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I
THE GIFT OF
^U-tt- . rf ■>~(f^u. ■v^\B.^^fc3
^3
THE
.MERICAN EPHEMERIS
AND
NAUTICAL ALMANAC
FOR THE YEAR
1913
PUBLISHED BY THE NAUTICAL ALMANAC OFFICE, U. 5.
NAVAL OBSERVATORY, BY DIRECTION OF THE SECRETARY
OF THE NAVY AND UNDER THE AUTHORITY OF CONGRESS
WASHINGTON
GOVERNMENT PRINTING OFFICE
I91I
PREFACE.
The character of the matter contained in this issue of the
American Kphemeris and Nautical Almanac, and its arrangement, are
practically the same as in the preceding volume, that for the year
191 2, excepting that ephemerides for observations of certain physical
phenomena of the Sun and Moon and of the planets Mars and Jupiter,
have been inserted in Part III.
The 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. Tables for the determination
of latitude and azimuth from Polaris, tables for the conversion of
time, and an alphabetical list of observatories with their latitudes,
longitudes, and other data, are contained in this part.
On November 2, 1910, when I assumed charge of the Nautical
Almanac Office, the present volume, with the exception of about 35
pages, was in type, and the computations for these pages were either
finished or well advanced. The entire volume was planned and the
new matter, appearing in the Ephemeris for the first time with this
volume, was selected by my predecessor. Professor Milton Updegraff,
U. S. Navy. My connection with it has been confined to rearranging
a few pages and writing up some of the explanatory matter.
W. S. EICHELBERGER,
Professor of Mathematics^ U. S. Navy^
Director Nautical Almanac.
WASniSGTON J yanuaryy ipii.
iBph 13] m
ERRATA.
Pace.
261,
265,
308,
407.
419.
425»
44i»
539,
VII,
XIII,
XV,
)
2I3»
238.
239,
243,
3i9i
397»
407,
4".
460,
465,
67-70,
570,
610,
636,
645.
651,
703.
Ephemeris 191 1, in some copies.
I>ec. 33, Log. Dist for 9.9815309
Dec. 31, Log. Dist for 9.8419039
P Ursae Minoris, Ann. Var. . . . for —0.2096
Nov. 25, R. A. App. Noon . . . for 36.81
Dec. 32, App. Decl /or 23.1
Dec. 31, App. R. A for 33.95
Dec. 32, App. R. A for 42.70
Oct. II, Perigee for 3.5
Nov. 30, Log. i for 0.4844
Ephemeris 1912, first edition.
Third from last line for —0.0376
Elements of the Planetary Orbits . for January o
Jewish era for 5671
The Olympiads for second
Japanese era for 43d
Second column for "
a^ Geminorum, fifth column . . for Aoc
Footnote, second column . . . for t Hydri
Thirty-eighth line fo^ C Librae
Thirty-eighth line, Mag for $.6
Last star for ^ Eridani
7 Ursae Ma j., D^^ for —0.04
y Scorpii, jy^a for -fo.i
First star for C^ Librae
First star for 61^ Cygni
e Pegasi, D,^^ for -I-0.03
Second line for Jan. 0.764
q> Aquarii, Proper Motion . . . for —0.0043
g> Aquarii, Proper Motion . . . for -t-0.091
Synodic Peridd, Satellite VII . . for 260.06
Synodic Period, Satellite IX . . for 580 4.7
Note, Northern Elongation . . . for Northern
Fifth line for West. Univ. Pa.
First and twenty-first lines . . . for p cos ^
iv IBph xj]
read 9-9815313
read 9.8419042
read —0.2086
read 56.81
read 23.5
read 33.94
read 42.65
read 13.5
read 0.4863
read —0.000376
read January i
read 5673
read fourth
read 45 th
read '
read Jd
read c Hydrse
read 32 Librae
read 5.9
read g Eridani
read —0.4
read -|-o.oi
read 32 Librae
read 61 Cygni pr.
read -|-o.3
read Jan. 1.006
read -t-0.0015
read —0.194
read 276.67
read 580 2.9
read Southern
read Univ. of Pittsburgh
read p cos ^'
CONTENTS.
Anniversaries and Festivals ........ vi
Introduction .......... vii
Chronological Eras and Cycles ........ xiii
Astronomical Constants ........ xiv
Symbols and Abbreviations ........ xvi
PART l—EPHEMERIS FOR THE MERIDIAN OF GREENWICH. EaSfM^^.
Epbemeris of the Sun ......... I-III
Ephemeris of the Moon . IV-XII
XII
Page.
146
Jupiter, Saturn, Uranus,
for every
Phases of the Moon
Geocentric Ephemerides of the Planets Mercury, Venus, Mars, Jupiter, Saturn, Uranus,
Neptune ..........
Heliocentric Ephemerides of the Planets Mercury, Venus, Mars, Jupiter, Saturn, Uranus,
Neptune .........
Sun's Co-ordinates ......
Moon's Longitude and Latitude ....
Moon's Eqtiator, Mean Longitude, etc.
Moon's Libration; Sun's Al^rration and Horizontal Parallax .
Precession, Nutation, Obliquity, etc. ....
PART U— EPHEMERIS FOR THE MERIDIAN OF WASHINGTON,
Bessel's Formulae for Star-Reductions, Constants of Paris Conference
Besselian and Independent Star-Numbers, *' "
Besselian and Independent Star-Numbers, exclusive of short-period terms,
tenth sidereal day . • .
Nutation, Terms 01 Short Period in the
Mean Places of 825 Standard Stars for 19 13.0
Mean Places of 25 Circumpolar Stars for 19 13.0
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,
Neptune ......
PART III— PHENOMENA
Eclipses .....
Mean Places of Stars Occulted by the Moon
Elements for the Prediction of Occultations
Occultations Visible at Washington
Epbemeris for Physical Observations of the Sun
Ephemeris for Physical Observations of the Moon
Disks of Mercury and Venus
Ephemeris for Physical Observations of Mars .
Satellites of Mars ....
Epbemeris for Physical Observations of Jupiter
Satellites of Jupiter, Saturn, Uranus, and Neptune
Phenomena, Planetary Configurations .
Positions of Observatories
Problems in Lunar Distances
TABLES.
Table I — For Findine the Latitude by an Observed Altitude of Polaris
Table la — Auxiliary Table of Corrections for Latitudes other than 45®
Table II — Sidereal into Mean Solar Time
Table III — Mean Solar into Sidereal Time
Table IV — Azimuth of Polaris at all Hour Angles
Table V — Arimuth of Polaris at Elongation
Table Va — For Reduction' of Observations Near Elongation
Table VI — For Finding the Times of Upper and Lower Culmination of Polaris
On the Arrangement and Use of The American Ephemeris and Nautical Almanac
Index to Apparent Places of Stars ......
General Index ........
IBvh 13J
178
200
208
212
213
214
216
218
230
231
233
250
251
287
487
5"
518
526
542
560
566
570
605
607
608
616
618
622
623
627
668
670
680
681
685
686
689
692
694
698
699
701
1^
A.NNIVERSARIES AND FESTIVALS. 1913,
New Year's Day
Epiphany
Septuagesima Sunday
Quinquagesima (Shrove Sunday)
Ash Wedne^ay
Lincoln's Birthday .
Washington's Birthday
Palm Sunday .
Good Friday .
Easter Sunday
First Day of Passover
Rogation Sunday .
Ascension Day (Holy Thursday)
Pentecost (Whit Sunday)
Trinity Sunday
Corpus Christi
Memorial Day
Hebrew Pentecost (Shebuoth)
Independence Day .
Labor Day (except in certain States)
Day of Atonement (Yom Kippur)
First Day of Tabernacle (Sucoth)
Election Day (in certain States)
Thanksgiving Day .
First Sunday in Advent .
Christmas Day
Wednesday,
Monday,
Sunday,
Sunday,
Wednesday,
Wednesday,
Saturday,
Sunday,
Friday,
Sunday,
Tuesday,
Sunday,
Thursday,
Sunday,
Sunday,
Thursday,
Friday,
Wednesday,
Friday,
Monday,
Saturday,
Thursday,
Tuesday,
Thursday,
Sunday,
Thursday,
Jan. I
Jan. 6
Jan. 19
Feb. 2
Feb. 5
Feb. 12
Feb. 22
Mar. 16
Mar. 21
Mar. 23
Apr. 22
Apr. 27
May I
May II
May 18
May 22
May 30
June 1 1
July 4
Sept. I
Oct. II
Oct. 16
Nov. 4
Nov. 27
Nov. 30
Dec. 25
VI
[Bph 13]
INTRODUCTION.
The Ephemeris 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 Ephemeris of the Sun is constructed from Professor Newcomb's Tables of
ike Sun, Astronomical Papers of the American Ephemeris, Vol. VI, part i.
The adopted value of the mean equatorial horizontal parallax of the Sun is
8".8o, Paris Conference, May, i8g6.
The Sun's rectangular equatorial coordinates are computed from the longi-
tudes and latitudes by the following formulae:
X = RcosX
y = /? sin X cos OD — 19.3 R ft
Z = /? sin \ sin G? + 44.5 R ft
The reductions to mean equinox are computed by the formulae —
^X= + VsecQ? JXsini"
-dV = - XcosQ? JA.sin i" + ZJoJsin i'' 4- 9.1 r 7? sin (A. 4- 6°)
JZ = - X sin G? JX sin i" - YJo? sin i" - 21.0 r R sin (X + 6°)
where the numerical coefficients are in units of the seventh place of decimals and
R = the Sun's radius vector,
A. s the Sun's true longitude,
ft = the Sun's true latitude, expressed in seconds of arc,
GO = the obliquity of the ecliptic,
JA. = the reduction of longitude for precession and nutation from the begin-
ning of the Besselian fictitious year,
Aco =■ 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
Tohles de la Lune (London, 1857), the mean longitude being corrected as in
previous years, beginning with the volume for the year 1883. The statement con-
cerning these corrections which is contained in the volumes from 1883 to 191 1,
indusive, is erroneous, in that they have not been computed strictly in accordance
with the formula in Newcomb's Researches on the Motion of the Moon, part i, page
268, Washington Observations, 1875, Appendix II. That formula is,
- i".i4 - 29".i7T - 3".86P - V, - o".09sinA - i5".49CosA,
vbik the expression actually used is,
— i''.i4 - 29".i7T - 3".76T^ - V, - i5".49Cos A.
[Eph 13J N\V
viii INTRODUCTION.
In these formulae T is the time in units of loo years reckoned from 1800.
The ephemerides of Mercury, Venus, and Mars are derived from Professor
Newcomb*s tables of these planets, Astronomical Papers of the American Ephemeris,
Vol. VI, parts 2, 3, and 4.
The ephemerides of Jupiter and Saturn are derived from the tables constructed
in this oflBce 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 days 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.
dip = -(i7".234+o".oi7 T) sin Q Se = +9".2i4 cos Ji
4- o".209 sin 2 JJ — o".090 cos 2 JJ
— i".257sin2L 4- o". 546 cos 2 L
- o".049 sin (3 L+r^"'.?) +o".02i cos (3 L+zS"".?)
4- o".iio sin (L+75°.3) -o".oo9 cos (L- 78^.7)
The formulae for the nutation used in computing the Besselian and Independent
Star Numbers, pages 218-229, are as follows:
Terms of Short Period.
— o".204 sin 2 C
-t-o".oii sin (C+rO
-t-o".o68sin (C-T')
— o".034sin (2C- Ji)
-o' '.026 sin (3C-r')
-l-o".oi5sin(C-2 L+O
4-o".oo6 sin 2 (C — L)
+ o".o88cos 2C
-♦-o".oi8 cos (2 a -SI)
+ o".oii cos (3C-r')
-o".oo5Cos (C+r')
Terms of Long Period.
dip
= — 1
(i7".2344-o".oi7T) sin Q
+
o".209 sin 2 SI
—
I ".272 sin 2 L
+
0". 1 26 sin (L-r)
—
o".o5osin (3 L-T)
+
o".02i sin (L+T)
+
o".oi2 sin (2 L— Si)
de
n- -1- (9".2io+o".ooo9 T) cos ft
—
o".090 cos 2 SI
+
o".552 cos 2 L
+
0".022 COS (3 L— f)
—
o".oo9Cos (L + f)
—
o".oo7 cos (2 h—Si)
«
The meaning of the symbols used and the manner in which these latter formulae
have been employed in computing the ephemerides of the stars, pages 251 to 510,
are explained on pages 216 and 217. The slight discrepancy between the terms in
2 L in these two sets of formulae is due to the correction of an error in the first set.
See Bulletin Astronomique, 1898, Vol. XV, page 244.
The list of 825 stars contained in Part II has been selected from Newcomb's
Catalogue of Fundamental Stars, Astronomical Papers of the American Ephemeris,
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 7C Centauri have been taken from VeroeffenUichungen des Koeniglichen Astro-
nomischen Rechen-Instituts zu Berlin, 1907, No. 33.
lEph 13I
INTRODUCTION. ix
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 aberration, precession, nutation, and obliquity of the ecliptic,
used in the reduction of stars to apparent place, are given on pages 213 and 214,
and the formulae for the computation of the Besselian and Independent Star Num-
bers are given on page 216, the coefficients being those given by Professor New-
COMB in Bulletin Astronomiqiie, 1898, Vol. 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 computed from the formulae for these terms given above.
The method by which the right ascensions and declinations of the stars inter-
polated from the lo-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,
0', 6', c\ d' are computed for each star from its mean place at the beginning of the
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 —
s "
H-o.ooo cx)3 r' sin a\ ^ -l-o.ooo 975 r' sin ^a
r' sin d\
r* cosaj
—0.000 149 r* cos a] —0.000 023 cos 2 JJ
-0.000 0650 r' sin 2a
+0.000 0103 sin 2 $2 cos 2a
—0.000 0107 cos 2 (2 sin 2a
—0.000 080 cos 2 (2 cos 2a
tan 'd —0.000 077 sin 2 (2 sin 2a
-f 0.000 040 cos 2 O
4-0.000 0620 sin 2 O cos 2a\ 2^ —0.000 467 cos 2 © cos 2rt
—0.000 0622 cos 2 O sin 2a\ —0.000 465 sin 2 Q sin 2a
tan d
-ho.ooo 0513 sin (O +Jl) cos 2a
-0.000 0507 cos (O + Ji) sin 2a
+0.000 0097 sin (O — Ji) cos 2a
-0.000 0053 cos (O — JJ) sin 2a,
—0.000 039 cos (O + JJ)
tan « sec « "0«» 38o cos (© + JJ) cos 2a
-0.000 385 siii (O + JJ) sin 2a
—0.000 380 cos (©— JJ)
—0.000 040 cos (© — Jl) cos 2a
—0.000 072 sin (©— Ji) sin 2a
sin 6 tan S
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), a Canis Minoris (Procyon),
fl* Centauri, and 61 Cygni have been corrected for the efifect of annual parallax,
the adopted constants of parallax being o".38, o".27, o".75, and o".40, respectively.
The apparent places of a Canis Majoris (Sirius), a Canis Minoris (Procyon),
and a* Centauri, have been corrected for the effect of orbital motion, as tabulated
00 pages 98 and 99 of Veroeffenilichungen des Koeniglichen Astronomischen Rechen-
Insiituts zu Berlin, 1907, No. 33. Auwer's elements were used for Sirius and
Procyon, and See's elements for a' Centauri. The values of these corrections are —
Sirius. Procyon. a^ Centauri.
1913.0 1914.0 1913.0 1914.0 1913.0 1914.0
^a — o*.223 — ©•.227 — o*.048 — o*.053 +o^686 +0^.678
Jrf — o".52 -o".66 -o".57 -o".47 +7".oo -V6" ,7^
IBph 13]
X INTRODUCTION.
[In former issues of the American Ephemeris, values differing from the above
were used for Sirius and Procyon and no correction was applied to a^ Centauii] j
The mean places of these three stars as printed are those derived from Newcomb's ]
Fundamental Catalogue, without correction, and are assumed in each case to be j
the position of the center of gravity of the system.
The values of ^a and ^d which are given for the companions to the stars
y Andromedae, C Ursse Majoris and 6i Cygni have been taken from the Greenwich
lo-year catalogue for 1890, those for a Crucis from the Cape Catalogue for 1900^
and those for a^ Geminorum from Dobbrck's elements in the Asironomische Nock-
fickten, 1904, Vol. 166, page 145.
The magnitudes of the stars have, with a few exceptions, been taken from
Annals of the Harvard College Observatory y Vol. L., 1908.
In general, the names of the stars are the same as in Newcomb's Suggested
List of Fundamental Stars, except that the Flamsteed number has been omitted
in all cases where Greek or italic letters are available. In some cases the con-
stellation and number of the uranometries of Heis or Gould have been used. In
all such cases, Heis or the letter G in parentheses follows the constellation namci
as, for example, 5 Cassiopeiae (Heis) and 38 Horologii (G.).
The stars occulted by the moon, pages 566-569, 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 3.0 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 Bessel'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, the following corrections
to the longitude, latitude, and parallax of the Moon, as given on pages V-XII of
the Greenwich Ephemeris, 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.
dv Sb dn
n n tf
+ 8.4
4-10.4
+ 8.6
4- 90
+ 8.6
The satellites of Mars are computed from manuscript tables based upon
elements deduced by Prof. Walter S. Harshman, U. S. N.
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. E. Barnard.
The differential coordinates of Jupiter's Vlth and Vllth satellites have been
computed from elements and tables published in Lick Observatory Bulletin, 1906,
Vol. IV, No. 112, and in Asironomische Nachrichten, 1907, Vol. 174, page 359,
G. M. T.
1913
Mar. 22^
o»»
Apr. 6
7
Aug. 31
8
Sept. 15
0
Sept. 29
18
+ 1.0
+ 0.4
+ 0.9
+ 0.4
-f I.I
+ 0.3
+ 0.7
+ 0.3
+ 0.5
+ 0.3
I
INTRODUCTION. xi
The elongations and conjunctions of the satellites and the positions of the
nogs of Saturn are computed from manuscript tables based on Prof. H. Struvs's
dements as published in Beobachtungen der Saturnstrahanten, Supplement i, Pul-
kowa Observations, St. Petersburg, 1888. The differential coordinates of Phoebe
have been computed from elements and tables printed in the Annals of Harvard
College Observatory, 1905, Vol. LIU, 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
farious 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
Jimmal, 1898, Vol. XIX, page 65.
The adopted apparent semidiameter of the Sun at the Earth's mean distance
is 16' I ".50; while in the computation of eclipses the value given by AuwERS in
ibt Astronomische Nachrichten, 1891, Vol. 128, page 367, is employed, viz, 15' 59".63.
In the computation of the ephemeris for physical observations of the Sun,
page 607, the following elements by Carrington have been used :
Inclination of the Sun's equator to the ecliptic 7° 15'
Longitude of the ascending node of the Sun's
equator on the ecliptic 73® 40' + 5o".25 (/ — 1850)
Sidereal period of rotation (mean solar days) 25*^.38
The apparent semidiameter of the Moon is computed from the Moon*s equa-
torial horizontal parallax, ?r, by the formula,
S = 0.272 506 Tt 4- I ".50
vhere the constant 0.272 506 is based on data from occultations given by Mr.
J. Peters in the Astronomische Nachrichten, 1895, Vol. y8, page 147; and the
constant i".5o 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,
S = 0.272 274 7r
The ephemeris for physical observations of the Moon, pages 608-615 has been
computed from formulae and elements given by F. Hayn in Abhandlungen der K.
Sdchsischen Gesell, der Wissenschafien, Vols. 29 and 30, 1904, 1907.
The notation used for the geocentric libra tions of the Moon is as follows:
I = the mean inclination of the Moon's equator to the ecliptic (=1® 32'.!),
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 lunar meridian with the circle
of declination, counted from north to east on the apparent disk,
X, fl, a, S =B the geocentric longitude, latitude, right ascension, and declination of the Moon,
I. J^ Q', ([; = the quantities defined on page 212, where their values for the ciurent year are given,
g* = Earth's mean anomaly,
g = Moon's mean anomaly,
C9 =s Angular distance of Moon's perigee from the ascending node,
b,l = Optical librations in latitude and longitude, respectively,
Sb, 61 =» Physical librations in latitude and longitude, respectively,
SC =^ Physical libration of C.
The Moon's geocentric librations in longitude and latitude or, in other words, the earth's
ttlenographic longitude and latitude, are equal to / -f */ and 6 + 66, respeclvve\y, axA xaa^jVafc
lUph 13]
t
xii INTRODUCTION.
found, for any time, by means of the following formulae, in connection with the tables given on
pages 212 and 213: —
/< = — o'.6i7 sin 2 (JJ — A)
i4 = sin / cos (Ji — A)
tanB = tan/an(Ji -A)
A' = A + /I 4- i46
b = B - fl
/ = A' - C
. ^ . . cos (A^ + ^ - O) . . cos (g - ao
smC = sm» ' > *^ — — smf ^^u —
cos O COS o
db = -\- 108" sin (w + /) + 37" sin (w - /) - 11" sin (^ + w - /)
5/ = + 12" sin 5^ — 59" sin ^ — 18" sin 2<o
— [io8"cos(to> +/) — 37" cos ((u -/) + 11" cos (^ + a> — /)]tan6
^C = - [108" cos (a> + /) - 37" cos (a> - /) + 11" cos (y + ft> - /)] sec 6
The Sun's selenographic latitude and longitude have been computed from
formulae the same as those given above except that the heliocentric coordinates
of the Moon have been substituted for the geocentric coordinates.
The following elements have been used in computing the ephemerides for
physical observations of the planets Mars and Jupiter:
Position of north pole of Mars ....]«. ^ , „ , n ^ ,1 \
1^=54 30 o +i2".6o(/-i905)
T> •*• r ^u 1 ^ T •* \a=\i^ 52°^ 0P.84 + oP.247(/-i9io)
Position of north pole of Jupiter . . Ir. , o , „T nrn \
^ -' ^ [0 = 64? 33' 34 .6 — o".6o(/— 1910)
Rotation period of Mars 24** 37" 22^.65
Equatorial region 9** 50°* 30^.004
IGreat Red Spot 9*^ 55°* 40P.340
Longitude of Central Meridian of Mars, May 15, 1897,
Greenwich Mean Noon 52°.oi
Longitude of Central Meridian of Jupiter (Equatorial
Region), July 14, 1897, Greenwich Mean Noon 47°-3i
Longitude of Great Red Spot from Central Meridian of
Jupiter, January i, 1908, Greenwich Mean Noon i2o°.49
The position of the north pole of Mars is as given by Lowell and Crommelin
(see Monthly Notices R. A.S., 1905, Vol. 66, page 56), while that of the north pole of
Jupiter has been deduced from the position given by Damoiseau for 1750 (see
Tables t^clipiiques des Satellites de Jupiter, page (i)). The rotation periods of Mars
and of the equatorial region of Jupiter and the longitudes of the central meridians
of Mars and of the equatorial region of Jupiter are according to Marth (see
Monthly Notices R. A. 5., 1896, Vol. 56, pages 395-403 and 517-524). The rotation
period of the Great Red Spot of Jupiter is a recent value by Barnard, and its
longitude from the Central Meridian is deduced from observations by Barnard
published in Astronomische Nachrichten, 1908, Vol. 178, page 390.
The adopted semidiameters of the planets are given on page xv, and their
stellar magnitudes have been computed from formulae given by Dr. G. MuELLER
in Publicationen des Astrophysikalischen Observatoriums zu Potsdam , 1893, Vol. 8,
page 366.
In the list of observatories, pages 670-679, 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, g^-^, and the distance from the center of the earth, p, are computed
from the formulae for Clarke's Spheroid of 1866 as given on page xiv.
Rotation period of Jupiter
rt».i. . .1
CHRONOLOGICAL ERAS AND CYCLES.
CHRONOLOGICAL ERAS.
m VBAR 19 1 3, WHICH COMPRIS8S THB LATTBR PART OP THB I37TH AND TUB BflGINNINO OP THB
138TH Y8AR OP THB INDBPBNDBNCB OP THB UNITBD STATBS OP AMBRICA, CORRBSPONDS
f (
<<
The year 6626 of the Julian Period;
" 7421-7422 of the Byzantine era, the year 7422 commencing on Sep-
tember I ;
'* 5673-5674 of the Jewish era, the year 5674 commencing on October
2, or, more exactly, at sunset on October i ;
2666 since the foimdation of Rome, according to Varro;
2660 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;
2689 of the Olympiads, or the first year of the 673d Olympiad,
commencing in July, 1913, if we fix the era of the Olympiads
at 775H years before Christ, or near the b^^inning of July of
the year 3938 of the Julian Period;
2225 of the Grecian era, or the era of the SELEuciDiQ, which began
near the vernal equinox of the year, — 3ii = B. C. 312, =4402
of the Julian Period ;
1629 of the era of Diocletian ;
2573 of the Japanese era and to the 46th year of the period entitled
"Meiji."
The year 1332 of the Mohammedan era, or the era of the Hegira, begins on
e3oth day of November, 1913.
The first day of January of the year 1913 is the 2,419,769th day since the com-
ncement of the Julian Period.
CHRONOLOGICAL CYCLES.
t*
<•
minicallvetter E
act 22
lar Cycle or Golden Number 14
Solar Cycle 18
Roman Indiction .... 11
Julian Period 6626
[Bph 13]
^l
ASTRONOMICAL CONSTANTS.
//
Solar Parallax 8.80
Constant of Nutation 9.21
Constant of Aberration 20.47
General Precession 5o".2564+o".ooo 222(t--i9oo)
Obliquity of the Ecliptic .... 23° 27' 8".26-o".4684(t- 1900).
Paris Conference.
Newcomb.
Equatorial Horizontal Parallax of the Moon
57' 2".63* (Newcomb).
Mean distance Earth to Moon 384395 kilometers=238 85i miles, or 60.2669 radii.
Mean distance Earth to Sun 149 499 935 kilometers =92 894 767 statute miles.
Velocity of light 299860 kilometers=i86 324 statute miles per second (Newcomb
and Michelson).
Light travels unit distance in 498^.566.
Gaussian Gravitation Constant, tk = 0.017 202 099 = 3 548". 187 61.
mm 2h
Acceleration in one sec. due to gravity, g== 9.8060—0.0260 cos 2(p— ^ g.t
m
m
2h
Length of seconds pendulum, 7=0.993 549—0.002 631 cos 7(p— ^ /.J
Length of the year: ^
Tropical (ordinary)
Sidereal ....
Anomalistic . . .
Eclipse . i , ,
Length of the month :
Synodical (ordinary)
Tropical ....
Sidereal ....
Anomalistic . . .
Nodical ....
Helmert.
365.242 198 79—0.0000000614 (t— 1900)
365. 2 56 360 42 + 0.000 000 00 1 1 (t— 1900)
365.259641 34+0.0000000304 (t— 1900)
346.620000 +0.00000036 (t— 1900)
Newcomb.
m
s
d d h
29-530588=29 12 44 2.8
27.321582 = 27 7 43 4.7
27.321 661=27 7 43 1 1.5
27554550=27 13 18 33.1
27.212219 = 27 5 5 35.7J
Hansen.
m
Length of the day : j^
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, ^=6356.584 ** or 3949.79 "
Flattening, =
** a 295.0
/ 2 u
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 4^.
Reduction from geographic latitude <p to geocentric latitude ^',
tp'—tp^ — 11' 4o".44 sin 2^+1 ".19 sin 4^.
I meter= 3.280 8333 feet, i foot = 0.304 8006 meters.
I statute mile = 0.868 392 nautical or geographical miles.
I nautical niile= 1.151 553 statute miles.
* Used in the computation of eclipses. The parallax used in the computation of the ephemeris of the Moon
contained in this volume is 57' a''. 23 (Hansen).
t k* is the acceleration due to the Sun's attraction at the mean distance of the Earth from the Stm, which is
■lao the astronomical unit of distance, the tmit of time being one mean solar day.
X ^~ latitude, A« elevation above sea level in meters, and log R» 6.804x6.
JDV
lEph S3]
ASTRONOMICAL CONSTANTS.
SEMIDIAMETERS OF THE SUN, MOON, AND PLANETS.
At unit
Name. DisUnce.
I If
Sun 15 59-63
Moon 15 32.58*
Mercury 3.34
Venus 8.55
Mars 505
Jupiter (Equatorial) ... i 40.20
Jupiter (Polar) i 34-12
Saturn (Equatorial) ... i 24.88
Saturn (Polar) i 17.47
I'lanus 33.52
Keptune 38.66
At mean
least
Distance.
In Kilo-
meters.
In SUtute
Miles.
Authority.
• •
695 533-61
432 183.68
Auwers.
•
I 737-96
1 079.91
Newcomb.
5-45
2 420.82
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
68 217.80
42 388.90
Peirce.
9-94
61 520.69
38 227.48
Barnard.
9.07
56 149-95
34 890.23
Barnard.
1.84
24295.16
15 096.43
Am. Eph.
1-33
28 020.61
17411.34
Am. Eph.
aEMENTs OF THE PLANETARY ORBITS FOR THE EPOCH 1913 — ^January o** G. M. T.
Mean Dis- Sidereal Mean daily Synodic Bccen>
Name. tance. Period. Motion. Period. tridty.
Jf Mercury 0.387099 0.24085 14732.420 0.31726 0.2056169
2 Venus 0.723331 0.615 21 5767.670 1.59872 0.0068145
® Earth i.oooooo 1.00004 3548.193 0.0167456
I Mars 1.523688 1.88089 1886.519 2.13539 0.0933207
}{ Jupiter 5.202803 11.86223 299.128 1.092 II 0.0483586
^ Saturn 9-538 843 29.45772 120.455 1.03518 0.0558447
% Uranus 19.190978 84.01529 42.23 1.01209 0.0470809
? Neptune 30.070672 164.78829 21.53 1.00614 0.0085415
Inclina-
tion to the
Ecliptic
Mean Longi-
tude of the
Node.
Mean Longi-
tude of the
Perihelion.
Mean Longi-
tude at the
Epoch.
Logarithm of
Mass in unit
of Sun's Mass.
0 / //
0 / //
0 / //
0 / //
7 0 II. 2
47 18 0.0
76 6 6.9
168 47 6.67
3.221 8487 — 10
3 23 37.5
75 53 47-8
130 20 48.7
29 51 50.61
4.3893398-10
• • ■
• • •
loi 26 39.6
99 33 0.81
4.482 2896 — 10
I 5» 10
48 53 10.3
334 27 28.1
262 2 14.99
3.509 5499 - 10
I 18 28.9
99 34 9-6
12 55 15-9
272 44 54.03
6.979 9082 — 10
2 29 30.4
112 53 49.1
91 20 36.5
65 36 47.08
6.455 7335 - 10
0 46 21.8
73 33 20.4
169 15 23.6
299 14 48.27
5.6407528-10
I 46 40.8
130 49 18.4
43 52 9.2
113 36 21.82
5.7055338-10
Name.
Jf Mercury.
5 Venus
© Earth .
I Mars
H Jupiter .
\ Saturn .
§ Uranus .
T Neptune.
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 1913 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 niean distance. See Ast. Papers Am. Eph.. Vol. IX, p. 40. For the values of the semidiameter used in.
CUs Toiame sec pace xi.
SYMBOLS AND ABBREVIATIONS,
O The Sun.
C The Moon.
S Mercury.
9 Venus.
® The Earth.
SIGNS OF THE PLANETS, ETC,
i Mars.
y, Jupiter,
h Saturn.
S Uranus.
V Neptune.
Spring
Signs.
Summe
Signs.
V Aries.
8 Taurus,
n Gemini.
25 Cancer.
SI Leo.
iijt Virgo.
SIGNS OF THE ZODIAC,
Autumn
Signs
^ Libra.
rtl Scorpius.
t Sagittarius.
yj Capricomus.
ssr Aquarius.
^ 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.
tJ Descending Node.
N. North.
S. South.
E. East.
W. West.
//
m
Degrees.
Minutes of Arc.
Seconds of Arc.
Hours.
Minutes of Time.
Seconds of Time.
XVI
[Eph 13]
PART I.
ASTRONOMICAL EPHEMERIS FOR THE
MERIDIAN OF GREENWICH.
[Bph ij]
JANUARY, 1913.
AT GREENWICH APPARENT NOON.
I.
Day of
the
Week.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
I
i^
I
2
3
4
5
6
7
8
9
ID
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 s
84541.24
850 6.25
8 54 30.93
8 58 55.25
9 3 1917
9 7 42.66
9 12 5.70
9 16 28.25
9 20 50.27
925 11.74
9 29 32.64
9 33 52.94
938 12.60
94231.60
9 46 49.94
951 7.59
9 55 24.52
9 59 40.72
20 356.19
20 8 10.90
20 12 24.85
20 16 38.03
20 20 50.44
20 25 2.07
20 29 12.91
20 33 22.97
203732.24
2041 40.73
20 45 48.42
20 49 55.30
2054 1-37
20 58 6.64
DifiF. for
I Hour.
s
1.050
I 035
1.020
1.005
0.988
0.969
0.949
0.928
0.905
0.882
0.858
0.832
0.805
0.778
0.749
0.720
0.690
0.660
0.629
0-597
0.565
0.533
0.501
0.468
0.435
0.402
0.369
0.336
0.303
0.270
0.236
10.202
Apparent Decli-
nation.
//
S.23 2 14.8
2257 1 1.7
22 51 41. 1
22 45 43.2
22 39 18. 1
22 32 26.0
22 25 7.2
22 17 21.8
22 9 lO.O
22 032.1
21 51 28.5
21 41 59.4
21 32 5.0
21 21 45.7
21 II 1.8
20 59 53-5
2048 21.2
20 36 25.3
2024 6.1
20 II 24.0
1958 19.2
194452.0
19 31 2.9
19 16 52.2
19 2 20.3
184727.4
1832 13.9
18 16 40.2
18 046.7
174433.8
17 28 1.9
S. 17 II II. 3
DifF.for
I Hour.
//
+ 12.06
13.20
14.34
+ 15-48
16.61
17.73
+ 18.84
19.94
21.03
+ 22.11
23.18
24.24
+25.29
26.32
2734
+ 28.35
29.34
30.32
+31.28
32.23
33.17
+3409
35.00
35 90
+36.77
37.63
38.48
+39.31
40.13
40.93
41.72
+42.49
Semidiam-
eter.
ft
6 17.89
6 17.89
6 17.88
6 17.87
6 17.85
6 17.83
6 17.81
6 17.78
6 17.75
6 17.72
6 17.68
6 17.63
6 17.58
6 17.52
6 17.46
6 17.40
6 17.34
6 17.27
6 17.19
6 17.10
6 17.01
6 16.91
6 16.81
6 16.70
6 16.58
6 16.46
6 16.34
6 16.20
6 16.06
6 15.92
6 15.78
16 15.63
Sidereal
Time of
Semidi-
ameter
Passing
Me-
ridian.
8
71.06
71.02
70.97
70.92
70.86
70.80
70.73
70.66
70.59
70.52
70.44
70.36
70.28
70.19
70.10
70.01
69.91
69.81
69.71
69.61
69.50
69.40
69.29
69.18
69.07
68.96
68.85
68.74
68.62
68.51
68.39
68.28
Bquation of
Time, to be
Added to
Apparent
Time.
m
8
3 3352
4 1.89
4 29.93
4 57.61
5 24.91
551.78
6 18.18
644.09
7 9.49
7 34.34
7 58.61
8 22.28
8 45.32
9 771
9 29.42
9 50.45
o 10.78
o 30.38
0 49.23
1 7-33
I 24.67
141.25
1 57.06
2 12.09
2 26.34
2 39.80
2 52.48
3 4.37
3 15.47
3 25.77
3 35.26
1343.94
Diff.
for
z Hour.
.187
•»75
.161
•145
.128
.110
.090
.069
.046
1.023
0.999
0.973
0.946
0.919
0.891
0.862
0.832
0.801
0.770
0-739
0.707
0.675
0.643
0.61 1
0.578
0.545
0.512
0.479
0.446
0.413
0.379
►.346 j
NOTS. — ^The mean time of semidiameter passing the meridian may be foimd by subtracting o*.i9 from tht j
sidereal time. >
The sign + prefixed to the hourly change of declination indicates that south declinations are decreasing. ;>,
I
2
3
4
5
6
7
8
9
lO
II
12
13
H
15
i6
17
i8
19
20
21
22
ir. 23
I24
!
iV. f 26
1. 27
28
29
30
31
JANUARY, 1913.
AT GREENWICH MEAN NOON.
8
32
THE SUN'S
Risht
m
8 45 40.58
8 50 5-50
8 54 30.10
8 58 54.34
9 3 18.18
9 7 41.60
9 12 4.56
9 16 27.03
9 20 48.97
9 25 10.37
9 29 31.20
9 33 51-43
9 38 11.02
9 42 29.96
9 46 48.24
9 51 5.83
9 55 22.71
9 59 38.86
20 3 54.28
20 8 8.94
20 12 22.84
20 16 35.98
20 20 48.35
20 24 59.94
20 29 10.75
20 33 20.78
20 37 30.02
20 41 38.47
20 45 46.13
20 49 52.99
20 53 59.05
20 58 4.30
Diff. for
I Hotir.
s
1.046
1.032
I.017
1.002
0.985
0.966
0.946
0.925
0.903
0.880
0.856
0.830
0.803
0.776
0.747
0.718
0.688
0.658
0.627
0-595
0563
0531
0.499
0.467
0.434
0.401
0.368
0.335
0.302
0.269
0.236
10.202
Apparent Decli-
nation.
S. 23 2 15.5
22 57 12.6
22 51 42.2
22 45 44.5
22 39 19.6
22 32 27.7
22 25 9.1
22 17 23.9
22 9 12.4
22 O 34.9
21 51 31.6
21 42 2.8
21 32 8.7
21 21 49.7
21 II 6.1
20 59 58.1
20 48 26.2
20 36 30.7
20 24 1 1.8
20 II 30.0
19 58 25.5
19 44 58.7
19 31 9.9
19 16 59.5
19 2 27.9
18 47 35.3
18 32 22.2
18 16 48.8
18 o 55.6
17 44 43.0
17 28 II. 3
Difr.for
z Hour.
+12.05
13.19
14.33
+15.47
16.60
17.72
+ 18.83
19.93
21.02
+22.10
23.17
24.23
+25.27
26.30
27.32
+28.33
29.32
30.30
+31.26
32.21
33.15
+34.07
34.98
35-88
+36.76
37.62
38.47
+39.30
40.12
40.92
41.71
S. 17 II 20.9 +42.48
Bquation of
Time lobe
Subtracted
from
Mean Time.
m s
3 33.45
4 1.81
4 29.85
4 57.53
5 24.81
5 51.67
6 18.07
6 43.98
7 9.37
7 34.21
7 58.47
8 22.14
8 45.18
9 7.57
9 29.28
9 50.31
10 10.63
10 30.23
10 49.09
11 7.19
II 24.54
Diff. for
X Hour.
II
12
56.94
11.97
12 26.22
12 39.69
12 52.38
II 41.13 0.675
.187
•175
.161
.145
.128
.110
.090
.069
.046
1.023
0.999
0.973
0.946
0.919
0.891
0.862
0.832
0.801
0.770
0.739
0.707
0.643
0.61 1
0.578
0.545
0.512
13 4.27 0.479
13 1537 j 0.446
13 25.67 0.413
13 35.17 0.379
13 43.86 0.346
j^ — Xhe aemidiameter 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-
tsoos are dccrcaainc.
Sidereal Time,
or Right A8cen>
sion of Mean
Sun.
m
8 42
8 46
8 50
7.14
3.69
0.25
8 53 56.81
8 57 53-37
9. I 49.93
9 5 46.49
9 9 43.05
9 13 39.60
9 17 36.16
9 21 32.72
9 25 29.28
9 29 25.84
9 33 22.40
9 37 18.96
9 41 15.51
9 45 12.07
9 49 8.63
9 53 5.19
9 57 1.74
20 o 58.30
20 4 54.86
20 8 51.42
20 12 47.98
20 16 44.53
20 20 41.09
20 24 37.65
20 28 34.20
20 32 30.76
20 36 27.32
20 40 23.88
20 44 20.43
Diff. for I Hour.
+9'.856S.
(Table III.)
JANUARY, 1913. UI.
IV.
JANTJARY, 1913.
GREENWICH MEAN TIME.
8
0
9
■
THE MOON'S
SBMIDIAMETER.
HORIZONTAL PARALLAX.
UPPBR TRANSIT.
AGB.
I
2
3
4
5
6
7
8
10
II
12
13
H
15
i6
«7
i8
20
21
22
23
24
25
26
27
28
29
30
31
Noon.
re
5 411
5 31.4
5 22.4
5 14-3
5 6.9
5 0-3
4 54.7
4 500
4 46.6
4 44.8
4 44.7
4 46.9
4 514
4 58-6
5 8.4
5 20.7
5 351
5 507
6
6
6
6
6
6
6.6
21.2
33.1
40.8
43.3
405
6 33.0
6 21.9
6 8.6
54-4
40.7
5 27.9
5 i6-7
5
5
Midnlffht.
Noon.
ft
ff
32 I 15 7-2
5 36.2
5 26.8
5 18.2
5 10.5
5 3-5
4 57.4
4 52.2
4 48.1
4 45.5
4 44.5
4 45-5
4 48.8
4 54.7
5 3-2
5 14-3
5 27.7
5 42.8
5 58.7
6 14.2
6 27.6
6 37-5
6 42.7
6 42.6
6 37-3
6 27.8
6 15.4
6 1.5
5 47-5
5 34.1
5 22.1
5 "8
15 31
57 28.11
56 52.36
56 19.43
55 49.50
55 22.49
54 58.44
54 37.65
54 20.60
54 8.15
54
54
54
1.29
1. 17
8.99
54 25.75
54 52.06
55 28.06
56 13.20
57 5.87
58 3.37
59 1.54
59 55.27
6038.80
61 6.97
61 16.32
61 6.14
60 38.49
59 57-66
59 8.84
58 17.05
57 26.36
56 39.63
55 58.53
55 23.73
Diff. for
z Hour.
-I-54I
1.433
1.309
-1. 185
1.065
0.937
-0.793
0.621
0.410
-0.154
+O.I53
0.505
+0.894
1.299
1.698
+2.053
2.319
2.442
+2.372
2.066
1.526
+0.797
-0.022
0.81 1
-1.463
1.905
2.129
— 2.i6o
2.046
1.838
1.582
-i.3>7
Midnight.
//
57 9.91
56 35.52
56 4.09
55 35.64
55 10.08
54 4761
54 28.61
54 13.74
54 3.95
54 0.31
54 4.02
54 16.20
54 37.69
55 8.86
55 49.56
56 38.73
57 34.24
58 32.67
59 29.32
60 18.67
6055.08
61 14.11
61 13.60
60 54.27
60 19.40
59 33.92
58 43.03
57 51.36
57 2.37
56 18.31
55 40.33
55 8.73
Diff. for
I Hour.
Meridian of
Greenwich.
//
-1.490
1. 37 1
1.246
-1. 125
1.002
0.866
—0.712
0.521
0.288
-0.007
+0.324
0.697
+1.095
1. 50 1
1.884
+2.199
2.403
2.433
+2.249
1.824
1. 180
+0.390
—0.428
1. 161
—1. 711
2.044
2.165
—2.116
1.95 1
1. 714
1.450
-1. 184
h ni
19 49.6
20 39.5
21 31.6
22 25.4
23 19.6
6
O 12.6
I 3.0
I 50.1
34.0
15.4
55.0
34.1
13.7
55.3
40.0
29.4
8 24.4
2
3
3
4
5
5
6
7
9
o
I
2
3
4
25.0
29.7
35.2
38.4
37.2
31.4
5 22.1
6 10.5
6 58.3
7 46.6
8 36.3
9 28.0
20 21.2
21 15.1
Diff. for
I Hour.
Noon.
m
2.04
2.12
2.21
2.26
2.24
2.16
2.04
1.89
1.77
1.68
1.63
1.63
1.68
1.79
1-95
2.17
2.41
2.63
2.73
2.70
2.54
2.35
2.18
2.06
1.99
2.00
2.04
2. II
2.19
2.24
2.24
d
?3.8
24.8
25.8
26.8
27.8
28.8
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.
25.1
JANUARY, 191S. V.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
VL
JANUARY, 1918.
GREENWICH MEAN TIME.
THE
MOON*S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Difif.
Diff.
Hoar.
Right Ascension.
for
DsclinatioiL
for
Hoar.
Right Ascension.
for
Declination.
for
zMin.
iMin.
iMin.
X Min.
su
NDA\
'5.
TUESDAY 7.
b m •
s
• t m
ff
h m 8
8
• » n
m
0
17 26 45.96
3.34S5
S.28 4 38.2
a. 479
0
19 17 57.01
3.3496
S.27 11 55.5
4.534
I
17 29 6.70
3.3438
28 7 2.4
3.337
I
19 20 11.86
3.3454
27 7 20.1
4.657
2
17 31 27.46
«.S46«
28 9 17.5
3.176
2
19 22 26.46
3.34x3
27 2 36.7
4.789
. 3
17 33 48.24
a-34GS
28 II 23.5
3.034
3
19 24 40.80
8.2369
26 57 45-4
4.920
4
17 36 9.02
a. 3464
28 13 20.4
1.873
4
19 26 54.89
3.3336
26 52 46.3
5.049
5
17 38 29.81
3.3464
28 15 8.2
X.731
5
19 29 8.71
3.aa8x
26 47 39.5
5.178
6
17 40 50.59
3.346*
28 16 46.9
1.569
6
19 31 22.26
3.3336
26 42 24.9
5.307
7
1743 11-36
a. 3460
28 18 16.5
1.417
7
19 33 35.54
3.3191
26 37 2.6
5.435
8
1745 32-"
a. 3457
28 19 37.0
1.367
8
19 35 48.55
8.3146
26 31 32.7
5.56a
9
17 47 52.85
a. 3453
28 20 48. 5
I.IZ5
9
19 38 1.29
t.3099
26 25 55.2
5.687
10
17 50 13.55
a. 3448
28 21 50.8
0.96a
10
19 40 13.74
3.3053
26 20 10.3
5.81X
IX
17 5« 34. aa
t.3441
28 22 44.0
0.8X3
II
19 42 25.91
3.3004
26 14 17.9
5.936
12
17 54 54.84
a. 343a
28 23 28.2
0.661
12
19 44 37.79
3.1956
26 8 18.0
6.059
13
17 57 15.41
3.3414
28 24 3.3
0.509
13
19 46 49.38
3.1908
26 2 10.8
6.181
H
17 59 35-93
a.3415
28 24 29.3
0.358
14
19 49 0.69
3.1860
25 55 56.3
6.3O8
15
18 I 56.39
3.3404
28 24 46.3
0.308
15
19 51 11.70
3.181X
25 49 34-6
6.423
i6
18 4 16.78
S.339>
28 24 54.3
-0.037
16
19 53 22.42
3.176X
2543 5.7
6.541
I?
18 6 37.09
a. 3378
28 24 53.2
-H).093
X7
19 55 32.83
3.X711
25 36 29.7
6.659
i8
18 8 57«32
a. 3365
28 24 43. 1
0.343
18
19 57 42.95
3.1668
25 29 46.6
6.777
19
18 II 17.47
3.3350
28 24 24.0
0.39a
19
19 59 52.77
3.1611
25 22 56,5
6.893
20
18 13 37-52
a.3333
28 23 56.0
0.54a
20
20 2 2.28
3.1560
25 15 59-5
7.008
2Z
18 15 57-47
a. 3317
28 23 19.0
O.G93
21
20 4 11.49
3.X509
25 8 55.6
7.138
22
18 18 17.32
t.3a98
28 22 33.0
0.840
22
20 6 20.39
a. 1457
25 I 44.8
7.836
23
18 20 37.05
3.3379
S.28 21 38.2
0.988
23
20 8 28.98
3.X407
S.24 54 27.3
7.348
MC
)NDA^
1 6.
WED
NESD
AY 8.
0
18 22 56.67
3.3359
S.28 20 34.4
1.137
0
20 10 37.27
a. 1355
S.24 47 3-0
7.460
I
18 25 16.16
a. 3337
28 19 21.8
1.384
I
20 12 45-24
3.X303
24 39 32. 1
7.570
2
18 27 35.52
3.33x6
28 18 0.3
1.43a
2
20 14 52.90
2.135X
24 31 54-6
7.679
3
18 29 54-75
3.319a
28 16 30.0
1.578
3
20 17 0.25
3.1x98
24 24 10.6
7.787
4
18 32 13.83
a. 3167
28 14 50.9
1.734
4
20 19 7.28
3.1146
24 16 20. 1
7.896
5
18 34 32.76
t.3i4a
28 13 3.1
X.869
5
20 21 14.00
3.1094
24 8 23.1
8.003
6
18 36 51.53
3.31x6
28 II 6.6
8. 014
6
20 23 20.41
3.1041
24 0 19.8
8.X07
7
18 39 10.15
a. 3090
28 9 1.3
a. 159
7
20 25 26.49
3.0988
23 52 10.2
8.813
8
18 41 28.61
a. 3063
28 6 47.4
3.304
8
20 27 32.26
3.0936
23 43 54-4
8.315
9
18 43 46.89
a.3033
28 4 24.8
3.448
9
20 29 37.72
2.0883
23 35 32.4
8.417
lO
18 46 4.99
3.3003
28 I 53.6
a. 591
10
20 31 42.86
a. 0830
23 27 4-3
8.5x9
II , i8 48 22.91
a.a97a
27 59 13-9
a. 733
II
20 33 47.68
3.0777
23 18 30.1
8.619
12
18 50 40.65
3.3940
27 56 25.6
a. 876
12
20 35 52.18
3.0734
23 9 50.0
8.718
13
18 52 58.19
3.2907
27 53 28.8
3.017
13
20 37 56.37
3.0673
23 I 3.9
8.817
14
18 55 15-53
a. 3873
27 50 23.6
3.157
14
20 40 0.24
3.0618
22 52 12.0
8.9x4
15
18 57 32.67
3.8840
27 47 lO.O
3.397
15
2042 3-79
2.0566
22 43 14.2
9. 01 1
16
18 59 49.61
3.3803
27 43 48.0
3.436
16
2044 7.03
3.05x3
22 34 10.7
9.106
17
19 2 6.33
3.3768
27 40 17.7
3.574
17
20 46 9.95
3.0461
22 25 1.5
9.300
18
19 4 22.83
a.a73a
27 36 39- 1
3.71a
18
20 48 12.56
3.0409
22 15 46.7
9.293
19
19 639.11
3.3694
27 32 52.2
3.850
19
20 50 14.86
3.0357
22 6 26.3
9.386
20 19 8 55.16
3.1656
27 28 57. 1
3.987
20
20 52 16.84
a. 0304
21 57 0.4
9.477
21 19 II 10.98
3.36x7
27 24 53.8
4.133
21
20 54 18.51
3.0253
21 47 29.0
9.567
22
19 13 26.57
a. 8577
27 20 42.4
4.257
22
20 56 19.87
3.oaoi
21 37 52.3
9.657
23
19 15 41-91
3.3537
27 16 23.0
4.391
23
20 58 20.92
2.0x49
21 28 10.2
9.746
24
19 T^l 57-OI
8.3496
S.27 11 55-5
4.514
24
21 0 21.66
a.ou97
S.21 18 22.8
9.833
jANiiAaY, 1913. vn.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Vm. JANUARY, 1913.
GREENWICH ȣAN TIMK
THE MOON'S RIGHT ASCENSION AND DECLINATION.
10 JANUARY, 191S. IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT AND DECLINATION.
X.
JANUARY, 1913.
GREENWICH MEAN TIME.
11
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hotir. Right Ascension.
DiflF.
for
I Min.
Declination.
O
I
a
3
4
5
6
7
8
9
lO
II
12
13
15
i6
17
i8
19
20
21
22
23
O
I
2
3
4
5
6
7
8
9
lO
II
12
13
14
15
16
17
18
19
20
21
22
23
24
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
8
8
8
8
m
6
8
II
14
17
19
22
25
28
30
33
36
39
41
44
47
50
52
55
58
I
3
6
9
TUESDAY 21.
O ' H
N.27 36 II. 7
27 31 20.1
27 26 15.8
27 20 58.8
27 15 29.2
27 9 47.0
27 3 52.2
26 57 450
26 51 25.3
26 44 53.2
26 38 8.8
26 31 12.2
26 24 3.4
26 16 42.4
26 9 9.4
26 I 24.5
25 53 27.7
25 45 19.0
25 36 58.6
25 28 26.6
25 19 43.0
25 10 48.0
25 I 41.6
N.24 52 24.0
WEDNESDAY 22.
s
8
1.65
a.7803
48.42
a.7787
35-09
3.7766
21.64
«.7747
8.06
2.7724
54.33
2.7698
40.44
a.7^a
26.39
2.7643
12.16
2.761a
57.74
a. 7579
43.11
«.7544
28.27
2.7508
13.21
a. 7470
57.91
a. 7429
42.36
•.7387
26.56
«.7344
10.49
a. 7299
54.15
2.7232
37.52
a. 7204
20.60
t.7154
3.37
a. 7103
45.84
a. 7038
27.99
a. 6998
9.81
a.C942
8 II
8 14
817
8 19
8 22
825
8 27
830
833
835
838
8 41
843
846
848
851
854
856
859
9 I
9 4
9 6
9 9
9 II
9 14
51.29
32.43
13.22
53.65
33.72
13.42
52.74
31.68
10.23
48.39
26.16
3.52
40.47
17.01
53.14
28.85
4.13
38.99
13.43
47.44
21.01
54.15
26.85
59.12
30.95
2.6885
2.68a7
a. 6768
a.6708
2.6647
t.6383
s.6saa
a.6457
a. 639a
9.6387
a.626x
2.6192
a.6ia4
a. 6036
2.5987
9.59x6
a. 5845
«.5775
a. 5704
8.5638
«.5559
8.5487
a. 5414
a. 5342
8.3268
N.24
24
24
24
24
23
23
23
23
23
22
22
22
22
22
21
21
21
21
21
20
20
20
20
N.20
42 55-2
33 15.4
23 24.6
13 22.9
3 10.5
52 47.5
42 14.0
31 30.1
20 35.9
931.6
58 17.2
46 52.8
35 18.7
23 34.9
II 41.6
59 38.8
47 26.7
35 5.5
22 35.3
9 56.2
8.3
11.8
6.8
17 53.5
432.0
Diff.
for
X Min.
57
44
31
4.753
4.966
5.177
5.388
5.598
5.808
6.017
6.884
6.43a
6.637
6.842
7.045
7.848
7.450
7.649
7.848
8.046
8.842
8.437
8.^
8.829
9.01a
9*aoo
9.387
9.57a
9.755
9-937
XO.X17
10. 895
10.471
10.645
10.817
XO.987
11.X56
IX. 323
11.487
11.649
XI. 809
XI. 967
12.184
I a. 877
18.488
12.577
12.725
12.870
13. 0x2
X3.i5«
13.990
X3*4a6
Hoar.
Right Ascension.
for
I Min.
Declination.
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
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
o
o 3
o 5
o 8
o 10
THURSDAY
N.
m 8
14 30.95
17 2.34
19 33.28
22 3-79
24 33-86
27 3.48
29 32.66
32 1. 41
34 29.71
36 57.57
39 24.99
41 51.98
44 18.53
46 44.^5
49 10.33
51 35.58
54 0.40
56 24.80
58 48.78
I 12.34
35.47
58.19
20.50
42.40 8.36x6 N.
FRIDAY 24
3.89 8.3548 N.
24.98
45.67
5.97
25.87
8
a. 5868
8.5x94
8.5191
9.5048
2.4974
a.4900
8.4897
a. 4754
a. 4680
9.4607
a. 4534
9.4468
9.4389
9.4317
9.4844
9.4178
8.4x08
9.4038
a. 3968
8.3891
8.3891
8.3758
9.3684
8.36x6
23.
e '
20 4
9 51
9 37
9 23
9 9
855
841
8 27
813
58
43
o 13
o 15
o 17
o 20
O 22
o 24
o 27
o 29
o 31
033
o 36
038
o 40
043
045
047
049
o 52
54
56
58
I
3
5
7
45.39
4.52
23.28
41.66
59.67
17.31
34.59
51.51
8.08
24.31
40.19
55.73
10.94
25.82
40.38
54.62
8.54
22.16
35.48
48.50
a. 3548
8.3489
8.5416
9.3350
9.3985
9.3981
a. 3157
9.3095
9.303a
8.8971
8.89x0
a. 3850
2.8791
9.9733
8.3676
8.86x8
8.9568
9.8507
a. 3453
9.8400
8.8347
8.8995
8.9945
3.8X95
3.8X46
7
7
7
7
6
6
6
6
5
5
5
5
4
4
29
14
59
44
29
14
58
43
27
12
56
40
24
8
52
36
ao
4
48
31
15
58
42
25
8
N.
O 52
035
o 18
O I
9 44
927
9 10
853
836
8 19
8 2
7 45
7 27
32.0
2.4
24.8
39.4
46.4
45.9
38.0
22.9
0.7
31.5
55.5
12.9
23.7
28.1
26.3
18.4
4.5
44.8
19.5
48.6
12.3
30.7
43.9
52.2
55.7
54.4
48.6
38.4
23.9
5.2
42.5
15.9
45.5
II. 6
34.2
53.4
9.4
22.3
32.2
39.3
43.8
45.6
45.0
42.1
36.9
29.7
20.5
9.5
56.8
Diff.
for
I Min.
I3.4a6
13.560
X3.698
X3.890
13.946
14.070
14.19a
14.3x1
14.438
14.543
X4.655
14.765
X4.873
14.978
15.081
15.189
15.980
15.375
15. 468
15.560
15.649
15.737
15. 891
X5.901
15.988
16.059
X6.X33
X6.906
16.877
X6.345
X6.4XX
X6.475
X6.536
X6.594
16.653
16.707
X6.759
X6.816
16.858
16.903
16.947
16.990
17.039
17.067
17.103
X7.X37
X7.X68
17.197
X7.ta5
12
JANUARY, 1913.
XI.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Dift
DiflF.
Diff.
Dtff.
Hour.
Right Atcensioa.
for
I MiiL
Declination.
for
I Min.
Hoar.
Right Aacenaion.
for
iMIo.
Declination.
for
I If in.
SATURDAY 25.
MONDAY 27.
b m 8
8
0 » f
M
h m 8
a
0 * n
«*
O
n 7 48.50
3.3146
N. 7 27 56.8
17.335
0
12 50 13.77
3.0888
S. 6 16 14.3
x6.49a
1
II 10 1.23
a.aog7
7 1042.5
i7.«5i
I
12 52 19.09
3.0885
6 32 42.3
16.440
2
II 12 13.67
2.8050
6 53 26.7
17.374
2
12 54 24.39
3.088a
649 7.1
16.386
3
II 14 25.83
3.2004
6 36 9.6
17.396
3
12 56 29.67
a.0879
7 5 28.6
16.331
4
II 16 37' 72
a. 1958
6 18 51.2
17.317
4
12 58 34.94
3.0877
7 21 46.8
16.175
5
11 18 49.34
3.1914
6 I 31.6
17.334
5
13 040.20
3.0877
7 38 1.6
x6.ai7
6
II 21 0.69
3.1871
5 44 II. I
17.349
6
13 245.47
3.0878
7 54 12.9
16.158
7
II 23 11.78
3.1838
5 26 49.7
17.363
7
13 4 50.74
3.0879
8 10 20.6
16.099
8
II 25 22.62
3.1787
5 927.5
17.376
8
13 6 56.02
3.0881
8 26 24.7
X6.038
9
II 27 33.22
«.I746
4 52 4.6
17.386
9
13 9 1. 31
a. 0883
8 42 25.2
15.976
lO
" «9 43.57
3.1706
4 34 41.2
17.394
10
13 II 6.62
3.0887
8 58 21.9
15.91a
II
II 31 53-69
t.1667
4 17 17-3
17.40X
II
13 13 11.96
3.0893
9 14 14.7
15.847
12
II 34 3.57
3.1698
3 59 53.1
17.405
12
13 15 17.32
3.0897
930 3.6
15.78a
13
II 36 13.23
«.I59«
3 42 28.7
X7.408
13
13 17 22.72
a.0902
94548.5
15.714
14
II 38 22.67
«.i556
3 25 4.1
17.409
14
13 19 28.15
3.0909
10 I 29.3
15.846
^5
II 40 31.90
s.isti
3 7 39.6
17.408
15
13 21 33.63
a.0917
10 17 6.0
15.577
i6
II 42 40.92
3.1487
2 50 15.1
17.407
16
132339.15
2.0934
10 32 38.5
15.507
17
II 44 49-74
3. 145s
2 32 50.8
17.403
17
13 25 44.72
a.0933
10 48 6.8
15.435
z8
114^ 58.36
3.I4SI
2 15 26.8
17.597
18
13 27 50.35
3.0943
II 3 30.7
15.368
19
II 49 6.79
3.1390
I 58 3.2
17.389
19
13 29 56.04
3.0953
II 18 50.2
15.387
20
II 51 15.04
3.1360
I 40 40. 1
17.379
20
13 32 1.79
a. 0963
II 34 5.2
X5.3I3
21
II 5323.11
3.1330
I 23 17.7
17.368
21
13 34 7.60
3.0975
II 49 15-7
15.137
22
II 5531.00
3.1303
I 5 55.9
17.357
22
13 36 13.49
3.0987
12 4 21.6
15.059
23
II 57 38.73
3.1374
N. 0 48 34.9
17.343
23
13 38 19.45
3.1001
S. 12 19 22.8
14.981
SU
NDAV
' 26.
TU]
ESDA^
y 28.
O
II 5946.29
3.X347
N. 0 31 14.8
17.336
0
13 40 25.50
3.1015
S. 12 34 19-3
14.901
I
12 I 53.70
3.X3t3
N. 0 13 55.8
17.308
I
13 42 31-63
3.1039
12 49 10.9
14. 830
2
12 4 0.96
3.XI97
S. 0 3 22.2
17.390
2
13 44 37.85
3.1045
13 3 57.7
14.738
3
12 6 8.07
3.1173
0 20 39.0
17.368
3
134644.17
a. 1061
13 18 39.5
14.655
4
12 8 15.04
3.1X51
0 37 54.4
17.246
4
13 48 50.58
3.1077
13 33 16.3
«4.57l
5
12 10 21.88
3.x 139
055 8.5
17.933
5
13 50 57.09
3.1093
13 47 48.0
14.487
6
12 12 28.59
3.XXO6
I 12 21. 1
17.197
6
13 53 3-70
3.1XX1
14 2 14.6
14.401
7
12 14 35.18
3.1068
I 29 32.1
17.170
7
13 55 10.42
3.1X89
14 16 36.1
14.3x3
8
12 16 41.65
3.XO69
I 46 41.5
17.14a
8
13 57 17.25
3.1147
14 30 52.3
M.tas
9
12 18 48.01
a.iojt
2 349.2
17.113
9
13 5924-19
3.1167
1445 3-1
14.136
lO
12 20 54.27
3.10S4
2 20 55.0
17.081
10
14 I 31.25
2.X187
14 59 8.6
14.046
II
12 23 0.42
2.10x7
2 37 58.9
17.047
II
14 3 38.43
2.1307
15 13 8.6
13.955
12
12 25 6.48
9.100C
2 55 0.7
17.012
12
14 545.74
2.1238
1527 3.2
i3.8Sa
13
12 27 12.45
3.0988
3 12 0.4
16.977
13
14 753-17
2. 1249
15 40 52.2
13.7^
14
12 29 18.34
3.0975
3 28 58.0
16.941
14
14 10 0.73
3.1373
15 54 35.5
13.675
15
12 31 24.15
2.0962
3 45 53.3
16.903
15
14 12 8.43
2.1394
16 8 13.1
13.579
i6
12 33 29.88
t.0949
4 2 46.2
16.861
16
14 14 16.26
2.1317
16 21 45.0
13.483
17
123535.54
2.0959
4 19 36.6
16.819
17
14 16 24.23
8.1340
16 35 II. I
13.386
i8
12 37 41.15
3.0930
4 36 24. 5
16.777
18
14 18 32.34
2.1364
16 48 31.3
X3.a87
19
12 39 46.70
a. 0931
4 53 9.8 16.733 1
19
14 20 40.60
a. 1388
17 I 45.6
13.X88
20
12 41 52.20
3.09x3
5 9 52.4
16.887
20
14 22 49.00
a. 1413
17 14 53-9
13.088
ai
12 43 57-65
2.0905
5 26 32.3
16.640
21
14 24 57.56
a. 1439
17 27 56.2
xa.987
22
12 46 3.06
3.089B
5 43 9-3 16.598
22
14 27 6.27
3.1464
17 40 52.4
18. 885
23
12 48 8.43
3.089*
5 59 43.3 »6-54t
23
1429 15-13
2.1490
17 53 42.4
xa.;6a
24
12 50 13.77
3.0888
S. 6 16 14.3
i6.49» 1
24
14 31 24.15
3.1517
S. 18 626.2
13.^
xn.
JANUARY, 1913.
13
GREENWICH MEAN TIME.
THE MOON»S RIGHT ASCENSION AND DECLINATION.
Hosr^iRlchtAi
kion.
for
I Min.
Declination.
O
I
2
3
4
S
6
7
8
9
10
II
12
H
IS
16
17
18
19
20
21
«3
o
I
2
3
4
5
6
7
8
9
10
II
12
13
H
15
16
18
19
20
21
22
23
24
WEX)NESDAY
h m s s
14 31 24.15 a.x5i7 S.
14 33 33-33 a"543
14 35 42.67 «.I570
14 37 52.17 «-»597
14 40 1.84 «.iG«s
14 4a 1 1.67 a.i65a
14 44 21.67 ««i6Bi
14 46 31.84 a. 17x0
14 48 42.19 »-Z739
14 50 52.71 ««"767
»4 53 3-40 ••»797
14 55 14-27 «-«8««
14 57 25.31 I.X855
14 59 36.53 *-i«5
15 1 47.93 «'»»»5
15 3 59-51 a. IMS
15 6 11.27 a. 1975
15 8 23.21 a.aoo6
15 10 35-34 a*«03<
15 12 47.64 a.ao66
15 15 0.13 a.ao97
15 17 i2.8o a.aza7
15 19 25.65 a.ai57
15 21 38.69 «.ai88
9
9
9
9
29.
e *
B 6
8 19
831
843
856
9 8
ao
32
44
56
20 7
20 19
20 30
20 42
2053
21 4
15
26
36
47
57
8
18
S.22 28
21
21
21
21
21
22
22
THURSDAY 30.
15 23 51-91
15 26 5.31
15 28 18.89
15 30 32-66
15 32 46-61
15 35 0-73
15 37 »5-03
15 39 29-51
15 41 44-17
15 43 59-00
15 46 I4-OI
15 4S 29. 19
15 50 44-55
15 53 0.07
15 55 15-77
15 57 31-63
15 59 47-05
16 2 3-S4
16 4 20.18
16 6 36.69
16 8 53-35
16 II 10.16
16 13 27-1*
16 15 44-22
16 18 1-47
a.oait
a. 884!
a.aa79
t.2310
a. 2339
a.s36t
••ajgS
a.a«a8
2.8457
2.%87
2.asx6
2.aS45
a.a57S
a.26aa
a.a63D
t-a657
8.a68«
t.a7ii
a.a737
3.8764
a. 2789
a.a8i4
•.2838
a 2862
a.a887
S.22 38
22 48
22 58
23 7
23 17
23 26
2335
2344
23 53
24 2
24 II
24 19
24 28
2436
2444
24 52
25 o
25 8
25 15
2523
2530
2537
2545
25 51
S.25 58
26.2
3.7
34-9
59.8
18.2
30.1
35-5
34.2
26.3
11.7
50-3
22.1
47.0
5.0
16. 1
ao.i
17.1
6.9
49.6
25.0
53-2
14.0
27.5
33-5
32.1
23.2
6.7
42.6
X0.9
315
44-3
49.3
46.5
35.9
17.3
50.8
16.3
33.7
43.1
44.4
37-5
22.5
59.2
27.6
47.8
59-6
3.1
58.2
44.8
Diff.
for
tMin.
ia.677
X2.57a
ia.467
X2.s6i
xa.asa
xa.X44
".034
".923
ii.8ia
ZX.700
X1.587
".47a
11.357
11.248
xi.xa6
xi.ooB
X0.890
X0.77X
10.651
X0.530
Z0.406
io.a86
xo.x6e
X0.03B
9.914
9.788
9.662
9*535
9.407
9.278
9.X48
9.0x8
8.888
8.757
8.624
8.492
8.337
8.823
8.089
7.953
7.817
7.681
7.543
7.405
7.867
7.127
6.988
6.847
6.707
Hour.
Right Ascension.
Diff.
for
X Min.
Declinadon.
Diff
for
I Min.
O
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
FRIDAY 31.
h
16
16
16
16
16
16
16
16
16
16
16
16
16
16
16
16
16
16
16
17
17
17
17
17
m 8
18 1.47
s
8.2887
Of m
s.25 58 44.8
6.707
20 18.86
2.8910
26 5 23.0
6.566
22 36.39
8.8933
26 II 52.7
6.4t3
24 54.06
«.«955
26 18 13.8
6.88X
27 11. 85
8.8977
26 24 26.4
6.XS8
29 29.78
a.8998
26 30 30.4
5.995
31 47-83
8.30x8
26 36 25.8
3.ast
34 6.00
a. 3037
26 42 12.6
5.708
36 24.28
a. 3057
26 47 50.8
5.509
38 42.68
a.3076
26 53 20.2
5.417
41 1. 19
a. 3093
26 58 40.9
5.878
43 19.80
a.3iix
27 3 52.9
5.X87
45 38.52
a. 3128
27 8 56.2
4.988
47 57-34
t.3X44
27 13 50.7
4.B35
50 16.25
8.3x58
27 18 36.4
4.687
52 35.24
a.SX7«
27 23 13.2
4.540
54 54.31
a.3186
27 27 41.2
4.393
57 13-47
a. 3199
27 32 0.4
4.846
59 32.70
8. 38X1
27 36 10.7
4.097
I 52.00
8.3888
27 40 12. 1
3.949
4 11.3C
8.3232
2744 4.6
3.80X
6 30.79
a. 3848
27 47 48.2
3.65a
8 50.27
3.385X
27 51 22.9
3.905
II 9.80
2.3858
S.27 54 46.6
9.S34
SATURDAY. FEB. i.
17 13 29.37
a. 3265
S.27 58 5.4
3.809
■ 11.
PHASES OF THE MOON.
% New Moon .
3) First Quarter
O Full Moon .
(C Last Quarter
Jan.
d h m
6 22 28.3
15 4 1.6
22 3 40.1
28 19 34.0
d h
(C Apogee Jan. 10 12.5
(C Perigee 22 23.4
14
FEBRUARY, 1913.
AT GREENWICH APPARENT NOON.
I.
Day of
the
Week.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN,
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
5.
^S
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
THE SUN'S
ApiMTcnt Right
Ascension.
h m 8
20 58 6.64
2 II. 10
6 14.74
10 17.57
14 1959
18 20.80
22 21.19
26 20.77
30 1955
34 1752
38 14-70
42 11.09
46 6.70
50 1-54
53 55.61
21 5748.92
22 I 41.50
22 533.37
22 924.53
22 13 14.99
22 17 4.79
22 20 53.95
22 24 42.48
22 28 30.40
Diff. for
I Hotir.
s
10.202
10.169
10.135
10.102
10.068
10.034
10.000
9.966
9.932
9.899
9.866
9.834
9.801
9.769
9.737
9.706
9.676
9.646
9.617
9.589
9.562
9-535
9.510
9.485
Apparent Decli-
nation.
//
22 32 17.73
9.461
2236 4.49
9.437
22 39 50.70
9.415
22 43 36.37
9.393
224721.54
9.372
7 II 11.3
654 2.5
6 36 35.8
6 18 51.7
6 o 50.6
5 42 33-0
5 23 59.3
5 5 9.9
446 5.3
4 26 45.8
4 7 12.0
3 47 24.3
3 27 23.1
3 7 8.8
2 4641.9
2 26 2.9
2 5 12. 1
144 9.9
I 22 56.7
I I 32.8
o 39 58.7
10 18 14.8
95621.4
93418.9
9 12 7-7
8 4948.1
8 27 20.6
8 4 45-5
S. 742 3.2
Diff. for
I Hour.
//
+42.49
43.24
43.98
+44.69
45.39
46.07
+46.73
47.38
48.00
+48.60
49.19
49.76
+50.31
50.84
51-36
+51.86
52.35
52.82
+53.27
5371
54.12
+54.52
54.91
55.29
+55.65
55.98
56.30
56.61
+56.90
Semidiam-
eter.
ff
16 15.63
16 15.48
16 15.32
16 15.16
16 15.00
16 14.84
16 14.67
16 14.50
16 14.32
16 14.14
16 13.97
16 13.79
16 13.60
16 13.41
16 13.22
16 13.02
16 12.82
16 12.61
16 12.40
16 12.19
16 11.98
16 11.76
16 11.53
16 11.30
16 11.06
16 10.82
16 10.57
16 10.33
16 10.08
Sidereal
Time of
Semidi-
ameter
Passing
Me-
ridian.
68^28
68.16
68.04
67.93
67.81
67.70
67.58
67.47
67.35
67.24
67.13
67.02
66.91
66.81
66.71
66.61
66.51
66.41
66.31
66.21
66.11
66.02
6593
65.84
65.75
65.67
65.59
65.51
65-43
Equation of
Time, to be
Added to
Apparent
Time.
m s
3 43.94
3 51-82
3 58.89
4 5.15
4 10.60
4 15.23
4 19.06
4 22.08
4 24.29
4 25.70
4 26.32
426.15
425.21
4 23.50
4 21.02
4 17.79
4 13-82
4 9-15
4 3.78
3 57-72
3 50.98
3 43.59
3 35-58
3 26.97
Diff.
for
xHoor*
t
0.346
0.312
0.278
0.244
0.210
0.176
0.143
0.109
0.076
0.043
O.OIO
0.023
0.055
0.088
0.120
0.150
0.180
0.209
0.238
0.265
0.292
0.319
0.346
0.371
3 17.78 0.395
3 8.02 0.418
2 57.70 j 0.441
2 46.84 0.463
2 35.48
0.484
NoTS. — ^The mean time of semidiameter passing the meridian may be found by subtracting o*.i8 from the
sidereal time.
The sign + prefixed to the hourly change of declination indicates that south declinations arc decreasinjc.
FEBRUARY, 1913.
15
AT GREENWICH MEAN NOON.
THE SUN'S
k.
V
1.
s.
d.
ir.
.V.
n.
d.
ir.
a.
d.
ir.
s.
i.
LT.
Q
o I —
I
2
3
4
5
6
7
8
9
lO
II
12
13
14
15
i6
17
i8
19
20
21
22
A'. ' 23
1. I 24
25
26
27
Apparent Risht
Asorasion.
m
h
20 58
2
s
430
2 8.74
6 12.38
10 15.20
14 17.21
18 18.41
22 18.80
26 18.38
30 17.16
34 1514
38 12.32
42 8.71
46 4-33
49 59.18
53 53.27
21 57 46.61
22 I 39.21
22 5 31.09
22 9 22.27
22 13 12.76
22 17 2.58
22 20 51.76
22 24 40.32
22 28 28.27
22 32 15.63
22 36 2.42
22 39 48.66
28 I 22 43 34.37
Diff. for
I Hour.
10.202
10.168
10.134
lO.IOI
10.067
10.033
9-999
9.966
9932
9.899
9.866
9834
9.801
9.769
9738
9.707
9677
9.647
9.618
9590
9563
9536
9.511
9.486
9.462
9.438
9.416
9-394
29122 47 19.57 9.373
Apparent Decli-
nation.
Diff. for
I Hour.
s.
+42.48
43-23
I 43.97
7 II 20.9
6 54 12.3
6 36 45.9
6 19 2.1 '+44.68
6 I 1.3 j 45.38
5 42 43.9 46.06
5 24 10.4 +46.72
5
4
5 21.2
46 16.8
4 26 57.5
4 7 23.9
3 47 36.3
3 27 35.2
3 7 21. 1
2 46 54-3
2 26 15.3
2 5 24.5
I 44 22.3
I 23 9.1
I I 45.3
o 40 1 1.2
10 18 27.3
9 56 33.9
9 34 31.3
9 12 20.0
8 50 0.4
8 27 32.8
8 4 57.6
S. 7 42 15.2
47.37
47.99
+48.60
49.19
49.76
+50.32
50.85
51.37
+51.87
52.35
52.82
+53.27
53.71
54.12
+5452
54.91
55.29
+55 65
55.99
56.31
56.62
+56.91
BquatJon of
Tune to be
Subtracted
from
Mean Time.
m s
13 43.86
13 51.75
13 58.83
14 5.10
14 10.55
14 15.19
14 19.03
14 22.06
14 24.28
14 25.70
14 26.32
14 26.16
14 25.23
14 23.52
14 21.05
14
14
14
14
13
17.83
13.88
9.21
3.83
57.76
13 51.03
13 43-66
13 35.66
13 27.05
13 17.86
13 8.10
12 57.79
12 46.94
12 35.58
Diff. for
I Hour.
s
0.346
0.312
0.278
0.244
0.210
0.176
0.143
0.109
0.076
0.043
O.OIO
0.023
0.055
0.087
0.II9
0.149
0.179
0.209
0.238
0.265
0.292
0.319
0.346
0.371
0.395
0.418
0.441
0.463
0.484
Sidereal Time.
or Right Ascen •
sion of Mean
Sun,
m
20 44 20.43
20 48 16.99
20 52 13.55
20 56
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
22
10.10
O 6.66
4 3.22
7 59.77
II 56.33
15 52.88
19 49.44
23 46.00
27 42.55
31 39-11
35 35.66
39 32-22
43 28.77
47 25.33
51 21.88
55 18.44
59 14.99
3 11.55
22 7
22 II
22 15
8.10
4.66
1.21
22 18 57.77
22 22 54.32
22 26 50.88
22 30 47.43
22 34 43.98
[-B. — Tbe sejnidiameter for mean noon may be assumed the same as that for apparent noon.
Tbe sign + prefixed to the hourly change of declination indicates that south declina-
tions are decreasing.
Diff. for I Hotir,
+9'.8s6s.
(Table III.)
16
FEBRUARY, 1913.
III.
AT GREENWICH MEAN NOON.
U
Q
I
2
3
4
5
6
7
8
lO
II
12
13
X4
15
i6
17
i8
20
21
22
23
24
25
26
27
28
29
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
THE SUN'S
True Loogititde.
//
312
313
314
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
3 31 o
4 24.3
5 16.7
315 6 8.1
316 6 58.4
317 7 47.5
318 8 35.3
319 9 21.8
320 10 6.8
0 50.4
1 32.4
2
12.8
2 51.5
3 28.5
4 3.7
4 37- 1
5 8.7
5 38.5
6
6
6.5
32.8
6 57.4
7 20.4
7 419
8 1.9
8 20.4
8 37.5
8 53.1
9 7.2
340 19 19.8
o
I
2
2
3
3
6
6
6
7
7
7
//
3 27.1
4 20.3
5 12.5
6 3.7
6 53.8
7 42.8
8 30.5
9 16.8
10 1.7
45.1
27.0
7.3
45.8
22.6
57.7
4 31.0
5 2.4
5 32.1
0.0
26.2
50.7
136
34.9
54.8
8 I
8
8
8
3.2
.1
.6
59.5
30.
45
9 12.0
Diff. for
z Hour.
//
52.24
52.20
52.16
52.12
52.07
52.02
51.97
51-91
51.85
5i.7«
51.72
51.65
51.58
51.50
51.43
51.35
51.28
51.21
51.13
51.06
50.99
50.93
50.87
50.81
50.75
50.68
50.62
50.56
150.50
Latitude.
ff
-0.58
0.61
0.61
-0.57
0.51
0.43
-0.33
0.22
— O.IO
+ 0.03
0.15
0.27
+ 0.37
0.45
0.51
+ 0.53
0.53
0.50
+ 0.43
0.33
0.21
+ 0.08
— 0.06
0.19
-0.32
0.43
0.51
0.58
— 0.60
Logarithm of the
Radius Vector of
the Earth.
9.993 6655
9.993 7335
9.993 8030
9.993 8739
9.993 9462
9.9940198
9.994 0946
9.994 1707
9.994 2480
9.994 3267
9.994 4067
9.994 4880
9.994 5708
9.9946551
9.994 7410
9.994 8287
9.9949182
9.995 0096
9.995 1030
9.995 1985
9.995 2962
9.995 3959
9.995 4976
9.995 6012
9.995 7065
9.995 8134
9.9959217
9.9960313
9.996 1419
Diff. for
I Hour.
+28.0
28.7
29.3
+29.8
30.3
30.9
+31.4
32.0
32.5
+33.1
33.6
34.2
+34.8
35.5
36.2
+36.9
37.6
38.4
+39-2
40.1
41.0
+41.9
42.7
43.5
+44.2
44.8
45.4
45.9
+46.3
NoTS.'— The longitudes in the column X are referred to the true equinox of their own date,
while those in the column X' are referred to the mean equinox of the beginning of
the Besaelian Sctitious year.
Mean Time of
Sidereal Noon.
h m s
3 15 7.51
3 II 11.60
3 7 15.69
3 3 19.78
2 59 23.87
2 55 27.96
2 51 32.05
2 47 36.14
2 43 40.23
2 39 44.32
2 35 48.41
2 31 52.50
2 27 56.59
2 24 0.68
2 20 4.77
2 16 8.86
2 12 12.95
2 8 17.04
2 4 21.13
2 o 25.22
I 56 29.32
I 52 33.41
I 48 37.50
I 44 41.59
I 40 45.68
I 36 49.77
I 32 53.86
I 28 57.96
I 25 2.05
Diff. for X Hour.
— 9*.8a96.
(Table II.)
IV.
FEBRUAKY, 1913.
GREENWICH MEAN TIME.
THE MOON'S
17
SBMIDIAMBTSR.
Noon.
//
5
4
4
4
4
4
5
5
5
6
6
6
5
5
7.2
59.5
53.4
48.8
45-6
43.8
4 43.3
4 44-3
4 47.0
4 51.5
4 58.1
5 6.9
17.9
31.0
45.7
1.3
16.6
30.2
6 40.5
6 46.0
6 46.1
6 40.5
6 30.2
6 16.4
6 0.9
5 45.1
5 30.2
16.9
5-7
4 570
4 50.5
14 46.3
1913-
Midnicht.
//
5 3.1
4 56.2
4 50.9
4 47.0
4 44.5
4 43.4
4 43.6
4 45.4
4 49.0
4 54-6
5 2.2
5 12.2
5 24.2
5 38.2
5 53.5
6 9.1
6 23.8
6 35.9
6 43.9
6 46.8
6 43.9
6 35.8
6 23.6
6 8.8
5 53.0
5 37.5
5 23.3
5 ii.o
5 II
4 53.5
4 48.2
14 44.9
■2
HORIZONTAL PARALLAX.
Noon.
//
55 23.73
54 55.29
54 32.88
54 16.03
54 4.33
53 57.61
53 55.94
53 59.69
54 9.50
54 26.10
54 50.24
55 22.48
56 2.92
56 50.93
57 44.99
58 42.19
59 38.45
60 28.31
61 5.97
61 26.32
61 26.35
61 5.95
60 28.07
59 37.71
58 40.77
57 42.71
56 47.86
55 59.17
55 18.37
5446.16
54 22.47
54 6.78
Diff. for
I Hour.
//
-I.317
1.055
0.814
'5^2
0.384.
-0.175
+0.039
0.278
0.545
+0.844
1.172
I.5I5
+1.849
2.142
2.342
+2.399
2.253
1.864
+1.239
+0.437
-0.436
-1.243
1.879
2.276
-2.432
2.377
2.173
-1.872
1.522
1. 162
o.8i6
—0.498
Midnight.
//
55 8.73
54 43.36
54 23.79
54 9.56
54 0.34
53 56.14
53 57.10
54 3.80
54 16.90
54 37.19
55 5.33
55 41 .70
56 26.04
57 17.36
58 13.41
59 10.76
60 4.55
60 49.02
61 18.55
61 28.96
61 18.58
60 48.93
60 4.08
59 9-71
58 11.57
57 14.67
56 22.61
55 37.71
55 1. 18
54 33.27
54 13.67
54 I -68
Diff. for
I Hour.
//
-1. 184
0.933
0.701
.488
0.280
071
+0.155
0.407
0.691
+ 1.005
1.344
1.686
+2.002
2.257
2.390
+2.354
2.089
1.579
+0.853
+0.002
-0.856
-1.588
2.109
2.382
-2.427
2.290
2.031
— 1.700
1.342
0.986
0.652
-0.353
UPPER TRANSIT.
Meridian of
Greenwich.
h m
21 I5.I
22 8.1
22 59.0
23 46.9
6
o 31.7
I 13.8
1 53.9
2 33.0
3 12. 1
3 52.3
4 34.9
5 21.0
6 11.9
7 8.0
8 8.9
9 12.5
10 16.0
11 16.9
12 13.9
13 7.4
13 58.4
14 48.2
15 38.2
16 29.2
17 21.8
18 15.8
19 10.4
20 4.1
20 55.7
21 44.4
22 30.0
Diff. for
X Hour.
m
2.24
2.17
2.06
1.93
• •
I.81
1. 71
1.64
1.62
1.64
1.72
1.84
2.01
2.23
2.44
2.61
2.66
2.60
2.46
2.30
2.17
2.09
2.07
2.10
2.l6
2.22
2.27
2.27
2.20
2.09
1.97
1.84
AGB.
Noon.
d
25.1
26.1
27.1
28.1
29.1
0.3
1.3
2.3
3.3
4.3
5.3
6.3
7.3
8.3
9.3
10.3
"3
12.3
13.3
14.3
15.3
16.3
18.3
19.3
20.3
21.3
22.3
23.3
24.3
25-3
26.3
18 FBBKUAEY, 1913.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
VI. FEBRUARY, 1913. 19
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION. ^
vm.
FEBRUARY, 1913.
21
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
I Min.
Declination.
for
X Min.
Hour.
Right Ascension.
for
xlfin.
Declination.
for
X Min.
THt
rRSD/
kYi3.
SATURDAY 15.
h m s
8
• • M
M
h m 8
3
• ( «
M
0
2 42 22. 08
t.0755
N.I9 17 51.0
XX. 622
0
4 31 2.39
2.4597
N.26 41 46.8
6. 271
X
2 44 26.82
2.0637
19 29 26.0
XX. 546
I
4 33 30.21
3. 4676
26 47 58.5
6.XX9
2
2 46 32.00
8.0900
19 40 56.4
XI. 468
2
43558.50
2.4755
a6 54 X.I
5.967
3
2 48 37.62
a. 097a
19 52 22.2
11.389
3
4 38 27.27
2.4833
26 59 54.5
5.8X3
4
2 50 43-67
2,lOi5
20 3 43.2
XX. 309
4
4 40 56.50
3.4910
a7 5 38.6
5-657
5
2 52 50.16
2.ixao
ao 14 59.3
XI. 327
5
4 43 26. 19
2.4987
27 XI 13.3
S.499
6
a 54 57.10
«."95
20 26 10.5
II. 145
6
4 45 56.34
2.506a
27 16 38.5
S.3S9
7
a 57 4- 50
t.xiTo
20 37 16.7
XI. 060
7
4 48 26.94
•.5137
27 21 54.0
5.178
8
a 59 ia.35
S.I346
20 48 17.7
10.974
8
4 50 57.98
3.5311
27 26 59.9
5.017
9
3 z ao.65
t.1423
ao 59 13.6
X0.887
9
4 53 29.47
2.5285
27 31 56.0
4.853
xo
3 3 29-41
•.1498
21 10 4.2
10.799
10
4 56 1.40
«.5357
27 36 42.2
4.687
"
3 5 38- 63
a. 1576
21 20 49.5
X0.709
II
4 58 33.76
2.5429
27 41 18.4
4.519
It 1
3 7 48.3a
a. 1654
21 31 29.3
10.617
12
5 I 6.55
2.5500
27 45 44.5
4.351
ul
3 9 58-48
a.x7sa
21 42 3.6
10.534
13
5 339.76
3.5570
27 50 0.5
4.181
u
3 xa 9.11
a. x8x2
21 52 32.2
X0.430
14
5 6 13.39
3.5638
27 54 6.2
4.009
15
3 14 20.22
a.x89i
22 2 55.1
10.333
15
5 847.42
3.5706
27 58 1.6
3.837
i6
3 16 31.80
a.x97o
22 13 12.2
10.336
16
511 21.86
«.577«
28 I 46.6
3.661
17
3 18 43.86
2.aoso
22 23 23.4
10.137
17
5 n 56.70
t.5838
28 5 21.0
3.486
iS
3 20 56.40
a. 3x31
22 33 28.6
10,037
18
5 16 31.92
3.5903
28 8 44.9
3.309
19
3 a3 9.43
a.23xa
22 43 27.8
9*935
19
5 19 7.52
3.5965
28 II 58.1
3.130
20
3 25 22.94
a.a293
22 53 20.8
9.831
20
5 21 43.50
3.6037
28 15 0.5
t.949
21
3 a7 36.94
a. 3374
23 3 7.5
9.7»5
21
5 24 19.85
3.6087
28 17 52.0
3.767
22
3 a9 51.43
3.3456
23 12 47.8
9.6x8
22
5 26 56.55
2.6x47
28 20 32.6
3.585
23
i 3 3a 6.41
Fl
t.35S8
aDA\
N.23 22 21.7
14.
9.511
23
5 a9 33.60
SU
s.6ao4
NDA\
N.28 23 2.2
' 16.
3.401
0
3 34 2X.89
a.aGsx
N.23 31 49.1
9.40X
0
5 32 11.00
2.6361
N.28 25 20.8
3.317
I
3 36 37.86
a. 2703
23 41 9.8
9.389
I
5 34 48.73
2.63x6
28 27 28.2
3.090
2
3 38 54.3a
3.2785
23 50 23.8
9.176
2
5 37 26.79
3.6370
28 29 24.4
1.843
3
3 41 11.28
3.3868
23 59 30.9
9.06X
3
540 5.17
3.6422
28 31 9.2
1.65a
4
3 43 28.74
3.3932
24 831.1
8.945
4
5 4a 43.85
a.6472
28 32 42.7
1.46s
5
3 45 46.70
a.3<Q5
24 17 24.3
8.827
5
5 45 22.83
3.6531
a8 34 4.8
l.37t
6
348 5.16
2.31x8
24 26 10.3
8.707
6
5 48 2.10
3.6568
a8 35 15.4
1.079
7
3 50 24.12
a.S2ox
24 34 49- 1
8.586
7
5 50 41.65
2.6614
28 36 14.3
0.886
8
3 5a 43-57
2.3384
24 43 20.6
8.462
8
5 53 ai.47
3.6658
2837 1.7
0*693
9
3 55 3.5a
t.33«
24 51 44.6
8.337
9
5 56 1.55
2.670X
28 37 37.4
0.497
10
3 57 23-98
«.345a
25 0 i.i
8.2x2
10
5 58 41.88
2.6743
28 38 1.3
0.301
XI
1 3 59 44.94
«.3534
25 8 10.0
8.084
II
6 I 22.46
3.6782
28 38 13.5
iO.X04
12
4 a 6.39
a. 36x7
25 16 II. 2
7.954
12
6 4 3.26
2.6818
28 38 13.8
-0.094
13
4 4 a8.34
a. 3700
2524 4.5
7.822
13
6 6 44.28
2.6854
28 38 2.2
0.392
H
4 6 50.79
2.3783
25 31 49.9
7.690
14
6 925.51
2.6888
28 37 38.7
0.491
15
4 9 1374
3.3866
25 39 27.3
7.556
15
6 12 6.94
2.6921
28 37 3.2
0.693
16 i
411 37.18
2.3948
25 46 56.6
7.419
16
6 14 48.56
2.6952
28 36 15.6
0.89s
17
4 14 i.ia
3.4033
25 54 17-7
7.282
17
6 17 30.36
2.6980
28 35 16.0
1.094
18 1
4 16 25.56
a.4113
26 I 30.4
7.142
18
6 20 12.32
2.7007
2834 4.3
1.297
19
4 18 50-48
•.4194
26 834.7
7. 001
19
6 22 54.44
3.7032
28 32 40.4
1.500
20 [
4 21 15-89
3.4276
26 15 30.5
6.859
20
6 25 36.70
2.7054
2831 4.3
1.70s
" i
4 a3 41.79
«.4357
26 22 X7.8
6.715
21
6 28 19.09
2.7076
28 29 16.0
1.907
1
22
426 8.18
a. 4438
26 28 56.3
6.568
22
6 31 1. 61
2.7096
28 27 15.5
3. XXX
23
4 28 35-05
t.4518
26 35 26.0
6.42X
23
6 33 44. a4
2.7112
28 25 2.7
3.319
24
4 31 «.39
«.4597
N.26 41 46.8
6.37X
24
6 36 26.96
3.7x38
N.28 22 37.7
a.9tO
22 FEBRUARY, 1913. IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
X.
FEBRUARY, 1913.
23
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hoar., Right Ascension.
1
for
z Min.
Declination.
for
I Min.
Hour.
Right Ascension.
for
I If in.
Declination.
for
iMin.
FR
IDAY
21.
SUNDAY
' 23.
h m 8
s
Of ft
t*
h m s
8
e ,
f*
0 lo 42 44.48
a. 3x55
N-io 33 45-6
X7.243
0
12 29 39.39
«.I7I5
S. 3 41 48.7
17.6x6
I 1045 3-26
8.3x06
10 16 29.2
17.302
I
12 31 49.65
2.1706
3 59 24-5
17.576
2
10 47 21.75
«.3057
9 59 9-4
17.357
2
12 33 59-86
8.1697
4 16 57.8
17.534
3
10 49 39-95
S.3010
9 41 46.4
17.410
3
12 36 10.02
8.1690
4 34 28.6
17.491
4 10 51 57.87
«.t963
9 24 20.2
X7.462
4
12 38 20.14
2.1683
4 51 56.7
17.446
5 1 10 54 15.51
t.a9X7
9 6 51.0
17.5"
5
12 40 30.22
8.1677
5 9 22.1
17.399
6
10 56 32.87
2.a878
8 49 18.9
17.557
6
12 42 40.27
2.1673
5 26 44.6
17.350
7
10 58 49.97
8.9827
831 44-1
17.60X
7
12 44 50.29
8.X668
5 44 4-1
17.300
8 II I 6.80
2.8783
8 14 6.7
17.643
8
12 47 0.28
8.1664
6 I 20.6
17.849
9 II 3 23-37
2.8740
7 56 26.9
17.684
9
12 49 10.26
2.X663
6 18 34.0
17.196
10 II 5 39.68
8.2698
7 38 44.7
X7.782
10
12 51 20.22
2.1660
63544.1
17.140
II
II 7 55-75
a. 2657
7 21 0.3
I? '757
II
12 53 30.18
8.1659
6 52 50.8
17.083
12
11 10 11.57
8.86x7
7 3 13.9
17.790
12
12 5540.13
2.1658
7 9 54-1
17.026
13 ^ II 12 27.15
a.«577
6 45 25.5
X7.828
13
12 57 50.08
8.1658
7 26 53.9
16.966
14 II 14 42.49
8.2537
6 27 35.3
17.850
14
13 0 0.03
S.X660
7 43 50.0
16.904
15 1 II 16 57.60
3.2499
6 9 43-5
17.877
15
13 2 10.00
8.X668
8 0 42.4
X6.843
16 ' II 19 12.48
8.8468
5 51 50-1
17.902
16
13 4 19.98
8.X664
8 17 31.0
16.777
17 i II 21 27.14
S.S426
5 33 55-3
I7.9a4
17
13 629.97
3.1667
8 34 15.7
16.71S
18 11 23 41-59
8.8390
5 15 59-2
17.945
18
13 839.99
3.1673
8 50 56.4
16.644
19 II 25 55-82
t.2354
4 58 1.9
X7.963
19
13 10 50.03
8.1676
9 7 33-0
16.575
20 II a8 9.84
2.838X
4 40 3-6
17.978
20
13 13 O.IO
8.1683
924 5.4
16.504
21 i II 30 23.67
2.2288
422 4.5
17.99a
21
13 15 10.21
8.1688
94033.5
16.433
1 22 , II 32 37.29
8.885S
4 4 4-5
18.005
22
13 17 20.36
2.X695
9 56 57-3
16.359
; 23 ' " 34 50.73
8.3984
N. 3 46 3.9
18.0x4
23
13 19 30.55
2.1702
S.io 13 16.6
16.384
I SAT
1
VRDA
Y 22.
MO
»NDA\
^ 24.
' 0
II 37 3-98
8.8x93
N. 3 28 2.8
18.082
0
13 21 40.79
3.X7XX
S.IO 29 31.4
16.30B
1
1
II 39 17.05
3.2163
3 10 1.3
X8.027
I
13 23 51.08
3.17x9
10 45 41.6
X6.13X
1 2
1
II 41 29.94
8.8x34
2 51 59-5
X8.031
2
13 26 1.42
8.X729
II I 47.1
X6.053
3
II 43 42.66
8.8x06
2 33 57-6
18.033
3
13 28 11.83
2. 1740
II 17 47.8
15.971
' 4
11 45 55-21
2.2078
2 15 55.6
18.033
4
13 30 22.30
2.1750
II 33 43.6
15.888
5
II 48 7.60
2.3058
I 57 53.7
X8.030
5
13 32 32.83
8.1762
II 49 34-4
15.805
6
II 50 19.84
8.2027
I 39 52.0
Z8.025
6
13 34 43-44
a. 1774
12 5 20.2
15.7M
7
II 52 3193
2.2002
I 21 50.7
18.0x8
7
13 36 54- 12
2.1787
12 21 I.O
15.636
8
II 54 43.87
2.1978
I 3 49.8
18.009
8
13 39 4.88
2.1800
12 36 36.5
15.547
9
II 56 5567
8. 1956
0 45 49-6
17.998
9
13 41 15.72
2.1813
12 52 6.7
15.459
10
II 59 7-34
2.X933
0 27 50.0
17.987
10
13 43 26.64
2.1827
13 731.6
15.370
II
12 I 18.87
2.19x2
N. 0 9 51.2
17.97a
II
13 45 37.65
8.1843
13 22 51. 1
15.279
12
12 3 30.28
8.Z898
S. 0 8 6.7
17.956
12
13 47 48.76
2.1859
1338 5.1
15.187
13
12 541-57
2.1872
026 3.5
17.937
13
13 49 59.96
8.X875
13 53 13.5
15.092
H
12 7 52-75
8.1854
043 59-2
X7.918
14
13 52 11.26
2.1892
14 8 i6.2
14.997
15
12 10 3.82
8.X837
I I 53-7
17.897
15
13 54 22.66
2.1909
14 23 13.2
14.908
16 12 12 14-79
2.188O
I 19 46.8
17.872
16
13 56 34-17
2.1927
14 38 4.4
14.805
17 J 12 14 25.66
8.1803
I 37 38-3
X7.846
17
13 58 45-78
2.1944
14 52 49.8
14.707
18 ! 12 16 36.43
8.X788
I 55 28.3
X7.819
18
14 0 57.50
2.1963
15 7 29-2
14.606
19 1 12 18 47-12
2.1774
2 13 16.6
17.790
19
14 3 9-34
2.1982
15 22 2.5
14.505
20 ' 12 20 57.72
2.1760
231 3.1
17.759
20
14 5 21.29
2.2O08
15 36 29.8
14.403
21 1 12 23 8.24
a.x747
2 48 47.7
17.726
21
14 7 33-36
2.2022
15 50 50.9
14.300
22 12 25 18.69
3.1736
3 6 30.2
X7.691
22
14 945-56
8.3043
16 5 5.8
14.195
23 12 27 29.07
8.1725
3 24 10.6
17.654
23
14 II 57.88
3.8O63
16 19 14.3
14.089
H
12 29 39-39 '
a.»7X5
S. 3 41 48.7
17.6x6
24
14 14 10.32
3.3084
S.16 33 16.5
13.983
24
FEBRUARY, 1913.
GREENWICH MEAN TIMK
cXI.
THE MOON*S RIGHT ASCENSION AND DECLINATION.
How.
Right Ascension.
Diff.
for
1 11 in.
Declination.
Diff.
for
iMin.
O
I
2
3
4
5
6
7
8
9
zo
XI
12
13
14
15
i6
17
i8
19
20
2Z
22
23
O
z
2
3
4
5
6
7
8
9
lo
II
12
13
14
15
z6
17
i8
19
20
21
22
33
24
TUESDAY 25.
h m 8
14 14 10.32
14 16 22.89
14 18 35-59
14 20 48.43
14 23 1.40
14 25 14.51
14 27 27.75
14 29 41.14
H 31 54.67
1434 8-34
14 36 22.16
14 38 36.12
Z440 50.23
14 43 4.49
14 45 18.90
14 47 33.46
Z4 49 48.17
14 52 3.03
14 54 18.05
14 56 33.22
14 58 48.54
15 z 4.02
15 3 19.65
15 5 35.44
8
a.9aB4
«.txo6
2.8188
2.S151
3.8x73
S.8X96
t.88X9
8.8843
8.8267
8.2891
8.23x5
8.8339
8.2364
8.8389
8.24x4
8.2439
8.8464
8.2490
2.25x6
2.254«
2.2567
8.8592
2.26x8
S. z6 33
1647
17 I
17 14
17 28
17 41
17 55
18 8
18 21
1834
1847
Z9 o
19 13
1925
1938
19 50
20 2
20 Z4
20 26
20 38
20 50
21 I
21 13
S.21 24
16.5
12.3
1.5
44.2
20.2
49.5
12.0
27.8
36.6
38.5
33.4
21.2
1.8
35.2
1.4
20.3
31.8
35.9
32.5
21.6
3.1
37.0
3.1
21.5
15 7 51.39
15 10 7.49
Z5 12 23.74
15 1440.15
15 16 56.71
15 19 13.43
15 21 30.30
15 23 47.32
15 26 4.49
15 28 21.82
15 30 39.29
15 32 56.91
15 35 14.68
15 37 32.59
15 39 50.64
1542 8.84
15 44 27.18
154645.65
1549 4.26
15 51 23.01
15 53 41.89
15 56 0.89
15 58 20.02
16 o 39.28
z6 2 58.66
2.2645
WEDNESDAY 26.
2.8671 S.21 35 32.Z
2.2696 21 46 34.8
8.8722 21 57 29.7
8.2747 22 8 16.6
2.2773 22 18 55.6
a.2799 22 29 26.5
2.2824 22 39 49.3
2.2849 22 50 3.9
2.2875 23 o 10.4
8.8900 23 10 8.7
2.2924 23 19 58.7
8.8949 23 29 40.4
2.8973 23 39 13.7
2.2997 23 48 38.7
t.308x 23 57 55.2
8.3045 24 7 3.3
2.3067 24 16 2.8
8.3090 24 24 53.8
a.3"3 24 33 36.2
3.3x36 24 42 lo.o
2.3157 245035.1
8.3x77 24 58 51.6
a.3199 25 6 59.3
8.3220 25 14 58.3
8.3240 S.25 22 48.5
X3.983
13.875
13.766
13.656
13.544
13.432
13.319
13.205
13.089
12.973
X2.856
12.737
18. 617
12.497
12.376
12.853
X8.X3O
X8«006
XX.88X
11.755
XI. 628
XX. 500
11.371
IX.848
xx.zxx
X0.980
Z0.848
10.7x6
XO.S82
10.447
10.3x2
XO.Z76
Z0.040
9.902
9.764
9.625
9.486
9.346
9.205
9.063
8.921
8.778
8.635
8.491
8.347
8.202
8.056
7.9x0
7.763
Hour.
Right Ascoxxsioo.
Diff.
for
xMin.
Dedixiation.
THURSDAY 27.
o
I
2
3
4
5
6
7
8
9
10
zi
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
2Z
22
23
24
ZHff.
for
X Min.
h m s
8
0 » m
t*
[6 2 58.66
2.3240
S.25 22 48.5
7.763
[6 5 18. z6
2.3159
25 30 29.9
7.6x6
6 737.77
2.3278
2538 2.4
7.468
6 9 57.50
2.3297
25 45 26.1
7.S2X
l6 12 17.34
8.3315
25 52 40.9
7.17a
:6 14 37.28
2.3332
25 59 46.7
7.022
6 16 57.33
2.3330
26 6 43.6
6.873
6 19 17.48
2.3367
26 13 31.5
6.724
6 21 37.73
2.3382
26 20 10.5
6.574
6 23 58.07
t.S397
26 26 40.4
6.4*3
6 26 18.50
2.34x2
2633 Z.3
6.878
6 28 39.01
2.3426
26 39 13. 1
6. tax
6 30 59.61
2.3499
26 45 15.8
5.969
6 33 20.28
2.3452
26 51 9.4
5.8x7
6 35 41.03
t.3464
26 56 53-9
5-665
6 38 Z.85
«.3475
27 2 29.2
5 5X8
6 40 22.73
2.3485
27 7 55.4
5.56X
6 42 43.67
t.S495
27 13 12.5
5.80B
645 4.67
«.3904
27 18 20.4
5.054
6 47 25.72
2.3313
27 23 19.0
4.901
6 49 46.82
2.3521
27 28 8.5
4.748
6 52 7.97
8. 95*7
27 32 48.8
4*594
65429.Z5
2.3533
27 37 19.8
4-440
6 56 50.37
3.3539
S.27 4Z 41.6
4.887
FF
IDAY
28.
6 59 11.62
2.3543
S.27 45 54-2
4.X3t
.7 I 32.89
2.3547
«7 49 57.5
3.976
7 3 54.18
«.S549
27 53 51.6
3.884
7 6 15.48
2.3552
27 57 36.4
3.670
7 8 36.80
a.3553
28 I 12.0
3.516
.7 10 58.12
«.355S
28 4 38.3
3.961
7 13 19.44
2.3552
28 7 55.3
3.207
7 15 40.75
2.3551
28 II 3.1
3.052
7 i8 2.05
t.3S49
28 14 1.6
8.89B
:7 20 23.34
2.3546
28 16 50.9
a-744
7 22 44.60
«.3542
28 19 30.9
8.590
7 25 5.84
a. 3537
28 22 1.7
a.437
7 27 27.05
2.3532
28 24 23.3
••«B2
[7 29 48.22
2.3525
28 26 35.6
8. 188
7 32 9.35
a. 3517
28 28 38.7
X.974
7 34 30.43
2.3508
28 30 32.5
X.Sao
7 36 51.45
2.3499
28 32 17. 1
X.667
[7 39 12.42
2.3489
28 33 52.6
1.514
7 41 33.32
•.5477
28 35 18.8
X.36X
7 43 54.15
a. 3466
28 36 35-9
X.808
7 46 14.91
«.345S
28 37 43.8
X.056
7 48 35.59
a. 3440
28 38 42.6
0.903
7 5056.19
«.34«5
28 39 32.2
0.751
7 53 16.69
2.3409
28 40 12.7
7 55 37.10
2.339a
S.28 40 44.2
0.448
XII. (FEBRUARY, 1913. 25
GREENWICH MEAN TIME.
PHASES OF THE MOON.
d h m
i New Moon Feb. 5 17 21.9
) First Quarter 13 20 33.9
0 Full Moon 20 14 3.3
C Last Quarter 27 9 15.4
d h
C Apogee Feb. 6 19.8
C Perigee 20 1 2.1
26
MARCH, 1913.
I.
AT GREENWICH APPARENT NOON,
Day of
the
Week.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
^
o a
I
2
3
4
5
6
7
8
9
ID
II
12
13
14
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
31
Tues. 32
THE SUN'S
Apparent Right
Ascension.
Diff. for
I Hour.
h m s
224721.54
22 51 6.19
22 54 50.36
22 58 34.07
23 2 17.33
23 6 0.14
23 942.54
23 13 24.55
23 17 6.17
23 20 47.42
23 24 28.31
23 28 8.87
2331 49.12
23 35 29-07
2339 8-74
234248.15
23 46 27.33
2350 6.29
23 53 45.05
23 57 23.63
o I 2.07
o 440.39
o 8 18.61
o II 56.75
o 15 34.84
o 19 12.92
O 22 50.99
o 26 29.08
030 7.21
o 33 45.40
o 37 23.66
o 41 2.02
s
9.372
9.350
9.329
9.311
9.293
9.276
9.259
9.242
9.226
9. 211
9.197
9.184
9.I7I
9.159
9.148
9.138
9.128
9. 119
9. 112
9.105
9.100
9.095
9.091
9.089
9.087
9.086
9.087
9.088
9.090
9093
9.096
9.100
Apparent Decli-
nation.
//
S. 742 3.2
7 19 14.2
6 56 18.9
633 17.6
6 10 10.7
5 46 58-7
5 23 42.0
5 021.0
4 36 56.0
4 13 27.5
3 49 55.9
3 26 21.7
3 245.1
2 39 6.6
2 15 26.6
I 51 45-5
I 28 3.7
I 421.5
o 40 39.2
S. o 16 57.2
N. o 6 44.1
0 30 24.5
054 3-6
1 17 41.2
1 41 16.9
2 450.3
2 28 21. 1
2 51 490
3 15 13.6
3 38 34.6
4 I 517
N. 4 25 4-5
Diff. for
I Hour.
+56.90
57.17
57-43
+57.67
57.89
58.10
+58.29
58.46
58.61
+58.75
58.87
58.98
+59.06
59-12
59.18
+59-23
59.25
59.26
+59.25
5924
59.21
+59.16
59.10
5903
+58.94
58.84
58.73
+58.60
58.45
58.29
58.12
+57.93
Semidiam-
eter.
//
6 10.08
6 9.84
6 9.59
6 9-34
6 9.08
6 8.83
6
6
8.57
8.31
6 8.05
6 7.80
6 7.54
6 7.28
6 7.02
6 6.76
6 6.50
6 6.24
6 5-97
6 5.71
6 5.44
6 5.17
6 4.90
6 4.63
6 4-35
6 4.07
6 3.79
6 3.51
6 323
6 2.95
6 2.66
6 2.38
6 2.09
16 1.81
Sidereal
Time of
Semidi-
ameter
Passing
Me-
ridian.
65.43
65.36
65.29
65.22
65.15
65.09
65.03
64.97
64.92
64.87
64.82
6477
64.72
64.68
64.64
•
64.61
64.58
64.55
6452
64.50
64.48
64.47
64.46
64.45
64.45
64.44
64.44
64.44
64.44
64.45
64.46
64.47
Equation of
Time, to be
Added to
Apparent
Time.
m s
2 35.48
2 23.62
2 11.27
I 58.46
I 45.20
I 31.50
I 17.39
I 2.87
o 47.97
o 32.70
o 17.09
o 1. 15
944.89
9 28.33
911.49
8 54-39
837.06
8 19.52
8 1.77
7 43.85
7 25.79
7 7.61
6 49.33
6 30.97
6 12.56
554.13
5 35.70
5 17.29
4 58.91
4 40.59
422.35
4 4.21
DifF.
for
Hotxr.
0.484
0.504
0.524
0.543
0.561
0.579
0.596
0.613
0.628
0.643
0.657
0.671
0.684
0.696
0.707
0.717
0.726
0.735
0.743
0.750
0.756
0.760
0.764
0.766
0.768
0.768
0.768
0.767
0.765
0.762
0.758
0.754
NoTB. — The mean time of semidiameter passinjt the meridian may be fotmd by subtracting o*.i8 from the
sidereal time.
The sign + prefixed to the hourly change of declination indicates that south declinations are decreasing;
north declinations increasing.
II.
MARCH, 1913.
AT GREENWICH MEAN NOON.*
27-
Day of
the
Week.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN,
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN,
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
I
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 s
22 47 19.57
22 51 4.26
22 54 48.47
22 58 32.21
23 2 15.50
23 5 58.36
23 9 40.80
23 13 22.84
23 17 4.50
23 20 45.79
23 24 26.73
23 28 7.34
23 31 47.63
23 35 27.62
23 39 7.34
23 42 46.80
23 46 26.02
23 50 5.02
23 53 43.83
23 57 22.46
o I 0.95*
o 4 39.31
o 8 17.58
o II 55.77
o 15 33.91
o 19 12.03
O 22 50.15
o 26 28.29
o 30 6.46
o 33 44.69
o 37 23.00
o 41 1. 41
Diff. for
z Hour.
8
9.373
9.351
9330
9.312
9.294
9.277
9.260
9.244
9.228
9.213
9.199
9.185
9. 171
9.159
9.149
9.139
9.130
9. 121
9."3
9.106
9.101
9.097
9.093
9.091
9.089
9.088
9.089
9.090
9.092
9.095
9.098
9.102
Apparent Decli-
nation.
//
s.
7 42 15.2
7 19 26.1
6 56 30.6
6 33 29.1
6 10 22.0
5 47 9.8
5 23 52.9
5 o 31.7
4 37 6.5
4 13 37.8
3 50 6.0
3 26 31.5
3 2 54.7
2 39 16.0
2 15 35.7
I 51 54.3
I 28 12.2
I 4 29.7
o 40 47.1
o 17 4.8
N. o 6 36.8
o 30 17.5
0 53 57.0
1 17 34.9
1 41 10.8
2 4 44.5
2 28 15.6
2 51 43.8
3 15 8.8
3 38 30.2
4 I 47.5
N. 4 25 0.5
S.
Diff. for
I Hotir.
//
+56.91
57-18
57.44
+57.68
57.90
58.11
+58.30
58.47
58.62
+58.76
58.88
58.99
+59.07
59.14
59.20
+59.24
59.26
59.27
+59.26
59.25
59.22
+59.17
59."
59.04
+58.95
58.85
58.74
+58.61
58.47
58.31
58.14
+57.95
Equation of
Time to be
Subtracted
from
Mean Time.
m s
2 35.58
2 23.72
2 11.38
I 58.57
I 45.31
I 31-61
I 17.50
I 2.98
o 48.08
o 32.82
o 17.20
o 1.26
9 45.00
9 28.44
9 11.60
8 54.51
8 37.17
8 19.62
8 1.87
7 43.95
7 25.88
7 7.69
6 49.41
6 31.05
6 12.64
5 54.20
5 35.77
5 17.35
4 58.97
4 40.65
4 22.40
4 4.25
Diff. for
z Hour.
s
0.484
0.504
0.524
0.543
0.561
0.579
0.596
0.613
0.628
0.643
0.657
0.671
0.684
0.696
0.707
0.717
0.726
0.735
0.743
0.750
0.756
0.760
0.764
0.766
0.768
0.768
0.768
0.767
0.765
0.762
0.758
0.754
Sidereal Time,
or Right Ascen-
sion of Mean
Sun.
n m s
22 34 43.98
22 38 40.54
22 42 37.09
22 46 33.65
22 50 30.20
22 54 26.75
22 58 23.31
23 2 19.86
23 6 16.42
23 10 12.97
23 H 9.52
23 18 6.08
23 22 2.63
23 25 59.19
23 29 55.74
23 33 52.29
23 37 48.85
23 41 45.40
23 45 41.95
23 49 38.51
23 53 35.06
23 57 31.62
o I 28.17
o 5 24.72
o 9 21.28
o 13 17.83
o 17 14.38
o 21 10.94
o 25 7.49
o 29 4.04
o 33 0.60
o 36 57.15
N0T8. — ^The scmidiameter for mean noon may be assumed the same as that for apparent noon.
The sign + prefbced to the hourly change of declination indicates that south dedina-
tiona are decreasing: north declinations increasing.
Diff. for I Hour.
+9'.8s6s.
(Table III.)
28 MARCH, 1913. IDL
MARCH, 1913.
29
GREENWICH MEAN TIME.
THE MOON'S
SBMIDIAMEXeR.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGB.
N'oon.
Midnisht.
Noon.
Diff. for
I Hour.
Midnight.
DifF. for
I Hour.
Meridian of
Greenwich.
Diff. for
I Hour.
Noon.
) 5-7
1^ 57.0
^ 50.5
15 I.I
U 53-5
14 48.2
1
55 18.37
5446.16
54 22.47
-1.522
1. 162
0.816
55 1. 18
54 33.27
54 13.67
-1.342
0.986
0.652
h
20
20
21
m
4-1
55-7
44.4
m
2.20
2.09
1.97
d
23.3
24.3
25.3
V 46.3
V 44.0
\ 43.4
14 44.9
14 43.5
14 43.7
54 6.78
53 58.28
53 56.15
-0.498
-0.216
+0.033
54 1.68
53 56.47
53 57.23
-0.353
-0.088
+0.147
22
23
23
30.0
12.8
53.4
1.84
1.73
1.66
26.3
27.3
28.3
V 44.3
V 46.6
\ 50- 3
14 45.3
14 48.3
14 52.6
53 59.65
54 8.25
5421.70
+0.255
0.460
0.660
54 3.33
54 14.38
54 30.22
+0.358
0.560
0.762
0
I
6
32.8
12.0
• •
1.63
1.64
29.3
0.5
1.5
% 55-3
> 1-7
5 9-5
14 583
15 5-4
15 14.0
54 39.98
55 336
5532.18
+0.867
1.084
1.320
5451.02
55 17.06
55 48.74
+0.975
1. 201
1.439
I
2
3
51.8
33.5
18.2
1.70
1.80
1.94
2.5
3.5
4.5
; 190
i 29.9
42.2
15 24.2
15 35.9
15 48.7
56 6.72
56 46.84
57 31.94
+ 1.556
1.782
1.964
56 26.10
57 8.84
57 55.89
+1.673
1.882
2.023
4
4
5
6.8
59.8
57.3
2. II
2.31
2.47
5.5
6.5
7.5
55.4
8.8
21.3
16 2.1
16 15.2
16 26.9
58 20.40
59 9.57
59 55.64
+2.056
2.016
1.789
5845.11
59 33.28
60 16.04
+2.056
1.928
1. 601
6
7
8
57.8
59.2
59.2
2.55
2.54
2.45
8.5
9.5
10.5
31.8
41. 1
16 35.7
16 40.5
16 40.4
60 33.86
60 59.38
61 8.19
+ 1.360
+0.737
—0.017
60 48.50
61 6.05
61 5.60
+1.07 1
+0.372
-0.415
9
10
II
56.4
50.6
42.4
2.32
2.20
2.13
"5
I2.5»
13.5
33.4
30.8
19. 1
16 35.2
16 25.4
16 12.2
60 58.30
60 30.37
59 4764
-0.801
1. 501
2.034
60 46.45
60 10.58
59 22.21
-1. 170
1.789
2.20X
12
13
14
33.1
23.9
15.8
2. II
2.14
2.20
14.5
15.5
16.5
4.8
49-3
33 9
15 57'"^
15 41.5
15 26.6
58 55.02
57 57.97
57 1.56
-2.321
2.396
2.277
58 26.72
57 29.40
56 34.90
-2.386
2.357
2. 161
15
16
17
9.6
5.0
1.2
2.28
2.33
2.34
17.5
18.5
19.5
19.8
7-7
58.1
15 ^3-5
15 2.6
14 54-3
14 43.7
56 9.80
55 25.46
54 50.22
54 24.71
-2.017
1.666
1.267
0.859
55 46.57
55 6.64
54 36.24
54 15.61
-1. 851
1.470
1.064
0.660
17
18
19
20
56.8
50.2
40.4
27.2
2.28
2.16
2.02
1.89
20.5
21.5
22.5
23.5
46.8 1
14 45-6
54 8.88
-0.466
54 4.42
-0.281
21
10.9
1.76
24.5
MARCH, 1913. V.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
VI. MAKCH, 1913. 31
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
MARCH, 1913. VII.
G MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Vni. MARCH, 1913.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
34
MARCH, 1913.
IX.
GREENWICH MEAN TIME.
THE
MOONS RIGHT ASCENSION AND DECLINATION.
Diir.
Diff.
Diir.
Diff.
Hour.
Right Ascension.
for
iMin.
Declination.
for
xMin.
Hoar.
Right Ascension.
for
xMin.
Declination.
for
I Min.
MONDAY 17.
WEDNESDAY 19.
h m 8
t
Q » M
m
h m s
s
• m
m
O
7 17 28.30
3.616s
N.27 a6 II. 8
5*453
0
9 19 37.81
•.4438
N.19 40 18.2
X3.5X4
I
7 20 5.25
3.615s
27 20 38.9
5.643
I
9 22 4.30
3.4390
19 26 43.3
X3.648
2
7 22 42.12
3.6x38
27 14 54.6
5.83a
2
9 24 30.49
a.4S4i
19 13 0.4
I3.78X
3
7 25 18.91
t.6xsa
27 8 59.0
6.02I
3
9 26 56.39
i.4«9a
18 59 9.6
iS.9xa
4
7 ^7 55.60
2. 6106
27 2 52. 1
6.309
4
9 29 22.00
3.4344
18 45 II. 0
14.040
5
7 30 32.18
3.6067
26 56 33.9
6.397
5
9 31 47.32
a. 4195
18 31 4.8
14.167
6
7 33 8.65
3.6068
26 50 4.4
6.584
6
9 34 12.34
a.4X47
18 16 51.0
H.aiia
7
7 35 45.00
8.6047
26 43 23,8
6.770
7
9 36 37.08
t.4099
18 2 29.7
14.416
8
7 38 21.22
3.6025
36 36 32.0
6.957
8
9 39 1.53
t.4050
1748 I.I
"4.537
9
7 40 57.30
3.6003
26 29 29.0
7.14a
9
9 41 25.68
3.4003 1
17 33 25.2
14.657
lO
7 43 33.24
a. 5977
26 22 15.0
7.3a6
10
94349.55
a.3954 !
17 18 42.3
M.774
II
746 9.03
«.595«
26 14 49.9
7.510
It
946 13.13
a. 3907
17 3 52.3
14.891
12
7 48 44.67
3.5936
26 7 13.8
7.693
12
9 48 36.43
a. 3859 ;
16 48 55.4
15.005
13
7 51 20.14
«.5897
25 59 26.7
7.876
13
9 50 59.44
3.3813
16 33 51.7
15.1x7
14
7 53 55.44
3.5868
25 51 28.7
8.057
14
9 53 22.17
a. 3765
16 18 41.4
15.337
15
7 56 30.56
3.5838
25 43 19.9
8.337
15
9 55 44.62
3.3718
16 324.5
X5.335
i6
7 59 5.50
3.5807
25 35 0.2
8.417
16
9 58 6.79
a. 3673
15 48 1.2
X5.44X
17
8 I 40.25
2.5775
25 26 29.8
8.596
17
10 0 28.68
3.3626
15 32 31.6
X5.545
i8
8 4 14.80
3.574a
25 17 48.7
8.773
18
10 2 50.30
a. 3580
15 16 55.8
15.647
19
8 649.15
3.5708
25 8 57.0
8.950
19
10 5 11.64
a. 3535
15 I 13.9
I5-747
20
8 9 23.30
3.5673
24 59 54.7
9.X26
20
10 7 32.72
3.3491
14 45 26.1
15.846
21
8 II 57.23
a. 5637
24 50 41.9
9.301
21
10 9 53.53
a. 3446
14 29 32.4
15.94a
22
8 14 30.95
3. 5601
24 41 18.6
9.475
22
10 12 14.07
a.S4oa
14 13 33.0
16.037
23
8 17 4.44
3.5563
N.24 31 44.9
9.647
23
10 14 34.35
2.3358
N.13 57 38.0
16.139
TU]
ESDA^
V 18.
THU
RSDi^
lY 20.
O
8 19 37.70
t.55a4
N.24 22 I.O
9.817
0
10 16 54.37
3.3315
N.13 41 17.5
16.330
I
8 22 10.73
8.5485
24 12 6.8
9.988
I
10 19 14.13
3.3a7a
13 25 1.6
16.306
2
82443.52
a. 5444
24 2 2.4
XO.157
2
10 21 33.64
a.3a3i
13 8 40.5
16.394
3
8 27 16.06
3.5403
23 51 47.9
10.335
3
10 23 52.90
a.3««9
12 52 14.3
16.478
4
8 29 48.36
3.5363
23 41 23.4
XO.491
4
10 26 II. 91
3.3148
12 35 43.1 1 X6.560
5
8 32 20.41
a.53«>
23 30 49.0
10.656
5
10 28 30.68
3.3107
12 19 7.1
16.640
6
8 34 52.20
3.5377
23 20 4,7
XO.B90
6
10 30 49.20
3.3067
12 2 26.3
16.719
7
8 37 23.74
3.5335
23 9 10.6
10.983
7
1033 7.49
3.3008
II 45 40.8
16.795
8
8 39 55.02
3.5191
22 58 6.8
11.X44
8
10 35 25.54
3.3989
II 28 50.9
16.868
9
8 42 26.03
3.5146
22 46 53.3
X1.304
9
10 37 43.36
2.3953
II II 56.6
X6.94X
lO
8 44 56.77
3.5103
22 35 30.3
XX.463
10
10 40 0.96
2.39x4
10 54 58.0
17.010
II
8 47 27.25
a. 5057
22 23 57.9
XX.618
II
10 42 18.33
3.3877
10 37 55.4
17.077
12
8 49 57-45
2.50x0
22 12 16. 1
".774
12
10 44 35.48
2.3841
10 20 48.7
17.144
13
8 52 27.37
a. 4964
22 0 25.0
XI.927
13
10 46 52.42
3.2806
10 3 38. 1
17.«07
14
8 54 57.02
2.49x8
21 48 24.8
13.079
14
1049 9.15
3.277X
9 46 23.8
17.369
15
8 57 26.39
3.487X
21 36 15.5
X2.330
15
10 51 25.67
2.2736
9 29 5.8 I7.sa9
i6
8 59 55.47
8.48a3
21 23 57.2
12.379
16
10 53 41.98
3. 2702
9 II 44.3 17.386
X7
9 2 24.27
a. 4777
21 II 30.0
ia.537
17
10 55 58.10
3.3670
8 54 19.5
17.44X
i8
9 4 52.79
a. 4799
20 58 54.0
X2.673
18
10 58 14.02
3.2637
8 36 51.4
X7.494
19
9 7 21.02
3. 4681
20 46 9.2
X3.8Z7
X9
II 029.75
3.3606
8 19 20.2
X7.545
20
9 948.96
3.463a
20 33 15.8
12.96X
20
II 245.29
2.«575
8 I 46.0
X7.594
21
9 12 16.61
3.4584
20 20 13.9
13.103
21
II 5 0.65
3.3546
7 44 8.9
17.64a
22
9 14 43.97
a.4536
20 7 3.6
13.341
22
II 7 15.84
2.25x7
7 26 29.0
17.687
23
9 17 11.04
B.4487
19 53 45.0
X3.378
23
II 9 30.85
2.3488
7 846.5
17.7^
«4
9 19 37.81
3.4438
N.19 40 l8.2
'3.5x4
24
II II 45.69
3. 3460
N. 6 51 1.6
17.769
MAKCH, 1913. 35
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
36 MARCH, 1913. XL
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
xn.
MARCH, 1913.
37
GREENWICH MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DEC
:lina
Diff.
TION.
Diff.
Diff.
Diff.
Hour J Ri|;bt Ascension.
1
1
for
Declination.
for
Hour.
RiKbt Ascension.
for
Declination.
for
z Min.
x Min.
X Min.
I Min.
SAT
URDA
T 29.
MONDAY 31.
h m s
8
e • ••
•f
h m s
»
• » i# 1 »»
0 1 i8 35 6.20
«.3373
S. 28 29 38.0
a.113
0
20 21 47.55
a. 0956
S.24 U 43-6 «.i9«
I i8 37 26.32
2.3334
28 27 26.8
2.26X
I
20 23 53.12
2.0901
24 5 29.0 1 8.295
2 ' 18 39 46.21
2.3294
28 25 6.7
2.407
2
20 25 58.36
2.0847
23 57 8.2 1 8.397
3 i 18 42 5.85
2.325a
28 22 37.9
2.553
3
20 28 3.28
2.0792
23 48 41.3 8.499
4 ; 18 44 25.24
a.3iix
28 20 0.3
2.699
4
20 30 7.87
2.0738
23 40 8.3
b.599
5 " 18 46 44.38
2.3169
28 17 14.0
2.843
5
20 32 12.14
2.0684
23 31 29.4
8.698
61 18 49 3.27
2. 3x27
28 14 19. 1
2.987
6
20 34 16.08
2.0630
23 22 44.5 j 8.797
7 18 51 21.90
a. 3083
28 II 15.6
3.X29
7
20 36 19.70
2.0577
23 13 53-8 ' 8.894
8 18 53 40.27
a. 3038
28 8 3.6
3.271
8
20 38 23.00
a. 052a
23 4 57.2 j 8.991
9 1 iS 55 58.36
2.299a
28 4 43. 1
3.412
9
20 40 25.97
a.0469
22 55 54-9
9.086
10 ' 18 58 16.18
2.2947
28 I 14. 1
3.553
10
20 42 28.63
2.0417
22 46 46.9
9. 181
II 1 19 0 33.73
2.2902
27 57 36.7
3.69a
II
20 44 30.97
2.0363
22 37 33.2
9.275
12 19 2 51.00
2.2855
27 53 51-1
3.829
12
20 46 32.99
2.0311
22 28 13.9
9.367
13 19 5 7-99
2.2807
2749 57-2
3.967
13
20 48 34.70
2.0258
22 18 49.1 9.459
14 I 19 7 24.69
2.2760
27 45 55-0
4.X04
14
20 50 36.09
2.0206
22 9 18.8 9-550
15 19 94111
2.271a
2741 44.7
4.240
15
20 52 37.17
2.0154
21 59 43.1 9.640
16 , 19 II 57.24
a. 3663
27 37 26.2
4-375
16
20 54 37-94
a.oioa
21 50 2.0
9.728
17 ' 19 14 13.07
2.2614
27 32 59.7
4.508
17
20 56 38.40
a. 0052
21 40 15.6
9.817
xS 19 16 28.61
a. 2564
27 28 25.2
4.64a
18
20 58 38.56
a. 0001
21 30 24.0
9.904
19 19 18 43.84
2.2514
27 23 42.7
4.774
19
21 0 38.41
' X.9950
21 20 27.2
9.989
20 1 19 20 58.78
2.2464
27 18 52.3
4.906
20
21 2 37.96
1.9900
21 10 25.3
10.075
21 J 19 23 13.41
2.241a
27 13 54.0
5.036
21
21 437.21
1 X.9850
21 0 18.2
X0.160
22 19 25 27.73
a. 236a
27 8 48.0
5.165
22
21 6 36.16
! X.980O
20 50 6.1
10.243
23 19 27 41.75
a.a3io
S.27 3 34.2
5.294
23
21 8 34.81
1.9751
S. 20 39 49.0 i io.3a5
su
NDAY
30.
TUESDAY, APRIL i.
0 19 29 55.45
2.2257
S.26 58 12.7
5.422
0
21 10 33.17
X.9702
S.20 29 27.1
10.406
I 1 19 32 8.84
a.a206
2.2X53
26 52 43.6
26 47 6.9
5.548
5.673
2 = 19 34 21.92
3 19 36 34.68
a.aioo
26 41 22.7
5.797
4 19 38 47.12
2.2047
26 35 31. 1
5.922
PHASES
OF T]
HE MOON.
5 ! 19 40 59.24
6 19 43 11.04
2.1993
26 29 32.1
26 23 25.8
6.045
6.166
a. 1940
7 i 19 45 22.52
2.2886
26 17 12.2
6.287
J I
8 19 47 33.67
2.1832
26 10 51.3
6.407
V T % #
d n m
9 19 49 44-50
2.1777
26 4 23.3
6.sa6
•
New Moon
. •
. Mar. 7 12 22.5
10 19 51. 55.00
2.17«3
25 57 48.2
6.644
3)
First Quart
er .
. . . 15 8 58.0
" ; 19 54 5.18
a. 1669
25 51 6.0
6.76a
0
Full Moon
• •
. . . 21 23 56.2
12 19 56 15.03
2. 1614
25 44 16.8
6.877
a
Last Oiiart(
. . . 2y 0 57.7
13
19 58 24.55
20 033.74
a. 1559
0^ m mf\g
: 25 37 20.7
25 30 17.8
6.99a
*9 T/\g
^^
•^
2.1505
7.105
15
20 2 42.61
2.1450
25 23 8. 1
7.218
J t^
16
20 451.14
2.1394
25 15 51.6
7.331
d h
17 20 6 59.34
2.x 340
25 8 28.4
7.44a
(L
Apogee .
• •
. , Mar. 5 20.6
18
20 9 7.22
20 II 14.77
20 13 21.98
a. 1286
25 0 58.6
24 53 22.2
24 45 39.3
7.552
7.661
7.769
c
Perigee .
20 2^.6
m\0
19
a.ia3o
a. 1x76
9999 ^i» ^^ ^w ^) ■ ^^
20
21
20 15 28.87
a. I 190
24 37 49.9
7.«77
23
20 17 35.42
1 a.xo65
24 29 54- 1
7.98a
23
20 19 41-65
2.10XX
24 21 52.0
8.087
«4
20 21 47*55
i a. 0956
S.24 1343.6
8.19a
38
\PRIL, 1913.
AT GREENWICH APPARENT NOON.
I.
Day of
the
Week.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN,
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN,
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN,
Mon.
Tues.
Wed.
Thur.
Q
I
2
3
4
5
6
7
8
9
ID
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
Ascension.
h m s
o 41 2.02
o 44 40.50
o 48 19.11
o 51 57.87
o 55 36.80
o 59 15.90
2 55.20
6 3472
10 14.47
13 54.45
17 34.68
21 15.18
24 55.97
28 37.06
32 18.46
36 0.19
39 42.27
43 24.71
47 7.53
50 50.76
54 34.41
1 58 18.49
2 2 3.02
2 5 48.02
2 9 3350
2 13 19.47
2 17 5.95
Diff. for
I Hour.
2
2
2 28
20 52.96
24 40.50
28.57
2 32 17.18
s
9.100
9.105
9. Ill
9. 118
9.126
9-^4
9.142
9.151
9. 161
9.171
9.182
9.193
9.206
9.219
9-233
9.247
9.261
9.277
9.293
9.310
9.328
9346
9365
9.385
9405
9.426
9-447
9.469
9.492
9.515
9.538
Apparent Decli*
nation.
n
N. 4 25 4.5
448 12.5
5 II 15.4
53412.9
5 57 4.7
6 19 50.4
6 42 29.5
7 5 1-7
7 27 26.6
7 49 43.9
8 II 53.3
8 33 54.3
8 55 46.6
9 17 29.8
9 39 3.7
10 o 27.9
10 21 42.1
104245.9
11 339.1
II 24 21.4
11 4452.5
12 5 12. 1
12 25 19.8
Diff. for
t Hour.
f*
+57-93
57.72
57.50
+57-27
57.02
56.76
+56.48
56.19
55.88
+55.56
55-22
54.86
+54.49
54.11
53.71
+53.30
52.87
52.44
+5 1 .99
51.53
5 1 05
+50.56
50.07
1245 15.4, 4956
13 458.5
13 2428.9
13 43 46.3
+49.03
48.50
47.95
14 2 50.2 +47-38
14 21 40.3 46.80
14 40 16.4 46.21
N.14 58 38.2 ■•■45.60
Semidiam-
eter.
6
6
6
1.81
1.53
1.25
6 0.97
6 0.69
6 0.41
6 0.13
5 59.86
5 59.59
5 59.32
559.06
5 58.79
5 58.53
5 58.26
558.00
5 57.74
5 57.48
5 57.22
556.96
5 56.70
556.44
556.18
5 55.92
5 55.66
5 55.41
555.15
554.90
5 54.65
5 54.40
554.15
15 53.90
Sidereal
Time of
Semidi.
ameter
Passins
Me-
ridian.
64.47
64.49
64.51
64.53
64.55
64.58
64.61
64.65
64.69
64.73
64.77
64.81
64.85
64.90
64.95
65.00
65.05
65.11
65.17
65.23
65.29
65.36
65.43
65.49
65.56
65.63
65.70
65.77
65.84
65.92
66.00
Equation of
Time, to be
Added to
Subtracted
from
Apparent
Time.
m 8
4 4.21
3 46.18
3 28.28
3 10.53
2 52.95
2 35.55
2 18.34
2 1.35
I 44.59
I 28.07
I 11.80
o 55.79
o 40.06
o 24.63
o 9.52
o 5.26
o 19.69
o 3376
0 47.46
1 0.76
I 13.64
I 26.08
I 38.07
I 49.60
2 0.64
2 II. 18
2 21.22
2 30.75
2 39.75
2 48.21
2 56.13
Diff.
for
I Hoar.
s
0.754
0.749
0.743
0.736
0.729
0.721
0.712
0.703
0.693
0.683
0.672
0.661
0.649
0.636
0.623
0.609
0.594
0.579
0.563
0.545
0.527
0.509
0.490
0.470
0.450
0.429
0.408
0.386
0.364
o.34>
0.319
Note. — ^The mean time of semidiameter passing the meridian may be found by subtracting o*.i8 from the
sidereal time.
The sign + prefixed to the hourly change of declination indicates that north declinations are increasing*
n.
APRIL, 1913.
AT GREENWICH MEAN NOON.
39
D«7or
Tues.
Wed.
Tlrar.
Fri.
Sat
SUN,
Is
I
2
3
4
5
6
Mon. ' 7
Toes. I 8
Wed. , 9
Thur. j lo
Fri. Ill
Sat. I 12
SUN. \ 13
Moo. I 14
Tues. i 15
Wed. ' 16
Thur. 1 17
Fri. I 18
Sat. 19
SUN. ' 20
Mon. I 21
Toes. I 22
Wed. j 23
Thur. . 24
Fri.
Sat
SUN.
25
26
27
Mon. I 28
Toes. 29
Wed. i3o
Thur.
31
THE SUN'S
ApfMxent Right
Afloetuion.
h m s
o 41 1. 41
o 44 39.93
o 48 18.58
o 51 57.39
o 55 36.36
o 59 15.51
2 54.85
6 34.41
10 14.20
13 54.22
17 34.50
21 15.04
24 55.87
28 37.00
32 18.44
36 0.21
39 42.33
43 24.80
47 7.66
50 50.92
54 34.60
1 58 18.71
2 2 3.27
2 5 48.30
2 9 33.81
2 13 19.81
2 17 6.32
2 20 53.35
2 24 40.91
2 28 29.01
2 32 17.65
Diff. for
X Hour.
s
9.102
9.107
9-"3
9.120
9.127
9.135
9.144
9-153
9.163
9.173
9.184
9.195
9.207
9.220
9-234
9.248
9.262
9.278
9.294
9-3"
9329
9-347
9-366
9-386
9.407
9.428
9-449
9-471
9-493
9-515
9.538
Apparent Decli-
nation.
//
N.
4
4
25
48
0.5
8.9
5 II 12.2
5 34 1 0.0
5 57 2.0
6 19 47.9
6 42 27.3
7 4 59.8
7 27 25.0
7 49 42.6
8 II 52.2
8 33 53.5
8 55
9 17
9 39
46.0
29.5
3.6
o o 28.0
O 21 42.4
0 42 46.4
1 3 39.8
I 24 22.3
1 44 53.6
2 5 13.3
2 25 21.2
2 45 16.9
3 5 0.2
3 24 30.7
3 43 48.2
DifF.for
I Hour.
t>
+57-95
57-74
57.52
+57.29
57.04
56.78
456.50
56.20
55.89
+55-57
55.23
5487
+54-50
54-12
53.72
+53.31
52.88
52.45
+52.00
51-54
51.06
+50.57
50.08
49.57
+49.04
48.50
47.95
4 2 52.2 +47.38
4 21 42.4
4 40 18.6
N. 14 58 40.4
46.80
46.21
+45.60
Bauationof
Tune to be
Subtracted
from
Added to
Mean Time.
m t
4 4.25
3 46.22
3 28.32
3 10.57
2 52.99
2 35.59
2 18.38
2 1.38
I 44.61
I 28.08
I II. 81
o 55.80
o 40.07
o 24.64
o 9.53
o 5.25
o 19.69
o 33.77
0 47.47
1 0.76
I 13.64
I 26.09
I 38.08
I 49.61
2 0.65
2 11.20
2 21.24
2 30.77
2 39.77
2 48.23
2 56.15
DifF. for
I Hour.
8
0.754
0.749
0.743
0.736
0.729
0.721
0.712
0.703
0.693
0.683
0.672
0.661
0.649
0.636
0.623
0.609
0.594
0.579
0.563
0.545
0.527
0.509
0.490
0.470
0.450
0.429
0.408
0.386
0.364
0.341
0.319
Kom. — The semidiameter for mean noon may be assumed the same as that for apparent noon.
The ngn + prefixed to the hourly change of declination indicates that north declina-
tions are increasing.
Sidereal Time,
or Right Ascen-
sion of Mean
Sus.
h m t
o 36 57.15
o 40 53.71
o 44 50.26
o 48 46.81
o 52 43.37
o 56 39.92
o 36.48
4 33.03
8 29.58
12 26.14
16 22.69
20 19.25
15.80
12.36
32 8.91
24
28
36 5.46
40 2.02
43 58.58
47 55.13
51 51.68
55 48.24
1 59 44.80
2 3 41.35
2 7 37.90
2 II 34.46
2 15 31.02
2 19 27.57
2 23 24.13
2 27 20.68
2 31 17.24
2 35 13.80
DiflF. for 1 Hour
+9'.8s6S-
(Table III.)
40
APRIL, 1913.
in.
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
Is
A
91
92
93
94
95
96
97
98
99
»
00
01
02
03
04
05
06
07
08
09
10
II
12
13
14
15
16
17
18
19
20
121
THE SUN'S
True Longitude.
o
II
12
13
14
15
16
17
18
19
//
9 46.3
8 56.3
8 4.4
7 10.6
6 14.9
5 17.2
4 17.5
3 15.7
2 11.8
20 I 5.7
20 59 57.4
21 58 46.9
22 57 34-2
23 56 19.2
24 55 1.8
25 53 42.1
26 52 20.2
27 50 56.2
28 49 30.1
29 48 1.9
30 46 31.8
31 44 59.8
32 43 26.0
33 41 50.6
34 40 13.6
35 38 34.9
36 36 54-7
37
38
39
35 12.9
33 29.6
31 44-8
//
9 351
8 44-9
7 52.8
6 58.9
6 3.1
5 5-3
4 5.5
3 3.6
I 59.6
o 53.4
59 45 o
58 34.4
57 21.5
56 6.3
54 48.8
53 29.0
52 70
50 42.9
49 16.6
47 48.3
46 1 8. 1
44 46.0
43 12. 1
41 36.5
39 59-3
38 20.5
36 40.2
34 58.3
33 14.8
31 29.9
40 29 58.4 I 29 43.4
Diff. for
z Hour.
//
147.95
147.88
147.80
147.72
147.64
147.55
147.47
147.38
147.29
147.20
147. II
147.01
146.92
146.82
146.73
146.64
146.54
146.45
146.37
146.29
146.21
146.13
146.06
145.99
145.92
145.86
145.79
145.73
145-66
145.60
145.54
Latitude.
//
— 0.46
0.36
0.25
-0.13
— O.OI
4-O.II
+ 0.24
0.36
0.45
+ 0.52
0.57
0.59
+ 0.57
0.52
0.44
+ 0.33
0.20
-f 0.07
— 0.08
0.22
0-34
-0.45
0.53
0.59
— 0.61
0.60
0.57
-0.51
0.42
0.32
--0.22
Logarithm of the
Radius Vector of
theBarth.
9.999 8601 +53.2
9.999 9875 53.0
0.000 II 45 52.8
0.000 2410 +52.6
0.0003669 52.3
0.0004920 52.0
0.0006163
0.000 7399
0.000 8626
0.000 9845
o.ooi 1056
o.ooi 2259
o.ooi 3456
O.OOI 4647
O.OOI 5833
0.001 7016
0.001 8197
O.OOI 9376
0.002 0555
0.002 1733
0.002 291 1
0.002 4087
0.002 5262
0.002 6434
0.002 7602
0.002 8764
0.002 9918
0.003 1064
0.003 2200
0.003 3325
0.003 4438
Diff. for
I Hour
+51.6
51.3
51.0
+50.6
50.3
50.0
+49.8
49.6
49.4
+49.3
49.2
49.1
+49.1
49.0
49.0
+48.9
48.8
48.7
+48.5
48.2
47.9
+47.5
47.1
46.6
+46.1
Mean Time of
Sidereal Noon.
h m 8
23 19 12.99
23 15 17-^
23 II 21.18
23 7 25.27
23 3 29.36
22 59 3345
22 55 37-54
22 51 41.63
22 47 4573
22 43 49-82
22 39 53.91
22 35 58.00
22 32 2.09
22 28 6.18
22 24 10.28
22 20 14.37
22 16 18.46
22 12 22.55
22 8 26.64
22 4 30.73
22 o 34.82
•
21 56 38.91
21 52 43.00
21 48 47.10
21 44 51.19
21 40 55.28
21 36 59-37
21 33 3-46
21 29 7.55
21 25 11.64
21 21 15.73
NOTB. — The longitudes in the column X are referred to the tru<; equinox of their own date,
while those in the column X' are referred to the mean equinox of the beginning of
the Besselian fictitious year.
Di£F. for i Hour.
— 9«.8a96.
(Table II.)
APKIL, 1913.
GREENWICH MEAN TIME.
41
THE MOON'S
SEMIDIAMBTER.
Noon.
4. 46.8
4- 450
4 45-4
4
4
4
5
5
5
6
6
6
6
6
6
6
6
6
5
5
47-7
51.5
56.6
2.8
9.8
17.4
4
4
4
4
5 25.7
5 34.6
5 44.1
53.9
12.9
20.7
26.3
28.8
275
22.3
13.4
1.8
48.4
34.5
5 21.2
5 9-4
4 59-8
52.9
48.6
47.2
48.4
Mfdnifffat.
5
5
4
4
4
4
4
ft
4 45.6
4 44.9
4 46.3
4 49-4
4 540
4 59-6
5 6.2
5 135
5 21.5
5 30.1
5 39.3
5 49.0
5 58.8
6 8.4
6 17.0
6 23.9
6 28.0
6 28.6
6 25.4
6 18.3
6 7.9
5 55.2
5 41.4
5 27.7
151
4-3
56.0
50.4
47.6
47.5
49.8
4 51.9 14 54.4
HORIZONTAL PARALLAX.
Noon.
54 8.88
54 2.12
54 3.52
54 11-91
54 26.06
54 44- 87
55 7-39
55 32.93
56 1 .03
56 31-50
57 4-24
57 38.93
58 14.86
58 50.79
59 24-56
59 53-36
60 13.92
60 23.00
60 18.31
59 59-14
59 26.65
58 43.81
57 54.67
57 l'^7
56 14.91
5531.78
54 56.62
Diff. for
I Hour.
-0.466
—0.104
+0.212
+0.478
0.694
0.866
+ 1.005
1. 119
1.222
+ I.318
1.408
1-477
+ 1.508
1.471
1.324
+ 1.053
0.638
+0.103
-0.498
1. 09 1
1.594
-1.947
2.1 16
2.107
-1.933
1.644
1.275
54 30.97 i ^.858
54 15.49 I 0-43I
54 10.18 -0.016
54 14.48 +0.365
Midnight.
n
54 27.31 I +0.695
Diff. for
I Hour.
t»
54 4.42
54 1.87
54 6.92
54 18.34
54 34.95
54 55.71
55 19.82
55 46.68
56 15.97
56 47.60
57 21.38
57 56.80
58 32.93
59 8.12
59 39.77
60 4.89
60 20.07
60 22.47
60 10.51
59 44.40
59 6.29
58 19.74
57 29.14
56 38.76
55 52.48
55 13.09
54 42.54
5421.94
54 11.59
54 11.18
54 19.91
-0.281
+0.060
0.351
+0.591
0.785
0.939
+X.064
1. 172
X.270
+1.364
1.446
1.499
+X.501
1.412
1.206
+0.863
+0.383
.194
.800
1.358
1.792
-2 .056
2.133
2.038
— 1. 801
1.469
1.069
-0.645
-0.220
+0.179
0.536
54 36.51 I +0.836
UPPER TRANSIT.
Meridian of
Greenwich.
h m
21 10.9
21 52.1
22 31.8
23 III
23 50.9
6
0 32.3
1 16.3
2 4.0
2 55-9
3 51.9
4 50.8
5 50.7
6 49.5
7 45-7
8 39.0
9 30.0
10 19.7
II
12
12
9.5
0.6
53.8
13 49.5
14 46.8
15 44-4
16 40.2
17 32.9
18 21.7
19 6.9
19 49.0
20 29.2
21 8.6
21 48.0
Diff. for
I Hour.
m
1.76
1.68
1.64
1.64
1.68
1.77
1.91
2.07
2.25
2.40
2.49
2.49
2.40
2.28
2.17
2.09
2.07
2.10
2. 17
2.27
2.36
2.41
2.37
2.27
2. II
1.96
1. 81
1. 71
1.65
1.64
1.67
AGS.
Noon.
d
24.5
255
26.5
27.5
28.5
29.5
0.8
1.8
2.8
3.8
4.8
5.8
6.8
7.8
8.8
9.8
10.8
11.8
12.8
138
14.8
15.8
16.8
17.8
18.8
19.8
20.8
21.8
22.8
23.8
24.8
25.8
42 APRIL, 1913.
GREENWICH MEAN TIMB.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
AT>PrT. 1Q1Q
44 APRIL, 1913.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Vni. APRIL, 1913. 46
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
46 APRIL, 1913.
G MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
X.
APRIL, 1913.
47
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right A^cenuon.
for
DaclinatioiL
for
Hour.
Right Asconaion.
for
Declination.
for
I Min.
I Min.
X Min.
X Min.
MO
NDAl
r 21.
WEDNESDAY 23.
h m t
■
• t M
1*
h m 8
a
• .
•*
0
14 21 45.25
a. 3019
S.I73I 55.3
14.IX1
0
16 16 36.37
a. 4614
S.26 459.5
7.a45
. I
14 34 3.48
a. 3057
17 35 58.6
13.998
I
16 18 54.11
a. 463a
26 12 9.2
7.078
2
14 26 21.94
a.9095
17 49 55.0
13.883
2
16 31 21.96
a. 4650
26 19 8.9
6.9H
3
14 28 40.62
a. 3133
18 344.5
13.767
3
16 23 49.91
2.4667
26 35 58.6
fi.745
4
14 30 59-54
a. 317a
18 17 27.0
13.650
4
16 26 17.96
a. 4683
26 32 38.3
6.577
5
14 33 18.69
9.3*1 I
18 31 2.5
13.53a
5
16 28 46.10
a. 4698
26 39 7.8
6.406
6
14 35 38.07
«.3a50
18 44 30.8
13.41a
6
16 31 14.33
a. 47"
26 45 27.2
6.930
7
14 37 57.69
a. 31^
18 57 51.9
13.990
7
16 33 42.63
a.47a3
26 51 36.5
6.070
8
1440 17.54
«.33a7
19 II 5.6
Z3.X66
8
16 36 11.00
a.4734
26 57 35.6
5.900
9
14 4a 37.6a
t.3366
19 34 II. 8
13.041
9
16 38 39.44
a.4745
27 3 24.5
5.731
10
14 44 57.93
9.3404
19 37 10.5
ia.915
10
16 41 7.94
a.4755
27 9 3.3
5.56X
IX
14 47 18.47
««3443
19 50 1.6
Z9.788
II
16 43 36.50
a.47«3
27 14 31.8
5.390
IS
14 49 39.25
«.S48a
30 2 45. 1
ia.659
12
1646 5.10
a.4769
27 19 50.1
5.ax9
«3
14 52 0.26
«.35ai
20 15 20.7
19.598
13
16 48 33.73
a.4775
27 24 58. 1
5.048
H
14 54 ai.50
2.35S9
30 37 48.5
ia.397
14
16 51 2.40
a.4780
27 29 55.9
4.877
»5
14 56 42.97
9.3598
30 40 8.4
19.964
15.
16 53 31.09
9.4783
27 34 43.4
4706
i6
14 59 4.67
a. 3656
30 52 20.2
ia.i99
16
16 55 59.80
9.4786
37 39 20.6
4.534
»7
15 I 26.60
a. 3673
21 4 23.9
11.993
17
16 58 28.52
a. 4787
27 43 47.5
4.365
i8
15 348.75
a. 37"
21 16 19.4
11. 857
z8
17 057.24
a. 4787
27 48 4.2
4.19a
19
15 6 II. 13
9.3748
21 28 6.7
11.7x8
19
17 3 25.96
a. 4786
27 52 10.5
4.090
to
15 833.73
a.3785
31 39 45.6
11.578
20
17 5 5467
a. 4783
27 56 6.6
3.848
21
15 10 56.55
9.38aa
31 51 16.I
11.437
21
17 823.36
a.4779
27 59 52.3
3.677
22
15 13 19.59
a. 3838
33 2 38.1
zi.a96
22
17 10 52.02
a. 4774
28 3 27.8
3.506
«3
15 15 42.85
TU]
9.3895
ESDA
S.22 13 51.6
Y 33.
11.153
23
17 13 20.65
THL
9.4768
IRSD/
S.28 6 53.0
LY 34.
3.S34
0
15 18 6.33
a.393i
S. 33. 34 56.4
11. 008
0
17 15 49.24
a. 4761
S.28 10 7.9
3.16s
I
15 20 30.03
8.3967
33 35 52.5
10.86a
I
17 18 17.78
a. 4753
28 13 12.5
9.991
2
15 22 53.93
9.400a
22 46 39.9
10.716
2
17 20 46.27
a. 4743
28 16 6.8
9.890
3
15 25 18.04
9.4036
23 57 18.4
10.568
3
17 23 14.69
a. 4731
28 18 50.9
a. 649
4
15 27 42.36
9.4070
23 7 48.0
10.418
4
17 25 43.04
a. 4718
28 21 24.7
a.478
5
15 30 6.88
•-41OS
23 18 8.6
xo.a68
5
17 28 II. 31
a. 4705
28 23 48.3
a.3oB
6
15 32 31.60
a.4t37
33 38 20.2
10.117
6
173039-50
a.4691
28 26 1.7
9.X38
7
15 34 56.52
9.4x69
23 38 22.7
9.965
7
1733 7.60
2.4675
28 28 4.9
X.968
8
15 37 21.63
a.49ox
33 48 16.0
9.8xa
8
17 35 35.60
a. 4658
28 29 57.9
1.799
9
15 39 46.93
■.4a3S
23 58 O.I
9.658
9
17 38 3.49
a. 4639
38 31 40.8
X.630
10
15 42 12.4Z
a.4a6s
24 7 34.9
9.503
10
174031.27
9.4690
2833 13.5
1. 461
II
15 44 38.08
9.4993
24 17 0.4
9.347
II
17 42 58.93
a.4S99
28 34 36.1
1.299
12
1547 3.92
9.43at
24 26 16.5
9.190
13
17 45 26.46
a. 4577
28 35 48.6
1.194
13
15 49 29.94
9.4351
24 35 23.2
9.osa
13
17 47 53.86
a. 4554
28 36 51.0
0.957
M
15 51 56.13
«.4379
34 44 20.4
8.873
14
17 50 21. II
a.45a9
28 37 43.4
0.790
15
15 54 22.49
9.44^
24 53 8.0
8.713
15
17 52 48.21
2.4504
28 38 25.8
0.623
I6
15 56 49.01
a. 4433
35 I 46.0
8.553
16
1755 15.16
a. 4477
28 38 58.2
0.457
17
15 59 15.68
a.4458
35 10 14.4
8.89a
17
17 57 41.94
a. 4449
28 39 20.7
0.999
i8
16 I 42.51
9.4483
25 18 33.1
8.a3i
18
18 0 8.55
a. 4420
28 39 33.3
-O.X97
19
16 4 9.48
a. 4507
35 26 42.1
8.068
19
18 2 34.98
a.4390
28 39 36.0
+0.037
20
16 6 36.60
9.4531
25 34 41.3
7.905
20
18 5 1.23
a. 4359
28 39 28.9
0.900
21
16 9 3.85
a. 4553
25 42 30.7
7.741
21
18 7 27.29
a.43a7
28 39 12.0
0.368
22
16 II 31.23
a.4574
25 50 10.3
7.576
22
18 953.15
a.4a93
28 38 45.3
0.596
«3
16 13 58.74
a.4595
25 57 39-8
7.411
23
18 12 18.81
a.4a59
38 38 8.9
0.687
H
x6 16 36.37
9.46x4
S.26 4 59.5
7.a45
24
18 14 44.26
9.4933
S.28 37 32.8
0.848
48
APRIL, 19 IS.
XI,
GREENWICH MEAN TIMR
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
DiflF.
DiflF.
DiflT.
Diff.
Hour.
Right Ascension.
for
Declination.
for
Hour.
Right Ascension.
for
Declinstion.
for
xMin.
X Min.
xMin.
■
X Min.
FRIDAY
25-
SUNDAY
27.
h m 8
s
• * f*
H
h m 8
s
0 f *»
m
O
i8 14 44.26
a. 4223
S.28 37 22.8
0.848
0
20 5 23.27
3.1676
S.25 8 17.6
7 '471
I
18 17 9.49
2.4x87
28 36 27.1
1.008
I
20 733.14
2.16x4
25 0 46.0
7.58«
2
18 19 34.50
2.4x49
28 35 21.8
I. 168
2
20 9 42.64
2.X553
24 53 7.8
7.693
3
18 21 59.28
a.4xii
28 34 7.0
1.327
3
20 II 51.78
2.1492
24 45 22.9
7.80s
4
18 24 23.83
«.407a
28 32 42.6
X.485
4
20 14 0.55
3.I43X
24 37 31-5
7.9x1
5
18 26 48.14
2. 4031
28 31 8.8
1.642
5
20 16 8.95
3.1369
24 29 33-6
8.018
6
18 29 12.20
a. 3989
28 29 25.6
1.798
6
20 18 16.98
2.1308
24 21 29.3
8.125
7
18 31 36.01
a. 3947
28 27 33.1
X.953
7
20 20 24.64
2.1947
24 13 18.6
8.230
8
18 33 59-56
2.3903
28 25 31.2
2.108
8
20 22 31.94
2.X186
24 5 1.7
8.333
9
18 36 22.85
2.3859
28 23 20.1
2.262
9
20 24 38.87
3.XI85
23 56 38.6
8.437
lO
18 38 45.87
2.38x4
28 20 59.8
2.4X5
10
20 26 45.44
2.1064
23 48 9-3
8.539
II
18 41 8.62
2.3768
28 18 30.3
2.567
II
20 28 51.64
2.1003
23 39 33.9
8.6140
12
18 43 31.09
2.3722
28 15 51.7
2.7X8
12
20 30 57.48
2.0943
23 30 52.5
8.740
13
18 45 53.28
2.3674
28 13 4.1
2.868
13
20 33 2.96
2.0883
23 22 5.1
8.838
14
18 48 15.18
2.3625
28 10 7.5
3.017
H
20 35 8.08
2.0823
23 13 11.9
8.<^
15
18 50 36.78
2.3576
28 7 2.0
i.i66
15
20 37 12.84
2.0764
23 4 12.8
9.033
i6
18 52 58.09
2.3b2>
28 3 47.6
3.313
16
20 39 17.25
2.0705
22 55 8.0
9.128
17
18 55 19.10
2.3476
28 0 24.4
3.459
17
20 41 21.30
3.0646
22 45 57.5
9>233
i8
18 57 39.80
2.3424
27 56 52.5
3.604
18
20 43 25.00
2.0587
22 36 41.3
9.316
19
19 0 0.19
2.3372
27 53 II. 9
3.749
19
20 45 28.35
3.0528
22 27 19.6
9.408
20
19 2 20.27
2.3320
27 49 22.6
3.89a
20
204731-34
2.0470
22 17 52.3
9.500
21
19 4 40.03
2.3267
27 45 24.8
4.034
21
20 49 33-99
2.0412
22 8 19.6
9-59X
22
19 6 59.47
2.3213
27 41 18.5
4.X76
22
20 51 36.29
9.0355
21 58 41.4
9.681
23
19 9 18.58
2.3x58
S.2737 3.7
4.3x7
23
20 53 38.25
2.0298
S.21 48 57.9
9.768
SAT
URDA
^Y 26.
MO
>NDA\
' 28.
O
19 n 37-37
2.3103
S.27 32 40.5
4.456
0
20 55 39-87
9.0242
S.21 39 9.2
9-855
I
19 13 55.82
2.3048
27 28 9.0
4.594
I
20 5741-15
2.0185
21 29 15.3
9.942
2
19 16 13.94
2.2992
27 23 29.2
4.731
2
20 59 42.09
9.0139
21 19 16.2
XO.028
3
19 18 31.72
2.2935
27 18 41.3
4.867
3
21 1 42.70
2.0073
21 9 12.0
XO.XI9
4
19 20 49.16
2.2878
27 13 45.2
5.00a
4
21 3 42.97
3.0018
20 59 2.8
IO.X9S
5
19 23 6.26
2.2821
27 8 41. 1
5.X35
5
21 5 42.92
1.9964
20 48 48.6
10.377
6
19 25 23.01
2.2763
27 3 29.0
5.268
6
21 742.54
1.9909
20 38 29.5
10.359
7
19 27 39.41
2.2704
26 58 8.9
5.400
7
21 9 41.83
1.9855
2028 5.5
10.439
8
19 29 55.46
2.2646
26 52 41.0
5.530
8
21 II 40.80
X.9803
20 17 36.8
10.318
9
19 32 II. 16
2.2587
2647 5.3
5.660
9
21 13 39.46
1.9750
20 7 3.3
X0.597
lO
19 34 26.50
2.2528
26 41 21.8
5.789
10
21 15 37.80
1.9697
19 56 25.1
ic».e75
11
19 36 41.49
2.2468
26 35 30.6
5.917
II
21 17 35.82
X.9645
19 45 42.3
XO.739
12
19 38 56.12
2.2408
26 29 31.8
6.043
12
21 19 33.54
X.9594
19 34 54.9
io.8s8
13
19 41 10.39
a. 2348
26 23 25.5
6.168
13
21 21 30.95
1.9543
19 24 3.0
Z0.90S
14
19 43 24.30
a. 2288
26 17 II. 7
6.993
14
21 23 28.05
1.949a
19 13 6.7
X0.976
15
19 45 37.84
2.2227
26 10 50.5
6.414
15
21 25 24.85
1.9442
19 2 5.9
XI.049
i6
19 47 51.02
a.3167
26 4 22.0
6.536
16
21 27 21.36
X.9393
18 51 0.8
I1.X32
17
19 50 3.84
2.2106
25 57 46.2
6.657
17
21 29 17.57
X.9344
18 39 51-3
11.193
i8
19 52 16.29
2.ao44
25 51 3.2
6.776
18
21 31 13.49
1.9296
18 28 37.6
11.963
19
19 54 28.37
2.1983
2544 13. 1
6.894
19
21 33 9.12
1.9248
18 17 19.8
XI. 332
20
19 56 40.09
2.Z922
25 37 15.9
7.01a
20
21 35 4.46
1.9201
18 5 57.8
ZI.401
21
19 58 51.44
2.1861
25 30 11.7
7.128
21
21 36 59.53
X.9X55
17 54 31.7
11.468
22
20 I 2.42
2.1799
25 23 0.5
7.243
22
21 38 54.32
I. 9108
17 43 1.6
XI.535
a3
20 3 13.03
2.1738
25 15 42.5
7.358
23
21 40 48.83
1.9063
17 31 27.5
xi.Goi
M
20 5 23.27
2.1676
S.25 8 17.6
7.471
24
21 42 43.07
1.90x8
S.17 1949-5
11.666
Xn. APRIL, 1913. 49
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
50 MAY, 1913.
AT GREENWICH APPARENT NOON.
— Ttw auu time of ■emidiiunEtci pusug the meildiiin may be found by ■ubtnctlna f/
The aica *■ pnGxed to the boutly chuise of dedlo«tloa indicate! that north declinatiou a
n.
MAY, 1913.
51
AT GREENWICH MEAN NOON.
Dnrof
tke
Week.
ThuT.
Frl
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mem.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
25
I
2
3
4
5
6
7
8
9
lO
II
12
13
14
15
i6
17
i8
Mod. 1 19
Tues. I 20
Wed. '21
Thnr.
Fri.
Sat.
SUN.
Hon.
Ttaes.
Wed.
Thur.
Fri.
Sat.
SUN,
22
23
24
25
26
27
28
29
30
31
32
THE SUN'S
Apparent Right
Afloenaon.
h m s
2 32 17.65
2 36 6.83
2 39 56.57
2 43 46.87
2 47 37-73
2 51 29.16
2 55 21.15
2 59 1370
3 3 6.82
3 7 050
3 10 54.73
3 14 49-53
3 18 44.88
3 22 40.78
3 26 37.24
3 30 34.25
3 34 31.81
3 38 29.92
3 42 28.57
3 46 27.77
3 50 27.52
3 54 27.81
3 58 28.64
4 2 30.01
4 6 31.91
4 10 34.32
4 14 37.24
4 18 40.65
4 22 44.55
4 26 48.92
4 30 53.74
4 34 59.01
Diff. for
X Hour.
8
9538
9-561
9584
9.607
9.631
9654
9.678
9.701
9725
9-749
9.772
9-795
9.818
9.841
9.864
9.887
9.910
9.933
9.955
9.978
10.001
0.024
0.046
0.068
0.090
0.1 1 1
0.132
0.152
0.172
0.191
0.210
10.228
Apparent Decli-
nation.
N.
4 58 40.4
5 16 47.5
5 34 39.5
5 52 16.0
6 9 36.8
6 26 41.6
6 43 29.9
7 o 1.5
7 16 16.1
Diff. for
X Hour.
//
7
7
8
32 13.3
47 52.8
3 14.3
8 18 17.6
8 33 2.3
8 47 28.2
+45.60
44.98
44.34
+43.69
43.03
42.36
+41.67
40.96
40.24
+39.51
38.77
38.02
+37.25
36.47
35.68
9
9 15 22.5
9 28 50.5
35.0 +34.88
34-07
33.25
9 41 58.6
9 54 46.6
20 7 14.4
20 19 21.6
20 31 8.1
20 42 33.6
20 53 37-8
21 4 20.5
21 14 41.6
21 24 40.7
21 34 17.7
21 43 32.3
21 52 24.4
N.22 o 53.6
+32-42
31.58
30.73
+29.87
29.00
28.12
+27.23
26.33
25.42
+24.50
23.57
22.64
21.70
+20.74
Bquation of
Time to be
Added to
Mean Time.
m s
2 56.15
3 3.52
3 10.34
3 16.60
3 22.29
3 27.42
3 31.98
3 35.98
3 39.42
3 42.30
3 44.62
3 46.38
3 47-59
3 48.24
3 48.34
3 47.89
3 46.89
3 45-34
3 43.24
3 40.60
3 37.41
3 33.67
3 29.40
3 24.59
3 19.25
3 13.40
3 7.04
3 0.18
2 52.84
2 45 03
2 36.76
2 28.05
Diff. for
I Hour.
