60.03
3.8
25.93
54.25
45
66.65
5.70
4.5
49.50
1.60
4.6
40.79
20.71
4.6
10.19
60.23
4.8
26.51
54.19
55
66.50
6.06
5.5
49-54
1.94
5.6
40.88
21.02
5.6
io.St
60.44
5.8
27.08
54.16
6.5
66.27
6.40
6.5
49.57
2.27
6.6
40.96
21.34
6.6
11.36
60.66
6.7
27.63
54.14
7-5
65.99
6.72
7.5
49.59
2.58
7.6
41.02
21.64
7.6
11.85
60.88
7.7
28.15
54.14
8.5
65.70
7.01
8.5
49.60
2.87
8.5
41.07
21.92
8.6
12.31
61.10
8.7
28.6i4
54.15
9-5
65.42
7.29
9-5
49.61
3.15
9.5
41.12
22.19
9.6
12.76
61.31
9.7
29.10
54.16
10.5
65.18
756
10.5
49.63
3.42
10.5
41.18
22.45
10.6
13.20
61.51
10.7
29.55
54.16
IX.4
64.97
7.83
"5
49.65
3.68
"5
41.24
22.71
11.6
13.66
61.70
11.7
30.00
54.16
12.4
64.79
8.II
12.5
49.67
3.95
12.5
41.31
22.97
12.6
14.13
61.88
12.7
30.46
54-14
13.4
64.62
8.41
13.5
49.70
4.23
13.5
41.38
23.23
13.6
14.63
62.07
13.7
30.94
54."
14.4
64.44
8.72
14.5
49.73
4.52
14.5
41.45
23.50
14.6
15.16
62.26
14.7
31.45 54.09
15.4
64.24
9.04
15.5
49.76
4.82
15.5
41.53
23.79
15.6
15.70
62.46
15.7
31.98
54.07
16.4
64.00
9.38
16.5
49.78
5.14
16.5
41.60
24.10
16.6
16.25
62.68
16.7
32.53
54.06
17.4
63.71
9.72
17.5
49.80
5.48
17.5
41.67
24.43
17.6
16.80
62.92
17.7
33.10
54.08
18.4
63.33
10.06
18.5
49.81
5.83
18.5
41.73
24.77
18.6
17.33
63.18
18.7
33.68
54.10
19.4
62.88
10.40
19.5
49.81
6.19
19.5
41.77
25. XI
19.6
17.81
63.46
19.7
34.25
54.15
20.4
62.36
10.72
20.5
49.80
6.53
20.5
41.80
25.45
20.6
18.24
63.76
20.7
34.80
54.23
21.4
61.78
11.02
21.5
49.77
6.85
21.5
41.81
25.78
21.6
18.63
64.05
21.7
35.32
54.33
22.4
61.16
11.30
22.5
49.74
7.15
22.5
41.82
26.10
22.6
18.95
64.33
22.7 35.81
54.43
23-4
60.56
"•55
23.5
49.71
7.43
23.5
41.82
26.40
23.6
19.23
64.60
23.7 ' 36.26
54.54
24.4
60.00
11.78
24-5
49.68
7.69
24.5
41.83
26.67
24.6
19.50
64.85
247
36.68
54.64
25.4
59.50
12.00
25.5
49.66
7.93
25-5
41.84
26.92
25.6
19.78
65.08
25.7
37.09
54.7a
26.4
59-07
12.23
26.5
4965
8.18
26.5
41.86
27.17
26.6
20.09
65.30
26.7
37.50
54.78
27.4
58.68
12.48
27.5
49.64
8.45
27.5
41.89
27.44
27.6
20.44
6552
27.7
37-93
54.83
28.4
58.30
12.76
28.5
49.64
8.74
28.5
41.92
27.72
28.6
20.84
65.75
28.7
38.39
54.88
29.4
57.88
1305
29.5
49.63
9.04
29-5
41.95
28.02
29.6
21.26
66.00
29.7
38.89
54.92
30.4
57.40
13.35
30.4
49.62
9.36
30.5
41.98
28.35
30.6
21.68
66.27
30.7
39.42
54-99
52.21 4
•52.20
6.94
•f6.87
8.21
+8.15
31.56 H
^31.54
23.54 +23.52
8*» io» i
W.772
9^ 24»
37'.695
10^ 26*
26».885
12^ 14"
26«.635
15^ 5" i8».999
+88 <>
53' 5
5".27
+81 «
•42' 5
9".8i
+83*
' & 2
5".oi
+88*
» II' 1
^5".83
+87*
*34' 1
9".83
£Bph zs]
MARCH, 1912.
265
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
Gnombiidge 1119.
Mag. 7.0
1 H. DfaooBls.
Mag. 4.6
80 H. Camalop.
Mag. 5.3
Bfadley 1678. »roombrldce2888.
Mag. 6.3 1 Mag. 7.2
Mean
Solar
Date.
Riffht
Ascen-
ai<m.
DecHna-
tion
North.
Mean
Solar
Date.
Riffbt
Ascen-
sion.
DecHna.
tion
North.
Mean
Solar
Date.
Riffht
Aaoen-
aion.
DecHna-
tion
North.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Riffht
Aacen-
don.
Decli-
nation
North.
h m
0 i
h m
0 /
h m
e /
h m
0 /
h m
0 t
Mar.
811
+8854
Mar.
924
+8143
Mar.
1020
+83 0
gm
Mar.
12 15
+88 II
Mar.
15 5
+8733
1-4
8
57-40
13.35
1.4
8
49.62
9.36
1.5
8
41.98
rw
28.35
1.6
8
21.68
6.27
1.7
8
39.42
54.99
2.4
56.82
13.65
2.4
49.60
9.69
2.5
41.99
28.69
2.6
22.07
6.57
2.7
39.96
55.10
3.4
56.14
13.94
3.4
49.56
10.03
3.5
41.99
29.04
3.6
22.40
6.90
3.7
40.49
55.23
4-4
55.37
14.21
4.4
49.51
10.35
4.5
41.97
29.38
4.6
22.68
7.23
4.7
40.99
55.39
5^
5456
14.46
5.4
49.45
10.65
5.5
41.94
29.71
5.6
22.90
7.55
5.7
41.46
55.57
6.4
5372
14.69
6.4
49.38
10.93
6.5
41.90
30.02
6.6
23.06
7.87
6.7
41.89
55.76
7.4
52.89
14.90
7.4
49.31
II. 19
7.5
41.86
30.31
7.6
23.20
8.18
7.7
42.29
55.95
8.4
52.10
15.09
8.4
49.24
11.44
8.5
41.82
30.59
8.5
23.33
8.48
8.7
42.67
56.12
9-4
51.34
15.27
9.4
49.18
11.68
9.5
41.78
30.85
9.5
23.46
8.76
9.7
43.04
56.2a
10.4
50.61
15.46
10.4
49.12
11.92
10.5
4X74
31.12
10.5
23.60
9.03
10.7
43.42
56.44
11.4
49.91
15.66
1 1.4
49.07
12.17
"5
41.71
31.39
".5
23-77
9.30
11.7
43.81
56.59
12.4
49.23
15.87
12.4
49.02
12.42
X2.5
41.69
31.67
12.5
23.97
9.57
12.7
44.21
56.73
13.4
48.54
16.09
13.4
48.97
12.68
13.5
41.67
31.96
13.5
24.18
9.85
13.7
44.63
56.87
14.4
47.83
16.32
14.4
48.92
12.96
14.5
41.65
32.26
14.5
24.40
10.14
14.6
45-07
57-02
154
4707
16.56
15.4
48.86
13.25
15.4
41.62
32.57
15.5
24.62
10.45
15.6
45.52
57-18
16.4
46.25
16.79
16.4
48.80
13.55
16.4
41.58
32.89
16.5
24.82
10.78
16.6
45.98
57.36
17.4
45.36
17.02
17.4
48.72
13.84
17.4
41.53
33.22
17.5
24.98
II. 13
17.6
46.43
57.56
18.4
44.39
17.24
18.4
48.63
14.13
18.4
41-47
33.55
18.5
25.09
11.49
18.6
46.87
57.79
19-3
43.37
17.43
19.4
48.53
14.40
19.4
41.40
33.87
19.5
25.15
11.84
19.6
47.27
58.04
20.3
42.33
17.60
20.4
48.43
14.65
20.4
41.32
34.17
20.5
25-15
12.18
20.6
47.63
58.30
21.3
41.29
17.75
21.4
48.32
14.88
21.4
41.23
34.44
21.5
25.10
12.50
21.6
47.95
58.55
22.3
40.28
17.87
22.4
48.22
1509
22.4
41.14
34.69
22.5
25.02
12.81
22.6
48.24
58.80
23.3
39.34
17.98
23.4
48.12
15.28
23.4
41.05
3492
23.5
24.94
13.10
23.6
48.50
59.03
243
38.48
18.08
24.4
48.03
15.46
24.4
40.98
35.14
24.5
24.89
13.37
24.6
48,75
59.25
25.3
37.66
18.19
25.4
47.96
15.63
25.4
40.91
35.36
25.5
24.88
13.63
25.6
49.02
59-45
26.3
36.88
18.32
26.4
47.89
15.82
26.4
40.85
35.60
26.5
24.91
13.88
26.6
49.32
59.65
27.3
36.09
18.47
27.4
47.82
16.03
27.4
40.79
35.85
27.5
24.97
14.15
27.6
49.65
59.81
28.3
35.26
18.63
28.4
47.75
. 16.27
28.4
40.73
36.12
28.5
25.04
14.46
28.6
50.00
60.01
293
34-35
18.80
29.4
4767
16.52
29.4
40.66
36.41
29.5
25.09
14.79
29.6
50.37
60.25
303
33.35
18.96
30.4
47.57
16.77
30.4
40.58
36.70
30.5
25.10
15.13
30.6
50.73
60.48
31-3
32.27
19. 1 1
31.4
47.46
17.00
31.4
40.48
37.00
31.5
25.05
15.47
31.6
51.07
60.75
32.3
31.14
19.24
32.4
47.34
17.21
32.4
40.37
37.27
32.5
24.92
15.81
32.6
51.37
61.04
52.31 4
•52.30
6.94 +6.87
8.22
+8.16
31.59 ■»
•31.58
23.55 +23.52
8^ io» i
H'.772
^h 2^ja 37«.695
10^ 20*
26«.885
12^ 14™
26«.635
15^ 5» i8».999
+88<>
53' 5
5".27
+81*'
42' !
J9".8i
+83^
► 0' 2
t5".oi
+88'
» II' 1
5".83
+87*
'34' I
9".83
[Bph 12]
266
APRIL, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
Chroombzid^ 1119.
Mag. 7.0
Mean
Right
Solar
Ascen-
Date.
sion.
h m
Apr.
8 10
1.3
s
91.14
2.3
89.99
3-3
88.84
4-3
87.73
5.3
86.67
6.3
85.66
7-3
84.70
«.3
83.77
9-3
82.86
10.3
81.93
11.3
80.97
12.3
79.96
J3.3
78.90
14-3
77.78
J5-3
76.61
16.3
75.41
17-3
74.21
18.3
73.05
19-3
71.96
20.3
70.94
21.3
70.01
22.3
69.13
23.3
68.26
243
67.37
25.2
66.44
26.2
65.42
27.2
64.33
28.2
63.18
29.2
62.01
30.2
60.85
31.2
59.73
32.2
58.68
Dedina-
tion
North.
+8854
It
9.24
9.34
9.41
9.46
9.49
9.53
9.58
9.63
9.69
9.76
9.84
9.92
20.00
20.06
20.10
20.12
20.11
20.09
20.04
19.98
19.92
19.88
19.86
19.86
19.87
19.87
19.86
19.82
19.76
19.67
19.56
19.44
1 H. Dzaooxiis.
Mag. 4.6
Mean
Right
Solar
Ascen-
Date.
sion.
h m
Apr.
924
X.4
s
47.34
2.4
47.21
3.4
47.08
4.4
46.95
5.4
46.83
6.4
46.72
7.3
46.62
8.3
46.52
9.3
46.41
10.3
46.31
11.3
46.21
12.3
46.09
13.3
45.97
14.3
45.85
15.3
45.72
16.3
45.58
17.3
45.44
18.3
45.29
19.3
45.15
20.3
45.02
21.3
44.90
22.3
44.79
23.3
44.68
24.3
44.57
25.3
44.46
26.3
44.34
27.3
44.20
28.3
44.06
29.3
43.91
30.3
43.76
31.3
43.61
32.3
43.47
Declina-
tion
North.
+8143
//
7.21
7.40
7.57
7.72
7.85
7.98
8.II
8.25
8.40
8.56
8.73
8.90
9.07
9.24
9.41
9-54
9.64
9.73
9.78
9.83
9.87
9.92
9.99
20.08
20.17
20.28
20.39
20.47
20.52
20.55
20.56
20.54
80 H. Camelop.
Mag. 5.3
Mean
Right
Solar
Ascen-
Date.
sion.
h m
Apr.
10 20
1.4
s
40.37
2.4
40.25
3.4
40.12
4.4
39.99
5.4
39.87
6.4
39.76
7.4
39.65
8.4
39.55
9-4
39.45
10.4
39.35
11.4
39.25
12.4
39.15
13.4
39.04
14.4
38.92
15.4
38.78
16.4
38.63
17.4
38.47
18.4
38.31
19.4
38.15
20.4
38.01
21.3
37.88
22.3
37.77
23.3
37.66
243
37.55
25.3
37.43
26.3
37.30
27.3
37.16
28.3
37.00
29.3
36.83
30.3
36.66
31.3
36.49
32.3
36.32
Declina-
tion
North.
+83 O
//
37.27
37.52
37.75
37.96
38.15
38.33
38.52
38.72
38.92
39.13
39.35
39.57
39.80
40.04
40.26
40.47
40.65
40.81
40.94
41.05
41.16
41.26
4x38
41.53
41.69
41.85
43.01
42.17
42.31
42.42
42.50
42.57
Bzadley 1672.
Mag. 6.3
Oioomlnidfe
Mag. 7.2
Mean
Right
Solar
Asoen-
Date.
ston.
h m
Apr.
12 15
s
1.5
24.92
2.5
24.75
3.5
24.54
4.5
24.32
5.5
24.09
6.5
23.87
7-5
23.68
8.5
23.51
9.5
23.36
10.5
23.21
11.5
23.07
12.5
22.94
13.4
22.78
14.4
22.56
15.4
22.29
16.4
21.96
17.4
21.59
18.4
21.17
19.4
20.75
20.4
20.35
21.4
19.98
22.4
19.66
23.4
19.38
24.4
19.12
25.4
18.86
26.4
18.57
27.4
18.24
28.4
17.83
29.4
17.36
30.4
16.86
31.4
16.33
32.4
15.80
DecUna
tion
North.
e /
+88 II
//
15.81
16.14
16.46
16.76
17.04
17.31
17.57
17.83
18.09
18.37
18.66
18.96
19.27
19.59
19.91
20.22
20.52
20.79
21.04
21.27
21.48
21.68
21.89
22.12
22.36
22.62
22.89
23.16
23.43
23.68
23.91
24.12
Mean
Right
Solar
Ascen-
Date.
sion.
h m
Apr.
15 5
1.6
s
51.37
2.6
51.62
3.6
51.85
4.6
52.05
5.6
52.23
6.6
52.40
7.6
52.57
8.6
52.75
9.6
52.95
10.6
53.17
11.6
53.40
12.6
53.64
13.6
53.88
14.6
54."
15.6
54.30
16.6
54.45
17.6
54.56
18.6
54.63
19.6
54.66
20.5
54.67
21.5
54.69
22.5
54-74
23.5
54.82
24.5
54.92
25.5
55.04
26.5
55.16
27.5
55.26
28,5
55.33
29.5
55.37
30.5
55.36
31.5
55.3X
32.5
55.24
Dedi-
nation
North.
+8734
tf
1.04
1.35
1.66
1.96
2.25
2.53
2.78
3.P3
3.27
3.52
3.78
4.05
4.34
4.65
4.97
5.30
5.65
5.98
6.30
6.60
6.87
7.13
7.38
7.63
7.90
8.20
8.51
8.85
9.20
9.55
9.89
10.21
52.36 +52.35
8*» 10** 44*. 77 2
+880 53'
55".27
6.95 +6.87
^h 2^in 37*.695
+81® 42' 59".8i
8.22
+8.16
10** 20» 26».885
+83® & 25^.01
[Bph xa]
31.64 +31.62
12*^ 14" 26".635
+88<>ii' I5".83
23.57 +23-54
15** 5" i8«.999
+87*^34' I9".83
MAY, 1912.
267
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
€toH>mbrid^ 1119.
Mag. 7.0
1 H. Bnoonlfl.
Mag. 4.6
80 H. Oameiop.
Mag. 5.3
Bradley 1678.
Mag. 6.3
Qroombridge 8888.
Mag. 7.2
Mean
Solar
Date.
Riffht
Ascen-
sion.
h m
May
8 10
8
1.2
59.73
2.2
58.68
3-2
57.70
4.2
56.77
5-2
55.88
6.2
55-02
7.2
54.16
8.2
53.28
9.2
52.37
10.2
51.43
11.2
50.44
12.2
49.41
13.2
48.36
14.2
47-31
15.2
46.29
16.2
45.33
17.2
44.45
18.2
43.68
19.2
42.99
20.2
42.33
21.2
41.67
22.2
40.97
23.2
40.21
24.2
39.38
25.2
38.50
26.2
37.58
27.2
36,68
28.2
35.82
29.2
35.01
30.2
34.28
31. 1
33.62
32.1
3302
DecUna
tion
North.
o /
+8854
9.56
9.44
9.32
9.20
9.08
8.97
8.88
8.80
8.72
8.64
8.55
8.44
8.31
8.16
7.98
7.78
7.57
7.36
7.15
6.96
6.79
6.64
6.50
6.35
6.18
5-99
5.77
5.53
5.27
5.00
4.73
4.48
52.33 +52
a'* io»* 44'
+88^ 53' 55'
Mean
Solar
Date.
.32
•772
.27
May
1.3
2.3
3-3
4-3
5.3
6.3
7.3
8.3
9.3
10.3
11.3
12.3
13.3
14.2
15-2
16.2
17.2
18.2
19.2
20.2
21.2
22.2
23.2
24.2
25.2
26.2
27.2
28.2
29.2
30.2
31.2
32.2
Right
Ascen-
sion.
h m
924
s
43.61
43.47
43-34
43.21
43.09
42.97
42.86
42.75
42.63
42.50
42.37
42.23
42.08
41.93
41.78
41.64
41.51
41.40
41.29
41.19
41.10
41.01
40.90
40.78
40.65
40.52
40.38
40.24
40.11
39.99
39.88
39.77
Dedina
tion
North.
+8143
It
20.56
20.54
20.52
20.50
20.48
20.47
20.48
20.49
20.51
20.53
20.55
20.55
20.53
20.49
20.43
20.34
20.24
20.13
20.01
19.91
19.83
19.77
19.72
19.67
19.61
19.53
19.42
19.29
19.13
18.95
18.78
18.61
Mean
Solar
Date.
May
1.3
2.3
3.3
4.3
5.3
6.3
7.3
8.3
9.3
0.3
1.3
2.3
3.3
4-3
5.3
6.3
7.3
8.3
9.3
20.3
21.3
22.3
23.3
24.3
25.3
26.3
27.2
28.2
29.2
30.2
31.2
32.2
Ritfht
Ascen-
sion.
h m
10 20
s
36.49
36.32
36.16
36.01
35*87
35.73
35.60
35.46
3532
35.18
35.02
34.86
34.69
34.51
34.33
34.15
33.98
33.82
33.68
33.55
33.43
33.31
33.17
3302
32.87
32.70
32.52
32.33
32.16
32.00
31.84
31.70
Dedina
tion
North,
+83 O
tr
42.50
42.57
42.63
42.68
42.72
42.78
42.85
42.92
43.00
43.09
43.19
4327
43-33
43.37
43.38
43-37
43.34
43-29
43.25
43-21
43- 19
43-19
43.20
43.22
43.23
43.22
43.18
43.12
4304
42.95
42.84
42.74
Mean
Solar
Date.
Right
Ascen-
sion.
May
h m
12 14
1.4
2.4
3-4
s
76.33
75.80
75.28
4.4
74.79
5.4
6.4
74.33
73.89
7.4
8.4
73.47
73.06
9-4
72.65
10.4
1 1.4
72.23
71.78
12.4
71.27
13-4
70.71
14.4
15.4
16.4
70. n
69.47
68.81
17.4
18.4
19.4
20.3
68.17
67.56
66.99
66.48
21.3
66.01
22.3
23.3
24.3
65.54
65.05
64.53
25.3
26.3
27.3
28.3
63.96
63.33
62.65
61.95
29.3
30.3
31-3
•
61.25
60.55
59.87
32.3
59.23
Dedina
tion
North.
+88 II
//
23.91
24.12
24.31
24.48
2465
24.82
25.00
25.19
25.39
25.60
25.81
26.02
26.22
26.41
26.58
26.72
26.83
26.92
27.00
27.09
27.19
27.30
27.43
27.57
27.72
27.86
27.98
28.09
28.17
28.22
28.25
28.28
Mean
Risht
Solar ; Ascen-
Date.
sion.
h m
May
15 5
s
1.5
55.31
2.5
55.24
3.5
55.16
4-5
55.07
5-5
55.00
6.5
54.94
7.5
54.90
8.5
54.87
9.5
54.86
10.5
54.86
"5
54.83
12.5
54.78
13.5
54.69
14.5
54.55
15.5
54-37
16.5
54.16
17.5
53.93
18.5
53.70
19.5
53.49
20.5
53.30
21.5
53.14
22.5
53.01
23.5
52.88
24.5
52.74
25.5
52.58
26.4
52.38
27.4
52.13
28.4
51.85
29.4
51.54
30.4
51.22
31-4
50.90
32.4
50.59
DecU-
na tion
Nortk
+8734
//
9.89
0.21
0.52
0.81
1.09
1.36
1.63
1.90
2.18
2.48
2.79
3."
3.45
3.79
4.12
4.43
4.73
5.00
5.24
5.48
5.71
5.95
6.21
6.50
6.80
7.11
7.42
7-73
8.02
8.29
8.54
8.77
6.95 +6.87
gh 24« 37*.695
+81*' 42' 59".8i
8.22 +8.16
10** 20™ 26».885
+83** &
[Eph za]
25''. 01
31.67 +31.66
I2h 14m 26».635
+88° II' I5".83
23-59 +23.57
15** 5"* i8".999
+87«»34' i9".83
268
JUNE, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
Chpooxnbrid^ 1119.
Mag. 7.0
1 H. Dzaoonis.
Mag. 4.6
80 H. Camdop.
Mag. 5.3
Bxadley 1672.
Mag. 6.3
Groombridge 8888.
Mag. 7.2
Mean
Solar
Date.
Rifffat
Ascen-
•
sion.
Declina-
tion
North.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Dedina-
tion
North.
Mean
Solar
Date.
Riffht
Ascen-
sion.
DecHna-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
9&^
Right
Ascen-
sion.
DecU-
nation
North.
h m
0 /
"
-
fa m
0 /
h m
0 /
h m
0 1
h m
0 #
June
8 10
+8854
if
June
924
+8143
/f
June
10 20
+83 0
June
12 14
+88 II
June
X5 5
+8734
I.I
s
3302
14.48
1.2
8
39.77
18.61
1.2
s
31.70
42.74
1.3
s
59.23
28.28
X.4
8
50.59
18.77
2.1
32.46
14.24
2.2
3967
18.45
2.2
31.57
42.64
2.3
58.62
28.31
2.4
50.30
18.99
31
31.92
14.01
3.2
39.58
18.30
3.2
31.44
42.55
3.3
58.05
28.34
3.4
50.02
19.20
4.1
31.38
13.79
4.2
39.49
18.16
4.2
31.31
42.46
4.3
57.50
28.38
4.4
49.76
19.40
5.x
30.83
13.57
5.2
39.40
18.04
5.2
31.19
42.38
5.3
56.96
28.43
5.4
49.5 X
19.61
6.1
30.25
13.36
6.2
39.31
17.92
6.2
31-06
42.31
6.3
56.41
28.48
6.4
49.26
19.84
71
29.63
13.16
7.2
39.21
17.79
7.2
30.92
42.25
7.3
55.83
28.54
7.4
49.01
20.08
8.1
28.97
12.95
8.2
39.10
17.66
8.2
30.77
42.18
8.3
55.22
28.61
8.4
48.75
20.33
91
28.28
12.71
9.2
38.98
17.51
9.2
30.62
42.10
9.3
54.56
28.67
9.4
48.46
20.59
lO.I
2759
12.44
10.2
38.86
17.34
10.2
30.46
42.00
10.3
53.86
28.72
10.4
48.12
20.86
II. I
26.93
12.14
II. 2
38.74
17.14
II. 2
30.29
41.87
"•3
53.13
28.74
11.4
47.74
21.12
12. 1
26.33
11.83
12.2
38.63
16.92
12.2
30.13
41.71
12.3
52.37
28.74
12.4
47.33
2X.37
13.X
25.81
II.51
13.2
38.54
16.68
13.2
29.97
41.52
13.3
51.62
28.72
13.4
46.89
2X.59
14. 1
25.39
II. 18
14.2
38.46
16.42
14.2
29.82
41.32
14.3
50.90
28.67
14.4
46.44
21.79
15.1
25,06
10.86
X5.2
38.38
16.16
15.2
29.69
41.12
15.3
50.23
28.60
X5.4
46.00
21.96
16. 1
24.79
10.56
16.2
38.3X
15.92
16.2
29.58
40.92
16.3
49.61
28.52
16.4
45.58
22.11
17.1
24.56
10.29
17.2
38.24
15.70
17.2
29.48
40.74
17.3
49.04
28.45
17.4
45.20
22.25
18.1
24.3X
10.03
18.2
38.18
15.50
18.2
29.38
40.58
18.3
48.49
28.40
18.4
4485
22.39
19.1
24.01
9.79
I9.I
38.12
15.31
19.2
29.28
40.45
19.3
47.94
28.37
19.4
44.52
22.54
20.1
23.64
9.55
20.1
38.05
15.13
20.2
29.16
40.32
20.3
47.37
28.36
20.4
44.19
22.72
21. 1
23.21
9.29
21. 1
37.97
14.95
21.2
29.03
40.18
21.3
46.77
28.35
21.4
43.84
22.91
22.1
22.75
9.01
22.1
37.88
14.75
22.2
28.90
40.04
22.3
46.12
28.33
22.4
43.46
23.11
23.1
22.28
8.70
23.1
37.78
14.52
23.2
28.76
39.87
23.3
45.41
28.30
23.4
4305
23.31
24.1
21.83
8.37
24.1
37.68
14.27
24.2
28.62
39.68
24.3
44.67
28.25
24.4
42.60
23.52
25-1
21.45
8.03
25.1
37.59
13.99
25.2
28.47
39.47
25.3
43.92
28.19
25.4
42.11
23.72
26.1
21.15
7.68
26.1
37.51
13.70
26.2
28.33
39.23
26.2
43.x 8
28.11
26.4
41.60
23.90
27.1
20.92
7.33
27.1
37.44
13.41
27.2
28.20
38.99
27.2
4247
28.00
27.4
41.10
24.05
28.1
20.75
6.99
28.1
37.38
13.12
28.2
28.09
38.74
28.2
41.80
27.87
28.4
40.62
24.19
29.1
20.64
6.66
29.1
37.33
12.84
29.2
27.99
38.50
29.2
41.17
27.73
29.4
40.15
24.3 X
30.1
20.56
6.34
30.1
37.29
12.57
30.2
27.90
38.26
30.2
40.58
27.60
30.4
39.69
24.41
31. 1
20.50
6.04
31. »
37.25
12.31
3x2
27.81
38.04
31.2
40.01
27.49
3X.4 '39.25
24.5 X
32.1
20.42
5.75
32.1
37.20
12.07
32.2
27.73
37.83
32.2
39.46
27.39
32.3 38.83
24.61
52.24 ■+
52.22
6.94
+6.87
8.22
+8.16
31.68 ^
-31.67
23.61 +23.59
8»» 10™ i
W'.772
9»i 24» .
37'.695
lo*^ 26"
26^.885
I2*» 14"
26V635
15^ 5» i8«.999
+88 «
53' 5
5".27
+81 «
^2' 5
9".8i
+83"
' d 2
5"oi
+88 «
' II' 1
t5".83
+87 «
'34' I
9".83
[Eph X2]
JULY, 1912.
269
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
C^roombridge 1119.
1 H. HxBOoniE,
80 H. Camelop.
Bradley 1672.
Qroombridce 2888.
Mag. 7.0
Mag. ^
^.6
Mag. 5.3
Mag. e
i.3
Mag. 7.2
1
Mean
Solar
Date.
Riffbt
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Rifffat
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
si<ni.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
DecU-
nation
North.
h m
0 /
h m
0 #
h m
0 /
h m
0 /
h m
e /
July
8 10
+8853
ff
July
924
+8143
July
1020
+83 0
ff
July
12 14
+88 11
ff
July
15 5
+8734
ff
I.I
s
20.50
66.04
1.1
s
37.25
12.31
1.2
s
27.81
38.04
1.2
s
40.01
27.49
1.4
s
39.25
24.51
2.1
20.42
65.75
2.1
37.20
12.07
2.2
27.73
37.83
2.2
39.46
27.39
2.3
38.83
24.61
3.1
20.32
65.47
3-1
37.15
11.83
3-1
27.65
37.64
3-2
38.92
27.28
3.3
38.43
24.71
4.1
20.19
65.19
4.1
37.10
11.60
4.1
27.56
37-44
4.2
38.37
27.19
4.3
38.02
24.82
5.1
20.02
64.91
5.1
37.04
IX.37
5.1
2746
37.24
5-2
37.78
27.10
5.3
37.60
2495
6.1
19.82
64.61
6.1
36.98
11.12
6.1
27.36
37.03
6.2
37.16
27.01
6.3
37.16
25.09
7.0
19.61
64.29
7.1
36.92
10.86
7-1
27.24
36.80
7.2
36.50
26.91
7.3
36.70
25.24
8.0
19.42
63.95
8.1
36.86
10.58
8.1
27.12
36.55
8.2
35.81
26.80
8.3
36.20
25.39
9.0
19.28
63.59
9-1
36.80
10.27
9-1
27.00
36.28
9.2
35.10
26.66
9-3
35.66
25.53
lO.O
19.21
63.21
10.1
36.75
9.93
10. 1
26.89
35.99
10.2
34.38
26.49
10.3
35.09
2565
II.O
19.24
62.83
11.1
36.70
9-57
11.1
26.79
35.67
11.2
33.69
26.30
11.3
34.50
25.73
12.0
19.37
62.45
12.1
36.67
9.22
12.1
26.71
35.34
12.2
33.05
26.09
12.3
33.92
25.77
13.0
19.59
62.08
13.1
36.66
8.88
13.1
26.65
35.02
13.2
32.46
25.86
13.3
33.36
25-79
14.0
19.85
61.74
14.1
36.65
8.56
14.1
26.59
34.71
14.2
31.92
25.64
14.3
32.83
25.81
150
20.11
61.42
15.1
36.64
8.26
15.1
26.54
34.42
15.2
31.42
25.43
15.3
32.34
25.82
16.0
20.34
61.13
16.1
36.63
7.98
16.1
26.49
34.15
16.2
30.94
25.24
16.3
31.88
25.84
17.0
20.51
60.84
17.1
36.61
7.71
17.1
26.43
33.90
17.2
30.46
25.06
17.3
31.43
25.87
18.0
20.61
60.54
18.1
36.59
7.44
18.1
26.36
33.65
18.2
29.95
24.90
18.3
30.97
25.93
19.0
20.66
60.22
19.1
36.56
7.16
19.1
26.28
33.39
19.2
29.39
24.74
19-3
30.48
26.00
20.0
20.69
59.89
20.1
36.53
6.86
20.1
26.20
33.12
20.2
28.79
24.57
20.3
29.97
26.08
21.0
20.74
59.54
21.1
36.49
6.54
21.1
26.11
32.82
21.2
28.16
24.38
21.3
2943
26.16
22.0
20.84
59.17
22.1
36.46
6.20
22.1
26.02
32.50
22.2
27.50
24.18
22.3
28.85
26.22
23.0
21.02
58.79
23.1
36.43
5.85
23.1
25.94
32.17
23.2
26.84
23.97
23.3
28.25
26.27
24.0
21.26
58.41
24.1
36.41
5.48
24.1
25.87
31.84
24.2
26.22
23.74
24.3
27.65
26.30
24.9
21.57
58.04
25.1
36.40
5.10
25.1
25.82
31.50
25.2
25.64
23.48
25.3
27.06
26.30
259
21.95
57.68
26.0
36.40
4.74
26.1
25.77
31.15
26.2
25.10
23.21
26.3
26.48
26.29
26.9
22.37
57.34
27.0
36.41
4.40
27.1
25.74
30.81
27.2
24.60
22.94
27-3
25.93
26.25
27.9
22.81
57.02
28.0
36.43
4.08
28.1
25.71
30.49
28.2
24.14
22.68
28.3
25.41
26.21
28.9
23.24
56.72
29.0
36.45
3.78
29.1
25.68
30.18
29.2
23.71
22.43
29.3
24,91
26.17
29.9
23.66
56.42
30.0
36.47
3.48
30.1
25.66
29.88
30.2
23.29
22.19
30.3
24.42
26.13
30.9
24.05
56.13
310
36.48
3.18
311
25.63
29.60
31.2
22.87
21.97
31.3
23.95
26.11
31.9
24.39
55.83
32.0
36.49
2.88
32.1
25.60
29.32
32.1
22.43
21.75
32.3
23.46
26.09
52.11 4
•52.10
6.94
+6.87
8.22
+8.16
31.67 H
■31.65
23.62 -+23.60
8** io» 4
4*.772
9»| 24» ,
37'.695
lO** 26"
26".885
12^ i4»
26".635
15*^ 5" I8-.999
+88 *>
53' 5
5".27
•k-Si'^
•42' 5
9".8i
+83 *=
' & 2
5".oi
+88«
' II' 1
5".83
+87 «
•34' I
9".83
[£ph za]
270
AUGUST, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
Chroombridce 1119.
Mag. 7.0
1 H. Draooais.
Mag. 4.6
80 H. Camelop.
Mag. 5.3
Bxadley 1072.
Mag. 6.3
Oroombzldge 8888.
Mag. 7.2
Mean
Solar
Date.
Rssht
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Dectina-
tion
North,
Mean
Solar
Date.
Right
Ascen-
sion.
Decfi-
nation
North.
h m
0 t
h m
0 t
h m
0 /
h m
0 t
h m
e '
Aug.
8 10
+8853
Aug.
924
+81 42
Aug.
10 20
+83 0
Aug.
12 14
+88 II
Aug.
15 5
+8734
ft
1-9
8
24.71
55.53
I.O
8
36.49
62.88
I.I
8
25.60
29.32
I.I
8
22.43
21.75
1.3
8
23.46
26.09
2.9
25.00
55.21
2.0
36.50
62.58
2.1
2556
29.03
2.1
21.96
21.53
2.3
22.96
26.08
3.9
25.29
54.87
30
36.49
62.27
3.1
25.51
28.73
3-1
21.45
21.31
3-3
22.45
26.08
4.9
25.62
54.52
4.0
36.48
61.94
4-1
25.46
28.41
41
20.91
21.07
4.3
21.90
26.09
5-9
26.01
54.15
5.0
36.49
61.59
5.1
25.40
28.07
5.1
20.34
20.81
5-3
21.31
26.08
6.9
26.49
53.77
6.0
36.49
61.21
6.1
25.35
27.71
6.1
19.76
20.53
6.3
20.69
26.07
79
27.08
53.39
70
36.50
60.82
7-1
25.31
27.33
7-1
19.20
20.22
7.3
20.06
26.03
8.9
27.76
53.03
8.0
36.53
60.43
8.1
25.28
26.93
8.1
18.69
19.89
8.2
19.43
25.95
9-9
28.49
52.69
9.0
36.57
60.05
9.0
25.26
26.53
9.1
18.24
19.55
9.2
18.82
25.84
10.9
29.24
52.37
lO.O
36.62
59.68
lO.O
25.27
26.14
10. 1
17.84
19.20
10.2
18.23
25.72
11.9
29.97
52.08
1 1.0
36.68
59.33
1 1.0
25.29
25.78
II. I
17.50
18.86
11.2
17.69
25.59
12.9
30.65
51.80
12.0
36.73
59.00
12.0
25.31
25.44
12. 1
17.19
18.55
12.2
17.19
2546
139
31.27
51.52
12.9
36.78
58.69
130
25.32
25.11
13.1
16.88
18.25
13.2
16.70
25.34
14.9
31.82
51.23
13.9
36.82
58.38
14.0
25.32
24.80
14.1
16.55
17.96
14.2
16.22
25.25
15.9
32.33
50.93
14.9
36.86
58.07
15.0
25.32
24.48
15.1
16.18
17.68
15.2
15.72
25.17
16.9
32.85
50.60
15.9
36.89
57.75
16.0
25.31
24.15
16. 1
15.76
17.41
16.2
15.20
25.11
17.9
33.40
50.25
16.9
36.91
57.41
17.0
25.29
23.81
17.1
15.31
17.12
17.2
14.65
25.05
18.9
34-02
49.90
17-9
36.94
57.04
18.0
25.27
23.45
18.1
14.85
16.82
18.2
14.06
24.98
19.9
34.70
49.55
18.9
36.97
56.65
19.0
25.26
23.07
19. 1
14.39
16.50
19.2
13.45
24.89
20.9
35.47
49.20
19.9
37.01
56.26
20.0
25.25
22.67
20.1
13.95
16.16
20.2
12.83
24.78
21.9
36.29
48.87
20.9
37.06
55.88
21.0
25.26
22.27
21. 1
13.54
15.80
21.2
12.23
24.65
22.9
37.16
48.56
21.9
37.13
55.50
22.0
25.28
21.87
22.1
13.17
15.43
22.2
11.65
24.51
23.9
38.05
48.27
22.9
37.20
55.14
23.0
25.31
21.48
23.1
12.85
15.06
23.2
11.09
24.35
24.9
38.94
47.99
23.9
37.28
54.80
24.0
25.34
21.10
24.1
12.57
14.69
24.2
10.56
24.18
25.9
39.81
47.72
24.9
37.36
54.47
25.0
25.39
20.74
25.1
12.32
14.33
25.2
10.05
24.00
26.9
40.65
47.47
25.9
37.44
54.15
26.0
25.44
20.40
26.1
12.10
13.98
26.2
9.56
23.82
27.9
41.45
47.22
26.9
37.51
53.85
26.9
25.48
20.07
27.1
11.89
13.65
27.2
9.09
23.65
28.9
42.21
46.96
27.9
37.58
53-55
27.9
25.52
19.74
28.1
11.67
13.33
28.2
8.63
23.49
29.9
42.95
46.69
28.9
37.64
53.25
28.9
25.55
19.42
29.1
11.44
13.02
29.2
8.17
23.35
30.9
43.67
46.41
29.9
37.70
52.95
29.9
25.58
19.09
30.1
II. 16
12.71
30.2
7.69
23.21
31.9
44.40
46.12
30.9
37.75
52.63
30.9
25.60
18.75
31. 1
10.85
12.39
31.2
7.17
23.08
32.9
45.19
45.80
3x9
37.81
52.29
31.9 25.61
18.38
32.1
10.51
12.06
32.2
6.63
22.95
5197 •♦
.51.96
6.94
+6.87
8.21
+8.15
31.63 H
^31.61
23.62 +23.60
8*^ 10™ i
H*.772
gh 2^m
37".695
lO** 20'"
26*.885
12^ I4»
26».635) 15'' 5" i8'.999
+88 «
53' 5
5".27
+8l«
^42' 5
9".8i
+83*
' 0' 2
5".oi
+88'
' II' 1
E5".83
1+87'
•34' 1
9".83
[Bpb la]
SEPTEMBER, 1912.
271
APPARENT PLACES OP CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
Groombrldge 1119.
Mag. 7.0
1 H. Draoonls.
Mag. 4.6
80 H. Camelop.
Mag. 5.3
Bradley 1678.
Mag. 6.3
Qroombridge 2883.
Mag. 7.2
Mean
Right
Solar
Ascen-
Date.
sion.
h m
Sept.
8 10
1-9
s
4519
2.9
46.06
3-9
47.02
4-9
48.06
5.9
49.18
6.9
50.33
7-9
51.47
8.9
52.57
9-9
5360
10.9
54.56
11.9
55.48
12.9
56.38
139
57.30
14.9
58.26
159
59.30
16.9
60.40
17.8
61.56
18.8
62.77
19.8
64.00
20.8
65.23
21.8
66.44
22.8
67.62
23.8
68.77
24.8
69.88
25.8
70.95
26.8
71.99
27.8
73.03
28.8
74.10
29.8
75-22
30.8
76.43
31.8
77.72
32.8
79.09
Declina-
tion
North.
Mean
Solar
Date.
+88 53 Sept
//
45.80
45.47
45.14
44.83
44-54
44.28
44.04
43-82
43.60
43.38
43.15
42.90
42.63
42.35
42.07
41.80
41.54
41.29
41.06
4q.86
40.68
40.51
40.34
40.18
40.01
39.83
39.63
39.41
39-18
38.96
38.75
38.56
1.9
2.9
3.9
4.9
5-9
6.9
7.9
8.9
9-9
10.9
1 1.9
12.9
13-9
14.9
15.9
16.9
17.9
18.9
19.9
20.9
21.9
22.9
23.9
24.9
25.9
26.9
27.9
28.9
29-9
30.9
31-9
32.9
Riffht
Ascen-
sion.
h m
924
s
37.87
37.93
38.01
38.11
38.22
38.33
38.45
38.56
38.67
38.77
38.86
38.94
3902
39."
39.20
39.31
39-43
39.55
39.68
39-82
39-95
40.08
40.21
40.33
40.44
40.55
40.66
40.77
40.89
41.01
41.15
41-31
+81 42 Sept
Dedina
tion
North.
Mean
Solar
Date.
//
51-92
51.54
51-15
50.76
50.39
50.05
49-73
49-43
49.14
48.86
48.57
48.26
47.93
47.58
47.22
46.86
46.52
46.19
45-87
45.57
45.28
45.01
44.76
44.50
44.24
43 97
43.69
43.39
43.07
42.73
42.40
42.09
1.9
2.9
3.9
4.9
5.9
6.9
7-9
8.9
9.9
10.9
11.9
12.9
13.9
14.9
15.9
16.9
17.9
18.9
19.9
20.9
21.9
22.9
23.9
24.9
25.9
26.9
27.9
28.9
29.9
30.9
31.9
32.9
Right
Ascen-
sion.
h m
10 20
s
25.63
25.65
25.69
25-74
25.81
25.90
25-99
26.08
26.16
26.23
26.29
26.34
26.39
26.44
26.50
26.57
26.66
26.76
26.86
26.98
27.10
27.22
27-33
27-43
27.52
27.61
27.70
27.78
27.87
27.97
28.09
28.23
Declina'
tion
North.
Mean
Solar
Date.
+83 O
//
7-99
7-59
7.18
6.76
6.36
5.96
5-59
5-24
4.91
4.59
4.27
3.93
3.56
3.17
2.78
2.38
1.98
1.59
1.22
0.86
0.52
0.19
9.87
9-57
9.26
8.94
8.62
8.28
7.92
7-53
7.14
6.75
Sept.
I.I
2.1
3.1
4.1
5-1
6.1
7.0
8.0
9.0
1 0.0
II.O
12.0
130
14.0
15-0
16.0
17.0
18.0
19.0
20.0
21.0
22.0
23.0
24.0
24.9
25-9
26.9
27-9
28.9
29-9
30.9
31-9
Right
Ascen-
sion.
h m
12 14
s
10.51
10.16
9.81
9.50
9-25
9-07
8.95
8.86
8.79
8.71
8.60
8.44
8.25
8.04
7.82
7.62
7.45
7-33
7.25
7.22
7.22
7-25
7-30
7.35
7.38
7.38
7.35
7.29
7-21
7-13
7.08
7.08
Dedina-
tion
North.
Mean
Solar
Date.
o /
+88 II
ff
12.06
II. 71
"-33
10.92
10.50
10.08
9.67
9.27
8.89
8.54
8.20
7.85
7.50
7.14
6.76
6.36
5.95
5-53
5-"
4.69
4.28
3-89
3.51
3.14
2.78
2.43
2.09
1-73
1.36
0.96
0.54
o.io
Sept
1.2
2.2
3-2
4-2
5.2
6.2
7-2
8.2
9.2
10.2
II. 2
12.2
13.
H-
15-
16.
17.
18.
19.
20.
21.
22.
23.
24-
25-
26.
27.
28.
29.
30.
31.
32.
Right
Ascen-
sion.
h m
15 4
s
66.63
66.06
65.47
64.88
64.30
63.74
63.23
62.77
62.34
61.92
61.49
61.04
60.56
60.05
59.52
58.99
58.46
57-95
57.47
57.02
56.59
56-19
55.81
55.45
55.09
54.71
54-31
53.89
53-45
52.99
52-52
52.06
Dedi-
nation
North,
+8734
//
22.95
22.81
22.64
22.44
22.21
21.95
21.68
21.42
21.17
20.94
20.73
20.54
20.35
20.15
9.94
9.72
9.48
9.21
8.92
8.62
8.32
8.03
7-74
7.46
7.19
6.94
6.70
6.45
6.20
5.94
5.65
5.32
51.86 +51.85
S^ 10™ 44*.772
+88 « 53'
55".27
6.94 ■f6.87
9^ 24"» 37*-695
-f8i° 42' 59".8i
8.21 +8.15
10** 20™ 26«.885
+83 o &
[Bph za]
25".OI
31.58 +31.56
14"* 26».635
I5".83
+88 « II'
23.61 +23.59
15^ 5"* i8'.999
+87** 34' I9".83
272
OCTOBER, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
Chpooxnbrldge 1119.
Mag. 7.0
1 H. Draoonis.
Mag. 4.6
80 H. Camelop.
Mag. 5.3
Bndley 1678.
Mag. 6.3
Qroombrldce 2888.
Mag. 7.2
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
DecHna.
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
1
i Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
DecU-
nation
North.
h m
0 /
h m
0 f
h m
0 /
h m
0 /
h m
0 r
Oct.
8 II
+8853
IP
Oct.
924
-f8i 42
Oct.
10 20
+8259
Oct.
12 14
+88 10
Oct.
15 4
+8734
1.8
s
17.72
38.75
1.9
s
41.15
42.40
1-9
s
28.09
67.14
1.9
s
7.08
r »
60.10
I.I
s
52.52
1565
2.8
19.09
38.56
2.9
41.31
42.09
2.9
28.23
66.75
2.9
7.14
59.66
2.1
52.06
15.32
3.8
20.51
38.39
3-9
41.47
41.80
3.9
28.37
66.39
3-9
7.26
59.23
3.1
51.63
14.98
4.8
21.93
38.24
4.9
41.63
41.53
4-9
28.52
66.05
4-9
7.43
58.80
41
51.23
14.62
5.8
2331
38.11
5.9
41.79
41.29
5.9
28.68
65.74
5.9
7.63
58.40
51
50.88
14-25
6.8
2463
38.00
6.8
41.95
41.07
6.9
28.83
65.46
6.9
7.84
58.01
6.1150.57
1390
7.8
25-87
3790
7.8
42.11
40.87
7-9
28.97
65.18
7.9
8.02
57.66
7-1
50.29
13-56
8.8
27.04
37-79
8.8
42.25
40.65
8.9
29.10
64.89
8.9
8.17
57.31
8.1
50.01
13.24
9.8
28.18
37.66
9.8
42.38
40.42
9-9
29.22
64.60
9-9
8.27
56.96
9.1
49.72
12.94
10.8
29-31
37-51
10.8
42.51
40.17
10.9
29.34
64.30
10.9
8.34
56.60
10. 1
49.40
12.66
II. 8
30.48
37-35
11.8
42.64
3990
11.9
29.45
63.98
11.9
8.40
56.22
II. I
49.05
12.37
12.8
3170
37-17
12.8
42.78
39-62
12.9
29.57
63.65
12.9
8.47
55.82
12. 1
48.69
12.07
138
32.99
37-00
13.8
42.92
39.34
13.9
29-70
63.31
13.9
8.57
55.41
13.1
48.31
11.77
14.8
34-35
36.85
14.8
43.07
3907
14.9
29-85
62.97
14-9
8.70
54-99
14.1
47.93
11.43
15.8
35.74
36.72
15-8
43.24
38.80
15.9
30.01
62.64
15-9
8.88
54.57
151
47-57
11.08
16.8
37-16
36.61
16.8
43-41
38.56
16.9
30.17
62.33
16.9
9.11
54.16
i6.i 47.23
10.71
17.8
38.59
36.52
17.8
43-58
38.34
17.9
30.34
62.03
17.9
9.38
53.76
1 7. 1 46.93
10.33
18.8
40.00
36.45
18.8
43.76
38.14
18.9
30.51
61.74
18.9
9-69
53.38
1 8. 1 46.66
9-95
19.8
41.38
36.40
19.8
43.94
37-96
19-9
30.69
61.47
19-9
10.02
53.01
19. 1 46.42
9.57
20.8
42.70
36.35
20.8
44.11
37.79
20.8
30.86
61.23
20.9
10.34
52.66
20^0 46.22
9.20
21.8
43.98
36.31
21.8
44.27
37.63
21.8
31.03
61.00
21-9
10.65
52.32
21.0 46.03
8.84
22.8
45-22
36.27
22.8
44.43
37.48
22.8 31.19
60.76
22.9
10.94
51.98
22.0 45.85
8.50
23.8
46.42
36.22
23.8
44.58
37.31
23.8 31.34
60.52
23-9
11.21
51.65
23.0 45.66
8.17
24-7
47.60
36.15
24.8
44.73
3713
24.8
31.49
60.28
24.9
11.45
51.32
24.0
45.46
7.85
25.7
48.79
36.06
25.8
44.88
36.93
25.8
31.64
60.02
25.9
11.66
50.97
25.0
45.24
7.53
26.7
50-03
35.97
26.8 45.03
36.72
26.8
31-77
59.74
26.9
11.86
50.61
26.0 44.99
7.20
27.7
5X-32
35.87
27.8
45.19
36.50
27.8
31.92
59-45
27.9
12.07
50.24
27.0 1 44.72
6.87
28.7
52.70
35-78
28.8
45.35
36.28
28.8
32.09
59-15
28.9
12.32
49.85
28.0
44.44
6.51
29.7
54-15
35.70
29.8
45-53
36.06
29.8
32.27
58.86
29.9
12.63
49.44
29.0
44.18
6.13
30.7
55-65
3564
30.8
45-72
35.87
30.8
32.47
58.58
30.9
13-00
49.04
30.0
43-93
5.73
31-7
57.16
35.62
31.8
45.92
35.71
31.8
32.68
58.32
31.9 13.42
48.65
31.0 43.71
5.31
32.7
58.64 1
1
35-63
32.8 46.12
35.58
32.8
32.89
58.08
32.9
13.89
48.28
32.0 , 43.55
4.88
5179 H
1-51.78
6.94
+6.86
8.21
+8.15
31-52 •»
•31.50
23.58 +
23.56
S*" io»
44*.772
9^ 24» ,
37*.695
lo^ 20'"
26^.885
I2*» I4»
26-.635
15*" 5" J
[8-.999
4-88 0
53' i
)5"-27
+81 «
^42' 5
9".8i
+83'
• & 2
5".oi
-f88«
' II' I
5".83
+87 «
34' I
9".83
[£ph la]
NOVEMBER, 1912.
273
APPARENT PIECES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
Qxoombiidge 1119.
Mag. 7.0
1 H. Dxmoonis.
Mag. 4.6
80 H. Camelop.
Mag. 5.3
Bradley 1678.
Mag. 6.3
Oiooaibzidge 8288.
Mag. 7.2
Mean
Solar
Bate.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
DaU.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date
Right
Ascen-
sion.
Declina-
tion
North,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
DecU-
nation
North.
h m
0 /
h m
0 /
h m
0 /
h m
0 /
h m
0 /
Nov.
811
+8853
a*
Nov.
924
+81 42
Nov.
1020
+8259
mm
Nov.
12 14
+88 10
mm
Nov.
15 4
+8733
mm
1-7
58*64
WW
35.63
1.8
s
46.12
WW
35.58
1.8
8
32.89
WW
58.08
1.9
s
13.89
WW
48.28
I.O
s
43.55
WW
64.88
2.7
60.06
35.66
2.8
46.31
35.46
2.8
33.09
57.88
2.9
14.37
47.95
2.0
43.44
64.46
3.7
61.40
35.69
3.8
46.49
35.36
3.8
33.29
5770
3.9
14.84
47.63
3.0
43.35
64.06
4 7
62.65
35.72
4.8
46.67
35.27
4.8
33.48
57-53
4.9
15.29
47.32
4.0
43.28
63.68
5.7
63.85
35.73
5.8
46.83
35.17
5.8
33.66
57.35
5.9
15.68
47.04
5.0
43.20
63.32
6.7
65.02
35.73
6.8
46.99
35.06
6.8
33.82
57.16
6.9
16.02
46.75
6.0
43."
62.99
7-7
66.21
35.71
7.8
47.15
34.93
7.8
33.98
56.95
7.9
16.34
46.44
6.9
42.99
62.66
«.7
67.43
35.68
8.8
47.31
34.78
8.8
34.14
56.74
8.9
16.66
46.11
7-9
42.84
62.33
9.7
68.72
35.66
9.8
47.48
34.62
9.8
34.31
56.52
9.9
17.00
45.77
8.9
42.68
61.99
10.7
70.07
35.64
J0.8
47.66
34.47
10.8
34.49
56.28
10.9
17-39
45.43
9.9
42.53
61.63
11.7
71.46
35.64
11.8
47.84
34.33
11.8
34.68
56.05
II.9
17.83
45.08
10.9
42.39
61.25
12.7
72.88
35.66
12.7
48.02
34.21
12.8
34.89
55.84
12.9
18.31
44.73
11.9
42.26
60.85
13.7
74.30
35.71
13.7
48.21
34.11
13.8
35.11
55.66
13.9
18.84
44.39
12.9
42.16
60.43
14.7
75.70
35.78
14.7
48.41
3403
14.8
35.34
55.49
14.9
19.40
44.07
13.9
42.10
60.02
157
77.06
35.86
15.7
48.61
33.98
15.8
3556
55.35
15.9
19.97
43.78
14.9
42.08
59.61
16.7
78.37
35.96
16.7
48.81
33.94
16.8
35.77
55.22
16.9
20.55
43.51
15.9
42.09
59.20
177
79.63
36.06
17.7
49.00
33.91
17.8
35.97
55."
17.9
21.13
43.25
16.9
42.12
58.80
18.7
80.82
36.16
18.7
49.18
33.89
18.8
36.16
55.01
18.8
21.70
43.00
17-9
42.17
58.43
19.7
81.96
36.26
19.7
49.35
33.86
19.8
36.35
54.90
19.8
22.23
42.75
18.9
42.23
58.07
20.7
83.07
36.35
20.7
49.51
33.82
20.8
36.54
54.79
20.8
22.72
42.51
19.9
42.28
57.72
21.7
84.18
36.42
21.7
49.67
33.77
21.8
36.72
54.67
21.8
23.19
42.27
20.9
42.31
57.39
22.7
85.31
36.48
22.7
49.83
3371
22.8
36.89
54-54
22.8
23.63
42.01
21.9
42.32
57.06
23.7
86.48
36.53
237
50.00
33.64
23.8
37.08
54.39
23.8
24.08
41.73
22.9
42.30
56.73
247
87.72
36.58
24.7
50.17
33.56
24.8
37.28
54.22
24.8
24.56
41.43
23.9
42.26
56.38
25.7
89.04
36.64
25.7
50.35
33.48
25.8
37.49
54.06
25.8
25.08
41.13
24.9
42.22
56.01
26.7
90.41
36.73
26.7
50.55
33.42
26.7
37.71
53.91
26.8
25.67
40.83
25.9
42.20
55.61
27.7
91.79
36.85
27.7
50.76
33.39
27.7
37-94
53.78
27.8
26.31
40.54
26.9
42.21
55.20
28.7
93.15
37.00
28.7
50.96
33.39
28.7
38.18
53.69
28.8
27.00
40.28
27.9
42.27
54.78
29.7
94.45
37.16
29.7
51.16
33.42
29.7
38.41
53.62
29.8
27.71
40.04
28.9
42.38
5436
30.6
95.67
37.34
30.7
51.35
33.46
30.7
38.63
53.57
30.8
28.42
39-82
29.9
42.55
53.96
31.6
96.78
37.52
31.7
51.52
33.52
31.7
38.84
53-54
31.8
29.09
39.63
30.9
42.73
53.57
32.6
97.81
37.69
32.7
51.69
33.58
32.7
39.04
53.52
32.8
29.71
39.46
31.9
42.91
53.22
51.78 ■*
51.77
6.93 +6.86
8.20
+8.14
31.47 ^
•31.45
23.55 +23.53
8*» io» i
H'.772
^h 2^m 37-.695
lo** 26™
26».885
I2*» 14™
26-.635
,^h ^m i8".999
+88 «»
53' 5
5".27
+81°
'42' 5
9".8i 1
+83°
' 0' 2
5".oi
+88«
' 11' I
5".83
+87 *>
'34' I
9".83
I9I2
18
[Eph xa]
274
DECEMBER, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
Groombridge 1119.
Mag. 7.0
1 H. Draconls.
Mag. 4.6
80 H. Camelop.
Mag. 5.3
Bradley 1672.
Mag. 6.3
Gkoombzidge 2888.
Mag. 7.2
Mean
Solar
Date.
Right
Ascen-
ston.
Decima-
tion
North,
Mean
Solar
Date.
Right
Ascen-
sioii.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
DccU-
nation
North.
h m
p /
h m
0 t
h m
0 /
h m
0 /
h m
e r
Dec.
8X2
+8853
Dec.
924
+81 42
ff
Dec.
10 20
+8259
Dec.
12 14
+88 10
Dec.
15 4
+8733
mm
1.6
8
36.78
WW
37.52
1.7
8
51.52
33.52
1.7
8
38.84
53.54
1.8
s
29.09
WW
39.63
1-9
s
42.91
WW
53.22
2.6
37.81
3769
2.7
51.69
33.58
2.7
39-04
53.52
2.8
29.71
39.46
2.9
43.08
52.90
3.6
38.79
37.85
3.7
51.85
33.62
3.7
39.23
53.48
3.8
30.30
39.28
3-9
43.22
52.60
4.6
39.77
37.99
4.7
52.00
33.65
4.7
39.40
53.43
4-8
30.85
39.09
4-9
43.33
52.30
5.6
40.78
38.11
5.7
52.16
33.65
5.7
39.58
53.37
5.8
3r.38
38.89
5-9
43.42
51-98
6.6
41.83
38.23
6.7
52.32
33-65
6.7
39.77
53.29
6.8
31.91
38.69
6.9
43.50
51.65
7.6
42.93
38.35
7.7
52.48
33.65
7.7
39.96
53.22
7-8
32.48
38.48
7-9
43.59
51.30
8.6
44.07
38.48
8.7
52.65
33.66
8.7
40.16
53-16
8.8
33.09
38.25
8.9
43.71
50.94
9.6
45.24
38.63
9.7
52.83
33.69
9.7
40.37
53-IO
9.8
33-75
38.03
9.9
43.86
50.57
10.6
46.41
38.81
10.7
53.01
33.74
10.7
40.59
53.06
10.8
34-45
37.83
10.9
44.05 1 50.20
II. 6
47.57
39.01
II.7
53.20
33.81
II. 7
40.82
53.04
II. 8
35.19
37.65
1 1.9
44.27 49.82
12.6
48.68
39.23
12.7
53.39
33.90
12.7
41.05
53.04
12.8
35.94
37.48
12.9
44.53
49.45
136
49.74
39.46
13.7
53.57
34.01
13.7
41.27
53-07
13.8
36.70
37-33
13.9
44.81
49.10
14.6
50.73
39.71
14.7
53.75
34.14
14-7
41.48
53-12
14.8
37.45
37-21
14.9
45.10 48.77
15.6
51.65
3996
15.7
53.92
34.28
15.7
41.69
53-17
15-8
38.18
37-11
15.9
45.40 48.46
16.6
52.52
40.20
16.7
54.07
34.41
16.7
41.89
53-23
16.8
38.88
37.02
16.9
45.69 48.16
17.6
53.33
40.43
17.7
54.21
34-53
17.7
42.08
53-28
17.8
39.55
36.93
17.9
45.97 '47.88
18.6
54-11
40.64
18.6
54.35
34.65
18.7
42.26
53.33
18.8
40.19
36.84
18.9
46.23 • 47.61
19.6
54.88
40.84
19.6
54.49
34.75
X9.7
42.43
5336
19.8
40.79
36.74
19.9
46.47
47.35
20.6
55.69
41.03
20.6
54.64
34-83
20.7
42.61
53.37
20.8
41-38
36.62
20.9
46.68 47.08
21.6
56.56
41.21
21.6
54-79
34.90
21.7
42.79
53.38
21.8
41.98
36.49
21.9
46.87
46.78
22.6
57-49
41.40
22.6
54.95
34.98
22.7
42.98
53.38
22.8
42.62
36.36
22.9
47.08
46.47
23.6
58.48
41.60
23.6
55-"
35-07
23.7
43.18
53-39
23.8
43-31
36.22
23.9
47-32
46.14
24.6
59.49
41.83
24.6
55.27
35.18
24.7
43-39
5342
24.8
44.06
36.08
24-9
47.60
45.80
25.6
60.48
42.09
25.6
55.44
3532
25.7
43-61
53.48
25.7
44.86
35-96
25.9
47.93
45-46
26.6
61.42
42.37
26.6
55.61
35.48
26.7 ' 43-83
53.57
26.7
45-68
3587
26.9
48.29
45-13
27.6
62.27
42.67
27.6
55.78
35.68
27.7 44.04
53.69
27.7
46.50
35-81
27.9
48.69
44.82
28.6
63.02
42.98
28.6
55.94
35.88
28.7 44.23
53-82
28.7
47-29
35-78
28.9
49. 11
44.55
29.6
63.68
4328
29.6
56.08
36.08
29.7
44.41
53.96
29.7
48.03
35.77
29.9
49.52
44.30
30.6
64.25
43.56
30.6
56.20
36.28
30.7
44.58
5409
30.7
48.72
35.76
30.9
49.91
44.07
31.6
64.79
43.82
31.6
56.31
36.47
31.7
44.74
54.21
3»-7
49-37
35.75
31.8
50.26 ' 43.85
32.6
65.35
44.07
32.6
56.42
36.64
32.6 1 44.90
54.32
32.7
49-99
35.74
32.8
50.58
43.64
51.83 ■+
•51.82
6.93
-f6.86
8.20
+8. 14
31-43 H
^31.42
23-52 +23.50
B^ io» -
W.772
9»» 24"
37'.695
10** 20™
26'.885| I2*» 14"
26^.635
,jh ^m i8i.999
+88*
*53' 5
5".27
+81 «
U2' 5
;9".8i
+83'
> 0' 2
!5"-Oi
|-f88<
' II' 1
E5".83
+87*
^34' I
9".83
[Eph za]
JANUARY, 1912.
275
APPARENT PI,ACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
£ Vnm Mlnoris.
^ UnsB Minorls.
\ TInm Minoris.
76 Draconis.
89 H. Oepbei.
Mag. 4.4
Mag. 4.4
Mag. 6.6
Mag. 5.7
Mag. 5.6
Mean
Solar
Date.
Right
Aacen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Decli-
nation
North.
h m
0 t
h m
0 /
h m
0 p
h m
e f
h m
0 /
Jan.
1654
-f 82 10
Jan.
18 0
•f86 36
Jan.
19 7
+89 0
Jan.
2048
+82 12
Jan.
2327
+8649
0.9
8
4972
4565
0.9
s
18.93
09
40.17
1.0
8
21.11
M
28.50
I.I
8
51.01
99
25.64
1.2
8
29.11
99
34-93
1.9
49.76
45.33
1.9
18.89
39.85
2.0
20.59
28.21
2.1
50.90
25.43
2.2
28.75
34-94
2.9
49-79
45.00
2.9
18.85
39.52
30
20.00
27.92
3-1
50.78
25.22
3.2
28.35
34.94
3-9
49.82
44-64
3.9
18.82
39.16
4-0
19.43
27.61
4-1
50.65
24.97 ■
4-2
27.94
34.94
4-9
49.87
44.26
4.9
18.78
38.79
5-0
18.89
27.27
5-1
50.54
24.71
5.2
27-50
34.91
5-9
49.92
43.87
5-9
18.77
38.39
6.0
18.44
26.91
6.1
50.42
24-40
6.2
27.05
34-85
6.9
50.00
43-48
6.9
18.79
37.99
7.0
18.10
26.53
7.1
50.31
24.08
7.2
26.61
34.77
7-9
50.09
43-11
7.9
18.86
37-60
7.9
17.88
26.15
8.1
50.22
23.75
8.2
26.19
34.66
8.9
50.18
42.78
8.9
X8.95
37-24
8.9
17-75
•25.78
9-1
50.13
23.43
9.2
25.79
34-53
9-9
50.27
42.47
9-9
19.06
36.89
9-9
17.69
25.43
10.1
50.07
23.11
10.2
25.42
34-39
10.9
50.36
42.18
10.9
19.17
36.57
10.9
17.68
25.10
11. 1
50.01
22.82
11.2
25.08
34-25
1 1.9
50.45
41.90
11.9
19.27
36.28
11.9
17.66
24.80
12. 1
49-95
22.54
12.2
24.77
34-12
12.9
50.54
41-63
12.9
19-35
36.00
12.9
17.61
24.50
13-1
49-90
22.27
13-2
24.46
34.00
13-9
50.62
41-37
13-9
19.43
35.71
13-9
17.54
24.22
14.1
49-85
22.00
14.2
24-14
33-89
14.9
50.70
41.09
14.9
19-51
35-41
14.9
17.43
23.92
15-1
49.78
21.74
152
23.81
33.80
15.9
50.78
40.80
15-9
19-59
35-IO
15-9
17-30
23.62
16.0
49-70
21.46
16.2
23.47
33.70
16.9
50.86
40.50
16.9
19.66
34.79
16.9
17-15
23-30
17.0
49.64
21.17
17.2
23.11
33.59
179
50.95
40.19
17-9
19-74
34.45
17.9
17.02
22.96
18.0
49.56
20.87
18.2
22.73
3348
18.9
51-04
39-88
18.9
19-83
34- 10
18.9
16.93
22.63
19.0
49.48
20.55
I9.I
22.35
33-35
19.9
51.14
39-55
19.9
19-95
33-74
19.9
16.90
22.27
20.0
49.41
20.21
20.1
21.96
33-19
20.9
5125
39-22
20.9
20,09
33-38
20.9
16.95
21.90
21.0
49-35
19.86
21.1
21.56
33.01
21.9
51-38
38.90
21.9
20.26
3303
21.9
17.07
21.52
22.0
49-30
19.49
22.1
21.18
32.81
22.9
51-51
38.61
22.9
20.44
32.69
22.9
17.29
21.15
23.0
49.26
19.13
23.1
20.84
32.60
23.9
51.64
38.33
23.9
20.64
32.37
23.9
17-59
20.79
24.0
49.24
18.77
24.1
20.51
32.37
24.9
51-76
38.09
24-9
20.85
32.08
24-9
17-93
20.46
25.0
49.22
18.43
251
20.22
32.16
259
51.89
37.88
25.9
21.05
31.81
25-9
18.28
20.16
26.0
49.20
18.12
26.1
19-95 31.94
26.9
52.02
37.68
26.9
21.25
31-56
26.9
18.62
19.86
27.0
49.19
17.82
27.1
19-71 31-75
27.9
52.13
37-48
27.9
21.42
31-32
27.9
18.90
19.59
28.0
49.18
17.53
28.1
19-45
31-57
28.9
52.23
37-27
28.9
21.57
31.07
28.9 19.10
1933
29.0
49-15
17.26
29.1
19.19
31-41
29.8
52.33
37.04
29.9
21.71
30.81
29.9
19.25
19.04
30.0
49-11
16.98
30.1
18.92
31.25
30.8
52.43
36.79
30.9
21.85
30.54
30.9
19.37
18.75
31.0
49.07
16.68
31-1
18.62
31-09
31.8 52.54
36.54
31-9
22.00
3024
31.9
19.50
18.43
32.0
49.02
16.37
32.1
18.29
30.92
32.8 1 52.66
36.27
32.9
22.17
29.92
32.9
19.69
18.09
33-0
48.97
16.02
33-1
17-94
30.72
7.35 +7.28
16.91 •fi6.88
57.67 +57-66
7-37
+7.31
18.06 +18.03
i6»» 54° 56'.786
i8»» o» 38V79
I9»» 8"> 36».99
20^* 49™
1^.268
23'' 27» 45".399
+82°
II'
c^'.93 1
fse**
36' i
5i".oi 1
-f89«
0' 3
3".82 1
+82 <>
12' 2
2".39
+86°
49' I
9".56
[Eph xa]
276
FEBRUARY, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
€ UrsflB Xlnorls.
Mag. 4.4
S TJnm Xlnoris.
Mag. 4.4
X XSnm Xlnoris.
Mag. 6.6
76 Biaooiiis.
Mag. 5.7
89 H. G^ei.
Mag. 5.6
Mean
Solar
Date.
Feb.
1.8
2.8
3.8
4.8
5.8
6.8
7.8
8.8
9.8
10.8
II.8
12.8
13.8
14.8
15.8
16.8
17.8
18.8
19.8
20.8
21.8
22.8
23.8
Right
Ascen-
non.
h m.
1654
8
52.66
52.79
52.93
5309
53.25
53.40
53.55
5370
53.85
53.97
54.10
54.24
5438
54.52
54.67
54.82
54.99
55.16
55.34
55.52
55.68
55.85
56.00
DecUna
tion
North,
Mean
Solar
Date.
25.8
56.28
26.8
56.42
27.8
56.56
28.8
56.71
29.8
56.86
30.8
57.03
+82 10
36.27
35-99
35.73
35.50
35.30
35.12
34.97
34.83
34.70
34.57
3442
34.27
34.10
33.92
33.75
33.58
33.41
33.27
33.15
33.07
3300
32.95
32.91
32.87
32.81
32.74
32.66
32.57
32.46
32.37
Feb.
1.9
2.9
3-9
4-9
5-9
6.9
7.9
8.9
9.9
10.9
11.9
12.9
13.9
14.9
15.8
16.8
17.8
18.8
19.8
20.8
21.8
22.8
23.8
24.8
25.8
26.8
27.8
28.8
29.8
30.8
Right
Asceiio
sion.
h m
18 O
s
22.17
22.37
22.60
22.87
23.15
23.44
23.72
2398
24.24
24.49
24.73
24.96
25.20
2546
2573
26.01
26.32
26.64
26.99
27.34
27.69
28.03
28.34
28.64
28.91
29.18
29.45
29.73
30.04
30.38
Declina- Mean
tion
North,
+8636
H
29.92
29.59
29.27
28.98
28.71
28.47
28.25
28.04
27.84
27.64
27.44
27.23
27.00
26.76
26.51
26.26
26.01
25.78
25.57
2539
25.23
25.11
24.99
24.87
24.75
24.61
24.46
24.29
24.11
23.93
7-35 +7.28
i6»» 54°" 56'.786
o".93
+82® 11'
16.90 +16.87
18** o™ 38».79
+86* 36' 5x".oi
Solar
Date.
Feb.
1-9
2.9
3-9
4-9
5-9
6.9
7.9
8.9
9.9
10.9
1 1.9
12.9
13.9
14.9
15.9
16.9
17.9
18.9
19.9
20.9
21.9
22.9
23.9
24.9
Right
Ascen-
sion.
I
27.9
28.9
29.9
30.9
h m
19 7
8
19.69
19.99
20.39
20.90
21.49
22.13
22.78
23.42
24.02
24.58
25.10
25.62
26.14
26.69
27.28
2793
28.66
29.46
30.33
31-26
32.22
33.18
34.09
34.91
25.9 I 35.66
26.9 36.36
37.05
37.77
38.57
39.45
Dedina
tion
North.
+89 O
8.09
7-73
7.38
7.03
6.70
6.40
6.12
5.86
5.61
5.36
5-12
4.87
4.60
432
4.02
3.72
3.42
3.12
2.83
2.56
2.33
2.12
1.93
1.74
1.56
1.37
1. 17
0.94
0.69
0.43
57.51 +57.51
19^ 8°* 36*.99
+89
o' 33'
[Eph xs]
Mean
Solar
Date.
Feb.
i.o
2.0
2.9
3.9
4.9
5.9
6.9
7.9
8.9
9.9
10.9
1 1.9
I2t9
13.9
14.9
15.9
16.9
17.9
18.9
19.9
20.9
21.9
22.9
239
24.9
259
26.9
27.9
28.9
29.9
Right
Ascen-
sion.
h m
2048
8
49.02
48.97
48.94
.48.93
48.93
48.95
48.97
49.00
49.03
49.06
49.07
49.09
49.10
49.11
49.12
49.13
49.14
49.18
49.22
49.27
49.33
49.40
49.48
49.55
49.61
49.67
49.71
49.76
49.80
49.85
Decfina- Mean
tion
North.
o /
+82 12
6.37
6.02
5.65
5.27
4.89
4.53
4.18
3.85
3.54
3.24
2.95
2.66
2.36
2.05
1.72
1.37
1.03
0.67
0.31
9.95
9.61
9.29
9.00
8.73
8.46
8.20
7.94
7.67
7.37
7.05
7.37 +7.30
i*.268
20*» 49"
+82® 12'
22".39
Solar
Date.
Feb.
I.
2.
3.
4.
5.
6.
7.
8.
9.
10.
II.
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
24.0
25.0
26.0
27.0
28.0
29.0
30.0
Right
Ascen-
sion.
h m
2327
8
8.29
7.94
7.61
7.29
7.00
6.74
6.51
6.32
6.13
5.95
5.77
5.57
5.37
5.14
4.90
4.66
4.42
4.19
3.99
3.82
3.67
3.56
3.48
3.41
3.33
3.23
3."
2.97
2.81
2.65
Declx-
nation
Norlh.
+8649
30.92
30.72
30.49
30.24
29.96
29.68
29.41
29.14
28.88
28.63
28.40
28.17
2793
27.68
27.43
27.16
26.87
26.57
26.25
25.92
2559
2527
24.96
24.67
24.40
24.15
23.91
23.66
23.38
23.08
18.05 +18.02
23** 27« 45'.399
+86® 49' 19^.56
MARCH, 1912.
277
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
€ XStfut Minorls.
6 Vtnm Mlnorls.
A. Vtsm Mlnoris.
76 Draoonis.
89 H. Cephel.
Mag. 4.4
Mag. 4.4
Mag. 6.6
Mag. 5.7
Mag. 5.6
Mean
Solar
Date.
Richt
Ascen-
sion.
Declina-
tion
North,
Mean
vSolar
Date.
Riffbt
Ascen-
sion.
Declina-
tion
North,
Mean
Solar
Date.
1
Richt
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina.
tion
North..
Mean
Solar
Date.
Riffht
Ascen-
sion.
DecU-
nation
North,
h m
0 /
h m
0 /
h m
0 #
h m
0 /
h m
0 /
Mar.
1654
+82 10
Mar.
18 0
+86 36
Mar.
19 7
+89 0
Mar.
2048
+82 11
Mar.
2327
+8649
1.8
8
57.03
32.37
1.8
8
30.38
23.93
1.9
8
39-45
10.43
1.9
8
49.92
66.72
1.0
s
12.65
23.08
2.8
57-21
32.30
2.8
30.75
23.76
2.9
40.44
10.18
2.9
49.99
66.39
2.0
12.50
22.75
3.8
57.39
32.26
3.8
31.13
23.63
3.8
41.52
9.96
3.9
50.08
66.07
3.0
12.38
22.40
4.8
57-57
32.26
4.8
31.52
2352
4.8
42.66
9.76
4.9
50.18
65.76
4.0
12.30:22.05
1
5.8
57.74
32.27
5.8
31.90
23.45
5.8
43.81
9-59
5.9
50.28
65.49
5.0
12.26
21.71
6.7
57.90
32.31
6.8
32.26
23.41
6.8
44.94
9.44
6.9
50.39
65.24
6.0
12.26 21.38
7.7
58.06
32.34
7.8
32.62
23.38
7.8
46.03
9.32
7.9
50.49
65.00
7.0
12.27 21.06
8.7
58.21
32.39
8.8
32.95
23.34
8.8
47-07
9.20
8.9
50.59
64.78
8.0
12.28
20.75
9.7
58.36
32.42
9.8
33.27
23.29
9.8
48.06
9.07
9-9
50.68
64.56
9.0
12.30
20.46
10.7
58.51
32.45
10.8
33.60
23.24
10.8
49.02
8.95
10.9
50.77
6434
lO.O
12.30
20.17
11.7
58.66
32.47
II. 8
33.92
23.17
11.8
49.97
8.82
11.9
50.85
64.11
II.O
12.28
19.88
12.7
58.80
32.47
12.8
34.25
23.10
12.8
50.93
8.67
12.9
50.93
63.86
12.0
12.26
19.59
13.7
58.96
32.47
13.8
34.58
23.02
13.8
51.93
8.52
13.9
5102
63.60
13.0
12.23
19.30
147
5912
32.48
14.8
34.93
22.94
14.8
52.96
8.36
14.9
51.11
63.34
13.9
12.20
18.99
15.7
59.28
32.49
15.8
3529
22.86
15.8
54.04
8.20
15.9
51.22
63.06
14.9
12.16
18.68
16.7
59-45
32.52
16.8
35.67
22.79
16.8
55-19
8.04
16.9
51.33
62.78
15.9
12.13
18.35
17-7
5963
32-57
17.8
36.07
22.75
17.8
56.42
7.88
17.9
51.45
62.52
16.9
12.12
18.01
18.7
59.80
32.65
18.8
36.48
22.73
18.8
57-69
7.75
18.9
51.58
62.27
17.9
12.13
17.67
19.7
5998
32.76
19.8
36.88
22.73
19.8
58.99
7.65
19.9
51.72
62.05
18.9
12.17
17.31
20.7
60.15
32.88
20.8
37.27
22.76
20.8
60.28
7.58
20.9
51.86
61.84
19.9
12.26
16.96
21.7
60.30
33.02
21.8
37.65
22.81
21.8
61.53
7.54
21.9
5199
61.67
20.9
12.37
16.63
22.7
60.44
33.16
22.8
37.99
22.87
22.8
62.71
7.51
22.9
52.13
61.53
21.9
12.49
16.32
23.7
60.56
33.28
23.7
38.30
22.93
23.8
63.80
7.48
23.9
52.26
61.39
22.9
12.62
16.03
24.7
60.69
33.40
24.7
38.61
22.98
24.8
64.80
7.45
24.9
52.37
61.24
23.9
12.74
15.77
25-7
60.82
33.49
25.7
38.91
23.00
25.8
65.76
7.40
259
52.48
61.08
24.9
12.84
15.51
26.7
60.95
33.58
26.7
39.22
23.01
26.8
66.74
7.33
26.9
52.59
60.91
25.9
12.93
1527
27.7
61.08
33.65
27.7
39.54
23.00
27.8
67.77
7.24
27.9
52.70
60.72
26.9
12.98
1501
28.7
61.23
33.73
28.7
39-88
23.00
28.8
68.87
7.15
28.9
52.82
60.52
27.9
13.02
14-74
29.7
61.38
33.82
29.7
40.25
23.01
29.8
70.08
7.06
29.8
52.94
60.31
28.9
13.08
14.45
30.7
61.54
33.94
30.7
40.63
23.03
30.8
71.36
6.99
30.8
53.07
60.12
29-9
13.15
1413
31.7
61.70
34.10
31.7
41.02
23.09
31.8
72.68
6.94
31.8
53.22
59.94
30.9
13.25
13.79
32.7
61.86
34.29
32.7
41.41
23.18
32.8
74.02
6.91
32.8
53.39
59.79
31.9
13.40
13.46
7.35 +728
16.89 +16.86
57.44 •<■
57.43
7.37 +7.30
18.04 +18.01
+i6»»54« 56».786
18^ 0™ 38".79
ig^ gm .
J6-.99
20*> 49" 1".268
23 h 27m 45..399
+82® 11' o".93
+860 36' 5i".oi
+89<> & 3
3".82
+82° 12' 22".39
+86*»49' 19^.56
[Bph X9
1]
278
APKIL, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
e Urs* Minoiic.
Mag. 4.4
Mean
Right
Solar
Ascen-
Date.
sion.
h m
Apr.
1655
s
1.7
1.86
2.7
2.01
3.7
2.14
4.7
2.27
5.7
2.39
6.7
2.50
7-7
2.61
8.7
2.73
9-7
2.84
10.7
2.96
II. 6
3.09
12.6
3-22
13-6
3.36
14.6
350
15-6
363
16.6
3.75
17.6
3.86
18.6
3.96
19.6
4.05
20.6
4.12
21.6
4.20
22.6
427
23.6
4-35
24.6
4-44
25.6
4.54
26.6
465
27.6
4-75
28.6
4.85
29.6
4.95
30.6
503
31.6
5.10
32.6
5-15
Declina-
tion
North.
+82 10
n
34.29
34-49
34.69
34.90
35."
35.31
35.50
35.67
35.83
36.00
36.17
36.35
36.54
36.74
36.98
37.25
3752
37.80
38.07
38.34
38.59
38.81
39.01
39.22
39.44
39.68
39.94
40.23
40.54
40.86
41.19
41.51
7.35 +7.28
i6»^ 54™ 56".786
+82** 11' o".93
6 Vtsm Xlnozis.
Mag. 4.4
Mean
Solar
Date.
Apr.
I.
2.
3-
4.
5.
6.
7-
8.
9.
10.
II.
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
24.
25-
26.
27.
28.6
29.6
30.6
31.6
32.6
Riffht
Ascen-
sion.
h m
18 O
8
41.41
41.78
42.13
42.46
42.78
43.09
43.39
43.68
43.98
44.30
44.63
44.96
45.31
45.66
46.01
46.35
46.67
46.97
47.23
47.47
47.69
47.91
48.15
48.41
48.70
49.00
49.30
49.60
49.89
50.15
50.39
50.61
Declina<
tion
North,
+8636
M
23.18
23.30
23.42
23-55
23.68
23.81
23.93
24.03
24.12
24.20
24.29
24.39
2450
24.63
24.79
24.96
25.16
25.38
25.61
25.82
26.01
26.18
26.33
26.47
26.62
26.79
26.99
27.22
27.47
27-74
28.01
28.29
16.90 +16.87
iS"* o» 38".79
+86** 36' 5i".oi
A. TSnm Mlnoris.
Mag. 6.6
Mean
Solar
Date.
Apr.
1.8
2.8
3.8
4.8
5.8
6.8
7.8
8.7
9.7
10.7
11.7
12.7
137
14-7
15.7
16.7
17-7
18.7
19.7
20.7
21.7
22.7
23.7
24.7
25.7
26.7
27.7
28.7
29.7
30.7
3x7
32.7
Right
Ascen-
sion.
h m
19 8
8
14.02
15.33
16.60
17.82
18.97
20.07
21.13
22.18
23.24
24.33
25.47
26.65
27.89
29.17
30.48
31.76
33-01
34-19
35-27
36.25
37.16
38.06
38.97
39-95
40.99
42.11
43.28
44-48
45-65
46.79
47.84
48.82
Declina-
tion
North.
+89 O
n
6.91
6.92
6.95
7.00
7.04
7.08
7.12
7.15
7.16
7.16
7.17
7.18
7.20
7.23
7.28
7.37
7.48
7.62
7.77
7.91
8.04
8.14
8.22
8.30
8.37
8.45
8.55
8.67
8.84
9.02
9.22
9.42
57.41 +57.41
ig^ 8°* 36*.99
+89*» o' 33".82
[Eph xa]
76 BnconlB.
Mag. 5.7
Mean
Solar
Date.
Apr.
1.8
2.8
3.8
4.8
5.8
6.8
7.8
8.8
9.8
10.8
11.8
12.8
13.8
14.8
15.8
16.8
17.8
18.8
19.8
20.8
21.8
22.8
23.8
24.8
25.8
26.8
27.8
28.8
29.8
30.8
31.8
32.8
Right
Ascen-
sion.
h m
2048
8
53.39
53.55
53.71
53-85
54-00
54-15
54.29
54-43
54.56
54.69
54.83
54.97
55-12
55-28
55-46
55.64
55.81
55.97
56.13
56.28
56-42
56.55
56.68
56.81
56.96
57-12
57.28
57-46
57.64
57.82
58.00
58.17
Dedina
tion
North,
+82 II
59-79
59.65
59.55
59.47
59-39
59-32
59-24
59.14
59.04
58.93
58.81
58.69
58.57
58.47
58.40
58.35
58.32
58.32
58.34
58.37
58.39
58-39
58.38
58.35
58.31
58.27
58.25
58.25
58.28
58.34
58.42
58.51
7-37 +730
i".268
20 »» 49°*
h-82° la'
22".39
89 H. Ce^^.
Mag. 5.6
Mean
Solar
Date.
Apr.
1-9
2-9
3.9
4.9
5-9
6.9
7.9
8.9
9.9
10.9
II.9
12.9
13.9
14.9
15.9
16.9
17.9
18.9
19.9
20.9
21.9
22.9
23-9
24.9
25.9
26.9
27.9
28.9
29.9
30.9
31.9
32.9
Right
Ascen-
sion.
h m
2327
8
3.58
3.78
4.00
4.21
4.42
4.61
4.79
4.96
5.11
5.26
5.42
5.58
5.78
6.00
6.26
6.54
6.83
7.15
7.45
7.73
7.99
8.22
8.44
8.6s
8.88
9.12
9.42
9.74
20.09
20.46
20.82
21.18
Dccfi-
nation
North.
+8649
»f
13.15
12.85
12.57
12.32
12.07
11.84
11.60
11.36
11.12
10.87
10.61
10.33
10.05
9-77
9-49
9.23
8.99
8.78
8-59
8.44
8.28
8.12
7-94
7.74
7-53
730
7.07
6.86
6.66
6.48
6.33
6.19
18.02 +18.00
23'' 27°* 45*.399
k-86° 49' I9".56
MAY, 1912
279
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
€ Vnm Minoris.
<^ JStwt Minorls.
A. VtEm Mlnorls.
76 Draoonls.
89 H. Cepbei.
Mag. 4.4
Mag. 4.4
Mag. 6.6
Mag. 5.7
Mag. 5.6
Mean
Solar
Bate.
Riffht
Ascen-
sion.
DecHna-
tion
North.
Mean
Solar
Date.
Riffht
Ascen-
sion.
DecUna-
tion
North,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
•
Mean
Solar
Date.
Right
Ascen-
sion.
DecU-
nation
North.
h m
0 1
h m
0 r
h m
0 f
h m
e /
h m
0 f
May
1655
+82 10
May
X8 0
+8636
May
19 8
+89 0
May
2048
+82 II
May
2327
+8649
1.6
s
5.10
41.19
1.6
s
50.39
28.01
1-7
s
47.84
9.22
1.8
8
58.00
58.42
1.9
8
20.82
6.33
2.6
515
41.51
2.6
50.61
28.29
2.7
48.82
9.42
2.8
58.17
58.51
2.9
21.18
6.19
3.6
5-21
41.82
3.6
50.81
28.55
3.7
49.73
9.63
3.8
58.32
58.60
3.9
21.52
6.07
4.6
5.26
42.11
4.6
50.99
28.81
4.7
50.59
9.83
4.7
58.47
58.69
4.9
21.84
596
5.6
5.30
42.39
5.6
51.17
29.04
5.7
51.43
10.01
5.7
58.61
58.77
5-9
22.14
5.85
6.6
5-35
4265
6.6
51.35
29.27
6.7
52.25
10.19
6.7
58.75
58.84
6.9
22.44
5.73
7.6
5.41
42.90
7.6
51.55
29.49
7.7
53.09
10.36
7.7
58.89
58.91
7.8
22.73
5.60
8.6
5.48
43.16
8.6
51.75
29.71
8.7
53.95
10.51
8.7
5902
58.96
8.8
23.01
5.48
9.6
5.54
43.43
9.6
51.96
29.92
9.7
54.85
10.65
9.7
59.16
59.01
9.8
23.30
5.33
I0.6
5.61
43.70
10.6
52.18
30.14
10.7
55.80
10.82
10.7
59.31
59.06
10.8
23.61
5.19
1 1.6
5.68
43.99
11.6
52.41
30.38
11.7
56.78
10.99
II.7
59.47
59.12
11.8
23.95
5.04
X2.6
5.74
44.31
12.6
52.64
30.65
12.7
57.77
II. 18
12.7
59.63
59.21
12.8
24.30
4.90
13-6
5.79
44.64
13.6
52.85
30.95
13.7
58.77
11.39
13.7
59.80
59.32
13-8
24.69
4.76
14.6
5.84
45.00
14.6
53.05
31.25
14.7
59.73
11.64
14.7
59.97
59.44
14.8
25.10
4.66
15.6
5.87
45.36
15.6
53.22
31.58
15.6
60.63
XI.91
15.7
60.14
59.60
15.8
25.52
4.58
16.6
5.88
45.71
16.6
53.35
31.91
16.6
61.41
12.17
16.7
60.30
59.79
16.8
2594
4.52
17.6
589
46.05
17.6
53.46
32.23
17.6
62.08
12.46
17.7
60.45
59.99
17.8
26.33
4.50
18.5
5.90
46.36
18.6
53.55
32.53
18.6
62.66
12.72
18.7
60.59
60.17
18.8
26.69
4.48
19.5
590
46.66
19.6
53.63
32.81
19.6
63.20
12.97
19.7
60.71
60.35
19.8
27.03
4.47
20.5
5-91
46.93
20.6
53-71
33.06
20.6
63.74
13.19
20.7
60.82
60.50
20.8
27.34
4-44
21.5
5.92
47.19
21.6
53.80
3330
21.6
64.31
13.40
21.7
60.94
60.63
21.8
27.65
4-40
22.5
5-94
47-45
22.6
53-92
33.54
22.6
64.93
13.60
22.7
61.07
60.76
22.8
27.96
4-33
23.5
5.98
47.73
23.6
54.06
33.80
23.6
65.64
13.80
23.7
61.20
60.88
23.8
28.28
4.26
24.5
6.01
48.04
24.6
54.21
34.08
24.6
66.40
14.02
24.7
61.34
61.02
24.8
28.63
4.19
25.5
6.03
48.36
25.6
5436
34.37
25.6
67.20
14.26
25.7
61.50
61.17
25.8
29.02
4.12
26.5
6.05
48.71
26.6
54.50
34.69
26.6
67.98
14.52
26.7
61.65
61.35
26.8
29.44
4.06
275
6.07
49.07
27.6
54.62
35.03
27.6
68.70
14.81
27.7
61.80
61.55
27.8
29.87
4.03
28.5
6.07
49.43
28.6
54.71
35.38
28.6
69.35
15.12
28.7
61.95
61.78
28.8
30.30
4.01
29.5
6.06
49.79
29.6
54.77
35.73
29.6
69.94
15-44
29.7
62.09
62.02
29.8
30.73
4.03
30.5
6.03
50.14
30.6 54.82
36.07
30.6
70.43
15.76
30.7
62.23
62.26
30.8
31.14
4.06
31.5
6.00
50.46
31.6 54.85
36.40
31.6
70.85
16.07
31.7
62.35
62.51
31.8
31.53
4.10
32.5
5.98
50.77
32.6 54.87
36.71
32.6
71.23
16.36
32.7
62.47
62.74
32.8
31.90
4.14
1
'.35 +7.28
16.90 4
.16.88
57.49 +57-48
7.37
+7.30
18.02 +17.99
i6»»
54° 56'.786
,gh Qin .
38-. 79
19'^ 8™ 36*.99
20 •» 49™
i".268
23** 27'° 45''.399
+82 «
11'
o".93
+86 *>
36' 5
i".ox
+89°
0' 3
3".82 1
+82 *»
12' 2
2".39
+86^
49' I
9".56
[Eph 22]
280
JUNE, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
€ TStBm XlnoEls.
<^ TStnm Xlnoris.
A. JStnm Xittoris.
76 Dra^onis.
89 H. Cephel.
Mag. 4.4
Mag. 4.4
Mag. 6.6
Mag. 5.7
Mag. 5.6
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Sdar
Date.
Right
Ascen-
sion.
Declina-
tion
North,
Mean
Solar
Date.
Right
Ascen-
sion.
DecUna-
tion
North,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina.
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
DecU.
natioa
North,
h m
0 /
h m
0 /
h m
e /
h m
e *
b m
0 r
June
X655
+82 10
$0
June
z8 0
+8636
June
19 9
+89 0
••
June
2049
+82 12
June
2327
+8649
1.5
8
5.98
50.77
1.6
8
54.87
36.71
1.6
s
11.23
16.36
1-7
8
2.47
2.74
1.8
8
31.90
4.14
2.5
596
5106
2.6
54.89
37-01
2.6
11.60
16.65
2.7
2.58
2.97
2.8
32.25- 4.19
3-5
5-93
51-34
3.5
54.91
37.29
3-6
11.96
16.92
3.7
2.68
3.19
3.8
32.59 4.22
4-5
5.91
51.61
4.5
54-94
37.57
4.6
12.32
17.17
4.7
2.78
3.38
4.8
32.93
4.25
5.5
5.90
51-89
5.5
54-98
37.84
5.6
12.72
17.42
5-7
2.89
3.57
5.8
33.26
4-27
6.5
5.89
52.18
6.5
5503
38.12
6.6
13.17
1765
6.7
3.01
3.77
6.8
33.59
4.28
7-5
5.88
52.49
7-5
55.09
38.41
7.6
13.65
17.91
7-7
3.13
3-97
7.8
33.95
4.29
8.5
5.87
52.81
8.5
55-15
38.71
8.6
14.15
18.18
8.7
3-26
4.19
8.8
34.33
4.30
9.5
5.85
53.14
9.5
55.20
3904
9.6
14.66
18.48
9.6
3-38
4.42
98
34.75
4.32
10.5
582
53.49
10.5
55-23
39-39
10.6
15.14
18.80
10.6
3.52
4.67
10.8
35.17
4-37
"5
5.78
53.84
1 1-5
55.25
39.75
1 1.6
15.54
19.15
11.6
3.65
4.96
11.8
35.61
4.43
12.5
5.73
54-19
12.5
55-22
40.12
12.6
15.84
19.51
12.6
3.77
5.28
12.8
36.05
4.53
13.5
.S.67
54.52
13.5
55-17
40.49
13.6
16.02
19.87
13.6
3.88
5,60
13.7
36.47
4-65
X4-5
5.59
54.84
14.5
5509
40.85
14.6
16.11
20.22
14.6
3.96
5-92
14.7
36.87
4.79
15-5
5.52
55-13
15.5
54.99
41.17
15.6
16.12
20.56
15-6
4-05
6.23
15.7
37.22
4.93
16.5
5.45
55.40
16.5
54.89
41-47
16.6
16.09
20.87
16.6
4-12
6.53
16.7
37.55
508
17.5
5.39
55.65
17.5
54-80
41-74
17.6
16.10
21.15
17.6
4.18
6.80
17.7
37.86
5-21
18.5
5-33
55.90
18.5
54.73
42.01
18.6
16.15
21.42
18.6
4-25
7.05
18.7
38.17
5-32
19.5
5-28
56.16
19.5
54.69
42.27
19.6
16.27
21.69
19.6
4-33
7.29
19.7
38.48
5.41
20.5
5.24
56.43
20.5
54.66
42.56
20.6
16.46
21.96
20.6
4.42
7-53
20.7
38.82
5.50
21.5
5»9
56.72
21.5
54.64
42.87
21.5
16.69
22.25
21.6
4.52
7.80
21.7
39.19
5.5?
22.5
5.14
57.03
22.5
54.61
43-21
22.5
16.93
22.56
22.6
4.62
8.08
22.7
39.59
5.67
23.4
5.08
57.36
23.5
54.56
43-55
23.5
17.12
22.90
23.6
4.73
8.39
23.7 \ 40.00
5-78
24.4
5.01
57.69
24.5
54.49
43.91
24.5
17.26
23.26
24.6
4.83
8.73
24.7
40.41
5.91
254
4-93
58.02
25.5
54.38
44.26
25.5
17.31
23.62
25.6
4.92
9.08
25.7
40.83
6.07
26.4
4.83
58.33
26.5
54.26
44.62
26.5
17.28
23.99
26.6
5.01
9.42
26.7
4123
6.26
27.4
4-73
58.62
27.5
54.12
44.96
27-5
17.15
24.36
27.6
5.08
9.77
27.7
41.60
6.46
28.4
4.64
58.90
28.5
53.97
45-28
28.5
16.97
24.70
28.6
5.14
10.12
28.7
41.95
6.66
29.4
4.53
59-15
29.5
53.81
45.58
29.5
16.76
25.04
29.6
519
10.45
29.7
42.27
6.85
30.4
4-44
59-39
30.5
53.66
45.87
30.5
16.55
25.35
30.6
5.23
10.77
30.7
42.58
7.04
31.4
4.35
59.62
31-5
53.51
46.13
31.5
16.33
25.65
31.6
5.28
11.08
31.7
42.89
7.22
7.35 +7.28
16.92 +16.89
57.62
+57.62
7.37
+7.30
18.02 +17.99
i6»» 54» 56V 786
iS'* o» 38V79
I9»» 8"
36^.99
20^ 49"
I '.268
23** 27» 45*399
+82 «
11'
o".93 1
•f86
»36'
5i''.oi
+89
° 0'
33".82
+82°
12' a
2".39
+86*»
49' 1
9".56
[Bph n]
JULY, 1912.
281
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
Vnm Xinorls.
Mag. 4.4
Mean
Solar
Date.
Right
Ascen-
sion.
(
July
1.4
2.4
3.4
4-4
5-4
6.4
7-4
8.4
9-4
10.4
11.4
12.4
13.4
14.4
15-4
16.4
17.4
18.4
19.4
20.4
21.4
22.4
234
24.4
25.4
26.4
27.4
28.4
29.4
303
31.3
32.3
h m
X655
8
4-35
4-27
4.19
4. 1 1
4.03
3.95
3-87
376
365
352
3.38
324
309
2.96
2.84
2.73
2.61
2.50
2.39
2.28
2x5
2.01
1.86
1.71
1-55
1.39
1.25
1.09
0-95
0.81
0.68
0-55
Dedina
tion
North.
e /
+82 10
w
59.62
59.84
60.07
60.30
60.54
60.81
61.10
61.39
^1.68
61.96
62.21
62.44
62.63
62.81
62.97
63.14
6333
63.53
63.76
64.00
64.24
64.48
64.70
64.90
65.08
6523
65.37
65.51
65.64
65.75
65.88
66.02
JSnm Xtnorls.
Mag. 4.4
Mean
Solar
Date.
July
1-5
2.5
3.5
4.5
5-5
6.5
7.5
8.5
9-5
10.4
1 1.4
12.4
13.4
14.4
15.4
16.4
17.4
18.4
19.4
20.4
21.4
22.4
23.4
24.4
25.4
26.4
27.4
28.4
29.4
30.4
31.4
32.4
Right
Ascen-
sion.
h m
18 O
8
53.51
53.38
53.25
53.14
53.02
52.91
52.78
52.62
52.44
52.23
51.99
51.74
51.47
5X.2I
50.97
50.76
50.56
50.37
50.17
49.97
49.75
49.50
49.22
48.93
48.62
48.31
48.00
47.70
47.41
47.12
46.84
46.59
Declina
tion
North,
+8636
M
46.13
46.39
46.65
46.93
47.21
47.51
47.84
48.18
48.52
48.85
49.17
49.48
49-75
49.99
50.23
50.45
50.67
50.91
51.19
51.48
51.79
52.11
52.41
52.68
52.95
53.19
53-41
53.62
53.82
54.02
54.22
54.43
A. UrssB Kinorls.
Mag. 6.6
Mean
Solar
Date.
July
1.5
2.5
3.5
4.5
5.5
6.5
7.5
8.5
9.5
10.5
"5
12.5
13.5
14.5
15.5
16.5
17.5
18.5
19.5
20.5
21.5
22.5
23.5
24.5
25.5
26.5
27.4
28.4
29.4
30.4
31-4
32.4
Right
Ascen-
sion.
h m
19 9
8
6.33
6.14
5.98
5.87
5.79
5.72
5.64
5-49
5.25
4.92
4.46
3.92
3.31
2.72
2.16
1.66
1.23
0.87
0.52
0.16
9.74
9.24
8.67
8.00
7.27
6.51
5.74
4-97
4.21
3.49
2.81
2.18
DecUna* Mean
76 DiaoonlB.
Mag. 5.7
tion
North,
+89 O
25.65
25.93
26.21
26.50
26.80
27.10
27.44
27.79
28.16
28.54
28.91
29.26
29.61
29.90
30.19
30.47
30.73
3 1 '02
31.32
31.65
32.00
32.36
32.72
33.06
33-40
33-74
34.03
3432
34.59
34.84
35- 10
3536
Solar
Date.
July
1.6
2.6
3.6
4.6
5.6
6.6
7.6
8.6
9.6
10.6
II. 6
12.6
13.6
14.6
15.6
16.5
17.5
18.5
19.5
20.5
21.5
22.5
23.5
24.5
25.5
26.5
27.5
28.5
29.5
30.5
31-5
32.5
Right
Ascen-
sion.
h m
2049
s
5.28
5.32
5.38
5-43
5.49
556
5.63
5.70
5.76
5.81
5.84
5.87
5.87
5.87
5.88
5.88
5.90
5-93
5-97
6.00
6.03
6.06
6.07
6.07
6.06
6.05
6.03
6.01
5-99
5-97
5-95
5-94
H. Cephei.
Mag. 5.6
Declina
tion
North.
+82 12
1.08
1-37
1.66
1.94
2.24
2.55
2.88
3.24
3.61
4.00
4.41
4.80
5.X8
5-53
5.85
6.16
6.47
6.79
7.13
7.48
7.85
8.25
8.65
9.05
9.44
9.82
20.18
20.53
20.86
21.18
21.50
21.83
Mean
Solar
Date.
Right
Ascen-
sion.
July
h m
2327
1-7
8
42.89
2.7
43-18
3.7
43.47
4.7
43.78
5.7
44.11
6.7
44.46
7.7
44.82
8.7
45.20
9-7
45.58
10.7
45-95
11.7
46.28
12.7
46.60
13.7
46.87
14.7
47.12
15.7
47-35
16.7
47.59
17.7
47.85
18.7
48.13
19.7
48.43
20.6
48.76
21.6
49.09
22.6
49.41
23.6
49.73
24.6
50.01
25.6
50.28
26.6
50.53
27.6
50.74
28.6
50.94
29.6
51. H
30.6
51.33
31.6
51.54
32.6
51.75
DecU-
nation
North,
-f8649
M
7.22
7.40
7.56
7.72
7.87
8.03
8.23
8.43
8.65
8.90
9.18
9.46
9.76
10.02
10.28
10.52
10.74
10.96
II. 18
11.42
11.68
11.97
12.27
12.58
12.90
13.22
13.54
13.85
14.15
14.43
14.71
14.98
7.35
x6* 54"
+82** 11'
+7.29
56-.786
o".93
16.93 +16.90
18*" o» 38».79
+86<» 36' 5i".oi
57-79 +57.79
19^ 8™ 36". 99
+89° o' 33".82
[Eph xa]
7-37 +730
2o'»49» I ".268
+82** 12' 22".39
18.02 +18.00
23** 27*
45"- 399
+86° 49' I9".56
282
AUGUST, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
€ Ursse KinoriB.
S UrsK Xinorls.
A. Ursse Xinorls.
76 Biaconis.
89 H. Cephel.
Mag. 4.4
Mag. 4.4
Mag. 6.6
Mag. 5.7
Mag. 5.6
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
DecU-
nation
North,
h m
0 /
h m
0 /
h m
0 /
h m
0 /
h m
0 f
Aug.
1654
•f82 II
Aug.
18 0
+8636
It
Aug.
19 8
-f89 0
Aug.
2049
+82 12
II
Aug.
2327
+8649
1.3
8
60.55
6.02
1.4
8
46.59
54.43
1-4
s
62.18
35.36
X.5
8
5.94
21.83
1.6
8
5X.75
14.98
2-3
60.42
6.18
2.4
46.34
54.66
2.4
61.56
35-63
2.5
5-93
22.16
2.6
5X.97
X5.24
3-3
60.29
6.34
3.4
46.08
54.90
3-4
60.93
35-92
3.5
5-94
22.50
3.6
52.23
X5.53
4-3
60.14
6.53
4.4
45.80
55.15
4.4
60.28
36.23
4.5
5.94
22.87
4.6
52.50
15.82
5.3
59.98
6.71
5.4
45-49
55-42
5.4
59.56
36.57
5-5
5-93
23 27
5.6
52.77; 16.15
6.3
59.80
6.88
6.4
45.15
55.68
6.4
58.74
36.90
6.5
5-9X
23.68
6.6
53.02 16.51
7.3
59.62
7.04
7.4
44.79
55.93
7.4
57.80
37.23
7.5
5.88
24-09
7.6
5326
16.88
8.3
59.44
7.15
8.4
44.40
56.16
8.4
56.76
37.55
8.5
583
24.50
8.6
53.47
17.26
9-3
59.25
7.25
9.4
44.00
56.36
9.4
55.65
37.85
9-5
5.77
24.89
9.6
53.64
17.64
10.3
5907
7.32
10.4
43.60
56.53
10.4
54-53
38.11
10.5
570
25-25
10.6
53.77
X8.03
"•3
58.91
7-37
II.4
43.22
56.67
H.4
53.44
38.35
XX.5
5.63
25.59
IX.6
53.89
X8.38
12.3
58.74
7.42
12.4
42.86
56.81
12.4
52.40
38.57
X2.5
5-56
25.9X
12.6
53.99
18.72
13-3
58.59
7.46
13.4
42.54
56.96
13.4
51.43
38.79
X3.5
5.5 X
26.23
13.6
54- XX
X9.05
14.3
58.44
7.53
14.4
42.22
57-11
14.4
50.52
39.02
X4.5
5.46
26.53
14.6
5425
X9.36
15.3
58.29
7.62
ISA
41.91
57.28
15.4
49.66
39.26
15.5
5.42
26.86
156
54-41
19.67
16.3
58.13
7-73
16.3
41.58
57.47
16.4
48.81
39.52
16.5
5.39
27.20
16.6
54-59
19.98
173
57.97
785
17.3
41.24
57.68
17.4
47.90
39.80
X7.5
5.36
27.58
17.6
54-80
20.32
18.3
57.80
7.97
18.3
40.89
57.89
18.4
46.95
40.09
18.5
5.31
27.96
18.6
55-00
20.69
19-3
57.6X
8.09
19.3
40.51
58.10
19.4
45.92
40.39
X9-5
5.27
28.35
19.6
55x9
21.06
20.3
57-43
8.18
10.3
40.11
58.30
20.4
44.80
40.68
20.5
5.20
28.74
20.6
55-35
2X.45
21.3
57.24
8.23
21.3
39.69
58.47
21.4
43.61
40.95
21-5
5x2
29.x 3
21.6
55-50
2X.86
22.3
57.05
8.27
22.3
39-27
58.62
22.4
42.38
41.21
22.4
504
29.49
22.6
55-6X
22.26
23.3
56.86
8.30
23.3
38.85
58.75
23.4
41.14
4x45
23-4
4.95
29.84
23.6
55.71
22.65
24.3
56.68
8.30
24.3
38.44
58.87
24.4
39.90
41.66
24.4
4.86
30.17
24.6
55.77
23.04
25.3
56.51
8.29
25-3
38.04
58.97
25.4 1 38.68
41.86
25.4
4.76
30.48
25-5
55.83
2340
26.3
56.34
8.28
26.3
37.65
59-05
26.4
37.49
42.06
26.4
4.67
30.78
26.5
55.88
23.76
27.3
56.17
8.28
273
37.26
59-15
27.4
36.36
42.24
27.4
4.59
3x08
275
55.93
24.10
28.3
56.01
8.27
28.3
36.90
59-24
28.4
3526
42.42
28.4
4.5 X
3X.37
28.5
55.98
24.44
29.3
55.85
8.29
29.3
36.56
59-34
29.4
34.20
42.62
29.4
4-43
31.66
29.5
56.07
24-77
30.3
55.69
8.32
30.3
36.20
59-47
30.4
3315
42.82
30.4
436
3X.97
30.5
56.16
25. IX
31.3
55.53
8.36
31.3
35.83
59.60
31-4
32.08
43.03
3x4
4.29
32.3X
3X.5
56.27
2546
32.3
55-35
8.42
32.3
35.44
59-74
32.4
30.97
43.27
32.4
*
4.22
32.66
32.5
56.40 1 25.83
7.35
+7.29
16.94 •fi6.9i
57-94 +57-93
r.38
+7.31
18.04 -*-x8.oi
16^ 54" ,
56-.786
i8*> o» 38".79
19«» 8" 36V99
20*'
49« I '.268
23 ** 27" 45*399
■1-82 »
XI'
o".93
■f86^
'36'
5x".oi 1
+89'
' &
33".82
+82°
12' 2
82".39
+86®
49' X
9".56
[Bph xa]
SEPTEMBER, 1912.
283
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
f Ursse XlnoiiB.
6 Vnm Xlnorls.
A. UrsK XinorlB.
76 Sraoonis.
89 H. Cephel.
Mag. 4.4
Mag. 4.4
Mag. 6.6
Mag. 5.7
Mag. 5.6
Mean' Ricrht
Declina-
tion
North,
Mean
Solar
Date.
Rieht
Ascen-
sion.
DecHna.
tion
North.
Mean
Solar
Date.
Rieht
Ascen-
sion.
Dedina.
tion
North,
Mean
Solar
Date.
Rieht
Ascen-
sion.
Dedina.
Mean
Solar
Date.
Sight
Ascen-
sion.
Decli-
Solar
Date.
Ascen-
sion.
tion
North,
nation
North,
h m
0 /
h m
0 /
h m
0 /
h m
0 r
h m
e 1
Sept
1654
+83 II
Sept.
18 0
+8636
Sept.
19 7
+89 0
It
Sept.
2049
+82 12
Sept.
2327
+8649
1-3
8
55-35
S.42
1-3
8
35.44
59-74
1.4
8
90.97
43.27
1.4
8
4.22
32.66
1.5
8
56.40
25.83
2.3
5516
8.46
2.3
3503
5989
2.3
8977
43.52
2.4
4.14
33.02
2.5
56.52
26.22
3-3
5496
8.49
3-3
34.60
60.03
3-3
88.47
43.77
3-4
4.04
33.39
3.5
56.62
26.64
4.3
54.76
8.49
4.3
34.14
60.15
4.3
87.08
44.00
4.4
3.94
33.77
4.5
56.68
27.07
5-2
54-55
8.45
5-3
33.66
60.25
5.3
85.61
44.22
5.4
3.82
34.13
5.5
56.72
27.51
6.3
54.35
8.40
6.3
33.18
60.31
6.3
84.11
44.40
6.4
3.69
34.45
6.5
56.73
2793
7.2
54.16
8.32
7.3
32.72
60.35
7-3
82.62
44.56
7.4
3.56
34.75
7.5
56.70
28,36
8.2
53.99
8.24
8.3
32.28
60.37
8.3
81.17
44.70
8.4
3.42
35.03
8.5
56.65
28.76
9-2
53.82
8.15
9.3
31.86
60.39
9.3
79.80
44.81
9.4
3.30
35.30
9.5
56.62
29.13
10.2
53.66
8.07
10.3
31.46
60.41
X0.3
78.50
44.94
10.4
3.19
35.55
10.5
56.59
29.49
II. 2
53.50
8.02
11.3
31.08
60.45
11.3
77.28
45.07
1 1.4
3.08
35.81
"5
56.59
29.84
12.2
53.33
7.98
12.3
30.69
60.50
12.3
76.07
45.22
12.4
2.98
36.10
X2.5
56.62
30.19
132
53.16
7.96
133
30.30
60.58
13.3
74.85
45-39
134
2.88
36.39
13.5
56.66
30.56
14.2
52.97
7.95
14.3
29.88
60.67
14.3
73.56
45.58
14.4
2.78
36.71
14.5
56.71
30.94
15.2
52.78
7.92
15.3
29.45
60.76
15.3
72.22
45-77
15.4
2.68
37.03
15.5
56.75
31.35
16.2
52.59
7.89
16.3
29.01
60.83
16.3
70.80
45.96
16.4
2.56
37.35
16.5
56.77
31.76
17.2
52.39
7.82
17.3
28.54
60.87
17.3
69.33
46.14
17.4
2.43
37.68
17.5
56.76
32.19
18.2
52.19
7.73
18.3
28.07
60.91
18.3
67.80
46.30
18.4
2.28
37.99
18.5
56.73
32.61
19.2
52.00
7.62
193
27.60
60.92
19.3
66.25
46.43
19.4
2.14
38.26
19.5
56.68
33.03
20.2
51.81
7.49
20.3
27.14
60.90
20.3
64.70
46.55
20.4
1.99
38.52
20.5
56.58
33.44
21.2
51.63
7.35
21.2
26.69
60.88
21.3
63.18
46.65
21.4
1.85
38.77
21.5
56.48
33.83
22.2
51.46
7.20
22.2
•
26.25
60.85
22.3
61.70
46.72
22.4
1.70
39.01
22.5
56.37
34.21
23.2
51.30
7.06
23.2
25.84
60.81
233
60.26
46.79
23.4
1.56
39.23
23.5
56.27
34.57
24.2
51.14
6.92
24.2
25.43
60.76
24-3
58.87
46.86
24.4
1.42
39.44
24.5
56.17
3492
25.2
50.98
6.79
25.2
25.04
60.73
253
57-54
46.93
25.4
1.29
39.65
25.5
56.10
35.25
26.2
50.83
6.69
1
26.2
24.66
60.72
26.3
56.24
47.00
26.4
1. 17
39.88
26.5
56.03
35.60
27.2
50.67
6.59
27.2
24.27
60.72
27.3
54.93
47.10
27.3
1.05
40.12
27.5
55.98
35-95
28.2
50.51
6.51
28.2
23.86
60.72
28.3
53.61
47.22
28.3
0.94
40.38
28.5
55.95
36.32
29.2
50.33
6.42
29.2
23.43
60.74
29.3
52.23
47.35
29.3
0.80
40.64
29.5
55.90
36.71
302
50.15
6.32
30.2
22.99
60.76
30.3
50.75
47.48
30.3
0.66
40.92
30.5
55.85
37.11
312
49.96
6.19
31.2
32.52
60.74
31.3
49.17
47.61
31.3
0.51
41.19
31.4
55.78
37.53
32.2
49.76
6.03
32.2
22.03
60.72
32.3
47.53
47.71
32.3
0.34
41.45
32.4
55.67
37.96
7-35
+7.29
16.95 +16.92
58.03 +58.02
7.38 +7.31
18.06 +18.03
i^^ 54" i
;6-.786
i8*» 6*» 38»,79
19** 8"* 36».99
20*» 49^ 1^.368
23*" 27» 45".399
+82 *»
II'
o".93
+86 *>
36' 5
I ".01 1
+89°
0' 3
3".82 1
+82°
12' 2
2".39 1
+86 «
49' I<
9".56
[Eph 12]
284
OCTOBER, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
€ JStSBb XinoriB.
^ TSTBBb Xtnoris.
A. TJtnm Xinoris.
76 ]>raooiiis.
89 H. Cephel.
Mag. 4.4
Mag. 4.4
Mag. 6.6
Mag. 5.7
Mag. 5.6
Mean
Solar
Bate.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Decfina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
DecH-
nation
North.
h m
0 /
h m
0 /
h m
0 /
h m
0 /
h m
0 0
Oct.
1654
+8210
Oct.
18 0
+8636
n
Oct.
19 7
+89 0
f0
Oct.
2048
+82 12
0P
Oct.
2327
+8649
1.2
8
49.96
66.19
1.2
s
22.52
60.74
1.3
8
49.17
47.61
1.3
8
60.51
41.19
1.4
8
55.78
37.53
2 2
49.76
66.03
2.2
22.03
60.72
2.3
47.53
47.71
2.3
60.34
41.45
2.4
5567
3796
3.2
49.56
65.85
3-2
21.54
60.66
3.3
45.84
47.79
3.3
60.17
41.70
3.4
55-53
38.39
4-2
49.38
65.63
4.2
21.06
60.56
4.3
44.16
47.83
4.3
59.99
41.92
4.4
55.34
38.80
5-2
49.21
65-41
5-2
20.60
60.45
5.3
42.52
47.86
5-3
59.82
42.11
5.4
55.15
39.18
6.2
49.05
65.19
6.2
20.17
60.33
6.3
40.95
47.85
6.3
59.64
42.28
6.4
54.94
39.54
7-2
48.89
64.98
7.2
19.77
60.22
7.3
39.47
47.84
7.3
59.48
42.43
7-4
54.76
39.88
8.2
48.74
64.78
8.2
19.37
60.11
8.2
38.07
47.84
8.3
59.33
42.59
8.4
54.59
40.21
9.2
48.60
64.60
9.2
18.98
60.03
9.2
36.71
47.85
9.3
59.19
42.75
9.4
54.46
40.54
10.2
48.47
64-45
10.2
18.59
59.96
10.2
35.35
47.88
10.3
59.05
42.94
10.4
54.34
40.88
II. I
48.31
64-30
II. 2
18.21
59.91
II. 2
33-97
47.95
"3
58.91
43.14
11.4
54.22
41.23
12. 1
48.15
64.14
12.2
17.79
59.87
12.2
32.52
48.01
12.3
58.76
43.34
12.4
54."
41.60
131
47-97
63-98
13-2
17.35
59.82
13.2
31.00
48.06
13.3
58.60
43.56
13.4
53.99
41.98
14. 1
47-79
63-79
14.2
16.89
59.74
14.2
29.44
48.12
14.3
58.44
43.77
14.4
53.84
42.37
I5.I
47-63
6358
15.2
16.43
59.64
15.2
27.81
48.16
15.3
58.27
4396
15-4
53.65
42.76
16. 1
47.45
63.35
16.2
15.98
59.54
16.2
26.17
48.16
16.3
58.08
44.15
16.4
53.45
43.14
I7.I
47-30
63.09
17.2
15.54
59.39
17.2
24.53
48.16
17-3
57.90
44.30
17-4
53.24
43.51
18.I
47.15
62.83
18.2
I5-"
59.23
18.2
22.93
48.13
18.3
57.72
44.44
18.4
52.98
43.86
I9.I
47.00
62.56
19.2
14.70
59.06
19.2
21.38
48.09
19.3
57.53
44.56
19.4
52.72
44.20
20.1
46.87
.62.29
20.2
14.31
58.89
20.2
19.87
48.03
20.3
57.36
44.66
20.4
52.46
44.52
21. 1
46.75
62.03
21.2
13.92
58.71
21.2
18.41
47.96
21.3
57.19
44.75
21.4
52.20
44.82
22.1
46.63
61.76
22.2
13.55
58.55
22.2
17.02
47.89
22.3
57-03
44.84
22.4
51.96
45.x I
23- 1
46.51
61.52
23.2
13.20
58.39
23.2
15.68
47.82
233
56.86
44.92
234
51.74
45.40
24.1
46.38
61.30
24.2
12.85
58.26
24.2
14.37
47.79
243
56.71
45.03
24.4
51 54
4569
25.1
46.25
61.09
25.2
12.49
58.13
25.2
13.04
47.76
25.3
56.56
45.15
254
51.34
46.00
26.1
46.12
60.88
26.2
12.12
58.01
26.2
11.67
47.74
26.3
56.40
4527
26.4
51.16
46.32
27.1
45.97
60.65
27.2
11.73
57.89
27.2
10.23
47-73
27.3
56.25
45.42
27.4
50.97
46.66
28.1
45-82
60.41
28.1
11.31
57.77
28.2
8.70
47.72
28.3
56.07
45.57
28.4
50.76
47.01
29.1
45.67
60.16
29.1
10.87
57.62
29.2
7.12
47.69
29.3
55.88
45.70
29.4
50.52
47.37
30.1
45-51
59.87
30.1
10.44
57.44
30.2
5.46
47.64
30.3
55.68
45.83
30.4
50.24
47.73
31. 1
45.36
59.55
31. 1
10.01
57.23
31.2
3.81
47.55
31-3
55.49
45. 91
31.4
49.93
48.08
32.1
45-23
59.21
32.1
9.60
56.98
32.2
2.20
47.43
32.3
55.28
45.98
3^.4
49.60
48.40
7-35 +7.28
16.94 +16.91
58.07 +58.06
7-38 +7-31
18.08 +18.05
16^ 54" 56'.786
i8*> o» 38».79
19I1 8" 36*.99 1 20^ 49"» i".268
23** 27» 45*.399
+82*»
11'
o".93
+86«
36' t
5i".oi
+89*=
'0' :
53".82
|+82«
12' 7
!2".39
+86<
>49' I
9".56
[Eph 18]
NOVEMBER, 1912.
285
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
€ TJnm Kinorls.
<^ Unse Klnoris. |
A. JJtsm Klnoris.
76 BiaoonU.
89 H. Cephei.
Mag. 4.4
Mag. 4.4
Mag. 6.6
Mag. 5.7
Mag. 5.6
Mean Right
Solar Ascen-
Date. sion.
DecUna-
tion
North,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Decli
nation
North.
h m
e f
h m
e /
h m
0 r
h m
e /
h m
0 '
Nov.
1654
+82 10
ft
Nov.
18 0
+8636
Nov.
19 6
+89 0
tf
Nov.
2048
+82 12
fff
Nov.
2327
+8649
9$
I.I
8
4523
59-21
I.I
8
9.60
56.98
1.2
8
62.20
47-43
1-3
8
55.28
45.98
1-4
s
49.60
48.40
2.1
45"
58.86
2.1
9.22
56.73
2.2
60.67
4729
2.3
55.09
46.01
2.4
49.27
48.70
31
4501
58.53
3-1
8.88
56.48
3.2
59-23
47.16
3.2
54.91
46.03
3.4
48.93
48.97
41
4491
58.22
4.1
8.56
56.24
4.2
57-89
47.01
4.2
54.74
46.04
4.4
48.61
49.21
51
44.82
57.93
5.1
8.26
56.02
5.2
56.62
46.87
5.2
54.57
46.05
5.4
48.32
49.45
6.1
44.73
5765
6.1
7-95
55.83
6.2
55.37
46.75
6.2
54.41
46.09
6.4
48.05
49.70
7.1
4*-63
5740
7-1
7.62
55.64
7.2
54.11
46.65
7.2
54.26
46.14
7.3
47.80
49-95
8.1
44.52
57.14
8.1
7.30
55.46
8.2
52.82
46.57
8.2
54-11
46.20
8.3
47.56
50.23
91
44.46
56.87
9-1
6.95
55.28
9.2
51.48
46.48
9.2
53-95
46.27
9.3
47.31
50.52
10. 1
44.29
56.58
10. 1
6.59
55.09
10.2
50.08
46.40
10.2
53.77
46.34
10.3
4705
50.82
II. I
44.17
56.28
II. I
6.22
54.89
II.2
48.62
46.31
II. 2
53.59
46.39
II.3
46.74
51. II
12.1
44.05
55.95
12. 1
5.85
54.66
12.2
47.14
46.19
12.2
53.40
46.43
12.3
46.41
51.40
131
43.94
55-61
I3-I
5.49
54.40
13.2
45-67
46.04
13.2
53.21
46.45
13.3
46.07
51.69
14.1
43.85
55.25
14. 1
5.15
54.13
14. 1
44.23
45.88
14.2
53.01
46.44
14.3
45.69
51-94
151
43.76
54.89
15.1
4.83
53.84
15-1
42.84
45.70
15.2
52.83
46.41
15.3
45.31
52.17
16. 1
43.68
54.52
16.1
4.53
53.54
16.1
41.50
45.50
16.2
52.65
46.36
16.3
44.94
52.39
17.0
43.62
54.17
17.1
4.26
53.24
17.1
40.25
45.28
17.2
52.47
46.30
17.3
4456
52.59
18.0
43.56
53.82
18.1
4.01
52.96
18.1
39.07
45.08
18.2
52.30
46.24
18.3
44.19
52.78
19.0
43.50
53.48
19.1
3.77
52.67
19. 1
37-95
44.88
19.2
52.14
46.17
19.3
4385
52.96
20.0
43.44
53.16
20.1
3.54
52.41
20.1
36.86
44.68
20.2
51.99
46.11
20.3
43.53
53.13
21.0
43-39
52.85
21. 1
3.30
52.16
21. 1
35.78
44-52
21.2
51.84
46.07
21.3
43.21
53-31
22.0
43.32
52.56
22.1
3.05
51.93
22.1
34.71
44.36
22.2
51.70
46.03
22.3
42.90
53-49
23.0
43.24
52.25
23.1
2.78
51.70
23.1
3356
44.21
23.2
51.54
46.03
23.3
42.60
53-70
24.0
43.16
51.94
24.1
2.50
51.47
24.1
32.35
44.07
24.2
51.37
46.02
24.3
42.29
53.92
25.0
43.07
51.62
25-1
2.20
51.21
25.1
3106
43.91
25.2
51-20
46.00
25.3
41.96
54.15
26.0
42.98
51.26
26.1
1.89
50.94
26.1
29.73
43.73
26.2
5103
45-97
26.3
41.59
54.38
27.0
42.90
50.88
27.1
1-59
50.64
27.1
28.39
43.53
27.2
50.83
45.91
27.3
41.18
54.60
28.0
42.83
50.48
28.1
1.31
50.31
28.1
27.07
43.29
28.2
50.64
45.82
28.3
40.75
54.80
29.0
42.78
50.07
29.1
1.05
49.96
29.1
25.84
4303
29.2
50.46
45.71
29.3
40.32
54.97
30.0
42.75
49.66
30.1
0.83
49.61
30.1
24.70
42.75
30.2
50.27
45-57
30.3
3989
55.12
310
42.73
4927
31. 1
0.64
49.25
3I.I
23.65
42.46
31.2
50.10
45.43
31-3
39-46
55.23
7.35
■f7.28
i(
5.94 ■*
-16.91
58.04 -f
■58.03
7.38 +7.31
18.09 +18.06
i6»» 54" ,
56«.786
i8»»
o» ,
38'.79
I9»» 8» ,
36*.99
20^ 49" I •.268
23'' 27» 45'.399
+82° 11'
o".93
+86*»
36' 5
,l".OI
+89** 0' 3
13".82
+82® 12' 22".39
+86*49' i9".56
[Bph n
i]
286
DECEMBER, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
€ Ursse Xinoris.
S Ursse Xinoris.
A. TJrsse Xinoris. |
76 Draconls.
89 H. Cephei.
Mag. 4.4
Mag. 4.4
Mag. 6.6
Mag. 5.7
Mag. 5.6
Mean
SoUr
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
Norlh.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
Norlh.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
Norlh,
Mean
Solar
Date.
Right
Ascen-
sion.
DecU>
nation
North.
•
h m
0 f
h m
0 /
h m
0 /
h m
0 /
h m
0 /
Dec.
1654
+82 10
Dec.
1759
+8636
n
Dec.
19 6
+89 0
ft
Dec.
2048
+82 12
Dec.
2327
+8649
ft
I.O
8
42.73
49.27
I.I
s
60.64
49.25
I.I
8
23.65
42.46
1.2
s
50.10
45-43
1-3
s
39.46
55-23
2.0
42.71
48.90
2.1
60.47
48.92
2.1
22.72
42.19
2.2
49-95
45.28
2.3
3908
55.34
30
42.69
48.56
3.0
60.31
48.62
3.1
21.84
41-93
3.2
49.81
45.15
3.3
38.72
55-44
4.0
42.67
4823
4.0
60.15
48.34
4-1
20.99
41.71
4.2
49.68
45.03
4.3
38.37
55-55
4.9
42.64
47.92
5.0
59.97
48.06
5-1
20.11
41.49
5.2
49.55
44-93
5.3
38.04
55.67
5-9
42.60
47.60
6.0
59.79
47.80
6.1
19.17
41.29
6.2
49.42
44.83
6.3
37.71
55.80
6.9
42.56
47.28
7.0
59.59
47-53
7-1
18.20
41.09
7-2
49.27
44.75
7.3
37-36
55.94
7.9
42.52
46.94
8.0
59.38
47-23
8.1
17.18
40.88
8.2
49.11
44.66
8.3
3700
56.09
8.9
42.48
46.58
9.0
59-17
46.92
9.1
16.13
40.65
9.1
48.96
44.54
9.3
36.61
56.23
9-9
42.45
46.19
lO.O
1 1.0
58.97
46.59
10. 1
15-08
40.39
10. 1
48.79
44.40
10.3
36.19
56.36
10.9
42.43
45.80
58.78
46.23
II. I
14.07
40.11
II. 1
48.62
44.24
"3
35-76
56.48
11.9
42.41
45-39
12.0
58.61
45.87
12. 1
I3-"
39.81
12. 1
4845
44.06
12.3
35.32
56.57
12.9
42.41
44.99
130
58.47
45.50
13.1
12.21
39-51
13.1
48.30
43.85
13.2
34-87
56.64
13.9
42.42
44.60
14.0
58.34
45-12
14.1
"39
39.19
14. 1
48.15
43.64
14.2
34-43
56.69
14.9 42.43
44.21
15.0
58.24
44-76
15.1
10.66
38.86
15.1
48.02
43-42
15.2
34.00
56.72
15.9 42.46
43.84
16.0
58.17
44.41
16. 1
9.99
38.55
16.1
47.89
43.21
16.2
33.59
56.73
16.9
42.49
43.49
17.0
58.11
44.08
17.1
9-39
38.25
17.1
47-76
43.00
17.2
33 20
56.74
17.9
42.52
43.14
18.0
58.06
43-75
18.1
8.82
37.97
18.1
47.64
42.79
18.2
32.84
56.76
18.9
42.54
42.82
19.0
57.99
43-45
19.1
8.25
37.70
19.1
47-53
42.60
19.2
32.49
56.78
19.9
42.54
42.50
20.0
57-91
43.15
20.0
7.66
37-44
20.1
47-42
42.42
20.2
32.15
56.82
20.9
42.55
42.18
21.0
57.80
42-85
21.0
7.01
37-19
21.1
47.31
42.26
21.2
31.81
56.87
21.9
42.55
41.85
21.9
5769
42.56
22.0
6.28
36.94
22.1
47.18
42.10
22.2
31.44 '56.94
22.9
42.55
41.50
22.9
57.57
42.24
23.0
5-49
36.67
23-1
47.05
41.93
23.2
31.04 1 57.01
23.9
42.56
41.13
23.9
57.45
41.89
34.0
4.71
36.39
24.1
46.90
41.75
24.2
30.63
57.07
24.9
42.57
40.73
24.9
57.35
41.52
25.0
3-93
36.06
25.1
46.75
41-54
25.2
30.18
57.10
25.9
42.59
40.33
259
57-27
41.13
26.0
3-2X
35.71
26.1
46.61
41.29
26.2
29.72 '57.12
26.9
42.63
39-93
26.9 57.22
40.74
27.0
2.60
35.36
27.1
46.47
41.02
27.2
29.26 57.11
27.9
42.69
.39-53
27.9 57-20
1
40.34
28.0
2.10
3500
28.1
46.35
40.74
28.2
28.82 57.06
28.9 42.75
39.16
1
28.9*57.21
3996
29.0
1.70
34.64
29.1
46.24
40.45
29.2
28.40 56.99
29.9 '42.81
38.82
29.9
57.24
39.60
30.0
1.40
3430
30.1
46.15
40.16
30.2
28.01 56.92
30.9 42.87
38.51
30.9
57.28
39.28
31.0
1-13
33.97
31-1
46.07
3991
31.2
27.66 ; 56.86
31.9
42.93
38.20
31-9
57-31
38.98
32.0
0.86
33.67
32.1
45.99
39.67
32.2
27.33 56.82
*
^35 ^7-28
16.92 H
-16.89
5:
^93 1
57.92
7.38
+7.31
18.10 +18.07
i6»» 54" 56V786
i8»» 0*
38-.79 i9»>
gm
36".99
20^ 49"
i».268
23" 27" 45*.399
+82 «
11'
o".93
+86^
36' 5
ii".oi
1+89^
0' 3
;3".82
+82 «
12' a
2".39
+86«
49' 1
9".56
[Bph la]
APPARENT PLACES OF STARS, 1912.
287
FOR THE UPPER TRANSIT AT WASHINGTON.
88 Pisoliua.
a Aadioiueda.
y5 CassiopelflB.
£ Phoenlois.
Mean Solar
Mag. 4.7
Mag. 2.3
Mag. 2.4
Mag. 3.9
Date.
Right
Declina-
Right
Declina-
Right
declina-
Right
Declina-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion S.
h tn
e *
h m
0 t
h m
0 *
h m
0 »
0 0
-611
0 3
+2836
0 4
+5839
0 4
-46 13
Jan. 0.2
8
49.31 ,^
65.8
66.4 ^
49.23 „
22.3 • .
26^88
65.8
s
56.67
WW
77-3 ,
I0.2
49.21 '^
49.10 '3
=»-5 ,!
2^-57 \\
^5-» ,!
56.48 9
76.9 *
20.2
49.12 \
49.04 \
48.98 \
66.8 *
48.97 3
2<>-4 "
26.28 ^9
63-9 "
56-31 ^
76.0 9
30.1
67.1 3
48.86 "
19.0 \\
26.01 '7
62.3 '•<*
56.16 5
74.7 \\
Feb. 9.1
67.2 '
48.76 "
17.5 w
25.77 W
°°-3 ,.
56.04 "
7^''' \\
4
I
7
15
19
24
9
21
19.1
48.94
67.1
48.69
16.0 ^
25.58 ,,
57-9 „
55-95 ,
7°-9 „
29.1
48.92 \
66.9 '
48.65 ^
14-4 ;'
25.4s 'i
25-39 °
55-4 '5
55.90 \
68.6 '3
Mar. 1 0.0
48.93 '
66.4 s
48.65 °
"•9 !
5^-7 Z
55.89 '
^5-9 \l
20.0
48.98 \
49.06 '
65.7 ^
48.69 J
1 1.5 '^
25-41 „
50.1 ^t
55.92 3
63-0 !9
30.0
64.8 9
10.4 "
25-50 \
47-6 '^
56.01 9
60.0 30
12
12
13
9
18
»3
J3
32
Apr. 9.0
49.18
49-34 ,„
^3-6 ,^
48.90 .
49.08 '8
9.5 ^
25.68
45-3 ,„
56.14 ,„
56.8 ^^
18.9
62.2 '1
60.6 '*
58.8 'J
9.0 \
25.93 ,^
43.3 °
56.33 ''
53-6 3J
28.9
20
49.54 °
22
49.30 "
8.8 ^
26.25 ^'
41-8 \\
56.57 '1
5°-4 il
May 8.9
49.78 ^^
49-56 ^f
9.0 \
26.63 ^
40.7 "
56.85 ^,;
47-4 Z
18.8
5^-05 J
56-8 '?
49.85 ^^
9.6 «
27.07^1
40.1 ^
57.18 33
^•^\l
29
21
32
10
48
0
36
27
28.8
50.34 ,,
54-7 „
50.17 _
10.6
27.55 ,^
40.1
57-54 „
4^-8 „
June 7.8
50.65 ^^
52.6
50.51 34
"•9!"
28.05 5^
•♦°-5 ,„
57-93 Y.
39.4 t
17.8
50.97 ^.
50.5 "
50.86 35
13.6 '7
28.57 f ^
41-5 °
58.34 t!
37-3 "
27.7
51.30^^
48.4 ''
51.21 35
»5-6 !?
29.08 5^
43-0 f
58.76 *'
35-6 \l
July f.j
51.62 3^
46.4 z
51.56 35
»7-8 ,^
29.58 5°
45-0 Z
59-18 *«
34-4 "
31
19
33
*4
48
23
40
8
17.7
5^-93 ,0
44-5 ,,
51.89
20.2
30.06
47-3
59- 58 -
33-6
27.7
28
52.47 °
42.9 ^
52.19 ^«
22.7 ^5
30.50 !^
5°° 0
59-96 38
33-3 *
Aug. 6.6
41-4 !
5^-47 ;
^5-^ ^i
30.89 ^9
53.0 3«
60.31 35
33-5 ,
34-1 .t
16.6
52.70 .X
40.2 "
52.71 ^4
27.8 '^
31.23 3^
56-2 ^'
60.61 3^
26.6
5-«9 :^
39.3 \
5''- ::
30.3 '^
35
27
3^-50 ^,
22
59.6 34
34
60.87
20
35-2 "
IS
Sept. 5.5
53.05 „
38.7 ,
53.07 ^,
32-8 „
31.72 ^^
630 ,^
61.07 ,^
385 '*
155
53.16 "
38.3 t
53.19 "
35-^ \\
31.87 '3
66.535
61.21 '4
25.5
0
53.24 ^
38.2
5327 ^
37=^ '
31.96 ^
69-9 ^t
61.30 9
40.5 z
Oct. 5.5
53.28 ^
38.3 '
53.31 ^
39.2
31.99 ^
732 t.
61.33 3
42.7 "
15.4
53.28 °
38.6 \
53.32 '
40.9 '
31.96 3
763 ^*
61.31 \
45.0 '3
2
5
3
14
^ ^ 8
29
7
22
25.4
53.26
39-1 ,
39.7 !
53.29 .
42.3 ^^
3^-88 X*
79-2 ,,
81.8 **
61.24
T T
47.2
'5 1
Nov. 4.4
53.21 5
53.15 g
53.07 ^
53.24 \
43.5 "
3^-74 J
61.13
49-3 "
14.4
404 ;
53.17 ,;
44.4 ;
31-55 9
84.0 "
60.99 ^^
52.8 \\
24.3
41. 1 \
53.07 °
44.9 ;
22
31-33 ,,
85.7 ^,
60.82 '7
Dec. 4.3
52.98 9
41.8 7
7
52.96 ;^
45.2 3
3--7 fg
87.0 ^3
60.63 '9
20
54.x 'I
14.3
52.88
42.5 ,
43-1 \
43-7
52.84 ,^
45.1 ^
30.79 ^^
87.8
60.43 ^^ 54.9 _
24.2
•52.78 °
52.71 ;3
44.8 ^
3049 \^
88.0 ^
60.23 ^^{55-2 3
34.2
52.68 '°
52.58 '3
44.1 7
30.19 3^
87.6 4
60.04 ^|55.i
Ser <5, Tan 6
1.006 -0.109
X.139 ^-545
1.923 +1.643
1.446 -1.044
Mean Place
49».898 59".45
50^.162 i6".59
28».504 51 ".97
56-.832 58".96
IV^a, Dm a
0.00 +0.01
0.00 -0.04
0.00 -0.1 1
0.00 +0.07
D^ J, Dm 6
+0.4
0.0
40.4
0.0
+0.4
0.0
+0.4
0.0
[Bph 13]
288 APPAKBNT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
22 Andzomedn.
y Pegasi.
(T Andzomedae.
f Cett.
Mean Solar
Mag. 5.1
Mag. 2.9
Mag. 4.5
Mag. 3.8
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion N.
Ascenaioa
tion N.
Aaceniion.
tion S.
h m
e t
h m
0
r
h m
0 f
h m
e *
0 5
+45 34
§9
0 8
+ 14 41
09
0 13
+ 36 17
0 14
— 9 18
Jan. 0.2
s
4336 ,„
68.1
67.3 ,^
8
41-42 , •
41.0
8
8
42.63 ,^
590 ,
s
56.19
WW
49.0
I0.2
43.16 *°
41-31 "
40.2
42-48 \l
42.32 ,^
58-3 .J
56.09 'I
49.5 f
20. 2
42.97 ':
66.1 "
62.7 '*
21
41.21 ^^
39.3
9
57-2 '
56.00 9
49.9 :
30.2
42.80 '^
41.12 ^
41.04 ^
38.4
9
42.18 4
55« ^
54-^ ,8
55.91 I
2
50.1
Feb. 9.1
42.6s '5
12
37.4
10
10
42.06 "
10
55.83 ^
0
50.1 ^
19.1
42.53 g
60.6
40.98
40.95 \
36.4
f\
41.96
524 ,8
55-78
49-9 ,
29.1
42.45 ,
58.4 "
35.5
9
41.90
55-75 ;
49-4 %
48.8 I
Mar. 1 0.0
42.42 \
42.45 ^
56-2
40.95 .
40.99 ^
34.8
7
41.88 ^
48-7 ''
T •»
55-75 ,
20.0
34.2
41.90 ;:
470 6
45-4 ^
5578 3
47-9 „
30.0
42.54 ,,
»>« .«. 20
52-0
41.06 '
33.9
3
41.97 ,,
55-85 ,^
46-8 "
14
'7
12
I
13
>3
II
»3
April 9.0
42.68
50-3 , .
41.18
41-34 „
33.8
/«
42.10
IT
44-1
5596 , .
45-5 ,6
43-9 ,8
42-» ,„
18.9
42.88 ^^
*^-9 0
34.0
2
m
42.27 .^
43-2 ^
42.6 t
56.10 4
28.9
43.13 'f
47-9 '°
47-3 °
41-54 -,
34.5
5
8
42.49 „
56-29 11
May 8.9
43-43 \^
41-78 '4
35.3
42.76 11
42.4 ,
56.52 '3
5^-78 :j
40-2 »9
18.8
43.78 35
47.2 \
4
4205 4
36.5
12
»5
43.07 ^
34
42.6 ^
38-1 "
23
28.8
*4't6 ^„
47-6 -
48.4 ,!
42-34 „
38.0
43-41
43-77 ^,
43.2 ,,
57.06
35.9 ,,
June 7.8
44.56^
42.66 3^
39.7
17
^•3"
57-37 ^'
22
33-7 '
17.8
44.97 *
49-7 ;
42.99 "
41.6
*9
^ w
44-14 "
45-7 ]t
47-5 ,:
57.69 f.
31-5 "
27.7
45-39 *
51-4 z
43-32 ^^
43.7
Jl
44-51 11
58.02 33
294 "
July T^f
45.79 \^
53-5 :;
43.65 1^
45.8
21
22
44.88 37
35
49.6 "
23
58-34 ^'
3»
20
17.7
46.17 „
55-9 „
4396
48.0
^M ^^
45-23 „
5^-9 ,,
58-65 ,„
25.6 .
27.7
46-52 ^^
58-6 '!
44-25 ,;
50.3
23
45-56 33
54-5 It
58-95 1°
24.0
Aug. 6.6
46-84 ^^
47-12
^^•5 ,0
44-52 7
52.5
22
45-86 11
46.12 l^
57.2 11
59-22 I
22.7 ;3
16.6
64-5 3°
44-75 ,„
54.5
20
59-9 'I
5946 '4
21.6"
26.6
47-35 4
67.6 3»
31
20
44-95 ,6
56.4
19
18
46.34 1^
62.7 **
27
59-66 **»
17
20.9 ^
5
Sept. 5.5
47-54 ,-
7°-7 ,„
45-" „
58.2
16
46.52 ,^
654 „
59-83 „
20.4
155
4767 ^\
47-75 ,
73-7 ^^
45-23 "
45-31
59.8
46.66 '4
68.1 ="7
5996 '3
20.2
255
76-7 ^°
28
82.1 '^
61.2
14
46.75 '
70.6 l^
60.05 '
20.3 ^
Oct. 5-5
47-79 0
45.36 5
62.3
1 1
46.80 5
73.0 4
60.10 *
20.6 ^
15.4
47-79 ,
45.38 \
63.2
9
46.82 I
75.1 "
60.12 "
21. 1 5
3
23
2
7
2
19
I
6
25.4
47-74 8
47.66 ^°
^•4,„
45-36
63.9
^
46.80
770 ,,
78.6 ^
60.11
21.7 g
22.5
Nov. 4.4
86.4 *°
45-32 *
64.4
5
46.75 i
46.67 ,°
60.07 ^
60.01
T
14.4
47-54 ,,
88.1 *7
V 0
45-27 1
45-19 .
64.7
3
79-9 „
23.4 0
24.2
25.0 3
243
47-40 ,*
47-24 ,8
89.3 "
64.7
0
^
46.56
80.8 '
81.4 *
3
59.94 ;
Bee. 4.3
00.2 ^
4
45-^° .0
64.5
2
4
46.44 \l
59.85 I
14.3
47.06
90.6
45-00
64.1
^
46.30 ,^
81.7 ,
59.76
25.8 ^
24.2
46.87 '
90.5 .
44-89
63.6
5
46.15 \l
81-5 '
59.66 °
26.5 ^
27.1
34-2
46.67 ^°
90.0 ^
44-78 "
62.9
7
46.00 '5
81.0 5
59.55
Sec ^, Tan 6
1.429 +1.02 X
1.034 +0.262
1.241 +0.735
1.013 -0.164
Mean Place
44'.57i 57".27
42-.I6I 39"-75
43*.6i3 5o".52
56V674 42". 04
D V <>> I)« ^
0.00 -0.07
0.00 -0.05
t
0.00 -0.05
0.00 40.0I
D^ d, Dtt d
404
0.0
+0.4
0.0
+0.4
■tO.1
-»o.4
•fO.I
[Bph i«]
APPAKENT PLACES OF STABS, 1912.
289
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.2
I0.2
20. 2
Feb. 9.1
19.1
29.1
Mar.io.o
20.0
30-0
Apr. 9.0
18.9
28.9
May 8.9
18.9
28.8
June 7.8
17.8
27.7
July T,7
17.7
27.7
Aug. 6.6
16.6
26.6
Sept. 5.6
15.5
25-5
Oct. 5.5
15-4
25.4
Nov. 4.4
14.4
243
Dec. 4.3
14-3
24.3
34-2
Sec <5, Tan 6
Mean Place
W^ a, Dm n
C TuoaiiflB.
Mag. 4.3
Right
Ascension.
li m
o 15
8
30.16
29.78
29.42
29.10
28.82
38.60
28.45
28.37
28.36
28.43
28.59
28.83
29-15
2954
30.00
30.52
31.09
31.69
32.31
32.93
33.54
34.12
34.66 54
35.13
35.53
38
36
32
28
23
8
I
7
16
24
32
39
46
52
57
60
62
62
61
58
35.85
36.08
36.21
36.25
36.^9
36.04
35.82
35.53
35.19
34.81
47
40
32
23
13
4
6
«5
22
29
34
38
40
41
34.41
34.00
33.60^
Declina-
tions.
^6523
51.3
50.4
49.0
47.1
44-7
9
14
19
24
28
41.9
38.8 3'
31.8 3^
28.1 37
38
24-3
20.6 ^l
17.0 3^
13.6 3^
-•5 II
7-7
5.3
24
20
3.3
1.8 '5
0.9 ^
0.5
0.7
1.4
2.6
4.3
2
7
12
17
21
6.4
8.8^*
11.5'^
14.3
17.1
28
28
27
25
21
19.8
22.3
24.4 ,.
26.1 *7
27.3 ';
28.0
28.1 '
27.6 5
2.401 -2.183
29V743 29". 80
1912
0.00
+0.4
—19
+0.15
■K>.I
44 Pisoium.
Mag. 6.0
Right
Ascension.
h m
o 20
52.92
52.82
52.72
52.63
52.55
52.49
52.46
52.45
5248
52.54
52.64
52.79
52.97
53.19
53.44
53.72
54.03
54.35
54.67
54.99
10
10
9
8
6
3
I
3
6
10
15
18
22
25
28
31
32
32
32
31
55.30
55.60 30
55.87 ^^
56.11
56.31
56.48
56.61
56.71
56.77
56.80
56.80
56.77
56.72
56.66
56.58
56.49
56.39
56.29
24
20
17
13
10
6
3
o
3
5
6
8
9
10
10
Declina-
tion N.
+ I 27
5.5
4.9
4.3
3.7
3.2
2.9
2.8
2.8
3.0
3.5
6
6
6
5
3
I
o
2
5
7
9
12
4.2
5.1
6.3
7.8^5
9.5'^
II.3
13-3
15.4
17.5
19.6
18
20
21
21
21
20
21.6
23.5
25.2
26.8
28.1 '3
19
17
16
29.2
30.0
30.6
30.9
31.0
30.9
30.7
30.3
29.8
29.3
28.7
28.0
27.4
II
8
6
3
I
I
2
4
5
5
6
7
6
i.ocxj +0.025
53-.464 8".50
0.00 0.00
+0.4 +0. 1
[Epb 18]
yffHydii.
Mag. 2.9
Right
Ascension.
h
O
m
21
s
10.23
9.35
8.53
7.79
7.15
6.62
6.23
5.98
5.88
5.93
6.14
6.51
7.02
7.68
8.47
9.36
0.35
1. 41
2.51
3.63
4.73
5.78
6.75
7.62
8.35
8.93
9.34
9.56
9.59
9.43
9.09
8.60
7.96
7.20
6.36
5.46
4-55
3.64
88
82
74
64
53
39
25
10
5
21
37
51
66
79
89
99
106
no
112
no
105
97
87
73
58
41
22
3
16
34
49
64
76
84
90
91
91
Declina-
tion S.
-77 44
81.9
80.8
79.2
77.0
74.3
II
16
22
27
31
71.2
67.8 34
64.1 37
6a3
56.4
38
39
39
38
36
34
52.5
48.7
45.1
41.7
38.6 3'
27
35.9
33.6
31.8
30.6
29.9
23
18
12
7
I
29.8
30.2
31.2
32.8
34.8
4
10
16
20
24
27
37.2
39-9 ^^
42.8 ^9
48.8 3°
ce PhoenloiB.
Mag. 2.4
Right
Ascension.
51.6
54.2
56.4
58.1
59.3
59.7
59.7
59.1
28
26
22
17
12
6
o
6
4.713 -4.605
8".620 59".48
-o.oi
+0.4
+0.31
+0.1
h
O
m
21
s
56.19
56.02
55.85
55.70
55.57
55.47
55.40
55.36
55.37
55.43
55.54
55.70
55.91
56.16
56.46
56.80
57.16
57.54
57.94
58.34
58.73
59.10
59.44
59.75
6o.oi
60.22
60.38
60.49
60.54
60.55
60.51
60.43
60.31
60.17
60.01
59.83
59.65
59.47
17
17
15
13
10
7
4
I
6
II
16
21
25
30
34
36
38
40
40
39
37
34
31
26
21
16
II
5
I
4
8
12
14
16
18
18
18
Declina-
tion S.
-4246
79.0
78.8
78.2
77.2
75.8
2
6
10
14
18
22
24
27
74.0
71.8
69.4
66.7
63.8 ^9
31
60.7
57.6
54.5
51.4
48.4
31
31
31
30
28
45.6
43.0
40.8
38.9
37.4
36.4
35.9
35.8
36.2
37.0
38.2
39.8
41.7
43.8
46.0
48.2
50.4
52.4
54-1
55.4
56.4
57.0
57.2
26
22
19
15
10
5
I
4
8
12
16
19
21
22
22
22
20
17
13
10
6
2
1.363 -0-925
56'.254 6i".95
0.00
+0.4
•+0.06
+0.1
290
APPARENT PLACES OF STAES, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
12 Ceti.
18 Ceti.
C CassiopelflB.
7t Andzomedae.
Mag. 6.0
Mag. 5.2
Mag. 3.7
Mag. 4.4
Mean Solar
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declin«'
Ascension.
tions.
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tionN.
li m
e *
h m
e
*
h m
•
h m
e *
0 25
— 426
ft
0 30
- 4
•f
4
0 32
+ 5324
0 32
+ 3313
Jan. 0.2
32.43 „
41.2
41.8 ^
42.65
42.2
6
8
256
59-6 .
s
9.82
74-5 _
I0.2
32.32 "
42.55 „
42.8
2.31 '5
59-2 I
9.67 5
73-8 7
20. 2
32.22
42.3 \
42.44 .
43.3
5
2.06 '5
^1 ^
58.3 '
9-53 *
72.9 '
30.2
32.13 \
42.6 3
42.35 \
42.27
43.6
3
1.82 "">
57-0 3
9-39 ,:
71-7 "
Feb. 9.1
32.05 \
42.8 ^
43.8
2
1.60 "
55-3 '!
9.26 '3
70-3 :;
6
0
6
I
»9
20
10
»5
19.1
31.99 ^
42.8
42.21
43.9
T
1. 41
V 4
53-3
9.16
9.08 «
68.8 ,
67-2 1^
* 29.1
31.95 ;
42.7 '
42.16 ^
43.8
I
1-27 '^
1. 19
5'° ^i
Mar. 1 0.1
31.94 ,
42.3 z
41.7 J
40.9
42.14 ^
43.5
3
6
8
48.6 »4
9.04 ^
^3-9 \\
20.0
31.96 \
32.02
42.16 ^
42.9
'•'7 I
46.2 '^
0 'I
905 '
30.0
42.21 ^
42.1
1.21 *
43-9 '^
O.IO ^
62.5 4
9
10
9
10
13
21
10
II
Apr. 9.0
32.11
39.9 _
42.30
41. 1
^•33 .„
41-8
9.20
61.4
18.9
32.25 \\
32-43 ':
370 ;°
42.44 ';
39.8
13
^■52 z
39-9 '
9-35 !^
60.5 \
28.9
42.61 ^7
38.3
15
^■77 \\
38.4 \\
9-55 Z
60.0 ^
May 8.9
32.65 "
35-3 Z
42.82 ^
36.6
17
2.09 I
37-3 "
36-7 !
9.80 ^5
59-8 \
18.9
32.90 \
33-4 ^
43.07 :^^
34.7
19
2.46 37
10.08 ^^
60.0
28
20
28
20
4»
2
32
7
28.8
3318 _
3^-4 _
43-35 ,„
32.7
2.87 ^^
36.5 ,
10.40
60.7
June 7.8
33.48 3<>
^9-3 ^^
43-65 Z
30.6
21
3-31 *:
36.8 3
10.74 34
61.7 '*»
17.8
33.80 32
22
27.1 "
43-97 „
28.4
22
3-77 ^*
37.7 ,^
II. 10 36
63.0 ;3
27.8
34.12 32
250 ^^
4430 "
26.3
21
4.24 f
39.0 3
1 1 .47 37
^4-7 'I
July -j.-j
*^2
34.44^
20
23-0 ^°
44-62 3^
24.2
21
4-71 f
4^-7
11.8437
66.7 »°
31
20
3»
19
45
21
35
22
17.7
34-75
21.0
44-93 ,„
22.3
_ ^
5-16
42-8 _
12.19
68-9 ,,
27.7
35.05 ^l
19.2 '^
45-23 ^°
20.5
18
5.58 ^'
45-2 !t
12.52 33
71-3 l\
Aug. 6.6
35.33
17.7 '5,
4550
19.0
15
5-97 ,
47-9 !!
12.83 3'
73-8 'i
16.6
35-57 ^t
'^•4 ^
45-75 5
17.7
13
6.31 34
50-9 ,,
^3.10^7
76-4 "g
79-0 ^*
26.6
35.78 -
15.4 '^
22
45.97 ,3
16.6
II
8
6.61 3°
25
«•■ %
'3-33 li
20
Sept. 5.6
35.95 ,
14.7 ^
4^-^5 ,,
15.8
6.86
57-3 „
13-53 ,,
13-69 ^
81.6
15.5
36.09 \\
14.2 5
46.29 '^
15.3
5
7-05 \\
60-53
84-1 l\
25.5
36.19 '^
14.0 ^
46.40 "
15.1
2
7-18 '3
7.26 \
63.7 \\
13.80 "
13.88 I
86.4 '3
Oct. 5.5
36.26 7
14.0
46.47 ^
15.1
0
66.9 3*
88.6 "
15.5
36.29 3
14.2
4
46.51 \
15.3
2
4
7.29 3
69.9 ^°
27
13.92 *
9°-^, 8
25.4
36.29
14.6
15.8 \
46.51 15.7
6
6
7-27 ,
7.21 ,^
72-6
13-93 ,
92.4 „
Nov. 4.4
36.27
46.49 .
16.3
75-» ''
13-90 3
13-84 8
13-76 ,„
93-9 \\
14.4
36.22 ^
46.45 ^
46.39 ,
16.9
7.10
^^ ^ 22
79' !
95-1 "
24.3
36.15 J
16.5 7
17.6
7
6-77 '!
96.0 't
96.6 *
Dec. 4.3
36.07 ^
17-2 I
46.32 \
18.3
7
80.5 'I
13.66 °
9
8
9
7
21
9
12
3
14.3
3598 ,^
18.0
4^*23 ,^
19.0
^•56 ..
81.4 ^
13-54 ,,
96.9
24.3
35-88 ^
18.7 7
46.13 °
19.7
7
6.33 ^^
81.8 4
13.41 \\
96.8 '
34-2
35-78 '°
19-3 ^
46.03 ^°
20.4
7
6.08 ^5
81.7 '
13.26 ^ 96.4 ^
Sec f^ Tan <i
i.c»3 -0.078
1 .003 -0.07
I
1.678 +1.347
1.196 40.655
Mean Place
32'.885 36". 25
43'.o8o 37".57
►
3-.748 45".87
io».63i 66".22
D'l^ a, D«i a
0.00 +0.01
0.00 0.0c
>
0.00 -0.09
0.00 -0.04
D^ <$, Dm ^
■fo.4
-»o.i 1
+0.4
40.1
+0.4
.K>.I 1
40.4
40.1
[Bph xa]
APPARENT PLACES OF STARS, 1912.
291
FOR THE UPPER TRANSIT AT WASHINGTON.
€ Andzomedae.
(^ Andzomedae.
a CassiopelK.
}i Fhoeniois.
Mag. 4.5
Mag. 3.5
Var. 2.2-2.8
Mag. 4.6
Mean Solar
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion S.
h m
e f
h m • '
h m
e >
h m
e f
0 33
+ 2849
0 34 +3022
0 35
+ S6 3
0 37
-4633
Jan. 0.2
s
53-39 ^ .
69.6
s
36.38 ,^ 53.4 .
36.24 ;^ 152.8 *
s
29-" „
32.0
8
10.23
83-3 ,
I0.2
55.25 ,:
69.0
28.84 I
28.56 '8
31.7 \
3^-9 ,!
10.02
83.2 '
20.2
53.12 '3, 68.0'°
36.10 ''^
51.9 ,;
9.82 ='°
9.64 ;j
82.7 3
30.2
52.99 |3 1 66.9 "
35-97 \\
50.8 ^ '
28.29 '7
29.6 3
81.6"
Feb. 9.1
52.87 '^
65.6 ^^
35.85 " 49-5 3
28.05 't
27.9 y
80.1 '3
^
10
u
10 15
21
21
«4
«9
19.1
52.77 .
64.2
35.75 ^^B.o,,
27-84 -
27.68 '^
25.8
9-34 ,„
78.2
29.1
52.70 \
62.7 '5
35.68 7
46.4 ^
^3-5 'J
9.24 *°
9.18 ;
73-4 -g
70.6 '»
Mar. 1 0.1
52.67 \
61-3 t
35.64 ^
^•9 i
27.58 ^°
21. 1 '4
20.0
52.67
60.0 '3
35.64 ^
43.5 \\
27.55 ^
18.6 '5
9.16 \
30.0
52.72 ,^
58.8 '^
35.69 5 42.3
10 11
27.59 j^
16.2 '4
22
9.20 4
67-5 ^'
32
Apr. 9.0
5^-^^ lA
57-8 ,
57-2 \
35.79
35.94 ,\
41.2
40.5 ^
27.71
27.90 '9
28.16 '^
14.0
9.28
9-42 !o
64-3 „
61.0 33
18.9
52,96 \\
12.0
28.9
53.15 z
56-9 \
36.13 z
40.1 4
'°-3 !^
9.61 '9
57-7 33
May 8.9
53.39 ,:
T
57-0 '
36.37 ^«
36.65 ^;
40.1
28.49 ^^
28.87 3
9-^ 8
9.86 ^5
•54.5 J^
18.9
53.66 ^7
57-4 *
40.4 ft
10.15 z
5' -4^!
^
31
7
31
8
43
2
33
30
28.8
53.97
58-^ „
36.96
41.2 ,,
^930
29.76 2
8.1
10.48
48-4 „
June 7.8
5430 ^^
59-3
37.30 ^4
8.3 !
10.85 37
45-7 ^'
17.8
27.8
54.65 ^^
55.01 \
60.8 '5
6^5 I'
37.65 ^^
38.01 36
43.7 '^
17
+5-4 ,;
30.25 49
30.74 49
9.0 '
10.2 "
11.8 '^
21
11.24
43-4 ^
39-8 , ^
July f.-j
55.36 35
64.5 °
22
38.36 35
35
20
+7-4 „
22
31.23 ^^
47
12.07
4«
17.7
55.70
66.7 ^
38.71 _.
49-6 ,^
31.70
^3-9 ,,
"•48 ,„
38.7 .
38.1 *
27.7
5602 3^
^9-^ \\
39.04 ;;
5=^° ^!
32.15^,
'6-3 \t
12.87 ^'
Aug. 6.6
56.32 3°
7^-5 1
39.34 „
54.4 t
32.56 ^^
^9° '
'3-24 „
38.0 •
16.6
56.59 '!
73-9 ^^
39.61 ^7
56.9 ^5
32.93 ^,
21.9 '9
13-57 ^^
38.4 \
26.6
56.82 '3
»9
76.4 '5
24
39.84 ^^
59-4 '^
25
33.24 ^,
25.0 3«
33
13-86 '9
24
39.3 ,^
Sept. 5.6
15-5
57°^ ,6
57.17
78.8
81. 1 ^3
40.04
40.20
61.9
33.50^^
33.71 \\
28.3
31.6 33
14.10
14.28 °
40.6
42.3 '^
255
57.28 "
«3-2 !:
40.32 "
40.40
40.44 \
66.4"
33.86 '5 , 34.9 33
X4.41 '
14.49 ,
14.51 3
44.4
Oct. 5.5
15.5
57.36
57.40 \
^5-' 8
86.9 '*
15
68.4 '°
70.3 Z
33.95 ^'38.1 3^
33.99 \ 41.2 3
2 1 29
46.6 "
49-0 ^-^
24
25.4
Nov. 4.4
57.41
57-39 -
88.4
40.45 .
40.43 ,
71.9
73.2 3
33.97 ,
33.90 7
46.7 ^
14.48
14.40
51-4
53-7 \\
14.4
57.34 ;
90.6^^
40.38 \
74.3 '^
33.78 " 1 49.0 ;^
33.62 1 , 50.9 ^9
14.28 '^
55-8 "
59-3
11
243
57.27 ,„
91-3 \
40.30
75.1 ,
14-13 ^
Dec. 4.3
57. X7 -
91.8 5
40.2 1 ^
II
75.6 \
33.43 ,J
52.4 '="
II
^396 '^
20
143
57.06
919 .
40.10
75.8
33.20 ' 53.5 _ 1
13.76
60,4 ,
24-3
56.94 "
91.7 ^
39.98 "
75.6 ^
32.94 '
54.0 ^
^3-56 0
61. 1 7
34-2
56.81 ^3
91.2 5
39.84 '^
75.2 ^
32.67 ^
54.0
13.36 ^°
61.3 '
Sec cJ, Tan *J
1. 142 +0.551
1. 159 +0.586
1. 791 +1.486
1.455 -1.056
Mean Place
54-.131 62".68
37". 138 45".98
30'.339 I7".55
io».o86 65".92
D'^ a, Dm a
0.00 -0.04
0.00 -0.04
+0.01 -O.IO
0.00 +0.07
D^rf, D«<5
+O.A
+0.1 1
+0.4
+0.2 1
+0.4
+0.3 1
40.4
'H>.3
[Epfa X2]
292
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
/9Cett.
0 CasBiofelflB.
21 Oassiopete.
C Andiomeds.
Mean Solar
Mag. 2.2
Mag. 4.7
Mag. 5:6
Mag. 4.3
Date.
Right
Declina-
Right
Declina-
Right
Dedina-
Right Decliaa-
Atcention.
tions.
Atcention.
tion N.
Atcention.
aouN.
Atcention.
tlonN.
h m
0 1
h m
•
h m
•
h m
•
0 39
-1827
If
0 39
+4748
0 39
+ 7430
If
0 42 -h 23 47
Jan. 0.3
8
10.14
79.1 ^
8
47.97 „
23-3 .
8
46.74 „
43.8
•
8
39.64 ,^
24.6
24.0
10.2
10.03 \
79.6 I
47.76 "
22.9 *
46.03 I'
43.9
39.52 "
20.2
9.91 "
79.8 ^
21
47.55 l\
22.0 '
45-32 v^
43.4 ,,
39.39 \\
23.2 °
30.2
9.80 "
T
79-7 '
21
47-34 .„
20.8 "
^ 68
44.64 !!
X X
42.3 "
39.27 '
22.2 '°
Feb. 9.1
9.71 \
79.3 J
47-5 :',
19.2 '^
19
62
44.02
54
40.6 '7
21
39.16"
ID
21.1 "
13
19.1
9.63 ,
9.57 t
78.7 „
46.99 „
^7.3 ,„
43.48
38.5 „
39.06
19.9 ,,
29.1
77-8 9
46.87 "
^5.3 z
43.05 ;^
36.0 »s
38.99 \
18.6 '3
Mar. 1 0.1
9.54 ,
7^-7 \\
46.80 '
13-1 "
42.75 \.
33.3 li
38.95 I
17.5
20.0
9-55 '
75-3 t
46.78 '
10.9 "
42.59 ^
3°-4 '
38.95 I
16.4"
30.0
9.59 5
73-6 :j
46.81 3
10
8.8"
»9
42.59
15
^7-5 7.
38.99 ^15.5 ^
9 1 0
Apr. 9.0
9.67 ,,
71.8
46.91 ,,
47.07 \^
'•3 "
42.74 ,,
24.7 „
39.08
14.9 ^
19.0
9.80 3
69.7 "
43.05 ^'
22.0 '
39.21 ^
14.5 t
28.9
9.96 \\
67.4 ^
47.30 3
4.0 '3
43.50 \i
^9-7 \i
39.39 „
14.4 ,
May 8.9
10.17 \\
65-' ^i
47.58 ^;
3.1 '
44.08 58
17.8 '
39.61 "
39-87 1
14.7 X
•5-3 *
18.9
10.42 l\
62.7 ^1
47.91 11
2.6 5
44.78 7^
16.4 '*
38
25
37
0
78
10
29
10
28.8
^0.70
60.2
48.28
2.6
45.56
15.4
40.16
^^•3 „
June 7.8
11.00 3
57.8 !*
48.68 40
3.1 ^
46.41 \^
15.0 4
40.48 3^
^7-5 "
17.8
11.32 I
55-5 ^
49.10 4^
4.0 ,:
47.30 «9
15.2 ^
40.82 34
»9-^ «
27.8
11.65^3
53-3 "
49.53 ^^
5-3 ^
48.21 "'
15.9 !
41.16 34
20.9 '*
July ^,^7
I I .98 3^
33
51.3 '°
»7
49.96 *^
42
7.0 '7
31
^^ 87
12
17.I
17
41.5034
22.9 "•*
31
^7-7
^^•31 ,.
49.6
50.38
9.^ ,.
49-99 a
18.8
41.84 „
25.0
27.7
12.63 ^
48.2 •♦
50.77 ^^
"•5 1
50.81 **
/•, ^ 22
21.0 ^
42.16 3^
27.3 ,,
Aug. 6.7
12.92 ^9
47.1 "
51-13 _
^4-1 t
5'-57 '^
23-6 t
42-46 3°
29.6 »3
16.6
^3.18 l\
46.4 I
51.46 11
^7.0 \l
52-25 "
26.5 ''
42-73 ,;
3»-9 \\
26.6
13.41 'i
46.0 *
28
51.74,!
^9-9 !'
52.84 "
297 ,:
42.96 '3
34.1 "
19
I
24
30
48
35
»9
21
Sept. 5.6
13.60
13.76 ^
45.9 ,
51-98 ,^
22.0
53.32 „
33-2 „
43»5 ,6
43-31
36.2
15-5
46.2 3
52-17 ;'
26.0 3»
53-^9 ^I
36.9 ^!
38=^ '^
25.5
13.87 "
13.95 ^
46.8 \
52.31 I
29.0 30
26
53.95 ,^
40.6 37
43-43 ^
40.1 '9
Oct. 5.5
47-7 ,^
52.40 ;
31-9 ''
54.09 ;
44.3"
43.52 ^ 41.8 '
43.58 \ : 43.2 ;t
15.5
13.99 \
48.7 '°
13
52.45 I
34.6 '7
^ 10
4«° 5
25.4
14.00
49-9
52-45 .
37.1
54.01
51.6
43.60
44-4 ,0
Nov. 4.4
13.98 '
51.2 3
52.41 g
52.33 „
39-^ \l
53.79 "
54-9 "
43.59 ^
45.4 '^
14.4
13.93 I
52.5 \\
42.9 1^
53.47 ^^
57-9 f^
60-S^t
43.55 6 4^-2 r
43.49 .46.7 !
24.4
13.86 7
13.78 *
xo
53-7 "
52.22
53.04 ;;
Dec. 4.3
54-9 "
10
52.08 "^
>7
44.2 I
52.53 ^
59
^-7 ;j
43.42 ,;
47.0 ^
14.3
13.68
55.9 „
56.7 !
57.3
5^91 ,„
45.0
5'-94..
5'-^«69
50.59 ^
64.3 ,,
43.32 I47.0 ^
24.3
13.57
51.72 ''
45.3 ;
65.4 "
43.21
46.8 '
34.2
13.46"
51.52 '"
45.2
65.9 ^
43.09
46.3 *
Sec 6, Tan 6
1.054 -0.334
1.489 +MO3
3.745 +3.609
1.093 +0.441
Mean Place
io».38i 69".82
48".96i 10". 61
48V984 26".07
40».273 i9".o4
ly^a, D«a
0.00 .K>.03
•K).oi -0.07
+0.02 -0.24
0.00 -0.03
D^<f,D«.(I
+0.4
+0.2 1
40.4
.K>.2 1
40.4
40.2 1
40.4
40.2
[Bph 19]
APPARENT PLACES OF STARS, 1912.
293
FOR THE UPPER TRANSIT AT WASHINGTON.
7) Cassiopeifle.
(^ Pisoium.
A. Hydri.
20 Ceti.
Mag. 3.6
Mag. 4.6
Mag. 5.0
Mag. 4.9
Mean Solar
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
UonN.
Ascension.
tion S.
Ascension.
tion S.
h m
e '
h m
e
f
h m
•
h m
0 r
0 43
+ 5720
0 44
+ 7
f0
6
0 45
-7523
0 48
- I 36
Jan. 0.3
s
44-95 ,„
74.6
6.46
22.6
^
s
54.64 ,«
33.86 78
89-3 ,
8
30.21
81.6 ^
82.2 ^
10.2
44.66 ^9
74.4 \
6.36 '°
22.0
0
88.6 7
30.10
20.2
44-37 !a
73-6 ^
6.25 "
21.3
7
33-12 74
873 ^\
29.99 "
82.7 3
30.2
4409 'J
70.8 "*
20
20.7
6
32.43 J^
•85.5 *
^^ Q<> 10
29.89
83.2 5
Feb. 9.1
43.83 ^J
22
6.05 3
20.1
0
6
31.81 ^^
53
«3- :^
29.80 \
^ 8
83-5 \
19.1
43.61
68.8
5-97 -
5-91 t
19-5
31.28
804 „
29.72
83-7 „
29.1
43-44 ';
66.5 ^3
19.1
4
30.85 43
77-2 3^
29.66 ^
83.7 \
Mar. 1 0.1
4332 '
64-1 \\
5.88 3
18.8
3
3°-53 ^^
73-7 ^^
29.63 3
83-5 ^
20.0
43.27 \
61.6 ^5
5-89 '
18.7
I
20
30.33 %
70-0 37
29.62 *
83-1 4
30.0
43-30 3
59-^ ''
5-93 \
18.8
I
30.26 '
66.2 38
29.65 a
82.4 I
II
23
8
3
7
39
8
9
Apr. 9.0
43.41
56.8 ,^
6.01
19.1
6
3^-33 ,^
62.3
29.73 , ,
81.5
19.0
43-59 '
43.85 '^
54-7 "
6-»3 \\
19.7
20
30-53 „
58.4 ^9
29.84 "
30.00 '^
80.4 "
28.9
53-0 '7
6-30 '^
20.6
9
30.86 33
54.7 ^\
79.1 i
May 8.9
44.18 33
51.6 '^
6-5° !
21.7
II
31-32 ^\
5'-^ '!
30.20 ^°
77-5 «
18.9
44.57 _
50.7 \
6-74 1
23.1
14
^^•^ L
47-8 "
30.44 !1
75.7 ,^
44
4
28
16
69
30
27
19
28.8
45.01
50.3 ,
7-02 _
24.7
n
32-59 „
44-8 ,
30.71 ^
73-8^
June 7.8
45-49 '^-
I
50.4 '
7-32 3«
26.5
18
33-36 77
42.2 ="*
31.00 ^9
-J^f \\
17.8
45-99 ;°
0
7-63 ^'
28.5
20
34" °^
4°-^ 'fi
3^-31 ^'
69.6 "
27.8
46.505
52.0 '«
7-95 f.
30.5
20
35" Z
38-5 0
31.63^'
67-5 "
July 7,7
47.01 5^
53-5 f
8.28 33
32.6
21
36.04 93
37.5 '°
31-95 _
65-4 "
50
19
32
20
93
5
32
20
17.7
47.51
55-4 „
8.60
34.6
36.97 „.
370
32.27 _
^3-4 «
27.7
47.98 47
57-7 '^
8.90 3°
36.6
20
37-88 9
37-1 '
3^-57 ^°
61.6 '*
Aug. 6.7
48.41 43
9'8 'J
38.5
19
- 0
38-73 !^
37-8 .!
32.86^9
60.0 '^
16.6
48.80 39
63-2 '9
9-44 '
40.3
18
16
39-50 "
39° 8
33.12 ^J
58.5 ;^
26.6
49.1434
66-3 ^'
9.67 ^3
41.9
40.17 ''I
40.8
22
33.34
57.3 "
29
32
19
13
56
23
19
9
Sept. 5.6
49.43 ^,
69-5 „
9-86
43.2
40.73 ,,
430 ,fi
33.53 .
56.4 ,
55.8 \
155
49.66 ^3
72.8 33
lO.OI ^
44.3
II
4'-»5 t'
45-6 ^!
33.69 t
255
49-84 ^
76.1 33
^1
10.13 "
45.2
9
41.42
^»-+ !
33.82 '3
55.4 ;
Oct. 5.5
49.95 \
79-4 Z
10.22 9
45-9
7
41-53 "
5^-4 Z
33.91 ^
55.2 ^
155
50.00 5
82.5 3'
10.27
46.4
5
41.48 5
54-4 3°
3396 :
55.3 \
0
29
2
3
21
30
2
3
25.4
50.00
85-4 „
10.29 _
46.7
41-27 ^^
57-4 ,-
33.98
55.6 ^
Nov. 4.4
49.95 ^\
88.1 ^7
10.29 ^
46.7
0
40.92 35
60.2^*
33.98 \
56.0 4
14.4
49-84
9°-5'^
10.26 3
46.6
I
40.44 ^°
62.6 ^4
33-95 ;
56.6 ^
57.2 ^
24.4
49.69 ^
94-1 ,,
10.21 5
46.3
3
39.85 ^^
64.6 ^^
33.90 5
33.84 \
Dec. 4.3
49.50 '^
10.14 \
45.9
4
39.18 ^7
66.1 '5
57.9 !
23
12
9
5
74
9
0
7
14.3
49.27 ^,
95.3 ,
10.05
45.4
^
38.44 „
67.0
3376 ,„
58.6
24.3
49.01 ^
48.73 '^
96.0 7
9.96 9
44-9
5
6
^7-67 J^
67.4 \
33.66 °
59.3 ^
59.9
34.2
96.1 '
9.86 '°
44.3
36.89 78
67.2 ^
33-56 '°
Sec <5. Tan &
1.854 +1.561
1.008 +0.12
55
3.968 '3-839
1. 000 -0.028
Mean Place
46».i25 59".54
6".92I 22".8i^
\
32-.752 67".82
30".554 78".43
D'l^ a, Dm a
+0.01 -O.IO
0.00 -0.01
\
-0.02 +0.26
0.00 0.00
D,^(5, Dmc'
+0.4
+0.2
40.4
+0.2
+0.4
+0.2 1
+0.4
40.2
[Eph X2]
294
APPARENT PLACES OP STARS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
y Cassiopeiie.
/e Andzomedn.
a Sculptorls.
€ Pisdnm.
Mean Solar
Mag. 2.2
Mag. 3.9
Mag. 4.4
Mag. 4.4
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion N.
h m
0 *
h m
0 1
h m
0 t
h m
0 r
0 51
+ 6014
0 51
+38 I
0 54
-2949
0 58
+ 724
ff
Jan. 0.3
8
22.06
414 ^
8
51"
30.3
s
21.92
71.4
s
22.10
60.0
10.2
21.73 33
0
41.4 ,
40.8 f
50.95 ^l
50.79 ,,
50.63 !
50.47 '^
13
29.9 ^
21.78 '^
717 i
21.99 "
59.4 t
20.2
21.40 33
29.2 7
21.64 ;^
7^-7 ^
21.88 "
58.8 ^
302
21.08 32
39-7 11
38.1 "^
19
28.1 "
21.50 ]^
71.4 3
21.77 '^
58.1 7
Feb. 9.2
20.78 3°
26
26.7 '^
15
21.38 "
II
70.7 7
II
21.67 *°
9
57.5
0
19.1
20.52
36.2 ,,
50.34 „
25.2
21.27
69.6
21.58
57-0
29.1
20.31 "
34.0 "
10
50.24 "
^3-5 \l
21.18 9
68.2 '^
21.51 7
56.6 *
Mar. 1 0.1
20.16 '5
28.9 't
50.17 I
21.7
21.13 I
66.5^7
21.47 ^
56.3 ^
20.0
20.09 ^
50.15 ,
20.0 ^l
18.4 '^
21. II
^4-5 !:
21.46 '
56.2 1
300
20.10 *
»<^-4 2
50.18 I
21.13 I
62.2 ^3
21.48 ^
56.3
9
34
8
15
6
24
7
3
Apr. 9.0
19.0
20.19
20.37 1:
24.0
21.8 "
50.26
50.39 .
16.9
15-7 ''
21.19
II
21.30
57-2
21.55
21.66 "
56.6
57-2 °
28.9
20.63 ^^
19.9 !'
50.58 11
14-9 *
"•45 11
54-4 !
21.81 '5
58.0 °
May 8.9
20.96 33 18.4 '5
50.82 11
H-4 .
21.65 '°
51.6 '«
22.00 '^
59.1 "
18.9
21.36 40,7.3';
51.10 '»
33
1
''■' 3
"•^ It
48.8 11
22.23 ^^
27
^•4-
28.9
21.82 j 16.7
51.43 „ ' 14-6 ,
22.17 .
46.0
22.50
62.0
June 7.8
22.32 ^° ; i6.6 '
51.78 35 15.2 6
22.47 3
43.3 ^7
22.79 ^^
637 11
17.8
22.85^^ 17.0 2
52.1537 16.3"
22.80 33 40.8 ^^
23.10 3'
65.6 '9
27.8
23-39 „ 17.9 _;
52.533* 17.8 5
23.15^^ 3».6"
23.42 3^
67.6 '°
July 7.7
23 94 r, 193 ,1
53 '<*
52.92 39 19.5 11
23.50 3^ 36.6^?
23.75 ^3
^^ « 21
697 _
37 . 31
35
10
32
20
177
24.47 21. 1
53-29 ,,21.6
23.85 ,^ 35.0
24.07
7^-7 _
27.7
24.97 ^ 23.3 ,^
25.44 7_ 25.9^.
25.87^3 28.7^®
53-653 23.9 '3
24.19^; 33.8 "
^438 3;;
73-7
Aug. 6.7
53-98 33 ,6324
24.503' 33.0
24-67 '^ 75.6 ^9
16.6
54-28 3° ,8.9 '*
54-55'' 31-5 „
24.79;^ 32.7 ^
25.05 :t 32.8 '
^^•93 V" 77 3 ]l
26,6
26.243' 31.8 3'
25.17 '4 78.9 '^
3^ 32
*3 27
31 4
20 14
Sept. 5,6
26.56 35.0 ^^
54.78 34.2
54.97 ^ 36.8 ll
25-27 ., 33.2 ^
25 45 ' 34-1 9
2537 ., 80.3
156
26.S1 -^^ 38.3 33
25.54*7 81.4"
255
27.01 -^ 41.7 34
55.12 5 39.4 '«
25-58 3 35.3 »
25.67 '3 82.3 9
Oct. 5.5
27.14 f 45.1 r:
55-22 »o ^,.8 ^4
25.68 '° 36.8 "5
25-73 ; 38-4 ;;
25-77 'I 83.0 7
155
27.21 ' 4S.3'*
0 ^ "^ 31
55-29 ; +♦•<>,,
25-83 J 83.5 I
354
27 21 51.4 ^^
55.32 46-1
55 3 » ' 47-9 °
25-74 , 40.2
25-87 . 83.7
Nov. 4.4
27.16 ; 54.3:^
25.72 • 42.1 "^
25.88 ' 83.8 •
144
27.05 " 5^.8 -^
55.^7 : 49-4 ,,
25-f7 , 43-8 :
25-50 .;: 45-5 ■
25.S6 ] 83.7 ;
544
2t».:vS • ^ao *"
55.20 ■ 50.0
25.82 * 83.5 '
Dec. 4.J;
25 14
55-IO -; 5.-5 :
25-40 ;: 4r-o ::
2576 : 83.1 ■♦
« 4
145
20.42 D2.2
540$ _ 52 1 ^
25.57 ^ 4S.2
25.69 82.7
543
20.13 ^3.0
54^^ 1 52.3 :
25.24 ;^^ 40.2 ''^^
25.00 9 82.1 ^
.u.^
25,82 3» ^;,. 3
54.00 52.1 -
25,10 '* 40$ '^
25.50 '° 81.5 ^
Sec**. Tar.
.:.v^i5 ♦i.*40
1 :c^ -<v-S..
1.1^5 ^Vx-j;
1.008 *o.i30
Mcjm rUoe
jy .45 .-5 5^
5x» ^^x^ 10 00
^iVciS 50 CH
.-.-U:4 50' -64
P 4 - . IX *
-Ov>l -CVH
v\vX» ~av\<;
CVvX> *vVCV4
0x0 -0.01
IX* > K.-^
•v\4 *<\2
'KV4 ♦^vi
•\V4 ^vi -<X4 •KX3
:i
Ki>^ u:
APPARENT PLACES OP STARS, 1912.
295
FOR THE UPPER TRANSIT AT WASHINGTON.
ft PhoenioiB.
^ CassiopeiflB.
i/Ceti.
/3 Andromeda.
Mean Solar
Mag.
3.4
Mag. 5.3
Mag. 3.6
Mag. 2.4
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
AscenaioD.
tion S.
Aacenaion.
tion N.
Aacension.
tions.
Ascansion.
tion N.
h m
e r
h m
• f
h m
•
h m
e »
1 2
-4710
»f
I 2
+ 5429
ft
1 4
-1038
1*
I 4
+ 35 9
Jan. 0.3
9-79 ^,
lOI.O
8
23.44 _
36.0
8
0.61
^ • T
60.1
60.7 ^
61. 1 *
8
47-40
25.1 ,
10.2
20.2
957 „
936 "
IOI.2
100.9 a
23-19 J
22.93 ;^,
35.9 I
35.3 _
9.39 ,,
47-25 ,^
47-09 :°
24.8 3
24.1 7
30.2
21
9-^5 .'
8
100. 1
22.68 ^5
34.3 ^
927 ,^
61.4 3
46.93 t
23.1 _
Feb. 9.2
8.96*9
98.8 'I
22.44 It
32-8 ^
9.17
61.4 °
46.78 ^
.%w ^ 12
21.9
»7
18
21
18
9
2
J3
14
19.1
^•79 ,.
97° „
22.23
3^-o,.
9.08
9.00 I
61.2
46.65 „
20.5
29.1
8-^5 \l
94.9
22.06 '7
28.9
60.7 5
60.1 *
46.54 "
19.0 5
Mar. 1 0.1
8.55 '°
21.94 "
21.88 ^
26.6 '3
8.95 ^
46.47 ;
^7-4 '
15.8 J
20.0
8.49 ;
24.2 ^t
8.93 '
59.2 9
46.44 3
30.0
8.48 '
5
86.6 3°
32
21.89 I
21.9 =^3
23
8.95 '
0
58.0 "
14
46.45 g
14.3 '^
13
Apr. 9.0
8.53 „
83.4 „
21.97 ,^
^9-^ o«
9.00 ,„
56.6 ^,
46.51 „
13.0
19.0
8.63 °
80.1 33
10
22.13 „
^7-6 8
9'° !
54-9 '
46.63 "
12.0 ^
28.9
8.78 '5
76.7 f
22.36 3
^5-8 !
9-^4 ^
53.1 '!
46.80 '7
II. 2
May 8.9
18.9
925
73.3 ;;
70.0 33
23.01 ^^
14.4 '^
13.4 '°
9-43 11
965 "
51.1 '°
.Q « 22
48.9 „
22
47.02
47.29 11
10.8 4
10.7 I
3J
3«
40
5
26
33
30
3
28.9
956
66.9
23.41 ,,
12.9
9-91 ^ft
46.7 „
47.59 _
II.O
June 7.8
991 ,a
64.0^9
23.86 ^5
12.9 °
28
44-4 ^
47.93 1;
II.7 7
17.8
10.29
^'•5 ^
2434 ,^
13.3 ^
10.50 3*
4^-^ 3
48.29 3;
12.8 "
27.8
10.69 *°
22
59-3 ,„
2483 1^
^4.2 ,:
10.82 32
39-9
48.66 37
'4-2 !!
July y^y
II.IO*'
57.5 \\
25.32 "[^
^5.5 \l
".14 f.
37-8 !
49.04 *,,
^5-9 ^
4»
13
49
17
33
X9
37
19
17.7
11.52
56.2
25.81 ..
17.2
"•47 _
35-9 ,
49.41 __
^7.8 „
27.7
11.92 *^
55-3 \
26.27
^9-3 :
11.78 3^
34-2 I
49.76 li
20.0 "
Aug. 6.7
12.30 3"
550 ^
26.71 44
2^-7 !
12.07 ^9
32.8 ^
50.10 ^^
22.3 11
16.6
12.66 3*^
55-3 ^
27.11 4^
27.47 f ,
24.4 ^a
12.34 J
31.7 "
30.9 ,
50.40 3^
24.8 1\
26.6
12.97 ^'
56.0 I
/*^ « 28
^7.2 ^^
12.59 _
50.67 11
27-3 It
27
13
31
30
21
5
24
25
Sept. 5.6
"3-^4 „
57-^ ,fi
58.8 ll
27-78 .
28.04
30.2 ^,
12.80
T T
30.4 ,
5°-9» „
29.8
5A
15-6
13.46 "
33.3 t.
12.97 _;
30.3 ,
51.27 ll
32.2 J*
255
1362 '^
60.8'°
28.25 "
36.5 ^:
^3." ,^
30.4 '
34.6 ^^
Oct. 5.5
1372 '
13.78 I
63°"
28.40 '5
39-5 ^:
13.21 '^
30.8 4
51.39 "
51.47 J
36.8 "
155
^54 :^
28.50 '^
4
42-5 ^^
29
13.28 7
31.5 I
38-9 :;
25.4
13.78
68.0
28.54 „
48.0
13.32
32-3 „
51.52
40.8
Nov. 4.4
13.73 .„
7°-4 '*
28.54 I
28.48 ^
13.32
33.2 9
51.53 ,
4^-5 I
14.4
13.63 °
72-8 !t
5^-3 ^
13.30 ^
34.2 °
51.51 I
43.9 t
24.4
13.50 3
^3-34 ,,
76.7 ,^
28.38 '"
5-3 Te
53.9 ,,
13.26 ^
13.20 g
35.3
51.46 5
5-38 ,:
45.0 "
Dec. 4.3
^^-5 :^
36.4 •;
45.9 I
14-3
13.15 „
78.1
28.07
55-1 ,
13.12
37.3 „
51.28
46.4
243
20
^2-95 _
79.0 9
27.86 ^^
55.8 I
13.02 1°
38.2 I
5'-^5 \l
46.6 '
34.3
21
12.74
79.6 ^
27.62 ^
56.0 '
12.92
38.9 ^
5101 '4
46.4 "
Sec <5, Tan 6
1.472
-1.080
1.722 fi.402
1.018 -0.188
1.223 +0.704
Mean Place
9V407
84". 48
24'.358
2I".00
9*-775 54"-34
48".oo9 15". 21
D'^a, D«tt
-O.OI
40.07
+0.01
-0.09
0.00 +0.01
+0.01 -0.05
D^ <f , D« <J
+0.4
+0.3
+0.4
+0.3
+0.4
+0.3 1
40.4
40.3
[Eph lal
296
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
r Piscium.
C Pisoium.
/c Tucaiue.
f Piscium.
Mean Solar
Mag. 4.7
Mag. 5.6
Mag. 5.0
Mag.
53
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tions.
Ascension.
tion N.
h m
e 1
h m
0 *
h m
e •
h m
0
I 6
+ 2937
I 9
+ 76
I 12
— 6920
I 13
+ 39
Jan. 0.3
48!o7
29-9 ,
7-63 , ,
37-6
370 °
36.4 ^
35.8 \
35-2 °
48*75 „
56.6
15.28
WW
4.0
2.8 ^
10.2
47.93 J
29-5 t
28.9 ;
7-52
48.22 53
CO
56.5 '
55.7 „
15.17
20.2
47.79 ,,
7-41
47-70 *,
15.06
30.2
47.65 t
28.0 9
7.30
47-19 *
54-4 \l
14.95
2.3 3
Feb. 9.2
47.52 \l
26.9 1;
7.19
46.72 y
52.5 •'
14.84 "
1-9 4
13
»3
9
5
42
23
10
4
19.1
^^7-39 ,„
25-6
7.10
7.02
6.96 ^
34.7 ^
34.3 ;
46.30
45-94 3
50.2
47-4 \\
^^■It 8
'•5 J
29.1
47-29 ,
47-23 \
24-3 \l
14.66 "
'•3 '
Mar. 10. 1
22.9 *
34.0 \
45-65 ^^
^■^Z
14-61 \
1.2 *
0%
20.1
47-20 \
21.6 '3
T 0
6.94 ^
33.9 '
45.45 \°
40.8 34
37.2 3^
38
14-58 3
'-^ ,
30.0
47.21 ^
20.4
10
6.96 ^
5
34.0 '
3
45.34 '^
14-59 ^
^•7 ^
Apr. 9.0
47-27 „
19.4
7.01
34.3 .
34.9 ^
45.32
45.40
45.58 '^
33-4 „
14.64
^•3 8
3-1
19.0
*7-3» 6
47-54 '
18.7 \
7.II '°
29.5 ^'
14-73 ,;
28.9
18.2 5
7-26 *5
35.8 9
25.7 2*
14-87 \X
4.1"'
May 8.9
21
48.01 f
I8.I '
7-44'!
3°-9 .,
45.86 'f
22.0 37
15-05 !
5-4 i
18.9
18.3 ^
7.66"
38.2 '3
46.23 37
18.5 35
»5-=^7 "
7.0 '6
29
5
26
«5
46
32
25
»7
28.9
48.30 ,^
18.8
792 ,„
39-7 „
46-69
^5-3 ,„
^5-52 ,.
»5-8o '«
8-7 ,0
June 7.8
48.62 3^
19.7 I
8.21 »9
41-4 !
47-23 5*
12.4 '9
10.5 »»
17.8
48.96 \\
21.0 '3
8.52 3'
43.3 ''
47-83 f
9.9*5
16.10 30
12.5 '**
27.8
49.31 ^5
22.5 J5
8.84 3'
45-3 ::
48-47 *1
7.8 '
16.42 \\
H.5 ^°
July 7.8
49.66 35
^4.2 ^
9.16 3'
^« ^ 20
47-3
49.15 f
6.3 '3
'6-74 i.
16.6 "
36
20
32
20
69
10
32
20
17.7
50.02
26.2
9.48
49.3 ^^
49-84 -a
5.3
17.06
18.6
27.7
50.37 \\
28.4 "
9-79 ;'
5^-3 :
51.18 f
4-9 \
17-37 t'
20.5 ;^
Aug. 6.7
50.69 f
30.7 2^
10.09
53.2 '9
5-^ «
»7.67 3°
22.2 I
16.6
50-9« !^
33.0 ^^
10.36 '7
54.9 'I
51.79 1
5.9 '
27
17.94 ,,
23.8 1*
26.6
51.24 ''
35.3 !^
10.60 '4
56,5 ""^
52.34 "
7-2 '3
18.18 '4
25.2 '4
23
23
31
13
47
18
22
12
Sept. 5.6
51.47
37.6 ^
10.81
57.8
52.81
9.0
18.40 _
26.4
15.6
51.66 |9
X^ Q 22
39-8 ^
10.99
58.9 "
53.19 r
11.3^^
18.58 '*
27.3 ^
25.5
51.82 "^
4' -9"
"•14 ^
59.8 ^
53.46 ^7
^3-9 t
18.73 'f
0
27.9 °
Oct. 5.5
51.94 "
*3-8 I
11-25 '•
60.4 J
53.63 'I
53.69 J
16.8 ^9
18.84 a
18.92 \
28.3 4
15-5
52.02
45-6 ^
"•33
60.8 4
19.8 3<>
28.5 1
5
16
5
2
6
30
5
0
25-5
52.07
47-2 ,^
11.38
61.0
53.63 .
53.47 J
22.8
18.97
28.5
Nov. 4.4
52.09
48-6 1
11.40
61. 1 *
9
^5.7 ^^
18.99 *
28.3 ^
14.4
52.07 ^
49-7 "
11.39 '
61.0 '
53.22 5
28.4 ^7
18.99 °
28.0 ^
24.4
52.03 ^
50.6 I
11.36 3
11.30
60.8 ^
52.88 34 30.8 ^4
18.96 3
27.5 ^
Dec. 4.3
51.96 7
60.4 4
52.46 4^ 32.7 ^9
18.91 I
27.0 5
9
3
7
5
47
14
7
6
14-3
51.87 „
5'-5 0
"-23 g
11.15
59-9 ^
5'-^ ,0
34-^ 8
34.9 \
18.84 „
18.76 *
26.4
25.8 J
24.3
51.76
51-5 °
59.4 I
51.49^,^
34.3
51.64"] 51.3
11.05 '°
58.8 ^
50.96 ^^^
35.2 3
18.66 "°
25.1 '
Sec <5, Tan 6
1. 1 50 +0.569
1.008 +0.125
2.835 -2.652
1. 001
'K>.055
Mean Place
48».6o5 2i".7i
7'.938 36" .94
47V1II 36" .92
I5*.525
0.00
4".65
D'^ a, Dm a
0.00 -0.04
0.00 -o.oi
-0.02 +o.x8
0.00
D^ 6, Dm 6
+0.4
+0.3 1
+0.4
+0.3
•K>.4
+0.3
40.4
-K>.3
[Epb la]
APPARENT PLACES OF STABS, 1912,
297
FOR THE UPPER TRANSIT AT WASHINGTON.
V Piscium.
dCeti.
^ CassiopeiflB.
y Fhoenlols.
Mosn S^olar
Mag. 4.7
Mag. 3.8
Mag. 2.8
Mag. 3.4
Date.
Right
Dedina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
UonN.
Ascension.
tions.
Ascension.
tion N.
Ascension.
tion S.
h m
e
$
h m
0 •
h m
e 1
h m
e •
I 14
+ 2648
It
I 19
-837
I 19
+ 5946
I 24
-43 45
f0
Jan. 0.3
s
37-" ,,
14.0
A
8
3736 , ,
78.3 ,
s
62.10
58.8
8
3316 ^„
83.3 ,
10.3
36.98 \l
13.6
4
6
37-25 ; '
79.0 I
61.79^'
59-1 ,
32.96 11
83.8 5
20.2
36.85 3
130
3M4
79-5 ,
61.47 tl
58.8 3
32.76 V"
83.8 ^
30.2
36.71 t
12. 1
9
37.02 "
79.8 3
61.1433
58-^ ,1
3^-55 ''
833 ,i
Feb. 9.2
36.58 11
II. I
ID
36.91 "
79-9 .
60.83 ^'
56.9 "
32.36 'I
82.3 «»
12
II
II
I
29
17
18
J4
19.1
36.46 ^^
1 0.0
36.80
79-8
60.54 ^,
55-2 _
32.18
80.9 ,
29.1
36.36 ^^
8.8
12
36.71 I
36.65 I
79-5 I
78.9 J
60.30 ^4
20
53-2 ,,
32.03 ,^
79' ll
Mar. 1 0.1
36.29 7
7.6
12
60.12 '®
5^° Z
31.91 "
769 "
20.1
36.25 I
6.4
12
36.62 3
78-' ,0
60.00 "
48.6 I*
31.83 I
74.3 It
300
36.25 ^
5.4
ID
0
36.62 ""
77-^ .,
59.95 ^
46-^ ^^
31.79 :
7^-5 !'
5
8
4
13
24
I
30
Apr. 9.0
36.30 ^ ^
4.6
6
36.66
36.74 „
75-8 ,^
59.99 ,,
43-7 „
31.80
^^•5 „
19.0
36.41
4.0
74.3 5
60.12 '3
4^-4^3
31.87 7
65-3 3'
29.0
36.56 '^
3.6
4
36.87 3
72.6 7
^^•34 "
39.4 ^
31.99 ,,
62.0 33
May 8.9
36.76 V"
3.6
0
37.04 ';
70.7 '
60.63 ^l
60.99 ''
43
37.7 ]l
32.16 '7
58.6 34
18.9
37.00 ^^
3.9
3
7
37.25 :;
68.7 *°
22
36.4 '3
32.39 ^^
27
55.4 3^
32
28.9
37.28
4.6
37.49 ,0
6^-5 „
61.42
35-6
32.66
52.2
June 7.8
37.59 ;'
5.6
ID
28
37.77 ,^
64.3
61.8947
35-2 7
32.97 „
49.2 3^
17.8
37.92 ^^
6.8
12
38.07 3^
62.0 ^3
62.40 5'
35-3 '
33.32 35
46-5 11
27.8
38.26 3^
8.3
15
« 0
38.38 11
59.8 "
62.94 34
35-9 ,^
33.69 37
44.1 4
July 7.8
38.61 35
10. 1
18
38.70 3^
57-7 "
63.48 34
36.9 '°
34.08 11
42.0 "
35
20
32
»9
55
«4
40
16
17.7
38.96
12. 1
39.02
55-8 ,0
64.03
38.3
34.48 ^^
40.4
27.7
39.30 34
14.2
21
39.33 ^_
54.0 «
64.56 33
40.2 9
34.86 3
35.24 t.
39.3 "
Aug. 6.7
39.62 3
16.3
21
39.63 3^
3991 ^,
52.5 ^
^5-o6 30
42-4 ^^
38.7 I
16.7
39.92 3°
40.18 ^^
23
18.5
22
51.3 'I
65.52 4^
45° '«
35.58 34
38.7 I
26.6
20.7
22
22
40.16 ""^
22
50.4 ^
65.93 -
47.8 =*«
30
35.90 3g
39.1 ^
9
Sept. 5.6
40-41 ^^
22.9
40.38
49-8
66.30
50.8
36.18 _
40.0
156
40.61 ^^
40.77 ;!
25.0
21
40.57 ^
49.5 ,
66.61 3^
66.87
54.0 3^
3^-41 ]l
41.4 '4
43 * !o
255
26.9
19
18
16
14
40.72 5
49.6 ;
57.2 3^
36.60 '9
Oct. 5.5
40.90 'I
28.7
40.84 'I
40.92 ^
49-9 I
67.06 '^
60.5 33
36.73 '«
36.81 I
4
45-2 Z
15-5
40.99 ^
30.3
50.4 ,
7
67.19 'I
63.7 3^
31
47.6 '4
24
25-5
41.05
31.7
40.98
51. 1 „
67.26
66.8
36.85 ,
50.0
Nov. 4.4
41.07
32.9
12
41.00
52° ,0
67.27 '
69.7 ^9
36.83 I
5^-5 !
14.4
41.07 °
33-9
10
40.99 '
530 ,^
67.22 3
7=^-4 11
36.78 3
54.9 l\
24.4
41.04 3
40.98 I
34.6
7
40.96 3
540 ,^
67.12 11
74-8 ^
36.68 ^°
57-2 '
Dec. 4.4
35-1
5
3
40.91 5
66.96 '^
21
7^« ^6
3^-56 ;^
59- :^
14.3
40.90
35-4
^^
40.84
56.0
56.8 ^
57.6 ^
66.49 ll
78.4 „
36.40 «
36.22 '^
60.7
24.3
40.80 '°
35.4
0
40.75 ,^
79-5 .
62.0 '3
62.8 *
34.3
40.68 "
35.2
2
40.65 ^°
66.21 ^*
80.1 ^
36.03 '9
Sec S, Tan S
1. 1 20 40.505
1.012 -0.152
1.987 +1.717
1.385 -0.958
Mean Place
37«.566 6".47
r
37*.455 73".83
62".942 42".30
32».676 68".58
DV a, D« a
0.00 -0.0^
\
0.00 +0.01
+0.02 -0.1 1
-0.0 1 +0.06
D^ d, Dm 6
+0.4
+0.3
■fo.4
+0.3
+0.4
+0.3 1
+0.4
+0.4
[Eph X2]
298
APPARENT PLACES OF STARS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
88 Cassiopeitt.
ff Piscliim.
40 CassiopeiflB.
V Andxomedse.
Mag. 6.0
Mag. 3.7
Mag. 5.5
Mag. 4.2
Maan SoUr
Data.
Right
Daclina-
Right
Declina- |
Right
Declina-
Right
Declina-
Aacenaion.
tion N.
Aacanaion.
tion ^
I.
Aacanaion.
UonN.
Aacanaion.
tion N.
h m
• »
h m
•
»
h m
e '
h m
• t
I 24
+ 6948
I 26
+ 1453
0f
I 31
+ 7235
0
I 31
+ 4057
Jan. 0.3
3867 ,„
62.1
a
46-03 ,,
36.9
a
26.59 ,0
50. 1
50-9 ,
37-" ,f,
36.96 ^
36.78 8
68.7 ^
10.3
38.18 *9
62.7 J
45-92
36.4
5
6
26.01 5»
25.39 ll
68.7 °
20.2
37.66 5^
62.7 °
45-80 "
35.8
51.0 ]
68.3 ^
302
37.14 t.
62.1 ^
45-68 "
35.1
7
^4-77 ^
'^''^ 56
50.6 ^
36.59 \l
36.41 •*
17
^7-5 ,f
Feb. 9.2
36.63 11
61.0 "
16
45-56 "
II
34.4
7
7
49-6 ,^
66.5 '°
13
19.1
36.17 .„
59-4 ,„
45-45 ,„
33-7
23.61
'^■° ,n
36-24
^5-2 ,
63-6 \t
29.1
35-77 ,,
57-4 °
45-35 ,
33-0
7
6
23.12 ^^
-/:;«. 20
36-09 5
Mar. 10. 1
35-45 ^,
52-4 ,s
45.28 I
32.4
22.73 il
43-7
41. 1
35-98 "
61.9 *'
20.1
35-24 "
45.24 *
31.9
5
22.46 ^7
35-91 I
60.2 '7
30.0
35.14 ':
49.6 ^^
45-24 ^
4
31.5
4
I
22.31 '^
I
3«-4 :^
35-88 5
5«-5 :^
Apr. 9.0
35-*^ ,.
46.9 ,^
45-28
45-36 «
31.4
«
22.30
» 4
35-6
35-91
5^-9 IS
19.0
3530 '*
35-56 ll
31.5
I
22.44 .;
32.9 7
36.00 ^
1 e
55-5 ^
29.0
41.9 't
T 1
45-49 ,^
31.8
3
22.71 '
30-4 '5
36.15 ^^
54-3 "
May 8.9
35.94 :„
39.8
45-66
32.4
6
23.11 *
28.1 ^3
3^-36 "
36.62 ^^
53-4 I
18.9
36.42 *°
38.1 'I
45-88 "
33-3
9
23.64 "
26.2 '9
52.9 .
57
13
26
II
63
«4
30
I
28.9
3^-99 ,,
36.8
36.0 J
46-14 .g
46-42 'f
34-4
24.27
24.8
36.92
52.8
June 7.8
37-63 ^*
35.8
14
16
18
24-98 7'
23-9 I
37.26 3^
53-0 ^
17.8
38.32 ;^
35.7 ^
46.73 ^;
37.4
25-75 "
'^•57 ll
23-4 *
37.63 ^^
53-^ 10
27.8
39-05 "
36.0 ^
47.05 ^,
39.2
23-4 Z
38.02 39
54-6 !•
July 7.8
39.80 75
36.7 :
47-38 33
41. 1
19
27-41 r
24.0 *
38.41 11
56.0 «4
74
12
33
J9
85
II
40
16
17.7
40-54 „
37.9 ,,
47-71 „
43.0
28.26
25-^ ,c
38.81
57-6 .„
27.7
♦'•2^ I^
39.6 1]
48-03 1'
45.0
20
29.09 °3
26.6 '5
39.20 39
59-5 11
Aug. 6.7
41-95 2
41.7 ^^
48.34 1'
46.9
19
29.88 79
28.6 ^'^
39.57 ,^
^'•7 "
• 16.7
26.6
42.59 I
43-17 *
5«
44.2^5
TZ^ 28
47.0
31
48.62 "^
48.88 '^
23
48.8
50.6
19
18
16
30.62 74
3-30^
33-8 3_
39.91 34
"^I
40.22 •**
^ 28
64.0 ^3
66:4 '4
25
Sept. 5.6
43-68
50.1
49-" ,„
52.2
31.90
36.9
40.50
68.9
156
44-12 *t
53-4 Z
20
49-31 ^°
53-7
15
32.41 ^^* 140.1 ^/
40.75 ,;
7X-4 ^
25-5
44-48 36
56.8 34
49-48 ]i
55.0
13
32.83 ^'
43-5 1:
40.96 ^'
73-9 li
Oct. 5-5
44-75 I
60.3^5
49-61 3
56.1
II
33.15 ^
47-0 35
76.3 ^4
15-5
18
44-93 „
63.8 f
49-71 '?
57.0
9
33.37 " : 50,6 3^
41.24 'I
78-7 t
0
35
7
7
II f
30
8
22
25-5
45-01
673 „
49.78
57.7
33.48
54-2 ,,
41.32
80.9
Nov. 4.4
45.00 ' 1 70.6 "
49.82 ^
58.2
5
33.48 °
57-6 34
41.36 ^
»^-9 8
14.4
44-90 , 73.y
♦♦•72 '! 1 76-5 11
49.83 '
58.5
3
33.38 1^ 60.8 3^
41.37 '
84-7 '
24.4
49.81 I
58.6
I
^^^•^« 0
63.8 11
41.34 I
86.2 '5
Dec. 4.4
44.45 '7 i 78.9 ^4
49-77 ;
58.6
0
32.88 3^
66.4 f
87.5 '^
35 20
6
2
40
21
10 : 9
143
44.10 80.9
49.71
58.4
32.48 1 68.5
41.18 88.4
24-3
43-69 J 82.4 'J
49.63 ,^
58.1
3
31.99^^
70.2 '
a *
41.06 '^'88.9 5
34-3
43.22 '♦^ 83.3 9
2.898 •» 3.720
49.53 '"^
57.7
4
>6
31.45 ^^
71.3"
40.91 -^ ,89.1 ^
Sec <^ Tan t^
1.035 -to-ie
3.343 -^3190
1.324 'K>.868
Mcun Place
39'.740 43".86
46V307 32".97
0.00 -0*0:
r
\
27'.647 31 ".38
37*.59« 56^.46
b>u, D-a
*o.o3 -0.18
♦^0.03 -0.20
♦0.01 -0.06
B^a.D^t)
+0.4
40.4
♦0.4
^.4
♦0.4
40.4
-0.4
40.4
[£ph It]
APPARENT PLACES OF STARS, 1912.
299
FOR THE UPPER TRANSIT AT WASHINGTON.
7C Plsciuin.
V Persei.
^ Eridani.
09 Cassiopels.
Mag. 5.6
Mag. 3.8
Mag. 0.6
Mag. 5.5
Mean Solar
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion N.
h m
•
h m
0 *
h m
0 •
h m
0 t
I 32
+ 11 41
I 32
+ 48 10
1$
1 34
-5740
I 35
+ 6735
0f
Jan. 0.3
25.65
33.0
34.48
71-9 ,
27.34 „
78.3 ,
47-59 ^,
72.4 .
73.0 ^
10.3
25.54
32.5 ^
31.9 .
34.28 ^^
72.0
27.03 3
78.7 t
47- »6 «
20.2
25.43 "
34.06 11
71.8 '
26.71 3^
78.5 I
46.70*^
73.1 '
30.2
25.31
6
31.3 °
33.84 "
7I.I ,;
26.39 '^^
77-7 „
46.23 *7
72.7 4
Feb. 9.2
25.19 "
II
30.7 I
33-62 "
20
70.0 ' '
14
26.09 „
76.4 'I
45.78 «
43
7^-7 X5
19.2
25.08
30.1
33.42
33.24 ,^
68.6
25-81 ,,
74.^ ,,
45.36
7°-2 ,„
29.1
24.98 '^
29.5 ,
66.9 '7
25.56 ^5
7^-4 "
69-8 'I
4498 38
68.3 11
Mar. 10. 1
24.91 I
29.0 f
33.10 '2
65° 11
25.35 "
44.68 30
66.0 =^3
20.1
24.87 ^
28.7 ^
33.01 ^
63.0 '°
25.20 ^
66.8 30
21
44.47 „
^3-5 :^
30.0
24.86 '
28.6 '
32.97 ^
6i.o ^°
25.10 ^°
635 ^^
44.36 "
60.9^^
3
I
3
20
3
34
0
26
Apr. 9.0
2489 «
2497 ,!
28.7
33.00
10
59° ,8
25.07
60.1 ,
56-5 ^!
44.36
55.7 '^
19.0
28.9 I
33- 10 '
57-2 «
25." ^
44.47 "
29.0
13
25.09 _
29.4 0
33-26 «;
55.7 ]l
25.22 ^
52.8 37
44.69 "
53.3 '4
May 8.9
25.26 '7
3°-2 ^^
3348 "
3376 "'
54-5 "
25.39 11
49.1 11
45.02 33
51.3 '"^
18.9
^547 "
3^-2
53-6 9
25.63 "^
45.6 35
45.44 *
49.6 '7
24
13
33
5
31
34
51
13
28.9
25.99 _
32.5 ,,
3409 ,,
53-1 ,
25.94 ^^
422 •
45-95 „
48.3 „
June 7.9
34-^ 6
35-6 «
34.46 37
53.0 *
26.31 ^'
39-^ ^8
36.3 'I
46.52 57
47.4 I
17.8
26.29
34.87 ^;
53-4 I
26.72 4'
47-15 t^
47.0 *
27.8
26.61 3^
374 '
35.30 «
54=^ x!
27.1745
33-9 *
47-82 ^7
2
47.2 :
July 7.8
26.93 ^l
39.3 Z
35-73 ^3
55.4 "
27.64 47
^, *v 20
31.9 _
48.50 f
47.8 ^
33
20
44
15
48
15
69
II
17.7
27.26
4»-3 ,„
36-^7 ^,
58.7 '*
28.12
30.4 ^
49-19 ,„
48.9 ,
27.7
27.58 1'
43-2 !
36.60 ^3
28.61 49
29.5 ;
49.87 I]
50.5 '^
Aug. 6.7
27.88 30
45.1 '^
37-OI 4'
60.8 "
29.08 47
29.2 ^
50.52 ^5
52.5 '°
16.7
28.17 11
46.9 !
37-39 „
63.2 11
65-8 't
29.53 ^^
29.4 I
60
5^.9 ^t
26.6
28.43 '^
48.6 '7
37-74 ,,
29.94 "^^
30.2
51.68 56
57.6 ^7
23
15
31
27
36
14
50
29
Sept. 5.6
28.66
5°-^ .,
38.05
74.1 "
30-30 _
31.6 ,a
52.18
60.5
15.6
28.86 *°
51-4 ^
38-32 ^^
30.60 3°
33-4 !
52.61 '♦3
63.7 f
25.6
29.03 |7
52-5 "
38.54 8
38.72 °
30.84 "4
35.6 "^
52-96 35
67.0 33
Oct. 5.5
29.17 *
53-4 ,
76.8 11
31.01 '7
38.1 'i
53-24 '*
70.4 ^4
155
29.27 '^
54-1 !
38.85 '3
79-5 I
31.II ^^
40-9 '
53.44 '°
73.8 34
7
5
9
26
3
29
12
34
255
29.34 ,
54-6
38.94 ,
82.1
31.14 .
43-8 ,„
53.56
77.2
Nov. 4.4
29.38 ^
54-9 ,
38.99 ^
84.5 ^
31.10 ^
46.6 'I
28
49-4 ,^
53.59 ;
80.5 ^^
14.4
29.40 ^
550
38.99 °
86.7 "
31.00
30.84 ^
53.54 ,:
^3-6 11
24.4
29.39 . '
550 °
38.95 *
88.6 'I
90.^ ,0
5'-9 '^
53-41 ^3
86.4 ^;
Dec. 4.4
29.36 I
54.8 ^
38.86 9
30.63 ''
54.1 "
53.20 ^l
88.8 ^4
6
. 3
12
12
25
»7
28
20
14-3
29.30
29.22
54-5 ,
38.74 ,.
91.4 g
30.38
30.10 ^;
55-8 ^^
52.92
90.8
243
54-1 t
38-59 \l
38.41 •*
92.2
57-1 '3
52.57 ^^,
92.3 |5
34-3
29.13 ^
53-6 5
92.6 ^
29.79 ^
57-8 7
52.18 39
93.3
Sec^,Tan<5
1.02 1 +0.207
1.500 +I.II8
1.870 -1. 581
2.625 +2.427
Mean Place
25".868 3o".oi
35'.oi9 57".73
26".269 61". 28
48" .406 54".26
D'^ a, D« a
0.00 -0.0 1
+0.01 -0.07
-0.02 +0. 10
40.03 -0.15
I>^6,jy„6
+0.4
+0.4
+0.4
+0.4
+0.4
+0.4
40.4
+0.4
[Eph 12]
300
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
y Piscium.
^ Persei.
r Ceti.
0 Piscium.
Mean Solar
Mag. 4.7
Mag. 4.2
Mag. 3.6
Mag. 4.5
Date.
Right
Ascension.
Declina-
tion N.
Right
Ascension.
Declina-
tion N.
Right
Ascension.
Declina-
tion S.
Right
Ascension.
Declina-
tion N.
h m
e
•
h m
0 >
h m
• *
h m
0 •
I 36
+ 5
2
I 38
+ 5014
I 39
-1623
I 40
+ 842
Jan. 0.3
10.3
20.2
30.2
Feb. 9.2
s
50.89
10
50.67 "
12
50.55
12
5043
II
34.4
33.8
33.2
32.7
32.2
6
6
5
5
4
8
7.73
MP r-X 21
7.52
7-29 ^^
7.06 ^3
6.82 ^4
22
59-8
60.0
59-8 \
59-2 ,„
58.2 '°
14
58.88
58.76 \\
58.63 3
58.50 3
58-36 \\
68.1
68.8 7
69.3 5
69.5 '
694 ;
s
44.45 :
44.34
44-21 J
44-09 J J
56.8
56.3 \
55-7 ?
55-1 \
54-6 5
19.2
50.32
31.8
tf%
6.60
56.8
58.24
69.1
68.5 ^
67.6 9
66.4 "
43-98
54-^ ^
29.1
Mar.io.i
20.1
50.22 '
50.15 ;
50.10 5
31.5
31.4
31.4
3
I
0
6.41 '9
6.26 '5
6.15 "
"" 9
53-2 .0
51.2
58.13 ''
58.04 9
57.98 \
43-88 '°
43-80 »
43-75 ^
53-7 *
53-4 f
53-2 ;
30.0
50.09 ;
31.6
2
5
6.10 5
2
20
57-95 ;
64.9 ;^
43-73 3
53-2 ^
Apr. 9.0
19.0
29.0
May 8.9
18.9
50.12
50.19 7
II
50.30 '
50.66 ^°
24
32.1
32.8
33.7
34.8
36.2
7
9
II
14
16
6.12
6.21 9
6-37 '!
6.87 ^*
34
42.2 ^
5796 ,
58.02 ^
58.12 "^
58.26 "»
58-45 :^
63.2
61.3 '9
59.1 "
56.8 ^3
54-4 '-^
25
43-76
43-83 J
43-94 ,6
44-*° ,«
44-30 ^^
23
53-4 _
53-9 ,
54-6 7
55-5 '
56.6 ;;
28.9
June 7.9
17.8
27.8
July 7.8
50-90
51-17'^
51.46 "9
51.775;
52.09 •*■'
33
37.8
39.5
41.4
43.3
45.3
17
»9
19
20
20
7-59 '^
8.01 *^
8.4443
«-»9 :^
40.6
40.4 \
40.6 ^
58.68 ^
58.94 :j
59.22
59-53 \^
59-85 ^'
32
^'•9 25
49-4 ,^
46.9 '^
44-5 ^,
.^ .. 22
42.3
20
44-53 „
44.80^7
45-10 I
45-41 3
45-73 3
33
63.2 •*
65.1 ^9
20
17.7
27.7
Aug. 6,y
16.7
26.6
52-42
5^-74 ,„
53-04 3°
53-32 ^8
53.58 'J
23
47.3
49.2
51.0
52.6
54.0
19
18
16
14
12
9.35
9.79 ^^
10.22 ^^
10.61 39
10.98 37
33
*3-7 ,8
47-6 "
49-9 '^
52-5 '*
27
60.17
60.49 3'
60.80 3»
6109^'
^'•35 I
403
38.6 '7
37.2 I'J
36.2 '°
35-5 ^
4
46.06
46.38 3'
46.68 a*'
46.97 ^9
47.23 :j
67.1
69.0 ;9
70.8 »*
72.5 ;j
74.0 ;j
Sept. 5.6
15.6
25.6
Oct. 5.5
155
54.01 -
54.18 '7
54-32 \\
5443 J
55.2
56.2
56.9
57.4
57.7
10
7
5
3
I
11.31
11.60^9
11.84^^
12.03 ^^
12.18 '5
10
55-2 ,0
60.8 =*«
63-6 '8
66.4 '*
27
61.79'°
61.96 '7
62.09 '^
62.19 '"^
7
35-1 ,
35-2 ,
35-6 +
36.3 ,;
37.3 ::
47-47 „
47.68 '
47-85 ;
48.00 '5
48.11 '^
75-4 „
76.6 "
77-5 '
78.2 7
78.7 ^
0
25-5
Nov. 44
54.50
54.55 \
57.8
57.7
I
12.28
12.33 ^
69.1
71.6 ="5
62.26
62.29 ^
385 ,,
39-8 3
48.19
48.24 5
790
79-1 ,
14.4
244
Dec. 4.4
54.57 ^
54.56 '
54.53 \
57.4
57.0
56.5
3
4
5
12.33 °
12.29 J
12.21 ^
12
91
73-9 ,X
75-9 ,,
77.6 '^
13
62.30 \
62.27
62.22 ^
7
41.2 ">
42.6 ">
43.9 '3
12
48.26 ^
48.26 "
48.23 3
790 ,
78.8 '
78.5 \
14.3
24.3
54.47 ^
54.40 ;
56.0
554
6
6
12.09 ,,
"•93 '^
78-9 ,„
79-9 ^
62.15
62.06 9
45.1 „
46.2 "
48.18
48.10 "
78.1
77.1 *
34-3
54.30 '"
54.8
11.74 '9
80.4 5
61.95 "
47.1 9
48.01 9
Sec <5, Tan <J
1.004 -K).o88
1.564 +1.202
1.042 --0.294
1.012 40.153
Mean Place
5I-.OI9 33".55
1
8'. 243
45".03
-0.07
58-.762 6i".94
44-.692 54". 56
D'^ a, Dm a
0.00 -0.01
+0.01
0.00 40.02
0.00 -O.OI
D^ d, D» 6
+0.4
+0.4
+0.4
40.4
+0.4
40.4 1
40.4
40.4
[Eph xa]
APPARENT PLACES OP STARS, 1912.
301
FOR THE UPPER TRANSIT AT WASHINGTON.
f SciavtorlB.
CCeti.
€ OftssiopeUB.
aTrianciiU.
MMnSoUr
Mag. 5.4
Mag. 3.9
Mag. 3.4
Mag.
3.6
Date.
Right
DMlina-
Right
Daellaa-
Right
DMUna-
Right
Declina-
Atcention.
tionS.
itfCMwion.
tionS.
Aaoeotton.
aonN.
tionN.
b m
e *
h m
• »
h m
0
h «i
e
I 41
-2529
I 47
-1045
I 47
0
+ 6314
I 48
+ 29 9
•r
Jan. 0.3
•
3^-52 ,^
40.0
40.8 »
8
707 „
73-9 ,
8
62.50
31.5 _
3-42 „
II. I
10.3
31.38 \\
6-96 "
74.6 \
75-2 "
62.17
32.2 I
3.30 "
II.O *
20.2
31.24 ^
41.2 *
6.84 "
61.80 37
32.4 .
3-16 '4
10.6 4
30.2
31.09 |5
41.3 ^
6-72 ",
75-5 ;
61.42 ^l
61.04 1:
32.0 *
31.2 °
3.01 '5
lO.O
Feb. 9.2
3095 t
41.0 \
6-59 \\
75-6 ;
2.86 '5
9.1 9
13
6
12
I
35
14
14
10
19.2
30.82
40.4 ,^
6.47 ,,
75-5 ,
60.69
*9.8 .«
2.72
8.1
29.1
30.70 ,^
39.4 :
6.36 "
75-2 \
74-6 ^
60.37 3^
60.U '*
28.0 '*
2-59 ;
7°"
Mar. 10. 1
30.60 ^^
38.1 ^
6.27 \
25-9 "
2.48 "
5-8"
20.1
30.53 ;
^^•^ ;
6.21 ^
73-7 ,^
59-92 ''
23.6 '3
241 I
4-7"
30-1
30.49 ;
34-5 '^
6.19 \
72-6 !
59.81 "
21.2 "4
2-38 3
3-6"
I
31
I
»4
2
25
2
10
Apr. 9.0
30.50
30.56 ^^
30.66 '^
32-4 - .
6.20
7»* ,A
69-6 'f
67»:!
59.79 «
60.05 ^;
60.31 ^,J
'^•7 ,^
2.40
1.8 *
^•3 '
19.0
29.0
30-0 ,J
*7-4 ,,
6.25 5
^•35 !°
16.3 '4
^40 "'
2.47 '
12
May 8.9
30.80 '^
24-7 'J
6-49 1
65-8!!
12.0 »°
I0.4 '*
13
2.76 '7
1.0 3
18.9
30.99 \l^
23
22.0 J
6.68 *9
33
63.7 "
22
60.66^5
43
-97:6
1.0 °
3
28.9
31.22
19-2 .
^•90 ,
6^-5 _
61.09
9.2 -
3-23
1-3
June 7.9
3149 "[
»6-4 ;
7-^6 ^8
59-2 ^3
61.58 49
8.4 *
3-53 f.
2.0 '
17.8
3179 ^°
13.8 =■*
7-44!'
56-9 !^
62.12 ^^
8.0 4
3-»5 ^^
2-9 .!
27.8
32.11 ^
"•3 :^
7-75 3
54-6 »3
6^-70 g
63-30 ^
8.7 *
10
4-^9 ^4
4'
July 7.8
32.44 ^^
34
9.1"
»9
8.06 3»
32
20
5-6 '5
»7
17.8
32.78
5-6'*
8-38 „
48.6 *
63-90
9-7 ,,
4-91 „
9-^ «^
27.7
33-" "
8.70 3»
64.49 ta
11.2 '5
5-26 35
Aug. 6.7
33.43 ^
4-4"
9°» 'I
47-^ '
65.07 i:
^3-1 !!
560 It
20
II. I
16.7
33.74 jg
34-02
3-6 ;
930 9
45-9 "
65.62 55
66.12 50
22
17-9 0
5-9^ 11
,^ « 21
13.2
0 w
26.6
3-3 ^
9-57 '!
45-0 I
6.21 '9
»5-3 ^'
25
1
24
5
45
28
27
20
Sept. 5.6
34-27 „
3-4 ,
9.81
44-5 ,
66.57 ,„
20.7
6.48
^7-3 ,„
156
34-48 "
3-9 „
10.02 **
10.20
44-3 ,
66.96 39
23.7 ^^
6-72 ^^
• ^ « 20
^9-3 ,„
25.6
34-66 8
4-«.!
44-4 '
67.30 li
67-58 z
26.8 3*
^•92 ^
21.2 '9
Oct. 5.5
34.80 '4
6.0"
10.34 j^
44-8 4
300 3*
7-°8 !
23-0 !
15.5
II
34-91 "
§
^5;^
10.45 3
45-5 I
67.78 '°
14
33.3 g
7.22 '*
9
24-7 '^
15
25-5
34-98
9-^ .«
10.53 ^
4^-4 ,„
67.92
3^-5 „
7-31 ,
26.2
Nov. 4.5
35-01 3
^°-9 !
10.58 5
47-4 °
67-99 „
39.6 11
7-38 I
27.6 4
14.4
35-00 ^
12.8 »9
14-6 ;«
10.60
48.6
67-99 ,
42.5 9
7-41 X
28.7 "
24.4
34-97 \
10.59 \
49-8
67-92 ;
45.2 7
7-41 °
29.6 9
Dec. 4.4
34-91 8
16.3 '7
>5
10.55 J
51.0 "
II
67.79
47.5 "3
19
7.38
30.3 I
14.3
34.83
17.8
10.50
10.42
TO
5^'^ 10
5^' 0
^7.59 ,,
67.33 !^
49.4 ,^
7.33 ^
30.8
243
34-72 "
1 0.0
50.9 |5
7.24 ^
31.0
34.3
34-60 "
.*.*». ^ *o
20.0
10.32 *"
54.0 9
67.02 **
52.0 "
7.13 "
310
Sec <?, Tan 6
1. 108 -0.477
1. 01 8 -0.190
2.221 41.983
1. 145
+0.558
Mean Place
3i".268 31". 10
6-.983 69".75
63".o67 1 4" .02
3*679
2". 01
ly^a, D»<2
-0.0 1 40.03
0.00 40.0I
4O.02 -0.12
40.0I •
-0.03
Dfff.D.c'
40.4
40.4
40.4
+0.5 1
40.4
+0.5 i
40.4
+0.5
[Epb is]
302
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
S Pisciiim.
>5 ArletlB.
^ Fhoenlcis.
trceti.
Mean Solar
Mag. 4.8
Mag. 2.7
Mag. 4.4
Mag. 4.2
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right Declina-
Ascenticn.
tion N.
Aacenaion.
tion M
•
Aacenaion.
tion S.
Aacenaion.
tion S.
h m
0
•
h m
0
V
h m
e *
h m
e *
I 48
-f 2.
g§
*5
1
I 49
-f 2022
If
I 50
-4643
I 55
— 21 29
Jan. 0.3
59*^7 ,„
WW
I3.I
8
46.34 „
48.1
A
776 „
75-2 _
5^-76 „
80.8
10.3
59.77 '
12.4
7
46.23
47.7
4
7-54 '
76.0 \
51.64 '
81.7 I
20.2
59.66 "
II.9
5
46.10 \\
47.3
4
7-31 '^
76.2 \
51-51 '^
82.3 *
302
59.54
1 1.4
5
45-97 ,^
46.7
6
8
0
708 3
75.9 \
51-37 ,*
82.5 \
Feb. 9.2
59.41 \l
10.9
5
45.83 \\
45.9
6-85 '^
75-1 !
51-22 '3
82.4 '
12
3
»3
8
22
13
«4
4
19.2
59.29 ,_
10.6
45.70 ,,
45.1
8
8
^•^3 ,„
73-8
51.08
82.0
29.1
59.19 ^
10.4
2
45.58 "
44.3
6-44 ^
72-1 ^
50.96 "
81.2 *
Mar. 1 0.1
59.10 9
59.04
10.4
0
45.49 \
45-43 ,
43.5
6.27 7
^9-9 "
50.86 •«
80.1 "
20.1
10.6
2
42.8
7
6
6-14 ^l
6.06 "
^7-4 "^
64-6 f
50.78 »
77.1
30.1
59.02 I
10.9
3
45.40 I
42.2
50.73 X
2
6
2
5
3
30
0
«9
Apr. 9.0
59.04
II.5
8
45-42 ,
45-48 °
41.7
6.0s
61.6
50.73 ^
75-2 ,,
19.0
59.09 ^
12.3
41.4
3
6-05 ^
58-3 ^3
50.77 ;
73-0 "
29.0
10
59.19 ":
13.3
10
45-59 '
41.4
0
^•^3 '
54-9 ^t
50.85 ,!
70.6 \\
May 8.9
59.34 ^l
14.5
12
41.6
2
6-27 '*
51-4 f^
50.98 3
68.1 ="5
18.9
59.53 ^l
16.0
15
45-95 "°
42.1
5
0
6-47 '!
48.0 34
51-16 '8
65-5 f
23
17
25
8
25
33
22
27
28.9
59.76 _
17.7
— 0
46.20
42.9
^•72 ,„
44-7 „
5»-38 „
^^•8 ,A
June 7.9
60.02 ^^
19.5
18
46.48 ^°
43.9 ,
[O
7.01 '9
4^-5 Z
5»-63 ^\
60.2='^
17.8
60.31 ^9
21.4
19
46.79 ^'
45.2
^3
7-34 ^^
386 1
51-91 ''
57-6 !t
27.8
60.61 ^°
23.4
20
47." f.
46.7
^5
'J'J^ ,1
36-0 f
52.22 3'
55-^ \\
July 7.8
60.92 ^^
25.4
20
47-44 ::
48.3 \
[6
. 0
8.10 39
33-8 "
5^-54 ^!
52-8 !«
32
19
34
[8
40
IB
33
30
17.8
^^•24 _
27-3
47-78
50.1
850 _
320
52.87
50.8
27.7
61.56 3^
29.2
19
48-12 34
52.0 ^
19
8-9ot!
30.7 '\
53.20 33
49» !!
Aug. 6.7
61.87 3^
30.9
17
48.44 ^'
53.9 \
19
9-29 ,'
29-9 \
5352 32
47-8 '
16.7
62.16 ^9
62.42 ^^
24
32.5
10
48-74 ^°
4902 :'
55.8
f9
[8
[8
9.67 38
29-7 ,
53.82 30
54.XO ^^
46.8 '^
46.2 *
I
26.6
33.8
13
XI
57.6 \
10.02 ^^
31
30.0 3
9
Sept. 5.6
62.66
34.9
49-28
59.4 .
> i^
'^•33 ,^
309
54-36 ^^
46.1
156
62.88 "
35.8
9
49-50 ,^
61.0
to
2D
32.2 '3
54.58 "
46.4 ^
256
63.06 '^
36.4
0
4969 ^
49-85 !
62.5 ^
15
10.81 "
340 !
54.77 ^
47-^ .1
Oct. 5.5
63.21 '5
36.7
3
63.8 '
13
10.98 ;7
36=' !
54.93 J
48.1 ^
15.5
63.32 "
9
36.8
I
I
49-98 '3
9
65.0 ^
[2
[O
11.10"
7
3«-6 :^
55.05 g
49-3 "
15
25-5
63.41 .
36.7
50.07
66.0
8
6
II. 17
* —
4^-2 .
46-4 ^t
55.13 ,
50.8
Nov. 4.5
63.47 \
36.5
2
50.14 7
66.8
II. 18 '
55.18 \
5^-5 '
14.4
63.50 3
36.1
4
50.18 4
67.4
II.I4 \
11.06
55.20 *
54-2 7
24.4
63.50 °
35.5
0
50.18 \
67.9
5
48-9 '^
55.18 ^
55-9 ^
Dec. 4.4
63.47 I
34.9
6
50.16
68.2
3
10.94 "
51.2 ^3
55.14 t
57-5 '*
5
6
5
I
15
«9
7
15
14.3
6342 ,
34-3
^
50.11
50.03 '
68.3
10.79 ,^
53-* ,>.
55.07 ^
590 ,,
24.3
63.36 I
33.7
6
68.2
I
10.60 '9
54-5 \\
54.98 9
60.3 3
34.3
63.27 9
33.0
7
^8
49.94 ^
68.0
2
10.39 "
55-6 "
54.87 "
61.4 "
Sec (J, Tan A
X.OOI
+0.04
1.067 +037
I
1.459 -1.062
1.075 -0.394
Mean Place
59".904 I2".57
46-.5I6 41" 68
6V983 61 ".20
5i*-489 73".75
D'^^a, Dm a
0.00 0.00
0.00 -0.02
-0.0 1 +0.06
-O.OI ■K>.02
D^ J, Dm 6
40.4
+0.5
1
+0.4
■K).5
40.4
40.5 1
40.3
•K).5
[Eph la]
APPARENT PLACES OF STARS, 1912,
303
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.3
10.3
20.3
30.2
Feb. 9.2
19.2
29.1
Mar. 10. 1
20.1
30.1
Apr. 9.0
19.0
29.0
May 9.0
18.9
28.9
June 7.9
17.8
27.8
July 7.8
17.8
27.7
Aug. 6.7
16.7
26.7
Sept. 5.6
15.6
25.6
Oct. 5.5
25.5
Nov. 4.5
14.4
24.4
Dec. 4.4
14.4
243
34-3
Sec 6, Tan 6
Mean Place
D V o-. Dm a
ftO Gasslopein.
Mag. 4.1
Right
Aacenalon.
h m
I 55
8
53-15
52.62 ^^
52.05 57
51.46
50.86
59
60
50.29
49.78
49-35
49-03
48.82
48-75
48.81
49.00
49.33
49-79
50.35
5 1 01
51.74
52.52
53-34
54-17
54-99
5580
56.56
57.27
57.92
58-49
58.98
59.38
57
51
43
32
21
7
6
19
33
46
56
66
73
78
82
83
82
81
76
71
65
57
49
40
59.68 30
20
59.88
59-98
59-97
59.85
59.62
59-30
58.89
58.41
10
I
12
23
32
41
48
Declina-
tioQ N.
+ 71 59
64.7
65.7
66.2
66.1
65-4
10
5
I
7
13
17
21
64.1
62.4
60.3
55-2 ,,
27
52.5 ,^
49-8 ^7
47-3 ''
44-9
42.9
24
20
17
41.2
40.0
39-3
39-1
39-3
40.1
41-3
43 -o
45-1
47-5
12
7
2
2
8
12
17
21
24
28
30
50.3
53-3
56.6 33
60.0 34
63.4 34
35
66.9
70-3 ^^
73.6 33
76.6 3°
79-4 „
23
81.7
83.6 ^9
85.0 -'4
a Hydii.
Mag. 3.0
3236
53*-726
+3-078
45".76
Right
Asceoaion.
h m
I 55
a
61.02
60.64 38
60.25 39
59-86 39
39
+0.04
+0.3
-0.18
40.5
59.47
59-"
58.78
58.50
58.27
58.10
58.00
57-98
58.04
58.18
58.40
58.69
59-05
59-47
59-94
60.44
60.97
61.51
62.04
62.54
63.01
6344
63.81
64.11
64.33
64.47
64-54
64.52
64.42
64.26
64.03
63-75
63.42
63.05
36
33
28
23
17
10
2
6
14
22
29
36
42
47
50
53
54
53
50
47
43
37
30
22
14
7
10
16
23
28
33
37
Declina-
tion S.
-61 59
68.5
69.1
69.2
68.6
67-5
65.8
63-7
61. 1
58.1
54-9
51-4
47-7
44-0
40.2
36.6
6
I
6
II
17
21
26
30
32
35
37
37
38
36
35
33-1
29.8 33
26.8 3^
24.2 "^
22.1
20.5
19.4
18.9
19.0
19.7
21.0
22.8
25.0
27.6
30.4
33-4
36.4
39.4
42.1
44-5
46.5
48.0
49.0
21
16
II
5
I
7
13
18
22
26
28
30
30
30
27
24
20
15
10
2.130 -1.880
59'-435 52". 16
-0.02 +0. 1 1
+0.3 +0.5
[Eph 13]
y Andromedn pr.
Mag. 2.3
Right
Ascenaion.
h m
I 58
29.23
29.08
28.90
28.71
28.51
15
18
19
20
19
17
28.32
28.15
28.01 ^4
27.91 '^
27-85 t
27-85
27.91
28.03
28.21
28.44
28.72
29.05
29.41
29-79
30.19
30.60
31-00
31.38
31-75
32.10
32.41
32.69
32.93
33.13
33-29
33.41
33.50
33-54
33.54
33-51
33-44
33.33
33.20
6
12
18
23
28
33
36
38
40
41
40
38
37
35
31
28
24
20
16
12
9
4
o
3
7
II
13
Declina-
tion N.
+41 54
41.6
41.8
41.7
41.2
40.4
39-3
37-9
36.4
34-8
33-1
31.5
30.0
28.7
27.7
27.0
26.6
26.6
27.0
27.7
28.8
2
I
5
8
II
14
15
16
17
16
15
13
10
7
4
o
4
7
II
13
30.1
31-8 '7
33-7 '^
35-8
38.0
21
22
23
40.3
42.7
45.1
47-5
49.8 !3
24
24
24
52.0
54-1
56.0
57-6
59-0
60.1
60.9
61.4
22
21
19
16
14
II
8
5
1.344 +0.898
29V508 28".62
+0.01
+0.3
-0.05
+0.5
a Arletls.
Mag. 2.2
Right
Aacension.
h m
2 2
2.43
2.32
2.19
2.05
1. 91
^77
-65
-54
.46
.42
.43
.48
-58
-73
.92
2.16
2.44
2.74
3-06
3.40
3-75
4-09
4.42
4.73
5-02
II
13
14
14
14
12
II
8
4
I
5
10
15
19
24
28
30
32
34
35
34
33
31
29
27
24
21
17
5-29
5.53
5-74
5-^' I.
6.06 '5
II
6.17
6.25
6.30
6.31
6.30
6.26
6.19
6.10
7
9
Declina-
tion N.
+ 23 2
56.0
55.8
55.4
54.8
54-1
53-3
52.5
51-6
50.8
50.0
49.4
48.9
48.7
48.8
49-1
49.6
50.5
51.6
52.9
54.4
56.1
57-9
59.7
61.6
63.5
65.3
67.0
68.6
70.0
71.3
72.4
73-3
74.1
74-7
75-1
75.4
75.5
75.4
4
6
7
8
8
9
8
8
6
5
2
I
3
5
9
I
3
5
7
8
8
9
9
8
7
6
4
3
I
9
8
6
4
3
I
I
1.087 +0.425
I2-.549 48".43
+0.01
+0.3
-0.02
+0.5
304
APPARENT PLACES OF STAES, 1912
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.3
10.3
20.3
30.2
Feb. 9.2
19.2
29.1
Mar. 1 0.1
20.1
30.1
Apr. 9.0
19.0
29.0
May 9.0
18.9
28.9
June 7.9
17.8
27.8
July 7.8
17.8
27.7
Aug. 6.7
16.7
26.7
Sept. 5.6
15.6
25.6
Oct. 5.5
15-5
25.5
Nov. 4.5
14.4
24.4
Dec. 4.4
14.4
243
34-3
ft Trtangnli.
Mag. 3.1
Right
Aacenaion.
2
m
4
a
7-97
7.84
7.69
7.53
7-36
7.19
7.04
6.91
6.82
6.77
6.77
6.82
6.93
7.09
730
13
15
16
17
17
15
13
9
5
o
5
II
16
21
25
30
7-55
7.85
8.18 33
8-53 ii
8.90 37
38
9.28
9-65 ^^
20.01 ^
20.36 35
20.68 32
29
20.97
21.23
21.46
21.66
21.82
26
23
20
16
12
21.94
22.03 ^
22.08 ^
22.10 ^
22.08 ^
22.03
21.94
21.83
9
II
Declina-
tion N.
+ 34 34
28.4
28.5
28.3
27.8
27.1
26.1
25.0
23.7
22.4
21. 1
19.8
18.7
17.8
17.2
16.8
16.8
17.1
17.7
18.6
19.8
21.3
23.0
24.8
26.8
28.9
31-0
33.1
35-2
37.2
391
40.9
42.6
44.0
45.3
46.3
47.1
47.7
47.9
I
2
5
7
10
II
13
13
13
13
II
9
6
4
o
3
6
9
12
15
17
18
20
21
21
21
21
20
19
18
17
14
13
10
8
6
2
56 CassiopeiA.
Mag. 6.2
Right
Aacenaion.
h m
2 7
37
41
33.29
32.92
32.51
32.08 ^3
31.65 ^3
42
31.23
30.85
30.52
30.26
30.09
38
33
26
17
7
4
15
25
30.02
30.06
30.21
30.46
30.80 34
43
31.23
31.74
32.31
32.93
33.58
51
57
62
65
66
34.24
34.90
35-54
36.16
36.75
37.28
37.76
38.17
38.52
38.80
39.00
39.12
39.16
39.12
39.00
38.81
38.55
38.22
66
64
62
59
53
48
41
35
28
20
12
4
4
12
19
26
33
Declina-
tion N.
4-66 6
63.4
64.4
64.9
64.8
64.2
63.1
61.5
59.6
57.3
54.9
52.4
49.9
47.5
45.3
43.4
41.9
40.7
40.0
39.8
40.1
40.8
42.0
43.6
45.6
47.9
50.5
10
5
I
6
II
16
19
23
24
25
25
24
22
19
15
12
7
2
3
7
12
16
20
23
26
53-4 Z
56.4 3^
59.6 3^
62.8 32
33
66.1
69.3
72.4
75.2
77.8
6 PeneL
Mag. 5.4
Right
Aaeenalon.
32
31
28
26
80.0
81.8
83.2
22
18
X4
h m
2 7
44.45 ,^
44.26 '9
44.03
43.79
43.55
23
24
24
24
43.31
43.09
42.90
42.76
42.68
42.66
42.70
42.82
43.00
43.25
43.56
43.92
44.32
44.76
45.21
45.67
46.12
46.57
47.00
47.40
47.76
48.09
48.38
48.63
48.83
48.98
49.08
49.14
49.14
49.10
22
19
14
8
4
12
18
25
31
36
40
44
45
46
45
45
43
40
36
33
29
25
20
15
10
6
o
4
8
4902
48.89 '3
48.71
18
Declina-
UonN.
+ 5039
42.3
42.8
42.9
42.6
41.9
5
I
3
7
II
40.8
39.4
37-7 ,„
35.8 '^
33.8 ^^
14
17
31.9
30.0
28.2
26.7
25.5
24.6
24.1
24.0
24.4
25.1
26.2
27.6
29.3
31.3
33.6
36.0
38.6
41.2
43.9
46.6
49.2
51.7
54.1
56.2
58.1
59.6
60.8
61.6
19
19
18
15
12
9
5
I
4
7
II
14
17
20
23
24
26
26
27
27
26
25
24
21
19
15
12
8
S^ Cctt.
Mag. 4.5
Right
h m
2 8
a
20.04
19-95
19.84
19.71
19.58
19.46
19.34
19.24
19.16
19.12
19.12
19.16
19.25
19.38
19.55
9
II
13
13
12
12
10
8
4
o
4
9
13
17
22
19.77
20.02
20.30
20.60 3°
32
25
28
20.92
21.24
21.56
21.87
22.17
22.45
22.70
22.93
23.13
23.30
23.44
23.55
23.63
23.68
23.70
23.69
23.66
23.60
23.52
32
32
31
30
28
25
23
20
17
14
II
8
5
2
I
3
6
8
DeoUna-
tionN.
+ 826
6.3
5.8
5.2
4.7
4.2
3.8
3.4
3.1
3.0
3.0
3.2
3.6
4.3
5.2
6.3
7.6
9.1
10.8
12.5
14.3
16.2
18.0
19.8
21.4
22.9
24.2
25.3
26.1
26.8
27.2
27.4
27.5
27.4
27.1
26.8
26.4
259
25.4
5
6
5
5
4
4
3
I
o
2
4
7
9
I
3
5
7
7
8
9
8
8
6
5
3
II
8
7
4
2
I
I
3
3
4
5
5
Sec <5, Tan 6
Mean Place
1.2 14 40.689
i8».i59 i7".39
+0.01
+0.3
-0.04
+0.5
2.470 +2.258
33".6i2 45".23
1.577 +1.220
44*.69i 27".o8
1. 01 1
20*.025
+0.148
3'
".28
+0.03 -0.13
+0.3 +0.5
[Eph 12]
+0.02
+0.3
-0.07
40.5
0.00
+0.3
-0,01
+0.5
APPARENT PLACES OF STARS, 1912,
305
FOR THE UPPER TRANSIT AT WASHINGTON.
/*
>' Triaaciill.
«7Ceti.
^ Xrldani.
Mean Solar
Mag. 5.2
Mag. 4.1
Mag. 5.7
Mag. 3.8
Data.
1
Right
DiBolina-
Right
DacUna-
Right
DeoUaa-
Right
DacUna-
Atoantion
tionS.
AMWiiian.
tionN.
Aaoanaion.
don S.
AacanakwL
tion&
h m
e *
h m
0
h m
• t
h m
e t
2 9
-31 7
2 12
+ 3326
2 12
-649
2 13
-5154
Jan. 0.3
8
2.23
^ M
80.8
4-57 „
37-3 ,
s
35-77 ,^
40.2
41.0 »
41.6 J
s
23.00
83.1 .
10.3
2.09
14
16
81.8 '^
82.4 t
4.45 "
37.4 '
35.67 ^
22.75 ,;
84.0 9
20.3
1.93
4-3° t
4-^4 \l
3.98 *
37-2 ^
35.55 "
22.48 ^'^
28
22.20
21.92 ^
84-4 4
30.2
1.76
17
82.6 '
36.8 4
35.42 \
42.1 5
84.3 '
Feb. 9.2
1-59
17
82.3 I
36.1 I
35.29 \l
42.3 ,
83.6 7
17
6
»7
9
13
I
27
II
19.2
1.42
8^-7 .„
3-8i ,,
35-2 ,„
35.16
42.4 ,
2 ^-^5 ,^
82.5
29.2
1.27
15
8°-7 °
3.66 5
34.2 °
35.03 ,^
T
42.3 '
20
2^-39 ^,
80.8 '7
Mar. 1 0.1
113
14
77-5 ,,
3-53 ^
33.0
10
34-93 °
34.85 !
4»-9 I
4'-3 J
22
20.99 ,^
78.7 "
20.1
1.02
1 I
3.43 '°
3-37 *
31.7 3
76.2 ^5
30.1
0.95
7
75-4 "
3°-5 "
34.80 5
40.4 ,,
20.85 4
73.3 '
3
24
I
12
I
II
9
3»
Apr. 9.0
0.92
^^
73-0
336 ^
*9-3 ,„
34-79 ,
39-3 „
20.76
7°-2 „
19.0
0.94
2
6
677 ^J
340 ,„
28.3 '°
27.5 !
26.9 *
34-82 I
38.0 3
20.74 ^
66.8 34
29.0
1. 00
3.50 °
34-90 °
36.5 ^
20.78 ■*
63-3 ^^
May 9.0
1. 12
12
16
64-8 ,0
365 'i
35-02 "
34-8 I
20.88 '**
59.7 ^t
' 18.9
1.28
61.8 30
3-85 Z
26.5 4
35-18 **
32.9 '9
21.05 '^
56.2 35
21
30
25
0
20
21
23
35
28.9
1.49
58-8 ,0
4-^° ,0
26.5
35-38 ,^
30-8 „
2^-28 ,0
52-7 , .
June 7.9
17.9
1-74
2.02
25
28
f, 0 «
4.39 z
471 ^!
26.8 3
27.4 I
35-62 ^4
35.89 '^
28.7 "
26.5 "
21.89
49-3 34
46.2 3'
27.8
2.33
31
5°-4 !
5-42 t
'»-3 ,1
36.18 ^9
^A ^ 22
22.26 ^^
43-5 Z
July 7.8
2.66
33
48° ^t
^9-5 "
36.49 3'
22.2
22.66 ^°
41.1 »4
34
31
37
J4
32
20
42
19
17.8
300
45-9 „
5-79 „
309 .,
36.81
20.2
23.08
39.2 ,
27.7
3-34
34
44.2 ^
6.16 37
3^-5 8
37-" 3'
^8-3 !^
23.51 ^,
37.7 'I
Aug. 6.7
3.68
34
43.0 "
42.2 »
34-3 \l
37-43 V^
16.7 •'^
23.94 ^,
36.8 9
16.7
4.01
33
6.86 34
36-2 '0
37-73 ^^
15.4 ^
24.35 ^-
36.5 3
26.7
431
30
28
41-9 ^
7.18 3»
30
38.2 »*»
20
38.01 '«
25
TT
H.3 "
24.74 ^^
36.8 3
Sept. 5.6
4-59
42.1
748 „
40-2 ,„
38-26
13.6
25.10
37-6
15-6
4.84
25
42.7 „
7-75 11
4^-^ 0
38.49 "^
13.2 *
25.42 ^
25.68 ^^
39.0 2
4°-8 '!
25.6
505
21
43-8 !
798 'i
44-^^
38.69 ^°
*3-^ ^
Oct. 5.6
5.22
17
45.2 '4
8.18 ^°
46.2^
38.86 '7
13-3 :
25.89 ^l
43-0 "
15.5
5-35
13
47° ;
8.35 ::
48.0 1?
39.00 *4
13.8 5
26.05 ^^
45.6 ^_
10
20
13
17
II
7
9
27
25.5
5-45
49° „
8.48
49-7 ,6
513 °
39." g
39.19 °
14.5 „
26.14
48-3 ,„
Nov. 4.5
550
5
5»-» "
8.58 '^
^5-4 9
26.18 ^
5^-2 !'
14.4
5-52
2
53.3 "
8.64 *
52.7 4
39.23 ,
16.4 '^^
26.16 ^
26.08 *
54.1 '
24.4
5.50
2
55-4 "
8.67 3
53-9 !
39.24 ,
17-5
56-8 'I
Dec. 4.4
5-45
5
57.4 'I
8.66 '
54-9 a
3923 '
18.6 "
25.96 "
59-3 \i
8
19
4
8
4
10
17
22
14.4
5-37
59-3 „
8.62
8.54 '
55-7 ,
39-19 g
39-13 »
19.6
^5-79 ,^
61.5 „
24-3
5.26
II
60.8 '5
56.2 5
20.6
25.59 '^
63.2 '7
34-3
5.13
13
62.0 "
8.44 '**
56.4 '
39.05
21.5 ^
25.35 ""^
64.5 '3
Sec <5, Tan 6
1. 1 68 -0.604
1. 198 +0.660
1.007 -0.120
1.621 -1.276
Mean Place
i*.7
18 7i".66
4-.699 26" .48
35'.58o 38".37
2 1 '.849 69^.44
D^a, D«a
-0.01 +0.03
+0.01 -0.04
0.00 -fO.OI
-0.02 +0.07
jy^A^l}^d
•K5.3
•
+O.S
•W.3
+0.5
+0.3
-K).5
+0.3
+0.5
1912-
•20
[Eph la]
306
APPARENT PLACES OF STAES, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.3
10.3
20.3
30.2
Feb. 9.2
19.2
29.2
Mar. 1 0.1
20.1
301
Apr. 9.0
19.0
29.0
May 9.0
18.9
28.9
June 7.9
17.9
27.8
July 7.8
17.8
27.7
Aug. 6.7
16.7
26.7
Sept. 5.6
15-6
25.6
Oct. 5.6
15-5
25.5
Nov. 4.5
14.4
24.4
Dec. 4.4
14.4
24-3
34.3
o Cett.
Var. 1.7-9.6
RiRht
Aacansion.
h m
2 14
Sec «^, Tan <J
Mean Place
54-17
54-07
53-96
53.83
53-70
53.57
53.45
53.34
53-26
53.21
53.20
53.23
53.30
53.42
53.58
53.79
54.03
54.30
54.59
54.89
55.21
55.53
55.84
56.13
56.41
56.67
56.90
57.10
57.27
57.41
57.52
57.60
57.65
57.67
57.66
57-63
57.57
57.49
o
I
3
3
3
2
I
8
5
I
3
7
12
16
21
24
27
29
30
32
32
31
29
28
26
23
20
17
14
II
8
5
2
I
6
8
DacUna-
kion S.
-322
36.6
37.4
38.0
38.5
38.8
39.0
39.0
38.7
38.3
37.7
36.8
35.7
34.4
32.8
31. 1
29.2
27.2
25.1
23.0
21.0
9.0
7.2
5-5
4.1
3.0
2.1
1.6
1.3
1.3
1.6
2.1
2.8
3.7
4.6
5.5
6.5
7-4
8.2
8
6
5
3
2
o
3
4
6
9
II
13
16
17
X9
20
21
21
20
20
18
17
14
II
9
5
3
o
3
5
7
9
9
9
10
9
8
1 .002 -0.059
54'.oo5 36" .02
0.00
+0.3
0.00
+0.6
Mag. 5.4
Right
Aacanaion.
h
2
m
18
a
31-37
31.24
31. II
30.96
30.80
30.64
30.50
30.37
30.26
30.19
30.16
30.17
30.23
30.34
30.49
30.69
30.92
31.19
31.49
31.81
32.13
32.46
32.79
33-10
33-40
34-55
34.63
34-67
34-67
34.64
34-58
34-50
34.39
13
13
15
16
16
14
13
II
7
3
I
6
II
15
20
23
27
30
32
32
33
33
31
30
27
33-67
33-92 l^_
34-13
34.30
34-44
21
17
14
II
8
4
o
3
6
8
II
Daolina-
tionS.
Mag. 4.3
Right
Aacension.
— 24 12
64.1
65.1
65.8
66.2
66.2
10
7
4
o
4
7
II
65.8
65.1
64.0
62.6 '^
60.9 '7
20
58.9
56.6
54.2
51.6
48.9
23
24
26
27
28
46.1
43.3
40.6
38.0
35.7
33.6
31.8
30.4
29.4
28.8
28.7
29.0
29.7
30.8
32.2
33.9
35.8
37.7
39.6
41.5
43.2
44.7
45-9
28
27
26
23
21
18
14
10
6
I
1.097 -0.450
30».922 57"-36
-0.0 1 4O.02
+0.3 40.6
[Bph xa]
h m
2 20
a
13.36
12.83
12.27
11.70 ^_l
II. 14
53
56
56
55
10.59 ^^
10.08 5^
9.63 ^^
9.24
8.93
39
31
22
8.71
8.58
8.55
8.63
8.81
9.09
9.46
9.92
0.45
1.04
1.68
2.33
2.99
3-64
4.26
13
3
8
18
28"
37
46
53
59
64
65
66
65
62
56
50
42
o
10
20
Declina-
tion S.
t CasBiopelae.
Mag. 4.6
-69 3
4.82
5.32
5-74 ,,
6.06^^
6.28 "
12
6.40
6.40
6.30
6.10
5-80 5^
38 1
^•^' 45
4-97 ^^
4-46 5'
50.2
51-0
51.3
50.9
49.9
8
3
4
10
X5
20
25
29
48.4
46.4
43.9
41.0
37-8 32
35
34-3
30.6 37
26.8 3^
23.0 3*
19.3
15.7
12.3
9.2
6.5
4.2
2.4
1.2
0.6
0.6
I.I
37
36
34
31
27
23
18
12
6
o
5
12
18
22
26
2.3
4.1
6.3
8.9
II.8 '9
31
H-9 ,,
18.0 3'
21. 1 31
30
24.1
26.7
28.9
30.6
31.8
26
22
17
12
2.798 -2.613
io».726 34".63
-0.04
-K).3
•10.14
4o*6
Right
Aaoenaion.
h
2
m
21
a
47.88
47-51 37
47-10^'
46.66 ^
46.20 ^^
45
^5-75
45.33 zl
44.68 ^9
44.48^^
44.37
44.38
44.49
44.71
45.04
II
I
II
22
33
42
45.46
45.97 "
46.54
47.16
47.82
57
62
66
68
48.50
49.19
49.87
50.52
51.14
69
68
65
62
58
51.72
52.24
52.70
53.10
53.43 r^
52
46
40
53.67
53.83
53.91
53.90
53.81
24
16
8
I
9
17
53.64
53-39 It
53.07 ^
Declina-
tion N.
+ 67 O
45-1
46.3
47.0
47.1
46.7
45.8
44.4
42.6
40.4
38.0
35.5
33.0
30.6
28.3
26.3
24.6
23.3
22.4
22.0
22.1
22.6
23.5
24.9
26.7
28.8
31.3
34-0
37-0
40.1
43-3
12
7
I
4
9
14
18
22
24
25
25
24
23
20
17
13
9
4
I
5
9
14
18
21
25
27
30
31
32
32
32
46.5
49.7 ,,
52.8 3'
55.7 II
58.4 II
60.8
62.8 ^^
64.3 '^
2.561 +2.357
47*.998 26".85
•fo.04
•K>.3
-ai3
40.6
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
307
Mean Solar
Date.
Jan. 0.3
10.3
20.3
30.2
Feb. 9.2
19.2
29.2
Mar. 10. 1
20.1
301
Apr. 9.1
19.0
29.0
May 9.0
18.9
28.9
June 7.9
17.9
27.8
July 7.8
17.8
27.8
Aug. 6.7
16.7
26.7
Sept. 5.6
15.6
25.6
Oct. 5.6
15-5
25-5
Nov. 4.5
14-5
24.4
Dec. 4.4
14.4
24.3
34-3
Sec <J, Tan cJ
Mean Place
D'l^ a, Dm a
S^ Ccti.
Mag. 4.3
Right
Ascension.
h m
2 23
s
28.79
28.70
28.59
28.47
28.33
9
II
12
14
13
28.20
28.08
27.97
27.88
27.83
27.81
2783
27.90
28.02
28.18
28.39
28.63
28.90
29.19
29.50
29.82
30.14
30.45
30-76
31.05
31.31
31.55
31.76
31.94
32.10
32.23
32.32
32.38
32.42
32.43
32.41
32.36
32.28
12
II
9
5
7
12
16
21
24
27
29
31
32
32
31
31
29
26
24
21
18
16
13
9
6
4
I
2
5
8
Declina-
tion N.
+ 83
61.4
60.8
60.3
59.8
59.3
58.9
58.6
58.4
58.3
58.3
58.5
58.9
59.6
'60.5
61.6
62.9
64.3
65.9
67.6
69.4
71.3
73.1
74.8
76.4
77.8
79.0
80.0
80.8
81.4
81.8
82.0
82.0
81.8
81.5
81.2
80.7
80.2
79.7
6
5
5
5
4
3
2
I
o
2
4
7
9
I
3
4
6
7.
8
9
8
7
6
4
10
8
6
4
2
o
2
3
3
5
5
5
i.oio 40.142
28*.685 58".04
0.00
+0.3 .
-o.oi
+0.6
(f Ccti.
Mag. 4.8
Right
Ascension.
h m
2 27
8
55.28
55.17
55.05
54.91
54-77
54.62
54.48
54.36
54.26
54.19
54.16
54-17
54-22
54.32
54.46
II
12
14
14
15
14
12
10
7
3
I
5
10
19
54.65 ^,
54.88 3
55.14
55.42
55.72
56.04
56.36
56.67
56.98
57.27
57.54
57-78
57-99
58.17
58.32
58.44
58.53
58.59
58.61
58.60
58.56
58.49
58.40
28
30
32
32
31
31
29
27
24
21
18
15
12
9
6
2
7
9
Declina-
tion S.
-1537
52.8
53.8
54.5
55.0
55.2
10
7
5
2
I
55.1
54.7
54.0
53.1
51.8 '3
15
50.3
48.5
46.5
44.3
42. D
18
20
22
23
24
39.6
37.1
34-6
32.2
29.9
27.8
26.0
24.5
23.3
22.4
21.9
21.9
22.2
22.9
23.9
25
25
24
23
21
18
15
12
9
5
o
3
7
10
12
14
25.1
26.5
28.0 '5
29.6 '^
3I.I
15
15
32.6
33.9
35-0
13
II
1.038 -0.280
54«.909 48".98
0.00 +0.01
40.3 40. 6
[Eph 12]
86 H. CassiopeiflB.
Mag. 5.3
Right
Ascension.
m
2 29
8
38-52
38-03
37-47
36.87
36.25
49
56
60
62
61
57
50
42
30
17
4
10
24
38
50
61
70
76
82
85
86
86
84
80
74
68
60
52
42
33
22
II
I
12
23
45-22
44.88 34
3564
35.07
34-57
34.15
33.85
33.68
33.64
33-74
33-98
34.36
34.86
35.47
36.17
36.93
37.75
38.60
39.46
40.32
41.16
41.96
42.70
43.38
43.98
44.50
44.92
45.25
45.47
45.58
45.57
45.45
44.44
44
Declina-
tion N.
+ 72 25
82.0
83.5
84.4
84.7
84.5
83.7
82.4
80.6
78.4
76.0
73.4
70.7
68.1
65.6
63.3
61.4
59.8
58.7
58.0
57.8
58.0
58.8
60.0
61.6
63.6
15
9
3
2
8
13
18
22
24
26
27
26
25
23
19
16
II
7
3
2
8
12
16
20
24
27
29
66,0
68.7
71.6
74.8 3^
78.1 33
33
81.4
84.8 34
88.1 33
91-3 ^^
94.2
96.8
99.0
100.8
29
26
22
18
3.314 43.160
38".442 63". 06
40.05
40.3
-0.17
-^0.6
VCcti.
Mag. 5.0
Right
Ascension.
h
2
m
31
5.41
5.32
5-22
5.09
4.96
4.82
4.69
4.57
4.48
4.42
4.40
4.42
4.48
4.59
4.74
9
10
13
13
13
12
9
6
2
6
II
15
19
24
26
29
4.93
5.17
5.43
5.72
6.02 3°
32
^•34 „
6.66 32
6.97 ^'
7.28
7.56
7.83
8.07
8.29
8.48
8.64
8.77
8.87
8.94
8.98
8.99
8.97
8-93
8.86
31
28
27
24
22
19
16
13
10
7
4
I
4
7
Declina-
tion N.
+ 5 12
38.0
37.4
36.8
36.3
35-9
35.6
35-3
35.2
35-2
35.4
35.8
36-4
37.2
38.2
39-4
40.8
42.4
44.1
45-9
47.7
49.6
51.4
53.1
54-6
55.9
57.0
57.9
58.6
59.0
59.2
59.2
59.0
58.6
58.1
57.6
57.0
56.4
55.8
6
6
5
4
3
3
I
o
2
4
6
8
10
13
H
16
17
18
18
19
18
17
15
13
II
9
7
4
3
o
3
4
5
5
6
6
6
1.004 40.091
i5'.24i 35".30
0.00
40.3
-0.01
-►0.6
308
APPARENT PLACES OF STABS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
M«an Solar
Data.
Jan. 0.3
10.3
20.3
30.2
Feb. 9.2
19.2
29.2
Mar. 10. 1
20.1
30.1
Apr. 9,1
19.0
29.0
May 9.0
18.9
28.9
June 7.9
17.9
27.8
July 7.8
17.8
27.8
Aug. 6.7
16.7
26.7
Sept. 5.6
156
25.6
Oct. 5.6
15-5
25.5
Nov. 4.5
24.4
Dec. 4.4
14.4
24-3
34-3
Sec <J, Tan S
Mean Place
D'^ a, Dm a
/iHydd.
Mag. 5.3
Right
h
2
m
33
t
36.55
35-41
34.20
32.97
31.74
30.55
29.43
28.41
27.52
26.77
26.19
25.78
25.57
25.55
25.73
26.10
26.65
27.37
28.24
29.24
30.34
31.50
114
121
123
123
119
112
102
89
75
58
41
21
2
18
37
55
72
87
100
no
116
120
3^-70^^^
33.89"^
35.04
36.10
37.06
37.86
38.48
38.90
39."
39.10
38.86
38.41
37.76
36.94
3596
34.87
"5
106
96
80
62
42
21
24
45
65
82
98
109
Declina-
tionS*
-7929
51.7
52.6
52.8
52.5
51.5
50.0
47.9
45.4
42.5
39.3
35.8
32.1
28.4
24.6
20.8
9
2
3
10
15
21
25
29
32
35
37
37
38
38
36
33
17.2
13.9
10.8 3^
8.1 ^7
5.9
22
17
4.2
3.0
2.4
2.4
3.0
12
6
o
6
12
18
22
26
4.2
6.0
8.2
10.8
13.8 3°
32
17.0
20.2
23.3
26.3
29.0
32
31
30
27
22
31.2
33.0
34.2
18
12
5.483 -5.391
30".48i 36".5i
-0.09
+0.3
+0.28
+0.6
vArletis.
Mag. 5-4
Right
Aaeanskm.]
h m
2 33
49.08
48.98
48.87
48.73
48.59
48.44
48.30
48.17
48.07
48.00
o
I
4
4
5
4
3
o
7
3
47.97 .
47.99 . ,
48.06 '
48.17 "
48.34 II
48.55 ^.
48.80 II
49.08
49.38
49.71
28
30
33
34
50.05
50.39
50.72
51.04
51.35
51.64
51.90
52.13
52.34
52.52
52.66
52.78
52.86
52.91
52.93
34
33
32
31
29
26
23
21
18
14
12
8
5
2
52.91 ,
52.87 t
52.80 7
Deelina-
tionN.
+ 21 34
60.7
60.5
60.3
59.9
59.3
58.7
58.0
57.4
56.7
56.0
55.5
55.2
55.0
55.0
55.3
55.8
56.6
57.5
58.7
60.1
61.6
63.2
64.9
66.6
68.2
69.8
71.3
72.7
73.9
75.0
76.0
76.8
77.4
77.9
78.3
78.5
78.6
78.5
2
2
4
6
6
7
6
7
7
5
3
2
o
3
5
8
9
2
4
5
6
7
7
6
6
5
4
2
8
6
5
4
2
I
I
1.075 +0.396
48-.998 52".95
+0.01
+0.3
-0.02
+0.6
[Eph la]
<f Cell.
Mag. 4.0
Right
h m
2 34
58.47
58.39
58.28
58.15
58.02
8
57.88
57.75
57.63
57.54
57.48
57.45
57.46
57.51
57.61
57.76
57.95
58.17
58.43
58.71
59.01
59.33
59.64
59.95
60.25
60.54
60.80
61.05
61.27
61.46
61.62
61.75
61.86
61.93
61.97
61.98
61.97
61.92
61.85
II
13
13
14
13
12
9
6
3
I
5
10
15
19
22
26
28
30
32
31
31
30
29
26
25
22
19
16
13
II
7
4
I
5
7
Deelina-
tion S.
e f
— 02
60.8
61.5
62.1
62.6
63.0
63.3
63.4
63.3
63.1
62.6
61.9
,61.0
59.9
58.6
57-1
55.4
53.6
51.7
49.7
47.7
45.8
44.0
42.3
40.9
39.7
38.7
38.0
37.6
37.5
37.6
37.9
38.4
39.1
39.9
40.7
41.6
42.4
43.2
7
6
5
4
3
I
I
2
5
7
9
II
13
15
17
18
19
20
20
19
18
17
14
12
10
7
4
I
5
7
8
8
9
8
8
1. 000 -0,001
58*.242 6i".9i
0.00
+0.3
000
40.6
^Penei.
Mag. 4.2
Right
Ascenaion.
h m
2 38
t
10.97
10.81
10.61
10.39
10.15
16
20
22
24
23
9.92
9.69
9.49
9.32
9.20
9.15
9.15
9.22
9.36
9.57
23
20
17
12
5
o
7
14
21
27
9.84 „
0.16 3^
0.53 ^^
0.93
1.36
1.80
2.25
2.69
3.12
3.53
40
43
44
45
44
43
41
39
3.92
4.28
4.60 3^
4.88
5.12
36
28
24
5.32
5.47
5.57
5.63
5.64
5.60
5.51
5.38
20
15
10
6
I
4
9
13
Declina-
tion N.
+ 4851
39.9
40.6
41.0
41.0
40.6
39.8
38.7
37.3
35.7
34.0
32.2
30.4
28.7
27.2
25.9
24.9
24.3
24.0
24.0
24.4
25.2
26.3
27.7
29.4
31.3
7
4
o
4
8
II
14
16
17
18
18
17
15
13
10
6
3
o
4
8
II
17
19
21
23
23
24
33.4
35.7
38.0
40.4
42.8 ^^
24
45.2
47.6
49.8
51.9
53.8
24
22
21
19
17
55.5
56.8
57.8
13
10
1.520 +1.145
io«.945 24". 95
40.02
40.3
-0.06
+0.6
APPARENT PLACES OF STAE8, 1912.
809
FOR THE UPPER TRANSIT AT WASHINGTON.
e Hydil.
y Ceti 5eg.
TT Ceti.
jt^Ceti.
Mag. 4.3
Mag. 3.7
Mag. 4.4
Mag. 4.4
Moan Sdar
•
Dato.
Right
DMlina-
Rigbt
D«cliiia- :
Aigbt
Declfaia- 1
Right
Declina-
1
AMention.
donS.
AaQeoBlon.
iionN.
Aaoeatlon.
tlonS.
Aaosnsion.
tion N.
i
h m
e t
h m
• '
h m
0 '
h m
•
1
2 38
-68 38
2 38
-1-251
2 39
-14 13
2 40
+ 944
Jan. 0.3
16.69 ,,
52.2 „
8
44.58
57-8 ,
56.41 ^
54-1 ,„
•
"•14 a
11.06 "
39.8
10.3
16.18 5^
53.3 '
44.49 „
57-1 I
56.5 t
56.32 /^
55-1 '°
55-9 *
39.4 :
20.3
15.64 ^;J
53-8 5
44.38 '
56.20 "
^0-95 "
38.9 I
30.3
15.07 57
53-7 '
53.1 !
44.26 ^
56.0 5
56.06 '^
56-4 5
10.83 "
38.4 I
Feb, 9.2
14.50 57
44.^3 ^
55.6 4
55.92 t
56.7 ^
10.70 ^
37-9 ,
55
13
14
3
15
0
H
4
19.2
^3.95
5^-S ,R
43-99 „
55.3 ,
55.77 ,,
56.7 ,
10.56
37.5 .
29.2
13.42 ll
12.94 I.
50.0 .-
43.86 3
55.1 '
55.62 5
56.4 ^
55-8 I
10.42 ^
37.1 ;
Mar. 10. 1
47.8 "
43-74 ,„
55.1 °
55-49 ,^
10.30 "
36.9 I
20.1
12.51 ^3
45.1 '^
43.64 '!
55.2 '
55-38 "
55-30 °
54.9 J
10.20
36.7 '
30- 1
12.16 ^5
42.0 3»
43-57 ,
55.5 ,
53.8 '
10.13 !
36.6 I
27
34
3
5
4
J4
3
2
Apr. 9.1
11.89
T T
38.6
43-54 ,
56.0
55-26
52.4 „
10.10
36.8
19.0
11.72 7
11.64
35.1 ^^
43-55 '
56.7 I
55-26 °
5°-7 0
lO.II *
10.17 ^
37.1 ^
29.0
3»-4'J
43-60 5
57.6 9
55-30 ♦
48.8 '9
37.6 =
38.4 ;
May 9.0
11.67^^
27-6 %
23.8 3»
43-70 ^
58.8 "
55-39 ,;
46.7
10.27 ;^
19.0
11.80 '3
43.84 ^
60.1 '3
55-52 I
44-4'^
10.42 '5
39.3 .,
23
37
19
«5
18
23
19
II
28.9
12.03
20.1
44.03 „,
61.6
55-70
42.1
10.61
40.4 . ,
June 7.9
12.35 ^^
16.6 35
44='5 "
63.3 ]l
22
55-92 "
39.7 „
10.84 ""^
4-8 4
17.9
12.77 _
^3-4 ^f
44-51 ll
^5' !
56.17 It
37.2 ^5
II.IO^^
43.2 4
27.8
13.26 ^9
^°-5 !
44-79 „
^•9 f
56.44 'I
34.8 ^4
11.39^^
44-9 \l
July 7.8
13.81 f£
60
8.1 =">
20
45-09 ^
3,
68.8 '9
18
56-74 ^'^
3«
32.6 '=*
21
11.70 ^
32
46.6 '7
17
17.8
'^•♦' 63
6.1
45-40
70.6 „
7^-4 :
57.05 ,.
3°-5 ,-
12.02
48.3 ,,
27.8
4.6 '5
45.72 3
57-37 :.
28.6 '9
^7-° .,
12.34 f ,
50.0 7
Aug. 6.7
15.69 ll
3-^ ,
4603 11
74-1 7
57-68 3
12.66 3'
51.7 11
16.7
^6-34 ^^
3-6 !
46-33 f°
75-6 ^
57-99 ,'
25.7 'I
"•97 ^'
53-2 i
26.7
16.96 ^»
4.0 *
46.62 ^9
76.9 '3
58.28 'I
24.8 9
13.26 11
54.6 4
57
9
27
10
28
5
28
13
Sept. 5.7
^7-53 „
4-9 „
46.89
77-9 »
78.7 *
58.56 ^^
24.3 ,
^^'54 ,,
55-9 ,„
15-6
18.05 5»
6-4 !f
47.H ^^
58.81 ^5
24.2 '
^3.79 11
56.9 'I
25.6
18.50 45
8-5!!
47.36 11
79.2 I
22
59.03
24-4 I
^^•^^ ^n
57.8 9
58-4 ^
Oct. 5.6
18.86 36
11.0 '5
47.56 ^°
79-5 X
59.22 ]l
25.0 °
14.22 ]^
15.5
19.12 ^^
13.9 '^
47.73 ,,
79-5 t
59.38 ^^
25-9 .:
14.39 '^
58-8 *
16
30
13
2
13
11
14
2
25-5
19.28
^^•9 „
47.86
79.3 ,
59- 5 1 ^^
27-0 ,^
14.53 „
59-0
Nov. 4.5
19-33 ,
20.1 3»
47.96 •«
48.04 I
79.0 ^
59.61 '^
28.4 '4
14.64 "
59.1 -
145
19.28 5
23.3 3'
78.5 ^
77.9 !
59.68 7
29-9 !^
14.73 ^
59.0 ,
24.4
»9" 't
^^•4 I'
48.09 5
59.71 ^
3-4 ^
33-0 °
^4.78 i
58.8 '
Dec. 4.4
18.87 '5
29.2 ^»
48.11 I
77.2 7
5972 ^
14.80 ^
58.5 I
34
24
2
7
3
15
0
4
14.4
^^•53 ,,
3^-6 ,„
48.09
76.5 ^
59.69 ^
34.5 „
14.80
58.1
24.4
^«-" 1«
33-6 °
48.05 :^
75.8 7
59.64 I
35.8 \l
14.76 4
57-7 ;
34-3
17.63 **
35.0 '4
47.98 7
75.1 ^
59.55 ^
37.0 "
14.69 '
57-2 ^
Sec <J, Tan A
2.746 -2.557
1. 001 40.050
1.032 -0.254
1. 015 40.172
Mean Place
I3'.894 38".03
44'.347 55 ".62
56' .000 5 1 ".22
io».957 35".52
DVa, Dm a
-0.04 +0.13
0.00 0.00
0.00 +O.OI
0.00 -O.OI
I>^6,D^6
+0.3
+0.6 1
-K>.3
-K).6 1
■K).3
+0.6 1
+0.3
+0.6
[Bph It]
310
APPARENT PLAGES OF STABS, 1912
FOR THE UPPER TRANSIT AT WASHINGTON.
ri Persei.
41 AiletlB.
>^ Fomacls.
(T Arietta.
Mag. 3.9
Mag. 3.7
Mag. 4.5
Mag. 5.5
Mean Solar
Date.
RiRht
Declina-
Right
Declina-
Right
Declina-
Right
° Declioa-
Ascension.
tion N.
AtceasioD.
tion N.
Ascension.
tion S.
Ascension.
tioDN.
h m
0 '
h m
0 f
h m
e *
li m
.
2 44
+ 5531
2 44
+ 2653
2 45
- 32 45
00
2 46
+ 1443
Jan. 0.3
s
16.26
679 . ,
8
48.12
63.8
s
2521
98.1,,
s
38.07 .
37.99 ,„
17.6
10.3
16.06 ="*
69.0 "
48.03 '
63.8 °
25.07 ^
24.73 ^
99.4 '3
17.3 f
20.3
15.82 \\
69.6 \
47.91 "
63.7 ;
100.3
37.89 °
16.9 4
303
'5-55 !
69.8 =*
47.77 Z
63.4 ^
100.8 3
37.76 3
16.5 4
Feb. 9.2
15.26 "9
69.5 ^
47.61 '^
63.0 \
24.54 ^
100.8 °
37.62 4
16.0 5
29
7
16
6
19
4
15
5
19.2
1497 ,g
68.8
47.45 ,.
62.4 ^
61.6 *
60.8 °
24.17 !
100.4 „
99.6 ,^
37-47 - .
15.5 .
29.2
14.69 'J
67.7 "
47.30 f
37-33 ,;
15.0 5
Mar. 10. 1
14.44 5
66.2 '5
47.16 '4
24.00 '
98-4 "
37.21
14.6 4
20.1
21
^4-5 !!
47.04 '
46.96 ^
60.0
23.85 ;^
96.8 '^
37." '°
14.2 *
30.1
14.07 '^
62.6 '9
59.1 \
23.74 "
94-9^^
37.04 I
14.0
9
20
4
8
7
23
4
I
Apr. 9.1
13.98
60.6
46.92
58.3 ,
23.67
92.6
37.00
13.9 „
19.0
13.97 ,
58-5 '^
46.93 '
46.99 „
57.6 \
23.64 3
0 c
90.1 J
^7-3 '"
37.00 °
13.9 °
29.0
14.04 ,^
5^-5 °
57.1 ,
23.66 ^
37.05 *
14. 1 .
May 9.0
14.18 '1
54-^ 6
47.10 "
47.26 '<^
56.8 3
23.73 ,^
84.4''
37.15 °
^4-5 *
^5-^ 8
19.0
22
14.40
53-0 '^
56.7 \
23.85 "
81.33
37.29 ,„
29
H
20
3
17
31
»9
28.9
14.69
51.6
47.46
56.9
24.02
78-2,,
37.48
15.9 ,,
June 7.9
15.04 35
500
"^^^i ^x
57.3 :
24.23 ,,
75-^ ',0
37.71 3
37-97 '
17.0 "
17.9
1544 \,
50.0 ^
48.00 ^9
58.0 7
^4-48 'f
69.3^*
18.3 3
27.8
15.89^^
49-7 ^
4^-31 3;
58.9 '
24.77 ,;
38.26 '9
19.7 t
July 7.8
16.37 ""
50
2
49.9 .
0
48.64 33
35
60.0"
13
25.08 3'
33
66.8 =^5
23
38.57 J^
21.2 ^
16
17.8
16.87 _
50.4 „
48.99 ^^
61.3 ,.
^5-41 ,^
^4-5 ,„
38.89 ^,
22.8 ^
26.0 '^
27.6 '6
27.8
17.38 ^\
51.3 ,
49.34 ^^
62,8 '5
25.75 \\
62.6 '9
39.22 33
Aug. 6.7
17.88 5°
52.5 "
49.69 35
^4-3 ;^
26.10 35
61.2 '4
39-55 "
16.7
18.37 ^^
54.1 '$
50.03 34
65.9 1
26.44 \\
60.2'°
39.86 3'
26.7
18.84 "^^
45
55-9 ''
21
5^-35 Z.
3Q
^7-6 :j
26.76 32
30
59.7 I
40.16 30
^ 28
29.1 '5
«3
Sept. 5.7
15.6
19.29
41
1970 ^
58.0
60.3 ^3
50.65
50.93 '°
72.4 °
27.06
27.33 11
597 ^
60.2 *
40.44
40.70 2
30-4 „
31.6 "
25.6
20.07 3'
62.8 *5
51.18 ^5
27.58 ^5
61. 1 9
40.94 I*
32.6 '°
Oct. 5.6
20.40 ^}
65.4 '"
5^-41 ,^
73-8 1
27.79 \\
64.3'*
31
^'•'^ 0
33-5 '
15.5
20.68 ^^
23
68.1 ^7
27
5-^^ z
75.2 '4
13
27,96 '
13
41-34 ,J
34.2 I
0
25-5
Nov. 4.5
145
20.91
21.09 '^
21.21 ^^
7°-« 26
73-4 ,°
76° '!
51^77
51.90 3
52.00 '
52.06
76.4
77.5 "
78.4 I
28.09
28.19 '°
28.25 ^
66.4
68.7*3
71.1 ^4
41-49 ,,
41.61 '*
41.70 9
34.7 ^
35-0 3
35.2
244
21.27 ,
78.5 \\
79.3 I
79-9
0
28.26 '
73.45
41.77 ;
41.80 3
35-3 ^
Dec. 4.4
21.28 ^
6
80.7"
20
52.09 3
28.24 ^
5
75.7:^
35.3 °
14.4
21.22
82.7
52.09
80.4
28.19
77-^ ,„
41.79 ,
35.1 .
24.4
^^•" !6
84.4 I
52.05 ^
51.97
80.8 4
28.10 9
T 0
79.7 '
41.76 3
34.9
34.3
20.95
85.6 "
81.0 ^
27,97 '3
81.2 *s
41.70
34.6 3
Sec <J, Tan <5
1.767 -^1.457
1. 12 1 40.507
1. 1 89 -0.644
1.034 +0.263
Mean Place
16M58 5i".65
48*.oo8 54"-34
24".456 9o".54
37'.888 il".64
DV 0, D« « 1 ^-03 -0.07
D,^<5, D«<< 1 +0.3 •♦0.7
-♦^0.01 -0.03
-o.oi 40.03
0.00 -0.01
+0.3 -^0.7
+0.3 40.7
40.3 +a7
[Bph xa]
APPAKENT PLACES OF STABS, 1912.
311
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.3
10.3
20.3
30.3
Feb. 9.2
19-^
29.2
Mar. 10.2
20.1
30.1
Apr. 9.1
19.0
29.0
May 9.0
19.0
28.9
June 7.9
17.9
27.9
July 7.8
17.8
27.8
Aug. 6.7
16.7
26.7
Sept. 5.7
15-6
25.6
Oct. 5.6
255
Nov. 4.5
145
24.4
Dec. 4.4
14.4
24.4
34-3
Sec (J, Tan 6
Mean Place
T* BridanL
Mag. 4.8
Right
Ascension.
h
2
m
47
3.28
3.17
3.04
2.90
2.74
2.57
2.41
2.27
2.15
2.06
2.00
1.98
2.01
2.09
2.21
2.38
2.59
2.83
310
340
3.72
4.04
4.36
4.68
4.98
5.26
5.52
5.75
5.95
6.12
6.26
6.36
6.43
6.46
6.46
6.43
6.37
6.28
I
3
4
6
7
6
4
2
9
6
2
3
8
12
17
21
24
27
30
32
32
32
32
30
28
26
23
20
17
14
10
7
3
o
3
6
9
Decline-
aon S.
— 21 21
62.8
64.0
64.9
65.4
65.6
65.5
65.1
643
63.1
61.6
59.9
57.9
55-7
53-3
507
48.0
45-3
42.6
40.0
37.6
35.4
33-5
32.0
30.8
30.0
29.7
29.8
30.3
31.2
32.5
340
35.8
37.7
39-6
41-5
43.2
44.8
46.2
12
9
5
2
I
4
8
12
15
17
20
22
24
26
27
27
27
26
24
22
19
15
12
8
3
1.074 -0.391
2V733 58".26
-O.OI
■K).3
40.02
40.7
T Persei.
Mag. 4.1
Right
Ascension.
h m
2 47
s
60.75
60.58
60.37
60.12 ^5
59.86 ^^
17
21
59.60
59.34
59.10
58.91
58.77
26
26
24
19
14
8
58.69
58.67 I
58.73 ^\
58.86 '^
59.06 l^
27
59.33 „
59.66 33
60.04
60.46
60.91
61.38
61.86
62.33
62.79
63.24
63.66
64.05
64.40
64.71
64.98
65.20
65.38
65.51
65.58
65.60
65.56
65.47
65.33
38
42
45
47
48
47
46
45
42
39
35
31
27
22
18
13
7
2
4
9
14
Declina-
tion N.
+ 5224
26.6
27.6
28.2
28.4
28.1
27.4
26.4
25.0
23.4
21.6
10
6
2
3
7
10
14
16
18
19
20
9.7
5.8 '9
4.1'^
2.7
14
12
1.5
0.6
0.0
9.8
0.0
9
6
2
2
6
0.6
1.5 ^
2.8 '3
15
4.3
6.1
18.2
20.4
22.7
25.2
27.7
18
21
22
23
25
25
26
30.3
32.8 ^5
35.2 '^
37.4
39.5
41.4
42.9
44.1
22
21
19
15
12
1.639 +1.299
6o».630 1 1 ".03
-K).02
40.3
-0.06
40.7
pSph 19]
T/Xrldaiii.
Mag. 4.0
Right
Ascension.
9
II
13
h m
2 52
s
8.09
8.00
7.89
7.76
7.62 '4
14
7.48
7.33
7.19
7.08
7.00
15
14
XI
8
5
6.95 ,
6.94
6.97 I
7.05 *
7.18 '3
17
7.35
20
7.55
7.79 ^^
8.06^7
8.35 '^
31
8.66
8.98
9.29
9-59 ,„
9.88 'I
^ 28
0.16
0.42
0.65
0.85
1.02
32
31
30
26
23
20
17
15
1. 17
1.28
1.36
1. 41
1-43
1.42
1.38
1.31
II
8
5
2
I
4
7
Declina-
tion S.
-914
53.2
54.2
55.0
55.6
56.0
56.1
56.0
55.6
55.0
54.1
53.0
51.6
50.0
48.2
46.3
44.2
42.0
39-7
37.5
35.3
33-2
31.4
29.8
28.4
27.4
26.7
26.4
26.4
26.7
27.4
28.3
29.4
30.7
32.0
33.3
34-6
35.9
37.0
10
8
6
4
I
4
6
9
II
14
16
18
19
21
22
23
22
22
21
18
16
14
10
7
3
o
3
7
9
II
13
13
13
13
13
II
1. 01 3
7«.678
-0.163
52'
".26
0.00
■K).3
+0.01
40.7
€ Arietis (mean)
Mag. 4.6
Right
Ascension.
54
s
10.80
10.72
10.61
10.48
10.33
10.18
10.03
9.89
9.78
9.70
9.65
9.65
9.70
9.79
9.93
0.12
8
II
13
15
15
15
14
II
8
5
o
5
9
14
19
2"?
0.35 '^
0.62 ^7
0.92 3°
"^i
1.23 -*
33
1.56
1.90
34
33
2.23
2.56 33
2.88 32
29
3.17
3.45
3.70
3.92
4.11
4.28
4.42
4.53
4.60
4.64
4.64
4.61
4.55
28
25
22
19
17
14
II
7
4
o
3
6
Declina-
tion N.
+ 2059
28.0
27.9
27.7
27.4
26.9
26.4
25.9
25.3
24.7
24.1
23.6
23.3
23.1
23.2
23.5
23.9
24.5
25.4
26.5
27.8
29.2
30.7
32.2
33.8
35.3
36.7
38.1
39.4
40.5
41.5
42.3
43.0
43.6
44.1
44.4
44.6
44.7
44.7
3
5
5
5
6
6
6
5
3
2
I
3
4
6
9
I
3
4
5
5
6
5
4
4
3
I
o
8
7
6
5
3
2
I
o
1. 07 1 +0.384
io*.6o9 20". 1 1
+0.01
•+0.3
-0.02
40.7
312 APPARENT PLACES OF STABS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
M«an Solar
Date.
Jan. 0.3
10.3
20.3
30.3
Feb. 9.2
19.2
29.2
Mar. 1 0.2
20.1
301
Apr. 9.1
19.0
29.0
May 9.0
19.0
28.9
June 7.9
17.9
27.9
July 7.8
17.8
278
Aug. 6.7
16.7
26.7
Sept. 5.7
15-6
256
Oct. 5.6
15-6
25-5
Nov. 4.5
14.5
24.4
Dec. 4.4
14.4
24.4
34.3
47 H. Cephd.
Mag. 5.7
Right
Ascension.
h
2
m
54
20.68 "
'9-79 '
18.80 99
104
16.73
1574
14.84
14.06
13.45
Declina-
tion N.
+ 79 4
99
90
61
42
13.03
12.81
12.82
13.05
13.49
14.12
14.94
15.92
17.02
18.23
32
I
44
63
82
98
no
121
126
Sec r), Tan <)
Mean Place
D V ^t I)m ^
^951 ^,,
20.83 ^
22.17 '^^
24.78 "9
122
26.00
27-14"'*
28.18 •«*
29.09 ^^
29.86
39.3
41.2
42.6
43.4
43.6
43-2
42.2
40.7
38.7
36.3
33.7
31.0
28.2
25.4
22.8
19
14
8
2
4
10
20
24
26
27
28
28
26
23
20
20.5
18.5
16.8 '7
15.6
14.9
12
7
2
14.7
14.9
156
16.8
18.4
2
7
12
16
20
77
62
30.48
30.93
31.19
31.26
31.14
30.82
30.32
29.65
45
26
7
12
32
50
67
20.4
22.8 ^1
25.6 ^»
28.6 30
31.9 ^3
^Xrldaiii.
Mag. 3.4
Right
Ascension.
35.3
38.7
42.2
45.6
48.9
51.9
54.5
56.7
34
34
35
34
33
30
26
22
5.277 .1^5.182
20*.38o I9".97
-K>.09
•K).3
-0.25
40.7
h m
2 54
8
56.60
5^-43 ^„
56.24 "9
56.03 "
55.80 ^^
23
55.57
17
22
20
55.35
55.15 ,„
54.97 '
54.82 '5
iz
54.71
54.65
54.65
54.70
54.80
54.96
5517
55.43
55.72
56.04
5
10
16
21
26
29
32
34
36
37
36
56.38
56.74
57.11
57.47 „
57.82 ^5
33
58.15
58.45
58.72
58.95
59.14
30
27
23
19
15
59.29
59.39
59.45
59.46
59.43
59.35
59.24
59.10
10
6
I
3
8
II
14
Declina-
tion S.
-4038
93.6
95.0
96.0
96.5
96.5
14
10
5
o
4
96.1
95-2 ^
92.0
89.8
22
87.3
84.5
81.5
78.3
75.0
25
28
30
32
33
33
33
32
71.7
68.4
65.2
62.2 ^°
59.5 ''
57.2
55.3
53.9
53.0
52.6
52.8
53.5
54.7
56.3
58.4
orCett.
Mag. 2.8
Right
Ascension.
23
19
14
9
4
2
7
12
16
21
24
26
60.8
66.1 ^7
68.8 ^7
71.3 '^
73.7
75.8
77.5
24
21
17
1.319 -0.859
55».58i 84".85
-0.02 40.04
40.3 40.7
[Bph ifld
h m
2 57
40.97
40.89
40.79
40.67
40.54
8
10
12
13
14
40.40
40.26 '4
1*^
40.13 **^
II
40.02
39.93
39.88
39.87
39.91
39.99
40.12
40.29
40.50
40.75
41.02
41.31
41.62
41.93
42.24
42.55
42.85
9
5
I
4
8
13
17
21
25
27
29
31
31
31
31
30
28
26
43.13
43.39 __
43.62 ^3
43.83 "
44.01
18
16
44.17
44.30
44.40
44.47
44.50
44:50
44-47
44.41
13
10
7
3
o
3
6
Declina-
tion N.
+ 344
45.2
44.5
43.9
43.4
43.0
42.7
42.5
42.4
42.5
42.7
43.1
43.7
44.6
45.7
46.9
48.3
49.9
51.6
53.4
55.2
57.0
58.7
60.3
61.8
63.1
64.1
64.9
65.4
65.7
65.8
65.6
65.2
64.7
64.1
63.4
62.7
62.0
61.3
7
6
5
4
3
2
I
I
2
6
9
I
2
4
6
7
8
8
8
7
6
5
3
o
8
5
3
I
4
5
6
7
7
7
7
yPenei.
Mag. 3.1
Right
Ascension.
1.002 40.065
40*.657 42".IS
0.00
.^0.3
0.00
40.7
h m
2 58
«
25.12
24.95
24.74
24.50
24.23
23.96
23.69
23.44
23.23
23.07
22.97
22.94
22.99
23.11
23.30
17
21
24
27
27
27
25
21
z6
10
3
5
12
19
26
23.56 ,,
23.88 3^
24.25 37
24.67
25.12
42
45
47
48
48
25.59
26.07
26.55
27.02 47
27.48 4^
44
27.92
28.33
28.70
29.03
29.32 ^^
25
29.57
29.77
29.91
30.00
30.03
41
37
33
20
14
9
3
2
8
30.01
29.93
29.80 ^3
Declina-
tion N.
+ 53 9
61. 1
62.2
62.9
63.2
63.1
62.5
61.6
60.3
58.7
57.0
55.1
53.1
51.2
49-5
47.9
46.6
45.6
44.9
44.6
44.7
45.1
45.9
47.0
48.4
50.1
II
7
3
I
6
9
13
16
17
19
20
19
17
16
13
10
7
3
I
4
8
XI
14
17
19
21
23
52.0
54-1
56.4 ^ .
58.8 ^4
61.3 ^5
63.8
66.3
68.7
71.0
73.1
75.0
76.7
78.0
25
25
24
23
21
»9
17
13
1.668 41.335
24«.898 45".46
40.02
40.3
•K>.o6
40.7
APPASENT PLACES OF STARS, 1912.
FOH THE UPPER TRANSIT AT WASHINGTON.
313
Mean Solar
Date.
Jan. 0.3
10.3
20.3
30.3
Feb. 9.2
19.2
29.2
Mar. 1 0.2
20.1
30.1
Apr. 9.1
19.0
29.0
May 9.0
19.0
28.9
June 7.9
17.9
27.9
July 7.8
17.8
27.8
Aug. 6.7
16.7
26.7
Sept. 5.7
156
25.6
Oct. 5.6
25.5
Nov. 4.5
145
24.4
Dec. 4.4
14.4
24.4
34-3
r'xzldaiii.
Mag. 4.2
RIglK
Aecension.
h m
2 58
s
31.37
3126
31.13
30.98
30.81
30,64
3047
30.31
30.17
30.06
Sec <J, Tan 6
Mean Place
D'^ a, Dm a
Df dyDttt'
29.99
29.96
29.98
30.04
30.14
30.30
30.50
30.73
31 00
31.30
3
2
6
10
16
30
23
27
30
31
32
32
32
31-61
31.93
32.25
32.57 __
32.88 ^'
29
33.17 _
33.44 J
33.68 l^
33.89 ''
34.07
18
15
34.22
34.33
34.41
34.45
34.46
34.43
34.37
34.28
II
8
4
I
3
6
9
Declina-
tions.
-2357
H
72.5
73.8 \l
74.8 '°
75.4
75.6
75.5
75-0
74.2
73.0
71.5
5
8
12
15
18
21
23
69.7
67.6
65.3
62.8 ^5
60.1 ^7
27
57.4
54.6
51.8
49.2
46.7
28
28
26
25
23
44.4
42.5
40.9
39.7
38.9
38.6
38.8
39.4
40.4
41.7
43.4
45.3
47.3
49.4
51.5
53.4
55.1
56.6
19
16
12
8
3
3
6
10
13
17
19
20
21
21
19
17
15
pPenel.
Var. 3.4-4.8
Rijjht
Aacension.
1.094 -O.
30».72i 67".83
-0.0 1
•H>.3
40.02
■K>.7
h m
2 59
•
32.13
II
32.02
31.88 '^
31.71 \l
3X.53 ,^
31.33
31.14
30.97
30.82
30.71
30.64
30.63
30.67
30.77
30.93
31.15
31.4X
31.71
32X)5
32.42
32.80
33.19
33.58
33.96
34.32
19
17
15
II
7
I
4
10
16
22
26
30
34
37
38
39
39
38
36
35
34.67
35.00
35.30
35.56
35.80 It
33
30
26
36.00
36.16
36.29
36.38
36.42
36.43
36.39
36.31
20
16
13
9
4
I
4
8
Declina-
tion N.
+ 3829
72.1
72.6
72.9
72.9
72.6
72.0
71.2
70.2
69.0
67.8
66.5
65.2
64.0
63.0
62.2
61.7
61.4
61.4
61.7
62.3
63.1
64.2
65.5
67.0
68.6
70.4
72.2
74.0
75.9
77-7
79.5
81.2
82.9
84.4
85.7
86.9
87.8
88.5
5
3
o
3
6
8
o
2
2
3
3
2
o
8
5
3
o
3
6
8
I
3
5
6
8
8
8
9
8
8
7
7
5
3
2
9
7
/^ Horolocii.
Mag. $j2
Kiulit
Aacenaion.
h
3
tn
I
a
34.19 „
33.86 ^
33.50
33.12
32.72
36
38
40
40
1.278 -K).795
3I-.942 59".55
40.0I -0.04
40.3 +0.7
[Bph is]
32.32
31.93
31.56
31.23
30.96
30.74
30.58
30.50
30.50
30.58
30.74
30.96
31.26
31.62
32.03
32.48
32.96
33.45
33.95
34.43
39
37
33
27
22
16
8
o
8
16
22
30
36
41
45
48
49
50
48
46
42
34.89
35.31
35.68 37
36.00 ^l
36.26 ^^
36.44
36.55
36.58
36.54
36.42
36.24
36.00
35.70
18
II
3
4
12
18
24
30
DecUna-
llon S.
— 60 4
54.4
56.0
56.9
57.3
57.1
56.4
55.1
53-3
51.0
48.3
45.3
42.0
38.5
34.9
31.2
16
9
4
2
7
13
18
23
27
30
33
35
36
37
37
^Hydri.
Mag. 5.5
Right
Aacenaion.
35
27.5
24.0
20.6 3^
^7.5 11
14.8 ^7
12.4
10.6
9.4
8.7
8.7
9.2
10.4
12. 1
14.3
16.9
24
18
12
7
o
5
12
17
22
26
29
31
19.8
22.9
26.1 3^
29.2 3^
32.1
34.8
37.1
38.9
29
27
23
18
2.005 -1.737
32*. 1 39 42 ".98
-0.03
■K>.3
■♦0.08
-K).7
h
3
s
7.61
7.00
6.33
5.63
4.91
4.19
3.50
2.86
2.28
1.77
m
2
61
67
70
72
72
69
64
58
51
41
1.36
I.06 3°
0.87 'I
0.79 ^
0.84
5
18
1.02
I.31
1. 71
2.22
2.80
3.46
4.17
4.91
5.66
6.40
7.10
7.74
8.30
8.78
9.14
9.38
9.50
9.48
9.33
9.06
8.68
8.20
7.63
29
40
51
58
66
71
74
75
74
70
64
56
48
36
24
12
2
15
27
38
48
57
Declina-
tion S.
-72 14
58.6
59-9
60.8
61.0
60.6
59.6
58.1
56.1
53.6
50.7
47.5
44.0
40.4
36.7
32.9
29.2
25.7
22.4
9.4
6.8
4.6
2.9
1.8
1.3
1.4
13
9
2
4
10
15
20
25
29
32
35
36
37
38
37
35
33
30
26
22
17
II
5
I
8
2.2
3.6
7'^ i
20.6
14
19
28
31
23.7
26.9
30.2
33.4
36.4
39.0
41.2
43.0
32
33
32
30
26
22
18
3.279 -3.123
3*.825 45".99
-0.06
-K>.3
■K).I5
40.7
314
APPABENT PLACES OP STABS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
/3 Persel.
(f Aiietls.
IdBridani.
48 H. CepheL
Mean Solar
Var. 2.Z-3.2
Mag. 4.5
Mag. 4.0
Mag. 5.5
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Aflcension.
aonN.
Ascension.
tion N.
Ascension.
tions.
tion N.
h m
0 t
h m
e
«
h m
0 *
h m
e »
3 2
+ 4037
3 6
+ 1923
If
3 8
-2919
If
3 9
+7724
Jan. 0.4
s
26.46
15.4 ,
16.0 *
S
35-93 a
35-85 ^l
48.0
8
20.72
66.2
7-52 ,,
^4-7 ,„
10.3
26.35 "
47.9
I
20.60 "
67.7 ;f
66.7 '°
20.3
26.21 '*
0
16.4 4
35.75 ',
47.7
2
20.46 '4
68.8 "
6.80 1'
68.2 '5
30.3
26.03
16.5 '
35.62 3
47.4
3
20.29 ]l
69.4 ,
5-98 ll
69.2'°
Feb. 9.2
25.84 "
16.2 3
35.48 4
47.0
4
20. n '^
69.7 ^
5.IO f
69.5 3
20
5
15
4
19
I
89
2
19.2
2564
'5-7 8
35-33 „
46.6
••
19.92
'9-74 ]l
69.6
69.0 J
4.21
3-34 fl„
693 -
68.5 *
29.2
^5-44 '°
14-9 „
35-18 5
46.1
5
Mar. 1 0.2
2525 '
13-8 "
35.03 ,:
45-6
5
19.56 ^
68.1 9
^•54 !?
67-^ It
20.1
25.10 ^
12.6 "
34.91 "
45.1
5
19.41 11
66.8 '3
1.83 J'
65-3 :!
30.1
24.98 "
"•3 '^
34.82 I
44.6
5
19.28 '3
65.1 '7
1.26 57
63-1 "
7
14
6
4
9
20
41
25
Apr. 9.1
2491 ,
9-9 „
34-76
44.2
19.19
^3-^ ..
°-85 „
60.6 ,
19.1
24.89 ^
8.6 '3
34-75 ,
44.0
2
19.14 5
60.8^3
0.62 *3
58-0 It
29.0
2493 *
7-3'^
34-78 3
34.86 I
43.9
I
19.14 ^
58.2 ^^;
0.58 *
55.2 ll
May 9.0
25.03 °
6.1 "
44.0
I
19.19 5
55.5 l^
0.73 '5
52.5 'I
19.0
25.19 **
5.2 '
34-99 ,1
44.3
3
19.28 9
52.6 9
1.07 34
20
49.9
21
7
18
•
5
14
30
51
24
28.9
25.40
4-5 ^
35-^7 „
44.8
'9'^^ ,n
49-6 ,^
^•58 .0
47-5 „
June 7.9
25.67 ^7
4-1 t
22
35-39 J
35-65 ll
45.5
7
19.61 9
4^-^ ^0
2.26 ^^
0 *%
45-4 "
17.9
2598 3'
4.0
46.4
9
19.84 '3
43-6 ^°
3.09 83
43.7 '7
27.9
26.32 ^^
4-2 '
35-94 ,;
47.5
II
20. IT '
^^•^ 26
4.03 94
42.4 'i
July 7.8
26.69 ^^
4'7 ^
36-25 11
48.8
13
20.41 3°
38.2 ^^
5-07'°*
41-5 9
39
8
32
13
31
24
112
4
17.8
27.08
5-5 ,^
36-57 ,.
50.1
20.72
35-8 _
6-19. ,
41. 1
27.8
^748 t:
36.90 33
51.5
M
21.04 ^^
«^ Q 20
33.8 .
7-35 '«
41.I °
Aug. 6.8
27.87 39
7-7
37-23 ,,
530
15
21.37 33
32.2
8.53"'
41.6 5
16.7
28.26 ^l
9-^6
37-56 33
54.5
15
21.70 33
^» ^ 12
31.0
9-7t ' ;
42.6 »*>
26.7
28.64 ^
10.8 '^
37.88 3^
56.0
15
22.02 32
30.3 ^
10.87 "<^
44.1 'f
36
17
30
13
31
3
III
18
Sept. 5.7
29.00
12.5
38.18
57.3
22.33 ,«
30.0
"•98,„,
45-9 ,
15.6
29.34 ,,
^^•3 !
38.46 ll
58.6
13
22.61 ^°
22.87 l^^
30.3 ;
13-02 '°4
48-1 "
25.6
29.65 il
16.2 '9
59.7
1 1
3^ 0 I
^3-98 9^
50-6 '^
Oct. 5.6
29.93 '^
18.2 '°
38.95 11
60.7
10
23.10 3
^^ « 12
32-2 .
14-84 !t
53-5 !'
15.6
30.17 ^*
•
20.1 '9
19
20
61.6
9
7
23.29 ;9
33-8 ;:
15-59 ^f
56.6 3'
32
25.5
30.38
22.0
w 0
39.33 ,,
62.3
23-45 ,,
35-7 „
16.20
59-8 ,,
Nov. 4.5
30.55 ,;
"3-8 I
39.48 ^
62.8
5
23-57 "
37-8 "
16.67 '*^
63.1 33
14.5
30.68 '3
:5-2 •'
27.2
39.60 ^^
63.3
5
23-65 I
40.1 11
»699 ^;
66.5 34
24-5
30.77 9
39.69 :
63.6
3
23.70 5
42-4 l\
17-14 't
69-9 ^t
Dec. 4.4
30.82 ^
28.6 '4
39.74 :
63.8
2
23-71 '
44-7 '3
17.II 3
73-1 32
0
13
2
2
3
22
19
30
14.4
30.82
299 „
39.76
64.0
23.68
4^-9 ,^
16.92
76-1 „
24.4
30.78 ^
30.70
31.0
31.8 ^
39.74 ^
39.68 ^
64.0
0
23.62 ^
to!
50.4
16.56 36
78-8 n
34.3
63.9
I
23-52 '°
16.04 ^
81.I *3
Sec cJ, Tan 6
1.317 +0.858
1.060 •♦0.352
1. 147 -0.562
4.589 +4.479
Mean Place
26".258 2".37
35«.658 40" .43
I9*.922 6o".85
6«.868 45".8o
DV Of Bm a
+0.02 -0.04
■KJ.Ol -0.02
-0.01 +0.03
+0.09 -0.20
X)^6 Dm (I
+0.3
-fO.7 1
+0.3
+0.7
•«>.3
+0.7 1
+0.3
40.7
[Eph la]
APPARENT PLACES OF STARS, 1912
315
FOR THE UPPER TRANSIT AT WASHINGTON.
C Arietts.
88 HorologU (G.).
C Xrldaxil.
r ArietlB.
Mean SoUr
Mag. 5.0
Mag. 5.7
Mag. 4.9
Mag. 5.2
Date.
^^^^^
Right
Declina- |
Right
Declina-
Right
Declina-
Right
Declina-
J
Awension.
tionh
L
Asceoalon.
tions.
Ascension.
tion S.
Ascension.
tion N.
h m
•
t
h m
•
h m
• *
h m
e r
3 9
+ 2043
IT
3 10
-5738
3 "
-98
3 16
+ 2049
Jan. 0.4
•
50.69
16.0
8
73-6 „
s
33.97 ft
33.89 ,;
45-7 .„
8*94 .
8.88 *
57-6
10.3
50.62 '
15.9
I
20.85 ''
75.3
46.7 •°
57.6 °
20.3
50.52 °
15.7
2
15
20.53 „
76.4 '
33.79 °
47.6 9
8.78 °
57.4 '
30.3
50.39 A.
15.5
2
20.18 35
76.9 5
33.66 3
48.3 I
8.65 3
57-2 \
Feb. 9.2
50.24 ^5
I5.I
4
4
19.81 37
37
76.9 1
33.51 ^
15
48.7 \
«-5^ ^6
56.8 4
4
19.2
50.08
14.7
^
19.44 .^
763 „
33.36
48.9 ,
8-35 ,,
8.19 '^
56.4 ,
29.2
49.93 '^
14.2
5
6
19.07 37
75-2 "
33.21 5
48.8 '
55.9 \
Mar. 10.2
49.79 ,;
13.6
18.73 3^
73.5
33.07 1^
48.5 \
8.04 ^
55.4 ^
20.1
49.67 "
I3.I
5
18.42 3^
7»-4 \\
32.94 ;^
48.0 5
47.2 „
7.92 "
54.9 ^
30'i
49.57 ^l
12.6
5
5
18.15 ^^
21
68.9 =^5
29
32.84 ';
7.8X '^
54.4 \
4
Apr. 9.1
49.51
12. 1
^
17.94 ,,
66.0
4* ^%
32.77 _
46.1
V 4
7-75 ^
540 ^
19.1
49.49 .
II.8
3
17.79 \
62.8 3^
32.74 \
44-8 ^
43.2 ;
7-73 \
53.6 ^
29.0
49.52 ^
49.60
1 1.6
2
17.70 9
59.4 ^^
55-8 ^!
32.76 ^
32.82 ^
7-75 ,
53.4 ^
May 9.0
11.6
0
17.69
4' -5 'I
7.82 7
53.4 ,
19.0
49.73 I^
11.9
3
^7.76 ,^
52.2 f
32.93 ,,
39-5 Z
7-95 ;3
53.6 \
17
4
»3
37
15
20
17
4
28.9
June 7.9
4990
12.3
12.9
6
0
18.10^'
33.08
33.27 '
37-5 „
35.3
8.12
8.33 \\
54.0 ,
54.6 \
55-4 ,^
17.9
50.38 '«
13.7
0
18.37 n
41.5 3^
22
33.49 *
33.1 "
8.58 '5
27.9
50.66 ^^
14.7
10
18.70 33
384 ^'
33.75 'J
34.03 "
30.9 "
8.86 ^'^
56.4 ^
July 7.8
50.97 _
15.9
12
19.08 3»
35.6 ^\
^8-7 "
9"7 ^'
57.5 "
33
13
42
34
30
31
32
13
17.8
5^-30 _
17.2
19.50
33.2 ,„
34-33 „
26.6
9.49 ,,
58.8
27.8
51.63 ^f
18.6
14
19.95 ^^
31.2 ^'^
34.64 ^
24-7 1'
9.82 33
60.1 '3
Aug. 6.8
51.97 ^^
20.0
14
20.41 4
29.8 'J
11
34-95 ^
^3-^ !
10.16 34
61.5 '4
16.7
52.30 ^^
21.5
15
20.88 47
8
29.0
35.25 ^.
21.7 '4
10.49 33
62.9 '4
26.7
52.62 ^^
22.9
14
21.344^
28.8 ^
35.55 ^
20.7
10.81 32
^4-3 \\
30
13
44
4
29
7
31
»4
Sept. 5.7
15.6
52.92 ^3
53.20
24.2
25.5
13
21.78
22.19 4'
29.2
30.2 ">
35-84 ,,
36.10 ^J
20.0
19.6 4
II. 12
"•41 !^
65.7 ,.
66.9 "
25.6
53.46 J
26.7
12
22.56 37
31-7 '5
36.34 't
19.6 \
11.68 ^7
68.0 ' '
Oct. 5.6
53.70 ^^
27.7
10
22.87 ^'
33-8 1
36.56 "
19.9 3
11.92 ^*
69.0 '^
156
21
53-91 ^^
28.6
9
8
23.12 ^5
19
36.4 '^
29
3^-7^ ^6
20.6 7
9
12.13"
19
69.9 ^
255
54.10
29.4
23.31 ,.
39-3 ,„
36.92
^^•5 „
12.32
12.48 '*
T 1
70.7 ,
7x3 J
Nov. 4.5
54.25 ^^
30.1
7
23.44 3
23.50
42.3 ^°
37.05 ^
22.6 "
T ^
14.5
54.37 ''
30.6
5
45.4 ^
37.15 '°
23.9 ,^
12.61 '3
71.8 5
24.5
54.46 9
31.0
4
23.48 ^
+8-^ ^0
37.22 7
"5-3 !
12.71 '°
12.77 ^
72.2 *
Dec. 4.4
54.52 ^
31.3
3
2
23.39 j^
51.6 3°
27
37.26 *
26.7 '4
14
72.5 \
14.4
54.54 ^
31.5
^3.24 ,^
54-3 ,,
37.26
28.1
12.79 ,
72.7 .
24.4
34.3
54.52
54.47 ^
31.5
31.5
0
0
20
2304 ,.
22.78 '^
567 ^*
58.7 '"
37.24 -
37.18 «
29.4 '3
30.5
12.78 '
r2.74 4
72.8 '
72.8 °
Sec rJ, Tan 'J
1.069 +0.378
1.869 -1.579
1.013 -O.161
1.070 +0.381
Mean Place
50«.4i3 7".9«
>
I9".2i9 63".i6
33-.466 45".57
8V632 49"-49
D>a, D«a
+0.01 -0.0:
!
-0.03 +0.07
0.00 40.01
+0.01 -0.02
D,^<J, D«<J
40.3 +0.7
+03 +0.7
+0.3 40.7
+0.3 +0.8
[Eph »]
'
316
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
\
e Bridani.
^PeEsei.
iHydri.
oTawi.
Mean Solar
Mag. 4.3
Mag. 1.9
Mag. 5.5
Mag. 3.8
Date.
1
Kight
Declina-
Right
Deeliaa-
Right
Declina-
Right
Declina-
ASGCBBion.
tions.
Ascention.
UonN.
Aacension.
CionS.
tion N.
h m
•
h m
e t
h m
•
h m
0 »
3 i^
-4323
3 18
+ 4932
3 18
-77 4^
St
3 20
+ 843
Jan. 0.4
s
25-99 ,.
88.8 ,
90.4;;
s
2.35
70.3 ,^
^^■75 „,
48.4 „
•
4.93
•t
16.3
15.8 5
10.3
I ■?
2.22 ''
7X-5 "
"•*4 ''
49.9 '5
4.86
7
20.3
25-63 VI
91.6 "
2°5 ''
72.2 7
"•«5 ''
50.8 9
4.77
9
153 ,
30.3
25.41
92.3 7
»-84 :
72.6 I
10.80 '°5
^ - 0
51.2 ^
4-65
12
14.8 5
Feb. 9.3
25.18 ^3
92.6 3
1.60 ^*
72.6 °
9.72 _
51.0 I
4-52
13
14-4 t
24
3
25
4
109
8
15
3
19.2
24.94 ,,
923 „
^•35 ,.
72.2
8.63 ^
7-57 ,^
50.2
4-37
14. 1
29.2
24.69 l{
i.io ^5
7^-5 J
48.8 ;^
4.22
15
13.8 3
Mar.10.2
24-46 '3
90.2 3
°-87 ?,
7^-5 :
^•57 '^
46.9 ^
4.08
14
13.6 ^
20.1
24.25 "
88.5 '7
0.66 "
69.2 '3
5-^5 ^
44-^'^
3.96
12
13-5 '
30.1
24.08 '7
86.4 "
0.50 **
67.7 '5
4.84 ^'
41.9 '7
3.86
10
^3-5 !
13
24
XI
W
69
31
7
2
Apr. 9.1
23.95 0
23.87 !
81.2 '*
0.39 ^
66.0
4.15 ,^
38.8 ^^
3.79
13.7 ,
19.1
0.34 ^
64.3 \l
3.61 5*
35-5 11
3.76
3
14.0 ^
29.0
23.84 I
78.1 3'
0.36 '
62.6 *7
3.22 39
3^-9 3^
3.78
2
14.5 ;
May 9.0
23.86 I
74.9 11
0.45 ,!
61.0 '<^
2.99 ^3
28.2 37
3.84
0
15.2 '
19.0
23.94 *
7»-5 ^*
0.60 '5
59.S |5
2-94 .^
24.5 37
3.95
IZ
16.I 9
14
34
22
'3
12
36
15
II
29.0
24.08
68.1
0.82 ^
58.2
3.06
20.9
4.10
17.2
June 7.9
24-27 '^
64.7 l\
T Tr% 28
I.IO
57.2 'I
3.35 !^
17.4 35
4.30
20
»8-4 "
17.9
27.9
24.79 ll
61.4^3
5«-3 11
55-5 ,^
1.43 33
I.81 38
56.6 ^
56.3 i
4-41 !:
14.0 34
4.54
4.80
24
26
^0
19.8 '4
**-9 °
July 7.8
25.11 ^,
2.22 "^^
56.3 °
5-^5 It
8.2 »7
5.08
28
35
25
43
3
85
22
30
16
17.8
25.46 _
53.0 ^,
2.65
56.6 ^
6.00
6.0 ^
5.38
'4-5 ,
27.8
25.83 37
21
3.10 ^5
57.2 f
6-94 .!!
4-2 '8
5.70
32
26.1 '*
Aug. 6.8
26.21 3*
49.3 t
3-56 It
58-^ ,!
7-94 '~
3°'!
6.02
32
27.6 '5
16.7
26-59 ^!
48.2 "
4-^^ !i
59.3 "
s-96 !!
'•4 ^
6.33
31
29.0 '♦
26.7
26.96 37
47-7 :
4.45 _
60.7 4
9.98 ^
24 «
6.64
31
30.3 ,3
36
I
42
17
99
7
29
II
Sept. 5.7
2732 ,,
47-8 .
4-87 ,„
62.4 -
10.97
31
6.93
31-4 a
15.7
27.65 33
48.4 .t
5-^7 t!
642 :'
11.90 93
4.4 '2
7.20
27
32.2 »
25.6
^7-95 ,°
49-5 "
564 z
66.2 ='«'
82
12.72 "
6.2'*
7.46
26
32.9 ;
Oct. 5.6
28.21 '^
51.1 '*
5.98^
68.3 ''
13.41 t!
8-5!'
7.69
23
33-4 '
15-^
2844'^
53-2 "
6.28 30
70.5 "
13.96 55
11.2 »7
7.89
20
33.6 '
«9
a4
26
33
38
30
18
I
^5.5
28.63 ,^
55-6 „
6-54 „
72.7 „
^4-34 .^
^4* „
8.07
16
33-7 ,
Nov. 4.5
28.77 '*
-
6.76 ",
..< ^ 33
74-9 ,,
14.53 '^
17.4 W
8.23
33-6 '
14.5
28.86 9
6-93 ]l
77.1 "
14.53
20.7 ''^
8.35
12
33-3 '
24-5
28.90 *
63.9 '?
705 "
79-2 :
^4-34 [I
23-93^
8.44
9
330 I
Dec. 4.4
28.89 '
0
66.6 »7
36
7.12 7
I
81.2 '"
18
13.96 38
55
26.9 3^
^ 28
8.50
0
3
32.5 I
14.4
28.83
69.2
7.13 ^
846 [t
^3-41 ^.
29.7 ^,
8.53
V
32.0
24.4
28.73 t
7^-5 '3
7-^ ,0
12.70 7'
32.0 ^^
8.52
I
31.5 ^
34.4
28.60 '3
73.5 '^
6.99'^
85.9 '^
11.86 ^33.9'^
8.47
5
31.0 ^
Sec 6, Tan 6
1.376 ^.945
1.541 +I.I73
4.697 -4.589
1. 01 2 .K).i53
Mean Place
24«.766 80" .98
l'.99i 55".57
7-.8o8 36".94
4*537 "".34
DVOiDmo
-0.02 +0.04
40.02 -0.05
-0.09 40.20
0.00 -0.01
J}^^,Dm6
+0.3
40.8 1
.♦0.3
-K>.8
•K).3
40.8
■K).3
.K>.8
[Bphu]
APPARENT PLACES OF STARS, 1912.
317
FOR THE UPPER TRANSIT AT WASHINGTON.
8 H. Camelop.
f Tmuri.
/Ttnri.
£ Sridanl.
Mean Solftr
Mag. 4.4
Mag. 3.8
Mag. 4.3
Mag. 3.8
Date.
Right
Declina-
: Right
Decline- |
Right
Deeltna- |
Right
Declina-
Aaconsion.
tion N.
Aacenaien.
tlonN
I.
AecflBtion.
tionN
I.
Aecension.
tion S.
h m
0 f
h m
e
t
h m
0
t
h m
•
3 21
+5938
3 22
+ 925
3 25
+ 1238
$9
3 28
- 944
f0
Jan. 0.4
56.60
20.9
24*28
40.2
•
61.15
14.9
a
47,60
79.3 „
10.3
56.41 11
".4 ^
24.21 '
39.7
5
61.10 5
14.6
3
47-53 I
80.4"
20.3
56.17 '*
23.5 "
24.12 ^
39.2
5
61.01 ^
14.2
4
47.43 \\
81.4 '°
30.3
55.88 11
24.2 7
24.01 "
38.8
4
60.89 "
13.8
4
47-30 ;3
82.1 7
Feb. 9.3
55-55 I]
24.4 ,
23,88 '3
38.4
4
60.75 '^
13.4
4
47.16 4
82.6 5
34
3
15
4
15
4
16
3
19.2
55-2 =t ,^
24.2
23.73 ,,
38.0
60.60
13.0
47-00
46.84 ^
82.9
29.2
54.87 ^^
23.5 ,;
23.58 \{
37.7
3
60.45 ;^
12.7
3
82.9 °
Mar. 1 0.2
54-55 L
54.27 ll
22.4"
23.44 _,
37.5
2
60.31 *4
12.4
3
46.69 5
82.6 3
20.1
20.9 ;5
23.31 \i
37.4
I
60.18 '3
12.2
2
46.55 t
82.1 5
30- 1
54.04 ^l
19.1 '^
20
10
23.21 ^
37.4
0
I
60.07 ' '
7
12.0
2
0
46.43 "
«^-3 .^
Apr. 9.1
53.88
17.1
0 »
23.14 -
37.5
^%
60.00
12.0
w
46.35 .
80.3,,
19.1
53-79 ;
^5.0
23.11 ^
37.8
3
59-97 ;
12. 1
I
46.30 5
790 \l
77-4 !
29.0
53.79 „
53.87 ,!
12.9 "
23.13 g
23.19 ,_
38.2
4
59.98 '
60.04
12.4
3
46.30 °
May 9.0
»^ *v 20
lO.Q
38.9
7
12.9
5
46.34 *
46.42
13
75-7 !
19.0
54.04 ^l
Q «. 20
8.9 «
^ 18
23.30
15
39-8
9
II
60.15 ;;
13.6
7
8
73-8 ''
21
29.0
5430
7-^ I.
^3-45 ,„
40.9
60.30
14.4
46.55 ,„
46.73 \\
7'-7 „
June 7.9
54.63 "
5.6 '5
23.64 ^^
42.1
12
60.49 '^
15.4
10
69.5 "
17.9
55.03 *
3-7 °
23.87 \l
43.4
13
60.72 1
16.6
12
46.94 "
67-3
27.9
55.48 «
24.14 ;
44.8
H
60.98 '<*
17.9
13
47.18 ^^
65.1
July 7.8
55.98 5°
3.2 5
24.43 '^
46.3
15
_ ^
61.27 '9
19.3
14
47-45 ^^
6^-9 Z
53
I
30
16
3«
14
29
20
17.8
56.51 „
3-^ ,
24.73 .,
47.9
• £.
61.58 „
20.7
+7-74 ,„
60.9
27.8
57.06 55
57.62 56
58.18 56
3-4 t
25.04 ;,
49.5
10
61.90 3^
22.2
15
48°4 ^°
59.0 ^
Aug. 6.8
♦•^I
25.35 :,
51.0
15
62.22 3
23.6
14
48.34 3^
57-3 I
16.7
5.2"
25.66 3
52.4
14
62.54 ^'
25.0
14
4865 ^*
55-9 \t
26.7
58.73 li
6.6'*
25.97 _
53-6
12
62.85 ^
26.3
13
4895 ^^
54.9 '°
53
17
30
If
30
II
29
7
Sept. 5.7
59.26
8.3
26.27 ,«.
54.7
*^3-i5 ,0
27.4
49-24 „
54-2 ,
15.7
59.76 5^
60.22 *^
10.2 "
^^•55 ^'
55.6
9
^3-43 VL
28.4
10
0
49-51 \\
53-8 4
25.6
26.81 ^^
56.3
7
63-69 '^
29.2
8
49-76 \\
53-8 °
Oct. 5.6
60.64 ^l
61.02 3»
33
14.6 ^3
0 e
27.04 ^^
56.8
5
63-93 '^
29.8
6
49-99 '^
54-1 ;
15-6
^7-» :J
27.25 ,3
57.1
3
I
64-15 "
19
30.2
4
3
5°-9 :°
54.8 '
10
25.5
^^•35 ,,
19.7 „
27.59 ',
57.2
64-34 ,
6450 \\
30.5
50.37 ,.
55.8 ,^
Nov. 4.5
61.62 ^7
22.4 ''
4^ ^m
57.1
I
30.6
I
50.52 =
57.0 ",
14-5
61.83 y
^77
27.72 ^l
56.9
2
4A
6463 ^
30.6
0
50.64 "
50.72 \
58.3 \\
24.5
61.97 ':^
27.81 9
27.87
56.6
3
64-73 •"
30.4
2
59-8 5
Dec. 4.4
62.04 '
^ 0
30.2 "^
»3
56.2
4
5
64.80 "
3
30«2
2
2
50.77 *
61.3 '5
15
14.4
62.04
32.5 „
27.90
55.7
V
^
64.83
30.0
A
5079 ,
62.8
24.4
61.97 ,^
34.6 \\
27.89 '
55.2
5
64.83 ^
29.7
3
50.77 ^
642 4
34.4
61.83 '^
36.3 '^
27.85 *
54.7
5
64.79 "^
29.3
4
50.72 '
65-4 "
Sec <5, Tan <J
1.978 +1.707
1. 014 -K>.z66
1.025 40.224
1.015 -0.172
Mean Place
56".055 4".42
23V886 34".96
►
60-.759 8".76
i
47'.oi5 79"-74
D'f a, Dm a
40.03 -0.07
0.00 -O.OI
1 0.00 -O.OI
0.00 • +0.01
D^ <f, D» (J
+0.3
■K).8
+0.3
+0.8
1 40.2
40.8
+0.2
♦0.8
[Eph Z2j
318
APPARENT PLACES OF STABS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
r<^ Xrldaiii.
(^ Penei.
(^Krldanl.
V Peraei.
Mean Solar
Mag. 4.3
Mag. 3.1
Mag. 3.7
Mag. 3.9
Date.
Right
Ascension.
Declina-
tion S.
Right
Ascension.
Declina-
tion N.
Right
Ascension.
Declina-
tion S.
Right
Ascemion.
DecUna-
donN.
h m
0 t
h m
0 «
h m
e >
h m
0 t
3 29
-21 55
00
3 36
+ 4730
0§
3 39
~io 3
f0
3 39
+ 42 18
Jan. 0.4
s
54-71
54.63 ^\
4'-7 „
s
39.69 ,„
39-3 „
B
2.56
38-3 „
s
I3-" g
13.03 „
'^•3 ,„
10.3
43.2 \\
39.59 „
M^ m *2
40.5 „
2.49 \
39-4 ^
19-3 '^
19-9 ,
20.3 *
20.4 *
2
20.3
303
Feb. 9.3
54-51 "
54-36 5
54.20 ^g
44.4"
45.7 \
38-44 J
39.26 "
3904
24
41.4 ^
41.9 ;
42.0
2
2.40 "
2.28 "
^•'4 ,6
40.4 'g
41.2
41.7 \
12.74
12-55 "
"^^ 21
19.2
29.2
Mar. 10.2
20.2
30.1
54-02
53.85 w
53.68 \l
53.52 »*
53.39 \l
45-9 .
45-7 I
45.1
44-','
43-° .6
38.80
38-56 \\
38-33 ^^
38.12 "
37-95 \\
41.8
41.3 J
40.4 ,^
39.3 "
38.0 '3
15
1.98
I.81 '7
1.39 ^
42.0
42.0 °
41.7 3
41-2 3
40.4
10
'^•34 ,,
12.12"
TT ^T 21
I 1. 91
XI.72 '9
11.56 '^
11
20.2
19-7 \
18.9 *
»7-9 '?
16.7 "
12
Apr. 9.1
53-29 g
53.23 °
4'-4 ,0
37-83 ,
33-3 ^
1.30
39-4
"•45 6
".39 ,
^5-5 ,^
19.1
39.5 ^
37-76 \
1.25 3
38-1 3
14.1 *4
29.0
53.22
37-4 "
37-75 '
37.81 6
37-94 ,J
1.24
36.6 5
34-8 '8
32.9 '9
21
11.38 '
"•56 >8
12,8 '3
May 9.0
19.0
53.25 \
53.33 ,3
35.1 \\
32.6 ="5
27
31-8 '5
30.4 '4
12
1-27 3
1.35
12
11.5 '3
10.4 "
9
29.0
June 7.9
17.9
27.9
July 7.9
53-45 -,
53.62 \\
54.07 4
54.34 4
29.9
27.2 '
^4-5 \l
21.9
194 '5
24
38.13 „
38-38 '5
38.68 30
39.03 35
39.42 39
41
29.2
28.2 '«
27.5 ^
27.1 *
27.0 '
^•47 ,fi
1.63 '*
1.84 "
2.08 »4
-34 :^
30.8
28.6 "
26.4 "
24.1 ='3
21.9"
21
"•74 „
".97 "2
.2.25 '«
"•57 ^6
12.93 ^3
9-5 ,
8.8 7
8.3 3
8.1 '
8.2 '
3
17.8
27.8
Aug. 6.8
16.7
26.7
54.94 ,,
55-26 3^
55-58 3J
55-89 ''
30
17.0
20
II.9 ^
II.O ^
5
39.83 ^.
40.26 ^"^
40.69 43
41.13 **
41.56 «
4«
27.1
27.6 3
28.3 7
29.3 :^
3-^ \\
2.62
2.92 ^°
3.23 3
3-54 :„
3-84 z
29
19.8
17.9 ;!
16.2 '7
14-8 '4
X3-7 ';
^3-31 ^„
^3-71 1^
14.11 40
14.52 4'
14-92 4°
39
^•5 6
9-^ 8
10.9 ">
12.1 "
»4
Sept. 5.7
15.7
25.6
Oct. 5.6
15.6
5^- ^9 .„
5^-47 '^
56.73 f^
5697 '4
57.18 1;
10.5
10.5 ^
10.9 ^
II.8 9
'3-0 :^
4' 98 ,„
42-38 4°
42.76 38
43." \\
43.42 3^
3^-° ,6
33.6
35.3 ''
37-^ :;
39- » ,„
20
4-^3 ,3
441 ,.
4-67 '**
4-91 '4
5.12 "
19
13.0
12.6 4
12.6 "
12.9 3
13-6 '
10
^5-31 „
15-68 37
16.03 3,^
16.35 ^*
16.65 30
13-5
16.6 '*
18.3 '7
20.0 ;7
25.6
Nov. 4.5
14.5
24.5
Dec. 4.4
57.35
57-50 5
57-61 '
57.69 °
57.73 4
18.4 »°
20.5
«« /: 21
22.0
20
43-70
43-94 ;j
44-13 '
44.28 '5
44-38 '°
4
41. 1
20
43-1 ,„
20
45-1
20
47.1
49.0 ;j
5-3' „
5.46 '5
5-59 !^
5.69 '°
5-75 ;
3
14.6
15.8 "
17-2 '4
18.7 '3
20.2 '3
15
16.91
17.14 '^
17.33 ;j
17.47 4
17.56 \
21.8
23.5 '^
25-2 '7
26.9 '7
28.4 '5
«4
14.4
57.73 ,
24.6
4442
50.7 ,^
5.78 ^
21.7
17.61
29.8
24.4
344
5770 i
57.63 '
28.1 '^
4441 .
44.34 ^
52.2 '5
53.5 '3
5.77 ^
5.73 "^
23.2 '^
24.5 ^^
17.61 ""
17.56 5
31. I '^
32.2
Sec <J, Tan 6
1,078 -0.403
1. 481 +1.092
X.016
-0.177
1.352 40.910
Mean Place
S3'.96o 39".25
39" .206 25". 24
i".929 39". 01
12-.644 5".23
D',^ a, Dm a
-0.0 1 +0.03
+0.02 -0.04
0.00 +0.01
+0.02 -0.04
T^Jr <5, T>u 6
+0.2
+0.8
+0.2
+0.8 1
+0.2
40.8
+0.2
40.S
[Eph 12]
APPARENT PLACES OF STARS, 1912
319
FOR THE UPPER TRANSIT AT WASHINGTON.
5 H. Camelop.
VTtori.
r^Xridaiii.
^^'Erldaiii.
Mean Solar
Mag. 4.7
Mag.
30
]
Eidag. 4.3
Mag. 4.2
Date.
Right
Daellna-
Right
Deollna-
Right
Declina-
Right
Declina-
Ascenaion.
tionN.
Aacenalon.
UonN.
Aacenalon.
UonS.
Ascenaion.
tion S.
h m
e r
h m
•
f
h 1
n
e
h m
e
3 40
+ 71 3
ft
3 42
+ 2350
0
3 43
-2330
3 46
-3627
f
-Jan. 0.4
•
^♦•33 ,„
61.2
a
15.47 _
10.4
a
4.53
3^-7 ,6
34-3 ;,
a
10.84 „
62.4
10.4
64°3 i°
^3-3 "
15.42 I
10.5
z
4.44
9
10.72 ;
10.56 ll
643 ^
20.3
J3-63 J°
65.0
15.33 ^:
10.6
I
4.33
II
35-6 \t
65.8 5
303
66.2 "
66.8 ^
15.21 "
10.5
I
4.18
15
36.6 '°
37-2 ^
10.37 ,.
66.9 "
67.5 ^
Feb. 9.3
62.62 53
15.07 't
10.3
2
4.01
17
10.16 ^'
57
I
16
3
18
3
22
2
19.2
62.05 .„
61.47 ll
66.9
14.91 „
1 0.0
3.83
18
18
37-5 ,
9.94 „
^7-7 ,
29.2
66.5 ^
14.74 :l
14.58 \t
9.6
4
3.65
37-4 ^
9.72 11
674 I
66.6 *
Mar. 1 0.2
60.92 *5
65-6 ,!
9.1
5
3.47
36.9 5
9-49 ^^
20.2
60.42 5°
64.2 '4
^4-43 !
8.6
5
3.30
17
36.0 I
9-28 '
654 "
301
60.00 **
62.3 '9
14.31 "
8.0
6
3.15
15
34.8 "
9.10 '8
63.8 '^
33
21
9
5
II
16
«4
20
Apr. 9.1
5967
60.2
14.22
7.5
3.04
33.2 .
8.96 ^
61.8
19.1
59.46 "
57-8 ^*
14.17 I
7.1
4
2.97
7
18
31-4 "
8.85 "
8.79 t
59-4 It
540 ,„
29.1
5937 I
55.3 '5,
14.17 ,
6.7
4
0^
2.94
3
^9-3 "
May 9.0
59.41 ♦
52-8 'f
14.22 '
6.5
2
2-95
I
26.9 ll
8.78
19.0
5958 11
5°-4 !t
1432 ]°
6.4
1
3.01
6
24-4 !^
8.82 *
51.0 f
30
23
>5
2
II
27
10
32
29.0
59.88
48.1 „
H-47 ,„
6.6
3.12
- jr
"■7 „
8.92 ,^
47-8 „
June 7.9
60.29 4'
46.0 "
14.67 Vl
6.9
3
3.28
10
'9-0 'J
9.07 '5
44-6 ^!
17.9
60.81 f
44-2 *
14.90 ,3
7.4
5
3.48
20
16.2 ="*
9.26 ^9
4' -4^:
27.9
61.43 f
42.7 '5
15.17 ^^
8.1
7
3.71
23
x« A 26
9.50 4
38.4 3°
July 7.9
62.12 ^9
76
41.6 "
7
^5-47 I
8.9
8
10
397
26
29
,, r^ 26
II.O
24
9-77 ,;
30
35.5 ^l
17.8
62.88 „
40.9
^578 „
9.9
4.26
8.6
10.07
329 „
27.8
63.68 «!
2
40.7 ;
16.II 33
II.O
II
4.56
30
^•5!!
10.39 11
3°-7 «
Aug. 6.8
6450 11
40.8 ^
16.45 i*
12. 1
II
4.87
31
4-S I
10.73 ^4
^8-9 !
16.8
6533 7
41.4 I
16.79 3*
13.3
12
5.19
32
3-4 :^
11.07 34
27.5 ':^
26.7
66.16 °3
10
42.4 °
17.13 37
14.6
13
5.50
31
2.4^:
1 1. 41 34
26.6 9
81
14
33
12
31
5
33
3
Sept. 5.7
66.97 -
43-8 ,,
17.45 „
15.8
5.81
^•9 ^
"•74 ,,
26.3
15-7
67.75 !:
45-5 !^
^776 3^
16.9
II
6.IO
29
^•9 °
12.06 32
26.6 3
25.6
68.48 73
47-6 Z
18-05 11
18.0
II
6.37
27
^•4 0
12.35 11
274 ,,
Oct. 5.6
69.16 f
50.0 '4
18.32 'I
19.0
10
6.61
24
3.3 /
12.62 ^7
28.6 "
15-6
^77 1'
53
52.6 '^
28
18.56 ^4
22
19.9
9
8
6.83
22
19
12.86 ^4
20
3°-3 11
22
25.6
70.30
55-4 ,„
18.78
20.7
7.02
_ ^
6.2
13.06
32.5 _
Nov. 4.5
14-5
70.74 '^'^
71.08 34
58.43°
61.5 3'
^«-97 ^
19.13 ,
21.4
22.0
7
6
7.18
7.31
16
13
8.1 *9
10.2 ="
13.23 ^
12
13.35 g
350 ^l
37-6 '«
24.5
71.31 ^^
646 3'
19.26 '3
22.5
5
7.40
9
22
12.4
13.43 -
^-rv ^ 28
4^-4 ^^
Dec. 4.5
71.43 ']
67.6 3°
' 28
19.35 ^
22.9
4
4
7-45
5
I
14.7 '^
^ 21
13.46 3
43- :j
14.4
71.44 ^
70-4 „
19.40
23.3
7.46
16.8
13.45
45-7 ,^
24.4
12
71.32
73.1 '^
2
19.42
23.5
2
0
7.44
2
18.8 *°
20.6 '«
13.40 ^
48.1 =^4
IT
34-4
71.09 *^
75.4 '2
19.39 ^
23.7
2
7-37
7
13.30 '°
50.2
Sec <5, Tan <?
3.082 +2.915
1093
•fo.442
1.090 -0.435
1.243 -0.739
Mean Place
63'.045 43". 80
i5".035
i".34
3».692 30". 63
9-.698 57".97
D V Of I^w °
+0.06 -0. 1 1
-K).Ol
-o.oi
!
-o.oi +0.02
-0.02 +0.03
Di^d, Di»r5
+0.2
+0.8 1
+0.2
+0.8
+0.2
+0.8 1
+0.2
+0.8
[Eph za]
320
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.4
10.4
20.3
30.3
Feb. 9.3
19.2
29.2
Mar. 10.2
20.2
30-1
Apr. 9.1
19.1
29.1
May 9.0
19.0
29.0
June 7.9
17.9
27.9
July 7.9
17.8
27.8
Aug. 6.8
16.8
26.7
Sept. 5.7
157
25.6
Oct. 5.6
15-6
25.6
Nov. 4.5
24-5
Dec. 4.5
14.4
24.4
34-4
Y Hydxi.
Mag. 3.2
Right
Atcwision.
Sec <J, Tan <J
Mean Place
h m
3 48
40.30
39.65
38.91
38.11
37.26
65
74
80
87
86
84
79
36.39
35.53
34.69
33.90
32.55
32.02 ^^
31.62 ^°
27
13
Declina-
tion S.