8
0.319
0.296
0.273
0.249
0.226
0.202
0.179
0.155
0.132
0.108
0.085
0.062
0.039
0.016
0.007
0.030
0.053
0.076
0.099
0.122
0.144
0.167
0.189
0.2II
0.233
0.254
0.275
0.296
0.316
0.335
0.354
0.371
HOTB. — ^Tbe 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 north dedina-
Sidereal Time,
or Right Ascen.
sion of Mean
Sun.
h m s
2 35 13.80
2 39 10.35
2 43 6.91
2 47 3.46
2 51 0.02
2 54 56.58
2 58 53.13
3 2 49.69
3 6 46.24
3 10 42.80
3 14 3936
3 18 35.92
3 22 32.47
3 26 29.03
3 30 25.58
3 34 22.14
3 38 18.70
3 42 15.26
3 46 1 1. 81
3 50 8.37
3 54 4.93
3 58 1.49
4 I 58.04
4 5 5460
4 9 51.16
4 13 47.72
4 17 44.28
4 21 40.83
4 25 37.39
4 29 33.95
4 33 30.51
4 37 27.06
Diff. for X Hour.
+ 9".8s6s.
(Table III.)
52
MAY, 1913.
m.
AT GREENWICH MEAN NOON.
V
o a
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
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
152
THE SUN'S
Tnie Longitude.
//
40 29 58.4
41 28 10.6
42 26 21.2
43 24 30.2
44 22 37.6
45 20 43.4
46 18 47.6
47 16 50.1
48 14 50.8
49 12 49.8
50 10 47.0
51 8 42.4
52
53
54
6 35.9
4 27.6
2 17.5
54 60 5.7
55 57 52.3
56 55 37.3
57 53 20.8
58 51 2.8
59 48 43-5
60 46 23.0
61 44 1.4
62 41 38.7
63 39 15.0
64 36 50.3
65 34 24.7
66 31 58.3
67 29 31.0
68 27 2.8
69 24 33.8
70 22 3.9
//
29 43.4
27 55.4
26 5.8
24 14.7
22 22.0
20 27.7
18 31.7
16 34.0
14 34.6
12 33-4
10 30.4
8 25.6
6 18.9
4 IO-5
2 ofs
59 48.3
57 34-7
55 19.5
53 2.8
50 44-7
48 25.3
46 4.6
43 42.8
41 20.0
38 56.1
36 312
34 5-4
31 38.8
29 1 1.3
26 42.9
24 ^3-7
21 43.7
Diff. for
z Hour.
/»
45-54
4547
45 40
45.34
45-27
45-21
45-14
45-07
45.00
44.92
44.84
44.77
44.69
44.62
44.54
44-47
44.40
44-34
44.28
44.23
44.17
44.12
44.07
44.03
43.99
43-95
43.91
Latitude.
— 0.22
— 0.09
-f0.04
+ 0.16
0.28
0.37
-f 0.44
0.49
0.51
+ 0.50
0.46
0.38
+ 0.28
0.15
+ 0.02
-0.13
0.27
0.40
-0.50
0.59
0.66
— 0.69
0.69
0.67
— 0.61
0.54
0.44
Logarithm of the
Radius Vector of
the Earth.
43-88 -0.33
43-84
43.81
43.77
43.74
0.22
— O.IO
+ 0.03
-fO.14
0.003 4438
0003 5536
0.003 6620
0.003 7689
0.003 8741
0.003 9775
0.004 0792
0.004 1790
0.004 2770
0.004 3733
0.004 4679
0.004 5609
0.004 6524
0.004 7425
0.004 83 1 3
0.004 9190
0.005 0057
0.005 0914
0.005 1762
0.005 2601
0.005 3431
0.005 4251
0.005 5060
0.005 5857
0.005 6642
0.0057413
0.005 8168
0.005 8907
0.005 9629
0.006 0332
0.006 1015
0.006 1677
Diff. for
z Hour.
•f46.i
45.5
44.8
+44.1
43.4
42.7
+42.0
41.2
40.5
+39.8
39-1
38.4
+37.8
37.3
36.8
+36.3
35.9
35.5
+35.1
34.7
34.4
+34.0
33-5
330
+32.4
31.8
31. 1
+30.4
29.6
28.8
28.0
+27.1
Mean Time of
Sidereal Noon.
NOTV.— 'The longitudes in the column i are referred to the true equinox of their own date,
while those in the column X* are referred to the mean equinox of the beginning of
the Besselian fictitious year.
h m 8
21 21 15.73
21 17 19.82
21 13 23.91
21 9 28.00
21 5 32.09
21 I 36.18
20 57 40.26
20 53 44.35
20 49 48.44
20 45 52.53
20 41 56.62
20 38 0.71
20 34 4.80
20 30 8.89
20 26 12.98
20 22 17.07
20 18 21.16
20 14 25.25
20 10 29.34
20 6 33.42
20 2 37.51
19 58 41.60
19 54 45.69
19 50 49-78
19 46 53-86
19 42 57.95
19 39 2.04
19 35 6.13
19 31 10.22
19 27 14.30
19 23 18.39
19 19 22.48
Diff. for X Hour,
— 9«.8s96.
(Table n.)
w.
MAY, 1913.
GREENWICH MEAN TIME.
58
ji
THE MOON'S
I
2
3
4
5
6
7
8
9
10
II
12
13
15
i6
17
i8
19
20
31
22
25
26
27
28
29
30
31
32
SSMIDIAMBTBR.
//
4
4
4
5
5
5
5
5
5
5
5
48.4
51.9
57.3
4.2
12.2
20.6
29.2
37.4
45-2
52.4
58.9
4.6
4
4
6 9-3
6 12.9
6 14.9
6 15.1
6 12.9
6 8.2
6 i.o
5 51.8
5 411
5 29.7
5 18.4
5 8.1
59.6
53.3
[4 49.6
48.6
50.5
4 550
5 1-9
Midnight.
//
4 49.8
4 54-4
5 0.6
5 8.1
5 16.4
5 24.9
5 33.4
5 41.4
5 48.9
5 55.7
6 1.8
6 7.1
6 11.3
6 14.1
6 15.3
6 14.3
6 10.9
6 4.9
5 56.7
5 46.6
5 35.4
5 24.0
5 131
5 3.6
4 56.1
4 51.1
4 48.8
4 49.2
4 52.4
4 58.2
5 6.1
15 IO-7 15 15-6
HORIZONTAL PARALLAX.
Noon.
54 14-48
54 27.31
54 47.29
55 12.73
5541.84
56 12.85
5644.18
57 14.56
5743.19
58 9.51
58 33.23
5854."
59 11-57
59 24.69
59 32.20
59 32.64
59 24.63
59 7.45
58 41.25
58 7.33
57 27.94
56 46.00
56 4.74
55 27.13
54 55-77
54 32.57
54 18.93
54 15.52
54 22.38
54 38.99
55 4-26
55 36.44
Diff. for
X Hour.
//
+0.365
0.695
0.958
+ I.149
1.264
1.308
+ 1.293
1-233
X.148
+ 1.043
0.931
0.803
+0.645
0.441
+0.177
-0.150
0.523
0.908
-X.265
1.545
1. 716
-1-754
1.662
1.452
-1. 148
0.775
-0.357
+0.073
0.495
0.881
1. 21 1
+ 1-455
Midnight.
//
54 19.91
54 36.51
54 59.43
55 26.94
55 57-21
56 28.56
56 59-55
57 29.13
57 56.66
58 21.70
58 44-05
59 3.32
59 18.74
59 29.24
59 3340
59 29.76
59 17.20
58 55.42
58 25.13
5748.15
57 7.05
56 25.09
55 45.30
55 10.53
54 4305
54 24.50
54 15.93
54 17.68
54 29.52
54 50.63
55 19.62
55 54.44
Diff. for
I Hour.
ff
+0.536
0.836
1.063
+ I.215
1.295
I.. 307
+ 1.266
1. 194
1.097
+0.988
0.871
0.730
+0.549
0.316
+0.021
-0.332
0.716
1.094
-1.417
1.647
1.753
-1.725
1.572
1.309
-0.970
0.570
-0.143
+0.287
0.694
1.056
1-345
+ 1.542
UPPER TRANSIT.
Meridian of
Greenwich.
h m
21 8.6
21 48.0
22 28.9
23 12.3
23 59.2
6
o
I
2
3
4
5
50.5
46.1
45.1
45.4
44.6
41.0
6 34.1
7 24.3
12.7
8
9 0.8
9 49.8
10 40.9
1 34.9
2 31.5
3 29.6
4 27.1
5 22.2
6 13.4
7 0.6
7 44.2
8 25.2
9 4.6
9 43.8
20 23.8
21 5.9
21 51.4
Diff. for
X Hour.
m
1.64
1.67
1.75
1.88
2.04
2.23
2.40
2.49
2.50
2.42
2.28
2.14
2.05
2.00
2.02
2.08
2.19
2.31
2.40
2.42
2.36
2.22
2.05
1.89
1.76
1.67
1.63
1.64
1.70
1.82
1.98
AGS.
Noon.
d
24.8
25.8
26.8
27.8
28.8
O.I
I.
2.
3.
5.
6.
7.
8.
9.
10.
II.
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
24.
25-
26.1
54 MAY, 1913. V.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
VI. MAY, 1913. 65
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
56
MAY, 1913.
VII.
GREENWICH MEAN TIME.
THE MOONS RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
X Mtn.
Declination.
for
xMin.
Hour.
Right Ascension.
for
iMin.
Declination.
for
zMin.
FRIDAY 9.
SUNDAY II.
h m 8
s
0 • t*
f
h m 8
s
e • t*
m
O
5 45 20.34
2.5593
N.28 31 20.7
1.143
0
7 48 12.28
a.5066
N.25 57 28.6
7.439
I
5 47 53.97
a. 5616
28 32 23.9
0.963
I
7 50 42.55
2.5023
25 49 57.3
7.fa4
2
5 50 27.73
2.5637
28 33 16.3
0.783
2
7 53 12.56
2.4981
25 42 16. 1 ■ 7.768
3
5 53 1.62
a. 5658
28 33 57.9
0.60a
3
7 55 42.32
2.4938
25 34 25.2
7.930
4
5 55 3563
a. 5677
28 34 28.6
0.421
4
7 58 II. 8a
2.4894
25 26 24.5
8.092
5
5 58 9-75
a. 5695
28 34 48.4
o.a40
5
8 0 41.05
2.4850
25 18 14. 1
8.253
6
6 043.97
a. 57x1
28 34 57.4
+0.058
6
8 3 10.01
a. 4804
25 9 54. 1
8.413
7
6 3 18.28
a. 5725
28 34 55.4
-0.124
7
8 5 38.70
2.4758
25 I 24.6
8.571
8
6 5 52.67
«.5737
283442.5
0.306
8
8 8 7.11
a. 471a
24 52 45.6
8.728
9
6 827.13
a. 5749
28 34 18.7
0.488
9
8 10 35.24
a. 4665
24 43 57.2
8.8R4
lO
6 II 1.66
a. 5759
28 33 43.9
0.67a
10
8 13 3.09
a. 4617
24 34 59.5
9.03B
II
6 13 36.24
2.5767
28 32 58. 1
0.855
ZI
8 15 30.65
a. 4568
24 25 52.6
9.192
12
6 16 10.87
2.5774
28 32 1.3
1.038
12
8 17 57.91
a. 4519
24 16 36.4
9.346
13
6 18 45-53
a. 5779
28 30 53.5
X.S2Z
13
8 20 24.88
2.4470
24 7 1 1. 1
9*497
H
6 21 20. 22
2.578a
28 29 34.8
1.404
14
8 22 51.55
a. 4420
23 57 36.8
9.646
15
6 23 54.92
a. 5784
28 28 5.0
1.588
15
8 25 17.92
a. 4370
23 47 53.6
9.794
i6
6 26 29.63
a. 5785
28 26 24.2
x.77a
16
8 27 43.99
2.4320
23 38 1.5
9.942
17
6 29 4.34
a. 5784
28 24 32.4
X.955
17
8 30 9.76
2.4369
23 28 0.6 10.088
i8
6 31 39.04
2.5781
28 22 29.6
a.t38
18
8 32 35.22
a.4217
23 17 51.0 X0.233
19
6 34 13.71
2.5776
28 20 15.8
a. 3*8
19
8 35 0.36
2.4165
23 7 32.7 '0-377
20
6 36 48.35
2.577X
28 17 51.0
a. 505
20
8 37 25.20
2.4114
22 57 5.8 ! 10.518
21
6 39 22.96
a. 5764
28 15 15.2
a. 688
21
8 39 49.73
a. 406a
22 46 30.5
10.658
22
6 41 57.52
a. 5756
28 12 28.5
a. 870
22
8 42 13.94
2.4008
22 35 46.8
10.797
23
6 44 32.03
2.5746
N.28 9 30.8
3.05a
23
8 44 37.83
a. 3956
N.22 24 54.8
10.936
SAT
URD/
lYio.
MC
>NDA1
{ 12.
O
6 47 6.47
a. 5733
N.28 6 22.2
3.«35
0
8 47 1. 41
2.9903
N.22 13 54.5 j 11.072
X
6 49 40.83
a.S7ao
28 3 2.6
3.417
I
8 49 24.67
a. 3850
22 2 46.1 i ii.ao7
2
6 52 15.11
2.5706
27 59 32. 1
3.598
2
8 51 47.61
a. 3797
21 51 29.6 11.341
3
6 54 49.30
a. 5690
27 55 50.8
3.779
3
8 54 10.23
a. 3744
21 40 5.2 11.473
4
6 57 23.39
2.5673
27 51 58.6
3.960
4
8 5632.53
2.3691
21 28 32.9 . XI.603
5
6 59 57.37
2.5654
27 47 55.6
4.141
5
8 58 54. 52
2.3638
21 16 52.8 11.732
6
7 2 31.24
2.5634
27 43 41.7
4.321
6
9 I 16.19
2.3585
21 5 5.0 11.861
7
7 5 4.98
a. 5612
27 39 17. 1
4 499
7
9 337.53
2.3532
20 53 9.5 11.987
8
7 738.59
2.5589
27 34 41.8
4.678
8
9 5 58.57
a. 3478
20 41 6.5 12.112
9
7 10 12.05
2.5565
27 29 55.7
4.857
9
9 8 19.28
a. 3426
20 28 56. 1 i2.a3S
lO
7 12 45-37
a.554X
27 24 59.0
5.054
10
9 10 39.68
a. 3373
20 16 38.3 12.357
II
7 15 i8.i4
2.5514
27 19 51.6
5.21a
II
9 12 59.76
2.33ao
20 4 13.2 , I2.47«
12
7 17 51.54
a. 5486
27 14 33.6
5.388
12
9 15 19.52
2.3267
19 51 40.9 , 12.597
13
7 20 24.37
2.5457
27 9 5.1
5.563
13
9 17 38.97
2.3215
19 39 1.5 1 ia.714
14
7 22 57.02
2.5427
27 3 26.1
5.738
14
9 19 58.10
2.3163
19 26 1 5. 1 1 12.830
15
7 25 29.49
2.5395
26 57 36.6
5.912
15
9 22 16.92
2.3x1a
19 13 21.9
12.944
i6
7 28 1.76
a. 5362
a6 51 36.7
6.085
16
9 24 35.44
a. 3060
19 0 21.9
13-057
I?
7 30 33.84
a. 5329
26 45 26.4
6.857
17
9 26 53.64
a. 3006
18 47 15.I
I3.ifi9
i8
7 33 5.71
4.5294
26 39 5.8
6.4a8
18
9 29 11.54
2.2957
18 34 1.6
13.279
19
7 35 37.37
2.5258
26 32 35.0
6.599
19
9 31 29.13
2.2907
18 20 41. 6
13.388
20
7 38 8.81
a. 52ai
26 25 53.9
6.769
20
9 33 46.42
2.2857
18 7 15.1
13.493
21
7 40 40.02
8.5x83
26 19 2.7
6.938
21
9 36 341
2.2807
17 5342.2
13.600
22
7 43 II.OI
a.5M5
26 12 1.4
7.106
22
9 38 20. 10
a. 8757
1740 3.1
13.703
23
74541.76
a. 5106
26 4 50.0
7.273
23
9 40 36.49
8.8708
17 26 17.8
13.807
24
7 48 12.28
a. 5066
N.25 57 28.6
7.439
24
9 42 52.59
2.2659
N.17 12 26.3
13.908
Vni. MAY, 191S. 57
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
58
MAY, 1913.
IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
z Min.
Declination.
for
I Min.
Hour.
Right Ascension.
for
xMin.
Declination.
for
1 Min.
SATURDAY 17.
MONDAY 19.
h m 8
8
e * M
n
h m s
8
0 » *»
f>
O
13 8 28.60
2.1449
S. 8 55 36.9
16.367
0
14 55 39.31
8.3360
S.2033 35.1
12.108
z
13 10 37.38
a. 1477
9 " 57.4
16.316
X
14 57 59.61
2.3406
20 45 37-4
11.973
2
13 12 46.32
2.1S05
9 28 14.8
Z6.263
2
15 020.18
8.3451
20 57 32.1
11.847
3
13 14 55.44
a. 1534
9 44 29.0
16.809
3
15 2 41.02
2.3497
21 9 19.0
11.717
4
13 17 4-73
2.1563
lo 0 39.9
16.X54
4
15 5 2.14
3.3542
21 20 58.1
11.585
5
13 19 14.20
a. 1594
10 1647.5
16.097
5
15 7 23.52
2.3586
21 32 29.2
11.45a
6
13 21 23.86
2.Z626
10 32 51.5
X6.Q37
6
15 945.17
2.3631
21 43 52.4
11.519
7
13 23 3371
2.1658
1048 51.9
15.977
7
15 12 7.09
2.3675
21 55 7.5
11.184
8
13 25 43-75
2.1690
II 4 48.6
15.914
8
15 14 29.27
2.3718
22 6 14.5
11.047
9
13 27 53.99
2.1723
II 20 41.6
15.850
9
15 16 51.71
2.3763
22 17 13.3
10. 910
lO
13 30 4.43
2.1757
II 36 30.7
15.785
10
15 19 14.42
2.3807
22 28 3.7
10.771
IX
13 32 15.07
a. 1792
II 52 15.8
15.717
II
15 21 37.39
8.3849
22 38 45.7
10.630
12
13 34 25.93
2.1827
12 7 56.8
15.648
12
15 24 0.61
a. 3891
22 49 19.3
10.488
13
13 36 37.00
2.x86a
12 23 33.6
15.578
13
15 26 24.08
8.3933
22 59 44.4
10.346
14
13 38 48.28
2.1898
1239 6.1
15.506
14
15 28 47.81
8.3976
23 10 0.8
10. 902
15
13 40 59.78
8.1935
12 54 34-3
15-438
15
15 31 11.79
3.4017
23 20 8.5
xaos6
i6
1343 11.50
2.197s
13 9 58.0
15.357
16
15 33 36.01
2.4057
2330 7-5
9.910
17
13 45 23.45
a.aoii
13 25 17. 1
15.279
17
15 36 0.48
2.4097
23 39 57.7
9.762
i8
13 47 35.63
2.2049
13 40 31.5
15.801
18
15 38 25.18
2.4137
23 49 38.9
9.613
19
13 49 48.04
a. 2088
13 5541.2
15.121
19
15 40 50.12
2.4176
23 59 II. 2
9.463
20
13 52 0.69
2.2ia8
14 10 46.0
15.038
20
15 43 15.29
2.4214
24 834.5
9.312
21
13 54 13.57
2.2x68
14 25 45-8
14.955
21
15 45 40.69
2.4252
24 17 48.7
9.160
22
13 56 26.70
a.a2o8
14 40 40.6
14.870
22
15 48 6.31
2.4888
24 26 53.7
9.007
23
13 58 40.07
2.2248
S.14 5530.2
14.783
23
15 5032.15
2.4325
S.243549.5
8.852
SU
NDAY
' x8.
TU]
ESDA^
Y 20.
o
14 0 53.68
2.8289
S.15 10 14.6
14.695
0
15 52 58-21
2.4361
S.24 44 36.0
8.697
I
14 3 7.54
8. 2332
15 24 53.6
14.605
I
15 55 24.48
2.4395
24 53 13.2
8.541
2
14 5 21.66
8.8374
15 39 27.2
14.513
2
15 57 50.95
8.4429
25 I 40.9
8.383
3
14 736.03
8.2416
15 53 55.2
14.420
3
16 0 17.63
2.446a
25 9 59.2
8.2t6
4
14 9 50.65
2.8459
16 8 17.6
14-325
4
16 244.50
2.4494
25 18 8.0
8.067
5
14 12 5.54
2.8508
16 22 34.2
14.888
5
16 5 11.56
8.4526
25 26 7.2
7.906
6
14 14 20.68
8.2546
16 36 45.0
14.131
6
16 7 38.81
2.4557
25 33 56.7
7.745
7
14 16 36.09
2.2500
16 50 49.9
14.<Q1
7
16 10 6.24
2.4586
25 41 36.6
7.584
8
14 18 51.76
2.2^4
17 448.7
13.929
8
16 12 33.84
8.4614
25 49 6.8
7.42a
9
14 21 7.70
8.2678
17 18 41.4
13.887
9
16 15 1. 61
2.4642
25 56 27.2
7.258
lO
14 23 23.90
2.2722
17 32 28.0
13.723
10
16 17 29.55
2.4669
26 3 37.8
7.094
XI
14 25 40.37
2.2767
17 46 8.2
13.617
II
16 19 57.64
2.4694
26 10 38.5
6.939
12
14 27 57.11
8.2812
17 59 42.0
13.509
12
16 22 25.88
2.4719
26 17 29.3
6.764
13
14 30 14.12
2.8857
18 13 9.3
13.401
13
16 24 54.27
2.4743
26 24 10.2
6.59B
H
14 32 31-40
a. 2903
18 26 30. 1
13.291
14
16 27 22.79
2.4765
26 30 41.0
6.451
15
14 34 48.96
8.8949
18 39 44.2
13. 178
15
16 29 51.45
2.4787
26 37 1.9
6.264
i6
1437 6.79
a. 2995
18 52 51.5
13.064
16
16 32 20.23
2.4806
26 43 12.7
6.096
17
14 39 24.90
8.3041
19 5 51.9
12.948
17
163449.12
2.4885
26 49 13.4
5.9a7
i8
14 41 43.28
8.3086
19 18 45.3
12.832
18
16 37 18.13
2.4843
26 55 4.0
5.758
19
1444 1.93
2.3x32
19 31 31.7
12.714
19
16 39 47.24
2.4860
27 044.4
5.589
20
14 46 20.86
8.3177
19 44 II.O
12.595
20
16 42 16.45
2.4876
27 6 14.7
5.419
21
14 48 40.06
2.3283
19 5643.1
12.474
21
16 44 45.75
2.4890
27 II 34.7
5.248
22
14 50 59.54
2.3269
20 9 7.9
12.351
22
1647 15.13
2.4903
27 16 44.5
5.078
23
14 53 19.29
2.3314
20 21 25.2
12.287
23
16 4944.59
2.4915
27 21 44.1
4.907
«4
14 55 39.31
2.3360
S.20 33 35.I
12.102
24
i6 52 14.11
2.492s
S.27 26 33.4
4.736
60
MAY, 1913.
XI.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hoar.
RiKhtAteention.
for
I Min.
Declination..
for
I Min.
Hoar.
Right Ascenaion.
for
iMin.
DedinAtioa
for
x Min.
SUNDAY
'»5.
TUESDAY 27.
h m 8
8
0 » 1*
M
h m 8
8
e » ••
m
O
20 38 28.54
«.0958
8.22 46 35.6
9.a34
0
22 12 32.33
1.8443
S.I3 52 43.2
i«.635
I
20 40 34.10
a.0895
22 37 18.7
9.329
I
22 14 22.88
1.8406
1340 3.6
xa.6^
2
20 42 39.28
S.0832
22 27 56. 1
9.423
2
22 16 13.20
1.8369
13 27 21.2
ia.731
3
20 44 44.08
s.a769
22 18 27.9
9.517
3
22 18 3.31
1.8333
13 14 35.9
xa.TTS
4
20 46 48.51
«.o/ur;
22 8 54.1
9.608
4
22 19 53.20
1.8998
13 147.8
xa.824
5
20 48 52.56
a.0644
21 59 14.9
9.699
5
22 21 42.88
1.8263
12 48 57.0
ia.869
6
20 50 56.24
S.0589
21 49 30.2
9.789
6
22 23 32.36
1.8229
1236 3.5
1S.914
7
20 52 59.55
a. 053s
21 39 40.2
9.877
7
22 25 21.63
I.8195
ia23 7.3
ia-958
8
20 55 2.50
2.046Z
21 29 45.0
9.963
8
22 27 10.70
1.8163
12 10 8.5
X3.008
9
20 57 5.08
2.0400
21 19 44.6
10.050
9
22 28 59.59
1.8x32
" 57 7.1
13.044
lO
20 59 7.30
a.0339
21 9 39.0
10.135
10
22 30 48.29
1.8x01
II 44 3.2
x3.o|j
IX
21 I 9.15
2.0279
20 59 28.4
10.219
II
22 32 36.80
1.8070
II 30 56.9
X3.116
12
21 3 10.65
2.0021
20 49 12.7
Z0.302
12
22 34 25.13
X.804I
XI 17 48.x
X3.166
13
21 5 11.80
2.0162
20 38 52.1
10.384
13
22 36 13.29
1.8012
II 437.0
i3-«05
14
21 7 12.59
a. 0103
20 28 26.6
10.465
14
22 38 1.27
1.7983
10 51 23.5
13.144
15
21 9 13.03
2.0044
20 17 56.3
10.544
15
22 39 49.09
1.7957
1038 7.7
Z3«a82
i6
21 II 13.12
1.9987
20 7 21.3
10.623
16
22 41 36.75
1.7930
10 24 49.6
X3.3«>
17
21 13 12.87
1.9930
19 56 41.5
10.702
17
22 43 24.25
X.7904
10 IX 29.3
13.3S6
x8
21 15 12.28
1.9873
1945 57.1
10.778
18
22 45 11.60
1.7879
9 58 6.9
X3.391
19
21 17 11.35
1.9817
1935 8.2
10.853
19
22 46 58.80
1.7854
9 44 42.4
X3-4a7
20
21 19 10.08
1.9761
19 24 14.8
10.928
20
22 48 45.85
1.7830
9 31 15.7
i3-46«
21
21 21 8.48
1.9706
19 13 16.9
J1.0O2
21
22 50 32.76
1.7808
9 17 47.0
13.495
22
21 23 6.55
1.9651
19 2 14.6
11.074
22
22 52 19.54
1.7786
9 4 16.3
15.5IB
23
21 25 4.29
1.9597
S.18 51 8.0
11.Z46
23
22 54 6.19
1.7765
S. 8 50 43.6
13.561
MO
>NDA1
r 26.
WED
NESDAY 28.
O
21 27 1. 71
1.9543
S.183957.1
IX.217
0
22 55 52.72
1-7744
S. 8 37 9.0
13.S91
I
21 28 58.81
1.9491
18 28 42.0
ii.a86
I
22 57 39.12
i.77«4
8 23 32.5
13.6«3
2
21 30 55.60
1.9438
18 17 22.8
".354
2
22 59 25.41
1.7706
8 954.2
I3.«5S
3
21 32 52.07
1.9386
18 5 59.5
11. 4»
3
23 I ".59
1.7687
7 56 14. 1
13.6BS
4
21 34 48.23
1.9335
17 5432.2
11.488
4
23 2 57.66
1.7669
74232.3
I3.7i«
5
21 36 44.09
1.9485
1743 0.9
".554
5
23 443.62
1.7652
7 28 48.7
13.740
6
21 38 39.65
1.9835
17 31 25.7
11.619
6
23 6 29.49
1.7637
7 15 3.5
13.768
7
21 40 34.91
1.9185
17 19 46.6
11. 683
7
23 8 15.26
1.762a
7 I 16.6
13.795
8
21 42 29.87
1.9136
17 8 3.7
11.746
8
23 10 0.95
1.7607
6 47 28. X
X3.8ti
9
21 44 24.54
1.9088
16 56 17. 1
11.808
9
23 II 46.55
1.7593
6 33 38. 1
13.847
lO
21 46 18.93
1.9041
16 44 26.7
11.870
10
23 13 32.07
1.7581
6 19 46.5
13.878
II
21 48 13.03
1.8993
16 32 32.7
11.929
II
23 15 17.52
X.7569
6 5 53.5
X3.896
12
21 50 6.85
1.8947
16 20 35.2
11.988
12
23 17 2.90
X.7558
5 51 59.0
13.9»
13
21 52 0.39
1.8902
16 8 34. 1
ia.047
13
23 18 48.21
1.7547
538 3.1
13*943
14
21 53 53.67
1.8858
15 56 29.5
ia.105
14
23 20 33.46
1.7537
5*4 5.9
13.965
15
21 55 46.68
1.8813
15 44 21.5
ia.i6a
15
23 22 18.66
x.75a8
5 10 7.3
13.987
i6
21 57 39.42
V BMiCA
1.0700
15 32 10. 1
ia.ai8
16
23 24 3.80
1.7520
456 7.5
14.00ft
17
21 59 31.90
1*8726
15 19 55.3
xa.273
17
23 25 48.90
1.7513
4 42 6.4
14.008
i8
22 I 24.13
1.8683
15 737.3
12. 327
18
23 27 33.95
1.7506
4 28 4.1
14.048
19
22 3 16.10
Z.8642
14 55 16. 1
ia.380
19
23 29 18.97
1.7500
4 14 0.6
14.067
20
22 5 7.83
I. 8601
1442 51.7
12. 433
20
23 31 3.95
1.7494
3 59 56.0
14.066
21
22 6 59.31
1.8560
14 30 24.1
12.485
21
23 32 48.90
1.7490
3 45 50.3
14.103
22
22 8 50.55
1.8521
14 17 53.5
12.536
22
23 34 33.83
1.7487
3 31 43.6
Z4.xao
23
22 10 41.56
1.8482
14 5 19.8
12.586
23
23 36 18.74
X.7484
3 17 35.9
14.137
24
22 12 32.33
X.8443
S.I3 52 43-2
It. 635
24
2338 3.64
X.7482
S. 3 3 27.2
14.153-
XU. MAY, 191it. 61
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
62
JUNE, 1913.
AT GREENWICH APPARENT NOON.
Day of
the
Week.
1.-
a"
I
2
3
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
4
5
6
Sat.
SUN.
Mon.
7
8
9
Tues.
Wed.
Thur.
lO
II
12
Fri.
Sat.
SUN.
13
14
15
Mon.
Tues.
Wed.
i6
17
i8
Thur.
Fri.
Sat.
19
20
21
SUN.
Mon.
Tues.
22
23
24
Wed.
Thur.
Fri.
25
26
27
Sat.
SUN.
Mon.
28
29
30
Tues.
31
THE SUN'S
Apparent Right
Ascension.
h m s
4 34 58.59
4 39 430
4 43 10.41
4 47 16.90
4 51 23.75
4 55 30.94
4 59 38.44
5 3 46.22
5 7 5426
5 12 2.55
5 16 11.06
5 20 19.76
5 24 28.63
5 28 37.65
5 32 46.80
5 36 56.07
5 41 5-43
5 45 1 4-86
5 49 24.35
5 53 33.88
5 57 43.42
6 I 52.95
6 6 2.46
6 10 11.92
6 14 21.31
6 18 30.62
6 22 39.82
6 26 48.87
6 30 57.76
6 35 6.47
6 39 14.97
Diff. for
X Hour.
10.229
10.246
10.262
10.277
10.292
10.306
10.318
10.330
10.340
10.350
10.359
10.366
10.372
10.378
10.384
10.388
10.391
10.394
10.396
10.397
10.397
10.396
10.395
10.393
10.389
10.385
10.380
10.373
10.366
10.359
10.350
Apparent Decli-
nation.
N.22 O 52.7
22 859.1
22 16 42.3
22 24 2.2
22 30 58.6
223731.2
22 43 40.0
22 49 24.9
22 54 45.7
22 59 42.3
23 414.5
23 822.3
23 12 5.7
23 15 24.6
23 18 18.9
23 20 48.5
23 22 53.4
23 24 33.7
23 25 49.3
23 26 40.1
2327 6.1
2327 7.4
23 26 43.9
23 25 55.6
232442.5
2323 4.7
2321 2.2
23 18 35.1
23 1543.5
23 12 27.3
N.23 846.6
Diff. for
X Hour.
/»
+20.74
9.78
8.81
7.83
6.85
5.86
4.87
3.87
2.86
1.85
0.83
9.81
+ 8.79
7.77
6.75
+ 5.72
4.69
3.66
+ 2.63
1.60
+ 0.57
0.46
1.50
2.53
3.56
4.59
5.61
6.64
7.67
8.69
- 9.71
Semidiam-
eter.
ft
5 47.94
5 47.80
5 47.67
5 47.54
5 47.41
5 47.29
547.18
547.07
5 46.97
5 46.87
5 46.78
5 46.69
5 46.60
5 46.52
546.44
5 46.36
5 46.29
5 46.22
546.15
546.09
5 46.04
5 45.98
5 45.93
5 45.88
5 45.83
5 45.79
5 45.76
5 45.73
5 45.70
5 45-68
15 45.66
Sidereal
Time of
Semidi-
aineter
Passing
Me-
ridian.
68.36
68.41
68.47
68.52
68.57
68.62
68.66
68.70
68.74
68.77
68.80
68.83
68.86
68.88
68.90
68.92
68.93
68.94
68.94
68.94
68.94
68.94
68.94
68.93
68.92
68.90
68.88
68.85
68.82
68.79
68.76
Equation of
Time, to be
Subtracted
from
Added to
Apparent
lime.
m s
2 28.08
2 18.95
2 9.42
I 59.51
I 49.25
I 38.65
I 27.74
I 16.54
I 5.08
o 53.39
o 41.48
o 29.37
o 17.09
o 4.66
o 7.90
o 20.57
o 33.33
o 46.17
0 59.07
1 12.00
I 24.94
I 37.88
I 50.80
2 3.67
2 16.47
2 29.18
2 41.78
2 54.24
3 6.54
3 18.66
3 30.57
NoTS. — The mean time of semidiameter passing the meridian may be fotind by subtracting o".i9 fro
sidereal time.
The sign + prefixed to the hourly change of declination indicates that north declinations are incre
the sign — indicates that north declinations are decreasing.
n.
JUNE, 1913.
63
AT GREENWICH MEAN NOON.
Day of
the
Week
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
^5
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
THE SUN'S
Apparent Riffht
Ascension.
m
4 34 59.01
4 39 4.69
4 43 10.77
4 47 17.24
4 51 24.06
4 55 31.22
4 59 38.69
5 3 46.44
5 7 54.45
5 12 2.71
5 16 II. 18
5 20 19.84
5 24 28.68
5 28 37.66
5 32 46.78
5 36 56.01
5 41 5.33
5 45 14.73
5 49 24.18
5 53 33.66
5 57 43.17
6 I 52.67
6 6 2.14
6 10 11.56
6 14 20.92
6 18 30.19
6 22 39.34
6 26 48.36
6 30 57.22
6 35 5.89
Diff. for
X Hour.
8
0.228
0.245
0.261
0.276
0.291
0.305
0.317
0.328
0.339
0.348
0.357
0.364
0.371
0.377
0.383
0.387
0.390
0.393
0.395
0.396
0.396
0.395
0.393
0.391
0.388
0.384
0.379
0.372
0.365
0.357
31 6 39 14.36 10.348 N.23 8 47.2 -
Apparent Decli-
nation.
//
N.22 O 53.6
22 8 59.9
22 16 43.0
22 24 2.8
22 30 59.0
22 37 31.6
22 43 40.4
22 49 25.2
22 54 45.9
22
23
23
23
23
23
59 42.4
4 14.6
8 22.4
12 5.8
15 24.6
18 18.9
23 20 48.5
23 22 53.5
23 24 33.8
23 25 49.3
23 26 40.1
23 27 6.1
23 27 7.4
23 26 43.9
23 25 55.6
23 24 42.6
23 23 4.9
23 21 2.5
23 18 35.5
23 15 43.9
23 12 27.8
Diff. for
z Hour.
f*
+20.74
9.78
8.81
7.83
6.85
5.86
4.86
3.86
2.86
I 85
0.84
9.82
+ 8.80
7.78
6.75
+ 5-72
4.69
3.66
+ 2.63
1.60
+ 0.57
0.46
1.50
2.53
Bauation of
Time to be
Added to
Subtracted
from
Mean Time.
m s
2 28.05
2 18.93
2 9.41
I 59.50
I 49.24
I 38.64
I 27.73
I 16.53
I 5.07
o 53.38
o 41.47
o 29.37
o 17.09
o 4.66
- 3.56
4-59
5.61
- 6.64
7.66
8.68
- 970
o 7.90
o 20.57
o 33.33
o 46.17
o 59.06
I 11.99
I 24.93
I 37.87
I 50.78
2 3.65
2 16.45
2 29.16
2 41.76
2 54-22
3 6.52
3 18.63
3 30.53
Diff. for
I Hour.
8
0.371
0.389
0.405
0.420
0.435
0.448
0.461
0.472
0.482
0.492
0.500
0.508
0.515
0.521
0.526
0.530
0.533
0.536
0.538
0.539
0.539
0.539
0.537
0.535
0.531
0.527
0.522
0.516
0.509
0.500
0.491
Sidereal Time.
or Right Ascen-
sion of Mean
Sun.
h m h
4 37 27.06
4 41 23.62
4 45 20.18
4 49 16.74
4 53 13.30
4 57 9.86
5
5
5
I 6.41
5 2.97
8 59.53
NoTS. — ^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 north declina-
tions are increasing; the sign — indicates that north declinations are decreasing.
5 12 56.09
5 16 52.65
5 20 49.21
5 24 45.76
5 28 42.32
5 32 38.88
5 36 35.44
5 40 32.00
5 44 28.56
5 48 25.12
5 52 21.68
5 56 18.24
6 o 14.79
6 4 11.35
6 8 7.91
6 12 4.47
6 16 1.03
6 19 57.59
6 23 54.14
6 27 50.70
6 31 47.26
6 35 43.82
Diff. for I Hour.
+9*.8s65.
(TabUIII.)
64
JUNE, 1913.
in.
AT GREENWICH MEAN NOON.
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
52
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
182
THE SUN'S
True Longitude.
//
70 22 3.9
71 19 33.3
72 17 1.8
73 14 29.4
74 " 56.1
75 9 21.9
76
77
78 I
6 46.8
4 10.7
33.5
78 58 55.2
79 56 1 5-9
80 53 35-6
81 50 54-3
82 48 12. 1
83 45 29.0
84 42 45.2
85 40 0.6
86 37 154
87 34 29.7
88 31 43.6
89 28 57.2
90 26 10.5
91 23 23.7
92 20 36.7
93 17 49-6
94 15 2.5
95 12 15.5
96 9 28.5
97 6 41.5
98 3 54.7
99
8.0
21 43.7
19 12.9
16 41.2
14 8.7
II 35.2
9 0.8
6 25.5
3 49.2
I 11.8
58 33.3
55 53.8
53 13.4
50 31.9
47 49.5
45 6.2
42 22.1
39 37-4
36 52.0
34 6.1
31 19-8
28 33.2
25 46.3
22 59-3
20 12. 1
17 24.8
14 37.6
II 50.3
9 31
6 16.0
3 29.0
o 42.0
Di«f. for
I Hour.
//
43-74
43.70
43.67
43.63
43.59
43.55
43.51
43.47
43.43
43.39
43-34
43.30
43.26
43.22
43.19
43.16
43.13
43-11
43.09
43.08
4307
43.06
43.05
43.04
43.04
43.04
43.04
43.04
43.05
43.05
43.05
Latitude.
//
+ 0.14
0.24
0.32
+ 0.37
0.39
0.39
+ 0.35
0.28
0.18
+ 0.06
— 0.06
0.18
-0.32
0.45
0.56
— 0.64
0.70
0.74
-0.74
0.71
0.66
— 0.60
0.51
0.41
— 0.29
0.17
-0.05
+ 0.06
0.17
0.25
+ 0.29
Loffarithm of the
Radius Vector of
the Barth.
0.006 1677
0.006 2317
0.006 2934
0.006 3527
0.006 4096
0.006 4640
0.006 5160
0.006 5656
0.0066128
0.006 6580
0.006 7010
0.0067421
0.006 7813
0.006 8189
0.006 8549
0.006 8894
0.006 9225
0.006 9543
0.006 9847
0.0070136
0.007 0410
0.007 0669
0.0070912
0.007 1 1 38
0.007 1345
0.007 1534
0.007 1703
0.007 1850
0.007 1976
0.007 2079
0.007 2157
Di«f.for
I Hour.
+27.1
26.2
25.2
4-24.2
23.2
22.2
4-21.2
20.2
19.3
4-18.4
17.6
16.8
4-I6.I
15.4
H-7
4-14.1
13.5
12.9
+12.3
II. 7
II. I
+10.5
9.8
9.0
4- 8.2
7.4
6.6
+ 5.7
4.7
3.7
■f 2.7
Nom. — The longitudes in the coltunn A are referred to the true equinox of their own date,
while those in the column l' are referred to the mean equinox of the beginning of
the Besselian fictitious year.
Mean Time of
Sidereal Noon.
m
9 19 22.48
9 15 26.57
9 II 30.66
9 7 34.74
9 3 38.83
8 59 42.92
8 55 47.01
8 51 51.09
8 47 55.18
8 43 59.27
8 40 3.36
8 36 7.44
8 32 11.53
8 28 15.62
8 24 19.71
8 20 23.79
8 16 27.88
8 12 31.97
8 8 36.05
8 4 40.14
8 o 44.23
7 56 48.31
7 52 52.40
7 48 56.49
7 45
7 41
7 37
0.58
4.66
8.75
7 33 12.84
7 29 16.93
7 25 21.01
17 21 25.10
Diff. for I Hoar.
— 9".8i96.
(Table II.)
I
IV.
JUNE, 1913.
GREENWICH MEAN TIME.
65
a
0
0
Q
THE MOON'S
I
2
3
4
5
6
7
8
10
II
12
13
14
15
i6
17
i8
20
21
22
23
H
25
26
27
28
29
30
31
32
SBMIDIAMETER.
Noon.
f*
5
5
5
5
5
5
10.7
20.7
314
41.8
514
59.4
6
6
6
5
5
5
5
5
6 5.6
6 9.7
6 11.8
12.2
10.9
8.4
4.7
59.8
53-7
46.6
38.5
29.7
5 20.5
5 II-6
5 3-4
4 56.5
4 515
4 48.6
4 48.4
4 50- 8
4 56.1
5 4.0
5 14-1
5 26.0
5 38.9
15 518
1913—
Midxiicht.
HORIZONTAL PARALLAX.
//
5 15.6
5 26.1
5 36.7
5 46.8
5 55.6
6 2.7
6 7.9
6 ii.o
6 12.2
6 11.7
6 9.8
6 6.7
6 2.4
5 56.9
5 50.3
5 42.6
5 34.1
5 25.1
5 16.0
5 7-4
4 59.8
4 53-8
4 49.8
4 48.2
4 49.3
4 53.1
4 59.7
5 8.8
5 199
5 32.4
5 45.4
15 57.9
-5
Noon.
//
55 36.44
56 13.34
56 52.36
57 3069
58 5.70
58 35-21
58 57.76
59 12.85
59 20.68
59 21.96
59 17.54
59 8.24
58 54.47
58 36.46
58 14.27
57 48.06
57 18.30
56 45.99
56 12.52
55 39.78
55 9.76
54 44.53
54 25.91
54 15.54
54 14.54
54 23.55
54 42.79
55 11.68
55 49.00
56 32.72
57 19-98
58 7.26
Diff. for
X Hour.
//
+1.455
1.602
1.630
•fi.546
1.357
I.091
+0.785
0.473
+0.185
-0.071
0.289
0.482
-0.662
0.838
1.009
—1. 171
1. 301
1.382
-1-393
1.322
1. 164
-0.925
0.616
-0.242
+0.162
0.589
1. 010
+1.390
1.706
1.917
1-997
+ 1.913
Midnight.
//
55 54-44
56 32.77
57 11.78
57 48.76
58 21.26
58 47.41
59 6.24
59 17-63
59 22.09
59 20.40
59 13.47
59 1.89
58 45.99
58 25.88
58 1.65
57 33.57
57 2.39
56 29.29
55 55.94
55 24.30
54 56.43
54 34-29
54 19.60
54 13.83
54 17.76
5431.91
54 56.09
55 29.39
56 10.23
56 56.11
57 43.87
58 29.64
Diff. for
z Hour.
//
+1.542
1. 63 1
1.602
+ 1.462
1. 231
0.941
+0.628
0.325
+0.052
-0.185
0.388
0.574
-0.750
0.925
1.093
-1.243
1.348
1.397
-1.368
1.255
1.054
-0.779
0.434
-0.043
+0.375
UPPER TRANSIT.
Meridian of I Diff. for
Greenwich, j Hour.
h m
21 51.4
22 41.3
23 36.1
6
o 35.1
I 36.5
2 37.7
3 36.2
4 30.8
5 21.9
6 10.3
6 57.6
7 45.1
8 34.2
9 25.9
0.803
1.206
+1.558
1.827
1.976
1.978
+1.809
10
20.4
II
12
17.3
14.9
13
14
14
II. I
4.2
53.4
15
16
17
38.6
20.7
0.6
17
18
18
39-6
18.7
59.4
19 42.8
20 30.2
21 22.6
22 20.0
m
1.98
2.18
2.38
2.52
2.57
2.50
2.36
2.20
2.06
1.98
1.97
2.00
2.10
2.21
2.33
2.40
2.38
2.29
2.13
1.96
1. 81
1.70
1.64
1.62
1.65
1.74
1.88
2.08
2.29
2.48
AGE.
Noon.
23 21.4 I 2.60
d
26.1
27.1
28.1
29.1
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
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
JUNE, 1913. V.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
VI.
JUNE, 1913.
67
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
Declination.
for
Hour.
Right Asconsion.
for
DocUnation.
for
I Min.
xMin.
I Min.
xMin.
THI
JRSDi
PiY 5.
SATURDAY 7.
h m ■
■
• • •*
m
h m 8
•
e « ft
f*
O
5 26 56.63
2.5874
N.28 13 30.0
8.356
0
7 32 27.64
«.5779
N.26 30 34.2
6.605
I
5 29 31-99
a.jgia
28 15 45-9
t.174
I
7 35 2.19
a. 5738
26 23 52.6
6.788
2
532 7-57
«.59«7
28 17 50.9
X.998
2
7 37 36.50
a.5697
26 17 0.4
6.957
3
5 34 43-36
a. 598a
28 19 44.9
X.808
3
740 10.55
a. 5654
26 9 57.8
7.130
4
5 37 19-35
a. 60x5
28 21 27.8
X.683
4
7 42 44.35
8.56x1
26 2 44.8
7.303
5
5 39 55.54
a,6cH7
28 22 59.7
t.439
5
7 45 17.88
8.5563
25 55 21.4
7.475
6
5 42 31.91
a. 6077
28 24 20.5
i.«54
6
7 47 51.13
a. 5519
25 47 47.8
7.645
7
5 45 8.46
a.6xos
28 25 30.2
X.068
7
7 50 24.11
a. 5473
25 40 4.0
7.8x5
8
54745.17
a.6i3z
28 26 28.7
0.88a
8
7 52 56.81
a.54a5
25 32 lO.O
7.983
9
5 50 22.03
a.6x55
28 27 16.0
0.694
9
7 55 29.21
a. 5375
25 24 6.0
8.X50
lO
5 5« 59-03
a.6178
28 27 52.0
0,507
10
7 58 1.31
s.93t6
25 15 52.0
8.315
II
55536.17
a. 6000
28 28 16.8
0.3x8
II
8 033.12
8.5876
25 7 28.2
8.479
12
5 58 13.43
a.6az9
28 28 30.2
+0.189
12
8 3 4.62
t.5aa3
24 58 54.5
B.648
13
6 0 50.80
a. 6937
28 28 32.3
-0.060
13
8 535.80
8.5171
24 50 1 1. 1
8.804
14
6 3 28.27
a.6a5S
28 28 23.0
0.850
14
8 8 6.67
t.5118
24 41 18.0
8.964
15
6 6 5.83
a.6a67
28 28 2.3
0.439
15
8 10 37.22
8.5064
24 32 15.4
9.XSS
i6
6 843.47
s.oa79
28 27 30.3
0.689
16
8 13 7.44
S.5009
2423 3.3
9.879
17
6 II 21. 18
t.6a90
28 26 46.8
17
8 15 37.33
a.49SS
24 13 41.9
9.43s
i8
6 13 58.95
a.6a98
28 25 51.9
x.oxo
18
8 18 6.90
8.4899
24 4 II. I
9.590
19
6 16 36.76
8.6305
28 24 45.6
i.aox
19
8 20 36.12
8.484a
23 54 31. 1
9.743
20
6 19 14.61
a.63xx
28 23 27.9
1.391
20
8 23 5.00
a.4785
23 44 41.9
9.895
21
6 21 52.49
a. 6314
28 21 58.7
1.588
21
8 25 33.54
a.47a7
23 34 43.7
ZO.044
22
6 24 30.38
8.63x6
28 20 18.0
X.773
22
8 28 1.73
8.4670
23 24 36.6
xo.X9a
n
6 27 8.28
FI
9.63x6
UDA\
N.28 18 25.9
' 6.
1.963
23
8 30 29.58
SL
8.46x8
fNDAI
N.23 14 20.6
{ 8.
X0.340
O
6 29 46.17
8.69x4
N.28 16 22.4
8.154
0
8 32 57.07
1.455a
N.23 3 55-8
10.485
I
6 32 24.05
a.63xx
28 14 7.4
«-345
I
8 35 24.21
••4499
22 53 22.4
io.6a8
3
6 35 1.90
8.6305
28 II 41.0
a. 535
2
8 37 50.99
a. 4433
22 42 40.4
10.771
3
6 37 39-71
a.6898
28 9 3.2
8.7a6
3
8 40 17.41
•.4373
22 31 49.9
X0.9X8
4
6 40 17-47
8.6289
28 6 13.9
8.916
4
8 42 43.47
a.4313
22 20 51.0
XX.05X
5
6 42 55.18
8.6279
28 3 13.3
3.X05
5
845 9.17
8.4853
22 9 43.8
11.X87
6
6 45 32.82
8.6267
28 0 1.3
3.a95
6
8 47 34.51
8.4x98
21 58 28.5
".313
7
6 48 10.38
a. 6253
27 56 37.9
3.484
7
8 49 59.48
8.4x3a
2147 5.0
XI. 458
8
6 50 47.85
2.6837
27 53 3.2
3.67a
8
8 52 24.09
8.407X
213533.5
X1.591
9
6 53 25.22
a.6a2o
27 49 17.2
3.861
9
8 54 48.33
2.40x0
21 23 54.1
xx.7ai
lO
6 56 2.49
2.6aoa
27 45 19.9
4.048
10
8 57 12.21
a. 3949
21 12 7.0
1X.850-
II
6 58 39.64
a.6x8i
27 41 II. 4
4.836
II
8 59 35.72
2.38G8
21 0 12.1
11.97ft
12
7 I 16.66
2.6x58
27 36 51.6
4.4aa
12
9 I 58.87
2.3828
20 48 9.6
X2.XO$
13
7 3 53.54
2.6135
27 32 20.7
4.608
13
9 4 21.65
2.3766
20 35 59.7
12.887
14
7 6 30.28
8.6x10
27 27 38.6
4.794
14
9 6 44.06
a. 3705
20 23 42.3
12.350
15
7 9 6.86
2.6082
27 22 45.4
4.979
15
9 9 6. 1 1
a. 3644
20 II 17.7
18.471
i6
7 n 43.27
8.6054
27 17 41. 1
5.163
16
9 II 27.79
a. 3583
19 58 45.8
18. 591
17
7 14 19.51
8.6085
27 12 25.8
5.347
17
9 13 49.11
8.3523
19 46 6.8
18. 708
i8
7 16 55.57
a- 5994
27 6 59.5
5.529
18
9 16 10.06
a. 3468
19 33 20.8
xa.823
^9
7 19 31.44
2.5963
27 I 22.3
5.7»i
19
9 18 30.65
a. 340a
19 20 28.0
18.937
20
722 7.11
8.5928
26 55 34.2
5.898
20
9 20 50.88
8.334a
19 7 28.4
13.049
21
7 24 42.57
8^5892
26 49 35.3
6.07a
21
9 23 10.75
2.3288
18 54 22.1
13.160
22
7 27 17.82
a. 5856
26 43 25.6
6.851
22
9 25 30.26
2.3228
18 41 9.2
13.269
23
7 29 52.84
8.58x8
26 37 5.2
6.428
23
9 27 49-42
a.3i«3
18 27 49.8
13.377
24
7 32 27.64
a. 5779
N.26 30 34.2
6.605
24
9 30 8.22
8.3x04
N.18 14 24.0
13.488
JUNE, 1913.
GREENWICH MEAN TIME.
THE MOON-S RIGHT ASCENSION AND DECLINATION.
VIU. JUNE, 191S.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
70 JUNE, 1913. IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
X.
JUNE, 1913.
71
GREENWICH MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Boa
r. Right Ascension.
for
Declination.
for
Hour.
Right Ascension.
for
Declination.
for
iMin.
I Min.
I Min.
xMin.
SAT
'URD>
^Y 21.
MONDAY 23.
,' h zn s
8
0 t n
n
h m s
s
01 M
n
0
20 ao 37-70
a. 1597
S.23 49 34.9
8.530
0
21 57 18.91
1.8842
S. 15 19 7.2
13.3X6
I
20 22 47.09
a.»533
23 40 59-9
8.635
I
21 59 11.82
1.8797
15 6 46.6
12.369
2
20 24 56. 10
3.1469
23 32 18.7
8.739
2
22 I 4.47
1.8752
14 54 22.9
13.432
3
20 27 4.72
2.1405
23 23 31-2
8.843
3
22 2 56.85
1.8707
14 41 56.0
12.473
4 ' 20 29 12.96
2.1342
23 14 37.5
8.946
4
22 4 48.96
1.8664
14 29 26.1
12.523
5 20 31 20.82
a. 1277
23 5 37-7
9.047
5
22 6 40.82
1.8622
14 16 53.2
12.573
6
20 33 28.29
a.z2i3
22 56 31.9
9.147
6
22 8 32.42
1.8580
14 4 17-3
X2.632
7
20 35 3538
3.1x50
22 47 20.1
9.246
7
22 10 23.78
1.8539
13 51 38.5
12.671
8
ao 37 42.09
3.1087
22 38 2.4
9.343
8
22 12 14.89
1.8498
13 38 56.8
12.718
9
20 39 48.42
S.1033
22 28 38.9
9-439
9
22 14 5.76
.1.8458
13 26 12.3
12.764
10
2041 54.37
3.0960
22 19 9.7
9.533
10
22 15 56.39
X.8418
13 13 25.1
13.809
11
2043 59-94
t.0897
22 9 34-9
9.637
II
22 17 46.78
X.8380
13 035.2
13.854
12
2046 5.13
a. 0833
21 59 54-4
9.721
12
22 19 36.95
1.834a
12 47 42.6
12.898
13
20 48 9-94
a.0772
21 50 8.4
9.813
13
22 21 26.89
1.8305
12 34 47.4
12.941
14
20 50 14-39
3.07x0
21 40 17.0
9.902
14
22 23 16.61
1.8268
12 21 49.7
13.983
IS 20 52 18.46
2.0647
21 30 20.2
9.991
15
22 25 6.II
X.8332
12 8 49.4
13.035
16
ao 54 22.15
a. 0585
21 20 18. 1
io.'079
16
22 26 55.40
X.8X97
II 5546.7
13.065
17
ao 56 25-48
a. 0524
21 10 10.7
10.X66
17
22 28 44.48
1.8x63
II 42 41.6
13.105
18
20 58 28.44
2.0463
20 59 58. 1
XO.253
18
23 30 33.36
X.8130
II 29 34.1
13.144
19
ai 0 31.04
2.0403
20 49 40.5
XO.335
19
22 32 22.04
X.8097
II 16 24.3
X3.x8s
20
21 2 33.27
2.0342
20 39 17.9
10.4x8
20
22 34 10.52
1.8064
II 3 12.3
13.319
21 21 4 35-14
2.0282
20 28 50.3
10. 50X
21
22 35 58.81
1.8033
10 49 58.0
13.336
22
ai 6 36.65
3.0222
20 18 17.8
XO.583
22
22 37 46.92
1.8002
10 36 41.6
X3.39S
23
21 8 37-8o
3.0162
S.20 7 40.4
10.663
23
22 39 34-84
1.797a
S. 10 23 23.0
i3.3a7
SU
NDAl^
' 22.
TUl
iSDA^
^ 24.
0
21 10 38.60
2.0104
S.19 56 58.3
10.741
0
22 41 22.59
1.7943
S. 10 10 a.4
13.361
I
21 12 39-05
2.0045
19 46 II. 5
10.8x8
I
22 43 10.16
1.7915
9 56 39-7
13.394
a
21 14 39-14
1.9987
19 35 20.1
10.894
2
22 44 57-57
1.7887
9 43 15-0
X3.4a7
3
21 16 38.89
1.9930
19 24 24.2
X0.970
3
22 46 44.81
1.7860
9 29 48.4
13.460
4
21 18 38.30
1.9873
19 13 23.8
1X.044
4
22 48 31.89
1.7833
9 16 19.9
13.491
5
21 20 37.37
1.98x7
19 2 18.9
XI. 117
5
22 50 18.81
1.7807
9 2 49.6
13.521
6 21 22 36.10
1.9760
18 51 9.6
II. 190
6
22 52 5.58
1.7782
8 49 17-4
13.551
7
21 24 34.49
i.970«
18 39 56.1
XI. 261
7
22 53 52.20
1.7759
8 35 43.4
13.581
8
21 26 32.55
1.9649
i8 28 38.3
11.332
8
22 55 38.69
1.7737
8 22 7.7
13.608
9
21 28 30.28
1.9594
18 17 16.3
ZX.40I
9
22 57 25.04
1.7713
8 8 30.4
13.636
10 21 30 27.68
1.9540
18 5 50.3
11.468
10
22 59 11.25
1.7693
7 54 51-4
13.663
II
2X 32 24.76
1.9487
17 54 20.1
11.535
II
23 0 57.34
X.7671
7 41 10.8
13.690
12
21 34 21.52
1.9433
17 42 46.0
IX. 602
12
23 243.30
1.7650
7 27 28.6
13. 716
13
21 36 17.96
1.938X
17 31 7-9
11.667
13
23 429.14
1.7631
7 13 44-9
13.740
14
21 38 14.09
i.93a9
17 19 26.0
XI. 730
14
23 6 14.87
1.76x2
6 59 59.8
13.764
15
21 40 9.91
1.9277
17 740-3
11.793
15
23 8 0.49
1.7594
6 46 13.2
13.788
16
21 42 5.42
x.9227
16 55 50.8
11.855
16
23 9 46.00
^'7577
6 32 25.3
13.8x1
17
21 44 0.63
1.9177
16 43 57-7
IX. 916
17
23 II 31.41
1.7561
6 18 35.9
13.833
18 21 45 55-54
1.9127
16 32 0.9
11.977
18
23 13 16.73
1.7545
6 4 45.2
13.855
19 «i 47 50-15
1.9078
16 20 0.5
12.036
19
23 15 1-95
1.7530
5 50 53-3
13.875
ao 21 49 44-4^
x.9030
16 7 56.6
12.093
20
23 16 47.09
X.7516
5 37 o.a
13.896
ai 21 51 38.51
X.8982
15 55 49-3
13.150
21
23 18 32.14
1.7502
5 23 5-8
13.916
aa 21 53 32-26
X.8934
1543 38.6
12.207
22
23 20 17.12
1.7490
5 9 10.3
13.934
a3 21 55 25-72
1.8887
15 31 24.5
13.362 23
23 22 2.02
1.7478
4 55 13-7
13.95a
24
21 57 18.91 1
X.8843
S. 15 19 7.2
13.3x6
24 1
23 23 46.86
1.7467
S. 4 41 16.0
13.970
72 JUNE, 1913. XI,
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
XII.
JUNE, 1913.
73
GREENWICH MEAN TIME.
THE MOON*S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
DifL
Diff.
Hour.
Right Aacension.
for
xMin.
DedinatioxL
for
xMin.
Hoar.
Right Ascension.
for
xMin.
DoclinadoiL
for
xMin.
SUNDAY 29.
TUESDAY. JULY i.
h m s
•
e t m
M
h m a
s
0 » m
M
O
2 18 31.39
a. 0197
N.I7 17 55-7
Xa.277
0
4 4 9-25
2.3927
N.25 28 47.5
7.580
I
2 20 32.78
2 22 34.57
2.oa65
a.Q33«
17 30 10.4
17 42 21.3
ia.213
X2.X49
2
3
2 24 36.77
2.0401
17 54 28.3
12.083
4
2 26 39.39
a.<H7x
18 6 31.3
X2.016
5
2 28 42.42
a.0541
18 18 30.3
XX.948
6
2 30 45.88
a.o6ia
18 30 25.0
tx.876
7
2 32 49.76
a.o6B2
18 42 15.5
XX. 806
8
a 34 54-07
a. 0754
18 54 1.7
".734
9
2 36 58.81
2.0827
19 543.6
IX. 661
lO
2 39 4.00
t.o9ox
19 17 21.0
XI. 585
II
2 41 9.62
a.0974
19 28 53.8
XX.508
la
« 43 15-69
3.X048
19 40 21.9
XX. 429
13
2 45 22.20
t.xxaa
19 51 45-3
XX. 350
PHASES OF THE MOON.
14
2 47 29.16
a.xx98
20 3 3.9
XX. 269
15
« 49 36.58
2 51 44.46
t.xt75
t.x35i
20 14 17.6
20 25 26.3
IX. 187
XX.X03
i6
17
2 53 52-79
a.X4«7
20 36 29.9
XX. 0x7
i8
2 56 1.59
a.x505
20 47 28.3
xo.9a9
d h xn
19
2 58 10.85
a. 1582
20 58 21.4
X0.84I
•
New Moon . . . June 4 7 57.0
20
21
3 0 20.58
3 230.78
2.x66x
a. 1739
21 9 9.2
21 19 51.6
X0.752
X0.660
1>
First Quarter . . . . xi 4 37.3
22
3 4 41-45
2.1817
21 30 28.4
X0.567
0
Full Moon
18
5 53.7
a3
3 652.59
2.1897
N.21 40 59.6
10.472
c
Last Quarter . . . .26 5 40.8
MO
►NDAY 30.
o
3 9 4.21
3 II 16.31
2.X977
2.2057
N.21 51 25.1
22 I 44.8
X0.376
10.278
I
2
3 13 28.89
2.2137
22 II 58.5
XO.I79
3
3 15 41-96
2.2ax8
22 22 6.2
X0.078
d h
4
3 17 55-51
2.2298
22 32 7.8
9.976
c
Perigee ..... June 9 16.5
5
6
3 20 9.54
3 22 24.06
a.a379
2.2461
22 42 3.3
22 51 52.4
9.872
9.7«5
(C
^^ w ^ *0
Apogee 24 14.7
7
3 24 39-07
a.a5i2
23 I 35-1
9.658
8
3 26 54.57
3 29 10.56
2.2624
2.2706
23 II II. 3
23 20 41.0
9.549
9.438
9
lO
3 31 27.04
2.2788
23 30 4.0
9.327
II
3 33 44-02
2.2870
23 39 20.2
9.213
12
3 36 1.48
2.29SX
23 48 29.5
9.097
13
3 38 19-43
2.3033
23 57 31-8
8.979
14
3 40 37.88
2.3x16
24 6 27.0
8.861
15
3 42 56.82
2.3x97
24 15 15.0
8.740
i6
3 45 16.25
2.$279
24 23 55-8
8.618
17
3 47 36.17
2.3361
24 32 29.2
8.494
i8
3 49 56.58
a. 3442
24 40 55- 1
8.368
19
3 52 17.48
2.35«3
24 49 13.4
8.241
20
3 54 38.86
2.3605
24 57 24.0
8.XX2
21
3 57 0.73
2.3686
25 5 26.8
7.981
22
3 59 23.09
••37C7
25 13 21.7
7.848
23
4 X 45.93
«.|«47
25 21 8.6
7.715
a4
4 4 9.25
a.39»7
N.25 28 47.5
7.580
74
JULY, 1913.
AT GREENWICH APPARENT NOON.
Day of
the
Week.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN,
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN,
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
I
2
3
4
5
6
7
8
9
o
I
2
3
4
5
6
7
8
19
20
21
22
23
24
25
26
27
28
29
30
31
32
THE SUN'S
Apparent Right
Ascension.
h m s
6 39 1497
6 43 23.23
6 47 31-23
6 51 3895
6 55 46.36
6 59 53-43
7 4 0.14
7 8 6.46
7 12 12.38
7 16 17.88
7 20 22.93
7 24 27.52
7 28 31.63
7 32 3526
7 36 38.39
7 40 41.01
7 44 43.12
7 48 44.70
7 52 45.76
7 56 46.28
8 o 46.25
8 4 45.67
8 8 44.53
8 12 42.83
8 16 40.57
8 20 37.73
8 24 34.31
8 28 30.31
8 32 25.73
8 36 20.56
8 40 14.80
8 44 8.44
Diff. for
X Hour.
•
0.350
0.339
0.328
0.315
0.301
0.286
0.271
0.255
0.238
0.220
0.201
0.182
0.162
O.141
0.120
0.098
0.076
0.054
0.032
O.OIO
9.987
9.964
9.941
9.918
9.894
9.870
9.846
9.822
9-797
9.773
9.748
9723
Apparent Decli-
nation.
//
N.23 846.6
23 441.6
23 012.3
225518.9
2250 1.5
22 44 20.2
223815.4
22 31 46.7
222454.7
22 1739.6
22 10 1.5
22 2 0.5
215336.9
214450.9
213542.7
21 26 12.5
21 1620.4
21 6 6.7
205531.6
204435.3
2033 18.I
2021 40.1
20 941.6
195722.9
194444.2
19 31 45.7
19 1827.7
19 450.4
18 5054.1
18 36 39.1
1822 5.7
N.18 714.I
Diff. for
I Hour.
9.71
0.72
1.72
7.72
372
4.71
5.70
6.68
7.65
8.61
9.56
20.51
-21.45
22.38
23.30
-24.21
25.12
26.02
—26.90
27.78
28.64
-29.50
30.36
31.20
-32.02
32.84
33-65
-34.45
35-24
36.01
36.77
h37-52
Semidiam-
eter.
5 45.66
5 45.65
5 45.64
5 45.64
5 45.65
5 45.66
5 45.67
5 4569
5 45.72
5 45.76
5 45.80
5 45.84
5 45.88
5 45.93
5 45.99
5 46.05
546.11
546.17
5 46.23
5 46.29
5 46.36
546.44
5 46.52
5 46.60
5 46.69
5 46.78
5 46.88
5 46.98
547.08
547.19
5 47.30
1547.42
Sidereal
Time of
Semidi-
ameter
Passing
Me-
ridian.
68.76
68.73
68.69
68.65
68.61
68.56
68.51
68.46
68.40
68.34
68.28
68.22
68.16
68.09
68.02
67.95
67.88
67.80
67.73
67.65
67.57
67.49
67.41
67.32
67.24
67.15
67.07
66.98
66.90
66.81
66.73
66.64
Equation of
Time, to be
Added to
Apparent
Time.
m
s
3 30.57
3 42.24
3 53.65
4 4.78
4 15.60
4 26.09
436.21
4 45.95
4 55.28
5 4.19
5 12.66
5 20.67
528.21
5 35.26
541.81
5 47.86
5 53.40
5 58.41
6 2.90
6 6.85
6 10.25
6 13.10
6 15.40
6 17.14
6 18.31
6 18.92
6 18.95
6 18.40
6 17.27
6 15.55
6 13.23
6 10.32
NOTS. — The mean time of semidiameter passing the meridian may be found by subtracting o*.i9 fr
sidereal time.
The sign — prefixed to the hourly change of declination indicates that north declinations aim dec
n.
JULY, 1913.
AT GREENWICH MEAN NOON.
75
Day of
the
Week.
^3
1"
Tues.
Wed.
Thur.
I
2
3
Fri.
Sat.
SUN.
4
5
6
Mon.
Tues.
Wed.
7
8
9
Thur.
Fri.
Sat.
lO
II
12
SUN.
Mon.
Tues.
13
14
15
Wed.
Thur.
Fri.
i6
17
i8
Sat.
SUN.
Mon.
19
20
21
Tues.
Wed.
Thur.
22
23
24
Fri.
Sat.
SUN.
25
26
27
Mon.
Tues.
Wed.
Thur.
28
29
30
31
Fri.
32
THE SUN'S
Apparent Right
Ascension.
m
s
6 39 1436
6 43 22.59
6 47 30.56
6 51 3825
6 55 4563
6 59 52.67
7 3 59.35
7 8 5.65
7 12 11.54
7 16 17.01
7 20 22.04
7 24 26.61
7 28 30.70
7 32 34.31
7 36 37.43
7 40 40.04
7 44 42.13
7 48 43.70
7 52 44.75
7 56 45.26
8 o 45.22
8 4 44.63
8 8 43.49
8 12 41.79
8 16 39.53
8 20 36.69
8 24 33.27
8 28 29.28
8 32 24.71
8 36 19.55
8 40 13.79
8 44 7-44
Diff. for
I Hour.
s
0.348
0.337
0.326
0.314
0.300
0.285
0.270
0.254
0.237
0.219
0.200
O.181
O.161
0.140
0.II9
0.098
0.076
0.054
0.032
O.OIO
9.987
9.964
9.941
9.918
9.894
9.870
9.846
9.822
9-797
9.773
9.748
9.723
Apparent Decli-
nation.
//
N.23
23
23
8 47-2
4 42.3
o 13.1
22 55 19.8
22 50 2.5
22 44 21.3
22 38 16.4
22 31 48.0
22 24 56.2
22 17 41.2
22 10 3.1
22 2 2.3
21 53 38.9
21 44 53.0
21 35 44.9
21 26 14.8
21 16 22.9
21 6 9.3
20 55 34.3
20 44 38.1
20 33 21.0
20 21 43.2
20 9 44.9
19 57 26.2
19 44 47.6
19 31 49.2
19 18 31.2
19 4 54.0
18 50 57.8
18 36 42.9
18 22 9.5
N.18 7 18.0 -37.52
Diflf. for
I Hour.
//
9.70
0.71
1.72
2.72
3.72
4-71
5.69
6.67
7.64
8.60
956
20.51
-21.44
22.37
23.30
—24.21
25.11
26.01
-26.90
27.78
28.64
-29.50
30.35
31.19
-32.02
32.84
33.65
-34.45
35.23
36.00
36.77
Bquation of
Time to be
Subtracted
from
Mean Time.
m
s
3 30.53
3 42.21
3 53.62
4 4.75
4 15.57
4 26.06
4 36.18
4 45.92
4 55.25
5 4.16
5 12.63
5 20.64
5 28.18
5 35.23
5 41.79
5 47.84
5 53.38
5 58.39
6 2.88
6 6.83
6 10.24
6 13.10
6 15.40
6 17.14
6 18.31
6 18.92
6 18.95
6 18.40
6 17.27
6 15.54
6 13.23
6 10.33
Difr. for
I Hour.
s
0.491
0.481
0.470
0.457
0.444
0.429
0.414
0.397
0.380
0.362
0.343
0.324
0.304
0.284
0.263
0.242
0.220
0.198
0.176
0.153
0.130
0.107
0.084
0.061
0.037
0.013
O.OII
0.035
0.059
0.084
0.109
0.134
NOTS. — ^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 north dedina-
tioos are decreashig.
Sidereal Time,
or Right Ascen-
sion of Mean
Sun.
h m s
6 35 43.82
6 39 40.38
6 43 36.94
6 47 33.50
6 51 30.06
6 55 26.61
6 59 23.17
7 3 19.73
7 7 16.29
7 II 12.85
7 15 9.40
7 19 5.96
7 23 2.52
7 26 59.08
7 30 55.64
7 34 52.20
7 38 48.75
7 42 45.31
7 46 41.87
7 50 38.42
7 54 34.98
7 58 31.54
8 2 28.10
8 6 24.66
8 10 21.21
8 14 ^7-77
8 18 14.33
8 22 10.88
8 26 7.44
8 30 4.00
8 34 0.56
8 37 57.11
Diff. for I Hour.
+9».856S.
(Table III.)
76
JULY, 1913.
in.
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
32
Q
82
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
THE SUN'S
True Longitude.
//
99 I 8.0
99 58 21.3
100 55 34.7
01 52 48.2
02 50 1.7
03 47 I5-I
04 44 28.4
05 41 41.6
06 38 54.7
07 36 7.6
08 33 20.5
09 30 33.3
10 27 46.1
11 24 59.0
12 22 12.0
13 19 25.2
14 16 38.7
15 13 52.5
16 II 6.9
17 8 21.9
18 5 37.5
19 2 53.8
19 60 10.8
20 57 28.7
21 54 47.5
22 52 7.3
23 49 28.0
24 46 49.7
25 44 12.4
26 41 36.2
27 39 I.I
28 36 27.0
//
o 42.0
57 55.2
55 8.4
52 21.7
49 35 o
46 48.2
44
41
38
1.3
14-3
27.2
35 40.0
32 52.7
30 5-3
27 17.9
24 306
21 43-4
18 56.4
16 9.8
13 23.5
10 37.7
7 52.5
5 7-9
2 24.0
59 40.9
56 58.6
54
51
48
17.2
36.8
57-4
46 18.9
43 41-5
41 5-2
38 29.9
35 55-6
Diff. for
z Hour.
//
43.05
43.05
43.06
43.06
43 06
43 06
43.05
43.05
4304
4304
4304
43.04
43.04
43.05
43.05
43.06
43.07
43.09
43."
43.13
43.16
43.19
43.23
43.26
43.30
43-34
43.38
43-42
43-47
43.51
4356
143.60
Latitude.
//
+ 0.29
0.32
0.32
+ 0.29
0.23
0.14
-fO.03
— O.IO
0.24
-0.36
0.48
0.59
-0.68
0.74
0.78
-0.78
0.75
0.70
-0.63
0.54
0.42
-0.30
0.18
— 0.06
+ 0.05
0.15
0.23
-f 0.29
033
0.33
0.31
+ 0.25
Logarithm of the
Radius Vector of
the Earth.
0.007 2157
0.007 2210
0.007 2236
0.007 2236
0.007 2209
0.0072155
0.007 2075
0.007 1970
0.007 1 84 1
0.007 1690
0.007 I518
0.007 1326
0.007 11^^
0.007 0889
0.007 0647
0.007 0389
0.007 01 17
0.006 9831
0.006 9530
0.006 9215
0.006 8885
0.006 8539
0.006 8177
0.006 7799
0.006 7404
0.006 6990
0.006 6557
0.006 6104
0.006 5630
0.0065133
0.0064613
0.006 4069
Diff. for
I Hour.
+ 2.7
1.6
+ 0.5
- 0.6
1.7
2.8
- 3.9
4.9
5.9
- 6.8
7.6
8.4
- 9.1
9.8
10.4
— II.O
II. 6
12.2
-12.8
13.4
14.0
-14.7
15.4
16. 1
—16.9
177
18.5
-19.4
20.4
21.3
22.3
-23.3
Mean Time of
Sidereal Noon.
h m s
7 21 25.10
7 17 29.19
7 13 33.28
7 9 3736
7 5 41.45
7 I 45.54
6 57 49.63
6 53 53.71
6 49 57.80
6 46 1.89
6 42 5.98
6 38 10.06
6 34 14.15
6 30 18.24
6 26 22.33
6 22 26.42
6 18 30.50
6 14 34.59
6 10 38.68
6 6 42.77
6 2 46.86
5 58 50.95
5 54 55.03
5 50 59.12
5 47 3-21
5 43 7.30
5 39 "39
5 35 15.48
5 31 19.57
5 27 23.66
5 23 27.74
15 19 31.83
NOTS. — ^The Idhgitudes in the column X are referred to the true equinox of their own date,
while those in the column X' arc referred to the mean equinox of the beginning of
the Besselian fictitious year.
Diff. for X Hour.
— 9».8a96.
(Table IL)
V.
JULY, 1913.
GREENWICH MEAN TIME.
77
THE MOON'S
SBMIDIAHBTBR.
Noon.
ff
5 38-9
5 51.8
6 3.6
6
6
13-3
20.1
6 23-4
6 23.4
6 20.4
6 15.0
6 7.9
5 59.9
5 51.3
5 42.7
5 34-2
5 25.8
5 17-7
5 10. 1
5 3-0
4 56.8
4 51-7
4 48.2
4 46-4
4 4^-9
4 49-8
4 55-3
5 3-5
5 14-2
27.1
41.4
5 56.3
6 10.5
Midnight.
//
16 22.6
5 45 4
5 57.9
6 8.8
6 17.1
6 22.2
6 23.8
6 22.2
6 17.9
6 1 1.6
6 4.0
5 55.6
5 47.0
5 38.4
5 29.9
5 21.7
5 13.8
5 6.5
4 59.8
4 54.1
4 49.7
4 47.0
4 46.4
4 48.0
4 52.2
4 59-0
5 8.5
5 20.4
5 34.1
5 48.8
6 3.6
6 16.9
16 27.5
HORIZONTAL PARALLAX.
Noon.
//
57 19.98
58 7.26
58 50.55
59 26.13
59 50.96
60 3.36
60 3.31
5952.19
59 32.37
59 6.44
58 36.89
58 5.62
57 33.90
57 2.51
56 31.86
56 2.26
55 34.20
55 8.27
54 45.44
54 26.81
54 13.67
54 7.31
54 8.95
54 19.60
54 39.89
55 9.96
55 49.29
56 36.47
57 29.13
58 23.75
59 15.85
60 0.35
Diff. for
I Hour.
//
+ 1.997
I.913
1.667
+ 1.275
0.781
+0.252
.246
0.663
0.970
-I. 172
1.278
1.320
-I.319
1.294
1.259
-1.205
1. 130
1.023
-0.872
0.670
0.415
.106
+0.251
0.643
+ 1.049
1-453
1. 814
+2.100
2.260
2.259
2.047
+ 1.628
Midnight.
//
57 43.87
58 29.64
59 9.52
59 40.03
59 58.75
60 4.83
59 5900
59 43.20
59 20.01
5851.98
58 21.38
57 49.76
57 18.13
56 47.08
56 16.90
55 48.01
55 20.91
54 56.41
54 35.52
54 19.47
54 9.57
54 7.06
54 13.10
54 28.52
54 53.71
55 28.54
56 12.02
57 2.31
57 56.45
58 50.43
59 39.36
60 18.26
Diff. for
I Hour.
ff
+ 1.978
1.809
1.487
+ 1.038
+0.517
004
467
0.831
1.084
-1.234
1.304
1.323
-1.308
1.277
1.234
— 1. 170
1.082
0.954
-0.778
0.550
—0.267
+0.066
0.442
0.846
+ 1.254
1.640
1.969
+2.200
2.284
2.180
1.862
+ 1.350
UPPER TRANSIT.
AGE.
Meridian of
Greenwich.
Diff. for
1 Hour.
Noon.
h m
22 20.0
23 21.4
6
m
2.48
2.60
• •
d
26.7
27.7
28.7
0 24.2
1 25.5
2 23.2
2.60
2.49
2.32
0.3
1-3
2.3
3 16.9
4 7.2
4 55.5
2.16
2.05
1.99
3-3
4.3
5.3
5 43.1
6 31.5
7 21.8
1.99
2.05
2.15
6.3
7.3
8.3
8 14.7
9 1 0.0
10 6.6
2.26
2.34
2.36
9.3
10.3
11.3
II 2.8
11 56.7
12 47.1
2.30
2.18
2.02
12.3
13.3
14.3
13 33.7
14 16.9
14 57.5
1.87
1.74
1.65
15.3
16.3
17.3
15 36.6
16 15.3
16 54.8
I.61
1.62
1.68
18.3
19.3
20.3
17 36.3
18 21.0
19 lO.I
».79
1.95
2.15
21.3
22.3
23.3
20 4.3
21 3.3
22 5.4
23 8.0
2.36
2.54
2.61
2.56
24.3
25.3
26.3
27.3
6
• •
28.3
78
JULY, 1913.
V.
GREENWICH MEAN TIME.
THE MOONS RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
.
Diff.
— ;—
Diff.
Hour.
Right Ascension.
for
I Min.
Declination.
for
xMin.
Hour.
Right Ascension.
for
X Min.
DeclinatioOi
for
xMxn.
TUESDAY I.
THURSDAY 3.
h m s
s
0 t m
«r
h m s
s
0 » w
•*
0
4 4 9-25
2.3927
N.25 28 47.5
7.580
0
6 6 39.81
a. 6637
N.28 27 14.6
0.690
I
4 633-05
a. 4007
25 36 18.2
7.44a
I
6 9 19.69
3.6656
28 26 30.9
2
4 8 57.33
fl.4086
254340.5
7.303
2
6 II 59.68
a. 6673
28 25 35.5
I.OM
3
411 22.08
8.4164
25 50 54.5
7.X63
3
6 14 39.77
a.6689
28 24 28.3
i.szS
4
4 13 47- 30
a.4342
25 58 0.0
7.019
4
6 17 19.95
3.6703
28 23 9.3
1.4x5
5
4 16 12.99
a.43ao
26 4 56.8
6.875
5
6 20 0.20
a. 6714
28 21 38.5
x.6xa
6
4 1839-14
a. 4397
26 II 45.0
6.730
6
6 22 40.52
3.6725
28 19 55.9
1.809
7
421 5-75
2.4473
26 18 24.4
6.583
7
6 25 20.90
a.^33
28 18 1.4
S.007
8
4 23 32.82
t.4550
26 24 54.9
6.433
8
6 28 1.32
a.6739
28 15 55.1
«.«•
9
4 26 0.35
a.46a5
26 31 16.4
6.383
9
6 30 41.77
3.6743
28 13 36.9
ft.40«
lO
4 28 28.32
3.4699
26 37 28.9
6. 133
10
6 33 22.24
a. 6746
28 II 6.8
a.6ao
II
4 30 56.74
a. 4773
26 43 32.2
5.978
II
6 36 2.72
3.6747
28 8 24.9
a. 797
12
4 33 25.60
a. 4846
26 49 26.2
5.822
12
6 38 43.20
3.6745
28 5 31.2
••994
13
4 35 54.89
. a. 49x8
26 55 10.8
5.665
13
6 41 23.66
3.6743
28 2 25.6
3.x9a
M
4 38 24.61
a. 4989
27 0 46.0
5.507
14
6 44 4.10
3.6737
27 59 8.2
3- 389
15
4 40 54.76
a. 5060
27 6 II. 7
5.347
15
6 46 44.50
8.6739
27 55 38.9
S.587
i6
4 43 25.33
3.5139
27 II 27.7
S.X86
16
6 49 24.85
a. 6730
27 51 57.8
3-7«5
17
4 45 56.31
3.5x97
27 16 34.0
5.033
17
652 5.14
3.67x0
2748 4.9
S.979
i8
4 48 27.69
3.5264
27 21 30.5
4.858
18
6 54 45.37
3.6698
2744 0.3
4-175
19
4 50 59.48
2.533X
27 26 17.0
4.693
19
6 57 25.52
3.6683
27 39 43.9
4.371
20
4 53 31.66
a. 5396
27 30 53.5
4.5a5
20
7 0 5.57
3.6667
27 35 15.8
4-566
21
4 56 4.23
a. 5460
27 35 20.0
4.357
21
7 245.52
2.6650
27 30 36.0
4.760
22
45837.18
a. 55"
27 39 36.3
4.X86
22
7 525.37
2.663X
27 25 44.6
4-954
23
5 I 10.50
a. 5584
N.27 43 42.3
4.0x4
23
7 8 5.09
3.6609
N.27 20 41.5
5.X48
WED
>NESE
)AY 2.
FI
UDA\
4.
O
5 344.19
2.5645
N.27 47 38.0
3.84a
0
7 10 44.68
2.6586
N.27 15 26.8
5.34«
I
5 6 18.24
2.5704
27 51 23.3
3.668
I
7 13 24.12
2.6561
27 10 0.5
5-533
2
5 8 52.64
a.57ea
27 54 58. 1
3*492
2
7 16 3.41
2.6535
27 4 22.8
5.7a4
3
5 II 27.38
2.5818
27 58 22.3
3.3x5
3
7 18 42.54
2.6507
26 58 33.6
5.915
4
5 14 2.45
3.5873
28 I 35.9
3.X37
4
7 21 21.49
2.6477
26 52 33.0
6.to5
5
5 16 37.85
3.5927
28 4 38.8
a.958
5
7 24 0.26
3.6446
26 46 21.0
6.394
6
5 19 13.57
a. 5978
28 7 30.9
a. 777
6
7 26 38.84
3.6413
26 39 57.7
6.481
7
5 21 49.59
2.6028
28 10 12. 1
2.596
7
7 29 17.22
a. 6379
26 33 23. 1
6.669
8
5 24 25.91
a. 6078
28 12 42.4
a.4X3
8
7 31 55.39
3.6344
26 26 37.4
6.855
9
5 27 2.52
2.6xa6
28 15 1.7
2.230
9
7 34 33.35
3.6307
26 19 40.5
7.04X
lO
5 29 39.42
3.6x72
28 17 lO.O
2.046
10
7 37 11.08
3.6268
26 12 32.5
7.»5
II
5 32 16.59
3.62x7
28 19 7.2
X.860
II
7 3948.57
2.6228
26 5 13.5
7.408
12
5 34 54.02
2.6259
28 20 53.2
X.673
12
7 42 25.82
2.6x87
25 57 43.5
7.591
13
53731.70
2.6300
28 22 28.0
X.485
13
7 45 2.81
3.6x44
25 50 2.6
7.77X
14
5 40 9.62
2.6340
28 23 51.4
1.296
14
74739.55
2.6101
25 42 II. 0
7-950
15
5 42 47.78
a. 6378
28 25 3.5
1.X07
15
7 50 16.02
2.6056
25 34 8.6
8.138
i6
5 45 26.15
2.6413
28 26 4.2
0.9x7
16
7 52 52.22
2.60x0
25 25 55.6
8.305
17
548 4.73
2.6447
28 26 53.5
0.726
17
7 55 28.14
3.596a
25 17 32.0
8.48X
i8
5 5043.52
a. 6480
28 27 31.3
0.533
18
7 58 3-77
a. 59x4
25 8 57.9
8.«55
19
5 53 22.49
2.65x0
28 27 57.5
0.34X
19
8 0 39. II
2.5865
25 0 13.4
20
5 56 1.64
a. 6539
28 28 12.2
•K>.X48
20
8 3 14.15
a. 5814
24 51 18.5
9' 000
21
5 58 40.96
a. 6566
28 28 15.3
—0.046
21
8 5 48.88
3.5763
24 42 13.4
9.170
22
6 z 20.43
a. 6591
28 28 6.7
0.340
22
8 8 23.30
2.57x0
24 32 58.1
9.338
23
6 4 0.05
3.66x5
28 27 46.5
0.434
23
8 lo 57.40
2.5657
24 23 32.8
9-505
24
6 6 39.81
a. 6637
N.28 27 14.6
0.630
24
8 13 31.18
a. 5603
N.24 13 57-5
9.6^
VI.
JULY, 1913.
79
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DitL
Diflf.
Diff.
y
Diff.
Honr.
Right Ascension.
for
iMin.
Declination.
for
I Min.
Hoar.
Right Aacensioo.
for
I Min.
Declination.
for
iMin.
SAl
:*URDi
^Y 5.
MONDAY 7.
h m s
s
e » »»
• w
h m 8
s
e * M
ff
O
8 13 31.18
a.5603
N.24 13 57.5
9,671
0
10 9 22.66
3.3676
N.I3 5227.3
15.499
I
8 16 4.63
a. 5547
24 4 12.3
9.834
I
10 II 38.55
3.3633
13 36 55.1
15.574
2
8 18 37.74
a.5490
23 54 17.4
9.996
2
10 13 54.12
3.3567
13 21 18.4
15.647
3
8 21 ZO.51
a. 5434
23 44 12.8
IO.X58
3
10 16 9.36
a. 1513
13 537.4
15.717
4
8 23 42.94
«.5377
23 33 58.5
10.317
4
10 18 24.28
3.8461
12 49 52.3
15.786
5
8 26 15.03
a. 5319
23 23 34.7
X0.475
5
10 20 38.89
3.3408
1234 3.1
15.853
6
8 28 46.77
2.5960
23 13 1.5
X0.63X
6
10 22 53.18
a.a357
12 18 9.9
13.918
7
8 31 18.15
a.jaoo
23 2 19.0
X0.785
7
1025 7.17
3.3306
12 2 12.9
15.983
8
83349.17
a. 5140
22 51 27.3
X0.937
8
10 27 20.85
3.3336
IZ 46 12.2
16.043
9
8 36 19.83
3.3080
22 40 26.5
ZI.088
9
10 29 34.24
3. 3207
II 30 7.8
I6.I03
zo
8 38 50. 13
a. 5019
22 29 16.7
11.337
10
10 31 47.33
3.3158
II 13 59.9
16.160
IZ
8 41 20.06
a.4958
22 17 58.0
11.385
II
1034 0.13
3.aio9
10 57 48.6
16.316
Z2
8 43 49.62
a.4896
22 6 30.5
IX.530
12
10 36 12.64
3.3o6a
ZO 4z 34.0
16.870
13
8 46 18.81
a.4833
21 54 54.4
11.673
13
10 38 24.87
3.30X6
.10 25 16.2
X6.333
14
8 48 47.62
a.4770
21 43 9.7
11.815
M
10 40 36.83
8.1971
zo 8 55.4
x6.37a
15
8 51 16.05
1.4708
21 31 16.6
11.955
15
10 42 48.52
8.1926
9 52 31.6
x6.4ao
i6
8 53 44-"
a.4645
21 19 15.1
12.093
16
10 44 59.94
2.1883
936 5.0
X6.467
17
8 56 11.79
a.438a
21 7 5.4
13.329
17
10 47 II. 10
3.1839
9 19 35.6
X6.SZ3
z8
8 58 39.09
a.4518
20 54 47.6
13.364
18
10 49 22.01
3.1797
9 3 3.6
16.554
19
9 z 6.01
a. 4454
20 42 21.7
13.497
19
10 5Z 32.66
2.1755
8 46 29.1
16.596
20
9 332.54
«.4390
20 29 48.0
13.627
20
10 53 43.07
8.1714
8 29 52.1
X6.636
2Z
9 558.69
a.43a7
20 17 6.5
12.756
21
10 55 53.23
3.1674
8 13 Z2.8
X6.674
22
9 8 24.46
a.426a
20 4 17.3
12.883
22
10 58 3.16
8.1636
7 56 31.2
x6«7xo
23
9 10 49.84
a.4198
N.Z9 51 20.5
13.008
23
II 0 Z2.86
3.1598
N. 7 39 47.6 16.743
SI
JNDA1
{ 6. 1
TU
ESDA
Y 8.
o
9 13 14.84
2.4x35
N.19 38 16.3
13.131
0
II 222.34
3.1362
N. 7 23 2.0
X6.776
z
9 15 39.46
a. 4071
19 25 4.8
13.853
I
II 431.60
8.1525
7 6 14.5
X6.807
2
9 18 3.69
a. 4007
19 II 46.0
13.37a
2
II 6 40.64
a. 1489
6 49 25.2
X6.837
3
9 20 27.54
3.394a
18 58 20.2
13.488
3
II 849.47
8.1455
63234.1
X6.864
4
9 22 51.00
2.3879
18 44 47.4
13.603
4
11 10 58.10
2.X433
6 1541-5
X6.889
5
9 25 14.09
2.3817
18 31 7.8
13.717
5
" 13 6.53
8.1389
5 58 47.4
X6.9X3
6
9 27 36.80
a. 3753
18 17 21.4
13.828
6
II 15 14.77
3.1357
541 51.9
X6.936
7
929 59.12
3.3689
18 3 28.4
13.938
7
II 17 22.82
2.1327
524 55.1
16.957
8
9 32 21.07
a. 3637
17 49 28.8
14.046
8
II 19 30.69
2.1397
5 757.1
X6.976
9
9 34 42.65
2.3565
17 35 22.9
14.151
9
II 21 38.38
2.1268
4 50 58.0
16.993
lO
9 37 3.85
a. 350a
17 21 10.7
14.254
10
II 23 45.90
2.1340
4 33 57.9
17.009
II
9 39 24.67
2.3440
17 6 52.4
14.356
II
II 25 53.26
a. 1213
4 16 56.9
17.023
za
941 45.13
a. 3379
16 52 28.0
14.456
12
II 28 0.46
2.1x87
3 59 55.1
X7.036
13
9 44 5.22
a. 3318
16 37 57.7
14.553
13
II 30 7.50
2.1x61
3 42 52.6
17.047
14
9 46 24.94
3.3257
16 23 21.6
14.649
14
II 32 14.39
2.1137
3 25 49.5
17.057
15
9 48 44.30
2.3197
16 8 39.8
14.742
15
II 34 21.14
2.1114
3 845.8
17.065
i6
9 51 3.30
3.3x37
15 53 52.5
14.834
16
II 36 27.76
2.1092
2 51 41.7
17.071
17
9 53 21.94
3.3077
15 38 59.7
14.924
17
II 3834.24
3.1069
2 34 37.3
17.075
i8
9 55 40.23
3.3018
15 24 1.6
15.012
18
II 4040.59
2.1049
2 17 32.7
17.078
19
95758.16
8.2959
15 858.3
15.098
19
II 42 46.83
2.X030
2 0 27.9
X7.080
20
10 0 15.74
3.2902
14 53 49.^
15.183
20
II 44 52.95
2.1011
I 43 23. 1
17.080
21
10 2 32.98
2.3845
14 38 36.4
15.364
21
11 46 58.96
3.0993
I 26 18.3
X7.078
22
10 4 49.88
3.2788
14 23 18. 1
15.345
22
II 49 4.86
3.0976
I 9 13.7
17.075
23
10 7 6.44
3.2733
14 7 55.0
15.483
23
II 51 10.67
2.0960
0 52 9.3
17.071
«4
10 9 22.66
3.3676
N.13 52 27.3
15.499
24
II 53 16.39
2.0946
N. 0 35 5.2
17.065
80 JULY, 1913.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Vin. JULY, 1913. 81
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
82 JULY, 1913. IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ^ AND DECLINATION.
JULY, 1913.
83
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hoar.
Right Asceasioa
for
xMin.
Dediiiatiozi.
for
X Mixi.
Hour.
Right Atcexuion.
for
X Min.
DedixiatloxL
for
xMixu
MC
)NDA^
f 21.
WEDNESDAY 23.
'
h m •
8
• » n
«*
h m 8
s
Of m
M
O
22 27 40.67
z.8i8a
S.ii 38 13.2
13.17a
0
23 52 13.24
i.73aa
S. 0 35 55.9
14.14a
z
22 29 29.66
1.8x48
II 25 1.7
X3.azx
I
23 53 57.17
i.73«a
0 21 47.3
14.145
2
22 31 18.45
Z.81Z4
II II 47.9
i3.a48
2
23 554i.ll
x.73a3
S. 0 7 38.5
14.148
3
2a 33 7.03
1.806X
10 58 31.9
X3.a84
3
23 57 25.05
1.7384
N. 0 6 30.5
14.150
4
22 34 55.42
1.8048
10 45 13.8
x3.sao
4
23 59 9.00
1.7387
0 20 39.5
14.150
5
22 36 43.61
1.80x7
10 31 53.5
13.355
5
0 0 52.97
1.7331
03448.5
14.150
6
22 38 31.6a
X.7986
10 18 31.2
13.388
6
0 2 36.97
1.7335
048 57.5
14.150
7
22 40 19.44
1.7955
10 5 6.9
i3.4aa
7
0 4 20.99
1.7SS9
I 3 6.5
14.150
8
22 42 7.08
J.79«5
9 51 40.6
13.455
8
0 6 5.04
1.7345
I 17 15.5
X4.X48
9
22 43 54.54
X.7896
9 38 12.3
13.487
9
0 7 49-13
1.735a
1 31 24.3
14.145
lO
22 45 41.83
X.7868
9 24 42.2
13.517
10
0 9 33.26
1.7358
I 45 32.9
14.14a
II
22 47 28.95
X.7840
911 10.3
13.547
II
0 II 17.43
1.7366
I 59 41.4
14.139
13
22 49 15.91
1.78x3
8 57 36.6
13.576
12
0 13 1.65
1.7375
2 13 49.6
14.134
13
22 51 2.71
1.7787
8 44 1.2
13.604
13
0 14 45-93
1.7384
2 27 57.5
14.189
J4
22 5a 49.35
X.776X
8 30 24. 1
X3.63a
14
0 16 30.26
1.7394
242 5.1
14.183
15
22 54 35.84
1-7736
8 16 45.3
13.659
15
0 18 14.66
1.7405
2 56 12.3
14.117
i6
22 56 22.18
1.771a
8 3 5.0
13-685
16
0 19 59.12
1.7417
3 10 19.2
X4. XXX
17
22 58 8.38
X.7668
7 49 23. 1
13.711
17
0 21 43.66
1.7430
3 24 25.6
X4.1C3
i8
22 59 54.44
1.7665
7 35 39.7
13.735
18
0 23 28.28
1.7443
33831.5
14.094
19
23 I 40.36
1.7643
7 21 54.9
13.759
19
0 25 12.98
1.7457
3 52 36.9
14.085
20
23 3 26.15
X.769S
7 8 8.6
13.78a
20
0 26 57.77
1.747a
4 641.7
X4.076
21
23 5 11.82
x.76o3
6 54 21. 0
13.804
21
0 28 42.65
1.7488
4 20 46.0
X4.066
22
23 6 57.37
1.758a
6 40 32.1
X3.8a6
22
0 30 27.6a
1.7504
4 34 49.6
14.054
23
23 8 42.80
1.756a
S. 6 26 41.9
13.847
23
0 32 12.70
i.75aa
N. 4 48 52.5
14.04a
TU]
ESDA
Y 22.
THl
IRSD/
IY24.
O
23 10 28. II
1.754s
S. 6 12 50.4
13.867
0
0 33 57.88
1.7540
N. 5 2 54.6
i4.oa9
I
23 12 13.31
i.75a5
5 58 57.8
13.887
I
03543-18
1.7559
5 16 56.0
14.017
2
23 13 58.41
1.7509
5 45 4.0
13.906
2
037 28.59
1.7578
5 30 56.6
14.003
3
23 15 43.42
1.7493
531 9.1
13.923
3
0 39 14.12
1.7598
5 44 56.3
13.988
4
23 17 28.33
1.7477
5 17 13.2 X3.941
4
0 40 59-77
1.7680
5 58 55.2
13.973
5
23 19 13.14
1.7468
5 3 16.2 i 13.957
5
0 42 45.56
1.764a
6 12 53.1
13.957
6
23 20 57.87
1.7447
4 49 18.3
13.973
6
0 44 31.48
1.7665
6 26 50.0
13.940
7
23 22 42.51
1.7434
4 35 19.4
13.989
7
046 17.54
1.7689
6 40 45.9
13.988
8
23 24 27.08
x.74aa
4 21 19.6
14.003
8
048 3.75
1.7714
6 54 40.7
13.904
9
23 26 11.57
1.7410
4 7 19.0
14.0x7
9
0 49 50. 1 1
1.7739
7 8 34.4
X3.886
lO
23 27 56.00
1.7399
3 53 17.6
X4.030
10
0 51 36.62
1.7765
7 22 27.0 13.867
II
23 29 40.36
1.7389
3 39 15-4
14.042
II
0 53 23.29
1.779a
7 36 18.4
X3.846
12
23 31 24.67
1.7380
3 25 12.5
14.054
12
0 55 10.12
I. 7819
7 50 8.5
13.884
13
23 33 8.92
1.7370
3 II 8.9
14.065
13
0 56 57.12
1.7848
8 3 57.3
13.80a
14
23 3453."
1.736a
2 57 4.7
14. 076
14
0 58 44.30
1.7877
8 17 44.8
13.780
15
23 36 37.26
1.7355
2 42 59.8
14.086
15
I 0 31.65
1.7907
8 31 30.9
13.757
i6
23 38 21.37
1.7348
2 28 54.4 1 X4.094
16
I 2 19.19
1.7938
8 45 15.6
13.733
17
2340 5.44
1.734a
2 14 48.5
14. 103
17
I 4 6.91
X.7970
8 58 58.9
13.708
i8
23 41 49-47
1.7337
2 0 42. 1
14. I 10
18
I 5 54.83
1.8003
9 12 40.6
13.683
19
23 43 33.48
1.733a
I 46 35.3
14. "7
19
I 742.95
1.8037
9 26 20.8
13.657
20
23 45 17.46
i.73a8
I 32 28.0
I4.xa4
20
I 9 31.27
X.8070
9 39 59-4
13.629
21
23 47 1-42
i.73a6
I 18 20.4
X4.X29
21
I II 19.79
X.8105
9 53 36.3
X3.601
22
23 48 45.37
i.73«4
I 4 12.5
14.134
22
I 13 8.53
1.814a
10 7 II. 5
13.57a
23
23 50 29.31
i.7S«3
050 4.3
14.138
23
I 14 57.49
I. 8178
10 20 45.0
13.54a
24
23 52 13.24
i.73aa
S. 0 35 55.9
14.14a
24
I 16 46.67
x.8axs
N.io 34 16.6
13.518
84
JULY, 1913.
GREENWICH MEAN TIME.
XI.
Hour.
O
I
2
3
4
5
6
7
8
9
zo
II
12
13
H
15
i6
17
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
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Right Ascension.
Diff.
for
I Min.
Declination.
Diff.
for
X Min.
FRIDAY 25.
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
m
16 46.67
18 36.07
20 25.71
22 15.58
24 5.70
25 56.06
27 46.67
29 37.54
31 28.67
33 20.07
35 11.74
37 3.68
38 55.90
40 48.41
42 41.21
44 34.30
46 27.69
48 21.39
50 15.39
52 9.71
54 4.35
55 59.31
57 54.59
59 50.21
I 46.17
3 42.47
539.11
7 36.10
9 33.45
II 31.15
13 29.22
15 27.66
17 26.47
19 25.66
21 25.23
23 25.18
25 25.52
27 26.26
29 27.39
31 28.93
2 33 30.87
2 35 33.22
2 37 35.99
2 3939.17
2 41 42.78
2 43 46w8i
2 45 51.27
2 47 56.16
2 50 1.48
s
.82x5
.8253
.8292
.833a
.8373
.8414
.8457
.8500
.8544
.8589
.8634
.8680
.8728
.8776
.8824
.8873
.8914
.8975
.9027
.9080
.9133
.9187
.924a
.9298
N.
N.
SATURDAY
.9355
.9412
.9469
.9528
.9588
.9648
.9709
.9771
.9833
.9897
.9960
2.0024
2.0090
2.0156
3.0223
2.0290
a. 0358
2.0427
2.0496
2.0566
2.0637
2.0706
2.0779
2.0851
2.0923
N.
34 16.6
47 46.4
I 14.3
14 40.2
28 4.2
41 26.1
54 45.9
8 3.5
21 18.9
3432.1
47 43-0
051.5
13 57.5
27 i.o
40 2.0
53 0.5
5 56.3
18 49.3
31 39.6
44 27.1
57 II. 7
9 53.3
22 32.0
35 7.6
26.
5
6
6
6
6
6
7
7
7
7
7
8
8
8
8
8
9
9
9
9
9
9
20
20
N.20
47 40.0
0 9.2
12 35.2
24 57.9
37 17.2
49 33. 1
1 45.4
13 54-1
25 59.2
38 0.6
49 58.2
I 52.0
13 41.8
25 27.6
37 9.3
48 46.9
o 20.2
II 49.3
23 14.0
34 34.3
45 50.0
57 I.I
8 7.6
19 9.3
30 6.2
13.5"
X3.481
13.448
13.4«6
13.382
13.347
X3.3ia
13.875
13. 838
X3.201
13.162
X3.iai
13.079
13.038
12.996
12.952
ia.907
Z2.86I
12.8x5
xa.767
X3.718
12.669
Z2.619
12.567
".513
12.460
12.406
ia.350
12.293
12.235
It. 175
Z2.IZ5
18. 054
11.99a
IX. 928
XX.863
XI.797
XX.729
iz.66z
IX.59X
XI. 520
11.448
11.375
XX. 300
XI. 323
n.147
IX.068
10.988
X0.907 I 24
Hour.
Right AscensiML
Diff.
for
X Min.
DecUnatioa.
Diff.
for
z Min.
SUNDAY 27.
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
h
2
2
2
2
2
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
m
50
52
54
56
58
o
2
4
7
9
II
13
15
17
20
22
24
26
28
31
33
35
37
40
s
1.48
7.24
13.44
20.09
27.19
34.73
42.73
51.19
o.io
9.48
19.32
29.63
40.40
51.65
3.37
15.56
28.23
41.38
55.00
9. 1 1
23.70
38.77
54.33
10.37
8
3.0923
a.0997
3.XO7X
3.XX46
2.I320
2.X29S
t.x37a
a. 1448
2.X524
2.X603
2.1679
a.X737
2.X835
2.1914
a. 1993
2.2073
3.3x51
3.393X
8.33IX
3.2393
3.2473
2.255a
3.3633
2.2714
N.20
20
20
21
21
21
21
21
21
22
22
22
22
22
22
23
23
23
23
23
23
23
24
N.24
30 6.2
40 58. 1
51 45.1
2 37.0
13 3.8
23 35.3
34 1.4
44 22.2
54 37-5
447.2
14 51.2
2449.5
34 41.9
44 28.4
54 8.9
343.3
13 11.5
22 33.4
31 48.9
40 58.0
50 0.5
58 56.3
7 45.4
16 27.7
MONDAY 28.
3 42 26.89
8.2795
N.24 25 3.0
3 44 43.91
3.2876
24 33 31.3
3 47 1.41
3.2957
24 41 52.5
3 49 19.39
a. 3038
24 50 6.5
3 51 37.86
2.3119
2458 13. 1
3 53 56.82
2.3200
25 6 12.3
3 56 16.26
a. 3280
25 14 4.1
3 58 36.18
a. 3361
25 21 48.3
4 056.59
3.3443
25 29 24.8
4 3 17.48
2.3522
25 36 53.5
4 538.85
3.3602
25 44 14-3
4 8 0. 70
2.3682
25 51 27.1
4 10 23.03
2.3768
25 58 31.9
4 12 45.84
3.3841
26 5 28.5
415 9.12
a. 3919
26 12 16.9
4 17 32.87
2.3998
26 18 56.9
4 19 57.09
2.4076
26 25 28.4
4 22 21.78
3.4133
26 31 51.3
4 24 46.93
3.4231
26 38 5.6
4 27 12.55
2.4308
26 44 II. 2
4 29 38.62
a.4383
26 50 7.9
432 5.14
a. 4458
26 55 55.7
43432.12
a. 4533
27 I 34-5
4 36 59.54
2.4608
27 7 4.2
4 39 27.41
3.4682
N.27 12 24.6
I XO.907
10.824
10,741
X0.656
10.569
xo.4$o
10.391
10.301
xo.208
XO.XX4
XO.OX9
9.932
9.8*4
9.735
9-604
9.5M
9.418
9.3x2
9.305
9.097
8.9K
8.874
8.76a
8.6c
8.530
8.412
8.393
8.173
8.04S
7.9*5
7.8CO
7. 671
7.543
7.4«
7. ate
7.147
7.01a
6.875
6.7S7
6.596
6.453
6. 3 to
6.IG6
6.019
5.87X
5.7a«
5'STt
5.4 X?
5.3«3
XU. JULY, 1913. 85
GREENWICH MEAN TIME.
THE MOON'S RIGHT AND DECLINATION.
86
AUGUST, 1913.
AT GREENWICH APPARENT NOON.
Day of
Z^
Q
I
2
3
Week.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
4
5
6
Thur.
Fri.
Sat.
7
8
9
SUN.
Mon.
Tues.
lO
II
12
Wed.
Thur.
Fri.
13
14
15
Sat.
SUN.
Mon.
i6
i8
Tues.
Wed.
Thur.
19
20
-21
Fri.
Sat.
SUN.
22
23
24
Mon.
Tues.
Wed.
25
26
27
Thur.
Fri.
Sat.
SUN.
28
29
30
31
Mon.
32
THE SUN'S
Apparent Right
Ascension.
m
8 44 8.44
848 1.48
851 5391
8 55 45.72
8 59 36.92
9 327.50
9 7 17.47
911 6.83
91455-59
91843.74
9 22 31.29
9 26 18.26
930 4.66
9 33 50.49
9 37 35.77
941 20.51
9 45 4.73
9 48 48.43
95231.64
9 56 14.36
9 59 56.61
10 338.41
10 7 19.77
10 II 0.70
10 1441.22
10 18 21.34
1022 1.08
10 25 40.45
1029 19.47
1032 58.14
10 36 36.48
1040 14.50
Diff. for
X Hour.
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
723
697
671
645
620
594
569
544
519
494
469
445
421
398
375
353
332
311
290
270
251
232
214
197
180
164
148
133
118
104
091
9.078
Apparent De<di-
nation.
ft
N.
8 7 14.1
752 4.7
7 36 37.9
7 20 53.8
7 452.8
6 48 35.3
632 1.5
6 15 11.8
558 6.6
54046.1
5 23 10.7
5 5 20.6
447 16.1
4 28 57.6
41025.3
3 51 39.5
3 32 40.5
3 13 28.6
254 4.1
2 34 27.3
2 14 38.6
I 5438.1
I 34 26.2
I 14 3.2
o 53 29.4
03245.1
on 50.6
9 50 46.2
9 29 32.4
9 8 9.5
8 46 37.8
N. 8 24 57.6
Diff. for
X Hour.
//
-37.52
38.25
38.98
-39-69
4039
41.07
-41.74
42.40
43.04
■43.67
44.28
44.88
-45-48
46.06
46.63
■47-19
47.73
48.26
-48.78
49.28
49.78
-50.26
50-73
51.18
-51.62
52.06
52.48
-52.88
53-26
53.63
54-00
-54-35
Semidiaxn-
eter.
//
1547.42
1547.54
1547.67
1547.81
1547.95
15 48.10
1548.25
1548.40
15 48.55
1548.71
1548.88
1549.05
1549.22
1549.40
1549-58
1549.76
1549.94
15 50.12
1550.30
1550.49
1550.68
15 50.87
1551.07
1551.27
1551.47
1551.67
1551-88
1552.09
1552.30
1552.52
15 52.74
15 52.97
Sidereal
Time of
Semidi-
ameter
Passing
Me-
ridian.
66.64
66.55
66.46
66.37
66.28
66.19
66.11
66.02
65-94
65.86
65.78
65.70
65.62
65-54
65-46
65.38
65-31
65.23
65.16
65.09
65.02
64.95
64.88
64.82
64.76
64.70
64.64
64-58
64.53
64.48
64.43
64.38
Equation of
Time, to be
Added to
Apparent
Time.
tn »
6 10.32
6 6.80
6 2.68
5 57.96
5 52.62
5 46.66
5 40.09
5 32.91
5 25.13
5 16.75
5 7-77
4 58.21
4 48.08
4 37.38
4 26.14
4 14.36
4 2.06
3 49.25
3 35.94
3 22.14
3 7.87
2 53.15
2 38.00
2 22.42
2 6.43
I 50.03
I 33.26
I 16.13
o 58.64
o 40.81
o 22.65
o 4.17
NoTS. — ^The mean time of semidiametcr passiug the meridian may be found by subtracting o*.x9 fi
sidereal time.
The sign — prefixed to the hourly chaxige of dedixiation indicates that north declixiations are dec
II.
AUGUST, 1913.
AT GREENWICH MEAN NOON.
87
Day of
the
V/cek.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
.a .
o a
Q
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
THE SUN'S
Api>areiit RJ^ht
Ascension.
am s
8 44 7.44
8 48 0.48
8 51 52.93
8 55 44.76
8 59 35.98
9 3 26.58
9 7 16.57
9 II 5.95
9 14 54-73
9 18 42.90
9 22 30.48
9 26 17.48
9 30 3.91
9 33 49.77
9 37 35.08
9 41 19.85
9 45 4.10
9 48 47.84
9 52 31.08
9 56 13.84
9 59 56.13
10 3 37.97
10 7 19.37
10 II 0.34
10 14 40.90
10 18 21.06
10 22 0.84
10 25 40.26
10 29 19.32
10 32 58.04
10 36 36.43
10 40 14.50
Diff. for
z Hoot.
9
9
723
9
698
9
672
9
.646
9
.621
9
•595
9
570
9
■545
9
.520
9
495
9
470
9
446
9
423
9
400
9
■377
9
355
9
333
9
312
9
.292
9
.272
9
■253
9
234
9-
216
9
199
9
.182
9
.166
9
150
9
135
9
120
9
106
9
093
9'
080
Apparent Decli-
nation.
ft
N.
8 7 18.0
7 52 8.6
7 36 41.8
7 20 57.7
7 4 56.7
6 48 39.2
6 32
6 15
5 58
5.4
15.7
10.5
5 40 50.0
5 23 14.5
5 5 24.3
4 47 19.7
4 29 I.I
4 10 28.7
3 51 42.8
3 32 43.7
3 13 31.7
2 54 7.0
2 34 30.1
2 14 41.2
I 54 40.5
I 34 28.4
I 14 5.2
o 53 31.2
o 32 46.7
on 5?.o
9 50 47.4
9 29 33.3
9 8 lo.i
8 46 38.0
N. 8 24 57.4
Diff. for
I Hour.
ff
■37.52
38.25
38.98
-39.69
40.39
41.07
-41.74
42.40
43.04
-43-67
44.29
44.89
-45-48
46.06
46.63
h-47-i9
47.73
48.26
-48.78
49.29
49-79
1-50.27
50.74
51.19
-51.63
52.07
52.49
-52.89
53.28
53.65
54.01
-54.36
Bcfuation of
Time to be
Subtracted
from
Mean Time.
m
s
6 10.33
6 6.82
6 2.70
5 57-98
5 52.64
5 46.69
5 40.12
5 32.94
5 25.16
5
5
4
16.78
7.80
58.24
4 48.11
4 37.42
4 26.18
4 14.40
4 2.09
3 49.27
3 35.96
3 22.17
3 7.90
2 53.18
2 38.02
2 22.44
2 6.45
I 50.05
I 33.28
I 16.14
o 58.65
o 40.82
o 22.65
o 4.16
Diff. for
I Hour.
s
0.134
0.159
0.184
0.210
0.235
0.261
0.286
0.312
0.337
0.362
0.386
0.410
0.434
0.457
0.480
0.502
0.523
0.544
0.565
0.585
0.604
0.622
0.640
0.658
0.675
0.691
0.706
0.721
0.736
0.750
0.764
0.777
N0T8. — The semidiameter for mean noon may be asstuned the same as that for apparent noon.
Tlic sicn -' prefixed to the hourly chance of declination indicates that north declina
tions are decreasing.
Sidereal Time,
or Right Ascen-
sion of Mean
Sim.
m
s
8 37 57.11
8 41 5367
8 45 50.22
8 49 46.78
8 53 43.34
8 57 39.90
9 I 36.45
9 5 33.01
9 9 29.56
9 13 26.12
9 17 22.68
9 21 19.23
9 25 15.79
9 29 12.34
9 33 8.90
9 37 5.46
9 41 2.01
9 44 58.57
9 48 55.12
9 52 51.68
9 56 48.23
10 o 44.79
10 4 41.34
10 8 37.90
10 12 34.45
10 16 31.01
10 20 27.56
10 24 24.12
10 28 20.67
10 32 17.22
10 36 13.78
10 40 10.33
Diff. for I Hour.
+9*.8s65.
(Table III.)
88
AUGUST, 1913.
in.
AT GREENWICH MEAN NOON.
h
1.
•sg
i>
P
p
I
213
2
214
3
215
4
5
6
7
8
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
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
THE SUN'S
True Longitude.
ff
28 36 27.0
29 33 53.8
30 31 21.5
31 28 50.1
32 26 19.6
33 23 49.8
34 21 20.8
35 18 52.6
36 16 25.1
37 13 58.5
38 II 32.7
39 9 7.9
40
41
42
6 44.1
4 21.3
I 59-6
42 59 39.1
43 57 20.0
44 55 2.2
45 52 45.8
46 50 30.9
47 48 17.6
48 46 6.0
49 43 56.0
50 41 47.7
51 39 41-2
52 37 36.5
53 35 33.6
54 33 32.6
55 31 33.4
56 29 36.0
57 27 40.3
58 25 46.3
ff
35 55-6
33 22.2
30 49.8
28 18.2
25 47.5
23 17.6
20 48.5
18 20.1
15 52.5
13 25.7
10 59.8
8 34.8
6 10.8
3
I
47.9
26.1
59 5.5
56 46.2
54 28.2
52 11.7
49 56.7
47 43.3
45 31.5
43 21.4
41 130
39 6.3
37 1.5
34 58.5
32 57.3
30 58.0
29 0.5
27 4.7
25 IO-5
Diff. for
X Hour.
//
4360
43.63
43.67
43.71
43.75
43.78
43.81
43.84
43.87
43.91
43.95
43-99
44.03
44.07
44.12
44.17
44-23
44.29
44-35
44.41
44.48
44-55
44.62
44.69
44.76
44.84
44.91
44.99
45.06
45.14
45.21
145.28
Latitude.
//
+ 0.25
0.16
+ 0.05
— 0.07
0.20
0.34
-0.47
0.60
0.70
— 0.76
0.79
0.80
-0.78
0.74
0.67
-0.57
0.45
0.32
— 0.20
— 0.08
+ 0.04
+ 0.15
0.24
0.31
+ 0.36
0.37
0.35
+ 0.31
0.24
+ 0.13
0.00
-0.13
Logarithm of the
Radius Vector of
the Earth.
0.006 4069
0.006 3500
0.006 2906
0.006 2287
0.006 1645
0.0060980
0.006 0293
0.005 9586
0.005 8861
0.005 8120
0.005 7364
0.005 6593
0.005 5810
0.005 5015
0.005 4210
0.005 3394
0.005 2567
0.005 1730
0.005 0883
0.005 0026
0.004 9158
0.004 8279
0.004 7388
0.004 6485
0.004 5569
0.064 4639
0.004 3693
0.004 2731
0.004 1752
0.004 0755
0.003 9740
0.003 8706
DiflF.for
I Hour.
-23.3
24-3
25.3
-26.3
27.2
28.1
—29.0
29.8
30.5
-31.2
31.8
32.4
-32.9
33.4
33.9
-34.3
34-7
35.1
-35.5
35-9
36.4
-36.9
37.4
37.9
-38.5
39.1
39.7
-40.4
41.2
41.9
42.7
-43.5
Mean Time of
Sidereal Noon.
h m s
5 19 31.83
5 15 35.92
5 II 40.01
5 7 44.10
5 3 48.19
4 59 52.28
4 55 56.37
4 52 0.46
4 48 4.55
4 44 8.64
4 40 12.73
4 36 16.82
4 32 20.91
4 28 25.00
4 24 29.09
4 20 33.18
4 16 37.27
4 12 41.36
4 8 45.45
4 4 49.54
4 o 53.63
3 56 57.72
3 53 1.81
3 49 5.90
3 45 10.00
3 41 14.09
3 37 18.18
3 33 22.27
3 29 26.36
3 25 30.45
3 21 34.54
13 17 38.63
NOTB. — ^The longitudes in the column X 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 Besselian fictitious year.
Diff. for X
(Table n.)
AUGUST, 1913.
GREENWICH MEAN TIME.
89
THE MOON'S
^MIDIAMETER.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGE.
•on.
ff
22.6
31-4
35-9
357
31-2
23.2
12.7
0.9
48.8
37-1
26.4
16.8
8.4
1-3
55-4
50.6
47.1
450
44-5
45-7
48.9
54-4
2.3
12.6
25.1
39-5
550
10.4
245
35-6
42.4
440
Midnight.
Noon.
6
6
6
6
//
It
6 27.5
6 34.2
6 36.4
6 34.0
6 27.6
6 18.1
6 6.9
5 54.8
5 42.8
5 31.6
5 21.4
5 12.5
5 4-7
4 58-2
4 52.8
4 487
4 45-9
4 44-6
4 44.9
4 470
4 51.4
4 58.0
5 71
5 18.6
5 32.1
5 47.2
6 2.8
17.7
305
39-6
43.9
16 42.8
60 0.35
60 32.59
60 49. 1 1
60 48.54
60 31.96
60 2.35
59 23.77
58 40.50
57 56.13
57 13.38
56 33-99
55 58.79
55 28.13
55 1.96
5440.17
54 22.81
54 10.02
54 2.26
54 0.20
54 4-68
54 16.56
54 36.67
55 5.57
55 43.34
56 29.39
57 22.16
58 18.91
59 15-65
60 7.22
60 48.03
61 12.99
61 18.90
Diff. for
I Hour.
n
+ 1.628
I 033
+0.333
-0.372
0.987
1. 45 1
-1-733
1.848
1.831
—1.720
1.557
1.372
-1. 183
0.998
0.816
—0.629
0432
— o 211
+0.045
0.334
0.662
+1.018
1.390
1-754
+2.074
2.307
2.396
+2.296
1.964
1.400
+0.658
—0.17 1
Midnight.
//
60 18.26
60 42.96
60 50.94
60 42.10
60 18.55
59 43.90
59 2.47
58 18.26
57 34.42
56 53.20
56 15.83
55 42.89
55 14.49
54 50.52
54 30.93
54 15.82
54 5.48
54 0.46
54 1.57
54 9.64
54 25.54
54 50.00
55 23.36
56 5.40
56 55.08
57 50.26
58 47.58
59 42.43
60 29.32
61 2.74
61 18.44
61 14.39
DifiF. for
I Hour.
Meridian of
Greenwich.
//
+I-350
+0.691
-0.025
—0.696
1. 241
1.615
—1.809
1.854
1.784
—1.642
1.468
1.277
—1.090
0.907
0.723
-0-533
0.324
-0.087
+0.185
0.494
0.837
+1.204
1-574
1. 921
+2.204
2.371
2.373
+2.160
1. 710
1.047
+0.248
.578
m
O
I
I
2
3
7
8
9
o
I
4
4
5
6
7
7
8.4
5.2
58.5
49.1
38.4
4 27.7
5 18.3
6 10.9
5.6
1.7
8 57.7
51.8
42.9
30.4
2 14.4
2 55.7
3 35.2
13.8
52.8
33.0
15.8
2.2
53.0
8 48.4
9 47.7
48.8
20
21 49.6
22 48.0
23 43.4
6
o 36.2
Diff. for
X Hour.
m
• •
2.45
2.30
2.16
2.07
2.05
2.08
2.15
2.24
2.32
2.35
2.31
2.20
2.05
I.91
1.77
1.68
1.62
1. 61
1.64
1.72
1.85
2.02
2.21
2.40
2.52
2.55
2.49
2.37
2.25
2.16
Noon.
d
28.3
29.3
I.O
2.0
3.0
4.0
5.^
6.0
7.0
8.0
9.0
1 0.0
II.O
12.0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20.0
21.0
22.0
23.0
24.0
25.0
26.0
27.0
28.0
29.0
0.6
90 AUGUST, 1913.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
I VI. ArOUST, 1913. 91
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
92 AUGUST, 1913. VIL
GRBBNWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
VIII. AUGUST, 1913.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
94 AUGUST, 1913. IX.
GREENWICH MEAN TIME.
THE MOON-S RIGHT ASCENSION AND DECLINATION.
AUGUST, 1913. 95
G MEAN TIMR
THE MOON'S RIGHT ASCENSION AND DECLINATION.
96
AUGUST, 1913.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
5" >-33
5 24 32-23
527 3-44
5 ag 34-96
5 32 6.78
5 34 38-89
5 37 'I-29
5 39 43-96
542 (6.91
5 44 50-"
5 47 33-58
5 49 57-29
5 52 31-24
5 55 5-42
5 57 39-82
6 o 14.44
6 5 34. 3S
6 7 59.48
- 034.87
6 13 10.43
1546.15
6 le 32.02
LJOIJ
N.2S 2049.1
1.U9
0
,.y«
a8 23 24-2
S.JD.
I
28 25 49.3
*JI7«
28 28 4.1
1.161
3
..J«i8
2830 8.7
1.991
4
«.S«78
28 32 3.0
5
>.53»7
28 33 46.9
■ .S44
6
J.S376
28 35 20.3
1-4*!.
7
28 36 43.3
i.iW
8
«.m68
28 37 55.6
9
28 38 57.4
0.9tl
i.sjjs
28 39 48-5
o.rti
>.i»8
28 40 28.8
0.583
I.56J8
z8 40 58.4
..S677
2841 '7-'
o.ni
28 41 24.9
to.039
3841 21.8
«-37ar
2841 7-7
a.jSw)
28 40 42. 6
0.SII
a-SBja
28 40 6.3
o.69r
».SS»3
38 39 19.0
(hSSl
28 38 20.5
1.068
1.5940
28 37 10.9
I.IM
«.»66
28 35 50.0
1-441
l.JSSi
N.38 34 17-9
I.t«
24 1
7 21 4-71
1.6tM
IN. 37 033.4
6.
7 23 41-40
i-eios
36 54 4.6 1 6.
7 36 18.01
1.60M
26 47 35-5 ' «■
7 28 54.53
t.6o,S
36 40 55.0 1 6,
7 31 30-95
i.eo6i
26 34 3.2 ! 6.
7 34 7-a6
1.6043
36 37 0.2 ; 7.
7 36 43-45
1.6MJ
26 19 46. 1 1 J.
7 39 19-54
1.6001
36 13 20.8 7.
7 41 55-49
1.S9B0
26 4 44-4 7.
7 44 31-30
1.JM6
25 56 56.9 1 ?■
7 47 6-96
1.M3I
35 48 58.4 ' 8,
7 49 42.47
1-59=6
35 40 48.9 8-
7 52 17-83
i.)879
35 32 28.4
8,
7 54 53- "2
i.j8io
35 23 57-0
8.
7 57 28-03
1.JB1.
35 15 14.9
8 0 2.87
l-3?9'
35 6 21.9
a.
8 2 37-53
34 57 18.2
8 511.98
34 48 3-9
9-
8 746.24
l.)693
34 38 39.0
9
8 10 ao.30
1.S659
24 39 3.6
9-
81254-15
1.S611
34 19 17-7
»
8 15 27-78
1.S3S7
34 9 a>-4
10
8 18 1.20
23 59 »4-8
8 30 34.39
i.JS'l
23 48 57-9
■0
833 7-35
"■S474
N.33 38 30.9
10
xn.
AUGUST, 1918.
97
GREENWICH MEAN TIME. '
THE
MOON'S RIGHT ASCENSION AND DECLINATION,
Diff.
Diff.
Diff.
Diff.
Hoor^
Rl^bt Ascension.
for
Declinstion.
for
Hour.
Right Aaceoaioo.
for
Declination.
for
I Min.
xMin.
X Min.
I Min.
FF
MDAY
39-
SUNDAY
. 31.
h m s
1 •
0 « m
M
h m a
B
• » •»
m
O
8 33 7.35
a. 5474
N.23 38 30.9
XO.534
0
10 20 11.96
3.3*94
N.I2 28 21.9
16.683
I
8 25 40.08
3.S43S
33 «7 53.8
10.70a
I
10 23 31.60
a. 3353
12 II 38.5
X6.763
2
8 28 12.57
a.S994
23 17 6.6
10.869
2
10 24 50.99
a.33xa
IX 54 50.4
16.84X
3
8 30 44.81
3.5353
23 6 9.5
XX. 033
3
10 27 10.14
3.3x7a
II 37 57.6
16.917
4
8 33 16.81
a.53ia
22 55 2.6
XX.X97
4
10 29 29.05
3.3x33
II 21 0.4
X6.99O
5
8 35 48.56
a.3271
22 43 45-8
XI. 360
5
xo 31 47.73
3.3093
II 3 58.8
17.061
6
8 38 20.06
s.5sa8
22 32 19.4
11.530
6
1034 6.17
3.3055
10 46 53.0
X7.X3X
7 ,
8 40 51.30
3.5x84
22 20 43.4
XX. 679
7
10 36 24.39
a. 3018
10 29 43. 1
17.198
8 '
8 43 22.27
8.5x40
22 8 57.9
XI. 837
8
10 38 42.38
2.3981
10 12 29.3
X7.383
9
8 45 52.98
a. 5097
21 57 2.9
XX.993
9
10 41 0.16
2.3944
9 55 II. 6
X7.336
ID
1
8 48 23.43
a. 5053
21 44 58- 7
X3.X48
10
1043 17.71
3.1908
9 37 50-3
17.387
II '
8 50 53-61
a. 5007
21 32 45.2
ia.303
II
10 45 35.05
3.3873
9 20 25.2
X7.446
22 1
8 53 23-51
a.496x
21 20 22.5
xa.453
12
1047 52.19
3.2839
9 2 56.7
17. 30s
»3
8 55 53.14
a.4915
21 7 50.8
xa.603
13
10 50 9.12
a.«Bo5
8 45 24.9
«7.337
14
8 58 22.49
9.486I
30 55 10. 1
xa.753
14
10 52 25.85
a.3773
8 27 49.9
X7.fc9
15
9 0 51.56
s.48ia
20 42 30.6
X8.898
^5
10 54 42.38
3.3739
8 10 IX.8
17.659
i6
9 3 «o.35
a.4775
20 29 22.4
X3.043
16
10 56 58.72
3.3708
7 52 30.8
X7.707
17
9 548.86
a.47a*
20 16 15.5
X3.X86
17
10 59 14.87
3.3677
7 34 47.0
X7.753
• i8
9 8 17.09
8.4661
20 3 0. 1
13.338
18
XI I 30.84
3.3647
7 17 0.5
X7.796
19
9 10 4503
a.4<«3S
19 49 36.2
X3.468
19
XI 346.63
3.16x8
659 11.5
17.837
20
9 13 12.69
t.458«
19 36 4.0
X3.605
20
II 6 2.25
3.3588
6 41 20.0
X7.877
21
9 15 40.06
a. 4538
19 22 23.6
X3.74X
21
II 8 17.69
3. 3560
6 23 26.3
17.9x3
2S
9 18 7.14
a.4489
19 835.1
13.876
33
II 10 32.97
3.3533
6 530.4
17.948
as
9 20 33-93
3.4443
N.18 54 38.5
X4*oo6
33
II 12 48.09
3.3507
N- 5 47 32.5
17.983
SAT
URD>^
.Y 30.
MONE
)AY. SEPT. 1.
0
9 23 0.44
2.43P4
N.18 40 34.1
I4.X38
0
" 15 3.05
3.3481
N. 5 29 32.6
X8.0XI
I
2
9 25 26.66
9 27 53.59
3.4346
8.439B
18 26 21.9
18 12 2.0
X4.a68
X4.39S
5
9 30 18.23
3.4t49
175734.5
X4.530
PHASES
OF T
HE MOON.
4
9 33 43- 5B
9 35 8-64
a. 4301
17 42 59.6
17 28 17.4
X4.643
X4.764
5
•.4153
6
9 37 33-43
3.4100
17 13 37.9
X4.893
d h m
7
9 39 57. 9X
S.40S8
z6 58 31.4
X5.000
%
New Moon
• •
Aug. 2 0 58.1
8
9 42 22.12
3.40x1
16 43 37.9
X5.XX6
0 «/
9
9 44 46.04
t.|903
16 28 17.5
X5.3a9
J
First Quart(
er .
. . . 8 i6 3.0
lo
1 9 47 9- 63
9 49 33-03
t.39l«
3.3«69
16 13 0.4
*5 57 36.7
15.340
X5.450
0
Full Moon
16 8 27.0
II
^B V* • ■ •»• ^^ ^^ ^fc*
Last Quartc
jr .
. . . 24 12 17.8
12
1 9 51 56.11
1 9 54 18.91
3.3813
3.3777
1542 6.4
15 26 29.8
15.558
15.663
•
New Moon
. ^i
8 38.1
. . • J »
>5
9 56 41-43
9 59 3.68
•.S73I
15 10 46.9
14 54 57.9
X5.766
^r- ^^ ^—
S.9686
X5.867
i6
10 X 35.66
2.3641
1439 J*-9
X5.968
d h
17
10 3 47-37
3.3596
1423 2.1
16. 06a
c
Perigee . .
• •
. . Aug. 3 II. 2
i8
zo 6 8.81
1.3351
14 6 55.5
X6.X57
c
c
Aoocee .
. 18 20.1
19
10 8 29.98
3.3507
13 5043.3
16.35X
Perigee . .
• •
. . . . 31 I9.I
20
21
10 10 50.89
10 13 11.54
3.3463
3.3430
13 34 35.4
13 18 2.3
16.34X
16.439
22
10 15 31.93
3.3378
13 I 33.9
16.5x6
n
10 17 52.07
3.3336
X3 45 0.4
16.600
H
10 20 11.96
3.3394
N.12 28 21.9
X6.683
19*3 7
98
SEPTEMBER, 1913.
AT GREENWICH APPARENT NOON.
Day of
the
Week.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sdt.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN,
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN,
Men.
Tues.
I
2
3
4
5
6
7
8
9
lO
II
12
13
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
Wed. 31
THE SUN'S
Apparent Right
Ascension.
m
o 40 14.50
04352.22
o 47 29.64
051 6.78
o 54 43.65
o 58 20.27
I 56.65
5 32.82
9 8.80
12 44.60
16 20.24
19 55-75
2331.15
27 6.46
3041.70
34 16.90
37 52.08
41 27.27
45 2.47
48 37.72
52 13.05
55 4^47
59 24.00
2 59-66
2 635.48
2 10 11.48
2 1347.67
2 17 24.07
221 0.70
2 24 37.58
12 28 14.72
Diff. for
X Hour.
8
9.078
9.065
9.053
9.042
9.031
9.021
9.012
9.003
8.995
8.988
8.982
8.977
8.973
8.970
8.968
8.966
8.966
8.967
8.968
8.970
8.973
8.978
8.983
8.989
8.996
9.004
9.012
9.022
9.032
9.042
9.053
Apparent Decli-
nation.
//
N. 8 24 57.6
8 3 9.2
7 41 13-0
7 19 9-4
6 56 58.8
63441.6
6 12 18.1
5 49 48- 5
5 27 13-2
5 432.5
4 41 46.8
4 18 56.3
356 1.3
3 33 2.2
3 959.3
2 46 52.8
2 2343.1
2 030.5
I 37 15.3
I 13 57.8
0 50 38.4
027 17.3
N. o 3 54.8
S. o 19 28.7
042 52.8
1 6 17.2
I 2941.5
1 53 5.4
2 16 28.5
2 39 50.4
S. 3 3 10.7
Diff. for
I Hour.
ff
-54.35
54-68
54.99
-55.29
55.58
55.85
-56.11
56.35
56.58
-56.80
57.00
57.19
-57.37
57.54
5769
-57.83
5796
58.08
-58.18
58.27
58.35
-58.41
58.46
58.49
-58.50
58.51
58.50
-58.48
58.44
58.38
-58.31
Semidiam-
eter.
tf
5 52.97
5 53-20
5 53.43
5 5367
5 53.91
5 54.16
5 54.41
5 54.66
5 54.91
555.16
5 55.42
5 55.67
5 55.93
556.19
5 56.45
5 56.71
556.96
5 57.22
5 57.48
5 57.74
558.00
5 58.26
5 58.53
5 58.79
559.06
5 59.33
5 59.60
5 59.87
6 0.14
6 0.41
16 0.69
Sidereal
Time of
Semidi-
ameter
Passing
Me-
ridian.
64.38
64.34
64.30
64.26
64.22
64.19
64.16
64-13
64.11
64.09
64.07
64.05
64.04
64.03
64.02
64.01
64.01
64.01
64.02
64.03
64.04
64.05
64.07
64.09
64.11
64.13
64.16
64.19
64.22
64.26
64.30
Equation of
Time, to be
Added to
Subtracted
from
Apparent
Time.
m
O
£17,
0 14.62
033.71
053.08
1 12.71
I 32.59
I 52.70
2 13.03
2 33.55
2 54.25
3 15.10
336.09
357.19
4 18.38
4 39.63
5 0.92
5 22.23
5 43.55
6 4.84
6 26.08
6 47.25
7 8.33
7 29.30
750.13
8 10.81
831.31
8 51.62
9 11.72
931.59
951.21
10 10.56
NOTB. — The mean time of semidiamcter passing the meridian may be found by subtracting o".i8 fr
sidereal time.
The sign — prefixed to the hourly change of declination indicates that north declinations are deci
south declinations increasing.
n.
SEPTEMBER, 1913.
AT GREENWICH MEAN NOON.
99
l>ay of
Week.
Q
■
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN,
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN,
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
I
2
3
4
5
6
7
8
9
lO
II
12
13
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
31
THE SUN'S
ApfMrent Rlcht
Ascension.
h m 8
o 40 14.50
o 43 52.26
o 47 29.73
o 51 6.91
o 54 43.83
o 58 20.50
I 5^-93
5 33.15
9 9.18
12 45.03
16 20.72
19 56.28
23 31.73
27 7.10
30 42.40
34 17.65
37 52.88
41 28.12
45 3.38
48 38.68
52 14.06
55 49.53
59 25.11
3 0.83
2 6 36.70
2 10 12.75
2 13 48.99
2 17 25.45
2 21 2.13
2 24 39.06
12 28 16.25
DifF. for
X Hoiff.
s
9.080
9.067
9-055
9.044
9033
9.023
9.014
9005
8.997
8.990
8.984
8.979
8.975
8.972
8.970
8.968
8.968
8.969
8.971
8-973
8.976
8.980
8.985
8.991
8.998
9.006
9.014
9.024
9.034
9.044
9055
Apparent Decli-
nation.
ft
N.
N.
S.
8 24
8 3
7 41 12.4
57.4
8.8
7 19 8.6
6 56 57.7
6 34 40.2
6 12 16.3
5 49 46.4
5 27 10.8
5 4 29.8
4 41 43.7
4 18 52.9
3 55 57.6
3 32 58.1
3 9 54.8
2 46 48.0
2 23 38.0
2 o 25.0
I 37 9.5
I 13 51.6
o 50 31.8
o 27 10.3
o 3 47.5
o 19 36.3
0 43 0.8
1 6 25.5
I 29 50.2
1 53 14.4
2 16 37.8
2 40 0.0
S. 3 3 20.6
Diff.for
1 Hour.
//
•54.36
54.69
55-00
-55.30
55.59
55-86
-56.12
56.37
56.60
-56.82
57.02
57-21
F-57.39
57-56
57-71
■57.85
57.98
58.10
-58.20
58.29
58.36
-58.42
58.47
58.50
-58.52
58.53
58.52
-58.49
58.45
58.39
-58.32
Bquation of
Time to be
Subtracted
from
Added to
Mean Tfane.
m
o 4.16
o 14.63
o 33.72
0 53.09
1 12.72
I 32.61
I 52.73
2 13.06
2 33.59
2 54.29
3 15.15
3 36.14
3 57.24
4 18.43
4 39 69
5 0-99
5 22.31
5 43.63
6 4.93
6 26.17
6 47.35
7 8.44
7 29.41
7 50.25
8 10.93
8 31.43
8 51.74
9 11.84
9 31.71
9 51.34
10 10.70
DifF. for
z Hour.
s
0.777
0.789
0.801
0.813
0.823
0.833
0.843
0.851
0.859
0.866
0.872
0.877
0.881
0.884
0.887
0.888
0.888
0.888
0.886
0.884
0.880
0.876
0.871
0.865
0.858
0.850
0.842
0.833
0.823
0.812
0.801
Sidereal Time,
or Right Ascen-
sion of Mean
Sun.
NOTS. — Tbe 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 north decUna-
tkmf are decreasing: south declinations, increasing.
h m s
o 40 10.33
o 44 6.89
o 48 3.44
o 52 0.00
o 55 56.55
o 59 53.10
3 49.66
7 46.21
II 42.77
15 39.32
19 35.87
23 32.43
27 28.98
31 25.54
35 22.09
39 18.64
43 15.20
47 11.75
51 8.30
55 4.86
59 1. 41
2 2 57.97
2 6 54.52
2 10 51.07
2 14 47.63
2 18 44.18
2 22 40.73
2 26 37.29
2 30 33-84
2 34 30.40
12 38 26.95
Diff . for I Hour.
+9'.8565.
(Table III.)
/U
100
SEPTEMBER, 1913.
ni.
AT GREENWICH MEAN N(X)N.
2^
•3 8
I
2
3
4
5
6
7
8
9
zo
II
12
13
14
15
i6
17
i8
20
21
22
23
24
25
26
27
28
29
30
31
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
19 I 262
263
264
265
266
267
268
269
270
271
272
273
274
THE SUN'S
True Longitude.
n
158 25 46.3
159 23 53.9
160 22 3.0
161 20 13.6
162 18 25.8
163 16 39.4
164 14 54-4
165 13 10.9
166 II 29.0
i$7 9 48.6
168 8 9.8
169 6 32.6
170 4 57.1
171 3 23.4
172 I 51.6
172 60 21.6
173 58 53.6
174 57 27.6
J75 56 3.7
176 54 41.9
177 53 22.3
J78 52 4.9
179 50 49.8
1*0 49 370
181 48 26.4
182 47 18.1
183 46 12. 1
X84 45
185 44
186 43
ff
25 10.5
23 18.0
21 27.0
19 37.5
17 49.5
16 3.0
14 17.9
12 34.4
10 52.3
9 11.7
7 32.8
5 55.5
4 19.9
2 46.2
I 14.2
59 44.1
58 16.0
56 49.9
55 25.9
54 40
52 44.3
51 26.8
50 II. 6
48 58.6
47 47.9
46 39.5
45 33-4
8.3 i 44 29.4
6.6 43 27.6
7.0 , 42 27.9
Diff. for
I Hour.
f*
45-28
45-35
45.41
45.47
45.54
45.60
45.66
45.72
45.78
45.85
45.92
45.99
46.06
46.13
46.21
46.29
46.37
46.46
46.55
46.64
46.73
46.82
46.91
47.01
47.10
47.20
47.30
47.39
47.48
47.56
187 42 9.4 41 30.2 ! 147.64
Latitude.
ff
-0.13
0.27
0.40
-0.53
0.63
0.71
— 0.76
0.78
0.77
-0.73
0.66
0.57
-0.45
0.33
0.21
— 0.09
+ 0.03
0.15
+ 0.26
0.35
0.40
+ 0.42
0.41
0.38
+ 0.31
0.21
+ 0.09
— 0.04
0.18
0.33
— 0.46
Logarithm of the
Radius Vector of
the Earth.
0.003 8706
0.003 7653
0.003 6582
0.003 5495
0.003 4393
0.003 3277
0.003 2150
0.003 1013
0.002 9867
0.002 8715
0.002 7557
0.002 6394
0.002 5228
0.002 4058
0.002 2886
0.002 171 1
0.002 0535
o.ooi 9358
o.ooi 8178
O.OOI 6996
O.OOI 5812
O.OOI 4625
O.OOI 3434
O.OOI 2239
O.OOI 1038
0.000 9831
0.0008616
0.000 7392
0.0006159
0.0004917
0.000 3666
Diff. for
I Hour.
-43.5
44.2
44.9
-45.6
46.2
46.7
-47.2
47.6
47.9
-48.1
48.3
48.5
-48.7
48.8
48.9
-49.0
49.1
49.1
-49.2
49.3
49.4
-49.5
49.7
49.9
-50.2
50.5
50.8
-51.2
51.6
52.0
-52.4
NOT8.«— The longitudes in the column A are referred to the true equinox of their own date,
while those in the column it' are referred to the mean equinox of the beginning of
the Besselian fictitious year.
Mean Time of
Sidereal Noocu
h m s
3 17 38.63
3 13 42.72
3 9 46.82
3 5 50.91
3 I 55-00
2 57 59.09
2 54 3.18
2 50 7.28
2 46 11.37
2 42 15.46
2 38 19.55
2 34 23.64
2 30 27.74
2 26 31.83
2 22 35.92
2 18 40.01
2 14 44.11
2 10 48.20
2 6 52.29
2 2 56.38
I 59 0.47
I 55 4.57
I 51 8.66
I 47 12.75
I 43 16.84
I 39 20.93
I 35 25.03
I 31 29.12
I 27 33.21
I 23 37.30
II 19 41.40
Diff. for X Hour.
(Table II.)
.*.
IV.
SEPTEMBER, 1913.
GREENWICH MEAN TIME.
101
THE MOON'S
SEMIDIAMBTBR.
*
1
2
3
4
5
6
7
8
10
f "
12
H
15
i6
17
\%
30
21
22
H
25
26
J7
2S
39
31
32
Koon.
6
6
6
6
6
//
6 44.0
6 40.3
6 31.8
19.8
5.8
5 51-1
5 36.8
5 239
5 12.6
5 3-3
4 56.0
4 50.5
4 46.8
4 44.6
4 43-8
4 44-5
4 46.7
4 50.4
4 55-8
5 30
5 12.2
23-4
36.3
5 50.5
52
19-3
31 -4
6 40.1
6 44.1
6 42.7
6 36.1
16 25.0
Midnicbt.
tr
6 42.8
6 36.6
6 26.2
6 13.0
5 58.4
5 43.8
5
5
5 7-7
6
6
6
6
6
6
6
302
18.0
4 59-4
4 53.0
4 48.4
4 45.5
4 440
4 44.0
4 45-4
4 48.3
4 52.9
4 59.2
5 7.4
5 17.6
5 29.6
5 43-3
5 57.8
12.4
25.7
36.3
42.7
44.1
40.0
310
16 18.3
HORIZONTAL PARALLAX.
Noon.
//
61 18.90
61 5.13
60 34.08
5950.12
58 58.60
58 4.66
57 12.44
56 24.87
55 43.66
55 952
54 42.57
54 22.46
54 8.65
54 0.57
53 57.88
54 0.42
54 8.33
5421.92
5441.76
55 8.37
5542.12
56 22.99
57 10.27
58 2.37
58 56.37
59 48.20
60 32.71
61 4.55
61 19.13
61 14.06
60 49.69
60 9.18
Diff. for
I Hour.
//
171
0.958
1.598
-2.029
2.230
2.236
-2.095
1.856
1. 571
-1.271
0.977
0.702
453
0.223
.003
+0.217
0.444
0.692
+0.964
1.256
1.556
+1.845
2.086
2.235
+2.239
2.044
1.627
+0.992
+0.206
—0.626
1.382
-1.958
Midnight.
61 14.39
6051.53
60 13.39
59 24.9^
5831.64
57 38.13
56 47.94
56 3.41
55 25.69
5455.16
54 31.69
54 14.81
54 3.92
53 58.57
53 58.49
54 369
54 14.38
5431.03
54 54.19
55 24.34
56 1.69
56 45.90
57 35.87
58 29.35
59 22.87
60 II. 71
60 50.54
61 14.21
61 19.10
61 4.15
60 31.16
59 44.43
Diff. for
I Hour.
//
.578
1.302
1.840
-2.156
2.254
2. 181
—1.984
1.716
1.422
— 1. 121
0.837
0.574
-0336
— O. I 1 2
+0.106
+0.329
0.565
0.826
+ I.IO7
1.406
1.704
+ 1.973
2.176
2.258
+2.169
1.864
1.335
+0.612
-0.212
1.022
1.698
-2.159
UPPER TRANSIT.
Meridian of
Greenwich.
h
O
I
2
3
4
4
m
36.2
27.3
18.2
lO.I
3.7
59.2
56.1
52.9
7 48.0
5
6
8 39.9
9 28.3
10 13.0
54.9
34.8
2 13.6
o
I
2
3
4
4
5
6
52.4
32.2
14.0
58.8
47-3
40.0
7 36.3
8 350
9 34.0
20 31.7
21 27.0
22 20.1
23 11.8
6
o 3.2
0 55.6
1 49.9
Diff. for
I Hour.
m
2.16
2.12
2.14
2.20
2.27
2.35
2.38
2.34
2.24
2.09
1.94
1.80
1.70
1.63
1.61
1.63
1.69
1.80
1.94
2.11
2.28
2.41
2.46
2.44
2.36
2.25
2.18
2.14
• •
2.15
2.22
2.31
AGE.
Noon.
d
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
14.6
15.6
16.6
17.6
18.6
19.6
20.6
21.6
22.6
23.6
24.6
25.6
26.6
27.6
28.6
0.3
1.3
2.3
102 SEPTEMBER, 1913.
G MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
VI. SEPTEMBER, 1913. 108
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
104 SEPTEMBER, 1913. VIL
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
I.
SEPTEMBER, 1913.
105
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DifiP.
Dtff.
Diff.
Diff.
Light Ascensaon.
for
I Min.
Declination.
for
X Min.
Hour.
Right Ascension.
for
X Min.
Declination.
for
xMin.
SAT
URDA
lY 13.
MONDAY 15.
h m t
•
0 t ft
M
.h m s
s
Of t*
ff
22 4 11.26
X.85S7
S.I4 20 54.6
X9.646
0
23 29 47.61
1.7376
S. 3 30 30.7
14.140
22 6 2.36
1.8498
14 8 14.3
Xa.697
X
23 31 31.84
1.7367
3 16 21.9
14.15*
22 7 53- as
i.8«6o
13 55 30.9
Xa.748
2
23 33 x6.oi
1.7358
3 2 12.5
14-ift
22 9 43.88
x.a|«t
13 42 44.5
ia.797
3
2335 0.14
1.735a
2 48 2.4
14.179
22 11 34.30
1.8983
13 29 55-2
Xa.849
4
23 36 44.23
1.7349
2 33 51.7
X4.x8a
22.13 24.50
1.8349
13 17 3-1
X3.89a
5
23 38 28.28
1.7399
2 1940.5
14.191
22 15 14,49
X.8SI3
13 4 8-2
xa.938
6
23 40 12.30
1.7394
2 5 28.8
14.109
22 17 4.26
z.SsTw
12 51 10.5
xa.984
7
23 4^ 56.29
1.7319
X 51 16.6
x4.ao7
22 18 53-83
i.8si4
12 38 10. X
X3.oa9
8
23 43 40.25
i.73a6
X 37 4.0
X4.819
22 20 43.19
z.Saxo
12 25 7.0
13.07a
9
23 45 24.20
1.7389
X 22 51. 1
X4.818
22 22 32.35
I. 8177
12 12 1.4
13.119
10
2347 8.13
1.73*0
1 837.8
i4.*a9
22 24 ai.31
1.814s
" 58 53-2
13.157
II
23 48 52.04
1.7918
0 54 24.3
X4.817
22 26 10.07
i.Sxxx
II 45 42.5
13.198
12
23 50 35.95
1.7917
0 40 10.6
i4.«90
22 27 58.64
II 32 29.4
13. 838
n
23 52 19-85
1.7317
0 25 56.7
14.19*
22 29 47.03
1.8049
II 19 13.9
13. 878
H
2354 3-75
1.7317
S. 0 IX 42.7
I4.a34
22 31 35.23
X.8019
II 5 56.0
13.317
15
23 55 47.65
1.7917
N. 0 2 31.4
X4.*S6
22 33 23.25
1.7990
10 5a 35.8
13.355
16
23 57 31.56
1.73x9
0 16 45.6
14.«97
22 35 II. II
X./960
10 39 13.4
13.39a
17
23 59 15.48
i.73aa
0 30 59.8
X4.897
22 36 58.78
I.793X
10 25 48.8
X3.4a8
18
0 0 59.42
1.7385
0 45 14.0
I4.*99
22 38 46.28
X.7903
10 12 22.0
13.464
19
0 2 43.38
1.7388
0 59 28.0
14.839
22 40 33-6«
X.7877
958 53.x
13.498
20
0 4 27.36
1.739a
I 134X.9
I4.*90
22 42 20.80
X.7850
9 45 22.2
13.53«
21
0 6 11.36
1.7997
X 27 55.6
14. •a7
22 44 7.82
1.7819
9 31 49-3
13.965
22
0 755.40
1.7343
1 4a 9.1
i4.*a9
22 45 54-68
1.7798
S. 9 18 14.4
13.997
23
0 939.47
1*7949
N. I 56 22.4
14.8x8
su
NDA^
^14.
TU]
SSDA1
^ 16.
22 47 41.40
1.7774
S. 9 4 37.6
X3.6a8
0
0 II 23.59
1.7357
N. 2 10 35.3
X4.ai3
22 49 27.97
1.7790
8 50 59.0
13.658
I
0 13 7.75
1.73ft
2 24 47-9
i4.*07
22 51 14.40
'•77*7
8 37 18.6
13.687
2
0 14 51.95
1.7371
2 39 0. 1
14.199
22 53 0.69
X.7703
8 23 36.5
13.716
3
0 16 36.20
1.7380
2 53 IX. 8
14.191
22 54 46.84
1.7682
8 9 52.7
13.744
4
0 18 20.51
1.7390
3 7 23.0
X4.x8a
22 56 32.87
X.766X
7 56 7.2
13.77a
5
0 20 4.88
1.7401
3 2X 33.7
14.179
22 58 18.77
X.7699
7 42 20. 1
13.798
6
0 21 49-32
1.741a
3 35 43.8
X4.X63
23 0 4-54
X.76X8
7 28 31.4
13.884
7
0 23 33.82
i.74as
3 49 53.2
14.15a
23 I 50.19
>.7599
7 1441-2
13.848
8
0 25 18.39
1.7435
4 4 2.0
14.140
23 3 35.73
1.7980
7 0 49.6
13.87a
9
0 27 3.04
1.7448
4 18 lO.O
14.187
23 521-15
x.756t
6 46 56.5
13.896
10
0 28 47.77
1.7461
4 3« 17.3
14.114
23 7 6.47
1.7945
633 2.1
X3.918
II
0 30 32.58
1.7476
4 46 23.7
X4.X00
23 8 5^-69
x.79«8
6 19 6.3
13.940
12
0 3a 17.48
1.7491
5 029.3
X4.oe6
23 ID 36.81
x.73ia
6 5 9-3
13.961
13
034 2.47
1.7507
5 14 34.0
X4.07O
23 12 21.83
X.7496
5 51 ii-o
13.98a
14
0 35 47.56
X.7583
5 28 37.7
14.053
23 14 6.76
X.748X
5 37 11.5
X4.00X
15
0 37 32.75
1.7540
5 42 40.4
14.036
23 15 51-60
X.7466
5 23 10.9
14.0x9
16
0 39 18.04
1.7557
5 56 42.0
X4.OX8
23 17 36.35
x.749a
5 9 9.2
X4.<q7
17
041 3.43
1.7575
6 10 42.6
X4.O0O
23 19 21. 02
1.7499
4 55 6.5
14.053
18
0 42 48.94
1.7995
6 24 42.0
13.980
23 21 5.62
x.74«7
4 41 2.8
X4.070
19
0 44 34- 57
1.76x4
6 38 40.2
13.960
23 22 50.15
X.74X6
4 26 58.1
X4.066
20
0 46 20.31
1.7634
6 52 37.2
13.999
23 24 34-61
1.7404
4 12 52.5
X4. lOX
21
048 6.18
1.7656
7 632.9
13.917
23 26 19.00
X.7993
3 58 46.0
14.1x5
22
0 49 52.18
1.70711
7 20 27.2
13.894
23 «8 3-33
1.7384
3 44 38-7
i4.ia8
23
0 51 38.31
1.7700
7 34 20.2
13.871
23 29 47.61
1.7376
S. 3 30 30.7
14-140
24
0 53 24.58
1.77*3
N. 7 48 11.7
13.846
106 SEPTEMBER, 1913.
GREENWICH MEAN TIME.
THE UOON'S RIGHT ASCENSION AND DECLINATION.
X. SEPTEMBER, 1913. 107
GREENWICH MEAN TIME.
THE UOON'S RIGHT ASCENSION AND DECLINATION.
108 SEPTEMBER, 1913. XI.
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
XII.
SEPTEMBER, 1913.
109
GREENWICH MEAN TIME.
THE MOONS RIGHT ASCENSION AND DECLINATION.
j
Diff.
Di£F.
Diff.
Diff.
Eaax: Riicht Aacension.
for
Declination.
for
Hour.
Right Aacension.
for
Declination.
for
-
X Min.
X Mixu
I Min.
I Min.
MO
NDA\
\ 29.
WEDNESDAY, OCTOBER i.
1 h m s
t
• •»
M
h m a
8 ! 0 » w
n
0 , II 44 0.23
2.2293
N. I 34 29.9
X8.28S
0
13 32 3.80
2.3012 S. 12 37 30.7
16.426
I ' II 46 13.98
2.«990
a.2aB8
I 16 12.6
0 57 54.8
18.893
X8.30X
2 II 48 27.71
3 II 5041-43
2.2287
0 39 36.5
X8.307
4 i 11 52 55-15
2.2flB6
0 21 18.0
18.310
5 . II 55 8.86
2.2flB6
N. 0 2 59.3
18.312
6 ! II 57 22.58
2.3287
S. 0 15 19.5
X8.3X2
7 II 59 36.31
2.2289
0 33 38.2
X8.3XO
8 ; 12 I 50.05
S.229t
0 51 56.7
18.306
9 : 12 4 3.81
2.2295
I 10 14.9
18.299
10 ! 12 6 17.59
2.2299
I 28 32.6
18.290
II 12 8 31.40
8.2304
I 46 49.7
18.279
12 1 12 10 45.24
2.23x0
2 5 6.1
X8.867
13 12 12 59-12
8.23x7
2 23 21.7
X8.258
H 12 15 13-04
2.2524
2 41 36-3
18.234
15 1 12 17 27.01
3.2332
2 59 49.8
18.8x5
16 1 12 19 41-03
a.234t
3 18 2.1
X8.194
17 12 21 55-11
•.a35«
3 36 13- 1
3 54 22.6
18.X71
PHASES OF THE MOON.
18 12 24 9.25
a. 2368
18.145
19
12 26 23.45
2.2373
4 1230.5
X8.IX7
20
31
12 28 37.72
12 30 52.07
a.8385
2.2398
4 30 36.7
4 48 41. 1
18.088
18.057
n 12 33 6.50
a. 24x2
5 643.5
x8.o8a
d
li m
23 12 35 21.01
1 2'MV
S. 5 24 43.8
17.986
]) First Quarter . . Sept. 7
I 5-7
TU
ESDA
^30.
0 Full Moon 15
0 45-9
0 , 12 37 35-62
' 8.2448
S. 5 42 41.8
17.948
C Last Quarter . . . .23
0 30.0
I 12 39 50.32
a. 2457
6 037.5
17.908
% New Moon 29 i
6 56.8
2 ! 12 42 5. II
3 12 44 20.01
2.8474
•.«49t
6 18 30.8
6 36 21.5
17.867
17.822
4 12 46 35.01
2.25x0
6 54 9.4
17.775
d h
5 i 1248 50.13
8.3589
7 II 54.5
17.787
C Apocee Sept. i
s 0.%
6 . 12 5« 5-36
7 1 12 53 20.71
8.8548
8.8568
7 29 36.7
7 47 15.8
17.677
17.684
C
Perieee 20 fi-«
^ ^^^ *J^ ^^^^ V V * • • ■ ■ flW
■y w. ..
8 12 55 36.18
9 12 57 51-78
8.2589
8 4 51.6
17.570
8.86x8
8 22 24.2
17.514
10 13 0 7.52
2.2634
8 39 53.3
17.455
II
13 223.39
2.8657
8 57 18.8
17.394
12
13 4 39-40
2.2681
9 14 40.6
17.338
13 13 6 55.56
2.2705
9 31 58.6
17.268
14
15 9 11.86
8.2789
9 49 12.7
17.201
15
13 II 28.31
2.2755
10 6 22.7
X7.132
16
13 13 44-92
8.8768
10 23 28.5
X7.06X
>7
13 16 1.69
2.8808
10 40 30.0
16.989
18
13 18 18.62
8.2835
10 57 27.2
16.915
19
13 20 35-71
2.2865
II 14 19.8
16.838
20
13 32 52.98
2.2898
II 31 7-7
16.759
21
13 25 10-42
8.8921
II 47 50.9
X6.679
22 13 27 28.03
2.2950
12 4 29.2
16.597
^3 1 13 29 45-82
8.898X
12 21 2.5
16.513
24
1 13 32 3»8o 1
8.30X8
S.12 37 30.7
16.426
110
OCTOBER, 1913.
AT GREENWICH APPARENT NOON.
Day of
the
Week.
■sg
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN,
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
I
2
3
4
5
6
7
8
9
ID
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.
m
NoTB. — The
Sid
2 28 14.72
231 52.14
2 35 29.85
239 7-^7
2 42 46.21
2 46 24.90
2 50 396
2 53 43.41
2 57 23.27
3 I 3.55
3 444.28
3 825.48
3 12 7.18
3 15 49-39
31932.13
3 23 15.42
3 26 59.29
3 30 43.76
3 34 28.85
3 38 14.57
342 0.95
3 45 48.00
3 49 35.74
35324.19
3 57 13.35
4 I 3.25
4 45390
4 845.30
4 12 37.46
4 16 30.38
4 20 24.08
4 24 18.56
Diff. for
I Hour.
9.053
9.065
9.078
9.091
9- 105
9.120
9.136
9152
9.169
9.188
9.207
9.227
9.248
9.270
9.292
9.316
9.340
9.365
9392
9.419
9-447
9-475
9-504
9.534
9-564
9-595
9.626
9-657
9.689
9.721
9-754
9.786
Apparent Decli-
nation.
//
S. 3 3 10.7
3 26 29.0
3 49 44.9
4 12 58.1
436 8.2
4 59 H-7
5 22 17.4
5 45 15-8
6 8 9.8
6 30 58.7
6 53 42.4
7 16 20.4
7 38 52.5
8 I 18.2
8 23 37.2
8 45 49.3
9 753.9
9 29 50.7
9 51 39.4
10 13 19.6
10 34 50.9
10 56 12.8
11 17 25.1
II 3827.4
11 5919-3
12 20 0.3
12 4029.9
13 047.7
132053.4
134046.5
14 026.6
S.141953.2
Diff. for
I Hour.
//
-58.31
58.22
58.11
-57.99
57.85
57.69
-57.52
57.34
57.14
-56.93
56.70
56.46
-56.20
55.93
55.64
-55.34
55.03
54.70
-54.35
53-99
53.61
-53.21
52.80
52.38
-5 1 -93
51-47
50.99
-50.49
49.97
49.44
48.89
-48.32
Semidiam-
eter.
//
6 0.69
6 0.97
6 1.25
6 1.53
6 1.81
6 2.10
6 2.38
6 2.67
6 2.95
6 3.23
6 3.51
6 3.79
6 4.07
6 4.35
6 4.62
6 4.89
6 5.16
6 5.43
6 5.70
6 5.97
6 6.23
6 6.49
6 6.75
6 7.01
6 7.27
6 7.53
6 7.78
6 8.04
6 8.30
6 8.56
6 8.81
16 9.07
Sidereal
Time of
Semidi-
ameter
Passing
Me-
ridian.
64.30
64.34
64.39
64.44
64.49
64.54
64.60
64.66
64-73
64.80
64.87
64.94
65.02
65.10
65.18
65.26
65.34
65.43
65.52
65.61
65.70
65.80
65.90
66.00
66.10
66.20
66.31
66.42
66.53
66.64
66.75
66.86
Bquation of
Time, to be
Subtracted
from
Apparent
Time.
m s
o 10.56
o 29.64
048.44
I 6.92
I 25.08
1 42.89
2 0.34
2 17.40
2 34.05
2 50.27
3 6.05
321.36
336.18
3 50.49
4 4.27
4 17.49
430.14
442.19
4 53.63
5 4.43
5 14-58
524.06
5 32.85
5 40.93
5 48.30
5 54.94
6 0.84
6 5.98
6 10.36
6 13.98
6 16.83
16 18.90
Diir.
for
I Hour.
0.801
0.789
0.777
0.763
0.749
0.735
0.719
0.702
0.685
0.667
0.648
0.628
0.607
0.585
0.562
0.539
0.514
0.489
0.463
0.436
0.409
0.380
0.351
0.322
0.292
0.261
0.230
0.198
0.166
0.134
0.102
0.070
mean time of semidiameter passing the meridian may be found by subtracting o«.i8 from tbe
' ireal time.
The ^gn — prefixed to the hourly change of declination indicates that south declinations are incteasiSK.
n.
OCTOBER, 1913.
AT GREENWICH MEAN NOON.
Ill
Day of
the
Week.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
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
Aflcensioii.
h m 8
2 28 16.25
2 31 53.72
2 35 31. 4S
2 39 9.55
2 42 47.94
2 46 26.68
2 50 5.79
2 53 45.29
2 57 25.19
3
3
3
I 5.52
4 46.29
8 27.54
3 12 9.28
3 15 51.53
3 19 34.31
3 23 17.64
3 27 1.55
3 30 46.06
3 34 31.18
3 38 16.94
3 42 3.35
3 45 50.43
3 49 38.20
3 53 26.68
3 57 15.87
4 I 5.80
4 4 56.47
4 8 47.89
4 12 40.07
4 16 33.01
4 20 26.73
14 24 21.23
Diflf. for
X Hour.
s
9.055
9.067
9.080
9.093
9.107
9.122
9.138
9.154
9.171
9.190
9.209
9.229
9.250
9.272
9.294
9.318
9.342
9.367
9.393
9.420
9.448
9.476
9.505
9.535
9.565
9.596
9.627
9.658
9.690
9.722
9.754
9.787
Apparent Decli-
nation.
//
s.
3 3 20.6
3 26 39.2
3 49 55.4
4 13
4 36
4 59
•8.9
19.2
26.0
5 22 28.9
5 45 27.6
6 8 21.7
6 31 10.9
6 53 54.8
7 16 33.0
7 39 5.3
8 I 31.2
8 23 50.4
8 46 2.5
9 8 7.2
9 30 4.1
9 51 52.8
10 13 33.1
10 35 4.4
10 56 26.4
11 17 38.8
II 38 41. 1
11 59 33.0
12 20 13.9
12 40 43.5
13 I 1.4
13 21 7.0
13 40 59.9
14 o 39.8
S. 14 20 6.3
Diff . for
X Hour.
//
■58.32
58.23
58.12
—58.00
57.86
57.70
-57.53
57.35
57.15
-56.94
56.71
56.47
-56.21
55.94
55.65
1-55.35
55.03
54.70
-54.35
53.99
53.61
-53.22
52.81
52.38
-5 1 .93
51.47
50.99
-50.49
49.97
49.43
48.88
-48.31
Equation of
Time to be
Added to
Mean Time.
Now.— The
m s
o 10.70
o 29.78
o 48.57
I 7.06
I 25.22
1 43.03
2 0.48
2 17.54
2 34.19
2 50.41
3 6.19
3 21.50
36.32
50.63
4 4.40
17.62
30.26
4 42.31
4 53.74
5 4.54
5 14.69
5 24.16
5 32.94
5 41.02
5 48.38
5 55.01
6 0.90
6 6.03
6 10.41
6 14.02
6 16.86
6 18.92
Diff. for
X Hour.
8
0.801
0.789
0.777
0.763
0.749
0.735
0.719
0.702
0.685
0.667
0.648
0.628
0.607
0.585
0.562
0.539
0.514
0.489
0.463
0.436
0.409
0.380
0.351
0.322
0.292
0.261
0.230
0.198
0.166
0.134
0.102
0.070
aemkUameter 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-
tloot arc increasing.