-7429
D'^ 1, Dm <I
31.35
31.22
31.23
31.37
14
28
31.65
32.06 ^^
32.58 5^
33.21
33.92
34.70
35.52
36.36
37.18
37.96
38.69
39.33
39.87
40.28
40.56
40.69
40.66
40.48
40.15
39.69
39.11
63
71
78
82
84
82
78
73
64
54
41
28
13
3
18
33
46
58
100.4
102.4
103.9
104.8
105. 1
104.8
104.0
102.6
100.7
98.4
95.7
92.6
89.3
85.8
82.1
78.4
74.8
71.4
68.1
65.1
62.5
60.4
58.8
57.8
57.4
57.6
58.5
59.9
61.9
64.4
67.3
70.4
73-7
77.1
80.4
83.4
86.1
88.4
20
«5
9
3
3
8
14
19
23
27
31
33
35
37
37
36
34
33
30
26
21
16
10
M
20
25
29
3»
33
34
33
30
27
23
3.743 -3.607
35*343 91 "91
-0.08
40.2
■K>.13
40.8
C Persei.
Mag. 2.9
Right
Ascension.
h m
3 48
36.28
36.23
36.14
36.01
35.85
35.68 .
35.49
35.31
35.15
35.01
34.91
34.85
34.84
34.89
34.99
35.14
35.34
35.58
35.86
36.17
5
9
13
16
17
19
18
16
14
10
6
I
5
10
15
20
24
28
31
34
36.51
36.86 35
37.22 ^
37.58
37.93
38.28
38.61
38.93
39.22
39.49
39.73
39.94
40.12
40.27
40.37
40.43
40.45
40.42
36
35
35
33
32
29
27
24
21
18
15
10
6
2
3
Declina-
tion N.
f
+ 3137
33.8
34.3
34.6
34.8
34.7
34.5
34.1
33.5
32.8
32.1
31.3
30.5
29.7
29.0
28.5
28.1
28.0
28.0
28.2
28.7
29.3
30.1
31. 1
32.2
33.3
34-5
35.8
37.0
38.3
39.5
40.6
41.7
42.8
43.8
44.7
45.5
46.2
46.8
5
3
2
I
2
4
6
7
7
8
8
8
7
5
4
I
o
2
5
6
8
o
I
I
2
3
2
3
2
I
I
I
o
9
8
7
6
9 H. Caanto^
Mag. 5.2
Right
Ascenalon*
1. 1 74 40.616
35».809 22".99
h m
3 49
8
38.34
38.18
37.96
37.68
37.35
16
22
28
33
35
37.00
36.64
36.28
35.96
35.69
35.48
35.34
35.29
35.33
35.45
35.66
35.95
36.32
36.75
37.24
37.77
38.33
38.91
39.49
40.07
36
36
32
27
21
14
5
4
12
21
29
37
43
49
53
56
58
58
58
57
55
51
48
40.64
41.19
41.70
42.18
42.62 ^
39
43.01
43.35 ^^
43.62 ^7
43.82 ^°
43.95
13
6
+0.01 -0.02
40.2 40.8
[Bph 19]
44.01
43.98
43.87
3
II
Declina-
tion N.
+ 6051
23.2
25.0
26.5
27.5
28.0
28.1
27.7
26.9
25.7
24.1
22.3
20.3
18.2
16.0
14.0
12. 1
10.4
8.9
7.8
7.0
6.5
6.4
6.7
7.3
8.3
9.6
II.2
13.0
15.0
17.3
19.7
22.3
24.9
27.5
30.0
32.4
34.6
36.6
18
15
10
5
I
4
8
12,
16
18
20
21
22
20
19
17
15
II
8
5
I
3
6
10
»3
16
18
20
23
24
26
a6
26
25
24
22
20
^Penei.
Mag. 3.0
Right
Aecenaion.
h m
3 51
2.053
37*.466
+1.793
J*
7 .31
57.22
57.16
57.05
56.90
56.72
56.52
56.31
56.11
55.93
55.77
55.65
55.58
55.56
55.60
55.70
55.86
56.07
56.33
56.63
56.97
57.34
57.72
58.11
58.50
58.89
II
15
18
20
21
20
18
16
12
7
2
4
10
16
21
26
30
34
37
38
39
39
39
38
36
35
33
59.27
59.63
59.98
60.31
60.60^9
27
60.87
61.II ^4
61.47 ^^
61.58
II
6
61.64
61.66
61.63
Declina-
tion N.
+ 39 45
35.7
36.6
37.2
37.6
37.8
37.7
37.3
36.6
35.8
34.8
33.7
32.5
31.3
30.2
29.2
28.3
27.7
27.3
27.1
27.2
27.5
28.0
28.7
29.6
30.7
32.0
33.3
34.7
36.2
37.7
39.2
40.7
42.2
43.7
45-1
46.4
47.5
48.5
9
6
4
2
4
7
8
10
II
12
12
II
10
9
6
4
2
I
3
5
7
9
I
3
4
5
5
5
5
5
5
4
3
I
o
40.04
40.2
-0.06
40.8
t
1.301 40.832
56«.690 23".29
40.02
40.2
-0.03
40.8
APPARENT PLACES OF STABS, 1912.
321
FOR THE UPPER TRANSIT AT WASHINGTON.
S Peraei.
y Bridanl.
A. Ttori.
<^ Bettculi.
Mean Solar
Mag. 4.0
Mag. 3.2
Var. 3.3-4.2
Mag. 4.4
Date.
Right
Owdina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascenaion.
UonN.
Ascenaion.
tion S.
Ascension.
tion N.
Ascension.
tion S.
h m
. *
h m
0
f
h m
e
»
h m
0 t
/
3 53
+ 3532
3 53
-1345
3 55
+ 12
ft
14
3 57
-6138
Jan. 0.4
s
15.61
30.7
s
56.12
56.06 ^
29.2
4872 ^
39.1
8
23.43 „
60.4
10.4
'5-56 ,i
31.4 •
30.6
H
48.68 4
38.7
4
23.133
62.6 "
20.3
'5-46 °
31.9 \
55-97 ,^
31.7
II
48.61 7
38.3
4
22.78 35
64-3 \l
30.3
15-32 t
32.2 3
55-85 "
32.6
9
48.50 "
38.0
3
22.38 4°
65.5 "
66.1 *
0
Feb. 9.3
^5-5 \\
32-3 ,
55.70 ^l
33.3
7
3
48.37 ^
15
37.7
3
3
21.95 43
45
19.3
^^•97 ,0
32.1
55-54 „
33.6
48.22
37.4
'^•50 .
21.044^
66.1
29.2
14.78 9
31.7 ;
55-37 ';
33.6
0
48.07 5
47.91 ^
37-1
3
65.6 5
Mar. 10.2
^4-59 \\
14-41 ,,
31.2 \
30.4 °
55.20 I
33.3
3
36.9
2
0^
20.59 2^
62.9 »*
20.2
5505 ,^
32.8
5
0
4776 5
36.7
2
20.17 :_
30.1
14.26 5
29.5 '
54.92 '3
32.0
0
47.64 "
36.6
I
1979 z
60.9 ^'^
II
9
IX
II
9
0
34
35
Apr. 9.1
14-15 6
28.6
54-81 ,
30.9
m ^
47-55 -
47.49 ,
36.6
m
19.45 .,
58-4 ,0
19.1
14.09
27.6 '°
54.74 ;
29.5
14
36.7
I
19.18 '7
55-5 '9
29.1
14-07 .
26.6 •**
54.71 3
27.9
16
47.48 '
37.0
3
18.98 \i
5=^-4 \\
May 9.0
14.II *
10
25.7 1
54-73 6
26.0
19
47.51 3
47.59 „
37.4
4
6
18.86 "
490 3^
19.0
14.21 '°
IS
24.9 5
54-79 ,„
24.0
22
38.0
8
18.81 5
4
29.0
14.36
243 ^
5489
21.8
47.71
38.8
18.85 „
4^-8 „
June 7.9
14-56 ^°
23.9 *
5504 *
19.5
23
47-88 '7
39.7
9
»8.97 "
38.1 37
17.9
14-81 \l
23.7 ,
55.23 ,,
17.2
23
48.09 "
40.8
IX
»9-»7 Z
34.6 35
27.9
15.10 '9
23.8 '
22
55-45 ,6
55-7' ,8
14.8
24
48.33 \*L
42.0
12
27
19.44 /
31.2 34
July 7.9
''■^ 3:
24.0
4
12.5
23
21
48.60 *7
29
43.3
13
13
19.78 ^^
40
28.1 3'
28
17.8
Mil 36
24.4 ,
55-99 ,„
10.4
48.89 „
44.6
20.18
25.3
27.8
25.1 I
56.28 '9
8.4
20
49.20 3"
45-9
13
20.62 ^
23.0 3
Aug. 6.8
16.49 %
16.87 ^!
^5-9 ,„
56.58 3°
6.7
17
49.51 ;*
47.2
13
21.10 ^
21.2 '«
16.8
26.9 °
56.89 ^'
5.3
14
4983 3'
48.5
13
21.60 5°
20.0 "
26.7
17.24 3^
28.0 "
57.19 L
4.2
II
"ll
50.14 ,.
49.6
II
22.11 ^'
19.3 ^
37
12
30
7
31
10
50
I
Sept. 5.7
17.61
29.2
57-49 ,8
57.77 „
3.5
4^
5° ■♦5 „
50.6
^\
22.61
23.09 ^
19.2
19.8 *
15-7
17.96 35
30.4 ',
3.2
3
50.74 J
51-02 "
51.5
9
6
25.6
18.29 ^^
31-7 \\
58.04 \l
3.3
I
52.1
23.54 ^^
21.0
Oct. 5.6
18.60 3'
18.88 '°
36
33.1 t
58.29 l\
3.8
5
51.28 ""^
52.6
5
23.95 ^.
22.8 '8
15-6
34.4 '3
13
58-52 '^
20
4.7
9
12
51.52 ^4
22
52.9
3
I
24.30 ^5
29
25.1 '3
27
25.6
1914 „
35.7 ,,
5^72 ,,
5.9
51.74 ,„
53.0
24.59 _
278
Nov. 4.5
19.36 "
37.0 3
58.89 I
7-3
14
51.93 ,^
53-0
0
24.80''
30.9 3
14-5
19.55 ^l
38.3 '3
59.03 J
8.9
16
18
18
10
52.09
52.8
2
24.93 ^\
24-99 .
34.1 3^
24-5
19.71 „
39.5
59.14 "
10.7
52.22 •'
52.6
2
^
37.4 \\
Dec. 4.5
19.82 "
40.6 "
59.21 I
12.5
52.32 "
52.3
3
24.97
40.7 ^^
7
10
4
17
6
4
II
32
14.4
19.89
41.6
59.25 ^
14.2
T Ai
52.38
51.9
^
24.86
24.68 '!
24-42 ^^
46.7 ,^
24.4
'^•2o ^
42.6 'I
43-4 ^
59.25
15.9
17
52.40
51.5
4
34-4
19.88 3
59.21 *
17-4
15
52.39
51. 1
4
49.2 '3
Sec rJ, Tan A
1.229 +0.715
1.030 -0.245
1.023 -K>.2I
7
2.106 -1.853
Mean Place
I5'.096 I9".i6
55'.397 29".7:
J
48"-i95 32".6o
►
20V864 53"-46
D V ^, r)» ^
+0.02 -0.03
-0.0 X 40.01
[
0.00 -O.OI
-0.04 +0.06
D^A, D^f)
+0.2
40.9 1
+0.2
+0.9
+0.2
+0.9
40.2
40.9
I9I2-
[Eph Z2j
•21
322
APPARENT PLACES OF STABS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.4
10.4
20.3
30.3
Feb. 9.3
19-3
29.2
Mar. 10.2
20.2
30.1
Apr. 9.1
19.1
29.1
May 9.0
19.0
29.0
June 8.0
17.9
27.9
July 7.9
17.8
27.8
Aug. 6.8
16.8
26.7
Sept. 5.7
15.7
257
Oct. 5.6
156
25.6
Nov. 4.5
14-5
24-5
Dec. 4.5
14.4
24.4
344
vTturi.
Mag. 3.9
Right
Ascension.
h m
3 58
s
29.00
28.96
28.89
28.79
28.66
28.51
28.35
28.20
28.06
27.93
2783
27.77
27.75
27.78
27.85
4
7
o
3
5
6
5
4
3
o
27.97
28.13
28.33
28.56
28.82
29.10
29.40
29.71
30.02
30.33
3
7
12
16
20
23
26
28
30
31
31
31
30
29
27
25
Sec <J, Tan ti
Mean Place
30.63
30.92
31.19
3144 _ .
31.68 ^*
21
32.08 '?
32.24
32.37
32.46
32.52
32.54
32.52
16
13
9
6
2
2
Declina-
tion N.
+ 544
50.0
49.3
48.7
48.2
47.8
474
47.2
47.1
47.1
47.2
47.5
48.0
48.6
49.4
50.4
51.5
52.8
54.2
55.7
57.2
58.8
60.3
61.7
63.0
64.1
65.0
65.7
66.2
66.4
66.4
66.2
65.8
65.2
64.6
63.9
63.1
62.4
61.7
A Taurl.
Mag. 4.5
7
6
5
4
4
2
I
o
I
3
5
6
8
o
3
4
5
5
6
5
4
3
I
9
7
5
2
o
2
4
6
6
7
8
7
7
1.005 +0.10 1
28-.433 44" .90
Right
Ascension.
h m
3 59
8
29.95
29.91
29.83
29.72
29.59
4
8
II
13
16
2943 ^.
29.26 '
17
29.09 '
28.94
28.81
15
13
10
0.00
+0.2
0.00
+0.9
28.71
28.65
28.64
28.67
28.75
28.88
29.06
29.28
2953
29.81
30.11
30.43
30.76
31.10
31.43
6
I
3
8
13
18
22
25
28
30
32
33
34
33
32
31.75 ..
32.06 »*
32.36 II
32.64 ^*
32.90
26
23
33.13
33.33
33.51
33.65
33.76
33.83
33.86
33.85
20
18
14
II
7
3
I
Declina-
tion N.
+ 21 50
40.7
40.7
40.7
40.7
40.5
40.2
39.9
39-5
39.1
38.7
38.3
38.0
37.8
37.7
37.7
37.9
38.2
38.7
39.4
40.2
41.2
42.2
43.3
44.4
45.5
46.6
47.6
48.5
49.3
50.0
50.6
51. 1
51.5
51.8
52.1
52.3
52.5
52.5
o
o
o
2
3
4
4
4
4
3
2
I
o
2
3
5
7
8
10
10
II
II
II
II
10
9
8
7
6
5
4
3
3
2
2
o
c Pcraol.
Mag. 4.0
1.077 -K).40I
29*-423 32".oo
Right
Ascension.
h
4
m
2
-K).OI -0.0 1
+0.2 +0.9
[Bph It]
s
6.79
6.72
6.59
6.42
6.21
7
13
17
21
23
24
24
23
5.98
5.74
5.50
5.27
5.08 ;«
4.93
4.83
4.79
4.82
4.91
10
4
3
9
16
5.07
5.29
5.57
5.89
6.25
6.65
7.07
7.50
7.94
8.38
22
28
32
36
40
42
43
44
44
43
41
8.81
9.22
9.62 4°
9.99 37
20.34 ^^
31
20.65
20.93 I,
21.16 '3
21.35 '^
21.48
13
8
21.56
21.59
21.55
3
4
Declina-
tion N.
+ 4728
55.9
57.2
58.3
59.0
59.4
59.4
59.1
58.5
57.6
56.5
55.1
53.7
52.2
50.7
49.2
47.9
46.8
45.9
45.3
44.9
44.8
45.0
45.4
46.1
47.0
48.1
49.4
50.9
52.5
54.2
56.0
57.8
59.7
61.6
63.4
65.1
66.7
68.1
13
II
7
4
o
3
6
9
II
14
14
15
15
15
13
II
9
6
4
I
2
4
7
9
II
pTtaui.
Mag. 5.6
Right
Ascension.
1.480 '('I.091
i6'.iIO 42".36
h m
4 5
s
28.69
28.65
28.57
28.46
28.32
28.16
27.98
27.81
27.65
27.51
27.40
27.33
27.31
27.34
27.41
27.54
27.72
27.94
28.19
28.48
28.79
29.12
29.46
29.80 3^
30.14 3^
34
30.48 ,,
30.80 3^
31. II *»'
31.40
31.67
4
8
II
14
16
18
17
16
14
II
7
2
3
7
13
18
22
25
29
31
33
34
Declina-
tion N.
4-26 15
29
27
25
*o.o3
+0.2
-0.04
+0.9
31.92
32.14
32.33
32.48
32.60
32.68
32.71
32.71
22
19
15
12
8
3
o
6.9
7.2
74
74
7.4
7.2
6.9
6.5
6.0
5.5
5.0
4.4
3.9
3.6
3.3
3.2
3.3
36
4.0
4.6
5-3
6.1
7.0
8.0
9.1
20.1
21. 1
22.1
23.0
239
24.7
25.4
26.0
26.6
27.1
27.6
28.0
28.4
3
2
o
o
2
3
4
5
5
5
6
5
3
3
I
I
3
4
6
7
8
9
10
II
10
10
10
9
9
8
7
6
6
5
5
4
4
1. 115
28*.I32
+0.493
.»»
7 .32
•♦O.OI
+0.2
-0.02
+0.9
APPARENT PLACES OF STARS, 1912
323
FOR THE UPPER TRANSIT AT WASHINGTON.
0^ Erldaxil.
/^Tauil.
a
Horologii.
aBettoBU.
Mean Solar
Mag. 4.1
Mag. 4.3
Mag. 3.8
Mag. 3.4
Date.
Right
Declina-
Right
DacUna-
Right
Declina-
Right
Declina-
Asceiisioii.
tions.
AiceiMion.
tionN.
Ascension.
tion S.
Aicenilon.
tions.
h m
• r
h m
.
h :
m
• t
h m
• t
4 7
-73
4 10
+ 840
4 II
-4230
If
4 13
— 62 41
Jan. 0.4
34-85 ,
56.3 „
45-87 ,
27-5 ^
6.56
44-0 ,,
S
20.00
99
43.8
10.4
34-81 *
34-73 „
57-5 "
45-84 I
4578 ,1
27-0 I
6.43
13
46-=* s
19.71 ^9
46.2 =^4
20.3
58-5 '°
26.5 5
6.26
17
48-0 ;
19-36 ^^
48.1 '9
30.3
34-62 "
59.4 '
60.0
45-68 °
26.0 5
6.05
21
49-4 '4
18.95 1!
49.5 '4
Feb. 9.3
34-48 4
45-55 „
25.6 4
5.81
24
50.3 '
18.50*5
50.3
15
4
»5
3
25
4
47
3
19.3
29.2
34-33 ,,
60.4
60.6 '
45-40
45.24
45-09 ,'
25.3 ,
25.1
5.56
5.30
26
26
50.7 ,
50.6 '
50.0 ^
'^'^3 48
'707 1!
50.6
50.3 ^
Mar. 10.2
34-01 «
60.5 '
24-9 ,
5.04
49-4 :
20.2
33.86 5
60.2 ^
59-6 I
44-95 ;^
24-8
4.79
25
48-9
16.61 4^
48.0 '4
30.2
33-73 /,
44-81 4
249 ,
4.56
23
47-4 '5
16.19^^
46.2 »8
II
II
2
20
20
37
24
Apr. 9.1
33.62
33.54 I
588 „
44.70
25-1 ,
4.36
45-4 „
15.82
43.8
19.1
57-8 °
44.63 ;
25.4 ,
4.21
15
43-' \\
'5-51 ,'
41.1 ^l
29.1
33.50 ;
56.6
44.60 ^
25.8 4
26.4 t
27.2 *
4.10
II
4°-5 *
15.27 \\
38-' ^!
May 9.0
3351 '
55-1 5
44.62 ;
44.68 ^
4.05
5
37-6 *9
15.10 ^7
34-8 33
19.0
33.56 5
53-4 !
4.05
0
34.5 3'
15.01 ^
31.4^1
10
»9
II
9
6
33
0
36
29.0
33-66
5^-5 ,„
44-79 ,-
28.1
4.II
31.2
15.01
27.8
June 8.0
33-80 4
49-6 11
44-94 .„
29.2 "
4.22
II
27.9 33
1510 ^
24.1 37
17.9
33.98 '8
♦7-6 '!
45.13 11
30.4 :
4-39
17
246 ^^
15.27 ^^
20.5 3«
27.9
34-20 ."
45.6 '°
45.36 11
31-7 3
4.60
21
21-4 i
15-52 ,5
17.1 34
July 7.9
34-44 ^*
43-5 "
20
45-6^ :i
33.0 ^3
4.86
20
29
18.3 3'
27
^5«4 5^
'3-9 ^:
29
17.9
34-71
4^-5 ,.
45.89 ,„
34.4 .,
515
15.6
16.22
1 1.0
27.8
35«> 2
39-7 !
46.19 I'l
35-8 !
5.47
32
^3=' !i
16.66 *4
8.6^4
Aug. 6.8
35-30 3°
38° I
46.50 3
37.2 ':
5.82
35
11.2 '°
17.13 ^7
6.6=*°
16.8
35-60 11
36.6 4
46.81 3»
38.4 "
6.18
36
9.7 '5
17.63 ^°
5.2 '4
26.7
3S-90 t°
35-5 a
47-12 3'
39.5 "
6.54
36
8.7'°
18.15 ^'
8
4.4
30
8
30
9
35
4
52
2
Sept. 5.7
36.20
34-7 .
47-42
40.4 ,
6.89
^K A
8.3 ,
18.67 „
4.2 ^
15-7
36.49 '9
34.3 ;
47-72 3°
48.00 »f
48.26 '^
41. 1 I
7.23
34
8.5 \
19.18 5^
4-^ *
25.7
36.76 11
37-02 ^°
34-2 '
41.6 i
7.56
33
9.2 J
19.65 ^^
5.6'''
Oct. 5.6
34.5 i
41.9 ^
7.86
30
^°-5 «
20.09 **
7.3'^
156
37-26 ^^
35.1 *
48-51 '^,
41.9 .
8.13
27
12.3 '«
20.48 39
9-5"
21
9
23
I
24
23
32
26
25.6
37.47 ,«
36-0
48.74 ,„
41.8
8.37
14.6
20.80
12. 1
Nov. 4.6
37-^5 !
37-t
48.94 '°
41.5 ^
8.57
20
17-2 „
21.05 ^5
151 ^^
14-5
37.81 J
38-4 i
49" I
41.I t
8.72
15
20.0 '8
21.22 ^*
18.3 3^
245
37.94 X
39-8 4
49.25 ,;
40.6 5
40.0
8.83
II
=^3° ^°
21.30 ®
21.7 34
Dec. 4.5
38.03 I
41.3 11
49.36 "
8.88
5
26.0 30
21.30 °
25.1 34
5
15
7
6
0
30
9
32
14.4
38.08
4^-8 ,,
49.43 .
39.4 ,
38.8 t
38-2 *
8.88
29.0 „
21.21
28-3 ,„
24.4
38.10 ^
44.2 4
49.47 I
8.84
4
3^-7 «
21.04^7
3^-3 ^^
34-4
38.08 ^
45-5 '3
49.47
8.74
10
34.2 *5
20.80 ^*
34-0 ^7
Sec 6, Tan S
1.008 -0.124
1.012 'to.154
1.356 -0.917
2.180 -1.937
Mean Place
34«.i52 58".86
45'.366 2i".58
5M
35 4o".38 1
i7*-247 38".2i
DV Of !)•» n
0.00 0.00
o.oo o.oo
-0.02 +0.03 1
-0.05 +0.06
D,^ J, D« d
40.2 +0.9
+0.2 -10.9
+0.2
40.9 1
40.2 +0.9
[
Eph Z2]
324
APPAEENT PLACES OF STABS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
yUvBOi.
<^ Tmnrl.
t^ Sridflni.
f Trail.
Mean Solar
T^ A.
Mag. 3.9
•
Mag. 3.9
Mag. 4.1
Mag. 3.6
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Aflcenaion.
tion N.
Aacenaion.
tion N.
Aacenaion.
tion S.
Aacenaion.
tion N.
h m
e
t
h m
0
0
h m
e f
h m
0
4 14
+ 1524
4 17
4-17-
20
4 20
-3412
4 23
+ 1859
Jan. 0.4
s
47.62
64.5
a
52.08
20.5
s
4506
44-98 8
7^-^ „
a
29.21
17.8
10.4
47-59 ^
47-53 I
64.2
3
52.06 ^
52.00
20.4
I
78.7 "
80.5 '«
29.19 ^
29.13
17.8 °
20.3
64.0
2
20.2
2
44-85 ^
44-69 f
17.7 [
30.3
47-44 '
63.8
2
51.90 °
20.0
2
8^-9 !^
29.04 I
17.6 '
Feb. 9.3
47.31 ;^
63.5
3
51-77 ,:
19.8
2
44-50 '9
82.9 "
28.91 '^
17.4 '
J5
3
»5
2
22
5
15
2
19.3
*7'^ ,6
47-00 ;
63.2
51-30 '
19.6
44.28
83-4 ,
28.76
17.2
29.2
63.0
2
19.4
2
44-°5 ,,
83.5 '
28.60 '^
17.0 ^
Mar. 10.2
46.83 11
62.8
2
19.I
3
43-83 "
83.1 4
28.43 11
16.8 ^
20.2
46.68 '5
62.6
2
5»'4 '
18.8
3
43-61 "
82.2 9
28.27
16.5 3
302
46.55 '^
62.4
2
51.00 *
18.6
2
20
43.41
80.9 '3
28.13 *4
16.2 3
II
I
II
I
17
16
II
2
Apr. 9.1
46.44 ,
62.3
50.89
18.5
4324 ,,
79-3 ,„
28.02
16.0
19.1
46.37 ;
62.3
0
50.82 I
18.4
I
43." ^
77-3 °
27.94 .
15.8 ^
29.1
46.34 ^
62.4
I
50.79 ,
18.3
I
43.02 9
75-0 ^
27.90 ^
15.7 :
May 9.0
46.35 I
46.41
62.6
2
50.80 '
50.86 ^
18.4
I
42.97 ^
7^-+ 8
69-6 l^
27.91 '
15.8 '
19.0
63.0
4
18.7
3
42.98 '
27.97
15.9 *
II
5
II
4
6
30
10
3
29.0
4*5-52 ,
46.68 '^
63.5
50.97 ,,
19. 1
43.04 „
66.6
28.07
16.2
June 8.0
64.2
7
A
5'-" f
19.6
5
43.15
63-5 3'
28.22 '5
16.6 j
17.9
46.87 ''
65.0
8
51-31 '
20.3
7
43.30 5
60.4 3«
28.41 '9
17.2 ^
27.9
47- 'o J
47.36 ll
65.9
9
5^-54 11
5»-8° '!
21.2
9
20
43-50 °
57-4 ^:
28.64 11
17.9 7
July 7.9
67.0
II
22.2
10
43-74 It
54-5 '9
28.90 ^^
18.8 9
29
II
29
10
28
27
28
9
17.9
47.65
68.1
52-09
23.2
44-02
51-8
29.18
19.7
27.8
47.95 ^,
69.2
II
52.40 1
24.2
10
44-32 3
49.4 ^*
29.48 ^°
20.6 9
Aug. 6.8
48.27 11
70.4
12
52.72 ^
253
II
44-63 \[
47.4 1°
29.80 32
21.6 '°
16.8
48.59 \l
71.5
II
53-04 ^,
26.3
10
44.95 ,,
45-9 5
30.13 33
«^ /: 10
22.0
26.7
48.91 I]
72.5
10
53-36 3^
27.3
10
45-28 33
44.8"
30.46 t
23.5 ^
31
9
32
9
33
6
32
9
Sept. 5.7
15.7
49.22
^I
49.53 l^
73.4
74.2
8
53-68
53-99 ,'
28.2
29.0
8
45-61
45-93 ;,
44.2
44.1 '
30.78
24.4 «
25.2 *
25.7
4982 »9
28
5°-36 't
74.9
7
54-29 ^g
54-57 ll
54-83 '^
29.7
7
6
46-24 11
44-6, X
3^-39^^
259 ^
Oct. 5.6
75.4
5
30.3
4^-53 '
46.79 t
«-^ 6
31.68 l^
26.5 ^
15.6
75.7
3
30.7
4
47.2 '*
31.95 '
27.0 *^
23
2
24
3
23
20
25
3
25.6
50.59 „
75.9
55-07 „
31-0
'*702 ^^
49-2 „
32.20
27.3
Nov. 4.6
50.80 "
76.0
I
55-29 "
31. 1
1
47.22 ^°
5^-5 11
32.43 ^^
275
14-5
50.99 J'
75.9
I
55-48 9
55-64 ^
31.2
I
47.39 ,;
54-1 »^
32.63 ^°
27.6 *
24.5
51-14 ^
75.8
I
31.2
0
47.51 "
47.59 I
56-« 8
59-6 '!
32.79 '
27.7 '
Dec. 4.5
51-26 "
75.7
I
55.77 ^
31. 1
I
32.92 ^
27.7 ""
0
2
8
I
3
»7
9
0
14.4
51-34 ^
75.5
«»
55.85 ^
31.0
w
47.62
*5^-3 ,,
33.01
33.07 ,
27.7
24.4
51-38 J
75.2
3
4%
55.89 ^
30.9
I
47.61 I
47.55
27.7 ^
34.4
51-38 °
75-0
2
55.90
30.7
2
67-3 '^
33.08 '
27.6 '
Sec <J, Tan S
1.037 +0.276
1.048 -10.312
1.209 -0.680
1.058 +0.344
Mean Place
47«.02o S7"oS
1
5i».47i I2".7i
43*.874 74".82
28-.583 9".68
D'l^ a, Dm 0
+0.01 -0.0 1
+0.01 -0.0 1
-0.02 'K>.02
-K).OI -0.0 1
D^<J, D«cJ
40.2
+0.9
40.2
+0.9
+0.2
+0.9
+0.2
+0.9
[Eph ta]
APPARENT PLACES OF STARS, 1912.
325
FOR THE UPPER TRANSIT AT WASHINGTON.
S Mensas.
m Persei.
or Ttori.
vsrldani.
Mean Solar
Mag. 5.6
Mag. 6.x
Mag. i.z
Mag. 4.1
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Aseenaloii.
tion S.
Ascension.
tion N
■
Ascension.
tion N.
Ascension.
tion S.
h m
e t
h m
0
f
h m
e »
h m
e r
4 23
— 8024
4 27
+ 4252
4 30
+ 16 19
4 31
-331
Jan. 0.4
8
8°-3 ,.
8
13.96
48.8
52.82
66.9
8
56.00
WW
50.0
10.4
61.46 99
82.7 *4
13.92 *
50.0 ^
[2
52.80 \
66.8 '
55-99 \
5'-^ 0
20.4
60.29 "7
84-6 '9
13.83 '
510 ^
[O
52.75 X
66.6 ^
55-93 ,^
52.1 'I
30.3
58.98 |3'
85-9 'I
86.7 ;
13-70 3
51.7
7
52.66 9
66.4 \
55.83 z
52.9 2
Feb. 9.3
57-58 4°
^3-53 \l
52.2
5
5=^-54 Z
66.2 ^
55.70 ;^
53.5
140
2
20
2
14
2
15
5
193
56.12
86.9 ,
»3-33 „
52.4
52.40 ,
66.0
55.55 _.
55.39 '
540
29.2
5463 1^
86.6 3
I3-II "
52.3
I
52.24 !
65.8 \
54-3 ^
Mar. 10.2
53»6 1^
85-8 ,!
12.88 '3
51-9
4
52.07 '7
65.5 ^
55-22 '^
0
54-3
20.2
51-74 t.
84-4 ^
12.67 \l
513
6
5^-9' !
65.3 \
55.06 ^^
1
54-2 '
30.2
50.41 1"
82-5 '
12.48 9
50-5 ^
8
51-77 ;:
65.2
54.92 \\
53-8 4
121
23
16
[O
12
I
12
6
Apr. 9.1
48-14 'f
*7='5 !'
80.2 ^
12.32
49.5 ,
r /^
51-65 „
65.1
54.80
53-2
52-4 ,0
19.1
12.21
12.15 ^
48.3 '
[2
51-56 '
65-0 0
54-71 9
29.1
74.6 ^°
47.0
^3
51-52 \
65.0 °
54-66 5
51-4 °
May 9.1
46-55 !°
71.3 11
12.15 °
12.21
45.8
[2
51-52 \
65.2 '
54-65 '
5°-2 !
19.0
46.06 ^^
67.9 ^1
44.6 J
[2
51-57 ^
65.5 \
54-68 3
48.8 '4
27
35
12
[I
9
4
8
10
29.0
45-79 ^
64.4 ,^
12.33 ,8
12.51
12.74 'i
13-02
43.5 ,
51.66
65-9 .
66.5 *
67-2 a
68.0 *
54-76
47-2
June 8.0
17.9
45-74 J
45-92 '8
60.9 35
57.4 \\
42.5^
41.7
[O
8
6
51.80 4
51-98^;
54-88 "
55.04 ^^
45-5 ^
41.9
27.9
4631 ^
54.1 ,,
41. 1
52.20
55-24 '^
July 7.9
46-91 f°
79
5-0^8
13-34 ^'
35
40.7
4
2
52.45 J
68.9 9
10
55-47 J
40.0 9
^ 18
17.9
47-70 ,
48.66 9*
4«-2 ,,
13-69 8
^4-07 ^J
40.5
52-73 „
69-9 ,„
55-73 ,a
56-01 »f
38.2
27.8
45-8 '*
40.6
I
53-03 3°
^.«. ^ 10
36.5 ;
Aug. 6.8
49-75 ;°^
43-9 '
^4-47 4°
40.9
3
53-34 ^,
7^-9 ,„
56-30 ^9
35.0 \\
16.8
5°-94 Wl
42-6 '3
14-87 4°
41.4
5
53-65 ^'
72-9 '°
56-59 ''
33-7 ,^
26.8
_- -_ 120
52.20
41.8 *
^5-28 4'
42.1
7
53-97 ,^
73-8 '
56-89 ^°
32.6 "
129
2
40
8
32
8
30
8
Sept. 5.7
53-49 ,„
41.6
^5-68 ,„
42.9
54-29 „
74-6
57-^9 ,„
31-8
15.7
54-76 "7
42.1 *
16.08 *'*
43-9
[O
54-60 3'
75-3 ^
5748 ^9
31-3 ^
25.7
55-96 °
43-2 "
16-47 ^'
45.0 \
[I
5490 3
75-9 !
57-77 ^'
2
31. 1 ,
Oct. 5.6
57-06 "°
44-9 !
16.84 37
46.2
[2
55-19 ^'
76-4 ^
58.04 '
31.2 '
156
58.02 9^
47.1 "
17.19 35
47-5 \
^3
55-46 ^7
76.7 3
58.29 w
31.7 \
77
26
32
14
25
I
23
8
25.6
58-79 ,,
49-7 ,„
*7-5i ,„
48.9
55-71
76.8
58.52 ^^
32-5 ,„
Nov. 4.6
59-35 t
5^-7 '!
17.80 ^9
50.3
14
55-94 ,X
76.9
58.73 ^
58-91 '
33-5 t
14.5
59-68 33
55-9 ^:
18.OS 5
51.8 ^
15
56-14 ^°
76.8
34.6
24.5
59-77 '
59-3 ,:
18.26 "
53.3 \
15
56-31 I
76.7 '
59-06 s
35-9 '
Dec. 4.5
59.60 '7
62.6 33
18.42 '^
54.8 J
15
56-45 4
76-5 \
59-18 "
37-3 :
42
32
II
^4
10
2
0
«4
14.5
59-^8 ««
65-8 ,„
18.53 .
18.59 \
56.2
5655 .
56.61 \
76.3 ,
59.26
38-7 ,,
24.4
5«-52 J!
68-7 Z
57.6 \
H
76.1 ^
59.31. 5
40-0 3
34.4
57-64 ''
71.3 '^
18.60 ^
58.8^
[2
56-62 »
75-9
59.32
41-3 '^
Sec <J, Tan 6
6.008 -5.924
1.364 +0.92
9
1.042 +0.294
1.002 -0.062
Mean Place
53*-726 75"-04
I3".i8i 36".57
52M59 59".3i
55"-253 53".95
DV «, D«* «
-0.14 +0.15
+0.02 -0.02
+0.01 -o.oi
0.00 0.00
D,^ ^, D« <J
+0.2
+0.9
+0.2
+0.9
+0.2
+0.9 1
+0.1
+0.9
LEph 13]
326
APPARENT PLACES OP STABS, 1912
FOR THE UPPER TRANSIT AT WASHINGTON.
a Doradas.
68 Eridani.
r Tauri.
Groombridce M8.
Mean Solar
Mag. 3.5
Mag. 4.0
Mag. 4.3
Mag. 6.0
Date.
Right
Declina-
Right
Declina-
Right
Declina-
RiKht
Declina-
Ascension.
tion S.
Ascensioa
tion S.
Ascension.
tion N.
Ascension.
tion N.
h m
e '
h m
0
h m
0
h m
e
4 32
-55 13
4 34
-1428
4 36
+ 2247
4 36
+7546
ft
Jan. 0.4
778 ,„
ill '6
9.78 ,
3°-7 ^
58*38 ^
28.7
■
61.22
730 ,
10.4
7-59 11
9.75 t
58.37
28.9 '
60.98 *4
75-6 !!
20.4
7-35 Ta
44.3"
9.68 7
32.1 4
58.32 3
29.0 '
60.58 40
78.0 ="*
30.3
7.06 '9
46.0 '7
9-57 "
33.2 "
58.23 ^9
29.0°
60.05 l^
59.40 5
73
79.9 ;^
Feb. 9.3
6.73 11
47-^ "
9-43 :*
34.1 I
58.11 "
15
29.0
0
81.3 '4
9
193
6-37 „
47-8 „
9.27 „
34-7 ,
57.96
29.0
58.67 -
82.2
29.3
6.00 37
47.8 °
9-^° 8
35.0 3
57-79 :
28.8 *
57.89 ll
82.5 3
Mar. 1 0.2
5-62 ^?
47-3 ,„
8.92 ?
35.0 °
57.62 7
28.6 *
57-" ll
82.3 I
20.2
5'5 11
46.3 °
8.59 t
34-6 4
57.45
28.3 3
56-35 ^^
55-66 ^9
81.5 *
30.2
491 It
44-8 ^
33-9 ,:
57.30 ,^
28.0 3
80.3 •"
30
30
13
10
13
3
59
«7
Apr. 9.1
4-35 ,„
428 ,,
8.46-
32.9 „
57.17 „
27.7 ,
55-07 „
78.6 ,,
19.1
37.6 'f
8.36 -
31.7 ,.
57.08 I
27.4 I
54.60 47
76-5 !
29.1
4^5 '°
8.29 I
30.2 I
57.03 ^
27.1 3
54.27 f;
74-^ A
May 9.1
4.01 '4
34.5 ^
8.26 3
^8-5 I
57.03 °
26.9 '
54.10 '7
7'-5 'J
19.0
3-94 '
31.2 3-*
8.28 =*
26.6 '9
57.08 5
26.8 '
54- 10 °
68-9 't
0
34
7
31
9
0
17
26
29.0
3-94 ,
27.8
8.35 „
24.5
57.17 ,^
26.8
54.27
66-3 ,
June 8.0
6
4.00
24.3 „
8.46
22.2 3
57.31 '*
27.0 I
54.60 33
63-7 !
18.0
4'3 li
20.8 35
8.61 '5
19.9 '3
57.50 '9
27.3 3
55.09 i:
61.3 '^
27.9
4-33 ,6
4-59
31
17.4 ^4
8.80 '9
17.6 '3
22
57.72 "
27.7 4
28.3 ^
7
55.72 ^3
59-' "
July 7.9
14.2 3="
30
9.02 "
25
15.3 11
22
57.97 J
5^-47 11
57.3 ''
15
17.9
490
"•2 ,«
9-27 „
^3-1 ,„
58.25 „
29.0
57-33 „,
55.8
27.8
5-25 ,„
8.6='^
9-54 11
II.I *°
- 0
58.56 3
29.7 8
58.28 95 54.7 ii
Aug. 6.8
5-^4 J?
6.4"
9«3 11
9-3 s
58.88 3*
11
30.5 „
31.3 !
5930 :
53.9 °
16.8
6°5 t
4-7 !
10.13 3
7.8 5
59.21 ^^
60-37 IZ
53.5 ;
26.8
6.48 43
3.6"
10.44 L
6.7"
59.54 _
32.1 z
61.46 '°9
53.6 '
44
5
30
7
33
8
no
5
Sept. 5.7
6.92
3-^ .
10.74 „
6.0
59.87 ^^
32.9 ,
6256 .^
54-1 .
15.7
7-35 Z,
3=^ 8
"•03 ,;
5-6 0
60.20 ^^'^
33.6 ;
63.65 ^ 55.0 9
25.7
7-76 4'
4°,.
11.32 I
5.6 1
60.52 3'
34.3 I
34.9 1
64.72 °7! 56.3 3
65.74 '° 57.9 '^
Oct. 5.7
8'4 ll
5-4 !
"•59 n
6.1 5
60.82 30
156
8-49 ^^
7-3 n
11.84 '5
7°,!
61.II "^
35.4 ,
66.69 ^^,
59.9 ,,
30
25
23
13
27
4
87
33
25.6
8-79 „
9-8, a
12.07 ,,
8.2
61.38
35.8 ^
67.56 .
62.2 ,
Nov. 4.6
9°4 !
12.6 *8
12.28 "
9-7!^
61.62 ^*
36.2 4
68.32 7^64.8^°
14.5
9.23 ,,
X5.7 ^'
12.46 8
"•5 ]l
61.83 ^^
36.5 ^
68.97 ^5
^7-^ 10
24.5
9.36 'I
19.0 „
12.61 '5
'3-4 ]l
62.01 '^
36.7 '
69.49 ^'
70.6 3^
Dec. 4.5
0
9.42 ,
22.3 33
12.72 "
»5-3 •'
62.16 '5
36.9 '
69-85 t
73.7 ,
I
33
8
20
II
2
20
31
145
9.41 0
9.33 ,;
256
12.80
^7-3 ,„
62.27
37.1 ^
70.05
76.8
9n
24.4
28-7 11
12.83 ^
19.2 9
62.34 I
37.3 :
70.09 ^
79.7 ,'
82.5 '^
34-4
9.18 '5
31.6 '9
12.82 '
20.9 '
62.36 ^
37.5
69.95 '4
Sec cJ, Tan 6
1.753 -1.440
1.033 -0.258
1.085 +0.420
4.072 +3.948
Mean Place
5V636 36".30
8".9I9 31". 27
57'.699 19" -97
58-.270 57".50
DVo, Dwfl
-0.03 -K>.03
-0.0 1 +0.0 1
+0.01 -0.0 1
♦0, 10 -0.09
D^ 6, D» S
+0.1
+0.9 1
+0.1
+0.9 1
+0.1
+0.9 1
+0.1
+0.9
[Eph xa]
APPARENT PLACES OF STARS, 1912,
327
FOR THE UPPER TRANSIT AT WASHINGTON.
a Co«U.
4 Camelop.
// EridaBl.
;r»
Orionls.
Mmn Solar
Mag. 4.5
Mag. 5.4
Mag. 4.2
Mag. 3.3
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Aacenaion.
tions.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion N.
h m
0 *
h m
e t
h D
e
f
h 1
n
0
4 37
-42 I
4 40
+5636
ft
4 41
-324
4 45
+ 648
Jan. 0.4
44-95 ,.
55-5 3.
8
41.26
20.7
6-87 ,
50.6
m m
s
4-43
^x
36.6
10.4
4485 °
57-9 t
41.22 ^
22.6 '9
6.85 ^
51.7
I I
4.43
0
35.9 \
35-3 ,
34-7 \
20.4
4470 \l
60.0"
41.10
TO
24.3
6.80 5
52.7
10
4-39
4
8
30.3
44-5 1 ,'
61.7 '7
40.91 ,'
^5-^ i
6.71 ^
53-6
9
4.31
Feb. 9.3
44-29 „
62.9 ",
40.67 '^
26.6 '°
6.59 "
54.3
7
4.19
12
34-2 \
25
7
28
6
«5
5
14
3
19.3
44-04 ,,
43-78 ^
63.6
40.39 „
27.2
6-44,,
6.28 '^
54.8
4.05
33-9 ,
29.3
63.8 ',
40.08 3'
27.3 ,
55.0
2
3.90
15
33.7 ,
Mar. 1 0.2
43-51
^3-5 ^
39.76 3^
^7' 6
6.H '7
Tn
55.1
I
T
3.73
17
16
33-6 0
20.2
43-24 :i
62.7 "
39.45 ^8
39.17 f
^^•5 ,0
5-95 *
55.0
X
3.57
33-6 °
30.2
42.99 :,
61.5 "
25-5 °
5-8° ^
54-6
4
3.43
14
33.7 ,
31
17
34
13
12
6
12
3
Apr. 9.1
42.78 .
59-8 ,„
38.93 ,„
^4-2 •
22.6 'I
5-^8 ,0
54-0
«B
3.31
33.9 .
19.1
42.60 "
57-8 '°
38.75 '"
5-58 '°
53.3
7
3.22
9
34.3 :
29.1
42.47 '3
55-4 1
38.63 "
20.8 'f
'9-0 ,„
0
5-52 :
52.3
10
3.16
6
34.8 \
35.4 \
36-2 ,„
May 9.1
42.38 9
52-7. 'J
38.59 1
550
51. 1
12
3.14
2
0^
19.0
42-35 :
49-7 ^°
38.63 *
^7-1 2
5.53 ,
49.8
13
3.17
3
0
2
32
12
18
7
15
8
10
29.C)
42.37 8
46-5
3875 ,„
'5-3 ,8
"•9 °
5.60
48.3
3.25
37.2 „
June 8.0
42.45 ,,
43-2 33
38.94 11
39.20 ^^
5-r 6
46.6
17
t8
3.37
12
38.3
18.0
42-58 11
40.0 32
587 :
44.8
1 0
18
■m 0
3.53
1 0
39.5 "
27.9
42.76 ll
36.8 3^
39.53 ,
10.5 *
6.06 '9
43.0
3.72
19
40.7 "
July 7.9
42.99 :t
33-7 :'
39.92 39
94"
6.28 "
41.2
18
■m 0
3.95
23
42° i
27
29
43
9
25
18
25
14
17.9
43.26
3°-^ .f.
40.35 ^,
^•5 fi
6-53 „
39.4
4.20
28
43-4 „
27.8
43.56 3°
28.2 ^^
40.82 47
7.9 t
6.80 ="7
37.7
17
4.48
44.7 ^
Aug. 6.8
43.88 11
26.1 "
41.32 5°
7.6 3
7-09^^
36.2
15
4.78
30
45.9 "
16.8
44-22 34
24.4 ]l
41.84 I'
7.6 °
738 \l
34-9
13
5.08
30
47° 0
26.8
44-57 3«
23.2 ^
42.36 5^
7.9 I
7.68 30
30
33.8
II
8
5.38
30
31
48.0 -
Sept. 5.7
44-93 ,.
22.6
42.88
^•5 0
7-98 ,0
33.0
m
5.69
^^\
48.8
49.4 ,
15.7
45-28 35
22.5 '
43.40 ^
9-4 II
8.28 3°
9.10
23
32.5
5
0
5.99
30
25.7
45-62 34
23.0 5
43.91 ^^
10.5 "
32.3
2
6.29
30
28
49-7 ;
Oct. 5.7
45-94 :„
24.1 "
44.86 46
43
II.8 '3
32.5
2
6.57
49.8
156
46.23 11
25.8 '7
21
^3-3 :^
33.0
5
8
6.84
27
25
49-7 3
25.6
46.49 „
27.9
45-29 ,^
^5-1 ,„
9-33 ,,
33.8
^ ^^
7.09
^% ^»
49-4 ,
Nov. 4.6
46-72 2
30.4 :^
45.68 39
X7.0 '9
22
9-55 ,„
34.8
10
7.32
23
48.9 \
14.5
46.91 9
33-^ !
46.02 34
46.30 ll
19.1
2S
9.90
36.0
12
7.52
20
18
48.2 \
24.5
47-04 3
36.2 30
21.2 "
37-3
13
9 J
7.70
47-5 ;
46.7 \
Dec. 4.5
47.12 I
4
39.3 1
46.52 "
15
^3-4 ^,
22
10.03 '^
9
38.7
14
14
7.84
14
10
145
47.16
^^'^ 20
46.67 .
46.75 ,
25.6
10.12
10.18 ^
40.1
T 4
7.94
•*
45.8
24.4
47.15 ,
45.3 :!
^7-7 ,^
41.4
A3
8.01
7
<9
45-0
' 34.4
47.08 7 47.9-
46.74
.»^ .. 20
29.7
10.19
42.7
*3
8.04
3
44-3 '
Sec^^TantJ
1.346 7O.901
1.817 +1.517
1.002 -0.060
1.007 +0.1 19
Mean Place
43".476 53". 94 .
40".078 7". 16
6«.098 54". 83
i
3".7o6 3o".50
jy^ a, D« 0
-0.02 +0.02
+0.04 -0.03
0.00 0.0c
»
0.00 0.00
+0.1
+0.9 1
+O.I
+0.9 1
■fO.I
+0.9
+0.1
-^.9
[Bpb la]
328 APPARENT PLACES OF STARS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
9 Camelop.
e TauiI.
7t^ Orionis.
t AvrigSB.
Mean Solar
Mag. 4.4
Mag. 5.1
Mag. 3.9
Mag. 2.9
Data.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion N.
h m
e »
h m
0
h m
0 *
h m
•
4 45
+ 66 II
4 46
+ 18 41
H
4 49
-h 2 17
4 51
+ 33 I
••
Jan. 0.4
•
19.45 _
54-6 „
8
14.19
35.2
s
40.77
5^° ,„
s
16.43
49-6
50.4 g
51.0
10.4
19.36 I
56-9 11
14.18 '
35.1 ]
40.76 *
55.0
54.2 I
16.43 °
20.4
19.17 ,;
59.0 "
14.14 g
14.06
35.0 '
40.72 I
40.64
16.38 5
30.3
18.90^7
60.7 '7
35.0
53.5 ;
16.29 ^
515 ,
Feb. 9.3
18.55 f
62.0 ^l
^3-94 "
34.9 '
40.53 "
53.0 ^
16.16 '^
51-8 1
41
8
14
I
14
4
16
2
19.3
18.14
62.8
^3'8o
34-8
40.39 .
52.6
16.00
52.0
29.3
17.70 ^
63-1 I
13.64 J
34-6 '
10
40.23
52.3 ;
15.82 '^
0
52.0
Mar. 1 0.2
17.25 ^^
62.9 ^
13.47 ,
34-4 „
40.06 ^
52.2
15.62 ^°
51-9 *
20.2
i6.8i ^
62.2 "
13.30 ,:
2
34.2 ^
3990 ;
52.2 ®
15.43 ^^
51.6 3
30.2
16.40^'
61.I "
13.15 ]'
2
34-0 ,
39-75 .,
52.4 !
15.26 '7
51-1 i
35
14
13
I
13
4
15
0
Apr. 9.2
16.05
59-7
13.02
33-9 ,
3962
52.8
15."
¥ T
50.5 ,
19.1
15-78 ]l
58° 11
12.93 I
33-8
3952 ,
39-46
53.3 I
15.00
49-8 1
29.1
15-59 'I
56-0 ^°
12.88 5
33-7 „
54.0 ;
14.93 I
49-1 ,
May 9.1
15-50 z
53-8 3
12.87 ;
33-7°
39-44 ,
^54-9 10
M-9I ,
48-4 !
19.0
15-52
12
51-5 11
23
12.90 :;
' 8
33.8 '
0
39-46 ^
55-9 ,^
14-94 I
47-7 ^
29.0
15-64 „
49-^ ,,
"-98 ,,
34-1 .
39-53 , ,
57-^ .,
15-02
47- 1 ,
June 8.0
15.86 "
.. «. 22
47-0 ,^
13- " ^,^
34-5 ^
39-64 "
58-4 '^
15-16 '4
46-6 f
18.0
16.18 32
45° !«
13-28 '7
35-0 %
35-6*
39-79 :„
59.8 *
15-35 11
46-2 4
27.9
^^•58 ^°
41-6 !
•349 "
39-98 '9
62.9 t
^5-58 '3
46.0
July 7.9
17.06 ^
13-73 ,:
36-3 I
22
40.20
^5-85 z
45-9 .
55
13
27
8
25
J5
30
I
17.9
^7-61 .
40-3 _
14.00
37.^ Q
40.45 _^
64.4
16.15
46.0
27.9
18.21 ^
39-3 'I
38-7 !
14.29 l^
37.9 I
40.72 J
41.00 °
65.9 5,
16-47 ^'
46.2 ^
Aug. 6.8
18.86 ^5
14.60 3'
38.8 9
67.2 '3
16.81 34
46.5 ^
16.8
68
'9-54 ^
20.23 ^
38.4 ^
H.92 11
39.7 ^
40.5 !
41.30^^
68.4"
17-17 ^J
470 I
47-6 *
26.8
38.5 '
15.24 _
41.60 3<^
69-4 '°
17-53 ^t
70
4
32
7
30
8
36
6
Sept. 5.7
20.93
38-9 „
^5.56 _
41.2
41.90
70.2
17-89 ,
48.2
15.7
21.62 ^9
39-7 '
15.88 3^
41.8 J
42.20 '^
70.7 5
18.25 ^
48-9 ^
257
08
22.30
22.95 ,.
23-56 1'
40.0
16.19 3'
42.4 ^
42.49 11
42.77 'J
70.9 I
18.60 35
49-6 ;
Oct. 5.7
42-2 4
^6-49 ^°
42.8 ^
70.8 ^
18-94 ^4
50.3 I
5^-» ,
156
43-9 11
16.78 ^9
43.1 ;
43.04 ^^
70.5 ^
19.26 3^
57
20
27
I
25
5
30
7
25.6
24-13 „
45-9 „
•705 ,i
43.2
43.29 ^^
70.0
•9-56 -
51-8 _
52.6 I
53-4 g
54-2
55-0 g
Nov. 4.6
^*-^* fl
+«-^ 2!
17-29 '*
43.3 ^
43.52 ^3
69.3 ^
19-84 'Jt
14-5
25.08 -»+
1 T
5°-5 ^6
53-1 „
17-51 "
43.3^
43.73 'g
68.4 9
20.00 ^
24-5
25.45 ;;
17.70 ;9
43.3 ^
67-4 °
2 2
20.31 ^
Dec. 4.5
25.73
19
55« 11
17.85 '^
12
43.3^
44.05 ^l
66.3 "
II
20.49 ^^
14
145
25.92
26.00
5^-4 ,6
61.0 '^
17.97 ,
43.2
44.15 ,
44.21 ^
65.2
20.63
55-8 „
56-6 *
24.4
18.04 '
43.1 ,
64-2 °
20.72 ^
34-4
25-98 '
63-4 '^
18.07 3
43.0
44.23
63.1 "
20.75 3
57-3 '
Sec fJ, Tan rf
2.478 +2.267
1.056 +0.338
1. 00 1 +0^40
1
1. 193 +0.650
Mean Place
I7«.698 4o".25
I3'.473 27". 14
40'.009 5o"-56
i5'-637 39".46
DV a, Dw a
+0.06 -0.05
+0.01 -0.0 1
0.00 0.00
+0.02 -O.OI
B^^^Dud
+0.1 +0.9
+O.I +0.9
+O.I +1.0
+0.1 +1.0
[Eph la]
APPAEENT PLACES OF STARS, 1912,
329
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.4
10.4
20.4
30.3
Feb. 9.3
193
293
Mar. 10.2
20.2
30.2
Apr. 9.2
19.1
29.1
May 9.1
19.0
29.0
June 8.0
18.0
27.9
July 7.9
17.9
27.9
Aug. 6.8
16.8
26.8
Sept. 5.7
157
25.7
Oct. 5.7
156
25.6
Nov. 4.6
14.6
24-5
Dec. 4.5
14.5
24.4
344
Sec 6, Tan J
Mean Place
jy^ a, Dm a
/3 Camelop.
Mag. 4.2
Right
Aecennon.
h m
4 55
■
36.52
36.48
36.36
36.16
35.90
35.59
3525
34.89
34.54
34.21
33.92
33.69
33.54
33.46
33.47
33.56
33.74
34.00
34.33
34.73
4
12
20
26
31
34
36
35
33
29
23
15
8
18
26
33
40
45
35.68 50
36.21 ^'^
36.77
37.34
56
57
58
58
57
37.92
38.50
39.07
39.62 ^^
S2
49
40.63 ^^
41.08 45
41.48 ^°
41.81
42.07
33
26
42.26
42.37
42.39
19
II
2
OecUna-
tion N.
+ 6018
66.7
68.8
70.7
72.3
73.5
74.3
74.7
74.7
74.2
73.3
72.1
70.6
68.8
66.8
64.7
21
19
16
12
8
4
o
5
9
12
15
18
20
21
20
62.7
60.8 '2
59.0 ''
57.3 \l
55.8 11
54.6
53.8
53.2
52.9
52.9
8
6
3
o
3
7
9
12
14
17
61.0 '9
63.1 "
65.3 II
67.6 ^^
24
70.0
72.3 ^^
74.5
53.2
53.9
54.8
56.0
57.4
22
2.019 +1-755
35'.048 53".44
+0.05
+0.1
-0.03
+1.0
€ Anrlgse.
Var. 3.0-4.5
Right
Ascension.
h m
4 55
8
40.06
40.06
40.00
39.89
39.73
O
6
II
16
19
22
23
39.54
39.32
39.09 ,,
38.86 ^3
38.65 ^"
21
18
38.47
38.33
38.24
38.21
38.24
38.33
38.47
38.67
38.92
39.22
39.55
39.91
40.30
40.70
41. II
41.53
41.94
42.34
42.73
43.11
43.46
43.78
44.07
44-32
44.53
44.68
44.78
44.82
14
9
3
3
9
14
20
25
30
33
36
39
40
41
42
41
40
39
38
35
32
29
25
21
15
10
Declina-
tion N .
-H434I
49.9
51.3
52.4
53.3
54.0
54.5
54.7
54-6
54.2
53.6
52.7
51.6
50.4
49.2
48.0
46.8
45.7
44.7
43.8
43.1
42.7
42.5
42.5
42.6
42.9
43.4
44.1
44.9
45.8
46.8
14
II
9
7
5
2
I
4
6
9
II
12
12
12
12
II
10
9
7
4
2
o
I
3
5
7
8
9
10
II
47.9
49.1
50.4
51.8 ^4
12
13
C AvrigsB.
Mag. 3.9
Right
Ascension.
53-2
14
15
56.1 '4
57.4 '3
1.383 +0.956
39-. 1 15 38".48
+0.02 -0.02
+0.1 +1.0
[Bph 13]
h
4
m
56
10
8
20.36
20.36
20.31
20.21
20.06 '^
18
19.88
19.67
19.45
19.23
19.03
18.86
18.73
18.64
18.61
18.64
21
22
22
20
17
13
9
3
3
9
14
18.73
18.87
19.06 '^
^9.30 II
19.59 ^
32
19.91
20.26 ^^
20.63 37
21.02
21.42
39
40
39
21.81
22.20
22.59
22.97
23.33
23.67
23.98
24.26
24-51
24.71
24.86
24.95
25.00
39
39
38
36
34
31
28
25
20
15
9
5
Declina-
tion N.
+ 4056
65.2
66.4
67-4
68.2
68.8
69.2
69.4
69.3
69.0
68.4
67.6
66.6
65.6
64-5
63.4
62.4
61.4
60.6
59.9
59.4
59-1
58.9
58.9
59.1
59.5
60.0
60.6
61.3
62.2
63.2
64.2
65.3
66.4
67.6
68.9
70.2
71.4
72.6
12
10
8
6
4
2
I
3
6
8
lO
10
II
II
10
10
8
7
5
3
2
o
2
4
5
6
7
9
10
10
II
II
12
13
13
12
12
1.324 •(■0.868
i9'.455 54"-i3
+0.02
+0.1
-0.02
+1.0
t Tanri.
Mag. 4.7
Right
Ascension.
h m
4 57
50.84
50.86
50.83
50.75
50.63
50.48
50.32
50.15
49.98
49.82
49.68
49.58
49.51
49.49
49-52
49-59
49.71
49.87
50.07
50.31
2
3
8
12
15
16
17
17
16
14
10
7
2
3
7
12
16
20
24
27
29
50.58
50.87
51.18^*
^2
51-50 1,
51.82 3'
33
52-15 „
52.48 ^^
52.80 3*
"^I
53-11 ^
53-41 ^8
53.69 ^^
53.95 ^^
54.18 li
54.38
54.55
20
54.68
54-77
54.82
17
13
9
5
Declina-
tion N.
+ 21 27
62.2
62.3
62.4
62.5
62.5
62.
62.
62.
62.
61.
I
2
2
2
I
I
I
O
O
.5
5-4
t.2
1.0
.8
2
61.6
61.4 ^
61.2 ^
61. 1 '
61.0 '
I
61. 1
61.3 ^
61.6 3
62.0 4
62.5^
63.1 ^
63.7 J
64.4 I
65.1 7
65.8 7
66.4
67.0 ^
67.5 i
67.9 1
68.2 3
2
68.4
68.6 ^
68.7 ^
68.8 '
68.9 '
o
68.9
68.9 ^
69.0 ^
1.075 +0.393
5oVo83 53"-89
-KJ.OI
-►O.I
-O.OI
+ 1.0
330
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.4
10.4
20.4
30.4
Feb. 9.3
19.3
293
Mar. 10.2
20.2
30.2
Apr. 9.2
19.1
29.1
May 9.1
19.1
29.0
June 8.0
18.0
27.9
July 7.9
17.9
27.9
Aug. 6.8
16.8
26.8
Sept. 5.8
15.7
257
Oct. 5.7
156
25.6
Nov. 4.6
14.6
24.5
Dec. 4.5
14-5
24-5
34-4
11 Orionls.
Mag. 4.6
Right
AscenttoQ.
h m
4 59
3312
3314
331 1
33.04
32.93
32.79
32.63
32.47
32.30
32.14
32.00
31.90
31.84
31.82
31.84
31.91
32.02
32.17
32.36
32.59
32.85
33.13
33.42
33.73
34.05
2
3
7
II
14
16
16
17
16
14
10
6
2
2
7
II
15
19
23
26
28
29
31
32
31
34.36
34.67
34-98
35-2S 11
35.57 ^
31
31
35.84
36.09
36.31
36.51
36.67
36.80
36.89
36.93
27
25
22
20
16
13
9
4
Declina-
tion N.
-hi5 16
63.9
63.6
63.4
63.2
63.0
62.8
62.7
62.6
62.5
62.4
62.4
62.4
62.5
62.7
63.0
63.4
63.9
64.6
65.3
66.1
67.0
67.9
68.8
69.7
70.5
71.2
71.7
72.1
72.3
72.4
72.4
72.2
72.0
71.7
71.4
71.0
70.7
70.4
3
2
2
2
2
I
I
I
I
o
o
I
2
3
4
5
7
7
8
9
9
9
9
8
7
5
4
2
I
o
2
2
3
3
4
3
3
7 Anrlgse.
Mag. 3.3
Right
Ascension.
h
5
■
21.44
21.44
21.39
21.29
21.15
20.97
20.76
20.54
20.32
20.12
19.95
19.81
19.72
19.68
19.70
19.78
19.92
20.11
20.35
20.63
20.95
21.30
21.67
22.05
22.45
22.85
23.25
23.64
24.02
24.38
24.72
25.04
25.33
25.58
25.79
25.94
26.04
26.09
m
O
O
5
10
14
18
21
22
22
20
17
14
9
4
2
8
14
19
24
28
32
35
37
38
40
40
40
39
38
36
34
32
29
25
21
15
10
5
Declina-
UonN.
+41 6
69.9
71. 1
72.1
73.0
73.7
74.1
74.3
74.2
73.9
73.3
72.5
71.6
70.6
69.5
68.4
67.3
66.3
65.5
64.8
64.2
63.8
63.6
63.6
63.8
64.1
64.5
65.1
65.8
66.6
67.5
68.5
69.6
70.7
71.9
73.1
74.4
75.7
76.9
12
10
9
7
4
2
I
3
6
8
9
10
II
II
II
10
8
7
6
4
2
o
2
3
4
7
8
9
10
I
I
2
2
B Leporis.
Mag. 3.3
Right
Ascension.
h m
5 I
2
7
II
s
45.16
45.14
45.07
44.96 ^^
44.82 '^
17
44.65
44.46
44.26
44.07
43.89
19
20
19
18
43.72
43.58
43.48
43.42
43.41
43.44
43.52
43.64
43.80
43.99
44.22
44.48
44.76
45.05
45.35
17
14
10
6
8
12
16
19
23
26
28
29
30
31
Declina-
tion S.
30
45.66
45.96
46.26 3°
46.55 II
46.83 '*
47.09
4732
47.52
47.69
47.82
47.91
47.96
47.97
26
23
20
17
13
9
5
I
— 22 28
76.8
78.9 "
80.7^8
82.2 '5
83.4 ",
84.2
84.6
84.7
84.4
83.8
4
I
3
6
10
82.8
81.5
79.9
77.9
75.7
13
16
20
22
24
73.3 ^.
68.2 ^f
26
26
24
65.6
63.0
60.6
58.4
56.4
54.7
53.4
52.6
52.2
52.3
52.9
53.9
55.4
57.3
59.4
61.7
64.1
66.6
69.0
71.2
22
20
17
13
8
4
I
6
10
15
X9
21
23
24
25
24
22
/} Eridani.
Mag. 2.9
Right
Ascension.
m
5 3
8
32.24
32.24
32.20
32.12
32.01
3I;87
31.71
31.54
31.37
31.21
31.07
30.96
30.88
30.84
30.85
30.90
30.99
31.12
31.29
31.50
31.73
31.98
32.25
32.54
32.84
33.14
33.43
33.72
34.00
34.27
34.53
34.76
34-97
35.15
35.30
35.41
35.48
35.51
4
8
II
14
16
17
17
16
H
II
8
4
I
5
9
13
17
21
23
25
27
29
30
30
29
29
28
27
26
23
21
18
X5
II
7
3
Declina-
tion S.
- 5"
53.4
54.7
55.9
56.9
57.7
58.3
58.7
58.8
58.7
58.4
57.8
57.0
56.0
54.8
53.4
51.9
50.3
48.5
46.6
44.8
43.0
41.3
39.7
38.4
37.3
36.5
36.1
36.0
36.2
36.8
37.7
38.8
40.1
41.6
43.2
44.8
46.3
47.7
13
12
10
8
6
4
I
I
3
6
8
o
2
4
5
6
8
9
8
8
7
6
3
I
8
4
I
2
6
9
II
13
X5
16
16
15
»4
Scc«J,Tand
Mean Place
1.037 -^0.273
32V370 56" .41
1.327 +0.873
20».505 58". 96
1.082 -0.414
44*. 120 79". 08
1.004 -0.091
3i».40i 58".05
+0.01
+0.1
0.00
+1.0
■K>.oa
40.I
-0,02
+1.0
[Bph n]
-0.01
<K>.I
+0.01
+1.0
0.00
♦0.1
0.00
+1.0
APPARENT PLACES OF STAES, 1912.
331
FOR THE UPPER TRANSIT AT WASHINGTON.
11 Anrlgse.
19 H. Camelop.
// Lepozifl.
a Anzigse.
Mean Solar
Mag. 4.8
Mag. 5.2
Mag. 3.3
Mag. 0.2
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tions.
Ascension.
tion N.
h m
e
f
h m
•
h m
e *
h m
0
5 7
+ 3822
5 7
+79 7
ft
5 8
-16 18
5 10
+ 45 54
Jan. 0.4
s
25.16
62.6
s
66.70
70.0
S
59-65 ,
290
8
12.23
45-5 ,,
10.4
25.17 '
63.7
II
66.50 ^°
729 ,!
75-5 t
59-64 '
30.9 Z.
12.24 *
46.9 4
20.4
2513 \
25.05 ,.
64.6
9
8
6
4
66.09 1
65.48 ^'
59-59 „
12.20 ^
48.2 3
304
65.4
77-8 M
59-50 I
33-9 ':
12.10 '°
49.3 "
Feb. 9.3
24.92 ^
17
66.0
64.70 78
91
79.7 ,J
59-37 ,;
35.0 ^\
"•95 ,X
20
50.2 9
19-3
^^•75 ,^
66.4
^3-79 ,^
81. 1 ^
59-22
35.8 ^
"•75 ,,
50.8
29-3
20
24-55 „
66.6
2
6^-79 ^
81.9 !
59-05 ;;
36.2 *
"•52 ,!
51. 1 3
Mar. 1 0.2
^4-34 "
66.6
0
6^-75 °t
82.1 '
58.87 °
36.4 '
11.28=^4
5I-I !
20.2
^4-^3 '
66.3
3
60.72 '°3
81.7 4
58.68 '9
36.2 \
"•°4 ^1
50.8 3
50.2 g
30.2
20
23.93
17
65.8
5
6
59-74 ^1
80.8 9
14
58.51 ''
15
35-7 J
10.82 "
30
Apr. 9.2
23.76
65.2
8
58.86
lit •«
77-6
58.36 ,^
34-9 „
10.62
10.46 '^
49-4 ,„
19.1
23.63 \
64.4
58.12 74
58.23 3
33-8 !
48-4 °
29.1
23.54 \
63.5
9
57.55 ^i
75-4 ",
58.13 '°
58.07 J
3^-4 \\
10.35 "
47-2 \\
May 9.1
23.50 ;
62.5
10
57.17 ^!
72.9 11
10.30 *
45.9 ^
19.1
23.51 \
61.5
10
57.00 '3
70.2 ^7
58.06 '
28-9 ''
10.30 °
44.6 3
7
9
5
28
3
21
7
»3
29.0
23-58 ^^
60.6
A
57.05 ,
^7-4 ,,
58.09
26.8
10.37
43-3 „
June 8.0
12
23.70 "
59.8
8
5731 '^
64-7 !^
58.16 7
4- 2 7
10.50 3
42.1 ",
18.0
23.88 '®
59.1
7
57.77 t
62.1 ^^
58.28 "
22.3 f
10.69 '9
40.9 "
27.9
^^•" ^^
58.5
6
58.42 J5
59-6 ^5
58-44 'f
^9-9 t
10.93 ^^
39-8 "
July 7.9
24-38 ^l
58.0
5
59.25 '^
57-3 ^^
5864 z
^7-6 !^
11.22 9
38-9 9
30
3
99
30
23
22
33
7
17.9
24.68
57.7
60.24
55-3 .,
58.87
^5-4 ^,
"•5536
II.9I '^
38-2
27.9
25.01 ^■^
57.6
I
^^•37 "3
53.7 t
59-12 5
21
37-7 ^
Aug. 6.8
25.36 ^5
57.6
0
62.61 "4
52.4 'I
59-39 1
59.67 '„
9-8 .,
12.30 ^^
37-4 f
16.8
25.73 ,;
57.7
I
6393 'Z
51.5 ^
12.71 4^
37-3
26.8
26.11 3*
58.0
3
65-31 '^^
51-0 *
5996 ^9
8.6"
13.13 :,
37-4 ,
39
4
142
0
30
8
43
3
Sept. 5.8
26.50
58.4
66.73,,,
51.0
60.26
7-8 ,
13-56
37-7 ,
157
26.88 3f
58.9
5
68.16 '43
51.4 7
60.56 3°
7-4 ^
13-99 ^,
38-1 4
38.7 I
39-5 „
25.7
27.26 ^
59.5
6
^958 't'
522 „
60.85 =^9
7-4 °
14-41 *
Oct. 5.7
27.63 J7
27.99
34
60.2
7
70.96 \f
53-4 "
61.14^'
7-9 „
'4-82 1'
156
60.9
7
8
72.27 3
122
550 1
20
^^•42 :«
8.8 9
J3
15-22 4^
40.4 ^
25.6
28.33 _
61.7
73-49, _
57.^ 0,
61.68
'°-^ Tfi
15.60
41-4 „
Nov. 4.6
14.6
28.64 ^^
28.92 ^^
62.6
63.6
9
10
74-59 "^
75-55 ^'
°'-9 ,„
61.91 ^3
62.12 "
".7 'f
18
'3-5 "
15-95 ,,
16.27 3^
^6-55 :
42.6 "
43-9 ;j
245
29.^7 ^^
64.6
10
76-35 '°
648 ''
62.30 '^
20
^5-5 I,
45.3 t
Dec. 4.5
29.37 -
65.6
10
II
7696 ;^
40
67.8 3°
31
62.45 \\
TM M 22
22
^^•78 ;^3
46.8 's
15
14-5
29.53 ,,
66.7
77.36 .
709 ,,
62.56
62.62 ^
^9-9 ,,
16.96
48-3 „
24-5
29.64 "
67.8
II
77.54 ''
74-0 \\
22.0 "
17.08 "
+9-^ !
34.4
29.70
68.8
10
77.48 ^
77-1 3'
62.64 ^
24.0 ^°
17.13 5
51-2 '4
Sec <J, Tan cJ
1.276 +0.792
5-305 +5-2 10
1
1.042 -0.293
1.437 +1.032
Mean Place
24"-233 52". li
\
62».02I 56" .09
58-.69I 32".40
Ii'.i63 34"-28
DVfl^Ma 1 +0.02 -0.01
[
+0.13 -o.oS
-o.oi 0.00
+0.03 -0.01
D^ 6, Dm 6
1 -fO.I
+1.0
+0.1
+ 1.0
+0.1
+1.0
+0.1
+1.0
[Epb Z2]
332
APPARENT PLACES OF STARS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
/3 Orioiiis.
A. AvrigSB.
r Orlonls.
0 Golnmbae.
Mean Solar
Mag. 0.3
Mag. 4.8
Mag. 3.7
Mag. 4.9
Date.
Right
Declina-
Right
Declina-
Right
Declina- |
Right
Declina-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tionS
■
Ascension.
tion S.
h m
0 '
h m
e
»
h m
0
9
h m
• *
5 10
-817
5 12
+ 40
I
5 13
- 655
5 H
-3458
Jan. 0.4
•
19.36
64-9 ,,
s
57-90
29.0
20.86
75.0
19.81
49-6 ,6
52-2 „
10.4
19.36
66.4 5
57-93 ;
30.1
II
20.87 ;;
76.4
^4
19.77 ^
20.4
1932 I
19.24 „
67.8 t
57-90 I
3I.I
10
20.83 4
77 7
C3
19.68 9
54-5 '^
30.4
68.9 "
57-81 '
32.0
9
20.76 7
78.8 '
[ I
19-55 ;,
56.4 ^
Feb. 9.3
19.13 "
14
69.8 I
57.68 ;3
32.7
7
5
20.65 "
14
79-7
9
6
19-38 '^
20
57.9 \\
193
18.99 ,
18.83 !
70.4 ,
57-51
33.2
20.35
80.3
^9-»8 „
590
59.6 ^
29-3
70.8 4
57-31 °
33-4
2
80.7
4
18.95 ^i
Mar. 10.3
18.66 '7
71.0
57'o "
33.4
0
20.18 '7
80.9
2
18.71 '*
59-8 \
20.2
18.49 ]l
70-9 '
56.88 "
33-2
2
mm
20.01 ^7
19.85 '^
15
80.8
I
18.47 ^t
59-5 ^
30.2
18.32 '7
15
70.5 I
56.68 -
32.7
5
7
80.5
3
6
18.24 ^
21
58.8 7
II
Apr. 9.2
18.17
69-9 8
69.1 *
56-50 ,^
32.0
8
19.70
79.9
8
18.03 ,8
17.85 ^
57-7 ,.
56-^ 0
19.1
18.05 'I
17-97 :
56-36 ^
31.2
19.58 "
19.50 ^
79.1
29.1
68.0 "
56.26 '°
30.2
10
78.1 ^
LQ
17.71 w
54-2 '9
May 9.1
17.92 5
66.7 '3
56-21 ^
29.1
I I
19.45 \
76.8 '
13
17.61 '°
51-9 '^
19.1
17.92
65.2 '5
56.22
28.1
10
19.44 ,
75.4 J
^4
17.56 5
49.4 f
4
17
7
10
4
[6
0
27
29.0
17.96 ^
18.04 ^l
^3-5 ,„
56-29 ,,
27.1
19.48 ^
19.56 !
73.8
17.56
+'^•7 ,„
June 8.0
61.7 »
56-41 "
26.2
9
72.1
^7
. 0
17.61 5
43-8 !'
18.0
18.16 "
59-8 '
56-58 11
25.3
9
8
6
19.68 "
19.84 ^^
70.3 \
[8
17.70 9
4°-7 ^!
28.0
^^•32 ^^
57-8 °
S6.81 ^3
24.5
68.4 ^
19
17.84 ^
37-7 Z
July 7.9
^^•52 '!
55-8 ^°
57-08 'I
23.9
20
20.04
66.5 J
t9
18.02 '*
34-8 !'
23
19
30
4
22
19
22
28
17.9
18.75
2 <k
53-9 ,8
57-38
57-71 11
58.07 3*
58-45 ^J
23.5
<5
20.26
20.51 ^5
64.6
r T
18.24
18.50 ^^
^0? -^
'9-4 ,,
27.9
19.00 ^
23.3
^
62.9 ^
^7
[6
r ^
Aug. 6.8
19.27 ^J
23.2
I
20.78 ^^7
61.3 ^
18.79 'I
27.1 *3
16.8
49-1 t
23.2
0
59.9 J
C4
19.09 ^
^5-^ !
26.8
19.84 ^^
48.0 "
58.84 39
23.4
2
^^•35 ^^
58.8 ^
[I
19.40 ^'
23.8 '4
30
8
39
3
29
8
33
9
Sept. 5.8
20.14
47-2
5923 ^„
23.7
2 1 64
58.0
^973 _
22.9 ^
157
20-44 ^^
46.7 5
59-63 t^
24.1
4
21-94^^
57.6
4
20.06 ^^
22.5 ^
257
20.73 fl
46.6 '
60.02 ''^
24.6
5
22.23 9
57.5
I
20.39 ^3
22.7 \
Oct. 5.7
28
21.01
0
46.9 I
60.40 3^
25.2
6
22.52 J
22.80 ^°
26
57.8
3
20.70 ^
23.5 ,,
156
^'•^9 ^«
47-6 ,1
60.77 ''^
35
25.9
7
8
58.4
6
9
21.00 3°
28
24.8 '\
^ 18
25.6
21.55
48.6
61.12
26.7
23.06
59.3
21.28 ,
26.6
Nov. 4.6
21.79 ^^
49-9 '^
61.44 f
27.6
9
23.30 '^^
60.5
[2
26
21.54
28.8 "
14.6
24.5
21
22.00
22.18 '^
5-4 :
53-0 ;°
62.00 ^^
28.6
29.6
10
10
22
23.52
23-71 ;:
61.9 ^
63.5 \
^4
[6
21.76 "
21.94 :;
3-3 :^
34-1 "
Dec. 4.5
22.33 ^^
54.7 'J
62.22 "
30.7
II
23.86 5
65.2 J
17
22.08 '^
37.0 '9
12
18
17
II
12
f7
9
30
145
22.45 «
5^-5 „
62.39 ,_
31.8
23.98
66.9
22.17 .
4°-° ,„
24-5
22.53 ^
58.2 '7
62.51 '^ 33.0
12
24.06
68.6 ^
22.21 ^
42-9 ''
34-4
22.56 ^
59-8 '«
62.58 7
34.2
12
24.10 "*
70.2 '
[6
22.20 '
45.7 **
Sec <J, Tan 6
1. 01 1 -0.146
1.306 40.840
1.007 -0.12
2
1.220 -0.700
Mean Place
i8V48o 69". 36
56-.933 i8".5e
I9'.989 79".66
i8".499 51 ".40
DV <*i ^» ^
0.00 0.00
+0.02 -0.01
0.00 0.00
-0.02 +0.01
T>^ 6, Dm 6
+0.1
+ 1.0
+0.1
+1.0
+0.1
+1.0
+0.1
+ 1.0
[Eph xiL^
APPARENT PLACES OF STABS, 1912
333
FOR THE UPPER TRANSIT AT WASHINGTON.
y Orionis.
y^Tauri.
17 Camelop.
^ Xieporis.
Mean Solar
Mag. 1.7
Mag.
Z.8
Mag. 5.8
Mag. 3.0
Date.
Right
Declina-
Right
Declina-
Right
Deelina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
donN.
Ascension.
tion S.
h m
0
h m
0
h m
e t
h m
e •
5 20
+ 616
5 20
+ 2832
5 21
+ 6259
5 24
-2049
Jan. 0.4
25.44 _
20.9 ^
20.1 *
mm
44.55 ,
11-3 ^
s
53-20
53-8 ,^
2953 „
40.5
10.4
25.47 I
44.58 I
11.8 5
53-21 '
56.2 l\
2953 ^
4^-7 "
20.4
25.45 ^
25.39 .
19-4 i
18.8 ^
44.56 \
12.3 5
53-12 9
52-94 "
52-68 ll
58-3 8
60.1 '*
29-48 I
29-40 J,
44-6 9
46.2 '<*
30.4
44.50
12.7 ^
Feb. 9.3
25.30 ^l
18.3 5
44.40 ;^
13.0 I
61.6 '5
29.27 ■i
47.5 '^
13
3
14
2
32
12
16
10
19.3
25.17 ,_
18.0
44.26
13.2
52-36
62.8 ^
63-6 !
^9" ,8
28.93 \l
48.5 ,
49.1 _
293
25.02 '^
24.86 '^
17.7 ^
44-09 ,^
4391 f
13.3 '
5^-99 Z
Mar. 10.3
17.6 ^
13.3^
51.60 39
63-9 ,
28.74 '
49.4 ^
20.2
24.69 \l
24-53 ^
17-6 °
43-72 \
43-54 !
13.2 *
51-20 4°
63.7 '
28.55 ll
49.3 ,
302
17-7 '
13.0 ]
50.82 38
63-0 ,^
28.36 9
48.8 I
14
2
'S
4
34
10
18
8
Apr. 9.2
24.39 ,,
^7.9 ,
43.39 „
12.6
50.48 -
62.0
28.18
48.0
19.1
24.27 "
18.2 3
43.26 '3
12.2 4
50.20 '^
60.6 '4
28.03 '^
46.8 "
29.1
0
24.19 °
18.7 ^
19.3 3
4317 '
II.8 4
49-98 ll
58-9 \l
27.92 "
45-4 4
May 9.1
24.15 I
43-13 ,
II.3 5
49-84 't
57-0 ;
27.85 I
43-7 ^
19.1
24.15 ,
20.1
43-14 :
I0.9 ^
49-79 ,
54-9 ll
27.82 3
4^-7 1°
4
9
5
4
0
21
I
22
29.0
24-19 g
24-27 „
21.0
*3'9 ,-
10.5
49-84 ,,
52.8
27.83 .
39-5 ..
JiiTie 8.0
22.0
43-29 „
10.2 *^
49-98 '*
SO.7 "
27.88 5
37-1 A
i8.o
24-40 ,^
43-44 ,„
1 0.0 ^
22
50.20
48-6 0
27.98 \l
34-7 4
28.0
43.63 ''
9-9 '
50.51 ,'
467 \l
28.12 4
32.2 5
July 7.9
24.76 ^°
23
''■" :i
43.86 ^3
9.9 :
50.89 3^
45
28.30 '«
21
29-7 ^
24
17.9
24.99 ^,
26-7 _
44-13 „
1 0.0
5 1 -34 _
43-3 .,
28-51 ,,
27-3 „
27.9
20
25.53 ^J
27-9 „
44-42 9
10.2 ^
1^
51.84^^
42.0 '3
^«-75 Ta
29-01 "
28
2929 °
22
25-1
Aug. 6.8
29.0 "
44-73 \^
10.4
52.39 ll
52.97 ^^
41.0
23-1 „
16.8
30.0 ^l
30.8 ^
45.05 3^
I0.7 3
40.3 ;
21.4 '7
26.8
26.10 '9
45-39 ,:
II.I 4
53.58 I'
39.9 ^
29-58 ^9
20.1 '3
30
7
35
4
02
I
30
9
Sept. 5.8
26.40
31.5 .
45-74 „
II.5 .
54-20
39-8
29.88
19.2
157
26.71 3'
31.9 I
46.08 34
H.9 ^
54-83 J^
40.0
30- 19 ,-
18.7 5
25.7
27.01 30
32.1
46.42 34
12.2 3
55-46 tt
40.5 1
3049 ,-
18.7 °
Oct. 5.7
2730 ^9
32.1
46.76 34
12.6 4
i2
56.08^
56.68 ^
41-4 '
30.79 ^8
31-07 „
19.2 ^
15-7
27-59 l\
31.9 ^
47-09 ,:
12.9 •*
42-6 "
20.2
28
5
32
4
56
14
27
14
25.6
27-87 „
31.4 ,
♦7-41 ,„
13.3 ,
57-24 „
44-o„
31-34 „
21.6
Nov. 4.6
28.12 '5
30.7 ^
47.70 ll
13.6 I
57-76 ll
45-7 ll
31-59 ,;
^3-3 !^
14.6
=»8-35 ll
29.9
47-97 ,:
13-9 ^
58.23 ""
47-7 1°
31-81 "
25.3 °
24-5
28.55 ^°
29.0 9
48-2^ '^
14.3 ^
58.64 *'
49-9 "
32-00 9
32.16 '<*
12
27.6 ^3
Dec. 4.5
28.73 :«
28.0 '°
10
48.41 -,
14.7 J
58.98 ll
52.2 ^3
23
30.0 ■"*
25
145
28.87 ,„
27.0
48.57 ,,
^5-1 ,
5924 -
54-5 ,^
32.28
32.36
325 ,^
24-5
28.97 '^
26.1 9
48.69 "
15.55
59.40 'J
5^-9 *
34.9 4
34.4
29.02 ^
25.2 ^
48.76 7
1 6.0 5
59.47 ^
59-2 *3
32.39 ^
37.2 3
Sec <J, Tan rf
1.006 +O.IIO
1. 138
•K>.544
2.203 +1.962
X.O7O -0.380
Mean Place
24».626 14". 49
43"-679
2".38
5»'-345 4i".74
28".488 44". 1 7
D'^ a. Dm a
0.00 0.00
+0.01
-0.0 1 1 +0.05 -0.02
-0.01 0.00
Difr i, Dm ^
•K>.I
+ 1.0
+O.I
+ 1.0
1 +0.1
+ 1.0
+0.1
■l-I.O
[Eph 12]
334 APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.5
10.4
20.4
30.4
Feb. 9.3
19.3
29.3
Mar. 10.3
20.2
302
Apr. 9.2
19.2
29.1
May 9.1
191
29.0
June 8.0
18.0
28.0
July 7.9
17.9
27.9
Aug. 6.9
16.8
26.8
Sept. 5.8
157
257
Oct. 5.7
15.7
25.6
Nov. 4.6
14.6
24.6
Dec. 4.5
14-5
24.5
34-4
Sec <J, Tan 6
Mean Place
X Anxisv.
Mag. 4.9
Right I Declina-
Atcension. tion N.
h m
5 26
8
60.87
60.91
60.90
60.84
60.73
60.58
60.41
60.23
60.04
59.85
59.68
59.55
59-45
59.40
59.40
4
I
6
II
15
17
18
19
19
17
13
10
5
o
5
10
14
59.45
59.55
59.69 ,^
59.88 \\
60.11 ^^
27
60.38
60.68 3°
61.00 ^^
61.33 \\
61.68^5
35
62.03
62.39
62.75
63.10
63.44
36
36
35
34
33
^3-77
64.08 3^
64.36 ^^
64.61 ^5
64.83 ]l
65.01
65.14 'I
65.21 '
+ 32 7
49.2
49.9
50.6
51.2
51.7
52.1
52.3
52.3
52.2
52.0
51.6
51. 1
50.5
49.9
49.3
48.7
48.2
47.8
47.4
47.2
47.1
47.1
47.1
47.3
47.5
47.8
48.1
48.4
48.8
49.2
49.6
50.0
50.5
51-0
51.6
52.2
52.9
53.6
7
7
6
5
4
2
o
I
2
4
5
6
6
6
6
5
4
4
2
I
o
o
2
2
3
3
3
4
4
4
4
5
5
6
6
7
7
1. 181 -K>.628
59".95i 4o".o8
■K>.02
40.I
-0.0 1
+ 1.0
Orionis.
Mag. 2.5
Right
Ascension.
h m
5 27
s
31.47
31.50
31.48
31.42
31.32
3
2
6
10
12
15
31.20
31.05 _
30.88 '7
17
30.71 *7
30.55
16
15
30.40
30.28
30.19
30.14
30.13
30.16
30.24
30.35
30.50
30.69
30.91
31.15
31.41
31.69
31.98
32.28
32.58
32.87
33.16
33.45
33.72
33.98
34.22
34.42
34.59
34.73
34.83
34.88
12
9
5
I
3
8
II
15
19
22
24
26
28
29
30
30
29
29
29
27
26
24
20
17
14
10
5
Declina-
tion S.
— 021
43.0
44.2
45.2
46.1
46.8
47.3
47.7
47.9
47.9
47.7
47.3
46.7
46.0
45.1
44.1
42.9
41.5
40.1
38.6
37.0
35.5
34.1
32.7
31.5
30.6
29.9
29.4
29.3
29.5
30.0
30.7
31.7
32.8
34.1
35.5
36.9
38.2
39.5
12
10
9
7
5
4
2
o
6
7
9
o
2
4
4
5
6
5
4
4
2
9
7
5
X
2
5
7
o
I
3
4
4
3
3
1. 000 -0.006
30".6i6 48".78
0.00 0.00
•fo.i +1.0
[Bph x«]
Oroombridfe 986.
Mag. 6.4
Right
Ascension.
h m
5 27
S
60.62
60.58
60.37
60.01
59.51
58.90
58.22
57.50
56.76
56.05
55.40
54.84
54.39
54.08
53.92
53.91
54.05
54.35
54.80
55.37
56.06
56.86
57.75
58.70
59.71
4
21
36
50
61
68
72
74
71
65
56
45
31
16
14
30
45
57
69
80
89
95
lOI
105
60.76 ^
61.82 '°^
62.88
63.93
64.94
65.89
66.77
67.56
68.23
68.77
69.17
69.40
69.46
106
105
lOI
95
88
79
67
54
40
23
6
Declina-
tion N.
+74 59
27.0
28
29.8
32.5 II
36.7 '^
15
10
4
I
6
II
16
20
22
25
26
26
26
25
23
21
13.0
11.6'^
10.5 "
9.8 7
38.2
39.2
39.6
39.5
38.9
37.8
36.2
34.2
32.0
29.5
26.9
24.3
21.7
19.2
16.9
14.8
9.5
9.6
10. 1
II.O
12.2
I
5
9
12
16
19
13.8
18.0 ^l
20.6 ^^
23.3 ^^
29
26.2
29.1 ^9
32.0 ^^
3.861 +3.730
57".022 14" .52
-K>.IO
40.I
-0.03
+ 1.0
oc Leporis.
Mag. 2.7
Right
Ascension.
h
5
s
51.93
51.94
51.91
51.83
51.71
51.56
51.39
51.20
51.01
50.83
50.66
50.52
50.41
50.33
50.30
m
28
I
3
8
12
15
17
19
19
18
17
14
II
8
3
I
6
10
50.31
50.37
^'^•^^ Id
50.61 '4
50.78
17
20
50.98
51.21
51.47
51.75
52.04
52.34
52.64
52.94
53.24
53.52
53.79
54.04
54.27
54.47
54.63
54.75
54.84
54.87
23
26
28
29
30
30
30
30
28
27
25
23
20
x6
12
9
3
Declina-
tion S.
-1752
60.7
62.7
64.5
66.1
67.4
68.3
68.9
69.2
69.1
68.7
20
18
16
13
9
6
3
I
4
7
10
13
16
68.0
67.0
65.7
64.1
62.2 '9
21
60.1
57.9
55.6
53.2
50.9
48.6
46.4
44.5
42.9
41.6
40.7
40.3
40.3
40.7
41.5
22
23
24
23
23
22
19
16
13
9
4
o
4
8
13
17
19
21
42.8
44.5
46.4
48.5 ^,
50.8 ^3
23
55.4 II
57.6 "
1.05 1
50».928
-0.323
64".78
-o.oi
40.I
0.00
.fI.O
APPAKENT PLACES OF STARS, 1912.
335
FOR THE UPPER TRANSIT AT WASHINGTON.
^^ Orionis.
t OriOBis.
^•Orlonls.
CTaurl.
Mean Solar
Mag. 4.5
Mag. 2.9
Mag. 1.8
Mag. 3.0
Data.
Right
Declina-
Right
Declina-
Right
DaeUu-
Right
Declina-
ABcasslon.
tion N.
Ascension.
tions.
Aaoeulott.
doaS.
Ascension.
tion N.
h m
•
»
h m
0
»
h m
.
h m
e f
5 29
+ 925
m
5 31
-557
5 31
- 115
0
5 32
+ 21 5
mm
Jan. 0.5
6
60.15 .
57.2
6
6
m
8*58 ,
55.9
V 9
45.72
20.7
23.96
WW
30.5 ^
10.4
60.19
56.6
8.61 3
57-4
15
45.75 f
22.0 '^
24.00 *
0
30.5 ,
20.4
60.18 '
60.12
56.0
8.59 '
58.7
13
W V
45.74 '
45-68 I
23.1
24.00 °
30.6 '
30.4
55-5
5
59-8
1 1
24.0 ^
23.95 X
30.7 ,
Feb. 9.3
60.03
55.1
4
8.43 *
60.7
9
45.59 .,
24.7 ;
23.86 9
30.8 '
12
3
13
7
'3
6
13
0
193
59-91
54.8
8.14 '*
61.4
M
45.46
25.3 ^
23.73 .
30.8
293
59-76 5
59.60 ^
54-6
2
61.9
5
0
45.31 ;5
45.15 J
25.7 ;
23.57 ^
30.8°
Mar. 10.3
54-5
I
7-97 ;
62.1
2
25-9 -
23.40 7
30.8°
20.2
59-43 11
59.27 ll
54-5
0
7.64 ;^
62.1
0
44.98 \l
44.82 '^
15
25-9 ,
23.23 ;
30.8*'
30.2
54-6
I
2
61.9
2
5
25.7 ,
23.06 '
15
30-7 ;
Apr. 9.2
59-13 „
54.8
0^
7-49 „
61.4
m
44.67 „
25.3 g
24.7 g
23.9 ^
22.91
30.6
19.2
59.01 "
55-0
2
7-36 ^
60.7
1
44.54 ''
22.78 '3
30.5 \
29.1
58.92 9
55-3
3
7.26 '°
7.20 *
59.8
9
T 0
44.44^
44.38 f
22.69 ^
30.4 ,
May 9.1
58.87 5
55-7
4
6
7
58.6
12
23.0 9
22.64 ^
30.3 ,
19. 1
58.86 '
^ 4
56-3
7.18 '
2
57-3
*3
15
44.37 3
22.0 '°
12
22.64 ^
^ 4
30.2
29.0
58.90 .
58.98 ,!
570
8
7.20
7.26 *
55.8
16
44.40
20.8
22.68
22.76 ®
30.3 ,
June 8.0
57-8
54.2
44-47 ,;
194 t
304 ,
18.0
59.10
59.26 ]l
58.7
9
7.37
52.5
17
18
18
18
44-58 "
^7-9 ^
14.7 '
IS
22.89 '^
30.6 I
28.0
59-7
10
7.70
21
50-7
44.73 J
44.91 ^^
23.06 '7
30.9 \
July 7.9
59-45 ,;
23
60.7
10
10
48.9
23.27 ^'
24
31.2 3
4
17.9
59-68
61.7
7-91 ,,
47-1
45-12 ^^
13.2 _
23.51 ^^
31.6
27.9
59.93 J
62.7
10
8-41 ^;
45-4
17
45-36 \\
45-62 2
«-90 Z
II.8'4
^3-77 ^f
32.1 5
Aug. 6.9
60.30 I
63.6
9
43-9
15
10-5 \\
24.06 ^9
32.6 ^
16.8
60.48 ^^
64.5
9
0
8.68 'I
8.96=^8
29
42.6
13
93"
24.36 ^^
33.1 ;
26.8
60.78 3°
30
65.3
0
6
41.5
1 1
8
46.19 "''
29
»-3'8
24.68 ^^
32
33.5 ^
4
Sept. 5.8
61.08
65.9
9*5 ,„
40.7
^
46.48
7-5 ,
25.00
33.9 ,
15.7
61.39 I]
66.3
4
9-55 ^°
40.3
4
4678 30
7.0 5
25.33 ^;
34.2 I
25.7
61.70^'
66.5
2
985 ^°
40.2
I
47.08 3°
6.9 '
25.65 3^
34.4 ^
Oct. 5.7
62.00 30
66.5
0
10.42
27
40.4
2
6
9
47-37 W
47-65 '!
27
7-^ \
25.97 ^,
34.6 \
15.7
62.29 ^?
^ 28
66.3
2
4
41.0
7.6 ^3
26.28 ^'
30
34.7 ,
25.6
^2-57 ,,
65-9
^
10.69 _
41.9
V ^1
48.18 =^
8.4
^^•58 ^^
34.6
Nov. 4.6
62.84 ^7
653
6
^^•94 11
43-1
12
26.87 ^^
34.5 '
14.6
63.08 ^4
64.6
7
II. 17 ^^
44.5
14
16
48-42 ^t
10.6 "
27.14 ^^
34.4 _
24.6
63.30 "
63-8
8
0-
".38 "
11.56 '*
14
46.1
48-63 "
48.81 "
14
12.0 '4
27.38 ^
34.3 _
Dec. 4.5
63.49 11
63.0
8
8
47.8
17
17
13.5 \\
^7-58 :^
34.2 J
14.5
63.64 „
62.2
0
11,70
49-5
T «V
48.95 ,„
^4-9 lA
27.74 ,^
34.1 ,
24-5
63.75 "
61.4
8
n.80 '°
51.2
17
16
49-05 °
49-11
X6.3 ^
27.86 "
27.94
34.0
34.4
63.82 7
60.7
7
11.85 5
52-8
17.6 '3
34.0
Sec tJ, Tan 6
1.014 -K>.i66
1.005 -0.104
1.000 -0.022
1.072 40.386
Mean Place
59'.315 5o"-39
1
7-.688 6i".i5
1
44*.858 26".48
23".096 22".58
DV ^1 Dm <^
0.00 0.0c
►
o.oo 0.0c
\
0.00 0.00
-♦o.oi 0.00
Dt|r ^t I^«* ^
0.0
+1.0
0.0
+1.0
0.0
+ 1.0 1
0.0
+1.0
[Bph x«]
336
APPARENT PLACES OF STABS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
C Orionls.
A ColnmbaB.
0 Anxigv.
C LeporiB.
Mean Solar
Mag. 2.0
Mag. 2.8
Mag. 5.5
Mag. 3.7
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tions.
Ascension.
tion S.
Ascension.
tion N.
Ascmsioa
tionS.
h m
e t
h m
0 »
h m
•
h m
e r
5 36
- 158
5 36
-34 6
5 39
+49 47
5 42
-1450
Jan. 0.5
19.97 ,
72.9 ,.
s
29.06
70.7
s
6.20
29.6
59-04 ,
69.S
10.4
20.00 -^
74-2 3
29.04 \
75-^ 2I
6.25 \
3^-3 ^
32.9 °
5907 \
73-6 ;^
20.4
19-99 -
75-4 \\
28.97 J
75.8 ^^
6.23 '
59-05 ,
30.4
19.94 „
76.4 '^
28.86 "
28.70 \l
77.9 "
^•'5 ,^
34-4 \\
58.98 7
75-1 ^
Feb. 9.3
^985 ,1
77-2 \
79.6 \\
6.01 '+
35.6 "
58.88 '°
76.3 "
13
6
19
13
19
9
»4
10
193
19-72
77-8
28.51 ,,
80.9
582 „
36.5 ,
58.74 -
77.3 ,
293
19-57 J
»9-4i „
78.2 ♦
28.30 "
81.8 9
5-59 'i
37-2 7
58.58 \\
78.0 7
Mar. 10.3
78-4 I
28.07 ^
82.2 4
5-33 !!
37-6 4
58.40 ^
78.3 i
20.2
19-24 ,;
78-4 °
27.83 ^t
82.1 '
5°6'^
37-6 °
58.22 8
78.3 !
30.2
19-07 ,1
78.2 I
27.60 '^
81.6 5
4.80^^
37-2 *
58.03 '9
78.0 3
15
4
22
9
24
7
»7
6
Apr. 9.2
18.92
77-8 ,
77-2 \
27.38
80.7
456 ,„
36.5 „
57.86
77-4 „
19.2
18.79 'I
27.19 ^
27.03
79-3 t
4.36 ^°
35-6 9
57.71 '5
76.5 9
29.1
18.70 9
18.64
76.4 f
77-6 '7
4.21 '5
34-5
57.60 "
75-4 "
May 9.1
75-5 '
26.92 "
75-6 '°
4.12 9
33-2 ;3
57-53 ;
74.0 '4
19.1
18.62 ^
2
74-4 I
26.85 ^
3
73- :^
4.08 4
3
3..7 -
57.49 ^
72.3 ;^
29.0
18.64 ,
18.70 ^
73-^ ,^
26.82
67-8 ''
4.II
30.2
57-49 ,
70s ,„
June 8.0
71.7 \\
26.84 \
4" !«
28.7 5
57-53 ^
68.5'°
18.0
18.81 "
70.2 ;5
26.91 '
6*-9 Z
4-37 ''^
27.2 '5
57.62 9
66.3"
28.0
18.95 ]t
^^•7 i
27.03 "
20
62.0 =*9
458 "
25.8 ;4
57-75 .^
64.1 "
July 7.9
•9-3 11
^7- :^
59- f ^
4.85 '^
3a
24.6 "
II
57-9» ''
20
61.9"
21
17.9
^9-34 ,,
65.5 ,,
27.39 ,,
5^-2 ,fi
5-^7 ,,
23.5
58-" „
59-8
27.9
19-58 11
^40 f
27.62 ^
27.88 ^^
53-6 ^^
5-53 ^f
22.6 9
58.33 w
57.8 '°
Aug. 6.9
19.84 ^;
62.6 '4
5^-3 ^1
592 39
21.9 7
58.58 *5
56.0 '8
16.8
20.11 '
^1 Q
^^•4 "
28.17 '9
49.3 ^
6-34 1'
21.4 5
58.85 \l
54.4 •*
26.8
20-39 ,'
60.4'°
28.48 3'
47-8 ^
6.78 44
21.0 4
59.13 "^
53-1 '3
29
7
32
10
45
2
29
9
Sept. 5.8
20.68
59.7 ^
28.80
46.8
7-23 ,,
20.8
59.42 ^^
52.2
15.7
20.98 30
59.3 \
29.13 ^3
46.2 ^
7.69 *^
20.8 °
59-72 30
51.7 ^
257
21.28 3°
59.2 '
29.45 ,,
46.2 °
8.15 1^
21. 1 3
60.02 30
51.6 *
Oct. 5.7
"■^7 11
59.4 ^
29.78 33
46-8 ,f
8.60 45
21.6 \
60.32 30
52-0 4
15.7
21.86 '9
59.9 \
30.09 3
47.9 !
9.0444
22.2 f
60.61 ^9
52-8 *
27
0
29
17
43
8
27
\i
25.6
"•^3 ,^
60.7
30.38 ^^
49-^ 0.
9-47 , ,
23.0
60.88 ^
540
Nov. 4.6
22.39 ll
61.8"
30.65 ^7
5X-7
9.88 4'
^4-^
61.14^^
55-5 „
14.6
22.63
^3-^ !!
30.89 \\
54.2 w
10.25
^5'3 :
61.38^4
57-3 ^
24.6
22.85 "
64.4 t
^^'^<\
56-9 !I
10.58 33
26.7 \\
61.59 'i
59-3 '°
Dec. 4.5
23.04 9
65.9 ^^
31.26 ^^
59-8 !^
10.87 ''
28,2 '5
61.77 '^
61.5 "
H
X5
12
30
23
16
14
23
14.5
23.18
67.4
31.38 ^
62.8
"•^°./;
29.8
^^•91 _
63.8
24-5
23.28 ^°
^^•9 1
31-45 ;
^5-^ ^8
11.26 '^
3^-5 ^
62.01 '°
65-9 "
34.4
23.35 ^
70.3 *4
31.47
68.6 ^*
11.36 '°
33.2 '7
62.07 ^
68.0 "
Sec tJ, Tan A
1. 001 -0.035
1.208 -0.677
1.549 +I.I83
1.035 -0.265
Mean Place
I9".093 78".69
27'.747 74".04
4».882 I9".44
58".055 74".7i
D'l^ a, Dw a
0.00 0.00
-0.02 0.00
40.03 -0,01
-0.0 1 0.00
Df 6, D*. 6
0.0
+1.0 1
0.0
+ I.O 1
0.0
+1.0 1
0.0
+1.0
[Bph la]
APPARENT PLACES OF STARS, 1912
337
FOR THE UPPER TRANSIT AT WASHINGTON.
K Oxlonls.
(^ Dondiu.
f Aniigw.
^ LeporlB.
Mean Solar
Mag. 2.2
Mag. 4.5
Mag. 4.2
Mag. 3.9
1
Date.
RiRht
DacUna-
RiRbt
DecUna-
Right
Declina-
Right
Declina-
Ascenfion.
tion S.
Aacention.
UoaS.
Awaniiaa.
donN.
Ascaniion.
tion S.
b m
•
h m
0
h m
e
t
h m
. .
5 43
-941
5 44
-6545
5 45
+ 39
m
7
5 47
-2052
Jan. 0.5
a
35.90
55-4 „
8
40.10 „
18
39.92 "
63-9 „
24*49 ^
24.55 ^
34.5
W V
33.25 ^
64.6
10.4
35-93 ,
57-^ 6
58.7 '*
67.1 32
35.6
I I
33.27 ,
^^•9 \l
20.4
35.92 '
35.86 ,^
39.65
39.29^°
7°' a 6
72-7 ^t
24.56 *
36.6
10
33.24 3
68.9 '^
70.7 _
30.4
60.0 *3
24.51 5
37.6
33.17 „
Feb. 9.4
35.76 °
61.I "
38.86 43
74-8 "
24.40
38.4
8
3306 '
72.2 '^
13
8
49
16
15
7
14
II
193
35.63 ,,
62.5 °
38.37 ,^
76.4
24.25 ,g
39.1
32.92
73.3 ft
293
35.48 5
37.83 ^4
77.5 ,
24.07 *
39.6
5
32.75 ^
74.1 ;
Mar. 1 0.3
35.31 I
62.8 3
37.26 "
78.0 5
23.86 l]
39.9
3
32.56 '9
74.6 \
20.2
35.X3 !
62.8 "
0
36.69 "
36.13 ^^
78.0 ^
^3.65
39.9
0
32.36 °
1
74.7 '
302
34.96 11
62.6 ^
77.5 ,:
23.44 ,
39.7
2
32.17 .a
74.4 .
16
5
54
II
19
4
18
7
Apr. 9.2
34.80
62.1
61.3 ®
TAX
35-59 ^„
76.4 ,,
23.25 .
39.3
£■
31.99 -
73-7 ,^
19.2
34.66 ^4
35.10 *9
74-9 li
23.09 '
38.7
6
31.83 ^
72.7 ^,^
29.1
T 1
34.55 "
60.3 °
34.66 44
34-28 38
7=^-9 '^
22.97 "
38.0
7
31.70 ^
7^-4 ^
May 9.1
34.48 7
59-^ !
7°-5 It
22.89 ^
37.1
9
31.61 9
^9-« J
19.1
34-45 .
57-7 ^
33-98 1°
67.7 'f
22.86 3
36.1
10
31.56 5
68.0 ^*
I
ID
22
3t
3
9
I
20
29.1
34.46
54-3 '
33.76
64.6
22.89
35.2
31.55 ,
66.0
June 8.0
34.51 5
33.63 '^
61.3 33
22.98 9
34.3
9
31.58 3
^3-» "
18.0
34.60 I
52-4 '
33-59 I
33.65 ,J
57.9 ^;
23.11 ]l
33.4
9
0
31.65 ,;
61-4 't
28.0
34.73 \t
5°-5 '0
54.4 z
23.29 '!
32.6
0
31.77 "
3»-93 *
589 '5
July 7.9
3490 11
48-5 '^
33.80 5
51.0 34
23.52 y
31.9
7
56-5 \\
20
19
23
33
27
6
19
23
17.9
35.10
46.6
44.8 '°
43-^:!
34.03 ,^
47-7 ,0
23.79,^
31.3
m
32.12
54-2 „
27.9
35.32
34.34 ;^
44.73°
24.09 ^
30.8
5
3=^-34 "
52.0 "
Aug. 6.9
35.57 li
35.83 J
34.73 1:
42.0 11
24.42 f
30.4
4
32.58 ^4
32.84 ^f
50.0 ^°
16.8
41.8 ^
35.18^5
39.7 J
37.9 ,
24.77 ^5
30.1
3
48-3 I
26.8
36.11 f
40.6 "
35.68 50
25.14 Q
29.9
2
33.13 ,:
46.9 '4
29
8
53
13
38
0
30
10
Sept. 5.8
3^40 ,„
39.8 ^
36.77 ^^
36.6
36.0 f
25.52
29.9
33-43 „
45.9 .
15-8
36.70 3°
39.3 ;
25.91 ^^
30.0
I
33-74 3;
45-4 ,
25.7
37-«> 11
39.2
37.34 ii
37.90 5^
36.1 '
26.30 ^^
30.2
2
34.04 3
45.3 ,
Oct. 5.7
37.29 ^9
39.5 ;
36.8 7
26.69 ^^
30.4
2
34-34 3^
45.7 ;
157
37.58 ^9
40.2 7
3«-43 "
38.1 3
27.07 ll
30.8
4
34.64 f
46.6 '
28
II
49
>9
36
5
29
14
25.6
38.12 ^
41.3 ,,
38.92
40.0
27.43 ,,
31.3
34.93 „
48.0
Nov. 4.6
4^-^ 6
46.0
39.36 ^^
42-5 f
27.78 11
31.8
5
35.20 ^7
49-7 ^
14.6
38.36 ^
39.73 ti
45.4 ''
28.11 3^
32.5
7
0
35-44 *
51-8
24.6
38.57 '
40.01 .
48.7 "
28.40 ^9
33.3
8
35.65 ^'
54-^ i
Dec. 4.5
38.75 '^
47.9 11
40.20 '^
52.2 "
28.65 '^
34.2
9
35-83 '^
56.5 '4
15
30
9
36
21
9
'4
25
145
38.90
49-9 ,„
40.29
55.8 „
28.86
29.02
35.1
35.97 ,„
59-0 ,«
61.6 ^-^
24.5
39.01 "
5^-8 «
40.28 ^
59.3 ,,
36.1
10
36.07 '°
34-5
39.07
53.6 '«
40.16 "
62.7 34
29.12 '°
37.2
II
36.12 ^
64.0 ^4
Sec 6, Tan 6
1.015 -0.171
2.436 -2.222
1.289 40.81
3
1.070 -0.382
Mean Place
34".962 60". 76
36-.802 66".72
23V4I2 25".3i
32M86 69".27
D'^ a, Dm a
0.00 0.00
-0.06 -K>.OI
40.02 O.OG
\
-0.0 1 0.00
Btf, 6, Dm ^
0.0 -fi.b
0.0 +1.0
0.0 +1.0
0.0 +1.0
191:
2 22
1
Eph la]
338
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRAlflSIT AT WASHINGTON.
a Orionis.
d Anrigae.
tf Leporis.
ft Auri^ae.
Mean Solar
Var. 1. 0-1.4
Mag. 3.9
Mag. 3.8
Mag. 2.1
Date«
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion N.
h m
0 *
h m
0 *
h m
0 »
h m
e >
5 50
+ 723
5 52
+ 5416
If
5 52
— 14 10
If
5 53
+ 4456
09
Jan. 0.5
25*31 g
25-37 ,
35.8 -
35-0 °
18.48 ^
54-7 ,„
2478 ^
54-0 ,,
s
5-69 ,
31-5 ,,
10.4
18.55 I
5^-7 °
58.5 '
24.82 4
57-7 ,.
5-76 \
32.9 ♦
20.4
25-38 '
25-34 I
25.26 °
34-3 ;
33-7 I
18.55 I
18.47 ,,
24.81 '
24-75 I
5-77 '
5-71 ,^
34.3 \\
30.4
60.2 '7
59-2 5
35-6 3
Feb. 9.4
33-3 ;
18.32 '5
61.7 '5
24.66 9
60.5 '3
5.60"
36.7 ' '
II
4
21
12
13
10
16
9
19.3
25-^5 ,,
32-9 ,
18.11 ^
62.9
24-53 ,,
61.5
5-44 ,„
37-6 ,
29.3
25.01 *
24.85 ^
32.7 ,
63.8 9
24-37 \l
62.2 "
5-24 Z
38.3 I
Mar. 10.3
32.6 '
^7-56 '^
64.3 \
24.19 \l
62.6 4
5°2 "
38.7 *
20.3
24.68 7
32.6 °
17.27 I
64.4 ^
24.00 9
62.7 ^
4-78 4
38.8 *
30-2
24-51 '^
15
32-6 °
2
16.99
27
64.2 ^
23«2 \l
62.4 3
5
4-55 '^
^ 21
38.6 '
4
Apr. 9.2
24-36
32.8
16.72
63.6
23.66
61.9 «
4-34 .
38-2
19.2
24-23 ,„
33-1 I
16.48 \^^
62.7 9
23-51 ^^
61.1 *
4.15 \\
37-5 ^
29.1
24-13 '°
24.07
33-5 Z
16.29 "9
6^-5 !
12
23.39 g
60.0 "
4.00 '5
36-6 .0
May 9.1
34-0 i
16.16 "^
16.10
60.1 '4
58.5 ;!
23.31 _
57.1 '\
3.90 ,
35-6 ^
19.1
24.04 ^
34-7 :
23.26 ^
3.86 t
34-4 "
2
7
0
17
I
18
2
13
29.1
24-06
35-4 «
16.10
16.18 *^
56.8
23.25
55-3 ,^
3.88
33-1 „
June 8.0
55- » I
23.29 4
53.3
3-95 .!
31.8 '3
18.0
24-22 °
37-2 °
16.33 '^
53.3 "
St
23.37
21
5^.2
4.08 '3
30.6 "
28.0
24-36 ^
38.2 °
'6.54 ''
50.0
14
12
23.49 "
^« , 21
4-27 \\
29-5 ::
July 7.9
24-53 ,„
20
39-^ 10
16.81 ^7
33
23.64 '^
19
..« ^ 21
470 ^,
4-50 :^
28.5 '*»
10
17.9
2473 ,,
4^-3 rr.
17.14 _
^^•^ .0
23.83 _
44-9 „
4-78 „
27.5
27.9
24.96 11
25.22
4^-3 0
17.51 ^;
47.4
22
24-05 "
20
42.9 .a
5-»o3
26.6 9
Aug. 6.9
42.3 ^°
^7-93 ^^
46.3 "
24-29 ,^
24-55 \t
4I.I \\
5-45 ^^
583 t
25.9 \
25.3 J
16.8
43.2 ^
18.37 It
45.4 ^
44.8 ^
39-6 5
26.8
^579 ,;
43-9 ;
18.84 ^^
24.83 "*
38.3 '3
6.22 39
24.9 ^
29
5
49
4
29
9
41
2
Sept. 5.8
26.08
44.4 ^
19.33 ,„
44.4 .
25-" ,„
37.4 -
^•^3 ,,
24.7
15-8
26.38 3°
44.7 ;
19.83 ^°
44.2
25-41 "1
36.9 5
7-05 f.
24.6
257
26.69 3'
44.8
20.33 ^,
44.3 '
25-71 ,„
36.8 '
748 If
24.7 ^
Oct. 5.7
26.99 ,„
447 '
20.84 ^'
44.6 ^
26.01 3°
37.1 I
7.90 '^
24.9
157
27.29 •'
29
44.3 \
21.33 J^
^5-2 8
26.30 ^9
37-9
12
8.31 4'
4«
25.3 \
25.6
2758 ,„
43.8
21.81
46.0 _
26.58
39-1
8-72 ,„
25.8
Nov. 4.6
27.86 8
28.12 '*
43-1 „
22.26 ^^
47.0 ^
26.85 '^
40.6 '5
9.10 38
26.S 7
14.6
42-2 '
22.69 tg
48.3 ^
2S1
27.10 ^
42.4 "
9-46 f
27-4 '
24.6
28.35 li
41.2 '°
23.07 ^°
49-8 ^
27.32 "
20
44.4
9-79 ^i
28.4 '*»
Dec. 4.5
28.55 ^°
4°-2 !°
23.40 11
5^-4 «
27.50 ;°
46.6 "
'0-°7 „
29.6'^
17
10
26
18
15
22
23
13
14.5
28.72
39-2 ,„
23-66
53-2 ,„
27.65 ,
48.8
J0.30
30.9
24.5
28.85 '^
28.93 "
38.2 '°
23.86 ^
55-^ 0
27.76 "
*-♦ ^ 22
10.48 '8
32-2 \\
34.5
37.3 '
23.98 "
57.0 '9
27.83 ^
^- ^ 20
53.0
10.60 "
33-6 '4
Sec cJ, Tan d
1.008 -fo.130
1. 713 +I-39I
1.031 -0.253
1.413 -K>.998
Mean Place
24-.443 29".i4
i6'.927 44".98
23'.8oo 59"-25
4' 455* 22".3o
DV a, Dw a
0.00 0.00
+0.04 0.00
-o.oi 0.00
+0.03 0.00
X>^ 6, D« 6
0.0
+ 1.0 1
0.0
+ 1.0 1
0.0
+ 1.0 1
0.0
+1.0
[Eph la]
APPARENT PLACES OF STARS, 1912
339
FOR THE UPPER TRANSIT AT WASHINGTON.
6 Anzigse.
1 OemlnonuiL. |
1 Puppis (0.)
V Orlonis.
Mdftn Solar
Mag. 2.7
Mag.
4-3
Mag. 6.2
Mag.
44
Date.
*
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascenaion.
tion N.
Aacenaion.
tion N.
Aacenaion.
tion S.
Aacenaion.
tion N.
h m
e f
h m
e '
h m
0 •
h m
. 1
1
5 53
+ 3712
5 58
+ 23 16
6 I
-45 I
6 2
+ 1446
Jan. 0.5
a
44.30
35-0 ,„
8
47.20
15-5 ,
s
■58.10
^5-4 „
a
33-77 ,
54-2 ^
10.4
44.37 ;
36-° 0
47.27 ;
15-6
58.08 \
58.00 *
68.6 32
33-84 I
53-8 4
20.4
44-39 .
37-0 '°
47.29 -
15.8 \
7^-5 ''
74-1 ^
33-86 I
53.5 I
30.4
44.35 I
37-9 \
38.7 \
47.26 3
16.0 ^
57.87 '^
33-84 ^
33-78 ^
53.3 ,
Feb. 9.4
44.26 I
47.19 ,^
16.3 3
57.68 9
76.2 "
53.1 \
14
0
II
2
S3
17
II
I
193
44.12 ^
18
43.94 ,„
39.3 ^
47-08
16.5
57.45 ,g
57-^9 ,„
77-9 ,^
33-67 ,^
53.0
29.3
39.8 \
46.93 w
16.7 \
79-x "
33.53 Z
53.0 "
Mar. 10.3
20
43.74 ,,
40.1 3
46-76 ^
46.58 *
16.8 '
56.91 ^^f
79-8 7
33.37 ^
53.0
20.3
43.53 ,„
40.2
16.8 °
56.62 ^9
80.0 ^
33-20 '
53«o
30.2
20
43.33
40.1
3
46.41 :^
16.8 °
I
56.32 3°
79.8 ;
33-03 1^
0
53.0 ^
Apr. 9.2
43.»4 ,,
42-98 ^
39.8
4^-25 ,^
16.7
56.04
55.78 ^
79.^ „
32.88
53.1 ,
19.2
39.3 ^
46.11 4
16.6 '
77.9 "
32.74 ,7
53.2
29.1
42.86 "
42.78 \
38.6 7
46.00 "
16.5 '
55.56 ^^
55.38 ^
76.2 '7
32.63 "
53.4 ,
May 9.1
37.9 i
37.1 ^
9
45.93 \
16.3 ^
74-' I
32.56 ;
53.6 ^,
19.1
42-75 \
45.90 3
16.2 '
55.24 'J
^'•7 I7
32.53 \
53.93
29.1
42-77 ,
36.2
35.4 J
45.92 ,
45.98 J
I6.I
55.15 .
^90 ,„
32.54 ,
54-2 ^
June 8.0
42.84 ,^
16.0 ^
55.11 \
66.1 ^'^
32.59 ,„
54.6 4
18.0
42.96 "
34.6 \
46.08 '°
16.0 °
55.13 „
630 ^'
32.69 '°
55.1 ,
28.0
43-13 ,;
33.9 ;
46.23 \l
I6.I '
55.21 »
59.8 f.
32.83 '4
55-6 I
56.2 \
July 8.0
22
43-35 \^
33.2 I
46.42 '5
16.2 ^
55.33 _
56.6 3^
33.00 '7
25
0
22
17
31
21
6
17.9
43-60
32.6
46.64 ,^
16.3
55.50 ,,
53-5 ,„
33.21
56.8
57-4 (■
58.0^
27.9
43-89 Z
32.1 5
46.89 '5
16.5 ^
55-72 "
55.98 ^,^
50-6 ''
33-44 ,3
Aug. 6.9
44-21 \
31.7 ;
47.16 ^7
16.7 \
47-9 Z
33-70 ^J
16.8
44-55 ;;
31.5 \
47.45 ''
16.9 ^
56.28 3°
«-6 i
33-97 ,^
58.5 *
26.8
44.90^5
31.3 ,
47.76 3'
^7-^ \
56.60 32
43.8 '^
34-26 ='9
58.9 4
37
I
32
1
34
»3
30
4
Sept. 5.8
45-65 ^^
46-03 ^!
46.41 ^!
31.2
48.08
17-3 ,
56.94 ,,
42.5 „
34-56
59.3 ,
158
31.2 ^
48.41 33
'7-^o
57.30 3J
41-7 !
34-87 f.
59-5 0
25.7
31.3 '
48.74 ^l
17.4°
57.66 36
4'-5 !
35-18 3
59.5 ,
Oct. 5.7
31.4 \
49.07 33
17.4°
58.03 "
41.9 „
35-50 3^
I
59.4 ,
15.7
46-78 "
31.6 \
49.40 33
17.3
58.39 ^!
43.0
35-81 f
59.1 ^
30
3
32
I
34
17
31
4
25.7
47-14 „
31.9 .
49.72
17.2
58.73 „
44.7 „
36-12
58.7 ,
Nov. 4.6
47-49 ,,
32.3 \
32.9 ,
33.5 ,
50.03 3
17.0 \
59.05 3^
4^-9 "
36.41 ^1
58.2 5
57.6 J
14.6
47.82 33
50.32 9
16.8 '
59.33 '°
49-5 '
36.69 ',^
24.6
48.12 30
48.38 ^J
50.59 J
16.6 ^
59-57 Z
52-5 ^!
36.94 '^
56.9 \
Dec. 4.5
34.2 \
50.82 *3
19
i6.5 ;
59-77 ::
55.7 3'
33
37.16 "
19
56.3^
145
48.59 ,,
35.0
51.01
16.4
59.91 g
59.0 _
37.35 ,.
55.7 -
24.5
48.76 7
35.9 ;
51.16 '5
16.4°
59.99 .
^2-4 ^t
37.50 5
55-2 ^
34.5
48.87 "
36.8 9
51-27 "
16.5 '
60.01
65.7 33
37.60 '°
54.7 ^
Sec <J, Tan <J
1.256 +0.759
1.089
^0.430
1.415 -I.OOI
1.034
+0.264
Mean Place
43V227 26".34
46«.268
7"-9i
56*.453 70"05
32*.878
47".io
D'^a, D«a
+0.02 O.CX)
+0.01
0.00
-0.03 0.00
+0.01
0.00
D^d,D»d
0.0
+1.0 1
0.0
+1.0
0.0
+1.0
0.0
+1.0
[Eph za]
340
APPARENT PLACES OF STAES, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
22 H. Cauelop.
7 Oeminonuii.
2 Lyncis.
C Cauls Xajoils.
Mean Solar
Mag. 4.7
Var. 3.2-4.2
Mag. 4.4
Mag. 3.1
Date.
Right
Declina-
Right
Declina-
Right
Declins-
Right
Oeclina-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
ticn N.
Ascension.
UonS.
h m
0 t
h m
0 f
h m
0 t
h m
•
6 9
+ 69 21
6 9
+ 2231
9t
6 II
+ 59 2
6 16
-30 I
0f
Jan. 0.5
10.5
S
12.05
12.16"
^0 ^ ^6
20.2
22.8 »^
8
34.93 „
35.01 !
66.6
66.7 '
8
53.62
53.72 '°
47-5 „
49.7 "
8
57.23 ^
57.27 *
20.6 „
234 ,,
20.4
12.14
35.04 t
66.8 '
53.74 ,
5' -8 "
57.25 ,
26.0 ="*
30.4
12.00 ^
25.2 '^
35.02 ^
34.96 ^J
67.0^
53.67 ,;
53-8 8
57.18 7
28.3 =3
Feb. 9.4
67.2 '
2
53.52 J
55.6 ;«
57.07 \l
3-^ \l
19.3
"•3^A^
29.^ ,,
34.85 ,^
67.4 ,
5330 -
57-1 r.
56.92
31.8
29.3
10.04
30.4 '^
34.55 !
67.6 '
53.02 11
58.2 "
56.73 ^
33.0 "
Mar. 10.3
A t\
10.45 ;;
31-3 I
67-7 ;
52-70 3^
59.0 °
56-52 "
33.8 !
20.3
9-93 f ,
31.7 ;
34.38 7
67.8 »
52.36 3*
59-4 „
56.30 "
34-1 ^
30.2
9+^ ^0
31.6 '
34.21 '7
67.9 '
52.02 34
59.4 °
56.08 "
34.0 '
50
6
J7
0
32
5
21
5
Apr. 9.2
8.91
31.0
34.04 „
67.9
5 '-7° ,„
58-9 ,
55.87 ,„
33.5 „
19.2
846 ^5
30.0 °
33.89 f
67.8 '
5^-4^ '!
58-^ .!
55-68 9
32.6 9
29.2
8.09^7
26.7 '8
33.78 "
67.7 1
5^-^7 4
56.9
55-51 7
3'-3 i
May 9.1
7.80 ^9
33.70 '
67.6 '
50.99 „
55-4 ]l
55.37 t
=^9-7 *
19.1
7-61 '\
24-6 "
33.66 4
67.5 1
50.88 "
53-7 ^
55.28 9
27.7 '°
0
23
I
I
3
18
5
22
29.1
7.53 ,
22.3
33.67 .
67.4
50.85
5^-9 ,„
55.23 ,
25-5 ,,
June 8.0
756 ,^
^9-9 2
33.72 5
67.4°
50.89 4
50.0 '9
55.22 '
23.1 't
18.0
7.70 \\
'7-5 t
33.81 9
67.4^
5^°^ ;:
48-0 Z
5525 I
20.S ^^
28.0
7.95 ',^
^5-^ A
33.95 -J
67.5
51.20 9
46-0 '°
55.33 °
17.8 '7
July 8.0
8.30 35
12.7 *4
34-^3 ''
67.6
5^-47 11
^ - ^ 20
44'0 _
12
55.45 :
15.1 '7
44
22
21
I
33
18
16
27
17.9
8-74 „
10.5
34.34 ,,
677 ,
51.80
42-2 ,
55.61
"•4 ^
27.9
9.27 "
9.88
10.55 ^;
»-5'a
34.58 ^4
67.9 1
52.18 38
40.6
55-80 '9
9.8 *«
Aug. 6.9
^•7 !
34.84 ^5
68.1 '
52.61 43
39.2 ;^
56.03 11
7-5 ^3
16.9
5.2 '5
35-" !
68.3 ^
53-08 47
38-^ "
56.28 ^5
5-4
26.8
11.26 7^
4°"
35.42 3°
68.4 '
53-59 I
37.0 ^°
56.56 **
3-7''
75
9
32
I
54
8
29
13
Sept. 5.8
12.01
"•79 ^^
'3-59 8,
'4-40 -
15.20 ;«
3-' A
35-74 „
68.5 „
54-13 ,,
36.2
56.85 „
*-5 ,
15.8
"•5 !
36.06 3^
68.5 «
54-69 ^^
35-7 :
57.16 3'
1.8 7
25.7
2-3
36.39 33
68.5 °
55-25 ^t
35-5 ,
57.48 3^
1.6 *
Oct. 5.7
'•5 '
36.72 11
68-4 '
55-82 57
35-6 ;
57.80 3^
1.9 3
15.7
3.0 ^
37.05 "
68.2 '
56.38 5^
36.0 4
58.12 3^
2.8 9
77
9
32
3
55
6
3«
»4
25.7
^5-97 „
3-9 „
37-37 ,,
67-9 ,
5^-93 „
36-6
58-43 ,„
4-2 ,B
Nov. 4.6
16.70 "
'7-38 t
17-99 „
^•7 !
37.68 3'
67.6 I
57-46 53
37-5 '
58.72 11
6.0 '8
14.6
37.98 1°
67.3 ^
57-96 50
38-7
58.99 11
8-3:^
24.6
8.6"
38.25 11
67.1 '
58-41 t^
40-» ^
59.23 Jl
»°-9 :;
Dec. 4.6
18.52 5^
10.8 "
38.49 I*
66.9 ^
58.80 39
41-9 '^
59-44
13.7 '"
43
24
21
2
33
20
17
29
14.5
18.95 „
^3-2 ,,
38.70 ,
38.86 '^
66.7
59-^3 „
43-9 ,^
59-61
16.6
24.5
19.26 3'
15.8 'I
18.4 ^'^
66.6 '
59.38 5
45.9 ^^
59-73 ,
^9-6 ^!
34-5
19.45 ''
38.98 ^^
66.6 ^
59.54 '^
48.0 ^^
59-80 7
22.5 '9
Sec <5, Tan A
2.836 +2.654
1.083 +0.415
1.944 +1.667
»-i55 -0-57*
Mean Place
9VI32 8".i6
33'.985 59".25
5i«.7ii 38".65
56' .020
26'.47
D',/r «, D« a
+0.07 -KJ.OI
+0.01 0.00
.KJ.05 +0.01
-0.02
0.00
D,^ <5, Dw 6
0.0
+ 1.0 1
0.0
+1.0 1
0.0
+t.o 1
0.0
•n.o
[Bph 18]
APPARENT PLACES OF STARS, 1912
341
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.5
10.5
20.4
30.4
Feb. 9.4
193
29.3
Mar. 10.3
20.3
30.2
Apr. 9.2
19.2
29.2
May 9.1
19.1
29.1
June 8.0
18.0
28.0
July 8.0
17.9
27.9
Aug. 6.9
16.9
26.8
Sept. 5.8
15.8
257
Oct. 5.7
15.7
25.7
Nov. 4.6
14.6
24.6
Dec. 4.6
14.5
245
34.5
^ QemiBonuft.
Mag. 3.2
Right
Aioaatioii.
h m
6 17
■
3919
39.28
39.32
39.31
39.25
9
4
I
6
10
14
16
39-15
39.01
38.85
38.68 '7
38.51 '^
Sec <J, Tan 6
Mean Place
38.34
38.19
38.07
37.99
37.95
37.95
37.99
38.08
38.21
38.38
38.58
38.81
39.07
39.35
39.65
17
15
12
8
4
o
4
9
13
17
20
23
26
28
30
31
39.96 ,^
40.28 3^
40.61 ^^
40.94
41.27
33
33
33
41.60
41.91
42.21
42.49
42.74
42.96
43.13
43.25
31
30
28
25
22
17
12
Daclina-
denN.
+ 2233
••
41.8
41.9 \
42.0
42.2 ^
42.4 \
42.6
42.8 ^
43.0 \
43-1 *
43.2 ^
43.2 ^
43.2 "
43.1 ;
43.0 '
42.9 J
42.8
42.8 ^
42.8 *"
42.8 ^
42.9
43.0
43.1
43.2
43.3
43.4
43.4
43.4
43.3
43.1
42.8
42.5
42.2
41.9
41.6
41.3
41. 1
40.9
40.9
^^Aniicn.
Mag. 5.1
Right
o
I
2
3
3
3
3
3
3
2
2
o
1.083 -K>.4i5
38*.233 34".64
40.0I
0.0
0.00
+ 1.0
h m
6 18
8^86
8.97
9.01
8.98
8.88
II
4
3
10
16
21
8.72
8.51
8.28 ^3
7.52
7.30
7.12
6.99
6.91
6.89
6.93
7.03
7.20
7.42
7.68
7.99
8.34
8.72
9.13
9.56
O.OI
0.46
0.92
1.38
1.83
2.26
2.67
3.05
3.38
3.66
3.88
4.04
25
22
18
13
6
4
10
17
22
26
31
35
38
41
43
45
45
46
46
45
43
41
38
33
28
22
16
Daeliaa-
lionN.
4-4920
10. 1
II.8 'I
13.4
15.0
16.4
16
16
14
13
17.7
18.7
19.4
19.8
19.8
195
18.9
18.1
17,0
15.7
14.3
12.8
11.3
9.8
8.3
6.9
5.7
4.6
3.6
2.8
2.2
1.8
1.5
1.4
1.6
1.9
2.4
3.2
4.2
5.4
6.8
8.3
9.9
10
7
4
o
3
6
8
I
3
4
5
5
5
5
4
2
I
o
8
6
4
3
I
2
3
5
8
10
12
14
15
16
ft Canls Xajoiii.
Mag. 2.0
Rigl^
1.535 +I.164
7*.408 2 ".04
40.03 +0.01
0.0 +1.0
[Eph 12]
h m
6 18
8
50.48
50.54 ^
50.54
50.50
50.42
X>«eUsia-
tion S.
8 Xonocerotts.
Mag. 4.5
-1754
4
8
50.30
50.14
49.96
49.78
49.59
49.41
49.24
49.10
49.00
48.93
48.89
48.90
48.95
49.04
49.17
49.33
49.53
49.75
50.00
50.26
50.54
50.83
51.13
51.43
51.73
12
16
18
18
19
18
17
14
10
7
4
I
5
9
13
16
20
22
25
26
28
29
30
30
30
30
29
26
52.03
52.32
5^-58 . .
52.82 ^^
53.03
53.21
53.34
53.43
21
18
13
9
35.3
37.6
39.7
41.5
43.1
44.4
45.3
45.9
46.2
46.1
45.7
44.9
43.9
42.6
41.0
39.2
37.2
35.1
32.9
30.6
28.4
26.3
24.4
22.7
21.3
20.3
19.7
19.6
19.9
20.6
23
21
18
16
13
9
6
3
I
4
8
10
13
16
18
20
21
22
23
22
21
19
17
14
10
6
I
3
7
12
16
19
22
21.8
23.4
25.3
27.5
29,8 ^^
25
32.3
34.8 ^5
37.1 ''
1.05 1
49*-447
^.323
4i"-43
-0.01
0.0
0.00
+1.0
Right
Aaoension.
h m
6 19
■
7.23
7.31
7.34
7.32
7.26
7.17
7.04
6.88
6.72
6.55
13
16
16
17
15
6.40
6.26 '^
6.14 "
6,06
6.01
6.00
6.03
6.1 1
6.22
6.36
6.54
6.75
6.98
7.24
7.51
3
8
II
14
18
21
23
26
27
28
7-79 ,^
8.08 ^9
30
8.38
8.69
8.99
9.29
9.58
9.85
10.10
10.33
31
30
30
29
27
25
23
19
^^•52 .
10.68 '^
10.79
II
Declina-
tion N.
+ 438
24.5
23.4
22.5
21.7
21. 1
20.6
20.3
20.1
20.1
20.2
20.4
20.7
21.2
21.8
22.5
23.3
24.2
25.2
26.3
27.4
28.5
29.6
30.5
31.4
32.1
32.6
32.8
32.8
32.6
32.1
II
9
8
6
5
3
2
o
I
2
3
5
6
7
8
9
10
II
II
II
II
9
9
7
5
2
o
2
5
8
9
II
12
31.3
30.4
293
28.1
26.8 '3
13
25.5
24.3
23.2
12
II
1.003
6V324
+0.081
.»»
17' .90
0.00
0.0
0.00
+1.0
342 APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
a ArgftB.
10 XonocezotlB
•
y QemiBOinm.
8 Lyncis.
Mean Solar
Mag. -0.9
Mag. 5.0
Mag
41
Mag. 6.0
Date.
1
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tions.
Ascension.
tions.
Ascension.
tion N.
Ascension.
tion N.
h m
0 *
h m
e
9
h m
•
h m
•
6 21
-5238
90
6 23
-442
6 23
+ 20 16
6 29
+ 6133
Jan. 0.5
6 1^88
+*-3 ,^
37.83
18.8
16
45.24 ^
14.2
4^-32 ^^
42-9,,
10.5161.87 *
47-7 „
37.90 7
20.4
45-33 I
14. 1 *
41.46 '^
45-2 *^
20.4
61.78 9
50.9 ^„
37.93 I
21.8
14
45.37 I
14. 1 ^
41.51 ;
47-5 11
30.4
61.63 '^
53.8 11
37.91 .
37-85 ,J
23.1
13
45.37 _
14.2 *
41.46 5
49-6 "
Feb. 9.4
61.42 'I
563 ^^
24.2
ZI
45.32 ,x
14.3
41.32 ^
5»-6 '0
27
20
10
8
10
I
22
18
19.4
^^•^5 ,,
59-9 ^
37.75 ^,
25.0
6
45-22
14.4
40.82 '^
53.4 ,^
293
60.84 3'
37.62 |3
25.6
45.09 ^l
14.6 ^
54-8 \t
Mar. 10.3
60.50 ^^
60.9'°
37.47 ;
26.0
4
44.94 \i
14.7
40.48 34
55-8 »«
56-4 f
20.3
60.15 ^5
61.4 f
37.30 ^
37.12 I
26.1
I
u-77 1;
14.9 ^
40.11 37
30.2
59.79 ^f
61.5 '
26.0
I
44.60 11
15.0 '
39-74 ^!
56-5 !
35
5
ID
3
17
0
36
3
Apr. 9.2
59.44 ,^
61.0
36.96
25.7
M
44-43 ,,
15.0
39-38
56-2
19.2
59.12 ^
60.0'°
36.81 5
25.2
5
6
44-28 5
^5-^ 0
3905 33
55-5 '
29.2
58.82 3^
58-5 li
36.68 '3
24.6
44-16 "
^5-1 ^
38.77 ;
54-4 "
May 9.1
58.56 ll
56.6 '9
36.59 '
23-7
9
4408 I
^5-^ ^
38.54 ^^
53-0 4
19.1
58.36 "°
IS
54.3 '^
27
36-54 I
22.6
II
12
44-03 \
^5-:
38-39 'I
51-3 ''
19
29.1
58.21
1
51.6
36-52
21.4
44-02
I5-I ,
38-31 ,
49-4 ,„
June 8.1
58.12 9
48.7 '^^
36.54 '
36.60 *
20.0
14
44-06 *
15.2
38.32 '
47.4 'J"
18.0
58.09 3
45.6 11
18.5
15
16
44-H ,:
15-3 ,
38-41 '
45.3 "
28.0
58.12 3
42.4 l\
36.70 ;^
16.9
44-26 "
15-4 ,
38.58 'J
43-1 "
July 8.0
58.21 9
39.1 ''^
36.83 'I
15.4
15
44-42 '°
15.6 I
38.82 ^4
4^-o "
15
33
»7
16
20
2
32
21
17.9
58-36 _
35.8 ^,
37.00
13.8
44-62
15.8
39.14 ,g
38-9 ,„
27.9
58.56 ^^
32.7 . '
37.20 ^°
12.3
15
44-84 "
16. 1 3
39-52 3°
37-0 ]l
Aug. 6.9
58.81 ^5
29.9 ;
22
37.42 '
10.9
14
4509 ,;
16.3 ^
39-95 *3
35-3 '
16.9
59.11 ^^
^74 ^
37.66 ^*
37.92 ll
9.7
12
«-36 ^I
16.5 ^
40.44 t.
33.8 5
26.8
59.45 ^^
25.3 '
8.7
ID
45-65 ',^
16.6 '
40.96 11
32.5 ^
37
15
28
7
30
0
55
II
Sept. 5.8
59.82
23-8 ^^
38-20
8.0
45-95 „
16.6
+'•5' 58
42.09 *»
43-32
43-93 !*
31.4 ft
30.6 ;
15.8
60.21 39
22.8 ^°
38.49 2
7.6
4
46-27 11
16.5 ;
25.8
60.62 ^'
22.5 I
3878 ^9
7.5
I
46.59 11
16.4 1
30.1 5
Oct. 5.7
61.03 ;||
22.8 3
39.08 3°
7.8
3
6
46.91 f.
16.2 ^
29.9 ,
157
61.44^
23.7 ^
39-38 11
8.4
47-24 ,,
15.9 ^
30.0 *
40
15
29
10
33
4
60
4
257
61.84
25.2 ^,
39-67 ,„
9.4
47-57 ,,
15.5 _
44-53 8
45.11 5°
30.4 8
31.2 ,t
Nov. 4.6
62.21 37
21
27.3 '
39.96 9
10.6
12
47-88 3'
15.0 5
14.6
62.54 f
26
29.9 ^0
40-23 J
12.0
14
16
18
48.18 30
14.5 f
45-65 ^t
32.3
24.6
62.83 11
32.9 3
40.48 11
13.6
48.46 f
14.1 ^
46.16 5'
33-6 ^
Dec. 4.6
63.06 ^3
36.2 33
40.70 "
15.4
48.71 f
13.6 5
46.61 '♦s
35-3 :I
17
35
19
19
21
4
37
19
14.5
24-5
63.23
63.33 ^^
^^•7 36
43.3 ^,
40.89
IS
41-04 *
17.3
19.1
x8
48.92 ^g
49.10
13.2
12.9 3
46-98 ,„
47-28 3°
37.2
21
39-3 "
34-5
63.36 3
46.8 35
41.14 '°
20.8
17
49.23 3
12.7
"^ f
47.49
41-5 "
Sec <5, Tan fJ
1.648 -1.310
1.003 -0.082
X.066
+0.369
2.100 -^1.846
Mean Place
59«.9o6 5o".46
36V898 25".20
44-.290
-K>.OI
7".26
39-.144 35".25
D'^ a, Dm a
-0.03 -0.0 1
0.00 0.00
0.00
•K).05 +0.02
T)^ <J, Dm cJ
0.0
fX.O 1
0.0
+ 1.0
1
0.0
♦•1.0
-0.1
+1.0
[Bph xa]
APPARENT PLACES OF STARS, 1912.
343
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.5
10.5
20.4
30.4
Feb. 9.4
19.4
293
Mar. 10.3
20.3
30.2
Apr. 9.2
19.2
29.2
May 9.1
19.1
29.1
June 8.1
18.0
28.0
July 8.0
17.9
27.9
Aug. 6.9
16.9
26.8
Sept. 5.8
25.8
Oct. 5.7
15-7
25.7
Nov. 4.6
14.6
24.6
Dec. 4.6
14.5
24-5
34-5
88 H. Camelop.
Mag. 5.6
RiKht
Atcenaion.
h in
6 31
s
20.53
20.76
20.74
20.48
19.99
23
2
26
49
70
Declina-
tion N.
H-79 39
Sec <J, Tan S
Mean Place
9.29
8.43
7.45
6.39
530
4.24
326
2.39
1.66
I. II
0.76
0.61
0.67
0.95
1.44
2.12
2.97
3.98
514
6.42
7.80
925
20.75
22.27
23-79
86
98
106
106
98
87
73
55
35
15
6
28
49
68
85
lOI
1x6
128
138
145
150
152
152
148
142
25.27
26.69
28.02 ^^^
29.22
31.09
31.72
32.11
63
39
50.9
53.9
56.9
59.7
62.3
64-5
66.3
67.6
68.3
68.4
68.0
67.0
65.6
63.7
61.4
58.9
56.1
53.3
47-5
44.8
42.2
39.9
37.9
36.1
34-7
33.7
330
32.8
33.1
30
30
28
26
22
18
13
7
X
4
10
14
19
23
25
28
28
29
29
27
26
23
20
18
14
10
7
2
3
7
S* Canls XaJoilB.
Mag. 4.5
Right
Ascension.
33-8
34.9
36.5
38.5
40.8 ^^
XI
16
20
43.4
46.2
49.2
26
28
30
5.573 +5483
I4V073 42^.89
h
6
m
31
40.14 -K).05
-O.I +1.0
s
23.19
23.26
23.27
23.23
23-15
23.02
22.86
22.68
22.48
22.28
22.09
21.92
21.77
21.64
21.55
21.50
21.49
21.52
21.59
21.70
21.85
22.03
22.24
22.48
22.74
7
I
4
8
13
x6
18
20
20
19
17
15
13
9
5
I
3
7
II
15
18
21
24
26
28
30
31
23.02
23-31 !?
23.61
23.92
24.23 3^
31
24-54
24-83
25.11
25.3$
25.58
29
28
25
22
19
25-77
25-91
26.00
14
9
Declina-
tions.
-2253
31-7
34.3
36.6
38.7
40.5
42.0
43.2
44.0
44-4
44-4
44-1
43-4
42.3
40.9
39-3
26
23
21
18
15
12
8
4
o
3
7
II
16
19
61 Anrigae.
Mag. 5.7
21
23
24
37-4
35-3
33-0
28.2 ^^
24
25.8
23.5
21.4
19.6
18.1
23
21
18
15
12
16.9
16.2
16.0
16.2
16.9
7
2
2
7
12
18.I
19.8 ^7
21.9"
-4.3 I'
26.8 ^5
26
^9-4 ,^
32.1 '7
34.8 ^7
Right
Ascension.
h m
6 32
34-95 ,.
35.08 'I
35.14 ^
35-14 "
35.07 ^l
34.95 J.
34.80 II
34.62
34.41
34.19
18
21
22
20
33-99
33-81
33-65
33.53
33.46
18
16
12
7
2
33.44 .
33.47 I
33-55 ,,
33.68 '^
33.85
17
22
1.086 -0.422
22*.i07 38".3i
-0.0 1 0.00
-o.i +1.0
[Eph za]
34.07 ^^
34-33' ,^
34.62 ^9
34.94 11
35.28 II
35.64
36.01
36.40
36.80
37.19
37.58
37.96
38.33
38.67
38.98
39.24
39-46
39.62
37
39
40
39
39
38
37
34
31
26
22
16
Declina-
tion N.
+ 3928
16.7
17.7
18.8
19.9
21.0
21.9
22.7
234
23.8
24.0
23-9
23.6
23.1
22.4
21.6
20.7
9.7
8.7
7-7
6.8
5.9
5.0
4.2.
3.4
2.8
2.3
1.8
1.4
I.I
0.9
0.9
i.o
1.2
1.6
2.1
2.8
3.7
4.7
10
II
II
II
9
8
7
4
2
I
3
5
7
8
9
10
10
10
9
9
9
8
8
6
5
5
4
3
2
o
I
2
4
5
7
9
10
y Oemlnomm.
Mag. Z.9
Right
Ascension.
1.296
33'-736
40.824
9'
".62
h m
6 32
38!66
38.76
38.82
38.82
38.77
10
6
o
5
9
40.02
-O.I
40.0I
4I.O
12
15
16
38.68
38.56
38.41
38.25
38.08 'I
16
3792
37-77
37.65
37.56
37.51
37.49
3752
37.59
37.70
37.85
38.03
38.24
38.47
38.73
39.01
39.30
39.61
39.92
40.24
40.56
40.88
41.19
41.49
41.77
42.02
42.24
42.42
42.55
15
12
9
5
2
3
7
II
15
18
21
23
26
28
29
31
31
32
32
32
31
30
28
25
22
18
13
Declina-
tion N.
+ 1628
37.3
370
36.7
36.5
36.4
36.4
36.5
36.6
36.7
36.8
36.9
37.0
37.2
37.3
37.5
37.7
38.0
38.3
38.7
39.0
39.4
39.8
40.1
40.4
40.6
40.7
40.7
40.5
40.2
39.8
39.3
38.6
37.9
37.2
36.5
35-9
35-3
34.8
3
3
2
I
o
I
I
I
I
I
I
2
I
2
2
3
3
4
3
4
4
3
3
2
I
o
2
3
4
5
7
7
7
7
6
6
5
1.043 40.296
37'.728 3o".59
40.0I
-O.I
0.00
+ 1.0
344 APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
y Axgds.
8 Xonoceiotis.
€ Oemlnomm.
S QtmUnonm^
Mean Solar
Mag. 3.2
Mag. 4.7
Mag,
3.2
Mag. 3.4
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion N.
h ]
u
• t
h m
0 >
h m
e r
h m
0 »
6 35
-43 6
6 36
+ 958
6 38
+ 2513
6 40
+1259
Jan. 0.5
s
5.72
59-2 „
^•8* ,n
47.0
46.2 «
45.6 J
45.0
8
32.13 „
15.6
21*98
35.2 ^
34.6 J
10.5
576
4
62.4 3»
8.94 '°
32.25 g
32.31 ,
15.7
22.09 "
20.4
5-73
3
68.3 '
8.99 5
15.9 '
22.14 ^
34.1 f
30.4
564
9
8.99 °
32.32 ^
16.2 3
22.15 ^
33.7 t
Feb. 9.4
5.49
15
7°-8 li
8.95 ^
44.6 ;j
32.28 ^
16.6 *
22.11 2
33.4 ,
19
20
9
2
9
4
8
I
19.4
530
^ ^
7^-8 ,6
74.4 °
8.86
44.4 ^
32.19 „
17.0
22.03 „
33.3 „
293
507
23
26
8.74 "
44.2 ^
32.06 '3
31.90
17.4 *
21.91 "
33-3 °
Mar. 10.3
4.81
75.6 "
«-7 :^
44.1 ^
17.7 3
21.76 '5
21.60 '*
-•44 ;^
33.3 -
20.3
4-54
27
28
28
76.3 I
44.1 °
31.73 'L
31.55 ,y
17.9 z
33.3 ,
30.3
4.26
76.4 ^
44.2 ;
18.I ^
I
33-4 ,
Apr. 9.2
3.98
^ ^
76.0 »
8.11
44-4
31.38
18.2
21.28
33-6 »
19.2
372
26
8
7.96 ^5
44.6 I
3».23
18.2 °
21.13 1^
33.8 ^
29.2
3.49
23
12
74.0 "
7.84 "
44.9 ^
I"?
T r^
18.I '
21.00 ^
2
34.0
May 9.1
3.29
20
16
72.3 J
7.75 I
7.69 !
45.3 z
31.00
3094 ^
18.0 '
20.91 ^
20.85 1
34-3 *
19.1
313
•..TV >» 21
45.8 5
17.8 1
34-6 3
II
24
3
5
2
3
2
4
29.1
302
6
6r2 «<^
°5.2 ,„
7-67 ,
46.3 g
46.9 °
30.92
17.6
20.83 ,
35-0
June 8.1
2.96
7.70 3
7.76 ^
3094 ^
17.4 ,
20.85 g
20.91 °
35-4 *
18.0
2.95
I
62.3 f
47.6 7
31 01 '
17.2
35.9 :
28.0
2.99
4
0
59-3 Z
7.86 '°
48.3 I
31.12"
17.0 '
21.01 '°
36.4'
37.0 J
July 8.0
3.07
8
56.3 ^°
7.99 '^
49.0 0
31.27 ^
16.9 '
21.14 ]i
13
31
17
8
18
2
17
5
18.0
3.20
_ 0
53-2 ,^
8.16
49.8
3^-45 _
16.7
'^•31 ,„
37.5 ^
38.1 «
27.9
3.38
18
50.2 3«
836 ^*°
50.5 ;
3i.67
16.6 *
21.51 "*•
Aug. 6.9
360
22
47-5 11
8-59 11
51.2 7
3192 ;
16.S '
21.73 "
38.6 5
16.9
3.85
25
«-^ !o
8.84 ^5
517 ^
32.19 J
16.3 ^
21.98 '5
38.9^
26.8
4.14
29
32
43.1 '^
15
9." '^
52.1 ^
3
32.48 '9
31
16.1 ==
2
22.25 ,'j
39.2 3
Sept. 5.8
4.46
4'-^ ,n
9-39 ,„
52.4 ,
32.79 _
15.9 ,
*^-53 ,0
39.4 -
15.8
4.80
34
40.6
9.68 '9
52.5 '
33.11 ^^
157 I
22.83 ^°
39.4 ,
25.8
515
35
36
36
40.1 5
9.98 ^°
I
52.4 '
33.44 :,
15.4 ^
23.14^1
2
39.2 ,
Oct. 5.7
5.51
40.3 g
4I-I ,
10.29 "^
52.1 ^
33.78 ^^
I5.I ^
23.45 ;,
38.9^
157
5.87
10.60 ^'
51.6 5
34.12 ^^
14.7 ,
23.76 3'
38.4'
35
14
31
7
34
4
32
7
257
6.22
^^•5 ,^
10.91
50.9
3446 ^^
14.3 ^
24.08
37.7 -
36.9*
Nov. 4.7
6.56
34
44.4 ^
II. 21 *^°
5°-^ T^
34.80 ^4
13.9 ^
24.39 ^*
14.6
24.6
6.87
7.15
3*
28
49-7 ,,
"•5° ^8
48.0 ^
35.12 1
35.42 ^°
13.5 ^
13.2 ^
24.69 °
24.97 °
36.0 ^
35-1 '
Dec. 4.6
7.38
23
52.8 3'
12.03
46.9 "
35.69 11
12.9 ^
25.22 ^
34.2 '
19
34
31
10
24
2
33
9
14.5
7.57
V ^
5^-^ ,^
12.24 „
45.9 ^
35.93 ,^
12.7
^5-44 .
25.62 ;
33-3 g
32.5 ,
24.5
7.70
13
59.6 34
".41 11
450 I
36.12 9
12.7 ^
34.5
777
7
62.9 ^^
12.54 ''
44.1 9
36.27 '^
12.7 °
25.76 '^
31.8 '
Sec <5, Tan 6
1.370 -0.936
I.0I5 40.176
1. 105
40.471
1.036 40.231
Mean Place
4M-
99 66". 17
7-.92I 4o".35
3i'-»25
8".88
2i«.o54 28".6i
D'rf, a, D« a
-0.02 -0.0 X 1
0.00 0.00
•♦0.01
40.0I
40.0I 0.00
D^ d, D« 6
-0.1
+ 1.0 1
-O.I
-fl.O 1
-0.1
+1.0
-O.l
i-ix)
[Bph X3]
APPARENT PLACES OF STARS, 1912.
345
FOR THE UPPER TRANSIT AT WASHINGTON.
If esn Solar
Date.
^ Aniign.
Mag. 5.3
Jan. 0.5
10.5
20.4
30.4
Feb. 9.4
19.4
29.3
Mar. 10.3
20.3
30.3
Apr. 9.2
19.2
29.2
May 9.1
19.1
29.1
June 8.1
18.0
28.0
July 8.0
18.0
27.9
Aug. 6.9
16.9
26.8
Sept. 5.8
158
25.8
Oct. 5.7
157
257
Nov. 4.7
14.6
24.6
Dec. 4.6
14-5
245
34-5
Right
Aacanaioo.
h m
6 40
a
25.30
25.44
25.51
25.52
25.4^
14
7
I
6
12
25.34
25.18
24.98
24.76
24.53
16
20
23
23
22
20
17
24.31
24.11
23.94
23.80 *^
23.71 ^
23.68
23.70
23.77
23.89
24.07
2
7
12
18
22
26
30
24.29
2455
24.85 ^,
25.18^3
25.53 II
25.91 __
26.30 ^^
26.71 ^^
27.13
27.55
42
42
DacUna-
tiooN.
27.97
28.38
28.77
29.14
29.47
29.76
29.99
30.17
41
39
37
33
29
23
18
+43 39
a OaaiB XajoilB.
Mag. -1.6
Right
Aacenaion.
64-3
65.6
66.9
68.3
69.6
70.7
71.7
72.5
73.0
73.2
73.2
72.9
72.4
71.7
70.8
13
13
14
13
iz
10
8
5
2
o
3
5
7
9
II
12
12
69.7
68.5
67.3
66.0 '^
64.8 "
63.6
62.4
61.4
60.4
59.6
58.8
58.2
57.7
57.3
57.1
57.1
57.2
57.5
58.0
58.7
59.6
60.7
61.9
12
12
10
10
8
8
6
5
4
2
o
I
3
5
7
9
II
13
Sec<J,Tan<J
Mean Place
1.382 •K>.955
23*.97i 57".55
h m
6 41
7.00
7.07
7.09
7.07
7,00
6.89
6.75
6.58
6.40
6.22
6/>4
5.87
5.72
5.61
5.53
5-49
5.48
5.51
5.59
5.70
5.84
6.02
6.23
6.46
6.71
6.98
7.26
7.56
7.86
8.16
8.46
8.75
9.03
9.28
9.51
9.70
9.85
9.95
7
2
3
7
zi
4
7
8
8
8
7
5
1
8
4
I
3
8
II
14
18
21
23
25
27
28
30
30
30
30
29
28
25
23
19
15
10
Daelina-
tion S.
-1635
35.0
37.4
39.5
41.4
43.1
44.5
45.5
46.2
46.6
46.7
46.4
45.8
44.9
43.8
42.4
40.8
39.0
37.1
35.0
32.9
30.9
29.0
27.2
25.6
24.3
23.4
22.8
22.7
23.0
23.7
24.9
26.5
28.4
30.6
33.0
35.5
38.0
40.4
24
21
19
17
14
10
7
4
I
3
6
9
II
14
16
18
19
21
21
20
19
18
16
13
9
6
I
3
7
13
16
19
22
24
25
25
24
18 Xonooetotis.
Mag. 4.7
Right
Aficenaion.
1.044 -0.298
i6*.2i6 4i".36
h m
6 43
7.24
7.34
7.39
7.39
7.35
7.27
7.15
7.00
6.84
6.68
6.52
6.37
6.24
6.14
6.08
6.06
6.07
6.12
6.20
6.32
6.48
6.67
6.88
7.11
7.36
10
5
o
4
8
12
15
16
16
16
15
13
10
6
2
I
5
8
12
16
19
21
23
25
27
29
7.63
8.22 3°
8.52 3°
8.82 3°
31
9.13
9.43
9.72
9.99
20.23
30
29
27
24
21
20.44
20.61
20.74
17
13
Declina-
tioaN.
+ 230
39.8
38.5
37.4
36.5
35.7
35.1
34.6
34.4
34.3
34.4
34.6
34.9
35.4
36.0
36.7
37-6
38.6
39.6
40.7
41.8
42.9
44.0
45.0
45.9
46.6
47.1
47.3
47.2
46.9
46.3
13
II
9
8
6
5
2
I
I
2
3
5
6
7
9
10
10
II
II
II
II
10
9
7
5
2
I
3
6
8
II
12
45.5
44.4
43-2
41.8 '4
15
15
40.3
38.8
37.4
36.0 '^
14
1. 00 1 40.044
i6".323 33"- 15
Camelop.
Mag. 5.1
Right
Aacenaion.
h m
6 44
a
6.51
6.72
6.80
6.74
6.56
6.27
5.89
5.45
4.96
4.45
21
8
6
18
29
38
44
49
51
50
47
3.95
3.48
306^'
2.72 ^^
2.46
26
z6
2.30
2.25
2.30
2.46
2.72
3.08
3.52
4.04
4.63
5.29
6.00
6.74
7.51
8.30
9.09
19.88
20.64
21.37
22.04
22.63
23.14
23.54
23.82
5
5
16
26
36
44
52
59
66
71
74
77
79
79
79
76
73
67
59
51
40
28
Declina-
tion N.
+ 6859
38.3
40.9
43.5
46.0
48.4
50.5
52.2
53.5
54.3
54.6
54.4
53.8
52.7
51.2
49.4
47.3
45.0
42.5
40.0
37.5
26
26
25
24
21
17
13
8
3
2
6
II
15
18
21
23
25
25
25
24
32.8 '^
30.6
28.7
27.0
22
19
17
X4
25.6
24.5
23.8
23.4
23.4
23.7
24.4
25.5
27.0
28.8
II
7
4
o
3
7
II
15
18
21
30.9
33.3 __
35.8 '^
24
2.790 +2.604
I3*.406 3i".50
IV^ a. Dm a
-K>.02
-O.I
-K>.OI
+1.0
-o.oi • 0.00
-O.I +1.0
[Eph la]
0.00
-O.I
0.00
+1.0
40.07
-O.I
-K>.03
4-I.O
346
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.5
10.5
20.5
30.4
Feb. 9.4
19.4
29.3
.Mar. 10.3
20.3
30.3
Apr. 9.2
19.2
29.2
May 9.2
19.1
29.1
June 8.1
18.0
28.0
July 8.0
18.0
27.9
Aug. 6.9
16.9
26.9
Sept. 5.8
15.8
25.8
Oct. 5.7
15.7
257
Nov. 4.7
14.6
24.6
Dec. 4.6
14.6
245
34-5
Sec <J, Tan 6
Mean Place
jy^ a, Dm a
D<^<5, D«<'
0 Oeminorom.
Mag. 3.6
Right
Ascension.
h m
6 46
s
60.59
60.72
60.79
60.81
60.77
13
7
2
4
9
60.68
60.55
60.39
60.20 ^
60.00
13
16
20
59.81
59.64
59.49
59.37
59.30
59.27
59.29
59.35
59.46
59.61
19
17
X5
12
7
2
6
II
15
19
22
26
29
59.80
60.02
60.28
60.57
60.88 3'
33
61.21
61.56
61.92
62.28
62.65
35
36
36
37
37
63.02
63.39
63.74
64.07
64.38
64.65
64.87
65.04
37
35
33
31
27
22
17
Declina-
tion N.
+ 34 4
1.207
59*.454
2.1
2.8
3.6
4.4
5.2
6.0
6.7
7.3
7-7
8.0
8.1
8.0
7-7
7.3
6.8
6.2
5.5
4.8
4.1
3.3
2.6
2.0
1.4
0.8
0.2
9.6
9.1
8.6
8.2
7.8
7-5
7.3
7.2
7.2
7.3
7.6
8.0
8.6
7
8
8
8
8
7
6
4
3
I
I
3
4
5
6
7
7
7
8
7
6
6
6
6
6
5
5
4
4
3
2
I
o
I
3
4
6
40.676
, I*
5 .75
40.02
-0.1
40.0I
4-1. 0
a PiotorlB.
Mag. 3.3
Right
Ascension.
h m
6 47
s
9.98
9.97
9.87
9.67
9.40
I
10
20
27
34
9.06
8.66 ^^
8.22 ^^
7.75 "^^
7.27
6.80
6.34
5.91
5.53
5.20
4.93
4.73
4.60
4.55
4.57
4.67
4.85
5.10
5.41
5.78
6.20
6.66
7.15
7.66
8.17
8.67
9.14
9.57
9.94
20.24
20.47
20.61
20.65
48
47
46
43
38
33
27
20
13
5
2
10
18
25
31
37
42
46
49
51
51
50
47
43
37
30
23
14
4
Dedina-
tion S.
-61 50
n
40.1
43.8 37
47.2 3^
32
29
24
20
15
9
4
I
6
12
16
20
25
50.4
53.3
55.7
57.7
59.2
60.1
60.5
60.4
59.8
58.6
57.0
55.0
28
52.5
49.7
46.6 3'
43.4 f,
40.1 ^^
33
36.8
33.6 3'
30.6 3°
27.9
255
23.6
22.3
21.6
21.6
22.2
27
24
19
13
7
o
6
13
19
23.5
^5-4 ^,
27.8 ^4
30.7 \\
34.0 f^
37.6
41.3
45.0
37
37
2. 1 19 -1.868
I7«.387 48".55
-0.05
-0.1
-0.03
+1.0
[Epb za]
C Xens^.
Mag. 5.6
Right
Ascension.
h m
6 47
8
31.76
31.47
30.92
30.13
29.12
27.94
26.61
25.16
23.64
22.09
20.55
9.04
7.61
6.29
510
4.08
3.24
2.61
2.20
2.02
2.07
2.36
2.87
3.59
4.50
29
55
79
01
18
33
45
52
55
54
51
43
32
19
02
84
63
41
18
5
29
51
72
91
107
5-57 ,,^
6.77"°
8.06 "9
9.40 '3^
20.74 '^1
128
22.02
23.20
24.24
25.10
25.74
26.13
26.27
26.14
118
104
86
64
39
14
13
Declina-
tion S.
— 8042
69.1
72.7
76.1
79.3
82.1
84.5
86.5
88.1
89.1
89.6
89.6
89.1
88.0
86.5
84.6
36
34
32
28
24
20
16
10
5
o
5
II
15
19
23
27
82.3
79-6 ,^
76.6 3^
73.5 ''
70.3 \\
33
67.0
60.9 3*"
58.2 ^7
55.8 ^4
19
53.9
52.6
51.8
51.7
52.2
13
8
I
5
12
53.4
55.2
57.5
60.3
63.4
66.8
70.4
74.1
18
23
28
31
34
36
37
6.201 -6.120
23*.25o 78".o8
-0.16
-0.1
-0.08
+1.0
r Axgfis.
Mag. 2.8
Right
Ascension.
m
6 47
S
46.94
46.97
46.93
46.82
46.65
46.43
46.17
45-87
45.54
45.20
3
4
II
17
22
26
30
33
34
33
44.87
44.55 __
44.26 f
2S
44.01 ^
43.80
32
21
43.63
43.52
43.46
43.46
43.52
43.63
43.79
44.01
44.27
44.57
44.90
45.27
45.66
46.06
46.46
46.86
47.24
47.59
47.90
48.16
48.37
48.52
48.59
17
II
6
o
6
II
16
22
26
30
33
37
39
40
40
40
38
35
31
26
21
15
7
Declina-
tion S.
-5030
26.9
30.4 '^^
33.8 3^
36.9 3'
39.6
27
23
41.9
43.7
45.1
46.0
46.4
46.3
45.6
44-4
42.8
40.8
18
14
9
4
I
7
12
16
20
24
27
38.4
35-7
32.8 ^9
29.7 ^^
26.6
23.4
20.3
17.4
14.8
12.6
10.9
9.7
9.1
9.1
9.8
II. I
13.0
15.4
18.3
21.5
24.9
28.5
32.1
31
32
31
29
26
22
«7
12
6
o
7
13
19
24
29
32
34
36
36
1.572 -1. 213
45'. 143 35".03
-0.03
-0.1
-0.02
+1.0
APPARENT PLACES OF STARS, 1912,
347,
FOR THE UPPER TRANSIT AT WASHINGTON.
16 Lynoia.
ff CaniB XaloEis.
f Cauls XaloEis.
C Oeminorom.
Mean Solar
Mag. 4.5
Mag. 4.2
Mag. 1.6
Var. 3.7-4.3
Dat«.
Right
DecHna-
Right
Declina-
RiRht
Declina-
Right
Declina-
Ascension.
UonN.
Ascension.
tions.
Ascension.
tion S.
Ascension.
tion N.
h m
e »
h m
e f
h m
e >
b m
• 1
6 49
+ 5832
n
6 50
-II 55
6 55
-2850
n
6 58
+ 2042
n
Jan. 0.5
41-97 '°
^7-7 ,,
7.07
32-4,,
8
II. 16
11.24 !
5^-3 ,0
54-42
6.7 ,
10.5
29-8 "
7.16 I
34-5 "
6l.2 *?
64° :!
54-55 R
54-63 .
^•5 '
20.5
42.06 '
3»-9!
7.20 ^
36.4 '
11.27 ^
6-5 °
30.4
42.06 °
34-0 '
7.20 °
38.1
11.25 \
66-5 \\
54-66 3
6.5 \
Feb. 9.4
41-97 .'
30.0
7.15 ^
39.6 5
68.7 "
54-64 ,
6-7 '
17
17
9
»3
12
18
7
2
19.4
41.80
37-7 ,^
7.06
40.9 „
10.89
70.5 ,^
54.57 „
^•9 0
293
41.56 11
39.2 I
6.93 ;^
41.8 I
42.4 ,
72.0 '5
54.46 "
7-^ ,
Mar. 10.3
41-28 \l
40.4 "
6.78 \i
10.70 *'
73-1 "
54-32 w
54-16 J
7.4 \
20.3
40.96 11
4^-2 !
6.61 '7
42.8 4
20
10.50 ^"
73-8 \
7-7 I
30.3
40.63 f
41.6 4
I
6.43 '«
^*^ 18
42.9 ,
10.29
21
74-1 3
2
53.99 ,J
2
7.9 ,
Apr. 9.2
40.30
41.5 .
6 ^'6
6.09
42.7 ,
42-2 I
10.08
73-9 .
53.82
8.1
_ T
19.2
39.99 ^
41. 1 t
9-88 ^°
73-4 f
53.66 ^
8.2 '
29.2
27
39-72 I
8
40-3 ,.
5-95 ^
41.5 '
9-70 «
72-5 '
53-52 4
8.3 ;
May 9.2
2 2
3950
39-1 '
5.84 "
5.76
40.5 ,,
9-55 f
69.6 '^
19
53.42 '°
8.4 '
19.1
39-35 ;
37.7 '*
17
^^ ^ 12
39-3 ,4
9-43 '^
53.35 \
«-4:
29.1
39.26
#
5.71 ,
36.3 „
9-35 ■
67.7 „
53.32
8.4
June 8.1
39.24 _
34-1 '^
5.70 '
9.31 ^
^5-5 "
53-33 '
8.4 °
18.0
39.29 _\
5-73 t
32.8
9-31 °
63.1 't
53.38 3
^•5 0
28.0
3942 'x
30.1 ^^
5-80 7
9-35 *
9-43
60.6^3
53.47 ,;
8-5 0
July 8.0
39-6^ :e
28.0 "
20
5.90'°
14
30.9 9
19
5«- :^6
53-59 ,6
«-5 :
i8.o
39.88
26.0
6.04
29.0 .
9-55 ,-
55.5 ,
53.75 ,„
8.6
27.9
40.20 ^^
^4-^ \l
6.21 ^7
^7-2 ;
970 '
53-0 ^^,
10
53.94,,
8.6 °
Aug. 6.9
40.58 ll
"•3 !
6-41 ^°
^5-5 I
9.89 '
50.7 ^
54-^^ !
8.6 °
16.9
41-01 2^
20.7 't
6-63 "
24.1 t
10.11 "
48-6 "
54.40 ,*
8.5
26.9
41.47^
19.2 '5
6-87 !*
22.9 ^^
10.36 ^5
46-8 '
54.67 '^
8-4 '
49
12
26
9
27
14
29
2
Sept. 5.8
41.96
18.0
7-13 ^«
22.0
^0-63 „
45.4
5496 ,„
8.2
15.8
42.48 5J
17.0 0
28
7.41 ,°
21.4
10.92 '
44.5 \
55-26 30
7-9 ^
25.8
43.02 ^4
16.2 *
7.70 ,'
21.2 ^
11.233^
44.1 ;
55.57 ,,
7-5 t
Oct. 5.7
43.58 ^^
15.7 ^
8.00 3°
21.5 ^
"•55^'
I
44.2 .
55-89 f.
7.0 ^
^•4 ^
15.7
^•^5 3^^
2
15.5 ]
8.30 3°
30
22.2 '
10
H.8732
32
44-«.'
56.22 33
34
25.7
44.71
15.6
8.60
^3-2 ^^
12.19 „
46.0
56-56
5.8 ,
Nov. 4.7
45.26 55
16.0 4
8.9030
24.6 ^4
"•50 3'
47-7 '^
56.89 33
5-» I
14.6
45.79 ^^
^^•7 Z
9'9 11
^^•4 '
12.80 30
49-8
57-21 3
4.4 I
24.6
46.28 ^^
9-45 *
28.4 "
13.08 '«
52.3 \\
57-52 3
57-80 ^«
3-7 ^
3-* c
Dec. 4.6
46.72 ^
19.0 ^i
9.69 '*
30.5 !'
13.32 ,*
55-0 ^7
38
16
21
22
31
29
25
5
14.6
47.10
20.6
9.90
32.7 _
13.53 ,,
57-9 ,„
58.05
2.6
24-5
47.42 I
"•4 'f
10.07 ';
35-0 ^^
13.69 f
60.93°
58.26 \\
58-42 '^
2.2 *
34.5
47.66 ^^
24.4 ''^
10.19 "
22
37.2
13-80 "
63-9 ^°
1.9 3
Sec <5, Tan rf
1.916 +1.635
1.022 -0.2 n
1. 142 -0.551
1.069
-K>.378
Mean Place
39'.768 2i".44
6».io8 39".42
lo'.ojo 66". 17
53*.444
o".62
D',^a, D«a
+0.04 ■K>.03
-0.0 1 0.00
-0,01 -0.01
+0.01
+0.01
Diff 6, Dm S
-O.I
+1.0
-O.I
+1.0
-0.1
+ 1.0
-0.1
+1.0
[Eph la]
348 APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
c^ Ganis Xaloris.
Mag. 3.1
Right
Asoe&aion.
Jan. 0.5
10.5
20.5
30.4
Feb. 9.4
19.4
29.4
Mar. 10.3
20.3
30.3
Apr. 9.2
19.2
29.2
May 9.2
19.1
29.1
June 8.1
18.1
28.0
July 8.0
18.0
27.9
Aug. 6.9
16.9
26.9
Sept. 5.8
15.8
25.8
Oct. 5.8
15.7
25.7
Nov. 4.7
14.6
24.6
Dec. 4.6
14.6
24.5
34-5
h
6
Sec fJ, Tan cT
Mean Place
59
■
22.05
22.14
22.18
22.17
22.11
9
4
I
6
II
22.00
21.86 '^
21.69
21.50
21.30
17
19
20
19
21. II
20.92 '^
20.75 ^^
20.61 ^^
20.50 "
20.43
20.40
20.41
20.45
20.53
20.65
20.8 1
21.00
21.21
21.45
3
I
4
8
12
16
19
21
24
26
Declina-
tion S.
y Ganis Xajeilg.
Mag. 4.x
Riglit
Asoension.
21.71
21.99
22.29
22.60 ^^
32
28
30
D'^ a, Dm a
22.92
23.23
23.54
23.83
24.11
2436
24.57
24.74
24.86
31
31
29
28
25
21
17
12
-2341
66.8
69.5
72.1
74-4
76.4
78.1
79.5
80.5
81. 1
81.4
81.3
80.8
79.9
78.8
77.3
75.6
71.4
69.1
66.7
64.4
62.1
59.9
58.0
56.4
55.2
54.4
54.0
54.1
54.8
27
26
23
20
17
X4
10
6
3
I
5
9
II
17
20
22
23
24
23
23
22
19
16
12
8
4
I
7
II
16
20
55.9
57.5
59-5 ,,
61.8 '^
f.A A 26
27
67.1
72.7 ^*
h m
6 59
s
47.62
47.72
47.77
47.77
47.72
10
5
o
5
9
47.63
47.50
47.35 ^^
47.18 \l
47.00
13
15
18
18
46.82
46.65
46.50
46.38
46.29
46.23
46.21
46.23
46.28
46.37
46.50
46.66
46.85
47.06
47.30
47.56
47.83
48.12
48.42
48.73
17
15
12
9
6
5
9
13
16
19
21
24
26
27
29
30
31
30
30
1.092 -0.439
20" .996 74".6o
-o.oi
-0.1
-0.01
+1.0
49.03
49.33 ^^
49.62 ^
49.89 \\
50.14 \l
50.36
50.53 ;
50.66 '3
Detdiaa-
tion S.
-1529
61.9
64.2
66.4
68.3
70.0
71.4
72.5
73.3
73.8
74.0
73.9
73.4
72.7
71.7
70.4
68.9
67.2
65.4
63.4
61.4
59.4
57.5
55-7
54.1
52.7
51.7
51. 1
50.9
51.1
51.7
52.8
54.2
56.0
58.1
60.4
62,8
65.3
67.7
23
22
19
X7
14
II
8
5
2
I
5
7
10
13
15
17
18
20
20
20
X9
18
16
14
10
6
2
2
6
XI
14
18
21
23
24
25
24
S Caais Xajotla.
Mag. 2.0
Right
Aaoension.
1.038 -0.277
46-.646 69".34
h xn
7 4
8
49.82
49.91
49.95
49.94
49.88
9
4
I
6
II
-0.01 0.00
-0.1 +1.0
[Eph it\
49.77
49.63
49.46
49.27
49.07
48.86
48.66
48.49
48.34
48.22
48.14
48.10
48.10
48.14
48.21
48.32
48.47
48.65
48.86
49.10
49.36
49.64
49.94
50.25
50.57
50.89
51.20
51.50
51.78
52.03
52.25
52.42
52.55
14
17
19
20
21
20
»7
15
12
8
4
o
4
7
II
15
18
21
24
26
28
30
31
32
32
31
30
28
25
22
17
13
Deeliaa-
iionS.
— 26 14
63 Aniign.
Mag. 5.1
Right
Ascension.
62.3
65.1
67.7
70.1
72.3
74.2
75.7
76.8
77.5
77.8
77^7
77^^
76.5
75.4
73.9
72.1
70.1
67.9
65.5
63.0
60.6
58.2
56.0
54.0
52.3
50.9
50.0
49.6
49-7
50.3
51.4
53.0
55.0
57.4
60.1
28
26
24
22
19
15
II
7
3
I
4
8
II
15
18
20
22
24
25
24
24
22
20
17
14
9
4
I
6
II
16
20
24
27
28
62.9
65.8 '9
68.7 ^9
1.115
48'. 740
-0-493
7o".38
h xn
7 s
s
37.59
37.75
37.85
37.89
37.87
16
10
4
2
8
37.79 ,^
37.66 '^
37.49 !!
37.29
37.08
20
21
20
36.88
36.68
36.51
36.37
36.27
36.22
36.22
36.26
36.35
36.48
36.66
36.88
37.14
37.43
37.74
20
17
14
10
5
o
4
9
13
18
22
26
29
31
34
36
37
-0.01
-o.x
-0.01
+1.0
38.08
38.44
38.81
39.20 ^9
39.60 4°
40
40.00
40
38
37
40.40
40.78
41.15
41.49 ^
41.79
42.05
42.25
30
26
20
Declina-
tion N.
+ 3927
59-4
60.4
61.5
62.6
63.8
64.9
65.9
66.7
67.4
67.9
68.1
68.0
67.7
67.2
66.5
65.7
64.8
63.8
62.7
61.7
60.6
59.5
58.5
57.5
56.6
55.7
54.9
54.1
53.4
52.9
52.5
52.2
52.1
52.1
52.3
52.8
53.5
54.4
10
II
II
12
IX
10
8
7
5
2
X
3
5
7
8
9
10
II
xo
II
II
xo
10
9
9
8
8
7
5
4
3
X
o
2
5
7
9
1.295 •K>.823
36V325 54"o8
40.02
-O.I
4O.02
+ X.O
APPARENT PLACES OF STARS, 1912.
349
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.5
10.5
20.5
30.4
Feb. 9.4
19.4
29.4
Mar. 10.3
20.3
30-3
Apr. 9.3
19.2
29.2
May 9.2
19.1
29.1
June 8.1
18.1
28.0
July 8.0
18.0
27.9
Aug. 6.9
16.9
26.9
Sept. 5.8
15.8
25.8
Ck:t. 5.8
15.7
25.7
Nov. 4.7
14.6
24.6
Dec. 4.6
14.6
24-5
34.5
Sec S, Tan cJ
Mean Place
61 Cteminonmi.
Mag. 5.3
Right
Aacansion.
h
7
m
8
S
20.12
20.26 ^^
20.35 9
20.38 ^
20.37 I
20.31
20.21
20.07
19.91
19.75
19.59
19.44
19.30
19.19
19.12
19.08
19.08
19.12
19.19
19.30
10
14
z6
16
16
15
14
II
7
4
o
4
7
II
15
18
30
19.45
19.63
^9.83 ._
20.06 f
26
20.32 ^g
20.60
20.89 ^^
21.19
30
21.50 ^'
21.82 ^^
33
22.15
22.47
22.79
23.09
23.37
32
32
30
38
25
23.62
23.84
24.00
32
16
Declina*
tlon N.
+ 16 18
38.7
38.2
37.8
37.6
37.5
37.5
37.6
37.8
38.0
38.2
38.4
38.6
38.8
39.0
39.2
39.4
39.6
39.9
40.1
40.4
40.7
40.9
41. 1
41.2
41.2
41. 1
40.9
40.5
40.0
39.3
38.6
37.7
36.8
35.9
35.0
34.1
33.4
32.8
5
4
2
I
o
I
2
3
2
2
2
2
3
3
3
2
3
3
3
3
2
2
I
o
I
2
4
5
7
7
9
9
9
9
9
7
6
y* Volaiitla.
Mag. 3.9
Right
Aacanaion.
h m
7 9
a
33.43
33.42
33.28 l^^
33.02
32.65
32.18
31.63
31.01
30.34
29.65
28.96
28.28
27.63
27.02
26.48
26.01
25.63
25.34
25.16
25.08
26
37
47
55
62
67
69
69
68
65
61
54
47
38
29
18
8
3
14
24
35
25.11
25.25
25.49
25.84
26.28 ^^
52
26.80
27.39
28.03
28.70
29.38
59
64
67
68
68
Declina-
tion S.
30.06
30.71
31.30
31.82 ^l
32.25
65
59
43
32
1.042 -10.293
I9«.i77 32".68
32.57
32.77
32.84
20
— 7020
71.6
75.3
78.9
82.3
85.4
88.2
90.5
92.4
93.7
94.5
94.8
94.6
93.8
92.5
90.8
88.6
86.1
83.2
80.1
76.9
73.6
70.3
67.2
64.3
61.8
59.7
58.1
57.1
56.8
57.1
58.1
59.7
61.9
64.6
67.8
71.3
74.9
78.7
37
36
34
31
28
23
19
13
8
3
2
8
13
17
22
25
29
31
32
33
33
31
29
25
21
16
10
3
3
10
16
22
27
32
35
36
38
86 H. Camti«p.
Mag. 5.1
Right
Aacanaion.
2.974 -2.801
29".785 82".i6
h
7
in
12
a
47.91
48.49
48.73
48.62
48.18
Declina-
tion N.
+ 8234
58
24
II
44
75
^743 ,^,
46.40 '°3
45.16"^
43.76 ^^^
42.27 *^^
151
40.76
39.29 *^7
37.92
36.70
35.69
137
132
lOI
78
34.91
34.40
34.16
34.21
34.54
35.15
36.02
37.14
38.49
40.04
51
24
5
33
61
87
112
135
155
172
41.76
43.62
45-59 ,^,
209
186
197
49.73
51.82
53.86
55.81
57.62
59.24
60.62
61.73
62.53
209
204
>95
181
162
138
III
80
66.5
69.5
72.6
75.6
78.5
81. 1
83.3
85.1
86.4
87.1
87.2
86.8
85.8
84.3
82.3
80.0
77.4
74.5
71.5
68.4
65.4
62.4
59.6
57.0
54.7
52.7
51.0
49.7
48.9
48.5
48.6
49.1
50.1
51.6
53.6
55.9
58.5
61.4
30
31
30
39
26
22
18
13
7
I
4
ID
15
20
23
26
29
30
31
30
30
38
36
23
30
17
13
8
4
I
5
10
15
30
23
26
29
X OeminonmL.
Mag. 3.6
Right
Aacension.
7750
38M54
+7.685
6i".82
h m
7 13
a
3.17
3.31
3.40
3.44
3.43
3.38
3.28
3.15
3.00
2.84
2.68
2.52
2.38
2.27
2.19
2.15
2.14
2.17
2.24
2.35
2.49
2.66
2.86
3.09
3.34
3.61
390
4.21
4.52
4.84
5.17
5-50
5.82
6.12
6.41
6.66
6.88
7.06
14
9
4
I
5
10
13
15
16
16
16
14
II
8
4
I
3
7
II
14
17
20
23
25
27
29
31
31
32
33
33
32
30
29
25
22
18
Deelina<
tkm N.
+ 16 41
65.4
64.9
64.6
64.4
64.3
64.3
64.4
64.6
64.8
65.0
65.2
65.4
65.6
65.8
66.0
66.2
66.5
66.7
66.9
67,1
67.3
67.5
67.7
67.8
67.7
67.6
67.3
66.9
66.4
65.7
5
3
2
I
o
I
2
2
2
3
3
3
2
2
3
3
I
I
I
3
4
5
7
8
64.9
64.0
63.1
9
9
62.1 ^^
61.2
60.4
59.6
59.0
9
8
8
6
1.044 -K>.300
3*.320 59".49
40.0I
-0.1
40.0I
•fl.O
-0.07
-O.I
-0.06
+1.0
[Eph xa]
•K).I9
-0.1
+0.16
+1.0
+0.0 1
-0.1
+0.01
40.9
350
APPARENT PLACES OF STARS, 1912
FOR THE UPPER TRANSIT AT WASHINGTON.
Tt ArgtiB.
d Qemlnoniiii.
<^ Volantls.
t Oeminorum.
Mean Solar
Mag. 2.7
Mag. 3.5
Mag. 4.0
Mag. 3.9
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion N.
h ]
n
Q t
h m
e '
h m
•
h m
•
7 I
4
-3655
90
7 14
+ 22 8
ft
7 16
-6747
7 20
+2758
90
Jan. 0.5
s
3.34
^x
71.9 ,.
8
53.14 ,,
48.2
■
56.19
39.0 38
42.6 36
I6!85
17.01 J
30.8
10.5
3-43
9
75.1 11
5329 '„
48.1 '
56.22 •*
31.0
20.5
3.46
3
78.2 3'
53.39 '°
48.1 °
56.13 '
17.12 "
31.3 ^
30.4
3-44
2
0
81. 1 ="9
83.7 '^
23
53.44 ,
48.2 '
55.93 ,„
46.1 35
17.17 5
31.8 5
Feb. 9.4
336
8
13
53.43 g
48.4;
5563 ^°
40
49-3 fa
17.17 I
32.3 I
19.4
3-23
86.0
53.37 ,„
48.7 ^
55-23 ^,
52-1 ,^
17.11
32.9 g
33.5 ^
29.4
3.06
17
»7-9 !!
53.27 °
49.1 ^
54.76 47
54-5 '*
17.01 '°
Mar. 10.3
2.86
20
^9-3 ^
53.14 \l
49.4 ^
54.23 11
5^-5 ^°
16.87 ;4
16.71 "*
34.1 ^
20.3
2.63
23
90.3'^
90.9
52.99 '
49.8 *
53.06^
57-9 '4
34.6 5
30.3
2.39
24
52.82 '7
50.1 3
58.8 9
16.54 'I
35.0 ^
24
I
17
2
61
4
18
2
Apr. 9.3
2.15
/% ^
91.0
52.49 ^
50.3
51.85 J?
59.2 ,
16.36
35.2
19.2
1.92
23
90.6 J
50.5 ,
59.1 '
16.19 ]i
35-4 .
29.2
1.70
22
89.8 *
52.35 ;
50.6
51.27 ll
58.4 ^l
16.04 ^
35.4 °
May 9.2
I-5I
19
88.6 "
87.0 ;«
52.23
50.7 „
50.74 "
50.26 48
57-2 6
55-6 'f
15.92 "
35.3 '
19.1
1.36
15
52.15 :
50.7 °
15.83 '
35.1
12
»9
4
I
4«
21
5
2
29.1
1.24
0
851 „
52.11
50.6
49.85 ,^
53.5 „
15.78 ,
34.9 ,
June 8.1
1. 16
0
82-9 "
52.10 '
50.6°
49.51 ;»♦
5»o'«
15.76 \
34-6 I
18.1
1. 12
4
80.4 "5
52.13 I
52.21 »
50.5 '
49.26 »5
48.2 *8
4 T
15.79 :
34.2 4
28.0
1.13
I
77-7 J
74-9 11
50.4 ,
49.09 ;
45.1 ^
15.86 7
33.8 4
July 8.0
1. 18
5
0
52.32
14
50.3 ,
49.02 '
3
41.9 ^
33
15.97 "
15
33.3 j
18.0
1.27
^
72- 1 „
52.46 -
50.2
49.04 ,,
38.6 ,^
16.12
32.8
28.0
1.40
13
66.8 ^^'^
52.64 '»
50.1 '
49.16 "
35.4 ^
16.30 «»
32.3 f
Aug. 6.9
1.58
18
52.85 "
49.9 ,
49.38 "
32.2 3^
'^•51 "
31.8 3
16.9
1.79
21
64.4 ^4
53.08 ^3
2
49.7 ;!
49.68 f
29.3 ::
16.75 't
31.3 i
26.9
2.03
24
27
62.4 ='°
«7
26
53.34 ,8
49.4 ^
50.07 39
26.8 »s
22
17.01 ^^
29
6
30.7 ^
Sept. 5.8
2.30
60.7
53.62
490 ^
50.53 „
^4-^ 16
23.0 ;°
17.30 ,^
30.1
15-8
2.60
30
59.5 "
53.92 3
48.6 4
51.05 ^,
17.61 3
294 1
25.8
2.92
32
58.9 ^
54.23 3'
48.1 5
51.62 57
52.23 *'
21.9 "
17.9433
28.7 J
Oct. 5.8
3.25
33
58.8
54.55 ^,
47.5 !
21.5 *
18.28 34
28.0 7
15.7
3-59
34
35
59-3 ^
II
5489 ^^
34
46.8 J
21,8 3
9
18.63 35
35
27.3 J
257
3.94
60.4
55.23 _
46.0
53-47 „
22.7
18.98
26.5
Nov. 4.7
4.28
34
62.0 ^^
55.57 „
45.3 I
54.06 59
^^•^ 11
19.34 ;^
25.8 7
147
4.60
32
^4-^ 'I
55.90 33
44.5 !
54.61 "
^^•4 !!
19.69 35
25.2 °
24.6
4.90
30
66.8 ^^
56.22 3*
43.8 I
55.10 *9
29.1 ^7
20.03
247 ^
Dec. 4.6
5.17
27
69.7 l^
56.52 3«
43.1 :
55-51 4
32.2 ^^
20.34 '^o
24.2 ^
23
31
26
5
32 341
28
2
14.6
540
m 0
72-8 „
56.78
42.6
55.83 ,,
35.6
20.62
24.0
24.5
5.58
18
76.0 11
57.00 "
42.2 ^
56.04 "
39.3 ^:
20.86 ^4
23.9 '
34.5
571
13
79.3 ^^
5719 ^
41.9 ^
56.14'°! 43.1^'
21.06 ^°
0
23.9
Sec <J, Tan 6
1.251 -0.752
1.080 40.407
2.646 -2.450
1. 132 40.531
Mean Place
2«.o86 8i".05
52-.I53 42".65
53*o55 46".3i
I5-.786 25".69
iy^a,D«,a
-0.02 -0.02
-K>.OI 40.01
-0.06 -0.05
40.01 40.0I
T)^<J,Di,<J
-0.1
40.9 1
-0.1
40.9 1
-0.1
40.9 1
-0.1
40.9
[Bph la]
APPARENT PLACES OP 8TAES, 1912
351
FOR THE UPPER TRANSIT AT WASHINGTON.
rj Canls Xajoris.
Oroombildge. 1808.
y^ Canis Xinoils. |
p Oemlnonuii.
Mean Solar
Mag. 2.4
Mag. 5.8
Mag.
31
Mag. 4.2
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina
1
Ascenaion.
tions.
Ascension.
tion N.
Ascension.
nation N.
Ascension.
tionN
1
h m
e >
h m
0 #
h m
0 1
h m
0
»
7 20
-29 7
7 21
+6838
7 22
+ 828
7 23
+3157
Jan. 0.5
8
37-98
42-1 ,„
s
47-33 ,„
52-0 ,c
s
23.67
8.8
8
28.32
WW
42.5
10.5
38.09 "
38.15 I
«-^ '«
47.63 ^°
54-5 5,
23.81 4
7-7 „
28-49 ^
43.0
5
20.5
47.80 '7
57-0 1
59-6 ^
23.91 '
6.8 9
28-61 "
43.5
5
30.4
38.15 °
47.85 f
23.96 \
^•^ «
28.67 „
44.2
7
0
Feb. 9.4
38.10 5
52-9 't
4776 '
62.1 ='5
23.95 \
5-5 !
28.67 °
45.0
8
10
21
20
23
5
4
6
8
19.4
38.00
55.0 ^^
47-56
64.4 , ,
23.90
5-1 ,
28.61
45.8
0
29.4
37.86 \\
56.7 ^,
47-26 30
66-5 ''
^3-8i ,1
4-9 ,
28.51 ;°
46.6
8
Mar. 10.3
37-69 ,;
5S-^ 0
46.88 38
68.2 '7
23.69 "^
4.8 '
28-37 \\
47.4
8
20.3
37-49 Z
59.0 ^^
45-95 :„
69-4 "
70.2 ;
23.54 '^
23.38 ^
4-8 °
28.20 '7
48.0
0
30.3
37.28 "
59.5 ^
4-9 \
28.02 ^\
48.4
4
20
I
so
3
16
2
18
3
Apr. 9.3
37-08
59-6
^•97 1!
70.5 ,
23.22
5-* ,
27-84 ,«
48.7
19.2
36.88 ="»
59-3 ,
70.3 ,
23.07 ^
5-4 3
27.66 8
48.9
2
29.2
36.69 '9
58.6 \
^•53!^
69.6 7
22.94 3
5-7 i
2750 ?
48.9
0
May 9.2
36.52 \\
57-5 "
44-14 ^;
68.5
22.83 "
6.1 4
27-37 3
48.7
2
19.1
36.39 ,i
56-^ \X
43-82 3^
67-0 3
22.74 !
6.6 5
27-27 '°
48.4
3
10
18
23
19
5
5
6
4
29.1
36.29
36.23
54-3 ,^
43-59 ,,
*^5-i „
22.69
7-^ A
8-3 ;
27.21
48.0
Jtme 8.1
43-46 '3
63-0
22.67 *
27.19 ^
47.5
5
18.1
36.21
50.1 "
43-42 *
43.4.8 ,^
43.64 ^^
60.7*3
22.69 ^
22.75 ^
27.22 3
46.9
0
28.0
36.23
47-7 \\
9.0 7
27.29 7
46.3
0
July 8.0
36.28 5
9
45.2 '5
25
22.84 ^
13
9-7 J
27.40
15
45.6
7
7
18.0
36.37 ,,
42-7 ,.
*^-*^ 35
44-24 3^
"•° j6
22.97 .
10.4
^7-73 Z
44.9
8
28.0
36.50 3
36.66 '*
40-2 \\
5°-4 '!
23.31 \\
II.O "
11.6 ^
44.1
Aug. 6.9
37-9 ^
44-67 t?
48.0 ^''^
22
27.95 ,,
43.4
7
Q
16.9
36.86 ^°
35-8 '
45.18 5'
45-7 '^
23.52 ^
12.0 4
28.20 ^5
42.6
0
0
26.9
37.09 \l
33-9
15
45.75 %
43-6 *'
19
23.75 ^\
12.3 3
28.47 '^
30
41.8
8
8
Sept. 5.8
37-35 -8
3^-^ 10
+6-38 ,
47-07 f!
^'•7 ,6
24.00
27
12.4
28.77 _^
41.0
8
15.8
31.4 '°
4°-^ !
24-27 ,„
12.3 ,
29.09 3^
40.2
25.8
37-93 r.
30.9 ^
47.80 73
48.56
49-34 ,
38-7 ^
24-56 'I
12.0 3
29.43 ,:
39.5
7
0
Oct. 5.8
38-24 5
30-9 ,
37-7 '°
37- » !
24.86 30
IT
"1 5
29.78 35
30.14 3^
38.7
0
8
15.7
38.56 3^
31-4 ,i
25-17 3'
10.8 7
37-9
33
10
79
2
32
9
37
7
25.7
38.89 „
324 ,-
5°-* 3 ,„
36.9 ^
25-49 „
9-9 „
30-51 „
37.2
6
Nov. 4.7
39-21 3^
34-0 '^
50.91 !!
37.0 '
25.8t f
8.8"
30-88 37
36.6
14.7
39.52 ^
36.0 ^°
51.66 75
37.5 _
26.12 3'
7-6 !!
31.24^,^
36.1
5
24.6
39.82 3°
38-4 :*
52-37 !!
3»-5 °
26.42 3°
^<\
31.59^^
35.7
4
Dec. 4.6
40.09 ^7
41.1 7
53-03 1«
39.9 ::
26.70 **
5-0 3
31.92 33
35.4
3
23
29
58
17
25
13
30
0
14.6
40.32
440 _
53.61
4^-6
26.95 _
3-7 .,
32.22
35.4
24-5
4°-5i :!
47-0 3«
54.09 1.,
43.6 ^
27.16 "
27-34 '^
^<\
32.47 w
35.5
I
34.5
40.65 '4
50.1 3«
54.46 37
45.9 '^
1-3"
32.68 ^^
35.8
3
Sec <f, Tan 6
1.X45 -0.557
2.747 +2.558
I.OII
-fO.149
1. 179
+0.624
Mean Place
36».902 5 1 ".07
44M34 48".2i
22».772
2".47
27'X99 37". 78
D'^ rt, D« a
-0.0 1 -0.0 1
+0.06 -K).o6
0.00
0.00
40.02 +0.01
D^ d, Dm 6
-0.1 40.9
-0. 1 -K).9
-0.1
+0.9
-0. 1 +0.9
[Eph xaj
352
APPARENT PLACES OF STABS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
(S Axgds.
a' Ctenlaonun.
M XonooerottB.
or Canis Xlaoils.
Mean Solar
Mag. 3.3
Mag. 2.0
Mag. 5.2
Mag. 0.5
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Daelina-
Ascension.
tions.
Ascension.
tion N.
Ascension.
tions.
Ascension.
ttooN.
h m
0 t
h m
0 *
h m
0
h m
. t
7 26
-43 6
ft
7 28
+ 32 4
7 32
-3 54
7 34
+ 526
Jan. 0.5
s
27.66
71.8
s
60.36
62.0
8
55-03 _
42.3 ,„
s
42.60
694 , ,
10.5
27.76 ^°
75.2 ^*
60.54 ^
62.4 \
55-17 '^
44-1 !
42.75 ,^
68.1 *3
20.5
27.80 4
78.6 34
60.66 "
60.72 ^
63.0 J
55-26 9
45.8
42.8s '°
67.0 ■ '
30.5
27.77 \
81.73'
e ^^ ^^
63-7 \
55-30 ;
47.3 \\
42.90 3 |66.i '
Feb. 9.4
27.68 ^
14
84.6 *9
25
60.72 °
5
64-5 1
55.30 ^
48.5"
lO
42.90 °
65.4 \
19.4
27-54 ,„
87.1 ,,
60.67
65.3 „
5525 ^
49.5 „
50.3 \
50.9 ;
42.86
64.8
29.4
27-36 '!
89.2 "
60.57 1°
66.1 *
55.16 9
42.77 '
64.4 \
Mar. 10.3
27.14
90.9.;
60.44 ^
60.28 'f
66.8 7
55 04 "
42-65 !
64.2 \
20.3
26.89 ^
92.2 ^
93.0 ^
67.4 J
54.90 \
54-74 :^
51.3 ;
42.51 4
64.1 '
30.3
26.62 *7
27
60.10 '^
19
67.9 5
51.4 \
42.36 ;^
64.1 *»
Apr. 9.3
26.35 „
93-3 -
59.73 !
59.57 t
68.3 ,
54-58
5442 ,^
51.3 ,
42.20
42.04 ^
64.2
19.2
26.08 '7
93-1
68.5^
51.0 3
64.5 \
29.2
25-83 'f
92.4 ,;
68.5^
54-28 4
50.5 \
49-9 g
49.1
10
41.90 *
64.9 1
May 9.2
=^5-6^ Z
91.3 ,,
59.44 ,^
68.3 \
54-'6 "
41.78 "
65.3 t
19.2
25-42 ,^
89.8 '5
19
59.34 '^
68.0 3
4
54-06 '°
41.69 \
65.8 \
29.1
25.26
87-9 ,,
59.27 ^
67.6
54.00
48.1 „
41.63 ,
66.4
June 8.1
25.15 "
85-6 ^3
59.25 ^
67.1 5
53-97 3
47.0
41.61 \
67.1 '
18.1
25.08 '
^•3 !
59.27 .
66.5 ;
53.97 .
45-8 "
41.62 '
678 7
68.6 '
69.4 *
28.0
25.05 \
59.33 „
65.8 I
.5401 *
44-5 '
41.67 8
41.75
II
July 8.0
25-07 y
77-4 Z
29
59.44 ,^
65.1 7
7
54.08 ^7
43-2 '3
13
18.0
25-14 „
74-5 ,^
59.76 ';
w
64.4 «
63.6 ;
54.19 , .
41.9 „
41.86 70.2
. 28.0
25-26 "
7^-^28
54.33 :^
40.6 3
42.00 4
70.9 \
71.S \
Aug. 6.9
25-*^ 0
68.8 ^f
66.2 ^^
59.97 ,,
62.8 \
54.49 ,„
39-4 "
42.17 ,;
16.9
25.62 ^°
60.21 ^^
62.0 2
54.68 ^9
38.4 'g
42.37 z
72.0 \
26.9
25.86 ^*
^40 "
60.48 ^7
61.2 f
54.89 ''
37-6 »
4259 "
72.4 ,
28
19
29
8
24
6
24
2
Sept. 5.9
26.14
62.1
^•77 ,,
60.4
55.13 ,6
55.39 ,„
37.0
42.83 ^g
43.09 .„
72.6
15.8
26.45 ^'
60.7 ';j
61.09 ^
59.5 ;
36.7 3
72.6 "
25.8
26.78 33
59.8 \
61.42 33
58.6 1
5567 ^;
36.7 \
43.37 ,„ 1 72.3 i
Oct. 5.8
27.13 ^^
59.6 '
61.77 35
57.8 \
55.96 z
37.0 3
43.67 ^°
71.7 °
7°-9 ,„
15.7
27.50 37
60.0 ^
62.13 1
57.0 *
56.26 30
37.7 ,!
43.98 ^
37
9
37
8
31
10
3>
10
25.7
27.87 ,,
^•9 ,,
62.50
56.2
56.57 ,,
38.7 „
44.29, ,169.9
Nov. 4.7
28.23 36
62.5 ^
62.87 ^^
55.5 ^
56.88 3'
40.0 *3
44.60 3 68.7:^
14.7
28.58 35
^^•^ 6
63.24 37
6
54.9 .
57.18 3°
41-5 5
44.91 3
673 t
24.6
28.91 33
^7-^ 0
63.59 ^;
54.5 ^
57.48 30
43-2 I
45-21 I
65.8 '5
Dec. 4.6
29.20 ^^
25
70.2 30
33
63,92 33
30
54.2 3
57.76 '*
25
45-^ ''
20
45.49 ,, ^ 64.3 ,1
14.6
^9-45 ,^
73-5 ,,
64.22
54.1 ,
58.01
47.1 ,„
45-75, ,62.7
24.6
29.65 Z
76.9 ^t
64.48 ^f
54.2
58.22 '
49-° Z
45.97 " 61.2 5
34-5
29.79 ^
80.4 35
64.69 ^'
54.5 ^
58-39 '^
51.0 '"
46.14 '7 59.8 *4
Sec ^, Tan 6
1.370 -0,936
1. 180 -(0.627
X.0O2 ~o.o68
1.005 +0.095
Mean Place
26*.29X
82".04
-Cf.02
59'-236
57".49
54M54 49" -49
4i'.765 63".85
D'l;, u, Dm a
-0.02
■fO,02
+0.02
0.00 0.00
0.00 0.00
D^ i\ Dm i
-0.1
+0.9
-0.2
40.9
-0.2
•10.9
-o.a
40.9
[Sph xa]
APPARENT PLACES OP STAES, 1912,
358
FOR THE UPPER TRANSIT AT WASHINGTON.
84 Lynds.
#r Oemlnomm.
/3 Oeminomm.
4 PnpplB.
Mean Solar
Mag. 5.0
Mag. 3.7
Mag. 1.2
Mag. 5.1
Date.
Right
Declina-
Right
Decllna^
Right
Dmdtaia-
Right
Declina-
Aacenaion.
tion N.
Ascenaion.
tionN.
Ascenaion.
tionN.
Aacenaion.
tions.
h m
0 t
h m
•
h m
• t
h m
0 *
7 35
+5854
0
7 39
+ 2436
If
7 39
+ 2814
7 41
— 1420
Jan. 0.5
a
36.25 ,<
36.51 %
36.69 '!
36.77 ,
9-43 ,,
39.6
57-04 ,„
26.6
54.63 ,,
49-2
10.5
67.2 '9
39.5 '
57-23 ,'
26.7 '
54-77 z
51-5 l\
20.5
69-3 "
9-56 '3
39.6 I
57-36 '3
27.0 3
54-87 '°
53-8 '3
30.5
71.5 "
9-63 ,
39.8 I
57-43 ;
27.4 *
28.0 °
54-91 ♦
57.7 .,
Feb. 9.4
36.76 *
73-6 "
965 I
40.2 ^
57-44
54-91 «
10
21
4
4
3
6
5
*5
19.4
36.66
36.48 \\
75-7 ,„
9.61
40.6
41.2 J
57-41 „
28.6
54-86
59-2
29.4
79-2 ,,
9-52 9
57-32 9
29.3 I
29.9 !
30.5 °
54.76 °
^•5 J
Mar. 10.4
36.24 \l
940 "
41.7 ;
57-20 "
54.63 ^
61.5 "
20.3
35-95 '
80.4 "
9.26 4
42.2 5
57-05 ^
54.48 3
62.2 '
30.3
35.63 ^'
81.3 9
9-10 t
42.6 1
56.88 7
31.0 3
54.31 7
62.6 4
33
5
17
3
18
4
17
I
Apr. 9.3
35-30 „
81.8
8-93 „
42.9 .
56.70
31.4 ,
54-14 ,,
53-98 \t
53-82 ^
62.7
19.2
34-98 3»
81.8 °
8.76 \l
43.2 t
56.53 \l
56.37 t
31-7 t
62.5 '
29.2
34-68 «
3442 °
81.4 4
8.61 '5
43.4 ,
31.8 '
62.0 3
May 9.2
80.7 J
8.48 |3
43.5 '
56.24 3
31.8 t
53-68 4
61.2 '
19.2
22
34-20 ^^
79.6 "
14
8.38 -
43.4^
S6.14 '^
31-7 I
53.57 8
60.2"
13
29.1
34-04 „
78-2 ,,
8-32 ,
43.4 ^
56.07 ,
31-5 ,
53-49 .
59.0 ^^
June 8.1
33.95 ;
76-5 \l
8-30 '
43.2
56.04 3
31.2 3
53-44 ,
56.0 f
18.1
33.93 ,
74-6 9
8.31 '
43.0 ^
56.05 '
30.8 4
53-43 '
28.1
33-98 5
72-5 "
8.36 5
42.7 ;
56.10 5
30.3 f
53-45 ,
54-3 J
July 8.0
34-09,8
22
8.45 '
13
42.4^
56.19 9
13
29.8 5
5
53.50 3
18.0
3+*7 ,^
68.2
^•57 ,,
42.1
56.47 f
29-3 ft
28.7 I
53.59 „
5°-6 ts
48.8 ;
28.0
34-51 ^
66.0 "
8-73 *
41.7 ^
53-71 "
Aug. 6.9
34-81 ?°
63.8 "
8.92 9
41.3 ;
56.66 '9
28.0 7
54-04 '
47.1 ^
16.9
35-16 35
61.7 "
9-13 "
40.8 5
56.88 "
27.3 I
45-6 5
26.9
«> Z
-^ L 20
59-7 ,8
9.37 ^*
40.3 I
57-13 11
26.6 7
8
21
54.25
23
44.3 '3
10
Sept. 5.9
^^'^^ An
SI '6
5°-3 - .
9.64
39.7 ,
57-41 ,0
25.8 ^
25.0 ^
24.2 I
54.48
43.3 ,
42.7 ;
15.8
36.50 ^9
9-93 J
39.0 ;
38.2 ;
57-71 30
54.73 I'
25.8
37.02 f ^
54-9 t
^°-24 :'
58.02 3;
55.00 7
42.4 ;
Oct. 5.8
37.56 54
53-7 "
10.56 3'
37.4 1
58.35 ^^
23.3 ;
55.29 .;
42.5 I
15.8
38.12 5^
52.8 9
10.90 ^^
36.5 ^
58.69 ^t
22.4 9
55.59 ,,
57
6
35
9
35
9
3X
10
25.7
38.69 .
52.2
"-25 ^,
35.6
59-04
59-40 3°
59.76 36
^^•5 „
55.90
44-^ ,A
Nov. 4.7
39.27 :"
51.9 ,
11.60^5
34.7 ;
20.6 ^
19.8 ;
56.22 3^
45.5 t
14.7
39.84 11
52.0 *
11.94^^
33.8 1
56.53 ^'
^^-^^ 11
24.6
40.38 5;^
52.5 f
12.28 ^^
33.0 ^
60.11 35
19.1 1
57." vt
49-2 ^^
Dec. 4.6
40.88 5^
53.4 ^
12.60 ^^
32.3 1
60.43 ^'
18.6 5
5^-4 "
46
II
29
^ ^ 6
30
4
25
24
14.6
41.34 _
54.5 ,,
12.89 _
31-7 ^
60.73 ,.
60.99'!
18.2
57.36 ,^
53.8 ,.
24.6
41.73 ^,
56.0 ^5
13.14 ^
31.2 5
18.0 ^
57-57 "
56.3 '^
34.5
42.04 3^
57.8 '«
21
13.35
31.0 ^
61.21 "
18.0 °
57.74 ^
58.8 ='5
Sec (J, Tan 6
1.937 +1.659
1. 100 +0.458
1. 135 ■«>.537
1.032 -0.256
Mean Place
34».io8 62 ".4^
8».242 35".07
S5*-990 22".30
53'.745 57".43
D V ^f l^w ^
40.04 ■♦0.04
-K>.OI 40.0I
40.0I 40.03
-o.oi -0.0 1
1)^6,1)^6
-0.2 •♦0.9
-0.2 40.9
-as ^0.9
-0.2 40.9
19x2
I 23
[
Bph u]
354
APPARENT PLACES OP STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
S Axgds.
(ff Qemlnonun.
26 Lyncis.
Gioombridge 1874.
Mean Solar
Mag. 3.5
Mag. 5.0
Mag. 5.7
Mag. 5.6
Date.
Right
Declina-
Right
Declina- {
Right
Declina- |
Right
Declina-
•
Ascension.
tion S.
Ascension.
tion^
r.
Ascension.
tion >
r.
Ascension.
tion N.
h m
•
h m
•
»
h m
•
t
h m
0
7 45
-2438
If
7 48
+ 2659
ff
7 48
_ •
+4747
ff
7 49
+74 9
Jan. 0.5
36.55 ,.
8.5
7*88
43.9
s
20.16
39-6
a
45-55 ,,
'7-4 ^^
10.5
36-69 '*
"•+«
«°7 !
43.9
0
20.40 ^^
40.8
[2
46.01 46
20
20.0
20.5
36.78 I
^4-» a6
8.21 '4
44.1
2
20.57 '7
42.2 '
^4
46-30 '9
22.7 ^7
30.5
36.82 *
16.7 ^'^
8-29 !
44-5
4
20.66 9
43.8 1
[O
46.42 "
28.2 **
Feb. 9.4
36.80 *
^9-0 ^f
8.32 3
45.0
5
20.68 ^
45.5 \
^7
4638 !•
7
20
3
6
4
[6
20
27
19.4
36.73 „
21.0
8-29 „
45-6
6
20.64
47.1 ,
46.18
30-9 „
29.4
36.62 "
22.7 \l
8.21 *
46.2
20.53 "
48.6 '
^5
45-83 f.
33-3 '*
Mar. 10.4
36.48 ^
^^•' 0
8.10"
46.8
0
6
^^•37 Z,
50.0 ^
^4
45-36 ^7
20
35-3 ,,
20.3
36.31 \l
25.1 '°
7-96 ;*
47.4
20.17
0 '9
51.2 ^
[2
44-79 ^J
36.9 ^
30.3
36.12 '9
'9
25.8 7
7.79 .;
47-9
5
4
19.94
J4
52.1
9
6
38-» 6
Apr. 9.3
35.93 ,8
35-75 ,«
35-57 \Z
35.41 t
26.0
7.62
48.3
^%
19.70 ,^
52.7
^»
'^348 ,,
42.18 ^4
38.7 ,
19.2
25.9 '
7.45 ^
48.6
3
19.46 ^^
52.9
2
38.8 '
29.2
25-4 I
24.6 ,!
730 5
48.8
2
'9-'4 0
52.8
I
38-4 ,0
May 9.2
7.17 w
48.9
I
1905 '
18.89 !
52.4
4
41.59 *;
37-4 ^
19.2
35.28 3
=^3-4 "
7.06"
48.8
I
51.7
7
41.09 5°
36-0 X
10
«4
7
2
II
9
40
18
29.1
35-18
22.0
6-99 -
48.6
^\
18.78
18.72 ;
50.8
r V
40.69
34.2
June 8.1
35-11 ;
^'^^ I
6.96 3
48.4
2
49.7 \
I I
40.39 f°
32.1
18.1
35.07 *
18.4 ''
6.96 °
48.1
3
18.70 \
48.3
^4
40.21 '«
29.7 4
28.1
35-07 °
16.3 "
7.00 \
47.7
4
18.74 ;^
46.8 '
15
[6
40.17 *
27-0 ,;
July 8.0
35." :
22
7°8.!
47.3
4
18.83 '
45.2 J
40.25 ,
^4-=^ !J
8
23
13
5
«4
'7
21
J9
18.0
35-19
11.8
7-20
46.8
^
18.97 a
43.5 ,
40.46
21.3
28.0
II
35.30 "
9.5^^
7-35 ^
46.2
6
'9-15 ;
41.8 ^
C7
40.80 34
^8-4 :|
Aug. 6.9
35-44 ,:
7-^ 20
7-53 '
45.6
6
«9-38 ^3
40.1 ^
17
41.26 46
15-6 *'
16.9
35-61 7
5-4 °
7-74 \\
45.0
0
19-65 'J
38.4;
17
4^-82 f^
"•9 Z
26.9
35-81 ^°
3.7'^
14
7-98 :^
44.3
7
8
19-96 3'
34
36.7 J
17
[6
4^'^^ 76
10.3 ="*
24
Sept. 5.9
36.30 ^J
2.3
^•="4 ,„
43.5
8
20.30
351 ,
B ^
4324 g^
7-9,,
15.8
1.3'°
8.53 ^'
42.7
20.67 ^^
33-6
f5
44.07 °^
5-8 «
25.8
36.58 ^l
0.8 5
884 ^
41.8
9
21.07 Z
32.2
14
44.97 !?
4-° !
Oct. 5.8
36.88 3°
°-7 '
9.17 ^^
40.8
10
21.49*^
31.0 ^
[2
45.93 ^^
2.6 '4
15.8
37.19 l\
I.I ^
9.51 34
39.8
10
21.9344
29.9 '
tl
46.93
^•5"
32
9
35
10
45
8
102
6
25.7
37-51 „
2.0
9-S6 ,^
38.8
^^•38 -
29.1
^
47-95 ,_
0-9 ,
Nov. 4.7
37.84 \\
3-4 ::!
10.22 36
37.9
9
22.84 It
28.5
0
48.97 . _
0.7 !
14.7
38.16 3^
5-3 '
10.58 36
37.0
9
0
23.29 45
28.2
3
A^ ^m, 100
49.97 _g
I.O 3
24.6
38.47 ^;;
7-5 "
10.92 34
36.2
8
23-73 ^*
28.1
I
5093 _
^•7.^
Dec. 4.6
38.76 '9
25
10. 1 ^^
27
11.25 '^^
30
35.5
7
S
^^•'5 s
28.3
2
5
5'«3 1:
/. « 12
"•9 16
14.6
39.01
12.8
^^•55 _
35.0
24-53 ,,
28.8
A
52.63 .«
4.5
24.6
21
39.22
^5-7 11
11.82^7
34.7
3
24-87 ^J
29.6
8
68
53.31 ^^
#; e 20
6.5
34-5
39-39 ^
18.6 "9
12.05 ^3
34-6
I
25.15 *'
30.7
1 1
53.86 55
8.8^3
Sec <5, Tan (5
1. 100 -0.459
1. 122 40.509
1.489 -fl.IO
3
3.663 43.524
Mean Place
35'-596 I7".96
6-.852 39".8s
)
I8V626 37".io
41-.065 I5".95
DV «i D« <*
-O.OI -O.OI
+0.01 -K>.03
40.03 +0.03
40.08 40.II
D^<', D»((
-0.2
40.9
-0.2
fo.9
-0.2
40.9
-0.2
40.9
[Bph la]
APPARENT PLACES OF STARS, 1912.
355
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
;t Axgds.
Mag. 3.6
Right
Ascension.
Jan. 0.6
10.5
20.5
305
Feb. 9.4
19.4
29.4
Mar. 1 0.4
20.3
30.3
Apr. 9.3
19.3
29.2
May 9.2
19.2
29.1
June 8.1
18.1
28.1
July 8.0
18.0
28.0
Aug. 7.0
16.9
26.9
Sept. 5.9
15.8
25.8
Oct. 5.8
15.8
25.7
Nov. 4.7
14.7
24.7
Dec. 4.6
14.6
24.6
34.5
h m
7 54
Sec <y. Tan <J
Mean Place
IVi^ a, Dm a
D,^<J, D«(5
8
34.08
34-22
34.28
34.27
34.18
34.03
33.82
33-56
33.26
32.94
32.61
32.27
31.94
31.64
31.37
31.13
30.94
30.79
30.69
30.65
6
I
9
15
21
26
30
32
33
34
33
30
27
24
19
15
10
4
I
30.66
30.73 ^
30.86 II
31.04^!
31.27 J
3^-55 ,,
31.87 II
32.23 ^°
32.62 ^^
33.04 II
33-90 *•*
34-32 1^
34-71 '
35.06 35
35-37 „
35-80 '«
Declina-
tion S.
"■5244
33.1
36.8 37
40.5 37
35
33
30
27
22
17
13
8
3
3
8
12
16
21
24
27
29
31
31
30
28
26
22
18
12
7
o
6
44.0
47.3
50.3
530
55.2
56.9
58.2
59.0
59.3
59.0
58.2
57.0
55.4
53.3
50.9
48.2
45.3
42.2
39.1
36.1
33.3
30.7
28.5
26.7
25.5
24.8
24.8
GO Cancri.
Mag. 5.9
RiRhC
Ascension.
13
25.4
26.7
28.6 '^
24
31.0
33-9
37.2
40.7
44.3
29
33
35
36
1.652 -1.315
32'.5i4 45"-90
h m
7 55
-0.03
-0.2
-0.04
+0.9
37.51
37.71
37.85
37.94
37.97
37.95
37.88
37.77
37.64
37.48
37.31
37.15
37.00
36.87
36.76
36.68
36.64
36.64
36.68
36.75
30
9
3
2
7
II
13
16
17
16
15
13
II
8
4
o
4
7
II
Declina-
tion N.
+ 2537
36.86
37.00 ^^
37.17
37.37
37.60
17
20
23
26
37.86
38.14
38.44
38.76
39.09
39.44
39.79
40.15
40.50
40.83
41.13
41.40
41.63
28
30
32
33
35
35
36
35
33
30
27
23
67.8
67.6
67.7
68.0
68.4
68.9
69.5
70.1
70.7
71.2
71.7
72.1
72.3
72.4
72.4
72.3
72.1
71.9
71.6
71.2
70.8
70.3
69.7
69.1
68.4
67.6
66.8
659
64.9
63.9
62.8
61.8
60.8
59.9
59-1
58.5
58.0
57.8
2
I
3
4
5
6
6
6
5
5
4
2
I
o
3
2
3
4
4
5
6
6
7
8
8
9
10
10
II
10
10
9
8
6
5
2
X Gemlnonua.
Mag. 5.0
Right
Ascension.
1. 109 -K>.48o
36".505 63".96
+0.01 +0.02
-0.2 ■K).9
[Eph la]
h m
7 58
B
8.02
8.23
8.38
8.47
8.51
849
8.42
8.31
8.17
8.01
7.84
7.67
7.51
7.37
7.26
7.18
7.14
7.14
7.17
7.24
31
15
9
4
2
7
6
4
I
8
4
o
3
7
II
Declina-
tion N.
14
7.35
7.49
7.66 ^7
7.86 ^^
8.09
23
26
8.35
8.64
8.95
9.27
9.61
9.97
10.33
10.69
11.04
11.38
11.70
11.98
12.21
29
31
32
34
36
36
36
35
34
32
28
23
+ 28 2
33.8
33.8
34.1
34.5
35.0
35.7
36.4
37.1
37.8
38.3
38.8
39.2
39.4
39.5
39.5
39.3
39.0
38.6
38.2
37.7
37.1
36.4
35.7
34.9
34.1
33.2
32.3
31.3
30.3
29.2
28.1
27.1
26.1
25.3
24.6
24.0
23.7
23.6
o
3
4
5
7
7
7
7
5
5
4
2
I
o
2
3
4
4
5
6
7
7
8
8
9
9
10
10
II
II
10
10
8
7
6
3
I
27 Lyncis.
Mag. 4.9
Right
Ascension.
1. 133 +0.533
6".987 3o".34
h
8
m
I
52.46
27
52.73 !:
52.92
53.04
53.08
+0.01
-0.2
+0.02
-KJ.9
53.04
52.93
52.77
52.56
52.32
52.06
51.80
51.55
51.33
51.14
51.00
50.90
50.86
50.88
50.95
51.07
51.25
51.47
51.74
52.05
52.40
52.78
53.20
53.65
54.12
54.60
55.09
55.58
56.06
56.52
56.94
57.31
57.62
19
12
4
4
II
16
21
24
26
26
25
22
19
14
10
4
2
7
12
18
22
27
31
35
38
42
45
47
48
49
49
48
46
42
37
31
Declina-
tion N.
+ 5145
42.0
43.4
450
46.8
48.6
50.5
52.3
53.9
55.2
56.3
57.0
57.4
57.4
57.0
56.3
55.3
54.1
52.6
50.9
49.1
47.2
45.2
43.2
41.2
39.3
37.5
35.7
34.1
32.6
31.4
30.4
29.6
29.1
29.0
29.2
29.8
30.8
32.0
14
16
18
18
19
18
16
13
II
7
4
o
4
7
10
12
15
17
18
19
20
20
20
19
18
18
16
15
12
10
8
5
I
2
6
10
12
1. 616 -fi.269
50V746 4o".70
+0.03
-0.2
+0.04
■♦0.9
356 APPARENT PLACES OP STAES, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
p AlgtLB.
8 H. VTMe Xajorls.
y ArstUi.
C Cancti (mean).
Mean Solar
Mag. 2.9
Mag. 5.5
Mag. 2.a
Mag. 4.7
Data.
Right
Declina-
Right
Dedina-
Right
Declina-
Right
Declina-
Ascension.
tion S.
AKension.
UonN.
Ascension.
tions.
Ascension.
tion N.
h m
0 f
h m
0 •
h m
0
h m
•
8 3
— 24 2
9§
8 4
+6843
0f
8 6
-47 4
8 7
+ 1754
Jan. 0.6
48^65
49-9 ,„
8
7-45 ^„
^3-9 „
8
50.58
^4-^ ,<
t
10.92
If
54-5 ^
10.5
48.81 '^
5^-8 ^I
7-85 !«
66.1 "
50.74 'I
^7-7 3j
11.12 *°
53-9
20.5
48.92 "
55-6 ^6
8-13 ll
68.6 *S
50.83 9
3^-3 3'
11.27 '5
53.4 ^
30.5
48.97 ^
8.28 's
7'-^ It
50.85 ^
34.7 ^t
11.36 9
53-2
Feb. 9.5
48.97 °
60.6 '*
831 ,^
73-8 ^J
50.80 5
37.9 3^
11.40 *
53-1 '
4
21
10
25
10
30
I
I
19.4
48.93 „
64.5 ;
8.21
7^-3 „
50.70
50-54 'f
40.9 „
"-39 .
53-2 ^
29.4
48.84 '
7-99 "
78-6 '3
43.6 ll
"-34 *
2
534 ,
Mar. 10.4
48.71 3
66.0 'S
7-68 3'
80.7 "
5°-33 "
45-8 "
11.25 '
53-7 ^
20.3
48.56 5
67.1 "
7.29 ii
82.4 '7
50-09 ^*
47.6 !
"•'3 "
54.1 1
30.3
48.39 \l
67.8 7
4
^•84 ll
83.7 'I
49.82 '7
^^ 28
48.9 '3
10.99 ,*
54.5 *
Apr. 9.3
48.21
68.2
^•36 ,„
84.5 ,
49-54 ,„
49.7 ,
10.83 .,
54-8
19.3
48.02 9
47.84 ]l
47.68 \l
68.2 °
5-87 1'
84.8 3
49-26 ll
50.0 ■'
10.67 t
55-2 *
29.2
67.9 3
5-4° 1.
84.6 I
84.0 ^
48-98 '?
49.9 I
49-3 „
10.52 5
55-5 3
May 9.2
67.2 '
4-97 :3
48-72 ^;
»o.39 ;3
55-8 3
19.2
47-54 t
66.2 '°
4-59 \l
82.9
48.49 '3
48.2
10.29 'I
56.0 '
II
13
31
«5
20
•5
8
2
29.2
47-43 „
47-35 ,
4-28
81.4
48.29
4^-7 ,„
10.21
56.2
June 8.1
4.06"
79.5 '
48.12 7
44.8 '
10.17 4
56.4 "
iS.i
47.30 ^
3.92 't
77-3 "
47.99 3
42.6
10.16 '
56.5 '
28.1
47.29 '
59-5 ^°
3.87 ^,
74-9 It
7^-3 It
47.91 ,
40.1 *5
38
37-3 "
10.18 f
56.6 •
July 8.0
4731 :
57.4 "
3.92 I
47.88 3
10.24
56.6 °
0
22
IS
27
I
29
9
0
18.0
47.37 „
55.2 ^,
4°7,,
^9-^ „
4789 ,
34-4 ,„
10.33 „
56.6
28.0
47.46 9
53.1 1\
4.31 '*
66.9 ll
47-95 *
3'-5 ll
10.45
56.5 '
Aug. 7.0
47.58 "
47-74 \l
51.0="
♦•63 ^
64.2 '7
48.06 "
28.6 '9
10.60 '5
56.3 '
16.9
49.0 °
5°4 1'
^'•5 ll
48" '^
25-9 ll
10.78 '8
56.1 '
26.9
47-93 ''
47-3 I
S.52 t'
58-9 !
48.42 ='°
'3-4 ^
10.99 "
55.8 3
22
»4
55
24
25
22
23
5
Sept. 5.9
^■^^ .^
45-9 ,„
7-36 ;7
56-5 „
4867 ,„
21.2
11.22
55-3 .
15.9
48.39 11,
44-9'°
44-3 !
54-3 :
48.96 ^9
19.5 \l
".48 ^!
54.7 t
25.8
48.66 *7
52.4 9
49.28 ll
18.3 "
"•76'^
53-9
Oct. 5.8
48.95 ''
44-1 ,
8.08 7^
5°-7 !
49.63 3^
^77 ?
12.06 30
530 9
15.8
49-26 3'
44-4 I
8-83 ^5
49.4 '3
50.01 38
17.6 ;
12.37 3'
52.0
32
9
77
9
39
5
33
II
25.7
49.58
45-3 „
9.60
48.5 ,
50.40 .
18.1
12.70
50.9
Nov. 4.7
49.91 33
4^-7 *
48-5 ''
10.39 ,'
48.0 5
50.80 4°
^^•3 ll
13.04 34
49-7 :
14.7
50.23 l^
"•'7'!
47-9 '
51.1939
21.1 '»
»3-38 34
48.4 '
24.7
50.54 ^'
50-6
"-93;,
48.3 t
51.56 37
^3-4 ll
13.71 33
47»
Dec. 4.6
50-84 1°
53-1 '
"•65 1!
49-1 ,;
51.90 3*
26.2 ^«
14-03 3'
46.0 "
27
27
66
»3
31
32
30
II
14.6
51. II
55-8 ,„
^331 ,,
5°-4 ,
5*-2i ,A
29.4 ,,
14-33 ,.
44-9
24.6
5^-34 11
58-7 ^'
13.88 57
5^-47 !^
32.8 34
14.60 ll
44-0 ?
34-6
51.53 ''
61.6 ^9
14-35 "^^
540
5^-67
36.4 ^'
14-83 '3
8
43-2
Sec 'J, Tan S
1.095 -0.446
2.757 +2.570
1.468
-I -075
1.051 ^.323
Mean Place
4y-763 59".87
4M79 63".58
49«.298 37".oi
io».oi9 5o".24
D'^ a, Dm a
-0.01 -0.02
+0.06 +0.09
-0.02 -0.04
-fO.OI 40.0I
l>^6,l>u^
-0.2
+0.9 1
-0.2
40.9 1
-0.2
^.9 1
-0.2
■to.d
[Bph xa]
APPARENT PLACES OF STARS, 1912
357
FOR THE UPPER TRANSIT AT WASHINGTON.
Bradley 1147.
20 Pappis.
/3 Cancrl.
81 Lyncis.
Mag. 5.7
Mag. 5.0
Mag. 3.8
Mag. 4.4
Mean Solar
Data
Right
Declina-
Right
Declina-
Right
Declina- |
Right
Declina-
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion^
I.
Ascension.
tion N.
h m
0 '
h in
0 •
h m
e
*
h m
0 *
8 8
+ 76 I
IP
8 9
-I53I
8 II
+ 9-
27
8 16
+4328
Jan. 0.6
8
36.12
3^-4 ,,
ft
18.10
12. 1
8
45-47 .„
32.0
8
50.42 ,
50.68 '^
*7-5 „
10.5
36.69 "
38.9 '5
18.27 ]l
»4-6 It
45-66 9
30.9
II
18.4 '
20.5
37.08 39 41.6 '7
18.39 "
17.0 '4
45-80 '4
29.9
10
50.87 '9
»9-5
30.5
37.28 '° 44-4 !^
18.46 I
19.2 "
10
45.90
29.1
8
6
51.00 ^
51.06
20.8 '3
Feb. 9.5
37-30
47-3 '
18.48 '
«T /» 20
21.2
45-94 ,
28.5
22.2 '4
17
28
3
17
4
0
15
19.4
37-^3 ,,
50.1 .,
18.45 ,
22.0
45-93 ,
28.1
51.06
^3-7 ,^
29.4
36.79 34 52.7 - 1
18.38 7
24.4 ^
45-88 5
27.9
2
50.99 J^
"s-^ 1
Mar. 10.4
36.30 *9
35.69 ^'
56.7 ^
18.27 "
25.6 "
45.79 '
27.8
I
50.87 ]l
5°-7i '
26.5 4
20.3
18.13 4
26.5 ^
45.67 '
27.8
0
27.8 '3
303
34.^9 1°
58.1 '4
17.98 li
27.0 I
45-53 .,
28.0
2
50.52 '^
28.8 'I
75
9
16
2
15
3
21
8
Apr. 9.3
3424 „
59.0
17.82
27.2
45-38
28.3
M
50.31 ^^
29.6
19.3
33-47 "
59.3 I
17.65 \l
17.49 ^
27.1
45-23 J
28.6
3
50.09
30.1 ^
29.2
32.72 "
32-03 ll
3^-4' "
59.1 „
58.3 *
26.8 3
26.2 *
45.09 *
28.9
3
49.89 '«
49-7^
49.55 '°
30.3 ,
May 9.2
17-34 J
44-97 ,„
29.3
4
30.2
29.9 I
19.2
57.1 "
17.22 "
25.3 ,:
44-87 '°
29.7
4
52
17
9
II
0
5
12
29.2
30.89
554 „
17-13 ,
24.2
44.79 .
30.2
49.43 g
49.35 .
29.3 0
28.5 ®
T T
June 8.1
30.48 4'
53-3 !
17.06 '
22.9 ^
44.74 I
30.7
5
18.1
30.21 '
50.9 '*
17.02 ^
21.4 '5
44.72 ^
31.2
5
49.31 ^
27.4 "
28.1
30.07 '4
*»-3 ^
17,02 ^
^9» 8
2
44.74 ^
31.7
5
0
49.31
26.2 "
July 8.0
30.08 '
15
17.05 ^
44.79 g
32.2
5
5
49-36 5
10
24.8 '4
15
18.0
30.23
42.5 ,
17.11
16.2
44.87
32.7
49.46
=^3-3 ,6
21.7
28.0
30.52 ^^
39-4 \'
17.20 9
14.5 ]i
44.98 "
33.1
4
49.60 ^
Aug. 7.0
30.95 T^
32.19 11
3^-4 ;
17.33 '3
12.8 '7
II.2 '^
45.12 4
33.4
3
49.78 ll
20.0 I
^ Tn
16.9
33-5 J
30-7 *^
17-48 5
17.66 '^
45-29 ,„
33.6
^
50.00
18.4 ^^
26.9
9-9 !'
4548 It
33.7
I
50.25 ^^
16.7 ^
78
26
21
10
22
I
29
17
Sept. 5.9
32 -97 „g
28.1
'7-87 ,,
8.9
45.70
33.6
50.54 „
15.0
159
33-85 ;!
^57 '4
18.11 ^4
8.2 7
45-94 ,^
46.20 ;^
33.3
3
50.86 32
^3-3 \l
II.7
25.8
34-82 97
23.6 ^'
^^•37 It
7-8 :t
32.8
5
51.21 35
Oct. 5.8
35.86 °4
21.9 '7
18.65 f
7-8 °
46.48 ll
32.1
7
5' -58 in
10.2 '5
15-8
36.95 "^
20.5 ^4
18.95 f
8.3 5
46.78 3^
31.2
9
5^-98*°
8.8 '4
1X3
9
31
9
32
II
42
12
25.7
38.08
19.6
19.26
9-2 ,,
47.10
30.1
52.40^^
7.6
Nov. 4.7
39.23'!^
19.1 5
19.57 ,'
10.5 3
47.43 ^^
28.8
13
52.83 43
6.6 '2
14-7
^^•37 ^
19.1 ^
19.89 I]
12.2 '7
47.76 ^^
27.4
14
53.26 11
24.7
41.46^^
19.6 5
20.20 ^
^4-^ T.
48.08 ^^
25.9
15
53.68 4^
Dec. 4.6
4^-49 '1^
20.6 ^^
20-50 ^fl
^^•5 i
48-39 ^'
24.4
15
54.09 :'
4-9 ?
94
15
28
25
29
15
38
I
14.6
43-43 0
22.1
20.78
19.0
48.68 ^
22.9
54.47 ,,
5-0 ,
24.6
^ 82
4425 °
24.0 ^9
21.02 ^4
48.94 f
21.5
14
54.82 35
5-3 3
34.6
44.92 ^7
26.2 "
20
21.22
24.2
49.16 "
20.2
13
55.12 3
6.0 7
Sec rf. Tan rJ
4,142 +4.019
1.038 -0.278
1. 014 +0.167
1.378 +0.948
Mean Place
30'.97o 36". 62
I7».282 20" .96
44-.637 26".74
49'.050 i6".6o
jy^ a. Dm a
40.09 * +0.14
-0.01 -O.OI
0.00 +0.01
40.02 +0.04
D^ 6, D» 6
-0.2
40.8
-0.2
40.8
-0.2
+0.8
-0.2
40.8
[Eph za]
358
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
d^ Cancrl.
B AxgtLS,
80 Xonocerotis.
0 iTniae Xa}otU.
Mean Solar
Mag. 5.9
Mag. 1.7
Mag. 4.0
Mag. 3.5
Date.
Right
Declina-
Right
Declina-
Right
Declina-
i
Right Declina-
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion S.
Ascension.
tion N.
h m
0
*
h m
0 1
h m
0 f
h m
0 *
8 18
+ 18.
36
8 20
-5913
8 21
-336
8 22
+ 61 0
Jan. 0.6
s
20.51
9f
59.2
8
44.26
9f
18.8
S
16.63
If
60.2
s
60.17
09
47.1
10.5
20.72 ^l
58.5
7
44.44 °
22.6 38
16.82 '9
^'■' \l
60.53 ^^
48-8 11
20.5
20.88 '^
58.1
4
10
44.54
26-4 ll
16.96 '4
63-9 '
60.80 ^7
50.8 *°
30.5
20.99 "
57.9
2
44-55 '
30.2 38
33.8 3«
17.06 '°
^5-5 !
60.97 '^
53.0 11
Feb. 9.5
21.04 ^
57-9
0
44.48 ^1
17.10 4
66.9 ^
61.04 7
55.3 '3
0
I
15
33
I
12
2
23
19.4
21.04
58.0
44.33
37-1 ,„
17.09
68.1
61.02
57.6
29.4
21.00 ^
58.2
2
44.10 I
17.04 5
69.0 9
60.91 "
^« Q 22
59-8 ^^
Mar. 10.4
20.91 ^
58.5
3
43.81 l\
16.95 ,;
69.7 7
60.72 '9
61.8 "^
20.4
20.79 "
58.9
4
43.48 11
44.9 "
16.84 "
70.2 5
60.46 '^
^3-5 :!
30.3
20.65 "^
59.4
5
43.11 11
46.6 7
16.70 '4
70.4 „
60.15 ^'
64.9 '^
15
4
39
»3
15
0
34
10
Apr. 9.3
20.50
59.8
42.72
47-9 ,
16.5s „
70.4 ,
59.81
65.9 ,
66.5 ^
19.3
20.35 ,;
60.2
4
42.32 ^
48.6 I
16.40 "5
70.2 '
59.47 ^^
29.2
20.20 ^
60.6
4
41.93 ^g
48.8 I
16.26 '*
69.9 ^
59.13 r
66.7 '
May 9.2
20.07 '^
60.9
3
^'•55 36
4^-^9::,
48.4 ^
47.6 .,
16.13 '3
69.4 i
68.8 ^
58.81 3^
66.4 3
19.2
19.96 "
61.2
3
16.02 "
58.53 '*
65.6 ^
8
2
33
J3
9
8
23
11
29.2
19.88 ^
19.82 I
61.4
40.86
40.58 '!
44-5 ^^
1593 ,
15.87 t
68.0
58.30
64.5 ,^
June 8.1
61.5
I
^7-^ ,0
58.13 ^
63.0 5
18.1
19.80 ^
61.6
I
40.35 ,«
^^ ^ 22
42.3 ,^
15.84 3
66.J "»
58.02 "
61.2 *8
28.1
19.81 \
61.6
0
40.17 \l
So ^
370 ,^
30
15.84 ^
65.0 "
57.98 *
•./x .* 20
July 8.1
19.86 5
61.6
0
I
40.05 ^
15.87 I
63.8 '^
12
58.00 ^
9
.-» ^ 22
57° 24
18.0
^9.94 _
61.5
40.00
34-0
^5.93 ,„
62.6
58.09
54.6 „
28.0
20.06 "
61.4
I
40.02 I
30.9 „
16.03 °
6^-5 "
58.25 •*
52.1 11
Aug. 7.0
20.20 ^^
61.2
2
40.10 J
27.8 3'
16.15 \\
60.5'°
58.48 ^3
49-6 ^
16.9
20.37 ^^
60.9
3
40.24 J
24.8 11
16.30 '5
59.6 I
58.76 f
47-1 !'
26.9
20.57 '^
22
60.4
5
6
40.45 ,3
22.0 =■«
25
16.47 11
20
58.8 «
59.10 34
40
44.6^5
24
Sept. 5.9
20.79 ,,
59.8
M
40.73 . .
'9-5 2,
16.67
58.3 .
59-5° ^,
42.2
15.9
21.04
59.1
7
8
41.07 ll
15-8 '*
16.90 *3
58.1 '
59.95 *f
4°o ,.
25.8
21.31 ^7
58.3
41.46^^
^7.15 ^^
58.1 °
60.44*;
37-9 "
Oct. 5.8
21.61 3°
57.3
10
41.89^3
14.8 '°
^7.42 ,^
58.5 !
60.97 53
36.1 '«
15.8
2I.Q2 *^*
56.2
II
42-35 t^
H-4 :
^77^ ,;
59-2 ,;
61.53 ^'^
34.5 't
32
12
49
3
3»
10
59
13
25.8
22.24 ,,
55.0
42.84
"4-7 „
18.02
60.2
62.12
33-2
Nov. 4.7
22.58 ^^
53.7
13
43-34 ,°
15-6 '
»8-34 11
61.6 '4
632 :«
62.73 j;
32.3 I
14.7
22.92 ^"^
52.4
13
43.83 ^l
»M 11
18.66 3=»
63.34 ^
31.8 5
24.7
23.26 ^^
51. 1
13
44.29 4
»9.3 !
^8-97 ^'
^5° !
63.94 1!
31.7.'
Dec. 4.6
23.59 ^^
49.9
12
II
44.72 J^
22.0 '
31
19.28 3'
28
66.9 '9
21
64.5. ^j
32.0 3
14.6
23.90 .
24.18 ^;
48.8
45.10
25.^ «
^956 ^^
^9-o „
65.05 _
32.7 ,.
24.6
47.8
10
8
45.41 I]
28.6 35
19.81 ^5
71.1 "
65.53 f.
33.8
34.6
24.42 ^^
47.0
45.65 ^^
32.3 ^^
20.03
73.1 '*'
6594 *'
35.3 '«
Sec rf, Tan 6
1.055 +0.337
1.954 -1.679
1.002 -0.064
2.064 +1.805
Mean Place
I9*.620 55".40
42*.545 33".84
I5-.870 67".34
57-.868 47".96
D'^ a» Dw a
40.0I 40.01
[
-0.04 -0.06
0.00 0.00
40.04 +0.07
Df(J,D«<J
-0.2
40.8
-0.2
40.8 1
-0.2
40.8 1
-0.2
40.8
[Cph 13]
APPARENT PLACES OF STAES, 1912.
359
FOR THE. UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.6
10.5
20.5
30.5
Feb. 9.5
19.4
29.4
Mar. 10.4
20.4
303
' Apr. 9.3
193
29.2
May 9.2
. 192
29.2
' June 8.1
18.1
28.1
July 8.1
18.0
28.0
' Aug. 7.0
16.9
26.9
Sept. 5.9
15.9
25.8
Oct. 5.8
15-8
25.8
Nov. 4.7
14.7
24.7
Dec. 4.6
14.6
24.6
34.6
d CliamseleoiitlB.
Mag. 4.3
Right
Ascension.
26
7
12
h m
8 23
s
22.25
22.51
22.58
22.46
22.16 30
47
21.69
21.06
20.30
19.44
18.50
Declina-
tion S.
63
76
86
94
100
^750 ,^,
15-43 '°'^
102
14.41
Sec <5, Tan d
Mean Place
B'^ a, D«a a
13.44
12.54
11.72
11.00
10.41
9.96
9.66
9.52
9.54
9-73
10.09
0.60
1.26
2.05
2.94
3.91
4.92
5.93
6.92
7.85
8.68
9.38
9-93
20.30
-77 II
47.0
50.7 g
58.3 ^
62.0 37
35
^5-5 „
68.7 3*
71.6 '9
74.1 ''
76.1
Groombrldge 1460.
Mag. 6.0
97
90
82
72
59
45
30
14
2
19
36
51
66
79
89
97
lOI
lOX
99
93
83
70
55
37
77.6
78.6
79.1
79.0
78.4
20
15
10
5
I
6
II
16
20
24
77.3
75-7
73.7
7^*^ 27
68.6 ^7
30
65.6
62.5
59-3
56.2
53.3
50.6
48.3
46.5
45.2
44-5
31
32
31
29
27
23
18
13
7
o
6
13
19
44-5
45.1
46.4
48.3 ^^
50.8 '5
29
53.7
57.0 II
60.6 3^
4.514 -4.402
I7*.853 63".66
Right
Ascension.
-0.09
-0.2
-0.17
40.8
h m
8 27
s
3.19
3.45
3.65
3.78
3.85
26
20
13
7
3.86
3.81
3-71
3.57
340
3-22
3.03
2.85
2.68
2.53
2.42
2.34
2.30
2.30
2.34
2.42
2.54
2.69
2.88 '9
3'37
3.66 ^9
3.98 ^'
4.33
4.69
5
o
4
7
8
9
8
7
5
I
8
4
o
4
8
12
15
35
36
38
40
40
40
5.07
547
5.87
6.27
6.66 39
37
7.03 „
7.36 33
7.65 '^
Declina-
tion N.
+ 3818
69.0
69.5
70.2
71.2
72.3
73-5
74.8
76.1
77.2
78.2
79.0
79.6
79.9
80.0
79.9
.79.5
78.9
78.1
77.1
76.0
74.8
73.5
72.1
70.6
69.0
67.5
65.9
64.4
62.9
61.4
60.0
58.8
57.8
57.0
56.4
56.1
56.1
56.4
5
7
o
I
2
3
3
I
o
8
6
3
I
I
4
6
8
o
I
2
3
4
5
6
5
6
5
5
5
4
2
o
8
6
3
o
3
ff Canorl.
Mag. 5.5
Right
Ascension.
1.275 40.790
ii«.989 68".i8
h m
8 27
s
38.23
38.45
38.62
38.74
38.81
22
12
7
38.82
38.78
38.70
38.59
38.45
4
8
II
14
15
38.30
38.15
38.00
37.86 '^
II
37.75 \
15
15
37.66
37.60
37.57
37.58
37.62
6
3
I
4
7
37.69
37.80
37-93
38.09
38.28 '9
II
13
16
40.02
-0.2
40.03
40.8
[Eph It]
38.50
38.75
39.02
39.31
39.63
39.96
40.30
40.65
40.99
41.32
41.64
41.93
22
25
27
29
32
33
34
35
34
33
32
29
42.1
8^5
Declina-
tion N.
+ 2044
29.8
29.3
28.9
28.8
28.9
29.2
29.5
29.9
30.4
30.9
31.4
31.9
32.3
32.6
32.8
33.0
33.1
33.1
33.0
32.8
32.6
32.3
31.9
31.4
30.8
30.1
29.3
28.3
27.2
26.0
24.8
23.5
22.1
20.8
19.6
18.5
17.6
16.9
5
4
I
I
3
3
4
5
5
5
5
4
3
2
2
I
o
I
2
2
3
4
5
6
7
8
o
I
2
2
3
4
3
2
I
9
7
Oroombrldge 1446
Mag. 6.3
Right
Ascension.
8
m
29
8
61.37
61.94
62.36
62.62
62.71
1.069
37*-337
■K3-379
26".64
40.0I
-0.2
40.02
40.8
62.64
62.42
62.06
61.58
61.01
60.39
59.74
59.09
58.47
57.91
57.42
57.03
56.75
56.58
56.52
56.59
56.78
57.09
57.51
58.04
58.67
59.39
60.19
61.06
61.99
62.96
63.96
64.97
65.95
66.89
67.76
68.54
69.20
Declina-
tion N.
57
42
26
9
7
22
36
48
57
62
65
65
62
56
49
39
28
17
6
+ 73 55
It
76.2
78.5 '^
81.0^5
86.5 ^^
89.2
91.8
94.2
96.3
97-9
99.0
99.6
99-7
99.2
98.2
96.8
95.0
92.8
90.3
87.5
27
26
24
21
16
II
6
I
5
10
14
18
22
25
28
29
19
31
42
53
63
72
80
87
93
97
100
lOI
98
94
87
78
66
84.6
81.6 3°
78.6 3°
75.6
72.6
30
30
28
69.8
67.2
64.9
62.9
61.2
59.9
59-1
58.7
58.8
59.4
60.5
62.1
64.0
26
23
20
17
13
8
4
I
6
II
16
19
3-615 +3.473
56".962 78".i8
40.07
-0.2
40.14
40.8
360
APPAKENT PLACES OF STAES, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
S Hydrse.
(T Hydrse.
y Cancri.
^ Cancri.
Mean Solar
Mag. 4.2
Mag. 4.5
Mag. 4.7
Mag. 4.2
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Deelina-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tionN.
h m
0
f
h m
0
*
h m
e
t
h m
• •
8 32
+ 6
ff
0
8 34
+ 338
8 38
+ 21 46
8 39
+ 1828
am
Jan. 0.6
8
60.69
45.9
m
■
10.29
695
"•65 „
70.9
6
42.03
WW
45-1 g
44-3 ,
I0.6
60.90^^
44.4
15
10.50 ;
68.0
15
12.88 '3
70.3
42.26 'I
20.5
61.06 '^
43- 1
13
10.66 '^
66.6
14
13.07 ''
70.0
3
42.44 ^
43.8 *
30.5
61.17 "
61.23 J
42.1
10
8
6
10.78 "
10.84
I
65.4
12
1*^
13.20 '^
69.9
I
42.57 ^t
43-5 \
Feb. 9.5
41.3
64.4
10
8
13.27 ;
70.0
I
3
42.64 7
43-4 ,
19.4
61.24
40.7
m0
10.85 ^
63.6
6
13.29
70.3
%^
42.66
43-5 _
29.4
61.21 I
40.2
5
10.81 4
63.0
13.26 ^
70.7
4
42.63 I
43-7 ,
Mar. 10.4
61.13 ,J
39.9
3
10.74 ,^
62.7
3
13.19 ,;
71.2
5
42.56 7
44-1 *
20.4
61.02 "
39.8
I
10.64
62.5
2
_ _ __ 10
13.09
71.8
0
6
42.46 °
44-5 *
30.3
60.89 ^^
39.9
I
10.51 |3
62.5
0
12.96 ]l
72.4
4'-34 "
45.0 \
13
2
«4
I
15
6
14
5
Apr. 9.3
60.76
40.1
10.37 , .
62.6
12.81
73.0
42.20
45.5 .
19.3
60.62 '^
40.4
3
10.23 J
62.8
2
12.66 '5
73.5
5
42.05 '5
46.0 \
29.3
60.48 '^
40.8
4
10.09
63.1
3
12.51 '5
73.9
4
41-90 ,^
46.4 ♦
May 9.2
60.35 ;^
41.2
4
9.96 '^
63.6
5
12.37 '1
74.2
3
41.77 ,:
46.8 4
19.2
60.24
9
41.7
5
5
9.85 *;
64.2
6
6
12.25
74.5
3
2
41.65 ';
47-1 \
29.2
60.15 .
60.09
42.2
6
6
9.76
970 ^
64.8
6
7
12.16
ay
74-7
#^
41.56 g
41.50
47-3 -
June 8.1
42.8
65-4
12.09 ;
74.7
0
47.5 '
18.1
60.06 ^
43.4
9.66 4
66.1
7
0
12.06 3
74.7
0
41.47 ,
47.6 I
28.1
60.06 °
44.1
7
6
6
9.66 °
66.9
8
12.06 °
74.6
I
41.46 '
47.6 \
July 8.1
60.09 5
6
44.7
9.69 3
67.6
7
7
12.09 ^
74.4
2
3
41.48 1
47-5 1
18.0
60.15 _
45.3
9.75 .
983 „
68.3
p
12.15 „
74.1
41.54 „
47-4 -
28.0
60.24
45.8
5
69.0
7
12.24 9
73.7
4
4163 9
47-2 ,
Aug. 7.0
60.35 "
46.3
5
9.94 ,,
69.6
6
12.37 ,^
73.2
5
6
41.7s
46.9 \
17.0
60.49 !
46.7
4
10.08 '4
70.1
5
Ufa •«
12.70
21
72.6
41.90 1
42.08 "
21
46.5 \
26.9
60.66 ^7
20
46.9
2
0
10.25 '^
so
70.4
3
I
71.9
7
8
46.0 5
Sept. 5.9
60.86
46.9
»o-45 „
70.5
"•9^ ,^
71. 1
42.29 „
45.4 g
44-6 _
15.9
61.08 "
46.7
2
10.67 "
70.4
I
70.2
9
42.78 ii
43.06 "8
25.8
61.33 '^
46.2
5
10.91 11
70.1
3
69.1
II
43.6 ^
Oct. 5.8
61.60^7
45.5
7
11.18*7
695
6
13.70 l^^
67.9
12
42.5 "
15.8
61.90 3°
44.6
9
"•47 ''
68.6
9
14.01 3
66.6
13
43.36 30
4'-3 "
31
II
31
II
33
13
32
«3
25.8
62.21
43-5
"•78
67.5
14.34 „
65.3
43.68
40° ,^
Nov. 4.7
62.53 11
42.1
14
12.10 3'
66.1
14
14.69 35
63.9
14
44.02 ^^
38.6 4
14.7
62.86 33
40.5
16
12.43 l^
64.6
15
15.05 f^
62.5
14
44.37 z
37.1 \\
24.7
63.18 3»
38.9
16
12.75 ,
62.9
J7
15.40 ^^
61. 1
14
44.71 ^t
35-6 !
Dec. 4.7
63.49 ^''
37-2
17
13.06 3'
61. 1
18
'5-74 ^t
59.9
12
45.04 ^^
34.2 ♦
30
17
30
18
32
II
32
12
14.6
63.79 ,„•
35.5
^3.36 „
59-3
— 0
16.06
58.8
^536 ^^
33.0 „
24.6
64.06 ="7
33.8
17
16
13.63 ^^
57-5
18
16.35 11
16.61 '<*
57.8
10
Mm
45.66 30
31.9 _
34.6
64.30 ^^
32.2
13.86 '3
55.8
17
57.1
7
45.91 ^
310 ^
Sec ^5, Tan cJ
1.006
40,105
1 .002 40.064
1.077 40.400
1.054 ■K>.334
Mean Place
59-.929 4o".48
9"-552 63".76
0.00 0.00
ii».770 68".25
*
4X«.i87 42".03
D V S Dm a
0.00 0.00
+0.01 4O.03
40.0I 40.0I
T>^ cJ, D« rf
-0.2
40.8
1
-0.2
40.8
1
-0.3
40.8
-0.3
4o.a
[Bph 13]
APPARENT PLACES OF STARS, 1912,
361
FOR THE UPPER TRANSIT AT WASHINGTON.
a
Pyiidlii.
1 Oanozi.
£ Hydm.
^ Axffts.
Mean Solar
Mag. 3.7
Mag. 4.2
Mag. 3.5
Mag. 2.0
Date.
RiRht
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Aeceosion.
tion S.
AKenaion.
tion N
t.
Aiceasion.
tion N.
Ascension.
tion S.
h ]
m
e r
h m
0
*
h m
0
f
h m
0 t
8 40
-3251
8 41
+ 29
4
8 42
+ 6,
IP
^^
8 42
-5422
Jan. 0.6
8
4.15
54.9 „
2353 , .
58.1
7-78 „
37.4
8
^7-53 ,,
53-1 ,
I0.6
4.35
20
58.2 33
^3-77 ,*
58.0
I
8.00"
36.0
14
17.74^
56-8 37
20.5
4.49
K
61.4 \\
23.97 ^
58.1
I
8.17 '7
34.8
12
17.88 '^
60.6 38
30.5
4.58
9
^•5 ^0
24.12 *5
58.4
3
8.29 "
33.7
II
0
17.95 \
64-3 "
Feb. 9.5
4.61
3
2
^7-4 11
24.20
2
59.0
0
7
8.36 7
32.9
8
6
17.94 3
67.9 36
34
19.4
4.59
m
70.1
24.22
59.7
8
8.38
32.3
M
17.86
71-3 „
29.4
4.52
7
7^-5 It
24.19 3
60.5
8.35 \
31.9
4
T C
17.71 '^
??1 '«
77.2
Mar. 1 0.4
4.40
1 2
74-5 '°
24.12 7
61.4
9
31.7
2
^7-50 \\
20.4
4.25
15
76.2 7
24.01
62.3
9
0
8-'9 :
31.6
I
»7-24 ^f
79-5 f
30.3
4.08
17
77.5 'I
2387 4
63.1
8
8.06 '3
31-7
I
16.95 ''
81.4 ">
19
9
16
7
13
2
31
14
Apr. 9.3
3.89
78.4 ,
2355 ,!
23-39 t
63.8
6
7-93 „
31.9
16.64 „
82.8
19-3
3.69
20
78.8 4
64.4
7-79 *
32.2
3
16.31 33
83.7 \
293
3.49
20
78.8 °
64.9
5
7-65 t
32.6
4
15.98 33
84-1 4
May 9.2
3.30
19
78.5 ^
23-24 /.
65.2
3
7.52 3
33.0
4
15.66 3^
84.0 \
19.2
3.13
17
77.8 7
23.11 |3
65.3
I
7.41 "
33.5
5
15.36 3°
83.4 f
15
II
10
0
9
5
28
II
29.2
2.98
76-7 ,^
23.01
65.3
7-32
34.0
6
»5.o8
82.3 ,^
June 8.1
2.86
12
75-3 t
22.94 ;
65.1
2
7-25 ;
34.6
H.83 ^l
80.8 '5
18.1
2.77
9
6
73-5 '
22.90 *
64.8
3
7.21 *
35.1
5
'4-63 °
14-47 t
78.9 ''
28.1
2.71
71-5 °
22.89 '
64-3
5
7.20 '
35.7
6
76-6 'i
July 8.1
2.68
3
I
^•3^:
22.91 g
63.7
0
7
7.23 3
36.3
0
5
14-36 \
74.0 '^
38
18.0
2.69
66-9 „
22.97 ,„
63.0
m
7-28
36.8
\^
14.30
71.2
28.0
2.73
4
8
^4-4 i
23.07 °
62.1
9
7-36 '
37.3
5
14.29 ^
^8-3 !'
Aug. 7.0
2.81
62.0 '4
23.20 3
61.2
9
7-47 "
37.7
4
14.34 „
65-3 ^°
17.0
2.93
12
59-8 "
23-36 ]l
60.2 ^
[O
7.60 3
38.0
3
14.45 '
62-4 !^
26.9
3.08
15
57-8 ^°
23-55 ',
59-1 \
[I
7-76 ^
38.1
I
^•^2 ^7
59-6 ^»
19
18
22
[2
19
0
22
25
Sept. 5.9
327
0 ^
56.0
T ^
23-77 „
57.9 ,
r ^
7-95 ..
38.1
/%
14-84 ,8
15-12 "^
57-^ „
15.9
3.50
23
26
54-5 ^
24.02 ^
24-30 '^
56.6^
'3
8.17 "
37.9
2
55-0 ;
25.8
3.76
53-5 '°
52.9 ^
55.2 ]
^4
8.41 't
37.4
5
8
15.45 "
53-3 ^
Oct. 5.8
405
29
24.60 3°
53.8^
14
8.68 ^7
36.6
15.83 f
52.2 "
15-8
4.36
31
52.9 ^
24.93 ^^
52.4 \
14
»-97 ''
35.6
10
16.24 t
51-7 ,
33
5
35
f5
30
12
43
I
25.8
4.69
^ p
53.4 „
25.64 3;
50.9 ,
» «
9.27 ,^
34.4
V M
16.67
51.8
Nov. 4.7
5.04
35
54-5 "
49.5
^4
9.59 f.
33.0
14
_ ^
17.12 ^5
52-5 '
14.7
5.39
35
56-^ ^0
26.01 ^'
48.2 ^
t3
9.92 ^^
31-4
16
^7-58 ;[^^
53-9 '*
24.7
5.74
35
58.1 !°
26.38 11
47.0 J
t2
10.25
29.7
17
_ 0
18.02 ^4
55-9 :
Dec. 4.7
6.07
33
60.6^5
26.74 f
46.0
[O
10.57 f
27.9
18
18.43 to
58-4 '5
31
39
34
8
30
17
38
30
14.6
6.38
635
27.08
45-2
^
10.87 0
26.2
^
18.81
61.4
24.6
6.65
27
66.5 ^!
27.40 ^^
44.6
6
28
II. 15 ^^
24.6
16
"^2
64.8 34
34.6
6.88
23
69.7 ^'
27.68 ^^
44-2
4
11.39 ^^
23.1
15
19.39 '^
68.4 36
Sec *J, Tan d
1. 19 1 -0.646
1. 144 +0.55
6
1.007 -K).I1
[8
1.717 -1.396
Mean Place
3'.329 67 ".26
22-.546 56".78
7«.042 32".3;
r
i6».243 68".77
ly^a, D.»a
-o.oi -0.03
+0.01 40.02
0.00 -K).©!
-0.03 -0.06
DfcJ,D„cJ
-0.3
'K>.8 1
-0.3
•K>.8
-0.3
40.8
-0.3
-K>.8
[Bph 13]
362
APPARENT PLACES OP STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
(T" Cancrl (^mean).
C Hydrse.
z Ursse Xajoris.
a Canoil.
Mean Solar
Mag. 5.5
Mag. 3.3
Mag. 3.x
Mag. 4.3
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Decline*
Ascension.
tion N.
Ascension.
tion K.
Ascensioa
tion N.
Ascensioa.
tionN.
h m
0 t
h m
0 t
h m
0 '
h m
0 r
8 48
+ 3054
8 50
+ 616
8 53
+ 4822
8 53
+ 12 II
IP
Jan. 0.6
53-74 ,6
54-00
48.7
8
45-34 ,,
56.8
t
12.82
74-3 „
75-^ ,!
41-32 „
59-8 ^ ,
I0.6
48.6 '
45-57 J
45-75 ;
55.3 5
^3-14 ''
41-55 \l
58.7 ' '
20.5
54" ,\
48.8 I
54.0 3
13-39 ,„
76-3 "
41.74 \l
57-7 '°
30.5
54.37 'I
49.2 ^
45.88 '3
52.9 "
13.58 \\ 77.^ \i 1
41.88 '4
41.96 «
57-0 I
Feb. 9.5
54.46 I
49-9 ^
45-95 I
52.0 9
13-69 "
4
79-4 ;,
56.5 ^
19-5
54.49 ,
50.7 „
45.98
5^-3 ^
=t3.73 ,
81.2
83.0 ;
41.99 ,
56.2
29.4
54.47 ,
51-6 9
4596 ,
45-90 „
50.9 *
13.70 3
41.97 \
56.1 '
Mar. 10.4
54.40 ,^
52-6 ,„
50.7 ,
13.61 9
86.3 '^
41-92 I
41.84 !
56. 1 °
20.4
54.30 °
53-6 '°
45-81 '
50.6 •
13-46 f
56.3 \
30.3
54-^6 ^6
54-5 I
45-69
13
50.6 °
13-27 \\
^7.7 \\
41.72 "
14
56.6 3
3
Apr. 9.3
54.00
55-3 ,
45-56
50.8
13.06
88.9 „
41-58
56.9 .
193
53.83 \l
56-0 7
45-42 t
51. 1 3
12.83 ^^,
89-8 '
41-44 ,;
57.3 I
29.3
53.67 \\
56.5 \
45-29 ;,
51.5 ^
12.60 ^3
90.3 5
41-31 3
57-7 t
May 9.2
53.52 \\
56.8 3
45-16 '3
51.9 *
"•39 "
90.5 \
41.19 „
58.2 5
19.2
53-39 „
56.9 '
12
45.04 ^
52.4 ^
"•»9'°
90.3 ,
4»07 "
58.6 ^
II
0
9
5
>7
5
10
4
29.2
53.28
56-9 ,
44.95 ,
52.9 g
53.5 °
12.02
89.8 .
89.0 ,^
40.97 ,
59.0
June 8.2
53.20 °
56.7 '
44.88 7
11.89 '3
40.90 I
59.4 !
18.1
53-15 \
56.3 *
44.84 ;
54-^ e.
11.80 9
87-9 !
40.85 \
59.7 I
28.1
53-13 ,
55-7 ;
44.83
54.7 ^
55-3 ^
11.76 4
»6-5 6
84.9 '**
»7
40-83 *
60.1 ^
July 8.1
53-15 g
55-0 I
44.84 '
4
11.76 °
4
40.85 ^
60.4 3
2
18.0
53.21
54-2
44-88
55-8
1
11.80
*3-2 ,„
40.90
60.6
28.0
53.30 '
53-3 ,„
44-95 ,„
56.3 ^
"•«9 ,!
81.3 '9
40.97 7 i 60.7 *
Aug. 7.0
53.42
52.3 ,_
*S°5 °
56.7 1
12.03 ,7
12.21 '*
•«/% A 20
79.3
*'°7 3
60.8 '
17.0
53-57 a
51.2 "
45-18 '3
57-0 3
77.2
41.20 \l
60.7 '
26.9
53-75 \\
22
49.9 ^3
14
45.34 ,8
57- :
22
22
75.0 »
41.36 '^
19
60.5 \
4
Sept. 5.9
53.97 ^^
^^•5 ,^
45.52
57-1 ,
12.69
72.9 „
41-55 „
60.1
59.5 ^
159
54-22 11
47-1 \\
45.73 "
56.8 3
12.99 ^°
M.^ >. 2 2
7°-7 ,,
41.76 "
259
54.50 ^°
45-6 5
4596 '3
56.3 I
55.5 .:
13.33 „
68.6 "
42.00 3
4226 'J
58.8 7
Oct. 5.8
54.80 30
44.1 '5
46.22 f
13.70 37
66.6 *°
57.9 ,^
15.8
55.13 ^^
42.6 '5
46-51 !'
10
54-5 :,
14.10 4°
64.8 '»
42-55 !?
56-7 :
35
15
30
12
43
17
31
14
25.8
55-48 .
4'-i „
46.81
53-3 ,,
^4.53 ,,
63.1 ,,
42.86
55.3 ..
Nov. 4.7
55.84 ^^
39.6 '5
47.13 \\
51-9 1
'4-98 45
61.6 '5
43-18 f^ 53-8!^
147
56.22 38
38.2 4
47.46 "
50-4 \i
15-44 ^J
60.4"
59.6 \
43-51 33
5-3
24.7
56.60 38
37° 0
47.79 33
46.9 „
^ ^ 18
44
43-85 ^t
Dec. 4.7
56.97 37
35
36.0 -
48.11 32
31
59- » ^
44.18 33
32
14.6
5732 ^^
35.2 .
48.42 .8
48.70 '°
45.1 ,^
16.81
58.9 ,
44-50
47.5 ..
24.6
57.64 ^'
34.6 \
41.8 '^
17.21 ^°
59' 6
59.7 *
44-79 ,? i 46.0 \\
45-05 '*' 44-7 '^
34-6
57.93 ^
34.3 ^
48.95 '5
17-56 35
Sec (J, Tan <J
1. 166 +0.599
1.006 40.II0
1.506 +I.I26
1.023 40.216
Mean Place
52V750 48".oi
44-.63I 5i".78
II-.344 76".27
40*.570 56".07
DV «i !>« «
•fo.oi +0.03
0.00 0.00
40.02 40.05
0.00 40.0I
D^<$, Dm(5
-0.3 +0.7
-0.3 40.7
-0.3 +07
-0.3 40.7
[Eph X?]
APPARENT PLACES OF STARS, 1912.
363
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.6
I0.6
20.5
305
Feb. 9.5
29.4
Mar. 1 0.4
20.4
30.4
Apr. 9.3
19-3
293
May 9.2
19.2
29.2
June 8.2
18.1
28.1
July 8.1
18.1
28.0
Aug. 7.0
17.0
26.9
Sept. 5.9
159
259
Oct. 5.8
15-8
25.8
Nov. 4.8
147
24.7
Dec. 4.7
14.6
24.6
34.6
h^ Cariiue.
Mag. 5.x
Right
Ascension.
h m
8 54
50.52
50.77
50.94
5 1 02
51.02
50.93
50.77
50.55
50.27
49.95
49.60
49.23
48.85
48.48
4813
47.80
47.50
47.24
47.03
46.87
46.76
46.71
46.73
46.82
46.98
25
8
Declina-
tion S.
Sec <5, Tan 6
Mean Place
i6
22
28
32
35
37
38
37
35
33
30
26
21
16
II
5
2
9
16
22
47-20
47.48 ;'
47.82 ^^
48.22 ^°
48.67 j^
49.15 .^
49.64 "^^
50.63 "^^
51.10 "^7
42
5^-52 ,^
52.18 ^9
-5853
5.4
9.2
130
16.8
20.5
24.1
27.4
30.3
32.9
35.0
36.7
37.9
38.6
38.7
38.3
37.4
36.0
34.2
32.0
29.5
38
38
38
37
36
33
29
26
21
17
12
7
I
4
9
14
18
22
25
28
K Unse XaJoriB.
Mag. 3.7
Right
Ascension.
26.7
23.8 ^9
20.8 3°
17.8 3^
14.9
29
26
12.3
lO.O ^^
8.1 ^9
6.8^3
6.0 ®
5.9
6.4
7.6
9.4
11.8
5
12
18
24
29
14.7
18.0 3^
21.5 ^^
1.935
49'. 158
-1.657
22".30
-0.03
-0.3
-0.08
40.7
h m
8 57
38*87
3919
39.45
39.64
39.76
39.81
39.79
39.71
39.57
39.39
39.18
38.96
38.74
38.53
38.34
38.17
38.04
37.95
37.90
37.90
37.94
38.02
38.15
38.32
38.53
32
26
19
12
5
2
8
14
18
21
22
22
21
19
17
13
9
5
o
4
8
13
17
21
25
Declina-
tion N.
30
33
37
38.78
39.08
39.41
3978 ^^
40.18 ^^
42
40.60
41.04
41.49
41.95
42.41
42.84
43.24
43.60
44
45
46
46
43
40
36
+ 4730
16.6
17.4
18.5
19.9
21.5
23.2
24.9
26.7
28.4
29.8
31.0
31.9
32.5
32.7
32.6
32.2
31.4
30.4
29.1
27.6
25.9
24.0
22.0
19.9
17.8
15.6
13.5
1 1.4
9.3
7.4
5.7
4.2
3.0
2.0
1.4
1.2
1.4
1.9
7
8
7
4
2
9
6
2
I
4
8
10
13
15
17
19
20
21
21
22
21
21
21
19
17
15
12
10
6
2
2
5
(T* Ursse Xajoils.
Mag. 4.9
Right
Ascension.
1.480 +1.09 1
37«.443 i8".83
h m
9 2
s
42 -97 „
4348 f
4389 ^'
44.18 '9
17
44.35 !
44.39
44.32
44.14
43.87
43.52
7
18
27
35
40
+0.02 -K).05
-0.3 40.7
[Eph Tal
43
44
43^12
42.69
41.82 ^^
41.41 ^'
36
31
24
17
9
I
8
16
24
32
39
46
53
59
65
69
44.34 ..
45.06 72
45.80 74
46.54
47.27
41.05
40.74
40.50
40.33
40.24
40.23
40.31
40.47
40.71
41.03
41.42
41.88
42.41
43.00
43.65
74
73
70
47.97
48.61
49.17
64
56
Declina-
tion N.
+ 67 29
29.2
30.9
33.0
35.3
37.8
40.4
43.0
45.4
47.6
49.5
51.0
52.0
52.5
52.5
52.1
17
21
23
25
26
26
24
22
19
15
10
5
o
4
9
K Cancrl.
Mag. 5.1
Right
Ascension.
51.2
49.8 '^
48.1
46.0
43.6
17
21
24
26
41.0
38.2
35.3
32.4
29.4
28
29
29
30
29
28
27
26.5
23.7
21.0
8.6^4
4.7
3-3
2.3
1.7
1.6
2.1
3.1
4.5
14
10
6
I
5
10
14
2.612 +2.413
40*.028 33".62
+0.04
-0.3
40.12
40.7
h
9
s
59.66
59.90
60.10
60.25
60.34
60.38
60.38
60.33
60.25
60.14
60.01
59.87
59.74
59.61
59.49
59.39
59.32
59.27
59.25
59.26
59.29
59-35
59.45
59.57
59.72
59.89
60.09
60.32
60.58
60.86
m
2
24
20
15
9
o
5
8
II
13
14
13
13
12
10
7
5
2
I
3
6
10
12
15
17
20
23
26
28
30
32
61.16
61.48
61.82 34
62.16 34
62.49 II
32
62.81
63.11 ^°
63.37 '^
Declina-
tion N.
+ 11 I
26.1
24.9
23.8
22.9
22.3
21.9
21.7
21.7
21.9
22.2
22.5
22.9
23.3
23.7
24.2
24.6
25.1
25.5
25.8
26.1
26.4
26.6
26.7
26.7
26.5
26.1
25.6
24.9
23.9
22.8
21.5
20.0
18.4
16.7
15.0
13.3
II.7
10.3
12
II
9
6
2
o
2
3
3
4
4
4
5
4
5
4
3
3
3
2
I
o
2
4
5
7
10
II
13
15
16
17
17
17
16
14
1. 019 40.195
58«.96o 22".38
0.00
-0.3
40.0I
40.7
364
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
4
^ Argfts.
0 Hyditt.
/9 Axffts.
88
.CanciL
Mean Solar
Mag. 2.2
Mag. 3.8
Mag. Z.8
Mag. 6.6
Date.
1
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Aacension.
tion S.
AscendoiL
tion N.
Aaoension.
tion S.
Aacenaion.
tion N.
h m
e '
h m
«
r
h m
0
h 1
n
•
9 4
-43 4
ft
9 9
+ 240
9 12
— 6920
if
9 14
+ 18 4
Jan. 0.6
46-34 ,,
22.5
47-87 „
75.3
8
57-9 ,,
a
5.10
26
46.0
I0.6
46.57 \i
26.0 35
48.10 ="3
73.6
»7
_ ^
16.54 ^^
6'S 5
5.36
45- » ^
20.6
46.74 \\
295 \\
48-30 ^°
72.0
16
16.77 \\
^5-3 ''
5.57
21
16
44.4 ;
30.5
46.85 '
33-0 t\
48.45 '^
70.6
14
16.88 "
69.2 39
5.73
43-9 f
Feb. 9.5
46.90 5
36.4 ^*
32
48.54 I
69.5
II
9
16.88 °
12
73-1 39
38
5.84
II
6
43-7 J
19.5
46.89
39-6 ,„
48.58
68.6
^
16.76
80.5 3<^
5.90
w
43-8
29.4
46.83 ,t
45.1 l\
48.58 I
67.9
7
16.54 "
5.91
I
44.0 ,
Mar. 1 0.4
46.71 "
46.55 J
48.54 ^
67.4
5
16.22 3*
83.8 33
5.87
44-3 ^
20.4
47-4
49-^ x4
48.46 *
67.1
3
15.82 4°
86.7 '9
5.79
44.8 \
45.4 J
30.4
46.36 \\
48.36 '°
12
67.0
I
I
15.35 J^
89.2 *5
21
5.69
10
13
Apr. 9.3
46.15 „
50.6
48.24
67.1
14.83 ,,
14.27 ^'^
9^-3 ,6
92.9 „
5.56
46.0
19.3
45.92 ^3
51.5 \
48.11 '3
67.3
2
5.42
14
46.5 \
29.3
45-68 \\
52.0 5
47.97 '1
67.6
3
13.70 ^7
13.12 5
940"
5.28
^4
470 *
May 9.3
45.45 .t
52.0 I
47.84 ^
68.0
4
94.5 I
5.15
13
T t
47-5 f
19.2
45.23 "
51-6 *
47.73
68.5
5
12.55 „
94-5 °
5.03
1 i
47-9 t
20
9
10
6
55
5
10
3
29.2
45-03 ,,
50-7 ,,
47.63 «
69.1
12.00
940 ,„
4.93
8
6
48.2
June 8.2
44.86 7
49-4 ^
47.55 ^
69.8
7
6
^^•^^^7
93.0 °
485
48.5 \
18.1
4471 \\
47-7 !
47.50 ^
70.4
11.02 ^'
9' -5 '!
4.79
48.7 '
28.1
44.59 "
45-7 !°
47.47 ^
71. 1
7
10.62 ^°
89-5 Z
4.76
3
48.8
July 8.1
44.51 °
43-5 "
47.47
71.8
7
10.29 33
87.2 ^3
4.76
0
48.7 '
4
24
0
7
25
27
2
2
18. 1
44.47 ^
4*-^ ,/;
47.50
72.5
^
10.04
9.88 'J
9.82 \
^4-5 ,„
4.78
6
48.5 ,
28.0
44.47 .
38.5 !
47-55 !
73.1
6
81.6 '9
4.84
48.3 \
Aug. 7.0
44.51 I
55-2
33.2
47.63 „
73.7
6
78.6 30
4 V
4.93
9
T *
48.0 3
17.0
44.60 ^
47-74 '!
74.1
4
9.85 ,f
75-5 ^'
5.04
I 1
47-5 X
46.9 \
27.0
44.73 :
30.7 ^5
47-87 ^
74.4
3
9-99,':
7^-5 '^
5.18
H
17
23
16
I
24
29
17
Sept. 5.9
44.90^^
28.4
48.03
74.5
10.23
^70 't
5.35
^%f\
46.1
15-9
45-^^ Z
26.5 \\
48-22 '9
74.3
2
10.57 ^
5.55
20
45-2 9
25-9
45.38 ^J
^5-^ '
48-44 "
73.9
4
1 1. 01 **
64.8
5.78
»3
26
44-1"
Oct. 5.8
45.68 3^
24.0 'I
48.69 "5
73.3
0
"•53''
63.1 ^
6.04
4^-8 1
15.8
46.01 ^l
36
23.6 ^
48.97 ^*
30
72.4
9
12
12.12 ^/
64
61.9 "
5
6.33
29
30
41.4 '4
15
25.8
Nov. 4.8
46.75 ^®
23.7 ^
24.4 7
49-27 „
49-58 3'
71.2
69.7
15
^3-44 ^^
61.4
61.5 '
6.63
6.96
33
39-9 ,^
38.3 *
1
14-7
47.14 ^^
25.7 '^«
*?2
49.90 ^^
68.0
17
— 0
'4-^3 S
62.3 *
7.30
34
?t 0 ^
15
24.7
47.53 ;;
^7-5 !
50.23 ^^
66.2
18
^545 3J
63-8 w
7.65
35
Dec. 4.7
47.90 37
35
29.9 ^^
50.56 33
31
64.3
19
19
^5-9 :•
8.00
35
33
14.7
48.25
32.7 _
50.87 ^
62.4
16.04
68.5
8.33
«k ««
3^-9 „
24.6
4^-57 ^'
35-9 \\
5^-^^ 6
60.4
20
- 0
'^•55 f
71.6 3«
8.65
32
28
30.6 3
34.6
48.83 ^^
39.3 ^"^
51.42 ^^
58.6
18
16.96 ^"
^ a
75.0 34
8.93
29.5 "
Sec rf, Tan (5
1.369 -0.935
1. 00 1 +0.047
2.836 -2.654
1.05 1 +0.326
Mean Place
45'-5i9 37".4i
-0.02 -0.04
47-.242 69".9i
>
I4'.3i3 76".74
-0.05 -0.13
4'-3
+0.0
63 44". 14
D'^ a, Dw a
0.00 0.0c
I +0.02
X)^ 6, X)^ 6
-0.3
40.7 1
-0-3
+0.7
-0.3
•K>.7 1
-0.3
+0.7
[Eph la]
APPAKENT PLACES OF STAES, 1912.
365
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.6
X0.6
20.6
30.5
Feb. 9.5
19.5
29.4
Mar. 10.4
20.4
30.4
Apr. 9.3
19.3
293
May 9.3
19.2
29.2
June 8.2
18.1
28.1
July 8.1
18.1
28.0
Aug. 7.0
17.0
27.0
Sept. 5.9
159
25.9
Oct. 5.8
15.8
25.8
Nov. 4.8
14.7
24.7
Dec. 4.7
14.7
24.6
34.6
Sec <J, Tan rf
Mean Place
ly^ a, Dm a
I ArsfUi.
Mag. 2.3
Right
Ascension.
h m
9 14
45-12
45.41
45.61
45.73
45.77
29
30
12
4
4
45.73
45.61
45.42
45.18 ^4
44.89 '^
12
19
33
35
36
36
36
33
31
28
23
18
13
8
I
5
12
19
26
32
37
43
47
43-79 ^^
44.28 4^
SI
44.79 '
45.77 J3
46.22
46.61 39
46.94 33
44.56
44.21
43.85
43.49
43.13
42.80
42.49
42.21
41.98
41.80
41.67
41.59
41.58
41.63
41.75
41.94
42.20
42.52
42.89
43.32
Declina-
tion S.
-5854
2.6
6.2
1 0.0
13.8
17.6
36
3«
3«
38
37
34
21.3
24.7
27.8 3^
30.6 '
32.9
34.8
36.2
37.2
37.6
37.5
28
23
19
14
10
4
I
7
36.8
35.7
34.1
32.1
29.8 ^3
II
16
30
27.2
24.4
21.4
18.4
15.5
12.8
10.4
8.4
6.9
5.9
5.6
5.9
6.9
8.5
10.7
13.4
16.5
20.0
26
28
30
30
29
27
24
20
15
10
3
3
10
16
23
27
31
35
1.936 -1.658
43'-970 2o".30
-0.03
-0.3
-0.08
40.7
40 Lynoia.
Mag. 3.3
Right
Ascension.
h
9
m
15
s
42.88
43.18 3°
43.42 ^4
43.60
43.73
43.80
43.81
43.76
43.67
43.55
18
13
7
I
5
9
12
15
17
43.40
43.23
43.06 ]l
42.90
42.75
16
15
13
42.62
42.52
42.44
42.40
42.39
42.41
42.47
42.56
42.69
42.85
10
8
4
I
2
6
9
13
16
19
23
26
43.04
43.27
43.53 ,^
43.82 II
44.49 ,_
44.86 37
45.25
45.65
46.04
46.42
46.77
47.09
39
40
39
38
35
32
Declina-
tion N.
+ 34 45
53-5
53.5
53.8
54.4
55.2
56.2
57.4
58.6
59.8
61.0
62.1
63.0
63.7
64.2
64.4
64.4
64.2
63.7
63.0
62.2
61.2
60.0
58.7
57.2
55.6
53.9
52.2
50.4
48.6
46.8
45.0
43.3
41.7
40.3
39.1
38.2
37.6
37.3
3
6
8
10
12
12
12
12
II
9
7
5
2
o
3
5
6
7
7
8
8
8
8
7
6
4
2
9
6
3
1.2 1 7 40.694
4I-.887 54".94
+0.01 +0.03
-0.3 40.7
[Bph xa]
^Pyzidls.
Mag. 4.9
Right
Ascension.
h m
9 17
36.20
36.44
36.63
36.76
36.84
36.87
36.86
36.80
36.70
36.57
36.42
36.26
36.10
35.94
35.79
35.65
35.53
35.44
35.37
35.33
35.32
35.34
35.39
35.47
35.58
35.73
35.92
36.14
36.39
36.67
36.98
37.31
37.65
37.99
38.33
38.65
38.95
39.21
24
19
13
8
3
I
6
3
5
6
6
6
5
4
9
7
4
I
5
8
II
15
19
22
25
28
31
33
34
34
34
32
30
36
Declina-
tion S.
-2535
15.4
18.4
21.4
24.3
27.0
29.5
31.7
33.6
35.3
36.6
37.5
38.1
38.3
38.2
37.8
37.0
35.9
34.6
33.0
31.2
29.4
27.4
25.4
23.5
21.7
20.2
18.9
18.0
17.5
17.5
18.0
19.0
20.4
22.3
24.5
30
30
29
27
25
22
19
17
13
9
6
2
I
4
8
II
13
16
18
18
20
20
19
18
15
13
9
5
o
5
10
14
19
23
36
27.1
32.8 '9
1. 109
35'-627
-0.479
.ft
37". 13
-O.OI
-0-3
-0.03
40.7
a Hydrae.
Mag. 2.2
Right
Ascension.
h m
9 23
s
6.34
6.58
6.78
6.93
7-03
7-09
7-09
7.05
6.98
6.88
6.76
6.63
6.50
6.37
6.24
6.13
6.04
5.97
5.93
5.91
5.92
5.95
6.01
6.09
6.20
6.35
6.53
6.74
6.98
7.24
24
20
15
10
6
o
4
7
10
12
13
13
13
13
II
9
7
4
2
I
3
6
8
II
15
18
21
24
26
29
31
7.53
7.84 ,,
8.16 32
8.49 II
8.82 33
32
9.14
9.43
9.69
29
26
Decllna-
tion S.
-816
28.2
30.5
32.7
34.7
36.5
38.1
39.4
40.5
41.3
41.9
42.3
42.4
42.3
42.0
41.5
40.8
40.0
39.0
37.9
36.8
35.6
34.4
33.3
32.3
31.4
30.7
30.3
30.2
30.4
31.0
31.9
33.2
34.8
36.7
38.8
41.0
43.3
45.7
23
22
20
18
16
13
II
8
6
4
I
I
3
5
7
8
10
II
II
12
12
II
10
9
7
4
I
2
6
9
13
16
19
21
22
23
24
1. 01 1 -0.145
i5*-8o7 35".88
0.00
-0.3
-O.OI
+0.6
366 APPAKENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.6
I0.6
20.6
30.5
Feb. 9.5
195
295
Mar. 10.4
20.4
30.4
Apr. 9.3
193
29.3
May 9.3
19.2
29.2
June 8.2
18.2
28.1
July 8.1
18.1
28.0
Aug. 7.0
17.0
27.0
Sept. 5.9
15-9
25.9
Oct. 5.9
15.8
25.8
Nov. 4.8
147
24.7
Dec. 4.7
14.7
24.6
34.6
Sec (J, Tan <J
Mean Place
h TJnm XajoilB.
Mag. 3.8
Right
Ascension.
h m
9 24
38.71
39.19
39.59
39.90
40.10
40.20
40.19
40.09
39.90
39-64
39.33
38.98
38.62
38.26
37.91
37.59
37.32
37.10
36.94
36.84
36.80
36.83
36.93
37.09
37.32
37.62
37.98
38.40
38.88
39.41
48
40
31
20
10
I
10
19
26
31
35
36
36
35
32
27
22
16
10
4
3
10
16
23
30
36
42
48
53
57
39.98
40.59
41.88 ^5
61
64
42.53
43.16
43.74
44.27
65
63
58
53
Declina-
tion N.
+ 63 26
n
45.8 '^
49.5 1":
51.8 '3
25
56.8 ^5
59.2 '^
61.5
63.5
65.2
66.4
67.2
67.6
67.5
23
20
17
12
8
4
I
6
66.9
65.9 ^°
62.7 '®
60.6"
24
58.2
55.6
26
52.8 ^»
29
44.1
41.2
38.4
35.8
33-4
29
28
26
24
21
31.3
29.5
28.1
27.2
26.7
26.7
27.2
28.2
18
14
9
5
o
5
10
2.237 -1-2.001
36V359 5o".33
■K>.03
-0.3
40.IO
40.6
d Vism Xajorls.
Mag. 4.6
Right
Ascension.
h m
9 26
46.64
47.25
47.76
48.14
48.38
48.49
48.47
48.32
48.06
47.70
47.27
46.79
46.29
45.79
45.30
44.85
44.45
44.12
43.86
43.68
43.59
43.60
43.70
43.89
44.17
44.53
44.98
45.51
46.11
46.78
47.52
48.30
49.11
49.94
50.76
51.55
52.29
52.95
61
51
38
24
II
15
26
36
43
48
50
50
49
45
40
33
26
18
9
I
10
^9
28
36
45
53
60
67
74
78
81
83
82
79
74
66
Declina-
tion N.
+ 70 12
57.9
59.4
61.4
63.7
66.3
15
20
23
26
27
27
27
69.0
71.7
74-4 ,^
76.8 ^^
78.9 "
' ^ 18
80.7
82.0 ^^
82.8
83.1
82.9
82.2
81.0
79.3
77.3
75.0
12
17
20
23
26
29
31
31
72.4
69.5
66.4
^3-3 ,,
60.1 32
31
57.0
31
53.9
29
51.0
48.3 II
45.8 'A
43.7
41.9
40.6
39.7
39.4
39.6
40.4
41.6
21
18
13
9
3
2
8
12
2.955 +2.780
43'-372 64".39
+0.05 40.15
-0.3 40.6
[Bph xa]
0 Vnm Xajorls.
Mag. 3.3
Right
Ascension.
h m
9 26
60.29
60.67
60.99
61.23
61.39
61.48
61.49
61.43
61.31
61.14
38
32
24
16
9
I
6
12
17
21
24
25
60.93
60.69
60.44
60.20 ^^
59.97 II
59.76
59.59
59.45
59.35
59.29
59.28
59.32
59.40
59.53
59.71
17
14
10
6
4
8
13
18
22
59.93 ^^
60.20 '
32
60.52
60.88
61.27
61.70
62.16
62.65
63.15
63.64
64.12
64.57
64.98
36
39
43
46
49
50
49
48
45
41
1.627
58'.762
Declina-
tion N.
+ 52 4
39.8
40.5
41.7
43.2
44.9
7
12
15
17
19
20
21
46.8
48.8
52.8 '9
54.5 ''
56.0
57.2
58.1
58.5
58.6
58.3
57.6
56.6
55.2
53.6
51.7
49.6
47.4
45.0
42.5
40.0
37.4
34.9
32.4
30.1
28.0
26.1
24.5
23.3
22.5
22.1
22.1
22.6
15
12
9
4
I
3
7
10
14
16
19
21
22
24
25
25
26
25
25
23
21
19
16
12
8
4
o
5
+1.284
1"
44''.57
+0.02
-0.3
+0.07
.K>.6
S LeonlB.
Mag. 5.1
Right
Ascension.
Declina-
tion N.
h m
9 27
s
12.89
26
13.15
22
13.37
T •*
13.54
17
13.66
12
6
13.72
<>
13.74
^
^
13.72
2
6
13.66
13.56
10
12
13.44
t 'i
13.32
1 X
13.19
13
1306
i3
T2
12.94
10
12.84
8
12.76
12.70
VI
12.66
4
12.65
I
I
12.66
12.70
4
6
12.76
12.85
9
12.98
13
16
13.14
t8
13.32
^ *
13.53
X 1
13.77
24
14.04
27
3"
14.34
14.65
31
14.98
33
15.32
34
15.66
34
33
15.99
16.30
31
16.59
29
+ 11 41
27.0
25.6
24.5
23.6
23.0
22.6
22.4
22.4
22.6
22.9
23.3
23.8
24.2
24.7
25.2
25.7
26.1
26.5
26.8
27.1
27.3
27.4
27.4
27.2
26.9
26.5
25.9
25.0
23.9
22.7
21.2
19.6
17.9
16. 1
14.3
12.6
10.9
9.4
14
II
9
6
2
o
2
3
4
5
4
5
5
5
4
4
3
3
2
I
o
2
3
4
6
9
II
12
15
16
17
18
18
^7
17
15
1. 02 1
I2".262
40.207
, ft
24' .II
0.00
-0.3
40.0I
40.6
APPARENT PLACES OF STARS, 1912.
367
FOR THE UPPER TRANSIT AT WASHINGTON.
0 AsftiS.
10 Leonis Xinorii.
0 Leottls.
C ChanueleontlB.
Mean Solar
Mag. 3.6
Mag. 4.6
Mag. 3.8
Mag. 5.2
Date.
Right
Declina-
Right Declina-
Right
Declina-
Right
Declina-
Ascension.
tion S.
Ascension. tion N.
Ascension.
ticmN.
Ascension.
tions.
h m
0 r
h m
e
»
h m
e
*
h m
0 »
9 27
-40 4
9 28
+3647
9 36
+ 10
It
17
9 36
-8032
If
Jan. 0.6
37-9 „
8
51.22
17.4
8
27.92
38.6
8
34.20
24.8
I0.6
4^-3 ^^
5^-53 tl
17.4
0
28-I9 '!
37.1
15
34.93 1^
28.2 34
20.6
14.96 ^^
44-7^
51.79!^
17.7
3
28.41 "
35.9
12
SI
35-44 ,a
31-8 3f
30.5
15.19 ,
48.1 !1
21
52.00
18.3
6
28.58 '7
34.9
10
35.72 ^«
35-6 3»
Feb. 9.5
5^-4 „
52.15 'I
19.2
9
28.71 '3
34.2
7
35.76 4
39.5 39
3
32
8
II
8
5
20
39
195
15.22
S4<^ ,0
52.23
20.3
V ^
28.79 ,
33.7
j%
3556 ^,
43-4 ,„
29.5
15.19 I
15.II I
60.2 ="*
52.25 ^
21.6
13
28.82 3
33.4
3
35.14 *
47-2 38
Mar. 1 0.4
52.22 I
23.0
14
28.80 '
33.3
I
34-52 f
50.8 36
20.4
14.82 ]l
^^•5 ^0
8
52.14 ^^
24.4
14
28.75 5
33.4
I
33-71 „'
54.1 33
30.4
64.4 '
52.02 "
25.7
13
28.66 9
33.7
3
32.75 '
57-1 30
18
15
15
12
II
3
1 10
26
Apr. 9.3
H-^4 ,^
659 „
5^-^7 ,
26.9
^^•55 „
34.0
31-65. _
59-7
19-3
20
67.0 "
67.6 ;
5^-7^ J
27.9
10
0
28.43 "
34.4
4
120
30-45 ",
61.8"
293
20
5^-54 ^
28.7
8
28.31 "
34.9
5
29.18 "7
63.5 '^
May 9.3
^4-^3 "
67.8 ^
51.38 \l
29.2
5
28.18 '3
35.4
5
=^7-87 13;
64.6 "
19.2
13.83 'I
67.6 I
51.22 ^^
29.5
3
28.06 "
35.9
5
26.54 '33
65.2 *
19
6
14
I
10
5
»3i
0
29.2
13.64
67.0
51.08
29.6
27.96
36.4
^3-97, «
65.2
June 8.2
13.47 ;
66.0 '*»
50.97 "
29.4
2
27.87 9
36.9
5
64.7 s
18.2
13.33 ,^
64.6 4
62.8 '^
50.88 I
28.9
5
27.80 7
37.3
4
^_ __ 118
^^•79 ,^,
63.7 't
28.1
13.21 "
50.82 I
28.2
7
27.76 4
37.7
4
21.72 '^'^
62.2 *5
July 8.1
13.12 ^
^•7"
50.80 ^
27.3
9
27.74 ""
38.0
3
20.78 94
60.2 »'>
5
33
I
II
I
3
77
24
18.1
13.07 ^
58-4 ,^
50.81
26.2
27.75 ,
38.3
20.01
57.8
28.0
13.05
56.0 4
50.85 ^
50.93 „
24.9
13
27.78 3
38.5
2
19.42 ^x
55-^ I
Aug. 7.0
13.07 6
13.13 ,^
53.5 11
23.4
15
16
27.84 I
38.5
0
19.04 38
18.88 '^
5^-^ 0
17.0
510 ^5
51.04 "
21.8
27.93 ,;
38.4
I
49.2 3^
27.0
13.23 ,°
48-7 ?,
51.19 I
20.1
17
28.04
38.2
2
18.95 ^
46.1 3'
14
22
18
18
14
4
30
30
Sept. 5.9
^^•37 ,„
4^-5 ,„
5^-37 ,,
18.3
28.18
37.8
£_
19.25 .^
43-1 ,0
15.9
13.56 11
44-6 9
51.59 ",
16.4
19
28.35 11
37.2
0
0
19.79 54
4°-3 :!
259
13.79 ^:
43.1 ^
51.84 ^f
14.4
20
^^•56 "
36.4
8
20.54 ^^
37.8 ^5
Oct. 5.9
14.06 ^7
42.0 •
52.13 ^l
12.4
20
28.79 '^
35.4
10
21.49 95
35-7 "
15.8
14.37 ^1
41-5 „
52.45 _
10.4
20
29.05 f
34.1
13
22.60"'
34-1 '*
34
0
35
19
29
14
125
10
25.8
15.07 tl
41.5 g
42.1 ,,
52.80
8.5
29.34 ,,
32.7
_ ^
23.85,^^
33.1 ^
Nov. 4.8
53.17 -*'
6.6
19
29.65 3'
31. 1
16
25.19 a
32.7 ^
14.7
15.45
15.83 ll
450
5356 ^^
4.9
17
29.98 33
29.3
18
• 0
26.57 ;^!
32.9 ""
24.7
5396 11
3.4
15
30.32 34
27.5
18
27.94 ,:;
33-8 ,^
Dec. 4.7
16.21 38
47-2 '!
54.36 4°
2.2
12
30.66 34
25.6
19
29.26 '32
35.4 '^
36
26
39
10
33
18
120
22
147
16.57 _
49-8 ,^
54.75 „
1.2
^
30.99 ,^
23.8
30.46 _.
37.6^
24.6
16.90 ^^
5^-^ ^!
55.12 37
0.6
6
31.303^
22.1
17
106
31.52 g
40.3 ^'
34-6
17.18 ^®
56.0 3^
55.46 ^^
0.3
3
31.59 '^
20.5
16
32.39 ^
43.5 3*
Sec 6, Tan 6
1.307 -0.842
1.249 -K>.748
1.016 +0.182
6.088 -6.005
Mean Place
I3'.885 52".87
50*.225 I9".9^
[
27*345 35".66
30-.596 45".72
DV <^f r>» a
-o.oi -0.04
+0.01 +0.04
0.00 40.01
[
-0.09 -0.32
Df (J.DmcI
-0.3
40.6 1
-0.3
40.6
1
-0.3
40.6
-0.3
40.6
[Bph za]
368
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.6
I0.6
20.6
30.5
Feb. 9.5
19.5
295
Mar. 1 0.4
20.4
30.4
Apr. 9.4
193
29.3
May 9.3
19.2
29.2
June 8.2
18.2
28.1
July 8.1
18.1
28.1
Aug. 7.0
17.0
27.0
Sept. 5.9
15.9
25.9
Oct. 5.9
15.8
25.8
Nov. 4.8
14.8
24.7
Dec. 4.7
14.7
24.6
34-6
Sec <5, Tan <J
Mean Place
^AnfUe.
Mag. 5.0
Right
Atcensioou
h m
9 40
8
7.17
7-43
7.64
7.80
7.91
7.97
7-97
7-93
7.85
774
7.61
7.46
7.30
7.14
6.99
6.85
6.72
6.61
6.53
6.47
6.43
6.42
6.45
6.51
6.60
26
21
16
II
6
o
4
8
5
6
6
5
4
3
I
8
6
4
3
6
9
13
17
20
23
6.73
6.90
7.10
7-33
7.60^7
30
7.90
8.23
8.57
8.92
9.27
9.61
9.93
20.21
33
34
35
35
34
32
28
Declina-
tions.
— 27 21
*»
45-9 ,„
54-9 Z
60.4
62.8 ^^
64.9 ^'
66.7 ^«
68.2 '5
12
69.4
70.2
70.6
70.7
70.4
s
69.8
68.9
67.7
66.2
64-5
8
4
I
3
6
9
12
15
17
18
62.7
60.8 '9
58.8 '°
56.9 '^
55.1
18
17
534
52.0
510
50.3
50.1
M
10
7
2
3
8
13
18
50.4
51-2
52.5
54-3 ^,
56.5 -^^
25
61.7 ^7
64.6 ^9
1. 126 -0.518
i6*.7i5 58".20
B Leonls.
Mag. 3.1
Right
Ascension.
h m
9 40
s
52.26
52.55
52.79
52.99
53-13
53-22
53-25
53-24
53-19
53.10
52.98
52.85
52.72
52.58
52.45
52.33
52.23
52.16
52.11
52.08
52.09
52.12
52.18
52.27
52.39
52.54
52.72
52.93
53-17
53-45
53.76
54-09
54-44
54-80
55.16
29
24
20
14
9
3
X
5
9
12
13
13
14
13
12
10
7
5
3
I
3
6
9
12
15
18
21
24
28
31
33
35
36
36
36
55-52
55.86 34
56.17 ^'
Declina-
tion N.
+ 24 10
46.9
46.2
45.7
45-5
45-6
46.0
46.6
47-3
48.1
49.0
49.8
50.6
51.4
52.0
52.5
52.8
53-0
53-0
52.8
52.5
52.1
51-5
50.7
49.8
48.8
47.6
46.2
44.7
43.1
41.4
39.6
37.7
35.9
34.1
32.5
31. 1
29.9
28.9
7
5
2
I
4
6
7
8
9
8
8
8
6
5
3
2
o
2
3
4
6
8
9
o
2
4
5
6
7
8
9
8
8
6
4
2
o
1.096 -K>.449
5i«.538 47".48
t^ UrsBB Xajorls.
Mag. 3.9
Right
Ascension.
h m
9 44
s
46.47
46.94
47.33
47-64
47.86
47.99
48.02
47.97
47.84
47.65
47
39
31
22
13
3
5
13
19
25
28
47.40
47.12
46.82 30
46.51 \l
46.21 30
^ 28
45.93 „
45.68 5
^547 ,^
45.31
45.20 I
45.14
45.14
45.19
45.30
45.47
45.69
45.97
46.31
46.71
47.15
47.64
48.17
48.73
49.31
49.89
50.46
51.00
51.49
o
5
II
17
22
28
34
40
44
49
53
56
58
58
57
54
49
Declina-
tion N.
+ 5926
64.6
65.6
67.0
68.8
70.8
10
14
18
20
22
73.0
75.3
77-7 ,,
80.0 ^3
82.0 ^^
23
24
83.8
85.3
86.3
86.9
87.1
86.8
86.1
85.0
83.4
81.5
18
15
10
6
2
3
7
II
16
19
21
24
26
27
79.4
77.0
74.4
68.8^9
29
^5-9 ,^
63.0 ^9
60.1 "9
57.4 ''
54.8
52.4
50.3
48.6
47.3
46.4
46.1
46.2
46.8
26
24
21
17
13
9
3
I
6
1.968 4>i.694
44«.572 7i".62
tiAsgtis.
Mag. 3.2
Right
Ascension.
h m
9 44
55.23
55.61
55.90
56.10
56.20
38
29
20
10
56.20
56.11
55-94
55.70 ^^
31
9
17
55.39
55.03
54.63
54.21
53.78
53.34
52.91
52.50
52.12
51.78
51.49
36
40
42
43
44
43
41
38
34
29
24
51.25 „
51.08 '7
50.99 ^
50.97
51.03
2
6
15
24
32
39
51.18
51.42
51.74
52.13
52.60 ^7
52
53.12
53.68
54.27
54.87
55.46
56.01
56.51
56.94
56.
59
60
59
55
50
43
DecUnai-
tionS.
-6439
n
29.6
33.1 II
36.8 37
40.7 39
44.6 39
38
48.4
52.1
55.6 ^^
58.8 32
61.6^®
37
35
64.0
65.9
67.3
68.2
68.6
68.5
67.9
66.7
65.1
63.1
60.7
58.0
55.1
52.1
49.1
46.2
43.6
41.3
39-4
38.0
37.2
37.0
37.5
38.6
40.4
42.8
45.6
48.9
24
19
14
9
4
I
6
12
16
30
24
27
29
30
30
29
26
23
19
14
8
2
5
II
18
24
28
33
2.337 -2.112
54«.i85 49".30
D'ifr a, Dm a
-o.ox
-0.3
-0.03
•K>.6
-K>.OX 40.02
-0.3 40.6
[Bph la]
•K>.02 40.09
-0.3 40.6
-0.03
-0.3
-0.12
40.6
APPARENT PLACES OF STARS, 1912,
FOR THB UPPER TRANSIT AT WASHINGTON.
369
/I LeonlB.
Groombridge 1688.
19 LeoBis XlnozlB.
Mean Solar
Mag. 6.0
Mag. 4.1
Mag. 6.0
Mag. 5.2
1
Date.
Right
DecUna-
Right
Declina-
Right
Declina-
Right
Declina-
Aicenaion.
UonS.
AaeenaicxL
tion N.
Ascension.
tion N.
Ascension.
tion N.
h xn
•
h m
0
h m
e »
h m
• t
9 46
-3 49
If
9 47
+ 2624
9 50
+7317
If
9 52
+ 4128
Jan. 0.6
48.72 l^
43-*,,
8
4639 ,„
77-5 ,
s
36.19 ,,
4^-2 .^
s
19.00
26.1
I0.6
«-5 lo
46.9s '^
76.8 I
3694 2
37.58 ^4
47-6 1
^9-35 ,X
26.1 °
20.6
48.94 "
49.12 ;
47-5 To
76.4 t
49.5 9
19.65 ^^°
26.5 4
30.6
51-0 .^
47-16 "
76.3 '
38.08 50
54-4 'J
19.89 ^^
27.3 „
Feb. 9.5
49.25 I
47-31 S
76.5 I
38.43 ^^
20.07 _
28.4 "
8
14
10
5
19
28
12
14
19.5
49.33 ,
524 „
47.41
77.0
38.62
60.0'*
20.19 -
29.8
295
49.36 ^
53.5 "
47.45 ;
77.7 ;
38.65 3
20.24 5
3^-3 ^
Mar. 10.4
49.35 '
54-4 ,
47.44 *
78-5 ,!
38.54 "
37.90 ]~
6^-7 11
^5-3 '!
20.23 ^
20.17 ^^
32.9 '
20.4
49.30 ^
49.22
55-^ I
47.39 I
47.31 °
79-5 Z
34-6 11
304
55-5 Z
80.5'**
67.7 '4
20.06 "
36.2 '^
10
2
12
9
47
20
14
14
Apr. 9.4
4912 ,,
55-7 „
4719 „
81.4
37.43 ,^
^9-7 ,,
71.3 f
19.92 .
19.76 ^
19.40 ^3
19.22 ^^
37-6 .,
19-3
4900
55-7 °
47.06 3
82.3 I
36.89 54
389 ]i
293
48.88 "
55.5 ,
46.92 *
83.1 «
36.31 ^'
35-70 J*
72.4 "
73.0 I
39.9 '°
May 9.3
48.76 "
55-2 ;
46.78 *
83.8 7
40.7 I
19.2
48.64 "
11
54.8 I
46.65 1^
84.3 I
73.0 °
41.2 5
1
29.2
48.53 „
54-2
46.53 „
84.6
34.53 „
72.5 „
19.06
41.3 ,
June 8.2
48.44 I
53-5 ;
52.7 I
46.42 "
46.34 1
46.28 *
847 '
34.00 53
33.54 :°
33-»6 38
71.4
18.92 ^
41. 1 I
18.2
48.37 I
48.31 *
84.7 ^
69.9 \i
18.80 '^
40.6 5
28.1
5^-9 !
84.5 I
68.0 '9
18.71 ^
39-8 '
July 8.1
48.28 3
I
51.0 9
46.25 3
84.1 4
5
32.87 |9
657 '^
27
18.66 3
2
38.8 '°
13
18.1
48.27
50.1
46.25 ,
83.6
32.68
*30 ,„
18.64
37-5 „
28.1
48.29 '
49-2 ^
46.27 :
82.9 I
32.59 '
60.1 '9
18.65 '
36-° '
Aug. 7.0
48.33 ^
48.4 I
46.32 5
46.40 ,^
82.0 9
32.60
57.0 3'
18.70 3
18.78 *
34-3 11
17.0
48.40 7
47-7 I
47-1 !
80.9"
32.71 "
53.7 "
32.4 9
27.0
48.49 '
46.51
79.7 "
32.94 y
50.4 ,3
18.90 "
30.3 "
13
4
IS
14
33
34
10
22
Sept. 5.9
48.62 ^
48.78 't
48.96 ll
46.7 ,
46.66
78.3 ,,
33'27 ,,
47.0
19.06
28.1
159
46.5 '
46.84 'J
76-8 !
75.2 ^
33.71 1!
43.7 "
19.26 T
25.9 ",
259
46.6 '
4705 _
34.25 x:
34.88 ^3
4°-5 S
19.50 *
19.78 'J
23.6 3
Oct. 5.9
49.18 "
47.0 I
47.29 t
73-5 ^
37-5 ^°
21.3 '^
15.8
49.43 11
47-8 ,^
47-57 :'
71.6 '9
35.60 72
28
34.7 !
20.09
19.0 '^
28
II
30
19
79
25
35
33
25.8
^^'^^ ,«
48.9,,
47.87 „
^97 _
36.39 o<
32.2
20.44 ,„
16.7
Nov. 4.8
50.01 30
5o-^ i
48.20 33
67-8 ^
3725 ^^
3^-^ ^6
20.82 38
14.6 ''
14.8
50.33 ^^
5^-8 !
48.55 ^^
66.0 '°
38.16 9
28.5 '^
21.22 ^^
12.7 '9
24.7
50.66 33
53-7 '
48.92 11
64.2 1,
39.11 ^l
27.4 ^
21.64 f^
II.o'7
Dec. 4.7
50.99 ^^
55-7 1°
49.29 37
62.5 '7
40.06 93
26.8 ^
22.07
9.6 '4
33
23
36
14
93
I
42
10
14.7
5^'32 _
57-9 „
49.65
61. 1
40.99 00
26.7
22.49 _
8.6
24.6
51.63 ^^^
60.1"
50.00 35
59-9 "
4^-87 ?J
27.2 3
22.89 ^
7-9 I
34.6
51.91 "'
62.3 '''
50.32 ^^
59.0 9
42.67 «°
28.3 "
23.26 37
7.7 '
Sec (J, Tan <5
1.002 -0.067
1. 117 +0.497
3.480 +3.332
1-335 +0.884
Mean Place
48'.ox4 49''.64
45«.669 78".82
32«.438 54".76
I7".972 30".86
]y ^ a. Dm a
0.00 0.00
-K).OI +0.03
+0.05 +0.19
•K).oi -^0.05
D^ <i, Dm ^
-0.3 -K>.5
-0.3 K>.5
-0.3 +0.5
-0.3 40.5
191:
2 24
t
Eph la]
370
APPARENT PLACES OF STAES, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.6
I0.6
20.6
30.6
Feb. 9.5
19.5
29.5
Mar. 10.4
20.4
30.4
Apr. 9.4
19.3
293
May 9.3
19.3
29.2
June 8.2
18.2
28.1
July 8.1
18.1
28.1
Aug. 7.0
17.0
27.0
Sept. 6.0
159
259
Oct. 5.9
158
25.8
Nov. 4.8
14.8
24.7
Dec. 4.7
14.7
24.7
34.6
^ Axffts.
Mag. 3.7
Right
Ascendon.
Sec <J, Tan 6
Mean Place
D V ^t D« ^
h m
9 53
46!85
47.18 ^3
47.44 '^
47.64
47.76
20
12
47.80
47.78
47.69
47-55
47.36
47.13
46.87
46.59
46.31
46.02
45.74
45.48
45.24
45.02
44.83
44.68
44.58
44.53
44.54
44.60
44.72
44.90
45.14
45.44
45.79
9
14
19
23
26
28
28
29
28
26
24
22
19
15
10
5
I
6
12
18
24
30
35
40
44
46.19
46.63
47.08 ^5
47.55 ^^
48.02 ^7
45
48.47,,
48.88 ^'
49.24 3^
Declina-
tion S.
-54 8
37.3
40.7
44.3
48.0
51.8
55.5
59.0
62.3
65.2
67.8
70.0
71.8
73.1
73.9
74.2
74.0
73.3
72.2
70.7
68.7
66.4
63.9
61.2
58.4
55.6
52.9
50.5
48.4
46.7
45.5
44.9
44.9
45.5
46.7
48.5
34
36
37
38
37
35
33
29
26
22
18
13
8
3
7
II
15
20
23
25
27
28
28
27
24
21
17
12
6
o
6
12
18
24
7t Leonis.
Mag. 4.9
53.8 ^^^
57.0 ^"^
1.707 -1.384
46«.252 55".58
Right
Ascension.
h m
9 55
s
34.34
34.62
35.04 '^
IS
35.19 ^
28
23
-0.0a
-0.3
-0.08
■KX5
35.29
35.34
35.34
35.30
35.23
35.13
3502
34.91
34-79
34.67
34.57
34.48
34.40
34-34
34.31
34.30
34.32
34-36
34.43
34-52
34.64
34.79
34.97
35.19
35.44
10
5
o
4
7
o
I
I
2
2
o
9
8
6
3
I
2
4
7
9
12
15
18
22
25
28
30
32
35.72
36.02
36.34
36.68 3^
37.02 34
33
37.35 ,^
37.67 3^
37.97 ^°
Declina-
tion N.
+ 827
63.5
61.9
60.5
59.3
58.4
57.7
57.3
57.2
57.2
57.3
57.6
58.0
58.5
59.0
59.5
60.0
60.5
61.0
61.4
61.8
62.1
62.4
62.5
62.5
62.4
62.1
61.5
60.7
59.7
58.5
16
14
12
9
7
4
I
o
I
3
4
5
5
5
5
5
5
4
4
3
3
I
o
I
3
6
8
10
12
14
ff Leonis.
Mag. 3.6
16
18
57.1
55.5
53-7 ,^
51.8 '^
49.8 ^°
19
^7-9 ,„
46.0 '9
44.3^7
Right
Ascension.
h m
10 2
I. Oil 'fO.149
33«.858 6o".67
0.00 40.0I
-0.3 40.5
[Bph is]
8
32.67
32.97
33.22
33.43
33.59
33.69
33.75
33.76
33.73
33.66
33.57
33.46
33.34
33.21
33.09
32.98
32.88
32.80
32.74
32.70
32.69
32.70
32.74
32.80
32.89
30
25
21
16
10
3
7
9
II
12
13
12
II
10
8
6
4
I
4
6
9
12
15
18
22
33.01
33.16
33.34
33.56
3409
3440 ^
34-73 \\
35 08 35
35-43 %
3578
36.12 ""
36.43 ^'
Declina-
tion N.
+ 17 II
32.2
30.9
30.0
29.3
28.9
28.8
28.9
29.2
29.7
30.3
31.0
31.7
32.4
33.0
33.5
34.0
34.4
34.7
34.8
34.9
34.8
34.6
34-2
33.7
33.0
32.1
31.1
29.8
28.4
26.8
25.1
23.3
21.4
19.5
17.6
15.8
14. 1
12.7
13
9
7
4
I
I
3
5
6
7
7
7
6
5
5
4
3
I
I
I
2
4
.S
7
9
o
3
4
6
7
8
9
9
9
8
7
4
ct LeoaiB.
Mag. 1.3
1.047
32*. 132
+0.309
3i".94
Right
Ascension.
0.00
-0.3
+0.02
•K).5
h m
10 3
s
4i-7» ,„
42.00 ^
42-25 li
42-45 ;
42.60 ^
II
42.71 ,
42.77 °
42.78
42.75
42.68
3
7
9
II
II
12
12
II
9
8
6
4
I
42.59
42.48
42.37
42.25
42.13
42.02
41.93
41.85
41.79
41.75
41.74
41.75
41.78
41.84
41-93
42.04
42.19 o
18
42.37
42.58 ^^
42.82 ^t
28
43.40 30
43.72 32
44.06 ^^
44.41 35
34
44.75 ,^
45.38 3°
3
6
9
II
15
Declina-
tion N.
+ 1223
53-1
51.7
50.5
49.5
48.8
48.4
48.2
48.2
48.4
48.8
49.3
49.8
50.4
50.9
51-5
52.0
52.5
52.9
53.2
53.4
53.6
53-6
53.5
53.3
52.9
52.3
51.5
50.5
49.3
47.9
14
12
ID
7
4
2
o
2
4
5
5
6
5
6
5
5
4
3
2
2
o
I
2
4
6
8
10
12
14
16
46.3
44.6
42.7
40.8 '9
38.8 ^°
17
19
36.9
35-1
33.5
19
18
16
1.024
4i'.230 5i".63
40.230
0.00
-0.3
-KXOI
•«-5
APPARENT PLACES OF STABS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
371
Mean Solar
Date.
Jan. 0.6
I0.6
20.6
30.6
Feb. 9.5
29.5
Mar. 1 0.5
20.4
30.4
Apr. 9.4
193
293
May 9.3
19.3
29.2
June 8.2
18.2
28.2
July 8.1
18.1
28.1
Aug. 7.0
17.0
27.0
Sept. 6.0
15.9
259
Oct. 5.9
15-9
25.8
Nov. 4.8
14.8
24.7
Dec. 4.7
14.7
24.7
34.6
Sec 6, Tan 6
Mean Place
A. Hydne.
Mag. 3.8
Right
Ascensioii.
h m
10 6
I
8.20
8.48
8.71
8.90
9.04
9.14
9.19
9.19
915
9.08
8.99
8.88
8.76
8.64
8.52
8.41
8.31
8.22
8.14
8.09
8.06
8.05
8.07
8.11
8.18
8.28
8.42
8.59
8.80
9.04
28
23
19
14
10
5
o
4
7
9
II
12
12
12
II
10
9
8
5
3
I
2
4
7
10
14
17
21
24
27
9-3^ on
9.60 ^9
*?2
9.92 "^
20.25
20.59
33
34
33
20.92
21.24
21.54
32
30
DecUna-
tlonS.
-II 54
590
61.5 ''
63.9 l\
66.2 ^3
68.3 "
19
70.2
71.9
73-3
74-4
75.3
75.9
76.3
76.4
76.3
76.0
75-5
74.8
73-9
72.9
71.8
70.6
69.4
68.3
67.2
66.2
65.3
64.7
64.4
64.4
64.8
65.5
66.6
68.1
•69.9
72.0
74.3
76.7
79.2
17
14
II
9
6
4
I
I
3
5
7
9
10
II
12
12
II
II
10
9
6
3
o
4
7
II
15
18
21
23
24
25
1.022 -0.2 1 1
i7«.88o 67^.28
0.00
■0-3
-0.0 1
+0.5
q Velonun.
Mag. 4.Z
Right
Aacenaloii.
h
10
I
2.63
2.94
319
3.39
3.54
3.63
3.66
363
3.56
3.45
3.31
3.14
2.95
2.76
2.56
2.37
2.19
2.02
1.88
1.75
1.65
1.59
1.56
1.56
1.61
1.70
1.84
2.03
2.26
2.54
2.86
3-22
360
3.99
4-39
4.78
5.15
5-49
tn
II
31
25
20
15
9
3
3
7
I
7
9
9
20
9
8
7
4
3
o
6
3
o
5
9
14
19
23
28
32
36
38
39
40
39
37
34
Declina-
tion S.
-4140
52.2
33
55-5
58.8 3^
62.2 3^
65.6 34
69.0
72.1
75.0
77.6
79.9
81.8
83.3
84.4
85.1
85.4
85.2
84.6
83.6
82.2
80.5
78.6
76.4
74.0
71.6
693
67.1
65.0
63.2
61.9
61.0
34
31
29
26
23
19
15
II
7
3
2
6
10
14
17
19
22
24
24
23
22
21
18
13
9
4
60.6
60.8 ^
61.5 7
62.8 ^l
64.6 '^
23
66.9
69.7
72.8 3'
28
1.339 -0.890
2«.322 68".3i
-0.0 1 -0.05
-0.4 +0.5
[Eph la]
88 Vnce XaJorU.
Mag. 5.7
Right
Ascension.
h
10
m
II
41.75
42.33
42.83
43.25
43.56
43.76
43.85
43.83
43.72
43.52
43.24
42.91
42.55
42.16
41.77
41.39
41.04
40.73
40.47
40.26
40.11
40.02
40.00
40.05
40.17
40.37
40.64
40.98
41.39
41.87
42.41
43.01
43.65
44.32
45.00
45.68
46.34
46.96
58
50
42
31
20
9
2
II
20
28
33
36
39
39
38
35
31
26
21
15
9
2
5
12
20
27
34
41
48
54
60
64
67
68
68
66
62
Declina-
tion N.
+ 6532
42.7
43.5
44.9
46.7
48.9
51.4
540
56.6
591
61.5
63.6
654
66.7
67.6
68.0
8
14
18
22
25
26
26
25
24
21
18
13
9
4
I
6
10
67.9
673
66.3 ,^
64.8 '5
62.9 '9
60.7
58.1
55.3
52.3
49.2
46.0
42.7
39.5
36.4
33.4
30.7
28.3
26.3
24.7
23.6
23.0
23.0
23.5
22
26
28
30
31
32
33
32
31
30
27
24
20
16
II
6
o
5
A. Urwe XaJorlB.
Mag. 3.5
Right
Ascension.
2.416 -»>2.I99
39«.468 52".i8
h
10
m
II
s
48.73
49.10
49.43
49.70
49.91
50.05
50.13
50.14
50.10
50.01
49.88
49.72
49.54
49.36
49.18
49.01
48.85
48.72
48.61
48.53
48.48
48*47
48.49
48.55
48.65
-K).03
^•4
-K>.I3
•K>.5
51.71
52.14
52.56
52.96
37
33
27
21
14
8
I
4
9
13
6
8
8
8
7
6
3
I
8
5
I
2
6
10
13
48.78
48.95
49.17
49.43 ,^
49.73 ^^
34
17
22
26
50.07
50.45
50.85
38
40
43
42
40
Declina-
tion N.
+ 4320
69.2
69.1
69.4
70.2
71.3
72.7
74-3
76.1
77.9
79.7
81.3
82.7
83.9
84.8
85.4
85.7
85.6
85.2
84.5
83.5
82.2
80.6
78.8
76.8
74.6
72.3
69.9
67.4
64.8
62.3
59.9
57.6
55.5
53.6
52.0
50.8
50.0
49.7
I
3
8
II
14
16
18
18
18
16
14
12
9
6
3
I
4
7
10
13
16
18
20
22
23
24
25
26
25
24
23
21
19
16
12
8
3
1.375 ■K>.944
47*.74i 75".44
-K).OI
-0.4
40.06
•K).5
372
APPARENT PLACES OF STAES, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
C Leonls.
X Leonis pr.
>u Unae MaJorU.
80 H. Vnae Majoiis.
Mag. 3.6
Mag. 2.6
Mag. 3.2
Mag. 4.9
Mean Solar
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declinn-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion N.
Asc^sion.
donN.
h m
0 t
h m
e f
h m
e t
h m
0 t
10 II
+ 2351
10 15
+ 20 16
f§
10 17
+ 41 56
10 17
+ 66 0
Jan. 0.7
48*51 ,,
20.6
s
7-90,,
72.3 „
8
6.44,,
26.6
s
50.63
32.7 „
10.6
48.82 3^
19.6 '*»
8.21 3'
71.2 "
6.8l 37
26.4 *
00
33-6 9
20.6
49.10 ^
18.9 7
8-48 ^^
70.4 I
69.8 ;
7-14 ^^
26.6 ""
5'-75^:
34-9 \l
30.6
49.33 ,^
18.6 3
8.88 "
7-41
27.3 7
52.19 t*
36-7 '!
Feb. 9.5
49.50 '7
18.6 °
695 i
7.62 "
28-3 !
52.52 3-5
38.9 "
12
3
12
0
»5
»3
21
24
19.5
49.62
49.68 \
18.9
9.00
69.5 ,
7-77 „
7-8s !
29-6
52.73 „
43-9 „
29.5
19.4 5
907 ;
69.8 3
311 '^
52.84 "
Mar. 10.5
49.70
20.1 '
909 .
70.3 5
7-87 \
3^-4 ,g
52.84 ,^
4^-6 6
49-2 ^°
20.4
49.68 I
21.0 ^
9.07 g
9.0I 3
71.0 I
7'-8 8
7.84 ^
7.76 *
12
52-73 "
30.4
49.62
10
21.9 ^
10
5-53 :;
51.6 "4
22
Apr. 9.4
49.52
22.9
^•93 ,0
72.6
73-4 !
74-2 ,
7.64 „
38.0
52.26
53-8 18
19.4
49.40 \
23.8 9
8.83 °
7.49 f
39.5 \\
51-93 ^^
293
49.28 "
247 ;
8.71 "
7.32 ,7
7-^4 8
^•96 la
40.7 "
5»-56 ^7
57-0 *
May 9.3
49.16 "
254 !
26.0 *
s
8.58 3
74-9 I
75.5
41.6 9
5'-'7 :'
58.0 '«
19.3
49.03 \\
8.46 "
II
42.3 1
50-77 t°
39
58.4 J
29.2
48.91
26.5 ,
^•35 ,„
76.0
6.80
42.6
5°-38 ,
58.4 ,
June 8.2
48.81 '°
26.8 3
8.25 '°
76.4 t
665 '^,
42.6 °
50.02 36
57-9 .„
18.2
48.72 I
26.9 ;;
8.16 9
76.6 ^
6.52 \\
42.3 !
4' -7 ,f
49.70 ^
4942 ^^
56.9 \X
28.2
48.65 I
26.9 °
8.09 I
76.7
6.41 "
6.33 *
55-4 ^
July 8.1
48.60 5
26.7 '
8.04 5
76.6 '
4°-7 °
49.19 ^
53-6 '«
3
4
3
2
5
12
17
22
18.1
48.57 ^
26.3
25-7 ,
8.02
76.4 ,
6.28
39.5 ,,
4902
5' -4 -
28.1
48.57 ^
8.02 °
76.0 ♦
6.26 '
38.0 3
48.92 ^^
48.8 \l
Aug. 7.0
48.60 3
25.0 ^
8.05 \
75-5 I
6.27 '
36.3 ^
48.88 ^
46.0 '«
17.0
48.65 I
24-1 „
8.10 5
8.i8 *
74-8 I
6.32 3
34.4 "'
48.92 ^
43-0 ^!
27.0
48.74 ,^
^3.0 ,,
73.9 '
6.41 '
32-3 \\
49.03 "
39.8 3'
12
13
II
II
13
23
18
33
Sept. 6.0
48.86
21.7 ,_
^•29 ,,
72-8 „
^•54 .,
300 ,,
49.21 .
36.5
15.9
49.01 J 5
20.2 I
8.43 *
7'-5 i
°-70 ,,
27.6 »4
26
49-47 ,°
33-2 33
25.9
49.19 ',
18.6 '^
8.60 '7
7°' 6
6-91 "
25-1 ^
49.80 33
30.0 3^
Oct. 5.9
49.40 l\
^^•9 :i
8.81 *'
68-5 ^
7'6 ^^
22.6 '3
50.20 *
26.8 3^
15.9
49.65 '^
29
15.0 '^
20
^■^li
66.7 '«
>9
7-45 ''
33
20.1 '5
25
50.67 *'
54
^3-8 S
25.8
49.94 _
^3.0 _
9-34 _
^4-8 ,„
778 ,
'7-6 „
51-21
21.0
Nov. 4.8
11
50.25 ^*
20
II.O
9.64 ^^
62.8 'o
8'4 -^^
15-3 '3
51.81 f
18.5 *3
14.8
50.59 ^Jt
9-0 ,«
9-97 ^^
60.8*°
8-53 39
»3-» I
52-45 ^t
16.4 "
24.7
50.95 ,°
7-^'o
10.32 ^^
58.8 ^°
8-95 t!
11.2 '9
53-12 ^7
14.8 **
Dec. 4.7
51.31 t
5-' '
10.68 36
56-9 '
9-37 t
9.6
53.81 ^
13-6 "
37
17
36
18
43
13
70
7
14-7
51.68
34 _
".04 ,,
55' ,.
9.80
8.3
54-51 -a
12.9
24.7
52.03 ^5
2.0 '4
11.38 34
53.5 \\
10.22 ^
7.4 ^
55-'9S
12.8 '
34-6
52.36 ^''
0.8"
11.71 33
52.2 '3
10.61 39
6.9 5
55-82 «3
13-3 ^
Sec i, Tan rJ
1.093 -K>.442
1.066 +0.370
1.344 +0.898
2.461 -»>2.248
Mean Place
47*.926 22".47
7*.38o 73".4i
5'.5x6 32".93
48".349 42".78
D^o, D«a
-K).OI •K).03
0.00 -K).02
•K).OI 40.05
40.03 40. 14
D^d, Did
-0.4
^.5 1
-0.4
•K>.4 1
-0.4
+0.4 1
-0.4
■•0.4
[Eph la]
APPARENT PLACES OF STABS, 1912.
373
FOR THE UPPER TRANSIT AT WASHINGTON.
1 /iHydm.
81 Leonis XlnorU.
a Anflia.
86 Vrsae Majoris.
Mean Solar
Mag. 4.1
Mag. 4.4
Mag. 4.4
Mag. 4.8
Date.
Right
Deelina-
Right
Declina-
Right
Declina-
Right
Declina-
Aaceaaion.
don S.
Aacenaion.
tion N.
Aieeiuion.
tion S.
Aacenaion.
tion N.
li m
e t
h in
e '
h m
e t
h
m
e t
10 21
-1623
If
10 22
+ 37 9
10 23
-3036
10 25
+ 5625
Jan. 0.7
50.25
2.8 «
48*76
247 ^
7-59 ,„
^T-^ ,«
1-73
46.4 ,
10.6
50.54 .:
49.11 ^^
243 *
789 !°
60.6*9
2.20
47
46.7 3
20.6
5^-79 l^
7.9 5
49.42 11
24.3 !
8-^4 ?,
63.6 3°
2.61
41
47-6 .?
30.6
20
50.99 °
^°-4 A
49.68 l^
24.6 3
8-35 '
66.7 3'
2.96
35
48.9 \l
Feb. 9.5
51.15 t
12.8 ="4
49.89 '
25-3 ,1
8.51 t
69.7 z
3.24
28
50.6 '7
II
22
15
10
II
29
19
20
19.5
51.26
15.0
50.04
26.3
8.62
72.6 „
3.43
52.6
29.5
51-32
16.9 ^
8
50.12 °
27.6 3
8.67 5
75.3 ^^
3-53
10
54.8 ",
Mar. 10.5
51.34
18.6 '7
50.15 ^
29.0 *
8.68 '
77-8 \\
3-55
2
57.1 '3
20.4
51.32 I
51.26 I
20.0 ^^
2
50.13 ,
32.1 't
8.65 I
8.57 '
80.0"
81.8 '*
350
5
59.5 4
304
21.2
50.06 '
3.39
II
61.8 =^3
8
9
lO
15
10
15
17
30
Apr. 9.4
51.18
22.1 ,
22.7 t
4996 ,,
33-6 ,^
8.47 „
833 „
3-22
656 J
19.4
51.08 '°
4983 ^
35.0 *
»-35 !
84.5 "
853 '
3.00
22
29.3
50.96 "
23.0 3
49.69 ^
49.53 ^
49.37 t
36=1 0
8.21 '4
2.75
25
26
0 **
67.1 \\
May 9.3
50.84 \l
23.0
37-2 '°
8.07 '4
T C
f5-® '
2.49
68.2 "
68.8 *
19.3
50.72 "
22.8 '
37-9 ,
7.92 11
85.9 •
2.22
27
12
4
15
4
15
2
26
3
29.2
50.60
22.4
21.8 ^
21.0
49.22
38.3 ,
7-77 ,^
857 ,
85.1 I
1.96
69.0
June 8.2
50.49 "
49.08 4
38.4 '
7.63 4
1.72
^.4
68.8 '
18.2
50.39 p
50.31 !
48.96 "
38.2 I
750 ^
842 ,^
1.50
22
68.1 7
28.2
20.0
48.86 ^°
37.8 4
7.39 "
«30 "
1.31
19
67° \\
July 8.1
50.24 I
18.8 "
48.79 !
37-1 .1
7.30 I
81.6 '4
1. 16
15
65-6 *
5
13
5
10
7
17
II
18
18.1
50.19 ,
'7-5 „
48.74 ,
36.1
7.23 ,
79-9 ,8
1. 05
6
638 ,^
28.1
50.17 „
16.2 '3
48.72 I
34-9 "
7.18 5
0.99
61.6"
Aug. 7.1
50.17 ^
14.9 ;^
48.74 '
33.4 \l
7.15 ,
76.2 9
0.97
2
4%
53.8 '«
17.0
50.19 g
50.25
13.6 \l
48.78 *
48.86 *
3'-7 J
29-9 '„
7.16 [
74-3 '
1. 00
3
8
27.0
12.4 "
7.21 f
72.4 ''
1.08
9
II
II
20
8
18
14
29
Sept. 6.0
50.34 -,
II.3 g
10.5 ^
48.97 ,.
279 „
729 ,_
69.0 ^
1.22
T r\
5°-9 „
15.9
50.46 "
50.62 f
49- 12 I
25-7 "
7-57 '*
1.41
^9
47-9 Z
259
1 0.0 ^
4931 ',
23-4 11
67.7 '3
1.65
24
44-8 .^'
Oct. 5.9
50.81 '9
9.7 f
49-54 „
21.0 ^*
rr nn 20
7-77 ^^
66.8 9
1.95
30
4'-8'o
15.9
51.04 /^
9.8 '
5
49.81 'l
30
18.6 '*
24
8.02 ^5
28
66.3 5
2.31
36
40
38-8 ^°
25.8
51 30
^^•3 _
50.11
16.2
^•30 ,^
66.3
2.71
36.0
Nov. 4.8
51.59 11
11.3 ^
50.45 t.
13.8 ^^
8.62 32
66.7 4
3.16
45
33-5 \\
14.8
5191 „
12.6 '3
50.82 37
11.6"
8.96 34
67.6 9
3.65
49
31.3 "
24.8
52.24 3^
14.3 :^
51.21 39
9-6 '«
9.32 ^^
69.» i
4.17
52
29.4 ^^
Dec. 4.7
52.58 ^*
16.3 ^°
51.61 40
7-8 !
9.68 36
71.0 »9
4.71
54
27.9 '5
35
23
41
»4
36
22
54
10
14.7
5293 ,
18.6
52.02
6-4 .,
10.04
73-2 .
5.25
26.9 ^
24.7
5326 "
21.1 ^5
52.42 40
5.3"
10.39 35
75S '!
5.78
53
26.4 \
34.6
53.56 30
23.6 ^5
52.79 37
4.5 *
10.71 ^
78.7 ^^
6.27
49
26.4
Sec J, Tan <J
1.042 -0.294
1.255 +0.758
1. 162 -0.592
1.808 +1.507
Mean Place
50*.034 i2".o8
47*-98i 30".35
7-.403 7 1 ".01
o".266 55".72
D'^ a, Dw a
0.00 -0.02
+0.0 1 ■K>.05
-0.0 1 -0.04
+0.02 +0.09
jy^6,T)mS
^.4
40.4 1
-0.4
+0.4 1
-0.4
+0.4 1
-0.4
+0.4
[Eph 12]
374
APPAEENT PLACES OF STABS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.7
10.6
20.6
30.6
Feb. 9.6
19.5
29.5
Mar. 10.5
20.4
30.4
Apr. 9.4
19.4
293
May 9.3
193
29.3
June 8.2
18.2
28.2
July 8.1
18.1
28.1
Aug. 7.1
17.0
27.0
Sept. 6.0
16.0
25.9
Oct. 5.9
159
25.8
Nov. 4.8
14.8
24.8
Dec. 4.7
14.7
24.7
34.7
Sec <J, Tan d
Mean Place
D V ^$ I)« <>
9H. Draconls.
Mag. 5.0
Right
Ascension.
h m
10 27
42.97
43-93
44.77
4547
46.cx>
46.36
46.53
46.52
46.33
45.99
■
45.51
44.92
44.25
43.53
42.79
42.06
41.35
40.70
40.13
39.64
39.25
38.97
38.81
38.77
38.86
39.08
39.43
3990
40.50
41.22
42.05
42.97
43.97
45.03
46.13
47.23
48.30
49.31
96
84
70
53
36
17
I
34
48
59
67
72
74
73
71
65
57
49
39
28
16
4
9
22
35
47
60
72
83
92
100
106
izo
no
107
lOI
Declina-
tion N.
+ 76 9
48.8
49.9
51.5
53.6
56.0
II
16
21
24
28
29
58.8
61.7
64.6 II
67.4 ''
70.1
27
23
72.4
74.4
75.9
76.9
77.3
77.2
76.6
75-4
73.8
71.7
69.2
66.3
63.2
59.9
56.4
52.8
49.2
45.7
42.3
39.1
36.2
33-7
31.6
29.9
28.8
28.3
28.4
29.1
20
15
10
4
I
6
12
16
21
25
29
31
33
35
36
36
35
34
32
29
25
21
17
II
5
I
7
4.182 +4.061
38«.820 6o".32
•K>.04 'K).25
-0.4 40.4
p Leonis.
Mag. 3.8
Right
Ascension.
h m
10 28
s
1. 10
1.40
1.66
1.88
2.06
2.19
2.27
2.30
2.29
2.25
2.18
2.09
.99
.88
'77
.67
.57
.48
.41
.36
.33
.31
.32
.36
.42
.51
.63
.79
.98
2.20
30
26
22
18
13
8
3
I
4
7
9
10
II
II
10
10
9
7
5
3
2
I
4
6
9
12
16
19
22
26
29
2.46
2.75
3.06 3'
3.39 ^^
3.73
4.08
4.41
4.73
34
35
33
32
Declina-
tion N.
+ 9 45
36.6
350
33-5
32.3
31.4
30.8
30.4
30.3
30.4
30.6
31.0
31.5
^2.0
32.6
33.2
33.7
34.2
34.7
35.1
35.4
35-7
35.9
35.9
35.8
35.5
35.0
34.3
33.4
32.3
31.0
29.4
27.6
25.7
23.7
21.7
19.7
17.7
15.9
16
15
12
9
6
4
I
I
2
5
5
6
6
5
5
5
4
3
3
2
o
I
3
5
7
9
II
13
16
18
19
20
20
20
20
18
1.015 40.172
io*.75i 35".26
0.00 40.0I
-0.4 +0.4
[Eph la]
88 Seztaatls.
Mag. 6.4
Right
Ascension.
h
10
m
36
s
55.80
56.09
56.35
56.58
56.76
56.89
56.97
57.00
57.00
56.97
56.91
56.83
56.73
56.62
56.51
56.41
56.32
56.23
56.15
56.09
56.05
56.03
56.03
56.05
56.10
56.17
56.28
56.42
56.60
56.81
57.06
57-34
57.64
57.97
58.30
58.64
58.98
59.29
29
26
23
18
13
8
3
o
3
6
8
10
II
II
10
9
9
8
6
4
2
o
2
5
7
II
14
18
21
25
28
30
33
33
34
34
31
Declina-
tion S.
- I 16
38.0
40.2
42.2
44.0
45.6
46.9
48.0
48.8
49.4
49.7
49.8
49.8
49.6
49.3
48.9
48.4
47.8
47.2
46.5
45.8
45.2
44.5
43.9
43.5
43.2
43.0
43.0
43-3
43.9
44.7
22
20
18
16
13
II
8
6
3
I
3
4
5
6
6
7
7
6
7
6
4
3
2
o
3
6
8
II
45.8
47.2
50.8 '^
52.8 ^^
14
17
55.0
57.2
59.4
22
22
22
1. 000 -0.021
55*.577 42".5i
0.00
-0.4
0.00
'K>.4
41 Leonis XinorlB.
Mag. 5.0
Right
Ascension.
h m
10 38
38.50
38.82 ^^
39.11 ^9
39.36
39.56
25
20
15
39.71
39.81
39.86
39-86
39.82
39.75
39.66
39.55
39.43
39.30
39.18
39.07
38.97
38.89
38.82
38.77
38.75
38.75
38.78
38.84
38.93
39.04
39.19
39.38
39.61
39.87
40.16
40.49
40.84
41.20
10
5
o
4
7
9
I
3
2
1
o
8
7
5
2
o
3
6
II
15
19
23
26
29
33
35
36
37
36
41.57
41.93
42.27 ^^
Declina-
tion N.
+ 2338
54.9
53.7
52.9
52.4
52.2
52.4
52.9
53.6
54.5
55.5
56.5
57.5
58.5
59.4
60.2
60.8
61.2
61.4
61.5
61.4
61.0
60.5
59.8
58.8
57.7
56.4
54.9
53.2
51.4
49.4
47.3
45.1
42.9
40.8
38.8
36.9
35.3
33.9
12
8
5
2
2
5
7
9
10
10
10
10
9
8
6
4
2
I
I
4
5
7
xo
II
13
15
17
18
20
21
22
22
21
20
19
16
14
1.092 •KX438
38».o4o 57".87
0.00
-0.4
•KX03
'KX3
APPARENT PLACES OF STABS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
375
Mean Solar
Date.