Sidereal Time,
or Right Ascen-
sion of Mean
Sun.
b m s
2 38 26.95
2 42 23.50
2 46 20.06
2 50 16.61
2 54 13.16
2 58 9.72
3 2 6.27
3 6 2.83
3 9 59.38
3 13 55.93
3 17 52.49
3 21 49.04
3 25 45.60
3 29 42.15
3 33 38.71
3 37 35.26
3 41 31.81
3 45 28.37
3 49 24.92
3 53 21.48
3 57 18.03
4 I 1459
4 5 II. 14
4 9 7.70
4 13 4.25
4 17 0.81
4 20 57.36
4 24 53.92
4 28 50.47
4 32 47.03
4 36 43.58
14 40 40.14
Diff. for I Hour,
(Table III.)
112 OCTOBER, 1913.
[V.
OCTOBER, 1913.
113
GREENWICH MEAN TIME.
THE MOON'S
SBMLDIAlfBTBR.
Noon.
■ji
^#
i6 36.1
16 25.0
16 II.O
15 55-5
15 39-9
15 25.4
15 12.8
15 2.4
14 54-5
14 49.0
14 45-8
14 44.6
14 45.2
14 47-3
14 50.8
14 55.4
15 1.2
15 8-1
15 16.2
15 25.5
15 35-9
15 47-3
15 59-3
16 II. I
16 21.8
16 30.2
16 35.2
16 35-9
16 31.9
16 23.5
16 1 1.6
>' 15 57.4
1913 —
MJdnicbt.
//
6 31.0
6 18.3
6 3-3
5 47.6
5 32.5
5 18.8
5 7-3
4 58.1
4 51.5
4 47.1
4 45.0
4 44-7
4 46.1
4 48.9
4 53.0
4 58.2
5 4.5
5 12.0
5 20.7
5 30.6
5 41.5
5 53-3
6 5-3
6 16.6
6 26.4
6 33-2
6 36.2
6 34-5
6 28.2
6 17.9
6 4.7
HORIZONTAX PARALLAX.
Noon.
//
60 49.69
60 9.18
59 17-61
58 20.66
57 23.53
56 30.40
554404
55 6.03
54 37.00
54 16.89
54 510
54 0.73
54 2.94
54 10.74
54 23.37
54 40.40
55 1.56
55 26.92
55 56.59
56 30.69
57 9.04
57 50.90
58 34-75
59 18.08
59 57.32
6028.18
60 46.56
60 49. 1 1
60 34-45
60 3.60
59 19.88
Diff. for
I Hour.
15 50.0 I 58 27.94
//
-1.382
1.958
2.3CX>
-2.41 1
2.320
2.088
1.765
1.397
1. 02 1
.659
0.330
-0.038
+0.215
0.428
0.620
+0.796
0.968
1. 145
+1.328
I.5I3
1.679
+1.800
1.837
1.748
+ 1.490
1 .055
+0.452
—0.250
0.964
1.582
2.030
—2.262
Midnight.
60 31.16
59 44.43
58 49.46
57 51.82
56 56.27
56 6.25
55 23.93
54 50.38
54 25.86
54 10.01
54 2.04
54 1.07
54 6.20
54 16.48
5431.36
54 50.46
55 13.71
55 41-20
56 13.09
56 49.37
57 29.60
58 12.71
58 56.68
59 38.47
60 14.05
60 39.21
60 49.95
60 43.93
60 20.89
59 43.09
58 54.60
58 0.51
Diff. for
z Hour.
//
-1.698
2.159
2.381
-2.387
2.219
1.935
-1.584
1.209
0.837
-0.490
-0.179
+0.094
+0.326
0.526
0.710
+0.881
1.056
1.236
+ X.421
<.599
1.747
+ 1.832
1.811
1.642
+1.294
0.772
+0.108
-0.613
1. 291
1.829
2.174
-2.301
UPPER TRANSIT.
Meridian of
Greenwich.
h m
o 55.6
1 49.9
2 46.6
3 45.1
4 44.0
5 41.2
6 35.2
7 25.2
8 II. 2
8 53.8
9 34-2
10 13.2
0 52.0
1 31.5
2 12.8
2
3
4
56.9
44.5
35-9
5 30.8
6 27.9
7 25.4
8 21.8
9 16.0
7.9
20
20 58.3
21 48.4
22 39.4
23 32.5
6
0 28.7
1 27.7
2 28.3
Diff. for
I Hour.
m
2.22
2.31
2.41
2.46
2.43
2.32
2.17
2.00
1.84
1.72
1.65
1. 61
1.62
1.68
1.77
1. 91
2.06
2.22
2.34
2.40
2.38
2.31
2.21
2.12
2.09
2.10
2.16
2.28
• •
2.41
2.50
2.53
AGB.
Noon.
d
1.3
2.3
3.3
4.3
5.3
6.3
7.3
8.3
9.3
10.3
II.3
12.3
13.3
14.3
15.3
16.3
17.3
18.3
19.3
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
8
114
OCTOBER, 1913.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Aaeansion.
tor
z Min.
Declination.
for
X Min.
Hour.
Right AacensioxL
for
z Min.
Declination.
for
I Min.
WEDNESDAY i.
FRIDAY 3.
h m ■
•
Of**
ff
h xn ■
■
Of »
m
O
13 32 3-8o
a.joit
S.I2 37 30.7
i6.4a6
0
152634.53
a. 4705
s.23 33 28.4
10,315
I
13 34 21.96
a. 3043
12 53 53.6
16.337
I
15 29 2.85
a. 4736
23 43 42.3
io.z5a
2
13 36 40.31
•.3074
13 10 II.2
16.148
2
15 31 31.36
a. 4766
23 53 46.6
9«990
3
13 38 58.85
2.3x07
13 26 23.4
X6.X57
3
1534 0.04
a.4795
24 3 41- 1
9.827
4
13 41 17.59
«.3I39
13 42 30.0
Z6.063
4
15 36 28.90
2.4824
24 13 25.8
9.663
5
13 43 36.52
a.sx7«
13 58 30.9
X5.967
5
15 38 57.93
a. 4852
24 23 0.7
9*498
6
13 45 55.66
3.3906
14 14 26.0
X5.869
6
15 41 27.12
a. 4878
24 3a 25.6
9-33«
7
13 48 14.99
a. 3239
14 30 15.2
15.770
7
15 43 56.47
2.4905
24 41 40.5
9*i6S
8
13 5034.53
a. 3*73
14 45 58.4
X5.669
8
15 46 25.98
a.493x
24 50 45.4
8.998
9
13 52 54.27
a. 3308
15 I 35.5
X5.567
9
15 48 55.64
a. 4956
24 59 40.3
8.890
lO
23 55 14.22
a. 3343
15 17 6.4
15.46a
10
15 51 25.45
a. 4980
25 8 25.0
8.G60
II
13 57 34.39
a. 3378
15 32 30.9
X5.355
II
15 53 55.40
a. 5003
25 16 59.5
8.49X
12
13 59 54.76
a. 34x3
15 47 49.0
X5.a47
12
15 56 25.49
a.5oa6
25 25 23.9
8.3SX
13
14 2 15.35
a. 3449
16 3 0.5
15.137
13
15 58 55.71
2.5047
25 33 38.0
8. 149
14
14 436.15
a. 3485
16 18 5.4
X5.025
14
16 I 26.06
a. 5068
25 41 41.8
7.«77
15
14 657.17
a. 3521
1633 3.5
14.91X
15
16 3 56.53
2.5088
25 49 35.3
7.805
i6
14 9 18.40
a. 3557
16 47 54.7
X4.796
16
16 627.11
a.5zo6
25 57 18.4
7.«3«
17
14 II 39.85
a. 3594
17 a 39.0
14.679
17
16 8 57.80
2.5124
26 4 51. 1
7.458
i8
H 14 1.53
a. 363 I
17 17 16.2
14.560
18
16 II 28.60
2.514X
26 12 13.4
7.a«4
19
14 16 23.43
a. 3668
17 31 46.2
X4.440
19
16 13 59.49
2.5157
a6 19 25.2
7.109
20
H 18 45.55
a. 3705
17 46 9.0
14.318
20
16 16 30.48
2.5172
26 26 26.5
6.934
21
1421 7.89
a.374a
18 0 24.4
X4.X95
21
16 19 1.55
2.5185
26 33 17.3
6.758
22
14 23 30.46
a. 3780
18 14 32.4
14. 070
22
16 21 32.70
2.5x97
26 39 57.5
6.583
23
14 25 53.25
THl
a. 3817
JRSDi
S.18 a8 32.8
lY 2.
X3.943
23
16 24 3.92
SAT
2.5J09
"URDi
,S.26 46 27.2
\Y 4.
6.407
O
14 28 16.27
2.3855
S.18 42 25.6
X3.8X5
0
16 26 35.21
a.5aao
S.26 52 46.3
6.2)0
I
143039.51
a. 389a
18 56 10.6
X3.684
I
16 29 6.56
a. 5289
26 58 54.8
6,053
2
1433 2.98
a. 3930
19 947.7
X3.55a
2
16 31 37.96
2.5aS7
27 4 52.6
5.875
3
14 35 26.67
a. 3967
19 23 16.9
X3.420
3
1634 9.40
a. 5843
27 10 39.8
5.697
4
14 37 50.59
a. 4005
19 36 38. 1
I3.a86
4
16 36 40.88
2.5250
a7 16 16.3
5.519
5
14 40 14.73
a.404a
19 49 51.2
13.X50
5
16 39 12.40
2.5255
27 21 42.1
5.341
6
144239-10
a. 4060
20 2 56.1
i3.oza
6
16 41 43.94
a-sasS
27 26 57.2
5.165
7
14 45 3.69
a.4"7
20 15 52.7
12.873
7
1644 15.50
t.5a6z
27 32 1.6
4.98!5
8
14 47 28.50
2.4153
20 28 40.9
ia.733
8
16 46 47.07
a.5a6a
27 36 55.4
4.807
9
14 49 53.53
a. 4191
20 41 20.7
xa.59a
9
16 49 18.64
a.5a6a
27 41 38.4
4.6iS
lO
14 52 18.79
a. 4228
20 53 51.9
12. 448
10
16 51 50.21
a.5a6z
27 46 10.7
4.449
II
14 54 44.26
2.4264
21 6 14.5
xa.304
II
16 54 21.77
9.5258
27 50 32.3
4.170
12
14 57 9.96
a.4301
21 18 28.4
ia.158
12
16 56 53.31
a. 5254
275443.1
4.09K
13
14 59 35.87
2.4336
21 30 33.5
la.oii
13
16 59 24.82
2.3249
27 58 43.2
3.91s
14
15 2 1.99
a. 4372
21 42 29.7
Z1.862
14
17 I 56.30
2.5243
28 2 32.7
^735
15
15 428.33
2.4407
21 54 17.0
XI.7Z3
15
17 427.74
2.5236
28 6 II. 4
3.536
16
15 6 54.88
a. 444a
22 5 55.3
11.562
16
17 6 59.13
a. 5227
28 9 39.4
3.378
17
15 9 21.63
a.4476
22 17 24.5
ZZ.4Z0
17
17 930.46
8.5216
28 12 56.7
3.200
18
15 II 48.59
a. 45 10
22 28 44.5
xi.a57
18
17 12 1.73
2.5205
28 16 3.4
3.oae
19
15 14 15.75
a. 4544
22 39 55-3
ZZ.Z03
19
17 14 32.92
2.5x9a
28 18 59.4
8.844
20
15 16 43.12
2.4577
22 50 56.8
XO.947
20
17 17 4.03
2.5x78
28 21 44.7
a«6fy
21
15 19 10.68
a. 4610
23 I 48.9
10.790
21
17 19 35.06
2.5x64
28 24 19.4
t.489
22
15 21 38.44
a. 4642
23 12 31.6
10.63a
22
17 22 6.00
2.5148
28 26 43.4
2.313
23
15 24 6.39
2.4674
23 23 4.8
10.473
23
17 24 36.83
2.5130
28 28 56.9
a. 137
24
15 26 34.53
2.4705
S.23 33 28.4
XO.313
24
17 27 7.56
8.3x12
S.28 30 59.8
Z.960
VI.
OCTOBER, 1913.
G MEAN TIME.
116
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
DiS.
jj,j
Dill.
DiB.
lUiD.
.5V
Moor
RilEbiAuratioD.
iMio.
(uLl
SI
JNDA
'''•..
TUESDAY 7.
.
1737 7-56
/i...
5.283059.8
1.960
0
19 23 31. 85
I'w)
S.26 54 54-9
3.6:7
17 ag 38.17
■.w
aa 33 53.1
..7«4
19 25 39-51
,.nn
3549 13.9
}.7*>
1
173a 8.65
1.30*9
afl 34 33.9
i.6ci«
3
19 37 56.80
..rfj.
26 43 24.9
3
17 34 3900
i.)ot7
28 36 5,3
■.41J
3
19 30 13.72
1.(788
36 37 28.0
6.01J
4
'7 37 9-ai
■.joq
38 37 26.0
4
193230.25
1.1714
2631 23.4
6.14*
S
17 39 39. a7
■■4t9a
38 38 36.4
5
19 34 46.41
■ .*66l
26 25 1..0
6.17a
6
174a 9.18
«.«?»
28 39 36.4
0.91]
6
1937 2.18
*->397
36 18 50.9
6.M7
7
17 44 38.93
38 40 36.0
7
>9 39 17.57
1.ISU
26 13 33.3
6.313
i
1747 8-51
*.»t6
28 41 5.3
0.}«
8
19 41 32.58
1.1469
26 548.2
8.S(a
9
*7 49 37-9*
■.4IB6
a8 41 34-3
».»»
9
19 43 47-20
t.tm
25 59 5.6
6.77«
to
17 5a 7-14
•■48m
38 41 52.8
0.1s
1946 1.44
i.«J4>
25 5a 15.6
6.8m
11
17 54 36.17
«.48b
28 42 1.3
-O.OJJ
II
194815.29
l.lt7«
25 45 18.3
7.015
"
1757 5.<"
•■««»
38 41 59.4
195028.75
25 38 13.8
7-m
■J
17 59 33.64
•.4734
28 41 47.5
<>.«St
»3
19 5241-82
1..146
3531 2.1
7-t3S
M
18 z 2.06
•■1718
38 41 25.5
14
19 54 54 50
25 23 43-4
7-571
•5
18 4 30.26
•.,6St
28 40 53-4
0.6X9
>5
19 57 6.80 j t.1017
15 i6 17.6 7 488
16
18 6 5S.34
<i-4S44
284011.3
...tM
16
19 59 18.70
t.1951
•5 8 44-9 i 7.605
"J
18 9 a5-99
..(•OS
38 39 19. 1
17
30 I 30.22
».i887
25 1 5-3 7.717
il
18 II 53.50
..41115
38 38 17.0
1. 117
18
30 3 4 '-34
«.iStl
24 53 18.9
7.BU
19
t8 14 20.77
28 37 5-1
I.l8>
»9
30 5 52.08
24 45 25.8
»
18 16 47-79
1.4481
28 35 43-3
30 8 2.43
1..691
34 37 26.0
8.05.
II
18 19 14.55
1.44 s
2834 11.8
>.fo7
31
30 .0 12.38
34 29 [9.6 8.161
tt 1 i8 31 41.0a
■.4Mt
28 33 30.5
■ .7«9
30 12 31.95
■.ijOs
34 21 6.7 •.*!»
q 1 18 34 7.30
«.4jy>
S283039.5
1.930
33
ao 143113
1.I498
5.24 1347.3 «-J77
UC
>NDA
r 6.
WEDNESL
AY 8.
0
18 36 33.36
1.4m
8.383838.9
■.OS,
0
30 16 39.93
1.1454
S.34 4 31. 5
8.48!
I
18 38 58-94
«-41J7
38 36 18.8
*.>4S
I
30 18 48.34
•.1J69
23 55 49-4
8.387
18 31 24-34
38 34 9. 1
30 30 56.36
1.1305
33 47 ii.i
8. 689
1
is 33 49.45
i.4iei
28 31 40.0
1.563
3
20 23 4.00
1.II41
33 38 26.7
8.7».
4
18 36 14.37
28 19 1.5
».7»
4
30 25 11.26
1..178
23 2936.1
8.893
i
18 38 38.78
t4<*0
28 16 13.6
1.B73
5
20 a? 18.14
23 20 39.5
8.993
6
18 41 3.99
l.Mog
28 13 16.5
3. OS
6
30 29 34.63
l.IOJI
33 11 36.9
9.091
7
18 43 36.89
<.)9]7
28 10 10.2
J.1W
7
2031 30.75
1.09SS
33 3 28.5
9.189
S
18 45 50-48
•■»0)
38 654.7
8
30 33 36.49
1.091s
23 53 "4.2
!».«7
9
1848 13.75
■.S8i-
28 330.1
3.4S3
9
203541-85
1.086I
33 43 54. 1
9.381
10
18 50 36.59
l.]7«7
27 59 56.5
3.6)5
30 37 46.84
l.oHoo
22 34 28.3
9-477
18 5a 59.31
•.J741
27 56 13-9
J.784
20 39 5I-45
i.07ja
33 34 56.Q
9.589
12
18 55 31-60
i.j«a7
37 52 22.4
s-w
13
ao 41 55.70
1.0677
33 15 30.0
9.661
n
18 57 43-53
«.J6J0
374832.1
4.078
"3
204359-57
•.06.S
23 5 37.6
9.»1
(4
19 0 5->6
»-»7i
37 44 13.0
4.113
»4
3046 3.08
1.0SS5
ai 5S 49.8
9.841
«s
19 2 a6.43
•.JSrf
27 39 55-3
4-3M
15
3048 6.23
21 45 56.6
16
19 4 47-3S
•.MJ7
27 35 28.9
4-51t
16
ao 50 9.01
1.043}
21 35 58.1
10. 018
17
19 7 7.91
*-iX»
27 30 53-9
4.fl33
17
2053 11.43
21 25 54.4
10.104
18
19 9 28. >3
•.3S40
37 36 10.5
18
3o 54 13.49
•.0314
31 1545.6
10.190
"9
19 1 1 47.99
1.51to
37 31 18.6
19
ao 56 15.20
l.MJS
21 531.6
10.173
19 »4 7-49
27 iJ 18.3
J. 074
305816.55
i.oigft
30 55 ia.6
.0.358
ti
19 16 36.63
*.)■»
27 II 9-7
21
21 0 17.55
1.0138
30 44 48.7
10.440
a
19 18 45.40
•.J0«»
27 5 52-9
5.348
33
21 2 18.30
1.0060
ao 34 19.8
»3
19 31 3-81
37 027.9
5.483
23
21 4 1B.51
a.ooi)
303346.1
io.«a*
H
19 33 31.85
t.W5
S.36 54 54.9
5.617
24
31 618.48
'■m»
S.20 13 7.6
to.6Bi
116 OCTOBER, 1913.
GREENWICH MEAN TIME.
THE HOON-S RIGHT ASCENSION AND DECLINATION.
VUI. OCTOBEK, 1913. 117
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
118 OCTOBER, 1913.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
OCTOBER, 1913.
119
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hoar.
RixbtAscensioo.
for
xMin.
DecUnatioii.
fbr
zMin.
Hour.
Right Aaeanaion.
for
iMin.
Declinmtion.
for
iMin.
TUl
ESDA^
V 21.
THURSDAY 23.
h m a
8
• **
•»
h m 8
8
0 * n
ft
0
6 42 36.64
a-4753
N.28 6 40.8
3.243
0
8 39 25.91
2.3641
N.22 22 2.3
X0.877
I
645 5-15
a.475x
28 3 21.1
3*4x3
I
8 41 47.64
2.3604
33 II 5.5
11.017
a
6 47 33.65
a.4748
27 59 51.3
3.383
2
844 9.16
3.3568
32 0 0.3
II. 156
3
650 a.ia
a.4743
27 56 I 1.3
S.75«
3
8 46 30.46
2.353X
31 48 46.8
11.393
4
6 53 30.56
a.47S7
27 52 31. 1
3.9ax
4
84851.53
2.9494
31 37 25.1
11.429
5
6 54 58.96
a.47«9
37 48 30.8
4.090
5
8 51 12.39
2.3497
21 35 55.3
IX. 565
6
6 57 a7.3i
a.47"
37 44 10.3
4.299
6
8 53 33.02
3.9420
21 14 173
11.700
7
6 59 55.6a
a. 47x3
27 39 49-7
4.496
7
8 55 53.43
2.3383
21 2 31.3
11.833
8
7 2 23.87
«.470S
27 35 18.9
4*997
8
8 58 13.62
3.3346
20 50 37.4
IX.964
9
7 453.06
2.469a
27 3038.x
4.7^
9
9 033.58
3.3906
30 38 35.6
13.095
10
7 730.17
a.4fi79
372547.1
4.933
10
9 2 53.32
3.3273
30 26 26.0
X3.334
II
7 948.31
3.4666
27 30 46. 1
5.X00
II
9 5 13.84
2.3235
20 14 8.7
X2.352
la
7 12 16.16
a.4651
27 X535.1
5.866
12
9 732.14
2.3x98
20 I 43.7
X3.480
13
7 14 44.02
3.4636
37 10 14.0
9.435
13
9 9 51.22
3.3161
19 49 1 1. 1
X8.606
14
7 17 11.79
3.4600
27 442.9
5.608
14
9 13 10.08
2.3125
19 36 31.0
X2.730
15
7 19 39.46
2.4609
26 59 1.8
5.768
15
9 14 28.72
a.9088
192343.5
12.853
i6
7 22 7.03
3.4385
26 53 10.8
S.933
16
9 1647.14
2.3052
19 10 48.6
X2.976
»7
7 34 34.48
3.4366
36 47 9.8
6.09B
17
9 19 5.34
3.9016
18 57 46.4
13.097
i8
7 27 1.82
3.4546
36 40 59.0
6.36s
18
9 21 33.33
3.3980
18 44 37.0
13.2x6
»9
7 29 29.03
3.4535
26 34 38.3
6.428
19
9 33 41.10
•.2944
18 31 20.5
X3.334
ao
7 31 56.12
a.4504
36 38 7.7
6.592
20
9 25 58.66
3.3908
18 17 56.9
13.452
ai
7 34 23.08
8.4461
26 21 27.3
6.754
31
9 28 16.00
3.1B73
18 4 26.3
13.568
22
7 36 49.89
a.445»
26 14 37.2
6.9x7
22
93033.14
8.3838
17 50 48.8
13.683
23
7 39 16.57
WED
a.4434
NESD
N.26 7 37.3
AY 22.
7.079
23
9 32 50.06
FF
3.3803
:IDAY
N.I737 4.5
24.
X3.794
0
741 43.10
3.4408
N.26 0 27.7
7.841
0
9 35 6.78
2.2770
N.I7 23 13.5
13.906
I
7 44 9.47
3.4583
25 53 8.4
7.402
I
9 37 23.30
3.3736
17 9 15.8
14.017
a
7 46 35.69
a.4357
25 45 39.5
7.568
2
9 39 39.61
8.370t
1655 "5
14.125
3
7 49 1.75
•.4330
25 38 I.O
7.72X
3
9 41 55.72
3.3668
16 41 0.8
X4.232
4
7 51 27.65
a.4308
25 30 13.0
7.880
4
9 44 ".63
3.«696
16 26 43.6
X4.339
5
7 53 53.37
2.4*73
35 32 15.4
8.098
5
9 46 27.35
3.3603
16 12 20.1
X4.444
6
7 56 18.93
3.4345
35 14 8.4
8.195
6
9 48 42.87
3.357X
15 57 50.3
X4.547
7
7 58 44.31
2..4ti5
25 5 52.0
8.352
7
9 50 58.20
2.2539
15 43 M-4
14.649
8
8 I 9.51
3.4185
24 57 26.2
8.506
8
9 53 1334
3.3506
15 28 32.4
14.750
9
8 334.53
2.4x54
2448 51. 1
8.663
9
9 55 2«.29
3.3477
15 13 44.4
14.849
10
8 5 59.36
3.4133
24 40 6.7
8.817
10
9 57 43.07
3.3447
14 58 50.5
X4.947
II
8 8 24.00
3.409X
3431 13.1
8.969
II
9 59 57.66
2.24x7
14 43 50.8
15.043
la
8 10 48.45
3.4058
34 22 10.4
9. 123
12
10 2 12.07
3.8388
14 28 45.3
15.138
'3
8 13 12.70
3.4035
24 " 58.5
9.273
13
10 4 26.31
3.3359
14 13 34-2
15.232
14
8 15 36.75
2.3992
34 337.6
9.423
14
10 6 40.38
3.333X
13 58 17.5
X5.323
15
8 18 0.61
2.3959
23 54 7.7
9.573
15
10 8 54.28
3.3303
13 42 55.4
X5.413
16
8 30 24.26
•.3924
33 44 28.8
9.722
16
10 II 8.02
3.8877
13 27 27.9
15.502
J7
8 23 47.70
•.3890
23 34 41.0
9.870
17
10 13 21.60
3.2350
13 II 551
15.590
18
8 25 10.94
2.3856
23 24 44.4
10.017
18
10 15 35.02
2.3233
12 56 17. 1
15.676
19
8 37 33.97
3.3831
23 14 39.0
10.163
19
10 17 48.28
a.3198
12 40 34.0
X5.760
20
8 29 56.79
2.3785
23 424.9
10.308
20
10 30 1.40
2.2174
12 24 45.9
15.843
21
8 32 19.39
2.3749
22 54 2.1
X0.452
21
10 22 14.37
2.2150
12 8 52.8
X5.925
22
83441.78
2.37x3
22 43 30.7
10.595
22
10 24 27.20
2.3137
" 52 54-9
16.005
33
837 3.95
2.3677
22 32 50.7
10.737
23
10 26 39.89
2.2103
II 36 52.2
X6.083
a4
8 39 25.91
3.3641
N.22 22 2.3
10.877
24
10 28 52.44
2.3081
N.ii 20 44.9
16.159
120 OCTOBBK, 1913.
MEAN TIME.
THE UOOH'S RIGHT ASCENSION AND DECLINATION.
xn.
OCTOBER, 1913.
121
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Dlff.
Diff.
Diff.
Diff.
Hour.
Right Asc«ation.
for
I Min.
Declination.
for
X Min.
Hour.
Right Ascension.
for
iMIn.
Declination.
for
1 Min.
WED
NESD
AY 29.
FRIDAY
31.
h m 8
8
h m 8
8
e ' m
••
O
14 2 23.50
8.3583
S.I6 I 45.3 15.139
0
16 0 56.12
3.5653
S.25 34 22.9
8.137
I
14 4 45.14
•.3631
16 16 49.9
15.034
I
16 3 30.12
a. 5679
25 42 25.8 7.959
2
14 7 7.07
2.365«
16 31 48.2
14.917
2
16 6 4.27
3.5705
25 50 18.0 1 7.780
3
14 9 29.28
2.37*6
16 46 39.9
14.807
3
16 8 38.58
a. 5730
25 57 59.4 ! 7.600
4
14 II 51.78
«.3774
17 I 25.0
14.695
4
16 II 13.03
a. 3753
26 5 30.0 7.4x9
5
14 14 14.57
•.3893
17 16 3.3
14.38X
5
16 13 47.61
a. 5774
26 12 49.7
7.«38
6
14 16 37.65
«.S87t
17 30 34.7
14.466
6
16 16 22.32
«.57»5
26 19 58.5
7.057
7
14 19 1.02
a. 39x9
17 44 59.2
14.348
7
16 18 57.15
a. 5815
26 26 56.4
6.873
8
14 21 24.68
S.3968
17 59 16.6
i4.a3o
8
16 21 32.10
a. 5833
26 33 43.4
6.691
9
14 23 48.63
8.4017
18 13 26.8
14.109
9
16 24 7.15
a.5850
26 40 19.4
6.508
lO
14 26 12.88
a. 4066
18 27 29.7
X3.986
10
16 26 42.30
3.5866
26 46 44.3
6.383
IX
14 28 37.42
a. 4x14
18 41 25.1
13.861
II
16 29 17.54
3.3880
26 52 58. 1
6.138
12
14 31 2.25
8.4x63
18 55 13.0
X3.734
12
16 31 52.86
3.5893
26 59 0.9
3.953
13
14 33 27.37
••4txx
19 8 53.2
13.606
13
16 34 28.25
a.5904
27 452.5
5.768
14
14 35 52.78
8.4160
19 22 25.7
13.476
14
1637 3.71
8.59x4
27 10 33.0
5.58a
15
14 38 18.49
•.4509
19 35 50.3
13.343
15
16 39 39.22
8.S9M
27 16 2.3
3 395
i6
14 40 44.49
a.4537
1949 6.9
i3.ao9
16
16 42 14.78
8.5939
27 21 20.4
5.308
17
14 43 10.77
•.4405
20 2 15.4
X3.074
17
16 44 50.37
a. 9934
27 26 27.3
5.031
i8
14 45 37.35
3.4453
20 15 15.8
18.937
18
16 47 25.99
a. 5939
27 31 23.0
4.834
19
14 48 4.21
a.45ox
20 28 7.9
13.798
19
16 50 1.64
3.594a
2736 7.4
4.647
20
14 50 31.36
a. 4548
20 40 51.6
13.657
20
16 52 37.29
a.S943
27 40 40.6
4.439
21
14 52 58.79
«.4595
20 53 26.8
ia.5X5
21
16 55 12.95
t.5943
2745 2.5
4.87a
22
14 55 26.50
3.4643
21 5 53.4
ia.37a
22
16 57 48.60
8.5941
27 49 13.2
4.084
23
14 57 54.50
8.4689
S.2I 18 II. 4
13.837
23
17 0 24.24
t.5937
S.27 53 12.6
3.897
THU
fRSDi
LY 30.
SATURDA
Y, NOVEMBER i.
O
15 0 22.77
a.4735
S.2I 30 20.6
18.079
0
17 2 59.85
8.593a
S.27 57 0.8
3.709
I
15 251.32
15 5 20.14
3.4781
a. 4837
21 42 20.9
21 54 12.2
11.930
11.780
2
3
15 7 49.24
a. 4873
22 5 54-5
11.639
4
15 10 18.60
3.4916
22 17 27.7
11.476
PHASES
OF T]
HE MOON.
5
6
15 1248.23
15 15 18.13
•.496X
22 28 51.6
22 40 6. 1
11.330
11.164
8.y)Q|
7
15 17 48.28
8.S046
22 51 II. 2
11.007
8
15 20 18.68
8.S088
23 2 6.9
10.848
d b m
9
15 22 49.34
8.5x30
^0 ^
23 12 53.0
10.668
3)
First Quart
er .
Oct. 6 13 46.2
lO
15 25 20.24
15 27 51.38
3.3x70
8.S3XZ
23 23 29.4
2333 56.1
10. 526
10.363
0
Full Mood
• • lA 18 6.0
II
Last Quarts
• •
. . . 22 10 53.0
12
15 30 22.77
15 32 54.39
15 35 26.24
3.5351
3.5*89
23 44 12.9
23 54 198
24 4 16.8
10.198
10.033
9.866
•
New Moon
• • 20
2 29.2
13
T A
# s
• • • ^r
^4
8.5337
15
15 37 58.31
a. 5363
24 14 3.7
9.698
x6
15 40 30.60
«.5399
242340.5
9.5*8
,
d h
17
1543 3.10
a. 5435
2433 71
9.358
c
Apogee .
• •
. . Oct. 12 3.2
x8
15 45 35.82
1548 8.73
15 50 41.84
8.<4te
24 4« 23.5
24 51 29.5
25 0 25.2
0.187
c
Periiree .
27 I*i.O
19
3.5503
«.5534
9.014
8.841
^ ^^* M^^^^^^ •
• •
• • • • / J ir
20
21
15 53 15.14
3.5566
25 9 10.4
8.667
22
15 55 48.63
t.53»6
«5 17 45.1
8.49X
23
15 58 22.29
a. 5684
25 26 9.3
8.314
«4
z6 0 56.12
8.565a
S.25 34 22.9
8.137
122
NOVEMBER, 1913.
AT GREENWICH APPARENT NOON.
Day of
Week.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN,
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN,
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN,
Mon.
THE SUN'S
I
2
3
4
5
6
7
8
ID
II
12
13
15
i6
17
i8
20
21
22
23
24
25
26
27
28
29
30
31
Apparent Richt
Asceiision.
m
4 24 18.56
4 28 13.84
432 9.90
436 6.76
440 4.42
4 44 2.90
448 2.19
452 2.31
456 3.27
5 o 5.06
5 4 7.69
5 8 II. 15
5 12 15.46
5 16 20.62
5 20 26.63
5 24 33.50
5 28 41.22
5 32 49.79
5 36 59.21
541 9.48
5 45 20.58
5 49 32.52
5 53 45.27
5 57 58.83
6 2 13.19
6 628.32
6 1044.21
6 15 0.83
6 19 18.16
62336.17
16 27 54.85
Diff. for
z Hotir.
s
9.786
9.819
9.852
9.886
9.920
9.954
9.988
10.022
10.057
10.092
10.127
10.162
10.197
10.233
10.268
10.303
"0.339
10.374
10.409
10.445
10.480
10.514
10.548
10.581
10.614
10.646
10.677
10.707
10.736
10.764
10.791
Apparent Decli-
nation.
//
s.
41953.2
4 39 5.8
458 4-1
5 16 47.6
5 35 16.0
5 53 28.9
611 25.8
6 29 6.3
6 46 30.2
7 337.0
7 20 26.3
7 36 57.7
7 53 10.8
8 9 5.3
8 24 40.8
8 39 56.8
85453.1
9 929.3
9 23 45.0
9 37 39.7
951 13.2
20 425.1
20 17 15.0
20 29 42.5
20 41 47.3
20 53 28.9
21 447.0
21 15 41.3
21 26 1 1.5
21 36 17.2
DifF. for
I Hour,
//
-48.32
47-72
47.11
-46.49
45.86
45.21
-44.53
43.84
43.14
-42.42
41.68
40.92
-40.15
39.37
38.58
-37.76
36.93
36.08
-35.22
34.34
33.44
-32.53
31.61
30.67
■29.72
28.75
27.76
-26.76
2575
24.72
S.2I 45 58.2 -23.68
Semidiam-
eter.
f*
6 9.07
6 9.33
6 9.58
6 9.83
6 10.07
6 10.32
6 10.56
6 10.80
6 11.04
6 11.27
6 11.50
6 11.73
6 11.95
6 12.17
6 12.39
6 12.60
6 12.80
6 13.00
6 13.20
6 13.39
6 13.58
6 13.76
6 13.94
6 14.12
6 14.30
6 14.47
6 14.64
6 14.81
6 14.98
6 15.14
16 15.30
Sidereal
Time of
Semidi-
ameter
Passing
Me-
ridian.
66.86
66.97
67.08
67.20
67.32
67.44
67.56
67.68
67.80
67.92
68.04
68.16
68.28
68.40
68.52
68.64
68.76
68.88
68.99
69.10
69.21
69.32
69.43
69.53
69.63
69.74
69.84
69.94
70.04
70.13
70.22
Bquation of
Time, to be
Subtracted
from
Apparent
Time.
m 8
6 18.90
6 20.18
6 20.67
6 20.37
6 19.27
6 17.35
6 14.61
6 11.05
6 6.67
6 1.46
5 55.41
5 48.52
5 40.78
5 32.20
5 22.77
5 12.49
5 1.36
4 49.38
4 36.55
4 22.88
4 8.37
3 53.04
3 36.89
3 19.93
3 2.18
2 43.66
2 24.39
2 4.38
I 43.66
I 22.26
II 0.20
NoTB. — The mean time of semidiameter passing the meridian may be found by subtracting o*.i8 fn
sidereal time.
The sign — prefixed to the hourly change of declination indicates that south declinations are incr
II.
NOVEMBER, 1913.
AT GREENWICH MEAN NOON.
123
Dmyai
the
Week.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
FrL
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
SUN.
Mon.
^1
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
I
THE SUN'S
Apparent Right
Ascensioii.
h m s
4 24 21.23
4 28 16.51
4 32 12.58
4 36 9.45
4 40 7.12
4 44 560
4 48 4.90
4 52 502
4 56 5-97
5 o 7.75
5 4 IO-37
5 8 13.82
5 12 18.12
5 16 23.27
5 20 29.27
5 24 36.12
5 28 43.81
5 32 52.35
5 37 1.74
5 41 "98
5 45 23.05
5 49 34.95
5 53 47.66
5 58 1. 18
6 2 15.49
6 6 30.57
6 ID 46.41
6 15 2.98
6 19 20.25
6 23 38.20
16 27 56.82
Diff. for
I Hour.
s
9.787
9.820
9.853
9.886
9.920
9.954
9.988
0.022
0.057
0.092
0.127
0.162
0.197
0.232
0.267
0.303
0.339
0.374
0.409
0.444
0.479
0.513
0.547
0.580
0.612
0.644
0.675
0.705
0.734
0.762
10.789
Apparent Decli-
nation.
//
s.
4 20 6.3
4 39 18.8
4 58 16.9
5 17
5 35
5 53
0.3
28.5
41.2
6 II 37.9
6 29 18.2
6 46 41.8
7 3 48.3
7 20 37.3
7 37 8.4
7 53 21.2
8 9 15.4
8 24 50.6
8 40 6.3
8 55 2.3
9 9 38.2
9 23 53.5
9 37 47.9
9 51 21. 1
20 4 32.6
20 17 22.2
20 29 49.3
• 20 41 53.7
20 53 35.0
21 4 52.8
21 15 46.7
21 26 16.5
21 36 21.9
S. 21 46 2.5
Diff. for
I Hour.
ft
-48.31
47.72
47.11
-46.49
45.85
45.20
-44.52
43.83
43.13
-42.41
41.67
40.91
-40.14
39.36
38.56
-37.74
36.91
36.07
-35.21
34.33
33-43
-32.52
31.60
30.66
-29.70
28.73
27.75
-26.75
25.73
24.71
-23.67
Equation of
Time to be
Added to
Mean Time.
m 8
6 18.92
6 20.19
6 20.67
6 20.36
6 19.24
6 17.31
6 14.57
6 1 1. 01
6 6.62
6 1.40
5 55.34
5 48.44
5 40.69
5 32.10
5 22.66
5 12.38
5 1.24
4 49.25
4 36.42
4 22.74
4 8.23
3 52.89
3 36.73
3 19.77
3 2.01
2 43.49
2 24.22
2 4.21
I 43.49
I 22.09
I 0.03
Diff. for
z Hour.
8
0.070
0.037
0.003
0.030
0.063
0.097
O.I3I
0.166
0.201
0.236
0.270
0.305
0.340
0.376
0.41 I
0.446
0.482
0.517
0.552
0.587
0.622
0.656
0.690
0.723
0.756
0.787
0.818
0.848
0.877
0.905
0.932
Sidereal Time.
or Right Ascen'
sion of Mean
Sun.
m
4 40 40.14
4 44 36.70
4 48 33.25
4 52 29.81
4 56 26.36
5 o 22.92
5
5
5
19.48
16.03
12 12.59
4
8
5 16
5 20
5 24
9.15
5.70
2.26
5 27 58.82
5 31 55.37
5 35 51.93
5 39 48.49
5 43 45.04
5 47 41.60
5 51 38.16
5 55 34.72
5 59 31.28
6 3 27.83
6 7 24.39
6 II 20.95
6 15 17.51
6 19 14.06
6 23 10.62
6 27
6 31
6 35
7.18
3.74
0.30
16 38 56.86
NoTV. — ^The semidiameter for mean noon may t>e assumed the same as that for apparent noon.
The sign — prefixed to the hourly change of declination indicates that s^uth declina-
tlons are increasing.
Diff. for I Hour.
+9*-8s6S.
(Table III.)
124
NOVEMBER, 1913.
m.
AT GREENWICH MEAN NOON.
Mean'
Sidetei
V
V
THE SUN'S
Logarithm of the
Radius Vector of
theBarth.
Diflf. for
X Hour.
rime of
il Noon.
>ay of
Monti
True Longitude.
Diff. for
X Hour.
Latitude.
M
X
if
0
/ //
* It
//
//
h
m
8
I
305
218
28 28.1
27 45.1
150.21
— 0.67
9.996 5975
-47.4
9
17
48.23
2
306
2]fc9
28 34.1
27 510
150.28
0.67
9.996 4837
47.2
9
13
52.32
3
307
220
28 41.8
27 58.5
150.34
0.64
9.996 3705
46.9
9
9
56.41
4
308
221
28 51.0
28 7.5
150.41
— 0.60
9.996 2580
-46.6
9
6
0.50
5
309
222
29 1.7
28 18.1
150.48
0.52
9.996 1465
46.2
9
2
4.59
6
310
223
29 13.9
28 30.2
150.55
0.42
9.996 0361
45.7
8
58
8.68
7
311
224
29 27.7
28 43.8
150.61
-0.31
9.995 9269
-45.2
8
54
12.77
8
312
225
29 43.0
28 58.9
150.67
0.19
9.995 819I
44.6
8
50
16.86
9
313
226
29 59.8
29 15-6
150.73
— 0.06
9.9957128
44.0
8
46
20.94
lO
314
227
30 18.2
29 33.8
150.79
-f 0.06
9-995 6081
-43-3
8
42
25.03
II
315
228
30 38.1
29 53.5
150.86
0.17
9.995 5050
42.6
8
38
29.12
12
316
229
30 59.5
30 14.8
150.93
0.28
9.995 4037
41.8
8
34 33.21
13
317
230 31 22.5
30 37.7
150.99
+ 0.38
9.995 3043
-41.0
8
30 37.30
H
318
231
31 47-1
31 2.2
151.06
0.45
9.995 2069
40.2
8
26
41.39
15
319
232
32 13.4
31 28.3
151.13
0.49
9-995 1 1 15
39.3
8
22
45.48
i6
320
233
32 41.4
31 56.1
151.20
-fO.50
9.995 0181
-38.5
8
18
49.57
17
321
234 33 II. I
32 25.6
151.28
0.48
9.994 9266
37.7
8
14
53.66
i8
322
235
33 42.6
32 56.9
151.35
0.43
9.994 8371
36.9
8
10
57.75
19
323
236
34 158
33 29.9
151.42
+ 0.35
9.994 7495
-36.1
8
7
1.83
20
324
237
34 50.8
34 4-7
151.49
0.25
9.994 6637
35.4
8
3
5.92
21
325
238
35 27.5
34 41-3
151.57
4-0.14
9.994 5796
34-7
7
59
10.01
22
326
239
36 6.0
35 19.6
151.64
0.00
9-9944971
-34.1
7
55
14.10
23
327
240
36 46.3
35 59.7
151-71
-0.13
9.994 41 61
33.5
7
51
18.19
24
328
241
37 28.2
36 41.5
151.78
0.26
9.994 3365
32.9
7 47
22.27
25
329
242
38 11.7
37 24.8
151.85
-0.38
9.994 2581
-32.4
7
43
26.36
26
330
243
38 56.7
38 9.6
151-91
0.48
9.994 1809
31.9
7
39
30.45
27
331
244
39 43-2
38 55.9
151-96
0.55
9.994 1048
31.5
7
35
34.54
28
332
245
40 31.0
39 43.5
152.02
-0.59
9.994 0299
-31.0
7
31
38.63
29
333
246
41 20.0
40 32.3
152.07
0.59
9.993 9561
30.5
7
27
42.71
30
334
247
42 10. 1
41 22.2
152.11
0.56
^ 9.993 8836
30.0
7
23
46.80
31
335
248
43 1.3
42 13.2
152.15
-0.51
9.9938123
-29.4
7
19
50.89
NOTB.~Tl
le lonsitudes in the
column X are
referred t<
3 the true equinox of their on
m date.
Di£
f. for
X Hour,
while those in the cc
tlumn X' arc re
f erred to 1
Jhe mean equinox of the besin
ining of
— 9».8a96.
the Besselian fictitJc
ms year.
CTable II.)
JV.
NOVEMBER, 1913.
GREENWICH MEAN TIME.
125
e
c
1
3
c
THE MOON'S
SBMIDIAMETBR.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGE.
I
3
3
4
5
6
7
8
10
11
12
15
H
1$
i6
17
i8
20
21
22
23
24
25
26
27
28
29
30
31
Noon.
ff
15 57-4
15 42.4
15 27.9
15 14.8
15 3.8
14 55.5
14 49.8
14 46.9
14 46.5
14 48-3
14 52.0
14 57.2
15
15
15
3-5
10.5
18.0
15 25-8
15 33-7
15 41.8
15 49-9
15 57-9
16 5.6
16 12.5
16 18.0
16 21.4
16 22.1
16 19.4
16 13-4
16
15
15
15
4-4
53-1
40.4
275
Midiriffht.
Noon.
I.
321 15 154
//
5 50.0
5 35-0
5 21. 1
5 9.0
4 59.3
4 52.3
4 48.0
4 46.4
4 47-1
4
4
50.0
54.4
0.2
5 6.9
5 14.2
5 21.9
5 29.8
5 37.8
5 45.8
5 53.9
6 1.8
6 9.2
6 15.5
6 20.0
6 22.1
6 21.2
6 16.8
6 9-3
5 59.0
5 46.8
5 33.9
5 21.3
15 9-9
58 27.94
57 32.92
5^ 39.54
55 51.50
55 ".32
54 40.58
54 19-86
54 9.07
54 7.55
54 14.24
54 27.82
54 46.86
55 9.92
55 35.74
56 3.29
5631.85
57 I 00
57 30.55
58 0.26
58 29.69
58 57.85
59 23.15
59 43.39
59 55.92
59 58.26
59 48.66
59 26.73
58 53.61
58 11.98
57 25.49
56 38.12
Di£F. for
I Hour.
//
-2.262
2.290
2.133
-1.854
1.484
1.073
-0.653
-0.250
+O.II5
+0.433
0.690
0.886
+ 1.026
1. 118
1. 173
+1.203
1.224
1.236
+ 1.236
1.208
1. 126
+0.966
0.702
+0.325
-0.143
0.659
1. 160
Midnight.
//
58 0.51
57 5.76
56 14.68
55 30.30
54 54.71
54 28.96
54 13.25
54 7.21
54 9.94
54 20.26
54 36.75
54 57.97
55 22.56
55 49.35
56 17.48
56 46.36
57 15.74
57 45.40
58 15.05
58 44.02
59 10.98
59 34.06
59 50.79
59 58.50
59 55.01
59 39.20
59 11.43
1.580 I 58 33.64
1-863 I 57 4909
I 983 57 I 67
1.938 ! 56 15.29
55 53.60 -X.749 55 3341
DifF. for
I Hour.
//
-2.301
2.231
2.006
-1.677
1.282
0.863
-0.449
-0.061
+0.280
+0.569
0.796
0.963
+ 1.077
1. 149
1. 191
+ I.214
1. 231
1.238
+ 1.227
1. 177
1.058
+0.848
0.526
+O.IOI
-0.399
0.915
1.385
-1. 741
1.944
1.980
1.859
—1. 610
Meridian of
Greenwich.
h m
2 28.3
3 28.3
4 25.5
5 18.3
6 6.5
6 50.8
7 32.0
8 11.5
8 50.2
9 29.4
10 10. 1
10 53.5
11 40.4
12 31.3
13 25.8
14 23.0
15 20.8
16 17.3
17 11.3
18 2.5
18 51.6
19 39.8
20 28.4
21 18.9
22 12.3
23 9.3
6
0 9.3
1 10.5
2 10.3
3 6.5
3 57.8
Diflf. for
X Hour.
Noon.
m
2.53
2.45
2.30
2.10
1.92
1.77
1.67
1.62
1. 61
1.66
1.75
1.88
2.04
2.20
2.34
2.41
2.39
2.31
2.19
2.08
2.02
2.01
2.06
2.16
2.30
2.44
2.54
2.54
2.43
2.24
2.04.
d
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
0.4
1.4
2.4
3.4
4.4
126
NOVEMBER, 1913.
V.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
•
Diff.
Diff.
Hoar.
Right Ascension.
for
X Min.
Declination.
for
xMin.
Hoar.
Right Ascension.
for
iMin.
Declination.
for
1 Min.
SATURDAY i.
MONDAY 3.
h m 8
s
0 » w
»•
h m 8
8
e f N
M
O
17 259.85
a.593«
S.27 57 0.8
3.709
0
19 4 7.48
a.4049
S.27 27 42.8
4.611
I
17 535.42
a.59«5
28 0 37.7
3.5aa
I
19 6 31.58
a. 3983
27 23 1.7
4.759
2
17 8 10.95
a. 59x7
28 4 3.4
3.334
2
19 8 55.28
a. 39x7
27 18 II. 7
4.907
3
17 10 46.43
2.5907
28 7 17.8
3.147
3
19 II 18.58
a. 3850
27 13 12.9
5.053
4
17 13 21.85
a. 3897
28 10 21.0
a. 960
4
19 13 41.48
a. 3783
27 8 5.4
3.X97
5
17 15 57.19
a. 5884
28 13 13.0
•'775
5
19 16 3.97
a. 37x5
27 249.3
5.339
6
17 18 32.45
a. 5869
28 15 53.7
a. 386
6
19 18 a6.o6
a. 3647
26 57 24.7
5.481
7
17 21 7.62
a.5853
28 18 23.3
a. 400
7
19 ao 47.73
a. 3577
a6 51 51.6
5.6sa
8
17 23 42.69
a. 5837
28 20 41.7
8.ai4
8
19 23 8.98
a.3307
26 46 10. 1
5.761
9
17 26 17.66
a. 5818
28 22 49.0
a.oa8
9
19 25 29.82
2.3438
26 40 20.3
5.898
10
17 28 52.51
a. 3798
28 24 45. 1
1.842
10
19 27 50.24
2.3368
26 34 22.3
6.034
II
17 31 27.24
9-5777
28 26 30. 1
1.657
II
19 30 10.23
a.3a97
26 28 16.2
6.169
12
1734 1.83
a. 5753
28 28 4.0
1.47a
12
19 32 29.80
2.3226
26 22 2.0
6.303
13
17 36 36.27
a.37a8
28 29 26.8
i.a89
13
19 34 48.94
a.3134
26 15 39.8
6.435
14
17 39 10.56
a. 570a
28 30 38.7
1.107
14
1937 7.65
a. 3083
26 9 9.8
6.565
15
17 41 44.69
a. 3673
28 31 39.6
0.913
15
19 39 25.94
a. 301a
26 2 32.0
6.694
i6
17 44 18.64
a. 5643
28 32 29.5
0.741
16
19 41 43.79
a.a939
25 55 46.5
6. Sat
17
1746 52.41
a. 3613
2833 8.5
0.339
17
19 44 1. 21
a.s867
25 48 53.3
6.949
i8
17 49 26.00
a. 358a
28 33 36.6
0.378
18
19 46 18.20
a. 2795
25 41 52.6
7.074
19
17 51 59.39
a. 5548
28 33 53.9
0.198
19
19 48 34.75
2.a7aa
25 34 44.4
7.198
20
17 54 32.57
a. 5313
28 34 0.4
—0.018
20
19 50 50.86
2.2649
25 27 28.8
7- 310
21
17 57 5.54
a. 5477
28 33 56. 1
+0.16X
21
19 53 6.54
a. 2577
25 20 6.0
7.44X
22
17 59 38.29
a. 5439
28 33 41. 1
0.338
22
19 55 21.78
2.2504
25 12 35.9
7.56a
23
18 2 10.81
SI
a. 5400
JNDA^
S.28 33 15.5
^ 2.
0.513
23
19 57 36.59
TU
2.a43a
ESDA
S.25 4 58.6
Y4.
7.680
0
18 443.09
2.5359
S.28 32 39.3
0.692
0
19 59 50.96
a. 8358
S.24 57 14.3
7.797
I
18 7 15.12
a. 3317
28 31 52.5
0.867
I
20 2 4.89
8.3283
24 49 23.0
7.91a
2
18 9 46.90
a. 3274
28 30 55.2
1.042
2
20 4 18.38
a.aaia
24 41 24.9
8.026
3
18 12 18.41
a.3aa9
282947.5
x.ax5
3
20 6 31.44
a.ai40
24 33 19.9
8.139
4
18 14 49.65
2.3184
28 28 29.4
1.388
4
20 8 44.06
2.2067
24 25 8.2
8.250
5
18 17 20.62
a. 5137
28 27 0.9
1.360
5
20 10 56.24
a.i99«
24 16 49.8
8.361
6
18 19 51.30
a. 5089
28 25 22.2
1.730
6
20 13 7.99
2.1922
24 8 24.9
8.470
7
18 22 21.69
2.3040
28 23 33.3
1.900
7
ao 15 19.31
2.1851
23 59 53.5
8.578
8
18 24 51.78
a.4990
28 21 34.2
2.069
8
20 17 30.20
a. 1778
23 51 15.6
8.684
9
18 27 21.57
a. 4938
28 19 25.0
2.237
9
20 19 40.65
2.1706
23 42 31.4
8.788
lO
18 29 51.04
a. 4883
28 17 5.8
a. 403
10
20 21 50.67
2.1634
23 33 41.0
8.89a
II
18 32 20.19
a. 483a
28 14 36.6
2.369
II
20 24 0.26
a. 1562
23 24 44.4
8.995
12
18 34 49.02
a. 4777
28 II 57.5
a. 733
12
20 26 9.42
a. 149X
23 15 41.6
9.097
13
18 37 17.51
a.47ai
28 9 8.6
2.896
13
20 28 18.15
a. 1420
23 6 32.8
9.196
H
18 39 45.67
a. 4664
28 6 10.0
3.038
14
20 30 26.46
2.1350
22 57 18. 1
9. •93
15
18 42 13.48
a. 4607
28 3 1.7
3.219
15
20 32 34.35
2.ia8o
22 47 57.6
9. 391
i6
18 44 40.95
a. 4548
27 59 43.7
3.378
16
ao 34 41.82
a.iaio
22 38 31.2
9.487
17
18 47 8.06
a.4488
27 56 16.2
3.537
17
20 36 48.87
a. 1 140
22 28 59.1
9.58*
i8
18 49 34.81
a.4428
27 52 39.2
3.694
18
20 38 55.50
2. 1071
22 19 21.4
9.675
19
18 52 1.20
2.4367
27 48 52.9
3.830
19
2041 1.72
2.1002
22 9 38.1
9.767
20
18 54 27.21
a. 4304
2744 57.2
4.005
20
2043 7.52
a. 0933
21 59 49.4
9.858
21
18 56 52.85
a.4a4t
27 40 52.3
4.158
21
20 45 12.92
a.o866
21 49 55.2
9.948
22
18 59 18. II
a.4178
27 36 38.2
4.3x1
22
20 47 17.91
a. 0798
21 39 55.6
10.037
23
19 I 42.99
a.4114
27 32 15.0
4.46a
23
20 49 22.49
8.0730
21 29 50.8
10. 183
M
19 4 7.48
a.4049
S.27 27 42.8
4.611
24
20 51 26.67
a. 0663
S.2I 19 40.8
10.109
VI.
NOVEMBER, 1913.
GREENWICH MEAN TIME.
127
THE MOON'S RIGHT ASCENSION AND DECLINATION.
128 NOVEMBER, 1913.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Vm. NOVEMBER, 1913. 129
GREENWICH MEAN TIME.
THE UOON'S RIGHT ASCENSION AND DECLINATION.
130
NOVEMBER, 1913.
IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
Diff.
Diff.
Hour.
Right Ascension.
for
iMin.
Declination.
for
X Min.
Hour.
Right AscensioxL
for
X Min.
Declination.
for
xMin.
MONDAY 17.
WEDNESDAY 19.
h m s
s
• • •>
tt
h m 8
t 1
e * •*
w
O
6 29 4.36
2.483a
N.28 II 26.0
a. 39a
0
8 25 54.81
3.35*5
N.23 826.1
9.968
I
6 31 33.34
3.4828
28 8 57.4
2.562
I
8 28 15.83
3.348a
22 58 23.9
X0.T06
2
6 34 2.30
2.4823
28 6 18.6
2.732
2
83036.59
a. 3438
22 48 13.4
10.348
3
6 36 31.22
2.48x8
28 3 29.6
2.901
3
8 32 57.09
a. 3394
22 37 54.8
XO.S77
4
6 39 0.1 I
2.48x1
28 030.5
3.070
4
8 35 17.32
a. 3350
22 27 28.3
10.510
5
6 41 28.95
a.4808
27 57 21.2
3.«40
5
8 37 37.29
a.3307
22 16 53.6
X0.648
6
6 43 57.73
2.479«
27 54 1.7
3.409
6
8 39 57.01
3.3*64
22 6 II. X
10. 771
7
6 46 26.45
a. 4781
27 50 32.1
3.577
7
8 42 16.46
t.53i9
21 55 30.8
XO.909
8
6 48 55.10
a.47«9
27 46 52.5
3.745
8
8 44 35.64
3.3x75
21 44 22.7
xx.fltss
9
6 51 23.68
a. 4756
2743 2.7
3.9x4
9
8 46 54.56
a.3X3x
21 33 16.9
ix.xte
lO
6 53 52.17
a. 4741
27 39 2-8
4.062
10
849 13.21
a. 3087
21 22 3.4
xx.iBi
II
6 56 20.57
2.4726
27 34 52.9
4.248
II
8 51 31.60
a.3<H3
21 10 42.4
11.41S
12
6 58 48.88
a. 4709
27 30 33.0
4.4x5
12
8 53 49.72
a. 2998
20 59 13.9
".537
13
7 I 17.08
a. 4691
37 26 3.1
4.58a
13
8 56 7.58
a. 2954
20 47 38.0
X1.6S9
14
7 345.17
2.467a
27 21 23.2
4.748
14
8 58 35.17
8. 3910
20 35 54.8
xi.7€i
15
7 6 13.14
2.4652
27 16 33.3
4.914
15
9 042.50
2.3866
20 24 4.3
ti.901
x6
7 840.99
2.4630
27 II 33.5
5.079
16
9 2 59.56
f.38«a
20 13 6.7
I8.0W
17
7 II 8.70
a. 4608
27 6 23.8
5.843
17
9 5 16.36
3.3778
20 0 1.9
18.130
i8
7 13 36.28
a.45«5
27 I 4.3
5.408
18
9 7 32.90
t.3736
19 47 50. 1
IS.89S
19
7 16 3.72
•.4561
26 55 34.9
5.57a
19
•9 9 49-19
3.269a
19 35 31-3
18.S70
20
7 18 31.01
2.4535
26 49 55.7
5.734
20
9 12 5.21
3.3648
19 23 5.7
18.441
21
7 20 58. 14
2.4509
26 44 6.8
5.896
21
9 14 20.97
3.a6o6
19 1033.3
x«-387
22
7 23 25.11
a. 448s
26 38 8.2
6.038
22
9 16 36.48
■.•563
18 57 54.1
18.70i
23
7 25 51.92
«.4453
N.26 31 59.9
6.ax9
23
9 18 51.73
2.353X
N.18 45 8.3
I8.8lf
TU]
ESDA^
Y 18.
THU
RSDA
lY 30.
O
7 28 18.56
2. 44*5
N.26 25 41.9
6.380
0
9 21 6.73
t.3479
N.18 32 15.8
X3.9it
X
7 30 45.02
a. 4395
26 19 14.3
6.539
I
9 23 21.48
a. 3438
18 19 16.9
13.035
2
7 33 11.30
a.4364
26 la 37.2
6.698
2
9 25 3598
2.3396
18 6 11.6
X3.X41
3
7 35 37.39
«.433a
26 5 50.6
6.856
3
9 27 50.23
8.3354
17 53 0.0
13.346
4
7 38 3.29
2.4300
25 58 54.5
7.013
4
9 30 4.23
a. 2313
17 39 43.1
X5.3S»
5
7 40 28.99
2.4*67
25 51 49.0
7.170
5
9 32 17.99
2.2373
17 36 18.0
X3.45«
6
7 42 54.49
a. 4233
254434.1
7.3a6
6
93431.51
3.2834
17 12 47.8
X3.5SS
7
7 45 19.78
a. 4198
2537 9.9
7.480
7
9 36 44.80
3.2x95
16 59 II. 6
13.^
8
7 47 44.87
2.4x63
25 29 36.5
7-634
8
9 38 57.85
2.2x35
16 45 29.4
«S.75t
9
7 50 9-74
2.4127
25 21 53.8
7.788
9
9 41 10.66
2.2x17
16 31 41.3
13.850
lO
7 52 34.39
2.4090
25 14 1.9
7.940
10
9 43 23.25
a. 2079
16 17 47.4
X3.9CS
II
7 54 58.82
«.4053
25 6 i.o
8.091
II
9 45 35.61
2.204X
16 3 47.9
14.039
12
7 57 23.03
2.40x6
24 57 51.0
8. 343
12
9 47 47.74
2.3003
15 49 42.7
X4.X38
13
7 59 47.01
a. 3977
24 49 32.0
8.392
13
9 49 59.65
3.1967
15 35 32.0
14.884
14
8 2 10.75
a. 3938
24 41 4.0
8.540
14
952 11.35
a.x93«
15 31 15.8
14.3x5
15
8 4 34.26
a. 3898
24 32 27.2
8.687
15
9 54 22.83
3.X896
15 6 54.2
M.404
i6
8 6 57.53
2.3838
24 2341.6
8.833
16
9 56 34.10
2.186X
14 52 27.3
X4.49>
17
8 9 20.56
a. 3818
24 1447.2
8.979
17
9 5845.16
3.X827
14 37 55.2
14.57s
i8
8 II 43.34
^'$777
24 544.1
9.124
18
10 0 56.02
3.1792
14 23 17.9
14.6^
19
8 14 5.88
a. 3736
23 56 32.3
9.367
19
10 3 6.67
3.X759
14 8 35.6
M.747
20
8 16 38.17
2.3694
23 47 12.0
9.410
20
10 517.13
3.1737
13 53 48.3
X4.8i»
21
8 18 50.21
2.365a
23 3743.1
9.55a
21
10 7 27.39
3.1694
13 38 56.1
14.9W
22
8 21 12.00
a. 36x0
23 28 5.8
9.69a
22
10 937.47
8.X664
13 23 59.x
X4.99»
23
8 23 33.53
a. 3568
23 18 20.1
9.83X
23
10 II 47.36
3.X633
13 8 57.3
15.068
24
8 25 54.81
2.35a5
N.23 8 26.1
9.968
24
10 13 57.06
8.1603
N.I3 53 50.9
X5.U5
X. NOVEMBER, 1913. 131
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
132
NOVEMBER, 1913.
XI.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
DUL
Di£f.
DilL
Diff.
Honr.
Right A«cex»uoiu
for
xMIq.
DoQlinatloiv
I Min.
^OXXI.
Right Ascen»ion,
for
1 Min.
DecUo^tioa.
i&L.
TUESDAY 25. 1
THURSDAY 27.
h m s
8
. . »» , H 1
h m 8
3
e » M
M
O
133946.16
9.2600
S.I3 35 37.1
15.533
0
153429.05
2.5193
S.23 58 29.4
9.741
I
1342 I.91
3.2649
13 5X 6.7
15.453
I
1537 0.34
3.5339
24 8 9.0
9.579
%
13 44 i7.ft5
13 40 34.30
3.2699
14 631.5
15.373
2
15 39 31.92
3.5286
24 17 38.9
9.4X6
3
3.3750
1421 51.5
13.392
3
1542 3.77
3.5331
24 26 58.9
9.353
4
13 45 50.95
3.38OZ
14 37 6.6
15.309
4
15 44 35.89
a. 5375
2436 9.1
9.087
5
13 51 791
3.3853
14 52 16.6
X5.133
5
1547 8.27
3.5419
2445 9.3
8.930
^
13 53 25- ;9
3.3906
15 7 21.4
X5.Q36
6
15 49 40.92
3.5463
24 53 59.5
8.753
7
13 55 42-78
3.3958
15 22 20.9
14.948
7
15 52 13.82
3.5504
25 239.5
8.58s
3
13 58 0.68
t.3oiz
1537 15.1
X4.857
8
15 54 46.97
3.5545
25 " 9-3
8.4x3
9
14 0 18.91
3. 3064
15 52 3.7
14.763
9
15 57 20.36
t.5584
25 19 28.9
8.341
10
14 2 37-45
3.31x8
16 6 46.7
14.6^
10
15 59 53-98
3.5fiS3
25 27 38.2
8.068
n
14 456-32
3.3x7a
16 21 24.0
14.573
II
16 2 27.83
3.5660
25 35 37.0
7.893
12
, 14 7 15.52
3.3337
i6 35 55-4
M.474
12
16 5 1.90
a. 5697
25 43 25.4
7.718
^3
14 9 35.04
3.3383
16 50 20.9
14. 374
13
16 736.19
3.5733
25 51 3.2
7.543
14
14 II 54.90
a. 3337
17 440.3
X4.273
14
16 10 10.68
3.5765
25 58 30.5
7.367
15
14 lA 15.08
14 16 3S-$o
3.339a
17 18 53.5
14.1^
15
16 12 45.37
3.5793
26 547.2^
7.188
i6
3.3448
X7 33 9.4
X4.o6t
16
10 15 20.26
3.58^30
26 12 51. 1
26 19 48.2
7.Q08
17
14 18 56.45
3.35P3
1747 0.9
13.954
17
16 17 55-33
3.5859
6.8«
l8
14 21 17.64
3.3560
x8 Q 54.9
13.844
18
jfi 20 30.57
3.5888
26 26 32.6
6.^
19
. 14^339.17
3.3617
18 14 42.2
13.733
19
16 23 5.98
3.5915
2633 6.1
6.46B
ap
14 26 i,.04
3.3«73
18 28 22.8
13.690
20
162541.55
3.5041
26 39 2^8-7
6.^
21
14 28 23.25
3.3719
18 41 56.6
13.505
21
16 28 17.27
t.5966
26 45 40.3
6.xoa
22
. H 3Q 45- W
3.3736
18 55 23.4
13.388
22
16 30 53. 14
3.5989
26 51 41.0
5.W
^
,1433 3.68
3.3843
s. 19 a 43. 1
13.368
23
1633 a9-M
3.6010
S.26 57 30.0
5.735
WED
•
NESD
AY 26. 1
FR
JDAY
23.
*
0
, 14 35 3^-90
3.3fi98
S.I9 21 55.6
13.148
0
16 36 5.26
3.609P
S.27 3 9.2
5-451
I
, 14 37. 55.46
a.3»6
19 35 0.8
13.036
I
16 38 41. y>
3. 6049
27 836.7
5.365
2
. 14 4^ 19.37
3.40x3
1947 5S.7
13.903
2
16 41 17.85
3.6q66
27 13 53-9
5.X78
3
14 42 43.62
t.4070
20 0 49.0
".775
3
16 43 54-29
3.608X
27 xA 58. 1
4.993
4
1445 8.21
3.4137
20 13 3^.7
12.647
4
16 46 30.82
3.6095
27 23 52.0
4.305
5
H 47 33- 14
t.4183
20 26 6.7
13.518
5
1649 7-43
3.6108
27 28 34.7
4.6x8
6
. 14 49 58.40
3.4338
20 38 33.8
l3.3^7
6
16 51 44.11
3.6118
2733 6.1
4.430
7
, 14 52 24.00
••4395
20 50 53. X
12.354
7
16 54 20.85
3.6x37
27 37 26.3
4.t43
8
14 54 49.94
3.4353
21 3 4-3
X2.Xl8
8
16 56 57.63
2.6134
27 41 35. a
4.954
9
14 57 16.22
3.4408
21 15 7.3
11.933
9
16 59 34.46
3.6x41
27 45 32.8
3.^
lO
14 59 42.83
3.4463
2J 27 2.Z
U.844
10
17 2 11.32
2.6144
«7 49 19.x
3.^
II
. 15 a 9.77
3,4518
21 33 4S.6
11.705
II
17 448.19
3.6x47
27 52 54.0
3.4¥
12
.15 437.04
a. 4573
21 50 26.7
n.563
12
17 7 25.08
2.6x48
27 56 17.6
3.399
13
15 7 4-64
3.4637
22. I 56.2
11.419
13
17 10 1-97
3.6x47
27 59 29.9
3.1U)
14
15 932.56
3.468Z
32 13 17.0
11.374
H
17 12 38.84
3.6x43
28 2 30.8
a.9V
15
15 12 o.8i
a.47S5
22 24 29. 1
II. 138
15
^7 15 15.69
2.6x39
28 5 20.3
3.711
i6
15 14 29-38
3.4788
22 35 32.4
10.981
16
17 17 52.51
2.6133
28 758.5
a.54r»
17
15 16 58.26
3.4840
22 46 26.8
10.831
17
17 20 29.29
8.6X36
28 10 25.4
3.354
i8
15 19 27.46
3.489a
22 57 12. 1
10.679
18
17 23 6.02
2. 61 17
28 12 41.0
t.x<^
19
15 ^l 56.97
a. 4944
23 74S.3
10.537
19
17 25 42.69
3.6105
28 14 45.2
1.976
20
152426-79
a. 4995
23 18 15.3
10.37a
20
17 28 19.28
3.6092
28 16 38.1
X.788
21
15 26 56.91
a. 5045
23 28 33.0
10.317
21
17 30 55.79
3.6078
28 18 19.7
1.600
22
15 29 27.33
a. 5094
23 38 41-3
10.059
22
17 33 32.21
3.6063
28 19 50.^
X.412
23
15 31 58,04
3.5143
23 48 40. 1
9.901
23
17 36 8.53
3.6043
28 21 9.2
1.324
24
15 34 29.05
3.519a
S.23 58 29.4
9.741
24
17 38 44.73
3.6023
S.28 22 17.0
1.037
XU. NOVEMBER, 1913. 138
GREENWICH MEAN TIME.
THE UOON'S RIGHT ASCENSION AND DECLINATION.
134
DECEMBER, 1913.
I.
AT GREENWICH APPARENT NOON,
Day of
the
Week.
1.-
Q
Mon.
Tues.
Wed.
I
2
3
Thur.
Fri.
Sat.
4
5
6
SUN,
Mon.
Tues.
7
8
9
Wed.
Thur.
Fri.
ID
II
12
Sat.
SUN.
Mon.
13
14
15
Tues.
Wed.
Thur.
i6
17
i8
Fri.
Sat.
SUN,
19
20
21
Mon.
Tues.
Wed.
22
23
24
Thur.
Fri.
Sat.
25
26
27
SUN,
Mon.
Tues.
Wed.
28
29
30
31
Thur.
32
THE SUN'S
Apparent Right
Ascension.
h m s
6 27 54.85
632 14.17
63634.10
6 40 54.63
645 1572
6 49 3736
6535951
6 58 22.16
7 2 45.26
7 7 8.79
7 II 32.74
7 15 57.08
7 2021.78
7 24 46.80
729 12.13
7 33 37.73
738 3.58
7 42 29.64
7 46 55.89
751 22.30
7 55 48.83
8 o 15.44
8 442.11
8 9 8.79
8 13 35.44
8 18 2.02
8 22 28.50
8 26 54.85
8 31 21.02
8 35 46.96
8 40 12.64
18 44 38.04
Diff. for
I Hour.
8
0.791
0.817
0.843
0.867
0.890
0.912
0.933
0-953
0.971
0.989
.006
.022
.036
.049
.061
.072
.081
.089
.096
.103
.107
.110
.III
.110
.109
.106
.101
.094
.086
.076
.064
11.051
Apparent Decli-
nation.
S.2I 4558.2
21 55 140
22 4 4.4
22 12 29.3
22 20 28.4
22 28 1.3
2235 7.9
22 41 48.0
2248 1.3
22 53 47.7
22 59 6.9
23 358.9
23 823.5
23 12 20.5
23 15 49-8
23 18 51.2
23 21 24.7
23 23 30.2
23 25 7.6
23 26 16.8
23 26 57.8
23 27 10.4
23 26 54.6
23 26 10.6
23 24 58.2
23 23 17.5
2321 8.5
23 18 31.3
23 15 26.0
23 II 52.6
23 751.3
S.23 3 22.2
Diff. for
I Hour.
//
■23.68
22.63
21.57
20.50
9.42
8.32
7.22
6. II
4-99
3.86
2.73
1-59
10.45
9*30
8.14
6.97
5-8i
4.64
3-47
2.30
1. 12
+ 0.07
1.25
2.42
H- 360
4.78
5 96
• 7.13
8.30
9-47
10.63
+11.79
Semidiam-
eter.
//
16 15.30
16 15.46
16 15.61
16 15.76
16 15.90
16 16.04
16 16.18
16 16.31
16 16.44
16 16.56
16 16.67
16 16.78
16 16.88
16 16.98
16 17.07
16 17.16
16 17.24
16 17.31
16 17.38
16 17.44
16 17.50
16 17.56
16 17.61
16 17.65
16 17.69
16 17.73
16 17.76
16 17.79
16 17.81
16 17.83
16 17.85
16 17.86
Sidereal
Time of
Semidi-
ameter
Passing
Me-
ridian.
s
70.22
70.31
70.39
70.47
70.55
70.62
70.69
70.76
70.83
70.89
70.95
7I.OO
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
.04
.08
.12
.15
.18
.21
.23
.24
.25
.26
.26
.25
.24
.23
.22
.20
.18
.15
.11
.07
Equation of
Time, to be
Subtracted
from
Added to
Apparent
Time.
m
II 0.20
1037.50
10 14.19
9 50.29
9 25.82
9 0.81
8 35.29
8 9.28
7 42.80
7 15.89
6 48.57
6 20.87
5 52.82
5 24.43
4 55.74
4 26.78
3 57.57
328.14
2 58.53
2 28.76
I 58.88
I 28.91
o 58.89
o 28.85
O 1. 16
031. II
I 0.95
I 30.65
2 0.17
2 29.48
2 58.54
3 27.30
Diff.
for
r Hour
s
0.932
0-959
0.984
.008
.031
.053
.073
•093
.112
.129
.146
.161
.176
.189
.201
.212
.221
.230
.237
.242
.246
.249
.251
.251
.249
.245
.240
•233
.225
.215
.204
1. 191
ubtracting o*.i9 from the
NoTB. — ^The mean time of semidiaraeter passing the meridian may be found by
sidereal time.
The sign — prefixed to the hourly change of declination indicates that south declinations are
the sign -H indicates that south declinations are decreasing.
n.
DECEMBER, 1913.
135
AT GREENWICH MEAN NOON.
Di7of
tbe
Dnv of the
Month.
THE SUN'S
Equation of
Time to be
Added to
Diff. for
I Hour.
Sidereal Time,
or Right Ascen-
I'eek.
Ai>parent Right
Diff. for
I Hour.
Apparent Decli-
nation.
Diff. for
I Hour.
Subtracted
from
Mean Time.
sion of Mean
Sun.
Mod. ' I
Toes. 2
Ved 3
h
16
16
16
m s
27 56.82
32 16.08
36 35.95
s
10.789
10.815
10.840
0
S. 21
21
22
/ //
46 2.5
55 18.0
4 8.1
-23.67
22.62
21.56
m s
1 1 0.03
10 37.33
10 14.02
s
0.932
0.959
0.984
h m s
16 38 56.86
16 42 53.41
16 46 49.97
Hnir. 4
Fri. 5
Sat. 6
16
16
16
40 56.41
45 17.43
49 39.00
10.864
10.887
10.909
22
22
22
12 32.7
20 31.5
28 4.1
—20.49
19.40
18.31
9 50.12
9 25.66
9 0.66
1.008
1. 03 1
1053
16 50 46.53
16 54 43.09
16 58 39.65
SUN. 7
[Hon. 8
lines. : 9
16
16
17
54 1.08
58 23.64
2 46.66
10.930
10.950
10.968
22
22
22
35 10.4
41 50.2
48 3.2
-17.21
16.10
14.98
8 35.14
8 9.13
7 42.66
1.073
1.093
1. 112
17 2 36.21
17 6 32.77
17 10 29.32
I Wed. ' lo
[ Thnr. 1 1 1
,' Fri. 12
S«L 13
SLAT. 14
Mon. 15
17
17
17
7 10.12
II 34.00
15 58.25
10.986
11.003
II.018
22
22
23
53 49.3
59 8.3
4 0.1
-13.86
12.73
11.59
7 15.76
6 48.45
6 20.75
1. 129
1. 146
1. 161
17 14 25.88
17 j8 22.44
17 22 19.00
17
17
17
20 22.86
24 47.80
29 13.04
11.032
1 1 .045
11.057
23
23
23
8 24.5
12 21.3
15 50.4
-10.44
9.29
8.13
5 52.70
5 24.32
4 55.64
1. 176
1. 189
1. 201
17 26 15.56
17 30 12.12
17 34 8.68
Toes. \ i6 17
Wed. 17 17
Thur. i8 17
33 38.55
38 4.31
42 30.28
11.068
11.078
11.086
23
23
23
18 51.7
21 25.1
23 30.5
- 6.97
5.81
4.64
4 26.69
3 57.49
3 28.07
1. 212
1. 221
1.230
17 38 5.24
17 42 1.80
17 45 58.36
FiL 19
Sat 1 20
51W. 21
17
17
46 56.44
51 22.76
55 49.20
1 1 .093
11.099
II. 103
23
23
23
25 7.8
26 16.9
26 57.8
- 3.47
2.29
— I. II
2 58.47
2 28.71
I 58.84
1.237
1.242
1.246
17 49 54.92
17 53 51.47
17 57 48.03
Hoo.
Toes.
Wed.
Thur.
Pii.
Sol
22
23
25
26
27
18
18
18
18
18
18
0 15.72
4 42.29
9 8.87
13 35.43
18 1.93
22 28.32
11.106
II. 108
1 1. 107
II. 105
1 1. 102
11.097
23
23
23
23
23
23
27 10.4
26 54.7
26 10.6
24 58.2
23 17.5
21 8.6
+ 0.07
1.25
2.43
+ 3.61
4.79
5.96
I 28.88
0 58.87
0 28.84
1.249
1. 251
1. 251
1.249
1.245
1.240
18 I 44.59
18 5 41.15
18 9 37.71
0 1. 16
0 31.10
1 0.93
18 13 34.27
18 17 30.83
18 21 27.39
SUN.
Man.
Toes.
Wed.
28
29
30
31
18
18
18
18
26 54.57
31 20.65
35 46.50
40 12.10
11.090
11.082
11.072
1 1. 061
23
23
23
23
18 31.5
15 26.3
II 53.0
7 51.8
+ 7.13
8.30
9-47
10.63
1 30.62
2 0.13
2 29.43
2 58.48
1.233
1.225
1. 215
1.204
18 25 23.95
18 29 20.51
18 33 17.07
18 37 13.63
Thnr.
32
18
44 37.41
1 1 .048
S.23
3 22.9
+11.78
3 27.23
1. 191
18 41 10.18
Note.'
— ^Thi
Tin
t
e semidiameter for n
t sign ~ prefixed to
ions axe increuing;
lean noon
the hourlj
the sign-
may be assumed the
f change of declinat'(
k- indicates that sout
same as tl
}n indicat
h decJinai
lat for apparei
.es that south «
Lions are decre
It noon,
dcclina-
asing.
Difif. for I Hour.
+9^8s6s.
(Table III.)
136
DECEMBER, 1913.
III.
AT GREENWICH MEAN NOON.
V
V
^A
« .
w,5
^g
•88
^1
ix
Q
Q
I
335
2
336
3
337
4
338
5
339
6
340
7
341
8
342
9
343
lO
344
II
345
12
346
13
347
14
348
15
349
i6
350
17
351
i8
352
19
353
20
354
21
355
22
356
23
357
24
358
25
359
26
360
27
361
28
362
29
363
30
364
31
365
32
366
THE SUN'S
True Loncittide.
//
248 43 1.3
249 43 53.4
250 44 46.4
251 45 40.2
252 46 34.8
253 47 30.3
254 48 26.4
255 49 23.2
256 50 20.8
257 51 19.0
258 52 17.9
259 53 17.6
260 54 17.9
261 55 19.0
262 56 20.9
263 57 23.6
264 58 27.1
265 59 31.4
266 60 36.6
268 I 42.7
269 2 49.5
270 3 57-1
271 5 5.4
272 6 14.4
273 7 23.9
274 8 33.9
275 9 44-3
276 10 54.8
277 12 5.6
278 13 16.4
279 14 27.1
280 15 37.7
tf
42
43
43
13-2
5.1
57.9
44 Si-6
45 46.1
4^ 41-3
47 37.2
48 33.8
49 31.2
50 29.3
51 28.0
52 27.4
53 27.6
54 28.5
55 30.2
56 32.6
57 35.9
58 40-1
59 45.1
0 50.9
1 57-5
3
4
5
6
7
4-9
13.1
21.9
31.2
41.0
8 51. 1
10 1.5
11 12.0
12 22.6
13 33-1
14 43.5
Diff. for
z Hour.
tf
52.15
52.19
52.23
52.26
52.29
52.32
52.35
52.38
52.41
52.44
52.47
52.50
52.53
52.56
52.59
52.62
52.66
52.70
52.73
52.77
52.80
52.83
52.86
52.89
52.91
52.93
52.94
52.94
52.95
52.95
52.94
152.94
Latitude.
ff
-0.51
0.44
0.35
-0.25
0.14
— 0.02
+ O.II
0.23
0.34
+ 0.43
0.49
0.53
+ 0-54
0.52
0.48
4-0.40
0.31
0.20
-f 0.06
— 0.07
0.20
-0.31
0.40
0.47
-0.52
0.53
0.51
-0.47
0.40
0.30
0.19
— 0.07
Loffarithin of the
Radius Vector of
the Earth.
9.993 8123
9.993 7425
9.993 6743
9.993 ^8
9-993 5431
9.993 4804
9.993 4197
9.993 3612
9.993 3051
9.993 2514
9.993 2002
9.993 1515
9.993 1055
9.993 0622
9.9930217
9.992 9839
9.992 9488
9.992 9163
9.992 8862
9.992 8585
9.992 8330
9.992 8096
9.992 7882
9.992 7686
9.992 7507
9.992 7345
9.992 7200
9.992 7071
9.992 6958
9.992 6863
9.992 6785
9.992 6726
JHS,iot
I Hour.
-2^-4
28.8
28.1
-27.3
26.5
25.7
-24.8
23.9
22.9
—21.9
20.8
19.7
-18.6
17-5
16.3
-«5.2
14.1
13.0
—12.0
II. I
I0.2
- 9-4
8.6
7.8
- 7.1I
6.4
5.7
- 50
4-3
3.6
2.8
- 2.0
Mean Time of
Sidereal Noon.
h m 8
7 19 50.89
7 15 54.98
7 II 59.06
7 8 3.15
7 4 7.24
7 o it.32
6 56 15.41
6 52 19.50
6 48 23.59
6 44 27.67
6 40 31.76
6 36 35.85
6 32 39.9s
6 28 44.02
6 24 4S.11
6 20 52.20
6 16 56.28
6 13 0.37
6 9 4.46
6 5 8.54
6 I 12.65
5 57 16.72
5 53 20.80
5 49 24.89
5 45 28.98
5 41 33.06
5 37 37.15
5 33 41.24
5 29 45.32
5 25 49.41
5 21 53.50
5 17 57.58
N0T8. — ^The longitudes in the column I are referred to the true equitaox of their own date,
while those in the column X' are referred to the mean equinox of the beginning ai
the Besselian fictitious year.
Dtn. for X Hoiir»
— 9*.8a96.
(Table H.)
IV.
DECEMBER, 1913.
GREENWICH MEAN TIME.
137
a
0
t
THE MOON'S
SEMTDIAMBTBR.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGB.
I
2
3
4
5
10
II
12
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Nocm.
##
15 27.5
15 154
15 4.9
14 5^-^
14 51.0
6 1 14 48.3
7 1 14 48.3
I 8|i4 5I.I
9 1 14 56.3
15 3-4
15 II-9
15 21. I
15 30.5
15 39-5
15 47.5
15 54-4
15 59-9
16 4.2
16
16
16
16
16
16
7-2
9.^
9.8
9.2
7-3
3.6
15 58.1
15 50.9
15 42.0
15 32.2
15 21.9
15 II-9
15 30
14 55.7
1iidiiig:ht.
Noon.
ft
tt
5 21.3
5 9-9
5 0.4
4 53.5
4 49.3
4 48.0
4 49 4
4 53 4
4 59.6
5 7.5
5 16.4
5 25.8
5 35.1
5 43.6
5 511
5 57.3
6 2.2
6 5.8
6 8.3
6 9.6
6 9.7
6 8.5
6 5.6
6 I.I
5 54.7
5 466
5 37.2
27.0
16.8
5
5
5 7.3
4 59.1
14 52.9
56 38.12
55 53.60
55 15.05
54 44.78
54 24.20
54 14.08
54 14.44
54 24.62
54 43.54
55 9.59
55 40.73
56 14.69
56 49.16
57 22.03
57 51.58
58 16.74
5837.10
58 52.68
59 3.75
59 10.64
59 13.30
59 11.34
59 398
58 50.52
58 30.41
58 3.75
57 31.45
56 55.26
56 17.52
55 40.92
55 8.14
5441.52
Diff. for
I Hour.
»i
-1.938
1.749
1.446
-1.067
0.644
-0.201
+0.226
0.615
0.949
+1.206
1.372
1. 44 1
+X-415
1.310
1. 145
+0.949
0.747
0.552
+0.373
0.30I
+0.018
-0.189
0.429
0.698
-0.978
1.237
1.442
-1-557
1.569
1.462
1.253
-0.950
Midniffht.
//
56 15.29
55 33.41
54 58.77
54 33.22
54 17.81
54 12.98
54 18.36
54 33.08
54 55.79
55 24.66
55 57.50
56 32.01
57 5.91
57 37.30
58 4.75
58 27.53
58 45.47
58 58.75
59 I'l"^
59 12.52
59 12.94
59 8.38
58 58.06
5841.31
58 17.86
57 48.22
57 13.70
56 36.42
55 58.90
55 23.90
54 53.92
5431.18
Diff. for
I Hour.
Meridian of
Greenwich.
n
-1.859
I.6IO
1.264
-0.858
-0.422
+0.016
+0.426
0.791
1.089
+I.30I
I.4I8
1.440
+1.373
1.233
1.049
+0.848
0.649
0.460
+0.287
+0.111
>.o8o
.306
0.560
0.838
-1. 113
1-349
1.512
-1-577
1.530
1-370
1. 113
—0.770
h m
3 6.5
3 57.8
4 44.5
27.5
7.8
46.8
25.6
5.5
8 47.6
9 33.1
0 22.8
1 16.7
5
6
6
7
8
2
3
4
5
5
6
14.2
13.2
11.5
7-3
59.8
49-4
7 37.2
8 24.6
9 12.8
20 3.4
20 57.3
21 54.7
22 54.5
23 54.7
6
0 52.6
1 46.5
2 35.8
3 20.8
4 2.6
Diff. for
I Hour.
Noon.
m
2.24
2.04
1.86
1.73
1.64
1.61
1.63
1.70
1.82
1.98
2.16
2.33
2.44
2.46
2-39
2.26
2.12
2.02
1.97
1.98
2.05
2.17
2.32
2.45
2.52
2.48
2.34
2.15
1.96
1.80
1.69
d
3.4
4.4
5.4
6.4
7.4
8.4
9.4
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
0.9
1.9
2.9
3.9
49
138
DECEMBER, 1913.
V.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diflf,
Diflf.
Diff.
Diff.
Hour.
Right Ascension.
for
Declination.
for
Hour.
Right Ascension.
for
DedinatioxL
for
I Min.
z Min.
,
X Min.
iMiiu
MONDAY I.
WEDNESDAY 3.
h m 8
8
0 t tf
>.
h m 8
8
0 t m
H
O
19 38 36.57
a. 3483
S.25 51 55.7
6.863
0
21 22 42.41
X.9987
S. 18 15 41. 1
IX. 610
I
19 40 57.24
a. 3408
25 44 59-9
6.996
I
21 24 42.14
1.9923
18 4 2.5
11.677
2
19 43 17.46
2.3333
25 37 56.2
7.127
2
21 26 41.49
X.9861
17 52 19.9
11.74a
3
19 45 37.23
a. 3238
25 3044.7
7'9i7
3
21 28 40.47
1.9799
17 40 33.5
11.806
4
1947 56.55
a. 3183
25 23 25.4
7.386
4
21 30 39.08
1.9738
17 28 43.2
11.869
5
19 50 15.42
2.3107
25 15 58.4
7.513
5
21 32 37-33
1.9678
17 16 49.2
IX.931
6
19 52 33.83
a. 3031
25 8 23.9
7.638
6
21 34 35.22
X.9618
17 451.5
xx.99a
7
19 54 51.79
a. 8935
25 041.9
7.761
7
21 36 32.75
1-9559
16 52 50.2
12.052
S
19 57 9.29
2.2878
24 52 52.6
7.883
8
21 38 29.93
1. 9501
16 40 45.3
12. Ill
9
19 59 26.33
a. 9803
24 44 55.9
8.005
9
21 40 26.76
1.9443
16 28 36.9
12.168
lO
20 I 42.92
a. 2727
24 36 52.0
8.124
10
21 42 23.25
X.9387
16 16 25.1
I2.M4
II
20 3 59.05
a.a650
24 28 41.0
8.242
II
21 44 19.40
1.9330
16 4 lO.O
12.280
12
20 6 14.72
a.a573
24 20 23.0
8.358
12
21 46 15.21
1.9274
15 51 51-5
ia.3S5
13
20 8 29.93
2.2497
24 II 58.0
8.473
13
21 48 10.69
X.9219
15 39 29-8
12.388
14
20 10 44.68
a.a42o
24 3 26.2
8.586
14
21 50 5.84
X.9166
1527 4.9
12.441
15
20 12 58.97
a.2344
23 54 47-6
8.698
15
21 52 0.68
1.9113
15 14 36.9
X2.49a
i6
20 15 12.81
a.a268
23 46 2.4
8.809
16
21 53 55.20
X.9060
15 2 5.9
12.54a
17
20 17 26.19
a. a 192
23 37 10.6
8.918
17
21 55 49.40
X.9008
1449 31.8
12.39a
i8
20 19 39. n
t.azi5
23 28 12.3
9.025
18
21 57 43.29
1.8957
14 36 54.8
X2.640
19
20 21 51.57
a.aQ39
23 19 7-6
9. 131
19
21 59 36.88
1.8907
14 24 15.0
12.668
20
2024 3. 58
a.X963
23 9 56.6
9.336
20
22 I 30.17
i.«857
14 II 32.3
12.735
21
ao 26 15.13
2.1888
23 039.3
9-339
21
22 3 23.17
1.8806
13 58 46.8
X2.781
22
20 28 26.23
a.x8i3
22 51 15.9
9.44X
22
22 5 15.88
I. 8761
13 45 58.6
X2.825
23
20 30 36.88
TU
a. 1737
ESDA
S.22 41 46.4
9.541
23
22 7 8.30
THl
1.8713
[JRSD-
S.1333 7.8
AY 4.
Z2.868
0
20 32 47-07
2.X662
S.22 32 II.O
9-«39
0
22 9 0.44
1.8667
S. 13 20 14.4
12.91X
I
20 34 56.82
a. 1587
22 22 29.7
9.737
I
22 10 52.31
Z.8622
13 7 18.5
X2.953
2
20 37 6.12
a.ijza
22 12 42.6
9.833
2
22 12 43.90
X.8576
12 54 20.0
12.99S
3
20 39 14-97
2.X438
22 2 49.7
9.928
3
22 14 35-22
X.8532
12 41 19. 1
13.035
4
20 41 23.38
a.x365
21 52 51.2
xcoai
4
22 16 26.28
1.8489
12 28 15.8
13.074
5
20 43 31.35
2.X299
21 42 47.2
zo.zxa
5
22 18 17.09
1.8447
12 15 10.2
X3.XX2
6
20 45 38.88
2.12X8
21 32 37.7
xo.ao3
6
22 20 7.64
1.8404
12 2 2.3
13.150
7
20 47 45-97
2.1x46
21 22 22.8
Z0.293
7
22 21 57.94
1.8363
II 48 52.2
13.187
8
20 49 52.63
2.X073
21 12 2.6
xo. 38Z
8
22 23 48.00
1.8323
II 3539.9
13-223
9
20 51 58.85
a.xooa
21 I 37.1
10.467
9
22 25 37.82
1.8283
II 22 25.4
13.258
10
20 54 4.65
a. 0931
20 51 6.5
XO.552
10
22 27 27.40
X.8244
II 9 8.9
13. 39a
II
20 56 10.02
a. 0660
20 40 30.8
10.636
II
22 29 16.75
1.8207
10 55 50.3
13.326
12
20 58 14.97
a.0790
20 29 50.2
X0.7X8
12
22 31 5.88
I. 8170
10 42 29.8
13.358
13
21 0 19.50
a.o7ao
20 19 4.6
X0.800
13
22 32 54.79
1.8133
1029 7.3
13.390
14
21 2 23.61
2.0630
20 8 14.2
X0.879
14
22 34 43-48
1.8098
10 15 43.0
13.421
15
21 4 27.30
a.058x
19 57 19. 1
10.958
15
22 36 31.97
1.8064
10 2 16.8
13.45a
16
21 6 30.58
2.0513
19 46 19.3
XX. 036
16
22 38 20.25
X.8030
9 48 48.8
13.481
17
21 833.45
a. 0445
19 35 14.9
II. 112
17
22 40 8.33
1.7997
9 35 19- 1
13.509
18
21 10 35.92
a. 0378
19 24 5.9
II. 186
18
22 41 56.21
1.7964
9 21 47.7
13.537
19
21 12 37.99
a.03xa
19 12 52.5
IX.260
19
22 43 43.90
1.7933
9 8 14.6
13.563
20
21 14 39.66
8.0245
19 1 34.7
11.333
20
2245 31.41
1.7903
8 54 39.9
13. 591
21
21 16 40.93
a. 0179
18 50 12.6
XX.404
21
22 47 18.73
1.7873
841 3.7
13.617
22
21 18 41.81
a.0114
18 38 46.2
11.474
22
22 49 5.88
1.7844
8 27 25.9
13.642
23
21 20 42.30
2.0050
18 27 15.7
11. 542
23
22 50 52.86
1.7816
8 13 46-7
13.666
24
21 22 42.41
1.9987
S.I8 15 41. 1
II. 610
24
22 52 39.67
1.7788
S. 8 0 6.0
i3.«9
VI.
DECEMBER, 1913.
139
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diif.
Diil.
Diff.
Diff.
Hour.
Biieht Aicantion.
for
xMio.
Declination.
for
xMin.
Hoar.
Right Aacanaioa
for
X Min.
Dodinatioa
for
X Min.
Fl
RIDA^
fs-
SUNDAY 7.
h m 8
8
• f *»
«v
h in 8
8
Of w
m
O
22 52 39.67
1.7788
S. 8 0 6.0
13.689
0
0 16 25.23
1.7419
N. 3 11 11.9
14.03a
I
22 54 26.32
x.TTfia
7 46 24.0
13.71a
I
0 18 9.78
1.7431
3 25 13-6
14.023
2
22 56 12.81
1.7736
7 32 40.6
13.734
2
0 19 54.40
1.7443
3 39 14-7
14.01s
3
2257 59.15
x.77xa
7 18 55.9
13.756
3
0 21 39.10
1.7457
3 53 15.2
14.003
4
22 59 45.35
1.7687
7 5 9.9
13.777
4
0 23 23.88
1.7471
4 7 15.1
13.993
5
23 I 31.40
1.7663
6 51 22.7
13.796
5
025 8.75
1.7486
4 21 14.4
13.982
6
23 3 17.31
1.764X
6 37 34.4
13.8x5
6
0 26 53.71
I.75O8
4 35 12.9
13.969
7
23 5 3.09
1.76x9
6 23 44.9
13.834
7
0 28 38.77
i.75«8
4 49 10.7
13.957
8
23 648.74
1.7598
6 954.3
13.85a
8
0 30 23.93
1.7536
5 3 7.7
13.943
9
23 834.27
1.7578
556 2.7
XS.868
9
0 32 9.20
1.7554
5 17 3.9
13.9*9
lO
23 10 19.68
1.7559
5 42 10. 1
13.885
10
0 33 S4.58
1.7573
5 30 59.2
13.914
II
23 12 4.98
i.754«
5 28 16.5
13.901
II
0 35 40.08
1.7593
5 44 53.6
13.899
12
23 13 50.17
1.75*3
5 14 22.0
13.916
12
0 37 25.69
1.76x3
55847.1
13.883
13
23 15 35.26
1.7506
5 0 26.6
13.931
13
039 11.43
1.7634
6 12 39.5
X3.866
H
23 17 20.24
1.7489
4 46 30.3
13.945
14
0 40 57.30
1.7656
6 26 31.0
13.849
15
23 19 5.13
1.7474
4 32 33.2
13.958
15
0 42 43.30
1.7679
6 40 21.4
13.830
i6
23 20 49.93
1.7459
4 18 35.3
13.971
16
0 44 29.45
1.7703
6 54 10.6
X3.81X
X7
23 22 34.64
1.7446
4 436.7
13.98a
17
0 46 15.74
^•Tm
7 758.7
13.791
i8
23 24 19.28
1.7433
3 50 37.4
13.993
18
048 2.17
i'7759
7 21 45.5
13.770
19
23 26 3.84
1.7421
3 36 37.5
14.003
19
0 49 48.76
1.7778
7 35 3I.I
13.749
20
23 27 48.33
1.7410
3 22 37.0
14.0x3
20
0 51 35.51
1.7805
7 49 15-4
13.717
21
23 29 32.76
1.7400
3 835.9
14.083
21
0 53 22.42
1.783a
8 2 58.3
13.704
22
2331 17.13
1.7390
2 54 34.2
14.033
22
055 9-49
1.7860
8 16 39.9
13.68X
23
23 33 1.44
1.7381
S. 2 40 32.0
14.040
23
0 56 56.74
1.7890
N. 8 30 20.0
13.656
SATl
URDA
Y6.
M(
)NDA
Y8.
O
23 34 45.70
1.7373
S. 2 26 29.4
14.047
0
05844.17
1.7900
N. 8 43 58.6
13.631
I
23 36 29.91
1.7366
2 12 26.4
14.053
I
1 031.78
1.7930
8 57 35.7
13.605
2
23 38 14.09
1.7360
I 58 23.0
14.060
2
I 2 19.57
1.7981
9 II 11.2
13.578
3
23 39 58.23
1.7354
I 44 19.2
14.066
3
1 4 7.55
1.80x3
9 24 45- 1
13.551
4
23 4X 42.34
1.7349
I 30 15. 1
14.070
4
I 555.72
1.8045
9 38 17.3
13.513
5
23 43 26.42
1.7345
I 16 10.8
14.074
5
I 744.09
X.8079
9 51 47.8
13*494
6
23 45 10.48
1.734a
I 2 6.2
14.078
6
I 932.67
1.81x4
10 5 16.6
13.464
7
23 46 54.5a
1.7339
048 1.5
14.081
7
I II 21.46
X.8X49
10 18 43.5
13.433
8
23 48 38.55
1.7338
0 33 56.5
14.083
8
I 13 10.46
I. 8184
10 32 8.6
13.401
9
23 50 22.57
1.7337
0 1951.5
X4.084
9
I 14 59.67
x.82ai
10 45 31.7
13.368
lo
23 52 6.59
1.7337
S. 0 5 46.4
14.085
10
I 16 49.11
1.8258
10 58 52.8
13-335
II
23 53 50.61
1.7338
N. 0 8 18.7
14.086
II
I 18 38.77
x.8a97
II 12 II. 9
13.301
12
23 55 34.64
1.7339
0 22 23.9
14.086
12
I 20 28.67
1.8336
II 25 29.0
13.167
13
23 57 18.68
1.7341
0 36 29.0
14.084
13
I 22 18.80
1.8375
II 38 43.9
13.931
14
23 59 2.73
1.7344
0 50 34.0
14.083
14
I 24 9.17
1.8415
11 51 56.7
13.194
15
0 046.81
1.7348
I 439.0
14.08^
15
I 25 59.78
1.8456
12 5 7.2
13.157
i6
0 2 30.91
1.7353
I 18 43.8
14.078
16
I 27 50.64
1.8498
12 18 15.5
13*118
17
0 4 15.04
1.7358
I 32 48.4
14.074
17
I 2941.75
1.8540
12 31 21.4
13.078
i8
0 5 59.21
1.7365
I 46 52.7
X4.070
18
I 31 33.12
1.8583
12 44 24.9
X3.038
19
0 743.42
1.737a
2 0 56.8
X4.066
19
I 33 24.75
1.8627
12 57 26.0
X2.997
ao
0 9 27.67
1.7380
2 15 0.6
X4.060
20
I 35 16.65
X.8673
13 10 24.6
12.955
21
0 II 11.97
1.7388
2 29 4.0
14.054
21
I 37 8.81
1.8717
13 23 20.6
19.9x1
22
0 12 56.33
1.7398
243 7.1
14.047
22
I 39 1-25
1.87^
13 36 14.0
X3.868
23
0 14 40.75
1.7408
2 57 9.7
14.040
23
I 40 53.97
1.8809
1349 4.7
12.803
34
0 16 25.23
1.74x9
N. 3 II II. 9
i4.osa
24
I 42 46.96
1.8856
N.14 I 52.7
12.777
140
DECEMBER, 1913.
VII.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Dflr.
Diff.
Diff.
"^-
Hour.
Right 3Uc«ntio&.
for
DdclIilAtibn.
for
Hour.
RlgfatAtcenslon.
fot
IM^UamtfoiL
xMin.
xMin.
xMin.
xMin.
TUESDAY 9.
THURSDAY 11.
h m 8
8
• t w
M
h m 8
8
• « «
m
O
I 42 46.96
X.8856
N.I4 I 52.7
".777
0
3 19 53.33
8,x78i
N.«3 1 26.6
9.»43
I
I 44 40.24
l.«905
14 14 37.9
12.730
I
3 22 4.22
9.1850
23 10 58. i
9.^38
7,
I 46 33.82
1.8954
14 27 20.3
X2.68a
2
3 24 15.53
2.>9t0
23 19 43.4
9.^3
3
I 48 27.69
1.9003
1439 59.7
X2.633
3
3 26 27.26
2.1989
23 iS 42.2
8.^96
4
I 50 21.86
1.^053
14 52 36.2
12.583
4
3 28 39.40
2.20^
23 37 34.5
8.^17
5
I 52 16.33
i.9«<H
15 5 9.6
12.532
5
3 30 51.96
s 2128
23 46 «0.2
8.707
6
I 54 1 1. II
1.9ZJ6
15 17 40.0
12.480
6
3 33 4.93
t.2197
23 54 $9.3
8.^
7
I 56 6.20
i.p^VB
1530 7.2
12.427
7
3 35 18.32
2.2267
24 331.^
8.489
8
I 58 1.60
i.9tfi
15 42 31.2
W.S73
8
3 3732.13
2.2336
24 " 57.1
8.^
9
I 59 57.33
1.93X4
15 5451.9
16 7 9.2
12.317
9
3 39 46.35
2.24O4
24 iw) 15.7
8.959
lO
2 I 53.37
1.938B
X2.26X
10
3 42 0.98
2.2473
«4 ^ ^7.3
8.ti5
11
2 3 49-74
i.94»
16 19 23.4
I2.204
II
3 44 16.03
2.2543
24 56 31.9
8.b»7
12
2 546.44
i.d»77
16 31 33.7
12. 146
12
3 46 31.49
2.26x0
2444^9.3
7.^
13
2 743.47
X.9533
16 43 40.7
12.086
13
3 48 47.35
2.2678
24 52 ip.5
7.776
H
2 9 40.84
1.9590
16 55 44.0
12.025
14
3 51 3.63
2.8747
25 ^ 2.4
7.«i3
15
2 II 38.55
1.9647
17 743.7
IX.963
15
3 53 20.31
2.2813
25 737.^
7.5i8
i6
2 13 36.60
i.97<H
17 19 39.6
XI. 900
16
3 55 37.39
2.288X
25 15 5.fi
7.4O3
17
2 15 35-<5o
1.9763
17 31 31.7
IX. 837
17
3 57 54.88
2.2948
25 22 26.2
7.«77
i8
2 17 33.75
i.98«
17 43 20.0
Xl.772
18
4 0 12.77
2.3015
25 29 3^.0
7.X49
19
2 19 32.86
1.9881
17 55 4.3
XX. 705
19
4 2 31.06
2.308X
25 36 44.1
7.ti9o
20
2 21 32.32
1.9940
18 6 44.6
XX.637
20
4 449.74
2.3x46
25 43 41.4
6.888
21
2 23 32.14
3.00OX
18 18 2P.8
1X.569
21
4 7 8.81
2.5212
25 50 30.7
6.756
22
2 25 32.33
2.006^
18 29 52.9
11.500
22
4 9 28.28
2.3277
25 57 12.1
6.6S3
23
2 27 32.88
WED
2.oxa3
NESD
N.18 41 20.8
AY 10.
XX.449
23
4 II 48.13
FF
2.3341
IIDAY
N.26 3 45.5
' 12.
6.489
o
2 29 33.81
«.oi86
N.18 52 44.4
XX. 357
0
414 8.37
2.3405
N.26 10 lO.B
6.353
z
231 35.11
2.0148
19 4 3.6
XX. 283
I
4 16 28.99
2.34«
26 16 27.6
6.915
2
2 33 36.78
2.(^x0
19 15 18.4
XX. 208
2
4 18 49.98
a. 3530
26 22 36.6
6.077
3
2 35 38.83
2.0373
19 26 28.7
XX. 132
3
421 11.35
2.3593
26 28 37.0
5.937
4
2 37 41.26
a.0437
19 37 34.3
XI. 056
4
4 23 33.09
2.3653
26 34 29.0
5.795
5
2 39 44.08
8.050s
19 48 35.3
10.978
5
425 55.19
«.37X4
26 40 12.4
5.65a
6
2 41 47.28
2.0566
19 59 31.6
10.898
6
4 28 17.66
2.3774
26 45 47-3
5.509
7
2 43 50.87
2.0631
20 10 23. 1
xo.8x7
7
4 30 40.48
2.3833
26 51 13.5
5.364
8
2 45 54.85
2.0697
20 21 9.7
10.735
8
4 33 3.66
2.3892
26 56 31.0
5.2x8
9
2 47 59.23
2.076a
20 31 51.3
X0.652
9
43527.18
a. 3949
27 1 39.6
5.070
lO
2 50 4.00
2.0828
20 42 27.9
XO.567
10
4 37 51.05
2.4006
27 6 39.4
4.9«2
II
2 52 9.17
2.0895
20 52 59-3
X0.481
II
440 15.25
2.4061
27 II 30.3
4.779
12
2 54 14.74
2.0962
21 3 25.6
X0.394
12
4 42 39.78
2.4XX6
27 16 12.1
4.62X
13
2 56 20.71
2.XO28
21 13 46.6
10. 306
13
4 45 4.64
2.4X7X
27 20 44.8
4.469
14
2 58 27.08
2.X096
21 24 2.3
10.2x6
14
4 47 29.83
2.4224
2725 8.4
4.3x7
15
3 0 33.86
2.IX«4
21 34 12.5
10.124
15
4 49 55-33
«.4276
27 29 22.8
4.163
i6
3 241.05
2.X232
21 44 17.2
10.032
16
4 52 21.14
2.4327
27 33 27.9
4.007
17
3 448.64
2.X30O
21 54 16.3
9.938
17
4 54 47.25
«.4377
27 37 23.6
3.850
i8
3 6 56.65
2.1368
22 4 9.7
9.843
18
4 57 13.66
2.4426
2741 9.9
3.692
19
3 9 5.06
2.1437
22 13 57.4
9.747
19
4 59 40.36
«.4473
27 44 46.7
3.534
20
3 II 13.89
8.1506
22 23 39.3
9.648
20
5 2 7.34
2.4590
27 48 X4.0
3.375
21
3 13 23.13
2.t574
22 33 15.2
9.549
21
5 434-60
2.4567
27 51 31.7
S.W4
22
3 15 32.78
2.1643
22 42 45.2
9-449
22
5 7 2.14
9.46x2
27 54 39.7
3.053
23
3 17 42.85
8. X712
22 52 9.1
9.347
23
5 929.94
2.4654
27 57 38.0
2.69X
24
3 19 53.33
2.X78X
N.23 I 26.8
9*^3
24
5 II 57.99
2.4697
N.28 0 26.6
2.798
vm.
DECEMBER, 1913.
141
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
1
Diff.
Diff.
Bon.
Sight Aacensiop.
fof
xMio.
DecUnatioq.
xl%.
EIoiiK.
Right AscomioQ.
for
xMin.
PocUnatioxi.
for
iMlxL
SAT
URDA
.Y 13.
MONDAY 15.
h m 1
s
Of M
A
h m 8
8
Of M
m
o
5 " 57-99
a-4697
N.28 0 26.6
1.728
0
7 12 42.85
2.5059
N.26 53 12.5
5.578
I
5 i^ 26.29
5 xo 54-84
t.4738
28 3 5.3
3.363
I
7 15 X3.I2
2.503X
26 47 3JJ.8
5.746
z
3.4777
28 534.1
3.398
2
7 17 43.22
2.5003
26 41 43.0
5.9x4
3
5 X9 25-62
1.48x5
28 7 53.0
1.232
3
7 20 13.15
3.4974
26 35 43- X
6.082
4
5 21 52.62
«.4853
28 10 2.0
1.065
4
7 22 42.91
3.4943
26 29 33.1
6.250
5
5 24 21.84
t.4888
28 12 0.9
X.898
5
7 25 12.48
1.4912
26 23 13. 1
6.4X6
6
5 a6 5X.27
a.49ta
28 13 49.8
X.73I
6
7 27 41.86
2.4880
26 16 43.2
6. 581
7
5 29 20.90
3*4955
28 15 28 6
X.S62
7
7 30 11.04
3.4847
26 10 3-4
6.745
8
5 3X 50.73
*'i9»7
28 i6 57.2
1.393
8
7 32 40.02
3.4813
26 3 13.8
6.909
9
5 34 20.75
a.aPX7
28 i8 15.6
1.212
9
7 35 8.79
3.4777
25 56 14.3
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28 19 23.8
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7 37 37-34
3.4740
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5 39 2X.30
«.5073
28 20 21.7
0.880
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740 5.67
1.4703
25 41 46.3
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12
5 4X 5X.82
8.5009
' 28 21 0.4
28 21 40.7
0.708
12
7 42 33-78
2.4665
25 34 17.7
7.555
13
5 44 22-49
1.5x24
0-535
X3
7 45 x,65
2.4635
25 26 39.6
7.7x4
H
5 46 53-3X
«-3»47
28 22 13.6
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7 ^i 29.28
3.4585
25 18 52.0
7.871
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5 49 24.26
2.51^
28 22 30. 1
0.1B8
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7 49 56.67
3.45*4
25 10 55-0
8.028
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, 5 51 55-34
1.5189
28 22 36.2
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7 52 23.81
1.4503
25 2 48.6
8.184
17
5 54 26.54
1.5308
28 22 31.9
-0.159
X7
7 54 50-70
3.446P
24 54 32.9
8.330
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55657.84
1.5330
28 22 17.1
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24 28 50.4
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24 19 58.1
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1.5379
25 19 32.8
1.037
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6 12 7.42
2.5398
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6 X4 39-23
1.5305
28 15 38.7
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8 14 id.21
3.4097
23 42 59-7
9.536
2
6 17 11.08
1.53x0
28 13 59.5
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8 x6 40.65
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28 758.5
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8 23 52.22
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6 27 18.63
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28 5 36.9
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6
8 26 15.49
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28 3 4.8
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7
8 28 38.46
2.3803
22 43 13.2
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6 32 22.39
1.5309
28 0 22.1
1.800
8
831 1. 13
3.3733
22 32 46.2
10.3x8
9
6 34 54-23
«.5304
27 57 28.8
1.976
9
8 33 23-50
3.3703
22 22 II. I
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6 37 26.04
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27 54 25.0
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10
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2.3652
22 II 37.9
10.786
II
6 39 57.81
2.5390
27 51 10.6
3.338
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1.36QX
32 0 36.8
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12
6 42 29,52
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8 40 28.77
3.3549
21 49 37-8
XI.048
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645 1. 16
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27 44 10.3
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8 42 49.91
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21 38 31.0
XI. 178
14
6 47 32.73
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27 40 24.3
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14
8 45 X0.75
3.3447
21 27 16.5
XX. 306
15
6 50 4.22
2.5142
27 36 27.9
4.023
15
8 47 31.28
3.3396
21 X5 54-3
X1.433
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6 52 35-63
2.5217
27 32 21.0
4.301
16
8 49 5X.50
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21 4 24.6
XX. 558
17
655 6.95
2.5211
27 28 3.7
4.376
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8 52 11.41
3.3393
20 52 47-4
IX.688
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6 57 38.16
3.5x93
27 23 35.9
4.549
18
8 54 31.01
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20 41 2.8
XX.804
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7 0 9.26
3.5x73
27 18 57.8
4.733
19
8 56 50.30
3.3x89
20 29 10.9
XX.924
20
7 240-24
2.5153
27 14 9.3
4.894
20
8 59 9.28
3.3138
20 17 II. 9
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21
7 5 II. 10
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27 9 10.5
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21
9 X 27.95
2.3086
20 5 5-7
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22
7 741-83
2.5109
27 4 1.4
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19 52 52.5
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23
7 10 12.42
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26 58 42. 1
5.408
23
9 6 4.36
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X9 40 32.3
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24
7 12 42.85
3.5059
N.26 53 12.5
5.578
24
9 8 22.10
1.2932
N.19 28 5.3
11.507
142
DECEMBER, 1913.
IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
DifE.
Difif.
DifE.
Hour.
Right Ascension.
for
z Min.
Declination.
for
I Min.
Hour.
Right Ascension.
for
z Min-
Declination.
for
I Min.
WEDNESDAY 17.
FRIDAY
19-
h m 8
8
m t H
»t
h m s
8
e » r»
M
O
9 8 22.10
2.3934
N.I9 28 5.3
ia.507
0
10 53 17.22
2. loia
N. 7 45 24.4
X6.X99
I
9 10 39.54
a.288x
19 1531-5
12.6x9
I
10 55 23.22
a.0988
7 29 II. 2
x6.a40
2
9 12 56.67
3.2830
19 2 51.0
X2.729
2
10 57 29.08
a. 0967
7 12 55-6
16.279
3
9 15 13-50
2.2780
18 50 4.0
12.837
3
10 59 34-82
2.0946
6 56 37-7
X6.3X7
4
9 17 30.03
a. 2729
18 37 10.4
X2.944
4
II 140.43
2.0925
6 40 17.5
X6.354
5
9 19 46.25
2.2678
18 24 10.5
13.052
5
IX 3 45-92
2.0905
6 23 55.2
x6.s88
6
922 2.17
2.2628
18 II 4.2
13.157
6
II 551.29
2.0887
6 7 30.9
x6.4a2
7
9 24 17-79
a. 2579
17 57 51-7
x3.a6o
7
11 7 56-56
2.0869
551 4-6
X6.455
8
9 26 33.12
a. 2531
17 44 33.0
13.362
8
II 10 1.72
2.0853
5 34 36.4
16. 486
9
9 28 48.16
2.2482
17 31 8.3
13.46a
9
II 12 6.79
2.0837
5 18 6.3
X6.5X5
lO
9 31 2.90
2.2433
17 17 37.6
13.56X
10
II 14 11.76
a.o82z
5 I 34-5
X6.54S
II
9 33 17-35
a. 2384
17 4 I.O
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II 16 16.64
a. 0807
4 45 i-i
X6.569
IS
9 35 3X-5I
2.2337
16 50 18.7
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12
II 18 21.44
2.0793
4 28 26.2
X6.594
13
9 37 45-39
2.2289
16 36 30.7
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13
II 20 26.16
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411 49.8
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H
9 39 58.98
2.2242
16 22 37.0
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14
II 22 30.81
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X6.640
15
9 42 12.29
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15
" 2435.39
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9 44 25.33
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17
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15 26 8.4
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18
II 30 48.80
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19
9 51 2.80
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15 II 48.2
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19
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2.0725
231 45-5
X6.730
20
9 53 14.76
2.1971
14 57 22.9
X4.463
20
II 34 57-50
2.07x9
2 15 1.3
16.743
21
9 55 26.45
2.i9t7
14 42 52.6
14.545
21
II 37 1.80
2.0714
I 58 16.3
16.756
22
9 57 37-88
2.Z884
14 28 17.5
X4.625
22
II 39 6.07
2.07x0
I 41 30.6
X6.767
«3
9 59 49.06
2.1842
N.14 13 37.6
14.705
23
II 41 10.32
a. 0707
N. I 24 44.3
16.777
THl
JRSD/
VY 18.
SAT
VRDA
lY 20.
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10 I 59.98
2.1800
N.13 58 53.0
X4.783
0
II 43 14.56
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N.I 757.4
16.765
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10 4 10.66
a. 1759
1344 3-7
14. 858
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II 45 18.78
a. 0703
0 51 10. 1
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2
10 6 21.09
a.1718
13 29 9-9
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2
II 47 23.00
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0 34 22.5
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3
10 8 31.28
2.1679
13 14 "-7
15. 006
3
II 49 27.22
a.0704
0 17 34-6
16.800
4
10 10 41.24
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12 59 9.2
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4
II 51 31-45
2.0705
N. 0 046.5
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5
10 12 50.96
2.1601
1244 2.4
15.148
5
II 53 35-68
a. 0707
S. 0 16 1.7
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6
10 15 0.45
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12 28 51.5
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6
II 55 39-93
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0 32 49-9
X6.803
7
10 17 9.72
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12 13 36.5
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7
II 57 44-21
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X6.808
8
10 19 18.77
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II 58 17.5
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8
II 5948.51
2.0720
I 6 26.1
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9
10 21 27.60
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II 42 54-7
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9
12 I 52.85
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lO
10 23 36.23
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II 27 28.0
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10
12 3 57.23
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12 6 1.65
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12 10 10.66
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10 32 8.68
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14
12 12 15.25
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15
10 34 16.31
a. X256
TO 9 20.6
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15
12 14 19.91
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3 3 50.5
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10 36 23.75
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9 53 33.0
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16
12 16 24.65
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3 20 34.2
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17
10 38 31.01
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17
12 18 29.46
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3 37 16.9
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i8
10 40 38.10
2. I 167
9 21 48.3
15.9*4
18
12 20 34.36
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3 53 58.6
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19
10 42 45.02
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9 5 51-3
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19
12 22 39.35
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4 10 39.2
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20
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2.XXI2
8 49 51-4
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20
12 24 44.43
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4 27 18.7
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21
10 46 58.36
2.1086
8 33 48-7
16.068
21
12 26 49.61
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4 43 56.8
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22
10 49 4.80
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8 17 43.2
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22
12 28 54.90
2.089X
5 033.6
X6.602
23
10 51 11.08
2.1035
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X6.157
23
12 31 0.30
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5 17 9.0
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24
10 53 17.22
a. X012
N. 7 45 24.4
16.199
24
1333 5.82
2.0930
S. 5 33 42.8
16.550
X.
DECEMBER, 1913.
143
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diflf.
•
DifiE.
Diff.
Hour.
Right Ascension.
for
I Min.
Declination.
for
X Min.
Honr.
Right Ascension.
for
X Min.
Declination.
for
xMhi.
su
NDAY
21.
TUESDAY 23.
h m s
s
Of M
m
h m 8
8
oil*
m
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la 33 5-82
a. 0950
s. 53342.8
X6.550
0
14 17 26.39
2.28x8
S.I749 1.9
13.489
I
12 35 11.46
a.095x
5 50 15.0
z6.5aa
I
14 19 43.46
9.2879
18 2 28.2
13.387
2
la 37 17.23
a. 0973
6 645.4
16.493
2
14 22 0.86
2.9927
18 15 48.3
i3.a83
3
12 39 23.14
9.0996
6 23 14.1
16.462
3
14 24 18.59
2.2983
18 29 2.1
^3'^77
4
12 41 29.18
2.X019
6 39 40.9
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4
14 26 36.64
a. 3037
1842 9.5
13.069
5
X* 43 35.37
a,xo44
656 5.7
16,396
5
14 28 55.03
9.309a
18 55 10.4
X3.960
6
12 45 41.71
3.1069
7 la 28.4
x6.s6o
6
14 31 13.75
«.3X47
X9 8 4.7
X3.850
7
la 47 48.20
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7 a8 48.9
X6.323
7
14 33 32.80
a.3ao3
19 20 52.4
X2.737
8
12 49 54.85
3.xxa3
7 45 7.2
Z6.286
8
14 35 52.19
a.3a59
19 33 33.2
X3.6a5
9
la 52 1.67
9.XZ50
8 I 23.2
X6.247
9
14 38 II. 91
a. 3314
19 46 7.2
X3.508
xo
12 54 8.65
2.1176
8 17 36.8
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10
14 40 31.96
a. 3370
19 58 34.2
X9.39X
ZI
la 56 15.81
a.zio9
8 33 47.8
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II
14 42 52.35
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12
12 58 23.16
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8 49 56.3
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12
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14
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14
14 49 55.55
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20 47 10.5
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15
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a. 1336
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15
14 52 17.29
a. 365a
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13 6 54.44
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16
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17
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17
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18
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13 13 20.04
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20
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X5.7XO
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XX. 133
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XI 12 59.9
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10
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12
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14
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15
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18
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19
Z4 6 5.81
a. 2555
16 40 20.6
13.978
19
16 0 37.03
2.5091
25 34 10.9
7.691
ao
14 8 21. 30
2.9607
16 54 16.5
13.884
20
16 3 7.70
3.5x3a
25 41 47.4
7.5a6
21
14 10 37.10
2.2659
17 8 6.7
13.788
21
16 5 38.62
a. 5173
25 49 14.0
7.36X
22
14 12 53.21
2.27x2
17 21 51. 1
13.690
22
16 8 9.78
9.59x3
25 56 30.7
7.X94
»3
14 15 9.64
2.2765
17 35 29.5
13.591
23
x6 10 41.18
9.5353
26 3 37.3
7.025
24
14 17 26.39
a.a8x8
S.1749 1.9
X3.489
24
16 13 12.81
9.5990
S.26 10 33.7
6.856
144
DECEMBER, 1913.
XI
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Diff.
Diff.
L
DifL
Diff.
Hour.
Right Asceoftion.
for
DrJination.
Cor
Hoar.
Right Ascenaion.
for
DecUxution.
for
xUio.
xMin.
xMixi.
x Min.
THURSDAY 25.
SATURDAY 27.
h m 8
8
0 * m
ft
h m 8
8
or M
m
0
16 13 12.81
a. sago
S.26 10 33.7
6.856
0
18 16 20.00
a. 54x4
S.28 14 2.1
1.758
I
16 15 44.66
a-53V
26 17 20.0
6.686
I
18 18 52.38
a. 5378
28 12 II. 3
X.933
2
16 18 16.73
a. 536a
26 23 56.0
6.515
2
18 21 24.54
a. 534a
28 10 10. 1
8.XO7
S
16 20 49.01
«.53«7
26 30 21.8
6.344
3
18 23 56.48
a. 5303
28 7 58.5
a.aSi
4
16 23 21.49
8.5429
26 36 37.3
6.17a
4
18 26 28.17
8.5868
28 536.5
a. 453
5
16 25 54.16
a.546«
26 42 42.4
5-998
5
18 28 59.62
3.5281
28 3 4. 1
8.684
6
16 28 27.03
9.3499
26 48 37.0
5.883
6
18 31 30.82
8.5x78
28 0 21.5
a. 795
7
16 31 0.07
a.SSai
26 54 21. 1
5.648
7
18 34 1.76
a. 5x34
27 57 28.7
a.964
8
16 33 33-28
a. 5549
26 59 54.7
5.47a
8
18 36 32.43
a.5oB8
27 54 25.8
3.X33
9
16 36 6.66
a. 5577
27 5 17.7
5.a95
9
18 39 2.82
a.5aia
27 51 12.8
3.301
xo
16 38 40.20
*.56ot
27 10 30. 1
5. 1x8
10
18 41 32.93
a.4903
27 47 49-7
3.4^
II
16 41 13.88
2.56*5
27 1531.9
4.941
II
1844 2.74
a. 4944
27 44 16.7
3.633
12
16 43 47-70
a. 5648
27 20 23.0
4.76a
12
i8 46 32.26
a. 43m
27 40 33-8
3.797
13
16 46 21.65
a. 5669
27 25 3.3
4.585
13
1849 1.47
3.4848
27 36 41.0
3.96X
H
16 48 55.73
a. 5689
27 29 32.9
4.403
14
18 51 30.36
a.4788
27 32 38.5
4.xa3
15
16 51 29.92
a.5707
27 33 51.6
4.aaa
15
18 53 58.93
a. 4735
27 28 26.3
4.a84
i6
16 54 4.22
a. 5784
27 37 59.5
4.0*8
16
18 56 27.18
a. 4680
2724 4-5
4.443
17
16 56 38.61
a.5739
27 41 56.6
3.86(
17
18 58 55.09
8.4623
27 19 33. 1
4.6Q8
i8
16 59 13.09
a. 575a
27 45 42.8
3.679
18
19 I 22.66
8,43fi7
27 14 52.2
4.760
19
17 I 47.64
a.5764
27 49 18. 1
3*497
19
19 349-89
8.4508
27 ID 1.9
4.9x6
ao
17 4 22.26
a. 5775
27 52 42.5
3.3x3
20
19 6 16.76
a. 444a
27 5 2.3
5.07X
21
17 6 56.94
a. 5785
27 55 55-9
3.133
21
19 8 43.28
8.4390
26 59 53.4
5.tlS
22
17 931.W
a.57W
27 58 58.4
t.93P
22
19 II 9.44
2.4383
26 54 35.3
5.377
»5
17 12 6.45
FB
3.5798
J DAY
S.28 I 49.9
26.
2.7^
23
19 13 35.22
SU
8.4866
NDAV
S. 26 49 8. 1
' 28.
5.sa8
o
17 14 41.25
a. 580a
S.28 430.5
a.584
Q
19 16 0.63
a.4lQ3
S.26 43 51.9
5.#7e
I
17 17 16.07
a. 5804
28 7 0.0
a.40x
I
19 18 25.66
8.4140
26 37 46.7
5.887
2
17 19 50.90
a. 5805
28 9 18.6
a.ax8
2
19 20 50-31
a. 4076
26 31 52.7
5.973
3
17 22 25.73
a.58<H
28 II 26. 1
a.034
3
19 23 14.57
8.40x1
26 25 49.9
6.1x9
4
1725 0.55
a.sSoa
28 13 22.7
1,95*
4
19 25 38.44
a.9946
26 19 38.4
6«s6s
5
17 27 35.35
a. 5798
28 15 8.3
1.668
5
19 28 1.92
a.3379
a6 13 18.3
6,406
6
17 30 10.13
a. 5799
28 16 42.9
1.485
6
19 30 24.99
a.aaia
26 6 49.7
6.547
7
17 32 44.86
a. 5735
28 18 6.5
x.joa
7
19 32 47.66
a. 3744
26 0 12.6
6.688
8
17 35 19.55
a.3777
28 19 19. 1
X.X18
8
19 35 9-92
8.3676
25 53 27. 1
6«8a7
9
1737 54.18
a. 5766
28 20 20.7
0.936
9
19 37 31.77
a. 3607
15 46 33.4
6,963
lO
17 40 28.74
a. 5754
28 21 II. 4
0.753
10
19 39 53.20
a. 3537
25 39 31.5
7.099
II
1743 3.23
a. 5741
28 21 51. 1
0.57X
II
19 42 14.21
a. 3467
25 32 21.5
7.a34
12
17 45 37-63
a. 57*5
28 22 19.9
0.389
12
19 44 34.81
2.3397
2525 3.4
7.3^
13
1748 U.93
a. 5707
28 22 37.8
0,207
13
19 46 54.98
2.3326
25 17 37-4
7.498
14
17 50 46.12
a. 5686
28 22 44.8
-o.oa6
14
19 49 14.72
8.3855
25 10 3.6
7-6t»
15
1753 20.19
a. 5668
28 22 40.9
+O.X55
15
19 51 34.04
2.3184
25 2 22.0
7.757
i6
17 55 54.13
a. 5646
28 22 26.2
0.336
16
19 53 52.93
2.3113
24 54 32.8
7.883
17
17 58 27.94
8.5623
28 22 0.6
0.516
17
19 56 11.39
a. 3040
24 46 36.0
8.009
i8
18 I 1. 61
2.5598
28 21 24.3
0.694
18
19 58 29.41
2.8967
24 38 31.7
8.133
19
18 335.12
a. 5571
28 20 37.3
0.873
19
20 0 46.99
3.8894
24 30 20.0
8.856
20
18 6 8.46
a. 5543
28 19 39.5
x.osa
20
20 3 4.14
2.2822
24 22 I.O
8.377
21
18 8 41.63
a.55»3
28 18 31. 1
1.289
21
20 5 20.85
2.2748
24 13 34.8
8.496
22
18 II 14.61
2.548a
28 17 12.0
1.407
22
20 7 37.12
8.8675
24 5 1-5
8,614
23
18 13 47.41
a. 5449
28 15 42.3
1.583
23
20 9 52.95
2.a6oa
23 56 21.1
8.731
24
18 16 20.00
2.5414
S.28 14 2.1
1.758
24
20 12 8.34
2.8528
S.234733.8
8.846
[.
DECEMBER, 1913.
GREENWICH MEAN TIME.
145
THE MOON'S RIGHT ASCENSION AND DECLINATION.
^ht Ascension.
Diff.
for
X Min.
Declination.
Diflf.
for
xMin.
Hoar.
Right Atcensioii.
Diff.
for
X MlA.
Declination.
Diff.
for
I Min.
h m
20 12
20 14
20 16
20 18
20 ai
20 23
20 25
20 27
20 29
20 32
2034
20 36
20 38
20 40
20 42
20 45
20 47
20 49
zo sx
20 53
20 55
20 57
zo 59
21 2
MONDAY 29.
s s • '
8.34 a.«5a8 S.23 47
23.29 1.8455 23 38
37.80 3.338a 23 29
51.87 3.t3o8 23 20
5.50 3.3334 23 II
18.68 «.ti6x 23 I
31.43 a.ao88 22 52
43.73 3.2014 22 42
55.60 3.X94X 22 33
7.02 3.X8G7 22 23
18.00 S.X794 22 13
28.55 3.173a 22 3
38.66 t.x648 21 53
48.33 a.X57« 21 43
57-57 «.»504 21 33
6.38 a.X433 21 22
14.76 3.X36X 21 12
22.71 3«x«89 21 I
30.23 3.13X8 20 51
37.33 a.1147 20 40
44.00 3.1077 20 29
50.25 S.X007 20 X8
56.08 3.0938 20 7
1.50 3.0B68 S. 19 56
TUESDAY 30.
33.8
39-6
38.7
31.1
16.9
56.2
29.1
55-7
16. 1
30.3
38.4
40.6
36.8
27.3
12.1
51.2
24.9
53
15
33
45
52
55
52
X
9
4
7
9
I
3
21
21
21
ZI
21
21
21
21
4
6
8
10
12
14
16
18
21 20
21 22
21 24
21 26
21 28
21 30
21 32
21 34
21 36
21 38
21 40
21 42
21 44
21 46
21 48
21 50
21 52
6.50
IX. 09
1 5' 27
19.05
22.42
25-39
27.97
30-15
31-94
33-34
34-36
34-99
35-25
35.13
34-64
33-79
3«-57
30.99
29 06
26.78
24-15
21.17
17.85
14.20
X0.9I
3.0799
3.073X
3.0663
3.0596
1.0338
3.0463
3.0397
3.033X
3.0366
2.030S
3.0x38
3.0074
3.00X3
x-9949
X.9888
X.9837
X.9767
1.9708
X.9649
X.9S9X
X.9533
1-9475
1.94x9
1-9363
S.
S.
9 45
9 34
923
9 u
9 o
848
837
825
813
8 2
50
38
26
14
2
50
37
25
13
o
48
35
23
10
57
7
7
7
7
7
6
6
6
6
6
5
5
5
5
44.7
32.3
15. 1
53-4
27.1
56.3
21.2
41.8
58.1
10.3
18.4
22.5
22.6
18.9
II. 4
0.2
45.4
27.0
5-x
39.8
II. I
39.1
3-9
25.5
44-1
8.846
8.959
9.07X
9.X83
9.391
9-398
9.504
9.608
9.71a
9.814
9.914
0.013
O.IIX
XO.206
0.301
0.393
0.484
0.575
0.664
0.753
0.838
10.933
1.005
1.087
1. 167
1.247
I.3I4
1.400
1-476
1.549
1. 621
1.693
x-7€3
1. 831
1.898
».9C5
2.030
3.093
3.156
2.317
3.377
3-336
a. 393
2.450
3.506
3.560
2.6x3
2.665
3. 716
O
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
h m 8
2X 52 10.21
21 54 5.90
21 56 1.26
21 57 56-30
21 59 5^-03
22 I 45-45
22 3 39-56
22 533.37
22 7 26.89
22 9 20.11
22 II 13.04
22 13 5.69
22 14 58.05
22 16 50.14
22 18 41.96
22 20 33.51
22 23 24.80
22 24 15.83
22 26 6.61
22 27 57.14
22 29 47.42
22 31 37.47
22 33 27.28
22 35 16.86
WEDNESDAY
S.
31.
s
1.9308
x.9a54
X.9300
1.9x48
1.9096
1-9044
X.8993
1-8944
X.8895
X.8846
1.8798
1.8751
X.8704
x.«659
1.86X4
X.8570
X.8337
X.8484
X-844a
1.8401
X.836X
x.83a3
x.8a83
X.8345
57
44
32
19
6
53
40
27
14
I
48
35
21
8
55
41
28
15
I
48
34
21
S.
o 7
9 54
44-1 ,
59.6
12.2
21.9
28.7
32.8
34.2
32-9
29.1
22.8
14.0
2.8
49-2
33.4
15.3
55.1
32.7
8.3
41.9
13.5
43.3
II.2
37.4
1.8
THURSDAY, JAN. i, 1914.
9 40 24.6
O 22 37 6.22
X.8308
S.
X2.7I6
X2.766
12.814
X2.86S
12.909
13.954
12.998
13.04a
13.085
13.X26
13.167
X3.ao7
13.145
X3.382
X3.319
13.355
X3.390
X3.4a3
X3.457
13.488
13.519
X3*549
13.578
13.607
13.634
PHASES OF THE MOON.
d h m
3) First Quarter . . Dec. 5 2 58.7
O Full Moon 13 3 0-3
(^ Last Quarter .... 20 4 15.6
% New Moou ..... 27 2 58.7
d h
([ Apogee Dec. 6 ii.i
([ Perigee . 21 2.4
191.3
10
146 MERCURY, 1913.
GREENTWICH MEAN TIME.
MERCTJKY, 1913. 147
GREENWICH MEAN TIME.
148
MERCURY, 1913.
GREENWICH MEAN TIME.
MAY.
JUNE.
1
o
Apparent
Right Ascen-
sion.
Var. of
R. A.
for I
Hour.
Apparent
Declination.
Var. of
DecL
for I
Hour.
Merid-
ian Pas-
sage.
•
1
Apparent
Right Ascen-
sion.
Var. of
R. A.
for X
Hour
Apparent
Declination.
Var of
Ded.
for 1
Hour.
Merid-
ian Pas-
sage.
Noon.
Noon.
Noon.
Noon.
Q
Noon.
Noon.
Noon.
Noon.
h m s
a
0 r tt
n
h m
h m s
8
0 f *f
//
h m
I
0 57 27.42
+11.63S
+ 258 1.8
+ 70.96
22 22.9
I
432 0.29
+93.977
+22 29 27.7
+73 9 1 ■
• • •
2
I 2 10.53
1X.964
327 4.1
74.20
22 23.8
2
4 41 21.31
93.465
225753.2
68.14
0 0.0
3
I 7 1.64
xa.»9S
35722.5
77.30
2224.9
3
45046.13
B3 .594
23 23 55.4
61.99
0 5.5
4
I 12 0.65
X9.6a3
42853.5
8o.a6
2226.1
4
5 013.32
03.66X
234726.0
55.SS
0 1 1.0
5
I 17 7.52
It .950
5 1340
83.08
22274
5
5 941.38
93.666
24 818.3
48.81
0 16.5
N 6
I 22 22.25
+xj.a78
+ 5 35 20.6
+ 85.77
22 28.8
6
5 19 8.80
+93.609
+242627.5
+41.93
0 22.1
7
I 27 44.85
13.607
6 10 9.9
88.3a
22 30.3
7
52834.11
93.491
244150.3
34.96
0 27.6
8
I 33 15.37
13.938
64558.£
90.73
2232.0
8
5 37 55.87
«3.3I5
245425.5
27.97
033.0
9
1 38 53.91
I4.a74
72243.8
99.99
22 33.8
9
5 47 12.73
33.083
25 413.3
91.03
0 38u^
lO
I 44 40.59
14.6x6
8 021.5
95."
22 35.8
10
5 56 2345
a9.8o9
25 II 15.7
i4.ao
043.6
II
I 50 35.56
+14.965
+ 83848.3
+ 97.10
22 37.9
II
6 5 26.90
+9a.47B
+25 15 36.0
+ 7.53
048.7
12
I 56 38.98
lS^|«t
918 I.O
98.91
2240.2
12
6 14 22.08
2U.IIS
25 17 18.5
+ 1.06
053.7
13
2 2 51.06
IS.687
95754-9
100.5s
22 42.6
13
623 8.12
ai.717
25 16 28.7
- S.16
058.5
H
2 9 12.02
x6^K
103826.2
loa.oa
2245.1
14
6 31 44.28
ai.99x
25 13 12.7
11.19
I 3.2
15
2 15 42.09
16.446
II 1930.6
X03.31
22 47.8
15
640 9.91
fio.641
25 737.3
16.78
I 7.7
i6
2 22 21.54
+x6J4a
+12 I 3.3
+104.38
22 50.7
16
6 48 24.50
+90.379
+245949.7
—99.14
I 12.0
17
2 29 10.63
17.950
124259.0
105.93
22 53.8
17
6 56 27.62
19.886
244957.3
97.18
I 16. 1
i8
2 36 9.61
17.668
1325 IS. I
105.83
22 57.0
18
7 418.93
if.387
2438 7.6
31.91
I 20.0
19
2 43 i«.74
18.096
14 736.6
106. X 6
23 0.3
19
7 "58.15
18.879
24 24 28.2
36.39
I 23.8
20
2 50 38.26
18.533
'4 50 5.5
X06.90
23 3.9
20
7 19 25.09
18.364
24 9 6.6
40.49
127.3
21
258 «.37
+18.978
+15 32 31.5
+X05.99
23 7.7
21
7 26 39.58
+17.843
+235210.5
— 44.«0
I 30.6
22
3 549.23
19.4*9
16 1446.5
XOS.98
23 1 1.6
22
7 33 41.52
17.3«8
233347.1
47.69
133.6
23
3 13 40.95
19.889
16 56 41.8
X04.96
23 15.7
23
7 40 30.82
16.790
2314 3-6
50.88
136.5
24
3 21 43.56
ao.335
1738 7.7 »oa.83
23 20.0
24
7 47 7.42
l6.a6o
2253 7.2
53.78
139.2
25
3 29 56.98
ao.783
18 1853.8
100.95
23 24.5
25
7 53 31.28
15. 7*8
2231 4.6
56.40
I 41.6
26
3 38 2ix>2
+91.990
+185849.3
+ 98.60
2329.1
26
7 59 42.35
+15.194
+22 8 2.6
-58.74
143.8
27
3 46 55.39
9X.64X
193742.5 95.75
2334.0
27
8 540.61
14.660
2144 7-7
6o.8«
145.8
28
3 55 39.62
99.040
20 15 21.4 99.40
23 38.9
28
811 26.01
14.193
21 1926.4
69.60
147.6
29
4 433.08
99.410
205133.6 88.53
2344.0
29
8 1658.51
13 584
2054 4.8
64.1s
149.2
30
4 13 35.00
99.744
21 26 6.7 84x5
2349.2
30
8 22 18.06
13.044
2028 9.1
65.45
I 50.6
31
4224444
+93.035
+215848.6 + 79.a7
23 54.6
31
8 27 24.59
+19.500
+30 1454
-66.49
I 51-8
32
432 0.29
+*3.a77
+222927.7 + 73.91
I
• •
32
8 32 18.00
+ 11.951
+193459.6
-67.99
152.7
Day of the Month,
. xst.
6th.
n
xxth.
x6tfa
. 9lSt.
n
96th.
31st
It
Day of the Month.
5th.
10th.
tf
15th.
90th.
tf
asth.
30th.
tr
Scmidiameter
Horixontal Par. .
3.54
9.34
3.97
8.6x
3.03
7.99
a.83
7.47
9.68
f 7.07
9.58
6.79
a.53
6.66
Semkliameter . . .
Horizontal Parallax .
a.5S
6.71
9.63
6.94
2.78
7.33
2.08
7.85
3.99
8.48
3.50
9.93
NoTS. — The sign + indicates ncnth declinations; the sign — indicates south declinations.
MERCURY, 1913.
149
GREENWICH MEAN TIME.
JULY.
AUGUST.
S
Risht Aaoen-
aion.
Var. of
R. A.
for X
Hour.
Apparent
Dedioation.
Var. of
D«cL
for I
Hour.
Merid-
ian Pas-
•
1
Apparent
Right Ascen-
sion.
Var. of
R.A.
fori
Hour.
Apparent
Declination.
Var. of
Decl
for I
Hour.
Merid-
ian Pas-
0
sage.
sage.
>%
d
Q
Ncom,
Noon.
Noon,
Noon,
Noon.
Noon.
No0n.
Noon,
li IB a
a
0 f tf
ft
h m
h m s
s
0 t tf
ft
h m
I
82734^9
+xa.soo
-♦.20 1454
-66.49
I 51.8
I
8 58 59.67
- 7.30X
+11 5946.1
+•7.30
020.9
2
832 laoo
I1.9SX
193459.6
67.»9
152.7
2
856 2.46
7.446
12 II 39.3
3a.o6
014.I
3
8 36 58,18
XI.J97
19 757.6
67.84
153.4
3
853 3.27
7.464
12 25 214
36.36
0 7.2
4
84124.99
io.«J7
184045.4
68.X4
I 53.9
4
850 5.25
7.350
124040.7
40.14
UaSi
5
8 45 38.38
xo.t69
18 13 39.0
68.19
154.2
5
847 11.66
7.097
1257234
43.3 a
2346.8
6
« 49 37^
+ 9.693
+1746 14.I
-68.00
154.2
6
8 44 25.81
- 6.704
+13 15 14.7
+45.85
2340.3
7
8533345
9.107
1719 6.8
67.56
154^
7
84150.98
6.x 77
133358^
47.69
2334.1
8
85654.68
9>Sio
1653 13.0
66.87
153.5
8
83930.34
5.5«t
135318.2
48.84
2328.1
9
9 0 11.83
7.90X
16 35 39.0
63.90
I 52.8
9
837^6.89
4.746
14 12 57.1
49.«B
23224
lO
9 314.OO
7.*7»
155931.0
64.70
151.9
10
8 35 43.40
3.861
143338.1
49.0a
23 17.1
II
9 6 1.06
-1- 6.641
+153355-5
— 63.ax
150.7
II
8 34 22.34
- S.879
+1453 4.5
+48.07
23 12.2
12
9 83245
5.988
15 859.0
6X.45
149.3
12
8 33 25.86
1. 814
15 II as
46.46
23 7.8
13
9 lo 48.37
S.JJ9
144448.0
59.41
147.6
13
8 32 55.78
- o.68a
1529 9.5
44.SI
23 3.8
H
9 13 47^5
4.634
142129,5
57.08
145.6
14
8 32 53.57
+ o.f05
154617.5
41 .j6
23 0.3
15
91430^
3-93«
13 59 10.5
54^45
1434
15
833^0*34
1.731
16 flIOwO
37.93
22 57.3
i6
9x556^
■f 3.»X3
+13 37 58.1
-51.53
140.9
16
S 34 16.88
+ •983
+161633.5
+33.95
2354.8
17
917 4*77
a"47T
13 1759.7
48.30
I 38.1
17
83543.63
4.a4Y
16 29 15.8
•9.45
2252.8
i8
9 17 55.a6
i.T»7
125922.6
44.TS
1 35.0
18
8 37 4a74
5.5"
1640 3.0
•4.45
2251.3
19
9 18 27.59
0.964
12 42 14.3
40.89
I 31.6
19
840 Sjo6
6.f63
164845.8
18.99
22 50<J
20
9 18 4146
+ O.X9I
12 2642.1
36.74
I 27.8
20
843 5.15
7.991
165511.4
13.11
2349.8
21
9 1836.69
- 0.389
+12 1253.4
•30.98
I 23.7
21
84631.33
+ 9.184
+1659II.4
+ 6.63
28 497
23
9 18 13.18
X.370
12 055.3
a7.5a
I 19.4
22
8 50 25.64
10.333
17 036.3
+ 0.19
22 5a I
23
9 17 30.95
a.x47
"5054.4
t«.5o
I 14.8
23
8 54 46.89
xi.4a8
165917.7
-6.77
22 50.9
24
9 1630.31
a.9ia
II 42 56.9
17.»4
I 9.9
24
8 59 33.69
xa.460
165s 9.1
13.98
2252.1
25
9 15 "35
3.656
1 1 37 8.2
XI. 78
I 4.6
25
9 44440
X3.4ao
1648 5.1
tx.38
22 53-7
26
9 1334.99
" 4.368
+"3332.7
- 6.x6
059.0
26
9 10 17.22
+14.301
+1638 1.7
— a8.9i
22 55.6
27
9 II42/>I
S.038
1 1 32 13.7
— 0.4«
053.2
27
9 16 10.18
15.097
162456.9
36.49
22 57.8
28
9 933.59
5.653
II 33 13.0
+ 5.J6
047.2
28
9 22 21.19
15.804
16 85a7
44.0a
23 0.3
29
9 7 11.19
6.30I
1 1 36 30.6
IX. xo
040.9
29
9 28 48.06
16.419
154944.9
51.44
23 3.1
3P
9 436.60
6.667
II 42 4.8
16.73
0344
30
9 35 28.58
16.94a
152743.2
58.66
23 6.0
3«
9 151.95
- 7.037
+11 49 51.9
+aa.i6
027.7
31
9 42 20.53
+17.37S
+15 251.4
-65.61
23 9.1
32
8 58 59.67
- 7.301
+11 5946.1
+37.30
0 20.9
32
94921.73
+17.7x4
+
143516.9
—7a. ax
23 12.3
D«y of the Mestli.
5tli.
xoth.
ft
X5tb.
ff
9oth.
a5th.
ft
30th.
//
D«y of the If oath.
4tl
1.
9tk
ft
i4tk.
»t
I9(fa.
ft
S4tli.
It
a9th.
ft
//
3.83
4.20
4.61
5.03
5.40
5.6a
Sonidiameter . .
5.57
5.ao
4.63
4.ot
3.46
3.04
8.0X
Horisoatal PArallax.
le.io
It. 08
ta.iS
13.96 I4.a4
14.81
Horizontal Parallax
14.67
13.71
la.so
10.36
9.1 •
Tbe sign + prefixed to the hourly change of declination indicatea that north declinations are increasing; the
Bgn — indicates that north declinations are decreasing.
150 MERCURY, 1913.
GRESNWICH MEAN TIMB.
MERCURY, 1913.
151
GREENWICH MEAN TIME.
NOVEMBER.
DECEMBER.
•5
§
Q
I
2
3
4
5
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
Rii^t Aacen-
sioiL
Noou.
h m 8
55636.98
6 054.12
6 459.26
6 850.71
61226.57
6154473
61842.86
621 18.42
6 23 28.67
6 25 10.69
62621.47
62658.00
62657.38
62617.05
62454.99
622 50.08
620 2.42
61633.70
6122743
6 749.14
6 246.37
5 57 28.37
552 556
54648.82
54148.66
5 37 1449
5 33 14.00
52952.85
5 27 1465
52521.04
5 24 12.04
52346.39
Var. of
R. A.
for I
Hour.
Noon.
8
+ XO.943
I0.47S
9.94a
9.333
8.641
+ 7.856
6.970
5974
4.860
3.621
+ a.956
+ 0.767
— 0.837
2.539
4.308
— 6.X01
7.859
9.510
XO.973
19. 164
—13.002
13.425
13399
12.922
12.025
-XO.768
9.233
7.505
5.669
3.800
— 1.960
— 0.194
Apparent
D^u nation.
Var. of
Ded.
for I
Hour.
Noon.
Noon.
0 1 II
II
-231758.0
-35.aa
2331 16.6
31.30
2342591
27.20
2353 0.9
22.90
24 I 16.9
18.38
-24 741.4
—13.62
24 12 8.4
8.59
24 14 31.0
- 3.25
24 14 41.5
+ 9.43
24 12 31.4
8.47
-24 751.5
+14.99
24 031.8
91.79
235022.1
99.10
23 37 ".8
36.83
232051.3
44.93
-23 I 13. 1
+53.a8
22 38 13.3
61.69
22 1 1 53.9
69.87
214224.9
77.49
21 10 6.8
83.87
-203532.1
+88.71
195925.7
91.44
19 22 43.0
91.68
184626.8
89.21
18 II 42.1
84.06
-173930.9
+76.49
17 1046.4
66.93
1646 9.6
55.94
1626 7-9
44.12
16 1054.3
32.02
-16 029.6
+20.12
-155444.4
+ 8.79
Merid-
ian Pas-
S
Q
h m
16.0
16.3
164
16.3
16.0
15.3
14.3
13.0
II. 2
8.9
6.1
2.8
o 58.8
o 54.2
o 48.9
o 42.8
o 36.1
o 28.7
o 20.7
O 12.2
( 0 S.t
Its M.O
2344.8
23 35.6
23 26.7
23 18.2
23 10.3
23 3.0
22 56.4
22 50.6
22 45.5
22 41. 1
22 37-4
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.
Var. of
R. A.
for I
Hour.
Noon.
Noon.
h m 8
%
15 24 12.04
— 1.960
152346.39
- 0.194
1524 1.92
+ X.467
152455.87
3.007
152625.20
4-415
15 28 26.74
+ 5.69X
153057.37
6.840
153354.13
7.870
15 37 14.27
8.790
154055.26
9.610
154454.84
+10.341
1549 11.00
XO.993
155341.93
XI.574
15 58 26.05
19.093
16 321.98
xa.559
16 828.50
+19.977
161344.57
X3.355
16 19. 9.26
X3.697
162441.76
14.007
163021.37
14.990
1636 7.47
+X4.549
164159.52
14.786
164757.04
X5.005
165359.62
X5.907
17 0 6.88
15 395
17 618.50
+15.570
17 1234.17
15.734
171853.63
15.887
172516.64
16.030
173142.99
16.164
173812.48
+16.991
174444.91
+16.410
Apparent
Dedination.
Var. of
Ded.
for I
Hour.
Noon.
Noon.
0 1 II
II
-16 029.6
+90.I9
155444.4
+ 8.79
15 53 21.4
- 1. 71
15 55 58.7
11.92
16 2 1 1.4
19.65
-16 1 1 33.4
—97.01
16 23 39.0
33- 29
1638 3.3
38.57
165423.0
42.92
17 12 16.9
46.43
-17 31 25.6
-49.17
175131.6
51.99
18 12 19.3
59.64
1833 35.1
53-53
1855 6.7
53.97
-19 1643.2
-53.99
19 38 15.4
53.63
195934.7
52.93
202033.8
51.94
2041 6.1
50.70
-21 I 5.8
-49.33
21 2027.7
47.56
2139 7.3
45.71
2157 0.5
43.70
22 14 3.6
41.54
-22 30 13.2
-39.95
224526.4
36.84
225940.4
34.39
231252.8
31.70
2325 1.2
98.99
-2336 3.5
—96.19
-234557.8
-93.32
Merid-
ian Pas-
sage.
h m
22 41. 1
22 37.4
2234.3
2231.8
22 29.9
22284
22274
22 26.8
22 26.5
22 26.5
22 26.8
22 27.4
22 28.2
22 29.2
2230.3
2231.6
2233.1
2234.7
22 36.4
22 38.2
2240.2
2242.2
2244.3
2246.4
2248.7
2251.0
22 53.4
2255.8
22 58.3
23 0.9
23 3.5
23 6.1
Day of the Month.
Scmidiaxneter . . .
Horizontal Parallax .
2d.
7th.
1 2th.
17th.
2 2d.
II
3.30
8.70
11
3.67
9.67
II
4.X4
XO.92
It
4.6s
12.27
It
4.93
12.99
27th.
Day of the Month.
II
4.69
1*35
Semidiameter .
Horizontal Par.
9d.
7th.
II
3.60
9.48
1 9th.
17th.
29d.
27th.
II
4.14
XO.89
II
3.90
8.43
II
2.91
7.68
II
2.71
7.15
II
2.57
6.78
3 2d.
11
2.47
6.51
The si^ + prefixed to the hourly change of declination indicates that south dedinations are decreasing; the
— indicates that south declinations are increasing.
152 VENUS, 1913.
GREENWICH MEAN TIME.
Note. — Tbc ^co + indicnUft nottlKlrcliiialioiis^ the sisa — indlcatci Hutli dvcttimtloiB.
VENUS, 1913.
153
GREENWICH MEAN TIME.
MARCH.
APRIL.
_. 1
e
o
St
Appttirrat
Riffht Ascen-
sion
Var. of
R.A.
for X
Apparent
DcctUmtion.
Var. of
for I
Merid-
•
§
Apparent
Right Asccn-
Var. of
R.A,
for I
Apparent
Decunation.
Var. of
Decl.
for X
Merid-
^
Hour.
Hour.
ian Pas-
•s
Hour.
Hour.
ian Pas-
sage.
0
sage.
>»
d
0
Noon,
Noon,
Noorn^
Noon,
>•
(9
Q
Noon,
Noon.
Noon,
Noon,
li m •
*
0 f ft
It
h m
h m %
%
c 1 ft
tt
h m
I
l^>43^
+7.580
+13 1 13.9
+63 .a8
255.9
I
2 30 58.96
+0.684
+2155534
+14.29
153.7
2
I 33 44-52
7.475
132621.6
6a.38
254.9
2
2 31 10.92
+o.3ia
22 I 4.3
xi.6x
149.9
3
I 3642.62
7.365
1351 74
6z,44
253.9
3
2 31 13.88
—0.066
22 5 9.9
8.84
146,0
4
i39 3«-03
7.8SO
14 15 304
60,48
252,9
4
231 7.70
0.449
22 8 7.6
5.96
142.0
5
I 42 30.61
7.130
H 39 29.8
59.48
2 51,8
5
2 30 52.28
0.836
22 955x>
+ a.98
I37.S
6
1 43 20.24
+7.004
+15 3 4^
+58.45
250.7
6
23027^
— i.aas
+22 10 29-8
— o.io
133.5
7
I 48 6.77
6.87a
15 26 14.8
57^J8
249^
7
22953.50
x.6xj
22 9494
3.a7
129JO
8
I 5050.04
6.733
154858.6
56.28
248.3
8
2 29 10.16
X.999
22 751-7
6.54
124.3
9
I 53 29.89
6.587
j6ii 15.5
55. X4
247,0
9
2 28 17,60
a.381
22 434.5
9.90
1 19.5
lO
I 56 6.i6
6.434
X633 4-6
53.96
245.7
10
2 27 15.95
a.75S
215955.9
13.33
114.5
11
15833-68
+6.474
+165425^
+5a.74
244.3
II
226 543
— 3.XX9
+215354.3
-j6.8a
I 94
12
3 I 7.26
6.X06
17 15 15-6
51.48
2 42,8
12
2 24 46.32
3.47 X
214628^
aQ.36
I 4.2
13
2 3^*^
5.939
17 35;J5.3
50.17
2 41.3
13
2 23 18.96
3.807
213736.9
a3.92
058.8
H
2 55176
5.743
17 55 23.2
48.8a
239.7
14
2 21 43.76
41^23
21 27 19.8
a7.49
053.3
15
2 8 7^7
5^4«
18x438.1
47.4a
2 38,0
15
2 20 1.24
4.4x6
21 1537^
31x5
047.7
i6
2 10 iSjOQ
+5.344
+1833 19X)
+45.98
2 36.2
16
2 18 11.99
-4.684
+21 229.9
-34.55
041.9
«7
2 12 23,71
5.130
185124^
44-18
234.3
17
2 16 16,66
4.9a4
2047594
37.97
036.1
i8
2 14 24.16
4.906
19 853.5
4a .93
2324
18
2 14 15.97
5.X30
2032 7.9
4x.a9
030.2
19
2 16 19.10
4.67 a
19 25 44.6
41.33
2304
19
2 12 10,72
5.30a
2014584
44.47
024.2
30
2 18 8.29
4.4*7
194156.6
39.67
2 28,3
20
2 10 1.77
5.437
195635.0
47.46
018.X
21
2 19 5148
+4.<7a
+195728.1
+37.95
2 26,1
21
2 750,02
-5.535
+1937 24
-50.213
012,0
22
2 21 2842
3.906
20 12 17.5
36.16
223.7
22
2 53640
5.594
19 1626.0
5«.76
/ 0 6.9
\t> M.7
23
2 22 58.85
3.629
202623.3
34.*!
2 21.2
23
2 321.87
5.6xa
185452.0
55.02
2353.5
24
2 24 22.52
3.342
203944.1
3a.4o
2 18.7
24
2 I 738
S.590
183227.3
56.98
23474
25
2 25 39.19
3.04s
2052 18.2
30.4a
2 i6x>
25
I 58 53.89
5.5a«
18 919.3
58.62
2341.3
26
2 26 48.60
+a.737
+21 4 3.9
+a8.37
2 13.2
26
1 56 42.33
-5 .489
+174535.9
-59.93
2335.2
27
2 27 50.50
2.4x9
21 14594
a6.a3
2 10<J
27
15433.60
5.293
172125.3
60.89
2329.2
28
2 28 44.64
2.09X
2125 2.7
a4.oa
2 7.3
28
1 52 28.55
5.123
165655.8
61.51
23 23.3
29
2 29 3P.78
1-753
2x3411.9
ax.73
2 41
29
I 50 27.99
4.920
163215.7
61.78
2317.5
3P
230 8.69
1.405
214224.9
X9.35
2 0.8
30
I 48 32.65
4.688
16 7334
61.69
23 U.8
31
23038,15
+X.049
+214939.5
+X6.87
I 57.3
31
I 46 43.22
-4.429
+15 42 57.3
— 6X.26
23 6.1
32
2 30 58.96
+0.684
+215553.4
+X4.29
153.7
32
145 0.30
— 4.X45
+15 1835.3
—60.52
23 0.5
Dfty ol the Month.
ad.
7th.
S2tb.
17th.
n
aad.
27th.
Day of the Month.-
xat
tt
6th.
tt
xxth.
n
x6th.
tt
2ZSt
It
a6th.
n
It
Senudiametcr . . .
15.19
16,25
17.45
18.80
20.3 X
21.98
Semidiameter. . .
23.77
25.62
26.38
37.36
28.82
29.74
29.90
Rofixostftt P«nllvc
15.64
16,73
17.97
19.36
ao.92
22.64
Horizontal Parallax
24.
48
28.x 8
39.68
30.62
30.79
The sign + prefixed to the hourly change of declination indicates that north declinations are increasing; the
sign — indicates that north declinations are decreasing.
154
VENUS, 1913.
GREENWICH MEAN TIME.
MAY.
JUNE.
•
i
Apparent
Right Ascen-
sion.
Var. of
R. A,
for I
Hour.
Apparent
DecUnation.
Var. of
DecL
for 1
Hour.
Merid-
ian Pas-
•
1
0
Apparent
Right Ascen-
sion.
Var. of
R. A.
for I
Hour.
Apiparent
Decunation.
Var. of
DecL
for 1
Hour.
Merid-
ian Pas-
0
sage.
0
sage.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon,
Noon.
h m 8
s
0 1 ' n
It
h m
h m s
s
0 1 II
It
h m
I
I 46 43.22
-4.4*9
+154257.3
— 6i.a6
23 6.1
1
I 56 6.64
+5.a89
+10 538.4
+io.a9
21 17.I
2
M5 0.30
4.145
15 1835.3
60.5a
23 0.5
2
I 58 16.05
5.494
10 10 7.1
ia.o8
21 15.4
3
I 43 24.44
3.840
14 54 34.9
5947
2255.1
3
2 030.30
5.69a
10 15 17.6
X3.78
21 13.8
4
I 41 56.10
3.518
1431 3.1
58.13
22 49.8
4
2 2 49.21
5.883
10 2 1 8.0
X5.40
21 12.2
5
I 40 35.68
3.18X
14 8 6.4
56.54
2244.7
5
2 5 12.62
6.067
102736.4
X6.94
21 10.7
6
I 39 2348
-a.833
+13455x0
— 54.7X
22 39.7
6
2 740.37
+6.a4S
+103440.8
+18.40
21 9.3
7
I 38 19.76
a.47S
132422.2
5a.66
2234.8
7
2 10 12.31
6.4x6
1042 19.2
X9.78
21 8.0
8
I 37 24.71
a. no
13 344.7
50.44
2230.1
8
2 12 48.29
6.583
105029.9
ai.09
21 6.7
9
I 36 38.47
x.74a
1244 2.4
48.06
22 25.6
9
2 15 28.19
6.74a
1059 II.3
33.33
21 54
lO
I 36 1. 10
x.37a
12 25 19.0
45.54
22 21.2
10
2 18 11.87
6.897
11 821.5
23.50
21 4.2
II
I 35 32.63
— i.oox
+12 737.4
— 4a.9a
22 17.0
11
2 20 59.21
+7.048
+11 1758.9
+34.60
21 3.1
12
I 35 13.05
0.63 a
II 5059.8
40. ai
22 12.9
12
2 2350.11
7x94
II 28 1.8
35.63
21 2.1
13
I 35 2.31
— o.a65
1 1 35 28.0
37.43
22 8.9
13
2 26 44.48
7.336
II 38 28.7
96.60
21 I.I
14
135 0.33
+0.098
II 21 3.6
34.60
22 5.0
14
2 29 42.21
7.474
1 1 49 18.0
a7.50
21 0.2
15
135 7.01
0.456
II 7474
31.75
22 1.3
15
2 32 43.21
7.609
12 028.3
a8.34
2059.3
l6
I 35 22.22
+0.809
+105539.9
— a8.89
2157.7
16
2 35 47.41
+7.74X
+12 1 1 58.0
+39.ia
2058.5
17
I 35 45.80
I.X54
104441.1
36.03
2154.3
17
2 38 54.73
7.869
122345.7
39.84
2057.7
i8
I 36 17.58
x.49a
103450.8
33.18
21 51.0
18
242 5.08
7.993
123549.9
30.50
2057.0
19
I 36 57.37
x.8a3
1026 8.6
ao.35
2147,9
19
2 45 18.39
8.115
1248 9.1
31.10
2056.3
20
I 37 44.98
2.X4S
10 18 33.7
X7.57
2144.9
•
20
2 48 34.60
8.834
13 042.0
3X.64
2055.7
21
I 38 40.20
+a.457
+10 12 4.8
-X4.85
2142.0
21
2 51 53.63
+8.350
+13 13 27.2
+3a.i3
2055.1
22
I 39 42.82
a. 760
10 640.5
13.19
21 39.2
22
2 55 15.42
8.464
13 26 23.4
3a.55
2054.6
23
I 40 52.61
3.054
10 2 19.4
9.58
2136.6
23
2 58 39.92
8.575
13 39 29.2
33.9a
2054.1
24
142 9.34
3-339
959 0.1
7.04
21 34.1
24
3 2 7.05
8.684
135243.2
33. a4
2053.6
25
I 43 32.80
3.61s
95640.7
4.58
21 31.6
25
3 536.77
8.79X
14 6 4.1
33.50
2053.2
26
145 2.76
+3.881
+ 95519.3
— a. 31
21 29.2
26
3 9 9.01
+8.895
+141930.7
+33.7 X
2052.8
27
I 46 38.99
4.X37
95454.0
+ 0.08
21 27.0
27
3 12 43.73
8.997
1433 1.8
33.87
2052.5
28
I 48 21.26
4.385
95522.9
a.a9
21 24.8
28
3 16 20.87
9.097
144636.2
33.98
2052.2
29
150 9.37
4.6a4
95643.8
4.4a
21 22.7
29
3 20 0.39
9.195
15 012.5
34.04
2051.9
30
I 52 3.10
4.854
95854.7
6.46
21 20.7
30
3 23 42.24
9.a9x
15 1349.5
34.04
2051.7
31
I 54 2.26
+5.075
+10 153.6
+ 8.4a
21 18.9
31
3 27 26.36
+9.385
+152726.1
+34.00
2051.5
32
I 56 6.64
+5. 289
+10 538.4
+10.29
21 17.1
32
3 31 12.71
+9.477
+15 41 1.2
+3398
2051.4
Day of Month.
xst.
//
6th.
It
nth.
n
1 6th.
n
a xst.
It
36th.
It
31st,
Day of the Month.
5th.
II
loth.
It
15th.
It
30th.
II
2sth.
It
30th.
//
II
Sen
Hoi
lidiameter .
rizontal Par. ,
29.29
J0.16
38.0a
28.85
26.34
27.12
34.46
25.19
22.59
23.26
20.82
21.44
19.20
19.77
Semidiameter . . .
Hoiizontal Parallax
17.74
18.27
16.46
16.95
1577
X4.31
14.73
13.41
13.81
ia.63
13.00
NoTB. — The sign + indicates north declinations; the sign — indicates south declinations.
VENUS, 1913. 155
GREENWICH MEAN TIME.
156
VENUS, 1913.
GREENWICH MEAN TIME.
SEPTEMBER.
OCTOBER.
•
M
Apparent
Right Ascen-
sion.
Var. of
R. A.
for X
Hour.
Apparent
Declination.
Var. of
Decl.
for I
Hour.
Merid-
ian Pas-
•
1
Apparent
Right Ascen-
sion.
Var. of
R. A.
for X
Hour.
Appai^nt
Declinatioa.
Var. of
Dec!.
for I
Hour.
Merid-
ian Pas-
0
sage.
sage.
>•
Noon.
Noon.
Noon.
Noou,
>*
Q
Noou,
Noon,
No0n,
Noon,
h m t
t
0 / /'
tf
h m
h m s
s
0 r ff
tt
h m
I
8 845.07
+i«.aas
+1934 ».9
-a8.i4
21294
1
1033 a3l
+11.598
+10 17 19.5
-61.63
2154-2
3
81338.34
Xt.9Z4
19 23 30.1
»9.So
2130.3
3
103638.40
XX.577
952310
63.39
2154.9
3
81831.34
xa.sox
19 10 35.7
30.86
2131.3
3
10 41 15.99
XI.556
9 27 24.7
63.1a
2155.5
4
8 33 34.01
IC.X87
185748.9
3a. CO
2132.3
4
104553.10
X 1.536
9 3 1.3
6333
3156.3
5
8 38 16.33
ifl.i7J
1844 40.1
33.5a
2133.2
5
105039.74
11.5x7
83631. 1
64.30
3156.9
6
833 8.27
+x«.x5d
+183059.6
-14.84
21 34.1
6
1055 5.93
+XX.499
+ 8IOS5.I
-«5.X5
2157.6
7
83739-82
x«.i39
18 1647.6
J6.IS
2135.0
7
105941.71
11.483
74413.9
♦5.77
2158.2
8
84350.94
xa.xax
18 3 4.6
37.44
2135.9
8
11 417.09
11.466
71748.1
66.36
2158.8
9
84741.63
xa.xoa
174650-8
38.71
3136.8
9
11 853.10
XX .45*
651 84
•6.919
2159-4
lO
85231.84
xa.ots
17 31 6.6
89.97
2137.7
10
II I3 26w77
XX. 438
634154
67 .48
33 0.0
II
85721.57
-^ia.o6x
+1714534
— 4i.»x
3138.6
II
11 18 1. 13
+xx.4t5
+ 537 9.7
-♦7.99
33 0.7
13
9 310.80
It. 040
1658 8.7
43.43
2139.5
13
II 3335.18
XX.4X4
52952.1
68.47
33 1.3
13
9 659.51
X 8.0x8
164055.8
43.63
2140.3
13
II 37 8.99
XX. 494
5 2234
6ft.9«
33 1.9
14
91147.69
XZ.996
16 33 14.3
44.8a
31 41. 1
14
II 31 43.58
XXJ9S
43444.0
69.35
33 3.5
15
91635.32
XI. 973
16 5 4.3
41.99
2141.9
15
1 1 36 15.97
XI.3M
4 654.6
69.75
33 3.2
i6
931 3340
+xt.9So
+154636.5
— 47x4
21 43.7
16
114049.30
+xx.j8a
+ 33856JO
—70.1a
33 3.8
17
926 8.93
xi.9t7
15 27 314
48.37
3143.6
17
114533.30
xx.3f7
31049/)
70.46
33 44
i8
93054.89
it -903
15 7494
49.38
2144.4
18
114955.30
XX.374
24234.1
»o.77
33 5.0
19
93540.38
XI. 879
H475X.I
50.47
2145.2
19
115438.34
XI.373
3 14 I3.I
7X.05
33 5.6
30
94035.09
".8$5
14 37 36.9
5X.S4
3146.0
30
1159 1.15
Xt.37X
14543.6
7X.3X
33 6.3
31
945 9.32
+XX.831
-♦•14 637.5
-53.58 2146.8
31
12 334.07
+XX.373
^^ 1 17 9.3
-7I.S3
33 6.8
33
94952,98
11.807
13 45 23.3
53.60
2147.6
23
13 8 7.03
XI.375
04830.1
7x.7a
33 74
23
95436.06
11.783
13 23 44.9
54.59
3148.4
23
13 1340.06
XX .379
+ 01946.7
71.88
33 8.0
24
95918.56
xi.7$9
13 142.9
55.56
2149.2
24
13 1713.30
XX. 384
- 0 9 0.3
73.0a
33 8.6
25
10 4 0.49
,"•735
12 39 17.9
56.51
2149.9
25
13314648
XX. 390
03750.0
7a.xa
23 9.3
36
10 841.85
4-II.7II
-hi 3 16304
-57.43
2i5a6
36
13 26 19.94
+11. 398
- I 641.8
—73.19
33 9.8
27
10 13 22.65
XI. 688
II5321.2
58.3 a
2151-3
27
123053.60
XX. 497
13534.9
7a.aa
23 10.5
38
10 18 2.88
11.665
1 1 29 50.9
59.X9
3I52X>
38
123527.50
XX.418
2 428.5
7a.aa
23 II.3
29
102242.56
11.643
II 6 O.I
60.03
2152.8
29
1240 1.67
XX. 430
33321.9
7a.ao
23 1 1.8
30
102721.70
xx.6ao
10 41 494
60.84
2153.5
30
124436.15
XX. 444
3 214.2
73.14
23 134
31
1032 a3i
+11.598
+10 17 19.5
-61.63
2154.2
31
12 49 10.98
+1X.459
-331 4.8
-73.05
33 I3X>
32
10363840
•
+XX.S77
+ 95231.0
— 6a.39
2154.9
32
125346.18
+1X.475
- 35952.8
-7X.93
22 13.7
Day of the Month.
3d.
8th.
13th.
x8th.
a3<i.
a8th.
Day of the Month.
3d.
*0
8th.
ft
X3th.
i8th.
a3d.
01
a8th.
ff
ft
//
It
Scmidiatoetcr . . .
Horizontal Parallax
733
7.SS
7.X3
7-34
6.9S
7.XS
6.78
6.98
6.6a
6.8a
6.48 Semidiameter . . .
6.67 Horisontal Parallax
6.34
6.53
6.ax
6.40
6.X0
6.a8
599
6.17
5.89
6.07
5.80
5.97
NoTB. — The sign -t- indicates north dccUaations: the sign — indicates south declinations.
VENUS, 1913. 157
GREENWICH MEAN TIME.
— pnlbuil to the boutty change of d«UiutioD IndicalH that )outh decltautions are IncRuiiia.
158
MARS, 1913.
GREENWICH MEAN TIME.
JANUARY.
FEBRUARY.
•
Apparent
Right Ascen-
sion.
Var. of
Var. of
ji
Apparent
Right Ascen-
sion.
Var. of
Var. of
1
R.A.
for I
Hour.
Apparent
Declination.
Decl.
for X
Hour.
Meri<l>
ianPas-
1
R. A.
for X
Hour.
Apparent
D«:linatioin.
Decl.
for X
Hour.
Merid-
ian Pas-
sage.
0
sage.
Noon.
Noon.
Noon.
Noon.
Q
Noon.
Noon.
Noon.
Noem,
h m 8
9
0 t it
»t
h m
h m s
%
Off/
//
h m
I
173041.05
-h8.oa4
-2344 4-6
- 7.14
22 47.9
I
19 II 41.78
+8.X78
-23 12 8.9
+x».43
22 26.7
2
173353.79
8.038
234649.1
6.SS
2247.1
2
19 1458.01
8.X74
23 7 3.0
X3.06
22 26.0
3
1737 6.86
8.051
23 49 19.0
S.94
2246.4
3
19 18 14.14
8.X69
23 142.0
13.69
22254
4
174020.23
8.063
235134.2
5.33
2245.7
4
19 21 30.15
8.X64
2256 6.0
X4.3X
2224.7
5
17 43 33.89
8.07s
23 53 34.6
4.7X,
2245.0
5
192446.02
8.158
22 50 15.0
X4.93
2224.0
6
174647.83
+8.086
-235520.1
- 4.09
2244.3
6
1928 1.75
+8.x5a
-2244 9.1
+15.SS
22 23,3
7
1750 2.04
8.097
235650.8
3.47
2243.6
7
19 31 17.32
8.X45
22 37 48.4
x6.x6
22 22.6
8
175316.49
8.107
2358 6.6
9.84
22 42.9
8
193432.71
8.X38
22 31 13.0
16.77
22 22.0
9
175631.17
8.X17
2359 7.3
2.%\
2242.2
9
193747.91
8.X30
22 24 23.0
17.38
2221.3
lO
175946.08
8.xa6
23 59 52.8
X.58
2241.5
10
19 41 2.91
S.xax
22 17 18.5
17.99
2220.6
II
18 3 1. 19
+8.X34
-24 023.1
- 0.95
2240.8
II
194417.70
+8.xxa
-22 959.5
+18.59
22 19.9
12
18 616.50
8.X4X
24 038.4
— 0.3a
2240.1
12
194732.27
8.ioa
22 2 26.1
19.19
22 19.2
13
18 931.98
8.X48
24 038.5
+ 0.3 X
22 39.5
13
195046.61
8.09a
215438.5
19.78
22 18.5
14
18 1247.62
8.X5S
24 0233
0.9s
22 38.8
14
1954 0.70
8.08a
214636.8
ao.37
22 17.8
15
18 16 3.41
8.x6x
23 59 52.9
X.59
2238.1
>5
195714.54
8.07 X
21 3821.0
to.95
22 17.0
i6
18 19 19.33
+8.166
-2359 7.2
+ a.aa
22 37.4
16
20 028.12
+8.060
-21 2951.3
+ax.53
22 16.3
»7
18 22 35.36
8.X7X
2358 6.1
a.86
22 36.7
17
20 341.43
8.049
21 21 7.8
aa.xo
22 15.6
i8
182551.50
8.X7S
23 56 49.7
3.50
2236.1
18
20 65447
8.038
21 12 10.6
aa.67
22 14.8
19
1829 7.74
8.X78
23 55 17.9
4.14
22 35.4
19
2010 7.23
8.oa6
21 2 59.8
33.a3
22 I4.I
20
18 32 24.06
8.x8x
23 53 30.8
4.78
2234.7
20
20 13 19.70
8.0x4
20 53 35.5
93.79
22134
21
183540^^5
+8.X83
-235128.3
+ 5.4a
2234.1
21
201631.88
+8.ooa
-204357.7
+a4.3S
22 12.6
22
183856.89
8.185
23 49 10.5
6.06
22 33-4
22
201943.76
7.989
2034 6.6
a4.90
22 1 1.9
23
184213.38
8.X87
23 46 37.3
6.70
2232.7
23
202255.34
7.976
2024 2.4
95.44
22 1 1.2
24
184529.91
8.189
23 43 48.8
7.34
2232.1
24
2026 6.62
7.963
201345.2
35.98
22 10.4
25
184846.46
8.X90
234044.9
7.98
2231.4
25
202917.58
7.950
20 3 15.1
a6.5a
22 9.6
26
1852 3.02
+8.190
-23 37 25.7
+ 8.6a
22 30.7
26
203228.22
+7.937
-19 52 32.3
+a7.o5
22 8.8
27
185519.57
8.X89
233351.1
9;a6
2230.1
27
203538.53
7.933
19 41 36.9
87-57
22 8.0
28
18 58 36.11
8.X88
2330 1.2
9.90
22 29.4
28
203848.50
7.909
19 30 29.0
a8.o8
22 7.3
29
19 152.62
8.X87
23 25 56.0
10.54
22 28.7
29
204158.13
7.895
19 19 8.8
a8.59
22 6.5
30
19 5 9.08
8.X84
23 21 35.5
XX. 17
2228.1
30
2045 7.42
7.880
19 736.4
a9.xo
22 5.7
31
19 825.47
+8.x8x
-23 1659.8
+XX.80
22 27.4
31
2048 16.36
+7.865
-18 55 51.9
+a9.6o
22 4.9
32
19 II 41.78
+8.X78
-23 12 8.9
+ia.43
22 26.7
32
2051 24.94
+7.850
-18 43 55.5
+30.09
22 4.1
Day of the Month.
. xtt.
6th.
It
ixth.
i6tfa
n
i. axst
a6th.
//
3X8t.
Day of the Month.
5th.
xoth
. X5th.
aoth.
II
a5th.
//
II
//
Semidiameter . .
a.xo
a.ia
a. 14
^.^t
» a.x7
a.19
2.91
Semidiamrtrr
a.a3
a.a5
a.aS
a.30
a.39
Horizontal Par. ,
3.66
3.69
3.7a
3.7s
3.78
3-8a
3.85
Horizontal Parallax . . .
3.89
3-93
3.97
4.0X
4.05
NoTB. — The sigp + indicates north dedixiations: the sign — indicates south declinations.
MARS. 1913. 169
GREENWICH MEAN TIME.
Tlie HSU + pnSjud to Ibc boot])' chuise ti decliiution indicatei that toutli dccUnaliDiis uc d«ciMs
160
MARS, 1913.
GREENWICH MEAN TIME.
MAY.
JUNE.
•
1
ApiMtfent
Right Ascen-
sion.
Var. of
R. A.
for I
Hour.
Appaiicnt
Declination.
Var. of
DecL
for x
Hour.
Merid-
ianPaS'
sage.
•
1
'0
Q
ApiMtfent
Right Ascen-
sion.
1
Var. of '
R. A.
fori
Hour.
Apparent
Declination.
Var. of
DecL
for I
Hour.
Merid-
ian Pas-
sage.
Q
Noon.
Noon,
Noon,
Noon,
Noon,
Noon,
Noon.
Noon.
h m 8
s
Of n
If
h m
h tn s
s
t 1 II
h m
I
234329.46
+7.069
-3 15 41.7
+4S.$5
21 7.2
I
I 10 t2.20
+6.958
+ 6 1 3.9
+43.XO
2031.8
2
234619.05
7.o4a
2 57 28.2
45.59
21 6.1
2
I 12 59.19
6.958
6 18 16.2
4a.9a
2030.6
3
2349 8.46
7.055
2 39 14.0
45.6X
21 5.0
3
I 1546.17
6.958
6 35 23.8
4a.7a
2029.4
4
235157.71
7.048
2 20 59.2
45.6a
21 3.9
4
I 18 33.16
6.958
65226.5
4«.5X
2028.3
5
235446.79
7.041
2 244.1
45.63
21 2.8
5
I 21 20.15
6.958
7 924.1
4«.«9
2027.1
6
235735.70
+7.035
-I 44 28.9
+45.63
21 1.6
6
I 24 7.14
1
+6.958
+ 7 26 16.5
+4a.o7
2026.0
7
0 024.46
7.oa9
I 26 13.8
45.6a
21 0.5
7
I 2654.14
6.958
7 43 3.5
41.84
2024.8
8
0 313-07
7.0S3
I 759.0
45.6X
2059.4
8
I 2941.15
6.958
7 59 45.0
4X.60
2023.7
9
0 6 1.53
7.0x7
04944.7
45.58
2058.3
9
I 32 28.16
6.959
8 16 20.7
41.36
2022.5
lO
0 849.85
7.0x1
031 31.0
4555
2057.1
10
I 35 »5.i9
6.960
8 32 50.6
4X.XX
2021.4
II
01138.04
+7.006
-0 13 18.1
+45.5«
2056.0
II
I 38 2.23 +6.96X
+ 8 49 14.5
+40.86
2020.2
12
01426.10
7. OCX
•«> 453.7
45.47
2054.8
12
1 40 49.29
6.96a
9 532.3
40.6x
2019.1
13
01714.05
6.996
023 4.3
45.41
2053.7
13
I 43 36.39
6.963
9 21 43.9
40.35
2017.9
H
020 1.89
6.99X
041 13.5
4S.3S
2052.5
14
I 46 23.52
6.964
93749.1
40.08
2016.7
15
0 22 49.62
6.987
05921.2
45.«8
2051.4
15
I 49 ia68
6.966
9 53 47.8
39.8X
2015.6
i6
02537.25
+6.9«3
+1 17 27.2
+45*ax
2050.2
16
1 51 57.88
+6.968
+10 939.9
+39.53
2014.4
17
02824.79
6.979
I 35 31.4
45*U
2049.1
17
I 54 45.13
6.97«
10 25 25.3
39.«5
2013.3
i8
031 12.26
6.976
I 53 33.6
45.05
2047.9
18
I 57 32.42
6.97 •
1041 3.9
38.96
2012. 1
»9
03359.66
6.973
2 II 33.7
44.96
2046.8
»9
2 0 19.76
6.974
10 56 35.5
38.66
20II.0
20
03647.00
6.97 X
2 29 31.5
44.86
2045.6
20
2 3 7.15
6.976
II 11 59.9
38.36
20 9.8
21
03934.28
+6.969
+2 47 26.9
+44.75
2044.5
21
2 554.60
+6.978
+11 27 17.0
+38.06
20 8.6
22
04221.51
6.967
3 5 19.6
44.64
2043.3
22
2 842.11
6.980
II 42 26.7
37.75
20 7.5
23
045 8.70
6.965
323 9.5
44.5«
2042.2
23
211 29.67
6.983
II 57 28.9
37.43
20 6.3
24
04755.85
6.964
3 40 56.4
44.39
2041.0
24
2 14 17.28
6.98s
12 1223.5
37.1X
20 5.2
25
05042.96
6.96a
3 58 40.2
44.96
2039.9
25
2 17 4.94
6.987
12 27 10.3
36.78
20 4.0
26
05330.04
+6.961
+4 16 20.7
+44."
2038.7
26
2 19 52.66
+6.989
+12 41 49.2
+36.45
20 2.9
27
05617.10
6.960
4 33 57.7
43.97
2037.6
27
2 22 40.44
6.99t
12 56 20.0
36. IX
20 1.8
28
059 4.15
6.960
4 51 31.0
43 .8x
2036.4
28
2 25 28.26
6.993
13 1042.6
35.76
20 0.6
29
I 151. 17
6.959
5 9 0.4
43.64
2035.2
29
2 28 16.12
6.995
132456.8
35.4X
19 59.5
30
I 438.19
6.959
5 26 25.8
43.47
2034.1
30
2 31 4.02 6.997
1
1339 2.6
3S.o6
«958.3
31
I 725.20
+6.959
+5 43 47.0
+43. «9
2032.9
31
2 33 51.96
+6.998
+135259.8
+34.70
1957.2
32
1 1012.20
+6.958
+6 I 3.9
+43. xo
2031.8
32
2 36 39.94
+6.999
+14 648.3
+34-34
1956.0
D«
ay of Month.
ISt
6th.
ixth.
1 6th
ft
. aist
a6th.
If
3xst.
Day of the Month.
5th.
//
xoth.
II
isth
II
. aoth.
II
a5th.
II
30th.
II
//
Semidiameter .
Horizontal Par.
a.68
4.66
a.71
4.72
*.74
4.77
a.77
4.83
2.80
4.88
a.84
4.94
a.87
5.00
Semidiameter . . .
Horizontal Parallax
a.9i
5.06
».94
5.13
a.98
5. 19
3.0a
5.36
3.06
5.33
3.10
5.40
NoTS. — The sign + indicates north declinations; the sign — indicates south declinations.
MARS, 1918.
161
GREENWICH MEAN TIME.
JULY.
AUGUST.
Appttfcnt
Ri^t Ascen-
•too.
Q
I
2
3
4
5
6
7
8
9
xo
II
12
13
»5
i6
17
i8
19
so
21
22
23
24
25
26
27
28
29
30
31
32
Noon.
h m 8
2 33 51.96
2 36 3994
2 39 27.95
2 42 15.97
245 4.0X
2 47 52.07
2 5040.14
2 53 28.21
2 56 16.28
259 4.35
3 « 52^
3 44049
3 728.55
3 10 x6.6o
3 13 4.64
3 15 52.67
3 18 40.68
321 28.67
3 24 16.63
327 4.56
3 29 52.45
3 32 40.29
3 35 28.08
3 38 15.80
341 344
34350.99
3 46 3845
3 49 25.81
3 52 13.05
3 55 0.16
3 57 47.12
4 033.92
Var. of
R.A.
fori
Hour.
Noon,
+6.998
6.999
7.000
7.001
7.oo>
+7 .00a
7.003
7.003
7.003
7.003
+7.003
7.00a
7.00a
7u>oa
7.00X
+7.00X
7.000
6.999
6.998
6.997
+6.995
6.99J
6.990
6.987
6.983
+6.979
6.975
6.971
6.966
6.960
+6.954
+6.947
Noon,
ff
+13 52 59.8
14 648.3
14 20 28.0
14 33 58.8
14 47 20.5
+15 033.0
15 13 36.3
15 26 30.2
15 39 14.6
15 5*49.5
+16 4 14.8
16 1630.5
16 28 36.5
164032.7
16 52 19.0
+17 355.3
17 «5 21.7
17 2638.1
17 37 44.3
174840.3
+17 59 26.1
18 10 1.6
18 20 26.7
18 30 41.3
184045.4
+185039.0
19 021.9
19 954.x
19 19 15.6
19 28 264
+19 37 264
+19 46 15.6
Var. of
DecL
for X
Hour.
Noon,
+34.70
34.34
33.97
33-59
33.«x
+3a.83
3>.44
32.05
31.65
3X.a5
+30.85
30.45
30.04
•9.63
a9.aa
•«-a8.8x
a8.39
•7.97
87.55
37. xa
+a6.69
a6.a6
a5.83
85.39
94.95
+«4.5X
94.07
a3.6a
93.17
aa.7a
+aa.a7
+ax.8a
Merki-
ian Pas-
a
o
h m
1957.2
1956.0
1954.9
1953.7
1952.6
19514
1950.3
1949.2
1948.0
1946.9
1945.7
1944.6
1943.5
1942.3
19 41 .2
1940.0
19 38.9
19 37.8
1936.6
1935.5
19343
1933.2
1932.0
1930.9
19 29.8
19 28.6
19 27.5
19 26.3
19 25.1
19 24.0
19 22.8
19 21.7
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
x6
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Apparent
Rigiit Ascen-
aioxL
Noon,
h m 8
4 033.92
4 320.55
4 6 6.99
4 853.23
411 39.27
4 14 25.09
4 17 10.68
4 19 56.02
4 22 41. II
4 25 25.94
4 28 10.50
43054.78
4 33 38.77
4 36 22.46
4 39 5.84
4 41 48.90
44431.62
4 47 13.99
4 49 56.00
4 52 37.63
4 55 18.86
4 57 59.68
5 040.08
5 3 20.04
5 559.53
5 838.53
5 " 17.03
5 »3 55.00
5 16 32.43
5 19 9.29
5 21 45.57
5 2421.25
Var. of
R. A.
fori
Hour.
Noon.
8
+6.947
6.939
6.931
6.9aa
6.9x3
+6.904
6.894
6.884
6.873
6.86a
+6.85 X
6.839
6.8a7
6.8x4
6.80X
+6.787
6.773
6.758
6.749
6.7a6
+6.709
6.69a
6.674
6.655
6.63s
+6.6x4
6.593
6.571
6.548
6.594
+6.499
+6.473
Noon,
ft
+19 46 15.6
19 54 53.9
20 321.3
20 1 1 37.9
20 19 43.7
+20 27 38.6
2035 22.6
► 204255.7
20 50 18.0
20 57 29.5
+21 430.2
21 II 20.1
21 1759.3
21 2427.8
213045.7
+213653.0
214249.7
214835.8
21 54 ".3
215936.3
+22 450.9
22 955.1
22 1449.0
22 19 32.6
22 24 6.0
+22 28 29.2
22 32 42.4
22 36 45.5
22 40 38.7
224422.x
+22 47 55.8
+22 51 19.8
Var. of ,
Decl
for X
Hour.
Merid-
ian Paa-
Noon,
ft
•l-ax.Sa
ax.37
ao.9a
90.47
ao.ox
+19.56
X9.XX
X8.66
xS.ai
17.76
+17.31
x6.86
16.4X
X5.96
15.59
+X5.08
X4.64
X4.90
13.76
13.39
't-xa.89
xa.46
xa.03
XX.60
XX. x8
+10.76
X0.34
9.9a
9.51
9.XX
+ 8.70
+ 8.30
h in
19 21.7
1920.5
19 19.4
19 18.2
19 17.0
19 15.8
19 14.6
19 13.4
19 12.2
19 1 1.0
19
19
19
19
19
9.8
8.6
74
6.2
5.0
19 3.8
19 2.5
19 1.3
19 0.0
1858.8
1857.5
1856.2
1855.0
1853.7
1852.4
1851,1
1849.8
1848.5
1847.1
1845.8
X844.5
18 43.1
I>ay of the Month. 5th.
Srtnkiiameter . . .
Horizontal ParaUaz
ff
3.15
S.48
xoth.
//
3.19
5.56
15th.
//
3.94
5.64
aoth.
t/
3.29
5.73
a5th.
//
3.34
S.82
30th
Day of the Month.
//
3.40
5.99
Sexnidiamcter . . .
Horizontal Parallax
4th.
ft
3.46
6.03
9th.
tr
3.59
6.14
14th.
tt
3.59
6.a6
19th.
tf
3.66
6.39
a 4th.
ft
3.74
6.5a
a9th.
//
3.8a
6.66
The dsn + prefixed to the hourty change of decUnatlon indicates that north declinations are increasing.
1913 XI
MARS, 1913.
GREENWICH MEAN TIME.
Htm. — The litn + indlcatH wstli dcdiiutlaaj: tbc ilan - IndJata unith dcdlOBtiaaa.
MABS, 1913. 16S
GREENWICH MEAN TIME.
The «isn *■ iwcSxcd to tbe homly c)
^- ioSacBtM that aaRh dcdlnaUou
[c of dccIiDatioa indlcatu that noflh dcclinBtioni an iocnulnK; the
164
JUPITEB, 1913.
GREENWICH MEAN TIME.
JANUARY.
FEBRUARY.
1
Apporent
Right Aacen-
Var.of
R. A.
for X
Apparent
Declination.
Var.of
Decl.
for X
Mend-
1
Apparent
Right Ascen-
aion.
Var.of
R. A.
for X
Apparent
Declination.
Var.of
Ded.
for X
Mf
•8
SMm.
Hour.
Hour.
ianPaa-
aace.
Hour.
Hour.
ian
sa
1
^OOM.
Noom»
Noom.
Noon,
ATOOM.
Noom,
Noon,
Noom.
h m B
s
Of tf
0r
h m
h in s
s
0 r tt
II
h
I
175841.59
+f.47a
-231331.7
—0.29
23 13.7
I
18 28 14.50
+9.951
-23 633.1
+1.3 a
21
a
175940.88
a. 469
231337.9
0.23
23 10.8
2
1829 8.40
9.940
23 6 0.9
X.36
21
3
18 040.10
9.466
231342.8
O.X7
23 7.8
3
1830 2.03
9.999
23 5277
1.40
21
4
18 13923
a. 46a
231346.3
O.II
23 4.8
4
18305537
9.2x7
23 453.5
1.44
21
5
18 238.27
a.4S8
23 13 48.4
—0.06
23 19
5
18 31 48.41
9.205
23 418.5
1.48 j2I
6
18 3 37-22
+a.454
-23 13 49. 1
0.00
22 59.0
6
183241.15
+9.X99
-23 342.6
+X.SX
21
7
18 436.07
• .450
231348.4
+0.06
22 56.0
7
183333.58
a.x79
23 3 5-8
155
21
8
18 534.80
a. 445
231346.3
O.X2
2253.1
8
183425.70
a.x65
23 2 28.2
1.58
21
9
18 633.41
9.440
23 1342.8
0.18
2250.1
9
18351749
9.X51
23 1498
X.69
21
lO
18 731.91
•435
2313378
0.24
2247.2
10
1836 8.96
• .137
23 1 10.6
1.6s
21
II
18 830.28
+a.4a9
-23 13 31.5
+0.29
2244.2
II
1837 O.IO
+9.193
-23 030.6
+1.68
21
sa
18 928.50
a-4«3
23 13 23.9
0.3S
2241.2
12
183750.89
9.X09
225949.9
X.71
21
13
18 1036.58
• •4x7
23 13 150
0.40
2238.2
13
183841.33
a. 094
2259 8.5
1.73 1 21
14
18 II 34.51
a.4xx
2313 4.9
0.46
2235.3
14
183931.41
9.079
22 58 26.4
1.76 ; 21
15
181333.27
a.404
231253.4
0.5X
2232.3
15
I8402I.I3
9.064 225743.7
1
X.79 1 20
i6
18 13 19.86
+«.397
-33 1240.6
+0.57
22 29.3
16
18 41 10.48
+9.048
-2257 0.3
+1.89
20
17
18 1417.29
a.390
23 1226.5
0.69
22 26.3
17
184159.46
9.032
22 56 16.4
X.84
20
i8
181514.55
a.383
23 12 I I.I
0.67
22 23.4
18
184248.06
9.0x6
225532.0
X.86
20
19
18 16 11.64
••375
23 1 1 54-5
0.7a
2220.4
19
184336.27
9.000
225447.1
1.89
30
30
18 17 8.54
a.367
23 II 36.7
0.77
22 17.4
ao
184424.09
1.984
2254 1.6
X.91
20
31
18 18 5.24
+•359
-23 II 17.6
+0.82
22 14.4
21
I845II.5I
+X.967
-22 53 15.7
+1.93
20
22
18 19 1.75
a.350
231057.3
0.87
22 1 1.4
22
184558.53
I.9SO
225229.3
1.95
20
23
181958.05
a.341
231035-9
0.9a
22 8.4
23
184645.14
X.933
225142.5
X.96
30
24
182054.13
a.332
23 10 13.3
0.97
22 5.4
24
184731.33
».9XS
225055.3
X.98
20
25
18 21 50.00
a.323
23 949.6
X.02
22 2.3
25
1848 17.09
1.897
2250 7.8
1.99
20
36
182245.65
+a.3X4
-23 924.8
+X.06
21 59-3
26
1849 2.42
+ 1.879
-224920.0
+9. 00
20
27
182341.07
a.304
23 858.8
X.IX
2156.3
27
18494732
X.86X
224831.8
9.0X
20
as
182436.25
a.a94
23 831.8
i.xs
2153.3
28
185031.77
1.843
22 47 43.4
9.09
20
29
18 25 31.19
9.284
23 8 3.7
X.20
21 50.2
29
I85I 15.76
X.823
224654.8
9.03
20
30
182625.89
a. 273
23 734.5
i.a4
2147.2
30
185159.30
X.803
2246 6.0
9.04
20
31
18 27 20.33
+9.262
-23 7 4.3
+X.28
2144.2
31
185242.37
+1.784
-2245 17. 1
+9.04
20
32
18 28 14.50
k-a.25i
-23 633.1
+X.32
21 41.2
32
185324.96
+1.764
-22 44 28.0
+9. OS
20
Day of the Month.
2d.
10th.
18th.
S«th.
Day of the Month.
td.
Uth.
IMh
■
s
//
r/
ff
tt
//
II
//
Semidiameter . . i
15.15
15.23
15.35
15.50
Semidiameter . .
1569
15.92
i 16.18
I
Horizontal Parallax
1.42
1.42
1.43
1-45
1
Horizontal Parallax
1.47
1.49
1.51
NoTH. — ^Theaign + Indicates north declinations; tlw sign —indicates aoitth dedttiiatioiu.
JUPITEK, 1913.
165
GREENWICH MEAN TIME.
MARCH.
APRIL.
•
JB
^ Apparent
c Ri^tAsccti*
S 1 sion.
Var.of
Var.of
Apparent
Riffht Ascen-
sion.
Var.of
Var.of
R. A.
for z
Hour.
Afyparent
DccUnation.
Dect.
for 1
Hour
Merid.
tan Pas-
R.A.
for 1
Hour.
Apparent
Declination.
DecL
for 1
Hour.
Merid.
ian Pas-
0
sage.
0
sage.
Q
Noom
Noom.
Noon.
Noon
Noon.
Noon.
8
Noon.
Noon,
h m 8
8
9 » '»
f
h m
h m 8
0 ' "
tt
h m
I
1851 15.76
+1.883
-22 46 54.8
+8.03
20 13.8
I
19 93532
+1.088
-22 23 9.8
+1.58
1839.9
2
185159.30
1.803
2246 6.0
8.04
20 10.6
2
19 10 1.09
1.060
22 22 32.5
1.54
18 26^.
3
185242.37
1.784
224517.1
8.04
20 7.4
3
19 1026.18
1.031
22 21 56.1
1.50
1822.9
4
185334.96
1.764
22 44 28.0
8.0s
20 4.2
4
191050.58
1.008
22 21 20.7
1.46
1819^
5
1854 7.06
1.744
22 43 38.8
8.05
20 I.O
5
19 II 14.28
0.973
22 2046.3
1.4a
1815.S
6
185448.66
-♦-1.783
-22 42 49.6
+8.05
19577
6
191137.28
+0.944
-2220 12.9
+1.17
1812.3.
7
185529.77
Z.708
22 42 0.4
a.o4
19 54-5
7
191159.57
0.914
22 1940.5
1.33
18 8.7
8
185610.37
z.68x
2241 11.2
a.04
1951.2
8
19 12 21.15
0.884
32 19 9.2
1.88
18 5.1
9
185650.45
1.660
224022.1
8.04
1947.9
9
19 1242.02
0.854
22 1839.0
1.84
18 1.5
10
185730.01
1.638
223933 1
8.03
1944.6
10
1913 2.16
0.884
22 18 9.9
1.19
1757.9
II
1858 9.05
+1.616
-223844.2
+8.03
1941.3
II
191321.57
+0.794
-22 1742.0
+1.14
1754.3
12
185847.55
1.593
22 37 55.5
8.08
1938.0
12
191340.25
0,764
22 1715.3
t.09
1750.7
13
185925-50
1.570
2237 7.0
8.01
1934.7
13
191358.20
o.?33
22 1649.8
1.04
1747.0
H
19 0 3.91
1.547
22 36 18.8
8.00
1931.4
14
19 14 15.40
0.708
22 1625.6
0.99
1743.4
15
19 039.77
1.5*4
22 35 30.8
1.99
19 28.1
15
191431.85
0.671
22 16 2.6
0.94
17 39.7
i6
19 I 16.06
+1.500
-223443.1
+1.98
1924.7
16
191447.54
-1-0.639
-22 1540.9
-h>.88
I7 36x>
»7
19 151.78
1.476
22 33 55.8
1.96
1921.4
17
1915 2.48
0.607
22 15 20.5
0.83
1732.3
i8
19 226.93
1.45a
2233 8.9
1.95
19 18.0
18
19 15 16.66
0.575
22 15 1.4
0.77
17 28.6
19
19 3 1.50
1.488
223222.3
1.93
19 14.7
19
19 15 30.08
0.543
22 1443.6
0.71
17 34.9
20
19 335.48
1.404
2231 36.2
1.91
1911.3
20
19 15 42.74
0.511
22 1427.2
0.65
1721.3
21
19 4 8.87
+1.379
-223050.6
+1.89
19 7.9
21
19 15 54.63
+0.479
-22 14 12.2
+0.59
17 17.4
22
19 441.67
1.354
2230 5-5
1.87
19 4.5
22
1916 5.74
0.448
22 1358.6
0.53
17 13.7
23
19 513.87
1.389
22 2921.0
1.85
19 1.1
23
19 16 16.08
0.4x5
22 1346.4
0.47
17 9.9
H
19 545.45
1.303
22 2837.1
1.88
1857.7
24
191625.64
0.388
221335.5
0.48
17 6.1
25
19 6 16.41
1.877
222753.8
1.80
1854.3
25
191634.40
0.349
22 1326.1
0.36
17 2.3
26
19 646.76
+1.851
-22 27 I I.I
+1.77
1850.8
26
19 1642.37
+0.316
-22 13 18.2
■1-0.30
1658.5
27
19 716.48
1.885
22 26 29.0
1.74
1847.4
27
19 1649.55
0.883
22 13 11.8
0.84
1654.7
28
19 745.56
1.198
22 25 47.6
1.71
1843.9
28
191655.93
0.349
22 13 6.8
0.18
i65a9
29
19 813.98
1.171
22 25 7.0
1.68
1840.4
29
1917 1.51
o.ai5
22 13 3.3
O.I8
1647.0
30
19 841.75
1.144
22 2427.1
1.65
1836.9
30
1917 6.29
o.iSa
22 13 1.3
+0.05
1643.x
31
19 9 8.87
+1.116
-22 23 48.0
+1.68
1833.4
31
1917 10.26
+0.148
-22 13 0.9
—0.01
•
1639.2
32
19 935.32
+1.088
-22 23 9.8
+1.58
18 29.9
32
19 17 13.41
-H>.ii4
-22 13 2.0
-0.08
1635.3
]
^y of the Month.
7th.
Iftth.
tSd.
Slst.
Day of the Month.
8th.
Itth.
ft4th.
//
t»
tt
»t
rt
//
tt
Semidiameter . .
16.81
17.17
17.57
18.00
Semidiameter ....
18.45
18.92
1941
Ho
rizontal Parallax
1-57
1.60
1.64
1.68
Horizontal Parallax . .
1.72
1.77
1.81
The stcn + ptefixed to the hoorfy chan^te of declination indicates that south declinatioas are decreasing; the
sign — indicates that south declinations are increasing.
166
JUPITER, 1913.
GREENWICH MEAN TIME.
MAY.
JUNE.
•
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
36
27
38
29
30
31
32
Apparent
Right Ascen-
sion.
Noon.
Var. of
R.A.
for X
Hour.
Noon.
h m 8
19 17 10.36
19 17 13 41
19 17 15.75
19 17 17.28
19 17 18.00
19 17 17.90
19 17 16.98
19 17 15.26
19 17 12.72
19 17 936
1917 5.30
19 17 0.24
191654.48
19 1647.92
19 1640.56
19 1633.41
191633.48
19 16 13.76
19 16 3.37
19 15 53.01
»9 15 39.98
19 15 27.18
>9 >5 13.62
191459-32
191444.27
19 14 28.48
19 14 11.96
19 1354.71
191336.75
19 13 18.08
19 12 58.71
19 1238.66
B
+0.148
O.IZ4
o.o8x
0.047
+0.013
.oai
O.OS5
0.089
O.X3t
0.156
-o.f9o
o.taj
o.as?
0.990
0.3*3
-0.356
0.388
o.4az
0.453
0.485
-0.517
0.549
0.580
0.6x1
0.643
■0.673
0.703
0.733
0.76a
0.791
-0.820
■0.849
Apparent
Declination.
Noon.
ft
—22 13 0.9
32 13 3.0
33 13 4.8
3213 9.1
22 13 14.9
-22 13 33.2
22 1331.2
22 I341.7
221353.7
22 14 7.2
—22 14 22.2
22 1438.8
22 1456.9
22 15 16.5
32 15376
—22 16 0.2
22 1624.2
22 1649.7
22 17 16.6
321744.8
-22 18 14.4
22 1845.4
22 19 17.8
22 I95I.4
22 20 26.3
—22 21 2.5
22 21 39.9
22 22 18.5
222258.3
22 23 39.3
-22 24 21.4
-2225 4.5
Var. of
Decl
for I
Hour.
Noon.
ft
-0.01
o.c3
0.15
o.ax
o.a8
-0.34
0.4X
0.47
O.S3
0.60
-0.66
0.73
0.79
0.85
0.9Z
•97
03
.09
•15
.ao
.a6
3«
.37
•43
.48
•Si
.58
63
.68
.73
• 77
.8a
Merid-
ian Pas-
sace.
h m
639.3
6353
631.4
637.5
623.6
619.7
615.7
6 H.7
6 7.7
6 3.7
559.7
555.7
551.7
547.7
543.6
539.5
535.4
531.3
527.2
523.1
518.9
514.8
510.6
5 6.5
5 2.3
458.1
453.9
449.7
445.4
441.2
436.9
432.6
a
o
I
2
3
4
5
6
7
8
9
10
II
13
13
14
15
16
»7
18
19
30
31
33
23
24
25
Apparent
Riffbt Ascen-
sion.
Noon.
h m 8
19 1338.66
19 13 17.94
19 "56-55
19 "34.51
19 II 11.84
191048.55
19 10 34.65
19 10 0.17
19 9 35-"
19 9 9-50
19 843.34
19 8 16.66
19 749.48
19 731.83
19 653.69
19 635.11
19 556.10
19 5 36.67
19 456.85
19 436.65
19 356.^0
19 335.31
19 354.00
19 3 33.50
19 150.73
Var. of
R. A.
for X
Hour.
Noon.
36 I 19 I 18.70
37 19 046.43
38
39
30
31
32
19 013.94
185941.37
1859 8.44
185835.47
1858 3.39
s
-0.849
0,877
0.905
0.93a
0.958
-0.983
1.008
1.03 a
1.055
1.077
—1.099
i.xao
X.X41
x.x6i
X.180
-1.199
i.ai7
1.334
1.350
1.365
—1.380
i.a94
1.307
X.3X9
1.330
-1.340
1.3/9
1.357
X.364
1.370
-1.37s
-1.380
Apparent
Decimation.
Noon.
ft
•2225 4.5
22 2548.6
223633.7
32 27 19.8
22 28 6.9
-22 28 54.9
222943.7
223033.3
3331 33.6
3333 14.6
1-3333 6.3
23 33 58.5
223451.3
22 35 44.5
333638.2
-22 37 32.4
22 38 26.9
223921.8
2240 17.0
3241 12.4
—22 42 7.9
2243 3.5
334359.3
224455.0
32 45 5a8
—224646.6
22 47 42.3
224837.9
22 49 33.3
33 50 28.4
-2251 23.3
-2252 18.0
Var.ofI
DecL
for 1
Hour.
Noon.
ft
—1.83
1.86
1.90
«-94
1.98
— 3.03
a. OS
a. 08
a. IX
«.I4
-3.17
3.19
3.31
3.33
3.35
-3.37
3.38
3.39
3.30
9.30
-3.31
S.33
3.33
a.33
3.33
—3.33
3.33
3.31
3.30
3.39
-s.a8
—3.37
Merid-
ian Pas-
sage.
h m
432.6
428.3
424.0
419.7
415.4
4 II. I
4 6.8
4 2.4
358-1
353.7
349.4
345.0
340.6
336.2
331.8
327.4
323.0
318.5
314.1
3 9.7
5-2
0.7
256.3
251-8
247.4
242.9
238.5
234.0
229.5
235.0
330.5
3 16.0
Day of the Month.
Semidiameter . .
Horizontal Parallax
2d.
10th. I 18th.
//
19.91
1.86
Mth.
Day of the Month.
It
20.41
I.91
ff I ft
2 ^33
1.99
30.88
I -95
I
Semidiameter . .
Horizontal Parallax
8d.
11th.
19th.
If
21.73
2.03
22.06
2.06
ff
22.32
2.09
87th.
ft
22.49
3.10
NoTS. — ^The sign + indicates north dedinatioos: the sign — indicates south declinations.
JUPITER, 1913.
GREENWICH MEAN TIME.
167
JULY.
Apparent
Rifl^Ascen-
SiOBU
Noom,
h m s
85835.47
858 2.39
85729.22
8565599
85622.71
8 55 49^3
855 16.14
85442.89
854 9.70
85336.60
853 3-62
85230.77
85158.06
85125.54
85053.22
85021.12
84949.27
849 17.68
184846.38
84815.38
84744.71
847 H.39
84644.43
84614.86
84545.70
845 16.98
84448.69
84420.88
84353.56
84326.75
843 047
84234.73
Var.of
R.A.
for z
Hour.
Noon.
8
.375
.380
.384
.386
.387
.387
.386
.384
.381
.377
.37a
.366
•359
.351
.349
.33a
.39a
.3x1
.899
.a86
.a7a
.a56
.340
.aa3
.ao6
.188
.X69
.X49
.za8
.X06
.084
.061
Apparmt
DccUnatioii.
Var.of
Decl.
for X
Hour.
Noon,
Noon.
Of tr
tt
-2251 23.3
— a.aS
2252 18.0
a.a7
2253 12.3
a.a6
2254 6.3
a.a4
22 54 59.9
a.aa
-22 55 53.0
— a.ao
225645.6
9.z8
225737.7
a. 16
22 58 29.3
a.z4
22 59 20.4
a.za
-23 0 10.8
—a .09
23 1 0.6
a.o6
23 149.9
a. 03
23 238.4
a. 00
23 326.1
1.97
-23 413.1
-Z.94
23 459.4
X.9X
23 544.9
1.88
23 6 29.6
Z.85
23 7 13.5
z.8a
-23 756.6
-1.79
23 838.8
1.75
23 9 20.2
1.7a
23 10 0.9
Z.68
231040.7
X.64
-23 1 1 19.6
— X.60
23 "57.6
1.56
23x234.7
x.5a
2313 II.O
X.49
231346.5
X.45
-23 1421.1
— x.4a
-23 14 54.8
^x.39
Mcrid*
ian Pas-
sage.
h m
220.5
2 16.0
2 1 1.5
2 7.1
2 2.7
158.2
153.7
149.2
144.7
140.2
135.8
13x3
1 26.8
I 22.3
I 17.8
I 13.3
1 8.9
I 4.4
1 0.0
055.5
051.1
046.7
042.3
0A9
033.5
029.1
024.7
020.3
015.9
011.5
o 7.2
O 2.8
D«y of the Mooth.
SetnicHanieter . .
Horizontal Parallax
•th.
//
22.55
2.11
ISth.
tr
22.51
2.10
Sllst
22.37
2.09
Wth.
n
22.15
2.07
AUGUST.
§
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
Apparent
Right Ascen-
sion.
Noon.
h m s
84234.73
842 956
84144.97
841 20.97
84057.59
8 40 34.85
84012.75
8395X.3X
8 39 30.55
8 39 10.46
83851.07
8 38 32.38
8 38 14.41
83757.17
8 37 40.66
8 37 24.89
837 9.87
83655.60
83642.10
8 36 29.38
83617.43
836 6.27
83555.90
8 35 46.33
8 35 37.56
8 35 29.60
8 35 22.45
835 16.13
8 35 XO.63
835 5.96
835 2.12
83459."
Var.of
R. A.
for z
Hour.
Noon.
s
-X.061
1.037
x.oxa
0.987
0.96 X
-0.934
0.907
0.879
0.851
o.8aa
-0.793
0.764
0.734
0.703
0.67a
-0.641
0.6x0
0.579
0.547
0.5x4
-0.48X
0.448
0.4x5
0.38a
0.349
■0.3x5
o.a8x
o.a47
o.ax3
0.X78
-O.X43
-0.X08
Appitfent
Dechnation.
Var.of
Decl.
for X
Hour.
Noon.
Noon.
Q 1 II
II
-23 14 54.8
-X.39
23 15 27.6
1.3s
23x559.5
x.3a
23 1630.6
x.a8
23 17 0.8
x.a4
-23 1730.1
— x.ao
23 X7 58.5
x.x6
23 18 26.0
x.xa
23 1852.6
X.09
23 19 X8.3
x.os
-23x943.1
— x.ox
23 20 7.0
0.97
23 20 30.0
0.93
232052.2
0.90
23 21 13.5
0.87
-232134.0
-0.84
23 21 53.7
0.80
2322 12.6
0.77
23 22 30.7
0.73
23 22 48.0
0.70
-2323 4.5
-0.67
23 23 20.3
0.63
23 23 35.3
0.60
23 23 49.5
0.57
2324 2.9
0.54
-^3 24 15.5
-0.5 X
23 24 27.3
0.48
232438.4
0.45
23 24 48.7
0.4a
232458.2
0.39
-2325 7.0
-0.36
-23 25 15.X
r^.33
1
Merid.
ian Pas-
sage.
h m
10 2.8
958.4
9541
949.8
945.5
941.2
936.9
932.6
928.3
924.1
919.8
9x5.6
9 1 1.4
9 7.2
9 3.0
858.8
854.6
850.4
846.2
842.1
838.0
833.9
829.8
825.7
821.6
817.6
813.5
8 9.5
8 5.5
8 1.5
757.5
753.5
Day of the Month.
Semidiameter . .
Horizontal Parallax
8th.
II
21.85
2.04
14th.
II
21.48
2.01
ltd.
II
21.06
1.97
tOth.
II
20.60
1.93
The sign — prtfixed to the hourly chaxige of dedinatioo indicates that soath decttnatioos are increasing.
168 JUPITER, 1913.
GREENWICH MEAN TIME.
Nora. — Tlw rian + ladkatc* aarth daJiiMUkm; tbc dgn — Iii4fcmta *>
JUPITER, 1913.
169
GREENWICH MEAN TIME.
NOVEMBBR.
DECBMBBR.
•
Var.of
Var.of
^
Apparent
Right Ascen-
sion.
Var.of
Var.of
§
^8
Apparent
RiglitAsccn-
aton.
R.A.
for I
Hour.
Apparent
Dcchnation.
Dect.
for 1
Hour.
Merid.
ian Pas-
1
R.A.
for X
Hour.
Apparent
Dechnation.
DecL
for I
Hour.
Merid-
ian Pas-
sage.
sage.
Q
Noon»
Noon.
Noon.
Noon.
Noom.
Noon.
Noon.
Noon.
h m 8
s
Q t 0t
tt
h m
h m 8
8
0 1 It
n
h m
I
1856 17.17
+1.710
-23 627.2
•fa. 14
4»5.0
I
1920 4.62
4-a.axo
-22 2942.3
+4. OS
240.7
3
185658.45
1.73X
23 5 35-2
a. 19
411.8
2
192057.81
a.aaa
2228 4.3
4.:a
237.7
3
185740.25
1.75a
23 441-8
a.as
4 8.5
3
1921 51.28
a*a34
22 2624.7
4. 19
234.6
4
185822.54
x.77a
23 347-0
a. 31
4 5-3
4
192245.03
a.a4S
222443.4
4.a6
231.6
5
i«59 532
1.79a
23 250.8
a.37
4 2.1
5
19 23 39.04
a.a56
22 23 0.4
4.3a
228.5
6
i« 59 48.58
+x.8ia
-23 I 53.1
+8.43
358.9
6
1924 33.31
+a.a67
-22 21 15.8
+4.39
225.5
7
19 032.31
x.Bja
23 054.0
a. 49
355.7
7
192527.83
a.a77
22 19 29.6
4.46
222.5
8
19 I 16.50
Z.851
22 59 53-5
%.l%
352.5
8
192622.60
a.a87
221741.7
4S3
219.5
9
19 2 1. 16
X.870
225851.6
a.6z
349-3
9
1927 17.61
a.a97
22 1552.2
4 -60
2 16.5
lO
19 2 46.27
1.889
22 57 48.3
a. 67
346.1
10
1928 12.84
a. 3 06
22 14 I.O
4.66
213.5
II
19 331*82
'•-X.907
-22 56 43.5
+a.73
342.9
II
1929 8.30
+a.3i$
-22 12 8.2
+4.73
2 10.5
13
19 41779
x.9«S
22 55 37-2
a.79
3 39-8
12
1930 3.98
a.3a4
22 10 13.8
4.80
2 7.5
13
19 5 4.19
X.943
22 54 29.4
a. 85
336.6
13
193059.87
a.333
22 817.7
4.87
2 4.5
14
19 5 5»02
X.960
22 53 20.2
a. 9a
333.5
14
193155.96
a.341
22 6 19.9
4.94
2 1.5
15
19 638.26
X.977
2252 9.4
a. 98
330.3
15
193252.25
a.349
22 420.5
$.ox
158.5
i6
19 725.90
+X.994
-225057.1
+3.04
327.2
16
193348.74
+a.3S7
-22 2 19.4
+5.08
155.5
17
19 813.94
a.oxo
224943.3
3.X0
324.0
17
193445.42
a. 365
22 016.7
5.14
152.5
i8
19 9 2.38
a.oa6
22 48 27.9
3.17
320.9
18
193542.27
a.37a
21 58 12.3
S.ai
149.5
19
19 951.20
3.04a
22 47 10.9
3.a4
317-8
19
193639.29
a.379
21 56 6.3
S.a8
146.5
30
19 1040.39
a. OS 7
224552.3
3.3X
314.7
20
19 37 36.49
a.386
215358.8
5.35
143.5
31
19 II 29.96
+a.o7a
-224432.2
+3.37
3i«-6
21
19 38 33.86
+a.393
-215149.5
'•'5.4a
140.5
23
19 12 19.90
a. 087
224310.5
3-44
3 8.5
22
193931.38
a. 400
214938.6
5 49
137.6
23
19 13 10.20
a.xoa
224147.2
3.50
3 5-4
23
194029.05
a. 406
21 47 26.1
5S6
1346
24
1914 0.85
a. 1X7
224022.3
3.57
3 2.3
24
19 41 26.87
a.4ia
21 45 12.0
5.6a
I3».6
25
191451-84
a. 131
223855.8
3 64
259.2
25
1942 24.82
a.417
21 4256.2
5.69
I 28.6
36
19 1543.17
+a.i45
-22 37 27.7
+3.71
256.1
26
194322.90
+a.4aa
-21 4038.8
+5.76
125.7
a?
191634.83
a. 159
223557.9
3.78
2530
27
194421.10
a.4a7
21 38 19.8
S.8a
I 22.7
38
19 17 26.81
a.z7a
22 34 26.5
3.85
249.9
28
1945 19.42
a.43a
2135 59-3
S.89
119.7-
29
19 18 19.10
a. 185
22 32 53.4
3-91
246.8
29
1946 17.86
a. 436
213337.2
5.95
1 16.8
30
19 19 11.71
a. 198
2231 18.7
3.98
243-8
30
194716.39
a. 440
21 31 13.5
6.0X
I 13.8
31
1920 4.62
+a.axo
-22 2942.3
+4.05
240.7
31
1948 15.01
+8.443
-21 2848.2
+6.08
I 10.9
32
192057.81
•H.aaa
-2228 4.3
+4.ia
237.7
32
194913-71
+a.447
—21 2621.4
+6. IS
1 7-9
Dfty d the Month.
t<L
10th.
18th.
Mth.
Dny of the Month.
4th,
ISth.
iOth.
ft
88th.
Mth.
ft
t»
It
It
It
It
//
//
Semkliameter . .
[7.08
16.76
16.47
16.22
Semidiameter . .
16.00
1581
15-67
15.55
15.47
Horizontal Parallax
1-59
1.56
X.54
1.52
Horizontal Parallax
149
1.48
1.47
1.46
1.45
The sign + prefixed to the houriy change of declination indicates that south declinations are decreasing.
170
SATURN", 1913.
GREENWICH MEAN TIME.
JANUARY.
FEBRUARY.
•
**
§
1
Apparent
Right Ascen- ;
Var. of
R. A.
for 1
Apparent
Dechnation.
Var. of
Decl.
for z
Merid-
§
Apparent
Right Ascen-
Var. of
R. A.
for I
Apparent
Declinatiqn.
Var. of
Decl.
for X
Merid-
*R
Hour.
Hour.
ian Pas-
*8
Hour.
Hour.
ian Pas-
o
1
:
sage.
0
sage.
i
Noon.
Noon.
s
Noon.
Nocn.
Noon.
Noon.
Noon.
Noon.
h m s
Of »l
- 1 h m
h m s
s
0 t It
It
h m
I
34418.80
—0.506
+1738x5-0 -» -04 9 0.6 1
I
34127.01
+0.063
+173722.3
+0.93
656.0
2
3 44 6.84
0.490
173750-9 0-98
856.5
2
34128.71
o.o8x
173745-4
x.oo
652.1
3
3435527
0.474! 17 37 28.1 ' 0.9a
852.4
3
341 30.88
o.xoo
17 38 10.0
1.06
648.2
4
34344.10
0.457
1737 6.7 0.86
848.3
4
34133.52
o.xao
173836.2
x.xa
644.3
5
3433332
0.440
173646.7 , 0.80
844.2
5
3 41 36.62
0-U9! 1739 3-9
X.19
640^*
6
34322.94
-0.433
+173628.2
1
-0.74
840.1
6
34140.19
1
+0.X58 +173933.1
+X.35
636.5
7
34312.97
0.406
173611.1
0.68
836.0
7
34144-22
0.X78 1740 3.8
X.JZ
632.7
8
3 43 342
0.389
173555-5
0.63
831-9
8
34148.71
O.X97
174036.0
1.37
628.8
9
34254.29
0.371
173541-4
0.56
827.8
9
34153-66
o.ax6
1741 9-7
X.43
625.0
lO
3424559
0.353
173528.7
0.50
823.7
10
34159.07
0.335
174144.9
X.50
621.1
II
3423731
-0.335
+I7 35»7.6
-0.44
8 19.6
II
342 4-94
+0.354
+1742 21.7
+X.56
617.3
12
3 42 29.47
0.317
1735 8-0
0.37
815.6
12
342 11.26
0.373
174259.9
z.6a
6134
13
342 22.06
0.399
17 34 59-9
0.31
811.5
13
342 18.03
0.393
17 43 39-5
X.68
6 9.6
14
34215.08
o.aSx
173453-4
0.24
8 7.5
14
34225.26
0.3XX
174420.5
1.74
6 5.8
15
342 8.55
0.363
173448.5
o.z8
8 3.4
15
34232.94
0.339
1745 2.9
X.80
6 2.0
i6
342 2.47
-0.345
+17 3445.1
— o.xx
7 59-4
16
34241.06
+0.348
+174546.6
+1.85
558.2
I?
34156.84
0.336
173443.2
—0.05
7 55-4
17
3 42 49-62
0.366
174631.7
X.91
5 544
i8
34151-65
0.307
173442.8
+0.02
751.4
18
3 42 58.62
0.384
1747 18.1
X.96
550.6
>9
34146.91
0.188
173444-0
0.08
7 47-4
19
3 43 8.05
0.40a
1748 5.9
a.oa
546.9
20
34142.63
0.169
173446.8
0.15
7 43-4
20
34317-92
0.430
174855.0
a. 07
543.1
21
34x38-81
—0.150
+17 3451.2
+o.ax
7 39-4
21
34328.21
1
+0.438 j+1 7 49 45.4
+a.f3
5 394
22
34135-44
0.X3I
17 3457-1
0.37
7 35-4
22
34338.93
0.456
175037.0
a.x8
535.6
23
34132.52
O.XI3
1735 4-5
0.34
7 31-4
23
3 43 50.08
0-47S j 175129.9
a.aj
531.9
24
34130.06
0.093
1735x3-5
0.41
727.4
24
3 44 1.65
0.491
175224.1
a.aS
528.1
25
341 28.06
0.074
X7 35 24.1
1
0.47
723.4
25
34413.64
0.509
175319.5
a.33
5244
26
341 26.53
1
-O.OS5 +173536.3
+0 54 7 X9-5
26
3 44 26.05
+0.536
+17 54 16. 1
+3.38
520.7
27
34125.45
0036 173550-1
0.60 ' 7 15.6
27
3 44 38.87
0.543
175513.9
a.43
517.0
28
341 24.83
-0.017 ; 1736 5-4
0.67 ' 7 1 1.6
28
34452.10
0.560
17 56 12.9
8.48
513.3
29' 341 24.68
+0.003
173622.3
0-74 7 7.7
29
3 45 5.74
0.577
175713.0
a.S3
5 96
30 : 3 41 24.99
o.oaa 1 173640.7
0.80 ' 7 3.8
30
34519-78
0.594
175814.3
•57
5 5.9
31 1 34125.77
+0.043 +1737 0.7
+0.87 659.9
31
3 45 34-23
+0.611
+175916.7
+a.63
5 2.2
32 1 34127.01
1
+o.o6t +173722.3
+0.93
656.0
32
3 45 49.08
+0.637
+18 020.2
+a.67
458.5
Day of the Moi
1
ith.
«d.
10th. , 18th.
Mth.
1
Day of the Mos
ith.
Sd.
11th.
Itth.
Mth.
II
It n
n
//
II
//
tt
Semidiameter
• •
9-29
9.18 9.06
8.94
Se
midiameter
• •
8.81
8.68
8-55
843
Horizontal Pan
Ulax
1.06
1.04 1.03
1
1. 01
H(
)rizoiital Par
allax
1.00
0.98
0.97
0.96
Nora. — ^The sign + indicates north dedinations; the sign — indicates sonth decUiuitkiiis.
SATURN, 1913. 171
GREENWICH MEAN TIME.
The acn + pteflsBd to tbm haottr chaagc of dccUnatlon iailicatn that north decUiuitloa* an lacnaAui.
172
SATURN, 1913.
GREENWICH MEAN TIME.
MAY.
JUNE.
•
■s
g
Apparent
Right Ascen-
Var. of
R. A
for I
Apparent
Dcclixiation.
Var. of
Decl.
for X
Merid-
•
§
Apparent
Right Ascen-
sion.
Var. of
R.A.
for X
Apparent
Dechnation.
Var. of
Decl.
for z
Merid-
*R
9I1II1*
Hour.
Hour.
ian Pas-
*R
Hour.
Hour.
ian Pas-
o
sage.
0
sage.
i
Noon.
Noon,
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
h m s
s
0 / ff
if
h m
h m 8
% 0 f tr
" h m
I
4 9 6.14
+1.276
+19 20 20.9
+3.73
133.6
I
4 25 39.07
+X.363 +20 4 6.9
+3.S5
2344.^
2
4 936.84
x.aSa
19 21 50.3
3-73
130.2
2
426 11.79
X.363 20 5 24.4
3.aa 23414
3
4 10 7.68
z.a87
1923 19.6
3-7a
I 26.8
3
42644.51
1.363 , 20 641.3
319
23 38x>
4
41038.64
z.a9a
192448.7
3.71
I 23.4
4
427 17.22
x.36a 20 757.7
3-17
2334.6
5
411 9.72
x.a97
19 26 17.6
3.70
I 20.0
5
4 27 49.91
1.362
20 9 13.5
3.14
2331.2
6
411 40.92
+x.3oa
+192746.2
+3.69
I 16.6
6
4 28 22.58
1
+1.36X ;+20l0 28.7
+3.ia
23 27.9
7
412 12.25
X.307
1929 14.6
3.68
I 13.1
7
42855.23
X.360
20 II 43.2
3.Z0
23 24.5
8
41243.68
X.3X3
193042.8
3.67
1 9.7
8
42927.84
1.358
20 12 57.1
3.07
2321.1
9
4 13 15.21
X.3X6
1932 10.7
3.66
I 6.3
9
430 0.41
X.357
20 14 10.4
3.05
23 17.7
lO
41346.84
x.3ao
193338.3
3.65
I 2.9
10
43032.94
1.355
201523.0
3.0a
2314-3
II
41418.57
+I.3a4
+1935 5-6
+3.64
059.5
II
431 5.44
+1.353 +201635.0
+a.99
23 10.9
12
4 14 50.39
x.3a8
"93632.6
3.6a
056.1
12
43137.89
X.35I
201746.3
a. 96
23 7.5
13
4 15 22.30
X.331
19 37 59-3
3.6X
052.7
13
4 32 10.28
13 48
20 1856.9
a. 93
23 4.1
14
4 15 5429
X.334
193925.6
3.59
049.3
14
43242.61
1.346
2020 6.9
a. 90
23 0.7
»5
4 1626.36
X.337
194051.6
3.58
045.9
15
43314.88
x.343
2021 16.3
1
a. 87
2257.3
i6
41658.49
+X.340
+1942 17.2
+3.56
042.5
16
43347.09
1
+X.340 1+2022 25.0
+a,84
22 53.9
17
4 17 30.69
X.343
194342.4
3.55
039.1
17
43419.22
x.337
202332.9
s.8z
22 50.5
i8
418 2.96
1.346
1945 7-2
3-53
035.7
18
43451.28
x.334
202440.2
«.78
22 47.1
19
41835.29
1.349
19 46 31.6
351
032.3
19
43523.27
X.331
20 25 46.8
a.7S
22 43.7
20
419 7.67
X.351
194755.6
3.49
028.9
20
43555.18
X.338
202652.7
S.73
2240.3
21
4 1940.10
+1.353
+1949 19.2
+3.47
025.5
21
4 36 26.99
+1.324
+202757.9
+8.7*"
22 36.9
22
420 12.58
1.355
195042.3
3-45
022.1
22
43658.71
x.3ao
20 29 2.4
a. 67
22 33.5
23
42045.11
x-357
1952 50
3.43
018.7
23
4 37 30.34
X.316
2030 6.1
a. 64
22 30.1
24
421 17.67
X.358
195327.2
3. 41
015.4
24
438 1.87
x.3ia
2031 9.1
a.6z
22 26.7
25
421 50.26
1.359
195448.9
3.39
0 12.0
25
4 38 33.30
x.307
2032 1 1.4
a.S8
2223.3
26
422 22.89
+x .360
+1956 10.2
+3.37
0 8.6
26
439 4.62
+1.303 ,+2033 13.0
+a.S5
22 194^
27
42255.55
X.361
1957310
3.35
0 5.2
27
43935.83
x.a98
203413.9
a.5a
22 16.5
28
42328.23
x.36a
195851.2
3.33
( 0 1.8
(SS 68.4
28
440 6.92
x.a93
2035 14. 1
a.49
22 13.1
29
424 0.92
x.36a
20 0 10.9
3.31
23 55.0
29
44037.88
x.a88
203613.5
a. 46
22 9.7
30
4 24 33.63
1.363
20 I 30.1
3.39
2351.6
30
441 8.72
x.a8a
2037 12.1
a. 43
22 6.a
31
425 6.35
+1.363
+20 248.8
+3.a7
23 48.2
31
44139.44
+x.a77
+2038 9.9
+a.40
22 28
32
4 25 3907
+1.363
+20 4 6.9
+3.«5
2344.8
32
4 42 10.02
+x.a7il+20 39 6.9
+a.36
21594
Day of the Moi
ith.
2d.
10th.
18th.
Mth.
]
>ay of the Mob
ith.
8d.
11th.
19th.
t7th.
ft
//
//
tf
ft
ft
»t
tt
Semidiameter
• •
7.76
7.73
7.71
7.70
Se
midiameter
• •
7.70
7.71
7.73
7.77
Horizontal Pars
lUax
i
0.88
0.88
0.88
0.87
H(
>rizontal Pat
allax
0.87
0.88
0.88
0.88
N0T8.— The sign + indicates north dfclinatinna; the sign — indicates south dedinatioiis.
SATURN, 1913. 178
GREENWICH MEAN TIME.
ic of dKlinatioii iodicatn that twrtb dccUoatkau an Incmdw.
174
SATUfiN, 1913.
GREENWICH MEAN TIME.
SEPTKMBER.
OCTOBER.
1
SI
Ai>p«rent
Right Ascen-
sion.
Var.of
R. A.
for X
Hour.
Apparent
Declination.
Var.of
Decl.
for I
Hour.
Merid-
ian Pas-
sage.
•
1
•8
1
Apparent
Right Ascen-
sion.
Var.of
R. A.
for X
Hour.
Apparent
Decimation.
Var.of
Decl.
for X
Hour.
1
•
11
1
Noon.
Noo».
Noon.
Noon.
Noom.
Noom.
Noom.
Noon.
h
m 8
8
or ft
//
h m
h
m 8
8
0 ' /'
II
I
5
551-69
+0.55S
+21 13 2.4
+0.46
1822.9
I
5
9 12.95
— O.OIO
+21
[ 14 1.2
-0.98
2
5
6 4.81
0.538
21 13 13.2
0.43
18 19.I
2
5
9 12.48
o.oa9
21
13542
0.31
3
5
617-52
0.S30
21 1323.3
0.4X
18 15.4
3
5
9»i-53
0.049
21
E 1346.7
0.33
4
5
629.80
0.503
21 1332.8
0.38
1811.7
4
5
9 lO.II
0.069
21
1338.7
0.35
5
5
641.66
0.48s
21 1341.7
0.3s
18 8.0
5
5
9 8.22
0.089
21
I 1330.2
0.37
6
5
653-09
+0.467
+21 1350.0
+0.33
18 4.2
6
5
9 585
-0.X09
+21
[ I32I.I
-0.39
7
5
7 4-09
0.449
21 13 57-7
0.30
18 0.5
7
5
9 3-01
o.zaS
21
i3"-5
0,41
8
5
7 14.66
0.431
21 14 4-7
0.98
1756.7
8
5
859-71
O.X47
21
t 13 1.5
0.43
9
5
7 24.79
0.413
21 14 II. I
0.95
1752.9
9
5
8 55-94
0.X67
21
I 1251.0
0.45
lO
5
734-48
0.395
21 14 169
0.93
1749.1
10
5
851 70
o.x86
21
I 1239.9
0.47
II
5
7 43-73
+0.376
+21 1422.0
+0.90
1745.3
II
5
847.00
— o.ao5
+21
[ 1228.3
—0.49
12
5
7 52.54
0.358
21 1426.5
o.z8
1741.5
12
5
841.84
0.994
21
[ 12 16.3
0.51
13
5
8 0.91
0.339
21 1430.4
0x5
1737.7
13
5
8 36.22
0.943
21
I 12 3.8
0.53
14
5
8 8.83
0.391
21 1433.7
O.X3
1733.9
14
5
8 30.14
0.969
21
I II 50.8
0.5s
15
5
8 16.30
0.30a
21 1436.5
o.xo
1730.1
15
5
8 23.61
0.98X ! 21
t 1137.3
0.57
i6
5
3 23.31
+o.a83
+21 1438.6
+0.08
1726.3
16
5
8 16.63
-0.300
+21
I 1123.3
--0.59
17
5
8 29.87
o.a64
21 1440.1
0.06
17 22.5
17
5
8 9.20
0.3x9
2]
[II 8.8
o.6x
i8
5
835-98
0.944
21 1441.0
+0.03
17 18.6
18
5
8 1.32
0.338
21
: 1053.8
0.63
X9
5
841.63
0.995
21 1441.4
0.00
17 14.8
19
5
753-00
0.356
21
t 1038.4
0.65
20
5
8 46.82
0.906
21 1441.2
—0.0 9
17 10.9
20
5
744.24
0.374
21
[ 1022.5
0.67
21
5
851.55
+0.187
+21 1440.4
—0.05
17 7.1
21
5
7 35-05
-0.39a
+2]
[ 10 6.2
-^.69
22
5
855-81
o.x68
21 14 39-0
0.08
17 3.2
22
5
7 25.42
0.4x0
21
I 949.4
0.7X
23
5
8 59.61
0.148
21 1437-1
o.xo
1659.4
23
5
7 15.36
0.4*8
21
t 932.2
0.73
24
5
9 2.94
O.Z99
21 1434-6
O.X9
1655.5
24
5
7 4.88
0.446
21
I 914.5
0.75
25
5
9 5-79
0.Z09
21 1431-5
O.X4
1651.6
25
5
6 53.97
0.463
21
[ 856.4
0.76
26
5
9 8.17
+0.089
+21 1427.8
— o.x6
1647.7
26
5
642.65
—0.480
+21
[ 837.8
-0.78
27
5
9 10.08
0.070
21 1423.6
o.z8
1643.8
27
5
6 30.92
0.497
21
[ 818.8
0.80
28
5
9 ".51
0.050
21 14 18.8
0.9Z
1639-9
28
5
6 18.79
0.514
21
I 759.4
0.89
29
5
9 12.46
0.030
21 14 13-5
0.93
1636.0
29
5
6 6.25
0.53X
21
I 739.5
0.84
30
5
9 12.94
+0.010
21 14 7.6
0.96
1632.0
30
5
5 53-32
0.547
21
t 719.2
0.85
31
5
9 12.95
—0.0x0
+21 14 1.2
-o.aS
16 28.1
31
5
5 40.01
-0.563
+2]
I 658.5
—0.87
32
5
9 12.48
-0.099
+21 1354.2
-0.3X
16 24.1
32
5
5 26.32
-0.578
+21
I 637.5
—0.89
Day of the
Month.
7th.
Iftth.
8Sd.
I
>ay of the Moti
ith.
1st.
•th.
17th.
f/
II
//
II
II
//
Semidiameter
• • • •
8.56
8.69
8.82
Se
midiameter
• •
8.9
5
9.08
9.20
Horizontal Par
allax . .
0.97
0.99
1. 00
H<
>rizontal Pat
allax
I.O
»2
1.03
1.05
NoTS. — ^The sign + indicates north declinations; the sign — indicates south dedinatioas.
SATURN, 1913. 175
GREEhrWICH MEAN TIME.
Ttat tiao — mAzcd to the bonriy change of dccUnatioa indlcmU* that nonh dccliiuiioiu an decmnw.
176 TTRANTJS, 1913.
MEAN TIME.
Lcut boriionUl v
nllu, Janmy n. <
parallax, Jolr 18, 1
NEPTUNE, 1913. 177
MEAN TIME.
ia,""*
178 HELIOCENTRIC CO-ORDINATES, 1913.
MERCURY.
MEAN NOON.
HELIOCBNTEIC CO-ORDINATES, 1913. 179
MERCURY.
GREENWICH MEAN NOON.
180
HELIOCENTRIC CO-ORDINATES, 1913.
MERCURY.
GREENWICH MEAN NOON.
Heliocentric
Longitude.
Mean Equinox
of Date.
Daily
Motion.
Reduction
to Orbit.
Heliooentric
Latitude.
Daily
Motion.
Logarithm
of Radius
Vector.
Logarithm of Distance from
Barth—
Date.
At Date.
At Interme-
diate Date.
0 » t/
e /
It
/ //
0 ' /r
/ //
Apr. I
202 12 48.7
3 ax
35-7
- 9 54.5
+25854.2
—33 33.0
9.6249187
9.772 5935
9.773 1828
2
205 32 8.9
3 17
8.4
853.3
2 36 29.6
33 36.5
9.629 6323
9.7740173
9.775 0877
3
208 47 12.4
3 13
3.x
746.5
2 14 2.5
33 37.0
9.6340817
9.776 3843
9.777 8970
4
211 58 19.7
3 9
15.8
635.x
I 51 36.7
33 33.9
9.638 2644
9.7796153
9.781 5290
5
2x5 5 504
3 5
48.7
5 20.2
I 29 15.7
33 Z7.6
9.642 1790
9.783 6276
9.785 9004
6
218 10 3.1
3 a
39.9
- 4 3.0
+1 7 2.4
—33 8.7
9.645 8250
9-788 3370
9.790 9270
7
221, iIL 15.8
a 59
48.5
• 244.2
04459.1
ax 57.5
9.649 2022
9.793 6603
9.796 5270
8
224 945.6
2 57
X3.8
> I 24.8
023 8.1
az 44.3
9.652 3109
9.7995175
9.802 6225
9
227 5 48.8
a 54 55. 1
- 0 5.6
+0 I 31.3
az 39.3
9655 1516
9.805 8330
9.809 1404
lO
229 59 41.0
a 53
5X.7
+ I 12.7
-0 19 49.7
3Z Z3.6
9-657 7252
9.8125367
9.816 0139
II
232 51 37-3
a 5x
3.a
+ 2 29.4
-0 40 53.5
— ao 54.6
9.660 0327
9.819 5645
9.823 1816
12
235 41 52.2
a 49
39.0
343.9
I I 38.6
30 35.4
9.662 0750
9.826 8585
9.830 5888
13
238 30 39-9
a 48
8.6
4 55-5
I 22 3.8
30 Z4.9
9.663 8531
9.834 3667
9.838 1866
14
241 18 13.9
a 47
1.6
6 3.8
I 42 8.1
X9 53.4
9.665 3681
9.842 0434
9.845 9320
15
244 447.4
a 46
7.7
7 8.2
2 I 50.3
X9 30.9
9.666 6208
9.849 8480
9.853 7872
i6
246 50 33.5
a 45
36.5
+ 8 8.3
-2 21 9.4
-X9 7.3
9.667 61 19
9.857 7457
9.861 7198
17
249 35 44-7
a 44
57.9
9 3.6
240 4.4
z8 43.6
9.6683421
9.865 7061
9.869 7015
i8
252 20 33.6
a 44
4X.8
953.7
2 58 34.2
z8 z6.9
9.668 81 19
9.873 7032
9.877 7084
»9
255 5 12.5
a 44
38.0
10 38.3
31637.7
Z7 50.0
9.6690215
9.881 7147
9.885 7198
20
257 49 53-6
a 44
46.4
II 17.0
3 34 13-8
Z7 33.0
9.668 9710
9.889 7215
9.893 7180
21
260 34 49.2
a 45
6.9
+11 49.6
-351 21.3
— x6 53.8
9.668 6604
9.897 7076
9.901 6886
22
263 20 1 1.5
a 45
39.6
12 15.6
4 758.9
z6 33. a
9.668 0898
9-905 6595
9.909 6189
23
266 6 12.6
a 46
a4.7
1234.9
424 5.3
Z5 50.a
9.667 2587
9-9x35655
9.9174983
24
268 53 5.1
a 47
33.4
1247.2
4 39 38.9
Z5 z6.6
9.666 1662
9.921 4162
9.925 3x83
25
271 41 1.5
a 48
33.6
12 52.2
4 54 38.0
14 4X.3
9.664 81 18
9.929 2039
9.933 0720
26
274 30 14.6
a 49
55.6
+12 49.7
-5 9 0.9
—14 4.x
9.663 1948
9.9369219
9.940 7529
27
277 20 57.2
a 5x
31.8
12 39.7
5 22 45.5
X3 34.8
9.661 3144
9.944 5645
9.948 3561
28
280 13 22.8
a 53
az.6
12 22.1
5 35 49.6
13 43. X
9-659 1694
9.952 1272
9.955 8775
29
283 7 45.1
a 55
35.3
II 56.7
5 48 10.8
11 58.9
9.656 7588
9.959 6064
9.963 3x35
30
286 4 18. 1
a 57
43.3
" 23.5
5 59 46.3
zz xz.8
9.6540817
9.966 9984
9.970 6608
Blay I
289 3 16.6
3 0
16. z
+1042.6
-6 10 33.2
— 10 3X.6
9.651 1372
9.974 3004
9.977 9168
2
292 455.5
3 3
4.3
954.0
6 20 28.3
9 38.0
9.647 9243
9.981 5095
9.985 0783
3
295 930.4
3 6
8.3
857.8
6 29 27.9
8 30.6
9.644 4428
9.988 6230
9.992 1433
4
298 17 17.6
3 9
38.9
754.3
6 37 28.0
7 39.0
9.640 6925
9.995 6387
9.999 1088
5
301 28 34.0
3 X3
6.8
644.0
6 44 24.3
6 33.9
9.636 6737
0.002 5534 0.005 9719
6
30443 37.1
3 X7
2.5
+ 5 27.2
-650 12. 1
— 5 ZZ.8
9-632 3874
0.009 3640 0.012 7293
7
308 2 45.2
3 ax
z6.8
4 4.4
6 54 46.0
3 55.3
9.627 8352
0.0160673
0.019 3776
8
311 26 17.3
3 »S
50.5
236.4
658 0.5
3 33.8
9.623 0199
0.022 6595 \ 0.025 9125
9
3H 54 330
3 30
44.1
+ I 4.2
6 59 49.5
- z 3.9
9.617 9455
0.029 1360 1 0.032 3295
10
318 27 52.5
3 35
58.4
- 031.2
7 0 6.2
+ 0 3X.8
9.612 6173
0.035 4922
0.038 6233
II
322 6 37.0
3 41
34.3
- 2 8.5
-6 58 43.5
+ 3 Z4.8
9.607 0425
0.041 7220
0.044 7876
12
325 51 8.2
3 47
3X.7
346.2
6 55 33.9
4 5-6
9.601 2308
0.047 8 1 91
0.050 8155
13
329 41 47.9
3 S3
51.5
5 22.6
6 50 29.5
6 4.7
9.595 1944
0.053 7757
0.056 6987
14
333 38 58.7
4 0
33.8
655.8
643 21.8
8 za.3
9.588 9485
0.059 5834
0.062 4283
15
337 43 31
4 7
38.7
823.5
634 2.3
zo 38.3
9.582 5 1 17
0.065 2321
0.067 9935
16
341 54 23.6
4 15
5.8
- 9 43.2
-6 22 22.4
+xa S3.Z
9-5759071
0.070 7109
0.073 3827
17
346 13 22.0
4 aa
54.4
-X052.5
-6 8 13.3
+XS a6.4
9.569 1625
0.076 0073
0.078 5828
[Eph zjj
HBHOOENTEIC CO-ORDINATES, 1913. 181
MERCURY.
GREENWICH MEAN NOON.
182 HELIOCENTRIC CO-ORDINATES, 1913.
MERCURY.
GREENWICH MEAN NOON.
Date.
Heliocentric
Longitude,
Mean Bquinox
of Date.
Daily
Motion.
Reduction
to Orbit.
Heliocentric
Latitude.
Daily
Motion.
1
Logarithm
of Radius
Vector.
Logarithm of Distance from
Earth—
At Date.
At Interme>
diate Date.
0 / //
0
f
//
/ ff
0 / '/
/ //
July X
212 4 24.7
3
9
9.0
- 632.8
+ 15054.7
-^32 23.7
9.638 3901
9.9714439
9.967 6005
2
215 II 49.0
3
5
42.4
5 17.8
I 28 33.9
32 17.4
9.642 2965
9.963 7388
9.959 8595
3
218 15 55.9
3
a
34.x
4 0.5
I 6 20.8
22 8.4
9.645 9342
9.955 9632
9-952 0506
4
221 17 3.3
a
59
43.3
241.7
04417.9
2X 57.1
9649 3030
9.948 1225
9.944 1795
5
224 15 28.2
a
57
9.x
I 22.3
0 22 27.4
az 43-8
9.652 4033
9.940 2225
9.936 2524
6
227 II 27.0
a
54
50.9
- 0 3.1
■K) 051.0
—21 38.8
9.655 2357
9.932 2700
9.928 2762
7
230 5 15-3
a
Sa
48.1
+ I I5-I
-0 20 29.5
ax 13. X
9.657 8010
9.9242719
9.920 2583
8
232 57 8.2
a
51
0.0
231-8
041 32.7
20 S4.0
9.660 1002
9.916 2365
9.912 2077
9
235 47 20.2
a
49
a6.3
346.2
I 2 17.2
20 34.8
9.662 1343
9.908 1730
9.904 1339
lO
23836 5-4
a
48
6.3
457.7
I 22 41.8
20 14.3
9.663 9043
9.9000917
9.896 0482
II
241 23 37.3
a
46
59.7
+ 6 5.9
-I 42 45.4
-19 52.7
9.665 41 1 2
9.892 0050
9.887 9638
12
244 10 9.2
a
46
6.a
7 10. 1
2 2 26.9
Z9 30. z
9.666 6557
9.883 9265
9-879 8953
13
246 55 53-9
a
45
25.4
8 1 0.0
2 21 45.3
19 6.4
9.667 6386
9.875 8725
9.871 8604
14
24941 4.2
a
44
57.2
9 5-2
2 40 39.4
18 41.7
9.668 3606
9.867 8615
9.863 8785
15
252 25 52.6
a
44
4X.5
955.2
259 8.4
x8 16.0
9.668 8222
9.8599145
9.855 9726
i6
255 10 31.4
a
44
38.1
+10 39.6
-3 17 II. I
-X7 49.2
9.669 0237
9.852 0558
9.848 1677
17
257 55 12.8
a
44
46.8
II 18.2
3 34 46.3
Z7 ax.z
9.668 9652
9.8443123
9.840 4937
i8
260 40 9.0
a
45
7.7
II 50.5
35152.9
165X.9
9.668 6466
9.8367160
9-832 9837
19
263 25 32.3
a
45
40.8
12 16.3
4 8 29.6
z6 3X.3
9.668 0677
9.829 3016
9.825 6747
20
266 II 34.9
a
46
a6.3
1235.4
4 24 35.0
x5 49.3
9.667 2283
9.822 1084
9.8186083
21
268 58 29.2
a
47
24.3
+1247.4
-440 7.5
-IS 15.6
9.666 1277
9.815 1804
9.81 1 8307
22
271 46 27.7
a
48
35.0
1252.2
4 55 5.6
X4 4o.a
9.664 7652
9.808 5657
9.805 3920
23
274 35 43-3
a
49
58.5
1249.5
5 927.3
14 2.8
9.663 1400
9.8023167
9.799 3470
24
277 26 29 0
a
5X
35.x
1239.3
5 23 10.6
X3 23.4
9.661 2512
9.796 4904
9.793 7546
25
280 18 58.1
a
53
25.3
12 21.4
5 36 13.4
12 41.7
9.659 0980
9.791 1476
9.788 6773
26
283 13 24.2
a
55
29.4
+11 55.8
-5 48 33.2
-IX S7.4
9.6566791
9.786 3520
9.784 1800
27
286 10 1.6
a
57
47.8
II 22.4
6 0 7.3
zx 10. a
9.653 9937
9.782 1696
9.7803291
28
289 9 4.8
3
0
ai.o
1041.2
6 1052.7
10 19.9
9.6510409
9.7786671
9-777 1918
29
292 10 48.9
3
3
9.7
952.3
6 20 46.0
9 a6.a
9.647 8198
9.775 91 13
9.774 8334
30
295 15 29.6
3
6
14.3
855.9
6 29 43.8
8 a8.7
9.644 3300
9.773 9658
9.7733158
31
298 23 23.1
3
9 35.5
+ 7 52.3
-6 37 42.0
- 7 27.0
9.6405714
9.772 8902
9.772 6954
Aug. I
301 34 46.4
3
13
X3.9
641.7
6 44 36.3
6 20.7
9636 5443
9.772 7375
9.7730217
2
304 49 56.9
3
17
xo.a
524.6
650 21.8
5 95
9.632 2497
9.773 5525
9.774 3338
3
308 9 12.9
3
ai
as. I
4 1.7
6 54 53.4
3 52.8
9.627 6893
9.775 3688
9.7766600
4
3" 32 53-5
3
25
59.4
233.6
658 5.3
2 30.1
9.622 8658
9.778 2090
9.7800162
5
315 I i8-3
3
30
53.7
+ I 1.3
-65951.4
— I X.X
9.617 7833
9.782 0813
9.784 4032
6
318 34 47.7
3
36
8.7
- 034.2
7 0 5.1
+ 0 34.8
9.6124473
9.786 9799
9.789 8087
7
322 13 42.7
3
41
4S.X
2 11.6
6 58 39-3
a 18. 1
9.6068651
9.792 8857
9.796 2064
8
325 58 25.0
3
47
43-3
349.3
6 55 26.3
4 9.2
9.601 0463
9.799 7654
9.803 5564
9
329 49 16.6
3
54
3.8
525.6
650 18.1
6 8.5
9-5950031
9.807 5724
9.811 8061
10
333 46 39-9
0
46.8
- 658.6
-643 6.4
+ 8 X6.3
9.588 7509
9.816 2492
9.820 8930
II
337 50 57-6
7
52.3
.826.1
63342.7
10 32.7
9.582 3085
9.825 7285
9.830 7461
12
342 2 32.0
15
20.1
9 45-6
6 21 58.2
12 S7.8
9-575 6992
9.835 9357
9.841 2871
13
346 21 45.0
23
9.3
J0 54-4
6 744.4
15 31.3
9.568 9509
9.846 7898
9.8524331
14
350 48 57-5
31
18.9
1 1 50.0
55053.1
18 13.6
9.5620971
9.858 2062
9.864 0982
15
355 24 28.9
39
47.0
-12 29.4
-531 171
+ 21 0.7
9-555 1772
9.870 0983
9.876 1954
16
0 8 36.6
A
48
3X.O
-1249.9
-5 850.1
+23 54.2
9.548 2371
9.882 3785
9.888 6367
lEph 13I
HELIOCENTRIC COORDINATES, 1913. 183
MERCURY.
MEAN NOON.
184 HELIOCENTRIC CO-ORDINATES, 1913.
MERCURY.
MEAN NOON.
HELIOCENTRIC CO-ORDINATES, 1913.
185
MERCURY.
GREENWICH MEAN NOON.
Date.
Hdiooentric
Ixisigitude.
Mean Equinox
of Date.
Daily
Motion.
Reduction
to Orbit.
HeUocentric
Latitude.
Daily
Motion.
Logarithm
of Radius
Vector.
Logarithm of Distazxce from
Earth—
At Date.
At Interme-
diate Date.
0 1 "
0 f ff
f //
0 ' //
/ //
or. i6
20 45 11.8
5 as a.S
—10 19.0
-3 836.8
+35 36.S
9.521 2536
9.864 7686
9.860 1799
»7
26 14 42 2
5 33 SS.8
839.4
2 31 41.3
38 xa.3
9.5x5 X632
9.855 8123
9.851 6971
i8
31 52 56.8
s 4a 39.4
637.3
I 52 18.1
40 30.8
9.509 4763
9.847 8662
9.8443515
19
37 39 31 I
5 SO 33-6
4 16.2
I X047.5
4a 96.x
9.504 2805
9.841 1847
9.838 3964
20
43 33 50.5
S 57 57.8
- I 41. 1
-0 27 35.6
43 S^'5
9.499 6634
9.8360155
9.834 0686
21
49 35 9.8
6 4 31.6
+ I 1.5
+0 1646.0
+44 44. S
9.495 7089
9.832 5793
9.83 X 5676
22
55 42 33-3
6 xo 4.4
344.0
I 140.4
44 57.4
9.492 4940
9.831 0490
9.831 0342
23
61 54 55.0
6 Z4 a6.4
6 18.1
I 46 26.8
44 aS.o
9.490 0847
9.831 5288
9.832 5331
H
68 10 59.7
6 Z7 a9z
835.6
2 3021.8
43 14.6
9.488 5327
9.8340417
9.836 0440
25
74 29 24.8
6 19 6.1
10 29.0
3 12 41.6
4Z Z7.8
9.487 8725
9.838 5243
9.841 4623
26
80 48 42.0
6 Z9 13. z
+11 52.0
+3 52 43.7
+38 40.0
9.488 1 1 88
9.844 8338
9.848 6109
27
87 7 20.7
6 Z7 49.0
12 40.2
4 29 49.5
35 as.9
9.489 2661
9.852 7628
9.857 2570
28
93 23 504
6 X4 555
12 51.6
5 325.5
31 41. 7
9.491 2888
9.862 0597
9.867 1363
29
99 36 43.7
6 zo 37.3
12 26.6
5 33 5.3
87 34.9
9.494 1428
9.872 4525
9.877 9743
30
105 44 39.5
6 s 1,8
II 27.7
55830.2
83 X3.3
9.497 7681
9.883 6688
9.889 5046
Dec. I
III 46 24.9
S S« i«.3
+ 9 59.3
+6 19 29.3
+z8 44.8
9.502 0923
9.895 4520
9.901 4832
2
117 40 57.2
S SO 37. 5
8 7.2
6 35 59.6
Z4 x6.7
9.507 0342
9.907 5724
9.913 6960
3
123 27 24.7
S 4a Z0.9
557.9
648 4.8
9 555
9.5125075
9.9198326
9.925 9628
4
129 5 7-5
S 33 xo.o
337.9
6 55 54.4
5 46.3
9.5184242
9.932 0695
9938 1374
5
134 33 36.9
S '3 459
+ I 13.8
65942.5
+ X sa.8
9.5246979
9-944 X530
9.950 1046
6
139 52 350
s 14 90
- I 8.8
+6 59 46.3
— X 4a. X
9.531 2454
9.955 9823
9.961 7777
7
145 I 53.5
S 4 a8.3
324.9
6 56 25.0
4S7.X
9.537 9894
9.967 4834
9.973 0935
8
150 I 32.7
4 S4 SX-4
530.5
6 49 59.0
7 5X.6
9.544 8588
9.978 6033
9.9840089
9
154 51 39-7
4 4S 34.8
722.7
6 40 48.7
xo 9S.8
9.55 X 7897
9.989 3072
9.994 4960
10
159 32 27.4
4 36 13-6
859.5
6 29 14. 1
X9 40.4
9.558 7254
9.999 5738
0.004 5397
II
164 4 13.3
4 a7 az.7
-10 19.6
+^ 15 34.1
-X4 36.7
9.565 6166
0.009 3933
0.014 1345
12
168 27 18.1
4 z8 sz-8
II 22.5
6 0 6.4
16 x6.o
9.572 4208
0.018 7637
0.023 2816
13
172 42 4.8
4 10 45.9
12 8.4
5 43 7-3
17 39.8
9.579 XOI7
0.027 6893
0.031 9880
14
176 48 58.2
4 3 S-3
12 37.6
5 2451.5
18 49-6
9.585 6286
0.036 1790
0.040 2639
15
r8o 48 23.9
3 SS SO. 5
12 51.0
5 532.3
19 47.0
9.591 9760
0.044 2445
0.048 1226
16
184 40 47.7
3 49 Z.6
-12 49.8
H 45 21.2
-ao 33-4
9.598 I23I
0.051 9000
0.055 5786
17
188 26 35.6
3 4a 3B.4
12 35.2
4 24 28.7
31 XO.I
9.604 0530
0.059 X604
0.062 6473
18
192 6 12.9
3 36 40.4
12 8.4
4 3 3-9
21 38.3
9.609 7520
0.0660413
0.069 3444
19
195 40 4-6
3 31 6.9
1 1 30.9
3 41 14.6
ax 59. X
9.615 2092
0.072 5588
0.075 6862
20
199 8 34.7
3 as S7.Z
1044.0
3 19 7-7
32 Z3.6
9.620 4I6I
0.078 7285
0.081 6877
21
202 32 6.3
3 ai zo.o
- 949.1
f2 5649.1
— 99 99.6
9.625 3665
.0.084 5658
0.087 3645
22
205 51 1.8
3 x6 44.7
847.3
2 34 24.0
99 96.9
9.630 0556
0.090 0856
0.092 7309
23
209 5 42.6
3 xa 40.3
740.0
2 II 56.8
99 96.9
9.634 4802
0.095 302 1
0.097 8009
24
212 16 29.0
3 8 559
628.2
I 4931.4
99 93.4
9.638 6379
o.ioo 2289
0.1025877
25
215 23 40.6
3 S 30.S
5 13.1
I 27 II.O
99 X7.0
9.642 5275
0.104 8787
0.107 1034
26
218 27 36.0
3 a 93.3
- 355.7
+1 458.4
-99 7.8
9.646 1485
0.109 2633
0.1 1 1 3598
27
221 28 33.0
a S9 33.5
236.8
042 56.2
ax S6.4
9.649 5007
0. II 3 3942
0.1153678
28
224 26 48.6
a S7 0.3
- I 17.4
+021 6.4
ax 430
9.652 5843
0.117 2819
0.119x375
29
227 22 39.0
a S4 43.0
+ 0 1.8
-0 029.1
9X 97.8
9.655 4001
0.1209359
0.122 6782
30
230 16 19.9
a sa 41. 1
I 20.0
021 48.6
9X ZZ.O
9657 9490
0.1243655
0.1259987
31
233 8 6.3
a so 54.0
+ 2 36.5
-0 42 50.6
— 90 sa.9
9.6602318
0.1275788
0.129 1068
32
235 58 12.7
» 49 az.z
+ 3 50.7
-I 333.9
-9033.5
•
9.662 2495
lO.i^o s^:ss
XO.Y'Vi OQ^
[Bph 13J
186
HELIOCENTRIC CO-ORDINATES, 1913.
VENUS.
GREENWICH MEAN NOON.
«p^ .
Heliocentric
Longitude.
Mean Equinox
of Date.
Daily
Motion.
Reduction
to Orbit
Heliocentric
Latitude.
Daily
Motion.
Logarithm
of Radius
Vector.
Logarithm of Distance from
Earth—
Date.
At Date.
At Interme-
diate Date.
0 / "
0 / //
t II
9 1 II
/ II
Jan. o
29 9 1-9
I 35 S3.6
-3 07
-2 28 23.2
+3 53.4
9.859 8923
0.002 6843
9-999 7382
2
32 20 52.2
1 35 S6.8
3 0.8
2 20 22.8
4 7.0
9-859 7296
9.996 7632
9.993 7586
4
35 32 48.9
X 36 0.0
2 58.7
2 II 55-7
4 X9.9
9-859 5655
9990 7239
9.987 6586
6
38 44 52.2
X 36 3.3
2 54-4
2 3 3.6
4 3S.O
9.859 4006
9.9845621
9-981 4339
8
41 57 2.0
X 36 6.6
2 47.8
I 53 48.0
4 43.3
9-859 2354
9.978 2736
9.975 0805
lO
45 9 1 8-5
X 36 9.9
-2 39.1
-I 44 10.7
+4 53.8
9.859 0703
9-971 8539
9.968 5935
12
48 21 41.7
X 36 Z3.3
3 384
13413-4
5 3.3
9.858 9060
9.965 2988
9.961 9693
14
51 34 11.8
z 36 z6.8
2 159
I 23 57.9
5 XX.9
9.858 7429
9.958 6046
9-955 2043
i6
54 46 48.8
z 36 ao.3
2 1.8
I 13 36.3
5 X9.5
9-858 5815
9.951 7678
9.948 2946
i8
57 59 32.9
X 36 33.8
I 46.1
I 3 4a3
5 86.8
9.858 4223
9.9447843
9.941 3365
20
61 12 24X>
X 36 »7.3
—I 28.9
-05141-9
+5 3X.9
9.858 2659
9-937 6508
9.934 0268
22
64 25 22.2
X 36 30.9
I ia6
0 40 33-3
5 36.S
9.858 1 1 28
9.930 3642
9.926 6625
24
67 38 27.6
X 36 34.5
0515
0 39 16.6
5 40.0
9-857 9633
9.922 9212
9-919 1399
26
70 51 40.3
X 36 38.a
0 31-7
0 17 53-9
5 4a.5
9.857 8182
9.915 3181
9.91 1 4551
28
74 5 0.2
X 36 4Z.8
-0 11.5
-0 627.3
5 43.9
9-857 6777
9.907 5503
9-903 6030
30
77 18 27.3
X 36 45*4
-K> 8.9
fo 5 0.9
+5 44.a
9.857 5424
9.8996124
9-895 5777
Feb. I
80 32 1.6
I 36 49.0
0 29.2
0 16 38.6
5 43.3
9.8574127
9.891 4982
9-887 3730
3
83 45 43-1
X 36 St,5
049.1
0 27 53.5
5 4X.4
9.857 3889
9.883 2013
9.878 9824
5
86 59 31.6
1 36 56.0
I 84
0 39 13.5
5 38.4
9.857 1716
9.874 7155
9-870 3996
7
90 13 27.1
X 36 59*5
I 36.9
0 50 364
5 34.3
9.857 061 1
9.866 0340
9.861 6179
9
93 27 29.5
X 37 •.9
+1 44.2
fi I 30.0
+5 a9.x
9.856 9577
9.857 1504
9.853 6308
II
96 41 38.5
X 37 6.1
3 0.2
I 13 33.1
5 aa.8
9.8568618
9.848 0583
9.843 4323
13
99 55 540
X 37 9.3
2 14.7
I 23 0.6
5 -1%*%
9.856 7738
9.838 7520
9.834 0167
15
103 10 15.8
X 37 xa.4
2 27.5
I 33 23-5
5 ?.a
9.856 6939
9.829 2258
9.824 3786
17
106 24 43.5
X 37 XS.3
2 38.4
I 43 28.7
4 57.8
9.856 6223
9.8194746
9.814 5132
19
109 39 16.8
X 37 z8.o
+2 47.3
+•1 53 14.2
+4 47.5
9.856 5593
9.809 4942
9.8044171
21
"2 53 55-4
X 37 «o.5
2 54-1
3 3 38.1
4 36.3
9.8565051
9.799 2816
9.7940872
23
116 8 38.9
I 37 aa.9
2 58.6
3 II 38.^
4 a4.x
9.856 4599
9.788 8335
9.783 5201
25
119 23 26.9
X 37 «5.o
3 0.8
2 20 13.9
4 zx.o
9.856 4239
9.778 1465
9.772 7121
27
122 38 19.0
X 37 a6.9
3 0.7
2 28 22.2
3 57.x
9-8563971
9.767 2164
9.761 6589
Mar. I
125 53 14.5
X 37 aS.S
+2 58.3
f 2 36 2.0
+3 4a.S
9-856 3796
9.756 0391
9.750 3566
3
129 8 13.0
X 37 a9.9
2 53.6
243 II.8
3 a7.x
9-8563716
9.744 61 1 1
9.7388021
5
132 23 13.9
X 37 3X.O
3 46.6
2 49 50.2
3 XX. z
9-856 3730
9-732 9294
9.726 9930
7
135 38 16.7
X 37 3X.7
2 37.5
2 55 55-8
a 54.4
9-856 3839
9.7209928
9.7149289
9
138 53 20.6
X 37 3a.x
3 264
3 127.5
a 37.a
9.856 4041
9.708 8017
9.702 61 18
II
142 8 25.1
X 37 3a.a
+3 13.4
f3 624.1
+a Z9.4
9-856 4336
9.696 3598
9.690 0463
13
145 23 29.5
X 3? 3«.o
I 58.7
3 1044.8
a z.a
9.8564724
9.683 6726
9.677 2400
15
148 38 33.0
X 37 3Z.4
I 424
3 14 28.7
z 4a.6
9.856 5202
9.670 7504
9.664 2059
17
151 53 35.0
X 3? 30.5
I 24.9
3 17 35-1
z 33.7
9.856 5770
9.657 6092
9-650 9634
19
155 834.8
X 37 99-9
I 6.3
320 3.3
z 4.S
9.856 6426
9.6443716
9637 5378
21
158 23 31.7
I 37 a7.6
+0 46.8
f3 21 53-0
+0 45. z
9.8567167
9.630 7664
9.623 9624
23
161 38 25.0
X 3? 95.6
0 36.8
323 3.8
0 85.6
9.856 7990
9.617 1313
9.610 2788
25
164 53 14.1
X 37 93.3
+0 6.4
3 23 35-5
-4-0 6.Z
9.856 8894
9.603 41 19
9-596 5373
27
168 7 58.1
X 37 30.6
-0 14. 1
3 23 28.2
-0 Z3.4
9.856 9876
9.589 6628
9582 7970
29
171 22 36.4
X 37 X7.6
0 34.4
32241.8
0 33.9
9-8570931
9-575 9491
9.569 1292
31
17437 8.5
X 37 X4.3
-0 54-2
■1-3 21 16.5
-0 5a.3
9.857 2057
9.562 3483
9-555 6181
Apr. 2
177 51 33-7
X 37 X0.7
*
-I 13.3,
"j-3 19 12.7
* [Bph 13I
-I 11.4
9857 3250
9.5489516
9-542 3626
HELIOCENTRIC C0-0KDINATB8, 1913.
187
Dttc
MeaDBquiiHX
o(D.W.
i^. 2
177 51 33-7
4
181 5 51-3
6
184 ao 0.8
8
18734 1.8
lO
190 47 53-*
13
194 I 36.3
»4
197 15 8.9
t6
100 28 31.3
i8
203 41 43.J
to
106 54 44-5
ti
aio 7 34.9
»4
J13 30 144
2b
3163243.9
i8
31945 <M
■ 30
333 57 6.9
Hiy I
336 9 3.5
4
339 30 47-5
•6
333 33 23.0
8
235434M
■0
2385s 0.8
13
'4* « 5-7
»4
345 17 M
16
34S 37 48.4
IS
351 38 37.3
10
354 48 58.3
31
357 59 31-9
H
36. 938.9
26
364 19 49.8
2%
367 39 55.0
30
370 39 55-3
Joe ,
373 49 509
3
376 59 43-8
5
380 931.4
7
383 19 17.3
9
386 39 IJ>
ti
389 38 43.3
>3
293 48 243
15
395 58 50
17
399 7 45-7
19
303 17 36.9
11
305 37 9-1
13
308 36 53-7
*5
3114638.3
IT
314 56 35.9
»9
318 6 16.3
/"l, ,
331 16 9-5
3
334 at 6.t
VENUS.
MEAN NOON.
188 HEROCENTKIO CO-ORDINATES, 191S.
VENDS.
MEAN NOON.
HELIOCENTBIC CO-ORDINATES, 1913.
189
VENUS.
GREENWICH MEAN NOON.
Logarithm of Distance firozn
Date
LooEitude.
Mean Bqitinox
DaUy
Motion.
Reductionl
toOrWtl
Heliocentric
Latitude.
Daily
Motion.
Logarithm
of Radius
Bazth —
&^ ■>«%■•
•
of Date.
Vector.
At Date.
At Interme>
diate Date.
0 / #«
0 / /#
/
ft
0 / //
It
kt. I
108 31 20.2
X 37 X7.6
+2
44-4
+•14951-5
+4
SI. a
9 856 5586
0.126 2054
0.128 0100
3
III 45 58.2
X 37 ao.3
2
51-9
I 59 23.3
40.3
9.856 5009
0. 1 29 7940
0.13X 5575
5
115 041.3
X 37 ".7
2
57.2
2 832.2
aS.s
9.8564521
0.1333008
0.1350243
7
1x8 15 294>
X 37 «4.9
3
0.3
2 17 16.6
15.7
9.8564125
0.1367283
0.138 4130
9
121 30 20.9
X 37 «6.9
3
1.0
2 25 34.6
a.z
9.856 3822
0.1400785
O.141 7250
II
12445 16.5
X 37 a8.6
+2
59-4
■»'2 33 24.7
+3
47.8
9.8563614
0.1433527
0.144 9618
13
128 0 15.3
X 37 30.x
2
55.5
24045.2
3
3a.6
9.856 3500
0-1465525
0.148 1250
15
131 15 16.7
X 37 3X.a
2
49.3
2 47 34-7
3
x6.8
9.856 3480
0.1496793
o.i5» 2155
«7
134 30 20.1
X 37 3a. X
2
40.9
2 53 52.0
0.3
9.856 3556
0.1527337
0.154 2341
19
137 45 24.9
X 37 3a.6
2
30.5
2 59 35-7
43. a
9.856 3727
0.155 7167
0.157 1816
21
141 0 30.5
X 37 3a.«
+2
18.2
+3 444.7
+a
a5.7
9.856 3992
0.1586290
0.1600588
23
144 15 36.2
X 37 33.7
2
4.1
3 918.1
7.7
9.856 4350
O.161 47 II
0.162 8659
25
147 30 413
X 37 3a.3
I
48.3
3 13 150
49.a
9.8564801
0.1642433
0.165 6034
27
150 45 45- 1
X 37 3X.5
I
31.2
3 16346
30.3
9.856 5343
0.1669463
0.168 2721
29
154 047.0
I 37 30.3
I
12.9
3 19 16.2
XX.3
9.856 5973
0.169 5810
0.1708732
31
157 15 46.1
X 37 »8.7
+0
53-7
■»-3 21 19.4
+0
5a.o
9.856 6690
0.172 1487
0.1734077
Ko\*. 2
160 30 41.8
z 37 a6.8
0
33.8
3 22 43.8
0
3a.5
9.856 7492
0.1746505
0.1758773
4
163 45 33-4
X 37 ^4.6
•to
13.5
3 23 29.2
+0
xa.9
9.856 837J
0.1770882
0.1782835
6
167 0 20.2
X 37 M.x
-0
7.0
3 23 35-5
-0
6.7
9-856 9337
0.1794635
0.1806283
8
170 15 1.6
X 37 X9.fl
0
27.4
323 2.7
0
a6.a
9.857 0375
O.181 7780
0.182 9128
10
173 29 36.8
X 37 XS.9
-0
47.4
■I-3 2I 51.0
-0
45.6
9.857 1485
0.1840328
0.185 1381
12
17644 5-3
X 37 xa.4
I
6.8
3 20 0.6
4.8
9.857 2664
0.186 2290
0.187 3055
«4
179 58 26.4
I 37 8.6
I
253
3 17 32.0
a3.7
9.857 3907
0.1883677
0.189 4157
16
183 12 39.5
X 37 4.5
I
42.7
3 14 25.8
4a.4
9.857 52 1 1
0. 190 4496
0. 191 4694
18
186 26 44.2
X 37 o.a
I
58.9
3 1042.6
0.7
9857 6572
0.192 4751
0.1934668
20
189 40 40.0
X 36 SS.6
-2
135
4-3 623.2
-a
z8.6
9.857 7985
0.1944445
0.1954082
22
192 54 26.4
z 36 50.8
2
26.4
3 I 28.5
36.0
9-857 9445
0.1963580
0.197 2938
24
196 8 3.0
X 36 45.8
2
37-4
2 55 59-5
Sa.S
9.858 0948
0.198 2158
0.199 1239
26
199 21 29.4
X 36 40.7
2
46.4
2 49 57-3
9. a
9.858 2489
0.2000183
0.2008990
28
202 34 45.4
X 36 354
2
53-3
2 43 23.2
a4.8
9.858 4063
0.201 7661
0.202 6197
30
205 47 508
X 36 30.0
—2
58.1
■1-2 36 18.5
—3
39.8
9.858 5665
0.203 4599
0.204 2870
Dec. 2
209 045.3
X 36 94.5
3
0.6
2 28 44.6
S4.0
9.858 7290
0.205 loii
0.205 9024
4
212 13 28.8
z 36 X9.0
3
0.8
2 2043.1
7.4
9-858 8933
0.2066910
0.207 4670
6
215 26 1.3
X 36 Z3.4
2
58.8
2 12 15.5
ao.o
9-859 0588
0.208 2305
0.208 9818
8
218 38 22.7
X 36 7.9
2
54.5
2 323.4
3X.8
9.859 2250
0.209 7210
0.2104483
10
221 5033.1
X 36 9.4
—2
48.0
■H 54 8.6
—4
43.8
9-859 3915
0.21 1 1636
0.2 1 1 8671
12
225 2 32.6
X 35 57.0
2
39.5
I 44 32.9
Sa.8
9-859 5577
0.2125589
0.213 2391
14
228 14 21.3
X 35 5X.7
2
29.0
I 34 38.1
1.8
9-859 7230
0.213 9078
0.2145650
16
231 25 59.5
X 35 46.5
2
16.6
I 24 26. 1
9.9
9.859 8870
0.215 2108
0.215 8452
18
234 37 27.3
X 35 4X.4
2
2.5
1 13 58.8
IT. I
9.860 0492
0.216 4681
0.217 0796
20
237 48 45- 1
X 35 36.4
—I
47.0
fi 3 18.3
— s
a3.a
9.860 2090
0.2176797
0.218 2683
22
240 59 53.2
X 35 3X.6
I
30.1
0 52 26.5
a8.3
9.860 3660
0.2188455
0.219 4^^2
24
244 10 51.9
X 35 a7.x
I
12.1
0 41 25.5
3a. 4
9.8605196
0.2199654
0.220 5082
26
247 21 41.8
X 35 aa.8
0
53.2
030 17.2
35.5
9.860 6695
0.221 0396
0.221 5596
28
250 32 23.3
X 35 X8.7
0
33.7
0 19 3.8
37.6
9.860 8151
0.222 0683
0.222 5657
30
253 42 56.7
X 35 X4.8
-0
13-8
+0 747.4
-5
38.7
9.8609561
0.2230520
0.223 5272
32
256 53 23.7
X 35 xz.a
40
6.2
-0 330.1
—5
38.7
9.861 0920
0.2^^ ^\S
loai\ ftAV^
(Kph 13]
190 HELIOCENTRIC CO-ORDINATES, 1913.
MARS.
GREENWICH MEAN NOON.
Heliocentric
Longitude,
Mean Bqtiinox
of Date.
Logarithm of Distance from
Date.
DaUy
Motion.
/ If
Redac-
tion to
OrWt.
Heliocentric
latitude.
Daily
Motion.
Logarithm of
Radius Vec-
tor.
Barth—
At Date.
At Intermedi-
ate Date.
0 / //
//
0 1 It
//
Jan. o
251 31 21.2
3a 3SX"
+38.2
-0 42 44.1
-58.28
0.174 1282
0.381 3358
0.380 673a
3
252 36 38.2
33 41.94
39.6
0 44 40.4
58.01
0.1733745
0.380 0046
0.379 3300
4
253 42 90
3» 48.78
41.0
0 46 36.2
57.72
0.172 6216
0.378 6495
0.377 963a
6
254 47 53-4
32 55.65
42.3
048 31.3
5740
0.17 1 8698
0.377 2710
0.376 5730
8
255 53 51-6
Zi a-Sa
43.5
0 50 25.8
57.04
O.171 1 194
0.375 8694
0.375 1602
lO
2.57 0 3.5
^l 9.40
+44.7
-0 52 195
-56.65
0.1703706
0.374 4456
0.373 7256
12
258 6 29.2
11 16. a9
45.8
054 12.4
56.24
0.1696237
0.373 0003
0.372 2698
H
259 13 8.7
M 23.19
46.9
056 4.5
55.8a
0.168 8791
0.371 5342
0.370 7937
i6
260 20 2.0
33 30.08
47-9
0 57 55.7
55 38
O.I 68 1370
0.370 0483
0.369 2982
i8
261 27 9.0
33 3696
48.8
0 59 46.0
54.90
0.1673977
0.368 5435
0.367 7843
20
262 34 29.8
33 4385
+49-7
-I I 35.3
-54.38
0.166 6617
0.367 0208
0.366 2530
22
263 42 4.4
33 50.73
50.4
I 3 23.5
53.83
0.165 9292
0.365 4808
0.364 7044
24
264 49 52.7
33 57.60; 51. 1
I 5 10.6
5327
0.165 2005
0.363 9238
0.363 1390
26
265 57 54.8
34 4.45! 51-7
I 6 56.6
52.67
0.1644759
0.362 3502
0.361 5573
28
267 6 10.5
34 11.27 52.3
I 841.3
52.04
0.1637558
0.360 7602
0.359 9590
30
268 14 39.9
.34 x8.o8
+52.7
-I 10 24.7
-51.38
0.1630406
0.359 1537
0.358 3442
Feb. I
269 23 22.9
34 24.87
53- 1
I 12 6.8
50.70
0.1623304
0.357 5305
0.356 712S
3
270 32 19.4
34 31.63
53.4
I 13 47-5
49.98
0.161 6257
0.35589"
0.355 0655
5
271 41 29.4
34 38-35
53.6
I 15 26.7
49.23
0.1609268
0.354 2359
0.353 4024
7
272 50 52.8
34 45.03
53.7
I 17 4.4
48.45
0.160 2340
0.352 5652
0.351 7244
9
274 0 29.5
34 51.67
+53.8
-I 18 40.5
-47.64
0.1595477
0.350 8802
0.350 0325
II
275 10 195
34 58.a7
53.7
I 20 14.9
46.80
0.1588682
0.349 1 815
0.348 3273
13
276 20 22.6
35 4.83
53.6
I 21 47.7
45.94
0.158 1958
0.347 4699
0.346 6095
15
277 30 387
35 11.33
53.3
I 23 18.7
45.05
0.1575309
0.345 7462
0.3448802
17
278 41 7.8
35 17.76
530
I 24 47.9
44.13
0.1568739
0.344 01 16
1
0.343 1404
19
279 51 49-8
35 24.14
+52.6
-I 26 15.2
-43.18
0.1562250
0.342 2667
0.341 3906
21
281 2 44.4
35 30.46
52.1
I 27 40.6
4a. ao
0.1555846
0.3405122
0.339 6315
23
282 13 51.6
35 36.71
51.5
I 29 4.0
41.18
0.154 9531
0.338 7484
0.337 8630
25
283 25 II. 2
35 42.88
50.8
I 30 25.3
40.13
0.1543308
0.336 9752
0.336 0850
27
284 36 43.1
35 48.98
50.1
I 31 44-5
39.07
0.153 7180
0.335 1924
0.334 2974
Mar. I
285 48 27.1
35 5500 ! +49.2
-I 33 1.6
-37.98
0.153 1 150
0.333 4000
0.332 5002
3
287 0 23.0
36 0.93 48.2
I 34 16.4
36.84
0.1525223
0.331 5981
0.330 6937
.S
288 12 30.7
36 6.78
47-2
I 35 28.9
35.68
0.15 1 9401
0.329 7869
0.328 8778
7
289 24 50.1
36 ia.S2
46.1
I 3639 I
34.50
0.15 1 3687
0.327 9666 i
0.327 0533
9
290 37 20.8
36 18.17
44-9
I 37 46.9
3329
0.1508086
0.326 1380
0.325 2207
II
291 50 2.7
36 23.73
+43-6
-I 38 52.3
-32.05
0.1502599
0.324 3014
0.323 3803
13
293 2 55.6
36 39.17
42.2
I 39 55.1
30.78
0.1497231
0.3224575 .
0.321 5331
15
294 15 59.3
36 34.50
40.7
I 40 55.4
29.50
0.149 1984
0.320 6073
0.319 6801
17
295 29 13.5
36 39.72
39.2
I 41 531
aS.ao
0.1486862
0.318 7516
0.317 8219
19
296 42 38.1
36 44.81 ! 37.6
I 42 48.2
a6.86
0.148 1868
0.3168910
0.315 959*
21
297 56 12.7 I36 49.79 +35-9
- 1 43 40.5
-25. 49
0.1477005
0.3150263
0.3140924
23
299 9 57-2
36 54.64 34-2
I 44 30. 1
34. II
0.147 2275
0.313 1574
0.312 2213
25
300 23 51.2
36 59.36 32.4
I 45 1 70
32.72
0.146 7682
0.31 1 2840
0.3103455
27
301 37 54-5
37 3.95 3^-5
I 46 I.O
ai.a9
0.1463229
0.309 4059
0.308 4650
29
302 52 6.9
37 8.39- 28.5
I 46 42.1
19.83
0.145 8918
0.307 5227
0.306 5791
31
304 6 28.0
37 ia.69; +26.5
-I 47 20.3
-18.37
0.1454751
0.305 634a
0.3046879
Apr. 2
305 20 57.6
37 16.84
+24.5 1
-I 47 55.6
—16.90
0.1450733
0.303 7402
0.302 7910
[Bph 13]
HELIOCENTRIC C0-0KDINATE8, 1913. 191
MARS.
GREENWICH MEAN NOON.
192 HELIOCENTRIC CO-ORDINATES, 1913.
MARS.
GREENWICH MEAN NOON.
HELIOCENTRIC CO-ORDINATES, 1913. 193
MARS.
GREENWICH MEAN NOON.
194 HELIOCENTRIC CO-ORDINATES, 1913.
JUPITER.
GREENWICH MEAN NOON.
T\^
tc
HeUocentric
Longitude.
Mean Equinox
of Date
Daily
Motion
Reduc-
tion to
Orbit
HeUocentric
Latitude
Daily
Motion
Logarithm of
Radius Vec-
tor
Logarithm of Distance from
Earth—
ua
At Date
At Intermedi-
ate Date.
0 t ft
/ /*
tf
0
t n
//
Jan.
2
267 46 55.8
4 52.75
-10.8
+0
16 0.8
-6.55
0.7207186
0.793 5280
0.792 9977
6
268 6 27.1
•4 52.90
10.5
0
15 34.6
6.56
0.7206027
0.792 4072
0.791 7562
lO
268 25 59.1
4 53.0s
10.2
0
15 8.3
6.57
0.720 4865
0.791 0449
0.790 2737
H
268 45 31.7
4 53.21
9.9
0
14 42.0
6.58
0.720 3701
0.7894431
0.788 5534
i8
269 5 4.9
453.37
9.6
0
14 15.7
6.59
0.720 2535
0.787 6049
0.786 5979
22
269 24 38.7
4 53-53
- 9.3
+0
13 49-3
—6.60
0.720 1366
0.785 5328
0.7844098
26
269 44 13.1
4 53.68
9.1
0
13 22.9
6.6x
0.7200196
0.783 2293
0.781 9915
30
270 3 48.2
4 53.84
8.8
0
12 56.4
6.6a
0.7199024
0.780 6965
0.779 3444
Feb.
3
270 23 23.9
4 54.00
8.5
0
12 29.9
6.63
0.7197850
0.777 9356
0.776 4703
7
270 43 0.2
4 54.16
8.2
0
12 3.4
6.64
0.7196675
0.774 9492
0.773 3729
II
271 2 37.2
454.32
- 7.9
+0
II 36.8
-6.65
0.7195498
0.771 7423
0.7700582
15
271 22 14.8
4 54.48
7.6
0
II 10.2
6.66
0.719 4319
0.7683213
0.766 5322
19
271 41 53.1
4 5464
7.3
0
10 43.6
6.67
0.719 3139
0.7646918
0.762 8010
23
272 I 32.0
4 54.80
7.0
0
10 16.9
6.67
0.719 1957
0.760 8604
0.7588705
27
272 21 11.5
4 54.96
6.7
0
9 50.1
6.68
0.7190773
0.756 8320
0.754 7454
Mar.
3
272 40 51.7
4 55 13
— 6.4
+0
9 23.4
-6.69
0.7189587
0.752 6119
0.7504326
7
273 0 32.6
4 55.29
6.1
0
856.6
6.70
0.718 8401
0.748 2085
0.745 9407
II
273 20 14.1
4 55 45
5.8
0
8 29.8
6.7X
0.718 7213
0.743 6307
0.741 2800
15
273 39 56.2
4 55-61
5.5
0
8 2.9
6.71
0.7186023
0.738 8902
0.736 4628
19
273 59 38.9
4 55-77
5.2
0
7 36.0
6.7a
0.718 4832
0.733 9993
0.731 5013
23
274 19 22.3
4 55-93
- 4.9
+0
7 91
-6.73
0.7183639
0.728 9703
0.726 4078
27
274 39 6.4
4 56.10
4.6
0
6 42.2
6.74
0.7182445
0.723 8151
0.721 1936
31
274 58 511
4 56.26
4.3
0
6 15.2
6.75
0.718 1250
0.7185457
0.715 8731
Apr.
4
275 18 36.5
4 56.42
4.0
0
5 48.2
6.75
0.7180053
0.713 1782
0.7104635
8
275 38 22.5
456.58
3.7
0
5 21.2
6.76
0.7178855
0.707 7315
0.704 9847
12
275 58 9.2
4 56.75
-3.4
+0
4 54.2
-6.77
0.717 7656
0.702 2259
0.6994577
16
276 17 56.5
4 56.91
3.1
0
4 27.1
6.77
0.717 6456
0.696 6830
0.693 9049
20
276 37 44-5
4 S7.o8
2.8
0
4 0.0
6.78
0.7175255
0.691 1256
0.688 3479
24
276 57 33.2
4 57.25
2.5
0
3 32.9
6.78
0.7174053
0.685 5748
0.682 8092
28
277 17 22.5
4 57. 42
2.1
0
3 5.7
6.79
0.717 2850
0.680 0547
0.677 3149
May
2
277 37 12.5
457.58
- 1.8
+0
2 38.6
-6.79
0.717 1645
0.674 5932
0.671 8927
6
277 57 31
4 57.74
1.5
0
2 11.4
6.80
0.7170439
0.669 2181
0.666 5736
10
278 16 54.4
4 57.91
1.2
0
I 44.2
6.80
0.7169232
0.663 9633
0.661 3915
14
278 36 46.4
4 58.07
0.9
0
I 17.0
6.81
0.716 8025
0.658 8619
0.6563781
18
278 56 39.0
4 58.24
0.6
0
0 49.7
6.81
0.716 6817
0.653 9441
0.651 5639
22
279 16 32.3
458.41
- 0.3
+0
0 22.4
~6.8a
0.716 5608
0.649 2415
0.646 9807
26
279 36 26.3
4 58.57
0.0
-0
0 4.8
6.8a
0.7164399
0.644 7859 ^
0.642 6613
30
279 56 20.9
4 58.74
+ 0.3
0
0 32.1
6.8a
0.716 3189
0.640 61 12
0.638 6399
June
3
280 16 16.2
4 58.90
0.7
0
0 59.4
6.83
0.716 1978
0.6367516
0.634 9503
7
280 36 12.2
4 59.07
I.O
0
I 26.7
6.83
0.7160766
0.633 2401
0.631 6250
II
280 56 8.8
4 59.24
+ 1.3
-0
I 54- 1
-6.83
0.715 9553
0.630 1087
0.628 6938
15
281 16 6.1
4 59.40
1.6
0
2 21.4
6.83
0.715 8340
0.627 3832
0.626 1801
19
281 36 4.0
4 59.57
1.9
0
2 48.7
6.83
0.715 7127
0.625 0866
0.624 1053
23
281 56 2.6
459.73
2.2
0
3 16.1
6.84
0.715 5913
0.623 2382
0.622 4880
27
282 16 1.9
4 59.90
2.5
0
3 43-5
6.84
0.7154699
0.621 8565
0.621 3454
July
I
282 36 1.9
5 0.07
+ 2.8
-0
4 10.8
-6.84
0.7153484
0.620 9561
0.620 6897
5
282 56 2.6
5 o.aa
+ 3.2
-0
438.2
-6.84
0.715 2269
0.6205471
0.620 5284
[Bph X3)
HELIOCENTRIC CO-ORDINATES, 1913. 195
JUPITER.
GREENWICH MEAN NOON.
196 HELIOCENTRIC CO-ORDINATES, 1913.
SATURN.
GREENWICH MEAN NOON.
Hetiocentric
Lon^tude.
Mean Equinox
of Date.
Loffarithm of Distance from
Date.
Daily
Motion.
Reduc-
tion to
OrWt.
Heliocentric
Latitude.
Daily
Motion.
Logarithm of
Radius Vec-
tor.
Earth—
At Date.
At Intermedi-
ate Date.
0 f 0f
/ //
t tt
e / tt
//
Jan. 2
62 5 42.4
a xa.96
-I 35.6
-I 55 57.0
+3.65
0.957 7852
0.921 0688
0.922 2874
6
62 14 34.4
a xa.98
135.7
I 55 42.4
3.66
0.957 7565
0.923 5475
0.924 8466
lO
62 23 26.3
a xa.99
135.8
I 55 27.7
3.67
0.957 7279
0.926 1823
0.927 5523
14
62 32 18.3
a 13 .ox
1358
I 55 13.0
3.68
0.957 6993
0.928 9540
0.9303851
i8
62 41 10.4
a X3.03
135.9
I 54 58.2
3-69
0.957 6708
0.931 8431
0.933 3258
22
62 50 2.6
a X3.04
-I 36.0
-I 54 43.4
+3.71
0.957 6425
0.934 8310
0.936 3565
26
62 58 54.8
a X3.06
I 36.1
1 54 28.6
3.7a
0.957 6144
0.937 9001
0.939 4598
30
63 7 47- 1
a 13. 08
I 36.2
I 54 13.7
3.73
0.957 5864
0.941 0334
0.942 6x88
Feb. 3
63 16 39.4
a X3.09
136.3
I 53 58.8
3.74
0.957 5585
0.9442136
0.945 8158
7
63 25 31.8
a X3.XX
136.4
1 53 43.8
3.76
0.957 5307
0.947 4232
0.949 0336
II
63 34 24.3
a X3.13
-1 36.4
-I 53 28.7
+3.77
0.957 5031
0.950 6447
0.952 2545
15
63 43 16.8
a X3.X4
136.5
I 53 13.6
3.78
0.957 4756
0.953 8611
0.955 4627
19
63 52 9.4
a X3.x6
136.6
I 52 58.5
3.79
0.957 4483
0.957 0576
0.958 6440
23
64 I 2.1
a 13. x8
136.7
I 52 43.3
3.80
0.957 42 1 1
0.960 2204
0.961 7853
27
64 9 54.8
a X3.X9
136.7
I 52 28.1
3.81
0.957 3940
0.963 3372
0.964 8746
Mar. 3
64 18 47.6
a X3.ax
-I 36.8
-I 52 12.8
+3.8a
0.957 3670
0.966 3959
0.967 8997
7
64 27 40.5
a X3.a3
136.8
I 51 57.5
3.84
0.957 3402
0.969 3844
0.970 8486
II
64 36 33.5
2 13*4
136.9
I 51 42.1
3.8s
0.957 3135
0.972 2909
0.973 7100
15
64 45 26.5
a X3.a6
137.0
I 51 26.7
3.86
0.957 2869
0.975 XO47
0.976 4738
19
64 54 19.5
a 13. a7
137.0
I 51 11.2
3.87
0.957 2605
0.977 8164
0.979 1315
23
65 3 12.6
a 13. a9
-I 37.1
-I 50 55.7
+3.88
0.957 2342
0.9804185
0.981 6765
27
65 12 5.8
a X3.3X
137.2
I 50 40.1
3.89
0.957 2081
0.982 9046
0.984 1020
31
65 20 59.1
a X3.3a
137.2
I 50 24.5
3.91
0.957 1821
0.985 2678
0.9864012
Apr. 4
65 29 52.4
a 1334
137.3
I 50 8.9
3.9a
0.957 1563
0.987 5013
0.988 5674
8
65 38 45.8
a 13.3s
137.3
1 49 53.2
3.93
0.957 1306
0.989 5988
0.990 5946
12
65 47 39.2
a X3.36
-I 37.3
-I 49 37.4
+3-94
0.957 1050
0.991 5543
0.992 4774
16
65 56 32.7
a 13. 38
137.4
I 49 21.6
3. 95
0.957 0796
0.993 3636
0.9942125
20
66 5 26.3
2 13.40
137.4
I 49 5-8
3.96
0.957 0543
0.995 0237
0.995 7970
24
66 14 19.9
a 13.41
137.4
I 48 49.9
3.97
0.9570291
0.9965321
0.997 2286
28
66 23 13.6
a 13.43
137.4
I 48 34.0
3.98
0.957 0041
0.997 8860
0.998 5040
May 2
66 32 7.3
a X3.44
-I 37.5
-I 48 18.1
+4.00
0.956 9792
0.999 0823
a999 6204
6
66 41 I.I
a X3.46
1375
I 48 2.1
4.01
0.956 9545
i.ooo 1 180
1.0005749
10
66 49 55.0
a X3.47
137.5
I 47 46.0
4.0a
0.956 9299
1.0009909
i.ooi 3659
14
66 58 48.9
a X3.49
137.5
I 47 29.9
4.03
0.956 9055
1. 00 1 6998
i.ooi 9926
18
67 7 42.9
a X3.S0
137.5
I 47 13.7
4.04
0.9568812
1.002 2443
1.002 4549
22
67 16 36.9
a X3.sa
-I 37.5
-I 46 57.5
+4.0S
0.956 8570
1.002 6244
1.002 7529
26
67 25 31.0
a 13.53
137.5
1 46 41.3
4.07
0.956 8330
1.002 8402
1.002 8863
30
67 34 25.2
a 13.54
137.5
I 46 25.0
4.08
0.956 8091
1.002 8910
1.002 8542
June 3
67 43 19.4
a X3.56
137.5
I 46 8.7
4.09
0.956 7853
1.002 7758
1.002 6560
7
67 52 13.7
a 13.57
137.6
I 45 52.3
410
0.9567617
1 .002 4948
1.002 2923
II
68 I 8.0
a 13.59
-I 37.6
-I 45 35.9
+4-11
0.956 7382
1.002 0488
I.OOI 7646
15
68 10 2.4
a 13.60
137.6
I 45 19.4
4.1a
0.9567149
1. 001 4400
I.OOI 0751
19
68 18 56.8
a 13.6a
137.5
I 45 2.9
4.13
0.9566917
1.0006702
I.OOO 2255
23
68 27 51.3
a 13.63
137.5
I 44 46.4
4-14
0.956 6687
0.9997412
0.9992173
27
68 36 45.8
a 1364
137.5
I 44 29.8
4.15
0.956 6458
0.998 6541
0.9980517
July I
68 45 40.4
a 13.66
-I 37.5
-I 44 13.1
+4.16
0.9566231
0.997 4104
0.996 73<H
5
68 54 35.1
a X3.67
-I 37.5
-I 43 56.4
+4.18
0.956 6005
0.9960122 \
0.995 2561
lEph 13I
HELIOCENTRIC CO-ORDINATES, 1913. 197
SATURN.
GREENWICH MEAN NOON.
198 HELIOCENTRIC CO-ORDINATES, 1913.
URANUS.
GREENWICH MEAN NOON.
Date
Heliocentric
Longitude,
Mean Equinox
of Date.
DaUy
Moti<m.
Reduc-
tion to
Orbit.
Heliocentric
Latitude.
Daily ^4
Motion. *^
>8aritlim of
adius Vec-
tor.
Logarithm of Distance from
Barth —
A^flkl^ •
At Date.
At Intermedi-
ate Date.
0 / /#
ff
0f
0 f ff
ff
Jan. 6
303 18 49.3
39.83
+9.3
-0 35 21.2
-0.35 I
.2966561
1.316 7749
I.317 1628
14
303 24 7.9
39.83
9-3
0 35 24.0
0.35 I
.296 6800
I.3174571
I.3176569
22
303 29 26.5
39.8a
9.3
0 35 26.7
0.3s I
.296 7038
1.3177621
I.3177728
30
303 34 45.1
39.8a
9.2
0 35 29.5
0.34 I
.296 7276
I.3176890
1.3175107
Feb. 7
303 40 3.7
39.8a
9.2
0 35 32.3
0.34 I
■2967513
1.3 1 7 2384
1. 3 16 8733
15
303 45 22.2
39.81
+9.2
-0 35 35.0
-0.34 I
.296 7750
I.3164173
1.315 8728
23
303 50 40.7
39.81
9.2
0 35 37.8
0.34 I
.296 7986
1.315 2420
1.3145274
Mar. 3
303 55 59.2
39.8i
9.2
0 35 40.5
0.34 I
.296 8222
1-3137314
1.3128569
II
304 I 17.6
39.80
9.2
0 35 43.3
0.34 I
.296 8458
1.3119075
1.3108874
19
304 6 36.0
39.80
9.2
0 35 46.0
0.34 I.
296 8694
1.309 8010
1.3086529
27
304 II 54.4
39.80
+9.2
-0 35 48.7
-0.34 I.
.296 8930
1.3074476
1.306 1895
Apr. 4
304 17 12.7
39.79
9.2
0 35 51.5
0.34 I.
2969165
1.3048837
1.3035356
12
304 22 31.0
39.79
9.2
0 35 54.2
0.34 I.
296 9399
1.302 1515
1-3007376
20
304 27 49.3
39.78
9.2
0 35 56.9
0.34 I.
296 9633
1.2993000
1.297 8447
28
304 33 7.6
39.78
9.2
0 35 59.6
0.34 I.
296 9866
1.2963778
1.2949057
May 6
304 38 25.8
39.78
+9.2
-0 36 2.3
-0.34 1.
2970099
1.293 4353
1.291 9738
14
304 43 44.0
39.77
9.2
0 36 5.0
0.34 I.
297 0331
1.2905285
1.289 1062
22
304 49 2.1
39.77
91
0 36 7-7
0.34 I.
297 0562
1.287 7134
1.2863566
30
304 54 20.2
39.76
9.1
0 36 10.4
0.34 I.
297 0793
1.2850424
1.2837778
June 7
304 59 3^-3
39.76
9.1
0 36 13.0
0.34 I.
297 1024
1.282 5696
1. 281 4244
15
305 4 56.4
39.75
+9.1
-0 36 15.7
-0.33 I.
297 1254
1.2803484
1.2793471
23
305 10 14.4
39.75
9.1
0 36 18.4
0.33 I.
297 1484
1.2784255
1.2775885
July I
305 15 32.4
39.74
9.1
0 36 21. 1
0.33 I.
297 1714
1.276 8411
1.276 1881
9
305 20 50.4
39.74
9.1
0 36 23.7
0.33 I.
297 1943
1.2756336
1.275 1808
17
305 26 8.3
39.74
9.1
. 0 36 26.4
0.33 I.
297 2 171
1.274 8319
1.2745887
25
305 31 26.2
39.73
+9.1
-0 36 29.0
-0.33 I
297 2399
1.2744527
1.2744253
Aug. 2
305 36 44.0
39.73
91
0 36 31.6
0.33 I<
297 2627
1.2745074
1.2746989
10
305 42 1.9
39.73
91
0 36 34.3
0.33 I
-297 2854
1.2749986
1.2754045
18
305 47 19.7
39.7a
9.1
0 36 36.9
0.33 I.
297 3080
1.275 9144
1.2765254
26
305 52 37-4
39.7a
9.1
0 36 39.6
0.33 I
297 3306
1.2772348
1.2780393
Sept. 3
305 57 55-2
39.7a
+9.1
-0 36 42.2
-0.33 1
.297 3532
1.2789344
1.279 9150
II
306 3 12.9
39.71
9.1
0 36 44.8
0.33 I
297 3757
1.2809756
1.282 1 103
19
306 8 30.6
39.71
9.1
0 36 47.4
0.33 I.
297 3982
1.283 3133
1.2845785
27
306 13 48.2
39.70
9.0
0 36 50.0
0.3a I.
297 4206
1.285 8998
1.287 2706
Oct. 5
306 19 5.8
39.70
9.0
0 36 52.6
0.3a I
297 4430
1.2886834
1.290 1304
13
306 24 23.4
39.70
+9.0
-0 36 55.2
—0.3a I
.297 4653
1. 291 6044
1.2930985
21
306 29 41.0
39.69
9.0
0 36 57.8
0.3a I
297 4876
1.2946058
1.296 1196
29
306 34 58.5
39.69
9.0
0 37 0.4
0.3a I
.297 5098
1.297 6324
1.299 1369
Nov. 6
306 40 16.0
39.68
9.0
0 37 2.9
0.3a I
.297 5320
1.3006257
1.3020920
14
306 45 33.4
39.68
9.0
0 37 5.5
0.3a I
297 5541
1.3035296
1.3049327
22
306 50 50.9
39.68
+9.0
-0 37 8.1
—0.3a I
.297 5762
1.3062952
1.307 6114
30
306 56 8.3
39.67
9.0
0 37 10.6
0.3a I
.297 5982
1.3088753
1.3100812
Dec. 8
307 I 25.6
39.67
9.0
0 37 13.2
0.32 I
.297 6202
1.311 2244
1.3123004
16
307 6 43.0
39.66
9.0
0 37 15.8
0.32 I
.297 6421
1.3133054
1.3142356
24
307 12 0.3
39.66
9.0
0 37 18.3
0.3a I
.297 6640
1.3150873
1.3158569
32
307 17 17.5
39.66
+8.9
-0 37 20.8
-0.32 I.
.297 6858
1.3165412
1.317 1377
40 1 307 22 34.8
39.6s
+8.9
-0 37 23.4
—0.3a I
.297 7075
1.3176447
1. 3180608
lEph i;
0
HELIOCENTRIC CO-ORDINATES, 1913.
199
NEPTUNE.
GREENWICH MEAN NOON.
knt*
Hehocentric
Lonsittide.
Mean Bquinox
of Date.
Loffanthxn of I
>istance from
Daily
Motion.
Reduc-
tion to
Orbit.
Heliocentric Daily
Latitude. Motion
1
1
Ix>ffarithm of
Radius Vec-
tor.
Bartl
i—
FSvC
At Date.
At Interxnedi-
ate Date.
0 f ft
//
//
0 * tf If
IXL 6
1 14 34 5.0
31*75
—26.7
-0 29 52.9 ' +0.65
1.4768307
1462 5345
1.462 4041
14
114 36590
»i.75
26.6
0 29 47.7 0.65
14768336
1.4623486
1.4623680
22
"4 39 530
"•75
26.6
0 29 42.5 0.6s
1.4768365
1.462 4617
1.462 6291
30
114 42 47.0
ax. 75
26.5
0 29 37.4 0.6s
1.4768393
1.4628695
1.463 1814
eb. 7
1 14 45 40.9
ax. 75
26.4
0 29 32.2 0.65
1.476 842 1
14635632
1.464 0124
15
1 14 48 34.9
2X.75
-26.3
-0 29 27.0 j +0.65
1.4768449
1.4645260
1.465 1006
-^3
114 51 28.9
ax. 75
26.3
0 29 21.8 ' 0.6s
1.4768477
1465 7329
1.466 4192
to 3
114 54 22.9
ax. 75
26.2
0 29 16.7
0.65
1 .476 8505
1467 1559
14679391
II
114 57 16.8
ax. 75
26.1
0 29 1 1.5
0.65
14768533
1.4687643
1.4696266
19
115 0 10.8
ax. 74
26.0
0 29 6.3
0.65
1.476 8561
I.4705212
1.4714432
27
"5 3 4-7
ax. 74
—26.0
—0 29 I.I
+0.65
1.476 8590
1.4723882
14733516
\pr. 4
115 5 58-7
ax. 74
259
0 28 56.0
0.65
1.476 8618
1.4743286
1475 3145
12
115 8 52.6
ax. 74
25.8
0 28 50.8
0.65
1.4768647
14763042
1.477 2927
20
115 II 46.6
ax. 74
25.8
0 28 45.6
0.65
1.4768675
1.478 2756
1.4792487
28
115 14 40.5
ax. 74
257
0 28 40.4
0.65
1.476 8704
1.4802080
1.481 1494
Kit 6
"5 17 34-4
ai.74
-25.6
-0 28 35.2
+0.65
1.4768732
1.4820687
1.482 9618
14
115 20 28.4
ax. 74
25.6
0 28 30.1
0.65
1.476 8761
1.4838249
1.4846546
22
115 23 22.3
ax. 74
25-5
0 28 24.9
0.65
1.4768790
1.4854479
1.486 2019
30
115 26 16.2
ax. 74
254
0 28 19.7
0.65
1.476 8819
1.486 9137
1.4875804
June 7
115 29 10.2
ax. 74
25-3
0 28 14.5
0.65
1.4768848
1.488 1994
1.4887682
15
"5 32 4.1
ax. 74
-25.3
-0 28 9.3
+0.65
1.4768877
1.489 2849
14897479
23
"5 34 580
ax. 74
25.2
0 28 4.1
0.65
1.4768906
14901557
1.4905069
Jnly I
"5 37 51-9
ax. 74
25-1
0 27 58.9
0.65
1.4768936
1.4908000
14910335
9
115 40459
ax. 74
25.0
0 27 53.7
0.65
1.4768965
1. 49 1 2067
1.491 3190
17
"5 43 39.8
ax. 74
25.0
0 27 48.6
0.65
1.4768994
1.491 3702
1.4913605
25
"5 46 33.7
ax. 74
-24.9
-0 27 43.4
+0.65
1.4769024
1. 49 1 2898
1491 1579
Aug. 2
115 49 27.6
ax. 74
24.8
0 27 38.2
0.65
1.4769053
14909649
I.4907114
10
115 52 21.5
ax. 74
24.8
0 27 33.0
0.65
1.4769083
14903985
1.4900277
18
"5 55 154
ax. 74
24.7
0 27 27.8
0.65
1.476 91 13
1.489 6001
1.489 1171
26
"5 58 9-3
ax. 74
24.6
0 27 22.6
0.65
1.476 9143
1.4885803
14879913
Sq>t.3
116 I 3.2
ax. 74
-24.5
-0 27 17.4
+0.65
1 4769173
14873522
1.4866656
II
"6 3 57.1
ax. 74
245
0 27 12.2
0.65
1.4769203
14859344
1.485 1615
19
116 6 51.0
ax. 74
24.4
0 27 7.0
0.65
14769233
1.4843497
1.4835020
27
116 9 44.9
31.74
24.3
0 27 1.8
o.6s
1.4769263
1.482 6216
I.481 7122
Oct. 5
116 12 38.7
ax. 74
243
0 26 56.6
0.65
1.4769294
14807779
14798229
13
116 15 32.6
ax. 73
-24.2
-0 26 51.4
+0.65
1.4769324
1.4788516
1.477 8682
21
116 18 26.5
21.73
24.1
0 26 46.2
0.65
14769354
1.4768768
1.475 8819
29
ft*
116 21 20.4
ax. 73
24.0
0 26 41.0
0.65
1.4769385
1.474 8885
1473 9016
•Not. 6
116 24 14.2
31. 73
24.0
0 26 35.8
0.65
1.476 9416
14729263
I.471 9677
14
116 27 8.1
ax. 73
23.9
0 26 30.6
0.6s
1.4769446
1. 47 1 0304
1.470 1 192
22
116 30 2.0
31.73
-23.8
-0 26 25.4
+0.65
14769477
1.4692388
1.4683940
30
1%,
"6 32 55.9
3X.73
237
0 26 20.2
0.65
1.4769508
1.4675898
1.466 83 11
Dec.8
"6 35 49.7
ax. 73
237
0 26 15.0
0.65
14769539
1.466 1220
1.4654664
16
116 38 43.6
ax. 73
23.6
0 26 9.8
0.65
14769570
1.4648680
1.4643299
24
116 41 37^
31. 73
235
0 26 4.5
0.65
1.476 9601
14638555
1.4634481
32
116 44 31.3
116 47 25.2
ax. 73
-23.4
-0 25 59.3
+0.65
1.4769632
1.463 1 102
1.4628437
40
31.73
-23.4
-0 25 54.1
+0.65
1.4769664
1.^62 e»^oo
X^.^e^a^-jfao
fHph 13J
200
SUN'S CO-ORDINATES, 1913.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
Date.
X
True Bquinox.
Reduc
to
Mean
Eqxof
Jan. 0.
Y
True Bquinox.
Reduc.
to
Mean
Bq'xof
Jan. 0.
z
True Bquinox.
Reduc
to
Mean
Bq'xof
Jan. 0.
Noon. Midnight.
Noon.
Noon.
Midnight,
Noon.
Noon.
Midnight.
Noon.
Jan. I
■K>.I79 2378^+0.187 8326
+ 80
-0.886 8932
-0.885 3963
-145
-0.384 7678
-0.384 1 1 88
+372
2
0.196 4133
0.204 9790
71
0.883 8303
0.882 1953
145
0.383 4398
0.382 7307
371
3
0.213 5289
0.222 0624
61
0.8804913
0.878 7185
146
0.381 9917
0.381 2228
370
4
0.230 5788
0.239 0774
52
0.876 8769
0.874 9667
146
0.380 4240
0.379 5954
368
5
0.247 5575
0.2560184
43
0.872 9881
0.870 9412
147
0.378 7372
0.377 8493
366
6
+0.264 4593 +0.272 8796
+ 34
-0.868 8262
-0.8666433
-148
-0.3769319
-0.375 9849
+364
7
0.281 2786 0.289 6557
25
0.864 3926
0.862 0744
149
0.375 0085
0.3740027
362
8
0.298 OIOI
0.3063411
16
0.859 6888
0.857 2360
150
0.372 9677
0.371 9035
360
9
0.3146480
0.322 9302
+ 7
0.854 7162
0.852 1297
152
0.370 8102
0.369 6878
357
lO
0.331 1869
0.339 4176
- I
0.849 47^
0.846 7573
154
0.368 5366
0.367 3567
354
II
+0.347 6216
40.355 7983
— 10
-0.843 9719
-0.841 1208
-156
-0.366 148 1
-0.3649109
+351
12
0.363 9469
0.372 0668
18
0.838 2042
0.835 2223
158
0.363 6453
0.362 3514
347
13
0.380 1574
0.388 2181
26
0.832 1754
0.829 0638
161
0.361 0292
0.359 6790
344
14
0.396 2482
0404 2471
34
0.825 8878
0.822 6476
164
0.358 3008
0.356 8948
340
15
0412 2143
0.420 149 1
42
0.819 3436
0.815 9760
167
0.355 461 1
0.353 9999
336
i6
+0428 0508
+0435 9189
-49
-0.812 5451
-0.8090513
-170
-0.3525112
-0.350 9953
+332
17
0443 7529
0.451 5522
56
0.805 4949
0.801 8762 1 173
0.349 4522
0.347 8821
328
i8
0459 3161
0.467 0441
63
0.798 1956
0.794 4533
177
0.3462851
0.344 6614
324
19
0474 7357
0.482 3903
70
0.790 6496
0.786 7849
181
0.343 01 11
0.341 3344
319
20
0.490 0073
0.497 5863
77
0.782 8595
0.778 8736
185
0.339 6314
0.337 9023
314
21
+0.505 1268
+0.512 6282
-84
-0.774 8277
-0.7707220 -189
-0.336 1471
-0.334 3660
+309
22
0.520 0899
0.5275115
90
0.766 5569
0.762 3326 193
0.332 5592
0.330 7268
304
23
0.534 8925
0.542 2323
96
0.758 0495
0.753 7080 197
0.328 8689
0.326 9857
299
24
0.549 5305
0.556 7864
102
0.749 3083
0.744 8506 202
0.325 0772
0.323 1436
294
25
0.563 9996
0.571 1695
108
0.740 3353
0.735 7628
207
0.321 1 85 1
0.319 2017
288
26
+0.578 2956 +0.585 3773
-113
-0.731 1333
-0.7264471
-212
-0.317 1936
-0.315 1609
+282
27
0.592 4141
0.599 4054
118
0.721 7046
0.716 9062
217
0.313 1038
0.311 0225
276
28
0.6063508 0.6132496
122
0.712 0521
0.707 1427
222
0.308 9170
0.306 7874
270
29
0.620 1013 0.626 9052
127
0.702 1783
0.697 1593 227
0.304 6340
0.302 4569
264
30
0.633 6609
0.640 3679
131
0.692 0861
0.686 9590 232
0.300 2562
0.298 0322
257
31
+0.647 0255 +0.653 6332
-135
-0.681 7785
-0.6765450 -237
-0.295 7850
-0.293 5147
+250
Feb. I
0.660 1904 0.666 6967
139
0.671 2588
0.665 9204 243
0.291 2215
0.288 9056
243
2
0.673 15 15I 0.6795544
142
0.660 5302
0.6550887 -248
0.286 5672
0.284 2065
236
3
0.685 9047 0.692 2020
145
0.649 5962
0.6440533^ 253
0.281 8236
0.279 4188
229
4
0.698 4457
0.704 6353
148
0.638 4603
0.632 8178 258
0.276 9923
0.274 5443
222
5
+0.710 7703
+0.716 8502
-150
-0.627 1 261
-0.621 3858 -264
-0.272 0749
-0.269 5844
+214
6
0.722 8746 0.728 8430
152
0.615 5973
0.609 761 2 1 269
0.267 0729
0.264 5407
206
7
0.7347549 0.7406099
154
0.603 8779
0.597 9479
274
0.261 9881
0.259 4152
198
8
0.7464074 0.752 1470
156
0.591 9717
0.585 9498 280
0.256 8223
0.254 2095
190
9
0.757 8283' 0.763 4510
1
157
0.579 8828
0.5737711, 285
0.251 5771
0.248 9253
182
10
+0.769 0146 +0.774 5186
-158
-0.567 6152
-0.561 4157
-290
-0.246 2543
-0.243 5644
+174
II
0.7799627 0.7853465
158
0.555 1731
0.548 8879
296
0.240 8558
0.238 1288
166
12
0.7906696 0.7959315
159
0.542 5607
0.536 1920
301
0.235 3835
0.232 6202
158
13
o,8oi 1319 0.8062705
159
0.529 7823
0.523 3322
306
0.229 8392
0.227 0406
149
14
0.81 1 3470 0.8163609
159
0.516 8421
0.510 3127
312
0.224 2248
0.221 3919
141
15
+0.821 3120+0.826 1999
-158
-0.503 7444
-0.497 1379
-317
-0.218 5422
-0.215 6760
+132
16
+0.831 0244
+0.835 7852
-158
[-0.490 4936
-0.483 81 2 1
-322
-0.212 7934
-0.209 8947
+123
[Eph 13I
SUN'S CO-ORDINATES, 1913.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
201
D«te.
17
18
19
X)
21
22
23
24
25
26
27
28
Mff.!
2
True Bquiiiox.
Redttc.
to
Mean
Bq'xofI
Jan. o.
Notm.
MLl6|ta83i 0244
0.840 4819
a849 6820
a858 6224
0.867 3012
3 to.944 8691
4 0.9502371
5 0.9553160
6 0.960 1044
0.964 6010
Apr.
7
8
9
10
II
12
13
H
»5
16
>7
18
»9
20
21
22
23
24
25
26
27
28
29
30
31
Aiidnioht.
♦0.875
0.883
0.891
0.899
0.906
[HX9I3
0.920
0.927
0.933
0.939
-K>-835 7852
0.845 "43
0.854 1848
0.862 9946
0.871 5418
7162 +0.879 8241
8652 0.8878393
7461 0.8955853
3566 0.9030597
6943 0.910 2602
7570+0.917 1846
5426 0.9238307
0487 0.930 1962
2730 0.9362790
2138 0.9420772
+0-947 5891
0.952 8128
0.957 7466
0.962 3893
0.966 7394
fo.968
0.972
0.976
0.979
0.982
1+0.985
0.987
0.989
0.991
0.993
8043
7132
3269
6451
6661
3897
8157
94401
7744
3072
+0.994 5426
0.995 4805
0.996 1 2 14
0.996 4661
0.9965145
10.9962669
0.995 7236
0.9948848
0.993 7508
0.992 3217
+0.9905980
0.988 5797
0.986 2675
0.983 6625
0.9807651
♦0.9775761
31+0.9740962
+0
o.
o.
o.
o.
+0
o.
o.
o.
o.
970 7956
974 5570
978 0229
981 1925
984 0650
9866399
,988 91 7 1
9908964
992 5780
9939621
+0.995 0487
0.995 8380
0.996 3308
0.996 5273
0.996 4277
+0.996 0322
0.995 341 1
0.994 3547
0.993 0731
0.991 4967
+0.989 6256
0.987 4603
0.985 0016
0.982 2503
0.979 2070
-+0-975 8724
40.972 2477
Noon.
58
57
56
54
53
51
49
47
44
41
38
34
30
26
22
17
12
07
02
97
- 91
85
79
73
66
- 59
52
45
38
30
- 22
14
- 6
+ 2
10
+ 19
28
37
46
56
+ 65
75
85
95
105
+116
+126
Y
True Bquinox.
Noon.
Midnufkt.
-04904936-0483 8121
04770939 0.4/03395
0.4635495 0.4567243
0.449 8645 0.442 9706
0.4360432 0.4290827
0.422 0896 -0.415 0644
04080075 0.4009195
0.393 8009' 0.386 6522
0.379 4740' 0.372 2666
0.365 0306 0.357 7666
0.350 4750-0.343 1565
0.335 8 II 6; 0.3284408
0.3210447 0.3136238
0.306 17881 0.298 7IOI
0.291 2184' 0.283 7043
-0.276 i683'-o.268 61 1 1
0.261 0332' 0.253 4352
0.245 8178' 0.238 181 7
0.230 5273 0.222 8553
Reduc.
to
Mean
Bq'xoll
Jan. o.
NooH.
0.215 1662
-0.199 7396
0.184 2524
0.168 7097
0.207 4608
-322
327
332
337
342
-347
352
357
362
366
-371
375
379
383
387
-391
395
399
403
407
-410
-0.192 0033
0.1764877 413
0.1609191 416
0.153 "65: 0.1453025;
0.1374778 0.1296429
-0.121 7986
0.1060838
-o. 113 9453
0.098 2147
0.090 3385' 0.082 4559
0.074 5675 1 0.066 6738
0.0587755 0.0508732
-0.042 9675
0.027 1480
on 3214
419
422
-425
428
431
434
436
-0.0350589 -438
0.019 2353
-0.003 4068
+0.0045078+0.012 4220
0.020 3352 0.028 2470
+0.036 1568
0.051 9679
0.067 7642
0.083 5415
0.099 2952
+0.115 0207
0.130 7134
0.1463688
0.161 9818
0.1775480
+0.193 0627
+0.208 5207
+0.044 0639
0.059 8682
0.075 6555
0.091 4216
0.107 1 61 8
+0.122 8714
0.138 5461
0.154 1809
0.169 771 1
0.185 3121
+0.2007990
+0.216 2271
440
442
444
446
-448
449
450
451
452
-453
453
454
454
455
-455
-455
z
True Equinox.
Reduc.
to
Mean
Bq'xof
Jan. o.
Noon.
-0.212 7934
0.2069802
0.201 1043
0.195 1676
0.189 1719
0.183 1189
0.177 0102
0.1708475
0.164 6326
0.1583671
0.1520530
0.145 6919
0.1392857
0.132 8364
0.1263460
.1198165
O.I 13 2500
o. 106 6486
0.1000143
0.093 3494
0.086 6561
0.079 9365
0.073 1927
0.066 4270
0.0596417
0.052 8389
0.046 0209
0.039 1897
0.032 3475
0.025 4964
-0.018 6385
0.011 7758
-0.004 9'Oi
+0.001 9566
0.008 8225
+0.015 6858
0.022 5446
0.029 3971
0.036 2415
0.043 0757
Midnight. \ Noon.
-0.2098947 +123
0.204 0499 1 14
0.198 1434 105
0.192 1770 96
0.186 1525 87
-0.1800714 + 77
0.1739355 68
0.167 7465 58
0.161 5060 49
0.155 2160 39
-0.1488782 + 30
0.1424943 20
0.1360663! n
0.1295962 + I
0.1230860; — 8
-0.1165377 - 18
0.1099535' 28
0.1033354 38
0.096 6855 48
0.090 0062 1 58
-0.083 2995 - 68
0.0765675, 78
0.0698124' 88
0.063 03661 98
0.056 2423 108
-00494317I -
0.042 6068
0.035 7698!
0.028 9229
0.022 0682'
18
28
38
48
57
67
77
87
96
206
-0.015 2076I —
0.0083432;
-0.001 4768
+0.005 3898
0.012 2546
+0.019 1159 -215
0.025 9718' 224
0.032 8205 233
0.039 66oOj 242
0.046 4884 251
+0.049 8978+0.053 3037' -260
0.056 7059
0.063 4980
0.060 1041 269
0.066 8874' 278
0.070 2719! 0.073 6514 287
0.077 0255! 0.080 3941 296
+0.0837568+0.0871135 -305
+0.090 4638 +0.091^ toiv -"K^^
fHph 13J
202
SUN'S CO-ORDINATES, 1913.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
^»^r
Reduc
^ V
Reduc.
^m
Redoc.
X
to
Mean
Y
to
Mean
z
to
Mean
Date.
True Bquisox.
Bq'xoi
Jan. 0.
True Equinox.
Eq'xof
Jan. 0.
True Equinox.
Eq'xof
Jan. 0.
Noon.
Midnight,
Noon.
Noon.
Midnight.
Noon.
Noon. Midnight.
Noon.
Apr. I
+0.980 7651
+0.979 2070
+105
+0.177 5480
+0.185 3121
-455
+0.077 0255 +0.080 3941
—296
2
0.977 5761
0.975 8724
116
0.1930627
0.200 7990
455
0.083 7568
0.087 1 135
305
3
0.974 09^2
0.972 2477
126
0.208 5207
0.216 2271
455
0.090 4638
0.093 8075
314
4
0.970 3270
0.9683343
137
0.223 9176
0.231 5917
455
0.097 1443
0.100474a
323
5
0.9662698
0.964 1335
148
0.239 2487
0.246 8881
455
0.103 7962
0.107 1108
331
6
+0.961 9258
+0.959 6468
+■159
+0.254 5092
+0.262 1 1 15
-455
+0.1 10 4174
+0.1 13 7159
-339
7
0.957 2967
0.954 8757
170
0.269 6943
0.277 2571
454
O.II70060
0.120 2873
347
8
0.952 3841
0.949 8220
181
0.284 7992
0.292 3202
454
0.123 5597
0.126 8229
355
9
0.947 1898
0.944 4876
193
0.299 8194
0.307 2964
453
0.1300766
0.133 3206
363
lO
0.941 7158
0.938 8746
205
0.314 7506
0.322 1812
452
0.1365547
0.139 7786
370
II
+0.9359644
+0.932 9853
+■217
+0.329 5878
+0.336 9698
-451
+0.142 9920
+0.146 1947
-377
12
0.929 9377
0.9268219
229
0.344 3267
0.351 6580
449
0.1493864
0.152 5670
384
13
0.923 6382
0.920 3869
240
0.358 9631
0.366 2415
447
0.155 7361
0.158 8937
391
14
0.917 0683
0.913 6827
252
0.373 4928
0.380 7164
445
0.162 0394
0.165 1731
398
15
0.910 2305
0.906 71 19
264
0.387 91 18
0.395 0785
444
0.168 2945
0.171 4034
405
i6
U0.903 1274
+0.899 4772
+277
+0.402 2i6o
+0.409 3239
-442
+0.1744997
+0.177 5831
-412
17
0.895 7617
0.891 9812
290
0.416 4018
0.423 4492
441
0.1806534
0.183 7104
419
i8
•
0.888 1360
0.884 2264
303
0430 4655
0.437 4504
439
0.186 7540
0.189 7839
425
19
0.880 2527
0.8762152
316
0.444 4033
0.451 3239
437
0.192 7999
0.195 8020
431
20
0.872 1 143
0.867 9502
329
0.458 21 17
0.465 0663
434
0.198 7898
0.201 7632
437
21
+0.863 7233
+0.859 4338
+342
+0.471 8872
+0.478 6739
-432
+0.2047221
+0.2076661
-443
22
0.8550821
0.850 6685
355
0.485 4261
0.492 1433
430
0.2105952
0.213 5091
449
23
0.846 1932
0.841 6565
368
0.498 8250
0.505 4708
427
0.2164077
0.219 2908
455
24
0.837 0588
0.832 4003
382
0.512 0802
0.5186528
424
0.222 1581
0.225 0094
460
25
0.827 6814
0.822 9024
395
0.525 1881
0.531 6856
421
0.227 8446
0.230 6635
465
26
+0.818 0636
+0.813 1653
+409
+0,538 1449
+0.544 5655
-418
+0.233 4658
+0.2362513
-470
27
0.808 2079
0.803 1918
422
0.550 9470
0.557 2888
414
0.239 0199
0.241 7713
475
28
0.798 1 1 73
0.792 9848
436
0.563 5905
0.5698517
410
0.244 5054
0.247 2219
480
29
0.787 7946
0.782 5471
450
0.5760718
0.582 2504
406
0.249 9207
0.252 6015
484
30
0.777 2426
0.771 8816
464
0.5883871
0.594 4814
402
0.255 2641
0.257 9083
488
May I
+0.766 4645
+0.7609917
+■478
+0.600 5328
+0.6065409
-397
+0.260 5339
+0.263 1407
-492
2
0.755 4635
0.749 8804
492
0.612 5052
0.6184254
392
0.265 7286
0.268 2973
496
3
0.744 2428
0.7385512
506
0.624 3010
0.630 13 15
387
0.270 8467
0.273 3765
499
4
0.732 8060
0.727 0076
521
0.635 9165
0.641 6555
382
0.275 8865
0.278 3766
502
5
0.721 1564
0.715 2530
535
0.647 3481
0.652 9939
377
0.280 8465
0.283 2961
505
6
+0.709 2977
+0.703 291 1
+550
+0.658 5924
1-0.664 1432
-372
+0.285 7251
+0.2881335
-508
7
0.697 2337
0.691 1259
565
0.669 6459
0.675 1001
366
0.2905210
0.292 8874
5"
8
0.684 9682
0.678 7612
580
0.680 5054
0.685 8615
360
0.295 2325
0.297 5562
513
9
0.672 5053
0.666 201 1
595
0.691 1680
0.696 4245
354
0.299 8583
0.302 1387
515
10
0.659 8491
0.653 4498
610
0.701 6306
0.706 7859
348
0.304 3972
0.306 6337
517
II
+0.647 0038
+0.640 5 1 15
+625
+0.71 1 8902
+0.716 9431
-342
+0.308 8480
+0.31 1 0400
-519
12
0.633 9734
0.627 3902
640
0.721 9442
0.726 8932
335
0.313 2094
0.315 3562
521
13
0.620 7624
0.614 0904
655
0.731 7899
0.736 6339
328
0.3174802
0.319 5813
522
14
0.607 3749
0.600 6163
670
0.741 4249
0.746 1628
321
0.321 6594
0.323 7145
523
15
0.593 815 1
0.5869718
685
0.7508471
0.755 4776
314
0.325 7463
0.327 7548
524
16
+0.580 0869
+0.573 1610
+700
[+0.760 0541 ;+o.764 5762
-306
+0.329 7398
+0.331 7012
-525
17
+0.566 1945
+0.559 1880. +715 1
+0.769 0438I+0.773 4565
-298
1+0.333 6390
+0.335 5530
-525
[Eph
13I
SUN'S CO-ORDINATES, 1913.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
203
19
70
21
22
23
24
25
26
27
28
29
30
Jmei
2
3
4
5
40.559 1880
a552 1420 0.545 0569
0.537 9332
0.523 5720
0.5090621
^4944075
0479 6120
0464 6796
0449 6141
04344198
+ 715 +0.7690438+0.7734565 -298
0.530 7714
0.5163354
0.501 7527
+0487 0271
0472 1627
0.457 1632
0.442 0328
0426 7756
+0419 I0o8:+O.4ii 3959
0403 6614
0.388 1059
0.372 4387
0.356 6643
0.395 8979
0.380 2860 894
0.364 5646
0.348 7383
+0.340 7872 40.332 81 16
0.324 81 2 1
0.308 7436
0.292 5869
0.276 3466
6|k>.26oo278
7
8
730
745
760
775
4790
805
820
835
850
4865 40.8465377+0.8497995
879
908
923
0.316 7892
0.300 6760
0.284 4769
0.268 1967
4 937 40.876 4162
9
10
II
12
13
^
15
17
18
19
20
21
22
23
24
25
26
27
28
29
30
40.251 840641006
0.243 6357
0.227 1753
0.210 6517
ai94o698
I+0.177 4347
0.160 7510
0.144 0237
0.127 2574
0.1 10 4567
i6|4oo93 6261
0.076 7701
ox)59 8929
0^)42 9989
0.026 0927
fo.009 1787
-0.0077388
0.024 6553
0.041 5660
0.058 4663
ho.075 3517
0.092 2174
0.109 0584
0.125 8701
0.142 6476
Jn^r i|-ai59 3861
2H>.i76o8o4
0.235 4»37 1019
0.218 92 II 1032
0.202 3677 1045
0.185 7586. 1058
+0.169 0986j4i07i
951
965
979
992
0.152 3925
0.135 6451
0.1 18 861 1
0.102 0448
1083
1095
1 107
1119
40,085 201041130
0.068 3339
0.0514477
0.034 5470
0.017 63^
40.000 7201
0.016 1975
0.033 "17
0.0500177
0.066 91 12
0.083 7873
0.1006413
0.1 17 4682
0.134 2634
0.15 1 0220
0.167 7391
0.1844094
1 141
1 152
1 163
"73
41 183
"93
1202
1211
1219
41227
1235
1242
1249
1255
41261
41267
Y
True Equinox.
Reduc.
to
Mean
Bq'xo^
Jan. o.
Noon.
Midnight . I Noon.
0.777 8142
0.786 3632
0.794 6888
0.802 7889
40.810 6614
0.818 3044
0.825 7157
0.832 8930
0.839 8343
0.782 1 1 65
0.7905541
0.798 7672
0.806 7537
40.814 5 1 17
0.822 0391
0.829 3337
0.836 3933
0.843 2159
0.853 001 1
0.859 2225
0.865 2001
0.870 9319
0.856 1422
0.862 2419
0.868 0968
0.873 7051
40.879 0650
0.884 1750
0.889 0333
0.893 6382
0.881 6513
0.886 6357
0.891 3675
0.895 8453' 0.897 9886
40.900 0680 40.902 0834
0.904 0346
0.907 7442
0.91 1 1956
0.914 3883
0.905 9216
0.909 5022
0.912 8243
0.915 8874
+0.917 3217 +0.918 6912
0.919 9958
0.922 4101
0.924 5643
0.926 4581
+0.928 0914
0.921 2354
0.923 5197
0.925 5438
0.927 3073
+0.928 8103
0.9294641. 0.9300527
0.9305761! 0.9310343
0.931 4272
0.932 0169
+0.932 3449
0.932 41 15
0.932 2 161
0.931 7587
0.931 7547
0.932 2136
+0.932 4109
0.932 3466
0.932 0201
0.931 4318
0.9310394! 0.9305815
I
+0.930 0580 +0.929 4690
0.9288145 0.9280946
0.927 3092 1 0.9264584
0.925 5423' 0.924 5608
290
282
273
264
-255 +0.351 6917
245
235
225
215
-204 +0.367 2571
193
182
170
158
—146
133
120
107
94
- 80
66
52
38
23
- 8
+ 7
23
39
55
+- 72
89
106
123
140
0.923 5139
+0.921 2243
+0.918 6740I+0.917 3013
[Eph 13)
0.922 4017
+0.919 9817
176
194
213
232
+251
270
289
309
329
+349
+370
z
True Equinox.
Noon.
Midnight.
+0.333 6390
0.337 4432
0.341 15 15
0.344 7629
0.348 2766
0.355 0074
0.358 2227
0.361 3367
0.364 3485
0.3700616
0.372 7613
0.375 3552
0.377 8424
+0.380 2222
0.382 4939
0.384 6566
0.386 7096
0.388 6523
+0.390 4843
0.392 2049
0.393 8137
0.395 3105
0.396 6950
0.399 1264
0400 I73I
0401 1069
0.401 9279
+0.402 6361
0.403 2313
0.403 7135
0.404 0826
0.404 3385
4158 40.4044811
0.4045103
0.404 4259
0404 2281
0.403 9167
+0403 4916
0.402 9528
0402 3004
0.401 5344
0400 6548
40.399 6617
+0.398 5554
+0.397 9670 +0.398 5608
+0.335 5530 -525
0.339 3094 525
0.342 9694 525
0.346 5320 525
0.349 9965 524
+0.353 3620 -523
0.356 6276 522
0.3597924 521
0.362 8554 520
0.3658157 518
+0.3686724 —516
0.371 4246 514
0.3740715 512
0.3766122 510
0.379 0458 507
+0.381 3716 504
0.383 5889 500
0.385 6968 496
0.387 6948 492
0.389 5822 488
+0.391 3586 -484
0.393 0233 479
0.394 5761 474
469
464
-459
453
447
441
435
-429
422
415
408
400
-392
384
376
368
359
Reduc.
to
Mean
Eq'xof
Jan. o
Noon.