0 hXffiM.
Mag. 3.0
Right
Ascenaion.
Jan. 0.7
10.6
20.6
30.6
Feb. 9.6
19.5
29.5
Mar. 10.5
20.4
30.4
Apr. 9.4
19.4
293
May 9.3
19-3
29.3
June 8.2
18.2
28.2
July 8.1
18.1
28.1
Aug. 7.1
17.0
27.0
Sept. 6.0
16.0
259
Oct. 5.9
15.9
25.8
Nov. 4.8
14.8
24.8
Dec 4.7
14.7
24.7
34.7
h m
10 39
49.04
49.51
49.92
50.24
50.48
50.62
50.68
50.65
50.54
50.37
50.13
49.84
49.51
49.15
48.77
47
41
32
24
14
6
3
II
17
24
29
33
36
38
39
39
48.38
47.99 _
47.62 ^J
47.26 36
46.93
Scc<J,Tand
Mean Place
46.64
46.39
46.20
46.08
46.04
46.08
46.20
46.41
46.71
47.09
47.54
48.05
48.61
49.20
49.81
50.40
50.96
51.48
33
29
25
19
12
4
4
12
31
30
38
45
51
56
59
61
59
56
52
Declina-
tion S.
-6355
40.6
43.7
47.1
50.7
54.5
58.4
62.2
65.9
69.4
72.7
75.6
78.1
80.1
81.7
82.8
83.4
83.5
83.0
82.1
80.7
78.8
76.6
74.1
71.3
68.5
65.6
62.8
60.2
58.0
56.2
54.8
54.0
53.8
54.3
55.4
57.2
59.5
62.3
31
34
36
38
39
38
37
35
33
29
25
20
16
II
6
I
5
9
14
19
22
25
28
28
29
28
26
22
18
14
8
2
5
II
18
23
28
42 Leonls WnoEls.
Mag. 5.4
Right
Ascension.
2.276 -2.044
48*.827 61^.40
h m
10 40
-0.02 -0.13
-0.4 40.3
8
59.06
59.41
59.72
59.98
60.20
60.36
60.46
60.51
60.52
60.48
60.40
60.29
60.17
60.04
59.90
59.77
59.64
59.53
59.44
59.36
59.30
59.27
59.27
59.29
59.34
59.43
59.55
59.71
59.91
60.15
60.42
60.73
61.07
61.43
61.81
62.20
62.58
62.94
35
31
26
22
16
10
5
I
4
8
II
12
13
14
13
13
II
9
8
6
3
o
2
5
9
12
16
20
24
27
31
34
36
38
39
38
36
Declina-
tion N.
1/ AzitU.
Var. 1.6-6.6
+ 31 8
40.8
39.9
39.4
39.3
39.6
40.2
41. 1
42.3
43.6
44.9
46.3
47.6
48.8
49.8
50.6
51.2
51.6
51.7
51.5
51. 1
50.4
49.5
48.4
47.1
45.5
43.8
41.9
39.8
37.6
35.3
32.9
30.6
28.3
26.1
24.1
22.3
20.9
19.8
9
5
I
3
6
9
12
13
13
14
13
12
10
8
6
4
I
2
4
7
9
II
13
16
17
19
21
22
23
24
23
23
22
20
18
14
II
Right
Ascension.
h
10
41
39.18 ^3
39.55 ^^
39.85
40.07
30
22
14
40.21
40.28
40.27
40.19
40.05
39.86
39.63
39.36
39.07
38.76
7
I
8
14
19
23
27
29
31
32
Declina-
tion S.
31
38.44
38.13
37.82 3»
37.53 ^^
37.26 II
23
37.03 ,^
36.83 '°
36.68 '5
36.59 I
36.57 :
1. 168 40.604
58».50o 45".89
•K>.oi 40.04
-0.4 40.3
[Eph IS]
36.61
36.72
36.91
37.17
37.50
37.90
38.35
38.85
39.37
39.90
40.43
40.94
41.40
II
19
26
33
40
45
50
52
53
53
51
46
-5912
58.1
61.I 30
64.5 ^^
68.1
71.9
36
38
38
75.7
79.4
83.0
86.4
89.5
92.3
94.7
96.6
98.1
99.1
99.6
99.6
99.1
98.1
96.7
94.9
92.7
90.2
87.6
84.8
82.0
79.3
76.9
74.7
73.0
71.8
71.1
71.0
71.6
72.8
74.6
77.0
79.8
37
36
34
31
28
24
19
15
10
5
o
5
10
14
18
22
25
26
28
28
27
^4
22
17
12
7
I
6
12
18
24
28
Mag. 2.8
Right
Ascension.
li m
10 42
s
58.94
59.31
59.63
59.89
60.09
37
32
26
20
14
60.23
60.30
60.31
60.27
6o.i8 9
13
60.05
59.89
59.70
59.50
59.28
16
19
20
22
22
Declina-
tion S.
59.06
58.84
58.62
58.42
58.24
58.09
57.96
57.87
57.82
57.82
57.87
57.98
58.14
58.36
58.63
22
22
20
18
15
13
9
5
o
5
II
16
22
27
33
1.954 -1.679
38".63i 78".09
-0.01
-0.4
-0.1 1
40.3
37
41
43
58.96
59.33
59.74
60.17
60.61 ^
44
61.05
61.48 ^3
61.8739
-4857
I.O
4.0
7.3
10.8
14.4
17.9
21.4
24.7
27.7
30.5
32.9
34.9
36.6
37.8
38.5
38.8
38.6
38.0
370
35.6
33.8
31.7
29.4
27.0
24.4
21.9
19.5
17.4
15.6
14.3
13.4
13.0
13.3
14.2
15.6
30
33
35
36
35
35
33
30
28
24
20
17
12
7
2
6
10
14
18
21
23
24
26
25
24
21
18
13
9
4
3
9
14
19
17.5
22.8 ^9
24
1.523
58-.89I
-1. 148
i8".89
-o.oi
-0.4
-0.07
40.3
376 APPARENT PLACES OF 8TAES, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON,
Mean Solar
Date.
Jan. 0.7
10.6
20.6
30.6
Feb. 9.6
195
295
Mar. 1 0.5
20.5
304
Apr. 9.4
19.4
293
May 9.3
19.3
29.3
June 8.2
18.2
28.2
July 8.2
iS.i
28.1
Aug. 7.1
17.0
27.0
Sept. 6.0
16.0
259
Oct. 5.9
159
259
Nov. 4.8
14.8
24.8
Dec. 4.7
14-7
24.7
34-7
Sec d, Tan 6
Mean Place
D'^ a, Dm a
I LeoniB.
Mag. 5.3
Right
Ascension.
h
10
m
44
s
38.28
38.59
38.87
39.11
39.30
39.44
39.54
39.59
39.60
39.57
39.52
39-44
39.34
39.24
39-14
39.03
38.93
38.84
38.76
38.70
38.66
38.63
38.63
38.65
38.69
38.76
38.87
39.01
39.19
39.40
39.64
39.92
40.22
40.55
40.89
41.24
41.58
41.91
31
28
24
19
14
10
5
I
3
5
8
10
10
10
II
10
9
8
6
4
3
o
2
4
7
II
14
21
24
28
30
33
34
35
34
33
Declina-
tion N.
+ 11 O
40.1
38.4
37.0
35.8
34-9
34.3
34.0
33.9
34«i
34.4
34.9
35.4
36.0
36.7
37.3
37.9
38.4
38.9
39.3
39.6
39.8
39.9
39.8
39.6
39.2
38.7
37.9
36.9
35.7
34.2
32.6
30.8
28.8
26.7
24.6
22.5
20.5
18.7
17
14
12
9
6
3
I
2
3
5
5
6
7
6
6
5
5
4
3
2
I
I
2
4
5
8
10
12
15
16
18
20
21
21
21
20
18
1.019 40.195
38".oo4 39". 70
0.00
-0.4
+0.01
■K).3
6* Ghamfleleon.
Mag. 4.6
Right
Ascension.
h
10
m
44
58.86
59.90
60.77
61.45
61.92
62.18
62.23
62.08
61.73
61.20
60.51
59.68
58.73
57.69
56.58
104
87
68
47
26
5
15
35
53
69
83
95
104
III
"5
55-43
54.26 "7
53.10"^
51.98
50.94
112
104
94
50.00
49.18
48.52
48.05
47.78
47.72
47.89
48.30
48.92
49-75
50.76
51.92
53.19
54.53
55.89
57.22
58.47
59.61"^
82
66
47
27
6
17
41
62
83
lOI
116
127
134
136
133
125
Declina-
tion S.
-80 4
10.9
13.7
16.9
20.5
24.3
28.2
32.2
36.1
39.9
43.5
46.8
49.7
52.2
54.3
55.9
56.9
57.4
57.3
56.7
55.5
53.9
51.8
49.3
46.6
43.7
28
32
36
38
39
40
39
38
36
33
29
25
21
16
10
5
I
6
12
16
21
25
27
29
31
40.6
37.6 II
32.1
29.8 ^3
^ 18
28.0
26.8
26.2
26.2
26.9
28.2
30.1
32.6
12
6
o
7
13
19
25
5.803 -5-716
58".043 33".7i
--0.05 -0.36
-0.4 +0.3
[Sph xa]
V Hydm.
Mag. 3.3
Right
Ascension.
h
10
m
45
B
6.99
7.29
7.56
7.79
7.97
8.10
8.19
8.24
8.24
8.21
8.15
8.06
7.96
7.85
7.74
7.63
7.52
7.42
7.33
7.25
7.19
7.15
7.13
7.14
7.17
7.24
7-34
7.47
7.64
7.85
8.10
8.38
8.69
9.02
9.36
19.71
20.05
20.37
30
27
23
18
13
9
5
o
3
6
9
o
I
I
1
I
o
9
8
6
4
2
I
3
7
10
13
17
21
25
28
31
33
34
35
34
32
Declina<
tion S.
-1543
25
25
49.0
51-5
54.0
56.5 ''
58.8 ^3
22
61.0
62.9 '9
64.6 ^7
66.0 '^
67.2 "
9
6
4
68.1
68.7
69.1
69.2
69.1
68.8
68.3
67-5
66.6
65.6
I
I
3
5
8
9
10
II
12
64.5
63.3
62.0 ^^
60.8 "
59.7
II
10
58.7
57-9
57-3
57-1
57-2
57-7
58.6
59.8
61.4
63-3
65.5
67-9
70.4
8
6
2
I
5
9
13
16
19
22
24
25
1.039 -0.282
I6V900 57".76
0.00
-0.4
-0.02
•K).3
46 Leonls Xiiioris.
Mag. 3.9
Right
Ascension.
h
10
m
48
24.24
24.60
24.93
25.21
25.44
25.61
25.73
25.79
25.80
25.76
25.69
25.59
25.47
25-33
25.18
25.04
24.90
24.78
24.67
24.58
24-51
24.47
24.46
24-47
24.51
24.59
24.71
24.86
25-05
25.29
36
33
28
23
17
12
6
I
4
7
o
2
4
5
4
4
2
I
9
7
4
1
I
4
8
12
15
19
24
28
25.57 ^_
25.88 ^'
26.22 ^^
26.59 ^^
26.98 ^9
40
27.38
27.77 ^^
28.15 ^®
Declina-
tion N.
+ 3440
76.1
75.4
750
75.0
75.5
7
4
o
5
8
II
13
14
76.3
77.4
78.7
80.1
81.6 *5
15
83.1
84.6
85.9
87.0
87.9
15
13
II
9
6
88.5
88.9
89.0
88.7
88.2
87-4
86.4
85.1
83.6
81.8
79-9
77.8
75.5
73.1
70.6
68.1
65.6
63.2
60.9
58.9
57-1
55.7
54.7
4
I
3
5
8
10
13
15
18
19
21
23
24
25
25
25
24
23
20
18
14
10
1. 216 40.692
23"-655 82 ".51
+0.01
-0.4
•KX04
40.3
APPAEENT PLACES OF STABS, 1912.
877
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
54 Leonis.
Mag. 4.5
Right
Ascension.
Jan. 0.7
10.6
20.6
30.6
Feb. 9.6
19-5
29.5
Mar. 10.5
20.5
30.4
Apr. 9.4
19.4
293
May 9.3
193
29.3
June 8.2
18.2
28.2
July 8.2
18.1
28.1
Aug. 7.1
17.0
27.0
Sept, 6.0
16.0
25.9
Oct. 5.9
15.9
259
Nov. 4.8
14.8
24.8
Dec. 4.7
147
24.7
34.7
h
10
m
50
s
51-47
51.81 3^
52.11 3^
52.37
52.58
36
21
17
Sec <J, Tan 6
Mean Place
D'^a, Dm a
52.75
52.86
52.92
52.93
52.90
52.84
52.76
52.66
52.54
52.42
52.30
52.18
52.07
51-98
51.91
51.85
51.81
5 1 80
51.82
51.86
51.93
52.03
52.17
52.35
52.57
II
6
I
3
6
8
10
12
12
12
12
II
9
7
6
4
I
2
4
7
10
14
18
22
25
52.82
53.11 !?
53.43
53.78
54.14
32
35
36
37
54-51 ,^
54.88 37
55.23 ^^
DecUna-
UonN.
+ 25 12
65.7
64.6
63.8
63.3
63.2
63.4
63.9
64.7
65.7
66.8
67.9
69.1
70.2
71.1
71.9
72.6
73.1
73.4
73.5
73.3
72.9
72.3
71.5
70.5
69.3
67.9
66.3
64.5
62.5
60.4
58.2
55-9
53.6
51.4
49.3
47.4
45.7
44-3
t Anflte.
Mag. 4.7
Right
Ascension.
II
8
5
I
2
5
8
10
II
II
12
II
9
8
7
5
3
I
2
4
6
8
10
12
14
16
18
20
21
22
23
23
22
21
19
17
14
h m
10 52
1. 105 +0.471
5i*.053 69".73
0.00
■0.4
♦0.03
•♦0.3
8
37.10
37.43
37.73
37.98
38.18
38.32
38.41
38.45
38.45
38.40
38.32
38.21
38.08
37.94
37.78
37.62
37.47
37.32
37.18
37.05
36.94
36.86
36.80
36.77
36.78
36.83
36.92
37.05
37.23
37.46
37.74
38.05
38.40
38.77
39.16
33
30
25
20
14
9
4
o
5
8
3
4
6
6
5
5
4
3
I
8
6
3
I
5
9
13
18
23
28
31
35
37
39
39
38
39.55
39.93 „
40.28 35
Declina-
tion &
-3639
Groombxidge 1706.
Mag. 6.3
37.4
40.2
43.3
46.5
49.7
28
31
32
32
32
30
28
52.9
55.9
58.7
61.2 ^5
63.5 '^
65.5
67.1
68.3
69.2
69.7
69.8
69.6
69.0
68.0
66.7
65.2
63.4
61.4
59.4
57.3
55.3
53.4
51.8
50.5
49.6
49.1
49.1
49.6
50.7
52.3
20
16
12
9
5
I
2
6
10
13
15
18
20
20
21
20
19
16
13
9
5
o
5
II
16
21
59.6 "^
Right
Ascension.
1.247 -0.744
37«.I28 52".25
-o.oi -0.05
-0.4 +0.3
[fiph xa]
h m
10 52
s
61.31
62.46
63.49
64.38
65.09
Declina-
tion N.
+ 7813
65.60
65.90
65.98
65.86
65.55
65.06
64.43
63.69
62.86
61.99
61.10
60.23
59.40
58.64
57.96
57.39
56.93
56.60
56.41
56.37
56.48
56.74
57.15
57.71
58.42
59.27
60.25
61.34
62.52
63.75
65.00
66.25
67.44
"5
103
89
71
51
30
8
12
31
49
63
74
83
87
89
87
83
76
68
57
46
33
19
4
II
26
41
56
71
85
98
109
118
123
125
125
119
8
77.4
78.2
79.6 \l
86.4
92.3 3"
30
28
95.3
98.1
25
100.6
I02.8 "
104.6 '*
105.9 t
106.6 7
2
106.8
106.4
105.5
1 04.1
102.2
4
9
14
19
24
27
31
33
99.8
97.1
94.0
90.7
87.2 35
37
79.8 37
76.1 ^.
72.5 ^^
69.1 34
32
^5.9 ,^
63.0^9
60.6 ^^
58.7 '^
57.3 'I
9
56.4 ,
56.2 ^
56.6 4
4.906 •f4.8Q4
56«.797 9o".7i
■K>.04
-0.4
■♦0.31
■K>.3
oc Cratexls.
Mag. 4.2
Right
Ascension.
h m
10 55
s
29.15
29.46
29.74
29.97
30.16
30.31
30.41
30.46
30.47
30.44
30.39
30.31
30.22
30.11
30.00
29.88
29.77
29.67
29.57
29.49
29.42
29.37
29.34
29.33
29.35
29.40
29.49
29.62
29.78
29.98
31
28
23
19
15
10
5
I
3
5
8
9
II
II
12
II
10
10
8
7
5
3
I
2
5
9
13
16
20
24
28
30.22
30.50
30.80 30
31.13 ^^
31.47
31.82
32.16
32.49
34
35
34
33
Declina-
tion S.
-1749
39.2
41.8
44.4
46.9
49.3
51-6
53.7
55.5
57.1
58.4
59.4
60.2
60.7
60.9
60.9
60.7
60.2
59.5
58.6
57.6
56.5
55-3
54.0
52.7
51.4
50.3
49.4
48.8
48.5
48.5
48.8
49.5
50.6
52.2
54.1
56.2
58.6
61.2
26
26
25
24
23
21
18
16
13
ID
8
5
2
o
2
5
7
9
10
II
12
13
13
13
II
9
6
3
o
3
7
II
16
19
21
24
26
1.050 -0.322
29". 134 48".50
0.00
-0.4
-0.02
■K).3
378
APPAEENT PLACES OP STARS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.7
10.7
20.6
306
Feb. 9.6
19.5
29.5
Mar. 1 0.5
20.5
30.4
Apr. 9.4
19.4
29.4
May 9.3
19.3
293
June 8.2
18.2
28.2
July 8.2
18.1
28.1
Aug. 7.1
17.1
27.0
Sept. 6.0
16.0
25.9
Oct. 5.9
159
259
Nov. 4.8
14.8
24.8
Dec. 4.8
147
24.7
347
Sec <J, Tan 6
Mean Place
d Leonls.
Mag. 5.0
Right
Ascension.
h
10
8
1. 14
1.45
173
1.97
2.17
2.32
2.43
2.49
2.51
2.49
2.44
2.37
2.29
2.20
2.10
2.00
1.90
I.8I
173
1.66
1. 61
1-57
1.55
1.56
1.60
1.66
175
1.88
2.04
2.24
2.47
273
3.03
3.35
3-69
4.03
4-37
4.70
m
56
31
28
24
20
II
6
2
2
5
7
8
9
10.
10
10
9
8
7
5
4
2
I
4
6
9
13
16
20
23
26
30
32
34
34
34
33
Declina-
tion N.
+ 45
i
26.8
24.8
23.0
21.4
20.1
19.1
18.3
17.8
17.6
17-5
17.6
17.9
18.3
18.7
19.2
19.8
20.4
20.9
21.5
22.0
22.5
22.9
23.2
23.3
23.3
23.2
22.8
22.2
21.3
20.2
18.8
17.2
15.4
13.4
II.3
9.1
7.0
4.9
20
18
16
13
10
8
5
2
I
I
3
4
4
5
6
6
5
6
5
5
4
3
I
o
I
4
6
9
II
14
16
18
20
21
22
21
21
1.003
o'.984
+0.072
24".56
/3 Vnm Majoris.
Mag. 2.4
Right
Ascensioa
h
10
m
56
s
3365
34- 1 5 ^°
3460 ^^
34.99 ^^
35.31
35.56
35.72
35.80
35.80
35.73
35-59
35.41
35.19
34.94
34.68
34.42
34.16
33.92
33.70
33.51
33.36
33.24
33.16
33.13
33.15
33
25
16
8
o
7
14
18
22
25
26
26
26
24
22
19
15
12
8
3
2
8
33.23
33.36
33.55 ._
33.80 ^5
30
13
19
34.10
34.46
34.87
35.33
35.83
36.36
36.91
37.44
37.96
36
41
46
50
53
55
53
52
Declina-
tion N.
+ 5650
64.2
64.2
64.8
65.9
67.4
o
6
II
15
19
21
69.3
71.4
73.8 ^^
76.3 2
23
81.0
Q^ -TV 20
84.8 "*
86.2 '^
87.2
87.7
87.8
87.5
86.7
85.4
10
5
I
3
8
13
16
19
83.8
81.9
79.6 «
74.2
30
71.2
68.0 32
64.8 32
61.6 3^
58.4 ^^
30
55-4 ,^
49-9 "
14
45.7
44.3
43.4
43.1
9
3
1.829
32*.390
+1.531
75".65
a TSism Xajorls.
Mag. 2.0
Right
Ascension.
h
10
m
58
20.07
20.64 5^
21.16^2
21.61 45
21.97 ^f
^' 28
22.25
22.43
22.51
22.50
22.41
22.24
22.02
21.75
21.44
21. II
18
8
I
9
17
22
27
31
33
33
32
20.78
20.46
20.16 ^^
19.88 ^^
19.64
24
20
19.44
19.28
19.18
19.13
19.14
16
10
5
I
7
14
20
19.21
19.35
^9-55 ,,
19.82 '7
20.16 34
41
20.57
21.04
21.56
22.12
22.71
47
52
56
59
61
23.32
23.93
24.53
61
60
Declina-
tion N.
+ 62 13
22.4
22.6 I
23.4
24.6 "
26.3 '7
21
28.4
30.8 It
33.4
36.0
38.6
26
26
26
24
41.0
43.1
44-9
46.3
47.3
47.8
47.8
47-3
46.4
45.0
21
18
14
10
5
o
5
9
14
18
21
43.2
41. 1
32.8 3<^
32
29.6
26.3 33
22.9 34
19.5 ^t
16.2 33
32
13.0
10. 1
7.5
5.2
3.4
29
26
23
18
2.1
1.4
1.2
13
7
2
2.146 -1-1.899
i8«.487 34".69
X Leonis.
Mag. 4.7
Right
Ascension.
h
II
m
O
s
28.89
29.20
29.49
29.74
29.94
30.10
30.21
30.27
30.30
30.29
30.25
30.18
30.09
30.00
29.90
29.80
29.70
29.60
29.52
29.45
29.40
29.36
29.34
29.34
29.37
29.43
29.52
29.64
29.80
29.99
30.22
30.48
30.78
31.10
31.44
31.78
32.12
32.45
31
29
25
20
16
II
6
3
I
4
7
9
9
10
10
10
10
8
7
5
4
2
o
3
6
9
12
16
19
23
26
30
32
34
34
34
33
Declina-
tion N.
+ 748
44.4
42.5
40.9
39.5
38.4
37.6
37.0
36.7
36.6
36.8
37.1
37.5
38.0
38.6
39.2
39.8
40.4
40.9
41.4
41.8
42.2
42.4
42.5
42.4
42.3
41.8
41.2
40.4
39.3
38.0
19
16
14
XI
8
6
3
I
2
3
4
5
6
6
6
6
5
5
4
4
2
I
I
2
4
6
8
II
13
15
18
36.5
34.7
32.8 '9
30.7 "
28.6 "
22
26.4
24.3
22.3
21
20
1.009 'K>.»37
28«.724 43".47
0.00
■0.4
0.00
-K).3
40.0I
-0.4
■♦o.io
+0.3
[Bph is]
-K>.OI
-0.4
•K>.I2
^.3
0.00
-a4
•K>.OI
4<X3
APPARENT PLACES OF STABS, 1912.
379
FOR THE UPPER TRANSIT AT WASHINGTON.
p^ Leonis.
^ Vn» Majorls.
ft Crateris.
d Leonis.
Mean Solar
Mag. 5.7
Mag. 3.2
Mag. 4.5
Mag. 2.6
Date.
Right
Decllaa-
Right
Declina-
Right
Declina-
Right
Declina-
Atcension.
tionN.
Atcension.
tion N.
Ascension.
donS.
Ascension.
tion N.
h m
e t
h m
• 1
h m
e t
h m
e »
II 2
+ 2 25
II 4
+4458
II 7
— 22 20
If
II 9
+ 2059
Jan. 0.7
s
25.05 „
•^3-3 ,„
8
44.05 „
WW
24.7 ,
19.61
328 ,,
35-4 '
s
26.11
78.0
10.7
2536 w
^^•3 0
44.46 *'
4484 ^!
24.2 5
^9-93 f^
26.44 \\
76.5 \\
20.6
25.64 1\
59-4 \l
24.1
20.22 '
38-1 M
26.75 \\
75-4 "
30.6
25.89 "5
57-8 "^
45.17 ,0
24.6 5
20.47 '^
40.8 '7
27.02 '
74-6 8
Feb. 9.6
26.09 z
56.4 t
28
45.45 _
25.5 ,!
20.67 ""^
43-4 J
22
27-24 "
74.2 4
16
13
21
13
16
*5
18
1
19.5
26.25 „
55-2
45.66
26.8 ^
20.83 „
45-9 „
27.42
74-1 ,
29.5
26.36 "
26.42
54-3 ?
53.7 ^
45-81 'S
45.89 ^
28.4 'f
30.2
20.94 "
21.00
4%
48.2 \\
27.55 I
27.63
74-4 \
Mar. 1 0.5
5°-3 ;
74-9 i
20.5
26.45 \
53.3 ,
45.91 ,
3»-2 Z
21.03
53-8 '^
27.66 3
75-6 I
30.4
26.44 :
53-2
45-88 I
34-2 !°
21.02 '
27.66 °
76-5 '
4
0
8
JO
5
J3
4
10
Apr. 9.4
26.40
53.2
45-80
3<*-2 .
20.97
55-1 ,„
27.62
77-5 ,„
19.4
26.33 I
26.25 I
53-4 ,
45-68 "
39-6 !
20.90 '
56.1 '°
27-55 !
27-47 ,„
78-5 ^
29.4
53-7 ^
45-54 *
20.81 9
56.8 7
79-5 °
May 9.3
26.16 9
54-1 :
45-37 ,;
45-19 «
4I.O t
20.71 ;^
57-3 \
27.37 °
80.5 '°
19.3
26.06 '°
54-6 \
42.1 "
20.60 "
57-5
27.26 "
81.4 9
10
5
18
7
12
1
II
7
29.3
2596 ^^
55.1 ,
55-7 J
56.3 J
56.9 t
4S-OI
42-8 .
20.48
57-4 .
27-15 „
82.1 ^
82.7 f
June 8.2
25.86 'I
44-83 ^
44-67 ^
43-2 *
20.36 "
57-0 *
56.4 J
27.04 "
18.2
^5-77 I
25.69 I
43-2
20.25 "
26.94 'I
83.1 t
28.2
44-52 \\
42.8 4
20.14
26.85 '
26.77
7
83.3 '
July 8.2
25.62 7
0
57.4
44-39 ,J
42.0
11
20.05 \
54-6 '°
12
83.3 °
18.1
25.56
57-9 ,
44-28
44-20
40.9 ,,
19.97
53-4 „
26.70
83.2
28.1
25.52 \
58.3 *
39.5 t
19.90 7
s*-^ !
26.65 ^
82.9 3
82.3 ;
81.5 1
Aug. 7.1
25.50 ^
58.7 t
44-15 f
37-8 !
19.86 ^
50.7 t
26.62 ^
17.1
25.50 _
590 3
44-»3 ,
35-8 \°
19.84 ^
^^-^^ !
26.62 °
27.0
25.53 \
59.1 :
44-15 g
33-5 '^
25
19.84 °
4
47.8 ;j
26,64 ^
5
80,6 9
12
Sept. 6.0
25-58 -
25.66 \
590
44-2^ .«
3^0
19.88
46.5 „
26.69 «
79-4 ,,
16.0
58.7 ^
44-31 ^
^8-4 S
19.96 °
45.4 "
26.77 „
78° 1
76-4 \\
74-6 '0
25.9
2578 !
58.2 ^
4446 ,x
^5-6 0
20.08 "
44.5 I
26.89 "
Oct. 5.9
2593 ,^
57-4 ,1
44.65 '
22-7 \l
20.23 ^^
43.9 ,
27.05 \l
15.9
26.12 '9
564 !
44-89 \^
19.8 '9
20.42 '9
43.6 3
27.24 ':
72-6 '°
S3
13
29
29
24
I
23
21
25.9
26.35 „
55-1 ,,:
45.18
16.9 „
20.66
43-7
27.47 „
70-5 „
Nov. 4.8
26.62 '7
53-5 J
45.51 33
»4-» J
20.93 ^j
44-2 3
27.74 ,:
68.2 ="3
14.8
26.91 ''
5»-7 '
45.88 37
"•4 I
21.24^^
45-^ ,!
28.05 ^
65-9 1\
24.8
27.23 ^*
49.8 9
46.28 4°
9.0^4
21.58 34
46-5 -J
28.38 33
63-6 ^^
Dec. 4.8
27.56 \l
47-7 '
46.71 *^
6.9"
21.93 ^\
48-3 !
28.73 ^^
6^-4 !
34
22
44
17
36
21
36
21
14.7
27.90,.
45-5 _
47.15 ,,
5-2 ,
22.29
504 ^,
29.09
59-3 _
24.7
28.24 34
22
43-3 "
47.59 ^
3-9'^
22.64 ''^
52.7 '5
29.45 ^^
57-4 \l
34.7
28.56 3="
41.2 "'
48.02 43
3-1 '
22.97 ^^ 55.3 ''''
29.80 •'^
55-8 '<^
Sec d. Tan d
i.ooi 40.041
i.!|i4 40.999
1.081 -0.41 1
1.07 1 40.384
Mean Place
24*-939 6o".76
43«.3ii 34".3i
I9-.687 43".27
25».847 8i".52
ly^A, Dm a
0.00 0.00
+0.01 -K).o6 0.00 -0.03 1
0.00 40.02
Df (^, D«<f
-0.4
40.2 1
^.4
+0.2 1
-0.4
-K).2 >
-0.4
40.2
[Eph la]
380
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
d LeonlR.
V IJrssB JCaJorls. (^ Crateris.
(T LeoBlB.
Mean Solar
Mag. 3.4
Mag. 3.7 Mag. 3.8
Mag. 4.1
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
DecUna>
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tionN.
h m
e *
h m
0 t
h m
•
h m
0 r
II 9
+ 15 54
II 13
+33 33
II 14
-14 18
II 16
+ 630
Jan. 0.7
8
37.61
36.6 ,,
8
44.18
81.5
s
56.31
O.I
s
36.05
434 ^^
10.7
37.94 33
34.9 \\
44.55 ,,
80.5 '°
56.62 3»
2-5 :t
36.37 11
20
4».4 °
20.6
38.50 It
33.6 \l
44.89 ^J^
79.9 t
56.91 11
5° i
36.66 'I
36.92 It
39.7 ,;
306
32.6 '°
45.19 \^
79.7 ,
57.16 ^5
7-4 2
38-^ f
Feb. 9.6
38-72 "
31.9 I
45.44 ^
79.9
57.37
9.6"
37- H "
37-0 "
17
4
20
7
17
21
»7
xo
19.6
38.89
31.5 ,
45.64 . ,
80.6
57-54 ,,
"•7 ,„
37.31 „
36.0
29.5
39.01 „
39.09 _
31-4
45.78 '^
81.6 '°
57.66 "
»3.6 9
37-44 I
37.52
35.3 I
Mar. 10.5
31.6 \
45.87 I
82.8 "
57.73 ;
^S-3 I
34.9 ;
20.5
39.12 ^
32.1 *
32.7 y
45.91 *
84.2 ;*
57.77 ^
16.7 '*
37.56 *
34.8 '
30.4
39.12 °
45.90 ^
«5-7 \l
57.77 3
17.8 "
9
37.57 3
34.9 3
Apr. 9.4
39.08
33.4 8
4585 „
lu I,
57-74 .
57.68 I
57.60 °
18.7
37.54 .
37-49 ,
35-2 ^
35.6 *
19.4
39.02
38.94 ,„
34.2
88.8 'S
'9-3 :
29.4
35-1 I
35.9 0
36.7 ^
45.67 °
90.3 '5
^97 ^
37.42 7
36.1 ^
May 9.3
38.84 °
45.55 ,^
91.6 3
57-51 '
19.9 ,
37-33 I
36.6 I
37-2 ^
19.3
38.74 '°
10
45.41 4
92.7 8
57-41 '°
10
19.8 '
2
37-24 '
10
29.3
38.64 „
37.4 .
38.0 ^
45.27 ,,
93.5 .
57-31
19.6
37-^4 ,„
37-8
38.4 t
390
June 8.3
38.53 "
45.14 ^
94.0 5
57-2^ ^
19.2 *
18.6 I
37.04 '°
18.2
38.44 '
38.5 \
45.02
94.2 I
57.11 ^^
36.95 I
36.87 !
36.79 I
28.2
38.35 '
38.27 \
38.8 3
44-90"
94.2 ^
57.02 9
17.8 ;
39.5 *
July 8.2
39.0 ^
44.80'°
9
93-9 I
56.93 ^
16.9 9
39.9 *
4
18.1
38.21
390
44.71
93-3 „
56.85
'5-9 ,„
36.73 .
403 ,
28.1
38.17 t
38.9
44.64 7
92.4 9
56.79 I
14.9 °
36.68 5
40.6 I
Aug. 7.1
38.14 ;
38.6 3
44.60 *
9'-3 :
56.75 *
13.8 "
36.65 3
40.8 '
17.1
38.13 '
38.1 s
44-59 \
89-9 1
56.73 ,
12.8 '^
36.64
40.8 ^
27.0
38.15 \
37.4 „
44.60
88.2 '7
56.74 '
1 1.8 **»
36.65 '
40.6 *
5
9
5
»9
3
9
4
3
Sept. 6.0
38.20
38.28 *
36.5 „
44.65 g
44.73 ,!
86.3
56.77 ,
10.9
36.69
40-3 ,
16.0
35-4 "
^^-^^ l\
56.84 7
10.2 '
36.76 7
39.8 I
39-0 °
26.0
38.40 \\
34.1 \\
44-85 "
81.9 '3
56.95 "
9-7 ^
36.87 "
Oct. 5.9
38.55 \l
32.6 5
16
79-5 !^
57.09 ;;
9-5
3701 *
37.19 I,
38.0 ^
15.9
38.74 ''
3°-9 !
20
45.21 ^°
76.9 't
57.27 '^
9-7 '
36.7 ^
23
19
25
26
23
5
21
»5
259
3^-97 .
39.23 ll
29.0
4546 ,^
74-3 ,,
57-50 .
10.2
3740 .
37.66 ^^
35.2 „
Nov. 4.8
26.9 n
45-75 '^
71.7 '*
57.76 ^^
n.o
33-5 !
14.8
39.52 \\
24.7
46.07 \\
69.2 5
58.05 ^9
12.2 "
37.95 ,^
3t-6 9
24.8
39.85 \\
22.5 "
46.42 35
66.7 5
58.37 3^
»3-7 'f
38.26 3
=^9-5 "
Dec. 4.8
40.20 35
^'o^ "
46.80 38
64.S "
58.71 34
15.6 '9
38.59 11
'7-3 "
35
22
39 - 20|
35
21
35
22
14.7
40.55 _
I8.I
47.^9 _
62.5 ..
59.06
17.7
38.94 ,,
*5-^ ,,
24.7
40.90 \l
»/: T 20
10. 1 ^
47.58 39
60.8 '7
59.41 35
20.0 3
39.28 34
^3-0 "
34.7
41.2434
14.3 ''
47.96 38
59.5 '^
59.74 ^^
22.4 '^
39.61 ^^
«, ^ 20
21.0
Sec <f , Tan 6
1.039 +0.286
1.200 H0.664
> 1.032 -0.255
1.007 +0.X14
Mean Place
37-.407 38".57
43'-757 88".8i
56-.389 7".86
0.00 -0.02
35'.985 42".6o
ly^a, D«a
0.00 40.02
0.00 •K>.04
0.00 +0.01
D^ d, Dm ^
-0.4
-K).2 1
-0.4
.K>.2 1
-0.4
10.2 1
-0.4
■K>.2
[Eph xa]
APPARENT PLACES OF STABS, 1912
381
FOR THE UPPER TRANSIT AT WASHINGTON.
7t Oentauxl.
2 LeoniB.
T Leonls.
A. Draoonis.
Mean Solar
Mag. 4.3
Mag. 4.0
Mag. 5.2
Mag. 4.1
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Aicension.
tion S.
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion N.
h iki
•
h m
p *
h m
•
h m
0 f
II 16
-54 0
If
II 19
+ 11 0
II 23
+ 320
II 26
+ 6948
Jan. 0.7
s
59.06
12. 1
8
20.34 _
49-9 .0
s
24-73 „
29.3 _
s
13.66 _
46.0
10.7
59.50 ^
H-8 11
20.67
48-' \l
2505 f„
^7-3 "
^4-41 '„
46.1 '
20.6
59.88 38
17-9 i]
20.97 ^°
465 ;
25-34 11
25.4 ]l
^5-" 1°
468 ,^
306
60.21 33
"•^ A
27
45-2 It
^5-6° '!
^3-7 I
15.73 t
48.1 \l
Feb. 9.6
60.48 ^7
24-9 It
21.46 "
44.2'°
25.82 "
22.3 ^"^
16.26 53
49-8 '
20
36
18
7
18
II
41
33
19.6
60.68
2^-5 ,,
21.64 ,,
43-5 ,
26.00
21.2
'^•^7 ,„
52.0 ,.
295
60.82 ^^
32.1^^
21.77 '3
43-2 3
26.13 '3
20.3 I
19.7 I
16.96 =^9
17-12 'J
54-^ 8
57-4 ll
Mar. 10.5
60.89 7
35-6 35
21.86 ^
43-1
26.22 ^
20.5
60.90 [
38.9 l^.
21.90 ^
43-2 '
26.27 ^
19.4 ,
17.16 4
^7°« .8
^3-' 36
30.4
60.85 5
10
4-0 11
21.91 ^
3
43-5 I
0
26.28 ^
2
19.3 J
Apr. 9.4
60.75 ,,
44-8 „
21.88
44.0
44.6
26.26
19.4
16.90
16.62 *8
^5-7 ,,
19.4
60.61 '^
47-3 '5
21.83 5
26.22 ^
19.6 ^
68.1 '4
29.4
60.44'^
49-4 !
21.76 7
45-3 ;
26.15 J
26.07 »
20.0 "*
16.27 ^^
70.2 ]l
May 9.3
60.24 '°
21.67 ^
46.0 7
20.5 5
15.86 4'
71.9 ^
19.3
60.01 ^3
24
52.3 8
21.58 ^
10
46.8 ^
7
25.98 I
9
21.0 5
6
'5-4^ J'g
73.2 ^
293
59.77 ..
53-1
21.48
47.5 ^
48.1 I
25.89
25.79 'I
21.6
14-45 *
73.9 -
June 8.3
59.52 5
53-4 ,
21.38 '°
22.2 ^
22.8 ^
74.1 ,
18.2
59.27 11
53-3 ,
21.29 ^
48.6 5
2570 2
^3-98 47
73.8 I
28.2
59.03 J:
6
52.7 „
21.20 ^
21.12
7
49.0 ^
25.62 ^
25.54 ^
23.3 I
13.54 ;7
73.0 ,!
July 8.2
58.80 "3
21
''■' :;
49.4 ^
23.8 ^
13.13 *'
37
71-7 'I
' 18
18.1
5^-59 ,^
48.3 [I
21.05
49.6
25.47 .
24-3 .
12.76
69.9 „
28.1
58.40 \l
21.00 ^
49.7 ]
25.42 ^
24-7 ;
12.45 ;.
^7-7 Z
Aug. 7.1
58.25 '
46-^ "
20.97 3
49.6 ^
25.38 ^
250 I
12.21 *
12.03 1
17.1
58.14 "
58.08 ^
43-7 l\
20.96
49.4 .
25.36 ^
25.2
62.2 ^9
12
27.0
4' -2 '^
20.97 ]
49.0 I
25.37 :
25.2 °
11.93 '°
59.0 f ^
I
25
4
6
3
2
I
34
Sept. 6.0
58.07
38.7 ^^
21.01
48.4 „
47-6 ,1
25.40
25.46 ^i
25.0
11.92
55-6 36
52.0 :,
16.0
58.12 5
36.2 ^5
21.08 7
24.7 ^
24.1 g
11.99 7
26.0
58.24 "
33-8 :!
21.18 *°
46.6 '°
^556 ^
483 11
Oct. 5.9
58.43 11
-.T A 22
29.8
21.32 ]l
21.50 '*
45.3 \l
25.70 ^
23.3 „
12.41 '^
^•7
4^-^ ,.
159
58.68 ^5
43-8 ^
25.87 11
22.2 "
12.76 35
32
13
22
17
21
14
44
35
25-9
59.00
28.5 ^
21.72
42.1
26.08
20.8 ,
13.20
37-6 _
Nov. 4.8
59.37 ]l
277 :
21-97 11
40.2 '9
26.33 li
26.61 ^*
17.4 "
13.74 ^:
^•36 ll
34-4 '!
14.8
59.80 ^3
27.4 3
22.26 ^
38.1 "
31.5 '^
24.8
60.26 ^l
27.7 ^
22.58 f
35.9 "
26.92 3^
^5-4 '°
^5-^4 ''
29.0 5
Dec. 4.8
60.74 ^
28.7 :
22.91 33
22
337
27.26 34
^3-2 "
15.78 7^
26.9
49
15
35
22
34
33
77
15
147
61.23 0
30.2 ^^
23.26
31.5
27.60
II.O
^^•55 ^e
25.4 .
24.7
6^-71 t!
32-2 '"
23.61 35
X^ ^ 21
29.4 ^
27.94 34
8.8"
17.33 ll
24.5 ;
347
62.17 ^^
34.7 ^^
23.95 ^^
0^ T 20
27.4
28.27 33
6-7"
18.10 77
24.2 3
Sec 6, Tan 6
1.701 -1.377
1. 019 •K>.i94
1.002 .K>.058
2.898 +2.720
Mean Place
59*.370 31"."
20'.248 5o".75
24".727 27".72
ii«.645 6o".8o
DV ^1 ^•^ ^
-0.0 1 -0.09
0.00 +0.01
0.00 0.00
+0.01 40.18
D^6,Dmi
-0.4
+0.2 1
-0.4
40.2 1
-0.4
40.2 1
-0.4
40.I
[Bph 19]
382 APPARENT PLACES OF STAES, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
S Hydm.
A. Centanii.
t^ Lftonli.
T dunueleontUi.
Mean Solar
Mag. 3.7
Mag. 3.3
Mag. 4.5
Mag. 5.7
Date.
Right
DecUna-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tiooS.
Ascension.
tion S.
Ascension.
tions.
Ascension.
tion S.
h m
• '
h m
p '
h m
e
*
h m
• r
II 28
-31 22
0f
II 31
-6231
n
II 32
— 020
If
II 33
-7524
Jan. 0.7
8
39.99
1-5
8
42.33 ,
37.6 ,.
t
2^-50 „
13.5
s
36.61
"-3 „
10.7
40.34 35
^■^ I
42.87 \t
4°=^ ,0
26.82 32
15.6
2*1
37.49 '*
^3-6 11
20.6
40.66 3^
7° 0
43-35 ^,
43.2 3^
27.12 30
17.6
20
38-28 79
16.4 =■*
30.6
40.94 \\
9-9 ;
43.76 ^
46.5 \\
27.39 \l
19.5
19
16
38.96 ^«
19.7 51
23-3 a
* Feb. 9.6
41.17 i
12.8 ^9
44." „.
50.0 •''
27.62 ^3
21. 1
39.51 55
18
29
27
37
IB
13
41
38
19.6
29.5
41.35
41.49 '^
44.38
44.56 8
53-7 38
57.5 ^,
27.80
27.94 1^
22.4
23.5
II
8
6
39.92 ^3
40.20
27.1
31.0 39
Mar. 10.5
41.58 I
21.0 ^<^
44.66 '°
61.2 37
64.8 f
28.04
28.10 *
24.3
40.34 *
34-9 :'
20.5
41.62 ^
23-3 ^f
44.69 f
24.9
40.34 „
38.8 39
30.5
41.63 \
25-4 '•
44.65 „
68.3 35
28.12 '
25.2
3
40.21 '3
42.5 ^I
3
J9
II
32
2
1
25
35
Apr. 9.4
41.60
41.54 g
41.46
28.9 '*
44.54 ,,
74-3 ..
28.10
25.3
39.96 .
39.60 36
39.14 1!
46.0
19.4
44.37
28.06 4
28.00 ^
25.2
I
0
49-3 ^f
29.4
30.1 "
43.89 \l
76.8 ^5
25.0
0%
52.2 '9
May 9.3
41.36 °
310 9
78.9 '
27.93 J
27.85 I
24.7
3
38.60 54
37.99 %
54-7 '^
19.3
41.24 "
13
31.6 ^
3
43.60 ^9
31
80.6 '7
12
24.3
4
5
5^-7 :^
293
41." ,,
319 ,
43.29 _ .
81.8
27.76 ^^
23.8
6
6
6
6
5
3732 ^,
583 ,„
June 8.3
40.98 3
31.8 '
42.95 \Z
82.5 7
27.66 '°
23.2
36.61 7»
59.3 '°
18.2
40.85 3
314 ,
42.60 3^
82.7 \
27.57 ^
22.6
35.88 73
59.8 5
28.2
40.72 3
30.7 ,;
42.26 34
82.4 3
81.6 *
13
27.48 ^
27.40 ^
22.0
35.15 ;f
59.8 \
59.2
II
July 8.2
40.60 "
II
29.7
12
41.93::
32
21.4
34-44 ^8
18.2
40.49
28.5
41.61
80.3 „
27.33 .
20.9
3376 ,,
58.1 .*
28.1
10
40.39 g
^7-^ ^6
41.32 9
78.6 '7
27.27 ^
20.4
5
mm
02
33.14 „
56.5 •*
Aug. 7.1
40.31 .
^5.5 !
41.08 ^^
7^-5 l\
27.23 ^
19.9
5
A
32.61 5''
54-4 !
17.1
27.0
40.26 5
40.24 \
23.8 '7
22.1 '7
17
40.89 '
40.76 '3
74-1 "1
71.5 '*
27
27.20 3
27.20 "
2
19.5
19.3
4
2
0
32.18 43
31.86 3^
^ 18
5^° 6
49-4 ,8
Sept. 6.0
40.25
20-4 -
40.70
68.8
27.22
27.28 I
19.3
31.68
46.6
16.0
40.30 I
18.8 '^
40.72 „
66.1 ="7
63.5 '^
or
19.4
I
31.65 ,^
43-6 Z
26.0
40.39 ,:
174 !!
40.83 •
^7 37 ^\
19.8
4
6
31.78 3
37-8 !
Oct. 5.9
40.53 '^ 16.2 ^::
41.02 w
61.0 ^5
27.49 "
20.4
32.07 ^
159
40.72 ^^
^^•^:
28
41.30 3,
5«-« Is
27.66 '7
20
21.3
9
12
32.51 "^
59
35.2 ^<^
21
25.9
40.95
15.0
41.66
57.0
27.86
22.5
3310
33-1 .,
Nov. 4.9
27
41.22 '
15.0 °
42.10 44
55.7 ,
28.10 ^1
23.9
14
33.82 7^
31.4 I
14.S
11
41-53::,
^5-5 ,^
42.60 5°
55.0 \
28.38 ^®
25.6
17
34.66 J4
30.3 "
24.8
41.87 ^t
^^•5 ^
43.15 \l
54.9 .
28.68 3°
27.5
19
3558 ^^
29.8 5
Dec. 4.8
42.24 37
17.9 't
' ^ 18
«-73 59
55.4
II
29.00 3^
34
29.6
21
22
3^-55 ^^
99
29.9 8
14.7
42.62
'97 ,^
44.32
56.5 ,,
29.34 „
31.8
37.54 ,,
3°-7 .^
24.7
42.99 ^^
21.9"
44.91 :^
5S-2
29.69 35
34.0
22
38.51 ^^,
32- > '*
34.7
43.35 ^
24.4 ^^
45.47 ^^
60.5 ^3
30.03 34
36.2
22
39.44 ^^
34.1 '**
Sec <J, Tan (5
1.171 -0.610
2.168 -1.924
1. 000 -0.006
3.970 -3.842
Mean Place
40-.274 14" .45
42'.893 58".27
26*.583 16" .0:
\
37'.470 33".78
D'^ a, Dm a
0.00 -0.04
-o.oi -0.13
0.00 0.00
-O.OI -0.25
D^i,Dm^
-0.4
40.I 1
-0.4
+0.1
-0.4
+0.1
1
-0.4
"♦0.1
[Bph is]
APPABENT PLACES OF STARS, 1912.
383
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.7
10.7
20.7
30.6
Feb. 9.6
19.6
295
Mar. 10.5
20.5
30.5
Apr. 9.4
19.4
29.4
May 9.4
193
293
June 8.3
18.2
28.2
July 8.2
18.2
28.1
Aug. 7.1
17.1
27.1
Sept. 6.0
16.0
26.0
Oct. 5.9
15-9
259
Nov. 4.9
14.8
24.8
Dec. 4.8
14.8
24.7
34.7
Scc<J,Tan<f
Mean Place
Jy^ a, Dm a
8 Dnoonli.
Mag. 5.5
Right
Ascension.
h
II
m
37
•
36.12
36.80
3745
38-03
38.52
38.92
39-21
39.39
39.46
39.43
39.30
39.08
38.79
38.45
38.07
37.66
37.24
36.83
36.43
36.06
35.72
35-43
3520
3503
34.92
34.88
34-92
3504
35-24
35.53
35-9^
36.37
36.91
37-51
38.16
38.85
39-56
40.26
68
65
58
49
40
29
18
7
3
13
22
29
34
38
41
42
41
40
37
34
29
23
17
II
4
4
12
20
29
38
46
54
60
65
69
71
70
Declina-
tion N.
+ 67 13
40.0
39-9
40.4
41.4
43-0
45.0
47.4
50.1
52.9
55.7
58.4
60.9
63.1
64.9
66.3
67.2
67.6
67.6
67.0
65.8
I
5
10
16
20
24
27
28
28
27
25
22
18
14
9
4
o
6
12
16
20
64.2
62.2
59.8 '^
iZr^ 28
57-0
53.9
31
34
50.5
47.0
43-4
39-7
36.1
32.6
29-3
26.3
23.6
21.3
19.6
18.5
17.9
35
36
37
36
35
33
30
27
23
17
II
6
2.584 +2.382
34*-525 55".i7
+0.01
-0.4
40.16
40.I
C Crateiis.
Mag. 4.9
Right
Aacension.
h
II
m
40
7.78
8.II ^3
8.42 3»
8.69
8.93
27
24
19
9.12
9.27
9.37
9.43
9.46
9-45
9.41
9.35
9.28
9.19
9.10
9.00
8.89
8.79
8.69
8.60
8.52
8.46
8.42
8.40
8.41
8.45
8.53
8.65
8.81
15
10
6
3
I
4
6
7
9
9
10
II
10
10
9
8
6
4
2
4
8
12
16
20
9.01
9.26 ^5
20
9-55 ^
9-87
20.21
20.56
20.91
21.25
32
34
35
35
34
Declina-
tions.
-17 51
32.9
35-3 It
37.8 '5
40.3 ''
24
23
42.7
45.0
47.0
48.9
50.5
51.9
53.0
53-9
54-6
55-0
55-2
55-1
54-8
54-3
53-7
52.9
51-9
50.9
49-8
48.6
47-5
46.5
45-6
45.0
44.6
44-5
44-7
45-3
46.3
47.6
49-3
51.3
53.5
55.9
20
19
16
14
II
9
7
4
2
I
3
5
6
8
10
10
II
12
II
10
9
6
4
I
2
6
10
13
17
20
22
24
1.05 1 -0.322
i8*.04i 41''. 22
0.00 -0.02
-0.4 -K). I
[Bph ifl]
X Vnm XaJoTls.
Mag. 3.8
Right
Aacension.
h
II
m
41
25-13
25-58
25-99
26.37
26.70
26.96
27.16
27.30
27.37
27.38
27.34
27.25
27.12
26.97
26.79
26.60
26.41
26.22
26.03
25.86
25.70
25-57
25.46
25-39
25-35
25-35
25-39
25-48
25.62
25.81
26.06
26.36
26.71
27.10
27-53
27-98
28.44
28.89
45
41
38
33
26
20
14
7
I
4
9
3
5
8
9
9
9
9
7
6
3
I
7
4
o
4
9
14
19
25
30
35
39
43
45
46
45
Declina-
tion N.
+ 4815
50.3
49-6
49-3
49.6
50.4
51.6
53.2
55.1
57-2
59-4
61.7
63.9
65.9
67.6
69.0
70.1
70.8
71. 1
71.0
70.4
7
3
3
8
12
16
19
21
22
23
22
20
17
14
II
7
3
I
6
10
69.4
68.1 ^^
66.4 ^7
64.4 "*'
62.0 ^t
26
56.6 ^«
53.6 3^
50.5 ^'
47.3 ''
44.1
41.0 3«
38.0 3°
35.3 ''
32-8 '5
21
30.7
29.1
27.9
16
12
1.502 +I.I2I
24-.548 62".54
0.00
-04
40.07
40. 1
Mag. 2.2
Right
Aacension.
h
II
m
44
34-34 , .
34-68 34
34-99 ^l
35-27 ''
2S
35.52 ^5
35-73 ,,
35-88 ^5
35.99 "
36.06
36.09
7
3
o
36.09
36.05
35-99
35.92
35-84
35-74
35-64
35-54
35-45
35.36
35.28
35.21
35.15
35.11
35.10
35.11
35.15
35.23
35.35
35.51
35.70
35.93
36.20
36.51
36.84
37.18
37.53 „
37.88 35
4
6
7
8
10
10
10
9
9
8
7
6
4
I
I
4
8
12
16
19
23
27
31
33
34
35
Declina-
tion N.
+ 15 3
47.4
45.6
44.1
42.9
42.0
41-5
41-3
41.4
41.8
42.4
43.1
44.0
44.9
45.8
46.7
47.5
48.2
48.8
49.3
49.6
49.7
49.6
49.4
49-0
48.4
47.6
46.5
45-2
43-7
41.9
39-9
37-8
35-6
33-3
31.0
28.7
26.5
24-5
18
15
12
9
5
2
I
4
6
9
9
9
9
8
7
6
5
3
I
I
2
4
6
8
II
13
15
18
20
21
22
23
23
23
22
20
1.036 40.269
34«.34i 5o".52
0.00
^.4
40.02
40.I
384 APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
>9 Vixfliiis.
Groombxidge 1880.
;^ IJrssB XaJorU.
^Vixfliiis.
Mean Solar
Mag. 3. 8
Mag. 6.5
Mag. 2.5
Mag. 4.6
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
donN.
Ascension.
tion N.
h m
e *
h m
0 t
h m
• '
h m
•
II 46
+ 2 15
II 47
+ 3820
If
II 49
+ 5410
II 56
+ 75
0^
Jan. 0.7
s
39-8,
s
5498 _
50.9 ,
s
'3-21 _
48.8
s
21.66
77-3 _
10.7
6.88 33
^7-7 2
5538 *l
49.6 'I
13-71 ^°
48.1 7
21.99 ^^
75.3 'I
20.7
7-^9 11
35-7 8
55.76 ll
48.8 8
14.18 47
48.0 '
22.30 3
73-5 *
306
7-47 ll
33.9 ;
56.11 35
48.4 *
14.60 f
4S'4 ,^
22.59 11
7»-9 t
Feb. 9.6
7-7' !o
32-4 '
5641 11
48-5
14.97 37
49.4 ^°
22.84 '5
70.6 ;3
30
12
26
5
31
14
21
10
19.6
791 ,,
31.2
5667 ,„
^^90 ,„
15-28
5^-® ,R
23.05 ,^
69.6 ,
29.6
8.06 '5
30.3 ;
56.87 ^°
50° !
15-52 '*
52.6 ^»
23.22 *7
68.9 I
Mar. 1 0.5
8.17 "
8.25 I
29.6 7
5701 '^
57.09 '
51.3 \l
15.68 '5
15-76 '
54-» 11
23.34 "
23.42
68.5 4
20.5
29.2 ^
52-8 ^
57-2 !t
68.4 ;
305
8.28 3
29.0 ;
57.13 ;
54-5 ^
15.77 '
59.7 ^
23.46 *
68.5 \
0
0
I
17
5
25
I
3
Apr. 9.4
8.28
29.0
57-12
56-2
'5-72 ^„
62.2
23.47 .
68.8
19.4
8.26 ^
29.2 ^
57.07 I
56.99 ,„
59-5 „
15.62 °
64-5 I'
23.45 .
69.3 5
69.9 J
70.5 !
29.4
8.21 5
8.15 t
8.07 I
29.6 ^
15-47 11
66.6 "
23.41 I
23.35 :
May 9.4
30.0 *
56.89 °
61.0 '5
15.29 *
68-5 !!
19.3
30.5 .
56.77 '
62.2 "
15-08 "
70.1
23.28 7
71.2 ^
9
5
13
10
23
II
8
7
29.3
798 „
310
31.6 ^
32.2 °
32.8 I
56.64
63.2
63.8 ;
14.85
71.2
23.20
71.9 _
June 8.3
7.89 I
56.50 ^
14.62 »3
71.9 ;
^3" '
72.6 I
18.3
780 9
7-72 I
7.64 I
56.36 4
64.1 3
M-38 ^1
72.2 I
23.01 '»
73-2 °
28.2
56.23 'I
64.1 °
H-15 f
72.0 ;
22.92 ^
73.7 ,
July 8.2
33.3 f
56.11 "
II
63-7 5
'3-94 •
20
71.4 ^
II
22.83 ^
74-2 J
18.2
7-56
33-8
56.00
630
13.74 ,,
70.3 „
22.75 ,
74-6
28.1
7-49 I
34-2 *
55.90 '°
55.82 »
^'•9 "
13-57 ';
68.8 '5
22.68 7
22.62
74.9 f
Aug. 7.1
7-44 f
34-6 *
60.5 *
13.43 ^
66.9 »9
750 '
17.1
740 ;
34.8 ^
55.77 I
58.8 '7
13.32 "
647 "
62.1 't
38
22.57 ^
750 °
27.1
7-39 I
34.8 ^
55-74 ^
56.8 ="*
23
13.25 ;
22.55 ^
74-8 '
4
Sept. 6.0
740 ^
34.7 ,
55-75 ,
54-5 „
13.23 ^
59-3 „
22.55 ,
74-4 ,
73-8 J
73-0 ,»
16.0
7-44 ;
752 I
34-4 I
33-8 J
330 °
55-80 5
52-0 5
13.25
13.33 ^
56.2.3
22.58 ^
26.0
55-89 ,^
'^9-3 11
530 3'
22.65 7
Oct. 6.0
7.64
56-02 3
56-20 '*
22
4^4 ,0
13.47 :
49-7 ,,
22.75 \l
71.9 "
15.9
7.79 4
32.0
13
43-4 ^^^
31
13.66 'I
26
46-3^4
34
22.89 :t
7°-^ 16
25.9
798 „
30.7 ,,
^^•^^ .^
40-3 „
13.92
4*-9 „
23.07 _
^•°,«
Nov. 4.9
8.21 *3
^7-4 ,,„
56-69 'J
37-2 3
14.24 :,
39.6 33
23.30 J
^^•56 ^
^7=» '0
14.8
8.48 11
57-01 3
34-2 ^°
14.61 37
36.5 3*
65-2 ^^
24.8
878 ^°
25.4 '?
57-36 35
31-3 ''
15.04 ^l
33.6 '9
23.85 \i
63» "
Dec. 4.8
9-^° ,!
23.3 ^
57-74 , .
28.6 ^7
15.50^^
31.I '5
24.17 ,^
60-9"
34
22
41
24
49
^ 21
34
23
14.8
9-44,,
21. 1
5^-^5 ,,
26.2
^599 _
29.0 ^
^4*51 ,,
586 „
24.7
9.79 ll
18.8 ^3
58.57 1'
^4-^ la
22.5 *"
16.49 ^^
27.4 ^
24.86 35
56.4 "
34-7
10.13 ^*
16.6 "
58.98 ^'
16.99 ^
26.4 *^
25.20 ^^
54-3 "
Sec<J,Tan<J
1. 001 40.039
1.275 +0.791
1.709 41.386
1.008
••0.125
Mean Place
6-.685 38".58
54*.67i 61". II
I2«.502 62".57
2i'.809 78".io
D'f a, Dm a
0.00 0.00
0.00 40.05
0.00 40.09
0.00 40.01
D^ 6, D« 6
-0.4
40. 1
-0.4
40.I
-0.4
0.0
-04
ao
[Bpb i4
APPARENT PLACES OF STARS, 1912.
385
FOR THE UPPER TRANSIT AT WASHINGTON.
0 Vlrglnis.
d Centauri.
f Corvi.
4 H. Draconis.
Mean Solar
Mag. 4.2
Mag. 2.9
Mag. 3.2
Mag. 5.1
Date.
Right
Declina-
Right
Declina-
Right
Dadlna-
Right
Declina-
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tionS.
Ascension.
tion N.
h m
e f
h m
• 1
h m
e 1
h m
e f
12 0
+ 9 12
12 3
-5013
" 5
— 22 7
12 8
+ 78 5
Jan. 0.7
s
43-47 „
7<5-3 ,„
46.75 ^
39-3 ^^
s
35.34 _
WW
40.3 .
8
8.20
61.3
10.7
43.80 33
74-3 °
47.19 t;
41-7 It
35.68 34
42-7 It
9-40"°
61. I ^
20.7
*♦•" 11
72.5 ?
47-60 \l
44-4''
36.01 ^^
45-2 *5
10.55"^
61.5 ^
30-6
44-41 I
71.0 '5
47.97 ^;
47-4 ^!
3631 1°
47-7 !^
11.62 '°7
62.5
Feb. 9.6
44-66 11
69.8 "
48.30 11
50-6 '"
36.57 '^
50.2 »5
12.56 94
64.1 '^
22
9
27
33
22
24
78
21
19.6
44.88
68.9 ^
^^•57 ,,
53-9 ,,
36.79 „
52-6 ,,
13-34 .
66.2
29.6
45-05 \l
68-4 I
48.78 ^
57-3 3^
36-96 \l
54-9 I'
13-95 f
68.7 ^^
Mar. 1 0.5
45-17 "
68.1 3
48.93 ^
60.6 33
37.09 '3
57.0 "
14-36 4-
71-5 ''
20.5
45.26 9
68.1 **
49.03 ^^
63-8 11
37-18 I
58.8 ;
14-57 '\
74-5 ^°
30-5
45-31 5
68.4 3
49.07 ^
66.8 3°
37-23 ,
60-5 I
14-58 '
77-5 3°
I
4
I
29
2
14
19
29
Apr. 9.5
45-32
68.8 ^
49.06
^9-7 ,6
37-25 ,
61.9
T T
'4-39 ,,
14.03 36
^3-2 '^
19-4
45-30
694 ,
49.01 I
48.93 ,?
72-3 "J
37-24 ,
63.0 "
29.4
45-26 ^
45.20
70-1 I
70-9 „
71.7 ^
74-5 "
37.20 *
37-14 J
63.9 I
'3-51 11
85.7 1'
May 9.4
48.81 '^
76.4 \l
64.6 I
12.87 '^
87.8 "
19-3
45-13 I
48.66 ^5
17
77-9 J
37-07 7
65-0 ^
12.12 75
83
89.4 '^
^12
29-3
45-05 „
72-4 ,
48.49
79-1
36.98
65-2 ,
11-29 „,
90.6
June 8.3
44-96 ^l
73-1 7
73-7 I
74-3 ,
48.30 [9
79-8 7
36.88 '^
65-1 '
10.42 87
91.2
18.3
44.86 '°
48.09 ^
80.1 3
36.78 '«
64.8 3
9-53 l^
91.2 °
28.2
44-77 I
47.88 ^
79-9 I
79-3 **
10
36-67
64-3 t
^•^4 ^^
90.7 5
July 8.2
44-68 9
74-7 I
47.67 ^'
20
36-56 "
10
63.6 7
9
7-7' 80
^9-7 ,6
18.2
4460
44-52
44-46
75-0
^7-47 ,^
78-3 „
36-46 ,„
^2-7 .„
6.98
88.1
28.2
75-2 ,
47.27 ^^
77.0 ;3
36.36 'I
61.7 °
6.25 73
86.1 '°
Aug. 7.1
75-3 '
47.10 ;7
75-3 11
36-28 8
60.6 "
5-^^ ti
83.6 ^5
17.1
44-41 5
75-2 '
46.96 '^
73-3 '°
36.21 '
59-4 \l
5.06 54
8°-7 '
27.1
44-38 3
74-9 I
46.85 ^^
»T /. 21
71.2
23
36.17 4
58.2 "
12
29
77.5 ^'
35
Sept. 6.0
44-38
74-3 ,
46.79
68-9 „
36.15 .
57.0 ^ ^
4.35 ^^
74.0
16.0
44-40
44.46
73-6 7
46.78
66.6 ^3
36.16 »
55.9 ^
4.20 '5
70.3 %
26.0
72-7 Z
46.83 5
64-3 '^
36.21 5
55.0 ^
4.20 ^
66.5 38
Oct. 6.0
44-56 °
7^-5 I
46.94 "
^^•^ 8
36.31 °
54.3 ;
4.36 ;^
6a.6 39
15.9
44-70 *
70-1 :^
47-^2 ll
60.4 °
36.45 4
53.9 ^
4.68 32
58.7 39
IS
J7
24
15
19
1
49
37
25-9
44.88
68.4
47-36
58-9 , ,
36-64 ,,
53.8
5-^7 ,
55.0
Nov. 4.9
45.10 "
^^•5 ^0
47-67 ^^
48.03 3J
57-8 "
57-2 ^
36-87 ^^
54.1 3
5.81 ^4
51-S ,
14.9
64-5 1°
37-14 ,;
54.8 7
6.60 79
48.2 33
24.8
45.65 'I
62.3 ",
4^-^^ !^
57-2 °
37-45 1]
55-9 "
7.53 ,^^
45-3 "'
Dec. 4.8
45.97 :,
60.0^3
48.88 ^^
57-7 „
37-79 „
57.3 't
8.57 '^4
42.8 »5
33
23
46
II
35
18
113
19
14.8
46.30
57-7 „
49.34 ,,
60.4'^
38- H ,,
59-1 ,„
970 ,.
40.9 ,
24.7
46.65 35
55.5 "
49.81 ^7
38-50 3J
61.1 '°
10.88"®
39.6 '3
34-7
46.99 ^^
53-4 "
50.28 ^7
62.4 '**
38.86 36
63-4^
12.09'^^
38.9 ^
Sec (5, Tan d
I.OI3 -K).l62
1.563 -1.202
1.080 -0.407
4.850 +4.746
Mean Place
43\622 78".oi
47'.5i2 56".83
35'.8oi 49".4i
5».409 78".78
iyy,a, D«a
0.00 +0.01
0,00 -0.08
0.00 -0.03
0.00 +0.32
D^<J, D«(J
-0.4 0.0
-0.4 0.0
-0.4 0.0
-0.4 OX)
191:
2 25
I
.£ph 12]
886
APPARENT PLACES OF STARS, 1912
FOR THE UPPER TRANSIT AT WASHINGTON.
d Cnicir.
^ Vtsm XaJoriB.
•
Y Corvi.
Mean Solar
Mag. 3.x
Mag. 3.4
Mag. 2.8
Mag. 5.8
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Decline-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tions.
Ascension.
don N.
h m
e '
h 1
n
0 '
h m
• t
h m
• •
12 10
-5815
ft
12 II
+ 5730
If
12 II
-17 3
12 II
+41 8
If
Jan. 0.7
27.19
^5-9 „
s
5.33
62.2
8
16.24 „
4-7 „
43-47 ,,
47-7 „
10.7
27.71 ^
^8-^ 11
5.86
53
6X.4 *
16.58 34
7.0*3
43.89 f
46.4 ^\
20.7
28.20 ^9
20.7 '^
6.37
51
61. 1 3
16.90 3^
9.3^3
44.28 39
45-6 \
30.6
28.64 1^
^3-7 1°
6.84
47
61.4 3
^720 3°
"•7:t
44.64 3^
45-3 f
Feb. 9.6
29.02 ^
26.9 3^
7.26
42
62.3 9
17.46 ="*
14.0 *3
44-96 3^
45-5 .
32
34
36
14
22
22
38
7
19.6
29.34 _
3°-3 „
7.62
_ 0
^3-7 ,„
17-68
16.2
45-24 „
46.2 ,,
29.6
29.59 ^l
29.77 '**
33-8 ^^
7.90
28
65-6 «
17.86 »
18.2 ^°
45.46 "
47.3 "
Mar. 1 0.5
37-4 3,J
8.10
20
67.8 "
18.00 '4
20.0 ,
45.62 •*
48.8 '5
20.5
29.88 "
40.9 „
8.23
13
70-2 ^1
18.09 '
21.0
II
45-73 '
5°-6 ^0
30.5
29.93 i
44.2 33
8.28
5
72.8 ^^
18.15 ^
22.9 '3
45.78 5
52.6 »^
0
32
2
27
3
II
I
20
Apr. 9.5
29.93 .
29.87 ^^
'^7-4 ,„
8.26
75-5 „
18.18
24.0
45.79 ^
54-* ,r
19.4
8.17
9
78° \\
18.17 ;
24.9 ,
45.75 z
56-7 "
29.4
29.76 11
8.03
14
. 0
80.4^4
18.14 3
25.6 7
45.68 7
587 "^
May 9.4
29.61 ^5
55-^ 0
7.85
18
8^-5 8
18.09 \
26.0 ^
45.58 ^
S:?:»
19.3
29.42 ^^
57.1 '
7.63
22
84.3 '^
18.03 \
26.2 ^
45.45 \
23
»5
25
13
8
0
14
14
29.3
29.19
58-6 ,0
7.38
t^£.
85.6
17-95 „
26.2
45.31 ,,
^3-5 ,„
June 8.3
^^•94 ^^
59.6 '°
7.12
26
86.5 \
17.86 9
26.0 ^
45.16 5
64.5'^
18.3
28.68 ^f
28.40 'f
28.12 ^f
60.1 5
6.85
27
87.0 5
17-76 °
25.7 ^
45.00 ^
65.1 *
28.2
60.2 *
6.58
27
87.0 °
17.66 °
25.2 5
44.84 t
654 \
July 8.2
59.8 ;l
6.32
26
86.5 5
17-56 *°
24.5 \
44.69 ^
653 '
28
9
25
10
10
8
15
s
18.2
*7-84 ,,
27.58 ll
58.9 „
6.07
855 ,^
17-46
23.7 „
44.54 ,,
64.8
28.2
57-6 i
5.85
22
84-^ «
17-37 '
22.8 9
44.41 '3
63.9 ,^
Aug. 7.1
27-34 "*
5.65
20
16
8^-3 ^
17.29 °
21.9 ^
44.29 "
^^•7 <
17.1
*7'4 Z
54.0 ,
5.49
80.1 *^
17.22 '
20.9 '°
44.20 ^
61.2 *5
27.1
26.98 ^
5^-7 '
5.37
12
0
77.5 ,^
17.18 4
19-9 ^
44.13 !
59-3 !!
10
25
8
39
2
9
3
22
Sept. 6.0
26.88
♦9-2 ,.
5.29
74-6 „
17.16
19.0 ^
44.10
57-* ,c
i6.o
26.84 ^^
5.27
2
7' -5 ^:
17.17 ,
18.2 °
44.10 ^
54-6 '^
26.0
26.88 ^
**'A
5.31
4
68.1 34
17.22 ^ 17.6
44.14 ^
5'-9 \\
Oct, 6.0
26.99 "
4'-7 t
5.41
10
64.6 35
17.31 ,^
17.2 ^
44.23 ,^
490 !'
15.9
27.18 9
39-5 "
5.57
16
61.0 36
17.44 :,
^7-^ :
44.37 ,;
46-0 3«
27
»9
23
35
17
3
19
31
25.9
27.45 ,^
37-6 ,^
5.80
57-5 „
^7-^^ 0,
17.3 ,
44.56
42-9 „
Nov. 4.9
27.79 ^:
36.2 4
6.10
30
54.1 ^t
^7-^3 "
17.8 5
44.80 ^4
39-8 ^
14.9
28.21 ^^
35.2 '°
6.46
36
50.8 33
^^•^ L
»8-7 '
45.09 ;
36-7 '*
24.8
28.68 ^7
34-8 ^
6.88
42
47-7 ^:
18.39 f
^9-9 "
45.42 33
33-7 ^^
Dec. 4.8
29.19 ^'
2
35.0 I
7.35
47
45.0 \\
18.72 33
10
45.79 ,1
3»o !
54
8
51
23
34
19
40
24
14.8
29.73 ^ .
35-8 _
7.86
42.7 .
19.06
23.4 ^,
46.19
28.6
24.7
30.27 f2
37-1 '^
8.39
53
409 , ,
19.77 ^
21
25.5 "
46.60 4»
24.9 "•
34.7
30.81 54
39.0 '9
8.93
54
39.6 '3
27.7 "
47.02 42
Sec <5, Tan 6
1.901 -1.617
1.862 +1.571
1.046 -0.307
1.338 40.874
Mean Place
28".i90 35".oi
4'.692 77".58
I6-.696 ii".8i
43*-275 59"-59
D V «, D« a
0.00 -0.1 1
0.00 40.I0
0.00 -K).02
0.00 40.06
D^(^, D«»(^
-0.4
0.0 1
-0.4
0.0 1
-0.4
0.0 1
-0.4
-0,1
[Bpb It]
APPAKENT PLACES OF STARS, 1912.
387
FOR THE UPPER TRANSIT AT WASHINGTON.
§ ChamsleontlB.
7 VirgixiiB.
oc^ CniolB.
80 Cosue.
Mean Solar
Mag. 4.4
Mag. 4.0
Mag. Z.6
Mag. 5.7
Date.
RiRht
Ascension.
Declina-
tion S.
Right
Ascension.
Declina-
tion S.
Right
Ascension.
Declina-
tion S.
Right
Ascension.
Declina-
UonN.
h m
e t
h m
e r
h m
e t
h m
• t
12 13
-7849
12 15
— 0 10
12 21
-6236
12 25
+ 21 22
Jan. 0.7
10.7
20.7
30.7
Feb. 9.6
s
7.21
0.42
9-54 ":
n.44 ;;
2.8 „
4.6 '«
6.9 'f
9.7 '«
12.9 3'
35
s
23.89
24.23 34
25.10 ^<^
22
39-1 „
41.2 *
43-3 "
46.8 *^
J4
40.34
40.93 ^;
41.48 55
42.43 „
37
21.8
23.8 ^°
20 ? ^«
29.1
32.2 3'
34
s
18.31 36
18.65 ^'*
18.96 3»
19.25 *9
24
53.3
«;i A '9
51.4
49.9 '^
48.7 "
48.0 7
3
19.6
29.6
Mar. 1 0.5
X2.l6
12.72 56
13.II 39
16.4
20.1 37
24.0 39
25.32
25.64 ^
48.2
49.3 "
50.1 ,
50.7 ;
51.0 3
42.80
43.10 3°
43-33 \\
39.2 3J
46.4 ^^
49.9 ^^
33
^9-49 ,„
19.69 """t
19.85 ;
47.7 ,
47.8 ;
48.3 i
20.5
30.5
13-32 '
13.37 J
27.9 ^^
31.8 39
37
25.74 '°
25.80 ^
3
43-48 '5
43-55 J
19.97 "
20.04
3
49.0 7
49-9 ^
II
Apr. 9.5
".97 ,-
35-5 „
25.83 „
51.1
43-56
53.2
20.07
510
19.4
39.0 35
25.83 ^
51.0 '
43.51 5
56.3 ^'
59.^ ,.
20.07
52.3 ^
29.4
12.55 *'
42-3 Z,
25.81 »
50.8 \
43 40 "
20.04 ^
53-6 3
May 9.4
12.00 ^^
...33 %
47.8 '**
21
2577 *
25.7X \
50.4 \
43.23 ';
61.6 ^5
19.99 ^
54-9 3
19.4
50.0 *
0
43.02 "'
25
63.8 "
»7
19.92 7
56.1 "
29.3
June 8.3
18.3
28.2
July 8.2
8.78 9'
7.83 95
6.86 97
95
f^-6 "
52.6
53-2
0
25.63 8
25-55 a
25.47 „
25.38 9
25.29 ^
9
49.5 ,
48.9 \
48.3 J
47.7 \
42-77 ,„
42.48 '9
42.17 3
41.8433
4».50 3^
33
•^5-5 „
66.7 "
67.5 !
67.8 3
67.6 '
7
19.84 ,„
^9-74 Z
19.64 °
19.53
»9-+^ lo
57-2 ,„
58.2 '°
59.0 \
59.6 \
59.9 ;
18.2
28.2
Aug. 7.1
17.1
4.19
2.89 58
42
52.7 „
50.0 '"^
47.9 "
25.20
25.11 \
25.04 7
24.98 J
46.6
46.1 5
45.7 \
45.4 ;
41.17 „
40.85 3^
40.29 ^J
66.9
64.2 '^
62.3 '9
19.32
19.23 9
19.14 '
19.06 *
60.0
59-9 \
59.5 :
58.8 7
27.1
45.5 ^;
24.94 ;
45.3 ^
40.08 *'
15
60.0 ^3
25
19.01 ^
57-9 '
II
Sept. 6.1
2-47 „
42.8
^9 /\
24.92
45-3 ,
39.93 ,
57-5 ,6
54-9 ,°
5^-3 !'
49.7 '^
47-3 :t
18.98
5^-8 .^
16.0
26.0
Oct. 6.0
15-9
2.24 •*
2.21 3
2.38 '7
2.77 39
59
39-9 ,„
37.0 '9
34- ^8
^^•' .5
2493 '
24.98 \
25.06
25.18 "
17
45.4 '
45.8 \
46.4 ^
47.3 ,^
39.86 7
3987 '
39.96 9
4°-5 ^^
18.98 °
19.01 3
19.08 7
55.4 1
53-7 '
51.8 »9
^« ». 21
49-7 ,,
23
259
Nov. 4.9
14.9
24.8
Dec. 4.8
3-36
4-^5 ''
5.n 96
6.20 »°9
7-4^ 1.6
28.7
26.6 "
24.9 \\
23.8 '
233 \
25.35 ,,
25.81 ^5
26.09
26.40 3'
33
^9-9 16
53.4 ,^
55.5 ,,
40.43 „
40.80 37
41.2444
:t5 -
T^ X 12
42.3 ,
41.6 7
20.08 ^9
20.40 3^
34
47-4
424 ,,
39-8 L
37.2 '^
25
14.8
24.8
34.7
8.66
11.19"^
23.4 8
24.2
25.6 '4
26.73
27.07 ^^
27.42 ^5
57-7
•1 ^ 22
62.1 "'
^"•9' 61
44.12^
42.0
44.7-
20.74
21.09 35
21.45 3^
34-7 „
32.4 '^
20
30.4
Sec rf, Tan 6
5.160 -5.062
1. 000 -0.003
2.174 -1.930
1.074 +0.392
Mean Place
9».59i 24^.96
24".22I 4o".i7
4IV623 4i".45
i8Vi25 59".97
D'^ a, Dm a
+0.01 -0.34
0.00 0.00
0.00 -0.13
0.00 +0.03
T>^6,'Dt»d
-0.4
^.I 1
-0.4
-0.1 1
-0.4
-0.1 1
-0.4
-0.1
fBph xa]
388
APPARENT PLACES OF STAES, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.7
10.7
20.7
30.7
Feb. 9.6
19.6
29.6
Mar. 10.6
20.5
30.5
Apr. 9.5
19.4
29.4
May 9.4
19.4
293
June 8.3
18.3
28.3
July 8.2
18.2
28.2
Aug. 7.1
17.1
27.1
Sept. 6.1
16.0
26.0
Oct. 6.0
16.0
259
Nov. 4.9
14.9
24.8
Dec. 4.8
14.8
24.8
34.7
^ Corvl.
Mag. 3.1
Right
Ascension.
h
12
m
25
s
18.03
1837
18.70
19.00
19.27
34
33
30
27
24
Sec <J, Tan <J
Mean Place
ly f a, Dm a
D^ d, Dm i
1951
19.70 ^^
19.85"
19.96
20.03
15
II
7
4
20.07
20.08
20.07
20.03
19.97
19.90
19.82
19.73
19.63
19.53
19.43
19.33
19.24
19.17
19.II
19.08
19.08
19.II
19.19
19.31
19.47
19.68
19.93
20.21
20.53
20.87
21.22
21.57
I
I
4
6
7
8
9
10
10
10
10
9
7
6
3
3
8
12
z6
21
25
28
32
34
35
35
Declina<
tion S.
-16 I
25.8
28.1 ^3
30.4 ""^
32.7
34.9
23
22
21
37.0
39.0
40.7
42.2
43.5
44.6
45.4
46.0
46.4
46.6
46.6
46.5
46.2
45.7
45.1
44.4
43.6
42.7
41.8
40.9
40.1
39.4
38.8
38.5
38.4
38.6
39-2
40.1
41.3
42.9
44.7
46.7
48.9
20
17
15
13
II
8
6
4
2
o
I
3
5
6
7
8
9
9
9
8
7
6
3
I
2
6
9
12
16
18
20
22
y CnicU.
Mag. 1.6
1.040 -0.287
I8V559 32".i3
0.00
-0.4
-0.02
-0.1
Right
Ascension.
h
12
m
26
t
5.37
6.36 ^^
6.81 ^5
40
7.21
7-54
7.81
8.02
8.17
8.25
8.28
8.26
8.19
8.07
7.91
33
27
21
15
8
2
7
12
16
19
22
7.72
7.26 ^^
7.01 ^5
6.75
6.48
6.23
6.00
5.80
5.63
5.51
5.45
5.46
5.54
5.70
26
27
25
23
20
17
12
6
I
8
z6
24
31
39
5.94
6.25
6.64
7.08 ^t
7.56 ^«
52
8.08
8.61 53
9.13 ''
Declina-
tion S.
-5636
55-1
57.1
59-6
62.4
65.5
68.8
72.2
75.6
79.0
82.3
85.5
88.4
91.0
93.3
95.3
96.9
98.0
98.7
98.9
98.6
97.9
96.8
95.3
93.4
91.3
89.0
86.6
84.1
81.7
79.5
77^7
76.2
75.1
74.6
74.7
75.3
76.5
78.2
20
25
28
31
33
34
34
34
33
32
29
26
23
20
16
II
7
2
3
7
II
15
19
21
23
24
25
24
22
18
15
II
5
I
6
12
»7
8 Cannm Venat.
Mag. 4.3
RiRht
Ascension.
I.818 -I.519
I6-.5I2 73".37
0.00 -O.IO
-0.4 -O.I
[Bph la]
h
12
m
29
41
40
38
24
18
13
8
34.13
34.54
34.94
35.32
35.66 3^
29
35.95
36.19
36.37
36.50
36.58
36.60
36.58
36.53
36.44
36.32
36.18
36.03
35.87
35.70
35.54
35.38
35.23
35.09
34.97
34.88
34.82
34.80
34.81
34.87
34.99
35.15
35.36
35.63
35.95
36.30
36.69
37.10
37.51
5
9
12
14
15
16
17
16
16
15
14
12
9
6
2
I
6
12
16
21
27
32
35
39
41
41
Declina-
tion N.
+ 4149
55.1
53.6
52.6
52.2
52.3
53.0
54.1
55.5
57.3
59.3
61.4
63.6
65.7
67.7
69.5
71.0
72.1
72.9
73.4
73.5
73.1
72.3
71.2
69.7
67.9
15
10
4
I
7
II
14
18
20
21
22
21
20
18
15
II
8
5
I
4
8
II
15
18
21
25
65.8
63.3
60.6^7
57.7 '^
54-7
51.5
48.3
45.1
42.0
39.2
36.6
34.4
32.6
30
32
32
32
31
28
26
22
18
1.342 40.895
34-.056 67".8i
0.00
-0.4
+0.06
-o.i
K Dnconls.
Mag. 3.9
Right
Ascension.
h
12
m
29
45.17
45.95
46.70
47.41
48.05
48.61
49.06
49.39
49.60
49.69
78
75
71
64
56
45
33
21
9
3
14
49.66
^^•52 _,
49.28 ^^
48.96 ^^
48.57
48.13
47.65
47.15
46.64
46.14
45.66
45.21
44.81
44.46
44.17
39
44
48
50
51
50
48
45
40
35
29
22
43.95 ,_
43.82 'I
43.77 I
43.82 I
43.97 J
44.23 ,
44.59 ,,
45.06 ^7
45.62 56
46.26
46.96
47.71
48.48
64
70
75
77
Declina-
tion N.
+ 7015
65.8
65.0
64.9
65.4
66.6
68.3
70.4
72.9
75.7
78.6
81.6
84.4
87.0
89.3
91.3
92.8
93.8
94.3
94.2
93.6
92.5
90.9
88.9
86.4
83.6
80.4
76.9
73-3
69.5
65.6
61.8
58.1
54.6
51.4
48.6
46.3
44.5
43.3
8
I
5
12
21
25
28
29
30
28
26
23
20
15
10
5
I
6
II
16
20
25
28
32
35
36
38
39
38
37
35
32
28
23
18
12
2.962 -^2.788
44*035 83".58
-0.0 1
-0.4
40.18
L
APPARENT PLACES OP STARS, 1912,
389
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.7
10.7
20.7
30.7
Feb. 9.6
19.6
29.6
Mar. X 0.6
20.5
30.5
Apr. 9.5
19.4
29.4
May 9.4
19.4
29-3
June 8.3
18.3
28.3
July 8.2
18.2
28.2
Aug. 7.1
17.1
27.1
Sept. 6.1
16.0
26.0
Oct. 6.0
16.0
259
Nov. 4.9
14.9
24.8
Dec. 4.8
14.8
24.8
34.7
§ Corvi.
Mag. 2.8
Right
Ascension.
h
12
m
29
Sec <y, Tan cJ
Mean Place
ly^ a. Dm a
Df cI.DMt'
45*04
4540 ^
45-74 n
46.06 3'
4634
24
46.58
46.78
46.94
47.06
47-14
47.18
47.19
47.18
47.14
47.09
47.02
46.93
46.83
46.72
46.61
46.50
46.39
46.29
46.21
46.14
46.10
46.09
46.12
46.19
46.31
46.48
46.69
46.94
47.24
47.57
47.92
48.28
48.64
20
16
12
8
4
I
I
4
5
7
9
10
II
II
II
II
10
8
7
4
3
7
12
17
21
25
30
33
35
36
36
Declina-
tion S.
-2254
••
28.1
30.4 '3
32.8 ^4
35.2 ^4
25
24
37.7
40.1
42.3
44.4
46.3
48.0
49-4
50.6
51.6
52.4
52.9
53.2
53.3
53.1
52.7
52.1
51.4
50.5
49.5
48.4
47.2
46.1
45.0
44.0
43.3
42.8
42.6
42.8
43.3
44.2
45.5
47.1
49.0
51.2
22
21
»9
17
14
12
10
8
5
3
I
2
4
6
7
9
o
I
2
I
I
o
7
5
2
2
5
9
13
16
19
22
1.086 -^.423
45'-678 36".72
0.00
-0.4
-0.03
-0.1
24 Corns seq,
Mag. 5.2
Right
Ascension.
h
12
m
30
s
42.74
43.10
43.44
43.75
44.04
44.28
44.48
44.64
44.76
44.84
44.88
44.89
44.87
44.82
44.76
44.68
44.59
44.49
44-39
44.28
44.18
44.08
43.99
43.92
43.86
43.83
43.83
43.86
43.92
44.02
44.17
44.36
44.60
44.88
45.19
36
34
31
29
24
20
16
12
8
4
I
2
5
6
8
9
10
10
II
10
10
9
7
6
3
o
3
6
10
15
19
24
28
31
34
45.53 „
45.88 -^5
46.23 ^^
Declina-
tion N.
+ 18 51
M
34.7
^^•' .3
9
5
I
3
6
8
10
12
12
12
II
II
10
8
6
4
2
o
3
5
7
10
13
15
*7
20
22
29.9
29.0
28.5
28.4
28.7
29.3
30.1
31.1
32.3
33.5
34.7
35.8
36.9
37.9
38.7
39.3
39.7
39.9
39.9
39.6
39.1
38.4
37.4
36.1
34.6
32.9
30.9
€t KUSCflB.
Mag. 2.9
Right
Ascension.
24
28.7
26.3
23.8 "5
21.3 ^^
18.8 ^5
25
16.3
14.0 ^3
II.8"
1.057 40.342
42».978 40". 76
h
12
m
31
s
53.63
54.35
55.03
55.66
56.22
72
68
63
56
47
56.69
57.08 39
57.38 ^°
57.58
57.69
20
II
0.00 -K>.02
0.4 -O.I
[Epb la]
57.72
57.66
57.52
57.31
57.04
56.72
56.35
55.94
55.50
55.04
54.59
54.15
53.74
53.37
53.06
52.83
52.69
52.66
52.74
52.94
53.25
53.67
54.19
54.80
55.48
56.20
56.94 ^ .
57.68 74
6
14
21
27
32
37
41
44
46
45
44
41
37
31
23
H
3
8
20
31
42
52
61
68
72
74
Declina-
tion S.
-6838
42.4
44.2
46.4
49.1
52.1
55-4
59.0
62.7
66.4
70.1
18
22
27
30
33
36
37
37
37
35
34
73.6
77.0
80.1 3^
82.9 ^®
85.3
24
20
87.3
88.9
90.0
90.5
90.5
90.0
89.1
87.6
85.7
83.5
16
II
5
o
5
9
15
19
22
25
27
28
81.0
78.3
75-5 ^^
72.8 ^I
70.2
67.8
65.8
64.3
63.3
62.8
63.0
63.8
65.2
26
24
20
15
10
5
2
8
14
JtVirginis,
Mag. 4.8
Right
Ascension.
h
12
m
34
s
41.66
42.00
42.33
42.63
42.90
43.14
43.34
43.50
43.62
43.70
43.75
43.77
43.76
43.73
43.69
43.63
43.55
43.47
43.38
43.28
43.18
43.09
43.01
42.94
42.88
42.84
42.83
42.86
42.92
43.03
34
33
30
27
24
20
16
12
8
2
I
3
4
6
8
8
9
10
10
9
8
7
6
3
6
II
15
19
2.747
55'.368
-2.558
62".78
+0.0 1
-0.4
-0.17
-0.1
43.18
43.37 ^^
43.60 3
43.88 '^
44.19 3*
33
44.52
44.86 34
45.20 34
Declina-
tion S.
- 7 30
38.1
40.3
42.5
44.6
46.5
48.2
49.7
51.0
52.0
52.8
53.3
53.6
53.7
53.7
53.6
53.3
52.9
52.4
51.9
51.3
50.7
50.1
49-5
48.9
48.4
48.0
47.8
47.7
47.9
48.3
49.0
50.0
51-3
52.9
54.7
56.7
58.8
61.0
22
22
21
19
17
15
13
10
8
5
3
I
o
I
3
4
5
5
6
6
6
6
6
5
4
2
I
2
4
7
10
13
16
18
20
21
22
1.009 -0.132
42*.i68 4i".ii
0.00
-0.4
-0.0 1
-0.2
390
APPABENT PLACES OF STAKS, 1912
FOR THE UPPER TRANSIT AT WASHINGTON.
y Centauxl.
^^ Vliginis (mean).
p Virginis.
76 TJrsfle Kajoris.
Mean Solar
Mag. 2.4
Mag. 2.9
Mag. 5.0
Mag. 5.9
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion S.
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion N.
h m
• 1
h m
• f
h m
e 1
h m
•
12 36
-4828
12 37
-058
12 37
+ 1042
IP
12 37
+ 63 II
mm
Jan. 0.7
s
38.42 .,
20.0
s
11.63 _
O.I
s
25.50 _
69-8 ,.
s
44.08
28.6
10.7
38.87 ^5
22.0 =**>
11.9734
2-3"
25.85 35
67-7 '•
44-69 ^'
27.6 '°
20.7
39.30 y
24.4 \\
12.29
4-4 0
26.18 33
65-8 9
45-28 59
27.1 5
30.7
3970 Z
^7-' \l
12.59 3°
6-3 !
26.49 11
64-3 \\
45.84 ^^
27-3 I
Feb. 9.6
40.06 ^
30.0 *9
12.86 =^7
8.0 '7
26.77
63.1 "
46-35 ^'
28.1 *
31
3»
24
14
24
9
45
>4
19.6
40-37
33-1 „
"3-*° ,„
9-4 _
27.01
62.2
46.80
29-5
29.6
40.62 ^
36.2 l\
13.30 °
1 0.0
2 1
27.22
61.6 ^
47-17 ^^
31-4 \\
Mar. 10.6
40.82 "^
39.4 3
13.46 ^
"•5 I
27.38 1^
61.4 \
+7-45 ^
33-7 !^
20.5
40.97 '^
4^-5 'J
13.58 "
I2.I ^
27.50 "
61.5 '
47.64 9
36.3 ^
30.5
41.07 -
*54 :i
13.67 1
12.4 "^
I
27.59 \
61.8 3
6
47.74 '°
39.0 J
Apr. 9.5
41.12
50.8
13.72 ,
"•5 ^
27.64
62.4
47-75 ,
-^^•8 .
19.4
41.13 .
13.74 2
^2.5 ^
27.66 ^
63-1 2
47-68 7
44-^^6
29.4
41.09 ^
53.1 '^
13.74 °
12.3
27.65 '
63.9 I
47-54 ';^
47=^ '!
May 9.4
41.02 '
55-1 ^°
13.71 3
12.0 3
27.62 3
64.8 9
47-34 '°
49-6 ':^
19.4
40.92 ;°
568 '
13-66 5
II.5 ^
27-57 ^
65-8 '°
47-08 ^^
51.6 ^°
13
13
6
5
7
9
30
16
29.3
40.79 ,,
5^-' t„
13.60
II.O
27.50
66.7 -
46.78
53-2
June 8.3
40.64 ^
59-1 '°
59.7 ^
13-44 *
10.4 I
9-« «
9-2 \
27.42
67.5 !
46.46 3*
54-4 "
18.3
40.47 ;
27.33 ^
68.2 7
68.8 *
46.12 34
55-1 7
28.3
40.28 9
59-9 ,
13.35 '
27.24 9
45.77 ;f
55-3 '
July 8.2
40.08 ^°
59-6 I
1326 9
8.7 5
27.14 '°
69-3 ^
45.42 35
55-0 I
20
7
10
5
10
4
34
8
18.2
39-88
58-9 ,„
1316
8.2
27.04
69-7 ,
4508 ^^
54.2 ^,
28.2
39-68 ^
57-9 °
13-07 9
7.7 5
26.95 ^
69-9 \
44.76 3^
5-9
51. 1
Aug. 7.1
39.49 ,^
39-33 ,_
56.5 t
12.98 9
7-3 t
26.86 9
70.0
44.46 30
44.20
17.1
54-8 !
12.91 7
7.0 •'
26.79 J
69-8 ^
489 \i
463 *
27.1
39.20 ^
5=^-9 ''
12.85 ^
6.8 -
26.73 ^
69-4 t
43.99 "
10
21
4
I
4
5
16
29
Sept. 6.1
39.10
5°-8 „
12.81
6.7 ^
26.69
68.9 »
68.1 ^
43-83 ,„
43-4 „
16.0
39-05 \
48.6 "
12.80 '
6.8 '
26.68 '
43-73 '°
40.23^
26.0
39.06 *
4^-5 0
12.83 I
7' l
26.70 \
67-0 "
4369 *
36.7 ^^
Oct. 6.0
39.12
^•5 ^
"•»9 ,^
7'r I
26.76 ^
65-7 \\
43.72 ,t
33.0 37
16.0
39.25 ^
42.6 '9
12.99 '°
8-5 ^
26.86 '^
64-=» ^
43.83 "
29-3 ,„
20
16
14
II
14
«7
20
38
25.9
39.45 ^,
410
1313
9-6
27.00
^^•5 ,„
44.03 »
^5-5 „
Nov. 4.9
20
39-71
39.8 "
13.32 '9
II.O '4
27.19 '9
60-5'?
44-31 ^,^
21.8 37
14.9
40.03 ^
39-1 I
13-55 ^
"•6 !«
27.42 ^3
58.4
44.67 3;
18.3 35
24.8
40.40 ^l
38.8 3
13-82 ="7
14-4 •'
27.69 ^7
56» '^
45.10^3
15.0 33
Dec. 4.8
40.82 42
39.0
14.12 30
16.4 '°
27.99 :,
53-7 :i
45.59 „
12.0 30
44
7
32
22
33
24
55
25
14.8
41.26
39.7 ,,
14-44 ,
18.6
28.32
51.3 __
46.14
9-5 .,„
24.8
4^-72 ^^
4'-^ 8
14-78 \\
20.8 "
28.66 34
490 ^3
46.73 ^?
7-5 !
347
42.18 4^
42.8 ^^
15-12 ^^
23.0 "
29.01 35
46.8 ^-
47.34 "^^
6.1 '4
Sec rf, Tan 6
1.508 -1. 129
1. 000 -0.017
1. 01 8 40.189
2.217 "♦^'•979
Mean Place
39«.48o 36" .04
X2«.o9i o".74
25".862 73".30
43*494 45".84
D'^ a, D« a
0.00 -0.07
0.00 0.00
0.00 +0.01
-0.0 1 +0.13
D,f, <5, D„ <J
-0.4
-0.2
-0.4
-0.2 1
-0.4
-0.2 1
-0.4
-o.a
[Epb 13]
APPAEENT PLACES OF STAKS, 1912.
391
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean SoUr
Date.
Jan. 0.8
10.7
20.7
30.7
Feb. 9.6
19.6
29.6
Mar. 10.6
20.5
305
Apr. 9.5
29.4
May 9.4
19.4
293
June 8.3
18.3
28.3
July 8.2
18.2
28.2
Aug. 7.2
17.1
27.1
Sept. 6.1
16.0
26.0
Oct. 6.0
1 6.0
259
Nov. 4.9
14.9
24.9
Dec. 4.8
14.8
24.8
34-7
Sec<J,Tand
Mean Place
B'^ a. Dm a
/3 CmolB.
Mag. 1.5
Right
Aicenaion.
h
12
m
42
t
32.81
33-37
3390
34.39
34.83
35.21
35.53
35.78
35.97
36.09
36.15
36.15
36.10
36.00
35.85
35.66
35.44
35.19
34.92
34.63
34.34
34.05
33.78
33.54
33.34
33.18
33.08
33.05
33.11
33.25
56
53
49
44
38
32
25
19
12
6
5
10
15
19
22
25
27
29
29
29
27
24
20
16
10
3
6
14
22
30
38
33.47
33.77
34.60 ^^
35.11 ^
55
35.66
36.22 I
36.78 5^
DeeUiui-
donS.
-5912
10.2
12.0
18
22
16.8 ^^
19.8 30
32
23.0
26.3 ^^
29.7 ^^
33.2 ^^
36.6 ^4
32
39-8 ,^
42.8 30
45-6
48.1
50.3
25
22
18
52.1
53.5
54.4
54.8
54.8
54.3
53.4
52.0
50.3
48.3
46.0
43.6
41. 1
38.6
36.2
34.1
32.4
31. 1
30.3
30.1
14
9
4
o
5
9
14
17
20
23
24
25
25
24
21
17
13
8
2
4
30.5
31.4 ^
32.8 '^
1.954 -1.678
34-.236 *28".48
40.01
-0.4
-0.1 1
-0.2
$1 Corns.
Mag. 5.1
Right
AfoentioiL
h
12
m
47
t
24.55
24.92
25.27
25.61
25.92
37
35
34
31
27
26.19
26.42
26.61 '9
26.75 '^
26.85
23
xo
26.90
26.92
26.90
26.86
26.80
26.71
26.61
26.50
26.38
26.26
26.13
26.01
25.90
25.80
25.72
25.66
25.63
25.63
25.67
25.76
2
2
4
6
9
o
I
2
2
2
I
o
8
6
3
o
4
9
14
25.90
26.08 '^
26.31
26.58
26.89
27.23
27.59
27.96
23
27
31
34
36
37
Daeliaa-
aonN.
+ 28 O
60.2
58.3
56.8
55.8
55.2
55.1
55.4
56.1
57.2
58.5
60.0
61.6
63.3
64.9
66.5
67.9
69.1
70.0
70.7
71. 1
71.2
71.0
70.5
69.6
68.4
67.0
65.3
63.3
61. 1
58.7
56.1
53.3
50.4
47.5
44.7
42.0
39.6
37.5
19
15
10
6
I
3
7
X
3
5
6
7
6
6
4
12
9
7
4
I
2
5
9
12
14
17
20
22
24
26
28
29
29
28
27
24
21
1. 133 ■>o.532
24«.787 69".72
0.00
■0.4
+0.03
-0.2
[Eph 12]
$2 H. Camelop. seq,
Mag. 5.3
Right
Atcanaion.
h
12
m
48
32.09
34.28^^9
36.45''^
38.53
40.45
42.13
43.52
44.56
45.24
45.53
45.44
44.97
44.17
4307
41.70
40.13
38.40
36.56
34.68
32.80
30.96
29.21
27.60
26.15
24.90
23.88
23.11
22.63
22.44
22.57
23.02
23.78
24.86
26.24
27.88
208
192
168
139
104
68
29
9
47
80
no
137
157
173
184
188
188
184
175
161
145
125
102
77
48
19
13
45
76
108
138
164
187
^9-75 ,^,
31.78 '^^
2x4.
33.92 •*
D«eliiia-
tion N.
+ 8352
69.2
68.5
68.5
69.1
70.3
7
o
6
12
x8
72.1
74.4
80.0 ^9
83.1 ^'
23
27
86.2
89.1
91.9
94.3
96.3
97.8
98.8
99-3
99.2
98.6
97.4
95.7
93.5
90.9
87.9
84.6
81.0
77.2
73.3
69.3
65.4
61.6
58.1
54.9
52.1
49.8
48.1
47.0
31
29
28
24
20
15
10
5
I
6
12
17
22
26
30
33
36
38
39
40
39
38
35
32
28
23
17
II
9.392 +9-339
28«.229 88".38
-0.05
-0.4
+0.61
-0.2
n Centauxl.
Mag. 4.3
Right
AscentiODb
h
12
m
48
25
20
15
II
7
3
o
3
6
s
32.51
4.1
32.92 "y
33.31 ::
33.68 ^7
34.01 II
34.30
34.55
34.75
34.90
35.01
35.08
35.11
35.11
35.08
35.02
34.93
3482
34.69
34.55
34.40
34.24
34.08
33.93
33.80
33.69
33.61
33.56
33-55
33.60
33.71
I
3
4
5
6
6
5
3
I
8
5
I
5
XI
17
22
27
32
33.88
34.10
34.37
34.69 _.
35.06 j^
40
35.46
35.87 ^'
36.28 ^"
Declina-
tions.
-3941
48.4
50.4
52.7
55.2
57.9
60.7
63.6
66.4
69.1
71.6
74.0
76.2
78.1
79-7
81. 1
82.2
82.9
83.3
83.3
83.0
82.4
81.5
80.3
78.9
77.3
75.6
73.8
72.0
70.3
68.8
67.7
66.9
66.5
66.5
66.9
67.8
69.2
71.0
20
23
25
27
28
29
28
27
25
24
22
19
16
14
II
7
4
o
3
6
9
12
»4
16
17
18
18
17
15
II
8
4
o
4
9
14
18
1.300 -0.830
33'.498 6x".62
0.00
-0.4
-0.05
-0.2
392
APPARENT PLACES OF STARS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
€ TJnm Majorig.
(^ VirginU.
a Can. Yen. seq*
^ Kiueie.
Mean Solar
Mag. 1.7
Mag. 3.7
Mag. 2.9
Mag. 3.6
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
UonN.
Ascension.
tion S.
h m
e »
h m
e t
h m
0 t
h m
e *
12 50
+ 5625
12 51
+ 3 52
f0
12 51
+3847
ft
12 56
-71 4
0
Jan. 0.8
s
990 ^,
57-8 ,^
8
970
30-2 _
s
5467 _
^3-7 ,ft
s
950 -,
8.1
10.7
10.42 1]
56.4 '4
10.04
28.1 "
5507 *°
^» « 18
10.32 1'
9.4'^
20.7
^°-93 , '
55-6 °
10.37 33
26-» ^8
55.46 39
«^ M 12
20.7
ii.ii 79
"•3 !
30.7
"•42 ",1
55-4 ,
10.68 3'
24.3 "t
55.83 11
20.0 '
11.85 74
'3-7 It
Feb. 9.6
11.86 44
55-9 •'
,^ ^y- 28
10.90
22.8 '5
56.17 ^4
19.8 I
12.52 ^7
16.5 ^»
39
II
'-^5
12
30
3
59
3«
19.6
12.25
570 ,
II. 21
21.6
56.47 ,
20.1
13.11
19-6
29.6
12.58 11
586 '
22
"•43 ,0
20.7 ^
56.73 'f
2^*9 ,^
13.61 50
23.0 34
Mar. 1 0.6
12.84 '^
60.6*°
11.61 '8
20.1
56.94 ^'
22.1 ^
14.02 4'
26.5 35
20.5
1303 1'
62.9 '3
11.74 '^
19.7 4
IS
57.09 ;x
^37 :'
H.32 3°
30.1 3;
30.5
.3.H ';
«5-4 :^
XX.83 I
19.6 '
8
57.19 'I
25.6 '9
20
14.52 -
33« ^^
Apr. 9.5
1319 ,
68.0
0 *y
11.89 ^
19.8
57.25 ,
27.6
14.63
37-4 ,.
195
1317 1
13.09 ,°
73-3 ^'
"•93 ,
20.1 3
0
57.26 •
297
14.64 '
14.56 ^l
40.9 f
29.4
"•94 ,
20.6 ;
21.2 ^
57.23 3
57.17 ;
3^-8 lo
442"
May 9.4
\it •'
75.7 '4
11.92 ]
33-8 '°
14.39 ^;
47-2 11
49.8 ^t
19.4
77-8 "
11.88 4
21.0 ^
57.08 9
35.7 'I
H.I5 '^
21
17
.s
7
11
16
32
.»3
29.3
12.57 _
79-5 „
11.83 ,
22.6
56.97 ,,
37.3 ,,
13.45 ^J
52-1 „
June 8.3
12.33 J
80.9 '^
11.76 I
233 I
56.84 3
3«-6 0
54-" !
18.3
12.08 "5
8i.8 9
11.68 *
24.0 7
56.69 5
39.6 ^°
^3-oi ;«
55.4 '4
28.3
11.82"^
82.3 5
"•59 ,1
24.6 J
56.54 \'
40.3 ;
12.53 to
56.3 I
July 8.2
"•55 'I
82.3 °
25.1 ^
56.39 ^
40.6 3
12.03
56.7 t
27
5
10
5
ID
I
52
X
18.2
11.28
81.8
"•39 _
25.6
56.23 ,^
40.5 ,
11.51
56.6
28.2
11.03^5
80.8"*
11.29 '°
26.0 ^
56.08 '5
40.0 I
10.99 ^
56.0 <*
Aug. 7.2
10.79 l^
79-3 If.
11.20 ^
11.12 »
26.3 3
55.94 \\
8
39.2 ,,
10.49 11
10.03 "^^
54-« :;
53-2 *''
17.1
10.58 'I
77-4 I't
26.4 I
55.81 ^3
38-0 ^
27.1
10.40 '»
75-^ li
11.05 !
26.4 ^
55.70 «
36-4 f
9-^4 ^^
51.2 -
14
26
5
2
0
19
32
24
Sept. 6.1
10.26
72-5 ,„
11.00
26.2
55.62
34.5 „
932 ^,
4^'® ,^
16.0
»r^ ,/: 10
10.10
69.6 \l
10.98 ^
25.8 I
55.57 ^
32.3 ",
9.10
46.2 ;
26.0
10.12 ^
66.4 3^
10.99 '
25.2
5556 '
29-8 11
8.99 "
43.5 I
Oct. 6.0
10.14 ^
^2-9 ^^
11.03 ^
24.3 ,?
55.59 a
^7^° '
9.01 ^
40.7 ^«
16.0
10.23 ?
59-3 ^^
II. 12 9
23.2
55.67 ,1
24.0 3^
9.15 ^^
38.0 ^
15
37
13
14
'3
3«
28
25
259
10.38
55-6 ,.
11.25 ,,
21.8 ^
55 80
^°9 „
9.43 ,,
35.5 ,,
Nov. 4.9
10.60 "
52.0 36
11.42 7
20.2 ^
55.98 11
^77 ^
9.84 4
33-3 "
14.9
10.89 'I
48.5 3S
"'^4
18.4 ■«
56.22 ^4
14.5 3
10.37 i^
31.4 '^
24.9
11.24^5
45.1 f
11,89 5
16.4 ^°
56.51 '9
11.4 f
11.00^3
30.0 '^
Dec. 4.8
11.65^^
42.0 3'
12.18 ^9
14.3 ''
56.84 33
8.43°
11.72 72
29.2 ^
46
27
32
23
36
28
78
3
14.8
12. II
39-3
12.50
12.0
57.20
5.6
12.50 -
28.9
24.8
12.61 5«
37.0 *3
12.84 ^t
9.7^3
57.58 -3°
3-2 'n
^3-31 l\
29.3 '^
34-7
13.12 5^
35.3 ''
13.18 ^^
7.5"
57.98 4°
1.2 ^°
14.14 '3
30.3
Sec cJ, Tan 6
1.809 +1.507
1 .002 40.068
1.285 -K>.8o4
3.083 -2.917
Mean Place
9«.694 74".35
io".204 3i".82
54«.8o3 36".4o
ii".897 27".8o
D V a, D» a
-o.oi +0.10
0.00 0.00
0.00 +0.05
+0.02 -0.19
Pf 4l,D«d
-0.4
-0.2 1
-O.A
-0.2 1
-0.4
-0.2 1
-0.4
-0.2
[Spb is]
APPARENT PLACES OP STARS, 1912.
393
FOR THE UPPER TRANSIT AT WASHINGTON.
eVizglnis.
0 Vizglnlfi.
48 Comae.
80 Caiiiim Veiiat.
Mean Solar
Mag. 3.0
Mag. 4.4
Mag. 4.3
Mag. 4.7
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion S.
Ascension.
UonN.
Ascension.
tion N.
h m
• »
h m
e
t
h m
e r
h m
0 f
12 57
+ 11 25
am
13 5
- 5
4
13 7
+ 28 18
If
13 13
+ 41 I
H
Jan. 0.8
8
47-31
WW
50.5 ,.
22-85 ,,
8.8
45-74 ,-
76-3 ,„
s
35.70
54-7 ,„
10.7
47.65 11
48.4 "
23.19 3*
II.O
22
46-10 t
74-3 ,
36" 1'
5=-8 !
20.7
47.99 34
4<^-5 \l
23.52 33
13.1
21
46.46 3^
72-7 ^
36.51 to
51-4 '^
30.7
48-31 11
44-9 t
^384 ^^
15.1
20
• 0
46.81 35
7X-5 ",
36.90 39
37.26 3<^
32
50-5 ,
Feb. 9.7
48.60 ^9
26
43-6 '3
9
2Q
24-13 ,^
16.9
18
16
47.13 ^^
70.8 7
2
50.2 3
19.6
48.86
42.7 ^
^4-39 „
18.5
47-41
70.6
37-58 .
37.86 ll
50-5 ,
29.6
49.08 "
42.2 5
24-6' ^^
19.9
14
47-66 ^5
70.9 3
51-2 ,;
Mar. 10.6
49.26 \l
42.0
24.80 '9
21.0
II
0
47-86 ^°
7'-6 ,1
38.10 4
38.28 "
5-4 \l
54-0 '„
20.6
49.40 :
42.1
24-95 '!
21.8
8
48.02 '^
72.6 '«
30.5
II
49-51 •
42-5 ^
12
25.07 3
22.4
6
4
48.14 '!
74- :^
38.41 'I
56-0 '°
22
Apr. 9.5
•
49.58
43-1 a
25.15 .
22.8
m
48.21
75-6 ,,
38.49 ^
58-2 ^,
195
49.61 ^
43-9 „
25.20 ^
23.0
2
48.25 4
77-3 '^
38.53 I
60-5;^
29.4
49.62 *
44-8 1
25.22 ^
23.0
0
48.26 \
79-0 ;
38.53 °
62.7 "
May 9.4
49.61 ^
45-8 °
25.22 °
22.8
2
48.23 ^^
80.8 '*
38.49 i
38.41 .«
64-9 "
19.4
49.57 I
46.8 '^
10
25.20 ^
22.5
3
4
48.17 \
82.5 '7
J5
^^•9 :;
29.4
49.51
47-8 „
25.15 ,
25.09 ^
22.1
48.09
84-0 ,,
38.30
til ^«
70-3 ,,
June 8.3
49.44 I
49.36 '
48.7 ^
49-5 !
21.7
4
48.00 9
85-3 \\
38.17 ^
18.3
25.02 7
24.94 I
21.2
5
47.90 ;°
86.4 "
38.02 '5
37.86 '^
71-5 "
72-3 1
28.3
49.27 Z
50.2 7
20.7
5
6
6
47.78 "
87-3 ?
87-9 ^
July 8.3
49.17 '°
II
50-7 \
4
^4-«5 .^
20.1
47.65 '^
13
3769 J J
72.8 5
18.2
49.06
5I-I ,
^4-75 ,^
19.5
47.52
88.2
37.52
72-9 ,
28.2
48.96 ^
51-3 \
24.65 \l
19.0
5
47.39 ,^
88.1 '
37.35 ;
72-5 *
71-7 „
Aug. 7.2
48.86 '°
51-4 ,
24.55 '°
18.5
5
47.26 3
^7-7 t
37'8 \l
37.02 1°
17.1
48.77 I
51-3 '
24.46 \
18.1
4
47.14 "
«70 ,!
70.6 "
27-1
48.70 7
51-0 3
24.38 «
17.7
4
2
47.04 g
86.0 '°
14
36.89 [\
69.1 '5
«9
Sept. 6.1
48.64
50.4 8
49-6 .,
24.32
17.5
46.96 .
46.90 ^
84.6
36.78 .
36.70 »
67.2
16.1
48.61 3
24.28 4
17.4
I
82.9 7
^5-° 11
62.4 '^
26.0
48.61 °
48-5
24.28 ^
17-5
I
46.88 ^
81.0 '9
36.66 4
Oct. 6.0
48.64 I
47-2 3
24.31 '^
17.8
3
6
8
46.90 ^
78.8 «
36.66 °
16.0
48.72 ®
12
45-7 \\
24.38 7
12
18.4
46.96 ^
11
7^-4 :^
36.70 4
10
56.6 30
259
48.84 ^^
43.9 ,^
24.50
19.2
47.07 .
73-8 ,«
36.80 ,
36.96 ll
53-4 „
Nov. 4.9
49.01 7
41.9 ^
24.67 \l
20.3
II
47-23 !^
7'-°'!
50.1 ^3
14.9
21
49.22 *
39.7 "
24.88 "
21.6
13
47.43 '°
68.1 "9
37.18 ''
46-7 ^1
24.9
49-47 Z
37-4 !1
25.13 ^f
23.2
16
47-68 ^5
^5-^ !o
37.45 ^,
43-4 11
Dec. 4.8
49-76 '9
35-0 4
25.42 ^:
25.0
18
47.97 _
62.3 11
37-76 3;
40-3 11
32
24
32
20
33
27
35
29
14.8
50.08
32.6
25.74 ,,
27.0
48.30
59-6 .,
3»-" ,«
37-4 ,^
34.8 ll
24.8
50.42 ^4
30.2 \
26.07
29.1
21
48.65 35
57-» It
3849 ll
34.8
50.76 ^4
27.9 ^3
26.41 34
31.3
22
49.02 ^7
54-8 =3
38.89 4°
32.6 "
Sec «5, Tan 6
1.020 +0.202
1.004 -0.089
1. 136 40.539
1.326 40.870
Mean Place
47'. 78 1 54". 93
23'.5i9 9".90
46*. 106 86".52
35-.969 68".62
D> a, Dm a
0.00 40.01
0.00 -0.0 ]
t
0.00 40.03
-0.0 1 40.06
D^ d, B» 6
-0.4
-0.2 1
-0.4
-0.3
-0.4
-0.3 1
-0.4
-0.3
[Eph xa]
394
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solmr
Y Hydise.
Mag. 3.3
t Centauxl.
Mag. 2.9
C^ trnse lUJoclB.
Mag. 2.4
a Vligiiiis.
Mag. 1.2
Date.
Right
Ascension.
Declina-
tions.
Right
Ascension.
Declina-
tions.
Right
Ascension.
Declina-
tion N.
Right
Declina-
tions.
h m
e *
h m
• t
h m
•
h m
.
13 14
— 22 42
13 15
-3614
n
13 20
+5522
13 20
— 1042
Jan. 0.8
I0.8
20.7
30.7
Feb. 9.7
s
7.14
7-51 3'
7.86 35
8.20 34
20.1
22.1
24-3 "
26.5 "
28.7 "
22
s
3752
37-92 4^
38.31 5^
38.68 37
39.02 34
31
44.8 '8
46.9 "
49.2 ^3
51.7 '5
25
s
23.02
23.51 ^^
24.00 ^^
24.94 J,
46.0 '*
44.8 '\
44.3 \
44.4 J
32-49 ,,
32.83 34
33-17
33-50 33
33-80 30
5-5,,
7.6"
11.8"
^3-7 :^
19.6
29.6
Mar. 10.6
20.6
305
8.79
9.03 '*
9.24 "
9.41 ''
9-54 '3
*^ 10
30.9 .^,
^f 0 -
38.4 '^
14
39.33 _^
39.60 ^7
39.83 \\
40.01
40.15 '*
II
54-2 ,«
56.8 ^"^
59.3 :5
61.8 *5
64.1 '3
22
^5.72 3°
26.01 '9
26.24 *3
26.40 '^
10
45.1
46.4 ;3
22
50.3 "
34-07
34-31 4
34-51 ,,
34-68 7
34-81 '3
10
;?:5 -
18.5 *4
19.6
20.5 ^
7
Apr. 9.5
19.5
29.4
May 9.4
9.64
9-70 \
9-73 \
9-74 _
39-8 „
41.0 *
42-0 -
42.8 \
43-4 5
40.26
40.33 ^
40.36 ^
40.36 °
66.3
70.1 '*
71.6 ^5
26.50
26.53 ^
26.50 "'
26.41 9
T .J
55-4 „
58.1 ='7
60.8 "7
63.4 ^^
34-91 ,
34-98 7
35-02 *
35-03 \
21.2
21.7 ^
22.0 3
22.1 *
19.4
9-72 \
40.33 ^
72.9 ^
II
26.27 '^
17
«5« ^J
35.02 ^
22.1 °
I
29.4
June 8.3
18.3
9.68
9-62 \
9-54 „
43-9 ^
44-1 ^
44-» °
40.28
40.20
40.10 ^°
74.0 -
74.8 ;
75.2 \
26.10
25.89 "
25.66 ^3
"5 C
67.8
69.5 ;^
70.8 '3
71.6 "
71.9 \
34.99 ^
34.94 I
34.87 '
34-79 ;
34.70 ,9
22.0
21.7 3
21.4 3
28.3
July 8.3
9-45 "
I I
9.34
II
43-9 _,
43-5 \
39-98 "
39-84 ;j
75.3 \
75.2 '
»5.i5 ,;
21.0 *
20.5 1
18.2
28.2
Aug. 7.2
17.1
27.1
9.23
12
9.II
8.99
8.88 "
8.78 '^
7
43-0 ,
42-4 «
41.6 *
40.7 9
39-7
10
39-69
39-54 4
3940 '7
39.26 ^
39.13 ,^
74.8 ,
74.1 \
73.2 ,9
72.0
70.7 '^
»5
24.88
24.61 ^7
24.35 '*
24.11 '4
23.90 ;^
71.8
71.2
68.5 '*
66.5'**
24
34-60
II
34.49 ,
34.38 '
34.28 -
34.19 \
20.0
19.4 .
18.8 ^
18.2 *
Sept. 6.1
16.1
26.0
Oct. 6.0
16.0
8.71
8.66 5
8.64 ^
8.66 ^
8.73 ^
12
38-7 ,„
37-7 Z
36.8 9
36.1 7
35-6 \
39.03 ,
38.96 \
38.93 ^
38.95 !
39.02 '
»3
67.6 "'
66.1 '5
64.7 ;^
63.4 \\
23.72
23.57 *^
23.47 •"
23.43 ;
23.46 3
64.1
61.4 '7
58.3 3'
55-0 33
51-5 ^*
37
34." .
34.06 5
34-04 ,
34-06
34" „
17.2
16.8 4
16.6 '
16.6 *>
16.8 '
4
26.0
Nov. 4.9
14.9
24.9
Dec. 4.8
8.85
9.02 ^^
22
9.24
27
9.81 5°
33
35.3 ^
35-3 ,
35-6 ^
36-3 '
II
37-4
14
39.33 ^*
39.57 J
39.86 '9
40.20 •'^
37
62.3 -
61.5 "
61. 1 ♦
6i.i °
61.5 \
23.55 ,,
23.71 '*
23.94 '^
24.24 \,
24.60 36
42
47-8
44-1"
40.4 37
36.9 ^'
33.6 33
30
34-23 „
34-38 ^5
34.58 »°
34.83 5
35."
3»
17.2
^7-9 '
18.9 '**
20.2 '3
21 7 '5
*^-7 18
14.8
24.8
34.8
10.14 ^
10.50 ^"
10.86 3^
40.4 'f
42.2
4°-57 ,„
40.96 39
41.36 *°
62.3
65.1 '^
'502 .
25.96 ^
28.0 '**
25.9 "
35.42
35.76 34
36.10 ■'♦
23.5
27.4 '**
Scc<J,TaniJ
1.084 -0.418
1.240 -0.733
1.760 -M.449
1.018 -0.189
Mean Place
8-.o6i 26".93
38'.658 54".ia
23-.I38 64^.94
33.-305 7"-95
D> o, Dm a
0.00 -0.03
+0.01 -0.05
-0.0 1 •KO.09
0.00 -o.ot
D^ d, Dm ^
-0.4
-0.3 1
-0.4
-0.3 1
-0.4
-0.3
-0.4
-0.3
[Bph la]
APPARENT PLACES OF STARS, 1912.
395
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.8
I0.8
20.7
30.7
Feb. 9.7
19.6
29.6
Mar. 1 0.6
20.6
30.5
Apr. 9.5
295
May 9.4
19.4
29.4
June 8.3
18.3
28.3
July 8.3
18.2
28.2
Aug. 7.2
17.2
27.1
Sept. 6.1
16.1
26.0
Oct. 6.0
16.0
26.0
Nov. 4.9
14.9
24.9
Dec. 4.9
14.8
24.8
34.8
Sec <i, Tan 6
Mean Place
Df 6^ Dm 6
Oroombrldge 8001.
Mag. 6.1
Right
Ascension.
h
13
m
23
s
53.65
54.49
55-34
56.18
56.97
84
8.5
84
79
72
62
57.69
58.31
58.82 5^
59.21 ^^
59.47 \\
59.59 ,
59.57
■59.43 ,.
59.18 ^^
58.83 ^5
44
58.39 ^_
57-S» 6
57.32 ^
56.72
56.10
14
60
62
63
62
55.47
54.85 ,„
54.26 9
53.70 5°
53.20
52.76
52.41
52.15
51.99
51.95
52.03
52.23
52.56
5302
53.59
5426
55.01
55.82
50
44
35
26
16
4
8
20
33
46
57
67
75
81
Declina-
tion N.
+ 7250
34.0
32.6
31.8
31.7
32.2
33.4
35.1
37.3
42.8 ^9
30
45.8
48.9 3^
51.8 '^
54.5 ''
56.9
14
8
I
5
12
17
22
26
24
21
59.0
60.6
61.8
62.4
62.5
62.1
61. 1
59-6
57.6
55.1
52.3
49.1
45-6
41.9
38.1
34.1
30.2
26.4
22.8
19.5
16.6
14.2
12.4
x6
12
6
I
4
10
15
20
25
28
32
35
37
38
40
39
38
36
33
-29
24
18
3-391 ^3.240
53'-294 53"-57
-0.03
-0.4
f0.20
-0.4
70 Virginis.
Mag. 5.2
Right
Ascension.
h m
13 24
s
6.96
7.30 ^^
7.64 3^
7.97 \\
8.28 ^\
28
8.56
8.80 ^^
^ ^x^ 20
9.00
9.17
9.30
17
13
10
9.40
9.46
9.49
950
9.48
9.43
9.37
9.30
9.21
9.II
9.00
8.88
8.77
8.66
8.57
8.49
8.43
8.40
8.41
8.46
6
3
I
2
5
6
7
9
10
II
12
II
II
9
8
6
3
I
5
9
14
8.55
8.69
8.88 '9
9.11 '^
9.38 '■
9.68
10.01
10.35
30
33
34
Declina-
tion N.
+ 14 14
48.4
46.2
44.2
42.6
41.4
40.5
40.0
39.9
40.1
40.6
41.4
42.4
43.5
44-7
45.9
47.0
48.1
49.0
49.8
50.5
51.0
51.2
51.2
51.0
50.6
49.9
49.0
47.8
46.4
44.7
22
20
16
12
9
5
I
2
5
8
10
II
12
12
II
II
9
8
7
5
2
o
2
4
7
9
12
14
17
19
22
2^
42.8
40.6
38.3
35-8 :
33.2
30.7 ..
28.2 ^5
25.9 '^
1.032 +0.254
7'.557 54".68
0.00 +0.02
-0.4 -0.4
[Epb xa]
K Octantis.
Mag. 5.6
Right
Ascension.
h
13
in
26
21.45 '9^
24.39 \l\
27.22 ^**^
29.87 '^5
241
32.28
^A^r^ 211
^^'^^ ITT
36.16 '77
3758 Z
38.62 'l^
64
39.26
39.50
39.34
38.79
37.87
24
16
55
92
127
159
187
210
36.60
35.01
33.14
3t.04
26.39 . . _
23.99 ^
21.64^35
22"*
9-41 ",
^ -« 202
7.39
173
5.66
4.29
3.35
2.87
2.91
137
94
48
4
55
107
3.46
4.53
6.08 '55
8.07 '^l
20.43 'f
265
"3°8 ,86
2594
28.91 =•"
Declina-
tion S.
-8519
5
12
49.4
49.9
5I-I
52.8 '7
55.1 ''
27
57.8
60.9^'
64.3 it
67.9 ^^
71.6^7
38
75-4 ,8
79.2 3*
82.9^7
86.4 ^^
89.7 53
29
95.2 ^^
97.3
99.0 7
lOO.I
5
100.6
100.6 °
1 00.0 ^
98.9;;
97.2 II
951 „
92.6 ]i
89.8 "
86.9 *9
^^■<
30
80.9
78.1
75.6 ^5
28
73.5
71.9
70.8
70.3
70.5
21
16
II
5
2
12.303
29^.25
-12.262
68".98
+0.12
-0.4
-0.76
-0.4
C VirgloiB.
Mag. 3.4
Right
Ascension.
h m
13 30
8
1.69
2.03
2.37
2.69
2.99
3.26
350
3.71
3.89
4.03
4-13
4.20
4.25
4.27
4.26
4.23
4.19
4.13
4.05
3.96
3.86
3.75
3.64
3.54
3.44
3.36
3.31
3.28
3.29
3.34
3.43
3.57
3.75
3.98
4.25
4.55
4.87
5.21
34
34
32
30
27
24
21
18
10
7
5
2
4
6
8
9
10
II
II
10
10
8
5
3
I
5
9
14
18
23
27
30
32
3:^
Declina-
tion S.
o 8
48.0
50.1
52.2
54.1
55.7
57.1
58.2
59.0
59.6
59.9
60.0
59.8
59-5
59.0
58.5
57.9
57.2
56.6
56.0
55.4
54.9
54.4
54.0
53.7
53.5
53.5
53.7
54.1
54.7
55.5
21
21
19
16
14
II
8
6
3
I
2
3
5
5
6
7
6
6
6
5
5
4
3
2
o
2
4
6
8
10
56.5
59.4
61.2
63.2
18
20
21
65.3
67.4
69.6
21
22
1. 000 -0.003
12".462 46^.42
0.00
-0.4
0.00
-0.4
396
APPARENT PLACES OP STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
17 H. Caniim Venat.
f Centami.
m Yirginig.
TBotftis.
Mag. 5.0
Mag. 2.6
Mag. 5.2
Mag. 4.5
Mean Solar
Date.
1
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion S.
Ascension.
tion N.
h m
e «
h m
0 *
h m
e t
h m
0 >
13 30
+ 37 37
13 34
-53 0
13 36
-815
13 43
+ 1753
Jan. 0.8
8
51-73 _
45.5 „
s
16-49 ,„
55.3 „
s
58.59 ,^
32.4 „
s
4.13
33.9 „
I0.8
52.12 ^^
43-4 "
16.99 Z
56.6 '3
58.93 \\
34-5 "
4.48
35
31.6 '^
20.7
52.51 ^1
41.8 ^
17-49 fg
58-3 I
59-27 ^^
36-5 Z
4.82
34
29.7 'I
307
52.89 ^!
40.7 "
17-97 ■::
60-3!?
59-59 \^
385 Z
5.15
33
28.1 •*
Feb. 9.7
53.25 1^
40.2 ^
'^•42 1^
62.7 It
59.90 ^a
40-3 !
5.47
32
26.9 •;
32
0
40
27
28
»7
29
8
19.7
53.57 ^«
40-2
18.82
65-4 „
60.18
42.0
5.76
^ ^
26.1
29.6
53.85 ll
4°-7 .„
19.18 f
68.2 '«
60.43 '5
43-5 \\
6.02
26
25.7 4
Mar. 10.6
54.09 \
4^-7 !
'9-49 "
71. 1 '9
60.65 ''
44-7"
6.24
22
25-7 °
20.6
54-29 "
43-1 4
'9-75 \\
74-' ':
60.83 '^
45-7 '°
6.43
19
26.2 5
30.5
54-44 .„
44-8 I
19.96 ^'
77-1 '°
60.98 '5
46.4 \
6.58
15
27.0 I
10
20
16
29
12
s
II
10
Apr. 9.5
54-54 .
54.60
46.8
20.12
80.0
61.10
61.18 ®
46.9 ,
6.69
8
28.0
195
48-9 "
20.22 '^
82.8 =**
47.2 I
6.77
29.2 "
295
54.62 I
51-1
20.28 ^
85-5 !!
61.23 5
47.4 „
6.82
5
3°-5 ^
May 9.4
54.60
53-3
20.29 ^
87-9 4
61.26 3
47.4 ,
6.84
2
3»-9 1
19.4
54-55 I
55-4 "
20.26 ^
90-0 '
61.26 °
47-2 ,
6.83
I
33-3 *
0
19
8
19
2
3
3
14
29.4
54-47 ,„
57-3 ,.
58-9 !
20.18
93-5 ,^
61.24
46.9 ,
6.80
6
34-7 „
June 8.4
54.37 ^
20.06 '^
61.20 ^
61.14 _
46.6 3
6.74
36.0 3
18.3
54-24 J
60.3 4
I9.9t \l
'9-73 ^;
94.7 g
95.5 .
46.2 4
6.67
7
37-» "
28.3
54-10 I
53-94 „
61.3 'I
61.9 ^
2
61.07 '
45.8 ^
6.58
9
38.1 '»
July 8.3
^9.53 n
95.9 ;
60.98 9
10
45.3 I
6.47
II
11
38.8 7
5
18.2
53-62 \\
.53-30
62.1
19.30
95.8
60.88
44.7 ,
6.36
39.3 ^
28.2
62.0 '
19.06 ^'^
95.3 I
94.5 „
60.77 "
44.2 I
6.24
12
39.6 ^
Aug. 7.2
61.5 5
18-83 \\
60.66 "
43.7 ;
6. 1 1
13
39.7 '
17.2
60.6 9
T 1
18.60 *3
93-4 „
60.55 ;;;
43-2 ]
5.99
12
39.5 .
27.1
53-15 '^
12
59.3 ^l
'«-39 \l
91-9 \
18
60.45 'I
42.8 4
4
5.88
1 1
10
39.0 I
Sept. 6.1
53.03 ^
57-7 ,0
18.21
00. 1
60.37 6
60.31
424 .
5.78
8
38-2 ,0
16.1
5294 '
52.88 ;
55.7 '°
18.07 't
17.99 ^
88.1 ^°
42.2
5.70
37.2 *
26.1
53-4 \l
5°-8 0
86.0 "
60.27 '^
42.1
5.65
5
35-9 ^
Oct. 6.0
52.86 \
17.97 ,
83-8 "
60.27 °
42.2
5.63
2
34-3 f
16.0
52.89 ^
47-9 \l
18.02 5
81.7-"
60.32 5
42.5 I
5.66
3
32.4 "
/
8
30
12
19
9
6
7
21
26.0
52.97 ,.
44-9 ,0
18.14
79.8 ,,
60.41
43-1 g
43-9 „
5.73
30.3 „
Nov. 4.9
53.10 3
41.7 f.
18.34 \l
78-' I
60.55 \\
60.73 ",
5.85
12
28.0 »3
14.9
53.29 7.
38.4 ^^
18.62 '^
76.7 '4
450 '
6.02
n
25-5 'I
24.9
53.53 ^^
35.1 ^^
18.96 34 75.7 10
60.96 ^3
46-4 [t
48.0 ]t
6.23
21
"•9 ll
Dec. 4.9
53.82 ^9
3^-9^'
19.36 4^
75-1 °
^^•^3 \i
6.49
20
20.3 ''^
33
30
45
0
30
18
29 - 27
14.8
54-^5 .
2^-9 „
19.81 75.1
61-53 ,
49.8
6.78
17.6 ^
24.8
54-51 ^2
26.2 ^7
20.29 1 75.6 5
61.85 \]
51.7 "^
7.10
32
15.0 '^
34.8
54.89 ^^
23-9 ""^
20.79 5°
76.5 ^
-1.328
62.1934
53.7 ^"
7.44
34
12.6 »*
Sec <J, Tan S
1.263 -W.771
1.662
i.oio -0.145
1.050 40.323
Mean Place
52". 163 59".«>
I8V229 69".88
59'.475 33".36
4'.8
17 4i".90
D'^ a, Dm a
-o.oi +0.05
+0.01 -0.08
0.00 -0.01
0.00 40.02
D^ 6, Dm 6
-0.4
-0.4
-0.4
-0-4
-0.4
-0.4
-0.4
-0.4
[Bph la]
APPARENT PLACES OF STARS, 1912,
397
FOR THE UPPER TRANSIT AT WASHINGTON.
77 TJnflB Kajoris.
89 Yirginis.
C Centanrl.
V Botftls.
Mean Solar
Mag. 1.9
Mag. 5.1
Mag. 3.1
Mag. 2.8
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion S.
Ascension.
tion N.
h m
e r
h xn
0
1
h m
e
h m
e 9
13 44
+ 49 44
13 45
-17 41
13 50
-4651
13 50
+ 1849
Jan. 0.8
s
4.08
51-2
s
417
^
42.2
s
0.94
8.0
28.96
70-1 „
I0.8
452 It
49.1 :
4.53
36
44.1
19
^•4° !!
29.30 ^^
^7-8 '
20.7
4.97 ^5
47-6 '5
4.88
35
46.1
20
1.85^
10.8 '^
29.65 ^^
658 ^^
30.7
5-4^ !t
46.6 '°
5-22
34
48.2
21
2.29 44
12.7 '9
29.99 ^^
64-1 ^
Feb. 9.7
5.83 ^'
46-3 ^
5.54
32
50.2
20
^•71 tg
14-9 \\
30-31 ^^
62.9 "
39
3
29
19
38
25
29
0
19.7
6.22
46.6
5.83
^
52.1
f\
309
^74 ^r
30.60
62.1
29.6
6.56 f
47-5 .!
6.09
26
53-9
18
_ ^
3-43 ;;
20
20.0 "
/»^ #; 26
22.0
30.87 ;7
61.7 \
Mar. 10.6
6.85 '^
48.9 't
6.32
23
55.5
16
3-73 ^^
31.10 ^
61.8 '
20.6
709 "11
6.52
20
57.0
15
- -rv^ 26
25.3 '.'
31.29 1^
3^-45 !
62.2 4
63.0 f
30.6
7.27
52.9
6.68
10
58.3
13
22
4.21 "
28° z
15
24
13
10
17
26
12
II
Apr. 9.5
740 ^
57-9 „
6.81
^^
59.3
8
4-38
30.6
31-57 „
64.1
T "5
19-5
7-47 I
6.90
9
60.1
4-50 "
458 \
33-1 ^,
31.66 \
^5-4 i
295
7.48 \
60.6 '!
6.97
7
60.8
7
35.4 ;^
31-71 \
66.8 '4
May 9.4
7.45 I
^3-2 !!
7.01
4
61.4
0
4.62 4
37-5 '
31-74 ;
68.2 '4
19.4
7.37
65-6 :t
7.02
I
61.8
4
4.62 °
39.4 ^
31-74 °
69-7 i
II
22
I
2
3
'7
3
14
29.4
7.26
^7-8 ,„
7.01
62.0
4-59 ,
4^-^ ,^
31-71 ,
7-' „
June 8.4
7.11 'I
69.7 "
6.97
4
62.0
0
4-52 /
42.5 \\
31.66 5
72-4 \\
18.3
6.93 ^'
71.2 '5
6.91
6
61.9
I
1 1
441 "
43.6 "
31-59 \
73-6 "
28.3
0-73 „
72.3 ^
6.83
8
61.7
2
4-" .8
44-3 ^
31-50 9
74-6 '«
75-4 J
July 8.3
6.51 "
23
73-0 7
6.74
9
10
61.4
3
4
44.7 ^
31-40 '°
12
18.3
6.28
73-2
6.64
61.0
^
3-93 ,„
44-7 .
31-28
76.0
28.2
6.05 11
2
730 ^
6.52
12
60.4
6
3-74 Z
44-4 \
43-8 ,J
31.16"
76.3 3
Aug. 7.2
5.82 ^3
72.3 7
6.40
12
59.8
6
3-54 !°
31.03 ^
76.3 °
17.2
5-59 :^
7^-2
6.28
13
59.2
6
3-34 !
42.8 °
30.90 \
76.1 \
27.1
5-3« Is
69.6 '^
20
6.17
11
9
58.5
7
7
3-5 r.
4-5 :^
30.78 '^
lO
75-6 5
Sept. 6.1
5-20
^7-6 ,,
6.08
57.8
2-99 „
39-9 ,0
3^-3 '
30.68
30.60 ^
30.54 .
74-8
16.1
5.05 ^
^5-2 J
6.01
7
57-1
7
2.86 '3
73-7 "
26.1
4.94 "
^^•4 .0
5-96
5
56.5
0
2.77 9
7^-4 i
70.8 '^
Oct. 6.0
4.87 7
59-4 „
5.95
I
56.1
4
2-74 ;
?J1 ^«
32.0
17
30.52 \
16.0
4.86 '
5
56.1 ^3
35
5.99
4
9
55.8
3
0
2.77 \
30.54 ^
68.9 '9
22
26.0
491 ,
526 ,
6.08
55-8
2.86 ^
30.9 , ,
30.60
66.7
Nov. 5.0
II
502 *;
49.0 ^^
6.21
13
56.1
3
3.02 '\
^94 f
30.71 "
30.87 '^
31.08 ^;
64.3 =t
14.9
24.9
5-20
5-45 ,^
6.39
6.62
18
23
56.6
57.4
5
8
3-25 '3
3.55 ^°
28.2 "
274 \
61.8 =^5
59-2
Dec. 4.9
5.75 3^
38.4 3*
6.90
28
58.5
II
390 "f^
27.0 ^
3^-33 ,^
56-5 ^J
35
32
31
14
40
1
29
.27
14.8
6.10
35-2 .
7.21
59-9
^
430 .-
27.1
31.62
53-8 ,6
5'-2 ,c
24.8
6-5° 1^
3^-4 ^!
7.54
33
61.5
16
_ 0
4-73 ;^
27.6 5
31.93 ; .
34.8
6.93 "^^
30.0 ^^
7.89
35
63.3
18
5.18 «
28.5 9
32.27 ^"^
48-7 '5
Sec 6, Tan S
1.548 +i.i8i
1.050 -0.3]
^9
1.462 -1.067
1.057 +0.341
Mean Place
4-.50I 67".73
5'.2
17 46".o6
2^.596 20". 21
29».684 78".57
D'4,a,Dma
-0.0 1 +0.06
0.00 -0.0:
\
+0.01 -0.06
0.00 +0.02
D^cJ,D«cJ
-0.04
-0.4 1
-0.4
-0.4
-0.4
-0-5 1
-0.4
-0.5
[Eph xa]
398
APPARENT PLACES OF STARS, 1912o
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.8
I0.8
20.7
30.7
Feb. 9.7
19.7
29.6
Mar. 1 0.6
20.6
30.6
Apr. 9.5
195
295
May 9.4
19.4
29.4
June 8.4
18.3
28.3
July 8.3
18.3
28.2
Aug. 7.2
17.2
27.1
Sept. 6.1
16.1
26.1
Oct. 6.0
16.0
26.0
Nov. 5.0
14.9
24.9
Dec. 4.9
14.8
24.8
34.8
Sec <J, Tan 6
Mean Place
DV a, Dm a
0 Apodis.
Var. 5.5-6.6
Right
Ascension.
h
13
m
56
t
38.34
39.44
40.57
41.67
42.72
43.69
44.57
45.35
46.01
46.55
46.95
47.22
47.36
47.36
47.23
46.98
46.61
46.13
45.55
44.89
44.18
43.43
42.67
41.93
41.23
40.61
40.09
39.71
39.48
39.42
39.55
39.86
40.35
41.01
41.82
no
"3
no
105
97
88
78
66
54
40
27
14
o
13
25
37
48
58
66
7»
75
76
74
70
62
52
38
23
6
13
31
49
66
81
94
4^-76 ,^^
43.80 ^^^
44.90
no
Declina-
tions.
— 76 22
5.4 ^
6.8'^
8.8^°
24
"2 o
14.0 ^«
17.0 30
20.3 ^^
23.8 ^5
35
30.9 3^
34.4 Vl
40.8 ^'
29
43.7
46.3
48.5
50.2
51.5
26
22
17
13
7
52.2
52.4
52.1
51-2
49.8 !1
48.0
45.8
43.3
40.6
37.7
34.9
32.2
29.7
27.6
25.9
24.7
24.1
24.0
18
22
25
27
29
28
27
25
21
17
12
6
I
4.245
43«.oo7
-4.126
2r'.22
+0.05
-0.3
-0.24
-0.5
r VirgixiiB.
Mag. 4.3
Right
Ascension.
h m
13 57
8
9. 1 I
9.45
9.78
O.I I
0.43
34
33
33
32
29
0.72
0.98
.21
.41
.57
.70
.80
.87
.91
.93
.92
.89
.84
'77
.69
.59
.48
.36
.25
.14
1.04
0.96
0.91
0.89
0.91
0.97
1.08
1.24
1.45
1.70
26
23
20
16
13
10
7
4
2
I
3
5
7
8
o
I
2
1
I
o
8
5
2
2
6
II
16
21
25
28
1.98
2.29
2.62 ^^
31
Declina-
tion N.
+ I 57
68.8
66.6
64.6
62.8
61.2
59.8
58.8
58.1
57.7
57.5
57.6
58.0
58.5
59.1
59.8
60.5
61.3
62.1
62.8
63.4
64.0
64.5
64.9
65.1
65.2
65.x
64.8
64.4
63.7
62.8
61.6
60.2
58.6
56.7
54.7
52.6
50.4
48.2
22
20
18
16
14
10
7
4
2
4
5
6
7
7
8
8
7
6
6
5
4
2
I
I
3
4
7
9
12
H
16
19
20
21
22
22
1. 00 1 40.034
10'.0I2 72".09
0.00
-0.3
0.00
-0-5
[Epb t«l
11 Botftis.
Mag. 6.1
Right
Ascensioa
h m
13 57
s
0.42
0.78
1. 14
1.49
1.83
36
36
35
34
31
2.14
2.42
2.67
2.88
3.05
3.18
3.27
3.33
3-35
3.34
3.30
3.24
3.16
306
2.94
28
25
21
17
13
9
6
2
I
4
6
8
10
12
14
2.80
2.66 **
2.51
2.36
2.22
15
15
14
12
2.10
2.00
1.93
1.89
1.89
1.94
2.04
2.19
2.39
2.64
10
7
4
o
5
10
15
20
25
29
32
2.93
3.25 ,.
3.60 ''^
Declina-
tion N.
+ 2748
29.0
26.7
24.7
23.2
22.2
21.7
21.6
22.1
23.0
24.2
25.7
27.4
29.3
31.2
33.1
34.9
36.5
37.9
391
40.0
40.6
40.8
40.7
40.3
39.6
38.5
37.1
35.3
33.2
30.9
23
20
15
10
5
I
5
9
2
5
7
9
9
9
8
6
4
2
9
6
2
1
4
7
II
14
18
21
23
26
28
28.3
22.6 ^9
19.6 30
16.6 3°
30
13.6
10.8
8.3
28
25
1. 131
II*.I2I
40.527
.."
40 .39
-0.0 1
-0.3
40.03
^ Centavxi.
Mag. 0.9
Right
Ascension.
h
13
m
57
33.88
34.47 ^X
35.05 ;!
35.62 ^'
36.16 54
50
36.66
37.12 *^
37.52 4°
37.86 34
38.15 '^
38.38
38.55
38.65
38.69
38.68
23
17
10
4
I
6
12
17
22
38.62
38.50
38.33
38.11
37.86 II
37-58 ^^
37.28 30
36.97 ^'
36.67
36.38
30
29
25
36.13
35.92
35.77
35.69
35.70
35.79
35.98
36.26
36.62
37.05
37.55
38.10
38.67
21
15
8
19
28
36
43
50
55
57
Declina-
tion S.
-5956
41.4
42.2
43-5
45-2
47.3
49.7
52.4
55.3
58.3
61.4
64.5
67.5
70.4
73.2
75.7
78.0
80.0
81.6
82.8
83.6
84.0
83.9
83.4
82.5
81. 1
79.4
77.4
75.2
72.9
70.5
68.2
66.1
64.2
62.7
61.7
61. 1
61.0
61.5
8
13
'7
21
24
27
29
30
31
31
30
29
28
25
23
20
16
12
8
4
I
5
9
14
17
20
22
23
24
23
21
19
15
10
6
I
5
1.997 -1.729
36V206 56".o8
4O.02
-03
-0.10
-0.5
APPARENT PLACES OF STAES, 1912.
399
FOR THE UPPER TRANSIT AT WASHINGTON.
7C Hydns.
& Centanri.
a DraconlB.
d Botftis.
Mean Solmr
Mag. 3.5
Mag. 2.3
Mag. 3.6
Mag. 4.8
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Decline'
Atoension.
tions.
Aecensioa
tions.
Aacensioa
tion N.
Ascension.
tion N.
h m
0
•
h m
0
»
h m
0 '
h tn
e *
14 I
-26
15
14 I
-3556
14 I
+ 6447
14 6
+ 2529
Jan. 0.8
8
20-13 „
26.2
^ ^
28.48
6.1
s
59.95
27.2
s
22.41
78.2
I0.8
20.50 *'"
27.8
16
_ 0
28.87 ^'
7.5
14
60.54 f
25.1 "
22.75 '^^
75.8 ^*
20.8
20.87 ^^
29.6
18
29.27 *°
9.2
17
6i»5^
23.6 '5
23.10 3*^
73-8 »°
30.7
21.23 ^^
31-5
19
29.66 39
II. I
19
61.75 f
22.8 *
23.45 ^f
72.2 '6
Feb. 9.7
21-57 _
33.5
20
30.03 ^j
13.2
21
62.34 ^'
22.7 '
23.79 ^^
71.1 "
32
20
34
22
56
5
31
7
19.7
^^•^9,„
35.5
30.37 „
154
62.90
23.2
24.10
70.4 ,
29.6
22.18 ^9
22.44 l^
37.5
20
30.68 3'
30.96 W
17.6
22
^3-41 f '
24-3 ,,
24.39 ^;
70.2 ;
Mar. 1 0.6
39-4
19
18
19.9
23
63-85 tl
26.0 '7
24.64 5
70.5 3
20.6
22.66 "
41.2
31.20 ■*
22.1
22
64.21 36
28.2 "
24.85 ''
71.2 '
306
22.84 \\
42.9
17
3»-40 \l
24.2
21
64.48 '7
30.7 'a
18
25.03 ;°
7='-3 ;:
15
15
16
21
19
28
14
14
Apr. 9.5
22.99 ^,
44-4
V M
31-56 ,,
26.3
6467 ,„
33-5 ,„
^5-^7 ,^
73-7 ,fi
75-3 8
789 ;
195
23.11 "
45.8
14
T *>
31.69 '3
28.2
19
64.77 •"
3<^-5 '0
25.27 ^°
29.5
23.20 ^
23.26 ^
47.0
12
31.78 9
31.84 ;
29.9
17
6478 '
39.5 z
25.34 ;
May 9.5
48.0
10
8
31.5
16
64.70 «
4^-4 !^
2537 \
19.4
23.29 ^
48.8
31.86 '
32.9
14
64.55 '5
45.1 '^
25.37 !^
80.8 *9
0
7
I
12
ji
25
3
18
29.4
23.29
49.5
■•
31.85 ,
34.1
64-34-,,
47-6
25.34 ^
82.6 ,
June 8.4
23.26 ^
2320
23.12
50.0
5
31.81 4
31.75 f
35.0
9
64.07 ^7
49.7
25.29 ;
18.3
50.3
3
35.7
7
63.74 "
5'-4 !
25.22 *
85.6 '+
28.3
50.4
I
31.66 9
36.2
5
6338 3^
52.6 ':
25.13 ,^
86.8 "
July 8.3
23.03 9
II
50.3
I
2
31.54 "
14
36.4
2
I
62.99 ^^
41
53.3 ;
25.02
13
87.7 ^
18.3
22.92
50.1
31.40
36.3
62.58
53.5 ,
24.89 ,^
88.4
28.2
22.79 \l
49.7
4
6
31.25 5
36.0
3
62.15
53.2 \
24-75 ';
88.7 3
Aug. 7.2
22.66 '3
49.1
31.09
35.4
6
A
61.73 *'
52.4 „
24.60 '5
88.7 °
17.2
22.52 '^
48.4
7
30.93 '^
34-6
8
61.32 ts
5^-» 8
24.46 w
88.4 3
87-8 ,^
27.2
22.39 \l
47-5
9
30.78 '^]
33.6
10
60.94 ,
49.3 '*
24.32 ^
12
9
14
12
35
23
13
10
Sept. 6.1
22.27
46.6
30.64
32.4
60.59 ,,
47-0 „
24.19
86.8
16.1
22.18 ^
45.6
10
30.53 "
3I-I
13
60.28 3'
44-3 'I
24.08 "
85-5 \\
26.1
22.12
44.7
9
30.45 ^
29.7
14
60.03 ^5
41-3^:
24.00 °
»3-9 '
Oct. 6.0
22.10 ^
43.8
9
mm
30.42 "^
28.4
13
59»5 '
38.0 33
34.4 ,°
23.96 \
82.0 '9
16.0
22.12
43- 1
7
30.44 ^
27.1
13
59.75 '°
23.96 °
79-8 L
7
6
7
II
^^ ^ ■ ^^ ^
38
4
24
26.0
22.19 ^-
42.5
3^-51 ,,
26.0
59.73 ,
3°-6 ,„
24.00
77.4 „
Nov. 5.0
22.31 «
42.2
3
30.64 '3
25.1
9
59.80 7
26.7 39
24.09 ^
74-7 Z
14.9
lo
22.49 ^,
42.1
I
30.83 \\
24.5
6
59-97 '^
60.23 ^^
22.8 39
^9° ^6
24.23 ^
*,» ^ 28
7'-9„
24.9
22.72 *^
42.3
2
3^ -08"^
24.2
3
24.42 9
69.0 '9
Dec. 4.9
23.00 1
42.9
6
31.38 3°
24.3
I
60.58 35
^5-4 ^t
24.66 ^J
66.0 3°
32
9
34
4
44
33
28
29
14.9
23.32 _
43.8
31.72
24.7
^\
61.02
12.1
24.94 _
S3-
24.8
23.66 ^^
45.0
12
32.09 37
25-5
8
61.52 50
9-^'^
25.26 32
34.8
24.02 ^
46.5
15
32.49 ^°
26.7
12
62.08 56
6.7^5
25.59 ^^
57.8 ='5
Sec <J, Tan 6
I.I 15 -0.493
1.235 -0.725
2.348 +2.124
1. 108 +0.478
Mean Place
2i'.397 3i".98
29".92i I4".78
6o".43i 46".30
23VI78 89".03
ly^a, Dm a
+0.01 -0.01
\
+0.01 -0.0^
\
-0.03 +0.12
-o.ox +0.03
Df A, Dm 6
-0.3
-0.5
-0.3
-05
-0.3
-0.5 1
-0.3
-O.S
[Bph is]
400
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
K Virginis.
4 Ursfle Kinorls.
t Virgixiig.
tf Botftis.
Mean Solar
Mag. 4.3
Mag. 5.0
Mag. 4.2
Mag. 0.2
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
Uon N.
h m
e
*
h ]
En
0 •
h m
•
>
h m
•
14 8
-951
14
9
+ 7756
14 II
-5 34
14 II
+ 1937
Jan. 0.8
10.89
52.1
s
9-94
79.2
22*83 „
52.8
s
37-98
75-2 ,
I0.8
11.23 ^"^
540
19
10.99
105
77.3 '\
23.16 33
54.8
20
38.32 34
72.8 ^4
20.8
11.57^^
55-9
19
12.10
III
76.0 '^
23-50 3^
56.8
20
38.66 34
'J'''' W
30.7
II.9I ^^
57.8
19
• 0
1323
"3
75-4 ,
23.84 ^t
58.7
19
39.00 34
68.9 '*
Feb. 9.7
^2-23 11
59.6
18
14-35
112
— ^ ^
75-5
24-16 3^
60.4
17
3932 3^
67.5 '^
30
17
106
7
29
15
30
9
19.7
^2-53 _
61.3
1541
£•
76.2 _
24.45 „
61.9
39.62
66.6
29.6
12.80 '7
62.7
14
16.37
96
0 .
77-5 \i
24.72 ^7
63.2
13
39.90 ^^
66.2 4
Mar. 10.6
13.04 l^^
63.9
12
17.21
84
79-4 '
24.96 '^^
64-3
11
0
40.15 „^
66.2 °
20.6
13-43 °
64.9
10
Q
17.90
69
81.8 "-f
25.35 ^
65.1
8
6
40.36 ^^
66.6 \
^7-4 *
30.6
65.7
0
^
18.41
51
84.5 '^
65.7
40.53 ^\
15
6
33
29
15
3
14
10
Apr. 9.5
1358 „
66.3
18.74
^7-4 ,„
25.50 ^,
66.0
40.67
68.4
19.5
13.69 "
66.7
4
18.88
14
90.4^°
25.62 "
66.1
I
40.78 "
697 i
295
13.78 I
13.84 I
66.9
2
18.83
5
93-5 ^'
25.71 ^
25.77 ,
66.0
I
40.85 \
71. 1 "^
May 9.5
66.9
0
18.60
23
96-5 ^«
65.8
2
40.89 ^
72-6 6
74.2 \\
19.4
13.87 3
66.8
I
18.21
39
99.3 ''
25.80 3
65-5
3
40.91
I
2
54
24
I
4
2
15
29.4
13.88
66.6
.17.67
^_
^°'-7,.
25.81
65.1
40-89 ^
75-7 , .
June 8.4
13.86 I
66.3
3
17.00
67
103.8 \\
25.79 .
64-7
4
40.85 ^
40.79 «
+°-7i ,„
n-'i \\
18.3
13.82 I
13.76 I
13.68 I
65.9
4
16.23
77
86
105.4 „
25-75 Z
25.69 \
64.2
5
78.4 f
28.3
65.5
4
15-37
106.6 '^
63.7
5
6
79-5 "
80.3 *
July 8.3
65.1
4
14.44
93
107.2
63.1
40.61 «
10
5
96
I
JO
5
12
6
18.3
13.58 „
64.6
13-48
^0
107.3 ,
25.51 „
62.6
40.49 ,,
80.9 ^
28.2
13.47
64.1
5
12.50
98
106.8 5
25.40 "
62.1
5
40.36 3
81.3 4
Aug. 7.2
13.36
63.6
5
11.52
98
105.8 ;!
25.29
61.7
4
40.22 4
81.4 '
17.2
13.24 '
63.2
4
10.57
95
0 _
'O+S '^
25-17 "
61.3
4
40.08 ""^
81.2 ^
27.2
13.12 "
62.8
4
9.68
89
20
102.3
25.06 "
61.0
3
39.95 '^
80.7 5
11
4
82
24
10
2
12
7
Sept. 6.1
13.01
62.4
8.86
99.9^
24.96
60.8
39.83 ,^
80.0
16.1
12.92 I
12.86 ^
62.1
3
8.13
73
97.0 -^
24.87 9
60.8
0
39.73 ^^
39.65 _
79° !!
26.1
61.9
2
7-51
62
93-8 3^
24.80 '
60.9
1
77.6 ^
Oct. 6.0
12.83 ^
61.9
0
7-03
48
90.3 ^^
24.76 4
61. 1
2
39.60 ^
75-9 !
16.0
12.84 '
62.1
2
6.70
33
86.6 37
24-77 1
61.5
4
39.59 \
74.0 '9
6
4
17
39
6
7
4
22
26.0
12.90
62.5
6.53
82.7
2483 ,„
62.2
39.63 ^
7^-8 ,.
Nov. 5.0
^3.17 ,„
63.2
7
6.54
I
78.8 39
24.93 °
63.2
xo
39.72 ,^
66.8 ^^
14.9
64.1
9
6.73
19
74-9 f^
25.08 5
64-4
12
39.85 \\
24.9
20
13.37 °
653
12
7.11
38
7'»S
25.27 '9
65.8
14
x8
64° ;
Dec. 4.9
X3.62 ^^
66.7
14
16
7-67
56
7^
67.5 I
^5-5' :^
67.4
10
18
40.26 ^3
27
61.2 *f
14.9
13.90 ,.
68.3
_ 0
8.39
A ^
643 a
25.79 _
69.2
40.53 , ,
58-4 „
24.8
14.21 f
70.1
18
9-25
86
61.5 ^'
26.10 3^
71. 1
19
40.83 3^
55-7 '^
34.8
14.55 3*
72.0
19
10.24
99
59.2 ^3
26.43 "^^
73.1
20
41.16 33
53.2 ^^
Sec 6, Tan d
I.OI5 -0.174
4.793 +4.687
1.005 -0.098
1.062 +0.357
Mean Place
IIV97I
52".32
-O.OI
io".463 99".48
-0.07 40.26
23V880 5x".53
[
38«.823 84".52
DV<i| ^t*^
0.00
0.00 -0.0 ]
[
-O.OI 40.02
Df d, Dm d
-0.3
-0.5
-0.3
-0.5 1
-0.3
-0.5
-0.3
-0.5
[Bph z«l
APPARENT PLACES OF STARS, 1912.
401
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.8
I0.8
20.8
30.7
Feb. 9.7
19.7
29.7
Mar. 10.6
20.6
306
Apr. 9.5
19-5
29-5
May 9.5
19.4
29.4
June 8.4
18.4
28.3
July 8,3
18.3
28.2
Aug. 7.2
17.2
27.2
Sept. 6.1
16.1
26.1
Oct. 6.1
16.0
26.0
Nov. 5.0
14.9
24.9
Dec. 4.9
14.9
24.8
34-8
Sec <J, Tan <J
Mean Place
ly ^ a, Dm a
D^ S, Dm 6
1912
A. Bo({tis.
Mag. 4.3
RiRht
Ascension.
h m
14 13
■
1.69
2.10
2.52
2.94
3-34
372
4.07
4.38
4.64
4.86
5.02
513
5.20
5.16
509
4.98
4.84
4.67
4.48
4.27
405
3.82
3-59
3-37
3.17
300
2.86
2.76
2.71
2.72
2.79
2.92
3.12
3.38
369
4.04
4-43
41
4^
42
40
38
35
31
26
22
16
II
6
I
4
7
II
14
17
19
21
22
23
23
22
20
17
14
10
5
I
7
13
20
26
31
35
39
Declina-
tion N.
+ 4628
75.1
24
72.7
70.8 '9
69.5 ''
68.8
68.8
693
70.3
71.9
73-9
76.2
78.7
81.3
83.9
86.4
88.8
90.9
92.7
94.1
95.1
95.7
95-9
95.6
94.8
93.6
92.0
90.0
87.6
84.8
81.7
78.4
74.9
71-3
67.7
64.2
60.9
57-9
55-2
7
o
5
10
16
20
23
25
26
26
25
24
21
18
14
10
6
3
8
12
16
20
24
28
31
33
35
36
36
35
33
30
27
1.452 +1.053
2".390 9»".30
-0.02
-0.3
—26
+0.06
-0-5
A. Virginls.
Mag. 4.6
RiRht
Ascension.
h
14
8
1956
19.90
20.24
20.58
20.91
21.21
21.49
21.74
21.96
22.15
22.31
22.43
22.52
22.58
22.62
22.63
22.62
22.58
22.52
22.44
22.35
22.24
22.12
21.99
21.87
21.76
21.67
21.60
21.57
21.58
21.63
21.73
21.89
22.09
22.33
m
14
34
34
34
33
30
28
25
22
19
16
12
9
6
4
I
I
4
6
8
9
II
12
13
12
II
9
7
3
I
5
10
16
20
24
28
22.61
22.92
23.26 ^*
31
Declina-
tion S.
-1257
58.3
60.2
62.1
64.0
65.8
67.5
69.0
70.3
714
72.3
73-0
73.6
74.0
74.2
74-3
74.2
741
73.9
73.6
73.2
72.8
72.4
71.9
71-4
70.9
70.4
70.0
69.7
69.6
69.6
69.8
70.3
71.0
72.0
73.2
74.6
76.2
78.0
9
9
9
8
7
5
3
I
9
7
6
4
2
I
I
I
2
3
4
4
4
5
5
5
5
4
3
I
o
2
5
7
10
12
14
16
18
2 Librae.
Mag. 6.3
Right
Ascension.
h
14
8
40.20
40.54
40.89
41.23
41.55
41.85
42.13
42.38
42.60
42.79
m
18
34
35
34
32
30
28
25
22
19
16
42.95 __
43.08 3
43.18 '^
43.25
43.29
1.026 -0.230
2o".7o8 59".35
0.00 -0.0 1
-.0.3 -0.6
[Bph la]
43.31
43.30
43.27
43.21
43.13
43.03
42.92
42.80
42.67
42.55
42.44
42.35
42.28
42.24
42.24
42.29
42.39
42.54
42.73
42.97
43.25
43.56
43.89
I
3
6
8
10
II
12
'3
12
II
9
7
4
o
5
10
15
19
24
28
31
33
Declina-
tion S.
— II 18
44.9
46.7
48.6
50.5
52.3
53.9
55.4
56.7
57.7
58.5
59.1
59-5
59.8
60.0
59.9
59.8
59.6
59.3
58.9
58.5
58.1
57.7
57.2
56.7
56.3
55.9
55.6
55.4
55.3
55.4
55.7
56.3
57.1
58.1
59.4
18
19
19
18
16
15
13
10
8
6
4
3
2
I
I
3
4
4
4
4
5
5
4
4
3
2
I
I
3
6
8
10
13
15
60.9
62.6 '7
64.4
1.020 -0.200
4i«.36o 45".i7
0.00
-0.3
-0.0 1
-0.6
0 Bo(ftis.
Mag. 4.1
Right
Ascension.
m
22
h
H
8
1.35
1.80^5
45
2.25
2.70
3.14
45
44
42
3.56
3.95
4.60 3°
4.84
39
35
24
18
5.02
5.14
5.20
5.21
5.17
5.08
4.95
4.78
4.58
4.35
4.10
3.83
3.56
3.29
3.03
2.78
2.56
2.38
2.24
2.16
2.14
2.19
2.30
2.49
2.75
3.06
3.43
3.84
12
6
I
4
9
13
17
20
23
25
27
27
27
26
25
22
18
14
8
2
5
II
19
26
31
37
41
Declina-
tion N.
+ 52 14
68.4
65.9
64.0
62.7
62.0
62.0
62.6
63.7
65.3
67.4
25
»9
»3
7
o
6
II
16
21
25
27
28
27
69.9
72.6
75.4
78.1
80.8 ^7
25
83.3
85.6
87.5
89.0
90.1
23
19
15
II
6
90.7
90.9
90.6
89.8
88.5
86.8
84.6
82.0
79.1
75.9
72.5
68.9
65.1
61.3
57.7
54.3
51.2
48.4
2
3
8
13
17
22
26
29
32
34
36
38
38
36
34
31
28
1.633 +1.292
I2«.ii3 85".75
-0.02
-0.3
+0.07
-0,6
402 APPARENT PLACES OF STARS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.8
I0.8
20.8
30-7
Feb. 9.7
19.7
29.7
Mar. 10.6
20.6
30-6
Apr. 9.6
295
May 9.5
19.4
29.4
June 8.4
18.4
28.3
July 8.3
18.3
28.3
Aug. 7.2
17.2
27.2
Sept. 6.1
16.1
26.1
Oct. 6.1
16.0
26.0
Nov. 5*0
150
24.9
Dec. 4.9
14.9
24.8
34.8
Sec <J, Tan <J
Mean Place
Jy^ a, Dm a
D^d, D»(5
/BoUtlB.
Mag. 5.4
Right
Aacension.
h
14
m
22
8
20.85
21.18 ^^
21.52 ^^
21.86 3^
33
22.19
22.50
22.79
23.05
23.27
23-45
23.60
23.72
23.81
23.87
23.89
23.88
23.85
23.80
23.73
23.63
23.51
23.38
23.24
23.10
22.97
22.84
22.73
22.64
22.58
22.56
31
29
26
22
18
15
12
9
6
2
I
3
5
7
o
2
3
4
4
3
3
II
9
6
2
3
8
22.59
22.67
22.80 ^^
17
22.97 '
23.19
22
26
30
23.45
23.75 „
24.08 ^^
Declina-
tion N.
+ 1936
n
70.0
67.7
65.6
63.8
62.4
61.5
61. 1
61. 1
61.5
62.3
63.4
64.7
66.2
67.8
69.5
71.1
72.6
74.0
75.2
76.2
77.0
77.5
77-7
77.6
77.2
76.5
75.5
74.2
72.7
70.9
68.8
66.5
64.0
61.3
58.5
55.7
53.0
50.5
23
21
18
14
9
4
o
4
8
II
3
5
6
7
6
5
4
2
o
8
5
2
I
4
7
10
13
15
18
21
23
25
27
28
28
27
25
1.062
2I'.752
40.356
l"
79 .52
-O.OI
-0.3
•K).02
-0.6
^ VizSiiiiB.
Mag. 5.0
Right
Ascension.
h m
14 23
s
38.94 _.
39.26 ^
39.60 ^^
39.93 II
40.25 ^
30
40.55 .g
40.83 ll
41.08 ^5
22
41.30
.48
4
4
4
4
4
4
4
4
4
4
4
4
4
4
18
16
.64
'77
.87
.94
.98
.99
.98
.95
.90
.82
.73
.62
13
10
7
4
I
3
5
8
9
II
12
.50
.38"
.26^^
II
10
8
5
o
4
41.15
41.05
40.97
40.92
40.92
40.96
41.05 _\
41.18 ^l
41.36 '^
23
27
41.59
41.86
42.16
42.48
30
32
Declina-
tion S.
- I 50
4.9
7.0
9.0
0,8
2.4
3.8
5.0
5.9
6.5
6.8
6.9
6.8
6.5
6.0
5.4
4.8
4.2
3.5
2.8
2.2
1.6
I.I
0.7
0.4
0.2
0.1
0.2
0.4
0.8
1.5
21
20
18
16
14
12
9
6
3
I
z
3
5
6
6
6
7
7
6
6
5
4
3
2
I
I
2
4
7
9
II
2.4
^•^'^ I.
4.8 '^
6.4
8.2
16
18
19
20.1
22.1
24.2
20
21
1. 001
.032
40".oi4 i".99
0.00 0.00
-0.3 -0.6
[Bph IS]
5 Vnm XinozlB.
Mag. 4.4
Right
Ascension.
h m
14 27
s
40.81
90
41.71 ^ ,
42.66 ^5
43.64
44.63
45.58
46.46
47-24
47.89
48.40
98
99
95
88
78
65
5»
36
48.76
48.96
49.00
48.89 ,^
48,62 ^7
20
4
II
48.22
47.70
40
52
47.08 ^"
46.37 ;;
45.60 II
44,78
43.93
43.07
42.23
41.42
40.66
39.97
39.37
38.89
38.53
38.31
38.25
38.35
38.61
39.03
39.61
40.32
41.14
82
85
86
84
81
76
69
60
48
36
22
6
10
26
42
58
71
83
Declina-
tion N.
+ 76 4
54.1
51.9
50.3
49.4
49.2
49.6
50.7
52.3
54.5
57-1
22
16
9
2
4
II
16
22
26
29
30
60.0
63.0
66.1 3'
69.1 3°
72.0 II
'^4-6 ^,
76.9 '^
78.8 '9
80.2 '^
81. 1 9
81.5
81.3
80.6
79.4
77-7
2
7
12
17
22
26
30
75.5
72.9
69.9 „
66.6 ^l
59-2
55-3 il
47-5 ^
43.8 37
34
37-4 ^°
2S
34.9 ^
4.158 +4.036
4i*.796 74". 16
-0.06
-0.3
+0.22
-0.6
pBotftis.
Mag. 3.8
Right
Ascension.
h an
14 28
s
1.40
1.75
2.10
2.46
2.81
3.14
3.45
3.72
3.96
4.16
4.32
4.45
4-54
4-59
4.60
4.58
4.54
4.47
4.37
4-25
4.1 1
3.95
3-79
3.63
3.47
3.31
3.17
3.06
2.98
2.94
2.95
3.02
3.13
3.30
3.52
3.78
4.08
4.42
35
35
36
35
33
31
27
24
20
16
13
9
5
I
2
4
7
10
12
16
16
16
16
16
II
8
4
I
7
II
17
22
26
30
34
Declina-
tion N.
+ 3044
73.5
71.0
68.9
67.2
66.1
65.4
65.3
65-7
66.6
67.9
69.5
71.4
73.5
75.6
77-7
25
21
17
II
7
I
4
9
13
16
19
21
21
21
21
19
17
79.8
81.7
84.8 '^
85.9 'I
86.7
87.2
87.3
87.0
86.4
5
I
3
6
10
85.4
84.0
82.3
80.3
77.9
75.3
72.4
69.4
66.3
63.1
60.0
57-0
54.3
14
17
20
24
26
29
30
31
32
31
30
27
1. 164 +0.595
2*.276 86". 17
-O.OI
-0.3
+0.03
-0.6
APPARENT PLACES OF STAES, 1912.
403
FOR THE UPPER TRANSIT AT WASHINGTON.
y BoQUs.
tj Centanri.
C B0({ti8.
or* Centanri.
Mean Solar
Mag. 3.0
Mag. 2.6
Mag. 4.5
Mag. 0.3
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Aacenaion.
tion N.
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion S.
h m
e •
h m
0
h m
0
h m
0 >
14 28
+ 3841
9§
14 29
-4146
14 30
+ 30 7
14 33
-6028
0f
Jan. 0.8
8
3^-26
^9-4 „
s
53-06
9-7 „
s
50.07
24.7 ._
s
34.84 _
2.2
I0.8
31.6337
16.9 ^
53.48 4^
10.6 9
50.41 It
22.2 ^
35.41 ^^
=•5 i
20.8
30.7
32.01 ^^
32.39 V!,
^4« :
^3-2 ^
53-90*
54-32 4^
11.8'f
13-4 'J
50.77
51.13 _
^^ , 21
20.1
18.4 \l
36.00 59
36.58 58
3-3 it
4.6*3
Feb. 9.7
32.76 ^7
12.2
54-73 t'
^5-2 '
51.48 \\
17.2 "
37.14^!
6.3*7
35
4
39
20
33
7
53
21
19.7
33.11
II.8
55-12 ,
17.2
51.81
16.5
37.67 ^^
8.4
29.7
33.44 11
12.0 \
12.6 ^
55-48 36
19-3 "
52.12 3»
16.4 •
38.17 f°
^°-7 !^
Mar. 1 0.6
33.74 ^°
55-81 33
21.5"
52.39 !
16.8 ^
38.62 45
13-2 ^5
20.6
26
34.00 ^^
I3-.8 '^
56.10 11
23-7 "
52-63 't
17-6 „
39.01 39
^5-9 !I
30.6
34.21 \\
^5-5 ^^
56-35 '5
25-9 "
52.83 ^
18.8 "
39.34 11
18.8 ^9
17
20
21
22
17
16
28
29
Apr. 9.6
34.38
^7-5 „
56.56 _
28.1
53.00
20.4
39-^2
2^-7 ,„
19-5
34.51 I
^9-7
56.73 '^
30.2 ^^
53.13 ^
22.3 '9
39.84 "^
24.6 ^l
295
34-59 .
22.0 ^
56.87 4
32-2 "
53.22 9
24.3 ^°
39.99 i
27-4 !
May 9.5
3463 *
^4-4 1
56.97 '°
34.1 ^
53.28 J
26.4 "'
40.08 9
3°-^ 'I
19.4
3463 ,
26.8 '4
0
57.03 :
35-8 '7
53.30
28-5 ''
40.H 3
32.7 ']
3
23
^' •^ 3,
15
2
20
3
24
29.4
34-60
34-54 ,„
20.1
IT
57.05 ,
37.3 „
53-28
3°-5 ,„
40.08
35-^ ,,
June 8.4
3^-2 ^0
57.04 '
38.6 3
53-24 ,
32.4 '
39.99 ,^
^» « 2 I
390 ,^
18.4
34-44 „
33-1 9
56.99 I
39-7 "
53-17 I
34.1 \\
39.85 \l
28.3
34-31 \\
34-6 5
56.90 ,^
40.5 \
53-08 9
35-6 5
39.66 ^9
40.4 t
July 8.3
34.16 ;5^
35-8 "^
56.78 "
14
41.0 *
2
52.96 "
'4
36.8 '^
39.42 ^4
41-5 ';
18.3
33-99 ,„
33-81 \l
36.6
•
56.64 -
41.2
52.82
37.6 ^
39.14 ,,
42.2
28.3
37.0 *
56.48 \\
41.2
52.67 5
52.51 ,,
38.1 5
38.83 3
42.4 ,
Aug. 7.2
33-62 9
37-0 ^
56.30 ;
40.9 ,
38.2 \
38.50 \\
42.2
41.6 ^
T W
17.2
33-43 '
36.6 J
56" 8
55-93
40.2 7
52.34 ,;
38.0 ^
37-4 °
38.17 33
27.2
33-24 \l
35-7 ,,
39-3 „
52.17 \l
37.85 ^'
40.5 ,^
18
13
17
II
15
10
30
15
Sept. 6.1
33-06
32.90 \l
34-4 ,^
55.76
38.2
52.02
36.4 „
37.55 ,.
37.29 ^^
39° x8
16.1
55.61 5
36-9 ;
51.89 3
35-1 3
26.1
32.76 \*
3°-8 '!
55.49 "
35-4 ^
51-78 "
33-4 I
37.08 "
-,^ « 20
35-2 ^,
Oct. 6.1
32.66 '°
28.4 ="4
55.42 7
33.8 ^
51.70 °
31-4 °
36.94 '?
36.88 ^
-^ ^ 22
33.0
16.0
32.61 ^
25-7 'J
55.41
32.3 ,.
51.66 4
29-^ 'i
30.7 ^3
0
30
4
»4
I
26
3
23
26.0
32.61
32.67 ^\
22.7
55.45 ,^
30-9 ,,
51-67
23.7 ,^
36.91
28.4
Nov. 5.0
19.5 f.
55.55 '^
29.6 3
51-73 „
37.03 '
26.2 "
15.0
32.79 '
16.2 33
55.72 '7
28.5 "
51.84 '
20.7 3^
37.25 "
24.2 ^^
24.9
32.95 ^,
12.8 34
55-95 ,X
0
27.7 .
17
52.01 7
17.6 3^
37.56 3^
^^•5 I
Dec. 4.9
33.17
27
9.5^^
32
56.4 ;j
27-2> \
52-23 ,.
26
14.4 ^^^
31
37.95 J^
21.1 ^4
10
14.9
33-44 _,
^•3,,
56.58 ,«
27.2
52.49 ,^
"•3 ,„
38.41
20.1
24.8
33.76 5
34.12 ^
^•"20
56.96 38
27-5 ^
52.79 Z
8-4 ^
38.93 ^'
39.51 5
19.6 5
34.8
0.3'^
57.38 42
28.2 7
5312 ^^
5.7'^
19.7
Sec'y,Taii<J
1. 281 40.801
1. 341 -0.893
1. 156 40.580
2.029 -1.766
Mean Place
32M14 34" .06
54-.840 18". 26
50-.970 37".24
36-.78I 2i".83
D> a, Dm a
-O.OI ■K>.04
40.01 -0.05
-O.OI 40.03
40.03 -0.09
D^6,D^6
-0.3
-0.6 1
-0.3
-0.6 1
-03
-0.6
-0.3
-0.6
[Eph la]
404
APPARENT PLACES OF STABS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
S3Bo(5ti8.
ofApodis.
/< Virginls.
f Botftlfl.
Mean Solar
Mag. 5.4
Mag. 3.8
Mag. 4.0
Mag. 2.7
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion S.
Ascension.
tion N.
h m
0 '
h m
0 1
h m
0 *
h m
o
14 35
+ 4446
14 36
-7840
9$
14 38
- 516
14 41
-1-27 26
Jan. 0.8
32.91 8
33-29 l^
43.2 ^*
8
46.00
5-3 ,
8
24.07
36-4 _
7^66
SV
29.0
I0.8
47.29 ]ll
5.0 3
24.40 ^ '
38.4 '°
7.99 ^^
26.4 "^
20. 8
33.69 1°
39-5 ^
48.62 '33
5-=^ «
24.73 ^3
4°-3 It
8.34 35
24.2 "
30.8
34'° to
49.97 '35
6.0 8
25.06 ^'^
42.1 '8
8.69 35
22.4 '^
Feb. 9.7
34-50 S
38.5 -
51.29 '3'
127
7-3;^
25.39 ^^
«5 *
9.03 34
33
21. 1 '3
7
19.7
34-88
35-24 l.
38.2
52-5*5 „„
9-' „
25.70 -
45-3 ,,
936 _
20.4
29.7
38.5 ^
53-75 ]2
"•4'^
25.98 'I
46.5 "
9.66 3°
20.1 3
Mar. 1 0.6
35.56 11
35-84 !
39-3 ,1
54.84 '°!
14.0 '^
26.24 '^
47-5 '!
9.94 ''
20.3 ^
20.6
4°-7 «
55-81 97
16.9 '9
26.48 ^^
48.2 7
10.18 ^4
21.0 7
30.6
36.07 ^3
42.S ;
56.65 °4
20.1 32
26.68 ^°
48.7 ^
10.39 ^0
22.1
>9
21
69
33
17
3
^^ 18
15
Apr. 9.6
36.26
r i
44-6 ,^
57-34 „
23-4 ,,
26.85
49.0
10.57
23.6
19.5
36.40 '•*
47° A
49.6 ^
57-87 "
26.8 34
27.00 ^
49.0 ^
10.71 *4
25.3 ''
29.5
36.49 I
58.24 ^7
30.3 33
27.12 "
48.8 I
10.81 '°
27.2 "9
May 9.5
36.53 I
54-9 , .
58.44 'I
33-7 l\
27.20
48.6 =»
10.88 7
29.2 ^°
19.4
36.53 °
58-48 4
37-0 33
27.25 5
48.2 4
10.91 3
... « 20
31.2
5
24
»3
3'
3
5
0
20
29.4
36.48 -
57-3 „
5^-35 ,„
4°-' ,„
27.28
47-7 .
10.91
33-2
June 8.4
36.40 8
595 "
58.06 ''>
430 It
27.29
47.2 i
10.88 3
35.1 "
18.4
36.29
36.14 \l
35.96 ll
20
6.-5 °
57-62 44
45.6 ^
27.27 ^
46.6 ^
10.82 °
36.8 '7
28.3
63-2 \l
57°4 ll
47.8 "
27.22 ^
46.1 s
10.74 ,
38.3 '5
July 8.3
64.5 '^
5^-34 ^:
49.5 11
27.15 J
45-6 5
0
10.63 "
13
39.5 "
9
18.3
3576
2 1
65.3 ,
55-54 a„
54-66 88
50.8
27.06
45.1 ^
10.50
40.4 ,
28.3
35-55 "
65.7 *
51.5 ^
26.96 '°
44.6 5
10.36 *4
6
41.0
Aug. 7.2
35-33
65.7 °
53-74 11
51-7 ^
26.84 "
44.2 ^
10.21 *5
41.2 ^
17.2
35-1° 2^
65.2 5
52.80 94
51-4 i
26.71 '3
43.8 ^
10.04 *!
4I.I •
27.2
34-87 l\
64.3 '
14
5'-«9 ?;
50.6 8
14
26.58 '3
12
43.5 ^
9.88 '^
15
40.6 I
Sept. 6.1
34-66
34-47 ^
62.9 „
6I.I '«
51.04
49-2 ,„
26.46
43.3 ^
9.73 ,,
39-8 ,,
16.1
50.29 75
49-67 ^
47-3 11
26.35 "
43.3 °
9-59 t
38.7 '
26.1
34-31 \l
56-3 ^
45.1 ",
26.26 ^
43.3 °
9.47 "
37-2 '^
Oct. 6.1
34-19 '^
49.22 *5
48.96 ^J
4^-^ 8
39-8 '^
26.21 ^
43.5 ]
9.39 J
35.3 "
16.0
34." *
53.4 '^
26.20 '
44.0 f
9.34 ^
33.1 "
3
31
5
^9
3
7
0
14
26.0
34.08
34-12 4
5°-3 ,^
48.91 „
3^-9 ,„
26.23
44.7 ^
9.34 _
30-7 „
Nov. 5.0
46.9 ''t
49°8 \l
34-0 9
26.30 ^
45.6 9
9.39 i
28.0 *7
15.0
3*" 6
43.4 ^^
39-8 3«
49.48 40
31-3
26.42 ;^
46.7
9.49 :^
25.1 '9
24.9
34-38 ;*
50.10 ll
28.8 '5
26.60 '^
48.0 ^3
9.64 *5
22.1 3«
Dec. 4.9
34-60 "
28
36.3 ll
82
50.92
100
26.6 "
J7
26.82 "
26
49.6 ^^
^ qT 21
9-^^ 25
19.1 30
30
14.9
34-88
71
32.9 _
5^92,,^
24-9 .,
27.08
51.3 .
10.10
16.I
24.8
35-21 ^-^
35-57 ^*
29.7 Z
53.06 4
23.6 '3
2737 "i
53-2 ^
10.39 \l
13-2 ^9
34.8
26.8 '9
54.31 ^^5
22.9 "
27.68 ^'
55.1 "^
10.71 3^
10.5 *7
Sec <J, Tan <J
1.409 40.992
5.092 -4.993
1.004 -0.092
1. 127 -^0.519
Mean Place
33-.798 6x".74
52-.505 i9"-78
25'-257 34".oo
8-.633 4o".95
DVa, D«a
-0.02 +0.05
-^0.08 -0.26
0.00 0.00
-o.oi +0.03
D^rf, D»<J
-0.3
-0,6 1
-0.3
-0.6 1
-0.3
-0.6 1
-0.3
-0.6
[Bph xa]
APPARENT PLACES OF STARS, 1912.
405
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.8
I0.8
20.8
30.8
Feb. 9.7
19.7
29.7
Mar. 10.6
20.6
306
Apr. 9.6
195
29.5
May 9.5
19.5
29.4
June 8.4
18.4
28.3
July 8.3
18.3
28.3
Aug. 7.2
17.2
27.2
Sept. 6.2
16.1
26.1
Oct. 6.1
16.0
26.0
Nov. 5.0
150
24.9
Dec. 4.9
14.9
24.9
34-8
109 Virginls.
Mag. 3,8
Right
Ascension.
m
14 41
46.80
47.11
47-44
47-77
48.09
31
33
33
32
31
29
26
48.40
48.69
49.18 ^3
49.38 ^^
49.55
49.70
49.81
49.89
49.95
49.98
49.98
49.96
49.91
49.84
17
15
II
8
6
3
o
2
5
7
9
49.75
49.64
49.52
49.39 ,_
49.26 -^
II
12
13
Sec rJ, Tan 6
Mean Place
49.14
49.03
48.94
48.87
48.85
48.87
48.94
49.06
49.22
49.43
49.68
49.96
50.27
12
11
9
7
2
7
12
16
21
25
28
31
Declina-
tion N.
+ 2 15
8 Librae.
Mag. 5.3
Right
Ascension.
42.8
40.6
38.6
36.8
35.2
33.8
32.8
32.1
31.8
31.7
31.8
32.2
32.8
33.6
34.4
35.3
36.2
37.0
37.8
38.6
39.3
39.8
40.2
40.5
40.6
40.6
40.4
40.0
39.4
38.5
37.4
36.0
34.4
32.6
30.7
28.7
26.6
24.4
22
20
18
16
10
7
3
1
I
4
6
8
8
9
9
8
8
8
7
5
4
3
I
o
2
4
6
9
II
14
16
18
19
20
21
22
h m
14 45
8
47.65
47.98
48.32
48.67
49.01
1. 001
47 '.93 1
+0.040
47".58
0.00
-0.3
0.00
-0.6
33
34
35
34
32
49.33
49.63
49.90
5014
50.36
50.55
50.71
50.84
50.94
5101
51.05
51.06
51.05
51.01
50.94
50.85
50.74
50.62
50.49
50.35
50.22
50.10
50.01
49.95
49.93
49.95
50.02
50.14
50.32
50.54
50.81
51. II
51.43
30
27
24
22
19
16
13
10
7
4
I
I
4
7
9
II
12
13
14
13
12
9
6
2
2
7
12
18
22
27
30
32
Declina-
tion S.
-1537
54.1
55.8
57.5
59-2
60.9
62.5
64.0
65.3
66.4
67.4
68.2
68.8
69.3
69.6
69.8
69.8
69.8
69.7
69.5
69.3
69.0
68.7
68.3
67.8
67.3
66.9
66.5
66.1
65.8
65.6
65.6
65.8
66.3
67.0
67.9
69.1
70.5
72.0
7
7
7
7
6
5
3
I
o
8
6
5
3
2
o
I
a Libre.
Mag. 2.9
Right
Ascension.
3
4
5
5
4
4
4
3
2
o
5
7
9
12
14
15
1.039 -0.279
48'-995 54".59
0.00 -0.01
-0.3 -0.7
[Eph za]
h in
14 45
s
59.09
59.43
59.77
60.11
60.45
60.77
61.07
61.34
61.59
61.81
34
34
34
34
32
30
27
25
22
19
15
62.00
62.15
62.28 '3
62.38 '°
62.45
62.49
62.50
62.49
62.45
62.38
7
4
I
I
4
7
9
II
62.29
62.18
62.06 '^
61.93
61.79
61.66
61.55
61.46
61.39
61.36
61.38
61.46
61.59
61.77
61.99
62.25
62.55
62.87
13
14
13
II
9
7
3
2
8
13
18
22
26
30
32
Declina-
tion S.
-1540
35-4 ,fi
370 '^
38.7 '7
17
40.4 J
^''' 16
43.7
45.2
46.5
47.6
48.6
49.4
50.0
50.5
50.8
51.0
51.1
51. 1
51.0
50.8
50.5
50.2
49.9
49-5
49.0
48.6
48.1
47.7
47.3
47.0
46.9
46.9
47.1
47.6
48.3
49.2
50.4
51.7
53.3
15
13
II
10
8
6
5
3
2
o
I
2
3
3
3
4
5
4
5
4
4
3
I
o
2
5
7
9
12
13
16
Gfoombridge 2164.
Mag. 5.7
Right
Ascension.
1.039 -0.281
6o'.439 35".8o
0.00
-0.3
-0.0 1
-0.7
h
14
m
49
s
1.26
1.73
2.23
2.75
3.27
47
50
52
52
51
47
3.78
4.68 ^^
i.o6 38
5.37
5.62
5.80
5.90
5.94
5.91
5.81
5.66
5.45
5.20
4.90
4.58
4.23
3.87
3.50
3.13
2.78
2.46
2.18
1.95
1.78
31
25
18
lO
4
3
10
15
21
25
30
32
35
36
37
37
35
32
28
23
17
10
3
6
14
1.68
1.65
1.71
1.85
2.08 "^3
30
^•^^ .8
2.76 ^^
3.19"^^
Declina-
tion N.
+ 5938
46.3
43.7
41.6
40.1
39.3
39.1
39.6
40.8
42.4
44.5
26
21
15
8
2
5
12
16
21
26
47.1
49-9
52.9
55-9 ,,
58.8 ^l
28
30
30
61.6
64.2
66.4
68.2
69.6
70.5
70.9
70.8
70.2
69.1
28
26
22
18
14
9
4
I
6
II
16
67.5
65.5
63.0
60.1 ^9
56.9 ^'
20
25
53.4
49.7
45-9
42.0
38.2
34.6
31.3
28.4
35
37
38
39
38
36
33
29
1.979 +1.708
I2«.324 64". 74
-0.03
-0.3
4 0.08
-0.7
406
APPARENT PLACES OF STAES, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
ft Ursse Hinoris.
^* Librae.
Piazzi 221.
ft Lupi.
Mag. 2.2
Mag. 5.6
Mag. 5.8
Mag. 2.8
Mean Solar
1
Date.
Right
Declina-
Right
Declina- |
Righ
t
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tionS
*
Ascensi
on.
tion N.
Ascension.
tion S.
h m
e «
h m
0
f
h m
e f
h m
e f
14 50
+ 7430
14 51
— II
If
3
14 52
+ 1447
14 52
-4246
Jan. 0.8
8
55-64 ,.
34-7 _
58-11
19.4
18
2.85
5'^-4 ^j.
8
43-66
41-4 g
42-0 ,„
I0.8
5640 f
32.2 ""^
58.44 33
21.2
3-16
31
54-° 't
44-08 4^
20.8
57-24 It
30.3 '!
58.77 \\
23.0
18
3.49
33
5^-8 8
44-51 «
43.0 °
30.8
58.12 f
29.0 '^
59.10^3
24.7
17
3-82
33
50.0 «
44-94 t.
44-3 ^
Feb. 9.7
59-01 0
28.4 ^
59-43 ^^
26.3
10
4.15
33
48.5 \\
45-36 4^
45-8 5
87
I
32
15
31
II
40
»7
19.7
59-88
28.5 -
59-75 ,^
27.8
4.46
47-4 ,
45-76
46.14 z
46.50 3^
47.5 ,„
29.7
60.71 *3
29-3 ,:
60.05 ^°
29.2
14
4.76
30
46.7 I
49-4 '
Mar. 10.7
61.46 75
30.7 \i
60.33 l\
30.4
12
5-03
27
^1% M
46.4 I
51.4 °
20.6
62.11 *5
32.6 9
60.58 ^5
31-3
9
527
24
46.6 \
46-82 3^
53.5 ^
306
62.65 ^^
41
350 :t
60.79 ""o
'^ 18
32.0
7
5
5-48
21
18
47-1 5
47-10 ^8
24
55.6 "
21
Apr. 9.6
^3-06 ,
63-32 "^
37-8 ,0
60.97
32.5
^
5.66
■w ^
47-9 „
47-34 .,
57-7 20
19.5
40.8 3«
32.8
3
5-81
15
490 \
47-55 \\
59-7 °
295
63-44 "
43-9 ^
61.27 ^
33-0
2
5-93
12
8
6
50.3 \\
47-72 7
61.7 ="»
May 9.5
63-42 ,,
47° '0
61.38 "
61.46 ^
33-1
I
6.01
51.8 \\
47-85 'I
63.6 '
195
63.26 '^
50.0 30
33.0
I
6.07
53-3 \\
47-94 ^
^5-3 ^
29
28
4
2
3
15
5
16
29.4
62.97 ^„
52-8 ,^
61.50
32.8
6.10
54-8 ,^
47-99 -
66.9
June 8.4
62.57 z
55-3 11
61.51
32.5
3
6.10
0
56=^ \\
48.00
68.3 ^
18.4
62.07 ^
57-4 !
61.50
32.2
3
6.07
3
6
8
10
57-6 4
47-97 I
^^•5 "
28.4
61.48 59
59-1 \l
61.46 ^
31-8
4
6.01
58.9 ^
47-90 7
70.5 "^
July 8.3
60.81 *7
72
60.4 '3
61.40 g
31.4
4
4
5-93
60.0 "
9
47.80 •*»
13
71.2 '
4
18.3
60.09
61.2
61.32
31.0
5-83
60.9
47-67 .-
71.6
28,3
59-33 L
61.4 \
61.21 "
30.6
4
5.71
12
61.5 J
47-33 *
71.8 ^
Aug. 7.2
58-55 l\
61. 1 3
61.09 \\
302
4
5-58
13
V A
61.9 4
71.7 '
17.2
57-77 „
60.2 ^
60.96 '3
29.8
4
5-44
62.0 '
47-'4 '
71.3 ;
27.2
57.00 77
58.8 \^
60.83 '3
29.4
4
5-30
1 ^^-^ :
46.94 °
70.6 7
73
19
13
3
14 4
19
10
Sept. 6.2
56.27 ,.
5^-9 „
60.70
29.1
5.16
,,i6i-5 _
46.75 ,,
69.6 ^^
16.1
55-59 f.
54-6 \i
60.58 '^
28.8
3
5.03
U
60.8 7
46.58 7
^^•4 "
26.1
54-98 J
51.9 '7
60.48 '^
28.6
2
4.92
11
8
59-9 ,^
46.44 ^
67.0 4
Oct. 6.1
54-47 f '
48.8 3'
60.42 ^
28.6
0
4-84
58.7 w
46.35 ^
65.5 w
16.1
54.07 ^8
45.4 ^^
37
60.39 2
28.7
I
3
4.80
4
0
57-2 '5
17
46.30 ^
64.0 '5
15
26.0
53-79 „
41.7 .g
60.41
29.0
4.80
55-5 ,„
46.31 g
46.39 ,^
^^•5 ,^
Nov. 5.0
53-64 'i
37.9 ^^
60.48 7
29-5
5
4.85
5
53.5 °
61. 1 '4
150
5364 °
340 ^^
60.59 "
30.2
7
4.95
10
5'-2 '^
46.53 ^t
59-9 "
24.9
53-80 ^
30.1 %
60.75 ^
31.2
10
5.10
15
48.8 \\
46.74 '"
58.9 '°
Dec. 4.9
541 I
26,3 ^^^
60.96 "
32.4
12
5-29
19
463 ';:
47.01 7
58.2 7
45
36
25
14
24
2O
32
3
14.9
54-56
22-7 _
61.21
33-8
5.53
43-7 ,,
47-33 „
57-9 ,
24.9
5514 _
^9-5 ^«
61.50^9
35.3
15
5.80
27
41-1 '
47.70 37
58.0 '
34.8
55.84 7°
16.7 '^
61.82 32
36.9
10
6. II
31
38.6 ^5
48.11 ^"
58.4 4
Sec <J, Tan <J
3-745 +3.609
1.019 -0.195
1.034 +0.264
1.362 -0.925
Mean Place
57-.086 54".42
59'.428 i8".25
3'.945 65". 13
45*.6i4 48".7i
DV «, D- «
-0.06 +o.x8
0.00 -0.0 1 1 0.00 +0.0 X
40.02 -0.04
D^<J,D»<J
1 ^.3
^.7
1 -0.3
-0.7
1 -03
\
-0.7
-«.3
-0.7
[Epb la]
APPARENT PLACES OF STARS, 1912.
407
FOR THE UPPER TRANSIT AT WASHINGTON.
(^ Libra.
>9 Botftls.
Y ScoipU.
^ Bo(5ti8.
Var. 4.8-6.2
Mag. 3.6
Mag. 3.4
Mag. 4.7
Mean Solar
Date.
Right
Declina-
RiKht
Declina-
Right
Dedina- |
Right
Declina-
Ascension.
tion S.
Ascension.
tion N.
Aicension.
tionS
Ascension.
tion N.
h m
0 »
h m
e t
h m
e
*
h m
e •
14 56
-810
14 58
+ 4043
If
14 58
-2456
It
15 0
+ 27 16
Jan. 0.8
^'78
17-1 „
36*82
58-7 „
53.43 „
9.4
T *\
39-39 „
70.2
10.8
15.10^
37.17 35
56.0 11
53.78 35
10.6
12
39-71 t\
20.8
30.8
15-44 IZ
1577 "
18.9 '^
20.6 '7
37-54 11
37-92 :*°
53-7
51-9 !
54.14 \,
54.50 3^
54.86 36
12.0
13.5
14
16
_ ^
40.05 34
40.40 35
67.9 2
66.0 '9
Feb. 9.7
16.09 i'
22.3 '3
38.30 f
50.6 »3
I5.I
40-74 ,:
64.6 *4
31
»5
37
6
34
16
33
9
19.7
16.40
23-8
38.67
50.0
55.20
16.7
16
16
41-07 .,
63.7 ,
29.7
16.70 30
16.98 1]
25.0 "
39-02 ^5
50-0 °
55-52 3^
18.3
41-38 3'
41.66^,
4^-92 I'
63.3 4
Mar. 1 0.7
26.0 '°
39-34 ^„
50.5 *
55-82 30
19.9
63.4 '
20.6
^7-23 ,1
26.8 °
39-63 "9
5'-6 «
56-09 \\
21.3
»4
64.0 *
30.6
22
27-4 *
39-88 ^5
53-2 !
56.33 \\
22.6
13
42-^5 li
650 !
19
4
21
19
21
12
20
»4
Apr. 9.6
1764 ,.
17.80 ^
27.8
40.09
40.25 ^
55-^ „
56.54 ,g
56.72 «
23.8
42-51 '
66.4
195
28.0 '
57-3 11
24.9
11
68.1 '7
29.5
1 7-93 ]l
28.0 *»
12
40.37 8
40-45 !
59-8 'i
65.0 »^
as
56.87 \\
25.9
10
8
42.63 "
70.0 '9
May 9.5
18.03 '°
i8.li *
5
27.8 I
56.99 "
26.7
42-72 I
72.1
19.5
27-5 ^
4
40.48 3
57-08 9
27.4
7
6
42-77 I
74.2 -
29.4
18.16
27.1
40.47 .
675 „
57-14 ,
28.0
4279 ,
76.3 ,„
June 8.4
18.18 '
26.7 *
• •
40-42 I
40-34 „
69.8 11
57-17 :
28.5
5
42-78 '
78-3 :°
18.4
18.17 '
26.3 *
7^-9 8
73.7 ll
57.16 '
28.9
4
42-73 :
80.1 *8
8' -7 1;
28.4
18.13 ^
25-8 5
40.22
57.12 ;♦
29.1
2
42.66 7
July 8.3
18.07 I
25-3 I
40.08 '*
17
75.2 '5
n
57-05 \
9
29.2
I
0
42-56 '°
^ ^ 12
83-1 '*
II
18.3
1799 ,„
24.8
39-91
76.3 _
56.96 , ,
29.2
^%
42.44 . .
84.2
28.3
17.89 °
24.4 ^
39-72 9
77.0 I
56.85 *
29.0
2
42.30 ^Z
42.14 ^
84-9 I
Aug. 7.2
17-77 ,
24.0 ^
39-51 "
77-i ,
56.72 3
28.7
3
85.3 4
17.2
17-64 ^
23.6 4
39-30 ^
77.0 \
76.4 *
lO
56.58 \\
28.3
4
6
6
41.97 ,;
85-3 °
27.2
17.51 '3
13
23.3 I
3908 "
31
56-43 ^
14
27.7
41.80 '7
^ 16
85.0 3
Sept. 6.2
17-38
23.0
38.87
75-4 ,^
56.29 ,,
27.1
41.64
84.3 ,„
16.1
17.26 "
22.8 '
38.68 '9
740 0
56.16 3
26.4
7
41.49 ,,
83-3 °
26.1
17.16 '«
22.7 ]
38.51 ;i
72-1 9
56.05 "
55.97 \
25.7
7
14
41.35 ,,
81.9 4
Oct. 6.1
17.09 7
22.8 *
38.37 ^
67-2 '!
25.0
7
1 1
41.24 _
80.2 '7
16.1
17.06 3
23-1 ^
38.27 '°
55.93 7
24.3
7
41.17 I
78' "
I
5
s
29
I
5
2
24
26.0
17-07 g
17.13 „
23.6
38.22
64-3 „
55.94 .
56.00
23.8
41-15 ,
75-7 ,,
Nov. 5.0
24-3 ;
38.23 '
61.1 32
23.5
3
41.18 «
73-^ !«
150
'7-"+ 6
25-2 9
38-30 ,;
57.8 33
56.12 "
23.3
2
41.26 \
7°-3 'I
24.9
26.3
38.43 f
54.3 ;^
56.29 '^
23.4
I
41.39 ,a
^7-3 ^°
Dec. 4.9
17.60 11
27.6 3
38.62 '9
50.8 35
56-51 "
23.7
3
lo
41.57 ,.
64-2 11
24
15
25
34
27
6
23
30
14.9
17-84 ,.
18.12 ''^
29.1
• ••
38.87 ^^
47.4 „
56.78
24.3
^%
41.80
61.2
24.9
30.8 7
39- 16 l\
44.2^0
57.09 ,'
25.2
9
42.07 l"^
58.3 'I
34.8
18.44 3*
32.5 ''
39-49 ^^
41.2 30
57.43 ^"^
26.3
11
42.38 3'
28
55-5
Sec<J,Tan<J
1. 010 --O.I44
1.320 <K>.86i
1.103 -0.465
1.125 +0.516
Mean Place
i6".o88 i3".o8
37'.882 73".9i
54-.988 ir'.75
1
40-.483 84".93
ly^a, D«o
0.00 -O.OI
-0.02 40.04
+0. 1 -0.02
-O.OI -i 0.02
D^ <J, Dm 6
-03
-0.7 1
-0.3
^.7 1
-0.3
-0.7
-0.3
-0.7
[Bph 12]
408
APPAKBNT PLACES OF STARS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.9
10.8
20.8
30.8
Feb. 9.7
19.7
29.7
Mar. 10.7
20.6
30.6
Apr. 9.6
19.6
29.5
May 9.5
195
29.4
June 8.4
18.4
28.4
July 8.3
18.3
28.3
Aug. 7.3
17.2
27.2
Sept. 6.2
16.1
26.1
Oct. 6.1
16.1
26.0
Nov. 5.0
150
25.0
Dec. 4.9
14.9
24.9
34.8
C Botftts.
Mag. 5.0
Right
Ascension.
15
m
3
Sec d, Tan 6
Mean Place
25-04
2536
25.69
26.03
26.37
26.70
27.01
27.30
27.56
27.79
27.98
28.14
28.27
28.36
28.42
28.45
28.44
28.40
28.33
28.23
28.11
27.98
27.83
27.67
2751
27-35
27.20
27.07
26.97
26.90
26.87
26.90
26.98
27.11
27.29
27.52
27.79
28.09
32
33
34
34
33
31
29
26
23
19
16
13
9
6
3
I
4
7
o
3
5
6
6
6
5
3
o
7
3
3
8
13
18
23
27
30
Declina-
tion N.
+ 25 12
29.1
26.5
24.2
22.3
20.9
20.0
19.5
19.5
20.0
20.9
22.2
23.8
25.6
27.6
29.6
31.6
33.5
35.3
36.9
38.2
39.2
40.0
40.5
40.6
40.3
39.7
38.7
37-4
35.8
33.9
31.7
29.2
26.4
23.4
20.4
17.5
14.6
11.8
26
23
19
14
9
5
o
5
9
13
16
18
20
20
20
19
18
16
13
10
8
5
I
3
6
10
13
16
19
22
25
28
30
30
29
29
38
Mag. 3.5
Right
Ascension.
h m
15 5
s
54.96
55.43 ^^
55.92 ^9
56.41 ^^
56.90 J^
57-37 ,^
57.82 ^5
58.24 ^'
58.63
58.98
59.28
59.54
59.75
59.91
60.03
39
35
30
26
21
16
12
1. 105 -w^yi
26«.i53 4o".79
-0.01
-0.3
+0.02
-0.7
60.10
60.12
60.08 ^
60.00
59.87
8
»3
17
59.70
59.50
59.28
59.04
58.79
58.55
58.33
58.14
58.00
57.92
20
22
24
25
24
22
19
14
8
57.91 ,
57.97 "^
58.11 '*
58-33 "
58.62 ^9
35
59.38 \\
59.83 ^^
Declina-
tion S.
-5145
45.0
45.2
45.8
46.7
48.0
49.6
51.4
53-4
55.6
57.9
3
6
9
13
16
18
20
22
23
23
60.2
62.6 ^^
64.9 '^
67.2
69.4
23
22
21
71-5
73.4
75.1
76.5
77.6
78.4
78.9
79.0
78.8
78.2
77.3
76.0
74.4
72.6
70.7
68.8
67.0
65-3
63.8
62.6
61.7
61.2
61.0
19
17
14
II
8
5
I
2
6
9
3
6
8
9
9
8
7
5
2
9
5
2
I Librs.
Mag. 4.7
Right
Ascension.
I.616 -1.269
57'.36i 53".36
+0.02
-0.3
-0.06
-0.7
[Bph is]
h
15
m
7
8
0.62
0.96
1.30
1.65
1.99
2.33
2.65
2.94
3.20
3.44
3.65
3.84
4.00
4.12
4.21
4.27
4.30
4.30
4.27
4.22
4.14
4.03
390
3.76
3.62
3.48
3.35
3.24
3.16
3.12
3.12
3-17
3.28
3.44
3-65
3.90
4.19
4-51
34
34
35
34
34
32
29
26
24
21
19
16
12
9
6
3
o
3
5
8
II
13
14
14
14
13
II
8
4
o
5
II
16
21
25
29
32
Declina-
tion S.
-1927
33.2
34.6
36.1
37-7
39.2
40.7
42.2
43.5
44.7
45.8
46.7
47.4
48.0
48.5
48.9
49.2
49.3
49.4
49.4
49-3
49.1
48.9
48.6
48.2
47.8
47-3
46.8
46.3
45.9
45.6
45.4
45.3
45-4
45.8
46.4
y Triang. Anst.
Mag. 3.1
Right
7
6
5
4
3
3
4
4
5
5
5
4
3
2
4
6
II
47.3
^^•^ i^
49.8 '^
h
15
10
I.061
I2'.I22
-0.353
ji
33 .75
+0.01
-0.3
-0.02
-0.7
s
36.63
37.35
38.10
38.87
39-64
40.39
41.10
41.77
42.39
42.94
43-42
43.83
44.16
44.40
44.56
44.63
44.61
44.50
44.31
44.04
43.71
43.32
42.89
42.43
41.96
41-51
41.09
40.73
40.45
40.27
40.20
40.24
40.41
40.71
41.12
41.64
42-25
42.94
72
75
77
77
75
71
67
62
55
48
41
33
24
16
7
2
II
19
27
33
39
43
46
47
45
42
36
28
18
7
4
17
30
41
52
61
69
tionS.
-6821
8.9
8.4
8.4
8.9
9-9
"3
13.1
15.2
17.6
20.2
5
o
5
10
14
18
21
24
26
28
23.0
26.0 3°
29.0 3°
32.0 ^^
40.4 ''^
42.8 ^t
44.9
46.6
21
17
47.9
48.8
49.3
49.3
48.8
47.8
46.4
44.6
42.5
40.1
37.6
350
32.5
30.2
28.2
26.5
25.2
24.3
9
5
o
5
10
14
18
21
24
25
26
25
23
20
17
13
9
2.711 -2.520
40*.6oi 19" .54
-K).05
-0.3
-0.1 1
APPARENT PLACES OF STARS, 1912,
409
FOR THE UPPER TRANSIT AT WASHINGTON.
8 Serpentis.
S Botftls.
^ Librs.
Y ^t%m Xinoxis.
Mean Solar
Mag. 5.4
Mag. 3.5
Mag. 2.7
Mag. 3.1
Date.
Right
Declina-
Right
Declina-
Right
Declina- |
Right
Declina-
Aacenaion.
tion N.
Ascension.
tionN.
Ascension.
tionS
>.
Ascension.
tion N.
h m
e 1
h m
0 /
h m
0
*
h m
0 t
15 10
+ 515
ft
15 II
+3338
15 12
- 9
3
15 20
+ 72 8
Jan. 0.9
47-55 „
49-3 „
s
56.16
^9-6 ,„
14.78
34.3
8
49.74 ^,
5°-36 ^l
3°-6 ,„
10.8
47.86 3'
47-1 "
56.49 \\
16.8 '^
15.09 \.
36.0
17
=^7-7 '!
20.8
48.18 3*
45- » !«
5683 W
^4-4 11
15.42 ;;
yj'i
17
_ ^
51.06 70
25-4 ^
30.8
48.51 33
43-3 '
57-18 35
"•5 \l
15.75 li
39.3
16
51.81 l\
^3-7 Z
Feb. 9.7
48.83 3'
4^-7 !
57-54 „
II.I '4
16.07 3^
40.9
10
52.59 ,«
22.7
31
«3
35
9
32
15
78
3
19.7
49- 14 „
40.4
57-89 „
10.2
16.39
»» T
42.4
T t
53.37 ,,
22.4
29.7
49-44 ::„
39.4 '°
38.8 ^
38.5 \
58.22 33
9.9 ^
16.70 3'
43.7
13
54-12 75
22.8 4
Mar. 10.7
20.6
49.72 «
49-97 11
58.53 ^'
58.81 ^8
lO.I
10.9
^7.25 '
44.7
45.5
10
8
6
54.82 70
55-45 2
25.4 'f
30.6
50.19 "
38.6 '
59.05 ^*
I2.I "
^7-48 'i
46.1
55-99 ,7
=^7-5 "
20
4
31
10
20
3
44
25
Apr. 9.6
50.39 ,,
39.0 ,
39-6 \
40-4 ,„
59-26
^3-7 ,„
17-68
17.86 ;
46.4
5643 „
3°-0 ,a
19.6
50.56 \l
59-43 ,;
15.7 °
46.5
I
0^
56-75 3^
32-8 '^^
29.5
50.70 7
59.56 3
'7-9 ",
18.01 '5
46.5
0
56.95 '°
5703 °
35-9 ^,
May 9.5
50.81 "
41-4 °
59-66 -
59-72
20.2 ^
18.13 "
46.4
I
39-1 3^
195
50.89 \
42.5
22.6 ^4
18.22 9
46.2
2
56-99 *
42-2 ^'
5
II
2
23
7
3
10
30
29.4
50.94 _
43-6
59.74 _
24.9 ,,
18.29 ^
45.9
M
56.83
45-2 ,„
June 8.4
50.96 ^
44.7
59.73 ,
27.2 ^
18.33 4
45.5
4
am
56.56 '7
56.20 36
48.0 ll
18.4
50.96
45-8 "
59.68 I
59.60
^9-3 '
18.33 °
45.0
5
50.4 ^t
28.4
50.93 I
46.8 '^
31.1 t
18.30 3
44.5
5
55.75 t^
52.5 "
July 8.3
50.87 I
9
47-7 \
59.49 ' '
*4
32.6 '5
12
X8.25 \
44.0
5
4
55.22 5J
59
54.2 ;7
18.3
50.78
48-5 ,
59.35 .
59-9
59-01 "
33-8 -
34-6 I
18.17
43.6
54.63 ,,
53-99 5
53-31
52.62 ^
55.4 ,
28.3
50.67 "
49.2 ;
18.07 ;°
43.2
4
56.1 7
Aug. 7.3
50.55 \\
49-7 \
35.0 7
17.96
42.8
4
56-3 !
17.2
50.42 \l
50.0 3
58.82 '9
35.1
17.83 3
42.5
3
55-9 *
27.2
50.28 ^^
50.1
58.63 '9
34.8 I
17.60 *4
42.2
3
51.92 ^°
55-0 ,!
14
1
19
7
»4
3
68
14
Sept. 6.2
50.14 ,,
50.0
58.44 ,«
58.26 '*
58.10 \\
34.1 „
^7-55 ,^
41.9
0%
5 '-24 ,,
50.60 ^4
CO
53-6 „
16.1
50.01 ^
49.7 ^
^^ .«. *2
3^-3 ,„
17.42 3
41.7
2
5'-7 !
26.1
49.90 \
49-2 I
17.31 "
41.6
I
50.01 ^^
49-3 '*
46.5 l\
Oct. 6.1
49.81 9
48.5 ^
57.97 X
29-4 ^
17.23 \
41.6
0
49.49 f^
16.1
49.76 5
47-6 9
57.88 \
^'^i 1
17.18 5
41.8
2
49.05 ::
43-4 ^1
I
13
5
26
I
4
33
34
26.0
49.75 .
464 ,^
57.83 ,
21.7
17.17 .
42.2
6
8
48.72
40.0
Nov. 5.0
49.79 ^
45.0 ^
57.84 I
57-90 "
17.22 *
42.8
48.51 "
36.3 ^^
3=^-5 ',^
150
49.88 9
43-3 I
18.7 ^°
'7-32 \l
43.6
48.42 ^
25.0
50.01 ;3
4' -4!'
58.02 "
15.S f.
17.46 ^
44.6
10
48.47 ,^
28.6 39
Dec. 4.9
50.19 '\
39-4 '°
58.19 '7
12.2 ^^
17.65 \l
45.8
12
48.65 '^
24.7 f
23
21
22
32
24
14
31
37
14.9
5°-42 .
37-3 ,,
58.41 „
9.0 ,^
^789 ,,
47.2
16
_ ^
4^-96 ^
21.0
24.9
50.68 ^^
22
35-1 _
58.68 =^7
5-9 ^n
18.16 ^7
48.8
4940 ^
17.6 34
34.8
50.97 ^^
22
32.9
58.98 3°
2.93°
18.46 30
50.4
16
49.95 ^^
H.5 3'
Sec d, Tan 6
1.004 +0.092
1. 201 +0.665
1.013 -0.160
3.261 +3.104
Mean Place
48-.808 55".83
57'-309 33".26
i6«.i69 3i".67
5i".640 49"-56
D'^ a, Dm a
0.00 0.00
-0,01 +0.03
0.00 -O.O]
[
-0.06 .K).I3
D^<J,D«<J
-0.3
-0.7
-0.3
-0.7
-0.3
-0.7
-0.3
-0.8
[Eph 13]
410
APPARENT PLACES OF STAES, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.9
10.8
20.8
30.8
Feb. 9.8
19.7
29.7
Mar. 10.7
20.6
306
Apr. 9.6
19.6
295
May 9.5
19-5
295
June 8.4
18.4
28.4
July 8.3
18.3
i28.3
Aug. 7.3
17.2
27.2
Sept. 6.2
16.2
26.1
Oct. 6.1
16.1
26.0
Nov. 5.0
150
25.0
Dec. 4.9
14.9
24.9
34.9
Sec 6, Tan 6
Mean Place
pi Botftis pr.
Mag. 4.5
Right
Ascension.
h
15
m
21
8*75 ,,
9.08 3^
9.43 II
9.79 ^
10.16 ^^
36
0.52
0.86 3^
1. 18 32
29
1.47
1-73
1.96
2.15
2.29
2.39
2.45
2.47
2.46
2.41
2.32
2.20
26
23
19
14
10
6
2
I
5
9
12
15
2.05
1.88 ^7
1.69 '^
1.48
1.27
21
21
21
1.06
0.86
0.68
0.53
0.42
0.35
0.33
0.37
0.47
0.63
0.85
I. II
1. 41
20
18
15
II
7
2
4
10
16
22
26
30
Declina-
tion N.
+ 3740
52.6
49.8
47.3
45.3
43.9
43.0
42.7
43.0
43.9
45-2
46.9
49.0
51-4
53.9
56.4
58.9
61.3
63.5
65.5
67.2
68.5
69.4
69.9
70.0
69.7
28
25
20
9
3
3
9
13
17
21
24
25
25
25
24
22
20
17
13
9
5
I
3
7
12
i6
20
69.0
67.8
66.2
64.2
61.8 ^^
27
56.2 '^
53.1 ''
49.8 ^^
46.4 3^
430
39-7 ,^
36.7 ^°
34
33
1.264 -K>.772
9*.964 67".! I
T^ Sexpentis.
Mag. 5.5
Right
Ascension.
h
15
m
21
Declina-
tion N.
+ 1543
s
41.18
41.48 3°
41.80 3^
42.12 *^
42.45
33
32
42.77
43-07
43.35
43.61
43-85
44.06
44.24
44.39
44.50
44.58
44.63
44.65
44.64
44.60
44-53
44.44
44.33
44.20
44.05
43.90
43-75
43.60
43-47
43.37
43.30
43.27
43.28
43.34
43-46
43.63
43.84
44-09
44-38
30
28
26
24
21
18
15
II
8
2
I
4
7
9
I
3
5
5
5
5
3
o
7
3
I
6
12
17
21
25
29
63.2
60.7
58.5
56.6
55.0
53.8
53.1
52.8
52.9
53.4
54.3
55.5
56.9
58.4
60.0
61.7
63.3
64.8
66.2
67.5
68.6
69.4
69.9
70.2
70.2
25
22
19
16
12
7
3
I
5
9
4
5
6
7
6
5
4
3
I
8
5
3
o
3
I
6
8
II
69.9
69.3
68.5
67.4
66.0 '^
17
64.3
62.3
60.1
57.7
55.2
20
22
24
25
26
52.6
50.0
47.4
26
26
1.039 -K>.282
42*.423 72".69
p Ootantis.
Mag. 5.7
Right
Ascension.
h
15
m
22
226
8
35.97
38.23
40.67 ^^
2S4.
'^^•^' 2.8
45.79^
255
48.34
50.81 ^47
53.15'^^
55.32^^7
57.27
58.97
60.39
61.51
62.31
62.77
195
170
142
112
80
46
12
22
56
88
62.89
62.67
62.11
61.23
60.06 "7
141
58.65
57.03
55.25
53.37
5147
Declina-
tion S.
— 84 10
49.62
47.90
46.38
45.12
44.18
43.62
43.48
43.77
44-49
45.63
47-15
49.00
51.14
162
178
188
190
185
172
152
126
94
56
14
29
72
114
152
185
214
16.5
15.4
14.8
14.7
15.2
16.2
17.7
19.7
22.0
24.7
II
6
I
5
10
15
20
23
27
30
27.7
30.9
34.2
37.6 ^^
41. 1
32
33
35
33
44-4 „
47.6 ^'
50.6 30
53.3
55.6
27
23
19
57.5
58.9
59.8
60.1
59-9
14
9
3
2
8
59.1
Hi '
56.0
53.7
5^.1
48.2
45-2
42.2
39.3
36.6
34-2
32.2
30.7
23
26
29
30
30
29
27
24
20
15
9.857
49'.95
-9.806
.ff
27 .50
I Draconis.
Mag. 3.5
Right
Ascension.
h
15
m
22
56.90
57.32 ^^
57.79 1!
58.28 ^9
58.78 ^"^
59.29
59.78
60.24
60.65
61.01
61.31
61.54
61.70
61.80
61.82
61.78
61.68
61.52
61.30
61.04
60.73
60.39
60.03
59.65
59.27
58.89
58.53
58.20
57.92
57.69
57.52
57.43
57.42
57.49
57.65
57.89
58.21
58.59
51
49
46
4»
36
30
23
16
10
2
10
16
22
26
31
34
36
38
38
38
36
33
28
23
17
9
I
7
16
24
32
38
Declina-
tion N.
+ 5915
68.5
65.5
63.0
61.2
60.0
30
25
18
12
6
I
8
59.4
59.5
60.3
61.6 '^
63.5 '^
24
^5-9 ,,
68.6 ^7
71.5 '^
74.5
77.6
30
31
30
28
25
21
18
H
9
3
2
7
12
16
80.6
83.4
85.9
88.0
89.8
91.2
92.1
92.4
92.2
91.5
90.3
88.7
86.6 "
84.1 ^5
81.2 ^9
33
74.3 ^,
70.6 ^7
66.8 ^l
63.0 ^'
37
59.3 „
55.8 11
52.6 3'
1.957 +i.68a
58-.326 86".33
-0.02 -K).03
-0.3 -0.8
-0.01 -40.01
-0.3 -0.8
[Bpb n1
40.20
-0.3
-0.41
-0.8
-0.03
-0.3
+0.07
-0.8
APPARENT PLACES OF STAES, 1912.
411
FOR THE UPPER TRANSIT AT WASHINGTON.
C^ Libre.
/3 Coroiue BoreaUs.
v^ Bo(5tls.
;^ Liipl (mean).
Mag. 5.9
Mag. 3.7
Mag. 5.2
Mag. 3.0
Mean Solar
Date.
Right
Declina- |
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tionS
1.
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion S.
h m
0
f
h m
e »
h m
e I
h m
0 t
15 23
-16:
24
15 24
+ 2924
15 27
+41 7
15 29
-4052
Jan. 0.9
8
^5-93 _
38.3
lo'ss
^7.9 „
8
44.84 _
42-1 ,^
s
14.22
I4.I .
10.8
16.25 f
39.7
14
"•H^'
^5-2 !I
45.17 „
39'^ '^
14.61 39
HS ^
20.8
16.58 33
41.2
15
11.47 3f
12.8 '4
45.52 35
36-6 '0
15.02 y
15.2 7
30.8
16.92 ^^
42.7
15
II.81 34
10.8 ='°
45.89 11
34.6 °
^5-43 1:
16.1 9
Feb. 9.8
17.26 3^
44.2
15
12.15 34
^ « 16
9-2 ,^
46.27 ll
33.1 ^f
15.85 ^'
17.2
33
14
34
10
38
9
41
13
19.7
17-59
45.6
12-49 „
8.2
46.65
32.2
16.26
18.5
29.7
^7.91 It
46.9
13
12.82 33
7.7 ^
47.0I ll
31-9 ^
16.65 39
20.0 5
Mar. 10.7
18.21 30
48.0
II
13.13 3'
7-8 I
47-35 ,:
32.3 ^
17.02 37
21.6^^
20.6
18.49 '^
49.0
10
13.41 '*
»-4,^
47-66 3'
33.2 /^
17.36 34
23.3 ^\
30.6
18.74 '^
22
49.9
9
7
13.65 '^
21
9.4'''
14
47.93 ;^
34-6 1^
17.67 ^l
' ' 28
18
Apr. 9.6
18.96
50-6
gi
13.86 .
10.8 „
« 0
48.16
3*5-4 „
^7-95 ,,
2^-9 „
19.6
19.15 'I
51.2
0
14.04
12.0
48.36 ^°
386 L
18.20 ^5
28.6 ^7
295
^9-3i :'
51.6
4
IS
14-19 „
14.6 ^°
48.52 ^
4»° 6
43.6 It
18.42 "
3-«
33-4 ,5
May 9.5
19.45 1
51.8
2
14.30
16.8 "
48.63 "
18.60 '^
19-5
X9.56 '^
51-9
I
I
14.37 :
4
19.I ="3
22
48.70 '
2
46.3 '^
27
18.74 '^
10
295
19.64
52.0
14.41
21.3
48.72
490 ,,
51-6 ^'^
0 .4
18.84 ,
18.90 \
34-9 ,^
June 8.4
19.69 5
52.0
0
14.42
22
48.70 ^
48.64 J
36-3 *
18.4
19.71 ^
51.9
I
14.39 ^
13
54-0 ^'4
18.91 ^
37-5 "
28.4
19.70 \
51-8
I
14.32 7
48.55 '
56.1 "
18.88 3
38-5 '°
39-3 g
July 8.3
19.65 ^
51.6
2
2
14.23 9
12
48.42 ;3
57-8 '7
»3
18.81 7
10
18.3
19-57 ^^
51.4
^^•" T.
30.2
48.26
59-^ in
18.71
39-9 ,
28.3
^9-^7 '
51. 1
3
13.97 \l
3I.I ^
31.7 :
48-07 '^
60.1 '°
60.7 ^
18.57 t
40-3 \
Aug. 7.3
19.35 ",
50.8
3
47.86 "
18.40 7
40.4 .
17.2
19.22 •'
50.5
3
^3-^^ 0
31.9 .
47-63 ^
60.8 '
4
18.21 '9
40-3 .
27.2
19.08 '•♦
50.1
4
13.44 'I
31-7 ,
47-40 ^3
60-5 ^
18.02 '9
39-9 „
15
4
18
5
23
7
19
7
Sept. 6.2
^^•93 ,,
49.7
^3.26
31.2
47-17 „
59.8 ,,
17-49 '
39-2 „
16.2
18.79 1
49.3
4
13.09 J.
30.3 ,,
46.95 "
58-^ 6
57° '0
38.3 '
26.1
18.67
49.0
3
.^ _- 10
12.93 .,
29.0 ^
46.75 °
37-2 "
Oct. 6.1
18.58 9
48.8
2
12.80 *3
27.3 ';
46.58 ^
550 z
17-36 *3
17.28 \
36-0 ",
16. 1
18.53 ^
48.6
2
12.70 '°
20
253 ,,
46.45 'I
52-6 '^
34-7 \\
I
I
5
23
0
28
3
14
26.0
18.52
48.5
12.65
46.37 _
49.8 ^^
17-25 ,
33-3 ,-
Nov. 5.0
18.55 ^
48.6
I
12.65 °
46.34 ^
46.7 ^,
17.28 3
32.0 •»
150
18.64 ^
48.9
3
12.70 5
17.5 '9
46.36 '
43.4 tt
17-37 '
^7-53 '^
^^ ^ II
3^-9 ,^
25.0
18.78 '^
49.4
5
12.80 '^
H.4^
46.45 ,^
39.9 ,,
>«^ >«. 10
29-9 0
29.1
Dec. 4.9
18.97 '^
50.1
7
12.96 •*
"•3^
46.60 '5
36.4 11
^7-75 "
23
9
21
31
21
34
28
5
. 149
19.20
51-0
13.17
8.2
46.81 ^
33-0
18.03
28.6
24.9
19.47 11
52.2
12
13.42 5
5-= 20
47.07 l^^
29-7 ^^
18.36 33
28.4 \
34.9
19.78 3^
53-6
14
13.71 "'
2.3^9
47.38 3'
26.5 3^
18.74 ^
28.6 ^
Sec <J, Tan 6
1.042 -0.294
I. 148 40.562
1.328 40.873
1.323 -0.865
Mean Place
i7".46o 37".23
[
i2".054 3o".67
46«.io6 57".i7
i6".296 i8".57
DV Af I>w A
+0.01 -0.01
[
-0.01 +0.02
-0.02 +0.04
+0.02 -0.04
D^ rf, Dm i
-0.3
-0.8
-0.3
-0.8
-0.2
-0.8
-0.2
-0.8
[Eph la]
412
APPAEENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
y Librae.
ct CoronsB Borealis.
C Cor. Bor. seq.
a SerpestU.
Mean Solar
Mag. 4.0
Mag. 2.3
Mag. 5.1
Mag. 2.8
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion N.
Aaoenaian.
tion N.
h m
0 '
h m
e •
h m
0 r
h m
o
15 30
-1429
15 30
+ 27 0
15 36
+ 3654
15 39
+ 641
It
Jan. 0.9
8
34- 56 „
49.5 ,^
8
56.43 ,^
247
8
^•55 ,,
6* -4 ,„
8
54-56
59-* „
I0.8
34-87 l\
51.0 '5
56.73 ^,^
22.0 '
2.86 31
58.5 'I
54-85 !'
56.9 "
20.8
35.20 33
52.5 'I
57.05 l^
'9-6 I',
3.20 34
55-9 :f
55-16 3'
54-9 ^
30.8
35.54 z
54° !
57.39 ll
^7-5
15.9
3.55 It
53.8
55-48 3^
53-^ 6
51.5 't
Feb. 9.8
35-88 34
55.4 '1
57.73 1:
3.92 :;
52.3 'i
55-80 3^
33
14
34
II
36
10
31
13
19.7
36.21
56-« t.
58.07 „
14.8
4.28
51.3 ,
56-" „
5°-2 .„
29.7
36-52 I'
58.0
58.39 11
4.62 34
50.8 5
56.42 11
49.2 'I
Mar. 10.7
36.82 30
59-1 "
58.69 ^^
58.97 ll
14.2 °
4.95 z
50.9 a
56.71 11
48.7 I
20.7
37-10 8
60.0 ^
14.7 5
5.25 ^°
5^-7 *
56.98 ^^
48.5 *
30.6
37-35 :,
60.7 7
59.22 ;^^
'^s-^ '
5-52 'I
53.0 '3
57.22 "*
48.6 '
»3
6
22
13
24
16
22
5
Apr. 9.6
3758 ,„
61.3
59.44 ,„
16.9 „
5 76 ,„
54-6 ,„
57.44 ,„
49-1 ,
19.6
37.78 °
61.7 ^
59.63 ^
18.6 '7
p. ^i: 20
It '«
56-6 '°
57.63 '
49-8 1
295
37-95 •
61.9 ]
59.78 5
20.5 '9
59-° 't
57.80 7
50.8 °
May 9.5
38.09 t
62.0 *
59.90
59.98 ^
22.6 "
6.24 "
6.32 '
6' -5 li
64.1 '*
57.94 ,*
51.9
19-5
38.21 "
62.1 '
24.8 f
58.04 '°
53.1 "
8
I
5
32
4
25
8
«3
295
38.29 ^
62.0
60.03
^7-o „
6.36
66.6
58.12
54-4 ,,
June 8.4
38.34 I
61.9 I
60.05 ^
^9-^ 11
6.36 °
69.0 I*
58.17 5
55.7 ]l
18.4
38.36 '
61.7 I
60.03 ^
59.97 I
59.89 ,,
32.9 ^
6.32 ^
71.3 ^^
58.19 '
56.9
28.4
38.35 [
61.5 ^
6.25 J
73-4 "
58.17 '
58-^ 0
July 8.4
38.31 1,
61.3 ^^
34.4 ]'
^•'4 "
75-2 !
58.13 4
59. 1 'I
7
3
II
.»3
14
»4
7
9
18.3
38.24 „
61.0
59.78
35-7 „
6.00
76.6
58.06
60.0
A
28.3
38.15 ^l
60.7 ^
59.65 ^,
59.49 „
36-6 9
5»3 11
77.7 "
57.96 ;«
60.8 *
Aug. 7.3
38.03 ]\
60.3 ^
37-3 •
5-^4 ''
78.4 ^
57.84 "
61.4 *
17.2
37.90 3
60.0 **
59.32 ]i
37-6 3
5-44"^
78.7 I
57.70 *
61.8 ■♦
27.2
37.76 '4
59-7 :
4
37.5
5.22 "
22
78.5 ^
57.55 ,5
62.0 '
0
Sept. 6.2
37.61
59-3 ,
58.96
37.0 -
36-2 ,!
5.00
77-9 ,„
4/
57.40 ^^
62.0
16.2
37.47 *
590 3
58.79 \i
4-8° '«
76.9 !
57.26 ^
61.8 ^
26.1
37.35 ,„
58.8 ^
58.64 5
35.0
4-46 ^
75-4 i
57.13 ;
61.3 ^
Oct. 6.1
37.25 '°
37-19 ,
58.6 '
58.51 f
33-5 :„
73.6 •*
57.02 "
60.6 7
16.1
58.5
58.41 '°
3»-6 '!
4-33 'i
7«-4 "
56.95 !
m^ C 10
59.6
2
I
s
32
9
20
4
12
26.1
37.17 ,
58.6
58.36 ,
^9-4 „
4-=»4 ,
68.8
56.91 _
58.4 , .
Nov. 5.0
37.20 3
37.28 *
58.8 ^
58.35 '
26.9 It
4.21 3
66.0 **
56.92 '
57.0 4
150
59.2 ^
59.8 J
58.39 4
24.2 "7
4-24 8
4-32 °
62.9 3'
56.98 I
55-3 J
25.0
37.41 ,1
58.49 °
21.3 ''
59.6 11
57.08 °
53-4 ''
Dec. 4.9
37-59 '!
60.6 *
58-64 '^
18.3 ^«
4-46 4
56.2 34
5723 ^
51.4 '°
22
10
20
3«
>9
34
20
21
14.9
37-^^ „
61.6
58.84
15-2
4-^5 „
528 „
57-43 ,,
49-3 „
24.9
38.08 '7
62.8 "
5909 ,'
12.2 30
4-90'^
49.6 f
57.67 '^
47.1 ",
34.9
38.38 ^°
64.2 '^
59.37 '"
^ .. 28
9-4
5-X9 '^
46.5 ^'
57.94 ^^
44.9"
Sec <i, Tan 6
1.033 -0.259
1. 122 40.510
1. 251 40.752
1.007 40.117
Mean Place
36-.095 47".58
57'.695 36".95
3'.854 75".64
55'.937 66".75
D>a, Dm a
40.01 -O.OI
-0,01 4O.02
-0.02 40.03
0.00 0.00
D^d, D^d
-0.2
-0.8 1
-0.2
-0.8
-0.2
-0.8 1
-0.2
-0.8
[Eph iiO
APPARENT PLACES OF STARS, 1912.
413
FOR THE UPPER TRANSIT AT WASHINGTON.
^ Seiyentlii.
/i Seiyentls.
12 H. Draoonis.
Mean Solar
Mag. 3.7
Mag. 4.3
Mag. 3.6
Mag. 5.1
Dftte.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
UonN.
Ascension.
tion S.
Ascension.
tion N.
h 1
n
0
*
h m
0
*
h 1
in
e
t
h m
0 t
■
15 42
+ 1541
15 44
+ 18
24
15 45
- 3
9
15 45
+ 6251
If
Jan. 0.9
8
6.22
^ 0
37.8
45-32
4560 ^°
35.1
s
0.09
47.0
_ 0
s
^7-56 ^^
589 ,.
10.9
6.50
20
35-4
24
32.6
25
0.38
29
48.8
18
— 0
17.98 ^'
55-8 3'
20.8
6.81
31
33- 1
23
4591 ,,
30.3
23
0.69
31
50.6
18
_ ^
18.45 1^
53.2 ^*
30.8
7.13
32
31.1
20
_ ^
4623 3'
28.2
21
1. 01
32
52.2
10
18.97 ^^
51.1 "
Feb. 9.8
7.46
ZZ
295
16
46.56 ^l
26.6
16
1.34
33
53.7
15
19.52 \\
49.6 ^\
32
12
32
12
32
13
55
8
19.7
7.78
28.3
0
46.88
25.4
8
1.66
55.0
20.07
48.8
29.7
8.09
31
27-5
8
47- 1 9 ^'
24.6
1.97
31
56.1
II
0
20.61 ^**
48.7 !
Mar. 10.7
8.38
29
27.1
4
47-49 ,,
24.3
3
.2.26
29
56.9
8
21.135^
49.3 *
20.7
8.65
27
27.2
I
47.76 ^^
24.4
I
6
2.53
27
57.4
5
21.60 ^'
Jk 0
-^ ,- 12
52.3 ^
306
8.90
25
27.7
5
48.01 *5
25.0
2.78
25
57.6
2
22.02 ^j
23
8
23
10
23
I
36
23
Apr. 9.6
9-13
28.5
48.24 .„
26.0
3.01
57.5
22.38
54.6 .A
19.6
9.32
19
29.7
12
48.43 '
27.3
13
321
20
18
57.3
2
22.67 ^^
^i « 26
57.2 ^^
29.6
9.49
17
31. 1
H
48.60 ''
28.8
15
3.39
56.9
4
22.88 ^'
60.1 ^9
May 9.5
9.62
13
32.6
»5
48-74 !^
30.5
17
18
19
3.54
15
56.4
5
23.02 ^\
63.2 ^;
19.5
9-73
II
7
34-3
17
18
48.84 '^
32.3
3.66
12
9
55.7
7
8
23.08 \
66.3 3'
31
29.5
9.80
36.1
•
48.91
34.2
18
18
16
3.75
^
^
54.9
8
8
23.06
^9-4 ,„
June 8.4
9.84
4
37.8
17
16
48-95 t
36.0
380
5
54-1
22.96 '^
72.4 ^°
18.4
9.85
I
39.4
48.96 '
37.8
3.83
3
53.3
22.80 '^
75-' I
28.4
9.83
2
40.9
15
48.94 '
48.88 *
9
39.4
3.83
0
52.6
7
^^•57 ^^
77-5 !*
July 8.4
9.78
5
9
42.2
13
12
40.8
14
12
3.79
4
6
51.9
7
7
22.28 ^9
34
79-5 ,6
18.3
9.69
43-4
48.79 „
42.0
3.73
51.2
21.94.
81. 1
28.3
9.58
II
44-3
9
mm
48.68 "
43.0
10
0m
3.64
9
50.7
5
21.55 ^^
82.2 "
mm
Aug. 7.3
945
13
45.0
7
48.54 \\
43.7
7
3.53
I I
* 4
50.2
5
A
^'•'^L
82.9 \
17.3
9.31
*4
16
45.4
4
48.39 ^
48.23 t
44.2
5
3.40
*3
49.8
4
20.69 ^
83.0 »
27.2
915
45-5
I
44.3
I
3.25
15
49.6
2
20.24 ^^
82.6 4
16
I
17
2
15
2
45
9
Sept. 6.2
8.99
45.4
48.06 ,
47.90 ;«
44.1
M
3.10
M M
49.4
0^
19.79 ^
^^•7 ,^
16.2
8.84
15
45.0
4
0
43.6
5
8
2.96
14
49.4
0
19.35 ^
80.3 '4
26.1
8.69
15
44.2
8
47.75 ,;
42.8
2.83
13
49.5
I
18.94 1'
784 ''
Oct. 6.1
8.57
12
43.1
XI
47.62 '3
41.7
II
2.73
10
49.8
3
18.57 f
76-0 w
16.1
8.48
9
41.8
13
47-53 \
40.2
15
_ 0
2.66
7
50.3
5
18.26 ^'
m^ /» 28
73.2
5
17
0
18
4
6
24
31
26.1
8.43
40.1
47.48
38.4
2.62
50.9
18.02
70.1 ,^
Nov. 5.0
8.43
0
38.2
19
47.47 .
36.4
20
2.62
0
51.8
9
17.86 'J
66.6 35
150
8.47
4
36.1
21
47.50 ^
34.1
23
2.68
0
52.9
II
17.78 8
62.9 ^l
25.0
8.56
9
33.8
23
47.59 ^l
31.6
25
2.79
II
54.1
12
17-79 '
59-^ S
Dec. 5.0
8.71
15
19
31.3
25
26
47.73 ,J
29.0
26
27
2.94
»5
20
55.6
15
16
I T
»7-90 \\
55-3 %
14.9
8.90
28.7
_ ^
47.92
26.3
3.14
57.2
I8.II
5^-5 _
24.9
9-13
23
26.1
26
48.15 '^
23.6
27
3.39
25
58.9
17
18.40 ^?
47.8 f^
34-9
9.40
27
23.6
25
48.42 ' 21.0
20
3.66
27
60.8
19
18.78 ^*
44.5^^
Sec <J, Tan 6
1.039 +0.28
\\
1.053 +0.333
1.002 -0.055
2.193 +I.95I
Mean Place
7'-57i 47".63
46V666 45".57
IV564 4x".6]
[
I9'.333 76".56
jy^ a, D« a
-O.OI -K).0]
[
-0,01 +0.03
[
0.00 0.0c
\
-0.04 +0.07
D^rf, D«tJ
-0.2
-0.8
-0.2
-0.8
-0.2
-0.8
-0.2
-0.8
[Eph xa]
414 APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.9
10.9
20.8
30.8
Feb. 9.8
19.7
29.7
Mar. 10.7
20.7
30.6
Apr. 9.6
19.6
29.6
May 9.5
195
29.5
June 8.4
18.4
28.4
July 8.4
18.3
28.3
Aug. 7.3
17.3
27.2
Sept. 6.2
16.2
26.1
Oct. 6.1
16.1
26.1
Nov. 5.0
15.0
25.0
Dec. 5.0
14.9
24.9
34-9
€ Seipeiitis.
Mag, 3.8
Right
AscensioxL
Sec 6, Tan 6
Mean Place
D'^ a, Du a
h m
24*27 ^3
24.55 "
24.86 3*
25.17 ^^
25.49 11
32
25.81
26.12 3^
26.41 ^9
26.68 ^7
26.93 II
22
27.15
27.35
27.52
27.67
27.78
27.87
27.92
27.95
27.94
27.90
27.83
27.74
27.62
27.49
27.34
27.19
27.05
26.92
26.81
26.73
26.69
26.69
26.74
26.84
26.99
27.18
^7-41 ,,
27.68 ^7
20
17
15
II
9
5
3
I
4
7
9
12
13
15
15
14
13
II
8
4
o
5
10
15
19
23
Decllna-
lion N.
+ 444
24.3
22.2
20.2
18.4
16.8
15.5
14.6
14.0
13.7
13.8
14.2
14.8
15.7
16.7
17.8
19.0
20.2
21.4
22.5
23.5
24.4
25.1
25.7
26.1
26.4
26.4
26.3
25.9
25.3
24.5
21
20
18
16
9
6
3
I
4
6
9
10
II
12
12
12
II
10
9
7
6
4
3
o
I
4
6
8
II
C TSnm Kinofis.
Mag. 4.3
13
16
23.4
22.1
20.5
18.8 '7
16.9 '^
21
14.8
12.7
10.6 "
21
1.003 40.083
25",683 3i".63
0.00
-0.2
0.00
-0.8
Right
Ascenaion.
h
15
m
47
7.48
8.24
9.14
0.14
1. 21
2.31
3.41
4,46
5.42
6.26
6.96
7.50
7.86
8.04
8.04
7.86
7.50
6.99
6.33
5.54
76
90
100
107
no
no
105
96
84
70
54
36
18
o
18
36
51
66
79
90
98
4.64
3.66
2.61 ^^5
1.52^°^
0.41
9.32
8.26
7.27
6.37
5.57
4.91
4.42
4.10
3.98
4.06
III
109
106
99
90
80
66
49
32
12
8
28
5.45 ^
Declina-
tion N.
+ 78 3
37.8
34.9
32.4
30.5
29.2
29
25
19
13
6
28.6
28.7 I
29.5
30.8 '3
32.7 '^
24
37.8 ^7
40.8 3°
43.9 ''
47.1
/3 Triang. Aust.
Mag. 3.0
Right
Aacendon.
32
31
50.2
53.1
55.7
58.0
59.9
61.4
62.4
62.8
62.8
62.2
61.2
59.6
57.5
55.0
52.1
48.9
45.4
41.7
37.9
34.1
30.4
26.9
23.7
29
26
23
19
15
10
4
o
6
10
16
21
25
29
32
35
37
38
38
37
35
32
4.835 +4-730
io".7i4 56".3i
-0.10
-0.2
40.17
-0.8
[Bpb »]
h
15
m
47
s
19.18
19.74
20.35
20.99
21.64
56
61
64
65
65
63
60
56
22.29
22.92
23.52
24.08
24.60 ^l
48
25.08
25.50 ^^
25.86
26.15
26.37
36
29
22
16
26.53
26.61
26.61
26.54
26.40
8
o
7
14
21
27
26.19
25.92
25.61 ^'
25.26 ^^
24.89 37
24.52
24.16
23.83
23.55
23.35
23.23
23.21
23.29
23.48
23.76
37
36
33
28
20
12
2
8
19
28
38
24.14
24.61 ^7
25.14 ^3
Declina-
tion S.
-63 9
293
28.5
28.2
28.3
28.8
29.7
31.0
32.6
34.5
36.6
38.9
41.4
43.9
46.6
49.2
8
3
I
5
9
13
16
19
21
23
25
25
27
26
26
A. Librae.
Mag. 5.1
Right
Ascenaion.
25
23
21
51.8
54.3
56.6
60.6 '9
15
62.1
63.2
64.0
64.3
64.2
63.7
62.7
61.3
59.6
57.6
II
8
3
I
5
10
14
J7
20
22
55-4 ,,
53.1 II
50.8 ^3
48.6 "
46.5
21
18
44.7
43.3
42.3
10
2.215 -1.976
22".722 36". 14
40.04
-0.2
-0.07
-0.8
h m
15 48
8
1.69
2.00
2.33
2.67
3.02
3.36
3.69
4.00
4.29
4.56
4.81
5.04
5.23
5.40
5.54
5.64
5.71
5.75
5.75
5.72
5.66
5.57
5.46
5.32
5.17
31
33
34
35
34
33
31
29
27
25
23
19
17
14
10
7
4
o
3
6
9
II
14
15
16
5.01
4.86 '5
4.73 ''
4.62
4.54
II
8
3
4-51
4.53
4.60
4.71
4.87
5.08
5.34
5.64
2
7
II
16
21
26
30
Declina-
tion S.
-1954
18.8
19.9
21. 1
22.4
23.7
24.9
26.1
27,2
28.2
29.0
29.7
30.3
30.8
31.2
31.5
31.7
31-9
32.0
32.0
32.0
31.9
31.8
31.6
31.4
31. 1
30.7
30.3
29.9
29.5
29.2
29.0
28.9
29.0
29.2
29.6
30.2
31.0
32.0
II
12
13
13
12
12
II
10
8
7
6
5
4
3
2
2
I
o
o
I
I
2
2
3
4
4
4
4
3
2
I
I
2
4
6
8
10
1.063 -0.362
I3'.364 I7".33
40.0I
-0.2
-0.0 1
-0.8
APPARENT PLACES OF STAES, 1912
415
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Y Seiyentis.
Mag. 3.9
It SooipU.
Mag. 3.0
€ Coroiue BoreaUs.
Mag. 4.2
(f SootpU.
Mag. 2.5
Date.
Right
Ascension.
Declina-
Uon N.
•
Right
Ascension.
Declina-
tions.
Right
Ascension.
Declina-
tion N.
Right
Ascension.
Declina-
tion S.
h xn
0 *
h xn
0
*
h m
0 *
h m
0 1
15 52
+ 1556
m
15 53
-2551
15 53
+ 27 7
15 55
— 22 22
Jan. 0.9
10.9
20.8
30.8
Feb. 9.8
22.15 ^^
22.45 ^°
22.77 ^^
23.09 J^
43-7 ,6
41. 1
38.8 *3
36.8 =">
35.x -
s
2972
30.04 ^*
30.38 34
30.74 :^
35
41.8
42.6
43.5
44.6
45.7
8
9
II
11
12
55-49 1°
55-80 3'
56.13 "
56.47 ^*
33
43.3 ,8
40.5 „
38.0 »5
35.9 "
34.2 11
5.88
6.193'
6.52 33
6.86 34
7.21 35
35
20.4
21.4 '°
22.4 '°
23.6 "
24.8 "
12
19.7
29.7
Mam 0.7
20.7
23.72 ^"^
24.02 '^^
28
24.30 ;°
33.8 g
33-0 °
32.6 4
32.6 °
31-45 „
31.80^5
32.13 33
32-44 ^„
46.9
48.1
49-3
50.4
12
12
II
56.80
57.12 3*
57-43 11
57-72 9
33-0
32-3 7
32.1 ^
32-4 f
7.56
7-90^1
8.22 3="
36
26.0
27.1 "
28.2 "
29.2 '»
30.6
24-55 ^
23
33-0 J
32-73 ,^
51.4
10
9
57-99 J
33.3 ,5
30-1 I
Apr. 9.6
19.6
29.6
May 9.5
*4-78 ,„
24.98 '°
25.16 '^
25.31 If
33.8 ,,
34-9 '
36.3 *
37.9 !
32-99
33-23 ,7
33-44 '
33-62 8
52.3
53.2
54.0
54.7
9
8
7
6
6
58.23 „
58-44 "
58.61 '7
58.75 ;^
34-6
36.2 •*
38.1 '9
40.2 "
9.06
9.29 '3
21
9.68 '*
30.9 ,
31.6 7
32.1 5
32.6 I
19.5
25.42 '\
39-^ Is
33-77 ;f
55-3
58.86 "
7
4^-5 '^
23
9.82 '4
12
33-x ^
295
June 8.4
18.4
28.4
July 8.4
25.50 ,
2555 \
25.55 .
25.50 \
41.4
43.1 !;
44-8 '7
46.3 '5
47.6 '3
12
33.88
33-96 °
34.01 5
34-02
33-99 ^
55.9
56.4
56.8
57.1
57.4
5
4
3
3
2
58-93 ,
58.97 ;^
58.97 I
58.93 *
58.86 7
10
44-8,,
47-0 "
21
51-0 '
52.7 '7
15
9.94 g
10.02
io.o6 4
10.07 '
10.05 ^
33-4 ,
33-7 I
33-9 '
34-1 *
34-2 ^
18.3
28.3
Aug. 7.3
17-3
27.2
""^•^ ,0
25.32
25.19 '->
25.05 1^
24.89 '^
17
48.8
49.8 "
50-5 ;
50.9 ,
51.0 1
33-92
33.83 ,9
33.71
33-57 1^
33-41 '^
17
57.6
57.6
57.6
57.4
57.1
0
0
2
3
4
58.76 ,,
58.63 3
58.48 '5
58-31 '7
58-13 '*
19
54-2
1 1
55-3 "
56.1 I
56.6 5
56.7 ;
9.99
9.90 '
9.78 "
9.64 [I
34-2
34-2 °
34-1
33-9 ,
33-6 3
Sept. 6.2
16.2
2472 ,,
24-56 ^
50.9 ,
50.5 :
49.7 „
48.6 "
33-24 -
33-08 '^
56.7
56.3
4
57.94 -8
57.76 f
56.4 -
55-8 .0
9.33 „
9.18 '5
33.3 .
32.9 ^
26.1
Oct. 6.1
24.42 ,J
24.29 3
32.94 ':
32.82 -
55.8
55-2
5
6
6
6
57.59 7
57-44 \l
54» :
53-4 \;
9.04 *
8.92 "
32.4 f
32.0 ^
16.1
24.19 ^l
47-3 W
32.73 :
4
54.6
57-32 'J
51-7 '7
21
8.83 9
4
31.6 4
4
26.1
Nov. 5.0
15-0
24.13 ,
24.12
24.15 g
24.23
24.37 ;j
45.7 ,„
43.8 *'
41.6 «
32.69
32.70 '
32.76 ^f
540
53.6
53.3
4
3
57-24 ,
57.21 3
57-23 ,
49.6
*7-^ 26
44-6 'g
41.8 '^
38.8 30
31
8.79 ,
8.80 '
8.86 ^
31.2
30.9 ,
30.8
25.0
Dec. 5.0
39-3 ,^
36.8 *5
27
32.87 "
17
33-04 IJ
53.2
53.2
I
0
2
57-30 '
12
57-4^ ,8
0 ?^ '^
22
30.9 -
31.1 ,
14.9
24.56
3^-5 '!
28.9 ^6
33-27 „
53.4
57.60
35-7 „
9.61 ^^
9.90 ^9
31.5 ,
24.9
34.9
24.78 "
25.04 ^"^
33-54 J
33-84 3"
53.8
54-5
4
7
57.82 "
58.08 '^
32-7 f°
29.8 »9
32.2 '
33.1 9
Sec <5, Tan 6
1.04.0 -K>.286
I.I I I -0.485
1. 124 40.512
1. 081 -0.412
Mean Place
23'-258 53"-62
3I-.524 4i".3;
r
56*597 55".59
7'.620 19". 12
D>a, D»a
-o.oi 40.01
-K).OI -0.02
y
9
-0.01 4O.02
40.0I -O.OI
Difr S, Dm i
-0.2
-0.8
-o.a
-0.9
-0.2
-0.9 1
-o.a
-0.9
[Eph xa]
416
APPARENT PLACES OF STAES, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
0 Diaoonis.
/3 ScorpU.
K HercvllB.
<ft HercQlis.
Mean Solar
Mag. 4.1
Mag. 2.9
Mag. 5.3
Mag. 4.3
Date.
RiRbt
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion N.
h m
e »
h m
•
»
h
m
e »
h m
0 *
16 0
+ 5847
16 0
-1933
16
4
+ 17 16
16 5
+45 9
Jan. 0.9
12^58 ,.
43.2
s
'7-31 ,^
57.1
8
4.67
39-7 ,.
58.25 ,„
39.6
10.9
12.94 ^°
40.0 3^
17.61 30
58.2
II
4.94
27
37.2 '5
58.55 ^°
36.5 ^\
20.8
13.35 ;,
37-3 ,;
17.93 l^
59.3
XI
5.24
30
34.9 \\
58.89 34
33-7 !*
30.8
13.80 ^l
35-1 "
18.27 34
60.5
12
5.55
31
32.8 "
59.26 37
31-4 ^i
Feb. 9.8
14.28 ^^
33-4 11
18.61 34
61.7
12
5.87
32
31.1 '7
59.64 ^
29.6 '«
50
10
34
12
32
13
39
12
19.8
14.78
32.4 .
'^•95 ,,
62.9
6.19
298 „
60.03 »
28.4 ^
29.7
15.27 2^
32.1 3
19.28 ^3
64.0
II
6.51
32
8
29.0 °
60.41 3«
27.8 ^
Mar. 10.7
15.74 y.
324 ,^
19.60 32
65.0
xo
6.81
30
28.6 *
60.78 37
27.9 '
20.7
16.18 ^^
334 °
19.90 3°
659
9
7.09
28
28.7 '
61.13 35
28.6 7
30.6
16.58 ^°
34
35.0 '^
ai
20.18 'f
26
66.7
8
6
7.35
26
24
29.2 ^
9
^^•45 V.
29.9 '^
17
Apr. 9.6
^^•92
37-1 ,c
20.44
67.3
7.59
3°-^ „
^^■73 „
31-6 .,
19.6
17.21 11
20.67 ^
67.8
5
7.80
21
31.3 "
^'•98 '^
33.8 "
29.6
^743 "
20.88 "
68.2
4
7.99
19
32.8 5
62.18 '°
36-3 !^
May 9.5
17.59 'I
45.4 ^°
21.05 '7
68.5
3
8.14
15
34-5 \l
62.33 1^
39-^ J
195
17.68 I
48.6 3^
21.20 ^
68.7
2
8.26
12
36.3 '"
62.44 '
41.9
2
31
12
2
9
»9
6
29
29.5
17.70
5^-7 ,„
21.32
21.40 °
68.9
8.35
6
38-^ ,8
40.0;
62.50
44.8, »
June 8.5
17.66 ^
57.5 ll
60.1 '^
69.0
I
8.41
62.52 ^
47-6 !
18.4
^7.55 '
21.45 :
69.1
I
8.44
3
62.49 I
^^41 ,^
50.3 \l
28.4
17.38 \i
21.47 ^
69.1
0
8.43
I
43.5 \\
52.7 't
July 8.4
1715 '3
27
^-3 ;^
21.45 ^
69.1
0
I
8.38
5
7
45.0 '5
13
62.29 "
16
.-- ^ 22
54-9 ,8
18.3
16.88
64.1
21.40
69.0
8.31
46.3 ..
^2- '3 _
56.7 ,
28.3
16.56 f
65.4 '^
21.31 9
68.9
I
8.21
10
T I
47-4 "
61.93 !
58.1 '4
Aug. 7.3
16.21 35
66.3 ^
21.20
68.8
X
8.08
13
48.2 \
^'•71 "
59.1 '!
17.3
15.83 f
66.7 ^
21.06 ^^
68.6
2
7-93
15
_ ^
48.7 \
61.46 ^5
596 5
27.2
15.44 ^„
66.6 '
20.91 ^5
68.3
3
7-77
16
49.0 :
61.20^^
59-7 *
40
6
15
3
17
I
27
4
Sept. 6.2
^5-04 ,„
66.0
20.76
20.60 '^
68.0
7.60
48.9 ,
60.93 ,,
59-3
16.2
14.65 39
63.2 J
67.6
4
7.43
17
_ ^
48.5 4
60.66 ^7
58.4 '
26.2
14.28 37
20.46 '^
67.3
3
7.27
16
47-9 ,J
60.41 ^5
57.1 '^
Oct. 6.1
^3-95 f^
61.I "
58.5 f
20.34 "
20.26 *
67.0
3
7.14
13
46.9 °
60.19
55.4 '^
16.1
13.66 »9
66.7
3
7.03
II
45.6 '3
60.00 '9
53.2 "
23
29
5
2
7
16
15
26
26.1
13.27 '*
55.6
20.21
66.5
6.96
44.0
59.85 ^
50.6
Nov. 5.0
52.3 ^^
20.21 °
66.4
I
6.93
3
42-1 !'
59.76 9
47.6 30
150
13.18 9
48.8 35
20.26 5
66.4
0
6.95
2
40.0 "
59.72 \
44.4 ^,:
25.0
13.18 °
20.37 "
20
66.6
2
7.02
7
37.6 \\
59.75 ^
41.0 34
Dec. 5.0
13.26 *
«7
67.0
4
6
7.14
12
17
35-' a6
59.84 ^\
^'■* L'
14.9
'3-43 „
37-5 .
33.9 ll
20.73 „
67.6
8
7.31
3*-5 „
60.00
33.9
24.9
13.68 '5
20.98 ^5
68.4
7.52
21
26
^9-8 I
60.22 "
30.4 33
34.9
14.00 ^
30.5 ^"^
21.27 ^^
69.4
10
7.78
27.2
60.49 ^7
27.1 33
Sec <f , Tan 6
1.930 +1.651
1. 061 -0.355
1.048 40.3x1
1.418 +1.006
Mean Place
14».370 60". 10
I9"023 54".92
I
6'.ii2 50" .07
59'.«i5 54".74
ly^a, D«a
-0.04 +0.06
+0.OX -0.01
-O.OI +O.OX
-0.02 +0.03
1^6, D^6
-0.2
-0.9 1
-0.2
-0.9
-0.2
-0.9 1
-0.2
-K>.9
[Eph la]
APPARENT PLACES OF STARS, 1912
417
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.9
10.9
20.8
30.8
Feb. 9.8
19.8
29.7
Mar. 10.7
20.7
30.6
Apr. 9.6
19.6
29.6
May 9.5
19.5
295
June 8.5
18.4
28.4
July 8.4
18.3
28.3
Aug. 7.3
17.3
27.2
Sept. 6.2
16.2
26.2
Oct. 6.1
16.1
26.1
Nov. 5.0
150
25.0
Dec. 5.0
14.9
24.9
34.9
Groombridce 8890.
Mag. 5.4
Right
Ascension.
Sec<J,Tan<J
Mean Place
T>4f ^, D« 6
h
16
s
2.40
2.84
3.36
3-94
4.56
5.20
5.84
6.46
7.04
7.57
8.03
8.41
8.69
8.88
8.97
8.97
8.87
8.68
8.40
8.05
7.63
7.15
6.62
6.06
5.48
4.89
4-32
377
3.27
2.83
2.46
2.18
2.00
1.94
1.99
2.15
2.42
2.80
m
6
44
52
58
62
64
64
62
58
53
46
38
28
19
9
o
10
19
28
35
42
48
53
56
58
59
57
55
50
44
37
28
18
6
5
16
27
38
Declina-
tion N.
+ 68 2
13.1
9.9
7.1
4-9
3.3
2.4
2.1
2.5
3-5
5.1
32
28
22
16
9
3
4
10
16
22
26
7.3
12.8 ^9
31
15.9
19.1
22.3
25.3
28.2
30.8
33.0
34.8
36.2
37-1
374
37.3
36.6
35.4
33.7
31.6
29.0
26.0
22.7
19.1
153
32
32
30
29
26
22
18
14
9
3
I
7
12
17
21
26
30
33
36
38
38
38
S^ Apodls.
Mag. 4.8
Right
Ascension.
7-7
4.0
0.6 34
37
2.674 +2.480
4*.709 3o".53
1912-
-0.06
-0.2
27
+0.08
-0.9
h
16
s
1.59
2.69
3-91
5.21
6.56
m
7
no
122
130
135
137
136
7.93
0.61 '^l
1.87"^
3.05
118
107
Declina-
tion S.
-7828
4.12
5.07
5.88
6.54
7.04
7-37
7-53
7.51
7-31
6.94
6.42
5.76
4.98
4.12
3.20
2.26
1-35
0.50
9.76
9.16
8.73
8.50
8.49
8.70
9.14
95
81
66
50
33
16
2
20
37
52
66
78
86
92
94
91
85
74
60
43
23
I
21
44
65
9-79
10.63
11.64'°'
84
26.4
24.8
23.7
23.1
23.0
23.4
24.2
25-5
27.2
29.3
31.6
34-2
37.1-
40.1
43.2
46.3
49.4
52.3
55.1
57.6
16
II
6
I
4
8
X3
17
21
23
26
29
30
31
31
31
29
28
25
21
18
59.7
61.5
62.8 '3
63.6
63.9
63.6
62.8
61.5
59.7
57.5
d Ophiuclil.
Mag. 3.0
Right
Ascension.
8
13
18
22
25
55.0
52.3
494
43.8 II
27
29
29
41.2
39.0
37.1
26
22
19
5.007 -4.906
9' 463 32".9i
+0.1 1 -0.16
-0.2 -0.9
[Eph 12]
h
16
8
42.39
42.66
42.96
43.27
43.59
43.91
44.22
44.52
44.80
45.07
45.32
45.54
45.74
45.91
46.05
46.16
46.24
46.29
46.31
46.29
46.24
46.16
46.05
45.92
45.78
45.63
45.48
45.34
45.22
45.13
45.07
45.06
45.09
45.17
45.31
45.49
45.71
45.97
m
9
27
30
31
32
32
31
30
28
27
25
22
20
17
14
II
8
5
2
2
5
8
II
13
14
15
15
14
12
9
6
I
3
8
14
18
22
26
1.002
43"-949
Declina-
tion S.
-328
(T Cor. Bor. seq,
Mag. 5.8
Right
Ascension.
12.3
14.0
15.7
17.3
18.7
19.9
20.9
21.7
22.1
22.3
22.3
22.0
21.5
20.9
20.1
9.3
8.5
7-7
6.9
6.2
5.5
4.9
4.4
4.0
3.7
3.5
3.5
3.6
3.9
4.3
4.9
5.7
6.7
7.9
9.3
20.8
22.4
24.1
17
17
16
14
12
10
8
4
2
o
3
5
6
8
8
8
8
8
7*
7
6
5
4
3
2
o
I
3
4
6
8
10
12
14
15
16
17
-0.061
6". 16
h
16
m
II
0.00
-0.2
0.00
-0.9
s
21.46
21.73
22.04
22.37
22.71
23.06
23.40
23-73
24.04
24.33
27
31
33
34
35
34
33
31
29
26
24.82 II
25.02 ^'^
25.18
25.30
20
16
12
8
25.38
25.42
2542
25.38
25.31
4
o
4
7
II
25.20
25.06 ^^
24.89
24.69
24.48
17
20
21
21
24.27
24.06
23.85
23.67
23.52
23.41
23.34
23.33
23.37
23.47
23.62
23.82
24.07
21
21
18
15
II
7
I
4
10
15
20
25
Declina-
tion N.
+ 34 4
391
36.1
33-4
31.1
29.3
28.0
273
27.2
27.6
28.6
30
27
23
18
13
7
I
4
10
14
18
21
24
30.0
31.8
33-9
^'■* .6
44.0
46.4 '*
48.7 '3
50.7 '°
17
52.4
53-8 11
54.8 '°
554
55.6
6
2
2
55.4
54.8
53.8
52.3
50.4
6
10
15
19
22
25
28
48.2
45.7
42.9
39.8 3^
36.6 32
33
33.3
30.0 33
26.9 31
1.207 +0.677
22'.959 52".46
-0.02
-0.2
+0.02
-0.9
418 APPARENT PLACES OF STAES, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.9
10.9
20.8
30.8
Feb. 9.8
19.8
29.7
Mar. 10.7
20.7
30.7
Apr. 9.6
19.6
29.6
May 9.5
195
29.5
June 8.5
18.4
28.4
July 8.4
18.4
28.3
Aug. 7.3
173
27.2
Sept. 6.2
16.2
26.2
Oct. 6.1
16.1
26.1
Nov. 5.1
15.0
25.0
Dec. 5.0
14.9
24.9
34-9
Sec «J, Tan 6
Mean Place
y^ Nomue.
Mag. 4.1
Right
Ascension.
h
16
m
13
8
2.20
2.60 ^°
3.04
3.50
3.97
44
46
47
48
47
45
4-45
4.92
5-37
5.80 ^3
6.21 ^\
6.59
6.93
7.24
750
7.72
34
31
26
22
17
7.89
8.01
8.08
8.09
8.05*
12
7
I
4
10
7.95
7.81
7.63
7.18 ^3
14
18
22
6.93
6.68
6.45
6.25
6.09
5.99
596
6.cx>
6.12
6.31
6.57
6.89
17.27
25
25
23
20
16
10
3
4
12
19
26
32
38
Declina-
tion S.
-4956
23.3
22.8
22.6
22.7
23.1
23.8
24.8
25.9
27.3
28.8
5
2
I
4
7
10
II
14
15
17
30.5
32.2
340
37.8 \l
17
18
19
39-7
41.5
43.2
44.8
46.2
47.4
48.4
49.1
49-5
49.5
49.2
48.5
47.6
46.4
450
43.4
41.7
40.0
38.4
36.9
35-6
34.6
33.9
19
18
17
16
14
12
10
7
4
o
3
7
9
12
14
16
17
17
16
15
13
10
7
1.554 -1. 1 89
I4".835 26".oi
+0.03
-0.2
-0.04
-0.9
19 Une XinoriB.
Mag. 5.5
Right
Ascension.
h
16
m
13
8
1573
16.32
17.03
17.85
18.75
19.70
20.66
21.59
22.46
23.25
23.94
24.50
24.92
25.18
25.29
25.24
25.04
24.69
24.21
23.61
22.90
22.09
21.22
20.29
19.34
8.37
7.42
6.52.
5.67
4.91
4.27
3.76
3.39
3.18
3.15
59
71
82
90
95
96
93
87
79
69
56
42
26
II
5
20
35
48
60
71
81
87
93
95
97
95
90
85
76
64
51
37
21
3
15
3-^" 48
4.10 4»
Declina-
tion N.
+ 76 5
40.6
37.4
34-7
32.5
30.9
29.9
29.6
30.0
31.0
32.6
34.8
37.4
40.3
43.4
46.6
32
27
22
16
10
3
4
10
16
22
26
29
31
32
31
49.7 _^
52.8 3'
55.7 '^
58.3
60.5
26
22
18
62.3
63.7
64.6
65.0
64.9
64.2
63.0
61.4
59.3
56.7
53.8
50.5
46.9
43.2
39.4
14
9
4
I
7
12
16
21
26
29
33
36
37
38
37
35.7
32.0
28.6 34
37
4.162 •I-4.040
I9».i62 58" .06
-o.io +0.12
-0.2 -0.9
[Bph xa]
€ Ophiudii.
Mag. 3.3
Right
Ascension.
h m
16 13
8
38.22
38.50 '^
38.79 \\
39.42 3^
32
39.74 ^,
40.06 '^
40.36
40.65
40.92
30
29
27
25
41.17
41.40
41.60
41.77
41.92
42.04
42.13
42.18
42.20
42.18
23
20
17
15
12
9
5
2
2
4
8
II
42.14
42.06
41.95
41.82 '3
41.68 '^
41.53
41.38
41.24
41.12
41.02
15
15
14
12
10
6
40.96
40.94 \
40.97 I
41.05
41.18 '3
^ 18
41-36
41.58 "
41.84
26
Declina-
tion S.
-428
49.2
50.9
52.5
54.1
55.5
56.7
57.7
58.4
58.9
59.1
59*1
58.8
58.3
57.7
57.0
56.3
55.5
54-7
54.0
53.3
52.6
52.0
51.6
51.2
50.9
50.7
50.6
50.7
50.9
51.3
51.8
52.6
53.5
54.6
55.9
57.3
58.9
60.5
17
16
16
14
12
10
7
5
2
o
3
5
6
7
7
8
8
7
7
7
6
4
4
3
2
I
I
2
4
5
8
9
II
13
14
16
16
1.003 -0079
39V8II 43". 22
0.00
-0.2
0.00
-0.9
<f ScoipU.
Mag. 3.1
Right
Ascension.
h
16
15
8
4^-35 ,^
48.65 3°
48.98 33
49.33 l\
49.68 35
35
50.03
50.38
50.72
51.04
51.34
51.62
51.87
52.10
52.31
52.48
52.62
52.72
52.79
52.82
52.81
52.76
52.68
52.57
52.43
52.27
52.11
51.94
51.78
51.65
51.55
51.49
51.47
51.51
51.60
51.75
51.95
52.20
52.48
35
34
32
30
28
25
23
21
17
14
10
7
3
I
5
8
4
6
6
7
6
3
o
6
4
9
15
20
25
28
Declina-
tion S.
-25 22
58.5
59.2
60.0
60.9
61.8
62.8
63.8
64.8
65.7
66.6
67.3
68.0
68.7
69.3
69.8
70.2
70.6
71.0
71.4
71.6
71.8
71.9
72.0
71.9
71.7
71.4
71. 1
70.7
70.2
69.6
69.2
68.8
68.5
68.3
68.2
7
8
9
9
10
10
10
9
9
7
7
7
6
5
4
4
4
4
2
I
I
I
2
3
3
4
5
6
4
4
3
2
I
2
68.4
68.8 4
69.3 ^
1. 107 -^-474
50V2I3 56".69
+0.01
-0.2
L02
•9
APPARENT PLACES OP STARS, 1912.
419
FOR THE UPPER TRANSIT AT WASHINGTON.
r HeroQlis.
y HeroQllB.
y Apodis.
17 Ursae IClnoris.
Moan Solar
Mag. 3.9
Mag. 3.8
Mag. 3.9
Mag. 5.0
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
UonN.
Ascension.
tion N.
1
Ascension.
tion S.
Ascension.
tion N.
h m
e *
h m
0
h m
0 t
h m
0 t
16 17
+ 4630
16 18
+ I92I
16 I
9
-7841
16 19
+ 75 57
Jan. 0.9
8
^5-8 „
0.76
22.0 ,
8
46.97
#%
59-5
8
60.17
13.5 .
10.9
4.38 'I
62.6 3=*
1.02 '^
19.4 '^
48.05
108
57.8 '7
60.72 11
10.3 ^i
20.8
4-71 ,fi
59-7 11
I.30 f
17.0 ^4
49.26
121
56.5 'I
J- 00
^'•40 °°
7-5 ll
30.8
5°7 ll
57-3 It
1.61 3'
^4-9 "
50.57
131
55-7 :
62.20 ^
Q Q
5.2 ^
Feb. 9.8
5-46 '!
55-4 '
1-93 f
13.1 '^
51.94
137
55-3 *
63.08 ^^
3-5 !
39
13
32
13
140
2
93
10
19.8
5-^5 ,„
541 ,
53.5 „
=^•^5 „
11.8
53.34
55-5 ,
64.01
2-5 ,
29.7
6.24 11
2.56 ^
10.9 9
54.74
140
56.1 /
64-95 It
2.1 4
Mar. 10.7
6.62 3»
53-5 °
2.87 f
10.5 ^
56.11
137
57.2 '
65-«« 11
=^•4 '
20.7
698 It
54-^ x!
316 '9
10.6 *
57.42
131
58.7 3
66.76 **
3-4 !
307
7-31 ,„
55-3 "
343 11
II. I 5
58.66
124
60.6 '9
^7-55 11
4-9 :f
30
«7
25
10
"3
22
70
21
Apr. 9.6
7-6i ,<
570 „
3-68 „
12. 1
59.79
62.8
68.25 „
7-0,,
19.6
7-87 ll
59-2 "
390 ,„
134 'I
60.81
102
00
653 I'
68.82 57
9-5 0
29.6
8°9 "
^'•7 ^^
4-'° °
15.0 'I
61.69
88
68.0 '^
69.25 43
"•4 ?
May 9.5
8.26 ^7
^+•5 !
4.27 ',
16.8 '8
62.43
74
70.9 11
69.54 ^
15.5 t'
19-5
8.38 "
674 ''
440 '3
18.7 '9
63.00
57
73.9 "^
69.67 '3
18.7 3^
7
29
II
20
40
31
2
32
29-5
8-45 ,
7°-3 ,„
4-51 ,
2°-7 ,„
63.40
77.0
6965 .
"•9 „
June 8.5
8.48 3
73-2 ''
4-57 ^
22.7 ^'^
63.62
22
80.1 3'
69.47 „
^5° ^!
18.4
8.45 f,
760 8
4.61 ;J
24.7 'I
63.65
3
83-^ 11
69'5 ^^
27.9 "l
28.4
8-38 7
78.5 It
4.61 °
26.5 '«
63.50
15
85.9 '^
68.69 f
30.6 ^7
July 8.4
8-^6 6
80.8 ^3
4-57 ^
28.2 '7
63.18
32
88.4 ^5
68.11 3»
32.9 .
16
19
7
14
49
23
69
19
18.4
8.10
84.3 ^
4-50 ,„
29.6
62.69
^ .
90.7
6742 .
34.8 ,^
28.3
790 '°
440 °
30.8 "
62.05
64
92.6 9
66.64 Jj
36.3 ^
Aug. 7.3
7-67 11
854 "
4-27 ^
31-7 I
61.28
77
0£
940 ]t
65.78 »^
37.3 '°
17-3
742 ^
86.1 7
4-" '
324 ;
60.42
80
95.0 '°
64.87 9
37-8 3
27.2
7-5 :^
86.3 ^
3.95 '7
17
32.7 3
0
59.49
93
96
954 ,
63.92 95
96
37-8 I
Sept. 6.2
6-59 '!
86.0
85.2 ,!
378 ,„
32.7 ^
58.53
95-3 ,
62.96
37.2 ,„
16.2
3-60 !
32.4 t
57.58
95
0 _
94-7 ,t
62.02 94
34-6 \t
26.2
^•32 z
84.0 "
343 ^
31.7 ^
56.69
89
0 — .
93.5 "
^^•"«6
Oct. 6.1
6.08 ''»
8^-3 ''
3.28 ^5
30.7 '°
55.89
80
91.9 '^
60.25 !J
32-6 ^
16.1
5.87 "
80.2 "
X .A '2
3-I0 0
29.4 ^l
55.23
^^89.8"
5948 "
3°-2 ,„
17
25
8
16
49
24
66
29
26.1
5.70 ^^
77-7 ,„
3.08
^7-8 _
54-74
874 „
58.82
27-3 „
Nov. 5.1
5.58 "
74-8 ''
304 *
25.9 ^
54.45
29
84.7 ''
58.29 53
24.1 f.
150
5-53 ^
7^-6 t!
3.04 "
23.7 "
54.37
8
81.8 '9
57.90 39
20.6 35
25.0
5-54 ,
68.2 34
3.09 I
21.3 'I
54.53
16
78.9 'I
57-67 i
16.9 37
Dec. 5.0
5.61 7
14
^^•^ ^^
3-^9 ,^
18.7 ^^
27
54.91
38
60
76.1 '8
' 26
57.61 ^
12
13.2 ^7
14.9
5.75 ,,
61.0
3-35 ,„
16.0
55.51
0 _
73-5 _
57-73 ,^
94,,
24.9
596 "
57.5 11
3-55 '•'
13.3 'I
56.32
81
71.1 =^4
58.02 ^9
5-8^!
34.9
6.22 ^^
54.1 ^^
3.79 '*
10.7 '^
57.31
99
69.1 '°
58.47 ^^
2.434
Scc<J,Tan<J
1.453 +1.055
1.060 +0.351
5.106 -5.007
4. 121 +3.998
Mean Place
5".740 8o".78
2V249 32".78
55».i20 64". 78
63'.696 3o".65
ly^ a, Dm a
-0.03 +0.03
-o.oi +0.01
+0.12 -0.14
-o.io +0.1 1
D^ <5, Dm 6
-0.2
-0.9 1
-0.2
-0.9 1
-0.2
-0.9 1
-0.2
-0.9
£Epb la]
420 APPARENT PLACES OP STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
00 HercnllB.
7 DraconU.
^ ScozpU.
>^ Heronlis.
Mean Solar
Mag. 4.5
Mag. 2.9
Mag. 1.2
Mag. 2.8
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascenaion.
tion N.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion N.
h m
0 *
h m
e »
h m
0 t
h m
•
16 21
+ 14 13
ft
16 22
+ 61 42
IP
16 23
— 26 14
**
16 26
+ 21 40
f0
Jan. 0.9
8
^^•52 .
20.06 ^^
57-0 ,^
s
45-73 ,^
3I-I ,^
58^65 ,^
17.1 ,
24.62
39-2 „
10.9
54.6 ^t
46.07 34
27-7 :*
58.95 1":
17.6 5
24.87 11
36-5 11
20.9
52-3 li
46.48 ^'
^4-8 !?
59.28 33
18.3 I
25.15 'I
34.0 '5
30.8
20.36 ^°
50.3 ^
46.94 ll
"•4 0
59.62 ^4
'9' I
25.45 ^,
31.8 "
Feb. 9.8
20.67 ^'
48.6 7
47-44 f
20-5 ''
59.97 ^i
20.0 ^
25.77 ^
30.0 »«
32
13
52
12
36
9
32
>3
19.8
20.99 _
47-3 „
47.96 ^,
19.3 .
18.7 ^
60.33 „
20.9
26.09 ,,
28.7
29.7
21.30 ^
46.4 9
48.49 ^3
60.68 35
21.8 9
26.41 3
27.8 9
Mar. 10.7
21.61 31
45-9
49.00 ^
18.8 I
61.02 34
22.8 '^
26.72 3*
27.4 •♦
20.7
21.90 ^9
0 rf
45.8 '
49.49 ^^
19.6 *
61.3432
23.6 !
24.4 I
27.01 ^l
^7-29 ll
27-5 '
30.7
22.17
46.2 I
49.94 _
21.0 "♦
61.65 ^
28.0 5
25
8
40
20
29
8
26
10
Apr. 9.6
22-42 ^,
470
5^-34 ,^
23-0 ,^
**''94 ,«
25.2
='7-55 „
29.0
19.6
22.64 "
48.1 "
50.68 34
^5-4 !t
62.20 ''^
25.9 I
26.5 J
27.1 ^
27.78 2
30.4 ]t
29.6
22.84 '°
5^-95 11
28.1 ^7
62.44 ^4
27-98 ^°
32-1 '
May 9.6
23.01 J
20
51-15 .,
31-t i°
62.65 "
28.16 '*
34.0 9
19-5
2315 „
5^-7 'I
51.28 '3
34.3 f
62.83 '!
27.6 I
28.30 '4
36.1 "
II
17
0
32
15
5
II
21
29.5
23.26
23.34 :
59.6 ^
51-34 ,
37-5 „
62.98
28.1
28.41
38-2 „
June 8.5
5^32 ,^
40.6 3'
63.09 "
63.17 I
28.5 ^
28.48 7
40.3 "
18.4
23.38 ^
51.06 ll
«-^ 28
28.9 ^
28.52 4
4^-4 "
28.4
2339 .
63.21 4
29.3 ,
28.52 1
46' !
July 8.4
23.36 I
61. 1 '5
5°-83 '^
488 '*
63.20 ]
29.6 3
28.49 ''
0
13
29
20
4
3
7
10
18.4
23.30
62.4
50.54 ,^
5°» ,6
52-4 ,
63.16
63.08 »
29.9 ,
28.42
47-7 ,,
, 28.3
23.21 9
63.5 "
50.20 34
30.1 ^
28.32 ;°
49-0 ,x
Aug. 7.3
23.10 "
64.4 '
65.0 ;
49-82 38
53.6 "
62.98 '°
30.1 °
28.19 '3
28.03 ;j
50.0 '«
17.3
22.96 ^
22.80 '^
17
49.40 Y
54-3 ,
62.84 ''^
62.68 '^
16
30.1 °
50.7 7
27.3
65.3 J
48.96 J4
54.5 ,
4
30.0 ^
27.86 '7
18
Sept. 6.2
22.63 ,,
654 ,
48.50 ^^
54.1 „
62.52
29.8
27.68
27.50 ^
27.32 ^
51-1 ,
16.2
22.46 '7
22.30 '^
65.2 I
48.05 ^5
53-2 9
62.35 ^
29.4 *
50.8 3
50-2 °
26.2
64-7 I
47.62 «
5'-9 ^
62.19 29.0 4
Oct. 6.1
22.16 '^
63.9 ,^
47.22 4^
500 '!
62.05 '"^ 28.5 5
27.16 ;
49.2 \l
16.1
22.04 'I
62.8 "
14
46.87 35
30
4^7 11
61.94 " 28.0 5
7 5
27.03 ^3
47« :^
26.1
21.96
61.4
46.57 „
44.9 ,,
61.87 , 27.5
26.93 ,
462 ,„
Nov. 5.1
21.92 ^
59-7 !!
46.34 'I
^^•^^1
61.85 27.0 5
26.88 5
44-2 ^
150
21.93 '
57.8 11
46.19 '5
46.13 °
38.4 l^t
61.88 3,26.7 ^
26.87 '
42.0 "
25.0
21.99 ^^
55.6
34.7 ;^
61.96 26.4 3
26.91 4
39.5 5
Dec. 5.0
22.00
15
53-3 '^
^'^ ^ 24
46.16 3
12
30.9 ^3
62.10 *^ 26.3 *
20 I
27.00 9
15
36« :;
14.9
22.24 ^
50.9 ,
46.28
27-1 _.
62.30 26.4
27.15 ,
34.0 ^^
24.9
22.44 °
^^•4 ^^
46.49 "
23.4 ;;
62.54 ^J 26.7 3
62.82 ^* 27.1 ^
27.34 ' ;
2b
3'-2 „
34-9
22.68 ^^
45.9 '5
46.79 3°
19.9 ^^
27.57 ^
28.5 '^
Scc<J,Tan<J
1. 03 1
40.254
+2. no +1.858
1. 1 15 -0.493
1.076 +0.397
Mean Place
2i«.036 66".86
47'.85i
47".40
40.05
6o».553 I4".92
26-. 144 50". 37
jy^ a, Dm n
-0.0 1 +0.01
-0.04
+0.01 -o.oi
-O.OI 40.0I
D^d^Dm^
-0.2
-K>.9 1
-0.2
-0.9
-0.2
-0.9 1
-K>.a
-0.9
[Bph xa]
APPARENT PLACES OF STAES, 1912
421
FOR THE UPPER TRANSIT AT WASHINGTON.
X Ophluohi.
A Braconls.
T Soorpii.
(T Hercnlis.
Mean Solar
Mag. 3.8
Mag. 5.0
Mag
.2.9
Mag. 4.2
Date.
Riffht
Declina-
Riffht
Declina-
Right
Declina-
Right
Declina-
tion N.
Ascension.
tion N.
Ascension.
tions.
Ascension.
tion N.
h m
0 #
h m
e f
h m
•
h m
• t
16 26
+ 2 10
IP
16 28
+6857
0^
16 30
-28 2
at
16 31
+ 4236
9f
Jan. 0.9
26^86 ,
254 ,„
8
6.30
143
s
22.14
5-5 .
s
^426
50-3 „
10.9
26
27.12 1
=^3-5 \l
6.69 39
1 0.9 34
22.44 ,°
5-9^
14.53 11
47-^ '!
20.9
27.40 ll
21.6 '9
7''^tl
8.0=9
22.76 ^
6.5!
14.84 3^
44=»«
30.8
27.70 ^°
19.9 \l
7-74 it
5-5 '5
23.11 35
7-2 I
15.17^^
4»-7 :i
Feb. 9.8
28.01 3'
18.4 '5
8.36 f
3.6 '9
23.47 ^l
8.08
^5.53 _
39.7 '°
31
12
65
12
36
8
37
14
19.8
28.32
'7-^ .«
^•^^ f;.
2.4 .
23.83 „
8.8
^5.90
38.3 „
29.7
28.63 3^
16.2 '^
15.6 ^
9.68 ll
1.9 ^
24.18 35
9.7 I
16.27 37
16.63 ^
37-5 ,
Mar. 10.7
28.93 ^°
10.33 /
20 «
24.53 ^^
10.6 I
37-3 ;
20.7
29.22 ^^
15-3 i
10.95 '^
2.8 8
24.86 33
"•4 a
16.98 35
37.8 5
30.7
2950 "
^5-3 °
11.53 t
4.2 '4
25-18 ^'
8
12.2 Z
^7.31 ^^
38.8 '«
25
3
51
20
30
8
30
16
Apr. 9.6
29.75 ,,
156
12.04
6.2
25.48 ^,
13.0
^7-6i .
17.87 ^;
4°-4 ,„
19.6
29.98 ^^
16.2 ^
12.47 :,
8.6 ="4
25.75 11
13.7 ;
42-4 n
29.6
2 I
30.19 ,«
^70 ,:
I2.8I 34
11.4=8
26.00 5
14.4 I
18.10^3
44.7 f
May 9.6
30.37 \l
18.0 '*»
13.05 ^^
14.4 ^°
26.22 ^^
15.0^
18.28 '^
47-4 ^
195
30.52 :
19.1 "
IS
13.20 ^
17.6 3=
26.41 '9
15.6 I
18.42 ^4
50.2 '^
13
II
5
33
16
6
10
29
295
30.65
20.2
13.25 .
2°-9 „
26.57
16.2
18.52
53.1 ,„
June 8.5
30.74 I
30.80 f
"•4 "
0
'3-19 ,.
^4-^ '!
26.69 "
16.7 5
18.57 ^
56.0 9
18.4
22.6 "
13.03 ll
^7-^ 11
26.77 ^
17.2 5
18.57 °
587 !^
28.4
30.82 ^
23.7
12.78 ^5
^9-9 '
26.81 4
^77 :
18.53 ;^
6^-3 '!
July 8.4
30.81 ]
24.8 "
12.44 ^"^
32.3 *
26.82 '
18.1 4
18.44 '
63.6 ^3
4
9
41
21
4
4
13
20
18.4
30.77 ,
257 a
26.5 I
12.03
34-4 -
26.78
26.70 *
18.5 ,
^®-3i „
^5-^ „
28.3
30.70 ;
11.54^;
360 !
18.7 =
18.14 '7
67.3 \l
Aug. 7.3
30.59 ,,
27.1 J
n .00 ^'*
_ n
37-2 '
26.60 '°
18.9 =
20
17-94 ,,
68.6 '3
17-3
30.46 3
27.6 5
10.42 58
62
37-9 ,
26.46 '4
26.30 '^
17
18.9°
^7-7^ ,t
69-5 .9
27.3
30.32 ^^
28.0 ^
I
38.1 =
3
18.8 '
2
'7-46 11
69.9 *
Sept. 6.2
30.17 .
30.01 ^
28.1
8-56 S
37-8
26.13
18.6
17.20
69.8
16.2
28.1 ^
36.9 9
25.96 7
18.3 3
16.94 't
69.2 ,t
26.2
29.86 '5
27.9 ^
7-96'^
35-5 \t
25.79 ;:
179 ^
16.69 ^
68.2 "»
Oct. 6.1
29.73 '^
27.4 ^
26.8 f
8
7.40 5^
33.6 '9
25.65 ]t
17-4 i
16.8 ^
6
16.46 ^^
66.8 '4
16.1
29.62 "
^ 8
6.89 5'
44
3-3 11
25.53 g
16.26 '°
17
64.9 •»
23
26.1
29.54 _
26.0
6.45 ,
28.5
25.45
16.2
16.09
62.6
Nov. 5.1
29.51 ^
24.9
6.10^5
'5-^ ^I
25.42 3
15.7 ^
^5-98 '^
15.92
59-9 Z
150
29.52 '
A^ •• 12
23.7
5.86 ^4
22.0 '^^
25.45 g
15.2 5
56.9 ^^
25.0
29.59 ,;
22.2 ^
5.72 ^^
^«-3 i^
^5-53 ,,
14.8 4
0
15.92 ,
53.6 33
Dec. 5.0
29.70 *
20.6 '^
570 ^l
14.5 ^^
25.66 ^3
14.6 ^
15.98 ^
50.2 34
10
18
10
38
19
I
12
35
150
29.86
18.8
580
'°-7 „
25.85 ,^
14.5 ^
16.10
46.7 _ .
24.9
30.06 ^°
16.9 '^
6.02 "
7.0 37
26.09
2
14.7 ^
16.28 '^
43.3 ^^
34.9
30.30 ^^ 15.0 ^9
6.35 ^^
3.535
26.37 '^
15.0 3
16.52 ^^
39.9 ^^
Sec rJ, Tan S
1. 00 1 +0.038
2.784 +2.599
1133
^•533
1.359 +0.920
Mean Place
28-.435 33". 06
8V974 3o".77
24».o94
3".34
I5-.948 64" .49
DV«i D«o
0.00 0.00
-0.06 +0.07
+0.01
-0.0 1
-0.02 +0.02
Difr d, Dm d
-0.2
-0.9 1
-0.2
-0.9 1
-0.2
-0.9
-^.2
-0.9
[Eph xa]
422
APPARENT PLACES OF STABS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
C Ophiuclii.
Mag. 2.7
24 ScoTpll.
Mag. 5.0
C Herculis.
Mag. 3.0
^ Triang. Aost.
Mag. 1.9
Date.
Right
\scension.
Declina-
tion S.
Right
Ascension.
Declina-
tion S.
Right
Ascension.
Declina-
tion N.
Right
Ascension.
Declina-
tion S.
h m
e f
h m
e t
h m
0 »
h m
« f
16 32
-1023
mm
16 36
-1734
mm
16 37
+ 3145
16 39
-6851
Jan. 0.9
10.9
20.9
30.8
Feb. 9.8
8
16.99
17.26^7
17.55 '^
17.86 ^'
18.18^^
32
^7-9 .3
29.2 **
30.6 '4
31-9 '3
33.1 '^
11
8
27.10
27.37 11
27.67 3°
27.99 :,
28.32 33
33
9W
^5-5 „
26.4 9
27.4 '°
28.1 '°
29.4 '°
8
56.50
56.74 11
57.02 ^^
57.33 ^'
57.66 33
33
^9-4 ,„
26.4 30
23-7 '^
21.3 ^^
19.3 '°
14
'5*48 ^
16.08*^
16.76 ^8 ,
17.50 74
18.27 " '
79
60.2 ,
58.6 '<^
57.3 'i
56.5 t
56.0 5
19.8
29.8
Mar. 10.7
20.7
18.50
18.82 32
19.13 11
19.71 '^
27
34.2
351 ;
35-8 I
36.3 ^
28.65
28.98 33
29.30 32
29.61 ^'
30.4 g
31.2
32.0
32.6 ^
57.99 „
58.32 33
58.65 "
58.97 11
17-9 „
17.0 9
16.7 3
16.9 \
17.7 *
12
19.06 56.0
19.8579 56.5 5
^°**4 ;9 57.3 °
21.40 7 J 58.4!*
30.7
36.6 3
29.91 ^8
33.1 ,
4
59.27 1°
22.13 ^3
59-9 ;^
Apr. 9.6
19.6
29.6
May 9.6
195
19.98
20.23 ^^
22
20.65 '°
20.82 '7
14
367 „
367 ^
36.5 !
36.2 3
35-8 ^
30.19 ,g
3°-45 ,,
30.68 ="3
30.89 "
31.08 '9
»5
33.5 ,
33-7 ,
33-8
33.9 ;
33-8 I
59.54
59.79 ,:
60.01 "
60.19
60.34 '^
II
18.9
20.6 '7
22.6 *°
24.9 '3
^^•'^ 26
22.81
^3-43 %
23.99 Jg
24.47 *
24.87 '^^
31
61.7
^3-7 „
66.0 =^3
68.5 '5
71.0 '5
29.5
June 8.5
18.5
20.96
21.07 "
21.14 I
35-3 ^
34-8 5
34-3 t
31.23 ,^
31.35 a
31-43 ,
33-8 ,
33.7 '
33.6
60.45 -
60.53 ,
60.56 3
32.6 »^
35-1 11
25.40 ^',
25.52 "
73-7 -
78.9 '*
28.4
July 8.4
21.18 *
21.18 °
3
33-8 5
33-3 ,
4'
31.47 ;
3X.48 ;
33-5 ,
33.4 I
60.55 '
60.50 *
9
37.5 't
2554 I
81.4 *s
83.7 '^
21
18.4
28.3
Aug. 7.3
17.3
27.3
21.15
21.08 7
20.98 '^
20.86 "
20.72 ^^
15
329 ,
32.5 I
32.1 *
31.8 3
31.6 I
31.45 ,
31.38 ,^
31.28 '"
31.02 ^4
33-2
33.1 ,
33.0 '
32.8 I
32.6 '
2
60.41
60.29 "
60.14 ;5
59.96 '»
5976 '°
21
44.4'^
45.3 1
45.8 ^
0
25-27
25.00 '''
24.65 35
24.24 ll
23.78 j;
87.6 '"
89.0 '4
90.0 •*»
90.5 ^
Sept. 6.2
20.57 ,^
20.41
Y C
314 ,
30.86 ^
30.70 ;^
32.4 .
59-55 „
45.8 ,
^329 ^„
90.6
16.2
31.2
32.2
59.33 „
45.5 t
22.80 '♦9
22.32 ^
21.89 ^
21.53 J^
90.2 ♦
26.2
Oct. 6.2
16.1
20.26 ^
20.13 ^3
20.02 '^
7
31.2
31.2
313 ,
30.55 ,5
30.41 ,j
30.30 8
32.0
31.9 ]
31.8 1
59" \\
58.93 9
58.76 I
44.8 7
43.6 "
42.1 '5
19
89.3 ,^
88.0 '3
86.3 '7
21
26.1
Nov. 5.1
19.95 .
19.92 ^
3'S
31-9 ^
32-5 t
30.22
30.19 ]
31.7 ,
31.6
58.63 „
58.54 '
40.2
37.9 11
35-3 ll
21.26
21.09 ^l
84.2
81.9 "3
15.0
19.94 ^
20.00
20.12 '^
17
30.20
31.7 *
58.50 \
21.04 ;
79.4 '5
25.0
Dec. 5.0
33-2 I
341 '
10
30.27 7
12
30.39
17
32.0 3
32.4 I
58.52 ^
58.59 ^
12
32.4 '"
29.4 3"
3«
21. II '
21.32 ^*
33
76.9 ^
74-4 '5
^24
150
24.9
20.29
20.50 I'
351
36.2 "
30.56
31.03 ^^
330
33.7 I
34.5 *
58.71
58.88 '7
26.3
23.1 ^;
21.65
22.10'*^
c c
72.0
34.9
20.74
37.5 '^
59.11 ^^
20.0 **
22.65
68.0 '9
Sccrf.Tanrf
1.016 -0.183
1.049
-0.316
1. 176 -(0.619
2.774 -2.588
Mean Place
1 i8*.69i 22".42
28V887 2i".i2
58VI1I 42".oi
20».X40 62". 78
Tfy^a,D«a
1 0.00 0.00
+0.01 -O.OI
-0.02 +0.01
+0.06 -0.06
^D«(J
1 -0.1
-0.9
-0.1
^.9
-0.1
-0.9
-O.I
-0.9
[Eph la]
APPARENT PLACES OF STARS, 1912. 423
FOR THE UPPER TRANSIT AT WASHINGTON.
•
fj Herculis.
Groombridce 8877.
£ Soozpii.
48 Heroulis.
Mean Solar
Mag. 3.6
Mag. 4.9
Mag.
2.4
Mag. 6.4
Date.
Right
Declina-
Right
Declina-
Riffht
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tions.
Ascension.
tion N.
h m
0 •
h m
•
h m
e *
b 1
n
e «
16 39
+ 39 4
16 43
+ 5655
16 44
-34 8
If
16 48
-fi5 6
Jan. 0.9
s
5102
<*70 „
8
35-55 ,„
64-9 „
s
25-50 ,^
6.1
s
2.82
^5-9 ,,
10.9
5''27 11
^3-8 11
3584 11
61.4 35
25.80 3^
6.1 *»
3.06
24
63.5 t
20.9
5^-56^9
60.9 11
36.18 34
583 11
26.13 11
6.2 ^
3.33
27
61.2 ="3
30.8
51.88 3^
58-4 i
36.58 4°
55-7 l^.
26.49 ^!
6.6 4
3.62
29
59.1 "
Feb. 9.8
52.22 '^^
56.4 '°
37-OI *l
53-6 "
26.86 37
7-^ I
3.92
30
57-4 '^
35
•5
45
15
38
. 6
31
14
19.8
29.8
52.93 l^
54.9
540 z
3746
37-93 y.
38-39 t
5"-' 8
5^-3 ,
27.24 ^g
27.62 3°
27.98 3J
28.34 3^
7-7'
8.4; ^
4.23
4-54
31
56.0
550
Mar. 10.7
5328 35
53-7 ,
51.1
9=^i8
4.84
30
54-5 ,
20.7
53.62 34
540 ^
38.83 44
5»-6 ,^
^o-^«
5.14
30
54-4 '
307
53.94 ^^
54-9 :
39-25 Zl
5^-8 "
28.69 35
io.8t»
5.42
28
54-8 4
29
14
38
17
33
8
27
7
Apr. 9.6
54-23 .
5^-3 ,„
39-63 „
54-5 „
29.02
II.6
5.69
55.5 „
19.6
54.49 ^
58.2 '9
39.96 33
59-3 ^^
29.32 30
12.5 \
5.94
25
56.6 '
29.6
54-72 l^
60.4"
40-25 ,;
29.59 ^;
13.4 ^
6.16
22
58° t
May 9.6
54.92 ^
63.0 ^^
22
40.47 ,,
40.63 ^
62.2 ^9
29.84 11
14.3 \
6.35
19
61.5 ^
195
55.07 5
65-7 'J
^5-3 3;
30.06 "
15.2 ^
6.52
17
IX
28
10
31
17
9
13
«9
29.5
55.18
7' -3 „
40.73 .
68.4
30.23
16.I
6.65
*^3-4 ,„
June 8.5
5524 ^
40.77 ^
71.6 3^
30.38 5
16.9 !
6.75
10
^5-3 \l
18.5
55.26 ^
74° I
76.6 It
40.74 ,x
74-7 11
30.48 '^
»7-7 \
6.82
7
67-2 9
70.6 \\
28.4
55.24 I
40.64 ]l
40.48 ;f
77.6 11
80.2 '^
30.53 ;
18.5 ?
19-3 !
6.85
3
July 8.4
55.17 ^
789 *^
30.54 ,
6.84
I
II
20
21
23
3
6
5
15
18.4
55.06
80.9,,
4^-27 .
40.01 ^^
8^-5 ,„
30.51
19-9 ,
6.79
72.1 „
28.3
54.92 ;j
82.6 '7
84.4 \l
30.44 „
20.5 °
6.72
7
73-4 \l
Aug. 7.3
54.74 'J
84.0 »4
39.70 3^
85.8 4
30.33 "
20.9 \
6.61
II
74-4 '°
75-2 \
^7-3
54.53 :\
849 '
39.36 34
86.8 '°
30.19 ';
21. 1 *
6.47
14
16
27.3
54.30 ^3
85-4 i
38.99 37
87-3 ^
30.02 '7
21.2
6.31
75-7 ,
24
0
39
0
19
I
17
3
Sept. 6.2
54.06
854 ,
38.60
87.3 .
29-83 ,^
21. 1
6.14
... *
75-9 ,
16.2
53.82 ^4
85-0 4
38.21 39
86.8 5
29.64 9
20.9 \
5-97
17
75.8 '
26.2
53.58 ^^
84.2 ;
37-83 f.
85.7 ;;
29.45 ^
20.4 \
5.80
17
75-4 ;
Oct. 6.2
5336 "
82.9 '3
37.48 35
f^-^ 0
29.29 ^^
19.8 ;
5.64
10
74-7 1
16.1
53-^7 ,^
81.2 '7
32
37-16 3^
82.2 *°
»5
29.15 'J
19.1 \
5.50
14
10
73-7 '^
13
26.1
53.01
790 „
36.88
79-7 ,„
29.06
18.3 «
5.40
a
7'-4 ,«
Nov. 5.1
52.90 "
76-5 i
36.66 "
76.8 11
29.01 5
^75!
5.34
6
7°-8 J
69.0 11
150
52.84 f
73.7 ''
36.51 'i
73-6 3^
29.01 ^
16.7 !
5.32
2
25.0
52.83 '
70.6 3
36.44 I
29.08 7
^59'
5.35
3
*6-9 "
Dec. 5.0
52.89 ^
673 l]
36.44 °
29.20 "
15-3 :
5.42
7
646 l]
12
34
9
37
18
4
5
13
24
150
5301
63-9 ,,
36.53 ,^
62.8
29.38
14.8
5.55
62.2
24.9
53-^8 11
60.534
36.70 11
59-^ 'J
29.62 ^4
14-5 \
5.72
17
59-8 :t
34.9
22
53.40
57-3 ''
36.94 '^
55-5 ^'
29.90 ^*
2
14.3
5.94
22
57.3 ''
Sec i, Tan 6
1.289 +0.813
1.832 -H.535
Z.208
-0.678
1.036 +0.270
Mean Place
52V705 8o".53
37V660 79".96
27V630
4".02
4-.432 76".05
DV °t !>•*» ^
-0.02 ■r0.02
-0.04 +0.03
■^0.02
-0.01
-0.0 1 +0.01
D^ rf, D« <5
-O.I
-0.9 1
-0.1
-0.9 1
-0.1
-0.9
-0.1
-X.O
[Bpb Z4]
424
APPAEENT PLACES OF STAES, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
€* Arae.
/c Ophiuchi.
80 Ophiuchi.
£ Herculis.
Mean Solar
Mag 4.2
Mag. 3.4
Mag. 5.0
Mag. 3.9
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion N.
h m
e •
h m
0 •
h m
e
•
h m
• »
16 52
-53 I
16 53
+ 930
I*
16 56
- 4
5
16 56
+31 2
Jan. 0.9
8
30.97 ,„
350 ,„
a
28.49 „
30-8 ,,
a
23.48
36.1
8
5364 ^,
^7-2 _
10.9
20.9
31-36 ^'
31-79^^
34-0
33-2 ^
28.72 'I
28.98 '^
28.6 "
26-5 "
23.72 ^
23.99 '
37.6
39-2
15
16
53-«7
54.13
61.4 =**
30.8
32-25 IJ
32.8 ♦
29.27 11
24-6 6
24-28 2
40.6
14
54-43 ^°
590 ^4
Feb. 9.8
32.73 :„
32.6 '
29.57 ^°
23.0 •;
24.58 f
41.9
13
54.74 ^'
57.0 ^^
50
I
30
•3
31
II
• 33
16
19.8
3323 „
32.7 .
29.87
21-7 .„
24.89
430
d
55.07
55-4
29.8
33-73 Z
33.1 *
33-7 „
30.18 3'
20.7
20.1
25.20 3
43.8
8
55.40 33
1 1
54-3 "
Mar. 10.7
34-^3 11
34-71 ^
30.48 ^°
25.51 ^'
44-4
6
55-73 ,:
53.9 ,
20.7
34.6 9
30.78 11
20.0 '
25-81 11
44.8
4
5^-05 ^'
54-0 '
30.7
35-18 Y,
35-7
31.06 ^»
20.2 ^
26.10 ^9
44.9
I
56.35 ^°
54-6 *
44
»3
27
0
27
2
29
12
Apr. 9.7
35-62
37-0 ,^
31.33 „
20.8
2^-37 ,,
44.7
56.64
55-8
19.6
36.03 t'
38-4 4
31-58 11
21.7 '
26.63 *!
44-3
4
56.90 ^^
57-3 '^
29.6
36.41 38
40.0 ^
31-80 "
22.8 "
26.87 4
43.7
6
57-^4 :^
59-3 !!
May 9.6
36-74 tl
43-5 .,
20
32.00
^4-2 \t
27.08 "
43.0
7
57.34 ^°
61.6 '3
19.5
37-04 ^
24
32.17 ^^
14
27.26 '8
42.1
9
9
57.51 ^7
13
64-0 ^e
29.5
37-28
45-4 ,_
32.31 „
27.4
27.42
41.2
0^
57.64 ,„
66.6 ,
7-8 '!
June 8.5
47-3 \l
32.42 g
32.50
30-7
=^7-54 ^
40.3
9
57.74 '^
18.5
37-59 ,
to 0 ^«
50.9 ^,
27.64 '°
39-3
\\J
57.79 \
28.4
37.66 I
32.54 ;
32.2 5
27.69 5
38.4
9
8
7
57.80 '
74.2 \\
July 8.4
37.66 °
52.6 ^7
15
32.54 °
33.7 4
27.71 ^
2
37.6
57-77 5
76.4 "
20
18.4
37.60
54-1
32.51 ,
350
27.69
36.9
•
57.70 .^
78-4 .,
28.4
37-49 "
55.4 \]
32.44 ;
36.1 "
27.64 ^
36.2
7
57.60 «
80.2 '«
Aug. 7.3
37-32 I
56.5 "
57.3 .
32-35 '
37-0 1
27.55 ^^
35.7
5
57.45 ^
81.6 '4
17.3
37-11 "
32.22 •*
37-7 ^
^7-44 '
35-3
4
4
57.28 7
82.6 '°
273
36-87 It
57-7 ;
32-07 '5
38.2 5
27.30 ^^^
34-9
4
57.09 '.
83.3 I
27
I
10
2
»5
2
21
2
Sept. 6.2
36.60
36.32 '!
57-8
31.91 ,.
38.4 „
^7-^5 .
26.99 ^
26.83 \l
34.7
56.88
835 ,
16.2
57-5 I
56.9 f
31-74 '
38-4 °
34.6
I
56.66 "
83.4 '
26.2
36.05 11
31.57 \l
38.2 ^
34.7
I
56.45 " 82.8 °
Oct. 6.2
35.81 ^-^
56.0 9
31.42 '5
37-6 «
26.68 *5
34.9
2
56.25 '°i 81.8 °
16.1
35.60 "
54.8 "
31.29 '3 36.8 "
26.56 " 35.2
3
56.08 '7 80.5 '3
16 1 15 1
10
10
9,
5
14 18
26.1
35.44 „
53-3 „
31-19 .
35.8 ,,
26.47 I35.7
55.94 .,
78.7 „
Nov. 5.1
35.35 z
5-f 8
31.13 ^
34-5
329 °
26.42 5 , 36.4
7
55.83 "
76.6 ="
0 >i
15.1
35.33
48.0
31. II ^
26.41 ^37.2
0
55.77 ,
74-2 ^
7'-4 "
25.0
35.38 5
31.14 I
3>' !
26.44 ' 38.2
10
55.76
Dec. 5.0
35-52 ••»
46.3 '!
31-22
29.2 ^
26.53 ,! 1 39.4
12
55-81 5
68.4 3°
22 10
1
12 21
14 1
14
11 30
150
35-74 ^g 144.7 ,^
31.34 127.1
26.67 Q 1 40.8
26.85 42.2
5592 ,. 65.4
24.9
36.02 ^ 43.2 ^
31.51 *' 1 24.9
14
56.07 '5 62.3 3«
34-9
36.37^^ 41-9 ^
31.72 ^' 22.7 ^^
1.0x4 -K>.i67
2707 "!43-7
»5
56.27'°
59.2 3'
-fO.602
Scc<J,Tan*»
1.663 -1.328
1.003 -0.072 1
I. 168
Mean Place
33V893 34" 89
30».I24 40". 08
25«.i85 28".8c
»
55*33^ 79".39
ly^o, D^a
-f0.03 -0.03
0.00 0.00
0.00 0.0c
»
-0.02 -Kl.OI
V^A.Dm^
-0.1
-I.O 1
-0.1
-i.o 1
-0.1
-1.0
-0.1
-I.O
iEph <a]
APPARENT PLACES OF STARS, 1912
425
FOR THE UPPER TRANSIT AT WASHINGTON.
d Herovlis.
7 Ophluohl.
17 SoorpU.
C Draooals.
Mean Solar
Mag. 5.3
Mag.
2.6
Mag. 3.4
Mag. 3.2
Dat&
Right
Declina-
Right
Declina>
Right
Dedina- |
Right
Declina-
Ascension.
tion N.
Ascension.
lion S.
Ascension.
tionS
•
Ascension.
tion N.
h m
e '
h m
e «
h m
•
t
, h m
e »
16 58
+3341
am
17 5
-1537
0
17 5
-43
7
17 8
+6548
Jan. 0.9
s
19-64 „
WW
s
17.93 ,^
6.0
s
48.41
29.6
6
S
28.94 ,„
68.2 ^
10.9
19.87 'I
26.6 3'
18.18 ^5
6.9 9
48.72 3^
29.0
29.22 ^* 64.6 3"
20.9
26
2013 _
23.8 «
18-45 '^
7.8 9
49.07 35
28.5
5
29.59^ 61.43^
30.9
20.42 ^
"•3 I'
18.75 ^^
8.8'°
4946 ^9
28.3
2
30.03 ^ 58.6
Feb. 9.8
2074 ^!
^9.2 .
1907 _
9-7 a
49.86 f
28.3
0
30.53 ^°
56.2 \x
33
16
32
8
42
I
55
17
19.8
21.07
17.6
19.39 ._
10.5
50.28
28.4
31.08
54-5 ,,
29.8
21.41 ^2
16.6 ^°
19.72 ^^
II. 2 '
50.70 ^^
28.8
4
31.66 58
11
53.4 "
Mar. 10.7
21-75 tt
I6.I 5
20.04 "^^
II.8 ^
5^" 1
29.3
5
32.24 5
53.0 ;
20.7
22.07
16.2 '
20.35 il
12.2 ^
51.53 ^_
29.9
6
32.81 57
53.3 ,^
307
22.38 ^'
^^•9 Z
20.66 3^
12.5 ^
51.93 :«
30.7
8
33.36 ^5
10
54.3 "
29
12
29
I
38
9
51
15
Apr. 9.7
22.67
18.1
20.95 ^.
12.6
52.31 .
31.6
33.87 ^_
55.8 _
19.6
22.94 11
^9-7 ,,
21.22 "
12.6 °
52.67 3^
32.6
10
34.32 ^^
21
57-9 "
29.6
23.18 l^
21.8"
21.48 ^^
12.4 ^
53.00 33
33.7
II
34.71 ^^
60.4 ="5
May 9.6
23-39 ,,
21.71 ^
12.2
53.30 3^
34.8
II
35.02 3^
63.3 Z
19.6
23.56 ]l
26.6 =^5
21.92 ^*
12.0 ^
53-57 11
36.0
12
35.25 ,,
66.4 ^'
14
27
17
3
23
13
14
33
29.5
23.70
293
22.00
T C
"•7 _
53.80
53.98 ^
37.3
V ^
35.39 ,
697 „
June 8.5
23.79 9
32.0 I
22.24 ^
II.4 '^
38.6
13
35.44 f
73-0 "
18.5
23.84 f
34.7 ^
22.35 V
II. I "^
54.11 I
40.0
14
35.40 ^
76.2 3=»
28.4
23.85 ]
37-2 '5
22.42 '
10.8 3
54.20 ^
41.3
13
35.28 "
79-3 ^'
July 8.4
23.81 ^
39.5 11
22.45 3
10.6 ^
2
54.23 I
42.5
12
II
35-07 ,„
29
82.2 ="9
25
18.4
23.74 ,_
41.6 ^
43-4 :!
22.44 .
10.4
54.21
43.6
V ^\
34.78
34-42 ^^
84-7 „
28.4
23.62 "
22.40 ^
10.2
54.14 _
44.6
10
86-9 "
Aug. 7.3
23.47 \l
23.29
44.8'^
22.32
1 0.0 ^
12
54.02
45-4
8
6
33-99 ,«
33.51 ^;
88.7 "
i7'3
45-9 "
46.5 t
1 '2
22.20
9.8 I
53.87 ^
46.0
11
9°° «
90.8 °
27-3
23.09 _
22.06 ^^
9-6 ^
53-68 '9
46.4
4
32.99 ^,
22
3
15
I
21
I
54
3
Sept. 6.3
22.87
46.8
21.59 !
9-5 ,
53-47 ^
46.5
32.45 „
9I-I ,
16.2
22.65 "
0 "^
46.7 '
46.1 ^
9-4
53.25 ^
46.4
I
31.90^5
90.9 g
90-^ ,!
26.2
22.43 "
9-3
53.03 ^^
46.0
4
31.35 f;
Oct. 6.2
22.22
45.1 '°
I s
21.44 ^
9.2 '
52.83 ^°
45.4
6
30.82 53
88.9 "
16.1
22.03 '^
43.7 ^
1%
21.31 ^
9-2 0
52.66 '7
44.6
8
30.32 50
87-1 ?
15
19
9
0
14
II
44
23
26.1
21.88
41.8
21,22
9.2
52.52 ^
43.5
29.88
84.8
Nov. 5.1
21.77 "
39-6 „
21.16 ^
y
9-3
8
52-44 ,
42.3
12
29.51 37
82.2 ^^
I5-I
21.70 '
37.1 'i
21.15
9-5 '
52.42
41. 1
12
29.22 ^
79-1 ^'
25.0
21.69 '
34-3 !
21.19 ^
9.8 3
52.46 ,•♦
39.8
13
20
29.02
75.7 ^*
72-1 ,,
Dec. 5.0
21.73 +
31.3 f
21.28 9
10.3 I
52.57 "
38.6
12
28.92 '°
10
32
H
6
17
II
0
37
15.0
21.83 ,,
28.1
2^-42 .
10.9
52.74 ,^
37.5
28.92
68.4
25.0
21.98 '5
24.9 \]
21.60 '*
II.6 7
12.4
52.97 /^
36.5
10
8
29.03 ^^
64-7 %
34.9
22.18 ^"^
21.8 3'
21.82 "
53.26 ^9
35.7
29.25
61.0 37
Sec rf, Tan 6
1.202 +0.667
1.039
-0.279
1.370 -0.937
2.442 +2.228
Mean Place
2i".356 42".i3
I9-.763
o".o8
50-.859 27".23
3i».799 82".50
ly^ a, Dm a
-0.02 +0.01
+0.01
0.00
+0.02 -0.0 ]
[
-0.06 +0.03
D^ 6, Dm i
-0.1
-I.O 1
-0.1
-I.O
-0.1
-I.O
-0,1
-1.0
[Eph xa]
426
APPARENT PLACES OF STARS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
a Hercnlis.
b Hercnlis.
TT Hercnlis.
59 Apodis (e.) .
Var. 3.1-39
Mag. 3.2
Mag. 3.4
Mag. 5.9
Mean Solar
Date.
RiRht
Declii
la-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion N.
e »
Ascension.
tion N.
Ascension.
tion S.
h . m
e
t
h m
h m
0 >
h m
e f
17 10
+ 1429
17 II
+ 2456
00
17 II
+ 3654
17 14
-8046
Jan. 0.9
36.38
13.6
8
23.28
21.2
8
57.06
15.6
8
48.91
47.1
10.9
36.60 "
II. 2
24
23.49 ^\
18.4 ^«
57.28 "
"•-^^I
49-97 !'
44.7 !*
20.9
36.85 ^5
9.0
22
^3-74^ ^
15.8 '^
57-53 _
9-4 ^«
5'='3"t
42.6 =■•
30.9
27
37.12 ^
7.0
20
27
24.01 '
13.4 '-^
57.82 l^
6.8 ^'^
52.66 43
41.0
Feb. 9.8
3741 ^^
5.2
18
24.31 3<^
11.4^°
58.14 11
4-6 _
54" i!
39-7 '0
30
14
31
16
33
17
104
0
19.8
3771 _
3.8
24.62
9-^„
5^-47 ,,
=^•9 „
55-86
38.9 ,
29.8
38.02 3^
2.8
10
2493 1:
8.7 ,
58.81 34
1.8"
57.56 7°
38.6 3
Mar. 10.7
3832 3^
2.2
6
25.25 :,
8.2 5
59.15 l^
^•3 i
59-27 ^'
38.8 I
20.7
38.62 3<>
2.1
I
25.56 11
8.1 '
59.49 ::
'•3 °
60.97 X
39-4 ^
30.7
38.91 ^l
2.4
3
25.86 3°
8.6 5
59.82 33
1.9 ^
62.62 *^5
40.4 '"
28
7
29
9
31
13
156
14
Apr. 9.7
39-19 .
3.1
26.15
9-5
60.13 «
3-1 ,
^4-^8 ..A
41-8 -
19.6
20
39.45 V.
4.1
XO
26.42 '7
^°-9 !
60.41 '°
60.67 ^^
4«'I
65.64 4*
43-6 '8
29.6
39.69 l^
5.5
14
26.66 ^^
12.6 '7
6.8'°
66.97 "
45-8 "
May 9.6
2 I
39.90
7.2
17
26.87 "
14.7 "
60.89 "
9-^ It
68.14 "7
48.2 '*
19.6
40.09 '^
9.0
18
27.06 '9
16.9 "
6I.Q7 ^
"•9 ^
^•^3 ''
50.8 '^
15
19
15
24
15
38
79
29
29.5
40.24
10.9
27.21
^9-3 ,^
61.22
^4-7 ,-
6992 ,„
53-7
June 8.5
40.36 '^
12.8
19
27.32 "
"•7 t
61.33 "
^7-5 !!
70.50 58
56.6 '9
18.5
40.45 ^
14.7
19
la
27.40
24.0 11
61.39 ,
20.3 =•*
70.85 3^
59-6 3°
28.4
40.50 \
16.6
19
27.43 ;
26.3 '3
61.40 I
23.0 ^7
70.96
62.6 30
July 8.4
40.51
18.3
17
27.43 ^
28.5 "
61.37 :
25-5 li
70.85 •'
65.4 "'
2
16
5
19
7
23
35
27
18.4
40.49
19.9
27.38
27.30 °
3°^^ „
61.30
^7-8 ,„
70.50
68.1
28.4
40.42 7
21.3
14
^'' I
6i.i8 "
313 „
69.93 "
69.17 J*
7°-5^^
Aug. 7.3
40.32
22.4
1 1
27.19 "
33-5 [t
61.03 '5
7*-5 \l
74-1 «
17.3
40.20
23.3
9
6
27.04 11
34-5 '^
35.3 !
60.84 '9
32.6 '3
33-4 :
68.24 '^
67.18 '*»*
27.3
40.05 ^5
23.9
26.87 '7
60.63 "
75.3 "
17
3
19
4
»3
4
115
6
Sept. 6.3
39.88
24.2
26.68
35-7 ^
60.40
33-8 ^
66.03
75.9 .
16.2
39.71 7
24.3
I
26.48 ^°
35-7 .
60. r6 **
33.8 °
^4-»3 "I
76.0 ;
26.2
39.53 ^
39.37 ^
24.1
2
6
26.28 ^°
35-3 *
5992 't
33.3 ;
63.64 '
75.5 .:
Oct. 6.2
23.5
26.09 '9
34.6 ^l
59.69 '3
32.4 '
<*2-52 "
74.4 ' •
16.1
39.22 '5
22.6
9
25.92 J7
33.5 "
59.48 "
3»° «
6»-5o'°^
72.9 '5
12
XI
H
15
17
x8
80
20
26.1
39.10
21.5
^5-78 ,^
320
59.31
29-2 .,
60.64 g.
70.9
Nov. 5.1
8
39.02
20.0
15
25.68 '^
3°-' ?
59.17 I
»•• ^ 22
^7-o ^^
59-99 °t
68-5 It
15.1
38.98 ^
18.3
17
25.63 ^
28.0 ^'
59.08 9
21.7
59-58 4«
<^5-8 11
25.0
38.99 '
16.4
»9
25.62 *
^5-^ 11,
59.05 f
59-43 .:
62.9 11
Dec. 5.0
39.05 _
14.2
22
25.66 ^
22.9 ^7
5907 I
18.6 3^
59-56 3
59.9 ^°
10
23
9.
28
8
32
41
30
150
39.15 _
II.9
25.75 ,,
20.1 ^
59.15 ,,
15.4 _
59.97 .^
56.9 «
25.0
39.30 ;f
9.5
24
25.89 ;^
»7-3 ^;
59.28 3
12. 1 ^^
60.64 ^
54.1 'J
34.9
39.49 ^
7.1
24
26.08 "9
14-4 ''
59.46 '»
8.93^
61.56 9^
51.4 '^
Sec 6, Tan 6
1.033 +0.259
X.103 -^0.465
1.250 ■►o.ysi
6.242 -6.163
Mean Place
38V058 23".69
24V980 32".44
58».874 27".96
59V090 47"oi
DV a, D« a
-o.oi 0.00
-0.01 -fO.OI
-0.02 -♦•0.0 1
+0.16 -0.08
D^ tf , Dm 6
-O.I
-I.O
1
-O.I
-1.0 1
-0.1
-1.0
-0.1
-1,0
[Eph la]
APPARENT PLACES OF STARS, 1912.
427
FOR THE UPPER TRANSIT AT WASHINGTON.
0 Ophiuclii.
W HeicnUs.
/3 Are.
5 OpMachi.
Mean Solar
Mag. 3.4
Mag. 5.4
Mag. 2.8
Mag. 4.3
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion S
•
Ascension.
tion S.
h m
e f
h m
• *
h m
e
r
h m
0 *
17 16
-2454
17 17
+ 3234
If
17 17
-5526
17 20
-24 5
Jan. 0.9
s
3423 „
50-5 ,
t
20.17
37.2 ,,
55-81 ,«
53-6 ,
8
57.67 ^^
48.7 ^
10.9
34-48 ^5
34.76 '«
50-7 ^
20.38 "
34-» '0
56-17 i^
52.2
4
57.91 It
49.0 3
20.9
51-1 t
20.62 ^
20.90 ^^
28.6 ^*
5^-59 11
57-05 ;„
51.0'
[2
0
58.19 l^^
49-4 ^
30.9
35.07 I
51.6 5
50.2
8
58-50 11
49-9 f
Feb. 9.8
35.40 "
52.1 ^
21.20 ^^
^^•4 "
57-55 i°
49.6
6
58.82 32
50.4 I
34
5
32
17
51
3
34
5
19.8
35.74 „
52.6
2152 ^^
^4-7 „
58.06
49-3
59- 1 6
50.9
29.8
36.08 34
53.1 I
21.85 ^^
23-5 "
22.9 I
58-58 5*
49.3
0
5950 3^
51.4 ^
Mar. 10.8
36.43 ,,
53.6 ^
22.18 33
59.11 "
49.6
3
59.84 It
51.8 ^
20.7
36.76 33
54.0 *
22.51 33
22.9 ^
59-63 11
50.1
5
60.1733
52.2 ^
307
37.09 33
54.3 ,
22.83 32
234 ,„
^•'4 11
50.8
7
60.50 33
52.5 i
32
3
30
10
49
]
[I
32
2
Apr. 9.7
37-41 ,0
54.6
23.41 „
24-4 ,,
61.09*
51.9 ^
60.82
52.7 .
19.6
37.71 30
37.99 ,,
38.25 ll
54.9 ,
25.9 5
53.1 ,
[2
6I.I2 30
52.9 2
29.6
55-1 ,
23.66 '5
"7-8 ''
61.52 43
54-5
4
^
^^•^^.J
53.1 ,
May 9.6
55.3 „
23.89 ^3
30.0 11
61.91 39
56.1
[6
61.66^^
2
53.3 ,
19.6
38-48 li
20
55-5 ^
24.08 '9
15
3-5 11
62.25 34
29
57.8 J
17
[8
61.89^3
20
I
53.4 J
295
38.68
38.84 t
55.7 ,
24-23 „
35-^ „
62-54 „
59.6
62.09
53.5 _
June 8.5
55-9 ,
24-35 "
37-8 11
62.77 ,1
61.5
^9
62.26 ^7
53.7 ,
18.5
38.97 ^i
.56.2 3
24.42 7
40.5 '7
62.94 7
634 \
19
62.39 '^
53.8 ^
28.5
39.06 9
56.4 I
24-45 ,
43-0 A
63.05 "
653
t9
62.48 9
54.0 I
July 8.4
39.10 *
S6.6 1
24.44 g
45.4 ^^
22
63.09 *
67.2
t9
17
62.53 5
54-2 :
18.4
39.10
56.9 ,
24.38
47-^ ,„
63.06
68.9
62.54 .
54-4 ,
28.4
39.06 *
57.1
24.28 °
49-5 ^
62.97 '
6i.8i '*
70.4 \
^5
62.50 ^
54-6 1
Aug. 7.3
38.99 7
57.3 ,
24-15 ;^
71.8 ^
^4
62.43 ^
54-8 '
17.3
38.87 "
57-4 ,
23.98 7
^^ M 12
52.3 .
62.61 '**
72.8 ^
[O
62.32 "
54-9 ,
27.3
38-73 \t
57.5 „
23.79 ^^
53.1 I
0
62.36 11
73-5
7
4
62.18 '1
16
I
550 „
Sept. 6.3
38.57 „
57-5 ,
23.58 ,,
53-6
62.08
73.9
62.02
55.0 .
16.2
38.40 7
57.4 ,
23-36 ",
53-6 °
61-78 3°
73.9
0
61.85 \l
I
54.9 .
26.2
38.23 ]i
38.07 *
57.2
23-13 3
53-2 *
61-48 11
73-5
4
61.68 '7
54-8 '
Oct. 6.2
570 ,
22.92
5-3 '
61.20'*
72.8
7
6^-52 ;;
54-6 I
16.2
37.93 „
56.7 I
22.73 ;^
5'-' "
60.96 '4
71.7 J
[I
61.38 '^
54-3 ^
II
3
17
17
20
t3
II
•'-r u 2
26.1
37.82
56-4 ,
22.56
49-4 ,„
60.76
70.4
_ ^
61.27
54-1
Nov. 5.1
37-75 ,
56.1 3
22.43 ^
22.35 ^
47-4 Z
60.62 '4
68.8 ^
[6
- 0
61.20 '
53-8 3
15.1
37-73 ,
55.8 I
l?-2 '«
60.56 *
67.0 ^
[8
61.17 3
53-6 I
25.0
37-76 I
37-84
13
55-6 I
22.32 3
60.57 '
65.1 ^
19
61.19 g
2
53.4 '
Dec. 5.0
55-4 J
22.34 ^
39-3 ^^
60.67 -
63.2 J
^9
^9
61.27
13
T
53-3 „
150
37.97 ,„
55-3 ,
22.42
3^-2 ,^
^•^5 .
61.3
^
61.40
53-3
25.0
38-16 11
55.4 ,
22.55 11
22.73
33-1 3
61. II ^^
59.5 3
[8
61.58 ^^
T
53-4 '
34.9
38.39 '3
55-6 '
30.0 ^
61.4433
58.0
^5
61.81 ^3
53.6 '
Sec <y, Tan <5
1. 102 -0.464
1. 187 +0.639
1.764 -1.45
2
1.096 -0.447
Mean Place
36*.2i2 45". 16
2i".95i 49".oi
58-.920 5i".47
59-.644 43". 08
jy^p a, Doi a
+0.01 -0.0 1
-0.02 +0.01
+0.04 -0.02
+0.01 -o.oi
D^<',I)m('
-0.1
-I.O 1
-0.1
-1.0 1
-0.1
-1.0
-0.1
-1.0
[Eph xa]
428 APPARENT PLACES OF STARS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
<T OphludLi.
d Ane.
a Ant.
A. Hercnlis.
Mean Solar
Mag. 4.4
Mag. 3.8
Mag. 3.0
Mag. 4.5
Date.
Right
Declina-
Right
Declina-
Righl
Declina>
Right Declioa-
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion S.
Ascension.
tionN.
h m
0 »
h m
0 f
h m
e •
h m
0
17 22
+ 412
n
17 23
— 6036
17 24
-4948
17 27
+ 26 10
Jan. 0.9
s
7.16
49-4^ ,„
8
5-45 ^„
44-7,,
s
59-44 ,,
*9-9 „
s
9-^4 ,„
^3-9 ,„
10.9
7-37 11
47-5 'I
5-85 1°
43-0 '7
5976 11
28.7 "
9-34 !!
21.0 *9
20.9
7-6' t
45.7 *
6-31 4J
41-6 4
60.13 37
27.7
9.57 'i
^8-3 11
30.9
7.88 11
8.16'*
^•° ,c
6-83 ^^
40-4 "
39-6 *
^•54 1!
27.0 '
984 11
15.9 4
Feb. 9.8
42.5 '^
7-39 ^*
60.9844
26.5 5
10.13
13.8 "
30
12
58
5
45
2
30
16
19.8
^•46 ,„
41.3 _
7-97 ,„
39-1 ,
61 -43 „
26.3
10.43 „
12.2
29.8
8.76 ^°
40.4 z
8.56 59
38-9 I
61.90^'
26.3 °
10-74 ,,
1 1.0
10.4 ^
Mar. 10.8
9°7^„
39.9 ^
9'6j!
39-1 '
62.37 *^
26.5 I
11.06 3'
20.7
9-37 tl
397 I
9-76 S
39.6 5
62.83 4^
26.9 4
11.38 3^
10.3 *
307
9.66 'I
39.8 '
10.34 „
40.3 ^
63.28 45
27.5 t
11.68 3°
10.7 *
28
4
55
II
44
8
30
9
Apr. 9.7
9-94 _
402
10.89
41.4 ,
63.72
28.3
11.98
II.6
19.6
10.21 ^7
8
410 _
11.42 53
42-7 ]l
64- '4 t'
29.3 •"
12.25 'I
13-0 '4
29.6
10.46 11
42.0 °
11.9149
44.2 5
64.53 11
3°-4 "
"•51 !t
^4-7 11
May 9.6
I0.68 "
43.2 ",
12.36 45
45-9 ]'
64.89 36
31.7 '^
12.74 'i
'^7 !!
19.6
10.88 '°
44-5 ^
12.75 It
47-8 !'
65.21 3=*
33.1 '*
12.94 =^
^9° 11
18
14
33
20
27
15
16
25
295
11.06
45-9 .,
13.08
49.8
6548 „
34-6 ,
13.10
21-5 „
June 8.5
11.20 '4
47.4 5
13-35 ^
51-9 "
65.70 "
36-2 ll
13.23 I
24-0 '5
18.5
11.31 "
48-9 i
13.55 °
54.1 "
65.87 7
37-8 !
13-32 z
^^•5 A
28.5
11.38 7
50.3 t
13.67 "
56-2
65-99 "
39-4 '
13.37 ;
28-9 ^4
July 8.4
11.41 ^
5'-6 i
13.71 *
58-3 "
66.04 ^
^ » ^ 10
41.0
13.38 ;
3«»!^
I
12
4
20
I
«5
4
K>
18.4
11.40
52-8
13-67 „
62.1 '*
66.03
42.5 .,
13.34 ,
33» ,8
350 ,6
36.6 ^
28.4
"•36 *
11.28 *
53.9 "
^356 g
65-96 7
43.9 4
13.27 7
Aug. 7.3
54.7 ;
13-38 ll
63.6 '5
65.85 "
45.1 "
'^'^ A
17.3
11.17 "
55-4 I
56.0 ^
13-13 ^
64.8 "
65.68 '7
46.0 !
13.02 '^
37.8 "
273
11.03 '1
12.84 \l
65-7 '
65.47'' 46.6 "1
12.85 '^
38.7 !
15
3
33
5
24
4
19
5
Sept. 6.3
10.88
56.3 ,
12.51 „
66.2
65.23
47.0
12.66
39-2 _
16.2
10.72 ;^
56.4
12.16 -Js
66.3 •
64.98 ^5
47-1 ,
"•^5 ^^
39-4 ,
26.2
'°-55 I
56.3 '
11.81 35
66.0 I
64.72 ^*
46.8 3
"•^5 ^
39-1 I
Oct. 6.2
,0.39 '^
55-9 *
"•47 f
65.2 »
64.47 '*
46.2 ^
12.05 '^
38.5 *
16.2
10.25 "^
55-4 ,
"•'7^?
64.1
64-26 ''
45-3 '
11.87 ;;
37.5 !
II
7
24
15
18
II
15
14
26.1
10.14
54-7 .„
10.93
62.6
64.08
44.2 _
11.72
36-1 -
Nov. 5.1
10.06
53.7 '°
10,76 '7
60.9 *7
63.96 '^
42.8 '4
11.60"
34-3 •*
151
10.02 "*
52-5 :
io,66 '^
58.9 '°
63.91 ^
41.3 '5
11.53 ^
32.2 "
25.0
10.03 I
10.09 „
49-5 ,,
10.66 °
56.8 ''
6392 g
64.00 I
39-7 6
38.1 't
2
11.51 ^
^7-3 ^0
Dec. 5.0
10.75 9
54-6 "
"•53 1
10
17
19
22
16
16
7
28
150
10.19 .,
47-8 .«
10.94 _
524 _
^4-'^ .,
36.5 ,
11.60
245 ^
25.0
10.34 \l
460 !
II.21 ^7
20
64.39 l^
35.0 ^5
11-73 1^
21.6^9
34.9
10.53 "
44.2 •«
11.56^5 48.6 '"
64.68 ^9
33.7 '^
11.90 '7
18.8 ^*
Sec \ Tan 6
1.003 •^0.074
2.038 -1.776
1.550 -1. 184
1. 114 •»o.49i
Mean Place
8-.875 58".28
9".oo9 42".50
62».209 26" .65
IO-.902 34" -93
D'fo, D«a
0.00 0.00
40.05 -0.02
40.03 -0.01
-0.0 1 0.00
c),D«d
-0.1
-I.O 1
-0.1
-1.0 1
-<^ \
-1.0 1
-0.1
-X.O
[Eph la]
APPAKENT PLACES OF STARS, 1912
429
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
\ Sooipii.
Mag. 1.7
ft Draoonls.
Mag. 3.0
^ Ophiuolii.
Mag. 2.1
S Serpentis.
Mag. 3.6
Date.
Right
Ascension.
Declina-
tion S.
Right
Ascension.
Declina-
tion N.
Right
Ascension.
Declina-
tion N.
Right
Ascension.
Declina-
tion S.
h m
0 t
h m
0 t
h m
0 f
h m
0 «
17 27
-37 2
17 28
+ 52 21
M
17 30
+ 1237
17 32
-15 20
ft
Jan. I.O
10.9
20.9
35-61
35.87 !^
36.18 3^
30.1
29.6 ^
29.2 ^
s
2439
24.85 ^,;
*^-* 35
41-9 ,,
38.6 33
s
49-21 ,^
20
49.41 „
49-64 ^,
49.90
50.18 ^8
29
I4.I
22
II. 9
^x « 22
9-7 20
30*91 ,,
31.38 5
31.66 ^8
31.96 3°
44-9 ,
45-6 I
46-4 \
47.2 \
48.0 «
30.9
Feb. 9.8
36.52 3+
36.89 37
37
29.0
29.0 °
25.53 ^3^
35.7 w
33.2 ,5
6.0 '7
14
19.8
29.8
Mar. 10.8
20.7
37-26
37-64 Z
38.03 39
38.42 39
29.1
29.3 ^
29.5 ,
29.9 ^
26.32 '^'
26.74 *''
^7- '5 ^'
31.3
30.0 '3
29.3 I
29-3 _
50.47 „
50.77
51.08 3'
51-38 3°
4.6
3.0 \
2.8 "
32.27
32.59 ^^
32.91 \.
33.23 ^,
48.6
49-2 *
49-6 4
49-8 ^
30.7
38.79 %
30.3 ;
27.55 *
39
30.0 J
5-68 30
3- 6
33.54 3,
50.0 ''
Apr. 9.7
39-15 „
30.8
32.0 °
32.7 7
27.94
3'" ,8
33-0
35-3 „
38.0 ^^
51-96
3.6
33-«5 ,„
49-9 ,
19.7
29.6
May 9.6
39.50 35
39.82 3^
40.12 3°
28.29 ''^
28.61 32
28.88 ^7
52.23 ,^
52.48 ^5
52.71 .\
4.6 '°
5-9:^
34.14 ,^
34-41 ^7
34.67 '
49.8 '
49-5 \
49-1 4
19.6
40.39 ^
24
33-4 ^
29.10
17
40.9 =^9
31
52.92 ,^
9.2 '7
J9
3490 I
48.7 4
4
29.5
June 8.5
40.63
34-3
35-2 9
29.27 „
29.38 "
44.0 „
47.2 3
53.09
5323 4
II. I
13.0 ''
35.10
35.27 ;
48.3 ^
47.9 \
18.5
^^•^f 0
36.1 9
29.43 ,
50.4 \\
53.34 ,
'4-9 Z
3540 3
47.5 ;
28.5
July 8.4
41.08 '^
41.14 ^
37.0 9
37.9 ^
29.42
29.35 J
53-5 ^'
56.5 3°
27
53.41 ;
53.44 I
16.8 '9
35.50 '°
35.55 ^
47.2 3
46.93
18.4
41.15 .
38-7 8
39-5 ,
40.2 I
40.8 I
29.22
29.04 „
28.81 =^3
28.54 ^J
59.2
53.44 .
20.1
35.56
46.6
28.4
Aug. 7.4
173
41. II z
41.03
40.90 ^3
40.74 w
61.5 '3
63.5 ,,
65.0 '5
53.39 „
53.31 8
53.19 ::
21.5 '4
22.6 "
23.6
35-54 ,
35-48 *
35.38 °
46.4^
46.2 ^
46.1 ;
27.3
41.2 ^
2
28.23 31
33
66.1 "
6
53.05 ,4
24.3 ,
4
35.25 4
46.0 '
Sept. 6.3
16.2
40.36 11
41.4 ^
41.4 .
27.90 , .
27.56 34
66.7
66.9 =
52.89
52.72 ;
52.54 '^
17
52.37 ^;
52.22 ^
13
24.7 ,
24.8
34-94 J
45.9 ;
45.8 \
26.2
Oct. 6.2
16.2
40.16 ^"^
39.97 '^
39.80 ^7
13
41.2
40.9 3
40.4 :
7
27.21 35
26.87 34
26.56 3^
66.5 I
65.6 9
64.2 '4
19
24.7
24.3 I
23.6 7
10
34-77 ^
34-61 ^
34.47 ,4
45-8 °
45-8°
45-8°
26.1
Nov. 5.1
25.1
Dec. 5.0
39.67 ^
39.58 I
39.54 ;
39.55 „
39.63 ,^
39.7 ^
38.8 9
37.8^^
36.9 I
36.0 ^
26.28
26.04 ]l
25.86 '*
25.74 ':
25.69 5
62.3
60.0 ^3
57.3 l\
^°-« 3I
52.09
52.00 9
51.94 ,
51.93 '
51.97 \
22.6
21.3 \^
18.0 '^
,/: ^ 20
lO.O
21
34-36
34.28 \
34.25 ,
3426 \
34-32 ^^
45-9 ,
46.0 *
46.2 *
46.5 \
46.9 4
0
150
25.0
39.77 ,^
39.96 *9
35.2
34.5 I
33.9
25.71 „
25.80 9
IT
43.7 ^^
52.06
52.19 \l
^3-9 „
ii.6='3
34-43 ,6
34-59 °
47.4 ,
48.0 J
34.9
40.21 ^
25.97 ^
40.2 ^^
m^ ^_ Io ^ . ^^
52.37 9-4
20
34-79
48.7 7
Sec <J, Tan <J
1.253 ^.755
1.638 -H.297
1.025 -K>.224
1.037 -0.274
Mean Place
37".878 25".43
26».622 58". 15
5o".938 23".97
32'.777 37"-78
DV «, D- «
+0.02 -O.OI
-0.03 +0.01
-O.OI 0.00
•K>.OI 0.00
D^ <J, D« 6
-0.1
-1.0 1
-O.I
-1.0 1
-O.I
-1.0 1
0.0
-1.0
[Eph 12]
430
APPAEENT PLACES OF STAES, 1912
FOR THE UPPER TRANSIT AT WASHINGTON.
t Hercnlis.
t) Pavoals.
oa Draconis.
>^ OpUuchi.
Mag. 3.8
Mag. 3.6
Mag. 4.9
Mag. 2.9
Mean Solar
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion N.
h m
0
h m • •
h m
0
h m
• «
17 36
+ 46 2
tf
17 37
-6440
9
17 37
+6847
17 39
+ 4 35
Jan. 1 .0
s
56.77
57.8 ^
148 ^
61.9
s
24-45 _
42 .6
s
5-75 _
63.0
10.9
56.96 11
54.4 ^t
'•90 to
59.9 ^
24.67 ",
39.0 3
20
5-95 ,,
61. 1 '?
_ 0
20.9
57.20 I
51.2^
2.40 '°
58.2
25.00 ^^
35-6 ^^
6.18 '3
59-3 ,,
30.9
57.48 ll
48.3 ^
-96
3-57 °
56.7 f
25.42 \
32.6 3°
If. -
0.71
^^ ^ 16
57-7 ,^
Feb. 9.8
57.80 3=*
45.8 "5
55-6 "
2593 „
30.1 ="5
56.2 '5
35
19
65
8
57
20
29
12
19.8
58.15
43.9
4-22 ,,
54.8
26.50
28.1
7.00
55.0
29.8
58.52 11
42.5 't
41.7 ,
4-88 6«
54-4 ,
27.76 ^
28.40 ^4
29.03 I
26.7 '"^
7.30 t^
54.1 ^
Mar. 1 0.8
58.89 ^^
59.27 ;,
54-3 ,
26.0 7
7.60 3°
10
53.6 f
20.7
41.6
54.5 Z
55.. :
25.9 .
''•' .3
7.903
53.4 ^
30.7
59.64 ^^
35
42.1 5
u
8.19 '9
29
53.5 '
Apr. 9.7
59-99 „
43-2 ._
7-55 ,,
8.17 t'
56.0
29.63
2JI •«
^9.6 ,,
8.48 „
8.76 ll
54-0 -
54-8 '
19.7
60.32 ^^ 44.9 ''
57-2 '
30.1754
29.6
60.62 3°, 47. 1
8.74 ^^
58-6 *
30.64 ^7
31.9 ^
9°' A
55.9
May 9.6
60.88 ="6
49-6 li
9.26 5^
60.3 7
31.044°
34.6 \]
9-^5 ^t
57.1 "
19.6
61.10 ^f
52.4 ''
9.73 *^
62.2 '9
31.35 ,,
37-7 ,'
9.47 "
58.5 't
18
30
40
21
21
32
18
»5
295
61.28
55-4 ,.
1013 „
*^4.3 „
31.56 ^^
40.9 ,^
9-^5 ,
60.0 ^
June 8.5
61.41 '3
58.5 I]
10.45 ,,
66.6 '3
31.67 "
44.334
9.81 t
61.6 '<^
18.5
61.48 I
61.6 3'
10.69 't
68.9 11
31.68 ^
47.6 33
9.93 "
63.1 ;s
28.5
61.50 ^
^4-7 11
10.85 'J
712 11
31.59 ,^
50.8 3
10.02 9
64.6 5
July 8.4
61.47 I
'^■' 11
10.91
^ 3
73-5 '^
22
29
53-9 11
10.06 4
I
66.0 '4
«3
18.4
61.39 ,
70.2 _
10.88
75-7 „
31." .«
56.7 ,,
10.07
67-3 ..
28.4
61.26 '3
7^-5 0
^^•77 "
77-7 !
30.73 ,t
59.2 5
10.04 "^
68.4"
Aug. 7.4
61.08 '^
74-5 °
20
»°-57 „
79-4 ^
30.28 ^5
61-4 "
9.97 ,1
69.4
17-3
60.86 "
76.1 '6
10.30 '
80.9 '5
29.76 52
63.1 '7
9.87 '°
70.1 I
27-3
60.61 ^5
28
77.3 ';
9.97 11
82.0"
7
29.18 g
64.3 -
9.74 -
70.7 ^
4
Sept. 6.3
60.33 78.0
9-59 , ,
82.7
28.56
27.92 4
27.27 5
26.64 }
26.03 f.
65.1
9-59 „
71.1
16.2
60.04^9 782 2
9-^8^
83.0 3
65.3 '
9-42 \l
71.2
26.2
59.74^^ 78.0 '
^•76 ^^
82.8 ^
650 3
64.2 .!
909'
71.2 *>
Oct. 6.2
59.45 ^
77.3 /
8.36 ^^
82.2 *
70.9 I
16.2
59.18 ''
76.1 "
8.00^^
81.1 "
62.9 '3
8.94 '^
70.4 *
24
J7
31
15
55
J9
12
7
26.1
5^-94 ,^
74-4 „
7.69
79-6 ,a
25.48
61.0
8.82
69.7
Nov. 5.1
58.74 "
7'-^ 6
^9-7 '
7.46 ^
77-8 !
24.99 ^^
58-7 '^
8.73 I
68.8 9
15.1
58.59 ^
7.31 'I
75.8 °
24.58 4
55-9 ^'
8.68 5! 67.6 '^
25.1
58.49 ^^
66.8 '9
7.26 ^
73-5 It
24.27 ^
52.8 3'
8.67 ' ' 66.3 '^
Dec. 5.0
58.45 t
637 ^'
7.32 ^
71.1 ^\
24.06 ^'
49-4 It
8.71 ^64.8 '5
3
34
17
23
9
36
9, 17
150
58.48
60.3 ,^
7-49 _
68.8
23.97 _
45-8 „
8.80
^3-' ,«
25.0
58.57 ^
56.8 35
7.76 '7
66.5 '3
24.00 ^
4^-^ '.I
8.93 1^
61.3 '!
34.9
58.72 '5
53.4 ^*
8.13 ^7
64-3 "
24.15 ^^
38.5 3*
9.10 '7
59.5 '*
Sec rf, Tan <J
1. 441
♦ 1.037
2.339 -2. 1 14
2.765 "^2.578
1.003 -f 0.080
Mean Place
58-.859 69".82
5-.5I4 58".77
27*911 55".27
7'-499
72".o8
0.00
D'^ 0, Dm fl
-0.03 *O.OI
+0.05 -0.0 1
-0.07 t0,02
0.00
"Ho, cJ, Dw rf
0.0
-I.O
0.0
-1.0
0.0
-1.0
0.0
-1.0
[Eph la]
APPARENT PLACES OF STARS, 1912
431
FOR THE UPPER TRANSIT AT WASHINGTON.
t^ SoorpU.
jJL HercnllB.
y Ophludii.
^ Braoonls.
Mean Solar
Mag. 3.1
Mag. 3.5
Mag. 3.7
Mag. 4.9
Date.
Right
Declina-
Rlglit
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
donN.
Ascension.
tion N.
h m
•
«
h m
•
li m
0
h m
•
17 41
-40
5
1742
+ 2745
1743
+ 244
1743
+ 72 II
»9
Jan. i.o
8
23-41 _
43.0
0
s
59.02
^•7 ,„
27.02
13.9 0
s
25.97
20.0
10.9
23.68 ^7
42.2
8
59.20 '*
63.8 =•9
27.21 '9
12.1 '*
26.18 ^'
16,4 3^
20.9
23.98 3°
41.6
6
5941 :
61.I '7
2744 \\
10.4 \\
26.53 35
13.0 ^^
30.9
24.32 ^^
41. 1
5
59.66 ^5
59-94 Z^
58.6 2
27.69 ^5
»-9 !
26.99 „
9-9^1
Feb. 9.9
24.69 11
40.8
3
564 '«
27.96 11
7-5 t
27.56 57
7.3 "'^
38
I
30
18
29
II
65
21
19.8
25.07 _
40.7
60.24
54.6
28.25
6.4
28.21
5-2
29.8
^5-47 Z
40.6
I
60.55 ^'
53.3 :
28.55 Z
5.5 '
28.91 11
3-7 ^i
Mar. 1 0.8
2587 Z
40.7
I
60.87 ^
52.6 7
28.85 ^
4.9 "
29.65 74
2.9 «
20.7
26.27 4°
40.9
2
61.19^^
2
52.4 ,
29.15 Z
4-7 :
30.40 75
2.8 ^
30.7
26.66 39
^ 0
41.2
3
61.50 3'
52.7 X
29.45 3^
4-9 !
3^-13 1:
3.3 *
38
4
30
9
29
4
69
13
Apr. 9.7
27.04
41.6
6
61.80
62.08 ^^
53-6 ,,
29.74 ,8
30.02 "
5.3 ,
32.46 ^^
4-5 ,,
19.7
27.41 ^7
42.2
54.9 ^
6.0 7
6.2 '7
29.6
27.76 ^5
42.8
6
62.35 n
56-6 !
30.28 'J
7° „
3302 5°
8-5 '^
May 9.6
28.08^^
43.5
7
0
62.60 ^5
586 !°
30.52 ^*
8.2"
33.48 t^
11.2^7
19.6
28.38 3°
44.3
8
62.81 "
60.9 ="3
22
30.74
9.6 '4
33.84 ^\
14.2 30
26
9
18
23
19
14
25
32
29.6
28.64
45.2
62.99 „
^3-4 ,,
66.0 ^*
30.93 .
1 1.0
34.09 ,^
17.4 „
June 8.5
28.86 ^^
46.1
9
6313 "^
31.09 '^
12.4 '4
34.22 *^
20.7 33
i8-5
29.03 J 7
47.1
10
63:23 •"
68.6 '*
31.22 '3
'3-9 \\
0
34.22
24.0 33
28.5
29.15 '
29.23 ^
48.2
II
63.29 **
7^-^ '!
31.31 \
»5.3 1
34-^o !
27.2 3^
July 8.4
49.3
II
63.31 '
73-5 It
31.36 f
16.6 '3
33.86 \\
30.3 I
2
10
2
22
I
12
35
29
18.4
29.25
50.3
63.29
63.23
75.7 ,„
31-37 ,
17.8
33.51 ,.
33.2 „
28.4
20.22 ^
8
29.H
51.3
10
77.6 9
31.35 I
18.8 '°
33.06 *5
35.7 \\
Aug. 7.4
52.2
9
^3" !
79.3 ,;
31.28 7
19.7 ^
20.5 ^
32.52 ^^
3 '89 "l
37-9 "
17.3
29.02
28.86 '^
52.9
7
62.98 '4
80.6 '3
31.18 ;°
39-6 \l
273
53.5
6
62.81 "7
81.6 "»
31.06 "
21.0 ^
31.19 7°
40.9 '*
19
4
19
7
15
3
74
9
Sept. 6.3
28.67
53.9
62.62
82.3
30.91 .
21.3
3°-45 „
41.8
16.3
28.46 ^
54.0
I
62.41 ';
82.6 3
30.75 ^
^^•5 I
29.68 77
42.1 3
26.2
28.25
53.9
I
62.20 "
82.5 '
30.58 7
21.5 °
28.90 78
41.9 g
Oct. 6.2
28.05 '°
53.6
3
62.00 ^°
81.9 *
30.42 1°
21.2 ^
28.13 77
4'-» .!
16.2
27.86 '9
53.0
6
61.81 '9
81.0 9
30.27 '5
20.8 1
27.39 ^*
39.8 '3
15
7
17
13
12
6
68
17
26.1
27.71
52.3
61.64 ,,
79-7 „
30.15 ^
20.2
26.71
26.10 ^'
38-1 ,,
Nov. 5.1
27.60 "
51.4
9
61.51 '^
78.0 '7
30.06 9
19.4 ®
35.8 ^3
15.1
27.54 ^
50.4
10
61.42 9
75-9 ::
6
30.00
18.3"
^5-58 Jo
''■' 3
25.1
27.54 .
27.60
49.3
1 1
61.37 ^
;f 0 ^
71.0
29.99 '
•70 ^
25.18 Z
30.0 3'
Dec. 5.0
48.2
II
61.37 °
30.03 ^
15.6 'I
24.89 ^
26.7 33
13
10
6
28
9
16
15
35
150
27.73 _«
47.2
^^•'^3 ,^
68.2
30.12
'•*-° .A
24.74
23.2
25.0
27.91 ,,
46.2
10
61.69 '^
^5-^ 7o
30.25 1^
12.4 ^
24.73 '
19.5 "
35.0
28.15 ^^
45.3
9
62.3 3^
30.42 7
10.7 '7
24,86 '3
15.8 37
Sec rf, Tan 6
1.307 -0.842
1.130 +0.527
1. 001 +0.048
3.269 +3.X13
Mean Place
25"-779 37"-65
60-.837 77".55
28*.777 22".90
3oVo30 32".25
DV Of V» 0
40.02 0.00
-o.oi 0.00
0.00 0.00
-0.08 +0.01
D,|f<y, D«<J
0.0
-1.0
0.0
-1.0 1
0.0
-1.0 1
0.0
-I.O
[Eph xs]
432
APPARENT PLACES OF STABS, 1912
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. I .o
10.9
20.9
30.9
Feb. 9.9
19.8
29.8
Mar. 10.8
20.7
30.7
Apr. 9.7
19.7
29.6
May 9.6
19.6
29.6
June 8.5
18.5
28.5
July 8.4
18.4
28.4
Aug. 7.4
17.3
27.3
Sept. 6.3
16.3
26.2
Oct. 6.2
16.2
26.1
Nov. 5.1
151
25-1
Dec. 5.0
150
250
350
89 HercuUs.
Mag. 5.5
Right
Ascension.
h
17
m
51
50.38
5055
50.76
51.00
51-27
17
21
24
27
29
31
Sec rf, Tan 6
Mean Place
5^.56
51.87
52.18 3'
52.50 ^^
52.81 3'
30
53-11
53.40
53.68
5392
54.14
29
28
24
23
19
54.33
54-49
54.60
54.68
54-71
54-70
54.64
54.55
54-42
54.26
54.07
53-87
53.67
53.46
53.27
53.11
52.98
52.88
52.83
52.83
52.88
52.98
53.12
16
II
8
3
I
6
9
X3
16
19
20
20
21
19
16
13
10
5
o
5
10
14
Declina-
tion N.
+ 26 3
S Draconis.
Mag. 3.9
Right
Ascension.
37.7
34.9
28
27
32.2
29.8 ^^
27.6 "
25-9
24.6
23.8
23.6
23.9
22
17
13
8
2
3
8
24.7
26.0 ^3
27.7 '7
29.7
32.0
20
23
24
34.4
36.9
39.5
42.0
44-4
46.6
48.6
50.3
51-7
52.8
53.5
53.8
53.8
53-4
52.6
51.4
49.9
48.0
45.7
43.2
40.6
37.8
35.0
25
26
25
24
22
20
17
14
II
7
3
o
4
8
12
15
19
23
25
26
28
28
ly'^a, Dm a
D^ 6, D »6
1. 113 40.489
52V207 48"-23
-O.OI
0.0
0.00
-I.O
h
17
m
51
57.93
58.10
58.34
58.64
58.99
17
24
30
35
40
59.39 . .
59.82 «
60.27 ^^
60.72 ^^
61.17^5
43
61.60
62.01 ^^
62.37 3^
62.69
62.96
32
27
21
63.17
63.32
63.39
63.40
63.34
63.22
63-03
62.78
62.49
62.15
61.77
61.38
60.98
60.58
60.20
59.85
59.55
59.30
59."
59.00
58.97
59.01
59-13
15
7
I
6
12
19
25
29
34
38
39
40
40
38
35
30
25
19
II
3
4
12
Declina-
tion N.
+ 5652
n
55.2 3^
51.8 ^^
48,7 3'
46.0 ^7
43.9
42.3
41.4
41.2
41.6
42.6
44.3
46.4
49.0
51.9
55.1
58.4
61.7
65.0
68.1
21
16
9
2
4
10
17
21
26
29
32
33
33
33
31
29
0 HercnllB.
Mag. 4.0
27
22
71.0
73.7
75-9 ,„
77.8 '^
79.2 '^
10
80.2
80.6
80.6
80.0
78.9
77.3
75.2
72.7
69.7
66.5
63.0
59.4
55.8
4
o
6
II
16
21
25
30
32
35
36
36
Right
Ascension.
h m
17 53
s
1.830 +1.533
6oV494 7o".33
-0.04
0.0
0.00
-i.o
[£ph xa]
2.13
2.29
2.50
2.76
3.04
16
21
26
28
31
3.35
3.68 ^3
4.01 ^^
34
34
33
4.35
4-69
31
5.02
5-33 ,„
5-62 ^l
5-88'
6. 1 1
6.30
6.45
6.55
6.61
6.62
6.59
6.51
6.38
6.22
6.02
26
23
19
15
10
6
I
3
8
13
16
20
23
5-79
5.55
5-31
5.06 ^5
4.83 ''
24
24
4.63
4-46
4.33
4.25
4.22
4.25
4.33
4-46
20
17
13
8
3
3
8
13
Declina*
tionN.
+ 3715
30.8
27.6
24.6
21.8
19.4
32
30
28
24
20
17-4
16.0 '^
15.2 «
14.9
15.3
86 Draoonis.
Mag. 5.0
Right
Ascension.
16.2
17.6
19.5
21.8 ^3
24.4
19
26
28
27.2
30.1
33.0
35-9
38.7
41.3
43.6
45.6
47.2
48.5
49.3
49.7
49.7
49.3
48.3
46.9
45.1
42.9
40.3
37.5
29
29
29
28
26
23
20
16
13
8
4
o
4
10
14
18
22
26
28
30
34.5
3^'3 ,,
28.1 3^
32
1.256 +0.761
X4'.092 4i".8i
h m
17 53
s
17.77
17.97
18.36
18.91
19.61
Declina-
tion N.
20
39
55
70
82
20.43
21.34
22.31
23-30
24.27
91
97
99
97
93
85
25.20
26.05
26.80 75
27.43 ^
27.92
+ 7658
15-3 ^
II. o ^*
8.8 3«
6.2 '<^
21
49
32
-0.02
0.0
0.00
-I.o
28.24
28.41
28.41
28.24
27.91
27.42
26.80
26.04
25.17
24.22
23.19
22.12
21.03
19.95
18.91
17.93
17.04
16.26
15.63
15.16
14.87
14.76
14.85
17
O
17
33
49
62
76
87
95
103
107
109
108
104
98
89
78
63
47
29
II
9
4.1
2.5
1.6
1-3
1-7
2.8
4-5
6.6
9.2
12. 1
16
9
3
4
II
17
21
26
29
32
15.3
18.6 33
33
33
31
29
27
23
»9
14
9
4
o
5
II
16
21
25
29
32
35
36
36
21.9
25.2
28.3
31.2
33.9
36.2
38.1
39.5
40.4
40.8
40.8
40.3
39-2
37-6
35.5
33-0
30.1
26.9
23.4
19.8
16.2
4.436 +4.322
23V250 3o".44
-0.1 1
0.0
40.01
-1.0
APPARENT PLACES OF STARS, 1912. 433
FOR THE UPPER TRANSIT AT WASHINGTON,
V Ophluohl.
^ Hercnlls.
y DraooniB.
67 Ophiuclii.
Mean Solar
Mag. 3.5
Mag. 3.8
Mag. 2.4
Mag. 3.9
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tions.
Ascension.
UonN.
Ascension.
tion N.
Ascension.
tion N.
h m
0
1
h xn
0 >
h m
e '
h m
0 «
17 54
-9 45
n
17 54
+ 2914
17 54
+ 51 29
17 56
+ 255
Jan. i.o
10.9
t
9-25 Z
57.1
58.1
10
i8!86
19.02 ^^
73-&
70.9 'I
t
3 ^42 ,
31-58 '^
41.0 "'^
"•50 ,8
12.68 '^
57-» x8
55-4
20.9
9.48 l\
59.1
10
19.23 J
68.1 'I
31.81 ^3
37-6 ^*
12.90 "
53.7 '7
30.9
9-73 J
60.1
10
19.47 ,t
65-5 !'
32.09 'I
34-6 1°
13-14 '4
52.2 '5
Feb. 9.9
10.01 '"
29
61.0
9
7
^9-74 ^^
30
^3-3 \l
32.41 3^
31.9 11
^3-4^ 11
50.9 '3
11
19.8
»o-3o
61.7
20.04
<*^-5 ,,
32.77 ,a
29-8 ,.
13.69
49.8
29.8
10.60 3°
62.2
5
20.35 \\
60.1 'i
33-15 ^,
28.2 '^
^398 ''
48.9 9
Mar. 10.8
10.91 3|
62.6
4
20.67
59.3 ^
3356 4
27.3 ^
14.28 30
48-4 t
20.8
11.22 ^
62.8
2
20.99 ^^
59.1 ,
33-97 ';'
27.0 ^
^458 1°
48.2 ^
30.7
"•53 \\
62.7
I
21.30 3^
59.4 a
34-37 1°
27.4 ^
14.88 3°
48.4 '
31
3
31
8
39
TO
29
4
Apr. 9.7
11.84 ^^
62.4
21.61
60.2
34-76
28.4 ,
15-17
48.8
19.7
12.13 1
62up
4
21-91 ^°
6^-5 !i
35-13 ,^
««> -r* 16
30.0
15-46 '^
49-6 /
29.6
12.67 ^J
61.4
6
28
22.19 _
63-3 '
35-47 ^4
3»-' "
15-73 ,1
50-6 !
May 9.6
60.7
7
22.44 „
65-4 "
35-77 1°
34.6 ^5
15.98 ^5
51.8 "
19.6
12.91 "2
59.9
8
22.67
^7-7 11
36.02 *5
37-5 '^
16.21 *3
53-2 '4
21
8
19
26
JO
31
20
»5
29.6
13.30 \\
59.1
8
8
22.86
7°-3 ,6
72-9 „
36.22
40.6
^^•41 „
54-7 „
June 8.5
58.3
23.01 ^^
36.37 '^
43-8 3
16.58 7
56.2 5
18.5
13.45 \\
57.5
23.13 "
75.6 ^%7
36.46 9
47-0 3^
16.72 '4
57-7 i
28.5
13.56 "
56.8
7
23.20 '
78.3 11
36.49 ,
50-2 3»
16.82 '**
59-1 *
July 8.4
13.63 ^
56.1
7
23.23 ^
80.8 '5
36.46 3
53-3 f
16.89 '
60.5 '4
3
6
2
23
9
29
2
12
18.4
13.66
55.5
23.21
231 5 ,-
83.1 „
36.37 ,,
5^-2 ,«
16.91
61.7 „
28.4
13.65 '
55.0
5
87.0 '*
36.23 JJ
58.8 ll
16.89 I
62.8 "
Aug. 7.4
13.60 I
13.52 ,J
54.6
4
23.05
36.03 ^'^
6i.o "
16.83 f
63.8 '°
17.3
54.3
3
22.92 "^
88.5 '5
35-78
35-50 ,,
62.9 ;9
16.74 ,:
64-6 I
27-3
^3-40 \l
54.1
2
22.75 \l
89.7 "
64-3 ''^
16.62 "
65.1 5
14
2
19
8
31
10
14
4
Sept. 6.3
13.26
12.78 ^
53.9
22.56
90.5 .
35-19 ,^
653 ,
16.48
16.32 J
65.5 ,
16.3
53.9
0
22-35 *
90.9 ^
34-85 ^
65.7 4
65.7 '
26.2
53.9
0
22.13
90.9 °
34-51 34
65-7 ^
^6-^5 ^
65.8 '
Oct. 6.2
54.0
I
21.92 ^'
90.4 I
^9'6 ,^
34-17 n
65.2 5
15.98 ^
65.6 I
16.2
12.63 '5
54.1
I
21-72 ^°
33-85 f.
64.1 "
15.83 '^
65.1 5
13
3
18
12
30
15
13
6
26.1
12.50
54.4
21.54 , .
88.4
86.8 '<*
33.55 _
62.6
'^5-70 ,,^
645 a
Nov. 5.1
12.41 9
54.7
3
21.40 '^
33.30 /
60.6 '°
15.60 '"
63-7
15.1
251
12.36 ^
12.35 '
55.2
55.8
5
6
6
8
21.29
21.23 ^
84.8 ="•
79-9 J
21
33.09
32.94 R
32.86 °
58-^ 2I
55-3 'f
15.54 :
15-52
62.7 '°
Dec. 5.0
12.39 \
56.4
21.22
4
52.2 3'
34
15-55 5
60.1 '4
15
150
^2.47 _
57.2
21.26
77- "f ,„
32.85
48.8
15.62
58.6 ,
25.0
35-0
12.60 '3
12.78 '^
58.1
59.1
9
xo
2
21.36 ^°
21.50 ^4
74-2 '
71.3 ''
32.90 I
33.02
:?:? s
15.74
15-89 '^
5^-9 :
55-3
Sec <J, Tan 6
1. 015 -0.17
1. 146 +0.560
1.606 +1.257
1. 00 1 +0.051
Mean Place
io*,885 48".85
20*.720 84". 4 1
33'-755 55".83
I4".277 66" .31
jy^a.T^^a
0.00 0.0c
►
-o.oi 0.00
-0.03 0.00
0.00 0.00
B^<5, D«cJ
, 0.0 -1.0
0.0 -1.0
0.0 -1.0
0.0 -1.0
1912
\ 28
[
£ph is]
434
APPAKENT PLACES OF STAES, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
0 him.
y SsfittazU.
70 OpUudii.
78 OpUuchi.
Mag. 3.9
Mag. 3.1
Mag. 4.1
Mag. 3.7
Mean Solar
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion S.
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion N.
h m
0 r
h xn
0 t
h m
0
»
h m
0 *
17 59
-50 5
18 0
-3025
If
18 0
+ 2,
ff
30
18 3
+ 932
Jan. i.o
4405
60.5 ,^
s
7.II
40.9
58.62
59.8
8^85 ,,
530 ^^
10.9
44-32 11
59.1 t
7.33 ^^
40.6 3
58.80 ^*
58.1
17
9.02 '7
20
51.0 "^
20.9
4465 ^3
57.8 3
L -rv 26
7-59 ,^
40.4 ^
59.01 "
56.5
16
16
T A
9-23 \\
49-0 !«
30.9
45.03 I
5^-^ \
7.88 ^9
40.3 ;
59.25 ^l
54.9
9-46 ^6
^^•^ 6
Feb. 9.9
45-44 ;,
43
55-8 9
8.19 ^
34
40.2
0
59-5X ll
53.5
^4
II
9.72 „
" 28
45.6 ll
19.8
45.87 ^.
55-1 .
^•53 ,,
40.2
59-79 ,^
52.4
8
6
10.00
44-3 ,„
29.8
46.32 ^5
54-6 5
8.87 34
40.2 ^
60.08 ^9
51.6
^°-^9 ^'
43-3 '°
42.7 t
Mar. 1 0.8
46.79 ^;
54-3 ^
9.22 ^^
9.58 ^j
40.2 °
60.38 3<^
51.0
10.58 ll
20.8
47.26 ^7
54-3 °
40.3 I
60.68 3«>
50.8
2
10.88 30
42.5 :
30.7
47.72 ^^
2
54-5 ,
9.94 „
0
40.3 ,
60.98 3^
50.9
I
H.I8 30
42.6 '
46
4
35
I
30
5
29
6
Apr. 9.7
48.18
54-9 -
10.29 . .
40u|.
61.28
51.4
"•47 ,„
43-2
19.7
48.62 ^
55-4 ,
10.63 3^
40.4 °
61.57 ^^
52.1
7
11.76 '9
44-1 »
29.6
49.04 ^
56-^ .1
10.95 ^^
40.5 '
61.84 ll
53.1
10
9 7
12.03 ,;
45.3 "
May 9.6
49.44:!
49.80 36
57-1 °
".53 !
40.7 I
62.09 ^5
54.3
12
12.28 ="5
46.8 5
19.6
58.2 "
40.9 ^
62.32 ^3
55.6
13
"•5^ ?,
48-5 I
32
12
25
2
21
14
21
18
29.6
50.12
59-4 ,^
"•78,^
41. 1
62.71 ;
57.0
12.72
5°-3 .„
June 8.5
50-40 ^°
60.8 '-^
22
12.00 "
41.5 ^
58.5
15
12.89 7
5»» \l
18.5
50.62 "
62.3 |5
12.18 '®
41.9 ^
62.85 4
60.0
15
13-03 *
54^° 8
28.5
50.78 \l
^3-9 '
12.32 '"^
42.3 z
62.96 "
61.4
14
I3-X3 'I
13.19 3
55^8 !
July 8.5
50.88 '°
4
65-5 "^
15
12.41 ^
4
42.8 5
5
63.03 ^
62.7
13
12
57-6 !^
18.4
50.92
67-0 ,^
12.45 _
43.3 .
63.06
63.9
13.22
59-2 ,^
28.4
50.90 ^
68.5 5
12.44 \
43.9 °
63.04 ^
65.0
II
13.20 ^
^3-^4 °
60.6 "4
Aug. 7.4
50.81 I
69.9 *
12.39 ^
44.4 I
62.99
65.9
9
61.8 "
17.3
50.67 \\
71.I "
12.30 ^
44.9 f
62.90 9
66.6
7
6
13.04 ^
62.8 '«
27-3
5<^-49 ^,
72.0 I
12.18 "
45.3 :
62.78 "
67.2
12.92 "
63.6 I
23
7
10
3
14
4
JS
6
Sept. 6.3
50.26
7^7 .
12.02
11.66 '^
45.6
62.64
62.48 ;6
62.32 «
67.6
12.77 „
64.2
16.3
5°-^' oA
73-1 ;
45.8 ^
67.7
I
12.60 '7
64.5 ^
26.2
20
49-75 °
73-2 '
45.8°
67.7
0
12.43 '^
64-5 °
Oct. 6.2
49-50 5
72.9 3
"•47 ;^
45.7 1
62.15 ^
67.5
2
12.26 '7
12.10 '*
64-3 '
16.2
49.26 '*
72.3 *
11.30 1
45.5
62.00 '5
67.1
4
63-8 i
21
9
14
4
»3
6
14
8
26.2
49-05 ,
^I"* „
II. 16
45.1 ^
61.87 ,„
66.5
"-96 „
^30 .„
Nov. 5.1
48-89 ^
7°-3 "
11.05 "
10.99
44.7 ;
61.77 '^
65.6
9
11.85 "
"77 :
62.0 '*»
I5-I
48.79 '°
68.9 *
44.2 5
61.70 '
64.6
10
60.8 "
25.1
48.76 3
^7-4 i
10.98 ^
43.7 ;
61.68 ^
63.4
12
11.74 f
59.3 1^
Dec, 5.0
48-79 ^
65.8 '<*
11.02 ^
43.2 f
61.70 I
62.1
13
"•75 i
57.6 7
II
17
9
5
7
15
6
«9
150
48.90 ,a
^4-^ ,*
II. II
42.7 ^
61.77
60.6
11.81
55-7 .„
25.0
49.08 '*
62.5 '^
11.26 '5
42.2 ^
61.88 "
58.9
17
"•92 !!
53-8 '9
350
49.32 ^^
60.9'*
11.45 '^
41.9 3
62.04
57.3
16
12.06 '4
51.8 ="«
Sccrf.Tanrf
1.559 -1. 196
1. 160 -0.587
1. 00 1 40.044
1. 014 40.168
Mean Place
46«.8i7 54".53
9V222 33". 71
6o«.40i 68" .99
io".63i 62".54
D'i^o,D«»a
+0.03 0.00
4O.02 0.00
0.00 0.00
0.00 0.00
J>^6,l>ui
0.0
-I.O
0.0
-i.o
0.0
-1.0
1
<^o
-1.0
[Eph 14]
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
435
Mean Solar
Date.
Jan. i.o
II.O
20.9
309
Feb. 9.9
19.8
29.8
Mar. 10.8
20.8
307
Apr. 9.7
19.7
29.7
May 9.6
19.6
29.6
Jiine 8.5
18.5
28.5
July 8.5
18.4
28.4
Aug. 7.4
17-4
27.3
Sept. 6.3
16.3
26.2
Oct. 6.2
16.2
26.2
Nov. 5.1
25.1
Dec. 5.1
•15-0
25.0
35.0
o Herovlis.
Mag. 3.8
Right
Aacenuon.
Sec 6, Tan 6
Mean Place
h
18
a
4.68
4.84
5.04
5.27
5.53
5.82
6.12
6.43
6.75
7.07
7.38
7.68
7.96
8.22
8.45
8.65
8.82
8.95
9.03
9.07
9.06
9.01
8.92
8.79
8.63
8.44
8.24
8.02
7.81
7.61
•743
7.28
7.17
7.II
7.09
7.12
7.20
7.33
sn
4
16
20
23
26
29
30
31
32
32
31
30
28
26
23
20
17
13
8
4
I
5
9
13
16
19
20
22
21
20
18
15
II
6
2
3
8
13
Declina-
tion N.
+ 2844
48.8
45.9
43.1
40.6
38.4
36.5
35.1
34-3
34.0
34.2
35.0
36.3
38.0
40.0
42.3
44-9
47.5
50.2
52.8
55.4
57.8
59-9 10
61.8 '9
63.4 ''
64.6
29
28
25
22
19
14
8
3
2
8
13
17
20
23
26
26
27
26
26
24
21
12
9
65.5
65.9
66.0
65.7
64.9
63.8
62.3
60.4
58.2
55.7
530
47.2
4
I
3
8
II
15
19
22
25
27
29
29
/^SsfittazU.
Mag. 4.0
Right
Asconaion.
h
18
m
8
8
28.05
28.25
28.48
28.74
29.03
20
23
26
29
30
32
29.33
29.65
29.97 ^^
30.30 33
30.63
33
32
30.95
31.27
31.58
31.87
32.13
32.37
32.58
32.76
32.89
32.98
33.03
33.04
33.00
32.92
32.81
32
31
29
26
24
21
18
13
9
5
I
4
8
II
14
32.67
32.51
32.34
32.17 11
32.01 '^
16
17
1. 141
6".562
+0.549
."
59 .10
31.87
31.77
31.69
31.72
31.80
31.92
32.10
14
10
6
2
3
8
12
18
Declina-
tion S.
— 21 4
65.8
66.0
66.3
66.6
66.9
67.1
67.3
67.4
67.4
67.3
67.1
66.9
66.6
66.3
66.0
65.7
65.5
65.3
65.2
65.1
65.1
65.1
65.2
65.4
65.5
65.6
65.7
65.8
65.8
65.8
65.7
65.6
65.6
65.5
65.5
65.6
65.7
65.9
2
3
3
3
2
2
I
o
I
2
2
3
3
3
3
2
2
I
I
o
o
I
2
I
I
I
I
o
o
I
I
o
I
o
I
I
2
fj Ssfittarii.
Mag. 3.2
Right
Awenaian.
1.072 -0.386
30".008 5 7 ".62
h
18
m
II
a
38.14
38.36
38.62
38.92
39.25
39.60
39.96
40.34
40.72
41.10
41.48
41.85
42.20
42.53
42.84
22
26
30
33
35
36
38
38
38
38
37
35
33
31
28
25
2Q
43.12
43.37
43.57
43.72 [^
43.83
II
6
43.89
43.89
43.84
43.75 ^,
43.62 '3
17
43.26 '9
43.06 ^°
42.86
42.67
20
19
16
42.51
42.38
42.30
42.27
42.30
42.39
42.53
42.72
13
8
3
3
9
19
Declina-
tion S.
-3647
27.1
26.4
25.8
25.2
24.7
24.4
24.1
23.9
23.8
23.7
23.8
23.9
24.1
24.4
24.8
25.3
25.9
26.6
27.4
28.2
29.1
30.0
30.8
31.6
32.2
32.7
33.1
33.2
33.1
32.9
32.4
31.8
31.0
30.2
29.3
28.4
27.6
26.8
7
6
6
5
3
3
2
I
I
I
I
2
3
4
5
6
7
8
8
9
9
8
8
6
5
4
I
I
2
5
6
8
8
9
9
8
8
Groombxidce 81(88.
Mag. 5.4
Right
Aacandon.
1.248
40'-397
-0.748
I9".56
h
18
m
12
14
52.40
52.54
52.73 !^
52.97
53.24
24
27
31
53.55 ,,
53.88 33
54.23 II
54-58 35
^^•^^ 35
55.29 ..
55.62 33
55-94 ^
56.23
56.48
29
25
22
56.70
56.87
56.99
57.07
57.09
17
12
8
2
3
57.06
56.98
56.85
56.68 '7
56.47 ^'
8
13
56.23
55.97
55.70
55.43
55.17
54.93
54.72
54.55
54.43
54.36
54.35
54.40
54.51
24
26
27
27
26
24
21
17
12
7
I
5
II
Declina-
tion N.
+42 7
33.6
30.3
27.1
24.2
21.6
19.4
17.8
16.8
16.4
16.6
33
32
29
26
22
16
10
4
2
8
17.4
18.8 '4
18
23
26
29
20.6
22.9
25.5
28.4
31.5
34.6 ''
37.7
40.7
31
31
30
28
26
23
19
43.5
46.1
48.4
50.3 ^^
51.8 '5
II
52.9
53.6
53.8
53.6
52.8
51.6
49.9
47.8
45.3
42.4
39.3
36.1
32.8 33
7
2
2
12
17
21
25
29
31
32
1.348 -K3.904
54«.523 43".86
-o.oi
0.0
0.00
-1.0
•to.oi 0.00
Q.o -i.o
fEph xa]
-K).02
0.0
0.00
-I.o
-0.02
0.0
0.00
-I.O
436
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan, i.o
II.O
20.9
30.9
Feb. 9.9
19.8
29.8
Mar. 10.8
20.8
30.7
Apr, 9.7
19.7
29.7
May 9.6
19.6
29.6
June 8.5
18.5
28.5
July 8.5
18.4
28.4
Aug. 7.4
174
273
Sept. 6.3
16.3
26.2
Oct. 6.2
16.2
26.2
Nov. 5.1
25.1
Dec. 5.1
150
25.0
35-0
Sec <f, Tan (5
Mean Place
I) V '^t ^t* ^
86 Draconis.
Mag. 5.0
Right
Ascenaon.
h
18
m
13
a
20.19
20.32
20.54
20.84
21.22
13
22
30
38
45
50
53
55
21.67
22.17
22.70
23-25
23.80 ^^
53
24-33
24.84 II
25.30 J
25.71 ^'
26.06 ^^
27
26.33
26.52
26.62
26.64
26.58
19
10
2
6
15
24
26.43
26.19
25.88 3^
^5-^ Is
24.59 ,,
24.08 5^
23.55 11
23.02 ^3
22.03
21-59 H
21.21
20.91
20.69
38
30
22
13
20.56
20.53
20.59
3
6
Declina-
tion N.
+ 64 21
tt
52.1
48.4 37
45.0 34
41.8 32
38.9 ''
36.5
34-7
33.5
33.0
33-2
34-0
35-5
37-5
40.0
42.8
46.0
49.3
52.7
56.1
59.4
24
18
12
5
2
8
15
20
25
28
32
33
34
34
33
31
29
25
22
62.5
65.4
67.9
70.1
71.8 '7
13
73-1
73-9
74.1
73.9
73.1
8
2
2
8
14
18
71.7
67.6 ^3
64.8 ^^
61.7 3^
34
58.3
54.8 35
51. 1 ''^
2.312 4-2.084
23*423 62".32
■0.06
0.0
-O.OI
-1.0
S Bsfittazil.
Mag. 2.8
Right
Aacendon.
h
18
m
15
a
19.52
19.73
19.97
20.25
20.55
21
24
28
30
32
34
35
35
20.87
21.21
21.56
21.91
22.26 35
35
22.61
22.96 35
23.29 33
23.60 3^
23.89 "
24.16
24.39
24.58
24.73
24.84
24.90
24.91
24.87
24.79
24.67
24.52
24.35
24.17
23.99
23.81
23.66
23.55
23.47
23.45
23.47
29
27
23
19
15
II
6
I
4
8
12
15
17
18
18
18
15
II
8
2
2
8
23.55
23.68 '3
23.85 '7
Declina-
tion S.
-2951
67.0
66.7
66.4
66.2
66.0
65.9
65.8
65.6
65.5
65.4
65.3
65.2
65.2
65.2
65.2
65.3
65.5
65.8
66.2
66.6
67.1
67.7
68.2
68.7
69.1
69.4
69.7
69.8
69.8
69.7
69.4
69.1
68.7
68.2
67.7
67.2
66.7
66.3
3
3
2
2
I
I
2
I
I
I
I
o
o
o
I
2
3
4
4
5
6
5
5
4
3
3
I
o
I
3
3
4
5
5
5
5
4
X.153 -0.574
2i*.620 58".95
-K).02 0.00
0.0 -1.0
[Bph x«]
7; Setpentli.
Mag. 3.4
Right
Aaoenaion.
h
18
VOL
16
43.53
43.69
43.89
44.12
44.38
44.65
44-94
45.23
45.53
45.83
16
20
23
26
27
29
29
30
30
30
46.13
46.43
46.71
46.97 _
47.22 5
30
28
26
47.44
47.64
47.80
47.92
48.01
48.05
48.06
48.02
47.94
47.83
47.70
47.54
47.38
47.22
47.06
46.92
46.81
46.74
46.71
46.72
46.78
46.88
47.02
22
20
16
12
9
4
I
4
8
II
13
16
16
16
16
H
II
7
3
I
6
10
14
Declina-
tions.
-255
295
30.8 '3
32.1 '3
12
II
9
7
4
I
I
4
7
9
10
XI
12
33.3
34.4
35.3
36.0
36.4
36.5
36.4
36.0
35.3
34.4
33-4
32.3
31. 1
29.8 '3
28.5
27.3
26.2
13
12
II
10
25.2
24.4
23-7
23.1
22.7
22.4
22.2
22.2
22.3
22.6
23.1
23.7
24.4
25.3
26.3
27.4
28.7
30.0
8
7
6
4
3
2
o
I
3
5
6
7
9
10
II
13
13
1. 00 1 -0.051
45"-334 2o".37
0.00
0.0
0.00
-1.0
€ 8a«ittaxll.
Mag. 2.0
Right
Aacenaion.
h m
18 18
a
17.66
17.87 "
18.12 ^5
18.40 ^^
18.71 3^
34
19.05
19.40 35
19.76 36
20.13
20.50
37
37
37
20.87
21.23
21.58
21.91
22.22
22.50
22.74
22.95
23.11
23.22
23.28
23.30
23.26
23.18
23.05
36
35
33
31
28
24
21
16
II
6
2
4
8
13
16
22.89
22.71
22.52 ]^
22.33 "'
22.14
21.98
21.85
21.77
21.74
21.76
18
J9
19
16
21.83
21.96
22.14
13
8
3
2
7
13
18
Declina-
tion S.
-3425
45-1
44.5
43.9
43.4
43.0
42.7
42.4
42.2
42.0
41.9
41.8
41.8
41.8
42.0
42.2
42.6
43.0
43.5
44.2
44-9
45.6
46.4
47.1
47.8
48.4
48.9
49-2
49.4
49.4
49.2
48.8
48.3
47.7
47.0
46.3
45.5
44.8
44.1
6
6
5
4
3
3
3
2
I
I
o
o
3
2
4
4
5
7
7
7
8
7
7
6
5
3
2
o
2
4
5
6
7
7
8
7
7
1. 212
X9'.848
-0.686
37".03
40.03
0.0
0.00
-1.0
APPAEENT PLACES OF STARS, 1912
437
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
109 HercnliB.
Mag. 3.9
ot Telescopli.
Mag. 3.8
A. Sagittarli.
Mag. 2.9
;t Braconis.
Mag. 3.7
Date.
Right
Ascension.
Declina-
tion N.
Right
Ascension.
Declina-
tion S.
Right
Ascension.
Declina-
tion S.
Right
Ascension.
Declina-
UonN.
h m
0
t
h m
0
t
h m
0
t
h m
e *
18 19
+21
43
18 20
-46
I
18 22
-252
!8
18 22
+ 7241
Jan. I.O
II.O
20.9
30.9
Feb. 9.9
•
5502
55-34 ',
55-56 "
55-81 ^5
27
34.4
31.8
293
27.0
24.9
26
23
21
17
t
24.36 ,^
24.60 ''x
24.88 ^^
25.21 33
25.57 ^^
39
12. 1
10.8
9.6
8.5
7.5
13
12
II
10
8
30.38
30-57 Z
30.80 ^3
31.343,
25.2
25.1
25.0
25.0
25.0
I
I
0
0
I
s
34.19
10
34-29 °
34-52 3
34-88 36
35-37 %
3'-9 ,ft
28.3 36
24.8 35
21.5 33
18.6 ='9
25
19.9
29.8
Mar. 10.8
20.8
30.7
56-08
56-36 ^«
56.66 3°
56-97 \\
57.28 3'
30
23.2
21.9
21. 1
20.8
20.9
13
8
3
I
7
25.96
26.37 "^^
26.80 «
27.23 ^3
27.67 +♦
43
6.7
6.1
5.6
5-3
5.2
6
5
3
I
0
31.65
31-97 ^'
32.30 ^^
3264 34
32.98 3*
34
24-9
24.9
24.8
24.7
24.5
0
I
I
2
2
35-95 ,
36.62 ^7
37-34 n
38-10 7J
38.86 76
75
16.I
14.2 '9
12.9 '3
12.3 I
12.3 y
Apr. 9.7
19.7
29.7
May 9.6
19.6
57-58
58-43 \\
58.67 '^^
22
21.6
22.7
24.2
26.0
28.1
II
15
18
21
23
28.10
28.52 4^
28.93 ta
29.31 ,°
29.67 3"
32
5-2
5.4
5.8
6.4
7.1
2
4
6
7
9
33.32
33.65 -^^
33.97 ,,
34.28 3^
24.3
24.1
23.8
23.6
23-4
3
3
2
2
2
39.61
40.32 7'
40.97 ^^
41.54 f
42.01 *^
36
13.0
^4-3 \\
16.2 '9
18.6 ='4
21.4 ^8
30
29.6
58.89 -
59.07 \\
30.4
^> M
2999 _8
30.27 '°
8.0
T #^
34.82
23.2
m
42.37 „
24.4
June 8.6
32.8
24
9.0
10
35.05 ^3
23-1
I
42.62 =^5
27.6 3^
18.5
28.5
July 8.5
59.22 5
5932 ,
59.39 ;
35.2
37.6
40.0
24
24
24
22
30.51 ,J
30.69 !
30.82 '3
0
10.2
11.5
12.8
12
13
13
14
35.25 °
35-40 ^
II
35.51 ^
23.1
23.2
23.4
0
I
2
3
42.74 "
42.73 '
42.60 '3
25
31.0 ^^
34.4 ^*
37.7 %
18.4
5941 .
42.2
30.88
14^2
35-57 ^
23.7
42.35 „
4°-9 ,0
28.4
Aug. 7.4
59-39 ,
59-32 7
44.2
45-9
20
17
30.89 '
30.84 5
155
16.8
13
13
35-59 ,
35-56 !
24.0
24.3
3
3
4^-98 ^l
41.50*'
43-8 ^9
46.4 '
17.4
273
59.22 -
59.09 ^3
47.4
48.6
15
12
9
30.74
30.59 ,5
18.0
19.0
12
10
7
35-49 J
35.38 ;;
24.6
24.9
3
3
3
40.93 "
40.27 ^^
72
48.7 ^
50.6 '9
14
Sept. 6.3
16.3
26.3
Oct. 6.2
16.2
5^-9^ ,8
58.74 \l
58.55 \l
58.36 \l
58.17 \]
49-5
50-0
50.2
50.0
49.4
5
2
2
6
9
30.40 .
30.18 "
29.94 ^^
29.70 ^*
29.48 "
20
19.7
20.3
20.5
20.4
20.1
6
2
I
3
6
35.08 ^
34.90 «
34.73 '
34.56 ;j
25.2
25.4
25.5
25.6
25.6
2
I
I
0
I
39.55 „
38-78 Z
37-98 «°
37-^8 «°
36.39 \\
52.0
52.9 ;
53.3 *
53.2 ,
52.6 *
12
26.2
Nov. 5.1
58.00
57.86 \l
48.5
47.3
12
16
19
21
24
29.28
29.12
19.5
18.6
9
34.41
34.30 "
34.22
34-19 ^
34.21 ^
25.5
25.3
2
35.64 „
34-94 L
34.32 *
33.80 5^
33.40 4^
49-7 ';
15.1
25.1
Dec. 5.1
57.76 '°
5769 I
57.67 ,
3
45-7
43.8
41.7
29.01
28.96 5
28.97 ;
1 7-5
16.3
14.9
1 1
12
15
25.1
24.8
24.6
2
3
2
2
47-5 \\
44-9 ,„
41.9 3°
33
15.0
25.0
350
57.70
57.78 8
57.89 "
39.3
36.8
34.2
25
26
29.04
29.18 '^
29.38 ^°
13.4
12.0
10.6
14
14
34.28
II
34-39 ,
34-56 >7
24.4
24.2
24.0
2
2
33.12
32.98 '4
32.98 °
38.6
35.1 J^
315 ^
Sec cJ, Tan 6
1.076 +0.398
1.440
-1.037
1. 108
-0.476
3.361 +3.210
Mean Place
56V862 44". 11
26«.9I5
4".35
32".398
i6".55
38'.745 4i".40
DV a, D« a
-o.oi 0.00
+0.03
+0.0 ]
[
+0.01
0.00
-0.08 -0.02
D^d, D«»cf
0.0
-i.o
1
0.0
-1.0
0.0
-1.0
0.0
-1.0
[Eph xa]
438 APPARENT PLACES OF STABS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
c Sexpentis.
Mag. 5.4
1 AquiUD.
Mag. 4.1
Mag. 4.1
a Lyne.
Mag. 0.1
Date.
Right
Ascension.
Declina-
tions.
Right
Ascension.
Declina-
tion S.
Right
Ascension.
Declins-
tionS.
Right
Ascension.
Daclintt-
tionN.
li
m
0
*
h m
0 t
h m
0
h m
e #
18 25
— 2
2
18 30
-818
ft
18 32
-71 30
18 33
+ 3841
Jan. I.O
4.38
16
19
22
25
27
43-9
23.26
2342 ,„
23.61 '9
23.84 '^
24.09 ^
27
32.1
4025
25.9 .,
55-44 „
55-2 „
II.O
20.9
30.9
Feb. 9.9
4-54
4.73
4.95
5.20
45.2
46.5
47.7
48.8
13
13
12
II
9
33.0 I
33-9 '
34-8 I
35.6 I
40.62 -^^
42-39 ^,
23.2 ^'
20.7 ^5
18.4 '3
16.3 "
. 17
55.56 "
55.72 '*
21
55.93 ,,
5^-^« ^8
52.0 3=*
48.9 3^
46° 6
43.4 „
19.9
29.8
Mar. 10.8
5-47
576
6.05
29
29
49.7
50.3
50.7
6
4
24.36 ,„
24-94 J
36.2
36.7 t
36.9 I
lil2 «^
^•®^ 88
14.6
13.2 '4
I2.I "
56.46
56.77 ^'
57.09 11
41.2
39.5 ]l
38.4 "
20.8
30.7
6.35
6.65
30
30
30
50.8
50.6
I
2
4
25.25 t^
25.56 3'
31
36.9 °
36.7 I
4
II. I '^
I
57-43 :t
5778 35
34
37.9 X
37.9 1
Apr. 9.7
6.95
50.2
*5®7 „
36.3 ,
35.7 8
34-9
33.0
10
47-47 g,
48-34 |!
49-17
49-95 ;,
S0.67 11
II.2
58.12
38.5 ,,
19.7
29.7
May 9.6
19.6
7.25
7.53
7.81
8.06
30
28
28
25
23
49.5
48.5
47.4
46.2
7
10
II
12
13
26.17 ^
26.46 11
27.00 "^
24
11.7 *
12.6 9
13.8 "
58-45 33
58.77 11
59.07 3«
59.34 ,;
MM •. *2
39.7
43.6 "
Je.i ^'s
27
29.6
June 8.6
18.5
28.5
July 8.5
8.29
8.49
8.66
8.79
8.88
20
13
9
5
44-9
43.5
42.2
40.9
39.7
14
13
13
12
II
^7-24 „
27.46 ]l
27.64 \l
27.78 '♦
27.88 '°
32.0
3^-9 10
29.9 'I
29.0 ^
28.1 9
7
51-31
51.86 "
52-31 45
5?-64 ^^
52.85 "
9
17.1
19.2 "
21.5 '3
24.0 '5
26.5 '5
25
59-57 ,„
59.77 ^
5992 ,x
60.02 '°
60.08 *
0
48.8
54.8 3'
57-9 1:
60.930
29
18.4
28.4
Aug. 7.4
17.4
8.93
8.94
8.91
8.84
I
3
7
38.6
37.7
36.9
36.2
9
8
7
27.94 ,
27.96
2793 I
27.87 ^l
27.4 .
26.7 '
26.2 ^
25.8 t
52.94 .
52.90 ,J
52.46 ll
52.08 3«
47
29.0
3X.5 ^J
33.8
37.7 ^
14
60.08
60.03 5
59-94 '
59.80 *
59.62 '*
31
66.4'^
68.8 »4
»^ « 21
70.9 „
27-3
8.74
10
13
35.7
5
3
27-77 '°
12
25-5 ;
72.6 '7
13
Sept. 6.3
16.3
8.61
8.46
15
16
17
14
35.4
35.2
2
27.65
IS
27.50 ]l
27-34
17
27.17 '
IS
27.02 ^
14
25-4 -,
25-3 ^
51.61
51.08 53
39.1
40.0 9
59.41
59.>8 ^3
73.9 „
74.8 I
26.3
Oct. 6.2
16.2
8.30
8.13
7.98
35.1
35.2
35.5
I
I
3
4
25-3 ,
25-4 I
50.51 11
49.93 ,.
49.37 f^
40.5 ;
40.5 °
40.0 5
10
58.93 l\
58.68 'S
58.43 '5
23
75-2 ^
75-2 °
74-7
10
26.2
Nov. 5.1
15.1
25.1
Dec. 5.1
7.84
7.72
7.64
7.61
7.61
12
8
3
0
5
35.9
36.5
37.3
38.1
39.1
6
8
8
10
12
26.88
26.77 "
26.69
26.65 ^
26.65 °
0
25-9 .
26.3 *
26.8 5
27-4 ,
28.1 I
8
48.85 ^^
48.40 «
48.05 ^5
47.81 ^*
II
47.70 "
39.0
37-5 !'
35.6 11
33-4 "
30.9 ^'
27
58.20
58.00 »°
57.83 ''
57.71 "
57.63 ;
73.7
72.3 ;4
70.5
65.7 '*
29
150
25.0
35.0
7.66
7.76
7.89
10
13
40.3
41.6
42.8
13
12
26.70
26.80 '°
26.94 '^
28.9
29.8 9
30.7 9
47.72 .
47.88 '^
48.18 3°
28.2
22.7
57.61
57.64 3
57.72
62.8
59.8 3«
56.6 3*
Sec <J, Tan 6
«-- " - -
1. 00 1 -0.036
1. 01 1 -0.146
3.153 -2.990
1.282 -HxBot
Mean Place
6«.i
87 34".6i
[
25*.097 22". 80
45'.334 x7"-78
57'-538 64".37
jy^ a, Dm 0
0.00 0.00
0.00 0.00
+0.08 +0.03
-0.02 -0.01
D,^ d, Dm 6
o.c
>
-1.0
+0.1
-I.O
+0.1
-I.O
+0.1
-I.O
[Eph I a]
APPARENT PLACES OF STARS, 1912. • 439
FOR THE UPPER TRANSIT AT WASHINGTON.
2 AqullA.
^ Bagittarli.
110 HerouUs.
6 AqullsB*
Mag. 4.7
Mag. 3.3
Mag. 4.3
Mag. 4.5
Mean Solar
Date.
Right
Declina-
RiRht
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion S.
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tions.
h m
a
1
h m
e t
h m
0 '
h m
0 (
18 37
- 9
8
18 40
-27 4
18 41
+ 2027
18 42
-450
am
Jan. i.o
s
25-55 ,,
24,4
8
8
7-50 ,,
64.7
s
50.56 ,,
31-8 ^^
s .
28.50
43-5 „
II.O
25.70 5
25.2
7.67 7
64.4 3
50.68 ]l
50-84 ll
29.3 5
28.64 'J
28.82 "8
44-6"
20.9
25.89 11
26.1
9
0
7.88 \\
64.2 ^
26.9 '^
45-6 '«
30.9
26.11 "
26.9
8
^'^ A
64.0
51-04 1°
24-7 ^-;
29.04 "
46.6 '°
Feb. 9.9
26-35 It
27.6
7
8.40 \i
63.7 3
51-27 „
22.6 "
29.27 ^3
47-5 '
27
5
30
2
25
J7
26
7
19.9
26.62
26.90 ^*
28.1
8.70
63.5 ,
51-52
20.9
29.53 ,«
48.2
29.8
28.5
4
901 „
63.3 '
5^-79 ,„
19.6 '3
29.81 8
48.7 5
Mar. 10.8
27.20 ^
28.7
2
9.34 ,^
63.0 3
52.08 2
18.7 9
30.10 ^
49.0 3
20.8
27.50 3°
28.7
0
9.68 ^4
62.7 3
52.38 3°
18.3 *
30.39 I?
0
49-0 ,
30.8
27.81 3
28.4
3
10.02 ^^
62.4 3
52.69 3'
18.4 '
30.69 3°
48.8 ^
3»
5
35
4
31
6
31
5
Apr. 9.7
28.12
27.9
^
IO-37
62.0
53.00
19.0
31.00
48.3
19.7
28.42 ^°
27-3
6
8
10.71 ^^
61.6 4
53.30 3°
20.0 ^°
3^30^^
47-6 7
29.7
28.72 30
26.5
11.05 34
61.2 4
53-59 ,^
21-4 1
31.60 30
46.7 ,^
May 9.6
29.01 ^'
25.6
9
11.37^'
60.9 3
53-87 ll
=3-1 !
31.88 ^8
45.6 ' '
19.6
29.28 ^7
24.6
10
11.673°
60.7 ^
26
54-13 ::
25.2
32.15 ""^
44.4"
24
10
28
2
23
22
25
12
29.6
29.52 ,,
23.6
« ^^
11.95 ^^
60.5
54-36
^7-4 ,^
32.40
43.2 „
June 8.6
29.74 "
22.6
10
12.20 ^
60.4
54-56 ^°
29-8 '1
32.61 "
41.9 '^
18.5
2993 ,1
21.6
10
"•4^ ^^
60.4 ^
54.73 ';
32.2 ^
32.80 '9
40.6 3
28.5
30.08 '5
20.6
10
12.58 7
60.5 I
54-86 '3
34-7 11
32.95 If
39-4 !
July 8.5
30.19 "
19.7
9
12J71 '3
60.7 ^
54-94 °
37-0 ,3
33.06 "
38.4 '°
7
7
9
3
d
32
7
10
18.5
30.26
19.0
6
12.80
61.0
54.99 ^
39-2
33.13 .
37.4 „
28.4
30.28 I
18.4
12.83 3
61.4 ^
54.99 ^
4' -3 "
33.16 3
■36.5 ^
Aug. 7.4
30.26
17.9
5
12.81 =
61.8 4
54.94 I
54.86 °
43-2 9
33.14 ^
33.08 I
35-8 7
35-2 °
17.4
30.21 5
17.5
4
12.76 5
62.2 ^
44-7 \l
27.3
30.11 °
17.3
2
12.66 '"
62.6 4
54.74 '
46.0 3
32.99 9
34-8 4
12
I
13
4
»5
10
12
3
Sept. 6.3
29-99 „
17.2
"•'^ 18
I2.0I '8
63.0
54.59 ^^
47-0
32-87 ,^
34-5 ,
16.3
2984 ^
29.68
29-52 ,-
29.36 ^
17.1
I
63.4 t
54.42 7
47-7 7
32.73 *
3^-57 ^
32-25 '^
34.4 ;
26.3
17.1
0
63.6 ^
54.23 Z
48.0 3
34.3 ;
Oct. 6.2
17.2
I
63.7 I
54.04 ,^
48.0 °
34.4 ,
16.2
17.4
2
11.84^7
63.7 °
53.85 ]l
47.6 J
34-6 '
14
3
15
0
17
8
15
4
26.2
29.22
17.7
11.69 ,,
63.7 ^
53.68
46.8
32-10
."^S.o
Nov. 5,2
29.10 "^
29.02
18.0
3
11.56 '3
63.5 '
53.53 ,^
«-8 !
31-98 "
31.90 °
35-5 \
36.1 ;
15.1
18.5
5
11.47 9
63.2 3
53.41 'i
53.33 ,
44.4 ^
25.1
28.98 I
19.0
5
11.42 5
62.9 3
4^-7 '0
31-85 ^
36.8 7
Dec. 5.1
28.98 ^
19.7
7
11.42
62.6 3
53.30 3
4°-7 '°
31-84 '
37.6 *
4
7
5
3
I
22
4
10
150
29.02
20.4
"•47 ,^
62.3
53.31
38.5 „
31.88
38.6 ^
25.0
29.H 9
21. 1
7
"•57 ^
62.0 3
53.36 5
36.2 'J
31.96
39.6 _
35.0
29.24 '^
22.0
9
11.71 '4
61.6 4
53.46 '^
33.7 '5
32.08 "
40.7
Sec <5, tan <5
1.013 -0.161
1. 123 -0.512
1.068 +0.373
1 .004 -0.085
Mean Place
27-.384 i4".99
>
9"-520 55".3i
52".4i9 4o".98
30*.3i7 33"-99
D'^ a, Dw a
0.00 0.0c
>
+0.01 -»-o.oi
-0.0 1 0.00
0.00 0.00
D^ 6, Dm d
■to. I
-1.0
+0.1
-1.0 1
+0.1
-1.0 1
+O.I
-1.0
[Bph xsj
440 • APPAEENT PLACES OF STABS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
A. PaTonis.
Mag. 4.4
RiRht
Ascension.
Jan. i.o
II.O
21.0
30.9
Feb. 9.9
19.9
29.8
Mar. 10.8
20.8
30.8
Apr. 9.7
19.7
29.7
May 9.7
19.6
29.6
June 8.6
18.5
28.5
July 8.5
18.5
28.4
Aug. 7.4
17.4
27.4
Sept. 6.3
16.3
26.3
Oct. 6.2
16.2
26.2
Nov. 5.2
25.1
Dec. 5.1
I5-I
25.0
35-0
Sec <5, Tan A
Mean Place
D'^o, Dm a
T>^ ^, Dm d
h
18
s
0.42
0.68
1.02
143
1.90
2.42
2.99
3.58
4.19
4.81
5-44
6.05
6.65
7.22
7.75
8.23
8.65
9.01
9.29
9.48
9.59
9.61
9.54
9.39
9.17
8.88
8.55
8.18
7.80
743
7.09
6.79
6.56
6.41
6.34
6.36
6.48
6.69
m
44
26
34
41
47
52
57
59
61
62
63
61
6<9
57
53
48
42
36
28
19
II
2
7
15
22
29
33
37
38
37
34
30
23
15
7
2
12
21
Declina-
tion S.
/S LyzK.
Var. 3.4-4.1
— 62 17
31.5
29.1
26.9
24.8
22.9
21.3
20.0
18.9
18.I
17.6
17.5
17.6
18.I
18.9
20.0
21.4
23.0
24.8
26.8
28.9
24
22
21
19
16
13
II
8
5
I
I
5
8
II
14
16
18
20
21
22
21
20
19
3I-I
33.2
35.2
37.1
38.8 '7
13
40.1
41. 1
41.7
41.8
41.5
40.8
39.7
38.1
36.3
34.2
10
6
I
3
7
II
16
18
21
23
319 ,,
29.6 ^^
27.2 ^^
2. 151
3*956
-1.904
22". 18
Right
Ascension.
h
18
m
46
II
8
47.83
47.94 , ,
48.09 '5
48.28 '9
20
4905
4936 II
49.68 3^
50.00 "'
33
50.33 „
50.65 3^
50.96 3'
51.26 30
51.53 ''
^0.05
+0.1
K).02
-1.0
51.77
51.98
52.15
52.27
52.35
52.38
52.36
52.29
52.18
52.03
51.85
51.64
51.42
51.19
50.97
50.76
50.57
50.42
50.30
50.23
50.21
50.24
50.31
24
21
17
12
8
3
2
7
II
15
18
21
22
23
22
21
19
15
12
7
2
3
7
Declina-
UonN.
+ 33 15
27.0
24.0
21. 1
18.4
15.9
13.8
12.2
II.O
10.4
10.4
10.9
12.0
13.6
15.6
17.9
30
29
27
25
21
16
12
6
o
5
II
16
20
23
26
60 Draconto.
Mag. 5.4
28
20.5
^3-3 ^^
26.2 ^9
29.2 3°
32.1
34.8
37.4
39.7
41.7
43.4
44.7
45.6
46.1
46.2
45-9
45-1
43.9
42.3
40.3
37.9
35.3
32.5
29.5
29
27
26
23
20
17
13
9
5
I
3
8
12
16
20
24
26
28
30
1.196 fo.656
49'.845 35".76
-0.02 -0.0 1
+0.1 -1.0
[F.ph is]
Right
Ascension.
h
18
m
49
15
7.68
7.66
7.81
8.12 ^l
8.58 4^
59
9.17
9.88 7^
0.67 79
-39 8^
3.27
'84
4.1 1 ^
4.9079
5.60 1°
6.21
61
49
35
21
6
8
23
37
51
63
73
82
88
1. 18 9^
0.22
6.70
7.05
7.26
7.32
7.24
7.01
6.64
6.13
5.50
4.77
3-95
3.07
96
93
9.29
8.41
7.61
6.91
6.33
88
80
70
58
44
5.60^9
5.48 "
Declina-
tion N.
+ 75 19
It
38.6 36
35.1 ^^
31.8^3
28.7 3»
26.0
23.9
22.3
21.3
21.0
21.4
22.4
23.9
26.0
28.6
31.5
34.7
38.1
41.5
44.9
48.3
51.4
54.3
56.9
59.1
60.9
62.3
63.2
63.5
63.3
62.6
61.3
59-6
57.3
54.6
51.6
48.3
27
21
16
10
3
4
10
15
21
26
29
32
34
34
34
34
31
29
26
22
18
14
9
3
2
7
13
17
23
27
30
33
44
.8 35
3.949 ^3.820
I3«.i82 49"-53
(T Safittaxii.
Mag. 2.1
Right
Ascension.
h
18
m
49
-0.10
+0.1
-0.05
-1.0
s
46.52
46.68
46.88
47.11
47.37
47.66
47.97
48.29
48.63
48.97
16
20
23
26
29
31
32
34
34
34
34
34
32
49.31
49.65
49.99
50.31
50.62 3>
^ 2«
50.90
51.16
51.38
5^-56
51.70 '^
26
22
18
SI. 79
51.83
51.83
51.78
51.68
51.56
51.41
51.24
51.06
50.89
4
o
5
10
12
15
17
18
17
16
50.73
50.60 ^3
50.50 '"^
50.45
50.44
50.48
50.57
50.70
9
13
1. 116
-►o.oi
+O.I
Declina-
tion S.
— 26 24
34.8
34-6
34.4
34.1
33.8
33.5
33.2
32.9
32.5
32.1
31.7
31.2
30.7
30.3
30.0
29.7
29.5
29.4
29.4
29.6
29.8
30.2
30.6
31.0
31.4
31.8
32.1
32.4
32.6
32.6
32.6
32.5
32.3
32.1
31.8
31.5
31.2
30.9
2
2
3
3
3
3
3
4
4
4
5
5
4
3
3
2
I
o
2
2
4
4
4
4
4
3
3
2
o
o
I
2
2
3
3
3
3
-0.497
24".96
+O.OI
-1.0
APPARENT PLACES OF STARS, 1912.
441
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. i.o
II.O
2I.O
30.9
Feb. 9.9
19.9
29.8
Mar. 1 0.8
20.8
30.8
Apr. 9.7
19.7
29.7
May 9.7
19.6
29.6
June 8.6
18.5
28.5
July 8.5
28.4
Aug. 7.4
17.4
27.4
Sept. 6.3
16.3
26.3
Oct. 6.2
16.2
26.2
Nov. 5.2
25.1
Dec. 5.1
25.0
35.0
Sec<5,Tand
Mean Place
o Draoonis.
Mag. 4.8
Right
Ascension.
b m
18 49
8
51-32
51.38
5 1 52
51.73
52.02
52.36
52.75
53.19
53.65
54.12
54.60
5506
55.50
55.91
56.27
6
14
21
29
34
39
44
46
47
48
46
44
41
36
31
56.58
56.82 ^i
57.00"
57.10
57.13
18
10
57.08
56.96
56.77
56.51
56.20
55.84
55.44
55.02
54.58
54.15
12
19
26
31
36
40
42
44
43
42
53.73
53.35
53.01
52.72 .:
52.50
38
34
22
52.35
52.28
52.29
15
7
I
Declina-
tion N.
+ 59 16
38.6 36
35.2 ^^
31.8 ^^
28.8 ^^
26
26.2
24.0
22.5
21.6
21.4
21.8
22.9
24.6
26.8
29.4
22
15
9
2
4
II
17
22
26
29
32
34
35
32.3
35.5
38.9
42.4
45.8 3^
33
49.1
52.3
55.2
57.7
59.9
61.6
62.9
63.7
64.0
63.8
32
29
25
22
17
13
8
3
2
8
63.0
61.6 '^
59.8
57-5 II
54.8 '7
31
51.7
48.3 ^^
44.8^5
1.958 +1.682
54«.290 49".96
-0.04
+0.1
-0.02
-1.0
0 SespentiB pr.
Mag. 4.5
Riglit
Ascension.
h
18
m
51
s
48.87
49.00
49.16
49.36
49.58
13
16
20
22
25
26
28
49.83
50.09
50.66 II
50.96 ^
51.26
51.56
51.85
52.14
52.41
52.65
52.86
53.05
53.20
53.31
53.38
53.41
53.40
53.34
53.25
53.13
52.98
52.82
52.65
52.49
52.34
52.21
52.11
52.05
52.03
52.05
52.11
52.22
30
30
30
29
29
27
24
21
19
15
II
7
3
I
6
9
12
15
16
17
16
15
13
10
6
2
2
6
II
Declina-
tion N.
+ 45
7.1 "•
5.6 '5
4.1 'S
2.8 '3
10
1.8
1.0
0.5
0.3
0.5
1.0
1.9
3.0
4.4
5.9
7.6
9.3
II.O
12.8
14.4
15.9
17.2
18.4
19.4
20.2
20.8
21.2
21.3
21.3
21.0
20.5
19.9
19.0
17.9
16.7
9
I
4
5
7
7
7
8
6
5
3
2
o
8
6
4
I
o
3
5
6
9
II
12
14
15.3
13.8 '5
12.3
15
1.003 +0.072
5o".67i 18" .09
0.00 0.00
+0.1 -1.0
[Bph la]
H Lyne.
Var. 4.0-4.7
Right
Ascension.
h
18
xn
52
37.20
37.29
37.42
37.61
37.85
38.12
38.43
38.76
39.12
39.48
39.84
40.20
40.55
40.87
9
13
19
24
27
31
33
36
36
36
36
35
32
4-6 11
41.42
41.64
41.82
41.94
42.01
42.02
41.98
41.88
41.74
41.55
22
18
12
7
I
4
10
14
19
22
41.33 _
41.08 ^5
40.81
40.52
40.24
27
29
28
26
39.98
39-74
39.53
39-37
39.25
39.19
39.18
39.24
24
21
16
12
6
I
6
Declina-
tion N.
+43 49
38.8
35.6
32.4
29.3
26.5
32
32
31
28
24
19
24.1
22.2
20.8 '^
7
20.1
19.9
20.4
21.5
23.1
25.2
27.6
30.4
33.5
36.7
39.9
43.1
46.2
49.1
51.7
54.1
56.1
57.7
58.8
59.5
59.7
59-5
58.8
57.5
55-7
53.6
51. 1
48.2
45.1
41.9
2
5
II
16
21
24
28
3X
32
32
32
31
29
26
24
20
16
II
7
2
2
7
13
18
21
25
29
31
32
1.386 +0.960
39*458 46".95
-0.02
+0.1
-0.0 1
-1.0
£ Aqnile.
Mag. 4.2
Right
Ascension.
h
18
m
55
35*86
35.97
36.12
36.31
36.53
II
15
19
22
24
26
28
36.77
37.03
37.31 ^^
37.60 ^9
37.90 t^
30
38.20
3S-50 ^^
38.80 ^^
39.08 "
39.35
28
27
24
39.59
39.80
39.99
40.13
40.24
40.30
40.32
40.30
40.23
40.13
40.00
39.84
39.66
39.48
39.31
39.14
39.00
38.89
38.81
38.77
38.78
38.82
38.91
21
19
14
II
6
7
o
3
6
8
8
7
7
4
I
8
4
I
4
9
Declina-
tion N.
+ 1456
44.0
41.8
39.7
37.7
35.9
34.4
33-2
32.4
32.1
32.2,
32.7
33-7
350
36.6
38.5
40.5
42.7
45.0
47.2
49.4
51.4
53.3
55.0
56.4
57.6
58.6
59.2
59.6
59.6
59-3
58.8
57.9
56.7
55-3
53.6
51.7
49-7
47.6
22
21
20
18
15
12
8
3
I
5
10
13
16
19
20
22
23
22
22
20
19
17
14
12
10
6
4
o
3
5
9
12
14
17
19
20
21
1.035 +0.267
37«.69i 53"-oo
-0.01
+0.1
0.00
-1.0
442
APPARENT PLACES OF STABS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
yl^jtm.
C Sagittarii.
C AqiiUA.
A. AqniUe.
Mean Solar
TV A.
Mag. 3.3
Mag. 2.7
Mag. 3.0
Mag. 3.6
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tions.
Ascension.
tion N.
Ascension.
tion &
h m
0 9
h m
0
h m
0
h m
e t
18 55
+ 3233
18 56
-30 0
19 I
+ 1343
19 I
-50
Jan. I.O
t
3707 ,„
57-2 ,„
58*75 ,
35-1 ,
s
20.09
46.1 „
•
32.93
64.2
II.O
37-^7 °
54-3 \l
5891 '^
34.6 \
20.20 "
440 "
12
33 05
65.2 '°
2 I.O
37-31 \l
37.49 '^
51.4 9
59.11 °
34.1 ^
20.35 ]l
42° 20
17
33-22 *^
66.2 '°
30.9
4«-7 !
59.34 Jt
33.6 ^
20.53 „
40.0 ]°
33.41 '9
671 I
Feb. 9.9
37-71 "
463 't
59.61 ^7
33.1 \
20-74 "
38.3 ^
33.63 "
67.9
25
21
29
5
23
i.S
25
7
19.9
37.96
38.24 '^
44.2 „
59.90
32.6
20.97 ,,
21.23 ,°
36.8
33-88 .
34- H ^,^
68.6
29.8
42.5 ^
60.21 3'
32.1 I
35.7 "
69.0 *
Mar. 1 0.8
38.54 ^°
41.3 "
40.7 ^
60.54 ^^
31.6 5
"•51 '
35.0 7
3442 :;
69.2 '
20.8
38.85 w
60.88 34
31. 1 5
2 1. 80 '9
34.6 *
34.71 .1
69.2 «
30.8
39.17 ,,
40.6 '
61.23 \i
30.6 5
22.09 *'
34-7 '
35.01 "^^
68.9 3
33
5
36
5
30
6
31
6
Apr. 9.7
39.50
41. 1
61.59 ,,
30.1
22.39 ,„
35-3 „
35.32 _
68.3 -
19.7
39.82 \'
42.1 °
61.94 35
29.6 ^
22.69 ^
36.2 9
35.62 3<^
67.5
29.7
40.14 \^
43-6 ^
62.29
29.2 4
22.99 1°
37-5 \l
35.92 3^
66.5 1^
May 9.7
40.44 ^
45.5 '
62.63 34
28.8 4
23.28 ="9
III
4^*9 ^^
20
36.22 3-
65.4 '
19.6
40.71 ^7
25
47« M
^^•95 ^'
30
28.6 ^
2
23.55 *^
25
3^50 11
64.2 "
13
29.6
40.96 ^^
50-4 ,.
6325 „
28.4
23.80
42-9 „
36.76
62.9 ,^
June 8.6
41.18 "
53-2 ''
63.52 \l
28.4^
24-02 "
45-^ "
36.99 "3
61.5 t
18.5
41.36 ;
5^' 0
63.75 '^
28.4^
24.20 J
24-36 t
47-3 "
20
37.19 ,,
60.2 '3
28.5
41.49 '^
59° \l
6394 \\
28.6 ^
49.5 "
37.36 ]l
59.0 "
July 8.5
41.58 1
61.9 ^'
64.09 '5
29.0 4
24-47 "
5^-6"
37.49 2
57-8 "
A
27
II
4
7
20
0
10
18.5
41.62
67.2 ^"^
64.20
294 .
24-54 ,
53-^ ,8
55-4 !
37-57 .
56.8
28.4
41.61 •
6425 ;
29.9 5
30.5 ,
31-1 J
31-7 \
24.56 ^
37.62 3
55.9 ,
Aug. 7.4
69.6 *
64.25
24-54 Z
24.48 J
57' I
37.62 ^
55-2 7
54-6 J
17.4
+^•45 °
71.7
64.20 5
58-5 4
37.58 4
27.4
41-31 "*
17
73.4 \\
64.11 9
12
24.39 ;
59.7 ';
—
37.49 ,^
54.1 I
Sept. 6.3
+^•^4 20
74-8 ,0
63.99 „
0
32.2
24.26
T C
60.6
37-38
53-8
16.3
4094 „
75.8 'I
63.84 \l
63.66 '*
32.7 5
24.11 ]l
61.3 7
37-25 J
37-09 !
53-7
26.3
40.72 "
33.0 I
23.94 ';
23.76 !
^3-58 :«
61.7 4
53.6
Oct. 6.2
40-50
76-6 \
63.47 ;^
63.29
33.3 ;
61.7 ^
36-93 \l
36-77 '*
15
53-7 '
16.2
40.27 •*
21
76.3 5
33.4 ;
61.4 3
5
53.9 ,
4
26.2
40.06
75-6 , ,
63.12
33.3 ,
23.42
60.9 -
60.1 ^
36.62
54-3 .
Nov. 5.2
39-87 \\
74-5
62.98 '^
33.1 ,
23.28 '4
36.49 'f
54-7 I
55-3 ,
151
39.72 5
73-0 \l
62.88 '°
62.82 ^
32.8 3
23.17 "
23.09 °
59.0
36.40 9
25.1
39.60 "
39.52 °
71.I '9
32.4 ;
So '«
56-0
36.33 ;
56.0 7
56.8 ;
Dec. 5.1
68.8 ^^
62.80 ^
31.9 z
23.05 I
36-31 ,
3
25
3
5
0
18
2
8
15.1
39.49 ,
62.83
62.91 ^
31.4 ^
23.05
54-2 ,„
36.33 ,
57-6 ,„
25.0
39.51 I
30.9 I
30.3
23.09 ^
52-3 ''
36.40 7
58.6 ^
350
39.58 7
60.6 ^9
63.04 '3
23.18 9
50.2 "
36.50 '*»
59.6 ''^
Sec rJ, Tan 6
1. 187 -^0.639
1. 155 -0.577
1.029 -10.244
1.004 -0.087
Mean Place
39».o8o 65 ".63
6oV794 24".9i
2i*.9»3 55"-o6
34*733 54"-45
DV a, D« a
-0.02 -O.OI
+0.01 +0.01
-O.OI 0.00
0.00 0.00
D^ d, D« 6
-♦■O.I
-I.O
•fO.I
-I.O
-K>.I
-I.O
40.I
-1.0
[Epb la]
APPARENT PLACES OF STAES, 1912.
443
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
ot CoroiuB Austnlls.
Mag. 4.1
Mag. 5.1
TT Ssfittarli.
Mag. 3.0
^ SacittaiU.
Mag. 4.9
Date.
Right
Ascension.
Declina-
tions.
Right
Ascension.
Declina-
tion N.
Right
Ascension.
Declina-
tion S.
Right
Awanuon.
Declina-
tion S.
h m
e
t
h m
a •
h m
e *
h m
e »
19 3
-38
2
19 4
+35 57
19 4
— 21 9
19 10
-2524
Jan. i.o
26.94 „
43-9
s
764 g
772 "
7.85 \l
8.02 '7
8.23 "
25
^■^ to
s
29.96
61.7
6.78
r ^
43.7 -
II.O
2I.O
30.9
Feb. 9.9
27.11 '
SO
273 1 „
27.84 ^^
31
42.9
41.9
40.9
39.9
10
10
10
10
9
31.0 3«
28.0 30
22.6 ^*
23
30.10 *
30.28 '^
30.49 "
30.73 ,^
61.7 °
61.7 ^
61.7 ^
61,6 '
I
6.92 '^
It "
27
43-5 ,
43-2 3
42.9 3
42.6 3
4
19.9
29.9
Mar. 10.8
20.8
30.8
28.15
28.49 ^*
28.85 3*
29.22 ^"l
29.60 ^
39
39.0
38.2
37.4
36.7
36.0
8
8
7
7
5
8.48 „
8.?6 '8
9.06 30
9.38 3^
^°-3 .8
18.5 '«
17.2 '3
16.5 ^
16.4 '
4
3°-99 ,„
31.28 '9
31.58 3°
31.89 3'
32.22 33
33
61.5
61.3;
61.0 3
60.6 ^
60.1 I
6
7.82
8.II ^9
8.42 3'
8.74 ^'
9.08 3^
34
42.2
41.7 \
41.2 ^
40.7 I
40.1 ^
Apr. 9.7
19.7
29.7
^9-99 ,„
30.38 39
30.76 3°
35.5
35.0
34.7
5
3
10.04
10.37 ^^
10.70 ^^
16.8
19.2 '^
3='-55 „
32.88 33
33.20 3^
59-5 ,
58.9!
58.2 7
9.76 3^
10.10 ^"^
39.5 ,
38.9;
38.2 7
37.6 J
37-1 ;
May 9-7
19.6
31.13"
31.48 35
33
34.6
34.6
I
0
I
II.OI 3'
21.2
23.5 ^3
33.52 3
33.83 3^
57-5 ;
56.8 7
0
10.43 33
»o-74 3'
30
29.6
June 8.6
18.6
31.81
32." l^
32.37 „
34.7
35.0
35.5
3
5
6
8
9
11.56
11.78"
XI.97 \l
26.1
29.0 ^9
32.0 3°
34-" ,6
34-37 „
34-59 !
56.2
55-6 f
55.2 *
11.04
11.31 1
36.6
36.33
36.0 3
28.5
July 8.5
32.59 ,6
32.75
12
36.1
36.9
I2.II '*
12.20 '
5
35.0 3°
38.0 30
29
34.78 9
34.93 ,J
54.8 4
54.6 1
"•75 6
II.9I
II
35.9 ;
35.9 °
18.5
28.4
Aug. 7.4
17.4
32.87
32.93 ,
32.94 ,
32.89 5
37.8
38.8
39.8
40.8
10
10
10
12.25
12.24 '
12.18 *
12.08 "»
^°-9 28
46.2 ="5
*»•+ 10
3503 ,
35.08 5
3509 .
35.06 3
3498 *
11
54.5 „
54-5 ,
54.6 '
54.8
12.02
12.08 ^
12.09 '
12.06 \
11.98 ^
II
36.0
36.3 3
36.6 J
37.0 \
27.4
32.79 ;°
41.7
9
8
"^^ 18
5-3 Z
"•%
37.4;
SepJt. 6.3
16.3
26.3
Oct. 6.3
16.2
32.65
32.48 '7
32.29 '9
20
3-«9 :^
42.5
43.2
43.7
44.0
44.1
7
5
3
I
I
11.76
"•55"
11.32 '3
ii.o8^4
10.85 '3
23
51-9
II
53.0 "
53.7 I
54.0 3
53.9 ,
34.87
34-73 *
34.57 ^
34.40 7
34.23
15
55.3 ,
55.6 3
55.8^
56.0 »
56.2 \
11.87
"•73 :t
11.56 '7
11.39 '^
11.22 '7
16
37.9 ,
38.34
38.6 3
38.93
39.0 1
26.2
Nov. 5.2
Dec. 5.1
31-71
31.54 '7
31.41 'I
31.33 ^
31.30 \
44.0
43.6
43.1
42.4
41.5
4
5
7
9
10
10.62
10.42 *°
10.25 '7
10.11 '*
10.02 9
5
53.3 „
52.2
48.8 ">
4^-5 :^
34.08
33.94 1*
33.84 'I
33.78 *
33.76 ^
56.3 ,
56.4 '
56.4°
56.4°
56.4^
11.06
10.92 ^^
lO.Ol
10.74 \
10.71 ^
2
39.1 „
39-1 ,
390 '
38.9 \
38.7 \
15.1
25.0
35.0
31.32 ^
31.54 ^
40.5
39-5
38.4
10
II
9-97 „
9-97 °
10.02 ^
38.2 »9
33.78
3385 ^
12
33.97
56.4 ^
56.4^
56.4°
10.73 ,
10.80 7
10.91 "
38.4 ,
38.1 3
37.8 3
Sec 6, Tan 6
1.270 -o.yf
\2
1.235 +0.726
1.072 -0.387
1. 107 -0.475
Mean Place
29«.i4i 33".2i
\
9«.7i4 4i".87
3I-.868 5i".35
8*-728 33".04
DV °f I^« ^
+0.02 +0.01
-0.02 -0.0 1
+0.01 +0.01
+0.01 +0.01
Dtfr A, Dm i
+0.1
-1.0
+0.1
-1.0
40.I
-1.0 1
-K).I
-1.0
[Eph X)]
444 APPARENT PLACES OF STARS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. i.o
II.O
2I.O
30.9
Feb. 9.9
19.9
29.9
Mar. 1 0.8
20.8
30.8
Apr. 9.7
19.7
29.7
May 9.7
19.6
29.6
June 8.6
18.6
28.5
July 8.5
18.5
28.4
Aug, 7.4
17.4
27.4
Sept. 6.3
16.3
26.3
Oct. 6.3
16.2
26.2
Nov. 5.2
25.1
Dec. 5.1
151
25.0
35.0
Sec <J, Tan 6
Mean Place
dBagittaiii.
Mag. 5.0
Right
Ascenaion.
h
19
s
27.33
27.46
27.62
27.82
28.05
m
12
13
16
30
23
26
28
28.31
28.88 ^^
29.19 ^^
29.51 ,,
32
29.83 _
30.15 ^
30.48 ^^
30.80 ^^
31.10 ^^
31.38
31.64
31.87
32.07
32.22
32.33
32.39
32.40
32.37
32.30
28
26
23
20
15
II
6
I
3
7
II
32.19
32.05 '^
31.90 '5
31.74
31.58
16
16
16
31.42
31.29
31.18
31. II
31.09
31. II
31.17
31.27
13
II
7
2
3
6
10
Declina-
tion S.
S Draconis.
Mag. 3.2
— 19 6
47.6
47.7
47.8
47.8
47.8
47.7
47.6
47.3
46.9
46.3
45.7
45.0
44.2
43.4
42.6
41.9
41.2
40.6
40.1
39.7
39.5
39.3
39.3
39.4
39.6
39.8
40.0
40.2
40.4
40.6
40.8
41.0
41. 1
41.2
41.3
41.4
41.5
41.6
I
I
o
o
I
I
3
4
6
6
7
8
8
8
7
7
6
5
4
2
2
o
I
2
2
2
2
2
2
2
1.059 -0.347
29*.203 37"o3
-K>.OI
+0.1
+0.01
-1.0
Right
Ascension.
h
19
m
12
s
28.41
28.38
28.46
28.65
28.94
29.32
29.78
30.30
30.87
31.47
32.08
32.68
33.25
33.79
34.27
34.68
35.00
35.24
35.39
35.43
3
8
29
38
46
52
57
60
61
60
57
54
48
41
32
24
15
4
5
35.38
35.23 .r
34.98
34.65
34.24
25
33
41
48
33.76
33.22
32.65
32.05
31.45
30.86
30.30
29.78
29.32
28.94
28.65
28.46
28.37
54
57
60
60
59
56
52
46
38
29
19
9
Declina-
tion N.
4-6729
H
78.4
74.9 II
71.4^5
68.0 3^
64.8 ^l
^ 28
62.0
59.6 ^1
57.8
56.6
56.1
18
12
5
I
8
14
19
56.2
57.0
58.4
60.3
62.7 't
' 28
65.5
68.7 ''^
72.0''^
35
35
75.5
79.0
35
82.5
85.9 ^^
80.0^'
r^r q28
91.0
94.3
96.4
98.1
99.3
1000
lOO.I
25
21
17
12
7
I
4
ff Lyne.
Mag. 4.5
9
15
20
99.7
98.8
97.3
95.3
92.8 '5
29
89.9
86.7 ^^
83.3 ^^
2.614 +2.415
32'.302 84". 2 1
-0.06
•fO.I
-0.05
-1.0
[Eph la]
Right
Ascension.
h
19
16^66
16.73
16.84
17.00
17.21
xn
13
7
II
16
21
24
27
17.45
17.72
18.02 3°
18.34 ^'
18.68 3^
34
19.02
19.36
19.69
20.01
20.31
34
33
32
30
27
20.58
20.82 ^^
21.02
21.17
21.27
20
15
10
5
21.32
21.31 ^
21.26 ^
21.16 '^
21.02
20.84
20.63
20.40
20.15
19.91
14
18
21
23
25
24
24
22
19.67
19.26 ;9
19.11
19.00
15
II
6
18.94
18.93
18.97
I
4
Declina-
tion N.
+ 3758
28.3
25.3
22.3
19.4
16.7
14.4
12.5
11. 1
10.2
1 0.0
10.3
11. 2
12.7
14.6
16.9
19.5
22.4
25.4
28.5
31.6
34.6
37.4
40.1
42.5
44.5
46.2
47.5
48.4
48.8
48.7
48.2
47.2
45.8
43.9
41.7
39.1
36.3
33.3
30
30
29
27
23
19
14
9
3
3
9
15
19
23
26
29
30
31
31
30
28
27
24
20
17
13
9
4
I
5
10
14
19
22
26
28
30
1.269 +0.780
i8«.784 35".6o
-0.0a
40.I
-0.02
-0.9
Ga AqiiUae.
Mag. 5.1
Right
Ascension.
h
19
m
13
8
39.35
39.45
39.58
39.75
39.95
40.18
40.43
40.70
40.98
41.27
10
13
17
20
23
25
27
28
29
31
4^-58 ,^
41.88 3°
42.18
42.47
42.74
30
29
27
26
23
20
43.00
43.23
43.43 ,.
43.60 II
43.72
43.81
43.85
43.84
43.80
43.71
43.59
43.45
43.29
43.12
42.94
42.78
42.64
42.52
42.44
42.39
42.38
42.42
42.50
13
9
4
I
4
9
13
H
16
17
18
16
14
13
8
5
I
4
8
Declina-
tion N.
+ 11 25
60.8
58.9
57.0
55.2
53.6
52.2
51.2
50.5
50.2
50.3
50.8
51.7
53.0
54.5
56.3
58.3
60.3
62.4
64.6
66.7
68.6
70.4
72.0
73.4
74.5
75-4
76.1
76.5
76.6
76.4
76.0
75.3
74.3
73.0
71.6
70.0
68.2
66.3
19
19
18
16
14
10
7
3
I
5
9
»3
'5
18
30
20
31
23
31
»9
18
16
14
II
9
7
4
I
3
4
7
10
13
M
16
18
19
t.030
4i'.i57 69".70
.K>.202
ft
-O.OI
•H5.I
0.00
0.9
APPARENT PLACES OF STARS, 1912,
445
FOR THE UPPER TRANSIT AT WASHINGTON.
/r Cygni.
T Draoonis.
6
AqullA.
P Cygni.
Mean Solar
q
Ddag. 4.0
Mag. 4.6
]
Mtag. 3.4
Mag. 3.2
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Aacansion.
tion N.
Ascension
tion N.
Ascension.
tion N.
Atcension.
tion N.
h
m
e 1
h m
e 1
h
m
0 *
h m
• t
19 :
^5
+ 53 II
19 17
+ 73 II
19 :
21
+ 256
P0
19 27
+ 2746
Jan. i.o
a
1.53
74-4 , .
a
10.18
27.6
8
I.9I
9-7 ,
8-38 ,
^9-9 „
II.O
1.56
3
710 ,*
10.09 ^
24.1 35
2.01
10
8.2 '5
8.45 ^
17.2 '7
2I.O
1.66
10
67.6^4
10.14 ^
20.6 35
2.15
14
6.8 '4
8.56 "
14.6 ="*
30.9
1.83
17
643 f.
20
10.34 ^°
17.I 35
2.32
17
5.5'^
8.71 '5
12.1 ='5
Feb. 9.9
2.05
22
61.2 3'
10.67
13-9 ^l
2.52
20
4.4"
8.90 '9
9-8 '3
28
27
46
28
22
10
21
20
19.9
2.33
5^-5 „
"•^3 ,,
11.1
2.74
3.4 ^
9" ..
7-8 „
29.9
2.65
32
56-3 "
11.69 5 J
8.6*5
2.99
25
2.7 7
9.36 ^5
6.1 '7
Mar. 10.8
302
37
54.7 ^
12.34 ^
6.7 '5
3.26
27
2.3 ^
9.63 ^'
4.9"
20.8
341
39
53-6
13.06 7^
5.4 'i
3.54
28
2.2 ^
9.92 ^^
4-2 ^
30.8
3.82
41
53.1 ^
13.82 76
4.8 ^
3.83
29
2-4 I
10.23
4.0 '
42
2
78
0
30
6
31
3
Apr. 9.8
4.24
53.3
14.60
4-8 ,
4.13
3.0
10.54 _
4-3
19.7
4.66
42
54.2 ^^
15.37 ::
5-5 I
4-43
30
3-9 ,:
10.86 32
s-^* '
297
5.07
41
55-6 \i
16.10 73
6.8 '3
4.73
30
5.1"
II. 18 32
6.5 '2
May 9.7
5-45
38
57-6 !
16.78 f^
8.7 '9
5.03
30
6-5 1
"•49 ^"^
8.2 '7
19.6
5.80
35
60.0^1
17.39 ^'
lI.O='3
5.31
28
8.0 '5
11.78^9
10.3 "
31
28
51
27
27
17
27
24
29.6
6.11
_ ^
62.8
17.90
"3-7 „
5.58
9-7 „
12.05 ^^
"■7 ,,
June 8.6
6.37
26
65-9 \\
18.30 4°
16.8 3'
5.82
24
ii.4'7
12.29
^5-3 !S
18.6
6.58
21
69.2 ^3
18.59 ''
20.1 33
6.03
21
13-2 '*
12.50"
18.1 =•«
28.5
6.73
15
72.6 3^
18.75 'I
23.6 35
6.21
18
14.9 1!
12.67 ^7
«^ ^ 28
2*^-9 ^a
July 8.5
6.82
9
76.1 35
18.78 3
27.1 35
6.35
14
16.6 '7
12.79 "
«^ p* 28
23.7 ^
2
33
10
35
10
15
8
27
18.5
6.84
79-4 ,,
18.68
30-6 ,,
6.45
18.1
12.87 ,
2M ,.
28.5
6.79
5
82.6 32
18.46 "
33.9 ,,
6.50
5
19.5 It
12.90 3
29.0 ^\
Aug. 7.4
6.68
II
85.7 11
18.11 35
37.1 f
6.51
I
=°-7 "
12.89 '
3^-4 t
17.4
6.51
17
^^•4 z
17.65 1
4°° 1
6.48
3
21.7 «
"•83 ,^
21
33-5 ,„
27.4
6.28
23
90.8^4
17.08 57
-« f. 26
42.0
6.41
7
22.5 ^
12.73 '°
35-3
27
20
65
22
II
7
14
15
Sept. 6.3
6.01
92.8
^^•43 „,
44-8 -
6.30
23.2
12-59
36.8
16.3
5.70
31
94.3 '^
»5-7^ ^8
46-6 ;
6.17
13
23.6 f
12.42 "
38.0 "
26.3
5.37
33
95.4 "
96.0 f
14.93 l^
47.9 '^
6.02
15
16
23.8 \
12.23 "
38.8 ^
Oct. 6.3
5.02
35
487 !
5.86
23.9 '
20
"•03 ,„
39.2 4
16.2
4.67
35
96.1 '
13-29 „^
48.9 '
5.70
10
23.7 !
"•83 z
39-2 °
35
5
81
3
15
4
20
4
26.2
4.32
95-6 .„
'^•^^ 78
11.70 78
48.6
47.8 °
5-55
23.3 ,
''•^^ 18
38.8 „
38.0 ^
Nov. 5.2
4.00
32
^- /: 10
94.6
5.41
14
2fi.8 5
152
3.71
29
93.2 ^^
10.97 73
46.4 •*
530
II
22.0 ^
11.29 ^
36-9 "
251
346
25
9^-^ '!
10.32 5
44-5 \\
5.22
8
21. 1 ^
11.17"
35-3 '
Dec. 5.1
326
20
88.7 ^5
9.76 56
42.2 *3
5.18
4
20.0
11.08 9
33-4 "
14
28
44
28
0
12
5
22
151
3.12
^5-9 ,,
932
39.4 ,,
5.18
18.8
11.03
3^-2 ,,
25.0
305
7
82.8 3^
9.06 3
36.3 ^'
5.22
4
17.5 '^
11.03 \
28.8 *4
35.0
3.05
° 79.5 '' 1
8.82 '^
32.9 34
5.29 7 i5 I 14
1.00 1 +0.051
11.07
26.3 '5
Sec <J, Tan ^
1.670 +1.337 1
3.458 +3.310
1. 130 +0.527
Mean Place
4M
91 8o".63 1
I5'.2i3 32".69
3*.694 I9".04
0.00 0.00
io*.332 27". 20
D'^a, Dfe»a
-0.03 -0.03 1
-0.08 -0.07
-O.OI -O.OI
D,^rf, D«<J
+0.1
-0.9 1
+0.1 -0.9
+0.1
-0.9 1
+0.1 -0.9
[
Eph 12]
446
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
t Cygni.
Mag. 3.9
/i AqnUsB.
Mag. 4.6
ASagittarU.
Mag. 4.7
Mag. 5.0
Date.
•
Right
Aacension.
Declina-
tion N.
RiRht
Ascension.
Declina-
tion N.
Right
Ascension.
Declina-
tion S.
Right
Atcention.
Declina-
tion S.
h m
•
h m
e «
h m
•
h m
•
19 27
+ 5132
If
19 29
+ 7"
19 31
-25 4
19 32
- 713
Jan. I.o
II.O
2I.O
3i<^
Feb. 9.9
26^68
26.70 I
26.78 ^
26.92 ^^
25-4 „
22.1 33
18.7 34
15-5 3'
12.J 3'
27
45*68
45.76 8
45.89 \l
46.05 \l
46.24 '9
21
20.6
17.3 ^
15.8 '5
14.4 '4
12
s
19.30
11
^9-57 ^
»9-76 11
19-98 "
25
54.5 _
54.2 3
53.8 I
53.4 ^
53.0 ^
7-72 ,„
7.82 "»
7-95 ]i
8.12 '7
Q ..» 20
0.32
22
35-6 »
36.4 I
37-1 I
37.8 7
38.4 I
19.9
29.9
Mar. 1 0.8
20.8
30.8
2738 ,^
27.68 30
28.02 34
28.40 3«
28.79 ^'
4«
9-7 „
7-4'^
4.0 ^
I
46.45 , .
46-95 ^
47-22 ^^
47-51 »9
30
13.2
12.3 ^
II.8 5
11.6 ^
11.8 ^
5
20.23
20.50 '7
20.80 3°
2I.Il3'
21.44 ^^
33
52-5 ,
51-9 .
51-3 !
50.6 7
49-9 J
8-54 „
«-79 ll
9-33 ,„
9.63 5^
30
38.8
39-1 3
39-1 0
38.9 !
38.5 4
Apr. 9.8
19.7
29.7
May 9.7
29.20
29.60 ***
30.00 *°
30.39 39
4-1 ,
4.8 7
6.1 '3
8.0"
1 4
47.81
48.12 3'
48.42 3°
4«-72 ^
49.00
27
12.3
13-2 ^
14.4 "
^5-" ::
21.77
22.11 '^^
22.45 34
22.79 3^
49-1
48.3 ;
47-5 I
46.7 !
45.9 g
9-^3 31
10.24
10.SS \\
10.86 3'
37-8
36.9 ,9
35-8 "
34-6
19.7
30.74 f^
10.3 '3
27
^7-5 :^
23.12 •'■'
3»
11 i< '9
"•*5 28
33-3 '^
13
29.6
June 8.6
18.6
3106
3'-34 ,,
31.56 "
130
16.0 3°
19.3 ^^
49.27
49.52 ^5
49.73 "
19.3
21.2 '9
23.2 ^°
23-43 ,.
23-71 ll
23-97 ^^
45-3 ,
44.8 5
44-4 *
"•43,,
11.69*^
11.92 '3
32-0
30.7 '^
29.4 15
28.5
July 8.5
31 -73 ,;
31.83 '°
4
22.7 -''•^
26.2 3^
33
49-92 '9
50.06 '4
10
25.2 ^°
27.1 '!
18
24-19 "
24-36 '^
13
44-2 ^
44-1 ^
-TA <r«« 20
12.12 ^
12.28 '<*
It
28.1 '3
27.0
10
18.5
28.5
31-87 ,
31.85 I
31.63 I*
29.5 ^^
328^3
50.16
50.22 °
lit '**
30.5 ,.
24-49 „
24.58 I
44-1 ,
44-3 :
12.39 ,
12.46 7
26.0
25.2 *
Aug. 7.4
17.4
IT
35.9 •;_
38.7 ;
50.23
50.21
32.0 '5
24.61 •'
24.60 '
24-54 ^
10
44-6 3
45-0 *
12.49 3
12.48 '
12.42 *
10
24-5 I
23.9 °
27.4
31-43 '"
25
41.2 ^5
21
50.14 '
10
34.3^^
45-4 ;
23.5 *
2
Sept. 6.4
3^'« ,8
30.90 .
30.59 11
30.26 3-'
0 ^
43.3 „
50.04
35.1 .
35.7 1
36.0 3
36.1 1
24-44 ,,
45-9 .
12.32
23.3 ,
16.3
26.3
Oct. 6.3
45.0 \l
46.2 "
46.9 !
49-91 :
49.76 5
49.59 ,^
49-43 „
24.31 ]l
24.16 '5
23.99 IJ
46.4 i
46.8 4
47-2 4
12.20 "
12.06 '4
11.91 \l
23.2
23.2 ^
23.3 '
16.2
29.93 ^^
33
47-2 3
36.0 '
4
23.82 '7
10
47-4 ^
23.5 .
26.2
Nov. 5.2
29.60
29.28 3f
29.00
28.76 ^^
28.57 '^
46-9 „
46.1 *
V 1
49-27
49-13 *
35.6
35.0
34-2
33-2
32.0
23.66
23.51 ;^
47-6
47-7 '
11.60
11.46 '4
« «
23.8
24.2 *
15-2
25.1
Dec. 5.1
44.7 ^
42.9 ,,
40.6 ^3
27
49.01 '
48.92 9
48.87 5
23.39 I
23.31 ^
23.26 ^
0
47-7 ^
47-6
47.4 I
11.35 "
11.27
11.23 ^
24.6 4
25.2 °
25.8 ^
15.1
251
350
28.43
28.34 ^
28.32 ^
37-9 ,^
35.0 11
31.8 3^
48.86
48.88 '
48.95 ^
2?; '^
27.4
23.26
23.31 ^
23.39
47-2 ,
46.95
46.6 3
11.22
11.26 I
".34
26.5 -
27-3 ,
28.0 7
Sec <J, Tan S
1.607 +1259
1.008 +0.127
1. 104 -0.468
1.008 -0.127
Mean Place
29*. 269 30". 9 1
47'.457 29".5i
2i».i93 43".02
9'.494 25".43
D'^ a, D« a
-0.03 -0.03
0.00 0.00
+0.01 +0.01
0.00 0.00
Di^ d, D« d
-K).I -0.9
+0.2 -0.9
-K>.2 -0.9
+0.2 -0.9
[Bph la]
APPARENT PLACES OF STARS, 1912.
447
FOR THE UPPER TRANSIT AT WASHINGTON.
0 Cygni.
MSaglttarU.
P
Sagittae.
ISCygni.
Mean Solar
Mag. 4.6
Mag. 5.4
Mag. 4.4
Mag. 5.0
Date.
1
1
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascenaion.
tion N.
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion N.
h m
e 1
h m
0
h m
e t
h 1
n
e t
19 34
+ 50 0
m
19 35
— 1629
19 37
+ 17 li
19 41
+ 37 8
Jan. 1 .0
2-39 ,
55-6
3917 _^
55.7 .
s
3.95
M
69.6 ,^
s
4.10
M
23.1
0 ^\
II.O
2.41
524 ^'
3927 ^.
55.9 ,
4.02
7
^7-5 "
4.13
3
20.2 ^
21.0
2-48 ,!
49- 1 ,,
3941 Jl
56.1 '
4.13
II
654 "
4.22
9
17-3 'I
310
2.62 '4
45-8 33
39.58 \\
56.2
4.27
14
18
^3-4 ?
4.35
13
^4-5 !
Feb. 9.9
2.81 '9
428 f.
39-79 "
56.3 ;
4.45
6^-5 ^
4.52
17
ii.8'7
24
27
23
I
20
16
21
24
19.9
3-33 "
4°' „
40.02
56.2
4.65
^M #•
59.9 ,,
4.73
94 ,„
29.9
37.8 3
36.0 '8
40.27 ,'5
40.55
56.0 \
4.88
23
26
58.6 '3
4.98
25
28
7-4 6
Mar. 1 0.8
3-66 "
55.6 4
5.14
57.7 \
5.26
5.8'^
20.8
4°=^ '«
34.8 "
40.84 ''
55.1 I
5.42
28
57.2 ^
5.56
30
4.8'°
30.8
440 ^„
34-2 ,
41.15 ^
0
54.5 I
5.71
29
0
57-2 °
5.88
32
4-4 t
40
I
31
7
30
4
34
3
Apr. 9.8
4-^ .«
34-3 ,
4^ 46 ,^
53.8
6.01
57.6 „
6.22
4.6
19.7
S-^'ot^
350 ,!
41.78 f^
52.9 ,^
6.31
30
585 ,1
6.56
34
5.3 7
29.7
5-59 ^'
362 "
42.11 ^^
10
51.9 "
6.62
31
59-7 "
6.90
34
6.5"
May 9.7
5.97 ^;
38.0 '8
42.43 ^^
5^-9 ,0
6.92
30
61.3 "*
7.24
34
8.2 '7
19.7
6.32 35
40-3 '^
4^-74 ^"
49.9 ^^
7.21
29
632 '^
7.55
31
-m^ M 22
'°4 „,
32
27
29
10
27
22
29
25
29.6
^•92 „
430 ,„
43.03 ,g
43131 ,°
48.9 „
7.48
0^ ^
654 „
7.84
"•9,»
June 8.6
46° ^!
48.0 I
7.73
25
677 '^
8.II
27
15.7 '^
18.6
7-33 '
49-2 Z
43-55 ,;
47.1 ,
7.95
22
18
7°» 1
8.33
22
_ 0
18.7 ^^
28.5
52.6 34
43.76 \\
46.4 I
8.13
72-5 1
8.51
18
21.8 3'
July 8.5
7-44'^
56.1 35
33
43.93 ,5
45.8 ^
8.27
14
10
74.9 '4
23
8.65
14
9
24.9 I
18.5
750
594 ,,
44.06
44.14 °
45.3 ,
8.37
6
77.2
8.74
^
A
28.0
28.5
7-49 _
62.7 33
45.0 3
8.43
79-3 "
8.77
3
31.0 3°
Aug. 7.4
742 ,;
68.6 ^l
44.17 ;
44.8 \
8.44
I
81.3 °
8.75
2
33.8 «
17.4
r?2 '«
44.16
44-7 ,
8.40
4
83.0 7
8.68
7
36.3 '^
27.4
44." ^
44-8 ;
8.33
7
84.5 \i
8.56
12
38.6 ^3
23
21
9
I
II
12
15
19
Sept. 6.4
6.89 ,,
73-3 „
44.02
44.9
8.22
^ A
^5-7 ,„
8.41
40.5 ,,
16.3
6.62 ^7
75.0 \\
43.90
45.1 I
8.08
14
16
86.7 '°
8.22
19
42.0 5
26.3
6.33 ^^^
76.3 '^
771 ^
43.76 4
2
45.3 ,
7.92
873 t
8.0I
21
43.1 "
Oct. 6.3
6.02 3'
43.60 ^
43.44 \\
45.5 ,
7.75
17
18
17
87.6 3
7.78
23
0> A
43.8 ;
16.2
570 3^
32
77-5 ;
45.8
7.57
87.6 °
3
7.54
24
23
44-1 \
26.2
538 ,„
77-3 „
4328 ^^
46.1
7.40
16
87.3 .
86.7 *
7.31
«.»
43-9 _
Nov. 5.2
5°8 ^^
43.14 \\
46.4 ^
7.24
7.09
22
43.2 7
15.2
4.81 '7
75-3 "
43.03 "
46.6 ^
7.10
14
85-7 ;°
6.89
20
16
42.0
251
4-58 ''
73.6 \l
42.95 ^
46.8 \
7.00
10
844 \\
6.73
4°-5 'I
Dec. 5.1
4-39 Z
7-4 11
42.90 ^
0
47.0 ^
6.93
7
4
82.9 '^
' 18
6.60
13
9
38.5 '**
23
15.1
425 ft
68.8
42.90
47.3 ,
6.89
81. 1
6.51
3«>-2
251
4.17 !
65.8 3°
42.94 I
43.02
2
47-5 ,
6.90
I
79-2 '^
6.47
4
T
».. <; 26
330 ,0
30.8
35.0
4.14 ^
62.7 3'
47-7
6.94
4
77.2
6.48
I
Sec <J, Tan 6
1-557 +1193
1.043 -0.296
1.048 +0.31 1
1.254 +0.757
Mean Place
4V9I9 6o".78
40V973 44".78
5'.^74 77".58
6V2I3 28".97
DV ^, Dw A
-0.03 -0.03
+0.01 +0.01
-O.OI -O.OI
-0.02 -0.02
D^ 6, D« 6
40.2
-0.9
40.2
-0.9
+0.2
^.9
+0.2
-0.9
[Bph xa]
448
APPARENT PLACES OF STAES, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
/ Saglttaiii.
Y Aqnilee.
(^ Cygni.
(^SaglttK.
Mag.
51
Mag. 2.8
Mag. 3.0
Mag. 3.8
Mean Solar
1
Date.
1
Right
Declina- |
Right
Declina-
Right
Declina-
Right
OaelJna-
Ascension.
tion S
.
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tionN.
h m
e
r
h xn
0 »
h m
0 t
h xn
• •
19 41
-1958
19 42
4-1023
19 42
+44 54
n
19 43
+ 18 18
Jan. i.o
8
"•97 „
35-4
s
2.78
44-8 .
8
II. 19
507 „
s
26.01
52.» ,.
I I.o
12.07 '°
354
0
2.85
7
43.0 '«
II. 21
47.6 t]
26.07 ^
5°° '
2 I.o
12.21 ^^
35-3
I
2.96
II
41.3 ''
11.28 7
44.4 3
^^•^7 :°
47-8 "
31.0
"•38 11
35.2
I
3.10
14
• 0
39.6 ;^
"•40"
4^-3 '^
26.31 ^
«•« !o
Feb. 9.9
12.58 ;°
35-0
2
3.28
18
38.1 '5
"•57 I
384 ]t
26.48 '7
43.9 ^
23
3
20
13
23
26
20
«7
19.9
I2.8l ,
347
3.48
36.8
11.80 ^
35-8
26.68
42.2
29.9
26
13.07 I
34-3
4
3.71
23
35.8 '°
12.06 ^^
33.6
26.91 ^3
I ■*
Mar. 10.9
27
1334 ,1
33.8
5
3.96
25
35.2 \
^2-35 !!
31-9 11
27.16 '^
39-9
20.8
13.64 ^
33-2
6
4-23
27
34.9 \
12.68 33
1 C
2,0.7 "
30.1
-7-43 11
39.4 ,
30.8
^3-95 _
32.5
7
4-52
29
35-0
13.03 ^^
27.72 ^9
39-3 '
32
9
29
5
37
0
30
4
Apr. 9.8
H.27
31.6
4.81
35.5 «
36.3 *
13.40 ,^
30.1
28.02
39-7 „
19.7
14.60 ^^
30.7
9
512
31
13.77 ^^
30.8 7
28.33 ^
40.6 9
29.7
14-93 ^^
29.8
9
5-42
30
37.5 :
14.14 37
32.0
28.64 ^
4^-8 6
May 9.7
15.26 33
^ -1
28.8^
[O
5.72
30
39.0 5
40.8 '*
19
14.50 3^
33.7 ^^
28.94 30
43-4 '
X9.7
15.58 1'
30
27.9
9
9
6.01
29
28
14.84 34
31
35-9 ,6
29.24 3°
45.3 :^
29.6
15-88 .
27.0
6.29
42.7 _
^515 ,«
38.5 ,„
29.52 ,^
47-4 ,^
June 8.6
16.16 =■*
26.1
9
6.54
25
44.8^'
15.43 '^
41-4 !'
29.77 ^5
49-8 !1
18.6
'6.42 It
25.4
7
6.76
22
47° z
15.66 ^3
44-6 3
22
29.99
52.2 4
28.6
16.64 "
24.8
6
6.95
19
49.1 "
15.84 !
47-8 f
30.18 '9
54-7 t
July 8.5
16.81 '7
24.4
4
7.11
10
51.2 ''
15.97 a
5»-i r!
30.32 I'J
57=^ ^^
14
2
II
20
0
33
II
24
18.5
16.95
24.2
7.22
^
53-2 „
16.05
54.4 ,
30.43 .
59-6
• 28.5
17.04 9
24.0
2
7.28
6
55.0 «
16.07 ^
57-6 ^,^
30.49 ,
61.8 "
Aug. 7.4
17.08 *
24.0
0
7.31
3
^^■^ I
16.03 *
60.6 30
63.4 -^
30.50 '
67.2 *
17.4
17.08 °
24.2
2
7.29
2
6
58.1 t
^5-94 ,^
30.47 ^
27.4
17.03 ^
24.4
2
723
».«. ^ 12
59-3 ^
15.80 '^
65.9 'f
30.40 7
9
3
10
10
J9
21
10
»3
Sept. 6.4
16.94 „
24.7
713
60.3 .
61. 1 *
^5-6i „
68.0
30.30 ,^
^^•5 .0
16.3
16.82 "
25.0
3
7.00
13
15.38 '3
69.7 \\
30.16 '^
30.00 '*
69-5 '^
26.3
16.67 ]i
25-3
3
6.85
15
16
17
16
61.6 5
15-13 „
71.0 '3
70.2 '
Oct. 6.3
16.3
^^•35 \l
25-7
26.0
4
3
2
6.69
6.52
61.8 ^
61.7 '
3
14-86 7
14.58 ^*
27
71.8 ®
72.2 ^
2
29.83 ]l
29.65 ;«
70.6 ■♦
70.6 °
3
26.2
16.19 ,,
26.2
6.36
61.4
'4-31 ,-
72.0
29.47 ,
29.31 *
70.3 ,
69.7 *
Nov. 5.2
16.05 t
26.4
2
6.21
15
60.8 J
»4°5 '^
71.4 ,^
152
15-93 "
26.6
2
6.09
12
60.0
13.81 ^*
7<^-2 w^
29.17 1*
68.8 9
25.1
15.84 9
26.7
I
5.99
10
58.9 "
13.60 ;•
68.6 '^
29.06 "
28.98 ]
67.5 ;3
Dec. 5.1
15.79 ,
26.8
I
5.92
7
57.6 '3
13.44 '*
66.5 ''
66.0 '5
I
0
2
J4
12
24
4
>7
15.1
15-78 ^
26.8
5.90
56-2 ,,
13.32 ,
^'♦•^ .«
28.94 „
^4-3 ,„
25.1
15.82 4
26.8
0
591
I
54.6 !
13.25 ;
^^•3 ^!
28.94 °
62.3 1°
350
15.89 ^
26.8
0
5.96
5
.52.9 '7
13.24
58.3 ^°
28.98 '*
60.2 ''
Sec c5, Tan «5
1.064
-0.364
i.oi6 +0.183
1.4 1 2 ■K>.997
1.053 +0.331
Mean Place
I3'.788
24" .02
4*.558 53". 27
I3'.5X7 55".75
a7'.840 59"-76
D'^ a, Dm a
+0.0X
+0.01
0.00 -O.OI
-0.02 -0.03
-O.OI -0.01
D^d, D«(J
+0.2
-0.9
+0.2
-0.9
+0.2 -K>.9
40.2 -0.9
[Eph za]
APPAKENT PLACES OF 8TAES, 1912
449
FOR THE UPPER TRAl^SIT AT WASHINGTON.
Mean Solar
Date.
Jan. i.o
II.O
2I.O
31 o
Feb. 9.9
19.9
29.9
Mar. 1 0.9
20.8
30.8
Apr. 9.8
19.7
29.7
May 9.7
19.7
29.6
June 8.6
18.6
28.6
July 8.5
18.5
28.5
Aug. 7.4
174
27.4
Sept. 6.4
16.3
26.3
Oct. 6.3
16.3
26.2
Nov. 5.2
25.1
Dec. 5.1
25-1
350
or AquiUe.
Mag. 0.9
Right
Aecenaion.
SectJ.Tand
Mean Place
m
46
7
II
14
h
19
8
27.62
27.69
27.80
27.94 jg
28.12 '^
20
28.32
28.54
28.79
29.06 ^l
28
29.34
22
25
29.64
29.94
30.25
30.55
30.85
31.13
31.38
31.61
31.81
31.97
32.09
32.16
32.19
32.17
32.12
32.03
31.91
31.76
31.60
31.44
31.28
31.14
31.01
30.91
30.85
30.82
30.83
30.88
30
30
31
30
30
28
25
23
20
16
12
7
3
2
5
9
12
15
16
16
16
H
13
10
6
3
I
5
Declina-
tion N.
+ 837
58.1
56.5
54.9
53.3
51.9
50.8
49.9
49.3
49.1
49.2
49.7
50.6
51.8
53.3
55.0
56.9
58.9
61.0
63.1
65.1
67.0
68.8
16
16
16
14
II
9
6
2
I
5
9
12
15
17
19
20
21
21
20
19
18
70.4 ''
71.8 '^
73.0 "
ij AquiUe.
Var. 3.7-44
Right
Ascenaion.
73.9
74.6
75.1
75.3
75.3
75.0
74.5
73.7
72.7
71.5
70.2
68.7
67.1
7
5
2
o
3
5
8
10
12
13
15
16
1.012 40.151
29».388 66".74
0.00
-K>.2
0.00
-0.9
h m
19 47
8
57.70
57.77
57.88
58.03
58.20
7
II
15
17
21
23
58.41
58.64
58.88 ^^
27
59.15 ^
59.44
29
29
59.73
60.03
60.34
60.65
60.94
61.22
61.49
61.72
61.92
62.09
62.21
62.29
62.33
62.32
62.27
62.19
62.07
61.93
61.78
61.62
61.47
61.33
61.21
61.12
61.06
61.04
61.05
61. II
30
31
31
29
28
27
23
20
17
12
8
4
I
5
8
4
5
6
5
4
2
9
6
I
6
Declina-
tion N.
+ 046
35.4
34.2
33.0
31.9
30.9
30.1
29.6
29.3
29.3
29.6
30.2
31. 1
32.3
33.7
35.2
36.9
38.6
40.4
42.1
43.7
45.2
46.5
47.7
48.7
49.5
50.1
50.6
50.8
50.8
50.7
50.4
49.9
49.3
48.5
47.6
46.5
45.4
44.2
12
12
II
10
8
5
3
o
3
6
3
2
o
8
6
5
2
o
5
6
8
9
II
II
12
1. 000 40.014
59-.436 44". 84
19 1 2 29
O.OQ 0.00
+0.2 -0.9
[Eph xa]
€ DnconlB.
Mag. 4.0
Right
Ascenaion.
h m
19 48
8
24.28
24.14
24.12
24.22
24.44
24.76
25.19
25.70
26.28
26.91
27.58
28.25
28.91
29.54
30.12
14
2
10
22
32
43
51
58
63
67
67
66
63
58
52
30.64
31.08^
31.42 3^
31.66 ^^
31.80 '^
2
31-82
31.73
31.54
31.24
30.85
9
19
30
39
48
30.37 _
29.82 ^^
29.22
28.58
27.91
60
64
67
67
27.24
26.58
25.96
25.39 ^^
24.88 5»
42
24.46
66
62
57
24.14
23.93
32
21
Declina-
tion N.
+ 70 2
34.9
31.6
28.1
24.7
21.4
8.3
5-7
3.5
1.9
0.9
0.5
0.8
1.8
3.3
5.4
17.9
20.9
24.1
275
31. 1
33
35
34
33
31
26
22
16
10
4
3
10
15
21
25
30
32
34
36
36
34-7
38.2
41.6
44.8 3^
47.7 ''
35
34
50.3
52.5
54.2
55.4
56.2
56.4
56.0
55.0
53.5
51.5
49.0
46.2
43.0
26
22
17
12
8
2
4
10
15
20
25
28
32
2.930 +2.753
28V687 37".58
-0.07
+0.2
-0.08
-0.9
t Saglttarli.
Mag. 4.2
Right
AacMiaion.
h m
19 49
a
9.36
9.47
9.63
9.83
10.07
II
16
20
24
28
^•35 ^,
0.66 3»
34
1. 00
1.36
1.74
2.14
2.55
2.96
3.36
3.76
36
38
40
41
41
40
40
38
35
32
4.14
4.49
4.81
5.08^7
5.31 ''
5.48
5.60
5.66
5.65
5.60
5.49
5.34
5.15
4.94
4.73
4.52
4.33
4.16
4.03
3.95
3.92
3.94
4.02
17
12
6
I
5
II
15
19
21
21
21
19
17
13
8
3
2
8
Declina-
tion S.
-42 5
74.3
72.9
71.5
70.0
68.5
67.0
65.6
64.2
62.9
61.7
60.6
59-7
58.9
58.4
58.0
57.9
58.0
58.4
58.9
59.7
60.7
61.8
63.0
64.3
65.6
66.8
67.9
68.8
69.5
69.9
70.1
70.0
69.6
69.0
68.1
67.0
65.8
64.4
4
4
5
5
5
4
4
3
2
I
9
8
5
4
I
I
4
5
8
10
II
12
13
13
12
II
9
7
4
2
I
4
6
9
II
12
14
1.348 -0.903
IIV495 6o^^95
+0.02
+0.2
+0.03
-0.9
450
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
s PavoBis.
yS Aqnlla.
^'Sagltte.
cSagittaill.
Mean Solar
Mag. 4.1
Mag. 3.9
Mag. 3.7
Mag. 4.6
Date.
Right
Dwllna-
Right ^
Declina-
RiKht
Declina-
Right
Declina-
Ascension.
tion S.
Ascension."
tion N .
Atcenuon.
tion N.
Ascensiozi.
tion S.
h m
e 1
h m
e f
h m
0 *
h m
• *
19 50
-73 8
it
19 50
+ 6 10
19 54
+ 19 14
19 57
-27 57
Jan. I.I
2109
52-3 ,„
s
57.69 _
62.0
48.77 .
62.0
s
13.10
31-4 _
II.O
21.22 ^
49-3 \l
57.76 I
60.5 15
48.82 5
59-8 "
13.18 \
30.9 i
2I.O
27
2149 .1
46-3 ^°
57.86 °
59-0 *
48.91 X
57-7 !
13-31 "^
6
30-3 ,
3I-0
21.89^°
43-3 11
58.00 4
57-6 4
12
49-03 ,^
49.19 ,,
55-6 !'
'3-48 \l
29.6 7
Feb. 9.9
22.40 5
62
40.4 ,;
58- »7 '^
20
56.3 \\
53-6 Z
13.68 ^°
23
28.8 I
8
19.9
23.02
37-7 „
58.37 „
55-2 g
54-4 ,
4938
52-° ,.
'3-91 .
28.0
27.2 »
29.9
2373 l^
25-36 J^
35-2 11
58-59 z
49.60 «
50-6 *
Mar. 10.9
33-0 "
58-84 11
59- 10
59.38 '8
53-9 I
49.84 ^
-^ /: 10
49-6
49.0
^4-^5 2
26.3 9
20.8
3I.I '
53-7 ,
50- " 1
H.75 3^
25-3 °
30.8
26.26 90
29.6 5
53-9 I
50.40 ,9
48.9 '
15.07 3^
24-2 "
93
II
30
5
30
3
34
10
Apr. 9.8
2719 „,
28.5 -
59.68
54-4 0
55-2 ,!
50.70
49-2
5°-° .!
15.41 „
23.2
19.7
28-^4 of
59-98 3°
51.00 3
15.76 ^5
22.2
29.7
29.08 94
27-4 ,
60.29 3'
56-4 "
51-31 ,.
5^-2 ^
16.II 35
21.2
May 9.7
30.01 93
30.90 gj
T
27-5 '
<*°-59 3°
57.9 \t
51.62 3'
52-8 ^,^
16.46 35
20.3 ^
19.7
28.0 5
9
60.88 '9
38
59-6 1^
51.92 3g
54-7 "
33
16.80 34
33
19.4 9
29.6
31-74 „
28.9 ,,
61.16
61.42 ^^J
^^•4 ,„
52.20
569 „
17-13 _
18.7
June 8.6
32.51 tl
30.2 ]l
63-3 '^
52-47 „
59-2 \\
17.44 e
18.I ^
18.6
08
33.19 „
3^-9 11
61.66 ^^
^5-3 !°
52.70 ^3
61-7 ^
28
17.72 "
17.7 \
28.6
33.76 "
33-9 1°
61.86 '^
62.02 '^
12
67.2 9
52.89 '
64-2 \\
^7-97 ,f
17.5 ^
July 8.5
34-21 «
36.2 »3
24
69-1 *!
^ 18
5305 '*
66.7*5
24
18.18 "
16
17.4 \
18.5
34-53
38-6 ,6
4^-2 '^
43-8 ^
62.14
62.22
72.5 „
53-17 ,
69-1 „
18.34 „
17.6
28.5
3472 '9
53.24 ,
7^-4 \\
18.45 "
18.51 f
17-9 f
Aug. 7.4
3476 *
62.26 ^
74-0 5
53-26 -
73-6 "
18.3 4
17.4
34.66 1°
46-3 li
62.25 [
75-3 i
53-24 I
53.18 °
75-5 '
18.52 '
18.9 J
27.4
34.42 ^4
48-7 't
62.20 ^
76.3 '^
77-2 I
18.48 4
19.5 ^
35
31
9
8
10
14
8
7
Sept. 6.4
34.07 ,,
50.8
62.11
77-1 ,
53-08
78-6.
18.40
20.2
16.3
33-61 4^
52-7 ;?
61.99 "
77-7 \
52.95 \l
79-7 «
18.29 "
20.8 *
26.3
33-06"
54-1 '4
61.85 ^
78.1 4
52.80 *5
80.5 ;
18.14 5
21.4 t
Oct. 6.3
55-0 9
61.70 '5
^^•54 ;j
78.2 I
52.63 \l
80.9 4
17.98 ;
21.9 ,
16.3
55-5 \
78.2 *»
3
81.1 '
3
17.81 '7
«7
22.4 *
3
26.2
3^-'9 6„
30-59 !:
55-4 ,
54-8 ,!
61.38
77.9 ,
52.27 ^^
52.11 1^
80.9
80.3 J
17.64 ,
17-48 '^
22.7
Nov. 5.2
61.23 ^
77.4 a
22.8 •
15.2
30.05 54
29.59 tt
So
6i.li "
76.6 8
51.97 ^
79-4 ,;
^7-34 :^
22.8 °
251
61.02 ^
75.7 ,;
51.85 "
78.3
17-24 '°
22.7 \
Dec. 5.1
29.24 35
-<«. .r* 21
49-9 ,,
60.95 7
74-6
51.76 1
76-8 \i
17.17 7
22.5
^3
24
3
13
5
»7
2
4
15.1
29.01
47-5 ,8
44-7 ,„
60.92
73-3 , .
51.71 ,
75-' ,0
17-15 ,
22.1
25.1
28.92 9
60.93 '
7^-9 1
51.70 '
73-2 '9
17-17 ^
21.7 4
35.0
28.96 4
41.8 '9
60.98 5
70.5 '4
51.73 ^
71. 1 "
17-23 ^
21.1 **
Scci,TBLn6
3-449 -3-30I
1.006 40.108
1.060 +0.350
1.132 -0.531
Mean Place
25'.767 37".63
59V44I 7o".77
50-.594 69". 13
I4«.942 i8".84
ly^o, D«a
-KJ.08 -fO.IO
0.00 0.00
-0.0 1 -0.0 1
-K).oi -fo.02
Df <5, Dm S
•K).a
-0.9
+0.2
-0.9
+0.2
-0.9
+0.2
--0.9
[Eph ts]
APPAEENT PLACES OF STAES, 1912
451
FOR THE UPPER TRANSIT AT WASHINGTON.
r AquiUe.
9 AqnilsB.
0 Cygni seq.
/f
Cephei.
Mean Solar
Mag. 5.6
Mag. 3.4
Mag. 4.0
Mag. 4.4
Date.
Right
Doclina-
Right
Declina-
Right
Declina-
Right
Declina-
Aacenalon.
tionN.
Aacension.
tion S
1
Aacension.
tion N.
Aacension.
tion N.
h m
0 •
h m
e
r
b m
0 •
h 1
tn
e r
19 59
+ 7 I
20 6
— I
4
20 10
+ 4628
20 II
+ 7726
Jan. I.I
4875 ,
48.81 ^
36.5 ,,
44-19 ,
44-25
68.8
8
49-31
^3-4 ,„
8
45.67
99
48.3 _
II.O
35-0 5
69.8;
to
49.28 3
20.4 3°
45.28
39
45-1 3'
2I.O
48.90 9
33-5 I
10
44-35 ,,
70.8
[Q
49-31 3
17.3 l\
45.07
21
41.8 33
31.0
49-03 I
49.19
19
32.1 !
44-48 3
71.8 '
[Q
0
49-40 9
»4-2 ^^
45.06
I
38-4 ^4
Feb. 1 0.0
30.8 '3
11
44-64 \l
72.6
8
7
49-53 ,J
"•3 11
45.24
18
36
35-1 33
31
19.9
4938
29-7 g
28.9 ;
44-82
73-3
49-72 ,^
8-5,.
45.60
320 _
29.9
49-59 ,^
4S°3 ^'
73.7
4
49.96 ^4
6.1 '4
46.13
53
^ _
'9' !!
Mar. 10.9
49-83 11
50-09 ,g
50-37 ,^
28.4 t
45-27 J
73-8
I
50-23 „
4=^1!
46.82
69
0 _
26.7 '4
20.8
28.2 *
20
45-53 ,„
73-7
I
5°-55 t^
2.8^4
47.63
81
^'^^ !
308
28.4 =»
5
45-81 ll
29
73.3
4
6
30
■■'!
48.54
91
98
23.4 'J
Apr. 9.8
50.66
28.9
46.10
72.7
5^-25 ,a
1.6
49.52
22.7
19.8
50.96 30
29-8 9
46.40 3°
71.7
EO
51-63 ^«
2.0 ^
50.52
100
22.7 °
29.7
5^-27 ,'
3^-° .
46.71 f
70.5
[2
52.01 38
3°!!
51.53
lOI
23.2 I
May 9.7
51.57 3°
32.4 ^
4702 3*
69.1
t4
52-39 ,1
52.75 ^*
4-5 0
52.50
97
24.4 \l
19.7
SI -87 11
34- » I
47-32 30
67.6 •
t5
6-5 ,!
53.40
90
0 _
26.1 '7
29
19
29
t7
34
24
81
33
29.7
52-^6
3^° ,„
47-61
65.9 .
53.09 _
8-9 ,0
54.21
^ ^
2^-4 „
June 8.6
5^-42 ^
38.0 ^°
47-89 ll
64.2
f7
53.40 3'
"•7 '
54.90
69
3'-^ ,1
18.6
52.66 "^
4°° «
48.14 'f
62.5 ^
^7
53.67 11
14.8 3
55.45
55
34-1 ^°
28.6
52-87 "
4='° 0
48-36 "
60.8 '
t7
53.89 "
18.I 33
55.85
40
37-4 "
July 8.5
53-04 ;
440 'I
48.54 !
59.2 J
[6
54.06 7
21.4 33
56.09
24
40.8 34
13
19
14
^4
12
34
7
30
18.5
53-17 „
45-9 „
48.68
57.8
54.18
24-8 ,,
56.16
44-4 ,«
48.0 36
28.5
53-26 9
47.6 11
48.78 'I
56.5
^3
54.23 X
28.1 33
56.06
10
26
Aug. 7.5
53-30 *
49-^ !
48.84 ^
55.4
[I
54.23 ^
3'-3 11
55.80
51.5 ll
17.4
53-30 °
50.5 ^
48.85 !
54.4
,0
54.16 7
34-3 ^8
37-1
24
55.37
43
58
71
54.9 ^;
27.4
53-25 8
51.6 "
9
48.82 3
7
53.7
7
6
54-5 ;;
54.79
58.0 3»
29
Sept. 6.4
53.17 „
52.5 ,
48.75 „
53-1
53.89 ,,
39-5 ,„
54.08
83
60.9
16.4
53-06 "
53-2 I
48.64 "
52.7
4
53.68 "
41-5 °
53.25
63.4 1\
26.3
52-92 ';
53-7 I
48.51 ^
52.5
2
53-44 J-
53-«
52.90 J:
43-2 7
52.32
93
65.5 "
Oct. 6.3
52.77 '^
52.61 '^
53-9 „
48.37 t
52.5
0
44-4"
51.32
100
106
67.2 7
16.3
0
53.9 "
48.22 '5
52.6
I
45-1 I
50.26
68.4 "
15
3
15
3
28
a
109
7
26.2
52-46
53.6
48.07
52.9
52.62
45-3 ,
49.17
108
106
69.1 ,
Nov. 5.2
52.31 ^l
53-1 ^
^^•2^ 2
53-3
4
52-35 ,^
45-0 3
48.09
69.2 \
68.7 5
15.2
52.18 '3
52.4 I
47.81 "
53-9
0
52-09 „
44-2 „
47.03
25.2
52-08 '°
5^-5 '
47.71 '^
54.6
7
8
51.86 ='3
43° ,8
4' -2 ,!
46.03
ZOO
66.1 '^
Dec. 5.1
52.01 '
50.4 "
47.64 7
55.4
51.67 9
45.12
91
4
12
4
9
15
22
79
21
151
25.1
51-97 ^
51-97 °
47-8 4
47.60
47.60 °
56.3
57.2
9
51.52
II
51.35 ^
39-0 ,
33.6 '^
44.33
43.68
65
am ^^
61.4="^
35.1
52.01 *
46-3 '5
47.64 ^
58.2 '
EO
43.18
50
58.5 ''
Sec 6, Tan <J
1.008 -to. 1 24
1. 000 -O.OI
8
1.452 +1.053
4.601 +4.491
Mean Place
50'.482 45".i2
45'.89i 59"-2i
5I-.68I 26".49
52".353 48".54
D V a, Dw a
0.00 0.00
0.00 0.00
-0.02 -0.04
-o.io -0.16
Df d, D« S
+0.2
-0.9 1
-KJ.2
-0.9
40.2
-0.8 1
+0.2
-0.8
[Bpfa xa]
452
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
84 VnlpecuUe.
a* Cafrlconil.
fi Oaprlconil.
a PaTonii.
Mag. 5.4
Mag
.3.8
]
Mag. 3.2
Mag. 2.1
Mean Solftr
Date.
Right
Declina>
Right
Declina-
Riffht
Declina-
Right
Declina-
AacansioD.
UonN.
AMMUiOD.
tions.
Aacantion.
tions.
Aaoanaion.
tions.
h m
e •
h m
0
f
h :
n
•
r
h m
•
20 12
+ 2423
IT
20 13
— 12 i
0
49
20 16
-15
3
20 18
-57 0
Jan. I.I
59*31
52.3 „
8*70
16.9
0%
a
2.44
6
47.2
^
a
39.02
39.08 J
80.5,,
II.O
59.33 I
50.0 ']
8.77 I
17.2
3
2.50
47.4
2
78.3 "
2I.O
59.40 z
47-6 :t
8.87 '°
17.5
3
2.60
10
47.5
I
39.21 *^
75.9 '4
31 o
10
5950 ]°
45.3 11
9.00 '3
9.16 "*
17.7
2
2.73
13
47.6
I
20
73^5 !1
Feb. 1 0.0
59-64 ]t
43-2 "
17.8
I
2.90
17
47-5
I
39.66 ^5
71.1 »4
17
20
19
I
19
2
3«
i4
19.9
59.81
■» T
39.6 ^
9-35 „
17.7
^%
3.09
^0*
47.3
4
39-97 ^
4033 f ,
68.7
29.9
60.02 ^'
9-57 "
17.5
2
3.31
22
47.0
3
66.4 '3
Mar. 10.9
60.26 ^1
60.52 ll
38.4 "
9-8^ It
I7.I
4
3.55
24
46.5
5
40-74 *|
64.3 "
20.8
37.6 !
10.08 '7
16.6
5
3.82
27
45.9
0
41-19 :!
62.3 ^\
30.8
60.80 ^^
37-3 .
10.36 '«
15.8
8
4.10
28
45.1
8
41.67 48
60.5 '8
30
I
30
9
30
10
50
»5
Apr. 9.8
61.10
4 V
37-4 ,
10.66
14.9
4.40
44.1
42.17 „
59.0 ,
19.8
61.41 11
38.1 7
IO-97 ^'
13.9
10
4.72
32
43.0
II
42-69 5^
57.7 '3
29.7
61.73 11
40.8
11.293
12.7
12
5.04
32
41.8
12
43.22 53
56.7 '^
May 9.7
62.05 3^
11.61 32
1 1.4
13
5.37
33
40.5
13
43.76 **
56.1 ^
19.7
62.36 3'
42-7 ''
"•93 ^^
lO.I
13
5.69
32
39.2
13
44.28 f
55-8 3
30
22
31
14
31
13
51
I
29.7
62.66
4% »m
44.9 „
12-24 ,„
8.7
6.00
37.9
44-79 ..
55.9
June 8.6
62.93 n
47-4 li
50-0 ^°
"•53 '
12.79 ll
7.4
13
6.29
29
28
36.7
12
45.27 4,
56.3 4
18.6
63.18 ^5
6.2
12
6.57
35.6
II
45.70 tf
57.1 *
28.6
63.39 "
52-7 11
^3-03 ,*
5.1
II
6.81
24
34.6
10
46.09 ^:
58.1 '*»
July 8.5
63.56 '7
13
55.4 '^
27
20
13.23 ,,
4.1
10
8
7.01
20
16
33.7
9
7
46.42 33
25
^'•5 ;^
18.5
63.69 „
60.7 '^
13-39 „
3.3
6
7.17
33.0
46.67 .„
61. 1
28.5
63.78 ^
»3-50 "
2.7
7.29
12
8
32.5
5
46.85 ;
*»-9 !*
Aug. 7.5
63.82 ■♦
63.2 5
13-57 ;
2.2
5
7.37
32.1
4
46.96 "
649 :^
174
63.81 '
63.75 I
^5-4 "
13-59 ,
1.9
3
7.39
2
32.0
I
46.98 \
66.9'°
27.4
67.4 -
13.57 g
1.8
I
0
7.37
2
6
31.9
I
I
46.93 '
13
68.9'°
19
Sept. 6.4
63.66
69.1
^3-51 ,„
1.8
7.31
32.0
46.80
70.8
16.4
63.53 ;^
63.37 ^
7°-5 ^
^3-41 ^
1.9
I
7.22
9
32.2
2
46.62 •»
72.5 •'
26.3
71.5 '^
13.28 '3
2.0
I
7.10
12
32.5
3
46-38 '4
73.9 '4
Oct. 6.3
6320 7
72.2 I
13.14 It
2.3
3
6.95
15
32.8
3
46.10 **
75.1 "
16.3
72.6 *
0
12.99
15
2.6
3
3
6.80
15
»5
33.1
3
4
45.80 3«
3«
759 \
26.2
62.84
62.66 '?
62.50 \i
72.6
'^•^^ I^
2.9
M
6.65
33.5
45-49 ,„
76.3 .
Nov. 5.2
72.2 J
71.4 „
12.70 ^
3.3
4
6.50
15
33.9
4
45-^9 ^°
76.2 *
152
12.58 "
3.7
4
6.38
12
34.2
3
44.92 "7
75.8 4
25.2
62.36 '*
70.3
12.48 "*
4.1
4
6.28
10
8
3
34.5
3
44.69 \\
74-9 \
Dec. 5.1
62.25 'J
68.8 '5
18
12.41 7
3
4.4
3
4
6.20
34.8
3
3
44.52 '7
12
73-^ ;j
151
62.18
^7-o ,„
12.38
4.8
^
6.17
^^
35.1
44.40
72.0
25.1
62.14 ^
65-0 „
12.38 °
5.2
4
4^
6.17
0
35.4
3
44.35 :
70.1 '9
351
62.14
62.8 "
12.42 ^
5.5
3
6.21
4
35.6
2
44.37 67.9 "
Sec 6, Tan 6
1.098 -K).454
1.026
-0.228
1.035 -0.269
1.837 -1.541
Mean Place
6I-.I72 58".o6
10V393
5".6i
»
4M
33 35".65
4i*.5>5 64".50
DVa, Dmo
-0.01 -0.02
+0.01
%o.oi
I
+0.01 -fO-OI
+0.03 40.06
D^6,l>ui
+0.2
-0.8 1
+0.2
-0.8
40.2
•
-0.8
40.2
-0.8
[Bph la]
APPARENT PLACES OF STARS, 1912.
453
FOR THE UPPER TRANSIT AT WASHINGTON.
y Oygni.
7t Oaprlconil.
p Oaprloonii.
41 Oygni.
Mag. 2.3
Mag. 5.2
Mag. 5.0
Mag. 4.1
Mean Solar
Date.
RiRht
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Aacension.
tions.
Ascension.
tion S.
Ascension.
tion N.
h m
•
h m
0
«
h m
0 r
h m
•
20 19
+3958
19
20 22
-18:
29
20 23
-18 6
20 25
+ 30 4
Jan. I.I
8
2.03
24-9,,
1545 6
15-51 „
74.7
^\,
48*89 ^
48.95 I
30.9 „
s
46.11
^3-5 ».
II. o
2.02
22.2 '
74.7
0
30.9 ,
46.12
21. 1 '4
2I.O
2.05 I
»9-3 \l
15.60 9
74.6
I
49.04 ,;
30.8 '
46.16 4
4624
18.6 '5
31.0
2.13 X
^^•4 1
1573 '^
74.4
2
49.16 "
30.6 I
16.I '5
Feb. lo.o
2.26 '3
13.6 ^;
15.89 **
74.1
3
49.32 *^
30.4 :
46.36 "
^3-7 It
17
25
J9
4
19
4
10
22
19.9
2-43 ^,
II. I
16.08
73.7
49.51 ^,
30.0
46-52 ,„
"•5 ,„
29.9
8.8^3
16.30 "
73.2
5
21
49.72 l\
29.5 :
46.72 Vi
9.6 »9
Mar. 10.9
20.9
2.89 ^5
3.18 ^9
7.0 '8
5.7'^
1 6.80 '*
72.5
7
8
49.96 ^:^
50.23 ^'
28.8 7
28.0 '
46.95 3,
47-21 ^°
8.1 '5
7-^'«
30.8
3-49 ^!
5.0 \
1709 "'
70.8
9
50.52 ^^
^7° lo
28
47.49 ,,
6-5 i
33
2
31
II
30
10
31
0
Apr. 9.8
3-82 ,^
4-8 ,
1740
69.7
5082
26.0
47.80
6.5 ,
19.8
417 :'
5-^ I
^771 ,,
68.5
12
5114^.
^4-8 1^
48.12 3^
7.0 5
29.7
4-53 ^t
6.1 9
18.04 ^^
67.3
12
51.47:,
23.6 ",
48.45 33
8.0^°
May 9.7
4.88 35
7.6 '5
18.37 3^
66.0
13
51.80 ^^
22.3 '3
48.78 33
9-5!^
19.7
5-23 ,
9-6 «
18.70 33
64.8
12
^^2
52.12 ;f
21.0 '3
49.10 11
"•4 t
32
23
32
12
32
12
31
23
29.7
5-55 ,„
"•9„
19.02
63.6
52-44 „
'9-® „
49.41 _
^3-7 „
June 8.6
5.8s 3°
14.6 '7
1933 ^0
62.4
12
52.75 ^0
18.6 "
49.70 ^9
16.2 '5
18.6
6.12 ^^
17.5 \\
^9<i^ «
61.4
10
53-°3 :;
17.6 '«
49.96 ^J
^8-9 \l
28.6
6.34 "
20.6 3'
19.86 '5
60.6
8
53.28 '5
16.7 9
50.19 ;^
21.8 ="9
July 8.6
6.52 ^«
13
23.9 33
32
21
20.07
17
59.9
7
6
21
53.49 ,3
16.0 I
6
50.38 '^
14
24.8 30
29
18.5
6.6s ,
271 „
20.24
59.3
53 67 ^^
15.4 .
50.52
^7-7 ,„
28.5
6.72 '
30.3 3^
20.37 i
20.45 ,
59.0
3
53.80 '3
15.I ^
50.61 9
30.6 ^9
Aug. 7.5
6.74 \
33-3 ^„
58.9
I
53.88 ;
14.9 ^
50.65 I
33-3 ,^
174
6.71 \
6.63 *
36.2 ^5
38-8 t
20.48 3
58.9
0
53.91 \
14.9 °
50.65 °
35.8 5
27.4
20.47 \
59.0
I
53.90 '
15.0 '
50.60 ^
38.1 ="5
13
23
5
3
5
2
10
20
Sept. 6.4
4'-* ,n
20.42
59.3
53.85 ^
'5-^ .
50.50
4°-^ „
16.4
If 6 '^
44.6
20.32
59-6
3
53.76 9
15.6 4
50.37 ,^
50.21 'I
41-8 7
26.3
6.14 ^°
20.20 *^
60.0
4
53.64 "
16.0 4
43-1 '3
Oct. 6.3
5-9^ '!
II
45-7 "
20.06 ^4
60.4
4
53.50 ;4
53.34 °
16.4 4
18
50.03 °
44-1 '^
16.3
5-68 ^1
46.4 I
19.91 ^\
60.9
5
16.8 4
49-84 \l
44.6 ^
24
3
15
4
15
4
20
2
26.3
5-44 ,,
467 ,
19.76
61.3
53.19 ^^
17.2
49.64
44.8 ,
Nov. 5.2
5.21 ="3
00
46.4 I
19.61 '5
61.6
3
53.04 \\
17.6 4
49.45 ,^
49.27 !
44.5 I
152
^•^ L
45.7 J
19.48 3
61.9
3
52.91 '^
17.9 \
43-8 ,1
25.2
^•79 "°
44-5 "
19.37 "
62.2
3
52.80 "
18.1 '
42.8 °
Dec. 5.1
4-63 \\
42-9 !^
19.30 7
62.4
2
52.73 :
18.3 '
48.98 '3
41.3 '^
13
20
4
I
4
2
9
18
15.1
4.50
4.42
4^-9 ,^
19.26
62.5
52.69
18.5 ^
48.89
48.83 f
39-5 ^,
25.1
3«-5 ^
35.9
19.25 \
62.5
0
52.68 \
18.6 '
37-4
351
4.38 4
19.29 "^
62.5
0
52.71 3
18.6 °
48.80 '^
35.1 '3
Sec <J, Tan 6
1.305 -K>.838
1.054 -0.335
1.052 -0.327
1. 156 +0.579
Mean Place
4».i85 28".28
17". 132 62"..6i
\
50-.567 i8".82
48*.04o 27^.91
ly f a, Dm a
-0.02 -0.03
+0.0 1 +0.01
+0.0 1 40.0I 1
-o.oi -0.02
D^ 6, Dm d
+0.2
-0.8 1
•fO.2
^.8
+0.2
-0.8 1
♦0.2
-0.8 -
[Eph is].
454
APPAEENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan, I.I
II.O
2I.O
31.0
Feb. lo.o
19.9
29.9
Mar. 10.9
20.9
30.8
Apr. 9.8
19.8
29.7
May 9.7
19.7
29.7
June 8.6
18.6
28.6
July 8.6
18.5
28.5
Aug. 7.5
17.4
27.4
Sept. 6.4
16.4
26.3
Oct. 6.3
16.3
26.3
Nov. 5.2
152
25.2
Dec. 5.1
15-1
25.1
35-1
Sec d. Tan 6
Mean Place
0 Cephei.
Mag. 4.3
Right
Aacenslon.
h m
20 28
t
3.09
2.95
2.89
2.91
3.02
3-21
3.48
3.83
4.23
4.69
5.18
5.70
6.23
6.75
7-25
7.72
8.13
8.49
8.78
9.00
9.14
9.19
915
9.04
8.85
8.58
8.26
7.88
7.46
7.02
6.56
6.10
5.65
5.23
4.86
4-53
4.27
4.08
14
6
2
II
19
27
35
40
46
49
52
53
52
50
47
41
36
29
22
14
5
4
II
19
27
32
38
42
44
46
46
45
42
37
33
26
19
Declina-
tion N.
+ 62 41
m
530
49.9 t^
46.6 33
43-3 II
33
32
28
24
19
13
7
I
6
12
17
23
27
30
34
35
36
40.0
36.8
34-0
31.6
29.7
28.4
27.7
27.6
28.2
29.4
3I-I
33.4
36.1
39-1
42.5
46.0
36
36
49.6
53.2
56.8
60.2 34
63.4 ^'
29
68.9 ^^
71.I "
72.8 ^7
m» ^ 12
74-0 ^
74.7
74.8
74.4
73.4
71.9
69.9
67.4
645
I
4
10
15
20
25
29
2.180 -t-1.938
6'.457 52".96
-0.04
+0.2
-0.08
-0.8
€ Belphlnl.
Mag. 4.0
Right
Aacension.
h m
20 28
58.85
58.88
58.94
59.04
59.17
59-33
59.52
59.73
59.97
60.24
3
6
10
13
16
19
21
24
27
28
60.52
60.82 3«>
61.133'
61.44
61.74
62.04
62.32
62.58
62.81
63.00
63.16
63.27
63.34
63-36
63.33
63.27
63.18
63.06
62.91
62.76
62.60
62.45
62.31
62.19
62.10
62.04
62.02
62.03
31
30
30
28
26
23
19
16
II
7
2
3
6
9
12
15
15
16
15
14
12
9
6
Declina-
tion N.
+ 1059
65-4
63.8
62.2
60.6
59.2
57.9
56.9
56.2
55.9
55.9
16
16
16
14
13
10
7
3
o
5
8
II
56.4
57-2
58.3
59.8 11
61.6
18
20
63.6
65.7
67.9
70.1
72.3
21
22
22
22
22
20
18
74.5
76.5
78.3
80.0 '7
81.4 '^
12
82.6
83.5
84.2
84.6
84.8
84.7
84.3
83.7
82.9
81.8
80.5
79.1
77.6
4
6
8
II
13
14
IS
1.019 40.194
6o».545 7^".82
0.00 -0.0 1
+0.2 -0.8
[Bph zt]
Oroombridge 8841.
Mag. 6.4
Right
Aacension.
h m
20 30
18^86
18.57
18.40
18.37
18.47
18.70
19.06
19-53
20.09
20.73
29
17
3
10
23
36
47
56
64
70
21-43 ^,
22.16 '^
22.91 75
23.64 11
24.34 l^
24.98
^5-55 8
26.03
26.40
26.67
57
26.81
26.83
26.73
26.52
26.19
37
27
14
2
10
21
33
43
53
60
66
25.76
25.23
24.63
23.97
23.26 7'
73
22.53
21.79 74
21.07 II
20.38 ''
19.75
69
63
56
19.19
18.72
18.36
47
36
Declina-
tion N.
+ 72 13
••
61.9
58.9 ^°
55-6 ^^
52-2 ^*
48.9 II
32
45-7 ,„
42.8 ^9
40.2
38.2
36.7
35.8
35.6
36.0
37.0
38.6
26
20
15
9
2
4
10
16
21
40.7
43.3
46.3 ^,
49.6 33
35
26
30
53.1
56.7
60.3
63-9
67-4
70.7
36
36
36
35
33
31
27
73.8
76.5 ^^
78.8 ^3
80.7 '9
82.1
14
9
83.0
83.3
83.0
82.2
80.8 '4
19
76.5 '^
73.7
28
3.277
23*-7i5
+3121
60" .94
-0.07
+0.2
-0.13
-0.8
alndl.
Mag. 3.2
Right
Ascexision.
h
20
31
8
20.77
20.82
20.92
21.07
21.27
5
10
15
20
24
21.51
21.80^9
22.12 3^
22.48 36
22.86 38
41
23.27
23.70 43
24.1444
24.58 ^^
25,02 44
43
25-86 "tl
26.24 3»
26.58 34
26.88 30
23
27.11
27,29
27.40
27.45
27.43
27.36
27.23
27.05
26.84
26.62
26.38
26.15
25.94
25.76
25.63
25.54
25.50
25.51
18
II
5
2
7
13
18
21
22
24
23
2X
18
13
9
4
I
Declina-
tion &
-47 35
730
71.3
69.4
67.5
65.4
63.4
61.4
59.4
57-5
55.7
54.1
52.7
51.5
50.5
49.8
49.4
49.3
49.6
50.1
50.9
17
19
19
21
20
20
20
19
18
16
14
13
10
7
4
I
3
5
8
II
13
52.0
53.3
54.8 !!
56.4
58.0
16
16
16
59.6
61. 1
62.5
63.6
64.4
64.9
65.1
65.0
64.5
63.6
62.5
61. 1
59.4
>5
14
II
8
5
2
I
5
9
11
14
»7
1.483 -1.095
22".8io 57".o6
«0.02
40.2
•fO.04
-0.8
APPARENT PLACES OF STARS, 1912.
455
FOR THE UPPER TRANSIT AT WASHINGTON.
f Ckfrlooml.
or Delphlni.
ft Pavonls.
Mean Solar
Mag. 3.7
1
Mag. 5.3
Mag. 3.9
Mag. 3.6
Date.
Right
Declina*
Right
Dwslina-
Right
Declina-
Right
Declina-
AioAnaion.
tionN.
AacMX.
Ion.
tion S
•
Ascension.
tion N.
Ascension.
tion &
h m
e
li
01
•
*
.h m
e
h m
• r
20 33
+ 1417
20 35
-1826
If
20 35
-HI535
20 36
-6631
Jan. I.I
•
23.67
"•7 „
■
0.88
68.5
s
31.34 _
58-* .«
s
59-47 „
3^-^oic
28.4 '^
or 2 28
25.6
II. I
23-69 I
23.7s „
10.0 '7
0.92
4
8
68.5
0
T
31.36 \
5^-4 !
59-47 ,°
2I.O
8.2 ^l
^•4 ,^
I. 00
68.4
X
31.41 \
54-5 '
59-57 °
31 -o
23.84 ,\
I. II
II
68.1
3
31.49 _
52-7 \l
59-76 \l
22.7 ^
Feb. 1 0.0
^3-96 \\
4.8'^
14
1.26
15
18
67.8
3
4
3«-^^ la
51.1 '^
JS
60.03 3^
19.7 ^^
29
19.9
^*-" ,«
3-4 ,,
1.44
67.4
£_
31.77 -
49.6 „
60.39 , ,
16.8 „
29.9
24.30 ',
^•^ «
1.64
20
66.8
6
31.95 ''
48.4 "
60.82 *3
, - ^ 28
^4.0 ^x
Mar. 10.9
^4-52 W
1.4 ;
1.87
23
66.0
8
32-^6 !
10
47.4 °
61.32 50
26
20.9
30.8
^4-76 4
25.02 ^3
0.9 ^
0.8 '
4
2.13
2.41
26
28
30
65.1
64.1 ^
9
[O
EI
32-40 ll
32.66 ^J
46.9 ;
46.8 '
3
61.8735
9.0 '4
6.9"
19
Apr. 9.8
25.30 ,„
1.2
2.71
63.0
32.94 „
47.1
63-12
<*3 79 J^
5-°,c
19.8
25.60 30
^•9, J
3.03
32
61.7 ^
t3
33-24 ^
47.8 7
3.5 '
29.8
25.91 \\
3.0"
3.35
32
60.4 ^
13
33-55 :,
48.9
64-48 ^'
2-4"
May 9.7
26.22 ^
4'5 ,Q
3.68
33
59.1 \
^3
33-87 f
5°-4 f
65.18 70
^•7 '
19.7
^^•53 \l
^•3 ^^
4.02
34
57-7 \
14
34.18 f
52.2 t
6588 7°
1.4 3
30
20
32
13
30
20
67
I
29.7
26.83 ,„
®-3,,
4.34
56.4 ,
34.48
54.2 „
66.55 ,,
67.18 ^3
1.5 ,
June 8.6
27.12 l\
^°-5 r.
4.65
31
55.2
[2
3476 *?
56-4 "
2.0 ^
18.6
27.38 '*
12.8 '3
4.94
29
54-2
[O
20
3502 ^°
58.8 '4
67-77 "
2.9,^
28.6
27.61 *3
15.2 ^4
5.20
26
53.2 ^
[O
35.26 '4
61.2 =**
68.29 ^
4-=» 2
July 8.6
27.81 ^°
^7-6 !t
5.42
22
52.4
8
35.46 »«
63.6 ^4
68.74 45
5-8 f
15
»3
19
5
16
24
35
20
18.5
27.96
19.9
5.61
51.9
35.62
66.0
^9.09 ,,
7-*„
28.5
28.07 "
22.1
575
14
51.5
4
I I
35.73 "
68.3 *3
69.35 \\
69.51 't
« ^ 21
Aug. 7.5
28.14 I
20
24-^ .«
5.84
9
51.3
2
3580 I
70.4 ,„
12.2 ^3
17.5
28.17 \
5.89
5
51.3
0
35.82 ^
72.3 ;
69.56 3
69.50 ,,
H.6 '4
27.4
28.15 '
7
^7-5 ,^
5.89
0
5
51.4
I
3
35.80 \
74.0 '7
14
17.0 *4
23
Sept. 6.4
28.08
28.9 „
5.84
0
51.7
35-74 ,„
75.4 , ,
69.34 ,^
*9-3 _,
16.4
27-99 ,^
30.0 "
576
8
52.1
4
35.64 °
76.5 "
69.10 *4
21.4 "
*3-2 ,.
26.3
27.87 \\
30.8 I
5.65
II
52.5
4
35.52
77-4 '
78.0 \
68.78 3^
Oct. 6.3
27.72 5
^7-56 \\
31-4 \
5.51
14
52.9
4
35.37 „
68.39 "
24.6 '4
16.3
31.6 ^
0
5.36
15
15
53.4
5
5
35.22 ^5
78.3 I
67.97 JJ
25.6 -
26.3
27-40
31.6
5.21
53.9
35.06
78.3 ,
67.53 ^,
26.2
Nov. 5.2
27.25 'f
31.3 ;
30.7 °
5.06
15
54.3
4
34.90
78.0 3
77.4 i
67.09 **
26.2 **
15-2
27.11 w
4-93
13
54.6
3
34.76 *
66.68 4»
66.32 36
^5-8 ,0
25.2
26.98 '^
^9-« ,^
4.82
II
54.9
3
3463 \l
76.5 '
24.8 "*
Dec. 5.2
26.89 ^
28.6 "
4.73
9
55.1
2
34.53 ,
75-4
66.01 3'
=^3-4 4
7
«3
5
I
• 09
13
33
19
15.1
26.82
27.3 ,.
4.68
55.2
3446
IT. ^6
72.5 ,,
65.78
**-5,,
25-1
26.78 ^
25.8 \i
4.67
I
55.3
I
34.42 ^
65.63 'f
19.2 \\
35.1
26.78 °
24.1 '7
4.69
2
55.3
0
34.42
70.8 '7
65.58 3
16.7 '5
Sec «I, Tan 6
1.032 +0.255
1.054 -0.33
4
1.039 +0.279
2.510 -2.302
Mean Place
25-.384 i8".38
2».5i4 56".23
33».054 64" .56
62*.462 13" .39
jy^ a, Dm a
-o.oi -0.01
-fo.oi +0.01
-0.01 -0.01 1 +0.05 +0.10
P^il, D«(S
■♦0.2
-0.8
40. a
!
-K>.8
+0.2
-0.8
1 +0.3
-0.8
[Bph xa]
456
APPARENT PLACES OF STARS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
a Gygnl.
^ Caprlconi.
^ ]>eI91il]ii seq.
Mag. 1.3
Mag. 4.5
Mag. 4.3
Mag. 4-5 .
Meftn Solar
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
DecUn.-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion S.
Aicratioa.
donN.
,
h m
0 r
h . m
e r
h m
e
r
h m
•
20 38
+44 57
20 39
+ 1445
I9
20 40
-2_5 35|
20 43
+ 1548
Jan. I.I
s
23.62
54.0 ,,
8
19.34 _
^3-^ ,8
^'•4 ,8
19.6 !
s
51.62
28.7
m
32^83
^"^'"^ 18
'5-9 ,8
"•3 !,
II. I
23.57 \
5^-3 0
19.35 .
51.66 \
51.74 „
28.3
4
6
32.84 '
2I.O
2356 '
48-4 '
19.40 \
27.7
32.88 4
32.96 ,J
310
23.61 \
45-4 Z
19.48 ,°
'7-9 I
16.3 "*
51.85
27.0
7
8
Feb. lo.o
23.71 '°
42.4 3°
19.60 "
52.00 \
26.2
33.08 \\
10.6 *7
15
27
15
15
18
9
«4
15
19.9
29.9
23.86
24.06 ^°
37.3 *
'9-75 ,3
19.93 ^^
14.8
13.6
12.8 *
52.18
52.39 ,^
25.3
24.3
10
33.22
33.40 '8
9-1
7-9 „
Mar. 1 0.9
24.30 '^^
35-2 'I
20.14 "
52.63 '*
23.2
II
33-60 »°
7.0 9
20.9
30.8
24.59 ^
24.91 ^
34
33-6 '
32.6
4
20.38 \\
20.64 ^f
^ 28
12.3 5
12.2 '
3
52.89 'f
53.18 »9
3J
22.0
20.7
12
13
13
33.84 '4
34.10 '^
38
6.4 ^
^•3 :
Apr. 9.8
25.25 ,.
32.2
20.92
"•5 ,
53-49 „
19.4
34-38 ,„
6.5 ,
19.8
25.61 ^J
32.3
21.21 ^^
13.2 '
53.82 33
I8.I
13
34-67 '^
7.2 .;
29.8
25.99 ^0
33.0 .^
21.52 ^'
14.3 "
54-16 34
16.7
H
34.98 3
8.3"
May 9.7
26.37 \
34-3 i
21.83 3'
^5-8 i
54.51 35
15.4
13
3530 11
9-8 t
11.6 '*
19.7
26.74 ^J
36.1 '8
22.14 ^^
17.6 '»
54.85 "
14.2
12
35-61 31
35
23
31
20
34
12
30
30
29.7
27.09
38.4 ^
22.45
'9.^ ..,
55.19
13.0
35.91 ,„
^3-6 „
June 8.6
27.42 33
4^-° !
22-74 ^^
«w Q 22
21.0
55-52 33
12.0
10
0
36.20 *9
15.8 "
18.6
27.72 30
43.9 Z
20
23.00 ^
^4-» 'i
55.83 ^'
II.2
0
36.47 *J
18.1 ='3
28.6
27.97 ^^
47.1 f.
23.24 J^
^^•5 1
56.10 ^7
10.6
0
36.71 *4
20.6 '^
July 8.6
28.18 ^'
50.4 _
23-44 Z
^8-9 't
56-34 '4
10.2
4
36.91 °
23.0 ^4
15
34
16
23
ao
t
3
'7
24
18.5
28.33
53.8
23.60
31-2 ,„
56.54 .,
1 0.0
3708
25.4 „
28.5
28.42 \
57.1 ^^
23.72 "
33.4 "
56.70 ^
10. 1
I
37.20 "
27.7 ^3
Aug. 7.5
28.46 ^
60.433
23.79 ,
35-5 '
56.80 '"
10.3
2
37.27 ;
^9-8 0
17.5
28.44 '
28.36 ^^
^3-5 ^'
23.82 3
37.4 ^
56.85 \
10.7
4
3730 3
31.7 '
27.4
66.4 ="9
23.80 \
39.1 ''
56.86 '
II.2
5
37.29 '
33.4 '7
12
36
5
14
4
7
6
15
Sept. 6.4
28.24
69.0 ,,
23.75 ^
40.S „
56.82
5674 *
II.9
37.23 „
34-9 ,,
16.4
28.07 '7
71.2 "
23.66 ^
41.6 "
12.6
7
37.14 '
36.1 "
26.3
27.86 "
73.1 ;'
23.53 1^
42.5 \
56.62 "
13.3
7
6
6
6
37.02 \\
37.0 '
Oct. 6.3
2763 '3
74-6 \l
23.39 ;^
43.1 ,
56.48 \\
13.9
36.88 '4
37.7 I
16.3
2738 IJ
75.6 '°
0
23.24 ,^
43.4 I
56.33 ;^
14.5
36.73 ;^,
38.0 3
. 0
26.3
26.86 ""^
76.1
23.08
43-4 ,
56.01 ^
I5.I
3<>'57 ,6
36.41 \\
38.0
Nov. 5.2
76.2
22.92
43-1 ^
15.5
4
37.8 '
15.2
26.62 ''^
75-7 ,^
22.78 '4
4^-5 0
55.87 4
15.8
3
36.26 '5
37-2 \
25.2
26.39 *^
74-7 !
22.65 "^
41.6 9
55-75 "
15.9
I
36.13 \i
36.4 „
Dec. 5.2
26.19
«7
73.3 '4
19
22.55 '^
40.5 "
*3
55.65 -
15.9
0
2
36.03 •"
35.3 :;
I5-I
V
26.02
f 2
71.4 .^
22.48
39.2
re
55-59 ,
15.7
i«
35.96
32.3 „
25.1
25.90 "
25.82 ®
66.5 '^
22.44 ^
37.7 ;
55.57 ,
15.4
3
35.91 ;
35.1
22.43
36.0 '7
55.59
15.0
4
35.90
30.6 '7
Scc<J,Tiin<5
1. 4 13 40.999
1.034 40.264
1. 109 -0.479
1.039 ^.283
Mean Place
25'.895 55 ".48
2 1 ".040 29 ".59
S3".268 I5".a3
1
34'.532 a3".«4
IV^^a, D^a
-0.02 -0.04
-0.0 1 -0.0 1
+0.01 +0.0:
1
-0.01 -OJOX
D^ d. Dm ^
40.3
-0.8
-K).3
-0.8
+0.3
-K>.8
■♦0.3
-0.8
[Epb t«]
APPARENT PLACES OF STARS, 1912. 457
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solur
Date.
Jan. I.I
II. I
2I.O
310
Feb. 1 0.0
19.9
29.9
Mar. 10.9
20.9
30.8
Apr. 9.8
19.8
29.8
May 9.7
19.7
29.7
June 8.6
18.6
28.6
July 8.6
18.5
28.5
Aug. 7.5
17.5
27.4
Sept. 6.4
16.4
26.3
Oct. 6.3
16.3
26.3
Nov. 5.2
15.2
25.2
Dec. 5.2
15.1
251
35.1
Sec rf, Tan rf
Mean Place
e Gygnl.
Mag. 2.6
Right
Awmsion.
h m
20 42
37.07
37.05
3707
37.13
37.23
37.38
37.56
37.78
38.03
38.31
2
2
6
10
15
18
22
25
28
31
32
38.62
38.94 _ .
39.28 3^
39.62 ^^
39.96
40.28
40.59
40.87
41.12
41.32
41.48
41.59
41.65
41.66
41.62
41.53
41.41
41.26
41.08
40.88
40.68
40.48
40.29
40.11
39.96
39.84
39.76
39.72
34
32
31
28
25
20
16
II
6
I
4
9
12
15
18
20
20
20
19
18
15
12
8
4
Declina-
tion N.
+ 3338
21.6
25
I9.I
16.6 ^5
14.0
"5
26
25
23
9.2
7.1
5.4
4.2
3.5
3.3
3.6
4.5
5.9
7-7
21
17
12
7
2
3
9
14
18
22
25
28
9.9
12.4
15.2
18.2 30
21.2 ^^
24.3
27.3
30.2
33.0
35.5
30
29
28
25
22
37.7
39.6
41.2
42.4
43.2
43.6
43.6
43.1
42.2
40.8 '^
17
37.1 '"^
34.8 ^3
19
16
12
8
4
o
5
9
1.202 40.665
39".032 24^.51
-o.oi
•K>.3
-0.03
-0.8
€ AqmzU.
Mag. 3.8
Right
Aaeension.
h m
20 42
t
53.22
53.25
53.32
53.42
53.55
53.71
53.90
54.11
54.35
54.62
54.90
55.20
55.51
55.83
56.15
56.47
56.77
57.05
57.30
57.52
57.70
57-84
57.94
57.99
57.99
57.95
57.87
57.77
5765
57.51
57.36
57.22
57.09
56.98
56.90
56.84
56.82
56.83
3
7
10
13
16
19
21
24
27
28
30
31
32
32
32
30
28
25
22
18
14
10
5
o
4
8
o
2
4
5
4
3
I
8
6
2
I
DeeUaa-
tienS.
- 948
77.3
77.8
78.2
78.5
78.7
78.7
78.6
78.2
77-7
76.9
75.9
74-7
73.4
72.0
70.5
68.9
67.4
65.9
64.5
63.3
62.2
61.3
60.6
60.0
59.7
59.5
59.5
59-6
59.8
60.1
60.5
60.9
61.3
61.8
62.3
62.8
63.3
637
5
4
3
2
o
I
4
5
8
10
12
13
14
15
16
•
15
15
12
II
9
7
6
3
2
o
I
2
3
4
4
4
5
5
5
5
4
1.015 -0.172
54*.807 66".46
0.00 40.0I
40.3 -0.8
[Bph la]
17 Cephei.
Mag. 3.6
Rlffht
Aaonnaion.
b
20
01
43
26.88
26.73
26.65
26.64
26.72
15
8
I
8
16
24
30
26.88
27.12
27.42
27.79 '
28.22 ^3
47
28.69
29.19
29.70
30.21
30.71
50
51
46
31.17
31.60^^
31.98 3*
32.29
32.53
31
24
17
32.70
32.78
32.79
32.72
32.57
8
I
7
15
22
32.35
32.06 ^9
31.73 II
31.35^^
30.94 t!
43
30.51
30.08 ^3
29.66 ^^
29.26 ^^
28.89 ^^
32
28.57
28.30 ^7
28.10 ^°
Deelina-
tion N.
+ 61 29
46.4 3^
40.1 3^
36.8 33
31
33-7 ,„
30.8 ^9
28.4 ^^
26.4 ^°
14
8
25.0
24.2
24.0
24.4
25.4
27.1
29.2
31.8
34.8 ^^
38.1 33
41.6
2
4
10
17
21
26
45.2
48.9
52.5
56.0
59.3
35
36
37
36
35
33
31
27
24
19
62.4
65.1
67.5
69.4
70.8 ^4
10
71.8
72.1
71.9
71.2
69.9
68.0
65.7
63.0
3
2
7
13
19
23
27
2.096 +1.842
30».i03 48".32
-0.04
+0.3
-0.08
-0.8
// Aanaril.
Mag. 4.8
Riltht
Aaoension.
h m
20 47
52.95 ,
52.98 3
53.04 I
53.13 ^
53.26 ;3
53.41
53.59
53.80
54.04
54.30
18
21
24
26
28
54-58 ,^
54.88 30
55.19 ^'
55.51
55.83
56.14
56.44
56.73
56.99
57.21
57.40
57.54
57.64
57.69
57.70
57.66
57.59
57.49
57.37
57.23
57.09
56.95
56.82
56.71
56.62
56.56
56.54
56.55
32
32
31
30
29
26
22
19
14
10
5
I
4
7
10
12
14
14
14
13
II
9
6
2
I
Declina-
tion S.
- 9 18
61.8
62.3
62.7
63.0
63.2
633
63.2
62.8
62.3
61.5
60.5
59.3
58.0
56.6
55.0
53.4
51.8
50.3
48.9
47.6
46.5
45-6
44.8
44.3
43.9
43-7
43.6
43-7
43.9
44.2
44.5
44-9
45.4
45.9
46.4
46.9
47.4
47.9
5
4
3
2
I
4
5
8
10
12
13
14
16
16
16
15
14
13
II
9
8
5
4
2
I
I
2
3
3
4
5
5
5
5
5
5
1.013 -0.164
54'.5i7 5i".o6
0.00
♦0.3
40.0I
-0.7
458 APPAEENT PLACES OF STABS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. I.I
II. I
2I.O
31.0
Feb. lo.o
20.0
29.9
Mar. 10.9
20.9
30.8
Apr. 9.8
19.8
29.8
May 9.7
19.7
29.7
June 8.7
18.6
28.6
July 8.6
18.5
28.5
Aug. 7.5
17-5
27.4
Sept. 6.4
16.4
26.4
Oct. 6.3
16.3
26.3
Nov. 5.2
15-2
25.2
Dec. 5.2
15.1
25.1
35-1
/?Iiidl.
Mag. 3.7
Right
AtcenaioD.
h m
20 47
54.09
54.10
54.17
54.31
54.52
54.79
55.11
55.49
55.91
56.37
56.87
57.40
57.95
58.50
59.06
7
14
21
27
32
38
42
46
50
53
55
55
56
54
59.60
60.12 ^l
60.60^*
61.04
61.42
44
38
30
Sec iJ, Tan rf
Mean Place
D'^ a, Dm a
D^ d, I>« (J
24
61.72
61.96
62.12 '^
62.19 ^
62.18 *
62.09
61.93
61.70
61.43
61.13
16
23
27
30
32
60.81
60.49
60.18^'
59.91 ^^
59.69
32
22
59.52
59.41
59.37
17
II
Declina-
tion S.
-5847
29.8
27.6
25.1
22.5
^9« II
22
25
26
17.2
14.6
12.0
9.6
7.5
5.6
3.9
2.6
1.6
0.9
0.6
0.8
1.3
2.2
3.4
4.9
6.7
8.7
10.8
12.9
15.0
16.9
18.7
20.2
21.3
22.0
22.2
22.0
21.4
20.3
18.8
17.0
14.8
26
26
24
21
19
17
13
10
7
3
2
5
9
12
15
18
20
21
21
21
19
18
15
II
7
2
2
6
II
15
18
22
82 VnlpecuUe.
Mag. 5.2
880 Diaoonis (Heis) .
Mag. 5.6
Right
Ascension.
1.930
56'.4l8
-1.650
I2".05
-K>.03
40.3
-K>.07
-0.7
h m
20 50
8
46.72
46.71
46.73
46.78
46.88
I
2
47.02
47.19
47.39
4763
47.89
48.18
48.49
48.81
49.14
49.47
5
10
14
17
20
24
26
29
31
32
33
33
32
49.79
50.09
50.37 ^^
50.62 ^5
50.83 "
30
28
21
51.00
51.12
51.19
51.22
51.20
51.13
51.03
50.90
50.74
50.56
50.38
50.20
50.03
49.87
49-74
49.63
49.56
49.52
17
12
7
3
2
7
3
6
8
8
8
7
6
3
I
7
4
Declina-
tion N.
+ 2743
^7-3 ,,
22
12.8 '3
10.5 "3
8.2^3
31
4.3'*
2.8 '5
1.8 '°
1.2
I.I
'■' t
2.4 ^
3.8'?
18
21
5.6
7-7
10.1 ^^
12.8 'I
rr i^ 28
^•^ 28
18.4 ^^
29
"'•3 28
24.1
26.8 ^7
29.3 ^^
31.6
23
21
33.7
35.4
36.9
38.0
38.7
39.0
38.9
38.5
37.6
36.4
34.8
33.0
30.9
17
15
II
7
3
I
4
9
12
16
18
21
1.130 -K>.525
48».556 2o".88
-0.0 1 -0.02
-♦0.3 -0.7
[Bph x4
Right
Ascension.
h
20
in
51
28^55
27.82
27.32
27.06
27.04
27.27
27.73
28.42
29.30
30.33
73
50
26
2
23
46
69
88
103
116
31.49
32.72 '^^
35.25 11^^
36.46'"
113
37-59 ,^
38.59 '^
39.44
40.12
40.61
Declina-
tion N.
85
68
49
29
40.90
40.98
40.84
40.50
39.96
8
14
34
54
72
39.24
38.34
37.29
90
105
36.12 "7
34.85 "7
33.51
32.13
30.75
134
138
138
+ 8012
m
82.9 ^*
79.8 3^
76.5 33
73.2 ^3
32
70.0
66.9 3'
64.1 ^«
61.8^3
60.0'®
12
58.8
58.2 ^
58.2 °
58.9 ^
60.1"
18
61.9
64.2 ^3
66.9 ^7
69.9 3°
73.3 ^^
35
84.036
87.6 3^
01. 1 ^^
33
94-4,^
97.4 ^°
V CygDi.
Mag. 4.0
100. 1
102.4
104.2
105.5
106.3
106.5
27
23
18
13
8
2
29.41 '3^,io6.i ^
28 127.... 10
^116
26.98
/*» ^^ *02
25.96
25.12
84
105. 1
15
103.6
101.6^^
99.1 ^5
5.889 +5.804
36».854 82 ".27
-0.1 1
40.3
-0.26
-0.7
Right
Ascension.
h m
20 53
51.40
51.35
51.34
51.38
51.46
51.59
51.76
51.98
52.24
52.53
52.85
53.19
53.55
53.91
54.27
54.62
54.95
55.25
55.51
55.73
55.90
56.02
56.09
56.10
56.05
5
I
4
8
13
17
22
26
29
32
34
36
36
36
35
33
30
26
22
17
12
7
I
5
9
13
55.96
55.83 ,.
55.66 II
55.46 ^°
55.24
22
23
55.01
54.78
54.56
54.35
54.17
54.02
53.90
53.82
23
22
21
18
15
12
8
Declina-
tion N.
+ 4049
39.2
36.6
33.9
31. 1
28.3
25.7
23.4
21.4
19.8
18.8
18.3
18.4
I9.I
20.3
22.0
24.2
26.7
29.5
32.6
35.8
39.0
42.3
45.5
48.5
51.3
53.9
56.1
58.0
59.5
60.6
61.2
61.4
61. 1
60.3
590
26
27
28
28
26
23
20
16
10
5
I
7
12
17
22
25
28
31
32
32
33
32
30
28
26
22
19
»5
II
6
2
3
8
13
17
21
57.3
52.8 ^^
1.322 40.864
53'-5i2 4o".27
-0.02
+0.3
-0.04
-0.7
APPARENT PLACES OF STARS, 1912.
459
FOR THE UPPER TRANSIT AT WASHINGTON.
OL Octantls.
Y XicroBCopU.
B Capricoznl.
^ Cygni.
Mean Solar
Mag. 5.2
Mag. 4.7
Mag. 4.2
Mag. 3.9
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Aicension.
tion S.
Ascension.
tion S.
Ascension.
tion S
.
Ascension.
tion N.
h m
0 •
h m
0 »
h m
e
t
h m
0 t
20 54
-7721
20 55
-32 36
21 0
-1734
tt
21 I
+ 43 34
mm
Jan. I.I
o!85
57-7 „
8
52.20
23.1 8
"•3 ,„
8
58.60
71.9
8
41.59 ,
WW
35-1 ,«
II. I
0.70 '5
54-6 3'
52.22
5^-^^ xo
58.62 \
71.8
I
41.52 ;
3^5 !f
2I.O
0.72
51-4 f.
21.3
58.67 I
71.7
I
41.49 \
^9-7 Z
310
0.91 ^
48.1 33
52.38 ^
20.1
58.76 9
71.5
2
41.52 ^
26.8 =^9
Feb. lo-o
1.26 35
44-7 '1
52.52 **
'8-9 !!
58.87
71.2
3
41.59 '
24.0 '«
51
34
17
14
15
5
II
27
20.0
29.9
'•77 66
2-43 _„
41.3 „
38.1 ^l
52.69
21
;J:J -
59.02
59.20 \
70.7
70.0
7
41.70
41.87 '7
21.3
18.9 '4
Mar. 10.9
20.9
3.22 ''
4.12 9°
35- 8
32-3 ,°
53.14 "*
53-41 !I
;5 5 :«
59.64 ^\
69.2
68.2 '
8
10
22
42.09 ,6
42.35
16.8 "
15.1 '7
30.9
5- ::^
29.8 *5
21
53.70 ^9
3a
■■■3 ;:
26
29
67.1 ^
[I
13
42.64 ',^
32
.3.9 '^
Apr. 9.8
6.20
w w «*
^71 „
54.02
l:J-'
60.19
65.8
42.96
13.3
19.8
8.51 "*
26.0 *7
54.37 ^^
6049 Z
64.4 \
^4
43.31 _
13-3 °
29.8
24.8 "
5472 ^;
6.6 '5
60.81 3»
63.0
t4
43.68 37
13-9 ^
May 9.7
9.71 "°
24.0 \
5509 ,;
5-2 It
61.1433
61.5 ^
15
44.06 38
15.0 "
19.7
10.90 "9
23.6 ^
55.46 37
3-9 ^
61 .48 34
60.0 ^
^5
44.43 ^'
16.6 '«
US
2
37
10
3a
t5
37
21
29.7
"•°5„,
23.8
55.83 „
2.9 ^
61.80
58.5 ,
44.80
18.7
June 8.7
?3-'6 ^
24.4 ^
56.18 35
2.0 \
62.12 3='
57.1
^4
45.14 ^^
21.2 ^5
18.6
14.17 '°
1 1
255 "
56-51 ^^
'•4 !
62.43 ^'
55.9 \
[2
45.45 ^'
24.0 ^»
28.6
15.08 9'
15.86 78
27.0 ;5
56.81 30
1.0 4
62.71 ^°
54.8
[I
28
45-73 ,,
27.1 3^
July 8.6
^^•9 Z
57-°8 n
0.9 1
<^2-95 '*
53.8
[O
45.96 ^\
30.3 ^^
03
23
23
I
30
7
18
33
18.5
16.49 ^,
31-2 „
57-3' ,8
57-49 "
I.O
63.»5 „
53-1
46.14
33-6
28.5
16.96 *-l
17.24 ^
33-7 J
36-3 X
39-' ,8
-4 ^
63.32 7
52.6
5
46.27 '3
36.9 33
Aug. 7.5
57.61 "
6344 "
52.3
3
46.34 \
40.2 33
17.5
17.33 „
57.68 \
63.51 \
52.2
I
46.36 ^
43-4 ^!
27.4
17.24 ^^
57.71 5
3-7.^
63.53 \
52.3
I
2
46.32 "*
Q
46.4
Sept. 6.4
'^■97 ^^
44-5,^
57.68
5760
4-7 .„
63.51 .
52.5
7
46.23 ,,
49-1 ,
16.4
16-53 VL
4^-9 't
5-7 °
6345 ,^
52.8
3
46.10 '3
51-5 '-»
26.4
15.94 ^'
49.0 '
57.48 "
^•7 °
63.35 ^
53.3
5
45-92 8
53-6 '
Oct. 6.3
15.23 ^
50.7 ^
57.34 1*
57.18 \\
7-7 8
«-5 !
63.23 "
53.8
5
45-72 n
55-2 !
16.3
52.0 ^
63.09 \\
54.3
5
45.49 _
56-4 "
85
7
»7
7
IS
5
34
8
26.3
11.87 !^
"•°9 2
10.40 ^
57
52.7 ,
57.01
9-2
62.94 ,,
54.8
45.25 _
57-2
Nov. 5.2
52.8 ;
56.84 ^
56.68 '^
9.7 f
62.80 '4
55.3
5
45-01 ^^
57-5 ,
15.2
523 ,x
9.9
62.67 '^
55-7
4
44-77 ,*
57-3 ,
25.2
51.3 °
56.54 't
1 0.0
62.55 "
56.1
4
44-54 ,„
56-6 .!
Dec. 5.2
49.8 ^^
56.43 ^\
'■«:
62.46 \
6
56.4
3
2
20
44.34 ,^
55-4 :^
I5-I
9-^3 ^.
47.7 „
56.35 .
9-4 .
8.8 ^
62.40
56.6
44.17 ,^
53.8
251
9.15
45-^ 0
56.31 ^
62.36 ^
56.7
I
44.03 ^
51-7
35-1
42.3 '?
56.31 °
8.1 7
62.35 '
56.8
X
43.94 ^
49.4 '3
Sec <J, Tan fJ
4.570 -4.460
I. 187 -0.639
1.049 -0.31
7
1.380 +0.952
Mean Place
5'.496 38".62
53-.826 8".i8
60-.I24 59"-44
43'.768 35"'20
DV a, D« a
+0.09 +0.20
+0.01 +0.03
+0.01 ■K>.02
-0.02 -0.05
B^ <5, D« d
■K>.3
-0.7 1
+0.3
-0.7 1
+0.3
•0.7
+0.3
-0.7
[Bph 13]
460
APPAEENT PLACES OF STAKS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. I . I
II. I
2I.O
310
Feb. lo.o
20.0
29.9
Mar. 10.9
20.9
30.9
Apr. 9.8
19.8
29.8
May 9.7
19.7
29.7
June 8.7
18.6
28.6
July 8.6
18.6
28.5
Aug. 7.5
17.5
27.4
Sept. 6.4
16.4
26.4
Oct. 6.3
16.3
26.3
Nov. 5.3
25.2
Dec. 5.2
15.1
35.1
Scc<5,Tan<J
Mean Place
61^ Cygni.
Mag. 5.6
Right
Ascension.
h
21
m
2
55.00
54.97
54.97
55.01
55.10
55.23
55.41
55.63
55.88
56.17
56.49
56.83
57.19
57.56
57.92
58.28
58.61
58.92
59.19
59.43
59.62
59.75
59^83
59.86
59.84
59.77
59.66
59.52
59.34
59.14
58.94
58.73
58.53
58.35
58.19
58.05
57.95
57.89
3
o
4
9
13
18
22
25
29
32
34
36
37
36
36
33
31
27
24
19
13
8
3
2
7
II
14
18
20
20
21
20
18
x6
14
10
6
Declina-
tion N.
+ 3818
56.8
54.4
51.9
49.3
46.7
44.3
42.2
40.4
39-1
38.2
37.9
38.1
38.9
40.2
42.0
24
25
26
26
24
21
18
13
9
3
2
8
13
18
22
26
29
44.2
46.8
49-7
52.8 3^
56.0 3-
33
59.3 ^,
62.6 33
65.8 3-
68.9 ^l
28
71.7 ^"^
74.3
76.6
78.5
80.1
81.2
81.9
82.1
81.9
81.2
do. I
78.5
76.7
74.6
26
23
19
16
II
7
2
2
7
II
16
18
21
1.275 K).790
57'.o39 58".07
y Aqiuuli.
Mag. 4.5
Right
Ascension.
h
21
4
46.59
46.60
46.65
46.73
46.84
5
8
II
14
46.98
47.15
47.35
47.82 ^5
17
20
22
48.10
48.39
48.70
49.02
49.35
28
29
31
32
33
32
31
49.67
4998 ,^
50.28 30
27
5^-79 ^^
50.99
51.15
51.27
51.34
51.37
x6
12
7
3
2
51.35
51.29
51.20
5108
50.95 !^
6
9
12
50.81
50.67
50.54
50.43
50.34
50.27
50.23
50.23
14
14
13
II
9
7
4
o
Declina-
tion S.
-II 43
53.6
53-9
54.2
54-3
54.3
54.1
53.8
53.3
52.6
51.7
3
3
I
o
2
3
5
7
9
II
13
50.6
49.3 „
47.8 ]l
46.3
44.7
15
16
16
43.1
41.5
40.0
38.6
37.4
36.4
35.5
34.8
34.4
34.1
34.0
34.1
34-3
34.6
34.9
35.3
35.8
36.3
36.8
37.2
37.6
38.0
38.3
16
15
14
12
10
9
7
4
3
I
I
2
3
3
4
5
5
5
4
4
4
3
1. 02 1 -0.207
48*.096 42 ".38
Bradley 2777.
Mag. 5.9
Right
Ascension.
h
21
8
10.26
9.66
9.22
8.96
8.90
9.03
9.36
9.86
0.52
1.33
2.24
3.23
4.26
5.29
6.31
7.26
8.13
8.90
9-53
20.01
20.34
20.50
20.48
20.30
19.96
19.47
18.83
18.06
17.19
16.23
m
7
60
44
26
6
13
33
50
66
81
91
99
103
103
102
95
87
77
63
48
33
16
2
18
34
49
64
77
87
96
102
106
15.21
13.08 '^7
12.02
1 1. 01
10.08
9.25
8.56
106
lOI
93
83
69
Declina-
tion N.
8 Piscis Australis.
Mag. 5.6
+ 77 45
75.4
26
72.8
69.8 3°
66.6 3^
63.3 ^^
60.0
56.9
54.1
51.6
49.7
48.3
47.5
47.4
47.9
49.0
50.6
52.8
55.4
58.4
61.7
65.2
68.9
72.6
76.3
79.9
83.3
86.4
89.2
91.7
93.7
95.2
96.2
96.7
96.5
95.7
94.4
92.5
90.1
33
31
28
25
19
14
8
I
5
II
16
22
26
30
33
35
37
37
37
36
34
31
28
25
20
15
10
5
2
8
13
19
24
4.721
i6*.903
-1-4.614
7o".89
Right
Ascansioa.
h
21
2.86
2.87
2.92
3.00
3.12
3.27
3.46
3.67
3.92
4.20
4.50
4.82
5.16
5.51
5.87
6.22
6.56
6.89
7.19
7.46
7.69
7,87
8.00
8.09
8.12
8.10
8.04
7.95
7.82
7.67
7.51
7.36
7.21
7.07
6.96
6.88
6.84
6.83
m
8
I
5
8
12
15
19
21
.25
28
30
32
34
35
36
35
34
33
30
27
23
18
13
9
3
2
6
9
13
15
16
IS
15
14
II
8
4
I
Declina-
tion S.
-2758
58.1
57.5
56.8
55.9
54.9
53.7
52.4
51. 1
49.6
48.1
46.5
44.9
43.3
41.8
40.4
39.1
38.0
37.1
36.4
35.9
35.8
35.8
36.1
36.6
37.2
38.0
38.9
39.8
40.7
41.5
42.2
42.7
43.1
43.4
43.4
43.2
42.9
42.4
6
7
9
10
12
13
13
15
15
16
16
16
15
14
13
II
9
7
5
I
o
3
5
6
8
9
9
9
8
7
5
4
3
o
2
3
5
1. 133 -0.531
4'.389 43".68
D'l^ a, Dw a
-0.0 1
■K).3
-0.04
-0.7
k,
0.00 •to.oi
40.3 -0.7
[Bph m]
-0.08
-K).3
-0.22
-0.7
+0.01
-K).3
+0.03
-0.7
APPARENT PLACES OF STARS, 1912.
461
FOR THE UPPER TRANSIT AT WASHINGTON.
C Cyini.
r Cygni.
a Xqnidei.
<r Cygni.
Mean Solar
Mag. 3.4
Mag. 3.8
Mag. 4.Z
Mag. 4.3
Dato.
RiRht
Decllaa-
Rlffht
Docliaa-
Right
Declina-
Right
Declina-
•
UonN.
Aocaniion.
UonN.
Ascentioa
tion N.
Aiconrion.
tion N.
h m
0 1
h m
• r
h m
•
*
h m
0 f
21 9
+ 2951
If
21 II
+ 37 39
21 II
+ 452
0
21 13
+ 39 I
If
Jan. I.I
s
9.60
53-4 „
s
14.69
14.63
^9° „
■
23.98
53.1
■
5552 ,
55.46 \
31.8
II. I
9.56 *
51-2 "
66.7 'i
23.98 ^
52.0
II
"9-5 ^
21. 1
9.56 °
48.9 11
14.61 ^
24.01 I
24.07 I
50.8
12
55-43 ;
31.0
9.60 4
46.6 11
14.63 g
14.69 ,.
49-7
II
55-44 '
55-50 /
21.6 ^\
Feb. 1 0.0
9.67 7
44-3'^
589 It
24.16 9
48.7
10
II
22
II
■ 25
12
9
II
26
20.0
9.78
42.1
14.80
56.4
24.28
47.8
^
55-61
1 9.0
29.9
9-93 li
38.6 J
"^•95 '
54-^ 0
2443 \l
24.61 '8
47.2
6
55.76 5
16.7 '3
Mar. 10.9
10.12 ^9
^5-^5 '°
52.3 '
46.9
3
55-95 ,'
14-7 Z
20.9
10.35 11
37.4 "
^5-38 '3
50-8 i
24.82 "
46.8
I
56.18 ^3
13-2 5
30.9
10.60 'I
a8
36.7 J
30
49.8 "
0
'5-6 ^6
47.0
2
6
56.45 '^
30
12.1 "
6
Apr. 9.8
10.88
36.4 .
^5-95 „
49.3 _
25.32 .
47^6
56.75 „
"•5 „
19.8
II.193;
367 ^
16.28 33
49-3 "
^5-^ ll
48.5
9
57.08 33
11-5 °
29.8
"•52 tl
37-5 ,,
16.62 34
6
49-9 °
25.90 3^
49.7
12
57.43 ;^
12.0 ^
May 9.8
11.85"
387 "
16.98 36
5^-» «
26.21 3«
51.2
15
57-79 :^
^3-^ Ifi
19.7
12.19 ,:
40-3 ?
17.33 „
5^-7 *
^6.53 ^'
52.9
17
58.15 ^J
^4-7 '
33
21
35
20
31
19
35
20
29.7
"•52 ,.
424 ,,
17.68
54-7 ,^
26.84
54.8
58.50 ^^
^^•7 ,,
June 8.7
12.83 3'
44.8^4
18.01 33
57.1 'i
27.15 3^
56.8
20
58.84 34
19. 1 '*
18.6
13.12 11
47-4 «
18.32 3^
59-9 :;
^7-44 ,;
58.9
21
59.16 3^
21.8*7
28.6
13.39 11
s^-^' !
18.60 ^^
62.8 '9
27.70 ll
61.0
21
59-44 "
24.8 3°
July 8.6
13.62 11
53.1 !'
18.83 ^^
659 ^;
27.93 '3
63.0
20
59.68 \\
27-9 ,'
18
29
19
32
19
19
19
32
18.6
13.80
56.0
19.02
69.1
28.12 ^
64.9
— a
59.87 ,^
3"-'' ,.,
28.5
13.94 ;*
58-9 :'
19.17 '5
72.3 ^
28.28 '^
66.7
18
16
60.02 5
34.3 ^^
Aug. 7.5
14.04 '°
61.8 'I
19.26 ^
75-5 \l
28.39 "
^8-45 !
68.3
60.11 ^
37.5 3,
17.5
14.08 4
64.4 ^J
19.29 3
78.5 ^^
81.3 '*
25
69.7
14
V 4%
60.15 ^
*°-^ 28
«•* 26
27.4
14.08 °
5
66.9*5
22
19.28 ^
28.48 3
2
71.0
»3
10
60.13 ^
Sept. 6.4
14.03 „
^•' ,«
19.22
838 „
28.46
28.40
72.0
8
60.07
46.0
16.4
13.94 '
7»-^ '^
^9" !
86.1 »3
72.8
59-97 1°
48-4 '*
26.4
13.82 "
72.7 t
18.97 t
88.0 *9
896 !'
28.31 ^
73.3
5
59.83 'X
59-65 '^
520 '
Oct. 6.3
13.67 5
74.0 '3
18.80 '7
28.20"
73.6
3
16.3
^350 \i
74.9 ^
18.61 '9
20
90.8';
28.07 '3
14
73.8
2
I
59-45 „
53.2 '*
26.3
13.32 -
75-4
18.41
915 ,
27.93 _ .
73.7
59-24 ,,
54-0
Nov. 5.3
^3-'4 ;
I
75-5 '
18.20^"
91.8 3
27.79 .;
734
3
59-03 '
54-4 ^
152
12.96 »
75.2 I
74.6 *
17.99 "
91.7 '
9^' X?
27.66 '3
72.9
5
6
8
9
58.82 "
54-2 6
53-6 ,0
25.2
12.80 »*
17.80 9
"7-54 "
72.3
58.62 °
58.44 :j
Dec. 5.2
12.65 •'
12
73.5 "
15
17.63 '7
15
90.0"
15
27.44 3
71.5
52.6 '°
15
I5-I
12.53
72.0
^748 ,,
88-5 ,„
27.36
70.6
V ^^
58.28
5>-i
251
12.44 I
70-3 ,„
17.36 "
86.6 *9
27.31 5
69.6
10
58.15 '^
49-2 9
35.1
12.38 ^
68.3 '"
17.28 ®
84.4 "
27.29
68.5
1 1
58.06 ^
47-0 "
Sec S, Tan <f
1153 +0.574
1.263 40.772
1.004 40.086
1.287 40.811
Mean Place
ii».4i6 55".65
i6».666 69".64
25".5io 6o".68
57"-527 32".03
IVf A, D»a
-o.oi -0.03
-0.01 -0.04
0.00 0.00
-0.01 -0.04
Df ^, D» S
40.3
-0.7 1
40.3
-0.7 1
+0.3
-0.7
1
40.3
-0.7
[Eph za]
462
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
6^ Microsoopii.
or Cephel.
I Capricomi.
1 Pecasi.
Mean Solar
Mag. 4.9
Mag. 2.6
Mag. 4.3
Mag. 4.2
Date.
•
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion S
•
Ascension.
ticftiN.
h xn
e f
h m
0 t
h m
0
f
h m
•
21 15
— 41 10
■J
21 16
+ 62 12
21 17
— 17 12
21 17
+ 1925
Jan. I.I
s
6-45 ,
72.3 „
25.68
46.0 '^
s
19.48
47.8
s
59.36
350
II. I
6.44 '
71.0 '3
re
25.46 "
19.48 I
47.8
0
59.33 ;
33.3 ^l
21. 1
6.48 X
656 ,!
69.5 \l
25-31 ^
43.0 3°
19.52 ^
47.7
I
59.34 '
31.0
66.0 "
25.24 7
39-9 I,
19.59 ,;
47.4
3
59.38 ^
29.6 9
Feb. 1 0.0
6.69 \l
2525 '
36.7 ^^
19.69 °
47.0
4
59.45 ^
27.8 '«
16
20
10
32
13
4
II
16
20.0
6.8s
•^4.0 „„
25-35 ,-
33-5 ,„
19.82
46.6
59.56
26.2
29.9
7.05 ^ .
62.0 '•»
18
^7-9 ,,
19.98 ^
45.9
7
i^
59.70 1*
24.8 ;^
Mar. 10.9
7.29 11
60.0^°
25.78 \\
20.17 ^
45.0
9
59.88 f
23.7 "
20.9
7-57 \\
57-9 ,^
26.11 33
^5-6 ^
20.39 "
44.0
[O
60.09^'
8
22.9 °
30.9
7.88 3
55-9 _
^^•51 Z
23-8 !
20.64 ^
42.8 ^
[2
60.33 '*
22.6 3
34
20
44
12
27
t4
a6
0
Apr. 9.8
^•^^ ,^
53-9 _
26.95
22.6
20.91 _
41.4
60.59
22.6
19.8
8.58 ^^
52.0 ^
27.44 t.
22.0
21.21 3
40.0
^4
60.88 ^9
23.1 ^
29.8
^'^^ 1
50.3
27.95 :,
22.0 °
21.52 3*
38.4;
[6
61.18 30
^4-^ ::
May 9.8
9.36 ^^
48.8 5
28.48 53
22.7 I
21.85 33
36.8^
[6
61.50 3^
25.4 ''
19.7
9.77 :'
47.5 ^
29.00 ^^
239 -
22.19 ^^
35.2 \
[6
61.82 32
27.1 '7
41
II
51
18
33
^5
32
20
29.7
10.18
46.4
29.51 ,,
=^5-7 „
22.52
33.7
62.14
29.1
June 8.7
10.57 ^^
45.7 ;
29.98 ^7
"«-° 8
22.84 3^
32.2
t5
62.45 f
31-3 r
18.6
IO-94 ;;
45.2 ^
30.41 ^^
30.79 3
30.8 ^8
23.15 11
30.8 '
t4
62.74 ^9
33-7 !t
28.6
11.29 3^
45.1
33-9 \\
29.6 ^
[2
63.01 'I
36.2 '5
July 8.6
11.60 3'
45.3 ,
31.09^°
37.2 33
23.69 ll
28.6 '
[O
0
63.24 ^3
38.8 '^
27
4
24
35
22
8
io
s6
18.6
"•87^,
45-7 «
31.33 ,g
31.49 °
40.7 „
23.91 ,g
24.09 "
27.8
6
63.44 .,
4»-4 ,,
28.5
12.0C "
44.4 ^7
27.2
63.59 ^
43.9 '^
Aug. 7.5
47.5 ^
31.56 ^
51-7 ^*
24.22 3
8
24.30 °
26.8
4
63.70 "
46.3 ^
17.5
12.34 'I
4^-7 I
31.56 °
26.6
2
63.76 *
48.5 "
27.5
12.38 4
50.1 *^
15
31.47 ^\
55-2 35
33
24.34 "J
0
26.7
I
2
63.78 ^^
20
Sept. 6.4
12.36
51.6
31-31 „
58-5 ,„
24^34 ^
26.9
63.76
52.3 .,
16.4
12.29 '
53° !
31.08 '3
61.5 3°
24.29 ^
27.2
3
63.69 ,1
53.8 '5
26.4
12.18 "
54.4 1
30.79 *9
64.2 \\
24.21
27.7
5
63.59 °
55.1 '^
Oct. 6.3
12.03 \l
55.8 t
30.45 ,a
^5 A
24.10 "
28.2
5
63.47 "
56.0 9
16.3
11.85 \l
56.9 "
30.07 38
68.3 ;
23.97 \]
28.8
6
63.33 '"*
56.6 <*
19
9
41
14
14
5
15
4
26.3
11.66
57-8 ,
58.4 J
29.66
697 „
705 I
23.83
29.3
63.18
570 ^
Nov. 5.3
"•^^10
29.24 4^
23.69 ;^
29.8
5
63.03 ,!
57.0 ^
15.2
H.27 ^
58.8 4
28.82 4'
70.8 3
23.56 3
30.3
5
62.88 '5
56.6 4
25.2
11.10*7
58.8 °
28.40 ^'
70.5 I
69-7 •:
23.43 ]l
30.8
5
62.74 '*
56.0 <*
Dec. 5.2
10.96 '^
58.4 1
28.01 39
23.33
31. 1
3
62.62 "
55.0 '°
II
6
36
14
7
2
10
12
152
10.85 ,
57.8 „
27.65
^^•3 ,„
23.26
31.3
62.52 -
53.8
25.1
10.78 7
569 '
27.34 f '
^^•3 T,
23.21 ^
31.5
2
62.44 8
52.4 '1
35.1
10.74 ^
55.7 "
27.09 ^
63.9 ="»
23.20 *
31.5
0
62.40 4
50.8 '<*
Scc«J,Tanrf
1.328 -0.875
2.145 41.898
1.Q47 -0.3K
9
1. 061 +0.353
Mean Place
8Vo64 55".50
28'.848 44".88
20».930 35 ".40
6o'.994 39".i3
ly^a, D»a
40.02 40.04
-0.03 -O.IO
40.0I 40.02
-o.oi -0.02
Dt^6,J)m^
40.3
-0.7 1
+0.3
-0.7 1
40.3
-0.7
40.3
-0.6
[Eph xa]
APPARENT PLACES OF STARS, 1912.
463
FOR THE UPPER TRANSIT AT WASHINGTON.
y PaTonis.
C Capricomi.
prcygni.
y9 Aquaril.
Mean Solar
Mag. 4.3
Mag. 3.9
Mag. 5.3
Mag. 3.1
Date.
Right
DecHna'
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion S.
Ascension.
tions.
Ascension.
tion N.
Ascension.
tion S.
h m
e *
h m
0
*
h m
e t
h m
0 r
21 19
-6545
21 21
— 22 i
0f
♦7
21 26
+ 46 8
21 26
-5 57
Jan, I.I
849
74-6 ^^
8
37.30
48.4
9*89 „
7°° ,^
s
54.22
41.6
42.2 ^
II. I
8.40 \
SI
37.30 °
48.1
3
9.78 "
9.72
67.6 ^4
54.21
21. 1
8.39 I
37-33 ;
47.6
5
^•9 8
5424 ;
54.29 8
54-37 „
42.7 ^
43.2 \
31.0
66.4 ^9
37.40 '[
47.0
0
9.71
62.1 "
Feb. 1 0.0
8.63 '^
63-3 f
37.50 '^
46.3
7
9.74 ^
59-2 \l
43.5 ;
24
32
13
9
9
27
12
I
20.0
8-87 ,,
60.1
37.63 .
45-4
9.83 ,,
53.9 „
54-49 ,^
43.6
29.9
9-^9 ^'
57° '0
3779 \l
AAA
10
9.96 \l
54.63 4
43.6 ^
Mar. 10.9
20.9
9.58 3^
10.03 ^^
20
37-99 „
38" "
43.2
41.9
12
13
10.15 '9
10.39 '^
10.67
32
fo 8 '
54.80 '7
55.00 °
43.3 :
42.8 5
309
10.54 ^'
57
48.5 '^
24
3«-47 :2
40.5
14
r6
48.4 'J
55.23 J
42.1 '
10
Apr. 9.8
19.8
II. II ,
46.1
44-0 »
38.75
'lO
39.05 ::
38.9
37.3
16
10.99
11.34^5
47.5 ,
47.2 \
55.49 _8
55-77 'J
41. 1
39.9 "
29.8
12.36 J4
4^-2 !
39-37 ^^
35-7
16
11,71 ^'
47.5 „
56.07 3°
385 \t
36.9 ;
May 9.8
1303 °i
40.8 »4
39.71 ^4
34.1
16
_ ^
12.10 3^
483 ,;
56.38 ^'
19.7
13.70 g
39-9 '
0
40.05 ^^'^
34
32.5
16
15
12.50 5°
49.7 '4
19
56.70 J
35- \l
29.7
1437 ..
39.4 ,
40.39 ,^
31.0
12.88
5^-^o,
57.02
« 6 '8
29.0
June 8.7
15.02 ^5
T
39.3 ,
40.73 ^^
29.6
14
13.25 ^^
53.9 ^^
57.33 ^'
18.6
^5-^3 '
39.6 I
41 05 1
28.4
12
13.60 35
5^-^ ,0
57-63 °
57.91 "
28.6
16.20 ^'
404 ,!
4^-34^;
27.4
10
0
'3-91 l\
59.6 ^^
28.1 '7
26.5 '<^
14
July 8.6
16.70 5°
43
41.61 ^7
23
26.6
8
5
20
14.17 *°
21
62.8 ^^
33
58.16 '5
21
i8.6
^7-13 ,
43-2 _
41.84 ,_
26.1
14.38 ,,
66.1
58-37 ,8
58.55 '
^5-^ ,»
28.5
17.46 w
45.1 ''
42.03 1^
25.8
3
14.54 \\
69.5 \\
23.8 '3
Aug. 7.5
17.70 ^^
47.3 \\
42.17 4
25.8
0
14.65 •
72-9 ,,
58.68 '3
22.8 '°
175
17.84 '^
49.6 ^
42.27 '
26.0
2
14.70 \
76.2 33
58.77 '
21.9 ^
21.3 ^
4
27.5
17.88 4
52.0 ="4
24
42.31 4
26.3
3
5
14.69 ^
79-4 ^:
29
58.81 4
0
Sept. 6.4
^782 .
54-4 ^,
42.31 .
26.8
14.62
82.3
58.81
20.9
16.4
17.66 'J
56.7 '3
42.26 I
27.5
'4-51 '
85° "I
5877 4
20.6 ^
26.4
17.41 ^5
58-8 ,\
42.18 ]
28.2
^4-35 f
87-4 4
58.70 ^
20.5 '
Oct. 6.3
17.10 ^
60.6 "
42.07 "
28.9
^4-'« «
89-3 '
58.60 '°
20.6 '
16.3
16.73 ^7
62.1 '5
I '^
41.94 •*
29.6
13.94 ^'
90.9 f
58.48 "
20.8 *
41
II
14
24
II
13
4
26.3
16.32
63.2
41.80
30.3
^
13.70 ^^
92.0
92.6 \
58.35 „
21.2
Nov. 5.3
15.90 4
637 ^
41.65 \\
30.9
0
^346 ^t
58.22 '3
T '^
21.6 4
15-2
^5.48 f
637 °
4^-51 t
31.4
5
13.21 ^^
92.8 ^
58.09 ^
22.1 ^
25.2
15.09 ^9
^3-2 ,^
41.38 3
31.7
3
12.97 4
92.4 I
5798 ^
22.6 ^
23.2 ^
Dec. 5.2
^4-74 li
29
62.2 '*>
IS
41.27 '\
31.9
2
I
"•75 "
20
91.5
14
57.88 '^
152
^4-45 ,,
60.7
41.19 ^
32.0
"•55 ,,
^•' 18
88.3 '®
57.80
23.8
25-1
22
14.23 "
58.8 ^^
41.14 \
31.9
I
12.38 \\
57.7s ;
24.4 g
351
14.09 4
56.5 '^
41. II ^
31.7
2
12.25 '^
86.1 "
57.72 ^
25.0
Scc«J,Tan<J
2.435 -2.220
1.085 -0.420
1.443 +1.041
1.006 -0.104
Mean Place
io«.863 54".79
38-.74I 34".78
I2".078 68".o8
55"-643 31 ".79
D'^ a, Dm a
-10.04 +0. 1 1
+0.0 X +0.0:
I
-0.02 -0.05
0.00 +0.01
D,^ 6, Dm 6
+0.3
-0.6 1
+0.3
-0.6
+0.3
-0.6
+0.3
-0.6
[Eph 13]
464
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
/3 Cephel.
s
Aqnaril.
74 0ygiil.
y Capficomi.
Mag. 3.3
Mag. 4.3
Mag. 5.1
Mag. 3.8
Mean Solar
Di^te.
Right
Declina-
Ri^t
Declina*
Rlfbt
JDeclina-
Right
Declina*
Ascension.
tion N.
Aweniion.
tion S.
Aaeanion.
tionN.
Ascension.
tion S.
•
h m
0 »
h
m
0
ll m
0 »
h m
•
21 27
+ 70 10
21 33
~ 8 14
21 33
+ 40 0
21 35
-17 3
Jan. I.I
s
27.62
32.8
8
2.72
67.8
8
23.31
65.2
s
11.68
49.1
II. I
27.25 11
30-3 J
2.71
I
68.3 I
23.22 ^
63-0 "
11.66 ^
49.1 1
21. 1
26.98 ^7
27-5 ''
2.73
2
68-7 t
23.17 5
^•5 li
11.68 ^
49.0 '
310
26.81 '7
24-4 ^
2.77
4
0
69.0 3
23.16 ^
57-9 !^
11.73 i
11.81 ^
48.8 =*
Feb. 1 0.0
26.76 5
21. 1 ^^
2.85
0
69.1 ^
23.20 I
55-2 '^
48.4 4
6
33
II
0
8
25
II
6
20.0
26.82
^7-8 „
2.96
69.1
23.28
52.7
11.92
47-8
Mar. i.o
27.00 ll
^4-7 ll
310
14
68.9 I
23.40 "
50.3 l"
12.06 ^1
47-1 7
10.9
27.29 ]l
"•9 !
327
17
68.5 ^
^3.57 ll
48.2 "
lo
46.1 '°
20.9
27.69 ^l
9-4'^
3.47
20
67.9 I
22
23-79 ,,
24°5 ,5
46-5
20
"•44 ,^
45.0 , ,
30.9
28.18 ^9
57
7-4'°
»5
3.69
22
26
67.0 9
11
45-3 ';
12.68 ^4
26
43-8 ;;
Apr. 9.8
5-9 „
3.95
28
65-9 „
=^4-34 „
44-6
12.04 ^
^^ 28
13.22 ^
424 .,
19.8
5° I
4.23
64.6 3
24.66 3»
44-4 :
40.8
29.8
3^-73 ll
4.8 '
4.53
30
^3-^ 6
25-o» ^!
44-8 4
13.53 :'
39-2 ;
May 9.8
5-1 3
4.84
31
6'-5 ;
25-37 It
45-7 '
13.86 33
37.5 '^
19.7
3-41 ll
16
5.16
32
32
59.8 '7
17
25-74 5^
47-1 '4
^ 18
14.19 3^
33
35-8 ;;
29.7
32.07 ,,
7-7 „
5.48
58-^ x«
26.10
48-9 „
'4.52 _
34-1 ,
June 8.7
32.70 °i
9-8
5.80
32
56-3 '
26-45 ll
5'-2 ll
14.85 33
32.5 "*
18.7
33-26 it
"•3 ^^
6.10
30
54.6 7
26.78 33
53.8 ^*
^5.^7 zl
31-1 '*
28.6
33-75 :'
^5.2 '9
6.38
28
52.9 ]l
27-08 3°
56-7 f
^5-47 3°
29.8 |3
July 8.6
34-^5 t^
18.5 33
6.64
26
51.4 ''
26
27.34
59-8 3'
^574 n
28.7 "
30
35
22
13
22
32
23
10
18.6
34-45 ,„
22.0
6.86
50.I
27.56
63.0
^5-97 ,„
27.7
28.5
3465 ll
25-7 ll
7.05
19
49-0 0
27-73 ,;
66.3 33
16.16 '9
27.0 ^
Aug. 7.5
34-75 "
29.4 37
7.19
14
48-0 '«
27.84 "
27.90
69-53^
16.31 \l
26.6 ^
17.5
34-73 „
33-1 ll
36-7 ^^
7.28
9
47-2 I
72-6 ll
16.42 "
26.4 '
27.5
34-61 "
7-33
5
46-7 I
27.92 '
75-6 3°
16.47 .
26.4 °
22
35
I
3
4
27
I
2
Sept. 6.4
34-39 „
40-2
7.34
46.4
27-88 ,
78-3 „
16.48
26.6
16.4
34-08 ll
43-5 ,„
7.31
3
46-3 '
27.80 I
80.8 '^
16.45 ^
27.0 ^
26.4
33.68 40
46-4 ll
7.24
7
46.3 °
27.67 |3
830 "
16.39 *
27.4 1
Oct. 6.4
33.21 y
2D
49-0 „
7.14
10
46-5 '
27-5' «
84.8 ll
16.29 °
28.0 ^
16.3
32.68 53
22
7.03
II
46.8 3
27-33 '
86.3 '5
16.17 "
28.6 ^
58
17
12
4
20
10
13
6
26.3
30.88 ^^
30.27 t'
52.9 „
6.91
47-2
27.13
87.3 ,
16.04
29.2
Nov. 5.3
54.0 "
54-6 I
6.78
13
47.7 '
26.92 "
87.8 5
15.90 '4
29.8 I
15.2
6.65
13
48.2 5
26.71 ^'
87.9 '
15.76 4
30.4 ^
25.2
54-6 I
6.53
12
48-7 I
26.50 "
87.5 t
'5-64 "
30.8 *
Dec. 5.2
29.68 59
55
54.0 ,^
6.43
10
8
49-2 5
26.31 '9
17
86.7 *
13
15.54 -
31-2 *
152
*9-'3 ^„
52.8
6.35
J"
49.8
26.14 ,,
85.4 _
15.46
31.5
25.1
28.64 49
51.1 '^
6.29
0
50.3 I
26.00 '4
83.7 '^
15.40 °
2
31.7
35.1
28.22 -^^
48.9 "
6.26
3
50.8 5
25.90 '°
81.7 '°
15.37 ^
31.8 '
Sec <J, Tan 6
2-948 +2.774
1.010 -0.145
1.305 40.840
1.046 -0.307
Mean Place
3|..8oi 27".33
4M11 57".53
25».274 64".02
13*.040 36".73
jy^ a, Dm n
-0.05 -0.15
0.00 -K>.OI
-0.0 1 -0.04
0.00 40.02
D^ 6, Di» 6
-K).3
-0.6 1
+0.3
-0.6 1
+0.3
-0.6 1
40.3
-0.6
[Bpta i>]
APPARENT PLACES OF STARS, 1912.
465
FOR THE UPPER TRANSIT AT WASHINGTON.
A. Ootantls.
€ Pegasl.
11 Cephei.
<^ Caprlooml.
Mag. 5.4
Mag
25
Mag. 4.8
Mag. 3.0
MeAn SoUr
Date.
Right
Declina-
Right
Declina-
Right
Declina-
RiRht
Declina-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion N.
Ascension .
tion S.
h m
0 r
h m
0 r
h m
p '
h in
0 t
21 37
-83 7
21 39
+ 928
ii 40
+ 7054
21 42
-163I
Jan. I.I
25*88
49-8 ,„
s
50-37 ,
10.2
s
33.95 .,
28-4 „
9.80 ,
49-7 ,
II. I
25.16 7^
46.8 3°
50.34 ^
8-9!^
33.54 ^
26.0 ^*
9.78 *
49.8 '
21. 1
24-73 \\
43-5 "
0
50.34 °
7.6*3
T *»
'12
33-22 3
'3-3 S
9-79 '
49-7 '
31.0
24.61 "
40.0 •'^
50-37 i
6-3 ^
2 2
33.00
20-3 ^°
9-83 4
49-5 ]
Feb. 1 0.0
2479 „
36.3 ^^
6
50.43
5-'"
32.90 '
I7.1 3
9.90 /
49-1^ 1
48
37
9
10
3
33
II
6
20.0
2527 ,-
26.03
^'•^ 36
29.0 ^
50-52 _
4-1 g
32.93 _
13.8
10.01
48-5 ,
Mar. 1 .0
50.64 "
3-3 ,
33.08 '5
10.7 3'
10.14 '"^
47.8 7
10.9
27.06 '°3
25.5 ^^
50.79 ,
2-7 t
33-35 ^l
7.8^9
^°-3i 11
46-9 .^
20.9
^8-33 \ll
22.2 ^^
50.98 '9
2-4 3
33.73 ^0
5.2 ^'^
20
10.51 ^"
45.8 "
30.9
^9-8» \t
^9-2 ^!
22
51.20"
2.4 °
34.21 48
), ^ 22
30 ^
10.74 t
44.6
167
27
24
4
56
16
25
14
Apr. 9.9
19.8
33-30.
16.5
'4-2 '^
5144
27
51-71 ,„
^•8 8
3-6 *
35.40 J
1.4
0.4
10.99 ^3
43-2
41-6 ^
29.8
35-24 't
12.3 '9
52.00 '
4-7"
36.08 ^^
0.0 4
11.58 3^
4°-° 8
May 9.8
37-26 Z\
10.9 '♦
52-3» ^'
6.1 '*
36.79 ^'
°-2 g
1 1.90 3^
38-2 !
19.7
39-31 '°5
10.0 '
52.63 3^
7.8 '7
37.50 7^
I.O 8
12.23
36.5 ^
ao4
3
32
19
70
14
33
'7
29.7
4^-35 ,„„
9-7 .
5295 „
9-7,,
3^-20
2-4
^^•56 ,,
34-8
June 8.7
43.34 f
9-8 •
53-26 3»
11.8=*'
38.86 ^
4-3''
12.89 ^^
33-2 t
18.7
45-23 !'
'°-5 ,,
53.55 !?
'4-° "
39.46 ^
6.7^4
13.21 32
^^■7 i
28.6
46.97 ^^
^3-3 ^^
53-83 'J
16.2 "
39.99 53
9-5 ll
^3.51 ^"
30.3 *
July 8.6
4«-5i \\\
54-08 '5
18.4 "
40.43 ^^
12.7 f
13.78 ^7
^9-2 ,^
132
20
22
22
35
35
24
10
18.6
49-83
^5-3 _
54-30 .
20.6
40.78
16.2 ,
^402
28.2
28.6
50.88 "5
54-48 !
"•7 "
41.03 ^5
19.8 3^
^4" 6
14.38 ^
27.5 \
Aug. 7.5
51-63 l\
54.61 '3
26.4 '8
Y C
41.16^3
23.5 11
27-3 ^,
27.0 5
17.5
52.05 4
5470 '
41.19 I
14.49 ,
H.55 ,
26.7 3
27-5
52- '4 ,,
26.0 ^9
54-75 '
27.9 ,^
41.10 ^
31.0 37
26-7 °
25
29
14
19
36
2
2
Sept. 6.4
51-89 • ,
31-7
34.2 \\
54-76
29.3 „
40.91
34-6
14-57 .
26.9
16.4
5^-32 og
5<>-44„°
54-73 ^
30.4 "
31.2 I
31.8 ^
40.62 ^9
■»8
40.24 3»
37.9 ^^
14-55 g
27.2 ^
27.7 5
26.4
54-66 7
4'-°^«
14.49
Oct. 6.4
47-94 1^,
36.4 "
54-56 °
39-79 „
43.8 ll
14-40 '
28.2 f
28.8 ^
16.3
38- » !
54-45 "
32.2 7
3927 *
46.1 '3
14.28 "
'53
12
13
I
58
19
»3
7
26.3
44-79 S
39-3 ,
39-9 i
54-32
32.3 .
38-69 .,
38.08 t"
37-45 ^^
36-82 J3
48.0
14.15
29.5 6
30.1 ,
30.7 \
Nov. 5.3
54-18 4
5405 3
^^0 4
49-3 '^
50.1
T 1
14.02 ^^
^— 1 il
15.3
^3-^3 \f^
41-50' ^
39-9 ?
39-3 *
31.8 \
13.88 4
25.2
53-93 "
31.3 ^
30.5 ^
50.4 3
13.76 "
31.2 \
Dec. 5.2
3998 \\l
38-' «
53-82 '
36-20 ll
50.0 *
13.65' "
31.6 ^
130
18
10
9
58
10
9
3
15.2
38.62
» T r
36.3
53.72
29.6
* •
35-62
49.0
13.56
13.50 ^
31.9 ^
25.1
37-47 '!f
31.2
53.65 I
28.5 "
35-09 "
34.63 4<*
47-5 '^
32.1 ^
35.1
36.57 '^
53.61 ^
27.3
45.4 ''
13.47 ^
32.2
Scc<5,Tan<J
8.354 -8.294
1.0X4
-K>.i66
3.057 +2.889
1.043 -0.296
Mean Place
3i«.844 28".5i
5l".822
I5".89
38-.I74 2i".77
ii».i27 37".46
DV <z» I^M a,
40.13 +0.45
0.00
-O.OI
-0.04 -0.16
0.00 +0.02
D^ ^, D*! ^
+0.3
-0.6 1
+0.03
-0.6
+0.3
-0.6 1
+0.3
-0.6
1912-
-30
[Eph 12]
466
APPARENT PLACES OF STARS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
n* Cygni.
/i Caprioomi.
>^ Gruis.
16 Pesasi.
Mag. 4.3
Mag. 5.2
Mag. 3.2
Mag. 5.0
Mean Solar
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion S.
Ascension.
tion N.
h m
e '
h m
p
*
h m
e •
h 5
m
• *
21 43
+4853
99
21 48
-13 57
99
21 48
-3746
99
21 49
+ 25 30
Hi
Jan. I.I
8
30.24
71.0
28^67
71.3
34-86
62.3 „
1.83
6
37-5 ,-,
II. I
30.10 ^
28.65 ]
71.4
I
34.82 4
61.2 "
1.77
35.7 *
21. 1
30.01 ^
28.66 '
71.5
I
34.82 °
60.0 "
1.74
3
33-8 Z
31.0
29.96 5
63-3 ^
28.69 ^
^^•75 ,^
71.4
I
34.86 4
58.5 \\
1.74
0
3'-8 Z
Feb. 1 0.0
29.97 '
71. 1
3
34.93 .
56-8 I
1.78
4
29.8 *°
6
29
xo
4
II
18
7
19
20.0
30.03
57-^ „
28.85 ,,
70.7
6
3504 „
550 ,„
1.85
279 „
Mar. i.o
30.14 „
54-9 'I
28.98 3 ■ 70.1
35.19 :„
53.0 '°
1.96
IX
26.2 '7
10.9
17
30.31 ;
5^-5 1
29-14 .„ , 69.3
8
3538 '9
50.9 "
2. II
15
_ n
24.8 '4
20.9
3°-54 ,,
48.9 ^
29.33 \l 1 68.4
9
35.61 '3
35.87 f
48.8 "
2.29
18
23.7 "
30.9
30.81 \l
=^9-55 "
67.2
12
46.6 "
2.51
22
23.0 '
32
II
25
13
29
33
25
3
Apr. 9.9
3 1 -49 ^8
47-8 ^
29.80
65.9
36.16
444,,
2.76
^0
22.7
19.8
47.3 !
30.07 ;
64.4
15
36.49 33
4^-3 "
3.04
28
22.9 \
29.8
47-3 °
47.9 ,^
30.37 r.
62.7
17
36.84 35
♦°-3 Z
3.35
31
^3-6 .^
May 9.8
32.27 7,
30.68 3'
61.0
17
37-21 37
38.4 '
3.67
32
246
19.7
32.68 ^^
49.1 "
31.01 33
59-3
17
37.60 39
36.7 '^
4.00
33
26.1 *5
40
17
33
18
'■^ 39
14
33
»9
29.7
3308 ^„
50.8 ,^
31-34 „
57.5
_ 0
37-99 ,„
35-3 .,
4.33
28.0
June 8.7
33.48 t°
53-0 "
31.6733
55.7
18
_ ^
38-38 39
34.1 "
4.66
33
3°-» "
18.7
33.85 f.
55-5 It
31-98^'
54.1
ID
3«:75 5
39" L
33-2 '
4.97
31
3=^-6 1
28.6
34.18 33
58.4 \\
32-28 3«
52.6
15
32.6 ^
5.26
29
35-2 ^<^
July 8.6
34.47 4
61.6 3^
33
32.56 =■*
24
51-3
13
IX
39-43 \^
32.3 \
5.52
26
22
37-9 -
18.6
^'^-^I ,-
^^•9 x±
32.80
50.2
^%
39-71
32.4 ,
5.74
W tK.
43.5 „
28.6
34.90 '9
68.3 34
33-00
33-16 \\
49.3
9
39-95 ^*
32.8 4
5.93
19
Aug. 7.5
3503 ,
71.8 35
48.6
7
40.14 .:
33-5 ,^
6.07
14
46=^ 6
175
35.10 \
75-3 ;^
33-27 '
48.2
4
40.28 '4
40.36 °
34.5 °
6.16
9
48.8 ^«
275
35-" '
78.6 33
33-34 ,
48.0
2
35.7 "
6.21
5
51.2 '-»
5
3»
2
0
2
»3
0
33
Sept. 6.4
3506
87.1 =^
3336
48.0
40.38
370 ,^
6.21
53-4 .„
16.4
34.96 °
33.34 \
48.2
2
40.35 ^
38-4 1
6.17
4
e
55.3 '
26.4
34-82 4
34.64 „
33.29 ^
33.21 ^
48.5
3
40.28 '
39-8 \\
6.09
8
57.0 7
Oct. 6.4
893 "
49.0
5
40.17 "
41-2 t
5.99
10
58.3 '3
16.3
22
9I.I !
33.10 "
49-5
5
40.02 w
42.5 '3
5.86
13
59.3 "*
24
M
12
6
16
II
15
7
26.3
33-92 It^
92.5 „
32.98
50.1
6
39.86
39.68 ;
43-6
5.71
60.0
Nov. 5.3
93-4 ,
32.85 3
50.7
44-5 ;
556
15
60.3 3
153
33.66 ;
93-7 V
32.72 3
51.2
5
39.5 1 ;;
45-2 7
5.40
x6
60.3 *>
25.2
3341 l\
93-6 ;
32.60 "
T 1
51.7
5
39.34 ,;
45-5 ^
5.25
15
59-9 1
Dec. 5.2
33-17 ^t
92.9 ,,
32.49
52.2
5
39.19 w
45.5 ,
5."
14
59-2 '
33
la
9
4
12
3
12
II
15.2
32.95 ,^
32.40
32.34 ^
52.6
39.07 ^
45-2
4.99
58.1
25.1
32.59
52.9
3
38.98 9
44-7 X
4.89
xo
0
56-7 *
35.1
88.1 ^°
32.30 ^
53.1
2
8
38.92 ^
43.8 9
4.81
8
55.1 •'^
Sec tJ, Tan 6
1.52X +1.146
1.031 -0.24
1.265 -0.775
1.X08 'K>.477
Mean Place
32-.467 67".44
29'.976 59".64
36«.2o8 45".32
3-.440 3«".84
D'^ 0, Dm a
-0.02 -0.06
0.00 40.0I
40.0I 40.04
-0.01 -0.03
D^ d, Dm (3
+0.3 -0.6
-K).3 -0.5
+0.3 -0.5
-K>.3
-0.5
[
Eph za]
APPARENT PLACES OF STARS, 1912.
467
FOR THE UPPER TRANSIT AT WASHINGTON.
Maan Solar
Date.
Jan. I.I
II. I
21. 1
31. 1
Feb. lo.o
20.0
Mar. i.o
10.9
20.9
30.9
Apr. 9.9
19.8
29.8
May 9.8
19.8
29.7
June S.7
18.7
28.6
July 8.6
18.6
28.6
Aug. 7.5
17.5
27.5
Sept. 6.5
16.4
26.4
Oct. 6.4
16.3
26.3
Nov.- 5.3
15.3
25.2
Dec. 5.2
15.2
25.2
35-1
79 Sraconia.
Mag. 6.6
Right
Ascension.
h
21
m
51
40.99
40.48
40.07
39.78
39.62
39.60
39.72
39.98
40.88 5'
61
51
29
16
12
26
39
Sec rf, Tan 6
Mean Place
41,49
42.18
42.93
43.72
44.52
45.30
46,05
46.74
47.35
47.87
48.29
48.59
48.77
48.82
48.75
48.57
48.27
47.87
47-37
46.79
46.15
45.47
44.75
44.02
43.30
42.61
41.98
41.42
69
75
79
80
78
75
69
61
52
42
30
18
5
7
18
30
40
50
58
64
68
72
73
72
69
63
56
Declina-
tion N.
+ 73 16
76.7 ,^
71.9 ^"^
68.9 ^"^
65.8 3^
33
62.5
59.3
56.4
53.7
51.4
32
29
27
23
18
49.6
48.4
47.8
47.8
48.4
49.6
51.4
53.7
56.4
59.5
62.8
66.4
70,2
74.0
777
12
6
o
6
12
18
23
27
31
33
36
38
38
37
36
81.3
84.8 35
88.0 3^
90.9^9
93.4
25
21
95.5
97.1
98.1
98.5
98.4
97.6
96.2
94.3
16
10
4
I
8
14
19
3.474 +3.327
45«.652 68".97
-0.05
+0,3
-0.19
-0.5
findi.
Mag. 4.7
Right
Ascension.
h
21
m
56
s
36.52
36.42
36.38
36.40
36.48
10
4
2
8
13
20
36.61
36.81
37.06 ^5
37.36 ^^
37.72
38.12
38.57
39.05
39.56
40.09
36
40
45
48
51
53
54
40.63
41.1754
41.69 5^
42.64 ^^
43.04
43.38
43.65
43.85
43.97
44.00
43.96
43.86
43.69
43.47
43.22
42.95
42.67
42.39
42.14
40
34
27
20
12
3
4
10
17
22
25
27
28
28
25
22
18
41.92
41.74 ^^
41.62 "
Declina-
tion S.
-57 8
73.1
71.3
69.1
66.7
64.0
61.2
58.4
55.5
52.6
49.8
18
22
24
27
28
28
29
29
28
26
47.2
44.8 !1
42.6
40.7
39.2
22
19
15
II
38.1
37.4
37.1
37.2
37.8
38.8
40.2
41.9
43-9
46.0
7
3
I
6
10
14
17
20
21
23
48.3
50.6
52.8
54-9 ,^
56.8 '9
23
22
21
58.3
59.4
60.0
60.2
60.0
59-2
58.0
56.4
15
II
6
2
2
8
12
16
1.843 -1-549
38-.054 52 ".83
40.02 40.09
+0.3 -0.5
[Bph za]
20 Pegasi.
Mag. 5.7
Right
Ascension.
h
21
m
56
8
46.69
46.64
46.62
46.63
46.67
46.75
46.85
46.99
47.16
47.36
47.60
47.86
48.15
48.46
48.78
49.10
49,42
49.72
50.01
50.27
50.50
50.69
50.84
50.95
51.01
51.03
51.01
50.96
50.88
50.77
50.65
50.52
50.38
50.25
50.14
50.04
49.95
49.89
5
2
I
4
8
10
14
17
20
24
26
29
31
32
32
32
30
29
26
23
19
15
II
6
5
8
II
12
13
14
13
II
10
9
6
Declina-
tion N.
+ 12 41
48.4
47.0
45.6
44.3
43.0
41.8
40.8
40.0
39.5
39.4
39.7
40.3
41.2
42.6
44.2
46.1
48.2
50.4
52.7
55.1
57.4
59-7
61.8
63.8
65.6
67.1
68.4
69.4
70.2
70.7
71.0
71.0
7o,S
70.4
69.7
68.8
67.7
66.4
14
14
13
13
12
10
8
5
I
3
6
9
14
16
21
22
23
24
23
23
21
20
18
15
13
10
8
5
3
o
2
4
7
9
II
13
1.025 40.226
48'.i05 52".69
0.00
40.3
-0.0 1
-0.5
ot Aqvaril.
Mag. 3.2
Right
Ascension.
h
22
8
4.59
4.56
4.55
4.56
4.61
4.68
4.79
4.92
5.09
5-29
m
I
3
I
I
5
7
II
13
17
20
23
26
29
30
5.52
5.78
6.07
6.37
6.68 3'
32
7.00
7.32
7-63
7.92
8.19
8.43
8.63
8.79
8.91
8.98
9.01
9.00
8.96
8.89
8.79
8.67
8.55
8.43
8.31
8.20
8.11
8.04
7.99
32
31
29
27
24
20
16
12
7
3
4
7
10
12
12
12
12
II
7
5
Declina-
tion S.
- 044
59.6
60.4
61. 1
61.8
62.3
62.7
62.9
62.9
62.6
62.0
8
7
7
5
4
2
o
3
6
8
II
61.2
60.1
58.8 'I
57.2 ''
55.4
18
19
53-5
51.6
49.6
47-6
45.7
43.9
42.3
40.9
39.7
38.7
37.9
37.3
37.0
36.8
36.8
37.0
37.3
37.7
38.3
38.9
39.6
40.3
41. 1
19
20
20
19
18
16
14
12
10
8
6
3
3
o
3
4
6
6
7
7
8
1. 000 -0.013
I5'.885 5i".7i
0.00
+0.3
0.00
-0.5
468
APPARENT PLACES OF STARS, 1912
FOR THE UPPER TRANSIT AT WASHINGTON.
I Aquaiii.
20 Cephei.
a Ornis.
t Pecasi.
Mean Solar
Mag. 4.4
Mag. 5.4
Mag. 2.2
Mag. 4.0
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion S.
Aicenuon.
tion N.
h m
• '
h m
0
h m
e '
h m
e »
22 I
-14 17
22 2
+ 62 21
0f
22 2
-4723
19
22 2
+ 2454
Jan. I.I
s
39.92 ^
" 1
60.8
i7'o7
16.79 1:
28.8
'y f
8
40.19
40.12 7
34-9 ,,
53*28
5^-8 16
II. I
39.88 ^
61.0 ^
2^-7 "
33.5 1
53-21 7
5'-2 «
21. 1
39.87 '
61.0 °
16.57 'I
24.1 f
40.08 ''^
3»-8 1
53-17 ,
49-4 '^
3I-I
39.90 ^
60.9 \
16.41 'J
16.33 ^
21.2 =•'
40.09 '
40.15
10
29-8 ^^°
53-16 '
47-4 !
Feb. lo.o
39.95 g
60.6 3
4
18.2 30
31
27-5 "^
24
53.18 I
45-5 \l
20.0
40.03
60.2
59-6 ^
16.33 ^
'5-^ .1
40.25
^5-^ „
53-24 ,„
43-7 „
Mar. i.o
40.14
16.42 /
12.0 3'
40.40 1^
"•6 11
53-34 °
42.0 «7
10.9
40.28 \\
58-7 ,^
16.59 11
9-^ ',!
40.59 ,:
^^ « 26
20.0
53-47 :
40.6 4
20.9
40.46 \^
57.7 °
16.84 ^5
^■7 A
40.82 ^3
28
^7-4 ll
53-64 ]l
39.5 '•
30.9
40.67 "
5M ^
17.17 ^3
4-6^!
53-84 ^°
38.8 7
24
»4
39
17
32
25
24
3
Apr. 9.9
40.91
55-0 ,^
17.56 ^^
^•9 ,,
41.42 ^^
12.3
54-08
5436 '^
38.5 ,
19.8
41.18 ^7
53-5 '*
18.01 ^5
1.8"
^^'77 li
9-9 't
38.6 '
29.8
41.47 ^^
51.8 '.J
18.51 f
x-4 *
42.16 39
7.6 '3
54-66 30
39.2
May 9.8
41.78^,^
48.2
19.03 ^'
'•'
42.57 ^!
5-6^°
54-97 ^!
4°-3 ,,
19.8
42.10^^
19.56 1]
2.2 '
43.00 y
3-9^
5530 I]
41.7 't
33
18
54
13
44
15
34
18
29.7
42.43 _
46.4 ,g
44-6 ^
20.10
5-3 ,!
43.44 ^^
^•4„
55-64 „
43-5 „
June 8.7
42.76 33
20.62 ^^
43.88 44
^•3"
55-97 ,,
45-6 "
18.7
43.08 32
42-9 'I
21. H ^^
7-6^3
44.31 ^^
0.6 7
56-29 f
48.0 '*
28.6
43-39 ^8
43-67 „
4'-4 i
21.55^^
X0.4 :*
44-7^ °
45.09 3^
0.3 3
56.59 1°
50.6 ^
July 8.6
40.0 ;*
21.94 ,^
^3-5 ^
0.3 ^
56.86 '7
53.3 „
.
25
12
32
33
33
5
»4
27
18.6
43.92
38-8
22.26
16.8 ,
45.42 ^^
0.8
57-10
56.0
28.6
21
44.13 '
37-9 !
22.51 ^l
20.4 f
45.70 ;
1.6 *
57-30 '°
58.7 ''
Aug. 7.5
44.30 |7
0
37-3 °
22.69
24-X "
45.93 3
2.7"
57-45 f
^'•4 ^
17-5
44.43 ^
44.51 ^
36.8 5
22.79 '°
3^! X
3' -4 36
46.10 '7
4.1 '4
57-56 "
57.62 I
64.0 ^
27.5
36.6 '
0
22.81 ^
6
46.20 '^
4
5-8'!
18
66.4 '*
22
Sept. 6.5
44.55 _
36.6
22.75 ,,
35-0 ,,
46.24
7-6, „
57-64 ,
68.6
16.4
44.54 .
36.8 I
22.61 '^
38.3 "
46.22
46.14 ^^
9-5
II.3 ]l
57-62 I
57-56 <*
70.5 ;^
26.4
44.50 Z
37.2 ^
"•41 !^
4' -4^'
72.2 '7
Oct. 6.4
44.42
37-7 i
38.3 I
"15 ^,^
44-'^!
46.01 ^l
45.85 ;^
^3-^ 6
^4-7 ^
57-47 ,^
73.6 ;4
16.3
44.32 ^
21.843
46.6 '^
57-35 "
74.7 ' '
12
0
35
«9
19
14
14
7
26.3
44.20
38-9 ,
21.49 .„
48.5 ,
45.66
16.1
57-21
75-4
Nov. 5.3
44.08 "
¥ 1
0
39.5 ,
40.1 ^
40.7 ^
21. II 3
50.0 '5
45.45 ^^
17.2
' am
57.07 ;^
75-8 4
15.3
43.95 '^
20.71 ^"^
50-9 '
45.23 "
17.9 7
56.92 5
75-9 ,
25.2
43.83 "
20.31 4°
51.2 ^
45.02
18.2 3
56.77 f
75-6 3
Dec. 5.2
43.72 "
41.2 5
19.91 to
51 -o „
44.83 ^
18.2 °
56-63 '4
75-0 ^
9
4
38
8
17
4
12
10
152
43.63 a
41.6
19.53 „
50.2
44.66
17.8
56.51
74.0
25.2
8
43.55 ,
41.9 ^
19.18 35
4«-9 ;^
44-52 ^
16.9 9
56.40 "
56.32 *
72.7 '3
35.1
43.50 ^
42.1
18.88 3°
47.0 '9
44.42
15.7 "
71.2 *5
Scc<i,Tand
1.032 -0.255
2.156 +1.909
1.477 -X.087
1.103 40.465
Mean Place
4i*.i49 49". 28
20' .008 21 ".61
4i".5o6 I5".97
54'.820 53".^
D'^ a, Dw a
0.00 -K>.OI
-0.02 -0.1 1
40.0I 40.06
-0.01 -0.03
D,|r 6, D« S
+0.3
-0.5 i
■K>.3
-0.5 1
■K>.3
-0.5 1
40.3
-0.5
[Eph za]
APPARENT PLACES OF STABS, 1912
469
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. I.I
II. I
21. 1
31. 1
Feb. lo.o
20.0
Mar. i.o
11. o
20.9
309
Apr. 9.9
19.8
29.8
May 9.8
19.8
29.7
June 8.7
18.7
28.7
July 8.6
18.6
28.6
Aug. 7.5
17-5
27.5
Sept. 6.5
16.4
26.4
Oct. 6.4
16.4
26.3
Nov. 5.3
153
25.2
Dec. 5.2
152
25.2
35.1
6 Pegasi.
Mag. 3.7
Right
Ascension.
h
22
8
44.36
44-31
44.29
44.30
44.34
m
5
5
2
I
4
7
9
13
44.41
44.50
44.63 ,,
44.80 ^7
45.00
20
22
26
28
45.22
45.48
46.06 3°
46.37 ^'
Sec <J, Tan 6
Mean Place
46.69
47.01
47.32
47.61
47.88
48.12
48.32
48.49
48.61
48.68
48.72
48.71
48.67
48.60
48.50
48.39
48.27
48.14
48.02
47.91
47.82
47.74
47.68
32
32
31
29
27
24
20
17
12
7
4
I
4
7
10
II
12
13
12
II
9
8
6
Declina-
tion N.
+ 5 45
46.6
45.6
44.6
43.6
42.7
41.9
41.3
41.0
40.9
41. 1
10
10
10
9
8
6
3
I
2
5
9
12
14
41.6
42.5
43-7
46.8 '7
48.7
50.8
52.9
55.1
57.2
7t Pegasi.
Mag. 4.4
21
21
22
21
20
59.2
61.2
63.0
64.6
66.0
67.1
68.1
68.8
69.3
695
69.6
69.5
69.1
68.6
68.0
67.2
66.3
65.4
20
18
16
14
II
10
7
5
2
1
4
5
6
8
9
9
1.005 +0.10 1
45".672 52".6o
Right
Ascension.
h m
22 6
s
3.02
2.93
2.87
2.84
2.85
aoo
+0.3
-0.0 1
-0.5
2.90
2.99
3.12
329
3.50
3.75
4.03
4.34
4.67
5.02
5.37
5.72
6.05
6.36
6.64
6.89
7.09
7.25
7.36
7.42
7.43
7.40
7.33
7.23
7.10
6.95
6.78
6.61
6.44
6.28
6.13
6.00
5.90
9
6
3
I
5
9
13
17
21
25
28
31
33
35
35
35
33
31
28
25
20
16
II
6
I
3
7
o
3
5
7
7
7
6
5
3
o
Declina-
tion N.
+ 3244
47.2
45.4
43.3
41. 1
38.9
36.7
34.6
32.8
31.3
30.2
29.6
29.5
29.8
30.6
31.9
33.6
35.7
38.1
40.7
43.5
46.5
49.5
52.5
55.4
58.2
60.8
63.1
65.2
66.9
68.3
69.4
70.0
70.3
70.1
69.5
68.5
67.2
65.6
18
21
22
22
22
21
18
15
II
6
I
3
8
13
17
21
24
26
28
30
30
30
29
28
26
23
21
17
14
1 1
6
3
2
6
10
13
16
C Cephel.
Mag. 3.6
1. 1 89 +0.643
4-.683 45".83
-0.01 -0.04
+0.3 -0.5
[Bph la]
Right
Ascension.
h m
22 7
45.42
45.19
45.01
44.88
44.82
44.82
44.90
45.05
45.27
45.56
45.90
46.30
46.74
47.20
47.68
23
18
13
6
8
15
22
29
34
40
44
46
48
48
47
48.16
48.63
49.08 ^^
49.49 "^^
49.85
50.16
50.41
50.58
50.69
50.73
50.70
50.60
50.45
50.24
49.99
36
31
25
17
II
4
3
10
15
21
25
29
31
49.70
49.39 _ _
49.06 l^
48.73 \\
48.40 ^^
31
48.09
47.80 II
47.54 '"^
Deolina-
UonN
+ 57 45
69.0
66.9
64.4
61.6
58.6
55.6
52.7
49.9
47.5
.45.5
43.9
42.9
42.5
42.7
43.4
44.7
46.6
48.9
51.6
54.7
21
25
28
30
30
29
28
24
20
16
10
4
2
7
13
19
23
27
31
33
84 Cephei.
Mag. 5.0
35
36
58.0
61.5
65.1
68.8 ^l
72.4 ^'
34
75.8
79.1 ^^
82.1 3°
84.8 ^7
87.1 ^3
89.0
90.4
91.3
91.6
91,4
90.6
89.2
87.4
19
9
3
2
'8
14
18
Right
Ascension.
h m
22 8
s
2.90
2.41
2.00
1.70
1.52
1.46
1.53
1.72
2.04
2.48
49
41
30
18
6
7
19
Z^
44
54
63
69
73
1.875 +1.586
47'.975 62".i3
-0.02
+0.4
-0.09
-0.5
3.02
3.65
4.34
5.82 75
74
6.56
Q.IO ^^
44
9.54
9.88 3^
lO.II ^
10.22
10.22
10. 1 1
9.90
9.58
9.17
8.69
8.13
7.53
6.90
6.24
5.59
4.96
4.37
3.83
II
o
II
21
32
41
48
56
60
63
66
65
63
59
54
Declina-
tion N.
+ 71 54
36.0
33.9
31.4
28.6
25.5
21
25
28
31
32
32
22.3
IQ.I
16.I 3^
T^ -, 28
13.3
II.O
9.1
6.9
6.8
7.3
23
19
14
8
I
5
10
8.3
9.9
12.0
14.6
17.6 3°
16
21
26
20.8
32
36'
24.4 ^^
28.1 37
35.7 ^
37
39.4
42.9
46.2
49.3
52.0
54.2
56.0
57-2
57.8
57.8
57.3
56.2
54-4
35
33
31
27
22
18
12
6
o
5
II
18
3.220 +3.061
7".096 2 7 ".07
-0.04
+0.4
-0.18
-0.5
470 APPARENT PLACES OF STARS, 1912.
FOR THE xn>PER TRANSIT AT WASHINGTON.
B Aqnaxil.
a TnoansB.
Y Aqnazil.
81 PegMi.
Mag. 4.3
Mag. 2.9
Mag. 4.0
Mag. 4.9
Mean Solar
Date.
Right
Declina- I
Right
Declina-
Right
Declina-
Right
Declina-
AscensioD.
tionS
•
AaceDsion.
tion S.
Ascension.
tion S.
Ascension.
tion N.
h m
e
9
h m
e '
h m
e •
h m
•
22 12
- 81
3
22 12
— 6041
22 17
- 149
22 17
+ 11 45
Jan. I.I
s
10.26
28.2
s
27.39 ,.
27.23 '^
75-4 ,„
5*48 ^
59.5 ,
9^88
9.82 ^
37-2 „
II. I
10.22 ^
28.6
4
73-5 '!
5.43 ^
60.2 '
36.1 "
21. 1
31. 1
10.20 ^
10.21 ^
29.0
29.2
4
2
27.13 '^
27.09 ^
7^-^ 6
2
5-41
5-41 ,
60.8 \
61.4 \
9.79 \
9.78
34.8 '3
33.5 \\
Feb. IO.O
10.25 \
29.3
I
I
27.12 ^
10
65.6 ="
30
5-44 \
61.8 ^
3
9.80 ^
5
3-3 ::
20.0
^^•31 _
29.2
27.22
62.6
5-50
62.1
9.85 ^
31.2
Mar. i.o
10.41 ^
28.9
3
27.38 '^
59-5 ^'
5-59 '
62.2 '
9.94 ,^
30.3 ;
II.O
10.54 ^
28.4
5
27.60 "
56.3 f
5-71 '
62.1 '
10.06 '^
29.6 7
20.9
10.71 '7
27.7 ,
7
27.88 ^^
53-2 3'
587 f
61.7 \
10.21 '3
29.2 4
30.9
10.90 '^
26.7
[O
28.22 34
50.1 3'
6.06 '9
61. 1 ^
10.40 '^
29.1 \
23
[2
40
29
22
9
21
3
Apr. 9.9
^^•^3 ^,
25.5
28.62
47.2
6.28
60.2
10.61
29.4 .
19.8
11.38^^
24.1 ^
t4
29.07 ^^
27
44-5 ,^
6-53 ^^,
59-^ W
10.86 ^3
6
30.0
29.8
11.66 ^^
22.6 ^
15
29.56 49
42.1 '4
6.80 '7
57-7 ;^
30.9 9
May 9.8
11.96 3^
20.9 '
^7
30.09 53
40.0 "
38.2 '8
7.10 30
56-1 '^
18
54-3 ■„
11.44^^
32.2 J
33.8 ^
19.8
12.28 32
19.0 ^
19
30.64 55
7-41 ^'
"•75^
32
f9
57
13
32
19
33
19
29.7
12.60
I7.I
31.21
369 „
7-73 „
52-4 ,„
12.08
35.7 _
June 8.7
12.93 ^^
15.2
^9
31.78 57
36.0 9
^•^5 ^
5°-4 !°
12.40 3^
37-7 ^,
18.7
13.25 Xr.
13.3 \
19
32.33 ;,
35-5 \
^•36 ^^
48-4 z
"•71 ^^
39-9 t
28.7
13.55 ^^
1 1. 6
17
32.86 33
35-5 .
8.66 30
Q ^^ 28
464 '°
13.01 3
13.29 ^^
42.2 i
July 8.6
^3.83 Z
IO.O ^
[6
33.36 3^
36.0 5
44-5 ^
44-6'*
25
15
44
9
25
17
24
23
18.6
14.08
8.5
33.80
36-9 . ,
9-^9 _
42-8 ,,
^3-53 _
46-9 „
28.6
14.47 '
7.2 \
13
34.17 ^^
38.3 \\
22
9.41 0
18
9-59 "
41.2 ■«
13.74
49-1 ,,
Aug. 7.5
6.2 ^
lo
8
6
34.48 ^^
40.0 '7
39-8 4
13.91 ^
51.2 "
17.5
14.60 '3
5.4
2 2
3470 ,^
9.72 '3
38-6 0
14.04 I
14.12 ^
So «
54.9 _
27.5
14.69 ^
4.8
34.84 't
22
44-* ,,
9-81 \
37-6 '«
5
4
5
23
5
8
4
15
Sept. 6.5
14.74 ^
4.4
3489 ^
465 ,^
9.86
36.8 ^
14.16
56.4 , ,
16.4
H.74 °
4-3
I
34-85 ,t
4»-9 '1
9.86 °
36-3 \
14.16 ^
57.7 \\
26.4
14.71 ,
4.3
0
34-74 '
51-3 *
9-83 ^
9-77 \
9-69 ,„
36.0 3
14.13 ;
58.8 '^
59.6 \
Oct. 6.4
14.64 7
4.5
2
34-55 ,;
53-5 "
35-9
14.06 7
i6.4
H-55 ,^
4.8
3
34-31 ^*
55-4 '
36.0
13.97 ,;
60.1 3
xo
5
39
16
10
2
IX
3
26.3
14.45 ,,
5.3
34.02
57.0 ^^
9-59 „
36.2
13.86
60.4
Nov. 5.3
14.33
5.8
5
33.70 3^
58.3 ^\
59.1 ^
9-47
36.5 ^
^3.74
60.5
153
14.21 "
6.3
5
6
6
5
33.37 ^^
9-35 "
37.0 5
13.62
60.4 *
25.2
12
14.09
6.9
33.04 ,^
59-3 _
9.24 „
37.5 ^
3^- 6
^3.50
60.0 ^
59-4 8
Dec. 5.2
13.98 "
9
7.5
32.72 ^3
59.0 ^
9.13
^ ^^ 10
13.38 w
152
13.89 «
13.81 \
8.0
p
3^"^ 2^
58.3 ,,
9.03 «
8.95 \
38.7 ^
13.27
5^-^ ,0
25.2
8.5
5
32.20 ;^4
57.1 ^\
39.4 ^
13.18 9
57-6 °
35.1
13.76 ^
9.0
5
20
32.00 ^"
55.4 ^^
8.89 ^
40.1 '
13." ^
56.5 "
Sec<J,Tan<J
1. 010 -0.14
5
2.043 -1.782
1. 001 -0.032
1. 023 •KX208
Mean Place
ii*.459 i8".4i
28«.8i9 54".3i
6».690 5r'.62
ii".i96 4i".i4
ly^a, D«a
0.00 40.0I
1 40.02 40. 1 1
aoo 0.00
0.00 -0.0 1
D^(),D«i()
1 +0.4
-0.5
1 "KJ.4
-0.5
■KX4
-0.4
40.4
-0.4
[Bph xaj
APPARENT PLACES OF STARS, 1912.
471
FOR THE UPPER TRANSIT AT WASHINGTON.
8 Laoexte*
n AqnasU.
<T Agnaill.
a Laoerte.
Mean Solar
Mag. 4.6
Mag. 4.6
Mag. 4.9
Mag. 3.8
Date.
Right
Dedina-
Right
Declina-
Ridhi
Declina- |
Right
Declina-
Ascenuon.
tionN.
Ascension.
tion N.
Atcention.
tlonS
>.
AKsniion.
tion N.
h m
e «
h m
0 >
b m
•
#
h m
e t
22 20
+ 5146
MM
22 20
+ 055
ft
22 25
— II
7
22 27
+49 49
Jan. 1.2
8
3-^ ,0
^30 ,„
8
4576
42.7 0
58*39 ,
53.1
37-82
37.64 ^
53.7 ,8
5'-9,,
II. I
3.50 9
81.0'**
4571 : 41-9 !l
58.34 \
53.4
3
21,1
3-35 f
7^-7 11
45-68 3
41.2 7
58.31 ^
53.6
2
37.50 ;
49.6 ^3
31. 1
3.24 "
7^' It
45.68 °
40.5 ;
39.9 \
58.31 \
53.6
0
37.39 -
37-33 Q
47.1 ',5
Feb. lo.o
3.19 I
73-3 '
29
4571 \
58.33 g
53.5
I
3
44.4,;
20.0
3-19 ,
3-25 „
70-4 „
4576 .
45.84 ,!
39.4 .
58.39 „
58-47 *
53.2
37-33 ,
417 „
Mar. i.o
^7-7 '^
39.1 3
52.7
5
37.38 ,^
390 7
II.O
3-37 !
65.1 ^'
45.96 '
39.1 °
58.59 "
52.0
7
37.49 „
36.5 ^^
20.9
356 '!
62.8^3
46.11 5
39.3 \
58-74 \\
51. 1
9
37.66 '7
34-3 "
30-9
3.80 '*
30
60.9 '9
15
46.29 '*
21
39.8 1
58.92 '!
22
50.0
II
37-88 :^
32.4 ''
^ '14
Apr. 9.9
4'o ,.
59-4 „
46.51 ,,
4°-6 .„
59.^4 ,,
48.6
^ ^
38.16
3'-° ,0
19.9
4-44 it
58.5 \
46.76 ^
41.6 °
59.38 ^4
59.66 ^«
47.1
15
3849 "
38.85 36
30.0 '°
29.8
4.82 38
58.1 4
47.03 ,;
4-9
44.5 ;,
45.4
17
18
29.6 \
May 9.8
5-^3 1
58.3 '
47.32 9
59.96 3°
43.6
39.25 1°
29.8 '
19.8
5.66 «
59-1 \
47.63 ^'
46.2 7
60.27 3*
41.7
19
39.67 *
30.5 ,^
44
J3
32
19
33
19
42
13
29.7
6.10
60.4 .
47-95 „
48-1 ,„
60.60
39.8
40.09 ^,
33.6
June 8.7
6-53 V,
02.2
48-27 ^'
20
60.93 33
37.9
19
*°-5^ lo
18.7
6-94 ts
^44 ^6
48-59 ^'
52.2 ,„
61.25 3^
36.0
19
40.91 Jg
41.29 ^,
35-8 "
384 '*
28.7
7.32 z
^7-^ L
48.89 3°
54.2 ,„
6* 56 ^«
34.3
17
16
July 8.6
7.66 34
70.0 ^°
49.^7 ^t
••X „ 20
56.2
6^-85 '!
32.7
41.64 i^
41.3 "'
30
32
25
19
30
14
30
33
18.6
796 ,,
73-2 ,^
49.42
58.1 „
62.11
31.3
41.94 „
44-5 „
28.6
8.21 '5
76.6 ^^
49.63 "
59-8 I
62.34 \l
30.1
12
42-19 !"
47-8 33
Aug. 7.6
8.40 ]l
80.1^5
49.81 «
^^•4 ^
62.53 '
29.2
9
42.39 °
5'-^ tl
17.5
8-53 't
83.6 35
49.95 \
62.8 '4
62.68 '5
28.5
7
42.53 8
42.61
5-^-^ t
27.5
8.60 7
87.0^4
50.04 ^
63.9 "
62.78 "
28.1
4
58.0 34
I
33
5
9
6
2
2
33
Sept. 6.5
8.61
9^-3,^
50.09
64.8
62.84 ^
27.9
42.63
61.3
16.4
8.56 ,^
93-5 ^:
50.10
65.5 '
62.86 ^
27.9
0
42.60 3
42.52
^4-+ f 0
26.4
8.45
9^-^ 6
50.07 3
66.0 5
62.84 \
62.78 J
62.70 **
' 10
28.1
2
69-9 „
Oct. 6.4
8.30 5
99.0 ^
50.01
66.2 "
28.4
3
42.39 _g
42.23
20
16.4
8.II '9
32
101.2"
18
49.93 ,^
66.3 \
28.9
5
6
72.1 "
' 18
26.3
7-^9 ,,
103.0
49.83 ,_
66.2
62.60
29.5
6
6
6
6
5
42.03
73-9 , .
Nov. 5,3
It '^
7-39 ,,
104.4 '^
49.72
65.9 ^
62.49 "
30.1
41.81 "
75.3 'J
15.3
105.3 ;
49.60 "
655 \
62.37 "
30.7
41.57 \\
76.2 \
25.3
7-" 6
105.6 3
49.49 ' '
65.0 5
62.25 \\
31.3
41.32 5
76.6 4
Dec. 5.2
6.86 ^^
26
105.5 ^
49.38"
10
64.4 J
62.14 "
^ 10
31.9
41.08^^
24
76.5 \
15.2
6.60
104.8
49.28
637 ,
62.04
61.96 \
61.90
32.4
M
40.84
75.9 „
25.2
35.1
6-37 ^^
6.16 "
103.6"
101.9 ^^
49.20
49.13 ^
63.0 \
62.2 *
32-9
33.2
5
3
40.62 "
20
40.42
;t1 '^
73-2
Sec d, Tan 6
I.617 •♦1.270
1. 000 •K>.Ol6
1.019 -0.197
1.550 +I.185
Mean Place
5-.858 76".43
46-.972 49".70
59*.505 42".68
39-.860 47".i4
D> a, D» a
-0.0 1 -0.08
0.00 0.00
0.00 +0.0 ]
[
-0.0 1 -0.07
D^ S, Dm ^
+0.4 -0.4
+0.4 -0.4 1 +0.4 -0.4
+0.4 -0.4
1
[Epb la]
472
APPARENT PLACES OF STABS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
t^Aqnarif.
226 B. Cephei.
7 Aqnarli.
10 Lacertae.
Mean Solar
Mag. 5.3
Mag. 5.7
Mag. 4.1
Mag. 4.9
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right ' Declina-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion S.
Aacension. tion N.
h m
e
f
h m
e f
h xn
• t
h m • •
22 29
— 21
9
22 30
+ 7546
It
22 30
-034
P9
22 35
+3835
P9
Jan. 1.2
51*82
51.76 !
47.1
s
39-00 ,„
33-2 „
■
48.94 .
48.88 ^
24.0
s
17.01
35-4 ..
II. I
47.0
1
38-30 Z
3770 2
37.22 ^
31-5 '^
24.7 I
25.3 .
25.9 ,
16.88 '^
33-7 ''
21. 1
51.73 ;
46.7
3
^9-3 "
26.7 '^
48.85 ^
16.78 '°
31-7 1°
31.1
51.72
46.2
5
8
48.84 '
16.71 I
29.5 "
Feb. 10. 1
51.74 ,
45.4
36.88 34
^3-7 T,
48.85 I
26.4 5
16.67 ^
27.2 ^
6
9
18
31
5
4
I
-23
20.0
51.80 ^
51.88 ^
44.5
36.70
20.6
48.90
26.8
16.68
24.9
Mar. i.o
43.4
II
36.68 '
'7.5 ^;
48.97 J
27.0 ^
16.73 5
22
II.O
52.00 "
42.1
13
36.83 '5
'4-4 i[
49.08 "
26.9 '
16.83 '"^
20.6 ''^
20.9
30.9
52.15 ^
10
52.34 _
40.6
39.0
15
16
37- H ^,
37.60*6
8-9'!
49.22 4
49.40 *
26.6 I
26.0 f
16.97 '4
17.16 "9
18.8 '8
17.3 '5
22
18
60
22
21
8
24
10
Apr. 9.9
5310"
37.2
38.20
6-7 „
49.61
252 „
^7.40 ^_
16.3
19.9
29.8
35.3
33-3
19
20
38.92 7^
39-73 «'
S.o'7
3.9"
49.85 It
50.11 ^"^
24.1 "
22.7 ';[
17.68 ^*
17.99 ^'
15.7 t
15.6 '
May 9.8
5341 t.
31.3
20
40.61 88
3-4 ^
50.40 ^^^
21.1 '<*
19-3
^^•33 3;^
18.69 ^
16.1 5
19.8
5374 ,]
293
20
4^ 52 9'
3.4 °
50.71 ^l
17.0 9
34
20
93
7
32
»9
37
»4
29.8
5408
27.3
_ 0
42.45 „.
4-' .,
51-03
17.4
19.06
18.4
June 8.7
54-42 1:
25.5
18
43-36 9«
5-4 ^
5'-35 11
'5-4 °
19.43 3J
20.3 *9
18.7
54-76 34
23.8
17
44-"!!
7-^Jt
51.67 3^
13.4 '°
19.79 3^
22.5 "
28.7
55-08 f
22.4
14
80
45.02 ^°
9-5 ^
51.97 f
n.4'°
20.13 34
25.0 'i
July 8.6
55.39 ^8
21.2
12
10
45-7^ ^
12.2 '7
31
52.26 ^9
26
^ I 20
9-4,8
20.45 11
27.8 ^8
30
18.6
55-67 „
20.2
46-32 -
'5-3 ,,
5252 „
7-6.,
20.73
30.8
28.6
55-91 4
19.5
7
46.80 48
22.3 3°
5='-74 !!
5-9
20.97 ^4
33-9 ,:
Aug. 7.6
56.28 ^
19.1
4
47.15 11
52.93 ,'
4-4 ^
21.16 '9
37.0 3»
17.5
19.0
I
47.37 "
47.45 g
26.1 38
53.08 5
3.1 f
21.31 '5
40.1 3'
27-5
56.39 ';
19.2
2
4
29.9 ^:
38
53.18 -
-'«
21.40 9
0
43.1 ^°
29
Sept. 6.5
56-46 ,
19.6
6
47-39 ,„
33-7 „
53.24 ,
^•^ fi
21.45 „
46.0 ,.
16.4
56.48 I
20.2
47.19 \l
37.4 „
53.26 I
0.6 ^
21.45 °
48.7 'I
26.4
56.46 \
20.9
7
46.87 11
40.9 „
53.24 '
0.2 4
21.40 5
51.2 '5
Oct. 6.4
56.41 a
21.8
9
46.43 tt
44.2 33
53.19 ,
0.0 ^
'21.32 ^
53.4 "
16.4
56.33
22.7
9
45.88 55
47.2 3«
53-12 "
0.0 °
21.20 *^
55.2 '*
II
9
65
26
9
I
14
IS
26.3
56.22
23.6
45.23 „
49.8 ^
53.03
O.I
21.06
56.7
Nov. 5.3
15.3
56.10 Y
55.97 3
24.5
25.3
9
8
44-5^ 11
43-72 79
42.90
42.06 f4
83
5^-^ 6
53-6 ll
52.92
52.81 "
0.4 3
0.9 I
20.90 *^
20.73 11
57.8 "
58.4 ^
253
55.84 ^
26.0
7
54.6 '^
52.69 "
''^ I
^^•55 ;
58.6 I
Dec. 5.2
55-72 "
11
26.5
5
4
55.1 ^
52.58 "
10
2.0 ^
7
20.37 ;;
58.4 J
15.2
25.2
55.61
55-52 9
26.9
27.1
2
4' -23 »„
40.43 !°
55.0
52.48 ^
52.40 ;
''•'' 7
3.4 ;
20.20
20.04 1^
57.8
56.7 "
35.1
55.45 ^
27.1
0
*7
39.69 '4
52.9 ^
52.33 ^
4.1 7
19.90 '♦
55.2 '5
Sec <f, Tan d
1.072 -0.3I
4.069 +3.945
1. 000 -0.010
1.280
-K>.798
Mean Place
52"-874 33".92
43'.907 22".29
50».o89
0.00
i6".79
i8».659
31 ".02
-0.05
IK ^ a, Dm a
0.00 +0.02
-0.04 -0.J4
0.00
-0.01
T)^ 6, Bm *»
+0.4
-0.4
1
+0.4
-0.4 1
-fO.4
-0.4
•^0.4
-0.4
[Bph xa]
APPARENT PLACES OF STARS, 1912
473
FOR THE UPPER TRANSIT AT WASHINGTON.
B Plsois AastnUs.
C Pegasl.
P Octantis.
ft Ornls.
Mean Solar
Mag. 4.2
Mag. 3.6
Mag. 4.3
Mag. 2.2
Date.
Right
Declina-
RiKbt
Declina-
Right
Declina-
Right
Declina>
Ascension.
tion S.
Aicantlon.
tion N.
Ascension.
tion S.
Ascension.
tion S.
h m
0 f
h 1
tn
e •
h m
0 '
h m
0 »
22 35
— 27 29
•0
22 37
+ 10 22
22 37
-81 50
22 37
-4720
Jan. 1.2
B
46.42
46.36 J
85.8
s
3-i6
14.4 /
s
4-99 „.
99
59-2 „
s
24.06
62.0
II. I
85-5 ^
84.9 J
3.09
7
13.3 ,,
4.04 95
56-7 \l
23-94 "
23.86 I
60.8 "
59-^ !o
21. 1
46.32 z
3.05
4
12.2 "
3-29 "
53.8 \\
311
46.30 ]
84.0 9
3.03
2
II. I "
2.76 53
50.5 33
23.82 "^
57-3 ''
Feb. I O.I
46.31 \
82.9 "
3.03
0
I 0.0
2.46 3°
47.0 35
23.82 °
55.1 "
5
13
3
10
5
37
5
24
20.0
46.36
46.44
81.6
306
c.
9-0 0
2-4^ ,9
43.3 ,a
23.87 ^
5^-7 ,6
Mar. i.o
80.1 '5
3.12
0
«-^ ^
2-59 '!
39.5 3^
23.96 ^
II.O
46.56 "
78-4 !'
3-22
10
7.6 \
3°' 1
3-^5 J^
4.51 '^
106
35.7 t
24.09 '^
47-4 Z
44.6 :
^ 28
20.9
46.71 \l
7<5-5 \l
3.36
14
7.3 ;
32.0 37
28.4 36
33
24.27 ^
30.9
46.90 w
22
74.6 '9
ai
3.53
17
20
'■';
24.50 J
Apr. 9.9
47-38 ^^^
72-5 „
3.73
7-5 ,
5-57,,,
^5-1 ,„
24.78
^6 2 ^8
36.2 „
19.9
703 "
3.97
24
8.2 7
6.80 "3
22.1 3«
25.09 ^'
29.8
47.67 \\
68.1 "
4.23
26
9-^'
8.18 '38
'9-4 !!
25.44 ,
33-7 i
May 9.8
47.99 ,^
66.0 "'
4.52
29
^°-4 ^
9-68 !!!
^7-^ «
25.83 39
31.3 4
19.8
48.33 l\
63-9 "
4.83
31
12.0 '^
11.28 'f
18
15.4
26.24 ^
«^ ^ 21
29.2
35
ao
32
18
165
13
43
19
29.8
48.68
61.9 .a
5.15
13.8
12.93 «
I4.I 0
26.67
27.3 ,
June 8.7
49.03 ^^
60.1 *f
5-47
32
15.8 '°
'4-61 't
8
13.3
27.11 ^"^
25.8 "5
18.7
49.38 \\
58.5 \\
5.79
32
18.0 "
'^•^7 \t.
2
13.I ^
27.54 ^^
24.7 "
28.7
49.73 ;^
57-2 0
6.10
31
^ 0
*°-3 ^^
'7-^7 \t
13.5 I
27.96 ^
24.0 ^
July 8.6
29
56.2 '«
6.38
28
26
22.6 '3
aa
^^•37 Z
14.4 9
13
28.36 40
23.7 ^
18.6
5^-34 ,.
55-S .
6.64
24-8 „
20.73,. a
15.7 a
28.72
23.9
28.6
50.60 ^^
55.1 ,
6.87
23
.... ^ aa
1 18
^7-5 :;
29.04 ^^
24.4 ;
Aug. 7.6
50.82 "
550 '
7.06
19
«« « ao
29.0
22.87 96
19.8 1\
29.31 ^
25.3 ,,
17.5
50.99 ,;
55-3 \
7.21
15
30.9 '9
23.58 ^'
22.3 J
29.52
26.6 '3
28.2 'I
18
275
51.11 ^\
55.8 5
7.31
10
6
32.6 *7
15
24.03 «
25.1 '*
29
29.67 ^
9
Sept. 6.5
5119 ,
5^-5 ,0
7.37
r%
34-1 ,,
24-19 ,.
28.0
0 A
29.76
^""'^ 10
16.5
51.22 ^
57.5 °
7.39
2
35-3 "
2407 ^
3°-9 '
29.78 '
3^-9 \l
26.4
51.20 ^
58.6
7.38
I
36.3 '°
23.67 4
=30' 89
22.12 ^
33-8 \l
364 '!
29.74 ;
29.66 ^
33-9 ^
Oct. 6.4
51.15- ;
59.7
7.34
4
37-^ 6
37.7 *
35-9 Z
16.4
51.06 ^
60.9"
7.27
7
38.7 '3
29.53 ^^
37.8 ^9
XI
la
10
3
109
>9
17
16
26.3
50.95 ,,
62.1
7.17
38.0
2^°3,_
40.6
29.36
394 ^^
Nov. 5.3
50.82 3
63.2 "
7.06
IX
38.0 °
19.78
42.0 '4
29.17 '^
40.8 4
153
50.68 '4
64.1 I
6.95
IX
37-9 '
'^•^3 ^^
42.9 ,
28.96 ^'
41.9 "
253
50.54 \\
64.8 7
6.83
12
37-5 ;
'7-^3 to
43.1 \
28.75 11
42.6 7
Dec. 5.2
50.41 ;^
65.3 '
6.72
IX
37.0 *
'5-64 ^^
42.7 .„
28.55 °
42.9 ^
12
3
II
7
133
10
19
2
152
50.29
65.6
6.61
0X
3^ 3 „
^"^•^^ 122
lot ">
40.1
28.36
42.7 ^
25.2
50.19 '°
65.6 ^
6.52
9
35-4 '
13.09"'
28.19 ^
42.2 ,x
35-2
8
50.11
65.4 '
6.44
8
10
34-4
12.02 ^^7i 37.9 22
28.05 ^^
41.2 ^^
Sec <J, Tan 6
1. 127 -0.521
1. 01 7 40.183
7.048 -6.977
1.476 -1.085
Mean Place
47'.432 li".oi
4».368 i7".98
7'.388 36". 14
25-.059 42".65
D> a, D« a
0.00 40.03
0.00 -0.0 1
40.07 40.44
40.0I 40.07
D^ d, D« 6
40.4
-0.4 1
40.4
-0.4 1
40.4
-0.4 1
40.4
-0.4
[Epb la]
474 APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Sol&r
Date.
Jan. 1 .2
II. I
21. 1
31. 1
Feb. I O.I
20.0
Mar. I .o
II.O
20.9
30.9
Apr. 9.9
19.9
29.8
May 9.8
19.8
29.8
June 8.7
18.7
28.7
July 8.6
18.6
28.6
Aug. 7.6
17.5
27.5
Sept. 6.5
16.5
26.4
Oct. 6.4
16.4
26.3
Nov. 5.3
15.3
25.3
Dec. 5.2
15.2
25.2
35.2
Sec 6, Tan<J
Mean Place
Tf Pegasi.
Mag. 3.1
Right
Ascension.
h m
22 38
51.07
50.97
50.89
50.83
50.81
50.83
50.88
50.97
51-10
51.28
51.50
51.76
52.05
52.36
52.69
10
8
6
2
2
5
9
13
18
22
26
29
31
33
35
35
34
5304
53.39
53.73 ,_
54.06 II
54.36 30
27
54.63 ,,
54.86 ^3
55.05 '^
55.20
55.30
15
10
6
55.36
55.37
55.34
55.28
55.19
55.07
54.94
54.79
54.64
54.49
54.35
54.22
54.11
3
6
9
12
Declina-
tion N.
+ 2945
40.4
38.9
37.2
35.3
33.3
31.3
29.4
27.8
26.4
25.3
24.6
24.4
24.7
25.4
26.5
28.0
30.0
32.2
34.7
37.3
40.1
430
45.8
48.6
51.3
53.8
56.1
58.2
60.0
61.4
62.5
63.3
63.7
63.8
63.5
62.8
61.7
60.4
15
17
19
20
20
19
16
14
IX
7
2
3
7
II
15
20
22
25
26
28
29
28
28
27
25
23
21
18
14
II
8
4
I
3
7
II
13
1. 152 -K>.572
52».520 38".2i
-0.01
-10.4
-0.04
-0.3
A. Pegasl.
Mag. 4.1
Right
Ascension.
h m
22 42
s
6.12*
6.03
5.96
5.92
5.90
592
5.97
6.06
6.19
6.36
9
7
4
2
2
5
9
13
17
21
6.57
6.81 ^4
m r^^ 28
7.09
7.39
7.71
8.04
8.38
8.71
9.03
9.32
30
32
33
34
33
32
29
27
9-59 ,,
9.82 II
20.02
20.17
20.27
20
15
xo
7
20.34
20.36
20.34
20.29
20.21
2
2
5
8
10
12
20.11
19.99
19.86 '3
19.73 ^^
19.60 '3
13
19.47
19.36
19.26
II
10
Declina-
tion N.
+ 23 5
n
6S.7
67.3 '^
64.2 '^
17
17
62.5
60.8
59.3
58.0
57.0
56.3
56.0
56.0
56.5
57.3
58.6
15
13
10
7
3
o
5
8
13
17
60.3
62.2 '9
64.4 "
66.8 '^
71.9
74.6
77.2
79.7
82.1 ^4
22
86.3 "°
88.0 '7
89.4 '^
90.6
27
26
25
12
8
91.4
92.0
92.2
92.2
91.8
91. 1
90.1
88.9
6
2
o
4
7
10
12
1.087 40.426
17".448 68".28
0.00 -0.03
-K>.4 -0.3
[Bph lal
€ Qrois.
Mag. 3.7
Right DecUna-
Ascension. tion S.
h m
22 43
3.68
3.54
3.44
3.38
3.36
3.39
3.47
3.61
3.79
4.02
14
10
6
8
14
18
23
29
33
37
41
4.31
4.64
5.01
5.42
6.32
6.78
7.25
7.70
8,13
8.52
8.87
9.16
9.39
9.56
9.66
9.69
9.66
9.56
9.41
9.22
9.01
8.78
8.54
8.31
8.09
7.89
7.72
46
47
45
43
39
35
29
23
17
10
3
3
10
15
19
21
23
24
23
22
20
17
-5146
M
67.4
66.0 ^^
64.3 ''
62.2 "
59.8 ^^
57-2
54.4
51.4
48.4
45.4
42.4
39.6
36.9
34.4
32.2
30.4
29.0
27.9
27.3
27.1
27.3
28.0
29.1
30.6
32.3
34.3
36.4
38.6
40.8
42.8
44.6
46.1
47.2
47.9
48.2
48.1
47.4
46.3
26
28
30
30
30
30
28
27
25
22
18
14
II
6
2
2
7
II
15
17
20
21
22
22
20
18
15
II
7
3
I
7
II
1. 616 -1.270
i4'.643 47".x6
.K>.01
-^0.4
40.08
-0.3
r A^uarll.
Mag. 4.a
Right
Ascension.
h m
22 44
B
55.06
55.00
54.96
54.94
54.94
6
4
2
o
10
54.98
55.04
55.14
55.44 ^^
55.88 It
56.14
56.43
56.74
26
29
31
33
57.07
57.40
57.74
33
34
58.06 3^
5^-36 II
58.64
58.88 ^*
59.09 ]l
59.26 '7
59.38 "
59.46
59.50
59.49
59.45
59.39
59.30
59.19
59.08
58.96
58.85
58.74
58.65
58.58
8
4
I
4
6
II
II
12
II
II
9
7
Declina-
tion S.
-14 3
37 i
37.3
37.3
37.2
36.9
36.5
35.8
34.8
33.7
32.4
30.9
29.2
27.3
25.4
23.4
21.4
9.4
7.5
5.8
4-2
2.9
1.8
I.O
0.4
O.I
O.I
0.2
0.6
1.2
1.8
2.5
3.3
4.0
4.7
5-3
5.8
6.2
6.5
2
o
I
3
4
7
10
XI
13
15
17
»9
19
20
20
20
19
17
16
13
II
8
6
3
o
I
4
6
6
7
8
7
7
6
5
4
3
1. 03 1
56'.o6i
-0.250
26".i7
o.Oo
+0.4
•KX02
-0.3
APPARENT PLACES OF STARS, 1912
475
FOR THE UPPER TRANSIT AT WASHINGTON.
/i Pegul.
2 Cephei.
A.
pindi.
Mag. 3.7
Mag. 3.7
Mag. 3.8
Mag. 6.1
Mean Solar
Date.
RiRht
Declina-
Rifht
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
UonN.
Ascension.
tion S.
Ascension.
tion S.
h m
e •
h m
e t
h ]
en
0
*
h m
P r
22 45
+ 24 7
22 46
+ 6543
22 48
- 8
2
22 48
-7032
mm
Jan. 1.2
s
4396 ^^
72.9 „
29.75 .g
29.37 ;.
83.6 '^
8
0.45
62.3
31.76
WW
II. I
43.86 '^
71.6 '3
0.38
7
62.7
4
31.40 ^^
59-4 °
21. 1
43-79 I
70.0 '^
29.04 l^
81.5"
2 C
0.34
4
63.0
3
3I.II '^
57° ;
311
43.74 I
68.3 ]l
28.77 '^
79.0 ^s
762 ll
0.32
2
63.2
2
30.90
54.1 ''
Feb. I O.I
43.72 I
66.6 '7
28.58 '9
0.32
0
63.2
0
30.79 "
50.9 f
X
'7
I J
30
3
I
2
34
20.0
43-73 ,
64.9 ,.
28.47 ,
73-2 „
0.35
6
63.1
30.77 «
47.5 „
Mar. i.o
43-78 5
634 f
28.46 '
70.2 3
0.41
62.8
3
30.85 °
44-0 35
II.O
43-87 ,^
62.0 '4
28.73 ll
67.2 11
644 '^
0.50
9
62.3
5
0
31.03 ;
4°-4 ^'
2I.O
44.00 ^l
60.9 "
0.63
13
61.5
8
31.30 '
36.8 3«
30.9
44.16 f
60.1 *
29.00 ^7
6^-9 0
0.79
16
60.5
10
31.67^''
33-3 ,
21
4
30
20
19
13
45
34
Apr. 9.9
44-37 ,,
59-7 „
^936 ^^
59-9 ,,
58.3 ;
0.98
59.2
32.12
29.9 ,,
19.9
44-61 'I
59.7 °
29.80 44
I.2I
23
57.8
14
32.66 54
26.8 3'
29.8
44.89 'I
60.1 4
30.30 5°
57.2 "
1.47
26
56.1
17
33.27 ^'
23.9 \\
May 9.8
45i9„
61.0 9
30.85 55
56.8 4
1.76
29
54.3
18
33.94 1!
21-4 \\
19.8
4551 '
33
62.2 "
16
3^-44^
56.9 ;
2.06
30
32
52.4
19
20
34-66 7^
76
19.3 "
'7
29.8
4584 „
^3-8 ,„
32.04
33.22 5°
57-6
2.38
50.4
35.42
17.6 „
June 8.7
46.18 34
65.7 ''
58.8 11
60.6"
2.71
33
48.4
20
36.19 "
16.5 "
18.7
46.52 ^t
^7-9 "
3.03
32
46.4
20
36.96 77
15.8 7
28.7
46.84 \'
70.3 ,t
33.76 54
62.9 11
3.35
32
44.5
19
37.71 75
^5-7 '
July 8.7
47- H 1°
72-8 I'
34-26 f°
65.6 \l
3.65
30
42.8
17
38.42 7'
l6.t 4
ay
27
44
31
27
16
65
9
18.6
47-41 ,,
75.5 „
34.70
68.7
3.92
41.2
39-07 ,„
^70 ,^
28.6
47.65 '*
78-2 6
35 07 37
72.0^^
75.6 3^
IT
4.16
24
39.8
14
39-65 ^f
^8-4 8
Aug. 7.6
47.85 '°
80.8 '^
35.36 9
4.37
21
16
38.6
12
40.14 ■*'
4°-52 38
20.2 '8
17-5
48.00 '5
«3-3 'i
35.57 ,,
79.3 :^
4.53
37.7
9
6
"•3 "
27.5
48.11 "
857 t
35.69 "
83.0^7
4.65
12
37.1
40.78 ^^
24-7 ^!
6
23
4
37
8
4
14
»7
Sept. 6.5
48.17
88.0
35-73 .
90.3;
4.73
36.7
40.92
27-4 „
30-2
16.5
48.19 "
90° .a
35-68 5
4.77
4
36.5
2
40.93 '
26.4
48.18 '
91.8
35-56 "
93.7 1*
4.77
0
36.5
0
40.83 °
32.9 7
Oct. 6.4
48.14 *
93.3 ,'
35.36 11
35.10 ';
^■^lo
4-74
3
6
36.7
2
40.62 ^'
35-5 '
16.4
48.06 *
94.6 '3
99.8 2
4.68
37.1
4
40.30 3^
37-9 ,,
10
9
33
25
9
5
41-
21
26.4
47-96
95-5 ,
34.77 „
102.3
4.59
yj'^
^
39.89 ,_
4°° ,fi
41.6 «
Nov. 5.3
47.84 "
96.1 «
3440 37
104.4 ,1
106.0 '*
4.49
10
38.1
5
6
39.42 *7
153
47.71 ;3
96.4 ^
34-00 *
4-38
1 1
38.7
38-91 ^'
42.7 "
43-3 „
25.3
47.58 3
96.4 °
33.57 ll
107.0 '«
4.27
1 1
39.4
7
38-38 "
Dec. 5.2
47-44 "
96.0 ^
33.12 y
107.5 ,
4.16
II
40.0
0
37-85 "
43.3 I
12
7
44
I
10
6
51
6
15-2
47-32
95.3 „
32.68
107.4 «
106.6 ^
T ^9
4.06
40.6
37.34 ,,
42-7 „
25.2
47.20 "
94-4 ,;
32.25 ^-^
3.97
9
41. 1
5
36.87 47
41-5 \l
35-2
47.10 "
93.2
31.84^^
105.3 ^
3-90
7
41.6
5
36.45 ^'
39-8 '7
Sec<f,Tanrf
1.096 40.448
2.434 +2.219
1. 010 -0.14
.1
3.002 -2.831
Mean Place
45"-283 72".oo
32«.669 74"-47
-0.02 -0.14
i'.458 53"-22
32-.870 38".72
D^a, D«a
0.00 -0.03
0.00 +0.01
40.02 +0.18
D^ ^, Dm 6
+0.4
-0.3 1
+0.4
-0.3 1
+0.4
-0.3
+0.4
-0-3
[Eph za]
476
APPAKENT PLACES OF STAES, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
6 Aqoarii.
a Piscis AustnOis.
0 Andromedse.
/^Pegasi.
"
Mag. 3.5
Mag. 1.3
Mag. 3.6
Var. 2.2-2.7
Mean Solar
Date.
Right
Declina-
Ri|?ht
Declina*
Right
Declina-
Right
Declina-
Ascension.
tion S.
Ascension.
tion S.
Ascension.
tion N.
Ascension.
Uon N.
h m
«
•
h m
0 «
h m
•
1
h m • •
22 49
-16
ft
17
22 52
-30 5
22 57
+ 41 50
99
22 59 +2736
Jan. 1.2
s
57.92 ,
32.1
s
46.48 \
46.42
35-5 ^
s
50.54 .
50.38 ^
76.6
s
29.08
21-4 .
II. I
57.85 I
32.2
I
35-1 ,
75- » \l
28.97 " 20.0 '-*
21. 1
57.80 5
32.1
I
34-4 ,;
50.25 ^
73.2 9
28.88 9
18.5 5
31.1
57.78 '
31.9
2
46.39 ,
33.4 °
50.15 ^^
71.1 "
28.81 7
16.8 'I
Feb. I O.I
57.78 °
31.5
4
46.38
32-2 "
50.08 7
68.8 ="3
28.78 3 15.0 >^
3
6
3
14
2
23
I 18
20.0
57.81
57.87 I
30.9
46.41
46.47 ,J
30.8 „
50.06
66.5
28.77 i 13.2
Mar. I .o
30.0
9
^9-^ I
50.08 ^
^4-1 \\
28.80 3, 1 1.5 ^7
II.O
57.96 I
29.0
10
46.57 ^
27.2 ^
50.15 ,^
^^•9 "
28.88 ® 1 9.9 '^
2I.O
58.09 3
27.7
13
46.70 ^
46.88 '^
^^ ^ 20
25.2
50.27
59-9 °
28.99 " 8.6 '3
30.9
58-26 11
26.3
14
«« ^ 22
^3-o ^^
50.44 :
58.3 '^
29.14^^ 7.6^^
20
17
21
23
22
«3
20 6
Apr. 9.9
58.46 ^,
24.6
18
47.09
20.7
50.66 ^
50.92 ^^^
57.0
29.34 ,, 1 7.0 ^
19.9
58.69 11
22.8
47.34 ,^
18.4 ^3
56.2 *
29.58 ^4 1 6.8 ""
29.8
58.95 ll
20.9
19
47.62 ^^
16.I =^3
51.23^'
55.8 *
29.85^7 7.0 ^
May 9.8
5924 ,^
18.9
20
47.93 :'
13.8 ='3
51.57 ^^
55-9 ,
30.15 \ ; 7.7 ,^
19.8
59.55 ^
16.8
21
48.27 ^X
II.6"
51.94 ^^
56.6 7
30.47^' 8.8"
33
20
35
21
38
13
34 14
29.8
59.88
14.8
48.62
9-5 _
52.32
57.8 .
30.81 1 10.2
June 8.7
60.22 ^^
12.8
20
48.98 ^^
7.6 '9
52.71 ^t
59-4 '*
31.16 3^ I2.0
18.7
60.55 11
II.O
18
49.34 \^
6.0 •<*
53.09 ^^
^'•4 ^!
31.50^^ I4.I "
28.7
60.87 32
9.2
18
49.69 35
4.6 '4
53.46 37
63.8 ^4
31.83 ^^
^6-5 ::
July 8.7
61.18^'
7-7
15
50.03 ^^
3.6 _
53.80 34
66.5 '7
32-14^^
19.1 '!
29
12
31
7
31
29
29
27
18.6
61.47
6.5
5^-34 ,«
2-9 ,
54" „
*^9-4 ,„
32-43 ,,
21.8
28.6
61.72 ^5
5.5
10
50.62 ^«
^•5 t
54.38 7
72.4 3°
32.68 ^5
^4-5 !I
Aug. 7.6
61.93 'I
4.7
8
50.85 ^^
2.5 °
54.60 "
75.6 f.
32.89 ^'
27.3 !
17.5
62.10 '7
4-3
4
51.04 '9
'•« \
54.78 '!
78.8 f
33.06 7
30.0 ^7
27.5
62.23 ^^
4-1
2
51.19 '5
3-4 '
54.91 \
81.9 3'
33.19 \
3^-6 ,!
9
I
10
9
7
3»
8
24
Sept. 6.5
62.32
4-2
51.29 ^
4-3 „
54.98
85.0
33.27 .
35.0
16.5
62.36 ^
4-5
3
51.33 ^
5•'^
55.01 \
87.9 ^'
33.31 ^
37=^ 0
26.4
62.36 °
5.0
5
6
0
51.33 ^
6.7 '3
54.99 ,
54.93 ,^
9°-^^I
33.31 ^
4I.O ,,
Oct. 6.4
62.33 ;
5.6
51.29 \
51.21 ^
8.0 '3
93.0 ^*
33.27 \
16.4
62.26 '
6.4
8
9-4 't
54.83 ^°
^e. » 21
95.1
33.20 7
42.4 •*
9
8
10
13
13
17
9
12
26.4
62.17
7.2
f\
51. II
'°-7 .,
5470
96.8
33.11
43.6 _
Nov. 5.3
62.07 '°
8.0
8
a
50.99 '"
54.55 1^
9^-^ lo
1 1
33.00
44.4 \
15.3
61.96 "
8.8
0
8
50.85 \\
13.0 •'
13.8 ^
14.4 ,
54.38 7
54.20 ^
99.2 '\
32.87 ^
44.9 ^
25.3
61.84 "
9.6
50.71 \\
99.7 ;
32.74 ,\
45.0 '
Dec. 5.2
61.72 '^
10.2
6
50.58 '3
54.01 '^
99.8 '
32.60 '4
44.8 \
tl
5
13
3
18
4
»4
5
15.2
61.61
10.7
50.45 ,,
14-7 ^
53.83
5^-^5 7
994 ^
32.46
44.3 _
25.2
61.52 9
61.44 *
II. I
4
50.33 ';
14-7 .
98.5 ,^
32.34 43.4 ^
12 12
32.22 1 42.2
35.2
11.3
>2
50.24 9
14-5 '
53.48 '7
97.2 '3
Sec (J, Tan 6
1.042 -0.2^
1. 156 -0.579
1-343 -K>.896
I.I 28 "»o.523
Mean Place
58-.875 2o".58 |
47'-444 20".09
52».i43 7o".i6
30-.382 i8".78
DV a, D« a
0.00 +0.0:
\
0.00 -1-0.04
-0.0 1 -0.06
0.00 -0.03
D^ c), D*. f)
+0.4 -0.3
■K).4 -0.3
+0.4 -0.3
+0.4 -0.3
f
£pb 18]
APPARENT PLACES OF STARS, 1912,
477
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
a Pegasi.
Mag. 2.6
66 Pegasi.
Mag. 4.7
0* Aqoarii.
Mag. 3.8
n Cephei.
Mag. 4.6
Date.
Right
Ascention.
Declli
tion I
la-
9
Right
Aacention.
Declina-
tion N.
Right
AicenaioD
Daelin*-
tionS.
Right
Aecention.
Declina-
tion N.
h m
e
h m
0 •
h m
0
t
h m
0 »
23 0
+ 1443
23 2
+ 855
23 4
-21 ,
38
23 4
+ 74 54
Jan. 1.2
21.44 ^
52.4
V w
33.18
33.10
33.03 ;
32.99 ^
58.7 „
s
44.53 8
44-45 g
44-39 ^
44-35 Z
74.1
^'•5^ ^0
55.0
II. 2
21. 1
31. 1
21.35 ;
21.28 '
21.24 ^
51.3
50.1
48.8
I I
12
57-8 1
56.8 '°
55.8 '^
74.0
73.8
73.3
I
2
5
8
9
60.89 ^
60.26 ^3
59.72 54
49-6 3
Feb. I O.I
21.22
0
47.6
12
12
32.97 J
54.9 ^
44-33 J
72.5
59.30 ^g
46-9 Z
^ 20.0
Mar. i.o
21.22
21.26 \
21.34 ^\
46.4
45.4
10
8
6
32.98
33.02 ^
54-1 ,
53.4 I
44-34 .
44-39 I
44-47 „
71.6
70.4
12
* A
59.02
58.89 ^3
44.0
'^I
40.9 ^,
II. o
44.6
33.09 J
52.9 5
69.0
14
16
18
19
5«-9' ,8
59.09 ^^
37-8 3^
2I.O
21.45
44.0
33.20 \
52.7 I
44-58
67.4
34-8 3°
30.9
21.60^5
18
43.7
3
I
33.34 ,^
''••^ I
44-73 \l
65.6
59-43 ^4
32.1 ^7
24
Apr. 9.9
21.78
90
43.8
A
33.52
53.0
44-92
63.7
/% V
61.22 7^
62.02 ^°
62.87 J
89
^9-7 „
19.9
29.9
May 9.8
19.8
22.00 '^
22.26 ^f
22.84 ^
32
44.2
44.9
46.0
47.4
4
7
II
14
17
33.74
33.99 ^^
34.27 'J
34.57 Z
53-7 ,„
54.7 ^
56° 6
57-6 Is
45-41 ^
45-70 »9
46.01 3'
33
61.6
59.5
57.3
55.1
21
21
22
22
22
27.7 ^°
26.2 '5
253 '
25.0 5
29.8
June 8.7
18.7
28.7
July 8.7
23.16
23.49 ^^
23.82 33
24.14 32
27
49.1
51. 1
53.2
55.5
57.8
20
21
23
23
24
3489
35-21 3a
35.53 \.
36.15 l^
59-4 ,„
61.3 '9
63.4 "
65.6 "
67.9 "'
22
46-34 ,^
46.68 34
47.02 34
47-36 34
47-68 3^
30
52.9
50.9
49.0
47.4
46.0
20
19
16
14
12
^3.76 ^^
64.65 ll
65.52 \l
66.35 ll
^7-^8
25.3 g
26.1 *
29-4 ,:
3'-« 2I
18.6
28.6
Aug. 7.6
17.6
27-5
24.71
24.95 ^^
25.16
25.33 ;
25.46 '3
60.2
62.5
64.8
66.9
68.9
23
23
21
20
17
36.42 ,^
36.67 '^
36.88 "
37.05 w
37.18 »3
9
70.1
72.2
70.0
77.7 '7
14
47-98
48-25 \\
48.48 '3
48.67 ''
48.82 '5
11
44.8
44.0
43.5
43.3
43.4
8
5
2
I
4
67.79 ^«
68.37 58
68.84 "^^
69.18 34
69.40 "
9
34-6
37-8 3»
41.2 34
44-95^
Sept. 6.5
16.5
26.4
Oct. 6.4
16.4
25.55 .
25.59 ;
25.60
25.57 I
25.52 I
70.6
72.1
73.4
74.5
75.3
15
13
II
8
5
3727
37.32 5
37-33 '
37.31 ^
37.26 1
79-» „
80.3 •=*
81.3 '°
82.0 7
82.5 I
4893 ,
48.99 \
49.00
48-97 \
48.92 5
43.8
44.4
45-2
46.1
47.1
6
8
9
10
II
69.49 ,
69.46 ^2
69.30 \l
69.02 ^^
68.63 ^^
49
5'-5 ,8
56-3 S
60.0 37
63.6 36
66.933
29
26.4
Nov. 5.3
15.3
25.3
Dec. 5.3
^5-44 ,^
25.34 °
25.23 "
25.12
25.01 "
75.8
76.1
76.2
76.0
75.6
3
I
2
4
6
37.18
37-09 '
36.99 °
36.88 "
82.8
82.9 '
82.8 '
82.5 3
82.0 5
6
48.84 „
48-73
48.62 "
48-50 "
48-38 \\
48.2
49.3
50.3
51. 1
51.8
II
10
8
7
5
68.14 ^
67.56 5»
66.91 ^5
66.20 7'
65.46 7^
77
69.8
72.3 '^
74-3 !°
75.9 ^
76.8 9
.3
15.2
25.2
35.2
24.90
24.79
24.70 ^
75.0
74.1
73.1
0
10
36.67 ,„
36.57 '°
36.48 '
81.4 «
80.6 ®
79.7 ^
48.26
48.16 '°
48.06 "*
52.3
52.6
52.7
3
I
64.69
63.94 J^
63.21 73
77.1
76.8 3
76.0 *
Sec rf, Tan 6
1.034 +0.263
I.OI2 +0.157
1.076 -0.397
3.843 •♦3-7IO
Mean Place
22'.57i 53".74
34».238 61 ".92
45'.366 61 ".20
65«.738 4r'.86
D'^ a, D«a a
0.00 -0.02
0.00 -0.0 1
40.01 •K).03
-0.02 -0.24
D^ cJ, D« 6
+0.4
-0.3
+0.4
-0.2
+0.4
-0.2
1
+0.4
-0.2
[Eph 12]
478
APPAEENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
t GnUs.
69 Pesasi.
6 Cassiop. (Heis).
^ Aqnaxli.
Mean Solar
Mag. 4.1
Mag. 5.2
Mag. 5.6
Mag. 4.4
Date.
Right
Declina-
Right
Declina-
Right
Dedina-
Right
Declina-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
UonN.
Ascension.
tion S.
h m
e *
h m
0 >
h m
0 t
h m
• »
23 5
-45 43
23 7
+ 814
23 8
+ 5640
If
23 9
- 631
Jan. 1.2
s
22.14
44° ,„
s
1655 „
28.3
s
60.44 ^
67.3
s
45.02
33-0
1 1.2
22.01 ^
43.0 °
16.47 !
27.4 I
60.18 ^^
65-9 It
44.94 °
33-4 :
21. 1
21.90 "
41.7 \l
16.40 '
^^•5 ,0
59.95 "11
64.0 11
44.88 ^
33-8 \
31. 1
21.83 I
4°° 1
16.36 4
25.5 'I
59.76 9
61.8 "
44.84 t
34-1 f
Feb. I O.I
21.79 ^
38° 1°
X6.34 "
24.6 9
59.62 '4
26
59-2
44.82 ^
34-2
0
23
0
8
8
27
I
I
20.0
21.79 ,
35-7 „
16-34 _
23.8
^3-2 .
59.54 ^
5^-5 ,«
44.83 ,
34- » ,
Mar. i.o
21.83 ^
33-2 5
16.37 t
59.52
53.7 !
44.87 ^
33-9 .
II.O
21.92 ^
30-5 '!
16.44 ,^
22.8 4
59.57 ,^
5»-° ^I
44.94 _;
33-4 ,
2I.O
22.06 '^
22-24 l^
27.6 11
^^•54 !
22.6 *
59-69 "
-^•4 t
45.04 ,°
32.7 '
30.9
24.7 ''
16.68 '1
22.7 1"
59.89 '°
46.1 ="3
45.18 '4 .31.8 9
23
29
18
3
26
19
17 1 12
Apr. 9.9
22.47
21.8
16.86
23.0
^•'5 „
44-2 _
45-35 ,.
30.6
19.9
27
22.74 J,
I6.I ="8
26
'3-5 ,°
17.08 "
23.7 7
60.48 33
42-8 0
45.56 "
29.2 1^
29.9
23.06 ^^
17.32 11
24.8
60.87 ^'
41.8 '«
45-81 11
^7-6 8
May 9.8
23.41 11
^7-6^ 1
26.1 '3
61.3043
41.4 *
46.08 '7
25.8 •*
19.8
23.79 ]
II. I *4
17.90 ^°
27.6 '5
61.76 46
I
41.5
46.38 3°
23.9 '9
41
21
31
18
48
7
3»
20
29.8
24.20
90 .
18.21
29.4
62.24
42.2
46.69
21.9
June 8.7
24.62 ^^
7-^ !
18.53 ^'
31.4 '"
62.74 ^t
43.4 "
47.01 3*
19.8 "
18.7
25.04 ^^
5-7 0
18.86 33
33-5
63.22 48
45.1 '7
47.34 :,
17.8 '°
28.7
^5-^^ !o
4-7 6
'^'^ Tn
35-7
63.69 *^ 47.3 "
47-66 3^
15.8 ^?
July 8.7
25.86 ^^
4' !
19.48 3^
37-9 „
64.13 ** 49.9 '
47.96 3° 14.0 »
38
2
27
22
39; 29
29 17
18.6
26.24
3-9 ,
^9.75
40" ,.
64-52 _
528 „
48.25 12.3
28.6
26.57 ^^
4-» '
20.00 ^
42.2 ^«
64.86 34
56.0 3'
48.51 ^^ 10.8 '5
Aug. 7.6
26.86 ^9
4-8 '
22
20.22
44-^ 8
65.16 3°
59.4 ^t
48.73" 9.5 1^
17.6
27.10 ^^
27.28 ;^
5-9
20.39 y
*6° 6
65.39 'I
62.9 35
48.91 ' 8.5^°
27-5
7.2 '3
20.53 4
47-6 !
6555 '** : 66.4 35
49.05 I 77 !
12 ' 17
9
14
10
30
10 5
Sept. 6.5
27.40 8.9
20.62
20.68 ^
490 ,,
6565 ^
70.0
49.15 . 7.2
49.21 6.9 ^
16.5
27.46 I
10.8 •''
50.2 '^
6569 t'73-4^*
26.4
27.46
12.8 =■**
20.69 '
5X.» '
65.66 3 76.733
49.23 ^ 6.8 I
Oct. 6.4
27.41 5
14.8 '°
20.67 ^
51.8 7
65.58,^ 79.8 3'
49.22 ' 7.0 ;
16.4
27.32 9
16.8 ^°
20.63 "^
52.3 *
65.45 '1 1 82.6 ^«
49.18 ^ 7.3 ^
14
19
7
2
18
24
7 4
26.4
27.18
20.3 ^'^
20.56
52.5 ,
65.27
®50 ,„
49.11
7-7 ,
Nov. 5.3
27.01 *^
20.47 I
52.6 '
65.06 "
870 '!
49.02 9
^•^ i
15.3
26.83 =21.6 '^
20.37 ^
52.4 \
64.81 ^5
88.6 '^
48.92 ^
8.8 ^
25.3
26.64 ' . 22.6 '°
26.44 ^° 23.2
20.26 "
52.1 3
64.54 11
89.7 "
48.82 '°
9-5 I
Dec. 5.3
^^•^5 "
51.6 5
64.26 ^®
90.2 ^
48.71 "
10.2 i
»9
I
10
6
29
0
10
6
15.2
26.25 „
23.3 _
20.05 ,^
51.0
50.2 J
49.4 ®
63.97 ,«
90.2
48.61
10.8
II.4
25.2
26.08 '7
25.92 '^
23.0 ^
22.4
19.95 '"
63.69 '! 89.7 ,^
48.52 I
35.2
19.86 9
63.42 ^7 88.6 "
48.43 ^
1 1.9 ^
Sec <5, Tan <5
1.432 -1.026
1. 010
+0.145
1.821 +1.521
1.006 -0.114
Mean Place
22V886 24".94
+0.01 +0.07
I7V58I 3i".55
62»,5a4 56".72
45".9i4 24".93
D'^ a, Dw a
0.00 -O.OI
-O.OI -0,10
0.00 K).OI
D,^ tJ, D« cJ
+0.4
-0.2 1
+0.4
-0.2 1
+0.4
-0,2 1
+0.4
-0.2
lEph I a]
APPARENT PLACES OF STARS, 1912. 479
FOR THE UPPER TRANSIT AT WASHINGTON.
^ AqnarU.
>^ TuoansD.
X Pisoliuii.
y 8<mlptorl8.
Mean Solar
Mag. 4.5
Mag. 4.1
Mag. 3.8
Mag. 4.5
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tions.
Aacenaion.
tion S.
Ascension.
tion N.
Aacenaion.
tion S.
h m
e »
h m
0
h m
0 i
h m
0 »
23 II
-9 33
If
23 12
-5842
IP
23 12
+ 247
23 14
-33 0
It
Jan. 1.2
■
16.07 „
15-99 I
70.9 ^
17.32 „
88.6
a
35.23 g
35-^5 I
59-9 a
59.1 !
s
3-74 ,0
57-7 ^
II. 2
71.3 :
17.09 ^3
^^-^^ *
3.64 'I
57-3 ,
21. 1
15.93 I
71.6 3
16.90 '9
85.3 '
35.09 I
58.4 I
3-55 I
3.49 ,
56.6 7
•. 31. 1
15.89 t
7^-7 \
16.76 *;J 83.1 "
35.04 :
577 I
55-5 '
Peb.io.i
15.87 \
71.6 '
16.67 ''80.5="*
35.02
57.1 t
3.46 3
54-2 11
I
3
4! 29
0
s
0
16
20.I
15.88
71-4 .
16.63 1 77-^
35.02
56.6 ,
3.46
50-8
Max. i.o
15.92 *
70.9 5
70.3 ^
16.65 I
74.5 3
35.06 ^
56.3 3
3.49 ;
II.O
15-99 ,^
16.73 ,1
7'-3 '!
35-12 ^^
56.2 '
3-56 ,1
48.7 "
2I.O
16.09 °
69.4 '
16.88 '5
67.9 ^;^
35.22 ^
56.4 I
3.68 ''
464 'i
30.9
16.23 \i
68.2 "
17.09 "
64.5 f
35.36 ^4
56.8 4
3-«3 ]i
44°'!
18
13
27
33
17
6
19
24
Apr. 9.9
^^•^^ ,T
^^•9 ,6
17-36 ,,
61.2
35-53 „
57-4 ,„
4.02
4'-6„
19.9
16.62 "
65-3 J
17-69 ,1
58-0 11
35-74 !'
584 !
4-25 '^
39-^ 'fi
29.9
16.86 11
63.6 7
18.07 ^
550 ^c
35-98 »4
59.6 "
4-52 !!
365 ll
May 9.8
^7^4 ''
^'•7 1
18.51 *4
52-2 ;
36.26 'f
61.1 '5
4.82 3°
34-0 !
19.8
17-44 ^,
59.7 '°
18.98 47
49.7 '^
36-55 '9
62.8 '7
5.15 „
3»-6 It
31
20
50
21
31
»9
35
22
29.8
'7-75 ,,
57-7 „
19-48
47.6 „
36.86
647 ,„
5-50 „
294 ,„
June 8.8
18.08 53
55.6 *'
20.01 '3
45.9 '^
37.18 32
66.7 '°
5-87 "
27-4 ^t
18.7
18.41 33
53-6 Z
20.54 "
44.7"
37.51 l^
68.8 "
6-24 11
^5-6 !
28.7
18.73 \\
51.6 0
21.07 *•'
43-9
37.83 ^'
71.0"
6.60 36
24-2 '4
July 8.7
19.04 3'
29
«•»;'
21.57 ;^
43.6 I
38.14 ^'
73-» "
20
M5 «
23-1 8
18.6
^^•33 ,,
48.2
22.04 . .
43-9 ,
3^42 ^^
75.1
7.28
22.3
28.6
20
46.9 ^
22.47 ^3
44-6.1
38.67 11
77.0 1'
7.58 11
22.0 3
Aug. 7.6
19.81 "
45.7 "
22.84 37
45-8
38.89 "
78.7 \l
7-84 ^^
22.0 "
17.6
20.00 *^
44.8 I
23.^5 f '
47-3 11
39.08 9
80.2 '5
8.06 "
22-3 ^
27.5
20.14 \^
44-2 ^
23.38 '3
49.2 '9
39.22 '^
81.5 '3
8.22 '^
23.0 7
II
3
15
23
10
II
12
10
Sept. 6.5
20.25 g
20.31
43.9 ,
23.53 ^
5*-5 „
39.32
39.38 ^
82.6
8-34 ,
24.0
16.5
43.8
23.60 '
53-9 !t
83.5 '
8.41 I
^5-3 i
26.5
20.33 \
43.9 '
23.60 ^
56-4 !
39.41 ;
84.1 *
8-43 I
26.7 4
Oct. 6.4
20.32
44.2 3
23.52 ^^
58.8 ^4
39.40 '
84.5 t
8.41 ^
8.35 ^
28.2 '5
29.8
16.4
20.28 4
44.7 \
23.38 l^
61.2 =^4
39.36 4
84.7 '
7
5
20
21
6
0
9
15
26.4
20.21
45-2
23-18
^3-3 _
39.30
84.7 ,
8.26
31.3 ,,
Nov. 5.3
20.13
45.9 ;
22.93 :i
^5-2 !
39.22
845 '
8.14 '^
32.7 t
153
20.03 '"^
46.6 7
22.65 '*
66.6 '^
39.12 '°
84.2 2
8.01 *3
34.0 '3
25.3
19.92 \\
47.3 ^
22-35 ^°
67.6 '^
39.02 '°
837 ^
7-87 ;4
35.0 '^
Dec. 5.3
19.81 "
48.0 7
22.05 3°
68.1 5
38.91 "
83.2 5
7-72 ^
35.8 ®
10
6
30
0
10
6
H
4
15.2
19.71
48.6
2* -75 ,„
68.1
38.81
82.6
7.58 „
36.2
25.2
19.62 ^
49.1 ^
21.47 l\
67.6 5
38.72 9
81.9 I
7.45 3
36.3 I
35.2
19.53 ^
49.6 5
21.22 ^
66.5 "
38.63 9
81.2 7
7.33 "
36.1 ^
Sec <f. Tan 6
1. 014 -0.168
1.926 -1.646
i.cx)i 40.049
1. 192 -0.649
Mean Place
i6».942 61 ".94
I7«.952 67". 14
36M84 64".74
4».459 41 "79
Xy^ a, Dm a
0.00 40.0I
-K>.OI +0.1 1
0.00 0.00
0.00 40.04
D,^ 6, Dm ^
•fo.4
-0.2 1
40.4
-0.2 1
40.4
-0.2 1
40.4
-0.2
[Eph la]
480 APPARENT PLACES OF STARS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 1.2
II. 2
21. 1
311
Feb. 10. 1
20.1
Mar. i.o
ii.o
21.0
30.9
Apr. 9.9
19.9
29.9
May 9.8
19.8
29.8
June 8.8
18.7
28.7
July 8.7
18.6
28.6
Aug. 7.6
17.6
27.5
Sept. 6.5
16.5
26.5
Oct. 6.4
16.4
26.4
Nov. 5.3
15-3
25-3
Dec. 5.3
15.2
25.2
35-2
Sec rf, Tan c5
Mean Place
D'^ a, Dw a
o Cephei.
Mag. 4.9
Right
Ascension.
h m
23 14
57.59
57.15
56.74
56.40
56.13
55.94
55.85
55.87
55.99
56.22
56.55
56.97
57.47
58.03
58.64
59.28
59-93
60.57
61.19
61.76
62.28
62.73
63.11
63.40
63.60
63.72
63.75
63.69
63.55
63.34
63.05
62.71
62.31
61.87
61.41
60.93
60.46
60.00
44
41
34
27
19
9
2
12
23
33
42
50
56
61
64
65
64
62
57
52
45
38
29
20
12
3
6
14
21
29
34
40
44
46
48
47
46
Declina-
tion N.
+ 6737
60.5
59-2
57.5
55.3
52.7
49.8
46.9
43.9
41.0
38.4
13
17
22
26
29
29
30
29
26
23
19
36.1
34.2
32.8 ^4
32.0
31.7 ?
32.0
32.9
34.4
36.3
38.7
41.5
44.7
48.1
51.7
55.4
9
15
19
24
28
32
34
36
37
37
59.1
62.8 37
66.4 36
69.8 34
^^•^ 28
75.8
78.2
80.2
81.7
82.6
82.9
82.6
81.7
24
20
15
9
3
3
9
2.628 -('2.430
6oV4i3 47".67
-0.0 1
M>,4
K16
».2
T Pegasi.
Mag. 4.6
Rigbt
Ascension.
h
23
s
5.61
5.50
5.41
5.34
5.29
5.28
5.29
5.34
5.44
5.58
m
16
IX
9
7
5
I
I
5
10
14
17
22
5.75
5.97
6.22 ^5
6.51 ^^
6.82 3^
33
7.15
7.48 33
7.82 34
8.1533
8.47
8.76
9.02
9.25
9.43
9.58
9.68
9.74
9.76
9.74
9.69
9.62
9.53
9.42
9.30
9.18
9.06
8.94
8.83
32
29
26
23
18
15
10
6
2
2
5
7
9
XX
X2
12
X2
X2
II
Declina-
tion N.
+ 23 15
32.5
31.3
30.0
28.5
27.0
25.4
24.0
22.7
21.6
20.8
20.4
20.3
20.7
21.4
22.5
23.9
25.7
27.7
30.0
32.4
35.0
37.6
40.1
42.6
45.0
47.2
49.2
51.0
52.6
53.9
54.9
55.6
56.0
56.1
55.9
55.4
54.7
53-7
1!2
13
15
15
16
14
13
XI
8
4
I
4
7
II
14
18
20
23
24
26
26
25
25
24
22
20
18
16
13
10
7
4
X
2
5
7
10
1 .089 .K>.43o
i6".757 3o".50
0.00 -0.03
•fo.4 -0.2
[Epb xa]
i^ Aqnazii.
Mag. 4.2
Right
Aicensioa
h
23
m
18
20.24
20.15
20.08
20.03
20.00
20.00
20.03
20.09
20.19
20.33
20.50
20.71
20.96
21.24
21.54
9
7
5
3
o
3
6
10
14
17
21
25
28
30
32
21.86
22.20
22.54
22.88 34
32
34
34
23.20
23.50
23.78
24.02
24.22
24.38
24.50
24.57
24.60
24.59
24.54
24.47
24.38
24.27
24.16
24.04
23.93
23.82
23.72
30
28
24
20
16
12
7
3
I
5
7
9
II
II
12
XX
II
xo
Declina-
tion S.
-2034
64.5
64.6
64.4
64.0
63.3
62.4
61.3
60.0
58.4
56.6
54.7
52.7
50.5
48.3
46.0
43.9
41.8
39.8
38.1
36.6
35.3
34.4
33.8
33.5
33.5
33.8
34.3
35.0
36.0
37'0
38.1
39.1
40.1
41.0
41.8
42.4
42.8
43.0
X
2
4
7
9
II
13
16
18
19
20
22
22
23
21
21
20
17
15
13
9
6
3
o
3
5
7
10
10
IX
xo
XO
9
8
6
4
2
1.068 -0.375
20».996 52 ".a I
0.00
•K).4
+0.02
-0.2
4 Cassiopeifle.
Mag. 5.2
Right
Ascension.
h m
23 20
s
53.09
52.75
52.44
52.18
51.97
51.83
51.76
51.78
51.88
52.06
34
31
26
21
X4
7
2
10
18
27
52.33 „
52.68 35
5309 H
53.55 4
54.06 5 »
54
54.60
55.14^^
55.68 54
56.21 33
56.70 49
45
57.55 ;^
57.88 33
58.15 ^^
58.35 '"^
58.47 ,
58.52 I
58.50 I
58.41 9
58.26 '5
20
58.06
57.81 II
57-52 ,'
57.19,,
56.85 It
56.49 ,-
56.13 ^^
5578 "
DecUnA-
tion N.
+ 6147
70.6
69.4
67.7
65.5
63.0
60.3
57.4
54.6
51.9
49-4
47.2
45.4
44.2
43.5
43-3
43.7
44.7
46.2
48.1
50.5
12
17
22
25
27
29
28
27
25
22
18
12
7
2
4
10
15
19
24
28
31
53.3
56.4^
59.8^
63.3 II
66.936
37
^''•^ 36
74.2 3°
77.534
80.933
83.9 ^°
27
86.6
88.9 ^3
90.8 "9
92.1 '3
92.9
93.2
92.9
92.0
8
3
3
9
2.1x6 -^.866
55'.34I 58^.46
-0.01
.K>.4
».I3
K2
APPARENT PLACES OF STARS, 1912,
481
FOR THE UPPER TRANSIT AT WASHINGTON.
V Pegasl.
/c Pigoliuii.
0 Pisoiiuii.
70 Pegasl.
Mean Solar
Mag. 4.6
Mag. 4.9
Mag. 4.4
Mag. 4.7
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Aacensicn.
tion N.
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion N.
h m
0 «
h m
e
/
h m
e
t
h m
0 *
23 20
+ 2255
23 22
+ 0,
§§
46
23 23
+ 5 53
ft
23 24
+ 12 16
Jan. 1.2
57.99 „
12.0
8
24.40
24.32 °
20.4
fm
s
29.29
40.5
8
8
8
8
41.20
28.6
II.2
57.88 "
• ^ *«. 1 1
lO.Q
19.7
7
6
6
29.20 ^
39.7
4»." '
41.03 °
40.97 °
27.6 '•'
21. 1
57.79 ;
57.72 ;
9.6 '3
24.25 I
24.19 °
I9.I
29.13 \
29.07
38.9
26.6 '°
311
8.2 •'^
18.5
38.1
256 \l
Feb. I O.I
57.67 I
6.7 '5
24.16 3
18.0
5
29.04 3
37.3
40.93 :
24-6 '°
2
15
0
4
I
6
2
10
20.I
57.65 ,
5* ,c
24.16
17.6
29.03
36.7
40.91
236
22.8 ^
Mar. i.o
57.66 \
3.7'^
24.18 ^
17.5
I
29.05 ^
36.3
4
40.93 .
II.O
57-71 5
^•5
24.23 5
17.5
0
29.10 ^
36.0
3
40.98 5
22.1 '
2I.O
57.80 9
0.6 *
4
24.32 9
17.8
3
29.19 I
35.9
I
41 07 '
21.7 *
30.9
57.93 ,5
24.45 ,^
18.3
5
8
29.31 ,,
36.1
2
5
4-9 :^
21.6 ^
I
Apr. 9.9
5^-^^ 00
0.2
24-61 ,^
19. 1
^^•^7 ^^
36.6
0
4^-35 ,„
21.7
19.9
5«-32 11
0.2 ^
24.81 ^^
20.1
10
29.67 ^°
37.4
8
4»-55 '!
22.1 4
29.9
58.57 11
58.85 ',;
0.5 ^
25.31 f
21.4
13
_ ^
29.90 ^3
38.5
II
4' -79 ,;
22.9 „
May 9.8
1.2 7
23.0
16
30.17 ^^
39.9
H
^
42.06 '7
24.0 '
19.8
59-^^ 11
25.60 *9
24.8
18
30.46 ^^^
41.5
16
42.35 ^'
25.4 !
32
14
31
19
31
18
31
17
29.8
59.48 ,^
3-7 ,a
25.91 _
26.7
30.77 „
43.3
42.66
27.t „
June 8.8
59.82 34
5-5!^
26.23 ^
28.7
20
31.093^
45.3
20
42.99 ^^
29.0 '9
18.7
60.16 34
7-5 n
26.55 11
30.8
21
31.41 t^
47.4
21
43.32 33
3'-^
28.7
60.49 33
9-^2
26.87 ^
32.9
21
31.73 ^^
49-5
21
4364 ^'
33-3 "
July 8.7
60.81 32
12.2 '*
27.18 3»
35-0
21
32.04 3*
51.7
22
43-95 ^
35.6 '3
29
25
29
20
28
21
29
23
18.6
61.10
^4-7 ,,
27.47 ^,
37.0
A
3^32 ^.
53.8
44.24 „,
37-9 _
28.6
61-37 11
^7=» !i
27.73 ^t
38,8
18
_ ^
32.58 ^^
55.8
20
44-50 \\
40' "
Aug. 7.6
61.60 '3
»9.8 ,'t
27.96 'I
40.4
16
32.81 ^3
57-7
19
44-73 ,i
42-2 "
17.6
61.79 ]l
"■^ I,
28.15 9
41.8
14
33.00 1^
59.4
17
44.92 9
44-2 :
27.5
61.94 ^
»4-6 ^^
28.30 '5
43.0
12
33.15 „
60.9
15
45.07 f
46-» «
II
23
II
10
II
13
II
10
Sept. 6.5
62.05
62.11 ^
26.8
28.41
44.0
33*26
62.2
^.^^
45.18
47-7 „
16.S
28.8=^
28.48 '
44.7
7
33.33 ;
63.2
lO
8
6
45-25 ;
49-1 4
26.5
62.14 ^
28.51 3
45.2
5
33.36 3
64.0
45.28 3
5°-3 "
Oct. 6.4
62.13 [
32.2 ^
28.51 I
45.5
3
33.36 ^
64.6
45-28 °
51-3 '°
16.4
62.09
^ 7
33-5 '^
10
28.48 3
6
45.6
I
I
33.33 ^
64.9
3
I
45-25 ^3
52.0 7
26.4
62.02
34.5 ,
28.42
45.5
33.28
33.20 "
65.0
45-20
45-" °
52-5 ,
Nov. 5.3
61.93 ,^
35-2 I
28.35 7
45.2
3
65.0
0
52.7 „
153
61.83 ^
35-6 *
28.26 9
44.8
4
33." ,;
64.8
2
45-03 ,^
52.7 ,
25.3
^^•71 "
35.8 I
28.16 '^
44.3
5
33.01 °
64.5
3
44-93 ,,
52.6 \
Dec. 5.3
61.59 "
12
35.6 1
28.06 '°
10
43.8
5
6
32.91 '°
10
64.0
5
6
44.82 "
II
52.2 4
15.2
61.47 ,^
35.1 ,
27.96
43.2
■■
3^-^' ,0
63.4
■■
44-7» ,„
51.6
25.2
61.35
34-4 ,;
27.86 ^^
42.5
7
Mm
32.71 '^
62.7
7
mm
44.61 ">
50.9 7
50.1
35.2
61.24 "
33.4 "*
27.77 9
41.8
7
32.62 ^
62.0
7
44.51 »«>
Sec <5, Tan 6
1.086 'K>.423
1.000 40.014 1
1.005 +0.103 1
1.024 40.218
Mean Place
59". 1 14 9".99
25*.283 25".64
i
30«.2o8 43".9«
\
42*.i78 29".87
DVa,D»a
0.00 -0.03
0.00 0.0c
)
0.00 -0.01
0.00 -0.0 1
D^d.^^d
+0.4 -a 2
40.4 -0.2
40.4 -0.2
40.4 -0.2
1Q17
I 31
[
Sph xa]
482
APPARENT PLACES OF STARS, 1912.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 1.2
II.2
21. 1
3I-I
Feb. ID. I
20.I
Mar. i.o
II.O
2I.O
31.0
Apr. 9.9
19.9
29.9
May 9.8
19.8
29.8
June 8.8
18.7
28.7
July 8.7
18.7
28.6
Aug. 7.6
17.6
27.5
Sept. 6.5
16.5
26.5
Oct. 6.4
16.4
26.4
Nov. 5.4
15-3
253
Dec. 5.3
15.2
25.2
35.2
P Soulptoris.
Mag. 4.5
Right
Ascension.
h m
23 28
8
4.75
4.62
4.51
4.43
4.38
4.36
4-37
4.42
4.52
4.66
4.84
5.06
5-33
5-63
5.97
6.33
6.71
7.10
7.48
7.85
8.20
8.52
8.81 ^9
9.05 '^
9.24
9.38
9.47
9.51
9.50
9-44
9.35
9.23
9.09
8.93
8.77
8.61
8.46
8.32
13
II
8
5
2
I
5
10
14
18
22
27
30
34
36
38
39
38
37
35
32
19
14
9
4
I
6
9
12
14
16
16
16
15
14
Declina-
tions.
-3817
95.8
95-3
94.4
93-2
91.6
5
9
12
16
19
21
23
89.7
87.6
85.3
82.8 ^5
80.1 ^7
27
74.6 ^f
71.8 ^»
69.1 '7
66.6 ^5
24
64.2
62.1
60.3
58.9
57.8
21
18
14
II
7
57.1
56.9
57.1
57.6
58.5
59.8
61.3
63.0
64.8
66.6
68.4
70.1
71.5
72.6
73.5
74.0
74.1
73.8
2
2
5
9
13
5
7
8
8
8
7
4
I
9
5
I
3
73 Pegasi (mean).
Mag. 5.2
Right
Ascension.
h m
23 29
8
33.89
33.76
33.64
33.55
33.48
33.44
33.43
33.47
33.55
33.67
3384
34.06
34.32
34.61
34.93
13
12
9
7
4
4
8
12
17
22
26
29
32
34
35.27
35.62 35
35.98 36
36.33 ^^
36.66 33
31
36.97
37.25
37.49
37.70
37.86
28
24
21
16
37.98
38.05
38.08
38.08
38.04
37.97
37.88
37.77
37.64
37.50
37.36
37.22
37.09
12
7
3
o
4
7
9
II
13
14
14
14
13
Declina-
tion N.
+ 3050
27-5
26.3 "
Iti -
19.7
18
16
17.9
16.3
14.8 ^5
13.6 "
12.7
12.2
12. 1
12.5
13-2
14.4
16.0
17.9
20.1
22.5
5
I
4
7
12
16
19
22
24
26
25.1
30.6 ^^
33.4
36.1
38.7
41. 1
43.3
45-3
47.0
48.4
49.6
50.4
50.8
50.9
50.6
49.9
49.0
28
27
26
24
22
20
17
14
12
8
4
I
3
7
9
A. Andromedas.
Mag. 4.0
Right
Ascension.
h m
23 33
s
3.71
3.52
3.34
3.19
3.07
19
18
15
12
8
2.99
2.96
2.98
3.06
3.19
3
2
8
13
19
3.38
3.63
4.26 34
4.63 ^'
25
29
5.02
5.43
5.84
6.24
6.63
39
41
41
40
39
35
32
28
6.98
7.30
7.58
7.81 ^^
7.99 "
8.12
8.20
8.23
8.22
8.16
8.06
7.93
7.78
7.60
7.41
7.21
7.01
6.81
18
13
8
3
I
6
10
13
15
18
19
20
20
20
Declina-
tion N.
+ 4558
62.1
61.0
59.4
57.5
55.3
53.0
50.6
48.3
46.1
44.1
42.5
41.3
40.5
40.2
40.4
41. 1
42.3
43.9
45.9
48.3
II
16
19
22
23
24
23
22
20
16
12
8
3
2
7
12
16
20
24
27
29
31
51.0
53.9
60.2 32
63.4 II
32
66.6
69.7 II
72.6 ^9
75.3 II
79.9
81.7
83.1
84.1
84.6
84.6
84.2
83.3
21
18
14
10
5
o
4
9
t AndromedK.
Mag. 4.3
Right
Ascension.
h m
23 33
s
47.60
47.42
47.26
47.12 [^
47.02
18
16
46.95
46.92
46.94
47.02
47.15
47.33
47.56
47.84
48.17
48.53
10
7
3
2
8
13
18
23
28
33
36
38
48.91
49.30 ^:
49.70
50.08
50.45
50.80
51. II
51.38
51.60
51.78
51.91
51.99
52.02
52.01
51.96
40
38
37
35
31
27
22
18
13
8
3
I
5
9
12
51.87
5'-75 _ .
51.61 '^
51.45
5x27
16
18
18
51.09
50.91
50.73
18
18
Declina-
tion N.
+ 4246
59.6
58.4
56.8
55.0
52.9
50.7
48.4
46.2
44.2
42.4
40.9
39.8
39.2
39.1
39.4
40.2
41.4
43.1
45.2
47.6
50.3
53.2
56.2
59.3
62.5
65.6
68.5
71.3
73.9
76.2
78.3
79.9
81.2
82.1
82.5
82.5
82.0
81. 1
12
16
18
21
22
23
22
20
18
15
II
6
I
3
8
12
17
21
24
27
29
30
31
32
31
29
28
26
23
21
16
13
9
4
o
5
9
Sec S, Tan 6
Mean Place
1.274 -0.790
I5*.332 78".7i
1. 1 65 •K>.597
35«.074 22".56
1.440 +1.035
I5«.i88 52".76
1 .363 +0.926
48'.994 50" .99
0.00
40.4
-K>.05
-0.1
0.00 -0.04
-K).4 -0.1
[Eph laj
0.00
40.4
-0.07
-ai
0.00
40.4
-0.06
-0.1
APPARENT PLACES OF STARS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON,
483
Mean Solmr
Dftte.
I Pisoliim.
Mag. 4.3
Right
Atcenalon.
Jan. 1.2
11.2
21.2
Feb. 10. 1
20.1
Mar. i.o
II.O
21.0
310
Apr. 9.9
19.9
29.9
May 9.8
19.8
29.8
June 8.8
18.7
28.7
July 8.7
18.7
28.6
Aug. 7.6
17.6
27.5
Sept. 6.5
16.5
26.5
Oct. 6.4
16.4
26.4
Nov. 5.4
15-3
25-3
Dec. 5.3
15*2
25.2
35.2
h m
23 35
8
24-55
24.46
24.38
24.32
24.28
9
8
6
4
2
24.26
24.27
24-31
24.39
2450
24.65
24.84
25.07
25.33
25.61
4
8
XI
15
19
23
26
28
31
25.92
26.24
26.56
26.88 3^
31
32
32
Mean Place
IVf a. Dm a
27.19
27.49
27.76
27.99
28.20
28.36
28.48
28.56
28.61
28.62
28.60
28.56
28.49
28.41
28.32
28.22
28.12
28.02
27.93
30
27
23
21
16
12
8
5
I
7
8
9
10
10
10
Declina-
tion N.
+ 5 8
y Cephel.
Mag. 3.4
Right
Ascension.
54.0
53.2
52.4
51.7
51.0
50.4
50.0
49.8
49.8
50.0
8
8
7
7
6
4
2
o
2
5
8
II
50.5
51.3
53.8 It
55.4
16
18
57.2
59.2
61.3
63.4
65.5
67.5
69.5
71.4
73.0
74.5
75.7
76.7
77.5
78.0
78.3
78.4
78.3
78.1
77-7
77.2
76.6
75.9
75.2
20
21
21
21
20
20
16
12
10
8
5
3
I
I
2
4
5
6
7
7
h m
23 35
39.47
38.60
37.79
37.07
36.47
36.02
35.73
35.62
35.70
35.96
36.39
36.99
37.73
38.59
39.53
87
81
72
60
45
29
II
8
26
43
60
74
86
94
lOI
Declina-
tion N.
-^77 8
^''^7 III
42.60 '°3
43.60 ^^
^•55 II
45.41
46.18
46.84
47.36
47.75
1.004 -K>.090
25'.403 57".30
0.00
•K>.4
-0.0 1
-0.1
77
66
52
39
25
10
4
19
33
45
57
68
76
83
88
43.37 ^^
^^•^7 88
41.59 n
48.00
48.10
48.06
47.87
47.54
47.09
46.52
45.84
45.08
44.25
43.5
42.7
41.3
39.4
37.0
34.3
31.4
28.3
25.3
22.4
19.8
17.5
15.7
14.4
13.6
13.4
13.8
14.8
16.3
18.3
20.8
23.7
26.9
30.4
34.1
8
14
19
24
27
29
31
30
29
26
23
18
13
8
4
10
15
20
25
29
32
35
37
3«
^7-9 ,„
41.8 3J
45.6 ll
49.3 ^'
52.8 35
33
56.1
59.0 ^9
61.5 ^5
63.4 '^
64.8 ^^
9
65.7 ,
65.9 I
65.5 *
K AndromedaB.
Mag. 4.3
Right
Ascension.
4-495 +4.382
43».667 28".37
-0.0 1 -0.29
+0.4 -0.1
[Bph zs]
h m
23 36
s
2.79
2.61
2.44
2.30
2.19
2. II
2.08
2.10
2.17
2.30
2.48
2.72
3.00
3.32
3.68
4.07
4.47
4.87
5.26
5.64
5.99
6.31
6.58
6.81
6.99
7.12
7.21
7.24
7.23
7.18
7.10
6.98
6.83
6.67
6.49
6.30
6.II
5.93
18
17
14
II
8
3
2
7
13
18
24
28
32
36
39
40
40
39
38
35
32
27
23
18
13
9
3
I
5
8
12
15
16
18
19
19
18
Declina-
tion N.
+ 4350
56.5
55-4
53.9
52.0
49.9
47.7
45.4
43.1
41.0
39.1
37.6
36.5
35.8
35.6
35.9
36.6
37.8
39-5
41.6
44.0
II
15
19
21
22
23
23
21
19
15
II
7
2
3
7
12
17
21
24
26
ao^ AqnarU.
• Mag. 4.6
Right
Aurenwon.
29
46.6
49.5
52.6 3'
55.7 ''
58.9 ^'
31
62.0
67.8 ^®
70.5 "^^
72.8 ^3
21
74.9
76.6
78.0
78.9
79.4
79.4
79.0
78.1
17
14
9
5
o
4
9
1.386 40.961
4".i98 47".57
0.00
-0.06
-0.1
h
23
s
8.91
8.82
8.74
8.67
8.63
8.61
8.62
8.66
8.73
8.85
9.00
9.19
9.41
9.67
9.96
m
38
9
8
7
4
2
I
4
7
12
15
19
22
26
29
31
32
34
1.89
2.17
0.27
0.59
0.93
1.26 33
1.58 3^
31
28
2.42 ^5
2.63 ''
2.80 '7
14
2.94
3.03
3.08
309
3.07
3.02
2.95
2.86
2.76
2.65
2.54
2.44
2.34
7
9
10
II
II
10
10
Declina-
tion S.
-15 I
633
63.6
63.7
63.6
63.2
62.7
61.9
60.9
59.6
58.2
56.5
54.6
52.6
50.5
48.3
46.1
44.0
41.9
39.9
38.1
36.6
35.4
34.4
33.8
33.4
33.4
33.6
34.0
34.6
35.4
36.3
37.3
38.2
39.1
39.9
40.6
41. 1
41.5
3
I
I
4
5
8
10
13
14
17
19
20
21
22
22
21
21
20
18
15
12
10
6
4
o
2
4
6
8
9
to
9
9
8
7
5
4
1.035 -0.269
9'.579 53".23
0.00
+0.4
-K>.02
-0.1
484
APPARENT PLACES OF STARS, 1912,
FOR THE UPPER TRANSIT AT WASHINGTON.
i^ Aquarii.
^' Andromedas.
41 H. Ceplld.
^ Scnlptmis.
Mean Solar
Mag. 5.3
Mag. 5.1
Mag. 5.0
Mag. 4.6
Date.
Right
Declina-
RiRht
Declina-
Right
Declina-
Right
Declina-
Atcension.
tions.
Ascension.
tion N.
AKOIBiOll.
tion N.
tions.
h m
e
h m
• *
h m
e *
h m
• *
23 39
-1845
23 41
+ 45 55
If
23 43
+6718
if
23 44
-2836
mm
Jan. 1.2
s
37.69 ,„
67.0
38*73 ,„
63-5 „
39.28
78.3 «
77.5 ,°
s
20.07 „
76-4 .
II.2
37-59 '°
67.1 '
38.54 \l
62.4
38.83 ^5
1996 "
76-3 '
21.2
37.51 !
67.1 I
38.36 !
38.20 ^
60.9 5
3841 tl
76.0 '5
19.86 •«
75-9 t
311
37-44 I
66.8 3
59-^ '!
38.03 ^!
74.1 •'
19.78 I
75-1 *
Feb. I O.I
37.40 I
66.3 I
38.07 '3
57-0 ^,
22
37.71 ^
24
7-8 :^
19.72
74.1 '''
13
20.I
37.38
*^5.5 ,„
37.98
54-8 „
37.47 ,.
^•*,n
19.69
72.8
Mar. i.o
37-38 °
64.5 °
37.94 ,
52.4 t
37.32 '5
^•3''
19.69
69-5 '*
II.O
37.42 Z
3750 °
63-3
37-95 '
38.01 ;
50.1 '3
37.27 5
^3-4''
19.72 3
2I.O
61.8 '5
47-9 "
37.32 *
^•5''
19.79 ,;
*7-4«
31 o
37.61
60.1 '7
38.13 "
45.9 ,-
3748 '*
57-8 11
19.90 "
65.2 "
»5
»9
18
10
»^ 26
94
16
23
Apr. 9.9
3776
582 ,„
38.31 ,
44-3 ,
57.74 „
55.4 ,,
20.06
^2.9 .,,
19.9
37-95 11
56.2 ^^
38.55 It
43.0 '3
38.11 37
21
53.3 ,g
5^-7 !,
20.25 ^^
^•♦^6
29.9
38-^7 "
54-^ «
38.83 ^;
42.2 °
38.56 *l
20.48 ^3
57.8 ll
May 9.9
38-43 f
5^-8 !^
39.16 33
41.8 4
39.08 5^
50.5
20.75 ^^
55-3 :^
19.8
38.72 f
49-5 11
39-53 11
42.0 ^
39-66 ll
50.0 5
^^•^5 ,°
5^-8 !f
3J
22
39
7
62
I
32
24
29.8
39-03 „
47-3 „
3992 ^^
42-7 ,,
40.28
40.93 ll
49.9 g
50.5 ,,
21.37 „
50.4 „
June 8.8
39.36 «
45-1 "
40.33 ^
43.8
21.72 ^^
48.2 "
18.7
39.70 34
43.0 "
40.74 ^'
45-3 '^
4' 58 ^^
5»6 '
22.07 ^^
46.1 "
28.7
40.04 ;;
41.1 ]l
41.15^'
47-3 11
42.22 ^4
53-2 '«
22.43 11
44.4 7
July 8.7
40-37 ^^
3»
39.4 '^
14
41.545^
49-7 :*
*^-«' 36
55.3"
25
22.77 34
33
42.9 If
18.7
40.68
38.0
41 90
52-3 ,„
43.38
57-8 ,„
23.10
41.8
28.6
40.96 ll
36.9 "
42.23 33
55-2 !^
43.89 ^
60.7*9
^1
23.41 3»
41.1 7
Aug. 7.6
4t.22 '^
36.1 »
42.52 ^9
58.2 3«
44.33*:
64.0 33
23.68 ^7
40-7 *
17.6
41.43 ,„
35.7 *
42.76 ^4
61.43*
S ^K ^k
44-70 37
44-98'*
67.4 11
71.0 3*
23.92 /^
40.7 ^
27.6
41.61 **
35-6 '
42.95 :
^•6«
24.11 ^
41.0 3
14
I
15
3a
19
37
15
7
Sept. 6.5
41.7s „
35-7 ,
43.10
^7-8 „
45-17 „
74.7 „
24.26
4^-7 ,„
16.5
41.84 '
36.1 *
4319 '
70-9 :'
45-28 "
78-4 11
82.0 3«
24-36 '^
42-7 ,,
26.5
41.89 I
36.7 ^
43.23 I
73-8 »9
45-31 I
2441 ;
43-9 "
Oct. 6.4
41-90 ,
37-6 I
4323 ^
76.5 11
45-26 5
85.5 ^^
24-42 ,
45-3 ♦
16.4
41.88 '
386 °
43.18 5
79-0 '^
«•" 't
88.8 33
24.40 ;
46.8 '5
5
10
9
33
21
31
6
»s
26.4
41.83 g
39.6 ^^
4309 „
81.2
44.91
91.9,,
24-34 .