0.396 0168
0.397 3451
0.399 6638
0.400 6541
0.401 5315
0.402 2961
+0.402 9478
0.403 4865
0.403 9122
0.404 2247
0.404 4240
+0.4045099
0.404 4823
0.404 3412
0.404 0866
0.403 7184
+0.403 2364
0.402 6408
0.401 9316
0.401 1088
-350
341
332
323
0.400 1724'; 314
+0.399 1227 -305
+0.397 9599 -295
204
SUN'S CO-ORDINATES, 1913.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
Date.
X
True Equinox.
Reduc
to
Mean
Eq'xof
Jan. 0.
Y
True Equinox.
Reduc.
to
Mean
Eq'xof
Jan. 0.
z
True Equinox.
Reduc
to
Mean
Eq'xof
Jan. 0.
Noon.
-0.159 3861
Midnight.
Noon.
Xoon.
Midnight. ' Noon,
Noon.
Midnight.
+0.399 "27
Noon,
July I
-0.167 7391 l+l 261
+0.921 2243
+0.919 9817 +349
+0.399 6617
-305
2
0.1760804' 0.184 4094I 1267
0.918 6740
0.917 3013 370
0.398 5554
0.397 9599
295
3
0.192 7255
0.201 0280
1272
0.915 8636
0.914 361 1| 391
0.3973362 0.3966844
285
4
0.209 3163
0.217 5898
1277
0.912 7939
0.91 1 1620 412
0.396 0044 0.395 2963
1
275
5
0.225 8477
0.234 0895
1281
0.909 4656
0.907 7048 433
0.394 5602, 0.393 7961
265
6
-0.242 3145 -0.250 5221J+1285
1+0.905 8798
+0.903 9907 + 454
+0.393 0041
+0.392 1843
-254
7
0.258 71 1 7' 0.2668828 1289
0.902 0378
0.9000212, 475
0.391 3368
0.3904616
243
8
0.275 0347 0.283 1668, 1292
0.897 94^2
0.895 7978
496
0.389 5589
0.388 6287
232
9
0.291 2785 0.299 3692
1295
0.893 5913
0.891 3218
517
0.3876710! 0.3866861
221
lO
0.3074384 03154856
1297
0.888 9896
0.886 5949
539
0.3856740 0.3846348
210
II
-0.323 5 loi
-^•331 5 "4 +1299
+0.884 1378
+0.881 6186
+ 561
+0.383 5686
+0.382 4754
-199
12
0.339 4891
0.3474425 1299
0.879 0376
0.876 3950
583
0.381 3554
0.380 2087
188
13
0.355 3712
0.363 2746 1300
0.873 6909
0.870 9256
605
0.379 0354
0.377 8355
176
H
0.371 1 52 1
0.379 0033
1300
0.868 0992
0.865 2120
627
0.376 6092
0.375 3565
164
15
0.386 8277
0.3946247 1300
0.862 2642
0.859 2560
649
0.374 0776
0.372 7725
152
i6
-0402 3939
-0.410 1 348 +1299
+0.856 1875
+0.853 0591
+ 671
+0.371 4413
+0.3700841
-140
17
0.417 8468
04255295 1297
0.849 8709
0.846 6232
693
0.368 701 1
0.367 2923
128
18
0.433 1824
0.4408049 1295
0.843 3161
0.839 9498
715
0.365 8578
0.364 3976
116
19
0.448 3966
0.4559569 1292
0.836 5246
0.8330406
737
0.362 91 19
0.361 4007
103
20
0.463 4853
04709813 1289
0.829 4982
0.825 8974
760
0.359 8641
0.358 3022
90
21
-04784444
-0485 8741 +1285
+0.822 2385
+0.818 5218
+ 782
+0.356 7152
+0.355 1031
- 77
22
0493 2698
0.500 631 1! I28I
0.814 7474
0.810 9156
804
0.353 4660
0.351 8040
64
23
0.507 9574
0.515 2482- 1276
0.807 0267
0.8030808
826
0.350 1 1 72
0.348 4056
51
24
0.522 5030
0.5297213
1270
0.799 0783
0.795 0193
848
0.346 6695
0.3449089
38
25
0.536 9025
0.5440462
1264
0.790 9040
0.786 7328
870
0.343 1239
0.341 3146
25
26
-0.551 15 1 7
O.55821871+I258
+0.782 5058
+0.778 2234
+ 892
+0.339 4810
+0.337 6234
- 12
27
0.565 2465
0.57223461 I25I
0.773 8857
0.7694931
914
0.335 7418
0.333 8364
+ I
28
0.579 1826
0.5860898 1244
0.765 0459
0.760 5443
936
0.331 9072
0.329 9544
14
29
0.592 9558
0.599 7800
1236
0.755 9886
0.751 3791
958
0.327 9781
0.325 9784
28
30
0.606 5619
0.613 3009
1228
0.746 7 1 61
0.741 9999
980
0.323 9554
0.321 9092
41
31
-0.619 9964
-0.626 6480 +12 19
+0.737 2308
+0.732 4091
+1001
+0.319 840i'+o.3i7 7482
+■55
Aug. I
0.633 2552
0.639 8174', 1209
0.727 5353
0.722 6096
1023
0.315 6337
0.313 4966I
68
2
0.646 3340
0.652 8045
II99
0.7176325
0.712 6042
1045
0.3" 3371
0.309 1553 82
3
0.659 2284
0.665 6052
I188
0.707 5250
0.702 3956
1066
0.306 9515
0.304 7259 95
4
0.671 9345
0.678 2158
II76
0.697 2162
0.691 9873
1087
0.302 4786
0.300 2098
109
5
-0.684 4485
-0.690 6323
+I164
+0.686 7092 +0.681 3824
+1108
+0.297 9196
+0.295 6083
+122
6
0.696 7666
0.702 8510
"51
0.6760072' 0.6705841
1128
0.293 2761
0.2909231
136
7
0.7088851
0.7148685
1 138
0.665 II 36 0.6595960
1 148
0.288 5494I 0.286 1553
150
8
0.720 8007
0.726 6814
1 124
0.6540318
0.6484214
1 168
0.283 7410 0.281 3068
164
9
0.732 5102
0.738 2867
IIIO
0.642 7652
0.637 0637
1 188
0.278 8527
0.276 3790
178
10
-0.744 0105
-0.749 6813
+1095
+0.631 3172
+0.625 5262
+1207
+0.273 8858
+0.271 3734
+192
II
0.755 2986
0.7608621
1079
0.619 6910
0.613 8121 1226 1
0.268 8419
0.266 2914
206
12
0.7663715
0.771 8263
1063
0.607 8899
0.601 92481
1245
0.263 7221
0.261 1342
220
13
0.777 2262
0.782 5708
1046
0.5959172 0.5898676
1263
0.258 5280
0.255 9036
234
14
0.787 8599
0.793 0930
1029
0.583 7763
0.5776437 1282
0.253 2611
0.250 6008
248
15
-0.798 2698
-0.803 3900
■I-10I2
♦0.571 4703
+0.565 2564+1301
+0.247 9227
+0.245 2271
+262
16
-0.808 4532
-0.813 4590
^994
H).559 0025
+0.552 7089
+1319I
+0.342 5142
40.239 7841
+276
[Bpb 13I
SUN'S CO-ORDINATES, 1913.
205
FOR GREENWICH MEAN NOON AND MIDNIGHT.
Date.
X
True Equinox.
Reduc
to
Mean
Bq'xol
Jan. 0.
Y
True Equinox.
Reduc
to
Mean
Bq'xol
Jan. 0.
z
True Equinox.
Reduc
to
Mean
Eq'x of
Jan. 0.
Noon. Midnight.
Noon.
Noon. 1 Midnioht. Noon.
Noon.
Midniohl.
Noon.
&llg.l6
-0.808 4532L0.813 4590 +994
+0.5590025+0.552 7089 +1319
H>.242 5142
+0.239 7841
+276
17
0.818 4070
0.823 2970
976
0.5463760 0.5400044 1337
0.237 0370
0.234 2731
290
18
0.828 1285
0.832 9013
957
0.533 5944 0.527 1463 1354
0.231 4925
0.228 6954
304
19
0.837 6150
0.842 2693
938
0.5206607' 0.514 138O1 1371
0.225 8820
0.223 0525
318
20
a846 8637
0.851 3980
918
0.5075785 0.5009826 1388
1
0.220 2071
0.2173460
331
21
-0-855 87*7
-0.8602846
+898
+0494 3509 +0.487 6837+1404
+0.2144693
+0.211 5771
+345
22
0.864 6363
0.868 9264
877
04809815! 0.4742447' 1420
0.208 6697
0.205 7473 359
23
0.873 1547
0.877 3207
856
0467 4738 0.460 6692 1436
0.202 8101
0.1998582 373
24
0.881 4241 0.885 4646
834
04538314I 0.4469608 1450
0.1968919 0.1939113
387
25
0.889 4419
0.893 3556
812
0.4400578 0433 1230
1465
0.1909166 0.1879080
401
26
-0.897 2053
-0.9009907
+789
+0426 1567 +0.419 1595
-t-1480
+0.184 8858 +O.181 8501
+414
27
0.904 7 115 0.9083673
766
0412 1318' 04050742' 1495
0.178 801 2I 0.175 7392
427
28
0.9" 9577
0.915 4825
742
0.397 987 1 1 0.3908710^ 1509
0.1726644' 0.1695770
440
29
0.918 9413
0.922 3338
718
0.3837265 0.3765541, 1522
0.166 4772
0.163 3653
453
30
0.925 6597
0.928 9187
693
0.3693543 0.362 1277' 1534
0.160 2415
0.157 1060
466
3»
-0.932 1105 -0.935 2347
-h668
+0.354 8748+0.347 5961 +1546
+0.1539591
+0.1508010
+479
Sqjti
0.938 2912 0.941 2796
643
0.3402923 0.3329637 1558
0.147 6319
0.1444522
492
2
0.944 I998| 0.947 0514
617
0.325 61 II 0.3182350' 1570
0.141 2620
0.138 0617
505
3
0.9498343 0.9525482
591
0.3108360 0.3034149' 1581
0.134 8515
0.131 6316
518
4
0.955 1929 0.957 7682
565
0.295 9722 0.288 5084 1592
0.1284023
0.125 1638
531
5
1
-0.960 2741 -0.962 7103
+538
+0.281 0240+0.273 5196 +1603
+0.121 9164
+0.1186604
+543
6
0.965 0767- 0.967 3730
511
0.2659957 0.2584528 1613
0.1153960
0.112 1234
556
7
0.969 599 "I 0.971 7550
483
0.2508915 0.2433124 1622
0.108 8429
0.1055547
568
8
0.973 8405
0.975 8555
455
0.235 7i6o| 0.228 1030J 1631
0.102 2591
0.098 9562
580
9
0.977 7998' 0.979 6733
427
0.2204738 0.2128289 1639
0.095 6464
0.092 3298
592
10
-0.9814759-0.9832074
+399
+0.205 1690 +0.197 4945 +1647
+0.089 0068 +0.085 6775
+604
II
0.984 8678I 0.9864569
370
0.1898060 0.1821040 1655
0.082 3421
0.0790008
616
12
0.987 9746 0.989 4208
341
0.1743890 0.1666616 1662
0.075 6541
0.072 3019
627
«3
0.9907954 0.9920983
312
0.1589223 0.151 1716, 1668
0.068 9446 0.065 5824
638
H
0.993 3294
0.994 4886
282
0.143 4100 0.135 6381 1674
0.062 2154 0.058 8440
649
15
-0.995 5757
-0.9965906
+252
+0.127 8565 +0.1200656 +1679
+0.055 4683 +0.052 0886
+660
16
0.997 5333
0.998 4037
222
0.1 12 2659' 0.1044580 1684
0.0487051 0.0453180
671
17
0.999 2016 0.999 9270
192
0.096 6424
0.088 8198 1689
0.041 9276 0.038 5341
682
18
1.0005798 1. 001 1599
161
0.0809905
0.073 155 1 1693
0.035 1378
0.031 7388
692
19
1.001 6672 1.002 1016
130
0.065 3142
0.0574683 1697
0.028 3374
0.024 9338
702
20
-1.002 4631
-1.002 7515
+ 99
+0.049 6 1 80 +0.04 1 7638 + 1 700
+0.021 5282.+O.O18 1209
+712
21
1.002 9667
1.003 1088
68
0.0339063 0.0260460 1703
0.014 7 121, o.oii 3021
722
22
1.003 1776
1.003 1728
37
0.018 1834
+0.010 3192 1705
0.007 8910 +0.004 4792
732
23
ixx>3 0946
1.002 9430
+ 5
+0.002 4538
-0.005 4121I 1706
+0.001 0668 -0.002 3458
741
24
1.002 7178
1.002 4189
- 27
-0.013 2779
0.021 1432 1707
-0.005 7585
0.009 1709
750
25
-1.002 0463
-1.001 5999
-59
ko.029 0072
-0.036 8694 +1708
-0.012 5829
-0.015 9942
+759
26
1. 001 0797
1.0004856
91
0.044 7293
0.052 5862| 1708
0.019 4044
0.022 8133
768
27
0.999 8175
0.999 0755
124
0.060 4396
0.068 2887 1707
0.026 2207
0.029 6263
776
28
0.998 2597
0.997 3700
156
0.076 1329
0.0839717' 1707
0.033 0298
0.036 4309
784
29 0.996 4065
0.995 3691
189
0.091 8044
0.0996303 1706
0.0398294 0.0432249
792
30 -0-994 2578
-0.993 0728
—222
-0.107 4489-0. II 5 2594I+1704
-0.046 6173 -0.050 0062
+799
t 1 1-0.991 8140I
-0.990 4816
-255
-0.123 0613I-O.I3O 85401+1701
-0.0533914-0.0567725
+806
lEpl
I 13]
206
SUN'S CO-ORDINATES, 1913.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
.^y. Reduc.
^ y
Reduc.
^v
Reduc
X
to
Mean
Y
to
Mean
z
to
Mean
Date.
True Equinox.
Eq'xof
Jan. 0.
True Equinox.
Eq'xof
Jan. 0.
True Equinox.
Eq'xof
Jan. 0.
Noon.
Afidnighi.
Noon,
Noon,
Midnight.
Noon.
Noon.
Midnight.
Noon.
Oct. I
-0.991 8140
-0.990 4816
- 255
-0.123 0613
-0.1308540
+1701
-0.053 3914
-0.056 7725
+806
2
0.989 0757
0.987 5964
288
0.138 6369
0.1464093
1698
0.060 1493
0.0635215
813
3
0.986 0438
0.984 41 81
321
0.154 1705
O.161 9200
1695
0.066 8889
0.070 25 1 1
820
4
0.982 7193
0.980 9477
354
0.1696572
0.177 3814
1691
0.073 6080
0.076 9592
827
5
0-979 1033
0.977 1863
387
0.185 0922
0.192 7889
1687
0.080 3045
0.083 6436
834
6
-0-975 1970
-0.973 1354
- 420
-0.2004710-0.208 1378
+1682
-0.086 9764
-0.090 3025
+841
7
0.971 0017
0.968 7962
454
0.215 7889! 0.2234236
1676
0.093 6218
0.096 9339
847
8
0.9665189
0.964 1 701
488
0.231 0414
0.238 6418
1670
o.ioo 2386
0.103 5357
853
9
0.961 7499
0 959 2585
522
0.246 2242
0.253 7880
1663
0.106 8250
0.1 10 1062
858
lO
0.956 6960
0.954 0627
556
0.261 33281 0.268 8579
1656
O.I 13 3791
0.1 16 6435
863
II
-<>.95i 3587
-0.948 5842
-589
-0.276 3629 -0.283 8472
+1649
-O.I 19 8992
-0.123 1458
+868
12
0.945 7394
0.942 8245
623
0.291 3102 0.298 7515
1641
0.1263832
0.129 61 1 1
873
13
0.939 8397
0.936 7852
656
0.306 1704^ 0.313 5665I 1632
0.132 8293
0.1360377
877
H
0.933 661 1
0.930 4677 690
0.320 9393
0.328 2882 1623
0.139 2360
0.142 4240
881
15
0.927 2052
0.923 8737 723
0.335 6126' 0.342 9122
1614
0.145 6014
0.148 7680
885
i6
-0.920 4735
-0.917 0048
- 757
-0.350 1863 -0.357 4344+1604
-0.15 1 9235
-0.1550677
+888
17
0.913 4678
0.909 8627
790
0.3646560 0.371 8506
1593
0.158 2005
0.161 3216
891
18
0.906 1897
0.902 4490
824
0.3790176, 0.3861565
1582
0.1644307
0.167 5277
894
19
0.898 6409
0.894 7655
857
0.393 2667
0.400 3478
1571
0.170 6124
0.173 6845
897
20
0.890 8231
0.886 8138
891
0.4073993 0.4144206
1559
0.176 7437
0.179 7899
899
21
-0.882 7380
-0.878 5958
-924
-0421 41 1 2 -0.428 3705
+1547
-0.182 8227
-0.185 8420
+901
22
0.874 3876
0.870 1 135
958
0.435 2980
0.442 193 1
1534
0.188 8475
0.191 8391
902
23
0.865 7738
0.861 3687
991
0.449 0552
0455 8839
I521
0.194 8164
0.197 7792
903
24
0.856 8984
0.852 3633
1025
0.462 6786
0.469 4387
1507
0.200 7273
0.203 6604
903
25
0.847 7636
0.843 0997
1058
0.476 1637
0.482 8530
1492
0.206 5782
0.209 4806
903
26
-0.838 3719
-0.833 5805
-1091
-0.489 5060 -0.496 1222
+1477
-0.212 3672
-0.215 2379
+904
27
0.828 7257
0.823 8079
1124
0.502 701 1 0.509 2420
146 1
0.2180924
0.220 9305
904
28
0.818 8274
0.813 7847
1 157
0.515 7443
0.522 2076
1445
0.223 7518
0.226 5561
903
29
0.808 6801
0.803 5 i4o| 1 190
0.5286312
0.535 0147
1428
0.229 3432
0.232 1 128
902
30
0.798 2869
0.792 9991 1223
0.541 3575 0.547 6591
141 1
0.234 8647
0.237 5987
901
31
-0.7876510
-0.782 2431 -1255
-0.553 9189-0.560 1364
+1394
-0.2403145
-0.243 0120
+899
Nov. I
0.776 7759
0.771 2496
1288
0.566 31 1 1
0.572 4426
1376
0.245 6909
0.248 3510
897
2
0.765 6649
0.7600221
1320
0.5785304 0.5845740
1358
0.250 9920
0.253 6138
895
3
0.7543218
0.748 5643
1352
0.5905728 0.5965265
1339
0.256 2162
0.258 7990
892
4
0.742 7501
0.736 8797
1384
0.602 4345 0.608 2965
1320
0.261 3620
0.263 9049
889
5
-0.730 9536
-0.724 9723
-1416
-0.614 1 1 20
-0.619 8806
+1300
-0.266 4276
-0.268 9300
+886
6
0.718 9361
0.712 8456
1447
0.625 6018
0.631 2753
1280
0.271 4118
0.273 8728
882
7
0.706 701 1
0.700 5032
1478
0.636 9006
0.642 4773
1259
0.276 3129
0.278 7319
878
8
0.694 2523
0.687 9488
1509
0.648 0049
0.653 4831
1238
0.281 1296
0.283 5059
874
9
0.681 5933
0.675 1862
1540
0.658 91 15
0.664 2896
1215
0.285 8605
0.288 1934
869
10
-0.668 7280
-0.662 2192
-1571
-0.669 61 7 1
-0.674 8936
-♦-1192
-0.290 5043
-0.292 7932
+864
II
0.655 6603
0.6490517
1601
0.680 1 1 87
0.685 2920
1 168
0.295 0597
0.297 3037
859
12
0.642 3939
0.635 6873
163 1
0.690 4132
0.695 4819
1 144
0.2995251
0.301 7237
853
13
0.628 9325
0.622 1298 1661
0.700 4976
0.705 4600
II20
0.303 8994
0.3060521
847
14
0.615 2798
0.608 3830 1690
0.7103688
0.715 2235
1096
0.308 1 8 15
0.310 2875
841
15 -0.6014398
-0.594 4508 -1719
-0.720 0238
-0.724 7694
+1072
-0.312 3699
-0.3144286
+835
16
-0.587 4163
-0.580 3369I
-1748 1
-0.729 4598
-0.734 0947
+1048
-0.316 4634
-0.3184742
+828
[Eph 13I
SUN'S CO-ORDINATES, 1913.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
207
)mte.
X
Ttue Equinox.
[ofV.i6
17
18
20
21
22
23
24
25
26
27
28
29
Deci
2
3
4
5
6
Noon.
Midnight,
0.5874163
0-573 2130
0558 8337
Reduc
to
Mean
Eq'xofI
Jan. o.
Noon.
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
-1748
1777
1805
1833
1 861
-0-580 3369
0.5660451
0.551 5793
0.544 2825' 0.536 9436
0529 5633' 0.522 1420
-0.5146803-0.507 1786
04996376' 0.4920577
0.4844396, 0.4767838
04690909 0.461 3614
0453 5960' 0.445 7953
-0437 9599-0.4300905 -2018
0,422 1876 0,414 2519 2043
0406 2841 1 0.398 2848 2068
0.390 2548I 0.382 1945 2092
0.374 10481 0.365 9863 2 1 16
-0.357 8396-0.349 6655-2139
0,341 46461 0.333 2376 2162
0.3249850 0.3167075. 2184
0.3084058 0.300 0807I 2205
-0.729 4598
0.738 6737
0.747 6627
0.756 4237'
0.764 9540- 0.769 1316
1888 1-0.773 2504-0.777 3100
0.781 3100 0.785 2501
1915
1942
1968
1993
0.291 7327 0.283 3625
2226
-0.274 9707-0.266 55801-2246
0.258 1 250! 0.2496724 2265
0.241 2008
0.224 2033
0.207 1378
-0.1900092
0.172 8225
0-155 5827
0.138 2950!
0.232 7109^ 2285
0.215 6789 2303
0.1985811' 2321
-0.181 4228|-2339
0.164 20891 2356
0.1469445! 2371
0.1296347 2386
0.1209643' 0.1 12 2844 2401
-0.103 5956.-0.094 8985 -2416
ox>86 1938 0.0774821 2430
OJ0687640 0.0600402 2443
0.051 3114 0.0425781 2454
0.033 841 1 0.025 loi I 2465
>.oo7 6145
-ox)i6 3587
K)xx)i 1307 40.009 8761
0.01 8 62 1 1 0.02 7 365 1
OJP36 1073 0.044 8469
0-053 58321 0.062 3156
-2475
2484
2493
2502
2510
♦0.071 04321+0.079 7654I— 2518
2524
2529
2533
2536
-2538
3al*ai75 1433+0.183 74401-2540
0x3884814! 0.097 1905
o. 105 8920 o. 114 585 1
ai23 2691 0.131 9433
0.140 6071' 0.1492597
3*1+0.157 9004+0.166 5285
Y
True Equinox.
Reduc
to
Mean
jEq'x of
I Jan. o
Noon.
Midnight . Noon.
-0.734 0947
0.743 1965
0.752 0719
0.760 7179
+1048
1023
997
970
943
+ 915
887
858
829
799
+ 769
739
708
676
644
0.789 1298 0.792 9488
0.796 7o68| 0.800 4034
0.804 0383- 0.807 61 12
-0.811 1217 -0.8145695
0.8179542 0.821 2755
0.824 5331 1 0.827 7268
0.8308563; 0.8339213
0.836 92i6| 0.839 8569
-0.842 7271-0.845 5319+ 612
0.848 27 loj 0.8509442 579
0.8535515 0.8560927 546
0.8585675', 0.8609758 512
0.863 3173! 0.865 5918 478
-0.867 7992 -0.869 9394 + 444
0.872 01 23I 0.8740178 409
0.8759556 0.8778257 373
0.881 3621 337
0.884 6261 301
-0.887 6167 + 264
0.890 3331 227
0.892 7745- 190
0.894 9403 152
0.879 6279
0.883 0282
-0.886 1556
0.889 0092
0.891 5882
0.893 8919
0.8959196! 0.8968298' 114
-0.897 6707
0.899 1441
0.900 3391
0.901 2553
0.901 8917
-0.898 4422 + 76
0.8997764;+ 37
0.9008321— 3
0.901 60851 42
0.902 1048. 82
-0.902 2478—0.902 3207- 122
0.902 3233' 0.902 2556 162
0.902 1 175 1 0.901 9090 203
0.901 6301. 0.901 2808' 244
0.900 86iO| 0.900 37081 285
-0.899 81031 -0.899 1794- 326
0.898 4782 1 0.897 7067 368
0.896 8649| 0.895 9530' 410
0.8949710 0.893 9191 1 452
0.892 7974 0.891 6060' 494
■0.8903449-0.8890144- 536
■0.887 6145-0.886 1454- 579
[Eph 13]
z
True Equinox.
Reduc.
to
Mean
Eq'xof
Jan. o.
Noon.
Midnight.
-0.316 4634 -0.318 4742
0.320 4608
0.324 3607
0.328 1619
0.331 8630
.335 4628
0.338 9600
0.342 3531
0.3456409
0.348 8221
Noon.
+828
820
812
0.322 4230'
0.326 2737^
0.330 0250' 804
0.333 6756 796
-0.337 2243 +787
0.340 6696' 778
0.344 0102 1 769
0.347 2449, 759
0.350 3724: 749
+739
728
717
706
694
-^682
670
657
644
631
-0.351 8956-0.3533915
0.3548600' 0.3563010
0.357 7 143I 0.3590998
0.360 4575I 0.361 7871
0.3630886, 0.3643619
-0.365 6069 -0.366 8235
0.3680116 0.369 17 II
0.3703019! 0.3714040
0.3724773! 0.3735218
0.374 5373 0.375 5237
-0.376 4810.-0.377 4092. -H6i8
0.3783081' 0.3791778' 604
0.380 0182 0.380 8292
0.381 6107 0.382 3628
0.383 0853I 0.383 7783
-0.3844417-0.3850754
0.385 6794' 0.386 2537
0.386 7982 1 0.3873129
0.387 7977 0.388 2526
0.388 6776 0.389 0726
I
-0.389 4375-0.389 7723
0.390 077 1 1 0.3903517
0.390 5962! 0.390 8104
0.390 9944| 0-39I 1480
0.391 2712 0.391 3640
-0.391 4264 -0.391 4583
0.391 4597, 0-39' 4306
0.391 3709 0.391 2806
0.391 1597! °-39i 0083
0.3908263! 0.3906137
-0.390 37051,-0.390 0968
0.389 7925, 0.389 4577
0.389 0924 0.388 6966
0.388 2704 0.387 8138
0.387 3269 0.386 8097
0.386 2623-0.385 6848
.385 0772-0.384 4396
590
576
561
+546
531
516
500
484
+468
452
435
418
401
+385
367
349
331
312
+293
275
256
237
218
+199
+179
208 MOON'S LONGITUDE AND LATITUDE, 1913.
FOR GREENWICH AND
MOON'S LONGITUDE AND LA , 1913. 209
WICH AND «H^¥::^iK<
210 MOON'S LONGITUDE AND LATITUDE, 1913.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
JULY.
AUGUST.
8BPTBMBBR.
Day of
Day of
Month.
Day of
Month.
Month.
True Long.
Latitude.
True Long.
Latitude.
True Long.
Latitude.
0 / '/
0 / //
0 t ff
0 ' /«
0 / //
0 / ff
I.O
63 59 21.2
+4 36 20.8
1.0
114 14 16.6
+4 29 15. 1
1.0
167 31 20.5
40 36 27.0
1.5
70 42 45.9
4 48 33.9
1-5
121 35 16.6
4 7 50.0
1.5
175 6 1.4
-0 5 27.3
2.0
77 32 145
4 56 52.0
2.0
128 59 52.7
342 3.7
2.0
182 38 49.4
0 47 6.6
2.5
84 27 31.6
5 057.1
2.5
136 27 3.6
3 12 20.1
2.5
190 8 40.9
I 27 41.6
3.0
91 28 12.8
5 034.7
3.0
143 55 44.8
2 39 10.2
30
197 34 39-4
2 6 26.3
3.5
98 33 44-8
+4 55 35-4
3-5
151 24 50.0
+2 3 11.4
3.5
204 55 57.4
-2 42 40.3
4.0
105 43 26.7
4 45 55.2
4.0
158 53 159
I 25 6.0
4.0
212 II 57.2
3 15 49-7
4.5
112 56 32.5
4 31 36.7
4-5
166 20 3.6
0 45 390
4-5
219 22 10.7
3 45 26.9
5.0
120 12 II. 6
4 12 49.2
5.0
173 44 20.3
H> 5 36.5
5.0
226 26 19.6
4 II 11.4
5-5
127 29 31.7
3 49 48.9
5.5
181 5 21.2
-0 34 16.2
5.5
233 24 15.0
4 32 48.9
6.0
134 47 40.6
+3 22 58.5
6.0
188 22 30.1
-I 13 16.0
6.0
240 15 56.0
-4 50 I I.I
6.5
142 5 49.0
2 52 46.2
6.5
195 35 19.2
I 50 43-2
6.5
247 I 28.4
5 3 14.7
7.0
149 23 11.6
2 19 44.9
7.0
202 43 28.9
2 26 2.7
7.0
253 41 4.1
5 12 0.4
7.5
156 39 8.6
I 44 31.2
7.5
209 46 47.2
2 58 44.3
7^5
260 14 59.3
5 16 32.7
8.0
163 53 6.8
I 7 43.4
8.0
216 45 9.4
3 28 22.9
8.0
266 43 33.8
5 16 58.5
8.5
171 4 39.9
+0 30 0.7
8.5
223 38 35-8
-3 54 38.1
8.5
273 7 lo.i
-5 13 27.1
9.0
178 13 28.0
-0 7 57.8
9.0
230 27 1 1.6
4 17 143
9.0
279 26 12.1
5 6 9.3
95
185 19 17.6
0 45 341
9-5
237 II 51
4 36 0.6
9-5
285 41 4.5
4 55 17.6
lO.O
192 22 0.2
I 22 12.6
lO.O
243 50 27.0
4 50 49.6
lO.O
291 52 12.2
441 5-4
105
199 21 31.6
I 57 20.5
10.5
250 25 29.5
5 I 37.4
10.5
298 0 0.0
4 23 47.0
II.O
206 17 51.0
-2 30 27.5
II.O
256 56 25.8
-5 8 23.6
II.O
304 4 51.7
-4 3 37.5
"•5
213 10 59.8
3 I 6.7
"•5
263 23 29.5
5 II 10.4
II.5
310 7 10.7
3 40 52.5
12.0
2 20 I 0. 1
3 28 54.7
12.0
269 46 53.7
5 10 2.4
12.0
316 7 19.0
3 15 48.8
12.5
226 47 54.8
3 53 32.0
12.5
276 6 51.2
5 5 6.7
12.5
322 5 37-7
2 48 43.5
130
233 31 46.6
4 14 42.3
13.0
282 23 34.4
4 56 32.3
130
328 2 26.6
2 19 54.5
135
240 12 37.2
-4 32 12.7
13.5
288 37 15.1
-4 44 30.1
13.5
333 58 4.4
-I 49 39.9
14.0
246 50 27.1
4 45 53-9
14.0
294 48 4.3
4 29 12.8
14.0
339 52 49.3
I 18 18.3
14.5
253 25 1 6. 1
4 55 40.3
14-5
300 56 13. 1
4 10 54-3
14.5
345 46 58.7
0 46 9.0
150
259 57 3-2
5 I 29.5
150
307 I 52.3
3 49 50.1
15.0
351 40 49.6
-0 13 31.5
15.5
266 25 46.2
5 3 22.3
155
313 5 13.0
3 26 16.8
155
357 34 38.8
+0 19 14.7
16.0
272 51 22.9
-5 1 22.5
16.0
319 6 26.6
-3 0 31.8
16.0
3 28 43.0
+0 51 50.1
16.5
279 13 511
4 55 37.2
16.5
325 5 45-2
2 32 53.3
16.5
9 23 19.3
I 23 54.9
17.0
285 33 9.3
4 46 158
17.0
331 3 22.1
2 3 39-9
17.0
15 18 45.1
I 55 9.6
17.5
291 49 1 7-7
4 33 30.1
175
336 59 32.2
I 33 10.9
17.5
21 15 18.8
2 25 i5X>
18.0
298 2 18.2
4 17 33-8
18.0
342 54 31.5
. I I 45-5
18.0
27 13 19.5
2 53 5^.3
18.5
304 12 14.2
-3 58 42.3
18.5
348 48 37.7
-0 29 43.0
18.5
33 13 7.3
+3 20 43X>
19.0
310 19 12.6
3 37 12.5
19.0
354 42 II.O
+0 2 37.6
19.0
39 15 3-4
3 45 29.2
195
316 23 22.9
3 13 21.9
19.5
0 35 33.1
0 34 57.1
195
45 19 30.2
4 7 53.3
20.0
322 24 57.7
2 47 28.8
20.0
6 29 7.9
I 6 56.8
20.0
51 26 51.5
4 27 38^1-
20.5
328 24 13.0
2 19 51-6
20.5
12 23 21.3
I 38 18.1
20.5
57 37 316
4 44 28.1
21.0
334 21 28.0
-I 50 48.9
21.0
18 18 41.4
+2 8 42.8
21.0
63 51 55-5
+4 58 6.9
21 5
340 17 50
I 20 39.4
21.5
24 15 38.0
2 37 52.8
21.5
70 10 28.6
5 8 19.9
22.0
346 II 29.6
0 49 41.4
22.0
30 14 42.6
3 5 30.1
22.0
76 33 36.2
5 14 52.8
22.5
352 5 IO-6
-0 18 12.9
22.5
36 16 28.2
3 31 16.8
22.5
83 I 42.7
5 17 32.8
23.0
357 58 39.2
+0 13 28.1
23.0
42 21 28.7
3 54 54-9
23.0
89 35 10.8
5 16 8.9
23.5
3 52 28.9
+0 45 4.1
235
48 30 18.4
4-4 16 6.3
235
96 14 20.6
+5 10 316
24.0
9 47 15.7
I 16 17.4
24.0
54 43 31.3
4 34 32.8
24.0
102 59 29.0
5 0 33.9
245
15 43 37.3
I 46 50.4
24.5
61 I 40.7
4 49 56.4
245
109 50 48.2
4 46 12.2
25.0
21 42 12.3
2 16 25.1
25.0
67 25 18.5
5 I 58.8
25.0
116 48 24.4
4 27 26.7
25.5
27 43 40.0
2 44 43-4
25.5
73 54 52.9
5 10 22.3
25.5
123 52 16.5
4 4 22.5
26.0
33 48 39-8
+3 11 26.8
26.0
80 30 48.4
+5 14 50.2
26.0
131 2 15.5
+3 37 10.5
26.5
39 57 505
3 36 15.8
26.5
87 13 24.4
5 15 6.9
26.5
138 18 3.5
3 6 7.9
27.0
46 II 49.0
3 58 50.4
27.0
94 2 53.3
5 10 590
27.0
145 39 12.5
2 31 38.8
275
52 31 9-8
4 18 50.0
27.5
100 59 20.1
5 2 16.3
275
153 5 4.2
I 54 14.4
28.0
58 56 23.7
4 35 53-7
28.0
108 2 40.1
4 48 52.7
28.0
160 34 50.9
I 14 32.8
28.5
65 27 56.2
+4 49 40.4
28.5
115 12 38.1
+4 30 47.5
28.5
168 7 36.6
+0 33 17.8
29.0
72 6 6.5
4 59 49.1
29.0
122 28 48.8
4 8 6.2
29.0
175 42 17.6
-0 8 42.2
295
78 51 6.3
5 6 0.1
295
129 50 35.8
341 1.8
295
183 17 44.4
0 50 364
30.0
85 42 58.9
5 7 55.8
30.0
137 17 11.9
3 9 55.0
30.0
190 52 45-3
I 31 33-3
30.5
92 41 37.2
5 5 21.1
30.5
144 47 40.6
2 35 146
30.5
198 26 8.8
2 10 43.7
31-0
99 46 43-5
+458 5.3
310
152 20 58.2
+1 57 371
310
205 56 45-*
-2 47 22.1
Ji'S I
J06 37 49.5
+4 46 3.0
31.5
159 55 55.5
+1 17 45.3
31.5
213 23 30.9
-3 20 49.0
lEph 13I
MOON'S LONGITUDE AND LATITUDE, 1913. 211
FOR GREENWICH MEAN NOON AND MIDNIGHT.
OCTOBBR.
NOVEMBER.
DECEMBER.
Day of
Day of
Month.
Day of
Month.
Ifooth.
Tme Long.
Latitude.
True Long.
Latitude.
True Long.
Latitude.
e f ff
0 f tf
0 t tt
0 f If
0 t *f
0 1 ft
I.O
205 56 45.4
-2 47 22.1
1.0
257 23 22.4
-5 7 9-3
1.0
292 6 34.2
-4 17 lO.O
1-5
213 23 30.9
3 20 49.0
1.5
264 16 20.3
5 8 37.8
1-5
298 33 252
3 57 47.7
2.0
220 45 29.3
3 50 32.1
2.0
271 2 25.0
5 5 43-8
2.0
304 54 29.2
3 35 43.2
2-5
228 I 53.9
4 16 6.9
2.5
277 41 37.2
4 58 43.0
2.5
311 10 7.8
3 II 18.9
3-0
235 12 7.5
4 37 16.7
3.0
284 14 6.9
4 47 53.1
3.0
317 20 48.5
2 44 56.6
3-5
242 15 44.0
-4 53 52.1
3.5
290 40 12.0
-4 33 33.5
3.5
323 27 3-9
-2 16 57.6
4-0
249 12 28.7
5 5 50.5
4.0
297 0 17.4
4 16 4.3
4.0
329 29 30.1
I 47 42.0.
4-5
256 2 16.8
5 13 14.8
4-5
303 14 53.1
3 55 45-6
4.5
335 28 46.2
I 17 29,1
5-0
262 45 12.5
5 16 12.3
5.0
309 24 33.1
3 32 57.3
5.0
341 25 33.2
0 46 37.2
5-5
269 21 28.0
5 14 54.0
5.5
315 29 54.6
3 7 58-8
5-5
347 20 33.4
-0 15 24.2
6.0
275 51 22.2
-5 9 33.3
6.0
321 31 36.8
-2 41 9.1
6.0
353 14 29.3
+0 15 52.&
6.5
282 15 19.4
5 0 25.1
6.5
327 30 19.5
2 12 46.3
6.5
359 8 3.1
0 46 57.0
7.0
288 33 48.0
4 47 45-6
7.0
333 26 42.9
I 43 8.5
7.0
5 I 56.1
I 17 31.5
75
294 47 19.0
431 515
7.5
339 21 26.9
I 12 33.2
7.5
10 56 48.4
I 47 195
8.0
300 56 25.7
4 12 59-9
8.0
345 15 10. 1
0 41 17.6
8.0
16 53 17.6
2 16 3.8
8.5
307 I 42.2
-3 51 27.9
8.5
351 8 29.5
-0 9 39.2
8.5
22 51 58.9
+2 43 27.0
9.0
313 3 42.7
3 27 32.7
9.0
357 2 0.0
+0 22 4.5
9.0
28 53 23.9
3 9 11.3
9-5
319 3 II
3 I 31.5
9.5
2 56 143
0 53 35.6
9.5
34 58 0.6
3 32 58.4
10.0
325 0 10.4
2 33 415
lO.O
8 51 42.0
I 24 35.9
1 0.0
41 6 12.9
3 54 29.9
W.5
330 55 42.0
2 4 20.2
10.5
14 48 49.9
I 54 46.8
10.5
47 18 19.8
4 13 27.4
II.0
336 50 5-9
-I 33 45.2
1 1.0
20 48 1.4
+2 23 49.3
1 1.0
53 34 35.1
+4 29 32.7
"•5
342 43 50.1
I 2 14.6
11.5
26 49 36.3
2 5 1 24.3
II-5
59 55 7.3
4 42 28.6
12.0
348 37 20.6
-0 30 6.5
12.0
32 53 51.1
3 17 12.2
12.0
66 19 59-3
4 51 58.9
".5
354 31 I.I
+0 2 20.5
12.5
39 0 59.0
3 40 53-6
12.5
72 49 8.8
4 57 49.3
13.0
0 25 13.6
0 34 47.3
13.0
45 II 9-2
4 2 9.7
13.0
79 22 27.9
4 59 48.0
13.5
6 20 17.9
+1 654.5
13.5
51 24 27.8
+4 20 42.2
13.5
85 59 44.4
+4 57 46.1
I4X)
12 16 31.6
I 38 22.4
14.0
57 40 58.0
4 36 140
14.0
92 40 42.1
4 51 38.5
«4.5
18 14 10.6
2 8 51.4
14.5
64 0 40.3
4 48 29.3
14.5
99 25 1.8
4 41 23.9
15.0
24 13 29.5
2 38 1-7
150
70 23 32.9
4 57 14.1
15.0
106 12 22.5
4 27 5.4
15.5
30 14 41.5
3 5 33.7
15.5
76 49 32.8
5 2 17.0
15.5
113 2 21.8
4 8 50.8
i6x>
36 17 58.4
+3 31 8-3
16.0
83 18 35.9
+5 3 29.1
16.0
119 54 38.0
+3 46 52.5
16.5
42 23 31.2
3 54 26.9
16.5
89 50 37.3
5 044.1
16.5
126 48 50.7
3 21 27.0
17X)
48 31 30.5
4 15 11.7
17.0
96 25 32.7
4 53 59.0
17.0
133 44 41.2
2 52 550
17.5
54 42 6.8
4 33 5-9
17.5
103 3 18.5
4 43 14- 1
17-5
140 41 53.5
2 21 40.9
i8x>
60 55 30.6
4 47 54-0
18.0
109 43 52.1
4 28 33.1
18.0
147 40 14.5
I 48 12.4
i«-5
67 II 52.6
+4 59 21.8
18.5
116 27 12.7
+4 10 3-2
18.5
154 39 34.2
+1 12 59.7
194)
73 31 24.1
5 7 16.8
19.0
123 13 20.6
3 47 55.0
19.0
161 39 45-3
+0 36 34.9
19.5
79 54 17.0
5 II 28.1
19.5
130 2 17.1
3 22 22.8
19.5
168 40 42.3
-0 0 28.4
20.0
86 20 43.9
5 II 46.8
20.0
136 54 4.8
2 53 44.3
20.0
175 42 21.2
0 37 35.6
20.5
92 50 57.9
5 8 6.2
20.5
143 48 46.8
2 22 20.7
20.5
182 44 38.1
I 14 1 1.9
2I4>
99 25 12.4
+5 0 22.0
21.0
150 46 25.7
+1 48 36.7
21.0
189 47 28.9
-I 49 42.6
21.5
106 3 40.6
4 48 32.4
21.5
157 47 2.2
I 13 0.2
21.5
196 50 47.8
2 23 33.9
22JO
112 46 35.0
4 32 38.8
22.0
164 50 34.8
+0 36 2.1
22.0
203 54 26.4
2 55 13.6
22.5
119 34 6.9
4 12 45-8
22.5
171 56 58.9
-0 I 43.4
22.5
210 58 12.8
3 24 1 1.5
23X)
126 26 25.3
3 49 1.8
23.0
179 6 5.3
0 39 40.1
23.0
218 1 51.7
3 49 59-8
23.5
133 23 36.3
+3 21 39-4
23.5
186 17 38.9
-I 17 lO.O
23.5
225 5 3-5
-4 12 14.2
24.0
140 25 41.7
2 50 56.0
24.0
193 31 18.2
I 53 34.0
24.0
232 7 24.8
4 30 34.6
24-5
147 32 37-7
2 17 13.9
24-5
200 46 35.1
2 28 13.3
245
239 8 28.5
4 44 45.2
^5-0
154 44 14.5
I 41 0.3
25.0
208 2 54.9
3 0 30.2
25.0
246 7 45.0
4 54 35.2
25.5
162 0 14.5
I 2 48.0
25.5
215 19 36.5
3 29 49.6
255
253 4 42.8
4 59 59.1
26.0
169 20 11.9
+0 23 14.5
26.0
222 35 53.4
-3 55 40. 1
26.0
259 58 50.2
-5 0 56.5
26.5
176 43 32.6
-0 16 58.8
26.5
229 50 56.0
4 17 35-4
26.5
266 49 36.9
4 57 32.3
27JO
184 9 33.8
057 7.3
27.0
237 3 52.6
4 35 15.1
27.0
273 36 34.6
4 49 56.2
27.5
191 37 24.7
I 36 24.3
275
244 13 52.0
4 48 25.2
27.5
280 19 19.1
4 38 21.8
28.0
199 6 7.7
2 14 3.4
28.0
251 20 6.0
4 56 58.5
28.0
286 57 31.0
4 23 6.6
28.5
206 34 40.3
-2 49 20.6
28.5
258 21 50.8
-5 0 54.3
28.5
293 30 56.5
-4 4 30.8
29.0
214 I 57-3
3 21 35-6
29.0
265 18 29.4
5 0 18.2
29.0
299 59 28.3
3 42 56.2
^5
221 26 53.3
3 50 13.4
29.5
272 9 32.7
4 55 20.9
295
306 23 5.2
3 18 46.1
50.0
228 48 25.4
4 14 45-9
30.0
278 54 40.5
446 17.9
30.0
312 41 52.7
2 52 24.2
30.5
236 5 35-9
4 34 52.8
30.5
285 33 41.6
4 33 27.4
30.5
318 56 2.8
2 24 14.0
31JO
243 17 34-7
-4 50 21.3
31-0
292 6 34.2
-4 17 lO.O
31.0
325 5 52»<)
3' .5
250 23 40.6
^-5 I 6.3
31-5
298 33 25.2
-3 57 47.7
315
\ 3^1 11 ^s-^
fBph 13]
212 MOON'S EQUATOR, LONGITUDE, ETC., 1913
GREENWICH MEAN NOON.
MOON'S EQUATOR.
r
Mean-
C
•
%
' A
Ji^
t
Ascendhis
Longitude of
Longitude
Motion of
Date.
Incttnatioa
Node
Ascending
the Moon's
of Moon's
Moon's
Mean
Moon
to the
on Barth's
Node on
Perigee.
Ascending
Mean
Solar
in Mean
Earth's
Bqaator to As-
Earth's
Daily Motion
Node.
Longitude.
Days.
Longitude.
Bquator
cending Node
on Ecliptic.
Equator.
+6'.684.
Daily Mo-
tion.
0 /
-3' 177
e /
0 t
0 t
0 f
0 f
0 /
Jan. o
21 56.0
188 16.0
359 26.7
143 16.4
7 45.3
191 58.7
O.I
I 19.06
lO
21 55.9
187 42.1
359 29.0
144 23.2
7 13.5
323 44.6
0.2
2 38.12
20
21 55.8
187 8.3
359 31.2
145 30.1
6 41.8
95 30.4
0.3
357.18
30
21 55.7
186 34.4
359 33.5
146 36.9
6 1 0.0
227 16.2
0.4
5 16.23
Feb. 9
21 55.6
186 0.6
359 35.8
147 43.8
538.2
359 2.1
0.5
0.6
6 35-29
7 54.35
19
21 55.5
185 26.7
359 38.0
148 50.6
5 6.4
130 47.9
0.7
9 13.41
Mar. I
21 55.4
184 52.8
359 40.3
149 57.4
434.7
262 33.8
0.8
10 32.47
II
21 55.3
184 19.0
359 42.6
151 4.3
4 2.9
34 19.6
0.9
11 5».53
21
21 55.3
183 45.1
359 44.9
152 II. I
3 31. 1
166 5.4
I.O
13 JO-58
31
21 55.2
183 1 1.2
359 47.1
153 18.0
2 59.4
297 51.3
2.0
26 21.17
Apr. 10
21 55.2
182 37.3
359 49.4
154 24.8
2 27.6
69 37.1
3.0
4.0
39 31.75
f 0 A 'y 4 4
20
21 55.1
182 3.4
359 51.7
155 31.7
I 55.8
201 23.0
52 42.33
65 52.92
30
21 55.1
181 29.6
359 540
156 38.5
I 24.0
333 8.8
5.0
6.0
May 10
21 55.1
180 55.7
359 56.3
157 45.3
052.3
104 54.6
79 3-50
20
21 55.1
180 21.8
359 58.5
158 52.2
0 20.5
236 40.5
7.0
8.0
92 14,09
105 24.67
30
21 55.1
179 48.0
0 0.8
159 59.0
359 48.7
8 26.3
9.0
118 35.25
June 9
21 55.1
21 55.1
179 I4.I
178 40.2
0 3.1
0 5.4
161 5.9
162 12.7
359 16.9
358 45.2
140 12. 1
271 58.0
1 0.0
131 45.84
19
Hoars.
• *
29
21 55.1
178 6.4
0 7.6
163 19.6
358 13.4
43 43-8
I
032.94
July 9
21 55.2
^77 32.5
0 9.9
164 26.4
357 41.6
175 29.7
2
3
I 5.88
I 38.82
19
21 55-2
176 58.6
0 12.2
165 33.2
357 9-9
307 15.5
4
2 11.76
29
21 55.2
176 24.8
0 14.5
166 40.1
356 38.1
79 1.3
5
2 44.70
Aug. 8
21 55-3
175 50.9
0 16.8
167 46.9
356 6.3
210 47.2
6
3 17.65
18
21 55.4
175 17.0
0 19.0
168 53.8
355 34.5
342 33.0
7
3 50.59
28
21 55.5
174 43.2
0 21.3
170 0.6
355 2.8
114 18.9
8
9
4 23.53
4 56.47
Sept. 7
21 55.5
174 9.3
0 23.6
171 7.5
354 31.0
246 4.7
10
5 29.41
17
21 55.6
173 35.4
0 25.8
172 14.3
353 59.2
17 50.5
II
6 2.^s
27
Oct. 7
17
21 55-7
21 55.8
21 55.9
173 1.6
172 27.7
171 53.8
0 28.1
030.4
0 32.6
173 21. 1
174 28.0
175 34.8
353 27.4
352 55.7
352 23.9
149 36.4
281 22.2
53 8.0
12
13
14
6 35.29
7 8.23
7 41.17
27
21 56.1
171 20.0
034.9
176 41.7
351 52.1
184 53.9
15
_ ^
8 14.11
Nov. 6
21 56.2
170 46.1
037.1
-^^77 48.5
351 20.4
316 39.7
16
8 47.06
16
21 56.3
170 12.3
039.4
178 55-3
350 48.6
88 25.6
17
_ 0
9 20.00
26
21 56.5
169 38.5
0 41.6
180 2.2
350 16.8
220 1 1.4
18
9 52.94
Dec. 6
21 56.6
169 4.6
043.8
181 9.0
349 45.0
351 57.2
19
20
10 25.88
10 58.82
1
16
21 56.8
168 30.8
0 46.1
182 15.9
349 13.3
123 43.1
21
II 31.76
26
21 57.0
167 57.0
048.3
183 22.7
348 41.5
255 28.9
22
12 4.70
36
21 57.2
167 23.2
0 50.5
184 29.6
lEph i3l
348 9.7
27 14.7
23
12 37.64
MOON'S UBRATION. SUN'S ABERRATION AND PARALUX. 213
QUANTITIES REQUIRED IN COMPUTING
SUN'S ABERRATION AND HORI-
THE MOON'S UBRATION.
ZONTAL PARALLAX.
Argument, (Q —A), or (Q —X — i8c
n
For Grggnwich Mban Noon.
n-A
M
I
A
B
Q-A
Date.
Aberration.
Hor. Par.
0
t
0 /
0
1913.
//
//
0
0.0
37
0 0.0
180
Jan. 0
— 20.81
8.95
2
0.0
37
0 3.2
178
10
20.81
8.95
4
0.1
37
0 6.4
176
20
20.80
8.94
6
0.1
38
0 9.6
174
30
20.77
8.93
8
0.2
38
0 12.8
172
Feb. 9
20.74
8.92
10
0.2
38
0 16.0
170
19
— 20.70
8.90
12
0.3
38
0 19.2
168
Mar. 1
20.65
8.88
H
0.3
38
0 22.3
166
II
20.59
8.86
i6
0.3
39
0 25.4
164
21
20.54
8.83
i8
0.4
39
0 28.5
162
31
20.48
8.81
20
0.4
40
0 315
160
Apr. 10
— 20.42
8.78
22
0.4
40
0 34.5
158
20
20.36
876
24
0.5
41
0 37.5
156
30
20.31
8.73
26
0.5
42
0 40.4
154
May 10
20.26
8.71
28
0.5
42
0 43.2
152
20
20.22
8.69
30
0.5
43
0 46.1
150
30
— 20.18
8.68
32
0.6
44
0 48.8
148
June 9
20.15
8.67
34
0.6
45
0 515
146
19
20.14
8.66
36
0.6
46
0 54- 1
J44
29
20.13
8.65
38
0.6
47
0 56.7
142
July 9
20.13
8.66
40
0.6
49
0 59.2
140
19
— 20.14
8.66
42
0.6
50
I 1.6
138
29
20.16
8.67
44
0,6
52
I 4.0
136
Aug. 8
20.18
8.68
46
0.6
54
I 6.3
134
18
20.22
8.70
48
0.6
56
I 8.5
132
28
20.26
8.72
50
0.6
58
I 10.6
130
Sept. 7
— 20.31
8.74
52
0.6
61
I 12.6
128
17
20.37
8.76
54
0.6
64
I 14.5
126
27
20.42
8.78
56
0.6
67
I 16.4
124
Oct. 7
20.48
8.81
58
0.6
TO
I 18.1
122
17
20.54
8.83
6o
0.5
75
I 19.8
120
27
— 20.60
8.86
62
0.5
80
I 21.3
118
Nov. 6
20.65
8.88
64
0.5
85
I 22.8
116
16
20.70
8.90
66
0.5
92
I 24.1
114
26
20.74
8.92
68
0.4
100
I 25.4
112
Dec. 6
20.77
8.93
70
0.4
109
I 26.5
no
16
— 20.80
8.94
72
0.4
121
I 27.6
108
26
20.81
8.95
74
0.3
135
I 28.5
106
36
-20.81
8.95
76
0.3
0.3
154
180
I 29.4
I ZO.\
104
102
78
80
0.2
215
I 30.7
100
8a
0.2
268
I 31-2
98
84
0.1
357
I 3>-6
96
86
88
90
0.1
0.0
0.0
535
1070
00
I 31.9
I 32.0
I 32.1
94
92
90
Sun's Mean Equatorial Horizontal
Parallax.
8".8o; log=o.94448.
/< has the sign of tan (A— Q)
A has the sign of cos (Q— A)
B has the sign of sin (^ .-A)
See formi
iilfle, page
xi.
IHph 13]
214
PRECESSION AND OBLIQUITY, 1913,
(CONSTANTS OP PARIS CONFERENCB.)
FOR GREENWICH MEAN NOON.
Preces-
sion in
Longi-
tude
from
1913.0.
Nutation.
ObUquity
Ecliptic.
(N€Wcomb.)
Date.
Preces-
sion in
Longi-
tude
from
19x3.0.
Nutation.
Obliquity
of
Bcliptic.
Date.
y 4/
In
Longi-
tude.
In R. A.
8'm
In
ObUqui-
ty.
In
Longi-
tude.
ft' a
In R. A.
Vm
In
Obliqui-
ty.
ff
*/
8
//
^3^7'
90
*/
8
//
83* 37'
Jan. o
- 0.06
-1.86
-O.II4
+8,52
10.69
July 4
+25.39
+1.09
+0.067
+8.63
10.57
5
•»• 0.63
1.56
0.095
8.57
10.73
9
26.08
1.35
0.083
8.68
10.60
lO
1.32
1.28
0.078
8.63
10.78
14
26.77
1.57
0.096
8.74
10.65
15
2.00
1.03
0.063
8.70
ia8s
19
27.46
1.77
0.108
8.80
10.71
20
2.69
0.81
0.050
8.78
10.92
24
28.14
1.96
0.120
8.86
10.77
25
+ 3.38
-0.63
-0.039
+8.87
II.OI
29
+28.83
+2.11
+0.129
+8.94
10.84
30
4.07
0.48
0.029
8.97
II. 10
Aug. 3
29.52
2.23
0.136
9.03
10.92
Feb. 4
4.76
0.38
0.023
9.07
11.20
8
30.21
2.31
0.141
9.12
11.00
9
5.44
0.31
0.019
9.17
11.29
13
30.89
2.35
0.144
9.20
11.08
14
6.13
0.28
0.017
9.27
11.38
18
31.58
2.37
0.145
9-29
11.16
19
+ 6.82
-0.29
-0.018
+9.37
11.47
23
+32.27
+2.36
40.144
+9.36
11.23
24
7.51
0.35
0.021
9.45
"•55
28
32.96
2.31
0.141
9.44
11.30
Mar. I
8.20
0.42
0.026
9.52
11.61
Sept. 2
33.65
2.23
0.136
950
11.36
6
8.88
0.51
0.031
9.58
11.66
7
34.33
2.14
0.131
9.56
11.40
II
9-57
0.63
0.039
9.62
11.70
12
35.02
2.03
0.124
9.59.
"43
16
-1-10.26
-077
-0.047
+9.64
11.72
17
+3571
+1.90
+0.116
+9.61
"45
21
10.95
0.90
0.055
965
11.72
22
36.40
1.76
0.108
9.61
11.44
26
11.63
1.04
0.064
9.65
11.71
27
37.09
I.61
0.099
9.60
11.42
31
12.32
1. 17
0.072
9.62
11.68
Oct. 2
37.77
1.47
0.090
9.58
"39
Apr. 5
13.01
1.29
0.079
9.58
11. 63
7
38.46
1.35
0.083
9-54
"35
10
+13.70
-1.39
-0.085
+9.53
".57
12
+39.15
+1.25
+0.077
+9.48
11.29
15
1439
1.47
0.090
9.47
11.51
17
39.84
1.17
0.072 9.42
11.22
20
1507
1.52
0.093
9.40
11.43
22
40.53
I. II
0.068
9.34
11.13
25
15.76
».54
0.094
9.32
11-34
27
41.21
1.09
0.067
925
11.04
30
16.45
1.52
0.093
9.23
11.24
Nov. I
41.90
1. 10
0.067
9.15
10.93
May 5
+17.14
-1-47
-0.090
+9.14
II. 15
6
+42.59
+ I.16
+0.071
+9.04
10.82
10
17.83
1.38
0.084
9.04
11.05
11
43.28
1.25
0.077
8.94
10.71
15
18.51
1.26
0.077
8.95
10.95
16
43.96
1.38
0.084
8.84
10.60
20
19.20
I. II
0.068
8.87
10.86
21
44.65
1-54
0.094
8.74
10.50
25
19.89
0.93
0.057
8.80
10.78
26
45.34
1-75
0.107
8.65
10.41
30
+20.58
-0.72
-0.044
+8.73
10.71
Dec. 1
+46.03
+1.99
+0.122
+8.57
10.32
June 4
21.26
0.49
0.030
8.67
10.64
6
46.72
2.26
0.138
8.50
10.24
9
21.95
-0.24
-0.015
8.63
10.59
II
47.40
2.55
0.156
8.45
10.18
14
22.64
+0.02
+0.001
8.60
10.56
16
48.09
2.85
0.174
8.42
10.14
19
2333
0.29
0.018
8.59
10.54
21
48.78
316
0.193
8.40
10.12
24
+24.02
+0.56
+0.034
+8.59
10.53
26
+49-47
+3.47
+0.212
+8.40
10.11
29
24.70 0.83
0.051
8.60
10.54
31
50.16
3-77
0.231
8.42
10.12
July 4
+2539
+1.09
+0.067
+8.63
10.57
36
+50.84
+4.07 +0.249
+8.45
10.14
Precessio
n for 1913 . . 50.2593 log=
= 1.70122
Mean Obliquity, 1913.0.
» lit
Precession in a Solar day 0. 1 3 7 6 log =
=9.13862
Newcomb 2
3 27 2.17
Precession in a Sidereal day 0. 1372 log=
=9.13735
Hansen 2.
3 27 1.94
The short period terms of the Nutation <
are given
Le Verrier 2,
3 27 1.85
for Wa
ishingto
n raidn
ight on
pp. 231
-232.
Peters
• •
• • «
• •
2
3 27 1.73
lEph 13]
PART II.
ASTRONOMICAL EPHEMERIS FOR THE
MERIDIAN OF WASHINGTON.
[Bph ul 215
216 FORMULA FOR THE REDUCTION OF STARS
FROM MEAN TO APPARENT PLACE FOR THE YEAR 1913.
The constants of precession, nutation and aberration adopted by the Confi
ence Internationale des ]^toU2S Fondamentales which met in Paris in May, 1896, a:
given on page xiv, and together with the notation of Bessel are used in the fo
mulae which follow.
BESSELIAN STAR-NUMBERS.
Terms of Lang Period. Terms of Short Period,
A =r— C.342 19 sin JJ —0.00405 sin 2 C
+ 0.004 15 sin 2 S2 +0.000 23 sin (C -{-P')
— 0.025 26 sin 2 h -f-o.ooi 34 sin (C — -T*')
+ 0.002 51 sin (L— r) —0.000 68 sin (2C —ft)
— 0.000 99 sin (3 h—F) —0.000 52 sin (3C — ^')
+ 0.00042 sin (L-fi^ +0.000 30 sin (C — 2 L+F')
+ 0.000 25 sin (2 L— Q) -fo.ooo 12 sin 2 (C — L)
B== — 9.210 cos ft —0.088 cos 2 C
+ 0.090 cos 2 ft —0.018 cos (2C —ft)
— 0.552 cos 2 L — o.oii cos (3C — FO
— 0.022 cos (3 L— F) 4*0-005 cos (C ^F')
-f- 0.009 cos (L-f r^
-f- 0.007 cos (2 L— ft)
C= —20.4700 cos 00 cos O
D= —20.4700 sin O
E= — 0.0419 sin ft-fo".aoo5 sin 2 ft— o".oo3i sin 2 L
Bessbl's Star-Constants,
a=3Vo72 58-f-i".336 39 sin a^ tan S^ a'=2o".o457 cos a^
6=^ cos a^ tan ^o ft'^- sina^
c=^ cos a© sec ^o c^^stan (» cos ^o""Sin a^ sin ^o
d=^ sin a, sec S^ d'^cos a^ sin d©
Formulae ybr Reduction to Apparent Position.
*a=a^-{'TM-{-Aa-{'Bb+Cc+Dd-\'^E (in time)
S=S^'\-rM'+Aa''\-Bl/+C(/-\-Dd' (in arc)
INDEPENDENT STAR-NUMBERS.
/+/*= +46".o886 A -\-E (in arc) =3".072 58 /I +tV £^ (in time)
y>= — o'.oi24 sin 2C 4-o'oo4i sin (C — F') -f-o'.ooo7 sin (C +F')
— o*.oo2i sin (2C — ft) —o" .0016 sin (3(C — F')
+ o*.ooo9 sin (C —2 L4-F')+o*.ooo4 sin 2 (C — L)
g sin (7=B /i sin H=C i=C tan oo
^cosG=2o".0457 i4 h cos H^D
FormuUe/or Reduction to Apparent Position.
* a=a^4./-fy>+r/i-f tV ^ sin {G-\-a;) tan ^o+tV A sin (H-f a„) sec ^o (in time)
5=5o+«'//'+^ cos (G+aro)-f A cos (/Z+tto) sin 8^-\-i cos d^ (in arc)
In the above formulae,
r denotes the time reckoned in units of one year, from the beginning of tl
Besselian fictitious year (191 3, January 0*^.248, Washington mean time
^o» ^o, 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,
//, /^', the annual proper motion in right ascension and declination,
O, the Sun's true longitude,
L, the Sun's mean longitude,
ft, the longitude of the Moon's
ascending node,
00, the obliquity of the ecliptic,
F, the long, of the Sun's perigee,
F', the long, of the Moon's perigee
C , the Moon's mean longitude.
*See page 217 far statement concealing the uae of these formuli
(Eph x3l
FORMULA FOR THE REDUCTION OF STARS, 1913. 217
The independent star-numbers are more convenient than BESSEir's, when only
one or two apparent positions of a star are required, or when Bessel's star-
constants are not known with sufficient accuracy.
In using the star-constants of the British Association Catalogue, a, 6, c, rf, a\ h\
d y d\ with the star-numbers of this Ephemeris, the quantities to be computed are
Ac, Bd, Ca, Db,-Ac\-Bd\-Ca\-Db\
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 columns headed G and Log g. The quantities/ andy correspond to/ and/",
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. / dififers but slightly from the term — o".i866 sin 2 <L +o".o622 sin
( C — ^0 given on page 37 of the Procks-Verbaux 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
he 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-Verhaux above cited.
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 formulae 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 circumpolar 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 ±o*.oo8 tan (J, and in declination to ±o".i3. For computing
the effect of these terms for the correction of the positions of stars interpolated
from the ten-day ephemerides, the following formulae may be used, in which ^a
and ^^ denote the effect of the short-period terms in right ascension and decli-
nation, respectively, and d"tp and d"cy, the sum of the short-period terms of the
nutation in longitude and obliquity:
The values of f^ and of S"od for Washington mean midnight are given for
each day of the year on pages 231-232, and have been computed as follows:
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^a^ D^6, and D^^S are given for each ten-day star on
pages 287-486, and have been computed by means of the following formulae :
D'^o[=z ^tj sin a tan (J sin gj ^o»^= ~ ^\ cos a tan S
D^S^cos a sin co Df^^=sin a
The complete derivative <rf the right ascension with reference to ^ is
D^a=. ^ (cos GJ-f sin a tan <^ sin 00)
and the omission of the term ^^ cos co is made in accordance with the above-
mentioned decision of the Paris Conference with reference to the quantity/.
lEph 13]
218
BESSELIAN STABrNTTMBEKS, 1913.
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
(Sid. Hr.)
Log A.
LogB.
LogC.
LogD.
Solar Day.
(Sid. Hr.)
Log A.
LogB.
LogC.
LogD.
Jan.
o
-8.57680
-0.9340
-0.52236
+1.30418
Feb. 15
+9.07306
-0.9636
-I.19705
+1.04775
I
8.54120
0.932 1
0.56321
1.30272
16
9.09191
0.9644
I.2OI93
1.03576
2
8.48841
0.9300
0.60041
I.3OIII
17
9.10944
0.9665
1.20662
1.02330
3
8.41397
0.9283
0.63456
1.29936
h 18
9.12392
0.9694
I.2III2
I.OIO34
h
4
8.31048
0.9273
0.66609
1.29747
(10.0) 19
9.13440
0.9727
I.2I545
0.99686
(7.0)
5
-8. 1 676 1
^•9275
-0.69536
+ 1.29542
20
+9.14087
-0.9758
-I.21959
+0.98280
6
7.96095
0.9287
0.72265
1.29323
21
9.14423
0.9782
1.22356
0.96814
7
-7.60853
0.9306
0.74819
1.29090
22
9.14585
0.9794
1.22737
0.95284
8
+6.49136
0.9332
0.77218
1.28840
23
9.14749
0.9794
I.23IOO
0.93685
9
7.59106
0.9360
0.79479
1.28576
24
9.15080
0.9784
1.23447
0.92012
lO
+7.82413
-0.9387
-O.81614
+ 1.28297
25
+9.15682
-0.9768
-1.23778
+0.90258
II
7.94448
0.9409
0.83635
1. 28001
26
9.16566
0.9752
1.24093
0.88418
12
8.01995
0.9424
0.85554
1.27690
27
9. 1 7661
0.9740
1.24392
0.86482
13
8.07846
0.9430
0.87377
1.27363
28
9.18862
0.9736
1.24676
0.84443
14
8.13704
0.9428
0.891 14
1.27020
Mar. I
9.20048
0.9742
1.24945
0.82292
15
+8.20412
-0.9417
-0.90770
+1.26660
2
+9.21112
-0.9757
-I.25199
+0.80014
i6
8.28353
0.9401
0.92352
1.26283
3
9.21982
0.9777
1.25438
0.77597
17
8.37088
0.9386
0.93865
1.25889
4
9.22638
0.9801
1.25662
0.75025
i8
8.45924
0.9376
0.95313
1.25478
5
9.23081
0.9824
1.25872
0.72279
h
19
8.54133
0.9376
0.96701
1.25050
h ^
9.23335
0.9845
1.26067
0.69334
(8.0)
20
+8.61257
-0.9389
-0.98032
+1.24603
(11.0) 7
+9.23447
-0.9860
-1.26248
+0.66163
31
8.66997
0.9414
0.99310
I.24138
8
9.23480
0.9867
I.26416
0.62729
22
8.71307
0.9448
1.00538
1.23654
9
923507
0.9867
1.26569
0.58988
23
8.74296
0.9484
I.OI719
I.23151
10
9.23618
0.9858
1.26709
0.54882
24
8.76223
0.9517
1.02855
1.22628
II
9.23900
0.9842
1.26835
0.50334
25
+8.77404
-0.9539
-1.03948
+ 1.22086
12
+9.24415
-0.9823
-1.26948
+0.45240
26
8.78269
0.9549
1. 05001
1. 21522
13
9.25178
0.9805
1.27046
0.39464
27
8.79267
0.9547
I.06016
1.20938
14
9.26152
0.9793
1. 27132
0.32786
28
8.80702
0.9536
1.06994
1.20332
15
9.27219
0.9792
1.27204
0.24879
29
8.82692
0.9521
107937
1. 19703
16
9.28265
0.9800
1.27263
O.15196
30
+8.85156
-0.9508
-1.08846
+ 1. 19052
17
+9.2918 1
-0.9820
-1.27309
+0.02708
31
8.87910
0.9502
1.09723
1. 18377
18
9.29880
0.9844
1.27342
9.85103
Feb.
I
8.90682
0.9505
1. 10569
1. 17677
19
9.30320
0.9869
I.27361
9*55018
2
8.93247
0.9518
1. 1 1386
1. 16952
20
9.30521
0.98^7
1.27368
+6.58776
h
3
8.95477
0.9539
I.I2174
I. 16202
h "
9.30572
0.9896
I.27361
-9.54895
(0.0)
4
+8.97280
-0.9566
-1. 12934
+1. 15425
(18.0) 22
+9.30608
-0.9892
-1.27342
-9.85004
5
8.98655
0.9595
I. 13667
1. 14620
23
9.30737
0.9878
1.27309
0.02598
6
8.99638
0.9625
1. 14375
1. 13786
24
9.31044
0.9856
1.27264
0.15069
7
9.00290
0.9650
1. 15058
1. 12922
25
9.31561
0.9832
1.27205
0.24731
8
9.00706
0.9669
I.15716
1. 12028
26
9.32267
0.9810
I.27134
0.32616
9
+9.01009
-0.9679
-I.16351
+ I.IIIOO
27
+9.33086
-0.9796
-1.27049
-0.39272
10
9.01339
0.9681
1. 16964
I.IOI40
28
9.33931
0.9791
1.26952
0.45029
II
9.01847
0.9675
I. » 7554
1.09144
29
9-34714
0.9795
1. 2684 1
0.50097
12
9.02670
0.9663
1.18122
I.08III
30
935378
0.9806
1. 26717
0.54621
13
9.03886
0.9650
1. 18670
1.07040
31
935894
0.9821
1.26580
0.58704
14
+9.05477
-0.9638
-1.19197
+1.05929
Apr. I
+9.36260
-0.9838
-1.26430
-0.62423
15
+9.07306
-0.9636
-1. 19705
+1.04775
2
+9.36480
-0.9851
-1.26266
-0.65835
E ■- o".oo — o".ooo
[Bph 13I
BE8SELIAN STAR-NTJMBEES, 1918. .219
FOR WASHINGTON MEAN MIDNIGHT.
220.
BESSELIAN STABrNUMBEBS, 1913.
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
(Sid. Hr.)
hog A.
Loff B.
Lo«C.
Log D.
Solar Day.
(Sid. Hr.)
LoSi4.
July I
+9.71160
-0.9304
+0.50025
-1.30486
Aug. 16
+9.83026
2
9.71669
0.9299
0.54055
1.30357
17
9.83108
3
9.72188
0.9307
0.57731
1.302 14
18
9.83158
4
9.72668
0.9327
0.61 1 10
1.30060
19
9.83192
h 5
973075
0.9356
0.64233
1.29892
h "°
9.83229
(10.0) 6
+9-73385
-0.9387
+0.67135
-I.29712
(88.0) 21
+9.83292
7
9.73599
0.9414
0.69844
I.29519
22
9.83398
8
9-73743
0.9431
0.72383
1. 29313
23
9.83558
9
9.73859
0.9435
0.74770
1.29094
24
9.83778
lO
9.73993
0.9428
0.77021
1.28862
25
9.84051
II
+9.74185
-0.9413
+0.79149
-I. 28617
26
+9.84353
12
9.74458
0.9392
0.81 167
1.28358
27
9.84654
13
9.74810
0.9373
0.83083
1.28085
28
9.84922
14
9.75219
0.9363
0.84907
1.27798
29
9.85128
15
9-75651
0.9363
0.86646
1.27498
30
9.85267
i6
+9.76072
^•9375
+0.88307
-I.27183
31
+9.85342
17
9.76447
0.9395
0.89895
1.26854
Sept. I
9.85374
i8
9.76760
0.9421
0.91416
I.26510
2
985395
19
9.77008
0.9449
0.92874
I.26151
3
9.85440
20
9.77193
0.9476
0.94272
1.25777
h ^
9.85538
h 21
+977328
-0.9497
+0.95616
-1.25388
(88.0) 5
+9.85698
(20.0) 23
9.77431
0.95 1 1
0.96908
1.24982
6
9.85916
23
9.77522
0.9518
0.98152
1. 24561
7
9.86173
24
9.77624
0.9516
0.99349
I.24123
8
986438
25
9.77762
0.9507
1.00503
1.23668
9
9.86681
26
+9-77954
•0.9493
+I.O1615
-1.23197
10
+9.86883
27
9.78213
0.9479
1 .02688
1.22708
II
9.87036
28
978539
0.9468
1.03724
1.22200
12
9.87135
29
9.78919
0.9466
1.04724
I.21675
13
9.87188
30
9.79320
0.9474
1.05690
I.21130
14
9.872 1 1
31
+9-79703
^.9495
+ 1.06624
-1.20566
15
+9.87216
Aug. I
9.80036
0.9524
1.07526
1. 19982
16
9.87220
2
9.80292
0.9559
1.08398
1. 19378
17
9.87243
3
9.80467
0.9591
1.09242
1. 18753
18
9.87301
4
9-80574
0.9616
1. 10057
I.18106
19
9.87406
h 5
+9.80640
-0.9628
+ 1. 10846
-1. 17437
h 20
+9.87565
(81.0) 6
9.80710
0.9628
I.I1609
1. 16745
(0.0) 21
9.87775
7
9.80816
0.9618
1. 1 2347
1. 16030
22
9.88018
8
9.80986
0.9602
I.13061
1. 15289
23
9.88272
9
9.81224
0.9586
I.13751
1. 14524
24
9.88508
10
+9-81519
^.9576
+ I.I4419
-I. 13732
25
+9.88698
II
9.81846
0.9575
1. 15065
I.12912
36
9.88827
12
9.82170
0.9584
1. 15690
1. 12065
27
9.88896
13
9.82463
0.9604
1. 1 6294
i.i;i88
28
9.88922
14
9.82708
0.9630
1. 16877
1. 10279
29
9.88930
15
+9.82896
-0.9658
+1. 17442
-109339
30
+9.88953
16
+9.83016
-a9686
+1. 17987
-1.08365
Oct. I
+9.89022
Log P.
LogC.
LogD.
-0.9686
+I.17987
-1.08365
0.9709
I.18513
1.07356
0.9725
I.19021
1.06309
0.9734
I.19512
1.05334
0.9734
1. 19985
1.04098
-0.9726
+ 1. 20441
-1.03929
0.9716
1.20880
I.OI715
0.9701
I.21304
1.00452
0.9689
I.2171O.
0.99138
0.9683
I.22I02
0.97769
-0.9687
+ 1.32477
-0.96342
0.9701
1.33838
0.94854
0.9725
1.33183
0.93299
0.9754
1.235 14
0.91672
0.9784
1.33830
0,89969
-0.9809
+1.34131
-0.88183
0.9823
I.34418
0.86304
0.9824
1. 24691
0.84328
0.9814
1.24950
0.82244
0.9796
I.35196
0.80041
^.9777
+1.35437
-0.77705
0.9761
1.35646
0.75223
0.9753
1.25850
0.72575
0.9755
1.26043
0.69742
0.9766
1.36330
0.66695
-0.9785
+1.36385
-0.63403
0.9808
1.26537
0.59826
0.9830
1.36676
0.55912
0.9849
1.26803
0.51595
0.9861
I.36916
0.46783
-0.9867
+ 1. 37017
-0.41353
0.9865
I.37IO5
0.35128
0.9855
I.37180
0.27841
0.9839
1.37243
0.19057
0.9818
1.37293
0.07996
-0.9799
+ 1.37330
-9-93129
0.9785
1.27355
9-70273
0.9779
1.37367
-9.18934
0.9783
1.37366
+9.39076
0.9796
1.27352
9.73677
-0.9817
+ 1.37336
+9.95215
0.9841
1.37387
0.09546
0.9859
1.27235
0.20299
0.9870
1.27171
0.28906
0.9868
1-27093
0.36079
-0.9854
+ 1.37003
♦0.43335
-0.9831
+ 1.36899
+0.47601
B— o".oo
(Bph
■-o".ooo
13)
BESSELIAN STAR-NUMBERS, 1913,
221
FOR WASHINGTON MEAN MIDNIGHT.
tfDay.
iLHr.)
Loci4.
LogB.
LogC.
LogD.
Solar Day.
(Sid. Hr.)
Log A.
LogB.
LogC.
Log D.
L I
^.89022
-0.9831
+ 1.26899
+0.47601
Nov. 16
+9.95620
-0.9404
+ 1. 0401 2
+ 1.22053
2
9B9151
0.9804
1.26782
0.52374
17
9.95885
0.9403
1.02930
1.22593
3
9.89337
0.9779
1.26652
0.56665
18
9.96125
0.9413
I.O1805
I.23113
4
989565
0.9760
1.26508
0.60559
h 19
9.96319
0.9429
1.00636
1. 23614
. 5
9.89814
0.9751
I.26351
0.64123
(4.0) 20
9.96464
0.9445
0.99420
1.24096
.0) 6
+9.90047
-0.9752
+1.26181
+0.67407
21
+9.96561
-0.9456
+0.98155
+1.24560
7
9.90251
0.9761
1.25996
0.70448
22
9.96627
0.9456
0.96837
1.25006
8
9.90413
0.9775
1.25798
0.73280
23
9.96692
0.9442
0.95463
1.25434
9
9.90522
0.9790
1.25586
0.75928
24
9.96780
0.9418
0.94030
1.25844
lO
9.90590
0.9803
1.25360
0.78412
25
9.96915
0.9384
0.92534
1.26238
II
+9.90624
-0.9810
+1. 25120
+0.80751
26
+9.97103
-0.9349
+0.90968
+1. 26614
12
9.90637
0.9810
1.24865
0.82960
27
9.97340
0.9318
0.89330
1.26974
»3
9.90650
0,9802
1.24595
0.85050
28
9.97608
0.9297
0.87613
I.27318
14
9.90676
0.9787
1.243 10
0.87032
29
9.9788/
0.9287
0.8581 1
1.27646
15
9.90730
0.9764
1. 24010
0.88917
30
9.98147
0.9290
0.83916
1.27958
i6
+9.90828
-0.9737
+ 1.23695
+0.90712
Dec. I
+9.98379
-0.9301
+O.81919
+1.28254
I?
9.90976
0.9710
1.23364
0.92424
2
9.98566
0.9316
0.798 II
1.28535
i8
99" 73
0.9686
1. 23018
0.94060
3
9.98709
0.9331
0.77581
1.28800
19
9.91405
0.9669
1.22655
0.95625
4
9.98819
0.9343
0.75216
1.29050
i ^°
9.91654
0.9662
1.22276
0.97123
h 5
9.98906
0.9348
0.72698
1.29286
L9) 21
+9.91896
-0.9667
+I.21879
+0.98560
(6.0) 6
+9.98982
-0.9344
+0.7001 I
+1.29506
22
9.92103
0.9678
1.2 1466
0.99939
7
9.99061
0.9332
0.67133
1,29712
23
9.92258
0.9696
X.21O35
1. 01 263
8
9.99157
0.9313
0.64033
1.29904
24
9.92358
0.9710
1.20587
1.02537
9
9.99283
0.9288
0.60680
1.30081
25
9.92412
0.9716
I.20I20
1.03762
10
9.99444
0.9260
0.57030
1.30244
26
+992443
-0.9712
+1. 19634
+1.0494 1
II
+9.99646
-0.9234
+0.53030
+1.30392
27
9.92482
0.9696
I.I9129
1.06077
12
9.99884
0.9214
0.48608
1.30526
28
992556
0.9668
1. 18605
1.07 1 72
13
0.00145
0.9204
0.43668
1.30647
29
9.92684
0.9636
1. 18060
1.08228
14
0.00415
0.9206
0.38075
1.30753
30
9.92871
0.9601
1. 17495
1.09246
15
0.00664
0.9219
0.31637
1.30846
31
+9.93105
-0.9573
+ 1,16909
+ 1. 10228
16
+0.00877
-0.9240
.KX 24058
+1.30925
•V. I
9.93366
0.9554
1. 1 6301
I.III76
17
0.01046
0.9267
0.14852
1.30989
2
9.93627
0.9546
X.I567I
I.1209I
18
O.OI167
0.9288
0.03132
I.31041
3
993863
0.9549
I.I5OI7
I.12975
19
0.01252
0.9299
9.87007
I.31078
4
9.94061
0.9558
1. 14340
1. 13828
h ^
0.01326
0.9297
9. 6 104 1
I.31102
>) 5
+9.94212
-0.9569
+ 1. 13638
+1. 14652
(6.0) 21
+O.OI41O
-0.9284
+8.86865
+I.31112
6
9.94320
0.9579
I.I29II
1. 15448
22
0,01529
0.9259
-9.41506
I.31108
7
9.94394
0.9584
I.I2158
I.16217
23
0.01695
0.9231
9.77377
1.31090
8
9.94447
0.9583
I. "377
1. 16960
24
0.01906
0.9206
9.96744
1. 3 1059
9
9.94495
0.9574
1. 10569
1. 17678
25
0.02 15 1
0.9189
0.10083
1.3x014
10
+9.94551
^.9555
+1.09730
+I.18371
26
+0.02412
-0.9184
-0.20263
+1.30955
II
9.94632
0.9530
1.08862
1. 19040
27
0.02664
0.9192
0.28493
1.30882
12
9.94748
0.9500
1. 0796 1
1. 19686
28
0.02891
0.9210
0.35398
1.30795
13
9.94907
0.9469
1.07028
1. 203 10
29
0.03081
0.9235
0.41342
1.30694
14
9.95 "3
0.9439
1.06059
1. 20912
30
0.03230
0.9260
0.46558
1.30580
15
1995356
-0.9417
+1.05055
+1. 21493
31
+0.03344
-0.9282
-0.5 1 20 1
+1.30451
16
+9.95620
-0.9404
+ 1. 0401 2
+1.22053
32
+0.03433
-0.9299
-0.55383
+1.30308
E — o".oo
[Bph
—o'.ooo
131
222 INDEPENDENT STAR-NUMBERS, 1913
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.
Log*.
y
5
8
e /
h m
e t
h m
tt
Jan. o
o.ocx)7
-0.108
-0.008
264 58.0
1739.9
35036.92322.5
0.93561
1. 3 1003
-1.44
-0.1596
I
0.0034
0.096
0.0 1 1
265 20.5
17 41.4
34940.523 18.7
0.93350
1. 3098 1
1.59
0.2005
2
0.0062
0.085
O.OIO
26551.2
1743.4
348 44.0 23 14.9
0.931 12
1.30956
1.73
02377
3
0.0089
0.073
0.007
266 29.4
1746.0
34747.523 "2
0.92910
1.30930
1.87
0.2718
h ^
0.0116
0.061
-0.002
267 13.6
1748.9
34650.823 7.4
0.92790
1. 30901
2.01
0.3034
(7.0) 5
0.0144
-0.048
+0.003
268 0.3
1752.0
34554.1
23 3.6
0.92778
1. 3087 1
-2.15
-0.3326
6
0.017 1
0.036
0.008
268 45.8
17 55.1
344 57.3
22 59.8
0.92880
1.30838
2.29
0.3599
7
0.0199
0.024
0.012
269 27.2
1757.8
344 0.4
22 56.0
0.93071
1.30804
2.43
0.3855
8
0.0226
0.013
0.014
270 2.5
18 0.2
343 3.4
22 52.2
0.93323
1.30768
2.57
0.4095
9
0.0253
-O.OOI
0.013
27031.2
18 2.0
342 6.4
22 48.4
0.93603
1.30730
2.70
0.4321
lO
0.0281
K).OIO
+0.010
27052.9
18 3.5
341 9.2
22 44.6
0.93872
1.30690
-2.84
-0.4534
II
0.0308
0.022
+0.005
271 9-5
18 4.6
340 12.0
22 40.8
0.94095
1.30648
2.98
0.4736
12
0.0335
0.033
-O.OOI
271 22.3
18 5.5
339 14.6
22 37.0
0.94249
I.3060S
3.IX
0.4928
13
0.0363
0.045
0.008
271 34.1
x8 6.3
338 17.1
2233.1
0.94316
1.30560
3.24
0.5 1 10
14
0.0390
0.056
0.014
271 47.8
18 7.2
337 19.6
22 29.3
0.94292
1.305 13
3.38
0.5284
15
0.0418
fO.067
-0.018
272 6.1
18 8.4
33621.9
22 25.5
0.94195
1.30465
-3.51
-0.5450
i6
0.0445
0.079
0.020
27231.8
18 lO.I
335 24.1
22 21.6
0.94054
1. 3041 5
3.64
0.5608
17
0.0472
0.090
0.018
273 6.3
18 12.4
33426.1
22 17.7
0.9392 I
1.30364
3.77
0.5759
i8
0.0500
O.IOO
0.012
273 48.7
18 15.3
333 28.1
22 13.9
0.93854
1.30311
3.89
0.5904
h ^9
0.0527
O.II2
-0.005
27436.1
18 18.4
332 29.9
22 lO.O
0.93902
1.30258
4.02
0.6043
(8.0) 20
0.0554
fO.123
+0.003
275 24.1
18 21.6
331 3x6
22 6.1
0.94085
1.30202
-4.15
-0.6176
21
0.0582
0.134
O.OIO
276 7-5
18 24.5
33033.1
22 2.2
0.94390
1. 30146
4.27
0.6304
22
0.0609
0.144
0.015
27642.3
18 26.8
329 34.5
21 58.3
0.94776
1.30088
4.39
0.6427
23
0.0637
0.155
0.015
277 7.2
18 28.5
328 35.8
21 54.4
0.95178
1.30030
4.51
0.6545
24
0.0664
0.165
0.013
277 23.0
18 29.5
327 36.9
21 50.5
0.95530
1.29970
4.63
0.6658
25
0.0691
+0.176
+0.007
277 32.8
18 30.2
326 37.9
21 46.5
0.95768
1. 29910
-4.75
-0.6768
26
0.0719
0.186
0.000
27740.8
1830.7
325 38.7
21 42.6
0.95878
1.29848
4.87
0,6873
27
0.0746
0.196
-0.005
27751.5
18 31.4
324 39-3
21 38.6
0.95877
1.29786
4.98
0.6974
28
0.0774
0.206
0.009
278 8.5
1832.6
323 39-8
21 34.6
0.95798
1.29723
5.10
0.7072
29
0.0801
0.216
O.OIO
27832.7
1834.2
32240.1
21 30.7
0.95696
1.29659
5.21
0.7166
30
0.0828
fO.226
-0.008
279 3.7
1836.3
32140.3
21 26.7
0.95627
1.29594
-5.32
-0.7257
31
0.0856
0.236
-0.003
279 39.5
1838.6
320 40.3
21 22.7
0.95636
1.29530
5.43
0.7345
Feb. I
0.0883
0.246
+0.002
280 16.5
1841.1
319 40.1
21 18.7
0.95748
1.29464
5.53
0.7430
2
0.0910
0.255
0.008
28051.3
1843.4
31839.7
21 14.6
0.95961
1.29398
5.64
0.7511
h 3
0.0938
0.265
0.012
281 21.5
1845.4
31739.2
21 10.6
0.96249
1.29333
5-74
07590
(e.o) 4
0.0965
+0.275
+0.014
281 45.2
1847.0
31638.5
21 6.6
0.96580
1.29266
-5.84
-0.7666
5
0.0992
0.284
0.014
282 2.5
1848.2
31537.7
21 2.5
0.96920
1.29200
5-94
0.7740
6
0.1020
0.293
0.012
282 13.7
1848.9
31436.7
2058.4
0.97242
1.29134
6.04
0.7810
7
0.1047
0.302
0.007
282 20.3
1849.4
31335.5
20 54.4
0.97518
1.29068
6.14
0.7878
8
0.1075
O.31I
+0.001
282 24.0
1849.6
312 34.2
20 50.3
0.97719
1.29002
6.23
0.7944
9
0.1 102
+0.320
-0.005
282 27.3
1849.8
311 32.7
2046.2
0.97830
1.28936
-6.32
-0.8008
10
0. 1 1 29
0.329
0.012
282 32.6
1850.2
310 31.020 42.1
0.97861
1.28870
6.41
0.8069
II
0.1157
0.338
0.017
282 42.2
1850.8
309 29.2 20 38.0
0.97826
1.28805
6.50
0.8128
12
0.1184
0.346
0.019
282 58.3
1851.9
308 27.2
20 33.8
0.97751
1.28740
6.58
0.8185
13
0.1212
0.355
0.019
283 22.0
1853.5
30725.1
20 29.7
0.97681
1.28676
6.67
0.8240
14
0.1239
+0.364
-0.015
283 52.9
1855.5
306 22.8
20 25.5
0.97670
1. 28613
-6.75
-0.8292
15
0.1266
H).372
-0.008
284 27.7
1857.9
305 20.4
2021.4
0.97756
1.28550
-6.83
-08343
lEph 13I
INDEPENDENT STAR-NUMBERS, 1913
FOR WASHINGTON MEAN MIDNIGHT.
223
ohrDay.
Sidereal i
Hour.)
b. 15 1 0.1 266
16 i 0.1 294
17 jo.1321
J, 18 0.1348
1.0)19 1 0.1 376
20 0.1403
J.
21
22
23
24
25
26
27
28
I
2
3
4
0.1431
0.1458
0.1485
0.1513
0.1540
0.1568
0.1595
0.1622
0.1650
0.1677
0.1704
0.1732
li
L.0)
5 01 759
0.1786
0.1814
0.1 841
0.1869
0.1896
0.1923
7
8
9
10
II
12
13
14
15
16
17
20
1.0)22
23
24
25
26
27
28
O.I95I
0.1978
0.2006
0.2033
0.2060
r.
0.2088
18 0.2115
19 0.2142
0.2170
0.2197
0.2225
0.2252
0.2279
0.2307
0.2334
0.2362
0.2389
29 0.2416
30 0.2444
31 0.2471
1 0.2498
2 0.2
5a6|fo
/
In
Time.
/'
In
Time.
+0.372
0.380
0.388
0.397
0.405
■•0.412
0.420
0.428
0.435
0.443
+0.451
0.458
0.465
0.473
0.480
+0.488
0.495
0.503
0.510
0.516
1+0.523
0.530
0.537
0.544
0.550
I+0-557
0.564
0.571
0.578
0.585
+0.592
0.599
0.605
0.612
0.618
+0.625
0.632
0.639
0.646
0.652
+0.659
0.666
0.673
0.680
0.686
♦0.693
.701
-0.008
0.000
+0.007
0.012
0.014
+0.013
0.008
+0.002
-0.004
0.008
-O.OIO
0.009
-0.004
+0.001
0.007
+0.012
0.015
0.015
0.014
O.OIO
+0.004
0.003
0.009
0.015
0.0x8
0.019
0.016
O.OIO
-0.003
+0.004
+0.010
0.013
0.013
0.009
+0.003
-0.003
0.008
O.OII
O.OIO
0.006
-O.OOI
+0.005
O.OII
0.014
0.016
+0.015
+0.01 1
In
Arc.
284 27.7
285 2.8
28534.1
285 57.9
286 I3.I
286 20.2
286 22.4
286 23.3
286 26.8
286 36.2
28652.7
287 15.9
287 43.5
288 12.3
288 39.0
289 1.2
289 17.7
289 27.9
289 33.0
289 34.2
289 33-3
289 32.3
289 33.2
289 38.2
289 49.3
290 7.2
29031.6
291 0.1
291 29.0
291 55.1
292 15.1
292 27.7
292 33.0
292 33.4
292 32.6
292 34.7
292 42.5
292 57.2
293 18.7
293 45-3
294 1 3- 7
294 40.6
295 3.1
295 19-9
29531.0I
295 37.3
295 39-9!
In
Time.
h m
857.9
9 0.2
9 2.3
9 3.9
9 4.9
9
9
9
9
9
5-4
5-5
5.5
5.8
6.4
9 7.5
9 9.1
9 10.9
9 12.8
9 14.6
9 16.1
9 17.2
9 17-9
9 18.2
918.3
9 18.2
9 18.2
9 18.2
918.5
919.3
920.5
9 22.1
924.0
925.9
927.7
9 29.0
929.9
930.2
930.2
930.2
930.3
930.8
931.8
933.2
935.0
936.9
938.7
940.2
941.3
942.1
942.5
942.7
H
In
Arc.
305
304
303
302
301
300
299
297
296
295
294
293
292
291
290
289
288
287
286
285
284
282
281
280
279
278
277
276
275
274
273
272
271
270
268
267
266
265
264
263
262
261
260
259
258
257
256
20.4
17.8
15. 1
12.2
9.2
6.1
2.8
59.4
55-8
52.1
48.3
44.4
40.3
36.2
31.9
27.5
23.1
18.5
13.9
9.2
4.4
59.6
54.7
49.8
44.9
39.9
34.9
29.9
24.9
19.9
14.9
lO.O
50
0.0
55.2
50.4
45.6
40.9
36.2
31.6
27.1
22.7
18.4
I4.I
1 0.0
5.9
2.0
In
Time.
h m
20 2 1 .4
20 17.2
20 13.0
20 8.8
20 4.6
20 0.4
19 56.2
1952.0
1947.7
1943.5
19 39.2
19 35.0
19 30.7
19 26.4
19 22.1
19 17.8
19 13.5
19 9.2
19 4.9
19 0.6
18 56.3
1852.0
1847.6
1843.3
18 39.0
18 34.7
1830.3
18 26.0
18 21.7
18 17.3
18 13.0
18 8.7
18 4.3
18 0.0
1755.7
17 51.4
1747.0
1742.7
17 38.4
17 34.1
1729.8
17 25.5
17 21.2
17 16.9
17 12.7
17 8.4
17 4.1
Logi'.
0.97756
0.97961
0.98272
0.98652
0.99041
0.99377
0.99616
0.99738
0.99752
0.99685
0.99593
0.99525
0.99512
0.99588
0.99762
.00006
.00285
.00568
.00828
.01039
.01183
.01252
.01247
.01178
.01070
.00961
.00896
.00917
.01043
.01265
.01555
.01865
•02135
.02325
.02412
.02390
.02282
.02142
.02017
.01948
.01967
.02067
.02236
.02450
.02674
.02872
.0302^
Log h.
28550
28488
28427
28367
28308
28250
28194
28139
28085
28032
27982
27932
27885
27839
27795
27753
27713
27674
27638
27604
27572
27542
27515
27490
27466
27446
27428
27412
27398
27388
27379
27373
27369
27368
27369
27373
27379
27387
27398
27412
27427
27445
27466
27488
27513
tt
-6.83
6.91
6.98
.05
.12
.19
.26
.32
.38
.44
.50
.56
.61
.66
.70
.75
.79
.83
.87
.90
.94
.97
8.00I
8.02
8.05
8.09
8.10
8.12
8.13
-8.14
8.14
8.14
8.15
8.14
-8.14
8.14
8.13
8.12
8.10
-8.09
8.07
8.05
8.02
8.00
27540 -7-97
Log i.
-0.8343
0.8392
0.8439
0.8484
0.8527
-0.8569
0.8608
0.8646
0.8683
0.8718
-0.8751
0.8782
0.8812
0.8840
0.8867
-0.8893
0.8916
0.8939
0.8960
0.8979
-0.8998
0.9014
0.9030
0.9044
0.9056
-8.07 -0.9068
6.9077
0.9086
0.9093
0.9099
-0.9104
0.9107
0.9109
0.91 10
0.9109
-0.9107
0.9104
0.9099
0.9093
0.9086
-0.9078
0.9068
0.9057
0.9044
0.9031
-0.9016
^ "il S^ Vl .^^r^^^^^RI^
fEph ji\
224 INDEPENDENT STAR-NUMBERS, 1913
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.
Logi.
y
s
s
0 /
h m
0 /
h m
ti
Apr. I
0.2498
K).693
+0.015
295 37.3
1942.5
257 5.917 8.4
1.02872
127540
-7.97
-0.9016
2
0.2526
0.701
O.OII
295 39-9
1942.7
256 2.o'i7 4.1
1 .03024
1.27569
7.94
0.8999
3
0.2553
0.708
+0.006
295 40.5
1942.7
25458.2^16 59.9
I.O3II3
1.27600
7.91
0.8982
4
0.2580
0.715
0.000
29541.0
1942.7
25354.61655.6
1.03134
1.27634
7.88
0.8963
h 5
0.2608
0.722
-0.007
295 43.8
19 42.9
252 51.0 16 51.4
1.03089
1.27669
7.84
0.8942
(18.0) 6
0.2635
HJ.729
-0.013
29551.0
1943.4
251 47.61647.2
1 .02986
1.27706
-7.80
-0.8920
7
0.2663
0.736
0.017
796 3.6
1944.2
25044.41643.0
1.02845
1.27745
7.76
0.8897
8
0.2690
0.743
0.018
296 22.9
1945.5
249 4I.3JI6 38.8
1.02702
1.27786
7.71
0.8873
9
0.2717
0.750
0.016
29648.1
1947.2
248 38.4
16 34.6
1 .02602
1.27829
7.67
0.8847
lO
0.2745
0.757
0.012
297 17.7
1949.2
247 35-6
1630.4
1.02580
1.27873
7.62
0.8819
II
0.2772
+0.765
-0.005
297 48.3
19 51.2
246 33.0
16 26.2
1.02653
1.27919
-7.57
-0.8790
12
0.2800
0.772
+0.003
298 16.7
19 53.1
245 30.6
16 22.0
1.02822
1.27967
7.52
0.8760
13
0.2827
0.780
0.009
298 39.2
1954.6
244 28.4
16 17.9
1.03063
1. 28016
7-46
0.8728
14
0.2854
0.788
0.012
298 53-9
1955.6
243 26.3
16 13.8
1.03333
1.28067
7-40
0.8695
15
0.2882
0.795
0.013
299 2.3
1956.2
242 244
16 9.6
103579
I.28118
7.34
0.8660
i6
0.2909
K).8o3
+0.010
299 5.9
19 56.4
241 22.8
16 5.5
1 .03747
1. 28172
-7.28
-0.8624
17
0.2936
0.81 1
+0.004
299 7.5
19 56.5
24021.3
16 1.4
I.O3812
1.28226
7.22
0.8586
i8
0.2964
0.819
-0.003
299 12.0
19 56.8
239 20.0
15 57.3
1.03779
1.28281
7.16
0.8547
19
0.2991
0.827
0.008
299 22,7
19 57.5
238 18.9
15 53.3
1.03667
1.28338
7.09
0.8506
h ^^
0.3019
0.835
O.OII
299 40.4
19 58.7
237 18.0
15 49.2
1.03525
1.28395
7.02
0.8463
(14.0)21
0.3046
+0.844
-0.012
300 5.5
20 0.4
236 17.3
15 45.2
1.03396
1.28454
-^.95
-0.8418
22
0.3073
0.852
0.009
30036.1
20 2.4
235 16.8
1541.1
1.03320
1.285 13
6.88
0.8372
23
0.3 lOI
0.859
-0.003
301 8.1
20 4.5
234 16.4
15 37.1
1.03329
1.28573
6.80
0.8325
24
0.3128
0.867
+0.003
301 38.8
20 6.6
233 16.3
15 33.1
1.03427
1.28634
6.72
0.8275
25
0.3156
0.875
0.009
302 6.0
20 8.4
232 16.4
15 29.1
1 '03593
1.28695
6.64
0.8224
26
0.3183
+0.884
+0.014
302 27.3
20 9.8
231 16.6
15 25.1
1 .03801
1.28757
-6.56
-0.8170
27
0.3210
0.893
0.016
302 42.7
20 10.8
230 17. 1
15 21. 1
1.04020
I.28819
6.48
0.81 15
28
0.3238
0.901
0.016
302 52.8
20 1 1.5
229 17.8
15 17.1
1.04220
1.28882
640
0.8058
29
0.3265
0.910
0.013
302 58.9
20 1 1 .9
228 18.6
15 13.2
1.04382
1.28945
6.31
0.7999
30
0.3292
0.919
0.008
303 3-6
20 12.2
227 19.7
15 9.3
1.04486
1.29008
6.32
0.7938
May I
0.3320
fo.928
+0.002
303 8.5
20 12.6
226 20.9
15 5.4
1.04522
1.29072
-6.13
-0.7875
2
0.3347
0.938
-0.005
303 15.7
20 13.0
225 22.4
15 1.5
1.04497
1.29135
6x4
0.7809
3
0.3374
0.947
O.OII
303 26.9
20 13.8
224 24.0
1457.6
1 .0442 1
1. 29 198
5.94
0.7742
4
0.3402
0.955
0.015
303 43.5
20 14.9
223 25.9
1453.7
1.04316
1.29262
5.85
0.7672
5
0.3429
0.964
0.017
304 6.3
20 16.4
222 27.9
1449.9
1. 042 14
1.29325
5.75
0.7599
h 6
0.3457
fo.974
-0.016
30435.1
20 18.3
221 30.1
14 46.0
1.04153
1.29388
-5.66
-0.7524
(16.0) 7
0.3484
0.983
0.013
305 7.7
20 20.5
22032.6
1442.2
1.04161
1.29450
556
0.7447
8
0.35"
0.992
-0.006
30541.3
2022.7
21935.2
14 38.4
1.04265
1.295 13
5.45
0.7367
9
0.3539
1.002
+0.001
306 12.5
20 24.8
21838.0
14 34.5
1.04463
1.29575
5.35
0.7284
10
0.3566
1. 01 2
0.008
306 37-9
20 26.5
217 41.0
14 30.7
1.04734
1.29636
5.25
0.7199
II
0.3594
+1.022
+0.012
30656.1
20 27.7
21644.2
14 26.9
1.05036
1.29697
-5.14
-0.7110
12
0.3621
1.032
0.014
307 7-1
20 28.5
21547.6
14 23.2
1.05315
1.29757
5.03
0.7019
13
0.3648
1.042
O.OII
307 133
20 28.9
21451.2
14 19.4
1.05528
1.29817
4.92
0.6924
H
0.3676
1.052
+0.006
307 17.6
20 29.2
21354.9
14157
1.05655
1.29876
4.82
0.6826
15
0.3703
1.062
-0.00 1
307 24.3
20 29.6
21258.8
1411.9
1.05682
1.29934
4.70
0.6725
16
0.3730
f 1. 07 2 -0.007 1
307 36.2 2030.4
212 2.9
14 8.2
1 .05640
1.29991
-4.59
-0.6620
17
0.3758
fi.082
-O.OI I 1
307 55-5
2031.71
211 7.2
14 4-5
1.05562
1.30047
-4.48
-0.65 1 1
[Eph 13]
INDEPENDENT STAKr-NUMBEES, 1913. 225
FOR WASHINGTON MEAN MIDNIGHT.
226 INDEPENDENT STAR-NTJMBEES, 1913.
FOR MEAN MIDNIGHT.
INDEPENDENT STAR-NUMBERS, 1913. 227
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
1
/
r
G
H
Log^.
Log A.
•
•
iSidejieal
Hour.)
r
In In
Time. Time.
*
la
Arc.
In
Time.
In
Arc.
In
Time.
Log«.
y
s
s
0 /
h m
0 /
h m
II
ug. 16
0.6249
f2.o65
+0.014
325 33-4
21 42 2
12842.3
834.8
1. 21602
1.28756
♦-6.56
+O.8171
17
0.6277
2.074
0.009
325 27.8
21 41.8
12743.2
8 30.9
1.21731
1.28695
6.64
0.8224
18
0.6304
2.082
+0.004
325 23.5
21 41.6
1 26 43.9
8 26.9
I.21816
1.28634
6.72
0.8275
19 0.6331 1
2.091
-0.004
32521.5
21 41.4
12544.')
8 23.0
1. 21867
1.28574
6.80
0.8324
h ^^
0.6359
2.099
O.OIO
325 22.7
21 41.5
12444.8
8 19.0
1.21894
1. 28515
6.87
0.8371
1.0)21
0.6386
4-2.I06
-0.015
325 27.6
21 41.9
12344.9
8 15.0
I.21912
1.28456
+6.94
+0.8417
22
0.6414
2. 114
0.018
325 35-8
21 42.4
12244.9
8 ii.o
1.21945
1.28398
7.02
0.8461
23
0.6441
2.122
0.018
325 46.6
21 43.1
12144-7
8 7.0
1. 22012
1.28341
7.08
0.8503
24
0.6468
2.130
0.016
325 59.3
21 44.0
12044.3
8 3.0
1. 22126
1.28285
7.15
0.8544
25
0.6496
2.138
O.OIO
326 1 1.7
21 44.8
11943.7
7 58.9
1.22294
1.28230
7.22
0.8583
26
0.6523
f2.i46
-0.003
32621.5
21 45.4
1 18 42.9
7 54.8
1. 22516
I.28177
+7.28
+0.8620
27
0.6550
2.154
+0.004
326 27.2
21 45.8
117 42.0
7 50.8
1.22769
1.28124
7.34
0.8656
28
0.6578
2. 161
O.OIO
326 28.1
2145.9
1 16 40.9
7 46.7
1.23028
1.28072
7.40
0.8691
29
0.6605
2.169
0.013
32625.1
21 45-7
11539.6
7 42.6
1.23261
1.28022
7.45
0.8724
30
0.6633
2.177
0.012
326 19.3
2145.3
114 38.1
7 38.6
1.23449
1.27974
7-51
0.8756
31
0.6660
♦■2.185
+0.008
326 13.0
2144.9
11336.4
7 34-4
1.23575
1.27926
^-7.56
+0.8786
Dt- I
0.6687
2.192
+0.002
326 9.0
21 44.6
112 34.6
7 30.3
1.23640
1.27881
7.61
0.8815
2
0.6715
2.200
-0.004
326 9.3
21 44.6
III 32.6
7 26.2
1.23660
1.27836
7.66
0.8842
3
0.6742
2.207
0.009
326 14.8
2145.0
11030.5
7 22.0
1.23659
1.27794
770
0.8868
h ^
0.6770
2.214
O.OII
326 24.7
2145.6
109 28.3
7 17.9
1.23674
1.27753
7-75
0.8892
1.0) 5 0.6797
■1-2. 221 -O.OIO
32637.7
2 1 46.5
108 25.9
7 13.7
1.23726
1.27714
♦"779
+0.8916
6 0.6824
2.227-0.006
32651.4
2147.4
107 23.3
7 9.6
1.23830
1.27677
7.83
0.8937
7
0.6852
2.234
0.000
327 3-5
21 48.2
106 20.7
7 5.4
1.23986
1.27642
7.87
0.8958
8
0.6879
2.241
+0.007
327 12.4
21 48.8
105 17.9
7 1-2
1.24179
1.27608
7.90
0.8977
9
0.6906
2.249
0.012
327 17.0
21 49.1
104 14.9
6 570
1.24385
1.27577
7-93
0.8995
10
0.6934
+2.256
+0.016
327 17-5
21 49.2
103 1 1.9
6 52.8
1.24581
1.27548
+7.96
+0.9011
II
0.6961
2.263
0.017
327 148
21 49.0
102 8.8
6 48.6
1.24756
1.27520
7.99
0.9026
12
0.6988
2.270
0.015
327 10.4
2148.7
101 5-5
6 44.4
1. 2489 1
1.27495
8.02
0.9040
13
0.7016
2.277
O.OII
327 5.6
21 48.4
100 2.2
6 40.1
1.24985
1.27472
8.04
0.9053
14
0.7043
2.283
+0.006
327 1.8
21 48.1
98 58.7
6 35-9
1.25038
1.27452
8.06
0.9064
«5
0.7071
+2.290
-0.001
327 00
21 48.0
97 55.2
6 31.7
1.25057
1.27433
+8.08
+0.9074
16
0.7098
2.297
0.007
327 I.O
21 48.1
9651.6
6 27.4
1.25055
1.27417
8.10
0.9083
»7
0.7125
2.304
0.013
327 5-4
21 48.4
95 47-9
6 23.2
1.25042
1.27403
8.11
0.9091
18
0.7153
2.3II
0.017
327 13.3
21 48.9
9444.1
6 18.9
1.25034
1.27391
8.12
0.9097
»9
0.7180
2.317
0.018
327 24.3
21 49.6
93 40.2
6 14.7
1.25050
1.27382
8.13
0.9102
1 20
0.7208
+2.323
-0.016
327 37.0
21 50.5
92 36.3
6 10.4
1.25108
127375
+8.14
+0.9106
.0) 21
0.7235
2.330
0.012
327 49.7
2151.3
91 32.3
6 6.2
1.25217
1.27370
8.14
0.9108
22
0.7262
2.336
-0.005
328 0.6
21 52.0
9028.3
6 1.9
1.25373
1.27368
8.15
0.9109
23
0.7290
2.343
+0.002
328 8.2
21 52.5
89 24.3
5 57.6
1.25568
1.27368
8.15
0.9109
24
0.73x7
2.350
0.008
328 1 1.5
21 52.8
88 20.2
5 53.3
1.25776
1.27371
8.14
0.9108
25
0.7344
♦-2.357
+0.01 1
328 10.8
21 52.7
87 16.0
5 49- 1
1.25971
1.27376
+8.14
+0.9105
26
0.7372
2.364
0.012
328 7.1
21 52.5
86 1 1.9
5 44.8
1. 26129
1.27383
8.13
0.9102
27
0.7399
2.371
0.009
328 2.7
21 52.2
85 7.7
5 40.5
1.26232
1.27393
8.12
0.9096
28
0.7427
2.378 +0.003
328 0.0
21 52.0
84 3.5
5 36.2
1.26279
1.27405
8.11
0.9090
29
0.7454
2.384-0.003
328 1.2
21 52.1
82 59.3
5 32.0
1.26280
1.27419
8.10
0.9082
30
0.7481
♦-2.391
-0.009
328 7.0
21 52.5
81 55.1
5 27.7
1.26259
1.27436
+8.08
+0.9073
A. I
0.7309
f2.398
1-0.0 1 2
328 17.5
21 53.2
8050.9
5 23.4
1.26243
Li-^l^'bS
^%jc^
Wi.^f*'5>
fEph 13J
228 INDEPENDENT STAK-NUMBERS, 1913.
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
/
r
G
H
(SidcKal
Hour.)
r
In
Time.
In
Time.
In
Arc.
In
Time.
la
Arc.
\
In
Time.
Log^.
Logli.
•
%
Log i.
y
s
s
0 1
h m
0 t
h m
tt
Oct. I
0.7509
f2.398
-0.012
328 17.5
2153.2
80 50.9
5 23.4 !■
26243
1.27455
+8.06
+0.9063
2
0.7536
2.405
O.OII
32831.5
21 54.1
79 46.9
5 19.1 I-
26263
1.27476
8.04
0.9051
3
0.7564
2.412
0.008
32847.0
21 55.1
78 42.8
5 14.8 I.
26330
1.27500
8.01
0.9038
4
0.7591
2.419
-0.002
329 1-6
?I 56.1
77 38.7
5 10.6 I.
26448
1.27526
7-99
0.9024
h 5
0.7618
2.425
+0.005
329 13.3
21 56.9
76 34-7
5 6.3 I.
26605
1.27554
7.96
0.9008
(1.0) 6
0,7646
+■2.432
+O.OI I
329 21.2
2157.4
75 30.8
5 2.1 I.
26781
1.27584
+7.93
+0.8991
7
0.7673
2.439
0.016
329 25.2
21 57.7
74 26.9
457.8 I.
26957
1. 27616
7.89
0.8972
8
0.7700
2.446
0.018
329 257
2157.7
73 23.1
453.5 I-
27114
1.27651
7.86
0.8953
9
0.7728
2.453
0.017
329 24.2
21 57.6
72 19.3
449.3 I
27234
1.27687
7.82
0.8931
lO
0.7755
2.461
0.013
32922.1
21 57-5
71 15.6
445.0 I.
27316
1.27726
7.78
0.8909
II
0.7782
^2.468
+0.008
329 20.8
21 57.4
70 12.0
440.8 I.
27362
1.27766
+-7.74
+0.8885
12
0.7810
2.475
+0.002
329 21.3
21 57.4
69 8.5
436.6 I.
27372
1.27808
7.69
0.8859
13
0.7837
2.482
-0.005
329 24.4
21 57.6
68 5.1
432.3 I
27361
1.27852
7.64
0.8832
14
0.7865
2.490
O.OII
329 30.8
21 58.1
67 1.8
4 28.1 I.
27339
1.27898
7.59
0.8804
15
0.7892
2.497
0.015
329 40.6
2158.7
65 58.6
4 23.9 I
27321
1.27945
7.54
0.8774
i6
0.7919
+■2.505
-OXJI7
329 53-3
21 59.6
6455.5
4 19.7 I
27325
1.27994
+^7-49
+0.8742
17
0.7947
2.512
0.016
330 7-8
22 0.5
63 52.5
4 15.5 I-
27368
1.28045
7.43
0.8709
i8
0.7974
2.520
0.013
330 22.5
22 1.5
62 49.6
4 "-3 I
27457
1.28097
7.37
0.8674
19
0.8002
2.528
-0.007
330 36.0
22 2.4
61 46.8
4 7-1 I
27594
1.28151
7.31
0.8638
h ^°
0.8029
2.536
OSXJO
330 46.8
22 3.1
60 44.1
4 2.9 I
27769
1.28206
7.24
0.8600
(8.0) 21
0.8056
+■2.544
+0.006
330 53-5
22 3.6
5941.5
358.8 I
27961
1.28262
+7.18
+0.8561
22
0.8084
2.551
0.010
330 56.3
22 3.8
58 39.1
3 54-6 I
28147
1. 28319
7.11
0.8519
23
0.81 1 1
2.559
0.012
330 56.0
22 3.7
57 36.8
3 50.5 I
28305
1.28378
7.04
0.8476
24
0.8138
2.568
0.009
330 54.6
22 3.6
5634.7
3 46.3 I
28415
1.28437
6.97
0.8431
25
0.8166
2.576
+0.004
33054.1
22 3.6
55 32.6
3 42.2 I
.28473
1.28498
6.89
0.8385
26
0.8193
+■2.584
-0.002
330 56.5
22 3.8
54 30.7
3 38.0 I
.28487
1.28559
f6.82
+0.8336
27
0.8221
2.592
0.008
331 3-4
22 4.2
53 29.0
3 33.9 1
.28478
1. 28621
6.74
0.8286
28
0.8248
2.601
0.012
331 15.0
22 5.0
52 274
3 29.8 I
28472
1.28684
6.66
0.8233
29
0.8275
2.609
0.013
331 30.2
22 6.0
51 25.9
3 25.7 I
28494
1.28747
6.58
0.8179
30
0.8303
2.617
O.OIO
331 47.5
22 7.2
50 24.6
3 21.6 I
.28562
1. 28812
6,49
0.8122
31
0.8330
^-2.626
-0.005
332 4.7
22 8.3
49 234
3 17.6 I
.28683
1.28876
+6.40
-K>.8o64
Nov. I
0.8358
2.635
+0.002
332 19.5
22 9.3
48 22.4
3 13.5 I
.28845
1. 28941
6.31
0.8003
2
0.8385
2.644
0.009
332 30.4
22 lO.O
47 21.5
3 9-4 I
.29032
1.29006
6.22
0.7940
3
0.8412
2.653
0.014
332 37.3 22 10.5
46 20.8
3 5.4 I
.29223
1.29072
6.13
0.7874
h ^
0.8440
2.663
0.017
332 40.8 22 10.7
45 20.3
3 1.4 I
29397
1. 29137
6.04
0.7807
(8.0) 5
0.8467
f2.672
+0.018
332 42.0
22 10.8
44 19.9
2 57.3 I
29541
1.29303
+■5.94
+0.7737
6
0.8494
2.681
0.015
332 42.3
22 10.8
43 19.7
2 53.3 I
.29648
1.29268
5.84
0.7664
7
0.8522
2.690' O.OIO
332 43.0
22 10.9
42 19.6
2 49.3 I
.29718
1.29334
5.74
0.7589
8
0.8549
2.700+0.004
33245.1
22 II.O
41 19.7
245.3 I
.29757
1.29399
5.64
0.7510
9
0.8576
2.710-0.003
332 49.6
22 H.3
40 19.9
2 41.3 I
.29775
1.29464
5.53
0.7430
10
0.8604
+2.719 -0.009
332 57.3
22 II. 8
39 20.3
2 37.4 I
.29783
1.29529
+•5.43
+0.7346
II
0.8631
2.729 0.014
333 7-9
22 12.5
38 20.8
2 33.4 I
.29794
1.29593
5.32
0.7259
12
0.8659
2.739' 0.016
333 21. 1
22 13.4
37 21.5
2 29.4 I
.29827
1.29657
5.21
0,7169
13
0.8686
2.749 0.016
333 36. 1
22 14.4
36 22.3
2 25.5 I
.29891
1.29720
5.10
0,7076
14
0.8713
2.759 0.013
33351.8
22 15.5
35 23.3
2 21.6 I
.29998
1.29783
4.99
0.6979
15
0.8741
f 2. 769 -0.008
334 6.5
22 16.4
34 24.4
2 17.6 I
.30151
1.29845
+4,871+0.6878
16
0.8768
+2.779
-0.00 1 1
334 18.7
22 17.2
33 25.7
2 13.7 I
.30340
1.29906
+4.76
+0.6774
lEph 13]
INDEPENDENT 8TAK-NITMBEK8, 1918. 229
FOR WASHINGTON MEAN MIDNIGHT.
230 BESSELIAN AND INDEPENDENT STAR-NUMBERS, 1913.
FOR WASHINGTON SIDEREAL TWELVE HOURS.
Mean Solar
Date.
Jan.
Feb.
Mar.
Apr.
May
June
July
Aug.
Sept.
Oct.
Nov.
Dec.
0.72
10.69
20.67
30.64
9.61
19-58
1.56
11.53
21.50
31.48
10.45
20.42
30.39
10.37
20.34
30.31
9.28
19.26
29.23
9.20
19.18
29.15
8.12
18.09
28.07
7.04
17.01
26.98
6.96
16.93
26.90
5.88
15.85
25.82
5.79
15.76
25.74
35.71
Loff Ai.
-8.5367
+7.61 17
8.6069
8.8695
9.0190
+9.X2OO
9.1946
9.2538
9.3038
9.3489
+9.3916
9.4336
9.4754
9.5172
9.5585
+9.5988
9.6373
9.6737
9.7074
9.7380
+9.7656
9.7901
9.8115
9.8302
9.8466
+9.861 1
9.8743
98867
9.8991
9.91 18
+9.9253
99398
9.9554
9.9718
9.9887
+0.0058
0.0224
+0.0384
Log Bi.
-0.9303
0.9360
0.9442
0.9537
0.9633
-0.9720
0.9789
0.9832
0.9846
0.9831
-0.9789
0.9723
0.9643
0.9558
0.9477
-0.9407
0.9360
0.9338
0.9346
0.9381
-0.9439
0.9515
0.9597
0.9677
0.9746
-0.9798
0.9825
0.9824
0.9793
0.9737
-0.9657
0.9562
0.9463
0.9371
0.9298
-0.9252
0.9240
-0.9263
Log C
-0.5317
0.8201
0.9825
.0897
.1642
.2158
.2496
.2684
.2736
.2658
.2448
.2094
.1572
.0838
0.9807
-0.8289
0.5732
-9.8112
+0.3914
0.7407
+0.9241
.0438
.1279
.1882
.2304
.2576
.2714
.2726
.2610
.2356
.1943
•1337
.0470
0.9204
0.7193
+0.2976
-0.1273
-0.6652
Log D.
+1.3039
1.2824
1.2453
1. 1896
I.IXOO
+0.9957
0.8217
+0.5019
-9.5502
0.5861
-0.8588
.0156
.1202
.1939
.2459
.2811
.3023
•3109
.3074
.2916
.2627
.2186
.1557
.0674
0.9398
-0.7382
-0.3156
+0.1508
0.6882
0.9146
+1.0540
1.1495
1. 2169
1.2636
1-2935
+1.3087
1.3100
+12975
/
-0.106
+0.012
0.124
0.227
0.321
+0.405
0.481
0.551
0.618
0.686
+0.757
0.834
0.918
I.OII
1. 112
+1.220
1.333
1.449
1.566
I.681
+ 1.791
1.895
1.991
2.079
2.158
+2.232
2.301
2.368
2.436
2.508
+2.588
2.676
2.773
2.880
2.994
+3. 1 14
3236
+3-357
Gi
265 22
270 33
275 16
279 23
282 50
285 44
288 14
290 30
292 41
294 57
297 24
300 6
303 2
306 8
309 17
312 21
315 13
317 46
319 55
321 40
323 3
324 7
324 56
325 36
326 II
326 45
327 23
328 8
329 2
330 5
331 18
332 37
333 58
335 16
336 28
337 29
338 19
338 55
H
350 24
340 58
331 22
321 32
311 26
301 4
290 28
279 43
268 55
258 12
247 39
237 23
227 26
217 49
208 30
199 27
190 34
181 49
173 5
164 18
155 22
146 14
136 50
127 8
117 8
106 50
96 19
85 41
75 2
64 28
54 6
43 57
34 4
24 24
14 56
5 34
356 15
346 52
Logai.
Log h.
0.9317
0.9360
0.9460
0.9595
0.9743
0.9886
1.0013
I.OI16
1.0x96
1.0257
1.0306
1.0353
1. 0410
1.0486
1.0589
1.072 X
1. 088 1
1. 1063
1. 1258
1.1455
1. 1649
1.1834
1.2004
I.2I57
1. 2291
1.2408
X.2509
1.2597
1.2678
1.2758
1.2843
1.2935
1.3039
1.3155
1.3284
1.3422
1.3563
13705
I.3I00
1.3068
I.30I9
1.2959
1.2893
1.2830
1.2779
1.2747
1.2737
1.2751
1.2787
1.2839
1.2900
1.2963
1.3020
1.3066
1.3098
1.3111
1.3105
1.3082
1.3041
1.2988
1.2928
1.2866
I. 2810
1.2766
1.2741
1.2739
1.2760
1.2802
1.2858
1.2923
1.2987
1.3042
1.3084
1.3107
I.3IIO
1.3090
Log »'.
-0.1690
0:4574
0.6198
0.7270
0.8015
-0.8531
0.8869
0.9057
0.9x09
0.9031
-0.8821
0.8466
0.7945
O.7211
0.6179
-0.4662
0.2106
-^.4484
+0.0287
0.3780
+0.5613
0.6810
0.7652
0.8254
0.8676
+0.8948
0.9087
0.9099
0.8982
0.8728
+0.8316
0.77x0
0.6842
0.5577
0.3566
+9.9348
-9.7646
-0:3025
E=o".ooo
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.
lEph X3l
TDBMS OF SHORT PERIOD IN THE NUTATION, 1913. 231
FOR WASHINGTON MEAN MIDNIGHT.
232 TERMS OF SHORT PERIOD IN THE NUTATION, 1913.
FOR WASHINGTON MEAN MIDNIGHT.
Date.
S'^if
(J'^fi)
Date.
<S''^
S^^os
Date.
<5'^^
S^^oo
Date.
^^
d^^a>
II
II
II
II
II
II
II
t*
July I
-0.18
-0.09
Aug. 16
40.2I
40.04
Oct. I
-0.19
+0.04
Nov. 16
-0.02
-O.II
2
-0.06
O.II
17
0.15
0.08
2
0.18
-O.OI
17
40.08
0.09
3
40.06
O.IO
18
4o.o6
O.IO
3
0.13
0.06
18
0.17
-O.Q5
4
0.17
0.07
19
-0.06
O.IO
4
-0.03
O.IO
19
0.20
0.00
5
0.23
-0.02
20
0.16
0.08
5
40.08
O.II
20
0.18
+0.05
6
0.24
40.04
21
0.25
0.05
6
0.18
O.IO
21
40.II
0.09
7
0.19
0.08
22
0.29
40.0I
7
0.25
0.07
22
0.00
O.II
8
40.09
O.II
23
0.30
-0.03
8
0.29
-0.02
23
-O.II
O.IO
9
-0.02
O.II
24
0.25
0.07
9
0.27
40.02
24
0.19
0.07
lO
0.12
0.08
25
0.16
O.IO
10
0.22
0.06
25
0.23
4O.02
II
-0.18
40.04
26
-0.05
-O.II
II
40.13
40.09
26
-0.20
-O.Q3
12
0.19
-0.0 1
27
40.07
0.09
12
•KJ.03
O.IO
27
0.13
0.08
13
0.14
0.06
28
0.16
-0.05
13
-0.0S
0.09
28
-0.02
O.IO
14
-0.06
0.09
29
0.21
0.00
14
0.18
0.07
29
40.IO
O.II
15
40.05
O.II
30
0.20
+0.05
15
0.25
40.04
30
0.20
0.09
i6
0.14
O.IO
31
0.14
0.09
16
0.28
-O.OI
Dec. I
0.27
O.Q5
17
0.22
0.07
Sept. I
40.04
O.II
17
0.26
0.05
2
0.29
-0.01
i8
0.25
-0.03
2
-0.06
O.IO
18
0.21
0.09
3
0.26
40.Q4
19
0.24
4aoi
3
0.14
0.07
19
-O.II
O.II
4
0.19
0.07
20
0.20
0.05
4
0.18
40.02
20
0.00
O.IO
5
40.I0
0.09
21
40.I2
40.08
5
-0.16
-0.03
21
40.IO
-0.08
6
-O.OI
40.IO
22
40.0I
O.IO
6
-O.IO
0.08
22
0.17
-0.03
7
0.12
0.09
23
-0.10
O.IO
7
0.00
O.IO
23
0.19
40.02
8
0.20
0.06
24
0.19
0.08
8
40.II
O.II
24
0.15
0,07
9
0.25
40.02
25
0.27
40.04
9
0.20
0.09
25
40.07
O.IO
10
0.27
-0.02
26
0.30
0.00
10
0.26
0.05
26
-0.03
O.II
II
0.23
0.06
27
0.29
-0.05
II
0.28
-O.OI
27
0.13
0.09
12
0.16
0.09
28
0.22
0.08
12
0.25
+0.03
28
0.20
4o.o6
13
-0.05
O.II
29
-0.12
O.II
13
0.18
0.07
29
0.21
0.00
14
4o.o6
O.IO
30
0.00
O.IO
14
40.09
0.09
30
0.17
-0.05
15
0.16
0.06
31
40.I2
-0.08
15
-O.OI
40.I0
3^
-0.08
-0.09
16
40.2I
-ao2
Aug. I
0.20
-0.04
16
0.12
0.09
Nov. I
40.03
O.II
17
0.21
40.04
2
0.23
4O.02
17
0.21
0.07
2
0.14
O.IO
18
0.15
0.08
3
0.20
0.07
18
0.27
+0.03
3
0.23
0.08
19
40.05
0.1 1
4
0.12
O.IO
19
0.29
-0.02
4
0.28
-0.04
20
-0.06
O.II
5
4O.02
O.II
20
0.26
0.06
5
0.29
40.0I
21
0.16
0.08
6
-0.09
O.IO
21
0.19
0.09
6
0.24
0.05
22
0.22
40.04
7
0.16
40.06
22
-0.09
O.II
7
0.17
0.08
23
0.22
-0.02
8
0.18
0.00
23
-K5.03
O.IO
8
40.07
O.IO
24
0.16
0.06
9
0.15
-0.05
24
0.12
0.07
9
-0.04
O.IO
25
-0.07
0.10
10
-0.08
-0.09
25
40.l8
-0.02
10
-0.14
40.08
26
40.05
-O.II
II
40.03
O.II
26
0.19
40.04
II
0.22
0.05
27
0.16
0.10
12
0.13
O.IO
27
0.14
0.08
12
0.26
40.0I
28
0.24
0.06
13
0.21
0.08
28
+0.05
O.II
13
0.26
-0.04
29
0.28
-0.02
14
0.26
-0.04
29
-0.05
O.II
H
0.22
0.08
30
0.26
40.02
15
0.26
0.00
30
0.14
0.08
15
0.13
O.IO
31
0.21
0.06
16
40.2I
+0.04
Oct. I
-0.19
40.04
16
-0.02
-O.II
32
+0.12
40.09
lEph 13]
MEAN PLACES OF STARS, 1913.
233
WASHINGTON, JANUARY o«».a48.
Name of Star.
Magni-
tude.
Right Ascension.
Annual
Variation.
Declination.
Annual
Variation.
33 Piscium .
4-7
h
0
m s
0 52.969
8
+ 3.0715
0 / "
- 6 II 39.31
ft
+20.136
a Andromedae (Alpheratz)
2.2
0
3 53.258
3.0957
+28 36 36.47
19.880
P Cassiopeiae . . ] 2.4
0
4 31.687
3.1840
+58 40 11.83
19.861
« Phoenicis .
3-9
0
4 59884
3.0518
-46 13 39-11
19.848
22 Andromedae
5.1
0
5 47.680
3.IO9I
+45 35 17.31
20.035
y Pegasi
2.9
0
8 45.248
+ 3.0862
+14 41 59.77
+20.02 1
(T Andromedae
4.5
0
13 46.740
3.I27I
+36 18 10.48
19.963
I Ceti ...
3.8
0
14 59731
3.0570
- 9 18 22.07
19.973
C Tucanae
4.3
0
15 32.892
3.I49I
-65 23 8.63
21.172
44 Piscium
6.0
0
20 56.538
3.0743
+ I 27 28.44
19.939
p Hydri
2.9
0
21 11.823
+ 3.2029
-77 44 39.20
+20.278
a Phcenicis .
2.4
0
21 59.227
2.9729
-42 46 42.40
19.551
12 Ceti
6.0
0
25 35-947
3.0621
- 4 26 16.33
19.920
13 Ceti . . . t
5.2
0
30 46.167
3.0871
- 4 4 17.72
19.848
C Cassiopeiae
3.7
0
32 7-076
3.3278
+53 25 5.71
19.842
fc Andromedae
4.4
0
32 13.829
+ 3.1972
+33 14 26.07
+ 19.848
« Andromedae
4.5
0
33 57.295
3.1640
+28 50 22.26
19.572
<T Andromedae
3.5
0
34 40.340
3.2017
+30 23 5.70
19.720
a Cassiop. . (Schedir) If
t;ar.
1
0
35 33.725
3.3858
+56 3 37.32
19.773
/I Phnenicis .
4.6
0
37 12.926
. 2.8398
-46 33 46.17
19.750
/J Ceti
2.2
0
39 13.394
+ 3.0126
-18 27 50.02
+19.794
0 Cassiopeiae
4.7
0
39 52.291
3.3306
+47 48 30.35
19.737
21 Cassiopeiae
5.6
0
39 52.886
3.9026
+74 30 45.79
19.717
C Andromedae
4.3
0
42 43.448
3.1744
+23 47 38.66
19.621
Tf Cassiopeiae . . t
3.6
0
43 49.737
3.6123
+57 21 18.74
19.204
<J Piscium
4.6
0
44 10.031
+ 3. I 100
+ 76 42.47
+ 19.630
X Hydri
50
0
45 34.854
2.IOI8
-75 23 48.17
19-650
20 Ceti
4.9
0
48 33.619
3.0641
- I 36 58.84
19.594
y Cassiopeiae
2.2
0
51 26.840
3.5965
+60 14 45.09
19.538
A« Andromedae
3.9
0
51 55.175
3.3205
+38 I 39^55
19.564
a Sculptoris
4.4
0
54 24.808
+ 2.8907
-29 49 39.57
+19.471
43 H. Cephei
4.5
0
56 38.823
7.5880
+85 47 27.59
19.432
« Piscium
4.4
0
58 25.585
3. 1 1 1 I
+ 7 25 19.06
19.424
fi Phoenicis . . t
3.4
2 12.087
2.6801
-47 II 5.20
19.288
f^ Cassiopeiae
5-3
2 28.327
3.9685
+54 29 38.75
17.750
n Ceti
3.6
4 12.792
+ 3.0174
-10 38 35.20
+19.139
fi Andromedae
2.4
4 51.359
3.3502
+35 9 34.34
19. 131
T Piscium .
4.7
6 51.902
3.2968
+29 37 40.88
19.170
C Piscium . . . t
5.6
9 11,070
3.I3I7
+ 76 56.03
19.087
fc Tucanae . . . f
5.0
12 49.151
2.0399
-69 20 17.78
19.131
/Piscium .
5.3
13 18.618
+ 3.0924
+ 39 23.65
+ 19.003
V Piscium
^1 -
4.7
14 40.856
3.2903
+26 48 25.45
18.983
*Ceti
3.8
19 40.453
2.9977
- 8 37 55.19
18.632
0 Cassiopeiae
2.8
20 6.841
3.8991
+59 47 1. 10
18.797
y Phoenicis .
3.4
24 35.284
2.6080
-43 45 50.10
18.471
33 Cassiopeiae
6.0
24 44.152
+ 4.4126
+69 49 2.48
+18.619
7 Piscium
3-7
26 49.512
3.2056
+H 53 51.59
18.622
a Ursae Min. (Polaris) f 2.1 1
28 19.01*
+28.0572
+88 50 29.36
+ 18.578
i3CeU,dup.5«5,6«2,o".3
/3Ph
cenicis, dup. 4™.i, 4
°».X.l".
K Tucanae, comp. 7™, 6
► ' n.
ff Cassiop.. var. irreg. 2"*. 2, 2".8
CPis
jcium,star6".5, 24"
n.£.
a Ursae Min. star 9™, il
3"s.pr.
If Cassiop. comp, 7"*.6, 5" a. pr.
lEph 13I
234
MEAN PLACES OF STARS, 1913.
WASHINGTON, JANUARY o<'.a48
Name of Star.
Magni-
tude.
Right Ascension.
Annual
Variation.
Declination.
Annual
Variation.
h m s
s
0 f tf
#»
40 Cassiopeiae
5.5
I 31 32.375
+4.7295
+72 35 49.85
+18.466
V Andromedae
4.2
I 31 41.107
3.5092
+40 58 14.55
18.086
7C Piscium
5.6
I 32 29.044
3.1763
+11 41 48.48
18.470
V Persei
3.8
I 32 38.686
3 6665
+48 II 16.04
18.310
a Eridani (Achernar)
0.6
I 34 28.506
2.2366
-57 40 42.96
18.326
w Cassiopeiae
5.5
I 35 52.804
+4.3989
+67 36 12.57
+ 18.315
r Piscium
47
I 36 54- 138
3. "95
+ 52 51.83
18.284
^ Persei
4.2
I 38 11.986
3-7433
+50 15 3.25
18.218
r Ceti
3.6
I 40 1.548
2.7865
-16 23 42.92
19.025
0 Piscium .
4.5
I 40 47.856
3.1648
+ 8 43 12.74
18.183
e Sculptoris . . t
54
I 41 34.072
+2.8046
-25 29 13.04
+ 18.058
4 Octantis (G.) .
5.6
I 42 17.46*
-3.8020
-85 12 33.92
18. no
C Ceti
3.9
I 47 9.943
+2.9600
-10 45 51.88
17.867
a Trianguli .
3.6
I 48 7.092
3.4128
+29 9 19.64
17.625
e Cassiopeiae
34
I 48 7.349
4.2824
+63 14 31.86
17.842
€ Piscium .
4.8
I 49 3.008
+3.1036
+ 2 45 30.41
+17.840
P Arietis
2.7
I 49 49.824
3.3080
+20 22 59.35
17.677
^ Phoenicis .
44
I 50 9.J87
2.4038
-46 43 43.53
17.670
V Ceti
4.2
I 55 54.315
2.8258
-21 29 56.22
17.528
50 Cassiopeiae
4.1
- I 55 58.782
5.0572
+72 0 3.32
17.553
a Hydri
3.0
I 56 1.317
+1.8819
--6 1 59 34.61
+17.558
y Andromedae />r.
2.3
I 58 33.178
3.6704
+41 54 45.99
17.373
y Andromedae 5eg.
51
j^a + 0.890
• • •
/id + 4.67
• • •
a Arietis
2.2
2 2 15.924
3.3757
+23 3 5.55
17. 116
/? Trianguli .
3.1
2 4 21.720
3.5609
+34 34 34.52
17.122
55 Cassiopeiae
6.2
2 7 38.278
+4.6659
+66 7 2.24
+17.014
6 Persei
54
2 7 48.663
3.9723
+50 39 43.92
16.842
4^ Ceti
4.5
2 8 23.202
3.1767
+ 8 26 20.25
16.966
/I Foraacis .
5-2
2 9 4.355
2.6379
-31 7 54.73
16.928
y Trianguli .
4.1
2 12 8.257
3.5578
+33 26 43.24
16.753
67 Ceti ...
57
2 12 38.571
+2.9905
- 6 49 21.69
+16.671
<i> Eridani .
3.8
2 13 23.991
2.1413
-51 54 52.73
16.716
0 Ceti . (Mira) f
var.
2 14 57.034
3.0290
- 3 22 19.57
16.441
K Foraacis .
54
2 18 33.667
2.7448
-24 12 40.94
16.415
6 Hydri
4.3
2 20 11.784
1.0578
-69 3 18.20
16.430
t Cassiopeiae . . f
4.6
2 21 52.898
+4.9003
+67 0 43.19
+16.336
^Ceti*
4-3
2 23 31.872
3.1862
+ 84 14.27
16.235
<y Ceti
4.8
2 27 57.750
2.8414
-15 37 33.07
15-909
36 H. Cassiopeiae .
5.3
2 29 44.075
5.6341
+72 26 19.00
15.935
y Ceti
5.0
2 31 18.386
+3.1449
+ 5 12 51.12
15.815
}x Hydri
5.3
2 33 29.124
-1.3560
-79 29 20.83
+15.678
y Arietis
54
2 33 52.400
+3.4016
+21 35 8.62
15.674
S Ceti
4.0
2 35 1.315
30730
- 0 2 46.27
15.636
e Hydri
4-3
2 38 14.807
0.9132
-68 38 22.58
15.459
e Persei
4.2
2 38 15.027
4.0823
+48 51 40.32
15.366
y Ceti seq, . . . f
37
2 38 47453
+3.1057
+ 2 52 10.89
+15.273
7t Ceti
44
2 39 58.854
2.8537
-14 13 35.87
15.345
fji Ceti
44
2 40 14.196
+3.2391
+ 9 44 50.84
+15-318
f Sculptoris, comp. 9™, 5" n. f.
t Ca
ssiop., triple. 7", 8=
S2",8" ;'
Ceti. comp., C™.2.
2".7 pr.
0 Ceti, var., 331^ i". 7-9^.6, star
9°»£. 8»
lEpb 13I
MEAN PLACES OF STAKS, 1913.
235
WASHINGTON. JANUARY o<a48.
Name of Star.
Magni-
tude.
Right Ascension.
Annual
Variation.
Declination.
Annual
1 Variation.
V Persei . . . f
3.9
h
2
m 8
44 20.514
s
+4.3562
0 / //
+55 32 6.75
+15.097
41 Arietis
3.7
2
44 51.533
3.5244
+26 54 9.31
14.968
fi Fornads .
4.5
2
45 26.968
2.5121
-32 46 15.34
15.201
<y Arietis
5.5
2
46 41.196
3.3077
+14 43 26.58
14.939
r'Eridani .
4.8
2
47 5.453
2.7199
-21 21 43.32
14.933
r Persei
4.1
2
48 4.865
+4.2353
+52 24 25.92
+14.889
i; Eridani
4.0
2
52 10.608
2.9301
- 9 14 37.82
14.437
e Arietis (mean) . . f
4.6
2
54 14.034
3.4250
+20 59 34.63
14.517
47 H. Cephei .
5.7
2
54 28.216
7.8391
+79 4 34.50
14.522
0 Eridani . . f
3.4
2
54 57.857
2.2767
-40 39 10.35
14.507
a Ceti
2.8
2
57 43.790
+3.1330
+ 3 44 56.38
+14.236
y Persei
3.1
2
58 29.224
4.3268
+53 9 5972
14.264
r* Eridani .
4.2
2
58 33.365
2.6448
-23 57 53.61
14.220
p Persei . . . f
var.
2
59 35.776
3.8346
+38 30 13.64
14.084
M Horologii .
5-2
3
I 33.547
1.4074
-60 4 28.96
14.024
0 Hydri
5.5
3
2 3.924
+0.0987
-72 14 31.93
+14.060
/3 Persei . (Algol) f
var.
3
2 30.150
3.8927
+40 37 16.39
14.017
6 Arietis
4.5
3
6 39.084
3.4258
+19 23 54.19
13.758
12 Eridani . . . f
4.0
3
8 22.468
2.5466
-29 19 46.56
14.283
48 H. Cephei.
5.5
3
9 14.359
7-4934
-^7 24 59.34
13.537
C Arietis
5.0
3
9 53.856
+3.4433
+20 43 21.42
+13.467
38 Horologii (G.) . . f
5.7
3
10 20.734
1.5145
-57 38 49.64
13.514
C Eridani
4.9
3
" 36.379
2.9122
- 9 8 32.07
13.493
r Arietis
5.2
3
16 12.091
3.4590
+20 50 2.60
13.105
s Eridani .
4.3
3
16 27.164
+2.3980
-43 24 7.10
13.879
t Hydri
5.5
3
18 6.249
-1.5573
-^7 42 23.89
+13.052
a Persei
1.9
3
18 6.259
+4.2680
+49 33 8.55
12.984
0 Tauri
3.8
3
20 7.762
3.2252
+ 8 43 24.15
12.803
2 H. Camelopardalis .
44
3
22 0.890
4.8356
+59 38 17.18
12.751
^ Tauri
3.8
3
22 27.134
3.2482
+ 9 25 47.63
12.674
/Tauri
4.3
3
26 4.068
+3.3088
+12 38 21.23
+12.476
€ Eridani . . . f
3.8
3
28 49.841
2.8251
- 9 45 7.42
12.310
T* Eridani .
4.3
3
29 56.609
2.6482
21 55 27.08
12.168
6 Persei
3.1
3
36 43.465
4.2591
+47 30 36.93
11.695
<f Eridani .
3.7
3
39 4.802
2.8729
-10 3 26.71
12.294
-y Persei
3.9
3
39 16.710
+4.0662
+42 18 16.78
+11.549
5 H. Camelopardalis
4.7
3
41 9.325
6.2808
+71 3 55.17
11.358
ff Tauri . (Alcyone) f
3.0
3
42 18.596
3.56x2
+23 50 12.62
11.282
r* Eridani .
4.3
3
43 6.272
2.5806
-23 30 19.84
10.793
^ Eridani .
4.2
3
46 11.944
+2.2451
-36 27 46.95
11.022
y Hydri
3.2
3
48 34.375
^.9674
-74 30 20.92
+ 10.993
C Persei
2.9
3
48 39.574
+3.7651
+31 37 33.85
10.855
9 H. Camelopardalis . f
5.2
3
49 42.558
5.0925
+60 51 18.09
10.775
€ Persei . . , f
3.0
3
^2 0.709
4.0186
+39 45 33.88
10.595
S Persei
4.0
3
53 18.983
3.8863
+35 32 29.67
IO..508
y Eridani .
3.2
3
53 58.196
+2.7984
-13 45 19.36
+10.366
A Tauri . . . t
var.
3
55 51.516
3.3213
+12 14 42.92
10.323
S Reticuli .
4.4
3
57 21.805
+0.9405
-61 38 43.24
+ 10.220
7f Persei, star 8^.5, 28" n. pr.
£ Arietis, dup., 5"*.2. 5°^.6, i".2
S Eridani. comp. 4".4, f. 8"
p Persei, var. irreg.. 3".4-4".a
fl Persei, var. 2*^.87, 2™.i-
12 Eridani,comp.,7™, i".4
38 Horologii remarkable
plisb red star.
e Eridani, comp. 9®, s. 7'
[Eph 13]
3"*.2
n. pr
7 Tauri. qaad., comps. 6"*. 3,
ym 6, s^.2, 117". 181", 190"
pur- 9 H. Camelop., comp. 8™, i".9 n. t
e Persei, comp. 8", 8" 6 n. f.
X Tauri, var., 3**. 95, 3^. 3-4^^.2
236
MEAN PLACES OF STARS, 1913.
WASHINGTON. JANUARY oJ.a48.
Name of Star.
t
t
y Tauri
A Tauri
c Persei
p Tauri
o* Eridani .
Groombridge 750
}i Tauri
a Horologii .
a ReticuS
Y Tauri
6 Tauri
t/ Eridani
e Tauri
6 Mensae
m Persei
a Tauri (AldehararC)
y Eridani
a Doradus .
53 Eridani .
r Tauri
Groombric^e 848
a Coeli
4 Camelopaidalis
pi Eridam
n^ Orionis
9 Camelopardalis
i Tauri
n^ Orionis
< Aurigae
P Camelopardalis
* Aurigae
C Aurigae
I Tauri
II Orionis
1; Aurigae
e Leporis
ft Eridam
/i Aurigae
19 H. Camelopardalis
/< Leporis
a Aurigae . (Capella)
ft Orionis . (Rigef) f
A. Aurigae
r Orionis
o Columbae .
y Orionis . (Bellatrix)
ft Tauri
17 Camelopardalis
t
3.9
4.5
4.0
5.6
41
6.7
4-3
3.8
3.4
3.9
3-9
4.1
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
5.1
3.9
2.9
4.2
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
h m 8
3 58 31.622
3 59 32.966
4 2 20.456
4 5 31.781
4 7 37.080
Annual
Variation.
Dedination.
Annua]
Variation.
4 8
4 10
4 II
4 13
4 14
4
4
4
4
4
17
20
23
23
27
4 30
4 31
4 32
4 34
4 37
4
4
4
4
4
4
4
4
4
4
4
4
4
4
5
5
5
5
5
5
37
37
40
41
45
45
46
49
51
55
55
56
57
59
o
I
3
7
8
9
52.234
48.522
7.122
18.01 1
50.431
54.928
46.127
32.083
49.572
17.396
55.598
58.248
6.930
1 1 .664
1.298
6.285
45.405
45.063
9.096
6.961
23.645
16.960
43.132
19540
40.373
43.415
23.644
53.668
35-797
24.709
46.658
34.351
28.334
11.849
1.385
5 10 15.591
5 10 21.362
5 13 1.150
5 13 22.901
5 14 20.657
5 20 27.843
5 20 47.470
5 21 57.004
s
+ 3.1895
3.5430
4.3464
3.6488
2.9272
+17.5460
3.2554
1 .9873
0.7646
3.4II3
+ 3.4567
2.2528
+ 3.5005
- 4.I53I
+ 4.2145
+ 3.4398
2.9956
1 .2945
2.7454
3.5984
+ 8.0I6I
1.9299
4-9858
2.9987
3.2550
+ 5.9468
3.5074
3.1239
3.9036
5.3249
+ 4.3008
4.1892
3.5845
3.4265
4.2038
+ 2.5384
2.9491
4.IOI4
9-8295
2.6939
+ 4.4284
2.8822
4.2174
2.9124
2.1587
+ 3.2168
379"
+ 5.6591
ff
//
+ 5
+21
+47
+26
- 7
+85
+ 8
-42
-62
+15
+17
-34
+18
-80
+42
+16
- 3
-53
-14
+22
ns
-42
+56
- 3
+ 6
+66
+18
+ 2
+33
+60
+43
+40
+21
+15
+41
-22
- 3
+38
+79
-16
+45
- 8
+40
- 6
-34
+ 6
+28
+62
44 55.03
50 42.00
28 52.18
15 16.88
3 49-33
19 32.98
40 30.76
30 31.44
41 29.16
25 5.94
20 21.32
13 6.36
59 17.84
25 6.81
52 44.47
20 6.72
31 46.43
13 28.81
28 24.09
47 27.06
47 4.45
r 47.00
36 13.81
24 48.08
48 36.96
II 46.67
41 33.44
17 56.62
I 45.36
18 58.98
41 44.02
56 59.60
27 59.21
17 1.59
7 4.04
29 14.10
II 53.24
22 56.65
8 0.75
18 28.01
54 38.17
18 5.04
I 21.98
56 15.62
58 47.79
16 17.91
32 5.62
A Tauri. 8tar6".5 £. 38«, 270", s.
m Piersei, star6".5, 115", s. pr.
59 45.05
« Aurigae, var. trreg., 3*.o-4*.5. [ fi Orionis, comp. 8».o,
[Bph 13]
+10.129
9.999
9-8«3
9.559
9.526
+ 9.386
9.169
8.939
9.043
8.853
+ 8.606
8.453
8.156
8.239
7.894
+ 7.407
7.512
7-489
7.177
7.081
+ 6.950
6.933
6.646
6.752
6.457
+ 6.416
6.302
6.056
5.896
5.541
+ 5. 536
5.470
5.317
5.187
5.082
+ 4.974
4.812
4.475
4.648
4.394
+ 3.888
4.308
3.421
4.045
3.615
+ 3.424
3.236
+ 3.306
9".5.«.pr
MEAN PLACES OF STARS, 1913.
237
WASHINGTON. JANUARY o*.a4S.
Name of Star.
ft Leporis
X Aurigae
6 Ononis . . f
Groombridge 966
a Leporis
^ Orionis
/ Orionis . . . t
e Orionis
C Tauri
Groombridge 944
C Orionis . . t
a Columbac .
o Aurigae
C Leporis
K Orionis
^ Doradus .
y Aurigae
31 Mensae (G.)
^ Leporis
a Orionis (Betelgeux) f
^ Aurigae
Tf Leporis
fi Aurigae
0 Aurigae . . t
1 Geminorum
1 Puppis (G.) . t
y Orionis
22 H. Camelopardalis
7 Geminorum . f
2 Lyncis
C Canis Majoris .
/4 Geminorum
i^ Aurigae
A? Canis Majoris .
8 Monocerotis . . f
ot Argils (Canopus)
10 Monocerotis
y Geminorum
8 Lyncis
23 H. Camelopardalis
^ Canis Majoris .
51 Aurigae
r Geminorum
y ArgHs
S Monocerotis . f
« Geminorum
5 Geminorum
^^ Aurigae
6 Ononis, star 6'".9, 52".6, n. ,
I Orioois, comp. 7". 3. 11 ".5, s.f.
C Ononis, oomp. 4™. 2. 2".^, s.f.
3.0
4-9
2.5
6.4
2.7
4-5
2.9
1.8
3.0
6.4
2.0
2.8
5-5
3-7
2.2
4-5
4.2
6.2
3.9
var,
3.9
3.8
2.1
2.7
4.3
6.2
4.4
4.7
var,
4.4
3.1
3.2
5.1
2.0
4.5
-0.9
50
4.1
6.0
5.6
4.5
5-7
1-9
3-2
4.7
32
3.4
5-3
Right Asocasion.
m
5 24 3 1 059
5 27 3855
5 27 33.680
5 28 5.029
5 28 53.574
5 30 2.608
5 31 10.622
5 31 47.901
5 32 26.680
5 33 57.736
5 36 22.119
5 36 29.919
5 39 9.527
5 43 0.773
5 43 37.807
5 44 36.904
5 45 27.569
5 47 1.50*
5 47 34.765
5 50 27.691
5 52 21.869
5 52 26.532
5 53 8.857
5 53 47.318
5 58 49.915
6 I 58.179
2 36.305
9 15.751
9 37.608
11 57.010
6 16 58.322
6 17 41.863
6 18 12.034
6 18 52.089
6 19 9.504
6 22 1.238
6 23 39.862
6 23 47.853
6 29 44.636
6 31 24.375
6 31 24.623
6 32 37.896
6 32 41.195
6 35 6.036
6 36 11. 226
6 38 34.818
6 40 24.423
6 40 28.302
6
6
6
6
Anoual
Variation.
Declination.
Annual
Variation.
s
+ 2.5702
0 /
-20 49
41.16
+3.002
3.9038
+32 7
42.94
2.858
3.0642
- 0 21
45.96
2.825
8.0074
+74 59
17.32
2.800
2.6456
-17 53
2.07
2.712
+ 3.2925
+ 9 25
52.99
+2.597
2.9341
- 5 57
58.68
2.512
3.0435
- I 15
24.02
2.462
3.5848
+21 5
24.95
2.372
18.7532
+85 9
21.38
2.268
+ 3.0269
- I 59
16.63
+2.049
2.1724
-34 7
12.02
2.014
4.6450
+49 47
21.25
1.802
2.7178
-14 51
13.23
1.484
2.8448
- 9 41
59.33
1.427
+ 0.X020
-65 46
5.38
+ 1.344
+ 4.1572
+39 7
26.60
1.284
-11.6895
-84 49
51.91
1.220
+ 2.5796
-20 53
8.83
0.437
3.2478
+ 7 23
29.98
0.843
+ 4.9417
+54 16
45.53
+0.549
2.7322
-14 10
58.44
0.802
4.4017
+44 56
22.89
0.593
4.0916
+37 12
26.80
+0.452
3.6474
+23 16
7.90
-0.007
+ 1.7257
-45 2
10.00
+0.053
3.4264
4*14 46 46.84
-0.253
6.6187
+69 21
7.24
0.924
3.6227
+22 31
58.39
0.858
5.2987
+59 2
37.64
I.015
+ 2.3018
-30 I
27.97
-1.507
3.6307
+22 33
32.99
1. 66 1
4.6261
+49 20
0.45
1.594
2.6415
-17 54 43.07
X.645
3.1802
+ 4 38
16.24
1.665
+ I. 33 19
-52 38
52.37
-1.914
2.9641
- 4 42
27.26
2.060
3.5629
+20 16
5.17
2.094
5.4925
+61 33
32.38
2.870
10.3020
+79 39 39.53
3.371
+ 2.5157
-22 53
41.01
-2.704
4.1598
+39 28
6.67
2.957
3.4671
+16 28
27.70
2.897
1.8367
-43 7
9.24
3.077
3.3047
+ 9 58
37.19
3.160
+ 3.6929
+25 13
5.50
-3.377
3.3685
+12 59
24.91
3.709
+ 4.3300
+43 39
54.20
-3-361
a Orionis, red star, var. irreg.
i"».o-i™.4.
6 Aurigx.comp. 7".5.2".5, n. pr.
I Puppis, star, 5"*.8. 150". s. t.
[Eph 13I
8
S
Gem., var. a3i**.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, 1913
WASHINGTON, JANUARY o<248.
Name of Star.
Magni-
tude.
Right Ascension.
Annual
Variation.
Declination.
Annual
Variatkyn.
h
m
8
s
Off*
/*
a Canis Majoris (Sirius) t
-1.6
6
41
18.860
+ 2.6435
-16 35 46.16
- 4.801
1 8 Monocerotis
4.7
6
43
19-451
3.1281
+ 2 30 29.37
3.783
43 Camelopardalis
5.1
6
44
19.896
6.4895
+68 59 27.66
3.841
0 Geminorum
3.6
6
47
3.413
3.9583
+34 4 1. 61
4.137
a Pictoris
3.3
6
47
18.005
+ 0.6177
-61 50 52.42
3.870
C Mensae
5.6
6
47
18.312
- 4.9387
-80 43 22.11
— 4.026
r Argtis
2.8
6
47
46.631
+ 1.4884
-50 30 39.28
4.255
15 Lyncis . . . t
4.5
6
49
44.976
5.2075
+58 32 16.99
4.447
0 Canis Majoris .
4.2
6
50
8.896
2.7879
-II 55 43.78
4.359
€ Canis Majoris . . f
1.6
6
55
12.387
2.3574
-28 51 10.95
4-779
C Geminorum . t
var.
6
58
57-005
+ 3.5607
+20 41 55.52
- 5.107
6* C^nis Majoris .
3.1
6
59
23501
2.5048
-23 42 19.73
5.132
y Canis Majoris .
4.1
6
59
49.361
2.7148
-15 30 14.52
5.183
51 H. Cephei
5.3
7
0
7.12*
29.2898
+87 II 16.00
5.233
6 Canis Majoris .
2.0
7
4
51.179
2.4381
-26 15 15.97
5-594
63 Aurigae
5.1
7
5
40.459
+ 4.1331
+39 27 48.41
- 5.669
51 Geminorum
5.3
7
8
22.625
+ 3.4482
+16 18 26.75
5-934
y^ Volantis . . . t
3-9
7
9
29.285
- 0.5005
-70 21 28.07
5-908
25 H. Camelopardalis
5.1
7
12
50.993
+12.8361
+82 34 55.51
6.312
X Geminorum
3.6
7
13
5.670
3.4504
+16 41 53.17
6.330
7t Argtis
2.7
7
14
4.205
+ 2.1189
-36 56 27.42
- 6.376
d Geminorum . . t
3.5
7
14 55-739
•f 3.5866
+22 8 36.20
6.452
6 Volantis .
4.0
7
16
53.036
- 0.0189
-67 47 52.92
6.606
7 Octantis (G.) .
6.4
7
17
41.19*
-20.1724
-86 53 40.29
6.661
t Geminorum
3.9
7
20
19.517
+ 3.7306
+27 58 18.72
6.970
ij Canis Majoris .
2.4
7
20
39.276
+ 2.3737
-29 7 57.97
- 6.903
Groombridge 1308
5.8
7
21
50.412
6.2767
+68 38 41.17
7.052
/3 Canis Minoris .
3.1
7
22
26.027
3.2555
+ 8 27 55.37
7.103
p Geminorum
4.2
7
23
3 1 .063
3.8633
+31 57 30.82
6.961
(T Argds . . . t
3-3
7
26
28.193
1.9018
-43 7 29.25
7.205
a* Geminorum (Castor)
2.0
7
29
3.069
+ 3.8334
+32 4 49.81
- 7.676
or* Geminorum
2.8
J^ -
- 0.272
• • •
^d - 4.12
• • •
25 Monocerotis
5-2
7
32
57.136
2.9819
- 3 54 57.37
7.888
a Can. Min. . (Procyon) t
0.5
7
34 44907
^ 3.1422
+ 5 26 54.76
9.090
24 Lyncis
5.0
7
35
39.203
5.0947
+58 54 54.27
8.182
K Geminorum . . f
3.7
7
39
11.869
+ 36267
+24 36 26.61
- 8.468
/3 Geminorum (Pollux)
1.2
7
39
59.666
3.6760
+28 14 13.77
8.526
4 Puppis
51
7 41
56.508
2.7636
-14 21 6.05
8.628
4" Argis
3.5
7
45
38.119
2.5232
-24 38 26.88
8.916
<p Geminorum
50
7
48
10.529
3.6769
+26 59 30.75
9.140
26 Lyncis
5-7
7
48
23.008
+ 4.3820
+47 47 27.97
- 9-136
Groombridge 1374 .
5.6
7
49
48.314
7.2478
+74 9 6.68
9.278
X Argds
3.6
7
54
34.040
1.5260
-52 44 55.50
9.603
oj Cancri
5.9
7
55
40.139
3.6342
+25 37 54.27
9.697
X Geminorum
5.0
7
58
10.678
3.6906
+28 2 20.40
9.937
27 Lyncis
4.9
8
I
55.277
+ 4 5308
+51 45 30.53
-10.171
p Argtis
2.9
8
3
50.318
2.5546
-24 3 10.13
10.260
3 H. Ursae Majoris
- 5.5
8
4
10.194
+ 6.0144
+68 43 53.25
-10.332
15 Lyncis, dup., 4^.9. 6™.2, o".7
r^v
olantis, comp. 5°*.8
. I2".9,
6 J
irgtis, star. 8« 22"
4. n. f.
e Can. Maj., comp.9™, 7".8. s. f.
n. pi
»
•
K-C
jem., comp. 8"*, 5, 6
".6, s. pr.
C Gem., var., io<*.i5, 3°7-4"-3
6C
tetn.,
comp. 8™, 7".<
3, s. pr.
Positions given for Sirtus and Procyon are those of the centers <rf gravity of the systems. Corrections given tm
X>age ix remain to be applied to reduce to the p<»itions of the stars.
lEph 13]
MEAN PLACES OF 8TAKS, 1913.
. JANUARY o'.i48.
239
:£.
D«lh»tloii.
y^^.
8498
-47
4
4756
-10.548
4447
+17
54 39-55
10.693
6259
+76
25-95
:o.678
7580
-15
31
31.68
10.720
1112
+88
53 44-4'
.0.883
=558
+ 9
27
"5-79
-'0.955
Ills
+43
28
5-23
11.373
4393
+18
36
43-99
"-4>J
1340
-59
13 45-38
11.542
9997
- 3
37
"8.95
11.611
0137
+61
0
36-13
-11.827
7439
-77
13
15-38
"-7IJ
9098
+38
t8
55-99
13.191
4746
+20
44
14-54
12.097
7493
+73
56
5.86
'2.325
•783
+ 6
0
28.05
-12.42S
1384
+ 3
38
51-25
11.506.
477*
+21
46 55 44
I2.8lt
4141
+18
28 28.93
.3.108
.4110
-32
52
20.14
I3.8SI
6383
+29
4
43-76
-13-03*
'799
+ 6
44
19.29
13-079
6518
-54
23
21.91
13-138
6684
+30 54 34-52
13-496
1746
+ 6
16
38.18
13-587
1336
+48
23
2.27
-14.000
1848
42.25
13-823
4681
-58
53
36.17
13-871
1116
+47
30
4-74
14.098
3248
+67
29
19.21
14.410
15^9
■1-11
I
8.00
-'4-374
2061
-43
4
5 '.88
14-474
0876
-85
18
58.68
14.708
"37
+ a
40
5490
15.081
6707
-69
21
3156
.4.818
3539
+18
4
28.99
-i5-'57
6041
-58
54
35-35
'5. OS'
6640
+34 45
39.84
i5-'OJ
65'3
-25
35
42.38
15-254
9487
- 8
16
5138
15-508
7673
+«3
26
34-74
-15-59*
8161
+81
42
44.16
15-648
3635
+70
12
48.73
15.661
03 "5
+53
4
28.28
16.288
2371
+11
41
8.27
IS -840
359^
-40
5
8-59
-15.718
6857
+36 47
4-04
15865
6453
-80
33
1-95
-16.223
'jM '.5. *pr- ' • Hydne, triple; binary 3". 5,
■i, triple: binary s^.fi, I 6".8,o".a.wilhcomp.7'" "
(, i" with comp. IS",o, 3". 3
|B.L 8 ArgOs. comp. 5", a", B.
i, ■tar6".6. 30" .6, n. pr, j tP Cancri, dup. 5".9. 6'°.4, i'
tp A.i^.<lu^. I**.**'
240
MEAN PLACES OF STARS, 1913
WASHINGTON, JANUARY 0^.948.
Name of Star.
Ma«rni-
tade.
Right Ascenuoo.
Annual
Variation.
Dcdmatioa.
Annual
Variation
h m s
8
0 /
ft
f»
0 Leonis
3.8
9 36 30.550
•4-3-2052
+10 17
19.38
-16.277
6 Antliae
5.0
9 40 19.388
2.6730
-27 22
14.61
16.408
€ Leonis
3.1
9 40 54-949
3.4i>3
+24 10
31-00
16.488
V Ursae Majoris
3.9
9 44 48.866
4.2937
+59 26
54.81
16.816
V Argils
\ 3.2
9 44 55-686
1.5009
-64 40
5-98
16.680
6 Sextantis .
6.0
9 46 51-038
+3.0246
- 3 50
6.43
-16.785
/i Leonis
41
9 47 49.087
3.4175
+26 25
1.96
16.858
Groombridge 1586
6.0
9 50 37.874
5.4349
+73 17
37-77
16.996
19 Leonis Minoris .
5.2
9 52 21.658
3.6858
+41 28
13.82
17.039
^ Argils
3-7
9 53 48.353
2.1014
-54 9
12.68
17.103
TT Leonis
4-9
9 55 37-031
+3.1724
+ 8 27
43.48
-17. 1.92
?7 Leonis
3.6
10 2 35.406
3.2730
+17 II
14.47
17.476
a Leonis . (Regulus)
1.3
10 3 44.428
3.1984
+12 23
34-10
17-523
X Hydrae
3.8
10 6 20.805
2.9246
-II 55
25.00
17.719
q Velorum .
41
10 11 4.835
2.5127
-41 41
26.10
17.792
32 Ursae Majoris .
5.7
10 II 43.864
+4-3956
+65 32
34-32
-17863
C Leonis
3.6
10 II 51.269
3.3426
+23 51
4.61
17.864
X Ursae Majoris
3.5
10 II 51.373
3.6318
+43 20
57-55
17.894
y Leonis pr.
\ 2.6
10 15 10.692
3.3119
+20 16
55-27
18.137
/i Ursae Majoris .
3.2
10 17 9.103
3.5866
+41 56
14-90
18.034
30 H. Ursae Majoris
4-9
10 17 52.714
+4.3643
+66 0
24.67
-18.106
30 H. Camelopardalis
5-3
lo 20 34.492
7.6025
+83 0
6.83
18.179
M Hydrae
4.1
10 21 52.934
2.9004
--16 23
30.39
18.316
31 Leonis Minoris .
4-4
10 22 51.461
3.4797
+37 9
11.96
18.384
a Antliae
4.4
10 23 10.145
2.7422
-30 37
29.32
18.306
36 Ursae Majoris .
4.8
10 25 4.129
+3.8621
+56 25
37-33
-18.390
9 H. Draconis
5.0
10 27 44.011
5.1899
+76 9
41.87
18.452
p Leonis
3.8
10 28 13.912
3.1618
+ 9 45
16.80
18.464
33 Sextantis .
6.4
10 36 58.629
30520
- I 17
1.36
18.855
41 Leonis Minoris .
50
10 38 41-307
3.2674
+23 38
39.08
18.788
0 ArgAs
3.0
10 39 50.959
+2.1320
-63 56
20.26
-18.859
42 Leonis Minoris .
5.4
10 41 1.843
3.3430
+31 8
26.98
18.909
V ArgAs
• var.
10 41 40.951
2.3204
-59 13
36.99
18.896
// Argds
• 2.8
10 43 1.464
2.5732
-48 57
37-90
19.007
/ Leonis
5.3
10 44 41.160
3.1566
+11 0
20.70
19.006
S^ Chamaeleontis . . 1
\ 4.6
10 44 58.640
+0.5961
-80 4
52.70
-18.985
r Hydrae
3-3
10 45 19.858
2.9581
-15 44
16.54
18.780
46 Leonis Minoris .
3.9
10 48 27.019
33640
+34 41
316
19.360
54 Leonis . . . 1
\ 4.5
10 50 54.306
3-2534
+25 12
50.57
19.160
I Antliae
4.7
10 52 39923
2.7957
-36 40
11.58
19-324
Groombridge 1706
6.3
10 53 1.693
+4.8948
+78 14
11.48
-19.231
a Crateris .
4.2
10 55 32.054
2.9205
-17 50
7.65
19.150
d Leonis
5-0
10 56 4.084
3.0993
+ 45
5.27
19.293
/3 Ursae Majoris
2.4
10 56 36.032
3.6419
+56 50
56.40
19.258
a Ursae Majoris .
2.0
10 58 22.218
+3-7302
+62 13
15-30
19.396
V Octantis .
6.3
10 59 56.70*
-0.3494
-84 7
33.14
-19366
X Leonis
4-7
II 0 31.821
+3.0962
+ 7 48 24.05
19.4x5
^* Leonis
5.7
II 2 28.001
+3-0613
+ 2 25
41.26
-19.498
V ArgCis, comp. 6".o, 4". 9, s. f.
y Leonis. comp. 3".8, ^".J, s. f.
7 Argfts. var., irref ., i*
/I Argdls, comp. 7", 2"
(Eph 13]
.6-6».6
2, n. 1
52 Cham., star 5^.5 pr. 32«,
54 Leonis, comp. 6".3, 6"
Lf*
236' .s.
.4. s. ^
MEAN PLACES OF STARS, 1913. 241
JANUARY o*.»<S.
. M^-^a, comp. 6».8, a".6, n. f. I r Crucis, slar, 6"" ,6, 85", n. f. \y Virginia, binary. 3".
Can. Vcn, star S",ii".6,i.pr. 14 Comie. star, 6»7, io".6. pr. | 6". 2. P = 328''
'Corvi «ar, 8", 14". 4. s. pr. | y Cent., dup„ 3".i. 3".i, i".4 j
'913 >6 lEph ijl
242
MEAN PLACES OF STARS, 1913
WASHINGTON. JANUARY o««.248.
Name of Star.
Magni-
tude.
Right Ascension.
Annual
Variation.
Declination.
Annual
1 Variation.
h
m 8
8
r f tt
tt
76 Ursflp Majoris .
5.9
12
37 46.126
+2 6322
+63 II 26.05
-19.792
ft Crucis
1-5
12
42 37717
3-4810
-59 12 48.21
19-733
1 Octantis .
54
12
45 43.33*
5-9377
-84 39 3.86
19.624
31 Comae
5.1
12
47 2771 1
2.9241
+28 0 50.08
19.642
32 H. Camelop. seq, . f
5.3
12
48 28.663
0.4348
+83 53 8.80
19-583
n Centauri .
4.3
12
48 36.810
+3.3122
-39 42 21.25
-19-632
t Ursae Majoris {Alioth)
1.7
12
50 12.343
2.6487
+56 25 54.77
19-579
d Virginis
37
12
51 13225
3.0207
+ 3 52 12.21
19.607
a Canum Venat. seq, . f
2.9
12
51 57.614
2.8109
+38 47 16.91
19.484
d Muscse
3.6
12
56 15.966
4.0698
-71 4 47.27
19.476
e Virginis
3.0
12
57 50.768
+2.9865
+11 25 35.54
-19.396
0 Virginis . . f
4-4
13
5 26.622
3.1031
- 5 4 29.18
19.274
43 Comae
4.3
13
7 48.908
2.8027
+28 19 8.22
18.296
20 Canum Venaticorum .
4.7
13
13 38.665
2.6959
+41 I 49.62
19.005
y Hydrae
3.3
13
14 11.316
3.2551
-22 42 45.99
19.057
I Centaari .
2.9
13
15 42.018
+3.361 1
-36 15 1318
-19058
C* UrsaeMaj.. (Mizar) t
2.4
13
20 25.561
2.4225
+55 22 46.08
18.853
C Ursae Majoris
4.0
Jar + 0.957
• • •
J* -12.68
...
a Virginis . (Spica)
1.2
13
20 36.462
3.1568
-10 42 26.80
18.851
Groombridge 2001
6.1
13
23 54.818
1.5241
+72 50 34.83
18.736
70 Virginis .
5-2
13
24 10.491
+2.9340
+14 14 35-39
-19.293
K Octantis .
5.6
13
26 38.29*
9.0487
-85 20 27.65
18.654
C Virginis
3.4
13
30 15.517
30544
- 0 9 4.89
18.472
17 H. Canum Venat.
50
13
30 54.845
2.6819
+37 37 40.50
18.493
€ Centauri .
2.6
13
34 22.008
3.7791
-53 I 28.29
18.410
m Virginis
5.2
13
37 2.620
+3.1450
- 8 15 51.60
-18.243
r Bootis
4-5
13
43 7'^^7
2.8508
+17 53 23.87
18.024
Tf Ursae Majoris (Alkaid)
1-9
13
44 6.869
2.3682
+49 44 4970
18.035
89 Virginis
51
13
45 8.470
32537
-17 42 4.08
18.014
C Centauri .
3.1
13
50 6.321
3.7247
-46 51 38.05
17.840
17 Bootis
2.8
13
50 32.541
+2.8567
+18 50 0.44
-18.122
0 Apodis , . . t
var.
13
56 48.740
5.7339
-76 22 38.74
17.527
r Virginis .
4-3
13
57 13.063
3.0512
+ I 57 54.58
17.509
II Bootis
6.1
13
57 13.843
2.7216
+27 48 22.91
17.475
/3 Centauri .
0.9
13
57 40.409
4.2041
-59 57 13.57
17.494
TT Hydrae
3-5
14
I 24.806
+3.4089
-26 15 49.42
-17.444
0 Centauri .
2.3
14
I 33.440
3-5190
-35 56 32.60
17.816
a Draconis .
3.6
14
2 2.056
1.6243
+64 47 29.04
17-259
d Bootis . .
4.8
14
6 25.915
2.7371
+25 30 11.88
17.150
K Virginis .
4.3
14
8 15.168
+3.1966
- 9 52 9.18
16.856
4 Ursae Minoris .
50
14
9 10.177
-0.2845
+77 57 22.56
—16.920
I Virginis .
4.2
14
II 27.022
+3-1422
- 5 35 8.77
17.265
a Bootis ,{Arcturus)
0.2
14
II 41.559
2-7355
+19 38 5.69
18.830
S Octantis .
4.1
14
12 50.81*
9.2252
-83 16 13.94
16.785
A. Bootis
4-3
14
13 4.673
2,2832
+46 29 14.69
16.609
A. Virginis .
4.6
14
14 23.949
+3 2405
-12 58 16.02
-16.676
2 Librae
6.3
14
18 44.583
3.2234
-II 19 1.72
16.550
6 Bootis
4.1
14
22 14.156
+2.0433
+52 15 9.03
-16.713
32 H.Cam., star 5^.8, 2i".6, n.pr.
evil
'ginis
.comp.9".7".
I, n.pr.
d A
.pedis, var. irreg.
5™.5-6».6
a Can.Ven., star 5™, i9".8, s. pr.
C Ur
s. Maj., star Alcor
4"*.o. f.
r9'.2,
222" n.
[Eph 13I
MEAN PLACES OP STAE8, 1913. 243
WASHINGTOSJ, JANUARY o'.J48.
WSi'^X^ 9". 4"5 •■ '■ I * Librse, var., a'.ij, 4".8-6-.a [ f Lupi. binaiy 3" 7, i~.g, 0
«ia,comp. 5".i,3".8ii.pr. /i Bo6tis,Btar6*.7, to8" s. | C Cor. Bor., comp., 6".o,6"
I I pr.
ap.. o».j. i".j-. compuiiDii a. pr. Th* podtlon given )i th»l ol «» cental tJl aniXVv •* «« '
■ ■mpMel^nmain tobcap^Hcd tondtm tDlhepcHlticiniol UieiUn.
IBph ij]
244
MEAN PLACES OF STARS, 1913.
WASHINGTON, JANUARY o<a48.
Name of Star.
12 H. Draconis
e Serpentis .
C Ursae Minoris .
/3 Trianguli Australis
A. Librae
y Serpentis .
TT Scorpii
€ Coronae Borealis
^ Scorpii
6 Draconis .
fi Scorpii
K Herculis .
^ Herculis .
Groombridge 2320
6^ Apodis
d Ophiuchi .
(T Coronae Bor. seq,
19 Ursae Minoris
y^ Normae
e Ophiuchi .
tr Scorpii
r Herculis .
y Herculis .
17 Ursae Minoris
y Apodis
CD Herculis .
7 Draconis
flf Scorpii
fi Herculis
\ Ophiuchi .
A Draconis .
r Scorpii
(T Herculis .
C Ophiuchi .
24 Scorpii
C Herculis .
a Trianguli Australis
7 Herculis .
Groombridge 2377
€ Scorpii
49 Herculis .
e^ Arae
K Ophiuchi .
e Ursae Minoris
30 Ophiuchi .
s Herculis .
d Herculis .
?7 Ophiuchi .
/y Scorpii, comp. 5".i, 13". 311
K Herculis, star 6".5, 29". 7 n.
d Cor. Bor. comp. 6^.7, 4".6 s
(Aniares
t
t
t
t
t
t
t
t
t
f.
f.
Ma^ni
tude.
Right Ascension.
h m s s
5.1 15 45 20.240 +0.9067
3.8 15 46 28.671 +2.9882
4.3 15 47 8.506 -2.2076
3.0 15 47 27.977 +5.2554
5.1 15 48 16.841 3.4771
3.9 15 52 26.028 +2.7696
3-0 15 53 35147 3.6234
4-2 15 53 59079 2.4822
2.5 15 55 II. 162 3.5420
4.1 16 o 15.491 1.12x4
2.9 16 o 22.506 +3.4832
5.3 16 4 8.817 2.7050
4.3 16 6 1.705 1.8897
5.4 16 6 4.861 0.1520
4.8 16 7 18.308 8.8468
3.0 16 9 47.090 +3-1413
5.8 16 II 25.205 +2.2458
5.5 16 13 17.411 -1.7508
4.1 16 13 19.306 +4.4713
3.3 16 13 42.983 3.1717
3.1 16 15 53.855 +3.6413
3.9 16 17 7.543 1.8030
3.8 16 18 4.894 +2.6454
5.0 16 20 1.903 —1.7927
3.9 16 20 4.215 +9.0960
4.5 16 21 23.798 +2.7617
2.9 16 22 48.659 0.8075
1.2 16 24 4.226 36738
2.8 16 26 28.722 2.5774
3.8 16 26 31.459 +3.0238
5.0 16 28 8.844 -O.I305
2.9 16 30 27.824 +3.7293
4.2 16 31 17.882 1.9334
2.7 16 32 21.991 3.3006
5.0 16 36 32.353 3.4664
3.0 16 38 0.373 +2.26x3
1.9 16 39 26.462 6.3218
3.6 16 39 54761 2.0557
4.9 16 43 38.797 11371
2.4 16 44 31.509 3.8794
6.4 16 48 7.162 +2.7301
4.2 16 52 38.664 4.7706
3.4 16 53 32.962 +2.8381
4.4 16 54 50.519 -6.2642
5.0 16 56 28.348 +3.1628
3.9 16 56 57.627 +2.2945
5.3 16 58 23.568 2.2120
2.6 17 5 23.200 +3-4373
6 Scorpii, star 8™, 20" pr.
77 Draconis, comp. 8™, 5".4 s. f
a Scorpii, comp. 7™, 3".2 pr.
[Eph 13J
Annual
Variation.
Declination.
ff
+62 52 5.37
+ 4 44 20.67
+78 3 45.33
--63 9 47.51
-19 54 28.28
+15 56 41.73
-25 51 51.93
+27 7 45-05
-22 22 29.55
+58 47 50.44
-19 34 4.95
+17 16 40.34
+45 9 45.21
+68 2 21.02
-78 28 42.43
- 3 28 15.58
+34 4 43.24
+76 5 49.07
-49 56 35 08
- 4 28 52.15
-25 23 5.52
+46 31 12. II
+19 21 24.19
+75 57 22.43
-78 42 13.33
+14 13 58.43
+61 42 39.21
-26 14 23.10
+21 40 42.39
+ 2 10 25.03
+68 57 22.98
-28 2 1 1,01
+42 36 56.94
-10 23 29.88
-17 34 28.27
+31 45 35.38
-68 52 9.73
+39 5 13.57
+56 56 13.47
-34 8 10.77
+15 7 985
-53 I 40.72
+ 9 30 34-34
+82 10 55.32
-45 3436
+31 3 13.97
+33 41 36.79
-15 37 4-72
Annual
Variation.
ff
-H.181
10.959
10.984
11-365
10.943
-11.879
10.553
10.542
10.420
9.664
—10.022
9730
9.526
9507
9.520
- 9.417
9.217
8.992
9.061
8.929
- 8.834
8.670
8.587
8.217
8.549
- 8.420
8.190
8.176
7.980
8.030
- 7.785
7.669
7.540
7.457
7.144
- 6.629
6.951
6.956
6.494
6.746
- 6.198
5.823
5-742
5-623
5-561
- 5-421
5-333
- 4.640
X Ophiuchi, comp. 6™, i". 2 n. f.
C Herculis,binary,3™o.6™.o. i".
V Oph., binary, 3"».2,3"».7,o".5
MEAN PLACES OF STARS, 1913.
245
WASHINGTON. JANUARY od.248.
Name of Star.
Y Scorpii
C Draconis .
a Herculis . . t
6 Herciilis . . f
n Herculis
59 Apodis (G.)
d Ophiuchi .
yy Herculis .
fi Arae
h Ophiuchi .
(T Ophiuchi .
6 Arae
a. Arae
\ Herculis .
\ Scorpii
fi Draconis .
a Ophiuchi .
H Serpentis .
I Herculis .
7 Pavonis .
oj Draconis .
§ Ophiuchi .
1^ Scorpii
II Herculis .
^ Draconis . . . f
Y Ophiuchi .
89 Herculis .
h Draconis .
d Herculis .
35 Draconis .
Y Ophiuchi .
^ Herculis .
Y Draconis .
67 Ophiuchi .
e Arse
Y Sagittarii .
d Ursae Minoris
70 Ophiuchi . . . f
72 Ophiuchi .
X Octantis .
o Herculis .
/i Sagittarii .
17 Sagittarii .
Groombridge 2533
36 Draconis .
S Sagittarii .
17 Serpentis .
f Sagittarii .
a Herculis, var. irreg., 3™. 1-3^.9,
dup. comp. 6", 4".6 8. f.
Magni
tude.
3-4
3.2
var,
3-2
3-4
5-9
3.4
5.4
2.8
4.3
4.4
3.8
3.0
4.5
1-7
3.0
2.1
3.6
3.8
3.6
4-9
2.9
3.x
3.5
4.9
3.7
5.5
3-9
4.0
50
3.5
3.8
2.4
3-9
3.9
3.1
4.4
4.1
3-7
5-2
3.8
4.0
3.2
5-4
50
2.8
3.4
2.0
Right Ascension.
m
7 5 55.150
7 8 31.967
7 10 40.792
7 II 27.443
7 12 0.962
7 15 10.247
7 16 39893
7 17 24.194
7 18 3.901
7 21 3.304
7 22 11.850
7 23 14.415
7 25 6.842
7 27 13.326
7 27 41.949
7 28 27.976
7 30 53.722
7 32 36.210
7 37 0.552
7 37 11.394
7 37 27.557
7 39 10.462
7 41 29.973
7 43 3.184
7 43 28.955
7 43 31.784
7 51 54.627
7 52 1.532
7 53 16.149
7 53 20.560
7 54 14.187
7 54 23.052
7 54 35.147
7 56 17.282
7 59 51.487
8 o 13.074
19.30*
3.433
3 13.475
3 48.95*
4 8.901
8 33.595
II 44.457
8 12 56.388
8 13 23.769
8 15 25.460
8 16 48.436
8 18 23.829
Annual
Variation.
O
I
s
+ 4.2919
0.1686
2.7344
2.4631
2.0884
+11. 1578
3.6816
2.2428
4-9805
36607
+ 2.9756
5.4053
4.6326
2.4240
4.0708
+ 1.3541
2.7837
3.4328
1.6935
+ 5.8809
— 0.3544
+ 2.9628
4.1946
+ 2.3470
— 1.0746
+ 3.0072
2.4206
1.0380
+ 2.0570
— 2.6903
+ ,3.3018
2.3314
1.3924
3.0048
4.6698
+ 3.8519
— 19.4980
+ 30315
2.8432
35-7394
+ 2.3394
3-5870
40597
1.8652
0.3456
+ 3.8406
3.1027
+ 3.9815
Declination.
//
Annual
Variation.
//
d Herculis, binary, comp. 8™,
14 8. pr.
-43 7 32.22 -4.992
+65 49 18.04 4446
+14 29 19.44 4.251
+24 56 28.07 4-372
+36 54 23.79 4-167
-80 46 50.95 -3-935
-24 54 48.96 3.803
-f32 34 44.26 4-751
-55 26 55.15 3675
-24 5 46.61 3.527
+ 4 12 54.99 -3.283
-60 36 45.83 3-321
-49 48 29.77 3.123
+26 10 32.09 2.839
-37 2 28.28 2.843
+52 21 55.41 -2.741
-fI2 37 21.20 2.774
-15 20 40.23 2.451
+46 3 7.81 2.004
-64 41 0.84 2.072
+68 47 53.62 -1.650
+ 4 36 10.42 1. 661
-40 5 39-28 1.624
+27 46 15.32 2.230
+72 II 30.54 1. 711
+ 2 44 21.39 -1-512
+26 3 47.53 0.702
+56 53 9.71 0.621
+37 15 41.23 0.584
+76 58 30.10 0.339
- 9 45 49.47 --0.624
+29 15 23.90 0.509
+51 29 55.33 0.498
+ 2 56 5.97 0.338
-50 5 54.59 0.063
-30 25 33.89 -0.179
+86 36 51.09 +0.076
+ 2 31 7.96 -1.030
+ 9 33 2.91 +0.369
-87 39 53.07 0.208
+28 44 59.46 +0.365
-21 4 56.87 0.747
-36 47 18.68 0.874
+42 7 44.99 1. 130
22 3.52 1. 196
51 57.64 +1.314
55 19.59 0.777
-34 25 35.54 +^.485
^ Draconis, star 6". i, 3o".4n. f.
70 Ophiuchi. comp. 6", 2".x a.
+64
-29
- 2
lEph 13]
246
MEAN PLACES OF STARS, 1913.
WASHINGTON. JANUARY o^.74B.
Name of Star.
Magni-
tude.
Right Ascension.
Annual
Variation.
Declination.
1 Annual
Variation.
h m 8
8
0 t tt
ft
109 Herculis .
3.9
18 19 59.4^7
+ 2.5559
+21 43 45.60
+1.485
a Telescopii
3.8
18 20 31365
4.4501
-46 I 2.63
1.724
\ Sagittarii
2.9
18 22 36.101
+ 3-7027
-25 28 14.78
1.775
X Draconis
3.7
18 22 37.666
- 1.0784
+72 41 43.00
1.603
c Serpentis
5.4
18 25 9.309
+ 3-I2I5
- 2 2 32.45
2.161
I Aquilae
4.1
18 30 28.361
+ 3.2646
- 8 18 20.46
+2.342
C Pavonis .
41
18 32 52.355
7.0209
-71 30 15.08
2.701
a Lyrae . (Vega)
O.I
18 33 59.569
2.0314
•4-38 42 7.61
3 243
2 Aquilae .
4.7
18 37 30.671
3.2866
- 9 8 11.73
3.260
^ Sagittarii
3-3
18 40 13.269
3-7488
-27 4 51.82
3-494
no Herculis .
4.3
18 41 55.000
+ 2.5803
+20 27 44.28
+3.304
6 Aquilae .
4.5
18 42 33.500
3-1829
- 4 50 30.32
3.678
\ Pavonis .
4.4
18 44 9.523
5-5667
-62 17 18.37
3.816
/S Lyrae . t
var.
18 46 52.060
-f 2.2147
+33 15 39.82
4.066
50 Draconis
5.4
18 49 11.264
- I. 9189
+75 19 53.85
4320
(T Sagittarii
2.1
18 49 52.234
+ 3.7202
-26 24 20.71
+4253
0 Draconis . . f
4.8
18 49 55-178
0.8882
+59 16 54.32
4.355
0 Serpentis pr, , . f
4.5
18 51 53653
2.9822
•f 4 5 22.62
4.528
R Lyrae . . . t
var.
18 52 41.284
1.8260
+43 49 51.59
4.646
€ Aquilae .
4.2
18 55 40.413
2.7221
+14 56 57.74
4.741
y Lyrae
3-3
18 55 41.324
+ 2.2434
+32 34 10.44
+4.818
C Sagittarii . f
2.7
18 57 4.612
3.8181
-30 0 19.99
4.922
C Aquilae .
3.0
19 I 24.670
2 7569
+13 44 0.26
5.208
A. Aquilae
3.6
19 I 37.916
3-1836
- 5 0 49.21
5.243
a Coronae Australis
41
19 3 33225
4.0834
-38 2 27.86
5.370
I Lyrae
51
19 4 H.855
+ 2.1412
+35 57 47.40
+5.536
TT Sagittarii
30
19 4 35-437
+ 3.5690
-21 9 45.81
5-539
X UrsaeMinoris .
6.6
19 7 25.98*
—71.1246
+89 0 39.69
5.820
tp Sagittarii
4.9
19 10 12.408
+ 3 6803
-25 24 27.04
6.010
6 Draconis
3.2
19 12 32.325
0.0228
+67 30 30.54
6.327
d Sagittarii
5.0
19 12 32.714
+ 3-5"*
-19 6 30.81
+6.223
0 Lyrae .
4-5
19 13 20.864
2.0808
+37 58 41.91
6.313
G? Aquilae .
51
19 13 43972
. 2.8159
+11 26 16.05
6.353
K Cygni
4.0
19 15 5.579
+ 1-3879
+53 12 27.20
6.573
r Draconis
4.6
19 17 14.079
- i-»344
+73 II 39.43
6.738
d Aquilae .
3-4
19 21 6.719
+ 30250
+ 2 56 26.06
+7.029
<r Octantis .
5.5
19 21 19.15*
96.7422
-89 13 57.47
6.963
/? Cygni . . .t
3.2
19 27 12.750
2.4189
+27 46 3464
7.435
I Cygni .
3.9
19 27 30.783
1.5133
+51 32 38.51
7.598
M Aquilae .
4.6
19 29 50.389
2.9312
+ 7 II 37.02
7.512
h Sagittarii
4.7
19 31 24.847
+ 3-6532
-25 4 35.26
+7.760
/c Aquilae
5.0
19 32 12.723
3.2289
- 7 13 17.58
7.851
e Cygni .
4.6
19 34 6.528
1.6090
+50 I 9.03
8.252
54 Sagittarii
5.4
19 35 44.412
34389
-16 29 36.69
8.086
/^ Sagittae .
44
19 37 8.468
2.6939
+17 16 25.79
8.213
15 Cygni
5.0
19 41 8.377
+ 2.1640
+37 8 37.57
+8.602
/ Sagittarii
5.1
19 41 17.289
3-5017
-19 58 15.54
8.485
y Aquilae .
2.8
19 42 7.410
•f 2.8520
•fio 24 1.91
+8.636
fi Lyrae, var., 12^.9. 3"».4-4«.i,
e Sei
rpentis. star 5™.4. 22
".2S.f.
C Sag., binary 3«.4, 3"
^6. o".5
".7 n. £
star 7™, 46" 8. f.
R Ly
Tae. var., 4e<*.4, 4™.a
-4»7
/3 Cygni star 5^.4, 34
0 Draco., star 7".6, 32".! n. pr.
IBph 13)
MEAN PLACES OF STARS, 1918.
JANUARY o''.i48.
247
JCjtgni, comp, 8 , . ,
VAqoilK, var., f'.iS. 3"-7-4
Draconis. comp., 7».6, 3".i d.
CTgai, rtar 5".o pr. 19", 370"
K Cephei.o
amp. B", ^".3 a. f. « Capricor., comp. g". 3"
a'CapriCDT., 4».6 p Capricor., comp. 7".6, i
J37"o. /SDelphmi. binary 4-1.
4,s.L
c^ Capricor-
'.81.
pr, 34*.
5-.A.
/3 Capncor
10" 8.
y i>il\ptaTx\,co'ni^.V*V^
V" .T.\
248
MEAN PLACES OF STARS, 1913
WASHINGTON. JANUARY o««.248.
Name of Star.
6 1 Cygni^^^.
V Aquarii
Bradley 2777
3 Piscis Australis
C Cygni
r Cygni
a Equulei
(T Cygni
6^ Microscopii
a Cephei
I Capricomi
I Pegasi
y Pavonis
C Capricomi
g Cygni
P Aquarii
ft Cephei
S Aquarii
74 Cygni
y Capricomi
\ Octantis
B Pegasi
II Cephei
5 Capricomi
7t^ Cygni
pL Capricomi
y Gmis
16 Pegasi
79 Draconis
^ Indi
20 Pegasi
a Aquarii
I Aquarii
20 Cephei
a Gmis
I Pegasi
0 Pegasi
7t Pegasi
C Cephei
24 Cephei
6 Aquarii
a Tucanae
V Octantis
y Aquarii
31 Pegasi
3 Lacertae
7t Aquarii
<T Aquarii
r Cygni, comp. 7"*, o
t
t
t
t
Hasni<
tude.
6.3
5-9
5.6
3-4
3.8
41
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
4.7
57
3-2
4.4
5-4
2.2
4.0
3.7
4-4
3.6
50
4.3
2.9
5.7
4.0
4.9
4.6
4.6
4.9
Ri£ht Ascension.
h m s
^oc +1.552
21 4 51367
21 7 15.766
21 8 7.953
21 9 13.967
21 II 19.060
21 II 28.509
21 13 59.882
21 15 11.909
21 16 30.283
21 17 24.275
21 18 3.768
21 19 15.867
21 21 42.171
21 26 14.290
21 26 58.803
21 27 32.588
21 33 7.307
21 33 27.678
21 35 16.367
21 37 41.405
21 39 54.768
21 40 39.063
21 42 14.441
21 43 34.681
21 48 33.249
21 48 39.850
21 49 6.168
21 51 46.372
21 56 42.665
21 56 51.027
22 I 18.967
22 I 44.392
22 2 21.830
22 2 45.301
22 2 57.611
22 5 48.698
22 6 7.346
22 7 50.053
22 8 8.254
22 12 14.626
22 12 32.956
22 15 19.18*
22 17 9.789
22 17 14.148
22 20 8.213
22 20 50.036
22 26 2.682
Annual
Variation.
+3.2702
-I. 1379
+3-5638
2.5520
+2.3939
2.9993
2-3547
3.8454
I -435 1
+3.3444
2.7740
5.0033
3.4306
2.2125
+3.1600
0.7867
3.1958
2.4032
3-3275
+95556
2.9461
0.8888
3.3144
2.2143
+32733
3-6418
2.7283
0.7198
4.6112
+2.9222
3.0821
3.2428
1.8226
3.7946
+2.7913
30267
2.6625
2.0778
1.1582
+3.1674
4.1365
12.4294
30992
2.9529
+2.3553
3.0638
+3.1773
Declination.
Annual
Variatioii.
//
Jtf -15.85
-II 43 27.91
-^77 46 25.54
-27 58 29.12
+29 52 10.32
+37 40 24.93
+ 4 53 15.46
+39 I 47.04
-41 10 40.42
+62 13 0.09
-17
+19
-65
-22
+46
- 5
+70
- 8
+40
-17
-83
+ 9
+70
-16
+48
-13
-37
+25
+73
-57
12
25
45
47
9
57
10
14
I
3
7
28
54
31
54
57
46
30
17
8
+12 42
- o 44
-14 17
+62 21
-47 22
+24
+ 5
+32
+57
+71
- 8
-60
-86
- I
+11
55
46
45
46
54
13
41
24
49
45
20.19
54-44
38.69
19.31
23.89
16.06
43.11
41,49
20.11
20.57
12.22
32.30
38.31
21.23
24.03
42.80
28.49
55.71
25.97
38.19
9.86
34.29
31.91
39.12
58.67
11. 15
10.25
3-43
19.83
44.78
0.55
36.46
39.46
33.54
59-21
+51 47» 34.42
+ o 56 7.89
-II 7 24.32
n
g Cygni, star 6™.7 f. io», 420" s.
8 pr. )ff Cephei. stars™, 13". 38. pr. A. Octantis, binary 5
3".2n.f.
+
-5.
14.466
[4.646
4.562
4-673
5.290
4.781
5.016
5.088
5.207
5.212
5.310
6.099
5.471
5.806
5.731
5.777
6.045
6.095
6.162
:6.29i
6.416
6.546
6.235
6.597
6.839
6.823
6.870
7.005
4.640
7.167
7.415
7.374
7.514
7.305
7.509
7.644
7 603
7.703
7.708
7.852
7.848
8.065
8.077
8.071
7.984
8.197
8.359
8».o^
tEph 13I
MEAN PLACES OF STARS, 1913.
WASHINGTON. JANUARY o'.948.
~t^ Name of Star.
Magni-
tude.
3.8
Right Ascension.
Annual
Variation.
Declination.
m a Laccrtae .
h
22
m s
27 42.328
s
+2.4677
0
+49
50 5.60
'« t/Aquarii .
5-3
22
29 56.159
3.2854
-21
9 15.56
mta6 B. Cephei
5.7
22
30 44.973
1.0655
+75
46 40.83
■ If Aquarii .
4.1
22
30 53.171
3.0833
- 0
33 58.29
■ 10 Lacertse .
4-9
22
35 21.347
2.6886
+38
35 49.70
I f Piscis Australis
4.2
22
35 50.755
+3.3231
-27
29 52.31
■ C P^^i
3.6
22
37 7.360
2.9914
+10
22 36.72
■ fi Octantis .
4.3
22
37 13.726
6.3348
-81
50 17.38
1 fi Gniis
2.2
22
37 28.656
3.5969
-47
20 23.92
■ 7 Pegasi
31
22
38 55.329
2.8090
+29 45 56.98
1 \ Pegasi
41
22
42 20.335
+2.8868
+23
6 27.18
1 f Gniis
3-7
22
43 18.282
3.6391
-51
46 28.29
B r Aquarii .
4-2
22
44 59.240
3.1793
-14
3 7.23
1 in Pegasi .
3.7
22
45 48.176
2.8930
+24
8 30.97
1 I Cephei
3.7
22
46 34.797
2.1276
+65
44 33.37
1 \ Aquarii .
3.8
22
48 4.589
+3.1311
- 8
2 34-12
1 p Indi
6.1
22
48 37.089
4.2183
-70
32 19.58
^ Aquarii .
3-5
22
50 2.062
3.1865
-16
17 1.49
ff Pisc.Aust.(Fcwia/^ti/)
1.3
22
52 50.766
3-3214
-30
5 1.07
0 Andromedse
3.6
22
57 54.897
2.7542
+41
51 29.47
fi Pegasi . t
var.
22
59 33.287
+2.9050
+27
36 38.27
ff Pegasi . (Markab)
2.6
23
0 25.557
2.9862
+14
44 13.07
55 Pegasi
4-7
23
2 37259
3.0208
+ 8
56 21.32
c* Aquarii .
3.8
23
4 48.568
32023
-21
38 41.69
jr Cephei . t
4.6
23
5 7.637
I .8989
+74
55 1.30
I Gniis
41
23
5 26.294
+3.4079
-45
43 5.50
59 Pegasi
5.2
23
7 20.609
3.0277
+ 8
14 51.07
5 Cassiopeise (Heis) .
5.6
23
9 5.382
2.8780
+56
41 16.57
4 Aquarii .
4.4
23
9 49.021
3.1073
- 6
31 5.56
f Aquarii . . t
4-5
23
II 20.087
3.1450
- 9
33 42.35
y Tucanae .
4.1
23
12 21.473
+3.5208
-58
42 47.47
y Pisciura .
3.8
23
12 39.294
3.1094
+ 2
48 24.38
y Sculptoris
4.5
23
14 7.705
3.2453
-33
0 22.21
0 Cephei . . t
4.9
23
15 2.863
2.4509
+67 38 7.35
T Pegasi
4.6
23
16 19.722
2.9655
+23
15 50.17
M Aquarii .
4-2
23
18 24.149
+3.1533
-20
34 32.58
4 Cassiopeia^
5-2
23
20 57.991
2.6496
+61
48 18.21
V PtgaLsi .
4.6
23
21 2.105
2.9903
+22
55 29.78
ic Piscium .
4-9
23
22 28.358
3.0752
+ 0
46 45.32
9 Pisaum .
4.4
23
23 33.250
3.0419
+ 5
54 3.73
70 Pegasi .
4-7
23
24 45.210
+3.0320
+ 12
16 49.72
39 H. Cephei
5.6
23
27 45.157
-0.2454
+86
49 39.43
fi Sculptoris
4-5
23
28 18.557
+32252
-38
17 58.85
72 Pegasi (mean) . . f
5.2
23
29 38.045
2.9706
+30
50 42.42
^ Andromedae
4.0
23
33 18.116
2.9276
+45
59 12.25
I Andromedae
4.3
23
33 51.928
+2.9343
+42
47 10.90
t Piscium .
4-3
23
35 28.488
3.0843
+ 5
9 16.79
y Cephei .
3.4
23
35 46.103
+2.4372
+77
8 48.46
fi Begasi, var. irreg.. 2"*.2-2"*
w Cephei, comp. 7"*, o".9 n. f
249
Annual
Variation.
//
8.456
8.363
8.545
8.496
8.683
+ 18.698
8.:
8.:
8.:
8.;
+18.
8.
8.
[8.
8.
.735
.754
.734
.767
897
875
949
963
.900
9.102
9.135
9.093
9.020
9.305
9.488
9.333
9.408
9.508
9.441
9.449
9.523
9.851
9.373
9.590
9.674
9.640
9.580
9.679
9.671
9.627
9.746
9.787
9.685
9.752
9.845
9.868
9.860
9.861
9.490
9.915
9.495
+20.091
^ Aquarii, star 8". 5, 49
o Cephei, comp. 8™, 2'
(Eph 13J
.4 n.pr.
9 s. pr.
72 Pegasi, 6™.o, 6"*.o, ©".4
250
MEAN PLACES OF STARS, 1913
WASHINGTON. JANUARY o««.248.
Name of Star.
Magni-
tude.
Right Ascension.
Annual
Variation.
Declination.
Annual
Variatian.
h
m s
s
0
r
n
n
K Andromedae
4-3
23
36 7.144
+2.9469
+43
51
7.48
+I9.9«3
co'Aquarii
4.6
23
38 12.692
3.I129
-15
I
33.33
19-893
^•^Aquarii .
5.3
23
39 41439
3.1146
-18
45
35.77
19.961
^ Andromedae
5.1
23
41 43112
2.9631
+45
56
13.69
19.974
41 H. Cephei
5-0
23
43 44.573
2.8483
+67
19
23.95
19.986
d Sculptoris
4.6
23
44 23.729
+3.1281
-28
36
42.35
+19.866
;^^Octantis .
51
23
47 1. 961
3.6221
-82
30
8.43
20.002
^ Pegasi
5.2
23
48 3.588
3.0479
+18
38
13.48
19.979
p Cassiopeiae
4.8
23
50 1.785
2.9808
+57
0
55.37
20.028
Groombridge 4163
6.6
23
50 34-945
2.8781
+73
55
34.13
20.024
G? Pisdum .
4.0
23
54 50.579
+3.0794
+ 6
22
54.19
+19-933
e Tucanae .
4.7
23
55 24.185
3-1405
-66
3
39.16
20.034
30 Pisdum
4.7
23
57 29.905
3.0772
- 6
29
51.23
20.007
2 Ceti
4.6
23
59 17.038
+3.0754
-17
49
13.35
+20.033
NORTHERN CIRCUMPOLARS.
43 H. Cephei
I
»
4.5
0
56 38.823
+ 7.5880
+85
47 27.59
+19.432
a Ursae Minoris (Polaris)
2.1
I
28 19.01*
28.0572
+88
50 29.36
18.578
Groombridge 750
6.7
4
8 52.234
17.5460
+85
19 32.98
9.386
Groombridge 944
6.4
5
33 57.736
18.7532
+85
9 21.38
+ 2.268
51 H. Cephei
5.3
7
0 7.12*
29.2898
+87
II 16.00
- 5.233
Groombridge 11 19
7.0
8
II 46.151
+61.2112
+88
53 44.41
-10.883
I H. Draconis
4.6
9
24 46.516
8.8162
+81
42 44.16
15.648
30 H. C^melop.
5-3
10
20 34.492
7.6025
+83
0 6.83
18.179
Bradley 1672
6.3
12
14 26.979
+ 0.3471
+88
10 55.87
19.948
Groombridge 2283 .
7.2
15
4 59.30*
—19.6650
+87
34 6.01
»3.83i
€ Ursap Minoris
4.4
16
54 50.519
- 6.2642
+82
10 55.32
- 5.623
tf Ursae Minoris
4-4
18
0 19.30*
19.4980
+86
36 51.09
+ 0.076
X Ursae Minoris
6.6
19
7 25.98*
7 1 . 1 246
+89
0 39.69
5 820
76 Draconis
5-7
20
48 57.123
4.1464
+82
12 35.90
13.500
39 H. Cephd
5.6
23
27 45.157
- 0.2454
+86
49 39.43
+19.868
SOUTH
ERI
^ CIRCUM
POLARS.
4 Octantis (G.) .
5.6
I
42 17.46*
- 3.8020
-85
12 33.92
+18.110
31 Mensf*i (G.)
6.2
5
47 1.50*
11.6895
-84
49 51.91
+ 1.220
7 Octantis (G.) .
6.4
7
17 41.19*
20.1724
-86
53 40.29
- 6.661
C Octantis .
5.4
9
9 30.42*
8.0876
-85
18 58.68
14.708
7 Octantis .
6.3
10
59 56.70*
- 0.3494
-84
7 33.14
19.366
t Octantis .
5.4
12
45 43.33*
+ 5.9377
-84
39 3.86
-19.624
d Octantis .
4.1
14
12 50.81*
9.2252
-83
16 13.94
-16.785
X Octantis .
5-2
18
3 48.95*
35.7394
-87
39 53.07
+ 0.208
(X Octantis .
5-5
19
21 19.15*
96.7422
-89
13 57.47
6.963
V Octantis .
5.7
22
15 19.18*
[Eph 13]
+12.4294
-86
24 39.46
+18.065
JANUARY, 1913. 251
APPARENT PLACES OF R STARS
FOR THE UPPER TRANSIT AT
252
FEBRUARY, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
48 H. Cephei.
Mag. 4.5
a Urse Xinorlt.
{Polaris.)
Mag. 2.1
C^foombxidce 750.
Mag. 6.7
Oroombridce 944.
Mag. 6.4
51 H. Ceybttl.
Mag. 5.3
Mean
Solar
Date.
Right
Ascen-
sion.
Dedina
tkm
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
Aaoen*
sion.
Dcdi-
natim
North,
h ra
0 /
h m
0 /
h m
0 /
h m
0 /
h m
0 t
Feb.
056
+8547
00
Feb.
I 27
+8850
Feb.
4 8
+85 19
0 §
Feb.
5 34
+85 9
00
Feb.
7 0
+87 II
gg
1.2
s
23.75
48.60
1.2
s
33.70
52.80
1.3
s
56.31
' w
59.40
1.4
s
9.14
44.26
14
36*89
9 w
32.31
2.2
23.50
48.52
2.2
32.71
52.77
2.3
56.12
59.56
2.4
9.01
44.50
2.4
36.80
32.60
3-2
23.23
48.42
3.2
31.68
52.72
3-3
55.90
59.71
3.4
8.87
44.75
3.4
36.69
32.91
4.2
22.95
48.32
4.2
30.59
52.66
4.3
55.67
59.88
4.4
8.70
45.00
4.4
36.56
33.23
5-2
22.66
48.20
5.2
29.47
52.59
5-3
55.42
60.04
5.4
8.53
4526
5.4
36.41
33.56
6.2
22.37
48.05
6.2
28.33
52.49
6.3
55.17
60.18
6.4
8.34
45.51
6.4
36.23
33.8S
7-2
22.08
47.89
7.2
27.20
52.37
7.3
54.91
60.31
7.3
8.14
45.76
7.4
36.03
34.20
8.2
21.81
47.70
8.2
26.10
52.24
8.3
54.64
60.41
8.3
7.93
45.98
84
35.79
34.51
9.2
21.55
47.50
9.2
25.04
52.08
93
5436
60.48
9.3
7.70
46.17
9.4
35-53
34.80
10. 1
21.32
47.29
10.2
2405
51.92
10.3
54.09
60.55
10.3
7.48
46.34
10.4
35.27
35.06
II. I
21.09
47.07
II. 2
23.13
51.75
11 3
53.84
60.58
11.3
7.26
46.50
11.4
3500
35.31
12. 1
20.90
46.86
12.2
22.28 i 51.58
12.3
53.60
60.61
12.3
7.06
46.64
12.4
34.74 1 35.53
I
1
131
20.71
46.67
13.2
21.48
51.42
13.3
53.37
60.64
13.3
6.87
46.77
13.4
3450
35.75
14. 1
20.52
46.49
14.2
20.72
51.27
14.3
53.15
60.68
14.3
6.69
46.90
14.4
34.29
35.96
151
20.33
46.33
15.2
19.94
5114
15.3
52.94
60.74
15.3
6.52
47.04
15.4
3410
36.17
16.I
20.13
46.17
16.2
19.12
51 02
16.3
52.73
60.81
16.3
6.36
47.21
16.4
33.91
36.41
17. 1
19.91
46.02
17.2
18.24
50.92
17.3
52.51
60.89
17.3
6.19
47.39
17.4
33.74
36.67
18. 1
19.66
45.86
18.I
17.29
50.80
18.3
5227
60.99
18.3
6.01
47.59
18.4
33.54
36.94
I9.I
19.41
45.68
19.1
16.29
50.66
19.3
52.02
61.09
19.3
5.81
47.78
19.4
3330
37.22
20.1
19.16
45.47
20.1
15.27
50.50
20.3
51.75
61.15
20.3
5.59
47.97
20.4
33.03
37.50
21. 1
18.92
45 .24
21. 1
14.27
50.31
21.3
51.47
61.20
21.3
5.35
48.13
21.4
32.72
37.78
22.1
18.69
44.98
22.1
13.34
50.09
22.3
51.19
61.20
22.3
5.10
48.28
22.4
32.39
38.03
23.1
18.50
44.71
23.1
12.49
49.85
23.2
50.91
61.19
23.3
4.85
48.38
23.4
32.03
38.25
24.1
18.34
44-44
24.1
11.74
49.60
24.2
50.65
61.14
24.3
4.60
48.46
24.4
31.68
38.44
251
18.18
44.18
251
11.07
49.37
25.2
50.41
61.08
25.3
4.38
48.52
25.4
31.33
38.61
26.1
18.04
43.93
26.1
10.45
49.14
26.2
50.18
61.03
26.3
4.16
48.57
26.4
3ix>i
38.78
27.1
17.90
43.69
27.1
9.85
48.94
27.2
49.96
60.98
27.3
3.95
48.63
27.4
30.72
38.93
28.1
17.76
43.47
28.1
9.24
48.74
28.2
49.74
60.96
28.3
3.74
48.70
28.4
30u^3
39.09
29.1
17.62
43.25
29.1
8.58
48.55
29.2
49.52
60.94
29.3
3.54
48.78
29.3
30.15
39.27
30- 1
17.45
43.02
30.1
7.87 , 48.35
30.2
49.29
60.94
30.3
3.34
48.88
30.3
39.85
39-47
13.64 +13.60
49.72 +49.71
12.29 +12.25
11.86 +11.82
20.4a +20.40
0^ 56* 38V823 1 i»» 28"* i9».oi
4»> 8» 52'.234
5*^33" 57'.736
yk qB yt ,2
+850
47' 2-
7".59
1+88*'
50' 2<
^''.36
+85«>
19' 3:
2".98
+850
9' 2
i".38
+87«
II' I
6".oo
[Bph X3]
MARCH, 1913.
253
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
a H. Cephei.
Mag. 4.5
01 Urtae Xinoris.
{PolaH$.)
Mag. 2.1
Qfoombridce 7M.
Mag. 6.7
Orooxnbridge 944.
Mag. 6.4
61 H. Cephei.
Mag. 5.3
Una
Solu
Ikte.
Aacra-
•
1
Dedsm-
tion
North,
Mean
Solar
Date.
Right
Aifcen-
sion.
Declina-
tion
North,
Mean
SoUr
Date.
Right
Ascen-
sion.
Declina-
tion
North,
0 /
I
Mean'
Solar
Date.
Right
Ascen-
sion.
DecUna-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Decli-
nation
North,
h m
0 »
h m
0 /
h m
h m
0 t
h m
0 1
Mar.
056
+8547
Mar.
I 26
+8850
Mar.
4 8
+85 19
f 0
Mar.
5 33
-»-85 9
$0
Mar.
7 0
+87 II
go
I.I
s
17.62
WW
4325
I.I
68.58
48.55
1.2
8
4952
60.94
1.3
s
63.54
48.78
I.-
s
30.15
39.27
. 2.1
17^5
4302
2.1
67.87
48.35
2.2
49.29
60.94
2.3
63.34
48.88
-^3
29-85
39.47
3^1
17.28
42.80
31
67.12
48.15
3.2
4905
60.93
3-3
63.13
48.98
3 3
29.55
3967
4-'
17.09 '■ 42.56
4.1
66.34
47-94
4.2
48.79
60.92
4-3
62.90
49.09
4.3
29.24
39.88
5«
16.90 42.30
5.1
65.55 47.72
5.2
48.53
60.90
5.3
62.64
49.19
5-3
28.89
40.09
6.1
16.73
42.02
6.1
64.76
47.47
6.2
48.26
60.86
6.3
62.38
49.28
6.3
28.52
40.30
7.1
16.56
41.73
7.1
64.00
47.20
7.2
47.98
60.82
7.3
62.12
49.36
7.3
28.13
40.49
8.1
16.41
41.42
8.1
63.28
46.92
8.2
4770
60.74
8.3:61.84
i
1
49.40
8-3
27.72
40.67
9^1
16.27
41.10
9.1
62.64
46.63
9-2
47.43
60.63
i
9.3,61.57
49.43
9-3
27.29
40.82
10.1
16.16
40.78
10. 1
62.07
46.33
10.2
47.17
60.51
10.3 61.30
49.44
10.3
26.86
40.94
II. I
16.08
40.45
II. 1
61.59
46.03
II. 2
46.93
60.38
II.3I 61.04
49.42
11-3
26.45
41.05
12.1
16.00
40.14
12.1
61.18
45.74
12.2
46.70
60.23
12.3 60.81
1
49.39
12.3
26.04
41.14
131
15.93
39.85
131
60.82
45.46
13.2
46.48
60.10
1
13.3; 60.59
49.36
13.3
25.66
41.22
14. 1
15.87
39.58
14. 1
60.46
45.21
14.2
46.29
59.97
14.3
60.38
49.34
14.3
25.31
41.30
151
15.81
39.32
15 1
60.07
44.97
15.2
46.10
59.87
15.3
60.17
49.33
15.3
24.98
41.39
16. 1
15.72
39.09
16.1
59.64
44.73
16.2
45.90
59.78
16.2 1 59.97
49.34
16.3
24.66
41.50
17.1
15.63
38.85
17.1
59.15
44.51
17.2
45.69
.S9.71
17.2159.76
49.37
17.3
24.33
41.62
18. 1
15.52
38.60
18.1
58.61
44.27
18.2
45.46
59.64
18.2
59.55
49.40
18.3
23.98
41.76
19.0
15.40
38.32
19.1
58.04
44.02
19.2
45.23
59.56
19.2
59.30
49.43
19.3
23.60
41-90
lao 1 15.29
1
38.01
20.1
57.49
43.72
20.2
44.98
59.44
20.2
59.05
49-44
20.3
23.18
42.04
21.0
15.19
37.69
21. 1 156.98
43.42
21.2
44.73
59.30
21.2
58.78
49-42
21.3
22.75
42.15
22.0
15.13
37.35
22.1 ,56.57
43.09
22.2
44.49
59.13
22.2
58.50
49.38
22.3
22.29
42.23
23 0 ; 15.09
37.01
23.1
56.26
42.76
23.2
44.26
58.94
23.2
58.24
49.30
23.3
21.84
42.28
24.0 1 15.08
1
36.68
24.1 56.05
42.44
24.2
44.05
58.73
24.2
57.99
49.20
24.3
21.39
42.31
^S'C
15.09
36.36
25- 1 55.90
42.11
i
25.2 1 43.86
58.52
25.2
57-77
49.09
25.3
20.96
42.31
26.0
15.09
36.06
26.1
55.79
41.81
26.2
43.68
58.32
26.2
57.56
48.98
26.3
20.57
42.32
27.0
15.10
35.78
27.0
55.69
41.53
27.2
43.52
58.14
27.2
57.36
48.88
27.3
20.19
42.32
28.0
15.10
35.50
28.0 55.55
41.26
28.2
43.35
57.97
28.2
57.16
48.79
28.3
19.83
42.33
29.0
1508
3524
29.0
55.37
40.99
29.2,43.18
57.81
29.2
56.96
48.72
29.3
19-47
42.37
30.0
15.06
34.97
30.0
55.14
40.73
30.2 43.01
57.65
30.2
56.75
48.66
30.3
19.10
42.41
310
15.02
34.68
310
54.87
40.46
31.1 42.81
57.50
31.2
56.54
48.61
31.3
18.71
42.46
32.0
14.99
34.38
32.0
54.59
40.18
32.1 42.61
57-34
32.2
56.31
48.56
32.3
18.31
42.51
13.64 +13.60
49.65 +49.64
12.29 +12.25
11.86 +11.82
20.43 +20.41
0* 56» 38*-823
i^ 28" 19* .01
4^ 8» 52».234
5*" 33"* 57'.736
7»» 0" 7».i2
^a.s*'^
^7' 2:
r''.59 1
+88«
50' 2<
)".36 1
+85 «
19' 3-
i".98 1
+85**
9' 2
i".38
+87*
> II' 1
6".oo
IBph 13I
254
APRIL, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
48 H. Cephei.
Mag. 4.5
€t Vtsm Xinorit.
(Polaris.)
Mag. 2.1
Oroombxidce 750.
Mag. 6.7
C^foombxidce 944.
Mag. 6.4
51 H. Ce^beL
Mag. 5.3
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean! Right
Solar i Ascen-
Date. «on.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean'
S(dtf
Date.
Right
Asoen-
sioii.
Declina-
tion
North.
Meui
Solar
Date.
Right
Aflcea-
Decs-
natka
No^
h m
0 /
h m
0 /
h m
0 1
h m
0 /
h m
0 •
Apr.
056
+8547
Apr. I 26
1
-K88 50
Apr.
4 8
+85 19
Apr.
5 33
+85 9
mm
Apr.
7 0 i+87 II
1
I.O
8
14.99
34.38
s
1.0 54.59
40.18
I.I
S
42.61
57-34
1.2
s
56.31
W W
48.56
1-3
s
18.31
WW
42.51
2.0
14.96
34.06
2.0 54.32
3987
2.1
42.39
57-16
2.2
56.08
48.49
2.3
17.89
42.56
3.0
14-93
33.74
3.0
54.07
39-56
3-1
42.18
56.97
3.2
55.83
48.41
3.3
17-45
42.60
4.0
14.92
3340
4.0 53.86
1
39.22
4.1
41.97
56.75
4.2
55-57
48.30
4.3
17.00
4262
5.0
14.92
33.06
5.0 53.73
38.88
5-1
41.78
56.53
5.2
55.32
48.17
5-3
16.52
42.62
5.9
14.95
32.72
6.0
53.68
38.52
6.1
41-59
56.27
6.2
55.07
48.03
6.3
16.05
42.59
6.9
15.01
32.38
7-0
53.70
38.18
7-1
41.41
56.01
7.2
54.84
47.86
7.2
15-59
42.55
7.9
15.09
32.05
8.0
53-80
3784
8.1
41.26
55-74
8.2
54.62
47.68
8.2
15.15
42.47
8.9
15-17
31.74
9.0
53-95
37.51
9-1
41.12
55.46
9.2
54-43
47.49
9.2
14.74
42.38
9-9
15-26
31.45
1 0.0
54.13
37.22
10. 1
41.01
55-20
10.2
54.25
47-30
10.2
14-36
42.30
10.9
15.35
31.18
1 1.0
54.31
36.94
II. I
40.89
5496
II. 2
5409
47.13
II. 2
14.01
42.22
1 1.9
15.43
30.93
12.0
54-45
36.67
12. 1
40.78
54-74
12.2
53.93
46.98
12.2
13.67
42.16
13.9
15.49
30.69
130
54.52
36.41
13-1
40.67
54.54
13.2
53.76
46.85
13.2
13-33
42.11
13.9
15-53
30.44
13.9
54.56
36.14
14. 1
40.54
54.35
14.2
53-59
46.72
14.2
12.98
42.08
14.9
15.57
30.18
14.9
54.56
3589
15.1
40.40
54.15
15-2
53.41
46.61
15.2
12.62
42.07
15.9
15.60
29.90
15.9
54.55
35-60
16. 1
40.24
53-94
16.2
53.21
46.48
16.2
12.23
42.04
16.9
15.66
29.59
16.9
54.57
35-29
17.1
40.08
53.69
17.2
52.99
46.33
17.2
11.81
41.99
17.9
15-73
29.27
17.9
54.67
3496
18.1
39.93
53.42
18.2
52.78
46.14
18.2
11.37
41.92
18.9
15.82
28.95
18.9
54.87
34-62
19. 1
39.80
53.14
19.2
52.57
45.93
19.2
10.92
41.81
19.9
15.95
28.64
19.9
55.16
34-29
20.1
39.69
52.82
20.2
52.38
45-70
20.2
10.50
4I.6S
20.9
16.10
28.34
20.9
55-54
33-97
21. 1
39-60
52.50
21.2
52.22
45.46
21.2
10.10
41-53
21.9
16.26
28.06
21.9
55.97
33-67
22.1
39-53
52.19
22.1
52.06
45.21
22.2
9.72
41-37
22.9
16.42
27.81
22.9
56.42
33.39
23.1
39.47
51.90
23.1
51.93
44.96
23.2
9.37
41.20
239
16.58
27.57
23.9
56.85
33-12
24.1
39.42
51-63
24.1
51.80
44.74
24.2
9.04
41.06
24.9
16.72
27-34
24.9
57-24
32.87
25-1
39.37
51.37
25.1
51.68
44-53
25.2
8.74
40.93
259
16.85
27.11
25.9
57.59
32.63
26.1
39-31
51.12
26.1
51.55
44.33
26.2
8.43
40.81
26.9
16.97
26.88
26.9 57.89
32.38
27.1
39-24
50.88
27.1 51.42
44.15
27.2
8.1 1
40.70
27.9
17.08
26.64
27-9 58.15
1
32.12
28.1
39.16
50.64
28.1 51.27
43-96
28.2
7.78
40.60
28.9
17.19
26.40
28.9
58.41
31-85
29.1
3907
50.39
29.1
51.12
43.77
29.2
7-42
40.49
29.9
17.31
26.13
29.9
58.69
3 1 56
30.1
38.98
50.13
30.1
50.96
43-57
30.2
7-05
40.38
309
17-44
2585
30.9 59.01
31-27
31. 1
38.89
49.85
31. 1
50.79
43.35
31-2
6.67
40.25
31.9
17.59
2557
31-9; 59.39
30.97
32.1
38.81
49.56
32.1
50.63
43.10
32.2
6.29
40.10
13.63 +1359
49.53 +49.52
12.29 -♦■
12.25
11.86 -HI.82
20.43 +20u»I
0" 56"* 38-.823
i*» 28™ i9".oi
^ 8™ •
)2*.234
5*" 33" 57*.736
7** 0" 7". 12
+85**
47' 2
7".59
+88*>
50' 2i
9".36
+85*'
19' 3
2".98
+85*'
9' 2
i".38
-^87«
' II'
i6".oo
lEph 13I
MAY, 1913.
255
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
[ Mag. 4.5
a Vnm Xlnoris.
(Polofis.)
Mag. 2.1
Oroombrldfe 760.
Mag. 6.7
Oroombridfe 944.
Mag. 6.4
61 H. Cephei.
Mag. 5.3
^^^P^Ib i
Ri^t
Dedina-
tkm
NoHk.
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.
Decli-
nation
North.
ft_ ^ ™
0 t
h m
0 /
h ni
0 f
h m
0 f
h m
0 f
■by' 056
+8547
May
I 26
+8850
May
4 8
+85 19
May
5 33
+85 9
It
May
659
+87 II
■ l9 17-59
25.57
1.9
s
59.39
30.97
I.I
s
38.89
49-85
I.I
s
50.79
43.35
1.2
66.67
40.25
Bx9
17.75
25.29
2.9
59.84
30.66
2.1
38.81
4956
2.1
50.63
43.10
2.2
66.29
40.10
Vl-9
>7.94
25.01
3.9
60.37
30.35
3.1
38.73
49.25
3.1
50.47
42.85
3.2
65.90
39.92
■ ^
18.13
24.75
4.9
60.97
30.06
4.1
38.67
48.92
4.1
50.33
42.57
4.2
65.52
39-74
|s.9
18.35
24.5*
5.9
61.63
29.78
5.1
38.64
48.58
5.1
50.19
42.28
5.2
65.16
39.52
■ M
18-58
2428
6.9
62.32
29.52
6.1
38.62
48.25
6.1
50.09
41.98
6.2
64.82
39.30
■ 7^ 18.80
24.09
7.9
63.01
29.29
7.0
38.63
47.93
7.1
50.00
41.68
7.2
64.52
39.06
■ I9 19.02
23.91
8.9
63.69
29.08
8.0
38.64
4763
8.1
49.93
41.40
8.2
64.25
38.84
1^ 1923
23.74
•
99
64.30
28.87
9.0
38.66
47-34
9.1
49.87
41.14
9.2
64.01
38.62
P^
19.41
23.57
10.9
64.86
28.68
1 0.0
38.68
47.08
10. 1
49.80
40.89
10.2
63.78
38.43
|tL9
19.58
23.39
11.9
65.35
28.48
II.O
38.69
46.84
II. I
49.73
40.66
II. 2
63.55
38.25
Il3-9
19-75
23.21
12.9
65.83
28.26
12.0
38.68
46.61
12. 1
49.65
40.44
12.2
63.31
38.08
|<3-9
19.92
23.01
13-9
66.32
28.02
130
38.65
46.35
13.1
49.56
40.22
13.2
63.04
37.92
mm
20.10
22.78
14.9
66.87
27.77
14.0
38.63
46.09
14.1
49.46
39.99
14. 1
62.75
37.75
|l5^
20.31
22.55
15.9
67.52
27.51
150
38.61
45.80
15.1
49.35
39.73
15.1
62.43
37.55
|li9
2a56
22.33
16.9
68.25
27.25
16.0
38.60
45.49
16. 1
49.25
39.44
16. 1
62.11
37.32
mm
20.82
22.12
17.9
69.07
27.0X
17.0
38.62
45.15
17.1
49.17
39.13
17.1
61.81
37.08
BiIj9 21.09
21.94
18.9
69.96
26.78
18.0
38.66
44.80
18.1
49.10
38.80
18.1
61.52
36.81
1*9^9 2 1 38
21.78
19.9
70.86
26.57
19.0
38.71
44.47
19.1
49.05
38.47
19.1
61.27
36.52
■1019 21.65
21.64
20.9
71.76
26.39
20.0
38.78
44.15
20.1
49.02
38.15
20.1
61.05
36.23
■11.9 21.91
21.52
21.9
72.61
26.22
21.0
38.85
43.85
21. 1
49.00
37.84
21. 1
60.86
35.94
■>}.9 22.17
21.41
22.9
73.41
26.08
22.0
38.94
43.57
22.1
48.99
37.55
22.1
60.69
35.67
in^9 ,22.40
21.29
23.9
74.17
25.92
23.0
39.01
43.31
23.1
48.98
37.27
23.1
60.52
35.43
|>4-9
22.61
21.17
24.9
74.88
25.76
24.0
39.08
43.06
24.1
48.97
37.01
24.1
60.36
35.20
|35-9
22.82
21.04
259
75.56
25.59
24.9
39.14
42.81
25.1
48.95
36.77
25.1
60.18
34.98
1 26.9 23X>5
20.90
26.9
76.26
25.41
25.9
39.19
42.56
26.1
48.92
36.52
26.1
59.99
34.76
1^-9
23.28 ; 20.75
27.9
76.98
25.22
26.9
3923
42.29
27.1
48.89
36.27
27.1
59.79
34.55
I1I9
23.51
20.59
28.9
77.74
25.02
27.9
39.27
42.01
28.0
48.85
36.01
28.1
59.57
34.31
1 ^9
23.77
20.43
1
29.9
78.56
24.82
28.9
39.31
41.72
29.0
48.80
35.71
29.1
59.35
34.06
1 PA
24.05
20.29
30.9
79.46
24.62
29.9
39-37
41.42
30.0
48.76
35.40
30.1
59.12
33.80
31^ 24.35
20.14
31.9
80.42
24.44
30.9
39.45
41. II
310
48.73
35.08
31.1
58.90
33.51
PA
24.66
20.02
32.9
81.45
24.26
31.9
39.54
40.79
32.0
48.71
34.74
32.1
58.71
33.19
13.62 +13.58
49.44 +49.43
12.28 +12.24
11.85 +11.81
20.43 +20.40
<^56" 38V823I i»»28« i9-.oi
4^ 8"> 52'.234
5^33" 57'.736
yh Qin y« j2
^«
47' 2
7''.59
|+88<'
•so' 2
9".36
+85**
19' 3
2".98
+85«
' 9' 2
i".38
+87*
=»II' I
6".oo
[Eph Tj]
256
JUNE, 1913:
/j>:-
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
48 H. Ctifiiti.
Mag. 4.5
oc UrsK Xinoris.
(Polaris,)
Mag. 2.1
Oroomteldce 7M.
Mag. 6.7
Oroombiidge 944.
Mag. 6.4
$1 H. C^hei.
Mag. 5.3
Mean
Solar
Date.
Riffht
Ascen-
sion.
h m
DecUna
tion
North.
Mean
Solar
Date.
June I 056+8547
'si"
1 .8 24.66 20.02
2.8 24.98 19.91
3.8 25.29 19.84
4.8 25.60 19.78
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
25.89
26.16
26.42
26.66
26.91
27.16
27.43
27.73
28.05
28.39
28.74
29.08
29.40
29.71
30.00
30.27
30.54
30.80
31.07
31.34
31.64
31.94
32.27
32.61
29.8 32.96
30.8 33.30
31.8 33.65
32.8 I 33.96
9.75
9.72
9.69
9.64
9.58
9.51
9.42
9.34
9.26
9.21
9.18
9.18
9.19
9.22
9.26
9.30
9.32
9.33
9.33
9.33
9.32
9.31
931
9-34
9.37
9-43
9.53
9.64
13.62 +13.58
o»»56» 38-.823
+85047' 27".59
June
1.9
2.9
3.9
4.9
5.9
6.9
7.8
8.8
9.8
10.8
11.8
12.8
Richt
Ascen-
sion.
Declina-
tion
North,
Mean
Solar
Date.
h m
I 27 +88 50
s
21.45
22.50
23.58
24.63
25.62
26.55
27.40
/f
24.26
24.11
23.98
23.89
23.80
23.73
23.65
28.23 , 23.57
29.05
29.89
30.80
31.80
13.8 I 32.89
14.8 34.05
15.8 35.24
16.8 I 36.43
23.46
23.34
23.21
23.07
22.95
22.84
22.75
22.70
17.8137.57 22.66
18.8 38.65 I 22.64
19.8 39.67 , 22.63
20.8 40.64 22.62
21.8
22.8
23.8
24.8
41.58
42.50
43.43
44.39
22.59
22.56
22.51
22.46
22.40
22.34
22.29
22.25
29.8 50.03 22.23
30.8 51.27 j 22.25
31.8 52.49 22.28
32.8,53.67 22.34
25.8 1 45.41
26.8 ! 46.48
27.8 147.61
28.8 ! 48.80
49.38 +49.37
i^ 28" i9'.oi
+88*>5o' 29".36
June
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
Richt
Ascen-
sion.
h m
4 8
s
39.65
39.78
39.93
40.08
40.23
40.37
40.50
40.62
DecUna
tion
North.
Mean
Solar
Date.
+8519
//
40.46
40.15
39.86
39.59
39.35
39.12
38.90
38.69
40.74 38.46
40.84 j 38.22
40.96 37.94
41.08 37.65
41.22
41.40
41-59
37.36
37.06
36.79
16.9 41.80 36.53
17.9
18.9
19.9
20.9
42.00
42.21
42.40
42.59
21.9 42.76
22.9 142.92
23.9 j 43.08
24.9 43.24
25.9 ,43.41
26.9 , 43.60
27.9 j 43.80
28.9 44.01
I
I
29.9 44.25
30.9 44.50
31.9 44.76
32.9 , 45.01
36.29
36.07
35.88
35.69
35.49
35.29
35.09
34.87
34.63
34.38
34.13
33.89
33.65
33-43
33-22
3305
12.27 +12.23
{^ 8» 52'.234
"98
+85^ 19'
32'
[Bph 13]
June
i.o
2.0
3.0
4.0
5.0
6.0
7.0
8.0
9.0
1 0.0
1 1.0
12.0
13.0
14.0
150
15-9
16.9
17.9
18.9
19.9
20.9
21.9
22.9
23.9
Ridit
Ascen-
sioo.
h m
5 33
s
48.71
48.73
48.76
48.81
48.86
48.93
48.99
49.04
49.08
49.11
49.13
49.15
49.18
49.22
49.30
49.38
4949
49.60
49.72
49.84
49.95
50.05
50.14
50.23
DecKna-
tion
North.
Solar
[Date.
+85 9
//
34.74
34.39
34.06
33.73
33.42
33.13
32.86
32.61
32.36
32.11
31.84
31.53
31.21
30.87
30.52
30.18
29.86
29.56
29.27
29.01
28.76
28.51
28.26
28.01
24.9 50.30 27.74
25.9
26.9
27.9
28.9
50.39 27.46
50.48
50.59
50.71
29.9 , 50.84
30.9! 51.00
31.9,51-18
27.16
26.85
26.52
26.20
25.89
25.60
11.85 +11.81
5^ 33" 57'.736
+85** 9' 2i".38
June
1.
2.
3.
4.
5-
6.
7.
8.
9.
10.
II.
12.
13.
14.
15.
16.
17.
18.
19.0
20.0
21.0
22.0
23.0
24.0
25.0
26.0
27.0
28.0
29.0
30.0
31.0
32.0
Riclit
Ascen-
sion.
h m
659
s
58.71
58.54
58.40
58.29
Dec^.
natkn
Norih.
+87 U
33.19
32.87
32.54
32.21
58.22 31.90
58.17
58.12
58.07
58.00
57.89
57.78
57.66
31.60
31.33
31.08
30.83
30.58
30.32
30.03
57.54 29.72
57.43 29.39
57.35 29.04
57.32 28.68
57.31
57.33
57.36
5740
5744
57.46
57.46
57.45
57.43
5742
57.40
57.40
57.41
57.46
57-55
57.67
28.33
27.99
27.68
27.39
27.11
26.84
26.56
26.28
26.00
2569
25.36
25.02
24.66
24.30
23.94
23-58
20.41
+87<» 11'
+20.38
7*.I2
i6".oo
JULY, 1913.
257
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
tt H. Oephei.
Mag. 4.5
[
ix TJnm Xinorls.
(Polaris.)
Mag. 2.1
Oroombridge 750.
Mag. 6.7
Oroombridge 944.
Mag. 6.4
61 H. Cephei.
Mag. 5.3
B
Right
smn.
Decltna-
tkm
North,
5 b «i'
Right
Ascen-
sion.
Declina-
tion
North.
0 /
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 f
h m
h m
0 /
h m
0 1
1
h m
0 f
Wr
056
"^8547
July
I 27
+8850
July
4 8
+8519
July
5 33
+85 9
It
July 659+8711
1 ..
1.8
s
33.65
1953
1.8
s
52.49
22.28
1.9
S
44.76
33.22
1.9
s
5118
25.60
I.O
s
57.55
23.94
X.8
33.96 19.64 1
2.8
53.67
22.34
2.9
45.01
33.05
2.9
51.37
25.33
2.0
57.67
23.58
3^*
34.27
19-77
3.8
54.78
22.41
3.9
45.27
32.90
3.9
51.55
25.09
3.0
57.83
23.25
f8
34.55
19.90
4.8
55.81
22.48
4.9
45.51
32.77
4.9
51.72
24.86
4.0
57.99
22.94
V«
34.82
20.01
5.8
56.79
22.55
5.9
45.74
32.65
5.9
51.89
24.65
5.0
58.15
22.64
^7
3508
20.11
6.8
57.72
22.60
6.9
45.96
32.52
6.9
52.04
24.44
6.0
58.29
22.39
11
35-34
20.19
7.8
58.68
22.64
7.9
46.17
32.37
7.9
52.19
24.21
6.9
58.42
22.13
tl
35.63 20.26
8.8
59.68
22.68
8.9
46.37
32.21
8.9
52.32
23.97
7.9
58.53
21.84
.9-1
35-93
20.32
9.8
60.76
22.68
9.9
46.59
32.02
9.9
52.46
23.70
8.9
58.61
21.54
»7
36.25
20.38
10.8
61.91
22.70
10.9
46.83
31.82
10.9
52.62
2341
9.9
58.68
21.23
"7
36.58
20.47
11.8
63x4
22.73
1 1.9
47.09
31.61
11-9
52.79
23.11
10.9
58.78
20.88
U.7
36.93
20.58
12.8
64-39
22.78
12.9
47.36
31.42
12.9
52.98
22.81
11.9
58.90
20.53
M.7 37.28
20.72
138
65.66
22.87
13.9
47.65
31.25
13.9
53.19
22.54
12.9
5904
20.17
M-7 37.61
20.88
14.7
66.88
22.97
14.9
47.94
31.10
14.9
53.41
22.28
139
59.23
19.81
15-7 37.92
21.06
15-7
68.06
23.10
15.9
48.24
30.98
15.9
53.64
22.03
14.9
59.45
19.46
167
38.22
21.24
16.7
69.16
23.23
16.9
48.52
30.88
16.9
53.87
21.82
15.9
5969
19.14
J7.7
38.50
21.42
17.7
70.19
23.36
17.9
48.80
30.79
17.9
54.09
21.63
16.9
59.93
18.84
A7
38.75
21.60
18.7
71.18
23.49
18.8
49.06
30.71
18.9
54-30
21.45
17.9
60.17
18.55
«9.7
39.00
21.77
197
72.14
23.61
19.8
49.31
30.62
19-9
54.49
21.26
18.9
60.39
18.28
?»-7 '39.25
21.92
20.7
73.10
23.72
20.8 1 49.56
30.52
20.9
54.68
21.07
19.9
60.60
18.01
tt.7 ' 39-52
22.06
21.7
74.06
23.82
21.8
49.81
30.42
21.9
54.87
20.86
20.9
60.80
17.74
«.7 39-79
22.20
22.7
75.07
23.91
22.8
50.05
30.29
22.9
55-06
20.64
21.9
60.99
17.47
n-1 40.07
22.33
23.7
76.11
24.UO
23.8
50.30
30.16
23.9
55.25
20.41
22.9
61.16
17.19
H-1 40.37
1
22.48
24.7
77.22
24.08
24.8
50.57
30.03
24.9
55.45
20.18
23.9
61.34
16.90
1
15.7 40.68
22.64
25-7
78.38
24.18
25.8
50.84
29.89
25.9
55.67
19.94
24.9
61.53
16.58
31.7 1 41.00
22.81
26.7
79.57
24.30
26.8
51.15
29.76
26.9
55.89
19.69
25.9
61.73
16.24
«7.7 41.32
23.02
27-7
80.79
24.44
27.8
51.46
29.64
27.9
56.14
19.44
26.9
61.97
15.90
>»7 41.64
1
23.23
28.7
82.00
24.62
28.8
51.78
29.55
28.9
56.40
19.21
27.9
62.25
15.57
^1 41.94
23.47
1
29.7 83.16; 24.81
29.8
52.11
29.49
29.9
56.68
19.01
28.9
62.55
15.24
3*7 42.23
23.73
30.7 84.25
25.02
30.8
52.44
29.45
30.9
56.96
18.84
29.9
62.88
14.93
J1.7 42.48
24.00
31.7 85.26
25.24
31.8
52.75
29.44
31-9
57.24
18.68
30.9
63.23
1463
3»7 42.72
24.25
32.7 j 86.20
25.47
32.8
53.06
29.43
32.9
57.50
18.55
31.9
63.59
14.37
13.62 •••13.58
49.39 +49-38
12.27 +12.23
11.84 4
11.80
20.39 +20.36
o»»56» 38'.823
i^ 28" i9».oi
4^ 8« 52«.234
5*^ 33" •
)7'.736
yh Qin y« ,2
^5*47' 27".59
-►88° 50' 29".36
+85<> 19' 32^.98
+85*> 9' 2
i".38 |+87*» 11' i6".oo
lOI
■K 1:
r
IBph 2:
)]
258
AUGUST, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
48 H. Cephei.
Mag. 4.5
a TJnm Xinoris.
(Polaris.)
Mag. 2.1
Orooxnbridce 7M.
Mag. 6.7
Oroombridge 944.
Mag. 6.4
61 H. CephH.
Mag. 5.3
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
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.
Decfi>
natkm
North.
h m
0 /
h m
0 f
h m
0 r
h m
0 1
h m
0 f
Aug.
056
+8547
Aug.
I 28
+8850
It
Aug.
4 8
+85 19
If
Aug.
5 33
+85 9
II
Aug.
7 0
+87 II
II
1-7
s
42.72
24.25
1.7
8
26.20
25.47
1.8
S
53.06
29-43
1.9
s
57.50
18.55
1.9
s
3.93
14.13
2.7
42.94
24.50
2.7
27.08
2567
2.8
53-34
29-42
2-9
57-75
18.43
2.9
425
1390
3.7
43.17
24.74
3.7
27.96
25.86
3-8
53-61
29.40
3-9
57.98
18.29
3.9
4.55
1367
4.7
43.40
24.94
4.7
28.85
26.02
4.8
53.87
29.36
4.9
58.22
18.14
4.9
4.83
13-42
5-7
43.64
25.14
5-7
29.81
26.18
5.8
54-H
29.30
5.9
58.44
17-97
5-9
5-09
13.16
6.7
43.91
25.34
6.7
30.85
26.34
6.8
54-43
29.22
6.9
58.67
17.78
6.9
5.37
12.87
7-7
44.21
25.55
7.7
31.95
26.50
7.8
54-73
29.14
7-9
58.92
17-57
7-9
5-66
12.56
8.7
44.50
25.79
8.7
33-10
26.69
8.8
55.06
29-07
8.9
59.19
17.37
8.9
5.98
13.24
9-7
44.80
26.04
9.7
34.27
26.89
9.8
5540
29.01
9.8
59.48
17.17
9-9
6.33
11.93
10.7
45.08
26.32
10.7
35-41
27.13
10.8
55.75
28.98
10.8
59.78
16.99
10.9
6.71
11.63
II. 7
45.36
26.63
11.7
36.49
2738
11.8
56.09
28.98
11.8
60.08
16.84
11.9
7.12
11.36
12.6
45.60
26.94
12.7
37.49
2765
12.8
56.43
28.99
12.8
60.39
16.72
12.9
7.53
1 1. 10
136
45.83
27.24
137
38.42
27.92
13-8
56.75
29.03
13-8
60.68
16.61
13.9
7.95
10.87
14.6
46.03
27.53
14.7
39.29
28.17
14.8
57-05
29.07
14.8
60.97
16.52
14.9
8.35
10.66
15.6
46.23
27.83
15.7
40.10
28.43
15.8
57-34
29.12
X5-8
61.24
16.43
15.9
8.74
10.45
16.6
46.43
28.10
16.7
40.90
28.68
16.8
57-63
29.15
16.8
61.50
16.35
16.9
9.10
10.25
17.6
46.63 28.37
17.7
41.70
28.90
17.8
57-90
29.17
17.8
61.77
16.26
17.9
9.46
10.04
18.6
46.83
28.62
18.7
42.53
29.12
18.8
58.18
29.18
18.8
62.03
16.14
18.9
9.80
9.82
19.6
47.04
28.87
19.7
43.39
29.33
19.8
58.45
29.18
19.8
62.28
16.02
19.9
10.14
959
20.6
47.26
29.12
20.6
44.30
29.55
20.8
58.75
29.18
20.8
62.54
15.89
20.9
10.49
9.35
21.6
47.50
29.39
21.6
45.25
29.77
21.8
5906
29.17
21.8
62.81
15.76
21.9
10.85
9.10
22.6
47-74
29.67
22.6
46.23
30.01
22.8
59.38
29.17
22.8
63.09
15.61
22.9
11.22
8.83
23.6
48.00
29.97
23.6
47-24
30.26
23.8
59-72
29.17
23.8
63.39
15.47
23-9
11.63
8.55
24.6
48.25
30.29
24.6
48.26
30.54
24-7
60.07
29.20
24.8
63.71
15.34
24-9
12.07
8.29
25.6
48.49
30.65
25.6
49.24
30.86
25-7
60.42
29.25
25-8
64.04
15.24
25.9
12.55
8.04
26.6
48.70
31.01
26.6
50.15
31.18
26.7
60.77
29.33
26.8
64-38
15.16
26.9
13.05
7.82
27.6
48.90
31.38
27.6
50.99
31.52
27.7
61. II
2943
27.8
64.72
15.12
27.9
13.54
7.62
28.6
49.06
31.73
28.6
51.74
31.85
28.7
61.43
29-54
28.8
65-03
15.09
28.9
14.03
7.44
29.6
49.21
32.09
29.6
52.43
32.18
29.7
61.73
29.66
29.8
65.33
15.08
29.9
14.51
7-29
30.6
49.36
32.44
30.6
53.07
32.50
30.7
62.03
29-78
30.8
65-62
15.06
30.8
14.96
7 14
31.6
49.50
32.75
31.6
53.71
32.79
31.7
62.31
29.88
31-8
65-91
15.03
31.8
15.39
6.98
32.6
49.65 33.05
32.6
54.40
33-05
32.7
62.58
29.96
32.8
66.19
14.98
32.8
15.80
6.81
13.63 +13.59
49-45 +49-44
i:
2.27 +12.23
11.84 +11.80
20.36 -i
20.34
o** 56^ 38'.823
i*» 28» i9».oi
4»» 8« 52V234
5** 33" 57'.736
7* 0"
7».I2
+85O47' 27".59
+88«5o' 29".36
■f85*» 19' 32".98
+85° 9' 2i".38
+87** 11' I
6" .00
(Eph I,
3l
SEPTEMBER, 1913.
259
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4S H. Cephei.
Mag. 4.5
a lJn« Xlnoiis.
{PolaHs,)
Mag. 2.1
Qroombridge 750.
Mag. 6.7
Oroombridf e 944.
Mag. 6.4
51 H.^ Cephei.
Mag. 5.3
M«an
Soltf i
Date.
Riffht
Ascen-
sion.
Declina-
tion
North,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina.
tion
North.
Mean
Solar
Date.
Right
Aacen-
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 r
' h m
0 1
h m
0 1
h m
0 t
h m
e f
Sept.
056
+8547
f 0
Sept.! I 28
+8850
0 f
Sept.
4 9
+8519
00
Sept.
5 34
+85 9
00
Sept.
7 0
+87 II
00
1.6
4965
33-05
1.6
8
54-40
33.05
1-7
s
2.58
29.96
1.8
8
6.19
m W
14-98
1.8
8
1580
6.81
2.6
4983
33.35
2.6
55-16
33.32
2.7
2.88
30.02
2.8
6.47
14.90
2.8
16.20
6.61
3.6
50.02
33.66
3.6
55-98
33.60
3-7
3.18
30.07
3.8
6.77
14.82
3.8
16.61
6.40
46
50.23
33-97
4-6
56.87
33.88
4-7
3.51
30.12
4.8
7.07
14-73
4.8
17.06
6.17
5.6
50.45
34-32
5.6
57.78
34.18
5-7
3.85
30.18
5.8
7.40
14-64
5.8
17.53
5.95
6.6
50.65
34-68
6.6
58.67
34.51
6.7
4.19
30.27
6.8
7-74
14-56
6.8
18.03
5.73
7.6
50.85
3506
7-6
59-51
34.86
7-7
4-53
30.37
7-8
8.09
14-52
7.8
18.56
5.53
8.6
51.02
35.45
8.6! 60.27
35.23
8.7
4.86
30.52
8.8
8.43
1450
8.8
19.09
5.36
9.6
5116
35.85
9.6
60.94
35.60
9-7
5.19
30.67
9.8
8.76
14-51
9.8
19.62
5.22
10.6 '51.29
36.24
10.6
61.54
35.96
10.7
5-51
30.84
10.8
9.09
14.53
10.8
20.15
5.08
11.6
51-39
36.62
11.6
62.08
36.32
11.7
5.80
31.01
11.8
9-40
14-56
11.8
20.66
4-97
12.6
51-49
36.98
12.6
62.59
36.66
12.7
6.07
31.17
12.8
9-69
14-59
12.8
21.14
4.87
136
51-59
37.33
13.6
63.08
36.99
13.7
6.35
31-33
13.8
9.98
14.62
13.8
21.62
4-77
14.6
5169
37.67
14.6
63-58
37.30
14.7
6.62
31-47
14-7
10.26
14-65
14.8
22.08
4.66
15.6
51.81
38.00
15.6
64.12
37.61
15.7
6.89
3160
15-7
10.54
14.66
15.8
22.52
4-53
16.6
51-92
38.32
16.6
64.70
37.92
16.7
7.18
31.73
16.7
10.83
14-65
16.8
22.96
4.40
17.5
52.06 1 38.65
17.6 1 65.32
38.22
17.7
7.47
31.85
17.7
II. 12
14.64
17.8
23.42
4-25
18.5
52.21
38.99
18.6
65.98
38.54
18.7
7.76
31.97
18.7
11.42
14.62
18.8
23.89
4.10
19.5
52.36
39.34
19.6
66.68
38.86
19.7
8.08
32.09
19-7
"73
14.60
19.8
2439
3-93
20.5
52.51
39.72
20.6
67.36
39.22
20.7
8.41
32.24
20.7
12.06
14.59
20.8
24.91
3-77
21.5
52.64
40.12
21.6
68.01
39.59
21.7
8.73
32.40
21.7
12.41
14.60
21.8
25.45
3.62
22.5 152.76
40.54
22.6
68.62
39.98
22.7
9.06
32.58
22.7
12.76
14.63
22.8
26.03
3.50
23.5
52.86
40.97
23.6
69.15
40.39
237
9.37
32.80
23-7
13 11
14.70
23.8
26.62
3.41
24.5
52.92
41.39
24.6
69.57
40.81
24-7
9.67
33.03
24.7
13.44
14.78
24.8
27.19
3.33
25.5
52.98
41.81
25.5
69.92
41.22
25.7
9.96
33.27
25.7
13.77
14.88
25.8
27.76
3.28
26.5
53-01
42.20
26.5
70.22
41.61
26.7
10.21
33.51
26.7
14.08
14.99
26.8
28.30
3.25
27.5
53-05
42.57
27.5
70.51
41.98
27.7
10.46
33.73
27.7
14.37
1509
27.8
28.81
3.22
28.5
5309
42.93
28.5
70.82
42.33
28.7
10.71
33.94
28.7
14.65
15.18
28.8
29.30
3.16
295
53-15
43-27
29-5
71.18
42.66
29.6
10.97
34- 12
29.7
14.93
15.24
29.8
29.78
3-10
30.5
53-22
43-62
30.5
71.61
43.00
30.6
11.23
34-29
30.7
15.22
15.29
30.8
30.26
3-01
31.5
53.32
43.98
31.5
72.11
43-34
316
11.52
34.46
31-7
15-52
15.32
31.8
30.75
•2.90
«3
•63 +13.60
49-56 +49-55
12.27 +12.23
11.84 4
11.80
20.36 +20.33
0" 56" 38".823
i*» 28" I9VOI
4»» 8» 5 2". 234
5^ 33" I
57'.736
7»» 0" 7».i2
+85«
47' 2
7"-59
+88*
•50' 2
9".36
+85 «
•19' 3
2".98
+85*
• 9' 2
i".38
+87
Oil'
i6''.oo
(Bph 13J
260
OCTOBER, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
43 H. Cephei.
Mag. 4.5
(X Ursae Xinoris.
(PolaHs.)
Mag. 2.1
Oroombxldce 7M.
Mag. 6.7
C^fooxnbridce M4.
Mag. 6.4
61 H. Cep
Mag. 5.
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 Right
Solar Asoen-
Date. sion.
h m
0 /
h m
0 /
h m
0 /
h m
0 /
1
h m
Oct.
056
+8547
Oct.
I 29
+8850
Oct.
4 9
+85 19
It
Oct.
534
+85 9
Oct. 7 0
1.5
s
53.32
43.98
1-5
s
12. II
43-34
1.6
8
11.52
34.46
1.7
s
15.52
15-32
1.8
30.75
2.5
53.42
4436
2.5
12.64
43-71
2.6
11.82
34.64
2.7
15.84
15.36
2.8
31 27
3.5
53.52
44-76
3-5
13.16
44-09
3.6
12.12
34.84
3.7
16.18
1541
3.8
3182
4.5
53.61
45-18
4-5
13.64
44.49
4.6
12.43
35.05
4.7
16.52
15.49
4.8
32.40
5-5
53.67
45.60
5-5
14.05
44.91
5.6
12.73
35-30
5.7
16.86
15.58
5-8
33-00
6.5
53.7»
46.03
6.5
14.37
45-33
6.6
I3OI
35-57
6.7
17.19
15-71
6.7
33.59
7.5
53.73
46.45
7.5
14.60
45-75
7.6
13.28
35-85
7.7
17.51
15.85
7.7
34.18
8.5
53.72
46.86
8.5
14.76
46.16
8.6
13.54
36.14
8.7
17.82
16.00
8.7
34.74
9-5
53.71
47-25
9.5
14.87
46.55
9.6
13.78
36.41
9.7
18.11
16.17
9-7
35.29!
10.5
5369
47-63
10.5
14.96
46.94
10.6
14.00
36.67
10.7
18.39
16.32
10.7
35.81
"5
53.67
47-99
11-5
15.05
47-30
1 1.6
14.20
36.93
11.7
18.66
16.46
11.7
36.30
12.5
53-66
48.35
12.5
15.17
47-66
12.6
14.42
37.17
12.7
18.92
16.60
12.7
36.79
13-5
53.66
48.70
»3-5
15.32
48.01
13.6
14.64
3740
137
19.18
16.71
13.7
37.28
14.5
53.67
49-04
»4-5
15.51
48.35
14.6
14.86
37.62
14.7
1945
16.82
14-7
37.76
15.5
53.70
4939
»5-5
15.74
48.70
15.6
15.09
37.84
15-7
19.72
16.92
15.7
38.24
16.5
53.72
49.74
16.5
16.00
49.05
16.6
15.34
38.06
16.7
20.02
17-03
16.7
38.75
17.5
53.75
50.13
»7-5
16.26
49.43
17.6
15.59
38.30
17-7
20.32
17.14
17.7
39.29
18.5
53.77
50.53
18.5
16.50
49.82
18.6
15.85
38.54
18.7
20.63
17.27
18.7
39.86
19.5
53.78
50.94
195
16.70
50.24
19.6
16.II
38.82
19.7
20.95
17.42
197
40.43
20.5
53.76
51.37
20.5
16.82
50.66
20.6
16.37
39.13
20.7
21.26
17.58
20.7
41.02
21.5
53.72
51.79
21.5
16.85
51-10
21.6
16.61
39.45
21.6
21.57
17.79
21.7
41.61
22.5
53-66
52.21
22.5
16.79
51-53
22.6
16.83
39.78
22.6
21.87
18.01
22.7
42.19
23.5
53.57
52.61
23.5
16.66
51.95
23.6
17.02
40.12
23.6
22.15
18.25
23.7
42.74
244
53.49
5300
24.5
16.50
52.34
24.6
17.20
40.45
24.6
22.42
18.46
24.7
43.26
254
53.40
53.35
25.5
16.35
52.71
25.6
17.38
40.75
25.6
22.66
18.68
25.7
4376
26.4
53-33
53.68
26.5
16.23
53.05
26.6
17.55
41.04
26.6
22.89
18.88
26.7
44.24
274
53.29
54.01
275
16.19
53.40
27.6
17.73
41.31
27.6
23-13
19.04
27.7
44.70
28.4
53-26
54-34
28.5
16.21
53-74
28.6
17-92
41-57
28.6
23.38
19.20
28.7
45.18
29.4
53-24
54.69
295
16.28
54- 10
29.6
18.13
41.83
29.6
2364
19.34
29.7
45.68
30.4
53-22
5507
30.5
16.36
54-47
30.6
18.35
42.10
30.6
23.92
19.50
30.7
46.21
31.4
-53-18
55-46
31-5
16.40
54-87
3»-6
18.58
42.39
31-6
24.21
19.68
31.7
46.76
32.4
53.13
55-87
32.4
16.39
55.29
32.6
18.80
1
42.70
32.6
24-49
19.88
32.7
47.33
1364 +13.61
49.69 +49.68
1:
r.28 +
12.23
11.84 -*-
11.80
20.36 +
o»» 56" 38*.823
i^ 28™ i9».oi
4'* 8" <
)2'.234
5** 33"* !
)7*.736
jh o«
+850
47' 2
7".59
+88*'
50' 2
9".36
+85^
19' 3
2".98
+85°
9' 2
i".38
+87*
11' I
[Eph 13]
NOVEMBER, 1913.
261
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
O H. Cephei.
Mag. 4.5
a UrsflB JCinorit.
{Polaris.)
Mag. 2 I
Ckooxnbridfe 7M.
Mag. 6.7
Oroombridfe 044.
Mag. 6.4
61 H. Cephel.
Mag. 5.3
m
1 Right
Asceii-
skw.
DecUns-
tkm
NoHh.
Mran
Solar
Date.
Right
Ascen-
sion.
h m
Declina-
tion
North.
Mean
Soku-
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
h ni
Declina-
tion
North,
0 1
Mean
Soku-
Date.
Right
Ascen*
sion.
DecU-
nation
North.
h ml 0 '1
0 f
h m
0 /
h m
0 /
NoY. 056
•»-85 47
00
Nov.
I 29 1+88 50 1
Nov.
4 9
+85 19
Nov.
5 34
+85 9
Nov.
7 0
+87 11
n
s
M 5313
55.87
1-4
s
16.39
55.29
1.6
s
18.80
42.70
1.6
s
24.49
19.88
1.7
s
47.33
314
M
5305
56.27
2.4
16.28
5571
2.6
19.01
43.04
2.6
24.78
20.11
2.7
47.90
3-23
34
5295
56.68
3.4
16.08 56.13
3.6
19.20
43.40
3.6
2505
20.36
3>7
48.46
3.35
44
52.83
57.07
4.4
15.81 ; 56.54
4.6
19.37
4376
4.6
25.32
20.62
4-7
49.00
348
54
52.69
57-43
54
15.48
56.93
5-5
19.52
44.12
5.6
2556
20.89
5-7
49.52
3.64
M
52.55
57.77
6.4
15.11
57.29
6.5
19.66
44.46
6.6
25-79
21.16
6.7
50.00
3.79
74
52.40
58.10
7-4
14.73 57.65 1
7.5
19.78
44.80
7.6
26.00
21.43
7.7
50.46
3.94
M
52.27
58.42
8.4
14.37
57.99
8.5
19.89
45- 12
8.6
26.21
21.68
8.7
50.91
4.08
94
52.15
58.71
9.4
14.03
58.32
9.5
20.01
45.43
9.6
26.40
21.92
9.7
51.33
4.22
104
5203
5901
10.4
13.74
58.63
10.5
20.13
45.73
10.6
26.60
22.14
10.7
51.75
4.34
"4
5*94
5931
11.4
13.50
58.95
11-5
20.26
46.02
11.6
26.81
22.35
11.7
52.19
4.46
"4
51.84
59.62
12.4
13.27
59.28
12.5
20.40
46.30
12.6
27.02
22.56
12.6
52.64
4.56
"34
51.74
59.93
13.4
13.07
59.63
13.5
20.55
46.59
13.6
27.24
22.78
136
5311
4.66
144
5».65
60.27
14.4
12.85
59-99
145
20.71
46.91
14.6
27-47
23.00
14.6
53.60
4.77
>54
5>.54
60.63
15.4
12.59
60.36
15.5
20.86
47.24
15.6
27.71
23.24
15.6
54.10
4.90
iM
51^2
60.99
16.4
12.27
60.75
16.5
21.02
47.60
16.6
27.96
23.51
16.6
54-62
5.04
»74
51.26
61.35
17.4
11.87
61.14
17.5
21.15
47-97
17.6
28.19
23.80
17.6
55.14
5.21
iM
5».09
61.71
18.4
11.38
61.53
18.5
21.27
48.36
18.6
28.41
24.11
18.6
55-64
542
IM
50.88
62.04
19.4
10.80
61.90
19.5
21.37
48.75
19.6
28.62
24.43
19.6
56.12
5.63
»4
50.67
62.36
20.4
10.18
62.25
20.5
21.44
49-13
20.6
28.80
24.77
20.6
56.58
5.86
214
50.47
62.64
21.4
9.54
62.57
21.5
21.51
49.50
21.6
28.96
25.08
21.6
56.99
6.08
"4
50.28
62.91
22.4
8.93
62.87
22.5
21.56
49.84
22.6
29.10
25.38
22.6
57.38
6.30
234
50. IX
63.17
23.4
8.38
63.16
235
21.62
50.15
23.6
29.25
25.64
23.6
57.75
6.49
244 49.96
63.42
24.4
7.91
63.45
24.5
21.69
50.44
24.6
29.41
2590
24.6
58.12
6.66
254
49.82
6367
25.4
7.50
63.73
25.5
21.78
50.74
25.6
29.57
26.14
25.6
58.52
6.81
264
4969
63.95
26.4
7.11
64.04
26.5
21.87
5104
26.6
29.75
26.37
26.6
58.92
6.95
»74
49.53
64.25
274
6.71
64.36
27.5
21.98
5 1-35
27.5
29.94
26.62
27.6
5936
7.12
rt4
49.37
64.56
28.4
6.26
64.70
28.5
22.08
51 69
28.5
30.13
26.90
28.6
59.81
7.30
^•3
49.19
64.87
29.4
5.73
65.05
29.5
22.18
52.05
29-5
30.33
27.21
29.6
60.27
7.50
30.3
48.98
65.18
30.4
5.11
65.39
30.5
22.25
52.44
30.5
30.51
27.53
30.6
60.73
7-73
31.3 48.75
65.48
31.4 1 4.40
6573
315
22.31
52.82
31.5
30.68
27.87
31.6
61.15
7-99
«3-65 +1362
4983 +49.82
12.28 +12.24
11.84 +
11.80
20.36 +20.33
0^ 5^ 38'.823
1»» 28« 19" .01
^h 3m 52«.234
5*" 33" !
J7'.736
7*» 0" 7».i2
♦«5*
47' 2
7".59
+88*>
50' 2<
9".36
*85^
19' 3
2".98
+85«
9' 2
i".38
+87"
o„/
i6".oo
[Eph is]
262
DECEMBER, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
48 H. Ctfiiti,
Mag. 4.5
Mean
Solar
Date.
Right
Ascen-
sion.
h m
Dec.
056
1.3
s
48.75
2.3
48.50
3.3
48.25
4.3
48.01
5-3
47.77
6.3
47.53
7-3
47.32
8.3
47."
9-3
46.92
10.3
46.73
11.3
46.52
12.3
46.31
13.3
46.09
»4.3
45.85
153
45.58
16.3
45.29
17.3
44.99
18.3
44.69
19.3
44.41
20.3
44.14
21.3
43.91
22.3
43.68
233
43.47
243
43.25
253
43.00
26.3
42.75
27.3
42.48
28.3
42.18
293
41.88
303
41.56
313
41.24
32.3
40.94
Dedina
tion
North.
a TJrsK Xinoris.
(Polaris.)
Mag. 2.1
+8548
//
5.48
5.76
6.01
6.25
6.46
6.66
6.85
7.03
7.21
7.41
763
7.86
8.09
8.32
8.56
8.78
8.97
9.13
9.26
9.39
9-49
9.60
9.72
9.86
10.01
10.17
10.34
10.49
10.62
10.73
10.81
10.88
13.66 +13.62
o»» 56« 38'.823
+85O47' 27".59
Mean
Solar
Date.
Dec.
1.4
2.4
3.4
4.4
5.4
6.4
7-4
8.3
93
10.3
11.3
12.3
13.3
143
15.3
16.3
17.3
18.3
19.3
20.3
21.3
22.3
23.3
24.3
25.3
26.3
273
28.3
29.3
30.3
31.3
32.3
Right
Ascen-
sion.
h m
I 28
s
64.40
6363
62.81
61.99
61.19
60.40
59.66
58.95
58.29
57.64
57.00
56.34
55.64
54.86
53.99
5304
52.03
50.99
49.98
49.03
48.14
47.33
46.57
45.81
45.02
44.17
43.24
42.23
41.15
40.03
38.89
37.77
Declina
tion
North.
+8851
//
5-73
6.05
6.34
6.62
6.88
7.12
7.35
7.58
7.80
8.04
8.29
8.56
8.83
9.11
9.40
9.67
9.92
0.14
0.33
0.49
0.64
0.81
0.97
1. 15
»-35
1.55
1.76
1.97
2.15
2.32
2.45
2.56
49.94 +49-93
I** 28
m
i9Voi
+88^50' 29^.36
Oroombridce 7M.
Mag. 6.7
Mean
Solar
Date.
Right
Ascen-
sion.
h m
Dec
4 9
s
1-5
22.31
2.5
22.33
3-5
22.35
4.5
22.35
5.5
22.34
6.5
22.33
7.5
22.32
8.5
22.32
9.5
22.33
10.5
22.35
11.5
22.37
12.4
22.40
13.4
22.42
14.4
22.43
154
22.43
16.4
22.40
17.4
22.35
18.4
22.29
19.4
22.21
20.4
22.13
21.4
22.06
22.4
22.00
23.4
21.96
24.4
21.93
25.4
21.90
26.4
21.86
27.4
21.81
28.4
21.73
29.4
21.63
30.4
21.51
31.4
21.38
32.4
21.24
Dedina
tion
North.
+85 19
//
52.82
53.20
53-59
53.96
5430
54-62
54-93
55.23
55.53
55.83
56.14
56.46
56.81
57.17
57.55
57.93
58.31
58.67
58.99
59.29
59-57
59.84
60.10
60.38
60.68
61.00
61.33
61.67
62.02
62.35
62.66
62.96
12.29
■ h gm
+ 12.25
4" »" 52*.234
32".98
[Bph 13]
+85^ 19'
Oroombridge 944.
Mag. 6.4
Mean
Solar
Date.
Dec.
1.5
2.5
3.5
4.5
5.5
6.5
7-5
8.5
9.5
10.5
11.5
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
27.5
28.5
29.5
30.5
3*5
32.5
Right
Ascen-
sion.
h m
5 34
8
30.68
30.82
30.94
31.04
31.14
31-23
31.32
31.40
31.50
31-61
31.72
31.85
31.97
32.09
32.19
32.28
32.34
32.38
32.41
32.43
32.45
32.49
32.53
32.58
32.65
32.70
32.76
32.79
32.81
32.81
32.79
32.75
Dedina
tion
North.
+85 9
ff
27.87
28.22
28.58
28.92
29.25
29.56
29.85
30.14
30.42
30.69
30.97
31.27
31.58
31.92
32.27
32.63
33.00
33.38
33.73
34.05
34.34
34-62
34.89
35.17
35.47
35.78
36.13
36.48
36.86
37.22
3758
37.92
11.85 +11.81
5** 33" 57'.736
+85*> 9' 2i".38
kl H. Cephei.
Mag. 5.3
Mean
Solar
Date.
Dec.
1.6
2.6
3-6
4.6
5.6
6.6
7.6
8.6
9.6
10.6
11.6
12.6
13.6
14.6
156
16.6
17.6
18.6
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
7 1
8
».I5
1.55
1.92
2.26
2.57
2.86
3.15
3.45
3.74
4.04
4-35
4.69
5.04
5.40
5.75
6.07
6.35
6.60
6.82
7.01
7.19
7.37
7.57
7.80
8.05
8.31
8.56
8.79
9.00
9.18
9.32
9-43
20.37
nation
North.
+87 II
#»
7.99
8.25
8.52
8.80
9.07
9.32
9.56
9.80
0.02
0.24
0.46
0.68
0.93
1.20
1.49
1.81
2.13
2.46
2.79
3.09
336
3.62
3-85
4.09
4-35
4.63
4-93
5.25
5.59
5.94
6.30
6.64
+87*> 11
o»
+20.35
7*. 12
i6".oo
264
FEBRUARY, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
€liooxiibxidce 1119.
1 H. Bzaconlg.
80 H. Camelop.
Bimdley 1672.
Qioombiidfe 2S88.
Mag. 7.0
Mag. 4.6
Mag. 5
.3
Declina-
Mag. 6.3
Mag. 7.2
Mean
Riffht
Declina-
Mean
Right
Declina-
Mean
Riuht
Mean
Right
Dedina
Mean
Right
Dcdi-
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
natMHi
Date.
sion.
North.
Date.
sion.
North.
Date.
sion.
North.
Date.
sion.
North.
Date.
sion.
North,
h m
0 t
h m
0 /
h m
0 /
h m
e /
h m
e /
Feb.
8 13
+8853
Feb.
9 24
+81 42
» §
Feb.
10 20
+83 0
00
Feb.
12 15
+88 10
00
Feb
15 5
+8733
1-5
8
1569
W w
53.38
1.5
8
59.37
w w
44.03
1.6
8
49.29
0.25
1.6
8
XO.45
37.74
1.8
8
4.32
38.61
2.5
15.77
53.69
2.5
59.43
44.30
2.6
49.40
0.48
2.6
11.04
37.87
2.8
4.79
38.52
3.5
15.85
54.01
3.5
59.49
44.58
3.6
49.51
0.73
3.6
11.66
38.01
3.8
530
38.42
4-5
15.90
54.35
4.5
59-55
44.88
4.6
49.62
1. 00
4.6
12.30
38.17
4.8
5.83
38.34
5.5
15.88
54.70
5.5
59.61
4520
5.6
49.73
1.29
5.6
12.95
38.35
5.8
6.39
38-26
6.5
15.79
55.06
6.5
59.66
45.53
6.6
49.83
1.60
6.6
13.58
38.56
6.7
6.95
38.21
7-5
15.63 55.42 1
7.5
59.69
45.87
7.5
49.92
1.93
7.6
14.19
38.78
7.7
7.53
38.17
8.5
15.39
55.78
8.5
59-72
46.21
8.5
50.00
2.25
8.6
14.76
39.01
8.7
8.09
38.17
9.5
15.07
56.11
9.5
59.73
46.54
9.5
50.06
2.56
9.6
15.27
39.26
9.7
8.65
38.19
10.5
14.71
56.43
10.5
59.73
46.86
10.5
50.11
2.88
10.6
15.75
39.51
10.7
9.19
38.23
11.4
14.32
56.74
"5
59-73
47.17
"5
50.15
3.19
II. 6
16.18
39.76
11.7
9.68
38.27
12.4
13.94
57.02
12.5
59-73
47.45
12.5
50.18
3.47
12.6
16.58
39.99
12.7
10.15
38.31
13.4
13.59
57-28
13.5
59.74
47.72
13-5
50.22
3.74
13.6
16.96
40.21
13.7
10.59
38.35
14.4
13.29
57.55
14.5
59-74
47.98
14.5
50.26
3.98
14.6
17.35
40.41
14.7
11.02
38.37
15.4
13.05
57.80
15.5
59-75
48.23
15.5
50.31
4.22
15.6
17.77
40.60
15.7
11.45
38.37
16.4
12.86
58.07
16.5
59.77
48.49
16.5
50.37
4.48
16.6
18.22
40.78
16.7
11.90
38.37
X7-4
12.67
58.37
17.5
59.80
48.77
17.5
50.44
4.75
17.6
18.71
40.97
17.7
12.38
38.34
18.4
12.47
58.68
18.5
59.83
49.08
18.5
50.51
5.03
18.6
19.23
41.17
18.7
12.90
38-32
19.4
12.20
59.02
19.5
59.85
49.40
19.5
50.58
5.35
19.6
19.76
41.41
19.7
13.45
38.33
20.4
11.84
59.36
20.5
59.85
49.74
20.5
50.63
5.68
20.6
20.27
41-67
20.7
14.01
38.36
21.4
"37
5969
21.5
59.85
50.08
21.5
50.67
6.03
21.6
20.74
41-95
21.7
14-57
38.42
22.4
10.82
60.01
22.5
59.83
50.42
22.5
50.69
6.37
22.6
21.15
42.25
22.7
15.11
38.51
23.4
10.20
60.29
23.5
59.80
50.74
23.5
50.70
6.71
23.6
21.49
42.55
23.7
15.61
38.64
24.4
9.55
60.55
24.5
59.76
51.04
24.5
50.69
7.02
24.6
21.77
42.84
24.7
16.09
38.76
25.4
8.90
60.78
25.5
59.72
51.32
25.5
50.69
7.31
25.6
22.02
43.12
25.7
16.53
38.88
26.4
8.29
61.01
26.5
59.69
51.58
26.5
50.67
7.59
26.6
22.25
43.38
26.7
16.94
39-00
274
7.73
61.22
27.5
5965
51.82
27.5
50.67
7.84
27.6
22.50
43.62
27.7
17.33
39-10
28.4
7.21
61.44
28.5
59.62
52.07
28.5
50.68
8. 1 1
28.6
22.78
43.87
28.7
17.74
39.20
29.4
6.71
61.68
29.4
59.60
52.33
29.5
50.69
8.38
29.6
23.08
44.11
29.7
18.18
39-28
30.4
6.21
61.94
30.4
59.58
52.61
30.5
50.70
8.66
30.6
23.40
44-36
30.7
18.62
39-37
52.06 +52.05
6.94 +6.87
8.21
+8.15
31.45 +31.43
23.49 +23.47
gh ,,m 46«.i5i
^h 24m 46«.5i6
10** 26* ,
J4-.492
I2*» 14" 26».979
15'' 4" 59*-30
+88°
53' 4
♦".41
+8i°
42' 4
4". 16
+83<'
0'
6".83
+88*=
•10' 5
5".87
+87«
'34'
6".oi
lEph X3]
MARCH, 1913.
265
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
t—Wdgc 1119.
Mag. 7.0
1 H. Diaoonlg.
Mag. 4.6
80 H. Camelop.
Mag. 5.3
Bradley 1678.
Mag. 6.3
Oroombxidce 8288.
Mag. 7.2
■i^B^V*
Right
Ascra-
Am.
DecihiA'
tion
North.
Meui
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.
Decli-
nation
North.
h m
0 0
h m
0 /
h m
0 r
h m
0 /
h m
0 /
Mir.
8 12
+8854
00
Mar.
9 24
-•-8 1 42
00
Mar.
10 20
-^83 0
am
Mar.
12 15
•K88 10
m •
Mar.
15 5
+8733
M
66.71
1.68
1.4
8
5960
52.33
1-5
8
50.69
r r
8.38
1.6
8
23.08
WW
44.11
1.7
s
18.18
WW
3928
24
66.21
1.94
2.4
59.58
52.61
2.5
50.70
8.66
2.6
2340
4436
2.7
18.62
39.37
34
6570
2.20
34
59.55
52.90
3-5
50.71
8.96
3.6
23.75
44-63
3.7
19.10
39.45
44
65 14
2.48
4.4
59.53
53.21
4.5
50.72
9.28
4.6
24.10
44.92
4.7
19.61
39-55
54
6452
2.76
5.4
5950
53.54
5-5
50.73
9.61
5-6
24.43
45.22
5-7
20.11
39.66
M
63.84
3.04
6.4
59.46
53-86
6.5
50.73
9-95
6.6
24.75
45-53
6.7
20.62
39.79
74
6307
3.33
7.4
5941
54-19
7.5
50.71
10.30
7-6
25.03
45.86
7.7
21.13
39.95
M
1
63.24
3-59
8.4
59-35
54.50
8.5
50.68
10.64
8.5
25.27
46.20
8.7
21.62
40.13
94
61.36
3.84
9.4
59-28
54.81
9-5
50.64
10.97
9.5
25.45
46.54
9.7
22.09
40.33
104
60.46
4.05
10.4
59.20
55.09
10.5
50.59
11.29
10.5
25.59
46.88
10.7
22.51
40.54
"4
59-55
4.25
11.4
59-12
55-35
11-5
50.53
11.60
11.5
25.68
47-20
11.7
22.91
40.74
«4
58.66
4.43
12.4
59.04
55-60
12.5
50.47
11.88
12.5
25.75
47.50
12.7
23.27
40.94
134
57.82
4.59
13.4
58.96
55-82
13.5
50.41
12.13
13.5
25.81
47.80
13.7
23.60
41.14
144
57.05
4.74
14.4
58.89
56.03
14.5
50.36
12.38
14.5
25.88
48.06
14.7
2393
41.31
154
56.34
491
154
58.83
56.25
15-5
50.32
12.62
15.5
25-98
48.33
15.6
24.26
41.47
164
55.65
5.10
16.4
58.78
56.48
16.4
50.29
12.88
16.5
26.11
48.58
16.6
24.62
41.63
»74
54.99
5.29
174
58.72
56.72
17-4
50.26
13-15
17.5
26.28
48.85
17.6
25.00
41.77
184
54-30
5.50
18.4
58.67
56.99
18.4
50.23
13-44
18.5
26.46
49.13
18.6
25-41
41.92
194
53.52
5.73
19.4
58.61
57.27
19.4
50.20
13.74
19.5
26.64
49-44
19.6
25.85
42.10
20.3
52.65
5.94
20.4
58.54
57.55
20.4
50.15
14.06
20.5
26.79
49.76
20.6
26.28
42.30
21-3
51.68
6.15
21.4
58.45
57.83
21.4
50.08
14.39
21.5
26.88
50.11
21.6
26.70
42.54
22.3
50.64
6.33
22.4
58.35
58.09
22.4
50.00
14.70
22.5
26.89
50.46
22.6
27.08
42.79
23.3
49.58
6.49
23.4
58.24
58.32
234
49.91
14-99
23.5
26.85
50.79
23.6
27.42
43.07
24.3
48.51
6.61
24.4
58.13
58.54
24.4
49.81
15.25
24.5
26.77
51.12
24.6
27.71
43.34
25.3
47.48
6.72
25.4
58.02
58.72
25-4
49-71
15-50
25.5
26.65
51.42
25.6
27.98
43.60
26.3
46.51
6.81
26.4
57-92
58.90
26.4
49.61
15-72
26.5
26.53
51.71
26.6
28.22
43.85
27.3
45.59
6.89
274
57.82
59.06
37-4
49.52
15-94
27.5
26.43
51.99
27.6
28.46
44.08
2«.3
44.72
6.99
28.4
57.73
59.23
28.4
49.44
16.15
28.5
26.36
52.25
28.6
28.71
44.30
29.3
43.86
7.10
29.4
57.64
59-42
29.4
49-37
16.37
29.5
26.32
52.52
29.6
28.98
44.52
30.3
43.01
7.23
30.4
57.56
59-62
304
4930
16.61
30.5
26.31
52.81
30.6
29.28
44.73
31.3
42.13
736
31.4
57-48
59.84
31 4
49.23
16.87
31-5
26.31
53.11
31.6
29.60
44.95
32.3
41.19
751
32.4
57-39
60.06
324
49-15
17.14
32.5
26.30
53.41
32.6
29.92
4519
52.15 •»
•52.15
6.94 +6.87
8.21 +8.15
31.50 +31.47
23.50 ■^23.48
8* II- .
|6».i5i
9^ 24" 46«.5i6
10^ 20™ 34'.492
12** 14" 26".979
15*" 4" 59'.30
♦88*
53' 4
4".4i
+8i«
'42' 4
4".i6
+83°
0'
6".83
•f88«
• 10' 5
5".87
-|.87°
34'
6".oi
[Bph 13]
266
APRIL, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
Oioombiidce 1119.
Mag. 7.0
Mean
Solar
Date.
Right
Ascen-
sion.
h m
Apr.
8 12
s
13
41.19
2.3
40.21
3.3
39.16
4.3
38.06
5.3
36.91
6.3
35.73
7-3
34.56
8.3
33.40
9-3
32.29
I0.3
31.26
11.3
3030
12.3
29.41
13.3
28.53
14.3
27.65
15.3
26.72
16.3
25.71
17-3
24.61
18.3
23.46
19.3
22.26
20.3
21.07
21.3
19.91
22.3
i8.8x
233
17.78
243
16.82
25.2
15.91
26.3
15.00
27.2
14.09
28.2
13.15
29.2
12.16
•30-2
U.13
312
10.04
Declina
tion
North.
+8854
n
7.51
7.66
7.80
7.92
8.03
8.II
8.16
8.20
8.22
8.24
8.25
8.26
8.29
8.35
8.41
8.47
8.53
8.55
8.56
8.52
8.48
8.41
8.33
8.26
8.20
8.16
8.13
8.10
8.08
8.06
8.03
52.20 +52.19
8»» ii» 46».i5i
+88«>53' 44".4i
I. Diaoonii.
Mag. 4.6
Mean
Right
Solar
Ascen-
Date.
sion.
h m
Apr.
9 24
1.4
s
57.39
2.4
57.29
3.4
57.18
4.4
57-07
5-4
56.94
6.4
56.81
7.3
56.68
8.3
56.54
9.3
56.41
10.3
56.28
"3
56.17
12.3
56.07
13.3
55-97
14.3
55.87
15.3
55.77
16.3
55.67
17.3
55-55
18.3
55.41
19.3
55.26
20.3
55."
21.3
54-96
22.3
54.82
23.3
54.69
24.3
54-57
25.3
54.45
26.3
54.34
27.3
54-22
28.3
54."
29.3
53.98
30.3
53.85
31.3
53.72
Declina
tion
North.
+81 43
//
0.06
0.29
0.51
0.73
0.94
1. 12
1.28
1.42
1.54
1.63
1.73
1.83
1-95
2.08
2.24
2.40
2.56
2.69
2.80
2.89
2.95
2.99
3.02
3.05
3.09
3.14
3.20
3-28
3.36
3.44
3.51
6.94 +6.87
^h 24m 46».5i
+8x®42' 44".i6
30 H. Gamelop.
Mag. 5.3
Mean
Solar
Date.
Apr.
1.4
2.4
3.4
4-4
5.4
6.4
7-4
8.4
9.4
0.4
1.4
2.4
3.4
4-4
5.4
6.4
7-4
8.4
9-4
20.4
21.3
22.3
23.3
24.3
25.3
26.3
273
28.3
29-3
30.3
31-3
Right
Ascen-
sion.
h m
10 20
s
49.15
49.06
48.97
48.87
48.75
48.62
48.49
48.35
48.21
48.08
47.96
47.85
47.75
4765
47.55
47-44
47-32
47.18
47.02
46.86
46.69
46.53
46.38
46.24
46.10
45.97
45.84
45.72
45.60
4546
45.31
Declina
tion
North.
+83 O
//
7.14
7.41
7.68
7.95
8.22
8.47
8.70
8.91
9.09
9.26
9.41
9.57
9.74
9.92
20.13
20.35
20.57
20.78
20.98
21.14
21.28
21.40
21.50
2 1. 59
21.68
21.80
21.92
22.05
22.19
22.34
22.49
8.21 +8.15
lo** 20™ 34*.492
Bradley 1672.
Mag. 6.3
Mean
Solar
Date.
Apr.
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
14.4
15.4
16.4
17.4
18.4
19.4
20.4
21.4
22.4
23-4
24.4
254
26.4
27.4
28.4
29.4
30.4
31.4
Right
Ascen-
sion.
h m
12 15
s
26.30
26.27
26.21
26.11
25-95
25-75
25.51
25.22
24.92
24.63
24.38
24.15
23-98
23.82
23.66
23.48
23-25
22.96
22.61
22.19
21.75
21.32
20.88
20.47
20.10
19.76
19.44
19.12
18.79
18.44
18.06
Declina
tion
North.
+88 10
ff
53.41
53-74
5407
54.41
5476
55-10
55-42
55-72
56.01
56.27
56.52
56.75
56.99
57.24
57.51
57-81
58. IX
58.42
58.73
59.02
59-28
59-52
59.73
59.95
60.15
60.36
60.59
60.82
61.06
61.32
61 57
31.53
X2*» X4™
+31.52
26*.979
+83«» o' 6".83 I +88** xo' 55".87
[Eph 13]
axoombxldfe 28S3.
Mag. 7.2
Mean
Right
Solar
Ascen-
Date.
sion.
h m
Apr.
15 5
s
1.6
29.92
2.6
30.25
3.6
30.57
4.6
30.87
5.6
31.15
6.6
31-39
7.6
31-60
8.6
31-76
9-6
31.90
10.6
32.02
XX. 6
32.14
X2.6
32.28
13-6
32.43
14.6
32.6x
15.6
32.8X
x6.6
3302
17.6
33-23
18.6
33-39
19.6
33-51
20.5
33-59
21.5
33-62
22.5
33.63
23.5
33-62
24.5
33.62
25.5
33.64
26.5
33.68
27.5
33.74
28.5
33-82
29-5
33.90
30.5
33.98
31.5
34.05
DecU-
nation
North,
+8733
45.19
45.44
45.71
46.00
46.31
46.62
46.95
47.26
47.57
47.85
48.x 2
48.37
48.6X
48.85
49-11
49-39
49.70
50.03
50.37
50.71
51-05
5137
51.67
51.96
52.23
52.50
52.76
5304
53.32
5363
53.96
2352
15** 4"*
+87^ 34'
+23.50
59".30
6".oi
MAY, 1913.
267
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
aMHuMdce 1119.
Mag. 7.0
1 H. DiBOonis.
Mag. 4.6
80 H. Oamelop.
Mag. 5.3
Bndley 1672.
Mag. 6.3
Oroombiidce 8883.
Mag. 7.2
8olw
Site.
RjghC
*
Dcdina.
tkm
North,
Mean
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.
Decli-
nation
North,
li m
0 /
h m
0 f
h m
0 f
h m
0 /
h m
0 /
May
8 II
+8854
ft
May
9 24
+81 43
May
10 20
+83 0
May
12 15
+88 II
May
15 5
+8733
1.2
s
70.04
8.03
1.3
8
53.72
3.51
1.3
s
45.31
22.49
1-4
s
18.06
1-57
X.5
s
34.05
53.96
2.2
68.92
7.98
2.3
«
53.58
3.56
2.3
45-15
22.63
2.4
17.62
1-83
2.5
34.08
54.30
3-2
6777
7.90
3.3
53.43
3.61
3.3
44.99
22.75
3.4
17.15
2.09
3.5
34-09
54-64
4-2
66.63
7.80
4.3
53.27
3-63
4.3
44.82
22.85
4-4
16.63
2-33
4.5
34-05
54-99
5-2
6551
7.68
5-3
53-12
3.63
5-3
44.65
22.92
5-4
16.07
2.55
5-5
33.98
55.34
6.2
64.44
7.54
6.3
52.98
360
6.3
44.47
22.97
6.4
15.50
2.75
6-5
33.87
55.68
7.2
63.46
7.38
7.3
52.84
3.56
7.3
44.29
23.00
7.4
14.93
2.92
7-5
33-74
55.99
8.2
62.54
7.22
8.3
52.70
3.50
8.3
44.14
23.02
8.4
14-39
3-07
8.5
33.60
56.29
9-2
61.71
7.07
9.3
52.58
3.44
9.3
43-99
2303
9-4
13.88
3-21
9-5
3346
56.56
10.2
60.91
6.93
10.3
52.47
3.40
10.3
43.85
23.05
10.4
13-40
3-34
10.5
33.36
56.81
II.2
60.14
6.82
11.3
52.37
3-37
11.3
43.72
23-09
1 1.4
12.96
3.49
II-5
33-28
57.06
12.2
59-34
6.71
12.3
52.26
3.37
X2.3
43.60
23.14
12.4
12.55
3-65
12.5
33.23
57.31
13.2
58.50
6.62
13.3
52.15
3.36
13.3
43-47
23.21
13.4
12.13
3-82
13-5
33-19
57.59
14.2
57-57
6.52
14.2
52.03
3.37
14-3
43.33
23.28
14.4
11.68
4.01
14-5
33.14
57.89
15.2
56.59
6.41
15.2
51.89
3.36
15-3
43.17
23.35
15.4
II. 17
4.21
15.5
33-06
58.20
16.2
55.55
6.26
16.2
51.75
3.33
16.3
42.99
23.40
16.4
10.60
4.40
16.5
32.95
58.53
17.2
54.51
6.09
17.2
51.60
3.28
17.3
42.81
23.43
17-4
9.98
4-58
17.5
32-79
58.86
18.2
53.51
5.89
18.2
51.45
3.20
18.3
42.62
23-43
18.4
9-32
4.74
18.5
32.59
59.20
19.2
52.57
567
19.2
51.31
3- 10
19.3
42.45
23.40
19.4
8.65
487
19-5
32.36
59.51
20.2
51.72
5.44
20.2
51.18
2.97
20.3
42.28
23-35
20.3
7.98
4-97
20.5
32.10
59.80
21.2
50.94
5.22
21.2
51.06
2.84
21.3
42.12
23.29
21.3
7.35
5.06
21.5
31.86
60.07
22.2
50.22
5.00
22.2
50.94
2.72
22.3
4x97
23.23
22.3
6.76
5.13
22.5
31.62
60.32
23.2
49.55
4.81
23.2
50.84
2.61
23.3
41.83
23.19
23-3
6.20
5.21
23.5
31.40
60.56
24.2
48.89
4.62
24.2
50.74
2.51
24-3
41.70
23-15
243
5-68
5-29
24-5
31-21
60.80
25.2
48.20
4.44
25.2
50.64
2.43
25-3
41-56
23.12
25-3
5.16
5.40
25.5
3 1 02
61.05
26,2
4748
4.28
26.2
50.53
2.36
26.3
41.43
23.H
26.3
4.65
5-50
26.5
30.85
61.30
27.2
46.72
4.12
27.2
50.42
2.28
27.3
41.28
2309
27.3
4.12
5.62
27-4
30.68
61.56
28.2
45.92
3.95
28.2
50.30
2.21
28.2
41.13
23.09
28.3
3.57
5-74
28.4
30.50
61.84
29.2
45.08
376
29.2
50.18
2.13
29.2
40.97
23.07
29-3
2.97
5.86
29.4
30.31
62.13
30.2
44.22
3.56
30.2
50.05
2.03
30.2
40.81
23.04
30.3
2.33
598
30.4
30.08
62.43
31.2
43.36
332
3^.2
49.92
1.91
31.2
40.64
23.00
31.3
1.67
6.09
31-4
29.82
62.73
33.1
42.52
307
32.2
49.79
1.76
32.2
40.46
22.92
32.3
0.96
6.18
32.4
29.53
63.04
52.17 +52.17
6.94
+6.87
8.21 +8.15
31.56 +31.55
23.55 +23-53
8^ II* 46^.151
9** 24« i
^6*.5i6
io*» 20™ 34'.492
12** 14" 26^.979
15^ 4" 59".30
^*5
\3' 4>
r'.4i 1
+8i«
42' 4-
^".i6
+83^
0' (
5".83 1
+88*>
10' 5,
5".87 1
+87*^
34'
6".oi
[Bph 13]
268
JUNE, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
Chroomtaidc^ IHO*
Mag. 7.0
1 H. DxmconlB.
Mag. 4.6
80 H. Oamelop.
Mag. 5.3
Bnullef 1678.
Mag. 6.3
Oioomtaldge SStt.
Mag. 7.2
Mean
Solar
Date.
RUrht
Ascra-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Riffht
Ascen-
sion.
DecUna-
tion
North.
Mean
Solar
Date.
Riffht
Ascen-
aioB.
Declina.
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina.
tion
North.
Mean
Solar
Date.
Rtefat
AsoeB>
sioa.
DedS-
natioa
AToftt.
h m
0 /
h m
0 i
h m
0 /
h m
0 t
h m
0 9
June
8 II
+8853
June
9 24
+81 42
June
10 20
+83 0
June
12 14
+88 II
June
15 5
+8734
00
I.I
8
42.52
r r
63.07
1.2
8
49-79
61.76
1.2
8
40.46
22.92
1.3
s
60.96
6.18
1.4
8
29.53
3.04
2.1
41.73
62.81
2.2
49.66
61.59
2.2
40.29
22.82
2.3
60.23
6.25
2-4
29.20
332
31
41.02
62.53
3.2
49-54
61.41
3.2
40.12
22.70
3.3
59.50
6.30
3.4
28.84
3.59
4.1
40.41
62.24
4.2
49.43
61.20
4.2
39.96
22.57
4-3
58.80
6.31
4.4
28.47
3.83
51
39.88
61.96
5-2
49.33
61.00
5.2
39.82
22.42
5.3
58.13
6.32
5-4
28.11
4-04
6.1
39.44
61.69
6.2
49.24
60.79
6.2
3969
22.28
6.3
57.51
6.31
6.4
27.76
4.23
7.1
39.02
61.45
7.2
49.16
60.62
7-2
39-57
22.15
7.3
56.94
6.30
7.4
27.44
4.41
8.1
38.59
61.22
8.2
49.08
60.46
8.2
39.46
22.04
8.3
56.39
6.30
8.4
27.15
4-59
91
38.13
61.00
9.2
49.00
60.31
9.2
39.35
21.95
9.3
55.85
6.32
9.4
26.89
4.79
10. 1
37-59
60.79
10.2
48.91
60.18
10.2
39.22
21.86
10.3
55-29
6.35
10.4
a6.6i
5.00
II. I
36.98
60.57
II. 2
48.81
60.04
II. 2
39.08
21.78
11.3
54.70
6.40
1 1-4
26.33
5.23
12.1
36.34
60.32
12.2
48.70
59-88
12.2
38.93
21.69
12.3
54-05
6.44
12.4
26.03
5.49
13.1
35.68
60.04
13.2
48.59
59.70
13.2
38.77
21.58
13.3
53.34
6.48
13.4
25.67
5.74
14. 1
35.04
59.73
14.2
48.47
59.49
14.2
38.60
21.43
14.3
52.59
6.50
14.4
25.28
6.00
15.1
34.46
59.41
15.2
48.36
59.26
15.2'
38.44
21.25
15.3
51.82
6.49
154
24.85
6.24
16. 1
33-99
59.08
16.2
48.26
59.00
16.2
38.28
21.06
16.3
51.08
6.45
16.4
24.39
6.46
17.1
33.58
58.74
17.2
48.17
58.73
17-2
38.14
20.85
17-3
50.36
6.39
17-4
23.93
6.66
18. 1
33.25
58.42
18.2
48.10
58.47
18.2
38.02
20.65
18.3
49.68
6.31
18.4
23.47
6.82
19. 1
32.99
58.12
19.1
48.03
58.22
19.2
3790
20.45
19.3
49.03
6.24
19.4
23.05
6.98
30. 1
32.74
57.82
20.1
47.97
57.99
20.2
37-79
20.27
20.3
48.43
6.17
20.4
22.64
7.12
21. 1
32.50
57.55
21. 1
47-91
57.77
21.2
37-68
20.09
21.3
47.86
6.10
21.4
22.26
7.26
22.1
32.22
57.28
22.1
47.85
57.55
22.2
37.57
19.93
22.3
47.30
6.04
22.4
21.89
7.41
23- 1
3x90
57.02
23.1
47.77
57-35
23.2
37.47
19.77
23.3
46.72
6.00
234
21.54
7-57
24.1
31.57
56.77
24.1
4771
57.16
24.2
37 35
19.62
24.3
46.14
5.96
244
21.19
7.74
25.1
31.19
56.49
25.x
47.63
56.96
25.2
37.23
19.46
25.3
45.52
593
25-4
20.82
7-93
26.1
30.80
56.21
26.1
47.55
56.74
26.2
37.10
19-30
26.2
44.87
5.90
26.4
20.42
8.12
27.1
30.39
55-90
27.1
47.46
56.50
27.2
36.96
19.12
27.2
44.18
5-86
27.4
20.00
8.31
28.1
29.99
55.57
28.1
47.37
56.24
28.2
36.83
18.92
28.2
43.46
5.80
28.4
19.54
8.51
29.1
29.63
55.23
29.1
47.28
55.95
29.2
36.70
18.69
29.2
42.73
5.72
29.4
19.04
8.69
30.1
29.34
54.87
30.1
47.21
55.67
30.2
36.57
18.44
30.2
41.99
5-61
30.4
18.52
8.85
31. 1
29.15
54.50
31. 1
47-14
55-35
31.2
36.44
18.18
31.2
41.27
5.48
31-4
17.99
8.98
52.08 +52.07
6.94 +6.87
8.21 +8.15
31.58 +
31.56
23.57 +23.55
8»» ii"» 46*.i5i
^h 24"! 46».5i6
10** 20™ 34'.492
12^ 14"^ :
i6».979
15** 4" 59^.30
+88<>
53' 4
♦".41
+8i«
42' 4
4".i6
+83°
0'
6".83
+88®
10' 5
5".87
-I-87*
34'
6".oi
[Eph 13]
JULY, 1913.
269
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
flfiMilaidge U19.
Mag. 7.0
1 H. Bzaconis.
Mag. 4.6
30 H. Camelop.
Mag. 5.3
Bndley 1672.
Mag. 6.3
Qiooabzidce 8288.
Mag. 7.2
Una
Richt
■on.
Dediiift*
Mean
Solar
Date.
Risht
Ascen-
sion.
Declina.
tion
North.
Mean Risht
Declina.
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Dedi-
Solv
Site.
tion
North,
Solar
Date.
Ascen-
sion.
nation
North.
h m
0 t
h m
0 /
h m
0 /
h m
0 /
h m
0 /
July
8 II
+8853
0 $
July
9 24
+81 42
ff
July
10 20
+83 0
July
12 14
+88 10
July
15 5
+8734
§ »
I.I
•
2915
54.50
II
8
47.14
55.35
1.2
s
36.44
18.18
1.2
s
41.27
65.48
1.4
s
17.99
w w
8.98
2.1
29.08
54.14
2.1
47,08
55.04
2.2
36.33
17.90
2.2
40.59
6532
2.3
17-45
9.10
3.«
29.06
53.79
3.1
47.04
54.73
3.1
36.25
17.62
3.2
39-95
65.17
3.3
16.93
9.19
4-1
29.11
53.46
4.1
47.01
54.44
4.1
36.17
17.35
4.2
39.37
65.00
4.3
16.43
9.26
5.»
29.20
53.15
5.1
46.98
54.17
5-1
36.09
17.10
5-2
38.83
64.85
5.3
15.97
9.32
6.1
29.25
52.85
6.1
46.96
53.91*
6.1
36.02
16.87
6.2
38.32
64.71
6.3
15.53
9.39
7.0
29.23
52.57
7.1
46.92
53.66
7.1
35.95
16.65
7.2
37.78
64.58
7.3
15-11
9.48
8.0
29.15
52.29
8.1
46.87
53.41
8.1
35.86
16.44
8.2
37.22
64.47
8.3
14.70
9.58
9.0
29.00
52.00
9.1
46.82
53.15
9.1
3576
16.23
9-2
36.62
64.36
9.3
14-25
9.70
lao
28.81
51.67
10. 1
46.76
52.88
10. 1
35.65
16.00
10.2
35.98
64.26
10.3
13.78
9.83
11.0
28.64
51.32
II. I
46.70
52.59
II. I
35.53
15.74
II. 2
35.30
64.13
11.3
13.25
9.96
12.0
28.52
50.95
12. 1
46.64
52.25
12. 1
35.42
15.45
12.2
34.58
63.98
12.3
12.69
10.08
13.0
28.49
50.56
13.1
46.59
51.92
I3-I
35.31
15.14
13.2
33.87
63.80
13.3
12.09
10.19
14X)
28.56
50.17
14. 1
46.55
51.57
14. 1
35.21
14.82
14.2
33.18
63.59
14.3
11.51
10.26
15.0
28.73
49.79
I5-I
46.52
51.22
15.1
35.13
14.50
15.2
32.54
63.37
15.3
10.94
10.32
16.0
28.95
49.42
16. 1
46.51
50.88
16. 1
3506
14.17
16.2
31.95
63.15
16.3
10.38
10.35
17.0
29.20
49.08
17.1
46.49
50.56
17.1
35.00
13.86
17.2
31.40
62.93
17.3
9.86
10.37
18.0
29.45
48.76
18.1
46.49
50.24
18.1
34.95
13.57
18.2
30.90
62.72
18.3
9-36
10.38
19.0
29.68
48.45
19. 1
46.49
49.95
19. 1
34.90
13.29
19.2
30.42
62.51
19.3
8.88
10.39
20.0
29.87
48.15
20.1
46.48
49.66
20.1
34.85
13.02
20.2
29.94
62.33
20.3
8.41
10.41
21.0
30.04
47.85
21. 1
46.46
49.38
21. 1
34.79
12.76
21.2
29.45
62.15
21.3
7.94
10.45
22.0
30.17
47.54
22.1
46.44
49.11
22.1
34.73
12.50
22.2
28.93
61.97
22.3
7-47
10.49
23-0
30.28
47.23
23.1
46.42
48.83
23.1
34.66
12.23
23.2
28.38
61.79
23.3
6.98
10.54
24.0
30.38
46.90
24.1
46.39
48.52
24.1
34.59
"95
24.2
27.81
61.62
24.3
6.47
10.60
25.0
3049
46.56
25.1
46.36
48.20
25.1
34.51
11.66
25.2
27.20
61.43
25.3
5.93
10.67
25.9
30.62
46.20
26.0
46.33
47.85
26.1
34.43
"34
26.2
26.58
61.22
26.3
5-36
10.72
26.9
30.81
45.81
27.0
46.31
47.49
27.1
34.36
11.00
27.2
25.94
60.99
27.3
4.75
10.75
27.9
31-08
45.43
28.0
46.30
47.13
28.1
34.29
10.64
28.2
25.32
60.73
28.3
4.14
10.77
28.9
3M5
45.04
29.0
46.31
46.75
29.1
34.24
10.28
29.2
24.74
60.45
29.3
3.52
10.75
29.9
31.91
44.67
30.0
46.32
46.36
30.1
34.20
9.91
30.2
24.21
60.16
30.3
2.91
10.70
30.9
3244
4431
31.0
46.35
45-99
31.1
34.17
9.54
31.2
2372
59.86
31.3
2.33
10.64
319 330*
43.97
32.0
46.38
45.65
32.1 34.16
9.19
32.1
23.28
59-55
32.3
1.78
10.56
I 51.96 +5».95
6.94 +6.87
8.21 +8.15
31.56 +31.54
23
.58 +23.56
8^ II* 46^.151
9»i 24™ 46*.5i6
lo** 20™ 34*.492
12'* I4» 26».979
15'^
4°^ 59'.30
*«8<»53' 44".4i
+8i<>42' 44".i6
+83° 0' 6".83
+88® 10' 55".87
+87"
34' 6".ox
[Bph I.
3l
270
AUGUST, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
Qroombzidge 1119.
Mag. 7.0
1 H. Dnconis.
Mag. 4.6
80 H. Cftmelop.
Mag. 5.3
Bndley 1672.
Mag. 6.3
Oioombridce 8Stti.
Mag. 7.2
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.
0 /
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
DecU-
nation
Norik.
h m
0 /
h m
0 f
h m
h m
e /
h m
e r
Aug
8 II
+8853
Aug.
9 24
+81 42
Aug.
10 20
+8259
ff
Aug.
12 14
+88 10
ff
Aug.
15 4
+8734
00
x-9
a
33-57
43.66
I.O
s
46.38
45.65
I.I
B
34.16
69.19
I.I
8
23.28
59.55
1.3
8
61.78
10.56
2.9
3409
43.38
2.0
46.41
45.33
2.1
34.15
68.86
2.1
22.89
59.28
2.3
61.27
10.49
3.9
34.55
43.10
3.0
46.44
45.03
3.1
34.14
68.55
3.1
22.51
59-00
3.3
60.78
10.42
49
34-95
42.80
4.0
46.46
44-73
4.1
34.13
68.25
4.1
22.11
58.76
4.3
60.31
10.38
5-9
35-29
42.48
5.0
46.47
44.42
5.1
34.10
67.95
5-1
21.67
58.53
5.3
59.81
10.35
6.9
35.61
42.15
6.0
46.48
44.10
6.1
34.05
67-65
6.1
21.18
58.29
6.3
59.29
10.34
7-9
35-95
4x79
7.0
46.48
43.77
71
34.00
67.32
7.1
20.66
58.04
7.3
58.73
10.33
8.9
36.36
41.42
8.0
46.48
43.42
8.1
33-95
66.97
8.1
20.11
57.77
8.2
58.14
10.32
9-9
36.85
41.04
9.0
46.49
43.04
9-0
33-91
66.60
9-1
19.54
57.48
9.2
5752
10.30
10.9
37-44
40.66
lO.O
46.51
42.65
10.0
33.88
66.22
10. 1
19.01
57.17
10.2
56.89
10.24
11.9
38.12
40.29
1 1.0
46.54
42.25
1 1.0
33.85
65.82
II. I
18.50
56.84
II. 2
56.26
10.16
12.9
38.86
39.96
12.0
46.58
41.86
12.0
33.84
65.43
12.1
18.07
56.50
12.2
55.66
10.05
139
39-61
39.63
12.9
46.62
41.49
130
33.85
65.04
131
17.67
56.15
13-2
55.09
9.92
14.9
40.35
39-34
13.9
46.68
41.14
14.0
33.86
64.67
14.1
17.33
55.81
14.2
54.55
9-79
15.9
41.05
39.05
14.9
46.74
40.80
150
33.87
64.32
15.1
17.00
55.49
152
54.03
9.66
16.9
41.70
38.78
15.9
46.79
40.48
16.0
33.89
63-99
16.1
16.69
55.18
16.2
53.53
9.53
17.9
42.32
38.50
16.9
46.84
40.18
17.0
33.90
63.67
17.1
16.38
54.88
17.2
53.04
9.42
18.9
42.90
38.21
17.9
46.88
39.87
18.0
33.92
6335
18.1
16.06
54.59
18.2
52.56
9.32
19.9
43-45
37.92
18.9
46.92
39.56
19.0
33.93
63.04
19.1
15.71
54.31
19.2
52.08
924
20.9
44.01
37.60
19.9 46.96
39.24
20.0
3392
62.71
20.1
15.32
54-03
20.2
51.56
9.16
21.9
44.60
37-28
20.9
46.99
38.91
21.0
3391
62.37
21. 1
1493
53.74
21.2
51.02
9.08
22.9
45-24
36.94
21.9
47-02
38.56
22.0
33.90
62.00
22.1
14.50
53.43
22.2
50.45
9.00
239
45 93
36.59
22.9
47.06
38.19
23.0
33.88
61.63
23.1
14.07
53.10
23.2
49.87
8.91
24.9
46.70
36.24
23.9
47.11
37.81
24.0
33-88
61.24
24.1
13.64
52.75
24.2
49.27
8.79
25.9
47.56
35.90
24.9
47.16
37.42
25.0
33.89
60.84
25.1
13.24
52.38
25.2
48.66
8.65
26.9
48.51
35.57
25.9
47-23
37.03
26.0
33.91
60.43
26.1
12.90
52.00
26.2
48.06
8.47
27.9
49.50
35.27
26.9
47-31
36.65
26.9
33.96
60.01
27.1
12.60
51.60
27.2
47.48
8.28
28.9
50.51
34.99
27.9
47.40
36.29
27.9
34-01
59-61
28.1
12.34
51.21
28.2
46.94
8.07
29.9
51.48
34.74
28.9
47-50
35.95
28.9
34.07
59-24
29.1
12.15
50.83
29.2
46.44
7.86
30.9
52.40
34.50
29.9
47.59
35.63
29-9
34.14
58.88
30.1
11.98
50.47
30.2
45.96
7.65
319
53.25
34.25
30.9
47.67
35.33
30.9
34.20
58.54
31. 1
11.82
50.12
31.2
45.49
7.46
32.9
54.03
34-00
31.9
47.75
35.02
31.9
34.25
58.22
32.1
11.62
49.78
32.2
45.04
7.30
51.82 +51.81
6.94 +6.86
8.21
+8.15
31
.52 +31.51
23.58 H
^23.56
8»» ii" 46«.i5i
9h 24"» 46".5i6
io*» 20" :
J4"-492
I2»»
14" 26*.979
15** 4"
59'.30
+88<>
53' 4-
\"Ai
+81^
42' 4-
r.i6
+83**
0' (
5".83
+88*>
10' 5
5".87
+87**
34'
6''.oi
[Bph 13]
SEPTEMBER, 1913.
271
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
Ofoombildce 1119.
Mag. 7.0
1 H. Draconis.
Mag. 4.6
80 H. Camelop.
Mag. 5.3
Bndley 1672.
Mag. 6.3
Oroombridge 8288.
Mag. 7.2
1
Mcta
Sokr
Dtte.
Right
Aacen-
Dectina.
tkm
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 t
h m
0 f
h m
0 t
h m
0 t
Sept.
8 II
+8853
It
Sept.
9 24
+81 42
If
Sept.
10 20
+82 59
If
Sept.
12 14
+88 10
00
Sept.
15 4
+8733
§ m
1-9
s
54.03
34.00
1.9
8
47.83
34-72
1-9
s
34.28
57.89
I.I
s
11.62
49-78
1.2
s
45.04
W w
67.30
2.9
54.78
3372
2.9
47.89
34.40
2.9
34.32
57.54
2.1
11.38
49.46
2.2
44.57
67.13
3.9
55.53
33.43
3.9
47-95
34.05
3.9
34-34
57.18
3.1
II. 10
49.13
3-2
44.05
66.98
4-9
56.34
33."
4.9
48.01
33.68
4.9
34-36
56.80
4.1
10.78
48.79
4.2
43.51
66.84
5-9
57.23
32.78
5.9
48.08
33.30
5.9
34-39
56.39
5.1
10.45
48.42
5-2
42.94
66.67
6.9
58.21
32.46
6.9
48.17
32.91
6.9
34-43
55-97
6.1
10.12
48.03
6.2
42.36
66.50
79
59.26
32.15
7.9
48.26
32.54
7-9
34-49
55-56
7.0
9.83
47.64
7-2
41.77
66.29
8.9
60.38
31.86
8.9
48.37
32.18
8.9
3456
5516
8.0
9.60
47.22
8.2
41.21
66.06
99
61.51
31.60
9.9
48.48
31.83
9-9
34.64
54.77
9.0
9.42
46.81
9-2
40.68
65.82
10.9
62.63
31-36
10.9
48.60
31-52
10.9
34.72
54.39
1 0.0
9.29
46.40
10.2
40.18
65.56
11.9
6373 31.15
11.9
48.71
31.22
11.9
34.81
54.05
11. 0
9.22
46.00
II. 2
39.72
65.30
12.9
64.78
30.94
12.9
48.82
30.93
12.9
34-90
53-72
12.0
9.16
45.62
12.2
39.28
65.05
13.9
65.79
30.74
13-9
48.92
30.65
13-9
34.98
53-40
13-0
9.10
45.27
I3.I
38.86
64.80
14-9
66.76
30.54
14.9
49.02
30.37
14.9
35.05
53.08
14.0
9-03
44.91
14. 1
38.45
64.58
15.9
67.70
.30.32
15.9
49.12
30.09
15-9
35-12
52.75
15.0
8.93
44.57
151
38.03
64.36
16.9
68.62
30.09
16.9
49.21
29-79
16.9
35.18
52.42
16.0
8.81
44.23
16.1
37.61
64.15
17.9 ■ 69.56
29.84
179
49.30
2947
17-9
35.24
52.07
17.0
8.67
43.88
I7.I
37.16
63-94
18.8
70.51
2958
18.9
49.39
29-15
18.9
35-30
51.72
18.0
8.51
43.53
18.I
36.69
63-74
19.8
71.52
29.31
19.9
49.48
28.81
19.9
35-37
51-34
19.0
8.32
43.16
19.1
36.20
63.53
20.8
72.61
29.04
20.9
49-59
28.46
20.9
35-45
50.94
20.0
8.15
42.77
20.1
35.70
63.30
21.8
73.78
28.79
21.9
49.71
28.11
21.9
35-54
50.54
21.0
7-99
42.35
21. 1
35.18
63.05
22.8
7503
28.54
22.9
49-84
2777
22.9
35-64
50.14
22.0
7.88
41-93
22.1
34.66
62.77
23.8
76.34
28.32
23.9
49-98
27-45
23.9
35-76
49-75
23.0
7.82
41-50
23.1
34.16
62.46
24.8
77.65
28.12
24.9
50-13
27-15
24.9
35-89
49-39
24.0
7.82
41.06
24.1
33.71
62.14
25.8
78.95
27.94
259
50.27
26.87
25-9
36.02
49.04
24-9
7.87
40.64
25-1
33.29
61.81
26.8
80.21
27.79
26.9
50.42
26.61
26.9
36.14
48.72
25.9
7.96
40.22
26.1
32.91
61.49
27.8
81.41
27.63
27.9
50.55
26.36
27-9
36.26
48.42
26.9
8.06
39-83
27.1
32.57
61.17
28.8
82.52
27.48
28.9
50.68
26.11
28.9
36.37
48.11
27-9
8.15
39.47
28.1
32.24
60.88
29.8
83.58
27.31
29.9
50.80
25.84
29-9
36.47
47.80
28.9
8.20
39-12
29.1
31.88
60.61
30.8
84.63
27.12
30.9
50.90
25.56
30.9
36.56
47-47
29-9
8.18
38.77
30.1
31.50
60.36
31.8
85.70
26.91
31.9
51.02
25.27
31.9
36.65
4713
30.9
8.15
38.40
31.1
31-08
60.10
32.8 86.84
26.68
32.9
51.15
24.96
32.9
36.75
46.77
31.9
8.09
38.02
32.1
30.65
59.84
51.70 +5*69
6.93 +6.86
8.20 +8.14
31
-47 +31-45
23.56 +23.54
8^ ii« 46».i5i
9>» 24» 46».5i6
10** 20™ 34*.492
I2»»
I4» 26^.979
15^ 4" 59'.30
*««»53' 44".4i
+81*42' 44". 16
+83* 0' 6".83
+88°
10' 55".87
+87<> 34' 6".oi
(Bph X.
3]
272
OCTOBER, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
Groombzidge 1119.
Mag. 7.0
1 H. Dnconis.
Mag. 4.6
80 H. Cftmelop.
Mag. 5.3
Bndley 1672.
Mag. 6.3
Groombzidfe
Mag. 7.
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.
h ni
0 t
h m
0 $
h m
0 /
h m
0 /
h m
Oct.
8 12
+8853
MM
Oct.
9 24
+81 42
mm
Oct.
10 20
+82 59
g g
Oct.
12 14
+88 10
Oct.
15 4
1.8
s
2570
WW
26.91
1.9
8
51.02
WW
25.27
1.9
s
36.65
w w
47.13
1.9
s
8.09
38.02
I.I
s
3108
2.8
26.84
26.68
2.9
51.15
24.96
2.9
36.75
46.77
2.9
8.02
3763
2.1
30.65
3.8
28.05
26.46
3.9
51.27
24.63
3.9
36.85
46.39
3.9
7.99
37.21
3.1
30.19
4.8
29.35
26.25
4.9
51.41
24.31
4.9
36.97
46.01
4.9
8.01
36.78
4.1
29.72
5.8
30.71
26.06
5.9
51.56
24.00
5.9
37.11
45.64
5-9
8.08
36.34
5.1
29.28
6.8
32.10
25.90
6.8
51.72
23.72
6.9
37.25
45.28
6.9
8.22
35.91
6.1
28.88
7.8
33.49
25.76
7.8
51.88
2346
7.9
37.41
44.95
7.9
8.39
35.49
7.1
28.51
8.8
34.86
25.64
8.8
52.05
23.22
8.9
37.56
44.65
8.9
8.59
35.10
8.1
28.19
9.8
36.17
25.53
9.8
52.20
23.00
9.9
37.71
44.35
9.9
8.81
34.72
9.1
27.88
10.8
37.43
25.44
X0.8
52.35
22.79
10.9
37.86
44.07
10.9
9.02
34.34
10. 1
27.60
IX.8
38.64
25.34
II 8
52.50
22.59
11.9
38.00
43.81
11.9
9.23
33.99
II. I
27.34
12.8
39.81
25.24
12.8
52.64
22.39
12.9
38.14
43.54
12.9
9.39
33.65
12. 1
27.08
13.8
40.96
25.12
13.8
52.78
22.17
13.9
38.26
43.27
13.9
9.53
33.30
131
26.81
14.8
42.10
25.00
14.8
52.92
21.94
14.9
38.38
42.99
14.9
9.65
32.94
14.1
26.53
15.8
43.25
24.86
15.8
53.05
21.71
15.9
38.51
42.70
15-9
9.76
32.59
15.1
26.22
16.8
44.44
24.71
16.8
53.19
21.46
16.9
38.64
42.39
16.9
9.86
32.22
16. 1
25.89
17.8
45.69
24.56
17.8
53.34
21.20
17.9
38.77
42.07
17.9
9.98
31.83
17.1
2555
18.8
47.01
24.42
18.8
53.50
20.94
18.9
38.91
4174
18.9
10.14
31.42
18. 1
25.20
19.8
48.41
24.28
19.8
53.67
20.68
19.9
39.07
41.41
19.9
10.34
31.00
19.1
24.85
20.8
49.86
24.18
20.8
53.84
20.44
20.8
39.24
41.09
20.9
10.59
30.57
20.0
24.52
21.8
51-34
24.10
21.8
54.02
20.22
21.8
39.43
40.79
21.9
10.90
30.16
21.0
2423
22.8
52.80
24.04
22.8
54.21
20.04
22.8
39.62
40.52
22.9
11.26
29.77
22.0
2399
23.8
54-22
24.02
23.8
54.39
19.87
23.8
39.80
40.26
23.9
11.64
29.40
23.0
23.77
24.7
55.58
24.00
24.8
54.56
19.71
24.8
39.98
40.03
24.9
12.02
29.05
24.0
23.59
25.7
56.86
23.98
25.8
54.73
19.57
25.8
40.16
39.82
25.9
12.36
28.72
25.0
23.44
26.7
58.06
23.93
26.8
54.88
19.42
26.8
40.32
39.59
26.9
12.65
28.41
26.0
23-31
27.7
59-23
23.87
27.8
55.03
19.24
27.8
40.47
39.36
27-9
12.91
28.09
27.0
23.12
28.7
60.42
23.79
28.8
55.18
19.06
28.8
40.61
39- 11
28.9
13.13
27.75
28.0
22.92
29.7
61.65
23.72
29.8
55-33
18.86
29.8
40.76
38.84
29.9
13.35
27.39
29.0
22.68
307
62.94
23.62
30.8
55.49
18.64
30.8
40.92
38.55
30.9
13.58
2703
30.0
22.42
317
64.30
23.53
31.8
55-66
18.43
31.8
41.09
38.26
31.9
13.84
26.64
31.0
22.16
32.7
65.73
23.46
32.8
55-84
18.24
32.8
41.27
37.98
32.9
14.18
26.24
32.0
21.91
51.63 +51.62
6.93 +6.86
8.20 +8.14
31.41 +31.40
23.54 +:
8*» II™ 46«.i5i
9^* 24"» 46*.5i6
jQh 20™ 34*.492
i2*» 14™ 26*.979
15** 4" 5
+88*>,
53' 4^
V'Ai \
+81°
42' 4^
^'^I6 1
+83°
0' (
S".83 1
+88<»
10' 5,
5".87 1
+87<>
34' 6
[£ph 13]
NOVEMBER, 1913.
273
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
«iMmlMidie 1119.
Mag. 7.0
1 H. Dnoonis.
Mag. 4.6
80 H. Camelop.
Mag. 5.3
BnuUey 1672.
Mag. 6.3
broombzidge 8888.
Mag. 7.2
Una
SbIv
Dite.
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.
0 /
Mean
Solar
Date.
Right
Ascen-
sion.
Decli-
nation
North.
li m
0 /
h m
0 1
h m
0 /
h m
h m
0 t
Not.
8 13
-^8«53
mm
Nov.
9 24
+81 42
Nov.
10 20
+82 59
Nov.
12 14
+88 10
0 f
Nov.
15 4
+87 33
17
S
5-73
W r
2346
1.8
s
55.84
18.24
1.8
s
41.27
r '
37.98
1.9
s
14.18
26.24
I.O
s
21.91
49.62
2-7
7.19
23-43
2.8
56.03
18.06
2.8
41.47
37-71
2.9
14.55
25.86
2.0
21.68
49.22
5-7
8.66
2342
3-8
56.22
17.91
3.8
41.67
37-47
3.9
14.98
25-49
3.0
21.51
48.81
4-7
10. 1 1
23.42
4.8
56.42
17.78
4.8
41.88
37.25
4.9
15.46
25.13
4.0
21.35
48.39
5-7
11.50
23.45
5.8
56.61
17.67
5.8
42.08
37-05
5.9
15.96
24-79
5-0
21.25
47.99
6.7
12.84
23.49
6.8
56.79
17.58
6.8
42.27
36.88
6.9
16.44
24.48
6.0
21.17
47.58
7-7
14. 1 1
23.53
7.8
56.97
17.50
7.8
42.46
36.71
7-9
16.91
24.19
6.9
21.12
47.20
8.7
15-33
1
23.57
8.8
57.14
17.42
8.8
42.65
36.56
8.9
17.36' 23.90
7.9
21.08
46.82
9-7
16.50
23.60
9.8
57.31
17.33
9.8
42.82
36.40
9.9
17.79
23-63
8.9
21.03
46.47
lay
17.66
23.63
10.8
57.47
17.23
10.8
42.99
36.23
10.9
18.18
23.34
9.9
20.97
46.13
II.7
18.81
23.64
11.8
57.63
1713
II. 8
43-16
36.05
11.9
18.56
23.06
10.9
20.90
45.81
12.7
19.99
23.64
12.7
57.78
17.01
12.8
43.33
35.86
12.9
18.93
22.76
1 1.9
20.81
45.48
»3.7
21.21
23.63
13.7
57.95
16.88
13.8
4350
35-66
13.9
19.30
22.45
12.9
20.70
45.14
M.7
22.50
2363
14-7
58.12
16.75
14.8
43.69
35-45
14.9
19.69
22.13
139
20.58
44.79
«5-7
23.85
23.64
15.7
58.30
16.62
15.8
43.88
35.24
15-9
20.13
21.79
14.9
20.46
44-42
16.7
25.24
23.66
16.7
58.50
16.51
16.8
44.09
35.04
16.9
20.62
21.44
15.9
20.36
44.04
17.7
26.66
23.72
17.7
58.70
16.43
17.8
4431
34.86
17.9
21.17
21. II
16.9
20.28
43.63
18.7
28.10
23.80
18.7
58.90
16.36
18.8
44-53
34.70
18.8
21.76
20.80
17-9
20.26
43.21
«9.7
29.49
23.91
19.7
59.10
16.32
19.8
44.76
3456
19.8
22.38
20.51
18.9
20.26
42.78
J0.7
30.80
24.02
20.7
59.29
16.31
20.8
44.98
34-45
20.8
23.00
20.24
19-9
20.30
42.36
21.7
32.03
24.15
21.7
59.48
16.31
21.8
45.1.9
34.37
21.8
23.61
19.99
20.9
20.38
41.97
22.7
33.17
24.27
22.7
59.65
16.30
22.8
45.^9
34.28
22.8
24.17
19-76
21.9
20.47
41.60
23-7
34.26
24.37
23.7
59.81
16.28
23.8
45.57
34.19
23.8
24.69
19.54
22.9
20.54
41.25
H.7
35.32
24.45
24.7
59.97
16.24
24.8
45.75
34.09
24.8
25.16
19.30
23.9
20.60
40.93
25.7
36.41
24.5 »
257
60.13
16.19
25.8
45-93
33.95
25.8
25.61
1905
24.9
20.63
40.61
26.7
37-57
24.57
26.7
60.30
16.12
26.7
46.11
33-81
26.8
26,07
18.79
25-9
20.62
40.27
27-7
38.78
2463
27.7
60.47
16.05
277
46.30
3366
27.8
26.56
i§.52
26.9
20.60
39.93
28.7
40.05
24.71
28.7
60.65
16.00
28.7
46.50
33.52
28.8
27.10
18.24
27.9
20.59
39.56
297
41.36
24.80
29.7
60.85
15.96
29.7
46.72
33-39
29.8
27.68
17.96
28.9
20.60
39.19
30.6
42.67
24.93
30.7
61.05
15.94
30.7
46.94
33.29
30.8
28.32
17.69
29.9
20.63
38.79
31.6
43.96
25.08
31.7
61.24
15.95
31.7
47.17
33.21
31.8
29.00
17.43
30.9
20.72
38.38
32.6
45.21
25.25
32.7
61.43
1599
32.7
47-40
33.16
32.8
29.70
17.21
31.9
20.84 37.98
51.62 +51.61
6.93 +6.86
8.20 -1-8. 14
31.36 +31.35
23.51 +23.49
8* II* 46^.151
9»» 24«» 46^.516
lo** 20" 34" .492
I2*» 14" 26«.979
15^ 4°^ 59'-30
♦88«»
53' 4
4".4i
■».8i«
42' 4
4".i6
■»-83«
' 0'
6".83
+88*
»io' 5
5".87
+87*
^34'
6".OX
I9I3-
18
[Bph 13]
274
DECEMBER, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
Groombrldge 1119.
1 H. Dnoonis.
30 H. Camelop.
Bndley 1672.
Ofoombxid,
Mag. 7.0
Mag. 4
.6
Mag. 5.3
Mag. 6.3
Mag.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
RiKht
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Risrht
Ascen-
sion.
Dedina
tion
North.
Mean
Solar
Date.
Rishi
Ascen
sion.
h m
0 /
h m
0 f
h m
0 1
h m
0 t
h ir
Dec.
8 13
+8853
Dec.
9 25
+81 42
•
Dec.
10 20
+82 59
Dec.
12 14
+88 10
mm
Dec.
15 A
1.6
8
4396
r r
25.08
1.7
s
1.24
r r
15.95
1-7
s
47.17
w w
33.21
1.8
8
29.00
r w
17.43
1-9
s
20.8^
2.6
45.21
2525
2.7
1.43
15.99
2.7
47.40
33.16
2.8
29.70
17.21
2.9
2I.OC
3.6
46.39
25.44
3.7
1.62
16.05
3-7
47.62
33."
3.8
30.40
17.01
3.9
21.19
4.6
47.50
25.63
4.7
1-79
16. 1 I
4-7
47.84
33.09
4.8
31.09
16.83
4.9
21.39
5.6
48.53
25.82
5.7
1.96
16.18
5-7
48.04
3309
5.8
31.76
16.67
5-9
21.6c
6.6
49.51
26.00
6.7
2.12
16.25
6.7
48.23
33.08
6.8
32.40
16.51
6.9
2 1. 8c
7.6
50.46
26.17
7-7
2.28
16.31
7.7
48.42
33.07
7.8
33.01
16.36
7.9
21.9s
8.6
51.39
26.34
8.7
2.43
16.36
8.7
48.61
33.05
8.8
33.59
16.20
8.9
22.15
9.6
52.32
26.48
9.7
2.58
16.40
9-7
48.79
33.03
9.8
34.15
16.04
9.9
22.29
10.6
53.28
26.62
10.7
2.73
16.44
10.7
48.96
32.99
10.8
34.70
15.87
10.9
22.42
11.6
5430
26.75
II. 7
2.89
16.46
II. 7
49.15
32.94
11.8
35.26
15.69
11.9
22.54
12.6
55.37
26.91
12.7
3.06
16.49
12.7
49.34
32.89
12.8
35.87
15.50
12.9
2 2.68
13.6
56.48
27.06
13.7
3.24
16.53
13.7
49.55
32.85
13.8
36.51
15.29
13.9
22.84
14.6
57.62
27.24
14.7
3.42
16.58
14.7
49.77
32.82
14.8
37.21
15.10
14.9
23-04
15.6
58.76
27-45
15.7
3.60
16.67
15-7
50.00
32.81
15.8
37.95
14.91
15.9
23.27
16.6
59.87
27.69
16.7
3.78
16.78
16.7
50.23
32.83
16.8
38.73
14.76
16.9
23.54
17.6
60.91
2795
17.7
3.96
16.91
17.7
50.45
32.87
17.8
39.52
14.63
179
23.85
18.6
61.84
28.21
18.6
4.13
17.06
18.7
50.67
32.94
18.8
40.29
14.52
18.9
24.19
19.6
62.69
28.47
19.6
4.29
17.21
19.7
50.87
33.02
19.8
41.03
14.45
19.9
24.52
20.6
63.47
28.71
20.6
4.43
17.36
20.7
51.05
33.10
20.8
41.71
14.38
20.9
24-83
21.6
64.20
28.94
21.6
4.57
17.48
21.7
51.22
33.16
21.8
42.34
14.31
21.9
2512
22.6
64.92
29.14
22.6
4.70
17.59
22.7
51.39
33.21
22.8
42.93
14-23
22.9
25-38
23.6
65.67
29.33
23.6
4.83
17.69
23.7
51.55
33-24
23.8
43.52
14.13
23.9
25.6c
24.6
66.48
29.51
24.6
4.97
17.77
247
51.72
33.26
24.8
44.11
14.01
24.9
25.82
25.6
6734
29.71
25.6
5.12
17.86
25.7
51.91
33.28
25.7
44.75
13.89
25.9
26.06
26.6
68.24
29.92
26.6
5.28
17.96
26.7
52.11
33-30
26.7
45.44
13.77
26.9
26.32
27.6
69.16
30.16
27.6
5.45
18.08
27.7
52.31
33-35
27-7
46.17
13.66
27.9
26.62
28.6
70.07
30-42
28.6
5.61
18.24
28.7
52.52
33.43
28.7
46.93
13.56
28.9
26.96
29.6
70.94
30.71
29.6
5.77
18.42
29.7
52.73
33.53
29-7
47.74
13.50
29.9
27.34
30.6
71.73
31.01
30.6
5.92
18.62
30.7
52.93
3365
30.7
48.53
13.46
30.9
27.76
316
72.43
3132
31.6
6.07
18.84
31-7
53.12
33.79
31.7
49.31
13-45
31-8
28.19
32.6
73.05
31.64
32.6 6.21
19.06
32.7
53.31
33.95
32.7
50.06
13-44
32.8
28.61
51.67 +51.66
6.93
+6.86
8.20 +8.14
31.33 +31.31
23.48
8* II™ 46*. 15 1
9" 24- 4
6-.5i6
jQh 20™ 34". 492
12'* 14™ 26».979
I5»» 4a
+88O53' 44"-4i +8i«»42' 44
^".i6
+83«> 0' 6".83
+88° 10' 55".87
+87^ 34'
[Bph 13
]
JANUARY, 1913.
275
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
t Thne MiBoris.
^ Jitwm Xinorli.
A. XTra» Xinorli.
76 DnooBii.
89 H. Cephei.
Mag. 4-4
Mag. 4.4
Mag. 6.6
Mag. 5.7
Mag. 5.6
Sdff
Dtte.
Risht
Aaeen-
rion.
Declina.
lion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Decli-
nation
North,
h m
0 /
h m
0 /
h m
0 f
h ra
0 t
h m
0 /
Jin. 1654
+82 10
Jan.
17 59
+8636
0 f
Jan.
19 5
+Sg 0
mm
Jan.
2048
+82 12
Jan.
23 27
+86 49
00
a9
8
42.93
W W
38.20
0.9
s
57.31
38.98
I.O
8
60.86
w r
33.67
I.I
8
45.99
3967
1.2
s
27.33
56.82
1-9
43.00
3791
x-9
57.34
38.68
2.0
60.55
33.40
2.1
4590
39-44
2.2
26.99
56-77
29
43.06
37-61
2.9
57.35
38.38
3.0
60.20
33.14
3.1
45.82
39-21
3.2
26.66
56.73
3.9
43.10
37.29
3-9
57.34
38.07
4.0
59.81
32.87
4.1
45.73
38-99
4.2
26.31
56.71
4.9
43-14
36.97
4.9
57.31
37.76
50
59-39
32.58
5-1
45.63
38.75
5.2
25.93
56.67
5-9
43.18
36.64
5.9
57-30
37.42
6.0
58.97
32.26
6.1
4552
38.51
6.2
25.54
56.63
6.9
43-24
36.29
6.9
57.31
37.06
6.9
58.58
31.92
7.1
45.41
38.24
7.2
25.12
56.58
7.9
43.31
35.93
7-9
57.33
36.69
7-9
58.25
31-57
8.1
45.31
37.93
8.2
24.70
56.50
I9
43.38
35.57
8.9
57.38
36.30
8.9
57-99
3119
91
45.21
37.62
9.2
24.27
56.41
W
4346
35.21
9.9
57.46
35-93
9-9
57.81
30.82
10. 1
45.13
37.30
10.2
23.86
56.28
».9
4356
34.86
10.9
57.56
35.57
10.9
57.71
30.45
II. I
45-05
36.96
II. 2
2346
56.15
11.9
43.67
34.54
1 1. 9
57.68
35.21
1 1.9
57.69
30.09
12. 1
44.98
36.61
12.2
23.08
55.99
"•9
43.78
34.23
12.9
57.81
34.87
12.9
57-74
29.74
131
44.93
36.29
132
22.72
55.82
13.9
43.88
33.96
13-9
57.95
34.56
13-9
57.82
29.41
14-1
44.88
35.97
14.2
22.39
55.66
>49
43.98
33.69
14.9
58.10
34.25
14.9
57.93
29.09
15.0
44.83
35.67
15.2
22.07
55.50
15.9
44.08
33.44
15.9
58.22
33.97
15.9
58.02
28.81
16.0
44.79
35.39
16.2
21.77
55.37
16.9
44.18
33.19
16.9
58.33
33-70
16.9
58.07
28.53
17.0
44-75
35.12
17.2
21.48
5524
^1-9
44.26
32.94
17.9
58.42
33.43
17.9
58.05
28.25
18.0
44.70
34.86
18.2
21.18
5511
1I9
44.34
32.69
18.9
58.50
33.14
18.9
57-98
27.96
19.0
44.64
34.60
19.I
20.86
55.01
19.9
44.41
32.40
19.9
58.58
32.83
19.9
57.86
27.65
20.0
44.57
34.33
20.1
20.51
54.90
^
44-50
32.09
20.9
58.66
32.50
20.9
57-75
.27.33
21.0
44.49
34.02
21. 1
20.15
54.79
J1.9
44.60
31.77
21.9
58.76
32.15
21.9
57.68
26.97
22.0
44.42
33.69
22.1
19-77
54.65
22.9
44.71
31-44
22.9
58.90
31.80
2^.9
57-71
26.60
23.0 44.36
33-35
23.1
19.38
54-48
J3.9
44.82
31.13
23.9
59.06
31-44
23-9
57.85
26.23
24.0 44.30
32.98
24.1
19.01
54-27
^9
44-96
30.84
24-9
59.25
31.10
24.9 1 58.10
25.86
25.0 '44.27
32.61
25.1
18.64
54.06
'59
45. xo
30.57
25-9
59-47
30.78
259
58.44
2552
26.0
44.24
32.25
26.1
18.33
53.83
Jt9
45.24
30.34
26.9
59.70
30.50
26.9
58.85
25.20
27.0
44.23
31.91
27.1
18.05
53-60
^.9
45.38
30.15
27.9
59-93
30.24
27-9
59.30
24.89
28.0 j 44.23
31-59
28.1
17.81
53.37
28.8
45.50
29.96
28.9
60.13
30.02
28.9
59.71
24.62
29.0 44.23
31-29
29.1
17.57
53.17
^i
45.62
29-78
29.9
60.33
29.79
29.9
60.08
2436
30.0 44.23
31.00
30.1
17.33
52.97
3^« 45.73
2958
30.9
60.51
2955
30-9
60.38
24.10
310
44.22
30.72
31.1
17.09
52.79
31.8
45.84
2937
319
60.68
29.31
31-9
60.66
23.82
32.0
44.20
30.43
32.1
16.83
52.60
32« 45-95
29.16
32.9
60.85
29.04
32.9
60.94
235^
32.9
44- 17
30.12
33.1
16.56
52.41
7.35
■f7.28
16.91 +16.88
57.77 +57.76
7-38 +7.31
18.10 +18.07
'6*54- 5
;o'.5i9
i8*» 0" I9*.30
j^h ^m 25.^3
20*" 48«» 57"- 123
23'' 27« 45'. 157
♦«2«]
10' 5J
5".32
+86<>
36' 5
I "09 1
+89<»
0' 3<
?"-69 1
+82<>
12' 3^
5"-90 1
+86*
*^V ^
^" A^
[Eph 13]
276
FEBRUARY, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
B VtMm Xinoils.