24.26 »
48.3 ,^
Nov. 5.4
41.75 °
^^•7 "
-♦^•97 "
83.1 1'
44.64 ,;
94.6 11
49-7 t
153
41.66 9
^'•7 ^
42.83 '*
846 5
44-30 34
9«-8"
24-15 •
51-0 f
25-3
41.56 '°
42.7'^
42.66*7
85.6 '«
43.92 38
98.6 »
24-03 "
s'-^* "
Dec. 5.3
4M5
43.6 ^
42.47 11
86.2 *
43.50 *
999'^
23-91 "
»^ « 10
53.2 ^
II
7
19
t
45
«3
7
15-3
41 34 , ,
44-3 ,
^•^® 0^
86.3 ,
43.05
100.5
23.78, 1 53.9 .
25.2
35-2
41.23 "
41.12 "
44.8 5
45.0
42.08 ^^
41.88^°
86.0 3
85.2 *
42.59 * 100.6 '
42.13 * lOO.I ^
23.65 '^
12
23.53
54.3 ;
54.4
Stci,TBn6
1.056 -0.540
1.438 +1.033
2.594 •»-2.393
1.139 -0.546
Mean Place
3«*-3H 55".73
4o'.i49 53"-72
4i*-725 63".96
20*.6oi 62".ax
jy^a^D^a
0.00 .KX02
0.00 -0.07
0.00 -0.16
0.00 'K)w04
D^d.D^a
.KX4
^i 1
404
-0.1 1
40.4
-ai 1
40.4
-OlI
[Bphn]
APPARENT PLACES OP STARS, 1912.
485
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 1.2
II. 2
21.2
Feb. I O.I
20.I
Mar. i.o
II.O
2I.O
310
Apr. 9.9
19.9
29.9
May 9.9
19,8
29.8
June 8.8
18.7
28.7
July 8.7
18.7
28.6
Aug. 7.6
17.6
27.6
Sept. 6.5
16.5
26.5
Oct. 6.4
16.4
26.4
Nov. 5.4
15-3
25.3
Dec. 5.3
153
25.2
35.2
y^ Octantts.
Mag. 5.1
Right
Aacenaion.
h
23
m
46
59.39
57.99
56.73
55.64
54.76
54.11
5370
53.54
53.63
53.97
140
126
109
88
65
41
16
9
34
59
82
104
123
54.56
55.38
56.42
57.65
59.06 '^'
154
60.60 ,,
62.26 '^^
63.98^7^
65.72 '7^
69.08
70.60 '52
71.97 '37
IIS
73.12 "5
74.03 %
74.66
74.99
75.01
74.73
74.15
73.30
72.20
70.90
69.46 ^^^
67.92 '5^
157
66.35
64.80 '55
63.32 '^®
33
2
28
58
85
110
130
Declina-
tion S.
-82 30
•f
51.7
50.0
47.7
17
23
45.0 11
41.8 3^
35
38.3
3^-^ ',8
30.8 38
26.8 ^°
39
22.9
19.I
15.5
12.2
9.2
6.5
38
36
33
30
27
22
4.3
2.6 '7
1.4"
0.8
0.8
1.3
2.4
4.0
6.0
8.5
II.2
I4.I
17.I
20.1
22.9
25.5
27.7
29.4
30.6
31. 1
31.0
30.3
29.0
II
16
20
25
27
29
30
30
28
26
22
17
12
5
I
7
13
^ Pegasl.
Mag. 5.2
Right
Aacenalon.
h m
23 47
8
59.63
59.52
59.42
59.33
59.27
5923
59.22
5924
5930
59.40
59.54
59.73
59-95
60.21
60.50
60.81
61.14
61.48
61.81
62.13
62.44
62.72
62.97
63.18
63.36
63.50
63.59
63.64
63.66
63.65
63.62
63.56
63.48
63.38
63.27
63.16
63.05
62.94
II
10
9
6
I
2
6
10
14
19
22
26
29
31
33
34
33
32
31
28
25
21
18
14
9
5
2
6
8
10
II
II
II
II
Declina-
tion N.
+ 1837
55.2
54.3
53.3
52.1
50.9
49.7
48.5
47.5
46.7
46.2
45.9
46.0
46.4
47.2
48.3
9
10
12
12
12
12
10
8
5
3
I
4
8
II
15
17
19
21
49.8
51.5
53.4
55-5 ,,
57.8 '3
24
60.2
62.6 ^^
64.9 '^
67.1
69.2
22
21
20
71.2
73.0
74.6
75.9
77.0
77.9
78.5
78.8
78.9
78.8
78.4
77.8
77.0
18
16
13
II
9
6
3
I
I
4
6
8
p CasslopeUs.
Mag. 4.8
Right
Aacenalon.
h m
23 49
57.08
56.79 ^^
56.52 II
56.28 ^^
56.08 ^°
15
55.93
55.84
55.81
55.86
55.98
56.18
56.45
56.78
57.17
57.61
9
3
5
12
20
27
33
39
44
47
48
58.08
58.56 ^^
59.06 50
59.55 ^l
60.02 ^'
44
60.46
60.86 ^"^
61.21 35
61.51 3<^
61.74 ""i
^ 18
61.92
62.03 "
62.08 5
62.07
62.01
61.90
61.74
61.53
61.30
61.04
60.76
60.18 ^9
I
6
II
16
21
23
26
28
29
Declina-
tion N.
+ 57 o
»t
48.1
47.2 ^
45.8 ^^
44.0
41.8
18
22
25
39.3
36.7
34.0
31.4
29.0
26
27
26
24
21
18
26.9
25.1
23.8 '3
22.9 ^
22.6
22.8
23.6
24.8
26.6
28.7
31.3
34-2
37.3
40.6
44.0
47.5
51.0
54.3
57.5
60.5
63.2
65.6
67.6
69.1
70.1
70.6
70.6
70.0
3
2
8
12
18
21
26
29
31
33
34
35
35
33
32
30
27
24
20
15
10
5
o
6
Cteoombridge 4168.
Mag. 6.6
Right
Aacenalon.
h m
23 50
28.89
28.21
27.56
26.98
26.49
26.10
25.84
25.72
2574
25.92
26.24
26.69
27.27
2795
28.71
29.53
30.38
31.24
32.09
32.90
68
65
58
49
39
26
12
2
18
32
45
58
68
76
82
85
86
85
81
75
68
59
49
33.65
34-33
34.92
35-41 ,„
35^80 39
27
36.07
36.22
36.26
36.19
36.00
15
4
7
19
30
35.70
35.31
34.83
34.27
33.65
32.99
32.31
31.62
39
48
56
62
66
68
69
Declina-
tion N.
+ 73 55
29.7
29.0
27.8
26.0
23.8
21.2
18.3
15.3
12.3
9.4
6.8
7
12
18
22
26
29
30
30
29
26
23
4.5
2.6 '9
14
1.2
0.4
8
3
3
8
O.I
0.4
1.2
2.6'^
4.5^^
24
6.9 o
*^ ^ 28
9.7
12.8 3'
16.2 34
19.8 36
38
274 ^^
31. 1 37
34.8 37
38.3 ^^
33
41.6
44.5
47.1
49.2
50.7
51.6
52.0
51.7
29
26
21
15
9
4
3
Sec 6, Tan d
Mean Place
7.668 -7.603
58'.337 28".43
1.055 40.337
6o"-540 53".50
1.837 +1.541
58-.804 35 ".34
3.61 1
32*.o67
+3.470
jt
14". 10
ly^ a, Dm a
+0.01
+0.4
40.51
-0.1
0.00 -0.02
40.4 -O. I
[Bph xa]
0.00
40.4
-O.IO
0.0
0.00
40.4
-0.23
0.0
486 APPARENT PLACES OF 8TAES, 1912
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 1.2
II. 2
21.2
311
Feb. I O.I
20.1
Mar. I.I
II.O
21.0
310
Apr. 9.9
19.9
29.9
May 9.9
19.8
29.8
June 8.8
18.8
28.7
July 8.7
18.7
28.6
Aug. 7.6
17.6
27.6
Sept. 6.5
16.5
26.5
Oct. 6.5
16.4
26.4
Nov. 5.4
15.3
25.3
Dec. 5.3
15.3
25.2
35.2
Sec<J,Tanrf
Mean Place
00 Piscinm.
Mag. 4.0
Right
Ascension.
h m
23 54
B
46.75
46.66
46.57
46.49
46.43
46.39
46.38
46.40
46.46
46.55
9
9
8
6
4
I
2
6
9
H
46.69
46.86 \^
47.07 ^'
47.31
47.59
21
47.89
48.20
48.52
48.85
49.17
49.47
49.75
50.00
50.22
50.40
50.54
50.64
50.71
50.74
50.74
50.71
50.66
50.59
50.51
50.42
50.32
50.22
50.12
24
28
30
31
32
33
32
30
28
25
22
18
14
10
7
3
o
3
5
7
8
9
10
xo
10
Declina-
UonN.
+ 6 22
32.0
31.2
30.5
29.8
29.1
28.5
28.0
27.7
27.7
27.9
28.3
29.1
30.1
31.4
32.9
34-6
36.6
38.6
40.7
42.9
450
47.0
48.9
50.7
52.2
53.5
54-6
55.4
56.0
56.4
56.6
56.6
56.4
56.1
55.7
55.1
54.5
53.8
8
7
7
7
6
5
3
o
2
4
8
10
13
15
17
20
20
21
22
21
20
19
18
15
13
II
8
6
4
2
o
2
3
4
6
6
7
1.006 -K>.II2
47'.500 34".25
€ TucanflB.
Mag. 4.7
Right
Ascension.
h m
23 55
8
21.13
20.74 ^^
20.40 ^^
20.10 ^°
19.86 ^1
^ 18
19.68
19.57
19.54
19.59
19.73
II
3
5
14
21
30
19.94
20.24
20.61 ^^
44
51
21.05
21.56
22.12
22.72
23.34
23.98
24.61
25.22
25.78
26.29
26.73
27.09
27.36
27.53
27.60
27.58
27.46
27.25
26.97
26.63
26.25
25.84
25.42
25.00
24.59
56
60
62
64
63
61
56
51
44
36
27
17
7
2
12
21
28
34
38
41
42
42
41
Declina-
tion S.
-66 3
81.2
80.0
78.3
76.2
73.6
70.6
67.4
63.9
60.3
56.6
12
17
21
26
30
32
35
36
37
37
36
34
32
52.9
49.3
45-9
39.8 ^9
25
37.3
35.2
33-6
32.5
31.9
21
16
II
6
o
31.9
32.4
33.4
34.9
36.9
39.2
41.7
44.5
47.3
50.0
5
10
15
20
23
25
28
28
27
26
23
52.6
56.8 '9
58.3 ^l
59.2 ^
59.6
59.4
58.6
2
8
2.465 -2.253
2i'.044 59". 20
80 Piscinm.
Mag. 4.7
Right
Ascension.
h m
23 57
8
26.21
26.11
26.02
25.95
25.89
25.85
25.84
25.86
25.92
26.OI
26.14
26.30
26.51
26.75
27.02
10
9
7
6
4
I
2
6
9
13
16
21
24
27
30
32
32
33
27.32
27.64
27.96
28.29
28.61 3^
30
^^•^' 28
29.45 It
29.67 "
29.86 '9
14
30.00
30.11
30.18
30.21
30.21
30.18
30.13
30.06
29.98
29.88
29.78
29.68
29.58
II
7
3
o
3
5
7
8
10
10
10
10
Declina-
tion S.
— 6 29
77-9
78.4
78.8
79.1
79.2
79.1
78.8
78.3
77.6
76.6
75.4
74.0
72.3
70.5
68.5
66.4
64.3
62.1
60.0
58.1
56.3
54.6
53.2
52.1
51-3
50.7
50.4
50.3
50.4
50.8
51-3
51.9
52.6
53.3
54.1
54.8
55.4
56.0
5
4
3
I
I
3
5
7
ID
12
14
17
18
20
21
21
22
21
19
18
«7
14
II
8
6
3
I
I
4
5
6
7
7
8
7
6
6
1.006 -0.114
26'.828 7 1 ".24
% Cetl.
Mag. 4.6
Right
Ascension.
h m
23 59
8
3.45
3.34
3.25
3.17
3.II
II
9
8
6
4
3.07
3.05
3.07
3.12
3.21
3.34
3.51
3.72
3.96
4.24
2
2
5
9
13
17
21
24
28
30
"^•54 „
4.86 3^
5.19 3^
5.53 Vl
5.86 33
32
6.18
6.47
6.74
6.97
7.16
29
27
23
X9
16
7.32
7.43
7.50
7.53
7-53
7.50
7.44
7.36
7.26
7.16
7.05
6.94
6.83
II
7
3
o
3
6
8
10
10
II
II
II
Declina-
tion S.
-1749
43.8
44.0
44.1
43.9
43-5
42.8
41.8
40.7
39-2
37.6
35.8
33.8
31.6
29.3
26.9
24.6
22.4
20.2
8.2
6.4
4-9
3.7
2.8
2.2
1-9
2.0
2.3
2.9
3.7
4.7
5.8
6.9
8.0
9.0
20.0
20.8
21.4
21.7
2
I
2
4
7
10
II
15
16
18
20
22
23
24
23
22
22
20
18
15
12
9
6
3
I
3
6
8
10
II
It
II
10
10
8
6
3
1.050
I $'.962
-0.322
33".38
Xy^ a, Dm a
D^ i. Dm 6
0.00
+0.4
-o.oi
0.0
0.00 +0.15
40.4 0.0
[Eph xa]
0.00
'K>.4
■K>.OI
0.0
0.00
-K>.4
40.02
0.0
JANUARY, 1912.
487
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASfflNGTON.
4 0eta&tis.
81 Xeiis«.
7 Ootantis.
C Oetantls.
7 Oetantit.
Mag. 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6.3
Mean
Right
Declina-
Mean
Riffht
DecUna-
Mean
Riffht
Declina-
Mean
Riffht
Declina-
Mean
Richt
DecU-
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
nation
Date.
sion.
South.
Date.
sion.
Souik.
Date.
sion.
SouHk,
Date.
sion.
South,
Date.
sion.
South,
h m
0 f
h m
0 t
h m
0 t
h m
0 t
h m
0 f
Jan.
142
-8513
Jan.
5 47
-8449
Jan.
718
-8653
Jan.
9 9
-8518
Jan.
1059
-84 6
00
0.3
s
32.13
11.09
0.5
s
30.09
49.99
0.5
s
25.96
21.69
0.6
8
48.18
24.03
0.7
s
57.74
50.46
1.3
31.82
11.08
1.5
29.96
50.35
1.5
25.92
22.10
1.6
48.30
24.42
1.7
57.95
50.73
2.3
31.52
XI.06
2.5
29.82
50.69
2.5
25.84
22.50
2.6
48.41
24.80
2.7
58.14
51.02
3-3
31-23
11.03
3.5
29.67
51.02
3.5
25.74
22.88
3.6
48.51
25.18
3.7
58.31
51.32
4.3
30.96
10.99
4.5
29.51
51.32
4.5
25.62
23.23
4.6
48.58
25.54
4.7
58.47
51.61
5.3
30.71
10.94
5.5
29.36
51.58
5.5
25.51
23.55
5.6
48.64
25.87
5.7
58.62
51.88
6.3
30.47
10.89
6.4
29.22
51.83
6.5
25.42
23.85
6.6
48.70
26.17
6.7
58.76
52.13
7.3
30.23
10.86
7.4
29.10
52.09
7.5
25.35
24.15
7.6
48.78
26.48
7.7
58.90
52.37
8.3
29.99
10.84
8.4
28.98
52.37
8.5
25.29
24.46
8.6
48.87
26.79
8.7
59.06
52.59
9.3
29.75
10.84
9.4
28.87
52.66
9.5
25.25
24.80
9.6
48.97
27.10
9-7
59.23
52.83
10.3
29.49
10.86
10.4
28.76
52.96
10.5
25.22
25.15
10.6
49.09
27.43
10.7
59.41
53.08
ZI.3
29.22
10.86
II.4
28.64
53.29
11.5
25.17
25.52
11.6
49.20
27.79
11.7
59.59
53.34
Z2.3
28.93
10.84
12.4
28.51
53.63
12.5
25.11
25.90
12.6
49.31
28.16
12.6
59.78
53.62
13.3
28.63
10.82
13.4
28.35
53.96
13.5
25.02
26.29
13.6
49.41
28.55
13.6
59.97
53.92
14.3
28.32
10.77
14.4
28.18
54.29
14.5
24.90
26.69
14.6
49.49
28.95
14.6
60.15
54.24
153
28.02
10.69
15.4
28.00
54.60
15.5
24.75
27.07
15.6
49.54
29.36
15.6
60.32
54.57
16.3
27.73
10.61
16.4
27.81
54.89
16.5
24.59
27.44
16.6
49.58
29.75
16.6
60.47
54.91
17.2
27.45
10.50
17.4
27.62
55.17
17.5
24.41
27.77
17.6
49.61
30.13
17.6
60.61
55.25
18.2
27.18
10.39
18.4
27.42
55.42
18.5
24.22
28.12
18.6
49.63
30.50
18.6
60.73
55.58
19.2
26.93
10.28
19.4
27.23
55.65
19.5
24.03
28.44
19.6
49.64
30.86
19.6
60.85
55.90
20.2
26.69
10.16
20.4
27.05
55.88
20.5
23.85
28.74
20.6
49.66
31.20
20.6
60.96
56.21
21.2
26.45
10.06
21.4
26.87
56.10
21.5
23.68
29.03
21.5
49.69
31.52
21.6
61.07
56.51
22.2
26.21
9.96
22.4
26.70
56.32
22.5
2352
29.33
22.5
49.72
31.85
22.6
6z.i8
56.79
23.2
25.98
9.87
23.4
26.54
56.56
23.5
23.37
29.64
235
49.75
32.20
23.6
61.30
57.07
24.2
25.73
9.78
24.4
26.37
56.82
•24.5
23.22
29.97
24.5
49.80
32.56
24.6
61.44
57-37
25.2
25.47
9.69
25.4
26.20
57.09
25.5
23.08
30.33
25.5
49.84
32.94
25.6
61.59
57.68
26.2
25.19
9.60
26.4
26.01
57.37
26.5
22.92
30.69
26.5
49.87
33.33
26.6
61.74
58.01
27.2
24.90
9.50
27.4
25.80
57.66
27.5
22.73
31.07
27.5
49.89
33.74
27.6
61.89
58.37
28.2
24.60
9.36
28.4
25.58
57.94
28.5
22.51
31.46
28.5
49.90
34.16
28.6
62.03
58.75
29.2
24.29
9.20
29.4
25.34
58.20
29.4
22.25
31.83
29.5
49.89
34.59
29.6
62.15
59.15
30.2
23.99
9.02
30.4
25.09
58.44
30.4
21.96
32.17
30.5
49.87
35.02
30.6
62.26
59.56
31.2
23.72
8.81
31.4
24.83
58.65
31-4
21.65
32.50
31.5
49.82
35.44
31.6
62.35
59.97
32.2
23.47
8.60
32.4
24.58
58.83
32.4
21.33
32.80
32.5
49.75
35.83
32.6
62.42
60.37
12.00 —11.96
1 1. 10 —1 1.06
1844 —18.41
12.23 -12.18
9.75 -^.70
ih 42"* 2I«.27
^h 47m i3i.i94
7*» i8» i«.35
9** 9" 38».50
io*» 59» 57*.052
-ss*"
12' 5
2".03 1
-84*
U9' 5
13". 1 1
-86«
^53' I
i3".62
-85^
» 18' ^
^3".98
-84^
' f I
3".77
[Bph is]
488
FEBRUARY, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 OotentiB.
81 XensflB.
7 Ootentis.
C Ootuitis.
Tf Octenlls.
Mag 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6
3
Mean
Solar
Date.
Right
Aacen-
sioa.
Dedina*
tion
South,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South,
Mean
Solar
Date.
Right
Ascen>
sion.
Decfi-
nati«>o
South,
h m
0 /
h m
0 f
h m
e t
h m
0 f
h m
0 /
Feb.
142
-8513
Feb.
5 47
-8449
Feb.
718
-8653
ff
Feb.
9 9
-8518
ff
Feb.
II 0
-84 7
1.2
B
23.47
8.60
1.4
8
24.58
58.83
1.4
s
21.33
32.80
1.5
8
49.75
35.83
1.6
8
2.42
0.37
2.2
23-23
8.39
2.4
24.33
58.99
2.4
21.03
33.08
2.5
49.68
36.20
2.6
2.48
0.73
3.2
23.00
8.18
3.4
24.10
59.15
3.4
20.75
33.35
3.5
49.62
36.55
3.6
2.54
1.08
4.2
22.79
8.00
4.4
23.89
59.32
4.4
20.50
33.61
4.5
49.57
36.88
4.6
2.61
1.42
5.2
22.57
7.83
5.4
23.69
59.50
5.4
20.26
33.88
5-5
49.54
37.23
5.6
2.69
1.75
6.2
22.34
7.67
6.4
23.48
59.69
6.4
20.03
34.17
6.5
49.51
37.59
6.6
2.78
2.09
7.2
22.09
7.52
7.4
23.26
59.90
7.4
19.79
34.48
7.5
49.50
37.96
7.6
2.88
2.44
8.2
21,83
7.35
8.4
23.04
60.13
8.4
19.54
34.81
8.5
49.48
38.35
8.6
2.99
2.81
9.2
21.56
7.16
9.4
22.81
60.35
9.4
19.28
35.15
9.5
49.45
38.75
9.6
3.09
3.20
10.2
21.30
6.96
10.4
22.55
60.57
10.4
18.99
35.49
10.5
49.40
39.17
10.6
3.19
3.60
II. 2
21.03
6.75
II.4
22.29
60.77
II.4
18.66
35.82
1 1.5
49.33
39.59
1 1.6
3.27
4.0I
12.2
20.76
6.52
12.3
22.01
60.96
12.4
18.32
36.14
12.5
49.25
40.00
12.6
3.34
4.43
13.2
20.50
6.27
13.3
21.74
61.13
13.4
17.96
36.43
13.5
49.16
40.41
13.6
3.39
4.8s
14.2
30.25
6.00
14.3
21.47
61.27
14.4
17.60
36.70
14.5
49.05
40.79
14.6
3.43
5.26
15.2
20.03
5.73
15.3
21.20
61.39
15.4
17.24
36.96
155
48.93
41.16
15.6
3.46
5.66
16.2
I9-B3
5.46
16,3
20.93
61.50
16.4
16.89
37.21
16.5
48.82
41.51
16.6
3.49
6.04
17.2
19.65
5.20
17.3
20.68
61.60
17.4
16.54
37.44
17.5
48.72
41.85
17.6
3.50
6.41
18.2
19.45
4.96
18.3
20.44
61.70
18.4
16.19
37.65
18.5
48.61
42.18
18.5
3.52
6.77
19.2
19.25
4.73
19.3
20.19
61.81
19.4
15.87
37.87
19.5
48.51
42.50
19.5
3.55
7.11
20.2
19.06
4.50
20.3
19.96
61.93
20.4
15-57
38.12
20.5
48.42
42.84
20.5
3.60
7.46
21.2
18.85
4.27
21.3
19.72
62.06
21.4
15.27
38.39
21.5
48.34
43.19
21.5
3.65
7.81
22.2
18.62
4.05
22.3
19.47
62.21
22.4
14.95
38.66
22.5
48.26
43.56
22.5
3.70
8.18
23.1
18.39
3.80
23.3
19.20
62.38
23.4
14.61
38.94
23.5
48.17
43.95
23.5
3.76
8.58
24.1
18.14
3.53
24.3
18.92
62.53
24.4
14.24
39.23
24.5
48.06
44.35
24.5
3.81
9.00
25.1
17.88
3.24
25.3
18.63
62.66
25.4
13.84
39.52
25.5
47.93
44.75
25.5
3.85
9.44
26.1
17.63
2.93
26.3
18.32
62.78
26.4
13.42
39.79
26.4
47.79
45.16
26.5
3.86
9.89
27.1
17.42
2.59
27.3
18.00
62.87
27.4
12.97
40.04
27.4
47.63
45.55
27.5
3.86
10.34
28.1
i7'23
2.25
28.3
17.69
62.93
28.4
12.51
40.26
28.4
47.45
45.92
28.5
3.84
10.78
29.1
17.06
I.91
29.3
17.39
62.96
29.4
12.06
40.44
29.4
47.27
46.26
29.5
3.81
11.19
30.1
16.91
1.58
30.3
17.10
62.98
30.4
11.63
40.61
30.4
47.08
46.57
30.5
3.77
11.56
1 12.00 -
■11.95
II. II —11.06
18.45 -1843
12.23 —12.19
9.76 •
-9.71
1^ 42» .
2I».27
^h ^^ I3«.i94
f i8» i».35
9t» 9a 38».5o
io»»59» .
>7*.05a
-85 «
12' 5
2".03
-84*
^9^ 5
;3".ii
-86<
*53' 3
13".62 1
-85*
» 18' 4
^3".98
-84"
' f I
3".77
[Bphu]
MARCH, 1912.
489
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 Ootantls.
81 XensflB.
7 OctantlB.
C Octantis.
7 Ootantls.
Mag. 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
]
Mag. 6.3
Mean
Solar
Date.
Richt
Ascen-
sion.
Declina-
aon
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
Souih.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
5ott/A.
Mean
Solar
Date.
Right
Ascen-
sion.
DecU-
nation
South.
h m
0 f
h m
0 '
h m
e t
h m
0 /
h m
0 f
Mar.
142
-85 12
Mar.
5 47
-8450
Mar.
717
-8653
Mar.
9 9
-8518
§§
Mar.
II 0
-84 7
I.I
s
16.91
61.58
1.3
8
17.10
2.98
1.4
8
71.63
40.61
1.4
8
47.08
WW
46.57
1.5
s
3.77
11.58
2.1
16.75
61.27
2-3
16.83
3.02
2.4
7123
40.78
2.4
46.91
46.87
2.5
3.75
11.95
3.1
16.58
60.98
3.3
16.57
3.05
3.4
70.85
40.95
3.4
46.76
47.16
3.5
3.74
12.31
4-1
16.42
60.70
4-3
16.31
3.10
4.4
70.48
41.14
4.4
46.62
47.47
4.5
3.73
12.67
5.1
16.24
60.43
5.3
16.06
3.16
5.4
70.13
41.34
5.4
46.48
47.81
5.5
3.74
13.04
6.1
16.05
60.14
6.3
15.79
3.24
6.3
69.75
41.56
6.4
46.35
48.14
6.5
3-75
13.43
7-1
15.86
5985
7-3
15.51
3-34
7.3
69.34
41.78
7.4
46.21
48.49
7.5
3.76
1383
8.1
15.66
59.55
8.3
15.22
3.43
8.3
68.92
42.02
8.4
46.06
48.85
8.5
3.76
14.24
9.1
15.46
59.22
9.3
14.92
3.49
9-3
68.49
42.24
9.4
45.89
49.22
9.5
3.75
14.66
lO.I
15.27
58.88
10.3
14.62
3.54
10.3
68.05
42.45
10.4
45.71
49.58
10.5
3.73
15.08
II. I
15.09
58.52
11.3
14.31
3.57
11.3
6759
42.65
11.4
45.51
49.92
"•5
3.70
15.50
12. 1
14.92
58.14
12.3
14.00
3.58
12.3
67.11
42.82
12.4
45.30
50.25
12.5
3.65
15.91
I3.I
14.78
57.77
13.3
13-70
3.57
13.3
66.63
42.97
13.4
45.09
50.57
13.5
3.59
16.31
14. 1
14.65
57.41
14-3
13.40
3.54
14.3
66.17
43.10
14.4
44.86
50.86
14.5
3.52
16.70
I5.I
14.53
57.05
15.3
13.12
3.50
15.3
65.72
43.22
15.4
44.64
51.13
15.5
3.44
17.08
16. 1
14.42
56.70
16.3
12.84
3.46
16.3
65.28
43.33
16.4
44.43
51.39
16.5
3.37
17.44
I7.I
14.31
56.37
17.3
12.58
3.42
17.3
64.85
43.42
17.4
44.22
51.65
17.5
3-31
17.79
18.I
14.20
56.05
18.3
12.32
3.39
18.3
64.44
43-53
18.4
44.02
51.91
18.5
3.26
18.13
19. 1
14.07
55.73
19.2
12.07
3.38
19-3
64.05
43.67
19.4
43.84
52.18
19.5
3.21
18.47
20.1
13.93
55.41
20.2
II.8I
3.39
20.3
63.64
43.82
20.4
43.66
52.47
20.5
3.18
18.83
21. 1
13.78
55 -08
21.2
11.54
3.41
21.3
63.22
43.97
21.4
43.48
52.77
21.5
3.15
19.20
22.1
13.63
54.74
22.2
11.25
3-43
22.3
62.78
44.13
22.4
43.28
53.09
22.5
3.11
19.60
23.1
13.47
54.38
23.2
10.94
3.43
23.3
62.31
44.30
23.4
43.06
53.42
23.5
3.06
20.02
24.1
13.32
53.99
24.2
10.62
3.42
24-3
61.81
44.45
24.4
42.83
53.75
24.5
3.00
20.45
25.1
13.18
53.59
25.2
10.31
3.37
25.3
61.29
44.58
25.4
42.58
54.06
25.4
2.92
20.87
26.1
13.06
53.17
26.2
10.00
3.30
26.3
60.77
44.68
26.4
42.32
54.34
26.4
2.82
21.28
27.1
12.97
52.75
27.2
9.69
3.20
27.3
60.25
44.76
27.4
42.05
54.60
27.4
2.70
21.67
28.1
12.90
52.35
28.2
9.39
3.08
28.3
59.75
44.80
28.4
41.78
54.84
28.4
2.58
22.02
29.1
12.85
5x96
29.2
9.II
2.96
29.3
59-28
44.85
29.4
41.52
55.06
29.4
2.46
22.36
30.0
12.79
51-59
30.2
8.85
2.86
30.3
58.83
44.89
30.4
41.27
55.28
30.4
2.35
22.68
31.0
12.72
51.25
31.2
8.61
2.77
31.3
58.39
44.94
31.4
41.04
5548
31.4
2.26
22.99
32.0
12.64
50.90
32.2
8.35
2.69
32.3
57.96
4500
32.4
40.83
55.70
32.4
2.18
23.32
I]
.99 -11.94
11. II -
•I 1.06
18.46 -18.44
12.24 —12.20
9
.77 -9.71
l^
42* 2I«.27
5»^47»
1 3*. 194
yh ,gm 1.35
9h 9» 38-.50
10b
59" 57*.052
-85^
12' 5
2''.03 1
-84«
^49^ 5
3". XI
-86«
^53' 3
13".62 1
-85*
' 18' 4
.3".98
-84-
• -f I
3".77
[Eph la]
490
APRIL, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 Ootantis.
81 XensflB.
7 OotantiB.
C Ootantis.
^Oetantis.
Mag. 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6.3
Mean
Risht
Decttna*
Mean
Right
Declina-
Mean
Right
Declina-
Mean
Right
Declina-
Mean
Right
Decfi.
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Asoen-
nation
Date.
aon.
South,
Date.
sion.
S<niik,
Date.
sion.
South.
Date.
sion.
SouA,
Datc.
sioa.
South,
h m
0 f
h m
0 /
h m
0 /
h m
e 9
h m
0 «
Apr.
142
-85 12
Apr.
5 47
-8449
Apr.
7 17
-8653
ft
Apr.
9 9
-8518
mm
Apr.
1059
-84 7
f0
I.O
8
12.64
50.90
X.2
8
8.35
62.69
1.3
8
57.96
45-00
1.4
8
40.83
55.70
1.4
8
62.18
23.32
2.0
".55
50.56
2.2
8.1 X
62.63
2.3
57.54
45.08
2.4
40.63
55.93
2.4
62. xo
23-65
3.0
12.46
50.21
3.2
7.85
62.57
3.3
57.11
45.17
3.3
40.41
56.18
3.4
62.03
24.00
4.0
12.37
49.85
4.2
7.57
62.52
4.3
56.66
45.26
4.3
40.19
56.44
4.4
61.96
24-36
5.0
12.27
49.47
5.2
7.28
62.45
5.3
56.19
45.36
5.3
39.95
56.71
5.4
6X.87
24-73
6.0
12.18
49.07
6.2
6.98
62.37
6.3
55.70
45.45
6.3
39.69
56.97
6.4
6X.77
25. XO
7.0
12.09
48.67
7.2
6.70
62.27
7.3
55.20
45.52
7.3
39.42
57.22
7.4
61.66
25-47
S.O
12.02
48.27
8.2
6.4X
62.x 5
8.3
54.69
45.56
8.3
39.15
57.45
8.4
6X.53
25.84
9.0
11.97
47.86
9.2
6.X3
62 .OX
9.3
54.18
45.59
9.3
38.86
57.66
9.4
61.39
26.19
lO.O
11.94
47-45
10.2
5.86
6X.84
X0.3
53.68
45.60
XO.3
38.57
57.85
X0.4
6X.25
26.52
II.O
II.9I
47.04
IX. 2
5.60
61.67
XX.2
53.19
45.58
XX.3
38.29
58.02
XI.4
61. xo
26.84
Z2.0
II.9I
46.65
12.2
5.36
6X.49
X2.2
52.73
45.55
X2.3
38.OX
58.x 7
12.4
60.95
27.13
I3-0
IX.9I
46.27
13.2
5.12
6X.32
X3.2
52.28
45.52
13.3
37.74
58.32
13.4
60.80
27.41
14.0
11.90
45.90
14.2
4.88
6x.i6
X4.2
51.85
45.49
14-3
37.48
58.46
14.4
60.67
27.68
15.0
11.90
45.55
15.2
4.65
6x.ox
15.2
51.43
45.47
15.3
37.23
58.6X
15.4
60.55
27.95
16.0
11.88
45.2X
X6.2
4.41
60.88
X6.2
5 1. OX
45.46
X6.3
36.99
58.77
X6.4
6044
28.23
17.0
11.84
44.85
X7.2
4.17
60.77
X7.2
50.59
45.48
17.3
36.76
58.94
17.4
60.33
28.52
17.9
11.79
44-49
18.2
3.91
60.66
18.2
50. X5
45-50
X8.3
36.52
59.13
X8.4
60.22
28.83
18.9
"•73
44.11
X9.2
3.63
60.53
X9.2
49.69
45-53
19.3
36.26
59.33
X9.4
60.10
29.16
19.9
11.68
43.71
20.2
3.35
60.39
20.2
49.20
45.56
20.3
35.98
59.52
20.4
59.97
29.50
20.9
11.63
43.29
21.2
3.07
60.22
2X.2
48.70
45.57
21.3
35.69
59.71
21.4
59.82
29.84
21.9
11.62
42.86
22.2
2.80
60.03
22.2
48.x 7
45.55
22.3
35.38
59.89
22.4
59.65
30.18
22.9
11.63
42.43
23.2
2.55
59.8X
23.2
47.65
45.50
23.3
35.06
60.05
23.4
59.47
30.49
239
11.66
42.01
24.2
2.31
59.57
24.2
47.15
45.42
24.3
34.74
60.X7
24.4
59.29
30.77
24.9
11.71
4X.60
25.x
2.08
59-33
25.2
46.67
45.32
25.3
34.43
60.27
25.4
59."
31.03
25.9
11.77
4X.22
26.x
X.86
59.09
26.2
46.23
45-21
26.3
34.14
60.35
26.4
58.93
31.26
26.9
11.82
40.86
27.x
1.65
58.87
27.2
45.82
45."
27.3
33.87
60.42
27-4
58.76
31.47
27.9
11.86
40.52
28.x
1.45
58.67
28.2
45.43
45.04
28.3
33.6X
60.50
28.4
58.61
31.69
28.9
11.89
4O.X8
29.1
1.25
58.48
29.2
45.05
44.97
29.3
33.36
60.60
29.4
58.47
31.93
29.9
11.90
39-83
30.1
1.05
58.30
30.2
44.64
44.91
30.3
33.12
60.7 X
30.4
58.34
32.17
30.9
U.91
39.48
31. 1
0.84
58.13
31.2
44.22
44.87
31.3
32.86
60.84
31.3
58.21
32.43
31.9
11.92
39."
32.1
0.6 X
57.96
32.2
43.78
44.83
32.3
32.59
60.96
32.3
58.07
32.69
XI.98 -11.93
IX. XX — XX.06
X8.47 —18.44
12.25 -I2.2X
9.77 -9.7a
jh ^jm 2I».27
^h ^^a X3».i94
7»» x8« x».35
9^ 9^ 38'.SO
10^59^ 57*-05a
-85«
X2' 5
2".03 1
-84*
^49^ 5
3"." 1
-86«
^53' 3
13^62 1
-«5*
'xV A
^'.98
^c
' f I
3".77
[Bph xt]
MAY, 1912.
491
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 Ootaatis.
81 Mtnum.
7 Octantis.
C Ootaatis.
17 OotantlB.
Mag. 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6.3
Mean
Salar
Bate.
Risht
Ascen-
sion.
DecJina-
tion
So9Uh.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
SoiUh.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
South,
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Riffht
Ascen-
sion.
DecU-
natlon
South,
h m
0 /
h m
0 f
h m
e /
h m
0 /
h m
e t
May
142
-85 12
ft
May
546
-8449
May
717
_
-8653
May
9 9
-8519
ft
May
1059
-84 7
1.9
■
11.92
39.11
I.I
s
60.84
58.13
1.2
s
44.22
44.87
1.3
s
32.86
0.84
1.3
B
58.21
32.43
2.9
"93
38.72
2.x
60.61
57.96
2.2
43.78
44.83
2.3
32.59
0.96
2.3
58.07
32.69
3-9
11.95
38.33
3-1
60.37
57.77
3.2
43.33
44.78
3.3
32.30
1.09
3.3
57.92
32.96
4-9
11.99
37.93
4.1
60.14
57.56
4-2
42.87
44.71
4.3
32.01
I.2I
4.3
57.76
33.23
5.9
12.05
37.53
5.1
59.91
57.33
5-2
42.41
44-62
5.3
31.71
1.30
5.3
57.58
33.50
6.9
12.12
37.13
6.1
59.69
57.08
6.2
41.94
44.52
6.3
31.40
1.38
6.3
57.38
33.75
7.9
12.21
36.75
7-1
59.47
56.81
7.2
41.48
44.40
7.3
31.10
1.44
7.3
57.18
33.98
8.9
12.31
36.38
8.1
59.27
56.53
8.2
41.04
44.26
8.3
30.79
1.48
8.3
56.98
34.19
9.9
12.42
36.02
9-1
59.08
56.24
9.2
40.61
44.10
9.2
30.49
1.49
9.3
56.77
34.38
10.9
12.53
35.68
10. 1
58.91
55-95
10.2
40.19
43.93
10.2
30.20
1.50
10.3
56.57
34.56
ZI.9
12.63
35.35
II. I
58.74
55-68
II.2
39.80
43.76
11.2
29.92
1.50
"3
56.38
34.72
12.9
12.72
35.02
12. 1
58.58
55.42
12.2
39-43
43.61
12.2
29.65
1.50
12.3
56.20
34.88
13.9
12.80
34.70
13.1
58.43
55.17
132
39.08
43.47
13.2
29.39
1.52
133
56.03
35.03
14-9
12.87
34.39
14. 1
58.27
54.95
14.2
38.73
43.35
14.2
29.14
1.55
14.3
55.86
35.20
159
12.92
34.05
15. 1
58.10
54-74
15.2
38.37
43.24
15.2
28.89
1.60
15.3
5570
35.38
16.9
12.98
3369
16. 1
57.92
54.52
16.2
38.00
43.14
16.2
28.63
1.67
16.3
55.54
35.58
179
13.05
33.30
17.1
57.73
54.28
17.2
37.60
4304
17.2
28.36
1.73
17.3
55.37
35.79
i8»9
13.14
32.92
18.1
57.53
54.03
I8.I
37.17
42.92
18.2
28.07
1.78
18.3
55.19
36.02
19.9
13-25
32.54
19.1
57.33
53.75
19. 1
36.73
42.78
19.2
27.76
1.82
19.3
54.99
36.23
20.9
13.37
32.17
20.1
57.14
5345
20.1
36.28
42.60
20.2
27.44
1.83
20.3
54.78
36.42
2Z.9
13.51
31.80
21. 1
56.97
53.12
21. 1
35.85
42.40
21.2
27.14
I.81
21.3
54.56
36.60
22.9
13.67
31.46
22.1
56.81
52.78
22.1
35.45
42.18
22.2
26.83
1.78
22.3
54.33
36.74
23.9
13.84
31.14
23.1
56.67
52.45
23.1
35-07
41.95
23.2
26.53
1.72
23.3
54."
36.85
24.9
14.00
30.85
24.1
56.54
52.13
24.1
34.73
41.73
24.2
26.25
1.65
24.3
53.90
36.95
25.9
14.14
30.57
25.1
56.43
51.83
25.1
34.42
41.52
25.2
25.99
1.58
25.3
53.70
37.03
26.9
14.26
30.28
26.1
56.32
51.55
26.1
34.14
41.32
26.2
25.75
1.52
26.3
53.51
37.12
27.9
14.38
30.00
27.1
56.21
51.28
27.1
33.85
41.14
27.2
25.52
1-47
27.3
53.34
37.22
28.9
14.47
29.70
28.1
56.10
51.02
28.1
33.54
40.98
28.2
25.28
1.44
28.3
53.17
37.33
29.9
14.57
29.39
29.1
55.97
50.77
29.1
33.21
40.82
29.2
25.03
1.43
29.3
53.00
37-45
30.9
14.69
29.08
30.1
55.83
50.50
30.1
32.87
40.65
30.2
24.77
1. 41
30.3
52.82
37-58
31.9
14.83
28.76
31.0
5569
50.22
31. 1
32.52
40.47
31.2
24.50
1.39
31.3
52.63
37.71
32.9
14.99
28.43
32.0
55.56
49-92
32.1
32.17
40.29
32.2
24.22
1.34
32.3
52.43
37.83
11.97 -11.93
1 1. 10 —11.06
18.46 —18.44
12.25 -
-12.21
9.77 -^.72
jh ^2^ 2I*.27
^h 47« 13M94
yh igm ii,35
9^ 9m .
38-.50
lo^ 59" 57*-052
-85 0
12' 5
2".03 1
-840
49^ 5
y'.ii 1
-86«
53' 3
3".62 1
-85*^
18' 4
3''.98
-840
/ I,
3".77
[Bph zs]
492
JUNE, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 Ootantii.
81 Xens«.
7 Octantis.
C OotantiB.
7 Ootaiktis.
Mag. 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6.3
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
Sott/A.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
SoHih.
Mean
Solar
Date.
Right
Ascen-
sion.
Dcdi-
nation
South.
h m
0 f
h m
0 /
h m
0 r
h m
0 /
h m
0 f
June
142
-85 12
June
546
-8449
$1
June
7 17
-8653
If
June
9 9
-85 18
June
1059
_
-84 7
1.9
s
14.99
28.43
I.O
8
55.56
49.92
I.I
s
32.17
40.29
1.2
s
24.22
61.34
1.3
s
52.43
3783
2.9
1516
28.09
2.0
55.43
49.60
2.1
31-81
40.07
2.2
2393
61.28
2.3
52.21
37.95
3.9
15.34
27.78
3.0
55.30
49-26
3.1
31-47
39-83
3-2
2364
61.20
3.3
51.99
38.05
4.9
15.53
27.47
4.0
55.19
48.92
4.1
31-13
39.58
4-2
23.36
61.10
4.3
51.77
38.12
5.9
15.73
27.19
5.0
55.09
48.57
5.1
30.81
39-31
5.2
23.09
60.99
5-3
51.55
38.17
6.9
15.94
26.93
6.0
55.01
48.22
6.1
30.52
3903
6.2
22.83
60.86
6.2
51-33
38.20
7.9
16.15
26.68
7.0
54-94
47.87
7.1
30.26
38.76
7.2
22.57
60.72
7.2
51.11
38.22
8.9
16.34
26.45
8.0
54.88
47.53
8.1
30.02
38.50
8.2
22.33
60.58
8.2
50.90
38.23
9-9
16.51
26.21
9.0
54.82
47.22
9-1
29-79
38.25
9-2
22.11
60.45
9.2
50.69
38.24
10.9
16.67
2599
lO.O
54.77
46.93
10. 1
29-57
38.02
10.2
21.90
60.32
10.2
50.51
38.26
1 1.8
16.82
25.74
1 1.0
54.71
46.66
II. I
29.34
37-80
11.2
21.69
60.21
ii.a
50.34
38.28
12.8
16.98
25.47
12.0
54.64
46.38
12. 1
29.10
37-60
12.2
21.46
60.12
12.2
50.17
38.32
13-8
17.14
25.19
13.0
54.56
46.09
13.1
28.83
37-39
13.2
21.22
60.05
13.2
50.00
38.39
14.8
17.31
24.92
14.0
54-47
45-79
14.1
28.54
37-16
14.2
20.98
59-97
14.2
49.81
38.47
15.8
17.49
24.64
15.0
54-37
45-47
15.1
28.24
36.92
15-1
20.73
59-87
15-2
49.60
38.53
16.8
17.70
24.35
16.0
54.29
45-13
16.1
27-94
36.66
16.1
20.47
59.76
16.2
49.39
38.59
17.8
17.93
24.08
17.0
54.21
44-77
I7.I
27-65
36.38
17.1
20.19
59.62
17.2
49.16
38.62
18.8
18.16
23.83
18.0
54.14
4438
18.I
27.38
36.07
I8.I
19.92
59-45
18.2
48.92
38.62
19.8
18.40
23.61
18.9
54.10
44.00
I9.I
27.14
35-75
I9.I
19.66
59-25
19.2
48.69
38.59
20.8
18.64
23.41
19.9
54.08
4364
20.1
26.94
35.43
20.1
19.43
59.05
20.2
48.47
38.54
21.8
18.86
23.23
20.9
54.08
43-30
21. 1
26.77
35.13
21. 1
19.22
58.85
21.2
48.27
38.48
22.8
19.08
23.07
21.9
54-08
42.98
22.1
26.62
34.85
22.1
19.03
58.65
22.2
48.08
38.4a
23.8
19.29
22.90
22.9
54.07
42.67
23.0
26.47
34.58
23-1
18.86
58.47
23.2
4790
38.36
24.8
19.49
22.73
23.9
54.07
42.38
24.0
26.32
34.32
24.1
18.69
58.31
24.2
47.73
38.31
25.8
19.68
22.54
24.9
54.06
42.10
25.0
26.16
3407
25-1
18.51
58.15
25.2
4756
38.28
26.8
19.87
22.34
25.9
54.04
41.82
26.0
25-99
33.82
26.1
18.31
57-99
26.2
47.39
38.25
27.8
20.08
22.14
26.9
54.02
4152
27.0
25.80
33.56
27.1
18.10
57-84
27.2
47.21
38.23
28.8
20.28
21.94
27.9
53-99
41.20
28.0
25.61
33.29
28.1
17.89
57.68
28.2
47.02
38.21
29.8
20.51
21.74
28.9
53-97
40.86
29.0
25.42
33.01
29.1
17.67
57.50
29.2
46.82
38.18
30.8
20.76
21.55
29.9
53.95
40.51
30.0
25.23
32.71
30.1
17.45
57.30
30.2
46.61
38.14
31.8
21.02
21.35
30.9
53-95
40.15
31.0
25.06
32-39
3I.I
17.24
57.08
31.2
46.40
38.07
11.97 —11.92
1 1. 10 —11.05
18.45 -18.43
12.25 —12.21
9.77 -9.72
jh ^^2™ 2I».27
^h ^ym i3«.i94
yh igm !• 25
9*" 9" 38«.50
io»^59" 57*.05a
-85O
12' 5
2''.03 1
-84"
'49' 5
3".ii 1
-86«
'53' 3
3".62 1
-85*
' 18' A
^".98 1
-84"
' / I
3".77
[Eph 12]
JULY, 1912.
493
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 OotantlB.
81 XenssB.
7 OotaatiB.
C Ooteniig.
17 Oetantis.
Mag. i
5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6.3
Mean
Solar
Date.
Right
Ascen-
Bion.
DecHna-
tion
SotUh,
Mean
Solar
Date.
Right
Ascen-
rioa.
Declina-
tion
Souih.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina.
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sioa..
DecU-
nation
South.
h m
0 f
h m
0 /
h m
0 /
h m
0 f
h m
0 /
July
142
-85 12
July
546
-8449
July
717
^653
July
9 9
-85 18
ff
July
1059
-84 7
ff
1.8
s
21.02
21.35
1-9
s
53.95
39.79
I.O
8
25.06
32.39
I.I
s
17.24
57.08
1^
s
46.40
38.07
2.8
21.29
21,18
2.9
53.98
39-43
2.0
24.91
32.06
2.1
17.04
56.83
2.2
46.18
37.98
3.8
21.55
21.04
3.9
54.02
39.06
30
24-78
31.71
3.1
16.84
56.58
3.2
4596
37.86
4.8
21.82
20.92
4.9
54.08
38.71
4.0
24.68
31.37
4.1
16.65
56.32
4.2
45.76
37.73
5.8
22.08
20.80
5-9
54.14
38.38
5.0
24.59
31.03
5.1
16.48
56.06
5.2
45.57
37.58
6.8
22.31
20.70
6.9
54.20
38.08
6.0
24.53
30.71
6.1
16.33
55.81
6.2
45.40
37.44
7.8
22.55
20.62
7.9
5426
37-80
7-0
24.49
30.40
7.1
16.20
55-56
7.2
45.24
37.30
8.8
22.78
20.52
8.9
54.31
37.53
8.0
24-44
30.11
8.1
16.07
55-32
8.2
45.08
37.17
9.8
22.98
20.41
9-9
54-35
37.26
9.0
24.37
29.84
9'
15-93
55.10
9.2
44.93
37.07
I0.8
23.18
20,30
10.9
54.38
36.97
1 0.0
24.29
29.59
10. 1
15-79
54.90
10.2
44-78
36.98
II.8
23.40
20.17
11.9
54.40
36.67
1 1.0
24.20
29.33
II. I
15.64
54.71
11.2
44.62
36.89
12.8
23.64
20.01
12.9
54.42
36.35
1 1.9
24.09
29-05
12. 1
15.48
54.50
12.2
44.44
36.81
13.8
23.89
19.85
13.9
54.45
36.02
12.9
23.97
28.76
13.1
15.30
54.28
13.1
44.26
36.72
14.8
24.15
19.72
14.9
54.49
35-67
13.9
23.85
28.44
14. 1
15.12
54.05
14. 1
44.06
36.62
15.8
24.42
19.61
15.9
54.55
35.30
14.9
23.74
28.09
15.1
14.94
53.78
15.1
43.85
36.49
16.8
24.71
19.53
16.9
54.64
34.95
15-9
23.67
27.73
16.1
14-77
53.50
16.1
43.65
36.33
17.7
25.00
19.47
17.9
54.74
34.62
16.9
23.64
27.36
17.1
14.62
53-20
17.1
43.46
36.14
18.7
25.27
19.42
18.9
54.85
34.31
17.9
23.64
27.01
18.1
14.49
52.88
18.1
43.29
35.94
19.7
25.51
19.40
19.9
54.97
34.03
18.9
23.67
26.68
19. 1
14.39
52.58
19.1
43.13
35.73
20.7
25.76
19.37
20.9
55.08
33.77
19.9
23.71
26.37
20.1
14.31
52.30
20.1
42.99
35.53
21.7
25.99
19.35
21.9
55.18
33-52
20.9
23.75
26.08
21. 1
14.24
52.03
21. 1
42.86
35.34
22.7
26.22
19.33
22.9
55.27
33-27
21.9
2378
25.80
22.0
14.15
51.77
22.1
42.73
35.16
23.7
26.44
19.30
23.9
55.35
33.02
22.9
23.80
25.54
23.0
14.06
51.52
23.1
42.60
34.99
24.7
26.67
19.25
24.9
55.43
32.76
23.9
23.80
25.28
24.0
13.96
51.27
24.1
42.47
34.84
25.7
26.91
19.21
25.9
55.52
32.48
24.9
23.80
24.99
25.0
13.86
51.02
25.1
42.33
34.68
26.7
27.16
19.16
26.9
55.61
32.18
25.9
23.80
24.69
26.0
13.76
50.76
26.1
42. iS
34-51
27.7
27.42
19. 1 1
27.9
55.71
31.87
26.9
23.81
24.38
27.0
13-64
50.48
27.1
42.02
34.33
28.7
27.68
19.07
28.9
55.83
31.55
27.9
23.83
24.06
28.0
13.53
50.19
28.1
41.86
34.14
29.7
27.96
19.06
29.9
55.96
31.24
28.9
23.86
23.72
29.0
13.43
49.88
29.1
41.69
33.92
30.7
28.25
19.08
30.9
56.11
30.93
29.9
23.92
23.37
30.0
13.34
49.55
30.1
41.53
33.68
31.7
28.54
19.10
31.9
56.26
30.64
30.9
24.00
23.02
310
13.26
49-21
31. 1
41.38
33-43
32.7
28.82
19.14
32.9
56.42
30.37
31.9
24.10
22.68
32.0
13.19
48.88
32.1
41.23
33.17
11.96 -
11.92
11.09 —11.04
18.44 -18.41
12.25 —12.21
9.77 -9.72
i^ 42" 2
2I*.27
5^ 47« I3-.I94
7* i8"» i«.35
9^ 9» 38*.50
10^59" 57*.052
-85 *»
12' 5
2".03
-84'
^49' 5
3".ii 1
-86«
'53' 3
.3^.62 1
-85*
' 18' 4
3".98 1
-84*
' r I
3".77
[Eph m]
494
AUGUST, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 Octantig.
81 Xeii8«.
7 Oetantts.
C Octantig.
Tf Oot&BtU.
Mag. 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6.3
Mean
Solar
Date.
Right
Aacen-
Aaa..
Declina-
tion
Sou/A.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South,
Mean
Solar
Date.
Right
Ascen-
sion.
1
Dcdi-
nation
South.
h m
0 r
h m
0 /
h m
0 /
h m
0 /
h m
e /
Aug.
142
-85 12
Aug.
546
-8449
Aug.
717
-8653
Aug.
9 9
-8518
ft
Aug.
1059
-847
1-7
s
28.82
1^,14
1-9
s
56.42
30.37
1.9
8
24.23
22.35
I.O
s
13.19
48.88
I.I
s
4123
33.17
2.7
29.08
19.20
2.9
56.59
30.11
2.9
24.38
22.05
2.0
13.14
48.54
2.1
41.10
32.89
3.7
29.32
19.27
3-9
56.76
29.88
3.9
24.53
21.76
3.0
13.11
48.22
3.1
40.99
32.62
4-7
29.56
19.33
4.9
56.92
29.67
4-9
24.66
21.49
4.0
13.10
47.92
4.1
40.90
32.36
5.7
29.77
19.40
5.9
57.06
29.48
5.9
24.78
21.24
50
1309
47.63
5.1
40.81
32.12
6.7
29.99
19.44
6.9
57.19
29.28
6.9
24.88
20.98
6.0
13.07
4736
6.1
40.72
31.90
7.7
30.20
1947
7.9
57.32
29.07
7.9
24.96
20.72
7.0
13.04
47.10
7.1
40.63
31.69
8.7
30.42
19.50
8.9
57.44
28.84
8.9
25.04
20.45
8.0
13.00
46.84
8.1
40.53
31.49
9.7
30.66
19.50
9.9
57.56
28.59
9-9
25.12
20.16
8.9
12.96
46.57
9.1
40.42
31.29
10.7
30.92
19.53
10.9
57.69
28.32
10.9
25.21
19.85
9.9
12.90
46.28
10. 1
40.29
3109
11.7
31.17
19.57
11.9
57.85
28.05
1 1.9
25.32
1954
10.9
12.83
45.97
II. I
40.15
30.86
12.7
31.43
19.62
12.8
58.03
2779
12.9
2546
19.22
11.9
12.78
45.65
12.1
40.01
30.60
13.7
31.70
19.70
13.8
58.22
27.54
13.9
25.64
18.89
12.9
12.75
45.31
13. 1
39.89
30.31
14.7
31.97
19.81
14.8
58.42
27.31
14.9
25.85
18.58
13.9
12.73
44-95
14- 1
39.77
30.01
15.7
32.21
19.94
15.8
58.63
27.11
15.9
26.06
18.30
14.9
12.74
44.61
I5«i
39.68
29.69
16.7
32.44
20.08
16.8
58.84
26.94
16.9
26.28
18.05
15.9
12.77
44.28
z6.i
39.62
29.38
17.7
32.66
20.22
17.8
59.03
26.78
17.9
26.51
17.81
16.9
12.82
43.97
17.1
39.57
29.09
18.7
32.87
20.36
18.8
59.21
26.64
18.9
26.73
17.59
17-9
12.86
43.68
18.1
39.52
28.81
19.7
33.06
20.48
19.8
59.39
26.50
19.9
26.93
17.38
18.9
12.90
4341
19.0
39.47
28.55
20.7
33.25
20.60
20.8
59.56
26.35
20.9
27.12
17.16
19.9
12.93
43.14
20.0
39.42
28.29
21.7
33.44
20.71
21.8
59.73
26.19
21.9
27.29
16.94
20.9
12.96
42.88
21.0
39.36
28.05
22.7
33-66
20.81
22.8
59.90
26.01
22.9
27.46
16.69
21.9
12.98
42.60
22.0
39.29
27.81
23.6
33.88
20.92
23.8
60.08
2583
23.9
27.64
16.42
22.9
12.99
42.31
23.0
39.22
27.55
24.6
34.12
21.05
24.8
60.27
25.64
24.9
27.85
16.15
23.9
13.00
42.01
24.0
39.14
27.27
25.6
34.37
21.19
25.8
60.47
25.45
25.9
28.08
15.87
24.9
13.02
41.69
25.0
39.07
26.9S
26.6
3460
21.35
26.8
60.68
25.26
26.9
28.32
15.59
25.9
1306
41.36
26.0
38.99
26.67
27.6
34.84
21.52
27.8
60.91
25.08
27.9
28.59
15.33
26.9
13.11
41.03
27.0
38.92
26.35
28.6
35.07
21.70
28.8
61.15
24.92
28.9
28.88
15.07
27.9
13.17
40.69
28.0
38.87
26.01
29.6
35.29
21.91
29.8
61.39
24.79
29.9
29.19
14.83
28.9
13.25
40.35
29.0
38.83
25.66
30.6
35.49
22.13
30.8
61.63
24.68
30.9
29.51
14.62
29.9
13.34
40.02
30.0
38.80
25.3a
31.6
35.68
22.35
31.8
61.87
24.61
31.9
29.84
14.43
30.9
13.44
39.71
31.0
38.79
24.99
32.6
35.85
22.57
32.8
62.09
24.53
32.9
30.15
14.26
31.9
13.55
39.43
32.0
38.79
24.68
11.96 -
-11.92
11.09 —11.04
18.42 —18.40
12.24 -12.20
9.77 -^.72
jh ^jpax /
ll*.27
gh ^^m i3«.i94
7*» i8"* i«.35
9^ 9" 38'.50
10^ 59" 57*.05a
-85 0
12' 5
2"X>Z
-84^
^49' 5
3"." 1
-86«
'53' 3
►3".62
-85^
» 18' i
^3'^98 1
-84«
' f I
3".77
[Eph zs]
SEPTEMBER, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
495
4 Ootantis.
81 Xen8«.
7 Octantis.
C OotantlB.
tf Ootantis.
Mag. 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6.3
Mean
Solor
Bate.
Riffht
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Riffht
Ascen-
sion.
DecJina-
tion
Souih.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Dedi.
nation
South,
h m
e /
h m
e /
h m
0 /
h m
0 /
h m
0 /
Sept
142
-85 12
t0
Sept.
5 47
-8449
ff
Sept.
717
-8653
Sept.
9 9
-85 18
ff
Sept.
1059
-84 7
1.6
s
3585
22.57
1.8
s
2.09
24.53
1.9
8
30.15
14.26
1.9
8
13.67
39.16
I.O
8
38.79
WW
24.68
2.6
36.01
22.77
2.8
2.30
24.47
2.9
30.43
14.09
2.9
13.78
38.91
2.0
38.79
24.38
3.6
36.15
22.96
3.8
2.50
24.39
3.9
30.69
13.93
3.9
13.87
38.68
30
38.80
24.10
4.6
36.30
23.14
4.8
2.69
24.31
4.8
30.94
13.76
4.9
13.95
38.45
4.0
38.80
23.85
5.6
36.47
23.29
5.8
2.87
24.21
5.8
31.16
13.58
5.9
14.02
38.20
50
38.79
23.60
6.6
36.65
23.45
6.8
306
24.10
6.8
31.39
13.38
6.9
14.09
37.93
5.9
38.76
23.34
7.6
36.83
23.63
7.8
3.26
23.97
7.8
31.64
13.16
7.9
14.17
37.63
6.9
38.72
23.07
8.6
37.03
23.82
8.8
3.48
23.84
8.8
31.93
12.93
8.9
14.26
37.31
7.9
38.68
22.77
9.6
37.24
24.04
9.8
3.72
2373
9.8
32.24
12.70
9.9
14.36
36.99
8.9
38.64
22.45
10.6
37.45
24.28
10.8
3.98
23.64
10.8
32.58
12.49
10.9
14.49
36.68
9.9
38.63
22.11
11.6
3763
24.53
11.8
4.24
23.58
11.8
32.95
12.31
H.9
14,64
36.39
10.9
38.64
21.76
12.6
37.79
24.81
12.8
4.50
23.55
12.8
33.32
12.16
12.9
14.79
36. l5
11.9
38.65
21.41
136
37-94
25.08
13.8
4.75
23.55
13.8
33.69
12.03
13.9
14.96
35.87
12.9
38.69
21.08
14.6
38.06
25.35
14.8
4.98
23.55
14.8
3405
II.91
14.9
15.13
35.64
13.9
38.74
20.77
15.6
38.16
25.61
15.6
5.20
23.57
15.8
34.39
II.81
15.9
15.29
35.42
14.9
38.79
20.48
16.6
38.26
25.86
16.8
5.4*
23.59
16.8
34.71
11.72
16.9
15.43
35.21
15.9
38.85
20.20
17.6
38.37
26.10
17.7
5.62
23.59
17.8
3502
11.62
17.9
15.56
3501
16.9
38.90
19.94
18.6
38.48
26.34
18.7
5.83
23.57
18.8
35.34
11.50
18.9
15.70
34-79
17.9
38.94
19.68
19.6
38.61
26.57
19.7
6.04
23.55
19.8
3565
"37
19.9
15.85
34.56
18.9
38.98
19.41
20.6
38.75
26.81
20.7
6.26
23.52
20.8
35.98
11.23
20.9
15.99
34.31
19.9
39.00
19.13
21.6
38.90
27.05
21.7
6.48
23.48
21.8
36.32
11.08
21.9
16.15
34.05
20.9
39.02
18.84
22.6
39.05
27.31
22.7
6.72
23.45
22.8
36.67
10.93
22.9
16.30
33.78
21.9
39.05
18.54
23.6
39.19
27.60
23.7
6.97
2344
23.8
37.03
10.79
23.9
16.47
33.52
22.9
39.08
18.22
24.6
39.33
27.89
24.7
7.23
23.43
24.8
37.42
10.67
24.9
16.65
3326
23.9
39-12
17.89
25.6
39.47
28.20
25.7
7.50
23.46
25.8
37.84
10.56
25.9
16.86
33.02
24.9
39.18
17.56
26.6
39.57
28.53
26.7
7.76
23.51
26.8
38.27
10.47
26.9
17.08
32.79
25.9
39.25
17.22
27.6
39.65
28.86
27.7
8.01
2359
27.8
38.69
10.41
27.9
17.31
32.59
26.9
39.34
16.89
28.6
39.72
29.18
28.7
8.25
23.68
28.8
39.10
10.38
28.9
17.54
32.40
27.9
39.44
16.59
295
39.77
29.49
29.7
8.48
23.79
29.8
39.49
10.37
29.9
17.75
32.24
28.9
39.55
16.31
30.5
39.81
29.78
30.7
8.69
23.89
30.8
39.86
10.35
30.9
17.96
32.10
29.9
39-66
16.05
315
39.86
30.06
31.7
8.89
23.98
31.8
40.20
10.33
31.9
18.15
31.96
30.9
39.77
15.81
11.97 -11.93
11.08 —11.04
18.41 -18.39
12.24 —12.20
9.77 -9.71
I^ 42" 2I*.27
^h 47m I3-.I94
7** i8» i».35
9^ 9" 38*.50
io»*59f* 57'.052
-85® 12' 52".03
-84O49' 53". 1 1
-86O53' 33^.62 1 -85^18' 43".98 I-84O f 13".77
[Bph \\
«]
496
OCTOBER, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 OctanttB.
81 X«n8».
7 OotaatiB.
C Octantis.
7 Octantis.
Mag. 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6.3
Mran
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Risht
Ascen-
sion.
Declina-
tion
Souik.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
South.
Uran
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
Souih.
Mean
Solar
Date.
Riffht
Ascen-
sion.
1
Dec£.
natUm
South,
h m
0 /
h m
0 /
h m
e /
h m
0 /
h m
0 f
Oct.
1^2
-85 12
MM
Oct.
5 47
-8449
§M
Oct.
717
-8653
Oct.
9 9
-8518
§M
Oct.
1059
-84 7
SM
1-5
s
39-86
WW
30.06
17
8
8.89
WW
23.98
1.8
s
40.20
WW
10.33
1-9
s
18.15
WW
31.96
1-9
s
39.87
WW
15-59
2.5
3990
30.32
2.7
9.08
24.06
2.8
40.53
10.30
2.8
18.35
3181
2.9
39.96
15.37
3-5
39-97
30.57
3-7
9.28
24.12
3.8
40.85
10.26
3.8
18.52
31.65
3.9
40.03
15.14
4-5
40.05
30.82
4-7
9.48
24.17
4.8
41.17
10.20
4.8
18.69
31.48
4.9
40.11
14.89
5.5
40.13
31-09
5-7
9-70
24.21
5.8
41-51
10.13
5.8
18.88
31.29
5-9
40.18
14.62
6.5
40.21
3136
6.7
9.93
24.26
6.8
41.88
10.06
6.8
19.09
31.08
6.9
40.26
14-33
7-5
40.30
31-67
7.7
10.17
2433
7.8
42.29
10.01
7-8
19.31
30.88
7.9
40.35
14.02
8.5
40.37
32.01
8.7
10.42
24.43
8.8
42.72
9.98
8.8
19-54
30.69
8.9
40.47
13-73
9-5
40.43
32.36
9-7
10.67
24.56
9.8
43-16
9-97
9-8
19-79
30.53
9.9
40.61
13.45
10.5
40.46
32.71
10.7
10.91
24.72
10.8
43.59
9.99
10.8
20.05
30.39
10.9
40.75
13-18
"5
40.47
33.05
11.7
II. 13
24.90
11.7
44.01
10.04
11.8
20.31
30.28
1 1.9
40.91
12.94
12.5
40.45
33-38
f2.7
11.33
25.09
12.7
44.40
10. 1 1
12.8
20.57
30.19
12.9
41.07
12.72
13.5
40.43
33-69
13-7
11.52
25.27
13.7
44-77
10. X 8
13-8
20.81
30.11
13.9
41.23
12.52
14.5
40.41
33.98
14.7
11.71
25.44
14.7
45.13
10.24
14.8
21.06
30.05
14.9
41.37
12.33
155
40.39
34.27
15-7
11.90
25.60
15-7
45-48.
10.30
15.8
21.29
29.96
15.9
41.50
12.13
16.5
40.39
34.54
16.7
12.09
25.74
16.7
45-82
10.34
16.8
21.50
29.87
16.9
41.62
11-93
17.5
40.40
34.83
17.7
12.27
25-87
17.7
46.17
10.37
17.8
21.72
29-77
17.9
41.75
"•73
18.5
40.41
35-"
18.7
12.46
26.00
18.7
46.53
10.38
18.8
21.95
29.66
18.9
41.87
11.52
19.5
40.42
35.42
19.7
12.67
26.14
19.7
46.90
10.40
19.8
22.18
29-54
19.9
42.00
11.29
20.5
40.45
35-72
20.7
12.89
26.29
20.7
47.29
10.43
20.8
22.42
29.43
20.9
42.13
11.06
21.5
40.47
36.05
21.7
13.10
26.45
21.7
47.70
10.46
21.8
22.66
29.32
21.9
42.28
10.81
22.5
40.47
36.39
22.7
13.31
26.62
22.7
48.12
10.52
22.8
22.93
29.22
22.9
42.44
10.57
23.5
40.45
36.74
23.7
13.53
26.83
23.7
48.55
io.6x
23.8
23.22
29.13
23.9
42.61
10.36
24.5
40.40
37.10
24.6
13.74
27.06
24.7
48.97
10.71
24.8
23.51
29-07
24.9
42.80
10.15
25-5
40.35
37-44
25,6
13.94
27-31
25.7
49.38
10.83
25.8
23,80
29.03
25.9
43.00
9.95
26.5
40.27
37-78
26.6
14.13
27.57
26.7
49.78
10.98
26.8
24.08
29.02
26.9
43.20
9-78
27.5
40.18
38.09
27.6
14.29
27.83
27.7
50.15
11.14
27.8
24-35
29.03
27.9
43.40
9.64
28.5
40.08
38.39
28.6
14.44
28.08
28.7
50.48
11.29
28.8
24.61
29.06
28.9
4360
9.53
295
40.00
38.66
29.6
14.58
28.32
29.7
50.79
11.44
29.8
24-85
29.08
29.9
43.78
9-42
30.5
39.93
38.91
30.6
14.72
28.54
30.7
5109
11.58
30.8
25.09
29.08
30.8
43.94
9.31
31.5
39.86
39.16
31.6
14-85
28.75
31-7
51.39
II. 71
31-8
25.32
29.07
31.8
44.09
9.19
32.5
39.80
39.42
32.6
1500
28.93
32.7
51.70
11.82
32.8
25.55
29.06
32.8
44.25
9.05
11.97 -11.93
1 1.08 — XI.04
18.41 -18.38
12.23 —12.19
9.76 -9.71
jh ^jBi 2I".27
^k 47« 13". 194
7'* 18" i«.35
9^ 9" 38*.50 1 io»»5^ 57*.052
-85^
' 12' 5
2".03
-84*
U9' 5
13". 1 1
-86<
*53' I
13".62
-85<
> 18' A
k}".98
|-84«
' f I
3".77
[Eph la]
NOVEMBER, 1912.
497
APPARENT PLACES OF CIRCUMPOIvAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 OctanttB.
81 Mensae.
7 Octantis.
C Ootantis.
17 Ootantts.
Mag. 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6.3
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South,
Mean
Solar
Date.
Right
Ascen-
sion.
Decli-
nation
South.
h m
0 *
h m
0 /
h m
0 f
h m
0 /
h m
0 t
Nov.
142
-85 12
Nov.
5 47
-8449
Nov.
717
-8653
ft
Nov.
9 9
-85 18
Nov.
1059
-84 7
1-5
8
39.80
39.42
1.6
8
15.00
28.93
1.7
8
51.70
11.82
1.8
8
25.55
29.06
1.8
8
44.25
9.05
2.5
39-76
39.70
2.6
15.17
29.13
2-7
52.03
11.90
2.8
25.80
29.02
2.8
44.40
8.89
3-5
39-73
40.00
3.6
15.35
29.34
3.7
52.40
12.01
3.8
26.05
28.98
3.8
44.57
8.72
4.4
3967
40.33
4.6
15.52
29.57
4.7
52.78
12.14
4.8
26.32
28.97
4.8
44.76
8.55
5-4
39.58
40.65
5.6
15.70
29.84
5.7
53.16
12.31
5.8
26.60
28.97
5.8
44.97
8.39
6.4
39.48
40.98
6.6
15.87
30.13
6.7
53.54
12.49
6.8
26.90
29.00
6.8
45.19
8-25
7.4
39.36
41.31
7.6
16.02
30.44
7.7
53.91
12.69
7.8
27.20
29.05
7.8
45-42
8.13
8.4
39.23
41.61
8.6
16.16
30.76
8.7
54.26
12.91
8.7
27.49
29.12
8.8
45.65
8.05
9-4
39.07
41.90
9.6
16.28
3109
9.7
54.58
13.15
9.7
27.77
29.21
9.8
45.87
7.99
10.4
38.92
42.17
10.6
16.39
31.40
10.7
54.88
13.38
10.7
28.03
29.32
10.8
46.08
7.94
11.4
38.77
42.43
1 1.6
16.48
31.69
11.7
55.17
13.61
11.7
28.28
29.42
11.8
46.29
7.90
12.4
38.63
42.68
12.6
16.57
31.97
12.7
55.44
13.83
12.7
28.52
29.51
12.8
46.49
7.85
13.4
38.51
42.91
13-6
16.67
32.24
13.7
55.70
14.03
137
28.77
29.60
•
13.8
46.68
7-79
14.4
38.39
43.16
14.6
16.77
32.50
14.7
55.97
14.21
14.7
29.00
29.66
14.8
46.86
7-74
15.4
38.28
4341
15.6
16.88
32.75
15.7
56.26
14.39
15.7
29.24
29.71
15.8
47.05
7.67
X6.4
38.17
43.67
16.6
16.99
33.02
16.6
56.56
14.57
16.7
29.50
29.77
16.8
47.24
7-59
17-4
38.05
43-94
17.6
I7.II
33.30
17.6
56.87
14.76
17.7
29.75
29.83
17.8
47.44
7.51
18.4
37-93
44.21
18.6
17.24
33.59
18.6
57.18
14.97
18.7
30.01
29.90
18.8
47.65
7.43
X9.4
37.79
44.49
19.6
17.36
33.89
19.6
57.51
15-20
19.7
30.29
29.99
19.8
47-87
7.36
20.4
37-62
44.79
20.6
17.48
34.22
20.6
57.84
15.45
20.7
30.58
30.10
20.8
48.11
7.30
21.4
37.45
45.06
21.6
17.58
34.58
21.6
58.15
15.72
21.7
30.86
30.23
21.8
48.36
7.26
22.4
37.27
45.32
22.6
17.67
34-93
22.6
58.44
16.02
22.7
31.14
30.38
22.8
48.61
7.25
23.4
37.06
45.58
23.6
17.74
35.30
23.6
58.70
16.33
23-7
31.40
30.55
23.8
48.86
7.27
24.4
36.84
45.81
24.6
17.80
35.65
24.6
58.92
16.64
24-7
31.66
30.74
24.8
49.10
731
25.4
36.64
46.02
25.6
17.82
35-99
25.6
59.12
16.94
25-7
31-90
30.95
25.8
49.32
7.37
26.4
36.45
46.21
26.6
17.85
36.32
26.6
59.30
17.22
26.7
32.12
31.15
26.8
49.54
7.45
274
36.26
46.38
27.6
17.87
36.62
27.6
59.47
17.49
27.7
32.32
31.33
27.8
49.73
7.52
28.4
36.08
46.54
28.6
17.90
36.90
28.6
59.64
17.74
28.7
32.52
31.49
28.8
49.91
7.54
29.4
35-92
46.71
29.6
17.94
37.17
29.6
59.83
17.97
29.7
32.73
31.63
29.8
50.09
7.56
304
35.74
46.88
30.5
17.99
37-46
30.6
60.04
18.21
30.7
32.95
31-77
30.8
50.29
7.57
31-4
35-58
47.08
31.5
18.05
37.77
31.6 60.27
18.46
31.7
33.18
31.93
31-8
50.50 7.58
11.98 —11.94
11.09 —11.04
18.42 —18.39
12.23 -12.19
9.76 -9.71
I»> 42™ 2I".27
5^ 47" 13". 194
yh i8» 1-.35
9^ 9" 38'.50 lo"* 59» 57».052
-85*12' 52".03 -84<>49' 53".ii |
-86<>53' 33".62 -85«» 18' 43^.98 |-84<> / i3".77
TOT
\o.
I'i
[Eph Z3
]
498
DECEMBER, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 Octantis.
81 Mensse.
7 Ootantis.
C Octantis.
77 OctaatlB.
Mag. 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6
.3
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
; Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
' sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Dedt-
nation
South.
h ro
0 /
h m
0 1
h m
0 /
h m
0 /
h m
e 9
Dec.
142
-85 12
Dec.
5 47
-8449
0f
Dec.
718
-8653
Dec.
9 9
-85 18
mg
Dec.
1059
-84 7
mm
1.4
8
35.58
47.08
1-5
s
18.05
37-77
1.6
s
0.27
18.46
1.7
s
33-18
w9
31-93
1.8
s
50.50
WW
7.58
2.4
3541
47-31
2.5
18.12
38.10
2.6
0.51
18.74
2.7
33-42
32.09
2.8
50.72
7-58
3-4
35-21
47.55
3.5
18.18
38.46
3-6
0.76
19.04
3-7
33.68
32.27
3.8
50.96
7.60
4.4
34.99
47-77
4.5
18.23
38.83
4-6
0.99
19.37
4.7
33-94
32.49
4.8
51.22
7.66
5.4
34.76
47.98
1
5.5 ' 18.26
39.22
5-6
1.20
19.72
5.7
34- 20
32.72
5-8
51.48
7.73
6.4
34.50
48-17
6.5
18.27
39-61
6.6
1.38
20.08
6.7
34-44
32.97
6.7
51.73
7.84
7.4
3424
48.33
7.5
18.26
39-98
7-6
1-53
20.44
7.7
34-66
33-24
7-7
51.97
7-97
8.4
33-99
48.47
8.5
18.24
40.34
8.6
1.66
20.79
8.7
34-86
33.50
8-7
52.19
8.10
9.4
33.74
48.60
9-5
18.22
40.68
9-6
1,76
21.11
9.7
35-05
33-76
9-7
52.41
8.23
10.4
33.51
48.72
10.5
18.20
41.01
10.6
1.86
21.42
10.7
35-24
34-01
10.7
52.61
8.36
II.3
33.29
48.84
II-5
18.17
41-32
II. 6
1.96
21.73
II. 7
35-42
34-24
11.7
52.81
8.48
12.3
33.08
48.96
12.5
18.13
41.62
12.6
2.08
22x3
12.7
35-59
34-47
12.7
53.00
8.60
133
32.88
•
49.08
13.5
18.12
41-92
13-6
2.20
22.32
13-7
35-77
34-69
»3.7
53.20
8.70
14.3
32.67
49-21
14.5
18.12
42.23
14.6
2.32
22.60
14.6
35.96
34-90
14-7
53.39
8.79
15.3
32.46
49-35
15-5
i8.li
42.54
15.6
2-45
22.90
15.6
36.16
35-13
15.7
53.59
8.89
16.3
32.25
4950
16.5
18.10
42.87
16.6
2-59
23.21
16.6
36.36
35-37
16.7
53.80
8.99
173
32.01
49-65
17.5
18.10
43.23
17.6
2-74
2355
17.6
36.57
35-62
17.7
54.02
9.10
18.3
31.75
49-79
18.5
18.08
43-62
18.6
2.87
23.90
18.6
36.78
35-89
18.7
5426
9.24
19.3
31.48
49-93
19.5
18.05
44-00
19.6
2.98
24.28
19.6 1 37.00
36.19
«9-7
54-50
9.40
20.3
31-20
50.04
20.5
18.00
44-39
20.6
3.07
24.68
20.6
37-20
36.52
20.7
54.74
958
21.3
30.92
50.12
21.5
17.92
44-77
21.6
3.12
25.08
21.6
37-38
36.85
21.7
54-97
9.79
22.3
30.64
50.18
22.5
17.83
45-13
22.6
3-13
25.47
22.6
37-55
37-19
22.7
55.19
10.03
233
30.35
50.22
23-5
17.72
45-48
23.5
3-"
25.84
23.6
37.69
37-53
23.7
55.40
10.27
24.3
30.08
50.23
24-5
17.62
45.80
24.5
3-08
26.18
24.6
37-80
37.86
24.7
55.58
10.51
25.3
29.83
50.25
25.5
17-51
46.10
25-5
3-06
26.51
25.6
37.91
38.18
25.7
55.75
10.73
26.3
29.59
50.26
26.5
17.41
46.37
26.5
304
26.82
26.6
38.02
38.47
26.7
55.91
10.93
273
29.36
50.29
27-5
17.33
46.65
27-5
3-04
27.12
27.6
38.14
38.75
27.7
56.08
11.12
28.3
29.14
50.33
28.5
17.26
46.94
28.5
3-05
27.43
28.6
38.27
39.02
28.7
56.26
11.30
29-3
28.91
50.40
29.5
17.20
47-25
29-5
3-09
27.76
29.6
38.42
39.31
29.7
56.45
11.47
30-3
28.67
50.46
30.5
17-13
47.58
30.5
3.14
28.11
30.6 , 38.58
39.62
30.7 ' 56.66
11.66
31.3
28.39
50.53
31.5
17.06
47-93
3J.5
3-17
28.48
31-6 38.75
39.94
3»-7
56.87
11.88
32.3
28.09
50.59
32.5
16.96
48.30
32.5
3.17
28.88
32.6 138.91
40.29
32.7
57.08
12.11
11.98 -11.94
11.10 —11.05
18.43 -18.40
12.23 —12.19
9.76
-9.71
I** 42™ 21».27
jh 47« 13-. 194
7»» i8«» iV35
9^ 9» 38*.50
lo** 59" «
)7'.052
-85 0
12' 5
2".o3 1
-840
49' 5
3".ii 1
-86«
53' 3
3".62 1
-85 «
' 18' ^
.3"-98
-84«
7' I
3".77
[Eph za]
JANUARY, 1912.
499
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
t OctantiB.
d Ootantis.
X Ootantts.
<T Ootantis.
V OctantiB.
Mag. 5.4
Mag. 4.1
Mag. 5.2
Mag, 5.5
Mag. 5.7
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
South,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South,
Mean
Solar
Date.
Right
Ascen-
sion.
DecU-
nation
Souih.
h m
0 /
h m
0 /
h m
0 /
h m
0 t
h m
0 t
Jan.
1245
-8438
Jan.
14 12
-8315
n
Jan.
18 2
-8739
Jan.
19 18
-8914
Jan
22 14
-8625
0.8
s
30-61
22.60
0.8
8
31.89
40.44
0.9
8
34.98
57-96
I.O
s
0.03
16.26
I.I
8
59.45
20.20
1.8
30.91
22.72
1.8
32.13
40.43
1.9
35.29
57-61
2.0
0.36
15.86
2.1
59.23
19.88
2.7
3119
22.86
2.8
32.37
40.43
2.9
35.62
57.28
3-0
0.81
15-48
3.1
59.03
19.57
3.7
31.45
23.01
3.8
32.59
40.46
3.9
35.97
56.97
4-0
1.32
15.13
4.1
58.86
19.26
4.7
3169
23.17
4.8
32.80
40.50
4-9
36.31
56.69
5.0
1.85
14.80
5.1
58.71
18.97
5.7
31.91
23.33
5.8
33.00
40.53
5.9
36.63
56.44
6.0
2.34
14.48
6.1
58.57
18.69
6.7
32.12
23.47
6.8
33.18
40.55
6.9
36.92
56.20
7-0
2.73
14.18
7.1
58.42
18.43
7-7
32.34
23.60
7.8
33.36
40.55
7-9
37.19
55-94
8.0
3.04
13.88
8.1
58.24
18.19
8.7
32.57
23.70
8.8
33.55
40.54
8.9
37-44
55.67
9.0
3.27
13.58
9-1
58.04
17.95
9-7
32.81
23.79
9.8
33-75
40.52
9.9
37.69
55-38
1 0.0
3.46
13.26
10. 1
57.83
17.68
10.7
33.05
23.89
10.8
33-95
40.49
10.9
37.96
55.07
10.9
3-67
12.91
II. I
57-61
17.39
11.7
33.31
24.00
11.8
34.18
40.i^8
1 1.9
38.25
54-74
1 1.9
3.95
12.54
12. 1
57.39
17.09
12.7
3359
24.14
12.8
34.41
40.48
12.9
38.58
54.40
12.9
4.32
12.16
13-1
57.18
16.77
13.7
33.87
24.30
13.8
34.64
40.50
13.9
38.95
54.07
13.9
4.80
11.78
14. 1
56.98
16.44
147
34.14
24.48
14.S
34.88
40.53
14.9
39-35
53-75
14.9
5-39
II.4I
I5-I
56.80
16.10
15-7
34.39
24.67
15.8
35*"
40.58
15.9
39.76
53-45
15.9
6.08
11.04
16. 1
56.65
15-75
16.7
34.64
24.88
16.8
35.34
40.65
16.9
40.19
53.17
16.9
6.84
10.69
17.1
56.52
15-40
17.7
34.88
25.10
17.8
35.55
40.74
17.9
40.63
52.91
17.9
7.66
10.35
18.1
56.41
1505
18.7
35."
25.32
18.8
3576
40.84
18.9
41.06
52.67
18.9
8.50
10.03
19. 1
56.31
14.72
19.7
35.32
25.53
19.8
35-96
40.95
19.9
41.47
52.44
19.9
9.33
9.72
20.1
56.21
14.40
20.7
3552
25-74
20.8
36.x 6
41.05
20.9
41.87
52.21
20.9
10.12
9.42
21. 1
56.11
14.10
21.7
35.72
25.94
21.8
36.36
41.14
21.9
42.26
51.99
21.9
10.84
9.13
22.1
56.00
13-80
22.7
35 93
26.13
22.8
36.55
41.22
22.9
42.64
51.76
22.9
11.51
8.84
23.1
55-88
13.50
23.7
36.15
26.31
23.8
36.74
41.28
23.9
4301
51.52
23.9
12.14
8.54
24.1
55.76
13-21
24.7
36.37
26.49
24.7
36.93
41.34
24.9
43.39
51.26
24.9
12.76
8.22
25.1
55.63
12.89
25-7
36.60
26.68
25.7
37- 14
41.40
259
43.78
50.98
25.9
13.43
7.88
26.1
55-48
12.55
26.7
36.85
26.89
26.7
37.38
41.46
26.9
44.21
50.69
26.9
14.20
7.52
27.1
55.34
12.18
27.7
37."
27.12
27.7
37.62
41.55
27.9
44.69
50.40
27.9
15-10
7.15
28.1
55.21
11.78
28.7
37.37
27.38
28.7
37.87
41.67
28.9
45.21
50.12
28.9
16.15
6.78
29.1
55.11
11.37
29.7
37.61
27.67
29.7
38.11
41.82
29.9
45.77
49-85
29-9
17.35
6.42
30.1
5504
10.96
30.7
37.83
27.97
30.7
38.35
41.99
30.9
46.36
49.62
30.9
18.63
6.09
31. 1
55-00
10.56
31.7
38.04
28.28
31.7
38.57
42.18
31.9
46.93
49.42
31.9
19.94
5.79
32.1
54.99
10.17
32.7
38.23
28.59
32.7
38.77
42.39
32.9
47.48
4924
32.9
21.24
, 5.50
33.1
55.00
9.81
10.71 —10.66
8.52 -8.46
24.54 -24.52
75.04 -
-75.03
16.02 -15.99
12*^ 45"* 37*.397
I4»» i2»» 4i".586
18** 3" I3».2i6
19^ 19"
42*. 1 7
22»» i5» 6".74
-84^
38' A
4".33
-83 «
^15' i
)7 •*5
-87*=
•39' 5
3".25
-89*
>I4'
4".37
-86
^^\' I
i7".5a
[Eph 13]
500
FEBRUARY, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
t OctanttB.
S OctantiB.
X OotantlB.
V OctentiB.
Mag. 5.4
Mag. 4.1
Mag. 5.2
Mag. 5.5
Mag. 5.7
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
Soulh.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Ritfht
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean; Right
Sc4ar 1 Ascen-
Date. sion.
DecU-
natioo
South.
h m
e f
h m
0 f
h m
0 f
h m
e /
h.m
0 /
Feb.
12 4.')
-8438
Feb.
14 12
-8315
Feb.
18 2
-8739
ft
Feb.
19 18
-8913
n
Feb.
22 14
—8624
1.7
s
38.23
28.59
1-7
8
38.77
42.39
1-9
8
47.48
49.24
1.9
8
21.24
65.50
I.I
8
54.99
70.17
2.7
38.40
28.88
2.7
38.96
42.58
2.9
48.01
49.07
2.9
22.49
65.23
2.1
55.00
69.81
3.7
38.57
29.16
3-7
39.X4
42.75
3.9
48.52
48.91
3.9
23.61
64.96
3.1
5500
69.45
4.7
38.75
29.42
4-7
39.33
42.91
4.9
49.00
48.73
4.9
24.66
64.70
4.1
54.99
69.11
5.7
38.93
29.66
5.7
39.52
43.05
5.9
49.47
48.54
5.9
25.66
64.43
5.1
54.95
68.79
6.7
39- 1 3
29.91
6.7
39-72
43.18
6.9
49.94
48.32
6.9
26.65
64.13
6.1
54.89
68.46
7.7
39.34
30.16
7.7
39.93
43-31
7.9
50.42
48,09
7.9
27.67
63.81
7.0
54.82
68.12
8.6
3956
30.43
8.7
40.14
43.46
8.9
50.94
47.85
8.9
28.76
63.49
8.0
54.75
67.76
9.6
39.78
30.71
9.7
40.36
4362
9.9
51.49
47.61
9.9
29.95
63.16
9.0
54.68
67.38
10.6
39-99
31.01
10.7
40.59
43.80
10.9
52.06
47.39
10.9
31.25
62.83
1 0.0
54.62
66.98
11.6
40.20
31.33
11.7
40.81
43.99
XI.9
52.66
47.X9
11.9
32.63
62.50
II.O
54.59
66.57
12.6
40.40
31.68
12.7
41.02
44.21
12.9
53.28
47.00
12.9
34.09
62.19
12.0
54.59
66.15
13.6
40.58
32.02
13.7
41.22
44.44
13.9
53.90
46.84
13.9
35.61
61.91
13.0
5460
65-73
14.6
40.75
32.36
14.7
41.42
44.68
14.9
54.51
46.69
14.9
37.15
61.65
14.0
54.63 65.33
15-6
40.90
32.69
15.7
41.61
44.93
»5.8
55."
46.56
15.9
38.67
614I
15.0
54.68
64.95
16.6
41.04
33.02
16.7
41.78
45.17
16.8
55.70
46.44
16.9
40.15
61.18
16.0
54.74
64.58
17.6
41.18
33.34
17.7
41.95
45.40
17.8
56.27
46.33
17.9
41.59
60.96
17.0
54.80
64.22
18.6
41.31
33.65
18.7
42.11
45.62
18.8
56.82
46.21
18.9
42.96
60.75
18.0
54.86
63.86
19.6
41.45
33.95
19.7
42.28
45.83
19.8
57-35
46.08
X9.9
44.26
60.53
19.0
54.91
63.51
20.6
41.60
34.25
20.7
42.46
46.03
20.8
57.88
45.94
20.9
45.49
60.29
20.0
54.94
63.17
21.6
41.76
34.54
21.7
42.65
46.23
21.8
58.42
4578
21.9
46.75
60.03
21.0
54.96
62.81
22.6
41.93
34.85
22.7
42.84
46.43
22.8
58.99
45.60
22.9
48.09
59.75
22.0
54.97
62.44
23.6
42.12
35.17
23.7
43.04
46.65
23.8
59.60
45.42
23.9
49.52
59.46
23.0
54.99
62.04
24.6
42.30
35.51
24.7
43.25
46.89
24.8
60.24
45.25
24.9
5X.II
59.17
24.0
55.02
61.63
25.6
42.47
35.88
25.7
4346
47.16
25.8
60.92
45.10
25.9
52.84
58.89
24.9
55.06
61.21
26.6
42.63
36.28
26.7
43.66
47.45
26.8
61.62
44.97
26.9
54.65
58.63
25.9
55.12
60.78
27.6
42.77
36.69
27.7
43.85
47-77
27.8
62.34
44.87
27.9
56.54
58.40
26.9
55.21
60.35
28.6
42.89
37.09
28.7
44.02
48.09
28.8
63.04
44.80
28.9
58.44
58.20
27.9
55.33
59.94
29.6
42.99
37.48
29.7
44.17
48.41
29.8
63.71
44.75
29.9
60.26
58.02
28.9
55.48
59.54
30.6
43.08
37.85
30.6
44.32
48.71
30.8
64.34
44.72
30.9
62.00
57.85
29.9
55.63
59-15
10.71 —10.66
I
J.52 -8.46
21
^.52 -24.50
74.77 -74.77
i6,oi -15.97
"'^ 45"* 37*.397 1 14*" 12" 4i*-586
x8*» 3" I3".2i6
19** 19" 42". 1 7
22*» I5» 6».74
-84'* 38' 44".23 1-83^15' 57". 15
-87^*39' 53".25
-89»i4' 4''.37
-86«»a4' 57".52
[Eph X
>]
MARCH, 1912.
501
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
t Octantis.
£ Octantis.
X OctanUs.
(T Octantis.
V OctaatU.
Mag. 5.4
Mag. 4.1
Mag. 5.2
Mag. 5.5
Mag. 5.7
Mean Right
Solar Ascen-
Date. sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
Sottik.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
Sottik.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
Soutk,
Mean
Solar
Date.
Right
Ascen-
sion.
DecH-
nation
South.
h m
0 /
h m
0 /
h m
0 /
h m
0 /
h m
Q f
Mar.
1245
-8438
ft
Mar.
14 12
-8315
Mar.
i8 3
-8739
tt
Mar.
1919
-8913
Mar.
22 14
-8624
1.6
s
43.08
37.85
1.6
8
44.32
48.71
1.8
t
4-34
44.72
1-9
8
2.00
57.85
1.9
8
55.78
58.79
2.6
43.17
38.20
2.6
44.46
49-00
2.8
4-95
44.67
2-9
3.63
57.68
2.9
55.91
58.44
3.6
43.27
38.54
3.6
44.61
49-27
3.8
5.52
44.61
3.9
5.18
57.50
3.9
56.02
58.10
4.6
43.38
38.87
4.6
44.76
49.52
4-8
6.09
44.53
4-9
6.68
57.30
4.9
56. 11
57.76
56
43.50
39.20
5.6
44.92
49.76
5.8
6.67
44.43
5-8
8.19
57.09
5.9
56.19
57.41
6.6
43.63
39.54
6.6
4509
50.01
6.8
7.28
44.32
6.8
9.76
56.87
6.9
56.27
57.04
7.6
43.76
39.89
7.6
45.27
50.28
7.8
7-91
44.20
7-8
11.40
56.64
7.9
56.36
56.65
8.6
43.89
40.27
8.6
45.45
50.57
8.8
8.58
44.10
8.8
13.12
56.41
8.9
56.48
56.24
9.6
44.02
40.66
9.6
45.62
50.87
9.8
9-27
44.01
9-8
14.93
56.19
9.9
56.61
55.83
10.6
44.14
41.07
10.6
45-79
51.18
10.8
9-97
43.95
10.8
16.82
55-99
10.9
56.75
55.43
11.6
44.24
41.48
II. 6
45-95
51-51
11.8
10.66
43.91
11.8
18.75
55-82
11.9
56.91
55.04
12.6
44.32
41.89
12.6
46.10
51-86
12.8
11.35
43.89
12.8
20.70
55-67
12.9
57.10
54.65
136
44-39
42.29
13.6
46,24
52.20
13-8
12.03
43.88
13-8
22.64
55-53
13.9
57.30
54.27
14.6
44-45
42.69
14.6
46.36
52.54
14.8
12.70
43.89
14.8
24.54
55.41
14.9
57.50
53.92
15.5
44.50
43.08
15.6
46.48
52.88
15-8
13.34
43.90
15-8
26.38
55.30
15.9
57.70
53.60
X6.5
44-54
43.45
16.6
46.60
53.20
16.8
13.96
43.91
16.8
28.15
55.19
16.9
57.90
53.28
17-5
44.58
43.82
17.6
46-71
53-51
17.8
14.54
43.92
17.8
29.86
55.08
17.9
58.10
52.97
18.5
44.64
44.17
18.6
46.82
53-80
18.8
1513
43.91
18.8
31.53
54.96
18.9
58.28
52.65
195
44.71
44.51
19.6
46.94
54-08
19.8
15-73
43.89
19.8
33.18
54-82
19.9
58.44
52.32
20.5
44.79
44.86
20.6
47.08
54-37
20.8
16.34
43.86
20.8
34.85
54.66
20.9
58.59
51.97
21.5
44.88
45-22
21.6
47.22
54.67
21.8
16.98
43.81
21.8
36.59
54-48
21.9
58.75
51.61
22.5
44-97
45.61
22.6
47.37
54.99
22.7
17.65
43-77
22.8
38.44
54-31
22.9
58.92
51.23
23.5
45-05
46.01
23.6
47.52
55.33
23-7
18.35
43.75
23-8
40.41
54.15
23.9
59.11
50.83
24.5
45.12
46.44
24.6
47-67
55.69
24-7
19.08
43.75
24.8
42.49
54.01
24.9
59.33
50.45
25-5
45.17
46.88
25.6
47-80
56.07
25.7
19.81
43.77
25.8
44.64
53.89
25.9
59.57
50.04
26.5
45.20
47.32
26.6
47.92
56.46
26.7
20.53
43.82
26.8
46.80
53.79
26.9
59.84
49.67
27-5
45.21
47.75
27.6
48.03
56.86
27.7
21.23
43.89
27.8
48.91
53.72
27-9
60.13
49.33
28.5
45.21
48.15
28.6
48.12
57.25
28.7
21.89
43-99
28.8
50.92
53.67
28.9
60.42
49.03
29.5
45.21
48.54
29.6
48.20
57.62
29.7
22.51
44.07
29.8
52.82
53.64
29-9
60.69
48.74
30.5
45.21
48.90
30.6
48.27
57.96
30.7
23.10
44.14
30.8
54.64
53.60
30.9
60.95
48.46
315
45-22
49.25
31.6
48.35
58.28
31.7
23-67
44.20
31-8
56.38
53.54
31-9
61.18
48.18
32.5
45.24
49.60
32.6
48.45
58.59
32.7
24.25
44-23
32.8
58.09
53.46
32.9
61.39
47.89
10.72 -10.67
8.53 -8.47
24.52 -24.49
74.61 -74.60
15.99 -15.96
">» 45"" 37*.397
I4»» 12™ 4i*.586
jgh ^m i3«,2l6
ig^ 19" 42*. 1 7
22** 15™ 6". 74
-84** 38' 44".23
-83 •* 15' 57". 15
-87*' 39' 53".25
-89» 14' 4".37
-86«»24' 57".52
[Eph X
a]
502
APRIL, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
I OotantiB.
S Octantts.
X Ootantts.
or OotantiB.
V OctantU.
Mag. 5.4
Mag. 4
•x
Mag. «
;-2
Mag. 5.5
Mag. 5.7
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
SoUtf
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
DecUna*
tion
So%ah.
Mean
Solar
Date.
Right
Ascen-
sion.
Decfi-
natioti
Souik.
h m
0 /
h m
0 /
h m
0 /
h m
0 /
h m
0 r
Apr.
1245
-8438
It
Apr.
14 12
-8315
Apr.
i8 3
-8739
n
Apr.
19 19
-8913
Apr.
22 15
-8624
1-5
8
45-24
49.60
1.6
8
48.45
58.59
1.7
8
24-25
44.23
1.8
8
58.09
53.46
1.9
s
1.39
47.89
2.5
45-27
49-95
2.6
48.55
58.90
2.7
2485
44.25
2.8
59.83
53.37
2.9
1.59
47.57
3-5
4531
50.32
3.6
48.66
59.22
3.7
25.47
44.27
3.8
61.64
53.27
3.9
1.80
47-24
4.5
45-35
50.70
4.6
48.77
59.55
4.7
26.12
44.30
4.8
63.54
53.17
4.9
2.03
46.90
5.5
45-39
51.10
5.6
48.88
59.90
5.7
26.79
44.34
5.8
65.52
53.08
5.9
2.27
46.56
6.5
4541
51.51
6.6
48.98
60.27
6.7
27-47
44.40
6.8
67.56
53.00
6.9
2.53
46.21
7-5
45.42 1 51.92
7-5
49.08
60.65
7-7
28.15
44.47
7.8
69.63
52.93
7.9
2.81
45.87
8.5
45.41
52.33
8.5
49.17
61.04
8.7
28.82
44.57
8.8
71.73
52.89
8.9
3.12
45.55
9-5
45-40
52.74
9-5
49.24
61.44
9.7
29.47
44.69
9.8
73.81
52.87
9.9
343
4524
10.5
45.37
53.14
10.5
4930
61.83
10.7
30.11
44.82
10.8
75.85
52.87
10.9
3.75
44.95
11.5
45-32
53.53
".5
49.35
62.21
11.7
30.72
44.97
11.7
77.83
52.89
1 1.9
4.08
44.68
12.5
45.27
53.90
X2.5
49.40
62.58
12.7
31.30
45.12
12.7
79-73
52.91
12.9
4.40
44.44
135
45-22
54.26
13.5
49-44
62.94
13.7
31.87
45.26
13.7
81.56
52,92
13.9
4.70
44.21
14.5
45.18
54.60
14-5
49.48
63.28
14.7
32.41
45.38
14.7
83.31
52.94
14.9
4.99
43.98
15-5
45-15
54-94
15.5
49.53
63.61
15.7
32.94
45.49
15.7
85.02
52.94
15.9
5.26
43.74
16.5
45-13
55-27
16.5
49.59
63.94
16.7
33.48
45.58
16.7
86.73
52.92
16.9
5.52
4348
175
45-12
55-61
17.5
49.66
64.27
17.7
34.05
45.66
17.7
88.48
52.88
17.9
5.77
43.21
18.5
45-"
55-97
18.5
49.73
64.61
18.7
34.66
45.75
18.7
90.33
52.83
18.9
6.03
42.93
19.5
45."
56.35
19-5
49.81
64.96
19.7
35.29
45.85
19.7
92.28
52.79
19.8
6.31
42.64
20.5
45.09
56.75
20.5
49.89
65.34
20.7
35.94
45.96
20.7
94.34
52.77
20.8
6.62
42.34
21.4
45.05
57-16
21.5
49.95
65.74
2X.7
36.61
46.09
21.7
96.48
52.76
21.8
6.95
42.03
22.4
45.00
57.57
22.5
50.00
66.15
22.7
37.26
46.26
22.7
98.63
52.79
22.8
7.32
41.74
234
44.92
57-97
235
50.03
66.57
237
37.89
46.45
23.7
100.74
52.85
23.8
7.71
4».49
24.4
44.82
58.36
24-5
50.05
66.97
24-7
38.48
46.66
24.7
102.75
52.94
24.8
8.09
41.27
25-4
44-72
58.72
25.5
50.06
67.36
25.7
39.02
46.87
25.7
104.65
53.03
25.8
8.45
41.07
26.4
44.63
59-05
26.5
50.06
67.72
26.7
39.53
47.07
26.7
106.44
53.12
26.8
8.79
40.89
27,4
44.54
5936
27.5
50.07
68.06
27-7
40.02
47.26
27.7
108.12
53.21
27.8
9.XX
40.72
28.4
44-47
59-67
28.5
50.09
68.38
28.6
40.50
A7.42
28.7
109.76
53.27
28.8
9.43
40.53
29.4
44.43
59.98
29-5
50.11
68.69
29.6
40.99
47.57
29.7
1 1 1.39
53.31
29.8
9.74
40.33
30.4
44.38
60.29
30.5
50.14
69.01
30.6
41.50
47.71
30.7
113.07
53.35
30.8
10.04
40.1 X
31.4
44.32
60.62
31.5
50.18
6935
31-6
42.04
47.84
31.7
1 14.82
53.38
31.8
10.35
39.89
32.4
44.26
60.97
32.5
50.22
69.70
32.6
42.60
47.99
32.7
116.64
53.41
32.8
ia67
39.66
10,72 -10,68
8.53
-847
24.52 -
•24.50
74.54 -
74.54
15
.98 -15.95
"»» 45"" 37*.397
14^ 12m ,
4i'.586
,gh ^m
I3».2i6
19'' 19™ 4
♦2*. 1 7
22^
15"^ 6-.74
-84^
38' 4
4".23 1
-83*
^15' 5
7".iS
-87*
'39' 5
3".25
-89 «
14'
4''.37
-86«
24' 5
7".52
LBph u]
MAY, 1912.
503
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
t Octantis.
^ Octantis.
X Octantis.
cr Octantis.
V Octantis.
Mag. 5.4
Mag. 4
.1
Mag. 5.2
Mag. 5.5
Mag. 5.7
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South,
Mean
Solar
Date.
Higbt
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Decli-
nation
South.
h m
0 /
h m
0 /
h m
0 /
h m
0 /
h m
0 t
May
1245
-8439
I*
May
14 12
-83 16
May
18 3
-8739
May
19 20
-8913
May
22 15
-8624
n
1.4
8
4432
0.62
1-5
s
50.18
9-35
1.6
s
42.04
47.84
1-7
8
54.82
53.38
1.8
s
10.35
39-89
2.4
44.26
0.97
2.5
50.22
9.70
2.6
42.60
47.99
2.7
56.64
53.41
2.8
10.67
39-66
3.4
44.19
1.33
3-5
50.25
10.07
3.6
43.16
48.16
3-7
58.53
53.45
3-8
II.OI
39.41
4-4
44.12
1.70
4.5
50.27
10.44
4.6
43-74
48.35
4.7
60.47
53.51
4-8
11.37
39.17
5-4
4403
2.06
5.5
50.28
10.82
5.6
44.30
48.55
5.7
62.41
53.60
5.8
11.74
38.96
6.4
43.92
2.42
6.5
50.28
11.20
6.6
44.84
48.79
6.7
64.33
53-70
6.8
12.12
38.77
7.4
43.80
2.76
7.5
50.27
"59
7.6
45.37
49.04
7-7
66.22
53.82
7.8
12.51
38.60
8.4
43.67
3.09
8.5
50.25
11.97
8.6
45.86
49.29
8.7
68.04
53.96
8.8
12.90
38.45
9-4
43.54
3.41
9.5
50.23
12.33
9.6
46.33
49.54
9-7
69.78
54-10
9.8
13.28
38.32
10.4
43.40
3.70
10.5
50.20
12.68
10.6
46.76
49.79
10.7
71.42
5425
10.8
13.65
38.20
1 1.4
4327
3.98
"•5
50.17
13-01
11.6
47.18
50.03
II. 7
72.98
54.39
11.8
14.01
38.09
12.4
43.15
4.24
12.5
50.14
13.31
12.6
47-58
50.26
12.7
74.49
54.52
12.8
H-35
37.97
13.4
43.04
4.50
13.5
50.11
13-61
13.6
47-98
50.47
13.7
75.96
54.64
13.8
14.67
37.85
14.4
42.94
4.77
14.4
50.09
13-91
14.6
48.40
50.66
14.7
77.44
54.75
14.8
14.98
37.72
154
42.85
5.05
15.4
50.09
14.21
15-6
48.84
50.84
15.7
78.99
54.84
15.8
15.30
37.56
16.4
42.77
5.34
16.4
50.09
14-54
16.6
49-30
5103
16.7
80.65
54.93
16.8
15.64
37.39
17.4
42.68
5.65
17.4
50.09
14.88
17.6
49.80
51.23
17.7
82.40
55.03
17.8
16.00
37-22
18.4
42.57
5.98
18.4
50.09
15.24
18.6
50.31
51-45
18.7
84.24
55.15
18.8
16.38
37-05
19.4
42.44
6.31
19.4
50.07
15.62
19.6
50.82
51-70
19.6
86.12
55-30
19.8
16.78
36.89
20.4
42.28
6.63
20.4
50.03
16.01
20.6
51-31
51.98
20.6
87.96
55-48
20.8
17.21
36.75
21.4
42.11
6.94
21.4
49.97
16.38
21.6
51-76
52.28
21.6
89.73
55.68
21.8
17.64
36.65
22.4
41.93
7.23
22.4
49.91
16.73
22.6
52.16
52.58
22.6
91.38
55.89
22.8
18.06
36.58
234
41.76
7.49
23.4
49.84
17.06
23.6
52.50
52.89
23.6
92.88
56.11
23.8
18.46
36.54
24.4
41-59
7.73
24.4
49-77
17.36
24.6
52.82
53-18
24.6
94-25
56.32
24.8
18.83
36.49
25.4
41.44
7.94
25.4
49.70
17.64
25.6
53-13
53.44
25.6
95-54
56.51
25*8
19.17
36.44
26.4
41.30
8.15
26.4
49.65
17.90
26.6
53-44
53-69
26.6
96.80
56.68
26.7
19.50
36.38
27.4
41.17
8.36
27.4
49.61
18.17
27.6
53-76
53.92
27.6
98.08
56.83
27.7
19.82
36.32
28.3
4105
8.58
28.4
49-57
18.45
28.6
54-09
54.14
28.6
99.41
56.97
28.7
20.15
36.24
293
40.92
8.83
29.4
49.53
18.74
29.6
54-44
54.37
29.6
100.80
57.11
29.7
20.49
36.14
30.3
40.78
9.08
30.4
49-49
19.04
30.6
54-82
54-61
30.6
102.25
57.26
30.7
20.85
36.04
313
40.64
9.33
31.4
49.44
19.35
31-6
55-20
54-88
31.6
103.77
57.43
31.7
21.23
35-95
32.3
40.49
9.58
32.4
49-38
19.68
32.6
55-57
55-16
32.6
105.29
57-61
32.7
21.62
35.88
10.73 -
-X0.68
8.53
-8.47
24.54 -24.52
74.61 -74.60
15.97 -15-94
12^ 45"* ,
37'.397
14^ 12"*
4i*.586
18** 3^ I3*.2i6
19** i9» 42". 1 7
22*» 15" 6*. 74
-84«
38' 4
4".23
-83^
^15' 5
.7".i5
-87*
*39' 5
i3".25
-89<
>i4'
4".37
-86'
^24' 5
;7''.52
[Bph la]
504
JUNE, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
t Octantls.
^ Octantls.
X OctanttB.
(T Ootantis.
V OotantlB.
Mag. 5.4
Mag. j\
^•I
Mag. «
;.2
Mag. 5.5
Mag. 57
Meim
Solar
Date.
Right
Ascen-
sion.
DecHna-
tion
South.
Mean
Solar
Date.
lUght
Ascen-
sion.
Declina-
tion
South,
Hran
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
Mean
Solar
Date.
Right
Ascen-
sion.
Decfi-
aation
Stmth.
h m
0 /
h m
0 /
h m
e /
h m
0 /
h m
0 t
June
1245
-8439
June
14 12
-8316
June
18 3
-8739
ft
June
19 21
-89 13
June
22 15
-8624
ft
1-3
t
40.49
9.58
1.4
s
4938
19.68
1.6
s
55-57
5516
1.6
s
45.29
57.61
1-7
8
21.62
35.88
2.3
40.32
9.83
2.4
49-31
20.01
2.6
55.93
55-45
2.6
46.81
57.82
2.7
22.02
35.82
3-3
4013
10.08
3.4
49.23
20.34
3-6
56.26
55.76
3.6
48.28
58.05
3.7
22.43
3578
4.3
39-94
10.3 X
4.4
49.14
20,65
4-5
56.57
56.08
4.6
49.68
58.30
4.7
22.84
35.76
5.3
39-75
10.51
5.4
49.04
20.95
5-5
56.85
56.41
5.6
50.99
58.57
5.7
2325
35.77
6.3
39-55
10.70
6.4
48.93
21.23
6.5
57.09
56.74
6.6
52.21
58.85
6.7
23.64
35-79
7.3
39-34
10.87
7.4
48.83
21.50
7-5
5730
57.06
7-6
53-33
59.12
7-7
24.01
35.82
8.3
39.14
11.02
8.4
48.73
21.74
8.5
57-49
57-36
8.6
5438
59.38
8.7
24.36
35.85
9.3
38.96
XI. 16
9-4
48.64
21.96
9-5
57.67
57.64
9.6
55-38
59.62
9.7
24.69
35.87
10.3
38.79
11.30
10.4
48.56
22.18
10.5
57.86
57.90
10.6
56.36
59.83
10.7
25.00
35.90
".3
38.64
"•45
11.4
48.48
22.40
11.5
58.07
58.15
11.6
57.38
60.03
11.7
25.31
35.91
12.3
38.50
11.62
12.4
48.41
22.64
12.5
58.31
58.40
12.6
58.47
60.22
12.7
25.63
3590
13.3
38.35
11.80
13.4
48.34
22.90
13.5
58.58
58.66
13-6
59.66
60.41
13.7
25.96
35.87
14.3
38.19
12.01
14.4
48.27
23.18
14.5
58.87
58.93
14.6
60,94
60.62
14.7
26.32 35.84
15-3
38.01
12.22
15.4
48.19
23.46
15.5
59-17
59.23
15-6
62.28
60.85
15.7
26.71 35.82
X6.3
37.80
12.42
16.4
48.09
23.76
16.5
59.45
59.56
16.6
63.59
61. II
16.7
27.12
35.82
17.3
37.57
12.62
17.4
47.97
24-05
X7.5
59.68
59-91
17.6
64.84
61.39
17.7
27.54
35.85
18.3
37.34
12.80
18.4
47.84
24.32
18.5
59.87
60.27
18.6
65.97
61.70
18.7
27.95
35.90
19.3
37."
12.93
19-3
47.70
24.56
19.5
60.0 X
60.62
19.6
66.95
62.OX
19.7
28.34
35.98
20.3
36.88
1304
20.3
47.56
24.78
20.5
60.11
60.96
20.6
67.79
62.31
20.7
28.71
36.08
21.3
36.67
13.13
21.3
47.43
24-98
21.5
60.19
61.28
21.6
68.52
62,59
21.7
29.05
36.19
22.3
36.48
13-21
22.3
47.31
25.16
22.5
60.26
61.58
22.6
69.18
62.86
22.7
29.36
36.28
23.3
36.30
13.29
23.3
47.19
25.32
23.5
60.33
61.86
23.6
69.85
63.11
23.7
29.65
36.36
24.3
36.12
13.37
24.3
47.09
25.47
24.5
60.42
62.13
24.5
70.55
63.35
24.7
29.93
36.43
25.3
35-95
13.45
25.3
46.99
25.64
25.5
60.53
62.39
25.5
71.30
63.58
25.7
30.23
36.49
26.3
35.78
13-55
26.3
46.90
25-83
26.5
60.66
62.65
26.5
72.10
63.82
26.7
30.55
36.55
273
35.60
13-67
27.3
46.79
26.04
27.5
60.80
62.93
27-5
72.96
64.07
27.7
30.87
36.61
28.3
35.4*
13.80
28.3
46.67
26.25
28.5
60.94
63.24
28.5
73.85
64.33
28.7
31.21
36.68
29.3
35.20
13.91
29-3
46.55
26.46
295
61.06
63.56
29.5
74.73
64.61
29.7
31.57
36.76
30.3
34.99
14.01
30.3
46.41
26.68
30.5
61.15
63.89
30.5
75.56
64.91
30.7
31.94
36.86
313
34-76
14.10
31-3
46.26
26.89
31.5
61.22
64.23
31.5
76.33
65.23
31.7
32.30
36.99
10.73 —10.69
8.54
-8.48
24.56 -
•24.54
74.77 -
74.76
15.97 -15.94
i2*» 45" 37*397
14^ 12* i
M-.586
jgh 3m
I3*.2i6
1^ 19" i
*2*.I7
22^ 15" 6»,74
-84^
38' 4
4".23 1
-83^
15' 5
7".i5
-87''
39' 5
3".25
-89*
14'
4".37
-86«
24' 5
7".52
[Bph 14
JULY, 1912.
505
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
t OeteBtis.
S Ootaatis.
X Oetantts.
<T Octaatis.
V OotaatlB.
Mag. 5.4
Mag. -^
^•i
Mag. 5
1.2
Mag. 5.5
Mag. 5.7
Meftn
Ri«ht
DecUna-
Mean
Ri«ht
Dedina.
Mean
Right
DecJina.
Mean
Riffht
DecUaa.
Mean
Riffht
DecU-
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
nation
Date.
sion.
SoMlh,
Date.
sion.
South.
Date.
sion.
SotUh,
Date.
sion.
SoiUh,
Date.
sion.
Souih.
h m
0 /
h m
0 /
h m
0 /
h m
e t
h m
0 t
July
1245
-8439
July
14 12
-8316
n
July
18 3
-8740
July
1922
-8914
July
22 15
-8624
1-3
8
34.76
14. xo
1.3
s
46.26
26.89
1.5
s
61.22
4.23
1-5
s
16.33
5.23
1.7
s
32.30
36.99
2.3
34.52
14.17
2.3
46.10
27.08
2.5
61.25
4.58
2.5
17.01
5.56
2.6
32.65
37.14
3.2
34.28
14.22
3.3
45-94
27.24
3.5
61.25
4.93
3.5
17.59
5.90
3.6
32.99
37.30
4.2
3404
14.25
4.3
45-77
27.39
4.5
61.22
5.27
4-5
18.06
6.23
4.6
33.31
37.47
5.2
33.81
14.27
5.3
45.61
27.52
5-5
61.16
5.60
5.5
18.43
6.55
5.6
33.61
37.64
6.2
3360
14.27
6.3
45.46
27.63
6.5
61.10
5.91
6.5
18.72
6.85
6.6
33.89
37.81
7-2
33.40
14.26
7.3
45.32
27.73
7.5
61.03
6.19
7.5
18.98
7.14
7.6
3415
37.97
8.2
33-21
14.26
8.3
45.20
27.83
8.5
60.98
6.45
8.5
19.26
7.41
8.6
34.40
38.12
9.2
33.03
14.27
9.3
45.09
27.92
9-5
60.96
6.71
9-5
19.59
7.66
9.6
34.64
38.26
10.2
32.86
14.29
10.3
44.97
28.03
10.4
60.96
6.97
10.5
20.01
7.91
10.6
34.89
38.38
11.2
32.68
1434
11.3
44-85
28.16
11.4
60.99
7.24
".5
20.52
8.17
11.6
35.17
38.49
12.2
32.49
14.40
12.3
44.73
28.32
12.4
61.03
7.53
12.5
21.10
8.44
12.6
35.48
38.60
13.2
32.28
14.45
13.3
44.59
28.49
13.4
61.06
7.84
13.5
21.69
8.74
13.6
35.80
38.73
14.2
32.06
14.49
14.3
44.44
28.65
14.4
61.06
8.18
14.5
22.24
9.06
14.6
36.13
38.88
152
31.82
14.51
15.3
44.27
28.80
15.4
61.01
8.53
15.5
22.70
9.40
15.6
36.45
39.06
16.2
31.57
14.51
16.3
44.09
28.92
16.4
60.92
8.88
16.5
23.01
9.75
16.6
36.77
39.27
17.2
31.33
14.49
17.3
43.89
29.02
17.4
60.79
9.21
17-5
23.17
10.10
17.6
37.07
39.49
18.2
31.10
14.43
18.3
43.71
29.09
18.4
60.63
9.52
18.5
23.20
10.44
18.6
37.33
39-73
19.2
30.88
14.36
19.3
43.55
29.14
19.4
60.43
9.81
19-5
23.14
10.76
19.6
37.56
39.96
20.2
30.68
14.28
20.3
43-40
29.17
20.4
60.23
10.07
20.5
23.05
11.06
20.6
37.76
40.18
21.2
30.49
14.20
21.3
43.26
29.20
21.4
60.07
10.32
21.5 22.97
11.33
21 6
37.96
40.38
22.2
30.31
14.13
22.3
43.12
29.22
22.4
59.92
10.56
22.5 22.95
"59
22.6
38.15
40.57
23.2
30.14
14.07
23.3
42.98
29.26
23.4
59.80
10.81
23-5
22.99
11.84
23.6
38.35
40.75
24.2
29.96
14.03
24.3
42.84
29.31
24.4
59.68
11.06
24.5
23.06
12.10
24.6
38.57
40.94
25,2
29.78
13.99
25.3
42.70
29.37
25.4
59.56
11.32
25.5
23.15
12.38
25.6
38.80
41.X3
26.2
29.58
13.95
26.2
42.55
29.44
26.4
59.43
11.61
26.5
23.23
12.68
26.6
3904
41.33
27.2
29.37
13.90
27.2
42.39
29.52
27.4
59.28
11.91
27.5
23.29
12.99
27.6
39.29
41.55
28.2
29.15
1384
28.2
42.21
29.59
28.4
59."
12.22
28.5
23.28
13.31
28.6
39.53
41.79
29.2
28.92
13.77
29.2
42.03
29.64
29.4
58.91
12.53
29.5
23.19
13.65
29.6
39.76
42.04
30.2
28.69
13.68
30.2
41.84
29.68
30.4
58.67
12.84
30.4
23.01
14.00
30.6
39.99
42.31
31.2
28.47
13.56
31.2
41.65
29.70
31.4
58.41
13-13
31.4
22.72
14.35
31.6
40.21
42.60
32.2
28.26
13.42
32.2
41.46
29.68
32.4
58.12
13.41
32.4
22.34
14.68
32.6
40.40
42.89
10.73 —10.69
8.54
-8.48
24-59 -
•24.57
74.98 -
74.98
15.97 -15.94
12^ 45"" 37*397
14^ I2» ,
♦i*.586
iS^ 3m
I3*.2i6
I9*» 19" i
^2*. 17
22** 15** 6". 74
-84^
38' 4
4''.23 1
-83*'
15' 5
7".i5
-87^
•39' 5
3".25
-69«
►14'
4''.37
-86<
^24' 5
7".52
[Bph IS]
506
AUGUST, 1912.
APPARENT PLACES OF CIRCtJMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
t Ootantis.
6 Ootantis.
X Oetantls.
<r OotantlB.
Mag. 5.4
Mag. 4
.1
Mag. 5
.2
Mag. 5.5
Mag. 5.7
Hean
.Solar
Date.
Right
Ascen-
sion.
Declina-
tion
Stmtk.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Dectina.
tion
South.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Dedina-
tion
South.
Mean
Solar
Date.
Riffht
Ascen-
sion.
DecK.
nation
South.
h m
0 /
h m
0 /
h m
0 /
h m
0 /
h m
0 «
Aug.
1245
-8439
Aug.
14 12
-83 16
ft
Aug.
18 3
-8740
Aug.
1922
-8914
Aug.
22 15 -8624
• **
1.2
8
28.26
13.42
1.2
8
41.46
29.68
1.4
s
58.12
13.41
1.4
8
22.34
14.68
1.6
8
40.40
42.89
2.2
28.05
13.27
2.2
41.28
29.64
2.4
57.81
13.67
24
21.87
14.99
2.6
40.56
43.18
3.2
27.86
13.12
3.2
41. II
29.59
3.4
57.49
13.90
34
21.34
15.28
3.6
40.70
43.45
4.2
27.69
12.96
4.2
40.95
29.52
4.4
57.17
14.12
4.4
20.81
15.55
4.6
40.83
4370
5.2
2753
12.81
5.2
40.80
29.46
54
56.89
14.33
5.4
20.34
15.80
5.6
40.95
43-94
6.2
27.38
12.68
6.2
40.66
2943
6.4
56.64
14.53
64
19.94
16.04
6.6
41.07
44.17
7-2
27.22
12.56
7-2
40.53
29.41
7.4
56.41
14.72
7.4
19.62
16.29
7-5
41.21
4438
8.2
27.05
12.46
8.2
40.39
29.41
84
56.20
1494
84
19.38
16.55
8.5
41.37
44.58
91
26.88
12.37
9.2
40.25
29.42
9.4
56.00
15.19
9.4
19.19
16.82
9.5
41.55
44.80
10. 1
26.70
12.27
10.2
40.10
29.43
10.4
55.77
1545
10.4
18.98
17. II
10.5
4X74
4504
II. I
2649
12.15
II.2
39.93
29.44
114
55.51
15.72
1 1.4
18.68
17.42
"•5
4X93
45.31
I2.I
26.28
12.01
12.2
39.75
2942
124
55.22
15.99
12.4
18.25
17. 74
12.5
42.11
45.61
13. 1 26.07
11.84
13.2
39.56
29.37
13.4
54.87
16.26
134
17.67
18.07
13.5
42.27
45.93
I4.I 1 25.87
11.64
14.2
39.38
29.29
14.4
54.49
16.51
14.4
16.96
18.39
14.5
42.40
46.25
I5.I 1 25.69
"•43
15.2
39.20
29.18
154
54.09
16.73
15.4
16.15
18.68
155
42.49
46.57
16. 1 125.52
1
11.21
16.2
3903
29.06
16.3
53.67
16.92
16.4
15.27
18.95
16.5
42.55
46.88
I7.I
25.37
10.99
17.2
38.87
28.93
17.3
53.27
17.09
17.4
14.39
19.19
17.5
42.59
47-18
18.1 ; 25.24
10.78
18.2
38.73
28.81
18.3
52.89
17.24
18.4
1355
19.41
18.5
42.63
4746
19.1 25.12
10.58
19.2
38.60
28.70
19.3
52.54
17.38
19.4
12.77
19.62
19.5
42.68
47.72
20.1
24.99
10.39
20.2
38.48
28.60
20.3
52.20
17-53
20.4
12.06
19.84
20.5
42.74
47.97
21. 1 24.85
10.22
21.2
38.35
28.51
21.3
51.87
17.69
21.4
1140
20.07
21.5
42.81
48.22
22.1 24.71
10.05
22.2
38.21
28.42
22.3
5x55
17.87
22.4
XO.75
20.31
22.5
42.90
48.48
23.1
24.56
9.87
23.2
38.06
28.34
23.3
51.20
18.06
23.4
10.07
20.57
23.5
42.99
48.75
24.1-
24.39
9.68
24.2
3790
28.25
24.3
50.84
18.26
244
9-35
20.84
24.5
43.08
49.04
25.1
24.21
9.48
25.2
37.74
28.15
25.3
5045
18.47
254
8.56
21.12
25.5
43.X6
49.34
26.1
24.04
9.26
26.2
37.57
28.04
26.3
50.02
18.67
26.4
7.67
21.39
26.5
43.23
49.66
27.1
23.88
9.02
27.2
37.39
27.91
27.3
49-57
18.87
27.4
6.67
21.67
27.5
43.29
50.00
28.1
23.72
8.77
28.2
37.22
27.76
28.3
49.09
19.05
28.4
5.58
21.94
28.5
43.32
50.34
29.1
23.57
8.49
29.2
37.05
27.58
293
48.59
19.21
29.4
4.41
22.20
29.5
43.33
50.68
30.1
23.44
8.20
30.2
36.89
27.38
30.3
48.09
19.34
30.4
3.17
22.43
30.5
43.3X
51.00
31.1
23.32
7.91
31. 1
36.75
27.18
31.3
47.60
X9.45
31.4
1.92
22.63
3x5
43.27
51.31
32.1
23.22 7.64
32.1
36.63
26.98
32.3
47.13
1954
324
0.71
22.82
32.5
43.22
5X.61
10.73 -10.68
8.54
-8.48
24.61 -
■24.59
75.23 -75.23
X5.98 -15-95
12»» 45" 37*.397
14^ 12"
4i*.586
i8»» 3»
I3».2i6
19^ 19" 42*.I7
22** I5« 6».74
-840
38' 4
4".23
-83*
'15' f
;7".i5
-87 •
'39' 5
i3".25
-89*
•14'
4".37
-86*
'24' 5
7".52
[Bph It]
SEPTEMBER, 1912.
507
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
lOotantls.
^ Ootantls.
X Ootantls.
<T Octentls.
V OotantlB.
Mag. 5.4
Mag. 4
.1
Mag. 5.2
Mag. 5.5
Mag. 5.7
Mean
Solar
Date.
Right
Ascen-
sion.
Decfina-
tion
Souik,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
Souih.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
DecH-
nation
South,
h m
0 /
h m
0 t
h m
0 '
h m
0 /
h m
0 /
Sept.
1245
-8438
Sept.
14 12
-8316
Sept.
18 3
-8740
Sept.
19 21
-8914
n
Sept.
22 15
-8624
9$
X.I
s
23.22
67.64
i.i
s
36.63
26.98
1.3
s
47.13
19-54
1.4
8
60.71
22.82
1.5
43.22
51.61
2.1
23x3
67.38
2.1
36.51
26.78
2.3
46.69
19.62
2.4
59.56
22.99
2.5
43.16
51.89
3.1
2305
67.14
3.1
36.40
26.60
3.3
46.27
19.70
3.4
58.50
23.15
3-5
43.12
52.15
4.1
22.97
66.91
4-1
36.30
26.43
4-3
45.89
19.79
4.4
57-53
23.31
4-5
43."
52.39
51
22.88
66.69
5-1
36.19
26.29
5-3
45.52
19.90
5-3
56.62
23.48
5.5
43."
52.64
6.1
22.77
66.48
6.1
36.07
26.16
6.3
45-14
20.02
6.3
55.72
23.67
6.5
43.12
52.91
71
22.65
66.26
7.1
35.93
26.03
7-3
44.74
20.15
7.3
54-77
23.88
7-5
43.15
53.20
8.x
22.52
66.02
8.1
35.78
25.88
8.3
4430
20.30
8.3
53.72
24.11
8.5
43.17 5351
1
9.1
22.39
65.76
9.1
35-63
25-71
9.3
43.82
20.44
9-3
52.56
2435
9-5
43.16 53.84
10. 1
22.27
65.48
10. 1
35.48
25-50
10.3
43.31
20.56
10.3
51.27
24.57
10.5
43.12 '54.18
II. I
22.16
65.18
II. 1
35.34
25.26
"3
42.77
20.66
11.3
49.86
24.77
"•5
43.05 5452
J
12. 1
22.07
64.87
12. 1
35-22
25.00
12.3
42.23
20.72
12.3
48.39
24.94
12.5
42.95 1 54.85
131
22.00
64-55
13-1
35-"
2474
13-3
41.70
20.76
13.3
46.89
25.08
13.4
42.83
55.16
14.0
21.95
64.24
14.1
35.01
24.48
14.3
41.19
20.78
143
45-44
25.20
14.4
42.69
55-44
15.0
21.91
63.95
15.1
34.92
24.23
15.3
40.72
20.78
15.3
44.06
25.30
15.4
42.56
55.70
16.0
21.88
63.67
16.1
34.84
24.00
16.3
40.26
20.79
16.3
42.76
25.39
16.4
42.44
55.94
17.0
21.84
63.40
17.1
34.76
23-78
17-3
39.82
20.80
17-3
41.52
25.49
17.4
42.33
56.18
18.0
21.80
63.14
18.1
34-67
23-56
18.3
39.39
20.83
18.3
40.31
25.60
18.4
42.23
56.42
19.0
21.75
62.89
19.1
34-57
23-35
19-3
38.95
20.87
19.3
39."
25.74
19.4
42.14
56.68
20.0
21.69
62.63
20.1
3446
23.15
20.3
38.50
20.92
20.3
37-88
25.89
•
20.4
42.06
56.95
21.0
21.62
62.35
21. 1
34.35
22.94
21.3
38.03
20.98
21.3
36.58
26.05
21.4
41.98
57.24
22.0
21.54
62.06
22.1
3424
22.71
22.2
37-53
21.03
22.3
35-21
26.20
22.4
41.89
57.55
23.0
21.47
61.75
23.1
34-13
22.47
23.2
37.01
21.07
23.3
33-75
26.35
23.4
4x79
57.87
24.0
21.41
61.43
24.1
34-02
22.21
24.2
36.46
21.10
24.3
32.21
26.49
24.4
41.66
1
58.19
25.0
21.36
61.08
25-1
33-92
21.93
25.2
3590
21.12
25.3
30.59
26.62
25.4 41.51
58.50
26.0
21.32
60.74
26.1
33-82
21.63
26.2
35-33
21.11
26.3 28.90
26.72
26.4
41.33
58.80
27.0
21.31
60.40
27.1
33-74
21.32
27.2
34-77
21.07
27.3 27.19
26.80
27.4
41.12
59.08
28.0
21.32
60.07
28.1
33.67
21.00
28.2
34.22
21.01
28.3 125.51
26.85
28.4
40.90
59.34
29.0
21.33
59-75
29.1
33-62
20.69
29.2
33.71
20.94
29.3 1 23.90
26.88
29.4
40.67
59.58
300
21.35
59-45
30.1
33.58
20.41
30.2
3324
20.86
30.3 ' 22.38 ' 26.90
30.4 ' 40.46 1 59.80
31.0
21.37
59.16
31-1
33.55
20.15
31.2
32.80
20.78
31.3 20.97 26.91
I 1
31.4 '40.26 '60.00
1
10.73 —10.68
8-54
-8.48
24.62 —24.60
7542 -75.42
15-99 -15.96
12^ 45"* Sy^QT
14** 12"
4i'.586
igh ^m 1 31.2 16
19^ 19" 42". 1 7
22^ 15"* 6'.74
-84«
^38' 4
4".23
-83*
*I5' 5
.7". 15
-87^
^39' i
13". 25
-89'
>14'
4".37
-86<
*24' 5
7".52
[Eph li]
508
OCTOBEE, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
I OctantiB.
^ Octantis.
X Ootantts.
<r OoteatiB.
V OotaBtts.
Mag. 5.4
Mag. 4
.1
Mag. 5.2
Mag. 5.5
Mag. 5.7
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
SoiUh,
Mean
Solar
Date.
Riffht
Ascen-
sion.
DecUna-
tion
Souih.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
Souik,
Mean
Solar
Date.
Rislit
Ascen-
sion.
Decfi-
nation
S<mtk,
h m
0 1
h m
0 /
h m
e /
h m
e /
h m
0 »
Oct.
1245
-8438
Oct.
14 12
-8316
Oct.
18 3
-8740
Oct.
19 20
-8914
Oct.
22 15
-8625
9r
I.O
8
21.37
59.16
I.I
8
33-55
20.15
1.2
8
32.80
20.78
1.3
8
80.97
26.91
1.4
8
40.26
0.00
2.0
21.39
58.90
2.1
33.51
19.90
2.2
32.39
20.71
2.3
7967
26.94
2.4
40.08
0.20
2.9
21.40
58.64
3.1
33.46
19.66
3.2
31.98
20.67
3.3
78.42
26.98
3.4
39.93
0.41
3.9
21.41
58.40
4.1
33.40
19-43
4-2
31.55
20.64
4.3
77.13
27.05
4.4
39.79
0.64
4-9
21.40
58.13
5.1
33-33
19.20
5.2
3X.IO
20.62
5.3
75.80
27.13
5.4
39.64
0.88
5-9
21.39
57.85
6.1
33-25
18.95
6.2
30-63
20.59
6.3
74-35
27.21
6.4
39.48
1.14
6.9
21.38
57.55
7.0
33-18
18.67
7.2
30.12
20.56
7.3
72.79
27.28
7.4
39.30
1.41
7-9
21.38
57.22
8.0
33.12
18.37
8.2
29.58
20.50
8.3
71.12
27.32
8.4
39.08
1.68
8.9
21.40
56.86
9.0
33.07
18.04
9.2
29.03
20.42
9.3
69.38
27.34
9.4
38.83
1.94
9-9
21.43
56.52
10.0
33.03
17.69
10.2
28.51
20.31
10.3
67.61
27.34
10.4
38.56
2.18
10.9
21.49
56.19
1 1.0
33-00
17-35
II.2
28.00
20.17
II.2
65.89
2731
114
38.28
240
11.9
21.57
55.87
12.0
32-99
17.03
12.2
27.53
20.01
12.2
64.25
27.26
12.4
38.00
2.58
12.9
21.66
55.57
13.0
32.99
16.73
13.2
27.08
19.85
13.2
62.71
27.19
13.4
37.72
2.74
139
21.75
55.29
14.0
3300
16.44
14.2
26.67
19.70
14.2
61.25
27.13
14-4
37.45
2.90
14.9
21.83
55.02
15.0
33.00
16.16
15.2
26.27
19-56
15.2
59.86
27.09
15-4
37.21
3.06
15-9
21.90
54.77
16.0
32.99
15.90
16.2
25.87
19.44
16.2
58.48
27.06
16.4
36.98
3.23
16.9
21.96
54.51
17.0
32.98
15.65
17.2
2547
19.32
17.2
5712
27.03
174
36.76
3.40
179
22.02
54.24
18.0
32.97
15.39
18.2
25.05
19.21
18.2
55.74
27.01
18.4
36.54
3.58
18.9
22.08
53.96
19.0
32.95
15. n
19.2
24.62
19.10
19.2
54.28
27XX>
194
36.31
3.78
19.9
22.13
•
53.68
20.0
32.92
14.81
20.2
24.17
18.99
20.2
52.77
26.98
20.3
36.07
3.99
20.9
22.18
53.39
21.0
32.90
14.50
21.2
23.71
18.87
21.2
51.19
26.96
21.3
35.82
4.20
21.9
22.25
53.08
22.0
32-89
14.19
22.2
23.23
18.73
22.2
49-54
26.93
22.3
35.54
440
22.9
22.33
52.76
23.0
32.89
13.87
23.2
22.74
18.57
23.2
47.84
26.87
23.3
35.24
4.60
23.9
22.43
52.44
24.0
32.89
13.53
24.2
22.27
18.39
24.2
46.11
26.79
24.3
34.92
4.78
24.9
22.55
52.13
24.9
32.91
13.18
25.2
21.81
18.17
25.2
44.41
26.68
25.3
34.58
4.93
259
22.68
51.84
25.9
32.95
12.85
26.2
21.38
1794
26.2
42.77
26.55
26.3
3424
5.05
26.9
22.82
51.57
26.9
33-00
12.52
27.2
21.00
17.70
27.2
41.23
26.40
27.3
33.91
5.15
27.9
22.98
51.32
27.9
33.05
12.22
28.1
20.66
17.47
28.2
39.80
26.24
28.3
33.59
5.22
28.9
23.12
51.09
28.9
33."
11.94
29.1
20.35
17.25
29.2
38.51
26.09
29.3
33.29
5.28
29.9
23.25
50.88
29.9
33.16
11.68
30.1
20.05
17.04
30.2
37.30
25.95
30.3
3302
5.34
30.9
23.37
50.68
30.9
33.21
1144
31. 1
19-75
16.85
31.2
36.13
25.83
31.3
32.76
542
31.9
23-*8
50.47
31.9
33.25
II. 19
32.1
19.44
16.68
32.2
34.95
25.73
32.3
32.51
5.53
32.9
23.59
50.24
32.9
33.28
10.93
33.1
19.10
16.51
33.2
33.68
25.64
33.3
32.25
5.66
10.72 —10.68
8.53
-847
24.62 —24.60
75.48 -
7548
16.00 —15.97
12*^ 45" 37*397
14^ 12" -
4i'.586
18^ 3» I3".2i6
19*^ 19" -
42*. 17
22*» I5» 6».74
-84*'
38' A
4".23
-83*
^15' 5
7".i5
-87*
'39' 5
.3".25 1
-89 «
•14'
V'.37
-ae"
^^' 5
7"^2
M]
NOVEMBEE, 1912.
509
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
t Octantis.
^ OotantlB.
X Ootantis.
(T Ootantis.
V Ootantis.
Mag. 5.4
Mag. ^
^•i
Mag. 5
;.2
Mag. 5.5
Mag. 5.7
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
tOght
Ascen-
sion.
DecHna-
tion
Sirnih.
Mean
Solar
Date.
Right
Ascen-
sion.
DecUna-
tion
Sirnih.
Mean
Solar
Date.
Right
Ascen-
sion.
DecHna<
tion
South,
Mean
Solar
Date.
Right
Ascen-
sion.
Decli-
nation
South.
h m
0 /
h m
0 /
h m
0 /
h m
0 /
h m
0 '
Nov.
1245
-8438
Nov.
14 12
-83 16
Nov.
18 3
-8740
Nov.
19 20
-8914
Nov.
22 15
-8625
1.9
8
2359
50.24
1.9
s
33-28
XO.93
I.I
s
19.44
16.68
I.fi
s
34-95
25.73
1.3
s
32.51
5.53
2.9
23.69
49-99
2.9
33.30
10.65
2.1
19.10
16.51
2.2
33.68
25-64
2.3
32.25
5.66
3.9
23.80
4972
3.9
33.32
10.36
3.1
18.73
16.33
3-2
32.30
25-55
3.3
31.98
5.80
4.9
23.92
49.44
4.9
33.36
10.04
4.1
18.34
16.14
4.2
30.82
25-45
4-3
31.68
5.95
5-9
24.07
49.17
5.9
33.42
9.71
5.1
17.94
15-92
5-2
29.28
25-32
5.3
31.35
6.08
6.9
24.25
48.90
6.9
33.50
9-39
6.1
17.55
15-67
6.2
27.70
25.16
6.3
31.00
6.18
7.9
24.44
48.65
7.9
33.59
9.08
7.1
17.19
15.39
7-2
26.17
24.98
7.3
30.63
6.26
8.9
24.63
48.43
8.9
33.68
8.78
8.1
16.87
15.10
8.2
24.73
24.77
8.3
30.25
6.31
9-9
24-83
48.22
9.9
33.78
8.49
9.1
16.58
14.80
9-2
23.39
24.54
9.3
29.91
6.33
10.9
25.02
48.03
10.9
33.88
8.23
10. 1
16.33
14.51
10.2
22.17
24.31
10.3
29.55
6.34
11.9
25.20
47.85
H.9
3398
7-99
II. I
16.10
14.23
II.2
21.03
24.09
"3
29.22
6.35
12.9
25.37
47.68
12.9
34.08
7.75
12. 1
15.89
13.97
12.2
19.96
23.89
12.3
28.91
6.35
13.9
25-54
47.51
13.9
34.17
7.51
13. X
15.69
13.72
13.2
18.91
23.70
13.3
28.61
6.36
14.9
25-70
47.33
14.9
34.25
7.27
14. 1
15.47
13.48
14.2
17.85
23.51
14.3
28.32
6.38
159
25.86
47.15
15.9
34.32
7.03
I5.I
15.23
13.25
15.2
16.76
23.33
15.3
28.03
6.41
16.9
26.02
46.96
16.9
34-39
6.78
16.I
14.98
13.02
16.2
15.63
23.16
16.3
27.73
6.44
^7-9
26.19
46.75
17.9
3448
6.51
I7.I
14.71
12.78
I7.I
14.43
22.98
17.3
27.42
6.49
18.9
26.37
46.54
18.9
34.58
6.23
18.I
14.43
12.52
18.I
13.18
22.79
18.3
27.10
6.54
19.9
26.57
46.33
19.9
34.68
5.94
19. 1
14.15
12.25
19. 1
11.91
22.59
19.3
26.77
6.57
20.9
26.78
46.13
20.9
34.79
5.64
20.1
13.88
"95
20.1
10.63
22.37
20.3
26.41
6.59
21.9
27.01
45.95
21.9
3492
5.36
2I.I
13.64
11.64
21. 1
9.37
22.12
21.3
26.03
6.59
22.9
27-25
45.79
22.9
35.06
5.09
22.1
13.43
11.30
22.1
8.17
21.84
22.3
25.65
6.57
23.9
27.49
45.65
23.9
35.21
4.85
23.1
13.27
10.95
23.1
7.08
21.54
23.3
25.28
6.52
24.9
27.74
45.53
24.9
35.36
4.64
24.1
13.14
10.61
24.1
6.12
21.23
24.3
24.92
6.44
259
27.98
45.45
25.9
35.51
4.46
25.1
13.05
10.29
25.1
5.29
20.93
25.2
24.58
6.34
26.8
28.20
45.38
26.9
35.66
4.29
26.1
13.01
9.98
26.1
4.58
20.64
26.2
24.27
6.23
27.8
28.40
45.30
27.9
35.80
4.12
27.1
12.96
9.68
27.1
3.95
20.37
27.2
23.99
6.14
28.8
28.59
45.20
28.9
35.92
3.95
28.1
12.90
9.41
28.1
3.33
20.13
28.2
23.73
6.06
39.8
28.77
45.10
29.9
36.03
3.77
29.1
12.81
9.15
29.1
2.65
19.90
29.2
23.46
6.00
30.8
28.96
44.99
30.9
36.15
3.57
30.1
12.70
8.89
30.1
1.8S
19.68
30.2
23.18
595
31.8
29.17
44.86
31.9
36.28
3.35
31. 1
".57
8.62
3I.I
I.OI
19.45
31.2
22.89
5.91
10.72 -10.67
8.53
-8.47
2^
^.6o -
■24.58
75.37 -75.37
16.01 -15.98
12^ 45"" 37'-397
I4*» 12" .
4i'.586
i8»»
3"^
I3V2I6
19^ I9» 42*. 1 7
jjh i^m 51 y^
-84°
38' ^
H".23
-83*
*I5' 5
.7".i5
-«7*=
•39' 5
y.25
-89«
•14'
4".37
-86°
24' 5
7".52
[Bph za]
510
DECEMBER, 1912.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
I Ootantis.
S Ootantis. |
X Octantis.
(T OctantiB.
V Ootantis.
Mag. 5.4
Mag. 4
.1
Mag. 5.2
Mag 5.5
Mag. 5.7
1
Mean Risht
Solar Ascen-
Date. sion.
Dedizia'
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Dectina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Decfina-
tion
SotUh,
Mean
Solar
Date.
Right
Ascen>
sion.
Dech-
nation
South,
h m
0 /
h m
0 /
h m
0 /
h m
0 /
h m
0 #
Dec.
1245
-8438
Dec.
14 12
-8315
Dec.
18 3
-8739
Dec.
1919
-8914
Dec.
22 15
-8625
1.8
s
29.17
44.86
1.9
8
36.28
63.35
I.I
s
12.57
68.62
I.I
8
61.01
19.45
1.2
8
22.89
5-91
2.8
2939
44.72
2.9
36.42
63.12
2.1
12.43
68.32
2.1
60.07
19.20
2.2
22.57
5.86
3.8
29.64
44-58
3.9
36.57
62.88
3.1
12.28
68.00
3.1
59.09
18.92
3.2
22.22
5.79
4.8
29.90
44.46
4.9
36.74
62.65
4.0
12.16
67.65
4.1
58.12
18.61
4.2
21,85
5.70
5.8
30.17
44.37
5-9
36.92
62.44
5.0
12.08
67-29
5-1
57.24
18.28
5.2
21.47
5.59
6.8
30.44
44.31
6.9
37.10
62.25
6.0
12.04
66.92
6.1
56.51
17.94
6.2
21. II
5.45
7.8
30.71
44.27
7.9
37-29
62.09
7.0
12.03
66.56
7.1
55.90
17.59
7.2
20.76
5.29
8.8
30.97
44.24
8.9
37-47
61.94
8.0
12.07
66.21
8.1
55.41
17.25
8.2
20,44 1 5-12
9.8
31.21
44.22
9.9
37.65
61.80
9.0
12.13
65.87
9.1
5500
16.92
9.2
20.15 4-94
10.8
31.44
44.22
10.9
37.82
61.68
lO.O
12.20
65-55
10. 1
54.64
16.60
10.2
19.88
4-77
11.8
31.67 44.21
11.9
37.98
61.56
11.0
12.26
65.24
11. 1
54.30
16.30
11.2
19.62
4.62
13.8
31.90
44.18
12.9
38.14
61.43
13.0
12.31
64.94
12. 1
53.93
16.02
12.2
19.35
4.48
13.8
32.12
44.14
13.9
38.30
61.30
13.0
12.35
64.66
13.1
53.54
15.75
13.2
19.09
4.35
14.8
32.34
44.10
14.9
38.45
61.16
14.0
12.38
64-38
14.1
53-10
15.48
14.2
18.83
4.22
15-8
32.57
44.06
15.9
38.61
61.01
15.0
12.39
64.08
15-1
52.60
15.20
15.2
18.56
409
16.8
32.81
44.01
16.9
38.78
60.85
16.0
12.39
63.76
16. 1
52.06
14.90
16.2
18.27
3.95
17.8
1
33.06! 43.97
17-9
38.97
60.68
17.0
12.40
6343
17.1
51.50
14.58
17.2
17.97
3.80
18.8
33-33 1 43.94
18.8 39.17
60.52
18.0
12.43
63-09
18.1
50.97
14.24
18.2
17.65
3.64
19.8
33.62
43.93
19.8 \ 39.38
60.38
19.0
12.48
62.73
19.1
50.50
13.89
19.2
17-32
3.46
30.8
33.91
43.94
20.8 1 39.60
60.26
20.0
12.58
62.36
20.1
50.14
13.52
20.2
17.00
3-25
ax.8
34.20
43.98
21.8
39.82
60.17
2I.O
12.71
61.98
21. 1
49.90
13.13
21.2
16,70' 3.01
^2.8
34.48
44.05
22.8
40.04
60.10
21.9
12.89
61.61
22.1
49.81
12.74
22.2
16.41 3.75
23.8
34.75
44.14
23.8
40.25
60.06
22.9
1311
61.26
23.0
49.88
12.36
23.2
16.15
2.48
34.8
35.01
44,24
24.8
40.45
60.04
23.9
13.36
60.94
24.0
50.05
1 3.01
24.2
15.92
3.21
25.8
35.24
44.33
25.8
40.64
60.02
24.9
13.61
60.65
25.0
50.26
11.69
25.2
15.71
1.96
26.8
35.46
44.41
26.8
40.82
59-99
25.9
13.85
60.37
26.0
50.44
11.38
26.2
15.51
1.73
27.8
35.67
44.47
27.8
40.99
59-94
26.9
1405
60.11
27.0
50.54
11.08
27.2
15.32
1.52
28.8
35.90
4452
28.8
41.17
59.87
27.9
14.23
59.84
28.0
50.56
10.78
28.2
1512
1.33
39.8
36.14
44.56
29.8
41.36
59.80
28.9
14.38
59.55
29.0
50.48
10.47
29.2
14.89
1.13
30.8
36.39
44.60
30.8
41.56
59.72
29.9
14-53
59.23
30.0
50.34
10.15
30.2
14.64
0.91
31.8
36.67
4465
31.8
41.77
59.63
30.9
14-69
58.90
31.0
50.21
9.80
31.2
14.37
0.68
32.8 ' 36.96
4471
32.8
41.99
59.53
31-9
14.88
58.55
32.0
50.15
9.43
32.1
14.09
0.43
10.72 —10.67
8.53
-8.47
24.57 -24.55
75.15 -75.15
16.00 -
15.97
"*» 45" 37*.397
I4*» 12"*
4i*.586
18** 3» I3».2i6
19«» 19F 42».i7
23»» X5» 6". 74
-64*'
•38' A
4".23
-83^
'IS' i
i7".i5
-87*
*39' i
»3".25
-89<
>I4'
4".37
-86*
^24' 5
7".52
[Bph la]
MEAN ERRORS.
511
MEAN ERRORS OF NEWCOMB'S PLACES FOR 1920 OF STARS OF THE AMERICAN
EPHEMERIS AND NAUTICAL ALMANAC.
Mean Ezror
Mean Ezror
Cat.
No.
Name.
R. A.
Z9za.
Decl.
Z9za.
Z920.
Cat.
No.
m
Nazne.
R. A.
Z9za.
Decl.
Z9Z2.
Z930.
a
«
a
5
h zzi
0
8
//
h zzi
0
8
//
I
33 Piscium
0 I
- 6
.018
-25
112
4 Octantis
C Ceti
I 42
-85
•039
.40
3
a Androm.
4
-1-29
.010
•13
116
47
— II
.020
•24
4
/3 Cassiop.
4
4-59
.017
•17
"7
e Cassiop.
48
+63
.017
•17
5
e Phcenicis
5
-46
.051
•41
X18
a Trian^uli
48
+29
.022
.22
6
22 Androm.
6
-1-46
.024
.28
120
4 Piscium
49
+ 3
.018
•23
10
X Pegasi
0 9
+ 15
.Oil
.14
121
/S Arietis
I 50
-f-20
.013
.20
14
6 Androm.
14
+36
.029
•33
122
if Phoenicis
50
-47
.080
.81
15
t Ceti
15
- 9
.014
.20
127
V Ceti
56
—22
.025
•32
16
Z Tucans
15
-65
.047
.38
126
50 Cassiop.
56
+72
.016
•17
19
44 Piscium
21
+ I
.018
.22
129
a Hydri
56
-62
.049
•34
20
/J Hydri
0 21
-78
• • • »
. . «
131
y Andr. pr.
I 58
+42
.QI6
.16
21
a Phcenicis
22
-43
.047
.31
133
a Arietis
2 2
+23
.010
.14
23
12 Ceti
26
- 4
.017
.21
134
fi Triang.
4
+35
.018
.21
30
13 Ceti
Q Cassiop.
31
- 4
.023
.30
136
55 Cassiop.
8
+66
.025
•24
31
32
+53
.021
.20
137
6 Persei
8
+51
.025
•27
32
K Androm.
0 32
+33
.021
.21
138
41 Ceti
2 8
+ 8
.018
•23
35
e Androm.
34
+29
.016
•19
139
M Fornacis
9
-31
.076
.83
36
6 Androm.
35
+30
.018
.22
141
X Trianguli
12
+33
.024
•31
37
a Cassiop.
36
+56
.012
.14
142
67 Ceti
13
- 7
.021
•25
38
M Phoemcis
37
-47
• • • •
.53
144
4> Eridani
13
-52
.049
•42
39
/3 Ceti
0 39
-18
.013
.17
145
0 Ceti
2 15
- 3
.018
•23
42
0 Cassiop.
40
+48
.034
.26
146
tc Fornacis
19
-24
.049
•47
41
21 Cassiop.
40
+75
.017
.24
148
S Hydri
20
-69
• • • •
• ■ •
45
C Androm.
43
+24
.019
•24
149
t Cassiop.
22
+67
.025
•25
46
7 Cassiop.
44
+57
.017
.24
153
|2 Ceti
23
+ 8
.014
•19
49
S Piscium
0 44
+ 7
.014
.20
156
6 Ceti
2 28
-16
.028
•37
52
A Hydri
46
-75
• • • •
.70
157
36 H.Cassiop.
30
+72
.021
.22
53
20 Ceti
49
— 2
.018
.26
160
y Ceti
31
+ 5
.020
.26
54
y Ca.ssiop.
51
+60
.018
.22
163
M Hydri
34
-79
.056
.70
55
M Androm.
52
+38
.017
.21
i6x
r Arietis
34
-|-22
.020
.26
58
a Sculpt.
0 54
-30
.025
•23
165
d Ceti
2 35
0
.014
.20
59
43 H. Cephei
57
+86
.010
.17
170
© Persei
38
+49
.021
.19
61
e Piscium
0 58
+ 7
.012
.26
172
e Hydri
38
-69
• • • •
• • •
66
fl Phoenicis
I 2
-47
.050
.47
173
y Ceti seq.
39
+ 3
.016
.20
65
M Cassiop.
2
+54
.022
•27
174
ic Ceti
40
-14
.025
•25
69
7 Ceti
I 4
— II
.025
.22
175
fi Ceti
2 40
+ 10
.020
.21
71
p Androm.
5
+35
.013
.17
177
7 Persei
44
+56
.010
•25
74
r Piscium
7
+30
.019
•33
178
41 Arietis
45
+27
.02Q
.22
76
C Piscium
9
+ 7
.0x9
.24
179
fi Fornacis
45
—33
.050
•47
78
*c Tucanae
13
-69
• • • •
• * «
180
6 Arietis
47
+ 15
.018
•24
79
/ Piscium
I 13
+ 3
.022
.29
181
r* Eridani
2 47
—21
.022
•32
80
V Piscium
15
+27
.022
•25
182
r Persei
48
+52
.020
.19
85
e Ceti
20
— 9
.013
.19
183
7 Eridani
52
— 9
.016
.21
86
d Cassiop.
20
+60
.018
.19
185
c Arietis
54
+21
.016
•23
91
X Phoenicis
25
-44
.044
•35
184
47 H, Cephei
54
+79
.035
.32
90
38 Cassiop.
I 25
+70
.026
.28
187
0 Eridani
2 55
-41
.056
•42
94
7 Piscium
27
+15
.020
.19
189
a Ceti
58
+ 4
.010
•13
89
a Urs. Min.
28
+89
• • ■ •
• . •
190
y Persei
58
+53
.029
.20
96
40 Cassiop.
31
+73
.028
.25
19X
r^ Eridani
2 59
-24
.029
•32
97
V Androm.
32
+41
.024
.26
192
p Persei
3 0
+38
.019
•24
98
JT Piscium
I 32
+12
.022
•25
194
H Horologii
3 2
-60
.060
•49
99
V Persei
33
+48
.018
.19
197
e Hydri
2
-72
.046
.47
lOI
a Eridani
34
-58
• • • •
* • •
195
P Persei
2
+41
.016
.20
103
to Cassiop.
36
+68
.025
•25
199
6 Arietis
7
+ 19
.014
•17
104
r Piscium
37
+ 5
.014
.20
202
12 Eridani
8
-29
.022
•3P
105
(p Persei
I 38
+50
.022
.20
200
48 H. Cephei
3 9
+77
.032
•32
107
r Ceti
40
— 16
.020
.25
203
C Arietis
10
+21
.018
•29
108
0 Piscium
41
+ 9
.013
.19
204
38 Horoloprii
10
-58
• » • .
■ • •
109
e Sculpt.
I 42
-26
•037
.46
206
C Eridani
3 12
- 9
.022
•31
[Eph za]
512
MEAN ERRORS.
MEAN ERRORS OF NEWCOMB'S PLACES FOR 1920 OF STARS OF THE AMERICAN
EPHEMERIS AND NAUTICAL ALMANAC.
Mean Extcmt |
Mean Error
Cat.
Name.
R. A.
Decl.
1912.
i9ac
>.
Cat.
No.
Name.
R. A.
191 3.
DecL
Z9ia.
X930
.
No.
1
a
5
a
1
1
1
<
h m
0
s
h m
0
1
a 1
n
209
r Arietis
3 16
+21
.027
•32
319
rj Aurigse
5 0
+41
.021
.21
210
e Eridani
16
-43
.056
•49
320
e Leporis
2
— 22
.021
•25
211
a Persei
18
+50
.013
.14
322
P Eridani
4
— 5
.016 1
.21
212
I Hydri
18
-78
• • • ■
• • •
327
fi Aurigse
7
+38
.028 •
.29
213
0 Tauri
20
+ 9
.014
.21
326
19 H. Camel.
8
+79
.025 !
•33
214
2 H. Camel.
3 22
+60
.028
•37
328
/I Leporis
5 9
-16
.032
•31
215
k Tauri
22
+ 9
.023
.22
329
a Aurigse
10
+46
.012
.14
219
/ Tauri
26
+13
.016
.22
330
P Orionis
10
- 8
.009 j
-15
221
e Eridani
29
—10
.014
•17
332
A Aurigse
13
+40
.027 ,
.27
222
r* Eridani
30
—22
.031
.40
333
r Orionis
13
- 7
.014 1
.24
230
6 Persei
3 37
+48
.016
.16
335
0 Columbse
5 14
-35
.068 !
.60
235
S Eridani
39
— ID
.020
•24
342
y Orionis
20
+ 6
.017
.21
234
V Persei
39
+42
.024
•25
343
P Tauri
21
+29
.010
•14
237
5 H. Camel.
41
+ 71
.025
.29
344
17 Camelop.
22
+63
.029
.22
238
7 Tauri
42
+24
.014
.17
347
p Leporis
24
—21
.025
•33
239
r« Eridani
3 43
-24
.023
•30
348
X Aurigse
5 27
+32
.022
-30
243
g Eridani
46
-36
.073
.63
350
8 Orionis
28
0
.012
.16
246
y Hydri
49
-75
.031
.29
349
Gr. 966
28
+75
.022
.22
244
C Persei
49
+32
.019
.22
354
a Leporis
29
-18
.018
.22
245
9 H. Camel.
50
+61
.031
.33
355
<p^ Ononis
30
+ 9
.021
•31
248
« Persei
3 52
+40
.019
.22
359
t Orionis
5 31
- 6
.022 1
•25
250
4 Persei
53
+36
.019
.22
361
e Orionis
32
— 1
.013 :
•17
251
y Eridani
54
-14
.017
.19
362
C Tauri
32
+21
.019
•23
252
A Tauri
56
+ 12
.018
.22
356
Gr. 944
34
+85
.030
•35
254
8 Reticuli
57
-62
.044
.36
366
C Orionis
36
— 2
.016 1
.22
255
y Tauri
3 58
+ 6
.018
.22
368
a Columbse
5 36
-34
1
.024 1
.28
256
A Tauri
3 59
4-22
.020
•23
369
0 Aurigse
39
+50
.028 ;
•39
26Q
c Persei
4 2
+47
.020
.22
372
C Leporis
43
-15
.023 '
•30
263
p Tauri
5
+26
.030
•37
373
K Ononis
44
—10
.013
.19
265
0* Eridani
8
- 7
.016
•23
375
8 Doradus
45
-66
• • • • 1
• • •
264
Gr. 750
4 9
+85
.017
•24
374
y Aurigse '
5 45
+39
.021
.26
268
fi Taiui
II
-h 9
.027
•47
381
31 Mensee
47
-85
.042
.56
270
a Horologii
II
-43
•073
.69
378
8 Leporis
48
—21
.036
.37
271
a Reticuli
13
-63
.061
•54
382
a Ononis
50
+ 7
.008
•14
274
y Tauri
15
+ 15
.013
.21
383
8 Aurigse
52
+54
.026
•25
277
8 Tauri
4 18
+ 17
.017
•23
385
tf Leporis
5 52
-14
.022
.22
279
v* Eridani
21
-34
.046
•42
387
p Aurigse
53
+45
.016
.16
281
B Tauri
23
+ 19
.013
.20
388
0 Auri^
54
+37
.020 1
.20
284
d Mensae
24
-80
.058
•52
393
I Gemm.
5 59
+23
.021
•30
285
m Persei
27
+43
.031
•34
395
I Puppis
6 2
-45
•057
•55
288
a Tauri
4 31
-fi6
.009
•13
396
r Orionis
6 3
+ 15
.016 1
.19
289
y Eridani
32
- 4
.018
•24
402
22 H. Camel.
9
+69
.022
.26
291
a Doradus
32
-55
.054
.40
405
7 Gemin.
10
+23
.014
.20
292
53 Eridani
34
-X4
.023
.28
406
2 Lyncis
12
+59
.023
.22
296
r Tauri
37
+23
.014
•23
411
C Can. Maj.
17
-30
•055
-44
294
Gr. 848
4 37
+76
.024
•30
412
^ Gemin.
6 18
+23
.013
•«7
297
a Cceli
38
-42
.050
.46
413
^* Aurigse
18
+49
.025
•23
298
4 Camelop.
41
+57
.027
•25
414
P Qjsin. Maj.
19
-18
.019
.22
299
^ Eridani
41
- 3
.016
.21
415
8 Monoc.
19
+ 5
.032
•24
303
jc* Orionis
45
+ 7
.021
.22
416
a Krgds
22
-53
• • . •
• • •
302
9 Camelop.
4 45
+66
.021
.19
418
10 Monoc.
6 24
- 5
.017
•37
304
f Tauri
46
+19
.023
.31
419
r Gemin.
24
+20
.027
.21
307
ir* Orionis
50
+ 2
.016
.22
423
8 Lyncis
30
+62
.022
.23
309
t Aurigse
51
+33
.014
•17
424
23 H. Camel.
31
+80
.024
•29
312
fi Camelop.
56
+60
.023
•19
425
4' Caa Maj.
31
-23
.034
•35
313
e Aurigse
4 56
+44
.021
•19
426
51 Auri^
6 33
+39
.025
•31
314
C Aurige
56
+41
.017
.22
427
y Gemin.
33
+16
.013
.17
3X6
t Taun
4 58
+21
.019
.26
429
y Arg<i9
35
-43
.058
^
318
II Orionis
5 0
+15
.020
.35
430
. S Monoc.
6 36
+10
.016
.2a
[Eph xa]
MEAN ERRORS.
613
MEAN ERRORS OF NEWCOMB'S PLACES FOR 1920 OF STARS OF THE AMERICAN
EPHEMERIS AND NAUTICAL ALMANAC.
Cat.
No.
431
433
432
434
♦35
436
440
441
443
442
446
451
454
455
449
456
460
461
464
465
467
469
470
471
474
480
476
477
478
479
481
483
484
488
492
493
495
496
499
502
505
506
507
514
515
517
520
523
522
525
526
527
528
529
533
534
535
Name.
€ Gemin.
^ Gemin.
^Aurigse
a Can. Maj.
18 Monoc.
43 Camelop.
9 Gemin.
a Pictoris
C Mensie
r Argiis
15 Lyncis
9 Can. Maj.
e Can. Maj.
C Gemin.
o' Can. Maj.
51 H. Cephei
y Can. Maj.
d Can. Maj.
63 Auri^
51 Gemin.
X' Volantis
2^ H. Camel.
X Gemin.
fC Argiis
d Gemin.
6 Volantis
7 Octantis
t Gemin.
7 Can. Maj.
Gr. 1308
ft Can. Min.
p Gemin.
6 Argiis
a' Gemin.
25 Monoc.
a Can. Min.
24 Lyncis
K Gemin.
ft Gemin.
4 Puppis
^ Argiis
{f> Gemin.
26 Lyncis
Gr. 1374
X Argiis
00 Cancri
X Gemin.
27 Lyncis
p Argils
3 H.Ur.Maj.
y Argiis
C Cancri
Br. 1 147
20 Puppis
Gr. 1 1 19
ft Cancri
31 Lyncis
(T Cancri
e Argiis
191 2 33
R. A.
h
6
7
7
8
8
8
8
m
39
40
40
41
43
44
47
47
47
48
50
50
55
59
59
o
o
5
6
8
9
13
13
14
15
17
18
20
21
22
22
23
26
29
33
35
36
39
40
42
46
48
48
50
55
56
58
2
4
4
7
7
9
9
II
12
17
18
21
Decl.
19x3.
+25
+ 13
+44
-17
+ 3
+69
+34
-62
-81
-51
+59
— 12
-29
+21
-24
+«7
-16
-26
+39
+16
-70
+83
+ 17
-37
+22
-68
-87
+28
-29
+69
+ 8
+32
-43
+32
- 4
+ 5
+59
+25
+28
-14
-25
+27
+48
+74
-53
+26
+28
+52
-24
+69
-47
+18
+76
-16
+89
+ 9
+43
+ 19
-59
Mean Srror
Z930.
014
013
029
. . •
020
027
020
061
048
069
023
021
017
016
025
• . .
021
020
021
023
071
025
013
046
014
061
053
014
021
028
014
021
060
019
040
• • «
033
018
0x0
028
021
018
022
029
052
022
018
022
018
025
051
022
026
023
025
013
027
022
038
ff
19
21
24
16
25
24
22
63
47
64
21
31
23
^9
29
. •
28
24
26
37
64
24
22
34
17
64
46
22
25
26
19
27
46
14
42
15
29
22
12
36
27
28
30
32
40
30
24
23
24
29
44
25
31
32
• •
24
22
29
33
Cat.
No.
536
537
539
543
544
545
547
548
554
556
557
558
559
560
566
567
569
571
574
576
582
583
585
590
589
591
593
594
595
596
599
601
600
603
604
605
606
607
619
620
623
623
626
627
629
630
632
634
636
638
641
642
644
645
646
647
648
653
657
Name.
30 Monoc.
0 Urs. Maj.
6 Channel.
Gr. 1450
7 Cancri
Gr. 1446
d Hydrse
6 Hydrse
y Cancri
6 Cancri
a Pyxidis
t Cancri
e Hydrae
d Argiis
d' Cancri
C Hydis
t Urs. Maj.
a Cancri
b^ Carinse
K Urs. Maj.
(^ Urs. Maj.
K Cancri
X Argils
C Octantis
6 Hydre
ft Argds
83 Cancri
t AlgCiS
40 Lyncis
e Pyxidis
a Hydrae
k Urs. Maj.
1 H.Draco.
d Urs. Maj.
6 Urs. Maj.
^ Leonis
^ Argiis
10 Leo. Min.
o Leonis
C Chameel.
6 Antlise
£ Leonis
V Urs. Maj.
V Argiis
6 Sextantis
M Leonis
Gr. 1586
19 Leo. Min.
4> Argiis
It Leonis
7 Leonis
a Leonis
A Hydrse
q Velorum
32 Urs. Maj.
k Urs. Maj.
C Leonis
y Leonis/^.
jii Urs. Maj.
Z9za.
h m
8 21
23
23
27
28
8 30
33
34
38
40
8 40
41
42
42
49
8 51
53
54
55
8 58
9 2
3
5
10
10
9 12
14
15
16
18
9 23
25
25
27
27
9 27
27
29
36
37
9 40
41
45
45
47
9 48
51
52
54
9 56
10
10
10
3
4
6
II
12
12
12
15
17
Ded.
Z9za.
- 4
+61
—77
+38
4-21
+74
+ 6
+ 4
4-22
+ 18
-33
+29
+ 7
-54
+31
+ 6
+48
4-12
-59
+48
+67
+n
-43
-85
+ 3
-69
+18
-59
+35
—26
- 8
4-63
+82
4-70
+52
+12
-40
+37
4-10
-81
-27
+24
+59
-65
- 4
+26
+73
+41
-54
+ 8
+17
+12
—12
-42
+66
+43
+24
+20
+42
Mean Brror
z9ao.
.017
.014
.050
.047
.019
.032
.019
.023
.016
.017
•053
.025
.014
•053
.022
.018
.016
.015
.044
.018
.020
.016
•039
.041
.014
.035
.018
. . • •
.018
.046
.010
.019
.016
.025
.017
.024
.056
.020
.014
.047
.057
.014
.013
.049
.030
.014
.026
.022
.045
.012
.022
.015
.019
.088
.024
.017
.018
.019
.016
//
23
15
40
43
20
38
26
27
21
21
42
26
19
41
31
24
17
20
43
19
28
22
32
38
19
28
24
• •
21
61
15
19
20
24
17
30
51
27
16
48
49
17
17
38
35
19
32
24
37
20
22
13
24
76
25
16
22
15
19
[Eph za]
514
MEAN ERRORS.
MEAN ERRORS OF NEWCOMB'S PLACES FOR 1920 OF STARS OF THE AMERICAN
EPHEMERIS AND NAUTICAL ALMANAC.
Mean Brror
MeanSnor
Cat.
No.
Name.
R. A.
1912.
Dccl.
X9ia.
X920.
Cat.
No.
Name.
R. A.
X9za.
Dect
Z9xa.
x9'o.
a
ft
a
8
h m
e
s
h m
e
s
99
658
30 H.Ur.Maj.
10 18
+66
.031
•27
770
P Chamsl.
12 13
—79
•037
•32
659
30 H. Camd.
20
+83
.026
.30
772
Br. 1672
14
+88
.016
.22
661
fi Hydrae
22
-16
.018
.22
773
7 Virginis
15
0
.013
•17
662
31 Leo. Min.
23
+37
.019
.24
780
a* Crucis
22
-63
• • • ■
• « •
664
a Antliae
23
-31
.044
•35
787
20 Comae
25
+21
•034
.38
666
36 Urs. Maj.
10 25
+56
.022
•25
786
5 Corvi
12 25
--16
.018
.22
668
9 H. Draco.
28
+76
.019
.21
789
y Crucis
26
—57
.084
•37
669
p Leonis
28
+10
.016
.21
791
8 Can.Ven.
30
+42
.022
•23
679
33 Sextantis
37
— I
.024
•31
793
K Draconis
30
+70
.018
•H
683
41 Leo. Min.
39
+24
.022
.26
792
P Corvi
30
-23
.019
.21
684
0 Argds
10 40
-64
.052
.41
795
24 Comae je^.
12 31
+19
.025
.30
685
42 Leo. Min.
41
+31
.019
.28
796
a Muscae
32
-69
.063
•51
687
tf Argils
42
-59
• • • •
• • •
799
X Virginis
35
— 8
.024
•31
688
/i Argds
43
—49
.049
•37
800
y Centauri
37
-48
.041
•33
689
I Leonis
45
+11
.015
.20
801
y Virginis
37
— I
.018
•24
691
S^ Chamael.
10 45
-80
.047
•39
802
p Virginis
12 37
+11
.023
.29
690
y Hydrae
45
-16
.022
.24
803
76 Urs. Maj.
38
+63
•034
.26
692
46 Leo. Min.
48
+35
.019
.21
808
P Crucis
43
-59
•034
.29
694
54 Leonis
51
+25
.027
•35
810
t Octantis
46
-85
.046
•37
696
t Antlise
53
-37
.072
•95
812
31 Comae
47
+28
.024
-27
695
Gr. 1706
10 53
+78
•034
.40
814
32 H. Camel.
48
+84
.021
•23
698
a Crateris
55
— 18
.020
•25
813
n Centauri
12 49
—40
.068
.62
699
d Leonis
56
+ 4
.018
.24
816
e Urs. Maj.
50
+56
.017
.19
701
P Urs. Maj.
57
+57
.017
.16
817
6 Virginis
51
+ 4
.013
•17
702
a Urs. Maj.
10 58
+6a
.016
•15
818
a Can. Ven.
52
+39
.014
•17
704
Tf Octantis
11 0
-84
.044
•42
820
^ Muscae
56
-71
.017
•33
703
X Leonis
0
+ 8
.013
.19
821
e Virginis
12 58
+ n
.013
•17
706
p* Leonis
2
+ 2
.022
•25
827
0 Virginis
13 5
- 5
.014
•17
708
^ Urs. Maj.
5
+45
.016
•17
830
43 Comae
8
+28
.019
•25
710
fi Crateris
7
—22
.021
•33
836
20 Can. Ven.
14
+41
.024
-24
712
S Leonis
II 9
+21
.014
.16
838
y Hydrae
13 14
-23
.022
•35
713
0 Leonis
10
+16
.019
.21
839
t Centauri
16
-36
.056
•43
718
y Urs. Maj.
14
+34
.021
.21
842
C* Urs. Maj.
20
+55
.020
•»9
719
d Crateris
15
—14
.017
.19
843
a Virginis
21
— II
.008
•14
720
6 Leonis
17
+ 7
.014
.19
846
Gr. 2001
24
+73
.026
•3»
721
ie Centauri
II 17
-54
• • . •
* • »
845
70 Virginis
13 24
+14
.025
•31
723
t Leonis
19
+ 11
.018
.21
847
tc Octantis
26
-85
•039
•35
727
r Leonis
23
+ 3
.016
.21
852
C Virginis
17 H.Can.V.
30
0
.010
•17
730
\ Draconis
26
+70
.016
.16
854
31
+38
.041
•42
731
^ Hydrae
29
—31
.050
•39
857
e Centauri
34
—53
•039
.34
733
A. Centauri
II 32
-63
•053
.48
859
m Virginis
13 37
- 8
.015
.23
734
V Leonis
32
0
.016
.18
863
t Bodtis
43
+ 18
.018
-19
735
It Chamael.
34
-75
.079
.80
866
7 Urs. Maj.
44
+50
.012
•14
737
2 Draconis
C Crateris
38
+67
.025
•25
867
89 Virginis
' Centauri
45
-18
.027
•35
738
40
—18
.019
•29
871
50
-47
.043
•33
740
y Urs. Maj.
p Leonis
II 41
+48
.016
•17
872
77 Bodtis
6 Apodis
13 50
+'9
.012
•17
744
45
+ 15
.010
.14
878
57
-76
• * • •
. • •
745
P Virginis
46
+ 2
.012
.14
879
r Virginis
57
+ 2
.013
.18
747
Gr. 1830
48
+38
.037
.32
880
II Bo6tis
57
+28
.023
.36
748
y Urs. Maj.
49
+54
.012
.14
881
p Centauri
13 58
-60
• • • •
• . •
753
It Virginis
II 56
+ 7
.016
.21
882
n Hydrae
14 1
-26
.021
.36
758
0 Virginis
12 I
+ 9
.016
•15
883
0 Centauri
I
-36
•044
•33
760
6 Centauri
4
-50
.067
.46
885
a Draconis
2
+65
.016
•«7
762
B Corvi
6
—22
.020
.23
888
d Bodtis
6
+26
.023
.38
763
4 H. Draco.
8
+78
.017
.19
889
tc Virginis
8
— lO
.013
.31
765
S Crucis
12 10
-58
.058
-45
890
4 Urs. Min.
14 9
+78
.018
•24
766
6 Urs. Maj.
II
+58
.020
•17
891
I Virginis
II
- 6
.017
.31
767
y Corvi
II
—17
.019
.20
893
a Bodtis
12
+20
.008
.13
768
2 Can.Ven.
12 12
+41
.032
.32
892
^ Octantis
14 13
-83
•035
.30
[Eph 13]
MEAN ERRORS.
515
MEAN ERRORS OF NEWCOMB'S PLACES FOR 1920 OF STARS OF THE AMERICAN
EPHEMERIS AND NAUTICAL ALMANAC.
Mean Error
Mean Error
Cat.
Name.
R. A.
Z9xa.
Ded.
1912.
1920.
Cat.
No.
Name.
R. A.
X913.
Decl.
Z9X2.
1920,
xvo.
a
s
ft
a
a
h m
0
8
h m
0
8 '
'/
894
X Bodtis
14 13
+46
.019
.21
lOIl
e Cor. Bor.
15 54
+27
.023
•24
898
X Virginia
H
-13
.017
.24
IOI2
d Scorpii
15 55
—22
.020
.26
901
2 Librae
19
— 11
.025
.33
IOI9
0 Draconis
16 0
+59
.018
.17
904
e Bodtis
22
4-52
.018
.17
IOI7
fl Scorpii
0
—20
.014
•17
905
/ Bodtis
22
+20
.021
.26
102 1
ic Herculis
4
+ 17
.028
•33
907
4> Virginis
14 24
•— 2
.018
•25
1026
(f> Herculis
16 6
+45
.025
.22
911
5 Urs. Min.
28
+76
.019
.21
1027
Gr. 2320
6
+68
.032
.35
910
p Bodtis
28
4-31
.016
•19
1023
6^ Apodis
7
-78
•053
•49
912
r Bodtis
29
+39
.017
.21
1030
S Ophiuchi
10
— 3
.012
•17
914
7 Centauri
30
-42
•045
•37
1031
tfCor. BoT.seq,
II
+34
•037
.42
9x5
6 Bodtis
14 31
+30
.025
.32
1032
y^ Norman
16 13
-50
.049
.38
917
a* Centauri
34
-60
• • • •
• ■ •
1034
19 Urs. Min.
13
+76
.029
23
919
33 Bodtis
36
+45
•034
•33
XO33
e Ophiuchi
14
- 4
.014
.22
921
a Apodis
37
-79
.044
.47
1035
6 Scorpii
16
-25
.019
.28
926
/I Virginis
38
- 5
.014
.21
1036
r Herculis
17
+47
.022
.20
930
e Bodtis
14 41
+27
.016
.16
1039
y Herculis
16 18
+ 19
.016
.21
932
109 Virginis
42
+ 2
.018
.22
IO41
y Apodis
20
-79
•033
■38
934
8 Librae
46
-16
.018
.20
1045
7 Urs. Min.
20
+76
.022
.22
936
a Librse
46
-16
.010
.14
1046
on Herculis
21
+ 14
.030
37
941
Gr. 2164
49
+60
•033
•35
1050
17 Draconis
23
+62
.018
17
944
fi Urs. Min.
14 51
+75
.016
.16
105 1
a Scorpii
16 24
—26
.013 .
.21
945
$» Libra
52
— II
.018
•23
1056
fi Herculis
26
4-22
.018
.21
946
Piazzi22i
52
+ 15
.025
.29
1055
X Ophiuchi
26
+ 2
.017
.22
948
fi Lupi
53
-43
•054
•45
1059
A Draconis
28
+69
.022
.19
950
6 Librse
56
- 8
,026
•25
IO61
r Scorpii
30
-28
.021
25
952
fi Bodtis
14 59
+41
.020
.22
1062
<S Herculis
16 31
+43
.017
18
953
y Scorpii
14 59
-25
.024
•29
1063
C Ophiuchi
32
— 10
.014
.20
955
iff Bodtis
15 I
+27
.018
.22
1065
24 Scorpii
C Herculis
36
-18
.022
30
957
c Bodtis
3
+25
.030
•33
1067
38
+32
.016
17
962
Gr. 2283
5
+88
.023
•29
1068
a Tri. Aust.
39
-69
.036
29
959
C Lupi
15 6
-52
•059
•51
1069
7 Herculis
16 40
+39
.015
17
960
t Librse
7
-19
.021
•24
107 1
Gr. 2377
44
+57
.038
45
963
y Tri. Aust.
II
-68
.044
.36
1073
e Scorpii
44
-34
.040
33
965
3 Serpentis
S Bodtis
II
+ 5
.029
.31
1078
49 Herculis
48
+ 15
.024
29
966
12
+M
.018
.23
1083
«* Arse
53
-53
.056
50
967
fi Librae
15 12
- 9
.013
.17
1084
»c Ophiuchi
16 54
+ 10
.014
17
976
y Urs. Min.
21
+72
.018
.16
1087
e Urs. Min.
55
+82
.018
16
975
M Bodtis />r.
21
+38
.019
.22
1086
30 Ophiuchi
56
— 4
•035 ■
39
977
r» Serpentis
23
+ 16
.026
.36
1088
e Herculis
57
+31
.016
21
973
p Octantis
23
-84
.037
.38
1089
d Herculis
16 58
+34
.026
30
979
t Draconis
15 23
+59
.025
.21
1092
7 Ophiuchi
17 5
-16
.016
17
978
C Librse
23
-16
.018
.28
1093
V Scorpii
t Draconis
6
—43
.044 ,
34
980
/? Cor. Bor.
24
+29
.025
.22
1094
9
-1-66
.020
19
981
y» Bodtis
28
+41
.023
•31
1096
a Herculis
II
+ 14
.010
14
984
y Lupi (m^an)
29
-41
•043
•35
1098
d Herculis
II
+25
.020
24
986
y Librae
15 31
-14
.021
•24
1 100
K Herculis
17 12
+37
.018
22
987
a Cor. Bor.
31
+27
.010
.13
IIOI
59 Apodis
15
-81
•073 ■
74
993
C Cor. Bor. seq.
36
+37
.027
.36
1 105
0 Ophiuchi
17
-25
.019
21
997
a Serpentis
40
+ 7
.CIO
•13
IIO6
w Herculis
17
+33
.027
30
998
/3 Serpentis
42
+ 16
.018
.21
1 107
/3 Arse
18
-55
.069
49
999
tc Serpentis
15 45
+18
.024
•25
1 109
d Ophiuchi
17 21
-24
.018
29
1000
u Serpentis
45
- 3
.019
•35
nil
d Ophiuchi
22
+ 4
.017
22
1002
12 H.Draco.
45
+63
.028
•32
III2
S Arse
23
-61
. « • . •
■ •
1003
e Serpentis
46
+ 5
.014
•19
"15
a Arae
25
-50
.056
46
1006
C Urs. Min.
47
+78
.016
•15
III7
X Herctdis
27
-1-26
.031
37
1004
/3 Tri. Aust.
15 47
-63
.059
•45
III8
X Scorpii
17 28
-37
.058
47
1005
X Librae
48
—20
.026
.36
III9
/3 Draconis
28
+52
.014
15
1009
y Serpentis
52
+ 16
.016
•23
II23
a Ophiuchi
31
+13
.010
14
lOIO
te Scorpii
15 54
-26
.023
.29
II25
^ Serpentis
17 33
-15
.024
24
£Eph n]
516
MEAN EREOKS.
MEAN ERRORS OF NEWCOMB'S PLACES FOR 1920 OF STARS OP THE AMERICAN
EPHEMERIS AND NAUTICAL ALBIANAC.
Cat.
No.
131
129
132
134
135
137
138
140
H5
146
147
150
148
149
151
152
156
158
164
159
160
153
i6x
166
169
170
17X
173
174
175
178
179
182
185
187
189
190
193
196
199
202
204
206
209
212
21X
213
215
218
219
220
222
226
227
228
230
231
255
237
Nome.
t Herculis
7 Pavonis
00 Draconis
fl Ophiuchi
i^Scorpii
u Herculis
y Ophiuchi
if Draconis
89 Herculis
\ Draconis
B Herculis
35 Draconis
y Ophiuchi
€ Herculis
^ Draconis
67 Ophiuchi
6 Ane
X Sagittarii
6 Urs. Min.
70 Ophiuchi
72 Ophiuchi
X Octantis
0 Herculis
/I Sagittarii
i; Sagittarii
Gr. 2533
36 Draconis
d Sagittarii
ff Se^^entis
£ Sagittarii
109 Herculis
a Telescopii
A Sagittarii
X Draconis
c Serpentis
1 Aquilae
C Pavonis
a Lyre
2 Aquile
0 Sagittarii
no Herculis
6 Aquils
A Pavonis
fi Lyrae
50 Draconis
6 Sagittarii
o Draconis
« Serp. pr.
RLyrjc
e Aqmlee
X Lyrae
C Sagittarii
C Aquile
A Aquils
a Cor. Aust.
f Lyre
K Sagittarii
A Urs. Min.
i> Sagittarii
R. A.
X9xa.
h m
17 37
37
37
39
41
17 43
43
44
52
52
17 53
53
54
54
55
17 56
18 o
o
I
I
18 3
3
4
9
12
18 13
«3
15
17
18
18 20
20
23
23
25
18 30
33
34
37
40
18 42
43
44
47
49
18 50
50
52
53
56
18 56
18 57
19 I
2
3
19 4
5
9
19 10
Decl.
X9xa.
4-46
-65
+69
+ 5
-40
+28
+ 3
+72
4-26
+57
+37
+77
- lo
+29
+51
+ 3
—50
-30
+87
+ 3
-f 10
-88
+29
—21
-37
+42
+64
-30
- 3
-34
4-22
-46
-25
+73
- 2
- 8
-72
+39
- 9
-27
4-20
- 5
-62
+33
+75
-26
+59
+ 4
+44
+ 15
+33
-30
+ 14
- 5
-38
+36
—21
+89
-25
Mean Brror
1930.
8
018
067
021
013
066
014
017
021
025
021
017
022
016
034
013
031
056
021
■ ■ •
022
016
034
019
016
057
035
020
020
016
055
018
049
017
020
027
013
016
009
029
022
020
020
059
013
031
018
028
017
025
017
018
042
014
014
050
025
019
• • •
021
//
17
58
21
17
54
19
21
20
33
21
21
23
22
30
16
26
50
39
■ •
26
19
30
22
19
50
40
21
25
17
46
21
41
22
20
38
25
40
15
30
26
22
32
52
16
25
27
21
25
31
19
22
37
15
23
42
29
23
• •
31
Cat.
No.
239
240
241
242
243
248
224
251
259
260
264
265
266
269
271
273
281
280
282
283
284
286
288
290
289
291
292
297
299
304
308
314
318
3x9
320
321
324
325
328
329
332
336
337
340
341
344
348
349
350
352
353
354
356
357
358
361
366
364
368
Name.
d Sagittarii
6 Draconis
© Lyrae
00 Aquilae
K Cygni
T Draconis
6 Octantis
6 Aquilae
fi Cygni
t Cygni
M Aquile
h Sagittarii
K Aquilae
6 Cygni
54 Sagittarii
fi Sagitte
15 Cygni
/Sagittarii
X Aquilae
6 Cygni
6 Sagittae
a Aquilae
j; Aquilae
« Draconis
t Sagittarii
€ Pavonis
fi Aquilae
r Sagittae
c Sagittarii
r Aquilae
6 Aquilae
o Cyg. seq,
K Cephei
24 Vuipeculae
a^ Capricomi
fi Capricomi
a Pavonis
r Cygni
K Capricomi
p Capricomi
41 Cygni
6 Cephei
e Ddphini
Gr. 3241
a Indi
fi Delphini
V Capricomi
a Delphini
fi Pavonis
a Cygni
d Delphini
if Capricomi
X Delph. 1^9.
« Cygni
£ Aquarii
7 Cephei
M Aquarii
fi Indi
76 Draconis
R. A.
DecL
X9xa.
x9ao.
X9xa.
f
a
a
h m
0
■
ft
19 12
— 19
.014
.29
13
+68
.016
.16
13
+38
.025
•34
14
+ 11
.019
.21
15
+53
.019
.19
19 17
+73
.019
.20
20
-89
.025
.22
21
+ 3
.012
•17
27
+28
.014
.22
27
+52
.020
-19
19 30
+ 7
.024
.28
31
-25
.019
.26
32
- 7
.018
.28
34
+50
.019
.21
36
-16
.022
.30
19 37
+17
.016
.26
41
+37
.029
.29
41
—20
.020
•30
42
+ 10
.009
•15
42
+45
.021
.18
19 43
+ 18
.017
•23
46
+ 9
.010
.14
48
+ I
.022
.26
48
+70
.024
•19
49
-42
•073
.62
19 50
-73
• • • •
• • *
51
+ 6
.008
.»4
55
+ 19
.017
.22
19 57
-28
.017
.24
20 0
+ 7
.022
•33
20 7
— I
.013
.18
II
+46
.019
.21
12
+77
.018
19
13
+24
.025
.30
»3
-13
.012
.17
20 16
-15
.022
.21
19
-57
• • • .
• • •
19
+40
.013
-»7
22
-19
.019
.27
24
-18
.018
.21
20 26
+30
.029
•35
28
+63
.018
•W
29
+11
.013
.19
30
+72
.034
•40
31
-48
.046
.37
20 33
+14
.016
.22
35
-18
.023
•33
36
+16
.014
.22
37
-67
• • • •
• • •
38
+45
.010
.12
20 39
+15
.019
•24
41
-26
.028
.32
43
+16
.024
•30
43
+34
.014
.21
43
— 10
014
•19
20 44
+61
JOI8
.16
48
- 9
.016
.22
48
-59
.067
.58
20 49
+82
.022
21
[Bph xa]
MEAN EKROES.
517
MEAN ERRORS OP NBWCOMB'S PLACES FOR 1930 OP STARS OP THE AMERICAN
EPHEMERIS AND NAUTICAL ALMANAC.
Mean Srror
MeanBnor
Cat.
Namb
R. A.
Dccl.
Z9xa.
1930.
Cat.
No.
Name.
R. A.
Z9X9.
DecL
X9za.
1930.
No.
a
<
a {
1
h m
e
8
h xn
0
8 '
f
1369
32 VulpectiUe
30 51
+28
.018
.22
1495
10 Lacertft
22 35
+39
.027
30
137 1
220 Draco.
52
+80
.021
•25
»497
t PiscAust.
36
-38
.038
38
1373
y Cygni
54
+41
.032
.22
1499
C Pegasi
37
+ 10
.013 .
17
1372
a Octantis
54
-77
•055
.46
1498
§ Octantis
37
-82
.036
30
1374
Y Microscop.
20 56
-33
•037
•49
1500
P Gruis
37
-47
.060
46
1378
9 Capricorni
31 I
-18
.017
.33
1501
» Pegasi
A Pegasi
33 39
+30
.017
21
1380
k Cygni
3
+44
.018
.30
1504
42
+33
.016
21
1381
61 Cygni ^.
3
+38
.020
.19
1505
a Gruis
43
-52
.053
48
1384
V Aquani
5
— 12
.019
.28
1506
t Aquarii
45
-14
.018
24
1387
Br. 2777
7
+78
.033
.21
1507
ti Pegasi
46
+24
.016
19
1386
3 PiscAust.
C Cygni
31 8
-28
.032
.46
1510
t Cephei
23 47
+66
.014
17
1389
9
+30
.015
.18
1512
X Aquarii
48
- 8
.013 .
19
X391
r Cygni
II
+38
.032
.22
1513
p Indi
49
-71
.051
62
1392
a ^uulei
II
+ 5
.015
.20
1514
^ Aquarii
50
-16
.019
25
1394
€ Cygni
14
+39
.031
.28
1516
a Pisc.Aust.
53
-30
.032
28
1396
0> Microscop.
21 15
-41
.074
.80
1520
0 Androm.
33 58
+42
.017
23
1397
a Cephei
16
+62
.016
.14
1523
P Pegasi
33 0
+28
.030
31
1398
% Capricorni
17
-17
.03 1
•25
1525
a Pegasi
0
+ 15
.010
14
1399
I Pegasi
18
+ 19
.030
•27
1528
55 Pegasi
3
+ 9
.039
40
1400
y Pavonis
19
-66
.061
•43
1531
^Aquarii
5
—22
.023 .
32
1403
C Capricorni
21 22
-23
.034
•31
1533
TC Cephei
23 5
+75
.019
31
1406
g Cygni
26
+46
.038
.29
1532
t Gruis
5
-46
.064
56
1407
fi Aquani
27
- 6
.018
.18
1534
59 Pegasi
7
+ 8
.028
41
1409
P Ccphei
28
+70
.014
.14
1535
5 Cassiop.
9
+57
.050 .
31
14x5
^ Aquaru
33
- 8
.016
.22
1536
<t> Aquani
10
- 7
.016
.33
I416
74 Cygni
21 33
+40
.039
•31
X537
^ Aquarii
33 II
— 10
.030
29
1417
Y Capricorni
35
-17
.018
.26
1539
Y Tucanae
13
-59
.044
38
1418
X Octantis
38
-83
.065
•51
1540
Y Piscium
13
+ 3
.013
.16
1424
£ Pegasi
40
t 9
.013
.18
1542
Y Sculpt.
14
-33
•053
.46
1426
II Cephei
41
+71
.028
.26
1544
0 Cephei
^5
■f68
.035
■25
1428
^ Capricorni
21 42
-17
.017
.21
X546
r Pegasi
33 i6
+23
.030
■25
143 1
«« Cygni
44
+49
.033
•24
1548
6* Aquarii
18
—21
.034
■32
1433
11 Capricorni
48
-14
.016
•23
X550
4 Cassiop.
31
-f62
.032
■23
1434
Y Gruis
49
-38
.064
•52
1549
V Pegasi
31
+23
.020
.24
1435
16 Pegasi
49
-1-26
.018
.22
1552
K Piscium
23
+ I
.014
•19
1439
79 Draconis
21 52
+73
.033
•25
1553
0 Piscium
33 34
+ 6
.019
.26
1442
B Indi
57
-57
.058
.80
1555
70 Pegasi
25
+ 12
.022
.26
1444
30 Pegasi
21 57
+ 13
.023
•25
1559
39 H. Cephei
38
+87
.018
.31
1449
a Aquarii
22 I
— I
.010
•13
1558
P Sculpt. .
38
-38
.046
.47
1450
t Aquarii
3
-14
.030
.22
1561
72 Pegasi
30
+31
.026
.30
1452
20 Cephei
22 2
+62
.029
.29
1567
A Androm.
23 33
+46
.016
.30
145 1
a Gruis
3
-47
• • • •
• • •
1568
I Androm.
34
+43
.021
.31
1453
t Pegasi
3
+25
.019
.21
1569
t Piscium
35
+ 5
.013
.19
1456
d Pegasi
6
+ 6
.017
.22
1570
Y Ccphd
36
+77
.014
•H
1457
ic Pegasi
6
+33
.032
•25
1572
K Androm.
36
+44
.020
.23
1459
C Cephei
32 8
+58
.018
.18
1574
flo' Aquarii
23 38
-15
.023
•37
1460
24 Cephei
8
+72
.021
.22
1576
i^ Aquarii
40
-19
.033
•27
1466
d Aquarii
12
- 8
.013
.21
1577
i> Androm.
42
+46
.023
•39
1467
a Tucans
12
-61
,041
•32
1580
41 H. Cephei
44
+67
.034
•27
1469
1; Octantis
15
-86
.026
.22
1581
* Sculpt.
44
-29
.034
1473
Y Aquarii
33 17
— 2
.013
.18
1583
r * Octantis
23 47
-83
.033
.39
1474
31 Pegasi
17
+ 12
.024
.28
1583
0 Pegasi
48
+ 19
.033
•31
1477
3 Lacerts
20
+52
.018
.20
1586
p Cassiop.
50
+57
.032
.38
1478
7t Aquarii
21
+ I
.018
•30
1587
Gr.4163
51
+74
.032
•37
1483
6 Aquarii
26
— II
.016
.21
1592
a> Piscium
55
+ 6
.013
.16
1488
a Lacerte
22 28
+50
.020
.19
1593
e Tucaiue
23 55
—66
.071
.60
1489
V Aquarii
30
—21
.026
.33
1595
30 Piscium
57
— 7
.023
38
1491
236 B. Cephei
31
+76
.026
•25
1596
3 Ceti
23 59
-18
.018
23
1490
f} Aquani
22 31
— I
.013
.19
[Eph xa]
518
SOLAR EPHEMERIS, 1912.
FOR WASHINGTON MEAN AND APPARENT NOON.
•X^ A- —
Apparent Right
Ascension.
Apparent
Declination.
Hourly
Motion.
Ecjuation
of Time
for
Apparent
Noon.
Semi-
diameter
at
Apparent
Moon.
Sidereal
Time of
Semid.
Passiziff
Merid.
Sidereal
Time of
Mean Noon.
Date.
Mean Noon.
App.
Noon.
Mean Noon.
App.
Noon.
Right
Ascen.
Decli-
nation.
h m 8
s
Off*
H
a
ft
m 8
§ H
m s
h m s
Jan. I
18 43 17-53
18.15
-23 4 46.2
45-6
ZZ.046
+IZ.43
+ 3 19.43
16 17.89
I 11.08
Z83958.Z8
2
18 47 42.49
43.19
225958.3
57.5
11.03a
12.57
3 47-82
16 17.90
Z 11.04
18 43 54-74
3
1852 7. II
7.89
22 54 42.7
41.8
11.0x8
13.71
415.90
16 17.90
110.99
18475Z.30
4
185631.37
32.23
22 48 59.8
58.7
XX.003
J4.83
4 43-60
16 17.91
I 10.94
z8 5Z 47.86
5
19 055.24
56.18
22 42 49.8
48.5
10.986
15-98
5 10.92
16 17.90
I 10.89
18 55 44.42
6
Z9 5 18.69
19.71
-22 36 12.8
11.3
xag68
4-17.10
+ 5 37-83
16 17.89
I 10.83
z8 59 40.97
7
19 941-71
42.82
22 29 9.0
7-3
10.949
i8.ai
6 4.30
16 17.86
I 10.76
19 3 37-53
8
19 14 4.28
5-47
22 21 38.7
36.6
10.930
19.31
6 30.31
16 17.83
I 10.69
»9 734-09
9
19 18 26.36
27.62
22 13 42.0
39-6
Z0.9X0
ao.40
6 55-83
16 17.79
I 10.63
Z9ZZ 30.65
zo
19 22 47.94
49-27
22 5 19.1
16.4
10.888
az.49
7 20.85
16 17.75
I 10.56
Z9 15 27.21
ZI
19 27 8.98
10.38
-21 56 30.2
27.3
10.863
+aa.57
^ 7 45-34
16 17.71
1 10.48
19 19 23.77
12
19 31 29.48
30.95
21 47 15.6
12.4
10.843
23.64
8 9.2S
16 17.66
I 10.40
19 23 20.32
13
19 35 49-39
50.93
21 37 35-5
32.1
10.817
34.69
8 32.65
16 17.60
I ZO.32
Z9 27 16.88
14
19 40 8.70
10.30
21 27 30.3
26.6
XO.791
a5-73
8 5541
16 17.54
I 10.24
19 31 13-44
15
194427.38
29.04
2Z 16 60.2
56.1
XO.764
a6.77
9 17-54
16 17.47
I iObZ5
Z9 35 ZO.00
i6
19 48 45.42
47- 14
-21 6 5.5
z.o
10,737
+«7.79
f 939-02
16 17.40
T 10.06
1939 6.56
17
1953 2-79
4-57
20 54 46.6
41-7
XO.709
38.79
959.82
16 17.32
I 9.96
1943 3.12
i8
19 57 19.46
21.30
20 42 63.7
58.5
XO.680
39.78
10 19.93
16 17.24
I 9.86
19 46 59-67
19
20 135-43
37-32
203057.1
51-7
za6so
30.76
1039.34
16 17.16
I 9.76
19 50 56-23
20
20 550.66
52.60
20 z8 27.2
21.5
xa6i9
3Z.73
10 58.02
16 17.08
I 9.66
19 54 52.79
21
20 zo 5.14
7-13
-20 5 34-4
28.3
ZO.588
+33.67
f II 15.95
16 16.99
I 9.55
19 58 49-35
22
20 14 z8.86
20.89
1952 19. 1
12.6
10.356
33.60
11 33.10
16 16.90
I 9-45
20 2 45.91
23
20 18 31.81
33-88
19 38 41.6
34-8
10.523
34.51
II 49.48
16 16.80
X 9.34
20 642.46
24
20 22 43.97
46.08
19 24 42.2
35-1
10.490
35.4a
12 5.08
16 16.70
I 9.24
20 zo 39.02
25
202655.32
57-47
19 10 21.4
13-9
XO.456
36.31
12 19.87
16 16.60
I 9-X3
20 14 35-58
26
2031 5.85
8.03
-18 55 39-5
31-7
10.42a
+37. x8
f 12 33.85
16 16.49
z 9.02
20 18 32.14
27
20 35 J5-57
17.77
18 40 37.0
28.9
10.388
38.03
12 47.00
1616.38
I 8.91
20 22 28.69
28
20 39 24.46
26.69
18 25 14.2
5.8
10.353
38.87
12 59.32
16 16.26
z 8.80
20 26 25.25
29
20433251
34-77
18 931.6
22.9
10.319
39.68
13 10.81
16 16.13
I 8.69
20 30 21.81
30
20 47 39-72
42.00
17 53 29-5
20.5
10.284
40.48
1321.46
16 z6.oo
I 8.58
20 34 18.36
31
20 51 46.11
48.41
-17 36 68.3
59-1
10.249
+41.37
■hi 3 31.28
x6 15.87
I 8.46
20 38 14.92
Peb. X
20 55 51.66
53-99
17 20 28.4
18.9
X0.214
43.04
13 40.26
16 15.73
z 8.34
2042 ZZ.48
2
20 59 56.38
58.73
X7 330.3
20.4
XO.X80
43.80
z 3 48.42
16 15.59
I 8.23
20 46 8.03
3
21 4 0.28
2.64
1646 14.2
4.1
ZO.X46
43.54
X3 55-76
16 15.44
I 8.II
2050 4.59
4
21 8 3.37
5-74
16 28 40.7
30.4
X0.ZZ2
44.36
Z4 2.28
16 15.29
I 8.00
2054 1.15
5
21 12 5.66
8.04
-16 10 50.0
39-5
10.079
+44.96
4-14 8.01
16 15.13
z 7.88
20 57 57.70
6
ai 16 7.14
9-53
155242.5
31-7
10.045
45.66
14 ia.94
16 14.96
I 7-77
2Z Z 54.26
7
21 20 7.82
10.21
15 34 i8.6
7-6
xaoz2
46.33
14 17.06
16 14.79
z 7.65
21 5 50.82
8
21 24 7.72
zo.11
15 15 38.8
27.5
9.979
46.99
14 20.39
16 14.62
I 7.54
21 947.37
9
2128 6.84
9-23
14 56 43.4
31.8
9.947
47.63
14 22.94
i6 14.44
z 7.42
21 13 43-93
10
21 32 5.18
7-57
-14 37 32.8
21. 1
9.915
+48.35
+M 24.72
16 14.26
I 7-31
21 17 40.48
ZI
21 36 2.76
5.14
14 17 67.3
55-6
9.883
48.86
M 25-73
16 X4.07
I 7.20
21 2Z 37.04
Z2
213959-58
61.95
135827.6
15-7
9.851
49.44
14 25.98
1613.88
I 7.09
21 25 33.59
X3
214355-64
58.01
13 38 34-0
21.9
9.8ao,
50.01
14 25.48
1613.68
I 6.98
2Z 2930.15
14
21 47 50-95
53.31
13 18 26.8
14.6
9.789
50.57
14 24.23
16 13.48
z 6.87
ai 33 26.71
X5
ai 5X 45-52
47.87
-12 57 66.6
54-3
9.759
+5Z.10
4-14 22.24
z6 13.28
z 6.76
2Z 37 23.26
16
21 55 39-36
41.69
-12 37 33-7
21.4
9. 7*9
+51.63
+14 19.52
16 13.08
z 6.66
21 41 Z9.82
NoTB. — For mean time interval of semidiameter passing meridian, subtract 0^.19 from the sidereal interraL
TBph Z3l
SOLAR EPHEMERIS, 1912. 519
FOR WASHINGTON MEAN AND APPARENT NOON.
Date.
Apparent Right
Ascension.
Apparent
Declination.
Honrly
Motion.
Equation
of Time
for
Apparent
Noon.
Semi>
diameter
at
Apparent
Noon.
Sidereal
Time of
Semid.
Passing
Merid.
Sidereal
Mean Noon.
App.
Noon.
Mean Noon.
App.
Noon.
Right
Ascen.
Decli-
nation.
Time of
Mean Noon.
h m s
s
9 t M
»*
s
f*
m s
•
H
m s
h m s
Feb. i6
215539.36
41.69
-12 37 33.7
2X.4
9.7*9
+51*63
+14 19.52
z6
13.08
z 6.66
2Z 4Z Z9.82
17
21 59 32.49
34.80
12 Z648.6
36.2
9.699
52.1a
Z4 Z6.09
x6
12.88
z 6.56
2x45x6.37
18
22 3 24.90
27.20
1x5551.7
39.3
9.669
53.61
Z4ZZ.95
z6
12.67
z 6.46
21 49 Z2.93
19
22 7 z6.6i
Z8.89
1x3443.5
31.1
9.640
53.07
X4 7-xo
z6
12.46
X 6.36
2153 9.48
20
22 ZZ 7.63
9.88
ZZZ324.4
ZZ.9
9.611
53.51
14 1.56
16
Z2.25
z 6.26
2Z 57 6.04
21
22 Z4 57.97
60.Z9
-zo 5 1 54.7
42.2
9.583
+53.94
1-X3 55.33
z6
Z2.03
z 6.16
22 Z 2.59
22
22 Z 8 47.64
49.84
zo 30 Z4.9
2.5
9.556
54.36
X3 48.44
z6
ZZ.82
z 6.06
22 4 59-15
23
22 22 36.65
38.83
zo 825.5
X3-3
9*339
54.75
z 3 40.89
z6
ZZ.60
I 5.97
22 855.70
24
22 26 25.02
27.17
9 46 27.0
Z4.9
9.5O8
55."
Z3 32.70
z6
ZZ.38
z 5.88
22 z 2 52.26
25
22 30 Z2.76
Z4.88
924Z9.8
7.7
9.476
55.47
Z3 23.88
z6
ZZ.Z6
I 5.79
22 Z648.8Z
26
22 33 59.88
6Z.97
- 9 z 64.3
52.2
9.450
+55-8X
+X3 X4.45
z6
10*94
X 5.7X
22 20 45.36
27
22 37 46.41
48.47
8 39 40.9
28.8
9.435
56. X4
13 4.42
x6
Z0.7Z
X 5.62
22 244Z.92
28
22 4Z 32.37
34-40
8 z6 69.9
57-9
9.40a
56.45
12 53.82
x6
Z0.47
X 5.54
22 28 38.48
29
22 45 17.77
19.76
7 54 31.8
X9.9
9.380
56.74
Z2 42.65
z6
za24
X 5.46
22 32 35.03
Mar. X
2249 2.63
4.58
7 3X 47.0
35.x
9.359
57.00
Z2 30.95
z6
zaoo
X 5-39
22 36 3X-58
2
22 52 46.97
48.89
-78 55.8
44.0
9.338
+57.35
+Z2 Z8.74
z6
9.76
X 5.32
22 40 28. Z 4
3
22 56 30.82
32.71
6 45 58.6
46.9
9.318
57.50
Z2 6.03
x6
9.52
X 5.25
22 44 24.69
4
23 0 Z4.2Z
Z6.06
6 22 55.6
44.x
9*399
57.73
ZZ 52.86
z6
9.27
X 5-.X9
224821.25
5
23 357.16
58.96
55947.2
35.9
9.280
57.94
XX 39-25
z6
9.02
X 5.13
22 52 Z7.80
6
23 739.68
41-44
5 36 33-9
22.8
9.364
58.14
ZZ 25.22
16
8.76
X 5.07
225614.35
7
23 ZZ 2Z.8o
23.52
- 5 Z3 z6.2
5.3
9.348
+58.33
+ZZ Z0.79
,16
8.50
z 5.0Z
23 0 ZO.9Z
8
2315 3.54
5.22
4 49 54*2
43.5
9.333
58.49
zo 55.98
z6
8.23
X 4.95
23 4 7.46
9
231844.93
46.57
42628.3
Z7.8
9.317
58.65
10 40.8 z
z6
7.96
X 4.90
23 8 4.0Z
xo
232225.98
27.58
4 258.9
48.6
9.304
58.79
Z025.3Z
z6
7.70
X 4.84
23 Z2 0.57
zz
2326 6.7Z
8.28
3 39 26.3
Z6.3
9. 191
58.9X
zo 9.49
z6
7.43
X 4.79
23X557.X2
Z2
232947.15
48.67
- 3X5 5I-X
4X.3
9.179
+59*03
+ 9 53.37
z6
7.Z6
X 4-74
23 Z9 53.68
13
233327.31
28.78
2 52 13*5
4.0
9.X68
59."
9 36.97
z6
6.89
X 4.70
23 23 50.24
14
2337 7.20
8.63
2 28 33.9
24.6
9.X58
59.18
920.30
z6
6.62
z 4.66
23 27 46.79
15
23 40 46.85
48.23
2 452.7
43.7
9.148
59*34
9 3.40
z6
6.35
z 4.62
23 3X 43.34
z6
23 44 26.28
27.62
X 4X Z0.3
Z.6
9.X39
59*39
8 46.28
z6
6.08
X 4.59
23 35 39.89
17
2348 5.51
6.8z
- z Z7 27.Z
Z8.7
9.130
+59.31
+ 8 28.96
z6
5.8 z
X 4-56
23 39 36-44
z8
23 51 44-55
45.8Z
053 43-4
35-4
9.X33
59.33
8ZZ.45
z6
5.54
I 4.54
23 43 33.00
19
23 55 23.42
24.63
0 29 59.8
52.0
9.117
59.31
7 53.77
x6
5-27
X 4-52
23 47 29.55
20
2359 2.Z4
3.30
- 0 6 Z6.5
9.0
9.XXI
59.38
7 35.94
z6
5.00
X 4-50
23 5z 26. zo
21
0 2 40.72
41.83
f 0Z726.Z
33.3
9.X05
59*34
7 X7.97
z6
4-73
z 4.48
235522.66
22
0 6Z9.X8
20.24
^- 04Z 7.5
X4.4
9.XOO
+59. «9
-H 659.88
z6
4.47
I 4.46
23 59 X9.2Z
23
0 957.54
58.55
I 4 47-4
54.0
9.096
59-13
64Z.69
z6
4.20
X 4.45
0 315.77
24
01335.82
36.78
z 28 25.3
3X.6
9.094
59.03
6 23.42
z6
3-93
X 4.44
0 7 Z2.32
25
0 Z7 14.04
Z4.96
z 52 z.o
7.0
9.093
58.93
6 5.09
z6
3.66
X 4.44
ozz 8.87
26
0 20 52.22
53.10
2 Z5 34.0
39.7
9.090
58.81
5 46.7X
z6
3-39
X 4.43
015 5.43
27
024 30.36
31.2Z
^- 239 4-x
9.4
9.069
+58.68
+ 528.30
z6
3.IX
X 4.43
0 Z9 Z.98
28
028 8.49
9.30
3 230.7
35.8
9.089
58.54
5 9.88
z6
2.84
X 4.43
022 58.53
29
0 3X 46.63
47.39
3 25 53.6
58.4
9,091
58.37
4 51.49
z6
2.56
X 4.44
0 26 55.09
30
0 35 24.82
25.52
3 49 X2.6
Z7.0
9.093
58.90
4 33-X3
z6
2.29
X 4.45
0 30 51.64
31
039 3.08
3.73
4 Z227.2
3X.3
9.096
58.0a
4x4-83
z6
2.0Z
z 4.46
0 34 48.20
Apr. z
0424Z.42
42.02
+ 4 35 37.2
4Z.0
9.X00
+57.81
+ 356.62
z6
Z.74
X 4.48
0 38 44.75
2
0 46 Z9.86
20.41
■H 4 5842.Z
45.7
9*105
+57*59
■I- 3 38.52
z6
Z.46
X 450
042 41.30
NoTB.— For mean time interval of semidiameter passing meridian, subtract o*.i8 from the sidereal interval.
[Eph za]
520
SOLAR EPHEMERIS, 1912.
FOR WASHINGTON MEAN AND APPARENT NOON.
Date.
Apparent Right
Ascension.
Apparent
Decunation.
Hoarly
Motion.
Equation
of Time
for
Apparent
Noon.
Semi-
diameter
at
Apparent
Noon.
Sidereal
Time of
Semid.
Paasing
Merid.
Sidereal
Time of
Mean Noon.
Mean Noon.
ApjK
Noon.
Mean Noon.
App.
Noon.
Right
Aicen.
Decu-
nation.
h m s
s
0 r n
w
8
t*
m 8
• •*
m 0
h m s
Apr. X
0424Z.42
42.02
^- 4 35 37.2
4Z.0
9. 100
+37.81
4356.62
r6 Z.74
I 4.48
0 38 44.75
a
0 46 19.86
2a4Z
45842.1
45-7
9.105
37.59
3 38.52
16 Z.46
I 4.50
04a4Z.30
3
0 49 58.44
58.95
521 4Z.8
45.1
9.1x0
i7'37
320.56
z6 Z.18
X 4-52
0 46 37.86
4
05337.18
37-65
5 44 35.9
38.8
9. 117
57-"
3 2.75
16 0.90
X +54
05034.4'
5
057 i6.io
Z6.52
6 7 24.Z
26.6
9.M5
36.87
245.Z2
z6 a62
X 4-57
0 54 3096
6
z 0 55.2Z
55.58
■I- 630 6^z
8.4
9.t34
+56.61
+2 27.68
16 0.34
z 4.60
0 58 27.52
. 7
I 4 34-53
34.86
65241-5
43.6
9.M4
3&S9
2 ZO.45
16 0.06
X 4-63
z 224.07
8
z 8 Z4.09
14-38
7 Z5 10.1
ZZ.8
^XS4
36.03
X 53-46
15 59.78
X 4.67
z 6 20^63
9
z zz 53.92
54- x6
7 37 31-3
32.7
9.i«5
33.7a
X 36.73
15 59.50
I 4.71
Z ZOZ7.Z8
xo
z Z5 34.02
34-22
75945.0
46. z
9.176
33.40
z 20.27
15 59*22
X 4.75
X 14 X3.74
zz
z Z9 Z4.40
Z4.56
f 8 2Z 50.7
5Z.6
9.189
+55.07
+1 4.Z0
1558.94
X 4.79
z z8 Z0.29
Z2
z 22 55.09
55.2Z
84348.Z
48.9
9.aoa
34.7X
0 48.24
X5 58.67
X 4.84
zaa 6.84
13
Z2636.Z0
36.18
9 537.0
37.5
S^ai6
34.33
032.69
X5 58.39
X 4.88
Z26 5.40
14
X 30 Z7.45
17.48
9 27 17.0
Z7.2
9.tao
33.97
0 Z7.48
Z5 58.Z2
X +93
X 29 59.95
15
X3359-X4
59. X4
9 48 47.6
47-6
9»t44
53.57
+0 2*62
X 5 57.85
X 4.98
X 33 ^5x
z6
Z37 4Z.Z9
4Z.Z7
fzozo 8.5
8.3
9-2S9
+39.16
-OZZ.87
X5 57.58
X 5.03
X 37 53.06
17
z 4Z 23.6Z
23.37
Z03Z 19.3
Z8.9
9.«75
33.74
025.99
15 57.3X
X 5.08
Z4Z 49.62
i8
Z45 6.42
6.34
zo 52 Z9.7
X9-I
9.93
33.09
039.74
15 57.05
X 5-X3
z 45 46.17
19
X 48 49-63
49.50
zz Z3 9.4
8.6
9.509
31.84
053.09
1556.79
X 5.X9
X 49 42.73
ao
X 52 33*24
33.07
xz 3347.9
46.9
9.Sa5
31.37
z 6.04
1556.54
I 5.25
X 53 39.28
2Z
z 56 X7.26
Z7.06
f zz 54 Z4*9
X3.7
9*943
+90.88
-z Z8.57
X5 56.29
X 5.32
X 57 35.84
2S
2 0 Z.70
X.47
Z2 Z4 30.Z
28.7
9.S61
90W9S
z 30.68
X5 56.04
X 5.3Q
a 132.39
23
2 346.58
46.32
X2 34 33-x
3Z.6
9.379
49.97
z 42.36
X5 55.79
X 5*45
a 528.95
24
2 73X.9O
3z.6z
Z2 54 23.6
22.0
9.99B
49-93
153.59
X5 55.54
z 5.5a
a 925.50
25
2 ZZ Z7.68
17.36
Z3X36Z.2
59.4
9.4*7
46.79
2 4-37
X5 55.29
z 5-59
a X3 22.06
26
2X5 3.92
3.57
-hi3 33 25.6
23.8
9.497
+48.33
-aZ4.68
X5 55.05
1 5^
a X7 x8.6z
27
2 z8 5a64
50.26
Z3 52 36.6
34.7
9.4S7
47.67
a 34.50
1554-8X
I 5-74
a ax X5.Z7
28
a 22 37.85
37.45
14 xz 33.8
3Z.8
9.478
47.09
233.84
x5 54-57
X 5.8Z
aa5zz.72
29
22625.57
25.15
Z4 30 Z7.0
X4.9
9-499
4&S0
a 42.68
1554.33
z 5.89
229 8.28
30
2 30 Z3.8Z
X3.36
Z4 48 45.8
43-7
9.331
43.90
a 51.0Z
X5 54-09
X 5.97
233 4-83
May z
234 2.57
2.09
[fz5 660.0
57.8
9.S49
+43.38
-a58.8z
X5 53.85
X 6.0s
2 37 X.39
2
2 37 5Z.86
5X.37
X5 24 59-3
57.0
9.9fi6
44.63
3 6.07
X5 53.6Z
I 6.Z3
2 40 57.95
3
2 41 4X.7X
4Z.20
15 42 43.4
4Z.O
9-S^
44.01
3x2.78
X5 53.38
z 6.ai
24454.50
4
2 45 32.Z2
3X.59
z6 0 zz*9
9.5
9.613
43.36
3 X8.93
1553.X4
z 6.29
a 48 5Z.06
5
2 49 23-09
22.55
z6 Z7 24.6
22.2
9.696
43.70
3 24- 5X
Z5 52.9Z
I 6.37
2 52 47.6Z
6
2 53 X4.64
Z4.08
4^z6 34 2z.3
Z8.9
9.660
+40.03
-3 29-52
Z5 52.68
X 6.45
25644.Z7
7
2 57 6.78
6.20
Z6506Z.5
59- X
9.664
41*33
3 33.95
15 52.45
I 6.53
3 0 4a73
8
3 059.49
58.90
17 7 25.0
22.6
9.708
40.63
337.79
15 52.23
z 6.6Z
3 437.28
9
3 4 52-79
52.19
Z7 23 3Z.4
29.0
9-733
99.90
341.04
z5 52.OZ
z 6.69
3 833.84
zo
3 846.68
46.08
173920.5
z8.z
9.737
39.17
3 43.70
15 5X.79
X 6.77
3 X2 30.39
zx
3Z24Z.Z6
40.56
^-Z7 54 52.0
49.6
9.789
+38.44
-3 45.78
X5 5X.57
z 6.85
3 z6 26.95
za
3 16 36.23
35.63
z8 zo 5.6
3-2
9.807
37.69
3 47.27
15 5X.36
X 6.93
3 20 23.5Z
X3
3 20 3Z.90
31.29
z8 24 61.0
58.7
9.831
36.9a
3 48*x6
X5 5Z.Z5
z 7.0X
324 20.07
X4
32428.Z6
27.54
18 39 37-9
35-6
9.836
96.14
3 48.46
x5 50.94
z 7*zo
328Z6.62
X5
3 28 25.00
24.37
18 53 55.9
53-7
9.880
93.33
348.X8
15 50.74
z 7.z8
332x3.18
z6
3 32 22.4Z
2Z.78
4-Z9 754.8
52.7
9-904
+34.33
-3 47.33
X5 50.54
z 7.26
336 9-74
X7
33620.39
19-76
4-Z9 2Z34.3
32.2
9-9>7
+33.73
-3 45.91
X5 50.35
X 7.34
340 6.29
NoTS.— For mean time interval of oemidiameter passing meridian, subtract Oi.i8 trom the sidoreal
[Eph xa]
iiitwvaL
SOLAR EPHEMERIS, 1912.
521
FOR WASHINGTON MEAN AND APPARENT NOON.
Data.
Apparent Right
Ascension.
Apparent
Declination.
Hourly
Motion.
Eonation
of Time
for
Apparent
Noon.
Semi-
diameter
at
Atoparent
Moon.
Sidereal
Time of
Semid.
Passing
Merid.
Sidereal
Time of
Mean Noon.
Mean Noon.
App.
Noon.
Mean Noon.
App.
Noon.
Right
Ascen.
Decli-
nation.
h m a
8
• *# •»
m
s
M
m s
r It
m s
h m 8
May 17
3 36 20-39
19.76
f X9 21 34.3
32.2
9.9*7
+33.73
-345.91
15 50.35
1 7.34
340 6.29
18
3 40 18.92
Z8.3Z
193454.0
52.0
9.9SO
32.90
3 43.93
Z55O.Z6
1 7.42
344 2.85
19
3 44 18.00
17.40
19 47 53.7
51-7
9.973
33.06
341.41
1549.98
1 7.50
3 47 59.41
so
3 48 17.61
17.03
20 033.Z
3Z.2
9.99s
3x.tx
3 38.36
1549.80
1 7.58
3 51 55.97
ai
3 5a X7.75
Z7.x8
20 z 2 52.0
50.2
Z0.016
90.9s
334.78
1549.62
1 7.65
3 55 52.52
aa
3 56 X8.42
17-84
f20 24 50.0
48.3
10.037
+^9.48
-330.67
15 49.45
1 7.73
3 59 49.08
83
4 019.59
Z9.0Z
20 36 27.0
25.3
10.098
a8.te
326.06
1549.28
1 7.80
4 345.64
M
4 421.25
20.66
20 47 42.7
41.1
10.079
a7.7t
320.96
1549.12
1 7.87
4 7 42.20
as
4 823.40
82.84
20 58 36.9
35-4
ZO.099
SI6.8X
315-37
15 48.96
1 7.94
41138.75
a6
4 Z2 26.02
25.48
21 9 9.4
8.0
10.S19
1
09.90
3 9.31
15 48.80
z 8.0Z
4 15 35.31
ar
4 1629.12
28.60
f2Z 1920.0
Z8.8
10.138
+24.98
-3 2.77
1548.65
z 8.08
4 19 31.87
38
4 20 32.68
32.18
2Z 89 8.6
7-4
10.157
24.09
2 55-77
15 48.50
Z 8.Z4
4 23 28.43
39
48436.69
36.21
2Z 38 34*8
33.7
XO.Z76
S3.K
248.32
1548.35
z 8.20
4 27 24.98
30
4284X.I3
40.67
21 47 38*5
37.5
10.194
22. Z8
240.42
Z5 48.20
z 8.26
43121.54
31
4 32 46.00
45.57
2Z 5619^6
z8.8
zo.aia
SX.S4
a 32.10
Z5 48.06
z 8.32
435 z8.zo
Jane x
4 3^ 51-29
50.89
f22 437.9
37.2
io.ii9
+20.28
-2 83.37
Z5 47.92
z 8.38
4 39 Z4.66
a
44056.98
56.6Z
22 Z2 33.2
32.6
10.449
i9.St
a 14.24
15 47-78
z 8.44
44311.22
3
443 3-o6
a.72
22 80 5.3
4.8
zo.«6x
18.99
2 4»72
1547-64
z 8.50
4 47 7-77
4
4 49 9-53
9.20
22 27 Z4.Z
Z3.6
10.976
17.38
154.82
1547-51
X 8.55
451 4.33
5
4 53 X6.36
16.05
22 33 59.4
58.9
10.191
x6i40
144-55
1547.38
z 8.60
4 55 0.89
6
4 57 23-53
23-24
-HI2402Z.Z
20.6
10.909
+l^4I
-1 33.94
15 47-25
z 8.65
4 58 57.45
7
5 z 3z.oa
30.77
22 46 Z9wO
x8.6
ZO.SX9
14.42
z 23.00
1547.X3
z 8.69
5 254.OZ
8
5 538.8a
38.62
22 5Z 53.0
52.7
X0.931
13-42
1 11.75
15 47.01
1 8.73
5 650.57
9
5 946.92
46.75
2257 2.9
8.6
xo.34a
X8*4X
z 0.21
15 46.90
z 8.76
5 zo 47.12
xo
5 X3 55-29
55.15
23 Z48^6
48.4
I0.393
11.40
048.41
15 46.79
z 8.79
5 14 43.68
IZ
5x8 3.90
3.80
¥2S 6zo.z
Z0.O
to.969
+10.39
-036.36
15 46.69
z 8.82
5 z8 40.24
12
5 22 ia.73
ia.66
23 zo 7.2
7.2
X0.37"
9.38
024.09
15 46.60
z 8.84
5 22 36.80
13
5 26 2Z.75
8Z.72
23 13 39.8
39.8
X0.380
8.39
-0 IZ.62
1546.51
z 8.86
52633.36
14
5 30 30.95
30.95
23 16 47.8
47.8
X0.386
7.32
+0 Z.02
1546.42
z 8.88
5 30 29.92
15
5 34 40.28
40.32
23 Z9 3Z.Z
31.x
10.391
&29
0Z3.80
1546.34
z 8.90
5 34 26.48
16
5 38 49.73
49.80
+23 2Z 49.7
49-7
X0.39S
+ 9-26
+026.69
15 46.26
z 8.91
5 38 23.03
17
5 42 59.26
59.37
23 23 43.5
43.5
xo.3g8
4.23
039.67
1546.19
z 8.92
5 42 Z9.59
z8
5 47 8.85
9.00
23 25 Z2.5
12.5
X0.400
3.X9
0 52.70
1546.12
1 8.93
546Z6.Z5
19
5 51 18.47
Z8.65
23 26 z6,7
16.7
X0.40X
2.Z6
1 5.76
1546.07
X 8.93
5 50 Z2.7X
20
5 55 28.09
28.30
23 26 56^0
56.0
10.40X
Z.X2
z 18.82
15 46.02
I 8.94
5 54 9.27
2Z
5 59 37.69
37.94
+232710.5
10.5
X0.399
+ 0.09
+z 3Z.86
15 45.97
1 8.94
558 5-83
22
6 347.23
47.53
2327 0.2
0.2
xo.3g6
-0.94
1 44.85
1545.93
1 8.93
6 2 2.39
23
6 7 56.70
57.04
232625.1
25.1
xo.39a
X.98
1 57-77
1545.89
1 8.93
6 558.94
24
6Z2 6.08
6.45
23 25 35.2
25.2
10.388
S.OZ
2 10.59
1545.85
z 8.92
6 955.50
25
6 z6 15. 34
15.75
2324 0.6
0.5
10.383
4-04
2 23.30
1545.81
z 8.9Z
6 Z3 52.06
26
6 20 24.47
2*4.92
+23 22 IZ.4
ZZ.2
10.378
-9.07
+2 35.88
1545.78
z 8.89
6 Z7 48.62
27
6 24 33.45
33.94
23 19 57.6
57-3
10.371
6.09
2 48.3Z
154575
z 8.87
62145.Z8
28
6 28 42.26
42.78
23 Z7 Z9.2
Z8.9
XO.363
7.IX
3 0.56
15 45.73
z 8.84
6 25 4Z.74
29
6 32 50.88
51.43
23 Z4 z6.4
z6.o
10.394
8.X3
3 Z2.62
15 45.71
1 8.81
62938.30
30
6 36 59.29
59.87
23 zo 49.2
48.7
10.34s
9.X4
3 24.47
1545.69
1 8.78
6 33 34.86
July I
64Z 7.47
8.08
■••23 657.6
57.0
X0.336
— X0.X9
+3 36.08
15 45.68
1 8.75
6 37 31.41
2
64515.39
16.04
■I-23 8 4Z.8
4X.1
10.329
—XX. 16
+3 47.44
15 45.67
z 8.7Z
6 41 27.97
NoTB<— For mean time intsryal of semidiameter passing meridian* aobtract o».x9 from the sideresi! intenraL
[Eph za]
i
522
SOLAR EPHEMERIS, 1912.
FOR WASHINGTON MEAN AND APPARENT NOON.
Date.
Apparent Right
Ascension.
Apparent
Declination.
Hourly
Motion.
Equation
of Time
for
Apparent
Noon.
Semi-
diameter
at
Apparent
Noon.
Sidereal
Time of
Semid
Passing
Merid.
Sidereal
Time of
Mean Noon.
Mean Noon.
App.
Noon.
Mean Noon.
App.
Noon.
Right
Ascen.
Decli-
nation.
b m s
s
0 » t§
n
s
N
m 8
* 1*
m 6
h m «
July 1
641 7.47
8.08
f23 657.6
57.0
ZO.336
— ZO.Z5
+336.08
1545.68
1 8.75
6 37 31.41
2
64515-39
16.04
23 241.8
41.1
10.325
zz.z6
347.44
1545.67
I 8.71
6 41 27.97
3
64923.04
23.73
22 58 1.9
X.I
10.3x3
Z2.Z6
3 58.55
1545-66
I 8.67
6 45 24.53
4
6 53 30.42
31.14
22 52 58.1
57-2
ZO.30Z
Z3.Z6
4 9.37
15 45.66
X 8.65
6 49 21.09
5
6 57 37-50
38.24
22 47 30.4
29.4
10.188
Z4.Z5
4x9.88
1545.66
I 8.58
6 53 17.65
6
7 144.25
45.02
f 22 41 38.9
37.8
io.a74
-Z5.Z4
+4 30.08
15 45.67
1 8.53
6 57 X4.20
7
7 550.67
51.46
22 35 23.8
22.6
io.a6o
Z6.Z2
439.94
1545.67
X 8.48
7 I X0.76
8
7 95674
57-55
222845.1
43-8
10.045
X7.Z0
4 49.45
15 45-68
I 8.43
7 5 7-32
9
714 2.43
3.27
22 21 43.0
41.6
zo.sa8
Z8.07
4 58.58
15 45.70
1 8.37
7 9 3.88
xo
7 18 7.72
8.60
22 14 17.8
16.2
zo.aiz
19.04
3 7.32
1545-73
I 8.3X
713 0.44
II
722 12.60
13.51
f22 629.5
27.8
10.194
-19.99
+5 15.65
1545.76
I 8.25
7 x6 57.00
12
7 26 17.06
17.99
21 58 18.5
16.6
XO.Z76
ao.93
5 23.55
1545.79
I 8.X9
7 20 53.55
13
7 30 21.07
22.01
214944.8
42.8
10.137
21.87
531.00
1545.83
X 8.12
724 50.11
14
7 34 24.61
25.57
21 4048.5
46.4
IO.X37
92.80
537-98
1545.88
X 8.05
72846.67
15
7 38 27.66
28.63
21 31 29.9
27.7
X0.XZ6
23-73
5 44-47
15 45.93
X 7.98
7 32 43.23
i6
7 42 30.20
31.18
f2X 21 49.4
47.0
ZO.094
-24.64
+5 50.44
15 45-99
I 7.9X
7 36 39-79
17
7 46 32.21
33.21
21 XI 47.0
44-5
ZO.072
«5.55
555-89
1546.05
I 7-84
7 40 36.34
i8
7 50 33.68
34-69
21 I 23.2
20.6
XO.049
26.44
6 0.80
1546.11
X 7.76
7 44 32.90
19
7 54 34-60
35.62
205038.1
35.4
Z0.096
"7.3a
6 5.15
1546.18
X 7.69
7 48 29.46
2o
7 58 34.95
35.97
20 39 31.9
29.x
zo.ooa
a8.i9
6 8.94
15 46.26
X 7.6X
752 26.02
21
8 234.72
35.74
+2028 4.8
1-9
9.978
-a9.05
-K6 X2.X5
1546.35
1 7-53
7 56 22.58
22
8 633.90
34.93
20 x6 X7.2
14.1
9.994
29.90
6 X4.78
1346.44
1 7-45
8 0 X9.13
23
8 10 32.49
33.53
20 4 9.3
6.0
9.999
30.75
6 16.82
1546.53
1 7-37
8 415.69
24
8 X4 3a49
31.53
195141.5
38.1
9-905
31.58
6 18.26
15 46.62
X 7.28
8 8 X2.25
25
8 18 27.90
28.94
19 38 53.9
50.5
9.880
3a. 39
6 19.10
15 46.72
X 7. 19
8X2 8.80
26
8 22 24.70
25-74
f 19 25 46.7
43-3
9.854
-33.«>
+6x9.34
15 46.82
X 7.X0
8x6 5.36
27
8 26 20.90
21.94
19 12 20.3
16.7
9.899
34.00
618.98
15 46.93
1 7.0X
Sao X.92
28
8 30 X6.50
17.53
18 58 34.9
31-2
9.804
34.78
6 18.02
13 47.04
1 6.93
8 23 58.48
29
83411.49
12.51
18 44 3a8
27.0
9.779
35.55
6x6.45
15 47-15
I 6.84
8 27 55-03
30
838 5.88
6.89
1830 8.1
4-3
9.754
36.31
6 X4.28
15 47-26
I 6.76
8 31 51.59
31
8 41 59.67
60.66
f 18 15 27.2
23-4
9.729
-37.07
+6 11.52
1547-38
X 6.68
83548.15
Aug. I
8 45 52.87
53.84
18 028.5
24.7
9.704
37.8a
6 8.16
1547-50
I 6.60
8 39 44.70
2
84945.48
46.43
17 45 X2.2
8.3
9.679
38.54
6 4.20
15 47.62
X 6.51
84341.26
3
8 53 37.49
38.43
17 29 38.4
34-5
9.655
39.a6
559.65
15 47-75
1 6.43
8 47 37.8a
4
8 57 28.91
29.84
171347.5
43.6
9.63X
39-97
5 54.52
15 47.88
1 6.34
8 51 34-37
5
9 I 19-75
20.68
f x6 57 39.7
35.8
9.607
-40.67
+5 48.81
15 48.OX
X 6.85
8 55 30.93
6
9 5 10.02
10.94
x6 41 15.4
11.5
9.583
4"-35
5 42.52
1548.14
X 6.X6
8 59 27.48
7
9 859.71
60.61
16 24 34.8
30.9
9.559
4a.oa
5 35-65
15 48.28
X 6.07
9 324.04
8
9x2 48.83
49.71
16 738.2
34.3
9.535
4a.68
5 28.21
15 48.43
1 5-99
9 720.60
9
9 16 37.38
38.24
15 50 25.9
22.1
9.511
43.33
520.20
1548.57
I 5-90
9 XX X7.X6
xo
92025.37
26.20
f 15 32 58.2
54-5
9.486
-43.96
+511-63
15 48.72
X 5.82
9 15 13.71
XI
9 24 12.80
13.60
15 15 15.5
XI.8
9.465
44.59
5 2.31
15 48.88
1 5-73
9 19 X0.27
X2
9 27 59-67
60.44
14 57 18. 1
14-4
9-441
45.ao
4 52.83
1549.05
1 5.65
933 6.82
13
9 31 45.98
46.73
1439 6.4
2.8
9.418
45.78
4 42.59
1549.22
1 5.57
927 3.38
14
9 35 31-74
32.46
14 20 40.7
37.2
9.395
46.S6
4 31-79
1549-40
1 5.49
9 30 59-93
«5
9 39 16.95
17.64
f 14 X 61.2
57.8
9.37a
-46.92
+4 20.44
15 49.58
X 5-42
9 34 5^49
x6
9 43 X.61
2.26
^1343 8.4
5.1
9.349
-47.47
+4 8.54
15 49.76
1 5-34
9 38 53^04
NoTS.— For mean time interval of aemidiameter passing meridian, subtract 01.19 item the sidereal iaterval.
[Eph za]
SOLAR EPHEMERIS, 1912.
523
FOR WASHINGTON MEAN AND APPARENT NOON.
>^ — A. ^
Apparent Right
Ascension.
Apparent
Decfination.
Hourly
Motion.
Bonation
of Time
for
Apparent
Noon.
Semi-
diameter
at
Apparent
Noon.
Sidereal
Time of
Semid.
Passing
Merid.
Sidereal
Time of
Memn Noon.
Date.
Mean Noon.
App.
Noon.
Mean Noon.
App.
Noon.
Right
Ascen.
Decli-
nation.
h m s
B
e w
•»
8
N
m «
» •
m B
h m s
Aug. z6
943 i.6i
2.26
^-13 43 8.4
5.1
9.349
-^7.47
+•4 8.54
15 49.76
1 5-34
9 38 53.04
17
94645-74
46.35
132362.5
59.3
9.327
48.00
356.11
15 49.95
I 5.27
9 42 49.60
x8
95029.35
29.92
13 444.0
41.0
9.306
48.53
343.16
1550.14
I 5.20
94646.16
19
9 54 12.44
12.98
124513.2
10.3
9.885
49.03
329.70
1550.33
1 5.13
95042.71
20
9 57 55-02
55.53
12 25 30.4
27.7
9.364
49.53
3 15.73
15 50.53
I 5.06
9 54 39.27
21
10 I 37.H
37.59
+12 5 35-8
33.2
9-844
—50.00
f 3 1.27
15 50.73
1 4.99
9 58 35.82
22
10 518.73
19. 17
iz 45 29.8
27.4
9.W5
50.48
246.34
15 50.93
1 4.93
10 2 32.38
23
10 859.89
60.28
II 25 12.7
10.5
9.ao6
50.94
230.94
1551.14
I 4.86
10 6 28.93
24
10 12 40.60
40.95
11 444.9
42.9
9,187
51-38
215.09
15 51.35
I 4.80
10 10 25.49
25
10 16 20.88
21.19
ZO 44 6.6
4-9
9.169
51.81
z 58.81
15 51-57
1 4.74
10 14 22.04
26
1020 0.75
1.02
•i-1023 18.2
16.8
9.153
-53.33
4- 142.Z3
15 51.78
I 4.68
10 18 18.60
27
10 23 40.23
40.45
zo 2 19.9
18.8
9.137
53.63
I 25.06
15 52.00
z 4.62
1022 15.15
28
102719.33
Z9.5O
9 41 12.0
1 1.2
9.133
53.02
I 7.61
Z5 52.21
I 4.56
1026 11.70
29
10 30 58.06
58.19
9 19 55.0
54-3
9.107
53.40
049.80
15 52.43
I 4.51
10 30 8.26
30
10 34 36.47
36.55
8 58 28.9
28.4
9.093
53.76
0 3Z.65
15 52.65
I 4.46
1034 4.81
31
10 38 14.56
14.59
f 8 36 54.2
53.9
9.080
-54."
4- 013.19
15 52.87
I 4.41
1038 1.37
Sept. I
104152.35
52.33
8 15 ii.i
II.I
9.069
54.46
- 0 5.58
Z5 53.10
1 4.37
104157.92
2
10 45 29.85
29.79
7 53 19.9
2a 2
9.058
54.79
024.63
15 53.32
1 4.33
10 45 54.48
3
1049 7.10
6.99
7 3Z 21.0
21.6
9.047
55."
043.94
15 53.55
I 4.29
104951.03
4
1052 44.10
43.94
7 914.6
15-5
9.037
55.41
I 3.49
15 53.78
1 4.25
10 53 47.59
5
10 56 20.87
20.66
+ 647 I.I
2.3
9.028
-55.70
- I 23.26
15 54.01
z 4.22
105744.14
6
it> 59 57-43
57.17
6 24 40.8
42.3
9.030
55.98
I 43.24
15 54-24
I 4.18
II I 40.69
7
n 333-80
33.49
6 2 13.9
15.7
9.013
56.34
2 3.42
15 54.48
z 4.15
11 537.25
8
II 7 10.00
9.64
5 39 40.9
43.0
9.006
56.49
2 23.77
15 54.72
z 4.12
II 933.80
9
II 1046.05
45.64
517 2.1
4.5
8.999
56.73
2 44.28
15 54.97
I 4.10
II 1330.36
zo
II 1421.95
21.49
+• 4 54 17.9
20.6
8.993
-56.94
- 3 4.93
15 55.22
I 4.08
II 1726.91
ZI
II 1757.71
57.20
4 31 28.5
31.6
8.988
57.15
325.71
15 55.47
z 4.06
II 21 23.46
Z2
11 21 33.35
32.79
4 834.4
380
8.983
57.34
3 46.61
15 55-73
1 4.04
II 2520.02
Z3
II 25 8.90
8.28
34536.1
40.0
8.979
57.51
4 7.61
15 55.99
I 4.03
zi 29 16.57
Z4
II 2844.36
43.69
32233.7
38.0
8.976
57.67
428.69
15 56.25
z 4.02
113313.13
Z5
II 3219.76
19.04
f 2 59 27.7
32.4
8.974
-57.83
- 4 49.84
15 56.51
I 4.01
II 37 9.68
z6
"35 55-zi
54.34
2 36 18.5
23.5
8.973
57*95
511.04
15 56.77
z 4.01
11 41 6.23
17
113930.43
29.60
2 13 6.3
11.7
8.971
58.06
5 32.27
15 57.04
I 4.01
II 45 2.79
z8
"43 5-74
4.85
1 49 51.5
57.3
8.971
58.16
553.51
15 57.31
z 4.01
114859.34
Z9
II 4641.05
40.11
z 26 34.5
40.6
8.973
58.35
6 14.74
15 57.58
z 4.02
II 52 55.89
20
II 5016.40
15.41
4- I 315-6
22.0
8.974
-58.33
- 6 35.94
15 57.85
z 4-03
115652.45
21
II 53 51.81
50.76
03955.1
61.8
8.976
58.38
657.09
1558.13
I 4.04
12 049.00
22
115727.29
26. 19
+ 01633.3
40.3
8.980
58.43
7 18.16
15 58.40
1 4.05
12 445.56
23
12 I 2.87
1.72
- 0 6 49.5
42.2
8.985
58.46
739.13
15 58.68
I 4.07
12 842.11
24
12 438.56
37.36
0 30 12.9
5.2
8.990
58.48
7 59-99
15 58.96
I 4.09
12 12 38.66
25
12 8 14.39
13.14
- 0 53 36.6
28.5
8.996
-58.49
- 8 20.71
15 59.23
I 4.12
12 z6 35.22
26
12 II 50.39
49.09
I 16 60.2
51.8
9.004
58.48
841.26
1559.50
1 4-15
122031.77
27
12 15 26.58
25.23
I 40 23.5
14.7
9.013
58.45
9 1.62
15 59.77
I 4.18
12 2428.32
28
12 19 2.99
1.58
2 3 46.2
37-0
9.023
58.43
921.76
16 0.04
I 4.21
12 28 24.88
29
12 22 39.63
38.17
2 26 67.9
58.4
9.033
58.38
9 41.67
16 0.31
I 4.24
123221.43
30
12 26 16.52
15.01
- 25028.3
18.5
9.043
-58.33
-10 1.31
16 0.58
I 4.27
12 36 17.98
Oct. I
122953.71
52.15
- 31347.0
37.0
9.055
-58.34
-10 20.68
16 0.85
1 4.30
12 40 14.54
NoTK.— For mean time interval of semidiameter passing meridian, subtract o*.i8 from the sidereal interval.
[£ph 13]
i
524
SOLAR EPHEMERIS, 1912.
FOR WASHINGTON MEAN AND APPARENT NOON,
Date.
Apparent Right
Ascension.
Apparent
Decllnalion.
Hourly
Motion.
Eqnation
of Time
for
Apparent
Noon.
Semi-
diameter
at
Apparent
Noon.
Sidereal
Time of
Semid.
Passing
Merid.
Sidereal
Time of
Mean Nooo.
Mean Noon.
App.
Noon.
Mean Noon.
App.
Noon.
Right
Ascen.
Decli-
nation.
h m s
s
e f m
w
s
f»
m 8
f
H
m s
h m s
Oct. I
Z22953.7Z
52.Z5
- 313470
37-0
9.055
-58.94
-ZO 20.68
z6
0.85
I 4-30
1240Z4.54
2
Z2 33 3Z.2Z
29.60
3 36 63.7
53.4
9.069
58.15
zo 39.74
z6
Z.Z2
I 4.34
Z244 zz.zo
3
Z237 9.04
7.38
4 0 Z8.2
7.5
9.083
58.03
zo 58.47
z6
Z.4O
1 4-38
Z2 48 7.65
4
Z2 40 47.22
45.51
4 23 30.0
Z9.0
9.098
57.93
zz Z6.85
z6
Z.67
1 4-43
Z2 52 4.20
5
Z2 44 25.76
24.00
4 46 38.8
27.6
9."5
57.80
zz 34.86
z6
1.94
1 4-49
Z2 56 0.76
6
Z248 4.69
2.88
- 5 944-2
32.8
9. 131
-57.65
-zz 52.48
z6
2.2Z
1 4.56
12 59 57.31
7
Z2 5z 44.03
42.17
5 32 45-8
34-2
9.148
57.48
Z2 9.69
z6
a.49
1 4-63
13 353.86
8
Z2 55 23.80
2Z.89
5 55 43.3
31-5
9.X66
57.30
Z2 26.48
z6
2.77
1 4.69
13 750*42
9
Z259 4.0Z
2.06
6 z8 36.2
24.2
9-X85
57.XO
12 42.82
z6
3-05
1 4-76
Z3 zz 46.97
lO
Z3 244.67
42.68
64Z24.Z
ZZ.9
9^904
5&88
Z2 58.71
z6
3-32
z 4.82
13 15 43.52
zz
Z3 625.80
23.77
- 7 366»7
54-2
9-«H
-56.65
-13 14.14
z6
3.60
1 4.89
Z3 Z9 40.08
Z2
Z3Z0 7.42
5-34
72643.5
30.8
9*344
56.40
1329.09
z6
3.88
1 4-97
13 23 36.63
13
131349.54
47.4 z
7 49 14.2
1-3
9.S66
56.14
1343.53
z6
4.Z6
I 5-05
13 27 33.19
14
13 17 32-17
30.00
8 iz 38.2
25. z
9.988
55.86
13 57.45
z6
4.43
1 5-13
13 31 29.74
15
132115-33
Z3.Z2
8 33 55-2
42.0
9.3x0
55.56
Z4 Z0.84
z6
4.7Z
Z 3-2Z
133526.30
z6
132459.03
56^79
- 8 55 64.8
51.5
9-333
-5S«4
-Z4 23.69
z6
4-99
I 5.29
13 39 22.85
17
132843.30
4Z.02
9 Z7 66»6
53-2
9.357
54-91
14 35.97
z6
5-27
I 5-38
134319.40
z8
133228.Z6
25.84
93960.3
46.8
9.38X
54.56
14 47-67
z6
5-55
1 5.47
13 47 15.96
19
Z3 36Z3.62
ZZ.26
zo z 45.6
31.9
9.407
54.«)
14 58.78
z6
5.83
I 5-56
Z3 5z Z2.5Z
20
133959.69
57*30
Z0232Z.8
8.Z
9.43s
53.89
Z5 9*28
z6
6.ZZ
1 5-65
1355 9.07
2Z
134346.39
43.97
-zo 44 48.7
35.1
9.460
-5S-4a
-15 19.14
z6
6.38
I 5-75
1359 5-62
22
134733.74
31.29
zz 566WO
52.4
9.487
53.0X
1528.35
z6
6.65
I 5-84
Z4 3 2.z8
«3
Z3 51 2Z.75
Z9.28
zz 2673.2
59-6
9.515
5*. 59
Z5 36.90
z6
6.92
1 5-94
14 658.73
24
13 55 10.45
7-95
zz 47 7ao
56.3
9.544
59.X4
1544-76
z6
7.19
z 6.04
14 10 55.29
25
135859.85
57.33
Z2 856.0
42.3
9.573
51.68
15 51-92
z6
7-46
I 6.Z5
Z4 Z4 5Z.84
26
Z4 249.97
47.42
-Z2 29 30.9
Z7.2
9.604
—31.91
-15 58.36
x6
7-72
z 6.25
14 z8 48.40
27
Z4 640.83
38.25
Z2 49 54.2
40.6
9.635
50.79
z6 4.07
z6
7.98
z 6.36
14 22 44.95
28
14 10 32.44
29-83
13 965.5
52.0
9.667
50.99
z6 9.03
z6
8.23
1 6.47
Z4264Z.5Z
29
Z4 Z4 24.8Z
22.Z8
132964.5
5Z.Z
9*699
49.70
z6 Z3.22
z6
8.48
z 6.58
Z4 30 38.06
30
Z4 z8 Z7.96
15.32
134950.9
37-6
9.73*
49.X6
z6 Z6.62
z6
8.73
z 6.69
14 34 34.62
31
Z4 22 ZZ.9Z
9.26
-Z4 924.2
zz.o
9.765
-48.6X
-z6 Z9.22
z6
8.98
z 6.80
143831.17
Nov. z
Z4 26 6.68
4.0Z
Z4 28 44.0
30.9
9.799
48.04
Z62Z.02
z6
9-23
z 6.9Z
Z4 42 27.73
2
Z4 29 62.27
59.59
14 47 49.9
36.9
9.833
47.45
z6 22.0Z
16
9-47
z 7.02
Z4 46 24.29
3
14 33 58.69
55.99
15 64Z.5
28.7
9.868
46.85
z6 28.z6
z6
9.71
z 7.Z4
Z4 50 20.84
4
M 37 55-94
53.23
15 25 18.5
5-9
9*909
46.99
Z62Z.47
z6
9.95
1 7-25
14 54 17.40
5
Z4 41 54.02
51.31
-154340.3
28.0
9.937
-4^58
-z6 Z9.95
z6
ZO.Z9
1 7-37
14 58 13.95
6
14 45 52.96
50.24
z6 z 46.5
34-5
9.97«
44.93
16 17.57
z6
ZO.42
1 7.49
15 a Z0.5Z
7
14 49 52.75
50.03
z6 Z9 36.7
24.9
ZO.008
44.35
16 Z4.35
z6
Z0.65
I 7.6Z
15 6 7.07
8
14 53 53.38
50.67
z6 36 7a5
58.8
10.043
43-56
z6 ZO.29
16 ZO.88
1 7-73
15 10 3.62
9
Z4 57 54.86
52. z6
z6 54 27.4
15-9
XO.078
4«.85
z6 5.38
z6
ZZ.Z2
1 7-85
1514 o.z8
zo
15 157.19
54.49
-Z7 zz 27.0
Z5.8
X0.XX4
— 49.X9
-Z5 59.62
z6
11.35
1 7.97
15 17 56.74
zz
Z5 560.36
57.67
Z7 27 68.9
58.0
10.X49
4X.37
15 53-01
z6
11.58
Z 8.ZO
15 21 53.29
Z2
15 10 4.37
Z.69
17 44 32.6
22.0
XQ.X84
40.60
1545.56
z6
zi.8z
I 8.22
Z5 25 49.83
13
Z5 Z4 9.22
6.56
z8 037.8
27.4
zo.ax9
39.89
15 37.27
x6
Z2.04
1 8.34
Z5 29 46.41
14
Z5 z8 Z4.9Z
Z2.26
z8 z6 24.0
13.9
10.954
39.0a
1528.Z5
z6
Z2.26
I 8.46
15 33 42.96
15
15 22 2Z.43
z8.8o
-z8 3Z 50.8
41.1
XO.989
—38.90
-Z5 z8.2o
z6
Z2.48
1 S.58
15 37 39-52
z6
Z5 26 28.77
26. z6
-z8 46 58.0
48.5
10.393
-37.38
-15 7-42
z6
Z2.69
z 8.70
15 4z 36.08
MoTB.— For mean time interval of semidiametor passing meridian, subtract o*.x8 from the sidereal intenraL
[Epb xs]
SOLAR EPHEMERIS, 1912.
525
FOR WASHINGTON MEAN AND APPARENT NOON.
Date
Apparent Right
Ascension.
Apparent
Declination.
Hourly
Motion.
Eqaation
of Time
for
Apparent
Moon.
Semi-
diameter
at
Apparent
Noon.
Sidereal
Time of
Semid.
Passing
Merid.
Sidereal
Time of
Mean Noon.
Mean Noon.
App.
Noon.
Mean Noon.
App.
Noon.
Right
Ascen.
Decli-
nation.
h m s
s
• • ••
It
s
m
m s
' i»
m s
h m s
Nov. x6
15 26 28.77
26.16
~i8 46 58.0
48.5
xo.S«3
-37.38
-15 7-42
z6 Z2.69
I 8.70
15 4Z 36.08
17
15 30 36-93
34-34
19 145.0
35.8
10.357
36.54
14 55.82
16 12.90
z 8.8Z
15 45 32.64
18
15 34 45-91
43.35
19 16 iz.6
2.8
10.391
35.67
14 43.41
16 13. 1 1
1 8.93
Z5 49 29.19
19
15 38 55-70
53-17
19 30 17.3
8.9
10.445
34.80
1430.19
1613.32
X 9.04
15 53 25.75
20
1543 6-29
3.80
19 43 61.8
53.7
10.458
33.91
14 16.16
16 13.52
z 9.Z5
155722.3Z
21
15 47 17.68
15.23
-19 57 24.7
17.0
10.491
-33.00
-14 1-33
16 13.72
z 9.26
16 I 18.86
22
15 51 29.87
27.46
20 10 25.7
18.3
10.504
3a.o7
1345-71
16 13.91
1 9.37
z6 515-42
23
15 55 42.83
40.46
20 22 64.6
57-4
10.557
31.14
1329-31
16 14.10
z 9.48
z6 911.98
24
15 59 56*57
54-24
20 35 2a 8
14.0
10.589
30.19
13 12.14
16 14.29
1 9.58
1613 8.54
25
16 4ZZ.07
8-79
20 47 14.0
7.7
X0.63X
«9.a3
12 54.20
16 Z4.47
1 9.69
16 Z7 5.Z0
26
16 826.33
24.10
-205844.1
38.2
10.65a
— «8.S5
-12 35-50
16 14.64
1 9-79
16 21 Z.65
27
16 Z2 42.33
40.15
21 9 50.6
45-2
10.682
V'V
12 z6.o6
16 14.80
z 9.89
z6 24 58.21
28
16 z6 59.07
56-94
21 20 33.3
28.3
10.7x3
96.97
II 55.89
16 Z4.96
1 9-99
16 28 54.77
29
16 21 16.52
14-45
21 30 51.9
47-1
10.74s
25.96
11 34-99
16 Z5.Z2
I zao9
163251.33
30
i6 25 34.68
32.66
21 4046.1
41-5
X0.771
S4.t4
IX 13-39
z6 Z5.27
I ZO.18
16 36 47-89
Dec. I
16 29 53.52
51.56
-21 50 15-5
11.2
10.799
—23. so
-1051.1Z
16 15.42
I Z0.27
16 40 44.45
2
16 34 Z3.03
ZI.14
2Z 59 19.8
15.9
X0.8S6
22.15
1028.Z6
16 15.56
1 10.35
16444Z.00
3
163833-17
31-36
22 758.7
55-2
XO.852
2X.09
ZO 4.56
16 15.70
I ZO.43
164837-56
4
16 42 53-93
52. z8
22 16 12.0
8.8
10.877
to.o«
940-35
z6 15.84
z Z0.5Z
z6 52 34. z 2
5
16 47 Z5.28
13.60
22 23 59.4
56.5
xe.90x
18.93
915-56
16Z5.97
z Z0.58
z6 56 30.68
6
165137-19
35.59
-22 31 20.6
18.0
10.914
-17.83
- 8 5a2o
16 z6.io
z 10.65
Z7 027.24
7
i6 55 59.64
58.ZI
22 38 15.4
13-1
10.945
X6.72
•824.31
z6 Z6.23
z zo.72
Z7 4 23.80
8
Z7 022.59
21.13
22 44 43.6
4Z.6
10.965
X5.6I
7 57-93
z6 Z6.35
tzo.79
17 8 20.36
9
17 4 45-99
44.62
22 50 44.9
43-1
10.984
14*49
7 31-07
z6 Z6.47
z Z0.86
Z7 Z2 Z6.92
zo
17 9 9-83
8.55
225619.1
17-5
XS.00Z
13.36
7 3-78
z6 Z6.58
z Z0.92
Z7 z6 13.48
zz
17 13 34.07
32-87
-23 I 26.0
24.6
XI.0X7
— XS.S2
- 6 36.09
16 16.69
I Z0.97
Z7 20 Z0.03
Z2
17 Z7 58.68
57-56
23 6 5.5
4-4
XX.03S
XI.07
6 8.03
z6 16.80
z ZZ.02
1724 6.59
13
17 22 23.62
22.58
23 zo 17.4
z6.5
IZ.046
9.9t
539-64
16 16.9Z
Z ZI.06
1728 3.Z5
14
17 26 48.86
47-90
23 14 Z.6
0.8
XX.0S8
8.76
5 10.95
16 Z7.01
z zz.zo
17 31 59.71
15
17 31 14.38
13-51
23 Z7 18.0
17.4
XI.066
7*59
442.00
z6z7.11
z ZI.Z4
^7 35 56.27
z6
17 35 40-12
39.34
-2320 6.5
6.0
11.077
- 6.43
- 4x2.81
z6 17.20
z ZZ.Z7
17 39 52.83
17
17 40 6.06
5-37
23 22 26.9
26.5
IX.084
5.96
3 43.42
z6 17.29
Z 11.20
174349.39
z8
17 44 32.16
31-56
23 24 19.2
Z8.9
11.090
4.09
313-87
z6 17.38
Z ZZ.22
17 47 45-95
X9
17 48 58.39
57-88
23 25 43.3
43-1
11.095
2.92
244.Z8
16J7.45
Z Z 1.24
Z7 51 42-50
20
17 53 24.72
24.30
23 26 39.2
39-1
XX.098
1.74
214.40
16 17.52
z IZ.25
17 55 39-06
21
17575Z.Z1
50.79
-2327 6.9
6.9
XI.IQO
-0.57
- 1 44.56
16 Z7.59
z ZI.26
17 59 35-62
22
18 2Z7.54
17-31
2327 6.4
6.4
xx.xex
+ o,6x
z Z4.68
16 17.65
z Z1.27
z8 332.Z8
23
18 643.97
43-83
23 «6 37.6
37-6
XZ.IOI
1.79
044-79
z6 Z7.70
Z ZI.27
18 7 28.74
24
z8 II ZO.38
10.33
23 25 40.6
40.6
X 1.099
2.96
- 0 14.93
16 17.75
1 11.26
z8 zi 25.30
25
18 15 36.75
36.79
23 24 15-4
15-4
IX.096
4.13
f 0 Z4.89
16 17.79
z ZI.25
z8 Z5 2Z.86
26
1820 3.03
3-17
-23 22 22.0
22.0
IX.093
+ 5.31
f 044.62
16 17.8Z
z ZZ.24
z8 19 18.42
27
18 24 29.20
29-43
23 20 0.4
0.4
XI.088
6.48
1 14-24
16 17.83
Z ZZ.22
18 23 Z4.98
28
18 28 55.22
55-54
23 17 10.8
I0.6
XX.08X
7.65
1 43-72
z6 Z7.85
z 1Z.Z9
182711.54
29
z8 33 21.08
21.49
231353-1
52.8
11.073
8.83
2 13.03
16 17.87
z zi.z6
18 31 8.10
30
18 37 46.74
47-24
2310 7.5
7-1
X 1.06s
9.98
242.14
16 17.89
z ZI.J3
1835 4.66
31
1842 12.17
12.76
-23 554-0
53.5
1X.055
•fii.14
f 3 II.OI
16 17.89
Z ZZ.09
1839 Z.22
32
18 46 37-33
38.01
-23 I 12.9
12.2
".044
•fX2.30
+ 3 39-6X
16 17.89
I IZ.05
18 42 57.78
NOTB.-
—For mean tin
ae inter
ral of semidia
meter p
assing 1
neridiai
L subtract c
>.XQ from tb
e sidereal
interval.
[Eph X2 ]
526
MOON-CULMINATIONS, 1912.
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Date.
d
CI
s
j
u
Mean
Time of
Transit
Diff.
fori
Hour
of
Long.
Right
Ascension
of
Center.
Diff.
for I
Hour
of
Long.
Geocentric
Declination
of
Center.
4
Diff.
for I
Hour
of
Long.
Sid.
Time
of
Semid.
Pass-
ing Me-
ridian.
Geocen-
tric
Semidi-
ameter.
Bqna-
tonal
Hori-
zontal
Parallax.
Bright
Umba.
h m
m
h m a
s
© # »♦
H
B
* m
* «f
Jan. o
L
2Z 0.95
a.437
3 40 25.99
156.45
4-22 XO O.X
+687.1
73-94
z6 24.4
60 7.0
I. s.
I
U
930-97
a. 564
4 X2 3a25
164.31
24 16 37.5
575.1
75.80
z6 31.2
603X.9
I. s.
z
L
22 2.48
a.683
446 4.39
171.31
25 58 33.8
440.4
77.46
x6 37.x
6053.4
I. N. S.
2
U
10 35.29
a. 779
5 20 56.25
177.07
27 ZZ 24.4
385.3
78.78
X64X.8
6x za7
I. N. 5.
2
L
23 9.03
«.839
5 56 44.88
180.67
f27 5Z 30.9
+114. 1
79>6o
16 45.x
6x 23.0
I. N.
3
U
" 43.25
a. 856
633 2.05
181.73
27 56 3Z.8
-64.5
79.83
x6 47.0 6x 29.9
I. N.
4
L
0 Z7.4Z
a.8a9
7 915.49
180.07
27 25 48.5
341.8
79.45
1647.3 6x 3X.X
II. N.
4
U
"50.99
a.760
7 44 53.84
175.94
26 20 3Z.8
408.7
78.50
x6 46. X
6x 26.4
II. N.
5
L
X 23.55
a.661
8 X9 3X.0Z
169.98
^4 43 3I.O
-558*0
77."
x6 43.2
6x z6.o
IL N. 5.
5
U
X3 54-79
a. 543
8 52 48.86
163.86
22 38 47.6
685.3
75.44
X639.X
6x 0.7
ILiV.S.
6
L
224.56
a.417
92438.10
155.31
20 z z 2. z
788.3
73-63
16 33.7
6040.9
IL S.
6
U
14 52.83
a. 394
9 54 57.25
147.93
Z725 5.0
867.4
7X.8x
x6 27.2
60 X7.2
II. S.
7
L
319.67
a. 181
xo 23 50.69
141.09
f Z4 25 35.2
-9a4.«
70. XX
z6 20.0
5950.7
II. S.
7
U
X5 45.23
a.o8i
10 51 26.80
135.07
z z x6 45.9
961.1
68.59
z6 Z2.3
5922.3
IL S.
8
L
4 9.69
t.997
iz X7 56.24
130.00
8 2 Z8.7
980.8
67.26
z6 4.2
5852.6
IL S.
8
U
1633.23
1-9*9
z z 43 30.69
135.91
4 45 24.5
986.0
66. x8
X 5 55.9
58 22.4
IL S.
9
L
4 56.05
i.«77
X2 8 22.04
133.81
f z 28 44.7
-978.7
65.36
15 47.7
57 52.4
IL S.
9
U
X7 X8-34
t.841
12 32 41.91
130.66
- 14523.1
960.9
64.78
15 39-8
57 23-3
IL S.
10
L
540.30
I.Sao
X2564X.35
119.38
4 55 1*5
9S4.0
64.44
15 32.2
56 55.3
IL S.
xo
U
z8 2.Z0
X.81S
X3 20 30.72
118.95
7 58 26.8
898.8
64.33
1525.0
5628.9
IL S.
xz
L
6 23.88
x.8i9
X3 44 19.53
119.30
-Z054 5.4
-656.3
64.4X
15*8.3 56 4.4
1
II. S.
IZ
U
z8 45.79
1.836
14 8x6.43
130. 39
Z3 40 29.9
806.5
64.68
Z5X2.2 5542.0
IL S.
Z2
L
7 7-97
1.861
X4 32 29.OX
131.88
x6 x6 x6.x
749-8
65. xo
15 6.7 55 2Z.8
IL S.
Z2
U
X9 30.52
1.894
M57 3.64
»3.9S
Z840 a2
686.3
65.64
15 1.8
55 3.8
IL S-
13
L
7 5351
1.935
X522 5.33
136.37
-20 50 x8.6
-615.6
66.27
14 57.5
54 48.0
IL S.
13
U
20 Z7.0Z
1.980
X5 47 37.32
139.00
22 45 47-8
538.3
66.94
1453.8
5434.5
IL S.
14
L
841.03
s.oa4
x6 Z3 40.88
131.63
2425 5.0
453.8
67.60
1450.7
5423.2
II. S.
14
U
2Z 5.56
a.o6s
1640 X5.09
134.06
25 46 5X.8
363.0
68.2X
Z4 48.2
5413-9
IL S.
13
L
930.55
S.099
X7 7 X6.65
i36ifa
-26 49 56. X
-a66.8
68.7X
Z446.2 54 6.6
II. S.
15
U
21 55.90
a.ta4
17 34 39.98
137.64
27 33 «8.5
166.3
69.07
1444.7 54 ».2
ILN.
16
L
1021.48
a. 137
18 2 X7.50 1)8.47
27 56 X5.0
-6a.8
69.25
1443.715357-5
ILN.
z6
U
22 47. Z 5
a. 139
x8 30 0.21 138.51
27 58 22. z
+ 4I.7
69.23 X4 43.2
5355.5
ILN.
X7
L
zz Z2.75
a.ia6
185738.41 137.73
-27 39 38.8
+145.3
69.01
1443.0 5355-0
17
U
2338.ZZ
a. 100
Z925 2.73
136. ao
27 026.9
346.3
68.60
1443.3 5356.0
z8
L
12 3.ZO
a.064
1952 4-75
134.04
26 X 30.7
S4S.S
68.02
X444.0 5358.4
19
U
0 27.6z
S.090
20 x8 37.77
131.39
24 43 53.2
43«.8
6733
1445.0 54 2.x
19
L
12 51.57
1.971
20 44 37.20
118.47
-23 85X.9
+516.3
66.56
1446.4 54 7.2
20 u
X 14.93
1.930
21 10 0.80
135.46
21 X7 55.6
S9t.o
65.77
X448.2 5413.5
L N.
20 L
X3 37-69
1. 871
21 34 48.47 isa.52
X9 X2 37.x
659.7
64.99
14 50.2 1 54 2X.I
L S.
ai U
1
X 59.88
i.8a7
2x 59 2.X4 119.81
1
16 54 34.0
7x9.5
64.27
14 52.6 1 54 30.x
I. S.
2Z L
14 21.58
1.789
222245.45 117.48
-X4 25 22.0
+77i.a
63.65
M 55.4. 5440.5
I. S-
22 !U
242.85 1.758
22 46 3.54 115.6s
XX 46 35.7
815.3
63.X6X4 58.6 '54 52.2
L S.
22 ,L
X5 3.80
1.736
23 9 2.60 114.33
8 59 46.8
851.6
62.84 X5 2.3 1 55 5.5
I. S.
13 ;U
3 24.56
1.734
233149.87 "3.««
6 623.1
880b7
62.68 X5 6.3 1 55 20.4
I. S.
23
ILI
X5 45.26
1.716
235433.36
113.70 1
- 3 7 39.4
+9W.4
62.73
X5za8
55 36.7 1
L S.
[Bph X3j
MOON-CULMINATIONS, 1912.
527
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Date.
i
•a
a
0
Mean
Time of
Transit
Diflf.
for I
Hour
of
Long.
Right
Ascension
of
Center.
Diff.
fori
Honr
of
Long.
Geocentric
Declination
of
Center.
Diff.
fori
Hour
of
Long.
Sid.
Time
of
Semid.
Pass-
ing Me-
ridian.
Geocen-
tric
Semidi-
ameter.
Bqua-
Hori^ Bright
s^Ul Li«»>-.
Parallax.
h m
m
h m s
8
e * »
It
8
• M
/ M
Jan. 23
L
1545-26
1.736
23 54 33-36
1x3.70
- 3 7 59.4
+ 903.4
62.73
15 10.8
55 36.7
I. s.
24
U
4 6.04
1-739
0 17 21.79
H4.5X
- 0 5 59.0
916.5
62.99
15 15-7
55 54-8
I. s.
a4
L
16 27.06
x.7ti6
04024.59
1x6. xo
+• 2 58 3.4
933.6
63.47
X5 2X.I
56 14.5
I. s.
25
U
4 48.48
Z.806
z 3 51.68
XX8.56
6 228.4
930.3
64.X8
1526.8
56 35-7
1. s.
25
L
17 10.48
1.861
X 27 53.57
X3J.9I
f 9 5 27.6
+ 908.x
65. X2
15 33.0
56 58.4
I. s.
26
U
5 33-24
1.93a
I 5241-15
X36.X7
12 457.9
885.x
66.3X
15 39.6
57 22.5
I. s.
26
L
17 56.94
S.OZ9
2 18 25.43
131.34
X4 58 38.6
849.5
67.70
1546.5
57 47.7
I. s.
27
U
6 2Z.76
9.X20
2 45 17.01
137-38
17 43 47-3
799.4
69.29
1553.6
58 X3.8
L S.
27
L
z8 47.86
a.a33
3x325.69
X44.X6
■h20 17 X6.3
+ 73a.5
71.02
x6 0.8
58 40.3
I. S.
28
U
7 15-36
«.35i
3 42 58.60
151.40
22 35 34.2
647.0
72.84
16 8.0
59 6.5
I. s.
28
L
19 44-33
«.474
4 13 59-52
158.74
24 34 47.0
541.7
74.62
x6 X4.9
5932.1
I. s.
29
U
8 14.72
a. 590
4 46 26.83
165.67
26 10 50.2
415.8
76.27
X62X.5
5956.5
I. s.
29
L
20 46.42
3.687
5 20 XX.88
X7X.59
•H27 19 44.0
+ 370.4
77.65
16 27.6
60x8.8
L JV. S.
30
U
9x9.14
3. 760
5 54 58.65
175.84
275758.3
+ X09.8
78.6X
1632.9
60 38.2
I. N.
30
L
21 52.49
3.793
6 30 23.30
177.90
28 2 59.9
— 60.3
79.05
16 37.2
6054.0
I. N.
31
U
xo 26.01
3.787
7 558.46
«77-54
27 33 36.2
333.7
78.94
1640.4
6x 5.6
I. N.
31
L
22 59.23
a-743
741x5.10
174.86
4-26 30 zo.8
-399.5
78.29
1642.3
6z 12.4
I. N.
Feb. I
U
XX 31.71
3.666
8 15 47.48
X70.36
24 54 4».i
55«.6
77-19
16 42.7
6x Z4.0
1. N.
2
L
0 3.12
3.369
8 49 X6.04
164.33
22 50 23.2
686.8
75-77
16 41.7
6x X0.3
1. N.
2
U
12 33.28
a.459
9 2X 28.82
137.74
20 2 X 27.2
798.6
74-16
1639.2
6x X.3
II. N.
3
L
I 2.ZI
3.346
9 52 2X.23
151.03
<-i7 32 3».6
-886.7
72.52
16 35.4
6047.3
II. N. S.
3
U
Z3 29.62
3.340
xo 2X 54.81
X44.65
X4 28 x8.8
951.7
70.93
16 30.4
6028.8
11. S.
4
L
z 55.92
3.Z46
xo 50 15.56
X38.93
XX 13 X8.5
994.8
69.48
1624.3
60 6.5
II. S.
4
U
Z42Z.16
3.064
XI X7 32.30
X34.00
7 51 37.9
1018.4
68.22
x6 17.4
59 41. 1
II. S.
5
L
2 45.51
1.997
114355.38
139.98
f 4 26 57.0
— X035.X
67.19
16 9.8
5913-3
II. S.
5
U
15 9.14
X.944
12 9 35-77
136.90
f X 227.4
1017.3
66.39
16 X.8
5844-0
II. S.
6
L
3 32.25
X.909
123444-44
134.69
- 2 19 5.6
996.3
65.84
15 53.6
58 X4.0
II. S.
6
U
15 55.0X
Z.886
^2 59 31.95
X33.33
5 35 19.8
964.3
65.50
15 45.4
5743.9
II. S.
7
L
4 17-59
1.877
1324 8.30
X23.83
-844 XX.9
■~ 9^3.8
65.39
15 37.4
57 14.3
II. S.
7
U
1640.X3
Z.880
13 48 42.6X
133.04
"4353.9
873.9
65.46
1529.6
56 45-8
II. S.
8
L
3 2.77
1.894
14 13 23.14
M3.89
14 32 48.5
8x5.x
65-71
15 22.3
56 X8.9
II. S.
8
U
17 25.63
1.917
14 38 16.99
135.35
X7 926.9
749.8
66. xo
15 15-5
55 53-9
II. S.
9
L
5 48.81
«.947
15 3 30.08
X87.O3
-19 32 25.4
-- 678.x
66.59
15 9.3
55 31.2
II. s.
9
U
x8 12.39
1.98Z
X529 6.73
139.13
2X 40 23.6
600.0
67-15
15 3.7
5510.9
II. s.
10
L
6 36.40
8.030
1555 9-56
131.37
2332 5-4
515.7
67.74
14 58.8
54 53-1
11. s.
10
U
19 0.85
3.056
16 2X 39.21
133.58
25 6 19.2
435.6
68.32
14 54-7
54 37-9
II. s.
IZ
L
7 25.73
3.089
x6 48 34.26
135.56
-26 2X 58.8
- 330.3
68.81
14 51.3
54 25.4
II. s.
zx
U
19 5a97
3.1X6
17 X55I.OX
137.15
27 x8 7.4
330.6
69.21
14 48.6
54 15.4
II. s.
12
L
8 X6.48
3.X33
174323.86
138.31
27 53 59.9
X37.8
69-45
14 46.6
54 8.0
II. N.
Z2
U
2042.X3
3.X40
18 XX 5.48
X38.6X
28 9 7.0
- 33.3
69.52 :
^445.3
54 3-1
II. N.
13
L
9 7-79
3.X34
183847-50
138.37
-28 317.7
■I- 8X.5
69.39 3
^44-5
54 0.5
II. N.
13
U
2X 33.31
3. 1 17
X9 6 2X.25
I37.a3
27 36 40.5
184.5
69.08 ]
f 4 44.4
54 0.0
II. N.
14
L
9 58.56
3.089
19 33 38.45
135.53
26 49 44.6
384.3
68.59 ]
[4 44.8
54 1-6
II. N.
14
u
2223.4X
3.O5X
20 03X.93
133.31
25 43 17-8
379.4
67.97 3
C4 45.7
54 5.0
II. N.
Z5LI
1047.78 2.0091
2026 56.22
130.69
-24 X 8 24.0
+ 468.6
67.25 }
t4 47.i
54 IO.O
II. N.
[Bph 13]
528
MOON-CULMINATIONS, 1912.
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Date.
1
«■
J
"3
u
Mean
Time of
Transit
Diff.
for I
Hour
of
Long.
m
Right
iUcenaion
of
Center.
Diff.
fori
Hour
of
Long.
Geocentric
Declination
of
Center.
Diff.
for 1
Hour
of
Long.
Sid.
Time
of
Semid.
Paaa-
IngMe-
rioiaiL
Geocen-
tric
Semidi-
ameter.
Equa-
torial
Hon-
contal
Parallax.
BrUHt
Umba.
h m
h m ■
a
e « w
a
f m
r w
Feb. 15
L
lo 47.78
S.009
20 26 56.22
130.69
-<E4 18 24.0
+468.6
6725
Z447.X
54X0.0
11. N.
X5
U
23 ZI.60
X.96X
20 52 47.77
X27.88
22 36 2a6
550.8
66.47
14 48.9
5416.6
II. N.
x6
L
" 34-85
1.9x3
2Z z8 5.ZZ
X35.OZ
20 38 34.0
635.6
65.69
I45I.I
5424.5
z6
U
23 37-55
X.869
2Z 42 48.74
133.37
z8 26 37,4
693.4
64.93
1453-6
54 33.6
17
L
Z2 Z9.72
Z.837
22 7 0.94
119.80
-z6 2 7.8
+ 751- 1
64.24
1456.3
54 43-7
i8
U
0 4Z.43
1.79X
22 30 45.48
117.69
132643.3
801.6
63.66
1459.3
54 54-8
z8
L
Z3 2.76
X.764
2254 7.38
1x6.05
Z042 3.Z
843.7
63.2X
15 2.6
55 6.8
19
U
z 23.82
X.746
23 Z7 X2.74
XI4.95
7 49 46.0
•77-6
62.92
X5 6.Z
5519.5
I. s.
19
L
13 44-72
X.738
2340 8.43
114.44
- 45131.1
+ 903.4
62.81
15 9.8
55 3I-0
I. S.
20
U
2 5-59
X.741
0 3 2.07
114.60
- z 48 59.0
93cx6
62.88
1313.7
55 47-2
I. S.
20
L
Z4 26.56
X.757
026 Z.90
115.48
4- z z6 8.3
939-0
63,x6
X5 X7.7
56 2.x
I. S.
21
U
2 47-77
1.766
0 49 Z6.62
117.09
422 5.0
938.7
63.64
X52X.9
56 X7.7
I. S.
21
L
15 9-39
x.8a6
1 " 55.44
119.51
*• 72659.3
+ 918.7
64-35
1526.4
5634.0
I. S.
22
U
3 31.57
Z.07B
137 7.89
133.71
zo 28 5Z.2
898.3
65-27
15 3X.O
56 5Z.O
I. s.
22
L
15 54-46
X.943
2 2 3-64
136^71
132529.9
866.3
66.40
15 35.8
57 *8.7
I. s.
23
U
4 18.23
a.oaz
227 5s. Z9
131.50
16 Z4 30^9
831.7
67.71
X540.8
5726.9
I. s.
23
L
z6 43.03
S.XI3
2 54 42.55
137.00
4-Z8 53 Z4.4
+ 7^0
69-19
15 45.9
5745.6
I. s.
24
U
5 8.99
a* 313
3 22 42.26
143.03
8Z Z844.2
689.3
70.77
1551.1
58 4.7
I. s.
24
L
Z7 36. z8
a.si9
3 5X 56.57
149.99
23 27 47.6
598.6
72.39
15 56.4
5824.x
I. s.
25
U
6 4.64
3.434
4 22 27.34
X55-70
25 Z7 Z.6
490.8
73.97
x6 X.7
5843.5
I. s.
25
L
x8 34.33
3.S3X
454ZZ.66
X61.56
4-2643 a2
+ 366.1
75.40
x6 6.9
59 2.6
I. s.
26
U
7 5-10
8.6Q3
527 0.93
166.44
274228.x
336.8
76.56
x6zx.8
5920.8
I. jv: s.
26
L
Z9 36.70
3.fi6o
6 0 40.5Z
X69.88
28 Z2 39.0
+ 74.1
77.36
x6 X6.5
5937.9
I. N. 5.
27
U
8 8.8z
8.006
6 34 50.63
171.48
28 ZZ 35.4
- 85.4
77.72
X620.7
59 53-3
I. N.
27
L
20 4Z.04
3.680
7 9 8.25
X7X.13
4-27 38 23.8
-•46.3
77.59
Z624.3
60 6.5
I. N.
28
U
9Z3.OZ
a.643
7 43 9.97
I6B.87
26 33 25.1
403.3
77.02
x6 27. z
60x7.0
I. N.
28
L
2144-37
a-579
8 z6 34.94
X65.05
245813.7
S47.«
76.07
X629.X
6024.3
I. N.
29
U
10 Z4.85
3.499
849 7."
X60.I6
22 55 28. z
677.3
74.86
z6 30.x
6028.0
I. N.
29
L
2244.29
•.407
9 20 36.46
X54.67
4^0 88 33.4
-788.5
73.48
1630.0
6027.8
I. N.
Mar. X
U
ZZ Z2.6Z
3.3x3
9 50 58.79
149-06
Z7 4Z 25.0
879.3
78.06
X628.9
6023.5
I. N.
z
L
2339.84
3.334
Z0 20Z5.02
X43.70
M 38 10.5
949.S
70.70
x6 26.7
60XS.X
I. N.
2
U
X2 6.04
3.144
zo 48 89.87
138.87
ZZ 22 57.Z
999-1
69.45
1623.3
60 2.8
I,//. N.
3
L
0 3«-35
3.076
ZZ Z5 50.76
X34.74
■»■ 7 59 41-4
"-10(30.1
68.37
z6x8.9
5946.8
II. N. 5.
3
U
12 55-93
3.030
ZZ 42 26.59
XS1.38
432 5.3
1043.1
67.49
x6 X3.6
5927.5
II. N. S.
4
L
z Z9.89
X.977
Z2 8 27.04
138.83
f x 331.2
1Q39.8
66.83
x6 7.6
59 5-4
II. S
4
U
X3 43.42
Z.949
Z2 34 1.89
137.11
- 2 22 57.3
1083.3
66.39
z6 z.o
5841.2
IL S.
3
L
2 6.70
X.933
Z2 59 20.76
136.16
- 5 44 35.8
-991.9
66.16
Z554.0
5815.4
11. S.
5
U
1429-87
X.93O
I32452.7Z
X35.95
8 58 57-3
949-8
66.Z3
X546.7
5748.6
II. S.
6
L
2 53.05
1.936
134946.03
136.37
12 349-7
897.3
66.89
1539.4
57 2X.6
IL S.
6
U
15 16-39
1.953
Z4 Z5 8.03
187.37
X4 57 X4.6
835.3
66.59
1532.1
5654*9
II. S.
7
L
339.96
1.977
14 40 44-93
138.84
-X7 37 24.7
-764.9
67.O8
1525.0
56 89.0
II. S.
7
U
z6 3.87
3*007
Z5 64Z.50
130.63
20 243.0
686.8
67.53
15 18.3
56 4-5
II. S
8
L
428.16
3.040
Z5 33 0.89
133.6a
32 XX 40.8
601.8
68.09
X5 Z2.Z
55 41-7
II. S.
8
U
z6 52.84
3.074
X5 59 44.43
134.63
24 258.0
510^4
68.66
15 6.4
5520.9
II. S.
9
L
5 X7.92
3.X04
z6 26 5Z.40
136.491-253524.6
-413.4
69.15
15 1*4
55 2.4
IL S.
[Bph 13]
MOON-OULMINATIONS, 1912.
529
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Date.
•
a
,2
d
0
Mean
Time of
Transit
Diff.
for I
Hour
of
Long.
Right
Ascension
of
Center.
Diff.
for X
Hour
of
Long.
Geocentric
Declination
of
Center.
Diff.
for I
Hoar
of
Long.
Sid.
Time
of
Semid.
Pass-
ing Me-
ridian.
Geocen-
tric
Semidi-
ameter.
Equa-
torial
Hori-
zontal
Parallax.
Bright
Limbs.
h m
m
h m s
s
• » H
w
s
* r*
* n
Mar. 9
L
5 17-92
a.zo4
16 26 51.40
136.49
-«5 35 24.6
-413-4
69.15
15 X.4
55 2.4
II. s.
9
U
17 43-34
3.130
x6 54 19.00
138.03
2648 1.5
3X3. X
69-57
14 57.1
5446.5
S.
xo
L
6 9.02
a. 149
17 22 2.47
139."
2740 2.8
307.6
69.85 I14 53.5
54 33-3
S.
xo
U
1834.86
9.156
174955-36
139-59
28 10 57.9
— XOX.3
69.98 1450-7
54 22.9
S.
II
L
7 0-73
a. 153
18 17 50.02
139-40
-28 20 33.7
+ 5.3
69.92 >I4 48.6
54 J 5.3
.N.
II
U
19 26.49
2*139
i8 45 38.30
138.53
28 855-3
XX0.7
69.66 14 47.2
54 10.4
N.
12
L
752.01
2.113
19 13 12.22
X37.03
27 36 25-9
913.5
69.24 14 46.6
54 8.2
.N.
X2
U
20 17.18
a. 080
19 40 24.63
134.97
26 43 46.4
3Z3.3
68.68
14 46.8
54 8.7
, N.
13
L
8 41.90
a.039
20 7 9.88
133.51
-25 31 5X-8
+ 405.8
67.99
1447.6
54x1.6
,N.
13
U
2X 6.10
x«994
20 33 24.05
Z39.83
24 149-7
493.3
67.23
1449.0
54 16.9
, N.
14
L
929*75
x.9*7
2059 5.18
««7.03
22 14 56.8
574-3
66.44
14 51.0
5424.3
, N.
X4
U
2X 52.84
X.903
21 24 13.17
xa4-33
20 X2 36.4
647.9
65.67
14 53.6
5433.7
, N.
15
L
10 15.42
X.860
21 48 49.70
Z3X.83
-17 56 16.3
+ 714.9
64-95
1456.6
54 44-7
N.
15
U
22 37-53
1.804
22 12 57.97
119.64
15 27 27.3
77^.7
64.32
T5 0.0
54 57-2
N.
x6
L
10 59.24
X.794
22 36 42.46
XX7.86
12 47 42.8
893.3
63.80
15 3.7
55 10.8
,N.
x6
U
23 20.65
X.773
23 0 8.69
XI6.59
95838.3
865.9
63-43
15 7.6
55 25.3
17
L
1x41.86
1.763
232323.11
IZ5.9X
- 7 1 51.7
+ 900.4
63.22
15 ".8
5540.6
x8
U
0 2.99
x.76a
23 46 32.77
XXS.83
3 59 4-7
996.0
63.19
15 16.T
55 56.4
x8
L
1224.17
1.770
0 9 45-37
ZX6.39
- 0 52 3.6
943.6
63.36
1520.5
56 12.4
19
U
045-53
X.791
033 9.08
ZX7.68
4- 2 17 19.6
949-6
63.72
1524.9
56 28.4
19
L
13 7-23
X.834
0 56 52.47
XZ9.69
f 5 27 5.6
+ 946.9
64.30
1529.2
56 44.3
20
U
129.39
Z.871
X 21 4.40
133.44
835 5.9
931.8
65.07
15 33.4
57 0.0
I. s.
20
L
1352.18
Z.919
I 45 53-82
135.99
"39 X.7
905.4
66.05
15 37.6
57 15.3
I. s.
2X
U
215.74
X.999
2 1129.48
130.13
14 36 22.5
865.8
67.22
15 41.7
5730.1
I. s.
21
L
1440.21
3.080
23759.66
t34.99
+17 24 24.9
+ 8X3. X
68.54
15 45.6
57 44.3
I. s.
22
U
3 5-70
3.Z70
3 5 3«-38
X4*37
20 013. 1
743.4
69.98
15 49-3
57 58.0
I. s.
22
L
15 32.29
3.363
3 34 9.76
146.06
222040.5
658.5
71.47
15 52.9
58 II. 2
I. s.
23
U
4 0.02
3.399
4 356.93
151.78
24 22 33.0
557.6
72.94
1556.3
58 23.7
I. s.
23
L
16 28.88
a-449
4 34 51-15
X57.X6
4-26 238.1
+ 440b8
74-30
15 59.5
58 35.6
I. s-
24
U
458-74
3.534
5 645.83
X61.78
27 17 53-3
309.6
75.46
16 2.6
58 46.8
I. s.
24
L
17 29.41
3.581
5 39 29.23
X69.31
28 5 4X-5
Z66.7
76.31
i6 5.4
58 57.2
I. s.
25
U
6 0.61
3.614
61244.88
X67.X3
2824 5.1
+ 16.3
76.77
16 8.0
59 6.7
I. N.
25
L
18 52.03
3.6x7
646x3.09
Z67.39
f28 II 59.7
- 137.9
76.81
16 10.3
5915.1
I. N.
26
U
7 3-30
3.591
7 19 33-06
165.75
27 29 21.2
388.4
76.44 16 12.3
59 22.3
I. N.
26
L
19 34-12
3.540
7 52 25.44
X63.74
26x7 7.9
439.x
75.69
16 13.9
5928.1
I. N,
27
U
8 4.22
3.473
8 24 34.40
Z58.60
24 37 X3-8
564.5
74.65
16 15.0
59 32.2
I. N.
27
L
2033-41
3.39X
8 55 49-05
X53.7«
f 22 32 x6. 1
— 683.4
73.43
16 15.6
59 34-6
I. N.
28
U
9 1.60
3.306
9 26 3.65
148.66
20 522.7
783.6
72.IX
16 15.6
59 34.8
I. N.
28
L
21 28.78
3.333
95517-32
143.65
17 19 38.7
867.4
7a82
16 15.1
59 32.7
I. N.
29
U
9 55-0O
3.X47
lo 23 33-03
139.04
14 X9 35.2
933.6
69.59
16 13.8
59 28.0
I. N.
29
L
2220.35
a. 080
10 50 56.66
135.00
4-xx 742.4
-983.4
68.50
1611.8
59 20.8
I. N.
30
U
1044.97
3.004
XI 17 35-92
ISZ.66
7 47 43.9
XOZ4.8
67.60
16 9.2
59 ".2
I. N.
30
L
23 9.00
1.98X
114339.66
139.09
4 22 55-0
103a 9
66.90
16 5.9
5859.0
I. N.
31
U
1132-59
X.951
12 917.24
xa7.3o
f o562ai
1033.4
66.40
16 1.9
5844-3
I. N.
31
L
23 55-90
X-9S4
12 34 37*98
136.38
- 2 29 6.3
-XOI9.7
66.12
1557.3
58 27.6
I.//. N. .9.
19]
C2 3i
^
[Bph Ta]
530
MOON-CULMINATIONS, 1912.
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Date.
•
0
.2
a
••<
J
a
u
Mean
Time of
Transit.
Diflf.
for I
Hour
of
Long.
Right
Ascension
of
Center.
Diff.
for z
Hour
of
Long.
Geocentric
Declination
of
Center.
Diff.
for x
Hour
of
Long.
Sid.
Time
of
Semid.
Pass-
ing Me-
ridian.
Geocen-
tric
Semidi-
ameter.
Equa-
torial
Hori-
contal
Parallax.
Bright
Limbs.
h m
m
h m s
s
0 » n
w
s
• »»
• m
Mar.3z
L
23 55.90
X.934
12 34 37.98
xa6.a8
- 2 29 6.3
-XOX9.7
66.12
15 57.3
58 27.6
I.//. N. S.
Apr. I
U
12 19.08
X.9SO
12 59 50.96
"5.99
5 50 40.6
993.8
66.04
15 52.2
58 8.9
II.N.S.
2
L
042.27
1.937
1325 4.68
xa6.40
9 549.1
955.6
66.16
15 46.7
5748.5
II. S.
2
U
13 5-6i
X.933
13 50 26.87
127.40
12 12 8.1
905-7
66.45
15 40.9
57 27.3
II. S.
3
L
I 29.20
1.979
14 16 4.21
X28.9X
-15 7 22.6
-844.9
66.88
15 34.9
57 5-4
II. S.
3
U
13 53«i2
3.01X
14 42 2.08
130.80
17 49 27.1
774.2
67.41
15 28.9
5643-2
II. S.
4
L
2 17.46
2.046
15 824.35
13a. 94
20 16 26.3
694*2
68.01
15 22.9
5621.2
11. S.
4
U
14 42.23
a.083
15 35 13-00
135.16
22 26 34.5-
605.9
68.64
15 17. 1
56 0.0
II. S.
5
L
3 7.43
3.X19
x6 227.86
137.29
-24 18 18.6
-510.4
69-23
15 II.6
5539.9
II. S.
5
U
15 3304
a. 149
16 30 6.66
139.12
25 50 19.2
408.9
69.74
15 6.5
5521.2
II. S.
6
L
3 58.97
a.x7x
1658 4.83
140.49
27 133.4
303.0
70.13
15 1.9
55 4.2
II. S.
6
U
16 25.11
2.X84
17 26 15.86
141.25
27 51 Z7.6
194.3
70.35
14 57.8
5449.3
II. S.
7
L
4 51.33
a.xa4
175431-78
X4X.30
-28 19 8.0
- 84-4
70.39
14 54*4
54 36.8
II. JV. S.
7
U
17 17.49
a.x73
18 22 43.77
Z40.60
2825 3*3
+ 24.7
70.23
14 51.7
5426.9
II. N.
8
L
5 43*43
3.XS0
18 50 43.03
139*18
28 922.6
X3X.2
69.88
14 49.8
5419.7
II. N.
8
U
18 9.03
a.xi6
19 18 21-44
X37.U
273244.2
233-9
69.36
1448.6
54 15.3
11. N.
9
L
6 34-i7
a.074
194532-39
134.62
-2636 3.0
+ 331.6
68.69
14 48.1
5413.7
II. N.
9
U
i8 58.77
2.oa6
20 12 II.IO
131.79
25 20 25.6
423*3
67-93
14 48.4
5414.8
II. N.
zo
L
7 22.81
«.977
20 38 14.89
xa8.83
2347 7.4
308.5
67.12
14 49.5
5418.7
II. N.
lO
U
19 46,24
1.939
21 343.16
123.90
21 5729.1
586.8
66.31
14 51-3
54 25.3
II. N.
II
L
8 9.11
X.883
21 28 37.21
»3.i5
-19 52 53.6
4-^7*9
65.53
14 53.8
54 34.4
II. N.
II
U
20 31.46
1.843
21 53 0.04
X20w72
17 34 44-9
722.2
64.82
1456.9
5445.9
II. N.
12
*
L
8 53.36
X.809
22 16 56.05
X 18.69
15 427.6
779-5
64.23
15 0.6
5459.6
II. N.
Z2
U
21 14.91
1.784
22 40 30.80
X 17.18
12 23 26.4
829.8
63.78
15 4.9
55 15.2
II. N.
. 13
L
9 36.2 1
X.767
23 350.75
1x6.25
- 9 33 7-6
+ 872.7
63.48
15 9.6
5532.4
II. N.
13
U
21 57.39
X.763
2327 3.11
115*93
635 0.7
907*8
63.35
1514.6
5550.8
II. N.
14
L
10 18.57
X.769
23 50 15.69
xx6wa9
3 30 4ao
934.6
63.43
1519.9
5610.3
II. N.
14
U
22 39.89
1.78$
01336.88
"7-37
~ 0 21 46.8
952.7
63.71
1525.4
5630.3
. II. N.
15
L
11 1.50
1.817
03715.42
XX9.X9
+ 2 49 47.5
+ 96S.2
64.19
1530.9
5650.5
15
U
23 23.55
X.860
z z 20.45
X2I.79
6 z 59*8
958.9
64.90
1536.4
57 10.6
i6
L
II 46.20
1.9x6
z 26 1.27
125.15
9 12 33.0
944.4
65.81
1541.7
57 30.1
i7
U
0 9.60
1.984
1 51 27.14
139.25
12 z8 53.9
9i6b6
66.92
15 46.7
57 48.7
■
17
L
12 33.89
a.o66
2 17 46.91
134.07
f 15 18 12.4
+ 873.8
68.81
15 51.4
58 6.0
.18
U
059.21
8.156
245 8.40
139.52
18 7 21.0
814.8
69.64
15 55.8
58 21.9
.18
L
13 25.65
a. 253
31337.71
145.39
20 42 57.9
338.4
7Z.16
1559.6
58 36»o
I. S.
.1^
U
I 53.28
a.35a
3 43 18.10
151.34
23 I 30.2.
643*9
72.69
16 3.0
58480
I. s.
X9
L
14 22.08
a.446
414 8.94
157.05
■1-245923.0
+ 531*8
74.14
16 5*8
5858.6
I. s.
20
U
2 51.95
a. 5*9
446 4.58
x6a.o6
26 33 I0.8
403.4
75.39
16 8.0
59 6.9
I. s.
20
L
X5 22.72
a. 594
5 18 53.92
x63k92
27 39 53-0
a^i.5
76.36
16 9.8
59i3.a
I. s.
ai
U
354.09
t.631
5 52 20.46
l68»20
28 17 10.2
+ 110.X
76.94
16 10.9
59 17.5
I. s.
az
L
16 25.76
•.640
626 3.71
168.68
+282339.8
- 45*5
77.08
16 IZ.6
59 2ao
I. N.
22
U
4 57-34
a.617
65941-42
x^.aa
2759 4.9
199*6
76.78
16 ZZ.9
5920,9
I. N.
22
L
17 28.46
t.s66
7 32 52.35
164.27
27 415.6
547.0
76.07
z6 11.7
59«o.2
L N.
23
U
. 5 58.85
a.494
8 5 18.70
159*95
2541 1-4
483.1
75.03
16 ii.i
59 1 8.0
I. N.
25 Ll
18 28.28
2.409
8 36 47.83
154.80
+23 51 57.5
-6QH.9
73.76
i6io,i
5914.5
I. N.
TBph .la]
•
MOON-OULMINATIONS, 1912.
531
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Date.
•
e
0
•3
a
«•«
E
•3
U
Mean
Time of
Transit
Diflf.
for I
Hour
of
Ix>ng.
Right
Ascension
of
Center.
Diff.
for z
Hour
of
Long.
Geocentric
Declination
of
Center.
Diflf.
for X
Hour
of
Long.
Sid.
Time
of
Semid.
Pass-
ing Me-
ridian.
Geocen-
tric
Semidi-
ameter.
Equa-
torial
Hori-
contal
Parallax.
Bright
limbs.
h m
m
h m 8
B
0 f n
w
s
* ff
f It
Apr. 23
L
18 28.28
a.409
8 36 47.83
154.80
+23 51 57-5
-604.9
73.76
16 10.1
59 14-5
I. N.
24
U
6 56.64
a.317
9 7 12.67
149. 3X
2140 9.1
710-3
72.38
16 8.8
59 9.8
I. N.
24
L
19 23.91
2.337
9 36 31.49
143.87
19 854.9
799.1
70.98
16 7.2
59 3.9
I. N.
25
U
7 50-13
a. 143
10 4 46.80
138.79
16 21 37.2
871.1
69.65
16 5.3
58 56.9
I. N.
25
L
20 15.38
a.069
1032 4.74
134.30
+13 21 33.1
-936.9
68.46
16 3.1
58 48.7
I. N.
26
U
8 39.81
a. 006
10 58 32.90
130.53
10 11 50.3
967.6
67.43
16 0.6
58 39-4
I. N.
26
L
21 3-57
1.956
II 2420.58
Z37.56
6 55 26.4
993.9
66.60
13 57.7
58 28.9
I. N.
27
U
9 26.82
x.gao
"49 37-59
135.41
3 35 8.1
X006.8
65.99
15 54-6
58 17.4
I. N.
27
L
21 49.72
1.899
12 14 33.83
Z34.09
+ 013 34.x
— Z006.7
65.59
1551.1
58 4.8
I. N.
28
U
10 12.44
Z.890
12 39 19.04
«3.57
- 3 645.2
994*4
65.42
1547-4
57 5I-I
I. N.
28
L
22 35-13
1.894
13 4 2-49
X33.79
6 23 25.0
970.3
65-47
1543.4
5736.3
I. N.
29
U
10 57.94
1.909
13 28 52.83
134.71
9 34 4-4
934.5
65.69
15 39-1
57 20.7
I. N.
29
L
2320.99
1.934
13 53 57-76
Z36.33
-12 36 27.2
-887.5
66.09
15 34.6
57 4-3
I. N. S.
30
U
1144-39
i.9fi7
14 1924.00
X38.33
15 28 20.5
839.6
66.62
15 30-0
5647-3
I. N. S.
May I
L
0 8.23
3.007
14 45 16.74
130.61
18 735.0
761. 1
67.26
1525.3
56 29.9
II. S.
I
U
12 32.57
3.050
15 "39-51
I33.ai
2032 7.7
683.6
67.96
1520.5
56 12.5
11
s.
2
L
0 57-44
«.093
15 38 33-76
135.83
-2240 2.6
-595.0
68.66
15 15.8
55 55-3
XX
s.
2
U
1322.81
a. 134
16 558.55
138-27
24 29 34.8
499.x
69.32
15 II.2
55 38.4
. s.
3
L
I 48.63
3.167
16 33 50-44
140.3Z
25 59 14-6
396.5
69.87
15 6.8
55 22.2
s.
3
U
14 T4.8Z
a. 193
17 2 3.54
Z4Z.76
27 750.2
388.8
70.29
15 2.7
55 7.1
s.
4
L
2 41. 20
3.304
17 30 29.82
X43.48
-27 54 32.9
— 178.0
70.51
14 59.0
54 53.4
s.
4
U
15 7.65
3.303
17 58 59.69
i4a.35
28 18 58.6
- 66.3
70.50
14 55.6
54 41.2
s.
5
L
3 34-00
3.186
18 27 22.88
141-37
28 21 9.6
+ 44.1
70.29
14 52.8
54 30.9
.MS.
5
U
16 0.07
3.136
18 55 29.51
X39.60
28 X 32.8
Z5X.4
69.87
14 50.6
54 22.7
.li.S.
6
L
4 25.71
3.ZI6
19 23 10.74
137. X7
-27 20 57.7
+ 353.8
69.27
1449.0
54 16.8
. N.
6
U
16 50.82
a.067
19 50 19.70
X34.a5
26 20 30.0
350.0
68.53
14 48.1
54 13.4
, N.
7
L
5 15-32
3.014
20 1651.72
131.05
25 z 28.7
439.a
67.70
1447.8
54 12.6
.N.
7
U
1739.16
X.959
20 42 44.61
137.75
23 25 18.9
53X.3
66.84
14 48.4
54 14.5
, N.
8
L
6 a.36
1.907
21 758.54
134.58
-21 33 28.8
+ 595.9
65.97
14 49.6
54 19.2
N.
8
U
18 24.95
1.839
21 32 35.61
X3Z.65
19 27 26.2
663.3
65.17
14 51.6
54 26.5
.N,
9
L
646.98
x.8z6
21 56 39.74
ZX9.ZX
17 836.6
7a3.5
64.46
14 54.4
5436.5
. N.
9
U
19 8.56
1.783
22 20 16.27
X17.06
14 38 21.9
777-4
63.88
14 57.9
54 49.2
, N.
10
L
7 29-79
X.757
224331-56
X15.58
-11 58 2.2
+ 834.6
63.44
15 a.o
55 4.4
.N.
zo
u
19 50.78
1-743
23 6 32.92
"4.75
9 856.1
865.3
63.19
15 6.8
5522.1
• N.
ZI
L
8 11.68
1.741
232928.37
ZZ4.63
6 12 23.2
899.0
63.11
15 12. 1
55 41-7
.N.
zx
U
•
20 32.62
X.750
235226.53
ZZ5.3X
3 946.5
9a5.7
63.25
15 18.0
56 3.2
,N.
Z2
L
8 53-76
1.773
0 15 36.54
X16.59
-02 36.2
+ 944.4
63.62
1524.3
5626.3
• N.
Z2
U
2Z 15.25
Z.810
039 8.06
XI8.80
■»■ 3 727.7
954.5
64.20
15 30-8
5650.3
• N.
'3y
9 37-27
Z.86X
I 3 "13
X3X.86
6 18 31.3
954.3
65.01
15 37-5
57 14-9
• N.
«3
U
21 59.99
1.936
1 27 56.04
X35.77
9 28 23.7
94a. 3
66.06
15 44-3
57 39-7
, N.
J4
L
1023,57
3.006
I 53 33-12
J30.54
■hi 2 34 32.6
+ 916.7
67.31
15 50-9
58 4.1
N.
14
U
2248.18
a.099
2 20 12.20
136.09
1534 2.6
875.5
68.76
15 57-3
58 27.5
,N.
^si^l
" 13-97
S.30Z
248 2.14
X4a.Si
182334.1
816.6
70.35
16 3.3
58 49.4
15
U
23 41.05
3.3IZ
317 9-53
X48.96
20 59 26.4
738.5
72.03
16 8.7
59 9-2
z6
L.
X2 9.47
3.4^4
3 47 37-69
155.73
*-23 17 39.5
+ 640.3
73.71
16 13.4
59 26.6
[Bph M]
532
MOON-CULMINATIONS, 1912.
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Date.
•
§
a
B
•3
u
Mean
Time of
Transit
Diflf.
for 1
Hour
of
Long.
Right
Ascension
of
Center.
Diflf.
for X
Hour
of
Long.
Geocentric
Declination
of
Center.
Diflf.
for 1
Hour
of
Long.
Sid.
Time
of
Semid.
Pass-
ing Me-
ridian.
•
Geocen-
tric
Semidi-
ameter.
Equa-
torial
Hori-
zontal
Parallax.
Bright
Limbs.
h m
m
h m s
8
e f w
n
s
t n
# »»
May z6
L
12 9.47
8.424
3 47 37.69
155-73
4-23 17 39.5
+640.2
73-71
16 13.4
59 26.6
17
U
0 39.20
2.530
4 19 25.03
X62.08
25 14 8.8
521.4
75.27
16Z7.3
5940.9
17
L
13 10-13
3.621
4 52 23.69
167.52
26 44 59.6
384.x
76.60
j6 20.4
5952.1
S.
18
U
I 42.00
2.686
5 26 19.43
171.46
27 46 48.8
331.9
77-56
1622.5
59 59-8
S.
18
L
14 14.46
2.719
6 0 51.03
173.44
+28 17 7.3
-f 70.1
78.06
16 23.7
60 4.Z
S.
19
U
247.11
8.7x4
6 35 33-44
X73-24
28 14 39.0
-94-9
78.04
i6 23.9
60 5.0
S.
19
L
15 19.50
a.677
7 10 0.25
170.89
27 39 32.2
855-3
77.52
1623.2
60 2.5
N.
20
U
3 51-23
2.607
7 43 47-51
166.73
26 33 15. 1
405.5
76-55
16 21.7
59 57-1
N.
20
L
16 21.98
2.516
8 1636.41
x6i.as
+24 58 22.9
-540.4
75-27
16 19.6
59 49.2
N.
2Z
U
4 51-57
a. 413
8 48 14.83
155.08
22 58 15.9
657.6
73.78
16 16.8
59 39-1
N.
21
L
17 19.90
a. 307
9 18 37.53
148.71
2036 38.4
755.5
72.20
16 13.4
5927-1
N.
22
U
546.98
a. 206
9 47 44-95
143.60
17 57 19. 1
834.6
70,65
16 9.8
5913-7
N.
22
L
18 12.89
a.114
10 1542.14
X37.05
+15 358.8
-«95.9
69.22
16 5.9
5859.1
N.
23
U
6 37-77
a.034
10 42 37.06
132.35
12 0 2.7
940.8
67.96
16 Z.8
5843.8
N.
23
L
19 1.77
1.969
II 839.47
138.30
8 48 38.0
971-0
66.90
15 57-5
58 28.0
N.
24
U
725.08
X.917
II 34 0.00
135.27
5 32 34.3
987.5
66.06
X5 53-1
58 1 1.9
N.
24
L
19 47.87
1.883
1 1 58 49.60
133.14
-t- 2 14 25.2
-991.9
65-45
15 48.6
57 55-6
N.
25
U
8 10.33
X.86Z
12 23 19.00
iai.90
- 1 3 27.8
984.9
65.08
15 44-1
57 39.2
*
N.
25
L
20 32.62
1.854
124738.59
131.50
4 18 52.5
967.4
64.95
15 39-7
57 22.9
N.
26
U
8 54.92
X.861
13 II 58.14
X3X.89
7 29 43.2
939.4
65.02
15 35-3
57 6.8
N.
26
L
21 17.36
1.880
133626.67
133.99
-10 33 57.8
-901.3
65.29
153^-0
56 50.8
N.
27
U
9 40.08
1.909
14 I 12.25
134.7X
132935.5
853.3
65-74
15 26.7
56 35.0
N.
27
L
22 3.21
1.946
14 2621.76
136.95
16 14 37.0
795-3
66.31
15 22.4
56 19.5
N.
28
U
10 26.82
X.990
14 52 0.62
139.58
1847 3.2
787.4
66.99
15 18.3
56 4-3
N.
28
L
22 50.98
a.037
15 18 I2.4Z
133.41
-21 4 57-7
—650.0
67.72
15 14.2
55 49-4
N..S.
29
U
II 15.71
9.084
154458.50
135.86
23 627.1
563.4
68.46
15 10.3
55 35.0
iV.S.
29
L
23 40-99
a. 199
16 12 17.77
137.90
24 49 47.3
468.5
69.15
15 6.6
5521.2
s.
30
U
12 6.76
a. 166
z6 40 6.40
140.11
26 13 25.8
366.8
69.72
15 3-0
55 8.0
/!ii.
s.
31
L
0 32.91
a. 191
17 817.93
141.68
-27x6 8.6
-359.7
70.13
Z4 59.6
54 55-7
II.
s.
31
U
12 59.29
a.ao3
173643-52
X48.44
2757 3-9
X49-3
70.34
14 56.5
54 44-2
II.
s.
June I
L
I 25-73
a.aoz
18 5 12.81
143.39
28 15 46.4
-37-9
70.32
M53-7
54 33.9
II.
s.
z
U
13 52.06
a. 184
18 33 34-75
141.88
28 22 18.6
+ 78.0
70.06
14 51.2
54 25-0
II.
s.
a
L
218.08
a. 151
19 138.53
139.30
-27 47 H. I
4-178.4
69.60
1449.2
54 17-6
II. j\r, s.
2
U
14 43-64
a. 107
19 29 14.85
136.64
27 I 17.1
879-5
68.95
M47-7
54 "-9
II.
N. .S.
3
L
3 8.63
a. 056
195616.34
133.58
25 55 50.4
373.7
68. z6
14 46.6
54 8.0
11.
N.
3
U
15 32.95
x-999
20 22 38.21
130. xo
243217-3
460.4
67.28
1446.1
54 6.3
II.
N.
4
L
356-58
Z.940
20 48 Z8.28
136.58
-2252 1 1. 3
+539-8
66.38
14 46.2
54 6.7
IL
N.
4
U
16 19.53
Z.884
21 13 16.78
X33.ai
2057 8.5
610.0
65.49
1447.0
54 9.4
II.
N.
5
L
4 41-82
z.83a
21 37 36.16
iao.09
18 48 42.8
673.0
64.65
14 48.4
54 14.6
IL
N.
5
U
17 3-53
1.787
22 I 20.61
117.39
16 28 24.7
738.8
63.93
1450.5
54 22-3
II.
N.
e
L
524-75
1.750
22 24 35.76
115.33
-13 57 39.9
+777.7
63.33
1453.3
54 32.6
IL
N.
6
U
17 45.60
1-784
22 47 28.33
113.65
zi 17 48.0
8ao.o
62.89
14 56.8
54 45.6
IL
N.
7
L
6 6.20
1.7x0
2310 5.95
xia.74
830 6.6
855.9
62.64
Z5 Z.1
55 x.i
IL
N.
7
U
z8 26.69
X.706
23 32 36.95
iia.55
53551.3
885.6
62.59
15 6.0
5519*1
ILN.
8
L
6 47.21
1.7x6
23 55 10.32
"3.14
- 2 36 17.7
+908.8
62.74
Z5ZZ.5
55 39-5
ILN.
[Bph n]
MOON-OULMINATIONS, 1912.
533
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Date.
§
a
J
Mean
Time of
Transit
Diif.
fori
Honr
of
Long,
u
m
h m
June 8
L
647.21
1.7x6
8
U
19 7.94
1.740
9
L
7 29.03
X.776
9
U
19 50.67
1.630
lO
L
8 13.02
1.899
lO
U
20 36.29
1.98Z
II
L
9 0.66
2.o8x
ZI
U
21 26.29
3. 193
12
L
953.32
a.313
12
U
2221.83
2.439
13
L
10 51.83
a- 557
X3
U
2323.19
3.664
14
L
II 55-68
a.744
15
U
0 28.91
2.789
15
L
13 2.44
a.791
l6
U
1 35.74
«.754
i6
L
14 8.38
3.6R0
17
U
239.98
2.581
17
L
15 10.30
a.471
i8
U
3 39-25
a.354
i8
L
16 6.84
a.244
19
U
433.15
3.144
19
L
16 58.34
3.057
20
U
5 22.57
1.984
20
L
17 46.05
1.930
21
U
6 8.97
X.891
21
L
18 31.51
1.867
22
U
653.86
1.859
22
L
19 16.18
X.863
23
U
7 38.64
1.880
23
L
20 1.36
1.907
24
U
8 24.46
X.943
24
L
20 48.04
X.986
25
U
9 12.14
3.031
25
L
21 36.81
3.078
26
U
10 2.00
3.X30
26
L
22 27.67
2.156
27
U
10 53.69
3.180
27
L
23 19.93
3.190
28
U
II 46.20
3.X87
29
L
0 12.34
3.167
29
U
12 38.16
3.133
30 L
I 3.50
3.089
30 u
1328.26
3.036
luly I
L|
I 52.34
X.978
Right
AaceDSion
of
Center.
I
h m 8
23 55 10.32
0 17 55.58
041 2.82
1 4 42.68
I 29 6.14
1 54 24.45
2 20 48.62
2 48 28.81
3 17 33.45
348 715
4 20 10.09
45335.31
5 28 8.11
6 3 26.06
639 1.17
7 14 23.45
7 49 5.18
8 22 44.51
855 7-34
926 7.47
9 55 45.42
o 24 6.74
o 51 20.26
1 17 36.69
143 7.56
2 8 4.51
2 32 39.00
257 1.85
321 23.23
3 45 52.42
4 10 37.65
4 35 45.93
5 1 22.63
5 27 31-38
5 54 13.46
6 21 27.64
6 49 10.05
7 17 13.99
7 45 30.82
8 13 50.07
8 42 0.73
9 952.26
9 37 15.37
20 4 2.93
20 30 za22
Diif.
for X
Hour
of
Long.
Geocentric
Declination
of
Center.
2 O f IT
1x3. 14 - 2 36 17.7
1x4,54 ■»- 027 13.4
H6.81 3 33 13.9
X 19.99 640 3.5
134.08 + 9 45 45.6
129.13 1248 2.3
135.05 154411.2
Z4X.77 18 31 0.8
149.05 4-21 4 51.6
156.57 23 21 38.9
163.83 25 17 1.4
170.18 264640.1
174.95 "^-27 46 40.8
177.63 28 14 3.1
177.80 28 7 7.3
175.52 27 25 49.8
171.13 4-26 II 43.9
165.33 24 27 44.2
158.49 22 17 42.3
151.55 19 45 57.4
144.87 -f 16 56 54.2
138.81 135445.2
133.59 lo 43 20.9
129.30 7 26 6.3
186.00 4-46 2.4
133.66 4- 04547.6
133.34 - 2 32 17.8
U1.7X 546 7.0
131.99 - 85343.1
133.99 II 53 15.8
134.64 14 42 57.8
136.8Z 17 21 3.4
139.36 -194547.3
133. 13 2C 55 26.5
134.88 23 48 19.9
X37.4a 25 22 53.6
139.53 -263744.5
141.00 "27 31 45.4
141.65 28 4 10.4
14Z.40 28 14 38.3
140.33 -28 3 15.3
138.33 27 30 34.5
135.5a 26 37 32.7
13a. 33 1 2525 26.3
xa8.86|-23 55 44.6
[Eph za]
Diff.
for X
Hour
of
Long.
+ 908.8
925.x
933-5
933.0
+ 9aa.o
898.4
860.X
804.8
+ 73o.a
634.1
316.0
376.9
+ 330.3
+ 51.9
- Z21.3
390.4
- 447.7
587.5
707.3
805.5
-881.7
937.1
974.2
995*5
—1003.8
997.7
981.4
955.a
-919.3
874.5
830.9
758.5
-687.5
607.7
519.9
424.7
- 323.1
3x6.6
- 107.3
+ 3.6
4- 110.8
3i5*a
314.0
405.8
+ 489.2
Sid.
Time
of
Geooan-
Bqoa-
^^_ , torial
Pass
ing Me
ridian,
s
62.74
63.13
63.75
64.61
65.71
67.04
68.59
70.31
72.12
73.96
75.71
77.22
78.34
78.96
79.02
78.51
77.50
76.12
74.52
72.83
71.17
69.64
68.30
67.18
66.29
65.65
65.25
65.10
65.16
65.41
65.83
66.39
67.05
67.75
68.45
69.08
69.60
69.96
70.11
70.03
69.73
69.22
68.53
67.71
66.81
ameter.
> zontal
Parallax.
511.5
517.7
524.4
531.6
539.0
546.7
554.5
6 2.1
6 9.3
6 16. 1
622.2
627.4
631.5
634.5
6 36.2
636.6
635.7
633.7
6 30.6
626.5
621.7
6 16.4
610.5
6 4-4
558.2
551.9
545.7
539.7
533.9
528.4
523.1
518.2
513.6
5 9.3
5 5.4
5 1.8
458.4
455.5
452.8
450.5
448.5
446.9
445.6
444.8
444.3
5539.5
56 2.2
56 26.8
56 53-0
57 20.4
57 48.7
58 17.0
58 44.9
59 11.6
59 36.5
59 58.8
60 17.8
60 33.1
6043.8
60 5a I
60 51.6
6048.5
60 40.9
6029.5
60 14.7
5957.1
59 37.4
59 16.0
58 53.6
58 30.7
58 7.7
57 45.0
57 22.9
57 1.6
5641.3
56 22. 1
56 4.0
55 47.1
55 31.4
55 16.9
55 3.6
5451.5
54 40.6
54 30.8
54 22.2
5414-9
54 90
54 4.4
54 1-3
53 59.6
Blight
Limbs.
II. N.
II. N.
'II. N.
11. N.
11. N.
II. N.
II. N.
II. N.
II. N.
XL N.
II. S.
S.
S.
N.
N.
N.
N.
. N.
N.
N.
N.
N.
N.
N.
N.
N.
N.
N.
N.
N.
N.
N.
S.
S.
S.
II. S.
II. s.
Il.iV^.S.
II. N. S.
II. N. S,
534
MOON-CULMINATIOJS'S, 1912.
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Date.
1
s
U
Mean
Time of
Transit
Diff.
for I
Hour
of
Long,
Right
Ascension
of
Center.
biff.
for X
Hour
of
Long.
Geocentric
Declination
of
Center.
Diff.
for X
Hour
of
Long.
Sid.
Time
of
Semid
Pass-
ing Me-
ridian.
Geocen-
tric
Semidi-
ameter.
Equa-
torial
Hori-
zontal
Parallax.
Bright
Umbe.
h m
m
h m s
8
0 t n
»
s
t M
t m
Jnly I
L
I52*34
1.978
20 30 10.22
138.86
-23 55 44.6
4-489.3
66.81
1444.3
53 59-6
11. N. S.
z
U
14 15.72
1.9x9
205535.15
X35.31
22 10 5.7
565.4
65.88
1444.3
5359.7
II. N.
2
L
2 38.40
X.863
21 20 18.00
131.87
20 zo 10.2
631.9
64.97
14 44-9
54 1.6
II. N.
2
U
15 0.42
X.809
21 4421.16
X 18.73
17 57 37-1
691.6
64.13
14 45.9
54 5.4
11. N.
3
L
321.85
X.764
22 748.77
XX5.98
-15 34 2,5
+ 743.9
63.40
1447.5
54 11.2
11. N.
3
U
15 42.78
x.7a6
22 3046.34
X 13.72
13 056.3
787.1
62.80 1449.6
54 19. 1
ILN.
4
L
4 3.32
1.699
22 53 20.50
z 12.09
10 19 44-5
834.0
62.36 ,14 52.4
54 29.3
II. N.
4
U
i6 23.60
X.682
23 15 38.70
IXZ.08
7 31 46.7
854-5
62.09 1455.8
54 41.6
II. N.
5
L
443.75
1.677
23 37 49.07
110.80
- 4 38 20.8
4- 878.8
62.03 1459.8
54 56.4
II. N.
5
U
17 3.91
1.685
0 0 0.43
X 11.35
- 14043.4
896.5
62.19 1I5 4.4
55 13.5
ILN.
6
L
5 24.24
X.706
022 22.12
II3.5I
-H I 19 47.4
907.6
62.56
15 9.8
55 33-0
II. N.
6
U
17 44-91
1.74X
045 4.03
XX4.64
4 21 48.3
91X.4
63.17
15 15.7
5554.7
ILN.
7
L
6 6.10
1.791
I 8 16.62
117.63
+ 72346.6
+ 906.9
64.02
15 22.2
56 18.6
ILN.
7
U
18 27.98
X.857
I 32 10.80
X3X.57
102357.4
893.3
65.11 1529.2
56 44.3
ILN.
8
L
650.72
X.938
I 56 57.84
X26.44
1320 17.1
868.x
66.43
15 36.7
5711.8
ILN.
8
U
19 14.53
3.^34
2 22 48.96
133.34
16 10 20.8
830.x
67.97
1544.5
57 40.4
ILN.
9
L
739.59
a. 145
2 49 54.90
138.89
fi8 51 16.8
+ 776.4
69.69
15 52.5
58 9.9
ILN.
9
U
20 6.05
a. 266
3 18 24.90
I46.3X
21 1945.6
705.0
71.54 16 0.6
58 39.7
ILN.
lO
L
8 34.01
a.394
3 48 25.41
153.90
23 31 59.7
6x3.7
73.44 16 8.6
59 9.0
ILN.
lO
U
21 3.51
3.521
4 19 58.41
161.54
25 23 49-7
50X.0
75.28
16 16.3
59 37.2
ILN.
zz
L
9 34-47
a. 636
4 52 59.60
X68.49
■»-26 50 58.7
+ 366.6
76.92 1623.4
60 3.4
ILN,
II
U
22 6.70
3.730
5 27 16.98
174. xx
274923.1
3x4. X
78.23 1629.8
60 26.9
IL S.
12
L
10 39.86
3.791
6 230.47
177.75
28 15 39.6
+ 46.8
79.05 16 35.3
6046.8
XL S.
12
U
23 13.52
3.8ZX
63813.38
178.97
28 736.5
- X37.7
79.32 1639,5
61 2.5
13
L
II 47.15
3.789
7 13 55-54
177.64
4.27 24 34.4
- 301.5
79.00
16 42.5
6z 13.2
14
U
0 20.29
3.739
7 49 7-63
174.03
26 736.3
465.9
78.15
16 44.0
61 18.7
X4
L
12 52.53
3.640
8 23 25.28
X68.66
24 19 17.8
613.9
76.89 1644.0
61 18.9
15
U
1 23.58
a. 533
8 56 31.51
163.34
22 326.1
740.8
75.37 1642.6
61 13.7
L N.
15
L
13 53.29
3.4x9
9 28 17.51
155.41
f 19 24 31.2
-844.3
73.72 1639.8
61 3.3
L N.
i6
U
2 21.65
3.308
9 58 41.85
148.70
16 27 z8.o
983.8
72.07 16 35.7
6048.3
L N.
i6
L
14 48.71
3.305
10 27 48.65
Ma. 54
13 16 27.5
980.8
70.53 1*6 30.5
6029.4
L N.
17
U
314.63
3.II6
10 55 45.95
137.17
9 56 ao.8
XOX7.0
69.17
1624.5
60 7.2
L N.
17
L
15 39.56
3.043
II 22 44.05
X3a.69
+ 63052.8
—1034.8
68.03
16 17.8
5942.6
L N.
i8
U
4 3.69
1.984
114854.36
xa9.i9
+ 3 3 29.9
1036.5
67.12
16 10.6
3916.1
I. N.
i8
L
1627.23
1.94a
12 1428.59
X36.67
- 0 22 47.4
X034.0
66.46
16 3.1
58 48.7
I. N.
19
U
450.35
I.915
123938.18
X35.08
34523.1
999.8
66.05
15 55.5
5820.8
L N.
19
L
17 13.25
1.903
13 434.05
X34.38
- 7 1 59.8
-964.6
65.88
15 47.9
5753.1
L N.
20
U
536.09
X.905
132926.33
124.47
10 10 35.6
9x9.8
65.91
15 40.6
5726.1
L N.
20
L
17 59.02
X.919
135424.24
X35.30
13 919-0
R66.0
66.14
15 33.5
57 0.2
L N.
21
U
622.17
1.943
14 19 35.80
ia6.74
15 56 26.8
803.8
66.52
15 26.8
56 35.6
L N.
21
L
1845.67
1-975
1445 7.67
xa8.6s
-18 30 19.8
-733.6
67.03
I5 2a5
56 12.6
I. N.
22
U
7 9.59
3.013
15 II 4.90
130.93
204923.5
655.6
67.62
15 14.7
55 51.3
I. N.
22
L
19 33.98
3.053
15 37 30.54
X33.36
22 52 6.5
570.3
68.24
15 9.5
55 31.9
L N.
23
U
7 58.85
3.093
16 425.47
135.77
2437 2.2
478.0
68.84
15 4.7
55 14.4
L N.
23
L
2024.19
3. 139
16 31 48.01
X37-94
-26 2 52.1
- 379.5
69-38
15 0.5
5458.9
L N.
[Bph 13]
MOON-CULMINATIONS, 1912.
535
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Date.
■
e
0
n
c
1
0
Mean
Time of
Transit.
Dift.
for I
Hour
of
Long,
Right
Ascension
of
Center.
Diff.
for I
Hour
of
Long.
Geocentric
Declination
of .
Center.
Diff.
for I
Hour
of
Long.
Sid.
Time
of
Semid.
Pass-
ing Me-
ridian.
Geocen-
tric
Semidi-
ameter.
Equa-
torial
Hori-
zontal
Parallax.
BriEht
LimoB.
h m
m
h m s
B
0 t tf
n
B
• »#
» f
July 23
L
2024.19
2.X29
16 31 48.01
137.94
-26 2 52. 1
- 379.5
69.38
15 0.5
54 58.9
I. N.
24
U
849.91
2-I37
16 59 33-95
139.64
27 828.6
a75.9
69-79
14 56.8
5445.3
I. N. S.
24
L
21 15.91
a. 175
172736.71
140.71
27 52 59.5
Z68.8
70.03
1453-5
54 33.4
I. N. S,
25
U
9 42.05
2. 180
17 55 47.68
X4Z.OO
28 15 52.8
- 59.9
70.07
1450.8
5423-4
I. S.
25
L
22 8.17
2.171
18 23 57.03
140.43
-28 z6 59.3
+ 48.7
69.89
14 48.5
54 15.0
I. S.
26
U
10 34.08
a. 147
18 51 54-56
139.04
37 56 34.2
155.1
69.50
14 46.7
54 8.4
I. S.
26
L
22 59*64
3.IIX
19 19 30.60
136.88
27 15 16.8
a57.3
68.92
1445.3
54 3.3
I. s.
27
U
IX 24.71
2.065
19 46 36.96
134.10
26 14 7.8
353.3
68.18
1444.4
53 59-7
I. s.
27
L
23 49-18
3.012
2013 7.36
130.91
-24 54 25.2
+ 44a. 4
67.32
14 43.8
53 57-7
I. s.
28
U
12 12.98
1.955
ao 38 57-91
137.50
23 17 39.6
523.8
66.40
14 43.6
53 56.9
/. II. s.
29
L
036.10
X.898
21 4 7.05
X24.O5
21 25 28.8
396.7
65-47
X4 43.8
53 57-7
XL N. S.
29
U
1258.54
1.843
21 28 35.43
iaO.73
191934.1
661.0
64.58
X444.4
54 0.0
II. N. S.
30
L
I 20.35
x.79»
21 52 25.56
117.69
-X7 I 36.2
+ 717.2
63.75
M 45.4
54 3-6
II. N. 5.
30
U
1341-58
1.748
22 15 41.55
115.04
. ^4 33 13-8
765.2
63-04
14 46.8
54 8.9
II. N.
31
L
2 2.34
1.713
22 38 28.76
XX2.91
II 56 Z.4
805.6
62.45
1448.7
54 15-6
II. N.
31
U
14 22.73
1.686
23 053.53
111.33
911 28.8
838.6
62.03
1450.9
54 23.9
II. N.
Aug. I
L
2 42.86
Z.67Z
2323 2.95
110,37
- 6 21 2.8
+ 864.5
61.78
1453.6
54 34-0
II. N.
I
U
15 2.86
Z.66S
2345 4-75
ixao7
326 7.0
883.6
61.73
14 56.9
54 45-9
II. N.
2
L
3 22.88
X.67S
0 7 7.27
110.48
- 0 28 3.7
895.8
61.89
15 0.6
54 59-5
II. N.
2
U
1543-05
Z.692
029 19.29
z 1 1.65
■*" 2 31 43.5
900.9
62.26
15 4.9
55 ^5-1
II. N.
3
L
4 3-54
1.725
0 51 50.13
ZI3.69
■»■ 5 31 47.6
+ 898.5
62.85
15 9.6
55 32.5
II. N.
3
U
16 24.50
1.771
1 14 49.62
1x6.43
8 30 34-9
888.0
63.66
15 14-9
55 51.8
II. N.
4
L
446.10
Z.832
X 38 27.87
130. 10
ZI 2621.8
868.3
64.71
15 20.7
56 13.0
II. N.
4
U
^7 8.53
X.908
2 255.30
124.64
14 17 Z0.9
838.0
65-98
1527.0
5636.1
11. N.
5
L
5 31-95
1.997
2 28 22.39
130.03
+17 046.7
+ 795.7
67.44
15 33-7
57 0.7
II. N.
5
U
17 56.52
3.100
2 54 59.02
136.21
X9 34 33-6
739.5
69.08
15 40.7
57 26.7
II. N.
6
L
6 22.39
2.213
3 22 53.80
143.02
21 55 32.3
667.4
70.84
Z548.1
57 53.9
II. N.
6
U
1849.66
a. 333
3 52 12.96
Z5O.2I
24 0 20.6
577.5
72.66
1555-7
58 21.8
II. N.
7
L
7 18.38
a.453
4 22 58.98
157.41
^S 45 17-8
+ 468.8
74-43
16 3.4
58 49.9
II. N.
7
U
19 48.49
3.564
4 55 8.92
Z64.IO
27 634.6
341.0
76.04
16 II.O
59 17.6
II. N.
8
L
8 19.84
2.657
5 28 33-29
169.71
28 028.7
195*4
77.35
16 Z8.2
5944.2
II. S.
8
U
20 52.15
a.7«3
6 255.53
173.66
28 23 48.3
+ 35.9
78.25
16 25.0
60 9.1
II. S.
9
L
9 25-05
a.753
6 37 52.89
175.5a
■H28 Z4 16.3
— 133. X
78.65
16 3Z.0
6031.2
11. S.
9
U
2Z 58.09
a-747
71258.93
175.10
27 30 52.2
301.5
78.52
Z636.Z
6050.0
II. S.
xo
L
10 30.82
2.704
7 47 46.92
X72.56
26 Z4 4.7
464.7
77.90
Z640.Z
61 4.6
II, S.
10
U
23 2.88
2.634
8 21 53.58
X68.3O
24 25 49-3
613. Z
76.86
1642.8
61 14.5
II. S.
ZI
L
" 33.95
a. 544
855 1.54
162.88
4-22 9 z6.i
- 747.0
75.55
16 44.1
61 19.3
12
U
0 3.88
a. 444
927 0.54
I56f40
19 28 27.9
857.3
74.08
X6 44.0
61 18.7
12
L
12 32.61
a.344
9 57 47.21
X50.90
z6 27 56.2
944*1
72.60
1642.3
6x 12.7
13
U
I 0.17
2.25X
10 27 23.71
I45.a6
Z3 12 20.8
1007*9
7Z.Z9
16 39.3
6i 1.7
13
L
13 26.67
2.Z68
10 55 56.29
140.29
f 94615.3
-1049.4
69-93
16 35.0
6045.8
I. N.
14
U
z 52.26
2.099
112333-83
Z36.ZZ
6 Z3 55.3
1070.6
68.87
1629.5
6025.6
I. N.
14
L
X4 17.10
a.044
iz 50 26.58
132.82
+ 2 39 13.4
1073.4
68.03
X623.1
60 2.1
L N.
15
U
2 41.37
3.004
Z2 z6 45.41
130.46
- 0 54 22.2
1060.0
67.43
z6 16.0
59 35.9
I. N.
15
L
15 5.26
1.980
Z2 42 41.10
128.96
- 4 23 47.8
[Bph 12]
—1033.1
67.06
z6 8.3
59 7-8
I. N.
536
MOON-CULMINATIONS, 1912.
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Date.
•
c
0
m
c
s
■3
u
Mean
Time of
Transit.
Diff.
for I
Hour
of
Long.
m
Right
Ascension
of
Center.
Diff.
for I
Hour
of
Long.
Geocentric
Declination
of
Center.
Diff.
for I
Hour
of
Long.
Sid.
Time
of
Semid.
Pass-
ing Me-
ridian.
Geocen-
tric
Semidi-
ameter.
Equa-
torial
Hori-
zontal
Parallax.
Brigbt
Liinha.
h m
b m s
s
Of w
w
8
m
• n
Aug. 15
L
15 5.26
T.980
12 42 41.10
128.96
- 4 23 47.8
—1032.x
67.06
i6 8.3
59 7.8
I. N.
16
U
3 28.94
1.969
138 23.96
128.30
7 46 21. 1
991.5
66.90
16 0.3
5838.5
I. N.
16
L
1552.57
1.970
1334 3.58
128.41
10 59 39.6
939.8
66.97
15 52.2
58 8.8
I. N.
17
U
4 16.28
X.984
135948-54
129.19
14 I 36.2
878.1
67.21
15 44.2
5739.3
I. N.
17
L
16 40.20
2.006
14 2546.18
130.51
-16 50 16.7
— 807.2
67.58
1536.4
5710.7
I. N.
18
U
5 4-44
2.034
1452 2.32
132.25
19 23 57.2
72B.O
68.07
1528.9
5643.3
I. N.
18
L
17 29.04
2.067
15 18 41.05
X34-«4
21 41 2.9
641.4
68.62
15 21.8
56 17.4
I. N.
19
U
554-06
2.Z02
15 45 44.36
136.31
2340 7.7
548.1
69.15
15 X5.3
55 53.5
I. N.
19
L
18 19.48
XI34
16 13 11.98
138.25
-25 19 54.7
- 448.9
69.65
15 9.4
55 31.7
I. N.
20
U
6 45*26
2.Z61
16 41 X.18
139.87
26 39 19. 1
344.6
70.06
15 4.1
55 12.3
I. N.
20
L
19 11.31
2.180
17 9 6.98
140.99
27 37 29.7
2361.6
70.33
1459.4
54 55.2
I. N.
21
U
7 37-52
2.187
17 37 22.28
MX.44
28 13 53.5
IS6.9
70.42
M 55.4
54 40.5
I. JV. S.
21
L
20 3-75
2.Z82
18 538.52
141.13
-28 28 17.0
— 17.0
70.31
14 52.1
54 28.2
I. S.
22
U
829.84
2.164
183346.35
140.04
28 20 48.2
+ 9«.4
69.99
1449.4
54 18.3
I. S.
22
L
20 55.63
2.134
19 I 36.61
138.22
27 51 57-2
196.4
69.48
H47.3
54 10.5
I. S.
23
U
921.00
2.093
19 29 1. 01
135.76
27 234.3
a96.5
68.80
14 45.8
54 5.0
I. S.
23
L
21 45.82
«.<H4
19 55 52.86
132.82
-25 53 46.6
+ 390.4
67.99
14 44.8
54 1-5
I. S.
24
U
10 10.03
1.990
20 22 7.48
129.58
24 26 55.6
476.9
67.10
14 44.4
53 59-8
I. S.
24
L
22 33-57
1.934
2047 42.32
126.23
224331.3
555.8
66.16
1444-4
54 0.0
I. S.
25
U
10 56.45
1.879
21 12 36.99
122.92
2045 9-7
626.4
65.24
14 44.9
54 1-7
I. S.
25
L
23 18.69
1.827
21 36 52.96
119.80
-18 33 29.4
+ 688.9
64.36
14 45.8
54 5.0
I. S.
26
U
1140.33
X.781
22 033.35
117.00
16 10 8.8
743.a
63-57
14 47-1
54 9.7
I. s.
27
L
0 1.45
1.741
22 23 42.59
114.63
13 36 44.7
789.4
62.90
1448.7
5415.8
/. II. s.
27
U
12 22.15
X.710
224626.15
112.74
105452.3
618.0
62.37
14 50.7
5423.1
11. A'. S.
28
L
0 42.53
1.688
23 8 50.29
111.40
-8 6 4.1
+ 858.9
61.99
14 53.0
54 31.5
11. N. S.
28
U
13 2.69
X.675
2331 1.97
110.66
511 50.8
882. 2
61.80
14 55.6
54 4».2
II. N.
29
L
I 22.78
1.674
2353 8.62
110^56
- 21342.9
897.8
61.79
14 58.6
54 51.9
II. N.
29
U
1342.91
1.684
0 15 18.13
111.15
+• 04649.0
906.1
61.98
15 1.8
55 3.9
II. N.
30
L
2 3-23
1.705
0 37 38.87
112.44
f 3 48 12.2
+ 906.4
62.38
15 5-4
55 «7.o
II. N.
30
U
14 23.88
1.739
I 0 19.50
"4.47
6 48 49-7
898.3
62.99
15 9.3
55 3X.3
II. N.
31 L
2 45.01
1.785
I 23 29.03
117.26
946 58.2
881.5
63.81
X5I3-5
5546.8
11. N.
31 ;u
15 6.77
1.844
I 47 16.69
iao.82
12 40 45.7
854.7
64.84 15 18. 1
56 3.5
ILN.
Sept. I ,L
32932
Z.916
2 II 51.76
125*16
■I-1528 8.7
+ 8X7.2
66.06 1522.9
5621.3
II. N.
^u
1552.81 3.0Ox|
2 37 23.21
130.21
t8 649.8
767.5
67.4S 15 28.1
5640.4
II. N.
2 L
4 17-37
2.095
3 359-23
135.90
20 34 16. 1
704.4
68.99
1533.6
57 0.7
ILN.
2
u
1643.12
2.197
33146.56
142.06
22 47 38.3
626.6
70.62
15 39.4
57 22.0
ILN.
3
L
5 10.12
2.S04
4 049.43
148.44
+•24 43 52.3
+ 5S«.9
72.26
1545.4
57 44-0
ILN.
3
U
17 38.39
2.407
431 8.48
154.68
261943.3
4«3.o
73.83
15 51.7
58 6.8
ILN.
4
L
6 7.86
2.502
5 2 39.67
160.36
27 31 56.7
996.8
75.23 1558.0
58 30.0
ILN.
4U
1838.37
a. 579
5 35 13.50
165.03
28 17 28.5
156.3
76.36 |i6 4.3
5853.1
ILN,
5L
7 9-67
2.633
6 8 34.92
168.25
f28 33 45.2
+ 4.9
77.11 16 10.4 1 5915.7
IL S.
sU
1941.44
2.656
64224.34
169.68
28 19 0. 1
- 153. I
77.42 16 16.4 ! 59 37.4
IL S.
6,L
813-30
2.649
7 16 19.75
169.24
27 32 28.3
31X.9
77.29 16 21.8
59 57.4
IL S.
6 U
20 44.90
a.613
74959.26
167.08
261435.5
465.6
76.74 1626.6
60 15.0
IL S.
7
Ll
915.92
«.554
823 3.98
163.50
^-24 26 56.3
-608.7
75.84
1630^6
6029.8
II. S.
[Eph 12]
MOON-CULMINATIONS, 1912.
537
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
1
Sid.
Date.
■
c
0
•a
(4
C
1
9
u
Mean
Time of
Transit.
Diff.
for I
Hour
of
Long,
m
Right
Ascension
of
Center.
Diff.
for I
Hour
of
Long.
Geocentric
Declination
of
Center.
Diff.
for I
Hour
of
Long.
Time
of
Semid.
Pass-
ing: Me-
ridian.
Geocen-
tric
Seinidi-
ameter.
Equa-
torial
Hori-
zontal
Parallax.
Bright
Limbs.
h m
h in 8
8
0 * M
f*
8
« H
* H
Sept. 7 L
915.92
■•554
823 3.98
163.50
4.242656.3
-608.7
75.84
16 30.6
6029.8
II.
S.
7U
21 46.13
a-479
8 55 19.79
X59.00
22 12 5.8
736.8
74.71 1633.7
6041.2
II.
S.
8,L
1015.39
a. 397
9 26 38.27
154.03
19 33 24-9
846.6
73.46 16 35-8
6048.6
II.
S.
8^U
22 43.65
2.313
9 56 56.61
149.04
16 34 45.0
936.5
72.19
16 36.6
6051.6
II.
s.
9
L
II 10.93
a. 336
1026 16.60
144.37
4-1320 12.9
-X005.3
70.99
16 36.1
6050.0
9:U
23 37-34
a. 167
105443.64
140.25
9 53 59-2
1053.5
69.92
16 34.4
60 43.7
10 L
12 3.00
a.iii
ZI 22 25.47
136.85
620 9.0
xn8x.6
69.03
16 31.5
6033.0
II
U
0 28.05
a.068
II 4931.28
i34.a5
■f 2 42 36.7
X090.9
68.35
16 27.4
60 17.9
11 L
Z2 52.67
2.038
12 z6 za83
X3a.48
~ 0 54 57.9
— X082.4
67.90
1622.3
5959.1
12 U
z Z7.02
2.022
12 42 33.98
X3X.51
4 29 Z2.4
1057.5
67-67
16 16.2
59 37-0
N.
12 L
1
Z34Z.26
2.019
13 850.25
131.30
7 57 0.4
XOX8.0
67.64
16 9.4
59 12.0
N.
13 U
2 5.52
a.027
1335 8-32
131.79
" 15 33.2
965.2
67.80
16 2.2
5845-3
N.
13 L
Z4 29.94
a.<HS
14 135-91
132.88
-14 22 17.8
— 900.2
68.12
1554.5
58 17.3
N.
14 iU
2 54-63
2.070
14 28 19.38
134.42
17 14 56.3
824.4
68.56
15 46.7
5748.8
N.
14
L
15 19-65
2.X01
145523.33
X36.27
19 51 25.6
738.9
69.08
1539.0
5720.5
N.
.sU
345-06
a.134
15 22 50.47
X38.a6
22 956.4
644.8
69.63
15 31.5
56 52.8
N.
.s'l
16 10.87
2.166
155041.20
X40.X7
-24 854.7
- 543.6
70.16
1524.3
5626.3
N.
X6
U
4 37-03
2.193
16 18 53.48
X41.82
2547 2.3
436.7
70.61
15 17.5
56 1.5
N.
z6
L
17 3-48
2.213
16 47 22.86
142.99
27 319.5
325.6
70.93
1511.3
55 38.6
N.
17
U
530.X0
2.222
17 16 2.72
143.54
2757 6.3
2X2.0
71.08
15 5.7
55 «8.o
N.
17
L
1756.76
2.219
17 44 44-70
143.34
-2828 5.1
- 97.3
71.03 15 0.8
55 0.0
N.
z8
U
6 23.29
2.202
z8 13 19.64
142.35
28 36 21.4
4- X4.8
70.77 1456.5
54 44.5
S.
z8
L
1849.55
2.173
18 41 38.14
X40.60
28 22 22.8
124.3
70.30 14 53.0
54 31.6
S.
19 U
7 15-40
2.133
19 9 31-55
X38.20
27 46 57.6
299.0
69.66 14 50.2
5421.4
s.
19 L
19 40.72
2.084
19 36 52.77
135.27
-26 51 10.9
+327.7
68.87:1448.2
54«3.9
s.
20 U
8 5.41
2.030
20 3 36.64
X 32.00
25 36 21.2
419.4
67-97 1 1446.9
54 9.0
s.
20 'L
20 29.43
1.973
202940.14
128.57
24 3 55-7
503.6
67.01
14 46.2
54 6.6
s.
2Z
U
8 52.77
Z.916
2055 2.42
125.16
22 15 27.1
579.9
66.05
14 46.2
54 6.5
s.
21
L
2Z 15.43
1.862
211944.57
X2X.9f
-20 12 29.5
+ 648.3
65.13
14 46.8
54 8.6
s.
22
U
9 37»48
X.813
214349.36lxx8.95
17 56 37-4
709.x
64.27
14 47.9
54 12.7
s.
22 L
2Z 58.98
1.771
22 7 20.98 1x6.39
15 29 24.0
76X9
63.52
1449-5
54 18.6
s.
23 U
10 20.01
1.736
22 30 24.61 - 114.30
12 52 20.9
807.3
62.90
14 51.6
54 26.2
s.
23
L
22 40.68
1.710
2253 6.33 112.75
~io 6 58.4
+ 845.2
62.44
14 54.0
54 35.2
s.
24 U
zi 1.09
1.694
23 15 32.81 X11.77
7 14 46.4
875.5
62.14
14 56.8
54 45.5
s.
24 L
23 21.37
X.6B8
233751.26 XX1.43
4 17 15.3
898.3
62.02
14 59-9
54 56.9
s.
25 U
ZZ4Z.65
1.693
0 0 9.26
IXZ.70
- I 15 57-5
913.3
62.10
15 3.3
55 9.2
I.//. N. S.
26 L
0 2.04
1.709
0 22 34.78
112.68
f 14731.1
+ 9x9.9
62.38
15 6.8
55 22.2
II.
.N. 5'.
26
U
12 22.71
t.736
0 45 16.08
114.33
4 51 29.0
918. 1
62.86
15 10.5
55 35.9
II.
N.
27
L
043-77
1.776
I 821.61
X 16.72
7 54 8.1
906.7
63.54
15 14-4
5550.0
II.
N.
27
U
X3 5-38
Z.838
I 31 59-99
X 19.82
lo 53 31.8
885.4
64.42
15 18.3
56 4-5
II.
N.
28 L
127.68
X.891
I 56 19.82
123.63
4-134732.4
+ 852.7
65.50
15 22.4
56 19.5
11.
N.
28 U
13 50.80
1.965
22x29.39
128.09
Z63351.1
808.3
66.74
15 26.6
5634.7
II.
N.
29 L
2 Z4.88
a.049
2 47 36.29
133.14
19 956.0
750.3
68.12
15 30.8
56 50.2
11.
N.
29
u
14 40.0Z
2.X4X
3 M 46.77
138.66
2133 2.9
678.3
69.60
15 35-1
57 5.9
II.
N.
30
L
3 6.27
a.236
3 43 5-04
144.41
f23 40 17.0
+ 591.4
71.12
15 39-4
57 21.7
II.
N.
[Eph xa]
538
MOON-CULMINATIONS, 1912.
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Date.
•
s
a'
s
J
Mean
Time of
Transit.
DifiE.
for X
Hour
of
Long.
3
m
h m
Sep. 30
L
3 6.27
3,236
30
U
15 33-68
a.331
Oct. I
L
4 2.19
a.419
X
U
16 3X.68
a-493
2
L
5 1-95
a- 547
2
U
17 32.72
a-377
3
L
6 3.67
a. 580
3
U
18 34-51
a. 556
4
L
7 4-94
a.309
4
U
1934.69
«-447
5
L
8 3.62
a. 374
5
U
20 31.67
2.399
6
L
8 58.82
a. 327
6
U
21 25.14
2. 161
7
L
9 50.74
2.106
7
U
22 15.74
3.064
8
L
1040.31
2,033
8
U
23 4-59
2.0x7
9
L
XX 28.76
2.013
9
U
23 52.95
2.03Z
10
L
12 17.32
8.041
XI
U
0 4X.97
3.069
ii
L
X3 7.00
3,104
22
U
X 32.49
8.143
12
L
13 58.44
8. 183
13
U
224.86
3.8X9
13
L
14 51.64
3.347
14
U
3 18-74
3.865
14
L
15 45-97
8.870
15
U
4 13.X6
3.3S9
15
L
1640.13
3.334
16
U
5 6.72
3.195
x6
L
17 32.78
8.145
17
U
5 58.18
8.088
17
L
x8 22.87
8.026
18
U
6 46.80
1.963
x8
L
19x0.00
X.903
19
U
7 3«-49
1.847
19
L
19 54*35
1-797
20
U
8x5.66
1.756
20
L
20 36.54
1.734
21
U
857.09
1-703
21
L
21 X7.45
X.691
22
U
9 37-74
1.693
22
L
2X 58. XO
1.704
Right
Ascension
of
Center.
h m 8
3 43 5-04
4 12 32.30
4 43 5-8i
5 14 38.26
5 46 57-52
6x947.35
6 52 48.72
7 25 42.22
7 58 X0.24
8 29 58.59
9 057.69
9 31 3.16
10 o 15.01
10 28 36.92
XO 56x5.15
XX 23 17.85
n 49 54.13
X2 16 X3.56
X2 42 25.66
13 839.56
1335 3-62
14 X 45.04
14 28 49.58
14 56 2X.06
J5 24 2X.00
155248-32
x6 21 39 X7
16 50 47.07
1720 3.23
17 49 17-38
x8 x8 X8.61
x8 46 56.62
19 15 2-45
19 42 29.28
20 9 12,76
20 35 X x,o6
2X 024.7X
2X 2456.16
2X 48 49.58
22 12 xa28
2235 4-6o
22 57 39.48
2320 2.44
23 42 2X.47
o 4 44-75
Diff.
for I
Hour
of
Long.
8
144.41
150. 10
155.37
159.85
163. 13
164.90
Z65.O5
163.61
160.83
157.06
153.71
148.19
143.84
139.90
136.58
134.00
138.16
131.18
130.96
131-47
133.64
134.35
136,47
138.80
141,16
143.33
145-05
146.13
146.40
145.78
144.38
141.94
138.94
135-47
131.75
127.98
134*34
180W97
X 18.00
115.5a
113.61
1X8. so
IZX.6X
111.64
113.36
Geocentric
Declination
of
Center.
-♦•23 40 17.0
25 28 36.4
26 55 0.6
27 56 40.0
+2831 9.3
28 36 4X.3
28 X 2 X7.O
27 x754.x
■•^5 54 30-4
24 3 54-7
21 48 35-7
191133-3
■I-16 x6 5.9
13 542.3
9 43 53-9
6 X4 ii.x
■f 2 40 I. X
- o 55 X4.7
4 28 22.1
756x3.9
-IX X5 5X.2
14 24 24.8
17 19 15.9
19 57 58.4
-22 x8 20.4
24 18 28.3
25 56 49.0
27 X2 14.3
-28 4 3.2
2832 3,8
28 36 33.0
28 18 14.2
-27 38 X2.7
26 37 5a 5
25 18 40.4
23 42 20.4
'2X 50 29.2
19 44 43-6
X7 26 36.7
14 57 37-6
-X2 X9 XX.5
9 32 40.5
63927.x
34055-3
- o 38 32.0
[Bph xal
DifiE.
for I
Hour
of
Long.
Sid.
Time
of
Semid.
Pass
ing Me-
riaian.
+ 591.4
489.3
37a.3
843.3
+ 101. X
- 46.8
i97.a
345.4
-486.8
6i6b9
733-5
834-1
- 917-5
983.4
1031.6
1063.5
—1076.3
1073.6
1054.9
1081.1
-97a.7
910.7
835.8
749-4
- 653.6
547-3
435.a
318.5
■ X99-4
- 8a8
• 35-4
147-0
+ 858.3
35o-a
44<^i
588.1
+ 595-3
661.0
718.9
769.7
4- 81S.5
850.5
880.5
909.9
-t- 919*1
8
7X.X2
72*60
73-95
75.07
75-89
76.33
76.37
76.02
75-32
74-38
73.27
72.10
70.96
69.92
69,02
68.31
67.81
67-53
67.46
67.60
67.91
68.38
68.95
69-59
70.24
70.83
71-31
71.62
71.72
7X.6o
71.24
70.66
69.89
68.99
68.00
66.97
65.97
65.02
64. x6
63-44
62.87
62.45
62.22
62. X9
62.36
Geocen-
tric
Semidi-
ameter.
539.4
5 43-7
548-1
552.5
556.8
6 x.x
6 5.2
6 9.2
6x2.8
6 x6.x
6x8.9
62X.1
622.6
623.3
623.1
622.1
620.x
6x7.2
613-5
6 8.9
6 3.6
57-7
51-3
44-7
38.0
31.2
24.6
18.2
X2.2
6.8
2.0
57-8
54-3
51-5
49-5
48-3
47-8
48.1
49.0
50.7
53-0
55.8
59-1
a.9
7,0
Eqaa-
toriai
Hori-
xontal
Parallax.
57 21.7
57 37-6
57 53.7
58 9.8
58 25.8
58 41-5
5856.6
5911.1
59 24.5
5936.5
59 46.7
5954.8
60 0.2
60 2.8
60 2.3
5958.4
59 51-2
59 40.6
5926.8
59 10.0
5850.5
5828.9
58 5-6
57 41-3
57 16.5
56 51.6
56 27.3
56 4-0
5542-1
5522.1
55 4-4
5449.0
5436.x
54 26.0
54 X8.7
5414-2
54 12.5
54 13-4
54 17-0
5423-1
54 31-4
54 41-8
54 54-0
55 7-9
5523.x
Bricht
LtlBO^
II. N.
II. N.
II. K.
ILN.
II. N.
II. S.
IL S.
II. S.
II.
II.
II.
II.
II.
II.
II.
IL
IL
S.
S.
S.
S.
S.
S.
S.
S.
&
N.
N.
N.
N.
N.
N.
N.
N.
N.
I.
S.
S.
s.
s.
s.
s.
s.
s
s.
s.
s.
s.
s.
s.
MOON-CULMINATIONS, 1912.
539
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Date.
1
e
1
0
0
Mean
Time of
Transit
Diff.
for X
Hour
of
Long.
Right
Ascension
of
Center.
Diff.
fori
Hoar
of
Long.
Geocentric
Declination
of
Center.
Diff.
for X
Honr
of
Long.
Sid.
Time
of
Semid.
Pass-
ing Me-
ridiaa
Geocen-
tric
Semidi-
ameter.
Equa-
torial
Hori-
sontal
Parallax,
Bright
Limbs.
h m
m
h m s
8
0 » If
M
8
' ••
/ ft
Oct. 23
u
10 Z8.67
Z.738
0 27 20.85
113.79
■1- 226 9.5
+ 996.4
62.74
15 "-5
55 39-3
I. s.
23
L
22 39.6Z
X.763
05018.58
1x5.96
5 31 27.0
934.9
63.33
Z5 z6.z
5556.2
I. s.
24
U
II Z.05
x.Sia
z 1346.88
XX8.88
8 35 27.9
913-5
64-13
Z5 20.8
56 Z3.6
I. s.
24
L
23 23.Z5
1.873
I 37 54.73
iaa.55
zz 36 6.0
890.9
65.14
1525.6
56 31-2
I. N. S.
25
U
1146.05
X.946
2 2 50.91
xa6.94
^-I4 3I 0.7
+ 856.0
66.33
1530.4
5648.7
I. II. N. 5.
26
L
0 9.89
3*039
2 28 43.57
131.95
17 17 34.9
807.3
67.68
15 35.0
57 5-6
II. N.
26
U
12 34.79
3.131
2 55 39.71
137.48
19 52 55.8
743.6
69.Z4
1539-4
572Z.9
II. N.
27
L
I 0.82
3.318
32344-35
143.33
22 13 57.3
663.9
70.66
15 43.7
57 37.5
II. N.
27
U
13 28.03
3.3x6
3 52 59.61
149.19
■1-24 Z7 24.2
+ 567.8
72. z8
1547.6
57 52.1
II. N.
28
L
z 56.38
3.408
4 23 23-71
154.7a
25 59 59-6
455.S
73.59
1551-3
58 5.6
II. N.
28
U
14 25.77
3.487
4545O.ZO
159.50
27 z8 36.9
3*8.5
74.81
15 54-7
58 17-9
II. N.
29
L
2 56.00
a. 547
527 7.04
X63.08
28 10 34.2
189.5
75.71
«5 57-7
5829.1
II. N.
29
U
1526.80
3.381
5 59 58.16
165.15
■1-28 33 48.8
+ 43.1
76.25
z6 0.5
5839-1
II. N.
30
L
3 57-84
3.587
633 3.86
165.49
28 27 Z0.6
— 108.7
76.37
16 2.9
58 47.9
II. N. S.
30
U
16 28.77
3.564
7 6 3.36
164.14
27 50 29.4
357.6
76.07
16 4.9
58 55-5
II. S.
31
L
4 59-28
3.5x7
7 38 37-35
x6x.3i
26 44 35.7
399.9
75.40
16 6.7
59 1.9
II. S.
31
U
17 29.IZ
3.451
8 zo 30.05
157.33
■»^5ii 13-5
- 531.7
74«44
16 8.2
59 7.3
II. S.
Nov. I
L
5 58.07
a.374
8 41 30.56
153.68
23 Z248.1
650b 1
73.31
x6 9.3
59ZZ.5
II. S.
z
U
18 26.06
3.393
9 iz 33.28
147.77
20 52 ZZ.8
753.3
72.06
16 10.1
59 14-6
II. S.
2
L
653.09
3.3x3
9 40 37-47
143,98
z8 Z2 32.6
840.5
70.83
16 Z0.6
59 16.4
II. S.
2
U
19 Z9.Z9
3.X40
10 846.33
138.59
f Z5 Z7 2.6
— 911.8
69.67
16 Z0.8
5916.9
II. S.
3iJ-T
7 44-48
3.077
Z036 6.Z0
134.83
Z2 8 52.9
967.3
68.66
16 Z0.5
59 z6.o
II. S.
3;u
20 9.09
3.037
zi 244.97
131.76
851 9.1
1007.6
67.83
16 9-9
5913-6
II. S.
4L
8 33.18
1.990
zz 2852.37
139.58
5 26 5Z.5
1033.0
67. 2 z
16 8.7
59 9-4
II. S.
4U
20 56.9Z
1.967
zz 54 38.29
138.33
+ z 58 54.9
-1044.0
66.8Z
16 7.Z
59 3-5
11. S.
'h
920.45
1.959
Z2 20 Z2.95
127.69
- z 29 50.Z
1041.x
66.64
16 5.0
58 55-7
II. S.
slU
21 43.97
1.964
12 45 46.27
137.99
45636.3
1034.4
66.69
z6 2.4
58 46.0
II. S.
6L
10 7.62
1.98X
Z3ZI 27.72
139.04
8 18 38.4
993.8
66.94
1559-2
5834-3
IL S.
22 3Z.56
3.0XO
13 37 25.94
130.77
-zz 33 Z2.6
-949.6
67.38
15 55-5
5820.9
11. S.
7^,
10 55.89
3.048
14 348.40
133.06
14 37 36.8
893. Z
67.97
1551.3
58 5-6
7
u
23 20.73
3.093
14 30 4Z.00
135.76
Z7 29 Z2.2
83Z.6
68.67
Z5 46.8
57 48.8
8
L
H46.Z3
3.141
1458 7.59
X38.69
20 526.2
738.7
69.45
1541-8
57 30.8
9
U
OZ2.Z2
3*190
1526 9.53
14X.63
-22 23 54.5
-644.3
70.19
Z5 36.6
57 "-6
9
L
X T
1238.67
3.334
155445.19
X44.38
24 22 27.9
539.8
70.89
15 31.2
56 5Z.8
zo
u
I 5-71
3.369
162349.84
146.39
25 59 17- 1
4V'2
71.45
1525.7
56 31.6
I. N.
10 'Jb
1333*09
3.393
16 53 Z5.66
147.75
27 Z2 58.4
309.0
7Z.82
X5 2a3
56 ZZ.6
I. N.
ziU
2 0.65
3.399
Z7 22 52.Z7
14B.16
-28 2 39.7
— 187.6
7Z.96
15Z5.0
5552.Z
I. N.
zz
U
24 28.Z9
3.388
Z7 52 27.23
147.51
2828 2.7
- 66.4
7Z.82
15 9.9
55 33-4
I. N.
Z2
2 55.49
3.360
z8 2Z 48.Z5
145-81
28 29 24.2
+ 5a.i
71.44
15 5.1
5516.Z
I. N.
12
L
15 22.36
3.3X6
z8 50 42.99
143-18
28 733.3
165.3
70.8Z
Z5 0.8
55 0.3
I. S.
13
U
L
U
L
3 48.63
3.160
Z9 Z9 Z.62
X39.83
-27 23 45.0
+ 371.4
69.97
1457.1
5446.5
I. S.
13
z6 14.17
3.096
Z9 46 36.56
135.95
26 Z9 33.4
369.0
69.06
14 53.9
54 34-7
I. S.
^4
4 38.91
3.037
20 z 3 23.28
X3X.83
245644-3
457.6
67.94
14 51.3
54 25.4
I. S.
14
Z7 3.82
1.958
20 39 20.20
X37.67
23 Z7 8.0
536.9
66.85
1449.5
54 »8,7
I. S.
15
U
525.92
1.893
2Z 428.34
133.73
-2Z 22 33.x
+ 607.4
65.79
Z4 48.4
54 M.6
I. S.
[Bph 13]
540
MOON-CULMINATIONS, 1912.
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Date.
•
a
0
(«
.a
u
Mean
Time of
Transit
Diif.
for I
Hour
of
Long,
Right
Ascension
of
Center.
Diff:
for X
Hour
of
Long.
Geocentric
Declination
of
Center.
Diff.
for I
Hour
of
Long.
Sid.
Time
of
Semid.
Pass-
ing Me-
ridian.
Geocen-
tric
Semidi-
ameter.
Equa-
torial
Hori-
xontal
Parallax.
Bright
Limbs.
h m
m
h m 8
8
0 t H
t*
s
t •*
t t*
Nov. 15
L
17 48.27
X.833
2Z 28 50.93
iao.xz
-19 14 43.5
+ 669.5
64.80
Z4 48.0
54 13.3
s.
l6
U
6 9-93
1.780
2Z 52 32.88
116.97
z6 55 16.3
723.8
63.92
14 48.4
5414.8
s.
16
L
i8 31.03
1.737
22 Z 5 40.38
1x4.39
142541.3
770.9
63.19
Z4 49.6
5419-2
s.
17
U
6 51.67
X.7P5
22 38 20.58
xia.43
zz 4721.2
8xx.o
62.6Z
1451.6
54 26.2
s.
17
L
19 11.99
X.663
23 0 4Z.28
IZX.14
-91 33.9
+ 845.4
6a.22
14 54.2
54 36.0
s.
18
U
7 32.12
X.674
23 22 50.72
XXO1.56
6 934.4
873.4
62.04
14 57.6
5448.3
s.
z8
L
19 52.21
1.67^
234457-56
XX0.72
3 12 37.5
895.0
62.05
15 1.6
55 3.1
s.
19
U
8 12.40
X.693
0 7 ZO.85
X11.64
- 0 12 0.2
9x0.0
62.29
15 6.2
55 19.9
s.
19
L
20 32.86
Z.790
02939.99
113.37
■H 2 50 53.8
+ 917-7
62.74
1511.3
55 38.7
s.
20
U
8 53-74
Z.762
05234.59
X 15.89
5 54 31-7
9x7.x
63.42
15x6.8
55 58.9
s.
20
L
2Z Z5.2Z
1.818
z z6 4.52
119.84
857 7.6
907.8
64-33
1522.6
5620.3
s.
21
U
9 37-44
Z.888
z 40 Z9.8Z
"3-44
zz 56 39.6
886.9
65.46
15 28.7
56 42.6
s.
21
L
22 0.57
1.971
2 530.23
xa8.4a
4-Z45046.3
+ 858.6
66.77
15 34-8
57 5.1
s
22
U
10 24.78
a.066
2 31 44.93
X34.13
17 36 44*4
804.4
68.27
1541-0
57 27.6
s.
22
L
22 50.19
a. 170
2 59 ZZ.72
140. 4a
20 z I 28.9
740.x
69.89
1546.9
57 49.5
JV.S.
33
U
zz 16.88
3.a8o
3 27 56.08
147.01
22 3z 34.5
657.8
71-56
15 52.6
58ia3
N.5.
23
L
2344-90
a.389
3 57 59.87
153.59
f 24 33 2Z.5
+ 556.9
73.20
15 57.8
5829.5
./7.N.
24
U
Z2 Z4.Z8
a.490
4 29 20.20
159.66
26 Z3 6.6
437.6
74.70
16 2.5
5846.7
II. K.
25
L
0 44.60
a-575
5 Z48.Z2
x64*76
27 27 Z8.5
301.8
75.95
16 6.7
59 1.8
11. N.
25
U
Z3 Z5.88
a.634
5 35 8.52
168.34
28 za 57.3
+ X53.9
76.83
16 10.1
5914.4
II. N.
26
L
z 47.69
2.662
6 9 0.74
iTObOO
f 28 27 55.7
- 4.0
77.25
16 12.8
5924.2
II. N.
26
U
14 19-63
a.6s6
643 0.79
169.64
28 z z 14.6
x6a.6
77.19
16 14.7
5931.2
II. N. S.
27
L
2 51-30
3.617
7 z6 44.26
167.30
27 23 Z0.8
3x6.6
76.67
z6 Z5.8
5935.5
II V s
27
U
15 22.33
a.55x
7 49 49-53
163.34
26 5 Z4.1
460.6
75.76
Z6X6.3
5937.2
II. s.
28
L
3 52.45
a.467
822 0.08
158.87
f24 19 53.9
- 590.1
74.55
i6z6.z
59 36.4
II. s.
28
U
z6 2Z.50
a. 373
853 5-74
152.61
22 10 20.0
702.6
73.19
16x5.3
59 33.5
II. s.
29
L
449.39
2.877
923 2.53
X46.87
Z940 4.4
797.0
71.77
z6 X4.0
59 28.7
II. s.
29
U
17 Z6.Z7
a. 187
95Z 5Z.81
141.4*
16 52 43.9
873.4
70.39
Z6 X2.2
59 22.2
II. s.
30
L
5 41.92
3.Z06
zo Z9 39.0 X
136.56
■♦-13 51 50.3
- 938.7
69.14
16 XO.Z
5914-3
II. s.
30
U
18 6.76
2.038
Z046 32.28
138.46
10 40 42.7
976.0
68.06 z6 7.6
59 5.4
II. s.
Dec. I
L
6 30.88
1.984
zz Z2 4Z.53 129.22
72226.5
1004.4
67.Z9I16 4.9
58 55.4
II. s.
z
U
z8 54.44
1.946
zz 38 17.42
1 26.91
3 59 52.8
10x8.9
66.56
16 a.o
58 44.7
II. s.
2
L
7 17-64
1.922
12 33^-04
185.5a
-h 03541.0
— XO8O.8
66. z6
Z5 58.8
5833.2
II. s.
2
U
19 40.64 1 1.914 1
12 28 33.33 125.0a
- 2 47 38.9
xoxa4
66.00
15 55-6
58 21.2
II. s.
3L
8 3.63
1.920
12 53 34.85 1 125.38
6 7 42.0
988.1
66.07
1552.2
58 8.7
II. s.
3U
20 26.77
1.939
131845.56
126.54
922 7.3
954.0
66.35
Z548.6
57 55.6
II. s.
4L
8 50.22
1.970
134414.54
128.41
-12 28 34.5
-908.4
66.82
1544.9
57 42.0
II. s.
4!U
2Z Z4.ZO
2.0II
14 10 9.68 I3a87
152443.3
851.0
67.44
i5 4i»i
57 27.9
II. s.
5L
9 38.53
a. 060
143637.31 ,»33.79
18 8 12.9
781.9
68.18
1537.1
5713-4
II. s.
5U
22 3.56
a.iia
15 341.70
136.96
20 36 43.9
701.3
68.99
15 33.0
5658.5
II. s.
6 L
to 29.23
2.Z66
15 31 24.46 ■ 140. IS
-2248 0.5
-609.7
69.79
15 28.9
56 43.2
II. s.
6 U
22 55.52
2.215
X5 59 44.44
143.10
24 39 56.7
508.1
70.53
1524.6
56 27.6
7'L
ZZ 22.35
2.J55
16 28 36.98
145.53
26104T.7
398.1
71.14
i5 2a4
56x1.9
7;u
1
23 49*59
a.aBa
z6 57 54.16
147.17
27 18 46.9
061.9
7l»54
71-71
15 z6.z
5556.2
8
L
Z2 17.06
a.aa3
17 27 25.26
i47.8t
-28 313.4
— x6a.o
15 11.8
5540.7
[Bph xa]
MOON-CULMINATIONS, 1912.
541
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Data
•
1
Mean
Time of
Transit
Diff.
fori
Honr
of
Long,
Right
Ascension
of
Center.
Diir.
for X
Honr
of
Long.
Geocentric
Declination
of
Center.
Diir.
for X
Honr
of
Long.
Sid.
Time
of
Semid.
Pass-
ing Me-
ridian.
Geocen-
tric
Semidi-
ameter.
Bqna-
tonal
Hori-
cental
Parallax.
Bright
Limbs.
h m
m
h m s
s
0 t m
m
a
t m
1 n
Dec. 9
u
044-55
a-aSs
17 56 57.53
147.36
-28 23 35-9
— 4X.8
71.61
15 7.7
55 25.6
9
L
13 11.84
3.859
18 2C 17.49
145.77
28 20 5.4
+ 76.1
71.23
15 3.8
55 11.3
N.
lO
u
1 38.71
3.ai6
18 55 12.26
143.18
27 53 27.9
X89.X
70.60
15 0.1
54 57.7
N.
zo
L
14 4-98
3.160
19 33 30.86
139.79
27 458.2
994.5
69.75
14 56.8
54 45-3
N.
II
u
230.50
3.094
1951 4.99
135.83
-25 56 14.0
+ 391. a
68.76
14 53-8
5434.3
S.
II
L
14 55-21
3.023
20 17 49.49
131.56
2429 6.9
478.3
67.67
14 51.2
54 24-9
s.
12
u
3 19-05
X.95X
20 43 42.30
X37.36
22 45 33.9
555.4
66.56
14 49.2
54 17.4
s.
12
L
15 42.05
1.883
21 8 44.22
X33.X3
20 47 32.4
633.x
65.47
14 47.7
54 11.9
s.
13
u
4 4-25
x.8x9
21 32 58-38
XX9.33
-18 36 54.2
+ 681.7
64.45
14 46.8
54 8.7
s.
13
L
16 25.74
1.764
21 5629.67
X16.OO
16 15 23.0
733.1
63.55
14 46.6
54 8.0
s.
14
u
4 46.63
1.7x8
22 19 24.40
1x3.34
134434.1
774.8
62.80
1447-1
54 9.7
s.
14
L
17 7.02
X.683
22 41 49-83
XXX.I3
11 5 54-3
8x0.7
62.21
1448-3
54 14.2
s.
15
u
527.07
1.659
23 3 53-92
SD9.68
- 82042.3
+ 640.3
6i.8z
1450.2
5421.3
s.
15
L
17 46.89
X.647
232545.16
XO8.98
5 30 12.1
863.8
61.62
14 52.9
5431.2
s.
i6
u
6 6.66
X.649
23 47 32.45
109.04
- 2 35 34.5
88X.5
61.63
14 56.4
5443.9
s.
i6
L
18 26.51
x.6^
0 925.1a
109.89
4- 0 21 59.2
893.x
6X.87
15 0.5
54 59.2
s.
17
u
6 46.61
X.690
0 31 32.83
XXX.56
f 3 21 14.6
+•898.3
62.34
15 5.4
55 17.2
s.
17
L
19 7-13
1.73a
054 5.69
XX4.O7
6 20 5ai
896.3
63.04
15 ZI.O
55 37.5
s.
i8
u
7 28.24
X.789
1 17 14.14
117.47
9 19 12.5
885.9
63.98
15 17.1
56 0.1
s.
i8
L
1950.12
X.860
Z41 8.85
X3I.79
12 14 33-7
865.9
65.15
15 23.8
56 24.5
s.
19
u
8 12.95
1.9*7
2 6 0.54
136.98
*-i5 446.3
+ 834.x
66.54
1530.8
5650.4
s.
19
L
2036.89
a.047
2 31 59.59
133.00
17 47 18.7
788.7
68.12
15 38.2
57 17.4
s.
20
U
9 3.12
9.158
25915.32
139.73
20 X9 14.4
737.6
69.84
15 45.7
5744-8
s.
20
L
21 28.74
9.378
3 27 54.91
146.9a
32 37 ia3
648.5
71.64
^SSl^'t'
58 12. 2
s.
21
U
9 56.81
3.400
358 2.12
154.36
+243721.1
+ 549.9
73.45
16 0.4
5838.9
JV.S.
21
L
22 26.31
3.5x6
4 29 35.65
X6X.33
261548.4
431-3
75.13
16 7.3
59 4.1
N.5.
22
U
1057.13
a. 6x6
5 227.77
167.35
27 28 36.9
993*8
76.56
x6 X3.6
5927.4
N.
22
L
2329.00
3.691
5 36 23.44
171.7a
28 12 z6.8
+ 140.6
77.61
16 19.2
5947-9
N.
23
U
12 Z.56
3.730
61Z 0.86
174.1s
4-2824 8.8
— as«x
78.17
X623.9
60 5.0
/.ii.
N.
24
L
034.38
a.73a
6 45 53.49
i74.a4
28 248.2
X90i9
78.20
1627.5
60x8.3
N.
24
U
13 6.98
a.696
7 20 33.60
X73.08
27 8x8.7
353*3
77.71
1630.0
6027.5
,N.
25
L
z 38.96
3.699
75435.94
X68.0X
25 42 X2.0
505.3
76.77
16 31.3
6032.4
,N.5.
25
U
14 9.99
a. 539
8 27 40.93
X68.69
+234715.1
— 641.0
75.50
16 31.6
6033.0
S.
26
L
239.86
«.437
• 8 59 36.07
156.49
2X 27 7.9
756.7
74.04
1630.6
6029.5
, s.
26
U
15 8.48
S.SS3
9 30 16.24
X50.91
18 45 58.8
85X.X
72.51
z6 28.6
60 22.2
s.
27
L
335.87
9.334
9 59 42.41
144-94
1548 3.5
994.5
71-03
x6 25.7
6OXX.6
s.
27
U
16 a.z2
a. 144
1028 0.24
X38.87
4-12 37 29.3
-977.9
69.68
16 22.0
59 58.2
s.
28
L
427.38
3.069
10 55 X8.44
134.39
9 18 6.7
XOX9.9
68.52
16 17.8
59 42.5
s.
28
U
16 51.83
3.008
112x47.55
130.70
55324.1
X03I.5
67.57
x6 X3.0
5924-9
s.
29
L
515-65
1.964
XI 47 38.95
X98.04
4- 22628.7
1035.3
66.88
16 7.9
59 6.2
. s.
29
U
17 39-04
1.936
12 13 4.26
136.35
- 0 59 51.7
— X095.9
66.43
x6 2.5
58 46.6
s.
30
L
6 2.18
1.994
12 38 14.90
X35.60
423 5.5
1004.4
66.23
1557.1
58 26.7
s.
30
U
18 25.26
x.9a6
13 321.72
X35.70
7 40 52.9
971.6
66.25
1551.6
58 6.7
s.
31
L
648.44
1-941
13 28 34.89
X96i63
1051 3.3
998.9
66.49
1546.2
5746.9
. s.
31
U
19 11.88 x.gesi
1354 3.55
138.26
-13 51 30.8
-874.7
66.92
1541-0
57 27.6
s.
[Eph xs]
542
MERCURY, 1912.
FOR TRANSIT AT WASHINGTON.
Date.
Mean
Time
^°'
Tran-
sit.
Api^arent
* Ascension.
Apparent
Declination.
Hor.
Par.
n
•
a
8
Date.
Mean
Time
of
Tran-
sit.
Apparent
Right
Ascension.
Apparent
Declination.
Hor.
Par.
s
1
(A
h m
h m s
0 » *»
h m
h m 8
0 » •»
M
8
Jan. o
23 0
17 39 24.46
-20 II 14.3
12.0
4.6
0.33
Feb.15
2332
21 13 17.99
-18 12 i6.4> 6.4
2.4
0.17
I
2254
17 37 20.49
20 II 23.5
II.7
4.5
0.32
16
2335
21 20 1.08
1744 2.1 6.4
2.4
0.17
2
2248
173559.37
20 13 29.911. 4
4-4
0.31
17
2338
21 26 45.24
17 14 23.9I 6.4
2.4
0.17
3
22 44
17 35 19.60
20 17 22.8,11.1
4.3
0.30
18
2340
21 33 30.44
16 43 21.8
6.4
2.4
0,17
4
22 40
17 35 18.94
20 22 49.8 10.8
4.2
0.29
19
2343
21 40 16.67
16 10 55.9
6-H
2.4
0.17
5
2237
17 35 54.81
—20 29 37.2 10.6
4.1
0.29
20
2346
2147 3.91
-1537 6.1 6.4
1
2.4
0-17
6
2234
1737 4.45
2037 31. 1
10.4
4.0
0.28
21
2349
2x5352.17
15 152.5 6.4
2.4
0.17
7
2231
17 38 45-09
20 46 17.7
10.2
3.9
0.27
22
2352
22 0 41.46
1425x5.5
6.4
2.4 0.17
8
22 29
17 40 53.99
20 55 43.9
9.9
3.8
0.27
23
2355
22 731.78
13 47 15.3
6.4
24 0.17
9
22 28
174328.55
21 537.2
9.7
3-7
0.26
24
2358
22 1423.14
X3 752.3
6.4
2-4
0.17
zo
22 27
17 46 26.36
—21 15 46.1
9.5
3.6
0.26
26
0 0
22 21 15.55
-12 27 7.1
6.4
2.4
o.i6
II
22 27
174945.20
21 26 0.3
9.3
3.5
0.25
27
0 3
22 28 9.02
II 45 0.4
6.4
2-4' 0.16
12
22 26
17 53 23.04
21 36 10.2
9.x
3.4
0.25
28
0 6
2235 3.54
XX 133-3
6.4
2.4 0.16
13
22 26
17 57 18.04
21 46 7.1
8.9
3.4
0.24
29
0 9
22 41 59.09
10 16 46.9
6.4
2.4 0.16
M
22 27
18 I 28.53
21 55 43.2
8.7
3.3
0.24
Mar. X
0 12
22 48 55.64
9 30 42.9
6.4
2.4 0.16
15
22 27
18 553.03
-22 451.9
8.6
3.3
0.23
2
015
225553.16
- 84323.0
6.5
2.4' 0.16
i6
22 28
18 10 30.22
22 13 27.1
8.5
3.2
0.23
3
018
23 2 51.56
75449.5
6-5
2.5 0.16
17
22 29
18 15 18.90
22 21 23.1
8.3
3.2
0.23
4
021
23 950-73
7 5 5.4
6.5
2.5] 0.17
i8
22 30
18 20 17.99
2228 35.1
8.2
3.1
a 22
5
024
23 z6 50.52
6 14 14.0
6-5
2-5
0.17
19
22 31
18 25 26.53
22 34 59-0
8.0
3.0
0.22
6
027
23 23 50-73
5 22 19.4
6.6
2.5
0.17
20
22 32
18 30 43.66
-22 40 30.9
7-9
3.0
0.22
7
031
23 30 51.09
— 4 29 26.2
6.6
2.5
0.17
2Z
2233
1836 8.61
2245 7.3
7.8
3.0
0.21
8
034
23 37 51.24
3 35 40.3
6.7
2-5
0.17
22
2235
18 41 40.70
22 48 45.2
7-7
2.9
0.21
9
037
23 44 50.76
24X 8.4
6.7
2.6
0.17
23
2237
18 47 19.30
22 51 21.8
7.6
2.9
a2i
10
040
235x49-15
I 45 58.4
6.8
2.6
0.17
24
2239
1853 3.85
22 52 54.7
7-5
2.9
0.2I
II
043
23 58 45-77
— 0 50 19.0
6.9
2.6
0.18
25
2241
18 58 53.84
-22 5321.9
7-4
2.8
0.20
12
046
0 539-89
4- 0 540.0
7.0
2-7
0.18
26
2243
19 4 48.80
22 52 41.5
7-4
2.8
0.20
13
048
0 12 30.63
X 147.0
7.>
2.7
0.18
27
2245
191048.31
22 50 51.6
7.3
2.8
0.20
X4
051
0 19 17.01
X 57 49.7
7.2
2.7
0.18
28
2247
19 16 52.01
22 47 50.6
7.2
2.7
a2o
15
054
0 25 57.93
a 53 34-5
7-3
2.8
0.19
29
2249
19 22 59.56
22 43 37-2
7-1
2.7
0.20
16
057
032 32.17
3 48 47-0
7-5
2.8
0.19
30
22 51
19 29 10.64
-22 38 10.0
7-1
2.7
0.19
17
059
0 38 38.38
■1- 443x1.9
7.6
2-9
0.19
31
2253
19 35 24-96
22 31 28.0
7-0
2.7
0.19
18
I 2
04515.14
5 36 33-4
7.8
2-9
0.20
Feb. I
2256
19 41 42.27
22 23 30.0
6.9
2.6
0.19
19
X 4
0 51 20.96
62835.6
7-9
3.0
0.20
2
2258
1948 2.33
22 14 I5.I
6.9
2.6
0.19
20
I 6
05714-31
719 2.5
8.1
3-1
0.21
3
23 I
19 54 24.94
22 342.4
6.8
2.6
0.19
2Z
I 7
X 253.63
8 738.2
8.3
3-x
0.21
4
23 3
20 049.90
-21 51 51.1
6.8
2.6
0.19
22
' 9
I 817.39
4-854 7.8
8.5
3-2
0.22
5
23 5
20 7 17.01
21 38 40.5
6.7
2.6
0.18
23
I 10
I 13 24.09
9 38 17-3
8.7
3-3
0.22
6
23 8
20 1346.12
21 24 9.9
6.7
2.5
0.18
24
Z II
I z8 12.31
xo 19 53.3
9.0
3-4
o-*3
7
2310
20 20 17.08
21 8 18.9
6.7
2-5
0.18
25
I II
I 22 40.70
10 58 43-5
9.2
3-5
a24
8
2313
20 26 49.75
20 51 6.8
6.6
2.5
0.18
26
1 12
I 26 48.02
IX 34 37-3
9.5
3.6
0.24
9
2316
20 33 24.02
-20 32 33.0
6.6
2.5
0.18
27
I II
X30 33-X6
4-12 724.8
9-8
3-7
0.25
10
2318
20 39 59-78
20 12 37.2
6.6
2.5
ai8
28
Z ZI
X33 55-X4
xa 36 57-5
xai
3-8
0.26
II
2321
20 46 36.93
19 51 19.0
6.5
2.5
0.18
29
1 10
I36 53-X3
X3 3 7-7
10.4
3-9
0.27
12
2324
20 53 15-39
1928 38.1
6.5
2.5
0.18
30
I 8
I 39 26.45
X3 25 48.7
ia7
4-x
0.28
X3
2327
205955-10
19 4 34-3
6.5
2.5
0.18
3X
1 7
I 41 34.61
X3 44 54-9
II.O
4-2
0.29
'4
2329
21 635.98
-1839 7.1
6.4
2.4
0.17
Apr. I
X 4
X 43 X7-33
4-14 0 2Z.6
11.3
4-3
0.30
15
2332
21 13 17.99
-18 12 16.4
6.4
2.4
ai7
a
I 2
X 44 34-50
4-14x2 4.9
1 1.7
4-4
CJI
[Epb xa]
MERCURY, 1912.
543
FOR TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Tran-
sit
Apparent
Right
Ascension.
Apparent
Declination.
Hor.
Par.
1
6^
B
Date.
Mean
Time
of
Tran-
sit
Apparent
Ascension.
Apparent
Declination.
Hor.
Pjir.
•
a
ca
..4
1
S.T.ofSem.
Pass. Mer.
h m
h m s
e 1 M •
h m
h m s
0 » «
s
Apr. 1
I 4
14317-33
+14 0 2Z.6
11.3
4-3
0.30
Mayi6
22 20
I 59 47.89
4* 8 46 5a4
9.8
3-7
0.25
2
I 2
I 44 34-50
Z4Z2 4.9
IZ.7
4*4
0.31
X7
22 20
2 4 18.16
g Z3 2g.8
9.6
3.7
0.25
3
059
z 45 26.26
Z42O 2.3Z2.O
4.60.31
18
22 21
2 858.63
g 41 22.4
9-5
3.6
0.24
4
055
I 45 53»02
14 24 Z2.6 Z2.4
4-7[o.32
19
22 22
213 49.26
10 10 23.7
9-3
3.5
0.24
5
051
I 45 55.45
14 24 35.9
12.7
4.80.33
20
2223
2 18 50.06
i0 40 2g.i
9.1
3.5
0.23
6
047
I 45 34.50
+Z421 Z4.I
13.0
4-9
0.34
21
2224
224 1.05
■l-iz 11 33.8
9.0
3.4
0.23
7
042
1 44 51-43
14 14 "-3
13-4
5.1
0.35
22
22 26
2 2922.31
"4333.3
8.8
3.3
0.23
8
037
z 43 47.80
14 333.8
13-7
5.20.36
23
22 27
2 34 53.95
12 16 22.7
8.6
3.3
0.22
9
032
z 42 25.47
13 49 30.7
Z4.0
5.30.36
24
22 2g
24036.11
12 4g 57.2
8.5
3.2
0.22
zo
027
z 40 46.60
13 32 Z3.9
14.3
5.4
0.37
25
22 3Z
2 46 28.94
1324 1Z.8
8.4
3.2
0.22
ZI
0 2Z
I 38 53.59
+Z3 ZZ 58.3
'4-5
5.50.38
26
2233
2 52 32.65
+13 5g 1.0
8.2
3.1
0.21
Z2
OZ5
I 36 49-05
Z2 49 Z.8
Z4.7
5.60.38
27
2235
2 58 47.45
14 34 ig.o
8.1
3.1
0.21
13
0 8
I 34 35.79
Z2 23 45.0
Z4.9
5.7
0.39
28
2238
3 513.58
15 959.9
8.0
3.0
0.21
M
0 2
z 32 Z6.69
11 5631.1
15.1
5-7;o.39
29
22 4Z
3 11 51.26
15 45 57.6
7.8
3-0
0.21
M
2356
I 29 54.65
"2745.3
15.2
5.8
a 39
30
2244
3 18 40.74
16 22 5.2
7-7
2.g
0.20
15
2350
z 27 32.54
+10 57 54.1
15.3
5.8
0.39
31
2247
3 25 42.24
+16 58 15-3
7-6
2.g
0.20
z6
2344
125Z3.14
10 27 24.7
15.4
5.8
a40
June z
2250
3 32 55.98
17 34 2ao
7-5
2.8
0.20
17
2337
z 22 59.05
95644.3
15.4
5.8
0.40
2
2253
34022.14
18 zo 10.7
7-4
2.8
a 20
z8
2331
z 20 52.66
9 26ig.3
15.4
5.8
0.40
3
2257
348 0.84
z8 45 38.2
7.3
2.8
0.20
19
2325
z z8 56.08
8 56 34.8
15.3
5.8
0.39
4
23 I
3 55 52.14
ig 20 32.g
7-2
2.7
o.ig
20
2320
z Z7 zz.z6
+ 8 27 53-7
15.2
5-8
0.39
5
23 5
4 356.01
+ig 54 44.2
7.1
2-7
o.ig
21
23 Z4
z Z5 39.46
8 036.5
15.1
5.7
0.39
6
23 g
4 12 12.33
2038 o.g
7.0
2.7
o.ig
22
23 9
z Z4 22.23
7 35 1.3
15.0
5.7
0.38
7
2314
4 20 40.81
21 0 11«3
7.0
2.6
o.ig
23
23 4
z Z3 20.46
71123.2
14.9
5.6
0.38
8
2319
42921.06
21 31 3.2
6.9
2.6
o.ig
24
22 59
z 12 34.87
6 49 54.4
M'7
5.6
0.37
9
2324
4 38 12.51
22 024.3
6.8
2.6
o.ig
25
2255
Z Z2 5.90
+ 6 30 44.7
14.5
5.5
0.37
zo
23 2g
4 47 14.40
+22 28 2.1
6.8
2.6
o.ig
26
2251
z ZZ 53*82
6 14 1.2
14.3
5-4
0.36
ZZ
2334
4 56 25.S0
22 53 44-5
6.7
2.6
0.18
27
2247
z ZZ 58.72
5 59 48.7
14.1
5-3
0.36
Z2
2339
5 545.60
23 17 19-7
6.7
2.6
0.18
28
22 43
Z 12 20/52
5 48 ZO.0
13.8
5.2
0.35
13
2345
5 15 12.52
23 38 36.8
6.7
2-5
0.18
29
2240
Z 12 59*02
5 39 5.9
13.6
5-2
0.35
14
2350
5 24 45. H
235726.1
6.7
2.5
0.18
30
2237
I 13 53.91
+ 5 32 36.1
13-4
5.1
0.34
X5
2356
53421.92
+24 13 3g.3
6.6
2.5
0.18
May z
2234
zz5.4,8z
5 28 38.9
13.1
5.0
0.33
X7
0 2
5 44 x-23
24 27 g.6
6.6
2.5
0.18
2
22 32
z Z63Z.3X
52711.5
12.9
4.9
0.33
z8
0 7
5 53 41-40
24 37 52.1
6.6
2-5
o.ig
3
2230
1 18 Z2,94
5 28 Z0.4
12.7
4.8
0.32
19
OZ3
6 320.79
24 45 44.2
6.6
2-5
o.zg
4
2228
z 20 g.20
5 31 3X.6
12.4
4-7
0.32
20
0 zg
6 12 57.79
24 50 45.0
6.7
2.5
o.ig
5
2226
z 22 zg.62
+ 5 37 X0.6
12,2
4.6
0.31
2Z
0 24
6 22 30.88
+24 52 55.x
6.7
2.5
o.ig
6
2224
z 24 43.72
545 2.5
12.0
4.5
0.30
22
0 30
631 58.66
24 52 17.0
6.7
2.5
o.ig
7
2223
z 27 2Z.03
5 55 2.3
11.7
4-4
0.30
23
035
6 41 Z9.85
24 48 54-6
6.7
2.6
o.ig
8
22 22
r3ozz.o9
6 7 4.9
"-5
4.4
0.29
24
0 40
6 50 33-31
244253.3
6.8
2.6
o.ig
9
22 2Z
I 33 13.50
62Z. 5.1
11.3
4-3
0.29
25
045
6 5g 38.08
24 34 X9-4
6.8
2.6
0.19
zo
22 20
X3627,«6
+ 6 36 57.7
1 1.0
4.2
0.28
26
0 50
7 833.33
+24 23 ig.g
6.9
2.6
o.ig
\ zz
2220
X 39 53.«2
6 54 37.5
Z0.8
4.1
a28
27
055
7 17 x8.3g
24 10 2*3
6.9
2.6
o.ig
Z2
22 zg
z 43 3Z.07
71359-5
10.6
4.0
0.27
28
z 0
7 25 52.71
23 54 34.6
7.0
2-7
o.zg
3t3
22 Z9
z 47 19.31
7 34 58.6
Z0.4
4.0
0.26
29
I 4
7 34 15.88
2337 5.0
7.1
2.7
0.20
' 14
22 zg
X 51 18.32
7 57 30.1
I0.2
3-9
a 26
30
I 9
7 42 27.5g
23 17 42.0
7-1
2.7
0.20
^^ 15
2220
X 55 27.90
+ 8 21 29.0
10.0
3.8
0.26
July I
I 13
7 50 27.6Z
-r22 56 33.6
7.2
2.7
0.20
1
1
2220
15947.89
+ 84650.4
9.8
3.7
0.25
- 2
XX7
7 58 Z5^2
+22 33 47.9
7.3
2.8
0.20
[Eph 12]
MERCURY, 1912.
FOR TRANSIT AT WASHINGTON.
Mean
•
a
§^
Mean
a ii
Date.
Time
of
Tran-
sit.
h m
Apparent
RiRht
Ascension.
Apparent
Declination.
Hor.
Par.
^3
1
n
(^1
hi
Data.
Time
of
Tran-
sit
h m
Ascension.
Appwent
Declinadon.
Hor.
Par.
1 ^S
h m 8
0 * m
s
h - m s
. . .
July I
I 13
7 50 27.61
+22 56 33.6
7.2
2.7
p.20
Aug 16
036
10 15 9.01
+ 546 6-914.3
5-4
0.36
2
I 17
7 58 15-82
22 33 47.9
7.3
2.8
0.20
17
0 30
10 12 23.83
6 I 36.7 14.3
5.4
0.36
3
I 20
8 552-14
22 9 32.7
7-4
2.8
0.20
18
023
10 928.18
61951.7,14.4
5.4)0.36
4
124
8 13 16.57
21 43 55.7
7.5
2.8
0.20
19
0 16
10 6 24.82
64039.514-4
5-4
0^36
5
I 27
82029.12
21 17 4.4
7.6
2.9
0.21
20
0 9
10 3 16.92
7 343-714.3
1
5.4
0.36
6
130
8 27 29.85
+2049 5.9
7.6
2.9
0.21
21
0 2
10 0 7.94
+ 72844.314.2
5.4
0.36
7
133
8 34 18.85
2020 6.9
7-7
2.9
0.21
2X
2355
9 57 1.57
75518.314.1
5.4
0.36
8
136
8 40 56.21
19 50 14. 1
7.8
3.0
0.21
22
2348
9 54 1.70
8 22 59.8 14.0
5-3
a 36
9
138
8 47 22.04
19 19 33.7
8.0
3.0
0.21
23
2341
951 12.26
851 21.1 13.8
5-2
0.35
lO
I 40
8 53 36.44
18481X.8
8.x
3-1
0.22
24
2334
94837.10
9 19 53.7 13.6
5-1
0.35
II
142
8 59 39-5°
+18 16 14.4
8.2
3-1
0.22
25
2328
9 46 19.90
+ 948 8.9
13.3
5.1
0.34
12
144
9 531.32
17 43 47-0
8.3
3-1
0.22
26
2322
9 44 24.08
xo 15 38.0
13.0
4-9j 0.33
13
I 46
9 II IX.98
17 10 55.2
8.4
3.2
0.22
27
2317
9 42 52.69
xo 41 53.8
12.8
4.8
0.33
M
148
91641.53
«6 37 44-4
8.5
3.2
0.23
28
23X2
94x48.37
II 630.9
12.5
4-7
0.32
15
149
922 0.04
16 4 19.8
8.7
3-3
0.23
29
23 7
9 41 X3.28
XI 29 6.1
12.2
4.6
0.31
i6
150
927 7.52
+15 30 46-4
8.8
3.3
0.23
30
23 3
941 9.09
+XX4918.3
11.8
4-5
0.30
3t7
151
932 3-97
1457 9.3
8.9
3.4
0.23
31
23 0
9 41 36.96
12 649.2
1X.5
4-4
0.30
i8
152
93649.36
142333-7
9.1
3-4
0.24
Septx
2257
94237.54
xa 21 22.8
11.2
4.2
0.29
19
153
9 41 23.62
1350 4.4
9.2
3.5
0.24
2
2255
94411.04
12 32 45.7
10.8
4.x
0.28
20
153
9 45 46.68
13 16 46.4
9-4
3.6
0.24
3
2253
94617.17
12 40 47.0
X0.5
4.0
0.27
21
153
9 49 58.42
+124344.9
9.5
3-6
0.25
4
2251
9 48 53.23
+1245 x8.x
ia2
3.9
0.26
22
153
9 53 58.70
12 II 5.1
9-7
3.7
0.25
5
22 51
952 4.12
1246 13.1
9.9
3.7
a26
23
J 53
9 57 47-32
11 3852*1
9.8
3.7
0.25
6
2250
9 55 42.41
la 43 28.2
9.6
3.6
0.25
24
^53
10 I 24.07
IX 711.1
lao
3.8
0.26
7
22 50
9 59 48.38
12 37 a.o
9.3
3.5
0.24
25
152
10 448.69
X036 7.7
I0.2
3-9
0.26
8
22 5X
10 4 20.02
12 26 55.6
9.0
3.4
0.23
26
152
10 8 0.88
+10 547.5
10.4
3.9
0.27
9
2252
10 9x5.13
+12 13 12.3
8.8
3.3
0.23
27
151
10 XI 0.3X
9 36 x6'5
10.6
4.0
0.27
xo
2253
10 14 31.39
" 55 57.9
8.5
3.2
0.22
28
150
10 1346.62
9 740.9
10.7
4.1
0.27
XI
2255
1020 6.38
11 3520.2
8.3
3.2
0.22
29
148
xo x6 19.39
840 7.0
10.9
4.1
a 28
X2
2257
10 25 57.67
IX XX 29.0
8.1
3.1
0.21
30
146
10x838.18
8I3 4X-7
ii.i
4*2
0.28
'3
2259
10 32 2.85
104435.3
7-9
3.0
0.2X
31
144
102042.51
+ 7 48 31.9
11.3
4-3
0.29
M
23 1
10 38 19.60
+XO 14 5X.8
7^7
a.9
0.20
Aug. I
142
10 22 31.88
7 24 44.9
11.5
4-4
0.29
15
23 4
10 44 45.75
94232.4
7.6
2.9
0.20
2
140
1024 5* 76
7 228.5
11.7
4-4
a 30
x6
23 6
10 51 19.28
9 7 5X-0
7.4
a.8
0.19
3
137
10 25 23.60
6 41 50.6
1 1.9
4.5
0.30
17
23 9
105758.35
8 31 8.0
7.3
a.8
0.19
4
134
xo 26 24.84
622 59*8
I2.I
4.6
0.31
x8
23x2
" 4 4'-33
7 52 19.8
7-2
a.7
0.18
5
131
1027 8.95
+ 6 6 4.7
12.4
4-7
0.3X
19
2315
IX IX 26.81
+ 71x58.2
7-x
2.7
ax8
6
128
102735.41
5 51 M-o
12.6
4.8
0.32
20
23x8
11 x8 13.57
630 X0.8
7.0
a.6
o.x8
7
124
10 27 43.76
5 38 36.7
12.8
4.8
0.32
21
2320
11 25 0.59
5 47 10.4
6.9
2.6
0.18
8
X 20
10 27 33.61
5 28 21.6
13.0
4-9
0.33
22
2323
11 31 47.04
5 3 8.7
6.8
2.6
0.17
9
116
1027 4.64
5 20 37.4
13-2
5.0
0.33
23
2326
IX 38 32.25
4 18 16.5
6.7
2.5
0.X7
10
I IX
10 26 X6.69
+ 51532.3
i3«4
5.1
0.34
«4
2329
114515.69
+ 3 32 44.0
6.6
2.5
0.17
XI
I 6
X025 9-79
5 13 13»9
13.6
5.1
0.34
25
2332
11 51 56.95
a 46 40.2
6.6
2.5
O.X7
12
X I
102344.17
5 13 48.7
13.7
5-2
0.35
26
2334
" 58 35*75
2 013.3
6.5
2.5
0.17
13
055
10 22 0.31
5 17 21.6
13.9
5.3
0.35
27
2337
12 5 11.89
X 13 30.8
6.5
2.5
o.x6
14
049
XO 19 59.00
5 23 55-6
14.0
5.3
0.35
28
2339
12 11 45.25
+ 02639.4
6.4
2.4
o.x6
15
043
10 17 4X.39
+ 53331.4
14.2
5.4
0.36
29
2342
12 x8 15.78- 020 15. 1
6^
2.4
o.x6
16
036
10 15 9.01
+ 546 6.9
14-3
5.4
0.36
30
2344
122443.48- I 7 7.3
6.3
2-4
o.x6
tKp)
tlX9l
MERCURY, 1912.
OteO
FOR TRANSIT AT WASHINGTON.
Mean
•
a
ii
Mean
i
a^
Date.
Time
of
Tran-
sit.
b m
Apparent
Ascension.
Apparent
Decunation.
Hor.
Par.
a
8
Date.
Time
of
Tran-
sit
h m
Apparent
Ascension.
Apparent
Decfinatioa
Hor.
Par.
2
•5
B
0 a
h m 8
0 » i»
h m s 0 . -
1
s
Oct. X
2347
12 31 8.38
- I 53 52.5
6.3
2.4
o.z6
N0V.Z7
1x7
17 240.35-252447.9
8.3
3.2
0.23
2
2349
12 37 30.55
24026.5
6.3
2.4
o.z6
z8
zz8
17 727.42
25 29 45-8
8.5
3.2
a 24
3
2352
12 43 50.11
3 26 45.6
6.3
2.40.Z6
X9
zz8
17 Z2 Z.27
25 33 Z2.0
8.7
3.3
0.24
4
2354
1250 7.Z7
41246.5
6.2
2.4
o.z6
20
I X9
Z7 z6 Z9.92
2535 4.9
8.9
3.4
0.25
5
2356
12 56 21.86
4 58 25.9
6.2
2.4
0.16
2Z
X X9
Z7202Z.Z3
25 35 23.0
9.1
3.4
0.25
6
2359
13 234.33
- 54341.2
6.2
2.4
0.16
. 22
X19
Z724 2.41
-2534 4.8
9.3
3.5
0.26
8
0 z
13 844.73
628 30.Z
6.2
2.4
0.16
23
zz8
Z7 27 2Z.02
25 3X 8.5
9.5
3.6
0.27
9
0 3
13 14 53.22
7 Z2 50.1
6.2
2.4
o.z6
24
1x7
X7 30 X3.99
25 26 32.6
9.7
3.7
0.27
zo
0 5;I3 20 59.96
7 56 39-2
6.2
2.4
o.z6
25
XX5
17 32 38.X3
2520Z5.5
lO.O
3.8
0.28
ZI
0 7
1327 5.10
8 39 55.7
6.2
2.4
o.z6
26
X13
17 34 30.07
25Z2Z5.Z
Z0.3
3.9
0.29
Z2
0 zo
1333 8.81
- 9 22 37.7
6.2
2.4
o.z6
27
Z ZZ
17 35 46.38
-25 2 29.3
10.5
4.0
0.29
13
0 Z2
Z339ZI.24
10 443.6
6.2
2.4
0.16
28
X 7
Z7 36 23.63
24 50 55.7
Z0.8
4.x
0.30
M
OZ4
1345x2.54
zo 46 Z2.0
6.2
2.4
o.z6
29
X 3
Z7 36 Z8.65
243732.1
IZ.Z
4.2
a3z
15
0 16
13 5Z Z2.85
ZZ 27 Z.4
6.2
2.4
0.16
30
058
X7 35 28.75
24 22 Z6.2
ZZ.4
4.3
0.32
i6
oz8
1357x2.31
Z2 7 ZO.4
6.2
2.4
o.z6
Dec. z
053
X7 33 52.03
24 5 6.3
1Z.7
4.4
0.32
17
020
14 3 IZ.05
-Z2 46 37.6
6.2
2.4
o.z6
2
047
17 3X 27.75
-2346 Z.9
Z2.0
4.5
0.33
z8
022
14 9 9.19
Z3252Z.9
6.2
2.4
0.16
3
040
Z7 28 Z6.7Z
2325 5.5
Z2.2
4.6
0.34
19
024
Z4 Z5 6.86
Z4 322.Z
6.3
2.4
o.z6
4
032
Z7 24 2z.6o
23 223.5
12. 5
4.7
0.34
20
026
14 2Z 4.Z6
X4 40 36.7
6.3
2.4
o.z6
5
023
X7 X9 47.25
22 38 7.7
Z2.7
4.8
0.35
2Z
028
Z427 Z.18
X5X7 4.7
6.3
2.4
0.16
6
0Z4
17 X4 40.72
22 Z2 36.7
Z2«9
4.9
0.35
22
030
Z4 32 58.01
-X5 52 44.9
6.3
2.4
0.Z7
7
0 5
Z7 9XX.05
-2x46 Z7.I
Z3.0
4.9
0.35
23
032
X4 38 54.71
Z627 36. z
6.4
2.4
0.Z7
7
2355
17 328.81
2Z Z942.9
Z3.0
4-9
0.35
24
034
X4 44 51.35
17 z 37.0
6.4
2.4
0.Z7
8
2345
x6 57 45.36
205334.x
Z3.0
4.9
0.35
25
036
14 50 47.98
173446.3
6.4
2.4
az7
9
2336
1652 Z2.Z0
20 28 34.o|z2.9
4.9
0.35
26
038
14 56 44.64
z8 7 2.8
6.5
2.5
0.Z7
KO
2327
x6 46 59.52
2Jb 5 25.o|z2.8
4.8
0.34
27
04015 24Z.33
-z8 38 25.3
6.5
2.5
0.Z7
ZZ
23 z8
z6 42 Z6.52
-X9 44 44.9,12.6
4.8
0.34
28
04215 838.05
Z9 852.4
6-5
2.5
0.17
Z2
23 10
z6 38 Z0.04
Z9 27 4.2
12.3
4.7
0.33
29
044
15 X4 34.77
Z9 38 22.7
6.6
2.5
0.18
X3
23 3
z6 34 44.84
X9 X2 43.8
Z2.Z
4.6
0.32
30
046
Z5203Z.46
20 654.9
6.6
2.5
o.z8
X4
22 56
X632 3.63
X9 X54.9
XZ.8
4.5
0.32
31
048
152628.03
20 34 27.7
6.7
2.5
o.z8
X5
2250
X630 7.30
x8 54 39.3
1X.5
4.4
0.3Z
Nov. I
050
15 32 24.38
-21 059.5
6.7
2.6
o.z8
z6
2245
16 28 55. 3 z
-z8 50 5Z.0
ZZ.2
4-3
0.30
2
052
15 38 20.39
2Z 2628.7
6.8
2.6
0.18
X7
22 41
16 28 26.02
z8 50 Z7.7
zz.o
4.2
0.29
3
054
1544x5.89
21 50 53-9
69
2.6
O.Z9
z8
2237
z6 28 37.06
z8 52 43.0
Z0.7
4.0
0.29
4
056
15 50 ZO.68
22 Z4 13.4
6.9
2.6
0.Z9
X9
2234
z6 29 25.63
z8 57 47.8
za4
3.9
0.28
5
058
1556 4.52
22 36 25.6
7.0
2.7
0.Z9
20
22 32
16 30 48.74
X9 5XX.9
ZO.Z
3.8
0.27
6
z 0
16 z 57.ZI
-22 57 28.8
7-1
2.7
0.Z9
2Z
22 30
x6 32 43.37
-Z9 Z4 35.0
9.9
3.7
0.26
7
Z 2
z6 748.ZO
23 Z72Z.3
7.2
2.7
0.20
22
2228
X635 6.57
X9 25 37.5
9.6
3.6
0.26
8
I 3
16 z 3 37.08
2336 z.4
7.2
2.7
0.20
23
2227
x6 37 55.57
Z9 38 0.8
9*4
3.6
0.25
9
X 5
16 Z9 23.59
235327.3
7.3
2.8
0.20
24
22 26
16 4Z 7.8Z
Z9 5Z 27.6
9.2
3.5
0.25
zo
I 7
Z625 7.06
24 937.x
7.4
2.8
0.2Z
25
22 26
x6 44 40.94
20 542.1
9.0
3.4
0.24
zz
I 9
z6 30 46.87
—24 24 29.2
7.5
2.9
0.2 z
26
2226
z6 48 32.83
-20 20 29.9
8.8
3.3
0.24
Z2
z zo
16 3622.31
2438 Z.7
7.7
2.9
0.2Z
27
22 26
Z6524Z.56
20 35 38. z
8.6
3-3
0.23
13
Z Z2
16 41 52.55
24 50 Z2.8
7.8
3.0
0.22
28
22 26
1657 5.43
20 50 55.3
8.4
3.2
a23
14
XX3
1647 Z6.63
25 z 0.7
7.9
3.0
0.22
29
2227
17 X 42.93
2Z 6 ZZ.4
8.3
3.x
0.22
15
XX5
x6 52 33.46
25 zo 23.7
8.0
3.1
0.22
30
2228
17 6 32.72
2Z 2Z Z7.Z
8.Z
3.x
0.22
z6
zz6
16574Z.83
-25 z8 20.0
8.2
3.1
0.23
31
2229
Z7 ZZ 33.60
-2Z36 4.4
8.0
3.0
0.22
17
ZZ7
17 240.35
-25 24 47.9
8.3
1
3.2
0.23
32
22 30
X7 x6 44.53
— 2Z 50 26.8
7.9
3.0
0.2Z
1912-
35
[Bph 12]
546
VENUS, 1912.
FOR TRANSIT AT WASHINGTON.
Mean
8
•S
§^
Mean'
1
B
!•
Date.
Time
of
Tran-
sit
b m
Apparent
Bght
Ascension.
Apparent
Declination.
Hor.
Par.
0 j
Date.
Time
of
Tran-
sit
h m
Ascension.
Apparent
DecGnatioii.
Hor.
Par.
CO a.
h m s
e ' r*
w
«
h m s
e f •
m
- _ s
Jan. I
21 0
1543 3.85
-17 713.8
9.2
8.9
0.62
Feb.15
21 51
19 32 19.34
-2Z Z2 Z9.5! 7.0
6.8' 0.49
2
21 0
154749.01
17 23 5^-2
9.1
8.8
0.62
z6
2153
19 37 31.31
21 3 5I.2I 7.0
6.8 0.48
3
21 X
15 52 35-53
17 40 17.0
9.0
8.8
0.61
17
2154
19 42 42.75
205445.7 6.9
6.7' 0.48
4
21 2
15 57 23.40
17 56 15.4
9.0
8.7
0.61
z8
2x55
19 47 53.62
2045 3.3
6.9
6.7' 0.48
5
21 3
16 2 Z2.60
z8 ZI 50.6
8.9
8.7
0.61
19
21 56
1953 3.89
203444.3 6.9
6-7 0.47
6
21 4
16 7 3.14
-1827 Z.8
8.9
8.6
0.60
20
2158
1958x3.51
—202349.2 6.8
6.6' 0.47
7
21 5
16 II 55.00
Z841 48.1
8.8
8.5
0.60
21
2159
20 3 22.4s
20 12 18.4
6.8
6.6, 0.47
8
21 6
16 16 48.15
1856 8.9
8.7
8.5
0.60
22
22 0
20 8 30.66
20 0 12. 2
6.8
6.6 0.47
9
21 7
162x42.58
19 10 3.3
8.7
8.4
0.59
23
22 I
20 13 38. XI
19 47 31.0
6.7
6.5 0.46
xo
2Z 8
16 26 38.25
19 23 30.6
8.6
8.4
0.59
24
22 2
20 x8 44.76
19 34 15.3
6.7
6.5 0.46
ZI
21 9
16 31 35.14
-193630.1
8.5
8.3
0.59
25
22 3
20 23 5a6o
—19 20 25.7
6.7
6.5
a.46
12
21 10
16 36 33.22
19 49 I.O
8:5
8.2
0.58
26
22 4
202855.59
19 6 2.5
6.7
6.5
OW46
13
21 II
16 41 32.46
20 I -2.6
8.4
8.2
0.58
27
22 6
20 33 59.72
1851 6.1
6.6
6.4
0.45
M
21 12
16 46 32.82
20 Z2 34.2
8.4
8.1
0.58
28
22 7
2039 2.96
18 35 37.1
6.6
6.4
0.^5
15
21 13
16 51 34.28
20 23 35.4
8.3
8.1
0.57
29
22 8
2044 5.31
x8 19 36.0
6.6
6.4
0.45
x6
21 14
16 56 36.80
-2034 5.4
8.3
8.0
0.57
Mar. X
22 9
2049 6.74
-18 3 3-3
6.5
6.4! 0.45
17
21 15
17 140.34
2044 3.4
8.2
8.0
0.57
2
22 10
2054 7.25
17 45 59.7
6.5
6.3! 0.44
z8 21 i6
17 644.85
20 53 28.9
8.2
7.9
0.57
3
22 11
2059 6.81
17 28 25.6
6.5
6.3 0.44
19 21 17
17 zz 50.29
21 2 ai.4
8.1
7-9
0.56
4
22 12
21 4 5.42
X7 10 21.6
6.5
6.3: 0.44
20
21 18
17 16 56.64
21 1040.4
8.1
7.8
0.56
5
22 13
21 9 3.06
X65X 48.3
6.4
6.2; 0.44
21
21 20
17 22 3.84
-21 18 25.5
8.0
7.8
0.56
6
22 Z4
2X 13 59.74
-16 32 46.2
6.4
6.2
0.43
22
21 21
17 27 11.85
21 25 36. Z
8.0
7.70.55
7
22 15
21 18 55.45
16 13 x6.o
6.4
6.2
0.43
23
21 22
17 32 20.62
2Z 32 ZZ.7
7.9
7-70.55
8
22 16
21 23 50.19
15 53 18.3
6.4
6.2
0.43
24
2123
17 37 30.11
21 38 II.9
7.9
7.60.55
9
22 17
21 28 43.95
15 32 53.7
6.3
6.2
0.43
25
21 24
17 42 40.26
21 43 36.3
7.8
7.6
0.55
to
22 Z8
2X 33 36.74
15 12 3.0
6.3
6.x
0.42
26
2126
174751.03
—21 4824.5
7.8
7.6
0.54
zz
22 Z9
21 38 28.55
-14 50 46.7
6.3
6.x
0.42
27
21 27
1753 2.37
21 52 36.2
7.7
7.5
0.54
Z2
2220
2Z 43 19.38
1429 5.5
6.3
6.x
0.42
28
2128
17 58 14.25
2Z 56 ZZ.O
7.7
7.5
0.54
13
22 2Z
21 48 9.25
14 7 0.0
6.2
6.1
0.42
29
21 30
18 3 26.60
2159 8.7
7.6
7.4
0.53
14
22 22
21 52 58. z6
134431.0
6.2
6.0
0.41
30
21 31
18 839.38
22 I 29.0
7.6
7.4
0.53
X5
22 22
21 5746.11
132139.1
6.2
6.0
0.41
31
21 32
18 13 52.53
-22 3 1 1.7
7.6
7.3
0.53
16
22 23
22 2 33.12
-12 58 25.0
6.2
6.0| 0.4X
Feb. I
21 33
18 19 6.00
22 4 z6.6
7.5
7.3
0.53
17
2224
22 7 19.20
123449.5
6.2
6.01 0.41
6.0 0.4X
2
2135
18 24 19.75
22 443.4
7.5
7-3
0.52
z8
2225
22 12 4.37
12x053.3
6.x
3
21 36182933.74
22 432.Z
7-5
7.2
0.52
19
22 26
22 Z6 48.63
XI 46 36.9
6.x
5.9 0.40
4
2137
18 34 47.90
22 342.4
7-4
7.2
a 52
20
2226
22 2Z 32.00
XX 22 X.I
6.x
5.9 0.40
1
5
21 38 1840 2.Z8
-22 2 Z4.2
7.4
7.2
0.5Z
2Z
22 27
2226 Z4.50
-XO57 6.7
6.x
5.9 0.40
6
21 40 18 45 16.53
22 0 7.5
7.3
7.x
0.5Z
22
2228
22 30 56. Z6
10 31 54.4
6.0
5.9 0.40
7
21 41 18 50 30.88
2Z 57 22.3
7.3
7.1
0.51
23
2229
22 35 37.00
XO 624.8
6.0
5.9. 0.40
8
21 42
185545.19
21 53 58.6
7.3
7.0
0.51
24
2229
22 40 Z7.O4
9 40 38.6
6.a
5.8; 0.39
9
2144
19 059.40
214956.3
7.2
7.0
0.50
25
22 30
224456.31
9 14 36.6
6.0
5.8 0.39
10
2145
19 613.43
-2Z 45 15.6
7.2
7.0
0.50
26
2231
22 49 34.82
- 8 48 19.6
6.0
5*8
0.39
ZI
21 46
19 iz 27.25
21 39 56.5
7.2
6.9
0.50
27
2232
22 54 Z2.6Z
82x48.x
6.0
5.8
0.39
Z2
2148
19 16 40.80
213359.1
7.1
6.9
0.50
28
2232
22 58 49.72
7 55 2.7
5.9
5.8
0.39
13
2149
19 21 54.03
2Z 27 23.7
7.1
6.9
0.49
29
2233
23 326.19
728 4.x
5.9I
5.7
0.39
M
21 50
1927 6.90
2Z 20 ZO.4
7.0
6.8 a49
30
2234
23 8 2.04
7 053.x
5-9
5.7
0.39
15
21 51
19 32 19. 34
-21 Z2 Z9.5
7.0
6.8 0.49
31
2234
23 12 37.31
- 6 33 30.3
5.9
5-7
a 38
x6
2153
19 37 31.31
-2Z 3 5».2
7.0
6.8
a48|
Apr. X
2235
23 Z7 Z2.02
-6 556.5
5.9I
S-T
a 38
[Bph la]
VENUS, 1912.
547
FOR TRANSIT AT WASHINGTON.
Mean
a
ii
Mean
•
a
ii
Date.
Time
of
Tran-
sit.
h m
Ascension.
Apparent
Declination.
Hor.
Par.
••4
1
Date.
Time
of
Tran-
sit
h m
A^arent
Ascension.
Apparent
DecOnatioa
Hor.
Par.
s
n
MS
h m 8
0 » w
s
h m s
e * w
s
Apr. I
22 35
23 17 I2.02
-6 556.5
5-9
5.7
0.38
May 16
23 4
2 43 34-89
+14 38 33.8
5.3
5.1
0.35
2
22 35
2321 46.21
5 38 12*2
5.8
5-7
0.38
17
23 4
2 48 23.47
15 2 5.8
5.3
5.1
0.35
3
22 36
23 26 19.92
5 10 18. 1
5.8
5.6
0.38
18
23 5
2531309
152515.7
5-3
5.1
0.35
4
2237
233053.18
4 42 15.0
5.8
5-6
0.38
19
23 6
258 3.76
1548 2.8
5-3
5.1
0.35
5
2237
23 35 26.03
414 3.5
5.8
5-6
0.38
20
23 7
3 255.50
16 1026.5
5-2
5.1
0.35
6
2238
233958.51
- 34544.3
5.8
5-6
0.37
21
23 8
3 748.32
+1632 26.1
5.2
5.1
0.35
7
2238
23 44 30.65
3 17 18.2
5.7
5.6
0.37
22
23 9
3 12 42.23
1654 0.8! 5.2
5.1
0.35
8
2239
2349 2.49
2 48 45.7
5-7
5.6
0.37
23
23 10
3 17 37.24
17 15 9.8
5-2
5.1
0.35
9
22 40
23 53 34-07
2 20 7.6
5.7
5.6
0.37
24
23 II
32233.35
17 35 52.4
5-2
5-1
0.35
zo
22 40
2358 5.42
I 51 24.6
5.7
5.5
0.37
25
23 12
3 27 30.58
1756 7.9
5.2
5.1
0.35
II
2241
0 2 36.57
- I 22 37.4
5-7
5.5
0.37
26
2313
3 32 28.94
+18 15 55.7
5.2
5.0
0.35
12
22 41
0 7 7.56
0 53 46.7
5.7
5-5
0.37
27
2314
3 37 28.41
18 35 15. 1
5-2
50
0.35
13
22 42
0 II 38.42
~ 02453.2
5.7
5-5
0.37
28
2315
3 42 29.00
X854 5.5
5-2
5.0
0.35
14
2242
0 16 9.20
+ 0 4 2.5
5.6
5-5
0.37
29
23 16
3 47 30.71
19 12 26.2
5-2
5.0
0.36
15
2243
0 20 39.94
0 32 59*6
5-6
5.5
0.37
30
23^7
3 52 33.55
19 30 16.4
5-2
5.0
0.36
i6
2244
0 25 10.68
+ I I 57.5
5-6
5.4
0.36
31
2318
3 57 37.50
+19 47 35.6
5-2
5-0
0.36
17
2244
02941.44
I 30 55.3
5.6
5-4
0.36
Jane i
23 20
4 242.55
20 423.1
5.2
5.0
0.36
i8
2245
0 34 12.26
15952.3
5.6
5.4
0.36
2
23 21
4 748.70
20 20 38.2
5.2
5.0
0.36
19
2245
03843.18
2 28 47.9
5.6
5-4
0.36
3
2322
4 12 55.94
20 36 20.3
5-1
5.0
0.36
20
22 46
0 43 14.25
2 57 41.4
5.6
5-4
0.36
4
2323
418 4.24
20 51 28.7
5.1
5.0
0.36
21
2246
04745-49
4. 32632.1
5.5
5.4
0.36
5
2324
42313.58
+21 6 2.8
5.1
5.0
0.36
22
2247
0 52 16.95
3 55 19.2
5.5
5-4
0.36
6
23 26
4 28 23.94
2120 2.1
5.1
5.0
0.36
23
2248
0 56 48.66
424 2.1
5.5
5-4
0.36
7
2327
4 33 35.31
21 33 26.0
5.1
5.0
0.36
24
2248
I I 20.67
45240.1
5-5
5-3
0.36
8
2328
4 38 47.65
21 46 14.0
5.1
5.0
0.36
25
2249
I 553.01
521 12.5
5.5
5.3
0.36
9
2329
4 44 0.93
21 58 25.4
5.1
5-0
0.36
26
2249
I 10 25.72
+ 5 49 38.7
5.5
5.3
0.36
10
2331
44915.11
+22 959.7
5.1
5.0
0.36
27
22 50
I 14 58.84
6 17 57.9
5.5
5-3
0.36
II
2332
45430.17
22 20 56.4
5.1
5-0
0.36
28
22 51
I 19 32.42
6 46 9.4
5.5
5-3
0.36
12
2333
4 59 46.06
22 31 15. 1
5.1
5.0
0.36
29
22 51
I 24 6.49
7 14 12.7
5-4
5-3
0.35
13
2335
5 5 2.75
22 40 55.2
5-1
5-0
0.36
3°
22 52
I 2841.10
742 7.0
5.4
5-3
0.35
14
2336
5 1020.19
22 49 56.3
5.1
4-9
0.36
May I
22 52
I 33 16.27
+ 8 951.6
5.4
5-3
0.35
15
2337
51538.33
+22 58 17.9
5.1
4.9
0.36
2
2253
I 37 52.04
8 37 25.8
5.4
5-2
0.35
16
2339
52057.11
23 5 59-7
5.1
4.9
0.36
3
2254
I 42 28.46
9 448.9
5.4
5-2
0.35
17
2340
526 16.50
2313 1.4
5.1
4.9
0.36
4
2254
147 5.56
932 0.2
5.4
5.2
0.35
18
2341
5 31 36.45
23 19 22.5
5-1
4.9
0.36
5
2255
I 51 43.37
9 58 59.0
5.4
5-2
0.35
19
2343
5365691' 2325 2.8
5-1
4.9
0.36
6
22 56
I 5621.92
+10 25 44.6
5.4
5.2
0.35
20
2344
54217.81+2330 2.0
5-1
4.9
0.36
7
2257
2 I 1.24
10 52 16.3
5-4
5.2
0.35
21
2346
54739.10
23 34 19.9
5-1
4.9
0.36
8
2257
2 541.38
II 1833.3
5.4
5.2
0.35
22
2347
5 53 0.74I 233756.1
5-1
4-9
0.36
9
2258
2 1022.36
II 44 34.9
5.3
5.2
0.35
23
2348
5 58 22.67 23 40 50.4
5-1
4.9
0.36
lO
2259
2 15 4.21
12 1020.3
5.3
5.2
0.35
24
2350
6 344.83 2343 2.8
5.1
4-9
0.36
ZI
23 0
2 19 46.95
+12 35 48.9
5.3
5.2
0.35
25
2351
6 9 7.16+234433.2
5.1
4-9
0.36
12
23 0
2 24 30.61
13 I 0.0
5.3
5-2
0.35
26
2353
61429.62 234521.5
5.1
4.9
0.36
13
23 I
2 29 15.21
132552.8
5.3
5-1
0.35
27
2354
61952.14
234527.5
5.1
4.9
0.36
M
23 2
2 34 0.78
13 5026.5
5.3
5.1
0.35
28
2356
6 25 14.67
234451.2
5.1
4.9
0.36
15
23 3
23847.33
14 14 40.4
5.3
5.1
0.35
29
2357
63037.15' 234332.5
1
5.1
4.9
0.36
i6
23 4
2 43 34.89
+14 38 33.8
5.3
5.1
0.35
30
2358
6 35 59.54:+23 4i3i.5
5.1
4-9
0.36
17
23 4
2 48 23.47
4-15 2 5.8
5.3
5.1
0.35
July 2
0 0
641 21.76
+23 38 48.2
5-1
4,9
0.36
(Eph X2j
548
VENUS, 1912.
FOR TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Tran-
sit
b m
July 2
o o
3
O I
4
0 3
5
O 4
6
o 6
7
o 7
8
o 8
9
O lO
10
O IX
II
O 12
12
014
'3
015
M
0 16
15
0 18
i6
0 19
17
020
i8
022
19
0 23
20
024
21
025
22
026
23
028
24
029
25
030
26
031
27
0 32
28
033
29
034
30
035
31
036
Aug. I
037
2
038
3
039
4
040
5
041
6
042
7
043
8
044
9
045
10
046
II
0 46
12
047
13
048
14
049
15
0 50
i6
050
17
051
Apparent
Right
Ascension.
h
6
6
6
6
7
7
7
7
7
7
7
7
7
7
7
8
8
8
8
8
8
8
8
8
8
8
8
9
9
9
9
9
9
9
9
9
9
9
9
10
10
10
10
10
10
10
10
m s
41 21.76
46 43.76
52 5-48
57 26.88
247.90
8 8.49
1328.58
1848.13
24 7-09
29 25.41
34 43-04
39 59-93
45 16.04
5031.32
55 45.73
059.23
6 11.79
" 23.37
16 33.95
21 43.49
26 51.97
31 59-36
37 5.64
42 10.80
47 14-83
52 17-73
57 19-49
2 20.10
7 19-55
12 17.83
17 14.95
22 10.92
27 5-75
31 59-44
36 52.00
41 43-44
46 33.78
51 23.02
56 II. 18
o 58.29
544-36
10 29.40
15 13.43
19 56.49
24 38.60
29 19-77
34 0.02
Apparent
Declination.
0 ' "
Hor.
Par.
•
a
c<
•M
1
«
» S.T.of Sem,
Pass. Mer.
Date.
Mean
Time
of
Tran-
sit
h m
4-23 38 48.2
5-1
4.90.36
Aug 16
050
I
23 35 22.6
5-1
4.90.36
17
051
I
23 31 14-9
5-1
4.90.36
18
0 52
'
232625.3
5-1
4-90.36
19
052,1
23 20 54.0
5.1
4.910.36
20
0531
-1-23 14 41. 1
5-1
4.90.36
21
0541
23 746-8
5-1
4.9'o.36
22
054
J
23 011.2
5-1
4.90.36
23
055
22 51 54-7
5.1
4.9 0. 36
24
056
22 42 57.7
5.1
4-90.36
25
056
-H22 33 20.5
5-1
4.9
0.36
26
057
2223 3.4
5-1
4-9
0.36
27
058
22 12 6.7
5.1
4-9
0.36
28
058
22 0 31.0
5-1
4-9
0.35
29
059
21 48 16.7
5.1
4-9
0.35
30
059
+21 35 24.4
5-1
4-90.35
31
I 0
21 21 54.5
5.1
4-90.35
Sept. I
I I
21 747.4
5.1
4.9
0.35
2
I I
2053 3-7
5.1
4-90.35
3
X 2
20 37 43-8
5-1
4-90.35
4
I 2
+20 21 48.4
5.1
4-90.35
5
1 3
20 5 18.2
5-1
4-90.35
6
1 3
Y
194813.7
5.1
4-9J0.35
7
1 4
193035-5
5-1
5-00.35
8
1 4
19 12 24.2
5.1
5-00.35
9
1 5
+18 53 40.4
5.1
5-00.35
10
I 6
18 34 24.8
5-1
5-00.35
II
I 6
18 14 37.9
5-1
5-0,0.35
12
I 7
17 54 20.5
5-1
5.00.35
13
1 7
17 33 33-3
5.1
5-00.35
14
I 8
+17 12 16.9
5.1
5-00.35
15
I 8
16 50 32.0
5.1
5-00.35
16
1 9
1628 19.3
5.1
5-o|o.35
17
I 91
16 5 39-4
5.2
5-00.35
18
I 10' I
1
154233.0
5.2
5-00.35
19
I II
I
+15 19 0.9
5.2
5.00.35
20
nil
1455 3-8
5.2
5.o|o.35
21
I 121
143042.4
5.2
5.00.35
22
I 12
I
14 5 57-3
5-2
5-00.35
23
I 13 I
134049-3
5.2
5-00.35
24
I 14 I
+13 15 19.2
5.2
5-0J0.35
25
114
I
12 49 27.7
5.2
5-00.35
26
115
I
12 23 15.6
5.2
5.10.35
27
I 16
I
1 1 56 43.6
5.2
5-1
0.35
28
I 16
I
II 2952.4
5-2
5-1
0.35
29
I 17 I
+11 242.8
5.2
5.1
0.35
30
I 181
+10 35 15*6
5.2
5.1
0.35
Oct. X
118
I
Apparent
Right
Ascension.
h m s
:o 29 19.77
[o 34 0.02
[o 38 39.40
to 43 17-93
^o 47 55-65
Apparent Hor.
Declination. Par.
+11
10
XO
9
9
+ 8
8
7
7
6
05232.59
057 8.77
1 44-23
6 19.01
1053.16
15 26.71*+ 6
19 59-69 5
2432.16 5
29 4.15 4
33 35-69 4
38 6.83+ 3
42 37-62 3
47 8.09 2
51 38.29 2
56 8.27 I
2 o 38.07 + I
2 5 7.74 o
2 9 37-31 + o
2 14 6.81— o
2 18 36.30 o
2 23 5.81 - I
2 27 35.40 I
2 32 5.10 2
2 36 34.95 2
241 4-99 3
2 45 35.26 - 3
2 50 5.81 4
2 54 36.67 4
259 7.88 5
3 339.49 5
:3 8 II. 531- 6
31244.05
3 17 17.09
3 21 50.70
:3 26 24.92
33059.77
3 35 35.30
34011.55
34448.56
34926.37
3 54 5.01
3 58 44-52
6
7
7
8
• 8
9
9
10
10
2 42.8
35 15.6
7 31-6
3931.4
11 15.7
42 45.3
14 0.9
45 3.4
X5 53-4
46 31.5
16 58.6
47 15.3
17 22.5
47 20.7
17 10.7
4653.1
16 28.7
45 58.2
X5 22.4
44 41.9
1357.4
43 9.6
12 19.4
18 32.7
49 25.9
2019.5
51 12.6
22 4.5
5254.5
23 42.0
54 26.0
25 5.8
55 40.8
26 10.2
56 33.2
2649.0
56 57-0
26 56.4
56 46-4
26 26.4
55 55-5
25 13.1
54 18.4
23 10.7
5x49.1
—II 20 X3.0
-1X482X.7
5-2
5-2
5-3
5.3
5-3
5.3
5-3
5.3
5.3
5.3
5-3
5.3
5.3
5.3
5.3
5.4
5-4
5.4
5.4
5.4
5.4
5.4
5-4
5.4
5-5
5.5
5-5
5-5
5-5
5-5
5-5
5.6
5.6
5.6
5.6
5.6
5.6
5.6
5-7
5.7
5.7
5.7
5-7
5-7
5.7
5.8
a
eg
a
u
CO*
5-1 0.35
5.iio.35
5-i| 0.35
5.iio.35
5.1 0.35
5.1
5.1
5.x
5-1
5-2
5-2
5-2
5-2
5-2
5-2
5-2
5-2
5.2
5-2
5-2
5-3
0.35
0.35
0.35
0.35
0.35
0.35
0.35
0.35
0.35
0.35
0.35
0.35
0.35
0.35
0.35
0.35
5-3j 0.35
5-31 0.35
5-3; 0.35
5.3
5-3
0.35
0.35
5-3 0.35
5-3| 0.36
5-4j 0.36
5.4 0.36
5-4' 0.36
5.4
5-4
5-4
5-4
5-5
5.5
5.5
5.5
5.5
5-5
5-5
5.5
5-6
0.36
a36
a 36
a36
0-37
0-37
0.37
0-37
0-37
0.37
0.37
0.38
0.38
5-6 0.38
5-6j 0.38
5.81 5.610.38
[Eph 13]
VENUS, 1912.
549
FOR TRANSIT AT WASHINGTON.
Mean
a
Sis
Mean
•
a
Bi
Date.
Time
of
Tran-
sit.
Apparent
Ascension.
Apparent
Declination.
'nor.
Par.
• mm
•0
a
«
If
4) V
Date.
Time
of
Tran-
sit.
h m
Apparent
Right
Ascension.
Apparent
Declination.
Hor.
Par.
ca
s
M
«5
b m
h m 8
0 f w
8
b m s
0 t »
8
Oct. 1
118
135844-52
—II 4821.7
5.8
5.6
0.38
N0V.Z6
2 10
17 52 24.83
-25 823.3
6.8
6.6
0.49
2
119
14 324.95
12 16 14.3
5.8
5.6
0.38
17
2 Z2
17 57 48.83
25 10 54^9
6.9
6.7
0.49
3
I 20
14 8 6.32
12 43 49.9
5.8
5-7
0.39
Z8
213
18 312.88
251241-5
6.9
6.7
0.49
4
I 20
14 12 48.66
13 II 8.0
5-8
5-7
0.39
19
2 15
18 836.90
251343-1
6.9
6-7
0.49
5
I 21
14 17 32.00
1338 7.8
5.8
5-7
0.39
20
2 z6
18 14 0.83
25 13 59.6
7.0
6.7
0.50
6
X 22
14 22 16.38
-14 448.4
5-9
5-7
0.39
21
218
18 19 24.59
-25 13 31-1
7.0
6.8
0.50
7
123
14 27 1.82
14 31 9.0
5.9
5-7
0-39
22
2 19
18 24 48.12
25 Z2 17.6
7-0
6.8
0.50
8
124
14 31 48.34
1457 8.9
5.9
5-7
0.40
23
2 21
18 30 11.34
25 10 19.2
7.1
6.8
0.50
9
124
14 36 35.98
I52247.2I 5.9
5-7
0.40
24
2 22
18 35 34-18
25 7 35-9
7.1
6.9
a5z
xo
125
14 41 24.74
1548 3-2
5-9
5-8
0.40
25
224
18 40 56.57
25 4 7-8
7-1
6.9
0.5Z
II
I 26
14 46 14.64
— 16 Z2 56.1
6.0
5.8
0.40
26
2 25
18 46 18.45
-24 59 55-2
7.2
6.9
0.5X
12
127
14 51 5-71
16 37 25.0
6.0
5.8
0.40
27
2 26
18 51 39.74
24 54 58.2
7.2
7.0
0.51
13
128
14 55 57-95
Z7 z 29.1
6.0
5-8
0.41
28
2 28
1857 0.39
24 49 17-0
7-2
7.0
0.5X
M
I 29
15 051.38
1725 7-7
6.0
5.8
0.41
29
2 29
19 220.35
24 42 51-9
7-3
7.0
0.52
15
130
15 546.00
17 48 19.9
6.0
5-9
0.41
30
230
19 7 39-55
24 35 43.2
7.3
7-1
0.52
z6
131
15 104Z.83
-18 II 4.9
6.0
5.9
0.41
Dec. x
2 32
19 z 2 57.92
-242751.3
7-3
7-1
0.52
17
132
15 15 38.87
1833 22.1
6.1
5-9
0.4X
2
333
19 z8 15.39
24 19 Z6.4
7-4
7.2
0.52
i8
133
152037.Z3
18 55 Z0.6
6.Z
5-9
0.42
3
234
19 23 31.92
24 959.0
7-4
7-2
0.53
X9
134
15 25 36.60
19 16 29.5
6.Z
5.9
0.42
4
236
19 28 47.44
23 59 59-5
7.4
7.2
0.53
20
135
15 30 37*28
19 37 18.2
6.Z
6.0
0.42
5
237
1934 Z.90
23 49 18.3
7.5
7-3
0.53
21
I ^6
15 35 39.17
-19 57 35-9
6.2
6.0
0.42
6
238
19 39 15-24
-23 37 55-8
7.5
7-3
0.53
22
I 37
154042.27
20 17 21.9
6.2
6.0
0.43
7
240
19 44 27.42
23 25 52.6
7-6
7.4
0.53
23
138
154546.58
20 36 35.5
6.2
6.0
0.43
8
241
194938.39
2313 9-2
7.6
7.4
0.54
24
140
15 5052.08
20 55 15-9
6.2
6.0
0.43
9
242
19 54 48.09
225946.1
7.7
7-4
0.54
25
141
15 55 58.76
21 Z3 22.5
6.2
6.1
0.43
zo
243
19 59 56.48
22 45 44.0
7.7
7-5
0.54
26
142
16 I 6.60
-21 30 54.5
6.3
6.1
0.44
zz
244
20 5 3.50
-2231 3.5
7-7
7-5
0.54
27
M3
16 615.59
2X 47 51-3
6.3
6.Z
0.44
X2
246
2010 9.Z2
22 Z5 45.1
7-8
7-6
0.55
28
144
16 z I 25.71
22 4 12.2
6.3
6.1
0.44
13
247
20 15 Z3.30
21 59 49.5
7.8
7-6
0.55
29
X46
16 x6 36.94
22 19 56.4
6.3
6.2
0.44
14
248
20 20 16.00
21 43 17.4
7-9
7-6
0.55
30
147
16 21 49.24
2235 3-4
6.4
6.2
0.45
15
249
2o 25 Z7.20
2Z 26 9.6
7-9
7-7
0.55
31
148
16 27 2.59
-22 49 32.6
6.4
6.2
0.45
z6
2 50
20 30 16.87
-2Z 826.7
8.0
7-7
0.55
Nov. X
150
16 32 16.98
23 323.4
6.4
6.2
0.45
17
251
20 35 14.97
2050 9.3
8.0
7.8
0.56
2
151
16 37 32.38
23 16 35.2
6.4
6.2
0.45
z8
2 52
204011.47
20 3Z Z8.3
8.Z
7.8
0.56
3
152
x6 42 48.72
2329 7«3
6.5
6-3
0.45
19
253
2045 6.35
20x1 54.5
8.Z
7.9
0.56
4
153
1648 5.97
23 40 59-2
6.5
6.3
0.46
20
254
20 49 59.60
19 51 58.5
8.1
7.9
0.56
5
155
16 53 24.08
-23 52 10.5
6.5
6-3
0.46
2Z
255
20 54 51.21
-Z9 3z 3Z.I
8.2
8.0
0.56
6
156
16 58 43.01
24 240.6
6.5
6.3
0.46
22
2 56
205941.16
19 10 33-0
8.2
8.0
0.57
7
158
17 4 2.72
241229.1
6.6
6.4
0.46
23
256
21 429.43
1849 5.2
8.3
8.1
0-57
8
159
17 923.Z4
24 21 35.4
6.6
6.4
0.47
24
257
2Z 9 16.04
1827 8.3
8.4
8.1
0.57
9
2 0
Z7 Z4 44.22
24 29 59.0
6.6
6.4
0.47
25
258
2Z 14 0.97
18 443.1
8.4
8.2
0.57
zo
2 2
1720 5.90
-24 37 39.7
6.7
6.5
0.47
26
259
21 1844.22
-Z7 41 50.5
8.5
8.2
0.57
XI
2 3
17 25 28. zz
244437.1
6.7
6.5
0.48
27
3 0
21 23 25.79
Z7 x8 3Z.I
8.5
8.3
0.58
12
2 5
17 30 50.79
24 50 50-7
6.7
6.5
0.48
28
3 0
2Z 28 5.69
16 54 45-7
8.6
8.3
0.58
13
2 6
173613-86
24 56 2a4
6.7
6.6
0.48
29
3 1
2Z 32 43-92
163035-1
8.6
8.4
0.58
M
2 8
17 41 37-27
25 X 6.0
6.8
6.6
0.48
30
3 2
21 37 2a 50
z6 6 0.x
8.7
8.4
0-59
15
2 9
1747 0.95
-25 5 7.0
6.8
6.6
0.48
0.49
31
3 2
2X 4Z 55.42
-X5 4X 1.4
-15 15 39.9
8.8
8.5
0.59
x6
3 ZO
17 52 24.83
-25 823.3
6.8
6.6
32
3 3
2Z 46 28.70
8.8
8.6
0.59
[Bph IS]
550
MARS, 1912.
FOR TRANSIT AT WASHINGTON.
Meanl 1
^
a
Mean
i s e^
Date.
Time
of
Tran-
Apparent
Ascensum.
Apparent
Declination.
Hot.
Par.
S
1^
03 ft.
Date.
Time
of
Tran-
Apparent
Ascension.
Apparent
Declination.
Hot. :S .^^
Par. g '05
sit
w
M
sit,
b m
h m
h m s
0 t m
S
h m 8
0 t m
m m
B
Jan. I
844
3 25 42.65
+^I I 15.9
12.7
7.2
0.52
Feb. x6
634
4 16 xa30+23 31 22.5J
7.9; 4-5 0-33
2
841
3 25 54-50
21 2 28.5
12.5
7.1 0.51
X7
632
4 X7 57-43
23 35 21.0J
7.8j 4.5 0.33
3
837
326 9.44
21 349.7
12.3
7.1 0.51
18
630
4 19 45.81
2339X7.7J 7.8; 4.5 0-33
4
833
3 26 27.42
21 5X9.3
12.2
7.0,0.50
X9
627
4 21 35-41
23 43 X2.4
7.7
4.4 0.32
5
830
3 26 48.38
21 657.x
I2«I
6.90.50
20
625
4 23 26.20
2347 4.9
7.6
4.4
a.32
6
826
3 27 12.26
+21 8 42.9
21 10 36.5
1 1.9
6.9
0.50
21
623
425 18. 14
+23 50 54.9
7.6
4.3
i
0.32
7
823 32739-01
1 1.8
6.8
0.49
22
621
427 II.2I
23 54 42.3
7.5
4.3: 0.3X
8
8 19 3 28 8*59
21 12 37.8
11.6
6.7
0.49
23
619
429 5-38
23 58 26.8
7.4
4.3; 0.3X
9
8 16 3 28 40.96
21 1446.6
11.5
6.6
0.48
24
617
4 3X 0.62
24 2 8.3
7-4
4.2 0.3Z
xo
8 12
3 29 16.07
21 17 2«8
IX.4
6.6
0.47
as
615
4 32 56.92
24 546.6
7.3
4.2
O.3X
II
8 9
3 29 53.86
+21 19 26.1
11.3
6-5
0.47
26
613
4 34 54-25
+24 921.4
7-3
4.2 0.30
12
8 6
3 30 34-28
21 21 56.4
11.2
6.4
0-47
27
6x1
43652-58
24 X 2 52.6
7.2
4.1 0.30
X3
8 3
3 31 17-31
21 24 33.4
II. 0
6.40.461
28
6 9
4 38 5X.89
24 16 20.1
7.x
4.x
0.30
14
8 0
332 2.9X
21 27 17.0
ia9
6.3
0.46
29
6 7
44052.14
24 X9 43.6
7-x
4.x
0.30
15
756
3 32 51.02
21 30 6.8
10.8
6.2
0.45
Mar. X
6 5
4 42 53.3X
2423 2.9
7.0
4.0
a.30
z6
7 53
3 33 41-59
+2133 2.7
ia7
6.1
0.45
2
6 3
4 44 55.38
+24 26 X7.9
7.0
4.0 0.29
17
750
3 34 34-59
21 36 4.6
10.6
6.1
0.44
3
6 2
4 46 58.32
24 29 28.4
6.9
4.010.29
z8
7 47
3 35 29-96
21 39 12.2
10.5
6.0
0-44
4
6 0
449 2.XX
24 32 34-3
6.8{ 3.9! 0.29
19
744
3 36 27.66
21 42 25.2
10.4
6.0
0.43
5
558
4 5X 6.75
24 35 35.5
6.8* 3.9 0.29
20
741
3 37 27.65
21 45 43-4
10.3
5-9
0.43
6
556
4 53 12.22
24 38 3X.7
6.7
3.9
0.28
21
738
3 38 29.87
+2X49 6.5
X0.2
5.8
0.42
7
554
4 55 X8.50
+24 41 22.9
6.7
3.8
0.28
22
736
3 39 34-28
2X 52 34.2
IO.I
5.8
0.42
8
552
4 57 25.58
2444 8.9
6.6
3.8
0.28
23
7 33
3 40 40.83
21 56 6.3
9-9
5.7
0.41
9
550
4 59 33.45
24 46 49.7
6.6
3.8
OL28
24
730
3 41 49.48
21 59 42.6
9-8
5.7
O.4X
xo
549
5 X 42.09
24 49 25.0
6.5
3.8
0.28
25
727
3 43 0.18
22 3 22.7
9.7
5.6
0.40
XX
5 47
5 35X.49
24 5X 54.8
6.5
3.7
0.27
26
724
3 44 12.89
+22 7 6.4
9.6
5-5
a4o
X2
5 45
5 6 1.62
+24 54 18.8
6.4
3.7
0.27
27
722
3 45 27.56
22 10 53*3
9-5
5-5
0.40
X3
543
5 8x2.46
24 56 37-0
6.4
3.7
0.27
28
719
3 46 44-15
22X443.1
9-4
5.4
0.39
X4
542
5 xo 24.00
24 58 49.2
6.4
3.6
0.27
29
7 16
348 2.62
22 X8 35.6
9-3
5-4
0.39
X5
540
5 12 36.23
25 055.4
6.3
3.6
0.27
30
714
3 49 22.90
22 22 30.6
9-3
5.3
0.39
z6
538
5 X4 49-X4
25 255.4
6.3
3.6
OU27
31
7x1
3 50 44-95
+22 26 27.9
9-2
5-3
0.38
X7
536
5x7 2.72
+25 449.x
6.2
3.6
0.27
Feb. I
7 9
352 8.74
22 3027.x
9.x
5-2
0.38
x8
5 35
5 X9 X6.95
25 636.4
6.2
3.5
0.26
2
7 6
3 53 34-22
22 34 27.9
9-0
5-2
0.38
19
5 33
521 3x.8x
25 8 17.2
6.1
3.5
Ob 26
3
7 4
3 55 1-33
22 38 30.x
8.9
5-x
0.37
20
531
5 23 47,28
25 95X.4
6.1
3.5
0.26
4
7 I
3 56 30-05
22 42 33.4
8.8
5.x
0.37
21
530
526 3.35
25 IX x8.8
6.x
3-5
0.96
5
659
358 0.36
+22 46 37.6
8.7
5.0
0.36
22
528
5 28 19.99
+25 12 39.2
6.0
3*4
0.26
6
656
3 59 32.23
22 50 42.5
8.6
5-0
0.36
23
526
53037.19
25 13 52-6
6.0
3.4
Ob25
7
654
4 I 5.63
22 54 47.8
8.6
4.9
0.36
24
525
5 32 54-93
25 14 58.8
5.9
3.4
0.25
8
652
4 240.53
22 58 53.4
8-5
4.9
0.36
25
523
5 35 X3.20
25 X5 57.9
5.9
3.4
0.25
9
649
4 4 16.89
23 2 59.0
8.4
4*8
0.35
26
522
5 37 3X.97
25 16 49.7
5.8
3.4
0.25
zo
647
4 554-69
+23 7 4.5
8.4
4.8
0.35
27
520
5 39 51.23
+25 17 34-2
5.8
3.4
0.25
IX
645
4 733-90
23 IX 9.6
8.3
4.7
0.35
28
5x8
542 ia96
25 x8 X1.3
5.7
3.3
0.25
12
643
4 9x4.50
2315x4.2
8.2
4-7
0-34
29
5x7
5443X.15
25 x8 40^8
5.7
3.3
0.24
13
641D
4 xo 56.46
23 19 x8.o
8.1
4-7
0-34
30
5x5
5 46 5X.78
2519 2.7
5.7
3-3
0.24
14
63a
4 X2 39.76
23 25 20.8
8.0
4.6
0.34
3X
5x4
5 49 X2.83
25 19 16.9
5.7
3-3
0.24
15
636
► 4X424.38
+23 27 22.4
S.0
4.6
0-33
Apr. I
512
5 5X 34.28
+25x923.3
5.7
3-3
0.24
16
6 34I 4 x6 ZO.30
+23 31 22.5
7-9! 4-5
0.33
2
5x0
5 53 56.12
+35 X9 2X.8
5.6
3-*
0.24
[Ep
>liii]
JUPITER, 1912.
551
FOR TRANSIT AT WASHINGTON.
Mean
•
1
§^
Mean
•
i
ft
B8
Date.
Time
of
Tran-
sit
h m
Ascenaion.
Apparent
Declination.
Hor.
Par.
^1
Date.
Time
of
Tran-
sit
h m
Ascension.
Apoarent
Decfinatioo.
Hor.
Par.
m
«5
03 0,
h m t
0 ' »
m
n
%
h m s
Of*
a
Mar. X
18 12
16 51 3.76
-21 43 18.8
1.6
17.7
X.35
Apr. 16
15x5
16 55 17.89
-21 47 58.6
1.9
20.3
x.55
2
18 8
16 51 26.26
21 43 52.8
1.6
17.7
1.36
X7
15x1
X655 5-03
21 47 37-3
1.9
20.4
1.56
3
18 4
16 51 48.08
21 44 25.5
17.8
1.36
18
X5 7
16 54 5X.43
21 47 14.9
X.9
20.4
1.56
4
18 I
1652 9.22
21 44 56.8
17.8
1.36
X9
15 3
x6 54 37-09
21 46 51.4
1.9
20.5
X.57
5
1757
16 52 29.66
21 45 26.7
17.9
x-37
20
1458
16 54 22.0X
21 46 26.9
1.9
20.5
X.57
6
1754
165249.39
-2x4555.3
17.9
1-37
21
X454
x6 54 6.20
—21 46 1.2
x.9
20.6, 1.57
7
1750
c6 53 8.41
21 46 22.7
18.0
1.38
22
1450
16 53 49.69
21 45 34.4
x.9
20.6
1.58
8
1746
16 53 26.72
21 46 48.7
18.0
1.38
23
1446
x6 53 32.48
2145 6.5
1.9
20.7
1.58
9
1743165344-30
21 47 13-4
18. 1
1.38
24
14 41
x6 53 X4.57
21 44 37.6
1.9
20.7
1.59
xo
17 39 16 54 I-I5
21 47 36.9
18. 1
x-39
25
X4 37
16 52 55.98
2x44 7-6
x.9
20.8
1.59
II
1735
16 54 17.27
-21 47 59.2
18.2
1.39
26
1433
16 52 36.73
-21 43 36.6
x.9
20.8
1.59
12
1732
x6 54 32.64
21 48 20.2
18.3
1.40
27
1429
16 52 16.82
2x43 4-5
i.9!2o.9
1.60
13
1728
16 54 47.26
21 48 39.8
18.3
1.40
28
1424
16 51 56.26
21 42 31.4
1.920.9
1.60
14
1724
1655 1.13
21 48 58.2
18.4
1.41
29
1420
16 51 35.07
21 41 57.2
x.9
21.0
1.60
15
1721
16 55 14.24
2X 49 X5.3
18.4
1.41
30
X4X6
16 51 13.26
21 41 22.0
2.0
2X.O
1.61
x6
17 17
16 55 26.59
-21 49 31.2
18.5
1.42
May I
14x2
16 50 50.85
-21 40 45.7
2.0
21.1
1.61
X7
17x3
165538.16
21 49 45.0
x8.6
X.42
2
X4 7
x6 50 27.84
21 40 8.4
2.0 21. 1
1.61
x8
17 10
x6 55 48.95
21 49 59-3
x8.6
X.43
3
X4 3
1650 4.24
2X 39 30.0
2.0
2X.2
1.62
19
17 6
16 55 58.96
21 50 IX.5
X8.7
X.43
4
1359
16 49 40.08
21 38 50.6
2.0
2X.2
1.62
20
17 2
16 56 8.20
21 50 22.4
18.7
1-44
5
X3 54
x6 49x5.37
21 38 10.3
2.0
21.2
1.62
21
1658
16 56 16.65
—21 5032.1
1.8
18.8
X.44
6
X350
164850.12
-2X 3729.1
2.0
21.3
1.62
22
1654
165624.31
21 50 40.6
X.8
18.9
1-44
7
X346
164824.34
21 3646.8
2.0
21.3
1.63
23
1650
16 56 31.19
2x5047.9
1.8
18.9
1-45
8
X341
16 47 58.06
21 36 3.6
2.0
2X.3
X.63
24
1647
16 56 37.27
215054.1
Z.8
19.0
1-45
9
1337
i6 47 31.29
21 35 X9-4
2.0
21.4
X.63
25
X643
16 56 42.56
21 5059.1
x.8
19.1
1.46
XO
1332
X647 4.04
2X 34 34-3
2.0
2X.4
1.63
26
1639
16 56 47.05
-21 51 2.9
1.8
19.1
X.46
XX
1328
164636.33
-213348.3
2.0
21.4
1.64
27
X635
16 56 5a75
21 51 5.6
1.8
19.2
1-47
12
X324
1646 8.19
2x33 1.3
2.0
2X.5
1.64
28
X631
16 56 53.66
21 51 7.2
1.8
19.2
1-47
X3
X3X9
x6 45 39-63
2X 32 X3.5
2.0
2X.5
1.64
29
1627
16 56 55.78
21 51 7.6
1.8
19-3
1.48
X4
13x5
16 45 X0.67
21 31 24.9
2.0
2X.5
1.64
30
1623
16 56 57.10
21 51 6.8
1.8
X9.3
1.48
15
13 10
164441.32
21 30 35.5
2.0
21.6
1.65
31
1620
16 56 57.62
-2151 4.9
1.8
19.4
1.49
x6
13 6
1644 XI.62
-2X 29 45.4
2.0
2X.6
1.65
Apr. X
16 z6
16 56 57-34
21 51 1.8
x.8
19.5
1.49
X7
13 2
164341.58
2X 28 54.4
2.0
21.6
1.65
2
16 12
16 56 56.26
21 50 57.6
x.8 19.5
1.49
18
X2 57
1643x1.23
21 28 2.6
2.0
21.6
1.65
3
z6 8
165654.38
21 50 52.2
x.8 19.6
1.50
X9
X2 53
16 42 40.59
2X 27 XO.X
2.0
21.7
1.65
4
16 4
16 56 51.70
215045.7
1.8 19.6
1.50
20
12 48
1642 9.69
21 26 17.0
2.0
21.7
1.65
5
t6 0
16 56 48.23
—21 50 38.0
1.8 19.7
1.51
21
1244
x6 4x38.54
-21 25 23.3
2.0
21.7
1.66
6
X556
16 56 43.96
21 50 29.2
1.8
X9.8
1.51
22
X2 39
16 41 7.16
21 2429.1
2.0
21.7
1.66
7
X552
16 56 38.89
2X 50 19.3
1.8
X9.8
1.52
23
X2 35
x6 40 35-57
2X 23 34.3
2.0
21.7
1.66
8
1548
16 56 33.03
21 50 8.2
1.8
X9.9
1.52
24
X231
16 40 3.80
21 22 38.9
2.0
21.8
1.66
9
X5 44
165626.38
21 49 56.0
1.9
19.9
1.52
25
12 26
16 39 31.88
21 21 43.0
2.0
2^,8
1.66
zo
1540
z6 56 18.94
-214942.6
1.9
20.0
X.53
26
12 21
16 38 59.82
-21 20 46.7
2.0
21.8
1.66
21
1536
x6 56 10.71
21 4928.1
x.Q
20.0
x-53
27
X2 17
16 38 27.64
21 19 50.0
2.0
21.8
1.66
12
X531
16 56 1.70
2X 49 12.5
X.9
20.1
1.54
28
12 X2
x6 37 55.37
2X 18 52.9
2.0
21.8
1.66
13
1527
165551.90
2X 48 55-7
1.9
20.2
1-54
29
12 8
16 37 23.03
2X X7 55.4
2.0
21.8
1.66
14
1523
165541.33
21 48 37.8
1.9
20.2
X.55
30
X2 4
16 36 50.63
2X 16 57.6
2.0
21.8
1.66
X5
15 19
16 55 29.99
-21 48 18.7
1.9
20.31.55
3X
1159
16 36 18. 2 1
-21 15 59.5
2.0
21.8
X.66
z6
15x5
16 55 17.89
—21 47 58.6
1.9
20.3I1.55
June X
XX 54
x6 35 45-77
— 2X X5 1.2
2.0
21.8
1.66
fEpl
(l 12]
552
JUPITER, 1912.
FOR TRANSIT AT WASHINGTON.
Mean
•
B
•
Bis
«% SI
Mean
•
a
!•'
Date.
Time
of
Tran-
sit.
Apparent
Right
Aecenaion.
Apparent
Declination.
Hor.
Par.
n
o«i
Date.
Time
of
Tran-
sit.
Ai»>arent
Ascension.
Apparent
Declinatioii.
Hor.
Par.
a
«
m
IS-
h m
h m 8
0 # w
w
8
h m
h m 8
0 « f*
s
June I
II 54
16 35 45-77
—21 15 1.2
2.0
21.8
1.66
July 17
834
16 16 34.34
—2040 6.0
1.9
20.5
1.56
2
II 50
16 35 13-35
21 14 2.6
2.0
21.8
1.66
18
830
16 16 22.71
20 39 50.2
1.9
20.5
1-55
3
II 46
16 34 4a97
21 13 3-9
2.0
21.8
1.66
19
826
16 16 XI.83
203936.3
X.9
«X4
1-55
4
II 41
1634 8.65
21 12 5.x
2.0
21.8
1.66
20
822
16 x6 1.69
20 39 24.2
1-9
20.4
1-54
5
II 37
16 33 36-40
21 II 6.3
2.0
21.8
1.66
21
818
161552.30
20 39 13-9
1.9
20.3' 1.54
6
II 32
1633 4.25
-21 10 7.4
2.0
21.8
1.66
22
814
16 15 43.66
-2039 5-5
1.9
20.3
1.54
7
II 28
16 32 32.23
21 9 8.6
2.0
21.8
1.66
23
810
16 15 35.78
20 38 59.0
1.9
20.2
1-53
8
II 23
1632 0.35
21 8 9.9
2.0
21.8
1.66
24
8 6
16 15 28.67
20 38 54.4
x.9
20.2
x-53
9
II 19
16 31 28.63
21 7II-3
2.0
21.8
1.66
25
8 2
16 15 22.31
203851.6
1.9
20.IJ 1.52
xo
II 14
16 3057.10
21 6 13.0
2.0
2X.8
1.66
26
758
16 15 16.72
20 38 50.7
1.9
20.1. 1.52
1
II
II 10
16 30 25.79
-2X 5X4.9
2.0
21.8
1.66
27
7 54
16 15 11.90
-20 38 51.8
1.9
20.0
1.52
12
II 6
16 29 54.71
21 4 17.I
2.0
21.8
1.65
28
750
16 15 7.84
20 38 54.8
1.9
19.9
i-5>
13
II I
16 29 23.89
21 3 19.6
2.0
21.7
1.65
29
746
16 15 4.54
20 38 59.6
x.9
X9.9
1.51
14
1057
162853.34
21 2 22.6
2.0
21.7
1,65
30
742
16 15 2.01
2039 6.3
1.8
19.8
1.50
15
1052
16 28 23.08
21 I 26.0
2.0
21.7
1.65
31
738
16 15 a25
20 39 15.0
X.8
19.81 1.50
x6
1048
16 27 53.15
-21 0 29.9
2.0
21.7
1.65
Aug. I
7 34
16 14 59.26
-20 39 25.6
1.8
1^7
1.50
X7
1043
16 27 23.56
20 59 34-5
2.0
21.7
1.65
2
730
16 14 59.03
20 39 38.0
x.8
19.7
1-49
x8
1039
162654.34
20 58 39.6
2.0
21.6
1.64
3
726
16 14 59.57
20 39 52-3
1.8
X9.6 1.49
19
1034
16 26 25.51
20 57 45-4
2.0
21.6
1.64
4
722
16 15 0.88
20 40 8.6
1.8
19.6 X.48
20
10 30
16 25 57.07
20 56 52.0
2.0
2X.6
1.64
5
7 x8
16 15 2.96
20 40 26.8
1.8
1^5
1.48
21
1026
16 25 29.04
-20 55 59.4
2.0
21.6
1.64
6
714
X615 5.82
-40 40 46.9
x.8
19*4
1-47
22
10 21
1625 1.44
2055 7.5
2.0
21.5
1.64
7
711
16 15 9.45
20 41 8.9
x.8
19-4
1-47
23
10 17
x6 24 34.30
20 54 16.4
2.0
21.5
1.63
8
7 7
16 15 13.84
20 41 32.8
x.8
X9-3
1.46
24
10 12
16 24 7.64
20 53 26.3
2.0
21.5
1.63
9
7 3
16 15 18.99
20 41 58.6
x.8
19-3
1.46
25
ID 8
162341.46
20 52 37.2
2.0
21.4
1.63
10
659
x6 15 24.90
20 42 26.2
x.8
19.2
1.46
26
10 4
16 23 15.78
-2051 49.2
2.0
21.4
1.63
XX
655
16 15 31.59
-20 42 55.7
1.8
19.1
1-45
27
9 59
16 22 50.62
2051 2.1
2.0
21.4
1.62
12
651
16 X5 39.04
204327.1
x.8
19. 1
1-45
28
9 55
16 22 25.98
2050 x6.i
2.0
21.3
1.62
13
'648
161547.24
2044 a3
1.8
19.0
1-44
29
951
16 22 X.87
204931-3
2.0
2X.3
1.62
14
644
16 X5 56.21
204435-3
x.8
19^0
1-44
30
946
16 21 38.31
20 48 47.8
2.0
21-3
1.62
15
640
16 16 5.94
2045 x2.x
x.8
18.9
1-43
July I
942
16 21 15.32
-2048 5.4
2.0
21.2
1.61
x6
636
x6 16 16.42
-20 45 5a7
x.8
x8«9
1.43
2
938
16 20 52.92
20 47 24.2
2.0
21.2
1.61
17
632
16 16 27.65
2046 31. X
1-7
x8.8
1.43
3
9 34
1620 31.12
20 46 44-4
2.0
21.2
1.61
x8
629
x6 x6 39.63
2047 13.2
1-7
X8.8
1-42
4
929
1620 9.92
20 46 6.0
2.0
2X.I
1.60
19
625
16 16 52.34
20 47 57-0
1.7
X8.7
X.42
5
925
161949.33
20 45 28.9
2.0
2X.I
1.60
20
621
16 17 5.78
204842.5
1.7
x8.6
1.4I
6
921
16 19 29-37
-20 44 53.2
2.0
2X.O
1.60
21
618
16 17 19.95
—20 49 29.6
x-7
x8.6
1.4I
7
9 16
16 19 xao5
20 44 19.0
2.0
21.0
1.59
22
614
16 17 34.84
20 50 18.4
x-7
18.5
1.41
8
9 12
16 18 51.38
204346.4
1.9
2I.O
1.59
23
6 10
16 17 50.46
20 51 8.7
1-7
18.5
X.40
9
9 8
16 18 33.38
20 43 X5.2
1.9
20.9
1.59
24
6 7
16 18 6.79
2052 0.7
x-7
X8.4
1.40
lO
f
9 4
16 18 16.05
20 42 45.6
1.9
20.9
1.58
25
6 3
16 18 23.83
20 52 54*2
1.7
18.4
x.40
"
9 0
16 17 59.40
-20 42 17.7
1.9
20.8
1.58
26
5 59
16 x8 41.59
-205349.3
1-7
18.3
1-39
12
855
16 17 43.44
2041 51.5
1.9
2a8
1.58
27
.556
16 19 0.04
20 54 45-8
x-7
X8.3
1-39
X3
85X
x6 17 28.18
20 41 27.0
I.9J2O.7
1-57
28
552
16 19 19.18
20 55 43.7
1-7
18.2
1.38
M
847
16 17 13.63
20 41 4.1
1-9
20.7
1-57
29
5 49
16 19 39.00
205643.1
1-7
X8.2
1.38
X5
843
16 x6 59.80
20 40 42.9
1.9 20.6
1.56
30
5 45
16 19 59.51
20 57 43.9
1-7
x8.x
1.38
i6
839
16 16 46.70
-20 40 23.5
1.9 20.6 1.56
31
Sept. I
541
16 20 20.69
-20 58 46.1
1-7
x8.o 1.37
X7
834
16 16 34.34
-2040 6.0
1.9
20.5
I1.56
538
x6 20 42.54
-ao 59 49.6
x-7
x8.o
1-37
[Bph xa]
SATURN, 1912.
553
FOR TRANSIT AT WASHINGTON.
Mean
Hor. -.3
Par. '3
§^
'Mean
1
1 1 B
§^
Date.
Time
of
Tran-
sit
h m
Ascension.
Apnarent
Declination.
Date.
Time
of
Tran-
sit
Apparent
RiKht
Ascension.
Apparent
Decunatioo.
0 1 m
Hor.
Par.
•5
'a
b m s
e • •»
•* H
s
h ni
h m s
8
Jan. o
8 10
247 9-99
+13 36 41.9
I'O 9.0
0.66
Aug. 16
1825
4 647.36+184940.9
X.O
8.4
0.63
I
8 6
247 3-44
133629.7
i.o 9.0
0.66
17
X821
4 7 0.17
18 50 5.9
I.O
8.4
0.63
2
8 2
24657-31
13 36 19.5
x.o 9.0
0.66
18 18 17
4 712.59
18 50 29.8
x.o
8.4
0.63
3
758
246 51.60
13 36 1 1.3
I.o 9.0
0.66
19 18 14
4 724.62
18 50 52.5
x.o
8.4
0.63
4
7 54
24646.32
1336 5-2
1.0 9.0
0.66
20 18 10
4 736.24
1851 13.9
I.o
8.4
0.63
5
750
24641.45
+1336 I.I
I.o 9.0
0.65
21
18 6
4 7 47-45
+18 51 34.2
x.o
8.5
0.63
6
746
2 46 37.01
13 35 59.0
1.0 9.0
0.65
22
18 2
4 758.26
18 51 53.3
x.o
8.5
0.63
7
742
2 46 33.00
I3 35 59-0
I.o 9.0
0.65
23
1759
4 8 8.66
1852 1 1.2
x.o
8.5
0.64
8
738
2 46 29.42
13 36 0.9
I.o 8.9
0.65
24
1755
4 818.65
18 52 27.8
x.o
8.5
0.64
9
7 34
2 46 26.28
1336 4-8
I.o 8.9
0.65
25
1751
4 828.22
185243.3
x.o
8.5
0.64
xo
730
24623.56
+13 36 10.8
I.o 8.9
0.65
26
1747
4 837.38
+18 52 57.6
X.0
8.5
0.64
II
7 26
2 46 21.28
13 36 18.9
I.o 8.9
0.65
27
1744
4 846.12
18 53 10.9
X.O
8.5
0.64
12
7 22
2 46 19-44
133629.0
I.o 8.9
0.65
28
1740
4 854.43
18 53 22.8
X.o
8.6
0.64
13
718
2 46 18.04
13 36 41. 1
I.o 8.9
0.64
29
1736
4 9 2.32
185333.5
x.o
8.6
0.64
M
714
2 46 17.08
1336553
I.o 8.8
0.64
30
1732
4 9 9.79
18 53 43.0
X.O
8.6
0.64
15
7 10
2 46 16.57
+133711-6
1.0 8.8
a64
31
1728
4 916.82
+185351.3
x.o
8.6
0.65
i6
7 6
246 16.50
13 37 30.0
1.0 8.8
0.64
Sept. I
1725
4 923.42
18 53 58.5
x.o
8.6
0.65
17
7 2
2 46 16.87
13 37 50.4
1.0 8.8
0.64
2
17 21
4 929.58
1854 4.4
I.O
8.7
0.65
i8
658
2 46 17.68
13 38 12.8
1.0 8.8
0.64
3
1717
4 935.30
1854 9.1
I.o
8.7
0.65
19
654
2 46 18.94
13 38 37-2
1.0 8.8
0.64
4
1713
4 940.59
18 54 12.6
I.o
8.7
•
0.65
20
6 50
2 46 20.64
+1339 3.6
1.0 8.7
0.64
5
17 9
4 9 45-43
+x8 54 14.9
x.o
8.7
a65
21
646
2 46 22.78
13 39 32.1
1.0 8.7
0.63
6
17 5
4 949.82
18 54 16.0
1.0
8.7
0.65
22
643
24625.37
1340 2.7
1.0 .8.7
0.63
>
17 2
4 953.76
18 54 16.0
I.o
8.7
0.65
23
639
2 46 28.40
134035-2
1.0 .8.7
0.63
8
1658
4 957-25
z8 54 14.8
1.0
8.7
0.66
24
635
24631.87
13 41 9-7
1.0 8.7
0.63
9
1654
4 xo 0.30
18 54 12*4
x.o
8.8
0.66
25
631
2 46 35-79
+13 41 46.2
1.0 8.7
a 63
xo
1650
4 xo 2.90
+1854 8.8
1.0
8.8
0.66
26
627
24640.14
134224.6
1.0 8.7
0.63
XI
1646
410 5.05
1854 3.9
x.o
8.8
0.66
27
623
2 46 44.92
1343 5-0
1.0 8.6
0.63
12
1642
4 10 6.74
18 53 57.9
I.o
8.S
0.66
28
6 ig
24650.14
13 43 47.4
1.0 8.6
0.63
13
1638
4 10 7.98
18 53 50.8
I.o
8.8
0.66
29
616
2 46 55.80
13 44 31-6
1.0 8.6
0.62
X4
1634
410 8.77
x8 53 42.6
I.o
8.8
0.66
30
6 12
2 47 1.89
+134517-7
1.0 8.6
0.62
^5
16 30
410 9. 1 1
+18 53 33.2
x.o
8.9
a66
31
6 8
2 47 8.40
1346 5-7
1.0 8.6
0.62
16
1626
4 10 8.99
18 53 22.6
x.o
8.9
0,67
Feb. 1
6 4
24715-34
134655-6
x.o| 8.5
0.62
17
1622
4 10 8.42
18 53 10.9
x.o
8.9
0.67
2
6 0
2 47 22.70
134747-3
I.o, 8.5
0.62
18
16 18
4 10 7.40
18 52 58.0
I.o
8.9
0.67
3
556
2 47 30-49
13 48 40.9
1.0 8.5
0.62
19
16 14
410 5.93
18 52 44.0
I.o
8.9
0.67
4
5 53
2 47 3S.70
+X34936.2
x.o 8.5
0.62
20
16 10
4 10 4.01
+18 52 28.9
I.o
8.9
0.67
5
5 49
2 47 47-32
13 50 33-3
1.0 8.5
0.62
21
16 6
4 10 1.64
x8 52 X2.7
x.o
8.9
0.67
6
5 45
24756.36
13 51 32.2
1.0 8.5
1
0.62
22
16 3
4 958.83
18 51 55.3
I.o
8.9
0.67
7
541
248 5.82
13 52 32.9
I.o 8.5
0.62
23
1559
4 955.57
18 51 36.9
I.o
9.0
0.67
8
538
2 48 15.69
13 53 35-3
I.o 8*4
0.62
24
1555
4 951.87
18 51 17.4
x.o
9.0
0.68
9
5 34
2 48 25.96
+13 54 39-3
1.0 8.4
0.62
25
1551
4 947.73
+18 50 56.8
I.o
9.0
0.68
zo
530
2 48 36.64
135545.2
I.O' 8.4
0.62
26
1547
4 943.14
i8 50 35.1
I.o
9.0
0.68
II
526
2 48 47-73
135652.7
1.0 8.4
0.62
27
1543
4 9 38-I1
x8 50 X2.3
I.o
9.0
0.68
Z2
522
2 48 59.22
1358 2.0
x.o 8.4
0.62
28
1538
4 932.64
18 49 48.5
1.0
9.1
0.68
13
519
2 49 II. II
135912.9
x.o 8.4
0.61
29
1534
4 926.74
18 49 23.6
x.o
9.1
0.68
14
515
2 49 23.40
+14 025.4
x.o 8.3
0.61
30
1530
4 920.40
+18 48 57.6
x.o
9-1
0.68
15
5"
2 49 36.08
+14 139.5
x.o 8.3
0.6X
Oct. I
1526
4 9x3.63
+18 48 30.5
x.o
9-1
0.68
[Bph xa]
554
SATURN, 1912.
FOR TRANSIT AT WASHINGTON.
Mean
a
g«
Mean
a
§^
Date.
Time
of
Tran-
sit
h m
Apparent
Ascension.
Apparent
Declination.
Hor.
Par.
•1
1
0}
Date.
Time
of
Tran-
sit
h m
Apnarent
Right
Ascension.
Apparent
DecliAation.
Hor.
Par.
s
a
25
h m s
0 • •»
8
h m 8
e • n
s
Oct. I
1526
4 913-63
+18 48 30.5
I.O
9.1
a68
Nov. 1 6
12 Z4
3 57 47.-13
4-i8 13 14.3
I.I
9.6
0.71
2
15 22
4 9 6.43
18 48 2.4
I.O
9.1
0.68
17
12 XO
35727.36
x8 12 17.5
I.I
9.6
0.71
3
15 18
4 858.80
184733.3
1.0
9.1
0.69
x8
12 6
3 57 7.23
18 II 20.7
I.I
9.6
0,71
4
15 14
4 850.75
1847 3.2
X.O
9.1
0.69
19
12 I
3 56 47.05
x8 1023.9
I.I
9.6
0.71
5
15 10
4 842.28
18 46 32.1
X.G
9.1
0.69
20
II 57
3 56 26.84
x8 927.2
I.X
9.6
0.71
6
15 6
4 833-39
+18 46 0.0
I.O
9*2
0.69
21
"53
356 6.60
4-i8 8 3a7
X.X
9.6
0.71
7
15 2
4 8 24.09
18 45 26.8
I.G
9.2
0.69
22
1x49
3 55 46.34
18 734.2
x.x
9.6
0.71
8
1458
4 814.37
18 44 52.6
I.O
9.2
0.69
23
"44
3 55 26.09
x8 637.8
x.x
9.6
0.71
9
1454
4 8 4.25
18 44 17.5
I.O
9.2
0.69
24
II 40
3 55 5.87
18 54X.6
X.I
9.6
0.71
zo
1450
4 753.73
18 43 41.5
I.O
9.2
0.70
25
II 36
3 54 45.66
18 445.7
I.I
9.6
0.71
II
1446
4 742.82
+1843 4.6
I.O
9-2
0.70
26
"31
3 54 25.47
4-i8 350.0
x.x
9.6
0-71
22
1442
4 731-52
18 42 26.7
X.O
9*2
0.70
27
iz 27
3 54 5.32
x8 254.6
X.X
9.6
0.71
13
1437
4 719.83
x8 41 47.8
I.G
9-3
0.70
28
II 23
3 53 45.24
x8 159.5
x.x
9.6
0.71
14
1433
4 7 7-76
18 41 8.1
I.I
9-3
0.70
29
IX 19
3 53 25.22
18 I 4.8
x.x
9.6
0-71
15
1429
4 655.32
x8 40 27.6
X.I
9.3
0.70
30
II 14
3 53 5.27
x8 0 10.4
X.I
9.5
0.7X
i6
1425
4 642.52
+18 39 46.2
I.I
9.3
0.70
Dec. X
II 10
3 52 45.41
+17 59 16.4
X.I
9.5
0.71
I?
14 21
4 629.36
18 39 4.0
I.I
9.3
0.70
2
II 6
3 52 25.66
17 58 22.9
x.x
9*5
0.7X
z8
14 17
4 615.85
18 38 21.0
I.t
9.3
0.70
3
II 2
352 6.02
17 57 30*0
x.x
9.5
0-71
19
14 12
4 6 a.oo
18 37 37.2
I.I
9.3
0.70
4
1057
3 51 46.49
17 56 37.6
x.x
9.5
0.71
20
14 8
4 5 47-82
x8 36 52.6
I.I
9-3
0.70
5
1053
3 51 27.09
17 55 45.8
x.x
9.5
0.71
ai
H 4
4 533.30
+1836 7.2
I.I
9-3
0.70
6
1049
351 7.84
4-17 54 54.5
X.I
9*5
0.71
22
14 0
4 5 18.46
183521.1
I.I
9-4
0.70
7
1045
3 50 48.75
1754 3-9
x.x
9.5
0.71
23
1356
4 5 3-30
18 34 34-3
I.I
9.4
0.70
8
1040
3 50 29.83
17 53 13-9
Z.Z
^5
0.71
24
1352
4 447-83
183346.8
Z.I
9.4
0.70
9
1036
35011.09
X7 52 24.7
Z.Z
9.5
0.7Z
25
1347
4 432.07
18 32 58.6
X.I
9-4
0.70
XO
1032
3 49 52.55
17 51 36.3
Z.Z
9.5
0.7Z
a6
1343
4 4 16.02
+18 32 9.7
Z.I
9.4
0.71
XX
1028
3 49 34.21
+17 50 48.6
Z.Z
9*5
0.7X
27
1339
4 359.69
18 31 20.2
Z.I
9.4
0.71
Z2
1023
3 49 16,07
1750 1.6
X.I
9.5
a7i
28
1335
4 343.08
183030.1
I.I
9.4
0.71
13
10 19
34858.15
1749x5.5
x.x
9-5
0.70
29
13 31
4 3 26.20
182939.5
I.I
9-4
0.71
14
10 15
3 48 40.47
17 48 30.4
I.X
9.5
0.70
30
1326
4 3 9.06
x8 28 48.2
I.I
9.4
0.71
15
10 XI
3 48 23.03
174746.2
x.x
9.5
0.70
31
1322
4 251.67
+18 27 56.3
I.I
9-5
0.71
z6
10 6
348 5.84
4-17 47 3.0
x.x
9.5
a.70
Nov. I
13 18
4 234.04
Z827 3.9
x.x
9.5
0.71
17
10 2
3 47 48.91
X7 46 20.8
X.Z
9*5
0.70
2
13 14
4 2 z6.i6
1826Z1.X
X.I
9-5
0.71
z8
958
3 47 32.25
17 45 39-6
Z.Z
9-4
0.70
3
13 10
4 I 58.06
18 25 Z7.8
x.x
9-5
0.71
19
9 54
3 47 15^87
174459.3
Z.Z
9.4
a.70
4
13 5
4 139.76
z8 24 24.0
x.x
9-5
0.71
20
950
3 46 59.77
174420.1
Z.I
9.4
a.70
5
13 I
4 I 21.26
4-i8 23 29.7
Z.Z
9.5
0.71
2Z
946
3 46 43.96
4-X7 43 42.0
I.I
9.4
owTO
6
1257
4 I 2.56
18 22 35.0
X.I
9-5
0.71
22
941
3 46 28.46
1743 5«o
X.Z
9-4
0.70
7
1252
4 043.68
z8 21 40.0
I.X
9.5
0.71
23
9 37
3 46 X3.27
17 42 39.1
Z.I
9-4
0.70
8
1248
4 024.63
18 20 44.8
x.x
9.5
0,71
24
9 33
34558.39
17 41 54. 3
Z.I
9*4
0.70
9
1244
4 0 5.42
x8 19 49.2
I.I
9.50.71
25
929
3 45 43.84
Z7 41 2a7
Z.Z
9*4
0.70
zo
1240
3 59 46.05
+18 18 53.3
I.X
9.50.71
26
925
3 45 29.63
4-17 40 48.3
x.x
9*3
OL70
zz
12 36
3 59 26.55
18 17 57.2
x.x
9.5
0.71
27
920
3 45 15»75
Z7 40 Z7.2
X.X
9^3
OL70
Z2
12 31
3 59 6.93
z8 17 0.9
x.x
9.5
0.71
28
9x6
3 45 2.22
173947.3
x.x
9.3
0.70
13
1227
3 58 47.20
x8 x6 4.4
X.Z
9.5
0.71
29
9 12
3 44 49»04
17 39 z8.6
Z.Z
9.3 0.69
14
1223
35827.36
18x5 7.8
x.x
9.6
0.71
30
9 8
3 44 36.22
17 38 51.2
Z.Z
9-3 0.69
15
12X8
358 7.43
+18 14 II. I
X.X
9.6
0.71
31
9 4
3 44 23.76
4-X7 38 25.2
X.Z
9.3' 0.69
z6
12 Z4
3 57 47-43
4-18 13 14.3
X.I
9.6
0.71
32
9 0
3 44 "•70
+1738 0.6
Z.Z
^3,
0.69
[Epb xa]
URANUS, 1912.
555
FOR TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Tran-
sit.
Apparent
Ascension.
Apparent
Declination.
Hor.
Par.
n
, Semidiam.
» S.T.of Sam.
Pass. Mer.
Date.
Mean
Time
of
Tran-
sit.
Apparent
Ascension.
Apparent
Declination.
Hor.
Par.
.2
1
1^
05 ft*
h m
h m 8
0 t n
h m
h m s
0 t It
8
Apr. 21
Z823
20 23 Z2.o8
-19 57 53-5
0.5
Z.70.12
June 6
15 21
20 22 ZO.48
-20 255.5
0.5
Z.8
O.Z2
22
18 Z9
2023 Z5.26
19 57 44-9
0.5
Z.70.Z2
7
Z517
2022 4.73
20 3 Z6.5
0.5
Z.8
0.12
23
18 15
20 23 Z8.23
Z9 57 36.9
0.5
1.70.12
8
15 13
2021 58.83
20 338.0
0.5
z.8
0.12
24
18 II
202321.00
19 57 29-7
0.5
1.7 ai2
9
15 9
20 21 52.77
20 4 0.1
0.5
z.8
0.13
25
18 7
20 23 23.56
19 57 23.2
0.5
1.7 0.12
zo
15 5
20 21 46.55
20 4 22.6
0.5
z.8
O.Z3
26
18 3
20 23 25.92
-19 57 17.4
0.5
1.7 0.12
IZ
15 0
2021 40.17
-20 445.5
0.5
z.8
0.13
27
1759
20 23 28.08
19 57 12.3
0.5
1.7 0.12
12
1456
20 2Z 33.63
20 5 9.0
0.5
z.8
0.13
28
17 55
20 23 30.04
1957 7-8
0.5
z.70.12
13
1452
20 21 26.95
20 532.9
0.5
z.8
0.13
29
17 51
20 23 31.79
Z957 4.0
0.5
Z.70.I2
14
14 48
20 2Z 20.12
20 5 57-3
0.5
z.8
0.13
30
1748
20 23 33.34
1957 i-o
0.5
1.70. 12
15
1444
20 2Z 13.15
20 6 22. 1
0.5
z.8
0.13
May I
1744
20 23 34.68
-19 56 58.7
0.5
1.7 0.12
z6
Z440
2021 6.04
-20 647.4
0.5
z.8
0.13
2
1740
20 23 35.8Z
19 56 57-0
0.5
1.7 0.12
17
1436
20 20 58.79
20 7 13. 1
0.5
z.8
0.13
3
1736
20 23 36.73
19 56 56.1
0.5
Z.70.T2
z8
1432
20 20 51.40
20 7 39-1
0.5
z.8
0.13
4
1732
20 23 37.45
Z9 56 55.8
0.5
Z.70.Z2
19
Z428
20 20 43.88
20 8 5.5
0.5
z.8
0.13
5
1728
20 23 37.97
Z9 56 56.2
0.5
z.70.12
20
1424
20 20 36.23
20 8 32.4
0.5
1.8
0.13
6
1734
2023 38.29
-19 56 57.2
0.5
Z.70.Z2
2Z
14 20
20 20 28.45
-20 8 59.6
0.5
z.8
O.Z3
7
1720
20 23 38.40
19 56 58.9
0-5
i.7ai2
22
Z4 16
20 20 20.55
20 927.1
0.5
z.8
O.Z3
8
17 16
20 23 38.30
1957 x«3
0-5
1.7 0.12
23
Z4 Z2
20 20 12.53
20 955.0
0.5
z.8
O.Z3
9
17 12
20 23 38.01
1957 4-5
0.5
1.70.12
24
14 8
20 20 4.39
20 1023.3
0.5
z.8
O.Z3
zo
17 8
20 23 37.52
Z957 8.4
0-5
z.7ai2
25
14 4
20 19 56. Z5
20 zo 5Z.9
0-5
z.8
O.Z3
zz
17 4
20 23 36.81
-19 57 I3-0
0.5
z.7az2
26
Z4 0
20 19 47.80
-20 zz 20.7
0.5
z.8
O.Z3
Z2
17 0
20 23 35.90
Z9 57 z8.2
0.5
1.70.Z2
27
1356
20 19 39.34
20 zz 49.8
0.5
1.8
0.Z3
13
1656
20 23 34.79
195724-1
0.5
z.70.12
28
1352
20 19 30.78
20 Z2 Z9.3
0.5
z.8
0.Z3
X4
1652
20 23 33.48
19 57 30.6
0*5
z.70.12
29
1347
20 19 22.12
20Z249.Z
0.5
z.8
O.Z3
15
1648
20 23 31.96
19 57 37-9
0.5
Z.70.Z2
30
1343
20 Z9 Z3.36
20 Z3 Z9.Z
0.5
z.8
0.13
z6
1644
20 23 30.24
-Z9 57 45.8
0-5
Z.70.Z2
July z
1339
20 Z9 4.52
•^oz3 49.2
0.5
z.8
0.Z3
17
16 41
20 23 28.32
19 57 54-3
0.5
Z.70.Z2
2
1335
20 z8 55.58
20 Z4 Z9.6
0-5
z.8
O.Z3
18
1637
20 23 26.21
1958 3.5
0.5
Z.70.Z2
3
13 3»
20 z8 46.56
20 Z4 50.3
0-5
z.8
O.Z3
19
1633
20 23 23.91
19 58 13.3
0.5
Z.70.Z2
4
1327
20 z8 37.45
20Z5 2Z.2
0.5
z.8
az3
20
1629
20 23 2Z.4Z
19 58 23.8
0.5
1.70.Z2
5
1323
20 18 28.26
20 z 5 52.3
0-5
z.8
0.Z3
2Z
1625
20 23 Z8.71
-Z9 58 35.0
0.5
Z.70.Z2
6
13 19
20 z8 Z8.99
-20 z6 23.6
0.5
z.8
0.Z3
22
1621
2023Z5.81
19 58 46.8
0.5
Z.70.Z2
7
13x5
2018 9.65
20 z6 55. z
0.5
z.8
0.Z3
23
16 17
20 23 12.73
19 58 59.3
0.5
Z.70.Z2
8
13"
20 z8 0.24
20 Z7 26.7
0,5
z.8
0.13
24
16 13
2023 9.46
19 59 Z2.4
0.5
1.7 ai2
9
13 7
20 Z7 50.76
20 Z7 58.3
0.5
z.8
0.Z3
25
16 9
2023 6.00
195926.1
0-5
Z.70.Z2
zo
13 2
201741.22
20 18 30. z
0.5
1.8
O.Z3
26
16 5
2023 2.35
-19 59 40.2
0.5
Z.70.Z2
ZI
Z258
20 Z7 31.63
-20 Z9 2.Z
0.5
z.8
0.Z3
27
16 Z
20 22 58.52
19 59 55-0
0.5
Z.70.Z2
Z2
1254
2o Z7 2Z.98
20 19 34.2
0,5
1.8
O.Z3
28
1557
20 22 54.51
20 0 10.5
0.5
1.70.Z2
X3
Z2 50
20 Z7 Z2.28
2020 6.4
0-5
z.8
0.13
29
1553
20 22 50.32
20 026.6
0.5
z.70.12
14
12 46
20 Z7 2.54
20 20 38.7
0.5
z.8
0.Z3
30
1549
20 22 45.95
20 043.3
0.5
Z.70.Z2
15
1242
20 z6 52.76
20 2Z ZZ.O
0.5
z.8
ai3
31
1545
20 22 41. 39
—20 I 0.5
0.5
1.8 0.12
z6
1238
20 z6 42.95
-20 2Z 43.3
0-5
z.8
0.Z3
June I
15 41
20 22 36.66
20 z 18.3
0.5
1.80. 12
17
12 34
20 z6 33.10
20 22 Z5.7
0-5
z.8
0.Z3
2
1537
20 22 31.77
20 I 36.7
0.5
Z.80.Z2
18
1230
20 16 23.23
20 22 48. Z
0.5
1.8
0.13
3
1533
20 22 26.71
20 z 55.5
0.5
Z.80.Z2
19
Z226
20 z6 13.33
20 23 20.5
0.5
z.8
0.Z3
. 4
1529
20 22 21.47
20 2 14.9
0.5
Z.80.Z2
20
Z2 22
20 z6 3.4Z
20 23 53.0
0.5
z.8
O.Z3
5
1525
20 22 Z6.06
-20 234.9
0.5
Z.80.Z2
2Z
Z2Z8
20 Z5 53.47
-20 24 25.4
0.5
z.8
0.Z3
6
15 21
20 22 ZO.48
-20 255.5
0.5
Z.80.Z2
22
12 Z3
20 Z5 43.52
-20 24 57.7
0.5
z.8
0-X3
[Bph za]
556
URANUS, 1912.
FOR TRANSIT AT WASHINGTON.
Mean
a
§^
Mean
1 a
ii
Date.
Time
of
Tran-
sit
Apparent
Ascension.
Apparent
Decfination.
Hor.
Par.
a
0)
»»
hi
CO ft*
s
Date.
Time
of
Tran-
sit
Ascension.
Apparent
Hor.
Par.
•
•5
S
to
CO ft.
h m
h m B
0 # •»
b ni
h
m s
0 • w
s
July 22
12 13
201543.52
-20 24 57.7
0.5
Z.8
0.Z3
Sept. 6
9 6
20
9 1-30
-20 45 40.6
0.5
Z.8
0.Z3
23
12 9
201533.57
20 25 30.0
0.5
1.8
0.13
7
9 2
20
855.13
20 45 58.4
0.5
z.8
0.13
24
12 5
20 15 23.62
2026 2.2
0.5
z.8
0.Z3
8
858
20
849.14
20 46 Z5.6
0.5
z.8
0.13
25
12 I
20 15 13.66
2026 34.4
0.5
z.8
0.13
9
854
20
843.31
204632.3
0.5
z.8 0.13
26
II 57
20 15 3.71
20 27 6. 5
0.5
1.8
0.13
10
850
20
8 37.64
20 46 48.4
0.5
1.7 0.13
27
II 53
20 Z4 53.76
-20 27 38.5
0.5
1.8
0.13
ZI
846
20
832.14
-20 47 4.0
0.5
1.7 0.13
28
II 49
20 14 43.83
20 28 10.4
0.5
1.8
0.13
12
842
20
8 26.82
2047 Z9.Z
0.5
1.7
O.Z3
29
II 45
20 Z4 33.91
2028 42.1
0.5
1.8 0.13
13
838
20
8 21.68
20 47 33-6
0.5
1.7 OlI2
30
1141
20 14 24.02
2029 13.7
0.5
1.8 0.1 3
14
834
20
8 16.71
204747.5
0.5
Z.7 0.12
31
II 36
20 Z4 14.15
202945.2
0.5
1.8
0.13
15
830
20
8 ZZ.92
20 48 0.9
0.5
1.7
0.12
Aug. I
II 32
2014 4.31
—20 30 16.4
0.5
z.8
0.13
16
826
20
8 7.30
—20 48 z 3.7
0.5
Z.7 0.12
2
II 28
20 13 54.49
203047.5
0.5
1.8
0.13
17
822
20
8 2.87
20 48 25.9
0.5
Z.7. 0.12
3
II 24
201344.71
20 31 18.5
0.5
z.8
0.13
z8
818
20
7 58.63
20 48 37.6
0.5
Z.7 0.12
4
II 20
201334.97
20 31 49.2
0.5
1.8
0.13
19
814
20
7 54.58
20 48 48.6
0.5
Z.7" 0.12
5
II 16
20 13 25.28
20 32 19.7
0.5
z.8
0.13
20
8zo
20
7 50.73
20 48 59.0
0.5
1.7 O.I2
6
II 12
201315.63
—20 32 50.0
0.5
z.8
0.13
2Z
8 6
20
7 4707
-2049 8.8
0.5
X.7; 0.12
7
II 8
2013 6.03
20 33 20. z
0.5
1.8
0.13
22
8 2
20
7 43.58
20 49 z8.o
0.5
1.7 0.12
8
II 4
20 z 2 56.49
20 33 50.0
0.5
1.8
0.13
23
758
20
7 40.28
20 49 26.6
0.5
Z.7 0.12
9
II 0
20 12 47.01
20 34 19.6
0.5
1.8
0.13
24
7 54
20
7 37.18
204934.5
0.5
X.7 0.12
zo
10 56
20 12 37.60
20 34 48.9
0.5
1.8
0.13
25
750
20
7 34-28
204941.8
0.5
i-7j 0.12
ZI
1052
20 12 28.26
-20 35 17.9
0.5
1.8
0.13
26
746
20
7 31.57
—20 49 48.6
0,5
1-7
o.ia
Z2
1047
20 Z2 18.99
20 35 46.6
0.5
1.8
0.13
27
742
20
7 29.07
20 49 54.8
0.5
x-7
0.12
13
1043
20 12 9.79
20 36 15,0
0.5
1.8
0.13
28
738
20
7 26.77
20 50 0.4
0.5
1-7
0.12
14
1039
20 12 0.67
203643.2
0.5
1.8
0.Z3
29
7 34
20
7 24.67
2050 5.3
0.5
1-7
O.I2
15
1035
20 ZI 51.63
2037 ZI.O
0.5
1.8
0.13
30
730
20
7 22.77
20 50 9.6
0.5
1.7
ai2
z6
10 31
20 II 42.69
-20 37 38.5
0.5
1.8
0.13
Oct. I
726
20
7 21.07
-205OZ3.3
0.5
1-7
0,12
17
CO 27
20 II 33.84
20 38 5.6
0.5
1.8
0.13
2
7 22
20
719.58
20 50 Z6.4
0.5
1-7
0.12
% z8
1023
20 1 1 25.08
20 38 32.3
0.5
1.8
0.13
3
7z8
20
7 Z8.30
20 50 z8.8
0.5
1.7
ai2
19
10 19
20 II Z6.42
20 38 58.6
0.5
z.8
0.13
4
714
20
7 Z7.22
20 50 20.6
0.5
x-7
O.I2
20
10 15
2011 7.87
20 39 24.6
0.5
z.8
0.13
5
7 zo
20
7 16.35
20502Z.8
0.5
x-7
a 12
21
10 ZI
20 10 59.42
—20 39 50.2
0.5
1.8
0.13
6
7 6
20
715.69
—20 50 22.4
0.5
x-7
0.12
22
10 7
20 ZO 51.07
204015.5
0.5
z.8
0.13
7
7 2
20
7 15.24
20 5022.3
0.5
x-7
O.X2
23
10 3
20 10 42.84
204040.3
0.5
z.8
0.13
8
658
20
7 15.0Z
2050 2 Z.6
0.5
x-7
O.X2
24
958
20 10 34.73
2041 4-7
0.5
z.8
0.13
9
654
20
7 14-98
20 50 20.2
0.5
x.7
O.Z2
25
9 54
20 10 26.74
2041 28.7
0.5
z.8
0.Z3
zo
650
20
715.16
20 50 z8.2
0.5
x-7
ai2
26
950
20 10 18.88
-2041 52.3
0.5
z.8
0.13
zz
646
20
7 15.56
-20 50 Z5.5
0.5
x-7
0.12
27
946
20 10 1 1. 14
20 42 15.4
0.5
z.8
0.13
Z2
643
20
7 z6.z7
2050 Z2.2
0.5
x.7
0.12
28
942
2010 3.53
2042 38. J
0.5
1.8
0.13
13
639
20
716.99
20 50 8.2
0.5
x-7
0.1a
29
938
20 9 56.05
2043 0.3
0.5
z.8
0.Z3
14
635
20
7 Z8.03
2050 3.5
0.5
x-7
0.12
30
9 34
20 948.70
204322.1
0.5
z.8
0.Z3
15
631
20
7 Z9.28
20 49 58.2
0.5
1-7
OwI2
31
930
20 941.49
-204343.3
0.5
1.8
0.13
z6
627
20
7 20.74
— 20 49 52.2
0.5
x.7
0.12
Sept. I
926
20 934.42
20 44 4. 1
0.5
1.8
0.13
17
623
20
7 22.4Z
20 49 45.7
0.5
x.7
OlI2
2
922
20 927.50
20 44 24.4
0.5
z.8
0.13
z8
6 Z920
7 24.31
20 49 38.5
0.5
x-7
0.12
3
918
20 9 20.72
204444.3
0.5
z.8
0.13
19
6 1520
1
7 26.42 20 49 30.6
0.5
x.7
O.Z2
4
914
20 9 14.09
2045 3.6
0.5
z.8
0.13
20
6zi
20
728.73 20^922.1
0.5
x.7
O.Z2
5
9 10
20 9 7.62
-204522.3
0.5
z.8
0.13
2Z
6 720
7 31-26
-2049 Z3.0
0.5
x.7
O.Z2
6
9 6
20 9 1.30
—20 45 40.6
0.5
z.8
0.13
22
« 4
20
734.00
-2049 3.3
0.5
x.7
OwI2
(Bpb 13]
NEPTUNE, 1912.
557
FOR TRANSIT AT WASHINGTON.
Mean
•
B
§^
Mean
•
a
ii
Date.
Time
of
Tran-
sit.
h m
Apparent
Ascension.
Apparent
Declination.
Hor.
Par.
s
«
ff
hi?
Date.
Time
of
Tran-
sit.
Apparent
Ascension.
Apparent
Declination.
Hor.
Par.
4
..4
B
«
f/i
©•2
CAS
hi
h m s
1
B * n
S
h m
h m 8
Off*
s
Jan. o
13 0
7 37 52-79
+205723.5
0.3
1.3
0.09
Feb. 1 5
9 54
7 32 42.02
+21 953.1
0.3
1.3 0.09
I
1256
7 37 45.87
20 57 40. 1
0.3
1.3
0.09
x6
950
7 32 36.44
21 10 6.9
0.3
I.3I 0.09
2
12 5'-^
7 37 38.91
20 57 56.7
0.3
1.3
0.09
17
946
7 32 30.96
21 1020.5
0.3
1.3
0.09
3
1248
7 37 31.91
20 58 13.4
0.3
1.3
0.09
18
942
7 32 25.57
21 10 33.8
0.3
1-3
0.09
4
1244
7 37 24.89
20 58 30.2
0.3
1.3
0.09
»9
938
7 32 20.26
21 1046.9
0.3
1.3
0.09
5
12 39
7 37 17.85
4-205847.1
0.3
1.3
0.09
20
9 34
73215.05
+21 10 59.9
0.3
1.3
0.09
6
1235
7 37 X0.79
2059 4.0
0.3
1.3
0.09
21
930
732 9.95
21 II 12.6
0.3
1.3
0.09
7
1231
7 37 3.70
20 5921.0
0.3
1-3
0.09
22
9 26
732 4-95
21 II 25.1
0.3
1.3
0.09
8
12 27
7 36 56.60
20 59 38.0
0.3
1.3
0.09
23
922
7 32 0.06
21 II 37.3
0.3
1.3
0.09
9
12 23
7 36 49.48
205955.1
0.3
1-3
0.09
24
918
7 31 55.27
21 II 49.3
0.3
X.3
0.09
lo
12 19
73642.35
4-2]
I 0 12.2
0.3
1.3
0.09
25
914
7 31 50-59
+21 12 I.I
0.3
1.3
0.09
II
12 15
7 36 35.20
2]
[ 029.4
0.3
1.3
0.09
26
9 10
7 31 46.02
21 12 12.7
0.3
1.3
0.09
12
12 II
7 36 28.05
2]
c 046.5
0.3
1.3
0.09
27
9 6
7 31 41.56
21 12 24.1
0.3
1.3
0.09
13
12 7
7 36 20.89
2:
t I 3.7
0.3
1.3
0.09
28
9 a
7 31 37-20
21 12 35.2
0.3
1.3
0.09
M
12 3
7 36 13.74
2]
[ I 20.9
0.3
1.3
0.09
29
858
7 31 32.96
21 12 46.1
0.3
1.3
0.09
15
1159
7 36 6.60
+2]
c I 38.1
0.3
1.3
0.09
Mar. I
854
7 31 28.83
+21 12 56.7
0.3
1.3
0.09
i6
"55
7 35 59.46
2]
t 155.3
0.3
1.30.09
2
850
7 31 24.82
21 13 7.0
0.3
1.3
0.09
17
II 51
7 35 52.33
2]
t 2 12.4
0.3
1.3^0.09
3
846
7 31 20.93
21 13 17.I
0.3
1-3
0.09
i8
II 47
7 35 45.20
2]
c 229.5
03
i.3|o.09
4
842
7 31 17.16
21 13 26.9
0.3
1.3
0.09
19
"43
7 35 38.09
21
[ 2 46.6
0.3
i.3[o.09
5
838
7 31 13.51
21 13 36.5
0.3
1.3
0.09
20
"39
7 35 31.00
+2]
[ 3 3.8
0.3
1.3
0,09
6
834
731 9.98
+21 13 45.8
0.3
1.3
0.09
21
"35
7 35 23.93
2]
[ 3 20.8
0.3
1.30.09
7
830
731 6.58
21 1354.9
0.3
1.3
0.09
22
"31
7 35 16.88
2]
c 337.7
0.3
1.30.09
8
826
731 3-31
21 14 3.7
0.3
1.3
0.09
23
II 27
7 35 9-86
2J
[ 354.6
0.3
1.3
0.09
9
822
731 0.17
21 14 12.2
0.3
1.3
0.09
24
II 22
7 35 2.87
2]
: 411.4
0.3
1.3
0.09
10
818
73057.15
21 14 20.4
0.3
1.3
0.09
25
II 18
7 34 55.91
4-2]
[ 428.2
0.3
1. 3*0.09
II
814
7 30 54.25
+21 1428.3
0.3
1.3
0.09
26
II 14
7 34 48.98
2]
c 444.9
0.3
1.30.09
12
8 10
73051.49
21 14 36.0
0.3
1.3
0.09
27
II 10
7 34 42.10
2]
^ 5 1-5
0.3
1.30.09
13
8 6
7 30 48.85
21 1443.4
0.3
1.3
0.09
28
II 6
7 34 35.26
21
[ 5 18.0
0.3
1.30.09
14
8 2
73046.35
21 14 50.6
0.3
1.3
0.09
29
II 2
7 34 28.46
2]
^ 5 34-4
0.3
i.3'o.09
1
15
758
7 30 43.98
21 14 57.5
0.3
1.3
0.09
30
1058
7 34 21.71
4-2]
: 550.7
0.3
1
1.3.0.09
16
7 54
7 30 41.75
+21 15 4.1
0.3
1.3
0.09
31
1054
7 34 15.01
21
' 6 6.9
0.3
1.30.09
17
750
7 30 39.65
21 15 10.4
0.3
1-3
0.09
Feb. I
10 50
7 34 8.35
21
: 6 23.0
0.3
1.3
0.09
18
746
7 30 37.69
21 15 16.4
0.3
1.3
0.09
2
1046
7 34 1-75
21
: 6 39.0
0.3
1.3
0.09
19
742
7 30 35.86
21 15 22.1
0.3
1.3
0.09
3
1042
7 33 55.21
21
: 654.8
0.3
1-3
0.09
20
738
73034.18
21 15 27.5
0.3
1.3
0.09
4
1038
7 33 48.73
4-21
: 710.5
0.3
1.3
0.09
21
7 34
7 30 32.64
+21 15 32.6
0.3
1.3
0.09
5
1034
73342.31
21
[ 7 26. 1
0.3
1.3
0.09
22
730
7 30 31.23
21 15 37.4
0.3
1.3
0.09
6
10 30
7 33 35.95
21
: 741.6
0.3
1.3
0.09
23
726
7 30 29.95
21 1541.9
0.3
1.3
ao9
7
10 26
7 33 29.66
21
756.9
0.3
1.3 0.09 1
24
7 22
7 30 28.82
21 15 46.1
0.3
1.3
0.09
8
1022
7 33 23.44
21
: 8 12.0
0.3
1.3
0.09
25
718
7 30 27.83
21 15 50.0
0.3
1.3
0.09
9
10 18
7 33 17.29
4-21
; 826.9
0.3
1.3
0.09
26
714
7 30 26.99
+21 15 53-7
0.3
1.3
0.09
10
10 14
7 33 11.22
2J
841.7
0.3
1.3
a 09
27
7 10
7 30 26.29
21 15 57.0
0.3
1.3
0.09
II
10 10
7 33 5.22
21
: 856.3
0.3
1-3
0.09
28
7 6
7 30 25.72
21 16 0.0
0.3
1.3
0.09
12
10 6
7 32 59.29
21
; 9 10.8
0.3
1.3
0.09
29
7 2
73025.30
21 16 2.7
0.3
10
0.09
13
10 2
7 32 53.45
21
: 925.1
0.3
1.3
0.09
30
658
7 30 25.02
2X 16 5.1
0.3
1.3
0.09
M
958
7 32 47.69
4-21
939.2
0.3
1.3
0.09
31
654
7 30 24.88
+21 16 7.1
0.3
1.3
0.09
15
9 54
7 32 42.02
+22
953.1
0.3
1.3
0.09
Apr. I
650
7 30 24.88
+21 16 8.8 0.3
1-3
0.09
[Eph
; 12]
558
NEPTUNE, 1912.
FOR TRANSIT AT WASHINGTON.
Mean
•
a
§^
Mean
8 ii
Date.
Time
of
Tran-
sit.
Apparent
Right
Ascension.
Apparent
Declination.
Hor.
Par.
If
.2
..4
•f
Data.
Time
of
Tran-
sit
h m
Arojarent
Ascension.
Apparent
Decunatioa
Hor.
Par.
B 2-
h m
h m s
0 * n
s
h m s
e » m
s
Apr. I
650
7 30 24.88
4-2X 16 8.8
0.3
1-3
0.09
Nov.x6
16 7
75115.XO
-K2O28 5.8
0-3
1.3 0.09
2
647
7 30 25.02
21 16 10.3
0.3
x-3
0.09
17
x6 3
7 51 12.43
20 28 X2.6
0.3
1.3 0.09
3
643
73025.31
21 z6 11.6
0.3
1.3
0.09
x8
1559
751 9.64
20 28 19. 8
0.3
X.3 0.09
4
639
7 30 25.74
2X 16 X2.5
0.3
1-3
0.09
19
1555
751 6.7X
20 28 27.2
0.3
X.3 0.09
5
635
7 30 26.31
2X x6 13.0
0.3
1-3
0.09
ao
15 51
751 3-64
20 28 35.0
0.3
x.3 0.09
6
631
7 30 27.02
+21 16 X3.2
0.3
1-3
0.09
2X
1547
751 0.44
■I-20 28 43.2
0.3
x.3 0.09
7
627
7 30 27.87
21 x6 X3.1
0.3
1-3
0.09
22
1543
75057.X2
ao 28 51.9
0.3
x.3 0.09
8
6 23
7 30 28.86
21 16 12.8
0-3
1-3
0.09
23
1539
7 50 53.68
2029 0.8
0.3
x.3 0.09
9
6 19
7 30 29.99
21 16 I2.I
0.3
1-3
0.09
24
1535
7 5050.12
20 29 X0.0
0.3
x.3 0.09
lO
615
7 30 31.26
21 X6 II.I
0.3
1-3
0.09
25
1531
7 50 46.43
20 29 19. 5
0-3
x.3 0.09
XI
611
7 30 32.67
-1-2 X 16 9.8
0.3
1.3
ao9
26
1527
7 50 42.61
+20 a9 29.4
0.3
x.3 0.09
12
6 7
7 30 34-23
2X x6 8.x
0.3
1-3
0.09
27
X523
7 50 38.67
20 29 39.6
0-3
x.3 0.09
13
6 4
7 30 35-94
2x x6 6.1
0*3
1.3
0.09
28
15x9
7 50 34-62
202950.x
0.3
x.3 0.09
M
6 0
7 30 37-77
2X x6 3.8
0.3
1.3
0.09
29
15 15
7 50 3a46
2030 0.9
0.3
x.3 0.09
15
556
7 30 39-74
2X 16 1.3
0.3
1.3
0.09
30
15 11
75026.18
20 30 X2.0
0.3
x.3 0.09
Oct.i6
18 9
7 51 29.61
+20 27 39.7
0.3
1-3
0.09
Dec. X
15 7
7 50 21.79
+20 30 23.4
0.3
x.3 0.09
17
18 5
7 51 31.26
20 27 35.0
0.3
x-3
0.09
2
15 3
7 50 17.29
203035.x
0.3
x.3^ 0.09
i8
18 X
7 51 32.77
20 27 30.6
0.3
1-3
0.09
3
1459
7 50 X2.68
203047.1
0.3
x.3 0.09
19
1757
75x34.14
2027 26.5
0-3
1-3
0.09
4
1455
750 7-97
203059-5
0.3
x.3 OW09
20
1754
7 51 35-37
20 27 22.8
0.3
1-3
0.09
5
X451
750 3-14
20 3X X2.2
0.3
1.3 0.09
21
1750
7 51 36.45
-H20 27 X9.4
0.3
1-3
0.09
6
M47
7 49 58.2X
-I-20 3X 25.x
0.3
Z.3 OW09
22
1746
7 51 37.39
20 27 X6.4
0.3
1-3
ao9
7
1443
74953.18
20 3X 38.2
0.3
x.3 0.09
23
1742
7 51 38-19
20 27 13.8
0-3
1-3
0.09
8
1439
7 49 48.04
20 31 5X.5
0.3
x.3 0.09
24
1738
7 51 38.85
20 27 XI.6
0.3
1-3
0.09
9
1435
7 49 42.80
20 32 5.2
0.3
x.3 0.09
25
1734
7 51 39.37
20 27 9.9
0.3
1-3
0.09
xo
X431
7 49 37-47
20 32 x9.x
0.3
x.3 0^09
26
1730
7 51 39.74
-1-2027 8.5
0.3
1-3
0.09
XI
1427
7 49 32.05
+203333.3
0.3
x.3 0.09
27
17 26
7 51 39-98
2027 7.5
0.3
1.3
0.09
X2
1423
74926.54
20 32 47.8
0.3
x.3 ao9
28
17 22
7 51 40.08
20 27 6.9
0.3
1.3
0.09
13
14 19
7 49 20.93
2033 2.5
0.3
x.3 0.09
29
17 18
7 51 40.03
20 27 6.6
0-3
1.3
0.09
14
14 15
749x5.24
20 33 17-4
0.3
x.3 0.09
3°
1714
7 51 39-84
2027 6.6
0.3
1.3
0.09
15
14x1
7 49 9-46
20 33 32.5
0.3
x.3 0.09
31
17 10
75139.51
+20 27 7.0
0.3
1.3
0.09
x6
14 7
7 49 3-60
+20 33 47-9
0.3
x.3 0.09
Nov. I
17 6
7 51 39.03
20 27 7.8
0-3
1-3
0.09
17
M 3
7 48 57.66
2034 3.5
0.3
1.3 0.09
2
17 2
7 51 38.41
2027 9.1
0-3
1.3
0.09
x8
1359
7 48 51.64
2034x9.3
0.3
x.3 0.09
3
1658
7 51 37.64
20 27 ia8
0.3
1-3
0.09
X9
1355
7 48 45-55
20 34 35.3
0.3
x.3 0.09
4
1654
7 51 36.73
20 27 12.8
0.3
1-3
0.09
20
13 51
7 48 39-40
203451-4
0.3
x.3 0.09
5
16 51
7 51 3569
-1-2027 X5.1
0.3
1-3
0.09
21
1347
74833-18
-1-2035 7-6
0.3
x.3 0.09
6
1647
7 51 34-51
20 27 17.8
0.3
13
0.09
22
1343
7 48 26.88
ao 35 24.0
0.3
x.3 0.09
7
1643
75133-18
20 27 20.8
0.3
1.3
0.09
23
1339
7 48 20.52
20 35 40.7
0.3
x.3 0.09
8
1639
7 51 31.72
20 27 24.2
0.3
1-3
0.09
24
1335
7 48 14.09
20 35 57-7
0.3
x.3 ao9
9
1635
73X 30.12
2027 28.1
0.3
1.3
0.09
25
1330
748 7-60
ao 36 X4.9
0.3
x.3 0.09
lO
1631
7 51 28.38
-1-20 27 32.5
0.3
1-3
0.09
26
13 26
7 48 X.06
4-20 36 32.x
0.3
x.3 0.09
zx
1627
7 51 26.50
20 27 37.2
0-3
1-3
0.09
27
13 22
7 47 54-46
20 36 49-4
0.3
x.3 0.09
X3
1623
7 51 24.49
20 27 42.2
0.3
1-3
ao9
28
X318
7 47 47-82
2037 6.8
0.3
x.3 0.09
13
16 19
7 51 22.35
20 27 47.6
0.3
1-3
0.09
29
1314
74741.X2
203724.3
0.3
x.3 0.09
14
16 15
7 51 2ao7
202753.3
0.3
1.3
0.09
30
13 10
7 47 34-37
20 37 4X.9
0.3
x.3 0.09
15
16 XX
7 51 17-65
+20 27 59.4
0.3
1.3
0.09
31
13 6
74727-58
+20 37 59.7
0.3
x.3 0.09
i6
16 7
7 51 15. 10
-1-2028 5,8
o«3
1-3
0.09
32
13 2
7 47 20.75
+ao 38 17.7
0.3
X.3I ao9
[Eph laj
PART III.
PHENOMENA
[Eph "] 559
560 ECLIPSES, 1912.
In the year 191 2 there will be four eclipses, two of the Sun and two of the Moon.
I. — A Partial Eclipse of the Moon, 191 2, April i, invisible at Washington; the
beginning visible generally in Europe, Africa, Asia, except the extreme north-
eastern portion, central and western Australia, and eastern South America; the
ending visible generally in South America except the northwest portion, Europe,
Africa, central and western Asia, and western Australia.
ELEMENTS OF THE ECLIPSE,
d h m a
Greenwich mean time of <P in right ascension, April i 9 19 53.6
h m s s
Sun's right ascension o 43 19.58 Hourly motion 9.10
Moon's right ascension 12 43 19.58 Hourly motion 122.17
Sun's declination 4 39 39.5 N. Hourly motion o 57.8 N.
Moon's declination 3 39 4.2 S. Hourly motion 16 20.6 S.
Sun's equa. hor. parallax 8.8 Sun's true semidiameter 15 59.8
Moon's equa. hor. parallax 58 21.7 Moon's true semidiameter 15 53.4
CIRCUMSTANCES OF THE ECUPSE.
d h m
Moon enters penumbra April i 7 54.4
Moon enters shadow i 9 25.7
Middle of the eclipse i 10 14.0
Moon leaves shadow i 11 2.3
Moon leaves penumbra 112 33.7
Contacts of Shadow Angles of position The Moon being in the zenith
with Moon's limb. from the north point. in longitude
from Greenwich. and in latitude.
Greenwich Mean Time.
•
First 177 to W. 39 31 E. 3 41 S.
Last 125 to W. 16 7 E. 47 S.
Magnitude of the eclipse = 0.1 87 (Moon's diameter = i.o).
II. — A Central Eclipse 0/ the Sun, 1912,* April 16-17, visible at Washington as a
partial eclipse, the Sun rising eclipsed. The central eclipse will be total for about
thirty-two minutes at the middle of its duration. For the rest of its duration it
will be anntdar.
ELEMENTS OF THE ECLIPSE,
d h m B
Greenwich mean time of 6 in right ascension, April 17 o 3 27.1
h m s s s
Sun and Moon's R. A. i 40 36.50 Hourly motion 9.27 and 123.43
// / M
Sun's declination 10 26 51.2 N. Hourly motion o 52.8 N.
Moon's declination 11 o 47.9 N. Hourly motion 15 0.8 N.
Sun's equa. hor. parallax 8.8 Sun's true semidiameter 15 55.5
Moon's equa. hor. parallax 57 41.4 Moon's true semidiameter 15 42.3
CIRCUMSTANCES OF THE ECLIPSE.
Greenwich Mean
Time.
Longitude from
Greenwich.
Latitnde.
d h m
• /
• f
Eclipse begins April
16 20 53.7
42 13.7 W.
6 48.2 S.
Central eclipse begins
16 22 0.7
61 1 1.4 W.
5 3.5 N.
Central eclipse changes from
annular to total
16 23 18.9
15 36.2 w.
33 50.4 N.
Central eclipse changes from
total to annular
16 23 58.1
3 9.4 W.
45 24.7 N.
Central eclipse at local appa-
rent noon
17 0 3.5
0 57.6 W.
46 52.9 N.
Central eclipse ends
17 I 7.3
89 48.4 E.
57 19.8 N.
Eclipse ends
17 2 14.3
[Bph xa]
67 18.6 E.
45 52.1 N.
ECLIPSES, 1912. 561
III. — A Partial Eclipse o/ihe Moon, 1912, September 25-26, the Moon setting at
Washington as the eclipse begins; the beginning visible generally in North America
except the extreme eastern portion, the Pacific Ocean, eastern Asia, and Australia;
the ending visible in central and western North America, the Pacific Ocean, Australia,
central and eastern Asia.
ELEMENTS OF THE ECUPSE.
d h m s
Greenwich mean time of <P in right ascension, September 25 22 44 33.4
h m 8 s
Sun's right ascension 12 10 52.81 Hourly motion 9.00
Moon's right ascension o 10 52.81 Hourly motion 108.99
// / //
Sun's declination i 10 46.3 S. Hourly motion o 58.5 S.
Moon's declination on 49.8 N. Hourly motion 14 52.3 N.
Sun's equa. hor. parallax 8.8 Sun's true semidiameter 15 57.6
Moon'sequa.hor. parallax 55 15.8 Moon's true semidiameter 15 2.8
CIRCUMSTANCES OF THE ECUPSE.
Greenwich Mean Time.
d h m
Moon enters penumbra September 25 21 15.3
Moon enters shadow 25 23 3.1
Middle of the eclipse 25 23 44.7
Moon leaves shadow 26 o 26.3
Moon leaves penumbra 26 2 13.7
Contacts of Shadow Angles of position The Moon being in the zenith
with Moon's limb. fxt>m the north point. in longitude
from Greenwich. and in latitude.
First 8 to W. 167 51 W. o 16 N.
Last 50 to W. 171 55 E. o 37 N.
Magnitude of the eclipse = 0.1 22 (Moon's diameter = i.o).
rV. — A Total Eclipse of ike Sun, 1912, October 9-10, invisible at Washington.
ELEMENTS OF THE ECLIPSE,
d h m s
Greenwich mean time of 6 in right ascension October 10 i 59 47.8
h m s s s
Sun and Moon's R. A. 13 2 15.76 Hourly motions 9.20 and 127.01
bun's declination 6 38 25.5 S. Hourly motion o 56.9 S.
Moon's declination 7 6 15.2 S. Hourly motion 16 37.2 S.
Sun's equa. hor. parallax 8.8 Sun's true semidiameter 16 1.4
Moon's equa. hor. parallax 59 14.7 Moon's true semidiameter 16 7.9
CIRCUMSTANCES OF THE ECLIPSE.
Greenwich Mean
Time.
d h m
9 22 57.0
9 23 58.7
Longitude from
Greenwich.
0 /
75 59.2 W.
92 28.6 W.
Latitude.
12 39.9 N.
3 43-1 N.
10 I 59.8
10 3 13.0
10 4 14.9
33 1 1.2 W.
47 14.5 E.
29 25.9 E.
34 56.9 S.
52 28.1 S.
43 37.6 S.
Eclipse begins October
Central eclipse begins
Central eclipse at local appa-
rent noon
Central eclipse ends
Eclipse ends
The regions within which the eclipses of the Sun are visible are laid down on the
accompanying charts; from which, by means of the dotted lines, the Greenwich
mean times of beginning and ending at any place may be found with an uncertainty
which will vary from three or four minutes for a high Sun, to fifteen or twenty
minutes when the Sun is near the horizon.
igj2 36 t^P** "1
562
ECLIPSES, 1912.
BESSELIAN ELEMENTS OF THE CENTRAL ECLIPSE OF THE SUN, 1912,
APRIL 16-17.
Greenwich
Mean
Time.
22
23
h m
20 50
21 O
10
20
30
40
50
O
10
20
30
40
50
o
10
20
30
40
50
o
10
20
30
40
50
o
10
20
30
40
50
o
10
20
Coordinates of Center
of Shadow on
Fundamental Plane.
-1.56892
-1 .48787
1.40680
1.32574
1.24466
1. 16358
1.08250
-I.OOI4I
0.92032
0.83922
0.7581 1
0.67700
0.59589
-0.51478
0.43366
0.35254
O.2714I
0.19028
O.IO914
-0.02801
+0.05313
0.13428
0.21542
0.29657
0.37771
+0.45886
0.54002
0.621 17
0.70233
0.78348
0.86464
+0.94580
1.02695
+i.io8ii
-0.20034
-0.15937
0.1 1 842
0.07747
-0.03652
+0.00442
0.04537
+0.08631
0.12725
0.16818
0.2091 1
0.25004
0.29096
+0.33188
0.37279
0.41369
0.45460
0.49551
0.53641
+0.57731
0.61820
0.65908
0.69996
0.74084
0.78171
+0.82258
0.86344
0.90430
0.94515
0.98600
1.02684
+1.06768
1. 1085 1
+1. 14933
Direction of Axis of Shadow.
Log sin d
+9.25655
+9.25665
9.25675
9.25684
9.25694
9.25704
9.25713
+9.25723
9.25733
9.25742
9.25752
9.25762
9.25771
+9.25781
9.25791
9.25800
9.25810
9.25820
9.25829
+9.25839
9.25849
9.25858
9.25868
9.25878
9.25887
+9.25897
9.25906
9.25916
9.25926
9.25935
9.25945
+9.25955
9.25964
+9.25974
Log cos d
+9.99280
+9.99280
9.99280
9.99280
9.99279
9.99279
9.99279
+9.99278
9.99278
9.99278
9.99277
9.99277
9.99277
+9.99276
9.99276
9.99276
9.99275
9.99275
999275
+9.99274
9.99274
9.99274
999273
9.99273
9.99273
+9.99272
9.99272
9.99272
9.99271
9.99271
9.99271
+9.99270
9.99270
+9.99270
312 35.0
315
317
320
322
325
327
330
332
335
337
340
342
345
347
350
352
355
357
o
2
5
7
10
12
15
17
20
22
25
27
30
32
35
5-1
35.1
5.2
35.2
5.2
35.3
5.3
35.4
5.4
35.4
5.5
35-5
5.5
35.6
5.6
35.6
5.7
35.7
5.8
35.8
5.8
35-9
5.9
35-9
6.0
36.0
6.0
36.1
6.1
36.1
6.2
36.2
6.2
Radius of Penumbra
and Shadow on
Fundamental Plane.
+0.55004
+0.55003
0.55002
0.55001
0.54999
0.54998
0.54997
+0.54995
0.54994
0.54992
0.54990
0.54989
0.54987
+0.54985
0.54983
0.54981
0.54979
0.54977
0.54975
+0.54973
0.54971
0.54968
0.54966
0.54963
0.54961
+0.54958
0.54956
0.54953
0.54950
0.54948
0.54945
40.54942
0.54939
+0.54936
+0.00410
+0.00409
0.00408
0.00407
0.00405
0.00404
0.00403
+0.00401
0.00400
0.00398
0.00397
0.00395
0.00393
+0.00391
0.00390
0.00388
0.00386
0.00384
0.00381
+0.00379
0.00377
0.00375
0.00373
0.00370
0.00368
+0.00365
0.00362
0.00360
0.00357
0.00354
0.00351
+0.00348
0.00345
+0.00342
Greenwich
Mean
Time.
h
20
21
22
23
Q
I
2
3
m
O
O
O
O
o
o
o
o
Logs'
for
X Minute.
+7.9086
7.9088
7.9090
7.9092
7.9093
7.9094
7.9094
+7.9094
Logy*
for
X Minute.
+7.6125
7.6124
7.6122
7.6120
7.6117
7.6114
7.61II
+7.6107
[BtA is]
Log |a'
for
X Minute.
+I.1762
1. 1762
1.1762
1. 1762
1. 1762
1. 1762
1.1762
+1.1762
Log l^sngents of Angles of Cones.
Penumbra.
+7.66802
7.66802
7.66801
7.66800
7.66800
7.66799
7.66799
+7.66798
Shadow.
+7.66585
7-66585
7.66584
7.66584
7.66583
7.66582
7.66582
+7.66581
CENTRAL ECLIPSE
I
$ Longitude ^ We5t 4 of S^ Oreenwicb"^
NohyTTm hours of begtrntry and enc
f)F APRIL 16-17™ 191^.
fftjoi art expressed in Oreenwkh Meai Time
ECLIPSES, 1912.
563
PATH OF THE ANNULUS AND SHADOW DURING THE CENTRAI,
ECLIPSE OF THE SUN, 1912, APRIL 16-17.
^^ ^>^^ ^BA — --S ^^M
Central Line.
Duration of
Orecnwicn
Mean Time.
Latitttde.
Longitude from
Greenwich.
Annulus or
Totality on
Central Line.
0 /
0 /
m •
Limits
+ 5 3.5
8 43.0
61 II.4W.
47 46.3
Eclipse Annular
22** 5°
0 39.4
10
II 8.6
42 17-4
0 33.5
15
13 12.4
38 27.8
0 28.8
20
15 6.2
35 25.3
0 24.8
25
16 54.0
32 54.2
0 21.3
30
+18 37.5
30 41.7
0 18.I
35
20 17.8
28 43.5
0 15.2
40
21 55.5
26 56.0
0 12.6
45
23 31.3
25 16.2
0 10.2
50
25 5.7
23 42.5
0 8.1
55
26 38.7
22 13.4
0 6.2
23 0
+28 10.6
20 47.5
0 4.5
5
29 41.6
19 23.9
0 3.1
10
31 12.0
18 1.6
0 1.8
15
20
32 41.7
34 ii.i
35 40.0
16 39.6
15 17.4
13 53.9
Eclipse Annular
0 0.7
0 0.2
Eclipse Total
25
0 0.9
30
+37 8.8
12 28.5
0 1.3
35
38 37.3
II 0.3
0 1.5
40
40 5-7
9 28.6
0 1.6
45
41 33.9
7 52.2
0 1.5
50
43 2.0
6 10. 1
0 I.I
55
0 0
44 30.0
+45 57.9
47 25.6
4 21.2
2 24.1
0 17.2 w.
Eclipse Total
0 0.5
0 0.3
0 1.3
Eclipse Annular
5
10
48 53.0
2 1.7 E.
0 2.6
15
50 20.0
4 34.6
0 4.1
20
51 46.2
7 24.6
0 5.8
25
53 11.4
10 35.0
0 7.8
30
+54 35.0
14 10.3
0 1 0.0
35
55 56.2
18 16.7
0 12.5
40
57 13.9
23 2.3
0 15.3
45
58 26.0
28 37.4
0 18.4
50
59 29.5
35 18.9
0 22.0
55
60 18.7
43 32.9
0 26.0
I 0
+60 42.5
54 12.5
0 30.9
5
60 3.5
70 10.2
0 37.8
Limits.
+57 19.8
89 48.4 E.
Eclipse Annular
[Eph X2]
i
564
ECLIPSES, 1912.
BESSEUAN ELEMENTS OF THE TOTAL ECLIPSE OF THE SUN, 1912,
OCTOBER 9-10.
Coordinates of Center
Radius of Penumfaira
of Shadow on
Direction of Axis of Shadow.
and Shadow on
Greenwich
Mean
Fundamental PUne.
Fundamental Plane.
Tinie.
%
y
Log sin d
Log cos J
1*
/i
ii
h m
22 50
-1. 56412
+0.36910
-9.05989
+9.99712
e
345
43.4
+0.54365
-0.00226
23 0
-1 .48 1 74
+0.32482
-9.06006
+9.99712
348
13.5
+0.54368
-0.00223
10
1.39935
0.28054
9.06022
9.99712
350 43-5
0.54371
0.00220
20
1. 3 1 696
0.23627
9.06039
9.9971 1
353
13-6
0.54373
0.002 1 7
30
1-23456
0.19199
9.06055
9.9971 1
355
43-6
0.54376
0.00214
40
1.15216
0.14772
9.06072
9.9971 1
358
13.6
0.54379
0.0021 1
50
1.06976
0.10345
9.06088
9.9971 1
0
43.7
0.54381
0.00209
0 0
-0.98735
+0.05918
-9.06105
+9.99710
3
13-7
+0.54384
-0.00207
10
0.90494
+0.01492
9.0612I
9.99710
5
43.8
0.54386
0.00204
20
0.82253
-0.02935
9.06138
9.99710
8
13.8
0.54389
0.00201
30
0.74012
0.07361
9-06154
9.99710
10
43-8
0.54391
0.00199
40
0.65770
0.1 1 787
9.0617I
9.99710
13
13.9
0.54393
0.00197
50
0.57529
0.16213
9.06187
9-99709
15
43.9
0.54396
0.00195
I 0
-0.49287
-0.20638
-9.06204
+9.99709
18
14.0
+0.54398
-0.00193
10
0.41045
0.25062
9.06220
9-99709
20
44.0
0.54400
O.OOI9I
20
0.32803
0.29487
9.06237
9-99709
23
14.0
0.54402
0.00189
30
0.24560
0.3391 1
9-06253
9.99708
25
44.1
0.54404
0.00187
40
0.16318
0.38334
9.06270
9.99708
28
14.1
0.54406
0.00185
50
-0.08076
0.42757
9.06286
9.99708
30 44-2
0.54407
0.00184
2 0
+0.00167
-0.47180
-9.06303
+9.99708
33
14.2
+0.54409
-0.00182
10
0.08410
0.51603
9-06319
9.99708
35
44-2
O.544H
0.00180
20
0.16652
0.56025
9-06336
9.99707
38
14.3
0.54412
0.00179
30
0.24895
0.60447
9-06352
9-99707
40 44-3
0.54414
0.00177
40
0.33137
0.64868
9.06368
9-99707
43
14.4
0.54415
0.00176
50
0.41380
0.69289
9-06385
9-99707
45
44.4
0.54417
0.00174
3 0
+0.49623
-0.73710
-9.06401
+9.99706
48
14.4
+0.54418
-0.00173
10
0.57865
0.78130
9.06418
9.99706
50 44-5
0.54419
0.00172
20
0.66108
0.82550
9.06434
9.99706
53
14.5
0.54421
0.00170
30
0.74350
0.86969
9-06451
9.99706
55
44-6
0.54422
0.00169
40
0.82592
0.91388
9.06467
9.99706
58
14.6
0.54423
O.OOI6S
50
0.90834
0.95806
9.06483
9-99705
60
44.6
0.54424
0.00167
4 0
+0.99076
-1.00224
-9.06500
+9-99705
63
14-7
+0.54425
-0.00166
10
1-07317
1. 0464 1
9.06516
9.99705
65
44.7
0.54426
0.00165
20
+1. 15559
-1.09058
-906533
+9-99705
68
14.8
+0.54426
-0.00165
Greenwich
Logs'
for
z Minute.
Logj/
for
z Minute.
LogM'
for
z Minute.
Log Tangents of Angles of Cones.
Mean
Time.
Penumbra.
Shadow.
h m
22 0
23 0
0 0
1 0
2 0
3 0
4 0
5 0
+7.9158
7.9159
7.9160
7.9160
7.9161
7.9161
7.9160
+7-9159
-7.6463
7.6462
7.6461
7.6459
7.6457
' 7-6455
7-6452
-7-'^H48
+ I.I762
1. 1762
1. 1762
1. 1762
1. 1762
I. 1762
1. 1 762
+ I.I762
+7.67062
7-67063
7.67063
7.67064
7-67065
7.67065
7.67066
+7.67066
+7.66845
7.66846
7.66847
7.66847
7.66848
7.66848
7.66849
+7.66849
[Eph za]
TOTAL. ECUPSE OF
A/ofe:" Tin hours cfbtgrnng and mm
^^(JOCTOBER 9-10™191E.
^T S< Qreenwich"^
b Longitude feEQ5t of ^ Greenwich
^ org expressed in Greenwich Mean Time.
ECLIPSES, 1912.
565
PATH OF THE SHADOW DURING THE TOTAI. ECUPSE OF THE
SUN, 1912, OCTOBER 9-10.
Grecn-
Northem Limit of Shadow
Path.
Centxal Line.
Southern Limit of Shadow
Path.
Duration
of
Totality
wicn
Mean
Time.
Latitude.
Longitude
from
Greenwich.
Latitude.
Longitude
from
Greenwich.
Latitude.
Longitude
from
Greenwich.
on
Central
Line.
Limits.
+ 3 53.1
• /
92 25.6 W.
+ 3 43.1
92 28.6 w.
+ 3 37.3
• /
92 30.8 w.
m s
• • •
0** cP
2 29.4
83 53-5
+ 2 24.9
84 25.3
+ 2 20.8
84 58.1
0 36.5
5
+ 0 6.9
75 13.4
- 0 0.8
75 35.3
- 0 8.3
75 57.2
0 50.7
10
- I 49.1
70 16.6
I 58.2
70 37.0
2 7.1
70 57.5
I 0.0
15
3 35.8
66 35.7
3 45.8
66 55.8
3 55.6
67 16.0
I 7.6
20
5 171
63 37.0
527.8
63 56.8
5 38.3
64 16.7
I 14. 1
25
6 54.8
61 5.2
7 6.0
61 25.0
7 17.0
61 44.9
I 19.9
30
- 8 29.9
58 52.5
- 8 41.6
59 12.3
- 8 53.1
59 32.2
I 25.0
35
10 2.9
56 53.8
10 15.0
57 13.7
10 26.9
57 33.7
I 29.7
40
II 34-5
55 6.2
II 46.9
55 26.1
II 591
55 46.1
I 33.8
45
13 4.7
53 26.9
13 174
53 46.8
13 30.0
54 6.9
I 37.5
50
14 33.9
51 54.1
14 46.9
52 14.1
14 59.8
52 34.2
I 40.9
55
16 2.2
50 26.5
16 15.5
50 46.5
16 28.7
51 6.6
I 43.8
I 0
-17 29.9
49 2.8
-17 434
49 22.9
-17 56.9
49 43.0
I 46.4
5
18 57.0
47 42.4
19 10.8
48 2.4
19 24.6
48 22.5
I 48.6
10
20 23.7
46 24.1
20 37.7
46 44.1
20 51.8
47 4.1
I 50.6
15
21 50.0
45 7.2
22 4.3
45 27.1
22 18.7
45 47.1
I 52.2
20
23 16.1
43 51.1
23 30.6
44 10.9
23 45.2
44 30.7
I 53.3
25
24 42.0
42 35.2
24 56.8
42 54-8
25 11.6
43 144
I 54-2
30
-26 7.8
41 18.6
-26 22.8
41 38.1
-26 38.0
41 57.5
I 54.7
35
27 33-5
40 0.9
27 48.9
40 20.1
28 4.3
40 39.3
I 54.9
40
28 59.2
38 414
29 14.9
39 0.3
29 30.6
39 19.2
I 54.7
45
30 25.1
37 194
30 41. 1
37 37.9
30 57.1
37 564
I 54.2
50
31 51. 1
35 54.2
32 7.3
36 12.2
32 23.6
36 30-2
I 53.3
55
33 17.3
34 24.7
33 33.7
34 42.2
33 504
34 59.7
I 52.1
2 0
-34 43.6
32 50.1
-35 0.4
33 7.2
-35 17.3
33 24.0
I 50.6
5
36 10.2
31 9.6
36 27.2
31 26.0
36 444
31 42.2
I 48.6
10
37 37.0
29 21.9
37 54.3
29 37.6
38 11.7
29 52.9
I 46.3
15
39 4.0
27 25.7
39 21.6
27 40.4
39 39.2
27 54.7
I 43.6
20
40 31.3
25 19.2
40 49.1
25 32.8
41 6.9
25 45.9
I 40.6
25
41 58.6
23 0.2
42 16.5
23 12.5
42 34.6
23 24.3
I 37.2
30
-43 26.0
20 26.3
-43 44.1
20 37.1
-44 2.3
20 47.3
I 33.3
35
44 53.1
17 34.3
45 11.3
17 43.2
45 29.6
17 51.5
I 28.9
40
46 19.9
14 19.8
46 38.1
14 26.6
46 56.4
14 32.6
I 24.2
45
47 45-7
10 36.8
48 3.7
10 40.9
48 21.8
ID 44.2
I 18.8
50
49 9.6
6 16.9
49 27.3
6 17.7
49 45.2
6 17.7
I 130
55
50 308
I 7.1 w.
50 47.9
I 3-9 W.
51 5.0
0 59.9W.
I 6.3
3 0
-51 46.3
5 14.0 E.
-52 2.4
5 22.3 E.
-52 18.6
5 314E.
0 58.8
5
52 51.4
13 30.7
53 5.6
13 46.1
53 20.0
14 2.8
0 49.9
10
53 30.2
25 54-7
53 40.9
26 22.9
53 51.3
26 52.3
0 38.1
Limits.
-52 26.1
47 12.3 E.
-52 28.1
47 14.5 E.
-52 38.9
47 19.1E.
• • •
[Bph xa]
566 MOON'S PHASES, LIBRATIONS, ETC., 1912.
THE EQUINOXES AND SOLSTICES, THE MOON'S PHASES, LIBRATIONS. ETC, IN
ASTRONOMICAL TIME AND DATE OF THE 90TH MERIDIAN WEST FROM
GREENWICH.
To convert Astronomical time and date into Civil time and date, afi&x P. M. in case the
number of hours is less than twelve. When the number of hours is greater than twelve, subtract
twelve hours, add one to the number of days, and affix A. M.
Vernal Equinox Mar. 20'' 5** 29".
Summer Solstice June 2i<* 1^ 17™.
Autumnal Equinox Sept. 22^ 16** 8'
Winter Solstice Dec. 2i<* lo** 45".
PHASES OF THE MOON.
New Moon.
Pint Quarter.
PuU Moon.
Last Quarter.
d h m
d h m
d h m
d h m
January 3 19 29.7
January
10 13 42.9
January 18 17 lo.o
January 26 14 51.4
February 2 5 58.0
February
9 6 50.8
February 17 11 44.2
February 25 i 26.7
March 2 16 42.0
March
10 I 55.6
March 18 4 8.7
March 25 9 1.9
April I 4 4.5
April
8 21 23.8
April 16 17 40.1
April 23 14 47.2
April 30 16 19.4
May
8 15 56.0
May 16 4 13.5
May 22 20 1 1.3
May 30 5 29.5
^ une
July
7 8 35-6
June 14 12 23.6
July 13 19 13.2
June 21 2 38.9
July 20 II 18.5
June 28 19 33.8
6 22 46.9
July 28 10 28.2
August
5 10 17.6
August 12 I 57.6
August 18 22 56.6
August 27 I 58.8
September
3 19 23.1
September 10 9 48.5
September 17 13 54.8
September 25 17 34.2
October
3 2 48.1
October 9 19 40.6
October 17 8 6.2
October 25 8 30.5
November
I 9 37-5
November 8 8 4.8
November 16 4 43.3
November 23 22 12.2
November
30 17 4.8
December 7 23 6.6
December 16 2 6.5
December 23 10 30.1
December
30 2 1 1.9
APOGEE. PERIGEE, AND GREATEST LIBRATION.
Apogee.
Perigee.
Greatest Libration.
d h
d h
d h
d h
January
February*
3 19-7
January 25 23.8 E.
January
February
9 20.4 W-
January
February
17 7.9
1 8.3
February 22 14.3 E.
7 4-6 W.
13 170
February
29 15.0
March 19 22.5 E.
March
6 9.0 W.
March
12 10.7
March
28 3.0
April 15 14.3 E.
April
3 3.8 W.
April
9 6.8
April
22 4.3
May 13 3.1 E.
April
30 4.5 W.
May
7 2.0
May
18 22.7
June 10 2.4 E.
July 8 6.3 E.
May
26 10.8 W.
une
3 18.8
June
July
15 22.5
June
July
22 13.3 w.
] uly
I 6.6
14 5.9
August 5 10.6 E.
20 ii.o W.
] uly
38 10.8
August
II 156
September 2 9.3 E.
August
17 15.0 W.
August
24 14.6
September
8 23.9
September 29 11.6 E.
September
14 19.4 W.
September
21 2.3
October
7 0.8
October 25 16.0 E.
October
12 19.6 w.
October
18 20.0
November
2 16.9
November 21 18.3 E.
November
9 8.6 W.
November
15 i6-5
November
27 16.8
December 19 15. i E.
December
5 21.8 W.
December
13 13.3
December
25 8.8
FORMUL-^ FOR THE LIBRATION OF THE MOON.
Let 7«the inclination of the Moon's equator to the ecliptic (ai^ 28'.8).
Q=the mean longitude of the Moon's ascending node, or the mean longitude of the
descending node of the Moon's equator.
C=the angle at the center of the Moon's disk made by a Itmar meridian with the circle
of declination, counted from north to east on the apparent disk.
Jl, j9, a, ^Bsthe apparent lone*., lat., right ascension, and ded. of the Moon, corrected for parallax.
JCasthe selenocentric long, of the Earth, counted on the Moon's equator from descending
node, U,
f, ^, Q',( ssthe quantities defined on page 212, where their values are given.
The Moon's libration in longitude and latitude may then be found for any time by means of
the following formulae, in connection with the tables given on pages 212 and 213:
/i«=-o'.574 sin 2 (ft-Jl) Jl'«Jl-f/*+A6
A -=sin / cos (Q— >l) The libration in latitude ^b»B^fi
tan B»tan / sin (^ — X) The libration in longitude ^l^X'^t,
• cos (Jt^-f ^— 0) . . cos (Q--nO
• ^^^m, > =■— sin ♦ — XTT"! —
cos o cos o
[Bph ta]
ainC»sin
STARS OCCULTED BY THE MOON, 1912. 567
MEAN PLACES FOR 1912.0. (January o'».764, Washington.)
Name of SUr.
Masni-
tuae.
Right Ascension.
Annual
Proper Motion.
Declination.
Annual
Proper Motion.
80
B. Pisciam
6.3
h m 8
0 0 33- 128
8
+ 0.0037
e * n
— 0 59 29.73
H
— 0.052
4
Ceti
6.3
0 3 13.621
+ 0.0018
3 2 18.60
+ 0.009
5
Ceti
63
0 3 41-730
+ O.00Q3
— 2 56 13.74
+ 0.0X4
98
B. Pisciam
6.3
0 13 16.453
+ 0.0051
+ I II 58.45
•f- o.oxa
44
Piscium
6.0
0 20 53.465
— 0.00x4
X 27 8.50
— aoa3
^47
B. Piscium
5.9
0 43 45.851
+ 0.0483
+ 4 49 42.51
- 1.13a
155
B. Piscium
6.5
0 46 46.352
+ aooii
2 54 27.09
- 0.094
171
B. Piscium
6.3
0 55 15.864
+ 0.0008
6 0 31.43
— 0.005
€
Piscium
4-4
0 58 22.474
- 0.0054
7 24 59.64
+ ao26
73
Piscium
6.2
z 0 zg.oio
+ 0.002a
5 " 5.47
— 0.008
77
Piscium
6.4
I I 15.950
+ 0.001 X
+ 4 26 24.29
— 0.X14
if
Piscium
5-6
X 3 50094
— 0.0x80
5 " 4.45
— 0.X71
C
Piscium
5.6
1 9 7.938
+ 0.0096
7 6 36.94
- 0.052
88
Piscium
6.2
X 10 7.659
— O.OOIX
6 31 47.70
- 0.026
263
B. Piscium
6.4
X 23 45.664
+ 0.0027
7 30 20.43
+ 0.006
TV
Piscium
5.6
X 32 25.868
- 0.0049
+11 41 30.01
-f- 0.034
54
Ceti
6.0
X 46 1Z.670
— 0.0048
zo 36 28.61
— 0.027
26
B. Arietis .
6.0
X 54 43.054
— 0.0003
II 52 6.42
— 0.029
12
H*. Arietis .
6.3
X 57 50.734
— 0.0009
13 3 9.71
— 0.006
19
Arietis .
5.8
2 8 X5.154
+ 0.0071
14 52 4.28
— 0.0a I
27
Arietis .
6.4
2 26 1.382
+ 0.0029
+17 18 54.32
- ao89
36
Arietis .
6.5
2 39 24.322
+ 0.0036
17 23 30.69
- 0.040
40
Arietis .
6.0
2 43 35890
+ 0.0030
17 55 2.06
— 0.020
IT
Arietis .
52
2 44 22.745
+ 0.0004
17 5 5576
- aoix
45
Arietis .
6.0
2 30 51.602
— 0.001 1
17 58 32.54
— aoo6
P
Arietis .
5-6
2 51 27.933
+ 0.0196
+17 40 22.05
— o.ao8
47
Arietis .
5.8
2 53 2.820
+ 0.0160
20 18 59.33
— 0.02X
e
Arietis {niean^
f •
4.6
2 54 10.609
— aooo9
20 59 20.H
- aoxo
'i
Arietis .
, .
6.5
3 3 21.615
+ 0.0018
18 27 28.44
— 0.014
Arietis .
45
3 6 35.658
+ 0.0x10
19 23 40.42
+ 0.001
c
Arietis .
5.0
3 9 50-413
— 0.0019
+20 43 7.95
- 0.082
T
Arietis .
51
3 16 8.632
+ 0.0023
20 49 49.49
- 0.033
63
Arietis .
52
3 17 41.193
- 0.0032
20 25 40.83
— 0.009
65
Arietis .
6.0
3 19 21.506
-h aooo6
20 29 30.66
— 0.008
66
Arietis .
6.1
3 23 17.762
+ 0.0006
22 30 4.69
— axxa
14
HI. Tauri .
6.5
3 33 53.497
■ • • •
+20 37 46.63
• • •
16
Tauri .
5.4
3 39 34.156
+ 0.0009
24 0 47.82
- 0.Q49
17
Tauri
3.8
3 39 38.812
+ 0.0016
23 50 14.36
- ao5o
18
Tauri .
5.6
3 39 54483
+ 0.0004
24 33 50.10
— 0.038
9
Tauri .
4-3
3 39 57.969
+ 0.0010
24 II 31.20
- 0.034
20
Tauri .
41
3 40 35.250
+ 0.0016
+24 5 36.49
- 0.044
21
Tauri .
5.8
3 40 39.718
+ 0.0012
24 16 49.77
- 0.046
22
Tauri .
6.5
3 40 48.162
+ 0.0006
24 15 14.53
- 0.039
23
Tauri .
43
3 41 6.015
+ 0.0017
23 40 29.39
- 0.050
V
Tauri .
3.0
3 42 15.036
+ aooi6
23 50 1.34
- 0.050
104
B. Tauri
5-5
3 43 8.050
+ 0.0006
+23 9 5-51
- 0.045
27
Tauri
3.7
3 43 55601
+ aoox3
23 47 6.12
- 0.048
28
Tauri .
52
3 43 56.883
+ 0.0009
23 52 6.75
- 0.046
133
B. Tauri
59
3 44 44578
+ 0.0026
21 58 3752
— ao4a
32
Tauri .
5.8
3 51 39.896
+ 0.0045
22 13 30.72
— 0.112
33
Tauri .
6.0
3 51 50.706
+ 0.0026
+22 55 14.90
— 0.009
z6i
B. Tauri .
6-5
3 55 43 296
+ 0.0027
22 57 12.79
— 0.052
36
Tauri .
5-6
3 59 5724
+ o.ooox
23 51 51.52
— 0.022
/
Tauri .
5.6
4 5 28.132
— 0.0024
+26 15 7.32
— ao4a
fBph la]
568 STARS OCCULTED BY THE MOON, 1912.
MEAN PLACES FOR 1912.0. (January 0*764, Washington.)
Name of Star.
Maeni-
tade.
Right Ascension.
Annual
Proper Motion.
Declination.
Anmsl
Piopttr Motioo.
X Tauri
5-3
h m 8
4 17 13.516
8
+ 0.0028
+25 25 20.45
— o.ax
62 Tauri .
6.1
4 18 41.293
+ 0.0008
24 5 48.07
— OU0I9
17 B. Aurigae .
6.0
4 47 17.188
+ aoo33
27 45 3-6i
— ou»37
38 B. Aurigae .
6.5
4 59 7703
~ 0.0001
27 34 25.87
— OJ07;
47 B. Aurigae .
6.0
5 4 13.342
• • • •
27 55 12.73
• •
354 B. Tauri .
6.4
5 15 27.674
— 0.0027
+27 52 7.97
— OUB15
22 Aurigae .
6.4
5 17 48.40X
+ 0.00x7
28 51 13.29
— OUQ31
P Tauri .
1.8
5 20 43.679
+ 0.0025
28 32 2.38
- ai--
Z07 B. Aurigae .
6.5
5 30 24.114
— 0.0013
27 36 20.07
— aoT^
112 B. Aurigae .
5-7
5 31 38.995
— 0.0004
26 52 12.06
— OUO^
Z16 B. Aurigae .
5-9
5 33 42.533
+ 0.0012
+29 9 5509
— OJOIO
406 B. Tauri
5.6
5 45 25.308
— 0.0013
27 56 32.71
+ aon
136 Tauri
4.6
5 47 47-797
+ 0.0013
27 35 32.11
— OLoao
154 B. Aurigae .
6.4
5 50 58.362
• • ■ A
28 55 44.84
• ■ >
415 B. Tauri .
6.x
5 55 28.740
+ aoox8
27 34 6.80
— Ouoot
183 B. Aurigae .
6.3
6 0 45.367
• • • •
-|-29 31 12.82
• ■ •
K Aurigae .
4-4
6 9 46.300
-0.0043
29 31 53.02
— a263
211 B. Aurigae .
6.3
6 15 34.880
• ■ • •
29 34 53.86
A • •
49 Aurigae .
51
6 29 39.574
— 0.000X
28 5 30.06
— 0.0J7
53 Aurigae .
5.6
6 32 48.213
— aooi9
29 3 38.15
— 0.02a
54 Aurigae .
5.8
6 34 0.186
— O.O0X2
+28 20 29.82
— ao»5
28 Geminorum
5.5
6 39 10.962
— aooox
29 3 38.85
— aQa6
47 Geminorum
5.6
7 5 55.705
— 0.0011
27 0 6.82
— 0.051
53 Geminorum
59
7 10 27.517
— 0.0008
28 3 4-75
— aooi
Z34 B. Geminorum
6.5
7 II 36.433
+ aoosS
26 50 55.62
- ax34
59 Geminorum .
5.7
7 19 5.018
+ O.OOIO
+27 48 31,80
+ aoi9
t Geminorum
39
7 20 15.787
— 0.0066
27 58 25.69
— aoSS
b^ Geminorum
5.0
7 23 51.604
— 0.0032
28 18 Z.06
— 01063
^3 Geminorum
5.0
7 24 20.461
— 0.0019
28 5 54.30
— aojo
V Geminorum .
43
7 30 30.136
— 0.0016
27 5 31.57
— axo9
c Geminorum .
5-5
7 38 44.949
— 0.0017
+25 59 38.90
— ao26
0 Geminorum
5.0
7 48 6.851
— 0.0020
26 59 39.89
— aoaj
u Cancri .
59
7 55 36.506
+ 0.0003
25 38 3.97
— aoQ4
4 Cancri .
6.2
7 56 25.457
— 0.0012
25 19 56.69
+ 0L007
V> Cancri .
5-9
8 5 9.298
- 0.0055
25 46 30.56
- a35»
7i Cancri .
59
8 15 18.358
— 0.001 1
+24 x8 0.36
~ aoa6
28 Cancri .
6.1
8 23 23.873
— 0.0023
24 26 15.0X
— 0.07a
v^ Cancri .
57
8 26 18.481
— O.OQ56
24 22 42.34
— ao69
v* Cancri .
6.4
8 27 48.151
- 0.0047
24 23 4.92
- ao68
y Cancri .
4.7
8 38 11.770
— 0.0071
21 47 8.25
- 01043
194 B. Cancri {Second Star)
§ Cancri .
6.3
9 2 22.775
— 0.0121
+23 20 5.51
+ aoi6
52
9 4 18.172
+ O.OOII
22 24 7.24
+ otooa
79 Cancri .
6,1
9 5 17.686
+ aooo3
22 21 15.31
— aoos
90 H*. Cancri .
6.Z
9 8 35.867
— aooo7
21 38 46.60
— aoi3
57 B. Leonis .
6.5
9 39 36-591
+ 0.0020
19 16 6.70
- osrr:
107 B. Leonis .
6.3
10 0 54.649
— 0.0023
-j-i6 n 10,68
+ aoi:
7 Leonis .
3.6
10 2 32.132
— 0.0022
17 II 31.95
— 0.004
34 Leonis .
6.4
10 6 54.430
+ 0.0037
13 47 23.93
- aojs
37 Leonis .
5.5
10 IX 57.441
— 0.0013
X4 xo 3.18
— aoi4
42 Leonis .
6.1
10 17 6.509
— 0.0017
15 25 10.24
— ao27
46 Leonis .
5.8
xo 27 30.045
" 0.0024
4.14 35 2X.37
4* 0.022
/ Leonis .
53
xo 44 38.003
+ 0.0001
II 0 39.70
- 0.033
X Leonis .
4-7
IX 0 28.724
- 0.0234
7 48 43.47
— aa4i
308 B. Leonis .
5.8
II 9 27.534
+ 0.003a
+ 8 32 32.50
— Ok 125
[Eph la]
STAES OCCULTED BY THE MOON, 1912. 569
MEAN PLACES FOR 1912.0. (January o"".764, Washington.)
Name of Star.
Magni-
tude.
Right Ascension.
Annual
Proper Motion.
Declination.
Annual
Proper Motion.
a Leonis .
41
h m s
XX Z6 35.985
8
— 0.0062
0 > f*
+ 6 30 42.60
— 0.013
89 Leonis .
5.7
II 29 51.767
- o.oiai
3 32 56.60
— 0.104
p Virginis
3.8
Zl 46 6.685
+ 0.0494
2 15 38.58
- 0.275
27 B. Virginis
6.5
" 54 33325
- 0.0033
X I 12.25
+ 0.034
^ Virginis
52
zi 55 26,513
— o.oooB
4 8 43.43
— 0.012
zo Virginis
6.2
12 5 10.775
+ 0.0034
-f 2 23 31.41
— O.I8I
13 Virginis
5-9
12 14 9.590
+ 0.0019
— 0 17 53.12
— 0.021
tf Virginis
4.0
12 15 24.221
— 0.0036
0 10 40.16
— 0.027
3x9 B. Virginis
6.3
12 43 0.466
— 0.0003
5 49 12.95
- 0.053
38 Virginis
6.x
12 48 40.754
- aoi73
3 4 29.95
— 0.004
91 G. Virginis
6-5
12 49 5.686
— 0.0025
— 3 44 43-57
— 0.070
g Virginis
5.6
13 3 57 094
— 0.00x1
8 30 47.36
- 0.053
6 Virginis
4-4
13 5 23.519
— 0.0029
5 4 990
— 0.040
a Virginis
1.2
13 20 33.305
— 0.0026
10 42 7.95
- 0.032
h Virginis
5-4
13 28 19.851
- 0.0025
9 42 42.60
— aQ42
86 Virginis
5.6
13 41 14.833
— 0.00x4
-II 59 8.47
+ 0.012
621 B. Virginis
6.4
13 59 40.986
— 0.0030
14 32 56 34
— 0.016
40 H. Virginis
5-1
14 6 1.969
+ O.OOQ3
15 53 12.10
— 0.014
47 G. Librae .
6.1
15 I 22.368
+ 0.0065
21 46 5.81
— 0.051
1 Librae {var.) .
43
15 7 12.122
— 0.0031
19 27 33.76
- 0.055
25 Librae .
6.0
15 8 18.251
— 0.0036
—19 18 59.80
— 0.035
64 G. Librae .
5.8
15 II 16.750
— 0.0028
22 4 27.32
+ 0.016
147 B. Librae .
6.2
15 25 30.974
.f- 0.0020
20 25 34-41
— 0.029
169 B. Librae .
6.0
15 32 37.468
— 0.00x7
22 51 0.49
- 0.066
Z72 B. Librae .
59
15 33 9021
• • • •
20 43 31.77
• • •
177 B. Librae .
6.2
15 34 10630
— 0.0016
—22 51 46.57
— 0.034
42 Librae .
50
15 35 4563
— 0.0018
23 31 57 66
" 0.027
A Scorpii .
4.6
15 48 19.520
— 0.0017
25 3 5367
— O.02X
31 B. Scorpii .
5.4
15 48 38.293
— O.0023
24 16 17.88
— 0.037
32 B. Scorpii .
53
15 48 41.430
— 0.0023
23 42 58.83
— aoi6
3 Scorpii .
59
Z5 49 22.301
— O.OO3X
-24 59 0.40
— 0.029
40 B. Scorpii .
5.4
15 53 18.020
— 0.0031
24 34 41.04
+ aoo4
48 B. Scorpii .
4-9
15 58 1.391
— 0.0048
25 37 X4.24
— ao4j
50 B. Scorpii .
6.4
15 58 37524
+ 0.0017
24 29 3.16
- 0.03»
57 B. Scorpii .
57
16 0 51.325
— 0.0011
23 22 0.52
— aoo4
24 G. Scorpii .
6.2
16 2 34.859
0.0000
-24 13 37.75
- 0.066
65 B. Scorpii .
55
16 2 45.703
+ 0.0095
26 5 28.52
+ 0.025
27 G. Scorpii .
5.8
16 3 28.348
+ 0.0032
23 27 3.68
— 0.012
41 G. Scorpii .
63
16 8 27.827
— 0.0004
24 II 51.66
- 0.034
85 B. Scorpii .
6.0
16 9 33 317
— 0.0005
25 X5 14.97
+ 0.01a
Z9 Scorpii .
4-9
16 15 20.287
— 0.0012
—23 57 28.14
— 0.013
a Scorpii .
3.1
16 15 50.214
— O.OOIX
25 22 56.69
- 0.039
a Scorpii .
1.2
16 24 0.553
— 0.0006
26 14 14.92
— 0.026
22 Scorpii .
4.8
i6 24 51.549
— 0.0004
24 55 19-42
— 0.016
Z16 B. Scorpii .
6.2
16 25 58.681
— 0.0013
26 20 48.31
- 0.037
134 B. Scorpii .
6.4
16 38 49.752
+ 0.0012
—27 17 29.84
- 0.014
118 B. Ophiuchi
6.2
17 I 25.933
- 0.0006
26 23 41.22
— 0.046
95 G. Ophiuchi
6.1
17 6 54.426
+ 0.0008
27 39 14.45
— 0.020
36 Ophiuchi {First star)
5-4
17 9 560x9
- 0.0370
26 28 28.34
— 1.169
43 Ophiuchi
5-4
17 17 49.202
— 0.0002
28 3 30.25
— 0.040
163 G. Ophiuchi
6.3
17 37 45 248
+ o.oooa
—27 50 32.64
— aoi7
X Sagittarii {var.)
4-4
17 42 1.255
+ 0.0002
27 47 53 03
— 0.015
4 G. SaCgittarii
6.2
17 42 57.614
— 0.0004
26 56 40.01
— 0.030
zo G. Sagittarii
5-7
17 51 8.455
+ 0.0024
-28 3 5-53
+ 0.015
[Eph 12]
570 STARS OCCULTED BY THE MOON, 1912.
MEAN PLACES FOR 191 2.0. (January 0^764, Washington.)
Name of Star.
Magni-
tuda.
Right Ascension.
Annual
Proper Motion.
Declination.
Annnal
Proper BiodooL
2IO B.
Scorpii
5-8
h m 8
17 53 4153
s
+ 0.0038
or tf
—28 44 59.52
+ aoo;
IV
Sagittarii {var.)
43
17 59 23 928
+ 0.0007
29 35 5 09
— 0.015
38 B.
Sagittarii
47
18 2 30.562
+ aooi6
28 28 3.0Z
— aoao
C. D.— 28»i4268 .
6.4
18 6 22.578
— o.oooa
28 55 15 79
— 0.019
48 G.
Sagittarii
6.3
18 II 49.145
+ 0.0093
28 19 2.42
- 0-234
62 B.
Sagittarii
6.0
18 II 49.602
+ 0.0053
—28 40 56.17
4- 0.032
66 B.
Sagittarii
4-7
18 12 32.689
0.0000
27 4 29-95
+ 0.015
58 G.
Sagittarii
6.1
18 16 26.113
+ 0.0038
28 28 14.48
+ aoo5
^
Sagittarii
33
18 40 9.521
+ aoQ34
27 4 55.31
— aoo6
r
Sagittarii
35
19 I 26.836
— 0.0046
27 47 59-49
-0.254
183 B.
Sagittarii
6.2
19 I 58.544
+ 0.0034
—28 46 23.32
— 0.009
234 B.
Sagittarii
59
19 19 Z.065
— 0.0013
28 2 11.22
+ ao::
248 B.
Sagittarii
57
19 24 25.681
+ 0.0017
27 9 57 95
— aot4
u
Sagittarii
4.8
19 50 27.040
+ 0.0145
26 32 0.97
+ aoSo
b
Sagittarii
46
19 51 321929
— aooo3
27 24 14.32
— aoi6
A
Sagittarii
49
19 53 35.579
+ 0.0013
—26 26 3.85
+ 0.035
40 B.
Capricomi
6.2
20 27 38.134
+ 0.0003
25 14 30.55
"■ <La64
56 B.
Capricomi
6.3
20 34 57724
+ 0.0376
24 5 45 93
+ 046^
17
Capricomi
5.8
20 41 4.010
+ aooxx
21 50 4.00
— 0.014
86 B.
Capricomi
6.2
20 47 51.677
+ 0.0071
24 6 47.97
— ao48
X
Capricorn!
5.3
21 3 31.327
+ aooi3
—21 32 51.81
-0.059
27
Capricomi
6.1
21 4 31.260
+ 0.0085
20 54 36.9?
— ai23
^
Capricomi
5.3
21 ID 37.471
0.0000
21 Z 2.87
aooo
33
Capricomi
53
21 19 10.266
— 0.0013
21 13 34.69
— 0.11a
35
Capricorn!
6.0
21 22 15.618
— 0.00x6
21 34 40.68
— aoy>
128 B.
Capricorn! .
6.5
21 25 3.362
+ 0.0019
—19 31 55-59
— aoj7
37
Capricorn!
57
21 29 54 725
— 0.00x6
20 28 37.57
+ aoa5
t
Capricomi
4.7
21 32 9.302
0.0000
19 51 3900
aooo
K
Capricomi
48
21 37 44.766
+ 0.0094
19 16 4.21
— 0.006
143 B.
Capricorn!
6.x
21 38 18.359
+ 0.0067
20 z 23.72
- ao39
6
Capricomi .
30
21 42 II. 127
+ 0.0x76
—16 31 37.46
- 0.297
152 B.
Capricomi
6.5
21 45 22.6x8
— 0.0004
17 15 21.67
- OL054
154 B.
Capricomi
6.1
21 46 48.708
+ 0.0103
19 2 0.43
+ 0.076
161 B.
Capricomi
6.4
21 57 21.270
+ 0.0060
x8 19 35 41
— OU090
29
Aquarii (nuan)
6.5
21 57 37 672
+ 0.0008
17 23 20.13
+ OLO09
39
Aquari!
6.2
22 7 41.131
+ 0.0016
—14 37 39-22
— a044
45
Aquarii
6.1
22 14 17.466
+ 0.0051
13 44 45.07
— 0.008
50
Aquari!
5.9
22 19 44 343
+ 0.0034
13 58 32.65
+ aoi3
182 B.
Aquarii
6.2
22 25 19.321
+ 0.0x39
13 21 58.08
— otoig
56
Aquarii
6.1
22 25 34.500
+ O.0O33
15 2 8.96
- 0.034
70
Aquarii
6.1
22 43 52 507
+ 0.0035
— u 1 13.44
4. aoio
74
Aquarii
5.8
22 48 50.790
+ aoox3
12 5 5.01
0.000
A
Aquarii
54
23 0 34 492
+ 0.0081
8 10 7.87
4- aoi6
♦
Aquarii
4-4
23 9 45.914
- 0.0043
6 31 24.93
+ ao9i
^i
Aquarii
4-5
23 II 16.943
+ 0.0950
9 34 I 94
— 0.005
X
Aquarii
53
23 12 17.298
— 0.0015
— 8 12 23.74
— aoi4
^
Aquarii
4.6
23 13 19.858
+ 0.00X3
9 39 46 69
— 0.00a
317 B.
Aquarii
6.3
23 16 8.742
- 0.0099
6 23 19.20
— 0.065
337 B.
Aquarii
6.4
23 24 59.134
+ 0.0I3X
5 0 43.32
— a»i8
342 B.
Aquarii
6.5
23 26 58.827
+ 0.0X24
4 34 5 67
— ai72
20
Piscium
5.6
23 43 25.135
+ 0.0064
— 3 15 3 25
4- 0.00a
24
Piscium
6.Z
23 48 24.358
+ O.OO5X
3 38 39-12
— 01048
27
Piscium
51
23 54 10.077
- 0.0034
4 2 38.93
-ao66
29
Piscium
5.1
23 57 18.844
-f 0.0009
— 3 31 2,39
— aox2
[Eph 13]
OOOULTATIONS, 1912.
571
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JANUARY.
Trb Stak's
Name.
32
33
161 B.
36
X
62
38 B.
47 B.
354 B.
107 B.
112 B.
406 B.
136
154 B.
415 B.
49
53
54
28
47
53
134 B.
59
i
b^
V
c
o
4
*
28
v»
79
90 H',
57 B.
X07 B.
42
46
I
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Aurigae
Aurigae
Tauri
Aurigae
Aurigae
Tauri
Tauri
Aurigae
Tauri
Aurigae
Aurigae
Aurigae
Geminorum
Geminorum
Geminorum
Geminorum
Geminorum
Geminorum
Geminorum
Geminorum
Geminorum
Geminorum
Geminorum
Cancri
Cancri
Cancri
Cancri
Cancri
Cancri
Cancri
Cancri
Cancri
Cancri
Leonis
Leonia
Leonis
Leonia
Leonia
Leonia
308 B. Leonis
b Virg^ia
zo Virginis
13 Virginis
ri Virg^is
38 Virginis
91 G. Virginis
Q Virginis
h Virginis
I Librae (z/ar.)
25 Librae
Mag.
Red'ns from
igxsA
Aa
5.8
6.0
6.5
5.6
5.3
6.1
6.5
6.0
6.4
6.5
5.7
5.6
4.6
6.4
6.1
5.x
5.6
5.8
5.5
5.6
5.9
6.5
57
3-9
50
5.0
4-3
5.5
3.0
5-9
6.2
59
5.9
6.1
5-7
6.4
5-2
6.1
6.1
6.5
6.3
36
6.1
5.8
5.3
5.8
5.2
6.2
5.9
40
6.x
6.5
4.4
5.4
47
6.0
8
+0.49
0.49
0.51
0.52
0.61
•K).6l
0.79
0.8a
0.86
0.91
+0.90
0.96
0.96
0.99
0.99
.06
.08
•07
.09
.II
.12
.II
.13
.13
•13
.13
.12
.10
.II
.09
.08
.10
.07
.06
.06
+1.03
0.95
0.94
0.95
0.82
+0.71
0.71
0.66
0.61
0.49
+0.37
0.12
+0.05
-0.03
0.04
0.22
0.23
0-34
0.49
Z.09
I-1.09
Aa
+8.7
8.9
8.9
9.1
9-4
+9.X
9-3
9-3
9.1
87
+8.6
8.4
8.3
8.3
8.Z
47.1
7.0
6.9
6.8
57
+5 5
5.5
5-2
52
5.0
+50
47
4-5
40
3-8
+3-8
33
30
2.6
2.5
+2.5
I.I
I.O
+0.9
0.0
-0.2
0.5
0.8
1.0
0.7
-I.I
1.6
1.3
0.7
0.8
-I.I
0.9
1.0
0.4
1.2
-1.3
Apparent
Declina
tion.
+22 13.7
22 55-4
22 57-4
23 52.0
25 25 5
+24 6.0
27 34.6
27 55-4
27 52.3
27 36.5
+26 52.3
27 567
27 35.7
28 55.9
2734.2
+28 5.6
29 3.8
28 20.6
29 3.8
27 0.2
+28 3.2
26 51.0
27 48.6
27 585
28 18.1
+28 6.0
27 5.6
25 59-7
26 59.7
25 38.1
+25 20.0
2546.6
24 18.1
2426.3
24 22.7
+24 23.1
22 24.1
22 21.3
21 38.8
19 16. 1
+16 II. 2
17 "5
15 25.2
M 35 3
II 0.6
832.5
4 8.7
223.5
017.9
o 10.7
3 4-5
3 447
5 4-2
942.7
19 27.6
-19 19.0
£Sph
At Conjunction in R. A.
Washington
Mean Time.
d
1
Hour
Angle,
H
h m
127.8
I 32.0-
3 30
421.8
IZ 18.8
II
% 2
4
8
13
14
19
20
21
22
8 10
II
Z2
13
23
4 o
I
3
4
5
5
7
10
14
16
16
20
23
6 2
3
4
z8
18
20
6 8
17
18
7 o
4
12
8 o
22
» 3
7
8
10 I
I
10
22
18 o
w]
52.0
47 5
376
38.8
56.3
22.7
12.5
2.2
87
42.9
33-6
38.8
37
51-3
8.2
43.0
7.0
44.0
8.8
24.6
34.8
450
40.1
0.3
417
593
8.7I+
51.0
50.0
54.7
2S.1
22.0H-
452
2.8
30.1
h
7
7
6
4
I
+ 2
- 7
- 5
I
+ 3
+
+
+
m
43.7+0.7296
39.5+0.0490
12.2+0.2749
56.6 -0.41 14
43.5-0.8686
15.2+0.5253
27.2-1.0620
41.9-I.2232
51.4 -0.8192
12. 1 -a 1805
37.3 +05674
14.2 -0.2291
+10
+11
- I
- o
+ o
+ 2
+10
-II
-II
- 8
- 8
- 7
- 6
4
2
I
3
3
6
+10
-10
9
9
4
4
5
6
244
5-9 +
22.8
56.9
38.5
8.6
27.6
19.9
51.6
29.4
317
44.5
10.81-
5.6|+
32.7;+
5.5!+
2
3
+ 9
-10
- 3
+ 8
+ 5
+10
9
8
7
8
7
3
4
5
1.6
5.1
35.0
6.5
4.2
19.6
2.3
54.0
35.6
12.6
427
19.0
6.6
56.9
52.4
5.1
6.3
40.6
57.5
58.6
31.4
37.2
35.3
3.3
16.4
387
53.2
8.4
26.1
6.1
9.4
26.2
0.4
6.7
43.5
26.7
9.8
33-1
587
II. 2
374
56.4
52.9
247
+0. i486
-1.1158
+0.2680
-0.1309
-1.0920
0.3976
-I.I374
+0.4861
-0.6343
+0.5127
-0.6073
-0.7995
-1.2173
-1.0342
-0.2364
+0.5618
-0.7631
+0.2588
'»^o.5i92
-0.3068
+0.636 1
+0.0689
-0.0365
-0.1280
-0.5843
-0.6109
-o. 1629
-0.3989
+0.6390
-0.5265
-0.2673
-0.5674
+1.0775
+0.5623
-0.9851
-0.5069
+1.0464
+0.7499
-0.8335
-0.1860
-I.03I3
+0.8108
-0.1298
-0.3910
05839
0.5841
0.5857
0.5872
0.5946
0.5952
0.6090
0.6106
0.6136
0.6166
0.6169
0.6196
0.6198
0.6201
0.6206
0.6225
0.6224
0.6224
0.6223
0.6202
0.6195
0.6194
0.6183
0.6182
0.6177
0.6176
0.6165
0.6145
0.6122
0.6104
0.6102
0.6077
0.6044
0.6018
0.6008
0.6003
0.5861
0.5857
0.5843
0.5707
0.561 1
0.5603
0.5539
0.5493
0.5421
0.5323
0.5175
0.5I5I
0.5I3I
0.5128
0.5080
0.5079
0.5067
0.5064
0.5189
0.5I9I
y
+0.1720
0.1717
0.1682
0.165 1
0.1465
+0.1448
0.0999
0.0942
0.0806
0.0622
-K>.o6o6
0.0438
0.0407
0.0368
+0.03 1 1
-0.0124
0.0164
aoi77
0.0243
0.0583
-0.0639
0.0652
0.0746
0.0759
0.0806
-0.0810
0.0885
0.0984
0.1095
0.1183
-0.1 190
0.1293
0.1404
0.1489
0.1521
-0.1539
0.1904
0.1913
0.194 1
0.2197
-0.2346
0.2358
0.2440
0.2499
0.2575
-0.2661
0.2731
0.2731
0.2729
0.2727
-0.2673
0.2672
0.2626
0.2540
0.1934
0.1924
+ 7
-28
-16
-52
-65
490
+47
+60
+21
- 6
f79
-221-63
-40-63
-63
-30
+ 9
-31
-10
-62
- 4
-22
I
-38
-61
+ 5
- 4
+34
f84
+31
+53
-28
+60
4-36
-26-6
+21
-31
+77
Limit-
ing Par-
allels.
N.
S.
+ 8
+79
+ 9
- 3
-40
-20
+30
f83
o
f6o
+79
f27
^90
^48
+42
+37
fI2
fll
+35
f 23 -57
-57
+ 6
-57
-63
-62
-62
-35
+ 6
-64
-12
+ I
-43
+ 6
-24
-30
-35
-64
-65
-41
+87
fi6
+30
+14
^90
+79
- 9
+18
+90
■^90
- 5
-67
-53
-71
+18
-14
-86
-75
+13
- 5
-90
+34 -54
-11-90
+81- I
+29-51
+151-68
572
0C0ULTATI0N8, 1912.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JANUARY.
IJmit-
Tub Stak's
At Conjunction in R. A.
ingPai-
aUeU
Name.
Mag.
Red'ns from
19 12.0.
Apparent
Declina-
tion.
Washington
Mean Time.
Hour
Angle.
Y
X*
y
1
N S
8
n
^ V • ^^
e r
d h m
h m
• •
147 B.
Librae
6.2
-I.I9
- 1-7
-20 25,6
13 9336
-10 23.0
-0.75x3
0.5227
-0.Z785
- 6-90
169 B.
Librae
6.0
1.25
1-3
22 51.0
13 15
- 7 17
+Z.2978
0.5242
0.Z723
+68*45
172 B.
Librae
5.9
1.23
2.0
20 43.6
13 x6.8
- 6 46.8
-Z.0762
0.5244
0.Z716
-27-90
177 B.
Librae
6.2
1.26
1-4
22 51.8
13 46.7
- 6 17.9
+Z.Z825
0.5246
0.Z708
468 -f29
32 B.
Scorpii
5-3
I.3I
1.9
23 43.0
20 47.2
4 029.2
+0.9687
0.5276 0.1580
+67*12
50 B.
Scorpii
6.4
-1.37
- 2.2
-2429.1
14 X 32.3
+ 5 5.2
+Z.0857
0.5298 -o.z 486
+66*22
57 B.
Scorpii
5.7
1.36
2.6
2322.1
236.0
+ 6 6.8
-0.30Z7
0.5302
0x467
+14-62
24 G.
Scorpii
6.2
1.38
2.4
24 137
325.2
+ 6 54.4
+0.5264
0.5306
0.1450
+58-15
27 G.
Scorpii
5.8
1.37
2.7
2327.1
350.6
+ 7 19.0
-0.3902
0.5308
0x441
+10-68
41 G.
Scorpii
6.3
1.40
2.7
24 1 1.9
6 Z2.5
+ 9 36.3
+0.0968
0.5318
0.1394
+34-39
85 B.
Scorpii
6.0
-1.42
- 2.4
-25 153
6435
+ZO 6.3
+Z.Z90Z
0.5320
-0.1384
+65+33
19
Scorpii
49
1-43
3X
23 57 5
927.2
-" 15.3
-o.6zoz
0.5332
o.z 326
-3-87
a
Scorpii
31
1.45
2.7
25 23.0
9413
-IZ Z.7
+0.9309
0.5333
O.Z32I
♦65 +10
22
Scorpii
4.8
1.48
3.3
24 55.4
13 55.2
- 656.Z
-0.ZZ84
0.5351
O.Z232
+21 -51
118 B.
Ophiuchi
6.2
1-59
4.7
26 23.8
16 649.6
+ 9 24.5
-0.2620
0.5414
0.0856
¥ 9-60
95 G.
Ophiuchi
6.Z
-1.63
- 4.7
-27 39.3
9197
+"495
+0.9270
0.5421
-0.0796
+63*11
36
Ophi. (/J/ star)
5-4
1.62
51
26 28.6
ro 42.5
-zo 50.4
-0.4885
0.5425
0.0765
- 3-77
43
Ophiuchi
5-4
1.66
5.1
28 3.6
Z4 Z7.7
- 722.6
+Z.0090
0.5435
0.0679
+62-^18
163 G.
Ophiuchi
6.3
Z.68
6.2
27 50.6
23 18.7
+ z 20.0
+0.2549
05456
0.046Z
+33 -29
X
Sagittarii (z/ar.)
4-4
1.69
6.4
27 48.0
16 z Z4.Z
+ 3 11.4
+az2z6
0.5460
0.0414
+25-37
4 G.
Sagittarii
6.2
-1.67
-6.5
-26 56.8
1395
-^ 336.0
-0.844Z
0.546Z
-0.0402
-26-90
10 G.
Sagittarii
5-7
1.71
6.7
28 3.2
520.3
+ 7 9.2
+0.2544
0.5467
0.03x3
*32-3o
210 B.
Scorpii
58
1.72
6.7
2845.1
6x2.3
+ 7 59.4
+Z.0046
0.5469
0.0290
+62 +18
38 B.
Sagittarii
4-7
1.73
72
28 28.2
zo 26.6
-" 55.1
+0.5899
0.5472
O.OZ85
+52 -10
C.D.-28*> 14268
6.4
174
7-3
28 55.4
Z2 ZO.7
-zo Z4.5
+Z.0659
0.5473
0.0x43
+62+23
48 G.
Sagittarii
6.3
-1-74
- 7.7
-28 19.2
14 37-1
- 7 53.2
+0.3676
0.5475
-0.0079
+36 23
62 B.
Sagittarii
6.0
1.74
7.6
28 41. 1
14 37.3
- 7 530
+0.7736
0.5475
0.0079
+62 i- I
66 B.
Sagittarii
4.7
1.72
7.8
27 4-6
14 56.7
- 7 34.2
-1.OZ65
0.5475
0.0073
-40 -go
58 G.
Sagittarii
6.1
1-75
7.8
28 28.4
NEW
Z64Z.3
MOON
- 5 53.3
+0.527Z
0.5476
-0.0028
+46-14
152 B.
Capricomi
6.5
-1-33
-12.3
-17 15.6
20 18 58.8
- 6 48.6
-Z.0804
0.5x34
+0.2040
-23-90
154 B.
Capricomi
6.1
1.32
12.5
19 2.2
Z9 42.8
- 6 5.9
+Z.0287
0.5x31
0.2049
+71 +14
29
Aquarii {mtatC^
6.5
1.28
12.3
17 23 5
ai ZZ57
- 042.9
+0.3746
0.5 Z07
0.2x22
+57 -24
50
Aquarii
5-9
1.21
"5
13 58.7
X2 45.8
+ZO 27.0
-0.8304
0.5059
0.2262
- 5 90
z82 B.
Aquarii
6.2
-1.19
-11.3
-13 22.2
15 42.0
-Z04Z.9
-0.8490
0.5048
+0.2296
-4-90
56
Aquarii
6.1
1.18
11.6
15 2.3
15 50.0
-10 34.2
+1.0134
0.5047
0.2297
+75*12
70
Aquarii
6.1
1.12
Z0.6
iz 1.4
%% z 32.3
- X 8.5
-Z.Z06Z
0.50Z5
0.2393
-19-90
74
Aquarii
5-8
X.IO
10.7
za 5.3
4ZX.7
+ z 26.4
+0.697Z
0.5007
0.2417
4.78- 8
r
Aquarii
4-5
Z.OI
9.7
9342
z6 15.8
-zo 50.0
+0.9258
0.4979
0.25 zo
+81+5
X
Aquarii
53
-1.02
- 9 3
- 8 12.6
x6 48.5
-10 Z8.2
-0.4x91
0.4977
+0.25 Z4
+21 -68
r
Aquarii
4.6
I.OO
9.6
9 39 9
Z7 22.3
- 945.3
+Z.3080
0.4976
0.25x8
+81 +35
24
Piscium
6.1
0.89
71
338.8
93 Z224.4
+ 8 44.7
-0.3243
0.4962
0.26x4
+27-62
27
Piscium
51
0.86
7.0
4 2.8
15 32.2
+" 47.3
+0.9277
0.4962
0.2625
♦86* 5
29
Piscium
51
0.85
6.8
3312
17 14-6
-zo 33.2
+0.8080
0.4963
0.2632
+87- 2
4
Ceti
63
-0.83
-6.5
- 3 2.4
20 27.0
- 726.Z
+X.1363
0.4965
+0.2640
+87+19
5
Ceti
6.3
0.83
6.4
- 2 56.3
20 42.3
- 7ZZ.3
+Z.0945
0.4966
0.2640
+88+16
44
Piscium
6.0
0.78
4-5
+ z 27.Z
»4 5 59 7
+ 1 50.5
-Z.Z60Z
0.4980
02656
-21 -89
155 B.
Piscium
6.5
0.67
31
2544
19 49 3
- 843.5
+0.9590
0.5019
0.2651
♦90+ 6
171 B.
Piscium
6.3
0.65
Z.8
6 0.5
96 oz8.z
- 4 22.6
-Z.Z548
0.5038
0.2640
-20' -*4
73
Piscium
6.2
-0.61
- 1.9
+ 5 zz.z
257.Z
- Z48.Z
+0.4203
0.5049
+0.2634
+68-22
77
Piscium
6.4
0.60
a. I
426.4
326.9
- X Z9.2
+Z.34Z2
0.5052
0.2632
♦90+37
e
Piscium
5.6
0.60
1-7
5 IZ.O
447.4
- 0 1.0
+0.9039
0.5057
0.2629
+90+ 3
c
Piscium
5.6
0.58
0.9
7 6.6
732.6
+ 2 39.3
-0.4137
0.5070
0.262 z
f23 67
88
Piscium
6.2
0.57
I.O
63Z.8
8 3.6
+ 3 9.4
+0.3357
0.5073
0.2618
+63-26
263 B.
Piscium
6.4
MJ.50
- 0.2
+ 7 30.3
15 41
+ 9 57-4
+X.X272
0.5 Z 12
+0.2585
♦90+19
[Bph la]
OCCULTATIONS, 1912.
573
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JANUARY.
1
Limit-
Trs Stae's
At CoMjuMcnoM in R. A
ing Par-
aUels.
Name.
Mag.
Red'ns from
xQzaxx
Apparent
Declina-
tion.
Washington
Mean Time.
Hour
Angle,
H
Y
x'
/
N.
S.
Aa
Aa
0*
^mf*
•
e *
d h m
h m
0
0
54
Ceti
6.0
-0.41
4 X.7
4XO 36.5
26 220.9- 3 6.4
40.74x5
0.5x86
40.25x3
490
- 3
26 B.
Arietis
6.0
0.37
2-4
XX 52.x
632.8
+ 0 57.7
40.4700
0.52x5
0.2483 472
-17
12 H'
. Arietis
6.3
0.37
2.9
13 32
8 4-4
4 2 26.4
--0.3893
0.5228
0.2468 424
-^2
19
Arietis
5.8
0.32
3-9
X452.X
13 6.3
4 7 x8.8
-1.0493
0.5270
0.24x7
-14
-76
36
Arietis
6.5
o.x6
•57
X7 23.6
27 34X.4
- 2 34.9
-0.2491
0.5402
0.2244
+31
-50
40
Arietis
6.0
-0.14
4 6.0
417 55.x
5 35-9
- 044.3
-0.3651
0.54x9
40.2220
425
-56
TT
Arietis
5-2
0.12
57
X7 6.0
5571
- 023.8
+0.5577
0.5423
0.22x5
480
- 9
45
Arietis
6.0
0.09
6.2
X7 58.6
852.3
4 225.4
40.2944
0.5453
0.2x69 l46x
-2X
P
Arietis
5.6
0.08
6.1
17 405
9 8.5
4 241.0
40.6650
0.5455
0.2x65 490
- 2
54
Arietis
6.5
-0.01
6.7
x8 27.6
X4 24.9
4 7 46.4
40.9770
05509
0.2078 490
4x7
6
Arietis
4-5
+0.01
4 7.x
4x9 23.8
15 49.9
+ 9 8.4
40.3096
05524
40.2054 462
-X9
C
Arietis
50
ao2
7.6
20433
17 14.6
41030.x
--0.7574
0.5539
o.ao3x 4 3
-69
r
Arietis
51
0.05
77
20 50.0
X958.X
-xo 52.2
-0.3233
0.5567
0x983
426
-51
63
Arietis
5.2
0.06
7.6
20 25.8
20 37.8
-xo X4.0
40.2x90
0.5574
0x969
+57
-23
65
Arietis
6.0
ao7
77
20 29.6
2X 20.8
- 9 32.6
+0.2944
0.5582
0.1955
46x
-19
14 H'.
. Tanri
6.5
-K>.x6
4 8.0
420 37.9
«« 329.3
- 3 37-6
+1.3173
0.5648
40.X832
♦^
+53
23
Tanri
4-3
0.20
9.1
23 40.6
629.0
- 044.6
-1.2379
0.5680
0.X772
-36
-67
n
Taori
30
0.21
9.2
23 50.2
6575
- 0 X7.3
-1.3149
0.5685
0.1762
-50
-67
104 B.
Tanri
55
0.21
8.9
23 9-2
719.3
4 0 3.8
-0.5580
0.5689
0.1754
4X4
-^x
27
Tanri
37
0.22
9.2
23 47-3
738.9
4 0 22.6
-I- 1437
0.5693
0.1745
-26
-67
28
Tanri
5-2
40.22
+ 9.2
+23 52.3
739.4
4 023.0
-X.2272
0.5693
+0.1745
-35
-67
133 B.
Tanri
5.9
0.23
8.6
2X 58.8
759.0
4- 042.0
40.7497
0.5696
0.1739
490
4 8
Mass
-0.6
• • ■
• •
22 X5.0
8 50.0
4 X 3X.X
40.6240
0.5583
0.X708
488
4 a
32
Tauri
5-8
0.27
87
22 X3.7
10 48.8
+ 325.3
40.9795
0.5727
0.167X
490
422
33
Tanri
6.0
0.27
9.0
22 55-4
10 53.x
+ 3 29-5
40.2873
0.5728
0.X668
461
-x6
z6i B.
Tanri
6.5
40.30
4 9.0
422 57.4
X2 27.4
4 5 O.I
40.5x36
05745
40. 163 X
478
- 4
36
Tanri
5-6
0.32
93
23 52.0
1349^0
4 6 x8.6
-0.X874
0.5759
0.1599
^34
-39
X
Tanri
5.3
0.42
99
25 25.5
2X 0.7
-xo 46.6
^.6683
0.5834
0.1420
+ 7
-64
62
Tanri
6.1
0.43
95
24 6.0
21 35.0
-xo X3.8
40.7478
0.5840
0. 1403
+90
411
38 B.
Aurigae
6.5
0.70
10.3
27 34-6
S9 X3 0.4
+ 4 33.8
-o.9ox6j 0.5984
0.0960
- 9
-63
47 B.
Aurige
6.0
+073
4x0.3
+27 55.4
X4 54.0
4 622.6
-1.0696
0.6000
40.0900
-«3
-63
354 B.
Tanri
6.4
0.79
X0.2
27 52.3
19 2.7
4X0 20.7
-0.6690
0.6036
0.0770
f 6
-6x
/3
Tauri
1.8
0.83
X0.3
2832.2
2058.3
-X X 48.6
-1.X877
0.6048
0.0705
-36
-62
107 B.
Aurigae
65
0.88
9.8
27 365
80 0 29.5
- 8 26.5
-0.0348
0.6070
0.0588
442
-22
112 B.
Aurigae
5.7
0.88
9.6
26 52.4
056.6
- 8 0.6
40.7221
0.6073
0.0572
490
4X8
406 B.
Tanri
5.6
40.97
4 9.6
427 56.7
5 54-4
- 3 157
-0.0980
0.6x04
40.0406
438
-23
136
Tauri
4.6
0.98
94
27 35 7
6455
- 226.9
40.2826
0.6109
0.0378
462
- 3
154 B.
Aurigae
6.4
I.OO
97
28 55.9
7537
- I 2X.7
Ux.0005
0.6XX4
0.0336
-17
-62
415 B.
Tauri
6.1
X.02
9.2
27 34 3
930.3
4 0 10.7
40.3964
0.6XX9
40.028 X
470
+ 3
49
Aurigae
5.1
I.I9
8.3
28 5.6
21 37-5
+"457
-0.0397
0.6x55
-0.0x49
442
-x8
53
Anrigae
5.6
41.21
48.4
429 3.8
2244.1
-XX X0.7
-X.0X30
0.6155
-0.0x88
-X9|-6i
54
Aurigae
5.8
I.2I
8.2
28 20.6
23 9.5
-xo 46.4
-0.3^30
0.6x56
0.0205
+26,-33
28
Geminomm
5.5
1.24
8.x
29 3.8
81 059.x
- 9 1.7
-X.064X
0.6x57
0.0270
-23
-6x
47
Geminomm
5-6
1.32
6.7
27 0.2
1025.5
- 0 0.6
40.5470
0.6X5X
0.0607
482
4 8
53
Geminomm
59
1-35
6.6
28 3.2
X2 X.7
+ I 31.4
-0.5856
0.6147
0.0662
4IX
-54
134 B.
Geminomm
6.5
41.34
4 6.4
426 5X.0
X226.X
+ 1547
40.5682
0.6x46
-0.0674
+84
4 8
59
Geminomm
5-7
1.38
6.2
27 48.6
15 5.2
4 4 26.8
-0.5665
0.6x39
0.077X
412
-54
t
Geminornm
39
X.39
6.x
27 58.5
15 30.3
4 4 50.7
-0.76x2
0.6x38
0.0783
0
-63
b^
Geminomm
5.0
1.40
6.0
28 x8.x
X647.O
4 6 4.x
-X.X844
0.6x35
0.0830
-35
-62
b^
Geminorum
5.0
X.40
6.0
28 6.0
16573
4- 6 x3.9-x.0005
0.6x35
0.0834
-17
-62
V
Geminomm
4.3
4X.414 5.6I427 5.6
X9 9.0
4 8 X9.8 -0.2046
0.6x29
-0.0909
432
-33
c
Geminorum
5.5
41.41 4 5.0 425 59.7
22 5.9
4XX 8.9*40.5890
0.6XX3
-0.X008
486
+ 7
FEBR
CJARY.
i>
Geminorum
5.0 +1.45!+ 4-71+26 59.7
1 X27.8J- 937.9-07508
0.6096
-o.xix8|4 I -64
[Epl
ill]
574
00CTJLTATI0N8, 1912.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
FEBRUARY.
1
Limit-
Thb Star's
At Comjumctiom im R. A. |
tug Par-
1
allels
Nftme.
Mag.
Red'nsfrom
zgixa
Apparent
Declina-
tion.
Washlnffton
Mean Time.
Hour
Angle,
H
Y
X*
y
1
N S
Aa
^^ •
1
I
< ■
•
0 f
d h m
h m
0
0) Cancri
5.9
+1.45
+4.1
+25 38.1
1 4 10.2
- 7 2.5
40.2666
0.6082
-0.X209
♦60 -XI
4 Cancri
6.2
1.45
41
25 20.0
428.0
- 6 45.5
40.5269
0.6080
0.1217
4804 I
^ Cancri
5.9
1-47
3.6
25 46.6
738.4
- 3 43 3
-0.3x06
0.6063
0x317
+27 -43
P. Cancri
5-9
1.46
30
24I8.I
II 2Z.6
- 0 9.6
40.6226
0.6035
0.1428
f89,4 4
28 Cancri
6.1
1.48
2.6
24 26.3
14 20.8
•f 242.0
40.0457
0.60x3
0.15x8
+47-26
v^ Cancri
5.7
•M.48
+2.4
+24 22.7
15 25.6
+ 344.0
-0.0626
0.6006
-0.1550
441-31
v' Cancri
6.4
1.48
2.3
24 23.1
15 59.0
+ 4 16.0
-0.1557
0.6001
0.1568
+35-36
^ Cancri
5-2
1.48
0.2
22 24.1
% 5502
- 627.0
-0.6515
0.5884
0x937
4 8-67
79 Cancri
6.1
1.48
+0.2
2221.3
613.3
- 6 4.9
-0.6797
0.5879
0.1949
+ 71-68
90 H.' Cancri
6.1
1.47
0.0
21 38.8
730.3
- 4 51.0
-0.2368
0.5868
0.1978
+31-45
57 B. Leonis
6.5
+1.42
-1-7
419 16.I
19 49.8
+ 659.6
-0.5080
0.5750
-0.2243
4x7-63
107 B. Leonis
6.3
1-35
2.6
16 II. I
8 435.9
-8341
40.4958
0.5665
0.2395
+75-13
7 Leonis
3.6
1.36
2.8
17 1 1.5
516.7
- 7 54-9
-0.6622
0.5658
0.2408
+ 9-73
37 Leonis
5-5
1.30
30
14 lO.O
915.0
- 4 5.4
41.3624
0.5621
0.2467
+90,450
42 Leonis
6.1
1.31
34
15 25.1
II 26.6
- I 58.5
-0.4230
0.5601
02495
422-62
46 Leonis
5.8
+1.28
-3.9
+14 35.3
15 55.0
+ 220.2
-0.7321
0.5560
-0.2554
+ 5-76
/ Leonis
5.3
1.20
4-4
II 0.6
2326.1
+ 9 353
40.8736
0.5495
0.2635
t^04 4
308 B. Leonis
5.8
1. 10
51
832.5
4 10 38.3
- 3 35.5
+0.3344
05405
0.2724
463-26
6 Virginis
5.2
0.90
6.3
4 8.6
6 817.5
- 6 38.6
-1.2394
0.5265
0.2797
-a7.-86
zo Virginis
6.2
0.84
6.3
+ 2 23.4
13 04
- 2 4-7
-0.7770
0.5243
0-2794
f 4-88
13 Virginis
5-9
+0.78
-5.9
- 0 18.0
17 23.5
4 2 10.2
+0.7459
0.5222
-0.2791
f«8- 5
ij Virginis
4.0
0.77
6.0
0 10.8
18 0.0
+ 2 45.5
40.4526
0.5219
0.2791
47X|-2I
38 Virginis
6.1
0.62
6.5
3 4-6
6 1629.2
- 5 15.9
-X.1293
0.5167
a2728
-17-90
91 G. Virginis
6.5
0.61
6.3
3 44-8
10 41.7
- 5 3.7
-0.4919
0.5166
a2727
4X9-73
d Virginis
4-4
0.52
6.4
5 43
18 51.8
+ 2 51.4
-1.3320
0.5150
a268o
-36-90
A Virginis
5.4
-10.40
-5.8
- 9 42.8
T 6 24.5
- 9 56.9
40.4757
0.5141
-0.2587
470 -ao
86 Virginis
5.6
+0.31
5-4
II 59.2
12 54.9
- 3 38.5
41.2083
0.5x43
0.2522
479*26
I Librs {var.)
4.7
-0.15
54
19 27.7
• 736.9
-10 15.4
-0.4387
0.5226
0.X942
«3-7i
25 Librae
6.0
0.15
5.5
19 19.1
8 9.1
- 9442
-0.6973
0.5229
0.1932
- x-90
Z47 B. Librae
6.2
0.25
5.5
20 25.7
16 28.6
- 1405
-1.0469
0.5257
0.1785
-25-90
Z69 B. Librae
6.0
-0,27
-5.0
-22 51. 1
19 53-3
+ I 37.7
4a9897
0.5269
-0.1722
i684i3
177 B. Librae
6.2
0.28
5.0
2251.9
20 37.9
+ 220.8
40.8762
0.5271
0.1708
♦684 5
31 B. Scorpii
5-4
0.37
4-9
24 16.4
10 331.1
+ 9 0.8
41.2829
0.5296
0.1575
466444
32 B. Scorpii
53
0.36
51
2343.1
332.6
+ 9 2.2
40.6730
0.5296
0.1575
♦67-7
40 B. Scorpii
5-4
0.39
49
24348
5435
+11 8.8
41.2759
0.5304
0.1531
+66443
50 B. Scorpii
6.4
-0.42
-5.1
-2429.1
814.3
-10 25.2
+0.7954
0.5313
-0.X482
+664 X
57 B. Scorpii
5.7
0.42
5.5
23 22.1
917.3
- 9243
-0.5814
0.5317
0.X460
o:-84
24 G. Scorpii
6.2
0.44
53
24 13.7
10 59
- 8 37.3
40.2423
0.5320
0.1442
+42'-3i
27 G. Scorpii
5.8
0-44
5-5
23 27.2
10 31.1
- 8 13.0
-0.6674
0.5321
01435
- 5-90
41 G. Scorpii
6.3
0.47
5-4
24 12.0
« 51.5
- 5 57.2
-0.1805
0.5330
0.X384
+20^55
85 B. Scorpii
6.0
-0.48
-5.1
-25 15.3
13 22.2
- 527.4
40.9066
0.5331
-0.1374
♦654 8
19 Scorpii
4-9
0.50
5.7
23 57 6
16 4.2
- 2 50.8j-0.8784
0.5341
0.13x7
-19-90
a Scorpii
3.1
0.52
52
25 23.0
i6 18.2
- 2 37.2 ■K).6537
0.5342
0.1312
+63- 8
a Scorpii
1.2
0.53
5-2
26 14.3
20 6.2
+ I 3.2-1-1.1099
0.5355
ax232
+64425
22 Scorpii
4.8
0.52
5.7
24 55-4
20 29.9
4 X 26.1
-0.3836
0.5356
O.X22I
4 7-68
116 B. Scorpii
6.2
-0.54
-5.2
-26 20.9
21 I.O
-¥ I 56.2 41.1x89
0.5358
-O.X2II
+64U26
118 B. Ophiuchi
6.2
0.71
6.1
26 23.8
11 13x7.8
- 6 19.8 -0.5005
0.5407
0.0838
- 2-78
95 G. Ophiuchi
6.1
0.74
5.8
27 39 3
15 47.3
- 3 55.4 +0.6883
0.5414
0.0781
♦62- 5
36 Ophi. {isi star)
5.4
0.75
6.4
26 28.6
17 9,7
- 2 35.8 -0.7201
0.5418
0.0747
kx6— 90
43 Ophiuchi
5-4
0.76
6.1
28 3.6
20 44.2
+ 051.4+0.7789
0.5426
O.O66X
+62
^ I
163 G. Ophiuchi
6.3
-0.84
-6.6
-27 50.7
la 543.8
+ 932.640.0428
0.5443
-0.0441
421
-42
X Sagittarii {^var,)
4-4
0.86
6.7
27 48.0
7390
41 X 23.9-0.0868
0.5446
0.0394
+14-49
4 G. Sagittarii
6.2
0.85
7.0
26 56.8
8 4.3
411 48. 3 '-1. 0493
0.5446
0.0385
-391-90
10 G. Sagittarii
5.7
0.89
6.9
28 3.2
11 44.8
- 8 38.840.0533
05450 a0292l42I-4X
0.5451 o.o27x|«6aj4 3
210 B. Scorpii
5.8
0.91
68
2845.1
12 36.7
- 748.740.8030
38 B. Sagittarii
4.7
-0.94
-71
-28 28.2
16 50.8
- 3 43.3+0.3976
0.5455
-0.0X67 I438I-2I
[Bp]
1X3]
OCCULTATIONS, 1912.
575
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
FEBRUARY.
Umit-
The Stak's
At Conjunction in R. A
ing Par-
allels.
Name.
Mag.
Red'ns from
Apparent
Declina-
Wasbingtcn
Mean Time.
Hour
Angle,
Y
x'
y
N.
S.
8
tion.
H
^
• » •
^#«
e >
d h m
h m
e
e
C. 0.-28*14268
6.4
-0.96
- 7.1
-28 55.4
IS 18 34.9
- 2 2.8
+0.8762
0-5457
-0.0122
+62
+ 8
48 G.
Sagittarii
63
0.94
7.4
28 19.2
21 1.3
^ 0 18.6
•f 0.1838
0.5457
0.0062
+25
-33
62 B.
Sagittarii
6.0
0.94
7.3
28 41. 1
21 1.5
-1- 0 18.8
+0.5890
0.5457
0.0062
+51
-10
66 B.
Sagittarii
4.7
0.93
7.7
27 4.6
21 20.8
+ 0 37.4
-1.1973
0.5457
0.0053
-53
-90
58 G.
Sagittarii
6.x
0.96
7.4
28 28.4
23 5-5
+ 218.5
+0.3470
05457
-0.0010
+34
-24
0
Sagittarii
3.3
-1.02
-8.4
-27 5.1
13 944.2
-zi 24.8
-1.0629
0.5453
+0.0258
-41
-90
r
Sagittarii
3-5
1. 06
8.6
2748.1
19 197
- 2 9.0
+0.0960
0.5441
0.0496
+24I-39
183 B.
Sagittarii
6.2
1.06
8.4
28 46.5
19 34 0
- I 55.3
+1.1890
0.5440
0.0501
+62+37
234 B.
Sagittarii
5-9
I.XO
8.9
28 2.3
14 317.6
+ 5 32.5
+0.8302
0.5424
0.0687
+62+ 4
248 B.
Sagittarii
57
I.XI
9.2
27 XO.I
5 45-4
+ 7 55-3
+0.0407
0.5419
0.0748
+24 -42
a
Sagittarii
4.8
-115
-9.8
-26 32.2
17 42.2
- 431.9
+0.3988
0.5384
+0.1024
+46
-22
A
Sagittarii
49
113
9.8
26 26.2
19 9-5
- 3 7.6
+0.4401
0.5379
0.1057
<-49
-19
40 B.
Capricomi
6.2
I.X7
10.4
25 14.7
NEW
15 II 7.1
MOON,
-1141.3
+1.0839
0.5317
0.1398
+65
+22
20
Piscium
5.6
-1.04
-7.8
- 3 15 2
!• 15 30.3
-10 17.4
-1.2691
0.4988
+0.2638
-29
-90
24
PisciniD
6.1
Z.02
77
338.8
18 11.8
- 7 40.4
-0.1324
0.4986
0.2650
+37
-51
27
Piscium
51
1. 00
7.6
4 2.8
21 18.3
- 4 39.2
+1.1238
0.4987
0.2659
f86
+18
29
Piscium
5.1
I.OO
7-4
3 31-2
23 0.1
- 3 02
+1.0079
0.4988
0.2663
^7
+10
80 B.
Piscium
63
I.OI
6.8
059.6
20 0 44.8
- I 18.5
-1.2454
0-4989
0.2667
-26
-90
4
Ceti
6.3
-0.99
- 71
- 3 2.4
211.3
+ 0 5.6
+1.3415
0.4990
+0.2670
+87 +37
5
Ceti
6.3
0.99
7.0
- 2 56.3
226.4
+ 0 20.2
+1.3002
0.4990
0.2671
+88
+33
44
Piscium
6.0
0.98
5.6
+ I 27.0
II 40.9
T 9 19.0
-0-9367
0.5001
0.2682
- 5
-89
147 B.
Piscium
59
0.93
4^
4496
23 52.4
- 2 50.3
-1.2720
0.5029
0.2673
-30
-86
155 B.
Piscium
6.5
0.91
4-3
2544
21 1 27.9- I 17.7
+1.203 1
0.5034
0.2670
+90
+23
171 B.
Piscium
6.3
-0.91
- 32
+ 6 0.5
5 56.4 + 3 3.2
-0.9078
0.5047
+0.2662
- 4
-84
73
Piscium
6.2
0.88
3-2
5 ii.o
8354
+ 5 37-5
+0.6730
0-5057
0.2653
f8S
- 9
e
Piscium
5.6
0.87
3.1
5 II.O
10 25.6
+ 7 24 5
+1.1596
0.5065
0.2644
f90
+20
c
Piscium
5.6
0.86
2.3
7 6.6
13 "-o
+10 5.1
-0.1581
0.5077
0.2632
f36
-52
88
Piscium
6.2
0.85
2.5
631.8
13 42.0
+10 35.2
+0.5940
0.5079
0.2630
f8i
-13
263 B.
Piscium
6.4
-0.81
- 1.7
+ 7 30.3
20 43.6
- 6357
+1.3948
0.51 10
+0.2595
f90
+48
54
Ceti
6.0
0.74
+ 0.1
10 36.5
22 8 3.9
+ 4 24.0
+1.0163
0.5173
0.2517
*9o
+12
26 B.
Arietis
6.0
0.7 X
0.9
II 52.1
12 17.7
+ 830.0
+0.7454
0.5201
0.2478
+90
- 2
12 H.i
' Arietis
6.3
0.71
14
13 32
13 50-2
+ 9 59.7
-0.1185
0.5211
0.2464
f38
-47
19
Arietis
5.8
0.69
2.3
14 52.1
18 55.0
- 9 5.1
-0.7823
0-5244
0.2417
*• 3
—76
27
Arietis
6.4
-0.62
+ 3-8
+17 19.0
23 325.6
- 0 50.9
-1.3249
0.5309
+0.2315
-41
-73
36
Arietis
6.5
0.54
4-3
1723.6
9417
+ 5 12.8
+0.0229
0.5360
0.2230
•■45
-36
40
Arietis
6.0
0.52
47
17 551
1 1 38.0
+ 7 5.2
-0.0946
0.5377
0.2201
<'39
-42
TT
Arietis
5.2
0.51
4-4
17 6.0
II 59.6
+ 726.1
+0.8370
0.5380
0.2x95
»^
+ 7
45
Arietis
6.0
0.48
4-9
17 58.6
14 57.8
+10 18.3
+0.5706
0.5405
0.2150
^i
- 7
P
Arietis
5.6
-0.47
+ 4.8
+17 40.4
15 M-3
+10 34.2
+0.9447
0.5407
+0.2146
f90
+14
'i
Arietis
6.5
0.42
5.5
18 27.6
20 36,7
- 8 14.4
+1.2592
0.5455
0.2059
^90
+41
Arietis
4-5
0.41
5-9
19 23-8
22 3.3
- 6 50.8
+0.5832
0.5468
0.2033
^83
- 5
c
Arietis
50
0.40
6.5
20 43.2
23 29.9
- 527.1
-0.4968
0.5481
0.2007
+17
-6x
r
Arietis
5-1
0.36
6.7
20 49.9
24 2 16.8
- 2 46.0
-0.0592
0.5506
0.1957
+41
-37
63
Arietis
5-2
-0.35
-1- 6.6
+20 25.8
2574
- 2 6.9
+0.4896
0.5512
+0.1946
+75
- 9
65
Arietis
6.0
0.34
6.7
20 29.6
3 41-3
- I 24.6
+0.5653
0.5519
0.1931
+82
- 5
66
Arietis
6.1
0.33
7.5
22 30.2
524.3
+ 0 14.8
-1.1819
0.5535
0.1900
-29
-68
17
Tauri
3.8
0.23
8.4
23 50 4
12 25.6
+ 7 0.9
-1.2700
0-5599
0.1755
-41
-67
23
Tauri
4-3
0.22
8.4
23 40.6
13 2.6
+ 7 36.5
-0.9943
0.5606
0.1740
-M
-67
7
Tauri
3.0
-0.21
+ 8.4
+23 50.2
13 31.8
+ 8 4.7
-1.0725
0.5610
+0.1730
-20
-67
104 B.
Tauri
55
0.20
8.2
23 9.2
13 54-3
+ 826.4
-0.3059
0.5613
0.1722
+27
-47
27
Tauri
37
0.20
8.4
23 47.2
14 14.3
+ 8 45.6
-0.9001
0.5616
0.1717
- 7
-67
28
Tauri
52
0.20
8.5
23 52.3
14 14.8
+ 846.1
-0.9847
0.5617
0.1714
-13
-67
133 B.
Tauri
59
0.18
7.8
21 58.8
14 35 0
+ 9 5-6
+1.0193
0.5619
0.1709
+90
+24
32
Tauri
5.3
-0.13
+ 8.1
+22 13.6
17 29.1
+11 53-2
+X.2505
0.5647
+0.1644
♦90
+45
[Bph X2j
576
OCCULTATIONS, 1912.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
FEBRUARY.
Umit-
Thb Star's
At CoMjUMcnoM nc R. A.
ingPaz^
aUels.
Name.
Mag.
Red'ns from
i9i2.a
Apparent
ueclina*
tion.
Washington
Mean Time.
Hour
Angle,
H
Y
X*
y
N.
S.
Aa
■
AS
0 '
d h m
h m
•
•
33
Tauri
6.0
-0.14
+ 8.3
+22 55.4
24 17 33.7
+"57-7
+0.5480
0.5647
+ai644
f8i
- 2
i6i B.
Tauri
6.5
0.13
8.4
22 57-4
19 10.4
-1029.3
+0.7762
0.5662
0.1607
+90J-HI
36
Tauri
56
-O.II
8.8
23 52.0
20 34.3
- 9 8.5
+0.0636
0.5674
0.1574
+48-26
X
Tauri
53
+0.01
9.6
25 25.5
as 358.4
- 2 1.3
-0.4321
0.5741
0.1390
+20.-51
62
Tauri
6.1
0.03
9.2
24 6.0
433.8
- 127.4
+1.0053
0.5746
0.1375
♦^+27
38 B.
Aurigae
65
+0.30
+10.7
+27 34.6
20 28.7
-10 10.2
-0.6896
0.5877
+0.0936
+ 5'-62
47 B.
Aurigae
6.0
0.34
10.8
27 55 4
22 26.2
- 8 17.5
-0.8632
0.5891
0.0874
-6-63
354 B.
Tauri
6.4
0.42
10.7
27 52.3
a« 243.4
- 4 10.9
-0.4620
0.5920 0.0741
+18 -47
/3
Tauri
1.8
0.46
10.9
28 32.2
443.0
- 216.1
-0.9924
0.5933 0.0682
-16-62
107 B.
Aurigae
6.5
0.53
X0.5
27 365
821.6
+ 1 13.4
+0.1755
0.5955
0.0569
+55 -10
112 B.
Aurigae
5.7
+0.54
+10.3
+26 52.4
849.7
+ 1403
+09447
0.5957
+0.0553
♦90+31
406 B.
Tauri
56
0.64
10.5
27 56.7
13 58.1
+ 6 35 8
+0.X028
0.5983
0.0384
+50-13
136
Tauri
4.6
0.66
Z0.3
27 35 7
14 511
+ 726.5
+0.4883
0.5988
0.0353
+77.+ 7
154 B.
Aurigae
6.4
0.69
10.7
28 55.9
16 1.7
+ 834.1
-0.8192
0.5993
0.0317
-4-62
415 B.
Tauri
6.1
0.71
10.2
27343
17 41.8
+10 Z0.0
+05999
0.6001
+0.0262
♦^+14
49
Aurigae
5.1
■K).93
•I- 9.6
+28 5.7
ar 615.4
- 148.6
+O.X359
0.6036
-0.0163
+52- 9
53
Aurigae
5.6
0.97
9.8
29 38
7244
- 0 42.5
-0.8562
0.6037
ao203
- 7-61
54
Aurigae
5.8
0.97
95
28 20.7
750.7
- 0 17.3
-0.1447
0.6037
0.0216
+36
-24
28
Geminorum
55
I.OI
9.6
29 3.8
9 44-3
+ X 31.4
-0.9120
0.6037
0.0281
-II
-61
47
Geminorum
56
1. 14
8.1
27 0.2
19 31.0
+10 53.0
•fo.7089
0.6037
0.0612
♦90 + 16
53
Geminorum
5-9
+I.I8
•I- 8.2
+28 3.2
21 10.5
-II 31.8
-0.4456
0.6032
-0.0667
+191-45
134 B.
Geminorum
6.5
I.I7
7.8
2651.1
21 35.8
-II 7.6
+0.7263
0.6031
0.0683
♦90+17
59
Geminorum
5.7
1.23
7.8
27 48.7
28 0 20.4
- 8 30.0
-0.4318
0.6025
0.0775
f20
-45
<
Geminorum
3.9
1.24
7.8
27 58.6
046.4
-8 5.2
-0.6302
a6o24
0.0787
*. 8-58
b^
Geminorum
5.0
1.26
77
28 18. 1
a 57
- 6 49.3
-1.0629
a6o2i
0.0830
-22-62
^
Geminorum
5.0
•I-Z.26
+ 7,6
+28 6.0
2 16.3
- 639.1
-0.8766
0.6020
-0.0838
- 7-62
V
Geminorum
4-3
Z.28
71
27 56
4 32-5
- 4 28.7
-0.0720
a6oi5
0.0914
♦40-26
£
Geminorum
5.5
I.3I
6.4
25 59 8
7 35 3
- X 33.7
+0.7279
0.6006
O.IOII
♦90 + 14
^
Geminorum
5.0
1.38
6.2
26 59.8
II 3-8
+ 1 46.1
-0.6390
0.5990
0.x 120
f 8!-6i
U
Cancri
59
1-39
5-5
25 38.2
1351.4
+ 426.7
+0.3879
0.5977
0.1206
♦6d-6
4
Cancri
6.2
+X.39
+ 5.4
+25 20.0
14 9.7
+ 444-2
+0.6512
0.5975
-0.12x7
♦90+ 8
^
Cancri
5.9
1.44
5.0
25 46.6
17 26.1
+ 7 52.4
-0.2048
0.5961
ai3i8
+33.-37
X
Cancri
5-9
1-45
4-3
24 18.1
21 15.9
+11 32.7
+0.7332
0.5939
0.1431
♦90J+10
28
Cancri
6.Z
1.49
3.8
2426.3
29 0 20.4
- 9 30.3
+0.14 18
0.5919
0.1519
f52-ai
v^
Cancri
5.7
X.50
37
24 22.8
I 27.1
- 8 26.4
+0.0295
0.59x3
0.1550
♦46 -27
tP
Cancri
6.4
+X.50
+ 3.6
+2423.1
2 1.3
- 7 53.6
-0.0659
0.5909
-0.1567
+41-32
f
Cancri
5.2
X.60
I.I
2224.1
16 13.8
+ 544.8
-0.5990
0.5810
O.X937
fi 21-65
79
Cancri
6.1
1.60
I.I
2221.3
16 37.4
+ 6 7.4
-0.6281
0.5808
0.1946
fiOt-66
90 H.
* Cancri
6.x
+1.59
+ 0.7
+21 38.8
17 56.1
+ 7 23.0
-0.1836
0.5798
-0.1979
+34 -43
MARCR
57 B.
Leon is
6-5
+1.62
- 1.4
+19 16. 1
1 6 30.0
- 4 32.0
.K).4867! o.5698'-o.2249
fi8-62
107 B.
Leon is
63
1.60
3.0
16 II. I
15 23.9
+ 4 2.0
+0.5019, 0.5628, 0.2403
+75-13
n
Leonis
3.6
1.62
3.0
17 11.5
16 5.2
+ 4417
-0.6645
0.5622
0.2416
+ 9-73
37
Leon is
5-5
+1.58
-3.8
+14 lO.O
20 6.2
+ 8 34.0
+1.3602
0.5591
-0.2479
♦90-^49
42
Leonis
6.1
1. 61
4.0
15 25 I
22 19. 1
+1042.2
-0.4392 0.5574
0.2509
+21,-63
46
Leonis
5.8
1.60
4.7
14 35.3
2 249.7
- 8 56.8
-0.7607
0.5541
0.2569
+ 4-76
/
Leonis
53
1.55
5.7
II 0.6
10 23.2
- I 39 3
40.8302
0.5486
0.2656
+90+ I
308 B.
Leonis
5.8
1.52
7-1
832.4
21 36.1
+ 9 X0.6
+0.2609
0.5412
0.2753
+59 -30
a
Leonis
41
+1.49.- 7-4
+ 6 30.6
8 0 52.9
-II 39.2
+1.3912
0.5392
-0.2773
+90+46
b
Virginis
5-2
i.43| 91
4 8.6
19 6.7
+ 5 58.7
-1.3580
0.5300
a2839
-39-86
10
Virginis
6.2
1-39, 9.4
+ 2 23.4
23 46.2
+10 29.3
-0.9072
0.5283
0.2836
-4-«8
13
Virginis
59
134 94
- 0 18.0
4 4 5.6
- 9 19 5
+0.5977
05268
a2834
+82-14
V
Virginis
4.0
1-34, 9-5
0 10.8
4 41-7
- 8 44-5
+0.3051
0.5266
0.2833
+62 -29
38
Virginis
6.1
+1.25
'-X0.4
1- 3 4-7
20 53 5
+ 656.6
-1.2951
0.5227
-0.2777
k3i'-90
[Bph is]
OCCULTATIONS, 1912.
577
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
IftARCR
Tbb Stak's
Name.
91 G. Virginis
k Virginis
86 Virginis
621 B. Virginis
< Librae (v«r)
25
147 B.
169 B.
177 B.
42
31 B.
32 B.
40 B.
50 B.
57 B.
24 G.
27 G.
41 G.
85 B.
19
o
a
22
116 B.
134 B.
118 B.
95 G.
36
43
163 G.
X
4 G.
10 G.
210 B.
38 B.
48 G.
62 B.
58 G.
183 B,
234 B.
248 B.
(J
6
A
40 B.
56 B.
86 B.
X
27
33
35
228 B.
Librae
Librae
Librae
Librae
Librae
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Ophiuchi
Ophiuchi
Ophi. (iststar)
Ophiuchi
Ophiuchi
Sagittarii(var.)
Sagittarii
Sagittarii
Scorpii
Sagittarii
C.D.-28° 14268
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Mag
Red'ns from
A«
6.5 +1.25
5-4
5.6
6.4
4.7
6.0
6.2
6.0
6.2
5.0
5-4
5.3
5-4
6.4
5.7
6.2
5.8
6.3
6.0
4-9
3.1
1.2
4.8
6.2
6.4
6.2
6.1
5.4
5-4
6.3
4-4
6.2
57
5.8
47
6.4
6.3
6.0
6.1
33
3-5
6.2
59
57
4.8
4.6
4-9
6.2
6.3
6.2
5-3
6.1
5.3
5.3
6.0
6.5
1.09
1.06
0.98
0.72
+0.71
0.66
0.63
0.62
0.61
+055
0.55
0.53
0.51
0.50
+0.49
0.48
0.49
0.49
0.46
+0.46
0.42
0.41
0.41
0.35
+0.27
0.24
0.22
0.19
0.X0
40.08
0.07
0.07
0.06
+O.OI
•0.01
0.03
0.03
0.05
0.16
-0.22
0.22
0.30
0.32
0.39
-0.40
0.41
0.54
0-53
0.58
■0.63
0.64
0.66
0.66
Q.66
-0.68
Aa
Apparent
Declina
Uon.
1912-
•37
-IO-3- 3 44-9
10.2 9 42.9
10. 1 II 59.3
97 14 33.1
9.3 19277
- 9-4 -19 192
9.3 2025.7
8.5 2251.1
8.5 2251.9
83 23 32.1
- 8.1-24 i6-4
8.3 2343.1
8.1 2434.8
8.1 2429.2
8.5 2322.2
- 8.2-24 138
8-5 2327.2
8.4 24 12.0
8.0 2515.4
8.5 2357.6
- 8.0-2523.1
7.7 2614.4
8.2 2455.5
7.7 2620.9
7.4 2717.6
- 7.8-2623.8
7.4 2739.4
8.0 2628.6
7.2 28 3.6
7 3 2750.7
- 7.4 -27 48.0
7.7 2656.8
7.3 28 3.2
7.0 2845.1
7.2 2828.2
- 7.0-2855.4
7.3 28 19.2
7.1 2841.X
7.2 2828.4
7.6 27 5.0
- 7.4-2748.1
7.0 2846.5
7.3 28 2.3
7.5 27 10. 1
7.6 2632.1
- 7.3-2724.4
7.6 2626.2
7.8 25 14.6
7.9 24 5.9
7.9 24 6.9
- 8.4 -21 33.0
8.6 2054.8
8.5 21 1.2
8.3 21 13.7
8.1 21 34.8
I- 8.6I-19 32.1
[Eph
At CoMjUMcnoM in R. A.
Washincton
Mean Time.
d h
4 21
5 16
22
• 7
7 16
16
8 o
4
5
5
II
II
13
16
17
18
18
20
21
9 o
o
4
4
4
10
20
23
10 o
4
13
15
15
19
19
11 o
I
4
4
6
16
IS 2
2
10
12
13 o
X
2
18
21
14 4
II
12
15
19
20
m
57
22.1
42.8
44.8
18.7
50.1
57-5
175
I.I
26.3
45.0
46.5
546
22.2
239
1 1.6
36.2
53
239
2.8
Hoor
Angle,
H
+11
-II
-II
- 4
- 4
- 2
- o
+ o
+ I
+ I
3
+ 4
+ 6
9 +
22
16.5
0.3
235
541
441
55.4
22.8
44.2
15.9
97
3.8
28.9
74
58.9
ii.i
54.4
19.9
20.1
233
591
330
47.3
30.3
58.0
55.0
25.5
22.3
21.0
50.6
2.6
39-5
8.8
87
22.0
540
17-5
+
+
h
7
I
7
7
o
o
8
m
8.5
48.8
57.5
17.4
144
44.8
363
0.6637
40.2658
+0.9831
+1-3945
-0.6733
-0.9290
-1.2759
497+0.7396
28.2 +0.6275
3.8+1.2770
57.6 +1.03 1 3
56.2+0.4271
52.3+1.0247
+0-5497
+ 7
+10
+11
+11
- 6
+ 3
+ 5
+ 6
+10
- 5
3
2
o
29.6
30.0
16. 1
39.9
52.9
21.9
55.6
8.8
45.1
7.4
37.0
44.8
+11 23.9+0.1432
- 2 22.3 -1.2517
+ 6 5 1.91-0.0874
+ 7
- 9
- 7
+ 4
5-7
27.1
4-4
28.6
+
+
+
+
4
5
2
o
6
9
9
6
2
- c
+ o
58.0
52.9
39.8
-0.8140
+0.0021
•8995
1.4 160
+0.6616
-1.I07I
+0.4 1 17
+0.8656
.6149
+0.8748
+1.2365
5.5 -0.7236
27.8 +0.4584
46.4-0.9395
10,8+0.5517
13.9-0.x732
237
59.6
31.4
21. 1
24.6
-0.3007
-1.2575
-0.1585
+0.5886
+0.1884
I
5
7 4.3
924.8
9 25.0 +0.3826
+0.6663
0209
+1.0030
+0.6539
1314
+0.2400
+1.2569
+0.2831
+0.9460
43.0+0.1842
43.2+1.1585
54.3 -0.3980
25.9-1.0148
31.6-0.3634
26.2 +0.6437
57.0+1. 3201
24.o-a6640
0.5227
0.5213
0.5216
0.5224
0.5295
0.5296
0.5320
0.5330
0.5333
0.5334
0.5352
0.5352
0.5359
0.5366
0.5369
0.5371
0.5372
0.5379
0.5380
0.5387
0.5388
0.5398
0.5399
0.5401
0.5415
0.5436
0.5440
0.5442
0.5448
0.5457
0.5458
0.5458
0.5461
0.5461
0.5460
0.5459
0.5459
0.5459
05458
0.5446
0.5428
0.5427
0.5408
0.5401
0.5363
0.5361
0.5358
0.5296
0.5281
0.5255
0.5224
0.5222
0.5209
0.5192
0.5186
0.5180
y
-0.2776
0.2634
0.2569
0.2468
0.1969
-o. i960
0.1807
0.1743
0.1729
0.1722
-O.I 59 1
0.1 591
0.1545
0.1495
0.1472
-0.1457
0.1447
0.1396
0.X386
0.1327
-0.1321
0.1238
0.X230
0.1217
0.1083
-0.0840
0.0778
0.0745
0.0660
0.0438
-0.0390
0.0378
0.0287
0.0266
0.0159
-0.01 13
0.0052
0.0052
0.0000
+0.0267
+0.0504
0.0510
0.0697
0.0756
0.1032
+0.1045
0.1067
0.1411
0.1480
0.1601
+0.1740
0.1749
0.1802
0.1876
0.1900
+0.1923
Limit-
ing Par-
aliels.
N.
+10
+57
+79
+76
-15
-45
+68
+66
+67
+66
+53
+66
+59
-13
+29
-19
8
+64
-35
+49
+64
- 5
+64
+^3
-15
+47
-29
+52
+10
3
r58
9
+52
+27
+57
15
+37
+22
-58
+15
+62
+59
+16
+37
+63
+40
+65
+39
+66
S.
-87
-31
+ 9
+52
-90
-90
-90
- 3
-10
+41
+17
-21
+16
-M
-90
-44
-90
-71
- 7
-90
-21
+ 6
-89
+ 6
+41
-90
-18
-90
-13
-55
-63
-90
-54
-11
-33
- 6
-46
-22
-36
-90
-50
+ 17
- 7
-52
-31
+46
-28
+11
-34
+28
+13
-22
+15
+68
+69
-69
-90
-66
- 9
+46
01-90
w]
578
OCCULTATIONS, 1912.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONSw
MARCH.
Limit-
Turn Stae's
At Conjunction in R. A.
allels
Name.
Mag
Red'ns from
1912.0.
Apparent
Declina-
tion.
Washin^on
Mean Time.
Hour
Angle,
II
Y
x'
y'
N. ! S
Aa
Ad
s
f
» r
d h m
h m
• •
37 Capricomi
5-7
-0.69
-8.3
-20 28.8
15 043.0
+ 244.9
+0.8461
0.5170I+0.1962
+70- 2
e Capricomi
47
0.70
8.4
19 51.8
150.4
+ 3 50 3
+0.3906
0.5166
0.1979
+56 -23
K Capricomi
4.8
0.71
8.5
19 16.2
438.9
+ 6337
+0.3019
0.5155
0.2025
+52-23
143 B. Capricomi
6.1
0.71
8.3
20 1.5
4558
+ 650.0
+ 1. 1879
0.5154
0.2028
+70 <27
152 B. Capricomi
6.5
0.74
8.8
17 15.5
830.1
+10 17.8
-1.1133
0.5140
0.2083
-25 90
154 B. Capricomi
6.1
-0.74
-8.4
-19 2.1
9137
+11 0.1
+0.9872
o.5i37;+o.2093
♦•71 +1!
161 B. Capricomi
6.4
0.76
8.4
18 19.7
14 35 7
- 7 47-5
+1.3552
0.51 18
0.2167
■►72 *4>
29 AqasLTii (mean)
6.5
0.77
8.6
17 23.5
14 44.1
- 7 39-4
+0.3593
0.5118
0.2170
f 57 -25
50 Aquarii
5.9
o.8z
8.6
-13 58.7
NEW
16 2 7.6
MOON.
* 323.9
-0.8102
0.5081
0.2313
- 2-90
1
54 Ceti
6.0
-0.96
- 0.9
+10 36.5
20 14 0.5
-II 52.0
+1.1280
0.5220
+0.2548
+90*2^
a6 B. Arietis
6.0
0.95
- 0.2
II 52.1
18 10.6
- 7 49 7
+0.8628
0.5245
0.2514
+9o> 3
12 H.* Arietis
6.3
0.96
+ 0.1
13 3-2
19 41.8
- 621.4
+0.0044 0.5255
0.2499
+45 N-*
19 Arietis
5.8
0.95
0.9
1452.1
21 042.5
- I 30.2
-0,6522
0.5290
0.2442
+ IC -7'
27 Arietis
6.4
-0.91
+ 1.3
+17 18.9
9 6.8
+ 6 37-7
-1.1871
0.5349
+0.2341
-26 -"3
36 Arietis
6.5
0.86
2.9
17 23.6
15 18.7
-II 22.8
+0.1599
0.5396
0.2253
^■53 -ii
40 Arietis
6.0
0.85
32
17 551
17 13.8
- 9 31.6
+0.0436
0.5410
0.2226
+47 -3;
TT Arietis
52
0.84
3.1
17 6.0
17 35.2
- 9 10.9
+0.9730
0.5413
0.222I
490 + 15
45 Arietis
6.0
0.83
3.5
17 58.6
20 31.7
- 620.3
+0.7091
0.5437 0.2173]
49c 0
p Arietis
56
-0.82
+ 3-4
+17 40.4
20 48.2
- 6 4.5
+1.0827
0.5439
+0.2169
490 *23
rf Arietis
4-5
0,77
4.5
19 23.7
33 3338
+ 027.1
+0.7253
0.5495
0.3049 +90 V 2
C Arietis
50
0.77
50
20 43.2
4 597
+ I 50.0
-0.3526
0.5505
a2026
+25 -53
r Arietis
51
0.74
5-3
20 49-9
745.6
+ 4 30.1
+0.0853
0.5528
0.1976
+49 -2y
63 Arietis
5-2
0.73
5-2
20 25.8
826.0
+ 5 9.0
+0.6336
0.5534
0.1961
♦«u- I
65 Arietis
6.0
-0.72
+ 5.3
+20 29.6
9 9.6
+ 551.1
+0.7097
0.5540
+0.1946
+90+ 3
66 Arietis
6.1
0.72
6.0
22 30.2
lo 52.1
+ 729.9
-1. 036 1
0.5554
O.I9II
-16 -fxS
16 Tauri
5-4
0.65
7^
24 09
17 49.8
- 9 47 6
-1.3107
0.5612
0.1767
-4^-06
17 Tauri
3.8
0.65
7.0
23 50.4
17 51.8
- 9456
-1.1233
0.5613
0.1765
-24 -6:
20 Tauri
4.1
0.65
71
24 5-7
18 15.7
- 922.6
-1-3173
0.5616
0.1757
-50|-<j6
23 Tauri
4-3
-0.64
+ 7.0
+23 40.6
18 28.7
- 9 10. 1
-0.8476
0.5618+0. 1752 1
-3-^7
V Tauri
3.0
0.65
71
2350.1
18 57.8
- 842.0
-0.9266
0.5622
0.1742
- 9-<7
X04 B. Tauri
5-5
0.63
6.9
23 9.2
19 20.2
- 8 20.4
-0.1588
0.5625
0.1734
435 Mg
27 Tauri
37
0.64
71
23 47-2
19 40.2
- 8 1.2
-07535
0.5628
0.1725
f 2 -^7
28 Tauri
5-2
0.64
7.1
23 52.2
19 40.7
- 8 0.7
-0.8379
0.5628 0.1725
- 3 07
133 B. Tauri
5.9
-0.61
+ 6.6
+21 58.7
20 0.8
- 7 41-3
+1.1676
0.5631+0.1716
f9C»5'»
33 Tauri
6.0
0.58
71
22 55.4
22 59.3
- 4 49 4
+0.6968
0.5654
0.1648
t<^ * ^
i6i B. Tauri
6.5
0.56
7.2
22 57-3
28 0 36.0
- 3 16.3
+0.9260
0.5668
0.1608
+9o*-w
36 Tauri
5.6
0.55
7.6
23 52.0
159.8
- I 557
+0.21 19
0.5678
0.1577
+57 -^
X Tauri
5-3
0.45 8.6
25 25.5
924.6
+ 5 12.2
-0.2850
0.5736
0.1392
♦2V-42
62 Tauri
6.1
-0.43+ 8.2
+24 5.9
10 0.1
+ 5463
+1.1569
0.5741
+0.1376
+90M)
17 B. Aurigs
6.0
0.27
lO.O
27 45-2
21 23.5
- 7 17.0
-1.1912
0.5820
0.1064
-35 -< ^
38 B. Aurigae
6.5
0.19
10.2
27 34-6
24 2 I.I
- 2 50.5
-0.5473
0.5849
0.0926
♦■13-54
47 B. Aurigae
6.0
ai5' 10.4
27 55 4
3 597
- 056.6
-0.7226
0.5860
0.0870
f 3 f^\
354 B. Tauri
6.4
0.07: 10.5
2752.3
819.7
+ 3 12.8
-0.3202
0.5884
ao740
f 2() -59
22 Aurigae
6.4
-0.06+10.8
+28 51.4
913.8
+ 4 47
-1.2592
0.5888
+0.0710
-48 -^2
/? Tauri
1.8
-0.03 10.7
28 32.2
10 20.9
+ 5 9.1
-0.8551
0.5893
0.0676
- 6-Oi
107 B. Aurigae
6.5
+0.04: 10.5
27 36.5
14 2.5
+ 841.6
+0.3203
0.5909
0.0559
♦64- 3
112 B. Aurigse
57
0.05' 10.2
26 52.4
14 310
+ 9 8.9
+1.0960
0.5911
0.0544
490442
116 B. Aurigae
5.9
0.07: II.O
29 10. 1
15 17.9
+ 9 53.9
-1.2000
0.5915
0.0521
-38-61
406 B. Tauri
5.6
+0.14 +10.6
+27 56.7
1944.2
- 9 50.8
40.2455
0.5932
+0.0380
♦59- 6
136 Tauri
4.6
0.15 10.5
27 35.7
20 38.0
- 8 59-2
+0.6342
0.5934
0.0349
♦90 + 14
154 B. Aurigae
6.4
o.i8j II.O
28 55.9
21 49.9
- 7 503
-0.6855
0.5937
0.0310
+ 5-60
415 B. Tauri
6.1
0.21, 10.5
27 34-3
23 31.7
- 6 12.7
+0.7459
0.5942
0.0255
♦90 +21
Z83 B. Aurigae
6.3
0.25 11. 1
29 31.4
25 I 30.8
- 4 18.7
-1. 1929
0,5946
0.0193
-37,-61
K Aurigae
4-4
K).32+II.I
+29 32.1
453.8- I 4.1
-1.1574
0.5954
+0.0079
-33-^1
»
[Ept
\ Z2]
OCCULTATIONS, 1912.
579
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
MARCH.
1
Limit-
Trs Star's
At CoMjUHcnoN xw R. A. |
ing Par-
allels.
Name.
MaR.
Red'ns from
19x2.01
Apparent
Declina-
Washington
Mean Time.
* Hour
Angle,
H
Y
x'
y'
N.
S.
e^L
^h
doa
8
m
0 *
d h m
h m
e 0
2H B.
Aurigae
6.3
■K>.37
+IX.O
+29 35- 1
26 7 4-4
+ I I.I
-1.1981
0.5959
+0.0008
-38-61
49
Aurigx
51
0.47
10.3
28 5.7
12 20.6
+ 6 4.0
+0.2726
0,5960
-0.0166
+61^
- 2
53
Aurigae
5.6
0.50
10.6
29 3.8
I33I.I
+ 7 II.6
-0.73"
0.5960
0.0202
+ 2
-61
54
Aurigae
5.8
0.50
10.3
28 20.7
13 58.0
+ 7 37 4
-O.OI2I
0.5960
0.0218
+44 -17
28
Gemtnorum
5.5
0-55
10.5
29 3-8
15 54-3
-f 928.8
-KJ.7892
0.5961
> 0.0282
- 2-61
47
Geminorum
5-6
+0.71
+ 9.2
+27 0.3
a« 1557
- 4 54.8
+0.8463
0.5946
-0.0611
+90+24
53
Geminorum
5.9
075
9 5
28 3.2
338.0
- 3 16.8
-0.3241
0.5942
0.0665
+26-37
134 B.
Geminorum
6.5
0-75
9.0
2651.1
4 3.9
- 251.9
+0.8628
0.5942
0.0681
+90+25
59
Geminorum
5.7
0.81
91
27 48.7
6530
- 0 9 9
-0.3125
0.5936
0.0770
+27-38
I
Geminorum
39
0.82
9-1
27 58.6
719.8
+ 0 15.8 -0.5138
0.5934
0.0785
+15 -50
b^
Geminorum
50
+0.85
+ 9.1
+28 18. 2
8413
+ I 33.9 -0.9532
0.5929
-0.0826
-13
-62
b^
Geminorum
5.0
0.86
91
28 6.1
852.3
+ I 44-5
-0.7642
0.5928
0.0833
0
-62
V
Geminorum
4-3
0.89
8.5
27 5.7
11 12.4
+ 3 58.8
+0.0494
0.5919
0.0904
+47
-20
c
Geminorum
5.5
0-93
7.9
25 59 8
14 20.5
+ 659.2
+0.8586
0.5906
O.IOOO
+90
+21
^
Geminorum
5.0
I.OI
7-9
26 59.8
17 55-3
+1025.2
-0.5302
0.5892
O.III2
+15
-54
u
Cancri
5-9
+1.03
+ 7.1
+25 38.2
20 48.0
-10 49. 1
+0.5095
0.5877
-O.I 196
+79
0
4
Cancri
6.2
1.03
7.0
25 20.1
21 6.9
-10 30.9
+0.7762
0.5875
O.X206
+90
+15
V'
Cancri
5.9
1.09
6.7
25 46.6
27 0 29.4
- 7 16.7
-0.0947
0.5857
0.1302
^■39
-3a
A
Cancri
5-9
1.13
5.9
24 18.1
426.5
- 329-1
+0.8543
0.5835
0.14 16
+90
+17
28
Cancri
6.1
1.19
5-5
24 26.3
736.9
- 026.3
+0.2517
0.5817
0.1504
^•59
-15
v»
Cancri
5-7
+1.20
+ 5.4
+24 22.8
8457
+ 039.8
+0.1369
0.5809
-0.1535
+52
-21
v^
Cancri
6.4
1. 21
5-3
24 23.2
921. 1
+ X13.8
+0.0392
0.5806
0.1550
H7
-27
194 S*
Cancri [2d star)
6.3
1-37
3-3
23 20.1
23 14.3
- 9 25 3
-1.3047
0.5711
0.1894
-45
-67
^
Cancri
5.2
1-37
2.9
22 24.2
28 0 1.5
- 8 39.8
-0.5148
0.5706
0.I9I2
+16
-60
79
Cancri
6.1
1.38
2.9
22 21.3
025.9
- 8 16.3
-0.5450
0.5704
0.1920
^15
-62
90 H.
* Cancri
6.1
+1.38
+ 2.5
+21 38.8
X47.2
- 6 58.1
-0.0948
0.5693
-0.1952
^^39
-38
57 B.
Leonis
6.5
1.49
+ 0.1
19 16. 1
14 45.6
+ 5 3X-4
-0.4157
0.5599
0.2218
f22
-58
107 B.
Leonis
6.3
1.52
- 1.8
16 IX.I
23 56.0
- 9 38.0
+0.5768
0.5536
0.2375
fSi
- 8
V
Leonis
3.6
1-54
1-7
17 11.5
29 038.6
- 8 57.0
-0.6065
0.5531
0.2386
+12
-70
42
Leonis
6.1
1.56
2.9
1525.1
7 3-6
- 2 45.4
-0.3855
0.5486
0.2487
f24
-60
46
Leonis
5.8
+1.58
- 3.7
+14 35.3
II 41.9
+ 143.2
-0.7163
0.5458
-0.2543
+ 7
-76
/
Leonis
5.3
1-57
5-3
II 0.6
19 27.5
+ 9 12.9
+0.8841
0.5410
0.2636
f9o;+ 4
308 B.
Leonis
5.8
1.60
7.1
832.4
80 656.4
- 3 411
+0.2932
0.5348
0.2739
f6i!-28
G
Leonis
41
1.59
7-7
630.6
xo 17.5
- 026.5
+1.4299
0.5334
0.2757
f9o!+56
b
Virginis
52
1.62
9.8
4 8.6
31 450.4
- 6 29.5
-1.3658
0.5264
0.2830
-40-86
ID
Virginis
6.2
+1.61
-10.4
+ 2 23.4
9 33-5
-1553
-0.9175
0.5252
-0.2834
-4-88
13
Virginis
5.9
1.59
X0.8
- 018.1
13 55.8
+ 2 18.7
+0.5905
0.5243
0.2831
+81-14
^
Virginis
4.0
1.59
10.9
- 0 10.9
14 32.2
+ 254.0
+0.2957
0.5242
-0.2831
+61-29
APRIL.
38
91 G.
h
86
621 B.
25
169 B.
177 B.
42
31 B.
32 B.
40 B.
50 B.
57 B.
Virginis
Virginis
Virginis
Virginis
Virginis
Librae [par.)
Librae
Librae
Librae
Librae
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
6.1
+1.59
-12.1
- 3 47
6.5
i.5«
12.2
3 44-9
5-4
1.54
12.9
942-9
5-6
1.52
130
"59 4
6.4
+1.50
-12.9
-14 33 2
4-7
1.42
12.4
1927.8
6.0
1.42
12.5
19 19.2
6.0
1.37
11.5
2251.2
6.2
1-37
"5
22 52.0
5.0
+1.37
-"•3
-2332.1
5-4
1.36
II.O
24 16.5
5-3
1.36
1 1.2
23 43 2
5 4
1-35
10.9
24 34-9
6-4
1.33
10.8
24 29.2
5.7
+1.32
-II. I
-23 22.2
650.4
7 2.7
218.6
8374
17 35-3
144-4
215.3
13 31.4
14 14.2
14 390
20 51.3
20 52.8
22 58.7
123.7
224.3
- 5
- 5
-10
- 4
+ 4
+11
+11
- I
- o
- o
+ 5
+ 5
+ 7
+IO
18.5 -1.3295
6.5 -0.6963
26.7 +0.2147
19.8.+0.9249
21.2 +1.3268
28.1 -0.7537
58.0-1.0081
8.4 +0.6466
27.1 +0.5349
3.1 +1. 1803
56.6+0.9341
58.1+0.3337
59.8 +0,9270
19.8 +0.4545
+11 18.3-0.90x2
0.5222
0.5222
0.5232
0.5240
0.5257
0.5348
0.5350
0.5386
0.5388
0.5390
0.5409
0.5409
0.5415
0.5422
0.5425
-0.2789
0.2788
0.2651
0.2591
-0.2491
0.1993
0.1982
0.1765
0.175X
-0.174X
0.X611
0.16x1
0.1566
0.X513
-0.X490
+55r33
+79+ 5
-34
+ 8
-90
-90
+76
- 3
-19
+67
+60
+39
-90
-90
- 9
-15
+67+29
+66J+ 9
+48J-26
+66+ 9
+54-19
-18-^
[Eph 12]
580
0CCULTATI0N8, 1912.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
APRIL.
Tbb Stak's
At CoMjuMcnoM m R. A.
Limit-
ing Par-
aUels.
Name.
24 G.
27 G.
41 G.
85 B.
19
a
a
22
zx6 B.
134 B.
zx8 B.
95 G.
36
43
163 G.
X
10 G.
210 B.
38 B.
48 G.
62 B.
58 G.
r
183 B.
«34 B.
248 B.
u
b
A
40 B.
56 B.
^ B.
X
i
33
35
128 B.
37
143 B.
152 B.
154 B.
z6i B.
29
50
182 B.
56
70
74
^
X
20
Soorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Ophiuchi
Ophiuchi
Ophi. {ist star)
Ophiuchi
Ophiuchi
Sagittarii (var.)
Sagittarii
Scorpii
Sagittarii
C. D. -28° 14268
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Capricomi
Capricorn i
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Aquarii {mean)
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
PisciuiD
Mag.
6.2
5.8
6.3
6.0
4-9
31
1.2
4.8
6.2
6.4
6.2
6.1
5-4
5-4
6.3
4.4
5.7
5.8
4.7
6.4
6.3
6.0
6.1
3.5
6.2
59
57
4.8
4.6
49
6.2
6.3
6.2
5-3
6.1
53
53
6.0
6.5
57
4-7
4.8
6.1
6-5
6.1
6.4
6.5
5.9
6.2
6.1
6.1
5.8
4-5
5-3
4.6
5.6
Red'ns from
zgxxa
Aa
•32
32
30
•31
.28
.29
.26
.26
.26
.25
.16
•15
.12
.II
.06
.04
.00
.00
0.96
0.94
+0.91
0.92
0.89
0.70
0.71
+0.62
0.62
0.48
0.48
0.46
+0.31
0.27
0.20
O.I3
0.12
+0.09
0.05
0.03
+0.01
-0.01
-0.03
0.05
0.05
O.II
O.IO
-0.13
0.14
0.26
0.28
0.28
-0.36
037
0.47
0.49
0.48
-0.61
Lh
Apparent
Declina-
tion.
-10.9
li.o
10.8
10.5
10.7
-10.3
9.9
10.3
99
9-4
- 9.2
8.7
9-3
8.3
8.0
• 7 9
7.6
7-3
7.2
6.9
- 70
6.9
6.8
6.0
5-5
5.4
5-5
51
4.7
5.0
- 4-5
4.6
4-4
4.8
50
.4.8
4-5
4-3
4-9
4.5
■4.6
4-7
4.4
5.1
4-5
■ 4-3
4.6
5.0
5.0
4.5
■ 4.9
4-5
4.5
4.8
4.4
■ 4-6
-24 13.8
23 27.2
24 12.0
25 15.4
23 57.6
-25 23.1
26 14.4
24 55.5
26 21.0
27 17.7
-26 23.8
27 39-4
2628.6
28 3.6
27 507
-27 48.0
28 3.2
2845.1
28 28.2
28 55.4
-28 19.2
28 41. 1
28 28.4
27 48.1
2846.5
-28 2.3
27 10. 1
2632.1
27 24.3
2626.1
-25 14.6
24 5.8
24 6.9
21 32.9
20 54.7
-21 I.I
21 13.7
21 34.7
19 32.0
20 28.7
-19 51.7
19 16.I
20 1.5
17 15 4
19 2.1
-18 19.7
17 23.4
1358.6
13 22.1
15 2.2
-IX 1.3
12 5.2
9341
812.5
9 39-9
■ 3 151
[Eph
Hour
Washin^on
Mean Time.
Angle,
//
d
h m
h m
5
3 XI.2
-II 56.4
335.4
-II 33.0
5507
- 922.3
620.2
- 8 53.9
856.4
- 623.0
9 9-9
- 6 10.0
12 49.9
- 2 37-5
13 12.7
- 2 15.5
13 427
- I 46.5
19 26.9
+ 3 45-8
6
528.5
-10 33.6
753.6
- 8 13.5
9137
- 6 56.3
12 42.4
- 3 34.8
21 29.0
+ 4 53.2
23 21.6
-1- 641.9
7
322.3
•I- 10 34.1
413.2
-hii 23.2
822.6
- 8 36.1
10 4.8
- 6 57.5
12 28.8
- 4 38.6
12 29.0
- 4 38.3
14 31.0
- 2407
8
10 32.0
- 721.5
10 46.2
- 7 7.7
18 27.3
+ 017.6
20 54.6
+ 2 39.9
9
8505
- 948.2
921.0
- 9 18.8
10 17.9
- 8 237
10
2 18.0
+ 7 5.0
548.2
+10 28.4
12 1.5
- 7 30.2
19 40.5
- 0 5.6
20 lO.O
+ 023.0
23 10.7
+ 3 18.1
11
325.4
¥ 7 25.0
457.9
-1- 854.6
621.8
+XO 15.9
848.1
-II 22.2
955.8
-10 16.6
"453
- 7 32.1
13 2.3
- 7 15.7
16 37.7
- 3 46.8
17 21.6
- 3 4.1
22 45.4
+ 2 9.9
22 53 9
+ 2 18.3
13
10 20.9
-10 35.0
13 15.9
- 745.1
1323.9
- 7 37-4
23 1.2
+ 143.2
13
X38.8
+ 4 16.4
1333.3
- 8 9.7
14 5.4
- 7 38.5
14 387
- 7 6.1
14
640.0
+ 827.7
-0.0901
-0.9861
5061
+0.5647
-1. 1932
+0.3 16 1
+0.7667
-0.7050
+0,7759
+I.I347
8145
+0.3610
-1.0292
+0.4538
<o.2668
-0.3936
-0.2517
+0.4918
+0.0944
+0.5702
-0.1 138
+0.2880
+0.0502
-0.1759
+0.9119
+0.5656
-0.2172
+0.1570
+1.1727
+0.2003
+0.8692
+0.1089
+X.0857
-0.4676
-1.0847
-0.4315
+0.5775
+X.2546
-0.7287
■»-o.7829
+0.3275
+0.2403
+1.1269
-1.1735
+0.9283
+1.2987
+0.3029
-0.8604
-0.8451
+1.0044
-1.0539
+0.7469
+1.0275
-0.3019
+1.4112
-1.2557
0.5427
0.5428
0'5435
0.5437
0.5443
0-5444
0.5453
0.5453
0.5455
0.5468
0.5485
05488
0.5489
0.5491
0.5495
0.5494
0.5493
0.5493
0.5490
0.5488
0.5484
0.5484
0.5482
0.5436
0.5435
0.54 II
0.5402
0.5354
0.5352
0.5348
0.5276
0.5261
0.5232
0.5197
05196
0.5182
0.5164
0.5158
0.5151
0.5141
0.5137
0.5126
0.5125
0.5111
0.5108
0.5089
0.5089
0.5055
0.5048
05047
0.5027
0.5023
0.5012
0.5011
0.5010
0.5014
y
N. S.
-0.1473
0.1463
0.1412
0.1402
0.1343
-0.1337
0.1250
0.1242
0.1230
0.1094
-0.0849
0.0785
0.0752
0.0663
0.0439
-0.0389
0.0286
0.0264
0.0x56
0.0112
-0.0050
-0.0050
+0.0002
0.0509
0.0515
+0.0703
0.0759
0.1037
0.X047
+24 -50
-24-90
3-78
+59-13
-41-90
+44-27
+64 - I
- 9-90
0
+28
464
+63
-19^-90
+42-24
-34-90
+45 -19
+ 5-61
- 1-70
5-60
4-46 -16
+21-39
4-50 -12
+ 9-51
+31-28
+17 -41
+10-55
+62*10
+54 -"
+10-58
+33-35
♦63+33
0.X069 436-33
+0.1407
0.X478
0.1597
0.1739
0.1745
+0.1798
o. 1870
0.1896
+65* 5
+35 -38
-f6()42I
9-74
-27-90
+12-71
+65-13
+69+36
0.1920 - 2-90
0.1957 +70- a
+0.1975 +52-27
0.2017
0.2020
0.2075
0.2085
+0.2160
0.2163
0.2309
0.2342
0.2343
+0.2446
0.2471
0.2570
0.2575
+0.2678 1-27 -90
1+49 -31
70 +22
-30-90
+71+ 7
+72+38
+54-29
- 5-90
- 3-90
+75 +"
-15
-90
78-5
+811+11
+28-61
0.2579 +8ii+50
la]
OCCULTATIONS, 1912.
581
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
APRIL.
1
Limit-
Thb STAa*s
At Conjumctiom in R. A.
ing Par-
afiels.
Name.
Mag.
Red'ns from
Apparent
Declina-
tion.
Washington
Mean Time.
Hour
Angle,
Y
x'
y
N.
S.
8
^^«
0
d h m
h m
e
e
24
Piacium
6.1
--O.62
- 4.3
- 3 38.7
14 919.I
411 2.2
-0.1235
0.5018
40.2687
438-51
27
Piscium
5.1
0.63
41
4 2.7
12 22.7
- 9 59 5
41.1280
0.5023
0.2698
486
418
29
Piscium
51
0.65
4.0
3311
14 2.8
- 8 22.2
41.0158
0.5025
0.2704
487
4IO
80 B.
Piscium
6.3
0.68
4-3
059.6
15 45-7
- 642.2
-1. 2109
0.5028
0.2710
-23
-^
4
Ceti
6.3
0.67
3-9
3 2.4
17 10.6
- 5 198
+1-3533
0.5030
0.2715
487
+38
5
Ceti
6.3
-a67
- 3-9
- 2 56.3
17 25.5
- 5 5.3
41.3122
0.5031
40.2716
488
+33
Vbnus
-3.3
• * ■ •
• ■ • •
4 0 5.8
NEW
16 0 8.5
MOON.
4 I 26.0
-0.0842
0.4556
0.2523
441
-49
16
Tauri
5.4
-0.87
45.6
424 0.9
19 0 20.4
- X 29.4
-1.2853
0.5685
40.1786
-43
-66
17
Tauri
3.8
-0.87
4 5.6
+23 50.3
022.3
- I 27.5
-1.0998
0.5685
40.1786
-22
-67
20
Tauri
41
0.87
5-7
24 5-7
0457
- I 5-1
-1.2915
0.5688
0.1778
-44
-66
23
Tauri
4-3
0.86
5.6
23 40.6
058.4
- 0 52.8
-0.8264
0.5690 0.1772 1
- 2
-67
V
Tauri
30
0.86
5.7
23 50.1
z 26.9
- 0 25.4
-0.9042
0.5694
0.1761
- 7
-67
X04 B.
Tauri
5.5
0.85
5.6
23 9-2
Z48.8
- 0 4.3
-0. 1440
0.5697
0.1753
436
-39
27
Tauri
37
-0.85
45.8
423 47.2
2 8.4
4 4) J4.6
-0.7328
0.5700
40.1745
+ 4
-67
28
Tauri
52
0.86
5.8
23 52.2
2 8.9
4 OI5.I
-0.8168
0.5700 0.1745
- I
-67
133 B.
Tauri
5-9
0.83
5.5
21 58.7
228.5
+ 0 33-9
41.1706
0.5702 0.1739
490
436
33
Tauri
6.0
0.82
59
22 55-3
523.0
4 321.8
40.7040
0.5727 0.1670
♦90
4 6
x6i B.
Tauri
6.5
0.80
6.1
22 57-3
6577
4 4 52.8
40.9311
0.5740
0.1634
490
420
36
Tauri
5.6
-0.80
4 6.4
i-23 52.0
819.6
4 6 II.6
40.2239
0.5750
40.1599
+58
-18
X
Tauri
5.3
0.74
7.4
25 25 5
15 351
-10 49.8
-0.2684
0.5805
0.1407
429
-41
62
Tauri
6.1
0.72
7.1
24 5-9
z6 9.8
-10 16.5
41.1609
0.5810
0.1391
490
+39
17 B.
Aurigae
6.0
0.62
8.8
27 45-2
SO 319.7
4 026.6
-1.1684
0.5884
0.1073
-32
-63
38 B.
Aurigae
65
0-55
9.0
27 34-6
752.3
4 4 48.2
-0.5291
0.5910
0.0941
^15
-52
47 B.
Aurigae
6.0
-0.52
+ 9 3
+27 55 4
948.9
4 640.0
-0.7033
0.5920
40.0877
+ 4
-63
354 B.
Tauri
6.4
0.46
9.5
27 52.3
14 47
4IO 45.2
-0.3040
0.5938- 0.0745 1
427
-38
22
Aurigae
6.4
0.45
9.8
28 51.4
14 57.8
41 X 36.2
-1.2371
0.5943
0.0715
-43
-62
/9
Tauri
1.8
043
98
28 32.2
16 4.0
-IX 20.4
-0.8360
0.5948
0.0681
- 5
-6a
107 B.
Aurigae
65
0.38
9-7
27 36.5
19 42.2
- 7 51-3
40.3322
0.5962
0.0566
465
- 3
112 B.
Aurigae
57
-0.36
+ 9.5
426 52.4
20 10.3
- 724.3
41.1033
0.5963
40.0550
490
+43
116 B.
Aurigae
59
0.36
10.2
29 10. 1
20 56.6
- 640.0
-1.1792
0.5965
0.0527
-35
-61
406 B.
Tauri
5-6
0.28
lO.O
27 56.7
ai 1 19 3
- 2 28.3
40.2575
0.5975
0.0380
460
- 5
136
Tauri
4-6
0.27
99
27 35 7
212.4
- I 37.4
40.6445
0.5976
0.0352
f90
+15
154 B.
Aurigae
6.4
0.25
10.3
28 55-9
3234
- 0 29.4
-0.6691
0.5979
0.0313
4 6
-59
415 B.
Tauri
6.1
-0.22
4IO.O
+27 34 3
5 41
4 I 7.0
+0.7554
0.5983
40.0257
490
422
183 B.
Aurigae
6.3
0.19
10.6
29 3I-4
7 1.9
4 2 59.9
-1.1752
0.5987
0.0194
-35
-61
K
Aurigae
44
0.13
X0.6
29 32.1
10 22.8
4 612.3
-1.1405
0.5987
0.0081
-31
-61
211 B.
Aurig»
6.3
-0.08
10.7
2935.1
12 32.3
4 8 16.4
-1.1820
0.5987
40.0009
-36
-61
49
Aurigae
5.1
40.02
10.3
28 5-7
17 46.0
-10 43.2
40.2837
0.5986
-0.0168
462
- X
53
Aurigae
5.6
+ao2
4 10.6
429 3.8
18 56.0
- 936.1
-0.7180
0.5986
-0.0208
+ 3
-61
54
Aurigae
5.8
0.03
10.3
28 20.7
19 22.8
- 9 IO-4
-0.0003
0.5985
0.0220
+44
-16
28
Geminorum
5-5
0.07
10.6
29 3-8
21 18.4
- 7 197
-0.7762
0.5980
0.0283
- I
-61
47
Geminorum
56
0.25
9.6
27 0.3
22 717.7
4 2 14.5
40.8562
0.5955
0.0614
490
+25
53
Geminorum
5-9
0.29
9.9
28 3.2
859.8
+ 3 52.3
-0.3137
0.5947 0.0667]
427
-37
134 B.
Geminorum
65
+0.29+ 9.5
426 51. 1
925.7
4 417.1
+0.8730
0.5946
-0.0678
490
+25
59
Geminorum
5-7
0.35 9-7
27 48.7
12 14.9
4 6 59.3
-0.3024
0.5933
0.0769
427
-38
I
Geminorum
39
0.36
9-7
27 58.6
12 41.6
4 7 24.9
-0.5041
0.5931
0.0784
4X6
-50
b^
Geminorum
50
, 0.39
9.8
28 18.2
14 3.3
4 8 43.2
-0.9443
0.5925
0.0826
-12
-62
P
Geminorum
5.0
0.39
9-7
28 6.1
14 14.2
+ 8 537
-0.7553
0.5924
0.0830
4 X
-62
V
Greminorum
4-3
+0.43
4 9.2
427 5.7
16 34-5
411 8.2
40.0590
0.5913
-0.0905
448
-20
c
Geminorum
5.5
0.46
8.7
25 59.8
19 43.2
- 9 50.9
40.8690
0.5898
0.1002
490
+23
0
Geminorum
5.0
0.54
8.9
26 59.8
23 18.9
- 6 23.9
-0.5228
0.5875
0.1107
+15
-54
0
Cancri
5.9
0.58
8.2
25 38.2
23 2 12.6
- 3 37-1
40.5190
0.5857
0.1192
+79
4 X
4
Cancri
6.2
0.58
8.1
25 20.1
231.6
- 3 18.9
40.7865 0.5855
0.1202
490
4X6
V'
Cancri
5-9
40.65
4 7.9
+25 46.6
555.4
- 0 3.3
-0.0874
0.5834
-0.130X
+39
-31
[Bph za]
582
OCCULT ATIONS, 1912.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
APRIL.
limit-
Thb Star's
At Comjunctiom im R. A.
ing Par-
■
allels.
Name.
Mag.
Red'ns from
Z9i2.a
Apparent
Declina-
1 tion.
1
Wa«
Mei
ihioRton
Hoar
Angle,
y
x*
y
1
N S
Aa 1 Ad
m Time. ' ij
A^ • %j.
» : -
e t
d
h m h m
• s
1
Cancri
59
+0.70+ 7.1
+24 18. 1
23
9 54-5
+ 3 46.3
+0.8648
0.5806
-0.1408
+90*18
28
Cancri
6.1
0.76 6.9
24 26.4
13 6.8
+ 651. 1
+0.2592
0.5783
0.1495
♦60-15
vi
Cancri
5.7
0.78 6.8
24 228
14 16.3
+ 7 57.8
+0.1440
05774
0.1526
+53-21
,2
Cancri
6.4
0.79 6.7
24 23.2
14 52.1+ 8 32.2
+0.0458
0-5770 O.I54I
+47 -27
194 B-
Cancri {^2dstar)
6.3
0.99
5.1
23 20.2
34
456.4
- I 55.8
-1.3086
0.5661 0.1880
-46,67
c
s
Cancri
5.2 +0.99
-^ 4.6
+22 24.2
5 44-4
- X 9.6
-0.5x37
0.5655-0.1900
■»i6-6o
79
Cancri
6.1
1. 00
4.6
22 21.3
6 9.2- 045.7
-0-5443
0.5652 0.1908
+15-62
go H'
' Cancri
6.1
I.OI
42
21 38.8
731.8+ 033.8
-0.0913
0.5640I 0.1939
+39-37
57 B.
Leonis
6.5
1. 15+ 2.0
19 16. 1
20 44.7
-10 42.1
-0.4166
0.5537
0.2196
+22-5S
107 B.
Leonis
6.3
1.23- 0.1
16 IX.2
S5
6 6.9
- I 39-6
+0.5840
0.5465
0.2352
+82- 8
7
Leonis
3.6
+1.26+ 0.2
+ 17 11.5
650.4
- 0 57-7
-0.6109
0.5460
-0.2364
+13 71
42
Leonis
6.1
1.31
- 1.2
15 25.2
13 24.4
+ 522.9
-0.3884
0.5415
0.2452
+24 -61
46
Leonis
5.8
1.35
2.0
14353
18 9.4
+ 9 58.3
-0.7233
05383
0.2514
f 6-76
/
Leonis
5-3
137
39
II 0.6
26
2 6.6
- 6 20.5
+0.8939
0.5336
0.2597
+90* 5
308 B.
Leonis
5.8
1.46 5.8
832.4
13 531
+ 5 3.2
+0.2959
0.5274
0.2697
+61-28
b
Virginis
52
+1.58- 9.0
+ 4 8.6
27
12 20.1+ 247.9
-1.3810
0.5197
-0.2791
-42-86
10
Virginis
6.2
159
9-8
+ 2 23.4
17 10. 1 + 7 29.0
-0.9270
0.5186
0.2798
-4-«8
13
Virginis
59
1-59
10.7
- 018.1
21 38.4 +11 49.1
+0.5974
0.5179
0.2798
♦82 -14
7
Virginis
40
1.60
10.7
0 10.8
22 15.7;- "34-7
+0.2993
0.5179
0.2797
♦61 -29
38
Virginis
6.1
1.67
12.3
3 4 7
28
1454.6+ 433.5
-1.3388
0.5172
0.2757
-36-90
91 G.
Virginis
6.5
+1.67
-ia.4
- 3 44-9
15 7-1+ 4 45-7
-0.6998
0.5172
-0.2756
+ 8-90
h
Virginis
54
174
14.0
942.9
29
10 42.4 - 0 15. 1 +0.2226
0.5196
0.2631
+55 -33
86
Virginis
56
1.76
14.4
" 59-4
17 6.3 + 5 56.9;+o.939i
0.5210
0.2575
♦79+ 6
621 B.
Virginis
6.4
1.79
147
14 33.2
30
2 lo.o- 9 16.2 +1.3443
0.5237
0.2475
♦76+42
MAY.
I Librae {var,)
25 Librae
147 B. Librae
169 B. Librae
177 B. Librae
42 Librae
31 B. Scorpii
32 B. Scorpii
40 B. Scorpii
50 B. Scorpii
57 B. Scorpii
24 G. Scorpii
27 G. Scorpii
41 G. Scorpii
85 B. Scorpii
19 Scorpii
a Scorpii
a Scorpii
22 Scorpii
116 B. Scorpii
134 B. Scorpii
118 B. Ophiuchi
95 G. Ophiuchi
36 Ophi. {ist star)
43 Ophiuchi
163 G. Ophiuchi
A' Sagittarii (zv/r.)
10 G. Sagittarii
210 B. Scorpii
4-7
6.0
6.2
6.0
6.2
50
5-4
5-3
5-4
6.4
57
6.2
5.8
6.3
6.0
49
3-1
1.2
4.8
62
6.4
6.2
6.1
5-4
5.4
6.3
44
57
58
90
89
92
94
94
95
95
95
96
95
94
95
94
95
96
94
95
98
96
98
97
93
94
-14.4
14-3
14.0
-13.7
136
136
13.1
13.2
-12.9
12.8
I2.9i
I2.7|
12.8.
-12.5.
12.4
12.4
I2.I
II.8
-12.0
II.7J
IM,
10.3
9-9.
90-10.4 -
951 9-3'
9"! 8- 5,
88, 8.3'
86 7.8|
87 7.6 -
-19 27.8
19 19.2
20 25.8
-22 51.2
22 52.0
23 32.2
24 16.5
23 43 2
24 34 9
24 29.3
23 22.2
24 13.8
23 27 3
-24 1 2. 1
25 15 5
23 57-7
2523.1
26 14.4
-24 55.5
26 21.0
27 177
26 23.9
27 39 4
2628.6
28 3.7
27 50 7
2748.1
28 3.2
28 45.1
[Eph
1028.7-
10 59.6 -
18 58.9
2
22 15.1
22 57.9
23 22.6
5 33-8 -
5 35-2.-
7 40 6 -
10 5.1
11 5.4
11 52.1
12 16. 1
+ 9
+10
+10
7
7
1430.
15 o.
1735
1748
21 27.
21 50.
22 20.
342.
1359
16 23.
1742.
21 9,
•A 552.
7 43
II 42
1233
I 59.8 -0.7357
I 29.9-0.9904
613-5-1-3354
23. 1 +0.6708
4-5 +0.5593
28.3+1.2053
33.0 +0.9609
31.6+0.360X
30.4 +0.9539
10.9+0.4823
12.7 -0.8732I
27.6-0.0617!
4 4 -0.9574I
5.6 -0.4768
34.0+0.5937
4.0-1.1628
16.9+0.3463
6!+ 748.1+0.7975
3 + 8 lo.o -0.6727
+ 838.8+0.8070
- 9 51-3 + 1-1676
- 015.1 -0.7759
2|^ 2 3-9j+o-3yS8
3 20.5-0.9886
640.3+0.4931
855.8-0.2231
7 8.2-0.3488
3 17.7 -0.2038
228.9+0.5365
X
X
•5|+ 4
7r
8 +
I
8
7|~
2 -
05357
0.5359
0.5391
0.5404
0.5407
0.5408
0.5432
0.5432
0.5440
0.5448
0.5451
0.5454
0-5455
0.5463
0.5464
0.5473
0.5473
0.54&4
0.5485
0.5486
0.5501
0.5519
0.5523
-0.1993
0.1984
0.1835
-0.1768
0.1753
0.1743
0.1616
0.1616
-0.1570
0.1516
0.1494
0.1475
0.1467
-0.1416
0.1405
0.1348
0.1342
0.1254
-0.1245
0.1234
0.1098
0.0849
0.0788
-32 90
♦48-16
♦ 8-58
0-66
7-57
0.5527 -0.0264 1+48 -14
0.5525
0.55281
0.5532;
0.553V
0.5528
0.0754
0.0665
0.0437
0.0390
0.0286
- 3-90
-18-90
-56-90
+68-8
♦62-14
♦67+32
♦66+11
♦49 25
+66*11
+55-18
-17-90
+26-48
-22-90
^ 4 75
+61 -II
-39 90
+46 -25
♦64+ I
- 8-90
♦64+ 2
♦63 -31
-17-90
+44 -"
OCCULTATIONS, 1912.
583
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
MAY.
Limit-
Ths Star's
At Conjunction in R. A.
ing Par-
allels.
Name.
Mag.
Red'nsfrom
i9X2.a
Apparent
Declina-
tion.
1
,-,,., ' Hour
Y
JC'
>''
N.
S.
Aa
Ad
Mean 1 iiue.
H
8
n
0 ,
d h m h m
e
' .
38 B. Sagittarii
47
•t-I.84
-7.2
-28 28.2
4 16 40.6 + I 29.7
+0.1412
0.5524
-0.0154
+24I-36
C.D.-28* 14268
6.4
1.83
6.9
28 55-4
18 22.1 + 3 7.6
+0.6167
0.5522
O.OIIO
+53
- 9
48 G. Sagittarii
6.3
1.84
6.9
28 19.2
20 45.0 + 5 25.51-0.0650
0.5518
0.0047
+ 12
-48
62 B. Sagittarii
6.0
1.84
6.7
2841.0
20453+ 5257+03360
0.5518
-0.0047
+33
-25
38 G. Sagittarii
6.1 1.82
6.5
28 28.3
22464+ 722.5+0.0993
0.5514
+0.0005
+20
-39
r Sagittarii
3-5
+ 1.63
-4.6
-27 48.1
5 1840.2+ 234.6-0.1196
0.5460
+0.0513
+14
-51
183 B, Sagittarii
6.2
1.68
42
28 46.5
18 54.3 + 2 48.2+0.9668
0.5459
0.0519
+62
+ 14
234 B. Sagittarii
59
1-59! 35
28 2.2
6 2 33.6+10 1 1.7 +0.6239
0.5428
0.0705
+57
- 9
248 B. Sagittarii
57
1-55: 35
27 lO.O
5 0.4+11 26.6-0.1575
0.5417
0.0766
+14
-54
cj Sagittarii
4.8
1.42 2.5
2632.1
16549+ 0 3.9+0.2200
0.5362
0 1040
+37
-32
b Sagittarii
4.6
+1 42 -2.2
-27 24.3
1725.4+ 033.4+1.2362
0.5359
+0.105 1
+63
+41
A Sagittarii
4-9
1.40
2.4
26 26.1
18 22.2 + I 28.3I+O.264O
0-5354
0.1073
+39
-29
40 B. Capricorn!
6.2
1.23
I.I
25 145
7 1023.3- 7 2.0+0.9382
0.5271
0.1407
+65
+10
56 B. Capricomi
6.3
1.18
I.O
24 5-8
13 54-2- 337-81+0.1780
0.5252
0.1478
+68
-35
86 B. Capricomi
6.2
1.13
0.5
24 6.8
20 9.0+ 2 25.1
+1.1577
0.5219
0.1597
+66
+27
X Capricomi
5-3
+1.01
-0.7
-21 32.9
8 350.4+ 952.1
-0.3968
0.5180
+0.1733
+13
-69
27 Capricomi
6.1
I.OO
0.9
20 54.6
4 20.0!+ 10 20.8
-1.0151
0.5178
0.1742
-22
-90
9 Capricomi
53
0.96
0.6
21 I.I
7 22.0
-10 42.8
-0.3604
0.5163
0.1794
+15
-66
33 Capricomi
5.3
0.91
-0.2
21 13.6
II 38.4
- 6 34-3
+0.6519
0.5142
0.1862
+68
- 9
35 Capricomi
6.0
0.90
fO.I
21 34.7
13 11.6
- 5 3 9
+1.3311
0.5134
0.1887
+69
+48
128 B. Capricomi
6.5
+0.86
-05
-19 31 9
14 36.2
- 341.9
^.6574
0.5127
+0.I9I0
0
-90
37 Capricomi.
57
0.84
0.0
20 28.6
17 3-7
- I 18.8
+0.8588
0.5116
0.1948
+70
+ 3
t Capricomi
47
0.82
-O.I
19 517
18 12.0
- 0 12.6
+0.4023
0.5110
0.1967
+57
-23
K Capricomi
4.8
0.81
0.0
19 16. 1
21 3.0
+ 2 33.3
+0.3148
0.5098
0.2007
+52
-27
Z43 B. Capricomi
6.1
0.82
+03
20 1.4
21 20.1
+ 2499
+1.2045
0.5096
0.2012
f7o
+29
152 B. Capricomi
6.5
+0.74
-0.4
-17 15.4
0 0 57.6
+ 621.0
-1. 1028
0.5081
+0.2063
-24
-90
154 B. Capricomi
6.x
0.76
+0.3
19 2.0
I 41.9
+ 7 40
+1.0053
0.5078
0.2073
+71
+12
z6i B. Capricomi
6.4
0.69
0.4
18 19.6
7 8.9
-II 38.7
+1.3782
0.5056
0.2148
+72
+55
29 Aquarii (mean)
6.5
0.67
+0.1; 1723.3
717.4I-1130.4
+03783
0.5055
0.2I5I
+58
-24
50 Aquarii
5.9
0.51
-0.2 1358.5
1852.0- 0 16.0
-0.7898
0.5017
0.2293
0
-90
182 B. Aquarii
6.2
+0.50
-O.I
-13 22.0
2149.0+ 235.9
-0-7743
0.5010
^0.2325
0
-90
56 Aquarii
6.1
0.51
+0.5
15 2.2
21 57.1+ 243.7
+ 1.0819
0.5009
0.2326
+75
+16
70 Aquarii
6.1
0.37
-0.2
II 1.2
10 741.2
-II 48.9
-0.9852
0.4987
0.2426
-10
-90
74 Aquarii
5.8
035
+0.4
12 5.1
10 20.7
- 9 140
+0.8218
0.4983
0.2449
+78
- I
^* Aquarii
4-5
0.24
05
9340
22 23.8:+ 2 28.7
+1.1003
04972
0.2547
+81
+16
X Aquarii
5-3
+0.21
+0.1
- 8 12.4
22 56.3
+ 3 0.3
-0.2341
0.4971
•^0.2552
+31
-57
20 Piscium
5.6
+0.01
-0.4
3 151
11 1542.0
- 4 42.4
-1. 1976
0.4979
0.2650
-22
-90
24 Piscium
6.1
-0.02
-O.I
3387
18 22.7
- 2 6.3-0.0625
0.4982 0.2666
+41
-48
27 Piscium
51
0.02
+0.4
4 2.6
21 28.1
+ 053.8+1. 1899
0.49881 0.2676
+86
+22
29 Piscium
51
0.03
+0.4
3310
23 9.1
+ 2 32.0+1.0772
0.4992 0.2681
+87
+14
80 B. Piscium
6.3
-0.07
-0.2
- 0 59.5
12 053.0
+ 4 12.9 -1. 1558
0.499C
•■0.2687
-18
-90
4 Ceti
6.3
0.07
+0.5
3 2.3
2 18.7
+ 536.3+1.4129
0.4999
0.2691
+87+48
5 Ceti
6.3
0.07
+0.5
- 2 56.2
2 33-7
+ 5 50.8+1. 3721
0.5000
0.2692
+88;+4i
44 Piscium
6.0 0.19
-O.I
+ I 27.1
II 41.3
- 9 17.3 -0.8312
0.5028 0.2710
+ 1-89
147 B. Piscium
5-9
0.27
-0.4
4 497
23 39-3
+ 2 19.8-1.1447
0.5078 0,2712
-19-86
155 B. Piscium
6.5
-0.28
+0.6
+ 2 54-5
13 I 12.7+ 350.41+1.3017
0.5086+0.2710
+90+32
171 B. Piscium
6.3
0.35
0.2
6 0.5
5 34.8 + 8 47r07777
0.5107
0.2705
+ 3-84
73 Piscium
6.2
0.36
0.6
5 II. I
8 9,6 +10 34.91+0.7845
0.5122
0.2698
+90
- 3
e Piscium
5.6
0.38
0.6
5 II. I
956.8
-II 41. 1 +1.2656
0.5133
0.2691
+90
+29
C Piscium
5.6
0.40
05
7 6.6
12 37.6
- 9 5.1 -0.0311
0.5150
0.2680
+43 -45
88 Piscium
6.2
-0.40
+0.6
+ 631.8
13 77
- 835.9+0.7104
0.5153
+0.2678
+90
- 7
NEW
MOON.
406 B. Tauri
5.6
-0.44
+9.0
+27 56.7
18 839.1
+ 639.1+0.1818
0.6070
+0.0378
+55
- 9
136 Tauri
4.6
0-43
9.0 2735.7
930.7
+ 728.5+0.5632
0.6071
0.0349
+85+11
154 B. Aurigae
6.4
-0-43
+9.31+28 55.9
10 39.8 + 8 34.6
-07348
0.6073
+0.0308
+ 2
-62
[Eph
12]
584
OCCULTATIONS, 1912.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
MAY.
Linux-
Thb Star's
At Conjunction in R. A.
injf Par-
ailels.
Name.
Mag.
Red'ns from
1912.0.
Apparent
Deciina
tion.
Washington
Mean Time.
Hour
Angle,
Y
x'
y
1
N. S
Aa
Ad
1 •
8
ft
e f
d h m
h m
e
415 B. Tauri
6.1
-0.40
+ 9-1
+27 34-3
18 12 17.7
+10 8.2
+0.6708
0.6075
+0.0254
+9o'+i7
183 B. Aurigse
6.3
0.38
95
29 31.4
14 12.3
+11 57.9
-12371
0.6077
0.0187
-45-61
K AurigaB
4-4
034
9.6
29 32.0
17 27.8
- 8 55.1
-1.2053
0.6081
+0.0075
-39-61
211 B. Aurigs
6.3
0.31
9-7
29351
19 33 7
- 6 54.7
-1.2477
0.6082
0.0000
-47-61
49 Auriga
51
0.24
9-5
28 5.7
19 0 39.0
- 2 2.6
+0.1953
0.6074
-0.0175
+56- 7
53 Aurigae
56
-0.22
+ 9.8
+29 3.8
147.2
- 0 57.3
-0.7947
0.6073
-0.0217
- 2-^'!