^ Vnm Minoiis.
A. Vnm Xinorii.
76 Diaoanif.
89 H. Cep
Mag. 4.4
Mag. 4.4
Mag. 6.6
Mag. 5.7
Mag. 5.
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.
Dedina.
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
h ni
0 /
h m
0 t
h m
0 1
h m
0 f
h ra
Feb.
1654
+82 10
Feb.
18 0
+8636
Feb.
19 6
+89 0
Feb.
2048
+82 12
m m
Feb.
23 27
1.8
s
45.95
29.16
1-9
s
0.85
29.04
1.9
0.94
23.52
I.O
8
44.20
W W
30.43
I.I
16.83
3.8
46.07
28.93
2.9
1.04
28.76
2.9
1.22
23.22
1.9
44.17
30.12
2.1
16.56
3.8
46.20
28.69
3.9
1.23
28.47
3.9
1.53
22.90
2.9
44.14
29.80
3-1
16.26
4.8
46.33
28.45
4.9
1.45
28.18
49
1.92
22.57
3.9
44.12
29.47
4.1
15.96
5.8
46.48
28.22
5-9
1.69
27.88
5.9
2.39
22.23
4.9
44-10
29.12
5.1
1565
6.8
46.63
28.01
6.9
1.96
27.59
6.9
2.94
21.90
59
44.10
28.75
6.1
15.36
7.8
46.79
27.80
7.9
2.25
27.32
7.9
3.56
21.58
6.9
44.10
28.37
7.1
1507
8.8
46.96
27.63
8.9
2.55
27.07
8.9
4.25
21.26
7.9 44.11
38.00
8.1
14.80
9.8
47-13
27.48
9.9
2.85
26.83
9.9
4.99
20.96
8.9 1 44.13
27.64
9.1
14.57
10.8
47.29
27.34
10.9
3.15
26.63
10.9
5.75
20.70
9.9144.16
27.29
10. 1
14.37
11.8
47.44
27.23
11.9
3-45
26.45
11.9
6.50
20.44
10.9
44.20
26.95
II. I
14.18,
X2.8
47.59
27.13
12.9
3-73
26.28
12.9
7.22
20.21
11.9
44.25
26.63
12. 1
14.03
13-8
47.73
27.03
13.9
3.99
26.11
13.9
7.89
19-99
12.9
44.29
26.34
13.1
13.88
14.8
47.87
36.91
14.8
4.23
2594
14.9
8.48
19-77
13.9
44.32
26.07
14. 1
13.74
15.8
47.98
26.78
15.8
4.47
25.76
15-9
9.02
19.54
14.9
44.35
25.79
15.1
13.58
x6.8
48.11
26.65
16.8
4.71
25-54
16.9
9-55
19.28
15.9
44.38
25.52
16. 1
13.40
17.8
48.25
26.48
17.8
4.95
25.32
17.9
10.09
19.00
16.9
44.39
25.23
17.1
13.19;
x8.8
48.40
26.30
18.8
5.23
25.08
18.9
10.69
18.71
17.9
44.40
24.91
18. 1
12.96
19.8
48.56
26.14
19.8
5.52
24.84
19.9
"-39
18.41
18.9
44.41
24.57
19.1
12.73
30. 8
48.72
26.00
30.8
5.85
24.61
30.9
12.19
18.12
19.9
44.43
24.23
20.1
12.51
21.8
48.91
25.89
21.8
6.20
24.41
21.9
13.10
17.86
20.9
44-48
2387
21. 1
12.32
23.8
49.09
25.81
22.8
6.56
24.24
22.9
14.08
17.62
21.9
44.53
23.51
22.1
13.16
33.8
49.26
25.76
23.8
6.93
24.11
23.9
15.10
17.40
22.9
44.60
23-17
23.1
12.03
34.8
49.43
25.73
24.8
7.27 24.01
24.9
16.10
17.21
23.9
44.68
22.86
24.0
11.94
35.8
4958
25.72
25.8
1
7.59 1 23.91
25.9
17.05
17.04
24.9
44.76
22.58
25.0
11.88'
36.8
49.73
25.70
26.8
7.90
23.81
26.9
17.92
16.88
25-9
44.85
22.31
26.0
11.83
37.8
49.86
25.67
27.8
8.20
23.71
27.9
18.75
16.70
26.9
44-93
22.06
27.0
11.78
38.8
50.00
25.63
28.8
8.48
23.60
28.9 ' 19.56
f
(
16.52
27.9
45-00
21.82
28.0
II. 71 !
1
39.8
50.15
25.58
29.8
8.76
23.47
29-9
20.37
16.32
28.9
45-06
21.56
29.0
11.62
30.8
50.30
2552
30.8
9.08
23.32
30.9
21.20
16.11
29.9
45.11
21.30
30.0
11.51
7.34
+7.28
16.90 +16.87
57.61 +
57.60
7.38
+7.31
18.09 4
16^ 54" «
;o».5i9
18** 0" i9'.30
i9»» 7m 2
^5^.98
20»» 48" «
>7'.i23
23'* 27» i
+83<»
10' 5,
5".32
+86«>
36' 5
I ".09
+89**
0' y
^".69
+82**
12' 3.
5".90
+86*
'W 3
[Bph 15]
MAKOH, 1918. 277
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT W
278
APRIL, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
€ TStsm Xinorls.
S UrBse Xinorls.
A. nn» Xinorls.
76 Dnoonis.
89 H. Cepliei.
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) Right
Solar Ascen-
Date. sion.
i
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
DecUna-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Dedina.
tion
North.
Mean
Solar
Date.
Right
Aaoen-
sioa.
Dedi-
natiM
NoHk.
h ni
0 t
1
h ra
0 /
h m
0 *
h m
0 «
h m
0 f
Apr.
1654
+82 10
Apr.
18 0
+8636
ft
Apr.
19 6
+89 0
tf
Apr.
2048
+82 12
Apr.
2327
+864^
x-7
s
54.91
27.41
1.7
s
19.59
22.68
1.8
s
5432
12.88
1.8
s
48.51
14.45
1.9
8
12.47
35-33
2.7
5506
27.55
2.7
19.96
22.72
2.8
5556
12.83
2.8
48.65
14.27
2.9
12.58
35.02
3.7
55.21
27.70
3.7
20.34
22.79
3.8
56.85
12.79
3.8
48.79
14.10
3.9
12.72
34.70
4.7
55.36
27.87
4.7
20.73
22.87
4.8
58.18
12.78
4.8
48.94
13.95
4.9
12.88
34.3«
5-7
55.51
28.07
57121.12
22.97
5.8
59.53
12.78
5.8
49.11
13.81
5.9
13.07
34.07
6.7
55.66
28.29
6.7121.49
23.10
6.8
60.88
12.80
6.8
49.28
13.70
6.9
13.30
33.7«
7.7
55.79
28.52
7.7 21.84
23.25
7.8
62.18
12.86
7.8
49-45
13.61
7.9
13.53
33.50
8.7
5592
28.76
8.7
22.18
23.41
8.7
63.42
12.93
8.8
49.61
13.54
8.9
13.78
33.24
9-7
56.03
28.99
9.7
22.49
23.57
9.7
64.58
1301
9.8
49-77
13.49
9.9
14.03
33.01
X0.7
56.13
29.21
10.7
22.77
23.73
10.7
65.66
13.09
10.8
49.92
13.45
10.9
14.26
32.79
11.6
56.23
29.42
II. 7
23.04
23.87
II. 7
66.67
13.16
II. 8
50.06
13.40
11.9
14.47
32.59
12.6
56.33
29.60
12.7
23.31
24.00
12.7
67.64
13.22
12.8
50.18
13.34
13.9
14.66
32.39
136
56.43
29.76
13.7
23-57
24.10
13.7
68.62
13.25
13.8
50.30
13.27
13.9
14.83
32.»7
14.6
56.54
29.93
14.7
23.86
24.20
14.7
69.65
13.27
14.8
50.43
13.17
14.9
15.00
31.94
156
56.65
30.10
15.7
24.17
2430
15.7
70.76
13.29
15.8
50.57
13.07
15.9
15.17
31.68
16.6
56.78
30.29
16.7
24.51
24.41
16.7
71.95
13.32
16.8
50.72
12.98
16.9
15.35
31.42
17.6
56.91
30.52
17.7
24.85
24.56
17.7
73.20
13.37
17.8
50.88
12.89
17.9
15.59
31.15
18.6
57.04
30.77
18.7
25.19
2473
18.7
74.48
13.45
18.8
51.05
12.84
18.9
15.86
30.89
19.6
57.15
31.06
19.7
25.53
24.93
19.7
75.77
13.55
19.8
51.24
12.80
19.9
16.16
30.64
20.6
57.26
31.35
20.7
25.83
25.15
20.7
76.99
13.69
20.8
51.42
12.80
ao.9
16.48
3042
21.6
57-35
31.64
21.7
26.11
25.39
21.7,78.14
13.84
21.8
51.59
I2.8X
21.9
16.81
30.22
22.6
57-43
31.94
22.7
26.36
25.63
22.7 i 79.20
14.00
22.8
51.75
12.85
22.9
17.14
30.05
23.6
57.49
32.22
23.7
26.60
25-85
23.7
80.18J 14.16
23.8
51.91
12.89
23.9
17.44
29.90
24.6
57.56
32.48
24.7
26.82
26.06
24.7
81.12
14.30
24.8
52.06
12.93
24.9
17.72
29.74
25.6
57.64
32.72
25-7
27.05
26.25
25.7 82.04
14.43
25.8
52.19
12.95
25.9
17.98
29.57
26.6
57.72
32.95
26.7
27.29
26.42
26.7
82.97
14.55
26.8
52.33
12.96
26.9
18.22
29.40
27.6
57-80
33.17
277
2753
26.60
27.7
83.93
14.64
27.8
52.47
12.96
27.9
18.47
29.22
28.6
57.88
33.40
28.6
27.78
26.78
28.7
84.94
14.74
28.8
52.62
12.95
28.9
18.72
29.02
29.6
57.98
33.66
29.6
28.06
26.96
1
29.7 . 86.00
14.85
29.8
52.77
12.93
29.9
18.99
28.83
306
58.07
33.92
30.6
28.35
27.16
30.7
87.10
14.96
30.8
52.93
12.93
30.9
19.27
28.62
31.6
58.16
34.20
31.6
28.63
2737
31.7 ',88.23
15.10
31.8
53.10
12.93
31.9
19.58
28.41
7-35 +728
16
.90 +16.87
57.51 +57.50
7-37 +7.30
18.06 +18.05
i6*»54" 50".5i9
i8*» 0™ I9".30
,gh ^m 2^.^8
2o'» 48"^ 57'.i23
23^ 27« 45'. 157
+82*»
10' 5,
5".32
+86°
36' 5
i".09
+89°
0' 3«
?".69
+82*^
12' 3,
5".90 1
+86*>
49' 3
^9"43
[Eph zj]
MAY, 1913.
279
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
€ Vz9m HiaMlB.
<^ Vtum Xinorls.
A. JJnm Xinorls.
76 Draoonli.
39 H. Cephei.
Mag. 44
Mag. 4.4
Mag. 6.6
Mag. 5.7
Mag. 5.6
Mean
SoUr
Date.
Risht
Aacen-
•aon.
DecUna-
tion
North.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Dedina-
tion
North.
Mean
Solar
Date.
Rifrht
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
0 /
h m
0 f
h m
0 /
h m
0 /
May
1654
+82 10
May
18 0
+8636
May
19 7
+Sg 0
May
2048
+82 12
f f
May
2327
+86 49
m m
1.6^
58.16
34.20
1.6
8
28.63
27.37
1.7
s
28.23
15-10
1.8
s
53.10
12.93
1-9
s
19.58
9 f
28.41
2.6
58.25
34.50
2.6
28.91
27.61
2.7
29.38
1526
2.8
53-29
12.96
2.9
19.92
28.22
3.6
58.34
34.82
3.6
29.18
27.88
3.7
30.54
15.43
3-8
53-47
13-01
39
20.27
28.04
4.6
58-42
35-15
4.6
29.43
28.16
4.7
31-65
15.64
4-7
53.64
13-07
4-9
20.64
27.86
5.6
58.49
35.49
5.6
29.66
28.44
5.7
32.70
15.86
5-7
53-81
13-17
5.9
21.02
27.71
6.6
58.54
35.83
6.6
29.86
28.73
6.7
33.66
16.09
6.7
53-98
1328
6-9
21.41
27.59
7.6
58.58
36.16
7.6
30.04
29.02
7.7
34.53
16.33
7-7
54-15
13-41
7-9
21.78
27.49
8.6
58.62
36.47
8.6
30.19
29.30
8.7
35.30
16.54
8.7
54.29
13.54
8.8
22.13
27.42
9.6
58.65
36.76
9.6
30.34
2956
9-7
36.01
16.74
9-7
54.42
1366
9-8
22.45
27.35
I0.6
58.68
37.02
10.6
30.48
29.79
10.7
36.71
16.93
10.7
54.54
13.77
10.8
22.75
27.27
II.6
58.72
37.28
XI.6
30.64
30.01
11.7
37-43
17.10
11-7
54.67
13.85
11.8
23.04
27.17
12.6
58.77
37.54
12.6
30.81
30.22
12.7
38.20
17.26
12.7
54.81
13.92
12.8
23-33
27.07
13.6
58.82
37.80
13.6
31-01
30.45
13.7
3905
17.42
13.7
54.95
13.98
13-8
23-63
26.94
14.6
58.88
38.09
14.6
31.22
30.70
14.7
39.98
17.59
14.7
55.10
14.06
14.8
23.96
26.81
156
58.94
38.40
15.6
31.43
30.97
15.6
40.94
17.80
15.7
55.26
14.15
15.8
24-32
26.68
16.6
58.99
38.74
16.6
31.64
31.26
16.6
41.91
18.04
16.7 55.43
14.27
16.8
24.71
26.56
17.6
59.03
39.09
17.6
31.81
31.59
17,6
42.83
18.29
17-7
55.60
14-42
17.8
25.13
26.47
18.5
59-06
39.46
x8.6
31.96
31.93
18.6
43.67
18.58
18.7
55.77
14.60
18.8
25-56
26.39
19.5
59.06
39.83
19.6
32.08
32.27
19.6
44.40
18.87
19-7
55.93
14.80
19.8
25-98
26.35
20.5
59.06
40.18
20.6
32.18
32.60
20.6
45.04
19.16
20.7
56.07
1501
20.8
26.39
26.33
21.5
59.06
40.50
21.6
32.26
32.91
21.6
45.62
19.44
21.7
56.20
15-21
21.8
26.77
26.32
22.5
59.06
40.81
22.6
32.34
33.21
22.6
46.15
19.70
22.7
56.33
15-39
22.8
27.12
26.32
23.5
59.06
41.10
23.6
32.41
33.49
23.6
46.67
19.94
23-7
56.45
15.57
23-8
27.46
26.32
24.5
59.07
41.38
24.6
32.49
33.75
24.6
47.21
20.17
24.7
56.57
15-74
1
24.8
27.79
26.29
25.5
59.08
41.66
25.6
32.59
34.01
25.6
47.80
20.39
25-7
56.69
15.88
25.8
28.12
26.25
26.5
59.09
41.94
26.6
32.70
34.27
26.6
48.43
20.61
26.7
56.82
16.03
26.8
28.45
26.21
27.5
59.11
42.24
27.6
32.83
34-54
27.6
49.10
20.84
27.7
56.96
16.18
27.8
28.80
26.16
28.5
59.13
42.55
28.6
32.96
34.83
28.6
49.81
21.08
28.7
57-10
16.33
28.8
29.17
26.11
29.5
59.15
42.87
29.6
33.08
35.14
29.6
50.52
21-33
29-7 57-24 16.51
29.8
29.56
26.06
30.5
59.17
43.22
30.6
33.»9
35.46
30.6
5121
21.61
30.7 1 57-39
16.69
30.8
29.97
26.02
315
59.17
43.57
31.6
3329
35.80
31.6
51-88
21.91
31-7
57-54
16.90
31-8
30.40
26.00
32.5
59.16 43.94
32.6 1 33.36
36.15
32.6
52.50
22.24
32.7 157.69
17.14
32.8
30.84
26.01
7.35 +7.28
16.90 ^
-16.87
57
'.58 +57-57
7.37 +7.30
I
d.05 ■H8.02
16** 54" 50*.5i9
18** 0" 19'.30
19** 7° 25V98
20»» 48'" 57'- 123
23*" 27» 45'-»57
+82** 10' 55".32
+86*>36' 5 1 ".09
+89® 0' 39^.69
+82** 12' 35".90
+860 49' 39".43
lEphi
3l
280
JUNE, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
€ Unee Xinoilg.
<^ TStsm Xinorii.
X TStnm Xinorlg.
76 Bnusonia.
89 H. OqpheL
Mag. 4.4
Mag. 4.4
Mag. 6.6
Mag. 5.7
Mj^t. 5.6
Mean
Solar
Date.
Right
Ascen-
sion.
Declina*
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Dedina*
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Dedina
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Dedina-
tion
North.
Mean
Solar
Date.
Richt
sioa.
Decs-
Nsf*.
h m
0 /
h m
0 /
h m
0 /
h m
0 f
h m
e /
June
1654
+82 10
June
18 0
+8636
June
19 7
+89 0
mm
June
2048
-1-82 12
June
2327
+86 4»
mm
1-5
s
59.16
43.94
1.6
s
33.36
f r
36.15
1.6
s
52.50
WW
22.24
1.7
s
57.69
WW
17.14
1.8
s
30.84
WW
26X>I
2-5
59.15
44.30
2.6
33.41
36.51
2.6
5302
22.57
2.7
57.84
17.40
2.8
31.28
26^)4
3.5
59.11
44.66
3.6
33.44
36.88
3.6
53.45
22.91
3.7
57.96
17.68
3.8
31.70
26x)9
4-5
5907
44.99
4.5
33.44
37.23
4.6
53.78
23.24
4.7
58.08
17.96
4.8
32.10
26.17
5.5
59.03
45.30
5.5
33.41
37.55
5.6
54.02
23.56
5-7
58.18
18.22
5.8
32.49
26.25
6.5
58.98
45.59
6.5
33.39
37.86
6.6
54.21
23.85
6.7
58.28
18.48
6.8
32.83
26.34
7.5
58.94
45.86
7.5
33.37
38.14
7.6
54.43
24- 13
7.7
58.37
18.72
7-8
33.16
26.41
8.5
58.91
46.12
8.5
33.36
38.40
8.6
54.68
2438
8.7
58.46
18.93
8.8
33.48
26.46
9.5
58.89
46.38
9.5
33.37
38.67
9.6
55.00
24.63
9.7
58.56
19.14
9-8
33.81
26.50
10.5
58.87
46.66
XO.5
33.40
38.95
10.6
55.39
24.89
10.6
58.67
19.35
10.8
34.16
26.53
"5
58.85
46.96
"5
33.44
39.25
11.6
55.83
25.17
11.6
58.79
19.57
11.8
34.54
26.55
12.5
58.83
47.29
12.5
33.48
39.58
12.6
56.28
2548
12.6
58.91
19.8a
12.8
34.94
26.59
13.5
58.80
47.64
13.5
33.50
39-93
13.6
56.71
25.81
13.6
59-04
20.09
13-7
35.37
26.64
14-5
58.75
48.00
14.5
33.49
40.30
14.6
57.06
26.16
14.6
59-16
20.39
14-7
35.81
26.73
15.5
58.69
48.36
15.5
33.45
40.67
15.6
57-30
26.52
15.6
59-27
20.71
15.7
36.25
26.83
16.5
58.62
48.70
16.5
33.39
41.04
16.6
57-45
26.88
16.6
59.38
21.04
16.7
36.68
26.97
17.5
58.54
49.01
17.5
33.29
41.39
17.6
57.51
27.24
17.6
59.47
21.37
17.7
37.07
27.12
18.5
58.46
49.31
18.5
33.20
41.72
18.6
57.51
27.57
18.6
59.55
21.68
18.7
37.44
27.27
19.5
58.39
49.58
19.5
33.10
42.02
19.6
57-49
27.89
19.6
59.62
21.98
19.7
37.77
27.43
20.5
58.32
49.84
20.5
33.00
42.31
20.6
57-47
28.18
20.6
59.69
22.28
20.7
38.10
27.56
21.5
58.25
50.09
21.5
32.92
42.59
21.5
57.48
28.47
21.6
59.77
22.55
21.7
38.42
27.6«
22.5
58.19
50.34
22.5
32.84
42.87
22.5
57.52
28.74
22.6
59.85
22.81
22.7
38.75
27.80
23.5
58.14
50.60
23.5
32.79
43.15
235
57.61
29.02
23.6
59-93
23.06
23.7
39.08
27.90
24.4
58.09
50.88
24.5
32.74
43.44
24.5
57.74
29.32
24.6
60.01
23-32
24-7
39.42
28.00
25-4
58.03
51.17
25.5
32.69
43-75
25.5
57.89
29.62
25.6
60.10
23.60
25.7
39.78
28.11
26.4
57.97
51.47
26.5
32.63
44.08
26.5
58.04
29.94
26.6
60.20
23-89
26.7
40.15
28.22
27.4
57.90
51.78
27.5
32.56
44.42
27.5
58.16
30.28
27.6
60.29
24.21
27.7
40.56
28.35
28.4
57.83
52.11
28.5
32.48
44.77
28.5
58.23
30.64
28.6
60.38
24.54
28.7
40.97
28.50
29.4
57.74
52.43
29.5
32.37
45-12
29.5
58.22
31 01
29.6
60.47
24.89
29.7
41.38
28.66
304
57.63
52.74
30.5
32.22
45.48
30.5
58.11
31.39
30.6
60.54
25.26
30.7
41.78
28.85
31.4
57.52
53.03
31.5
32.04
45.83
31.5
57.89
31.76
31.6
60.60
25-63
31.7
42.15
29.07
7.35
+7.28
16.92 +
16.89
57.72 +
57.71
7.37
+7-31
18.05 +18.02
i6»» 54" !
;o».5i9
18'* 0™ ]
[9'.30
I9>» 7= 2
^5'.98
20'» 48" «
>7'.i23
23*" 27- 45"- 157
+82°
10' 5,
5".32
+86*^
36' 5
i".09
+89<»
0' 3<
?".69
+82<>
12' 3i
5".90
^W
49' 3
9".43
[Sph 13]
JULY, 1913.
281
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
I (IhM>XlMCU.
S Vnm Xinofis.
A. TInm Minorls.
76 Ihmoonig.
89 H. Cephei.
■ y^-4A
Mag. 4.4
Mag. 6.6
Mag. 5.7
Mag. 5.6
■ ■Mt.
Riffiit
DecUna.
tkm
North.
Mean
SoUr
Date.
Richt
Ascen-
sion.
Declina-
tion
North,
Mean
Solar
Date.
Risht
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Rieht
Ascen-
sion.
Declina-
tion
North.
0 /
Mean
Solar
Date.
Right
Ascen-
sion.
DecU-
nation
North,
■
h m
0 /
h m
0 /
h m
0 /
h m
h rn
0 /
mi*f
1654
+82 10
July
18 0
+8636
July
19 7
+89 0
ft
July
2049
+82 12
ff
July
2327
+8649
H
s
57.52
53.03
1.5
s
32.04
45.83
15
s
57.89
31.76
1.6
s
0.60
25.63
1.7
s
42.15
29.07
M
57-*i
53.31
2.5
31.85
46.15
2.5
57.58
32.12
2.6
0.65
26.00
2.7
42.51
29.30
H
57.30
53.54
3.5
3166
46.45
3.5
57-22
32.45
3.6
0.69
26.36
3.7
42.82
29-53
44
57.18
53.76
4.5
31.46
46.72
4-5
56.84
32.77
4-6
0.73
26.70
4-7
43.12
29.77
H
57.08
53.96
5-5
31.27
46.97
5.5
56.48
33.06
5.6
0.75
27.02
5.7
43.40
29.98
M
56.98
54.15
6.5
31.10
47.22
6.5
56.18
33-34
6.6
0.78
27.32
6.7
4367
30.19
1'^
56.90
54.37
7.5
30.95
47.47
7.5
55-95
33.62
7.6
0.83
27.61
7.7
43-95
30.36
r
56.81
54.60
8.5
30.82
47.75
8.5
55.78
33.91
8.6
0.88
27.91
8.7
44.26
30.53
-
56.72
54.86
9.5
30.69
48.05
9-5
55.65
3423
9.6
0.95
28.23
9.7
44.60
30.71
["•H
56.63
55.14
10.4
30.55
48.36
10.5
55.50
34-57
10.6
I.OI
28.57
10.7
44.96
30.91
114
1
56.52
55.43
1 1.4
30.37
48.70
"•5
55.30
34-94
1 1.6
1.07
28.94
II. 7
45.34
31-12
124
5640
55.72
12.4
30.18
49.04
12.5
5501
35.31
12.6
X.I3
29.32
12.7
45.72
31-35
134
56.27
55-99
13.4
29.96
4938
13.5
5462
35.70
13.6
1. 17
29.72
13.7
46.09
31.63
H4
56.13
56.24
14.4
29.71
49.70
14.5
54.12
36.06
14.6
1.20
30.12
14.7
46.42
31.91
»54
55.99
56.46
154
29.46
49.99
15.5
53.55
36.41
15.6
1.22
30.50
15.7
46.73
32.20
lU
55.85
56.66
16.4
29.19
50.26
16.5
52.94
36.73
16.5
1.23
30.88
16.7
47.00
32.49
»74
55.71
56.86
174
28.93
50.51
17.5
52.34
37.04
17.5
1.23
31.24
17.7
47.26
32.76
iM
55.58
57.03
18.4
28.68
50.75
18.5
51-76
37.32
18.5
1.23
31.58
18.7
4751
33.03
»94
5546
5720
19.4
28.44
50.98
19.5
51.22
3760
19.5
1.23
31.91
19.7
47.75
33.28
»4
55.34
57.35
20.4
28.22
51.21
20.5
50.73
37.88
20.5
1.24
32.23
20.6
47.99
33.53
214
55.23
57.54
21.4
28.01
51.45
21.5
50.28
38.16
21-5
1.26
32.54
2Ii6
48.25
33.76
»4
55.12
57J3
22.4
27.81
51.70
22.5
49.84
38.45
22.5
1.28
32.86
22.6
48.52
33.99
234
55.00
57.94
23.4
27.60
51.96
23.5
49.40
38.75
23.5
1.30
33.20
23.6
48.80
34.23
244
54.88
58.15
24.4
27.37
52.24
245
48.96
3907
24.5
1.33
33.56
24.6
49.10
34.47
254
54.75
58.37
25.4
27.14
52.54
255
48.49
39.41
25-5
1
1.36 ; 33.92
25.6
49.41
34-73
264
54.61
58.59
26.4
26.88
52.83
26.5
47.94
39.75
26.5
1.38 1 34.30
26.6
49.72
35-02
274
5446
58.81
274
26.60
53.12
274
47.31
40.11
27.5
X.39
34.70
27.6
50.03
35-32
2S4
54.29
5902
28.4
26.30
53.41
28.4
46.58
40.46
28.5
1.38
35.12
28.6
50.32
35.65
294
54.12
5920
29.4
25.96
53.67
29.4
45-75
40.80
29.5
1.36
35-53
29.6
50.59
35-99
30.3
53.95
59.35
30.4
25.60
53.91
30.4
44-85
41. II
30.5
1.33 35-93
30.6
50.82
36.35
3«.3 '53.78
59.46
31.4
25.25
54.13
31.4
4392
41.40
31-5
1.30
36.31
31.6
5 1 02
36.70
32.3 i 53.62
1
5956
32.4
24.91
54.31
32.4
42.98
41.67
32.5
1-25
36.67
32.6
51-18
37.04
7.35 •»-7.28
16.93 +16.90
57.88 +57.88
7
-38 +7.31
li
3.06 +18.03
16* 54" 50'.5i9
18** 0" I9'.30
19'* 7«» 25V98
20'»
48» 57M23
23** 27» 45'. 157
+82*
10' 5,
5".32
+86*»
36' 5
I ".09
+89*
0' 3
9".69
+82«
12' 3
5".90
+86'
^49' 3
9".43
[Sph 13]
282
AUGUST, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
€ Ursae Minoiis.
Mag. 4.4
^ Urse Minoiis.
Mag. 4.4
A. TTracB MhkwAB.
Mag. 6.6
76 Ihmoonis.
Mag. 5.7
89 H. Ce^ei.
Mag. 5.6
Mean
Solar
Date.
Aug.
1.3
2.3
3-3
4.3
5-3
6.3
7.3
8.3
9.3
10.3
II.3
12.3
13.3
H-3
153
16.3
17.3
18.3
19.3
20.3
21.3
22.3
23.3
243
Right
Ascen-
sion.
Declina
tion
North.
h m| o '
16 54 +82 10
//
53.62 1 59.56
53.47 I 59-66
53.32 I 59.76
53.191 59.87
1
53.05 I 60.00
52.91 1 60.15
52.761 60.33
52.59 I 60.50
I
52.42 60.65
52.24 I 60.80
52.05
51.86
51.68
51.51
51.34
51.18
51.03
50.88
50.74
50.58
50.42
50.25
50.07
49.88
253 49.68
26.3 49.48
27.3 49.28
28.3 I 49.08
293
30.3
31-3
32.3
48.90
48.73
48.57
48.41
60.92
61.01
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
.09
.14
.18
.22
.27
.35
.43
.51
,po
•71
.80
.88
.94
.96
•97
.96
.93
.89
.85
.84
7.35 +7.28
16'' 54" 50V5I9
M^n
Solar
Date.
Right
Ascen-
sion.
h m
Aug.
18 0
s
1.4
24.91
2.4
2459
3-4
24.29
4-4
24.00
Declina-
tion
North.
Mean
Solar
Date.
+8636
//
5.4
6.4
7-4
8.4
9.4
10.4
11.4
12.4
13.4
14.4
ISA
16.3
17.3
18.3
19.3
20.3
21.3
22.3
23.3
24.3
25.3
26.3
27.3
28.3
29.3
30.3
31.3
32.3
54.31
54.49
54.67
54.85
23.73 55.06
23.44
23.15
22.83
22.48
22.12
21.74
21.34
20.95
20.56
20.20
19.85
9.51
9.18
8.85
8.52
8.18
7.83
7.45
7.05
6.62
6.18
5.72
5.28
4.85
4-45
405
3.69
55.29
55.54
55.80
56.05
56.29
56.51
56.70
56.87
57.02
57.16
57.30
57.44
57.59
57.74
57.92
58.10
58.29
58.4«
58.67
58.84
58.98
59.10
59.20
59.27
59.33
59.40
5948
Aug.
X.4
2.4
3.4
4.4
5.4
6.4
7.4
8.4
9-4
10.4
1 1.4
12.4
13.4
14.4
154
16.4
17.4
18.4
19.4
20.4
21.4
22.4
23.4
24.4
25.4
26.4
27.4
Right
Ascen-
sion.
h m
19 7
9
42.98
42.08
41.27
40.54
39.85
39.17
38.44
37.65
36.77
35.79
34.72
33.61
32.50
31.39
30.32
29.32
28.35
27.42
26.51
25.60
24.66
23.67
22.62
21.47
20.23
18.90
17.53
Declina
tion
North.
Mean
Solar
Date.
+89 O
ff
28.41 16.15
29.4 14.81 48.95
30.4 I 13.53 49.11
31.4 12.33 I 49.27
32.41 1 1. 19, 49.45
41.67
41.92
42.17
42.42
42.68
42.98
43.30
43.62
43.96
44.28
44.59
44.87
45.13
45.37
45.59
45.81
46.03
46.26
46.49
46.74
47.01
47-29
47.57
47.84
48.11
48.36
48.59
48.78
*.82'' 10'
55".32
16.94 +16.91
iS^ o" I9V30
+86° 36' 5 1 "09
58.03 +58.03
Aug.
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
22.4
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
2048
s
61.25
61.21
61.18
61.16
61.14
61.13
61.13
61.12
61.09
61.05
61.00
60.95
60.88
60.81
60.74
60.68
60.62
60.56
60.52
60.48
60.43
60.38
60.32
60.26
60.18
60.09
59.99
59.88
59.76
59.66
59.56
59.48
Declina-
tion
North.
Mean
Solar
Date.
+82 12
ti
36.67
37.00
37.32
37.64
37.98
38.33
38.70
39.09
39.50
39.91
40.31
40.70
41.06
41.41
41.74
42.06
42.37
42.68
43.00
43.33
43.68
44.05
44.42
44.81
45.19
45.57
45.93
46.26
46.58
46.87
47.15
47.44
19"^
+89**
7" 25'.98
o' 39".69
[Bph 13]
7.38 +7.31
20»'48«» 57'. 1 23
Aug.
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
14.6
15.6
16.6
17.6
18.6
19.6
20.6
21.6
22.^
23.6
24.6
25.6
26.5
27.5
28.5
29.5
30.5
31.5
32.5
Right I DecU-
Aacen- } nation
ston. ) North.
h m
23 27 1+86 49
//
51.18 37.04
5>.34|37.35
51.52137.64
51.71 37.93
I
51.92 38.22
52.161 38.51
52.42 i 38.82
52.69 39.14
52.93 39.50
53. » 6 39.88
53.35 40.26
53.52 40.64
53.66 41.02
53.77 41.38
53.88 41.73
54.00 42.07
54.12 42.39
54.26 42.71
54.40 43.03
54.56 43.35
54-73 43.69
54.91 44.05
55.08 44,42
55.25 44.82
55-39 45.23
55.49 45 64
55.56 46.07
55.60 46.48
55.63 46.87
55.64 47.24
55.67 47-59
55.72147.93
+82** 12'
35".90
18.07 +18.05
23** 27» 45*.i57
+86<» 49' 39".43
SEPTEMBER, 1913.
283
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
€ Vnm MiAoiis.
S Urse Minoiis.
A. UracB Minoris.
76 Draoonis.
89 H. Cephei.
Mag. 4.4
Mag. 4.4
Mag. 6.6
Mag. 5.7
Mag. 5.6
Mtmn
SoImt
Date
Right
Ascen-
sion.
Declina-
tion
North.
Mean Right iDeclina-
Solar Ascen- > tion
Date. sion. 1 North.
1
Mean
Solar
Date.
Right
Ascen-
sion.
h m
Declina-
tion
North.
1
Meant Right Declina-
Solar : Ascen- tion
Date. sion. ' North.
1
Mean
Solar
Date.'
Right
Ascen-
sion.
Decli-
nation
North,
1
h m
0 /
h m
0 /
0 f
h ra
0 /
h ra
0 r
Sept.
1654
+82 10
Sept. 18 0
+8636
ft
Sept.
19 6
+89 0
Sept.
2048
•
+82 12
Sept.
2327
+8649
f 0
1.3
s
48.41
61.84
1.3
s
13.69
5948
1.4
s
71.19
49.45
1.4
s
59.48
47.44
1.5
s
55.72
47.93
2.3
48.25
61.85
2.3
13.32
59.59
2-3
70.09
49.66
2.4
59.41
47-75
2.5
55.80
48.28
3.3
48.08
61.89
3.3,12.95
59.72
3.3
68.98
49.87
3-4
59-33
48.07
3.5
55.91
48.63
4.3 j 47.90
61.93
4.3.12.55
59.85
4.3
67.82
50.10
4-4
59-25
48.42
4.5
56.02
49-01
5-2 47.71
61.96
5.3 12.12
59.99
5.3
66.57
50.35
5-4
59.17
48.78
5-5
56.12
49.41
6.2 47.52
61.98
6.3
11.69
60.12
6.3
65.23
50.59
6.4
59.07
49.15
6.5
56.21
49.83
7.2
47.32
61.97
7.3
11.22
60.23
7.3
63.81
50.82
7-4
58.95
49-52
7.5
56.27
50.26
8.2
47.12
61.93
8.3
10.75
60.31
8-3
62.33
51-02
8.4
58.83
49.86
8.5
56.30
50.70
9.2
46.91
61.88
9.3
10.29
60.37
9-3
60.85
51.18
94
58.70
50.18
9.5
56.29
51.12
10.2
46.71
61.80
10.3
9.83
60.41
10.3
59.37
51-34
10.4
58.57
50.48
10.5
56.26
51.53
II. 2
46.54
61.71
"3
9.39
60.43
11.3
57-93
51-47
11.4
58.44
50.77
«i-5
56.22
51.92
12.2 46.37
61.62
12.3
8.97
60.45
12.3
56.54
51-59
12.4
58.32
51-03
12.5
56.17
52.30
13.2 46.20
61.53
13.3
8.56
60.46
13.3
55-23
51.71
13.4
58.20
51-27
«3.5
56.13
52.65
14.2 46.04
61.46
14.3
8.17
60.48
14.3
53-95
51.82
14.4
58.08
51.52
14-5
56.10
53.00
15.2 [45.88
61.39
15.3
7.79
60.51
15-3
52.70
51.95
15.4
57-97
51-77
15-5
56.09
53.35
16.2
45.72
61.33
16.3
7.41
60.55
16.3
51-47
52.10
16.4
57.87
52.03
16.5
56.09
53.70
17.2
45.56
61.29
17.3
7.02
60.60
173
50.23
52.26
17.4
57-77
52.32
17-5
56.11
54.06
18.2
45.38
61.25
18.3
6.62
60.67
18.3
48.96
52.42
18.4
57.66
52.61
18.5
56.13
54.43
19.2
45.20
61.21
19.3
6.20
60.74
19.3
47.63
52.59
19.4
57.55
52.91
19-5
56.14
54.82
20.2 1 45.01
61.17
20.3
5.76
60.80
20.3
46.23
52.76
20.4
57.43
53.22
20.5
56.15
55.24
21.2 ,44.82
61.09
21.2
5.29
60.85
21.3
44.72
52.93
21.4
57.30
53.53
21.5
56.14
55.66
22.2
44.62
60.98
22.2
4.81
60.87
22.3
43.15
53.08
22.4
57.16
53.84
22.5
56.10
56.09
23.2
44.41
60.86
23.2
4.32
60.86
23.3
41.53
53.19
23.4
57.00
54.14
23.5
56.02
56.53
24.2
44.22
1
60.71
24.2
3.84
60.84
24.3
39.89
53-29
24-4
56.84
54.40
24.5
55.91
56.96
1
25.2 44.03
60.54
252
3-37
60.78
25.3
38.27
53.35
1
25.4 56.67
54.64
25.5
55.77
57.36
26.2
43.87
60.37
26.2
2.94
60.72
26.3
36.72
53.40
26.4 56.51
54.85
26.5
55.64
57-74
27-2 j 43.71
60.19
27.2
2.51
60.66
27.3
35-25
53.45
27.4 56.36
55.05
27.5
55.51
58.10
28.2 143.55
1
60.04
28.2
2. II
60.60
28.3
33.86
53.50
28.3,56.23
1
55.25
28.5
55.40
58.45
29.2
43.39
59.90
29.2
1.72
60.57
293
32.52
53.57
29-3
1
56.10 55.45
29-5
55.31
58.79
30.2
43.23
5978
30.2
1.32
60.55
30.3
31-19
53.66
30.3
55-98 i 55-68
30.5
55.25
59.14
31.2
43-07 ' 59-68
31.2
0.92
60.56
31.3
29.83
53-77
31.3
5585 1 55.93
31.4
55-20
59.50
7.35 +7.28
16.95 +
16.92
58.14 +58.13
7-38 +7-31
18.09 +18.06
i6*» 54°* 50'-5i9
i8»» 6^ I
[9'.30
,^h ym 25«.98
20>» 48°* 57'. 1 23
23'' 27" 45'.i57
+82^
10' 5
5".32
-1-86^
36' 5
i".09
+89*^
0' 3
9"-69
+82*'
12' 3
5".90
+86^
'49' 3
9".43
[Bph 13]
284
OCTOBER, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
€ Vtut Mlnorls.
^ Urse lUiMris.
A. JSjwm Minoris.
76 Draoonis.
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 Right
Solar Ascen*
Date. sion.
1 ,
Declina-
tion
North.
Mean Right
Solar Ascen -
Date. sion.
1
Declina-
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
I>ecli-
nation
North,
h ra
0 /
h m
0 /
1
1 h m
0 /
1
h m
0 /
h m
0 *
Ctet.
1654
+82 10
Oct.
1759
+8636
Oct.
19 5
+89 0
Oct. 2048
+82 12
ma
Oct.
2327
+8649
1.2
9
43.07
59.68
1.2
s
60.92
60.56
1.3
9
89.83
53.77
s
1.3 55.85
55.93
1.4
s
5520
W ^
5950
2.2
42.89
59.58
2.2
60.48
60.56
2.3
88.41
53.89
2.3
55.71
56.20
2.4
55.15
59.89
3.2
42.71
59.47
3.2
60.02
60.56
3.3
86.90
54.01
3.3
55.57
56.47
3.4
5509
60.30
4.2
42.52
59.34
4-2
59.55
60.54
4.3
85.31
54."
4.3
55.42
56.74
4-4
55.00
60.73
5-2
42.33
59.18
5-2
59.07
60.49
5.3
83.67
54.21
5.3
55.25
56.99
5-4
54.88
61.14
6.2
42.14
59.00
6.2
58.59
60.42
6.3
82.01
54.26
6.3
55.08
57.23
6.4
54.73
61.55
7-2
41.96
58.80
7.2
58.12
60.33
7-3
80.35
54.29
7.3
54.90
57.44
7.4
54.55
61.94
8.2
41.79
58.58
8.2
57.68
60.22
8.2
78.73
54.29
8.3
54.72
57.62
8.4
54.35
62.32
9.2
41.64
58.35
9.2
57.24
60.10
9.2
77.17
54.28
9.3
54.55
57.77
9-4
54.15
62.68
10.2
41.49
58.12
10.2
56.84
59.98
10.2
75.68
54.26
10.3
54.38
57.92
10.4
53.96
63.02
II. I
41.35
57.91
II. 2
56.45
59.85
II. 2
74.26
54.26
"•3
54.22
58.07
11.4
53.77
63.34
12. 1
41.21
57.71
12.2
56.07
59-75
12.2
72.88
54.24
12.3
54.07
58.21
12.4
53.60
63.66
13.1
41.07
57.51
13.2
55.70
5965
13.2
71.53
54.26
13.3
53.93
58.35
13.4
53.43
63.98
14.1
40.93
57.33
14.2
55.33
59.56
14.2
70.19
54.28
14.3
53.79
58.51
14.4
53.28
6431
151
40.78
57.15
15.2
54.95
59.48
15.2
68.83
54.30
15.3
53.65
58.68
15.4
53.14
64.64
16. 1
40.63
56.98
16.2
54.55
59.41
16.2
67.43
54-34
16.3
53.50
58.86
16.4
53.01
64.99
I7.I
40.48
56.80
17.2
54.15
59.33
17.2
65.97
54.37
17.3
53.35
59.06
17.4
52.88
65.34
18.I
40.31
56.61
18.2
53.71
59.25
18.2
64.44
54.40
18.3
53.19
59.25
18.4
52.72
65.72
I9.I
40.14
56.39
19.2
53.27
59.15
19.2
62.84
54.42
19.3
53.01
59.44
19.4
52.52
66.10
20.1
39-97
56.16
20.2
52.81
59.03
20.2
61.18
54.41
20.3
52.82
59.62
20.4
52.30
66.48
31. 1
39.80
55.90
21.2
52.35
58.87
21.2
59.50
54.38
21.3
52.63
59.77
21.4
52.06
66.86
22.1
39.65
55.61
22.2
51.91
58.69
22.2
57.85
54.33
22.3
52.43
59.89
22.4
51.80
67.22
23.1
39.51
55.31
23.2
51.49
58.49
23.2
56.24
54.25
23.3
52.24
59.99
23.4
51.52
6755
24.1
39.38
55.01
24.2
51.10
58.29
24.2
54.72
54.16
24.3
52.06
60.07
24.4
51.23
67.86
25.1
39.26
54.72
25.2
50.73
58.10
25.2
53.30
54.07
25.3
51.89
60.14
25.4
50.96
68.15
26.1
39-14
54.47
26.2
50.39
57.92
26.2
51.95
53.99
26.3
51.73
60.20
26.4
50.71
68.43
27.1
3904
54.23
27.2
50.05
57.77
27.2
50.64
53.94
27.3
51.58
60.29
27.4
50.49
68.71
28.1
38.91
54.00
28.1
49.69
57.63
28.2
49.32
53.90
28.3
51.43
60.40
28.4
50.29
69.01
29.1
38.78
53.78
29.1
49.33
57.50
29.2
47.97
53.87
293
51.28
60.51
29.4
50.09
6931
30.1
38.64
53.56
30.1
48.94
57.37
30.2
46.53
53-86
30.3
51.12
60.65
30.4
49.90
69.65
31. 1
38.49
53.31
31. 1
48.53
5724
31.2
45.01
53.84
31.3
50.94
60.80
31.4
49.68
70.00
32.1
38.35
53.05
32.1
48.11
57.09
32.2
43.42
53.80
32.3
50.75
60.92
32.4
49.42
70.34
7.35 +7.28
16.94 +16.91
58.18 +
58.17
7.38
+7.32
18.11 +18.08
i^** 54" 5o'.5i9
i8*» 0*" I9'.30
19b 7M 5
f5*.98
20** 48" «
;7'.i23
23** 27» 45'. 157
+82«>
10' 5
5"-32
+86°
36' 5
I ".09 1
+89*'
0' 3<
?".69
+82*>
12' 3,
5".90
+86*
U9'3
9".43
lEph i3l
NOVEMBER, 1913.
285
APPARENT PLACES OF CIRCUMPOLAR
STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
f TTMrXiaoEis.
^ Unae Mlnoris.
A. Ura» JElBoris.
76 ]>raooBi8.
89 H. Ceyhei.
M«g. 4-4
Mag, 4.4
Mag. 6.6
Mag. 5.7
Mag. 5.6
Jtes
Bite.
Risbt
Aaoea-
aaoo.
Dcclioa-
tkm
North,
Mean
Solar
Date.
Ri«ht
Ascen-
sion.
DecUna.
tion
North,
Mean
Solar
Date.
Right
Ascen-
sion.
DecUna*
tion
North.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
MeM>
Solar
Date.
Right
Ascen-
sion.
DecU-
nation
North.
1
h m
0 /
h m
0 /
h m
0 /
h m
0 /
h m
0 f
Kov.
1654
+82 10
It
Nov.
1759
+8636
It
Nov.
19 5
+89 0
It
Nov.
2048
+82 13
It
Nov.
2327
+8650
It
I.I
s
38.35
5305
I.l
s
48.11
57.09
1.2
s
43.42
53.80
1.3
s
50.75
0.92
5
1.4149.42
10.34
2.1
38.20
52.75
2.1
47.69
56.89
2.2
41.81
53.73
2.3
50.55
1.03
2.4 49.13
10.68
3.1
38,06
52-44
3.1
47-28
56.68
3-2
40.21
53-63
3.2
50.36
l.IO
3.4
48.81
11.01
4-1
37.94 { 52.10
4.1
46.89 56.45
1
4.2
38.66
53-50
4-2
50.16
115
4.4
48.48
H.31
5-1
37.82
51.76
5-1
46.52 56.20
5-2
37-17
53-37
5-2
49.97
1. 19
5.4
48.15
11.60
6.1
3772
51.43
6.1
46.19
55.94
6.2
3576
53.21
6.2
49.79
1.19
6.4 ! 47.82
11.86
7.1
37.63
51."
7.1
45.87
5569
7-2
34-42
53-04
7-2
49.61
1.19
7.3
47.48
12.11
&i
37.54
50.80
8.1
45.56
55.44
8.2 33.14
52.88
8.2 49.44
1. 19
8.3
47.17
12.34
9-1
37-*5
50.49
9.1
45.27
55.22
9-2
31.91
52.75
9.2 49.28
X.18
9.3
46.87
12.57
lai
37.36
50.20
10. 1
44.98
55.01
10.2
30.72
52.63
10.2 149.14
1. 19
10.3
46.59
12.80
ii.i
37.28
49.92
II.I
44.69
54-80
11.2
29-53
52.52
11.2
48.98
1.21
11.3
46.32
13-02
12. 1
37.19
49.65
12.1
44.39
54.60
12.2
28.31
52.41
12.2
48.82
1.24
12.3
46.05
13.27
I3.I
37.09
49.38
13.1
44.07
54-40
X3-2
27.04
52.29
13-2
48.66
1.29
13.3
45.78
13.52
H-i
36.99
49.09
14.1
43.74
54.21
I4.I
2572
52.18
14.2
48.49
1.33
14.3
45.51
13.79
15.1
36.88
48.80
15.1
43-40
54-00
15-1
24-33
52.08
»52
48.32
1-37
15.3
45.21
14.07
16.1
36.77
4848
16. 1
43.04
53-76
16. 1
22.89
51.96
16.2 148.12
1.40
16.3
44.88
14.34
17.0
36.67
48.13
17.1
42.70
53-49
I7.I
21.42
51.79
17.2
47.93
1.41
17.3
44.52
14.61
18.0
36.57
47.75
18.1
42.36
53-21
x8.i
19-97
51-59
18.2
47.74
1.39
18.3
44.13
14.86
19.0
36.49
47.37
19.1
42.05
52.90
I9.I
18.58
51-39
19.2
47.55
1.33
19.3
43.73
15.09
2ao
36.41
46.99
20.1
41.76
52.58
20.1
17.28
51.16
20.2
47.37
1.27
20.3
43.33
15.30
21.0
36.35
46.61
21. 1
41.51
52.26
21.1
16.07
50.93
21.2 147.20
1.18
21.3
42.94
15.48
22.0
36.30
46.26
22.1
41.27
51-95
22.1
14.96
50.70
22.2
47.04
1.09
22.3
42.56
15.65
23.0
36.25
45-93
23.1
41.05
51-67
231
13.93
50.50
23.2
46.90
l.OI
23.3
42.21
15.81
24.0 36.20
1
45-62
24.1
40.84
51.42
24.1
12.91
50.31
24.2
46.75
0.95
24-3
41.89
15.96
25.0
36.14
45-32
25-1
40.61
51.18
25-1
11.85
50.14
25.2
46.60
0.90
253
41.59
16.14
26.0
36.08
4502
26.1
40.36
50.96
26.1
10.75
49-99
26.2
46.45
0.87
26.3
41.29
16.34
27.0
36.01
44.7 »
27.1
40.08
50.72
27.1
9-57
49.83
27.2
46.28
0.85
27.3
40.97
16.54
2S.0
35.94
44.38
28.x
39.79
50.46
28.1
8.34
49-67
28.2
46.11
0.82
28.3
40.63
16.76
29.0
35-87
44.03
29.1
39.51
50.17
29.1
7-07
49-48
29.2
45.94
0.78
29.3
40.26
16.97
30.0
3580
43.65
30.1
39-23
49.86
30.1
5.80
49-25
30.2
45.75
0.71
30.3
39.87
17.17
J1.0
35.73
4326
3X.I
38.98
49-53
3I-I
4.57
49.01
31.2
45.57
0.62
31.3
39-46
17.36
7.35 +7.28
16.94 +16.91
58.14 +58.13
7.38
+7.32
18.13 +18.10
16^54" 50*.5>9
18** 0*" I9».30
19*" 7" 25V98
20*» 48"* •
)7*-i23
23'' 27«» 45'. 157
♦to«
10' 5,
5".32
+860
36' 5
I ".09
+89*>
0' 3
9".69
+82**
12' 3
5".90
+86"
"49' 3
9".43
286
DECEMBER, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
€ JJnm Mlnorig.
^ UrMB Miiiorls.
A. JSnm MlnoilB.
76 Ihmooiiis.
89 H. Ce
Mag. 4.4
Mag. 4.4
Mag. 6.6
Mag. 5.7
Mag. «
Mean
Solar
Date.
Right
Asoen-
sion.
Declixia<
tion
North.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
North.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Dedina-
Uon
North.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
Uon
North.
Mean
Solar
Date.
Right
Ascen-
sion.
h m
0 /
h m
0 /
h m
0 f
h m
0 t
h m
Dec.
1654
+82 10
m m
Dec.
1759
+8636
mm
Dec.
19 4
+89 0
mm
Dec.
2048
+82 12
mm
Dec.
2327
I.O
s
35-73
WW
43.26
I.I
s
38.98
WW
49-53
I.I
s
64.57
WW
49.01
1.2
s
45.57
WW
60.62
1-3
s
39-46
2.0
3569
42.86
2.1
38.74
49.19
2.1
63.42
48.75
2.2
45-40
60.50
2.3
39.02
30
35.66
42.45
3.0
38.53
48.84
3.1
62.35
48.47
3.2
45.23
60.36
3-3
38.59
4.0
3564
42.06
4.0
38.36
48.48
4.1
61.35
48.18
4.2
45.07
60.20
4-3
38.17
50
35.63
41.68
5.0
38.19
48.14
5.1
60.43
47.91
5-2
44.92
60.03
5.3
37.76
5.9
35.62
41.32
6.0
38.05
47.82
6.1
59.59
47.64
6.2
44.79
59.87
6.3
37.38
6.9
35.62
40.98
7.0
37.92
47.51
7.1
58.79
47.38
7-2
44.66
59.72
7.3
37.01
7-9
35.61
40.64
8.0
37.80
47.21
8.1
58.00
47.13
8.2
44.53
59.58
8.3
36.66
8.9
35.60
40.32
9.0
37.66
46.92
9.1
57-21
46.90
9-2
44.40
59-44
9.3
36.31
9-9
35.58
40.00
1 0.0
37.50
46.65
10. 1
56.40
46.67
10. 1
44.26
59-32
10.3
35-98
10.9
35.56
39.68
II.O
37.33
46.38
II. I
55-54
46.46
II. I
44.11
59-20
"-3
35-63
1 1.9
35.53
39.35
12.0
37.16
46.08
12. 1
54.64
46.24
12. 1
4396
59.08
12.3
35-27
12.9
3550
39.00
130
36.97
45-77
13.1
53.69
46.00
13.1
43.80
58.97
13.2
34-89
13.9
35-47
38.63
14.0
36.78
45-44
14. 1
52.70
45-73
14. 1
43-64
58.83
14.2
34-48
14.9
35.44
38.24
15.0
36.60
45-09
15.1
51.71
45-44
I5-I
43-48
58.66
15.2
34-05
159
35.44
37.83
16.0
36.45
44.71
16. 1
50.77
45-13
16. 1
43-31
58.47
16.2
33.60
16.9
35.45
37.42
17.0
36.32
44-33
17.1
49.92
44.79
I7.I
43-17
58.25
17.2
33.14
17.9
35-47
37.01
18.0
36.23
43-95
18.1
49.17
44.45
18.I
43-03
58.02
18.2
32.68
18.9
35.50
36.62
19.0
36.17
43.58
19.1
48.53
44.11
I9.I
42.90
57.78
19.2
32.25
19.9
35.54
36.25
20.0
36.13
43.24
20.0
47.99
43.80
20.1
42.79
57-54
20.2
31.85
20.9
35-57
35.92
21.0
36.09
42.91
21.0
47.51
43-52
21. 1
42.69
57.32
21.2
31.48
21.9
3560
35.59
21.9
36.04
42.59
22.0
47.02
43.24
22.1
42.59
57.12
22.2
31.13
22.9
35.62
35.29
22.9
35.99
42.31
23.0
46.50
42.99
23-1
42.48
56.94
23.2
30.80
23.9
35.63
34.98
23.9
35.92
42.02
24.0
45.91
42.75
24.1
42.36
56.77
24.2
30.46
24.9
35.64
34.66
24.9
35.83
41.73
25.0
45-26
42.49
25-1
42.24
56.60
25.2
30.11
259
35.65
34-33
25.9
35.72
41.41
26.0
44-57
42.21
26.1
42.11
56.42
26.2
29.72
26.9
35.67
33.96
26.9
35.63
41.07
27.0
43-86
41.90
27.1
41-97
56.22
27.2
29.32
27.9
3569
33.59
27.9
35-55
40.71
28.0
43.19
41-58
28.1
41-83
55.99
28.2
28.89
28.9
35.73
33.19
28.9
35.49
40.33
29.0
42.58
41.24
29.1
41.71
55.73
29.2
28.44
29.9
35.77
32.79
29.9
35.47
39-94
30.0
42.06
40.88
30.1
41.59
55.46
30.2
28.00
30.9
35.83
32.42
30.9
35-47
39-55
31.0
41.63
40.52
31. 1
41.48
55-16
31.2
27-57
319
35.90
32.05
319
35.50 1 39.18
32.0
4 1 30
40.17
32.1
41.38
54-87
32.2
27.14
7.35 +7-28
16.92 +16.89
58.03 +58.02
7.38 +7.32
18.13
i6*» 54" 50'.5i9
i8*» 0*" 19'. 30
I^h ^m 25-.98
20»» 48" 57M23
23*» 27"
+82** 10' 55" 32
+86° 36' 5 1 ".09
+89° 0' 39".69 1+82° 12' 35".90
+860 49' ;
lEph i:
\\
APPARENT PLACES OP STARS, 1913.
287
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
88 Pisclnm.
Mag. 4.7
Right
Ascension.
Jan. 0.2
10.2
20.2
30.1
Feb. 9.1
19. 1
Mar. I.I
II.O
21.0
31-0
Apr. 1 0.0
19.9
29.9
May 9.9
19.8
29.8
June 8.8
18.8
28.7
July 8.7
18.7
28.7
Aug. 7.6
17.6
27.6
Sept. 6.5
16.5
26.5
Oct. 6.5
16.4
26.4
Nov. 5.4
15.4
253
Dec. 5.3
153
25.2
35-2
Mean Place
h m
O O
s
52.71
52.61
52.52
52.45
52.39
52.35
52.33
52.35
52.40
52.48
52.60
52.77
52.98
53.22
53.49
53.78
54.09
54.41
54.74
55.06
55.37
55.65
55.91
56.13
56.32
56.47
56.58
56.65
56.69
56.70
56.67
56.62
56.56
56.48
56.38
56.28
56.18
56.08
10
9
7
6
4
2
2
5
8
12
17
21
24
27
29
31
32
33
32
31
28
26
22
19
15
II
7
4
I
3
5
6
8
10
10
10
10
Declina-
tion S.
o /
6 II
//
43-6
44.1
44.5
44.7
44.8
44.8
44.5
44.0
43.3
42.3
41. 1
39.7
38.1
36.3
34-3
32.2
30.1
27.9
25.8
23.8
22.0
20.4
19.0
17.8
16.9
16.3
15.9
15.8
159
16.3
16.8
17.3
18.0
18.7
19.5
20.2
20.8
21.4
5
4
2
I
o
3
5
7
10
12
14
16
18
20
21
21
22
21
20
18
16
14
12
9
6
4
I
I
4
5
5
7
7
8
7
6
6
1.006 -0.109
52".969
39".3i
D'^ €1, Dm a 0.00
D^ d,DmS I +0.4
+0.01
0.0
ot Andromedae.
Mag. 2.2
Right
Ascension.
m
3
h
O
s
52.62
52.49
52.36
52.25
52.16
52.09
52.06
52.06
52.10
52.19
52.32
52.50
52.73
52.99
53.29
53.62
53.96
54-31
54.66 ^5
5501 ^^
13
13
II
9
7
3
o
4
9
13
18
23
26
30
33
34
35
55.34
55.65
5592
56.16
56.36
56.52
56.64
56.71
56.75
56.76
56.73
56.68
56.60
56.50
56.39
56.27
56.14
56.01
33
31
27
24
20
16
12
7
4
I
3
5
8
10
II
12
13
13
Declina-
tion N.
+ 2836
//
44.3
43.4
42.3
41.0
39.5
37.9
36.4
34.9
33.5
32.4
31.6
31. 1
30.9
31. 1
31.8
32.8
34.2
35-9 ,^
37.8 !?
40.0
5
2
2
7
10
14
17
22
24
42.4
44-9
47.5
50.1
52.6
55.1
57.4
59.5
61.4
63.1
645
65.7
66.6
67.2
67.4
67.3
66.9
66.2
25
26
26
25
25
23
21
19
17
14
12
9
6
2
I
4
7
/3 Cassiopeiie.
Mag. 2.4
Right
Ascension.
h m
o 4
s
30.29
29.97 ^
29.68 ^9
I- 139 ■K>.545
53'.258 36".47
0.00 -0.04
+0.4 0.0
rEph J 3]
29.42
29.19
29.01
28.89
28.84
28.86
28.96
29.15
29.41
29.74
30.13
30.58
31.06
31.57
32.09
32.61
33.11
33.59
34.03
3442
34-75
3503
35.25
3540
35.49
35.52
35.48
35.39
35.25
35.07
34.85
34.59
34.31
34.01
33.70
26
23
18
12
5
2
10
19
26
33
39
45
48
51
52
52
50
48
44
39
33
28
22
15
9
3
4
9
14
18
22
26
28
30
31
Declina-
tion N.
€ Phcenids.
Mag. 3.9
+ 5840
//
27.8
27.1
25.9
24.2
22.2
19.8
17.2
14.5
II. 9
9.4
7
12
n
20
24
26
27
26
25
22
19
7.2
5.3
3.8^5
2.7
2.2
n
5
o
2.2
2.7
3.7
5.2
7.2
9.6
12.3
15.3
18.5
21.9
5
10
15
20
24
27
30
32
34
35
35
34
25.4
28.9
32.3
35.6 ^^
38.7 ^'
41.5
44.0
46.2
48.0
49.2
49.9
50.1
49.7
28
25
22
18
12
7
2
4
1.923
3 1 '.687
+1.643
ii".83
Right
Ascension.
0.00
+0.4
-O.II
0.0
h
O
xn
4
s
60.10
59.91
59.74
59.59
59.47
59.38
59.33
59.32
59.36
59.44
19
17
15
12
9
5
I
4
8
14
19
59.58
59.77 . .
60.01 ^^
60.30 ^^
60.63 ^l
36
^•99 ,^
61.3839
61.79 ^^
62.21 ^^
62.63 ^^
63.03
63.40
63.74
64.04
64.29
64.49
64.63
64.71
6473
64.70
64.63
64.52
64.37
64.19
64.00
63.81
63.61
63.41
40
37
34
30
25
20
14
8
2
3
7
II
15
18
19
19
20
20
Declina-
tion S.
-46 13
//
55.2
54.8
53.9
52.6
50.8
48.7
46.3
43.6
40.7
37.6
4
9
13
18
21
24
27
29
31
31
32
34.5
31.3
28.2 3'
25.1 ''
22.2
19.5
17.I
I5.I
13.4
12.2
".5
II.2
1 1.4
12. 1
13.2
14.7
16.5
18.6
20.8
23.1
25.3
27.4
29.3
30.9
32.1
3^.8
33.1
330
29
27
24
20
17
12
7
3
2
7
II
15
18
21
22
23
22
21
19
16
12
7
3
I
1.446 -1.044
59».884 39". 1 1
0.00
+0.4
+0.07
0.0
288
APPxiRENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
22 Andromedae.
y Peg»8i.
(T AndromedBB.
tCeti.
Mean Solar
Mag. 5.1
Mag. 3.9
Mag. 4.5
Mag. 3.8
Date.
1
Right Declina-
Right
Declina-
Right
Declina-
Right
Dedina-
Ascension. , tion N.
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tionS.
h m « '
h m
0
/
h m
0 '
h m
0 /
0 5 +45 35
0 8
+ 14 41
0 13
+3618
0 14 - 9 17
Jan. 0.2
s
4^-73 ,„
303
8
44.82
r w
63.2
8
8
46.04
21.2
8 "
59.58 1 86.9 .
I0.2
46.53 °
295 „
^•71 "
62.4
4589 5
20.4 . ,
59-48 °
87.4 •
20.2
46.34 '
26.7 '*
44.61 'I
61.5
9
45-74 \'
19.3 '
59-38 '°
87.7 !
30.1
46.17 [I
44.52 ^
44-44 J
60.5
10
4560 '*
»7.9 \\
59-30 ,
87-9 *
Feb. 9.1
46.03 1^
24.8 '9
21
59-5
10
9
45.48 "
9
16.2 '7
18
59-23 ^
87-9 °
19.1
45-92 ,
22.7
44.39 ,
58.6
^
45.39 ,
^'^•^ -
59-18
87-7 .
Mar. I . I
45.85 I
20.4 '3
44.36 3
b7'7
9
8
45.33 \
12.6 •«
59-15 „
87.2 »
II. 0
45.83 I
18.2 "
4436
56.9
45.31 ^
10.8 '*
59-15 °
86.5 \
21.0
45.86 I
16.I "
44.40 *
44-48 *
13
56.4
5
45.34 ^
9'!6
59-18 3
85.6 \
31.0
45.95 ^l
''■' n
56.1
3
0
45.42
59-25 ,J
84.5 "
Apr. 1 0.0
46.10
#
12.4
44.61
44.77 '^
56.1
45.55 ,„
6.2
59-36
59-52 '°
83.2 .
19.9
46.57 l^^
H.o'4
56.3
2
45.73 !
5-3 ?
81.6 "
29.9
10.0 '°
20
44.97 ,^
56.8
5
45.96 '3
4-7 !
59-71 '9
79-8 1"
May 9.9
46.88 3.'
9-5 ^
45-49 ,^
57-7
9
46.24 ^;
*-5 !
59-94 VL
60.20'*
77-8!:
19.8
47.23 li
9-5 ?
58.9
12
46.55 ^'
4-8 3
75.7 „
38
4
30
15
34
7
38
29.8
4761 ^„
9-9 „
45.79 ,,
60.4
46.89 ,
5.5 „
60.48
73-6 ,,
June 8.8
48.01 40
10.8 9
46.11^^
62.1
17
47.25 f^
6.6"
60.79 ^'
71.4 „
18.8
48.43 *'
12.1 '3
46.44 11
64.0
19
47.62 37
8.0 '4
61. 1 1 3»
69.2
28.7
48.85 ^'
,« „ '8
'3-9 ,,
46.77 ^^
66.1
21
48.00 38
9-8 ^
61-44 "
67.1 "
July 8.7
49.25 To
16.0
47.10 ^^
68.2
21
48.37 f
11.9"
61.77 r
65.1*
38
24
31
22
35
24
3«
18.7
49.63 „
18.4
47-41
70.4
4872
'4-3 ,#;
62.08
<53-3 ,5
28.7
49.98 11
2I.I *7
47.70 11
47.96 ^
72.7
23
49.05 33
^^•9 ^t
62.37 ^'
61.7
Aug. 7.6
50.30 t.
^4-° ^0
74.9
22
49-35 ,,
49.61 '^
19.6 ^7
62.64 ^
604'*
17.6
50.58 '*
27.0 30
48.19 ^^
76.9
20
22.3 ^7
62.88 '4
59-4 g
27.6
50.8, ;3
30.. 3;
48.39 ]l
78.8
19
18
49.83 1^
^5- :j
«3°« ::
58.6 J
Sept. 6.5
50.99 „
33-2 ,„
48.55 ,,
80.6
16
50.01
^7-9 ,,
63-24 „
58.1
16.5
51.12 '3
51.20
36.2 3°
48.67 ''
48.75 °
82.2
50.14 '3
30-5 t
63-37 ^i
58.0
26.5
39- ^8
44.6'^
23
83.6
14
50.23 '
33.0 ^5
63-46 9
58.1
Oct. 6.5
51.24 ;
48.80 5
84.7
1 1
50.28 5
35-4 *
63.51 \
584 :
16.4
51.24
48.81 '
2
85.6
9
7
50.29 ^
37-5 ;;
63-53 ^
58.9 ;
7
26.4
51.19 g
48.79 ,
86.3
#
50.27
J?:J -
63-51 ^
59.6 g
Nov. 5.4
51." ,_
48.75 t
48.69 J
86.7
4
50.22 5
63.47 *
63-41 !
60.4 .
15.4
5099 ,,
50.5 ^
86.9
2
50.14 „
42.2 "
61.2
25.3
50.85 ^
51.7 'I
48.61 ^ 86.9
0
50.03
43.1 \
43-7 ^
6334 „
62.1 '
Dec. 5.3
50.68 ;7
48.52 9 86.7
10
2
4
49.91
63.25 9
10
62.9
, 15.3
50.50 ,^
52.9 ,
48.42
86.3
■^
•
49.77 ^^
43.9 ,
'*3-^5 ,„
63.6
25.2
5^-3' a
52.8 '
48.32 °
85.8
5
49.62 5
43-7 \
43-1 **
63.05 °
64.3
35.2
50.12 ^ 52.3 5
1.429 +1.02 1
48.21 "
85.1
7
49.47 ^
62.94 "
64.9
Sec df Tan 6
1.034 40.262
1.241 40.735
1. 013 HXI64
Mean Place
47*.68o I7".3i
45'-248 59".77
46*. 740 io".48
59".73i 83".07
DV a, D« a
0.00 -0.07
0.00 -0.02
0.00 -0.05
aoo 4001
D^ d, D« 8
+0.4
0.0 1
+0.4
0.0
1
40.4
40.I
40^
4<XI
lEph i3l
APPARENT PLACES OF STARS, 1913.
289
FOR THE UPPER TRANSIT AT WASHINGTON.
C Taoann.
44 Pitcinia.
/? Hydrl.
a Phoenicis.
MeanSolar
Mag. 4.3
Mag. 6.0
Mag. 2.9
Mag. 2.4
•- Date.
1
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina>
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion S.
h m
0 /
h m
e /
h m
0 /
h m
0 /
0 15
-65 22
mm
0 20
+ I 27
0 21
-7744
0 21
-42 46
m 0
Jan. 0.2
33-73 „
WW
87.9
56.32
27.6
27.0 \
26.4 \
8
13.02 «9
12.19 ^^
59-3 „
8
59-53 ,8
59.35 .,
WW
57-2
I0.2
33-34 11
32.98 3;
87.0 9
56.22 °
58.2 •
57-0 I
20. 2
25-5 \\
56.12 '«
56-5 I
59.18 '7
56-4 ^
30.2
32.66 3^
32-38 ll
22
»3-5 ?
5603 '
25.9 \
10.81 ^^
53
54-3 "
59.03 \\
II
55-3 "
Feb. 9.1
81. 1 ="4
28
55-96 7
25.4 ^
51-6 '7
3J
58.90 ;3
"•« :^
19.1
32.16
78.3 „
55-90
25.1
10.28
48-5 „
58.80
520 „
Mar. I.I
32.01 ^l
31.93 _
75- 1 '!
55-86 ;^
25.0 '
9.89 39
45-0 35
58-73 !
49-9 \\
II.O
71-7 ^*
68.1 36
55-86 °
25.0
9-^5 \l
^^•3 38
37-5 ^^
58-70 3
47-4 i
21.0
31.93 -
32.01 I
55-89 I
25.2 ^
9.55 'I
9-61 ,J
58.72 \
58.78 **
44-6 !
310
^4-4 ^«
55-96 7
25.7 5
33-6 39
41-7 ''
16
38
10
7
22
39
II
30
Apr. 1 0.0
32-17 ,,
60.6
56.06
26.4
9-83 „
29-7 ,»
58.89 ,
38-7
19.9
32-41 *
56.9 "
53-3 ^^
56.21 ;5
27.4 ;^
10.20 3/
25-9 ^«
59.05 '^
35-6 3
29.9
32.73 11
56-40 '
28.6 "
*°-72 5;
22.2 "*'
59.26 "
32-4 f
May 9.9
33-12 39
33-58 **
52
49-9 ,;
56.62 "
56.88 '^
29
30.1 |5
11.38 Jf
18.8 34
59-51 ,„
^I
29-3 X„
19.9
46-« ^^
31.8 '7
19
12.17 '^
89
15-8 3"
27
5,.s, I
26.4 '?
^ 28
29.8
34-10
44.0
57-17 „
33.7
13.06
'3-1 ,,
60.15
23.6
June 8.8
3467"
41.7 '^
57-47 ,,
35-7
^4-^5 ,^
10.8 '3
60.51 ^^
21.1 =^5
18.8
35-^7 ^
39-8 9
^2
57-79 ,,
37-7 °
106
15.11 '"°
9-^12
60.90 ^9
'8-9 "
28.7
35-88 ll
38.3 '^
58.12 33
39-8 "
16.20 '*^
7-9"
61.30*0
»7° !
July 8.7
36.50 f
37-4 9
58.44 ^'
41-9''
__ ^^ 110
^7-30 ^^
7-3 t
61.70*°
15.6 '*
61
3
31
20
109
I
38
10
18.7
37.11
37-1
58.75 ,„
43-9
'8-39 ,„,
7-2
62.08
14.6
28.7
37.68 57
37-3 ,
59.04 '
«-8 ^
'9-43 '°^
20.39 L
7-7 '
62.45 ^I
I4.I 5
Aug. 7.6
382 1 ]l
38.0 7
59.30 ^^
47.5 '^
8.8"
62.79 34
14.0 '
17.6
3867 \l
39-3 \\
41.1
59.54 \\
49.0 5
21.24 '^
T I
10.4 '*
"^ T
63.09 3«
14.4 I
27.6
39.06 l^
59-75 ''
50.3 3
21.95 ;'
"•5 "
63-34 ^^
15.3 ,:
31
21
17
II
56
24
21
13
Sept. 6.6
39.37 ,,
^^3-2 ,^
5992 ,^
51-4 g
52.2 °
22.51
H-9 „
6355 ,
63.71 '*
16.6 ,
18.2 '^
16.5
22
39-59 ,
45-6 ^*
60.05 ^
22.90 '^^
»7-6 '^
26.5
12
39-71 "
483 ^
60.14 9
52.8 ^
20
23.10
20.5 ^9
63.81 'O
20.1 ^9
Oct. 6.5
39-73 ,
5'-' 8
60.20 ^
53.1 f
23-10
22.92
35
"3-5 Z
63.86 5
22.2 ^'
16.4
39-66 7
15
53-9 ,^
60.22 ^
0
53-2 ;
^^•5 ^8
63.86 "
5
^ - ^ 22
24.4
22
26.4
39-51 „
56-^ ,.
60.22
53.1 _
22.57 ^^
29-3 ,^
63.81
26.6
Nov. 5.4
39-28 ^3
59-0 ^4
60.19 ^
52.9
22.05 L
31-8 '
6373 *
28.7''
15.4
38.98 1°
61.1 *'
60.14 5
52.5 ;
00
21.39
34.0
63.61 "
30.7 :^
25.3
38.63 li
62.8 '7
60.07 g
52.0 I
20.62 ''
19-77 «^
35.7 ^
6346 5
32.4 \\
I^. 5.3
38.25 3'
40
64.0 -
59.99
^'•4 \
36.8 '
^330 :j
33.7 ^
10
15.3
37-^5 dl
64.6
7
5990
50.8
50.2 J
18.86
0 ?
37.3 ,
^3" ,8
62.94 ^
62.76 '^
34.7 .
35.3 _
25-3
37-44 ^
64.7
59-80 °
17.93 ;^
37-2 ^
35-2
37.03 "*
64.2 ^
59-70 '«
49.5 ^
17.02 ^
36.5 ^
35.4
Sec 5. Tan ^
2.401 -2.183
1. 000 +0.025
4.710 -4.603
1.363 -0.925
Mean Place
32V892 68".63
56-.538 28''.44
ii*.823 39".20
59'.227 42".40
DV a. D« a
0.00 +0.15
0.00 0.00
-o.oi +0.31
0.00 40.06
D*«.D«d
40.4 +0.1
40.4 40. 1
+0.4 40.I
+0.4 +0.1
19
13 19
r
Bpb 13]
290
APPARENT PLACES OP STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.2
I0.2
20. 2
30.2
Feb. 9.1
19.1
Mar. I.I
II. I
21.0
31.0
Apr. lo.o
19.9
29.9
May 9.9
19.9
29.8
June 8.8
18.8
28.8
July 8.7
18.7
28.7
Aug. 7.6
17.6
27.6
vSept. 6.6
16.5
26.5
Oct. 6.5
16.5
26.4
Nov. 5.4
15.4
253
Dec. 5.3
15.3
25.3
35-2
Sec (5, Tan d
Mean Place
D V a, Dw a
12 Ceti.
Mag. 6.0
Right
Ascension.
h m
o 25
35.81
35.71
35.61
35.52
35.45
35-39
35.35
35-34
35.36
35.42
10
10
9
7
6
4
I
2
6
10
35.66 ^
35.85 '^
36.07
36.32
22
36.60
36.90
37.22
37.55
37.87
38.18
38.48
38.75
38.99
39.20
39.37
39.51
39.61
39.67
39.70
39.70
39.67
39.62
39.55
39.47
39.38
39.28
39.18
25
28
30
32
33
32
31
30
27
24
21
17
14
10
6
3
o
3
5
7
8
9
10
10
Declina-
tion S.
-425
ff
79.1
79.6
80.1
80.4
80.6
80.6
80.5
80.1
79.5
78.7
77.6
76.3
74.7
73.0
71. 1
69.0
66.9
64.8
62.7
60.6
58.7
57.0
55.5
54.2
53.2
52.4
52.0
51.8
51.8
52.0
52.5
53.1
53.7
54.4
55.2
55-9
56.6
57.2
5
5
3
3
o
I
4
6
8
II
13
16
17
19
21
21
21
21
21
19
17
15
13
10
8
4
2
o
2
5
6
6
7
8
7
7
6
1.003
35'.947
-0.078
76".33
0.00
40.4
+0.01
+0.1
18 Ceti.
Mag. 5.2
Right
Ascension.
h m
o 30
s
46.06
45.96
45.86
45.77
45.69
10
10
9
8
45.62
45.58
45.57
45.59
45.64
4
I
2
5
10
45.88 ]l
46.06 '^
46.27
46.52
46.80
47.10
47.42
47.75
48.07
21
25
28
30
32
33
32
31
48.38
48.68 ^^
48.96 "°
49.21
49.42
28
25
21
18
49.60
49-74
49-84
49.91
49-94
49.94
49.92
49.88
49.82
49.74
49-65
49.55
49.45
14
10
7
3
o
2
4
6
8
9
10
10
Declina-
tion S.
-43
/*
80.1
80.7
81.2
81.6
81.8
81.8
81.7
81.3
80.7
79.9
78.9
77.6
76.1
74.3
72.4
70.4
68.3
66.1
64.0
62.0
6
5
4
2
o
I
4
6
8
10
13
15
18
19
20
21
22
21
20
19
18
60.1
58.3
56.8 ^5
55.5 ''
54.4
53.7
53.2
53.0
53.0
53.2
53.6
54.2
54.8
55.5
56.3
57.0
57.7
58.3
II
7
5
2
o
2
4
6
6
7
8
7
6
1.003 -0.071
46'. 167 77".72
0.00 0.00
40.4 -K). I
[Eph I3l
C Cassiopeia^.
Mag. 3.7
Right
Ascension.
h m
o 32
9
6.15
5.90
5.65
5.41
5.20
25
25
24
21
18
5.02
4.89
4.81
4.80
4.85
4.98
5.18
5.44
5.76
6.13
6.55
7.00
7.47
7.94
8.41
13
8
I
5
13
20
26
32
37
42
45
47
47
47
45
8.86
9.28 ^^
9.67 ^^
O.OI
0.31
39
34
30
24
19
0.55
0.74
0.88 '^
0.96 ^
0.99 ^
0.97
0.90
0.79
0.64
0.46
0.25
0.02
9.77
7
II
15
18
21
23
25
Declina-
tion N.
+ 5324
//
81.7
81.3 ^
80.4 9
79.0
77.3
14
17
21
75.2
72.9^3
70.5 '^
68.1 ^^
65.8 ^3
21
61.9'^
60.4^5
59-3
58.7
II
6
I
58.6
59.0
59.9
61.2^^
63.0 >»
21
65.1
67.5 '^
70.3
28
30
73.3 ,^
76.4 II
32
79.6
82.9 3^
86.1 3^
89.2 3^
29
92.1
94.8
97.3
99.5
27
25
22
ioi.3^«
102.6 ^l
8
103.4
103.8
103.7
4
I
1.678 +1.347
7*.076 65 ".7 1
0.00
+0.4
-0.09
■♦0.1
TT Andron
Mag. ^
Right
Ascension.
0.00
40.4
h m
0 32
s
13.31
13.17
H
13.02
15
12.88
14
12.76
12
10
12.66
12.59
7
12.56
3
12.57
I
12.62
6
II
12.73
12.89
16
20
13.09
13.34
25
13.63
29
33
13.96
14.31
35
14.67
36
15.04
37
36
15.40
35
15.75
16.08
66
16.39
31
16.66
27
16.89
23
20
17.09
16
17.25
17.36
ii
Q
17.44
0
17.48
4
0
17.48
^
17.45
3
17.39
17-31
0
10
17.21
12
17.09
16.96
U
16.82
H
1. 196
13*.829 2
APPARENT PLACES OP STAES, 1913.
291
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.2
I0.2
20.2
30.2
Feb. 9.1
19.1
Mar. I.I
II. I
21.0
310
Apr. 1 0.0
19.9
29.9
May 9.9
19.9
29.8
June 8.8
18.8
28.8
July 8.7
18.7
28.7
Aug. 7.6
17.6
27.6
Sept. 6.6
16.5
26.5
Oct. 6.5
16.5
26.4
Nov. 5.4
15.4
253
Dec. 5.3
15.3
25.3
35.2
Mean Place
8 Andromedae.
Mag. 4.5
Right
Ascension.
h m
o 33
56.85
56.72
56.59
56.46
56.35
56.25
56.18
56.15
56.16
56.22
13
13
13
II
10
7
3
I
6
10
15
56.32
5^-^7 ,^
56.66 '9
56.90 II
57.18 '^
31
57.49 _ .
57.83 ^t
58.18 35
58.54 \l
58.89 35
34
59.23
59.55
59.85 ^_
60.12 ^7
60.35 ^^
32
30
60.54
60.69
60.80
60.88
60.92
60.93
60.90
60.85
60.78
60.69
60.58
60.46
60.33
19
15
II
8
4
I
3
5
7
9
II
12
13
I>eclina<
tion N.
+ 2850
t*
31.4
30.7
29.8
28.7
27.4
26.0
24.5
23.0
21.7
20.6
19.7
19.0
18.7
18.8
19.3
20.1
21.2
22.7
24.5
26.5
28.7
31. 1
33.5
36.0
38.4
7
9
II
13
14
15
15
13
II
9
7
3
I
5
8
II
15
18
20
22
24
24
25
24
24
23
21
19
40.8
43.1
45.2
48.8 '7
15
50.3
51.5
52.5
53.2
53.6
12
10
7
4
I
53.7
53.5
53.0
2
5
1. 142
57'-295
-K>-55i
22".26
0.00
+0.4
-0.04
40.I
6 Andiomedae.
Mag. 3.5
Right
Ascension.
h m
o 34
39^88
39.75 .,
39.61
39.48
39.36
14
13
12
9
3927
39.20
39.16
39.17
39.23
39.33
39.48
39.68
39.92
40.20
7
4
I
6
10
15
20
24
28
32
40.52
40.86 34
41.21 35
41.57
41.93
36
36
35
42.28
42.61
43.18 7
43.41 ^
33
30
43.60
43.76
43.88
43.96
44.00
44.01
43.98
43.93
43.86
43.76
43.65
43.53
43.40
19
16
12
8
4
I
3
5
7
10
II
12
13
Declina-
tion N.
+ 3023
ft
J 5-4 ,
147 ;
13.8 9
12.7 "
11.3 '*
15
9.8
8.3 '5
6.8 '5
5.4'*
4.2
3.2
2.5
2.1
2.1
2.5
12
10
7
4
o
4
7
II
3.2
5.8 '5
7.5^^
9.5'^
22
II.7
14.I '^
16.6 ^5
19.I '5
21.6 ^5
24
24.0
26.3
28.5
30.5
32.3
33.9
35.2
36.3
37.1
37.6
37.7
37.5
37.1
23
22
20
18
16
13
II
8
5
I
2
4
I-I59
40".340
+0.586
5"-70
0.00 -0.04
40.4 -Hi. 2
lEph 13]
a Cas8iopei».
Var. 2.2-2.8
Right
Ascension.
h m
o 35
8
32.76
32.48
32.20
31.94
31.71
31.51
31.36
31.27
31.24
31.29
28
28
26
23
20
15
9
3
5
12
20
31.41
31.61
31.88 ^7
32.22 34
32.61
39
43
33.04
33.51
34.00
34.50
34.99
35.47
35.92
36.33
36.70
37.01
37.27
37.48
37.63
37.72
37.75
37.73
37.66
37.54
37.38
37.18
36.95
36.70
36.43
47
49
50
49
48
45
41
37
31
26
21
15
9
3
2
7
12
16
20
23
25
27
Declina-
tion N.
+ 56 3
//
54.1
53.7
52.8
51.5
49.8 \\
4
9
13
47.7
45.4
43.0
40.5
38.1
35.9
33.9
32.3
31. 1
30.4
30.1
30.3
31. 1
32.3
34.0
36.1
38.5
41.2
44.1
47.3
50.6
53.9
57.2
60.4
63.4
66.3
68.9
71.2
73.1
74.5
75.5
76.0
76.0
21
23
24
25
24
22
20
16
12
7
3
2
8
12
17
21
24
27
29
32
33
33
33
32
30
29
26
23
19
14
10
5
o
/i Phoenicls.
Mag. 4.6
Right
Ascension.
1. 791
33j725^
+0.01
40.4
+1.486
37".32
-o. 10
40.2
h m
o 37
8
3.42
3.22
3.02
2.84
2.68
20
20
18
16
14
2.54
2.44
2.38
2.37
2.40
2.49
2.63
2.82
3.07
3.36
10
6
I
3
9
14
19
25
29
34
37
39
41
3.70
4.07
4.46
5.28 ^'
41
6.08 39
6.44^^
6.77
7.05
33
28
7.29
7.47
7.59
7.66
7.68
24
18
12
7
2
4
7.64
7.55
7.43
7.28 '\
7.10 '«
20
6.90
A p,^ 20
0.70
A ^r. 21
6.49
9
12
Declina-
tion S.
-46 33
//
61.3
61.2 '
60.6 ^
59.5 _^
58.0 ^5
19
56.1
51.2
48.3
45.2
29
31
32
42.0
38.7
35.4
32.2
29.1
26.2
23.5
21. 1
19.2
17.7
16.7
16.1
16.0
16.5
17.4
33
33
32
31
29
27
24
19
15
10
6
I
5
9
13
17
21
18.7
20.4
22.5
24.8 ^3
27.2
29.6
31.9
34.0
35.9
37.4
38.5
39.2
39.4
24
24
23
21
19
15
II
7
2
1.455 -1.056
I2*.926 46".i7
0.00
+0.4
+0.07
+0.2
292
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.3
10.2
20.2
30.2
Feb. 9.1
1 9. 1
Mar. I . I
II. I
21.0
31.0
Apr. 1 0.0
20.0
29.9
May 9.9
19.9
29.8
June 8.8
18.8
28.8
July 8.7
18.7
28.7
Aug. 7.6
17.6
27.6
Sept. 6.6
16.5
26.5
Oct. 6.5
16.5
26.4
Nov. 5.4
15.4
25-3
Dec. 5.3
15-3
25.3
35.2
Sec <5, Tan 5
Mean Place
/?Cett.
Mag. 2.2
D'^ a, Dw a
o Cas8iopei».
Mag. 4.7
Right
AKcnsion.
h m
o 39
s
3.49
3.26
315
306
II
12
II
9
8
6
2
I
4
8
13
17
21
25
28
31
32
33
33
33
5.69
6.00^*
6.29 ^^
6.78
2.98
2.92
2.90
2.91
2.95
303
3.16
3-33
3.54
3.79
4.07
4.38
4.70
5.03
5.36
23
19
6.97
7.12
7-23
731
7.35
7-35
7-33
7.28
7.21
7.12
7.02
6.91
6.79
15
II
8
4
o
2
5
7
9
10
1 1
12
Declina-
tion S.
-18 27
57.1
57.5
57-7
57.6
57.2
56.6
55-7
54.5
53.1
51.4
49-5
47-4
45-2
42.9
40.5
38.0
35.6
33.3
31. 1
29.1
4
2
I
4
6
9
12
14
17
19
21
22
23
24
25
24
23
22
20
17
Risht
Ascension.
27.4
26.0 '^
25.0
24.3
23.9
239
24.2
24.8
25.7
26.8
28.0
293
30.6
31.8
32.9
33-9
34-7
35-3
3
6
9
1 1
12
13
13
12
1 1
10
8
6
1.054 -0.334
i3'-394 5o".02
h m
o 39
51^58
51.37
5116
50.96
50.78
21
21
20
18
16
Declina-
tion N.
+4748
tr
50.62
5050
50.43
50.42
50.47
12
7
I
5
10
17
23
29
50.57
50.74
50.97
51.26
^ 38
5^98 ^^
52.38 ^°
52.80 ^'
53-23 ^'^
53.66 ^3
42
54.08
54.48
54.84
55.16
55-44
0.00
+0.4
40.02
+0.2
55.68
55.87
56.01
56.10
56.15
56.15
56.11
56.03
55.92
55.78
55-61
55.42
55.21
40
36
3-
28
24
45.3
44.9
44.0
42.7
41. 1
,39.2
'37-1
34-9
32.8
i30.7
28.8
27.2
25.9
25.0
24.6
24.7
25.2
26.1
27-4
29.1
31.2
33-7
36.4
39.2
42.1
>9
14
9
5
o
4
8
1 1
14
17
19
21
4
9
13
16
19
21
22
21
21
19
16
13
9
4
I
5
9
13
17
21
25
27
28
29
30
45.1
48.2 3'
51.2 3°
56.8 ^7
25
59.3
61.5
63.4
65.0
66.2
66.9
67.2
67.1
22
19
16
12
7
3
1
1.489 +1.103
52'.29i 3o".35
fO.OI
+0.4
-0.07
+0.2
[Eph 13]
21 CMslopein.
Mag. 5.6
Right
Ascension.
h m
o 39
s
50.80
50.09
49-39
48.72
48.11
71
70
67
61
52
Declina-
tion N.
+ 7430
tt
47.18^'
46.89 ^9
46.75
46.77
46.94
47.27
47.74
48.34
49-05
14
2
17
33
47
60
71
79
86
49.84
51.60 9^
52.52 ^^
53-43
91
88
54.31
55.14
55.90
56.58
57.17
57.65
58.02
58.27
58.41
58.42
58.32
58.11
57.78
57-35
56.83
56.24
55.59
54.90
83
76
68
59
48
37
25
14
I
10
21
33
43
52
59
65
69
65.9
659
65-3
64.2
62.5
i 60.4
;57.9
i55-i
52.2
49-3
46.5
43-9
141.6
39.7
38.3
37.4
37.0
37.2
37.9
39-2
40.9
43.1
45.7
48.7
52.0
o
6
II
17
21
25
38
29
29
28
26
23
19
14
9
4
2
7
13
17
22
26
30
33
35
36
55.5
62.8 37
66.6 38
70.3 37
35
73.8
77-^ li
80.1 3^
82.7 '^
84.8
31
16
86.4
87-4
87-9
10
5
3.746 +3.610
52".886 45".79
C Aadromedie.
Mag. 4.3
Right
Ascension.
Declina
tion N.
h m
o 42
43.13
43.00
42.88
42.76
42.65
42.56
42.49
42.46
42.46
42.50
42.59
42.73
42.91
43.14
43.40
43.70
44.02
44.36
44.71
45.05
45.38
45.70
46.00
46.26
46.49
46.69
46.85
46.97
47.06
47.11
47.13
47.12
47.08
47.02
46.94
46.84
46.73
46.62
»3
12
12
II
7
3
o
4
9
14
18
23
36
30
32
34
35
34
33
32
30
26
23
20
16
12
9
5
2
4
6
8
10
II
II
+ 23 4
»/
46.5
45.8
450
44.0
42.9
41.7
40.5
39.3
38.2
37.4
36.8
36.4
36.4
36.7
37.3
38.3
39.6
41. 1
42.9
44.9
47.1
49.3
51.6
53.9
56.1
58.3
60.3
62.1
j 63.7
!65.2
!
I 66.4
67.4
68.1
68.6
68.8
68.8
68.6
68.1
i(
i:
II
i
(
c
1
V
IC
2(
2i
2:
2-
2^
21
2(
I!
i:
i(
1.093 +0.441
43'.448 38".66
+0.02
+0.4
-0.24
+0.2
aoo
40.4
-0.03
-K>.2
APPAEENT PLACES OF STARS, 1913.
293
FOR THE UPPER TRANSIT AT WASHINGTON.
t} CassiopeisB.
(^ Pisolnm.
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.
tion N.
Ascension.
tion S.
Ascension.
tions.
h m
0 /
h ra
0
/
h m
0 /
h m
0 t
0 43
+ 5721
m 0
0 44
+ 7
6
0 45
-7523
0 48
- I 36
If
Jan. 0.3
48*82
48-54 '!
W W
36.1 ,
9*89 ,„
44.5
6
mm
36-36 \\
67-3 ,
s
33.59 ,^
59-7 ,
60.3 J
60.9 *
10.2
35-8 3
9-79 °
43.9
66.6 7
33.49 , ,
20.2
48.25 ''
35-1 1
9.68 "
43.2
7
35-61 "
^5-3 \l
33.38 "
30.2
47.97 'J
33.8 3
9-58
42.5
7
34-91 \^
34-29
53
63-4 J
33.28 «J
61.3 \
Feb. 9.1
47.72 ^^
3-» !^
9-49 ^
41.9
0
5
^'•° X
33.19 g
61.6 3
I
19. 1
47-51
30.1
9-4» -
41.4
A
33-76
58-2
33.11 ^
33.05
61.7
Mar. I.I
47-34
27.8 *3
9.36 5
41.0
4
<9
33-33 „
55-0 3"
16
61.7 "
II. I
47.23 "
25-4 t
9-33 I
40.7
3
V
33-01 3
5'-5„
33.02 ^
61.5 ^'
21.0
47-19 T
22.Q ^
9-33 .
40.6
I
T
32.82 '9
47-« ?o
33.02
61. 1 1
60.5 <*
31.0
47.23 .:
2°-4 \\
9-37 „
40.7
I
32.75 !
43-9 ,„
33.06 ^
12
23
9
4
7
39
8
9
Apr. lo.o
47-35 ,„
18.1
946 ,,
41. 1
X
32.82
40-0 ,a
33.14 _
59-6
20.0
47-54 !'
16.0"'
9.59 \\
41.7
0
33-03 ,
36.2 38
33.26 "
58.5 "
29.9
47.81 ^J
H-3 ''
9-76 '^
42.6
9
33-37 ,,
32-5 "
16
3342 ,°
57-» :^
May 9.9
48.15 f^
13.0 '3
9-97 :
43.8
12
33-83 JJ
34-4^ 69
28.9 36
33-62 -
10
55-5 ,8
53-7 '!
20
19.9
^«-55 ::
12. 1 ^
4
,0.21 J
45.2
'4
16
25.6 33
29
33-86 |4
29.8
48.99 ,«
II.7
10-49 „
46.8
18
35-10
22.7
34.13
S"^ ,
June 8.8
49-47 t.
II.8 '
12.4 ,,
10.79 ^,
48.6
35-87 "
20.2 ^
34.42 ;
49-7 °
18.8
49-98 5'
II. II 3^
50.5
19
36.72 »5
18.I ^^
34-73 ^
47-6 ^'
28.8
50.50 5^
13.5
"-43 f.
52.5
20
37.62 9°
^^•5 lo
"^2
35.05 ,,
45.5 :
July 8.7
51.01 5'
'5-^ ^
"-76"
54.6
21
3854 '
^5-5 '\
35.38 33
43.4 ''
50
20
32
21
92
4
32
20
18.7
51.51 „
'7'^ ..
12.08
56.7
39.46
15.I
35.70
41.4 «
28.7
51.98^'
^94 ^
12.38 3°
58.7
20
4^-35 ^^
15.3
36.00 3
39.6 .
Aug. T,y
52-42 "z
22.0
12.66 '*
60.6
19
4^-^9;t
16.0 7
36.28 '°
38.0 ^^
17.6
52.81 39
24.9 :'
12.91 \\
62.3
17
4'-9^ Vf.
17.2 _
3654 '!
36.6 '4
27.6
53.15 5^
28.0 3'
32
'3-^3 :;
63.8
15
14
42.62 ^^
53
10. 0
22
36.77 \\
35.4 ^:
9
Sept. 6.6
53-43 „
31-2
'3-32 .
65.2
43.15 ._
21.2
36.96
34.5 .
16.5
53-66 \\
34-5 :^
13.48 !
66.3
II
43-55 \^
^3-8 ''
37.11 |5
6
33.9
26.5
5383 ;
37-8 33
13.60 '^
I3.6§ \
67.2
9
43.80 '5
26.7 '9
37-23
33.5 "^
Oct. 6.5
53-94 "
54.00 °
0
41.0 3*
^ W
67.9
7
43.89 ^
29.7 ^°
37.32 \
T
33.4 1
16.5
44-' ^0
29
13.73 ^
68.3
4
2
43.82 7
22
32.7 3^
30
37.37 2
33.5 _
26.4
54.00
53.94 '
47-0
13.75 ,
68.5
43.60
35-7 «
37.39
33-8
Nov. 5.4
49-7 I
13.74 .
68.5
0
43.23 ^^ 38.5 n 37.39 °
34-2 '^
15-4
25.4
53.83
53.68 5
52-' ^0
55.7 ::
13.71 ^
13.66 5
68.4
68.2
I
2
42.74 ^ 40.9 '^
41.45,;, 44.4 I
74 9
37.36 ^
37.31 5
34-8 ^
35-5 !
I>ec. 5.3
53.49 '^
23
13.59 ^ 67.8
4
5
37.24 \
36.2 7
15.3
25.3
53.00 J
56.8
57-4 ^
13.51 ,^ 67.3
13.41 ^ 66.7
6
6
25
40.71 ^g 45.3 _
39.93 ;^ 45.6 ^
37-^^ ,^
37.06 'I
36-9 ,
37-6 I
35-2
52.73 ^
57-4 °
13.31 ' 66.1
1.008 +0.1:
39.14^^,45.3 ^
3.966 -3.838
36.96 "^
38-2 ^
Sec^,Tan^
1.854 +1.561
1. 000 -0.028
Mean Place
49'.737 i8".74
io*.03i 42".47
34'.854 48". 1 7
33'.6i9 58".84
D> a, D» a
+0.01 -0. 10
0.00 -O.OI
-0.02 +0.26
0.00 0.00
D^^.D.^
40.4
+0.2 1
+0.4
+0.2
1
+0.4
+0.2
+0.4
+0.2
lEph 13]
294
APPAEENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.3
10.2
20.2
30.2
Feb. 9.1
19.1
Mar. I.I
II. I
21.0
310
Apr. 1 0.0
20.0
29.9
May 9.9
19.9
29.8
June 8.8
18.8
28.8
July 8.7
18.7
28.7
Aug. T.j
17.6
27.6
Sept. 6.6
16.5
26.5
Oct. 6.5
16.5
26.4
Nov. 5.4
15.4
25.4
Dec. 5.3
15-3
25.3
35.2
y Cassiopeiie.
Mag. 2.2
Right
Ascension.
h
O
m
51
s
2592
25.60 ^^
25.27 ^^
'42
24.95 ^_
24.66 ^\
26
24.40 ,^
20
24.20
24.06 *^
24.00
2
10
Sec (J, Tan (5
Mean Place
24.02
24.12
24.31
24.58
24.92
25.33
25.80
26.31
26.84
27.38
27.93
28.46
28.97
29.44
29.87
30.24
30-56
30.82
31.01
31.14
31.20
31.20
31.15
31.04
30.87
30.66
30.41
30.12
29.81
19
27
34
41
47
51
53
54
55
53
51
47
43
37
32
26
19
13
6
o
5
II
17
21
25
29
31
Declina-
tion N.
+ 60 14
^11
63.2
62.6
61.4
59.8
57.9
55.6
53.1
50.6
48.0
45.6
43-4
41.6
40.1
39.1
38.5
38.4
38.9
39.8
41.2
I
6
12
16
19
23
25
25
26
24
22
18
15
10
6
I
5
9
18
22
26
29
43.0
45.2
47.8
50.7
53.8^'
32
570
60.3
63.7
67.1
70.4
33
34
34
33
30
73.4
76.2
78.8
81.0
82.7
84.0
84.8
85.0
28
26
22
17
13
8
2.015 +1-749
26».840 45".09
2> V a, Du a
+0.01
+0.4
-0.1 1
^0.2
/< Andiomedae.
Mag. 3.9
Right Declina-
Ascension. tion N.
h
O
m
51
54.74
54.58
54.41
54.25
54.10
53.97
53.87
53.81
53.80
53.83
16
17
16
15
13
10
6
I
3
9
53.92
54.06 "4
54.25 '^
54.50
54.79
25
29
33
35
37
39
55.12
55-47
55.84
56.23
56.62 39
37
56.99 ,,
57.35 5^
57.68 33
57.98 30
58.25
58.48
58.67
58.81
58.91
58.98
59.01
59.00
58.96
58.89
58.79
58.67
58.53
58.38
27
23
19
14
10
7
3
10
12
15
+ 38
//
52.2
51.8
51.0
49.9
48.5
46.9
45.2
43.4
41.7
40.1
38.7
37.5
36.7
36.2
36.1
36.4
37.2
38.3
39.7
41.5
43.6
45.9
48.3
50.9
53.5
4
8
II
14
16
17
18
17
16
14
12
8
5
I
3
8
II
14
18
21
23
24
26
26
27
26
26
56.2
58.8
61.4
63-8 W
66.0
68.0
69.8
71.3
72.5
73.4
73.9
74-0
73-8
22
20
18
J5
12
9
5
I
2
1.269 +0.782
55". 1 75 39"-55
0.00
+0.4
OL Scnlptoiia.
Mag. 4.4
Right
Ascension.
h m
o 54
14
s
25.14
25.00
24.86 ^^
24.73 *^
24.60 ^3
II
24.49
24.41
24.36
24.34
24.36
24.43
24.54
24.70
24.90
25.14
8
5
2
2
II
16
20
24
28
31
25.42
25.73
26.06 33
26.41 35
26.76
35
35
27.11
27.44
27.75
28.04
28.29
33
31
29
25
22
28.51
28.68 '7
28.81 '3
28.90
28.95
28.96
28.93
28.87
28.79
28.69
28.57
28.44
28.30
3
6
8
10
12
13
14
Declina-
tion S.
-2949
//
49.6
50.0
50.0
49.6
48.8
47.7
46.3
44.6
42.6
40.3
37.8
35.2
32.4
29.6
26.8
4
o
4
8
II
14
17
30
23
25
26
28
28
28
28
26
25
22
24.0
21.4
8.9
6.7
^•^16
3.2
2.0
1.3
I.O
I.I
1.6
2.5
3.7
5-2
6.9
18.7
20.5
22.3
24.0
25.5
26.7
27.6
28.2
12
7
3
I
5
9
12
15
17
18
18
18
17
15
12
9
6
1. 153
24".8o8
-0.573
39".57
f Piscium.
Mag. 4.4
Right j Dcdina-
Ascension. [ tion N.
h m
o 58
:+ T^^
s
25.53
25.43
25.32
25.21
25.11
25.02
24.95
24.91
24.90
24.93
25.00
25.11
25.27
25.47
25.70
10
II
II
10
9
7
4
I
3
7
II
16
20
23
27
30
31
32
25.97
26.27
26.58
26.90
27.23 33
32
27.55 .,
27.86 3»
28.15 '9
28.41
28.64
26
23
20
28.84
29.01
29.14
29.24
29.30
29.33
29.34
29.32
29.28
29.22
29.14
29.05
28.95
17
13
10
6
I
2
4
6
8
9
10
//
21.7
21. 1
20.5
19.8
19.2
18.7
18.3
18.0
17.9
18.0
18.3
18.9
19.8
20.9
22.2
23.8
25.6
27.5
29.5
31.5
33-5
35.5
37.4
39.1
40.7
42.0
43.1
44.0
44.7
45.2
45.4
45.4
45.3
45.1
44.7
44.2
43.7
43.1
6
6
7
6
5
4
3
I
I
3
6
9
II
13
16
iS
19
30
ao
30
30
19
17
16
X3
II
9
7
S
3
0
I
2
4
5
5
6
-0.05
+0.2 \
0.00
+0.4
-K>.04
+0.2
1.008 40.130
25'.585 I9".0^
aoo
'K>.4
-aoi
-K).3
APPAEENT PLACES OF STARS, 1913
295
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
fi PhoBniois.
Mag. 3.4
Jan. 0.3
10.2
20.2
30.2
Feb. 9.2
19.1
Mar. I.I
II. I
21.0
31.0
Apr. lo.o
20.0
29.9
May 9.9
19.9
29.9
June 8.8
18.8
28.8
July 8.7
18.7
28.7
Aug. 7.7
17.6
27.6
Sept. 6.6
16.6
26.5
Oct. 6.5
16.5
26.4
Nov. 5.4
15.4
25.4
Dec. 5.3
15.3
25-3
35.3
Right
Ascension.
h
I
s
2.80
2.59
2.37
2.16
1.97
I.81
1.67
1.57
1.52
1.56
1.66
1.82
2.03
2.29
2.60
2.95
3.33
3.73
4.14
ra
2
21
22
21
19
16
14
10
5
I
5
10
16
21
26
31
35
38
40
41
41
4-55
5-33
5-68 35
5.99^
6.25
6.46
6.62
6.72
6.77
6.76
6.71
6.61
6.47
6.31
6.12
591
570
26
21
16
10
5
I
5
10
14
16
"9
21
21
Declina-
tions.
-47 10
//
79.4
79.6
79.2
78.4
77.1
75.3
73.1
70.6
67.8
64.8
61.6
58.3
54.9
51.5
48.2
2
4
8
13
18
22
25
28
30
32
33
34
34
33
31
28
45.1
42.3
39.8 !!
37.6
35.9
22
17
13
34-6
33.8
33.5
33.8
34.6
35.8
37.4
39.4
41-7
44.2
46.7
49.2
51.5
53.6
55.4
56.8
57.7
58.2
8
3
3
8
12
16
20
23
25
25
25
23
21
18
14
9
5
p. Cassiopeiae.
Mag. 5.3
Right
Ascension.
h
I
s
27.69
27.45
27.20
26.95
26.72
26.51
26.34
26.23
26.18
26.20
26.29
26.45
26.69
27.00
27.36
m
2
24
25
25
23
21
17
II
5
2
9
16
24
31
36
41
27.77
28.22 ^\
28.70 ^^
29.19
29.69
49
50
49
Seed, Tan «
Mean Place
1.472
1 2 '.087
-1.079
65".20
D'^a, D«« a -o.oi 40.07
D^ ^, D* ^ +0.4 +0.3
47
30.18
30-65
31.08 ^^
31.48 ^°
31.84
36
31
32.15
32.41
32.61
32.76
32.86
32.91
32.90
32.85
32.75
32.61
32.43
32.22
31.99
26
20
15
10
5
I
5
10
14
18
21
23
Declina-
tion N.
+ 5429
//
56.0
55.9
55.3
54.3 _.
52.8 ^5
I
6
10
50.9
48.8
46.5
44.1
41.7
19
21
23
24
24
22
20
39.5
37.5
34.4 *
33.4
10
5
32.9
32.9
33.4
34.3
35.6
37.4
39.5
41.9
44.5
47.4
50.4
53.5
56.6
59.7
62.7
65.5
68.1
70.4
72.3
73.9
75.1
75.8
75.9
o
5
9
13
18
21
24
26
29
30
31
31
31
30
28
26
23
19
16
12
7
I
f} Ceti.
Mag. 3.6
Right
Ascension.
1.722 +1.402
28«.327 38".75
+0.01 -0.09
+0.4 40.3
[Eph 13)
h
I
s
2.95
2.84
2.73
2.62
2.51
2.42
2.35
2.30
2.29
2.31
m
4
11
II
II
II
9
7
5
I
2
6
10
14
2.37
2.47
2.61
2.80 '9
22
328
3.88 3'
4.20 ^
33
32
4-53
4.85
5.16
5.45
5.72
5.96
6.17
6.34
6.47
6.57
6.64
6.67
6.68
6.66
6.61
6.55
6.47
6.37
6.27
31
29
27
24
21
17
13
10
7
3
I
2
5
6
8
10
10
1.018
I2*.792
Declina-
tion S.
-1038
tt
0.00
+0.4
38.7
39.3
39.7
39.9
39.9
39.7
39.3
38.6
37.6
36.4
35.0
33.4
31.6
29.6
27.4
6
4
2
o
2
4
7
10
12
14
16
18
20
22
23
25.1
22.8 ^^
20.6
18.4
16.3
22
22
21
19
14.4
12.8
1 1.4
10.3
9.5
9.0
8.9
9.1
9.5
10.2
II. I
12.0
13.0
I4.I
I5.I
16.I
17.0
17.7
16
14
II
8
5
I
2
4
7
9
9
10
II
10
10
9
7
P Aadromedae.
Mag. 2.4
Right
Ascension.
-0.188
35".20
40.0I
-K).3
15
16
h m
I 4
s
51.06
50.91
50.75 __
50.60 ^5
IS
50.45 ^
13
50.32
50.22
50.15
50.12
50.14
50.21
50.33
50.51
50.74
51.01
10
7
3
2
7
12
18
23
27
31
51.32
51.66 34
52.02 ^
37
38
37
36
33
30
27
24
20
16
12
8
5
I
2
6
8
10
12
14
52.39
52.77
53.14
5350
5383
54.13
54.40
54-64
54.84
55.00
55-12
55.20
55.25
55.26
55.24
55.18
55.10
55.00
54.88
54.74
Declina-
tion N.
-+-35 9
//
46.5
46.2
45.5
44.5
43.2
41.8
40.3
38.7
37.1
35.6
34.3
33.3
32.6
32.2
32.2
32.5
33.2
34.3
35.7
37.4
3
7
10
13
14
15
16
16
15
13
10
7
4
o
3
7
II
14
17
20
22
23
24
39.4
41.6
43.9
46.3 ..
48.8 ^5
25
51.3
53.7
56.1
58.3
60.4
62.3
63.9
65.3
66.4
67.2
67.7
67.9
67.7
24
24
22
21
19
16
14
II
8
5
2
2
1.223 +0.704
5 1 '359 34 "-34
+0.01
+0.4
-0.05
+0.3
296 APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.3
10.2
20.2
30.2
Feb. 9.2
19.1
Mar. I.I
II. I
21. 1
310
Apr. 1 0.0
20.0
29.9
May 9.9
19.9
29.9
June 8.8
18.8
28.8
July 8.8
18.7
28.7
Aug. -7.-7
17.6
27.6
Sept. 6.6
16.6
26.5
Oct. 6.5
16.5
26.5
Nov. 5.4
154
25.4
Dec. 5.3
15.3
25.3
35«3
Sec (5, Tan d
Mean Place
D'^ a, Dm a
D^ 6, Dm ^
t Piscimn.
Mag. 4.7
Right
Ascension.
h
I
51.68
51.55
51.41
51.27
51.13
51.01
50.92
50.86
50.83
50.85
ni
6
13
14
14
14
12
9
6
3
2
6
12
17
21
26
29
51.96
52.28 32
52.63 ^^
52.99
53.35
50.91
51.03
51.20
51.41
51.67
36
36
35
34
32
53.70
54.04
54.36
54.66 3^
54.92
26
23
55.15
55-34
55.49
5561
55.69
55.74
55.76
55.74
55.70
55.63
55.54
55-43
55.30
»9
15
12
8
5
4
7
9
II
13
Declina-
tion N.
+ 2937
n
51.4
51.0
50.3
49.4
48.3
47.0
45.7
44.3
43.0
41.8
40.8
40.1
39.7
39.6
39.8
40.4
41.3
42.5
44.0
45.8
4
7
9
II
13
13
14
13
12
10
7
4
I
2
6
9
12
15
18
20
22
22
23
47.8
50.0
52.2
54-5 ,,
56.8 ^3
23
59.1
61.3
63-4
65.3
67.1
22
21
19
18
16
68.7
70.0
71. 1
71.9
72.5
72.8
72.8
72.6
13
II
8
6
3
o
2
1.150 +0.569
5 1 ".902 4o".88
0.00
+0.4
-0.04
+0.3
C Piscivm.
Mag. 5.6
Right
Ascension.
h
I
s
1.08
0.98
0.87
0.76
0.65
0.56
0.48
0.43
0.41
0.43
0.49
0.59
0.74
0.93
1. 16
1.42
1.70
2.01
2.33
2.66
ni
9
10
II
II
II
9
8
5
2
2
6
10
15
19
23
26
28
31
32
33
33
31
29
2.99
3.30
3.86 ^7
4.10^^
21
4.31
4.49
4.63
4.74
4.81
4.86
4.88
4.87
4.84
4.78
4.71
4.63
4.53
18
14
II
7
5
2
I
3
6
7
8
10
Declina-
tion N.
+ 76
tt
59.0
58.4
57.7
57.1
56.6
56.1
55.7
55.4
55.3
55.4
55.8
56.4
57.2
58.3
59.6
61.2
62.9
64.8
66.8
68.8
70.8
72.8
74.6
76.3
77.8
79.1
80.2
81. 1
81.7
82.1
82.3
82.3
82.2
81.9
81.6
81. 1
80.5
79.9
7
6
5
5
4
3
I
I
4
6
8
II
13
16
17
19
20
20
20
20
18
17
15
13
II
9
6
4
2
o
I
3
3
5
6
6
1.008 +0.125
1 1 ".070 56".03
0.00 -0.01
+0.4 +0.3
(Eph 13]
K TuoanfB.
Mag. 5.0
Right
Ascension.
h
I
m
12
8
51.12
50.58
50.05
49.54
49.07
48.65
48.29
48.00
47.80
47.69
47.67
47.75
47.94
48.23
48.61
49.07
49.61
50.21
50.85
51.52
54
53
51
47
42
36
29
20
II
2
8
19
29
38
46
54
60
64
67
69
68
65
60
52.21
52.89
53.54
54.14
54.68 54
46
55.14
55.51
55-77
55.92
55.97
37
26
15
5
7
55.90
55.73
55.46
55."
54-69
54.21
53.69
53.16
17
27
35
42
48
52
53
Declina-
tion S.
-69 19
//
95.2
95.0
94.2
92.9
91.0
88.6
85.8
82.6
79.1
75.5
71.7
67.8
64.0
60.3
56.8
53-6
50.8
48.3
46.3
44.8
43.9
43.6
43.8
44.6
46.0
47.9
50.2
52.8
55.7
58.7
61.8
64.7
67.3
69.6
71.5
72.9
73.7
74.0
2
8
13
19
24
28
32
35
36
38
39
38
37
35
32
28
25
20
15
9
3
2
8
14
19
23
26
29
30
31
29
26
23
19
14
8
3
2.834
49'- 151
-2.652
77".78
-0.02
+0.4
+0.18
+0.3
ypisoiniii.
Mag. 5.3
Right Dedina-
Ascension, i tion N.
h m
I 13
s
8.69
8.59
8.48
8.37
8.26
8.17
8.09
8.03
8.01
8.03
8.08
8.18
8.32
8.50
8.72
10
II
II
II
9
8
6
2
2
5
10
14
18
22
26
8.98
9.26
9.56
9.88 3^
32
28
30
20.20
20.52
20.83
21.13
21.40
21.64
32
31
30
27
24
31
18
21.85
22.03
22.18 "5
22.29
22.37
II
8
5
22.42
22.44
22.43
22.40
22.35
22.28
22.19
22.09
2
I
3
5
7
9
10
+ 39
tt
25.3
24.7
24.1
23.6
23.1
22.8
22.6
22.5
22.6
23.0
23.6
24.4
25.5
26.8
28.3
30.0
31.9
33.9
35-9
37.9
6
6
5
5
3
2
I
I
4
6
8
II
13
15
17
19
20
20
20
20
41-8 ^\
43.6
45.2
46.5
47.6
48.5
49.1
49-5
49.7
49.7
49.5
49.1
48.6
48.1
47.5
46.8
46.2
16
13
II
9
6
4
2
o
2
4
5
5
6
7
6
1. 001 +O.Q55
i8«.6i8 23".65
0.00
+0.4
0.00
+0.3
APPARENT PLACES OF STARS, 1913.
297
FOR THE UPPER TRANSIT AT WASHINGTON.
V Pigoiunu
tf Oeti.
(^ Casslopete.
Y Plioeniols.
Mean Solar
Mag. 4.7
Mag. 3.8
Mag. 2.8
Mag. 3.4
Date.
Risht
Decfina-
Right
DecHna-
Right
Dcclina-
Right
Declina-
Aacenaioa.
tkmN.
Aaccnsion.
tkmS.
Aicensioa.
UonN.
Ascension.
tion S.
h m
0 #
h m
0 /
b in
0 /
h m
0 /
1 14
-f 2648
* 0
I 19
-837
00
I 20
+ 5946
§ §
I 24
-43 45
Jan. 0.3
a
40.72
9 w
35-3 ,
a
40.68
57-4 ,
58-0 \
6.30
w w
79-9 ,
8
36.09 ,„
62.6
10.3
40.59 ,1
34-9 \
34-3 „
40.57 Jl
5-993
80.2 3
35-89 °
63-0 4
20.2
40.46 \\
40.46
58.5 \
5-67 ^
79-9 \
79-1 »
35-68 '
62.9 '
30.2
40.32 \
33-4 ,0
40.34 , ,
58.8 3
5-35 5
35-48 °
62.4 5
Feb. 9.2
40.19 ^
12
32.4 '
II
40.23 "
10
58.9 1
5-45;
■^^•'^ W
35-29 J
61.4 '"^
14
19.1
40.07
3^-3 ,,
40.13 ^
58.8
476 „
762 ,„
35-" ,,
60.0
Mar. I.I
39.98 I
30.1
40.04 \
39.98 ^
58.5 ^
57-9 0
57-^ ,0
4-53
4-35 , ,
74-2 °
34-96 5
58-1 '9
II. I
39.91 I
28-9
7'-9 i
34-84''
3476
22
53.3 ,8
21. 1
39.88 ^
^7-7 "
39.95 ;
4-24"
69-5 ^t
31.0
39.89 \
26.7 '°
39.96 \
56.1 °
4-21 3
67.0 ^5
34-72 \
5
8
4
13
5
34
2
30
Apr. 1 0.0
39.94,,
25.9 6
25-3 ,
40.00
54.8 „
4.26
V 4
64.6
34-74 ,
47-5 „
20.0
40.05 ^^
40.09 ^
53-3 5
4.40 ^
62.4 "
34-81 ^
12
44-3^
It
300
25.0 ^
40.22 ^
5^-6 !
4-62 "
60.4'°
34-93 ,0
41.0 ^;|
May 9.9
20
40.41 ^^
25.0
40.39 '^
49-7 ^
4.92 3°
58-7
35.11
37.7
34.4 '^^
32
19.9
40.66 ""l
^ 28
25.3 ^
40.60^'
25
47-6 -
5.29 JJ
57.4 'J
35.34 ^]
29.9
40.94 __
^5-9 ,„
40.85 ^^
45-4 „
6.20 48
56.6
35.61
31.2
June 8.8
41-25 _
26.9 °
41.12^7
22
43-2 „
56.2 4
35.92 ^
28-3 ''
18.8
41.58^^
28.2 '3
41.42 ^^
41.0 "
6.72 5^
56-3 '
36.27 ^^
^5-6 I
28.8
41.93 ^^
29-7 w
41.74^
38.8 "
7.26 54
56-9 ,^
36.64 37
'3-2 ^
July 8.8
42.29 ^^
18
42.06 32
367 \\
7.81 55
58-0
37.03 _
21.2 '°
35
20
32
«9
55
15
39
»5
18.7
42.64
33.5 ,,
42.38 ^,
34-8
8-36 ^^
59-5 ,„
37.42 ^^
19-7 „
28.7
42.97 ^^
35-6 ^
42.69 ^'
33-1 ^
8.89 53
61-4 ^
37.81 39
18.6 "
Aug. 7,-7
43.29 \
37.7 ^
42.99 ^g
43.27 'J
3X.6 5,
9-39 f°
9«5 1^
66.2*^
69-0 f
38.18 37
18,0 *
^7-7
43.59 ^.
43.85 '^
-^ rv 22
39.9 ,,
30-4 •'
38.53 ^l
18.0 °
27.6
22
42.1
43.52 ^
29-5 !
10.27
38.843'
»8-5 ,^
23
22
21
6
37
30
27
10
Sept. 6.6
44-^...
44-3 ,^
43.73 ,^
28.9
10.64
72-0
39." _
19.5 _ .
16.6
44.28 ^^
46.3 '^
43.92 ^
28.7 '
10.95 1'
75-2^!
39.34 \
20.9 :
26.5
44-44 '
^^•^ \\
44.07 5
28.8 '
2<
11.20 ^
78.4 f.
39.52'^ 22.7^^
Oct. 6.5
44.56 'I
5^-^ S
44.18 '\
44.26
29.1 3
11.39 J^
81.733
39.65^^ 24.8^
39.73 , ' 27.1 J
16.5
44.65 ^
51.6 '^
29.6 \
11.52 ^
^4-9 ^'
6
14
5
8
7
30
3 25
26.5
44.71
53.0
44.31 30.4 _
"•59
^7-9 ,„
39.76 29.6
Nov. 5.4
44.73 ,
54-2 '!
44.33 ^ 31.3 ,!
11.60
90.8^9
39.74 , 32.1 ^^
39.68 J 34-5^1
15.4
44.72 55.1 ^
44-33 .
32.3 „
"•55 „' 93-5 !1
25.4
44.69 ^ 55.8 I
44.30 ^
44.24 ^
^^•^ 0
11.28 '*
21
95' „
39-58 ^ ; 36.7 \\
Dec. 5.4
44.63 g
56-3 \
34.4 '^
97.8"
39.45 ,^
3«-7 -
15.3
44.55 ,^
56.5 ^
44.17 ^
35.3 ^
"•^oc
99.3 , ,
39-29 ,.
40-3 ,,
253
44.45 , ,
56-5 ^
44.08 ^
36.2 \
10.82 ^5
100.4 .
lOI.O
41-5 '\
35.3
44-34
56.2 3
11
43.97 37.0
10.53 _
38.91 '°
42.2 7
Sec 6, Tan 6
1. 120 +0.505
1.012 -0.152
1.987
+I.7I7
1.385 -0.958
Mean Place
40'.856 25".45
40V453
0.00
55".i9
6V84I
+0.02
6l".io
35". 284 50". 10
D'^ a, Dm a
0.00 -0.03
+0.01
-0.1 1
-0.0 1 -K>.o6
D^ 6, Dm d
+0.4
+0.3 1
+0.4
+0.3
40.4
-K>.3
+0.4
+0.4
lEph i3l
298
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.3
10.3
20.2
30-2
Feb. 9.2
19.1
Mar. I.I
II. I
21. 1
310
Apr. 1 0.0
20.0
30.0
May 9.9
19.9
29.9
June 8.8
18.8
28.8
July 8.8
18.7
28.7
Aug. T^j
17.7
27.6
Sept. 6.6
16.6
26.5
Oct. 6.5
16.5
26.5
Nov. 5.4
15.4
25.4
Dec. 5.4
25.3
35.3
Sec ^, Tan (5
Mean Place
D V a, Dm a
D^r ^, Dm d
38 CasslopeiflB.
Mag. 6.0
Right
Ascennoti.
h m
I 24
s
4338 ,^
42.88 5^
42.37 ^'
41.85
41.35
52
50
45
40.90
40.51
40.21
40.01
39.92
39.95
40.11
40.39
40.78
41.27
41.85
42.50
43.20
43.94
44.69
45.44
46.17
46.86
47.50
48.08
39
30
20
9
3
16
28
39
49
58
65
70
74
75
75
73
69
64
58
51
48.59
49.03
49.39 ^,
49.66 ^7
49.83
44
36
17
8
49.91
49.90
49.80
49.61
49.34
48.99
48.58
48.11
I
10
19
27
35
41
47
Dedma-
tion N.
+ 6948
//
83.1
83.6
83.6
83.0
81.9
80.2
78.1
75.7
73.1
70.4
67.7
65.1
62.7 ^^
60.6
58.9
5
o
6
II
17
21
24
26
27
27
26
21
17
13
57.6
56.8
56.5
56.8
57.6
58.8
60.5
62.7
65.2
68.0
71. 1
74.4
77.8 3^
81.3^5
84.8 35
35
88.3
91.6 33
97.4
99.8 !1
8
3
3
8
12
17
22
25
28
31
33
IOI.8
103.2
1 04. 1
20
14
9
2.900 +2.722
44". 152 62 ".48
+0.03
+0.4
-0.18
+0.4
7 Pisoiiun.
Mag. 3.7
Right
Ascension.
h m
I 26
8
49.56
49-45
49.33
49.21
49.09
48.98
48.89
48.82
48.79
48.79
48.83
48.92
49.05
49.23
49.45
49.71
50.00
50.31
50.63
50.96
51.29
51.61
51.92
52.20
52.46
Declina-
tion N.
+ 1453
ti
II
12
12
12
II
9
7
3
o
4
9
13
18
22
26
29
31
32
33
33
32
31
28
26
23
20
16
52.69
52.89
53.05
53.18 3
53.28 ^^
53.35
53.38
53.39
53.37
53.33
53.27
53.19
53.09
3
I
2
4
6
8
10
57.8
57-3
56.7
56.0
55.3
54.6
53.9
53.3
52.8
52.4
52.2
52.3
52.7
53.4
54.3
5
6
7
7
7
7
6
5
4
2
4
7
9
II
55.4
58.4 '^
60.2
62.0
18
18
19
20
20
63.9
65.9
69.8 '9
7'-5 ;^
14
73-1
74.5 „
76.9
77.8
78.4
78.9
79.2
79.3
79.3
9
6
5
3
I
o
79.1
78.8 3
78.3 ^
I 035 +0.266
tt
49.512 5i'^59
0.00 -0.02
+0.4 +0.4
[Eph 13]
40 CastiopeifB.
Mag. 5.5
V Aiidronie<Ue<
Mag. 4.2
Right
Ascension.
h
I
m
31
s
31.62
31.04
30.43
29.81
29.21
58
61
62
60
55
47
28.66
28.19
27.82 37
27.56 ^^
I ■*
27.43 \
27.44
27.58
27.87
28.29
28.83
29.47
30.19
30.98
31.81
32.66
14
29
42
54
64
72
79
83
85
85
83
80
33.51
34.34
35.14
35.88 74
36.56
37.16
37.67
38.09
38.41
38.63
38.74
38.74
38.63
38.42
38.11
37.71
37.23
36.69
68
60
51
42
32
22
II
II
21
31
40
48
54
Declina-
tion N.
1+72 35
//
71.0
71.7
71.8
71.3
70.3
68.7
66.7
64.3
61.7
58.9
56.1
53.4
50.9
48.7
46.9
45.5
44.5
44.1
44.2
44.8
45.9
47.4
^^•^ 2A
51.8 ^^
54.6
7
I
5
10
16
20
24
26
28
28
27
25
22
18
14
10
4
I
6
II
15
20
28
31
57.7
61.0
64.4
67.9
71.5
33
34
35
36
35
34
75.0
78.4 ,,
81.6 32
87.1 ^^
21
89.2
90.8
91.8
16
10
3.344 +3.191
32'.375 49".85
+0.03
+0.4
-0.20
+0.4
Right
Ascension.
h
I
m
31
8
40.96
40.79
40.61
40.43
40.25
40.08
39.94
39.83
39.76
39.74
39.78
39.88
40.04
40.25
40.51
40.82
41.16
41.53
41.92
42.32
17
18
18
18
17
14
II
7
2
4
10
16
21
26
31
34
37
39
40
40
42.72
43.11
43.48
43.82 34
39
37
44.14
32
28
44.42
44.66 ^^
44.86
20
17
12
8
45.03
45.15
45.23
45.27
45.27
45.24
45.18
45.08
44.95 ,,
44.80 ^5
4
o
3
6
10
13
Declina-
tion K.
+ 40 58
//
29.1
29.1
28.7
27.9
26.8
o
4
8
XI
13
16
17
17
25.5
23.9
22.2
20.5
18.8 '7
16
17.2
15.8 '♦
14.6 ^^
13-2
9
5
I
I3-I
13-4
14.0
15.0
16.4
3
6
10
14
16
19
22
23
18.0
19.9
22.1
24.4
26.8 ^*
25
29.3
31.8 ^5
34.3 '^
36.8 ^5
39.1 ^^
22
41.3
43-3
45.0
46.5
47.7
48.6
49.1
49.3
20
17
15
12
9
5
3
1.324 +0.868
41 •.107 I4".55
+0.01
+0.4
-0.06
+0.4
APPARENT PLACES OF STARS, 1913
299
FOR THE UPPER TRANSIT AT WASHINGTON.
ft Piscium.
V Pcrsci.
a Sridani.
a; Catsiopeise.
Mean Solar
Mag. 5.6
Mag. 3.8
Mag. 0.6
Mag. 5.5
Date.
Right
Declina-
Right
Declina-
Right ' Declina-
Right
Declina-
.. — -
Ascension.
Ii m
tion N
•
tion N.
Aacen«(»n. : tion S.
Ascension.
tion N.
0
/
h m
0 /
h m I ® '
1
h m « '
I 32
-f II 41
I 32
+ 48 II
I 34 :-57 40
I 35 +67 36
Jan. 0.3
s
29.16
53.8
3^-47 ^^
32.6
29.88 57.7
s
52.30
33.1 ^
10.3
2905 , ,
53.3
5
6
6
38.27 ^
32.7 .
29.56 ^
58.0 ^
51.87 «
0
33.7 ,
20.2
28.94 "
52.7
38.05 \\
32-4 I
31.6 **
29.24 ,,
57.8 '
51.42 7^
33-8 \
30.2
28.82 "
52.1
37.83 "
28.92 ^^
57.0 !
50.96 f
33-3 5
1 Feb. 9.2
28.70 '*
n
51.4
7
6
37-^^ 0
20
28.61 -5'
28
55-7 ;^
50.51 J^
32.2 _^
19.2
=^^•59 ,„
50.8
37.41 ,,
29.1
28.33 ,,
53.9 ,,
50.09
49.73 f
30.7
Mar. I.I
28.49 '°
50.3
5
37.24 ;^
^7-4 I
28.08 ^5
51.7 "
28.8 '9
II. I
28.42 ' 49.8
5
37-11 \
25.5 '
27.88 "^
49.0 ^7
49.44 ,
26.5 ^3
21. 1
28.38 \
49.4
4
37-03
^3-4 0
27.73 '^
46.0 3°
20
49.24 ,„
^^•9 26
310
28.37
49.3
I
37.00 \
"•4 Z
27.64 ^
42.7 •'^
49.14
4!
I
3
•9
3
35
I
26
Apr. lo.o
28.41 o;49-4
28.49 '49-7
37.03 ,^
17.7
27.61
39-2 ,^
35.6 ^;
49.15 ,,
'8-7 ,,
20.0
3
37.13 ^
27.65 \
49.28 '3
16.1 '^
30.0
28.62 ^ 50.2
5
0
37.30 ';
16.2 '-^
^7^7^ "
31.9^1
49.51 ,,
13.7 '*
May 9-9
28.79 '7 51.0
8
37.53 V"
15.0 '^
27.94 ^'
28.3 ^'^
49.85 \\
11.7^°
19.9
2900 . 52.0
[O
37.82 ^^
14.2 \
28.18 ^-^
24.8 35
50.28 43
lO.O ''
25 1
13
34
5
31
34
52
«3
29.9
29.25 . 53.3 .
29.53 ': 1 54.8
38.16
38.54 f
13-7 ,
28.49 ,,
^'•4 ,,
50.80
8-7 8
7-9 :
June 8.9
'5
13-6 '
28.86 ^7
18.3 3'
51.39 5'
18.8
29.83 ^° i 56.5
17
[8
38.95 ^;
140 \
29.27 ^!
'5-5 !
52.03 *
52.70 J^
7.5 t
28.8
30.15 ^''58.3
39.38 ^^
29.72 ^^
'3-' \t
7.7 ^
July 8.8
30.48 ^^60.2
19
39.82 \\
1 6.0
30.19^^
II.2'9
53.39 V
8.4 '
33 ; ^
'9
43
'5
48
'4
69
II
18.7
30.81 62.1
40.25
'7-5 .„
30.67 ^^
9-8 «
54-08
54.76 ^«
9-5.6
II. I
28.7
31.13 ^^164.0 1
19
40.68 ^^
19.4 "
31.16 f
9.0 «
.\ug. J.J
31-43 ^_ '65.9
19
. 0
41.09^'
^'•5 !
3^-^3 ^^
8.7 3
55-4' t
»3-^ Z
^17
31.72 ? 67.7
31.98'^ 69.3 '
[8
[6
41.47 ,,
^3-9 ^
32.07 2^
9.0 \
56.02 ^'
15.5 t
27.6
41.82 ^5
26.5 ^*
32.47 :
9.8 «
18.2 '7
23 ]
t5
31
27
35
«4
49
30
Sept. 6.6
32.21 '70.8
42.13
29.2
32.82
II.2 „
57.07
21.2
16.6
1
32.41 ^° 72.1 \
13
27
42.40 ^;
3'-9!^
33.12^^
13.0 ;
57.50 «
24.4 f,
26.6
32.58 ;|73.2
[ I
42.62 "
34-7 ''
33.35 '^
15-3 "l
57.85 ^x
27.7 "
Oct. 6.5
32.71 Xi74.^
9
42.80 '^
37.4 ''
33.51 '^
17.9 '\
58- '3 !
3'-' '1
16.5
32.81 ^^ 74.7
6
4
42.93 ^
21
40.1 '
33.61 '^
28
^°-7 ,8
58.33 z
^^•^ X
26.5
32.88 75.1
43.02
42.7
33.63
23.5 ,„
58.44 ,
37.9 „
Xov. 5.4
32.92 ^.75-4
3
43.06 ^
45.1 '^
33.58 /
^6-4 «
58.47 ^
4'-' '0
15-4
32.94 " 75-5
I
43.06 ^ 47.2 ^'
33.47 "
28
29.2 ^
58.42 5
44' ^8
4^-9 ^
254
32.93 ' 75.5
0
43.02 ^ 49-1 ;
33.31 ;
3'-7 :,
58.29 ^^
Dec. 5.4
32.89 ^ 75.3
2
3
42.94 ^^ ! 50.6 ^5
22
33.09 ^,
22
33.9 ^^
5^-^ ^8
49-3 :;
15-3
32.83 75.0
42.82 ,51.8
32.83
35.6 ^
57.80
5'-2 .,
253
32.75 ,^74.6
4
42.66 ^\ 52.6 ^
42.48 '« 53.0 ^
32.54 ^
36.8 '^
57-45 ^^
5^-7 0
35-3
32.65 ;74.I
5
32.23 3'
37-5 ^
57.05 ^°
53.7 '°
Sec*, Tan <5
1.02 1 +0.20
7
1.500 -ri.118
1.870 -1.581
2.625
+2.427
Mean Place
29*.044
0.00
48".48
38V686 i6".o4
28".5o6 42".96
52".8o4 I2".57
D'f a, D» a
-0.0 1
+0.01 -0.07
-o.oi 4o.\o
^o.o>» -OA^
D*a. D--*
+0.4 -¥0.4
+0.4 +0.4 \ +0.4 -vo.^ \ ^K>.\ ^*^A
[
Eph X3l
300
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
y Pisdiun.
^ Persei.
recti.
0 PiBcinm.
Mean Solar
Mag. 4.7
Mag. 4.2
Mag. 3.6
Mag. 4.5
Date.
1
Right 1 Declina- |
Right
Declina-
Right
Declina-
Right DecUn
Ascension. tion N
r.
Ascension.
tion N.
Ascension.
tion S.
Ascension. | tion N
1
h m ' *
/
h m
0 /
h
m
0 /
h m "
I 36
+ 5
2
I 38
+ 5015
I 40
-16 23
mm
I 40
+ 8
m m
Jan. 0.3
s
54-33 .„ 550
6
6
s
11.80
20.4
s
1.98
V ^\
WW
46.9 ,
48.04
W w
17.3
10.3
54-23 °
54.4
"•59"
20.6 ^
1.86
12
47.6 \
47.94 „
.16.7
20.2
54.12 "
53.8
"•36 \\
20.4 ^
1.73
13
48.0 •♦
47.83 "
16.2
30.2
12
54.00
53.3
5
II. 12 ^''
19.7 J
1.60
13
48.2 '
12
47.71 "
15.6
Feb. 9.2
53.89' 52-8
5
10.89 ^^
18.6 "
1.47
13
48.2 °
47.59 \^
15.0
II
4
21
14
12
4
12
19.2
53.78 52-4
10.68
17.2
1.35
47.8
47.47 _
14.5
Mar. I.I
53-68 '^
52.1
3
10.49 ;;
^5-5 I!
1.24
II
47-1 ;
47.37 '^
I4.I
II. I
53-61 I
52.0
I
10.34 ^
»3-6 ''
1. 15
9
46.2 9
47.30 7
13.8
21. 1
53-57 ;
52.0
0
10
10.24 '
11.6 ^**
1.09
6
0^
• - „ 12
45-0
47.25 f
13.6
31.0
5356 '
52.2
2
10.20 ^
95"
1.06
3
43.5 '5
47.24 \
13.6
3
5
3
20
2
>7
3
Apr. 1 0.0
53-59 ,
52.7
am
10.23
7-5 ,0
1.08
6 -^^-^-l
47.27 ,
13.9
20.0
53-66 7
53.4
7
'^•33 ,
5-^ ^
1. 14
0
39-9
47.34 ,:
14.3
30.0
53-78 -
53-94 '
54-3
9
X6
IO-49 „
1.24
10
22
37-7 "
47.46 "
47.62 '^
15.0
May 9.9
55.4
I I
10.72 3
2.6 '^
1.39
15
35-4 i
15.9
19.9
20
54.14
56.8
14
1 1. 01 "9
1.58
19
33.0 ^''
47.82 ^^
I7.I
24
16
34
6
23
25
24
29.9
54-38
58.4
"•35 ,„
I.O
1.81
26
30.5 „
48.06
18.5
June 8.9
54.65 [I
60.1
17
11-74^9
0.8 ^
2.07
28.0 '5
4«-33 'i
20.1
18.8
54.95 z.
62.0
19
12.16 -^^
I.I 3
2.36
29
=^5-6 \\
48.63 3^
21.9
28.8
55.26 1\
63.9
19
12.60 **
1.8 7
2.67
31
23-2 w
48.94 ^'
23.7
July 8.8
55.58 32
65.9
20
13.06 46
2.99
32
21.0 "
49.26 3^
25.6
32
19
45
14
32
20
33
18.7
55.90^,
67.8
^3-51 ^
X\^'
3.31
d% ^
19.0
49.59 _
27.5
28.7
56.22 3^
69.7
19
. 0
13-95 *:
3.63
32
17.3 !
49.91 \^
29.4
Aug. 7.7
56.52 11
56.80 ll
57.06 ^^
71.5
18
16
14
'4-38 «
8.2"
3.93
30
1 #^
16.0 '3
50.22 ^
31.2
17.7
27.6
73.1
74.5
14.78 '^°
15-.5"
10.5 '3
»3-o ^J
4.22
4.48
29
26
« .. .^ 10
15.0
14.3 \
50-5I ^^
5°-77 't
32.9
34.4
23
12
33
27
23
3
23
Sept. 6.6
5729 ,^
75-7
'576
^5-7 j8
'«-5
"•3 .8
^'^-^ 28
4.71
•%^v
14.0
51.00
35.8
16.6
20
57-49 ,,
76.6
9
4.91
20
14. 1 '
51-21 \\
36.9
26.6
57-66 11
77.3
7
16.00 ^*
5.08
17
14.5 \
51-38 ^
37.8
Oct. 6.5
57-80 4
77.8
5
I6.I9 '^
5.21
13
^5-3 '
51-52 t
38.5
16.5
10
57.90
78.1
3
16.34 5
5.31
10
^^•3 :
51.63 "
38.9
7
0
10
27
7
12
8
26.5
57.97 ^
78.1
16.44 ^
29-6 ,^
5.38
^7-5 ,,
51.71 .
39-2
Nov. 5.4
58.01 I
78.0
I
16.49 \
32-1 5
5.41
3
18.8 '3
51.76 5
39.3
154
58.03 ^
77-7
3
16.49 ,
34-3 "
5.41
0
20.2 ^
51-78 '
39.2
254
58.02 '
77.3
4
16.45 \
36.3 °
5.38
3
21.6 '4
51-78 \
390
Dec. 5.4
57.99 ^
76.8
5
6
16.37 38-0 '7
13 13
5-33
5
7
23.0 '*
12
51.75 \
38.7
153
57-94 n
57.86 I
76.2
16.24 i 39.3
16.08 '^ 40.2 9
5.26
24-2 ,,
51.69 ,
38.3
253
75.7
5
6
5.16
10
V T
25.3 ^
51.62 7
37.8
35.3
57.77 ^
75.1
15.89 '9; 40-7 ^
5.05
I I
26.2 ^
51.53 ' 37.2
Sec d, Tan d
1 .004 +0.088
1.564 +1.202
i.<
342 -0.294
I.OI3 -to.!
Mean Place
54M38 5 1 ".83
0.00 -0.0 1
ii'.986 3".25
I'v
548 42 ".92
47'.8S6 ""-7
D'^ a, Dca a
+0.01 -0.07
0.00 +0.02
0.00 -0.0
/V '^t Dud 1 ■H>.4 +0.4
+0.4 +0.4 1 +0.
4 -K>.4
■KX4 ■to.4
VEpVi i3\
APPAKENT PLACES OF STARS, 1913.
301
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
€ SoulplOllB.
Mag. 5.4
Right I Dcdiaa-
Aacension. tion S.
m
Jan. 0.3
10.3
20.2
30.2
Feb. 9.2
19.2
Mar. I.I
II. I
21. 1
31-1
Apr. 1 0.0
20.0
30.0
May 9.9
19.9
29.9
June 8.9
18.8
28.8
July 8.8
18.8
28.7
Aug. j.j
17.7
27.6
Sept. 6.6
16.6
26.6
Oct. 6.5
16.5
26.5
Nov. 5.5
15.4
T. 25.4
Dec. 5-4
15.3
25.3
35.3
I 41
8
3464
34.50
3436
34.21
34.07
33-94
33.82
33.72
33.65
33.62
33.63
33.69
33.79
33.94
34.14
Sec5,Tand
Mean Place
14
14
15
14
13
12
10
7
3
I
6
10
»5
20
33
27
30
34.37
34.64
34.94 _2
35.26 32
35.59 ^^
34
35.93 ,,
36.26 33
36.58 3"
36.88 3°
37.16 ^
37.41
37.62
37.79
37.93
3803
38.10
38.13
38.12
38.08
38.02
37.94
37.83
37.70
28
25
21
17
14
10
7
3
I
4
6
8
II
13
-25 28
It
797
80.5
80.9
80.9
80.6
80.0
79.0
77-7
76.0
74.1
71.9
69.5
66.9
64.2
61.5
58.7
56.0
53.4
50.9
48.7
46.8
45-3
44.2
43.4
43.1
43.3
43.8
44.7
46.0
47.5
49.2
51.0
52.9
54.7
56.4
57.9
59.1
60.0
8
4
o
3
6
10
13
17
19
22
24
26
27
27
28
27
26
25
22
19
15
II
8
3
2
5
9
13
15
17
18
19
18
17
15
12
9
C Oett.
Mag. 3.9
Right I Dcclina-
Ascension. tion S.
1. 108 -0.477
34V072 73".o4
-O.OI
40.4
40.03
+0.4
h m
I 47
s
10.35
10.24
10.12
10.00
9.87
II
12
12
13
12
9.75
9.64
9.56
9.50
9.48
II
8
6
2
I
6
10
9.49
9.55
9.65
9.80 '5
9-99 '^
22
0.21 ,
^ -« 26
^•47 ^^
0.76 ^9
1.06 3^
1.38 3^
32
1.70
■^i
2.01 ^
2.32 3^
2.61 ^9
2.88 ^7
24
3.12
3.33
3.50
3.64
3.75
21
17
14
II
8
3.83
3.88
3.89
3.88
3.84
3.78
3.70
3.60
5
I
I
4
6
8
10
-1045
//
53.7
54.4
55.0
55.4
55.5
55.4
55.0
54.4
53.5
52.4
51.0
49.4
47.6
45.6
43.5
41.2
38.9
36.6
34.4
32.2
30.2
28.5
27.0
25.8
25.0
24.5
24.3
24.4
24.9
25.6
26.5
27.6
28.8
30.0
31.2
32.3
33.3
34.2
7
6
4
I
I
4
6
9
II
14
16
18
20
21
23
23
23
22
22
20
17
15
12
8
5
2
I
5
7
9
II
12
12
12
II
10
9
1.018 -0.190
9'.943 5 1 ".88
ot Triangoli.
Mag. 3.6
Right
Aaoension.
12
h m
I 48
8
7.16
7.04
6.90'^
6.75 ^^
6.60 '5
14
6.46
6.34
6.24
6.17
6.15
12
10
7
2
2
6.17
6.24
6.37
6.54
6.76
7
13
17
22
26
30
33
7.02
7.32
7.65
8.00^5
8.35 g
8.71
9.06 35
9.40 34
9.72
10.02
32
30
27
10.29
10.52
10.72
10.88
1 1. 01
23
20
16
13
10
11. 11
II. 18
II.2I
II.2I
II. 18 3
6
11. 12
11.03
10.92
II
Declina-
tion N.
+ 29 9
tt
31. 1
30.9
30.5
29.8
29.0
28.0
26.9
25.7
24.5
23.4
22.5
21.7
21.2
20.9
20.9
21.2
21.9
22.9
24.1
25.5
27.2
29.1
31. 1
33.1
35.1
37.2
39.2
41. 1
42.9
44.5
46.0
47.3
48.4
49.3
50.0
50.5
50.7
50.6
2
4
7
8
10
II
12
12
II
9
8
5
3
o
3
7
10
12
14
17
19
20
20
20
21
20
19
18
16
15
13
II
9
7
5
2
I
f Cassiopeis.
Mag. 3.4
Right
Ascension.
0.00 +0.01
+0.4 40.5
(Bph 13]
I 145
7".092
+0.558
I9".64
40.01
40.4
-0.03
40.5
h m
I 48
8
7.12
6.78
6.42
6.04
5.67
5.32
5.01
4.76
4.58
4.48
4.48
4.57
4.75
5.03
5.39
5.83
6.33
6.87
7.45
8.05
34
36
38
37
35
31
25
18
10
o
9
18
28
36
44
50
54
58
60
61
60
58
54
8.66
9.26
9.84
0.38
0.88 50
45
1.33
1.73
2.07
2.34
2.55
2.69
2.76
2.75
2.68
2.54
2.34
2.08
1.77
40
34
27
21
14
7
I
7
14
20
26
31
Declina-
tion N.
+ 63 14
n
51.8
52.5
52.6
52.2
51.3
49.9
48.1
46.0
43.7
41.2
38.7
36.3
34.1
32.1
30.5
29.2
28.4
28.1
28.2
28.8
29.9
31.4
33.3
35.6
38.1
40.9
43.9
47.1
50.3
53.5
56.7
59.8
62.7
65.3
67.6
69.5
71.0
72.0
7
I
4
9
H
18
21
23
25
25
24
22
20
16
13
8
3
I
6
II
15
19
23
25
28
30
32
32
32
32
31
29
26
23
19
15
10
2.221
7*.349
31
-H.983
".86
+0.02
+0.4
-0.12
+0.5
302
APPABENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.3
10.3
20.2
30.2
Feb. 9.2
19.2
Mar. I.I
II. I
21. 1
Apr. 1 0.0
20.0
30.0
May 9.9
19.9
29.9
June 8.9
18.8
28.8
July 8.8
18.8
28.7
Aug. 7.7
17.7
27.6
Sept. 6.6
16.6
26.6
Oct. 6.5
16.5
26.5
Nov. 5.5
15.4
25.4
Dec. 5.4
15.3
253
35.3
^ Piscinm.
Mag. 4.8
Right
Ascensioii.
h
I
m
49
Sec <5, Tan 6
Mean Place
•
3.29
319
3.08
2.96
2.84
2.72
2.62
2.54
2.48
2.46
2.48
2.54
2.65
2.80
2.99
3.22
3.43
377
4.08
4.40
4.72
5.03
5.34
5.63
5.89
6.13
6.34
6.52
6.67
6.78
6.86
6.92
6.95
6.95
6.92
6.87
6.80
6.71
10
II
12
12
12
10
8
6
2
2
6
II
15
19
23
26
29
31
32
32
31
31
29
26
24
21
18
»5
II
8
6
3
o
3
5
7
9
Declina-
tion N.
+ 245
tt
33.2
32.6
32.0
31.5
311
30.8
30.6
30.6
30.7
31-0
316
32.4
33.4
34.7
36.2
37.8
39.6
41-5
43.5
45.5
6
6
5
4
3
2
o
I
3
6
8
10
13
15
16
18
19
20
20
19
y9 Azietls.
Mag. 2.7
Right
Ascension.
m
47.4
49.3
51.0
52.5
53.8 \\
19
15
54-9
55.7
56.3
56.6
56.7
56.6
56.3
55.9
55.3
54.7
54.1
534
52.7
II
8
6
3
I
I
3
4
6
6
6
7
7
1. 00 1 +0.048
3Voo8 3o".4i
I 49
8
49-97
49.86
49-74
49.61
49.48
49.35
49-23
49.14
49.08
49.06
49.08
49.15
49-27
49-43
49.63
II
12
13
13
13
12
9
6
2
2
7
12
16
20
25
0.00
■K>.4
0.00
40.5
49.88
50.16
50.80 ^^
51.1434
28
31
51.48
51.81
52.13
52.43
52.71
52.97
53-19
53-38
53.54
53.67
53.76
53.82
53.85
53.86
53.84
53.79
53.71
53.61
34
33
32
30
28
26
22
19
16
13
9
6
3
I
2
8
10
Dedina-
UonN.
+ 20 22
n
68.1
67.7
67.2
66.6
65.9
65.1
64.2
63.4
62.7
62.0
61.5
61.3
61.3
61.5
62.0
62.8
63.8
65.1
66.6
68.2
70.0
71.9
73.8
75.7
77.5
79.3
80.9
82.4
83.7
84.8
85.8
86.6
87.2
87.6
87.8
87.9
87.8
87.6
4
5
6
7
8
9
8
7
7
5
2
o
2
5
8
o
3
5
6
8
9
9
9
8
8
6
3
I
8
6
4
2
I
I
2
0 Phoenlois.
Mag. 4.4
Right
Ascension.
1.067
49'.824
+0.372
59".35
h m
I 50
s
10.46
10.24
10.01
9.78
9.55
0.00 -0.02
+0.4 +0.5
lEph 13]
22
23
23
23
22
9.33
9.13
8.97
8.85
8.77
8.74
8.77
8.85
8.99
9.19
9.44
9.73
0.07
0.44
0.83
1.23
1.63
2.02
2.39
2.73
20
16
12
8
3
8
14
20
25
29
34
37
39
40
40
39
37
34
31
26
21
3.04
3.30
3.51
3.68 !7
3.79
II
6
3.85
3.85
3.81
3.73
3.61
o
4
8
12
16
3.26 '9
3.05 ''
Declina-
tion S.
4643
n
55.3
56.0
56.2
55.9
55.1
53.8
52.0
49.8
47.3
44.5
41.4
38.1
34.7
31.3
27.9
24.6
7
2
3
8
13
18
22
25
28
31
33
34
34
34
33
31
21.5
8.6^^
6.0^^
3.8
2.1
0.9
0.2
0.0
0.3
22
17
12
7
2
3
9
1.2
2.6 't
4.4''
6.6
vCetl.
Mag. 4.2
Right I Dedina-
Ascensi<»i. , tion S.
91
21.7
24.4
27.0
29.5
31.7
33.6
35.0
36.0
22
25
26
27
26
25
22
19
14
10
h
I
m
55 I-2I 29
#/
54.90
54.78
54.65
54.51
54-36
54.22
54.10
5400^
53.92
53.88
53.88
53.92
5401
54.14
54.32
54.54
54.80
55.08
55.39
55.71
56.04
56.37
56.69
56.99
57.27
12
13
14
15
14
12
10
8
4
o
4
9
13
18
22
26
28
31
32
33
33
32
30
28
25
1.459
9".387
-1.062
43".53
-o.oi
+0.4
+0.06
+0.5
22
57.52
57-74
57.93 '^
58.08 '5
58.20 "
58.28
58.33
58.34
58.32
58.28
58.21
58.11
58.00
8
5
I
2
4
7
10
II
61. 1
61.9
62.4
62.7
62.6
62.1
61.3
60.2
58.8
57.2
55.3
53.1
50.7
48.2
45.6
43.0
40.3
37.7
35.3
33.0
31.0
29.4
28.1
27.2
26.7
26.6
26.9
27.6
28.6
29.9
31.4
33.1
34.9
36.6
38.2
39.7
41.0
42.0
8
5
3
I
5
8
II
14
16
19
22
24
25
26
26
27
26
24
23
20
16
13
9
5
I
3
7
10
15
17
18
17
16
15
13
10
1.075 -0.394
54*.3I5 56".22
-0.01
+0.3
+0.02
+0.5
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
303
MeanSolar
Date.
Jan. 0.3
10.3
20.2
30.2
Feb. 9.2
19.2
Mar. I.I
II. I
21. 1
Apr. lo.o
20.0
30.0
May 9.9
19.9
29.9
June 8.9
18.8
28.8
July 8.8
18.8
28.7
Aug. -j.j
17.7
27.6
Sept. 6.6
16.6
26.6
Oct. 6.5
16.5
26.5
Nov. 5.5
15.4
25-4
Dec. 5.4
15-3
253
35-3
Sec^.Tan^
Mean Place
60 OaasiopeifB.
Mag. 4. 1
Right
Ascmsioii.
m
I 55
58*56
58.03 53
57-46 57
56.87 5'
56.28 59
56
55.7«
55.22 50
54.81 *'
54-50 '^
54.31 ^
54.25
54.32
54.54
54.89
55.35
55.92
56.59
57.33
58.12
58.95
59.79
60.62
61.42
62.19
62.91
63.56
64.13
64.62
65.02
65.32
65.51
65.60
65.59
65.47
65.24
7
22
35
46
57
67
74
79
83
84
83
80
77
72
65
57
49
40
30
19
9
X
12
23
33
64.91 ^ ,
^•'^ 49
64.01 ^^
Declina-
tion N.
85.9
85.1
+71 59
85.7 '\
86.1 ^
2
8
13
83.8
82.1 ^7
80.0^'
77.5 \\
74.8 '7
27
72.1
^^-^ 26
66.8 ^^
64.5 '^
62.5
60.9
59.7
59.0
58.7
59.0
20
16
12
7
3
3
8
59.8
61.0"
62.7 '7
64.8^'
70.1
73-1 „
76.4 ^^
79.8 34
83.3 JJ
30
86.7
90.1
93.4
96.4
99.1
IOI.4 ^
18
103.2
104.6 '^
34
33
30
27
23
3.237 +3-079
58-.782 63".32
DVa, D«#a I
40.04
40.3
-0.18
40.5
a Hydxi.
Mag. 3.0
Right
Ascension.
h
I
8
3.17
2.79
2.40
2.00
I.6I
1.25
0.92
0.64
0.41
0.24
0.15
0.13
0.19
0.33
0.55
0.85
1. 21
1.63
2.10
2.61
3-14
367
4.19
4.69
5.16
5.58
5.94
6.23
6.44
6.58
6.64
6.61
6.51
6.34
6.10
5.81
5.47
5.10
m
56
38
39
40
39
36
33
28
23
17
9
2
6
14
22
30
36
42
47
51
53
53
52
50
47
42
36
29
21
14
6
3
10
17
24
29
34
37
Declina-
tions.
-6158
ti
6
o
6
12
17
21
26
108.7
109.3
109.3
108.7
107.5
105.8
103.7
lOI.I
98.130
94.8 33
35
87.7 ^^
84.0^7
80.238
76.5 ^^
35
73.0
69.8 32
66.9 ^^
64.4 ""^
62.3^^
60.7
59-7
59.3
59.5
60.2
16
10
4
2
7
13
18
61.5
63.3,,
68.2 ^^
7i.i'9
30
77.1^^
80.0 ^9
82.7^7
85.1 '^
20
87.1
88.6 '5
89.5 ^
2.130 -1.880
i*.3i7 94".6i
-0.02 40.II
40.3 40.5
[Eph i3l
y AndromedflB />f .
Mag. 2.3
Right
Ascension.
h m
I 58
s
33.24
33.09
32.91
32.72
32.53
32.34
32.17
32.04
31.94
31.89
31.89
31.96
32.09
32.27
32.51
15
18
19
J9
19
17
13
10
5
o
7
13
18
24
29
33
36
32.80
33.13
33-49 ,^
33.88 39
34.28 4^
41
34-69
35.09
35.48
35.85
36.19
40
39
37
34
31
36.50
36.78
37-02
37-22
37.38
37.50
37.58
37.63
37.63
37.59
37.52
37.41
37.27
28
24
20
16
12
8
5
o
4
7
II
14
Declina-
tion N.
a Azietit.
Mag. 2.2
Right
Ascension.
+ 41 54
//
61.3
61.5
61.3
60.8
60.0
58.9
57.5
55.9
54-2
52.6
51.0
49.5
48.2
47.2
46.5
46.1
46.1
46.5
47.2
48.3
49.7
51.4
53.3
55-4
57.6
59.9
62.3
64.7
67.1
69-4
71.6
73.6
75.4
77-0
78-4
79.5
80.3
80.7
2
2
5
8
II
4
6
7
6
6
5
3
o
7
4
o
4
7
II
14
17
19
21
22
23
24
24
24
23
22
20
18
16
14
II
8
4
1.344 40.898
33'- 1 78 45 ".99
40.0I
40.3
-0.05
40.5
h
2
s
6.13
6.03
5.90
5.76
5.62
5.48
5.36
5.26
5.19
5.15
5.16
5.22
5.32
5.47
5.67
5-91
6.19
6.50
6.83
7.17
m
2
10
13
14
14
14
12
10
7
4
I
6
10
15
20
24
28
31
33
34
34
34
7.51
7.85 ,,
8.18 33
8.50 3^
8.79 ,^^
27
9.06
9.30 ^4
9.51 ^'
9.68 \\
9.82
14
II
19.93
20.01
20.06
20.07
20.05
20.01
19.94
19.85
8
5
I
2
4
7
9
Declina-
tion N.
+ 23 3
*/
15.4
I5.I
14.7
14.2
13.5
12.7
II.8
10.9
10. X
9.3
8.7
8.3
8.1
8.1
8.4
9.0
9.8
10.9
12.2
13.7
15.4
17.2
19.0
20.9
22.7
24.5
26.2
27.8
29.2
30.5
31.6
32.5
332
33.8
34.2
34.4
34.4
34-3
3
4
5
7
8
9
9
8
8
6
4
2
o
3
6
8
I
3
5
7
8
8
9
8
8
7
6
4
3
I
9
7
6
4
2
o
I
1.087
i5'.924
40.425
5".55
40.0I
40.3
-0.02
40.5
304 APPAKENT PLACES OF STABS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
305
Men Solar
Date.
fJL Ibmaois.
Mag. 5.2
Right
AscensioD.
Jan. 0.3
10.3
20.3
30.2
Feb. 9.2
19.2
Ifar. 1.2
II. I
21. 1
311
Apr. 10.0
20.0
30.0
May 10.0
19.9
29.9
June 8.9
18.9
28.8
Jdy 8.8
18.8
28.7
Aug. 1,*^
17.7
27.7
Sept 6.6
16.6
26.6
Oct. 6.6
26.5
Nov. 5.5
15.4
TV ^5.4
Dec 5.4
15.4
25.3
35.3
Man Place
h
2
8
5.17
503
4.87
4.70
4-53
4.36
4.20
4.07
3-97
3.90
3.87
3.89
396
4.08
4.24
4-45
4.70
4.99
5.30
5.63
5.97
6.31
6.65
6.98
7.28
7.55
7.79
8.00
8.17
8.30
8.39
8.44
8.45
8.43
8.38
8.30
8.19
8.05
m
9
14
16
17
17
17
16
13
10
7
3
2
7
13
16
21
25
29
31
33
34
34
34
33
30
27
24
21
17
13
9
5
I
2
5
8
II
14
Declina-
tions.
-31 7
tt
61.7
62.7
63.2
63.4
63.2
10
5
2
2
7
II
62.5
61.4
60.0 '*
58.3 ''
56.2 ''
53.8
48.4
45.5
42.5
24
26
28
29
30
30
30
28
26
39.5
36.5
33.7
311
28.8 ^3
20
26.8
25.2
24.0
23.3
23.0
16
12
7
3
2
23.2
23.9
250
26.5
28.3
30.3
32.4
34.6
36.8
38.8
40.6
42.2
43.4
7
II
15
18
20
21
22
22
20
18
16
12
1. 168 -0.604
4".355 54".73
DVofD^a I -0.01 -K>.03
D#tf, Dm^ I 40.3 -KJ.5
19 13 20
y Txiangoll.
Mag. 4. 1
Right
Aaccnsion.
Declina-
tion N.
h
2
m
12
8.47
8.35
8.21
8.05
7.88
7.72
7.57
7.44
7.35
7.30
7.29
7-34
7.44
7.59
7.80
8.05
8.34
8.67
9.02
9.38
9.75
0.12
0.48
0.83
1.15
1-45
1.72
1.95
2.15
2.32
2.45
2.54
2.60
2.63
2.62
2.57
2.49
2.39
12
14
16
17
16
15
13
9
5
I
5
10
21
25
29
33
35
36
37
37
36
35
32
30
27
23
20
17
13
9
6
3
I
5
8
10
-f 33 26
//
56.4
56.5
56.3
55.8
55.1
54.2
53.1
519
50.6
49.4
48.2
47.1
46.3
45.7
45.4
45.4
45.7
46.3
47.2
48.4
49.8
51.4
53.2
55.1
57.1
59.1
61. 1
63.1
65.0
66.8
68.5
70.0
71.4
72.6
73.6
74-3
74.8
750
I
2
5
7
9
II
12
13
12
12
II
8
6
3
o
3
6
9
12
14
16
18
19
20
20
20
20
19
18
17
15
H
12
10
7
5
2
67 Oeti.
Mag. 5.7
Right
Ascension.
h
2
m
12
10
12
S
39.08
38.98
38.86
38.73 \\
38.60 *3
13
38.47
38.35
38.25
38.17
38.13
12
10
8
4
I
1. 198
8'.257
•fo.660
43".24
-K).OI -0.04
■K).3 -fo.s
[Bph 13I
38.12
38.15
38.23
38.35
38.52
38.73
38.97
39.24
39.53
39.84
3
8
12
17
21
24
27
29
31
32
40.16
40.47
41.08 3^
41.36 ^«
31
31
41.61
41.83
42.03
42.20
42.34
42.44
42.51
42.55
42.57
42.56
42.52
42.45
42.36
25
22
20
17
14
10
7
4
2
7
9
Declina-
tions.
-648
0 Sridanl.
Mag. 3.8
n
81.3
82.1
82.7
83.2
83.5
83.6
83.4
83.0
82.4
81.5
80.4
79.1
77.6
75.9
73.9
71.8
69.7
67.5
65.3
63.2
61.3
59.5
57.9
56.6
55.6
54.9
54.5
54.4
54.7
55.2
56.0
56.9
57.9
59.0
60.1
61.2
62.2
63.1
8
6
5
3
I
2
4
6
9
II
13
15
17
20
21
21
22
22
21
19
18
16
13
10
7
4
I
3
5
8
9
10
II
II
II
10
9
Right
Ascension.
Declina-
tion S.
h
2
m
13
1.007
38-.57I
-0.120
81 ".69
0.00
■K).3
40.0I
2542
25.16
24.89
24.61
24.33
26
27
28
28
27
25
22
19
24.06
23.81
23.59
23.40
23.26 '^
23.18
23.16
23.20
23.31
23.48
-51 54
t$
64.2
65.1 9
655 \
65.4 !
64.7 7
12
63.5 ,^
61.8 '7
^^ A 22
59-0
57.1
54.2
25
29
32
4
II
17
23
23.71
23.99
24.32
24.69
25.09
25.51
25.94
26.37
26.78
27.17
27.52
27.83
28.09
28.29
28.44
28.53
28.56
28.54
28.46
28.33
28
33
37
40
42
43
43
41
39
35
31
26
20
15
9
3
2
8
13
18
21
28.15
27.94
27.70 ^^
51.0
47.7
44.2
40.6
37.1
33.6
30.3
27.2
24.5
22.2
20.3
18.9
18.I
17.8
18.I
19.0
20.4
22.3
24.6
27.1
33
35
36
35
35
33
31
27
23
19
14
8
3
3
9
14
19
23
25
28
32.8 ^9
^^•7 28
38.5 ""^
41.0^5
ai
43-1
44.8 '7
46.1 '3
I.62I -1.276
23*.99i 52".73
-0.02
■Ki,OT
306
APPARENT PLACES OF STARS, 1913.
1
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.3
10.3
20.3
302
Feb. 9.2
19.2
Mar. 1.2
II. I
21. 1
Apr. lo.o
20.0
30.0
May 1 0.0
19.9
29.9
June 8.9
18.9
28.8
July 8.8
18.8
28.7
Aug. T.y
17.7
27.7
Sept. 6.6
16.6
26.6
Oct. 6.6
16.5
26.5
Nov. 5.5
15.4
254
Dec. 5.4
25.3
35.3
oceti.