54 Aurigae
5.8
0.22
9.6
28 20.7
2133
- 0 32.3
-0.0863
0.6072
0.0229
+39 -22
28 Gemmorum
5-5
0.19
9.8
29 3.8
4 58
+ I 15.3
-0.8541
0.6069
0.0296
- 6-61
47 Geminorum
5-6
0.04
9-3
27 0.3
13 49-9
+10 34-3
+0.7514
0.6036
0.0626
+90+19
53 Geminorum
5-9
0.01
9.6
28 3,2
15 29.5
-II 50.5
-0.4060
0.6029
0.0682
+21 -4;
1
134 B. Geminorum
6.5
-O.OI
+ 9.2
+26 51. 1
15 54.8
-II 26.2
+0.7667
0.6027
-00694
+90 *r;
59 Geminorum
5.7
■K».04
95
27 487
i3 39.8
- 8 48.2
-0-3973
0.6016
0.0787
+22-44
I Geminorum
39
0.04
9-5
27 58.6
19 6.0
- 8 23.2
-0.5969
0.6013
0.0803
+10-51
d^ Geminorum
■
50
0.06
9 5
28 18.2
20 25.7
- 7 6.8
-1.0330
0.6005
0.0844
-19 -t)2
P Geminorum
5.0
0.06
9-5
28 6.1
20 36.4
- 6 56.5
-0.8463
0.6003
0.0852
-5-62
V Geminorum
4-3
+0.10
+ 91
+27 5.7
22 53.4
- 4 45-3
-0.0428
0.5989-0.0923
+42-25
c Geminorum
5.5
0.14
8.8
25 59.8
20 157.9
- I 48-7
+0.7565
0.5970
O.IOI7
+90*16
<p Geminorum
5.0
0.20
9.0
26 59.8
528.9
+ I 33.6
-0.6230
0.5948
O.II27
+ 9-60
u Cancri
5-9
0.24
8.4
25 38.2
8 19.0
+ 4 16.7
+0.4064
0.5926
O.I2I3
+70- 5
4 Cancri
6.2
0.24
8.3
25 20.1
8376
+ 4 34-5
+0.6714
0.5924
0.1223
+904 8
if Cancri
5.9
+0.30
+ 8.2
+25 46.6
" 57-4
+ 746.1
-0,1962
0.5898
-O.I3I5
+33-37
X Cancri
5.9
0.35
7.7
24 18. 1
15 51.9
+11 31. 1
+0.7450
0.5866
0.1428
■►90 -no
28 Cancri
6.1
0.40
7.5
24 26.4
19 0.7
- 9277
-W.1433
0.5841
O.I5I6
+53 -21
v^ Cancri
57
0.41
7.4
24 22.8
20 9.1
- 8 22.0
+0.0282
0.5830
0.1546
+46-27
t^ Cancri
6.4
0.42
7.4
24 23.2
20 44.2
- 7 48.3
-0.0692
0.5825
0.156 1
+40-32
^ Cancri
52
+0.64
+ 5.7
+22 24.2
21 II 23.6
+ 6 17.1
-0.6328
0.5691
-0.I9II
+10-66
79 Cancri
6.1
0.64
5.7
2221.4
II 48.1
+ 640.6
-0.6628
0.5688
O.I9I8
+ 8-67
90 H^ Cancri
6.1
0.66
53
21 38.9
13 9.8
+ 7 59-3
-0.2137
05675
0.1949
*33-44
57 B. Leonis
6.5
0.81
3.4
19 16.2
22 2 15.5
- 3 23.9
-0.5423
0.5554
0.2202
+15-65
107 B. Leonis
6.3
0.90
1-5
16 II. 2
" 351
+ 5 35.9
+0.4534
0-5474
0.2350
+72 -15
V Leonis
3.6
+0.93
+ 1.8
+17 11.6
12 18.4
+ 6 17.7
-0.7386
0.5468
-0.2360
* 5-73
37 Leonis
5.5
0.95
0-3
14 10. 1
16 31.8
+10 22.3
+1.3240
0.5432
0.2422
♦90+43
42 Leonis
6.1
0.99
+ 0.5
15 25.2
18 51.6
-II 22.6
-0-5175
0.5413
0.2454
+17-08
46 Leonis
5.8
1.03
- 0.1
14 35.4
23 36.7
- 6 47.1
-0.8527
0.5377
0.2506
- 1-76
/ Leonis
5-3
1.09
2.2
II 0.6
a3 735.1
+ 0 55.4
+0.7647
0.5320
0.2591
♦90- 2
308 B. Leonis
5.8
+I.I9
- 4-1
+ 8 32.5
19 25.6
-II 36.9
+0.1699
0.5247
-0.2682
+54-34
0 Leonis
41
1. 21
51
630.6
22 53 4
- 8 15.6
+1.3237
0.5231
0.2699
+90+36
10 Virginis
6.2
1.42
8.4
+ 2 23.4
24 23 0.5
- 8 53.2
-1.0440
0.5144
0.2765
-14-88
13 Virginis
5-9
1.44
9-5
- 0 18.0
26 332.6
- 4 29.4
•»0.4922
0.5135
0.2765
+74 -19
n Virginis
4.0
1.44
9-5
010,8
410.4
- 3 52.7
+0.I93I
0.5133
0.2764
^55,-34
38 Virginis
6.1
+1.58
-11.4
- 3 47
21 5.1
-II 28.5
-1.4405
0.5122
-0.2721
-58,-^
91 G. Virginis
6.5
1.58
1 1.6
3 44 9
21 17.8
-II 16.2
-0.7969
0.5122
0.2720
^ 3
-90
A Virginis
5-4
1-74
14.0
942.9
26 17 12.9
+ 8 2.9
+0.1545
0.5146
0.2596
+51
-36
86 Virginis
5.6
1.79
14.6
II 59.4
23431
- 9 38.7
+0.8841
0.5163
0.2537
+79
+ 3
621 B. Virginis
6.4
1.87
15.2
14 33 2
27 8557
- 043.0
+I.304I
0.5190
0.2442
+76
+36
I Librae (var,)
47
+2.15
-15.4
-19 27.8
17 41 3
+ 7 0.5
-07447
0.5328
-0.1970
- 3
-go
25 Librae
6.0
2.15
15.4
19 19-3
18 12.5
+ 7 30.7
-1.0002
0.5330
0.1960
-19
-90
Z47 B. Librae
6.2
2.22
15.1
20 25.8
29 2 16.9
- 840.9
-1.3351
0.5367
0.1809
-57
-90
169 B. Librae
6.0
2.26
15.1
2251.3
5350
- 5 29-4
+0.6861
0.5382
0.1747
f68
177 B. Librae
6.2
2.27
15.0
22 52.0
618.2
- 4 47.6
+0.5749
0.5385
0.1733
♦*3
-13
42 Librae
5.0
+2.28
-15.0
-23 32.2
643.1
- 4235
+1.2249
0.5388
-0.1724
+67
+34
31 B. Scorpii
5.4
2.32
14.6
24 16.5
12 57.5
+ I 38.3
+0.9877
0.5415
0.1593
f66
*i3
32 B. Scorpii
5-3
2.32
14.6
23 43 2
12 59.0
+ I 39-8
+0.3840
0.5415
0.1593
*^5i
-23
40 B. Scorpii
5-4
2.34
14.4
24 34.9
15 5-4
+ 3420
+0.9838
0.5424
0.1548
*t6
+13
50 B. Scorpii
6.4
235
14.2
24 29.3
17 30.9
+ 6 2.5
+0.5127
0.5434
0.1498
*-57
-16
57 B. Scorpii
5.7
+234
-14.1
-23 22.2
18 31.7
+ 7 1.2
-0.8468
0.5438
-0.1478
-15
-90
[Bph X9]
OCCULTATIONS, 1912.
585
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
MAY.
1
Umit-
Tkb Sraa's
At CoMjviicTiOM iM R. A.
ing Par-
allels.
Name.
Mag.
Red'M from
x9Z2.a
Apparent
Declina-
tioo.
Washincton
Mean Tune.
Hoar
Angle,
Y
jp'
y
N.
S.
8
« »
d h m
h m
0
e
24 G.
Scorpii
6.2
+2.37
-I4.X
-24 13.9
S9 19 18.6
+ 746.6
-0.03x3
0.5442-0.1459
+28
-46
27 G.
Scorpii
5.8
2.36
14.0
23 27.3
19 42.9
+ 8 10.0
-0.9300
0.5443
0.145 1
-20
-90
41 G.
Scorpii
6.3
2.38
13.9
24 12. 1
2X 58.3
+10 20.8
-0.4441
0.5452
0.1399
+ 6
-73
85 B.
Scorpii
6.0
2.40
13.9
25 15.5
22 27.9
+10 49.4
+0.6314
0.5454
0.X388
+^3
- 9
19
Scorpii
4-9
2.39
13.6
23 57-7
80 I 4.2
-10 39.6
-X.I285
0.5463
0.1328
-35
-90
a
Scorpii
31
+2.42
-13.6
-25 23,2
117.7
-10 26.6 +0.3868
0.5464
-0.X322
+48
-23
a
Scorpii
1.2
2.45
13.2
26 Z4.5
4 57-6
- 6 54.3
+0.8447
0.5478
0.1240
+64
+ 4
22
Scorpii
4.8
2-43
13.2
24555
520.4
- 6 32.2 -0.6308
0.5479
0.1232
- 6
-90
116 B.
Scorpii
6.2
2.45
I3.I
26 21.0
550.4
- 6 32+0.8555
0.548X
0.X218
+64
+ 5
134 B.
Scorpii
6.4
2.49
12.5
27 177
II 33.8
- 031.8 +1.2246
0.5498
0.1082
+63
+39
118 B.
Ophiuchi
6.2
+2.52
-XX. 4
-2623.9
21 33 0
+ 9 6.4-0.7x14
0.5523
-0.0837
-14
-90
95 G.
Opbiuchi
6.1
2.55
ZI.O
27 39-4
23 57.4
+XI 25.8
+0.4692
0.5527
0.0776
+48
-18
36
Ophi.(/J/j/«r)
5-4
2.51
"3
26 28.7
31 I 17.1
-II 17.4
-0.9x98
0.5529
0.0739
-281-90
43
Opbiuchi
5.4
2.56
X0.3
28 3.7
4 44-5
- 7 57.3
+0.5698
0.5535
0.0653
+53
-12
163 G.
Ophiuchi
6.3
2.56
91
27 507
13 27.4
+ 027.1-0.1367
0.5541
0.0425
+12
-52
X
Sagittarii (var.)
4-4
+2.56
- 8.9
-27 48.0
15 19.1
+ 2 X4.8 -0.2602
0.5542
-0.0378
+ 5
-60
4 G.
Sagittarii
6.2
2-54
8.9
2656.8
15 43.7
+ 2 38.6
-1.2117
0.5542
0.0366
-53-90
zo G.
Sagittarii
5.7
2.58
8.3
28 3.2
19 18.0
+ 6 5.3
-0.1 1 19
0.5543
0.0272
+12-51
210 B.
Scorpii
5.8
+2.60
- 8.1
-2845.1
20 8.6
+ 6 54.1
+0.6329
0.5542
-0.0249
+55
- 8
JUNE.
38 B. Sagittarii
C. D. -28® 14268
48 G. Sagittarii
62 B. Sagittarii
58 G. Sagittarii
9 Sagittarii
r Sagittarii
183 B. Sagittarii
234 B. Sagittarii
248 B. Sagittarii
6) Sagittarii
A Sagittarii
40 B. Capricomi
56 B. Capricomi
X Capricomi
27 Capricomi
# Capricomi
33 Capricomi
128 B. Capricomi
37 Capricomi
€ Capricomi
K Capricomi
152 B. Capricomi
154 B. Capricomi
29 Aquarii {mean)
39 Aquarii
50 Aquarii
182 B. Aquarii
56 Aquarii
70 Aquarii
74 Aquarii
V*' Aquarii
X Aquarii
20 Piscium
47
6.4
6.3
6.0
6.x
3.3
3-5
6.2
5.9
5-7
4.8
4-9
6.2
6.3
53
6.1
5-3
5.3
6.5
5.7
47
4.8
6.5
6.1
6.5
6.2
59
6.2
6.1
6.1
5.8
4-5
5.3
5.6
+2.58
- 7-5
-28 28.2
2.59
7.2
28 55.4
2.58
7.0
28 19.2
+2.58
- 6.8
-28 4X.0
2.57
6.5
28 28.3
2.50
5.1
27 50
2.49
3.6
27 48.x
2.52
3.3
28 46.4
+2.45
- 2.3
-28 2.2
2.41
2.1
27 lO.O
234
0.4
26 32.0
2.32
- 0.2
26 26.1
2.15
+ 1.8
25 14 5
+2.13
+ 2.3
-24 57
1.92
31
21 32.8
I.9I
2.9
20 54.6
1.87
34
2X I.O
1.86
4.0
21 135
+1.80
+ 3-9
-19319
1.79
4-5
20 28.6
1.76
4-4
19 51.6
1.72
4.5
19 16.0
X.64
4-3
17 15.3
+1.67
+ 4.9
-19 1.9
1-57
5.0
17 23.3
X.50
4-7
14 37-6
1.42
5-1
13 58.5
1.38
5-2
13 21.9
+1.40
+ 5.7
-15 2.1
1.23
5.2
II I.I
1.22
5.8
12 5.0
X.09
6.0
933.9
1.06
5.6
812.3
+0.85
+ 5.2
- 3 150
1 o
I
4
4
6
16
% 2
2
10
12
8 o
I
17
21
4 II
II
15
19
22
6 o
I
4
8
9
15
20
6 2
5
5
15
18
7 6
7
8 o
16.0
57.4
20.2
20.4
2X.5
47.2
14.0
28.1
6.8
33.6
27.8
551
57-3
28.6
279
57.7
0.6
18.6
17.
46.0
54-9
47.1
437
28.5
7.2
25.2
49.6
48.9
57.0
49.2
31.1
457
18.7
22.3
+10
-II
- 9
- 9
- 7
+ 2
+11
-ix
- 4
- 2
+ 9
+10
+ 2
+ 5
- 4
- 4
- x
+ 2
61+
+ »
+ 9
-II
- 8
- 7
- X
+ 3
-^ 9
-XI
-XI
- I
+ o
-II
-10
+ 5
52.6
29.5
11.8
1 1.6
14.8
49.0
56.1
50.3
27.4
5.6
24.5
48.9
19.6
44.2
42.7
13.8
16.5
53.7
47.3
IX.2
x8.o
54.9
5.3
21.7
530
15-9
293
36.4
28.6
53.1
44.2
21.6
49-5
45.8
+0.2422
+0.7206
+0.0407
+0.4423
+0.2077
-1. 1644
+0.0123
+1.1005
+0.7661
-0.0135
+0.3780
+0.4235
+1.1156
+0.3574
-0.2065
-0.8262
-0.167 1
+0.8525
-0.4600
+1.0639
+0.6063
+0.5207
-0.9008
+1.2170
+0.5906
-1.3014
-0.5791
-0.5630
+1.3044
-0.7734
+10457
+1.32561'
-0.0185
-0.9959
5538
5536
5534
5534
5532
5508
5477
5476
5445
5434
5375
5367
5278
5258
5178
5175
5157
5134
5118
5105
5099
5084
5064
5061
5036
5013
4990
4979
4979
4951
4944
4926
4926
4929
-0.0142
0.0098
0.0035
-0.0035
+0.0018
0.0289
0.0524
0.0530
+0.0718
0.0775
0.1052
0.1084
0.14 19
+0.1487
0.1737
0.1745
0.1796
0.1865
+0.19x1
0.1947
0.1965
0.2007
0.2062
+0.2071
0.2143
0.2208
0.2279
0.2312
+0.2313
0.2407
0.2432
0.2525
0.2529
+0.2620
+29
+62
+16
+40
+26
-49
+21
+62
+62
+22
+46
+48
+65
+48
+22
-II
+26
+69
+12
+70
+69
+64
-10
+71
+70
-40
+10
+12
+75
I
78
+81
+42
- 8
-31
- 2
-42
-19
-32
-90
-44
+26
o
-45
-23
-21
+24
-25
-56
-90
-54
+ 3
-73
+17
-12
-16
-90
+30
-13
-90
-81
-80
+37
-90
+ 13
+36
-45
-90
[Eph la]
586
OCCULTATIONS, 1912.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JUNE.
1
Limit-
Tbb Stab'i
At Comjvmctiom im R. A.
ing Par-
allels.
Name.
Mag.
Red'ns from
z9Z3.a
Apparent
Declina-
tion.
Washington
Mean Time.
Hour
Angle,
H
Y
•
y
N.
S.
Aa
Ad
8
M
e t
d
h m
h m
•
•
24
Piscium
6.t
+0.83
+ 5-5
' 3 38.6
8
3 6.0
+ 8 24.9
+0.1464
0.4932
+0.2631
+52
-37
27
Piscium
51
0.79
5.9
4 2.6
614.8
+11 28.4
+1.4070
0.4935
02644
486
+47
29
Piscium
5.1
0.77
5.8
330.9
7 57-7
-10 51.5
+1.2921
0.4938
0.2649
f87
+32
80 B.
Piscium
6.3
0.73
51
- 0 59.4
9 43 5
-9 8.7
-0.9596
0.4943
0.2653
- 6|-90
44
Piscium
6.0
0.62
5x
+ I 27.2
20 44.0
+ I 33.3
-0.6415
0.4973
0.2675
+11
-86
147 B.
Piscium
59
+0.48
+ 4-3
+ 449.8
9
8554
-10 36.1
-0.9698
0.5023
+0.2674
-7-86
171 B.
Piscium
6.3
0.39
4.7
6 0.6
14 57- 1
- 4 44.9
-0.6074
0.5055
0.2663
+13-80
73
Piscium
6.2
0.37
51
5 H-2
17 34 6
- 2 12.0
+0.9618
0.5070
0.2658
+90+ 6
r
Piscium
5.6
0.34
50
7 6.7
22 7.2
+ 2 12.5
+0.1346
0.5099
0.2642
+51-37
88
Piscium
6.2
0.34
5a
631.9
22 37.7
+ 242.1
+0.8804
0.5102
0.2640
+90,+ 2
54
Ceti
6.0
40.14
+ 5.1
+ro 36.6
10
16 38.3
- 3 50.5
+1.2776
0.5237
■w>2539
+90
+34
26 B.
Arietis
6.0
0.12
5-1
II 52.2
2045.3
+ 0 8.7
+1.0035
0.5274
0.2504
+90
+12
12 H.
*Arietis
6.3
O.IO
4.9
13 3.2
22 15.1
+ 1357
+0.1486
0.5286
0.2489
+52
-34
19
Arietis
5.8
+0.05
4-7
14 52.1
11
310.7
+ 621.6
-0.5132
0.5333
0.2440
fl7-69
27
Arietis
6.4
-0.05
4.6
17 19.0
II 23.8
- 9416
-1.0610
0.5415
0.2342
-16 -73
36
Arietis
6.5
-0.09
+ 5.0
+17 23.6
17 25.5
- 3 52.3
+0.2528
0.5476
+0.2262
f59!-24
40
Arietis
6.0
0.08
51
17 55 I
19 17.2
- 2 4.5
+O.I333
0.5496
0.2235
f52 -30
TT
Arietis
52
0.08
5.3
17 6.0
19 37-9
- I 44-6
+1.0479
0.5499
0.2231
+90+20
45
Arietis
6.0
0.10
5.3
17 58.6
2228.7
+ I 0.2
+0.7794
0.5530
0.2181
*9o
-^ 4
9
Arietis
5.6
o.zo
5.3
17 40.5
22 44.6
+ I 15.5
+ 1. 1463
0.5532
0.2177
r90|+28
r?
Arietis
4.5
-0.16
+ 5.5
+19 238
IS
515.8
+ 7 32.7
+0.7750
0.5606
+a2o65
+90
-^ 5
C
Arietis
5.0
0.18
5.3
20 43.2
638.5
+ 8 52.4
-0.2875
0.5619
0.2042
f 29 -49
r
Arietis
5.1
0.20
5.5
20 49.9
917.8
+11 25.8
+0.1349
05649
0.1988
f52-27
«3
Arietis
5.2
0.20
5.6
20 25.8
956.5
-II 57.0
+0.6710
0.5657
0.1973
f9o
0
«5
Arietis
6.0
0.20
56
20 29.6
10 38.4
-II 16.7
+0.7433
0.5665
0.1957
f9o
+ 5
«6
Arietis
6.1
-0.23
+ 5 3
•1-22 30.2
12 16.5
- 942.2
-0.9729
0.5682
+0.1925
-II
-68
.
NEW
MOON.
^
Geminomm
50
+O.XI
+ 8.3
-1-26 59.8
16
13 47 I
+" 39-7
-0.7490
0.6042
-0.1 161
f 2
-64
0
Cancri
5-9
0.13
8.0
25 38.2
16 32.2
- 942.3
40.2608
0.6023
0.1249
t6o-ia
4
Cancri
6.2
+0.14
+ 7.9
+25 20.1
16 50.2
- 9 25.0
+0.521 1
0.6020
-0.1257
f79 0
^
Cancri
5.9
0.17
77
25 46.6
20 4.2
- 6 19.3
-0.3394
0.5998
0.1353
f 25 -44
A
Cancri
5-9
0,21
74
24 18. 1
23 51-8
- 241.2
+0.5815
0.5963
0.1466
f85+ 2
28
Cancri
6.1
0.25
7.3
24 26.4
17
255.0
+ 0 14.4
-0.0165
0.5937
0.J551
M3-29
v»
Cancri
5-7
0.26
7.2
24 22.8
4 1.3
+ I 18.0
-0.1 316
0.5927
0.158a
♦37,-36
1.2
Cancri
6.4
+0.26
+ 7.2
+24 23.2
4 35 4
+ I 50.7
-0.2287
0.5922
-01599
f32 -41
c
s
Cancri
5-2
043
6.0
22 24.2
18 49.0
- 829.9
-0.8065
0.5784
0.1959
o;-68
79
Cancri
6.1
0.43
5-9
2221.4
19 12.7
-8 7.1
-0.8373
0.5780
0.1966
- 2-68
90 H.
' Cancri
6.1
043
5-7
21 38.9
2032.1
- 6 50.8
-0.3963
0.5767
0.1993
♦•23 -54
57 B.
Leonis
6.5
0.57
41
19 16.2
16
915.7
+ 5 23 9
-0.7384, 0.5638
0.2245
*- 4,-71
107 B.
Leonis
6.3
+0.65
+ 2.5
+16 II. 2
18 20.5
- 951.1
+0.2326. 0.5549
-0.2395
f57-26
V
Leonis
3-6
0.67
*2.8
17 II.6
19 2.8
- 9 10.3
0.9443, 0.5542
0.2406
- 8
-73
37
Leonis
5.5
0.68
1-5
14 10. 1
23 98
- 512.1
+1.0874 0.5505
0.2457
f9O+20
42
Leonis
6.1
0.72
17
15 25.2
19
126.3
- 3 0.4
-0.7335J 0.5484
0.2486
<• 5-75
46
Leonis
5.8
0.77
+ I.I
M 35-4
6 4.8
+ I 28.5
-1.0693, 0.5443
0.2543
-16 -76
/
Leonis
5-3
K).83
- 0.7
+11 0.6
13 52.7
+ 9 0.6
+0.5237 0.5379
-0.2618
♦76-15
308 B.
Leonis
5-8
0.93
2.6
832.5
20
I 29.6
- 3 45-5
-0.0709
0.5296
0.2703
MO -47
a
Leonis
4.1
0.95
3-5
630.7
4540
- 0 27.6
+1.0715 0.5273
0.2723
♦901+14
10
Virginis
6.2
1.18
6.8
+ 223.4
21
442.7
- I 23.6
-1.2791I 0.5161
0.2771
-30-88
13
Virginis
59
1.21
8.0
- 0 18.0
9 12.6
+ 2 58.0
+0.2507 0.5148
0.2767
f 58 -31
V
Virginis
4.0
+1.22
- 8.0
- 0 10.8
9501
+ 334.4
-0.0468 0.5146
-0.2765
♦42 -47
91 G.
Virginis
6.5
1.38
10.2 3 44.9
22
252.6
- 3 54.0
-1.0231 0.5120
0.2709
-ioi-90
f 40 -47
+79-8
A
Virginis
5-4
1.58
13.0 942.9
2248.1
- 8 34 6
-0.0518 0.5131
0.2573
86
Virginis
5.6
1.65
13.9
"594
28
519.7
- a 14.7
+0.6876
0.5142
0.2515
621 B.
Virginis
6.4
1.76
14.9
14 33.2
14 35 I
+ 6 43.8+1. 1225
0.5166
0.2415
f76+i9
1
Librae {var.)
4.7
f2.t7
-15.7
-19 27.8
24
23 36.2
- 9 X7-2
-0.8730
0.5293
-0.1937
-12
-90
[Bph va
OCCULTATIONS, 1912.
587
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JUNE.
1
Umit-
The Stab's |
At Comjumctiom in R. A.
ing Par-
allels.
Nwne.
Mag.
Red'ns from
xgiaA
Apparent
Declina-
tion.
Washinf^ton
Mean Time.
Hour
Angle,
//
Y
JC'
y
N.
s
Aa
AA
N
%^.
■
e »
d h m
h m
e
e
25
Libra
6.0
+2.17
-15.6
-19 19.3
25 0 7.7
- 8 46.7
-1.1288
0.5296
-0.1927
-28
-90
169 B.
Librae
6.0
234
15.8
2251.3
II 36.7
+ 2 19.8
+0.5868
0.5349
0.1714
+64
-12
J 77 B.
Librae
6.2
2.35
15.8
22 52.0
12 20.2
+ 3 1.9
+0.4766
0.5352
0.1699
+58
-18
42
Librae
5.0
2.36
15-9
23 32.2
" 45.4
+ 326.3
+1.1301
05354
0.1692
+67
+24
31 B.
Scorpii
5-4
2-45
15.6
24 16.6
19 3.4
+ 9317
+0.9043
0.5383
0.1567
+66
+ 8
32 B.
Scorpii
5.3
+2.44
-15-5
-23 43-2
19 48
+ 9331
+0.2982
0.5383
-0.1567
+46
-28
40 B.
Scorpii
5.4
2.47
15.4
24 34-9
21 12.4
+11 36.5
+0.9049
0.5392
0.1520
+66
+ 8
50 B.
Scorpii
6.4
2.50
15.2
24 29.3
23 39.3
-10 1.6
+0.4369
0.5402
0.1468
+53
-20
57 B.
Scorpii
5.7
2.50
14.9
23 22.3
26 0 40.6
- 9 2.4
-0.9264
0.5406
0.1448
-20
-90
24 G.
Scorpii
6.2
2.52
15.0
24 13,9
I 28.1
- 8 16.5
-0.1057
0.5410
0.1430
+23
-50
27 G.
Scorpii
5.8
+2.51
-14.8
-23 27.3
152.5
- 7 52.9
-1.0076
0.5412
-0.1422
-26
-90
41 G.
Scorpii
6.3
2.55
147
24 12. 1
4 9-2
- 5 40.8
-0.5148
0.5422
0.1370
+ 2
-78
85 B.
Scorpii
6.0
2.57
149
25 15-5
4391
- 5 "9
+0.5663
0.5424
0.1360
+59
-13
19
Scorpii
49
2.58
14.4
23 57 7
716.8
- 239.6
-1. 1951
0.5434
0.1305
-43
-90
ff
Scorpii
3.1
2.60
14.6
25 23.2
730.4
- 226.5
+0.3264
0.5435
0.1299
+44
-26
a
Scorpii -
1.2
+2.66
-14-3
-26 14.5
II 12.3
+ I 7.8
+0.7938
0.5449
-0.1213
+64
+ I
22
Scorpii
4.8
2.64
14.1
24 55-6
11 35.3
+ I 30. 1
-0.6868
0.5450
0.1204
- 9
-90
116 B.
Scorpii
6.2
2.66
143
2621.0
la 5.6
+ I 59-4
+0.8059
0.5452
0.1 190
f64
+ 2
134 B.
Scoipii
6.4
2.74
137
27 17 7
17 52.0
+ 7 33.8
+1.1888
0.5473
0.1056
^63
+34
118 B.
Ophiuchi
6.2
2.82
12.3
26 23.9
^f 3 55 9
- 643.2
-07343
0.5501
0.0810
-16
-90
95 G.
Ophittchi
6.1
•f2.86
-12.1
-27 39-4
621.3
- 4 22.9
■^o.4554
0.5508
-0.0751
M7
-18
36
Ophi. {rsi star)
5-4
2.83
12.3
26 28.7
741.6
- 3 5-3
-0.9361
0.5510
0.0718
-29
-90
43
Ophiuchi
5.4
2.91
11.4
28 3.7
II 10.5
+ 0 16.2
+0.5663
0.5515
0.0628
^53
-12
163 G.
Ophiuchi
6.3
2.98
lO.O
27 50 7
19 56.8
+ 844.1
-0.1246
0.5527
0.0407
+ 12
-51
X
Sagittarii (var.)
4-4
2.99
97
27 48.0
21 49.2
+10 32.5
-0.2448
0.5528
0.0354
+ 6
-59
4 G.
Sagittarii
6.2
+2.97
-9.6
-26 56.8
22 14.0
+10 56.5
-1.1987
0.5528
-0.0345
-52
-90
10 G.
Sagittarii
5-7
301
9.1
28 3.2
28 149.5
- 9 35 7
-00878
0.5529
0.0251
*-i3
-49
210 B.
Scorpii
5-8
3.04
9.0
2845.1
240.3
- 8 46 7
+0.6610
0.5529
0.0229
+58
- 6
38 B.
Sagittarii
47
305
8.2
28 28.2
649.0
-446.8
+0.2771
0.5530
0.0120
+31
-28
C.P.-28** X4268
6.4
3.07
79
28 55-4
830.9
- 3 8.4
+0.7607
0.5528
0.0076
+62
0
48 G.
Sagittarii
6.3
+3.07
-7.6
-28 19.2
10 54-4
- 050.0
+0.0837
0.5525
-0.0014
+19-39
62 B.
Sagittarii
6.0
3.08
7.5
2841.1
10 54.6
- 049.8
+0.4864
0.55251-0.0014
+43-16
58 G.
Sagittarii
6.1
3.07
71
28 28.4
12 56.2
+ I 7.5
+0.2551
0.5523+0.0039
+29
-30
^
Sagittarii
3 3
3.08, 5.2
27 5.0
23 244
+11 13.7
-1.0990
0.5504
0.0308
-44
-90
r
Sagittarii
3.5
3.10
3.6 2748.1
29 852.9
- 3 37-5
+0.1000
0.5478
0.0547
+25
-38
183 B,
Sagittarii
6.2 +3.13
- 3.4-2846.4
9 71
- 323.8
+1.1907
0.5477
+0.0553
+62
+36
234 B.
Sagittarii
5-9 3.10
1.9
28 2.2
16 47.0
+ 4 0.3
+0.8710
0.5449
0.0740
+62
+ 7
248 B.
Sagittarii
57 t 3.09
- 1.6
27 lO.O
19 14.0
+ 622.3
+0.0946
0.5439 0.0798
+27
-39
u
Sagittaru
4-8, 3.05
+ 0.7; 2632.01
30 7 9.5
- 6 6.2
+0.5107
0.5383 0.1072
+53
-16
//
Sagittarii
4.9 -I-3.03 + 0.9 -26 26.0!
837.0
- 441.6
+0.5591
0.5374 +0.H06
+56
-13
JULY
40 B. Capricorni
56 B. Capricorni
Capricorni
Capricorni
Capricorni
Capricorni
B. Capricorni
Capricorni
Capricorni
Capricorni
B. Capricorni
Aquarii {mean)
Aquarii
X
27
33
128
37
e
152
29
39
6.2
+2.94
+ 3.6
-25 14.4
6.3
2.91
4 3
24 5 7
5.3
+2.74
+ 6.0
-21 32.8
6.1
2.72
5.9
20 54-5
5-3
2.70
6.4
21 0.9
53
2.68
7.1
21 13.5
6.5
2.62
7.2
19 31.8
5.7
+2.62
+ 7.8
-2028.5
4-7
2.60
7.8
1951-5
4.8
2.57
8.1
19 15.9
6.5
2.49
8.2
17 15.2
6.5
2.44
9.0
17 23.2
6.2
+2.34
+ 9.0
-14 37.5
3
12]
040.7
412.4
18 13.4
18 43.3
21 46.6
2 54
5 50
734.0
8431
II 36.1
15 337
21 59.2
3 19.0
+10 50.6+1.2843
- 9 44'4,+o.53ii
+ 350.3-0.0080
+ 4 19.3-0.6285
+ 7 17.0 +0.0379
+11 28.0+1.0677
- 9 37.8-0.2431
- 7 13.3+1.2896
- 6 6.2+0.8329
- 3 18.3 +0.7516
+ o 32.4-0.6686
+ 6 46.6 +0.8384
+1157.2-1.0538
0.5286I
0.5266
0.5183
0.5180
0.5162
0.5x37
0.5121
0.5107
0.5100
0.5085
0.5064
0.5032
0.5007
+0.1440
0.1509
+0.1758
o. 1767
0.1817
0.1885
0.1930
+0. 1966
0.1983
0.2022
0.2076
0.2157
+0.2219
+65^+46
+58
-15
[+31-44
-88
-42
+18
+34
+69
+221-58
+7o;+40
+70+ 2
+711- 4
+ 2I-90
-♦■ I
+73
-19
-90
588
OCCULTATIONS, 1912.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JULY.
Limit-
T&s STAm'a
At CoMjuHcnoH » R. A.
ing Par-
allels.
Name.
Mag.
Red 'ns from
X9z2.a
Apparent
declina-
tion.
Washington
Mean Time.
Hour
Angle,
Y
*'
f
N ^
Aa
A«
A^ ■
^^.
0
8
M
e t
d h m
h m
e
45
Aquarii
6.1
+2.30
+ 9.2
-13 44.6
8 6 50.7
- 837.1
-1.2394
0.4992
+0.3258
-34-90
50
Aquarii
5-9
2.28
97
13 58.4
946.2
- 5 46.6
-0.3198
0.4979
0.2289
+23-62
Z82 B.
Aquarii
6.2
2.25
9.8
13 21.8
12 46.9
- 251.0
-0.2999
0.4968
0.2318
+24-62
70
Aquarii
6.1
2.12
10.3
II I.I
22 52.6
+ 6 57.9
-0.5005
0.4934
0.2410
+16-74
74
Aquarii
5.8
2.II
10.9
12 4.9
4 I 36.2
+ 9 37.0
+1.3324
0.4926
0.2432
+78-^38
k
Aquarii
5-4
+2.00
+10.4
- 8 lo.o
8 3.8
- 8 6.1
-1.3915
0.4910
+0.2480
-48-90
X
Aquarii
5-3
1.94
zx.o
812.2
14 32.9
- I 47.6
40.2732
0.4899
0.2522
457 -30
317 B.
Aquarii
6.3
1.89
10.6
623.1
16 41.3
+ 0 17.2
-1.1799
0.4896
0.2535
-231-90
337 B.
Aquarii
6.4
1.84
10.5
5 0.5
21 36.2
+ 5 4-1
-1.4342
0.4891
0.2562
-591-90
20
Piscium
5.6
1.72
10.9
3149
5 751.8
- 8 57.0
-0.7034
0.4889
0.2605
+ 8
-90
24
Piscium
6.1
+1.70
+ZI.2
- 3 38.5
10 38.2
- 6 15.2
+0.4494
0.4890
+0.2614
+70
-21
80 B.
Piscium
6.3
I.61
10.8
- 0 59 3
17 22.9
+ 018.5
-0.6662
0.4897
0.2632
+10 -8S
98 B.
Piscium
6.3
1-53
10.6
+ I 12.2
6 0 25.0
+ 7 9.0
-1.1835
0.4910
0.2644
-22-89
44
Piscium
6.0
1.48
I0.8
127.3
436.4
+11 13.5
-0.3467
0.4920
a 2648
+26-63
147 B.
Piscium
5-9
1.36
9.8
4 49-9
17 3.5
- 040.3
-0.6844
0.4963
a264i
+ 9|-«5
171 B.
Piscium
6.3
+1.27
+10.3
+ 6 0.7
23 13-5
+ 5 19.2
-0.3226
0.4992
40.2628
+28;-6i
e
Piscium
4-4
1.24
9.9
725.2
7 0 52.8
+ 6 55.7
-1.3924
0.5000
0.2624
-45 -«3
73
Piscium
6.2
1.26
I0.8
5 11.3
154.7
+ 7 55.9
+1.2624
0.5005
0.2621
+90+30
C
Piscium
5.6
1.20
10.3
7 6.8
633.7
-1133.2
40.42x4
0.5031
a26o4
+68-21
88
Piscium
6.2
1.20
10.6
632.0
7 5.0
-II 2.7
+1.1751
0.5035
0.2602
+90+23
TT
Piscium
5.6
+1.06
+ 9.4
+1x41.7
18 36.2
+ 0 8.1
-1-3345
0.51 II
40.2544
-38-78
26 B.
Arietis
6.0
0.96
9.8
" 52.3
8 545.1
+10 56.4
+1.2712
0.5200
0.2460
+9o;435
12 H."
' Arietis
6.3
0.94
94
13 3.3
7 17.1
-" 34-5
+0.4041
0.5213
0.2446
+68-19
19
Arietis
5.8
0.89
9.0
14 52.2
12 19.9
- 641.3
-0.2736
0.5258
0.2397
^-30-53
27
Arietb
6.4
0.80
8.5
17 19.0
20 44.9
+ 127.4
-0.8420
0.5339
0.2301
-i;-73
36
Arietis
6.5
+0.75
+ 8.8
+17 23.7
8 2552
+ 7 25.4
+0.4743
0.5404
40.2219
+73-12
40
Arietis
6.0
0.73
8.7
17 55.2
449.4
+ 9 15.7
40.3501
0.5424
0.2192
+65-18
TT
Arietis
52
0.73
9.0
17 6.1
5 10.6
+ 936.2
4X.2730
0.5428
0.2186
+90+41
45
Arietis
6.0
0.70
8.8
17 58.7
8 5.2
-1 1 35.3
+0.9956
0.5459
0.2142
+90+18
P
Arietis
5.6
0.71
8.8
17 40.5
821.5
-II 19.5
+1.3656
0.5462
0.2x37
+90+61
^l
Arietis
58
+a69
+ 8.1
+20 19. 1
9 38
-10 38.7
-1. 2091
0.5469
40.2125
-30.-70
6
Arietis
4-5
0.64
8.6
19 23.8
15 1.2
- 4 53.8
+0.9763
0.5536
0.2025
+90<fi9
C
Arietis
5.0
0.62
8.2
2043.3
16 25.6
- 3 32.5
-0.0994
0.5551
0.2000
439I-38
T
Arietis
5.1
0.60
8.3
20 50.0
19 8.2
- 0 55.8
+0.3210
0.5582
0.1949
+63-16
63
Arietis
5.2
0.59
8.4
20258
19 47.7
- 0 17.6
+0.8605
0.5590
0.1936
+90*13
65
Arietis
6.0
+0.59
+ 8.4
+20 29.7
20 30.4
+ 023.5
+0.9322
0.5598
+0.X922
+9oVi7
66
Arietis
6.1
0.57
7.9
22 30.2
22 10.5
+ I 59.9
-0.8034
0.5616
0.1889
o-(>7
16
Tauri
5.4
0.51
7-7
24 0.9
10 4 57-3
+ 8 31.5 -1.1066
0.5694
0.1746
-23-66
17
Tauri
3.8
0.51
7.7
23 50.4
459.2
+ 8 33.3 -0.9221
0.5695
0.1745
- 8-66
9
Tauri
4-3
0.51
7.6
24 1 1.6
5 7-1
+ 840.9
-1.2597
0.5696
0.1742
-40-66
20
Tauri
41
+0.51
+ 7.6
+24 5-7
522.4
+ 855.7
-1.1150
0.5699
40.1736
-23,-66
21
Tauri
5.8
0.51
7.6
24 17.0
524.3
■»■ 8 57-5
-1.2997
0.5699
0.1736
-47-^
22
Tauri
6.5
0.51
7.6
24 15.4
527.7
+ 9 0.8
-1.2628
0.5700
0.1734
-40-66
23
Tauri
4-3
0.51
7.8
23 40.6
535.0
+ 9 7.8
-0.6528
0.570X
0.1732
+ 8 --65
J7
Tauri
30
0.50
. 7.8
23 50.2
6 3.3
+ 9 350
-0.7328
0.5706
0.1721
+ 4-66
104 B.
Tauri
5-5
+0.51
+ 8.0
+23 9.2
625.0
+ 956.0
+0.0223
0.5711
40.1712
+45-26
27
Tauri
3.7
0.50
7.8
23 472
644.4
+10 14.6
-0.5656
0.5714
0.1705
413 60
28
Tauri
5.2
0.50
7.8
23 52.2
645.0
+1015.1
-0.6490
0.5715
0.1705
+ 8^64
133 B.
Tauri
5-9
0.50
8.3
21 58.8
7 4-4
+10 33.8
+1.3267
0.5718
0.1697
+90, ^62
33
Tauri
6.0
0.48
8.1
22 55-4
957.2
-10 40.1
+0.8466
0.5750
0.X630
1+90+16
161 B.
Tauri
6.5
fo.47
+ 8.1
+22 57.3
11 30.7
- 9 lO.I
+1.0636
0.5769
40.1592
+90
*3i
36
Tauri
5.6
0.46
8.0
23 52.0
12 51.6
- 7 52.4
40.3538
0.5783
0.1559
+66'-io
X
Tauri
5-3
0.41
7.8
25 25.5
19 59.7
- I 1.2
-0.1720
0.586X
0.1373
^^34
-35
62
Tauri
6.1
0.40
8.1
24 5-9
20 33.8
- 028.5
+1.2400
0.5866
0.1358
490
+49
17 B.
Aurigae
6.0
0.34
7.5
27 45.2
11 7 26.9
+ 9 57.8
-1.1183
0.5975
0x042
-27
6a
38 B.
Aurigae
6.5
+0.32
+ 7.6
+27 34.6
II 51.0
- 9 49-2
-0.5110
0.6015
40.0904
«5
-50
[Bph la]
OCCULTATIONS, 1912.
589
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JULY.
Trs Stae's
Name.
47 B. Aurigae
354 B. Tauri
22 Aurigae
/3 Tauri
107 B.
V
37
42
46
I
308 B.
a
P
27 B.
13
gi G.
k
86
621 B.
I
64 G.
169 B.
177 B.
42
31 B.
32 B.
40 B.
50 B.
57 B.
24 G.
27 G.
41 G.
85 B.
a
22
116 B.
134 B.
Z18 B.
95 G.
36
43
163 G.
X
10 G
2x0 B.
38 B.
48 G.
62 B.
58 G.
0
Leonis
Leonis
Leonis
Leonis
Leonb
Leonis
Leonis
Leonis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Librae {var.)
Librae
Librae
Librae
Librae
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Ophiuchi
Ophiachi
Ophi. {jst star.)
Ophiuchi
Ophiachi
Sagittarii (var.)
Sagittarii
Scorpii
Sagittarii
C. D.-28® 14268
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Mag.
6.0
6.4
6.4
r.8
6.3
3-6
5.5
6.x
5.8
53
5.8
41
3.8
6.5
5.9
4.0
6.5
5.4
5.6
6.4
4-7
5.8
6.0
6.2
50
5-4
53
5.4
6.4
57
6.2
5.8
6.3
6.0
31
X.2
4.8
6.2
6.4
6.2
6.x
5.4
5.4
6.3
4.4
5-7
5.8
47
6.4
6.3
6.0
6.1
33
3-5
Red'ns from
iQiadO.
Aa
«
40.31
0.29
0.29
0.28
+0.54
a56
0,56
0.59
+0.63
0.66
0.74
0-75
0.87
+0.87
0.96
0.97
1.13
1.32
+1.40
1.51
1.97
2.02
2.18
+2.19
2.20
2.30
2.30
2.34
+2.38
2.38
2.40
2.40
2.44
+2.46
2.50
2.57
2.56
2.59
+2.69
2.82
2.87
2.85
295
+3.05
307
3.13
3.15
319
+3-22
3.23
324
325
330
+3.39
A«
Apparent
Declina-
tion.
rr
7.6
7-7
75
7.6
2.
2.9
2.0
2.x
8+16
z
0.1
1-5
2.2
4-7
5.2
6.4
6.4
87
17
2.6
3.8
54
6.x
6.0
59
6.x
59
57
5.8
56
5-2
5.4
51
5.2
+27 55.3
27 52.3
28 51.3
28 32.2
NEW
6+X4
XX.2
X7 11.6
X4 10. 1
15 25.2
35-4
XI 0.7
832.5
630.7
215.6
+ X
- o
o
3
9
-XX
14
19
22
22
-22
23
24
23
24
1-24
23
24
23
24
5
52
51
4.6
50
4.6
3.1
31
3.3
2.5
I.I
0.8
o.x
O.I
9-4
9.1
87
8.6
8.2
6.0
4-25
' 4-3
25
26
24
26
-27
26
27
26
28
-27
27
28
28
28
28
28
28
28
27
27
19
20
%%
X.I
18.0
10.8
44-9
42.9
59-4
33-2
27.8
47
51-3
52.0
32.2
x6.6
432
34-9
293
22.3
13-9
273
12. 1
155
23.2
14.5
55-6
21. 1
17.7
239
395
28.7
37
50.7
48.x
33
452
28.2
55-4
19.2
41.1
28.4
5.0
48.1
[Epb xaj
At Conjumctiom in R. A.
Washin^on
Meaa Time.
d h m
11 1343.6
17501
x8 41. 2
1944.8
MOON.
16
IT
18
S4
26
26
3176
358.6
758.4
xo XO.8
X4 40.9
22 14.6
930-2
X2 4S.4
243.8
647.x
x6 18.4
16 54 9
932.3
5 37
XX 28.8
20 36.2
520.X
7 16.2
17 X8.4
18 X.9
18 27.0
044.6
046.0
253.6
520.5
621.9
7 9-4
7338
950.7
xo 20.6
X3 12.X
16 54 4
X7 17.4
X7 47.8
23 350
94x0
12 7.0
13 27.6
x6 57.4
I 46.0
338.9
740.3
8313
X24X.2
14 23.6
x6 47.8
x6 48.0
1850.1
5 2X.2
Hour
Angle,
H
h m
8 X.3
4 5.5
3x6.5
2157
14 52.0!+
+ o
+ X
+ 5
+ 7
+11
4
6
539
33.5
24.4
32.1
52.5
49.6
2
9-0,
9
I
+ 2
+ X1
-II
+ 4
- o
5
9
I
o
9
+10
+XO
6
6
4
2
X
O
O
X
2
5
8
8
9
8
o
3
4
7
- 7
5
X
I
2
145
174
38.x
514
33.2
33-2
31.5
41.8
277
459
6.4
48.8
31.0
55.2
597
58.3
54-9
330
337
477
24.2
48.1
17.0
2.7
37-4
59.6
29.0
557
49-3
10.2
28.0I
50.5
394
50.5
57.5
8.3
52.8
-0.6917
-0.3205
-X.2402
0.8517
■10.0364
-1. 1250
+0.8678
-0.9307
-1.2707
+0.2832
.3221
+0.7980
+1.X838
+1.2990
-0.0403
-0.3341
-1.3054
-0.3421
+0.3945
+0.8343
-I.IXIOi
+X.328X
+0.3639
+0.2551
+0.9080
+0.6939
+0.0888
+0.6983
+
+
+
+
4
6
6
8
5
4
+0.2354
-1. 1248
.3033
-X.2036
-0.7074
+o.3740\
+O.X394
+0.6x38
-0.8659
+0.6279
+X.0218
.8824
+0.3133
-1.0764
+0.4343
-0.2397
-0.3561
-0.1906
+0.5608
+0.X854
31.7 +0.6730
50.8 +0.0002
51.0+0.4034
48.8+0.1763
2.0 -1. 1572
9.0I+0.0639
0.6030
0.606X
0.6067
o.
6075+0
5637
5630
5594
5573
5532
5467
5380
5357
5274
5254
5216
52x4
5174
5168
5175
5190
5293
530X
5339
5343
5345
5369
5369
5378
5388
5392
5395
5396
5405
5407
5417
5430
5432
5433
5452
5479
5484
5487
5493
5504
5505
5508
5508
5507
5506
5505
5505
5503
5487
5463
y
+0.0844
0.0709
0.0681
.0645
0.2453
0.2463
0.2522
0.2551
-0.2605
0.2682
0.2765
0.2781
0.2820
-0.2822
0.28x2
0.28x0
0.2743
0.2592
-0.2527
0.2422
0.X926
0.1891
0.1700
-0.1686
0.X677
0.1549
o.x 548
0.1503
-0.1451
0.1429
0.I4IX
O.X403
0.1352
-0.1342
0.X277
O.I 192
o.x 183
O.x 171
-0.X035
0.0790
0.0729
0.0695
0.0607
-0.0382
0.0334
0.0230
0.0208
0.0x00
-0.0056
+0.0006
0.0006
0.0059
0.0329
+0.0568
Umit-
ing Par-
allels.
N.
+ 5
+26
44
V 6
-61
-37
-61
-6x
+46-36
-20 ■
+90
-73
+ 7
6-75
-32
+60
+28
+90
+90
+90
+42
+27
-34
+24
+62
+75
-75
-27
-60
- 2
+22
+33
-46
-63
-90
-64
-24
o
-29-90
f68
+50
+44
+66
f65
+34
+65
+40
-36
+12
-43
- 9
+47
+33
+59
-20
+60
+63
25
+37
-40
+43
+ 5
- X
+ 6
+48
+25
+56
+14
+37
+24
+49
-24
-30
+ 8
- 6
-39
- 5
-31
-90
-63
-90
-90
-23
-36
-10
-90
- 9
+18
-90
-26
-90
-20
-59
-67
-56
-12
-33
- 5
-44
-21
-34
-49-90
+22
-40
590
OCCULTATIONS, 1912.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JULY.
Umit-
The Star's |
At Cohjuhction xm R. A.
ing Par-
allels.
Name.
Mag.
Red'ns from
19Z2.Q1
Apparent
Declina-
tion.
Washington
Mean Time.
Hour
Angle,
H
Y
x'
y
N.' S.
Aa
Ad
8
n
0 t
d
h m
h m
e e
183 B.
Sagittarii
6.2
+342
- 4-3
-28 46.5
26
15 6.3
+ 4 22.9
+1.1568
0.5463
+0.0574
+61+32
234 B.
Sagittarii
5-9
3-44
2.6
28 2.2
22 47.8
+11 48.5
+08535
0.5437
0.0761
+62+ 6
248 B.
Sagittarii
57
3-43
- 2.0
27 lO.O
a7
I 153
- 9 49.0
+0.0817
0.5428
0.0819
+26-39
0)
Sagittarii
4.8
3.45+ 0-5
26 32.0
13 13.0
+ I 44.7
+0.5250
0.5375
0.1095
+53-15
A
Sagittarii
4-9
3-45
0.8
2626.1
14 40.6
+ 3 9-3
+0.5771
0.5368
0.1 127
+57-12
56 B.
Capricomi
6.3
+341
+ 50
-24 5-7
28
10 18.2
" I 51. 1
+0.5937
0.5265
+0.1531
+61-12
X
Capricomi
5-3
330
7.2
21 32.7
29
019.9
+"44-3
+0.0865
0.5187
0.178X
+37-39
27
Capricomi
6.1
3.28
7-3
20 54-5
049.8
-II 46.8
-0.5333
0.5184
0.1790
+ 5-79
0
Capricomi
53
327
7-9
21 0.9
3 53-2
- 849.0
+0.1406
0.5167 0.1840
+40-36
33
Capricomi
5-3
3.26
8.6
21 13.4
8 12. 1
- 4 37-9
+i.i8ii
0.5142' 0.1908
+69+25
128 B.
Capricomi
6.5
+3.21
+ 9.0
-19 31.8
II 11.8
- I 43-6
-0.1239
0.5127 +0.1954
+28-51
e
Capn'comi
47
3.21
97
1951-5
14 50.0
+ I 48.1
+0.9612
0.5107
0.2006
+70+10
K
Capricomi
4.8
319
10. 1
19 159
17 43.0
+ 4 36.0 +0.8864
0.5090
0.2046
+71+ 5
152 B.
Capricomi
6.5
3.12
10.5
17 15.2
21 40.7
+ 8 26.8 - 0.5262
0.5072
0.2100
+10-77
29
Aquarii(x^<iif)
6.5
3.09
11.6
1723.1
80
4 6.3
- 9 18.8 +0.9966
0.5042 0.2x81
1
+73+11
39
Aquarii
6.2
-•-3.01
+12.0
-14 37-5
926.3
- 4 7.9-0.8864
0.5015+0.2243
- 8-90
45
Aquarii
6.1
2.97
12.4
13 44-5
12 58.1
- 042.2
-1.0649
0.4999; 0.2281
-19-90
50
Aquarii
5-9
2.96
12.8
13 58.3
15 537
+ 2 8.4
-0.1379
0.4987 0.23x1
+32'-52
182 B.
Aquarii
6.2
2.93
13.1
13 21.7
18 54.6
+ 5 42
-0.1119
0.4974 0.2342
+34,-50
70
Aquarii
6.1
2.83
14.0
II i.o
81
5 1-2
- 9 6.1
-0.2931
0.4939 0.2431
+26-^
h
Aquarii
5-4
+2.73
+X4.6
- 8 9.9
14 137
- 0 8.8
-1. 1699
0.4912+0.2498
-23-90
X
Aquarii
5-3
2.68
15.2
8l2.I
2044.1
+ 6 11.0+0.5110
0.4899I 0.2538
+72-18
317 B.
Aquarii
6.3
+2.63 +15.0
- 623.1
22 53 I
+ 8 16.5 -0.9436
0.4895 +0.2550
- 7;-90
AUGUST.
337 B.
342 B.
20
24
80 B.
98 B.
44
147 B.
171 B.
c
12 H.>
19
27
36
40
45
47
6
C
r
63
65
66
16
17
20
21
Aquarii
Aquarii
Piscium
Piscium
Piscium
Piscium
Piscium
Piscium
Piscium
Piscium
Piscium
Piscium
Arietis
Arietis
Arietis
Arietis
Arietis
Arietis
Arietis
Arietis
Arietis
Arietis
Arietis
Arietis
Arietis
Tauri
Tauri
Tauri
Tauri
Tauri
6.4
+2.60
+15.1
- 5 0.5
6.5
2.58
15.2
433.8
5.6
2.50
15.8
3148
6.1
2.48
16. 1
338.4
6.3
+2.40
+15.9
- 059.2
6.3
2.33
15.8
+ I 12.2
6.0
2.30
16.0
127.4
5-9
2.20
15.1
450.0
6.3
2.12
157
6 0.8
4.4
+2.09
+15.3
+ 7 25.2
5.6
2.06
157
7 6.9
5.6
1.94
14.6
II 41.7
6.3
1.83
145
13 3.4
5.8
1.78
13.9
14 52.3
6.4
+1.71
+131
+17 19. 1
6.5
1.65
13.2
17 237
6.0
1.64
13.0
17553
6.0
X.60
13.0
17 58.8
5.8
1.61
12.2
20 19.2
4.5
+1.55
+X2.5
+19 23.9
5.0
1.53
12.0
20 43.3
5.1
1.51
1 1.9
20 50.0
5.2
1.50
12.1
20 25.9
6.0
1.49
12.0
20 29.7
6.1
+1.48
+11. 3
+22 30.3
5-4
1.42
X0.7
24 1.0
3.8
1.42
10.8
23 50.4
4.3
1.42
10.7
24 11.7
41
1.42
10.7
24 5.8
5.8
+1.42
+X0.6
+24 17.0
1 3
4
14
x6
23
2 6
II
23
8 5
7
13
4 I
14
19
6 4
10
12
16
17
49-3
56.2
8.4
56.1
44.0
50.0
4-2
40.8
56.3
37.2
237
40.0
37.6
47.6
25.4
45.5
42.8
41
4-2
6
23 11.7
038.6
3258
4 6.5
450.4
633.5
13 32.3
13 34-2
1342.3
13 58.1
14 ao
-10
- 9
- o
+ I
+ 8
- 8
- 4
+ 7
-10
- 8
- 2
+ 8
- 2
+ 2
+10
- 6
- 5
- I
- o
+ 5
+ 6
+ 9
+ 9
+10
-II
- 5
- 5
- 4
- 4
- 4
55-4
50.3
53.1
50.2
27.0
38.5
31.2
44.6
10.4
323
557
59.4
26.3
34-2
55.5
56.6
32
48.7
50.6
44
28.3
97
49.0
31-3
49.2
5.6
3.8
55.9
407
38.9
-1.1917
-1.3916
-0.4441
+0.7180
-0.3958
0.9096
0.0640
^.3969
0.0299
-1. 1090
+0.7226
-X.0529
+0.7000
+0.0106
-0.5726
+0.7552
+0.6274
+1.2781
-0.9588
+1.2499
+0.1568
+0.5795
+1.1258
+1.1974
-05657
-0.8839
-0.6967
-1.0395
-0.8930
-1.0806
4888
4887
4879
4879
4883
4891
4899
4933
4957
4963
4990
5059
5150
5192
5266
5325
5344
5378
5388
5450
5466
5494
5500
5509
5527
5602
5602
5603
5606
5607
+0.2574
0.2579
0.2614
0.2622
+0.2636
0.2644
0.2645
0.2632
0.2615
+0.2610
0.2587
0.2520
0.24x5
0.2365
+0.2266
0.2181
0.2153
0.2103
0.2086
+0.1986
0.1960
0.1909
0.1896
0.1882
+0.1849
0.1706
0.1705
0.1702
0.1696
-24--^
-45'^
+21-70
+86,-7
+24H67
- 3-S9
+41-48
+24-66
+43|-45
-X7'-^3
+90- 6
-13-78
+90-4
+45,-38
+14-68
+9C.+ 3
+87-4
+90+42
- 9,-70
+90+4X
+53 'V>
83-3
+90+31
+90|+37
+14-62
- 6-66
6-66
-17-66
- 6:-66
+0.1695 -«o|-66
[Eph n]
0CCULTATI0N8, 1912.
591
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
AUGUST.
Ths Stak'b
At Comjumctiom im R. A.
Umit-
ing Par-
allels.
Name.
22
23
X04 B.
27
28
33
i6x B.
36
X
17 B.
38 B.
47 B.
354 B.
22
/?
X07 B.
112 B.
116 B.
406 B.
136
154 B.
415 B.
183 B.
K
211 B.
49
53
54
28
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Aurigs
Aurigae
Aurigae
Tauri
Aurigae
Tauri
Aurigae
Aurigae
Aurigae
Tauri
Tauri
Aurigae
Tauri
Aurigae
Aurigae
Aurigae
Aurigae
Aurigae
Aurigae
Geminorum
47 Geminorum
53 Geminorum
134 B. Geminorum
39 Geminorum
< Geminorum
3>
V
27 B.
13
V
319 B.
g
a
h
86
621 B.
40 H.
64 G.
169 B.
177 B.
42
A
Geminorum
Geminorum
Geminorum
Virginia
Virginia
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Librae
Librae
Librae
Librae
Scorpii
Mag,
6.5
4.3
30
55
37
52
6.0
6.5
5.6
53
6.0
6.5
6.0
6.4
6.4
1.8
6.5
5-7
5-9
5-6
4-6
6.4
6.Z
6.3
4-4
6.3
5.1
56
5.8
5.5
5.6
59
6.5
5-7
3.9
50
50
4-3
3.8
6.5
59
40
6.3
5.6
X.2
5.4
5.6
6.4
51
5.8
6.0
6.2
50
4.6
Rod 'na from
X9i2.a
Ac Aa
8
.42
.42
•41
.40
.40
.40
.37
.36
.34
.29
.20
.16
M
.xo
.10
.09
.06
•05
.06
.01
.ox
.ox
0.98
0.98
0.96
40.94
0.90
0.90
0.89
0.88
+0.82
0.82
o.8x
a8o
0.79
+0.79
0.79
0.78
+0.72
0.71
0.77
0.77
0.84
+0.91
0.98
X.03
1.09
1.18
•fi.22
1.66
1.83
X.84
X.85
+X.96
+X0.6
X0.8
10.8
xx.o
X0.8
+X0.7
xx.o
xx.o
X0.6
9.9
+ 8.8
8.7
8.6
8.4
8.x
-k- 8.0
8.2
8.4
7.8
7.9
+ 8.0
7.6
7.8
7,2
6.9
+ 7.0
71
6.8
6.9
6.6
+ 6.5
6.2
6.3
6.1
6.0
+ 5.9
59
+ 5.9
-3.8
4.2
5 3
5.3
7-7
■ 91
X0.2
10.2
XI.I
12.3
■12.8
15-2
154
15.3
155
X5.8
Apparent
Declina-
tion.
Washin^cn
Mean Time.
+24 154
23 407
23 50.2
23 93
23 47-3
+23 52.3
22 55 4
22 57-4
23 52.0
25 25.5
+27 45.2
27 34 6
27 55-4
27 52.3
28 5X.4
+28 32.2
27 36.5
2652.3
29 10.0
27 56.7
+27 35.7
28 55.9
27 34-2
29 313
29 32.0
+29 35.0
28 5.6
29 3.7
28 20.6
29 38
+27 0.2
28 3.2
26 5X.0
27 48.6
27 58.5
+28 18. X
28 6.0
+27 5.6
NEW
+ 2
+ I
- o
o
5
- 8
xo
9
XX
14
-15
22
22
22
23
-25
d h m
6 X4 3.6
X4 XI.I
14 40.2
15 2.5
15 22.5
15 23 I
1841.0
20 17. 3
2X 40.6
I' 5 1-3
x6 48.3
2X X9.8
23 15-5
8 3 28.6
42X.X
526.3
9 X.I
928.7
xo 14.2
X4 3X.5
15 234
x6 32.7
x8 X0.8
20 5.5
23 20.6
9 X 26.0
628.9
736.4
8 2.2
9 53 3
X9 26.8
21 4.1
21 28.8
10 o 9.7
0351
1 52.6
2 3,0
4 x6.o
MOON.
h
- 4
- 4
- 4
- 3
- 3
3
o
X
2
9
2
X
3
7
8
15.6
x.x
18.0
10.8
49 3
30.9
42.3
42.9
59-3
33.1
53-4
4-7
513
52.0
32.2
42
[Eph
16
14 X2
x6
15 I
2
15
X
9
13
19
4
7
18 14
23
o
X
17
19
16.2
12.9
27.7
3.2
150
20.5
21.8
7.1
21. 1
13.2
159
4.0
55-1
37-9
2.6
Hoar
Angle,
H
+
+
+
+
+
+
+ 9
-XX
-10
-10
- 6
- 5
- 4
- 2
- o
+ 2
+ 4
+ 9
+10
+XO
-IX
- 2
- o
- o
2
2
+
+
+
+
+ XO
-10
- I
- o
-IX
- 2
+ 5
+ 9
- 8
o
7 5-6
2
8
- 5
- 5
- 4
f X
m
35.4
28.2
o.x
38.7
19.5
18.9
8.3
24.4
44.6
48.3
52.8
27.6
18.5
21.0
II.3
X3.8
20.5
54.1
X0.5
4-2
X4.6
8.3
34-4
44-7
2X.9
21.9
XX.6
x6.x
40.8
330
24.6
51.6
28.0
5.8
30.1
44.2
541
1-4
3.1
8.0
"4
370
50.6
4X.6
19.9
38.1
30
53.8
41.8
46.9
5-5
41.6
91
-X.0432
-0.4246
0.5064
+0.2590
-0.3381
-0.4226
+X.0894
+X.3067
+05843
+0.0382
-0.9424
-0.3355
0.5225
-0.1546
-X.0876
-0.6963
+0.4368
+ 1. 1976
-X.0699
+0.3222
+0.6983
-0.6080
+0.7869
-1.1316
-X.I 194
-X.X742
+0.2300
-0.7610
-0.0602
-0.8343
+0.6924
0.4617
+0.6931
-0.4732
-0.6726
-X.XX05
-0.9276
-O.X5X2
+0.9734
+1.0792
-0.2581
-0.5487
+ I.40I4
+1-3447
+1.420X
-0.5954
+0.X278
+0.5596
+X.2131
+1.0579
+0.X099
+0.0027
+0.6502
+1.3x76
0.5607
0.5608
0.5613
0.5617
0.5621
0.5621
0.5656
0.5673
0.5689
0.5765
0.5880
0.5920
0.5936
0.5970
0.5977
0.5985
0.60 to
0.6013
0.6017
0.6043
0.6047
0.6054
0.6061
0.6071
0.6083
0.6089
0.6103
0.6105
0.6105
0.6108
0.6x06
0.6103
0.6x03
0.6098
0.6097
0.6093
0.6093
0.6087
0.5353
0.5334
0.5299
0.5297
0.5262
0.5249
0.5246
0.5246
0.5250
0.5260
0.5265
0.5345
05376
0.5379
0.5380
0.5399
+0.X694
0.1691
o.x68x
0.1673
0.1665
+0.1665
0.1 591
0.1553
0.152 1
0.1337
+0.1009
0.0873
0.0813
0.0680
0.0652
+0.0617
0.0499
0.0484
0.0459
0.0314
+0.0284
0.0245
0.0188
0.0x22
+0.0008
-0.0065
0.0244
0.0284
0.0299
0.0364
-0.0702
0.0759
0.0773
0.0866
0.0880
-0.0924
0.0930
0.X006
-0.2880
0.2882
0.2872
0.2870
0.2815
-0.2746
0.2675
0.2637
0.2568
0.2458
-0.2416
0.1903
o.x 706
0.1690
0.1683
-0.1553
N.
-17
+21
+16
+60
+26
+21
+90
+90
+85
+47
-12
+25
+15
+35
24
4
+73
490
-23
+65
4-90
+ XO
+90
-30
-28
-35
+58
o
+41
- 5
+90
+18
+90
+18
+ 6
-26
-II
+36
S.
-66
-52
-57
-17
-47
-52
+32
+57
+ 2
-24
-62
-39
-50
-28
-61
-60
+ 4
+52
-6x
o
+20
-52
+26
-60
-60
-60
- 4
-6x
-19
-61
+16
-46
+15
-47
-60
-62
-62
-30
+90
+90
+31
+16
+84
+81
+79
+12
+48
f7o
+ 7
+14
-58
-78
+46
+38
+54
-82
-38
-15
+74 +27
+68,+i7
+36-38
+31
-44
+65:- 9
+65 +54
la]
592
OCCULTATIONS, 1912.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
AUGUST.
Trs Star's
Name.
31 B.
32 B.
3
40 B.
48 B.
50 B.
24 G.
41 G.
85 B.
a
a
22
116 B.
134 B.
118 B.
95 G.
36
43
163 G.
X
10 G.
210 B.
38 B.
48 G.
62 B.
58 G.
r
183 B.
234 B.
248 B.
A
40 B.
56 B.
X
27
0
33
X28 B.
e
K
152 B.
29
39
45
50
182 B.
70
h
X
317 B.
337 B.
342 B.
20
Scoq>ii
Soorpii
Scorpii
Scoq>ii
Scorpii
Soorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Ophiuchi
Ophiachi
Ophi. {I St star)
Ophiachi
Ophiachi
Sagittarii {var.)
Sagittarii
Scorpii
Sagittarii {var. )
Sagittarii
C.D.-28** 14268
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Capricomi
Capricorni
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Aquarii [mean)
Aquarii
Aqaarii
Aqaarii
Aqaarii
Aqoarii
Aqaarii
Aqaarii
Aquarii
Aquarii
Aqaarii
Piaciam
Mag.
5.4
5.3
5-9
5-4
4-9
6.4
6.2
6.3
6.0
3.1
1.2
4.8
6.2
6.4
6.2
6.1
5.4
54
6.3
4-4
57
5.8
4-4
47
6.4
6.3
6.0
6.1
3.5
6.2
5.9
57
4.8
4-9
6.2
6.3
5.3
6.1
53
5.3
6.5
47
4.8
6.5
6.5
6.2
6.1
59
6.2
6.1
5-4
5-3
6.3
6.4
6.5
56
Rad'ns from
X9ia.a
Aa
8
+1.96
1-95
1.97
X99I
2.04
+2.04
2.06
2.11
2.13
2.17
+2.25
2.24
2.27
2.38
2.53
+2.59
2.57
2.68
2.82
2.85
+2.92
2.95
3.01
3.00
3.04
+3.06
3.07
309
3.32
3.35
+3-41
341
350
3.50
3.56
+356
351
350
350
3.52
+3.48
3-49
3.48
342
3-43
+336
3-34
3-34
332
3.26
+3.18
3.17
312
3.10
3.09
+3.04
^
5-5
5.3
5.8
55
5.8
5.4
5.2
5.0
5-3
5.2
5.2
4.7
51
5.0
3.6
3.7
3-9
3.2
2.0
1.7
I.I
1.2
i.o
0.4
0.3
• 9-9
9.8
9.4
5.7
5.7
■ 40
3.3
0.7
- 04
30
■ 4.2
7.0
71
7.7
8.4
■ 9.2
9.8
10.4
II. 2
12.2
+13.2
13.7
142
14.6
15.9
+17.0
17.7
17.8
18.1
18.2
+19.0
Apparent
Declina-
tion.
■24
23
24
24
25
-24
24
24
25
25
-26
24
26
27
26
-27
26
28
27
27
-28
28
29
28
28
-28
28
28
27
28
-28
27
26
26
25
-24
21
20
21
21
-19
19
19
17
17
-14
13
13
13
II
- 8
8
6
5
4
■ 3
16.6
43.2
59 3
349
37-5
293
139
12.1
155
23.2
14.5
55.6
21. 1
17.7
239
39.5
28.7
3.7
50.7
48.1
3.3
452
353
28.2
55-4
19.2
41.1
28.4
48.1
46.5
2.3
1 0.0
32.0
26.1
14.5
57
327
54-5
0.9
13.4
31.8
51.5
159
15.2
23.1
37-4
44-5
58.3
21.7
1.0
9.8
12. 1
23.0
0.4
33.8
147
[Bph xa]
At Comjunctioh in R. A.
Wa8hin|;ton
Mean Time.
d
19
h
7
7
7
9
II
II
13
16
16
19
23
23
20 o
5
15
18
19
23
21 7
9
13
14
17
18
20
22
22
%% O
20
21
53 4
7
19
20
54 12
16
%B 6
6
9
14
17
20
23
26 3
10
m
14. 1
15.6
342
21.2
29.7
46.0
33-4
12.6
42.1
31.5
"•3
341
41
47-9
48.9
14.0
34.1
2.6
48.9
41.4
27
28
15
19
21
O
10
20
2
4
9
10
19
42.1
330
20.1
42.3
245
48.5
48.7
507
527
7.0
49.1
16.8
15.6
434
50.4
22.5
24.8
547
58.1
16.9
16.4
54-4
472
44.6
9-5
28.7
0.0
551,+
55.4-"
59-9r 1
10.2 + 7
39.0-10
47.4- 8
42.3- 3
490- 2
58.9+ 6
Hour
Angle.
b
I
I
I
3
5
5
7
9
+10
-10
7
6
6
o
8
+11
-II
8
+
+
+10
-II
- 9
- 9
- 7
+11
-II
- 4
- 2
+ 9
+10
+ 2
+ 6
- 4
~ 3
- o
^ 3
+ 6
+ 9
-II
- 7
- I
+
+
8.5
40.0
32.3
41.9
28.2
41.8
m
17.3+0.4434
18.8 -0.1569
36.7+1.1568
20.1+0.4498
24.2+1.2559
39 9 -0.0075
237 -0.5407
57-5-0.9396
25.9+0.1348
50.5 -0.0953
18.2+0.3797
56.2-1.0902
27.2+0.3948
55.3 •«> 7929
44.7-1.0900
4.7+0.1033
38.0-1.2789
16.8 +0.2297
1 1.0 -0.4304
59-5-0.5441
51.8-0.3738
40.9+0.3769
22.1 +1.2522
41.4 +0.0081
39.9+0.4969
21. 1 -0.1708
20.9+0.2315
23.2 +0.0078
57.1-0.0742
49.0 +1.0176
22.8 +0.7272
o. I -0.0399
347 +04233
59.5 +0.4777
35.2 +1.2682
0.6+0.5295
23.3 +0.0492
54 4 -0.5690
56.6 +0.1 103
14.4+1.1581
-0.1398
+0.95 1 1
+0.8822
-0.5209
+1.0129
-0.8569
7. 1 1 -1.0282
57.2I -0.0966
7.5 -0.0646
19.9 -0.2256
35.2-1.0836
6.7 +0.6072
1. 81-0.8416
14.9 -1.0806
lo.o -1.2784
44.9.M).3i6o
y
0.5399
05399
0.5400
0.5406
0.5413
0.5414
0.5418
0.5426
0-5429
0.5437
0.5446
0.5447
0.5448
0.5463
0.5482
0.5486
0.5487
0.5492
0.5498
0.5498
0.5498
0.5498
0.5496
0.5495
0.5493
0.5492
0.5492
0.5489
0.5445
0.5444
0.5418
0.5410
0.5358
0.5352
0.5272
0.5254
-0.1550
0.1550
0.1543
0.1504
0.1456
+53-20
+21,-54
+65+-28
+52J-20
■^4.-1-40
-O.
0.1410
0.1350
01339
0.1273
-0.1 187
O.I 178
O.I 166
0.1027
0.0779
-0.0718
0.0684
0.0595
0.0369
0.0320
-0.0216
0.0194
0.01 2 1
0.0085
-0.0041
+0.0021
0.0021
0.0074
0.0582
0.0588
+0.0776
0.0834
O.I 109
0.II4I
0.1478
+0.1546
0.5180 0.1799
i450|+27;-45
0-81
-23
+34
+21
0.5178
0.5162
0.5140
0.5124
0.5021
0.4951
0.4914
0.491 1
0.4905
0.1808
0.1858
0.1927
+0.1972
0.5106I 0.2026
0.5093
0.5073
0.5044
0.2066
0.2120
0.2203
•K>.2266
0.5006 0.2304
0.4996 0.2335
0.4984 0.2366
0.2456
0.4927 +0.2524
0.2564 1+78
0.2576
a26oi
0.4903 0.2606
0.4897 +0.
26401+28
Limit-
ing Par-
allels.
N.
-90
-37
-50
+45 -23
-36-90
+46 -22
+63+1
-40^90
+26-38
-61 -90
+32 -31
- 5-73
-11-83
- 3-68
+36 -23
+60+49
15-44
+43-16
5-55
+26 -31
+15,-44
+15-49
+61+18
+62- a
f 20 -47
+47;-2i
+51-18
+65+42
+58-15
+35 -42
4-82
^39|-38
+69+25
^27-52
+701-^ 9
+71'+ 4
+10; -77
+73'+i2
- 6-90
-16
-90
+34-49
+37 -48
f+30
17
- I
-15
-31
-57
-90
-13
-90
-90
-90
-62
0C0ULTATI0N8, 1912.
593
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
AUGUST.
Trb Stab's
At Comjurctioii m R. A.
Umit-
Ing Par-
allels.
Name.
Mag.
6.2
6.3
6.3
6.0
5.9
6.3
44
56
5.6
6.3
Red'ns from
Apparent
Decline-
don.
Wathincton
Mean Tune.
Hour
Angle,
Y
X*
y
N.
S.
Aa
AS
24 Piscinm
80 B. Piscium
98 B. Piscium
44 Piscium
247 B. Piscium
271 B. Piscium
e Piscium
C Piscium
IT Piscium
22 H.' Arietis
8
+3.04
2.98
2.93
2.9X
2.86
+2.79
2.78
2.76
2.67
2.60
m
+ 19.3
19.5
19.8
20.0
19-3
+20.0
19.8
20.1
19 3
29.0
- 3 38.3
- 0 59.2
+ 1 12.3
127.5
450.0
+ 6 0.9
725.3
7 70
22 4X.8
13 3-5
d h m
%% 22 45.9
29 5 32.3
12 37.0
26 50.4
80 525.8
11 41.3
23 22.2
29 9.2
81 7 27.8
20 30.4
h m
+ 927-3+0.8500^
- 7 57-3 --0.2525
-I 4.x -a 7561
+ 3 2.4+0.0957
- 843.0-0.2217
- 2 38.0+0.2528
- 059.9-0.9272
+ 4 37.2 +0.9x47
- 7 25.5 ^8579
+ 5 13.9 +0.9x07
0.4897
0.4900
0.4906
0.49x2
0.4943
0.4964
0.4970
0.4994
0.5054
0.5136
+0.2648
0.2662
0.2668
0.2668
0.2650
+0.2632
0.2625
0.2600
0.2525
0.2425
e Q
f86 0
<^3i -58
+ 6-89
M9-39
+33-56
r53-36
-5-83
+90+ 5
-1-78
f9o+ 8
SEPTEMBER.
.19
27
36
40
47
e
c
r
63
66
x6
17
x8
20
21
22
Arietis
Arietis
Arietis
Arietis
Arietis
Arietis {fman)
Arietis
Arietis
Arietis
Arietis
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
23 Tauri
Tf Tauri
X04 B. Tauri
27 Tauri
28 Tauri
33 Tauri
36 Tauri
/ Tauri
X Tauri
X7 B. Aurigs
38 B. Aurigae
47 B. Auriga
354 B. Tauri
22 Aurigae
P Tauri
107 B.
xx6 B.
406 B.
X36
154 B.
4^5 B.
X83 B.
K
211 B.
49
Aurigae
Aurigae
Tauri
Tauri
Aurigae
Tauri
Aurigae
Aurigae
Aurigae
Aurigae
53 Aurigae
igi2 38
5.8
6.4
6.5
6.0
58
4-6
5.0
5.1
52
6.1
5.4
3.8
5.6
4 3
41
5.8
6.5
4-3
3.0
55
3.7
52
6.0
5-6
56
5.3
6.0
6.5
6.0
6.4
6.4
1.8
6.5
59
5.6
4.6
6.4
6.1
6.3
4-4
6.3
5.1
5.6
+2.58
2.53
+2.49
2.48
2,47
2.45
2.40
+2.39
2.38
2.37
233
2.33
+2.33
2.33
233
2.33
2.33
+2.32
2.32
2.31
2.3X
2.32
+2.28
2.26
2.26
2.22
2.13
+2.08
2.07
2.02
2.03
2.02
+2.96
1.97
X.91
1.90
1.90
+X.87
X.87
X.83
2.82
1.74
+X.74
8.5
7.6
7.4
7-3
6.3
6.x
5.9
57
5.9
50
4.1
42
3-9
4.0
4.0
4.0
4.0
4-2
41
4-3
41
4.(^
41
3-6^
2.6
2.5
0.6
0.2
0.0
9.6
9-1
9.0
9
8.4
8.4
8.4
7.8
8.1
7.2
6.6
6.6
6.5
+ 6.0
+14 52.4
17 19.2
+X7 23.8
17 55-3
20 19.3
20 59.6
20 43.4
+2050.1
20 25.9
22 30.3
24 x.o
23 50.5
+24 34- 1
24 X2.8
24 5.8
24 171
24 155
+23 40.7
23 50.3
23 9-3
23 47.3
23 52.3
+22 55.5
2352.1
26 15.3
25 25.5
27 45.2
+27 34.6
27 55 4
27 523
28 5X-4
28 32.2
36.5
29 10. X
27 56.7
27 35.7
28 55.9
-»27 34.2
29 31.3
29 32.0
2935.0
28 5.6
0+27
+29
2
8
1432
X026.5
X65X.6
28 50.6
23 x6.o
23 47 5
658.2
948.6
2030.1
23 0.0
20 7.7
20 9.7
20 X6.5
20 x8.o
20 34.x
20 36.0
20 39.7
20 47.4
22 X7.2
21 40.0
22 0.4
22 x.o
223.6
427.5
7 7 7
" 59 5
o 6.4
4459+10
3-7
[Eph
645.1
XI 6.x
X2 0.3
23 7.6
x6 49.2
18 4.6
22 30.3
23 23.9
035.5
2 X6.9
415.3
736.9
946.5
14 59.5
26 9.2
+10
- 5
o
2
7
7
- 9
6
6
3
3
3
3
3
3
3
3
3
4
4
5
5
+ 8
+ XI
-10
- 5
+ 6
X7.2
15.9
57.0
52.1
8.7
39-2
24.7
+0.2189
-0.367X
+0.9721
+a8432
.7580
-1.3586
+0.3669
40.1+0.7934
0.0+1.3456
35-3 -0.3655
17.3 -0.6909
19.2 -0.5016
25.8
27.2
42.8
44.6
48.2
55-6
24.3
463
5.9-0.1394
-XI
- 7
- 6
- 5
- X
- o
3
4
5
7
9
-II
- 9
- 4
- 3
6.5
21.8
19.0
6.7
259
12.9
41.3
243
13.8
21.7
17.?
446
32.3
42.3
337
42.3
195
12.9
339
29.8
30.0
23.2
-1.2410
0.8486
-0.7004
-0.8903
-0.8525
-0.2265
-0.3095
+0.4652
-0.2250
+1.3043
+0.7914
-1.2970
+0.2333
-0.7710
-0.1591
0.3505
+0.0189
-0.9295
-0.5332
+0.6142
-0.9177
+0.4921
+0.8733
-0.4551
+0.9604
-0.9909
-0.9822
-1.0402
+0.3805
0.6278
0.5172
0.5239
0.5290
0.5308
0.5347
0.5352
0.5416
0.5442
0.5448
0.5471
0.5538
0.5538
0.5539
0.5539
0.5542
0.5543
0.5543
0.5544
0.5549
0.5552
0.5555
0.5555
0.5587
0.5615
0.5640
0.5684
0.5788
0.5824
0.5838
0.5869
0.5876
0.5883
0.5905
0.5913
0.5936
0.5940
0.5946
0.5954
0.5961
0.5973
0.5980
0.5991
+0.2361
0.2258
+0.2170
0.2142
0.2074
0.2065
0.1943
+0.1891
0.1878
0.1830
0.1685
0.1685
+0.1682
0.1682
0.1676
0.1675
0.1674
+0.2671
0.1661
0.1652
0.1644
0.1644
+0.1569
0.1499
0.1434
0.1314
0.0987
+0.0852
0.0793
0.0662
0.0633
0.0598
+0.0482
0.0442
0.0299
0.0270
0.0231
+90+16
+90I+
3
l"55
f66
+90
+90
+25
+ 6
+17
-37
+0.01
+0.01 10
-0.0002
0.0074
0.0252
0.5994I-0.0290
+57
+25
- 3-66
t+ 6
- 6
- 4
+32
+27
+74
+37
+32
+90
-50
+58
o
+35
+25
+46
-II
+14
+90
-10
+78
fi8
76 +90+36
26
x6
20
+69
8
-28
-57
8
-68
-69
-15
+ 9
+61
-51
-66
-57
-65
-66
-66
-66
-41
-46
- 6
-36
-41
+56
+90+13
-64
-M
-62
-30
-40
-19
-61
-49
+13
-62
+ 9
+90+30
-41
-60
-60
-60
+ 3
1-54
12]
594
OCCULTATIONS, 1912.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
SEPTEMBER.
Limie-
Tbs Stae's
At Conjunction in R. A.
ingPar-
aUels.
Name.
Mag.
Red'ns from
I9i3.a
Apparent
Declina-
tion.
Washington
Hour
Angle,
H
Y
x*
f
N S
Aa
•
X^ • «J.
8
n
0 t
d h m
h m
1
• 0
54
Aurigae
5.8
+ 1.72
+ 6.2
+28 20.6
6 16 35.8
- 2 57-8
-K3.0838
0.5994
-0.0305
+49-12
28
Geminornm
5.5
1.72
5.8
29 3.7
x8 30.6
- I 7.9
-0.7049
0.5997
0.0370
+ 4-6c
47
Geminoram
56
1.58
53
27 0.2
6 423.1
+ 8 Z9.5
+0.8335
0.5997
0.0703
+90-^24
53
Geminorum
5-9
1.58
4.8
28 3.2
6 3.6
+ 9 55-8
-0.3404
0.5996
0.0758
+25 -39
134 B.
Geminoram
6.5
1.56
50
2651.0
629.1
+Z0 20.3
+0.8314
0.5995
0.0773
+90J+23
+24.-40
59
Geminorum
57
+ 1.54
+ 4-5
+27 48.6
9 151
-zz 0.8
-0-3563
0.5991
-0.0864
I
Geminoram
39
1-54
4 3
27 58.5
941-3
-zo 35 7
-05591
0.5989
0.0879
+13-53
*»
Geminorum
5.0
1-53
41
28 18. 1
11 1.3
- 9 Z9.Z
-Z.0052
0.5987
0.0922
-16-62
^
Geminorum
50
1.52
42
28 6.0
iz 12.0
-9 8.9
-0.8 Z99
0.5987
0.0928
- 3-62
V
Geminorum
4-3
1.49
4.1
27 5.6
1329.2- 657.4
-0.0350
0.598 z
OZ003
+42-24
e
Geminorum
5-5
+144
+ 4.2
+25 59-7
16334- 4 10
+0.7373
0.5973
-0.1x02
4^0+15
^
Geminorum
50
1.42
3.5
26 59.7
20 3 3r 0398
-0.6645
0.5961
O.X2X2
+ 7-61
a
Cancri
5-9
1.38
3.6
25 38.1
22 52.0,+ 2 1.9
+0.3365
0.5950
O.X30O
f65 - ft
4
Cancri
6.2
1-37
36
25 20.0
23 10.4!+ 2 19.5
+0.5969
0.5949
O.X309
♦«7+ 5
Cancri
5-9
1.34
2.9
25 46.6
7 2 27.9
+ 5 28.7
-0.2909
0.5933
O.X409
+28.-41
A
Cancri
5-9
-hi.29
+ 3.0
+24 18.1
618.8
+ 9 zo.z
+0.6095
0.59x6
-0.1524
^ssV 4
28
Cancri
6.1
1.27
2.7
2426.3
924.0
-zz 52.3
-O.OIZI
0.5899
o.x6x3
»-44-2v
v»
Cancri
57
1.26
2.6
24 22.7
zo 30.9
-Z048.Z
-O.Z340
0.5892
0.1644
+37 -35
tP
Cancri
6.4
1.25
2-5
2423.1
" 53
-zo Z5.Z
-0.2349
0.5890
0.Z660
f32-4i
^
Cancri
52
1. 12
1.4
22 24.1
8 z Z9.0
+ 324.5
-0.9033
0.5800
0.2030
- 6-66
79
Cancri
6.1
+1.12
+ 1.4
-l'22 21.3
Z42.6
+ 3472
-0.9358
0.5797
-0.2039
- 8 -6S
90 H.
1 Cancri
6.1
1. 10
+ 1.4
+21 38.8
NEW
3 1-3
MOON,
+ 5 2.8
-0.5060
0.5788
0.2070
fX7,-6o
1
^
Virginis
5.6
+0.74
- 8.0
- 8 30.9
\% zz 23.2
+ 946.4
+Z.2Z22
0.5313
-0.2792
I
+8x *z\
a
Virginia
1.2
+0.77
-8.9
-10 42.3
19 13 5
- 6 38.6
+Z.2766
0.5315
-0.2722
+79 ^31
A
Virginis
5.4
0.81
9.0
942.9
22 53.6
- 3 56
-0.7222
0.53x8
0.2684
+ 5-90
86
Virginis
5.6
0.84
9.8
II 59 3
18 458.3
+ 247.x
-0.0x24
0.5324
0.26x4
+40 -45
621 B.
Virginis
6.4
0.90
10.9
14 331
13 36.7
+ZZ 8.5
+0.4070
0.5337
0.250X
^1-23
40 H.
Virginis
51
0.92
11.3
15 53 4
16 34-5
- 9 59-5
+Z.O5O9
0.5343
0.2460
+74 *M
64 G.
Librae
5.8
+1.27
-X3.8
-22 4-7
14 22 33.0
- 5 1.4
+0.8839
0.5420
-o,X933
+68'+ 5
Z69 B.
Librae
6.0
1.41
14.1
2251.2
16 8 8.9
+ 4 14.8
-0.0545
0.5446
0.X730
+28-48
177 B.
Librae
6.2
1.42
14.1
22 52.0
850.5
+ 4 55.0
-O.Z606
0.5448
0.1715
+22 -54
4a
Librae
50
1-43
143
23 32.2
914.6
+ 5 z8.2
+0.4796
0.5449
0.Z706
+56-18
A
Scorpii
4.6
1.52
147
25 4.1
15 8.7
+ZZ 0.0
+Z.Z397
0.5466
0.1573
+65+26
31 B.
Scorpii
5-4
+1.53
-14.4
-24 16.5
15 170
+ ZZ 8.0
+0.2750
0.5466
-0.Z570
M3-29
3a B.
Scorpu
53
152
14.2
23 43 2
15 18.4
+ZZ 9.4
-0.3x87
0.5466
0.Z569
+X3-<>4
3
Scorpii
5-9
1.53
14.6
24 59-2
15 36.6
+ZZ 27.0
+0.9806
0.5467
0.X563
+65*13
40 B.
Scorpii
5.4
1.56
145
24 34-9
Z7 21. z
-Z052.I
+0.28x5
0.5471
0.1523
+43-29
48 B.
Scorpu
4-9
1.60
14.8
25 37-5
Z9 26.5
- 85I.X
+X.0790
05476
0.1473
+64+21
50 B.
Scorpii
6.4
+X.60
-14.4
-24 29.3
19 42.5
- 8 35.8
-0.1708
0.5476
-0.X468
* 19-54
24 G.
65 B.
Scorpii
Scorpii
6.2
5-5
1.62
1.64
14.2
14.8
24 13-9
26 5.7
2X 27.3
21 32.1
- 6 54.6
- 650.0
-0.698 X
+X.2788
0.5482
0.548X
0.Z427
0.1425
- 8-90
+64+45
41 G.
Scorpii
6.3
1.66
14. 1
24 12.1
16 0 2.9
- 4 245
-1.0928
0.5487
0.1365
-34-9"
85 B.
Scorpii
6.0
1.68
14.4
25 15.5
031.7
- 3 56.7
-0.0295
0.5488
0.1353
+25-46
a
Scorpii
31
+1-73
-14.4
-25 23.2
3174
- z Z6.9
-0.2569
0.5494
-0.Z286
+X3'-6o
a
Scorpii
1.2
1.80
14.5
26 14.5
652.4
+ 2 Z0.6
+0.2x39
0.550X
0.ZX98
+36 -3a
22
Scorpu
4.8
1.79
14.0
24 55.6
714.7
+ 232.1
-X.24X4
0.5502
0.XX89
-50-90
Z16 B.
Scorpu
6.2
1.81
14-5
2621.0
7441
+ 3 0.5
+0.2290
0.5503
0.XX76
♦^37 -V-
134 B.
Scorpu
6.4
1.92
14.4
27 17.7
Z3 20.8
+ 8 25.2+0.6247
0.55x2
0.1035
f5S^- 9
118 B.
Ophiuchi
6.2
+2.09
-13-4
-26 23.9
23 10.7
- 6 5.9-12387
0.5524
-0.0782
^54 -90
95 G.
Ophiuchi
6.1
2.14
13.6
27 39 5
I'y 1333
- 4 48.3-0 0549
0.5526
0.0720
+xb 48
43
Ophiuchi
5-4
2.23
133
28 37
6 17.2
+ 0 45.3'+o.o72i
0.5527
0.0596
+23 -40
163 G.
Ophiuchi
6.3
2.37
12.2
27 50 7
14 55-8
+ 9 5.5-0.5797
0.5526
0.0366
-12-86
X
Sagittaru \yar^
4-4
2.41
12.0
2748.1
x6 46.8
+ZO 52.5
-0.6918
0.5525
0.03x7
-i9|-90
10 G.
Sagittarii
5-7
•t-2.48
-11.6
-28 3.3
2044.5
-9183
-0.52XX
0.5521
ho.02xa
-zz-8x
[Eph xa]
OCOULTATIONS, 1912.
595
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
SEPTEMBER.
Limit-
Tbs Stae's
At Cohjumction im R. A.
ing Par-
allels.
Name.
Mag.
Red'ns from
Apparent
Declina>
tion.
Washington
Mean Time.
Hour
Angle,
Y
*'
y
N.
S.
Aa
Ad
v^a
8
H
0 f
d h m
h m
e
0
310
B. Scorpii
5.8
+2.51
-II.7
-28 45.2
IT 2Z 34.8
- 8 29.8
+0.2249
0.5520
-0.0x90
+28
-32
IV
Sagittarii {var.)
4.3
2.57
ZI.6
29 35-3
18 020.0
- 5 50.3
+Z.096Z
0.55x6
o.oxt6
+60+26
38
B. Sagittarii
4-7
2.57
II.X
28 28.2
Z 4Z.2
- 4 32.Z
-O.Z394
0.5514
0.008 X
+ 7
-53
C.D.-28<» 14268
6.4
2.61
II.O
28 55.4
322.4
- 2 54.4
+0.3472
0.551X
-0.0036
+33
-25
48
G. Sagittarii
6.3
2.64
Z0.6
28 19.2
544.9
- 037-1
-0.3153
0.5507
+0.0026
- 2
-64
63
B. Sagittarii
6.0
+2.64
-10.6
-2841.Z
5451
- 0 36.9
+0.0846
0.5507
+0.0027
+19
-40
58
G. Sagittarii
6.1
2.67
10.2
28 28.4
746.0
+ z Z9.8
-0.Z368
0.5503
0.0080
+ 8
-53
r
Sagittarii
3-5
2.96
7.0
2748.1
1» 3 39 4
- 3 28.6
-0.2070
0.5444
0.0589
+ 9
-57
183
B. Sagittarii
6.2
2.99
71
28 46.5
353.6
- 3 14 9
+0.8805
0.5443
0.0595
+6z
+ 8
234
B. Sagittarii
59
3.08
5-4
28 2.3
II 33.7
+ 4 9.4
+0.5967
0.54x3
0.0782
+55
-zz
248
B. Sagittarii
57
+309
-4.8
-27 lO.O
14 0.9
+ 6 3Z.6
-0.Z662
0.5402
+0.084X
+13
-54
a
Sagittarii
4.8
3.23
23
26 32.1
20 Z58.Z
- 5 55-2
+0.3043
0.5347
0.IXX5
+4Z
-27
A
Sagittarii
49
323
- 2.d
2626.1
325.8
- 4 30.3
+0.3598
0.5339
0.XX48
+44
-24
40
B. Capricomi
6.2
336
+ 1.3
25 145
19 32.3
+XZ 4.7
+z.z6z8
0.5257
0.1484
+€5
+28
56
B. Capricomi
6.3
3.38
2.7
24 5.7
23 4-6
- 929.7
+0.4278
0.5238
0.1552
+52
-2X
X
Capricomi
5.3
+3.39
+ 5.6
-21 32.8
ai 13 7.3
+ 4 6.7
-0.0388
0.5x64
+0.X804
^■30-47
27
Capricomi
6.1
3.38
5.8
20 54.5
13 37.2
+ 4 35.6
-0.6554
0.5x62
o.x8i2
- z-90
^
Capricomi
5.3
3.40
6.4
21 0.9
z6 40.8
+ 7 33.6
+0.0255
0.5x46
0.X863
^■34
-43
33
Capricomi
5.3
3.43
7.0
21 13.5
20 59.8
+ZZ 44.8
+Z.0756
0.5125
O.X932
+69
+z8
128
B. Capricomi
6.5
340
8.0
19 31.8
23 59.4
- 92Z.O
-0.2 Z69
0.51x0
O.X978
+24
-57
37
Capricomi
5-7
+3.44
+ 8.3
-20 28.5
%% 228.4
- 656.4
+1.3257
0.5098
40.20x5
+70
+44
e
Capricomi
4.7
3.43
8.6
19 51.5
337.5
- 5 49.3
+0.8757
0.5093
0.2032
+70
+ 4
K
Capricomi
4.8
3-44
9.2
19 15.9
630.3
- 3 1.6
+0.8098
0.5080
0.2072
+71
0
152
B. Capricomi
6.5
3.40
10.3
17 15.2
zo 27.8
+ 048.9
-0.5865
0.5062
0.2x27
+ 7
-83
29
Aquarii {m^an)
6.5
3.43
".3
17 23.1
z6 52.5
+ 7 2.4
-fo.9509
0.5035
0.2210
+73
+ 8
39
Aquarii
6.2
+3.38
+12.6
-14 37.4
22 ZZ.5
-II 47.8
-0.9093
0.50x5
+0.2274
- 9
-90
45
Aquarii
6.1
3.38
13.4
13 44 5
128 z 42.5
- 8 22.8
-1.076 1
05001
0.23x3
-19
-90
50
Aquarii
5.9
340
13.8
13 58.3
437.3
- 5 33 0
-0.1435
0.4992
0.2344
+32
-52
182
B. Aquarii
6.2
3.40
143
13 21.7
737.2
- 2 38.2
-0.X082
0.4982
0.2376
+34
-50
70
Aquarii
6.1
3.37
16.0
ZI Z.O
17 40- 1
+ 7 7-8
-0.2575
0.4954
0.2468
+28
-59
>i
Aquarii
5-4
+3-34
+17.6
- 8 9.8
S4 248.2
- 7 59 3
-X.X026
0.4935
+0.2540
-18
-90
X
Aquarii
5.3
335
18.3
812.Z
9 15 I
- I 43 I
+0.5901
0.4925
0.258X
+77
-14
317
B. Aquarii
6.3
3.31
18.7
623.0
zz 22.8
+ 02Z.Z
-0.85x6
0.4922
0.2594
- z
-90
337
B. Aquarii
6.4
3.32
19. 2
5 04
z6 Z5.9
+ 5 6-2
-X.0842
0.49x8
0.2619
-15
-90
342
B. Aquarii
6.5
3.31
194
433.8
Z7 22.Z
+ 6 Z0.6
-X.2800
0.49x8
0.2625
-31
-90
20
Piscium
5.6
+3.30
+20.4
- 3 147
%S 2 28. z
- 8 58.4
-0.3XXX
0.4916
+0.2662
+28
-4fZ
24
Piscium
6.1
330
20.6
338.3
513.7
- 6 17-3
+0.8533
0.4918
0.2669
+86
Q
80
B. Piscium
6.3
3.28
21.3
- 0591
zz 56.6
+ 0 Z4.6
-0.2378
0.4923
0.2684
+32
-57
98
B. Piscium
6.3
326
21.8
+ z 12.3
18 57.4
+ 7 3.8
-0.7321
0.4934
0.2693
+ 7
-^9
44
Piscium
6.0
3.25
22.1
127.5
23 8.3
+ZZ 7.8
+0.X203
0.4942
0.2694
+51
-3»
147
B. Piscium
5-9
+3.26
+21.9
+ 450.Z
26 zz 35.7
- 045.7
-0.Z842
0.4975
+0.2677
+35
-54
171
B. Piscium
6.3
3.22
22.8
6 0.9
17 47.0
+ 5Z5.Z
+0.1940
0.4998
0.2659
+55
-34
e
Piscium
4-4
3-21
22.8
725.4
Z9 26.8
+ 652.x
-0.8802
0.5005
0.2653
- 2
-83
^0
Piscium
5.6
3.22
23.0
7 7.0
27 z Z0.0
-II 34-5
+0.9590
0.5029
0.2626
+90
+ 8
TT
Piscium
5.6
3.19
22.7
ZX41.9
13 20.4
+ 0 Z4.6
^7983
0.5091
0.2552
+ 3
-78
12
H} Arietis
6.3
+3.18
•»>22.4
+13 3.5
28 2 Z4.8
-II 14.3
+0.9726
0.5170
+0.2439
+90
+12
19
Arietis
5.8
3.18
22.0
14 52.4
724.6
- 6 Z4.Z
+0.2856
0.5206
0.2383
+6x
-25
27
Arietis
6.4
3.18
21.2
17 19.3
z6 3.5+ 2 8.4
-0.2955
0.5269
0.2276
+29
-53
36
Arietis
6.5
317
20.9
17 23.9
22 25.7 + 8 Z8.3
+1.0444
0.5319
0.2186
+90
+2Z
40
Arietis
6.0
3.16
20.7
17 55.4
29 024.0
+ ZO Z2.8
+0.9167
0.5334
0.2x57
f9o
+ 13
47
Arietis
5-8
+3.18
+19.9
+20 19.3
4 47-9
- 9 32.0
-0.6825
0.5370
+0.2086
+ 8
-69
e
Arietis {mean)
4.6
3.18
197
20 59.7
519-2
- 9 1.7
-1.2827 0.5374
0.2078
-38
-69
c
* • •
Artetis
5.0
3.15
19.2
20 43.5
Z2 28.2 - 2 7.3
+0.4444
0.5434
0.1953
f72
-ZI
r
Arietis
5.1
3.14
19.0
20 50. Z
Z5Z8.Z+ 036.8
+0.8547
0.5458
0.1900
f90
+Z2
66
Arietis
6.x
3.15
18.2
22 30.4
z8 29.0
+ 3411
-0.2875
0.5485
O.X838
+29
-46
16
Tauri
5-4
+3.14
+17.2+24 i.i|
30 z 36.5
+ZO 33.5
-0.6x31
0.5544
+O.Z690
+Z2
-63
[Eph
I X2]
596
0CCULTATI0N8, 1912.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
SEPTEMBER.
Ths Star's
Name.
17
18
20
21
Tauri
Tauri
Tauri
Tauri
Tauri
22 Tauri
23 Tauri
Ti Tauri
Z04 B. Tauri
27 Tauri
28
36
X
Tauri
Tauri
Tauri
Tauri
Mag.
3.8
5-6
4-3
4.1
5-8
6.5
4.3
3.0
5.5
3.7
5.2
5.6
5.6
5.3
Red'ns from
X9ia.a
Aa
8
+3.14
3
3
3
3
+3
3
3
3
3
+3
3
3
+3
15
14
14
14
M
13
13
12
13
13
10
12
Aa
+17.2
17.0
17. 1
17. 1
17.0
+17. 1
17.2
17.1
17.2
17.0
+17.0
16.3
15.3
Apparent
Declioa
tion.
+23 505
24341
24 1 1.8
24 5.9
24 17.1
+24 15.5
23 40.8
23 503
23 94
23 47-4
+23 52.4
23 52.1
26 15.4
091+14.9+2525.6
At CoNjUMcnow m R. A.
Washinf^on
Mean Time.
d
80
h m
138.6
1453
Z46.8
2 3.
2 4
2 8.
216.3
246.Z
3 8.9
329.4
330.0
957.3
Z2 38.1
17 31-4
m
35.
41.9
43.4
ol+io 59.0
0.8
Hour
Angle,
H
h
+10
+10
+10
5-0
9+11
6|+ix
+n
+11
-II
-II
-11
- 5
- 2
+ I
4.4
11.8
40.6
57.5
377
37.1
23.9
49.0
53-3
.4233
-1. 1645
•77"
.6227
.8129
•7751
-0.1474
-0.2307
+0.5461
-0.0601
-0.1459
+0.8744
-1. 2219
+0.3147
0.5545
0.5546
0.5546
0.5548
0.5548
5549i+o
o.
0.55501
0-5555
0.5557
0.5560
0.5561
0.5613
0.5635
0.5673
+0.1689
0.1687
0.1686
a 1680
0.Z679
1678
0.1675
0.1664
0.1656
0.1648
+0.1647
0.1500
0.1434
+0.13x2
Limii.
in«Pr
alleu
N. S
+21-52
-28-^^
+ 2-6c
+io-^3
- i-tt
+ 1-66
♦'36-r
+32 -41
t8i- J
f4i-32
+36-3:
+90-^15
-36-64
464 -xo
OCTOBER,
17 B.
Aurigae
6.0
+3.05
+12.4
+27 45.3
1 544.2
-10 22.0
-0.6965
0.5762
40.0982
+ 5-6S
38 B.
Aurigae
6.5
3.01
11.8
27 34-6
zo 26.9
- 5 50.4
-0.081 1
0.5792
0.0847
+40-26
47 B.
Aurigae
6,0
3.00
11.4
27 55-4
12 27.6
- 3 54 5
-0,2744
0.5805
0.0788
+29-35
354 B.
Tauri
6.4
+2.96
+10.7
+27 52.3
16 52.2
+ 019.7
+0.0974
0.5829
40.0656
+50-15
22
Aurigae
6.4
2.97
10.2
28 51.4
17 47.1
+ I 12.3
-0.8591
0.5834
0.0628
- 6-61
P
Tauri
1.8
2.96
lO.O
28 32.2
18 55 4
+ 2 17.9
-0.4597
0.5839
0.0593
fz8-44
107 B.
Aurigae
6.5
2.90
9.8
27 36.5
22 40.6
+ 5 54.0
+0.6974
0.5857
0.0477
490 ^i3
116 B.
Aurigae
5.9
2.92
91
29 10. 1
23 57.2
+ 7 7-5
-0.8489
0.5863
0.0437
- 6-61
406 B.
Tauri
5.6
+2.85
+ 8.8
+27 56.7
a 427.7
+11 27.1
+0.5736
0.5881
+0.0295
486+13
136
Tauri
4.6
2.84
8.7
27 35.7
522.3
-II 40.4
+0.9585
0.5884
0.0266
+90*36
154 B.
Aurigae
6.4
2.85
8.1
28 55-9
6353
-10 30.4
-0.3837
0.5888
ao227
♦23-37
415 B.
Tauri
6.1
2.80
8.3
27 34-3
8 18.7
- 851.2
+1.0463
0.5892
0.0172
490+42
183 B.
Aurigae
6.3
2.83
7.2
2931.3
10 195
- 6 55.4
-0.9264
0.5899
+0.0107
-zi -60
K
Aurigae
4-4
+2.79
+ 6.4
+29 32.0
13 45.5
- 3 37-8
-0.9188
0.5906
h-0.0004
-iz 60
211 B.
Aurigae
6.3
2.77
6.2
29 35.0
15 57-9
- I 30.9
-0.9781
0.5910
0.0076
-15-00
49
Aurigae
5.1
2.67
5.8
28 5.6
21 18.3
+ 3 36.3
+0.4578
0.5916
0.0250
♦75+ 7
53
Aurigae
5-6
2.68
5-2
29 3.7
22298
+ 444.9
-0.5631
0.5917
0.0289
412 -49
54
Aurigae
5.8
2.65
5.4
28 20.6
22 57.1
+ 5 II. I
+0.1570
0.5918
ao304
454- 8
28
Geminoruxn
5.5
+2.65
+ 4.8
+29 3.7
3 0 54.8
+ 7 3.8
-0.6421
0.5918
-0.0368
4 8-55
47
Geminorum
5.6
2.4S
3.8
27 0.2
" 3-3
- 7 12.8
+0.9137
0.5908
0.0696
490+29
53
Gemiuorum
5.9
2.48
3.1
28 3.1
12 46.6
- 5 33-7
-0.2770
0.5905
0.0751
429.-35
134 B.
Geminorum
6.5
2.45
34
26 51.0
13 12.8
-5 8.5
+0.91 10
0.5904
ao764
490+28
59
Geminorum
5-7
2-43
2.7
27 48.6
16 3-7
- 2 24.7
-0.2941
0.5898
0.0854
♦28-37
416^-49
t
Geminorum
3-9
+2.42
+ 2.4
+27 58.5
16 30.7
- 158.8
-0.5001
0.5896
-0.0869
b^
Geminorum
5.0
2.41
2.1
28 18. 1
17 531
- 0 39.8
-0.9531
0.5892
0.0912
-13-62
^
Geminorum
5.0
2.41
2.2
28 5.9
18 4.1
- 029.2
-0.7652 0.5892
0.0918
o-6a
V
Geminorum
4.3
2.36
2.1
27 5.6
20 25.6
+ 146.6
+0.0302
0.5886
0.0991
446-21
c
Geminorum
5.5
2.29
2.0
25 59-7
23 35 4
+ 448.6
+0.8134
0.5875
0.Z087
♦90+19
^
Geminorum
50
+2.26
+ I.O
+26 59.7
4 3 12.0
+ 8 16.4
-0.61 12
0.5860
-0.Z196
410-58
Q
Cancri
5-9
2.20
I.I
2538.1
6 6.1
+11 3-6
+0.4037
0.5848
a 1 282
470- 5
4
Cancri
6.2
2.19
I.I
25 20.0
625.0
+IZ 21.7
40.6681
0.5846
ai29Z
♦90+ 9
^
Cancri
5-9
2.15
0.2
25 46.5
949.0
- 922.6
-0.2345
0.5831
0.1390
♦3ir-38
X
Cancri
5-9
2.07
+ 0.3
24 18.0
13 47 5
- 5 33-4
+0.6781
0.581 1
az5oz
♦90+ 7
28
Cancri
6.1
+2.04
- 0.3
+24 26.2
16 59.0
- 229.5
+0.0465
0.5794
-0.Z5S9
♦47-26
v>
Caoicri
5-7
2.02
0.4
24 22.7
18 8.1
- I 23.1
-0.0788
0.5788
0.1619
440I-32
♦34-38
v^
Cancri
6.4
2.01
0.5
2423.1
18 43.7
- 048.9
-0.1815
0.5784
0.1635
^
Cancri
5-2
1.80
2.0
2224.1
5 9 26.4
-1040.3
-0.8672
0.5696
O.Z999
-4-68
79
Cancri
6.1
1.79
2.0
2221.2
950.8
-10 16.9
-0.9005
05693
a20o8
- 6{-68
♦191-57
90 H.
' Cancri
6.1
+1.76
- 2.0
+21 3S.7
II 12.2
- 8 58.6
-0.4645
0.5685
-0.2038
k
[Eph 13]
OCCULTATIONS, 1912.
597
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
OCTOBER.
Umit-
Ths Stab's
At Conjumctxoii m R. A.
ing Par-
allels.
Nameu
Mag.
Red'na from
X9i2.a
Apparent
Declina-
tion.
Washington
Mean Time.
Hour
Angle,
Y
*'
/
N.
s
Aa
Ad
«#•
8
n
e t
d h m
h m
e
0
57 B.
Leonis
6.5
+1.58
- 30
+19 16.I
6 0 9.1
+ 329.5
-0.8975
0.5602
-0.2304
- 5
■iri
X07 B.
Leonis
6.3
1-44
3-2
16 II. I
916.6
-II 42.8
-K>.OIOO
0.5546
0.2462
+45
-37
n
Leonis
3.6
1-45
3.6
1711.5
958.8
-II 2.2
-I.1693
0.5542
0.2473
-23
-73
37
Leonis
5.5
1.36
33
14 10.0
14 50
-7 4.7
-10.8265
0.5517
0.2535
+90
+ 4
-42
Leonis
6.1
1.36
3-9
1525.1
16 20.6
- 4 53.8
-I.OOII
0.5504
0.2567
-10
-75
46
Leonis
5.8
+1.31
- 41
+14 35-3
20 56.0
- 028.1
-X.3642
0.5479
-0.2628
-44
-75
/
Leonis
5.3
1.21
42
II 0.6
I' 4 35 7
+ 6 55.7
-K).l625
0.5439
0.2716
+53
-33
X
Leonis
4.7
1. 10
4-3
748.7
II 46.7
-10 «.o
■H.3832
0.5408
a2784
+90
+45
308 B.
Leonis
5.8
I.IO
4-9
832.5
15 53.3
- 6 9.7
-0.4972
0.5391
0.2815
+19
-71
a
Leonis
41
1.06
4.8
-H 630.6
NEW
19 10.5
MOON,
- 2 59.0
-K>.6o45
0.5379
0.2837
+82
-13
47 G-
Librae
6.1
■K>.99
-12.2
-21 41.6
\% 347.6
-h 2 10.4
+1.3324
0.5467
-0.2045
+68
+48
64 G.
Librae
5-8
Z.02
123
22 4.7
812.2
+ 6 25.8
+0.8537
0.5481
0.1956
f68
+ 3
Z69 B.
Librae
6.0
1.12
12.7
22 51.2
1737.1
- 829.0
-0.0787
0.5512
0.1752
+27
-49
X77 B.
Librae
6.2
+1.13
-12.7
-22 52.0
18 18.0
- 7 49.6
-0.184 1
0.5514
-0.1736
+21
-55
42
Librs
5.0
1.14
12.8
23 32.2
18 41.6
- 726.8
+0.4513
0.5516
0.1728
^■54
-20
A
Scorpii
4.6
1.20
13.2
25 41
18 028.6
- I 52.0
-(-1. 1060
0.5534
0.1593
+65
+23
31 B.
Scorpii
5-4
1.20
130
24 16.5
036.7
- 144.3
-i'0.248i
0.5534
0.1590
+42
-31
32 B.
Scorpii
5-3
1.20
12.9
23 43-2
038.1
- I 42.9
-0.3409
0.5534
0.1590
+12
-65
3
Scorpii
5-9
+X.21
-13-2
-24 59.2
0559
- I 25.7
-K>.948i
0.5535
-0.1582
+65
+ IO
40 B.
Scorpii
5.4
1.23
13.0
24 34 9
238.3
-h 013.0
+0.2545
0.5539
0.1542
+41
-30
48 B.
Scorpii
49
1.26
133
25 37-5
441.1
+ 2 II. 5
+1.0456
0.5544
0.1492
+64
+18
50 B.
Scorpii
64
1.26
13.0
24 29.3
456.8
•H 2 26.6
-0.194 1
0.5545
0.1486
+18
-56
24 G.
Scorpii
6.2
1.28
12.9
24 13.8
6395
+ 4 5.6
-0.7171
0.5549
0.1444
- 9
-90
65 B.
Scorpii
55
+1.29
-13.3
-26 5.7
644.2
+ 4 lO.I
-H.2436
0.5549
-0.1442
+64
+39
41 G.
Scorpii
6.3
1.32
12.8
24 12. 1
911.8
+ 6 32.4
-1. 1085
0.5556
0.1381
-35
-90
85 B.
Scorpii
6.0
132
131
25 15.5
940.1
+ 659.7
-0.0540
0.5557
0.1370
f24
-48
a
Scorpii
3.1
1.36
13.1
25 23.2
12 22.4
+ 936.1-0.2795
0.5562
0.1302
+12
-61
a
Scorpii
1.2
1.42
13.2
26 14.5
15 52.9
-II 0.9 -K). 1877
0.5569
0.1213
+35
-34
22
Scorpii
4.8
-fi.42
-12.8
-24 55-5
16 14.8
-10 39.8
-1-2555
0.5570
-0.1202
-52
-90
116 B.
Scorpii
6.2
1.43
132
2621.0
16 43.6
-10 i2.I-i-O.2026
1
0.5571
0.1191
+35
-33
134 B.
Scorpii
64
1.52
132
27 17 7
22 13.4
- 4 54 2 +0.5955
0.5579
0.1047
+57
-II
118 B.
Ophmchi
6.2
1.65
12.5
26 23.9
14 751.4
•H 422.7j-I.25i8
0.5588
0.0790
-56
-90
95 G.
Ophiachi
6.1
1.70
12.7
27 39.5
10 11.2
+ 6 37.5 -0.0775
0.5588
0.0727
♦-16
-49
43
Ophiachi
5-4
+1.78
-12.5
-28 37
14 49-7
-fii 5.8 -(0.0490
0.5588
-0.0601
f22
-42
163 G.
Ophiachi
6.3
1.91
11.7
27 507
23 18.8
- 4 43 7
-0.5968
0.5581
0.0369
-13
-88
X
Sagittarii {var.)
4-4
1.94
11.5
27 48.1
16 I 7.9
- 2 58.6
-0.7079
0.5578
0.0319
-20
-90
10 G.
Sagittarii
5-7
2.01
Z1.2
28 3.3
5 1-5
-•• 046.5
-0.5380
0.5572
0.02x2
-12
-82
210 B.
Scorpii
5.8
2.03
U.4
28 45 2
5509
+ I 34.2
-K).2025
0.5570
0.0190
+26
-33
W
Sagittarii {var.)
4-3
+2.09
-11.4
-29 35-3
833.4
+ 4 10.8
•H.0678
0.5564
-0.01 16
+60
+23
38 B.
Sagittarii
4-7
2.09
10.9
28 28.2
9 53-4
+ 5 27.9
-0.1586
0.5562
0.0080
+ 6
-54
C.D.-28* 14268
6.4
2.12
10.8
28 55-4
II 33.0
+ 7 3.9
+0.3249
0.5557
-0.0035
+32
-26
48 G.
Sagittarii
6.3
2.x6
10.5
28 19.2
13533
+ 9 19.1
-0.3327
0.5551
-K>.0028
- 3
-66
62 B.
Sagittarii
6.0
2.16
10.4
28 41. 1
13535
+ 9 19-3
-K).o644
0.5551
0.0028
+17
-41
58 G.
Sagittarii
6.Z
-1-2. 19
-10.2
-28 28.4
15 52.6
-i-iz 14.1
-0.1551
0.5545
-10.0082
+ 7
-54
r
Sagittarii
3.5
2.48
7.6
2748.1
16 II 31.0
-»- 6 10.8
-0.2218
0.5470
0.0594
+ 8
-58
183 B.
Sagittarii
6.2
2.51
7-7
28 46.5
II 45.1
+ 624.4
-I-0.8598
0.5469
0.0600
+«i
+ 6
234 B.
Sagittarii
5.9
2.60
6.3
28 2.3
19 20.8
-10 15.7
+0.5791
0.5433
0.0787
+54
-12
248 B.
Sagittarii
5.7
2.62
5.6
27 10. 1
21 46.9
- 7 54-6
-0.1795
0.5419
0.0845
+13
-55
0
Sagittarii
4.8
+2.78
- 3 5
-2632.1
1'' 939.3
+ 3 33.7
-10.2913
0.5354
-K>.IIl8
+40
-28
A
Sagittarii
4-9
2.78
32
2626.1
II 6.5
+ 4 58.0
■K3.3467
0.5346
0.II5I
+43
-25
40 B.
Capricomi
6.2
2.95
- 0.3
25 14.5
18 3 9.8
- 3 30.1
-H.1500
0.5251
0.1484
+65
+27
56 B.
Capricomi
6.3
2.99
-♦• X.I
24 5.7
641.8
- 0 4.8
+0.4186
0.5230
O.I55I
+51
-22
X
Capricomi
5.3
3.04
3.9
21 32.8
20 44.6
-10 28.3
-0.0445
0.5150
0.I80Z
+30
-47
27
Capricomi
6.Z
+3.04
+ 41
-20 54.5
2X 14.6
- 9 59.2
-0.6600
0.5146
-10. 1809
- z
-90
[Eph xa]
598
OCCULTATIONS, 1912.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
OCTOBER.
1
1
LUDXt-
Th« Star's
At Conjunction in R. A.
in^ Par-
allels,
Name.
Mag.
Red'ns from
29x2.0.
.Apparent
Declina-
Washington
Mean Time.
Hour
Angle,
H
Y
x^
y
N
s
Aa
A«
tion.
X^ •
^.
s
n
e t
d h m
h m
•
•
9
Capricomi
53
+306
+ 47
-21 X.O
19 018.3
- 7 1.2
•fo.0202
0.5x31
+0.1859
+34
'-43
33
Capricomi
53
3.I1
5-2
21 135
4 37-8
- 2 49.4
4-1.0696
0.5107
0.1927
+69-1-1S
128 B.
Capricomi
6.5
3.10
6.3
19 3r.8
737.8
+ 0 5.2
-0,2207
0.5093
0.1972
+23 -57
37
Capricomi
57
314
6.4
20 28.5
10 7.1
+ 2 30.0
+1.3204
0.5080
0.2009
+70*43
e
Capricomi
47
3.14
6.8
19 51.5
IX 16.4
+ 3 373
+0.8712
0.5074
0.2025
+70 5
K
Capricomi
4.8
+3.15
+ 7.4
-19 15-9
14 97
+ 6 25.4
+0.8058
0.5060
+0.2066
+71- I
152 B.
Capricomi
6.5
313
8.6
17 15.2
18 7.8
+10 16.6
-0.5886
0.5042
0.2119
+ 7-63
29
Aquarii {mean)
6.5
3.18
96
17 23.2
*0 0 337
- 7 28.7
+0.9482
0.5015
0.2202
+73* 5
39
Aquarii
6.2
3.16
11.2
14 37.5
5 537
- 2 17.8
-0.9099
0.4994
0.2265
- 9-90
45
Aquarii
6.1
317
Z2.0
13 44-6
925.4
+ X 7.8
-1.0763
0.4980
0.2304
-19-90
50
Aquarii
59
+3-20
+ 12.3
-13 58.3
12 20.8
+ 3 58.2
-0.1443
0.4972
+0.2335
+32-52
182 6.
Aquarii
6.2
3.21
12.9
13 21.8
1521.3
+ 6 53.6
-0.1089
0.4963
0.2367
+34-50
70
Aquarii
6.1
323
14.8
II i.o
21 1 25.8
- 7 18.8
-0.2575
0.4937
0.2460
+28-59
h
Aquarii
5.4
323
16.7
8 99
10 35.1
+ 135.3
-I.IOII
0.4920
0.2532
-18-^
X
Aquarii
5.3
327
17.4
812.1
17 2.4
+ 752.0
+0.5891
0.4914
0.2575
+77J-14
317 B.
Aquarii
63
+324
fiS.o
- 623.0
19 10. 1
+ 9 56.1
-0.8502
0.49x2
-K).2588
- 1,-90
337 B.
Aquarii
6.4
326
18.7
5 0.4
22 0 3.2
- 9 18.8
-1.0823
0.4910
0.2614
-15-90
342 B.
Aquarii
6.5
3.26
18.9
433.8
I 9.4
- 8 14.4
-1.2777
0.4910
0.2620
-30-90
20
Piscium
5.6
329
20.2
3147
10 14.7
+ 0 35.9
-0.3113
0.4914
0.2659
+28-62
24
Piscium
6.1
3-31
20.3
338.3
13 0.0
+ 3 i6.6
+0.8496
0.4917
0.2668
f86 0
80 B.
Piscium
6-3
+3-31
+21.3
- 0 59-I
19 41.6
+ 947.2
-0.2391
0.4926
+0.2685
+32-58
98 B.
Piscium
6.3
3.33
22.2
+ I 12.3
23 2 40.4
- 725.5
-0.7325
0.4942
0.2696
+ 7 -^
44
Piscium
6.0
3-34
22.5
127.5
649.9
- 3 22.9
+0.X160
0.4953
0.2698
+51 -3S
147 B.
Piscium
5.9
342
22.7
450.1
19 1 1.6
+ 8 38.0
-0.1896
0.4997
0.2685
+35 -54
171 B.
Piscium
6.3
3.40
239
6 0.9
24 I 19.4
- 9 24.8
+0.1852
0.5023
0.2669
+55,-34
e
Piscium
4.4
-^3.40
+24.1
t 725.4
258.2
- 7 48.8
-0.8835
0.5031
+0.2663
-2U3
c
Piscium
5-6
3-44
24.2
7 70
837.4
- 2 19.5
+0.9438
0.5060
0.2640
+90- 7
TT
Piscium
5.6
3-47
24.6
H41.9
20 38.3
+ 920.1
-0.8062
0.5131
0.2568
+ 2-78
12 H.
• Arietis
6.3
3.53
243
13 36
26 9 20.8
- 220.7
+0.9484
0.52x9
0.2458
490
410
19
Arietis
5-8
357
24.1
14 52.5
14 25.4
+ 2 34.4
+0.2644
0.5258
0.2403
+59
-2()
27
Arietis
6.4
+3.61
+23.5
+17 19.3
22 55.2
+10 47.8
-0.3150
0.5326
+0.2297
f28
-54
36
Arietis
6.5
3.63
23.1
17239
26 5 10.4
- 7 9-5
+1.0124
0.5378
0.2207
+90+1S
40
Arietis
6.0
364
23.0
17 55.4
7 65
- 5 17-2
+0.8848
0.5395
0.2177
+9oVn
47
Arietis
5.8
3.70
22.4
20 19.4
II 25.4
- I 7.0
-07033
0.5432
0.2106
♦• 7
-70
t
Arietis {mean)
4.6
3.69
22.3
20 59.7
II 56.2
- 0 37.2
-1.2991
0.5437
0.2097
-4'
-^
c
Arietis
5.0
+371
+21.6
+2043.5
18 56.9
+ 6 8.9
+0.4120
0.5497
+0.1972
+70
-12
r
Arietis
51
372
21.3
20 50.2
21 43.6
+ 849.8
+0.8355
0.5522
0.1918
+90,411
66
Arietis
6.1
375
20.6
22 30.4
27 0 50.9
+11 50.3
-0.3164
0.5549
a 1856
427:-48
16
Tauri
54
378
19.6
24 I.I
7503
- 525.3
-0.6422
0.5609
0.X705
+ 9-^
17
Tauri
3.8
378
19.6
23 50.6
752.3
- 5 23.4
-0.4538
0.5609
0.1704
+20-54
18
Tauri
5.6
+380
+19.5
+24 34.2
759.0
- 5 170
-1. 1897
0.5610
+0.1702
-31-65
^
Tauri
43
379
195
24 11.8
8 0.5
- 5 15-5
-0.7992
0.5610
0.170X
0I-66
20
Tauri
4.1
379
19-5
24 5.9
816.3
- 5 0.3
-0.6520
0.56x3
ax695
+ 9-64
21
Tauri
58
379
195
24 17.2
8x8.2
- 4 58.4
-0.8409
0.56x3
0.1694
- 3H36
22
Tauri
6.5
379
195
24 15.6
821.8
- 4 550
-0.8032
0.5613
0.1693
0
-«
23
Tauri
4.3
+378
+19.5
+2>40.8
829.3
- 4 47-8
-0.1803
0.56x4
+0.1690
+34
-39
V
Tauri
3.0
378
19.4
23 503
858.6
- 4 19-5
-0.2631
0.5619
0.1679
♦30
-43
104 B.
Tauri
5-5
377
19-5
23 9-4
921.0
- 3 58.0
+0.5078
0.5622
0.1670
478
- 4
27
Tauri
37
378
193
23 47.4
941.1
- 3 38.6
-0.0940
0.5625
0.1663
+39
-34
28
T^uri
5-2
379
193
23 52.4
941.6
- 338.1
-0.1793
0.5625
0.1662
^^34
-39
36
Tauri
5-6
+379
+18.4
+23 52.2
16 2.0
4 228.1
+0.8316
0.5677
+0.1512
490
4l6
/
Tauri
56
3.84
17.5
26 15.4
18 39-9
+ 5 0.2
-1.2511
0.5699
0.1446
-40
-^
X
Tauri
53
3.82
16.8
25 25.6
2328.1
+ 9 37.4
+0.2734
0.5735
0.1322
♦^i
-12
17 B.
Aurigae
6.0
3-86
14.1
27 45 3
28 II 29.3
- 2 49.5
-0.7360
0.5819
0.0988
f 2
-62
38 B.
Aurigae
6-5
384
13.1
27 34.6
16 8.0
+ I 38.2l-0.1256
0.5845
0.0851
^37
-28
47 B.
Aurigae
6.0
+3.84
+ 12.7
+27 55.4
18 7.1
+ 332.5
-0.3186
0.5856
+0.079X
426
-38
[Eph 13]
OCCULTATIONS, 1912.
599
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
OCTOBER.
Limit-
Trs Star's
At Conjumctiom in R. A.
ing Par-
allels.
Name.
Mag.
Red'ns from
x9Z2.a
Apparent
Declina-
tion.
Washin^on
Mean Time.
Hour.
Angle,
Y
x'
y
N.
S.
Ac
s
Aa
^a^m
e t
d h m
h m
e
Q
354
B. Tauri
6.4
+382
+11.7
+27 52.3
38 22 28.4
+ 7 43.3
+0.0500
0.5877
+0.0657
+47
-17
22
Aurigae
6.4
385
"•3
28 5X.4
23 22.7
+ 8 35-3
-0.9030
0.5880
0.0629
- 9
-6z
P
Tauri
Z.8
383
II.O
28 32.2
%9 0 30.2
+ 940.1
-0.5056
0.5886
0.0594
+z6
-47
107
B. Aurigae
65
378
10.5
27 36 5
413.0
-zo 46.2
+0.6461
0.5900
0.0477
+90
+15
J 16
B. Aurigae
59
3.82
9.8
29 10. 1
528.9
- 9 33 4
-0.8954
0.5904
0.0437
- 9
-6z
406
B. Tauri
5.6
+376
+ 9.1
+27 56.7
956.9
- 5 16.4
+0.52Z3
0.5917
+0.0293
+8z
+ZO
136
Tauri
4.6
3-74
9.0
27 35 7
10 51.0
- 4245
+0.9048
0.5919
0.0264
+90
+32
154
B. Aurigae
6.4
377
8.3
28 55.9
X2 35
- 3 14 9
-0.4342
0.592Z
0.0225
+20
-40
415
B. Tauri
6.1
372
8.3
27 34-3
13 46.1
- I 365
+0.99Z9
0.5926
0.0Z69
+90
+38
183
B. Aurigae
6.3
3.76
7-3
2931.3
15 46.1
+ 0 Z8.5
-0.9771
0.5928
+0.0Z04
-15
-60
K
Aurigae
4-4
+3-73
+ 6.2
+29 32.0
19 10.9
+ 3 34 9
-0.97Z0
0.5932
-0.0007
-15
-60
211
B. AurigSB
6.3
371
59
29 350
21 22.7
+ 5412
-Z.0314
0.5933
0.0079
-20
-60
49
Aurigae
51
362
5.1
28 5.6
80 2 42.0
+1047.3
+0.4020
0.5932
0.0254
+71
+ 4
53
Aurigae
56
363
45
29 37
3 53-3
+11 55-6
-0.6191
0.5931
0.0293
+ 9
-53
54
Aurigae
5.8
3.61
4.6
28 20.6
420.5
-II 38.3
+0.Z009
0.5930
0.0308
+50
-zz
28
Geminomm
5-5
+361
+ 3.9
+29 3.7
6 18. 1
- 9 45.5
-0.6990
0.5929
-0.037 z
+ 4
-59
47
Geminorum
5.6
3-43
2.1
27 0.1
1627.2
- 0 Z.5
+0.8563
0.5905
0.0698
+90
+25
53
Geminomm
5-9
344
1.4
28 3.1
18 10.9
+ z 38.0
-0.3375
0.5900
0.0752
+25
-39
134
B. Geminorum
6.5
340
1.6
2651.0
18 37.2
f 2 3.2
+0.8533
0.5898
0.0766
+90
+25
59
Geminorum
5.7
3-39
0.7
27 48.5
21 28.8
+ 4 47 8
-0.3555
0.5888
0.0855
+24
-40
I
Geminorum
3-9
+3.38
+ 0.5
+27 58.4
21 56.0
+ 5 13.9
-0.5623
0.5886
-0.0869
+13
-53
^»
Geminorum
50
338
0.1
28 18.0
23 18.8
+ 6333
-Z.0171
0.5880
0.09Z2
-z8
-62
^
Geminorum
50
337
+ 0.1
28 5.9
23 29.9
+ 644.0
-0.8287
0.5879
0.09Z8
- 4
-^2
V
Geminorum
43
331
- 0.2
27 5-5
81 z 52.2
+ 9 0.4
-0.03 z 3
0.5869
0.0990
+43
-24
c
Geminorum
5-5
324
0.4
25 59.6
5 35
-zz 56.0
+0.7540
0.5855
0.Z086
+90
+z6
^
Geminomm
50
+3.22
- 1.6
+26 59.6
842.0
- 8 26.3
-0.677 z
0.5835
-O.ZZ93
f 6
-62
u
Camcri
59
314
17
25 38.0
II 37-8
- 5 37-5
+0.3423
0.58x9
0.Z277
+66
- 8
4
Cancri
6.2
313
17
25 199
II 57.0
- 5 190
+0.6080
0.5817
0.Z286
+88
+ 6
t
Cancri
59
3.09
2.9
25 46.5
15 23 3
- 2 0.9
-0.300Z
0.5797
0.1383
+28
-42
X
Cancri
59
2.99
3.0
24 z8.o
19 25.0
+ I 51.3
+0.6Z77
0.5772
0.X492
+89
+ 4
28
Cancri
6.1
+2.95
- 37
+24 26.2
22 39.2
+ 4 58.0
-O.OZ85
0.5750
-0.Z578
+43
-29
vJ
Cancri
5.7
+2.93
- 3.9
+24 22.6
23 49.4
+ 6 5-4
-0.1448, 0.5743
-0.Z608
+36
-36
NOVEMBER.
v^
Cancri
6.4
+2.92
- 40
+24 23.0
1 025.5
+ 640.2
-0.2484
05739-0.Z623
+31
-41
k
Cancri
52
2.66
6.Z
22 24.0
15 24.5
- 2 54-8
-0.9420
0.5633
0.1977
- 9
-68
79
Cancri
6.Z
2.66
6.Z
22 2X.2
15 49 4
- 2 30.8
-0.9758
0.5630
0.1986
-zz
-68
90 H.
^ Cancri
6.x
2.62
6.2
21 38.7
17 12.5
- z ZO.8
-0.5358
0.5620
0.20Z6
+x6
-^z
57 B.
Leonis
6.5
2.38
7.6
Z9 z6.o
% 6 27.6
+11 35-5
-0.9738
0.5527
0.2272
-zo
-71
Z07 B.
Leonis
6.3
+2.20
-7.8
+z6zx.c
15 49.5
- 322.4
-0.0549
0.5466
-0.2424
+41
-41
V
Leonis
3-6
2.20
8.3
17ZZ.4
z6 32.9
- 240.6
-Z.2486
0.546X
0.2435
-31
-73
37
Leonis
5-5
2.ZO
7.9
14 9-9
20 46.0
+ Z23.8
+0.7729
0.5436
0.2496
f90
+ z
42
Leonis
6.Z
2.09
8.6
15 25.0
23 5-4
+ 3 38.5
-1.0774
0.5421
0.2525
-16
-75
/
I.eonis
53
Z.88
8.7
zz 0.5
3 zz 42.0
- 8 Z0.5
+0.Z049
0.5354
0.2669
+50
-36
X
Leonis
4-7
+Z.74
- 8.6
+ 748.6
19 5.8
- z Z.3
+1.3451
0.5322
-0.2734
+90
+40
308 B.
Leonis
58
Z.72
93
832.4
23 Z9.8
+ 3 4.4
-0.5588
0.5306
0.2765
+z6
-75
a
Leonis
41
Z.65
8.9
630.6
4 2 42.9
+ 621.0
+0.5596
0.5294
0.2787
+79
-15
P
Virgin is
38
Z.52
9.4
215.5
16 50.7
- 3 58.3
+0.8886
0.5258
0.2845
+90
+ 2
27 B.
Virginis
6.5
Z.44
9.2
+ z z.o
20 55.2
- 0 Z.7
+0.9880
0.5252
0.2853
+90
+ 8
13
Virginis
59
+Z.36
-9.8
- 0 z8.o
5 6 24.8
+ 9 9 9
-0.3825
0.5245
-0.2856
-25
-^
n
Virginis
4.0
1-35
9.8
0Z0.8
7 z.o
+ 9 45 0
-0.6772
0.5244
0.2854
+ ZO
-89
319 B.
Virginis
6.3
Z.22
97
549.4
20 24.3
- z Z7.Z
+Z.27Z7
0.5251
0.28Z9
+84
+29
^
Virginis
56
+z.z6
- 9.9
- 831.0
NEW
6 631.4
MOON.
+ 8 30.7
+Z.2007
0.5267
-0.2764
+8z
+23
[Bph X2]
600
OCCULTATIONS, 1912.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
NOVEMBER.
,
Limit-
Ths Star's
At Comjumction in R. A.
ing Par-
allels.
Name.
Mag.
Red'ns from
19x2.0.
Apparent
Declina-
tion.
Washington
Mean Time.
Hour
Angle,
Y
x'
y
N. S
Aa
Ad
^ ^ • ^'v
8
n
0 f
d h m
h m
e < •
Xi8 B. Ophiuchi
6.2
+ 1.46
-II.4
-26 23.9
10 17 0.2
- 8 40.5
-1. 1638
0.5633
-0.0788
-46-90
95 G. Ophiuchi
6.1
1.50
II.5
27 39-4
19 18.5
- 627.2
+0.0086
0.5635
0.0725
+21 -44
43 Ophiuchi
5.4
1.55
II-3
28 3.7
23 53-9
- 2 2.0
+0.1385
0.5636
0.0598
+27-36
163 G. Ophiuchi
6.3
1.65
10.7
27 50.7
11 817.0
+ 6 2.5
-0.4981
0.5630
0.0364
- 8-7J>
X Sagittarii (z/ar.)
4-4
1.67
10.5
2748.1
10 4.9
+ 746.5
-0.6073
0.5628
0.0314
-14-90
10 G. Sagittarii
57
+ 1.72
-10.2
-28 3.3
13 557
+11 28.7
-0.4351
0.5621
-0.0207
- 6-73
210 B. Scorpii
5.8
1.74
10.4
28 45.2
14 44-5
-II 44-3
+0.3031
0.5620
0.0184
+32-27
W Sagittarii (var.)
4.3
1.78
10.3
29 35 3
17 25.1
- 9 9-5
+1.1668
0.5614
O.OIIO
+60-.34
38 B. Sagittarii
47
1.78
lO.O
28 28.2
18 44.1
- 7 53.4
-0-0535
0.5611
0.0074
+12-48
C. D. -28® 14268
6.4
I.81
9-9
28 55-4
20 22.4
- 6 18.8
+0.4291
0.5607
-0.0028
438-20
48 G. Sagittarii
6.3
41.84
-9.8
-28 19.2
22 41. 1
- 4 5.1
-0.2239
0.5601
+0.0035
+ 3-58
62 B. Sagittarii
6.0
1.84
9.6
28 41. 1
2241.3
- 4 5.0
+0.17 16
0.5601
0.0035
+23.-34
58 G. Sagittarii
6.1
1.86
94
28 28.4
12 0 39.0
- 2 11.6
-0.0456
0.5594
0.0090
^"-47
r Sagittarii
3.5
2.10
7-4
2748.1
20 4.2
- 728.2
-0.0984
0.5512
0.0604
+14-50
183 B. Sagittarii
6.2
2.12
7.4
28 46.5
20 18.1
- 7 14.8
+0.9792
0.55"
0.0610
+61 415
234 B. Sagittarii
5-9
+2.20
- 6.2
-28 2.3
18 349.4
+ 0 0.7
+0.7046
0.5469
40.0798
+61- 4
248 B. Sagittarii
57
2.22
57
27 XO.I
614.0
+ 220.3
-0.0497
0.5455
0.0856
+i9:-47
a Sagittarii
4.8
2.36
39
26 32.1
18 0.8
-10 16.9
40.4266
0.5381
O.I 128
+48 -20
A Sagittarii
4-9
2.37
37
26 26.1
19 27.4
- 8 53.2
+0.4828
0.5372
0.II6I
^■51,-17
40 B. Capricorni
6.2
2.53
- 1.2
25 14-5
14 II 25.7
+ 6 33.6
+1.2931
0.5265
0.1490
465-^47
56 B. Capricorni
6.3
+2.58
+ O.I
-24 5.8
14 57.0
+ 958.2
+0.5646
0.5242
+0,1557
460-13
X Capricorni
5.3
2.65
2.5
21 32.8
16 458.7
- 026.4
+0.1075
0.5150
0.1802
438,-38
27 Capricorni
6.Z
2.65
2.7
20 54.6
528.7
+ 0 2.7
-0.5075
0.5147
0.18 10
* 7r77
^ Capricorni
5.3
2.67
31
21 I.O
832.6
+ 3 I.O
+0.1733
0.5129
0.1859
H2-35
33 Capricorni
5.3
2.72
37
21 13 5
12 52.4
+ 7 13.0
+1.2236
0.5102
0.1925
469432
128 B. Capricorni
6.5
+2.71
+ 47
-19 31.8
15 52.8
+10 8.0
-0.0660
0.5085
+0.1970
♦31-48
^ Capricorni
47
2.76
51
19 51.6
19 32.0
-10 19.3
+1.0267
0.5064
0.2020
470 414
K Capricorni
4.8
2.78
57
19 16.0
22 25.9
- 7 30.5
+0.9619
0.5049
0.2061
471 4 9
152 B. Capricorni
6.5
2.77
7.0
17 15.2
16 2 25.0
- 3 38.4
-0.4328
0.5027
0.2II2
415-70
29 Aquarii [mean)
6.5
2,83
7.8
17 23.2
852.8
+ 2 38.2
+ 1. 1056
0.4996
0.2192
+73 - 19
39 Aquarii
6.2
+2.82
+ 9-4
-14 37-5
14 14.8
+ 7 51.0
-0.7550
0.4972
+0.2253
0-90
45 Aquarii
6.1
2.84
10.2
13 44-6
17 47.8
+11 18.0
-0.9221
0.4958
0.2291
- 9-90
50 Aquarii
5.9
2.87
10.5
13 58.4
20 44-5
- 9 50.3
+0.01 10
0.4947
0.2322
440-44
182 B. Aquarii
6.2
2.90
IZ.I
13 21.8
23463
- 6 53.6
+0.0458
0.4937
0.2352
442 -42
70 Aquarii
6.1
2.94
130
II z.o
17 955.8
4 259.0
-0.1 061
0.4907
0.2441
436-50
h Aquarii
5-4
+2.97
+15.0
- 8 9.9
19 9.9
+11 57.9
-0.9555
0.4889
+0.2510
- 8-90
X Aquarii
5.3
3.02
15.6
812.1
18 1 40.7
- 541.8
+0.7348
0.4881
0.2552
482- 6
317 B. Aquarii
6.3
300
16.4
623.0
349.6
- 3 36.5
-0.7091
0.4879
0.2564
+ 7;-90
337 B. Aquarii
6.4
3.04
17.2
5 04
845.5
+ I 11.4
-0.9448
0.4878
0.2590
- 6-90
342 B. Aquarii
6.5
305
175
433.8
952.3
+ 2 16.4
-1.1415
0.4878
0.2595
.19-90
20 Piscium
5.6
+3.10
+18.8
- 3 147
19 2.4
+11 XI. 5
-0.1801
0.4883
+0.2633
+35-54
24 Piscium
6.1
3.13
18.9
338.3
21 49.1
-10 6.3
+0.9807
0.4886
0.2642
+«6'4 8
80 B. Piscium
6.3
3.16
20.2
- 0 59.2
19 434.0
- 332.4
-0.1 165
0.4898
0.2660
438 -50
98 B. Piscium
6.3
3.20
21.3
+ 1 12.3
" 35.9
+ 3 179
-0.6178
0.4915
0.2670
413-83
44 Piscium
6.0
3.23
21.6
127.5
15 47.0
+ 722.1
+0.2272
0.4927
0.2673
^57
-33
147 B. Piscium
5-9
+3.36
+22.1
+ 4 50.1
20 4 12.5
- 4 33.2
-0.0936
0.4977
40.2663
+39
-49
171 B. Piscium
6.3
3.36
23.5
6 0.9
10 21.4
+ I 25.2
+0.2729
0.5008
0.2649
^-59
-30
t Piscium
4-4
3.37
24.0
7254
12 0.4
+ 3 1.4
-0.7977
0.5018
0.2643
+ 3
-83
C Piscium
5.6
3-43
23.9
7 7.0
1740.1
+ 8 31.2
+1.0203
0.5051
0.2622
+90
412
TT Piscium
5.6
3-53
25.0
II 41.9
31 5 40.2
- 3 50.1
-0.7446
0.5132
0.2554
+ 6
-78
12 H.* Arietis
6.3
^•3-66
+24.9
+13 3.6
18 19.3
+ 8 25.7
+0.9846
0.5232
40.2448
♦90
+ 13
19 Arietis
5.8
372
24.9
14 52.5
23 21.8
-10 41.4
+0.2950
0.5276
0.2395
+61
-24
27 Arietis
6.4
3.82
24.7
17 X9-3
%% 7 46.9
- 2 32.6
-0.2953; 0.5352
0.2292
429
-52
36 Arietis
6.5
3.88
24.2
17 23.9
1357.8
+ 3259
+1.0139
0.5412
a 2204
490419
40 Arietis
6.0
390
24.1
17 55.4
15 52.4
+ 5 16.6
+0.8838
0.5430
0.2175
490411
47 Arietis
5.8
+3.99
+23.9
+20 19.4
20 7.8
+ 9233
-0.7007
0.5471
40.2105
+ 7
-70
[Eph 12]
0CCULTATI0N8, 1912.
601
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
NOVEMBER.
1
Limit-
Thb Stak'8
At Conjumctiom in R. A. |
ing Par-
allels.
1
Name.
Mag.
Red'nafrom
zgxaxx
Apparent
Declina-
tion.
Wa8hin|[ton
Mean Time.
Hour
Angle,
y
X'
y
N.
S.
Aa
8
e »
d h m
h m
0
e
e
Arietis {m^n)
4.6
+3.98
+23.9
+20 59.7
82 20 38.1
+ 952.6
-Z.2930
0.5476
40.2096
-40
-69
c
Arietis
5.0
4.04
23.0
2043.5
as 332.4
- 7 27.7
40.3944
0.5545
0.1972
468
-13
T
Arietis
5.1
4.07
22.7
20 50.2
616.3
- 4 49.7
40.8097
0.5572
0.19Z9
490
410
66
Arietis
6.1
413
22.3
22 30.4
920.3
- I 52.4
-0.3375
0.5603
0.1857
426
-49
z6
Tauri
5.4
4.22
21.3
24 1.2
z6 11.9
+ 4 44.2
-0.67 1 1
0.5670
0.Z707
+ 7
-65
I?
Tauri
3.8
+4.21
+21.3
+23 50.6
16 13.8
+ 446.0
-0.4846
0.5670
40.1706
4l8
-55
z8
Tauri
5.6
423
21.3
24 34 2
z6 20.4
+ 4 52.3
-1. 2137
0.567Z
0. Z704
-33
-^5
9
Tauri
4.3
4.22
21.3
24 "9
16 21.8
+ 4 53.7
-0.8268
0.567Z
0.1703
- 2
-66
20
Tauri
4.1
4.22
21.2
24 6.0
16 37-3
+ 5 8.5
-0.6814
0.5674
0.Z697
+ 7
-65
2Z
Tauri
5-8
4.22
21.2
24 17.2
x6 39.2
+ 5 Z0.4
-0.8686
0.5674
0.Z696
- 5
-66
22
Tauri
6.5
+4.22
+21.2
-1-24 15.6
z6 42.7
+ 5 13.7
-0.8314
0.5675
40.1695
- 2
-66
23
Tauri
4-3
4.21
21.2
23 40.8
16 50.1
+ 520.9
-0.2144
0.5676
0.Z692
+32
-41
n
Tauri
3.0
4.22
21. 1
23 50 4
17 18.8
+ 5 48.5
-0.2973
0.5680
0.1682
428
-45
Z04 B.
Tauri
5-5
4.21
2X.O
23 9-4
17 40.7
+ 6 9.6
40.4659
0.5684
0.1673
+73
- 6
27
Tauri
37
4.22
21.0
23 47 5
zS 0.4
+ 628.6
-0.Z308
0.5688
0.Z665
+37
-36
28
Tauri
5-2
+4-23
+21.0
+23 52.5
z8 z.o
+ 629.2
-0.2152
0.5689
40.1665
432
-40
33
Tauri
6.0
423
20.4
22 55.6
2z 16.1
+ 9 36.9
4Z.2868
0.5719
0.1588
490
+53
36
Tauri
5.6
4.27
19.9
23 52.2
S4 0 13.4
-zz 32.7
40.7758
0.5746
0.1515
490
413
/
Tauri
5.6
4.35
193
2615.4
247.9
- 9 40
-Z.2898
0.5770
0.1448
-49
-64
X
Tauri
5-3
4.36
18.3
25 25.6
, 7 29.6
- 4 33.4
40.2ZZ7
0.58IZ
0.1323
+57
-15
17 B.
Aurigae
6.0
+4.49
+15.5
+27 45.3
19 13 6
+ 6 42.5
-0.8039
0.5902
40.0987
- 2
-62
38 B.
Aurigae
6.5
4.50
143
27 34-7
23 45-3
-••zz 3.1
-0.2070
0.5931
0.0848
+32
-32
47 B.
Aurigae
6.0
451
13.8
27 55.4
26 z 41.4
-IX 5-5
-0.4005
0.5943
0.0787
422
-42
354 B.
Tauri
6.4
452
12.7
27 52.3
556.0
-7 Z.4
-0.0423
0.5965
0.0652
442
-22
22
Aurigae
6.4
4.56
X2.3
28 51.4
648.9
- 6 Z0.8
-O.985Z
0.5970
0.0624
-16
-61
P
Tauri
1.8
+4.55
+II.9
+28 32.2
754.6
- 5 7.8
-0.5941
0.5975
40.0588
410
-53
107 B.
Aurigae
6.5
452
U.I
27 36.5
zz 31.6
- I 39 9
+0.5387
0.5990
0.0470
482
4IO
116 B.
Aurigae
5-9
4.58
10.6
29 10. 1
Z2 45.6
- 029.0
-0.9859
0.5995
0.0429
-16
-61
406 B.
Tauri
56
4-53
9.6
27 56.7
Z7 6.6
+ 3410
40.4078
0.6009
0.0284
471
+ 4
136
Tauri
4.6
4.51
9-3
27 35.7
17 59-3
+ 4 31.5
40.7856
0.601 z
0.0254
490
425
154 B.
Aurigae
6-4
+4.56
+ 8.8
+28 55-9
Z9 9.8
+ 5 390
-0.5391
0.6014
40.0214
414
-47
415 B.
Tauri
6.1
4-51
8.5
27 34 3
20 49.8
+ 7 14.7
40.8679
o.6oz6
0.0158
490
+31
183 B.
Aurigae
6.3
4.58
7.6
29 313
22 46.7
+ 9 6.7
-Z.0804
0.6020
40.0092
-24
-60
K
Aurigae
4-4
4.56
6.4
29 32.0
26 2 6.2
-zz 42.3
-Z.0788
0.6023
-0.0020
-24
-60
211 B.
Aurigae
6.3
4.56
6.0
29 35 0
4146
- 9 39.4
-Z.Z414
0.6024
0.0094
-31
-60
49
Aurigae
5.1
+4.48
+ 4.6
+28 5.6
925.7
- 4 41.5
40.2685
0.6022
-0.0270
461
- 3
53
Aurigae
5.6
4-51
41
29 3-7
1035.3
- 3 34 9
-0.7423
0.6020
0.0310
4 1
-61
54
Aurigae
5.8
4.48
41
28 20.6
zz Z.8
- 3 9 5
-0.0312
0.6020
0.0325
+42
-z8
28
Geminorum
55
4.50
33
29 3.7
Z2 56.4
- z 19.8
-0.8243
0.6017
0.0389
- 4
-6z
47
Geminorum
5.6
434
0.7
27 0.1
22 50.9
+ 8 9.7
4O.7OZ3
0.5988
0.0719
490
416
53
Geminorum
59
+4-37
0.0
+28 3.1
27 0 32.2
+ 946.8
-O.48Z5
0.5981
-0.0774
417
-47
134 B.
Geminorum
6.5
432
+ 0.1
26 50.9
057.9
-t-ZO ZZ.4
40.6960
0.5980
0.0788
490
+15
59
Geminorum
5-7
4.33
- 0.9
27 48.5
3456
-iz 8.0
-0.5033
0.5968
0.0878
416
-49
I
Geminorum
39
4-32
i.i
27 58.4
4 12.2
-zo 42.4
-0.7084
0.5966
0.0892
+ 4
-62
6^
Geminorum
5.0
432
1.6
28 18.0
533.2
- 9 24.8
-Z.Z602
0.5959
0.0935
-31
-62
^
Geminorum
5.0
+4.32
- 1.6
428 5.9
5440
- 9 M 5
-0.9739
0.5958
-0.0940
-14
-62
V
Geminorum
4-3
4.26
2.1
27 5.5
8 3.3
- 7 i.o
-0.1875
0.5945
0.1013
+34
-32
c
Geminorum
55
4.18
2.6
25 59-6
zz 10.6
- 4 1-4
40.5865
0.5927
0.ZZ09
486
4 6
*
Geminorum
5.0
4.18
39
26 59.6
X4 44.6
- 036.2
-0.8349
0.5905
0.Z216
- 4
-63
u
Cancri
5-9
4.10
4-3
25 38.0
17 371
+ 2 9.3+0.Z721
0.5886
0.130Z
+55
-17
4
Cancri
6.2
+4.08
- 4.3
+25 19.9
17 55-9
+ 227.340.4350
0.5884
-0.13Z0
472
- 3
f
Cancri
5-9
4.05
5-7
25 46 4
21 Z8.5
4 5 4Z.8 -0.4686
0.5859
0.1406
418
-51
X
Cancri
5.9
3.96
6.0
24 17.9
28 z z6.o
4 929.740.4376
0.5830
0.1515
472
- 5
28
Cancri
6.1
392
7.0
2426.1
427.1
-zi 26.8-0.1965
0.5806
0.1600
+33
-38
vi
Cancri
5.7
390
72
24 22.6
536.2
-zo 20.4
-0.3230
0.5796
0.1630
427
-45
V2
Cancri
6.4
+3.89
-7-4
+24 23.0
6ZZ.8
- 946.2
-0.4265
0.5792
-0.1645
421
-51
[Eph 12]
602
OCCULT ATIONS, 1912.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
NOVEMBER.
Tbb Stab's
At Conjumctiom in R. A.
Limit
im; Par-
aUels.
Nama
Maff.
5.2
6.1
6.1
6.5
6.3
5-5
6.1
5-3
Red 'ns from
Z9i2.a
Apparent
Declina-
Washin^on
Mean Tune
Hoar
Angle,
H
Y
x^
y
N. S.
Aa
A«
don.
79
90 H.
57 B.
107 B.
37
42
/
Cancri
Cancri
* Cancri
Leonis
Leonis
Leonis
Leonis
Leonis
8
+3.63
362
3.58
3.33
3.12
+301
3.00
2.76
m
-10.3
10.4
10.5
12.5
13.0
-13.2
14.0
143
0 f
+22 24.0
22 21. 1
21 38.6
19 15.9
16 II.O
+14 9.8
15 24.9
II 0.4
d h m
38 20 59.7
21 24.3
22 46.7
39 II 56.8
21 17.6
80 214.3
4340
17 14,6
h m
+ 427.6
+ 4 51-3
+ 6 10.6
- 5 8.0
+ 3 53-0
■»- 8 39.5
+10 54.4
- 0 50.5
-1.1297
-1.1637
-0.7269
-1.1733
-0.2604
+0.5661
-1.2853
-0.1023
0.5667
0.5664
0.5652
0.5541
0.5467
0.5430
05413
0.5331
-0.1993
0.2002
0.2031
0.2280
0.2426
-0.2492
0.2521
0.2655
• •
-23 -6S
-26-68
+ 5-68
-25-71
+3o|-5i
+80-10
-34-75
^39-47
DECEMBER.
X
308 B.
a
27 B.
13
V
319 B.
a
A
86
621 B.
40 H.
47 G.
r
183 B.
234 B.
248 B.
0)
A
56 B.
17
X
27
128 B.
e
K
6
152 B.
39
45
50
182 B.
70
h
9
X
317 B.
337 B.
342 B.
20
Leonis
Leonis
Leonis
Virginis
Virginia
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Librae
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Capricomi
Capricorni
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Piscium
4-7
+2.59
-14.1
+ 7 48.5
5-8
2.57
15.0
832.3
4.1
2-49
14.5
630.5
3.8
2.33
14.8
215.4
6.5
+2.22
-14.4
+ I I.O
5-9
2.12
14.8
- 0 18.1
40
2.11
14.9
010.9
6.3
1-95
14.1
5 49-4
5.6
1.85
139
831.0
1.2
+1.78
-13.6
-10 42.4
5-4
1.76
14.0
942.9
5-6
1.72
13-6
II 59-4
6.4
1.66
13.3
14 33-2
51
1.64
13.1
15 53.4
6.1
+1.56
-12.4
-21 41.6
NEW
3-5
+2.00
-6.5
-2748.1
6.2
2.02
6.4
28 46.5
5-9
+2.07
- 5.4
-28 2.3
5.7
2.08
5.0
27 10.0
4.8
2.17
3.4
26 32.1
49
2.17
- 3-3
26 26.1
6.3
2.33
0.0
24 5-8
5-8
+2.28
+ 0.5
-21 50.1
53
2.36
1.9
21 32.8
6.1
2.37
2.1
20 54.6
5-3
2.39
2.7
21 1.0
6.5
2.42
3.9
19 31.9
4-7
+2.46
+ 4.2
-19 51-6
4.8
2.48
4.8
19 16.0
30
2.46
5.6
16 31.5
6.5
2.47
5.8
17 15-3
6.2
2.52
8.0
14 37.5
6.1
+2.54
+ 8.8
-1344.6
5.9
2.57
9.0
13 58.4
6.2
2.60
9.6
13 21.8
6.1
2.64
11.4
II 1.0
5.4
2.68
13-3
8 9-9
4-4
+2.70
+14. 1
- 631.2
53
2.73
13.8
812.2
6.3
2.72
14.6
623.1
6.4
2.76
15.4
5 0.5
6.5
2.77
15.6
433.8
5.6
+2.84
+17.0
- 3 14.8
4
8
22
% 2
12
13
8 2
13
21
4 I
7
16
19
5 21
42.4
59.2
24.7
45.1
53.8
34.1
II.O
51.0
11.4
20.4
8.1
24.2
15.8
17.3
1.0
MOON,
[Eph
10 4
4
12
14
11 2
3
23
13 2
13
13
16
13 o
3
6
8
10
22
14 2
4
8
18
15 3
8
10
12
17
18
1« 3
22.7
36.6
6.2
30.3
14.2
40.4
6.2
3-2
6.5
36.4
40.2
0.6
40.1
34-4
53.5
340
26.8
I.I
58.9
2.0
16.6
36.5
46.7
12.0
22.6
22.4
30.1
48.4
+ 6
+10
-10
+ 3
+ 7
- 6
- 6
+ 6
- 7
+ o
+ 4
+10
- 4
- I
22.7
31.2
9.8
43.3
44.4
53.3
17.5
57.1
1.8
51.9
32.5
36.7
48.6
53.0
- I 0.4
+
+
+10
-II
- o
+ I
- 4
- X
+ 9
+ 9
-II
- 3
- o
+ 2
+ 4
+ 6
- 6
- 2
+ o
+ 3
-10
- 1
+ 3
+ 4
+ 6
+11
-II
+1.1444
0.7654
+0.3596
+0.7016
+0.8059
-0.5651
-0.8615
+1.1228
+1,0675
+1.1484
-0.8784
-0.1408
+0.3069
+0.9664
+13457
40.0631
+1.1410
+0.8795
+0.1295
+0.6254
+0.6839
+0.7964
-1.2295
+0.3590
-0.2557
+0.4293
+0.1989
38.1
51.6
5.3
35-6
15.7
7.6
4.8
13.5
29.2
58.1
3.7
56.4
23.4 H.2974
25.8+1.2358
40.9 -1. 3186
18.4 -0.1572
9.1-0,4700
40.9 -0.6352
1 1.9 +0.3026
9.9+0.3396
52.3+0.1919
47.6 -0.6596
14.2 -1. 1765
37.3 +1.0397
44.3 -0.4121
36.2 -0.6503
18.0-0.8484
+0.1152
- 2 14.6
0.5290
0.5270
0.5255
0.5208
0.5200
0.5187
0.5187
0.5188
0.5203
0.5222
0.5233
0.5254
0.5289
0.5302
0.5428
0.5538
0.5537
0.5496
0.5483
0.5410
05399
0.5264
0.5242
0.5165
0.5162
0.5141
0.5092
-0.2713
0.2742
0.2760
0.2808
-0.2814
0.2812
0.28 IX
0.2771
0.2713
0.2652
0.26x8
0.2556
0.2454
0.2414
-o.aoo2
■^90
+ 5
+65
+90
+21
-81
-25
- b
+90f- 3
+16-79
- I1-90
+84+17
+81
+14
+79+20
- 4t-90
^■33!-52
+55.-28
+74+8
f68
+52
f23
f6i
+00623
0.0629
+0.0817 1*62
0.0876 f29
0.1 148 f59
0.1 180 ^3
0.1575 1+66
+0.1629
0.X818
a 1825
0.X874
0.X981
0.50701+0.2032
0.5053 0,2070
0.5038 0.2099
0.5028 0.2x20
0.4965 0.2255
0.4948 +0.2292
0.4935 0.2319
0.4922
0.4886
0.4861
0.4852
0.4850
0.4846
0.4842
0.4841
0.4841
_ _ *-56
0.2348 +58
0.2432 f52
0.2496 If
+0.2525
0.2534
0.2545
0.2568
0.2573
+30
+ 8
-37
- 9
I- 6
o
-43
+20
+56
M5
+71
-46
+40
+32
-90
-23
f82
f22
flO
- I
-90
-25
-59
-21
-33
+29-53
^ 7
-73
-86
-28
-26
-34
9-87
+0.2606 |f5o|-38
V
-90
+12
-68
-86
-90
OCCULTATIONS, 1912.
603
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
DECEMBER.
1
1
Umit-
Thb Star's
At Conjunction in R. A.
ing Par-
allels.
Name.
Mag.
Red'ns from
i9X2.a
Apparent
Declina-
tion.
Washington
Mean Time.
Hour
Anele,
H
Y
x'
/
N.
S.
Aa
Ad
8
It
0 t
d h m
h m
0
0
24
Pisciuxn
6.1
+2.87
+17.I
- 3 38.4
16 637.6
+ 0 30. 1
-fi.2819
0.4843
+0.2614
+86
+30
80 B.
Piscium
6.3
2.91
18.5
- 0 59.2
13 29.0
+ 7 10.5
+0.1732
0.4851
0.2628
+54
-35
98 B.
Pisciuxn
6.3
2.96
i9.7i+ 1 12.3
20 37.9
- 952.1
-0.3377
0.4867
0.2635
+27
-63
44
Piscittm
6.0
3.00
20.0
127.5
17 053.2
- 543.8
+0.5089
0.4878
0.2636
+75
-18
147 B.
Piscium
5-9
3.16
20.6
450.1
13 31.6
+ 6 33.8
+0.1708
0.4925
0.2624
+54
-35
171 B.
Piscium
6.3
+3.18
+22.3 f 6 0.9
19 46.8
-II 21.5
+0.5308
0.4957
+0.2608
+76
-x6
c
Piscium
4-4
3.18
22.8
725.4
21 27.5
- 943.6
-0.5495
0.4965
0.2602
+16
-75
c
Piscium
5.6
3-27
22.8
7 7.0
18 3 12.9
- 4 8.0
+1.2712
0.4999
0.2581
+90
+32
TT
Piscium
5.6
3.40
243
1141.9
15 24.4
+ 742.2
-0.5269
0.5082
0.2513
+17
-71
12 H.^
^ Arietis
6.3
3-57
244
13 36
19 4 14.1
- 3 51.4
+1.1855
0.5187
0.2409
+90
+28
19
Arietis
5.8
+3.66
+24.7
+14 52.5
920.3
+ I 5.2
+0.481 1
0.5234
+0.2357
+74
-14
27
Arietis
6.4
3-79
24.8
17 19-3
17 50.7
-1- 9 19.2
-0.1309
0.5316
0.2256
+37
-44
36
Arietis
6.5
3.88
243
17 23.9
20 0 4.8
- 8 39.0
+1.1672
0.5380
0.2170
+90
+30
40
Arietis
6.0
391
24.3
17 55-4
2 0.2
- 6 47.5
+1.03 19
0.5400
0.2142
+90
+21
47
Arietis
5.8
4.02
24.4
20 Z9.4
617.3
- 2 39.1
-0.5664
0.5446
0.2074
+14
-64
e
Arietis {mean)
4.6
+4.02
424.6
+20 59.7
647.8
- 2 9.6
-1.1610
0.5451
+0.2065
-25
-69
c
Arietis
50
4.12
23.6
20 43.5
13 43.9
+ 4 32.0
+0.51 18
0.5527
0.1943
+77
- 7
r
Arietis
5.1
4.16
23.3
20 50.2
16 28.2
+ 7 10.4
+0.9202
0.5557
0.1891
+90
+17
66
Arietis
6.1
4.24
23.1
22 30.5
19 32.6
+10 8.1
-0.2350
0.5591
0.1829
+31
-43
16
Tauri
5-4
4.37
22.3
24 1.2
21 2 24.2
- 7 15.4
^.5852
0.5666
0.X682
+12
-61
17
Tauri
3.8
+436
+22.3
+23 50.6
226.1
- 7 13.6
-0.3989
0.5666
+0.X681
+22
-50
18
Tauri
5.6
4.38
22.4
24 34.2
2 32.6
- 7 7.4
-X.1274
0.5668
0.1679
-25
-65
^
Tauri
4-3
4-37
22.4
24 1 1.9
2341
- 7 5 9
-0.741 1
0.5668
0.X677
+ 3
-66
20
Tauri
41
4.38
22.3
24 6.0
249.6
- 651.0
-0.5965
0.5671
0.1672
+X2
-6x
21
Tauri
5.8
4.38
22.3
24 17.2
251.4
- 649.2
-0.7834
0.5671
0.X671
0
-66
22
Tauri
6.5
+4.38
+22.3
+24 15.6
2 54-9
- 6 45.9
-0.7465
0.5672
+0.X670
+ 3
-66
23
Tauri
4-3
4-37
22.2
2340.9
3 2.3
- 6 38.8
-0.1308
0.5673
0.1667
+37
-36
V
Tauri
30
4.38
22.1
23 504
331.0
- 6 II. I
-0.2146
0.5678
0.1656
+32
-40
104 B.
Tauri
5.5
4.37
21.9
23 9.5
352.9
- 550.1
+0.5464
0.5682
0.1648
+81
- 2
27
Tauri
37
4-39
22.0
23 47.5
412.6
- 531.1
-0.0502
0.5685
0.164X
+41
-32
28
Tauri
5.2
+4.39
•1-22.0
+23 52.5
413.1
- 5 30.6
-O.X345
0.5685
+0.X64X
+37
-36
36
Tauri
5.6
4.48
20.8
23 52.2
10 24.3
+ 026.4
+0.8381
0.5752
0.X491
+90
+17
/
Tauri
56
4.57
20.5
26 15.5
. 1258.1
+ 2 54.3
-1.2278
0.5779
0.Z426
-37
-64
;r
Tauri
5-3
4.62
19.5
25 25.7
17 38.1
+ 7 23.3
+0.2569
0.5827
0.1302
+60
-13
17 B.
Auriga
6.0
4.84
16.8
27 45.3
aa 5 15 6
- 5 27.4
-0.7829
0.5933
0.0966
- I
-62
38 B.
Auriga
6.5
+4.88
+15.5
+27 34-7
943.9
- I 10.2
-0.2009
0.5969
+0.0828
+33
-32
47 B.
Auriga
6.0
4.91
15.1
27 55.5
II 38.4
+ 0 39.5
-0.3978
0.5983
0.0767
+22
-42
354 B.
Tauri
6.4
4-95
X3.8
27 52.4
15 49.3
+ 4 39-9
-0.0528
0.6013
0.0632
+41
-22
22
Aurigae
6.4
5.00
13.6
28 51.4
16 41.4
+ 5297
-0.9902
0.6018
0.0603
-16
-6i
P
Tauri
1.8
5.00
13.1
28 32.3
17 46.1
+ 631.7
-0.6048
0.6024
0.0568
+10
-54
107 B.
Auriga
6.5
+4.99
+I2.0
+27 36.5
21 19.4
+ 9 55.9
+0.5093
0.6044
+0.0448
+79
+ 8
112 B.
Auriga
5-7
4.96
11.8
26 52.4
21 46.8
+1022.2
+1.2680
0.6046
0.0433
+90
+61
116 B.
Auriga
5.9
5.06
11.7
29 lO.Z
22 32.1
+" 5.5
-1.0047
0.6050
0.0407
-18
-61
406 B.
Tauri
5-6
5.04
10.3
27 56.7
33 2 48.2
- 8 49.3
+0.3654
0.6069
0.0261
+68
+ 2
136
Tauri
4.6
503
lo.o
27 35.7
339.9
- 7 59.9
+0.7374
0.6073
0.0231
+90
+22
154 B.
Auriga
6.4
+5.09
+ 9.6
+28 55.9
449.0
- 6 53.8
-0.5771
0.6077
+0.0191
+11
-49
415 B.
Tauri
6.1
505
9.1
27 34-3
627.0
- 5 20.0
+0.8115
0.6082
0.0134
+90
+27
183 B.
Auriga
6.3
5.14
8.5
29 31.4
821.4
- 3 30.5
-1.1212
0.6088
+0.0068
-29
-60
K
Auriga
4.4
515
71
29 32.0
II 36.6
- 023.9
-1. 1273
0.6095
-0.0047
-29
-60
211 B.
Auriga
6.3
5.16
6.6
29 350
13 42.1
+ X 36.2
-1. 1939
0.6097
0.0120
-38
-60
49
Auriga
51
+5. XI
+ 4.8
+28 5.6
18 45.9
4 6 26.8
+0.1870
0.6101
-0.0299
+56
- 7
53
Auriga
56
515
4.4
29 3.7
19 53 7
+ 731.6
-0.8141
0.6 1 01
0.0339
- 4
-61
54
Auriga
5.8
5.12
4-2
28 20.6
20 19.6
+ 7 56.3
-0.1128
0.6101
0.0354
+38
-23
28
Geminorum
5-5
5.16
3.6
29 37
22 11.4
+ 9432
-0.9005
0.6099
0.0420
-10
-^i
47
Geminorum
5.6
5.06
+ 0.1
27 O.X
34 7 50.1
- 5 32
+0.5815
0.6080
0.0754
+86
+ 9
53
* Geminorum
5-9
+5.10
- 0-4
+28 3.1
928.6
- 3 28.9
-0.5890
0.6074
-0.0810
+11
-54
[Eph xa]
604
OCOULTATIONS, 1912.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
DECEMBER.
1
IJmit-
Tm Stak's 1
At Comjuhction im R. A.
inisPar-
1
allel.s.
Name.
Mag.
Red'ns from
Apparent
Declina-
tion.
Washington
Mean Time.
Honr
Angle,
H
Y
x'
y
1
N. S.
ila
^
•
s
w
e r
d h m
h m
0
134 B.
Geisinorum
6.5
+5.05
- 0.6
+26 50.9
a4 953.5
- 3 5-2
+0.5711
0.6073
-0.0824
+85-8
59
Geminorum
5.7
5.08
1-5
27485
12 36.6
- 029.1
-0.6180
0.6061
00915
^ 9-57
I
Geminorum
3.9
5.07
1.8
27 58.4
13 2.4
- 0 4.4
-0.8213
0.6060
0.0930
- 3-62
b^
Geminorum
5.0
5.09
2.3
28 18.0
14 2I.O
+ I 10.9
-I 2697
0.6054
0.0973
-49-62
^
Geminorum
5.0
5.08
2.3
28 5 9
14 31.6
+ I 21.0
-1.0865
0.6053
0.0979
-24-62
V
Geminorum
4-3
+5.03
- 30
+27 5.5
16 46.8
+ 3 30.4
-0.3166
0.6042
-0.1053
+26: -40
c
Geminorum
55
4.96
3.9
25 59 6
1948.5
+ 6 24.4
+0.4386
0.6026
0.1 150
♦73 - 2
0
Geminorum
50
4.98
52
26 59.6
23 16.2
+ 9 43-2
-0.9698
0.6006
0.1260
-13-63
u
Cancri
59
4.91
6.0
25 38.0
25 2 3.4
-II 36.6
+0.0154
0.5987
0.1345
*-45-25
4
Cancri
6.2
4.90
6.0
25 19.8
2 21.6
-II 19. 1
+0.2736
0.5985
01355
+61 -12
*
Cancri
59
+4.89
- 7-5
+25 46.4
537.9
- 8 ii.o
-0.6238
0.5962
-0.1452
+ 9-&
X
Cancri
5.9
4.80
8.2
24 17 9
928.1
- 4 30.3
+0.2594
0.5932
0.1563
+60-15
28
Cancri
6.1
4.78
93
24 26. 1
12 33-2
- I 32.8
-0.3719
0.5908
0.1648
+24-48
v»
Cancri
5-7
4.76
9.6
24 22.5
13 40.1
- 028.7
-0.4990
0.5899
0.1679
+17 -56
v»
Cancri
6.4
4-75
9-8
24 22.9
J4 14.6
+ 0 4.4
-0.6021
0.5893
0.1694
+11 -61
y
Cancri
4.7
+4.61
-10.5
+21 47.0
18 X5.8
+ 3 55.9
+1.27 1 3
0.5859
-0.1800
+90+48
f
Cancri
52
4.53
136
22 23.9
26 434.6
-10 9.7
-»-3257
0.5767
0.2046
-48-68
90 H.
' Cancri
6.1
4.48
139
21 38.5
618.2
- 8 30.2
-09330
0.5751
02084
- 8-^
1
107 B.
Leonis
6.3
4.05
17.7
16 10.9
27 4 8.8
-II 28.3
-0.5150
0.5552
0.2476
+17I-66
34
Leon is
6.4
3.96
17.6
13 47.1
644.9
- 8 57.8
+1.2262
0.5530
0.2512
+90.+32
37
Leonis
5.5
+3.94
-18.1
+14 9.8
857.3
- 6 50.0
+0.2923
0.55"
-0.2541
+61-24
/
Leonis
5-3
3.69
X9.8
II 0.3
23 34-9
+ 7 173
-0.3866
0.5398
0.2696
+24,-63
X
Leonis
4-7
3.52
19.9
748.4
28 652.8
- 9 39.4
+0.8392
0.5350
0.2750
♦90 + 1
308 B.
Leonis
5.8
351
20.8
832.2
11 4.4
- 5 36.1
-1.0539
0.5324
0.2773
-13'-^!
<T
Leonis
41
342
20.4
630.4
14 26.0
- 221.1
+0.0576
0.5306
0.2790
+47 -40
89
Leonis
5.7
+3.30
-20.3
+ 332.6
20 44.0
+ 344.7
+1.2869
0.5274
-0.2812
+90+32
^
Virginis
3.8
3.26
20.8
215.3
29 432.6
+11 18.2
+0.3919
0.5242
0.2827
+661-24
27 B.
Virginis
6.5
3.15
20.4
+ I 0.9
838.2
- 8 43.9
+0.4956
0.5228
0.2828
+74-19
13
Virginis
5.9
3.04
20.8
- 0 18.2
18 X2.6
+ 0 32.5
-0.8660
0.5204
0.2817
- 1-90
7
Virginis
4.0
303
20.9
OII.O
18 49.2
+ I 7.9
-1.1608
0.5203
0.28x6
-20-90
319 B.
Virginis
6.3
+2.86
-19.7
- 5 49.5
30 8 24.4
- 9 42.2
+0.8239
0.5189
-0.2764
+84-1
g
Virginis
5.6
2.75
19.2
831.1
18 44.0
+ 0 18.2
+0.7801
0.5193
0.2698
+81
- 4
a
Virginis
1.2
2.68
18.7
10 42.4
81 253.8
+ 8 12.7
+0.8719
0.5204
0.2630
♦•79
+ 2
h
Virginis
5.4
2.65
19.2
943.0
642.4
+11 54.1
-1.1510
0.5212
0.2594
-22
-90
86
Virginis
5.6
+2.59
-18.4
-II 59.4
13 0.4
- 5 59.8
-0.4036
0.5228
-0.2528
+20
-68
[Eph la]
OCOULTATIONS, 1912.
605
OCCULTATIONS VISIBLE AT WASHINGTON DURING THE YEAR 1912.
Trb Star's
IMMBRSION.
BMBRSION.
Dura-
tion of
Occul-
Date.
Washington.
Anffle
Washington.
Angle
from —
ta tion.
Name.
Maff.
Sidereal
Mean
North
Ver-
Sidereal
Mean
North
Ver-
UEUUU.
Time.
Time.
Point.
tex.
Tune.
Time.
Point.
tex.
h m
h m
0
0
h m
h m
0
0
h m
Jan.
2
112 B. Aurigse
5.7
10 2
15 16
136
77
10 45
15 58
229
172
0 42
4
4 Cancri
6.2
12 40
17 45
84
26
13 29
18 34
315
259
0 49
6
107 B. Leonis
6.3
12 58
17 55
106
54
13 58
18 56
320
265
I I
32
74 Aquarii
5.8
0 20
4 17
80
58
I 28
5 24
203
169
I 7
25
88 Pisdum
6.2
5 8
8 52
84
35
6 9
9 53
218
166
I I
26
26 B. Arietis
6.0
2 39
6 20
83
63
3 51
7 31
208
169
I II
27
te Arietis
5-2
I 19
4 55
80
117
2 32
6 8
212
218
I 13
27
45 Arietis
6.0
5 47
9 23
87
34
655
10 31
230
175
I 8
28
33 Tauri
6.0
8 7
II 39
84
26
9 10
12 42
255
199
I 3
28
161 B. Tauri
6.5
9 52
13 23
no
56
10 39
14 10
234
183
0 47
30
136 Tauri
4.6
I 52
5 16
59
122
2 54
6 19
275
337
I 3
30
415 B. Tauri
6.1
5 44
9 8
135
147
6 37
10 I
219
183
0 53
31
134 B. Geminorum
6.5
9 42
13 2
156
97
10 26
13 45
235
174
0 43
Feb.
4
308 B. Leonis
5.8
5 49
8 54
141
193
6 44
9 48
272
324
0 54
5
13 Virginis
5-9
14 51
17 50
89
50
15 46
18 45
342
297
0 55
10
tf Scorpii
31
II 55
14 35
130
174
13 2
15 42
281
317
I 7
12
C.D.-28**,i4268
6.4
14 26
16 58
118
158
15 42
18 13
264
293
I 15
26
107 B. Aurigae
6.5
6 41
8 19
83
34
8 0
9 37
273
212
I 18
27
49 AurigsB
5.1
3 20
4 55
58
121
4 26
6 I
290
350
I 6
^8
4 Cancri
6.2
13 32
15 I
94
38
14 22
15 50
305
252
0 49
Mar.
8
50 B. Scorpii
6.4
14 37
15 30
44
62
15 4
15 57
9
21
0 27
13
40 B. Capncomi f
6.2
15 53
16 27
88
135
17 9
17 43
254
292
I 16
22
r Arietis
5.1
857
8 56
27
333
9 35
9 34
307
255
0 38
27
28 Cancri
6.1
7 4
6 44
116
162
8 25
8 5
283
282
I 21
27
v' Cancri
5.7
8 46
8 25
79
63
9 48
9 28
331
284
I 3
Apr.
4
169 B. Librae
6.0
13 0
12 7
106
137
14 16
13 24
315
332
I 17
4
177 B. Librae
6.2
14 13
13 20
52
69
14 44
13 52
7
18
0 32
4
42 Librae
5.0
15 43
14 50
196
194
16 I
15 8
220
214
0 18
5
<ar Scorpii
1.2
12 15
II 19
150
194
13 II
12 14
260
296
0 55
5
116 B. Scorpii
6.2
13 II
12 14
128
165
14 25
13 28
282
307
I 14
II
154 B. Capncomi t
6.1
16 45
15 24
60
no
17 56
16 35
262
305
I II
19
36 Tauri t
5.6
II 22
9 30
10
323
II 37
9 46
335
290
0 16
22
134 B. Geminorum
A Cancri
6.5
12 45
10 42
175
119
13 4
II I
216
161
0 19
23
5.9
13 6
10 58
153
94
13 49
II 42
253
197
0 44
May
2
50 B. Scorpii t
6.4
10 56
8 14
115
164
II 59
9 17
298
341
I 3
4
210 B. Scorpii
5.8
13 43
10 52
58
102
14 34
II 44
329
6
0 52
8
37 Capricomi
5-7
18 50
15 42
43
75
20 II
17 3
267
285
I 21
20
00 Cancri
5.9
13 14
9 21
35
338
13 28
9 35
5
309
0 14
20
4 Cancri
i Leonis
6.2
13 23
9 29
lOI
44
14 15
10 21
299
246
0 52
23
5-3
II 52
7 47
154
128
13 0
854
284
242
I 7
29
31 B. Scorpii
5-4
17 40
13 10
III
88
19 2
14 33
281
244
I 23
June
25
42 Librae %
5.0
20 II
13 55
156
no
20 50
14 34
226
175
0 39
26
or Scorpii
1.2
17 28
II 8
70
56
18 42
12 22
316
288
I 14
26
116 B. Scorpii
6.2
18 48
12 28
72
44
20 I
13 41
303
264
I 13
28
C.D.-28**, 14268 t
6.4
13 9
6 42
117
167
14 15
7 48
266
308
I 6
July
2
K Capricomi f
4.8
16 37
9 54
24
73
17 24
10 40
302
346
0 46
9
6 Anetis
4.5
20 20
13 9
81
131
21 10
13 59
229
282
0 50
16
37 Leonis %
5.5
16 31
853
93
42
17 16
9 38
320
271
0 45
NoTB. — ^The angles of position are counted from the north point and vertex of the Moon's limb, toward the east.
t Immersion below the horizon of Washington.
t Emersion below the horizon of Washington.
[Eph za]
606
000ULTATI0N8, 1912.
OCCULTATIONS VISIBLE AT WASHINGTON DURING THE YEAR 191a.
Tbb Star's
DfMSRSION.
SBfERSION.
Date.
Wadiington.
Aasle
Washington.
Angle
from —
Dura-
tion of
Occul-
tation.
Name.
Mag.
Sidereal
Mean
North
Ver-
Siderad
Mean
North
Ver-
Time.
Time.
Point.
tex.
Time.
Time.
Point.
tex.
h m
h m
0
0
h m
h m
0
0
h m
July 18
27 B.Virginis
6.5
16 4
8 18
203
154
16 16 1 8 31
226
177
0 13
27
flo Sagittarii
4.8
22 14
13 51
25
356
23 12
14 50
288
250
0 59
27
A. Sagittarii %
4.9
23 50
15 27
74
31
0 55
16 32
240
191
I 5
Aug. 3
Z Piscium
5.6
20 39
II 50
13
64
21 27
12 38
279
328
0 48
4
12 H'. Arietis
6.3
21 53
12 59
36
88
22 56
14 2
254
304
I 3
8
136 Tauri
4.6
22 51
13 41
92
141
23 40
14 31
247
301
0 50
17
40 H. Vir^nis
51
18 3
8 19
154
III
18 56
9 II
253
205
0 5^
19
3 Scorpii
5.9
17 56
8 4
149
123
18 57
9 4
241
206
I 0
26
29 Aquarii (mean)
6.5
18 51
831
67
104
20 16
9 56
236
259
I 25
Sept. 5
49 Aurigae
51
0 18
13 18
57
III
I 8
14 8
289
347
0 50
5
54Aurigpe
C Anetis
5.8
2 19
15 19
14
76
2 42
15 42
333
35
0 23
29
50
23 40
II 6
28
84
0 39
12 5
269
323
0 59
30
36 Tauri
5.6
20 47
8 9
7
124
21 37
8 59
242
294
0 50
30
;r Tauri
5-3
6 28
17 49
106
49
7 38
18 59
234
174
I 10
Oct. I
354 B. Tauri
6.4
5 7
16 24
64
74
6 28
17 45
279
228
I 21
4
X Cancri
5.9
I 12
12 18
154
203
I 40
12 46
218
270
0 28
4
28 Cancri
6.1
4 16
15 21
66
125
5 13
16 18
316
15
0 57
4
1/ Cancri
5.7
5 55
17 0
40
97
6 26
17 31
353
46
0 31
13
48 B. Scorpii
4.9
18 40
5 12
123
91
19 52
6 23
259
217
I 11
24
C Piscium
5.6
20 57
645
63
114
22 5
7 53
224
270
I 8
25
12 H^ Arierts
6.3
21 45
7 29
81
134
22 45
8 28
208
258
0 59
25
19 Arietis
5.8
5 19
15 2
78
26
6 29
16 II
232
178
I 9
26
40 Arietis t
6.0
19 39
5 19
52
lOI
20 29
6 9
256
308
0 50
27
104 B. Tauri
5-5
22 17
7 53
II
66
22 50
8 26
299
356
0 S3
29
406 B. Tatui
5.6
22 50
8 18
52
102
23 36
9 4
285
339
0 46
31
09 Cancri
5.9
0 37
9 57
64
III
I 22
10 42
304
355
0 45
31
4 Cancri
6.2
0 58
10 17
129
179
I 41
II 0
239
292
0 43
Nov. 2
107 B. Leonis
6.3
4 52
14 3
49
103
5 21
14 32
354
48
0 29
15
0 Capricomi t
5-3
I 34
9 54
3
317
2 10
10 30
296
247
0 36
20
171 B. Piscium
6.3
2 39
10 40
45
12
3 57
II 57
241
196
I 17
23
r Arietis
5.1
20 39
4 29
54
104
21 30
5 20
256
311
0 51
23
104 B. Tauri %
5.5
10 44
18 32
80
31
" 35
19 22
263
220
0 50
25
107 B. Aurigae
6.5
2 37
10 18
135
197
3 16
10 57
198
258
0 39
25
406 B. Taun
5.6
10 12
17 52
95
34
II II
18 51
278
221
0 59
26
49 Aurigae
5-1
0 22
7 59
19
73
0 45
8 23
328
24
0 24
27
c Geminorum
5.5
2 5
9 38
149
205
2 37
10 10
216
273
0 32
27
09 Cancri
5-9
10 41
18 13
38
339
10 58
18 29
9
309
0 16
27
4 Cancri
6.2
10 52
18 24
100
41
II 56
19 28
306
247
I 4
Dec. II
A. Sagittarii
4.9
21 8
3 47
45
29
22 26
5 5
267
237
I 18
14
182 B. Aquarii
6.2
2 31
8 58
60
15
3 36
10 2
233
183
I 4
19
10 Arietis
Z Arietis
5.8
3 5
9 12
99
73
4 7
10 14
197
155
I 2
20
5.0
8 42
14 44
125
70
9 22
15 23
210
158
0 39
23
415 B. Tauri
6.1
22 58
4 50
123
173
23 35
5 27
218
271
0 37
24
47 Geminorum
5.6
0 21
6 9
108
158
I 10
6 58
249
304
0 49
24
134 B. Geminorum
6.5
2 50
837
166
226
3 5
852
194
254
0 15
25
A. Cancri
5-9
I 59
7 42
78
131
2 51
8 34
296
353
0 52
28
6 Leonis
41
7 5
12 36
88
139
8 I
13 31
337
23
0 55
30
^ Virginis
5.6
12 54
18 16
129
132
14 13
19 35
311
294
I 19
NoTB.— The angles of position are counted from the north point and vertex of the Moon's limb toward the east.
tlmmersion below the horizon of Washington.
i Emersion below the horizon of Washington.
[Eph la]
ILLUMINATED DISK OF MEROTJRY, 1912. 607
FOR WASHINGTON MEAN NOON.
Date.
k
•
%
d
L
Stellar
Date.
k
•
d
L
Stellar
mag.
mag.
0
0
0
0
Jan.
I
0.180
130
194
33.1
+1.0
July 4
0.778
56
7
42.1
-0.4
6
0.373
105
190
46.3
0.4
9
0.697
67
12
37-3
0.0
II
0.534
86
186
45.1
+0.1
14
0.622
76
16
34.5
+0.2
i6
0.651
73
182
39-7
0.0
19
0.548
85
19
32.8
0.4
21
0.735
62
178
34.5
0.0
24
0.473
93
22
31.8
0.6
26
0.801
53
173
30.8
-0.1
29
0.392
103
25
30.9
+0.8
31
0.845
46
169
28.1
0.1
Aug. 3
0.304
"3
28
30.3
1.0
Feb.
5
0.883
40
164
26.9
0.2
8
0.206
126
32
243
1-4
lO
0.915
34
159
26.8
0.3
13
0.108
142
39
15.8
1-9
15
0.943
28
154
277
0.5
18
0.032
159
56
5.6
2.5
20
0.967
21
147
30.1
-0.7
23
0.012
167
140
2.2
+2.8
25
0.987
13
136
34.2
I.O
28
0.078
148
184
14. 1
1.9
Mar.
I
0.998
5
91
40.6
1.3
Sept. 2
0.229
123
195
37.2
40.9
6
0.990
II
357
49.5
1.4
7
0.439
97
200
590
0.0
II
0.945
27
341
60.5
1-3
12
0.659
72
205
69.0
-0.6
i6
0.842
47
336
69.6
-I.I
17
0.829
49
210
65.1
-1.0
21
0.675
70
332
70.2
0.6
22
0.933
30
214
54.7
1.2
26
0.474
93
331
59.4
-0.1
27
0.983
15
222
44.2
1.2
31
0.283
116
330
41.4
+0.7
Oct. 2
0.998
5
251
36.5
1.2
Apr.
5
0.130
138
326
21.8
1.5
7
0.997
6
4
310
1.0
lO
0.033
159
318
6.2
+2.4
12
0.987
13
18
27.7
-0.8
15
0.002
176
239
0.3
3.3
17
0.969
20
22
25.9
0.6
20
0.030
160
161
5.0
2.6
22
0.948
26
22
25.3
0.4
25
0.099
143
155
14.5
1-9
27
0.922
33
21
25.7
0.3
30
0.185
129
153
22.7
1-4
Nov. I
0.888
39
20
27.4
0.2
May
5
0.276
"7
152
28.0
+1.1
6
0.844
46
18
30.5
-0.2
10
0.363
106
152
314
0.8
II
0.785
55
15
35.0
0.2
15
0.447
96
153
33-9
0.6
16
0.700
67
12
41.3
-0.1
20
0.534
86
154
36.8
+0.3
21
0.576
81
10
48.1
0.0
25
0.625
76
156
40.8
0.0
26
0.405
lOI
8
50.5
+0.2
30
0.724
63
159
46.5
-0.4
Dec. I
0.192
128
5
36.1
+0.9
June
4
0.829
49
163
54.2
0.8
6
0.000
179
356
0.2
2.3
9
0.926
31
170
62.4
1-3
II
0.035
158
206
8.6
2.1
14
0.989
12
185
67.2
1.7
16
0.219
124
199
39-5
0.8
19
0.993
10
335
65.1
1.7
21
0.429
98
196
514
•K).2
24
0.941
28
354
57.5
-1.3
26
0.595
79
193
47.8
-O.I
29
0.863
44
I
48.9
-0.8
31
0.710
65
189
40.7
-0.2
NOTATION.
jb=the ratio of the area of the illuminated portion of the apparent disk to the area of the entire
apparent disk regarded as circular.
t=the angle between the Sun and Earth, as seen from the planet.
^=the angle which the line joining the cusps, or extremities of the illuminated portion, makes
with the meridian.
Lsthe brilliancy of the disk. The unit of L is the amount of light received by an eye from
a circular disk with the same albedo as the planet, subtending an angular radius of
one second of arc, situated at distance unity from the Sun, and illuminated by the
latter as the mean disk of the planet is illuminated.
[Eph xa]
608 ILLUMINATED DISK OF VENUS, 1912.
FOR WASHINGTON MEAN NOON.
Date.
k
•
t
d
L
Stellar
Date.
k
•
t
d
L
Stellar
mag.
mag.
0
0
0
0
Jan.
I
0.667
70.5
196.0
103.8
-3.7
July 4
1. 000
I.O
242.6
46.9
-3.5
6
0.686
68.2
193.9
99.0
3-7
9
1. 000
1.8
329.7
47.0
3-5
II
0.704
66.0
191. 6
94.6
3-7
14
0.999
3.6
348.7
47.1
3.5
i6
0.721
639
189. 1
90.5
3.6
19
0.998
5.5
356.5
47.2
3-5
21
0.737
61.8
186.4
86.7
3.6
24
0.996
7.4
1.5
47.4
3-4
26
0.752
59.8
183.7
83.2
-3.6
29
0.993
9.4
5.3
47.6
-3-4
31
0.767
57.8
180.9
80.0
3.5
Aug. 3
0.990
1 1.4
8.4
47-9
3-4
Feb.
5
0.781
55.8
1 78. 1
77.0
3.5
8
0.987
13.3
II. I
48.2
3-4
lO
0.795
53.9
175.1
74.2
3.5
13
0.983
15.2
13.3
48.6
3.4
15
0.808
52.0
172.3
71.7
3.5
18
0.978
17.2
15.2
49.0
3.4
20
0.820
50.2
169.6
69.3
-3-4
23
0.973
19. 1
16.8
49.5
-3-4
25
0.832
48.4
166.9
67.1
3-4
28
0.967
21.0
18.0
50.0
3.4
Mar.
I
0.844
46.5
164.5
65.1
3.4
Sept. 2
0.961
22.8
19.0
50.5
3.3
6
0.855
44 7
162.2
63.2
3.4
7
0.954
24.7
19.8
51. 1
3.3
II
0.866
42.9
160.2
61.5
3.4
12
0.947
26.5
20.4
51.8
3-3
i6
0.877
41. 1
158.4
59.9
-3-4
17
0.940
28.4
20.6
52.5
-3.3
21
0.887
39-4
156.8
58.4
3.3
22
0.932
30.2
20.4
53.3
3-3
26
0.896
37-6
155-4
57.1
3.3
^7
0.924
320
20.0
54.2
3-3
31
0.905
35.8
1543
55.9
3.3
Oct. 2
0.916
33.8
19.4
55.2
3-3
Apr.
5
0.914
34.1
153.5
54.7
3-3
7
0.907
35.6
18.6
56.2
3.3
lO
0.923
32.3
153.0
53.6
-3.3
12
0.898
37.4
17.4
57.3
-3-3
15
0.931
30.5
152.7
52.7
3.3
17
0.888
391
16.0
58.5
3.4
20
0.939
28.7
152.7
51.9
3-3
22
0.878
40.9
14.4
59.8
3.4
25
0.946
26.9
153.0
51. 1
3.3
27
0.868
42.7
12.5
61.3
3.4
30
0.953
25.1
153.5
50.4
3-3
Nov. I
0.857
44.4
10.4
62.8
3.4
May
5
0.959
23.3
154.4
49.8
-3.3
6
0.846
46.2
8.2
64.5
-3.4
la
0.965
21.5
155.5
49.2
3-3
II
0.835
48.0
5.8
66.3
3-4
15
0.971
19.6
156.9
48.7
3.3
16
0.823
49.7
3.3
68.3
3-4
20
0.977
17.6
158.6
48.3
3.3
21
0.8 1 1
51.5
0.7
70.5
34
25
0.982
15.7
160.7
47.9
3-4
26
0.798
53.4
358.1
72.9
3.5
30
0.986
13.9
163.2
47.6
-3.4
Dec. I
0.785
55.2
355.6
75.4
-3.5
June
4
0.989
12. 1
166.0
47-4
3-4
6
0.772
57.1
353.1
78.2
3.5
9
0.992
10.2
169.1
47.2
3.4
II
0.758
59.0
350.7
81.2
3.6
14
0.995
8.3
172.9
47.0
3-4
16
0.743
61.0
348.5
84.4
3.6
19
0.997
6.4
177.6
46.9
3.4
21
0.727
63.0
346.4
87.9
3.6
24
0.999
4.5
184.0
46.9
-3-5
26
0.7 II
65.0
344.5
91.7
-3.6
29
1. 000
2.7
196.0
46.9
-3.5
31
0.695
67.1
342.8
95.8
-3-7
NOTATION.
ikssthe ratio of the area of the illuminated portion of the apparent disk to the area of the entire
apparent disk regarded as circular,
t^the angle between the Sun and Earth, as seen from the planet.
d^the cmgle which the line joining the cusps, or extremities of the illuminated portion, makes
with the meridian.
Lb the brilliancy of the disk. The unit of L is the amount of light received by an eye from
a circular disk with the same albedo as the planet, subtending an angular radius of
one second of arc, situated at distance unity from the Sun, and illuminated by the
latter as the mean disk of the planet is illuminated.
[Bph 11}
STELLAR MAGNITUDES OP SUPERIOR PLANETS, 1912. 609
APPARENT DISK AND STELLAR MAGNITUDE OF MARS, 1912.
k
Stellar
Mag.*
k
Stellar
Mag.*
January i
0.946
-0.7
July 29
0.973
+ 2.0
January 31
0.906
+ 0.1
August 28
0.987
2.0
March i
0.896
0.8
September 27
0.996
1.9
March 31
0.904
1.3
October 27
0.999
1.7
April 30
0.919
1.6
November 26
0.997
1.7
May 30
0.938
1.8
December 26
0.992
+ 1.6
June 29
0.956
+ 1.9
Mars not being in opposition during the year 1912, the satellites will not be
visible.
STELLAR MAGNITUDES OF JUPITER AND SATURN * 1912.
Date.
Jupiter.
Saturn.
Date.
Jupiter.
Saturn.
Date.
Jupiter.
Saturn.
Jan. I
-1.3
+ 0.3
May
10
— 2.1
+ 0.3
Sept. 17
-1.6
+ 0.2
II
1.4
0.3
20
2.1
0.3
27
1.6
O.I
21
1.4
0.4
30
2.1
0.4
Oct. 7
1.5
+ 0.1
^ 31
1.5
0.4
June
9
2.1
0.4
17
1.5
0.0
Feb. 10
1.5
0.4
19
2.1
0.4
27
1.4
0.0
20
-1.6
+ 0.5
29
— 2.1
+ 0.4
Nov. 6
-1.4
— O.I
Mar. I
1-7
0.5
July
9
2.0
0.4
16
1.4
0.2
II
1.7
0.5
19
2.0
0.4
26
1.4
0.2
21
1.8
0.5
29
1.9
0.4
Dec. 6
1.4
O.I
31
1.9
0.5
Aug.
8
19
0.4
16
1.4
— O.I
Apr. 10
-1.9
+ 0.4
18
-1.8
+ 0.3
26
-1.4
0.0
20
2.0
0.4
28
1.7
0.3
36
-1.4
+ 0.1
30
— 2.0
+ 0.4
Sept.
7
-1.7
+ 0.2
At opposition, the stellar magnitude of Uranus is 6.9, of Nepttme 7.6.
k»=the ratio of the area of the illuminated portion of the apparent disk to
the area of the entire apparent disk regarded as circular.
* These values of the magnitudes of the planets have been computed from formulse given in the Potsdam
Observations, vol. 8, page 366.
1912-
■39
[Bph zs]
610
SATELLITES OP JUPITER, 1912,
s
N
APPARENT ORBITS OF THE SATELLITES OF JUPITER AT DATE OF OPPOSI-
TION, JUNE /, igi2, AS SEEN IN AN INVERTING TELESCOPE.
{The vertical scale is three times the horizontal one.)
In the above diagram the central vertical ellipse represents the disk of
Jupiter, elongated three times in the vertical direction, and the inner ellipse
represents the orbit of Satellite V. The object of the figure is to facilitate the
identification of satellites in cases where the diagrams of configurations do not
suffice. For example, if two satellites are seen together, a reference to the above
figure will show which is the inner and which the outer one of the pair.
The ephemeris of the four outer satellites of Jupiter is given on pages 614-
635, each month occupying two pages, which contain, respectively, the times of
the phenomena and the diagrams of the configurations. The latter are given for
each day, Jupiter being represented by a light disk, Oi in the center of the page,
and the relative positions of the satellites at the V^ashington time stated above
the diagrams being indicated by dots. The designation of each satellite is shown
by a numeral placed to the right or left of the dot, according as the motion of the
satellite at the instant in question is toward the east or toward the west, the
motion being always toward the numeral. In constructing the diagrams the
latitudes of the satellites are always considered zero, except where two or more
of them chance to be at nearly the same distance from the planet, when they are
placed one above the other, according to their apparent latitudes. If, at the
epoch of any configuration, one or more satellites are projected on the disk of
the planet, that phenomenon is indicated by a light disk, 0> ^^ the left-hand side
of the page; and if any satellites are invisible on account of being occulted behind
the disk of the planet, or eclipsed by its shadow, that circumstance is indicated
by a dark disk, #, at the right-hand side of the page. In both cases the annexed
numerals serve to point out which satellites are thus rendered invisible.
The differential coordinates of the sixth and seventh satellites will be found
on page 613.
MEAN SYNODIC PERIODS OF THE SATELLITES,
d h m 8
d
d h m 8
d
I.
I 18 28 35.945
a= 1.769 860 48
V.
0 II 57 27.635
=» 0.498 236 52
II.
3 13 17 53.735
= 3.55409416
VI.
=266.00
III.
7 3 59 35.854
= 7.16638720
VII.
BS260.06
IV.
16 x8 5 6.928
« 16.75355241
[Epl
1 xaj
SATELLITES OF JUPITER, 1912.
611
SATELLITE V.
WASHINGTON MEAN TIME OF EVERY TWENTIETH GREATEST ELONGATION.
d
h
d
h
d
h
d
h
Mar.
o
ZI.8
£.
May
29
15.7
E.
Mar.
0
17.8 W.
May
29
9.7 w.
zo
XI.O
E.
June
8
14.8
E.
10
16.9 W.
June
8
8.8 W.
20
10. 1
E.
18
139
E.
20
i6.i W.
18
7.9 W.
30
9.2
E.
28
13.0
E.
30
15.2 W.
28
7.0 W.
Apr.
9
8.3
E.
July
8
X2.I
E.
Apr.
9
14.3 W.
July
8
6.1 W.
19
7-4
E.
18
XI.2
E.
19
13.4 w.
18
17.2 w.
29
6.5
E.
28
10.3
E.
29
12.4 W.
28
16.3 w.
May
9
17-5
E.
Aug.
7
9.4
E.
May
9
II.5 W.
Aug.
7
15.4 w.
19
16.6
E.
17
8.6
E.
19
10.6 W.
17
14.6 w.
WASHINGTON MEAN TIME OF SUPERIOR GEOCENTRIC CONJUNCTION.
SATELLITE I.
d
h m
d
h m
d
h m
d
h m
Jan. 2
5 55 3
Mar. 23
16 9.5
June 13
0 26.7
Sept. 2
9 24.7
4
0 25.3
25
10 37.2
14
x8 52.8
4
3 53 6
5
18 55 2
27
5 4.8
16
13 18.8
5
22 22.5
7
13 25.1
28
23 32.3
18
7 44-9
7
16 51.5
9
7 550
30
17 59-7
20
2 II. 0
9
II 20.6
xz
2 24.9
Apr. I
12 27.1
21
20 37.2
II
5 49-7
12
20 54.7
3
6 54.4
23
15 3-5
13
0 18.9
14
15 24.5
5
I 21.6
25
9 298
14
x8 48.1
16
9 54 2
6
19 48.8
27
3 56.1
16
13 17.4
x8
4 24.0
8
14 159
28
22 22.5
18
7 46.7
19
22 53.7
10
8 43.0
30
16 48.9
20
2 x6.o
21
17 23.4
12
3 lo.o
July 2
II 15 3
21
20 45 4
23
II 53.0
13
21 36.9
4
5 41.8
23
15 149
25
6 22.5
15
16 3.7
6
0 8.4
25
9 44-4
27
0 52.0
17
xo 30.4
7
x8 35.2
27
4 13.9
28
X9 21.6
19
4 57.2
9
13 2.0
28
22 43.5
30
13 510
20
23 23.8
II
7 28.8
30
17 13.1
Feb. I
8 20.5
22
17 50.4
13
I 55.6
Oct. 2
XI 42.8
3
2 49-9
24
12 17.0
14
20 22.5
4
6 12.5
4
21 19.2
26
6 43.5
x6
14 49-5
6
0 42.2
6
15 48.5
28
X 99
18
9 16.6
7
19 X2.0
8
10 17.7
29
19 36.3
20
3 43.7
9
13 41.8
xo
4 46.8
May X
14 2.6
21
22 XO.9
XI
8 II.6
II
23 15.9
3
8 28.9
23
x6 38.2
13
2 41.5
13
17 45 0
5
2 55- 1
25
IX 5.6
14
21 11.4
15
12 14.0
6
21 21.3
27
5 330
16
15 414
17
6 42.9
8
15 47-4
29
0 0.5
18
10 11.4
19
I 11.8
10
10 13.5
30
18 28.1
20
4 414
20
19 40.7
12
4 39-6
Aug. X
12 55-7
21
23 11.5
22
14 9 5
13
23 5-7
3
7 23.4
23
17 41.6
24
8 38.2
15
17 317
5
X 51.2
25
X2 XI.7
26
3 6-9
17
II 57.7
6
20 19.0
27
6 41.8
27
21 35.5
19
6 23.6
8
14 46.9
29
I II.9
29
16 4.1
21
0 49.6
10
9 14 9
30
19 42.x
Mar. 2
10 32.6
22
19 155
12
3 42.9
Nov. I
14 12.3
4
5 i.o
24
13 41-4
13
22 XI.O
3
8 42.5
5
23 294
26
8 7.3
15
16 39.2
5
3 12.7
7
17 57-7
28
a 33.2
17
IX 7.5
6
21 43 0
9
X2 25.9
29
20 59.1
19
5 35.8
8
16 13.3
II
6 54.1
31
15 25.0
21
0 4.2
10
10 43.6
13
I 22.2
June 2
9 50.9
22
18 32.7
12
5 139
14
19 50- 3
4
4 16.8
24
13 1-2
13
23 44-2
16
14 18.3
5
22 42.7
26
7 29.8
15
18 14.6
18
8 46.2
7
17 8.7
28
1 58.5
17
12 44 9
20
3 14.0
9
II 34-7
29
20 27.2
19
7 153
21
21 41.8
II
6 0.7
31
14 55.9
21
I 45 6
[Eph la]
612
SATELLITES OF JUPITEB, 1912.
WASHINGTON MEAN TIME OF SUPERIOR GEOCENTRIC CONJUNCTION.
SATELLITE II.
Jan.
Feb.
Mar.
d
I
4
8
12
15
19
22
26
29
2
5
9
13
i6
20
23
27
I
5
8
12
i6
19
h
9
23
12
I
15
4
i8
7
20
lO
m
48.0
10.6
32.8
549
17.0
38.7
0.3
21.4
42.3
2.8
23 23.1
12 42.8
2 2.3
15 21.4
4 40- 3
17
7
20
9
23
58.8
16.7
34 3
51.4
8.0
12 24.2
I 39.8
14 550
Mar. 23
26
30
Apr. 2
6
9
13
17
20
24
27
May I
4
8
II
15
18
22
26
29
June
2
5
9
h
m
4
97
17
239
6
37.7
19 508
9
3.5
22 15.5
XI 27.2
o 38.3
13 49 2
2 59.3
16
5
18
7
20
9.2
18.3
27.6
35.9
44.6
9 52.4
23 0.6
12 8.0
I 159
14 23.1
3 31.0
16 38.2
5 46.4
Aug.
June 12
16
19
26
July
18
21
25
28
I
5
8
12
15
19
22
26
29
h m
18 53.8
8 2.6
21 10.6
10 20.0
23 28.7
30
12 38.8
4
I 48.5
7
14 59.5
II
4 9-9
M
17 21.8
6
19
8
22
II
O
13
3
16
5
33.4
46.6
59.4
13.8
27.8
43.5
58.5
15.4
31.5
49.3
19 6.6
8 25.4
21 43.7
Sept. 2
6
9
13
16
20
23
27
30
4
Oct.
Nov.
8
XI
15
18
22
25
29
X
5
9
X2
16
19
h
XX
o
13
3
16
5
19
8
21
II
o
14
3
x6
6
19
9
22
XX
X
m
3.6
22.8
43.5
3.8
25.5
46.4
8.7
303
53.3
157
391
2.1
26.0
49.6
14.0
37.9
2.7
26.9
51.8
X6.3
14 41.4
4 6.2
17 31.6
SATELLITE III.
d
h m
d
h m
d
h m
d
h m
Jan.
5
2 25.3
Apr.
7
7 "4
July
9
3 6.5
Oct. 10
6 X2.8
12
6 47.2
14
xo 46.8
x6
6 36.8
17
10 32.2
19
XI 7.5
21
14 18.0
23
xo I2.I
24
14 53.6
26
15 24.9
28
17 45 5
30
13 51.5
31
19 17.6
Feb.
2
19 39-9
May
5
21 9.1
Aug.
6
17 36.0
Nov. 7
23 43.0
9
23 51.6
13
0 29.8
13
2X 24.6
15
4 10.2
17
4 0.1
20
3 47-6
21
1 X7.3
22
8 38.0
24
8 5.5
27
7 4-4
28
5 14.1
Mar.
2
12 7.0
June
3
10 20.9
Sept.
4
9 15.0
9
16 5.2
10
13 37 7
II
13 20.2
16
19 58.6
17
x6 56.6
18
17 28.7
23
23 47 6
24
20 16.9
25
21 40.9
31
3 31.8
July
I
23 40.2
Oct.
3
I 55-5
SATELLITE IV
d
h m
d
h m
d
h m
d
h m
Jan.
7
14 13 2
Apr.
17
3 90
July 25
20 4.4
Nov. 3
11 42.9
24
xo 7.0
May
3
18 19. X
Aug. XI
12 42.7
20
8 X2.6
Feb.
xo
5 29.4
20
8 50.1
28
6 17.2
27
0 12.4
June
5
23 41
Sept. 14
0 42.1
Mar
14
18 6.3
22
13 26.3
30
19 49.8
31
II 5.9
July
9
4 21.2
Oct. 17
15 33.1
[Eph la]
SIXTH SATELLITE OF JUPITER.
613
DIFFERENTIAL COORDINATES OF JUPITER'S SIXTH SATELLITE 1912.
Washington
^Yl-^Jup.
Washington
^vi-^Jup.
Washington
^vi-W
Mean Noon.
"vi-^Jup.
Mean Noon.
^'vi-^^Jup.
Mean Noon.
Si-^Jup.
m
8
1
m
8
•
m
i
t
}an.
X
+2
I
— 16. 1
May
5
—4
23
+ 3.0
Sept.
7
+2
26
—19.2
6
I
50
17.8
xo
4
16
6.4
12
2
10
20.7
II
I
38
19-3
15
4
5
97
17
X
52
22.0
16
I
24
20.6
20
3
49
12.8
22
I
34
23.1
21
I
10
21.9
25
3
28
157
27
I
16
238
26
0
55
23.0
30
3
2
18.2
Oct.
2
0
58
24.4
31
0
39
24.1
June
4
2
31
20.2
7
0
40
24.8
Feb.
5
0
22
25.0
9
X
55
21.7
12
0
23
25.0
10
+0
4
255
M
I
17
22.5
17
+0
7
25.0
15
—0
15
25.8
19
—0
37
22.7
22
—0
10
24.8
20
0
35
26.0
24
+0
3
22.1
27
0
26
24.4
25
0
55
25.9
29
0
42
20.9
Nov.
I
0
42
23.8
March
I
I
15
255
July
4
I
19
19. 1
6
0
57
23.x
6
I
36
24.8
9
I
53
16.7
II
I
II
22.2
II
I
57
239
14
2
21
X3.8
16
X
25
21.2
16
2
18
22.7
19
2
45
10.4
21
X
38
19.9
21
2
38
2Z.2
24
3
3
6.9
26
X
49
18.6
26
2
57
19.4
29
3
15
+ 3.3
J./ec.
I
2
I
17.3
31
3
16
»7-4
Aug.
3
3
22
- 0.3
6
2
XX
15.8
April
5
3
34
X5.1
8
3
24
3.8
II
2
2X
14.2
10
3
51
X2.5
13
3
22
71
16
2
30
12.6
15
4
3
9.6
x8
3
16
10.2
21
2
38
10.8
20
4
13
6.6
23
3
7
13.0
26
2
45
9.0
25
4
21
3.5
28
2
55
15.4
31
—2
51
- 7.2
30
-4
25
— 0.3
Sept.
2
+2
41
-17.5
SEVENTH SATELLITE OF JUPITER.
DIFFERENTIAL COORDINATES OF JUPITER'S SEVENTH SATELLITE 19U.
Washington
Mean Noon.
«vit-^Jup.
^TlfW
Washington
Mean Noon.
Sor^Jnp.
^vir-^jup.
Washington
Mean Noon.
Oyir^Jup.
^vnr^Jup.
m
s
t
m
s
f
m
i
f
Jan. X
+3
2
+ 14.7
May
5
— I
30
— 13-2
Sept.
7
+2
55
+X6.4
6
3
12
15.6
10
2
3
14.6
12
3
6
174
IX
3
20
16.4
15
2
32
155
17
3
16
18.3
x6
3
27
17. 1
20
2
56
16.0
22
3
23
18.9^
21
3
34
17.6
25
3
12
159
27
3
29
19.2
26
3
40
17.9
30
3
22
153
Oct.
2
3
34
193
31
3
44
z8.i
June
4
3
26
143
7
3
37
193
Feb. 5
3
47
18.1
9
3
23
12.8
12
3
39
19.2
10
3
49
18.Q
14
3
12
II.O
17
3
39
19. 1
15
3
50
17.7
19
2
57
8.9
22
3
38
18.8
20
3
50
17.3
24
2
37
6.7
27
3
37
18.3
25
3
48
16.6
29
2
12
4-4
Nov.
X
3
34
17.7
March i
3
43
15.6
July
4
I
46
— 2.1
6
3
30
17.0
6
3
36
14.3
9
z
19
-f 0.2
IX
3
25
16.2
II
3
27
12.8
14
0
51
2.3
16
3
19
15.2
16
3
14
IX.O
19
—0
24
42
21
3
12
14.0
21
2
59
8.9
24
+0
2
5.9
26
3
4
12.7
26
2
40
6.6
29
0
27
7.3
Dec.
X
2
54
IX.2
31
2
18
41
Aug.
3
0
51
8.5
6
2
43
9.4
April 5
I
52
+ 1-4
8
I
13
9.7
IX
2
30
7 5
10
X
23
— 1.3
13
X
34
X0.8
x6
2
x6
53
15
0
51
40
18
I
54
11.9
21
2
0
2.9
20
+0
17
6.7
23
2
X2
13.0
26
I
43
+ 0.3
25
—0
19
9.2
28
2
28
14. 1
31
+1
24
— 2.5
30
—0
55
-1x4
Sept.
2
+2
[Eph
42
X2J
4-15.3
614
JUPITER'S SATELLITES, 1912.
WASHINGTON MEAN TIME.
JANUARY.
d h m ■
d h m 8
d h m ■
1 6 50
I.
Sh.
In.
11 21 40
I.
Sh.
In.
SI 18 30
I*
Oc.
Re.
7 6 56
II.
Ec.
Dis.
22 32
I.
Tr.
In.
SS Z2 30
I.
Sh.
In.
7 33
I.
Tr.
In.
22 56 32
II.
Ec.
Dis.
Z3 29
I.
Tr.
In.
8 17
III.
Sh.
In.
23 53
I.
Sh.
Eg.
14 42
I.
Sh.
Eg.
9 3
I.
Sh.
Eg.
13 0 45
I.
Tr.
Eg.
14 46 3
II.
Ec.
Dis.
9 46
I.
Tr.
Eg.
2 28 49
III.
Ec.
Dis.
15 42
I.
Tr.
Eg.
10 5
III.
Sh.
Eg.
3 14
II.
Oc.
Re.
Z9 20
II.
Oc.
Re.
zz 7
II.
Oc.
Re.
4 I 58
III.
Ec.
Re.
20 8
III.
Sh.
In.
zz 8
III.
Tr.
In.
5 48
III.
Oc.
Dis.
2Z 59
III.
Sh.
Eg.
13 6
III.
Tr.
Eg.
7 46
III.
Oc.
Re.
S3 0 8
III.
Tr.
In.
a 4 7 2
I.
Ec.
Dis.
z8 57 46
I.
Ec.
Dis.
2 5
III.
Tr.
E^.
Du.
7 2
I.
Oc.
Re.
22 Z
I.
Oc.
Re.
9 48 22
I.
Ec.
8 I Z9
I.
Sh.
In.
13 z6 8
I.
Sh.
In.
Z2 59
I.
Oc.
Re.
^ 44
II.
Sh.
In.
17 t
!.♦
Tr.
In.
S4 6 58
I.
Sh.
In.
2 3
I.
Tr.
In.
17 38
II.»
Sh.
In.
758
I.
Tr.
In.
3 15
II.
Tr.
In.
z8 21
I*
Sh.
Eg.
9 II
I.
Sh.
Eg.
3 31
I.
Sh.
Eg.
19 14
I.
Tr.
Eg.
9 32
II.
Sh.
In.
4 16
I.
Tr.
Eg.
Z9 27
II.
Tr.
In.
zo Z2
I.
Tr.
Eg.
4 2Z
II.
Sh.
Eg.
20 16
II.
Sh.
Eg.
ZZ 36
II.
Tr.
In.
5 54
II.
Tr.
Eg.
22 6
IT.
Tr.
Eg.
Z2 ZO
II.
Sh.
Eg.
22 35 34
I.
Ec.
Dis.
14 Z3 26 z6
I.
Ec.
Dis.
14 14
II.
Tr.
Eg.
4 I 32
I.
Oc.
Re.
16 3Z
I.«
Oc.
Re.
S6 4 z6 50
I.
Ec.
Dis.
19 47
I.
Sh.
In.
15 zo 37
I.
Sh.
In.
7 29
I.
Oc.
Re.
20 23 29
II.
Ec.
Dis.
zz 3Z
I.
Tr.
In.
S6 z 26
I.
Sh.
In.
20 33
I.
Tr.
In.
Z2 13 3
II.
Ec.
Dis.
2 28
I.
Tr.
In.
21 59
I.
Sh.
Eg.
Z2 49
I.
Sh.
Eg.
3 39
I.
Sh.
Eg.
22 3Z 8
III.
Ec.
Dis.
13 44
I.
Tr.
Eg.
4 2 32
II.
Ec.
Dis.
22 46
I.
Tr.
Eg.
z6 Z2
III.
Sh.
In.
4 41
I.
Tr.
Eg
5 0 3 19
III.
Ec.
Re.
z6 36
II.»
Oc.
Re.
8 4Z
II.
Oc.
Re.
0 30
II.
Oc.
Re.
z8 z
III.*
Sh.
Eg.
zo 24 34
III.
Ec.
Dis.
z 28
III.
Oc.
Dis.
19 50
III.
Tr.
In.
II 59 48
III.
Ec.
Re.
3 25
III.
Oc.
Re.
21 48
III.
Tr.
Eg.
14 26
III.
Oc.
Dis.
17 3 57
I.*
Ec.
Dis.
16 7 54 40
I.
Ec.
Dis.
16 23
III.*
Oc.
Re.
20 z
I.
Oc.
Re.
iz 0
I.
Oc.
Re.
22 45 II
I.
Ec.
Dis.
6 14 Z5
I.
Sh.
In.
17 5 5
I.
Sh.
In.
S7 1 58
I.
Oc.
Re.
15 2
II.
Sh.
In.
6 z
I.
Tr.
In.
19 55
I.
Sh.
In.
15 2
I.
Tr.
In.
6 56
II.
Sh.
In.
20 57
I.
Tr.
In.
z6 28
I.
Sh.
Eg.
7 18
I.
Sh.
Eg.
22 7
I.
Sh.
Eg.
16 39
II.
Tr.
In.
8 Z4
I.
Tr.
Eg.
22 50
II.
Sh.
In.
Z7 16
I.«
Tr.
Eg.
8 50
II.
Tr.
In.
23 zo
I.
Tr.
Eg.
Z7 40
II.«
Sh.
Eg.
9 34
II.
Sh.
Eg.
S8 0 59
II.
Tr.
In.
Z9 18
II.
Tr.
Eg.
IZ 29
II.
Tr.
^•
I 28
II.
Sh.
Eg.
7 zz 32 28
I.
Ec.
Dis.
18 2 23 9
I.
Ec.
Dis.
3 37
II.
Tt.
D».
Z4 31
I.
Oc.
Re.
5 30
I.
Oc.
Re.
17 13 39
I.«
Ec.
« 8 44
I.
Sh.
In.
23 33
I.
Sh.
In.
20 28
I.
Oc
Re.
9 32
I.
Tr.
In.
19 0 30
I.
Tr.
In.
S9 14 23
I.
Sh
In.
9 40 z
II.
Ec.
Dis.
z 29 32
11.
Ec.
Dis.
15 27
I.
Tr.
In.
10 56
I.
Sh.
Eg.
z 46
I.
Sh.
Eg.
z6 36
I.«
Sh.
H
zz 45
I.
Tr.
Eg.
2 43
I.
Tr.
Eg.
17 19 3
II.«
Ec.
Du.
Z2 15
III.
Sh.
In.
558
II.
Oc.
Re.
17 40
I.«
Tr.
Eg.
13 52
II.
Oc.
Re.
6 27 z
III.
Ec.
Dis.
22 2
II.
Oc.
Re.
14 3
III.
Sh.
Eg.
8 Z Z2
III.
Ec.
Re.
80 0 6
III.
Sh.
In.
Z5 30
III.
Tr.
In.
zo 9
III.
Oc.
Dis.
I 57
III.
Sh.
Eg.
Z7 28
III.«
Tr.
Du.
Z2 6
III.
Oc.
Re.
4 24
III.
Tr.
In.
9 6 0 53
I.
Ec.
20 5z 30
I.
Ec.
Dis.
6 21
III.
Tr.
E^.
Dis.
9 I
I.
Oc.
Re.
SO 0 0
I.
Oc.
Re.
zz 42 z
I.
Ec.
10 3 12
I.
Sh.
In.
z8 2
I*
Sh.
In.
14 57
I.
Oc.
Re.
4 2
I.
Tr.
In.
19 0
I.
Tr.
In.
81 8 5z
I.
Sh.
In.
4 20
II.
Sh.
In.
20 14
I.
Sh.
Eg.
9 56
I.
Tr.
In.
5 24
I.
Sh.
Eg.
20 Z4
II.
Sh.
In.
II 4
I.
Sh.
Eg.
6 3
II.
Ir.
In.
2Z 13
I.
Tr.
Eg.
12 8
II.
Sh.
In.
6 15
I.
Tr.
Eg.
22 14
II.
Tr.
In.
la 9
I.
Tr.
Eg.
6 58
II.
Sh.
Eg.
22 52
II.
Sh.
Eg.
14 2Z
II.
Tr.
In.
8 42
II.
Tr.
Ef.
SI 0 52
II.
Tr.
Eg.
14 46
II.
Sh.
Eg.
11 0 29 24
I.
Ec.
Dis.
15 19 59
I.
Ec.
Dis.
16 59
II.«
^ Tr.
Eg.
3 31
I.
Oc.
Re.
Note.-
—In. denotes ingress ; Eg., egress ; Dis., disappearance ; Re., reappearance ; Ec.. eclipse.
Oc. denotes occnltation ; Tr., transit of the satellite ; Sh., transit of the shadow ; * Visible at Waahlnfftoa
[Eph xa]
JUPITER'S SATELLITES, 1912.
615
WASHINGTON MEAN TIME.
JANUARY.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
IV. No Eclipse.
Configurations
at if" JO" for an Inverting Telescope,
•
West
East
z
4*
I- 3* O '2
A
4*
3'
O 1*2-
3
•4
•3
2- •! O
4
•4
•3*2 0 I*
5
•4
0 *3'2
'!•
6 02-
•4 I'O
•3
7
•2 0 '4 •! 3'
8
I- 3"0 '2 '4
9
3'
0 •12*
•4
10
•3
2"I 0
•4
II
•3 '2 0 I'
•4
12
•I 0 '3 '2
4*
13 Oi-
02*
•3
4-
14
2- 0 -I 4
•
15
I- Osl
i6
3' 4' 0 'I 2*
17
4" '3
I •2* 0
i8
4-
•3 *2 0 I*
19
4'
•I 0 "3 '2
20
•4
Ol"2*
•3
21
•4
2- 0
3-
-!•
22
•4
1- 0 3-
-2«
23
3" '4 0 •! 2'
-41
3*
I- 2* 0 '4
25
•3 '2 0 I*
•4
26
•I 0 '3 '2
•4
27
0 I'2*
•3
•4
28
2- 0
3"
4*
-!•
29 Oi*
0 3-
4'
'2«
30
3. Q •! .2
4*
31
3'
I* 2* 0 4*
[Eph 13]
616
JUPITER'S SATELLITES, 1912.
WASHINGTON MEAN TIME.
FEBRUARY.
d h m 8'
d h m 8
d h m 8
1 6 lo 28
I.
Ec.
Dis.
11 I 53
I.
Sh.
Eg.
aO 13 51
III.
Sh.
Eg.
9 26
I.
Oc.
Re.
3 3
I.
Tr.
Eg.
16 55
III.*
Tr.
In.
a 3 19
I.
Sh.
In.
4 I
II.
Sh.
In.
17 22 38
1*
Ec.
Dis.
4 25
I.
Tr.
In.
6 25
II.
Tr.
In.
18 51
III.
Tr.
Eg.
5 32
I.
Sh.
Eg.
6 39
II.
Sh.
Eg.
20 47
I.
Oc
Re.
6 35 32
II.
Ec.
Dis.
9 4
II.
Tr.
Eg.
ai 14 30
I.*
Sh.
In.
6 38
I.
Tr.
Eg.
21 0 48
I.
Ec.
Dis.
15 44
I.*
Tr.
In.
XI 22
II.
Oc.
Re.
12 0 22
L
Oc.
Re.
16 43
I.*
Sh.
Eg.
X4 22 6
III.
Ec.
Dis.
18 9
I.«
Sh.
In.
17 56
I.*
Tr.
Eg.
15 58 24
III.*
Ec.
Re.
19 20
I.
Tr.
In.
19 54
II.
Sh.
In.
18 42
III.
Oc.
Dis.
20 22
I.
Sh.
Eg.
22 25
II.
Tr.
In.
20 38
III.
Oc.
Re.
21 32
I.
Tr.
E?-
22 32
11.
Sh:
Eg.
8 0 38 48
I.
Ec.
Dis.
22 25 5
II.
Ec.
Dis.
a« I 3
II.
Tr.
Eg.
356
I.
Oc.
Re.
18 3 22
II.
Oc.
Re.
II 51 3
I.
Ec.
Dis.
21 48
I.
Sh.
In.
8 0
III.
Sh.
In.
15 15
I.*
Oc
Re.
22 54
I.
Tr.
In.
9 53
III.
Sh.
Eg.
38 8 58
I.
Sh.
In,
4 0 0
I.
Sh.
Eg.
12 48
III.
Tr.
In.
10 X2
I.
Tr.
In.
I 7
I.
Tr.
Eg.
14 45
III.
Tr.
Eg.
II II
I.
Sh.
Eg.
X 26
II.
Sh.
In.
15 29 8
I.«
Ec.
Dis.
12 25
I.
Tr.
Ej.
Dis.
3 43
II.
Tr.
In.
18 51
I.
Oc.
Re.
14 14 46
II.
Ec.
4 4
II.
Sh.
Eg.
14 12 37
I.
Sh.
In.
19 18
II.
Oc.
Re,
6 21
II.
Tr.
Eg.
13 48
I.
Tr.
In.
24 2 13 32
III.
Ec
Dis.
19 7 15
I.
Ec.
Dis.
14 50
I.*
Sh.
Eg.
3 53 10
III.
Ec
Re.
22 25
I.
Oc.
Re.
16 I
I.*
Tr.
Eg.
6 19 21
I.
Ec
Dis.
6 x6 16
I*
Sh.
In.
17 19
II.*
Sh.
In.
7 7
III.
Oc.
Dis.
17 24
I.*
Tr.
In.
19 45
II.
Tr.
In.
9 4
III.
Oc
Re.
x8 28
!.♦
Sh.
Eg.
19 57
II.
Sh.
Eg.
9 44
I.
Oc
Re.
19 36
I.
Tr.
Eg.
22 24
II.
Tr.
E?-
26 3 27
I.
Sh.
In.
19 52 3
II.
Ec.
Dis.
16 9 57 34
I.
Ec.
Dis.
4 41
I.
Tr.
In.
6 0 42
II.
Oc.
Re.
13 20
I.
Oc
Re.
5 39
I.
Sh.
Eg.
4 3
III.
Sh.
In.
16 7 5
I.
Sh.
In.
6 54
I.
Tr.
Eg.
5 53
III.
Sh.
Eg.
8 17
I.
Tr.
In.
9 12
II.
Sh.
In.
8 38
III.
Tr.
In.
9 18
I.
Sh.
Eg.
II 44
II.
Tr.
In.
xo 34
III.
Tr.
Eg.
10 30
I.
Tr.
Eg.
II 50
II.
Sh.
Eg.
13 35 36
I.
Ec.
Dis.
XI 41 37
TI.
Ec.
Dis.
14 22
11*
Tr.
Eg.
16 54
I.*
Oc.
Re.
16 41
II.*
Oc.
Re.
26 0 47 45
I.
Ec.
Dis.
7 xo 44
L
Sh.
In.
22 16 II
III.
Ec.
Dis.
4 13
I.
Oc.
Re.
II 53
I.
Tr.
In.
23 54 42
III.
Ec.
Re.
21 55
I.
Sh.
In.
12 57
I.
Sh.
Eg.
17 3 2
III.
Oc.
Dis.
23 9
I.
Tr.
In.
14 5
I.
Tr.
Eg.
4 25 53
I.
Ec.
Dis.
27 0 8
I.
Sh.
Eg.
14 43
II.
Sh.
In.
458
III.
Oc.
Re,
I 22
I.
Tr.
Eg.
17 4
II*
Tr.
In.
7 49
I.
Oc.
Re.
3 31 21
II.
Ec.
Dis.
17 21
II.»
Sh.
Eg.
18 I 34
I.
Sh.
In.
8 36
II.
Oc.
Re.
19 43
II.
Tr.
Eg.
2 46
I.
Tr.
In.
15 55
III.*
Sh.
In.
8843
L
Ec.
Dis.
3 46
I.
Sh.
Eg.
17 50
III.*
Sh.
Eg.
II 24
I
Oc.
Re.
4 59
I.
Tr.
Eg.
19 16 5
I.
Ec.
Dis.
9 5 12
I.
Sh.
In.
6 37
II.
Sh.
In.
20 58
III.
Tr.
In.
6 22
I.
Tr.
In.
9 6
II.
Tr.
In.
22 42
I.
Oc
Re.
7 25
I
Sh.
Eg.
9 15
II.
Sh.
Eg.
22 54
III.
Tr.
Eg.
8 34
I.
Tr.
Eg.
11 44
II.
Tr.
Eg.
28 16 23
I.*
Sh.
In.
9 8 33
II.
Ec.
Dis.
22 54 18
I.
Ec.
Dis.
17 38
1*
Tr,
In.
14 2
II.
Oc.
Re.
19 2 18
I.
Oc.
Re.
18 36
I.
Sh.
Eg.
x8 19 10
III.*
Ec.
Dis.
20 a
I.
Sh.
In.
19 51
I.
Tr.
Eg.
19 56 34
III.
Ec.
Re.
21 15
I.
Tr.
In.
22 29
II.
Sh.
In.
22 53
III.
Oc.
Dis.
22 15
I.
Sh.
Eg.
29 I 3
II.
Tr.
In.
10 0 50
III.
Oc.
Re.
23 28
I.
Tr.
Eg.
I 8
II.
Sh.
Eg.
2 32 22
I.
Ec.
Dis.
30 0 58 10
II.
Ec.
Dis.
341 '
II.
Tr.
Eg.
• 5 53
I.
Oc.
Re.
6 0
II.
Oc.
Re.
13 44 29
I.
Ec
Dw.
23 41
I.
Sh.
In.
XX 58
III.
Sh.
In.
17 lO
I.*
Oc.
Re.
,11 0 51
I.
Tr.
In.
NoTB.— In. denotes ingress ; Eg., egress ; Dis., disappearance ; Re., reappearance ; Bo, eclipse.
Oc. denotes occuUation; Tr., transit of the satellite; Sh., transit of the shadow: * Visible at Waahiagtoa.
[Eph la]
JUPITER'S SATELLITES, 1912.
617
WASHINGTON MEAN TIME.
FEBRUARY.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
I.
d
d r
III.
II.
d
IV. No Eclipse.
Configurations at i6^ jo" for an Inverting Telescope.
2
*
4-
•I -30 '2
3
4'
0 I* 2* '3
4
4'
2- "I 0 3'
5
4"
•2 0 I* 3'
6
•4
3- 0 -2
-!•
7
•4
3"
^- 0
8
•4-3
•2
0 -I
9
I' •4*3 O '2
lO
0 •41* 2- '3
II
2* -i O *4'3
12
•2 0 I' 3' '4
13
3' 0 '2 -4
-!•
M
3-
!• 02- 4'
15
•3
2*
0 -1 4-
i6
•31- 0 4'
'2%
17
0 •I-3J-.
i8
2- -I P .3
19
4*
•2 0 I* 3*
20
21 O I'
22
23^
24_
26^
27^
?i
29
4'
iOj.
•2
3'
O 2-
4*
•3
2*
o -I
•4
•3 I' o
O '3'i 2
•I 2* O
•2 -4 O
•3
I'
3*
3*
3*
2*
I O 3* •2'4
Ql* 2-
O
[Eph la]
•4
•4
•2
•I
618
JUPITER'S SATELLITES, 1912.
WASHINGTON MEAN TIME.
MARCH.
d h m 8
d h m 8
d h m ■
1 lO 51
I.
Sh.
In.
11 8 0
I.
Oc
Re.
21 II 21
II.
Tr.
Eg.
13 6
I.
Tr.
In.
13 I 41
I.
Sb.
In.
19 24 40
I.
Ec.
Dis.
13 4
I.
Sb.
Eg.
2 56
I.
Tr.
In.
22 48
I.
Oc.
Re.
14 19
I*
Tr.
Eg.
3 54
I.
Sb.
Eg.
22 16 30
I.*
Sb.
In.
16 48 0
II*
Ec.
Dis.
5 9
I.
Tr.
Eg.
17 43
I.
Tr.
In.
21 53
II.
Oc.
Re.
8 38 2
II.
Ec.
Dis.
18 44
I.
Sh.
Eg.
2 6 10 49
III.
Ec.
Dis.
13 43
II.*
Oc.
Re
19 56
I.
Tr.
E?-
7 51 37
III.
Ec.
Re.
23 2 54
I.
Ec.
Dis.
28 0 28 31
II.
Ec.
dIs.
8 12 47
I.
Ec.
Dis.
23 48
III.
Sh.
In.
5 28
II.
Oc.
Re.
II 9
III.
Oc.
Dis.
18 I 45
III.
Sb.
Eg.
13 52 58
I.*
Ec
Dis.
II 39
I.
Oc.
Re.
2 28
I.
Oc.
Re.
17 16
I.*
Oc
Re.
13 5
III.
Oc.
Re.
4 53
III.
Tr.
In.
18 3 14
III.
Ec.
Dis.
8 5 20
I.
Sh.
In.
6 48
III.
Tr.
Eg.
19 47 38
III.
III.
Ec.
Re.
6 35
I.
Tr.
In.
20 9
I.
Sh.
In.
22 50
Oc.
Dis.
7 32
I.
Sh.
Eg.
21 24
I.
Tr.
In.
24 0 45
III.
Oc.
Re.
8 48
I.
Tr.
Eg.
22 22
I.
Sb.
Eg.
10 59
I.
Sh.
In.
II 47
II.
Sh.
In.
23 37
A:
Tr.
Eg.
12 10
I.
Tr.
In.
14 21
II.»
Tr.
In.
14 3 40
Sh.
In.
13 12
I.*
Sh.
Eg.
14 26
II.*
Sb.
Eg
6 12
II.
Tr.
In.
14 23
I.*
Tr.
Eg.
16 59
II.*
Tr.
Eg.
6 18
II.
Sb.
Eg.
19 32
II.
Sb.
In.
4 2 41 10
I.
Ec.
Dis.
8 50
II.
Tr.
Eg.
21 58
II.
Tr.
In.
6 7
I.
Oc.
Re.
17 31 18
I.*
Ec.
Dis.
22 II
II.
Sh.
Eg.
23 48
I.
Sb.
In.
20 56
I.
Oc.
Re.
26 0 35
II.
Tr.
Dis.
5 I 3
I.
Tr.
In.
Ifi 14 37
I.*
Sh.
In.
8 21 21
I.
Ec.
2 I
I.
Sb.
Eg.
15 52
I.*
Tr
In.
II 43
I.
Oc
Re.
3 16
I.
Tr.
Eg.
16 50
I.*
Sh.
Eg.
26 5 27
I.
Sh.
In.
6 4 38
II.
Ec.
Dis.
18 4
L
Tr.
Eg.
6 38
I.
Tr.
In.
II 10
II.
Oc.
Re.
21 54 51
II.
Ec.
Dis.
7 40
I.
Sb.
•Eg.
19 51
III.
Sh.
In.
16 2 59
II.
Oc.
Re.
8 51
I.
Tr.
Bg.
21 9 30
I.
Ec.
Dis.
" 59 35
I.
Ec.
Dis.
13 45 19
II.»
Ec
Dis.
21 47
III.
Sh.
Eg.
14 5 56
III.*
Ec.
Dis.
18 43
II.
Oc.
Re.
6 0 35
I.
Oc.
Re.
15 24
I.*
Oc.
Re.
27 2 49 40
I.
Ec
Dis.
0 58
III.
Tr.
In.
15 49 8
III.*
Ec.
Re.
6 11
I.
Oc.
Re.
2 53
III.
Tr.
Eg.
19 I
III.
Oc.
Dis.
7 42
III.
Sb.
In.
18 16
I.
Sh.
In.
20 56
III.
Oc.
Re.
9 41
III.
Sh.
Eg.
19 31
I.
Tr.
In.
17 9 6
I.
Sh.
In.
12 31
III.*
Tr.
In.
20 29
I.
Sh.
Eg.
10 20
I.
Tr.
In.
14 25
III.*
Tr.
Eg.
21 44
I.
Tr.
Eg.
II 19
I.
Sh.
Eg.
23 55
I.
Sh.
In.
T I 5
II.
Sb.
In.
12 32
I.
Tr.
Eg.
28 I 6
I.
Tr.
In.
3 38
II.
Tr.
In.
16 57
II.*
Sh.
In.
2 8
I.
Sh.
Eg.
3 43
II.
Sh.
Eg.
19 28
II.
Tr.
In.
3 18
I.
Tr.
Eg.
6 15
II.
Tr.
Eg.
19 36
II.
Sh.
Eg.
8 49
II.
Sh.
In.
15 37 53
I.*
Ec.
Dis.
22 6
II.
Tr.
Ej.
II 12
II.
Tr.
In.
19 4
I.
Oc.
Re.
18 6 27 58
I.
Ec
Dis.
II 28
II.
Sb.
Eg.
8 12 44
I.
Sh.
In.
9 52
I.
Oc.
Re.
13 49
II.*
Tr.
Dis.
14 0
I.*
Tr.
In.
18 3 34
I.
Sh.
In.
21 18 4
I.
Ec
14 57
I.*
Sh.
Eg.
4 47
I.
Tr.
In.
29 0 38
I.
Oc.
Re.
16 12
I.*
Tr.
Eg.
5 47
I.
Sh.
Eg.
18 24
I.
Sh.
In.
19 21 21
II.
Ec.
Dis.
7 0
I.
Tr.
Eg.
19 33
I.
Tr.
In.
9 0 27
II.
Oc.
Re.
II II 35
II.
Ec.
Dis.
20 37
I.
Sh.
Eg.
10 6 12
I.
Ec.
Dis.
16 14
II.*
Oc.
Re.
21 46
I.
Tr.
Dis.
10 8 41
III.
Ec.
Dis.
20 0 56 17
I.
Ec.
Dis.
80 3 2 22
II.
Ec.
II 50 40
III.
Ec.
Re.
3 45
III.
Sh.
In.
7 57
II.
Oc.
Re.
13 32
L*
Oc.
Re.
4 20
I.
Oc.
Re.
15 46 22
I.*
Ec
Dis.
15 8
III.*
Oc.
Dis.
5 43
III.
Sh.
Eg.
19 6
I.
Oc
Re.
17 3
III.*
Oc.
Re.
844
III.
Tr.
In.
22 0 10
III.
Ec.
Dis.
10 7 13
I.
Sh.
In.
10 30
III.
Tr.
Eg.
23 45 48
III.
Ec
Re.
8 28
I.
Tr.
In.
22 2
I.
Sh.
In.
81 2 35
III.
Oc
Dis.
9 26
I.
Sh.
Eg.
23 15
I.
Tr.
In.
4 29
III.
Oc.
Re.
10 4c
I.
Tr.
Eg.
81 0 15
I.
Sb.
Eg.
12 52
I.*
Sh.
In.
14 22
II.*
Sh.
In.
I 28
I.
Tr.
Eg.
14 0
I.*
Tr.
In.
16 56
II.*
Tr.
In.
6 14
II.
Sh.
In.
15 5
I.*
Sh.
Eg.
17 I
II.*
Sh.
Eg.
843
II.
Tr.
In.
16 13
I.*
Tr.
Eg.
19 33
II.
Tr.
Efr
853
II.
Sh.
Eg.
22 7
n.
Sh.
In.
11 4 34 34
I.
Ec.
Dis.
NoTB.— In. denote8 ingre88; Eg., egrea8; Dis., disappeartnce; Re., retppearance: Ec, ecllpae.
Oc. denotea occaltation; Tr., tranait of the aatellite; Sh., transit of the shadow; * Visible at Washington.
[Bph laj
JUPITER'S SATELLITES, 1912.
619
WASHINGTON MEAN TIME.
MARCH.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
I.
d
d r
III.
II.
d
IV. No Eclipse.
Configurations at 75** jo° for an Inverting Telescope,
East
•3 '21 • O
'4
2
0
•3 •!
'2
4*
3 02-
I- 0
•3
4*
4
•2 0
•I
3-4-
5|
•I 0
•23-4*
6|
3- 4- 0
J. 2'
7
3'
4*
2' -lO
8 Oi-
4*
•3
•2 0
4*
O -I
•2
xo
•4
I- 02*
•3
II
26
30
•4
•2
o
•I
12
•4
•I 0 '2
3'
13
•4
3- 0
I*
2-
14
3*
2- •! "40
15
•3
•2 Ol*
•4
16
o-i
•2
•4
'1%
17
!• 0 2-
•3
•4
18 1
2*
0
•I
3*
•4
19
I*
0
3*
4'
'2«
20
3* 0 I*
2*
4-
21
3'
2- -I 0
4*
22
•3
•2 OJf4*
23
4* -3 0
•2
'!•
24
4'
I- 0 2-
•3
25
4*
2- 0 •!
•3
4'
1*
o
27
•4
3*0 '1 2*
28
•4
3*
•I 2- 0
29
•4 '3
•2
0 I-
•4 '3 -lO
•2
31IO1
0'4 «?
[Eph 12]
620
JUPITER'S SATELLITES, 1912.
WASHINGTON MEAN TIME.
APRIL.
d h m 8
d h m 8
d h m 8
1 O 36
II.
Tr.
In.
11 4 44
I.
Tr.
In.
31 II 41 22
III.*
Ec.
Re.
o 46
II.
Sh.
Eg.
5 55
I.
Sh.
Eg.
13 22
Ill*
Oc.
Dis.
3 3
II.
Tr.
Eg.
6 56
I.
Tr.
Eg.
»5 14
III.*
Oc.
Re.
10 14 44
I.
Ec.
Dis.
13 58
II.*
Sh.
In.
18 32
I.
Sh.
In.
13 33
!.♦
Oc.
Re.
16 2
II.*
Tr.
In.
19 24
I.
Tr.
In.
3 7 20
I.
Sh.
In.
16 37
IL*
Sh.
Eg.
20 45
I.
Sh.
Eg.
8 28
I.
Tr.
In.
18 40
II.
Tr.
Eg.
21 37
I.
Tr.
Eg.
9 33
I.
Sh.
Eg.
12 I 4 54
I.
Ec.
Dis.
33 5 50
II.
Sh.
In.
10 40
I.
Tr.
Eg.
4 16
I.
Oc.
Re.
7 35
IL
Tr.
In.
16 19 13
II.»
Ec.
Dis.
22 10
I.
Sh.
In.
8 30
IL
Sh.
Eg.
21 10
II.
Oc.
Re.
23 10
I.
Tr.
In.
10 12
II.
Tr.
Dis.
8 4 43 4
I.
Ec.
Dis.
18 0 24
I.
Sh.
Eg.
15 55 6
L*
Ec.
8 0
I.
Oc.
Re.
I 23
I.
Tr.
Eg.
18 56
I.
Oc.
Re.
II 40
III.
Sh.
In.
8 10 40
II.
Ec.
Dis.
38 13 I
I.*
Sh.
In.
13 40
III.*
Sh.
Eg.
la 46
IL*
Oc.
Re.
13 51
L*
Tr.
In.
16 14
III.*
Tr.
In.
19 33 13
I.
Ec.
Dis.
15 14
L*
Sh.
Eg.
18 8
III.
Tr.
Eg.
22 43
I.
Oc.
Re.
16 3
I.*
Tr.
Eg.
4 I 49
I.
Sh.
In.
1** 5 54 34
III.
Ec.
Dis.
34 0 2 16
IL
Ec.
Dis.
2 55
I.
Tr.
In.
7 42 41
III.
Ea
Re.
4 18
IL
Oc.
Re.
4 a
I.
Sh.
Eg.
9 50
III.
Oc.
Dis.
10 23 27
I.
Ec.
Dis.
5 8
I.
Tr.
Eg.
" 43
III.*
Oc.
Re.
13 23
I.»
Oc.
Re.
II 24
II.
Sh.
In.
16 39
I.*
Sh.
In.
23 32
III.
Sh.
In.
13 38
II.»
Tr.
In.
17 37
I.
Tr.
In.
36 I 36
III.
Sh.
Eg.
14 3
II.»
Sh.
Eg.
18 52
I.
Sh.
Eg.
2 54
IIL
Tr.
In.
16 16
II.*
Tr.
Ej.
19 50
I.
Tr.
Eg.
4 46
III.
Tr.
Eg.
23 II 28
I.
Ec.
Dis.
15 3 16
II.
Sh.
In.
7 29
I.
Sh.
In.
6 2 28
I.
Oc.
Re.
5 M
II.
Tr.
In.
8 17
I.
Tr.
In.
20 17
I.
Sh.
In.
5 55
II.
Sh.
Eg.
9 42
I.
Sh.
Eg.
21 22
I.
Tr.
In.
7 51
II.
Tr.
Eg.
10 30
I.*
Tr.
Eg.
22 30
I.
Sh.
Eg.
14 I 36
I.*
Ec.
Dis.
19 7
II.
Sh.
In.
23 35
I.
Tr.
Eg.
17 10
I.
Oc.
Re.
20 44
IL
Tr.
In.
« 5 36 24
II.
Ec.
Dis.
16 II 7
I.*
Sh.
In.
21 47
IL
Sh.
Eg.
10 22
II.
Oc.
Re.
12 4
I.*
Tr.
In.
33 21
II.
Tr.
Eg.
17 39 47
I.
Ec.
Dis.
13 20
I.*
Sh.
Eg.
36 4 51 53
I.
Ec.
Dis.
20 55
I.
Oc.
Re.
14 17
I.*
Tr.
Eg.
7 50
I.
Oc.
Re.
■y I 57 9
III.
Ec.
Dis.
21 27 41
II.
Ec.
Dis.
37 I 57
I.
Sh.
In.
3 44 I
III.
Ec.
Re.
" I 57
II.
Oc.
Re.
2 44
I.
Tr.
In.
6 15
III.
Oc.
Dis.
8 29 57
I.
Ec.
Dis.
4 "
I.
Sh.
Eg.
8 8
III.
Oc.
Re.
II 36
I.*
Oc.
Re.
456
I.
Tr.
Eg.
14 45
I.*
Sh.
In.
19 35
III.
Sh.
In.
13 19 54
IL*
Ec.
Dis.
15 49
I.*
Tr.
In.
21 37
III.
Sh.
Eg.
i7 28
IL
Oc.
Re.
16 58
I.*
Sh.
Eg.
23 25
III.
Tr.
In.
23 20 14
I.
Ec.
Dis.
18 2
I.
Tr.
Eg.
18 I 18
III.
Tr.
Eg.
38 2 16
I.
Oc.
Re.
8 0 41
II.
Sh.
In.
5 35
I.
Sh.
In.
13 50 6
IIL*
Ec.
Dis.
2 51
II.
Tr.
In.
631
I.
Tr.
In.
15 40 45
III.*
Ec.
Re.
3 20
II.
Sh.
Eg.
7 49
I.
Sh.
Eg.
16 49
III.
Oc.
Dis.
5 28
II.
Tr.
Eg.
8 43
I.
Tr.
Eg.
18 42
III.
Oc.
Re.
12 8 9
I.*
Ec.
Dis.
16 33
II.*
Sh.
In.
20 26
I.
Sh.
In.
15 22
I.*
Oc.
Re.
18 24
II
Tr.
In.
21 10
I.
Tr.
In.
9 9 14
I.
Sh.
In.
19 12
II.
Sh.
Eg.
32 39
I.
Sh.
Eg.
10 16
I.
Tr.
In.
21 2
II.
Tr.
Eg.
23 23
I.
Tr.
Eg.
II 27
I.
Sh.
Eg.
19 2 58 22
I.
Ec.
Dis.
39 8 25
II.
Sh
In.
12 29
I.*
Tr.
Eg.
6 3
I.
Oc.
Re.
9 53
IL
Tr.
In.
18 53 20
II.
Ec.
Dis.
30 0 4
I
Sh.
In.
" 4
IL*
Sh.
Eg.
23 34
II.
Oc.
Re.
0 57
I.
Tr.
In.
12 31
IL*
Tr.
E?.
10 6 36 30
I.
Ec.
Dis.
2 17
I.
Sh.
Eg.
17 48 39
I.
Ec.
D».
9 49
I.
Oc.
Re.
3 10
I.
Tr.
Eg.
20 42
I.
Oc.
Re.
15 38
III.*
Sh.
Tn.
10 45 9
II.*
Ec.
Dis.
SO 14 54
I*
Sh.
In.
17 39
III.
Sh.
Eg.
15 8
II.*
Oc.
Re.
15 37
I.*
Tr.
In.
19 52
III.
Tr.
In.
21 26 42
I.
Ec.
Dis.
17 7
I.
Sh.
Eg.
21 45
III.
Tr.
Eg.
31 0 30
I.
Oc.
Re.
17 49
I.
Tr.
Eg.
11 3 42
I.
Sh.
In.
9 52 0
III.
Ec.
Dis.
NoTS. — In. denotes ingress; Eg., egress; Dis., disappearance; Re., reappearance; Be, eclipse.
Oc. denotes occultatioa; Tr., transit of the satellite; Sh., transit of the shadow; * Visible st Washington.
[Bph xa]
JUPITER^S SATELLITES, 1912,
621
WASHINGTON MEAN TIME.
APRIL.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
d
d r
III.
II.
d
IV. No Eclipse.
Configurations at i^ o^ for an Inverting Telescope.
•
cd
Q
West.
East.
I
2"
o-t
•4
•3
2
•8
o
3*
•4
3
03- -I
•2
•4
402-
3' I*
0
•4
5
•3 '2
0 I-
4*
61
•3 -I
0 '2
4-
7
0 I* '3
2* 4*
8
2*
04-
•3
-l«
9
4* '2 I
•0
3*
10
4'
0 3"i
•2
11
4-
3' I-
02-
12
4-
3*
2*
0 1-
•
13
•4
•3 -I
0 '2
14
•4
O •3I' 2-
15
2- -lO
•3
16IO1
•2*4 O
3*
17
0 -I t -2
18
3. I-
0 2*
•4
19
3-
2'
0 -1
•4
20
*3 'I
0
•4
-2«
21
0 I' 2-
4'
-3«
22
2- -I O
•3
4'
23 Oi
•2
o
3* 4"
24
30
O -I s'4-
25
3' I- 4*0
2*
26
3*
4* 2- 0
•I
27
4*
•3 I- 0
-2«
28
4*
0
!• 2*
'1%
29
4'
•12- 0
•3
•4
o I-
3'
[Eph 12]
622
JUPITER'S SATELLITES, 1912.
WASHINGTON MEAN TIME.
MAY.
d h m s
d h m 8
d h m 8
1 2 37 6
II. Ec.
Dis.
11 6 14
I. Tr.
Tn.
31 22 49
I. Sh.
Eg.
6 37
II. Oc.
Re.
7 58
I. Sh.
Eg.
23 3
I. Tr.
Eg.
12 17 X
I.» Ec.
Dis.
8 27
I. Tr.
Eg.
33 10 23 14
II.* Ec.
Dis.
15 9
I.* Oc.
Re.
18 30 II
II. Ec.
Dis.
13 27
II.* Oc.
Re.
* 3 30
III. Sh.
In.
22 3
II. Oc.
Re.
17 58 II
I. Ec.
Dis.
5 34
III. Sb.
Eg.
la 3 7 32
I. Ec.
Dis.
20 22
I. Oc.
Re,
6 19
III. Tr.
In.
5 46
I. Oc.
Re.
33 15 5
I.* Sh.
In.
8 II
III. Tr.
Eg.
21 45 21
III. Ec.
Dis.
15 17
I.* Tr.
In.
9 23
I. Sh.
In.
13 0 13
I. Sh.
In.
15 24
III.* Sh.
In.
10 3
I.* Tr.
In.
0 40
I. Tr.
In.
16 18
III. Tr.
In.
II 36
I.* Sh.
Eg.
I 26
III. Oc.
Re.
17 18
I. Sh.
Eg.
12 16
I.* Tr.
Eg.
2 27
I. Sh.
Eg.
17 29
I. Tr.
Eg.
21 42
II. Sh.
In.
2 53
I. Tr.
Eg.
17 32
III. Sh.
Eg.
23 2
II. Tr.
In.
13 33
II.* Sh.
In.
18 12
III. Tr.
Eg.
8 0 21
II. Sh.
Eg.
14 26
II.* Tr.
In.
34 5 25
II. Sh.
In.
I 40
II. Tr.
Eg.
16 13
II.* Sh.
Eg.
548
II. Tr,
In.
6 45 28
I. Ec.
Dis.
17 3
11. Tr.
Eg.
8 5
II. Sh.
Eg.
9 35
I. Oc.
Re.
21 35 58
I. Ec.
Dis.
825
II.* Tr.
Eg.
4 3 51
I. Sh.
In.
14 0 12
I. Oc.
Re.
X2 26 42
I.* Ec.
Dis,
4 29
I. Tr.
In.
18 42
I. Sh.
In.
14 48
I.* Oc.
Re.
6 4
I. Sh.
Eg.
19 6
I. Tr.
In.
35 9 33
I.* Sh.
In.
6 42
I. Tr.
Eg.
20 55
I. Sh.
Eg.
9 43
I.» Tr.
In.
15 54 55
II.* Ec.
Dis.
21 19
I. Tr.
Eg.
II 46
I.* Sh.
Eg.
19 46
II. Oc.
Re.
1« 7 47 35
II. Ec.
Dis.
" 55
I.* Tr.
Eg.
6 I 13 51
I. Ec.
Dis.
II II
II.* Oc.
Re.
23 41 32
II. Ec.
Dis.
4 X
I. Oc.
Re.
16 4 23
I.* Ec.
Dis.
36 2 35
II. Oc.
Re.
17 47 41
III. Ec.
Dis.
18 38
I. Oc.
R3.
655 8
I. Ec.
Dis.
19 39 36
III. Ec.
Re.
16 II 26
III.* Sh.
In.
9 14
I.* Oc.
Re.
20 13
III. Oc.
Dis.
13 0
III.* Tr.
In.
37 4 2
I. Sh.
In.
22 5
III. Oc.
Re.
13 10
I.* Sh.
In.
4 9
I. Tr.
In.
22 20
I. Sh.
In.
13 32
III.* Sh.
Eg.
5 40 22
III. Ec.
Dis.
22 56
I. Tr.
In.
13 32
I.* Tr.
In.
6 15
I. Sh.
Eg.
• 0 33
I. Sh.
Eg.
14 53
III.* Tr.
Eg.
6 21
I. Tr.
Eg.
I 8
I. Tr.
Eg.
15 24
I.* Sh.
Eg.
8 I
III.* Oc.
Re.
10 59
II.» Sh.
In.
15 45
I.* Tr.
Eg.
18 42
11. Sh.
In.
12 10
II.* Tr.
In.
17 2 51
II. Sh.
In.
18 54
II. Tr.
In.
13 38
II.* Sh.
Eg.
3 34
II. Tr.
In.
21 22
II. Sh.
Eg.
14 48
II.* Tr.
Eg.
5 30
II. Sh.
Eg.
21 32
II. Tr.
Eg.
19 42 16
I. Ec.
Dis.
6 10
II. Tr.
E9.
38 I 23 37
I. Ec.
Dis.
22 27
I. Oc.
Re.
10 32 52
I* Ec.
Dis.
3 40
I. Oc.
Re.
7 i6 48
I. Sh.
In.
13 4
I.* Oc.
Re.
22 30
I. Sh.
In.
17 22
I. Tr.
In.
18 7 39
I. Sh.
In.
22 35
I. Tr.
In.
19 I
I. Sh.
Eg.
7 58
I. Tr.
In.
39 0 44
I. Sh.
Eg.
19 34
I. Tr.
Eg.
9 52
I.* Sh.
Eg.
0 47
I. Tr.
E?-
8 5 12 13
II. Ec.
Dis.
10 II
I.* Tr.
Eg.
12 59 8
II.* Ec
Dk
8 55
II. Oc.
Re.
21 5 43
II. Ec.
Dis.
15 42
II.* Oc.
Re.
14 10 40
I.* Ec.
Dis.
19 0 19
II. Oc.
Re.
19 52 5
I. Ec.
Dis.
16 54
I. Oc.
Re.
5 I 17
1. Ec.
Dis.
22 6
I. Oc.
Re.
9 7 28
III. Sh.
In.
7 30
I. Oc.
Re.
80 16 59
I. Sh.
In.
9 33
III.* Sh.
Eg.
30 I 42 48
III. Ec.
Dis.
17 I
I. Tr.
In.
9 41
III.* Tr.
In.
2 8
I. Sh.
In.
19 12
I. Sh.
Eg.
XI 16
I.* Sh.
In.
2 25
I. Tr.
In.
19 13
I. Tr.
Eg.
II 33
III.* Tr.
Eg.
4 21
I. Sh.
Eg.
19 22
III. Sh.
In.
II 48
I.* Tr.
In.
4 37
I. Tr.
Eg.
19 34
III. Tr.
In.
13 30
I.* Sh.
Eg.
4 44
III. Oc.
Re.
21 29
III. Tr.
Eg.
14 0
I.* Tr.
Eg.
16 8
II.* Sh.
In.
21 31
III. Sh.
Eg.
10 0 16
II. Sh.
In.
16 41
II. Tr.
In.
31 7 59
II.* Sh.
In.
I 18
II. Tr.
In.
18 48
II. Sh.
Eg.
8 I
11* Tr.
In.
2 56
II. Sh.
Eg.
19 18
II. Tr.
Eg.
ID 39
II.* Tr.
Eg.
3 56
II.. Tr.
Eg.
23 29 45
I. Ec.
Dis.
10 39
II * Sh.
Eg.
8 39 8
I. Ec.
Dis.
ai I 56
I. Oc.
Re.
14 19
I.* Oc.
Dis.
II 20
I.* Oc.
Re.
20 36
I. Sh.
In.
16 31
I. Oc.
Re.
11 5 45
I. Sh.
In.
20 51
I. Tr.
In.
NoTC— In. denotes ingress; Eg., egress; Dis., disappearance; Re., reappearance; Be, eclipse.
Oc. denotes occultatlon; Tr., transit of the satellite; Sh., transit of the shadow; * Visible at Washington.
[Eph la]
JUPITER^S SATELLITES, 1912,
623
WASHINGTON MEAN TIME.
MAY.
Phases of the Eclipses of the Satellites for an Inverting Telescope,
d
*
III.
IL
IV. No Eclipse.
Configurations at 12^ jo™ for an Inverting Telescope,
1
West.
East.
I
•4
0
'I V
-x«
2
•4
3- I'O
2*
3
3*
2*
•4O
•I
4'
•3
X- '2 0
•4
5;
•3 0
•I '2
•4
6 02-
•I 0
•3
•4
7!
•2 0
I'
'3
•4
8
•I 0
•2 3*
4'
9iOi-
3-0
2*
4-
10
3*
2*
o -I
4'
II
•3
•21' O
4'
12
•34*
0 •! '2
13
4*
•I
02- -3
M
4*
2*
0 I-
•3
15
4-
•I
0 -2 3'
22
31
16
•4
9-
2'
17 1
•4
3*
2- 0
-!•
181
•4 -3
•2 I- 0
19
•4
•8
0 -I
•2
20
1*
0 •42- '3
21
2*
0 I-
•4 -3
•I o
3'
•4
23 i
03-I-
2*
•4
24
3* 2- 0
4*
'!•
251
•3
•2 I'O
4-
26 1
•3
0 •! '2
4-
27
I'
0 '32' 4'
28
2*
04' •! -3
29
4*
•1
•2O 3-
30
4*
0 5: 2-
.:' o
[Eph la]
624
JUPITER'S SATELLITES, 1912.
WASHINGTON MEAN TIME.
JUNE.
d h m s
d h m 8
d h m 8
1 iz 27
I.* Tr.
In.
11 4 54
I.
Oc.
Dis.
21 9 30
III.*
Sh.
Eg.
II 27
I* Sh.
In.
7 20 21
I.
Ec.
Re.
14 44
II.*
Tr.
In.
13 39
1* Tr.
Eg.
12 2 3
I.
Tr.
In.
15 42
II.
Sb.
In.
13 41
I.* Sh.
E^.
2 19
I.
Sh.
In.
17 23
II.
Tr.
Eg.
2 2 12
II. Oc.
Dis.
4 16
I.
Tr.
Eg.
18 23
II.
Sb.
Eg.
4 53 2
II. Ec.
Re.
4 33
I.
Sh.
Eg.
19 31
I.
Oc.
Dis.
8 44
I.* Oc.
Dis.
17 35
II.
Oc.
Dis.
22 II 43
I.
Ec.
Re. •
10 57 45
!.♦ Ec.
Re.
20 47 31
II.
Ec.
Re.
22 16 40
I.
Tr.
In.
« 5 53
I. Tr.
In.
23 20
I.
Oc.
Dis.
17 II
I.
Sb.
In.
5 56
I. Sh.
In.
13 I 48 52
I.
Ec.
Re.
18 53
I.
Tr.
Eg.
8 5
I.* Tr.
Eg.
20 29
I.
Tr.
In.
19 25
I.
Sh.
Eg.
8 10
I.* Sh.
Eg.
20 48
I.
Sh.
In.
28 9 Z
II.*
Oc.
Dis.
9 23
III.* Oc.
Dis.
22 42
I.
Tr.
Eg.
12 43 a6
II.*
Ec.
Re.
II 35 36
III.* Ec.
Re.
23 I
I.
Sh.
Eg.
13 57
I.*
Oc.
Dis.
21 8
II. Tr.
In.
14 . 2 7
III.
Tr.
In.
16 40 16
I.
Ec.
Re.
21 16
II. Sh.
In.
3 19
III.
Sh.
In.
24 II 7
I.*
Tr.
In.
23 46
II. Tr.
Eg.
4 5
III.
Tr.
Eg.
II 40
I.*
Sh.
In.
23 56
II. Sh.
Eg.
5 30
III.
Sh.
Eg.
13 20
I.*
Tr.
Eg.
4 3 10
I. Oa
Dis.
12 29
II.*
Tr.
In.
13 54
I.*
Sh.
Eg.
5 26 16
I. Ec.
Re.
13 8
II.*
Sh.
In.
19 17
III.
Oc-
Dis.
6 0 19
I. Tr.
In.
15 7
II.*
Tr.
Eg.
21 17
III.
Oc.
Re.
0 25
I. Sh.
In.
15 48
II.
Sh.
Eg.
21 33 48
III.
Ec
Dis.
2 31
I. Tr.
Eg.
1746
I.
Oc.
Dis.
23 34 54
III.
Ec.
Re.
a 38
I. Sh.
E?-
20 17 28
I.
Ec.
Re.
25 3 52
II.
Tr.
In.
15 19
II.* Oc.
Du.
16 14 55
I.*
Tr.
In.
5 0
II.
Sh.
In.
18 10 51
II. Ec.
Re.
15 16
I.
Sh.
In.
6 31
II.
Tr.
Eg.
21 36
I. Oc.
Dis.
17 8
I.
Tr.
Eg.
7 40
II.
Sh.
Eg.
23 54 45
I. Ec.
Re.
17 30
I.
Sh.
Eg.
823
I.*
Oc.
Dis.
6 18 45
I. Tr.
In.
16 6 44
II.
Oc.
Dis.
II 8 51
I.*
Ec.
Re.
18 53
I. Sh.
In.
10 6 24
II.*
Ec.
Re.
»« 5 33
I.
Tr.
In.
20 58
I. Tr.
Eg.
12 12
I.*
Oc.
Dis.
6 8
I.
Sh.
In.
21 7
I. Sh.
Eg.
14 46 0
I.*
Ec.
Re.
7 46
I.
Tr.
Bg.
22 50
III. Tr.
In.
17 9 21
I.*
Tr.
In.
8 22
I.*
Sh.
Eg.
23 21
III. Sh.
In.
9 45
I*
Sh.
In.
22 9
II.
Oc.
Dis.
7 0 46
III. Tr.
Eg.
II 34
I.*
Tr.
Eg.
27 2 I 3a
II.
Ec.
Re.
X 31
III. Sh.
Eg.
II 59
L*
Sh.
Eg.
2 50
I.
Oc.
Dis.
10 15
II.* Tr.
In.
15 57
III.
Oc.
Dis.
5 37 25
I.
Ec.
Re.
10 34
II.* Sh.
In.
19 35 15
III.
Ec.
Re.
28 0 0
I.
Tr.
In.
12 53
II.* Tr.
Eg.
1« I 37
II.
Tr.
In.
0 37
L
Sh.
In.
13 14
II.* Sh.
Eg.
2 25
II.
Sh.
In.
2 13
I.
Tr.
Eg.
16 2
I. Oc.
Dis.
4 15
II.
Tr.
Eg.
a 51
I.
Sh.
Eg.
18 23 19
I. Ec.
Re.
5 5
II.
Sh.
E?-
847
III.*
Tr.
In.
8 13 II
I.* Tr.
In.
6 38
I.
Oc.
Dis.
10 48
III.*
Tr.
Eg.
13 22
I.* Sh.
In.
9 14 33
I.*
Ec.
Re.
II 16
Ill*
Sh.
In.
15 24
I.* Tr.
Eg.
19 3 48
I.
Tr.
In.
13 30
III.*
Sh.
Eg.
15 35
I.* Sh.
Eg.
4 14
I.
Sh.
In.
17 0
II.
Tr.
In.
9 4 28
II. Oc.
Dis.
6 I
I.
Tr.
Eg.
18 17
II.
Sh.
In.
7 29 36
II. Ec.
Re.
6 27
I.
Sh.
Eg.
19 40
II.
Tr.
Eg.
10 28
I.* Oc.
Dis.
19 51
II.
Oc.
Dis.
20 57
II.
Sh.
Ej.
Dis.
12 51 49
I.* Ec.
Re.
23 24 24
II.
Ec.
Re.
21 16
I.
Oc
10 7 37
I. Tr.
In.
20 I 5
I.
Oc.
Dis.
29 0 6 3
I.
Ec.
Re.
7 50
I. Sh.
In.
3 43 6
I.
Ec.
Re.
18 26
I.
Tr.
In.
9 50
I.* Tr.
Eg.
22 14
I.
Tr.
In.
19 6
1.
Sh.
In.
10 4
I.* Sh.
Eg.
22 42
I.
Sh.
In.
20 39
I.
Tr.
Eg.
12 39
III.* Oc.
Dis.
21 0 27
I.
Tr.
Eg.
21 20
I.
Sh.
Eg.
15 35 4
III. Ec.
Re.
0 56
I.
Sh.
Eg.
80 II 19
II.*
Oc.
Dis.
23 22
II. Tr.
In.
5 25
III.
Tr.
In.
15 20 4Z
II.
Ec
Re.
23 51
II. Sh.
In.
7 17
III.
Sh.
In.
15 42
I.
Oc
Dis.
11 2 0
II. Tr.
Eg.
7 25
III.
Tr.
Eg.
18 34 38
I.
Ec
Re.
2 31
II. Sh.
Eg.
NoTB.— In. denotes ingress ; Eg., egress; Dis., disappearance; Re., reappearance ; Be, eclipse.
Oc. denotes occultation ; Tr., transit of the satellite ; Sh.* transit of the shadow ; * Visible at WMhlngtoo.
[Bph la]
JUPITER'S SATELLITES, 1912
625
WASHINGTON MEAN TIME.
JUNE.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
I.
III.
e
r
II.
r
IV. No Eclipse.
i|Oi'
Configurations at ii^ jo^ for an Inverting Telescope.
East.
4*
3*
•2
o
2
•4
•3 O -I
•2
3
•4
I- O
2*
-3«
4
•4
2- O
•I
•3
5
I- M'a O
3*
o
?3' '2
7|02'
3- •! O
'4
8
3" '2 O I*
•4
9
•3 O -2
•4
'!•
lO
•s
I- Q 2-
4-
II
2* O 'I '3
4-
12
I- -2 O
3-4-
13
O i-J:-2
14
?. 4- 02-
15
3' 4* '2 O I'
i6
4*
•3
•lO '2
I7IO1
4'
•3 O
2*
18
•4
2'
0 -I -3
19
•4
1-
0
•3
20
•4
0 -I t
21
•4
•I 3-
0 2-
22
3*
2'
•4
0 ^•
23
•3
•I o
•4
24lOi*
•3 O
2*
•4
25
2'
o-i
•3
•4
26
•2 I-
0
•3
•4
27
0
•I -2 3'
4-
28
I- 3'0 2'
4-
29
3-
2- 0 !•
4-
30
•3
•I 0 4-
-2«
I9I2-
.40
[Bph la]
626
JUPITER'S SATELLITES, 1912.
WASHINGTON MEAN TIME.
JULY.
d h m 8
d h m 8
d h m 8
I 12 53
!.♦ Tr.
In.
11 9 26 20
I.«
Ec.
Re.
31 23 13 26
II.
Ec.
Re.
13 35
L* Sh.
In.
la 3 34
I.
Tr.
In.
83 0 x8 16
I.
Ec.
Re.
15 6
I. Tr.
Eg.
4 27
I.
Sh.
In.
18 17
I.
Tr.
In.
15 48
I. Sh.
Eg.
5 47
I.
Tr.
Eg.
19 20
I.
Sh.
In.
22 39
III. Oc.
Dis.
641
I.
Sh.
Eg.
20 30
I.
Tr.
Eg.
2 0 42
III. Oc.
Re.
15 39
III.
Tr.
In.
21 34
I.
Sh.
Eg.
I 3a 14
III. Ec.
DU.
17 45
III.
Tr.
Eg.
33 9 8
III.*
Oc.
Dis.
3 34 40
III. Ec.
Re.
19 15
III.
Sh.
In.
II 17
III.*
Oc.
Re.
6 9
U. Tr.
In.
21 31
III.
Sh.
Eg.
13 II
II.
Tr.
In.
7 34
II. Sh.
In.
2X 38
II.
Tr.
In.
13 27 37
III.
Ec.
Dis.
8 48
II.» Tr.
Eg.
23 26
II.
Sh.
In.
15 18
II.
Sh.
In.
10 9
!.♦ Oc.
Dis.
13 0 18
II.
Tr.
Eg.
15 32
I.
Oc.
Dis.
xo 15
II.* Sh.
Eg.
0 49
I.
Oc.
Dis.
15 34 5
III.
Ec,
Re.
13 3 15
I.* Ec.
Re.
2 6
II.
Sh.
Eg.
15 51
II.
Tr.
Eg.
8 7 20
I. Tr.
In.
3 55 I
I.
Kc.
Re.
17 58
II.
Sh.
Eg.
8 3
I.» Sh.
In.
22 I
I.
Tr.
In.
18 46 56
I.
Ec.
Re.
9 33
I.* Tr.
Eg.
22 56
I.
Sh.
In.
34 12 45
I.
Tr.
In.
xo 17
I.* Sh.
Eg.
14 0 14
I.
Tr.
Eg.
X3 49
I.
Sh.
In.
4 0 29
II. Oc.
Dis.
I 10
I.
Sh.
Eg.
14 58
I.
Tr.
Eg.
4 36
I. Oc.
Dis.
16 2
II.
Oc.
Dis.
16 3
I.
Sh.
Eg.
4 38 51
II. Ec.
Re.
19 x6
I.
Oc.
Dis.
36 7 39
II.
Oc.
Dis.
7 31 50
I. Ec.
Re.
20 35 42
II.
Ec.
Re.
9 59
L*
Oc,
Dis.
6 X 46
I. Tr.
In.
22 23 39
I.
Ec.
Re.
12 31 46
II.
Ec.
Re.
2 32
I. Sh.
In.
16 16 28
I.
Tr.
In.
13 15 34
I.
Ec,
Re.
4 0
I. Tr.
Eg.
17 25
I.
Sh.
In.
36 7 12
I.
Tr.
In.
4 46
I. Sh.
Eg.
x8 41
I.
Tr.
Eg.
8 18
I.*
Sh.
In.
X2 XI
III.* Tr.
In.
19 39
I.
Sh.
Eg.
9 25
I.*
Tr.
Eg.
14 X4
III. Tr.
Eg.
16 5 33
III.
Oc.
Dis.
10 32
I.*
Sh.
Eg.
15 15
III. Sh.
In.
7 40
III.
Oc.
Re.
22 48
III.
Tr.
In.
17 30
III. Sh.
Eg.
9 28 46
|II1.*
Ec.
Dis.
37 0 58
III.
Tr.
Eg.
19 18
II. Tr.
In.
xo 48
11*
Tr.
In.
2 23
II.
Tr.
In.
20 5x
II. Sh.
In.
" 33 53
III.*
Ec.
Re.
3 13
III.
Sh.
In.
21 58
II. Tr.
Ej.
12 43
II.*
Sh.
In.
4 26
I.
Oc.
Dis.
23 2
I. Oc.
Dis.
13 28
II.
Tr.
E^.
4 35
II.
Sh.
In.
23 32
II. Sh.
Eg.
13 43
I.
Oc.
Dis.
5 4
II.
Tr.
Eg.
6 2 0 30
I. Ec.
Re.
15 24
II.
Sh.
Eg.
5 32
III.
Sh.
Eg.
20 13
I. Tr.
In.
16 52 x8
I.
Ec.
Re.
7 16
II.
Sh.
Eg.
2Z X
I. Sh.
In.
17 xo 55
I.*
Tr.
In.
7 44 x6
I.
Ec,
Re.
22 26
I. Tr.
Eg.
XX 54
I.*
Sh.
In.
88 X 40
I.
Tr.
In.
23 15
I. Sh.
H
13 9
I.
Tr.
Eg.
2 46
I.
Sh.
In.
T 13 40
II. Oc.
Dis.
14 8
I.
Sh.
Eg.
3 53
I.
Tr.
Eg.
17 29
I. Oc.
Dis.
18 5 13
II.
Oc.
Dis.
5 0
I.
Sh.
Eg.
17 58 7
II. Ec.
Re.
8 xo
I*
Oc.
Dis.
20 54
II.
Oc
Dis.
20 29 6
I. Ec.
Re.
9 54 0
II.*
Ec.
Re.
22 54
I.
Oc.
Dis.
8 X4 40
I. Tr.
In.
XX 20 55
I.*
Ec.
Re.
39 I 51 15
II.
Ec.
Re.
15 30
I. Sh.
In.
19 5 22
I.
Tr.
In.
2 12 57
I.
Ec.
Re.
16 53
I. Tr.
Eg.
6 22
I.
Sh.
In.
20 7
I.
Tr.
In.
17 44
I. Sh.
Eg.
7 36
I.
Tr.
Eg.
21 15
I.
Sh.
In.
924
III. Oc.
Dis.
8 36
I.*
Sh.
Eg.
22 21
I.
Tr.
Eg.
4 9
III. Oc.
Re.
19 II
III.
Tr.
In.
23 29
L
Sh.
Eg.
5 30 26
III. Ec.
Dis.
2X 19
III.
Tr.
Eg.
30 12 46
III.
Oc.
Dis.
7 34 13
III. Ec.
Re.
23 14
III.
Sh.
In.
14 57
III.
Oc.
Re.
8 28
11* Tr.
In.
23 59
II.
Tr.
In.
15 36
II.
Tr.
In.
10 8
II.* Sh.
In.
ao I 31
III.
Sh.
Eg.
17 22
I.
Oc.
Dis.
II 8
II.* Tr.
Eg.
2 0
11.
Sh.
In.
17 26 28
III.
Ec.
Dis.
XI 56
I.* Oc.
Dis.
2 37
I.
Oc.
Dis.
17 52
II.
Sh.
In.
12 49
II.* Sh.
Eg.
2 40
II.
Tr.
Eg.
18 16
II.
Tr.
Eg.
14 57 44
I. Ec.
Re.
4 41
II.
Sh.
Eg.
19 34 15
III.
Ec.
rI.
10 9 7
I* Tr.
In.
5 49 37
I.
Ec.
Re.
20 33
II.
Sh.
Eg.
9 58
I.* Sh.
In.
23 50
I.
Tr.
In.
20 41 37
I.
Ec.
Re.
XI 20
I.* Tr.
Eg.
21 0 51
I.
Sh.
In.
31 14 35
I.
Tr.
In.
12 12
I.* Sh.
Eg.
2 3
I.
Tr.
Eg.
15 44
I.
Sh.
In.
11 2 50
II. Oc.
Dis.
3 5
I.
Sh.
Eg.
16 49
I.
Tr.
Eg.
6 22
I. Oc.
Dis.
18 26
II.
Oc.
Dis.
17 58
I.
Sh.
Eg.
7 16 21
II. Ec.
Re.
21 5
I.
Oc.
Dis.
NoTS.— In. denotes ingress ; Eg., egress ; Dis., disappearance ; Re., reappearance ; Ec, eclipse.
Oc. denotes occultation; Tr., transit of the satellite ; Sh., transit of the shadow; * Visible at Washington.
[Bph I a]
JUPITER'S SATELLITES, 1912.
627
WASHINGTON MEAN TIME.
JULY.
Phases of the Eclipses of the Satellites for an Inverting Telescope,
I.
r
III.
r
11.
r
*
IV. No Eclipse.
8
Configurations at lo^ jo^ for an Inverting Telescope,
West.
East.
I
4-
•8
o I-
2*
2|
4-
2- O
•3
'!•
3
4-
•2
I-O
•3
4*
O *I "2
3'
5
'4
I- 03'
2'
6
•4
3* 2- O
•I
7
•4 -3 -I -2 0
•3*4
o I-
•2
9|02'
•lO '4 '3
lolQi'
26 j
27_
28^
!i.
30^
31
O
•4-3
II
0 "I '2 3*
•4
12
!•
0 3- 2-
•4
13
3*
2'
0 -I
4'
14
3-
•1*2
0
4-
15
•3
0 I* '2
4'
16
•I
0 4.
•3#
17
•2
?'• -3
18
4*
0 '2 3*
-i#
19
4'
I*
0 y 2-
20
4*
3*2'
0 -I
21
4'
3-
•2
1-
0
22
•4
•3
0 !• *2
23
•4
•I
0 2-
'im
24
•4
2*
0 I- -3
•
•4 O
I- o
3'2- O 'I
3*
* 2
s- 2
•4
3'
•21'
O^
o
•4
I '2
2'
•I '30 2-
o I-
4"
4*
'lS*2
[Eph 12]
628
JUPITER'S SATELLITES, 1912.
WASHINGTON MEAN TIME.
AUGUST.
d h m 8
d h m 8
d h m 8
1 lo 8
II.*
Oc.
Dis.
11 8 51
I.*
Sh.
Ej.
31 21 30
I.
Sh.
In.
II 49
!.♦
Oc.
Dis.
la I 55
II.
Oc.
Dis.
22 27
I.
Tr.
Eg.
15 9 37
II.
Ec.
Re.
2 36
I.
Oc.
Dis.
23 45
I.
Sh.
Eg.
15 10 17
I.
Ec.
Re.
6 2 28
I.
Ec.
Re.
33 17 26
I.
Oc.
Dis.
A 9 3
!.♦
Tr.
In.
7 7 5
II.
Ec.
Re.
17 46
II.
Oc.
Dis.
10 13
!.♦
Sh.
In.
23 51
I.
Tr.
In.
20 54 41
I.
Ec.
Re.
II 16
I.*
Tr.
Eg.
18 I 6
I.
Sh.
In.
23 3 29
II.
Ec.
Re.
12 27
I.
Sh.
Eg.
2 5
I.
Tr.
Eg.
38 14 42
I.
Tr.
In.
8 2 28
III.
Tr.
In.
3 20
I.
Sh.
Eg.
15 59
I.
Sh.
In.
4 41
III.
Tr.
Eg.
20 17
III.
Oc
Dis.
16 56
I.
Tr.
Eg.
4 49
II.
Tr.
In.
20 33
II.
Tr.
In.
18 13
I.
Sh.
Eg.
6 17
I.
Oc.
Dis.
21 4
I.
Oc.
Dis.
34 II 54
I.
Oc.
Dis.
7 9
II.
Sh.
In.
22 33
III.
Oc.
Re.
12 21
II.
Tr.
In.
7 12
III.
Sh.
In.
23 2
II.
Sh.
In.
13 58
III.
Tr.
In.
7 30
II.
Tr.
Eg.
23 14
II.
Tr.
Eg.
14 54
II.
Sh.
In.
9 32
III.*
Sh.
Eg.
14 0 31 10
I.
Ec.
Re.
15 2
II.
Tr.
Eg.
9 39 0
I.*
Ec.
Re.
I 24 49
III.
Ec.
Dis.
15 23 25
I.
Ec.
Re.
9 51
II*
Sh.
Eg.
I 43
II.
Sh.
Eg.
16 17
III.
Tr.
Eg.
4 3 31
I.
Tr.
In.
3 35 18
III.
Ec,
Re.
17 35
II.
Sh.
Eg.
4 42
I.
Sh.
In.
18 20
I.
Tr.
In.
19 10
III.
Sh.
In.
5 44
I.
Tr.
Eg.
19 35
I.
Sh.
In.
21 34
III.
Sh.
Eg.
6 56
I.
Sh.
Eg.
20 33
I.
Tr.
Eg.
36 9 II
I.*
Tr.
In.
23 23
II.
Oc.
Dis.
21 49
I.
Sh.
Eg.
10 28
I.
Sh.
In.
5 0 45
I.
Oc.
Dis.
15 15 II
II.
Oc.
Dis.
II 25
I.
Tr.
Eg.
4 7 41
I.
Ec.
Re.
15 32
I.
Oc.
Dis.
12 42
I.
Sh.
Eg.
4 29 9
II.
Ec.
Re.
18 59 51
I.
Ec.
Re.
36 6 23
I.
Oc.
Dis.
21 59
I.
Tr.
In.
20 25 31
II.
Ec.
Re.
7 5*
II.
Oc.
Dis.
23 10
I.
Sh.
In.
16 12 48
I.
Tr.
In.
9 52 8
I.*
Ec.
Re.
6 0 12
I.
Tr.
Eg.
14 4
I.
Sh.
In.
12 23 0
II.
Ec.
Re.
I 25
I.
Sh.
Eg.
15 2
I.
Tr.
Eg.
37 3 40
I.
Tr.
In.
16 29
III.
Oc.
Dis.
16 18
I.
Sh.
Eg.
4 57
I.
Sh.
In.
18 4
II.
Tr.
In.
17 948
II.*
Tr.
In.
5 54
I.
Tr.
Eg.
18 43
III.
Oc.
Re.
10 I
I.*
Oc.
Dis.
7 II
I.*
Sh.
Eg.
19 12
I.
Oc.
Dis.
10 4
III.*
Tr.
In.
38 0 52
I.
Oc.
Dis.
20 27
II.
Sh.
In.
12 19
II.
Sh.
In.
I 38
II.
Tr.
In.
20 44
II.
Tr.
Eg.
12 21
III.
Tr.
Eg.
4 4
III.
Oc.
Dis.
21 25 56
III.
Ec.
Dis.
12 30
II.
Tr.
Eg.
4 II
II.
Sh.
In.
22 36 22
I.
Ec.
Re.
13 28 34
I.
Ec.
Re.
4 19
II.
Tr.
Eg.
23 8
II.
Sh.
Eg.
15 0
II.
Sh.
Eg.
4 20 50
I.
Ec.
Re.
23 35 4
III.
Ec.
Re.
15 10
III.
Sh.
In.
6 24
III.
Oc.
Re.
T 16 27
I.
Tr.
In.
17 33
III.
Sh.
Eg.
6 53
II.
Sh.
Eg.
17 39
I.
Sh.
In.
18 7 16
I.
Tr.
In.
9 22 21
III.«
Ec.
Dis.
18 41
I.
Tr.
Eg.
8 32
I.*
Sh.
In.
II 35 32
III.
Ec.
Re.
19 54
I.
Sh.
E9.
9 30
I.*
Tr.
Eg.
22 8
I.
Tr.
In.
S 12 38
II.
Oc.
Dis.
10 47
I.
Sh.
Eg.
23 26
I.
Sh.
In.
13 40
I.
Oc.
Dis.
19 4 29
II.
Oc.
Dis.
39 0 22
I.
Tr.
Eg.
17 5 2
I.
Ec.
Re.
4 29
I.
Oc.
Dis.
I 40
I.
Sh.
Eg.
17 47 33
II.
Ec.
Re.
7 57 17
I.*
Ec.
Re.
19 20
I.
Oc.
Dis.
9 10 55
I.*
Tr.
In.
9 45 3
II.*
Ec.
Re.
20 23
11.
Oc.
Dis.
12 8
I.
Sh.
In.
30 I 45
I.
Tr.
In.
22 49 33
I.
Ec.
Re.
13 9
I.
Tr.
Eg.
3 I
I.
Sh.
In.
80 I 41 25
II.
Ec.
Re.
14 22
I.
Sh.
Eg.
3 59
I.
Tr.
Eg.
16 37
I.
Tr.
In.
10 6 14
III.
Tr.
In.
5 16
I.
Sh.
E^.
17 54
I.
Sh.
In.
7 18
II.
Tr.
In.
22 57
I.
Oc.
Dis.
18 51
I.
Tr.
Eg.
8 8
I.*
Oc.
Dis.
23 4
11.
Tr.
In.
20 9
I.
Sh.
Eg.
8 28
III.*
Tr.
Eg.
31 0 8
III.
Oc.
Dis.
81 13 49
I.
Oc.
Dis.
9 44
II.*
Sh.
In.
I 36
II.
Sh.
In.
14 55
11.
Tr.
In.
9 59
II.*
Tr.
Eg.
I 46
II.
Tr.
Eg.
17 18 16
I.
Ec.
Re.
II II
III.*
Sh.
In.
2 25 59
I.
Ec.
Re.
17 29
II.
Sh.
In.
II 33 46
I.
Ec.
Re.
2 26
III.
Oc.
Re.
17 37
II.
Tr.
Eg.
12 26
II.
Sh.
Eg.
4 18
II.
Sh.
Eg.
17 58
III.
Tr.
In.
13 32
III.
Sh.
Eg.
5 23 43
III.
Ec.
Dis.
20 10
II.
Sh.
Eg.
11 5 23
I.
Tr.
In.
7 35 33
III.*
Ec.
Re.
20 18
Ill,
Tr.
Eg.
6 37
I.
Sh.
In.
20 13
I.
Tr.
In.
23 lO
III.
Sh.
In.
7 37
I.*
Tr.
Eg.
NOTB,-
-In. denotes Ingress; Eg., egress; Dis., disappearance; Re., reappearance; Ec, eclipse,
Oc. denotes occultation; Tr., transit of the satellite; Sh., transit of the shadow; * visible at Washington.
[Eph 12]
JUPITER'S SATELLITES, 1912,
629
WASHINGTON MEAN TIME.
AUGUST.
Phases of the Eclipses of the Satellites for an Inverting Telescope,
L
r
*
III.
d
r
II.
r
IV. No Eclipse.
Configurations at cf^ o™ for an Inverting Telescope,
td
Q
West
East.
I
•I '2 0
3*4 •
2
o
I-
4 S*
3
a'iO
*!•
4
3-4-
•2 !• O
5
4*
•3
O
•1
6
4*
I- -3 O
2'
7
•4
2- O
I* "3
8
•4
•I '2 O
•3
•4
o I-
•23*
lO
02'
•4
3-0
-!•
XI
3' '2
•A
I- O
12
•3
o
•1
•4
13
•8
1-
o
2*
•4
14
2*
o
I "3
•4
15
'1
o
•3
•4
i6
o
J. -2 J.
4*
17
•lOi:
4*
i8|Oi-
3* '2
o
4'
19
•3
o
•14-
2%
20
3 4-
o
2'
21
4'
2*
o
•3-1
22
4-
•1
o
•3
23
4*
•
o
!• '2
3*
24
•4
•I
o
8'
25
•4
8-
o
1-
26
'43-
o
•I# •20
27
•3*4 I'
o
2*
28
2*
O-^:
J •!
29
•21 •
o
•4'3
30
o
!• '2
3-
•4
31
•I
o
2-
8'
•4
[Eph ja]
630
JUPITER'S SATELLITES, 1912.
WASHINGTON MEAN TIME.
SEPTEMBER
d
I
3
h
I
II
12
13
14
8
9
II
15
5
6
7
9
4 2
4
6
6
6
8
9
lO
13
15
6 o
I
2
3
21
33
6 o
4
i8
19
20
22
7 15
17
19
20
20
22
22
8 O
3
5
13
14
15
i6
9 10
12
13
17
10 7
8
11
9
II
4
6
8
9
9
m 8
35
6
23
20
38
18
43
47 o
o 54
35
52
49
7
47
13
15 43
46
55
4
28
26
21 3
35 35
4
21
18
36
16
2
44 26
19 19
33
50
47
4
44
32
13 9
4
14
o
46
22
9
36
2
19
16
33
14
22
41 54
38 45
31
47
46
2
43
50
10 36
21
33
III. Sh.
I. Tr.
I. Sh.
I. Tr.
I. Sh.
I.* Oc.
II.* Oc.
I. Ec.
II. Ec.
I. Tr.
I. Sh.
I.* Tr.
!.♦ Sh.
I. Oc.
II. Tr.
I. Ec.
II. Sh.
II.* Tr.
III.* Oc.
II.* Sh.
in. Oc.
III. Ec.
III. Ec.
1. Tr.
I. Sh.
I. Tr.
I. Sh.
I. Oc.
II. Oc.
I. Ec.
II.
1.
I.
I.
Ec.
Tr.
Sh.
Tr.
I. Sh.
I. Oc.
II. Tr.
I. Ec.
II. Sh.
II. Tr.
III. Tr.
II. Sh.
III. Tr.
III. Sh.
III. Sh.
I. Tr.
I. Sh.
I. Tr.
I. Sh.
I. Oc.
II. Oc.
I. Ec.
II. Ec.
I.* Tr.
I.* Sh.
I. Tr.
I. Sh.
I. Oc.
II.* Tr.
I.* Ec.
II.* Sh.
II. Tr.
Eg.
In.
In.
Eg.
Eg.
Dis.
Dis.
Re.
Re.
In.
In.
Eg.
Ej.
D».
In.
Re.
In.
Eg.
Dis.
Eg.
Re.
Dis.
Re.
In.
In.
Eg.
Eg.
Dis.
Dis.
Re.
Re.
In.
In.
Eg.
Eg.
Dis.
In.
Re.
In.
Eg.
In.
Eg.
Eg.
In.
Eg.
In.
In.
Eg.
£?•
Dis.
Dis.
Re.
Re.
In.
In.
Eg.
Eg.
Dis.
In.
Re.
In.
Eg.
13
d h
11 12
12
14
17
19
a
3
4
5
23
I
2
6
20
21
13
m 8
3
9
32
20 14
36 7
I
16
15
31
12
43
39 19
57 8
30
45
22 44
14 o o
17 41
20 10
21 8 2
22
22
15 I
2
4
7
9
14
16
17
18
16 12
15
15
20
17 9
10
II
12
18 6
9
10
II
12
14
16
18
21
23
19 3
5
6
7
I
4
4
9
22
23
21 o
20
39
52
21
6
30
9
36
59
14
14
29
10
4
36 47
16 30
29
43
43
57
40
30
5
56
12
38
16
41
19 18
36 31
58*
12
13
26
9
25
34 12
34 51
28
40
42
55
29
II.
III.
Sh.
Oc.
Eg.
Dis.
III.
Oc.
Re.
III.
Ec.
Dis.
m.
Ec.
Re.
I.
Tr.
In.
I.
Sh.
In.
I.
I.
I.
Tr.
Sh.
Oc.
Eg.
Eg.
Dis.
II.
Oc.
Dis.
I.
Ec.
Re.
II.*
Ec.
Re.
I.
Tr.
In.
I.
Sh.
In.
I.
I.
I.
Tr.
Sh.
Oc.
Eg.
Eg.
Dis.
II.
Tr.
In.
I.
Ec.
Re.
II.
Sh.
In.
II.
II.
III.
Tr.
Sh.
Tr.
Eg.
Eg.
In.
III.
Tr.
Eg.
III.*
Sh.
In.
III.
I.
Sh.
Tr.
Eg.
In.
I.
Sh.
In.
I.
Tr.
Eg.
I.
I.
Sh.
Oc.
Eg.
Dis.
II.
Oc.
Dis.
I.
Ec.
Re.
II.
Ec.
Re.
I.
Tr.
In.
I.
Sh.
In.
I.
I.
I.*
Tr.
Sh.
Oc.
Eg.
Eg.
Dis.
II.
Tr.
In.
I.
Ec.
Re.
II.
Sh.
In.
II.
II.
Tr.
Sh.
Eg.
Eg.
III.
Oc.
Dis.
III.
Oc.
Re.
III.
Ec.
Dis.
III.
Ec.
Re.
I.
Tr.
In.
I.
Sh.
In.
I.
I.*
I.
Tr.
Sh.
Oc.
Eg.
Eg.
Dis.
II.
Oc.
Dis.
I.
Ec.
Re.
II.
Ec.
Re.
I.
Tr.
In.
I.
Sh.
In.
I.
Tr.
Eg.
I.
Sh.
Eg.
d h
31 19
22
23
33 I
I
3
6
8
II
13
16
18
19
20
33 14
17
17
22
34 II
12
13
14
36 8
12
12
56
m
38
50
2
14
32
56
16
41
8
36
57
9
12
24
8
31 40
47
54
27
38
41
53
37
o
10
8
22
36
14 31
14 53
17 14
20 28
22 54
18 55
37 29
56
7
I
3
5
7
8 II
37
9
3
6
7
12
38 o
I
2
3
21
39 o
I
3
4
6
10
12
15
17
18
20
21
22
80 16
19
20
22
7
29 6
9
12 27
26
36
41
51
36
57 48
31
49
14
31
28
55
7
37
56
5
10
19
6
26 33
32
I.
Oc.
II.
Tr.
I.
Ec.
II.
Sh.
II.
Tr.
II.
Sh.
III.
Tr.
III.*
Tr.
III.
Sh.
III.
Sh.
I.
Tr.
L
Sh.
I.
Tr.
I.
Sh.
I.
Oc.
I.
Ec.
II.
Oc.
11.
Ec.
I.
Tr.
I.
Sh.
I.
Tr.
I.
Sh.
I.
Oc.
I.
Ec.
II.
Tr.
II.
Sh.
II.
Tr.
II.
Sh.
III.
Oc.
III.
Oc.
III.
Ec.
III.
Ec.
I.
Tr.
I.*
Sh.
I.*
Tr.
I.
Sh.
I,
Oc.
I.*
Ec,
II.*
Oc.
II.
Ec.
I.
Tr.
I.
Sh.
I.
Tr.
I.
Sh.
I.
Oc.
I.
Ec.
II.
Tr.
II.
Sh.
11.
Tr.
II.*
Sh.
III.
Tr.
m.
Tr.
III.
Sh.
III.
Sh.
I.
Tr.
I.
Sh.
I.
Tr.
I.
Sh.
I.
Oc.
I.
Ec.
II.
Oc
Dis.
In.
Re.
In.
Eg.
Eg.
In.
Eg.
In.
Eg.
In.
In.
Eg.
Eg.
Dis.
Re.
DU.
Re.
In.
In.
Eg.
Eg.
Dis.
Re.
In.
In.
Eg.
Eg.
Dis.
Re.
Dis.
Re.
In.
In.
Eg.
Eg.
Dis,
Re.
Dis.
Re.
In.
In.
Eg.
Eg.
Dis.
Re.
In.
In.
Eg.
Eg.
In.
Eg.
In.
Eg.
In.
In.
Eg.
Eg.
Dis.
Re.
Dis.
NOTB.-
-In. denotes ingress; Eg., egress; Dis., disappearance; Re., reappearance; Ec, eclipse.
Oc. denotes occultation; Tr., transit of the satellite; Sh., transit of the shadow; * Visible at Washington.
[Eph 13]
JUPITER'S SATELLITES, 1912.
631
WASHINGTON MEAN TIME.
SEPTEMBER.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
I.
IL
xo|Oi'
r
III.
d
r
r
IV. No Eclipse.
Configurations at 8^ o™ for an
Inverting Telescope.
•
Q
West.
East.
I
2- 3* O I'
•4
2
•1
3- -2 0
4"
J^
•3 i-O
.8
•2 4*
2*
O
•I
5
•2 !•
O 4-
•3
6
4*
O '2*1
3-
7
4'
•I
O 2-3-
8
4*
2- 3*
o I-
4'
3'
•2 -I O
•4
•3
O
'2
ZI
02'
•4
•30
•I
21 I
I*
o
2-4'3'
12
•4
•2
I'
O -3
13
•4
O 'a'l
•3
14
I*
O '4 2- 3-
15
2
3'
o I-
'4
i6
3*
•2*1
O
•4
17
•3
O 1' "2
•4
i8
•3
02-
4*
•!•
19
2*
I'
O -3
4*
20
0 -I
•34*
•2«
22
03"
2*
o
!•
23
3' 4' "I •!
o
24
4*
O 1-
•2
25
4'
•3
•lO 2-
26|Oi"
4'
2*
o
27
•4
O -I
[Eph za]
•2
28
•4
I*
0
2- 3-
29
•4
2'
03-
•I
30
3"
•2 "I '4
0
632
JUPITER'S SATELLITES, 1912.
WASHINGTON MEAN TIME,
OCTOBER.
d h m s
d b m a
d h m 8
1 I 31 38
II.
Ec.
Re.
11 12 41
II.
Oc.
Dis.
2SI I II 6
I.
Ec.
Re.
13 26
I.
Tr.
In.
17 27 12
II.
Ec.
Re.
4 52
II.
Oc.
Dis.
14 33
I.
Sh.
In.
la 4 25
I.
Tr.
In.
9 23 8
11.
Ec.
Re.
15 40
I.
Tr.
Eg.
5 26
I.
Sh.
In.
19 25
I.
Tr.
In.
z6 48
I.
Sh.
Eg.
6 40
I.*
Tr.
Eg.
20 19
I.
Sh.
In.
2 zo 36
I.
Oc.
Dis.
7 41
I.
Sh.
Eg.
21 40
I.
Tr.
Eg.
13 55 15
I.
Ec.
Re.
18 I 34
I.
Oc.
Dis.
22 34
I.
Sh.
Eg.
14 52
II.
Tr.
In.
4 47 32
I.
Ec.
Re.
23 z6 34
I.
Oc.
Dis.
17 6
II.
Sh.
In.
6 58
II.*
Tr.
In.
19 39 46
I.
Ec.
Re.
17 35
11.
Tr.
Eg.
9 0
II.
Sh.
In.
23 8
II.
Tr.
In.
19 49
II.
Sh.
Eg.
9 42
II.
Tr.
Eg.
24 0 53
II.
Sh.
In.
3 0 41
III.
Oc.
Dis.
II 42
II.
Sh.
Eg.
I 51
II.
Tr.
Eg.
3 10
III.
Oc.
Re.
19 2
III.
Tr.
In.
3 36
II.
Sh.
Eg.
5 17 54
III.
Ec.
Dis.
21 32
III.
Tr.
Eg.
13 37
III.
Oc.
Dis.
7 37 48
III.*
Ec.
Re.
22 55
I.
Tr.
In.
13 55
I.
Tr.
In.
7 56
I.*
Tr.
In.
23 5
III.
Sh.
In.
14 48
I.
Sh.
In.
9 2
I.
Sh.
In.
23 55
I.
Sh.
In.
16 10
I.
Tr.
Eg.
10 10
I.
Tr.
Eg.
14 I 10
I.
Tr.
Eg.
z6 10
III.
Oc.
Re.
II 17
I.
Sh.
Eg.
I 38
III.
Sh.
Eg.
17 2
I.
Sh.
Eg.
4 5 5
I.
Oc.
Dis.
2 10
I.
Sh.
Eg.
17 14 5
III.
Ec.
Dis.
8 23 58
I.
Ec.
Re.
20 4
I.
Oc.
Dis.
19 38 0
III.
Ec.
Re.
9 54
II.
Oc.
Dis.
23 16 17
I.
Ec.
Re.
25 II 4
I.
Oc.
Dis.
14 49 54
II.
Ec.
Re.
15 2 4
II.
Oc.
Dis.
14 8 29
I.
Ec.
Re.
6 2 25
I.
Tr.
In.
6 46 zo
II.*
Ec.
Re.
18 16
II.
Oc.
Dis.
3 31
I.
Sh.
In.
17 25
I.
Tr.
In.
22 41 14
II.
Ec.
Re.
4 40
I.
Tr.
Eg.
18 24
I.
Sh.
In.
26 8 25
I.
Tr.
In.
5 46
I.
Sh.
Eg.
19 40
I.
Tr.
Eg.
9 16
I.
Sh.
In.
23 35
I.
Oc.
Dis.
20 39
I.
Sh.
Eg-
10 40
I.
Tr.
Eg.
6 2 52 40
I.
Ec.
Re.
1« 14 34
I.
Oc.
Dis.
II 31
I.
Sh.
E5.
4 14
II.
Tr.
In.
17 44 58
I.
Ec.
Re.
27 5 34
I.
Oc.
Dis.
6 24
II.*
Sh.
In.
20 21
II.
Tr.
In.
8 37 9
I.
Ec.
Re.
6 57
II.*
Tr.
Eg.
22 17
II.
Sh.
In.
12 31
II.
Tr.
In.
9 7
II.
Sh.
Eg.
23 4
II.
Tr.
Eg.
14 ZI
II.
Sh.
In.
14 43
III.
Tr.
In.
17 I 0
II.
Sh.
E?-
15 14
II.
Tr.
Eg.
17 12
III.
Tr.
Eg.
9 16
III.
Oc.
Du.
16 54
II.
Sh.
Eg.
19 6
III.
Sh.
In.
II 48
III.
Oc.
Re.
28 2 55
I.
Tr.
In.
20 55
I.
Tr.
In.
" 55
I.
Tr.
In.
3 44
III.
Tr.
In.
21 37
III.
Sh.
Eg.
12 52
I.
Sh.
In.
3 45
I.
Sh.
In.
22 0
I.
Sh.
In.
13 15 25
III.
Ec.
Dis.
5 10
I.
Tr.
Eg.
23 10
I.
Tr.
Eg.
14 10
I.
Tr.
Eg.
6 0
I.*
Sh.
Eg.
T 0 15
I.
Sh.
Eg.
15 7
I.
Sh.
Eg.
6 18
III.*
Tr.
Eg.
18 5
I.
Oc.
Dis.
15 38 0
III.
Kc.
Re.
7 4
III.
Sh.
In.
21 21 26
I.
Ec.
Re.
18 9 4
I.
Oc.
Dis.
9 39
III.
Sh.
Ef.
Dis.
23 18
II.
Oc.
Dis.
12 13 40
I.
Ec.
Re.
29 0 4
I.
Oc.
8 4 8 59
II.
Ec.
Re.
15 28
II.
Oc.
Dis.
3 5 54
I.
Ec.
Re.
15 25
I.
Tr.
In.
20 4 19
II.
Ec.
Re.
7 41
II.
Oc.
Dis.
16 29
I.
Sh.
In.
19 6 25
I.*
Tr.
In.
" 59 55
II.
Ec.
Re.
17 40
I.
Tr.
Eg.
7 21
I.
Sh.
In.
21 26
I.
Tr.
In.
18 43
I.
Sh.
Eg.
8 40
I.
Tr.
Eg.
22 14
I.
Sh.
In.
9 12 35
I.
Oc.
Dis.
9 36
I.
Sh.
Eg.
23 41
I.
Tr.
Eg.
15 50 7
I.
Ec.
Re.
ao 3 34
I.
Oc.
Dis.
80 0 29
I.
Sh.
Eg.
17 36
II.
Tr.
In.
6 42 22
I.*
Ec.
Re.
iC 35
I.
Oc,
Dis.
19 42
II.
Sh.
In.
9 44
II.
Tr.
In.
21 34 34
I.
Ec.
Re.
20 19
II.
Tr.
Eg.
" 35
II.
Sh.
In.
31 I 54
II.
Tr.
In.
22 24
II.
Sh.
E^.
Dis.
12 27
II.
Tr.
Eg.
3 28
II.
Sh.
In.
10 4 58
III.
Oc.
14 18
II.
Sh.
Eg.
4 38
II.
Tr.
Eg.
7 28
III.*
Oc.
Re.
23 22
III.
Tr.
In.
6 12
II.«
' Sh.
Eg.
9 16 48
III.
Ec.
Dis.
21 0 55
I.
Tr.
In.
15 56
I.
Tr.
In.
9 55
I,
Tr.
In.
I 50
I.
Sh.
In.
16 42
I.
Sh.
In.
10 57
I.
Sh.
In.
X 54
III.
Tr.
Eg.
18 0
III.
Oc.
Dis.
" 38 3
III.
Ec.
Re.
3 5
Ill,
Sh.
In.
18 II
I.
Tr.
Eg.
12 10
I.
Tr.
Eg.
3 10
I.
Tr.
Eg.
18 57
I.
Sh.
Eg.
13 12
I.
Sh.
Eg.
4 5
I.
Sh.
Eg.
20 35
III.
Oc.
Re.
11 7 4
I.*
Oc.
Dis.
5 39
III.
Sh.
Eg.
21 13 II
III.
Ec.
Dis.
10 18 50
I.
Ec.
Re.
22 4
I.
Oc.
Dis.
23 38 26
III.
Ec.
Re.
NoTS.— In. dene
>tes ingress ;
Eg.,«Kr<
989 ; Dis., disappei
Arance
L^?i\
reappoa
ranee ; Be, eclips
e.
■«« 1- f
Oo. denotes occulution ; It., transit of the satellite ; Sh., transit of the shadow ; * visible at Washington.
[Eph xa]
JUPITER'S SATELLITES, 1912,
633
WASHINGTON MEAN TIME.
OCTOBER.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
I.
r
III.
d
r
II.
r
IV. No Eclipse.
Configurations at 6^ jo™ for an Inverting Telescope.
m
&
West
East
I
3-
o
4x-
2
'3
•I o
2'
•4
3
2'
Oi-
•4
'3%
4
•2 O
•3
•4
-!•
5
1- 0
•2
3-
4'
6 Qa-
O
•X
s-
4"
7
•23' !•
0
4*
8
3'
0
•21' 4'
9
•3 'I
4-0
2*
10
4'
2*
0
I"
•3«
II
4*
•2
•lO
•3
I2iOl"
r
0
•2 3"
13
4*
02'
•I 3-
14
•4
•2 .?•
0
15
•4
3'
0
•I
'2«
16
•s
'I
0
2"
17
2'
•4-30
!•
18
•2
•I 0
•4 '3
19 Oi
o
•2
20
0 2-
3*
•4
'!•
21
2*
1-
S-
0
*4
22
3'
0
•I
4*
'2«
23
•3
I- 0
2*
4*
24
? 0
!•
4*
25
•2 -I 0
4* '3
26
4- 0 I-
•2
•3
27
4*
0
2- 3-
•!•
28
4*
2*
I-3-0
29
4*
3-
•2O
•I
30
4'
•3
I- 0
2*
31
•4
•3 2- 0
I*
[Eph 12]
634
JUPITER'S SATELLITES, 1912.
WASHINGTON MEAN TIME.
NOVEMBER.
d h m 8
d h m s
d h m 8
1 13 5
I.
Oc.
Dis.
7 20 52
I.
Sh.
Eg.
14 10 15
II.
Tr.
Eg.
i6 3 i6
I.
Ec.
Re.
22 25
III.
Oc.
Dis.
II 23
II.
Sh.
Eg.
21 5
II.
Oc.
Dis.
8 I I
III.
Oc.
Re.
19 58
I.
Tr.
In.
a I 17 56
II.
Ec.
Re.
I 12 6
III.
Ec.
Dis.
20 32
I.
Sh.
In.
10 26
I.
Tr.
In.
3 38 41
III.
Ec.
Re.
22 13
I.
Tr.
Eg.
II II
I.
Sh.
In.
15 6
I.
Oc.
Dis.
22 47
I.
Sh.
E?.
Dw.
12 41
I.
Tr.
Eg.
17 58 I
I.
Ec.
Re.
15 2 51
III.
Oc.
13 26
I.
Sh.
Eg.
23 54
II.
Oc.
Dis.
7 39 25
III.
Ec.
Re.
8 7 35
I.
Oc.
Dis.
» 3 54 26
II.
Ec.
Re.
17 7
I.
Oc.
Dis.
10 31 55
I.
Ec.
Re.
12 27
I.
Tr.
In.
19 52 43
I.
Ec.
Re.
15 18
II.
Tr.
In.
13 6
I.
Sh.
In.
16 2 44
II.
Oc.
Dis.
16 46
II.
Sh.
In.
14 42
I.
Tr.
Eg.
6 30 42
II.
Ec.
Re.
18 2
II.
Tr.
Eg.
15 21
I.
Sh.
Eg.
14 29
I.
Tr.
In.
19 29
II.
Sh.
Eg.
10 9 36
I.
Oc.
Dis.
15 0
I.
Sh.
In.
4 4 56
I.
Tr.
In.
12 26 39
I.
Ec.
Re.
16 44
I.
Tr.
Eg.
5 40
I.*
Sh.
In.
18 7
II.
Tr.
In.
17 16
I.
Sh.
Eg.
7 12
I.
Tr.
Eg.
19 22
II.
Sh.
In.
17 II 37
I.
Oc.
Dis.
7 55
I.
Sh.
Eg.
20 50
II.
Tr.
Eg.
14 21 21
I.
Ec.
Re.
8 8
III.
Tr.
In.
22 5
II.
Sh.
Eg.
20 56
II.
Tr.
In.
10 44
III.
Tr.
Eg.
11 6 58
I.
Tr.
In.
21 58
II.
Sh.
In.
IX 3
III.
Sh.
In.
7 35
I.
Sh.
In.
23 40
11.
Tr.
Eg.
13 40
III.
Sh.
Eg.
9 13
I.
Tr.
Eg.
18 0 41
II.
Sh.
Eg.
5 2 5
I.
Oc.
Dis.
9 50
I.
Sh.
Eg.
8 59
I.
Tr.
In.
5 0 40
I.
Ec.
Re.
12 33
III.
Tr.
In.
9 29
I.
Sh.
In.
10 30
II.
Oc.
Dis.
15 2
m.
Sh.
In.
II 14
I.
Tr.
Eg.
14 36 29
II.
Ec.
Re.
15 10
III.
Tr.
Eg.
II 44
I.
Sh.
Eg.
23 27
I.
Tr.
In.
17 39
III.
Sh.
E^.
16 59
III.
Tr.
In.
« 0 8
I.
Sh.
In.
13 4 6
I.
Oc.
Dis.
19 0
III.
Sh.
In.
I 42
I.
Tr.
Eg.
6 55 23
I.
Ec.
Re.
19 38
III.
Tr.
Eg.
2 24
I.
Sh.
Eg.
13 19
II.
Oc.
Dis.
21 39
III.
Sh.
Eg.
20 36
I.
Oc.
Dis.
17 12 50
II.
Ec.
Re.
19 6 8
I.
Oc.
Db.
23 29 19
I.
Ec.
Re.
18 I 28
I.
Tr.
In.
8 50 4
I.
Ec.
Re.
7 4 42
II.
Tr.
In.
2 3
I.
Sh.
In.
16 10
II.
Oc.
Dis.
6 4
II.*
Sh.
In.
3 43
I.
Tr.
Eg.
19 48 58
II.
Ec.
Re.
7 26
II.
Tr.
Eg.
4 18
I.
Sh.
Eg.
SO 3 29
I.
Tr.
In.
847
II.
Sh.
Eg.
22 37
I.
Oc.
Dis.
358
I.
Sh.
In.
17 57
I.
Tr.
In.
14 I 24 I
I.
Ec.
Re.
5 45
I.
Tr.
Eg.
18 37
I.
Sh.
In.
7 31
II.
Tr.
In.
6 13
I.
Sh.
Eg.
20 12
I.
Tr.
Eg.
8 40
II.
Sh.
In.
By reason of the proximity of Jupiter to the Sun the phenomena
of the satellites are not given after November 20 for the remainder
of the year.
NoTB.— In. denotes ingress; Eg., egress; Dis., disappearance; Re., reappearance: Ec, eclipse.
Oc. denotes occulution; Tr., transit of the satellite; Sh., transit of the shadow; * Visible at Washington.
[Eph It]
JUPITER'S SATELLITES, 1912.
635
WASHINGTON MEAN TIME.
NOVEMBER.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
I.
r
III.
r
II.
r
*
IV. No Eclipse.
Configurations at y^ jo"^ for an Inverting Telescope.
•
ce
West.
Bast.
I
*4
•2
•I
o
•3
2
•4
o
•2
1-
•3
3
.? o
2"
3'
4 Oi-
2- 03' '4
5
3' '2 O 'I
•4
•
6
•3
I- O '2
*4
7 02'
•3 O -I
•4
19
•4 '23- -I o
8j
•2 I"
0 -3
4*
9
0 •21-
"3
4-
10
•I
0 2*
3-4'
II
2*
Oi' 3- 4*
12
3. .24.
0
-!•
13
3* 4*
I'
0 -2
14
4"
•3
02' •!
15
4*
2' I-
0
'3«
16
•4
0 I-
•3
•2«
17
•4
•I
0 2-
3*
18
•4
2*
0 I- 3-
20 Oi*
3'
•4
o
•2
[Eph 12]
636
SATELLITES OF SATUKN, 1912.
1
All
sitil
SATELLITES OF SATURN, 1912.
637
WASHINGTON MEAN TIME OF GREATEST ELONGATION, ETC.
In the diagram on the preceding page, the points of the orbits marked "^" are
those of the eastern elongation, as seen in an inverting telescope. The times of
these elongations may be found from the following tables, and the apparent
position of a satellite at any other time may be marked on the diagram by
setting off on the proper orbit the elapsed interval in days and hours since the
last eastern elongation. The orbits of the five inner satellites are regarded as
circular, and the time of any elongation not given in the tables may be readily
found from those given by adding or subtracting the proper multiple of the
mean synodic period. Mimas can be seen only within a few hours of each
elongation, and the time of every elongation visible at Washington is given.
For the three outer satellites the eccentricity is taken into account, and the
times both of the elongations and of the conjunctions are given. The following
abbreviations are used in the tables:
E., East Elongation.
W., West Elongation.
I., Inferior Conjunction (north of planet).
S., Superior Conjunction (south of planet.)
MIMAS.
Greatest Elongations Visible at Washington.
d h
:d h
d h
d h
d h
d h
Jan. 1 1 2.1 W.
Feb. 5 9.0 W.
Sept.2713.3E.
Oct 24 lo.o W.
Nov. 17 10.5 E.
Dec. 10 12.6 W.
2 10.7 W.
6 7.6 W.
28 12.0 E.
25 8.6 W.
18 9.1 E.
II II. 2 W.
3 93W.
12 10.7 E.
29 10.6 E.
27 17.0 E.
19 7-7 E.
12 9-8 W.
4 7-9 W.
13 9.3 E.
30 9.2 E.
28 15.6 E.
20 6.3 E.
13 8.4 W.
5 6.5 W.
14 7.9 E.
Oct 3 16.4 W.
29 14.2 £.
21 16.3 W.
14 7.0 W.
9 12.3 E.
15 6.5 E.
415.1W.
30 12.8 E.
22 14.9 W.
15 5.6 w.
10 10.9 E.
• « • •
5 13.7 W.
31 11.4 E.
23 135 w.
16 15.5 E.
1 1 9.6 £.
Sept. 1 15.5 W.
6 12.3 W.
Nov. I lo.o E.
24 12.1 "W.
17 14. 1 E.
12 8.2 E.
2 14.1 W.
7 10.9 W.
2 8.6 E.
25 10.8 W.
x8 12.7 E.
13 6.8 E.
3 12.7 W.
8 95W.
3 73E.
26 9.4 w.
19 1 1.3 E.
17 12.6 W.
4 1 1.4 w.
II 16.6 E.
4 17.3 W.
27 8.0 w.
20 10.0 E.
18 1 1.2 W.
9 15.6 E.
12 15.2 E.
5 15.9 w.
28 6.6 W.
21 8.6 E.
19 9.8 W.
10 14.3 E.
13 13.8 E.
6 14.5 W.
29 16.4 E.
22 7.2 E.
20 8.4 W.
II 12.9 E.
14 12.4 E.
7 13.1 W.
30 15.0 E.
23 5.8 E.
21 7.0 W.
12 11.5E.
15 ii.oE.
811.7W.
Dec. I 13.7 E.
24 15.8 W.
26 XI.5 E.
17 16.0 W.
16 9.7 E.
9 10.3 W.
2 12.3 E.
25 14.4 W.
27 10. 1 E.
18 14.6 W.
17 8.3 E.
10 9.0 w.
3 10.9 E.
26 13.0 w.
28 8.7 E.
19 13.2 W.
19 16.9 W.
II 7.6 w.
4 95E.
271 1.6 W.
29 7.4 E.
20 1 1.9 w.
20 15.5 W.
13 16.0 E.
5 8.1 E.
28 10.2 W.
30 6.0 E.
21 10.5 W.
21 14. 1 W.
14 14.6 E.
6 6.7 E.
29 8.8 W.
Feb. 3 1 1.7 W.
25i6.i£.
22 12.7 w.
15 13.2 E.
8 15.3 W.
30 7.4 w.
4 10.3 w.
26 14.7 E.
23 11.4 w.
1611.8E.
9 13.9 W.
31 6.0 W.
ENCELADUS.
d h
d h
d h
d h
d h
d h
Jan. 2 7.5 E.
Jan. 16 0.4 E.
Jan. 29 17.3 E,
Feb. 12 10.2 E.
Feb. 26 3.2 £.
Aug. 18 5.3 E.
3 16.4 E.
17 93E.
31 2.2 E.
13 19. 1 E.
27 12. 1 E.
19 14.2 E.
5 1.3 E.
18 18.2 £.
Feb. iii.oE.
15 4.0 E.
28 21.0 £.
20 23.1 E.
6 10.2 E.
20 3.1 E.
2 19.9 E.
16 12.9 E.
• • • •
22 8.0 E.
7 19. 1 E.
21 11.9E.
4 4-8 E.
17 21.8 £.
Aug. 10 0.0 £.
23 16.9 E.
9 4.0 E.
22 20.8 E.
5 137 E.
19 6.7 E.
II 8.9 E.
25 1.8 E.
ID 12.8 E.
24 5.7 E.
6 22.6 E.
20 15.6 £.
12 17.8 £.
26 X0.7 £.
II 21.7 E.
25 14.6 E.
8 7.5 E.
22 0.5 E.
14 2.7 E.
27 19.5 E.
13 6.6 E.
26 23.5 E.
9 16.4 E.
23 94E.
15 11.6E.
29 4.4 E.
14 15-5 E.
28 8.4 E.
II 1.3 £.
24 18.3 E.
16 20.4 £.
30 13.3 E.
[Bph is] .
638
SATELLITES OF SATURN, 1912.
WASHINGTON MEAN TIME OF GREATEST ELONGATION.
ENCELADUS— ( Concluded).
d h
d h
d h
d h
d h
d h
Aug. 31 22.2 E.
Sept.2i 11.5E.
Oct. 12 0.7 E.
Nov. I 13.8 E.
Nov. 22 2.9 E.
Dec. 12 16,0 E.
Sept. 2 7.1 E.
22 20.3 £.
13 9-5 E.
2 22.7 E.
23 1 1.8 E.
14 0.8 E.
3 16.0 E.
24 5.2 E.
14 18.4 E.
4 7-5 E.
24 20.6 E.
15 97E.
5 0.9 E.
25 14.1 £.
16 3-3 E.
5 16.4 E.
26 5.5 E.
16 18.6 E.
6 9.7 E.
26 23.0 E.
17 12.2 E.
7 1-3 E.
27 14.4 E.
18 3.5 E.
7 18.6 E.
28 7.9 E.
18 21.0 E.
8 10.2 E.
28 23.3 E.
19 12.4 E.
9 3.5 E.
29 16.7 E.
20 5.9 E.
9 19.0 £.
30 8.1 E.
2021.3 £.
10 12.4 E.
Oct. I 1.6 E.
21 14.8 £.
II 3.9 E.
Dec. 1 17.0 E.
22 6.2 £.
n 21.3 E.
2 10.5 E.
22 23.6 E.
12 12.8 E.
3 1-9 E.
23 15.0 E.
13 6.2 E.
3 19.4 E.
24 8.5 E.
13 21.6 E.
4 10.8 E.
24 23.9 E.
14 15.0 £.
5 4-3 E.
25 17.4 E.
15 6.5 E.
5 19.6 £.
26 8.8 E.
15 23.9 E.
6 13.1 E.
27 2.3 E.
16 15.4 E.
7 4-5 E.
27 17.7 E.
17 8.8 E.
7 22.0 E.
28 ii.i E.
18 0.3 E.
8 13.4 E.
29 2.6 E.
18 17.7 E.
9 6.9 E.
29 20.0 E.
19 9.1 E.
9 22.2 E.
30 11.4 E.
20 2.6 E.
10 15.8 E.
31 4-9 E.
20 18.0 E.
II 7.1 E.
31 20.3 E.
TETHYS.
d h
d h
d h
d h
d h
d h
Jan. 2 0.7 E.
Feb. 6 21.6 E.
Aug. II 21.6 E.
Sept.i6 18.5 E.
Oct. 22 15.2 E.
Nov. 27 1 1. 6 E.
3 22.0 £.
8 19.0 E.
13 18.9 E.
18 15.8 E.
24 12.5 E.
29 8.9 E.
5I9-3E.
10 16.3 E.
15 16.3 £.
2oi3.i£.
26 9.7 E.
Dec. I 6.2 E.
7 16.6 £.
12 13.6 E.
17 13.6 E.
22 10.4 E.
28 7.0 E.
3 3.5 E.
9 »3-9 £.
14 10.9 E.
19 10.9 E.
24 7.7 E.
30 4.3 E.
5 0.8 E.
II 11.2E.
16 8.2 E.
21 8.2 E.
26 5.0 E.
Nov. I 1.6 E.
6 22.0 E.
13 8.5 E.
18 5.6 E.
23 5.5 E.
28 2.3 £.
2 22.9 E.
8 19.3 E.
15 5-8 E.
20 2.9 E.
25 2.8 E.
29 23.6 E.
4 20.2 £.
10 16.6 E.
17 3.2 E.
22 0.2 £.
27 0.1 E.
Oct. I 20.9 E.
6 17.5 £.
12 13.9 E.
19 0.5 E.
23 21.6 E.
28 21.5 E.
3 18.2 E.
8 14.8 E.
14 11.2 E.
20 21.8 E.
25 18.9 £.
30 18.8 E.
5 15.5 E.
10 12.0 £.
16 8.5 E.
22 19. 1 E.
27 16.2 E.
Sept. 1 16. 1 E.
7 12.8 E.
12 9.3 £.
18 5.8 E,
24 16.4 £.
29 13.6 E.
3 13-4 E.
9 10. 1 E.
14 6.6 £.
20 3.1 E.
26 13.7 E.
Mar. 2 10.9 E.
5 10.7 E.
II 7.4 E.
16 3.9 £.
22 0.4 E.
2811.0E.
4 8.2 E.
7 8.0 E.
13 4-7 E.
18 1.2 E.
23 21.7 E.
30 8.4 E.
• • • •
9 5 3E.
15 2.0 £.
19 22.5 £.
25 19.0 E.
Feb. I 5.7 E.
Aug. 6 5.7 E.
II 2.6 E.
i6 23.3 E.
21 19.8 E.
27 16.3 E.
3 30 E.
8 3.0 E.
12 23.9 E.
18 20.6 E.
23 17.0 £.
29 13.6 E.
5 0.3 E.
10 0.3 E.
14 21.2 E.
20 17.9 E.
25 14.3 E.
31 10.8 E.
DIONE.
d h
d h
d h
d h
d h
d h
Jan.
I 21.9 E.
Feb. 6 1 1.9 E.
Aug. 13 12.0 E.
Sept.i8 2.0 E.
Oct. 23 15.7 E.
Nov. 28 5.0 E.
4 15-5 E.
9 5-6 E.
16 5.7 E.
20 19.7 E.
26 9.3 E.
30 22.7 E.
7 9.2 E.
II 23.3 £.
18 23.4 E.
23 134 E.
29 3.0 E.
Dec. 3 16.3 E.
10 2.9 E.
14 17.1 E.
21 17.1 E.
26 7.1 E.
31 20.6 E.
6 lo.o £.
12 20.6 E.
17 10.8 E.
24 10.8 E.
29 0.7 E.
Nov. J 14.2 E.
9 3.6 E.
15 14.3 E.
20 4.5 E.
27 4-5 E.
Oct. I 18.4 E.
6 7.9 E.
II 21.2 £.
18 8.0 E.
22 22.2 E.
29 22.2 E.
4 12. 1 E.
9 1-5 E.
14 14.9 E.
21 1.7 E.
25 16.0 E.
Sept. I 15.9 E.
7 5.7 E.
II 19.2 £.
17 8 6E.
23 19.4 E.
28 9.7 E.
4 9.6 E.
9 23.4 E.
14 12.8 £.
20 2.2 £.
26 13. 1 E.
Mar. 2 3.4 E.
7 3.3 E.
12 17.0 E.
17 6.5 E.
22 19.9 E.
29 6.8 E.
• ■ • •
9 21.0 E.
15 10.7 E.
20 0.1 E.
25 13.5 E.
Feb
. I 0.5 E.
Aug. 8 0.6 E.
12 14.7 E.
18 4.4 E.
22 17.7 £.
28 72 E.
3 18.2 E.
10 18.3 E.
15 8.4 E.
20 22.0 E.
25 1 1.4 E.
31 0.8 E.
[Eph xa]
SATELLITES OF SATURN, 1912.
639
WASHINGTON MEAN TIME OF GREATEST ELONGATION.
RHEA.
TITAN.
HYPERION,
d h
d h
d h
d h
d
d
Jan. 4 16.7 E.
Sept. 27 12.0 E.
Jan. 4 Z2.8 W.
Oct. 611.0S.
Jan.
31 1-
Sept.
ii.oE.
9 51 E.
Oct. 2 0.4 E.
8 9-8 S.
zo 14.0 E.
8.Z W.
Z5.7 I.
13 17.5 E-
6 12.8 E.
Z2 13.3 E.
14 15.0 1.
Z3.8 S.
21.2 W.
18 6.0 E.
XI i.i E.
16 Z5.5 I.
1811.0W.
19.3 E.
27.3 s.
22 18.4 E.
15 13 4 E.
20 11.4 W.
22 8.8 S.
24.3 I.
Oct.
2.3 E.
27 6.9 E.
20 1.8 E.
24 8.6 S.
26 11.7E.
29.3 w.
7.0 1.
31 19-3 E.
24 14. z E.
28 12.2 E.
30 12.61.
Feb.
4.0 S.
12.5 W.
Feb. 5 7.8 E.
29 2.4 E.
Feb. z 14.5 I.
Nov. 3 8.5 W.
9.5 E.
z8.6 S.
920.3 E.
Nov. 2 14.7 E.
5 10.6 W.
7 6.1 S.
145 1-
23.6 E.
14 8.8 E.
7 3.0 E.
9 7.8 S.
zz 9.0 £.
19.6 W.
28.3 I.
18 21.3 E.
iz 15.3 E.
Z3 IZ.6E.
15 lO.O I.
25.3 s.
Nov.
2.8 W.
23 9.8 E.
16 3.6 E.
• • ■ •
19 5.7 W.
Mar.
Z.8E.
8.9 S.
• • • a
20 Z5.9 E.
Aug. 27 Z9.4 I.
23 3.3 s.
6.81.
13-9 E,
Aug. 27 20.1 £.
25 4.2 £.
31 15 8 W.
27 6.2 E.
■ • •
18.6 I.
22 8.6 E.
29 16.5 E.
Sept. 4 14.0 S.
Dec. z 7.2 1.
July
30. z E.
24.1 W.
2621.Z E.
Dec. 4 4.8 E.
8 17.2 E.
5 3.0 W.
Aug.
3.8 I.
30.1 S.
31 9.5 E.
8 17.2 E.
Z2 Z8.5 I.
9 05 S.
9.3 w.
Dec.
5.2 E.
Sept. 4 22.0 E.
13 55E.
16 14.7 W.
13 3.4 E.
15.4 S.
9.9 1.
9 10.4 E.
Z7 17.8 E.
20 12.8 S.
17 4.6 1.
20.5 E.
15.4 w.
13 22.8 E.
22 6.1 E.
24 15.9 E.
2Z 0.4 W.
25.3 I.
21.3 S.
18 11.2 E.
26 18.5 E.
28 17.0 1.
24 21.9 s.
30.8 W.
26.4 E.
22 23.6 E.
3Z 6.8 E.
Oct. 2 13.1 W.
29 i.o E.
Sept.
5.8 S.
31.1 1.
lAPETUS.
Jan.
Feb.
d
15.8 I.
4.4 w.
Feb.
d
23.8 S.
• • •
Aug.
d
4-3 S.
24.9 £.
Sept.
Oct.
d
14.7 I.
4.0 W.
Oct.
Nov.
d
22.8 S.
ZZ.8E.
Dec.
d
2.Z I.
21.1W.
NINTH SATELLITE OF SATUEN.
DIFFERENTIAL COORDINATES OF PHCEBE FOR I9I2.
Washington
^Ph.-
-W
Washington
^Ph.-
-*8»t.
Washington
<^Ph.— ^Bat.
Mean Noon.
^'Ph.— ''sat.
Mean Noon.
«Fh.— '^Bat.
Mean Noon.
^Ph.— «8at.
1912.
m 8
0
*
1912.
m s
0
t
1912.
m s
e '
Jan.
I
— I O.I
^0
5.0
July 4
+0 45.7
+0
2.0
Oct. 2
+ 2 36-4
+0 9.9
6
I 5.4
0
5.6
9
0 54.2
0
2.5
7
2 39-0
0 10. 2
II
I 10.5
0
6.2
14
I 2.6
0
3.1
12
2 41.2
0 10.6
•
16
I 15.3
0
6.8
19
I 10.7
0
3.6
17
2 43.0
0 10.9
21
I 19.7
0
7.4
24
I 18.6
0
4.2
22
2 44-4
0 II. 2
26
I 23.8
0
7.9
29
I 26.3
0
4.7
27
2 45.4
0 II. 4
31
I 27.5
0
8.3
Aug. 3
I 33.7
0
5.2
Nov. I
2 45.9
0 II. 6
Feb.
5
I 30-8
0
8.6
8
I 40.8
0
5.7
6
2 46.0
0 II. 8
10
I 33.6
0
8.9
13
I 47.6
0
6.1
II
2 45-7
0 12.1
15
T- 35.9
0
9.1
18
I 54.2
0
6.5
16
2 45.0
0 12.3
20
I 37.7
0
9.3
23
2 0.4
0
7.0
21
2 43.8
0 12.4
25
I 39.0
0
9.5
28
2 6.3
0
7.4
26
2 42.2
0 12.5
Mar.
I
I 39.8
0
9.6
Sept. 2
2 II.8
0
7.8
Dec. I
2 40.2
0 12.5
6
I 40.0
0
9.6
7
2 17.0
0
8.1
6
2 37-8
0 12.4
II
I 39.6
0
9.6
12
2 21.7
0
8.5
II
2 34-9
0 12.3
16
I 38.6
0
9.5
17
2 26,0
0
8.9
16
2 31.6
0 12.3
21
I 36.9
0
9.3
22
2 29.9
0
9.3
21
2 28.0
0 12.2
26
I 34.6
0
9.1
^
+2 33-4
+0
9.6
26
2 24.1
0 12.0
31
-I 31.7
—0
8.8
31
+2 19.9
+0 II. 8
[Eph xa]
640
SATURN'S RINGS, 1912.
ELEMENTS FOR DETERMINING THE GEOCENTRIC POSITION. APPEARANCE.
AND MAGNITUDE OF SATURN'S RINGS.
a
b
P
/
/'
u
u*
Inclination of
The Elevation
The Elevation
Earth's Longitude from
Northern
of the Earth
of the Sun
Saturn counted on Plane
Washington
Onter
Onter
Semi-minor
above the
above the
of Ring from the Ring's
Mean
Major
Axis.
Minor
Axis to Circle
Plane of the
Plane of the
Ascending Node on —
Noc
>n.
Axis.
of Declination
from North
Ring.
Ring.
to East
Equator.
Ecliptic
n
n
e t
0 9
e «
e t
0 9
Jan.
I
43.82
-15-33
-0 37.6
-20 27.5
-21 59.4
95 5.4
52 324
II
43.09
15.06
0 36.2
20 27.3
22 5.2
94 54-0
52 2I.I
21
4232
14-83
0 36.2
20 30.4
22 II.O
94 540
52 2I.I
31
4155
14.63
0 37.6
20 36.6
22 16.7
95 5.6
52 32.8
Feb.
lO
40.80
14.47
0 40.4
20 46.1
22 22.4
95 28.3
52 55 6
20
40.09
-14.35
-0 44.6
-20 58.2
-22 28.1
96 1.6
53 28.9
Mar.
I
39.44
14.27
0 49.9
21 12.5
22 33.7
96 44 7
54 X2.0
II
38.85
14.23
0 56.3
21 28.7
22 39.2
97 36.7
55 40
21
38.34
14.22
I 37
21 46.2
22 44.7
98 36.4
56 3-8
31
37-91
14.25
I 12.0
22 .4.6
22 50.2
99 42.7
57 10.2
Apr.
lO
37.57
-14.31
-I 20.9
-22 23.5
-22 55.6
100 54.5
58 22.0
20
37-31
14.40
I 30.4
22 42.4
23 0.9
I02 10.7
59 38.1
30
37.14
14.52
I 40.2
23 I.O
23 6.2
103 30.1
60 57.5
May
10
37.06
14.67
I 50.2
23 18.9
23 II.4
104 51.6
62 19.2
20
3707
14.84
2 0.3
23 35-9
23 16.6
106 14.0
63 41.7
30
3717
-1503
-2 10.4
-23 517
-23 21.7
107 36.1
65 3.8
June
9
37-35
15.25
2 20.2
24 6.2
23 26.7
108 56.7
66 24.5
19
37.62
15-49
2 29.7
24 19-1
23 31.7
no 14.8
67 42.7
29
37-97
15-75
2 38.6
24 30.5
23 36.6
III 29.2
68 57-1
July
9
38.40
16.03
2 46.9
24 40.2
23 41.5
112 38.7
70 6.6
19
38.91
-16.33
-2 54 4
-24 48.3
-23 46.3
113 42.0
71 lO.O
29
39.50
16.64
3 10
24 54.7
23 5I.I
114 38.0
72 6.0
Aug.
8
40.15
16.96
3 6.6
24 59.4
23 55 9
115 25.5
72 53-6
18
40.86
17.29
3 ii.o
25 2.6
24 0.6
"6 3-5
73 31 6
28
41.60
1763
3 14 2
25 42
24 52
116 31. 1
73 59 3
Sept.
7
42.37
-17.96
-3 16.1
-25 4.4
-24 9.7
116 47.4
74 156
17
43.15
18.27
3 16.6
25 32
24 M 2
116 52.1
74 20.2
27
4390
18.56
3 15.7
25 0.7
24 18.6
116 44.8
74 12.9
Oct.
7
44.61
18.82
3 13.4
24 57.0
24 23.0
116 25.7
73 54.1
17
4523
19-03
3 99
24 52.2
24 27.3
"5 55.7
73 24.4
27
45-74
-19.17
-3 53
-24 46.4
-24 31.6
IIS 16.5
72 45.2
Nov.
6
46.10
19.24
2 59-8
24 39 9
24 35.8
114 30.0
7X 58.6
16
46.31
19.24
2 53 7
24 32 9
24 39 9
"3 38.7
71 7.2
26
4633
19.16
2 47.4
24 25.8
24 44.0
112 45.3
70 13.9
Dec.
6
46.18
19.02
2 41.1
24 19.0
24 48.0
III 52.9
69 21.6
16
45.85
-18.81
-2 35.2
-24 13 I
-24 51-9
III 4.6
68 33.4
26
45-38
18.56
2 30.4
24 8.6
24 55-8
no 23.0
67 51.8
31
45.10
-18.42
-2 28.3
-24 6.9
-24 57.7
"o 5.5
67 34.2
The factor to be multiplied by a and b to obtain the axes of —
The inner ellipse of the outer ring = 0.8801, log factor = 9.9445
The outer ellipse of the inner ring = 0.8599, log factor = 9.9344
The inner ellipse of the inner ring = 0.6650, log factor = 9.8228
The inner ellipse of the dusky ring = 0.5486, log factor = 9.7392
NoTB.-— The positive sign of / indicates that the visible surface of the ring is the northeni oott.
[Bph xa]
SATELLITES OF SATURN, 1912.
FRACTIONS OF THE PERIODS OF REVOLUTION.
641
Fraction of a
Revolation.
Mimas.
Bnceladus.
Tethyt.
Dione.
Rhea.
Titan.
Fraction of a
Revolution.
h
d h
d h
d h
d h
d h
O.0O
0.0
0 ao '
0 0.0
0 0.0
0 0.0
0 0.0
0.00
0.02
0.5
0 0.7
0 0.9
0 Z.3
0 2.2
0 7.7
0.02
0.04
0.9
0 1.3
0 z.8
0 2.6
0 4-3
0 153
0.04
0.06
1.4
0 2.0
0 2.7
0 3-9
0 6.5
0 23.0
0.06
0.08
Z.8
0 2.6
0 3.6
0 5.3
0 8.7
z 6.6
0.08
0.10
2.3
0 3-3
0 4.5
0 6.6
0 Z0.8
I Z4.3
0.ZO
0.12
27
0 4.0
0 5.4
0 7.9
0 13.0
z 2Z.9
O.Z2
0.14
3-2
0 4.6
0 6.3
0 9.2
0 Z5.2
2 5.6
0.14
0.16
3.6
0 5.3
0 7.2
0 Z0.5
0 17.3
2 13.2
o.z6
0.18
41
0 5.9
0 8.2
0 ZZ.8
0 Z9.5
2 20.9
o.z8
0.20
4-5
0 6.6
0 9.Z
0 Z3.Z
0 21.7
3 4-5
0.20
0.22
5.0
0 7.2
0 lO.O
0 Z4.5
0 23.9
3 X2.2
0.22
0.24
5-4
0 7.9
0 Z0.9
0 15.8
I 2.0
3 19.8
0.24
0.26
5.9
0 8.6
0 ZZ.8
0 Z7.Z
z 4.2
4 3.5
a26
0.28
6.3
0 9.2
0 Z2.7
0 18.4
z 64
4 1Z.2
a28
0.30
6.8
0 9.9
0 Z3.6
0 19.7
I 8.5
4 z8.8
0.30
0.32
7.2
0 10.5
0 145
0 21.0
z 10.7
5 2.5
0.32
0.34
7.7
0 IZ.2
0 15.4
0 22.3
z Z2.9
5 10. z
0.34
0.36
8.1
0 ZI.8
0 Z6.3
0 23.6
z 15.0
5 17.8
0.36
0.38
8.6
0 12.5
0 Z7.2
Z I.O
z Z7.2
6 Z.4
0.38
0.40
91
0 Z3.2
0 z8.i
z 2.3
z Z9.4
6 9.Z
040
0.42
95
0 13.8
0 Z9.0
z 3.6
z 21.5
6 Z6.7
0.42
0.44
lO.O
0 14.5
0 Z9.9
I 4-9
z 23.7
7 04
a44
0.46
10.4
0 15. 1
0 20.8
z 6.2
2 1.9
7 8.0
0.46
0.48
Z0.9
0 Z5.8
0 21.7
I 7.5
2 4.0
7 15.7
0.48
0.50
"•3
0 Z6.4
0 22.7
z 8.8
2 6.2
7 23.3
0.50
0.52
IX.8
0 17. z
0 23.6
z 10.2
2 8.4
8 7.0
0.52
0.54
12.2
0 17.8
z 0.5
z II. 5
2 10.5
8 14.7
054
0.56
12.7
0 18.4
z 1.4
Z Z2.8
2 12.7
8 22.3
0.56
0.58
13.1
0 19. z
I 2-3
I Z4.1
2 Z4.9
9 6.0
0.58
0.60
Z3.6
0 Z9-7
z 3.2
z 15.4
2 17. 1
9 13.6
0.60
0.62
14.0
0 20.4
z 4.Z
I 16.7
2 Z9.2
9 21.3
0.62
0.64
14.5
0 2Z.O
X 50
z 18.0
2 21.4
10 4.9
0.64
0.66
14.9
0 2Z.7
X 5.9
z 19.4
2 23.6
10 12.6
0.66
0.68
15-4
0 22.4
z 6.8
z 20.7
3 1.7
zo 20.2
0.68
0.70
X5.8
0 23.0
z 7.7
I 22.0
3 3-9
XX 3-9
0.70
0.72
16.3
0 23.7
z 8.6
X 23.3
3 6.Z
zi 1Z.5
0.72
0.74
16.7
X 0.3
X 9-5
2 0.6
3 8.2
ZT Z9.2
0.74
0.76
17.2
z z.o
z ZO.4
2 1.9
3 10.4
Z2 2.8
0.76
0.78
17.6
z Z.7
z ZZ.3
2 3.2
3 Z2.6
Z2 ZO.S
0.78
0.80
z8.z
z 2.3
Z Z2.2
2 4-5
3 14.7
Z2 18.Z
0.80
0.82
18.5
I 30
z Z3.2
2 59
3 16.9
13 Z.8
0.82
0.84
19.0
z 3.6
Z Z4.Z
2 7.2
3 19.1
X3 9*5
0.84
0.86
29.5
I 4-3
z Z3.0
2 8.5
3 21.2
X3 X7.Z
0.86
0.88
19.9
I 4.9
z Z5.9
2 9.8
3 23.4
Z4 0.8
0.88
0.90
20.4
z 5.6
z z6.8
2 II.Z
4 1.6
X4 8.4
a90
0.92
20.8
I 6.3
z 17.7
2 12.4
4 3.7
Z4 z6.z
0.92
0.94
21.3
z 6.9
z z8.6
2 13.7
4 59
14 23.7
0.94
0.96
21.7
z 7.6
z Z9.5
2 15.Z
4 8.Z
X5 7.4
0.96
0.98
22.2
Z 8.2
z 20.4
2 Z6.4
4 IO-3
X5 15 0
0.98
z.oo
22.6
z 8.9
Z 2Z.3
2 Z7.7
4 X2.4
Z5 22.7
Z.00
igi
^ IT
[Bl
>h za]
a 41
642
SATELLITES OF SATURN, 1912.
Six Inner Satellites of Saturn.
Hyperion.
lapetus.
Fraction of
Time from
Time from
a Revolu-
>»
F
Eastern
>»
F
Eastern
>»
JF
tion.
Elongation.
Elongation.
•
o.oo
0
87.1
1. 000
d
0.0
e
87.8
0.940
d
0
e
752
1.026
0.02
84.1
0.994
0.5
83.9
0.918
2
72.9
1.016
0.04
81.0
0.974
I.O
79.6
0.872
4
70.4
0.985
0.06
77.7
0.942
1-5
74.8
0.809
6
67.7
0.933
0.08
. 74.2
0.899
2.0
69.1
0.731
8
64.7
0.863
0.10
70.2
0.845
2.5
61.8
0.639
10
61.0
0.774
0.12
65.7
0.783
3.0
52.0
0.541
12
56.3
0.673
0.14
60.4
0713
3.5
37-8
0.450
14
49.9
0.562
0.16
53.8
0.641
40
17.6
0.385
16
40.1
0.449
0.18
45.6
0.569
4-5
353.3
0.370
18
24.2
0.346
0.20
35.0
0.504
5.0
330.5
0.410
20
358.3
0.284
0.22
21.7
0.451
5-5
3133
0.491
22
326.3
0.287
0.24
5-7
0.420
6.0
301.5
0.590
24
301.2
0.355
0.26
348.5
0.420
6.5
2931
0.690
26
2875
0.467
0.28
332.5
0.451
7.0
286.8
0.783 ,
28
278.4
0.578
0.30
3192
0.504
'' 7.5
281.8
0.865
30
272.2
0.686
0.32
308.6
0.569
8.0
277.6
0.933
32
267.6
0.783
0.34
300.4
0.641
8.5
273.9
0.987
34
264.1
0.863
0.36
293.8
0.713
9.0
270.5
1.025
36
261.0
0.923
0.38
288.5
0.783
9 5
267.3
1.045
38
258.2
0.962
0.40
283.9
0.845
lO.O
264.2
X.047
40
255-6
0.975
0.42
280.0
0.899
10.5
261. 1
1.033
42
253.0
0964
0.44
276.5
0.942
1 1.0
2579
Z.004
44
250.3
0.930
0.46
273.2
0.974
11.5
2544
0.962
46
247.4
0.871
• 0.48
270.1
0.994
12.0
250.5
0.908
48
2439
0.792
0.50
267.1
I.OOO
12.5
246.0
0.843
50
2393
0.697
0.52
264.1
0.994
13.0
240.8
0.771
52
2333
0.589
0.54
261.0
0.974
13.5
2344
0.693
54
224.4
0.470
0.56
2577
0.942
14.0
226.4
0.613
56
210.5
0-357
0.58
254.2
0.899
.14.5
216. 1
0.542
58
185.1
0.282
0.60
250.2
0.845
15.0
203.1
.0.484
60
151.4
0.277
0.62
2457
0.783
15-5
187. 1
0.448
62
Z24.8
0.343
0.64
240.4
0.713
16.0
169.7
0.443
64
108.8
0.452
0.66
2338
0.641
16.5
153.1
0.471
66
99.2
0.571
0.68
225.6
0.569
17.0
139-3
0.525
68
92.9
0.684
0.70
215.0
0.504
175
X28.2
0.594
70
88.4
0.785
0.72
201.7
0.451
18.0
1 19.6
0.668
72
84.8
0.873
0.74
185.7
0.420
18.5
112.8
0.741
74
81.8
0.944
0.76
168.5
0.420
19.0
107.1
0.809
76
79.2
0.993
0.78
152.5
0.451
19.5
102.2
0.866
78
76.7
X.019
0.80
139.2
0.504
•20.0
979
0.909
80
741
1.023
0.82
128.6
0.569
20.5
939
0.935
0.84
120.4
0.641
21.0
90.1
0.944
0.86
113.8
0.713
21.5
86.4
0.933
0.88
108.5
0.783
0.90
1039
0.845
0.92
100.0
0.899
0.94
96.5
0.942
0.96
93-2
0.974
0.98
90.1
0.994
I.OO
87.1
I.OOO
The fraction of a revolution is reckoned from the Eastern Elongation,
Position angle of satellite/— /'+(/*— Z'o).
Apparent distance of satellite s^F— .
[Eph X2]
SATELLITES OF SATURN, 1912.
643
Mimas.
EnceladuB.
Tethys.
Dione.
Date.
a(p)
a{p)
a(p)
a(p)
P-Po
P
P-Po
P
P-Po
\r 9
P
P-Po
p
o
tt
0
f
0
It
0
n
Jan. I
+0.6
298
+2.3
38.4
+31
47-5
+2.3
60.8
II
0.7
29.3
2.3
37-8
32
46.7
23
598
21
0.9
28.8
2.3
37.1
32
459
2.3
58.8
31
1. 1
28.3
2.2
36.4
3-2
45.1
2t3
57.7
Feb. lo
13
27.8
2.2
357
3-1
443
2.2
56.6
20
+1.5
273
+2.1
»-i
+3.1
43-5
+2.2
55.6
Mar. I
1.7
26.8
+2.1
34-5
3.1
42.8
+2.1
54-7
Aug. 8
+0.3
27.4
-0.2
352
+0.9
43-6
-0.2
55-7
i8
-0.1
27.8
0.3
35.8
0.8
44-3
03
56.7
28
0.5
28.3
0.3
36.4
0.7
451
0.3
57-7
Sept. 7
0.9
28.8
0.4
371
0.7
45.9
0.3
58.7
I?
1.2
29.4
0.4
37-8
0.6
46.7
0.3
59.8
27
-1-4
29.9
-0-3
384
+0.6
47.5
-0.3
60.8
Oct. 7
1.6
30.3
0.3
39.0
0.6
48.3
0.3
61.8
17
1.7
30.7
0.2
39-5
0.7
49.0
0.2
62.6
27
1.8
3I.I
0.2
40.0
0.7
49.6
0.2
63.4
Nov. 6
1.8
313
-O.I
40.3
0.8
49-9
-O.I
63.8
i6
-1.7
31.5
0.0
40.5
+0.9
50.1
0.0
64.1
26
1.6
315
+O.I
405
I.O
50.1
+0.1
64.1
Dec. 6
1-5
314
0.2
40.4
• I.I
50.0
0.2
64.0
i6
1.3
31.2
0.3
40.1
I.I
49.6
0.3
63.6
26
-i.i
30.9
+0.4
39-7
+1.2
49.2
+0.4
•
63.0
Rh
ea.
Titan.
Hype
irion.
lapetus.
Date.
aip)
a(p)
a(p)
<s(p)
P-Po
P
P-Po
P
P-Po
P
P-Po
p
0
tt
0
It
0
ft
e
m
Jan. I
+2.4
85.1
+2.1
197
+2.0
239
+0.1
574
II
2.4
83.7
2.1
194
2.0
235
O.I
564
21
2.4
82.2
2.1
190
2.0
231
0.1
554
31
2-4
80.7
2.1
186
1.9
227
O.I
544
Feb. lo
2.4
79.2
2.1
183
1.9
223
+0.1
534
20
+2.3
77-9
+?.o
180
+1.8
219
0.0
525
Mar. I
2.2
76.7
+1.9
177
+1.8
215
0.0
516
Aug. 8
+0.1
78.0
-0.2
180
-03
219
+0.1
525
i8
0.0
79.3
0.3
184
0.3
223
O.I
535
28
-O.I
80.7
0.3
187
0.4
227
0.2
544
Sept. 7
O.I
82.2
0.3
190
0.4
231
0.2
554
17
O.I
83.8
0.3
194
0.4
235
0.2
564
27
-o.i
85.2
-0.3
197
-0.4
239
+0.2
574
Oct. 7
0.0
86.5
0.3
200
0.4
243
0.2
583
17
0.0
87.6
0.3
203
0.3
246
O.I
592
27
+0.1
88.6
0.2
205
0.2
249
O.I
598
Nov. 6
0.2
89.3
-O.I
207
0.2
251
+0.1
603
i6
+0.3
89.7
0.0
208
-0.1
252
0.0
606
26
0.4
89.7
+0.1
208
O.Q
253
0.0
606
Dec. 6
0.5
89.5
0.2
207
+0.1
252
0.0
604
i6
0.6
88.9
0.3
206
0.2
250
0.0
600
26
+0.7
88.1
+0.4
204
+0.3
248
0.0
594
[Eph 12]
644
SATELLITES OF URANUS, 1912.
APPARENT ORBITS OF THE SATELLITES OF URANUS AT DATE OF OPPOSITION,
JULY 24, 1912, AS SEEN IN AN INVERTING TELESCOPE.
Soulh
Apparent Apsides.
Date. Position App. Distances.
Angle. Ariel. UmbrieL
e IP w
May 3, 357.6 13.5 18.8
July 22, 358.7 14. 1 19.6
Oct. 10, 359.9 13.5 18.8
Apparent Apsides.
Date. Position App. Distances.
Angle. Titania. Oberon.
O w w
May 3, 357.6
July 22, 358.7
Oct. 10, 359.9
309 413
32.2 43.1
309 4^ 3
North
WASHINGTON MEAN TIME OF GREATEST ELONGATION.
ARIEL.
UMBRIEL.
TITANIA. OBERON.
North.
Sonth.
North.
South.
North.
South.
North and South.
d h
d h
d h
d h
d h
d h
d h
May 2 7.7
May 6 2.5
May 2 7.Z
May 4 8.9
Apr. 27 X0.6
May X X9.0
May
X7 5.x S.
9 21.2
13 159
10 Z4.0
12 15.8
May 6 3.5
XO X2.0
23 22.6 N.
17 xa7
21 5.4
Z8 2Z.O
20 22.7
X4 20.4
19 4-9
30 z6.2 S.
25 0.1
28 z8.8
27 3.9
29 5.6
23 13.4
27 2X.8
June
6 9.8 N.
June I Z3.6
June 5 8.3
June 4 Z0.8
June 6 X2.5
June X 6.3
June 5 X4.8
13 3.4 s.
9 30
12 21.8
Z2 Z7.7
14 X9-4
923.3
M 7.7
Z9 2Z.O N.
16 16.5
20 ZZ.2
2Z 0.6
23 2.4
z8 x6.2
23 0.7
26 Z4.6 S.
24 6.0
28 0.7
29 7.5
July X 9.3
27 9.2
July I X7.7
July
3 8.2 N.
July I 19.4
July 5 Z4.2
July 7Z4.5
9 X6.2
July 6 2.2
XO X0.7
zo Z.8S.
9 8.9
13 36
13 21.4
X7 23.2
X4 X9.2
19 37
z6 Z9.5 N.
z6 22.4
20 Z7.Z
24 4.4
26 6.x
23 X2.2
27 20.7
23 Z3.X S.
24 H.9
28 6.6
Aug. z XX.3
Aug. 3 X3.X
Aug. X 5.2
Aug. 513.7
30 6.7 N.
Aug. I 1.4
Aug. 4 20.1
918.3
XX 20.0
9 22.2
14 6.7
Aug.
6 0.3 S.
8 X4.8
12 9.6
z8 Z.2
20 3.0
x8 15.2
22 23.7
Z2 Z8.0N.
16 43
19 23.1
26 8.2
28 9.9
27 8.2
31 16 7
Z9 Z1.6S.
23 17.8
27 Z2.6
Sept. 3 Z5.Z
Sept. 5 16.9
Sept. 5 X.2
Sept. 9 9.7
26 5.2 N.
31 7 3
Sept. '4 2.0
zx 22.x
13 23.8
Z3 x8.2
x8 2.6
Sept.
X 22.8 S.
Sept 7 20.8
zz Z5.5
20 5.0
22 6.8
22 ZX.2
26 19.6
8 X6.4 N.
15 10.3
19 5.0
28 X2.0
30 X3.7
Oct. X 4.Z
Oct. 5 X2.6
Z5 ZO.Z S.
22 23.8
26 Z8.5
Oct. 6 18.9
Oct. 8 20.6
9 2X.X
14 5.6
22 3.7 N.
30 13-3
Oct. 4 8.0
X5 1.8
17 3.6
x8 X4.X
22 22.5
28 2X.3 S.
Oct. 8 2.7
zx 21.5
23 8.8
25 10.5
27 7.0
31 15.5
Oct.
5 14 8 N.
15 162
19 ZI.O
31 15.7
Nov. 2 17.4
Nov. 4 23.9
Nov. 9 8.4
Z2 8.4 S.
23 57
27 0.4
Nov. 8 22.6
XX 0.4
X3 X6.9
x8 X.3
Z9 2.0 N.
30 Z9.2
Nov. 3 Z3.9
17 5-6
19 7.3
22 9.8
26 X8.2
25 Z9.5 S.
Period of Ariel,
Period of Umbriel,
d h
2 12.489
4 3-4^
Period of Titania,
Period of Oberon,
d h
8 X6.942
Z3 XX.XX9
NoTB. — For Ariel only every third elongation is given, and for Umbriel every alternate one. The Intermediate
ones may be found by adding nnultiples of the period of the satellite.
[Eph xa]
SATELLITES OF URANUS, 1912.
645
Fractions of the Period of Revolution.
Fraction of
a Revolu-
tion.
Fraction of
>>
F
a Revolu-
ArieL
Umbriel.
Titania.
Oberon.
tion.
d h
d h
d h
d h
0
0.00
0 0.0
0 0.0
0 0.0
0 0.0
aoo
Z78.8
z.ooo
0.02
0 1.2
0 2.0
0 4.2
0 6.5
0.02
Z83.8
0.995
0.04
0 2.4
0 4.0
0 8.4
0 Z2.9
0.04
Z89.0
0.984
0.06
0 3.6
0 6.0
0 Z2.5
0 Z9.4
0.06
1943
0.964
0.08
0 4.8
0 8.0
0 Z6.7
z X.8
0.08
199.8
0.939
O.IO
0 6.0
0 zo.o
0 20.9
z 8.3
0.Z0
205.7
0.908
0.12
0 73
0 ZZ.9
Z Z.Z
z Z4.8
O.Z2
2I2.Z
0.873
0.14
0 8.5
0 Z3.9
I 5-3
z 2z.a
0.14
218.9
0.834
0.16
0 9.7
0 Z5.9
z 9.4
2 37
0.16
226.5
0.796
0.18
0 10.9
0 Z7.9
z Z3.6
a 10.2
o.z8
234.8
0.76Z
0.20
0 12. 1
0 Z9.9
z Z7.8
2 z6.6
0.20
243.9
0.733
0.2a
0 13.3
0 2Z.9
z 22.0
2 23.Z
0.22
2535
0.713
0.24
0 X4.5
0 23.9
2 2.Z
3 55
0.24
263.6
0.700
0.26
0 157
I 19
a 6.3
3 Z2.0
0.26
274.0
0.700
0.28
0 16.9
I 3.8
2 ZO.5
3 18.5
0.28
284.Z
0.7x3
0.30
0 x8.i
z 5.8
2 Z47
4 0.9
0.30
2938
0733
0.32
0 19.4
z 7.8
2 Z8.9
4 7-4
0.32
302.8
0.76Z
0.34
0 20.6
z 9.8
a a3.o
4 139
0.34
3ZZ.Z
0.796
0.36
0 21.8
z ZI.8
3 3.2
4 20.3
0.36
318.7
0.834
a38
0 23.0
z X3.8
3 7-4
5 2.8
0.38
3255
0.873
040
z 0.2
z Z5.8
3 ZZ.6
5 9.2
0.40
3319
0.908
0.42
I 1.4
z Z7.8
3 15-9
5 157
P.42
337.8
0.939
0.44
I 2.6
z Z9.8
3 199
5 22.2
0.44
343-3
0.964
0.46
I 3.8
Z 2Z.8
4 o.z
6 4.6
0.46
348.6
0.984
0.48
I 5.0
z 23.7
4 4-3
6 zz.z
048
3538
0.995
0.50
Z 6.2
2 Z.7
4 8.5
6 Z7.6
0.50
358.8
z.ooo
0.52
I 7.5
2 37
4 Z2.6
7 0.0
0.52
3-8
0.995
0.54
z 8.7
2 5.7
4 z6.8
7 65
0.54
9.0
0.984
0.56
z 9.9
2 7.7
4 21.0
7 12.9
0.56
143
0.964
0.58
Z IZ.Z
2 9.7
5 1.2
7 19 4
0.58
Z9.8
0.939
0.60
Z Z2.3
2 II.7
5 5.4
8 Z.9
0.60
257
0.908
0.62
z Z3.5
2 13.7
5 9.5
8 8.3
0.62
32.1
0.873
0.64
z Z4.7
3 157
5 137
8 Z4.8
0.64
38.9
0.834
0.66
I 15.9
2 Z7.6
5 17.9
8 2Z.3
0.66
46.5
0.796
0.68
z 17.1
2 Z9.6
5 22. z
9 37
0.68
54.8
0.76Z
0.70
z Z8.3
2 2X.6
6 2.3
9 Z0.2
0.70
63.9
0.735
0.72
z 19.6
2 23.6
6 6.4
9 z6.6
0.72
735
0.715
0.74
z 20.8
3 1.6
6 za6
9 23. z
0.74
83.6
0.70a
0.76
z 22.0
3 3.6
6 Z4.8
zo 5.6
0.76
94.0
0700
0.78
z 23.2
3 5-6
6 Z9.0
ZO Z2.0
0.78
Z04.Z
0715
0.80
2 0.4
3 76
6 23.2
ZO Z8.5
0.80
ZZ3.8
0.735
0.82
2 1.6
3 96
7 33
zz z.o
0.82
Z22.8
0.76Z
0.84
2 2.8
3 11-5
7 7.5
zz 7.4
0.84
Z3I.I
0.796
0.86
2 4.0
3 13.5
7 "7
" 139
0.8Q
1387
0.834
0.88
2 5.2
3 15 5
7 15.9
zz 20.3
0.88
145.5
0.873
0.90
2 6.4
3 175
7 20.0
Z2 2.8
0.90
I51.9
0.908
0.92
2 7.7
3 19 5
8 0.2
Z2 9.3
0.92
157.8
0.939
0.94
2 8.9
3 2Z.5
8 4.4
Z2 X5.7
0.94
1633
0.964
0.96
2 ZO.Z
3 23.5
8 8.6
Z2 22.2
0.96
168.6
0.984
0.98
2 ZZ.3
4 1-5
8 12.8
13 47
0.98
173.8
• 0.995
I.OO
2 Z2.5
4 3-5
8 Z6.9
Z3 II. z
z.oo
178.8
z.ooo
The fraction of a revolution is reckoned from the Northern Elongation.
Position angle of satellite /->i-|-(/'—/'o).
Apparent distance of satellite s^Ft^zi.
P
[Eph i^
646
SATELLITES OF URANUS, 1912.
a
(P)
«(P)
Dal
te.
P-P^
9
Date.
P-Po
P
Ariel.
Umbriel.
Titania.
Oberon.
Ariel
UmbrieL
TiUnia.
Oberon.
0
M
n
H
n
0
ft
H
w
«r
April
13
-I.O
13.3
18.8
30.4
40.3
Aug.
II
+0.3
14.0
19.8
32.2
43.0
18
I.O
13-4
18.8
30.6
40.6
16
0.4
14.0
19.8
32.2
430
23
I.O
13.4
189
30.7
40.8
21
0.5
14.0
19.7
32.1
42.9
28
I.I
13-5
18.9
30.8
4I.I
26
0.6
13.9
19.7
32.0
42.8
May
3
I.I
13-5
19.0
30.9
41.3
31
0.7
13-9
19.6
31.9
42.7
8
-I.I
13.6
19.0
3I-I
41.5
Sept.
5
40.8
13.8
19.5
31.8
42.6
13
I.I
13.6
I9.I
31.2
41.7
10
0.9
13-8
19.4
31.7
42.5
z8
I.I
13.7
19.2
313
41.9
15
I.O
13.7
19.4
31.6
42.3
23
I.I
13-7
19.3
31.4
42.1
20
I.O
13.7
193
31-5
42.1
28
I.I
13.8
19.3
31.5
42.3
25
I.O
13.6
19.2
31.4
42.0
June
2
-I.O
13.8
19.4
31.6
42.5
30
+I.X
13-6
19. I
31.3
41.8
7
I 0
13.9
19.4
317
42.6
Oct.
5
I.I
13.5
19. I
31.2
41.6
12
°'2
139
19.5
31.8
42.7
zo
X.I
13-5
19.0
31.0
41.4
17
0.8
139
19-5
31.9
42.8
15
I.I
134
19.0
30.8
41.2
22
0.7
14.0
19.6
32.0
42.9
20
I.I
13-4
18.9
307
41.0
27
-0.6
14.0
19.7
32.1
430
25
+1.0
13-3
18.8
30.5
40.8
July
2
0.5
14.0
19.8
32.2
43-1
30
I.O
13.2
18.7
30.4
40.6
7
0.4
14.0
19.8
32.2
43.1
Nov.
4
I.O
132
18.6
30.2
40.4
12
0.3
14.0
19.8
32.3
43.2
9
0.9
13-1
18.5
30.1
40.2
17
0.2
14. 1
19.8
32.3
432
14
0.8
13.1
I8.S
30.0
40.1
22
-O.I
14.1
19.8
32.3
43-2
19
+0.7
13.0
18.4
29.9
40.0
27
0.0
14.1
19.8
32.3
43.2
24
0.6
130
18.4
29.8
39.9
Aug.
I,
+0.1
14.1
19.8
323
43.1
29
05
130
18.3
29.7
39.8
6
40. 2
14.0
19.8
323
43.1
Dec.
4
+0.4
12.9
18.2
29.6
39 7
SATELLITE OF NEPTUNE, 1912.
Time from
Time from
aia)
a{p)
Eastern
>i
F
Eastern
/»
F
Date.
P-Po
Date.
P-P^
Elongation.
Elongation.
R
9
d h
0
d h
e
e
n
0
w
0 0
107.4
102.4
I.OOO
0.995
3 0
3 3
285.0
279.9
0.998
0.989
Jan. 0
5
0.0
-0.1
16.9
16.9
Apr. 29
"I5
16.2
0 3
Sept. 10
+3-4
16.0
0 6
97.3
0.980
3 6
274.7
0.968
10
0.2
16.9
15
3.6
16.1
0 9
91.9
0.955
3 9
269.2
0.940
15
0.3
169
20
3.7
16. 1
0 12
86.2
0.923
3 12
263.2
0.906
20
0.4
16.9
25
39
16.2
0 IS
80.1
0.885
3 15
256.8
0.863
25
-0.5
16.9
30
+4.0
16.2
0 18
73.3
0.840
3 18
249.7
0.818
30
0.7
16.9
Oct. 5
4.1
16.3
0 21
65.8..
0.793
3 21
241.7
0.773
Feb. 4
0.8
16.9
10
41
16.3
I 0
57-4
0.748
. 4 0
232.8
0.730
9
0.9
16.9
15
4-2
16.4
r 3
47.9
0.708
4 3
222.9
0.693
14
I.O
16.9
20
4-2
16.4
I 6
37.4
0.677
4 6
212.0
0.668
19
-1.2
16.9
25
+4.3
16.5
I 9
26.2
0.659
4 9
200.5
0.656
24
1.3
16.8
30
4-3
16.5
I 12
14.6
0.656
4 12
188.9
0.661
29
3^4
16.8
Nov. 4
43
16.6
I 15
3-1
0.668
4 15
177.6
0.679
Mar. 5
1-5
16.8
9
42
16.6
I 18
352.2
0.693
4 18
167.1
0.710
zo
1.6
16.7
14
4.2
16.7
z 21
342.2
0.729
4 21
157-6
0.750
15
-1.7
16.7
19
+4.1
16.7
2 0
333.2
0.771
5 0
149.2
0.793
20
1-7
16.6
24
40
16.7
2 3
3253
0.818
5 3
14 1. 7
0.839
25
1.8
16.6
29
39
i6.8
2 6
318.2
0.863
5 6
134-9
0.883
30
Z.8
16.5
Dec. 4
38
16.8
2 9
311.7
0.904
5 9
128.7
0.923
Apr. 4
1.8
16.5
9
3.7
16.8
2 12
305.8
0.940
5 w
123.0
0.955
9
-1.8
16.4
14
+3-6
x6.8
2 15
300.3
0968
5 15
1 17.7
0.980
X4
1-7
X6.4
19
3.4
16.9
2 18
295-1
0.989
5 18
112.6
0.995
19
1-7
16.3
24
3.3
16.9
2 21
290.0
0.998
5 21
107.5
I.OOO
24
-1.6
Z6.3
29
+31
16.9
Position angle of satellite /•■/H(/'-/e}.
Apparent distance of satellite «a-^^-~—
[Eph xa]
SATELLITE OF NEPTUNE, 1912.
647
APPARENT ORBIT OF THE SATELLITE OF NEPTUNE AT DATE OF OPPOSITION
JANUARY 13, 191a. AS SEEN IN AN INVERTING TELESCOPE.
South
North
Date.
Position Angle
Apparent Distance
of Apsis.
at Apsis.
9$
Jan. 20,
107.2
16.8
Apr. 29,
105.9
16. 1
Sept. 2o,
ZZI.2
16.0
Dec. 29,
1 10.6
x6.8
WASHINGTON MEAN TIME OF GREATEST ELONGATION.
Bast
West
East
West
East
West
d h
d h
d
b
d b
d fa
d h
Jan.
I 7.7
Jan.
4 6-3
Mar.
23
154
Mar.
26 13.9
Oct.
15 5.5
Oct. 18 4.0
7 4-9
10 3.4
29
12.5
Apr.
I II.O
21 2.5
24 I.O
13 2.0
16 0.6
Apr.
4
9.5
7 8.0
26 23.5
29 22.0
18 23.2
21 21.7
10
6.6
13 51
Nov.
I 20.6
Nov. 4 19. 1
24 20.3
27 18.9
16
3.6
19 2.1
7 17-6
10 16. 1
30 174
Feb.
2 16.0
22
0.6
24 23.1
13 14-7
16 13.2
Feb.
5 14.6
8 13.1
27
21.6
30 20.2
19 1 1.7
22 10.3
II 11.7
•
14 10.3
May
3
18.6
May
6 17.2
25 8.8
28 7.3
17 8.8
20 7.4
9
15.6
12 14.1
Dec.
I 5-9
Dec. 4 4.4
23 59
26 4.5
15
12.6
7 3.0
10 1.5
29 3.0
Mar.
3 1.6
• •
• • a
Sept.
24 16.0
13 0.1
15 22.6
Mar.
6 0.1
8 22.7
Sept.
27
14-5
30 23.0
18 21.2
21 19.7
II 21.2
14 19.8
Oct.
3
11.5
Oct.
6 lo.o
24 18.3
27 i6.8
17 18,3
20 16.9
9
8.5
12 7.0
30 15.4
33 139
The above times are the instants of each passage of the satellite through the apsis
of its apparent orbit. The position of the satellite at any other time may be found by
measuring around the orbit from the apsis last passed through » bearing in mind that the
radius vector of the satellite describes equal areas in equal times.
The period of the satellite of Neptune is 5** 2x^.044.
NoTSr— In the preceding diagrams the central circle represents the planet and is on the same scale aa the orbits.
[Bph Z2]
648
PHENOMENA, 1912.
WASHINGTON MEAN TIME.
PLANETARY CONFIGURATIONS.
d h m
Jan. 10-
113 -
a i8 -
4 10 la
411 -
9 4-
13 5 -
14 la 49
Z5 018
15 5 -
z6 o -
z6 13 14
18 18 43
20 9 -
as o -
27 7 a
a8 850
31 20 a8
Feb. 33-
46-
6 13 -
iz 4 la
Z4 5a2
15 4x3
z6 10 46
23
15 19
24
4 -
3415 -
25
1024
a6
2 -
a8
4 57
Mar
. 1 21 -
4
0 -
4
ZI -
9
1728
13 14 4
Z415 -
15 13 57
19 5 -
19 "37
20 6 21
22 Z 6
24 Z5 22
26 zz zz
27 8 -
29 Z3 -
3z 12 -
31 X9 -
31 20 -
Apr. z - -
415 -
9 Great. Hel. Lat N.
y Great. Hel. Lat. N.
0 in Perihelion.
6V€ V--5 39
^ Stationary.
6 9V 5 + 138
cPVO
67l(L 3^+46
6 9(L ? + 5 5i
\l Great elong. W. 23 5 z
I2 Stationary.
<J 5C
<JSC
<JSO
9 inO
» + 548
+ 4 33
<Jb(C h -
Oo^ ••.... o ■■■"
6VC V-
}j in Aphelion.
4 9
037
5 39
6i&
67Ji(L
5-055
V+ 437
69(L ? + 544
d SC 6 + 436
6 id ? + 248
6
6
h
9
i
9
€ h — 4 23
S 9 + 039
Greatest Hel. Lat S.
C * — I 43
int5
<5V(C
6 9 (D Superior.
D3^0
6V(L
Vf — 546
V+ 5 o
6 &C 8 + 443
6 9C ? + 3 43
H in Perihelion.
dSC 5 + 1 47
O ' enters ^, Spring com.
6 h€ % — 436
6 iC ^ — 244
dVC V— 5 53
H Great, elong. E. z8 5Z
\l Greatest Hel. Lat N.
9 in Aphelion.
^ Stationary.
^ Stationary.
C Partial ec. invis. at W.
\l Stationary.
Apr.
m
May
d h
6 324
92346
zo 14 -
1419 -
15 o 9
z6 zz 56
16
x8 Z3 23
2Z 22 Z4
22 o -
22 z6 45
2222 -
23 5 -
27 4 -
27 7 -
a 5 -
3 9 I
322 -
7 828
7z8 -
Z2 zo -
Z2 Z5 -
Z4 o -
14 8 12
15 5 37
z6 4 3
Z9 23 53
20 655
22 Z4 -
27 4 -
3OZ04Z
31 z8 -
June 2 zz •
31528
814 -
zo 14 -
zz 12 -
12 Z9 53
Z4 356
Z4 832
15 5 -
z6 936
z6 19 -
171745
z8 5 -
2Z 2 9
25 12 -
26 10 50
2914 -
30 20 37
July
[Bph la]
4 6 -
O f
dVa ....... 3Jt+5 8
<5SC S-l-446
6 ^Q Inferior.
69€ ?+o 5
6V€ 5+1 27
O Cen. ec. vis. as part at W
6h€ h — 4 47
6 i€ ^ — 325
6V€ V— 5 53
9 Greatest Hel. Lat S.
\l stationary.
6 9 9 5 + 0 zo
9 in Aphelion.
6V€ V+ 5 2
i Greatest HeL Lat N.
6^€ S+4 4I
8 Stationary.
6 iV ^ + 29
\l Great, elong. W. 26 3
6 I2.O
69 € 5— 4 18
6 9C 9 — 3"
6h€ % — 458
6VC V— 5 46
6 ^€ ^ — 34Z
9 Greatest Hel. Lat S.
69h' 9+17
6 7l€ 3^+448
69 h 5 + 0 29
<JSC S + 431
^ in Aphelion.
69 9 J+026
6 h€ b — 515
6 9C 9 — 4 29
69 € 5-348
5 in Perihelion.
(JVC V- 538
6 9 0 Superior.
6 id * — 329
9 in ft
0 enters 2S» Summer com.
5 Greatest Hel. Lat. N.
6^^ V+437
6 9V g + 227
6 &€ S + 422
® in Aphelion.
PHENOMENA, 1912.
649
WASHINGTON MEAN TIME.
PLANETARY CONFIGURATIONS.
d h m
July 5 9-
10 XI 5
13 3 -
13 21 21
13 22 50
15 12 X6
15 18 -
16 7 o
1823 -
21 20 -
23x3 4
24 2 -
2422 -
28 037
29 4 -
Aug. 23-
62349
70-
zo 931
12X8 -
X2 Z9 23
12 22 46
13 22 42
18 X3 -
19 20 2
21 16 -
24 441
26 17 -
2919 -
3014 -
Sept. 3 849
6 14 -
6 20 14
7 10 -
8x6 -
926
XI 4 -
11 1635
" 19 53
1523 -
16 825
20 10 5
21 II -
22 17 o
25
30 14 X4
Oct 3 13 -
4 417
719 -
822 -
6 90 Superior.
6h€
cJ9V
6V€
69€
?
?
+
6\i(i » -
6W0
6 i€ * —
» int5
$ in Perihelion.
536
X 27
5 34
4 6
356
246
6V(i 3)t + 436
<PSO
\l Great elong. E. 27 6
<5SC S + 4ai
{f in Aphelion.
if. Stationary.
6hC b — 60
i Stationary.
6V€ V- 537
9 Greatest HeL Lat N.
6
6
6
6
9
C
c
9
9
2 13
831
X32
633
Greatest Hel. Lat. S.
67Ji€ 3^ + 444
6 if (D Inferior.
6^C S + 426
9 Stationary.
6hC % — 620
8 in ft
6V€ V— 5 43
{f Great, elong. W. 17 59
6 9 ^ •• ? + o 30
6i(L 5— 3 18
\l in Perihelion.
6 ^a ^ + 04
6 9€ 5 + 0 41
I2 Stationary.
6 11 a l!+4 54
dSC S + 4 34
1^ Greatest Hel. Lat N.
0 enters dOi, Autumn com.
(C Partial ec. invis. at W.
6h(L I2 — 629
6 V Q Superior.
6V(L V- 546
9 in?5
$ Stationary.
d h m
Oct 9 - -
xo 627
10 12 I
XX 22 57
13 12 -
14 X 7
1422 -
17x731
19 X -
22 x6 -
25 4 -
27 18 I
2821 -
31 10 4
Nov. 4 xo -
7x1 -
8 820
xo X 42
X020 13
XX 313
IX 5 -
14 251
14 12 -
17 13 -
1821 -
20 12 -
22 13 -
23 22 39
«7i5 4X
28 10 -
Dec.
2 14 -
313 -
315 -
7 5 3
8 X59
8 3 -
8 6-
81547
II 9 37
II 13 8
1222 -
14 o -
18 3 -
x8 4 -
18 10 -
21 521
21 II 37
24 23 16
27 16 -
31 8 -
e *
O Tot ec. invis. at Wash.
6i€ S + 135
6 ^ € J+144
6 9€ 9 + 252
6 11 S 5— on
6V€ V+ 5 ^
V in8
(JSC S + 435
\l in Aphelion. ■
<^^C % — 626
^ Stationary.
6V€ V — 543
6 iQ
6 9V i . . . . ; S - 143
6 ^C ^ + 3 7
6VC S + I53
6V(L V+ 5 S
6 9C 9 + 3 2I
9 in Aphelion.
4S(C S + 427
\l Greatest Hel. Lat S.
S in?J
^ Great elong. E. 22 15
6V71 9-247
cPhO
6h(L b-617
6V(L V— 5 33
^ Stationary.
6\IV 9 -035
9 in S2
; Greatest HeL Lat S.
6 i€ ^ + 42
<i9C 9 + 6 IX
\l in Perihelion.
<$ 9 O Inferior.
611^ 2f + 5 7
6 9 a 9 + 2 42
<5SC S + 415
<$9S 9 — 1 36
<59^ 9 + 34
6VQ
^ Stationary.
H Greatest Hel. Lat N.
6 hC I2 — 612
O enters Vf, Winter com.
(JVC V— 5 25
^ Great, elong. W. 22 23
0 in Perihelion.
[Bph la]
650
OBSERVATORIES, 1912.
Geographic
Reduction to
Alti-
Loff p
Looffitude
No.
PbACII.
Ge€)ccntric
tude
{Including
from
J^AULUac.
Latitude.
(Meters.)
aUitude).
Washiivton.
I
Abbadia ....
0 / //
+43 22 52.2
-II 39.2
69
9.999313
h m s
- 5 I 15.7
2
Adelaide . . .
.
-34 55 38
-no 56.8
43
9.999523
+ 9 37 23.92
3
Albany, N. Y.
■
+42 39 12.7
-II 38.0
.67
9.999331
- 0 13 9.0
4
Algiers . . .
> .
+36 47 50
-II II.3
342
9-999497
- 5 20 24.33
5
Allegheny . .
■ .
+40 28 58.0
-II 31.4
384
9.999409
+ 011 49.61
6
Amherst, Mass. ,
+42 21 56.5
-II 37.3
no
9.999341
- 0 18 9.85
7
Ann Arbor . . <
+42 16 48.0
-II 37-0
285
9.999355
+ 0 26 39.41
8
Appleton, Wis.
+44 15 39
-II 40.1
238
9.999301
+ 045 20.11
9
Arcetri ....
+43 45 14.6
-II 39-7
184
9.999310
- 5 53 17.12
lO
Arequipa, Peru
-16 22 28.0
+ 6 17.8
2452
0.000051
- 0 22 4.05
II
Armagh, Ireland .
+54 21 12.7
-II 4.2
61
9.999033
- 4 41 40.4
12
Athens ....
+37 58 20.7
-II 18.9
107
9.999452
- 6 43 8.70
13
Baltimore, Md . ,
+39 17 48
-II 25.5
75
9.999417
- 0 I 49.8
14
Bamberg, Bavaria.
+49 53 6.0
-II 30.7
300
9.999 16 1
- 5 51 49.43
15
Barcelona
+41 25 18
-II 34.7
420
9.999387
- 5 16 43.8
i6
Bayswater . . .
-31 55 13
■no 27.8
30
9.999593
+11 8 6
17
Beloit, Wis. . . ,
+42 30 8.4
-II 37.6
• • •
9.999331
+ 04751.5
i8
Bergen, Norway .
+60 23 54
-10 2.7
• • •
9.998888
- 5 29 28.53
19
Berkeley ....
+37 52 23.6
-II 18.3
97
9.999455
+ 30 46.94
20
Berlin ....
+52 30 16.7
-II 17.1
47
9.999078
- 6 I 50.63
21
Berlin ....
+52 31 30.7
-II 17.0
...
9.999075
- 6 I 43.23
22
Berlin ....
+52 29 7
-11 17.3
38
9.999078
- 6 2 lo.o
23
Berne, Switzerlanc
i
+46 57 8.7
-II 390
573
9.999255
- 5 38 1.51
24
Besangon, France
+47 14 59.0
-II 38.5
310
9.999229
- 5 32 12.95
25
Bethlehem, Pa.
-1-40 36 23.1
-II 31.9
...
9.999379
- 0 6 43.93
26
Birr Castle . . .
+53 5 47.0
-II 13.3
56
9.999064
- 4 36 34.9
27
Bloomington
+39 9 54
-II 25.5
266
9-999433
+ 0 38 38
28
Bogota . .
+ 4 36 15.4
-II 51.5
2634
0.000170
- 0 II 21.58
29
Bombay . .
+18 53 45
- 7 8.1
19
9.999848
- 9 59 31.52
30
Bonn . . .
+50 43 45.0
-II 26.9
62
9.999124
- 5 36 39.0c
31
Bordeaux
+44 50 7.2
-II 40.4
73
9.999276
- 5 6 10.24
32
Boston
+42 20 58
-II 37.2
...
9-999334
- 0 23 56.7
33
Bothkamp .
+54 12 9.6
-II 5.3
32
9-999035
- 5 48 47.0
34
Bremen . .
. . .
+53 4 36
-II 13.4
...
9.999061
- 5 43 31.7
35
Breslau . .
+51 6 55.8
-II 25.0
147
9.999120
- 6 16 24.57
36
Brisbane . .
-27 28 0
+ 9 32.2
• • .
9.999689
+ 8 39 37.8
37
Brussels . .
+50 47 55.5
-II 26.6
100
9.999125
- 5 25 42.7
38
Budapest
+47 29 34.7
-II 38.0
...
9.999202
- 6 24 31. 1
39
Cambridge, Eng. .
+52 12 51.6
-II 18.9
26
9.999084
- 5 8 38.53
40
Cambridge, Mass. .
+42 22 47.6
-II 37-3
24
9.999336
- 0 23 44.73
41
Cape of Good Hope.
-33 56 3.6
+10 48.0
16
9-999544
- 6 22 10,54
42
Carloforte . . .
+39 8 9
-II 25.3
18
9.999417
- 5 41 30.7
43
Catania, Sicily . ,
+37 30 13.3
-II 16.0
47
9.999460
-6 836
44
Charkow, Russia .
+50 0 9.6
-II 30.2
138
9.999147
- 7 33 11.55
45
Charlottesvil
le .
1
+38 2 1.2
-II 19.3
250
9.999461
+ 05 49-44
[Bph
«]
OBSERVATORIES, 1912.
651
LONGITUD8 PROM GrBBNWICH.
No.
In Time.
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
h m 8
+ O 7 O.I
- 9 14 20.30
+ 4 55 6.8
- o 12 8.55
+ 5 20 5.39
+ 4 50 5.93
+ S345519
+ 5 53 35-89
-045 1.34
+ 446 H.73
+ o 26 35.4
- I 34 52.92
+ 56 26.0
- o 43 33.65
-08 28.0
- 7 43 38
+ 5 56 7.3
- o 21 12.75
+ 89 2.72
- o 53 34.85
- o 53 27.45
- o 53 54-2
- o 29 45.73
- o 23 57.17
+ 5 I 31.85
+ 031 40.9
+ 5 46 54
+ 4 56 54.20
-451 1574
- o 28 23.22
+ o
+ 4
- o
- o
- I
-10
- o
- I
- o
+ 4
- I
- o
- I
- 2
+ 5
2 5.54
44 19.1
40312
35 15.9
8 8.79
12 6.4
17 26.9
16 15.3
o 22.75
4431.05
13 54.76
33 14-9
o 20
24 55.77
14 5.22
In Arc.
//
+ I 45 1.5
-13835 4.5
+ 73 46 42.0
- 3 2 8.2
+ 80 I 20.8
+
+
+
+
+
72 31
8343
8823
11*15
71 32
638
2343
76 36
1053
2 7
29.0
47.8
58.4
20.1
56.0
51.0
13.8
30
24.8
o
-115 54 30
+ 89 I 49.5
- 5 18 11.2
+122 15 40.8
- 13 23 42.8
- 13 21 51.8
- 13 28 33
- 7 26 26.0
- 5 59 17.6
+ 75 22 57.8
+ 7 55 13.5
+ 86 43 30
+ 74 13 33.0
- 72 48 56.1
- 7 548.3
-I-
+
o
71
- 10
- 8
- 17
-153
- 4
- 19
- o
+ 71
- 18
- 8
- 15
- 36
+ 78
31 23.1
446.5
7 48.0
48 58.5
2 11.8
I 36
21 43.5
349.5
541.2
7 45-8
28 41.4
18 43.5
5 o
13 56.6
31 18.3
Reduction
from Or.
Sid. Time
of Mean
Noon to
Local
S. T. M. N.
5
+ 1. 15
- 91.06
+ 48.48
- 2.00
+ 52.58
+ 47.66
+ 55.02
+ 58.09
- 7.40
+ 47.02
+ 4.37
- 15.59
+ 50.34
- 7.16
- 1.39
- 76.16
+ 58.50
- 3.48
+ 80.34
- 8.80
- 8.78
- 8.86
- 4.89
- 3.94
+ 49.53
+ 5.20
+ 56.99
+ 48.77
- 47.85
- 4.66
+ 0.34
+ 46.71
- 6.66
- 5-79
- 11.20
-100.55
- 2.87
- 12.53
- 0.06
+ 46.74
- 12.14
- 5.46
- 9.91
- 23.81
+ 51.60
Dbscriptzon.
Obs. Paris Academy of Science, Hendaye.
South Australia.
Dudley Obs. Old Obs. 36^.8 N.. 6".79 E.
At Bourzareah, near Algiers. Old Obs.a'.S S.,8"E.
Obs.ofWest.Univ. Pa. Old Obs., 76^.4 S.,2 ".46 E.
Amherst College Obs. Old Obs. 2o".6 N., i ■. 26 E.
Detroit Obs. of the University of Michigan.
Underwood Obs. of the Lawrence University.
Near Florence, Italy.
Branch of the Harvard College Observatory.
University Observatory.
National Observatory of Greece.
Johns Hopkins University Observatory.
Remeis Observatory.
Fabra Obs. of the Royal Acad, of Sci. and Arts.
International Latitude Obs. West Australia.
Smith Observatory of Beloit College.
Observatory of Naval School.
Student's Obs. of the University of California.
Royal Obs. Old Obs. 56".4 N., o».39 W.
Urania Observatory.
Treptow Observatory.
Observatory of the Cantonal University.
National Observatory.
Sajrre Obs. of Lehigh Univ. at South Bethlehem.
Private observatory of the Earl of Rosse.
Kirkwood Obs. of the University of Indiana.
National Obs. of the Republic of Colombia.
Government Obs. Colaba.
Royal University Observatory.
Observatory, Univ. of Bordeaux at Floirac.
Obs. of Boston Univ., Old Obs. 34" N., 4'.! E.
Observatory of Herr. von Bulow.
Formerly Giber's Observatory.
Royal University Observatory.
Queensland, Australia.
Royal Gbs.of Belgium. Old Obs.3'i8''N., i ".8 E.
Geodetic Obs. of Royal Polytechnic School.
University of Cambridge Observatory.
Harvard College Observatory.
Royal Observatory.
Intemat. Lat. Obs., Island of Sardinia.
Royal Astrophysical Obs. of the University.
University Observatory.
Leander McCormick Obs. of Univ. of Virginia.
[Bph xa]
652
OBSERVATORIES, 1912.
No.
Placb.
Geograpliic
latitude.
Reduction to
Geocentric
Alti-
tude
Loff f
{JnchAding
Loncitude
from
Latitude.
(Jl/eterj).
aUiiudt).
Washinffton.
46
Chicago ....
e / //
-1-41 50 I.O
-II
ft
35-9
■ • •
9-999 348
h m s
+ 0 42 11.06
47
Christiania . . .
+59 54 44-0
-10
8.7
25
9.998 901
- 5 51 9-30
48
Cincinnati, Ohio .
+39 8 19.5
-II
25.4
249
9.999 433
+ 0 29 25.62
49
Cleveland, Ohio .
+41 30 14.5
-II
34-9
212
9.999 370
+ 0 18 10.04
50
Clinton, N. Y. . .
+43 3 17.0
-II
38.7
276
9.999 335
- 0 6 3833
51
Coimbra ....
+40 12 24.5
-II
30.3
99
9.999 396
T 4 34 32.7
52
Columbia . . .
+38 56 51.7
-II
24.4
225
9.999 436
+ 11 2.55
53
Columbus . . .
+39 59 50.4
-II
29.4
...
9.999 394
+ 0 23 46.8
54
Copenhagen . . .
+55 41 12.6
-10
53.1
14
9.998 998
- 5 58 34.48
55
Cordoba ....
-31 25 15.2
+10
22.2
434
9.999 632
- 0 51 27.56
56
Cracow ....
+50 3 52.0
-II
29.9
220
9.999 152
- 6 28 6.06
57
Dantzig ....
+54 21 18.0
-II
4.1
3
9.999 029
- 6 22 55.4
58
DehraDun . . .
+30 18 51.8
-10
9.4
687
9.999 674
-10 20 29.25
59
Denver, Colo. . .
+39 40 36.4
-II
27.9
1650
9.999 514
+ I 51 31-85
60
Des Moines, Iowa .
+41 36 0
-II
35.2
296
9.999 374
+ 16 14.78
61
Dorpat ....
+58 22 47.1
-10
26.4
65
9.998 938
- 6 55 9-07
62
Dresden ....
+51 2 16.8
-II
25.4
...
9.999 112
- 6 3 10.63
63
Dublin ....
+53 23 131
-II
11.3
86
9.999 059
- 4 42 54.7
64
Dun Echt., Scotland
+57 9 36
-10
39-2
141
9.998 972
- 4 58 35.8
65
Durham ....
+54 46 6.2
-II
0.9
107
9.999 026
- 5 I 56.03
66
Dusseldorf . . .
+51 12 25.0
-II
24.6
26
9.999 no
- 5 35 20.8
67
Edinburgh . . .
+55 55 28.0
-10
509
134
9.999 000
- 4 55 31.6
68
Edinburgh ...
+55 57 23.2
-10
507
106
9.998 998
- 4 55 327
69
Evanston, 111. . .
+42 3 33.4
-II
36.5
175
9.999 354
-*- 0 42 26.5
70
Flagstaff, Ariz.
+35 12 30.4
-10
59.2
2210
9.999 664
+ 2 18 28.79
71
Gaithersburfi" Md.
Geneva, N.x. . .
+39 8 13.2
-II
254
165
9.999 427
+ 00 31.95
72
+42 52 46.2
-II
38.3
152
9.999 331
- 0 0 14.78
73
Geneva, Switzerland
+46 II 58.8
-II
39.9
406
9.999 264
- 5 32 52.49
74
Genoa ....
+44 25 9.3
-II
40.2
105
9.999 288
- 5 43 57-11
75
Georgetown, D. C.
+38 54 26.7
-II
24.2
46
9-999 425
+ 00 2.48
76
Glasgow, Mo. . .
+39 13 45.6
-II
25.8
227
9.999 430
+ 13 2.30
77
Glasgow, Scotland .
+55 52 42.8
-10
51.5
55
9.998 997
- 4 51 5.23
78
Gotha ....
+50 56 37.9
-II
25.9
320
9.999 136
- 5 51 6.27
79
Gottingen , . .
+51 31 47.9
-II
22.8
160
9.999 III
- 5 48 2.07
80
Greencastle, Ind. .
+39 38 46.6
-II
27.8
262
9.999421
+ 0 39 8.56
81
Greenwich . . .
+51 28 38.1
-II
23.1
47
9.999 104
- 5 8 15.78
82
Hamburg . . .
+53 28 46.0
-II
10.6
40
9.999 054
- 5 49 14.3
83
Hamburg . • .
+53 33 70
-II
10. 1
25
9.999051
- 5 48 9.6
84
Hamburg . . .
+53 32 51.8
-II
10.2
30
9.999051
- 5 48 9.20
85
Hanover, N. H. .
+43 42 15.3
-II
39-6
183
9.999312
- 0 19 7.87
86
Harrow, England .
Haverford, ra . .
+51 34 47.1
-II
22.6
67
9.999 103
- 5 6 55.92
87
+40 0 40.1
-II
29.4
■ . •
9.999 394
- 0 7 3.08
88
Heidelberg . . .
+49 23 55.2
-II
32.6
570
9.999 192
- 5 43 8.91
89
Heidelberg . . .
+49 23 54.9
-II
32.6
562
9.999 191
- 5 43 10-03
90
Helsingf ors . . .
+60 9 42.6
ti
-10
Lph la]
5.6
38
9.998 896
- 6 48 4,93
OBSERVATOKIES, 1912.
653
Lc
>NOrrUDB FROM
Qrubnwxch.
Reduction
from Gr.
Sid. Time
No.
of Mean
•
In Time.
In Arc.
Noon to
S. T. M. N
h
m s
0 / /f
8
46
+5
50 26.84
+
87 36 42.6
+57.57
47
-0
42 53.52
—
10 43 22.8
- 705
48
+5
37 41.40
+
84 25 21.0
+55.48
49
+5
26 25.82
+
81 36 27.3
+53.62
50
+5
I 37.45
+
75 24 21.7
+49.55
51
+0
33 43.1
+
8 25 46.5
+ 5.54
52
+6
9 18.33
+
92 19 350
+60.67
53
+5 32 2.6
+
83 039.0
+54.55
54
-0
50 18.70
—
12 34 40.5
- 8.26
55
+4
16 48.22
+
6412 3.3
+42.19
56
-I
19 50.28
—
19 57 34.2
-13.12
57
-I
14 39.6
—
18 39 54.0
-12.26
58
-5
12 13.47
—
78 3 22.0
-51.29
59
+6
59 47.63
+104 56 54.4
+68.96
60
+6
14 30.56
+
93 37 38.4
+61.52
61
-I
46 53.29
—
26 43 19.3
-17.56
62
-0
54 54-85
—
13 43 42.7
- 9.02
63
-fO
25 21. 1
+
6 20 16.5
+ 4.16
64
+0
9 40.0
+
2 25 0.0
+ 1.59
65
+0
6 19.75
+
I 34 56.3
+ 1.04
66
-0
27 5.0
—
6 46 15.0
- 4.45
67
+0
12 44.2
+
3 II 30
+ 2.09
68
-fO
12 43.1
+
3 10 46.5
+ 2.09
69
+5
50 42.3
+
87 40 34-5
+57.61
70
+7
26 44.57
+11 1 41 8.6
+73.39
71
+5
8 47.73
+
TJ II 56.0
+50.73
72
+5
8 i.oo
+
77 0 15.0
+50.60
73
-0
24 36.71
—
6 9 10.7
- 4.04
74
-0
35 41.33
—
8 55 20.0
- 5-86
75
+S
8 18.26
+
77 4 33-9
+50.65
76
+6
II 18.08
+
92 49 31.2
+61.00
77
+0
17 10.55
+
4 17 38.3
+ 2.82
78
-0
42 50.49
—
10 42 37-3
- 7.04
79
-0
39 46.29
—
9 56 34.3
- 6.53
80
+5 47 24.34
+
86 51 5.1
+57.07
81
0
0 0.00
0 0 0.0
0.00
82
-0
40 58.5
—
10 14 37.5
- 6.73
83
-0
39 53.8
—
9 58 27.0
- 6.55
84
-0
39 53.42
—
95821.3
- 6.55
85
■i'4 49 7.91
+
72 16 58.7
+47.50
86
+0
I 19.86
+
0 19 57.9
+ 0.22
87
+5
I 12.70
+
75 18 10.5
+49.48
88
-0
34 53.13
—
8 43 17.0
- 5.73
89
-0
34 54.25
—
8 43 33.7
- 5-73
90
-I
39 49.15
—
24 57 17.3
-16.40
DB8CKXPTIOK.
Old Obs.; transferred to Evanston, Ill» in 1887.
Observatory of the University.
Univ.Obs.on MtLookout. 01dObs.i'53"S. i7*.6W.
Obs. of Case School of Applied Science.
Litchfield Obs. of Hamilton College.
Royal Astronomical Observatory of Portugal.
Laws Observatory of the University of Missouri.
Emerson McMillan Obs. of Ohio State Univ.
Astronomical Observatory of the University.
National Observatory of Argentine Republic.
Royal University Observatory.
Western Prussia.
Obs. Great Trigonometric Survey of India.
Chamberlin Observatory of the Univ. of Denver.
Drake University Observatory.
Observatory Imperial University (Jurjew).
Baron Engelhard t's Observatory.
Observatory of Trinity College at Dunsink.
Formerly Lord Crawford's Observatory.
Observatory of the University.
Municipal Observatory, Bilk.
Roy. Obs. of Scotland, Blackford Hill.
City Observatory, Calton Hill.
Dearborn Observatory of North Western Univ.
Lowell Observatory.
International Latitude Observatory.
Smith Observatory.
Municipal Observatory.
Hydrographic Institute.
Georgetown College Observatory, Washington.
Morrison Observatory.
University Observatory.
Ducal Observatory, Saxe-Coburg-Gotha.
Royal University Observatory.
McKim Observatory of De Pauw University.
Royal Observatory.
New Observatory, Bergedorf .
Old Observatory.
Imperial Marine Observatory.
Shattuck Observatory of Dartmouth College.
Colonel Tupman's Observatory.
Haverford College Observatory.
Astronomical Institute, K5nigstuhl.
Astrophysical Institute, Kdnigstuhl.
University Observatory.
[Bph la]
654
OBSERVATORIES, 1912.
_*-j_
Reduction to
Aiti.
Log p
Longitude
No.
Pl^CS.
Oeograpnic
Geocentric
tude
(Including
from
L<autuae.
Latitude.
(Meters).
aUilude).
Washington.
91
Herdny, Hunga
0 / //
ry • +47 15 47.4
-II 38.4
229
•9.999 224
h
- 6
m s
14 40.5
92
Hongkong .
. . -I-22 18
134
- 8 10.7
34
9.999 791
+11
15 2.36
93
Iowa City, lowj
I +41 40
0
-II 35-4
183
9.999 364
+ 0
57 50
94
Ithaca, N. Y.
. . +42 26
47-3
-II 37.4
256
9.999 349
- 0
2 19.79
95
Jamaica . .
. . +i8 24
51
- 6 58.7
• • •
9.999 854
+ 0
3 13.70
96
Jena, Prussia
. • +50 55
34.9
-II 26.0
156
9.999 126
- 5
54 36.05
97
Jena, Prussia
. . +50 56
15-7
-II 25.9
174
9.999 126
- 5
54 37.8
98
Kalocsa . .
. . +46 31
41.7
-II 39.6
117
9.999 235
- 6
24 10.12
99
Karlsruhe, Bad(
2n . +49 0
29.6
-II 33.9
no
9.999 170
- 5
41 52.2
100
Kazan, Russia
• . +55 50
20.0
-10 51.7
98
9.999 000
- 8
23 32.3
lOI
Kew . . .
. . +51 28
6
-II 23.2
II
9.999 102
- 5
7 0.7
102
Kiel, Holstein
. . +54 20
27.6
-I I 4.3
48
9.999 033
- 5
48 51.33
103
Kief, Russia
. . +50 27
10.5
-II 28.2
182
9.999 139
- 7
10 16.42
104
Kis-Kartal .
. . +47 41
54.8
-II 37.5
• • •
9.999 197
- 6
26 27.5
105
Konigsberg, Pn
issia +54 42
504
-II 1.3
22
9.999 022
- 6
30 14.82
106
Kremsmunster ,
. . +48 3
23.1
-II 36.7
384
9.999 214
- 6
4 47-37
107
La Plata . .
• • -34 54 30.3
+10 56.7
12
9.999521
- I
16 38.8
108
Lawrence
. . +36 57
30
-II 124
311
9.999 491
+ I
12 42
109
Leiden, Holland
I . +52 9
20.0
-II 19.3
4
9.999 084
- 5
26 11.95
no
Leipzig, Saxonj
^ . +51 20
5.9
-II 23.9
119
9.999 112
- 5
57 49-76
III
Lifege, Belgium .
. +50 37
7
-II 27.5
127
9.999 132
- 5
30 31-0
112
Lisbon . . .
. +38 42
313
-II 23.1
94
9-999 433
- 4
31 31.10
113
Liverpool . .
. +53 24
4.8
-II II. 2
62
9-999 057
- 4
55 58.45
114
Lund, Sweden .
- . +55 41
51.6
-10 53.0
38
9.999 000
- 6
I 0.79
115
Lussinpiccolo
. . +44 32
II.O
-II 40.3
42
9.999 281
- 6
6 8.19
116
Lyons, France
. . +45 41
41.0
-II 40.3
300
9.999 268
- 5
27 24.33
117
Madison, Wis. .
+43 4
36.8
-II 38.7
292
9.999 336
+ 0
49 22.15
118
Madras . .
. +13 4
8.0
-5 7.6
7
9.999 925
-10
29 14.90
119
Madrid . .
. . +40 24
29.7
-II 31.1
655
9.999 428
- 4 53 30.66
120
Manila . .
. . +14 35
25
- 5 40.5
3
9-999 907
+10
47 54
121
Mare Island, Ca
1. . +38 5
55.8
-II 19.7
22
9.999 444
+ 3
0 49.8
122
Markree, Irelanc
1 . +54 10
31.8
-II 5.5
45
9.999 037
- 4 34 27.4
123
Marseilles .
. . +43 18
17.5
-II 39,1
75
9.999315
- 5
29 50.37
124
Mauritius
. . -20 5
39
+ 7 30.8
55
9.999 832
- 8
58 28.4
125
Melbourne, Vict
oria -37 49
53-4
+11 18.1
28
9.999451
+ 9
II 50.2
126
Meudon . .
. , +48 48
18
-II 34-6
162
9.999 180
- 5
17 11.4
127
Middletown, Co
nn. +41 33
16.0
-II 35.1
• • •
9.999 355
- 0
17 38.60
128
Milan . . .
. . +45 27
59.3
-11 40.4
120
9.999 262
- 5
45 1-70
129
Minneapolis .
+44 58
40.0
-11 40.4
260
9.999 285
+ I
4 41.06
130
Mizusawa
. . +39 8
3.6
-II 25.4
62
9.999 420
+ 9
27 13-47
131
Modena, Italy .
. . +44 38
52.8
-II 40.4
• • •
9-999 275
- 5
51 58.7
132
Montreal . . .
. . +45 30
17.0
-II 40.4
67
9.999 258
- 0
13 57.15
133
Moscow . .
. . +55 45
19.8
-10 52.5
150
9.999 005
- 7
38 32.87
134
Mount Hamilto
n . +37 20
25.6
-II 14.9
1283
9-999 548
+ 2
58 1911
135
Mount Wilson
. . +34 12
59.5
[E]
-10 50.6
ph xa]
1800
9.999 660
-f 2
43 58.55
OBSERVATORIES, 1912.
655
LONGITUDS FROM GrSBNWICH.
Reduction
from Gr.
Sid. Time
No.
•
of Mean
Dbscription.
In Time.
In Arc.
Noon to
Local
S. T. M. N.
h m s
0 t II
s
91
-I 6 24.7
- 16 36 10.5
-10.91
Astrophysical Obs., near Steinamanger.
92
-7 36 41.86
-114 10 27.9
-75.01
British Colonial Observatory.
93
+6 6 6.
-H 91 31 30.
+60.14
Obs. of the State Univ. of Iowa.
94
+5 5 55-99
+ 76 28 59.9
+50.26
Observatory of Cornell University.
95
+5 II 29.48
+ "Jf 52 22.2
+51.17
Mr. Hall's Observatory, Montego Bay.
96
-0 46 20.27
- II 35 4.0
- 7.61
University Observatory.
97
-0 46 22.0
- 1 1 35 30-0
- 7.62
Dr. Winkler's Observatory.
98-1 15 54-34
- 185835.1
-12.47
Haynald Obs., Hungary.
99 -<^ 33 36.4
- 8 24 6.0
- 5.52
Transferred to Heidelberg in 1896.
100-3 15 16.5
- 48 49 7-5
-32.08
Englehart Obs. of the Imperial University.
loi +0 I 15. 1
+ 0 18 46.5
+ 0.21
Meteorological Obs., Kew Garden.s, London.
102
-o 40 35.55
- 10 8 53.3
- 6.67
Old position of Transit Circle, o".9 N., 0^.12 E.
103
-2 2 0.64
- 30 30 9-6
-20.04
Imperial University Observatory.
104
-I 18 11.7
- 19 32 55-5
-12.85
Near Asz6d, Hungary.
105
-I 21 59.04
- 20 29 45.6
-13.47
Royal University Observatory.
106
-0 56 31.59
- 14 7 53-9
- 9.29
Obs. of the Benedictines, Austria.
107
+3 51 37.0
+ 57 54 15.0
+38.05
Obs. Nat. Univ., Argentine Republic.
108
+6 20 58.
+ 95 14 30.
+62.58
Obs. of the State Univ. of Kansas.
109
-0 17 56.17
- 4 29 2.6
- 2.95
University Observatory.
no
-o 49 33.98
- 12 23 29.7
- 8.14
University Observatory.
III
-0 22 15.2
- 5 33 48.0
- 3.66
University Observatory, Cointe.
112
+0 36 44.68
+ 911 10.2
+ 6.04
Royal Astronomical Obs., Tapada.
113
+0 12 17.33
+ 34 20.0
+ 2.02
Bidston, Birkenhead.
114
-0 52 45.01
- 13 II 15.1
- 8.67
Royal Observatory of the University.
115
-0 57 52.41
- 14 28 6.1
- 9.51
Manora Observatory, Austria.
116
-0 19 8.55
-4 47 8.3
- 314
Obs. of the Univ., St. Genis, Laval.
117
+5 57 37.93
+ 89 24 29.0
+58.75
Washburn Obs. of Univ. of Wisconsin.
118 -5 20 5912
- 80 14 46.8
-52.73
Founded by East India Company.
119
+0 14 45.12
+ 3 41 16.8
+ 2.42
Ast. and Meteorological Observatory.
120
-8 3 50.
-120 57 30.
-79.48
Meteorological Observatory.
121
+8 9 5.6
+122 16 24.0
+80.35
U. S. Naval Observatory.
122
+0 33 48.4
+ 8 27 6.0
+ 5.55
Obs. of Col. Cooper, near Collooney.
123
-0 21 34.59
- 5 23 38.9
- 3.54
National Obs., Univ. of Aix-Marseilles.
124
-3 50 12.6
- 57 33 9.0
-37.82
Royal Alfred Observatory, Port-Louis.
125
-9 39 54.0
-144 58 30.0
-95.26
State Obs.; transf. from Williamstown in 1861.
126
-0 8 55.6
- 2 13 54.0
- 1.47
Seine-et-Oise, near Paris.
127
+4 50 37.18
+ 72 39 17.7
+47.74
Wesleyan University Observatory.
128
-0 36 45.92
-911 28.8
- 6.04
Royal Observatory, Brera.
I29j-f6 12 56.84
+ 93 14 12.6
+61.27
Obs. of the State University of Minnesota.
130 -9 24 30.75
-141 741.3
-92.74
International Latitude Observatory, Japan.
131
-0 43 42.9
- 10 55 43.5
- 7.18
Ducal Observatory.
132
+4 54 18.63
+ 73 34 39.4
+48.35
McGill University Observatory.
133
-2 30 17.09
- 37 34 16.3
-24.69
Obs. of the Imperial University, Presnia.
134
+8 6 34.89
+121 38433
+79.93
Lick Obs. of the University of California.
135
+7 52 14.33
+118 334.9
+77.58
Solar Observatory, near Pasadena, Cal.
[Eph za]
656
OBSERVATORIES, 1912.
No.
PI.AC8.
Geographic
Reduction to
Geooentric
Alti-
tude
(InclutUng
Lonsitnde
from
lAuxuac.
Latitude.
iMtUfs),
aUitmU).
Wafhinffton.
1
136
Munich, Bavaria .
0 / //
+48 8 45.5
/
n
36.5
528
9.999 222
h
- 5
m 8
54 41.85
137
Naples ....
+40 51 46.3
—II
32.8
154
9.999 382
- 6
5 17.51
138
Nashville, Tenn. .
+36 8 54.4
—I I
6.6
...
9.999 490
+ 0
38 56.4
139
Natal, S. Africa
-29 50 46.6
+10
3.7
79
9.999 642
- 7
12 16.96
140
Neuchdtel . . .
+47 0 1.2
~II
38.9
488
9.999 248
- 5
36 5.71
141
New Brunswick, N. J.
+40 30 0.6
—I I
31.5
21
9.999 384
- 0
10 29.4
142
New Haven, Conn.
+41 19 22.3
—I I
34.4
40
9.999 364
- 0
16 35.20
143
New York . . .
+40 45 23.1
—II
32.4
25
9.999 377
- 0
12 22.14
144
Nice, France . .
+43 43 16.9
—II
39.6
376
9.999 325
- 5 37 27.96
145
Nikolaieff , Russia .
+46 58 21.8
—II
38.9
55
9.999 220
- 7
16 9.58
146
Northampton, Mass.
+42 19 2
—II
37.2
81
9.999 340
- 0
17 42.7
147
Northfield, Minn. .
+44 27 41.6
— I.I
40.3
320
9.999 302
+ I
4 20.03
148
Oakland, Cal. . .
+37 48 5
—II
17.9
II
9.999 450
+ 3
0 50.77
149
Odessa, Russia . .
+46 28 37.9
—II
39.6
...
9.999 228
- 7
II 18.0
150
Odessa, Russia. .
+46 28 36.7
—I I
39.6
55
9.999 232
- 7
II 17.88
151
O-Gyalla, Hungary
+47 52 27.3
—II
37.1
"3
9.999 200
- 6
21 1.32
152
Omaha, Nebr. . .
+41 16 5.6
—II
34.3
344
9.999 384
+ I
15 31.18
153
Oncativo, Arg. Rep.
-31 55 10
+10
27.8
280
9.999610
- 0
53 31.0
154
Ottawa, Canada .
+45 23 30
—II
40.4
85
9.999 262
- 0
5 22
155
Orono ....
+44 53 58
—II
40.4
41
9.999 272
- 0
33 35.5
156
Oxford, Miss. . .
+34 22 12.6
-ID
52.0
...
9.999 533
+ 0
49 51.3
157
Oxford, Eng. . .
+51 45 35.4
-II
21.6
65
9.999 098
- 5
3 13.2
158
Oxford, Rng. . .
+51 45 34.2
—II
21.6
64
9.999 098
- 5
3 15.4
159
Padua, Italy . .
+45 24 5
—II
40.4
30
9.999 258
- 5
55 44.97
160
Palermo, Italy . .
+38 6 44.0
—I I
19.7
72
9.999 447
- 6
I 41.68
161
Paramatta, N.S.W.
-33 48 49.8
+10
46.9
...
9-999 546
+ 8
47 44.0
162
Paris
+48 50 1 1.2
—II
34.5
61
9.999 172
- 5
17 36.75
163
Perth
-31 57 8.9
+10
28.1
61
9.999 594
+11
8 22.48
164
Philadelphia . .
+39 58 2.1
—II
29.2
74
9.999 400
- 0
7 9.2
165
Pola, Austria . .
+44 51 48.7
—II
40.4
30
9.999 272
- 6
3 38.67
166
Potsdam . . .
+52 22 56.0
-II
17.9
97
9.999 085
- 6
0 31.7
167
Poughkeepsie, N. Y.
+41 41 18
-II
35-5
46
9.999 354
- 0
12 42.13
168
Prague, Bohemia .
+50 5 15.8
—II
29.8
197
9.999 149
- 6
5 56.1
169
Princeton, N. J. .
+40 20 55.8
—II
30.9
50
9.999 389
- 0
9 36.34
170
Providence, R. I. .
+41 50 21
—II
35.9
64
9.999 352
- 0
22 39.83
171
Pulkowa, Russia .
+59 46 18.7
-ID
10.4
74
9.998 907
- 7
9 3442
172
Quebec, Canada .
+46 47 59.2
-II
39.2
90
9.999 226
- 0
23 23.14
173
Quito
- 0 14 0
+ 0
5.7
2908
0.000 198
+ 0
5 50.88
174
Riga, Russia . .
+56 57 9.3
-10
41.3
...
9.998 967
- 6
44 43.95
175
Rio de Janeiro . .
-22 54 23.6
+ 8
21. 1
61
9.999 783
- 2
15 34.4
176
Rome ....
+41 53 53.6
—II
36.1
51
9.999 350
- 5
58 11.33
177
Rome ....
+41 53 33.5
—II
36.0
65
9.999 350
- 5
58 12.15
178
Rome ....
+41 54 4.8
—II
36.1
100
9.999 353
- 5
58 5.25
179
San Fernando . .
+36 27 42.0
—II
8.9
30
9.999 485
- 4 43 26.6
180
San Francisco . .
+37 47 27.9
—II
17.8
...
9.999 450
+ 3
I 27.08
[Bph xa]
OBSEEVATOEIES, 1912.
657
LoNorruDii prom
Grbbnwich.
Reduction
from Or.
Sid. Time
No.
of Mean
DB8CKXPTION.
In Time.
In Arc.
Noon to
Local
S. T. M. N.
h m s
0 / //
8
136
- 0 46 26.07
—
II 36 31.0
- 7.63
Royal Observatory.
137
- 0 57 1.73
—
14 15 26.0
- 9.37
Royal Obs., Capo di Monte.
138
+ 5 47 12.2
+
8648 3.0
+57.04
Observatory of Vanderbilt University.
139
-24 1. 18
—
31 017.7
-20.37
Government Observatory, Durban.
140
- 0 27 49.93
—
6 57 29.0
- 4.57
Cantonal Observatory, Switzerland.
141
+ 4 57 46.4
+
74 26 36
+48.92
Schank Obs., Rutgers College.
142
+ 4 51 40.58
+
7255 8.7
+47.92
Yale University Obs., Old Obs. 45".8 S., I'-sS W.
143
+ 4 55 53.64
+
73 58 24.6
+48.61
Columbia University Observatory.
144
- 0 29 12.18
—
7 18 2.7
- 4.80
Mt. Gros, near Nice.
145
-27 53.80
—
31 58 27.0
-21.01
Naval Observatory.
146
•^ 45033.1
+
72 38 16.5
+47.73
Smith College Observatory.
147
+ 6 12 35.81
+
93 857.1
+61.21
Goodsell Observatory of Carleton College.
148
+ 89 6.55
+122 16 38.3
+80.35
Chabot University.
149
-23 2.18
—
30 45 32.7
-20.21
Branch of Pulkowa Observatory.
150
-23 2.10
—
304531.5
-20.21
University Olwervatory.
•
151
- I 12 45.54
—
18 II 23.1
-11.95
Royal Astrophysical Observatory.
152
+ 6 23 46.96
+
95 56 44.4
+63.05
Creighton University Observatory.
153 + 4 14 44-8
+
63 41 12.0
+41.85
International Latitude Observatory.
154
+ 5 254
+
75 43 30
+49.76
Dominion Observatory.
155
+ 4 34 40.3
+
6840 4.5
+45.12
Observatory of the University of Maine.
156
+ 5 58 7.1
-I-
89 31 46.5
+58.83
Observatory of the University of Mississippi.
157
+ 0 5 2.6
+
I 15 39.0
+ 0.83
Radcliffe Observatory.
158
+ 0 5 0.4
+
I 15 6.0
+ 0.82
University Observatory.
159
- 04729.19
—
II 52 17.9
- 7.80
Royal University Observatory.
160
- 0 53 25.90
~
13 21 28.5
- 8.78
Royal Observatory.
161
-lo 4 0.2
^^'
151 0 3.0
-99.22
Formerly Brisbane's Observatory.
162
- 0 9 20.97
—
2 20 14.6
- 1.53
National Observatory of Paris.
163
- 7 43 21.74
— ]
[15 5026.1
-76.12
State Observatory, West Australia.
164
+ 5 I 6.6
+
75 16 39.0
+49.46
Flower Observatory, University of Pennsylvania.
165
- 0 55 22.89
—
13 50 43.3
- 9.10
Obs. of the Imperial Hydrographic OflBce.
166
-052 15.9
—
13 3 58.5
- 8.59
Royal Astrophysical Observatory.
167
+ 4 55 33.65
+
73 53 24.7
+48.55
Vassar College Observatory.
168
- 0 57 40.3
—
1425 4.5
- 9.47
Royal Observatory of the University.
169
+ 4 58 39.44
+
74 39 51.6
+49.06
Halsted Observatory of Princeton University.
170
+ 4 45 35.95
+
71 23 59.3
+46.92
Ladd Observatory of Brown University.
171
-21 18.64
—
30 19 39.6
-19.93
Obs. Central Nicolas, near St. Petersburg.
172
+ 4 44 52.64
+
71 13 9.6
+46.80
Bonner's Hill.
173
+ 5 14 6.66
+
78 31 39.9
+51.60
National Observatory of Ecuador.
174
- I 36 28.17
—
24 7 2.6
-15.85
Polytechnic School Observatory.
175
+ 2 52 41.4
+
43 10 21.0
+28.37
National Observatory of Brazil.
176
- 0 49 55.55
—
12 28 53.3
- 8.20
Royal Observatory at Roman College.
177
- 0 49 56.37
—
12 29 5.6
- 8.20
Royal University Observatory at Capitol.
178
- 0 49 49.47
—
12 27 22.0
- 8.18
Vatican Observatory.
179
+ 0 24 49.2
+
6 27 18.0
+ 4.08
Naval Observatory, near Cadiz, Spain.
i8d
+ 89 42.86
+122 25 42.9
+80.45
Davidson Observatory.
1912-
■42
[Bph 12]
658
OBSERVATORIES, 1912.
No.
•
PbACB.
Geographic
Reduction to
Geocentric
Alti-
tude
{Includino
Longitude
from
XmuIu
uc
Latitude.
(Mtters).
aUUuiU).
Washington.
I8l
San Luis, Arg. Rep.
0 /
-33 18
ff
0
+ 10 42.0
800
9.999 614
h
- 0
m 5
42 52
182
Santiago . . .
-33 26
42.0
+10 43.4
519
9.999 590
- 0
25 29.56
183
South Hadley, Mass.
+42 15
18.2
-II 37.0
76
9.999 342
- 0
17 55.49
184
St. Louis, Mo. . .
+38 38
3.0
-11 22.7
• • •
9.999 429
+ 0
52 33.48
185
St. Petersburg . .
+59 56
32.0
-10 8.4
4
9.998 898
- 7
9 27.2
186
Stockholm . . .
+59 20
33.0
-10 15.5
44
9.998 915
- 6
20 29.77
.187
Stonyhurst, Eng. .
+53 50 40
-II 8.0
116
9.999 050
- 4
58 23.10
188
Strassburg, Alsace .
+48 35
0.3
-II 35.3
144
9.999 184
- 5
39 20.47
189
Sydney, N. S. W. .
-33 51
41. 1
+ 10 47,3
44
9.999 548
+ 8
46 54.68
190
Syracuse, N. Y.
+43 2
I3.I
-II 38.6
160
9.999 328
- 0
3 42.42
191
Tacubaya . . .
+19 24
17.5
- 7 17.8
2280
9.999 994
+ I
28 30.75
192
Taschkent . . .
+41 19 31-3
-II 34.4
457
9.999 392
- 9 45 26.58
193
Taunton, Mass. . .
+41 54
0
-II 36.1
8
9.999 347
- 0
23 56
194
Teramo ....
+42 39
27
-" 37.9
398
9-999 354
- 6
3 12
195
Tokio, Japan . .
+35 39
17.5
-II 2.8
...
9.999 502
+ 9 32 46.20
196
Toronto, Canada .
+43 39
35.9
-II 39.6
108
9.999 308
+ 0
9 18.87
197
Toulouse, France .
+43 36
45
-II 39.5
194
9.999315
- 5
14 5.66
198
Trieste, Austria .
+45 38
45.4
-II 40.3
67
9.999 255
- 6
3 18.73
199
Troy, N. Y. . . .
+42 43
52.9
-II 38.1
...
9.999 325
- 0
13 33.49
200
Tschardjui . . .
+39 8
10.7
-II 25.4
167
9.999 427
- 9
22 13.1
201
TulseHill . . .
+51 26
47.0
-II 23.3
48
9.999 105
- 5
7 48.1
202
Turin
+45 4
8.0
-II 40.4
276
9.999 284
- 5
39 2.96
203
Tuscaloosa . . .
+33 12
36.8
-10 41. 1
...
9.999 561
+ 0
41 55.96
204
Ukiah,Cal. . . .
+39 8
12. 1
-II 25.4
220
9.999431
+ 3
3 53
205
Upsala, Sweden .
+59 51
29.4
-10 9.3
21
9.998 901
- 6
18 45.93
206
Urbana . . , .
+40 6
20.2
-II 29.8
236
9.999 408
+ 0
44 38.2
207
Utrecht, Holland .
+52 5
9.6
-II 19.7
13
9.999 087
- 5
28 46.8
208
Venice ....
+45 26
10.5
-II 40.4
15
9.999 256
- 5
57 37.90
209
Vienna ....
+48 13
55.4
-II 36.2
240
9.999 199
- 6
13 3717
210
Vienna ....
+48 12
53.8
-II 36.2
214
9.999 198
- 6
13 41.1
211
Vienna ....
+48 12
46.7
-II 36.2
280
9.999 202
- 6
13 26.89
212
Warsaw ....
+52 13
4.7
-II 18.9
no
9.999 090
- 6
32 23.06
213
Washington . . .
+38 55
14.0
-II 24.2
82
9.999 428
0
0 0.00
214
Washington . . .
+38 53
38.8
-IX 24.1
31
9.999 424
- 0
0 3.63
215
Washington . . .
+38 53
17.3
-II 24.1
0
9.999 422
- 0
0 9.6
216
Washington . . .
+38 56
14.8
-II 24.2
• • •
9.999 422
- 0
0 15.78
217
Wellesley, Mass. .
+42 17 43
-II 37.1
61
9.999 340
- 0
23 3
218
Wellington . . .
-41 18
0.6
+11 34.3
47
9.999 364
+ 7
12 37.70
219
West Point . . .
+41 23
22.1
-II 34.6
170
9.999 371
- 0
12 25.23
220
Wilhelmshaven
+53 31
52.2
-II 10.3
8
9.999051
- 5 40 50.89
221
Williams Bay, Wis.
+42 34
12.6
-II 37.7
335
9.999 352
+ 0
45 57.46
222
Williamstown, Mass.
+42 42
30
-II 38.0
213
9.999 340
- 0
15 26
223
Windsor, N. S. W. .
-33 36
30.8
+10 44.9
16
9.999 552
+ 8
48 23.7
224
2^-S^
+31 5
47.7
-10 18.6
100
9.999617
+10
46 59.5
225
Zurich ....
+47 22
40.0
[Ei
-II 38.2
?hza]
470
9-999 237
- 5
42 28.08
OBSERVATORIES, 1912.
659
LONOZTUDB FROM GrBBNWICU.
Reduction
from Gr.
Sid. Time
No.
of Mean
Dbscriptxon.
In Time.
In Arc.
Noon to
Local
S. T. M. N.
h m s
0 / //
5
i8i
+ 4 25 24
+ 66 21 0
+ 43-6o
Southern Observatory of Carnegie Institution.
182
+ 4 42 46.22
+ 70 41 33.3
+ 46.45
National Obs. of Chile. Old Obs. i6".6 N., 9».5 E.
183
+ 4 50 20.29
+ 72 35 4.3
+ 47.70
Observatory of Mt. Holyoke College.
184
+ 60 49,26
+ 90 12 18.9
+ 59.27
Washington University Observatory.
185
-21 II.4
- 30 17 51.0
- 19.91
Imperial University Observatory.
186
- I 12 13.99
- 18 3 29.9
- 11.87
Observatory of Academy of Science.
187
+ 09 52.68
+ 2 28 10.2
+ 1.62
Stonyhurst College Observatory, near Blackburn.
188
- 0 31 4.69
- 7 46 10.3
- 5.11
Imperial University Observatory.
189
-lo 4 49-54
-151 12 23.1
- 99.36
Government Observatory, South Australia.
190
+ 54 33.36
+ 76 8 20.4
+ 50.03
Observatory of Syracuse University.
191
+ 6 36 46.53
+ 99 1 1 38.0
+ 65.18
National Observatory of Mexico.
192
- 4 37 10.80
- 69 17 42.0
- 45.53
Turkestan, Russia.
193
+ 4 44 20
+ 71 5 0
+ 46.71
Mr. MetcalTs Observatory.
194
- 0 54 56
- 1344 0
- 9.02
At Collurania, near Teramo, Italy.
195
- 9 18 58.02
-139 44 30.3
- 91.82
University Observatory.
*
196
+ 5 17 34.65
+ 79 23 39-7
+ 52.17
University Observatory.
197
- 0 5 49.88
- I 27 28.2
- 0.96
University Observatory.
198
- 0 55 2.95
- 13 45 44.3
- 9.04
Imperial Maritime Observatory.
199
+ 4 54 42.29
+ 73 40 34.3
•f 48.41
Observatory Rensselaer Polytechnic Institute.
200
- 4 13 57.3
- 63 29 19.5
- 41.72
International Latitude Obs., Turkestan.
201
+ 00 27.7
+ 0 655.5
+ 0.08
Observatory of Sir W. Huggins, London.
202
- 03047.18
- 7 41 47.7
- 5.06
Royal Observatory, Palazzo Madama.
203
+ 55011.74
+ 87 32 56.1
+ 57.53
Observatory of the University of Alabama.
204
-f 8 12 9
+123 2 15
+ 80.85
International Latitude Observatory.
205
- I 1030.15
- 17 37 32.3
- 11.58
University Observatory.
206
+ 5 52 54.0
+ 88 13 30
+ 57.97
Observatory of the University of Illinois.
207
- 0 20 31.0
- 5 7450
- 3.37
University Observatory, Sonnenborgh.
208
-049 22.12
- 12 2031.8
- 8.11
Observatory of the Nautical Institute.
209
- I 5 21.39
- 16 20 20.9
- 10.74
Imperial Univ. Obs. Old Obs. i' 20" S., 10^.25 E.
210
- I 5 25.3
- 16 21 19.5
- 10.75
Oppolzer Observatory, Joseph Stadt.
211
- I 5 ".II
- 16 17 46.7
- 10.71
Kuffner Observatory, Ottakring.
212
- I 24 7.28
- 21 I 49.2
- 13.82
Imperial University Observatory.
213
+ 58 15.78
+ 77 3 56.7
+ 50.64
U. S. Naval Observatory, Georgetown Heights;
214
+ 58 12.15
+ 77 3 2.3
+ 50.63
Old U. S. Naval Observatory. 1842-1893.
215
+ 5 8 6.2
+ n 1 33.0
+ 50.61
Smithsonian Astrophysical Observatory.
216
+ 5 8 0.0
+ 77 0 0.0
+ 50.60
Catholic University Obs., Brookland, D. C.
217
+ 4 45 13
+ 71 18 15
+ 46.85
Whitin Observatory of Wellesley College.
218
-II 39 6.52
-174 46 37.8
-114.85
Colonial Time Service Obs. of New Zealand.
219+ 45550.55
+ 73 57 38.3
+ 48.60
U. S. Military Academy. Old Obs. 9'' N., i«.2 E.
220
-032 35.11
- 8 846.7
- 5.35
Imperial Naval Observatory of Germany.
221
+ 5 54 13.24
+ 88 33 18.6
+ 58.19
Yerkes Observatory of University of Chicago.
222
+ 4 52 50
+ 73 12 30
+ 48.10
Field Memorial Observatory, Williams College.
223
-10 3 20.5
-15050 7.5
- 99.11
Mr. John Tebbutt's Observatory.
224
- 8 4 44.7
-121 II 10.5
- 79.63
Obs. of the Jesuits near Shanghai, China.
225
- 0 34 12.30
-833 4.5
- 5.62
Observatory of the Polytechnic School.
[Eph X3]
660 LUNAR DISTANCES.
THB COMPUTATION OF I^UNAR DISTANCES.
The tables of lunar distances formerly given on Pages XIII to XVIII, inclusive,
for each month of the Greenwich Ephemeris, are omitted, as it has been decided by
the authorities of the Navy Department that they are now of little practical use to
navigators. However, in case it is desired to use this method, the angular distance
between the Moon and any heavenly body may be calculated by solving the spherical
triangle of which the known parts are the polar distances of the Moon and the other
body and the difference of their right ascensions, or, in other words, the angle at the
pole between their hour circles. Then, the Greenwich mean time of the observation
being approximately known, and the lunar distances for the star or other body calcu-
lated for the even hour before and after, the required lunar distance may be inter-
polated and the longitude derived by the methods given in Bowditch and other
books on navigation.
EXAMPLE.
Find the lunar distance of Aidebaran January 5, 1912, at 3*^ P. M. Greenwich Mean Time.
Let a and S =Right Ascension and Declination of the star*
'• a'andd'= " " " " '* " Moon
" D = Lunar Distance
Also let tan M=tan d' sec {of —a)
Then cos D>ssin d' cos (M— d) cosec M
h
m
s
a :
4
30 i
;2.8
of
8
9 53-4
of-
-a •'
= + 3„
39
0.6
of-
-a ■
=+54^
'45'
9"
d'
=+25
13
50
tan d' =
=9.673
220
(o'-
^a).
=0.238 742
tan M
=9.911
962
f0
[Bph la]
M = 39 13 55
0 =+i6 20 7
M— ^ = 22 53 48
sin 5' =9.629 676
cos (M— d) =9.964 358
cosec M =0.198 966
cos D =9.793 000
D =5»'' 37' 13"
TABLE I.
661
POLAF
LIS FOR
THB 90'
rH MERIDI.
\N WEST 0
F GREEN^
WICH,
App. R. A.
App. Decl.
Mean Central Time of —
Mean Central Time (for
Lat. 45°) of—
Sid. Time of
Mean Noon at
Astr. Date.
Greenwich.*
Upper
Culm.
Upper
Ctilm.
Upper Culm.
Lower Culm.
West Elong.
East Elong.
1912.
h m
I 26
0 /
88 50
8
//
h m s
h m 8
h m
h m
h m 8
Jan. I
98.5
30.8
6 46 25
18 44 27
12 40.8
0 52.0
18 39 7.5
3
96.7
31-1
6 38 31
18 36 33
12 32.9
0 44.1
18 47 0.7
5
94.6
315
6 30 37
18 28 39
12 25.0
0 36.2
18 54 53-8
7
92.2
31.7
6 22 43
18 20 45
12 17. 1
0 28.3
19 2 46.9
9
89.9
319
6 14 49
18 12 51
12 9.2
0 20.4
19 10 40.0
II •
87.8
31.9
6 655
18 4 57
12 1.3
0 12.5
19 18 33.1
13
85.9
32.0
5 59 2
17 57 3
II 53.4
0 4.6
19 26 26.2
15
84.0
32.1
5 51 8
17 49 9
II 45-5
23 52.8
19 34 194
17
82.0
32.2
5 43 14
17 41 15
II 37-6
23 44.9
19 42 12.5
19
79.7
32.3
5 35 20
17 33 21
II 29.7
23 37.0
19 50 5-6
21
77-3
32.4
5 27 26
17 25 27
II 21.8
23 29.1
19 57 58.7
23
74-9
32.3
5 19 32
17 17 33
II 139
23 21.2
20 5 51.8
25
72.7
32.2
5 II 38
17 9 39
II 6.0
23 13.3
20 13 44.9
27
70.8
32.1
5 3 44
17 I 45
10 58.1
23 5.4
20 21 38.0
29
69.1
32.0
4 55 50
16 53 52
10 50.2
22 57.5
20 29 31.2
31
67.1
32.0
4 47 56
16 45 58
10 42.3
22 49.6
20 37 24.3
Feb. 2
64.9
32.0
4 40 2
16 38 4
10 34.4
22 41.7
20 45 17.4
4
62.5
319
4 32 8
16 30 10
10 26.5
22 33.8
20 53 10.5
6
60.3
31.6
4 24 14
16 22 16
10 18.6
22 25.9
21 I 3.6
8
584
31.3
4 16 20
16 14 22
10 10.7
22 18.0
21 8 56.7
10
56.7
31.1
4 8 27
16 6 28
10 2.8
22 lO.I
21 16 49.8
12
55.0
30.8
4 0 33
15 58 35
9 550
22 2.2
21 24 43.0
14
53-2
30.6
3 52 40
15 50 41
9 47.1
21 54.3
21 32 36.1
16
51.2
30.4
3 44 46
15 42 48
9 39-2
21 46.4
21 40 29.2
18
49.1
30.0
3 36 52
15 34 54
9 313
21 38.5
21 48 22.3
20
47.2
29.7
3 28 58
15 27 0
9 23.4
21 30.6
21 56 15-4
22
45-5
29.2
3 21 5
15 19 6
9 155
21 22.7
22 4 8.5
24
44.1
28.8
3 13 12
15 II 13
9 7-6
21 14.8
22 12 1.6
26
42.8
28.4
3 5 18
15 3 20
8 59.7
21 7.0
22 19 54.7
28
41.3
28.1
2 57 25
14 55 27
8 518
20 59.1
22 27 47.8
Mar. I
39-6
27.7
2 49 32
14 47 33
8 43.9
20 51.2
22 35 409
3
37.9
27.2
2 41 38
14 39 40
8 36.0
20 43.3
22 43 34,0
5
36.5
26.7
2 33 45
14 31 47
8 28.1
20 35.4
22 51 27.2
7
35.4
26.1
2 25 52
14 23 54
8 20.3
20 27.5
22 59 20.3
9
34.4
25.6
2 17 59
14 16 I
8 12.4
20 19.6
23 7 13.4
II
33.5
25.1
2 10 6
14 8 8
8 4.5
20 1 1.8
23 15 6.5
13
32.4
24.6
2 2 14
14 0 15
7 56.6
20 3.9
23 22 59.6
15
312
24.1
I 54 21
13 52 22
7 48.7
19 56.0
23 30 52.7
17
30.0
23.6
I 46 28
13 44 29
7 40.9
19 48.1
23 38 45.8
19
29.0
22.9
I 38 35
13 36 37
7 33.0
19 40.2
23 46 38.9
21
28.3
22.3
I 30 42
13 28 44
7 25.1
19 32.4
23 54 32.0
23
28.0
21.7
I 22 50
13 20 52
7 17.2
19 24.5
0 2 25.1
25
27.6
21. 1
I 14 58
13 13 0
7 9.4
19 16.6
0 10 18.2
27
27.0
20.6
I 7 5 •
13 5 7
7 1-5
19 8.8
0 18 11.3
29
26.3
20.1
0 59 13
12 57 15
653.6
19 09
0 26 4.4
31
25.7
195
0 51 21
12 49 22
6 45.7
18 53.0
0 33 57.6
Apr. 2
25.4
18.8
0 43 29
12 41 30
6 37.8
18 45-2
0 41 50.7
4
25.4
18.1
0 35 37
12 33 38
6 30.0
18 37.3
0 49 43.8
6
255
17.5
0 27 45
12 25 47
6 22.1
18 29.4
0 57 36.9
8
25.6
17.0
0 19 53
12 17 55
6 14.3
18 21.6
I 5 30.0
For the corrections necessary to reduce to the times of west and east elongations for latitude other than 45^,
see Table la.
*Use Table III for interpolation for longitude from Greenwich. These times are given to two decimal places
and for each day on page II of the Greenwich Ephemeris.
[Bph xa]
662 TABLE I.
POLARIS FOR THE 90TH MERIDIAN WEST OF GREENWICH.
App. R. A.
App. Decl.
Mean Central Time of —
Mean Central Time (for
Lat. 4S*)of—
Sid. Time of
Mear Noon at
Astr. Date.
Greenwich..*
Upper
Ctilm.
Upper
Ctilm.
Upper Culm.
Lower Culm.
West Elons.
Bast £lon£.
•
1912.
h in
I 26
0 /
88 50
s
//
h m 5
h m s
h m
h m
h m 5
Apr. 10
25.5
16.4
0 12 I
12 10 3
6 6.4
18 13.7
I 13 23.1
12
254
15-8
049
12 2 II
5 58.5
18 5.8
I 21 16.2
14
254
14.9
23 52 22
II 54 20
5 50.7
17 58.0
I 29 9.3
16
25.8
14.2
23 44 30
II 46 28
5 42.8
17 50.1
I 37 2.4
18
26.5
13-6
23 36 39
II 38 37
5 35.0
17 42.3
I 44 55.5
20
27.2
130
23 28 48
II 30 46
5 27.1
17 344
I 52 48.6
22
27.8
12.5
23 20 57
II 22 55
5 19.3
17 26.6
2 0 41.8
24
28.2
12.0
23 13 5
II 15 3
5 114
17 18.7
2 8 34,9
26
28.6
11.4
23 5 14
II 7 12
5 3-6
17 10.9
2 16 28.0
28
293
10.8
22 57 23
10 59 21
4 55.7
17 3.0
2 24 21. 1
30
303
10.2
22 49 32
10 51 30
4 47-8
16 55.2
2 32 14.2
May 2
315
9-7
22 41 41
10 43 39
4 40.0
16 47.3
2 40 7-3
4
32.7
9.2
22 33 51
10 35 49
4 32.1
16 39.5
2 48 0.4
6
33.7
8.7
22 26 0
10 27 58
4 24.3
16 31.6
2 55 53.5
8
34.6
8.3
22 18 9
10 20 7
4 164
16 23.8
3 3 46.6
10
35.5
7.8
22 10 18
10 12 16
4 8.6
16 15.9
3 II 39.8
12
36.6
7.2
22 2 27
10 4 25
4 0.7
16 8.1
3 19 32.9
14
38.1
6.7
21 54 37
9 56 35
3 52.9
16 0.2
3 27 26.0
16
39.8
6.2
21 46 47
9 48 45
3 45.1
15 524
3 35 19- 1
18
41-5
5-9
21 38 57
9 40 54
3 37-2
15 44.6
3 43 12.2
20
42.9
5.6
21 31 6
9 33 4
3 294
15 36.7
3 51 5-3
22
44.1
5.3
21 23 16
9 25 13
3 21.5
15 28.9
3 58 584
24
454
4.8
21 15 25
9 17 23
3 13.7
15 21.0
4 6 51.6
26
47.1
44
21 7 35
9 9 33
3 5-9
15 13.2
4 14 44.7
28
49.1
4.0
20 59 45
9 I 43
2 58.0
15 54
4 22 37.8
30
51.0
3.7
20 51 55
8 53 53
2 50.2
14 57.5
4 30 30.9
June I
52.9
3.5
20 44 5
8 46 3
2 424
14 49.7
4 38 24.0
3
54-6
3.3
20 36 15
8 38 13
2 34.5
14 41.9
4 46 17- 1
5
56.2
3.1
20 28 25
8 30 23
2 26.7
14 34.0
4 54 10.2
7
57.8
2.8
20 20 35
8 22 33
2 18.9
14 26.2
5 2 3.4
9
59.7
2.5
20 12 45
8 14 42
2 II.O
14 18.4
5 9 56.5
II
61.9
2.2
20 4 55
8 653
2 3.2
14 10.5
5 17 49.6
13
64.2
2.1
19 57 6
7 59 3
I 554
14 2.7
5 25 42.7
15
66.4
2.0
19 49 16
7 51 13
I 47.5
13 54.9
5 33 35.8
17
68.3
2.0
19 41 26
7 43 24
I 39-7
13 47.1
5 41 29.0
19
70.0
1-9
19 33 36
7 35 34
I 319
13 39-2
5 49 22.1
21
71.9
1.7
19 25 46
7 27 44
I 24.1
13 314
5 57 15.2
23
74.1
1.6
19 17 56
7 19 54
I 16.2
13 23.6
6 5 8.3
25
76.5
1-5
19 10 7
7 12 5
I 8.4
13 15.7
6 13 1.4
27
78.9
1.5
19 2 17
7 4 15
I 0.6
13 7.9
6 20 54.5
29
81. 1
1.6
18 54 28
6 56 25
0 52.7
13 01
6 28 47.7
July I
83.0
1.7
18 46 38
6 48 35
0 44.9
12 52.2
6 36 40.8
3
84.9
1.7
z8 38 48
6 40 46
0 37-1
12 44,4
6 44 33.9
5
86.9
1.7
18 30 58
6 32 56
0 29.2
12 36.6
6 52 27.0
7
89.1
1.7
18 23 8
6 25 5
0 21.4
12 28.7
7 0 20.1
9
91.6
1.8
18 15 19
6 17 16
0 13.6
12 20.9
7 8 13.2
ZI
94.1
2.0
18 7 30
6 9 27
0 5.8
12 13.1
7 16 6.4
13
96.3
2.2
17 59 40
6 I 37
23 54.0
12 5-3
7 23 59-5
15
98.3
2.5
17 51 50
5 53 48
23 46.2
II 57.5
7 31 52.6
17
lOO.I
2.7
17 44 I
5 45 58
23 384
11 49.6
7 39 45-7
Por the ccnrections necessary to reduce to the times of west and east elongations for latitude other than 45 ^,
see Table la.
*Use Table III for interpolation for longitude from Greenwich. These times are given to two decimal places
and for each day on page II of the Greenwich Ephemeris.
[Eph xa]
TABLE I.
663
POLARIS FOR THE 90TH MERIDIAN WEST OF GREENWICH. 1
App. R. A.
App. Decl.
Mean Central Time of —
Mean Central Time (for
Lat. 4S*)of—
Sid. Time of
Mean Noon at
A ■* - ^^^ _ A
C^^eenwidi.^
Astr. Date.
^^> A ^^bAA V« m^r^Mm
Upper
Culm.
Upper
Culm.
Upper Culm.
Lower Culm.
West Blong.
Bast Elong.
1912.
h m
I 27
0 /
8850
«_
s
//
h m s
h m 8
h m
h m
h m 8
July 19
42.2
2.8
17 36 II
5 38 8
23 30.5
II 41.8
7 47 38.8
21
44.5
30
17 28 21
5 30 19
23 22.7
II 34.0
7 55 31.9
23
46.9
3.2
17 20 32
5 22 29
23 14.9
II 26.1
8 3 25.0
25
49.2
3.6
17 12 42
5 14 40
23 7.1
II 18.3
8 II 18.2
27
513
3-9
17 4 52
5 6 50
22 59.2
II 10.5
8 19 11.3
29
53-2
4.3
16 57 2
4 59 0
22 51.4
II 2.7
8 27 4.4
0\
31
550
4.6 .
16 49 12
4 51 10
22 43.6
10 54.8
8 34 57-5
0S ^
Aug. 2
56.9
4.9
16 41 23
4 43 20
22 35.8
10 47.0
8 42 50.6
4
590
5-2
16 33 33
4 35 30
22 27.9
10 39.2
8 50 43-7
A n ^ r%
6
61.3
5.6
16 25 43
4 27 40
22 20.1
10 31.3
8 58 36.8
8
63.5
6.1
16 17 54
4 19 51
22 12.3
10 23.5
9 6 30.0
10
655
6.6
16 10 4
4 12 I
22 4.4
10 15.7
9 14 23.1
12
67.1
7.1
16 2 14
4 4 II
21 56.6
10 7.8
9 22 16.2
14
68.7
7-5
15 54 24
3 56 21
21 48.8
10 0.0
9 30 9-3
16
70.6
7.9
15 46 34
3 48 31
21 40.9
9 52.2
9 38 2.4
18
72.6
8.4
15 38 44
3 40 41
21 33.1
9 44.3
9 45 55-5
20
74.7
8.9
15 30 54
3 32 52
21 25.3
9 36.5
9 53 48.6
22
76.6
9.5
15 23 4
3 25 2
21 17.4
9 28.7
10 I 41.7
24
78.1
10. 1
15 15 14
3 17 "
21 9.6
9 20.8
10 9 34.8
26
79.6
10.7
15 7 23
3 9 21
21 1.8
9 13.0
10 17 28.0
28
81.0
II. 2
14 59 33
3 I 31
20 53.9
9 5.2
10 25 21. 1
30
82.5
11.7
14 51 43
2 53 40
20 46.1
8 57.3
10 33 14.2
Sept. I
84.2
12.3
14 43 53
2 45 50
20 38.3
8 49.5
10 41 7-3
3
86.0
12.9
14 36 3
2 38 0
20 30.4
8 41.7
10 49 0.4
5
87.6
136
14 28 13
2 30 10
20 22.6
8 33.8
10 56 53-5
7
88.9
14.4
14 20 22
2 22 20
20 14.7
8 26.0
II 4 46.6
9
90.0
15.1
14 12 31
2 14 29
20 6.9
8 18.1
II 12 39.7
II
91. 1
157
14 4 40
2 6 38
19 59.0
8 10.3
II 20 32.8
13
92.4
16.3
13 56 50
I 58 47
19 51.2
8 2.4
II 28 25.9
15
93.9
16.9
X3 49 0
I 50 57
19 43.4
7 54.6
II 36 19.0
17
95.3
17.7
13 41 9
I 43 7
19 35-5
7 46.8
II 44 12. 1
19
96.4
18.4
13 33 18
I 35 16
19 27.7
7 38.9
II 52 5.2
21
97.3
19.2
13 25 27
I 27 25
19 19.8
7 311
" 59 58.4
23
98.0
19.9
13 17 36
1 19 34
19 12.0
7 23.2
12 7 51-5
25
98.7
20.6
13 9 45
I " 43
19 4.1
7 15.4
12 15 44.6
27
99.6
21.3
13 I 54
I 3 52
18 56.3
7 7-5
12 23 37.7
29
100.6
22.0
12 54 4
0 56 I
18 48.5
6 59-7
12 31 30.8
Oct. I
101.7
22.7
12 46 13
0 48 10
18 40.6
6 51.8
12 39 23.9
3
102.4
23.6
12 38 22
0 40 19
18 32.8
6 44.0
12 47 17.0
5
102.8
24.5
12 30 30
0 32 28
18 24.9
6 36.1
12 55 lO.I
7
103. 1
25.2
12 22 39
0 24 37
18 17.0
6 28.3
13 3 3-2
9
103.4
25.9
12 14 47
0 16 45
18 9.2
6 20.4
13 10 56.3
II
104. 1
26.6
12 6 56
/°o \ W
18 1.3
6 12.5
13 18 49.4
13
104.7
27.4
" 59 5
123 57 7}
17 53.5
6 4.7
13 26 42.6
15
105.2
28.2
11 51 14
23 49 16
17 45-6
5 56.8
13 34 35.7
17
105.4
29.1
II 43 22
23 41 24
17 37.8
5 490
13 42 28.8
19
105.4
29.9
" 35 30
23 33 32
17 29.9
5 411
13 50 21.9
21
105.2
30.6
II 27 38
23 25 40
17 22.0
5 33.2
13 58 15.0
23
105.0
31.3
II 19 46
23 17 48
17 14.2
5 25.4
14 6 8.1
25
105. 1
32.0
II II 54
23 9 56
17 6.3
5 17.5
14 14 1.2
For the corrections necessary to reduce to the times of west and
Table la.
^Use Table III for interpolation for longitude from Greenwich,
and for each day on page II of the Greenwich Ephemeris.
[£ph xa]
elongations for latitude other than 45%
These times are given to two decimal placet
664 TABLE I.
POLARIS FOR THE 90TH MERIDIAN WEST OF GREENWICH.
App. R. A.
App. Decl.
Mean Central Time of —
Mean Central Time (for
Lat.45')of—
Sid. Time of
Mean Noon at
Astr. Date.
Greenwich..*
Upper
Ctilm.
Upper
Culm.
Upper Culm.
Lower Culm.
West Elong.
East Blong.
]
9x2.
h m
I 28
0 /
88 50
s
//
h m 8
far m 8
h m
h m
h m a
Oct.
27
45.3
32.8
11 4 3
23 2 5
16 58.4
5 9.6
14 2X 54,3
29
45-3
33-6
10 56 11
22 54 13
x6 50.6
5 1-8
14 29 47.4
31
45- 1
34-4
10 48 19
22 46 21
x6 42.7
4 53.9
14 37 40.5
Nov.
2
44-5
35-3
10 40 27
22 38 28
x6 34.8
4 46.0
14 45 33-6
4
43.8
36.0
10 32 34
22 30 36
x6 27.0
4 38.2
X4 53 26.8
6
43.3
36.7
10 24 42
22 22 44
x6 X9.X
4 30.3
15 I 199
8
430
37.3
xo x6 50
22 X4 52
x6 XI.2
4 22.4
15 9 13.0
10
42.8
38.1
xo 8 57
22 6 59
16 3.3
4 146
15 17 6.1
12
42.2
38.9
10 X 5
21 59 7
15 55-5
4 6.7
15 24 59.2
14
41.4
39-7
9 53 12
21 51 14
15 47.6
3 58.8
X5 32 52.5
16
40.4
40.4
9 45 20
2X 43 22
15 39.7
3 50.9
15 40 45-4
18
39.2
41.0
9 37 27
2X 35 29
15 31.8
3 43.1
X5 48 38.6
20
38.2
41.6
9 29 34
21 27 36
15 24.0
3 35-2
15 56 31.7
22
37-4
42.2
9 21 42
2X 19 44
X5 16.1
3 27.3
x6 4 24.8
24
36.7
42.9
9 13 49
21 IX 51
X5 8.2
3 19.4
x6 X2 X7.9
26
35.7
43.6
9 5 56
21 3 58
X5 0.3
3 "5
x6 20 ix.o
28
34-5
44.3
858 3
20 56 5
14 52.5
3 3-6
x6 28 4.1
30
32.9
44.9
8 50 xo
20 48 X2
14 44.6
2 55.8
16 35 57.2
Dec.
2
31.4
45.5
8 42 16
20 40 x8
14 36.7
2 47-9
x6 43 50.4.
4
30.0
46.0
8 34 23
20 32 25
X4 28.8
2 40.0
16 51 43-5
6
28.9
46.5
8 26 30
20 24 32
X4 20.9
2 32.x
x6 59 36.6
8
27.7
47-1
8 x8 37
20 16 39
14 13.0
2 24.2
17 7 29.7
•
10
26.2
47.7
8 xo 44
20 8 45
14 51
2 X6.3
X7 xs 22.8
12
24.4
48.2
8 2 50
20 0 52
13 57.2
2 8.4
X7 23 x6.a
14
22.5
48.7
7 54 56
19 52 58
13 49-3
2 0.5
17 31 91
16
20.6
49.1
7 47 3
19 45 4
13 41.5
I 52.6
17 59 2.2
18
18.9
49.5
7 39 9
19 37 "
13 33.6
I 44-7
17 46 553
20
17.3
49.8
7 31 16
X9 29 17
13 25.7
I 36.9
X7 54 48.4
22
15.8
502
7 23 22
19 2 X 24
13 178
X 29.0
x8 2 41.5
24
14.1
50.7
7 15 29
19 13 30
13 9-9
I 21. X
x8 xo 34.7
26
12.0
51. 1
7 7 35
19 5 37
13 2.0
X X3.2
x8 x8 27.8
28
9.7
51.5
6 59 41
18 57 43
12 54.1
I 5-3
x8 26 20.9
30
7.6
51.7
6 51 47
x8 49 48
12 46.2
0 57-4
x8 34 X4.0
TABLE la.
CORRECTIONS TO THE TIMES OF ELONGATIONS FOR DIFFERENT LATITUDES.
Lat.
W. E.
Lat.
W. E.
Lat.
W. E.
Lat.
W. E.
Lat.
W. E.
Lat.
W. B.
0
m
0
m
0
m
0
m
0
•
m
0
m
XO
+3.8-
20
+3.0-
30
+2.0-
40
+0.8-
50
-0.9+
55
-2 .Of
X2
3-7
22
2.8
32
1.8
42
0.5
51
I.X
56
2.2
14
3.5
24
2.6
34
1-5
44
+0.2-
52
1.3
57
2.5
x6
3.3
26
2.4
36
1.3
46
-0.2+
53
1.5
58
2.8
x8
3.1
28
2.2
38
x.o
48
0.6
54
X.8
59
3.1
20
+3.«>-
30
+2.0-
40
+0.8-
50
-0.9+
55
-2.0f
60
-3.4+
For the corrections necessary to reduce to the times of west and east elongations for latitude other than 45%
see Table la.
*Use Table III for interpolation for longitude from Greenwich. These times are given to two decimal places
and for each day on page II of the Greenwich Bphemeris.
[£ph X2j
TABLE n.— SIDEREAL INTO MEAN SOLAR TIME. 665
TO BE SUBTRACTED FROM A SIDEREAL TIME INTERVAL.
Side-
real.
0^
I^»
2^
3"
4\
5"
6"
7^
Vest
Seconds.
m
m
s
m s
m 8
m s
m 9
m s
m s
m s
9
s
O
0
0.000
0 9.830
0 19.659
0 29.489
039.318
049.148
058.977
I 8.807
0
0.000
I
0
0.164
0 9-993
0 19.823
0 29.653
0 39.482
049.312
059.141
I 8.971
I
0.003
2
0
0.328
0 10.157
0 19.987
0 29.816
0 39.646
0 49.475
0 59305
X 9x35
2
0.005
3
0
0.491
0 10.321
0 20.151
0 29.980
039.810
0 49.639
0 59.469
I 9.298
3
0.008
4
0
0655
0.10.485
0 20.314
030.144
0 39.974
0 49.803
0 59.633
I 9.462
4
O.OII
5
0
0.819
0 10.649
0 20.478
0 30.308
040.137
0 49.967
0 59.796
I 9.626
5
0.014
6
0
0.983
0 10.813
0 20.642
0 30.472
0 40.301
050.131
0 59.960
I 9.790
6
0.016
7
0
1. 147
0 10.976
0 20.806
0 30.635
0 40.465
0 50.295
I 0.124
I 9-954
7
0.019
8
0
1.3"
on. 140
0 20.970
0 30.799
0 40.629
0 50.458
I 0.288
I 10.118
8
0.022
9
0
1-474
0 11.304
021.134
0 30.963
040.793
0 50.622
I 0.452
I 10.281
9
0.025
lO
0
1.638
0 11.468
0 21.297
031.127
0 40.956
0 50.786
I 9.616
I 10.445
10
0.027
II
0
1.802
0 11.632
0 21.461
031.291
041.120
0 50.950
I 0.779
I 10.609
II
0.030
12
0
1.966
011.795
0 21.625
031.455
041.284
051. 114
1 0.943
I XO.773
12
0.033
13
0
2.130
011.959
021.789
031.618
041.448
051.278
I 1. 107
I 10.937
X3
0.035
14
0
2.294
0 12.123
021.953
031.782
041.612
051.441
I 1. 271
I II. 100
14
0.038
15
0
2.457
0 12.287
0 22.117
031.946
041.776
051.605
I 1.435
I 11.264
15
0.041
i6
0
2.621
012.451
0 22.280
032.110
041.939
051.769
1 1.599
I 11.428
16
0.044
17
0
2.785
0 12.615
0 22.444
032.274
042.103
051.933
I 1.762
X 11.592
17
0.046
i8
0
2.949
012.778
022.608
032.438
042.267
052.097
I 1.926
X 11.756
18
0.049
19
0
3113
0 12.942
0 22.772
032.601
042.431
052.260
I 2.090
I 11.920
X9
0.052
20
0
3.277
0 13.106
0 22.936
032.765
042.595
052.424
I 2.254
I 12.083
20
0.055
21
0
3.440
0 13.270
0 23.099
032.929
042.759
052.588
I 2.418
I 12.247
21
0.057
22
0
3.604
0 13.434
0 23.263
0 33093
042.922
052.752
I 2.582
I 12.411
22
0.060
23
0
3.768
0 13.598
0 23.427
033.257
0 43.086
052.916
I 2.745
X X2.575
23
0.063
24
0
3.932
0 13.761
0 23.591
0 33.420
043.250
0 53.080
I 2.909
I 12.739
24
0.066
25
0
4.096
0 13.925
0 23.755
0 33.584
043.414
0 53-243
I 3.073
I 12.903
25
0.068
26
0
4.259
0 14.089
023.919
0 33.748
043.578
0 53.407
I 3-237
I 13.066
26
0.071
27
0
4.423
0 14.253
0 24.082
033.912
043.742
053.571
I 3.401
I 13-230
27
0.074
28
0
4.587
0 14.417
0 24.246
0 34.076
0 43.905
053.735
I 3.564
X 13.394
28
0.076
29
0
4.751
0 14.581
0 24.410
0 34.240
044.069
0 53.899
I 3.728
X X3.558
29
0.079
30
0
4.9x5
0 14.744
0 24.574
0 34.403
0 44.233
0 54063
X 3.892
1 13.722
30
0.082
31
0
5.079
0 14.908
0 24.738
0 34-567
044.397
054.226
I 4-056
1 13.886
3X
0.085
32
0
5.242
0 15.072
0 24.902
034.731
044.561
0 54.390
I 4.220
1 14.049
32
0.087
33
0
5.406
0 15.236
0 25.065
0 34.895
044.724
0 54.554
1 4-384
X X4.213
33
0.090
34
0
5570
0 15.400
0 25.229
035.059
0 44.888
054.718
X 4.547
X X4.377
34
0.093
35
0
5.734
0 15.563
0 25.393
035.223
045.052
0 54.882
I 4-7XX
X X4-54X
35
0.096
36
0
5.898
015.727
025.557
035.386
045.216
055.046
X 4.875
I X4.705
36
0.098
37
0
6.062
0 15.891
025.721
0 35.550
045.380
055.209
X 5039
I 14.868
37
O.IOI
38
0
6.225
0 16.055
025.885
035.714
045.544
055.373
X 5.203
X 15-032
38
0.104
39
0
6.389
0 16.219
0 26.048
0 35.878
045707
055.537
I 5.367
I 15x96
39
0.106
40
0
6.553
0 16.383
0 26.212
0 36.042
045.871
055.701
I 5530
I X5.360
40
0.109
41
0
6.717
0 16.546
0 26.376
0 36.206
0 46.035
055.865
I 5.694
X 15.524
4X
O.II2
42
0
6.881
0 16.710
0 26.540
0 36.369
046.199
0 56.028
I 5.858
I 15.688
42
O.II5
43
0
7.045
0 16.874
0 26.704
0 36.533
0 46.363
056.192
I 6.022
X 15.85X
43
O.II7
44
0
7.208
0 17.038
0 26.867
0 36.697
046.527
0 56.356
I 6.186
I 16.015
44
*
0.120
45
0
7.372
0 17.202
0 27.031
0 36.861
046.690
056.520
I 6.350
I 16.179
45
0.123
46
0
7.536
0 17.366
027.195
0 37025
046.854
0 56.684
X 6.513
X 16.343
46
0.126
47
0
7.700
017.529
027.359
037.188
047.018
0 56.848
I 6.677
I 16.507
47
0.128
48
0
7.864
0 17.693
027.523
037.352
047.182
057.011
I 6.841
I 16.671
48
0.131
49
0
8.027
0 17.857
0 27.687
037.516
047.346
057-175
I 7005
I 16.834
49
0.134
50
0
8. 191
0 18.021
0 27.850
0 37.680
047.510
0 57.339
I 7.169
I 16.998
50
0.137
51
0
8.355
018.185
0 28.014
0 37.844
047.673
057.503
X 7.332
I 17.162
5x
0.139
52
0
8.519
0 18.349
028.178
0 38.008
047.837
057.667
I 7.496
I 17.326
52
0.142
53
0
8.683
0 18.512
0 28.342
038.171
048.001
057.831
I 7.660
I 17.490
53
0.145
54
0
8.847
0 18.676
0 28.506
0 38.335
048.165
057.994
I 7.824
I X 7.654
54
0.147
55
0
9.010
0 18.840
0 28.670
0 38.499
048.329
058.158
I 7.988
1 17.817
55
0.150
56
0
9.174
0 19.004
028.833
0 38.663
0 48.492
058.322
X 8.152
1 17.981
56
0.153
57
0
9.338
0 19.168
0 28.997
038.827
0 48.656
0 58.486
X 8.315
X 18.145
57
0.156
58
0
9.502
0 19.331
0 29.161
038.991
048.820
0 58.650
I 8.479
1 18.309
58
0.158
59
0
9.666
0 19.495
0 29.325
039.154
048.984
058.814
I 8.643
X X 8.473
59
o.i6i
Side-
real.
0^
I^
2"
3"
4"
5"
6^
t
S<
For
iconds.
[Eph xa]
666
TABLE II.— SIDEREAL INTO MEAN SOLAR TIME.
TO BE SUBTRACTED FROM A SIDEREAL TIME INTERVAL.
Side-
real.
S**
9"
ID*'
ii"
la^
13-
14"
IS*"
For
Seconds-
m
m s
m s
m s
m 8
m
8
m s
m 8
m 8
s
8
O
I 18.636
I 28.466
I 38.296
I 48.125
57.955
2 7.784
2 17.614
2 27.443
0
0.000
I
I 18.800
I 28.630
I 38.459
I 48.289
58.119
2 7.948
2 17-778
2 27.607
I
0.003
2
I 18.964
I 28.794
I 38.623
I 48.453
58.282
2 8.II2
2 17-941
227.771
2
0.005
3
I 19.128
I 28.958
I 38.787
I 48.617
58.446
2 8.276
2 18.105
2 27.935
3
0.008
4
I 19.292
I 29.121
I 38.951
I 48.780
58.610
2 8.440
2 18.269
2 28.099
4
O.OII
5
1 19.456
I 29.285
I 39- "5
I 48.944
58.774
2 8.603
2 18.433
2 28.263
5
0.014
6
I 19.619
I 29.449
I 39.279
I 49.108
58.938
2 8.767
2 18.597
2 28.426
6
0.016
7
I 19-783
I 29.613
I 39.442
I 49.272
59.101
2 8.931
2 18.761
2 28.590
7
0.019
8
I 19.947
X 29.777
I 39.606
I 49.436
59.265
2 9.095
2 18.924
2 28.754
8
0.022
9
I 20. Ill
1 29.940
I 39.770
I 49.600
59.429
2 9.259
2 19.088
2 28.918
9
0.025
lO
I 20.275
I 30.104
I 39.934
I 49.763
59.593
2 9.423
2 19.252
2 29.082
10
0.027
II
I 20.439
I 30.268
I 40.098
I 49.927
59.757
2 9-586
2 19.416
2 29.245
II
0.030
12
I 20.602
I 30.432
I 40.261
I 50.091
59-921
2 9-750
2 19.580
2 29.409
12
0.033
13
I 20.766
1 30.596
I 40.425
I 50.255
2
0.084
2 9.914
2 19-744
2 29.573
13
0035
14
I 20.930
I 30.760
I 40.589
I 50.419
2
0.248
2 10.078
2 19.907
2 29.737
14
0.038
15
I 21.094
1 30.923
I 40.753
I 50.583
2
0.412
2 10.242
2 20.071
2 29.901
15
0.Q4I
i6
I 21.258
1 31.087
•I 40.917
I 50.746
2
0.576
2 10.405
2 20.235
2 30.065
16
0.044
17
I 21.422
131.251
I 41.081
I 50.910
2
0.740
2 10.569
2 20.399
2 30.228
17
0.046
i8
I 21.585
1 31-415
141.244
I 51.074
2
0.904
2 10.733
2 20.563
2 30.392
18
0.049
19
I 21.749
1 31-579
I 41.408
I 51.238
2
1.067
2 10.897
2 20.727
2 30.556
19
0.052
20
I 21.913
1 31-743
I 41-572
I 51-402
2
I.23I
2 1 1. 061
2 20.890
2 30.720
20
0.055
21
I 22.077
I 31.906
1 41-736
I 51.565
2
1.395
2 11.225
2 21.054
2 30.884
21
0.057
22
I 22.241
I 32.070
I 41.900
I 51.729
2
1-559
2 11.388
2 21.218
2 31.048
22
0.060
23
I 22.404
1 32.234
I 42.064
I 51.893
2
1.723
2 11.552
2 21.382
2 31. 211
23
0.063
24
I 22.568
1 32.398
I 42.227
I 52.057
2
1.887
2 11.716
2 21.546
2 31.375
24
0.066
25
I 22.732
1 32.562
I 42.391
I 52.221
2
2.050
2 11.880
2 21.709
2 31-539
25
0.068
26
I 22.896
I 32.726
I 42.555
I 52.385
2
2.214
2 12.044
2 21.873
2 31-703
26
0.071
27
I 23.060
I 32.889
I 42.719
I 52.548
2
2.378
2 12.208
2 22*037
2 31.867
27
0.074
28
I 23.224
1 33.053
I 42.883
I 52.712
2
2.542
2 12.371
2 22.201
2 32.031
28
0.076
29
I 23.387
133.217
I 43.047
I 52.876
2
2.706
2 12.535
2 22.365
2 32.194
29
0.079
30
I 23.551
1 33-381
I 43-2 10
I 53-040
2
2.869
2 12.699
2 22.529
2 32.358
30
0.082
31
I 23.715
1 33-545
I 43.374
I 53-204
2
3.033
2 12.863
2 22.692
2 32.522
31
0.085
32
I 23.879
I 33-708
I 43.538
I 53.368
2
3.197
2 13.027
2 22.856
2 32.686
32
0.087
33
I 24.043
I 33872
I 43.702
I 53.531
2
3.361
2 13.191
2 23.020
2 32.850
33
0.090
34
I 24.207
I 34-036
I 43.866
I 53.695
2
3.525
2 13.354
2 23.184
2 33013
34
0.093
35
I 24.370
I 34.200
I 44.029
1 53.859
2
3.689
2 13.518
2 23.348
2 33.177
35
0.096
36
1 24.534
I 34.364
I 44.193
I 54.023
2
3.852
2 13.682
2 23.512
2 33.341
36
0.098
37
I 24.698
I 34.528
I 44.357
I 54.187
2
4.016
2 13.846
2 23.675
2 33.505
37
O.IOI
38
I 24.862
I 34.691
144-521
I 54.351
2
4.180
2 14.010
2 23.839
2 33.669
38
0.104
39
I 25.026
I 34.855
I 44.685
I 54.514
2
4.344
2 14.173
2 24.003
2 33.833
39
0.106
40
I 25.190
I 35019
I 44-849
I 54.678
2
4.508
2 14-337
2 24.167
2 33.996
40
0.109
41
I 25.353
I 35.183
I 45.012
I 54.842
2
4.672
2 14-501
2 24.331
2 34.160
41
O.I I 2
42
I 25.517
I 35-347
145.176
155.006
2
4.835
2 14.665
2 24.495
2 34.324
42
O.II5
43
I 25.681
135.5"
I 45.340
I 55.170
2
4.999
2 14.829
2 24.658
2 34.488
43
O.I 17
44
I 25.845
I 35674
I 45 504
I 55.333
2
5.163
2 14.993 2 24.822
2 34.652
44
0.120
45
I 26.009
I 35.838
I 45-668
I 55.497
2
5.327
2 15.156 2 24.986
2 34.816
45
0.123
46
1 26.172
I 36.002
I 45.832
I 55.661
2
5.491
2 15.320 225.150
2 34.979
46
0.126
47
I 26.336
I 36.166
I 45-995
I 55.825
2
5.655
2 15-484
2 25.314
235.143
47
0.128
48
I 26.500
I 36.330
146.159
I 55.989
2
5.818
2 15.648
2 25.477
2 35.307
48
0.131
49
I 26.664
I 36.493
I 46.323
I 56.153
2
5.982
2 15.812
2 25.641
235.471
49
0.134
50
I 26.828
I 36.657
I 46.487
I 56.316
2
6.146
2 15.976
2 25.805
2 35.635
50
0.137
51
I 26.992
I 36.821
I 46.651
I 56.480
2
6.310
2 16.139
2 25.969
2 35.798
51
0.139
52
I 27.155
I 36.985
I 46.815
I 56.644
2
6.474
2 16.303
2 26.133
2 35 962
52
0.142
53
I 27.319
I 37.149
I 46.978
I 56.808
2
6.637
2 16.467
2 26.297
2 36.126
53
0.145
54
I 27.483
1 37-313
I 47.142
I 56.972
2
6.801
2 16.631
2 26.460
2 36.290
54
0.147
55
I 27.647
I 37 476
I 47.306
I 57.136
2
6.965
2 16.795
2 26.624
2 36.454
55
0.150
56
I 27.811
I 37.640
I 47.470
I 57.299
2
7.129
2 16.959
2 26.788
2 36.618
56
0.153
57
I 27.975
I 37.804
I 47.634
I 57.463
2
7.293
2 17.122
2 26.952
2 36.781
57
0.156
58
I 28.138
I 37.968
I 47.797
I 57.627
2
7-457
2 17.286
2 27.116
2 36.945
58
0.158
59
I 28.302
I 38.132
I 47.961
I 57.791
2
7.620
2 17.450
2 27.280
2 37.109
59
O.161
Side-
real.
8'«
9"
10^
11^
I a*'
13-
14-
15-
For
Seconds.
[Bph xa]
•
TABLE II.— SIDEREAL INTO MEAN SOLAR TIME.
667
TO BE SUBTRACTED FROM A SIDEREAL TIME INTERVAL.
Side-
real.
16"
17^
18"
19^
20^
21^
aa**
^3""
For
Seconds.
m
m 8
m s
m s
m
s
m s
in s
m s
m s
8
8
o
2 37273
2 47.102
2 56.932
3
6.762
3 16.591
3 26.421
3 36.250
3 46.080
0
0.000
I
2 37-437
2 47.266
2 57.096
3
6.925
3 16.755
3 26.585
3 36.414
3 46.244
I
0.003
2
2 37.601
2 47.430
2 57.260
3
7.089
3 16.919
3 26.748
3 36.578
3 46.407
2
0.005
3
2 37.764
2 47.594
2 57-424
3
7.253
3 17083
3 26.912
3 36.742
346.571
3
0.008
4
2 37.928
2 47.758
2 57.587
3
7.417
3 17.246
3 27.076
336.906
3 46.735
4
O.OII
5
2 38.092
2 47.922
257.751
3
7.581
3 17.410
3 27.240
3 37.069
3 46.899
5
0.014
6
2 38.256
2 48.085
257.915
3
7.745
3 17.574
3 27.404
3 37.233
3 47.063
6
0.016
7
2 38.420
2 48.249
2 58.079
3
7.908
3 17.738
3 27.568
3 37.397
3 47.227
7
0.019
8
2 38.584
2 48.413
2 58.243
3
8.072
3 17.902
3 27.731
3 37.561
3 47.390
8
0.022
9
2 38.747
2 48.577
2 58.406
3
8.236
3 18.066
3 27-895
3 37.725
3 47.554
9
0.025
lO
2 38.911
2 48.741
2 58.570
3
8.400
3 18.229
3 28.059
3 37.889
3 47.718
10
0.027
II
2 39-075
2 48.905
2 58.734
3
8.564
3 18.393
3 28.223
3 38.052
3 47.882
II
0.030
12
2 39.239
2 49.068
2 58.898
3
8.728
3 18.557
3 28.387
338.216
3 48.046
12
0.033
13
2 39403
2 49.232
2 59.062
3
8.891
3 18.721
3 28.550
3 38.380
348.210
13
0.035
H
2 39566
2 49.396
2 59.226
3
9.055
3 18.885
3 28.714
3 38.544
3 48.373
14
0.038
15
2 39-730
2 49560
2 59.389
3
9.219
3 19.049
3 28.878
3 38.708
3 48.537
15
0.041
i6
2 39894
2 49724
2 59.553
3
9.383
3 19.212
3 29.042
3 38.871
3 48.701
16
0.044
17
2 40.058
2 49.888
2 59.717
3
9.547
3 19.376
3 29.206
3 39.035
3 48.865
17
0.046
i8
2 40.222
250.051
2 59.881
3
9.710
3 19.540
3 29.370
339.199
3 49.029
18
0.049
19
2 40.386
2 50.215
3 0.045
3
9.874
3 19.704
3 29.533
3 39.363
349.193
19
0.052
20
2 40.549
2 50.379
3 0.209
3 3
[O.038
3 19.868
3 29.697
3 39.527
3 49.356
20
0.055
21
240.713
2 50.543
3 0.372
3]
[O.202
3 20.032
3 29.861
3 39.691
3 49.520
21
0.057
22
2 40.877
2 50.707
3 0.536
3 J
[O.366
3 20.195
3 30.025
3 39.854
3 49.684
22
0.060
0.0ft
23
2 41.041
2 50.870
3 0.700
3 1
[O.530
3 20.359
330.189
3 40.018
3 49.848
23
24"
241.205
251034
3 0.864
3]
to.693
3 20.523
3 30.353
340.182
3 50.012
24
0.066
25
241.369
251.198
3 1 .028
3 3
10.857
3 20.687
330.516
3 40.346
350.175
25
0.068
26
241.532
251.362
3 1-192
33
[ 1 .02 1
3 20.851
3 30.680
340.510
3 50.339
26
0.071
27
2 41.696
251.526
3 1.355
33
II. 185
3 21.014
3 30.844
3 40.674
3 50.503
27
0.074
28
2 41.860
251.690
3 1.519
3^
11.349
321.178
3 31.008
3 40.837
3 50.667
28
0.076
29
2 42.024
251.853
3 1.683
33
ti-513
321.342
331.172
341.001
3 50.831
29
0.079
30
2 42.188
2 52.017
3 1.847
3 3
11.676
3 21.506
331.336
341.165
3 50.995
30
0.082
31
2 42.352
2 52.181
3 2.01 1
3 3
[ 1.840
3 21.670
3 31-499
341.329
351.158
31
0.085
32
242.515
2 52.345
3 2.174
3 ^
[2.004
3 21.834
3 31.663
3 41.493
351.322
32
0.087
33
2 42.679
2 52.509
3 2.338
3 3
[2.168
321.997
331.827
3 41.657
351-486
33
0.090
34
2 42.843
2 52.673
3 2.502
3]
12.332
3 22.l6l
3 31.991
3 41.820
351.650
34
0.093
35
2 43.007
2 52.836
3 2.666
33
[2.496
3 22.325
332.155
341.984
351.814
35
0.096
36
243.171
253.000
3 2.830
3 3
12.659
3 22.489
332.318
342.148
351.978
36
0.098
37
2 43.334
253.164
3 2.994
3 :
[2.823
3 22.653
3 32.482
342.3x2
352.141
37
O.IOI
38
2 43498
2 53-328
3 3.157
3]
[2.987
322.817
3 32.646
3 42.476
3 52.305
38
0.104
39
2 43.662
2 53-492
3 3.321
3 J
13.151
3 22.980
3 32.810
3 42.639
3 52.469
39
0.106
40
2 43.826
2 53.656
3 3-485
33
13.315
3 23.144
3 32.974
3 42.803
3 52.633
40
0.109
41
2 43.990
2 53.819
3 3.649
3 3
13.478
3 23.308
333.138
3 42.967
3 52.797
41
O.II2
42
244.154
2 53.983
3 3.813
3 3
[3.642
3 23.472
3 33.301
343.131
3 52.961
42
O.I 15
43
244.317
254.147
3 3.977
3 ^
[3.806
3 23.636
3 33.465
3 43.295
353.124
43
O.II7
44
2 44.481
254.3x1
3 4.140
3 3
13.970
323.800
3 33.629
3 43.459
3 53.288
44
0.120
45
2 44645
2 54.475
3 4.304
3 ^
14.134
3 23.963
3 33.793
343.622:353.4521
45
0.123
46
2 44.809
2 54.638
3 4.468
3 3
[4.298
324.127
3 33.957
3 43786
3 53.6x6
46
0.126
47
2 44.973
2 54.802
3 4.632
33
[4.461
3 24.291
3 34-121
3 43.950
3 53.780
47
0.128
48
245.137
2 54.966
3 4796
3 3
[4.625
3 24.455
3 34-284
344.114
3 53-943
48
O.I3I
49
2 45.300
255.130
3 4.960
3 3
[4.789
3 24.619
3 34.448
3 44.278
354.107
49
0.134
50
2 45 464
2 55.294
3 5.123
3 3
14.953
3 24.782
3 34-6 1 2
344.442
354.271
50
0.137
51
2 45.628
2 55-458
3 5.287
3 1
15.117
3 24.946
3 34776
344.605
3 54.435
51
0.139
52
2 45.792
255.621
3 5.451
3 ^
15-281
3 25.110
3 34.940
3 44.769
3 54.599
52
0.142
53
2 45.956
2 55.785
3 5.615
3 i
15.444
3 25-274
335.104
3 44.933
3 54- 763
53
0.145
54
2 46.120
2 55.949
3 5-779
3 3
[5.608
3 25.438
3 35.267
3 45.097
3 54.926
54
0.147
55
2 46.283
256.113
3 5.942
3 J
^5-772
3 25.602
3 35.431
3 45.261
355.090
55
0.150
56
2 46.447
2 56.277
3 6.106
3 1
^5-936
3 25.765
3 35.595
3 45.425
3 55.254
56
0.153
57
2 46.611
2 56.441
3 6.270
3 J
[6.100
3 25.929
3 35.759
3 45.588
3 55.418
57
0.156
58
2 46.775
2 56.604
3 6.434
3 1
[6.264
3 26.093
3 35.923
3 45.752
3 55.582
58
0.158
59
2 46.939
2 56.768
3 6.598
^ J
[6.427
19^
3 26.257
3 36.086
3 45.916
3 55.746
59
O.161
Side-
reaL
16^
17-
iff"
20**
ai-^
22^
23^
Se
For
conds.
[Bph za]
668
TABLE in.— MEAN SOLAR INTO SIDEREAL TIME.
TO BE ADDED TO A MEAN TIME INTERVAL.
Mean
0"
Solar.
m
m s
O
0 0.000
I
0 0.164
2
0 0.329
3
0 0.493
4
0 0.657
5
0 0.821
6
0 0.986
7
0 1. 150
8
0 1.314
9
0 1.478
lO
0 1.643
II
0 1.807
12
0 I.971
13
0 2.136
14
0 2.300
15
0 2.464
i6
0 2.628
17
0 2.793
i8
0 2.957
19
0 3.121
20
0 3.285
21
0 3.450
22
0 3.614
*23
0 3.778
24
0 3-943
25
0 4.107
26
0 4.271
27
0 4-435.
28
0 4.600
29
0 4.764
30
0 4.928
31
0 5093
32
0 5.257
33
0 5.421
34
0 5.585
35
0 5750
36
0 5-914
37
0 6.078
38
0 6.242
39
0 6.407
40
0 6.571
41
0 6.735
42
0 6.900
43
0 7.064
44
0 7.228
45
0 7.392
46
0 7.557
47
0 7.721
48
0 7.885
49
0 8.049
50
0 8.214
51
0 8.378
52
0 8.542
53
0 8.707
54
0 8.871
55
0 9.035
56
0 9-199
57
0 9.364
58
0 9.528
59
0 9.692
Mean
Solar.
0^
m
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
s
9.856
0.021
0.185
0.349
0.514
0.678
0.842
1.006
1. 171
1.335
1.499
1.663
1.828
1.992
2.156
2.321
2.485
2.649
2.813
2.978
3.142
3.306
3.471
3.635
3.799
3.963
4.128
4.292
4456
4.620
4.785
4.949
5-II3
5.278
5.442
5.606
5 770
5.935
6.099
6.263
6.427
6.592
6.756
6.920
7.085
7.249
7.413
7.577
7.742
7.906
8.070
8.234
8.399
8.563
8.727
8.892
9.056
9.220
9.384
9.549
m s
o 19.713
o 19.877
o 20.041
o 20.206
o 20.370
o 20.534
o 20.699
o 20.863
o 21.027
O 21. 191
021.356
o 21.520
o 21.684
021.849
o 22.013
o 22.177
o 22.341
o 22.506
o 22.670
o 22.834
o 22.998
023.163
023.327
o 23.491
o 23.656
o 23.820
o 23.984
o 24.148
024.313
o 24.477
o 24.641
o 24.805
o 24.970
025.134
o 25.298
o 25.463
o 25.627
025.791
o 25.955
026.120
o 26.284
o 26.448
026.612
o 26.777
o 26.941
027.105
o 27.270
o 27.434
o 27.598
o 27.762
o 27.927
o 28.091
o 28.255
o 28.420
o 28.584
o 28.748
o 28.912 I
o 29.077
o 29.241
o 29.405
m 8
o 29.569
o 29.734
o 29.898
o 30.062
o 30.227
o 30.391
o 30.555
030.719
o 30.884
031.048
o 31.212
031.376
031.541
031.705
031.869
o 32.034
032.198
032.362
032.526
o 32.691
o 32.855
033.019
033.183
o 33.348
033.512
o 33.676
033.841
o 34.005
034.169
o 34.333
o 34.498
o 34.662
o 34.826
034.990
035.155
035.319
o 35 483
o 35-648
035.812
035.976
036.140
o 36.305
o 36.469
o 36.633
036.798
o 36.962
037.126
037.290
o 37.455
037.619
037.783
o 37-947
038.112
o 38.276
038.440
o 38.605
o 38.769
o 38.933
o 39.097
o 39.262
m s
o 39.426
o 39.590
o 39-754
o 39.919
m s
049.282
o 49-.447
049.611
049.775
o 40.083 1 o 49.939
o 40.247
040.412
o 40.576
040.740
o 40.904
041.069
041.233
041.397
041.561
041.726
041.890
042.054
042.219
042.383
042.547
042.711
042.876
o 43.040
o 43.204
o 43.368
o 43.533
043.697
o 43.861
o 44.026
044.190
o 44.354
044.518
o 44.683
o 44847
o 45.01 1
045.176
045.340
045.504
o 45.668
o 45.833
045.997
046.161
046.325
o 46.490
o 46.654
046.818
o 46.983
047.147
047.3"
o 47.475
o 47.640
047.804
o 47.968
048.132
o 48.297
048.461
o 48.625
1 048.790
I o 48.954
049.118
[Eph xa]
050.104
o 50.268
o 50.432
o 50.597
o 50.761
o 50.925
051.089
051.254
051.418
051.582
051.746
05I.9II
o 52.075
052.239
052.404
o 52.568
052.732
o 52.896
o 53.061
o 53.225
o 53.389
o 53.554
053-718
o 53.882
o 54.046
054.211
o 54.375
o 54.539
o 54-703
o 54.868
o 55.032
055.196
055.361
055.525
o 55-689
055.853
056.018
056.182
o 56.346
056.510
o 56.675
o 56.839
057-003
057.168
057.332
o 57.496
o 57.660
057.825
057.989
058.153
058.317
o 58.482
o 58.646
058.810
o 58.975
m 8
059.139
o 59303
o 59.467
o 59632
o 59.796
o 59.960
0.124
0.289
0.453
0.617
0.782
0.946
I. no
1.274
1.439
1.603
1.767
1.932
2.096
2.260
2.424
2.589
2.753
2.917
3.081
3.246
3.410
3.574
3.739
3.903
4.067
4-231
4.396
4.560
4.724
4.888
5.053
5-217
5.381
5.546
5.710
5.874
6.038
6.203
6.367
6.531
6.695
6.860
7-024
7.188
7.353
7.5x7
7.681
7.845
8.010
8.174
8.338
8.502
8.667
8.831
m
8
8-995
9.160
9.324
9.488
9-652
9.817
9.981
0.145
0.310
0.474
0.638
0.802
0.967
1. 131
1.295
1.459
1.624
1.788
1.952
2. 117
2.281
2-445
2.609
2.774
2.938
3.102
3.266
3.431
3.595
3-759
3.924
4.088
4.252
4.416
4.581
4.745
4.909
5-073
5.238
5.402
5.566
5.731
5.895
6.059
6.223
6.388
6.552
6.716
6.881
7.045
7.209
7.373
7.538
7.702
7.866
8.030
8-195
8.359
8.523
8.688
For
Seconds.
8
O
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
X9
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
8
0.000
0.003
0.005
0.008
O.OII
0.014
0.016
0.019
0.022
0.025
0.027
0.030
0.033
0.036
0,038
0.041
0.044
0.047
0.049
0.052
0.055
0.057
0.060
0.063
0.066
0.068
0.071
0.074
0.077
0.079
0.082
0.085
0.088
0.090
0.093
0.096
0.099
O.IOI
0.104^
0.107*
0.1 10
O.I 12
0.1 15
O.I 18
0.120
0.123
0.126
0.129
O.I3I
0.134
O.I37
0.140
0.142
0.145
0.148
0.15 1
0.153
0.156
0.159
0.162
For
Seconds.
TABLE m.— MEAN SOLAR INTO SIDEREAL TIME.
669
TO BE ADDED TO A MEAN TIME INTERVAL.
Mean
Solar.
8''
9^
10"
11^
12^^
13^
14"
15-
For
Seconds.
m
m s
m s
m s
m 8
m 8
m 8
m 8
m 8
8
8
o
I 18.852
I 28.708
I 38.565
I 48.421
I 58.278
2 8.134
2 17.991
2 27.847
0
0.000
I
I 19.016
I 28.873
I 38.729
I 48.585
I 58.442
2 8.298
2 18.155
2 28.011
I
0.003
2
I 19.180
1 29.037
I 38.893
I 48.750
I 58.606
2 8.463
2 18.319
2 28.176
2
0.005
3
I 19345
I 29.201
I 39-058
I 48.914
158.771
2 8.627
2 18.483
2 28.340
3
0.008
4
I 19.509
I 29.365
I 39.222
I 49.078
I 58.935
2 8.791
2 18.648
2 28.504
4
O.OII
5
I 19.673
I 29.530
I 39386
I 49.243
I 59099
2 8.956
2 18.812
2 28.668
5
0.014
6
I 19837
I 29.694
I 39.550
I 49.407
I 59263
2 9.120
2 18.976
2 28.833
6
0.016
7
I 20.002
I 29.858
I 39.715
I 49.571
I 59-428
2 9.284
2 I9.I4I
2 28.997
7
0.019
8
I 20.166
I 30.022
1 39.879
I 49-735
I 59.592
2 9.448
2 19.305
2 29.161
8
0.022
9
I 20.330
I 30- 1 87
I 40.043
149.900
I 59-756
2 9.613
2 19.469
2 29.326
9
0.025
lO
I 20.495
I 30.351
I 40.207
I 50.064
I 59.920
2 9.777
2 19.633
2 29.490
10
0.027
II
I 20.659
I 30-515
I 40.372
I 50.228
2 0.085
2 9.941
2 19.798
2 29.654
II
0.030
12
I 20.823
I 30.680
I 40.536
I 50.393
2 0.249
2 10.105
2 19.962
2 29.818
12
0.033
13
I 20.987
I 30.844
I 40,700
I 50.557
2 0.413
2 10.270
2 20.126
2 29.983
13
0.036
14
I 21.152
I 31.008
I 40.865
I 50.721
2 0.578
2 10.434
2 20.290
2 30.147
14
0.038
15
I 21.316
I 31.172
I 41.029
I 50.885
2 0.742
2 10.598
2 20.455
2 30.311
15
0.041
i6
I 21.480
I 31.337
I 41.193
I 5 1 050
2 0.906
2 10.763
2 20.619
2 30.476
16
0.044
17
I 21.644
I 31.501
141.357
151.214
2 1.070
2 10.927
2 20.783
«2 30.640
17
0.047
i8
I 21.809
I 3 1 665
141.522
151.378
2 1.235
2 II.09I
2 20.948
2 30.804
18
0.049
19
I 21.973
I 31.829
I 41.686
I 51.542
2 1.399
2 11.255
2 21.112
2 30.968
19
0.052
20
I 22.137
I 31.994
I 41.850
151.707
2 1.563
2 11.420
2 21.276
231.133
20
0.055
21
I 22.302
132.158
1 42.015
151.871
2 1.727
2 11.584
2 21.440
2 31.297
21
0.057
22
I 22.466
I 32.322
I 42.179
I 52.035
2 1.892
2 11.748
2 21.605
2 31.461
22
0.060
23
I 22.630
I 32.487
I 42.343
I 52.200
2 2.056
2 11.912
2 21.769
2 31.625
23
0.063
24
I 22.794
I 32.651
I 42.507
I 52.364
2 2.220
2 12.077
2 21.933
2 31.790
24
0.066
25
I 22.959
I 32.815
I 42.672
I 52.528
2 2.385
2 12.241
2 22.098
2 31.954
25
0.068
26
I 23.123
I 32.979
I 42.836
I 52.692
2 2.549
2 12.405
2 22.262
2 32.118
26
0.071
27
I 23.287
I 33.144
I 43.000
I 52.857
2 2.713
2 12.570
2 22.426
2 32.283
27
0.074
28
I 23.451
I 33.308
I 43.164
I 53.021
2 2.877
2 12.734
2 22.590
2 32.447
28
0.077
29
I 23.616
I 33.472
I 43329
I 53.185
? 3.042
2 12.898
2 22.755
2 32.611
29
0.079
30
I 23.780
I 33.637
I 43.493
I 53.349
2 3.206
2 13.062
2 22.919
232.775
30
0.082
31
I 23.944
I 33-80I
I 43.657
I 53.514
2 3370
2 13.227
2 23.083
2 32.940
31
0.085
32
I 24.109
I 33.965
I 43.822
I 53-678
2 3-534
2 13.391
2 23.247
2 33.104
32
0.088
33
I 24.273
I 34.129
I 43.986
I 53-842
2 3.699
2 13.555
2 23.412
2 33.268
33
0.090
34
I 24.437
I 34.294
144.150
I 54007
2 3-863
2 13.720
2 23.576
2 33.432
34
0.093
35
I 24.601
I 34458
I 44.314
I 54-171
2 4.027
2 13.884
2 23.740
2 33-597
35
0.096
36
I 24.766
I 34.622
I 44.479
I 54.335
2 4.192
2 14.048
2 23.905
2 33.761
36
0.099
37
I 24.930
I 34.786
I 44.643
I 54.499
2 4.356
2 14.212
2 24.069
2 33.925
37
O.IOI
f 38
I 25.094
I 34.95 1
I 44.807
I 54.664
2 4520
2 14.377
2 24.233
2 34.090
38
0.104
39
I 25.259
I 35.115
144.971
I 54.828
2 4.684
2 14.541
2 24.397
2 34.254
39
0.107
40
X 25.423
I 35279
I 45.136
I 54.992
2 4-849
2 14.705
2 24.562
2 34.418
40
O.I 10
41
I 25.587
I 35-444
I 45300
I 55.156
2 5013
2 14.869
2 24.726
2 34.582
41
O.II2
42
I 25.751
I 35.608
I 45-464
I 55-321
2 5-177
2 15.034
2 24.890
2 34-747
42
O.I 15
43
I 25.916
I 35-772
I 45-629
I 55485
2 5-342
2 15.198
2 25.054
234.911
43
O.II8
44
I 26.080
I 35.936
I 45.793
I 55.649
2 5.506
2 15.362
2 25.219
2 35.075
44
0.120
45
I 26.244
I 36.101
I 45.957
I 55.814
2 5.670
2 15.527
2 25.383
2 35239
45
0.123
46
I 26.408
I 36.265
I 46.121
I 55.978
2 5834
2 15-691
2 25.547
2 35.404
46
0.126
47
I 26.573
I 36.429
I 46.286
156.142
2 5-999
2 15-855
2 25.712
2 35.568
47
0.129
48
I 26.737
I 36.593
I 46.450
I 56.306
2 6.163
2 16.019
2 25.876
2 35732
48
O.I3I
49
I 26.901
I 36.758
I 46.614
I 56.471
2 6.327
2 16.184
2 26.040
2 35.897
49
0.134
50
I 27.066
I 36.922
I 46.778
I 56.635
2 6.491
2 16.348
2 26.204
2 36.061
50
0.137
51
I 27.230
I 37.086
I 46.943
1 56.799
2 6.656
2 16.512
2 26.369
2 36.225
51
0.140
52
I 27.394
I 37.251
147.107
I 56.964
2 6.820
2 16.676
2 26.533
2 36.389
52
0.142
53
I 27.558
I 37.415
147.271
I 57.128
2 6.984
2 16.841
2 26.697
2 36.554
53
0.145
54
I 27.723
I 37.579
I 47.436
I 57.292
2 7149
2 17.005
2 26.861
236.718
54
0.148
55
I 27.887
I 37-743
I 47.600
I 57.456
2 7-313
2 17.169
2 27.026
2 36.882
55
O.I5I
56
I 28.051
I 37.908
I 47.764
I 57.621
2 7.477
2 17.334
2 27.190
2 37.047
56
0.153
57
I 28.215
I 38.072
I 47.928
I 57.785
2 7.641
2 17.498
2 27.354
237.211
57
0.156
58
I 28.380
I 38.236
I 48.093
I 57.949
2 7.806
2 17.662
227.519
2 37.375
58
0.159
59
I 28.544
I 38.400
I 48.257
I 58.113
2 7.970
2 17.826
2 27.683
2 37.539
59
0.162
Mean
Solar.
8^
9''
10^
11^
12^^
13"
.14"
15"
Se
For
conda.
[Eph 13]
670
TABLE m.— MEAN SOLAR INTO SIDEREAL TIME.
TO BE ADDED TO A MEAN TIME INTERVAL.
Mean
Solar.
16"
17^
18"
19^
20''
21^
22^
23*^
For
Seconds.
m
m s
m s
m 8
m s
m 8
m 8
m 8
m 8
a
s
O
2 37.704
2 47.560
2 57.417
3 7.273
317.129
3 26.986
3 36.842
3 46.699
0
0.000
I
2 37.868
2 47.724
2 57.581
3 7.437
3 17.294
327.150
3 37.007
3 46.863
I
0.003
2
2 38.032
2 47.889
2 57.745
3 7.602
3 17-458
327.315
337.171
3 47.027
2
0.005
3
238.196
2 48.053
257.909
3 7766
3 17.622
3 27.479
3 37.335
347.192
3
0.008
4
2 38.361
2 48.217
2 58.074
3 7930
3 17.787
3 27-643
3 37.500
3 47.356
4
0.0 1 1
5
2 38.525
2 48.381
2 58.238
3 8.094
3 17-951
3 27.807
3 37.664
3 47.520
5
O.OIA
0.0 1 5
6
2 38.689
2 48.546
2 58.402
3 8.259
3 18.115
3 27-972
3 37.828
3 47685
6
7
2 38.854
2 48.710
2 58.566
3 8.423
3 18.279
328.136
3 37992
3 47.849
7
0.019
8
2 39.018
2 48.874
2 58.731
3 8.587
3 18.444
3 28.300
338.157
3 48.013
8
0.022
9
2 39.182
2 49.039
2 58.895
3 8.751
3 18.608
3 28.464
338.321
348.177
9
0.025
lO
2 39346
2 49.203
2 59.059
3 8.916
3 18.772
3 28.629
3 38.485
3 48.342
10
0.027
II
2 39-5"
2 49.367
2 59224
3 9.080
3 18.937
3 28.793
3 38.649
3 48.506
II
0.030
12
2 39.675
2 49.531
2 59.388
3 9-244
3 19.101
3 28.957
3 38.814
3 48.670
12
0.033
13
2 39.839
2 49.696
2 59.552
3 9.409
3 19.265
3 29.122
3 38.978
3 48.834
13
0.036
H
2 40.003
2 49.860
259.716
3 9.573
3 19.429
3 29.286
339.142
3 48.999
14
0.038
15
2 40.168
2 50.024
2 59.881
3 9.737
3 19-594
3 29.450
3 39.307
349.163
15
0.Q41
i6
2 40.332
2 50.188
3 0.045
3 9.901
3 19.758
3 29.614
339.471
3 49.327
16
0.044
17
2 40.496
2 50.353
3 0.209
3 10.066
3 19-922
3 29.779
3 39.635
3 49-492
17
0.047
i8
2 40.661
250.517
3 0.373
3 10.230
3 20.086
3 29.943
3 39-799
3 49656
18
0.049
19
2 40.825
2 50.681
3 0.538
3 XO.394
3 20.251
330.107
3 39964
3 49.820
19
0.052
20
2 40.989
2 50.846
3 .0.702
3 10.559
3 20.415
330.271
340.128
3 49.984
20
0.055
21
241.153
2 51.010
3 0.866
3 10.723
3 20.579
3 30.436
3 40.292
350.149
21
0.057
22
241.318
251.174
3 1.031
3 10.887
3 20.744
330.600
3 40.456
3 50.313
22
0.060
23
2 41.482
251.338
3 1. 195
3 11.051
3 20.908
3 30.764
340.621
3 50.477
23
0.063
24
2 41.646
251.503
3 1.359
3 11.216
3 21.072
3 30.929
3 40.785
3 50.642
24
0.066
25
2 41.810
2 51.667
3 1.523
3 11.380
3 21.236
3 31.093
3 40.949
350.806
25
0.068
26
2 41.975
251.831
3 1.688
311.544
321.401
331.257
341114
3 50.970
26
0.071
27
2 42.139
2 51.995
3 1.852
3 11.708
321.565
331.421
341.278
351.134
27
0.074
28
2 42.303
2 52.160
3 2.016
3 ".873
321.729
331.586
341.442
351.299
28
0.077
29
2 42.468
2 52.324
3 2. 181
3 12.037
321.893
3 31.750
341.606
351.463
29
0.079
30
2 42.632
2 52.488
3 2.345
3 12.201
3 22.058
331.914
341.771
351.627
30
0.082
31
2 42.796
2 52.653
3 2.509
3 12.366
3 22.222
3 32.078
3 41.935
351.791
31
0.085
32
2 42.960
252.817
3 2.673
3 12.530
3 22.386
3 32.243
3 42.099
351.956
32
0.088
33
2 43.125
2 52.981
3 2.838
3 12.694
3 22.551
3 32.407
3 42.264
352.120
33
0.090
34
2 43289
2 53.145
3 3.002
3 12.858
322.715
332.571
3 42428
3 52.284
34
0.093
35
2 43.453
2 53.310
3 3.166
3 13.023
3 22.879
3 32.736
3 42.592
3 52.449
35
0.096
36
243.617
2 53.474
3 3.330
3 13.X87
3 23-043
3 32.900
3 42.756
352.613
36
0.099
37
2 43.782
2 53.638
3 3.495
3 13.351
3 23.208
3 33.064
342.921
352.777
37
O.IOI
38
2 43.946
2 53.803
3 3.659
3 13.515
3 23-372
3 33.228
3 43-085
3 52.941
38
0.104
39
2 44.110
2 53.967
3 3.823
3 13.680
3 23.536
3 33.393
3 43249
353.106
39
0.107
40
2 44.275
254.131
3 3.988
3 13.844
3 23.700
3 33.557
3 43.413
3 53.270
40
0.1 10
41
2 44-439
2 54295
3 4.152
3 14.008
3 23.865
333.721
3 43.578
3 53.434
41
0.1 12
42
244.603
2 54.460
3 4.316
3 H.I73
3 24.029
3 33-886
3 43.742
3 53-598
42
0.115
43
2 44767
2 54.624
3 4.480
3 14.337
324.193
3 34.050
343-906
3 53.763
43
0.1 18
44
2 44.932
2 54.788
3 4.645
3 14.501
3 24358
334.214
344.071
3 53.927
44
0.120
45
2 45-096
2 54.952
3 4.809
3 14-665
3 24-522
3 34.378
3 44.235
3 54.091
45
0.123
46
2 45.260
2 55. "7
3 4.973
3 14.830
3 24.686
3 34.543
3 44-399
3 54.256
46
0.X26
47
2 45425
2 55.281
3 5.137
3 14-994
3 24.850
3 34.707
3 44.563
3 54.420
47
0.129
48
2 45-589
2 55.445
3 5.302
3 15.158
3 25.015
334.871
344.728
3 54584
48
0.131
49
2 45.753
2 55.610
3 5.466
3 15.322
325179
3 35.035
3 44.892
3 54.748
49
0.134
50
245.917
2 55.774
3 5 630
3 15.487
3 25.343
3 35.200
3 45056
3 54913
50
0.137
51
2 46.082
2 55.938
3 5.795
3 15.651
3 25.508
3 35.364
3 45.220
3 55.077
51
0.140
52
2 46.246
2 56.102
3 5.959
3 15.815
3 25.672
3 35.528
3 45.385
3 55.241
52
0.142
53
2 46.410
2 56.267
3 6.123
3 15.980
3 25836
3 35.693
3 45.549
3 55.405
53
0.145
54
2 46.574
2 56.431
3 6.287
3 16.144 3 26.000
3 35.857
345.713
3 55.570
54
0.148
55
2 46.739
2 56.595
3 6.452
3 16.308 , 3 26.165 3 36.021
3 45.878
3 55.734
55
0,151
56
2 46.903
2 56.759
3 6.616
3 16.472 \ 3 26.329
336.185
3 46.042
3 55.898
56
0.153
57
2 47067
2 56.924
3 6.780
3 16.637 1 3 26.493
3 36.350
3 46.206
3 56.063
57
0,156
58
2 47-232
2 57.088
3 6.944
3 16.801 i 3 26.657
336.514
3 46.370
356.227
58
0.159
59
2 47.396
257.252
3 7.109
3 16.965
3 26.822
336.678 346.535
3 56.391
59
0.162
Mean
Solar.
i6>^
17"
18^
19"
20^
21^
22^
23"
Se
For
conds.
[Eph 12]
TABLE IV.
671
FOR FINDING THE LATITUDE BY AN OBSERVED ALTITUDE OF POLARIS, 19x3.
Reduce the observed altitude of Polaris to the true altitude.
Reduce the recorded time of observation to the local sidereal time.
Take out the App. R. A. and App. Decl. of Polaris for the time of observation (Table I).
Subtract the App. R. A. from the local sidereal time of observation and the remainder is the
hour-angle of Polaris.
With this hour-angle as the vertical argument, and the App. Ded. of Polaris as the horizontal
argument, take out the correction from Table IV and add it to or subtract it from the true
altitude, according to its sign.
For other altitudes than 45®, corrections taken from the supplementary table at the bottom
of Table IV (Table IVa) may be applied when necessary for the degree of accuracy required.
Example, — 19 12, October 7, at 10** 40™ 30" P. M. local mean solar time, in longitude 59® west
of Greenwich, suppose the true altitude of Polaris to be 33° 2& &\ required the latitude of the
place.
h m 8
Local astronomical mean time 10 40 30
Reductions from Table III for 10^ 46*" 30* .... -fi 45
Greenwich sidereal time of mean noon, October 7, Table I . 13 3 3
Reduction from Table III, for longitude ( =3** 56°* west, or plus) +0 39
h. in s
Sum (having regard to signs) is equal to local sidereal time . 23 45 57
R. A. of Polaris (Table I) for time of observation . i 28 43
h m s
Remainder is equal to hour-angle of Polaris 22 17 14
Decl. of Polaris (Table I) for time of observation 88 50 25
True altitude +33 20 o
Correction from Table IV — i 2 34
Correction from Table IVa — 3
Latitude of the place -f32 17 23
Observations of Polaris for latitude should be made, when practicable, near the times of
upper or of lower culminations (hour angle o^ or 12^) (Table I, 4th and 5th columns). However,
at sea, if made near elongation (hour angle 6*^ or 18^), the hour angle, and hence the local time,
should be known within one minute.
h.aNv
88° 50'
0"
88° 50' 10"
88° 50^ 20"
88° 50' 30''
88° 50^ 40"
88° 50' 50''
h m
/ //
/ //
/ //
/ >/
/ //
/ //
h m
0 0
—70 0
-69 50
9
—69 40
w
-69 30
V
—69 20
w
—69 10
V
24 0
3
69 59
I
69 49
I
69 39
I
69 29
I
69 19
I
69 9
I
23 57
6
69 58
I
69 48
I
69 38
I
0%
69 28
I
69 18
I
69 8
I
54
9
69 56
2
69 46
2
69 36
2
69 26
2
69 16
2
69 6
2
51
12
69 54
2
3
69 44
2
3
69 34
2
3
69 24
2
3
69 14
2
3
69 4
2
3
48
0 15
-69 51
-69 41
-69 31
—69 21
—69 II
-69 I
23 45
18
69 47
4
69 37
4
69 27
4
69 17
4
69 7
4
68 57
4
42
21
69 42
5
6
6
7
69 32
5
6
6
7
69 22
5
6
6
7
Mm
69 12
5
6
6
7
Mm
69 2
5
6
6
7
68 52
5
6
6
7
39
24
69 36
69 26
69 16
69 6
68 56
68 46
36
27
69 30
69 20
69 10
69 0
68 50
68 40
33
0 30
—69 23
-69 13
-69 3
-68 53
-68 43
-68 33
23 30
33
69 x6
7
n
69 6
7
8
68 56
7
8
68 46
7
8
68 36
7
8
68 26
7
8
27
36
69 8
8
68 58
68 48
68 38
68 28
68 18
24
39
68 59
9
68 49
9
68 39
9
68 29
9
68 19
9
68 9
9
21
42
68 49
10
n
68 39
10
II
68 29
10
II
68 19
10
II
68 9
10
II
67 59
10
II
18
0 45
-68 38
-68 28
-68 18
-68 8
-67 58
-67 48
23 15
48
68 27
II
68 17
II
68 7
II
67 57
II
67 47
II
67 37
II
12
51
68 15
12
68 5
12
67 55
12
67 45
12
67 35
12
67 25
12
9
54
68 2
13
67 52
13
67 42
13
67 32
13
67 22
13
67 12
13
6
0 57
z 0
67 49
—67 35
13
14
67 39
—67 25
13
14
67 29
-67 15
13
14
67 19
-67 5
13
14
67 9
-6655
13
14
66 59
-6645
13
14
3
23 0
3
67 20
15
67 II
14
67 I
14
66 51
14
66 41
14
66 31
14
22 57
6
67 5
15
66 56
15
66 46
X5
66 36
15
66 26
15
^6 16
15
54
9
66 48
17
66 39
17
66 29
17
66 19
17
66 9
17
65 59
17
51
I la
-66 31
17
—66 22
17
—66 12
17
-66 2
17
-65 52
17
-65 42
17
22 48
[Bph za]
672
TABLE IV.
FOR FINDING THE LATITUDE BY AN OBSERVED ALTITUDE OF POLARIS, 19 12.
Decl.
H.A.
I
3
h m
I 12
15
18
21
24
I 27
30
33
36
39
I 42
45
48
51
54
57
o
3
6
9
12
15
18
21
24
27
30
33
36
39
42
45
48
51
54
57
o
3
6
9
3 12
15
18
21
24
3 27
30
33
36
39
3 42
45
48
51
54
57
o
3
6
9
3
3
3
4
88° 50' o
//
//
66 31
66 13
65 55
65 36
65 16
64 56
64 35
64 13
63 51 2-
63 28 ^3
63 4
62 39
14
18
18
19
20
20
21
22
22
62
61 48
61 21
■60 54
60 26
5958
59 29
59 o
•58 30
57 59
24
25
25
26
27
27
28
28
29
29
30
31
57 28 \l
56 56 \\
56 23 33
55 50 _
55 16 34
54 42 "^^
54 7
53 32
35
35
36
37
37
37
38
39
39
■52 56
52 19
51 42
51 5
50 27
•49 48
49 9 ,„
48 30 39
47 49 4J
47 8 41
< 41
■4^ ^7 .^
45 46 41
45 4 42
44 21 43
43 38 43
43
■42 55
42 12
41 27
40 42
39 57
43
45
45
45
46
46
•39 IX
3^ ^5 .,
37 38 47
36 51 ^7
36 4^7
47
'35 17. ,ft
34 29 48
33 40 49
32 51 12
•32 3 ^^
88° 50' 10"
//
—66 22
66 4
65 46
65 27
65 7
-64 47
64 26
64 4
63 42
63 19
-62 55
62 31
62 6
61 40
61 13
18
18
19
20
20
21
22
22
23
24
24
25
26
27
27
-60 46
60 18 28
59 50
59 21
58 52
-58 22
57 51
57 20 „
56 48 II
56 15 ii
-55 42
54 35 34
54 o35.
53 25 35
28
29
29
30
31
31
33
33
-52 49
52 12
5* 35 ^,
50 58 37
37
37
50 20
39
39
-49 41
49 2
48 23 39
47 43 1°
47 2 41
A. 41
—46 21
^5 40 II
44 58 42
44 ^5^1
43 32 43
—42 49
42 6
41 21
43
45
40 36 45
46
46
39 51
-39
38
19
37 33 1^
36 46 47
35 59
—35 12
47
47
48
34 24 .«
33 36 48
32 47 ^l
-31 59 ^^
88° 50' 2(/'
//
-66 12
65 54
6536
65 17
64 57
■64 37
64 16
63 54
63 32
63 9
■62 45
62,21
61 56
61 30
61 4
•60 37
60 9
59 41
59 12
58 43 ^9
« 30
■58 13
57 42
57 II
56 39
56 7
18
18
19
20
20
21
22
22
23
24
24
25
26
26
27
28
28
29
•55 34
55 o
31
31
32
32
33
34
54 26 34
53 51
35
53
■52 40
52 4
51 27
50 50
50 12
16 35
36
36
37
37
38
38
■49 34 ,^
48 55 39
^« ^5 II
47 35 1°
46 54 IJ
^ 4^
■46 13 .J
45 32 4^
44 50
42
44
8 42
43
43
44
45
43 25
42 42
41 58 44
41 14
40 29
39 44 45
38 58 I.
38 " Ifi
37 26 46
36 40 46
35 53 47
34 '* ti
33 30 ^i
32 42 4»
31 53 *9
88 « 50' 30"
//
18
18
19
21
22
22
23
24
24
25
26
26
27
28
28
29
66 2
65 44
65 26
^5 7 --
64 48 ^9
20
64 28
64 7
63 45
63 23
63 o
62 36
62 12
61 47
61 21
60 55
60 28
60 o
59 32
59 3 ^^
5834^9
58 4
57 34 3°
56 31 32
55 59 i,
, 33
^5 *6 ^
5452 34
54 18 34
53 43 35
53 8 35
52 32 ,,
51 56 36
51 19 37
50 42 37
50 4
49 26
48 47 39
48 8 39
47 28 40
46 47 ^'
41
46 6 ^
45 25 41
44 43^^
44 I 1^
43 18 43
4» 52 43
41 8 44
40 23 45
39 38 45
38 53 ^^
38 Tfe.
37 2» Ifi
36 35 1^
35 48 47
35 ^S
34 13 12
33 25 lo
32 37 Trs
31 48 49
38
38
88° 50' 40"
//
■65 52
65 34
^5 16 ^^
64 57 \l
64 38 ^9
-64 18
63 57
63 35
i^ '^ 23
62 50 ^3
■62 27
18
18
20
21
22
22
62 3
24
^^ 38 ^5
12 26
26
27
61
60 46
■60 19
59 52 ^7
59 24 ^^
58 55 ^9
58 26 29
,30
■57 56 ,^
57 26 30
^% '' 32
56 23 32
55 51 il
o 33
■55 18
54 44
54 10
53 35
53 o
■52 24
51 48
^' " 37
50 35 37
49 57 38
34
34
35
35
36
36
36
38
38
39
40
•49 19
48 41
48 2
47 22
46 41 41
41
■46 o ^
45 19 IJ
44 37^^
43 55 f.
43 12 43
•42 29
4" 46 43
2 44
18 44
45
41
40
39 33
•38 48 2i
3» ^l6
37 16 46
36 30 46
35 43
•34 56
34 9
33 21
32 33
•31 44
47
47
47
48
48
49
88° 50' 50
/'
//
65 42
65 25
65 7
64 48 "9
64 29 5?
64 9
6348
63 26
4
63
62 41
-62 18
17
18
20
21
22
22
23
23
i' ^^ \\
61 29 ^^
25
36
27
61 4
60 38
•60 II
59 44 ^Z
59 '6 f^
58 47 II
58 18 29
o 30
•57 48 _
57 »8 30
56 15 X2
'' ^' 33
•55 10
54 37 33
54 334
53 28 35
52 53 35
•52 17
51 41
36
36
36
5' 5 ..
50 28 37
49 50 3^
38
38
39
40
•49 12
48 34
47 55
47 «5 ^
46354^
■45 54 .^
^5 " I2
443042
^3 48 f^
■42 23
41 40
43
405644
40 12 44
39 27 "
■38 42
37 57 45
37 II
3^ ^5 ._
35 38 47
•34 51 ^^
34 4lZ
33 16 48
32 28 45
45
45
45
46
46
-31 40
48
D^xSi
H.A.
h m
22 48
45
42
39
36
22 33
30
27
24
21
22 18
15
13
9
6
32
22
21
21
21
21
3
o
57
54
51
48
45
42
39
36
33
30
27
24
21
18
15
12
9
6
21 3
21 o
20 57
54
51
20 48
45
42
39
36
20 33
30
27
24
21
30 18
15
12
9
6
30 3
20 o
19 57
54
19 51
[Bph xa]
TABLE IV.
673
FOR FINDING THE LATITUDE BY AN OBSERVED ALTITUDE OF POLARIS, 1912.
^\pecl.
DecL^x^
H.A^\^
88 *> 50' 0"
88 0 50' 10"
88° 50' 20"
88° 5(/ 30"
88° 50/ 40"
88° 50' 50"
>^. A.
h m
/ //
/ //
/ //
/ //
/ //
/ //
h m
4 9
"•32 3 ^^
~3» 59 ^„
~3i 53 ^^
"31 48 ^^
""31 44 ^^
-31 40 ,„
19 51
12
31 14 il
31 10 49
3^ 4^2
30 59 ^l
30 55 il
30 51 1^
48
15
30 24 50
30 20 5"
30 15 ii
30 10 49
30 6 49
3° ^tt
45
18
29 34 5^
29 30 50
29 25 50
29 20 5"
29 16 50
39 13 ii
42
21
28445°
28 40 50
28 35 5°
28 30 50
28 26 50
28 23 50
39
51
50
50
50
^ 50
50
^
4 24
-27 53
-27 50
•~^7 45 ^^
-27 40
-27 36
—27 33 .,
19 36
27
27 2 51
26 59 51
26 55 5°
26 50 50
26 46 50
26 42 5'
33
30
26 II 51
26 8 51
26 45J
26 o50
25 56 50
25 52 50
30
33
25 20 51
25 17 5^
25 13 5J
25 9 I]
25 55
25 I 5
27
36
24 20 5*
^52
-23 37 .-
24 25 52
-23 33 „
24 22 5*
52
-23 30
24 18 51
-^3 .6 11
24 14 5*
51
-23 23 _
24 10 5*
-3 19 ']
24
4 39
19 21
42
22 45 ^,
22 41 ^'^
22 38 52
22 34 5;*
22 31 *>'*
22 27 ^'*
18
45
21 52 53
21 49 11
21 46 52
21 42 52
21 39 11
21 36 5^
15
48
20 59 53
20 57 5^
20 54 5^
20 50 52
20 47 52
20 44 11
12
51
20 6 53
20 4 5^
20 I 53
19 58 52
19 55 5^
19 52 52
9
53
53
Q 53
ji 52
52
52
^
4 54
— 19 13 ^,
•~^9 " ,,
-19 8
-19 6
■"'9 3 ,^
"^9 0 ,^
19 6
4 57
18 20 53
18 18 53
18 15 53
18 13 53
18 II 52
I8 8 52
3
5 0
17 26 54
17 24 54
17 22 53
17 20 53
17 18 53
17 15 53
19 0
3
16 33 53
16 31 53
16 29 53
16 27 53
16 25 53
16 22 53
18 57
6
15 40 53
15 38 53
15 36 53
15 34 53
15 32 53
15 29 53
54
^ 54
54
54
53
53
I 53
^%
5 9
-14 46
-14 44 _ .
"'^ ^0 i;a
■~'^ ^' CA
-14 39 „
-14 36
18 51
12
13 52 54
13 50 54
13 48 54
13 47 54
13 46 53
13 43 53
48
15
12 58 54
12 56 54
12 54 54
12 53 54
12 52 54
12 50 53
45
18
12 4 54
12 2 54
12 0 54
II 59 54
II 58 54
II 56 54
42
21
II 0 55
II 8 54
II 6 54
II 554
II 454
II 2 54
39
55
55
54
54
54
„ 54
_ 0 -. ^
5 24
— 10 14
—10 13
— 10 12
— 10 II
—10 10
— 10 8
18 36
27
9 20 54
9 19 54
9 18 54
9 17 54
9 16 54
9 14 54
33
30
8 26 54
8 25 54
8 2454
8 23 54
8 22 54
8 21 53
30
33
7 31 55
7 30 55
7 30 54
7 29 54
7 28 54
7 27 54
27
36
63555
635 55
635 55
6 35 54
63454
6 33 54
24
54
54
54
.54
54
54
A _
5 39
"■ 5 42 ^^
~ 5 41 ^
"■ 5 41 „
■" 5 41 „
— 5 40 _-
- 5 39 ^-
18 21
42
4 48 54
44754
4 46 55
4 46 55
4 45 55
4 44 55
18
45
3 53 55
2 57 5^
3 52 55
25656
3 51 55
3 51 55
3 50 55
3 49 55
15
48
2 56 55
2 56 55
2 56 54
2 55 54
12
51
2 I 56
2 I 55
2 I 55
2 I 55
2 I 55
2 I 54
9
\j
, 55
^ 55
, 55
^ 55
^ 55
, 55
9%. ^
3 54
— I 6
— I 6
— I 6
— I 6
— I 6
— I 6
18 6
5 57
— 0 12 54
— 0 12 54
— 0 12 54
— 0 12 54
— 0 12 54
— 0 12 54
3
€ 0
+ 0 43 55
+ 0 43 55
+ 0 42 54
+ 0 42 54
-f- 0 42 54
+ 0 42 54
18 0
3
I 38 55
I 37 54
I 37 55
I 37 55
I 36 54
I 36 54
17 57
6
2 33 55
2 12 55
2 31 54
2 31 54
2 30 54
2 30 54
54
^ 9
+ 3.8«
, 55
+ 3 27 g.
+ 3 26 f ^
+ 3 26 55
55
+ 3 25 ^^
1 54
+ 3 24 ^^
17 51
12
4 23 55
4 22 55
4 20 54
4 20 54
4 ^9 54
4 18 54
48
15
5 18 55
5 17 55
5 ^5 55
5 15 55
5 14 55
5 13 55
45
18
6 12 54
6 II 54
6 10 55
6 9 54
6 8 54
6 7 54
42
21
7 6 54
7 554
7 454
7 4 55
7 ^^A
7 ^ rl
39
6 24
+ 8 1^5
_L ft ^55
+ 80
, 55
+ 7 59 „
+ 7 58 ''
+ 756 J
+ 7 55 ^^
17 36
27
8 56 55
8 55 55
85455
^ 52 54
8 50 54
84954
33
30
9 50 54
9 49 54
9 48 54
9 46 54
94454
9 43 54
30
33
10 44 54
10 43 54
10 42 54
10 40 54
10 38 54
10 37 54
27
36
II 39 55
II 37 54
II 36 54
II 34 54
II 32 54
II 30 53
24
^ 39
+ 12 33 ^^
+12 31 J:
+ 12 30 ^^
S4
+12 28 ^;
4-12 26 ^^
+ 12 24 f^
17 21
42
13 27 54
13 25 54
13 24 54
13 22 54
13 20 54
13 18 54
18
45
14 21 54
14 19 54
14 17 53
14 15 53
14 13 53
14 II 53
15
48
15 14 53
15 12 53
15 10 53
15 8 53
15 6 53
15 4 53
12
51
16 8 54
16 6 54
16 3 53
16 I 53
15 59 53
15 57 53
9
^ 54
, 53
+ 17 I ^,
+ 16 59 \l
+16 56 11
+ 16 54 tl
. ^53
+ 16 52 _
52
+ 16 49 „
17 6
^ 57
17 54 53
17 52 53
17 49 53
17 46 5^
17 44 5^
17 41 5;
3
7 0
18 47 53
18 45 53
18 42 53
18 38 52
18 36 52
18 33 5^
17 0
3
19 40 53
^9 37 5;
19 34 52
19 30 52
19 28 52
19 25 5^
16 57
7 6
1
+20 33 53
-f-20 30 53
+20 26 52
[Bp
-f-20 22 5-*
h »]
+20 20 52
+20 17 ^'*
16 54
674 TABLE IV.
FOR FINDING THE LATITUDE BY AN OBSERVED ALTITUDE OF POLARIS, 1912.
Decl.
H. A.
7
8
8
8
h m
7 6
9
12
15
18
7 21
24
27
30
33
7 36
39
42
45
48
7 51
54
57
o
3
6
9
12
15
18
21
24
27
30
33
36
39
42
45
48
51
54
57
o
3
9 6
9
12
15
18
9 21
24
27
30
33
9 36
59
42
45
48
9 51
54
9 57
10 o
10 3
88° sc/ o"
8
8
8
9
-f-20
21
22
23
24
+24
25
26
27
28
+29
29
30
31
32
+33
33
34
35
36
+37
37
38
39
40
+40
41
42
43
43
+44
45
45
46
47
+47
48
49
49
50
+51
51
52
52
53
+54
54
55
55
56
+56
57
57
58
58
+59
59
60
60
+6x
//
33
26
18
10
2
53
44
35
25
15
5
54
44
33
22
10
57
45
33
20
6
52
38
24
9
53
38
22
5
48
30
12
54
35
15
55
35
14
53
31
9
46
22
57
32
7
42
16
49
21
53
52
52
52
51
51
51
50
50
50
49
50
49
49
48
47
48
48
47
46
46
46
46
45
44
45
44
43
43
42
42
42
41
40
40
40
39
39
38
38
37
36
35
35
35
35
34
33
32
32
32
53
25
56 31
26 30
56 30
25
53
21
48
15
29
28
28
27
27
88° sc/ 10"
//
+20
21
22
23
23
+24
25
26
27
28
+29
29
30
31
32
+33
33
34
35
36
+37
37
38
39
40
+40
41
42
42
43
+44
45
45
46
47
+47
48
49
49
50
+51
51
52
52
53
+54
54
55
55
56
+56
57
57
58
58
+59
59
60
60
+61
30
23
15
7
58
53
52
52
51
51
51
51
50
50
50
49
50
49
48
48
48
48
28 47
49
40
31
21
II
50
40
29
17
5
53
41
I
47
33
19
4
48
32
16 44
43
43
46
46
46
45
44
44
59
42
24
6
42
42
28 41
8 40
48^"
28 40
7 39
4538
4^ 38
23
I
38
H
50
25
o
34
8
41
13
45
17
48
18
48
17
45
13
40
6
38
37
36
36
35
35
34
34
33
32
32
32
31
30
30
29
28
28
27
26
88° 50' 20"
//
88° 50' 30"
+20
21
22
23
23
+24
25
26
27
28
+28
29
30
31
32
+32
33
34
35
36
+36
37
38
39
39
+40
41
42
42
43
+44
44
45
46
47
+47
48
48
49
50
+50
51
52
52
53
+53
54
54
55
56
+56
57
57
58
58
+59
59
60
60
+60
26
18
10
2
53
44
35
52
52
52
51
51
51
26 51
16 50
6 50
56
45
34
23
II
59
47
35
22
9
55
41
27
12
57
41
25
9
52
34
16
58
39
20
o
40
19
58
37
15
53
30
6
42
17
50
49
49
49
48
48
48
48
47
47
46
46
46
45
45
44
44
44
43
41
42
42
41
41
40
40
39
39
39
38
38
37
36
36
35
35
26 34
33
59
32
5
37
9
40
10
39
8
36
4
31
57
33
33
32
32
31
30
29
29
28
28
27
26
+20
21
22
22
23
+24
25
26
27
28
+28
29
30
31
32
+32
33
34
35
36
+36
37
38
39
39
+40
41
42
42
43
+44
44
45
46
46
+47
48
48
49
50
+50
51
51
52
53
+53
54
54
55
55
+56
57
57
58
58
+59
59
59
60
+60
//
22
14
6
58
49
40
31
22
12
2
51
40
29
18
6
54
42
30
17
4
50
36
22
7
52
36
20
3
52
52
52
51
51
5x
51
50
50
49
49
49
49
48
48
48
48
47
47
46
46
46
45
45
44
44
43
46 43
28 42
42
41
41
41
40
40
39
39
30 39
8 38
10
51
32
13
53
33
12
51
45
22
58
34
9
37
37
36
36
35
35
44 ,^
18 34
51
24
57
29
I
32
2
31
o
28
55
22
48
33
33
33
32
32
31
30
29
29
28
27
27
26
88° 50' 40"
88° 50' 50
/'
//
+20 20
21 12
22 4
22 55
23 46
+24 37
25
26
27
27
28
18
8
58
52
52
51
51
51
51
50
50
50
49
+^^ 47 ^^
29 36 49
30 25 49
14
2
31
32
+32
33
34
35
35
+36
37
38
39
39
+40
41
41
42
43
+44
49
48
48
50
37
24
II
58
44
30
16
I
45
29
42
3
47
47
47
47
46
46
46
45
44
44
44
44 45 f,
45 26 41
46 7
4647
+47 27
48 6
48 45
49 23
50 I
+5038
51 15
51 5x
52 26
53 I
+53 36
54 10
54 43
41
40
40
39
39
38
38
37
37
36
35
35
35
34
33
55 16 33
55 49 33
+56 21
56 52
57 23
57
58
+58
59
59 46
60 13
+60 39
53
22
51
19
31
31
30
29
29
28
27
27
26
//
-f-20
21
22
22
23
+24
25
26
27
27
+28
29
30
31
31
+32
33
34
35
35
+36
37
38
38
39
+40
41
41
42
43
+43
44
45
46
46
+47
47
48
49
49
+50
51
51
52
52
+53
54
54
55
55
+56
56
57
57
58
+58
59
59
60
+60
17
9
I
52
43
34
24
4
53
42
31
20
9
57
45
32
19
6
53
39
25
10
55
39
23
6
49
32
14
56
38
19
o
40
20
59
38
16
53
30
6
42
18
53
27
I
34
7
40
12
43
14
44
X3
42
10
37
4
30
Ded.
H. A.
52
52
51
51
51
50
50
50
49
49
49
49
49
48
48
47
47
47
47
46
46
45
45
44
44
43
43
43
42
42
42
41
41
40
40
39
39
38
37
37
36
36
36
35
34
34
33
33
33
32
31
31
30
29
29
28
27
27
26
h
16
m
54
51
48
45
42
16
16
16
15
15
15
15
39
36
33
30
27
16 24
21
18
15
12
9
6
3
o
57
54
51
48
45
42
39
36
33
30
27
24
21
18
X5
12
9
6
3
15 o
14 57
14 54
51
48
45
42
14 39
36
33
30
27
14 24
21
18
15
12
14 9
6
3
14 o
13 57
15
[Sph X9]
TABLE IV.
675
FOR FINDING THE LATITUDE BY AN OBSERVED ALTITUDE OF POLARIS, 191a.
^\I)ecl.
DocL^/^
H. aSv
88^ 50'
0"
88° 50' 10"
88" 50' 20"
88 0 50' 30"
88° 50'
40"
88° 50'
50"
^/HA.
h m
/ //
/ //
/ //
/ //
/ //
/ //
h m
10 3
6
+61 15
61 41
26
61 32 "t
+60 57 ,«
61 23 ^6
+^ 48 ,-
6> 14 ^°
+60 39
61 5
26
+60 30
6056
26
13 57
54
9
62 7
26
6> 57 \\
61 48 25
61 39 i\
61 30
25
61 21
25
51
12
62 32
25
62 22 ^5
62 13 ^5
62 4*5
61 55
25
61 46
25
48
15
62 56
24
62 46 *4
62 37 \\
62 28 ^4
62 19
24
62 10
24
45
10 18
-f-63 20
24
24
+63 10 ,^
23
+63 0 •:
+62 51 ^^
+62 42
23
+62 33
23
13 42
21
63 43
23
63 33 ^^
63 23 ,3
63 14 \\
63 5
23
62 56
23
39
24
64 5
22
63 55 "
63 45 "
63 36 "
63 27
22
63 18
22
36
27
64 26
21
6417"
64 7"
63 58 "
6348
21
63 39
21
33
30
6447
21
20
.!' '' -
6428 2»
. - » 20
64 19 ''
. , 20
64 9
21
20
64 0
21
20
30
10 33
+65 7
+64 58 ,„
+64 48 ,„
+64 39 ,„
4-64 29
+64 20
13 27
36
65 26
19
65 17 9
^5 8'o
6459'°
64 49
20
64 40
20
24
39
65 45
19
18
18
18
65 36- 9
65 54 ;|
65 27 1
65 45 ;!
65 18 9
65 36 1
65 8
19
18
18
17
64 59
19
18
18
17
21
42
66 3
65 26
65 17
18
45
66 21
65 44
65 35
15
10 48
+6639
16
+66 30
6646 '°
67 3 J^
+66 20 '
6636 ;6
+66 II ^
66 27 '°
+66 I
m
16
+65 52
9
16
13 12
51
6655
66 17
66 8
9
54
67 11
16
6652 J6
6642 '5
6632
15
66 23
15
6
10 57
67 26
15
67 17 5
67 7 15
6657 '5
66 47
15
66 38
15
3
II 0
67 41
15
67 31 Jl
67 21 '4
67 II J4
67 I
14
66 52
14
13 0
II 3
+67 55
14
14
+67 45 ,,
14
+67 35 ,!
+67 25 ,:
+67 15
14
+67 5
13
12 57
6
68 8
13
67 58 3
67 48 3
67 38 3
67 28
13
67 18
13
54
9
68 20
12
68 10 "
68 0 ^2
67 50 "
67 40
12
67 30
12
51
12
68 31
II
68 21 "
68 II "
68 I "
67 51
II
67 41
II
48
15
68 42
II
6832 "
68 22 "
68 12 ^'
68 2
II
67 52
II
45
10
. , 10
10
JO
10
10
II 18
+6852
+6842 „
+6832 ^
+68 22
+68 12
+68 2
12 42
21
69 I
9
6851 9
68 41 9
6831 9
68 21
9
68 II
9
39
24
69 10
9
69 0 9
69 8 8
6850 \
68 58 8
6840 9
68 48 8
68 30
9
8
68 20
9
0
36
27
69 18
8
68 38
68 28
8
33
30
69 25
7
6915 7
+6922 \
6928 6
69 5 7
+69 12 ;
69 18 6
48 55 I
+69 2 ;
69 8 6
6845
7
7
6
6835
7
7
6
30
II 33
+69 32
7
6
+6852
+68 42
12 27
36
6938
6858
68 48
24
39
69 43
5
69 33 f
69 23 \
69 13 5
69 3
5
6853
5
21
42
69 47
4
6937 1
69 27 \
69 17 4
69 7
4
6857
4
18
45
69 51
4
6941 ^
+6944 ,
6931 ^
+6934 \
69 21 4
+6924 \
69 II
4
3
69 I
4
3
15
II 48
+69 54
3
+69 14
+69 4
12 12
51
6956
2
6946 \
6936 \
69 26 2
69 16
2
69 6
2
9
54
6958
2
6948 »
6938 \
6928 \
69 18
2
69 8
2
6
II 57
69 59
I
69 49 ;
69 39 ;
69 29 J
69 19
I
69 9
I
3
12 0
-f-70 0
I
+6950 '
+6940 ^
+69 30 '
+69 20
I
+69 10
I
12 0
TABLE IVa.
Table IV has been computed for an altitude of 45 °. For other altitudes, corrections taken
from the following table may be applied when the desired degree of accuracy requires it.
H.A.
Altitude.
10°
20°
30«
40°
50^
60°
70°
Altitude.
H.A.
h
h
//
//
//
//
//
//
//
h
h
0
12
0
0
0
0
0
0
0
12
24
I
II
— 2
— 2
— I
0
+ 1
+ 2
+ 5
13
23
2
10
9
7
5
—2
2
8
18
14
22
3
4
9
8
17
26
13
20
9
13
3
5
4
6
15
23
37
55
15
16
21
20
5
6
7
6
33
-35
25
-27
17
-18
7
-7
7
+8
29
•+31
68
+73
17
18
19
18
[Eph xa]
676
TABLE V.
AZIMUTH OF POLARIS AT ALL HOUR ANGLES. 1912.
[For hour angles o** to 1 21* the star is west of north, and for hour angles 1 2^ to 24'' it is east of north.]
IO<>
15°
20®
25°
30®
35°
40°
45°
50°
1
h m
e /
0 /
e /
0
/
0 /
0 /
e /
e /
0 /
h m
0 0
0 0.0
0 0.0
0 0.0
0
0.0
0 0.0
0 0.0
0 0.0
0 0.0
0 0.0
24 0
12
0 3-7
0 3.8
0 4.0
0
4.2
0 4.3
0 4.6
0 4.9
0 5-3
0 5-9
48
24
0 7.4
0 7.6
0 7.9
0
8.2
0 8.5
0 9.1
0 9.7
0 10.5
0 II. 7
36
36
0 II. I
0 1 1.3
0 II. 7
0
12.1
0 12.7
0 135
0 14.5
0 15.7
0 Z7.5
24
48
0 14.8
0 15.0
0 15.5
0
16.0
0 16.8
0 17.9
0 19.2
0 20.9
0 23.2
Z2
I 0
0 18.4
0 18.7
0 19.3
0
20.0
0 21.0
0 22.3
0 23.9
0 26.0
0 28.8
23 0
12
0 22.0
0 22.4
0 23.1
0
24.0
0 25.2
0 26.7
0 28.6
0 31. 1
0 34.3
48
24
0 25.5
0 26.0
0 26.8
0
27.9
0 29.2
0 31.0
0 331
0 36.0
0 39-7
36
36
0 28.9
0 29.5
0 30.3
0
31-6
0 33-1
0 35- 1
0 37.6
0 40.8
0 45. z
24
48
0 32.2
0 32.9
0 33.8
0
35-2
0 36.9
0 39.1
0 41.9
0 45.5
0 50.3
Z2
2 0
0 35-5
0 36.3
0 37.3
0
38.8
0 40.7
0 43-1
0 46.1
0 50. z
0 55.4
22 0
12
0 38.7
0 39.5
0 40.6
0
42.3
0 44-3
0 47.0
0 50.2
0 54.6
z 0.3
48
24
0 41.8
0 42.6
0 43.8
0
45.7
0 47-8
0 50.7
0 54.2
0 58.9
z 50
36
36
0 44.6
0 45.6
0 46.9
0
48.8
0 51.2
0 54-2
0 58.0
z 30
z 9.6
24
48
0 47.4
0 48.4
0 49.9
0
519
0 54-3
0 57-5
I 1.6
z 6.9
I 139
Z2
3 0
0 50.1
0 51.2
0 52.8
0
54.8
0 57-3
I 0.7
I 5Z
z Z0.7
z z8.z
3Z 0
12
0 52.7
0 53.8
0 55.4
0
57.5
I 0.3
I 3.8
I 8.4
z 143
z 22.1
48
24
0 55.2
0 56.2
0 58.0
0.1
I 31
I 6.7
I II. 5
z Z7.6
z 25.7
36
36
0 57-4
0 58.5
I 0.3
2.5
I 5.6
I 9.4
I 14-3
z 20.6
z 29.0
24
48
0 59.5
I 0.6
I 2.4
4.8
I 7-9
I 11.9
I 17.0
z 23.5
z 32. z
Z2
4 0
I 14
I 2.6
I 4.4
6.9
I 1 0.0
I 14.2
I 19.5
z 26.2
z 35.0
20 0
12
I 3.2
I 4.4
I 6.3
8.8
I 12.0
I 16.2
I 21.8
z 28.7
z 37.8
48
24
I 4.8
I 6.1
I 8.0
10.5
I 138
I 18. 1
I 23.8
z 30.9
z 40.2
36
36
I 6.1
I 7-5
I 9.4
12.0
I 15.4
I 19.8
I 25.5
z 32.7
z 42.2
24
48
I 7-3
I 8.7
I 10.7
13-3
I 16.8
I 21.3
I 27.0
z 34.3
I 43-9
12
5 0
I 8.4
I 9.7
I II.8
14.4
I 18.0
I 22.5
I 28.3
I 35.7
z 45-4
Z9 0
12
I 9.2
I 10.6
I 12.6
15.3
I 19.0
I 23.5
I 29.3
z 36.8
z 46.6
48
24
I 9.9
I 11.3
I 133
16.0
I 19.7
I 24.2
I 30- z
z 37.6
z 47.5
36
36
I 10.4
I 11.8
I 13-8
16.5
I 20.2
I 24.7
I 30.6
z 38.2
z 48. z
24
48
I 10.7
I 12. 1
I 14. 1
16.8
I 20.5
I 25.0
z 30.9
z 38.5
z 48.4
12
6 0
I 10.7
I 12. 1
I 14.1
16.9
I 20.5
I 25.0
z 31-0
z 38.6
z 48.4
z8 0
12
I 10.7
I 12.0
I 14. 1
16.8
I 20.4
I 24.9
z 30.8
I 38.4
z 48.0
48
24
I 10.4
I II.7
I 13.8
16.5
I 20.0
I 24.5
z 30.4
z 37.8
z 47.4
36
36
I 9.9
I 11.2
I 132
159
I 19.4
I 23.9
z 29.7
I 370
z 46.6
24
48
I 9.2
I 10.5
I 12.4
15-0
I 18.5
I 23.0
z 28.7
z 35.9
z 45-5
Z2
7 0
I 8.3
I 9.6
I 11.5
14. 1
I 17.5
I 21.9
z 27.5
z 34.6
z 44Z
Z7 0
12
I 7.2
I 8.5
I 10.4
12.9
I 16.3
I 20.6
z 26. z
I 33.0
z 42.4
48
24
I 6.0
I 7.2
I 9.1
11.6
I 14.9
I 19. 1
z 24.5
z 31.2
z 40.3
36
36
I 4-5
I 5.8
I 7.6
10. 1
I 132
I 17.4
I 22.6
z 29.2
z 38.0
24
48
I 2.9
I 4,1
I 5-9
8.3
I 1 1.3
I 15.4
I 20.5
z 27.0
z 35.5
Z2
8 0
I I.I
I 2.3
I 4.0
6.3
I 9.3
I 13.2
I I8.I
I 24.5
I 32.7
z6 0
12
0 59.2
I 0.3
I 1.9
41
I 7.0
z 10.8
z Z5.6
z 21.7
z 29.7
48
24
0 57-2
0 58.1
0 59-7
1.8
I 4.6
I 8.3
I 12.9
I Z8.7
z 26.5
36
36
0 550
0 55.9
0 57-4
0
59-4
I 2.1
I 5.6
I zo.o
z 15.5
z 22.9
24
48
0 52.5
0 53-4
0 54.9
0
56.8
0 59-3
I 2.6
z 6.9
Z Z2.2
I Z9,2
12
9 0
0 49.9
0 50.8
0 52.2
0
541
0 56.4
0 59-5
z 3.6
z 8.7
I X5'3
15 0
12
0 47.1
0 48.0
0 49-3
0
51. 1
0 53-4
0 56.3
Z O.I
z 4.9
z Z1.2
48
24
0 44.3
0 45.1
0 46.3
0
48.0
0 50.2
0 53.0
0 56.5
z z.o
I 7.0
36
36
0 415
0 42.2
0 43-3
0
44.8
0 46.9
0 49-5
0 52.8
0 570
I 2.6
24
48
0 38.5
0 39.1
0 40.1
0
41-5
0 43.5
0 45.8
0 48.8
0 52.8
0 58.0
12
xo 0
0 35-3
0 35.9
0 36.8
0
38.2
0 39.9
0 42.0
0 44.8
0 48.5
0 53-2
Z4 0
12
0 32.0
0 32.5
0 33-4
0
34-6
0 36.2
0 38.1
0 40.6
0 44.0
0 48.2
48
24
0 28.7
0 29.1
0 29.9
0
31.0
0 32.5
0 34- 1
0 36.4
0 39.4
0 43.2
36
36
0 25.3
0 25.6
0 26.3
0
27.3
0 28.7
0 30.1
0 32.1
0 34.7
0 38.0
24
48
0 21.8
0 22.1
0 22.7
0
235
0 24.7
0 25.9
0 27.7
0 29.9
0 32.8
Z2
zz 0
0 18.2
0 18.5
0 19.0
0
19.7
0 20.6
0 21.7
0 23.2
0 25.0
0 27.4
13 0
12
0 14.6
0 14.9
0 15-3
0
15.8
0 16.5
0 17.4
0 18.6
0 20.1
0 22.0
48
24
0 II.O
0 11.3
0 II. 6
0
11.9
0 12.4
0 13.1
0 14.0
0 Z5.Z
0 16.6
36
36
0 7.4
0 7.6
0 7.8
0
7-9
0 8.3
0 8.8
0 9.4
0 ZO.I
0 II. I
24
48
0 3.7
0 3.8
0 3.9
0
4.0
0 4.2
0 4.4
0 4.7
0 5.1
0 5.6
12
Z2 0
0 0.0
0 0.0
0 0.0
0
0.0
0 0.0
0 0.0
0 0.0
0 0.0
0 0.0
Z2 0
[Eph xa]
TABLE V.
677
AZIMUTH OF POLARIS AT ALL HOUR ANGLES, 1912.
[For hour angles o** to i s'' the star is west of north, and for hour angles 1 3^ to 24'' it is east of north, ]
52^
54°
56*>
580
60O
6z<»
620
63°
64°
h m
0 /
0 /
0 /
0
f
0 f
0 /
0 f
0 /
0 r
h m
0 0
0 0.0
0 0.0
0 0.0
0
0.0
0 0.0
0 0.0
0 0.0
0 0.0
0 0.0
24 0
12
0 6.1
0 6.4
0 6.8
0
7.Z
0 7.6
0 7.8
0 8.1
0 8.3
0 8.7
48
24
0 12.1
0 Z2.8
0 13.5
0
14.2
0 Z5.2
0 Z5.6
0 16.2
0 Z6.7
0 Z7.3
36
36
0 18. 1
0 Z9.I
0 20. z
0
21.2
0 22.7
0 23.3
0 24.2
0 25.0
0 25.9
24
48
0 24.1
0 25.4
0 26.7
0
28.3
0 30. z
0 31.0
0 32.2
0 33.3
0 34-5
Z2
I 0
0 30.0
0 31.6
0 33.2
0
35.2
0 37.4
0 38.5
0 40.0
0 41.4
0 42.9
23 0
12
0 35.8
0 37.7
0 39.6
0
42.0
0 44.5
0 45.9
0 47.6
0 49.3
0 51.2
48
24
0 415
0 43.7
0 45-9
0
48.6
0 51.6
0 53.3
0 55.1
0 57.1
0 59.4
36
36
0 47.0
0 49-5
0 52.1
0
55.1
0 58.6
z 0.5
I 2.5
z 4.8
I 7.3
24
48
0 52.5
0 55-2
0 58. z
1.4
I 5.4
I 7.5
z 9.8
Z Z2.3
z 15.0
12
2 0
0 57.8
z 0.7
z 4.0
7.7
z Z1.9
I Z4.3
z Z6.9
z Z9.6
Z 22.6
22 0
12
z 3.0
z 6.1
I 9.7
13.7
Z Z8.2
Z 2Z.O
z 23.7
z 26.6
z 29.9
48
24
z 8.0
z Z1.3
z Z5.Z
19.5
z 24.3
z 27.3
z 30.2
z 33.4
I 37.0
36
36
Z Z2.7
z Z6.3
z 20.3
25.0
z 30-2
I 33.3
z 36.5
z 39.8
z 43.7
24
48
X Z7.2
Z 2Z.O
z 25.2
30.2
z 35.8
z 38.9
z 42.4
z 46.0
z 50.0
Z2
3 0
Z 2X.6
z 25.5
z 30.0
35-2
z 41. X
z 44.4
z 48.0
z 51.8
I 55.9
2Z 0
12
z 25.7
z 29.8
z 34.5
39.9
z 46. z
z 49.6
z 53.3
I 57.3
2 1.6
48
24
z 29.5
1 33.8
z 38.7
44.3
z 50.7
z 54.4
1 58.3
2 2.4
2 6.9
36
36
z 33.0
I 37.4
z 42.6
48.4
I 55.1
z 58.9
2 3.0
2 7.2
2 ZZ.9
24
48
z 36.2
z 40.9
z 46.2
52.3
I 59.1
2 3.0
2 7.2
2 ZZ.6
2 Z6.5
Z2
4 0
z 39-3
z 44.Z
z 49.6
55.8
2 2.8
2 6.9
2 ZZ.Z
2 Z5.6
2 20.7
20 0
12
z 42.1
z 47.0
z 52.6
58.9
2 6.2
2 ZO.3
2 Z4.7
2 Z9.3
2 24.4
48
24
z 44.5
I 49.5
I 55-3
2
1.8
2 9.2
2 Z3.3
2 Z7.8
2 22.5
2 27.8
36
36
z 46.6
I 51.7
I 57.6
2
4.2
2 II.7
2 Z5.9
2 20.5
2 25.3
2 30.7
24
48
z 48.5
1 53.7
I 59.6
2
6.4
2 13.9
2 Z8.2
2 22.8
2 27.7
2 33.2
Z2
5 0
z 50. z
I 55.4
2 Z.3
2
8.2
2 15.8
2 20.2
2 24.8
2 29.8
2 35-3
Z9 0
12
z 51.3
I 56.7
2 2.6
2
9.6
2 Z7.3
2 21.8
2 26.4
2 3Z.4
2 36.9
48
24
z 52.2
I 57.7
2 3.6
2
Z0.6
2 Z8.4
2 22.9
2 27.5
2 32.6
2 38.1
36
36
I 52.9
z 58.3
2 4.2
2
ZI.I
2 Z9.Z
2 23.5
2 28.2
2 33.3
2 38.8
24
48
z 53.2
z 58.6
2 4.5
2
ZZ.4
2 Z9.4
2 23.8
2 28.5
2 33.6
2 39-1
Z2
6 0
z 53.2
z 58.6
2 4.5
2
ZZ.4
2 Z9.3
2 23.7
2 28.4
2 33.5
2 38.9
z8 0
12
I 52.9
z 58.3
2 4.1
2
zz.o
2 Z8.9
2 23.2
2 27.9
2 32.9
2 38.3
48
24
z 52.2
z 57.6
2 3-4
2
Z0.2
2 z8.o
2 22.3
2 27.0
2 32.0
2 37.3
36
36
z 51.3
z 56.6
2 2.3
2
9.1
2 z6.8
2 21. X
2 25.7
2 30.7
2 36.0
24
48
z 50.0
z 55.3
2 I.O
2
7.7
2 Z5.3
2 Z9.5
2 24.0
2 28.9
2 34.2
Z2
7 0
z 48.5
z 53.7
z 59.4
2
5.9
2 Z3.3
2 Z7.5
2 2Z.9
2 26.7
2 3Z.9
17 0
12
z 46.7
I 51.8
I 57.4
2
3.7
2 ZI.O
2 Z5.Z
2 Z9.4
2 24.2
2 29.2
48
24
I 44.6
z 49.6
z 55.0
2
Z.3
2 8.4
2 12.4
2 x6.6
2 2Z.3
2 26.2
36
36
I 42.3
z 47.2
z 52.4
58.5
2 5.5
2 9-4
2 Z3.4
2 18.0
2 22.8
24
48
z 39.7
z 44.4
z 49.5
55.5
2 2.2
2 6.0
2 9.9
2 Z4.3
2 Z9.O
Z2
8 0
1 36.8
I 41.3
z 46.2
52.0
I 58.5
2 2.2
2 6.Z
2 ZO.3
2 14.8
z6 0
12
z 33.6
z 37.9
z 42.7
48.3
I 54.6
z 58. z
2 1.9
2 5.9
2 ZO.3
48
24
z 30.2
z 34-3
I 39.0
44-3
z 504
z 53-8
I 57.4
2 1.3
2 5-5
36
36
z 26.6
z 30.5
I 35.0
40. z
I 45.9
I 49.1
z 52.6
z 56.3
2 0.3
24
48
Z 22.8
z 26.5
z 30.8
35.6
z 41.2
I 44.2
z 47.6
z 5Z.Z
I 54.9
Z2
9 0
z Z8.7
Z 22.2
z 26.3
30.8
z 36. z
z 39.0
z 42.2
I 45.5
z 49.2
15 0
12
z Z4.3
z 17.7
Z 21 5
25.9
z 30.8
z 33.6
z 36.5
I 39.7
I 43.2
48
24
z 9.8
z Z3.0
z z6.6
20.7
z 25.4
z 28.0
z 30.7
I 33.7
z 36.9
36
36
I 5-2
z 8.1
z ZZ.5
Z5-3
z Z9.7
z 22.0
z 24.6
z 27.5
I 30.4
24
48
z 0.3
z 3.Z
z 6.2
9-7
I 13.7
I 15.9
z Z8.3
z 20.9
z 23.6
12
xo 0
0 55.3
0 57.9
z 0.7
3.9
I 7.5
z 9.6
z ZZ.8
z Z4.2
z Z6.7
Z4 0
12
0 50.2
0 52.6
0 55 0
0
58.0
Z Z.2
z 3.1
z 5.2
I 7.3
z 9.6
48
24
0 44.9
047.1
0 49.3
0
52.0
0 54.8
0 56.5
0 58.4
z 0.2
z 2.3
36
36
0 39.6
0 41-5
0 43-4
0
45.7
0 48.3
0 49.8
0 5Z.4
0 53.0
0 54.8
24
48
0 34.1
0 35.7
0 37.4
0
39-4
0 4X.6
0 42.9
0 44.3
0 45.7
0 47.2
Z2
zz 0
0 28.6
0 29.9
0 31.3
0
33.0
0 34.8
0 35.9
0 37.1
0 38.3
0 39.6
Z3 0
Z2
0 22.9
0 24.0
0 25.2
0
26.5
0 28.0
0 28.9
0 29.8
0 30.8
0 3Z.8
48
24
0 Z7.2
0 z8.z
0 Z9.0
0
Z9.9
0 2Z.O
0 21.7
0 22.4
0 23. z
0 23.9
36
36
0 ZZ.5
0 Z2.Z
0 Z2.7
0
13.3
0 Z4.O
0 14.5
0 Z5.0
0 Z5.4
0 z6.o
24
48
0 5.8
0 6.Z
0 6.4
0
6.7
0 7.0
0 7-3
0 7-5
0 7.7
0 8.0
Z2
Z2 0
0 0.0
0 0.0
0 0.0
0
0.0
0 0.0
0 0.0
0 0.0
0 0.0
0 0.0
za 0
[Bpb 12]
678
TABLE VI.
AZIMUTH OF POLARIS AT ELONGATION, 191 2.
v*Decl.
Lat.
5
5
5
6
6
6
7
7
7
8
o
20
40
o
20
40
o
20
40
o
8 20
8 40
9 o
9 20
9 40
10 o
10 20
10 40
11 o
II 20
II
40
12
0
12
20
13
40
13
0
13
20
13 40
14
0
14
20
14 40
15
0
15
20
15 40
16
0
16
20
16
40
17
0
17
20
17
40
j8
0
18
20
18
40
19
0
19
20
19 40
20
0
20
20
20
40
21
0
21
20
21
40
22
0
22
20
22
40
23
0
23
20
23
40
24
0
24
20
24 40
^5
0
f r^n
88 <» 50' o
n
I
2
2
2
2
2
2
2
2
2
3
3
3
3
3
3
3
4
4
4
4
4
4
4
6
6
6
6
16.0
18.3
20.6
23.1
25.8
28.6
31.5
34.6
37-9
41.3
44.8
48.5
52.4
56.4
0.5
4.8
9.2
138
18.6
235
28.6
33.8
39-2
44.8
50.5
56.4
2.4
8.6
150
21.5
28.2
350
42.1
49-3
56.7
4-2
1 1.9
19.8
27.9
36.2
44.6
53.2
2.0
II.O
20.2
29.6
39.1
48.9
58.8
9.0
193
29.9
40.6
51.6
2.8
14.1
257
37-5
49-5
1.8
88<> 50' 10"
//
/ 17 14.2 \
10
6.0
10
8.2
10
10.6
10
I3.I
10
157
10
18.5
10
21.5
10
24.6
10
27.8
10
31.2
10
34.7
10
38.4
10
42.2
10
46.2
10
504
10
54.7
10
59- 1
II
3-7
II
8.4
II
133
II
18.4
II
23.6
II
29.0
II
34.5
II
40.2
II
46.1
II
52.1
II
58.3
12
4.6
12
II. I
12
17.8
12
24.7
12
31-7
12
38.9
12
46.2
12
53.8
13
1.5
13
9-4
13
174
13
257
13
34.1
13 42.7
13
51.5
14
0.4
14
9.6
14
18.9 .
14
28.5
14
38.2
14
48.1
14
58.2
15
8.6
15
19.1
15
29.8
15
40.8
15
51.9
16
3-2
16
14.8
16
26.6
16
38.6
n
88° 50' 20
tt
//
16 50.8 j
17 3.2
9
9
o
o
o
o
o
o
o
o
56.0
58.2
05
30
5-7
8.5
11.4
14.5
17.7
21. 1
o 24.6
o 28.3
o 32.1
o 36.1
o 40.2
o
o
o
o
2
2
2
2
2
2
2
2
3
3
3
3
3
3
3
4
4
4
4
4
4
5
5
5
5
5
6
6
6
6
6
44.5
48.9
53.5
58.2
3.1
8.2
13.4
18.7
24.3
30.0
35-8
41.8
48.0
54.3
0.8
7-5
14-3
21.3
28.5
35.8
43.3
51.0
58.9
6.9
151
23.5
32.1
40.9
49-9
59.0
8.3
17.8
275
37-4
47.5
57.8
8.3
19.0
29.9
41.0
52.4
3-9
156
27.6
39.8
52.2
88° 50' 30" 88° sc/ 4o";88° 50' 50"
//
9
9
9
9
9
9
o
o
o
o
45-9
48.1
504
52.9
55.6
58.4
1-3
4.4
7.6
II.O
o 14-5
o 18.2
o 22.0
o 26.0
o 30.1
o
o
o
o
o
2
2
2
2
2
2
2
2
3
3
3
3
3
3
3
4
4
4
4
4
4
5
5
34.3
38.7
43.3
48.0
52.9
57-9
3.1
8.5
14.0
19.7
25.5
31.5
37.7
44.0
50.5
571
3.9
10.9
18.0
254
32.9
40.5
48.4
56.4
4.6
130
21.6
30.3
39-2
48.3
57-6
71
16.8
26.7
36.8
47.0
57-5
8.2
19. 1
30.2
5 41.5
5 53.0
6 4-7
6 16.6
6 28.7
9
9
9
9
9
9
9
9
9
o
o
o
o
o
o
o
o
o
o
o
o
o
o
I
I
I
I
I
I
I
I
I
2
2
2
2
2
2
2
2
3
3
3
3
3
3
3
4
4
4
4
4
4
5
5
5
5
5
6
6
35.9
38.1
40.4
42.9
45.6
48.3
51.2
54.3
57-5
0.9
4-4
8.1
11.9
15.8
19.9
24.2
28.6
33- 1
37.8
42.7
47-7
52.9
58.3
3.8
9-4
152
21.2
27-4
33.7
40.1
46.7
53.5
0.5
7.6
14.9
22.4
37.9
45.9
54.1
2.5
II.O
19.7
28.6
37-7
47.0
56.5
6.1
16.0
26.0
36.3
46.7
57.4
8.2
19.3
30.6
42.0
53-7
56
17.7
30.1
Variation for—
i' of Lat.! i''of4.
//
9
9
9
9
9
9
9
9
9
9
9
9
o
o
o
o
o
o
o
o
o
o
o
o
o
I
I
I
I
I
I
I
I
I
2
2
2
2
2
2
2
3
3
3
3
3
3
3
4
4
•
4
4
4
4
5
5
5
5
5
6
6
259
28.0
30.4
32.9
35.5
38.3
41.2
44.2
47-4
50.8
54.3
57-9
1-7
5.7
9.8
14.0
18.4
23.0
27.7
32.5
37-5
42.7
48.0
53-5
59-2
5.0
10.9
17.0
23.3
29.8
36.4
43.2
50.1
57.2
4-5
12.0
19.6
274
35.4
43.6
51.9
0.5
9.2
18.0
27.1
36.4
45.8
55-4
5.3
15.3
255
36.0
46.6
57.4
8.4
197
3«i
42.8
54.7
6.8
19.1
tt
-f-o.ii
0.12
0.12
0.13
0.14
4-0.14
0.15
0.15
0.16
0.17
+0.18
0.19
0.20
0.20
0.21
4-0.22
0.23
0.23
0.24
0.25
4-0.26
0.26
0.27
0.28
0.29
4-0.30
0.31
0.31
0.32
0.33
4-0.34
0.34
0.35
0.36
0.37
4-0.38
0.39
0.40
0.40
0.41
4-0.42
0.43
0.44
0.45
0.46
4-0.47
0.48
0.49
0.50
0.51
4-0.52
0.53
0.54
0.55
0.56
4-0.57
0.58
0.59
0.60
0.61
4-0.62
— I.OO
1. 00
I.OO
I.OO
1. 01
— 1. 01
1. 01
1. 01
1. 01
1. 01
— 1. 01
1. 01
1. 01
1. 01
I.Ol
—1.02
1.02
1.02
1.02
1.02
— 1.02
1.02
1.02
1.0.^
1.03
—1.03
1.03
1.03
1.03
1.03
— 1.04
1.04
1.04
1.04
1.04
—1.04
1.05
1.05
1.05
1.05
— 1.05
1.06
1.06
1.06
1.06
— 1.06
1.07
1.07
1.07
1.07
—1.08
1.08
1.08
1.08
1.09
— 1.09
1.09
1.09
I. ID
I. ID
— 1. 10
TABLE VI.
679
AZIMUTH OF POLARIS AT ELONGATION, 1912.
^N^Ded.
Variation fot—
88 «» 50' 0"
88 <» sc/ 10"
88 <» scy 20"
88 «» sc/ 30"
88 <» sc/ 40"
88«»5o'5o"
lAt/N.
z' of Lat.
1" of «.
0 /
e t
//
0 / //
e / t,
0 r rr
0 / //
0 / //
rt
tr
25 0
1 17
14.2
I 17 3.2
I 16 52.2
I 16 41. 1
I i6 30.1
I 16 19.1
+0.62
— 1. 10
25 20
I 17
26.9
I 17 159
I 17 4.8
I 16 53.7
I 16 42.7
I 16 31.6
0.64
I. II
25 40
1 17
39.8
I 17 28.8
I 17 17.7
I 17 6.6
I 16 55.5
I 16 44.4
0.65
I. II
26 0
1 17
53.0
I 17 41.9
I 17 30.7
I 17 19.6
I 17 8.5
I 16 57.4
0.66
I. II
26 20
I 18
6.4
I 17 55-2
1 17 44.0
I 17 32.9
I 17 21.7
I 17 10.6
0.67
1. 12
26 40
I 18
20.0
I 18 8.8
I 17 57.6
I 17 46.4
I 17 35-2
I 17 24.0
4-0.68
— 1. 12
27 0
I 18
33.8
I 18 22.6
I 18 II.4
I 18 0.2
I 17 48.9
I 17 37-7
0.70
1. 12
27 20
I 18
47.9
I 18 36.7
I 18 25.4
I 18 14.2
I 18 2.9
I 17 516
0.71
1. 13
27 40
I 19
2.3
I 18 51.0
I 18 39.7
I 18 28.4
I 18 17. 1
I 18 5.8
0.72
I.I3
28 0
I 19
16.9
I 19 5-5
I 18 54.2
I 18 42.9
I 18 31.6
I 18 20.2
0.73
I.I3
28 20
I 19
317
1 19 20.3
1 19 9.0
I 18 57.6
I 18 46.3
I 18 34.9
4-0.74
-I.I4
28 40
I 19
46.8
I 19 35-4
I 19 24.0
I 19 12.6
I 19 1.2
I 18 49.8
0.75
1. 14
29 0
I 20
2.2
I 19 50.7
1 19 39-3
I 19 27.9
I 19 16.4
I 19 5.0
0.77
I.I4
29 20
I 20
17.8
I 20 6.3
I 19 54.8
I 19 43.4
I 19 31 9
I 19 20.4
0.78
1. 15
29 40
I 20
I 20
33.7
49.8
I 20 22.2
I 20 38.3
I 20 10.7
I 20 26.7
I 19 59.2
I 20 15.2
I 19 47.6
I 20 3.6
I 19 36.1
I 19 52.1
0.80
4-0.81
1. 15
30 0
-1. 15
30 10
I 20
58.0
I 20 46.4
1 20 34.8
I 20 23.3
I 20 II. 7
I 20 0.1
0.82
1. 16
30 20
I 21
6.3
I 20 54.7
I 20 43.0
I 20 31.5
I 20 19.9
I 20 8.3
0.82
1. 16
30 30
I 21
14.6
I 21 3.0
I 20 51.3
I 20 39.7
I 20 28.1
I 20 16.5
0.83
1. 16
30 40
I 21
23.0
I 21 11.4
I 20 59.7
I 20 48.1
I 20 36.4
I 20 24.8
0.84
1. 16
30 50
I 21
315
I 21 19.9
I 21 8.2
I 20 56.5
I 20 44.8
I 20 33.1
4-0.85
-I.16
31 0
I 21
40.0
I 21 28.4
I 21 16.7
I 21 5.0
I 20 53.3
I 20 41.6
0.85
1. 17
31 10
I 21
48.6
I 21 37.0
I 21 25.3
I 21 13.5
I 21 1.8
I 20 50.1
0.86
I.I7
31 20
I 21
57-3
I 21 45.6
I 21 33.9
I 21 22.1
I 21 10.4
I 20 58.7
0.87
I.I7
31 30
I 22
6.0
I 21 54.3
I 21 42.6
I 21 30.8
I 21 19.1
I 21 7.4
0.88
I.I7
31 40
I 22
14.8
1 22 3.1
I 21 51.3
I 21 39.6
I 21 27.8
I 21 16.1
4-0.88
-1. 18
31 50
I 22
237
I 22 12.0
I 22 0.2
I 21 48.4
I 21 36.6
I 21 24.8
0.89
1. 18
32 0
I 22
32.7
I 22 20.9
I 22 9.1
I 21 57.3
I 21 45.5
I 21 33.7
0.90
1. 18
32 10
I 22
41.7
I 22 29.9
I 22 18.I
I 22 6.3
I 21 54.5
I 21 42.7
0.90
I.18
32 20
I 22
50.8
I 22 39.0
I 22 27.2
I 22 15.3
I 22 3.5
I 21 51.7
0.91
1. 18
32 30
I 23
0.0
I 22 48.2
I 22 36.3
I 22 24.5
I 22 12.6
I 22 0.8
4-0.92
-1. 19
32 40
I 23
9-3
I 22 57.4
I 22 45.5
I 22 33.7
I 22 21.8
I 22 9.9
0.93
I.I9
32 50
I 23
18.7
I 23 6.8
I 22 54.8
I 22 43.0
I 22 31. 1
I 22 19.2
0.93
1. 19
33 0
I 23
28.1
I 23 16.2
I 23 4.2
I 22 52.3
I 22 40.4
I 22 28.5
0.94
1. 19
33 10
I 23
37.6
1 23 25.7
1 23 13.7
I 23 1.8
I 22 49.8
I 22 37.9
0.95
1.20
33 20
1 23 47.2
I 23 35.2
I 23 23.2
I 23 11.3
I 22 59.3
I 22 47.3
4-0.96
— 1.20
33 30
I 23
56.9
I 23 44.9
I 23 32.9
I 23 20.9
I 23 8.9
I 22 56.9
0.96
1.20
33 40
I 24
6.6
I 23 54.6
I 23 42.6
I 23 30.5
I 23 18.5
I 23 6.5
0.97
1.20
33 50
I 24
16.4
1 24 4.4
I 23 52.3
I 23 40.3
I 23 28.2
I 23 16.2
0.98
1.20
34 0
I 24
26.3
I 24 14.3
I 24 2.2
I 23 50.1
I 23 38.0
I 23 26.0
0.99
X.2I
34 10
I 24
36.3
I 24 24.3
I 24 12.2
I 24 0.0
I 23 47.9
I 23 35.8
4-1.00
— I.2I
34 20
I 24
46.4
I 24 34.3
I 24 22.2
I 24 1 0.0
I 23 57.9
I 23 45.8
1. 00
I.2I
34 30
I 24
56.5
I 24 44.4
I 24 32.3
I 24 20.1
I 24 8.0
I 23 55.9
I.OI
I.2I
34 40
I 25
6.7
I 24 54.6
I 24 42.4
I 24 30.3
I 24 18.1
I 24 6.0
1.02
X.22
34 50
I 25
17.0
I 25 4.9
I 24 52.7
I 24 40.5
I 24 28.3
I 24 16. 1
1.03
1.22
35 0
I 25
27.4
I 25 15.2
I 25 3.0
I 24 50.8
I 24 38.6
I 24 26.4
4-1.04
— 1.22
35 10
I 25
37-9
I 25 25.6
I 25 13.4
I 25 1.2
I 24 49.0
I 24 36.8
1.05
1.22
35 20
I 25
48.5
I 25 36.2
1 25 24.0
I 25 11.7
I 24 59.5
I 24 47-3
1.06
1.23
35 30
I 25
59-2
I 25 46.9
I 25 34.6
I 25 22.3
I 25 10. 1
I 24 57.8
1.06
1.23
35 40
I 26
lO.O
I 25 57.7
I 25 45.3
I 25 33.0
I 25 20.7
I 25 8.4
1.07
1.23
35 50
I 26
20.8
I 26 8.5
I 25 56.1
I 25 43.8
I 25 31.4
I 25 19. 1
4-1.08
-1.23
36 0
I 26
317
I 26 19.4
I 26 7.0
I 25 54-6
I 25 42.2
I 25 29.9
1.09
1.24
36 10
I 26
42.7
I 26 30.4
I 26 18.0
I 26 5.5
I 25 53.1
I 25 40.7
1. 10
1.24
36 20
I 26
53.8
I 26 41.4
I 26 29.0
I 26 16.5
I 26 4.1
I 25 51.7
I. II
1.24
36 30
I 27
50
I 26 52.5
I 26 40.1
I 26 27.6
I 26 15.2
I 26 2.8
1. 12
1.24
36 40
I 27
16.3
I 27 3.8
I 26 51.3
I 26 38.9
I 26 26.4
I 26 14.0
4-1. 13
— 1.25
36 50
I 27
27.7
I 27 15.2
I 27 2.7
I 26 50.2
I 26 37.7
I 26 25.2
1. 14
1.25
37 0
I 27
39-2
I 27 26.7
I 27 14. 1
I 27 1.6
I 26 49.1
I 26 36.6
115
1.25
37 10
I 27
50.8
I 27 38.2
I 27 25.6
I 27 13.1
I 27 0.6
I 26 48.1
I.I5
1.25
37 20
I 28
2.4
I 27 49.8
I 27 37.2
I 27 24.7
I 27 12. 1
I 26 59.6
1. 16
1.26
37 30
I 28
14.2
I 28 1.5
I 27 48.9
I 27 36.3
I 27 23.7
I 27 II. I
4-I.I7
-1.26
[Bph za]
680
TABLE VI.
AZIMUTH OF POLARIS AT ELONGATION, 1912.
Decl.
I^t.
37
30
37 40
37
50
38
0
38
10
38
20
38
30
38 40
38
50
39
0
39
10
39
20
39 30
39 40
39
50
40
0
40
10
40
20
40 30
40 40
40 50
41 o
41 10
41 20
41 30
41 40
41 50
42 o
42 10
42 20
42 30
42 40
42 50
43 o
43 10
43 20
43 30
43 40
43 50
44 o
44 10
44 20
44 30
44 40
44 50
45 o
45 10
45 20
45 30
45 40
45 50
46 o
46 10
46 20
46 30
46 40
46 50
47 o
47 10
47 20
47 30
88® 50' o
ri
28
28
28
28
29
29
29
29
29
30
30
30
30
30
31
31
31
31
32
32
32
32
32
33
33
33
33
34
34
34
34
35
35
35
35
36 14.6
36 30.5
36 46.6
37 2.8
37 19.1
14.2
26.1
38.1
50.1
2.3
14.6
27.0
39-4
52.0
4-7
17.5
303
43-3
56.4
9-7
23.0
36.4
49.9
3.6
17.4
31.3
45.3
59-4
13.7
28.1
42.6
57.2
12.0
26.9
41.9
57.0
12.3
27.7
43.2
58.8
35.6
52.2
8.9
25.8
42.9
0.1
17.5
35.0
52.7
10.5
40 28.5
40 46.6
41 4.9
41 23.4
41 42.0
37
37
38
38
38
39
39
39
39
40
42
42
42
42
43
0.8
19.8
38.9
58.2
17.6
43 37-3
88 *» sc/ 10"
88 *» sc/ 20"
• / //
I 28 1.5
•
I 28 13.4
I 28 25.4
I 28 37.4
I 28 49.5
I 29 1.8
I 29 14.2
I 29 26.6
I 29 39.1
I 29 51.8
I 30 4-6
I 30 17.4
I 30 30.4
1 30 43-4
I 30 56.6
I 31 9-9
I 31 23.3
I 31 36.8
I 31 50.4
I 32 4.2
I 32 18.I
I 32 32.1
I 32 46.2
I 33 0.4
I 33 148
I 33 29.2
I 33 43.8
I 33 58.5
I 34 13-4
I 34 28.4
I 34 43-5
I 34 58.7
I 35 140
I 35 29.5
I 35 45.1
I 36 0.8
I 36 16.7
I 36 32.8
I 36 49.0
I 37 5-2
I 37 21.6
I 37 38.2
I 37 54.9
I 38 II. 7
I 38 28.8
I 38 46.0
I 39 3.3
I 39 20.7
I 39 38.4
I 39 56.2
I 40 14. 1
I 40 32.2
I 40 50.5
I 41 8.9
I 41 27.5
I 41 46.3
I 42 5.2
I 42 24.2
I 42 43.4
I 43 2.8
I 43 22.4
*
tf
27
28
28
28
28
28
29
29
29
29
48.9
0.8
12.7
247
36.8
49.0
1-4
138
26.2
38.9
29 51.6
30 4.4
30 174
30 30.4
30 43.5
56.8
10.2
23.7
37-3
51.0
4.8
18.8
32.9
47.0
1.4
158
30.4
450
59.8
14.8
30
31
31
31
31
32
32
32
32
33
33
33
33
33
34
34
34
35
35
35
29.9
45 -o
0.3
15-8
31.4
35 47- 1
36 2.9
36 18.9
36 35.0
36 51.3
37 7-7
37 24.2
37 40.9
37 57.7
38 14.7
38 ^1.9
38 49-2
39 6.6
39 24.1
39 41.8
39 59.7
40 17.8
40 36.0
40 54-4
41 130
41
41
42
42
317
50.5
9.5
28.7
42 48.1
43 7-7
88 *» sc/ 30"
88® 50' 40
n
88® 50' 50"
• 1 tt
I 27 36.3
I 27 48.1
I 28 0.0
I 28 12.0
I 28 24.0
I 28 36.2
I 28 48.5
I 29 0.9
I 29 13.4
I 29 26.0
I 29 38.7
I 29 51.5
I 30 4-4
I 30 17-4
I 30 30.5
I 30 43.7
I 30 57.0
I 31 10.5
I 31 24.1
I 31 37.9
I 31 51.7
I 32 5.6
I 32 19.6
I 32 33.7
I 32 48.0
I 33 2.4
I 33 I7-0
I 33 31.6
I 33 46.4
I 34 1.3
I 34 16.3
I 34 31.4
I 34 46.7
I 35 2.1
I 35 1 7-6
I 35 33.3
I 35 49. 1
I 36 5.1
I 36 21. 1
I 36 37.3
I 36 53.7
I 37 IO-2
I 37 26.8
I 37 43.6
I 38 0.6
I 38 17.7
I 38 35.0
I 38 52.4
I 39 9-9
I 39 27.5
I 39 45.4
I 40 3.4
I 40 21.6
I 40 39.9
I 40 58.4
I 41 17.1
I 41 36.0
I 41 54.9
I 42 14.0
I 42 33.3
I 42 52.9
H
27
27
27
27
28
28
28
28
29
29
29
29
29
30
30
30
30
30
31
31
31
31
32
32
32
237
35-5
47-4
59.3
11.3
23.5
35.8
48.1
0.5
13.1
25.8
38.6
514
4.3
174
30.6
43-9
57-4
II.O
24.7
38.4
52.3
6.3
20.4
34-6
32 49.0
33 3.5
33 18.1
33 32.8
33 47.7
34 2.7
34 17.8
34 33.0
34 48.4
35 3.9
35 19.5
35 35-3
35 512
36 7-2
36 23.4
36 39.7
36 56.2
37 12.8
37 29.6
37 46.5
38 3.6
38 20.8
38 38.1
38 55.6
39 132
39 31.0
39 490
40 7.1
40 25.4
40 43-9
41 2.5
41 21.3
41 40.2
41 59.3
42 18.6
42 38.1
It
27 II. I
27 22.9
27 34.7
27 46.6
27 58.6
28 10.8
28 23.0
28 35.3
28 47-7
29 a3
29
29
29
29
30
12.9
25.6
38.4
51.3
4-4
30 17.5
30 30-8
30 44-3
30 57-8
11.5
31
31
31
31
32
32
32
32
33
33
33
25.2
39.1
53.0
7.1
21.3
35-6
50.0
4.6
193
34.2
33 49-1
34 4-2
19.4
34.7
34 50.1
34
34
35
35
35
35
36
36
36
5.7
21.5
37-4
53.3
9.4
25.7
42.2
36 58.8
37 15-5
37 32.4
37
38
38
38
38
39
39
39
40
40
40
41
41
41
42
42
[Eph xa]
49-5
6.7
23.9
41.3
58.9
16.7
34.6
52.7
10.9
293
47-9
6.7
25.6
44.6
3-9
23.3
Variadon for —
x' of Lat.
tt
4-
+
+
+
4-
+
4-
+
+
+
+
+
17
18
19
20
21
22
23
24
25
26
27
28
30
31
32
33
34
35
36
37
38
39
40
42
43
44
45
47
48
50
51
52
54
55
56
57
58
60
61
62
63
65
66
68
70
72
73
75
76
78
80
82
83
85
87
88
90
91
93
95
96
r"
of a.
//
26
26
27
27
27
27
28
28
28
29
29
29
30
30
30
31
31
31
32
32
32
33
33
33
34
34
34
35
35
35
36
36
36
37
37
38
38
38
39
39
40
40
40
41
41
42
42
42
43
43
44
44
44
45
45
46
46
47
47
.48
.48
TABLE VI.
681
AZIMUTH OF POLARIS AT ELONGATION, 191a.
\vDocl.
Variation for —
88*> 5& 0"
88« SC/ 10"
88° sc/ 20"
88<» 50' 30''
88*» scy 40"
88** 50' 50"
Lat.>v
i' of Lat.
i"af«.
0 /
0 t tf
0 / //
e / //
• / //
• f tf
e / //
ff
//
47 30
I 43 37-3
I 43 22.4
I 43 7-7
I 42 52.9
I 42 38.1
I 42 23.3
+1.96
-1.48
47 40
I 43 57.1
I 43 42.2
I 43 27.4
I 43 12.5
I 42 57.7
I 42 42,9
1.98
1.49
47 50
I 44 17.1
I 44 2.2
I 43 47.3
I 43 32.4
I 43 175
I 43 2.6
2.00
1.49
48 0
I 44 37.3
I 44 22.4
I 44 7.4
I 43 52.5
I 43 37.5
I 43 22.6
2.02
1.50
48 10
I 44 57.7
I 44 42.7
I 44 27.7
I 44 12.7
I 43 57.7
I 43 42.7
2.04
1.50
48 20
I 45 i8-3
I 45 3.2
I 44 48.2
I 44 33.1
I 44 18. 1
I 44 3.0
+2.06
-1.51
48 30
I 45 39.1
I 45 24.0
I 45 8.9
I 44 53-8
I 44 38.7
I 44 23.6
2.07
1.51
48 40
I 46 0.0
I 45 44-9
I 45 29.7
I 45 14.6
I 44 59-5
I 44 44.4
2.09
1.52
48 50
I 46 21. 1
I 46 5-9
I 45 50.7
I 45 35.6
I 45 20.4
I 45 5.3
2. II
1.52
49 0
I 46 42.4
I 46 27.1
I 46 1 1.9
I 45 56.7
I 45 41.5
I 45 26.3
2.13
1-53
49 10
I 47 3.9
I 46 48.6
I 46 33.3
I 46 18.1
I 46 2.8
I 45 47.5
+2.15
-1.53
49 20
I 47 25.7
I 47 10.3
I 46 55.0
I 46 39-6
I 46 24.3
I 46 9.0
2.17
1.54
49 30
I 47 47.7
I 47 32.3
I 47 16.9
I 47 1.4
I 46 46.0
I 46 30.6
2.19
1-54
49 40
I 48 9.8
I 47 54.4
I 47 38.9
I 47 23.4
I 47 7.9
I 46 52.4
2.2Z
1-55
49 50
I 48 32.2
I 48 16.7
I 48 I.I
I 47 45.6
I 47 300
I 47 14.5
2.23
1.55
50 0
I 48 54.7
I 48 39.2
I 48 23.6
I 48 8.0
I 47 52.4
I 47 36.8
+2.25
-1.56
50 10
I 49 17.5
I 49 1-9
I 48 46.2
I 48 30.6
I 48 14.9
I 47 59.3
2.27
1.56
50 20
I 49 405
I 49 24.9
I 49 9.1
I 48 53-4
I 48 37.7
I 48 22.0
2.30
1.57
50 30
I 50 3.7
I 49 48.0
I 49 32.2
I 49 16.4
I 49 0.7
I 48 45.0
2.32
1.57
50 40
I 50 27.1
I 50 11-3
I 49 55.5
I 49 39-7
I 49 23.9
I 49 8.1
2.34
1.58
50 50
I 50 50- 7
I 50 34.9
I 50 19.0
I 50 3.2
I 49 47.3
I 49 31.5
4-2.36
-1.58
51 0
I 51 146
I 50 58.7
I 50 42.8
I 50 26.9
I 50 10.9
I 49 55.0
2.38
1.59
51 10
I 51 38.7
I $1 22.7
I 51 6.8
I 50 508
I 50 34.8
I 50 18.8
2.40
1.60
51 20
I 52 30
I 51 47.0
I 51 310
I 51 15.0
I 50 58.9
I 50 42.9
2.42
1.60
51 30
I 52 27.6
I 52 11.5
I 51 55.4
I 51 39-4
I 51 23.2
I 51 7-2
2.45
1.61
51 40
I 52 52.4
I 52 36.2
I 52 20.1
I 52 4.0
I 51 47.8
I 51 31.7
4-2.47
-1.61
51 50
I 53 17.4
I 53 1.2
I 52 45.0
I 52 28.8
I 52 12.6
I 51 56.5
2.50
1.62
52 0
I 53 42.7
I 53 26.5
I 53 10.2
I 52 53.9
I 52 37.7
I 52 21.5
2.52
1.62
52 10
I 54 8.2
I 53 51.9
I 53 35.6
I 53 19.3
I 53 30
I 52 46.7
2.54
1.63
52 20
I 54 34.0
I 54 176
I 54 1.2
I 53 44.9
I 53 28.5
I 53 12.1
2.57
1.64
52 30
I 55 01
I 54 43.6
I 54 27.2
I 54 10.8
I 53 54.3
I 53 37-9
4-2.60
-1.64
52 40
I 55 26.4
I 55 9-9
I 54 53.4
I 54 36.9
I 54 20.4
I 54 3.9
2.62
1.65
52 50
I 55 53.0
I 55 36.5
I 55 19.9
I 55 3-3
I 54 46.7
I 54 30.1
2.65
1.66
53 0
I 56 19.8
I 56 3.2
I 55 46.6
I 55 30.0
I 55 13.3
I 54 56.6
2.67
1.66
53 10
I 56 46.9
I 56 30-2
I 56 13.5
I 55 56.9
I 55 40.1
I 55 23.4
2.70
1.67
53 20
I 57 14.2
I 56 57.5
I 56 40.7
I 56 24.0
I 56 7.2
I 55 50.4
4-2.73
-1.68
53 30
I 57 41.8
I 57 25.0
I 57 8.2
I 56 51.4
I 56 34.6
I 56 17.7
2.75
1.68
53 40
I 58 9.7
I 57 52.8
I 57 36.0
I 57 191
I 57 2.2
I 56 45.3
2.78
1.69
53 50
I 58 37.9
I 58 21.0
I 58 4-0
I 57 47.0
I 57 30.1
I 57 13.1
2.81
1.70
54 0
I 59 6.4
I 58 49.4
I 58 32.3
I 58 15-2
I 57 58.3
I 57 41.3
2.84
1.70
54 10
I 59 35.1
I 59 18.0
I 59 0.9
I 58 43.8
I 58 26.8
I 58 9.7
+2.87
-1.71
54 20
2 0 4.2
I 59 470
I 59 29.9
I 59 12.7
I 58 55.6
I 58 38.4
2.90
1.72
54 30
2 0 33.5
2 0 16.3
I 59 59- 1
I 59 41.9
I 59 24.7
I 59 7.5
2.93
1.72
54 40
2 I 3.2
2 0 45.9
2 0 28.6
2 0 1 1.4
I 59 54.1
I 59 36.8
2.96
1.73
54 50
2 I 33.2
2 I 15.8
2 0 58.5
2 0 41. 1
2 .0 23.8
2 0 6.4
300
1-74
55 0
2 2 3.5
2 I 46.0
2 I 28.6
2 I 11.2
2 0 53.8
2 0 36.4
+3.03
-1.74
55 w>
2 2 34.1
2 2 16.6
2 I 591
2 I 41.6
2 I 24.1
2 I 6.6
3.06
1.75
55 20
2 3 50
2 2 47.4
2 2 29.8
2 2 12.3
2 I 54.7
2 I 37.1
3.09
1.76
55 30
2 3 36.3
2 3 18.6
2 3 0.9
2 2 43.3
2 2 25.6
2 2 8.0
3.12
1.76
55 40
2 4 7.8
2 3 50-1
2 3 32.3
2 3 14.6
2 2 56.9
2 2 39.2
3.15
1.77
55 50
2 4 39-7
2 4 21.9
2 4 4.1
2 3 46.3
2 3 28.5
2 3 10.7
+3.18
-1.78
56 0
2 5 "9
2 4 540
2 4 36.2
2 4 18.3
2 4 0.4
2 3 42.5
3-22
1.79
56 10
2 5 44.5
2 5 26.5
2 5 8.6
2 4 50.6
2 4 32.7
2 4 14.7
3.25
1.80
56 20
2 6 17.4
2 5 59-4
2 5 41.4
2 5 23.3
2 5 5-3
2 4 47.3
3.28
1.80
56 30
2 6 50.7
2 6 32.6
2 6 14.5
2 5 56.4
2 5 38.3
2 5 20.2
3.32
1.81
56 40
2 7 24.4
2 7 6.2
2 6 48.0
2 6 29.8
2 6 11.6
2 5 53-4
4-3-35
-1.82
56 50
2 7 58.5
2 7 40.2
2 7 21.9
2 7 3.6
2 6 45.3
2 6 27.0
3.39
1.83
57 0
2 8 32.9
2 8 14.5
2 7 56.1
2 7 37.7
2 7 19-3
2 7 I.O
3-43
1.83
57 10
2 9 7.6
2 8 49.1
2 8 30.7
2 8 12.2
2 7 53.7
2 7 35-3
346
1.84
57 20
2 9 42.7
2 9 24.1
2 9 5.7
2 8 47.1
2 8 28.5
2 8 lo.o
350
1.85
57 30
2 10 18.3
2 9 59-7
2 9 4I-I
2 9 22.4
I2 9 3.7
2 8 45.1
4-3-53
—1.86
[Bph za]
682
TABLE VI.
AZIMUTH OF POLARIS AT ELONGATION, 191a.
^v TlAcI
Variation f or—
8£
{*» 5</ 0''
88
'^ 50^ 10^'
88
° S& IQf'
88
« 5C/ 3(/^
88
'^ 50^ ¥^'
88
° 5(/ 50''
I-at.\s^
i' of Lat.
x"of5.
a /
•
/ ff
•
/ //
e
r ft
e
/ //
•
/ //
0
^ //
//
tt
57 30
2
10 18.3
2
9 59-7
2
9 411
2
9 22.4
2
9 3-7
2
8 45.1
+3-53
-1.86
57 40
2
10 54.2
2
10 35-5
2
10 16.8
2
9 58.0
2
9 39-3
2
9 20.6
3-57
1.87
57 50
2
II 305
2
II II. 7
2
10 52.9
2
10 34.1
2
10 15.3
2
9 56.5
3-6i
1.88
58 0
2
12 7.2
2
II 48.3
2
II 29.4
2
II 10.5
2
10 51.6
2
10 32.7
3.65
1.89
58 10
2
12 44-3
2
12 25.4
2
12 6.4
2
II 47.4
2
II 28.4
2
II 9.4
370
1.90
58 20
2
13 21.9
2
13 2.8
2
12 43.8
2
12 24.7
2
12 5.6
2
II 46.5
+3.75
-1.91
58 30
2
13 59.9
2
13 40.7
2
13 21.5
2
13 2.4
2
12 43.2
2
12 24.0
380
1.92
58 40
2
14 38.2
2
14 18.9
2
13 59.7
2
13 40.5
2
13 21.2
2
13 2.0
3.84
1.93
58 50
2
15 17.0
2
14 57.6
2
14 38.4
2
14 19.0
2
13 59-7
2
13 40.4
3-89
1.94
59 0
2
15 56.3
2
15 36.8
2
15 175
2
14 58.0
2
14 38.6
2
14 19.2
3.93
1-95
59 10
2
16 36.0
2
16 16.5
2
15 570
2
15 37.4
2
15 17.9
2
14 58.4
+3.98
— 1.96
59 20
2
17 16.2
2
16 56.6
2
16 37.0
2
16 17.3
2
15 57.7
2
15 38.1
4.02
1.97
59 30
2
17 56.9
2
17 37.2
2
17 17.5
2
16 57.7
2
16 38.0
2
16 18.3
4.07
1.98
59 40
2
18 38.0
2
18 18.2
2
17 58.4
2
17 38.6
2
17 18.7
2
16 58.9
4.11
1.99
59 50
2
19 19.6
2
18 59.7
2
18 39.8
2
18 19.9
2
18 0.0
2
17 40.1
4.16
2.00
60 0
2
20 1.7
2
19 41.7
2
19 21.7
2
19 1-7
2
18 41.7
2
18 21.7
-f-4.20
—2.01
TABLE Via.
FOR REDUCING TO ELONGATION, OBSERVATIONS MADE NEAR ELONGATION, 1912.
^^X^zimuth.
KtimnWi^^^
1° 10'
i« 20'
I** 30'
I** 40'
I** 50'
2*» 0'
2® 10'
2** 20'
• Time!^\^
^x^^^^Time.*
m
ft
ti
n
ff
//
//
//
//
m
0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0
I
+ 0.1
+ 0.1
-f- O.I
-f- 0.1
-|- 0.1
-f 0,1
+ 0.1
+ 0.2
I
2
0.2
0.2
0.2
0.2
0.3
0.3
0.3
0.3
a
3
0.4
04
0.4
0.5
0.6
0.6
0.7
0.7
3
4
0.6
0.7
0.8
0.9
1.0
I.I
1.2
1.3
4
5
+ i.o
+ I.I
+ 1.3
+ 1.4
+ 1.6
+ 1.7
+ 1.9
-f- 2.0
5
6
1.4
1.6
1.8
2.1
2.3
2.5
2.7
2.9
6
7
2.0
2.2
2.5
2.8
3.1
3.4
3.7
3.9
7
8
2.6
2.9
3.3
3.7
4.0
4.4
4.8
5.1
8
9
3.3
3.7
4.2
4.7
5.1
5.5
6.0
6.5
9
10
+ 4.0
+ 4.6
+ 5.1
+ 5.7
+ 6.3
-h 6.8
+ 7.4
-f- 8.0
10
II
4-9
5.6
6.2
6.9
7.6
8.3
9.0
97
II
12
5.8
6.6
7.4
8.2
9.0
9.9
10.7
"5
12
13
6.8
7.8
8.7
9.7
10.6
11.6
12.5
13.5
13
14
7.8
9.0
10. 1
II. 2
12.3
13.4
14.5
15.7
14
15
+ 9-0
+ 10.3
-fii.6
+12.9
+14.1
+15.4
+16.7
-hi 8.0
15
16
10.2
11.7
13.2
14.6
16.1
17.5
19.0
20.4
16
17
11.5
13.2
14.9
16.4
18.2
19.8
21.4
23.0
17
18
12.9
14.8
16.7
18.5
20.4
22.2
24.0
25.9
18
19
14.4
16.5
18.6
20.7
22.7
24.7
26.8
28.9
19
2Q
+16.0
+ 18.3
-f-20.6
+22.9
+25.1
+27.4
+29-7
+32.0
20
21
17.7
20.2
22.7
25.2
27.7
30.2
32.7
35.3
21
22
19.4
22.1
24.9
27.6
30.4
33.2
35.9
38.7
22
23
21.2
24.2
27.2
30.2
33.2
36.3
39-2
42.3
23
24
23.0
26.3
29.6
32.9
36.2
39.4
42.7
46.0
24
25
+25-0
-1-28.6
+32.1
+35.7
+39.3
+42.7
+46.3
+49-9
25
26
27.0
30.9
34.7
38.6
42.4
46.3
50.1
54.0
26
27
29.1
33.3
37.5
41.6
45.7
50.0
54.0
58.2
27
28
31.3
35.8
40.3
44-7
49.2
53.7
58.1
62.6
28
29
33-6
38.4
43.2
48.0
52.8
57.6
62.3
67.1
29
30
+35.9
+41. 1
+46.2
+51.4
+56.5
-I-61.6
+66.7
+71.8
30
* Sidereal time from elongation.
[Bph za]
TABLE VII.
683
FOR FINDING THE TIMES OF UPPER AND LOWER CULMINATION
OF POLARIS FROM THE OBSERVED TIMES WHEN THE STAR IS
ON THE SAME VERTICAL CIRCLE WITH THE STARS C URS^
MAJORIS (MIZAR) SUB. POLO, AND S CASSIOPEIA SUB. POLO.,
RESPECTIVELY.
Except at high latitudes, the pole star at either upper or lower culmination
furnishes a simple and convenient method for la3dng down a meridian line on the
earth's surface at points in the northern hemisphere. When the local time is
unknown and accurate astronomical instruments are not available, the time of
culmination of Polaris may be found by observing the instant when Polaris is
vertically above (has the same azimuth as) C Ursae Majoris (Mizar) below the pole,
or d Cassiopeia below the pole. In the former case, for the year 191 2, Polaris is
approaching upper culmination and in the latter case it is approaching lower
culmination. The mean time interval which elapses between the observed times
above mentioned and upper or lower culmination, as the case may be, are given
for C Ursae Majoris and d Cassiopeiae for ten-day intervals in the following table.
This method can not be used at places south of 30° north latitude.
TABLE Vn.
MEAN TIME INTERVAL.
5 tJBS« MAJORIS (MIZAR).
(Ul>per ctilinliiation ol Polaris.)
^ CASSIOPBIiE.
(Lower culminatioii of Polaris.)
1912
Lat.
40«
45^
50^
55°
6o<>
1912
Ut.
35°
400
45°
50^
55°
Jan.
I
II
21
m s
6 54
6 44
6 34
6 47
657
7 9
m s
653
6 43
6 33
6 46
6 56
7 7
m s
651
6 41
631
6 44
6 54
7 5
m s
6 49
6 39
6 29
6 42
6 52
7 3
m s
6 47
6 37
6 27
6 40
6 50
7 I
Jan.
Feb.
I
II
21
31
10
20
m s
758
7 47
7 36
7 26
7 16
7 6
m s
7 59
7 49
7 38
7 27
7 16
7 7
m s
8 I
7 50
7 39
7 28
7 17
7 8
m s
8 3
7 52
7 41
7 30
7 19
7 10
m 8
8 5
7 54
7 43
July
10
20
30
7 32
7 21
7 12
Aug.
9
19
29
7 19
7 28
7 35
7 18
7 27
7 34
7 16
7 25
7 32
7 14
7 23
7 30
7 "
7 20
7 27
Mar.
2
12
22
657
6 52
6 47
6 58
653
6 48
6 59
6 54
6 49
7 I
6 56
651
7 3
6 58
6 53
Sept.
8
18
28
7 42
7 50
7 54
7 40
7 48
7 52
7 38
7 46
7 50
7 36
7 44
7 48
7 33
7 41
7 45
Apr.
I
II
21
6 44
6 44
6 46
6 45
6 45
6 46
6 46
6 46
6 47
6 48
6 48
6 49
6 49
6 49
651
Oct.
8
18
28
7 56
7 58
7 57
7 55
7 57
7 56
7 53
7 55
7 54
7 51
7 53
7 52
7 48
7 50
7 49
May
I
II
21
6 49
6 54
7 I
6 50
6 55
7 2
651
657
7 4
653
6 58
7 5
655
7 0
7 7
Nov.
7
17
27
7 55
7 53
7 48
7 54
7 51
7 47
7 52
7 49
7 45
7 50
7 47
7 43
7 47
7 44
7 40
June
31
10
20
7 10
7 19
7 29
7 II
7 20
7 30
7 12
7 21
7 31
7 14
7 23
7 33
7 16
7 25
7 35
Dec.
7
17
27
7 40
7 33
7 24
7 39
7 31
7 23
7 37
7 29
7 21
7 35
7 27
7 19
7 32
7 24
7 16
July
30
10
20
7 40
7 50
8 I
7 41
7 52
8 2
7 43
7 54
8 4
7 45
7 56
8 6
1 7 47
7 58
8 8
37
7 15
1 7 14
7 12 7 10 1 7 7
30
8 12 1 8 13
8 15 1 8 17
8 19
[Bi
?hi»}
ON THE ARRANGEMENT AND USE OF THE AMERICAN
EPHEMERIS AND NAUTICAL ALMANAC.
The first part of this Ephemeris, embracing the positions of the Sun and Moon,
together with the ephemerides of the planets Mercury, Venus, Mars, Jupiter,
and Saturn, is designed for the special use of navigators. The remainder of the
work is intended to meet the wants of astronomers. It contains the ephemerides
of Uranus and Neptune, the heliocentric co-ordinates of the seven major planets,
the rectangular equatorial coordinates of the Sun, the Moon's longitude and
latitude, data for the libration of the Mpon, the obliquity of the ecliptic, the
nutation, the positions of 825 standard stars, the ephemeris for the meridian of
Washington, etc.
TIME. '
Astronomers make use of three different kinds of time, namely: First, true or
apparent solar time; second, mean solar time; third, sidereal time.
Trtie or Apparent Solar Time. — This species of time is called indiscriminately
either true solar time or apparent solar time, and is measured by the motion of
the true Sun; the length of the day being the interval between two successive
transits of the Sun over the same meridian, and the time of day being always
the hour angle of the Sun from the meridian. This is the most obvious and natural
measure of time, but, owing to the obliquity of the ecliptic and the varying motion
of the Earth in its orbit, the intervals between successive returns of the Sun to
the same meridian are not exactly equal, and consequently ordinary clocks and
chronometers can not be regulated to true solar time.
Mean Solar Time. — ^To avoid the irregularity which would arise from using
the true solar day, astronomers have recourse to a mean solar day, whose length
is equal to the average of all the true solar days in a year. Just as the true solar
day depends upon the motion of the true Sun, so the mean solar day is made to
depend upon the motion of an imaginary mean Sun which moves along the equator
at a perfectly uniform rate, and whose hour angle from any given meridian is
always the mean solar time thereat. Ordinary clocks and watches and the chro-
nometers used by navigators are regulated to this species of time.
Equation of Time. — ^The imaginary mean Sun is supposed to keep as near the
true Sun as is consistent with perfect uniformity of motion, but it is sometimes
before and sometimes behind the latter, the greatest difference amounting to
rather more than one-quarter of an hour. The interval between the true Sun
and the imaginary mean Sun is the equation of time, given on pages I and II of
the Ephemeris for the meridian of Greenwich, and a knowledge of it is necessary
for converting true solar time into mean solar time, or vice versa. As the mean
Sun is an imaginary body, mean solar time can not be directly observed, but
it can be got either from observations of the true Sun by applying to them the
[Eph xa] 685
686 THE AMERICAN EPHEMEPJS.
correction for the equation of time, or from observations of the stars by means
of the sidereal time of mean noon, given on page II of the Ephemeris for the
meridian of Greenwich.
Sidereal Time. — Sidereal time is measured, roughly speaking, by the daily
motion of the stars; or in strict accuracy by the daily motion of that point in the
equator from which the true right ascensions of the stars are counted. The point
in question is the vernal equinox, and its hour angle is always the sidereal time.
Astronomical clocks are usually regulated to sidereal time, and are then called
sidereal clocks.
Sidereal Day. — A sidereal day is the interval between two successive transits
of the vernal equinox over the same meridian. It is 3™ 55".909 of mean solar
time shorter than the mean solar day, the tropical year of 365.2422 solar days
being divided into 366.2422 sidereal days, each comprising 24 sidereal hours. The
sidereal hours are counted from o to 24, commencing with the instant of the pas-
sage of the true vernal equinox over the upper meridian, and ending with its
return to the same meridian. About March 23 of each year the sidereal clock
agrees with the mean-time or ordinary clock, and the former gains on the latter
3"^ 56'*.555 of sidereal time per day, so that at the end of a year it will have gained
an entire day, and will again agree with the mean-time clock.
Civil Day. — According to the customs of society, the civil day commences at
midnight, and comprises twenty-four hours, which extend to the next following
midnight. The hours are counted from o to 12 in two series; the first, marked
A. M., running from midnight to noon, and the second, marked P. M., running
from noon to midnight.
Astronomical Day. — The astronomical day begins at noon on the civil day of
the same date. It also comprises twenty-four hours, but they are reckoned from
o to 24, and run from the noon of one day to that of the next following. Astro-
nomical time as well as civil time may be either apparent or mean, according as
it is reckoned from apparent noon or from mean noon.
The civil day begins twelve hours before the astronomical day; therefore the
first half of the civil day corresponds to the last half of the preceding astronomical
day, and the last half of the civil day coincides with the first half of the astro-
nomical day of the same date. Thus, January 9, 2 o'clock, A. M., civil time, is
January 8, 14**, astronomical time; and January 9, 2 o'clock, P. "M., civil time, is
also January 9, 2**, astronomical time. Hence, we have the following rules:
To convert Civil Time into Astronomical Time. — If the civil time is marked
A. M., take one from the day and add twelve to the hours, and the result will be
the corresponding astronomical time; if the civil time is marked P. M., take away
the designation P. M., and the astronomical time will result.
To convert Astronomical Time into Civil Time. — If the astronomical time is
less than twelve hours, simply write P. M. after it. If greater than twelve hours,
subtract twelve hours from it, mark the result A. M., and add one to the days.
For example, October 3, 23 hours, astronomical time, is October 4, 11 o'clock,
A. M., civil time.
To find Greenwich Time. — Express the longitude from Greenwich in time, and
when west, add it to the local time, or when east, subtract it from the local time.
The result will be the corresponding Greenwich time; mean or sidereal, according
as the local time employed is mean or sidereal. For use with Part I of this Ephem-
eris, Greenwich mean time is ordinarily required.
[Eph 12}
USE OF THE TABLES. 687
PART /.—THE EPHEMERIS FOR THE MERIDIAN OF GREENWICH.
Pages 2-145 give data arranged under the heads of the several months, and
are therefore designated as the Calendar. Each month covers 12 pages, numbered
from I to XII, whose contents are as follows:
Page I contains, for Greenwich apparent noon of each day. The Sun's Apparent
Right Ascension and Declination, and the Equation of Time, Adjoining columns
contain the differences of these quantities for one hour. By multiplying any one
of these differences by the hours and parts of an hour from Greenwich apparent
noon, and adding the product to, or subtracting it from, the corresponding quantity
at noon, according as that quantity is increasing or decreasing, we obtain the value
of the quantity in question for any given Greenwich apparent time. The hourly
differences are given for the instant of apparent noon at Greenwich, but when
great accuracy is required they should be interpolated for half the hours and
parts of an hour of the Greenwich apparent time.
The Equation of Time given on page I is the mean time of apparent noon, or the
hour angle of the mean Sun at that instant. The heading of the column directs
how the equation is to be applied to apparent time, or the time given by an obser-
vation of the Sun, in order to get mean time. When in the course of the month
there is a change from addition to subtraction or the reverse (as in the months of
April and June), the two different directions are separated by a line, while a corre-
sponding line below points out the dates between which the change occurs.
The Sun's Semidiameter and the Sidereal Time of Semidiameter Passing Meridian
are also given on page I. The semidiameter is used in reducing the altitude of the
upper or lower limb of the Sun to the altitude of the center; and in reducing the
angular distance between the limb of the Sun and any other object, to the distance
from the center of the Sun. The sidereal time of semidiameter passing the meridian
is employed in obtaining the passage of the Sun*s center over the wires of a transit
instrument, when the passage of one limb only has been observed. The quantity
found in this column is to be added to the time of transit of the first, or western,
limb; and to be subtracted from the time of transit of the second, or eastern, limb.
This page is chiefly used when the Sun is observed on the meridian, at which
instant the local apparent time is o** o™ o*. The longitude from Greenwich expressed
in time is then the corresponding Greenwich apparent time, before or after noon
according as the longitude is east or west. The longitude of any place is therefore
the factor employed in reducing the quantities on this page to apparent noon at
that place.
The right ascension of the Sun thus reduced is the sidereal time of local apparent
noon, and the difference between that and the clock time of the meridian passage
of the Sun is the error of the clock on sidereal time.
The declination of the Sun reduced to the meridian, or apparent noon, of the
place, is required in finding the latitude from a meridian altitude of the Sun.
As an example of the use of page I : —
Let the Sun's declination be required at apparent noon, 191 2, April 15, at a
place whose longitude is 89° 40', or 5** 58" 40^ west from Greenwich : —
h m s
I^ocal apparent time . . April 15, o o o
Longitude from Greenwich (additive) 5 58 40
Greenwich apparent time . . . April 15, 5 58 40
[Eph 12]
688 THE AMERICAN EPHEMERIS.
Reducing the minutes and seconds to decimals of an hour, we find that this
moment is 5*^.978 after Greenwich apparent noon on April 15, or i8**.o22 before
Greenwich apparent noon on April 16.
On page 38 of the Ephemeris we find that the change of declination in one
hour is:
//
April 15, at Greenwich apparent noon . +53- 65
April 16, at Greenwich apparent noon . +53. 24
Difference for one day . . — o. 41
If great exactness is desired, we find the amotmt of this hourly difference for
the time which is halfway between Greenwich noon and the time of observation;
that is, for 3 hours after Greenwich noon of the 15th, this being half of 6 hours.
Three hours is 0.125 of a day; so the calculation is as follows:
//
Difference for one hour, April 15
Change for 0.125 of a day or — o". 41 X0.125 .
Difference at 3 hours after noon .
53"- 60X5.978=320" .4=5' 20^^.4
Declination at Greenwich noon, April 15
Change in 5.978 hours (additive) .
Sun's declination at time of observation .
When the time of observation is only a few hours before Greenwich noon, it
may be better to count the longitude backward from this nearest noon. Thus, in
the example just given the time is i8**.022 before Greenwich noon of April 16; half
this interval is about 0.375 of a day, and the hourly motion for the middle of the
interval is 53".39. Then, we find —
+53- 65
— 0.05
+53.60
Off/
N.
9 44 12.2
5 20.4
N.
9 49 32.6
//
Declination at Greenwich noon, April 16 . N. 10 5 35.0
Product of 53".39X 18.022 =962". 2 (subtractive) — 16 2.2
Sun's declination at time of observation . . N. 9 49 32. 8
It will always be well to make the calculation in both ways, as a check; but if
the results differ slightly, the one derived from the nearest noon should be regarded
as the more accurate. At sea, however, it is ordinarily sufficient to compute the
declination to the nearest half minute, and the reduction may then be found by
Table 12 of Bowditch's American Practical Navigator,
Page II contains, for Greenwich mean noon of each day, The Surd's Apparent
Right Ascension and Declination, the Equation of Time, and the Sidereal Time of
Mean Noon. The hourly changes of these quantities are also given, and may be
used in reducing them for the longitude, or to any Greenwich mean time. When
great precision is required, these changes should be interpolated for half the Green-
wich time, as described in explaining the calculation of the declination.
The Equation of Time given on page II is the apparent time of mean noon,
and is equivalent to the hour angle of the true Sun at the instant of mean noon.
The heading of the column directs how the equation must be applied to mean
time in order to obtain apparent time.
The Sidereal Time of Mean Noon is the right ascension of the mean Sun at
Greenwich mean noon. It may be reduced for the longitude, or to any Greenwich
[Eph 12]
USE OF THE TABLES. 689
mean time, by using the hourly diflference, 9^.8565; or by Table III appended to
this volume, for reducing intervals of mean solar to sidereal time; or by Table 9
of Bowditch's Navigator.
The right ascensions and declinations on pages I and II are afiFected both by
aberration and nutation, and therefore denote the apparent positions of the true
Sun. Page I is used for observations which depend upon apparent time, as when
the Sun is observed on the meridian; while page II is used when the times have
been noted by a clock or chronometer regulated to mean time, as is the case in
most observations of the Sun out of the meridian.
The Sun's declination is required whenever that body is observed for the
purpose of finding latitude, local time, or azimuth, and the equation of time is
needed in finding the apparent time when determining the latitude from observa-
tions of the Sun out of the meridian.
The sidereal time of mean noon, or right ascension of the mean Sun, is useful
in converting mean time to sidereal time. We first find the Greenwich mean
time, then the right ascension of the mean Sun for that time, and this being added
to the local astronomical mean time will give the sidereal time.
The sidereal time of mean noon, reduced for the longitude of the place, is also
used in converting sidereal time to mean time. Subtracting the reduced value
from the given sidereal time gives the interval of sidereal time from noon, and that
is converted into the required mean time by subtracting from it the corresponding
reduction of a sidereal interval to a mean-time interval, taken from Table II ap-
pended to this volume, or from Table 8 of Bowditch's Navigator. Instead of
using Table II, this reduction may be found by multiplying 9'.8296 by the hours
and parts of an hour of the sidereal interval from noon.
As examples of the use of page II : —
I. — Let the Sun's right ascension and the equation of time be required for
1912, July 13, 10** 3™ 30P, A. M., mean time, at a place whose longitude is 85® 15',
or 5** 41" 0^ west of Greenwich.
h m 8
Local astronomical mean time July 12, 22 3 30
Longitude from Greenwich (additive) . . . 5 41 o
Greenwich mean time .... July 13, 3 44 30 = 3**.74i7
Sun*s Right Ascension. Equation of Time.
h m s m 8
July 13, Greenwich noon 7 29- 28. 88 July 13, Greenwich noon 5 29. 41 (subtractive)
H. D. io".i59 X 37417 + 3801 H. D.-ho".303X3.74i7 -4- 113
7 30 6.89 5 30.54
In this case the hourly dififerences interpolated to half the interval, or 1^.87 after noon, have
been used. The equation of time is here subtractive from mean time. Its reduction could have
been found by Table 12 of BoworrcH's Navigator.
2. — If the sidereal time is required for the same date and time, we have —
h m 8
July 13, sidereal time (at Greenwich mean noon) . 7 23 59.47
Reduction for 3** 44™ 30" from Table III, or 9".8565 X 3741 7 + 36. 88
Add the local astronomical mean time 22 3 30. 00
The required sidereal time is (rejecting 24**) . . 5 28 6. 35
The reduction 36'.88 can be found in Table III corresponding to the Greenwich mean
time 3** 44" 30", or by Table 9 of Bowditch's Navigator.
[Eph 12]
191 2 44
690 THE AMERICAN EPHEMERIS.
3. — On 1912, July 13, A. M., at a place whose longitude is 85** 15' W., suppose
the sidereal time to be 5** 28°* 6".35, and that the corresponding mean time is re-
quired.
The astronomical day is July 12; the longitude in time, + 5** 41™ o", or + 5^683.
h m s
July 12, sidereal time (at Greenwich mean noon) . . 7 20 2.91
Reduction for s^ 41" o' from Table III, or 9".8565 X 5683 + 56. 01
The sidereal time of local mean noon . . . 7 20 58. 92
The given sidereal time (+24**, if necessary for the following sub-
traction) . . . . 29 28 6. 35
Subtracting the first from the second gives the sidereal interval
from noon 22 7 7.43=522^.1187
Reduction for 22** 7™ 7".42 from Table II, or — 9".8296 X 22.1187 — 3 37.42
The required astronomical mean time is . July 12, 22 3 30.01
Page III contains, for Greenwich mean noon of each day, The Sun*s Trtie
Longitude and Latitude, and the Logarithm of the Radius Vector of the Earth, The
longitudes of the Sun are the true geometric longitudes, not corrected for aberra-
tion. They are given in two columns, headed respectively A. and A.' ; A. representing
the Sun's longitude counted from the true equinox of the date; and A.', the same
coordinate counted from the mean equinox of the beginning of the Bes-
selian fictitious year. The latitude is referred to the mean ecliptic of the date.
Columns of hourly differences are given to facilitate finding the Sun*s longitude, or
the logarithm of the radius vector, for any hour from noon.
The last column on page III contains the Mean Time of Sidereal Noon, that is,
the number of hours, minutes, and seconds after Greenwich mean noon when the
vernal equinox passes the meridian of Green\idch. It may be reduced to any
meridian, or to any Greenwich sidereal time, by using the hourly difference, — 9". 8296,
to effect the necessary interpolation. The reduction, however, can be taken directly
from Table II for reducing intervals of sidereal time to mean solar time, or from
Table 8 of Bowditch's Navigator.
This column may be used in converting sidereal time to mean time, instead
of that on page II. As an illustration, let us take Bxample 3, above.
It is seen in advance that the sum of the mean time of sidereal noon and the
given sidereal time is less than 24 hours. Were it more than 24 hours, the mean
time of sidereal noon should be taken out for July 1 1 ; that is, the preceding astro-
nomical day.
July 12, the mean time of Greenwich sidereal noon is
Reduction for longitude from Table II, or —9". 8296 X 5-683 .
The mean time of local sidereal noon ....
Add the given sidereal time ......
The sum is .
Reduction for 5** 28" 6".35 from Table II, or — 9*.8296 X 5.4684
h m 8
16 37 13.27
-55. 86
16 36 17.41
5 28 6. 35=5>».4684
22 4 23. 76
-53. 75
The required astronomical mean time . July 12, 22 3 30.01
[Eph Z2]
USE OF THE TABLES. 691
Page IV contains The Moon's Semidiameter and Equatorial Horizontal Parallax
for each mean noon and midnight at Greenwich. Columns adjoining those of the
horizontal parallax give the change of that quantity in one hour, by means of
which it can be reduced to any other Greenwich mean time, in the same way as
the Sun's declination and the equation of time in the preceding examples. The
sign plus or minus is prefixed to the hourly differences, according as the horizontal
parallax is increasing or decreasing.
The reduction of the Moon's semidiameter may be readily found by multiply-
ing the reduction of the horizontal parallax by 0.273, or by simply computing the
proportional part.
If, for example, the semidiameter of the Moon is to be taken out for 19 12, March lo, 7^,
P. M., Greenwich mean time, we see that the difiference of the semidiameters at noon and mid-
night of March 10 is 3". 4; then,
i2*» : 7**==3".4 : 2".o
which is the correction to be subtracted from the semidiameter at noon, because the semidi£uneter
is decreasing. The Moon's semidiameter for March 10, 7^, is therefore 14' 54".7.
The Moon's semidiameter and horizontal parallax are required for all obser-
vations of the Moon. When great precision is needed, the hourly differences
should be interpolated for half the interval of Greenwich time from noon or mid-
night, and the horizontal parallax should be corrected for the latitude of the place
of observation.
The Mean Time of The Moon's Upper Transit at Greenwich and the Age of the
Moon are also contained on page IV. The time of transit is given to tenths of a
minute, and is accompanied by a column of differences for one hour of longitude,
by means of which the local time of the Moon's meridian transit may be computed
for any other place whose longitude is known. Table 1 1 of Bowditch's Navigator
furnishes the necessary reduction by simple inspection. The age of the Moon, or
the time elapsed since the preceding new Moon, is given to tenths of a day.
Pages V-XII contain The Moon's Right Ascension and Declination for each
day and hour of Greenwich mean time. They are accompanied by columns of
differences for one minute, which are also given at each hour. The Greenwich
mean time, which is required for taking out these quantities, may either be taken
from a well-regulated chronometer, or may be obtained by applying the longitude,
converted into time, to the local mean time of the observer. The right ascension
or declination is taken out for the given day and hour of Greenwich mean time;
the Diff, for i Minute is multiplied by the minutes and parts of a minute of the
Greenwich time, and the product is added to or subtracted from the quantity,
according as the latter is increasing or decreasing.
Thus, suppose the Moon's right ascension and declination are required for
1912, April 27, 10** 10" 30^, astronomical mean time at Greenwich: —
Right Ascension. Declination.
April 27, 10** .
Diff. 2.0361 X 10.5 .
h m s
II 40 18.98
21.38
• • a •
— 16. 206X10. 5
0 * tt
N. 4 49 34. I
— 2 50. 2
April 27, 10** 10™ 30* II 40 40. 36 . N. 4 46 43.9
For the sake of precision, the differences here employed ha^e been interpolated for 5^.2 =o'*.09.
Page XII contains also the Phases of the Moon and the dates of the Moon's
Perigee and Apogee, or least and greatest distances from the Earth.
[Bph za]
692 THE AMERICAN EPHEMERIS.
Pages 146-177 contain the geocentric ephemerides of the seven major planets.
The places given are apparent positions; that is, they are referred to the equator
and true equinox of the date, and are corrected for aberration. All the data except
meridian passage are given for the instant of Greenwich mean noon. The column
Meridian Passage shows the hour, minute, and tenth of that passage of the planet
oyer the meridian of Greenwich which occurs next after the noon of the date.
The right ascension and declination of a planet are required whenever it is
observed for time, latitude, or azimuth. The mode of reducing the ephemeris
positions of planets to other instants of Greenwich mean time is the same as that
given for the Sun on pages 687-690. The local mean time of meridian passage of
any planet, at any place, can be found by dividing the proper daily difference of
the ephemeris times by 24, multiplying the quotient by the longitude of the place
expressed in hours and fractions, and applying the product with its proper sign
to the time of Greenwich passage.
Pages 178-199 contain the heliocentric coordinates of the seven major planets,
and the logarithms of their distances from the Earth. The heliocentric longitude
is reckoned, not from the true equinox, as in the preceding ephemerides, but from
the mean equinox of the date. It is, therefore, necessary to apply nutation, if the
longitude from the true equinox is required. The daily motion is given for the
instant of Greenwich mean noon. The column Reduction to Orbit contains the
correction to be applied to the heliocentric longitude in order to obtain the longi-
tude counted along the orbit of the planet. The latter is equal to the distance
from the mean equinox to the node, plus the distance from the node to the planet.
The heliocentric latitude is counted from the mean ecliptic of the date. The
Logarithm of Radius Vector is the logarithm of the distance of the center of the
planet from that of the Sun, at the Greenwich mean noon whose date is given in
the first column. The last two columns give, respectively, the logarithm of the
true distance of the center of the planet from that of the Earth, for the Greenwich
noon indicated on the left-hand side of the page, and for the time which is midway
between that date and the date next below it. In the case of Mercury, this inter-
mediate date is mean midnight of the same day; in the case of Venus and Mars,
it is the mean noon of the day immediately following; in the case of Jupiter and
Saturn, it is mean noon of the second day following; and in the case of Uranus
and Neptune, mean noon of the fourth day following.
Pages 200-207 contain the rectangular coordinates of the center of the Sun,
referred to the center of the Earth as the origin, and to the true equator and equinox
of each date as the plane and point of reference. Each coordinate is given both
for Greenwich mean noon and for Greenwich mean midnight of the same day.
The columns Reduc, to Mean Eq'x of Jan. o, give the corrections to be applied to
the coordinates for noon in order to obtain the corresponding coordinates referred
to the mean equator and the mean equinox of the beginning of the Besselian
fictitious year.
Pages 208-21 1 give for every Greenwich mean noon and midnight the apparent
geocentric longitude and latitude of the Moon referred to the true ecliptic and
equinox of the date.
Page 212 contains the position of the Moon's equator, the longitude of the
Moon's perigee, the mean longitude of the Moon's ascending node, and the Moon's
mean longitude.
[Eph 12]
USE OF THE TABLES. 693
Page 213 contains the elements of the libration of the Moon, and the Sun's
aberration and horizontal parallax. The epochs of greatest libration of the Moon,
together with the formulae for finding the libration in longitude and latitude, are
given on page 566. The Sun^s Aberration is the quantity which is to be applied
to the true longitude of the Sun in order to obtain its apparent longitude. The
correction being negative shows that the apparent longitude as affected by aberra-
tion is always less than the true longitude. The Sun's Equatorial Horizontal
Parallax, given in the last column, is the angle subtended by the equatorial radius
of the Earth, as seen from the center of the Sun.
Pages 214, 231-232 give data for precession and the obliquity of the ecliptic,
together with all sensible terms arising from the motions of the equator and ecliptic.
To show clearly the relations of these quantities, let
X = the longitude of any body referred to the true equinox of the date.
X' = the longitude of the same body referred to the mean equinox of the
beginning of the Besselian fictitious year.
tf?^ == the adopted value of the general precession.
d'tp = the principal term of the nutation in longitude; or, in other words, the
correction to be applied to the longitude of a body referred to the
mean equinox of date, in order to obtain that longitude as referred to
the true equinox, exclusive of short period terms. When the cor-
rection is positive, the longitudes referred to the true equinox are
greater than those referred to the mean equinox; while the contrary
is the case when the correction has a negative sign,
d"^ s= the short period terms of nutation in longitude, given on pages 231-232.
oj « the true or apparent obliquity of the ecliptic at the date.
a/ == the mean obliquity of the ecliptic at the beginning of the Besselian
fictitious year.
d'co = the principal term of the nutation of the obliquity of the ecliptic; or,
in other words, the correction to be applied to the mean obliquity of
date in order to find the true or apparent obliquity, exclusive of
short period terms. This quantity is tabulated on page 214, and is
positive or negative according as the true obliquity is greater or less
than the mean obliquity.
d"{» = the short period terms of nutation in obliquity, given on pages
231-232.
r = the fraction of a year intervening between the instant when the Sun's
mean longitude was 280*^ and the date for which A. or a? is required.
Then—
Page 214 contains, for each fifth Greenwich mean noon throughout the year,
certain quantities which may be described in terms of the above notation as fol-
lows: The Precession in Longitude from 19 12.0 = T^^; the Nutation in Longi-
tude = d'tf^i the Nutation in Right Ascension = C^^'^) cos &?'; the Nutation in Ob-
liquity = cJ'gj, and the Obliquity of the Ecliptic = co —S^'cd^ which is the true incli-
nation of the Earth's equator to the ecliptic, exclusive of the terms depending on
the Moon's longitude.
Pages 231-232 contain the values of <^"^ and <?"&?, which are not included in
the values of nutation given on page 214.
[Eph 13]
694 THE AMERICAN EPHEMERIS.
PART //.—THE EPHEMERIS FOR THE MERIDIAN OF WASHINGTON.
Page 216 contains formulae for reducing the positions of fixed stars, including
expressions for the Besselian star-numbers and star-constants, and for the inde-
pendent star-numbers; the whole based upon the constants of the Paris Conference
of May, 1896, and expressed in the notation of Bessel. Formulae are also given
on page 217 for computing the corrections to star places due to the effect of the
short-period terms of the nutation.
Pages 218-221 contain the logarithms of the Besselian Star-Numbers, A, B,
C, Dy for each Washington mean midnight, with the values of E appended at the
bottoms of the pages. These numbers serve to reduce the mean place of a star
at the beginning of the Besselian fictitious year to its apparent place at the dates
for which the numbers are given, and in ordinary cases four-figure logarithms
suffice; but where extreme accuracy is desired the logarithms of A, C, and D are
sometimes needed to five places of decimals. If used in accordance with the
English and French notation, the pair of quantities A and B must be interchanged
with the pair C and D; that is, A must be interchanged with C, and B with D.
Along with the solar day, the first column contains the sidereal hour of Washington
mean midnight for certain dates, and by interpolation among them it is easy to
find the sidereal time for which any set of quantities is given.
The following is an example of the reduction of a star to apparent place by
the Besselian star-numbers:
*
Computation of the apparent place of 36 Tauri for May j, 1912, for the upper transit at Washifi^on.
log a 0.5543
log 6
8.1716 logc
8.5646
. log
d 8.7993
log A 9.2729
logB
0.9362 n log C
i.iSi^n
log
D i.i28ofi
log a' 1.0039
logl/
9.9365 « logc'
8.6733
log
d' 9.3089
log Aa 9.8272
logBb
9. 1078 n log Cc
9.7i6on
log
Dd 9.9273 n
log Aa' 0.2768
log B6'
0.8727 log Cc'
9.8247 n
log
Dd' 0.4369 n
h
m s
• # /»
Mean Place, 1912,0.
^0 = 3
59 5-724
*o=-f23 51 51.52
>la =
-I-0.672
Aa'= 4-1.89
Bb =
—0.128
B6' = +7.46
Cc =
—0.520
Cc' = —0.67
Dd^
—0.846
Dd'^ -2.73
E =
— O.OOI
r//'= —O.OI
May I,
TM =
0.000
Apparent Place,
3
59 4-90I
<5=+23 51 57.46
-/'
-f O.OI I
«= 3
59 4.912
Pages 222-229 contain the Independent Star-Numbers, which can frequently
be advantageously used instead of the Besselian Star-Numbers, These quantities
are connected with those of Bessel by the relations given on page 216, which also
contains the formulae and precepts for the application of both systems of numbers.
In order to use the Besselian numbers, it is necessary to have the values of the
star-constants, a, 6, c, d, a', 6', c', d\ while the independent star-numbers render
it possible to determine the apparent place of a star without computing these
star-constants. Four-figure logarithms usually suffice, but where extreme accu-
racy is desired the logarithms of g and h are needed to five places of decimals,
and G and H are needed to one-tenth of a minute of arc. The column r gives
the fraction of a year, counting from the beginning of the Besselian fictitious year
to each date.
[Eph la]
USE OF THE TABLES. 695
The following is an example of the reduction of a star to apparent place by the
independent star-numbers: —
Computation of the apparent place of 36 Tauri for May j, J 91 2, for the upper transit at Washington.
h m • '
G = 19 34.1 60= 4- 23 51.9
h m
0^0= 3 591 G-fao= 23 33.2
f/=i5 6.2 //+ao= 19 5.3
h m a
log ^ 8.8239 log tV 8.8239 cTo = 3 59 5.724
logg 0.9739 log* 1.2906 / = +0.586
sin (G-f OTo) 9.0670 » sin (//-f OTo) 9.9821 n (g) = —0.032
tan 6^ 9.6458 sec ^o 0.0388 (h) = — 1.366
log (g) 8.5106 n log (h) 0.1354 «
r/i « 0.000
« = 3 59 4.912
//
log^ 0.9739 log A 1.2906 *o = + 23 51 51.52
cos (G+ao) 99970 cos (H-^a^) 9.4488 (^) = + 9.35
, ... sin *o 9.6070 (V) = + 2.22
logO;') 0.9709 ... ^ - S62
iog(Ao 0.3464 ;>= _ ^:o,
* = + 23 51 57.46
log t 0.7888 n
cos ^o 9.9612
log (t) 0.7500 n
Page 230 contains for every tenth sidereal day the Bessdian and Independent
Star-Numbers, exclusive of all short period terms'. They are useful in computing
ephemerides of stars, similar to those on pages 287-486, for which constants con-
taining short period terms should not be employed.
Pages 231-232 contain for Washington Mean Midnight of each day, the short
period terms of the nutation in longitude and obliquity, for use in connection with
the formulae on page 217, and the coefficients, mentioned below, which are given
for each star on pages 287-486.
Pages 233-250 contain the mean places of eight hundred and twenty-five stars,
for the beginning of the Besselian fictitious year, or, in other words, for the moment
when the Sun's mean longitude is 280^. The annual variations are to be considered
as the dififerential coefficients of each coordinate with respect to the time at the
beginning of the year.
Pages 251-286 contain the apparent positions of fifteen northern drcumpolar
stars for every upper transit at Washington. The mean solar time of transit is
given in the column Mean Solar Date, in order that each transit above and below
the pole may be readily identified. Suppose, for example, that the transit of
Polaris below the pole on January 26 is to be found, and we wish to know whether
it precedes or follows the upper transit of the same date. On page 251 we find
that the upper transit occurs January 26.2; the lower transit, therefore, occurs
January 26.7. But the lower transit following that of July i (page 257) does not
take place until July 2.3. Hence the lower transit of July i precedes the upper one
of the same date. A transit occurring very nearly at noon may also be identified
without a computation to ascertain the actual mean date, by simply noting the
tenth of a day in the column Mean Solar Date.
[Eph za]
696 THE AMERICAN EPHEMERIS.
The secant and tangent of the apparent declination for the 15th of each month
and the mean place in right ascension and declination for the beginning of the year
are given for each star at the foot of the page.
Pages 287-486 contain, for every tenth upper transit at Washington, the
apparent places of 800 stars, being all those given in the list of mean places, except
the twenty-five drcumpolars. The mean solar date in the left-hand column of
each page gives the day and tenth of the transit, so that intermediate transits
may be readily identified; and to facilitate interpolation, the differences of each
coordinate are given for every ten days.
In connection with the ephemeris of each lo-day star there are given at the
foot of the page, (i) the secant and the tangent of the mean of the star's greatest
and least apparent declinations during the year, (2) the seconds of the mean place
in both right ascension and declination for the beginning of the year, and (3) the
coefficients of the short period terms of the nutation, the use of which is explained
on page 217.
Pages 487-510 contain ephemerides of ten southern drcumpolar stars in all
respects similar to those of northern drcumpolar stars on pages 251-286.
Pages 51 1-5 1 7 contain the mean errors for 1920 in both right ascension and
declination of the places of the 825 stars on pages 233-250 taken from Astronomical
Papers of the American Ephemeris, Vol. VIII, Part 2, pages 370-382. They furnish
data for estimating approximately the accuracy of the Mean Places of the Stars
on pages 233-250.
Pages 518-525 contain the apparent right ascension and declination of the
Sun, both for Washington mean and apparent noon, and the hourly motion of the
Sun in these coordinates; the equation of time, the semidiameter of the Sun, and
the sidereal time of semidiameter passing the meridian, for Washington apparent
noon; and, lastly, the sidereal time of mean noon. The hours and minutes of right
ascension and the degrees and minutes of declination are always made the same for
both mean and apparent noon. In cases where they really differ, the minute which
would have been numerically larger is diminished by one, and the seconds increased
by sixty, so that the sum of the two remains correct. The hourly motions in right
ascension and declination are given for the columns headed Mean Noon, but may
be regarded as having the same values for apparent noon.
The Equation of Time for Apparent Noon is the correction to be applied to
apparent time in order to obtain mean time. It is, therefore, mean time minus
apparent time. Bach number as given is the mean time of transit of the Sun's
center over the meridian of Washington, counted from the nearest noon. The use
of all the quantities is substantially the same as in the Ephemeris for the Meridian
of Greenwich.
Pages 526-541 contain the right ascension, declination, semidiameter, and
parallax of the Moon at the moment of upper and lower transit over the meridian
of Washington. In previous volumes these have been given for upper transit only.
The mean time given in the second column is that of transit of the Moon's center
over this meridian. The differences for one hour of longitude are the amounts by
which the local mean times of transit over a meridian one hour west of Washington
would exceed those given in the column Mean Time of Transit, supposing the rate
of change to be uniform and equal to what it is at the instant of transit over the
meridian of Washington. The next four columns need no especial explanation^
except that the differences for one hour of longitude are computed as if the motion
[£ph Z3]
USE OF THE TABLES.
697
of the Moon in right ascension were uniform, or, in other words, they are differential
coefficients corresponding to the instants of Washington transit. By means of
them, when second differences are taken into account, the position of the Moon can
be computed with great exactness for the moment of transit over any meridian not
more than one hour distant from Washington. To obtain the same accuracy for
more distant meridians, we may proceed as follows: Let F represent either the
Mean Time of Transit, the Right Ascension of Center , or the Geocentric Declination of
Center, and let D represent the corresponding Difference for One Hour of Longitude.
Adding twelve hours to the time of lower transit at Washington gives the time of
upper transit at places whose longitude is i8o° from Washington. Write down
three successive values of F, together with the corresponding values of D, and dif-
ference the latter as in the following scheme; where the middle values, Fq and Dq,
belong to the culmination from which is to be derived the value of F for the cul-
mination on the meridian whose longitude is A. : —
Function.
Diflf. for
I Hour of
Longitude.
J'
A'*
F-,
Fo
F+,
Do
D+.
a'
b
Then, for the culmination at the meridian \
48 864
where A. must be expressed in hours and decimals of an hour, and reckoned from
Washington or from 180° from Washington according as the upper or lower cul-
mination is used for the middle value (Fo).
The columns of Sidereal Time of Semidiameter passing Meridian, Geocentric
Semidiamster and Eqtiatorial Horizontal Parallax do not seem to need any explana-
tion, except that they all refer to the moment of transit. The column Bright Limbs
is given to indicate to the observer which limbs are illuminated. When one limb
is full and the terminator is within i" of the opposite limb, both can be well
observed, and in such cases both are indicated, the defective limb being indicated
by an italic letter or numeral.
Pages 542-558 contain the geocentric apparent right ascensions and declina-
tions of the seven major planets, together with their horizontal parallaxes, semi-
diameters, and sidereal times of semidiameters passing the meridian, for the
moments of all transits which it is usually desirable to observe over the meridian
of Washington. The columns following the dates give the Washington mean times
of these transits.
PART ///—PHENOMENA.
This part gives the dates of the principal astronomical phenomena of the year,
expressed in Washington mean time, except in the case of the eclipses, which are
expressed in Greenwich mean time.
Pages 560-565 contain all necessary data respecting the solar and lunar eclipses
which occur during the year.
The eclipse elements are given for the moment of conjunction of the Sun
and Moon in right ascension, but the subsequent tables and results are computed
[Eph Z2]
698 THE AMERICAN EPHEMERIS.
from the exact positions of these bodies at the several instants referred to. The
times and angles designated as the circumstances of a lunar eclipse remain the
same throughout all parts of the Earth, and require no explanation beyond a
mere statement of the fact that in computing them the geometrical diameter of
the Earth's shadow has been augmented in the proportion of 51 : 50. The principal
circumstances of each total and annular eclipse are stated in five lines on page 561,
as follows: —
The line entitled ** Eclipse begins" gives the Greenwich mean time at which
the Moon's penumbra first touches the Earth, together with the latitude and
longitude of the point of contact.
The line entitled "Central eclipse begins" gives the time when the axis of
the Moon's shadow first touches the Earth, and the latitude and longitude of the
point of contact follow.
The line entitled "Central eclipse at noon" gives the time when the axes of the
Earth and of the shadow cone lie in the same plane. The latitude and longitude
of the point where the axis of the shadow cone then cuts the Earth's surface follow,
and there the eclipse will be central and the Sun will be exactly on the meridian.
The lines entitled "Central eclipse ends" and "Eclipse ends" give, respectively,
the times when and the localities where these events occur, the phenomena being
the converse of those denoted by the similar phrases for the beginning.
In the case of partial solar eclipses the axis of the Moon's shadow does not
come into contact with the Earth, and the three lines entitled, respectively, "Cen-
tral eclipse begins," "Central eclipse at noon," and "Central eclipse ends," are
replaced by a single line entitled "Greatest eclipse," whereon are given the time
when and the latitude and longitude where the eclipse attains its greatest magni-
tude. The latter phenomenon necessarily occurs with the Sun in the horizon.
Maps of the Eclipses. — ^The regions in which each ecUpse is visible are shown
upon the map relating to it, from which may be taken approximately, for any
place, both the times of the beginning and ending of the eclipse and its magnitude.
The dotted curves show the outline of the shadow for each hour of Greenwich mean
time, and therefore pass through all places where the eclipse begins or ends at
the hour indicated. To find the instant of beginning at any place, we determine
by inspection between what pair of these curved lines the place is situated. The
eclipse will then begin between the corresponding hours of Greenwich mean time;
and the fraction of the hour may be determined by dividing the hour in the same
proportion as the space representing it on the map is divided by the place in
question. This division may be made a little more exact by allowing for the
changes in the spaces as indicated by their varying width. The Greenwich mean
time thus found must be reduced to local mean time by applying the longitude.
As an example, suppose we wish to find the times at which the eclipse of 191 2,
October 9-10, begins and ends at Rio de Janeiro, Brazil, latitude 22® 54' S., lon-
gitude 43° 10' W.
For the beginning we compare the distance of the place from the curves of o**
and 23^, and find it to be on the o** curve, thus giving for the approximate time
of beginning o*^ 0°*; for the end we compare the distance of the place from the
curves of 2^ and 3*^, and find it to be about 50 minutes from the former, thus
giving for the approximate time of ending 2** 50", and both of these results are
probably correct to within 3 or 4 minutes.
[Eph X2]
USE OF THE TABLES. 699
Changing to local mean time, we shall have —
Beginning. Ending,
d h m d h m
Greenwich mean time . . October lo o o lo 2 50
Longitude west . . . 2 53 2 53
Local mean time . October 9 21 7 9 23 57
In the case of total and annular eclipses, a fair estimate of the magnitude of
the eclipse at any place may be obtained from the position thereof relatively to
the central line and to the limit. On the central line, the eclipse is annular or
total, while between the central line and the limit the maximum magnitude of
the eclipse is given by the quotient of the distance of the place from the limit
divided by the distance of the central line from the limit; the measurements
being made upon a line drawn through the place, perpendicularly to the central line.
More Accurate Computations. — ^A more accurate determination of the phases,
as visible at any point of the Earth's surface, may be obtained from the Besselian
elements which are given for every 10 minutes of Greenwich mean time. Their
geometric signification is as follows: —
Let us imagine a plane passing through the center of the Earth, perpendicular
to the right line joining the centers of the Sun and Moon. This latter line is the
axis of the Moon's shadow, and the plane is called the fundamental plane or plane
of xy. We take the intersection of this plane with that of the Earth's equator as
the axis of x, and the center of the Earth as the origin of coordinates. The axis
of y is perpendicular to that of x, and directed toward the north; x and y are then
the coordinates of the point in which the axis of the shadow intersects the funda-
mental plane, and they are here expressed in terms of the Earth's equatorial
radius as unity. The angle d, of which the sine and cosine are both given, is the
declination of that point of the celestial sphere toward which the axis of the shadow
is directed; or, in other words, it is the declination of the center of the Sun as
seen from the center of the Moon. The angle /i is the Greenwich hour angle of this
same point of the celestial sphere.
The quantities l^ and /, are the radii of the shadow cones upon the funda-
mental plane, /^ corresponding to the penumbra, and /, to the umbra, or annulus.
The notation is that of ChauvenET's Spherical and Practical Astronomy, in which
/, is regarded as positive for an annular and negative for a total eclipse.
The angles/i andyj, the tangents of which are given, are the angles which the
elements of the respective shadow cones make with the axis of the shadow; or,
they are the semi-angles of the two cones.
In order to facilitate interpolation to any required moment, the logarithms
of x\ y y and /i', which are the changes of x, >•, and /i, in one minute of time, are
given at the bottom of the table.
The method of computing an eclipse from its Besselian elements is based on
the fact that at the moments of beginning and ending the distance of the observer
from the axis of the shadow or penumbra is equal to the radius of the latter at the
point of observation. To find this distance and radius we proceed as follows : —
(i) The coordinates of the observer, 4^, 77, and C, together with their vari-
ations in one minute, are computed for some assumed moment of Greenwich mean
time, as near as practicable to the true time of the required phase.
(2) The coordinates x and y of the axis of the shadow, together with their
variations in one minute, are taken for the same moment from the tables of elements.
[Eph 12]
700
THE AMERICAN EPHEMERIS.
(3) From (i) and (2) the position and motion of the observer relative to the
axis of the shadow are found.
(4) The radius of the penumbra or umbra at a distance from the fundamental
plane equal to that of the observer is also computed.
(5) Then, assuming the motions to be uniform, we determine the time required
for the observer to be brought to a distance from the axis of the shadow equal to
this radius.
The formulae and directions for the several steps in the computation are as
follows : —
(i) Find p cos q/ and p sin (p', which are the geocentric coordinates of the
station referred to the Earth's equator, p being the distance from the center of the
Earth, and q^ the geocentric latitude. These coordinates may be obtained from
geodetic tables, or may be computed from the following table based on Clarke's
spheroid of 1866, by the formulae —
p cos (p' = F cos (p
, sin (p
P sm <p' = -^
<p being, as usual, the geographic latitude.
Table for Computing the Geocentric Coordinates of a Place,
9
IJOgF.
Log G.
0°
5
10
15
20
25
30
35
40
45
50
55
60
65
70
75
80
85
90
0.00000
O.OOOOI
0.00004 \.
0.000 10
0.00017 ^
0.00026 ^
0.00037 "
0.00048 ^*
0.00061 *^
0.00074 *^
0.00086 "
0.00099 *^
O.OOIII "
zo
0.0012 1
0.00130 ^
0.00138
0.00143 '
0.00146 ^
0.00147
0.00295
0.00294 '
0.00291 ^
0.00285
0.00278 ^
0.00269 '
0.00258 **
0.00247 "
0.00234 1
0.00221
0.00209 "
0.00196 *^
0.00184 "
10
0.00174
0.00165 ^
0.00157
0.00152 *
0.00149 ^
0.00147 "
For the assumed Greenwich mean time of computation, take from the table
of elements the values of sin rf, cos rf, and p. Then, with A. for the longitude west
from Greenwich, the coordinates of the observer will be —
S ^ p cos <p' sin {p — A.)
tj = psixKp' cos d — p cos (p' sin d cos (p — A.) = r/^ — 7,
C = psin9/sind-}-p cos (p' cos d cos {p — X) = Ci + Cj
and their variations in one minute of mean time will be —
4"' = [7.63992] p cos ^ cos (/i — X)
Vf =* [7-63992] p cos ^' sin d sin {p — A.) = [7.63992] 5 sin d
C is not needed.
[Eph la]
USE OF THE TABLES. 701
(2) For the same assumed moment of Greenwich mean time, take from the
tables of elements the coordinates x and y of the axis of the shadow, together with
their variations for one minute, which are equal to one-tenth of the differences of
two consecutive numbers. These variations are represented by yf and /, and their
logarithms are given beneath the tables of % and y.
(3) The distance m and position-angle M of the axis of the shadow relatively
to the observer, and the relative motions, n and iV, are computed by the formulae —
m sin M—x —S
m cos M^y —7
n sin N ^x' — S'
n cos N ==y — tf
(4) Both for the shadow and for the penumbra, the radius L at the distance C
from the fundamental plane is computed by the formula —
L=/- Ctan/
/ and / being found from the table of elements, and C computed in (i).
(5) If the time chosen for computation is exactly that of the beginning or
ending of the eclipse, we shall have —
But, as this condition will rarely be fulfilled on a first trial, a correction r to the
assumed time is computed thus: Find the angle ^ from the equation,
^^^msin(M-iV)
L0
There will be two values for this angle, of which one will be in the first and the
other in the second quadrant when sin ^ is positive, and one in the third and the
other in the fourth quadrant when sin tp is negative; but simplicity will be gained
by taking only that value of ^ for which cos ^ is positive. This value lies between
the limits +90® and —90°. The correction r to the assumed time of begixming or
ending of the eclipse will then be found, in minutes, from —
mcos (M—N)^L cos ^
n n
where the double sign is to be taken negative for the beginning and positive for the
ending.
However, one such pair of values of r can not give the times of both beginning
and ending with accuracy. To attain that, we must commence the computation
by assuming two times, one near the beginning and the other near the ending of
the eclipse, both of which may be derived from the chart with sufficient exactness.
The computation for the first assumed time will give a small value of r which, when
applied to the assumed time, will give the beginning of the eclipse nearly correctly,
and a large value which will give an inaccurate time of ending. Similarly the
computation for the second assumed time will give a small and nearly correct value
of r for finding the time of ending, and a large and inaccurate negative value for
finding the time of beginning. We shall thus deduce two times of each phase, only
one of which is to be regarded as approximately correct.
[Eph 12]
702 THE AMERICAN EPHEMERIS.
The more accurate times of beginning and ending may now be taken in place
of those originally assumed, and the whole computation may be repeated, thus
leading to a pair of values of r, which should be very small and accurate. Such
a repetition of the computation will in general be advisable, to guard against acci-
dental numerical errors, but a second approximation may be obtained without it,
by finding a corrected value of r in accordance with the formulse —
tfy,:Fr(/' + [5.3ioo]gcos^_[_4-97mg3i„ (NT ^) -7, cos (NT ^)]
ncostp ncostp
ro = r-f<Jr
where the double signs are to be taken negative for the beginning of the eclipse and
positive for the ending. /' is the variation of / for one minute of time, and its
numerical value can be taken by inspection from the table of Besselian elements.
If the resulting values of r^ are not greater than fifteen minutes, the corrected
times of contact thus obtained will be theoretically exact within less than a second,
but the uncertainties of the solar and lunar tables are such that an unavoidable
error of several seconds may exist in the prediction. To guard against numerical
mistakes it is better, after making this final correction, to repeat the computations
so far as to obtain new values of m and L for the corrected times. If these two
quantities agree within a unit of the fourth place of decimals, the times employed
are generally correct within a second of time. If they differ too widely, the
computer must use his own judgment as to making further corrections and com-
putations.
Position-angle of Point of Contact. — ^The position-angle P, of the point of con-
tact, reckoned from the north point of the Sun's limb toward the east, is found by
the formula —
P=iV— ^±180*^ for the beginning,
P^N+tp for the ending,
it being assumed that, in each case, the value of tp is taken between the limits ± 90*^.
Computation of the Solar Eclipse of 1912, October 9-10, for Rio de Janeiro.
The position of Rio de Janeiro is —
Latitude, 9?=— 22 54 24
Longitude, A. = -f 43 10 21
and its geocentric coordinates are —
psin 9'' = 9.58748*1
p cos <p' = 996455
From the Eclipse Chart we find the approximate times of the phases to be —
d h m
Beginning October 10 o o ) .
Ending 10 2 50 f Greenwich Mean Time.
Beginning. BncHng.
Greenwich Mean Time, T, October 10, o** o^ 2^ 50™
M 3 13 42 45 44 24
A. 4-43 10 21 4-43 10 21
/'-A. -39 5<> 39 + 2 34 3
[Eph 12]
USE OF THE TABLES.
703
Beginninff.
Ending.
pcos q}
9.96455
9.96455
sin (/*— A.)
9.80756 n
8.65124
\ogS
9.7721 1 n
8.61579
S
"O.59171
+ 0.04128
p sin (p'
9.58748 n
9.58748 ft
cosd
9.99710
9.99707
log77i
9.58458 n
9.58455 ^
^71
— 0.38422
-0.38419
p cos ^'
9.96455
9.96455
sin cf
9.06105
9.06385 n
cos (M—^)
9.88461 n
9.99956
log 7,
8.91021 n
9.02796 n
'7a
— 0.08132
— 0.10665
7=Vi-V2
— 0.30290
-0.27754
p sin (p' sin c/
8.64853
8.65133
c,
+0.04452
+0.04481
p COS 9/ COS d cos (a^ — A.)
9.84626
9.961 18
c,
-+- 0.701 87
+0.91450
c=c.+c.
+0.74639
+0.95931
const, log
7.63992
7.63992
pcos 9> cos (;<— A.)
9.84916
9.9641 1
log 5'
7.48908
7.60403
^'
+0.003084
+0.004018
const, log
7.63992
7.63992
^ sin (2
8.83316
7.67964 n
log>7'
6.47308
5.31956 n
'7'
+0.000297
— 0.000021
x-S
-0.39564
+0.37252
y-v
+0.36208
-0.41536
x'-S'
+0.005158
+0.004225
/-7'
— 0.004724
— 0.004400
w sin M
9.59730 n
9.57115
m cos M
9.55881
9.61843 n
tan M
0.03849 n
9.95272 n
M
-47° 32' 9"
-138^ 6' 45"
sin M
9.86788 n
9.82457
log m
9.72942
9.74658
n sin iV
7.71248
7.62583
n cos iV
7.67431 n
7.64345 n
tanA^
0.03817 n
9.98238 n
iV
-132° 29' /'
-136° 9' 43"
sin N
9.86774
9.84050
log n
7.84474
7.78533
[biph \z\
704
THE AMERICAN EFHEMEBIS.
tan/
logC
Beginning.
7.67063
9.87296
Boding.
7.67065
9.98196
Ctan/
/
7.54359
-h 0.00350
+ 0.54384
7.65261
+ 0.00449
+ 0.54417
L
M-N
an(M-Ar)
log m
colog L
+ 0.54034
+ 179° 58' 44"
6.56639
9.72942
0.26733
+ 0.53968
-I^ 5/ 2"
8.53195
9.74658
0.26787
sin tf)
6.56314
+ 0° I' 15"
8.54640
+ 2° I' 0"
log^
n
1 .88468
1. 961 25
cos {M—N)
0.00000 n
9.99975
1 .88468
1. 96100 n
^cos(M-iV)
ft
+ 76.680
-91.412
logL
9.73267
9.73213
cos ^
colog n
0.00000
2.15526
9.99973
2.21467
1.88793 n
1 .94653
T-L cos ^
n
-77.256
+ 88.416
r
m
- 0.576
d h m
m
— 2.996
d h m
T+r
9 23 59.424
10 2 47.004
Since the value of r for the ending is rather large, we compute the corrections
8r for this phase as follows:
const, log
log^
cos d
finding.
5.3100
8.6158
9.9971
3.9229
number
+ 0.0000008
/'
+ 0.0000015
sum
+0.0000023
log (sum)
4.3617
logr
0.4765 n
colog n
2.2147
sec ff)
0.0003
7.0532 n
Bnding.
(0
— O.OOII
N+i>
138^11'
sin (iV+^)
9.8240
logJT
8.6158
log ^ sin iN+t/>)
8.4398
cos iN+i>)
9.8723 n
log Vt
log 7, cos (N+i>)
9.0280 n
8.9003
S an (N+i>)
+0.0275
17, cos iN+i>)
+0.0795
diff.
— 0.0520
[Eph 12]
USE OF THE TABLES.
705
log (diff.)
const, log
log r*
colog (n cos ^)
Bnding.
8.7i6on
4.9788 n
0.9530
2.2150
(2)
+ (i) + (2)«cyr
T
to
Bnding.
+ 0.0007
m
— 0.0004
— 2.996
— 2.006
6.8628
« .^^w
The corrected time of ending is, therefore,
To = Oct. 10^ 2^ 47°'.oo4
Whence we find —
Beginning,
d h m
Greenwich Mean Time, October 9 23 59.424
A. +2 52.690
Local Mean Time, October 921 6.734
Therefore we havi
m
Bnding.
d h m
10 2 47.004
+ 2 52.690
9 23 54.314
Beginning of the EcUpse, October 921 6 44.0 > j^^^j ^^^ ^^^^
End of the Eclipse, October 9 23 54 18.8)
constant
Beginning,
e /
132 279
180 0.0
Bnding.
e /
138 10.7
o 0.0
Angle of position: P 312 27.9 138 10.7
from the north point of the Sun's disk toward the east for direct image.
Moon's Phases, Libraiian, etc. — Page 566 gives the central standard time
of the Moon's phases, apogee, perigee, and greatest libration, together with the
formulae for finding the libration in longitude and latitude whenever required.
'The times of the equinoxes and solstices are also given on this page.
Mean Places of Stars Occulted During the Year. — Pages 567-570 contain the
adopted mean places and annual proper motions of such stars brighter than
magnitude 6.5 as will be occulted by the Moon.
Elements of Occultations, — Pages 571-604 give the elements for the prediction
of the times of occultations of stars and planets by the Moon during the current
year. The system of coordinates employed is similar to that already described
for eclipses, the fundamental plafie passing through the center of the Earth, and
being taken perpendicular to the line joining the star and the center of the Moon,
but the cone circumscribing the Moon and star is regarded as a cylinder which
intercepts the fundamental plane in a circle having the same linear diameter as
the Moon.
In the columns referring to the star, those headed Red'ns from 191 2.0 give the
quantities necessary to reduce the mean place of the star at the beginning of 191 2
to its apparent place at the time of occultation. These reductions are sufficiently
accurate to be definitive.
Under the general head, At Conjunction in R. A., are five columns giving
certain quantities for the moment of geocentric conjunction of the Moon and star
in right ascension, as follows: —
191 2 45 IKph xal
706 THE AMERICAN EPHEMERIS.
The Washington Mean Time is the moment, T, at which the two bodies are in
geocentric conjunction in right ascension. At that moment the coordinate x of
the axis of the cylinder on the fundamental plane has the value zero. The column
Hour Angle, //, gives the common geocentric hour angle of the Moon and star
at the same moment, expressed in sidereal time and counted from the meridian
of Washington — positive toward the west and negative toward the east. Column
Y gives the coordinate y of the axis of the cylinder upon the fundamental plane
at the same moment. Columns x' and y give the variations of x and y in one
hour of mean time. The linear unit in these columns is the Earth's equatorial
radius. The limiting parallels, north and south, show the extreme limits of latitude
within which the occultation will be visible.
By the aid of these elements, the Washington mean time of immersion and
emersion of a star relatively to the limb of the Moon may be computed for any part
of the Earth by a method nearly the sp.me as that already explained for computing
eclipses, but somewhat more simple.
Prediction of Occultations for a Given Place. — ^When it is desired to predict th^
circumstances of one or more occultations at any place, the first step will be to
select them from the general list given in the Ephemeris. The conditions of
visibility are : —
1 . The limiting parallels in the last columns must include the latitude of the
place.
2. The quantity H — X, taken without regard to sign, must be less than the
semi-diurnal arc of the star by at least one hour. On very rare occasions an
emersion might be seen in the east, or an immersion in the west, when this difference
is a few minutes less than an hour.
3. The Sun must not be much more than an hour above the horizon at the local
mean time T— A., unless the star is bright enough to be seen in the daytime.
When many occultations are to be selected, the most convenient course will
be to write the value of —A on the bottom of a slip of paper, and in passing through
the list of occultations, to pause over each one for which condition (i) is fulfilled/
and examine by means of the slip whether conditions (2) and (3) are also fulfilled.
If either fails, the computer passes on. Sometimes it will be difiBicult to determine
whether //— A. or T— A. falls within the limits; and in such cases the computer may
mark the occultation for trial and leave the decision for the subsequent opera-
tions. The whole list can be gone over in less than a day, and it will probably
be found that about one-tenth of the occultations are marked for trial.
The next step will be to compute the local times of immersion and emersion
from the elements, and to that end let —
T=the instant of geocentric conjunction of Moon and star in right ascen-
sion, expressed in Washington mean solar time;
// = the Washington west hour angle of the two bodies at that moment;
X = the longitude west of Washington;
ho^H—X^the local hour angle of the star at the instant T;
<y = the star's declination.
The procedure for each occultation will then be as follows: —
(i) The geocentric coordinates of the place, p sin 9?' and p cos (p', are to be
computed by the formulae and table given in connection with eclipses on page 700.
[Epb 14]
USE OF THE TABLES. 707
The next step will be to find the approximate instant of apparent conjunc-
tion of the Moon and star as seen from the place, and that may be deduced from
the time of geocentric conjunction by the application of an approximate correc-
tion taken from Mr. Downes's table, printed in the volumes of the American
Ephemeris for 1882 to 1899. This correction must be reckoned in mean solar
hours, and will be designated by the symbol L It will have the same sign as ho.
When Downes's table is not available, the correction may be computed from
the formulae,
5*0 = /o cos q>' sin ho
S' = [9.4192] p cos (p' cos - ho
By applying t to the Washington mean time of geocentric conjunction, as
given with the elements, we shall have the Washington mean time of local con-
junction within a few minutes.
(2) Compute for the instant T+t the following quantities, in which to is the
sidereal equivalent of the mean time interval t:
S =p cos (p' sin (ho+to)
rj =/o sin (p' cos d—p cos (p' sin S cos (feo + W — ^i~^a
^'==[9.4192] p cos (p' cos {ho-\-to)
7^ = [9.4192] p cos (p' sin d sin (/^o+^o) = [9.4192] S sin S
X =*'/
Compute also w, M, n, iV, and ^ from the equations
m sin M^x—S
m cos M^y—Tf
nsinN^x' — S'
ncosN^y' — rf
sin tp «= [0.5646] m sin {M—N)
ip being taken between the limits ±90°. Finally compute
[i.7782]w ,_. ^^^^[1.2135]
r=-^— ^-^ — ^— cos (M—N)T~ ^^— cos tp
cyr«I|^^'[;7,cos (iVT^)-5sin (iVT^)]
where the double signs are to be taken negative for an immersion and positive for
an emersion. Both r and Sr thus have two values, which are expressed in minutes
of time, and in order to distinguish them let those pertaining to immersion be
designated respectively r' and dr\ while those pertaining to emersion are designated
t" and 6r'\ We then have for the Washington mean times of the phases,
Instant of immersion = T + / + r' + 6r'
Instant of emersion = T 4- < + r" + (J r"
These expressions are practically exact, as the corrections 6r seldom amount
to so much as 1.5 minutes, and whenever an inaccuracy of that magnitude is per-
missible they may be omitted. As a check upon the results, it will be advisable
[Epb xa]
708 THE AMERICAN EPHEMERIS.
to compute S^ 17, x, and y for the times of immersion and emersion finally obtained.
If these times are correct the quantities in question will fulfill the condition,
V (ic-5)«+(y-7)'=o.2725
If log m sin (Af — JV)>9.4354, sin ff) will be numerically greater than unity,
and no occultation is to be expected at the given place; but a very brief one may
occur if the excess of the computed distance over the Moon's semidiameter happens
to be within the errors of the ephemerides of the Moon and star.
The position-angle of the line from the Moon's center to the star, at the time
of contact, is reckoned from the north point toward the east, and designated by
the symbol P. It is computed from the formula,
P = iV— ^ -f- <JP for immersion,
p=JV-f-^-f-<JP± 180° for emersion,
where the angles N—ip and iV-f-^^ are taken directly from the computation of Sr,
and 6P is found in degrees of arc from the expression
*P- T^^^I^V sin N+B cos N]
In the latter formula the double sign is to be taken negative for an immersion
and positive for an emersion.
The angle from the vertex, V, is also reckoned in the direction from the north
toward the east, and is found from the formula,
where C is computed from the expression
g+[8.22i8]rg^-[4.98io]r«g
'"VH-[8.22i8]T7'H-[4.98io]r«%
C being taken less or greater than 180^, according as the numerator is positive or
negative.
The value of r employed in the latter formula must be so taken as to correspond
with the phase for which C is required.
In the volumes of the American Epbemeris for the years 1882 to 1901 instruc-
tions are given for constructing three special tables which greatly diminish the
labor of computing occultations, but as these tables should contain from 4700 to
6300 quantities, and as they would apply only to the place for which they were
computed, it will rarely be worth while to undertake the labor of forming them.
Those who desire further information on the subject may consult any one of the
volumes in question.
As an example of an isolated occultation, we will compute that of a Scorpii
(Antares) on June 26, 1912, for Cincinnati, whose position is —
9'-+39'* 8' 20"
A.« + o*^ 29"^ 25".6
and whose geocentric coordinates are —
psin 9>' = 9.7978
fjQOs 9^ = 9.8902
From the elements on page 587, we have
h m
T= II 12.3
H= + I 7.8
and fco«=H-X= -h o 38,4
[Eph 13]
USE OP THE TABLES.
709
From the formulae on page 707^ we find the correction, t, to the Washington
mean time of geocentric conjunction, T, to be about -|-o*^ 22™.5; therefore the
Washington mean time of apparent conjunction is —
7 4./= June 26«> ii*» 34".8.
a Scorpii {Antares).
Apparent
Declination.
—26 14.5
W. T. of 6
d h m
June 26 II 12.3
Hour Angle.
h m
+ 1 7.8
+0.7938
0.5449
y
■0.1 2 13
T+/ June
K
to
ho+to
p cos (p'
sin (ho+to)
log 5
S
p sin 9?'
cos 6
p cos (p'
sin <^
cos(&o+W
const, log
pCOS9>'cOS(*o + <o)
log 5'
const, log
^sin d
logv'
rf
\ogx'
log/
logx
X
log/
log//
yt
Y
26** ii**34".8
+ o 38.4
-I- o 22.6
H- I i.o
9.8902
9.4200
9.3102
+0.2043
9.7978
99528
9.7506
+0.5631
9.8902
9.6456 n
99844
9.5202 n
-0.3313
+0.8944
9.4192
9.8746
9.2938
+0.1967
9.4192
8.9558 »
8.3750 »
— 0.0237
97363
9.5740
93103
+0.2043
9.0838 n
8.6578 n
-0.0455
+0.7938
+0.7483
X —
x' -
V
rf
msinM
mcosM
tanM
M
cos M
log m
n sin iV
n cos iV
tanN
iV
sin N
log n
const, log
log m
sin(M-N)
sin^
const, log
log—
cos (M—N)
[1.7782] m
n
cos (M — iV)
const, log
colog n
cos ^
^[1.2135] cos ^
H
n
r for immersion
r for emersion
0.0000
— 0.1461
+0.3482
— 0.0976
— 00
9.1646 n
— 00
180^
0.0000 n
9.1646
95419
8.9894 n
0.5525 n
105° 39'
99836
9.5583
0.5646
9.1646
9.9836
9.7128
+31° 5'
1.7782
9.6063
9.4310
0.8155
-6.54
1.2135
0.4417
99327
1 .5879
T 38.72
-45.26
+32.18
[Eph 12]
710
THE AMERICAN EPHEMERIS.
The computation of 6t for the two contacts is as follows:
Immersion.
Smersiuu.
iV=F^
74° 34'
136° 44'
COS
(NT^tO
94251
9.8622 n
logVi
9.5202 n
9.5202 n
log (I)
8.9453 ^
9.3824
(I)
-0.0882
+0.2412
sin
(iVT^fr)
9.9840
9.8359
log 5
9.3102
9.3102
log (2)
9.2942
9.1461
(2)
+0.1969
+0.1400
(I)- (2)
— 0.2851
+0.1012
log [(I)- (2)]
9.4550 n
9.0051
const, log
6.7591
6.7591
logr»
3.3114
3.0152
colog (
» COS ^&)
0.5090
0.5090
logtfr
0.0345 n
9.2884
dr
1
III
- 1.08
m
+ 0.19
r+tfr
- 46.34
d h m
+ 32.37
h m
T+t
June
26 II 34.8
II 34.8
Washington Mean Time of Phase,
If
26 10 48.5
12 7.2
X
+ 0 29.4
+0 29.4
Cincinnati Mean Time,
June
26 10 I9.I
II 37.8
To find SP and P:
log Vt 95202 n
log 5
9.3102 n
(3)
-0.3190
sin N 99836
cos N
9.431 in
(4)
- 0.055 1
log (3) 9.5038 ^
'
log (4)
8.7413 w (3) +(4)
-0.3741
Immersion.
Emersion.
log [(3) +(4)]
9.5730 tl
9.5730 n
const, log
7.3038 n
7.3038
logr»
3.3114
3.0152
colog COS ip
•
0.0673
0.0673
log 6P
0.2555
0
9.9593 n
0
6P
+ 1.8
-0.9
NTf
74.6
136.7
const.
0.0
180.0
Angle of position : P
76.4
315.8
from the north point of the Moon's limb toward the east, for direct image.
Occuliaiions Visible at Washington, pages 605-606. — Here are given in detail
all the data necessary for observing every occultation of the general list which is
visible at Washington during the current year.
[Eph 12]
USE OF THE TABLES. 711
Phenomena of Planets and Satelliies, pages 607-647. — ^These are, for the most
part, sufficiently explained in the body of the work, but the following additional
explanations may be of service in some cases:
Disks of Mercury, Venus, and Mars, pages 607-609. — ^The angle 6, needed in
reducing meridian observations, is the angle which the arc of the great circle from
the planet to the Sun makes with the arc from the planet toward the west, reck-
oned in the direction west, north, east, south. This position-angle is reckoned
from 0° to 360°, as in the measurement of double stars, the planet taking the
place of the central star, but its measure is 90® greater than in the case of a double
star.
We may also regard 0 as expressing the angle which the line of cusps makes
with the meridian, the positive direction of the meridian being toward the north,
and the positive direction of the line of cusps that in which a person following this
line would have the illuminated portion of the disk on his right.
Satellites of Jupiter, pages 610-635. — The abbreviations designating the phe-
nomena are explained at the foot of each page. The differences in right ascension
and declination between Jupiter and the sixth and seventh satellites are given on
page 613.
Satellites of Saturn, pages 636-643. — ^The explanations are given on page 637,
the Washington mean times of greatest elongations on pages 637-639, and the
apparent elements of the rings on page 640. The differences in right ascension
and declination between Phcebe and Saturn are given on page 639.
Tables for predicting the position-angles and distances from the center of
the planet are given on pages 641-643. Formulae at the foot of each page give the
method by which the tables are to be used.
Satellites of Uranus, pages 644-646, contain the diagram and ephemerides of
the satellites, their position-angles and distances from the center of the planet,
and also tables for predicting the position-angles and distances of the satellites
from the center of the planet, similar to those for Saturn.
Satellite of Neptune, pages 646-647. — ^These pages give the diagram and ephem-
eris of the satellite, the position-angles and distances from the center of the
planet, and also a table for predicting the position-angle and distance from the
center of the planet, similar to those for Saturn.
Phenomena, pages 648-649. — The predicted times of the conjunctions, quad-
ratures, and oppositions of the planets with respect to the Sun are respectively
the instants when the longitude of each planet differs from that of the Sun by
0°, ±90°, or 180°.
For the conjunction of the planets with the Moon, and with each other, the
predicted times are the instants when the two bodies have the same right ascen-
sion. The degrees and minutes to the right show the difference of declination at
the moment of conjunction.
Positions of Observatories, pages 650-659. — ^The latest available data have
been used in compiling these positions, and many of them have been furnished
through the courtesy of the directors of the several observatories in response to
a circular issued by this office. The values given for Log p and the Reduction to
Geocentric Latitude are based upon Clarke's spheroid of 1866. See page XII.
[Eph Z2]
712 THE AMERICAN EPHEMERIS.
Page 660 contains an example in the computation of lunar distances, which
is inserted because the lunar distance tables have been omitted from the Green-
wich Ephemeris, Part I.
Pages 661-683 contain a series of tables numbered I to VII for facilitating the
determination of latitude and azimuth from observations of the Pole Star (Polaris).
Table I gives, for every two days, the apparent right ascension and declination
of Polaris, as well as the central standard times of upper and lower culmination,
and of east and west elongation of that star, together with the sidereal time of mean
noon for the meridian of Greenwich.
Tables II and III, for the conversion of sidereal into mean solar time, and vice
versa, are the same as in former issues of the American Ephemeris and Nautical
Almanac. Table III may be used as an interpolation table for finding from the
last column of Table I the sidereal time of mean noon at any place, using the longi-
tude of the place as argument.
Table IV, computed for latitude 45^, is an expansion of Table IV of previous
issues of the American Ephemeris and Nautical Almanac, and is intended for the
use of navigators. It is more accurate than the old table, even when uncorrected
by means of the auxiliary Table IVa, and is perhaps no less convenient. For
many purposes it is sufficiently accurate for determination of latitude by surveyors.
Table V, for the determination of azimuth from Polaris at all hour angles,
may be used for the rough determination of azimuth on land, and with the necessary
instruments may be used for finding the compass deviation at sea.
Table VI, intended for the use of surveyors and astronomers, gives the azimuth
of Polaris at elongation, with vertical argument the latitude of the place of observa-
tion, and horizontal argument the declination of the star, which latter is to be taken
from column three of Table I.
Table VII, which gives for middle northern latitudes the necessary data for
determination, without instruments, of the meridian when the time is unknown,
will occasionally be found useful on both land and sea.
The following-named persons were engaged in the preparation of the Ameri-
can Ephemeris and Nautical Almanac for the year 191 2:
Assistants and Employees. — ^James Robertson, H. B. Hedrick, H. G. Hodgkins,
W, T. Carrigan, Arthur Snow, Arthur Newton, Perez Fisch, W. M. Hamilton,
H. H. Brogan, Miss Isabel Martin, Roberdeau Buchanan, Mrs. E. B. Davis, Miss
Janet McWilliam, Mrs. H. F. M. Hedrick, Alfred Doolittle, Henry B. Evans,
Geo. B. Merriman, F. E. Ross, Wm. Auhagen, G. F. Crawley, Thomas E. Trott,
B* J. Sigmund, Louis Lindsey.
[Eph i3|
INDEX.
Abbreviations XVI
Aberration, Constant of . . - XII
of the Sun 213
Age of the Moon Greenwich Ephemeris IV
Algol (see Beta Persei).
Alpha Canis Majoris (Sirius), Apparent Place 345
Mean Place 238
Orbit Position IX
Parallax IX
Alpha Canis Minoris (Procyon), Apparent Place 352
Mean Place 238
Orbit Position IX
Parallax IX
Alpha Centauri, Apparent Place 403
Mean Place 243
Orbit Position \ , IX
Parallax IX
Alpha Lyrae (Vega), Apparent Place 438
Mean Place 246
Alpha Ursae Minoris (Polaris), Apparent Place 251
Mean Place 233, 250
Polaris Tables 661
Anniversaries and Festivals XIV
Aphelia of Planets 648
Apogee of Moon Green?rfch Ephemeris XII, 566
Apparent Places of 800 Standard Stars 287
of 15 Northern Circumpolar Stars 251
of 10 Southern Circumpolar Stars 487
Ariel, First Satellite of Uranus 644, 645, 646
Arrangement and Use of the American Ephemeris 685
Aspects of the Planets 648
Astronomical Constants XII
Azimuth of Polaris at all Hour Angles 676
at Elongation 678
Beginning of the Seasons 566
Besselian Elements of Solar Eclipses 562, 564
Formulae for Star Reductions 216
Star Numbers 218,230
Exclusive of short-period terms 230
Beta Lyrae, Apparent Place 440
Mean Place 246
Beta Persei (Algol), Apparent Place 314
Mean Place 235
Brilliancy of the Planets, greatest. (See Stellar Magnitudes of Planets.)
Charts of Solar Eclipses following pages 562, 564
Chronological Eras and Cycles XV
Circumpolar Stars, Apparent Places 251,487
Mean Places 250
[Eph 13] 713
714 INDEX.
Clarke's Spheroid XII
Conjunctions of Planets 648
of Satellites 611
Constants, Astronomical XII
Culminations, Moon 526
Polaris 661
Cygni 61, Apparent Place 460
Mean Place 247
Parallax IX
i>ay, Civil and Astronomical 686
Length of XII
of Julian Period XV
Deimos, Second Satellite of Mars. (Omitted in 191 2.)
Delta Cassiopeix, Apparent Place 297
Mean Place 233
Used for finding time of culmination of Polaris 683
Differential Coordinates of Jupiter's Vlth and Vllth Satellites 613
of Phoebe 639
Dione, Fourth Satellite of Saturn 636,638,641,643
Disk of Mars 609
of Mercury 607
of Venus 608
Distance, Astronomical Unit of XII
of the Af oon XII
of the Planets (see also reference under each planet) XIII
of the Sun XII
Dominical Letter XV
Earth, Dimensions of XII
Elements of Orbit of XIII
Earth's Radius Vector, Logarithm of Greenwich Ephemeris III
Easter, date of XIV
Eccentricities of the Earth and Planets XIII
Eclipses, Solar and Lunar, Elements and Circumstances of 560
Solar, Besselian Elements of 562, 564
Charts of . . following pages 562, 564
Correction to Elements of X
Path of the Shadow 563, 565
Ecliptic, Obliquity of 214
Election Day, Date of XIV
Elements of Planetary Orbits XIII
Elongations of Planets 648
of Satellites 611,637,644,647
Elongation of Polaris, For Latitude +45° 661
Azimuth at. Table VI 678
Enceladus, Second Satellite of Saturn 636,637,641,643
Ephemeris for the Meridian of Greenwich (Part I) 1-214
of Washington (Part II) 215-558
Equation of Time for Greenwich Apparent Noon . Greenwich Ephemeris I
for Greenwich Mean Noon Greenwich Ephemeris II
for Washington Mean Noon 518
Equator, Moons 212
Equinoxes, Date of 566
Errata IV
Errors, Mean, for 1920 (Newcomb's Star Catalogue) 511
Eta Arg<ls, Apparent Place 375
Mean Place ............ 240
[Eph xa]
INDEX.
715
Festivals, etc
Geocentric Ephemerides of the Planets
Latitude, Reduction to
Golden Number
Gravity, Acceleration due to
Greenwich Kphemeris (Part I)
Heliocentric Coordinates of the Planets
Hyperion, Seventh Satellite of Saturn .
lapetus. Eighth Satellite of Saturn
Independent Star-Numbers .
Exclusive of Short-period Terms
Formulae for .
Irradiation
Julian Period
Jupiter, Distance from Earth, logarithm of .
Elements of Orbit of
Greenwich Transit of .
HeUocentric Longitude and Latitude of .
Horizontal Parallax of
Radius Vector (Distance from Sun), logarithm of
Reduction to Orbit
Right Ascension and Declination at Greenwich Mean Noon
at Washington Transit
Satellites, Diagram of Apparent Orbits of . . .
Periods of
I, II, III, and IV, Phenomena and Configurations of
Times of Superior Conjunction of
Satellite V, Greatest Elongation of .
Satellites VI and VII, Differential Coordinates of
Semidiameter, Adopted Constant of
Apparent ....
Sidereal Time of, Passing Meridian
Stellar Magnitude of
Washington Transit of
Latitude, for finding, by an Observed Altitude of Polaris, Tables
Formula for Reduction to Geocentric .
Heliocentric, of the Planets .
of the Moon ....
of the Sun ....
Length of the Day ....
of the Month ....
of the Seconds Pendulum
of the Year ....
Libration of the Moon ....
Light, Velocity of ....
Longitude, Heliocentric, of the Planets
Mean, of the Moon
Nutation in . . .
of the Sun ....
Short Period Terms of Nutation in
True, of the Moon
Lunar Distances, Example in
Magnitudes, Stellar, of Jupiter
of Mars
of Mercury
of Neptune .
of Saturn
[Eph 12]
IV, IVa
Greenwich Eph
Greenwich Ephemeris
Pa«e.
XIV
146
650
XV
XII
1-2 14
178
636, 639, 642, 643
636, 639, 642, 643
222,230
230
216
XI
XV
194
XIII
164
194
164,551
194
194
164
551
610
610
614
6x1
611
613
XIII
164.551
551
609
551
671
XII
178
208
III
XII
XII
XII
XII
2i3»566
XII
178
212
214
III
231
208
660
609
609
607
609
609
emens
716 INDEX.
Magnitudes, Stellar, of Uranus 609
of Venus 608
Maps of Solar Eclipses following pages 562, 564
Mars, Apparent Disk of 609
Distance from Earth, logarithm of 190
Elements of Orbit of XIII
Greenwich Transit of 158
Heliocentric Longitude and Latitude of 190
Horizontal Parallax of 158,550
Occultation of 573
Radius Vector (Distance from Sun), logarithm of 190
Reduction to Orbit 190
Right Ascension and Declination at Greenwich Mean Noon 158
at Washington Transit 550
Satellites, Diagram of App. Orbits, Times of Greatest Elongation. (Omitted in 191 2.)
Semidiameter, Adopted Constant of XIII
Apparent 158,550
Sidereal Time of. Passing Meridian 550
Stellar Magnitude of 609
Washington Transit of 550
Mass of Planets XIII
Mean Errors for 1920, of 825 Standard Stars (Newcomb's Star Catalogue) 511
Mean Places of 825 Standard Stars 233
of 15 Northern Circumpolars 250
of 10 Southern Circumpolars 250
of Stars Occulted by the Moon 567
Mean Solar into Sidereal Time, Table III 668
Mercury, Apparent Disk of 607
Distance from Earth, logarithm of 178
Elements of Orbit of XIII
Greenwich Transit of 146
Heliocentric Longitude and Latitude of 178
Horizontal Parallax of 146, 542
Radius Vector (Distance from Sun), logarithm of 178
Reduction to Orbit 178
Right Ascension and Declination at Greenwich Mean Noon . 146
at Washington Transit .... 542
Semidiameter, Adopted Constant of XIII
Apparent 146,542
Sidereal Time of. Passing Meridian 542
Stellar Magnitude of 607
Washington Transit of 542
Meridian Passage of Jupiter 164,551
of Mars 158,550
of Mercury * . 146,542
of Moon Greenwich Ephemeris IV
of Neptune i77,557
of Saturn i7o»553
of Sun Greenwich Ephemeris 1,518
of Uranus 176,555
of Venus '. 152,546
Mimas, First Satellite of Saturn 636,637,641,643
Mira (see Omicron Ceti).
Mizar (see Zeta Ursae Majoris).
Month, Length of XII
Moon, Age of, at Greenwich Mean Noon .... Greenwich Ephemeris IV
Apogee and Perigee Greenwich Ephemeris XII,566
[Eph 13]
INDEX. 717
Page.
Moon, Bright Limbs 526
Culminations, upper and lower, Meridian of Washington 526
Distance from Earth, Mean XII
Eclipses during the Year, Elements and Circumstances of .... 560, 648
Ephemeris of Greenwich Ephemeris V-XII
Equator, Position of . 212
Libration, Formulae for computing i 566
Quantities used in computing 213
Times of Greatest 566
Longitude and Latitude of 208
Formulae for VII
Longitude, Mean 212
True 208
Motion of , in Mean Longitude 212
Node, Mean Longitude of 212
Parallax for Greenwich Noon Greenwich Ephemeris IV
for Washington, upper and lower Transit 526
Mean Equatorial Horizontal XII
Perigee and Apogee Green?ricfa Ephemeris XII, 566
Perigee, Mean Longitude of . 212
Phases of Greenwich Ephemeris XII, 566
Right Ascension and Declination for each Hour . Greenwich Ephemeris V-XII
for Washington upper and lower Transit . 526
Semidiameter, Adopted Constant of XI, XIII
Apparent Greenwich Ephemeris IV, 526
Sidereal Time of. Passing Meridian 526
Transit, upper, at Greenwich Greenwich Ephemeris IV
upper and lower, at Washington 526
Neptune, Distance from Earth, logarithm of 199
Elements of Orbit of XIII
Greenwich Transit of 177
Heliocentric Longitude and Latitude of 199
Horizontal Parallax of I77f557
Radius Vector (Distance from Sun), logarithm of 199
Reduction to Orbit 199
Right Ascension and Declination at Greenwich Mean Noon . 177
at Washington Ttaasit 557
Satellite, Diagram of Apparent Orbit of 647
Period of 647
Tables for Determining Position Angle and Distance of . 646
Times of Elongation of 647
Semidiameter, Adopted Constant of XIII
Apparent 177.557
Sidereal Time of. Passing Meridian 557
Stellar Magnitude of 609
Washington Transit of 557
Node, Mean Longitude of the Moon's 212
Nutation, Constant of XII
Formulae for VIII
Terms of Short Period in the 231
in Longitude, Right Ascension and Obliquity 214
Oberon, Fotuth SateUite of Uranus 644, 645, 646
Obliquity of the Ecliptic, Apparent 214
Mean XII, 214
Nutation in 214
Short Period Terms of Nutation in 231
Observatories, Positions of, etc 650
[Eph xa]
718 INDEX.
Occultations, Elements for Prediction of 571
Mean Places of Stars 567
of Planets 573, 581
Visible at Washington 605
Omicron Ceti (Mira) Apparent Place 306
Mean Place 234
Opposition of Planets 648
Orbits of the Planets, Elements of XIII
Orbit Positions of Sirius, Procyon, and a^ Centauri IX
Parallax, Annual, of a^ Centauri, 61 Cygni, Sirius, and Procyon IX
Horizontal, of Jupiter 164,551
of Mars ..........'. 158,550
of Mercury 146, 542
of Moon Greenwich Ephemeria IV, XII, 526
of Neptune I77f557
of Saturn 1 70, 553
of Sun 213
of Uranus 176,555
of Venus 152, 546
Solar, Constant of VII, XII
Pendulum, Length of Seconds XII
Perigee of the Moon Oxeenwich Ephemeris XII, 566
Longitude of Moon's 212
Perihelia of Planets XIII, 648
Phases of Edipses of Jupiter's Satellites 615
of the Moon Greenwich Ephemeris XII, 566
Phenomena, Eclipses, Occultations, Satellites, etc., Part III 559
of Jupiter's Satellites 614
Planetary Configurations 648
Phobos, First Satellite of Mars. (Omitted in 191 2.)
Phcebe, Ninth Satellite of Saturn 636, 639
Planetary Configurations 648
Orbits, Elements of XIII
Planets, Aspects of 648
at Greatest Brilliancy (see Stellar Magnitude).
at Stationary Points 648
in Ascending and Descending Node 648
in Conjunction 648
in Elongation 648
in Opposition 648
in Perihelion and Aphelion 648
in Quadrature 648
Occultations of . 573,581
Signs of ............. . XVI
Polaris, Apparent Place 251,661
Azimuth of, at All Hour Angles, Table V 676
Azimuth of, at Elongation, Table VI 678
For Finding the Times of Upper and Lower Culminations from observations in
connection with Zeta Ursee Majoris (Mizar), S. P. and Delta Cassiopeise* S. P.,
Table VII 683
Mean Place 233, 250
R. A., Decl., Culminations and Elongations for the 90th Meridian, Table I 661
Tables for Determining Latitude by Observations of Polaris .... 66 z
Pole Star (see Polaris).
Precession, Formulae for Computing 216
General XII
in Longitude, in Solar Day, in Sidereal Day, for 19 1 2 214
[Eph la]
INDEX.
719
Greenwich
Procyon (Alpha Canis Minoris), Apparent Place
Mean Place ....
Orbit Position
Parallax ....
Quadrature of Planets ....
Radius Vector, of the Earth, logarithm of
of the Planets
Reduction of Solar to Sidereal Time, and vice versa, Tables II, III
of Stars to Apparent Place, Formulae for
Rhea, Fifth Satellite of Saturn
Rings of Saturn
Roman Indiction
Satellites of Jupiter ....
of Mars. (Omitted In 1 9 1 2 . )
of Neptune ....
of Saturn ....
of Uranus ....
Saturn, Distance from Earth, logarithm of
Elements of Orbit of
Greenwich Transit of
Heliocentric Longitude and Latitude of
Horizontal Parallax of
Radius Vector (Distance from Sun),
Reduction to Orbit .
Right Ascension and Declination at Greenwich Mean Noon
at Washington Transit
Rings, Elements for Determining Geocentric Position of
Satellites, Diagram of Apparent Orbits of
Differential Coordinates of Satellite IX
Greatest Elongations of .
Names of
Periods of
Tables for Determining Position Angle and Distance
Tables of Fractions of the Periods of Revolution
Semidiameter, Adopted Constant of .
Apparent
Sidereal Time of. Passing Meridian
Stellar Magnitude of
Washington Transit of
logarithm of
Seasons, Beginning of
Semidiameter of Jupiter
of Mars .
of Mercury
of Moon .
of Neptune
of Saturn
of Sun
of Uranus
of Venus .
Semidiameters of the Sun and Moon, Adopted Constants of
of the Planets, Adopted Constants of
Short Period Terms of Nutation .
in Star Numbers .
Sidereal into Mean Solar Time, Table II
Noon, Greenwich Mean Time of
Time of Washington Mean Noon
or Right Ascension of Mean Sun
[Eph Z3]
Greenwich
Page.
352
238
IX
IX
648
III
178
665
216
636,639,641,643
640
XV
610
Ephemeris
196
170
553
640
636
639
637
636
636
641
641
XIII
170,553
553
609
553
566
164,551
158, 550
146. 542
Greenwich Ephemeris IV, XII, 526
177.557
170,553
1. 518
176,555
152, 546
XI, XIII
XIII
231
216
665
III
Ephemeris
646
636
644
196
XIII
170
196
170,553
196
Greenwich Ephemeris
Greenwich Ephemeris
518
II
Live Music Archive
Librivox Free Audio
Metropolitan Museum
Cleveland Museum of Art
Internet Arcade
Console Living Room
Books to Borrow
Open Library
TV News
Understanding 9/11