Var. 1.7-9.6
Right
Ascension.
Sec ^ ,Tan <5
Mean Place
b
2
m
14
s
57.52
57.42
57.31
57.19
57.06
56.93
56.81
56.70
56.62
56.58
56.57
56.60
56.68
56.80
56.97
o
I
2
3
3
2
X
8
4
I
3
8
12
17
20
57.17
5741 '^
57.68 '7
57.97 '^
58.28 3'
32
58.60
58.92
59.23
59.52
59.80
32
31
29
28
26
60.06
60.29
60.48
60.65
60.79
23
19
17
14
XI
60.90
60.97 7
61.02 ^
61.04 ^
61.03 '
61.00
60.94
60.85
6
9
Declina-
tion S.
-321
tt
I.CX52
57'.o34
0.00
+0.3
77.9
78.7
79.3
79.8
80.1
80.3
80.3
80.1
79.7
79.0
78.1
77.0
75.7
74.1
72.4
70.5
68.5
66.4
64.3
62.3
60.4
58.6
57.0
55.6
54.5
53.7
53.1
52.9
53.0
53.3
53.8
54.5
55.4
56.3
57.3
58.3
59.2
60.0
8
6
5
3
2
o
2
4
7
9
II
13
x6
17
19
20
21
21
20
19
18
x6
14
XX
8
6
2
I
3
5
7
9
9
10
10
9
8
K Fomaclt.
Mag. 5.4
Right
Ascension.
-0.059
0.00
+0.6
h
2
m
18
34.42
34.30
34.16
3400
33.84
33.69
33.55
33.42
33.32
33.25
33.22
33.24
33.30
33.41
33.56
33.76
34.00
34.27
34.57
34.89
4
6
6
5
4
3
o
7
3
2
6
II
15
20
24
27
30
32
33
33
32
35.22
35.55
35.87 ,^
36.18 ^'
36.48 3^
36.75
36.99
37.20
37.37
37.51
37.61
37.68
37.71
37.71
37.68
37.62
37.53
3742
27
24
21
17
14
10
7
3
o
3
6
9
II
Declina-
tion S.
— 24 12
//
45.6
46.5
47.2
47.6
47.6
47.2
46.4
45.3
43.9
42.2
40.2
37.9
35.5
32.9
30.2
27.4
24.6
21.9
9.4
7.1
5.0
3.3
1.9
0.9
0.4
0.3
0.7
1.5
2.6
4.1
5.8
7-7
9.6
21.5
23.4
9
7
4
o
4
8
II
14
17
20
23
24
26
27
28
28
27
25
23
21
17
14
10
5
I
4
8
XI
15
17
19
19
19
19
17
S Hydxi.
Mag. 4.3
Right
Ascension.
25.1
26.6 '5
27.8 ^^
1 .096 -0.450
33V667 4o".94
h m
2 20
s
4.62
3.52 ^
-0.0 1
40.3
+0.02
-K>.6
[Bph x|]
2.95
2.38
1.83
1.32
0.87
0.48
0.17
9.95
9.83
9.81
9.89
10.07
0.36
0.74
1.20
1.73
2.32
2.95
3.60
4.26
4.90
5.51
6.07
6.56
6.96
7.27
7.48
7.59
7.59
7.47
7.25
6.95
6.56
6.10
5.58
57
57
55
51
45
39
31
22
12
2
8
18
29
38
46
53
59
63
65
66
64
61
56
49
40
31
21
II
o
12
22
30
39
46
52
Declina-
tions.
— 69 2
tt
91.6
92.4
92.6
92.2
91.2
8
2
4
ID
15
21
25
89.7
87.6
85.1
82.2 '9
79.0 ^^
35
75.5
71.8^7
68.0 3»
64.2
60.5
56.9
53.5
50.4
47.7
45.5
43.8
42.7
42.1
42.1
42.8
44.0
45.8
48.0
50.7
53.7
38
37
36
34
31
27
22
17
II
6
o
7
12
18
22
27
30
31
56.8
60.0^^
^3-' 20
66.0 ^l
68.6 ^^
22
70.8
72.5
73.7
17
12
I Cassiopeia.
Mag. 4.6
Right
Ascenmon.
2.797 -2.612
1 1 ■.784 78".20
h
2
m
21
53*18
52.81
52.39
51.95
51.50
37
42
44
45
44
51.06
50.65
50.29
50.01
49.82 '9
41
36
28
49.73
49.75
49.87
50.10
50.44
50.87
51.39
51.97
52.60
53.27
53.95
54.64
55.32
55.98
56.60
12
23
34
43
52
58
63
67
68
69
68
66
62
58
52
46
40
57.18
57.70
58.16
58.56 ^,
58.88 3^
24
59.12
59.28
59.36
59.35
59.26
16
8
9
18
-0.04
-K).3
+O.X4
40.6
59.08
58.82
58.50
26
32
Declina-
tioo N.
+67 O
««
63.9
65.0
65.6
65.7
65.2
II
6
I
5
10
64.2
62.8 '^
60.9^9
58.7
56.3
53.8
51.3
48.9
46.6
44.6
43.0
41.7
40.8
40.4
40.5
41.0
42.0
43.4
45.2
47.3
49.8
52.5
55.4
58.5
61.7
22
24
25
25
24
23
20
16
13
9
4
I
5
10
14
18
21
25
27
29
3»
32
33
65.0
68.2 3^
71.2 3^
74.1 \l
76.8 '7
23
81.0 "9
82.4 '^
2.561 +2.358
52«.898 43".i9
40.04
40.3
-0.13
40.6
APPARENT PLACES OF STARS, 1913.
307
FOR THE UPPER TRANSIT AT WASHINGTON.
Men Solar
Date.
Jan. 0.3
10.3
20.3
30.2
Feb. 9.2
19.2
Mar. 1.2
II. I
21. 1
Apr. 10. 1
20.0
30.0
May 1 0.0
19.9
29.9
June 8.9
18.9
28.8
July 8.8
18.8
28.8
Aug. 7^7
17.7
27.7
Sept. 6.6
16.6
26.6
Oct. 6.6
16.5
26.5
Nov. 5.5
15.5
Dec. 5.4
154
253
35-3
Sec^.Tan^
If ean Place
DVa» Data
^'Ccti.
Mag. 4.3
Right
h m
2 23
s
32.31
32.22
32.11
3 1 98
31.85
31.72
31.60
31.49
31.40
31.35
31.34
31.37
31.44
31.56
31.73
9
II
13
13
13
12
II
9
5
I
3
7
12
17
21
Declina-
tion N.
-1-84
//
3^-94 ,^
32.18 »♦
27
32.45 ^;
32.75 ^
33.06 3'
32
33.38
33.70
34.02
34.32
34.61
32
32
30
29
26
34.87
35.11
35.32
35.50
35.66
35-78
35.87
35.94
35-97
35.97
24
21
18
16
12
9
7
3
o
35.95 _
35.90 \
35.82 «
9.8
9-3
8.8
8.3
7.8
7.4
7.0
6.7
6.6
6.7
6.9
7.3
8.0
8.9
20.0
21.3
22.7
24.3
26.0
27.8
29.6
31.4
33.1
34.6
36.0
37.3
38.3
39.1
39.6
39.9
40.0
40.0
39.8
39.5
39.1
38.7
38.2
37.6
5
5
5
5
4
4
3
I
I
2
4
7
9
I
3
4
6
7
8
8
8
7
5
4
3
10
8
5
3
I
3
4
4
5
6
1. 010
3i*.872
40.142
14^.27
0.00
40.3
-0.0 1
40.6
<y Ceti.
Mag. 4.8
Right
Ascension.
h m
2 27
s
58.43
58.33
58.21
58.07
57.92
57.77
57.64
57.52
57.42
57.35
o
2
4
5
5
3
2
o
7
3
57.32
57.33
57.39
57.49
57.64
I
6
10
15
19
57.83 ,,
58.06 ^^
58.32 %
58.60 ^®
58.91 ^'
32
59.23
59.55 ^'
59.86 3'
60.16 3°
60.45 ^^
27
24
21
18
15
II
8
5
2
I
60.72
60.96
61.17
61.35
61.50
61.61
61.69
61.74
61.76
61.75
61.71
61.65
61.56
6
9
Declina-
tion S.
86 H. Cassiopeto.
Mag. 5.3
-1537
tt
34.7
35.7
36.4
36.9
37.1
37.0
36.6
35.9
34.9
33.6
10
7
5
2
I
4
7
10
13
15
18
20
22
32.1
30.3
28.3
26.1
23.8 ^3
24
21.4
18.9 '5
16.5 ^^
14.I '^
11.8^3
20
9.8
8.0
6.5
5.3
4.5
4.1
4.1
4.5
5.2
6.2
18
15
12
8
4
o
4
7
10
12
7-4
8.8 '1
10.4
12.0
13-6
16
16
15
15.1
16.4
17.5
13
II
1.038 -0.280
57'.750 33".07
0.00 +0.01
40.3 40.6
(Bph 13]
V Ceti.
Mag. 5.0
Right
Ascension.
h xn
2 29
s
44.58
44.09
43-54
42.94
42.32
41.72
41.16
40.67
40.27
39.98
39.82
39.80
3992
40.18
40.57
41.08
41.70
42.41 „
44.01 ^
49
55
60
62
60
56
49
40
29
16
2
12
26
39
51
62
71
Declina-
tion N.
+ 72 26
44.87
45.74
46.60
47.44
48.24
48.98
49.66
50.26
50.78
51.21
51.53
51.74
51.85
51.84
51.71
51.47
51.13
50.70
86
87
86
84
80
74
68
60
52
43
32
21
II
I
13
24
34
43
40.3
41.7
42.6
42.9
42.6
41.7
40.3
38.5
36.3
33.9
14
9
3
3
9
14
18
22
24
26
31.3
28.6 ^7
25.9 ''
23.4
21.2
25
22
J9
19.3
17.7
16.6
15.9
15-7
16.0
16.7
17.9
19.6
21.6
16
II
7
2
3
7
12
17
20
24
27
30
24.0
26.7
29.7
32.8 3'
36.1 ^^
33
42.8 2^
46.1 33
49.2
52.1
31
29
26
54-7
56.9
58.6
22
17
Right
Ascension.
3.315
44'.075
+3161
i9".oo
h m
2 31
8*89
8.80
8.69
8.57
8.44
8.30
8.17
8.06
7.97
7.91
7.89
7.91
7.98
8.09
8.24
9
II
12
13
14
13
II
9
6
2
2
7
II
15
20
8.44
8.68 ^1
8^- 26
•94 __
9.23 ^
^i
9.54 ;,
32
19.86
20.18 3^
20.49 ^^
20.79 3°
21.08 '9
27
21.35
21.59 !^
21.80
21.99
22.15
+0.05
+0.3
-0.17
22.28
22.38
22.44
22.48
22.49
22.47
22.43
22.36
21
19
16
13
10
6
4
I
2
4
7
Declina-
tion N.
+ 5 12
56.0
55.4
54.8
54.3
53.9
53.5
53-2
53-1
531
53-3
53.7
54.3
55-1
56.1
57.4
58.8
60.4
62.1
63.9
65.7
67.5
69.3
70.9
72.4
73.7
74.8
75.7
76.3
76.7
76.9
76.8
76.6
76.2
75.7
75.1
74.5
73.9
73.3
6
6
5
4
4
3
I
o
6
8
o
3
4
6
7
8
8
8
8
6
5
3
I
9
6
4
2
I
4
5
6
6
6
6
1.004 40.091
I8V386 51 ".1 2
0.00
-0,01
308
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.3
10.3
20.3
30.2
Feb. 9.2
19.2
Mar. 1.2
II. I
21. 1
Apr. 1 0.1
20.0
30.0
May 1 0.0
19.9
29.9
June 8.9
18.9
28.8
July 8.8
18.8
28.8
Aug. T.7
17.7
27.7
Sept. 6.6
16.6
26.6
Oct. 6.6
16.5
26.5
Nov. 5.5
15.5
25.4
Dec. 5.4
15.4
253
35-3
Sec «, Tan d
Mean Place
D'^ a, Dm a
/i Hydii.
Mag. 5.3
Risht
Ascension.
h xn
2 33
35-21
34.05
32.83
31.59
30.36
29.17
28.05
27.03
26.14
25.40
24.82
24.42
24.21
24.20
24.38
24.75
25.31
26.04
26.92
27.92
29.02
30.18
31.36
32.54
33.68
34.73
35.66
36.44
37.05
37.45
37.63
37.59
37.33
36.86
36.19
35-34
34.35
33-24
.16
122
124
123
119
112
102
89
74
58
40
21
I
18
37
56
73
88
00
10
16
18
18
14
05
93
78
61
40
18
4
26
47
67
85
99
III
Declina-
tion S.
-7928
//
93.9
94.7
94.9
94.5
93.5
8
2
4
10
15
21
25
29
92.0
89.9
87.4
84.5 ,,
81.2 ^^
35
777
74.1
70.3
66.5
62.8
36
38
38
37
36
59.2
55.9
52.9
50.2
48.0
46.4
45.3
44.7
44.8
45.5
46.8
48.6
50.9
53.5
56.5
59.7
62.9
66.1
69.1
71.7
73.9
75-7
76.9
33
30
27
22
16
II
6
I
7
13
18
23
26
30
32
32
32
30
26
22
18
12
5.481
29". 1 24
-5389
8o".83
-0.09
+0.28
•K).6
y Ailetis.
Mag. 5.4
Right
Ascension.
h xn
2 33
8
52.82
52.73
52.61
52.47
52.33
52.18
52.04
51.92
51.82
51.76
51.74
51.76
51.83
51.95
52.12
9
12
14
14
15
14
12
10
6
2
2
7
12
17
21
25
29
52.33
52.58
52.87
53.18 ^;
53.51 ^^
53.85
54.19
54.52
54.84
55.15
55.44
55.70
55.93
56.13
56.31
56.45
56.56
56.64
56.69
56.71
56.70
56.65
56.57
34
34
33
32
31
29
26
23
20
18
14
II
8
5
2
I
5
8
Declina-
tion N.
+ 21 35
//
8.6
8.4
8.1
7^7
7.2
6.5
5.8
5.1
4.4
3.8
3.3
2.9
2.7
2.7
3.0
3.5
4.3
5.3
6.5
7.9
19.4
21.0
22.6
24.3
25.9
27.4
28.9
30.3
31.5
32.6
33.5
34.3
34.9
35.4
35.7
35.9
36.0
35.9
2
3
4
5
7
7
7
7
6
5
4
2
o
3
5
8
10
12
14
15
16
16
17
16
15
15
14
12
II
9
8
6
5
3
2
I
I
1.075
52'.400
+0.396
8".62
40.0I
+0.3
-0.02
+0.6
lEph 13A
Mag. 4.0
Richt
Ascension.
h
2
!88
.79
.68
.55
.42
.29
.16
.04
0.95
0.89
0.86
0.87
0.93
1.04
1. 19
1.38
1.61
1.87
2.15
2.45
2.76
3.08
3.39
3.69
3.98
4.25
4.49
4.70
4.89
5.05
5.18
5.28
5.35
5.39
5.40
5.38
5.33
5.26
m
35
9
II
13
13
13
13
12
9
6
3
I
6
II
15
19
23
26
28
30
31
32
31
30
29
27
24
21
19
16
13
10
7
4
I
2
5
7
Declina-
tion S.
— 02
/»
43.0
43.7
44.3
44.8
45.2
45.5
45.6
45.5
45.3
44.8
7
6
5
4
3
X
I
2
5
7
9
II
44.1
43.2
42.1
40.8 '3
IS
39.3 ^
37.6
35.8
33.9
31.9
30.0
28.1
26.3
24.7
23.3
22.1
21.2
20.5
20.1
20.0
20.1
20.5
21. 1
21.8
22.6
23.4
24.3
25.1
25.9
17
18
19
20
19
19
18
16
14
12
9
7
4
I
I
4
6
7
8
8
9
8
8
1. 000 -O.OOI
i".3i5 46".27
0.00
+0.3
0.00
40.6
£ Hydzl.
Mag. 4.3
Right
Declina-
tion &
h m
2 38
-6837
778
7.27
6.72
6.15
5.58
5.02
4.49
4.01
3.59
3.24
//
51
55
57
57
56
53
48
42
35
27
2.97
2.80 '7
7
2.73
2.76
2.89
3.13
3.46
3.87
4.36
4.92
5.52
6.15
6.80
7.44
8.05
3
13
24
33
41
49
56
60
63
65
64
61
57
51
43
35
8.62
9.13
9.56
9.91
20.16 ^5
15
20.31
20.35
20.29
20.12
19.85
4
6
17
27
35
19.50
19.08 ^^
18.59 ^^
94.7
95-7
96.2
96.1
95.4
10
5
I
7
13
iS
23
27
94.1
92.3
90.0
87.3
84.2 ^'
34
80.8
77-3 %
73.6
69.8^^
66.1 ^7
37
62.4
58.9 ^^
55.7
52.9
50.5
32
28
24
19
48.6
47.2
46.4
46.2
46.7
14
8
2
5
10
^7-7 ,6
49.3 ,,
56.8 '^
^ 32
60.0
32
32
3f
2^
2^
74.6
76.6 ''
78.0 '
63.2
66.4
69.4
72.2
2.746 -2.557
i4".8o7 82^.58
-0.04
•♦0.3
-KJ.I3
-K>.6
APPARENT PLACES OF STARS, 1913.
309
FOR THE UPPER TRANSIT AT WASHINGTON.
Kno Solar
Date
Jan. 0.3
10.3
20.3
30.3
Feb. 9.2
19.2
Mar. 1.2
II. I
21. 1
31.1
Apr. 1 0.1
20.0
30.0
May lo.o
20.0
29.9
June 8.9
18.9
28.8
July 8.8
18.8
28.8
Aug. T,7
17.7
27.7
Sept. 6.7
16.6
26.6
Oct. 6.6
26.5
^ov. 5.5
155
TV 25.4
Dec 5.4
15.4
254
35-3
SK^,Tantf
Mean Place
iy#a,D«a
6^ Penei.
Mag. 4.2
Right
Ascension.
h m
2 38
•
5-43
527
5.07
4.85
4.61
4.38
4.16
3.96
380
3.69
3.64
3.65
3.73
3.88
4.09
436
4.69
5.06
5.47
590
16
20
22
24
23
22
20
16
II
5
I
8
15
21
27
33
37
41
43
44
6.34
6.79 ^5
7.68 ^t
8.09
8.47
8.83
9.15
9.43
9.67
19.86
20.01
20.12
20.18
20.18
20.14
20.05
19.91
41
38
36
32
28
24
19
15
II
6
o
4
9
14
Declina-
tion N.
+ 4851
y Ccti seq,
Mag. 3.7
Right
Ascension.
II
57.5
58.2
58.6
58.6
58.1
57.3
56.1
54.7
53.1
51-3
49.5
477
46.0
44-5
43.2
42.2
41.6
41 -3
41.4
41.8
7
4
o
5
8
4
6
8
8
8
7
5
3
o
6
3
I
4
8
II
14
42.6
43.7
45-1
46.8 ^7
48.7 ^^
21
50.8
^^ ^ 22
53-0
55.4 \\
57.8 ^^
60.2 ^^
24
62.6
64.9
67.1
69.2
71.0
23
22
21
18
16
72.6
73-9
74-9
13
10
1.520 +1.145
15V027 4o".32
+0.02
40.3
-0.06
+0.6
h m
2 38
48.01
47.92
47.81
47.69
47.56
47.42
47.29
47.17
47.07
47.01
46.98
47.00
47.06
47.16
47.30
47.49
47.72
47.98
48.26
48.56
48.88
49.20
49.51
49.81
50.10
9
II
12
13
14
13
12
10
6
3
2
6
10
14
19
23
26
28
30
32
32
31
30
29
27
50.37 .^
50.62 ^5
50.84
51.03
51.19
22
19
16
13
51.32
51.43
51.51
51.55
51.56
51.55
51.51
51-44
II
8
4
I
4
7
Declina-
tion N.
-f 2 52
//
5.2
4.5
3.9
3.4
3.0
2.7
2.5
2.5
2.6
2.9
3.4
4.1
5.0
6.1
7.5
19.0
20.6
22.4
24.3
26.2
28.0
29.7
31.3
32.8
34.1
35.1
35.8
36.3
36.6
36.6
36.4
36.0
35.4
I 34.8
34.1
33.3
32.6
31.9
7
6
5
4
3
2
o
I
3
5
7
9
I
4
5
6
8
9
9
8
7
6
5
3
o
7
5
3
o
2
4
6
6
7
8
7
7
1. 001
47*453
+0.050
io".89
O.OD
■K>.3
0.00
40.6
[Eph X3l
n Ccti.
Mag. 4.4
Right
Ascension.
m
2 39
59^58
59.48
59.36
59.22
59.08
58.93
58.79
58.66
58.55
58.47
58.43
58.43
58.48
58.57
58.71
58.89
59.11
59.36
59.64
59.94
o
2
4
4
5
4
3
I
8
4
5
9
14
18
22
25
28
30
31
32
60.25
60.57
60.88 ^'
61.19^'
61.48 ^9
27
61.75
62.00 ^^
62.22
62.41
62.57
22
19
16
62.70
62.79
62.85
62.89
62.89
62.86
62.80
62.72
13
9
6
4
o
3
6
8
Declina-
tion S.
-14 13
If
36.6
37.7
38.5
39.0
39.2
39.2
38.9
38.3
37.4
36.3
34.9
33.2
31.3
29.2
27.0
II
8
5
2
o
3
6
9
II
14
17
19
21
22
24
24
24.6
22.2
19.8 ^^
17.4 ^^
I5.I
23
21
13.0
II. 2
9.7
8.5
7.6
7.1
7.0
7.3
7.9
8.8
1 0.0
11.4
12.9
14.5
16.1
17.6
18.9
20.1
18
15
12
9
5
I
3
6
9
12
14
15
16
16
15
13
12
1.032 -0.254
58".854 35".87
0.00
■K).3
+0.01
40.6
/i CeU.
Mag. 4.4
Right
Ascension.
h m
2 40
s
14.72
14-63
9
1452
I 1
T 0
14.40
1 *
14.27
13
14
14.13
14.00
13
13.88
12
13.78
10
13.72
3
13.69
1
13.70
1
6
13.76
13.87
1 i
14.02
15
20
14.22
14.45
23
26
14.71
* v»
15.00
29
15.31
31
32
15.63
15.95
32
16.27
32
16.58
3*
16.88
30
27
17.15
17.40
25
17.63
^h
17.83
20
18.00
*7
14
18.14
18.25
II
8
18.33
18.38
5
18.40
2
I
18.39
18.35
4
6
18.29
Declina-
tion N.
+ 9 44
//
57-3
56.9
56.4
55-9
55.4
550
54.6
54.3
54.1
54.1
54.2
54-5
55.0
55.8
56.8
57.9
59.2
60.7
62.3
64.0
65.7
67.4
69.0
70.5
71.9
73.1
74-1
75.0
75.6
76.0
76.2
76.2
76.0
75.8
75.5
75.1
74.6
74-1
4
5
5
5
4
4
3
2
o
I
3
5
8
o
I
3
5
6
7
7
7
6
5
4
2
10
9.
6
4
2
o
2
2
3
4
5
5
1.015 40.172
14'. 196 5o".84
0.00
-o.oi
310
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.3
10.3
20.3
30.3
Feb. 9.2
19.2
Mar. 1.2
II. I
21. 1
311
Apr. 1 0.1
20.0
30.0
May 1 0.0
20.0
29.9
June 8.9
18.9
28.8
July 8.8
18.8
28.8
Aug. 7,7
177
27.7
Sept. 6.7
16.6
26.6
Oct. 6.6
16.5
26.5
Nov. 5.5
15.5
25.4
Dec. 5.4
154
25-4
35.3
rf Persei.
Mag. 3.9
Right
Ascension.
h m
2 44
Sec *, Tan 6
Mean Place
s
2I.OO
20.81
20.57
20.30
20.01
19.72
19.45
19.20
19.00
18.85
18.77
18.77
18.84
18.99
19.22
19.52
19.88
20.29
20.74
21.22
19
24
27
29
29
27
25
20
15
8
o
7
15
23
30
36
41
45
48
50
21.72
22.23 ^'
22.74 "
23.23
23.70
51
49
47
45
24.15
24.56
24.93
25.25
25.53
25.76
25.94
26.06
26.12
26.12
26.07
25.96
2579
41
37
32
28
23
18
12
6
o
5
II
17
Declina-
tion N.
+ 5532
//
10
6
I
3
7
12
15
25.3
26.3
26.9
27.0
26.7
26.0
24.8
23.3
21.6 '7
19.6 "^
21
21
20
18
16
14
10
6
2
I
5
9
13
16
18
21
23
25
26
27
27
26
25
24
17.5
15.4
13.4
II.6
1 0.0
8.6
7.0
6.8
6.9
7.4
8.3
9.6
II. 2
13.0
15.1
17.4
19.9
22.5
25.2
27.9
30.5
33.0
35-4 ,,
37.6 ^'
20
39.6
41.2
42.4
16
12
D'^ a, Dm a
D^ d, Dm <$
1.767
2or5i4
+1.457
6".75
40.03
+0.3
-0.07
+0.7
41 Azietis.
Mag. 3.7
Risht
Ascension.
h m
2 44
8
52.00
51.90
51.78
51.64
51.49
10
12
14
15
16
51.33 ,,
51.18 '5
51.04 '^
50.93
50.85
50.82
50.83
50.89
51.00
51.17
51.38
51.63
51.92
52.24
52.57
II
8
3
I
6
II
17
21
25
29
32
33
35
35
52.92
53.27
53.62 ^5
53.96 ^^
54.28 ^^
31
28
25
22
19
16
55.69 ,.
55.82 '3
10
55.92 '
55.98
56.01
54.59
54.87
55.12
55.34
55.53
6
3
56.00
55.96
55.89
4
7
Declina-
tion N.
+ 2654
t$
21.0
21.0
20.8
20.5
20.1
19-5
18.7
17.8
16.9
16.1
15.3
14.6
14.1
13.8
13.7
13.9
14-3
15.0
15.9
17.0
18.3
19.8
21.3
22.9
24.5
26.2
27.8
29.3
30.7
32.0
33.2
34.3
35.2
36.0
36.6
37.1
37.4
37.6
o
2
3
4
6
8
9
9
8
8
7
5
3
I
2
4
7
9
I
3
5
5
6
6
7
6
5
4
3
2
II
9
8
6
5
3
2
ft Fomacis.
Mag. 4.5
Right
Ascension.
h m
2 45
s
28.01
27.87
27.71
27.53
27.34
27.15
26.97
26.80
26.65
26.54
26.47
26.45
26.47
26.54
26.66
2
2
7
12
17
22
26
26,83
27.05
27.31 ^^
27.60 ^
27.91 ^'
33
28.24
28.58 ^
28.92 3^
29.26 ^^
29.58 ^^
1. 121
5i"-533
+0.507
9".3i
40.0I -0.03
+0.3 +0.7
lEph 13I
29.88
30.15
30.39
30.60
30.77
30.90
30.99
31.04
31.05
31.03
30.97
30.88
30.75
30
27
24
21
17
13
9
5
I
2
6
13
Declina-
tion S.
-3245
$1
80.8
82.1
83.0
83.5
83.5
83.1
82.2
81.0
79.4
77.4
75.1
72.6
69.8
66.9
63.9
13
9
5
o
4
9
12
16
20
23
25
28
29
30
31
31
60.8
57.7
54.8 !!
52.0
49.5
28
25
22
47.3
45.4
44.0
43.1
42.7
42.7
43.2
44.2
45.7
47.5
49.6
51.9
54.3
56.7
59.0
61. 1
63.0
645
»9
14
9
4
o
5
ID
15
18
21
23
24
24
23
21
19
15
(T Arietis.
Mag. 5.5
Right
Ascension.
h m
2 46
41.72
41.64
41.53
41,41
41.27
41.12
40.98
40.86
40.76
40.69
40.65
40.66
40.72
40.82
40.97
8
II
12
14
15
14
12
10
7
4
I
6
10
15
19
23
41.16
"^'•39 ,,
41.66 ^7
41.96 3^
42.27
31
32
1. 189 -0.644.
26V968 75 ".34
-0.01
+0.3
+0.03
+0.7
42.59
42.92
43.24
43-56 ^^
43.86 3^
33
32
32
44.14
44.40
44.64
44.85
45.03
45.18
45.30
45.39
45.45
45.48
45.47
45.43
45.37
28
26
24
21
18
15
12
9
6
3
I
4
6
Dedma-
tkm N.
+ 1443
f*
34.7
34.4
34.0
33.6
33.1
32.6
32-1
31.6
31.2
31.0
30.9
30.9
311
31.5
32.1
32.9
34-0
35.2
36.6
38.1
39.7
41.3
42.9
44.4
45.9
47.2
48.4
49.4
50.2
50.9
51.4
51.7
51.9
51.9
51.8
51.7
51.5
51.1
3
4
4
5
5
5
5
4
2
I
o
2
4
6
8
I
2
4
5
6
6
6
5
5
3
2
o
8
7
5
3
2
o
I
I
2
4
1.034 +0.263
4 1 ■.196 26".58
0.00
-0.0 1
+0.7
APPAKENT PLACES OF STABS, 1913.
311
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.3
10.3
20.3
30.3
Feb. 9.2
19.2
Mar. 1.2
II. I
21. 1
311
Apr. 10. 1
20.0
30.0
May 1 0.0
20.0
29.9
June 8.9
18.9
28.8
July 8.8
18.8
28.8
Aug. j,j
17.7
27.7
Sept. 6.7
16.6
26.6
Oct. 6.6
16.5
26.5
Nov. 5.5
254
Dec. 5.4
154
254
35-3
Sec*,Tan5
Mean Place
DV a, Dm a
r' Bridanl.
Mag. 4.8
Right
Ascension.
h m
2 47
8
6.31
6.20
6.07
592
5.76
5.60
5.44
5.17
5.08
503
502
5.05
513
5.25
5.42
5.63
5.88
6.16
6.46
6.77
7.09
7.42
7.73
8.03
8.31
8.57
8.80
9.00
9.16
9.29
9.39
9.46
9.49
9.49
9.45
9.39
9.30
II
13
15
16
16
16
15
12
9
5
I
3
8
12
21
28
30
31
32
33
31
30
28
26
23
20
16
13
10
7
3
o
4
6
9
Declina-
tion S.
o t
-21 21
It
45.8
46.9
47.8
48.4
48.6
48.4
47.9
47.1
46.0
44.5
42.7
40.7
38.5
36.1
33.5
II
9
6
2
2
5
8
II
15
18
20
22
24
26
26
28.2 ^7
25.5 ^'
23.0 ^^
20.6 ^^
22
18.4
16.6
13.9
13-2
12.9
131
137
14.6
15-9
17.5
19.3
21.2
23.1
25.0
26.8
28.4
29.7
18
15
12
7
3
2
6
9
13
16
18
19
19
19
18
16
13
1.074 -0.391
5*.453 43"-32
-0.0 1
•H>.3
+0.02
40.7
T Persei.
Mag. 4. 1
Right
Ascension.
h
2
m
48
s
5-37
5.20
4-99
4.75
4-49
4.22
3.97
3.74
3.55
3-42
3.35
3.34
3.40
3.54
3.75
17
21
24
26
27
25
23
19
13
7
I
6
14
21
28
403
4.37
4.75
5.62 45
34
38
42
6.09
6.57
7.05
7-51
7.96
8.38
8.77
9.12
9-43
9.70
9.93
10.10
10.22
10.29
10.31
10.27
10.18
10.03
47
48
48
46
45
42
39
35
31
27
23
17
12
7
2
4
9
15
Declina-
tion N.
+52 24
$>
43.8
44.8
45.3
45-4
45-1
444
43.3
41.9
40.2
38.4
36.5
34-5
32.6
30.9
29.4
28.2
273
26.8
26.7
26.9
27.4
28.3
29.6
31.2
33.0
350
37.2
39-6
42.0
44-5
47.0
49.5
51.9
54-2
56.2
58.0
59-5
60.7
10
5
I
3
7
II
14
17
18
19
20
19
17
15
12
9
5
I
2
5
9
13
16
18
20
22
24
24
25
25
25
24
23
20
18
15
12
1.639 +1.299
4«.865 25".92
+0.02
+0.3
-0.06
+0.7
[Eph X3l
17 Eiidanl.
Mag. 4.0
Right
Ascension.
h m
2 52
s
1.34
125
1. 14
1. 01
0.87
9
II
13
14
15
0.72
0.58
0.45
0.34
0.26
0.21
0.20
0.24
0.32
0.45
0.62
0.83
1.07
1.34
1.64
14
13
II
8
5
I
4
8
13
17
21
24
27
30
31
1-95
2.26 3*
2.57 ^'
2.88 ^'
29
3.17
27
3-44 ..
3.69 '^
3.92 3
4.12
4.30
4-44
4.55
4.63
4.68
4.69
4.68
4.64
4-57
20
18
14
II
8
5
I
I
4
7
Declina-
tion S.
- 9 14
//
36.7
37.6
38.4
39.0
39-4
39.5
39.4
39.0
38.4
37.5
36.4
35.1
33.5
31.7
29.7
27.6
25-4
23.2
21.0
18.8
6.8
50
3.4
2.1
I.I
0.5
0.2
0.2
0.6
1.3
9
8
6
4
I
I
4
6
9
II
13
16
18
20
21
22
22
22
22
20
18
16
13
10
6
3
o
4
7
9
12
13
2.2
3.4
4-7
6.0^3
14
13
7-4
8.7
9.9
21.0
12
II
1.013
io".6o8
-0.163
37" 82
0.00
+0.3
+0.01
+0.7
e Arietis {mean),
Mag. 4.6
Right
Ascension.
h m
2 54
s
4.57
4-49
4.38
425
4.11
396
3.81
3.67
3.56
3.48
3-44
3.44
3.49
3.59
3-74
8
II
13
"4
15
15
14
II
8
4
o
5
10
15
20
23
27
30
3.94
4.17
4.44
4.74 . _
5.06 3"
33
5-39 ,,
5.72 ^^
6.06^4
6.39 3-
6.70
31
30
7.00
7.28
7.53
7.75
7.94
8.11
8.24
8.34
8.41
8.45
8.45
8.42
8.36
28
25
22
19
17
13
10
7
4
o
3
6
Declina-
tion N.
+ 20 59
#/
44.7
44.6
44.4
44.0
43.5
430
42.4
41.8
41.2
40.6
40.1
39.8
39.6
39.6
39.8
403
41.0
41.9
43.0
44-3
457
47.2
48.7
50.2
51.7
53.1
54-5
55.7
56.8
57.8
58.6
59.3
59-9
60.3
60.6
60.8
60.8
60.7
I
2
4
5
5
6
6
6
6
5
3
2
o
2
5
7
9
I
3
4
5
5
5
5
4
4
2
I
o
8
7
6
4
3
2
o
I
1. 07 1 +0.384
I4«.034 34".63
+0.01
+0.3
-0.02
312
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.3
10.3
20.3
30.3
Feb. 9.2
19.2
Mar. 1.2
II. 2
21. 1
311
Apr. 1 0.1
20.0
300
May 1 0.0
20.0
29.9
June 8.9
18.9
28.9
July 8.8
18.8
28.8
Aug. -j.^
17.7
27.7
Sept. 6.7
16.6
26.6
Oct. 6.6
16.6
26.5
Nov. 5.5
15.5
25.4
Dec. 5.4
154
25.4
35.3
Sec 5, Tan 5
Mean Place
DV a, Do, a
47 H. Ce^ei.
Mag. 5.7
Right
AaoensJon.
h m
2 54
29.86
29.09
28.20
27.22
26.19 '°3
77
89
98
25.16
24.19
23.30
22.54
21.95
21.55
21.36
21.40
21.64
22.10
103
97
89
76
59
40
19
4
24
46
66
84
100
III
22.76
23.60
24.60
26.94 ^
129
28.23
29.56 '^^
30.91
135
133
129
123
32.24
33.53
3476
36.93 '°^
37.84
38.61
114
91
77
61
39-22
39.66
39.92
39.98
39.85
39.52
39.02
38.34
44
26
6
13
33
50
68
Declina-
tion N.
+79 4
99
56.1
58.0
59.3
60.1
60.2
59.7
58.7
57.1
551
52.7
50.1
47.3
44.5
41.7
39.1
36.8
34.8
33.2
32.0
31.3
31. I
31.3
32.0
33.2
34.8
36.9
39.3
42.1
45.1
48.3
19
8
I
5
10
16
20
24
26
28
28
28
26
23
20
16
12
7
2
2
7
12
16
21
24
28
30
32
34
35
35
51.7
55.2
58.7
62.1 3^
65.3 ^^
68.2
70.8
73.0
29
26
22
5.279 +5- 184
28V2I6
34"-50
+0.09
+0.3
-0.25
+0.7
B Bridaai.
Mag. 3.4
Right
Ascension.
h m
2 54
8
59.15
58.97
58.78
58.57
58.34
58.11
57.89
57.69
57.51
57.36
57.26
57.21
57.21
57.26
57.37
18
19
21
23
23
22
20
18
15
10
5
o
5
II
16
57.53
57.74
57.99 ,^
58.28 '9
58.61
21
25
58.96
59.32
59.68
60.04
60.39
60.71
61.01
61.27
61.50
61.69
61.83
61.93
61.98
61.99
61.96
33
35
36
36
36
35
32
30
26
23
19
14
10
5
I
3
8
12
61.88
61.76
61.61 '5
Declina-
tion S.
-4038
ft
77.0
78.4
79.4
79.9
79.9
79.4
78.5
77.1
75.3
73.1
14
10
5
o
5
9
14
18
22
25
28
70.6
67.8
64.8 3°
61.6 3^
58.3 ^^
55.0
51.7
48.6
45.7
43.0
40.7
38.9
37.5
36.6
36.3
36.5
37.3
38.6
40.3
42.4
33
33
31
29
27
23
18
14
9
3
2
8
13
17
21
24
26
27
44.8
47.4
50.1
55-4 ,,
57.8 ^^
59.9 ^'
61.6 '7
1.319 -0.859
57'-857
7o".35
-0.02 +0.04
+0.3 +0.7
iBph X3]
A Cett.
Mag. 2.8
Right
Ascension.
h m
2 57
s
44.44
44.36
44.26
44.14
44.00
43.86
43.72
43.59
43.48
43.40
43.36
43.36
43.40
43.48
43.61
43.79
44.00
44.25
44.52
44.81
8
o
2
4
4
4
3
I
8
4
4
8
13
18
21
25
27
29
31
45.12
45.44
45.75 _,
46.06 3'
46.35 '^
32
31
46.63
46.89
47.12
47.33
47.52
47.67
47.79
47.89
47.95
47.98
47.98
47.95
47.89
28
26
23
21
19
15
12
10
6
3
o
3
6
Declina-
tion N.
+ 344
tt
61.5
60.8
60.2
59.7
59.3
58.9
58.7
58.6
58.7
59.0
59.4
60.0
60.8
61.9
63.2
64.6
66.1
67.8
69.6
71.4
73.2
74.9
76.5
77.9
79.1
80.1
80.9
81.4
81.6
81.6
81.4
81.0
80.5
79.9
79.2
78.4
77.0
7
6
5
4
4
2
I
I
3
4
6
8
I
3
4
5
7
8
8
8
7
6
4
2
o
8
5
2
o
2
4
5
6
7
8
7
7
1 .002 -K>.o66
43*.790 56".38
0.00
-K>.3
0.00
+0.7
Y Penei.
Mag. 3.1
Right
Ascension.
h m
2 58
8
29.84
29.68
29.47
29.22
28.95
16
21
25
27
27
26
28.68
28.42
28.18 ^4
27.97 ^'
27.82
15
9
27.73
27.71
27.76
27.89
28.09
2
5
13
20
26
28.35 „
28.68 ^\
29.06 ^
29.48 4^
29.93 t^
47
30.40
30.89
31.38
31.86
32.32
49
49
48
46
43
Declina-
tionK.
41
37
32.75
33.16
33.53 „
33.86 33
34.15 '^
24
34.39
34.59
34.73
34.82
34.85
34.82
34.74
34.61
20
14
9
3
3
8
13
+53 9
II
77.6
78.7 '\
79A
79.6
79-4
10
13
16
78.8
77-^
76.5
71.2
69.3 :;
65.6 "^
64.0
62.7
61.7
61.0
60.7
60.8
16
13
10
7
3
I
4
8
II
61.2
62.0
63.1 ,.
64.5
66.2^^
68.1
70.2 "
72.5 ''
74.9 ,
77.3 ,;
79.8 ,,
82.3 '^
84.7
87.0
89.1
91.0
92.6
93-9
24
23
2!
19
16
13
1.668 +1.335
29'.224 59".72
40.Q2
■K>.3
-ao6
♦a?
APPARENT PLACES OF STARS, 1913
313
FOR THE UPPER TRANSIT AT WASHINGTON.
Mem Solar
Date.
Jan. 0.3
10.3
20.3
30.3
Feb. 9.2
19.2
Mar. 1.2
II. 2
21. 1
31.1
Apr. 10. 1
20.0
30.0
May 1 0.0
20.0
29.9
June 8.9
18.9
28.9
July 8.8
18.8
28.8
Aug. ^.^
17.7
27.7
Sept. 6.7
16.6
26.6
Oct. 6.6
16.6
26.5
Nov. 5.5
15.5
25.4
Dec. 5.4
'5-4
25.4
35-3
Secd.Tantf
Ifean Place
r^ Eiidaai.
Mag. 4.2
Right
Aaoensioii.
h m
2 58
8
34.31
34.20
34.07
33.92
33.75
33.57
33.40
33.25
33.12
33.01
32.94
32.91
32.93
32.99
33.10
33.26
33.46
33.70
33-97
34.27
34.58
34.90
35.22
35.54
35.85
36.14
36.40
36.64
36.85
37.03
37.18
37.29
37.36
37.40
37.40
37.37
37.31
37.22
3
2
6
II
16
20
24
27
30
31
32
32
32
31
29
26
24
21
18
15
II
7
4
o
3
6
9
Declina-
tions.
-2357
tt
56.2
57.5
58.5
59.1
59.3
59.2
58.7
57.9
56.7
55.2
13
10
6
2
I
5
8
12
15
18
21
23
25
53.4
51.3
49.0
46.5
41.0
38.2
35.5
32.9
30.4
28.2
26.3
24.7
23.6
22.9
22.7
22.9
23.5
24.6
26.0
27.7
29.6
31.6
33.7
35.8
37.8
39.5
41.0
28
27
26
25
22
19
16
II
7
2
2
6
II
14
17
19
20
21
21
20
17
15
1.094 -0.444
33"-365 53"-6i
-o.oi
40.3
+0.02
+0.7
p Persei.
Var. 3.4-4.2
Right
Ascension.
h m
2 59
8
36.34
36.23
36.09
35.92
35.73
II
14
17
19
19
19
35.54
35.35 .^
35.18 '7
14.
35.04 ^
34.93
II
6
34.87
34.86
34.91
3502
35.19
35.41
35.67
35.98
36.32
36.69
5
II
17
22
26
31
34
37
38
39
39
38
37.07
37.46
37.85
38.23
38.60 ^7
35
38.95
39.27
39.57
39.84
40.08
32
30
27
24
20
40.28
40.44
40.56
40.65
40.69
40.69
40.65
40.57
16
12
9
4
o
4
8
Declina-
tion N.
+3830
#/
28.3
28.8
29.1
29.1
28.8
5
3
o
3
6
28.2
27.3
26.3
25.1
23.8 '3
9
10
12
22.5
21.2
20.0
19.0
18.2
17.7
17.4
17.4
17.7
18.3
I9.I
20.2
21.5
23.0
24.6
26.3
28.1
29.9
31.8
33.6
35.4
37.1
38.7
40.2
41.5
42.6
43.5
44.2
13
13
12
10
8
5
3
o
3
6
8
I
3
5
6
7
8
8
9
8
8
7
6
5
3
I
9
7
1.278 +0.796
35'-776 i3"-64
-fo.oi -0.04
-K).3 +0.7
(Bph X3]
/i Horolosii.
Mag. 5.2
Right
Ascension.
h
3
8
35.80
35.47
35.10
34.71
34.31
33.91
33.52
33.16
32.84
32.56
32.34
32.19
32.12
32.12
32.20
m
I
33
37
39
40
40
39
36
32
28
22
15
7
o
8
16
23
30
36
32.36
32.59
32.89
33.25 . ,
33.66 4'
45
34-^^8
34-59 ;^
35.08 ^9
35.57 t^
36.05 4»
45
36.50
36.92 "*
37.29 ^^
37.60^
37.85 '^
38.02
38.12
38.15
38.10
37.98
37.79
37.54
37.24
17
10
3
5
12
19
25
30
Declina-
tion S.
o
-60
»»
IOI.2
lOI.O
98.4
IS
99.9 X
100.8 9
4
2
8
100.2
94.8 ^3
92.1 ^7
30
89.1
85.8 33
82.335
78.7 3^
75.0 37
37
71.3
67.8 35
64.5 Jf
61.43^
58.7
27
23
17
12
6
o
6
12
56.5 ^;
58.7 '^^
61.4^7
30
64.4
67.5^'
70.7
56.4
54.7
53.5
52.9
52.9
53.5
54.7
32
73-8 ^L
76.7 ^^
27
81.7^3
83.5
18
2.005
33'-547
-1.737
88".96
-0.03
+0.3
+0.08
+0.7
B Hydri.
Mag. 5.5
Right
Ascension.
h
3
m
2
7.80
7.18
6.51
5.80 \\
5.07
62
67
4.35
3.66
3.02
2.44
1.94
1.53
1.23
1.04
0.98
1.04
1.22
I.5I
I.9I
2.42
3.01
367
4.38
5.12
5.86
6.59
7.28
7.91
8.47
8.93
9.28
9.51
9.61
9.58
9.42
9.14
8.75
8.25
7.67
73
72
69
64
58
50
41
30
19
6
6
18
29
40
51
59
66
71
74
74
73
69
63
56
46
35
23
10
3
16
28
39
50
58
Dcclina-
tion S.
-72 13
tt
102.5
103.8 *3
104.6
104.8
104.4
8
2
4
10
^^3-4 .
101.8'^
^^N Q 20
99.8
2S
97-3 ^
20
94.4 ^
32
91.2
87.8 34
84.2 36
80.5 37
76.7 3*
37
73.0
69.5 35
66.2 33
63.2 3^
60.6 '^
21
58.5
56.9
55-9
55.5
55.7
16
10
4
2
8
14
20
56.5
57.9
65.1 '^
31
68.2
71.533
74.8 33
78.0 3^
81.0 3^
26
83.6
85.8 "
87.5 ''
3.278
3'.924
-3-122
91 "-93
-0.06
+0.3
+0.15
+0.7
314
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.4
10.3
20.3
30.3
Feb. 9.2
19.2
Mar. 1.2
II. 2
21. 1
311
Apr. 10. 1
20.1
30.0
May 1 0.0
20.0
29.9
June 8.9
18.9
28.9
July 8.8
18.8
28.8
Aug. 7.8
17.7
27.7
Sept. 6.7
16.6
26.6
Oct. 6.6
16.6
26.5
Nov. 5.5
15.5
25.5
Dec. 5.4
154
25-4
35.3
Sec 6, Tan 6
Mean Place
fi Persei.
Var. 2.1-3.2
Right
Ascension.
3
s
30.73
30.62
30.47
30.30
30.11
29.91
29.71
2953
29.38
29.26
29.19
29.18
29.23
29.34
29.50
29.72
29.99
30.30
30.65
31.03
m
2
II
15
17
19
20
20
18
15
12
7
I
5
II
16
22
27
31
35
38
39
3^-42 ^^
31.82 40
32.22 ^°
32.61 ^9
32.99 3^
33.35 ,,
33.68 33
33.99 \\
24
21
34.27
34.51
34.72
34.89
35.02
35.11
35.16
35.16
35."
35.02
17
13
9
5
o
5
9
Declina*
tionN.
+4037
ft
31.6
32.2
32.6
32.6
32.3
31.7
30.9
29.8
28.5
27.2
25.8
24.5
23.2
22.0
21. 1
20.4
20.0
19.9
20.1
20.6
21.4
22.4
23.6
25.0
26.6
28.4
30.2
32.1
34.0
35.9
37.8
39.6
41.3
42.9
44.3
45.6
46.6
47.4
6
4
o
3
6
8
II
13
13
14
13
13
12
9
7
4
I
2
5
8
10
8
1.317
30«.i50
+0.858
i6".39
D'^ a, Dm a
+0.02
+0.3
-0.04
+0.7
<^ AxiettB.
Mag. 4.5
Right
Ascension.
h m
3 6
8
39.70
39.63.
39.53
39.40
39.25
39.10
38.95
38.81
38.69
38.60
38.55
38.54
38.58
38.67
38.81
38.99
39.21
39.47
39.76
40.07
7
10
13
15
15
15
14
12
9
5
I
4
9
14
18
22
26
29
31
33
33
40.40
40.73 .,
41.06 ^^
41.39
41.70
33
31
30
42.00
42.28
42.54
42.77
42.98
43.16
43.30
43.42
43.50
43.55
43.56
43-54
43.49
28
26
23
21
18
14
12
8
5
I
Declina-
tion N.
+ 1923
t»
63.9
63.8
63.6
63.2
62.8
62.3
61.8
61.3
60.8
60.3
59.9
59.7
59.6
59.7
60.0
60.5
61.2
62.1
63.2
64.4
65.8
67.2
68.7
70.1
71.5
72.8
74.1
75.2
76.2
77.0
77^7
78.2
78.6
78.9
79.1
79.2
79.2
79.1
I
2
4
4
5
5
5
5
5
4
2
I
I
3
5
7
9
I
2
4
4
5
4
4
3
3
I
o
8
7
5
4
3
2
I
o
I
1.060 +0.352
39V084 54".i9
+0.01
+0.3
-0.02
+0.7
[Eph 13]
12 Bridani.
Mag. 4.0
Right
Ascension.
h
3
s
23.56
23.44
23.29
23.12
22.94
22.75
22.56
22.39
22.24
22.12
22.03
21.98
21.98
22.03
22.13
m
8
2
5
7
8
9
9
7
5
2
9
5
o
5
10
15
19
23
27
22.28
22.47
22.70
22.97 _
23.26 9
32
23.58
23.91 33
24.24 33
24.57 ^^
24.88 3'
30
25.18
25.46
25.72
25.94
26.13
28
26
22
19
16
26.29
26.41
26.49
26.53
26.54
26.51
26.44
26.34
12
8
4
I
3
7
10
Dedina-
tkmS.
-2919
»*
50.0
51.4
52.4
53.1
53.4
53.2
52.6
51.7
50.4
48.7
46.7
44.4
41.8
39.1
36.2
33.2
30.2
27.3
24.5
21.9
19.6
17.6
16.0
14.9
14.3
I4.I
14.4
15.2
16.4
18.0
19.9
22.1
14
10
7
3
2
6
9
13
17
20
23
26
27
29
30
30
29
28
26
23
20
16
II
6
3
8
12
16
19
22
23
24.4
26.8 ^^
29.1 ^3
21
31.2
33.1 ;;
34.8 '7
1. 147 -0.562
22«.468 46".56
-o.oi
+0.3
+0.03
+0.7
48 H. CepheL
Mag. 5.5
Right
Ascension.
h
3
8
16.22
15.61
14.88
14.06
13.19
12.30
11.44
10.65
9.96
9.41
9.02
8.80
8.78
8.95
9.31
9.85
10.55
11.39
12.35
13.40
m
9
61
73
82
87
89
86
79
69
55
39
22
2
17
36
54
70
84
96
105
113
117
14.53
^570^^^
16.89"^
18.08"^
19.24"'
20.35
21.40
22.36
23.22
23.96
24.57
25.04
25.35
25.49
25.46
25.25
24.88
24.36
III
105
96
86
74
61
47
31
14
3
21
37
52
Dedina-
taooN.
+7724
r»
80.5
82.5
83.9
84.8
85.1
20
14
9
3
3
8
84.8
84.0
82.6 '^
80.7'^
78.4
23
25
75.9
73.2
70.5
67.8
65.2
62.8
60.7
59.0
57.7
56.8
56.4
56.4
56.9
57.9
59.4
61.2
63.4
66.0
68.8
71.9
75.2
78.5
81.9
85.2
88.4
91.4
94.1
96.3
27
27
27
26
24
21
17
13
9
4
5
10
15
18
22
26
28
31
33
33
34
33
32
30
27
22
4.592 +4.482
14* 359 59".34
+0.09
+0.3
-0.20
+0.7
APPARENT PLACES OF STARS, 1913
315
FOR THE UPPER TRANSIT AT WASHINGTON.
-1
C Arietis.
88 HoroIogU (O.) .
CEridani.
r Arietis.
-f MdmSolar
Mag. 5.0
Mag. 5.7
Mag. 4.9
Mag. 5.2
_.§ Date.
Riffht
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
J
Ascension.
tion N.
0 /
Ascension.
tion S.
Ascension.
tion S.
Ascension.
tion N.
1
h m
h m
0 /
h m
0 /
h m ° '
[
3 9
+2043
3 10
-5738
3 II
- 9 8
» m
3 16
+ 20 50
' Jan. 0.4
8
54.49 ,
31-5
22.86
58.1 .
s
3720
W w
30.2
s
12.76
12.8
10.3
5442 /^
31.5
0
22.57 11
59.7 ,,
37-12 «
31.2 ^^
12.69
12.7 ^
20.3
54.32 -
31.3
2
22.24 ^"^
60.8 "
37-01
32.1 ^
12.59 '°
12.6 ^
30.3
5419 r
31.0
3
21.89 ^^
61.3 ^
36.88 '3
32.8 7
12.46 '3
12.3 3
Feb. 9.2
54.04 '^
30.6
4
21.52 ^"^
61.3 ^
36.74 '4
33.2 ^
12.32 '4
11.9 ^
16
5
37
6
15
2
15
4
19.2
53-88
30.1
21.15
60.7
36.59 ,^
33.4 ^
12.17 ,
11.5
Mar. 1.2
53-73 ;f
29.6
5
6
20.78 37
59.5 ]l
36.44 ^
33.3 '
12.01 '^
II. 0 ^
II. 2
53-59 :Z
29.0
20.43 3^
57-8 11
36.30 '4
33.0 3
11.86 '5
10.5 \
21. 1
53-47 '
28.5
5
20.12 '^^
19.86 '^
21
55-7
36.17 ^
32.4 «
11.73 ^l
6
9.9
3^1
53-38 I
28.0
5
5
53-2 'f
36.07 -
31.6 ^
II
11.64 ^
9-4 ;
Apr. 1 0.1
53-32
27.5
19.65 ^^
50-3 ,,
36.01
30.5 ^^
11.58
8-9 ,
20.1
53-30 ^
27.2
3
19.50 'I
47' ^!
35.99 ^
29.2 3
IT.56 '
8.6 3
30.0
53-34 *
27.0
2
19.42 °
43-7 ^*
4°' It
36-01 ;
27.7 |5
"•59 a
8.4 I
Uay lo.o
53-43 '
27.0
0
19.41 '
36.07 ,f
26.0 '7
"•67 .,
8.4 °
20.0
53-56 11
27.2
2
19.48 I
36-5 3^
36.18 "
24.1 '9
"•79 "
8.6 ^
18
4
14
36
15
21
18
4
29.9
53-74 „
27.6
6
^9-^^ ,,
32-9 ,,
36.33 ,„
22.0
"•97 _
90 ,
June 8.9
5396 "
28.2
'9-«3 ''
29-3 ll
36.52 '9
19.8 "
22
12.19
9-6 t
18.9
54-22 ll
29.1
9
20.11 ^^
25-9 ,
36.75 'i
17.6 "
12.44 ^0
10.4 "
28.9
54-51 ''
30.1
10
20.45 It
22.8 3'
37-01 il
15.4 "
12.72 ^8
11.4 '°
July 8.8
54.82 3
31.2
II
20.83 ^
20. 1 '7
37-29
13.2 "
13.03 ^'
12.5 "
33
13
42
23
30
20
33
12
18.8
55-15 „
32.5
21.25
'7-8 ,„
37-59 ,,
"•2 .0
^3.36
13-7
28.8
55-48 33
33.9
14
21.70 ^^
^5-9 !
37.90 3|
9-4 J
13.69 33
15.0 '3
Aug. 7.8
55-82 34
35.3
14
22.16 ^J
14-5 '*
38.21 3
7-8 !
14.03 34
16.4 '4
17.7
56-15 11
36.8
15
22.62 "^
13-8 7
38.52 3'
^•4 ^
14.36 33
^7-8 1
27.7
5647 I'
38.2
14
23.08 ^^
13-7 '
38.82 3°
5.4'°
14.68 3-^
19.2 '4
30
13
43
5
28
7
31
13
Sept. 6.7
56.77 ,8
57-31 ll
39.5
^351 ,^
14-2 „
39.10
39.36 ll
39.60 ^^
4.7 ,
14.99 _
20.5 ,,
16.6
26.6
40.7
41.9
12
12
24.27 3^
'5-3 "
»6.9 '^
4.4
4-5 !
15.54 ,°
21.7 "
22.8 "
Oct. 6.6
57-55 ,;
42.9
10
24.58 11
19.0 ^'
39.82 "
4-9 *
15.78 ^t
23.8 'I
16.6
57-76 y
43.8
9
24.83 '^
"•5 li
40.01 I
5.5 ^
16.00 "
24.7 '
18
7
18
29
16
10
19
7
26.5
57-94 .,
44.5
^
25.01
24-4 ,.
40.17 ^^
6-5 ,
16.19 .
25-4 ^
Nov. 5.5
58.09 5
45.1
6
25.13 ^
27.5 5
40.30 3
7.7''
16.35 ^
26.0 ^
15.5
58.21 "
45.6
5
25.18 5
30.7 ^.
40.40
9-^ ^
16.47 "
26.4 ^
255
58.30 I
46.0
4
25.15 I 33.8 3^1
40.47 I
^^•4 !
16.56 ^
16.62 ^
26.8 ^
I>ec. 5.4
58.35 ^
46.2
2
25.06 ^
36.8 3°
40.50 X
II.8 '4
27.1 3
2
2
15
27
0
14
3
I
15.4
58.37 ,
46.4
24.91 ,, 39.5 .J
40.50
^3-2 T,
16.65 ,
27.2
25.4
5!-35 5
46.5
I
24.70 ^^
4' -9 :
40.47 I
40.41
14.5 \\
16.64 . 27.3 I
35.3
58.30 ^ 46.4
1
24.43 ^
43.9
15.7 "
16.59 ^ ! 27.3
Sec*, Tan 5
1.069 +0.378 1
1.869 "'-578
I.OI3 -0.I6I
1.070 +0.381
Mean Place
53".856 2 1 ".43
20V734 49".64
36'.379 32".07
I2".09I 2".6o
D'^ a, D« a -fo.oi -0.02
l>^9,T}mS +0.3 +0.7
-0.03 +0.07
+0.3 +0.7
0.00 +0.01
+0.01 -0.02
+0.3 +0,7
+0.^ ■'toA
D
Bph 13]
316
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.4
10.3
20.3
30.3
Feb. 9.3
19.2
Mar. 1.2
11.2
21. 1
311
Apr. 1 0.1
20.1
30.0
May 1 0.0
20.0
30.0
June 8.9
18.9
28.9
July 8.8
18.8
28.8
Aug. 7.8
17.7
27.7
Sept. 6.7
16.7
26.6
Oct. 6.6
16.6
26.5
Nov. 5.5
15.5
25.5
Dec. 5.4
154
25.4
35.4
Sec ^, Tan (5
Mean Place
D'^ a, Dca a
e Bridani.
Mag. 4.3
Right
Ascension.
h
3
m
16
17
s
28.64
28.47
28.28 '9
28.06 "
27.82 ^^
24
27.58
27.34
27.11
26.90
26.73
26.60
26.52
26.49
26.52
26.60
24
23
21
13
8
3
3
8
14
20
26.74
26.94
27.18 It
27.46 ^
27.78
28.13
28.50
28.88
29.26
29.63
28
32
35
37
38
38
37
35
29.98
30.31
30.61
30.88 ^7
22
31.10
33
30
31.28
31.41
31.49
31.53
31.52
31-46
31.36
31.22
18
13
8
4
I
6
10
14
Declina-
tion S.
-43 23
f»
72.9
74.6
75.8
76.5
76.7
76.4
75-6
74.3
72.6
70.5
68.0
65.2
62.1
58.9
55-6
17
12
7
2
3
8
13
17
21
25
28
31
32
33
34
52.2
48.8 ^^
45.5 ^^
42.5
39-7
37.2
35.2
33.7
32.7
32.2
32.3
32.9
34.1
35.8
37.9
30
28
25
20
15
10
5
I
6
12
17
21
25
40.4
43-1
45-9 ,^
48.8 'I
rr A 28
51.6
25
54.1 ,,
56.4 ''
58.4 ^"
28
1.376 -0.945
27'. 164 67". 10
-0.02
+0.3
+0.04
+0.8
t Hydri.
Mag. 5.5
Right
Ascension.
h
3
s
12.13
II. 21
10.21
9.14
8.05
6.96
5.90
4.90
3.98
3.17
2.49
1.95
1.57
1-35
I-3I
1.44
1.74
2.20
2.81
3.55
4.40
5.34
6.33
7.35
8.37
9.36
10.27
11.08
11.76
12.29
12.65
12.82
12.80
12.59
12.19
11.62
10.90
10.05
m
18
92
100
107
109
109
106
100
92
81
68
54
38
22
4
13
30
46
61
74
85
94
99
102
102
99
91
81
68
53
36
17
2
21
40
57
72
85
Declina-
tion S.
-7741
f*
93.4
94.9
95.9
96.2
95.9
15
10
3
3
8
14
95.1
93-7 ,^
91.8 '9
86.7 ^^
31
83.6
80.3 ^^
76.8 35
73.1 37
69.4 ^7
37
65.7
62.2 ^^
58.9 ^^
55.9
53.2
30
27
22
51.0
49.4
48.3
47-7
47.8
16
II
6
I
7
13
19
24
48.5
49.8
51.7
54.1
56.8 ^7
30
59.8
63.1
66.4
69.7
72.7
33
33
33
30
27
75.4
77-7
79.6
23
19
4695 -4587
6".249 83^.89
-0.09
+0.3
+0.20
+0.8
[Bph 13]
ot Persei.
Mag. 1.9
Right
Ascension.
h m
3 18
8
7.03
6.90 ^3
6.73 '7
6.52 ''
6.28 ^^
25
6.03
5.79
5.56
5.36
5.20
24
23
20
16
5.09
5.05
5.08
5.17
5.33
II
4
3
9
16
23
28
5.56
5.84
6.18 34
6.56 3«
6.97 ^'
44
7.41
8.32 ^^
8.77
9.21
9.64
0.04
0.41
0.74
1.04
1.30
1.52
1.69
I.81
1.87
1.88
1.84
1.74
45
44
43
40
37
33
30
26
22
17
12
6
1
4
10
Declina-
tion N.
-H4933
//
25.5
26.6
27.3
27.6
27.6
27.2
26.4
25.3
24.0
22.4
20.7
9.0
7.3
5.7
4.2
2.9
2.0
1.3
0.9
0.9
1.9
2.8
4.0
5.4
7.1
8.9
20.9
23.0
25.2
27.4
29.6
31.7
33.8
35.8
37.5
39.0
40.3
II
7
3
o
4
8
II
13
16
17
17
17
16
15
13
9
7
4
o
4
6
9
12
14
17
18
20
21
22
22
22
21
21
20
17
15
13
1.541
6*.259
+1.173
8".55
+0.02
+0.3
-0.05
+0.8
o Tanil.
Mag. 3.8
Right
Ascension.
6
9
12
h m
3 20
8*49
8.43
8.34
8.22
8.08 '4
15
7.93
7.78
7.64
7.52
7.42
15
14
12
10
6
7.36
7.34
7.36
7-43
7.54
7.70
7.90
8.13
8.40
8.69
2
2
7
II
16
20
23
27
29
30
31
8.99
9.30
9.62 3^
32
9.94
10.24
30
29
0.53
0.80^7
1.06^^
1.29
1.49
1.67
1.82
1,94
2.03
2.09
2. II
2.10
2.06
23
20
18
15
12
9
6
2
I
4
tkmN.
+ 843
tt
31. 1
30.6
30.1
29.6
29.2
28.9
28.6
28.3
28.2
28.2
28.4
28.7
29.2
29.9
30.8
31.9
33.1
34.5
36.0
37.5
39.1
40.7
42.2
43.6
44.8
45.8
46.7
47.4
47.8
48.0
48.0
47.9
47.6
47.2
46.7
46.2
45.7
45.1
5
5
5
4
3
1
V
3
I
c
5
1
S
II
2
4
1. 01 2 +0.153
7*.762
24"'iS
0.00
+0.3
-aoi
40.8
APPARENT PLACES OF STARS, 1913.
317
FOR THE UPPER TRANSIT AT WASHINGTON.
2 H. Camelop.
^Tanrl.
/Tanri.
£ Erldanl.
Mean Solar
Mag. 4.4
Mag. 3.8
Mag. 4.3
Mag. 3.8
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion h
I,
Ascension.
tion S.
h m
0 f
h m
0 /
h m
0
t
h m
0 /
3 21
+5938
3 22
+ 925
3 26
-hl2 38
3 28
- 944
Jan. 0.4
61^88
w w
35.8
27.87
27.81 \
f r
54.9 -
4.81
4.75 I
29.4
s
50.74 ^
65.1
10.3
61.69 '9
37.3 ^
54.4 ;
29.0
4
50.67 I
66.3 "
20.3
61 44 li
38.4 "
39.0 \
27.72 ;
53.9 \
4.66 9
28.6
4
50.56 ;
67.2 ?
30.3
6II5 \l
27.60 '^
53.4 \
4-54 '
28.2
4
50.43 J
67.9 \
Feb. 9.3
60.83 ^
39-2 ,
27.46 \\
53.0 ^
4.40 \\
27.8
4
50.29 '^
68.4 5
34
3
14
4
»5
4
16
2
19.2
60.49 „
38.9 ,
27.32 ^^
52.6
4.25 „
27.4
49.97 ;°
68.6
Mar. 1.2
60.16 33
38-2 ,!
27.17 5
52.3 I
4'o '
27.1
3
68.6 ""
II. 2
5984 11
59.56 «
35-4 ,8
33.6 '*
JO
27.03 ^
2
52.1
3.96 t
26.8
3
49.82 5
68.3 ^
21. 1
26.90 ^
52.0
3-83 ^
26.5
3
49.68 4
67.8 I
31. 1
22
59.34 .3
26.80 "^
6
52.0 ^
3-73 ';
26.4
I
0
49-57 8
67.0 ^
10
Apr. 1 0.1
59.19 8
59." ,
31.6
26.74 -
52.1
3.66
26.4
49-49 ,
66.0
20.1
29.5
26.71 ^
52.4 ;
3.63 ^
26.5
I
49-45 *
64.7 \\
30.0
59" ,0
27.4 "
26.73 ^
52.9 1
53.5 a
54-3
10
3.65 '
26.7
2
49-45 ,
63.2 5
May 1 0.0
59." ,8
59.40 ^,
^5-3 _
26.80 7
3.72 ,;
27.1
4
49-49 „
61.5 '7
20.0
23-3 ,^
'6-9^ :;
3.83 ;;
27.8
7
9
49-58 ,;
59.6 '9
21
30.0
59-66
21.6
2707 ,„
55.3 .,
398 ,„
28.7
49-72
57.5 ^
June 8.9
60.00 3*
20.1 '5
20
27.27 ^,
56.5 ':
4.18 »«
29.7 ^
to
4990 ,
21
55.4
18.9
60.40 4°
60.86 -**
18.9 '\
18.I '
2^
27.50 J
27.76 'f
57-9 1
4.42 ,,
30.8 '
[I
5°" !
22
53-2 „
28.9
59.3 t
4-68 '*
32.1 ^
^3
50.35 ^t
5-° "
July 8.8
61.36 5«
17-7 *
28.0s ''
60.8 5
4-97!'
33.5 \
t4
50-62 ^7
488 "
53
1
31
16
3«
f5
29
20
18.8
61.89 ,
62.45 ^^
17.6
28.36
62.4
5-28 „
35.0
50-91 ,„
46.8
28.8
17.9 ,
28.67 ^
63.9 ^
5-6o3
36.4
14
51-21 30
44-9 '
Aug. 7.8
63.02 ^l
63.58 ^^
18.6 7
28.99 ^'
65.4 i
5.92 \]
37.8
f4
51-52 3'
43-3 ^
17.7
^^•^ I!
29.31 L
66.8 '^
6.24 3*
39.2
f4
5»-82 3°
41.9 '*
27.7
64.13 11
21.0 '^
29.61 3°
68.0 '^
6-55 11
40.5 \
C3
52.12 30
40.9 '!
53
17
29
10
30
[I
29
7
Sept. 6.7
64.66
22.7
29.90 ,0
30.44 ,,
69.0
6-85 ,„
41.6
52.41 „
40.2
16.7
65.62 ^^
24.6 •'
69.9 9
7'3 ?
42.5
9
52.68 w
39.9 ,
26.6
26.8 "
70.6 ^
7-39 ;
43.2
7
52.93 ,,
I
40.0
Oct. 6.6
66.04 ^^
66.42 ^^
33
29.1 ,'^
30.67 '^
71. 1 5
7-63 t
43.8
6
53-16 '3
40.4 ^
16.6
3-6 :^
30.88 -
71.3 ^
7«4 :;
44.2
4
2
53-36 -
41. I ^
10
26.5
66.75 _
36-8 ,!
31.06
71.3 ,
803 ,
44.4
53-53 „
42.1 _
Nov. 5.5
67.02 7
31.21 ^
71.2
O.IQ
44-5
1
53.68 '5
43.3 \'
15.5
67.22 "^
39-5
42- » °
31.34 ^^
71.0 ^
8-32 1^
44.5
0
I I
53.79 '
53.87 \
44.7 :t
25.5
67.36 '^
31.43 I
31-49 2
70.6 \
8.42 '°
8.48 ^
3
44.3
2
^^•^ 6
47.8
Dec. 5.4
67.43 I
44.5 't
23
70.2 "*
44.1
2
53.92 5
15.4
67.43 „
67.35 ,J
46.8
31.51 ,
69.7
8.51
43.8
%J
53.94 ^
49-3 „
254
48.8 ^
31.50 ^
69.2 ^
8.51 °
43.4
4
53.92 ^
53.86 ^
50-7 t
35-4
67.20 '5
50.5 '^
31.46 ^68.7 5
1.014 +0.166
8.47 ^
43.0
4
4
51-9 "
Sec S, Tan S
1.978 +1.707
1.025 +0.22
1,0x5 -0.172
Mean Place
6o*.890 1 7 ".1 8
27«.i34 47"-63
4".o68 2 1 ".23
49".84i 67^.42
D V a, D« a
+0.03 -0.07
0.00 -001
' 0.00 -0.01
0.00 +0.01
D^S, D«^
+0.3
+0.8 1
+0.3
+0.8 1
+0.2
+0.8
+0.2
+0.8
lEph 13I
318
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
r^ Bridani.
<y Persei.
(J
Bridani.
V Peisei.
Mean Solar
Mag. 4.3
Mag. 3.1
1
^4ag. 3.7
Mag. 3.9
Date.
Right
Ascension.
Declina-
tion S.
Right
Ascension.
Declina-
tion N.
Right
Aicension.
Declina-
tion S.
Right
Ajccnsion.
Declnia-'
tiooN.
h m
0 /
h m
0 /
h
m
0 /
h m
0 0
3 29
-21 54
3 36
+4730
3 39
— 10 2
3 39
-h42*
Jan. 0.4
57.66
87.6
44-37 ,-
53-' „
s
5.75
84.1
17.58 .
17.50 ^
31.9 „
10.3
57-57 '
89.1 '5
44.27 °
54.2 "
55.0 \
5.68
7
85-3 "
32.8 »
33-4 ^
20.3
57.45
90.3''
91.1 '
91.6 5
44.12 ^
5.58
10
86.3 '^
17.37 \i
30.3
Feb. 9.3
5730 \l
57.14 :^
43.93 '
43.71 ^^
55.5 \
55.6 ;
5-45
5.31
'3
14
15
87.0 7
87.5 \
17.20 *
17.01 ^^
21
33.8 t
33-9 .
19.2
Mar. 1.2
II. 2
21.2
31.1
56.97 ,8
56.79 '
56.62 '7
56.46 't
56.33 '^
9
91.7
90.9 \
90.0 ^
88.8 "
16
43-48
43.24 \\
42.64 ;7
55.4 ,
54.8 \
52.7
51.3 ^
15
5.16
5-00
4.84
4.70
4.58
16
16
14
12
9
87.8
87.8 °
87.5 \
87-0 5
86.2 *
10
16.80
16.59 \\
16.38 1'
16.20 "
16.05 '*
II
33-6 ,
33-0 -
3^-^ i»
31.2 „
3°° „
Apr. 10. 1
20.1
30.0
May 1 0.0
20.0
56.24
56.18 *
56.17 '
56.20 \
56.28 *
«3
87.2
»5-3 :^
83.2 ^'
80.9 "3
7«-4 :^
42.52 ,
42.46 °
42.46
42.53 X
42.66 '3
20
49-» ,6
46.6 '^
45.1 '^
43.7 '4
12
4.49
4.44
4-43
4.47
4-55
5
1
4
8
12
85.2
83.9 \\
82.4 '3
80.7 '7
78.8 '9
21
15-94 ,
15.88 *
15.88 ^
15.94 X
16.07 ^
18
28.7
26.0 '*
'4-7;?
30.0
June 8.9
18.9
56.41 ,8
56.80 ="
75.8
73.1 '^
67.8 ^^
65.3 !'
23
42.86
43.42 3
42-5 ,„
41.5 '!
40.8 \
4.67
4.84
5.05
17
21
'% A
76-7 „
p^A m 22
74-5 „
723 "
16.25
16.49 ^4
16.78 *9
12
22.6
21.9 1^
2M *
28.9
July 8.9
"i A
57-04 ,;
57-31 '7
30
43-77 35
44.16 39
42
40.4 ;
40.2
2
5-29
5.56
24
27
28
70.1 "
A- « 22
67.9 ^,
17.10 3
17.46 3^
39
21.2
21.3;
18.8
28.8
Aug. 7.8
17.7
27.7
5761
57.92 3'
58.24 3=»
58.55 ^'
58.86 3'
30
63.1
61. 1 """
59.4 ;;
58.1 '3
57-2 J
44.58
45.01 43
45-45 44
45.89 44
46.32 43
40.4
40.9 5
41.6 7
42.6 '^
43.8 "
14
5.84
6.14
6.45
6.76
7.06
30
31
31
30
29
65.8
62.3 "^
60.9 '*
59-9 ^
'7-85 ^
18.25 4°
18.65 4"
19.06 4'
»9-46 4°
39
21.6
22.2 _
^3-0 .„
24.0 „
25.2 ,^
Sept. 6.7
16.7
26.6
Oct. 6.6
16.6
59.44 '!
59.70 ="*
59-93 .^
60.14^'
^ 18
56.8
56.8 °
57-3 ^
58.2 ^
59-5 ,^
4^-74 ^„
4752 \.
47.87 5^
48.18 3'
^ 28
45-2 ,.
46.8 '*
4«-5 \\
50.4 ^
523 ,^
20
7-35
7.62
7.88
8.12
8.33
27
26
24
21
18
59.2 ,
58.9 ?
58.9 \
59-3 ,
60.0 '
10
19.85
20.22 37
20.57 ^^
20.89 3'
21.19^^
26.6 ,
28.1 '5
29.7 ;f
33.1 ,;
26.6
Nov. 5.5
15-5
25.5
Dec. 5.4
60.32
60.46 '^
60.57 '!
60.64 '
60.68 ^
0
61. I
63.0 '9
65.0 ^°
67.1 ^'
69.2 ^'
20
48.46
48.70 ^4
48.89 '9
14.
49-03
10
49.13 ,
4
54-3 ,^
5»-3 ^
60.2 ^l
62.0
17
8.51
8.67
8.80
8.89
8.95
16
9
6
2
61.0
62.3 '3
63.7 '4
66.8 '^
«5
^'•45 _
21.67 •-
21.86 '9
22.00 ^^
22.00 9
5
34.8
36.5 !
39-; 15
41.3, J
15.4
25.4
35.4
60.68
60.64 ^
60.57 7
71.2
73.1 '!
74.8 "
49.17 ^
49.15 .
49.08 '
63.7 ._
65.2 '5
66.5 '^
8.97
8.96
8.92
I
4
68.3
69.7 '4
71.0 '3
22.14
22.14 °
22.08 *
42.7 „
43.9 „
45-0
Sec S, Tan d
1.078 -0.402
1.480 +1.092
1.016 -0.177
r
1.352 +0.910 ji
Mean Place
56".6o9 87".o8
43*-465 36".93
4".8o2 86".7i
16V7IO i6".78 1
DV a, Dm a
-o.oi +0.02
+0.02 -0.04
0.00 +0.01
4o.oa -0.04 f
D^ d,D^d <
-K>.2 +0.8
+0.2 +0.8
+0.2
5 +0.8 1
40.2 +0.8 1
iBph X3\
1
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
319
VeanSdar
Date.
Jan. 0.4
10.3
20.3
303
Feb. 9.3
19.2
Mar. 1.2
II. 2
21.2
Apr. 10. 1
20.1
30.0
May 1 0.0
20.0
300
June 8.9
18.9
28.9
July 8.9
18.8
28.8
Aug. 7.8
17.7
27.7
Sept. 6.7
16.7
26.6
Oct. 6.6
16.6
26.6
Nov. 5.5
15.5
Dec. 5.4
25.4
35-4
^ha Place
5 H. Camelop.
Mag. 4.7
Risht
Ascension.
Declina-
tion N.
m
3 41
+71 3
s
II. 18
IO.&7
10.47
9-99
9.45
//
31
40
48
54
57
8.88
8.31
7-77 ,^
7.28 ^9
6.86 ^^
57
54
6.54
6.34
6.27
6.33
6.51
6.82
7.25
7.78
8.41
9.11
9.87
0.67
1.50
2.34
3.17
3.98
4.76
5.50
6.18
6.79
32
20
7
6
18
31
43
53
63
70
76
80
83
84
83
81
78
74
68
61
52
74-7
76.8
78.4
79.5
80.1
80.2
79.7
78.7
77.2
75.4
21
16
II
6
I
5
10
15
18
22
73-2
70.8 '^
68.3 "5
65.7
63.2
7.31
7-74
8.08 3^
8.31 ''
8.43
43
12
60.9
58.8
57.0
55.6
54-5
53.8
53.5
53-7
54.3
55.3
56.7
58.5
60.6
62.9
65-5
68.3
71.3
J74-3
77-4
80.4
26
25
23
21
18
14
II
7
3
2
6
10
14
18
21
23
26
28
30
30
31
30
28
77 Taori.
Mag. 3.0
Right
Ascension.
8.43
8.30
8.06
13
24
83.2
85.8
I 88.1 ^^
26
3.082 +2.916
9"-325 55"i7
•fo.06
+0.2
-O.I I
+0.8
h m
3 42
s
9.40
9.35
9.26
9.14
8.99
5
9
12
15
16
8.83
8.67
8.51
8.36
8.24
8.16
8.12
8.12
8.17
8.28
8.43
8.63
8.87
9.14
9.44
19.76
20.09
20.43
20.77
21.10
21.43
21.74
22.03
22.30
22.54
22.76
22.95
23.11
2323
23.32
23-37
23.38
23.35
i6
16
15
12
8
4
o
5
II
15
20
24
27
30
32
33
34
34
33
33
31
29
27
24
22
19
16
12
9
5
I
3
Declina-
tion N.
4-23 50
//
23.6
23.7
23.7
23.6
23.4
23.1
22.7
22.2
21.6
21.0
20.5
20.0
19.7
19.5
19.4
195
19.8
20.3
21.0
21.8
22.8
23.9
25.0
26.2
27.4
28.5
29.6
30.7
31.7
32.5
33.3
34.0
34-5
35.0
35.4
35.8
36.0
36.1
I
o
I
2
3
4
5
6
6
5
5
3
2
I
I
3
5
7
8
10
II
II
12
12
II
II
II
10
8
8
7
5
5
4
4
2
I
1 .093 +0.442
18". 596 I2".62
+0.01 -0.02
+0.2 +0.8
[Bph zj]
7^ Eridani.
Mag. 4.3
Right
Ascension.
h m
3 43
s
7.40
7.31
7.19
7.04
6.88
9
12
15
16
18
6.70
6.51
6.33
6.17
6.03
592
5.84
5.81
5.83
5.90
19
18
16
H
II
8
3
2
7
II
16
20
6.01
6.17
^•37 „
6.60^^
6.87 "7
7.16
7.46
7-77
8.09
8.40
29
30
31
32
31
30
29
8.70
^•99 ,,
9.26 ^7
9.50 l^^
9.72 "
19
9.91
10.06 '5
10.18 '"^
10.27
10.32
10.33
10.30
10.24
3
6
Declina-
tion S.
-23 29
//
80.1
81.7
83.0
84.0
84.6
84.8
84.7
84.2
83.3
82.1
80.5
78.7
76.6
74.2
71.7
16
13
10
6
2
I
5
9
12
16
18
21
24
25
26
69.1
66.4
^3-7 ,,
61.0 '7
58.5 ''
27
27
g Bridani.
Mag. 4.2
56.2
541
52.4
51. 1
50.2
49-7
49.7
50.2
51.2
52.5
23
21
17
13
9
5
o
5
10
13
17
20
21
22
54-2
56.2
58.3
60.5
62.8 ^3
22
65.0
/;« rx 20
68.8 '^
1.090 -0.435
6*.272 79".84
Right
Ascension.
h
3
m
46
3.34
3.22
3.06
2.87
2.66
2.44
2.21
1.99
1.78
1.60
1.46
1.36
1.30
1.29
1-34
1.44
1.59
1.78
2.02
2.30
12
16
19
21
22
23
22
21
18
14
10
6
I
5
10
15
19
24
28
30
2.60
2.92
3.26
3.60^^
32
34
3.94
34
33
4.59 ^'
4.88 ^9
5.15 ''
5.38
23
20
5.58
5.74
5.86
5.93
5.96
5.95
5.89
5.79
16
12
7
3
I
6
10
Declina-
tion S.
36 27
//
49.6
51.5
53.0
54-1
54.7
54.8
54.5
53.7
52.5
50.9
48.9
46.5
43.9
41.0
38.0
34.9
31.7
28.5
25.5
22.7
20.2
18.0
16.2
14.9
14.1
13.9
14.2
150
16.4
18.2
20.4
22.9
25.5
28.3
31.1
33.7
36.1
38.2
19
15
II
6
I
3
8
12
16
20
24
26
29
30
31
32
32
30
28
25
22
18
13
8
3
8
H
18
22
25
26
28
28
26
24
21
1.243 -0.739
1 1 '.944 46".95
-o.oi +0,02 -0.02 +0,0^
+0.2 +0.ft \ -Ki.l "^^'^
320
APPARENT PLACES OF STABS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.4
10.4
20.3
30.3
Feb. 9.3
19.2
Mar. 1.2
II. 2
21.2
31-1
Apr. 1 0.1
20.1
30.1
May 1 0.0
20.0
30.0
June 8.9
18.9
28.9
July 8.9
18.8
28.8
Aug. 7.8
17.8
27.7
Sept. 6.7
16.7
26.6
Oct. 6.6
16.6
26.6
Nov. 5.5
15.5
25.5
Dec. 5.5
15.4
25.4
35.4
Sec <5, Tan d
Mean Place
Y Hydrl.
Mag. 3.2
Right
Ascension.
h m
3 48
s
66
74
81
86
88
3930
38.64
37.90
37.09
36.23
35.35 «,
33.64 °^
32.85 79
32.13
31.51
30.99
30.59
30.33
30.20
72
62
52
40
26
13
I
15
29
42
30.21
30.36
30.65
31.07
31.60 ^^
63
32.23
32.95
33.73
34.54
35.37
72
78
81
83
82
36.19
36.97
37.69
38.32
38.85
39.25
39.51
39.62
39.58
39.38
39.04
38.57
37.98
78
72
63
53
40
26
II
4
20
34
47
59
Declina-
tion S.
-7429
87.7
89.7
91. 1
92.0
92.3
20
14
9
3
3
8
92.0
91.2
89.8 '^
87.9 '^
85.5
24
27
82.8
79.7
76.4
72.9
69.3
65.6
62.0
58.5
55.3
52.4
49.9
47.8
46.3
45-3
45.0
45.3
46.2
47-7
49.8
52.3
55.2
58.4
61.7
65.1
68.4
71.4
74.1
J76.4
31
33
35
36
37
36
35
32
29
25
21
15
10
3
3
9
15
21
25
29
32
33
34
33
30
27
23
3-743
34".375
-3-607
8o".92
-0.08
+0.13
40.8
C Persei.
Mag. 2.9
Right
Ascension.
h m
3 48
40.43
40.38
40.28
40.15
39.99
39.82
39.64
39.46
3930
39.17
39.07
39.02
39.02
39.07
39.17
39.32
39.53
39.78
40.06
40.37
40.71
41.07
41.43
41.79
42.14
5
o
3
6
7
8
8
6
3
o
5
o
5
10
15
21
25
28
31
34
36
36
36
35
35
42.49
42.82 ^^
43.14 ^
43.43
4370
43.94
44.15
44.33
44.47
44-57
44.63
44.64
44.61
29
27
24
21
18
10
6
Declina-
tion N.
+31 37
tt
46.6
47.1
47.4
47.5
47.4
47.1
46.7
46.1
45.4
44.6
43.7
42.9
42.1
41.4
40.9
40.6
40.4
40.4
40.6
41. 1
41.7
42.5
43.4
44.5
45.6
46.8
48.1
49.3
50.5
51.7
52.8
53.9
54.9
55.8
56.7
57.5
58.2
58.7
5
3
I
I
3
4
6
7
8
9
8
8
7
5
3
2
o
2
5
6
8
9
I
I
2
3
2
2
2
I
I
o
9
9
8
7
5
1. 174 +0.616
39'.574 33".85
+0.01 -0.02
•K).2 +0.8
9 H. Camelop.
Mag. 5.2
Right
Ascension.
h m
3 49
s
43.91
43.75
43.53
43.25
42.92
16
22
28
33
35
36
42.57
42.21
41.86^5
41.54^^
41.27
27
20
41.07
40.94
40.90
40.95
41.09
41.31
41.61
41.99
42.43
42.92
43.45
44.01
44-59
45.17
45.75
46.32
46.87
47.39
47.87
48.31
48.70
49.03
49.30
49.50
49.62
49.67
49.64
49-53
13
4
5
14
22
30
38
44
49
53
56
58
58
58
57
55
52
48
44
39
33
27
20
12
5
3
II
2.053
42'.558
Declina-
tion N.
+6051
$t
36.1
37.8 '7
14.
39-2 ^
40.2
40.7
40.7
40.3
39.4
38.1
36.5
34.6
32.6
30.5
28.3
26.2
24.3
22.6
21.2
20.0
19.2
18.8
18.7
19.0
19.6
20.6
21.9
23.4
25.2
27.3
29.6
10
5
o
4
9
13
16
19
20
21
22
21
19
17
14
12
8
4
I
3
6
10
13
15
18
21
23
24
25
26
32.0
34.5
39.6 ^5
42.1 ^5
24
44.5
46.7
48.7
22
20
+1-793
i8".09
+0.04
+0.2
-0.06
40.8
£ Persei.
Mag. 3.0
Right
h
3
s
1.65
1.58
1.47
1.32
1. 14
0.94
0.73
0.53
0.35
0.20
0.09
0.02
0.01
0.06
0.16
0.32
0.54
0.81
I. II
1.45
1.82
2.20
2.59
2.99
3.38
3.76
4.13
4.48
m
52
7
II
15
18
20
21
20
18
15
II
7
I
5
10
16
22
«7
30
34
37
38
39
40
39
38
37
35
4.80 ^^
5.10 ^^
5.36
5.59
5.79
5-95
6.06
6.12
6,13
6.09
26
«3
20
16
II
6
I
4
Dedina-
tionN.
+39 45
//
48.2
49.1
49.7
50.1
50.2
50.0
49.6
48.9
48.0
47.0
45.8
44.6
43-4
42.3
41.3
40.5
39.8
39.4
39.2
39.3
39.6
40.1
40.8
41.7
42.8
44.0
45-3
46-7
48.2
49-7
51-2
52-7
54-2
55-6
57-0
58.2
59-3
60.3
9
6
4
I
2
4
7
9
10
12
12
12
II
10
ft
7
4
2
1
5
5
7
9
II
12
13
14
15
15
15
«5
15
14
14
12
II
10
1. 301
o*.709
■K).832
33"-88
.10.2
-0.03
40.8
APPARENT PLACES OF STAES, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
321
Mean Solar
Date.
Jan. 0.4
10.4
20.3
30.3
Feb. 9.3
19.2
Mar. 1.2
II. 2
21.2
311
Apr; 10. 1
20.1
30.1
Hay 1 0.0
20.0
30.0
June 8.9
18.9
28.9
July 8.9
18.8
28.8
Aug. 7.8
17.8
27.7
Sept. 6.7
16.7
26.6
Oct. 6.6
16.6
26.6
Nov. 5.5
15.5
Dec. 5.5
25.4
35-4
S Persei.
Mag. 4.0
Right
Ascension.
h m
3 53
9.90
9.84
9-74
9.61
9.44
9.25
9.06
8.87
8.70
8.56
8.45
8.39
8.38
8.42
8.52
Mom Place
8.68
8.89
9.14
9.43
9.75
20.10
20.47
20.84
21.22
21.59
21.95
22.30
22.63
22.94
23.22
23.48
23.70
23.89
24.04
24.15
24.22
24.24
24.21
4
10
16
21
25
29
32
35
37
37
38
37
36
35
33
31
28
26
22
19
15
II
7
Declina-
tion N.
+3532
43.1
43.8
44.3
44.6
44.6
44.4
44.0
43.4
42.6
41.7
40.7
39.7
38.7
37.8
37.0
36.4
36.0
35.8
35.8
36.0
36.5
37.1
37.9
38.9
40.0
41.2
42.4
43.7
45.0
46.3
47.6
48.9
50.1
51.3
52.4
53.4
54.3
55.0
7
5
3
o
4
6
8
9
10
10
10
9
8
6
4
2
o
2
5
6
8
o
I
2
2
3
3
3
3
3
2
2
I
o
9
7
y Eridani.
Mag. 3.2
1.229 +0.715
i8".983 29".67
DV «» D«. a +0.02 -0.03
IV ^> IX* ^ -H).] -10.9
19 13 — 21
Right
Ascension.
m
10
12
3 53
s
59.23 .
59.17 ^
59.07
58.95 ^^
58.80 \l
58.64
58.47
58.30
58.15
58.02
57.92
57.85
57.82
57.84
57.91
58.02
58.17
58.36
58.59
58.84
59.12
59.42
59.72
60.03
60.33
17
17
15
13
10
7
3
2
7
II
15
19
23
25
28
30
30
31
30
30
28
60.63
60.91
61.18 ^7
61.43 '^
61.65
22
20
61.85
62.02 ^^
62.16 ^^
62.26
62.33
10
7
3
62.36
62.36
62.32
o
Declina-
tion S.
--I344
77.0
78.4
79.6
80.5
81. 1
81.5
81.6
81.3
80.7
79.9
78.8
77.4
75.8
74.0
71.9
14
12
9
6
I
3
6
8
II
14
16
18
21
22
\ Tauri.
Var. 3-3-4.2
Right
Ascension.
23
23
69.7
67.4
65.1
62.8 ^^
60.5 '^
21
56.5 '^
54.8 ''
53.4 '^
52.4
51.7
51.5
51.7
52.2
53.1
10
7
2
2
5
9
12
54.3
55.8 '5
57.5 ''
59.3
61. 1
62.9
64.6
66.1
18
18
18
17
15
1.030 -0.245
58M96 79".36
-0.0 1 +0.01
+0.2 +0.9
[Bph 13]
h
3
m
55
52.40
52.36
52.28
52.17
52.04
51.89
51.73
51.58
51.44
51.32
51.23
51.17
51.16
51.20
51.28
51.41
51.58
51.79
52.04
52.31
4
8
II
13
15
16
15
14
12
9
6
I
4
8
13
17
21
25
27
29
31
32
32
52.60
52.91
53.23
53.55 ,,
53.86 3^
30
54.16
54.46
54.74
55.00
55.24
30
28
26
24
21
55.45
5564
55.80
55.93
56.02
56.08
56.10
56.08
19
16
13
9
6
2
2
Declina-
tion N.
+ 12 14
51.2
50.9
50.5
50.1
49.7
49.4
49.1
48.9
48.7
48.6
48.6
48.7
49.0
49.4
50.0
50.7
51.6
52.7
53.9
55.2
3
4
4
4
3
3
2
2
I
o
I
3
4
6
7
9
II
12
13
13
56.5
57.8 '^
59.1 ''
60.3
61.4
S Beticnli.
Mag. 4.4
Right
Ascension.
12
II
ID
62.4
63.2
63.8
64.2
64.5
64.6
64.5
64.3
64.0
63.7
63.3
62.9
62.5
8
6
4
3
I
I
2
3
3
4
4
4
h m
3 57
s
24.50
24.20
23.84
23.44
23.01
30
36
40
43
45
1.023 +0.217
5iV5i6 42^.92
0.00
+0.2
-0.0 1
+0.9
22.56
22.10
21.65
21.23
20.85
20.52
20.25
20.05
19.93
19.89
46
45
42
38
33
27
20
12
4
4
19.93
20.06 *^
20.27 ^^
27
20.54 '
20.88 3^
40
21.28
21.73
22.21
22.71
23.21
23.71
24.19
24.63
2503
25.38
25.66
25.86
25.99
26.04
26.01
25.89
25.70
2544
45
48
50
50
50
48
44
40
35
28
20
13
5
3
12
19
26
Declina-
tion S.
-61 38
//
48.5
50.7
52.4
53-5
54-1
54-1
53.6
52.5
50.9
48.8
46.3
43.4
40.3
36.9
33.3
22
17
II
6
o
5
II
16
21
25
29
31
34
36
36
36
29.7
26.1
22.6 ^^
19.3 \\
16.2 3'
27
13.5
II. 2
9.5
8.3
77
23
17
12
6
o
7-7
8.4
9.7
".5
13.8 'I
7
13
18
16.6
19.7
23.0
26.4
29.7
32.8
35.6
38.1
28
31
33
34
33
31
28
25
2.105 -'.853
2i".8o5 43".24
-0.04
+0.06
322
APPARENT PLACES OF STABS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.4
10.4
20.3
30.3
Feb. 9.3
193
Mar. 1.2
II. 2
21.2
Apr. 10. 1
20.1
30.1
May lo.o
20.0
300
June 9.0
18.9
28.9
July 8.9
18.8
28.8
Aug. 7.8
17.8
27.7
Sept. 6.7
16.7
26.7
Oct. 6.6
16.6
26.6
Nov. 5.5
15.5
25-5
Dec. 5.5
15.4
25.4
35-4
Sec 5, Tan 8
Mean Place
D'^ a. Dm a
2V ^, D^ S
y Tauri.
Mag. 3.9
Right
Ascension.
h
3
m
58
32.53
32.49
32.42
32.31
32.18 '^
4
7
II
32.03
31.87
31.72
31.58
31-46
31.37
31.31
31.29
31.32
31.40
31.52
31.68
31.88
32.12
32.38
32.67
32.97
33.27
33.58
33.89
34.19
34.48
34.75
35.01
35.24
35.45
35.64
35.80
35.92
36.01
36.07
36.09
36.07
15
16
15
14
12
9
6
2
3
8
12
16
20
24
26
29
30
30
31
31
30
29
27
26
23
21
19
16
12
9
6
2
2
Declina-
tion N.
+ 544
//
61.9
61.2
60.6
60.1
59.7
59-3
59.0
58.9
58.9
59.0
59.3
59.8
60.4
61.2
62.1
63.2
64.5
65.9
67.4
68.9
70.4
71.9
73.3
74.6
75.7
76.6
77.2
77.6
77.8
77.8
77-5
77.1
76.5
75.8
75.1
74-3
73.5
72.8
7
6
5
4
4
3
I
o
I
5
6
8
9
II
13
14
15
15
15
15
14
13
II
9
6
4
4
6
7
7
8
8
7
1.005
3I".622
+0.101
55".03
0.00
+0.2
0.00
+0.9
A Tauri.
Mag. 4.5
Right
Ascension.
h m
3 59
33^86
3382
33.74
33.63
33.49
4
8
II
14
16
16
16
33.33
33.17
33.01
32.86 '5
32.73 '^
10
32.63
32.57 .
32.56
32.60
32.69
32.82
33.00
33.22
33.47
33.76
4
9
13
18
22
25
29
31
32
33
34.07
34.39
3472
3506 \\
35.39
33
32
35.71
36.02
36.32
36.60
36.85
31
30
28
25
23
37.08
37.29
3746
37.60 "l
21
17
37.78
37.80
37.79
II
7
2
I
Declina-
tion N.
+ 21 50
52.5
52.5
52.5
52.4
52.2
51.9
51.6
51.2
50.8
50.4
50.0
49.6
49.3
49.2
49.2
49.4
49.7
50.2
50.9
51.7
52.7
53.7
54.7
55.8
56.9
57-9
58.8
59.7
60.5
61.2
61.8
62.2
62.6
62.9
63.2
63.4
63.5
63.6
o
o
I
2
3
4
4
4
4
4
3
I
o
2
3
5
7
8
10
10
10
II
II
10
9
9
8
7
6
4
4
3
3
2
I
I
1.077 +0.401
32*. 966 42".oo
+0.01 -0.0 1
+0.2 +0.9
c Persei.
Mag. 4.0
Right
Ascension.
8
12
17
21
23
24
h m
4 2
s
21.57
21.49
21.37
21.20
20.99
20.76
20.52
20.28 ^^
20.05 ^
19.86 '9
14
19.72
19.63
19.60
19.63
19.73
19.89
20.12
20.40
20.73
21.10
21.50
21.92
22.35
22.79
23.23
23.66
24.08
24.48
24.85
25.19
9
3
3
10
16
23
28
33
37
40
42
43
44
44
43
42
40
37
34
31
28
25.50
^578 ,,
26.01 '3
26.19 ^®
26.32
13
8
26.40
26.42
26.38
2
4
Declina-
tion N.
+47 28
//
67.7
68.9
69.9
70.6
70.9
70.9
70.6
70.0
69.0
67.8
66.5
65.0
63.4
61.9
60.4
59-1
58.0
57.1
56.5
56.1
56.0
56.2
56.6
57.3
58.2
59-3
60.6
62.0
63.6
65.3
67.1
68.9
70.8
72.6
74.4
76.1
77.6
79.0
12
10
7
3
o
3
6
o
2
3
5
6
5
5
9
6
4
I
2
4
7
9
II
3
4
6
7
8
8
9
8
8
7
5
4
1.480 +1.091
20".456 52". 18
+0.03
+0.2
-0.04
+0.9
p Tanzl.
Mag. 5.6
Right
m
s
32.72
32.68
32.60
32.48
32.34
32.18
32.01
31.84
31.68
31.54
31.43
31.37
31.35
31.38
31.47
31.60
31.78
32.00
32.26
32.55
4
8
12
14
16
17
17
16
14
II
3
9
13
18
22
26
29
32
33
34
32.87
33.20
33.54 . .
33.88 34
34.22 3^
34
34.56 ^,
34.88 32
35.19
35.48
35.75
36.00
36.22
36.40
36.55
36.67
36.75
36.78
36.77
31
29
27
25
22
18
15
12
8
3
I
Dcclint*
tionN.
+2615
tt
28.3
28.5
28.7
28.7
28.6
28.4
28.1
27.7
27.2
26.6
26.0
25.5
25.0
24.6
24.3
24.2
24.3
24.6
25.0
25.5
26.2
27.1
28.0
29.0
30.0
31.0
32.0
32.9
33.8
34-6
35.4
36.1
36.7
37.3
37.8
38.2
38.6
38.9
3
3
0
I
3
3
4
5
6
6
5
5
4
5
I
1
4
5
7
9
9
10
10
10
10
9
9
7
6
6
5
4
4
3
I.I 15 40493
3i«.78i i6".88
•♦0.01
4o.a
-0.02
40.9
APPARENT PLACES OF STARS, 1913.
323
FOR THE UPPER TRANSIT AT WASHINGTON.
0^ Bridani.
/i Tauri.
cc Horologii.
a Bettculi.
Heao Solar
Mag. 4. 1
Mag. 4.3
Mag. 3.8 1 Mag. 3.4
Date.
I
1
Riffht
Declina-
Right
Declina-
Right
Declina- 1 Right
Declina-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion S.
h m
0 /
h m
0 /
h m
o /
h m
0 9
4 7
-73
4 10
+ 840
§ m
4 II
-42 29
4 13
-62 40
Jan. 0.4
38.10
45-1 „
s
49-47
w w
38.4 ,
877 ,,
WW
93-5 ,,
s
20.88
r r
93.2 „
10.4
38.05 I
46.3 "
T f
49-44 ,
37-8 \
8.64 '^
_ T "7
22
97-5 ,,
20.58 30
20.22 ^
955 \\
20.3
37-97 „
47.4 "
48.2 I
48.8 ^
4
49-37 ,;
37-3 \
^•47 Z
97-4 '
30.3
37-86 "
49-27 °
36-9 *
«-^7 °
98.8 '3
19.81 ^!
98.8 "4
Feb. 9.3
3772 ;*
49-15 "
15
36.5 \
«°3 :^
99-7 ,
4
19.36 ^5
4/
99.6 ^
19.3
37-57 ,,
37-4^ 6
49.2
49.00
36.2
7-77 .,
100. 1
18.89
99-8
Mar. 1.2
49.4 _
35-9 ^
7-5° ^
1 00.0
99-4 , ,
17.92 ^°
99-5 3
987 ,^
II. 2
37-25 ,.
49.3 ,
48.68 '^
35.7 ,
7-24 't
21.2
37-10 ^
49.0 ^
48.4 J
48-53 w
35.6 '
6-99'^
98-3
17.47 ;^
97-3 \\
31.2
36-97 :.
48.40 ^
35.6 °
6.77 "
96.8 '5
17.05 ^
95-4 '^
II
8
10
2
19 ■ 20
37
23
Apr, lo.i
36.86
47-6 ,„
48-30 .
48-24 I
35.8 ,
6.58
94-8 ,,
16.68
93.1 _
20.1
36.79 I
46.6 «
36.1 3
6.43 ^
92-5 3
16.37 w
90.4
30.1
36.76 f
45.4
48.22 \
36.5 \
6.32 "
89-8 ^l
16.13 \)
87.3 ^
May lo.o
36.77 '
43-9 \i
48.24 ^
48.30 ^^
37-^ 8
6.27 ^
86.9 '9
15.97 'J
84.0 33
20.0
36.82 5
10
42.2 '7
^ 18
37.9 \
6.28 '
6
83.8 3'
32
15.89 ^
80.6 34
36
i 300
36.92
+°-+ TO
48.41 ,,
48.57 ^
388 .„
6.34 . ,
80.6
15.90
77.0 .
June 9.0
37.07 ^l
37.25 ,^
385 '
39.^ .0
6.45
77-3 ^3
15.99 ,«
73-4 ^'
18.9
36.5 ^
48.76 w
.. » ^ 12
41.0
6.62 '7
74-0 "
^^•^7 '
698 t
28.9
37-47 11
34-4 ''
48.99 '^
42.3 ,
6-84 "
70.8 3^
16.42 ^5
66.4 34
My 8.9
37.72 I
32-4 !
49-25 '
43.7 't
M ,^ 26
7-^0
67.8 3°
16.74 ^'
63.3 ^^
27
«9
28
14
29
27
38
28
18.9
37.99 ^^
3°-5 ,8
^^•7 6
49-53 ,^
45.1 ,,
7.39 ,,
^5-1 ,,
17.12
^•5 _
28.8
38.28 11
49.83 ^^
46.4 ^
771 ,:
62.7 '4
17.56 ^^
58.1 ^4
Aug. 7.8
38.58 ^°
27.1 '
50.14 I
47.7 \\
^•^5 ^^
60.8 '9
18.04 "^
56.2 '9
17.8
38.88 ^"^
25.8 3
50.45 ^
^^•9 0
^•4^ ^6
59-4 '^
18.54 ^^
54.8 '4
27.7
39.18 11
24-7 „
50.76 3'
49.9 '^
«-77 ^^
58.5 !
19.06 52
54-0 *
30
8
30
9
36
4
52
I
Sept. 6.7
39.48
239 .
51.06
50.8
^•^^ ^A
58.1
'9-58 ^^
53-9 ^
16.7
39.77 _^
235 *
51.36^^
51.5 \
9.47 ,:
58-3 «
20.08 5°
54-4
26.7
40.04 J
23.5 °
51.64 \l
52.0 5
9.80 ^^
59-^ ,!
20.55 1!
55-5 "
Oct 6.6
40.29 ^
23.8 I
51.90^^
52.2 ^
10.10 *^°
60.5 '4
20.98 4^
57.2 '7
16.6
40.53 ,;
24-4 I
52.15 ^^
52.2 °
27
10.37 7
62.4 '9
21.36 3^
59-5 '3
21
9
23
I
23
23
31
27
26.6
40.74 _«
25-3 „
5238 ,^
52-1 ,
10.60
^4-7 „
21.67 _
62.2
Nov. 5.6
40.92 .
41.08 ;
26.5 "
52.58 ^
51-8-3
10.79 |9
67-4 !
21.91 ^
65.2 3«
15-5
279 ;*
52.75 :
51-3 \
10.94 ,
70.3 9
22.07 '«
68.5 33
n ^5.5
41.20 'I
29-3 ,:
52.89 \i
50.7 \
11.04^^
73-3 3°
8
22.15
71.934
^ 5.5
41.29 9
30.8 5
52.99 ^
50.1 ^
11.09
76-3 Z
22.14
75.3 3'*
5
15
7
6
0
30
9
32
15.4
41.34 ,
32.3 ,,
53.06
49.5 ,
48.9 J
11.09 .
if:? «
22.05 «
78-5 ,„
25.4
41.36 '
33.8 \\
53.09 ^
1 1 .04 ^
21.87 'J
81-5 3^
35.4
fed, Tan d
41.34
35-1 '^
5309
48.3 ^
10.94
84.5 "*
21.62 ^5
84.2 ^7
1.008 -0.124
1. 01 2
+0.153
1356 -0.917
2.180 -1.937
Men Place
37«.o8o 49"-33
48'.522 30^.76
7".i22 9i".44
-0.02 +0.03
i8*.oii 89". 16
D'^o.D.a
0.00 0.00
0.00 0.00
-0.05 40.QS
IVf B-*
+0.2
40.9 1
+0.2
+0.9 1
+0.2
•VO.9
^ -¥0.1
■^0,^
[Eph 13I
324
APPARENT PLACES OF STARS, 1913
kOR the upper transit at WASHINGTON.
Y Tauri.
<^ Tauri.
i;^ Bridani.
^Taiirl.
Mean Solar
Mag. 3.9
Mag. 3.9
Mag. 4. 1
Mag. 3.6
Date.
1
1
Right
Dedina- I
Right
Declina-
Richt 1 Dcclina-
Right 1 Dc^hw-
Ascension.
tion N
r.
Ascension.
tion N.
Asceosion. j tion S.
1
Ascension. , tion N.
h m
0
t
h m
0 t
h m
0 /
h m
e »
4 14
+ 1525
mm
4 17
+ 17 20
4 20
-3412
4 23
+i8 59
Jan. 0.4
s
51-39 ,
WW
15-0
8
5590 ,
WW
30.8
47.57 „
66.6
s
33.08
27.6
10.4
51.36 \
5^-30 .'
14.8
2
55-88 I
30.6
47.48 9
68.7 ''
7°-5 ,.
33.06
33.00
27.6 *»
20.3
14.6
2
«*
30.4 ,
47.35 \l
♦7-'9 \l
27-5 '
30.3
51.20 °
14.3
3
0m
55.72 °
30.2
71.9 '4
32.90
27-3 ,
Feb. 9.3
51.07 '•>
15
14.0
3
3
55.59 4
30.0 ^
47.00 ^9
72.9 5
32.77 ,^
27.1 ^
19.3
50-92
50.76 ^
50.60 '^
137
\^
55-44 „
29.8
46.78 „
73.4 -
32.62
32-46 ^
32.30 ,g
32-H ; .
26.9
Mar. 1.2
13.5
2
55.27 \l
55." ,°
29.5 ,
46.55 '^
73.4 ,
26.7 *
II. 2
13-2
3
29.2 \
46.33 ",
73.0 *
72.2
26.4 \
21.2
50.45 '^
13-0
2
54.96 5
29.0
46.11 "
26.1 3
312
50.32 'f
12.8
2
54.82 '♦
28.8 *
45.91 ^^
T 1
70.9 :,
32.00 *
25.8 3
II
I
II
2
17
17
II
3
Apr. 10. 1
50.21
12.7
54.71 ^
28.6
45 .74 „
^9-2 ,„
31.89 „
31.81 \
25.6
20.1
50.14 \
12.6
I
54.64 ;
28.5 '
45.61 '3
67-' '°
25-4 ,
301
50.12
12.7
I
54.61 ^
28.4
45.52 I
^4-9 ^
31.78 ^
25.3 -
May 1 0.0
50.14
50.21 (
12.9
2
A
54.63 ^
28.5 ;
45.48 4
3^-79 6
25.3 ,
20.0
133
4
54.70 ,:
28.7 ^
45.50 ,
59.5 ,„
31.85 ,:
25.4 '
II
5
II
4
6
30
II
3
30.0
50.32
50.48 'f
13.8
jM
54.81
54-97 '^
29.1
45.56 „
56-5 ,„
31.96 ,g
32.12
257 ^
June 9.0
14.5
7
8
29.7 ^
45.67 "
45.83 '^
53.5 ^^
26.1 \
18.9
50.68 '*»
15.3
55-17 n
30.4 I
50-4 ^!
32.31 '9 i 26.7 "
28.9
50.91 ^^
5*-'7 ,°
16.2
9
55-40 I
55.66 '^
8
31.2 °
46.03 ^°
47-4 Z
32.54 ,X
32.80 ^f
27.4 '0
28.2 *
July 8.9
17.2
10
32-1 .„
46.27 '4
44-5 '9
29
II
29
10
27
26
29 1 V
18.9
51.46
18.3
55.95 „
33.1 ,„
46.54 ,„
41.9 „
3309 „ 1 291 -
28.8
51.77 ^;
19.4
1 1
56.26 3'
34.1 °
46.84 ^°
39.6 '3
33.40 3 30.0 ^
Aug. 7.8
52.08 3«
20.5
II
56.58 3^
35-2 "
47.16 \\
37.6 ^°
3372 3 31,0
17.8
52.40 \
21.6
II
9 ^\
56.90 \\
36.2 •*'
47.49 ^^
3^-' 0
34.04,. 132.0
34.37^^132.9 ^
27.7
52.72 ^,
22.6
10
57-22 3^
37.2 '°
47.82 33
35. » "
3«
9
32
9
33
5
Sept. 6.7
53.03 „
23.5
8
6
57.54 „
38.1 ^
38.9 2
48.15 „
34.6 „
34.69 „ 33-7 .
16.7
53-34 ,'
24.3
57.85 ^'
48.47 ^'
34.6 I
35.2 „
35.01 3
0
34-5 ,
26.7
53.63 ^
53-9' '!
54.17 t
24.9
58.15 f°
39.5 ^
48.77 Z
35.31 30
35.2 ;
Oct. 6.6
25.4
5
58.43 'J
58.69 ^^
40.0 5
49-06 ^9
49-32 °
36-3 "
37-9 'J
35.60 ^9
35-7 \
16.6
25.7
3
40.4 :
35.87 '^
36.1 ♦
23
I
24
2
23
20
25
3
26.6
54.40
25.8
58.93 ,,
40.6
49-55 ,„
39-9 „
36.12
36.4 ,
Nov. 5.6
54.61 •
54.79 '
25.8
0
59.15""
40.7 J
49-75 Z
49.91
44.8 'f
47.6 i
50.4 '«
27
3^-34 "
36.6
15.5
25.8
0
59.34 '
40.8
36.53 ,^ 36.7 '
36.69 ^ 36.7 !
25.5
54-94 ,;
257
I
59.49 ,,
40.7 \
50.03 '
Dec. 5.5
55.06 -
25.5
2
3
59-61 'I
9
40.6
50.10 '
3
36.82 '3
9
36.7 „
15.4
55.14 ,
25.2
^\
59-70
40.5
50.13 „
53-' 26
36.91
36.7 ,
25.4
55.18 4
25.0
2
4%
59-74 *
404
50.11
50.05
36.96 \
36.6
35-4
55-18 °
24.7
3
76
59-74 °
40.2
58.1 '^
36.97
36.5 '
Sec 6, Tan 6
1.037 +0.2;
1.048 +0.312
1.209 -0.680
1.058 40,344
Mean Place
50'.43i 5".94 1
54'.928 2i".32
46*. 1 27 66".36
32«.o83 \n"M
D> a, Dm a
-K>.OI -0.01
[
+0.01 -0.0 1
-0.02 -10.02
+0.01 -O.OI
D^ S, D« 6
-K>.2
+0.9
+0.2
+0.9 1
■to. 2
+0.9 1
+0.2
+0.9
tEph i3l
APPARENT PLACES OF STABS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
325
3f ean Solar
Date.
Jan.
Feb.
Mar.
Apr.
May
June
July
Aug.
Sept.
Oct.
Nov.
Dec.
0.4
10.4
20.4
303
9-3
19.3
1.2
II. 2
21.2
312
lO.I
20.1
30.1
lO.I
20.0
300
9.0
18.9
28.9
8.9
18.9
28.8
7.8
17.8
27.8
6.7
16.7
26.7
6.6
16.6
26.6
5.6
15.5
255
5.5
15.5
254
35.4
Sec*, Tan 6
Mean Place
BfS, D«i S
6 Mensse.
Mag, 5.6
Right
Ascension.
h m
4 23
s
57.92
56.91
55.73
54.41
52.99
lOI
118
132
142
147
Declina-
tion S.
-80 24
ft
70.6
73.0
51.52
50.03
48.56
47.14
45.81
44.61
43.55
42.67
41.98
41.50
41.24
41.21
41.40
41.81
42.42
43.21
44.17
45.27
46.46
47.72
49.00
50.26
51.45
52.54
53.48
54.23
54.77
55.08
55.14
54.94
54.50
53.82
52.92
149
147
142
133
120
106
88
69
48
26
3
19
41
61
79
96
no
H9
126
128
126
119
109
94
75
54
31
6
20
44
68
90
24
18
74.8
76.1 'I
76.9 :
77'^
76.8
75.9
74.5
72.6
70.3
67.7
64.7
61.4
58.0
54.5
51.0
47.6
44-3
41.2
38.5
36.2
34.4
33.1
32.4
32.3
32.8
34.0
35.7
38.0
40.7
43.7
47.0
50.4
53.7
56.9
59.9
62.5
3
9
H
19
23
26
30
33
34
35
35
34
33
31
27
23
18
13
7
I
5
12
17
23
27
30
33
34
33
32
30
26
6.006 -5.922
49«.572 66".8i
m Persei.
Mag. 6. 1
Right
Ascension.
h
4
m
27
-0.14
+0.2
+0.15
+0.9
8^61
8.57
8.48
8.34
8.17
7.97
7.75
7.52
7.31
7.12
6.97
6.86
6.81
6.82
6.89
7.01
7.19
7.43
7.72
8.04
8.39
8.77
9.17
9.58
9.99
4
9
14
17
20
22
23
21
19
15
II
5
I
7
12
18
24
29
32
35
38
40
41
41
41
20.40
20.80 ^°
21.18 3*
21.55
21.90
37
35
32
22.22
22.50
22.75
22.96
23.12
23.23
23.29
23.29
28
25
21
16
II
6
o
Declina-
tion N.
+42 52
//
58.4
59.6
60.5
61.2
61.7
61.8
61.7
61.3
60.6
59.7
58.7
57.5
56.2
54.9
53.7
52.6
51.6
50.8
50.2
49,8
49.6
49.7
50.0
50.5
51. 1
51.9
52.8
53.9
55.1
56.4
57.8
59.2
60.6
62.1
63.6
65.0
66.3
67.5
12
9
7
5
I
I
4
7
9
10
12
13
13
12
II
10
8
6
4
2
I
3
5
6
8
9
I
2
3
4
4
4
5
5
or Tauri.
Mag. I.I
Right
Ascension.
h m
4 30
8
56.62
56.60
56.55
56.46
56.34
56.19
56.03
55.87
55.71
55.57
55.45
55.37
55.33
55.34
55.39
2
5
9
12
15
16
16
16
14
12
8
4
I
5
10
55-49 _ .
55.63 ]l
55.82 11
56.04 "
56.29 II
5^-57 ,^
56.87 ^^
57.18 11
57.50 ^
57.82
58.14
58.45
58.75
59.04
59.31
32
32
31
30
29
27
25
1.364 +0.929
I7-.396 44".47
+0.02
+0.2
-0.02
+0.9
tEph 13]
22
20
17
59.56
59.78
59.98
60.15
60.28 '^
10
60,38
60.44
60.45 ^
Declina-
tion N.
-f-16 20
//
6.0
5.8
5.5
5.3
5.1
4.9
4.6
4.4
4.2
4.0
3.9
3.8
3.8
3.9
4.2
4.6
5.2
5.9
6.7
7.5
8.5
9.5
20.5
21.5
22.4
23.2
23.9
24.4
24.8
25.1
25.2
25.2
25.1
24.9
24.7
24.5
24.3
24.0
2
3
2
2
2
3
2
2
2
I
I
o
I
3
4
6
7
8
8
10
10
10
10
9
8
7
5
4
3
I
o
I
2
2
2
2
3
V Eridanl.
Mag. 4.1
Right
Ascension.
h
4
m
31
s
59.32
59.30
59.24
59.14
59.01
58.86
58.70
58.54
58.38
58.24
58.12
58.03
57.98
57.97
58.01
2
6
o
3
5
6
6
6
4
2
9
5
I
4
8
13
17
20
58.09
58.22
58.39
58.59 ^,
58.82 ^3
25
59.07
59.35
59.64
59.94
60.24
1.042
55'.598
+0.293
.72
6"
+0.01
+0.2
-0.0 1
+0.9
60,54
60.84
61.12
61.39
61.64
61,87
62.08
62.26
62.41
62.52
62.60
62.64
62.65
28
29
30
30
30
Declina*
tionS.
30
28
27
25
23
21
18
15
II
8
4
I
-331
/f
40.9
42.0
43.0
43.9
44.6
45.0
45.2
45.3
45-2
44.8
ir
10
9
7
4
2
I
I
4
6
44.2
43-4
42.4
41.2
39.8 !*
8
10
12
15
17
18
18
18
18
17
15
13
10
8
4
I
2
5
8
10
12
14
14
14
30.5
31.8 '^
33.1 '^
38.3
36.6
34.8
33.0
31.2
29.4
27.7
26.2
24.9
23.9
23.1
22.7
22.6
22.8
23.3
24.1
25.1
26.3
27.7
29.1
1.002 -0.062
58«.248 46".43
0.00
•fO.I
0.00
40.9
326
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.4
10.4
20.4
30.3
Feb. 9.3
19.3
Mar. 1.2
II. 2
21.2
312
Apr. 1 0.1
20.1
30.1
May lo.i
20.0
30.0
June 9.0
18.9
28.9
July 8.9
18.9
28.8
Aug. 7.8
17.8
27.8
Sept. 6.7
16.7
26.7
Oct. 6.6
16.6
26.6
Nov. 5.6
15.5
25.5
Dec. 5.5
15.5
25.4
35.4
oc Doradus.
Mag. 3.5
Right
Ascension.
Sec 5, Tan <5
Mean Place
h m
4 32
9.23
9.04
8.79
8.50
8.17
7.81
743
7.05
6.69
6.35
19
25
29
33
36
38
38
36
34
30
6.05
5.80 ^5
5.60^°
5.46 '5
5.39 I
5.39 .
5.46 '
5.60'^
5.80
6.06
20
26
31
6.37
6.73
7.12
7.54
7.97
36
39
42
43
43
8.40
8.82 ^^
9.23 ^'
9.61
9.96
38
35
30
D V a. Dm a
Df d, D«d
10.26
10.50
10.68
10.80
10.86
10.84
10.75
10
24
18
12
6
2
.60 '5
Declina-
tion S.
-55 12
//
90.7
93.3
95.4
97.1
98.2
98.8
98.8
98.3
97.2
95.7
26
21
17
II
6
o
5
II
15
20
24
93.7
88.6 ^7
85.5 \\
82.2 33
34
78.8
75.3 ^^
71.8 35
68.4 3^
65.2
32
29
62.3
59.7
57.6
56.0
55.0
54-6
54.8
55.6
570
59.0
61.5
64.4
67.6
70.9
74-3
77.6
80.7
83.5
26
21
16
10
4
2
8
20
25
29
32
33
34
33
31
28
1-753 -1.440
6'.930 88".8i
-0.03
+0.1
+0.03
40.9
53 Eridani.
Mag. 4.0
Right
Ascension.
h m
4 34
2*83
2.79
2.72
2.61
2.47
4
7
II
14
16
2.31
2.14
1.96
1.79
1.63
1.50
1.40
1.34
1.32
1-34
1.41
1.52
1.68
1.87
2.10
2.35
2.62
2.91
3-21
3.52
3.82
4.11
4-39
4.66
4.91
5-14
5.35
5-53
5.67
5.78
5.85
5.88
5.87
17
18
17
16
13
10
6
2
2
7
II
16
19
23
25
27
29
30
31
30
29
28
27
25
23
21
18
14
II
7
3
I
Declina-
tion S.
-1427
//
80.4
82.0
83.4
84.6
85.4
86.0
86.3
86.3
85.9
85.2
16
14
12
8
6
3
o
4
7
9
12
84.3
83.1
81.6 ^5
79.9 '^
77.9
75.8
73.6
71.3
69.0
66.8
64.6
62.6
60.9
59.5
58.4
57.7
57.4
57.5
58.0
58.9
60.2
61.8
63.6'
65.5
67.5
69.5
71-4
73.1
20
21
22
23
23
22
22
20
17
14
II
7
3
I
5
9
13
16
18
19
20
20
19
17
r Tauri.
Mag. 4.3
Right
Ascension.
1.033 -0.258
ii».664 84".09
-0.0 1 +0.01
+0. 1 -K>.9
[Eph 13I
h
4
8
2.36
2.35
2.30
2.21
2.08
.93
.76
•59
.43
.28
.16
.07
.02
.02
.07
.17
.31
.50
.73
.99
2.27
2.58
2.90
3.23
3.57
3.90
4.22
4.54
4.84
5.13
5.40
5.64
5.85
6.03
6.18
6.29
6.35
6.37
m
37
I
5
9
13
15
17
17
16
15
12
9
5
o
5
10
14
»9
23
26
28
31
32
33
34
33
32
32
30
29
27
24
21
18
15
II
6
2
Declina-
tion N.
1.085
l".298
+22 47
99
37.4
37-5
37.6
37.7
37.6
37.5
37-3
37- 1
36.8
36.4
36.1
35.8
35-5
35.3
35.2
35.2
35.3
35-6
36.0
36.5
37-2
37-9
38.7
39.5
40.3
41. 1
41.8
42.4
42.9
43.4
43.8
44.1
44.4
44.6
44.8
45.0
45.1
45.2
3
4
3
3
3
2
I
o
3
4
5
7
7
8
8
8
8
7
6
5
5
4
3
3
2
2
2
I
I
+0.420
27".o6
Oroombridge 848.
Mag. 6.0
Right
Ascension.
h m
4 37
S
lO.OI
9.76
9.35
8.81
8.16
7.43
6.66
5.88
513
4.45
3.87
3-41
310
2.95
2.96
3.14
3.49
3.99
4.63
540
6.27
7.23
8.26
9.33
10.43
25
41
54
65
73
77
78
75
68
58
46
31
15
I
18
35
501
64
77
87
96
103
107
no
no
Dedina-
tiooN.
+75 47
M
21.7
+0.01
-K>.I
-0.0 1
-K>.9
^•53 ,^
2.62 '^
3.69 '^^
4.71
5.66
6.53
7.29
7.93
8.43
8.79
8.99
9.01
8.86
102
95
87
76
64
36
20
2
15
26
24.3 ,,
26.6 ^3
28.5 '^
29.9
14
8
30.7
310
30.7
29.9
28.5
26.7
24.6
22.2
19.6
16.9
143
1 1.7
9.3
7.2
5-3
3.8
2.6
1.8
1.5
1.6
2.1
3.0
4-3
5.9
7.9
4.073
6-.285
3
3
8
14
18
21
24
26
27
26
26
24
21
19
15
12
8
3
I
5
9
13
16
20
23
26
28
10.2
12.8
15.6
5^ 18.6 30
21.6 30
31
24.7
29
27.6
30.4
28
+3.948
i/'
4".45
+0.10
+0.1
-0.09
40.9
APPARENT PLACES OF STARS, 1913.
327
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.4
10.4
20.4
303
Feb. 9.3
19-3
Mar. 1.3
11.2
21.2
312
Apr. 10. 1
20.1
30.1
May 10. 1
20.0
30.0
June 9.0
19.0
28.9
July 8.9
18.9
28.8
Aug. 7.8
17.8
27.8
Sept. 6.7
16.7
26.7
Oct. 6.7
16.6
26.6
Nov. 5.6
Dec 5.5
15.5
254
35-4
a Coeli.
Mag. 4.5
Right
ASCPIIMOP.
h m
4 37
47.10
47.00
46.85 '5
46.66 ^^
46.43 '^
10
SK^,Tan5
Hon Place
46.18
45-91
45.64
45.38
45.14
25
27
27
26
24
21
44.93 _g
44.75 '
44.62 '3
44.54
44.51
44.54
44.62
44.75
44.93
45.16
3
3
8
»3
18
23
27
30
45.43
45.73 „
46.06 33
46.40 34
46.75
47.11
47.46
47.79
48.11
48.40
48.66
48.88
49.06
49.20
49.28
49.31
49.29
49.22
35
36
35
33
32
29
26
22
18
14
8
3
Declina-
tions.
-42
//
47.1
49.6
51.7
53-3
54.5
55.2
55.4
55.1
54.3
53.1
51.4
49.3
46.9
44.2
41.2
38.1
34.9
31.6
28.4
25.3
22.5
20.0
17.9
16.2
15.1
14.6
14.6
15.2
16.4
18.1
25
21
16
12
7
2
3
8
12
17
21
24
27
30
31
32
33
32
31
28
25
21
17
II
5
o
6
12
17
21
26
29
30
20.2
22.8
25.7
28.7
31.8 ^"
31
34-^00
37.8 "9
27
40.5 ^
1.346 -0.901
45'-405 47 "00
4 Cameiop.
Mag. 5.4
Right
Ascension.
h m
4 40
46.76
46.70
46.58
46.39
46.15
12
19
24
28
31
32
31
45.87
45.56
45.24
44.93 ,,
44.66 ^7
23
44.43
44.25
44.14
44.11
44.16
Declina-
tion N.
+5636
//
'9-' .8
32.5
33-8 \i
34-8
10
18
II
3
5
12
-0.02
40.I
40.02
+0.9
44.28
44.48
44.75
45.09
45.48
45.92
46.39
46.89
47.41
47.93
48.46
48.98
49.49
49.98
50.44
50.87
51.25
51.58
51.86
52.08
52.23
52.30
52.29
20
27
34
39
44
47
50
52
52
53
52
51
49
46
43
38
33
28
22
15
7
I
35.3
35.4
35.1
34.4
33.4
32.0
30.4
t28.6
26.7
24.8
23.0
21.2
19.6
18.2
17.1
16.2
15.6
15.3
15.3
15.6
16.2
17.0
18.1
19.4
21.0
22.7
24.6
26.6
28.7
30.9
33.1
35.1
37.1
I
3
7
o
4
6
8
9
9
8
8
6
4
I
9
6
3
o
3
6
8
II
13
16
17
19
20
21
22
22
20
20
^ Eridani.
Mag. 4.2
Right
Ascension.
I.817 +1.517
45'.o63 I3".8i
h m
4 41
s
10.20
10.18
10.12
10.03
9.91
+0.04 -0.03
+0.1 +0.9
[£ph Z3l
2
6
9
12
15
9.76
9.60
9.43
9.27
9.12
9.00
8.91
8.85
8.84
8.87
8.94
9.06
9.22
9.41
9.64
16
17
16
15
12
9
6
I
3
7
12
16
»9
23
25
0.16 '7
0.45 ^^
0.74
1.04
29
30
30
1.34
1.63
1.92
2.19
2.45
2.69
2.91
3.10
326
3.38
3.47
3.52
3.53
29
29
27
26
24
22
19
16
12
9
5
I
Declina-
tion S.
-324
//
42.3
43.5
44.5
45.4
46.1
46.6
46.9
46.9
46.8
46.5
46.0
45.2
44.2
43.0
41.7
40.2
38.5
36.8
35.0
33.2
31.5
29.8
28.3
27.0
26.0
25.3
24.8
24.7
24.9
25.4
26.2
27.3
28.5
29.9
31.3
32.7
34.1
35.4
12
10
9
7
5
3
o
I
3
5
8
o
2
3
5
7
7
8
8
7
7
5
3
o
7
5
I
2
5
8
II
12
14
14
14
14
13
n^ Orionls.
Mag. 3.3
Right
Ascension.
1 .002 -0.060
9".096 48".o8
h
4
m
45
s
8.04
8.03
7.98
7.90
7.79
7.65
7.49
7.33
7.17
7.03
6.91
6.82
6.76
6.75
6.79
6.87
6.99
7.15
7.35
7.58
7.84
8.12
8.41
8.71
9.02
9.33
9.63
9.92
0.21
0.48
0.73
0.96
1. 16
1.33
1.47
1.57
1.63
1.66
I
5
8
II
14
16
16
16
14
12
9
6
I
4
8
12
16
20
23
26
28
29
30
31
31
30
29
29
27
25
23
20
17
10
6
3
Declina-
tion N.
+ 648
//
44.5
43.8
43.2
42.7
42.2
41.8
41.6
41.5
41.4
41.5
41.7
42.0
42.5
43.1
43.9
44.8
45.9
47.1
48.4
49.7
51.0
52.3
53.5
54.6
55.5
56.2
56.7
57.0
57.1
56.9
56.5
56.0
55.4
54.6
53.7
52.9
52.1
51.3
7
6
5
5
4
2
I
I
I
2
3
5
6
8
9
II
12
13
13
'3
13
12
II
9
7
5
3
I
2
4
5
6
8
9
8
8
8
0.00
+0.1
0.00
+0.9
1.007 +0.1 19
6V96i 36^.96
0.00
■VOA
0.00
328
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.4
10.4
20.4
30.3
Feb. 9.3
193
Mar. 1.3
11.2
21.2
31.2
Apr. 1 0.1
20.1
301
May 10. 1
20.0
30.0
June 9.0
19.0
28.9
July 8.9
18.9
28.8
Aug. 7.8
17.8
27.8
Sept. 6.7
16.7
26.7
Oct. 6.7
16.6
26.6
Nov. 5.6
15.5
255
Dec. 5.5
15.5
25.4
35.4
Sec «, Tan 8
Mean Place
D^ S, D» 8
9 Camelop.
Mag. 4.4
Right
Ascension.
h m
4 45
s
26.00
25.91 ^l
2543
25.08 ^5
41
24.67
2423
23.78
23.34
22.94
22.60
22.34
22.16
22.08
22.10
22.23
22.46
22.79
23.20
23.69
44
45
44
40
34
26
18
8
2
13
23
33
41
49
55
61
65
68
24.24
24.85
25.50
26.18
26.88 70
70
27.58
28.27
28.95
29.60
30.21
30.78
31.29
31-73
32.09
32.37
32.55
32.62
32.59
69
68
65
61
57
51
44
36
28
18
Declina-
tion N.
+66 II
//
62.7
65.0
67.0
68.7
69.9
70.6
70.9
70.7
70.0
68.9
67.4
65.5
63.4
61.2
58.9
56.6
54.4
52.3
50.5
48.9
47.6
46.6
46.0
45-7
45.8
46.2
47.0
48.1
49-5
51.2
53-2
55-5
57.9
60.4
63.0
65.7
68.2
70.6
23
20
17
12
7
3
2
7
II
15
19
21
22
23
23
22
21
18
16
13
10
6
3
I
4
8
II
14
17
20
23
24
25
26
27
25
24
2.478 +2.267
23*-645 46".67
+0.06
+0.1
-0.05
+0.9
^ Tauri.
Mag. 5.1
Right
Ascension.
h
4
8
8.07
8.06
8.02
7-94
7.82
7.67
7.51
7-34
7.18
7.03
6.91
6.82
6.76
6.75
6.79
6.88
7.01
7.19
7.40
7.64
46
I
4
8
12
15
16
17
16
15
12
9
6
I
4
9
13
18
21
24
27
8.21 30
8.52 ^'
8.84 ^^
9.16 3^
32
948 ,^
9.80 ^*
31
20.11
20.41
20.70
30
29
26
20.96
21.20 ^4
22
21.42
21.61 '^
21.76
21.87
21.94
21.97
15
II
7
3
Declina-
tion N.
+ 18 41
43.0
42.9
42.8
42.7
42.6
42.4
42.2
42.0
41.8
41.6
41.4
41.3
41.2
41.2
41.3
41.5
41.9
42.4
43.0
43.7
44.5
45-3
46.1
46.9
47-7
48.4
49.0
49-5
49-9
50.2
50.3
50.4
50.4
50.3
50.2
50.1
50.0
49-9
I
I
I
I
2
2
2
2
2
2
I
I
o
I
2
4
5
6
7
8
8
8
8
8
7
6
5
4
3
1.056 +0.338
i6».98o
33".44
+0.01 -o.oi
+0. 1 +0.9
TT^ Orlonls.
Mag. 3.9
Riglit
Ascension.
h m
4 49
s
4423
44.22
44.18
44.10
4398
43.84
43.68
43.52
4336
43.21
43.08
42.99
42.93
42.91
42.94
4
8
6
6
6
5
3
9
6
2
3
7
43.01
43.12
43.28
43.47
43.69
II
16
19
22
25
27
29
43.94
44.21
44.50
44.80^0
45.10
30
30
45.40
45.70
45-99
46.27
46.53
46.78
47.01
47.21
47.38
47-52
47.62
47.68
47.71
30
29
28
26
25
23
20
17
14
10
6
3
I.OOI
43'. 132
Declina-
tion N.
+ 2 17
//
63.5
62.5
61.7
61.0
60.4
60.0
59.7
59.6
59.6
59.8
60.2
60.7
61.4
62.2
63.2
64.4
65.7
67.1
68.6
70.1
71.6
73.0
74-3
75.5
76.5
77.2
77-7
77.9
77.8
77.5
76.9
76.1
75.1
74.1
73.0
71.8
70.7
69.7
10
8
7
6
4
3
I
o
2
4
5
7
8
o
2
3
4
5
5
5
4
3
2
o
7
5
2
I
3
6
8
10
10
II
12
II
10
+0.040
56".62
Mag. 2.9
Right
Ascension.
0.00
+0.1
0.00
+1.0
h m
4 51
s
20.75
20.75
20.70
20.61
20.47
o
5
9
14
17
20.30
20.12
9.93
9.74
9.57
9.42
9.31
9.25
9.24
9.28
9.37
9.51
9.70
9.93
20.20
18
19
19
17
15
II
6
I
4
9
14
19
23
27
30
20.50
20.82 3^
35
36
36
36
21.17
21.53
21.89
36
35
34
22.25
22.61
22.96
23.30
23.62 ^
31
23.93
24.21
24.46
24.67
24.85
24.98
25.06
25.09
28
25
21
18
13
8
3
Declina-
tion N.
+33 I
570
57-71
58.3*
58.8
59- 1 .
59-3
59-3
59-1
58.7
58.2
0
2
4
5
7
57-5,
56.8 1
56.1 1
55-4,
54-7 5
540.
535*
53-2,
530,
52-9 „
52-9,
53' -
53-4,
53-9,
54-4^
550 6
55-6,
56.3
57-0 '
577;
58.5,
I?- 8
60.0
60.7;
61.5 J
62.3
8
631
63.8'
1. 193 +O.65C
i9'-540 45"-36
+0.02
+0.1
-0.01
+1.0
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
329
Mean Solar
Dtte.
Jan. 0.4
10.4
20.4
30.3
Feb. 9.3
193
Mar. 1.3
11.2
21.2
31.2
Apr. 10.2
20.1
30.1
Hay 10. 1
20.0
30.0
June 9.0
19.0
28.9
Jnly 8.9
18.9
28.9
Atig. 7.8
17.8
27.8
Sept. 6.7
16.7
26.7
Oct. 6.7
16.6
26.6
Nov. 5.6
I>ec. 5.5
15-5
25.4
354
ft Camelop.
Mag. 4.2
Risht
Ascensioii.
h m
4 55
42.39
42.35
42.23
42.03
41.76
4145
41. II
40.75
40.40
40.07
39.79
39.57
39.42
39.35
39.37
4
12
20
27
31
34
36
35
33
28
22
15
7
2
10
fe«n Place
39.66 '9
39.93 ,^
40.27 ^^
40.67 ^°
45
41.12
41.62 50
42.16
42.72
43.30
43.88
44.46
45.03
45.58
46.10
46.59
47.04
47.43
47.76
48.02
48.20
48.30
48.31
54
56
58
58
58
57
55
52
49
45
39
33
26
18
10
Declina-
tion N.
+60 18
//
73.9
76.0
77.8
79-3
80.5
81.3
81.6
81.5
80.9
80.0
78.7
77.1
75.3
73.3
71.2
69.2
67.2
65.4
63.7
62.3
61. 1
60.2
59.6
59.3
59.3
21
18
15
12
8
3
I
6
9
13
16
18
20
21
20
20
18
17
14
12
9
6
3
o
3
f Aarigse.
Var. 3 0-4-5
Right
Ascension.
59.6
60.3
61.2
62.4
63.8 '^
7
9
12
65.5
67.4
69.5
71.7
74.0
76.3
78.6
80.7
17
19
21
22
23
23
23
21
2.019
40'.373
+1.755
58".98
+0.05
40.I
-0.03
+1.0
h m
4 55
s
44.81
44.81
44.75
44.64
44.48
44.28
44.06
43.83
43.61
43.40
43.22
43.09
43.01
42.98
43.01
43.10
43.25
43.46
43.71
44.01
44.35
44.72
45.11
45.51
45.92
46.34
46.75
47.15
47.54
47.92
O
6
II
16
20
22
23
22
21
18
13
8
3
3
9
15
21
25
30
34
37
39
40
41
42
41
40
39
38
35
48.27
4^-59 ,^
48.88 ^9
49.13 ""^
49.33
32
20
49.48
49.57
49.61
15
9
4
Declina-
tion N.
+4341
//
57.0
58.3
59.4
60.3
61.0
61.4
61.5
61.4
60.9
60.2
13
II
9
7
4
I
I
5
7
9
10
12
59.3
58.3
57.1
55.8 '3
54.5 '^
53.3
52.2
51.2
50.4
49-7
49.2
49.0
48.9
49.0
49.3
49.8
50.4
51.2
52.1
53.1
54-2
55-4
56.7
58.1
59.5
60.9
62.2
63.5
12
II
10
8
7
5
2
I
I
3
5
6
8
9
o
I
2
3
4
4
4
3
3
1.383 +0.956
43"-4i5 44".02
+0.02 -0.02
+0.1 +1.0
fEph x3]
C Aurigse.
Mag. 3.9
Ritfht
Ascension.
h m
4 56
24.99
24.99
24.94
24.83
24.68
24.50
24.29
24.07
23.86
23.66
23.49
23.36
23.28
23.26
23.29
5
II
15
18
21
22
21
20
17
13
8
2
3
9
14
20
25
23.38
23.52
23.72
^3-97 ,,
24.26 ^9
32
24.58
2493
25.31
25.70
26.09
35
38
39
39
40
40
26.49
26.89
27.28 39
27.65 37
28.01 36
34
28.35
28.66 3'
28.94
29.18 ""^
29.38
20
2953
29.62
29.66
15
9
4
Declina-
tion N.
+4056
//
72.2
73.3
74.3
75.1
75.7
76.1
76.2
76.0
75.6
75.0
74.2
73-2
72.1
71.0
69.9
68.8
67.8
67.0
66.3
65.8
65.5
65.3
653
65.5
65.8
66.3
66.9
67.6
68.5
69.4
70.4
71.5
72.6
73.8
75.1
76.3
77.5
78.6
II
10
8
6
4
I
2
4
6
8
10
II
II
II
II
10
8
7
5
3
2
o
2
3
5
6
7
9
9
10
II
II
12
13
12
12
II
1.324 +0.868
23'.644 59".6o
40.02
40.1
-0.02
+1.0
I Tauri.
Mag. 4.7
Right
Ascension.
h
4
s
54.81
54.82
54.78
54.70
54.59
54.45
54.29
54.11
53.94
53.78
53.65
53.55
53.49
53.47
53.50
53.58
5370
53.87
54.08
54.32
m
57
I
4
8
II
14
16
18
17
16
13
10
6
2
3
8
12
17
21
24
27
54-59 ,^
54.88 ^9
"^i
55.19^
55.51
55.83
56.16
56.49
56.81
57.12
57.41
32
32
33
33
32
31
29
28
26
57.69
57.95 ..
58.18 ^3
58.38 '°
58.55 '^
13
58.68
58.76
58.80 4
8
Declina-
tion N.
+ 21 27
69.0
69.1
69.1
69.2
69.2
69.1
69.0
68.8
68.6
68.4
68.1
67.9
67.7
67.5
67.4
675
67.7
67.9
68.3
68.8
69.4
70.0
70.7
71.4
72.1
72.7
73.2
73.6
74.0
74.3
74.5
74.6
74-7
74-7
74.8
74.8
74-9
74.9
I
o
I
o
I
I
2
2
2
3
2
2
2
I
I
2
2
4
5
6
6
7
7
7
6
5
4
4
3
2
I
I
o
I
o
I
o
1.075 +0.393
53V668 59".2i
+0.01
•VOA
-0.0 1
330
APPAKENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.4
10.4
20.4
30.3
Feb. 9.3
19-3
Mar. 1.3
II. 2
21.2
31-2
Apr. 10.2
20.1
30.1
May 1 0.1
20.0
300
June 9.0
19.0
28.9
July 8.9
18.9
28.9
Aug. 7.8
17.8
27.8
Sept. 6.7
16.7
26.7
Oct. 6.7
16.6
26.6
Nov. 5.6
156
25.5
r>ec. 5.5
15.5
25.4
354
11 Orionls.
Mag. 4.6
Rigbt
Ascension.
h m
4 59
s
36.92
36.93
36.90
36.82
36.71
3
8
II
14
36.57
36.42
36.25
36.08 '7
35-93 '^
15
17
Sec 8, Tan 8
Mean Place
D^ d, D« 8
35.80
35.70
35.64
35.62
35.65
35.72
35.83
35.99
36.19
36.42
36.67
36.95
37.25
37.56
37.87
38.19
38.50
38.81
39.11
39.40
39.67
39.92
40.14
40.34
40.50
40.62
40.70
40.74
13
10
6
2
3
7
II
16
20
23
25
28
30
31
31
32
31
31
30
29
27
25
22
20
i6
12
8
4
Declina-
tion N.
+ 15 17
//
1037
35'-797
10.5
10.2
9-9
9-7
9.5
9.3
9.1
9.0
8.9
8.8
8.7
8.7
8.8
9.0
9.3
9.7
0.2
0.8
1.5
2.3
3.2
4.1
4.9
5.7
6.5
71
7.6
8.0
8.2
8.3
8.2
8.0
7.8
7.5
7.1
6.7
6.4
6.0
3
3
2
2
2
2
I
I
I
I
o
I
2
3
4
5
6
7
8
9
9
8
8
8
6
5
4
2
I
I
2
2
3
4
4
3
4
fj Aurigse.
Mag. 3.3
Right
Ascension.
+0.273
i".59
h
5
m
O
s
26.08
26.09
26.04
25.94
25.79
25.60
25.39
25.18
24.96
24.76
24.59
24.46
24.37
24.34
24.37
I
5
10
15
19
21
21
22
20
17
13
9
3
3
9
24.46
24.60 '^
24.80
2504
25.32
20
40.0I
+0.1
0.00
+ 1.0
25.64
25.99
26.37
26.76
27.15
27.55
27.95
28.34
28.72
29.08
29.42
29.74
30.03
30.27
30.47
30.62
30.72
30.77
24
28
32
35
38
39
39
40
40
39
38
36
34
32
29
24
20
15
10
Declina-
tion N.
+41 7
//
16.5
17.7
18.7
19.5
20.1
20.5
20.6
20.5
20.1
19.5
8.7
77
6.7
5.6
4.5
3.4
2.4
1.5
0.8
0.2
9.8
9.6
9.6
9.7
1 0.0
10.4
II.O
11.7
12.5
13.3
14.3
15.4
16.5
17.7
18.9
20.1
21.3
22.5
12
10
8
6
4
I
I
4
6
8
10
10
II
II
II
10
9
7
6
4
2
o
I
3
4
6
7
8
8
10
II
II
12
12
12
12
12
1.327
24'. 709
+0.873
//
4".04
+0.02 -0.02
+0.1 -n.o
[Eph 13I
€ Leporls.
Mag. 3.3
Right
Ascension.
h
5
s
47.97
47.95
47.88
47.77
47.63
47.46
47.27
47.07
46.87
46.69
46.53
46.40
46.30
46.24
46.23
46.27
46.35
46.47
46.64
46.84
47.07
47.32
47.60
47.90
48.20
48.51
48.81
49.11
49.40
49.67
49.93
50.16
50.36
50.52
50.65
50.74
50.79
50.79
m
I
7
II
14
17
19
20
20
18
16
13
10
6
8
12
17
20
23
25
28
30
30
31
30
30
29
27
26
23
20
16
13
9
5
o
Declina-
tion S.
-22 28
tf
70.5
72.6
74-4
75.9
77.1
77.9
78.4
78.5
78.2
77.5
76.5
75.2
73.6
71.7
69.5
21
18
15
12
8
5
I
3
7
10
13
16
19
22
24
67.1
64.6 ^5
62.1 ^i
-^ ^ 26
59.5
56.9
26
24
54-5
52.3
50.4
48.8
47.6
46.8
46.5
46.7
47.3
48.4
22
19
16
12
8
3
2
6
II
15
49-9 ,^
51.8 '^
54.0 ''
56.4 '^
58.8 ^^
25
61.3
63.7 It
65.9 ''
/3 Exidani.
Mag. 2.9
Right
Ascension.
h m
5 3
35.51
35.51
35.47
35.39
35.28
35.14
34.98
34.81
34.64
34.48
34.34
34.23
34.16
34.12
34.13
34.18
34.28
34.41
34.58
34.79
35.02
35.28
35.56
35.85
36.14
36.44
36.74
37.03
37.31
37.58
1.082
46'.658
-0.414
74".io
-0.0 1
+0.1
+0.01
+1.0
4
8
II
14
16
17
17
16
14
II
7
4
I
5
10
13
17
21
23
26
28
29
29
30
30
29
28
27
25
3783 ,,
38.06 ^3
38.27^'
38.45
38.59
38.70
38.77
38.80
18
14
II
7
3
Dedina-
tionS.
- 5 II
rt
47.3
48.7
49.9
50.9
51-7
52.3
52.6
52.8
52.7
52.4
51.8
51.0
50.0
48.9
47.5
46.0
44.3
42.6
40.8
39.0
37.2
35.5
34.0
32.7
31.7
31.0
30.6
30.5
30.8
31.4
32.3
33.5
34.9
36.4
38.0
39.6
41. 1
42.6
14
12
10
8
6
3
2
I
3
6
8
10
II
15
17
17
18
18
18
17
15
13
10
7
4
I
3
6
9
12
14
15
16
16
15
15
1.004 -0.091
34'.35i 53".24
0.00
40.I
0.00
+1.0
APPARENT PLACES OF STARS, 1913.
331
FOR THE UPPER TRANSIT AT WASHINGTON.
1
/iAurigK.
19 H. Camelop.
/i Leporis.
or Auzigse.
Mean Solar
Mag. 4.8
Mag. 5.2
Mag. 3.3
Mag. 0.2
Date.
1
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Aacensioii.
tion N.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion N.
h m
0 /
h m
0 /
h m
0 /
h m
0 '
5 7
+3822
§ m
5 8
+79 7
g §
5 9
-16 18
5 10
+45 54
Jan. 0.4
s
29.69
W w
^^•5 ,0
1752
w w
76.2
s
2.64
r W
^3-4 ,„
s
17.12
5°-8 i^
10.4
29.71
695 °
17.31 '•
79-1 'fi
81.7 '*
2.63
"5-3 Z
17.14 ^
52.2 4
20.4
29.67 \
70.4 ;
16.88 «
16.26 *'
2.58 5
17.09 5
53-4
30.4
29.58 ^^
71. 1 I
71-7 I
4
85.7 :«
2-49 ,,
28.3 4
16.98 "
54.5 "
Feb. 9.3
29.44 "^
17
^5-47 ^:
^•36 :^
29.4 ^\
16.82 *^
19
55.3 ,
19-3
^9-^7 ,^
72.1
^456 ,^
87.0
2.20
30.2
'^•^3 _
55-9 ,
Mar. 1 .3
20
29.07
72.3 \
^356 ~
87.7 I
2.03 1'
30.7 5
16.41 "
56.2 3
II. 2
28.86 ^'
72.2 '
"•52 °t
87.9 '
30.9
16.17 '^
56.1 '
21.2
28.66 '°
719 \
11.49'°^
87.5 *
1.66 '9
30.7 ^
15-93 ^
55-8 I
312
28.47 '^
71.4 5
'0-53 ^^
86.5 '°
1.48 '8
30.2 5
22
15.71
6
55-2
17
7
86
«5
»5
8
20
9
Apr. 10.2
28.30
70.7 „
9.67
^50 .„
^•33 „
294 ,.
'5-51 .
54.3
20.1
28.17 'f
699 I
8.95
83.1 z
12
1. 21
=^8-3 "
'5-35 '
53.3
30- 1
28.08 9
69.0 •*
^•40 ^i
8°-9 "
1.12 '
26.9 '4
15.25 '\
52.1 "
May 1 0.1
28.04 "^
68.0 '°
8.04 36
78.4 ^
1.07 5
^5=^ I
15.20 5
5^-^ !^
20.1
28.06 I
8
67.0 '°
9
7.89 'I
75-7 :^
1.06 '
3
23.3 ,^
15.21 3
49.4 '^
^ 14
30.0
28.14
66.1
7-95 „
70- 1 ,x;
109 -
^'•3 „
15.29 ^,
48.0
June 9.0
28.27 \
28.45 '!
65.2 \
8" 1
'•'7 ,!
'9' "
'5-43 ^
46.7 '3
19.0
64.4 J
63.8 ^
8-7° l!
67.5 '
'•^9 "
16.8 ="3
15.62 9
45.5 ''
28.9
28.68 ^^
10.22 ^
65.0 ^5
'•45 L
»4-5 :^
'5-^7 '^
44.5 ^°
July 8.9
28.95 '^
633 *
62.7 ^3
1.65 '°
12.2 ^3
16.16^9
43.6 9
31
3
100
20
23
22
33
7
18.9
29.26
63.0
11.22
^o-7 ,
1.88
1 0.0
16.49
42.9
28.9
29.59 ^^
62.9 '
12.36^^^
59-1 '^ 2.13 ^5
8.0^°
16.86 37
42.4 ^
Aug. 7.8
29.95 „
62.9 °
13.61 \\\
57.8 '\
^•40 ,:
6.2 '8
17.25 39
4.
42.0 ^
17.8
30.32 ^;
30.70 ^^
63.0 *
'4-94 ^li
56.9 \
^•69 ''
4-7 1'
17.66 4^
41.9 *
27.8
63.2 \
16.33 'f
56.4 ^
2.98 f
3-5"
18.08 42
I
42.0
38
4
142
0
30
8
43
3
Sept. 6.8
31.08
63.6
'775,,,
56.4 ,
328 ,„
2.7
18.51 _
42.3
16.7
31.47 ^^
31.85 ^!
64.1 I
647 J
65.3 ;
19.18^^3
56.8 J
3-58 f°
2.3 \
18.94 ^^
42.7 \
26.7
20.60 ^^l
21.98*3®
57-6 ,!
3-87 ^
2.4
19.37 t.
6
43-3
Oct. (i.j
32.22 ^'
58.8 "
4'6 ,^
2-9,^
'9-78 4*
44.0 '
16.6
32.57 ^^
34
66.0 I
8
23.29*3*
122
60.4 '<^
20
4-43 :^
3.9'°
«3
20.18 4°
38
44-9 ^
10
26.6
32.91 „
66.8
24-51 ,,^
^2-4 _
4-69 ,,
5-2 .A
20.56
45-9
Nov. 5.6
33.22 \
3350 ^^
67.7 9
^5-^' 06
^^•7 ^
4-93 \\
6.8'^
20.91 35
12
47.1
156
68.6 9
26.57 It
67.3 '^
5.14 "
8.7'"
21.22 3^
48.4 ^
^ 25.5
33.74 w
^9-6 !o
27.35 Z
70.2 ^
5-32 !
10.8 ''
27
21.49 '
49.8 -4
I>ec. 5,5
33.95 ,,
70.6 °
27.94 ^a
73.2 3
5.46 '4
wn ^ 22
130
21.72 3
51.2 '4
10
II
38
31
10
22
18
J5
155
34.11 _,
7»-7 .„
2^32 ,
76.3 ,,
556 ,
'5.2 _
21.90
52.7
25-5
34.22
28.48 *^
79-4 ^^
5.62 ;
17.3
22.01 **
54.1 '4
35.4
34.27 ^
7Z'7
28.41 7
82.4 30
564 '
19.4^'
22.06 ^
1
55.5 '4
Sec<J,Tan^
1.276 +0.792
5306 +5.2 1 1
1.042 -0.293
1.437 +1.032
Mean Place
28'.334 56".65
II-.849 6o".75
i*.385 28".oi
I5'.59i 38"- 17
DVa, D«.a
+0.02 -0.0 1
+0.13 -0.08
-0.0 1 0.00
+0.03 -O.OI
IV*, D-*
+0.1 +1.0
+o.r +1.0
40.1 +1.0
+0.1 -VYJCi
(
Eph 13]
332
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.4
10.4
20.4
30.4
Feb. 9.3
19.3
Mar. 1.3
II. 2
21.2
31-2
Apr. 10.2
20.1
301
May 1 0.1
20.1
300
June 9.0
19.0
28.9
July 8.9
18.9
28.9
Aug. 7.8
17.8
27.6
Sept. 6.8
16.7
26.7
Oct. 6.7
16.6
26.6
Nov. 5.6
25.5
Dec. 5.5
15.5
25-5
35.4
P Orlonls.
Mag. 0.3
Right
Aflcensioii.
m
10
h
5
t
22.56
22.56
22.52
22.44
22.32
22.18
22.02
21.84
21.67
21.51
21.37
21.25
21.17
21.13
21.13
21.17
21.25
21.38
21.54
21.74
21.97
22.22
22.49
22.78
23.07
23.37
23.67
23.96
24.24
24.51
24.77
25.01
25.22
2540
25.55
25.66
25.73
25.77
O
4
8
12
14
16
18
17
16
14
12
8
4
o
4
8
13
16
20
23
25
27
29
29
30
30
29
28
27
26
24
21
18
15
II
7
4
Declina-
tion S.
-817
//
59.4
60.9
62.3
63.4
64.3
65.0
654
65.5
65.4
65.1
15
14
II
9
7
4
I
I
3
6
A, Aurigse.
Mag. 4.8
Right
Ascension.
8
II
13
64.5
63.7
62.6
61.3
59.8 "5
17
58.1
56.3
54.4
52.5
50.5
48.6
46.9
45.3
43.9
42.8
42.1
41.7
41.7
42.1
42.8
43.8
45.1
46.6
48.3
50.1
51.9
53.7
55-4
18
19
19
20
19
17
16
14
II
7
4
o
4
7
10
13
15
17
18
18
18
17
Seed, Tan 5 j
Mean Place
D'^ a, Dm a
1. 01 1
2 1 ".362
-0.146
65 ".04
h m
5 13
8
2.57
2.59
2.55
2.46
2.33
2.16
1.96
1.75
1.53
1.33
I. 16
1.02
0.93
0.89
0.90
0.97
1. 10
1.28
I.5I
1.78
2.09
2.42
2.78
316
3.55
3-94
4-34
4-73
511
5.48
5.83
6.15
6.45
6.71
6.92
7.09
7.20
7.26
2
4
9
13
17
20
21
22
20
17
14
9
4
I
7
13
18
23
27
31
33
36
38
39
39
40
39
38
37
35
32
30
26
21
17
II
6
Declina-
tion N.
+40 I
n
33.8
34.9
35-9
36.7
37.3
37.8
38.0
38.0
37-7
37.2
36.5
35.6
34-6
33.5
32.4
31.4
30.4
29.5
28.8
28.2
27.7
27.4
27.3
27.3
27.4
27.7
28.1
28.6
29.2
29.9
30.7
31.6
32.6
33-6
34.7
35.8
36.9
38.0
II
10
8
6
5
2
o
3
5
7
9
10
II
II
10
10
9
7
6
5
3
I
o
I
3
4
5
6
7
8
9
10
10
II
II
II
II
T Orlonls.
Mag. 3.7
0.00
40.I
0.00
+1.0
1.306 +0.840
i».i50 2 1 ".98
Right
Ascension.
h m
5 13
8
24.09
24.10
24.06
23.98
23.87
I
4
8
II
14
-K>.02
40.I
-0.0 1
-H.O
[Eph 13I
23.73
23.57
23.40
23.23
2307
22.93
22.81
22.72
22.68
22.68
22.72
22.80
22.93
23.09
23.29
23.51
23.76
24.03
24.32
24.61
24.91
25.21
25.50
2578
26.06
26.32
26.56
26.77
26.96
27.11
27.23
27.31
27.34
16
17
17
16
14
12
9
4
o
4
8
13
16
20
22
25
27
29
29
30
30
29
28
28
26
24
21
19
15
12
8
3
Declina-
tion S.
-655
//
69.7
71.2
72.5
73.6
74.5
75.2
75.6
75.7
75.6
75-3
74.8
74.0
73.0
71.8
70.3
68.7
67.0
65.2
63.3
61.5
59.7
58.0
56.4
55.1
54.0
53.3
52.9
52.9
53-2
53.8
54.8
56.1
57.6
59-2
60.9
62.6
64.3
65.9
15
13
II
9
7
4
I
I
3
5
8
o
2
5
6
7
8
9
8
8
7
6
3
I
7
4
o
3
6
o
3
5
6
7
7
7
6
o Columbae.
Mag. 4.9
Right
Ascension.
1.007
22».90I
-0.122
75".62
b
5
m
14
8
22.21
22.17
22.08
21.94
21.77
21.56
21.33
21.09
4
9
17
21
23
24
20.86 ^^
20.63 ^^
21
20.42
20.24
20.10
20.01
19.96
19.96
20.01
20.11
20.25
20.44
18
14
9
5
o
0.00
-K).I
0.00
+1.0
20.67
20.93
21.21
21.51
21.83
22.16
5
10
14
19
23
26
28
30
32
33
33
22.49 ,^
22.81 ^^
12
23.13 '^
2343
23.71
23.96
24.17
24.35
24.49
24.58
24.61
24.60
30
28
25
21
18
14
9
3
I
Declina-
tion S.
-3458
#/
44.9
26
47.5 ,^
49.8 *^
51.7
53.2
19
II
54.3
54.9
55.1
54.8
54.1
52.9
51.3
49.4
47.2
44.7
6
3
3
7
13
16
19
23
25
38
29
41.9
36.0 JJ
3^-^ 38
27.3
24.8 ^5
22.6
20.8
19.4
33
18
14
8
18.6
18.3
18.6
19.4
20.7
22.5
24.8
27.4
30.3
33.3
36.3
39.2
42.0
3
3
S
13
18
23
26
29
30
30
29
28
1.220 -0.700
20".657 47".79
-0.03
+0.1
40kX>I
APPAilENT PLACES OF STARS, 1913.
833
FOR THE UPPER TRANSIT AT WASHINGTON.
1
y Oxlonls.
)& Tauri.
17 Camelop.
)^ Leporls.
Mcaa Solar
Mag. 1.7
Mag.
1.8
Mag. 5.8
Mag. 3.0
Date,
■
Right
Declina-
Right
Declina-
Right j Dedina-
Right
Declina-
Aaoenakm.
tion N.
Ascension.
tion N.
Asccnsion. tion N.
Ascension.
tion S.
h m
0 /
h m
0 t
h m 0 '
h m
0 '
1
5 20
+ 6 16
5 20
+2832
5 21
+62 59
5 24
-2049
Jan. 0.4
29.01
$9
25.5 0
24.7 \
4875 ,
P 9
15.8
s
5946
99
58.5 „
32*38
99
36.5 „
10.4
29.04 ^
48.78 \
16.35
5946 ,„
60.8 '3
32-38 °
38-6 0
20.4
29.02
28.96 I
24.0 7
23.4 ^
48.76 ^
48.70 ^^
16.7*
59.18 'J
^^•9 "
32.33 \
40.5 9
30.4
17.1 ♦
64-8 9
32.24 '
42.2 7
Feb. 9.3
28.86 '°
22.9 5
48.59 '
17.4 ,
58.92 ',^
66.3 5
32.12
43-5 '^
13
4
15
3
32
II
16
9
19.3
28.73 ,,
22.5
48-44 „
17.6
58.60
67-4 _
3^-96
31.78 f
44-4 .
Mar. 1.3
28.58 '5
22.2 ^
48.27 ^
48.09 «
47.91 °
17.6°
58.23 37 68.1 f
450 \
11.3
28.41 \l
22.1 '
17.6°
57.84 J^ 68.3 !
31.59 ,;
45-3 .
21.2
28.24 \\
22.1
17.5 \
57.44 *°
57-06 ^,
68.0 -»
31-39 Z
45-2
31-2
28.09 \\
22.1 °
47-74 :,
17.2 ^
67-3 I
31.20 9
44-7 \
14
2
IS
4
33
II
»7
0
Apr. 10.2
2795 „
22.3 ,
47-59 „
16.8
56.73 .g
56.45 '^
66.2
31 03 „
43-9 „
20.1
27.84 "
27.76 \
22.6 ^
4746 '3
16.4 ^
64.7 ;^
30-89 4
4^-8 W
30.1
23.1 1
23.7 ,
47-37 ;
15.9 ^
56.24
63.0 7
30-78 '•
41-4 1
May 10. 1
27.72 ^
47-33 7
15.4 ;
56.11 '3
61. 1 '9
30.71 \
39-7 ;^
20.1
27.72 "
244 ;
47.34 6
14.9 ^
56.07 *
59-0 ^^
22
30.68 3
I
yi-7
22
30.0
27.77
^5-3 ,„
47-40 , ,
14.5 ^
56.13 ,^
56.8
30.69 ,
30-75 *
35-5 „
June 9.0
27.86 ^
26.3 ^
47-51 '
14.2 ^
56.27 '4
54-6 ,,
33- > '!
19.0
27.99 \l
27.4
47-66 '5
14.0^
56.50 "^
5^-5 !o
30.85 °
30.7 4
29.0
28.16 "7
28-5 '
47-86 ^°
13.9 "
56.81 3«
50-6 «
31.00 5
28.2 '5
July 8.9
28.36 ^^
23
29.7 "
13
48-09 *,5
0
13.9 \
5720 39
45
48.8 ;«
31.18 '*
31
25-8 '4
24
18.9
2^-59 ,,
30.9 „
48.36 ,„
14.0
57.65 „
47-2
31.39 ,^
23-4 „
28.9
28.84 ^5
32.1 "
48.65 ',^
14.1
58.16 5-
45-9 i
31.63 '^
21.2 "
Aug. 7-S
29.11 ^7
20
33.2 "
48.96 3;
14.3 _
58.71 «
59-30 59
44-9'°
31.89 J
^9-3 :^
17.8
29.40 ^
341 '
34.9 g
49-29 ^^
14.6 3
44-2 7
32.17 ;*
'7-7 t
27.8
29.70 -*
30
49.63 ^*
35
15.0 ^
3
43-8 4
32.47 ^
30
16.4 '3
Sept. 6.8
30.00
35-5 ,
4998 „
15.3 .
60.54 ,,
61.80 f 3
62.42 ^^
43-7 _
32.77 „
15.6
16.7
30.31 ^'
35-9 :
50.33 ^^
15.7 :
43.9 g
44-5 „
33.07 3
15.2 4
26.7
30.61 3°
36.1 \
50.67 34
16.0 3
33.37 1„
15.3
Oct. 6.7
30.90 ^^
36.0 '
51.00 33
16.33
45-4 ,;
33.67 °
33.95 ,,
'5-8 ,0
16.7
31-19 _
35-7 ,
51.33^^
16.6 3
63.01 59
46.5 "
16.8 '°
27
5
3'
4
56
14
27
15
26.6
31-46 ^,
35-2
5»-64
17.0
63.57 „
47-9 „
34.22
20.1
Nov. 5.6
31.71 ^^,
34-5 \
51-93 ^
17.3 ^
64.09 f '
49-6 I
•34-47 ,^
15-6
31-94 ^
33-6 '
52.20 '
17.6 3
6456 *^
5'-5 ''
34.69 "
22.2
25.5
21
32.15 "
32-7 '
5^-44 ,'*
17.9 \
64.97 t'
53.6 '
34.88 ^^
35.04 „
='4-5 "I
Dec 5.5
32.32 '
14
31.7 '°
10
5-^4 Z
18.3 ^
4
65.30 3J
25
55-9 '^
23
26.9 *4
25
15.5
32.46
3^-7 .0
52.80
18.7
65.55 ,,
65.71 '\
65.77
582 ,^
35.15 ^
^9-4 ,^
25-5
32.55 \
297 ^
52.91 "
19.I ^
60.6^4
35.22 \
31.8 4
35-4
32.60 ^
28.8 9
52.98 7
19.5 ^
63-0 '4
35.25 3
34.1 '3
Sec«,Tan«
1.006 40.110
1. 138
+0.544
2.303 +1.963
1.070 -0.380
Hean Place
27*.843 i7".9i
4y.470
5".62
57'.oo4 45".o5
3i".059 4i".i6
DV a, IX. a
0.00 0.00
+0.01
-0.0 1
+0.05 -0.02
-0.0 1 0.00
D^6,iym6
40.I
+1.0
+0.1
+1.0
+0.1
41.0
k -M^.X
'V\4Ci
[Eph 13I
334
APPARENT PLACES OF STARS, 1918,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.4
10.4
20.4
30.4
Feb. 9.3
19.3
Mar. 1.3
11.3
21.2
31.2
Apr. 10.2
20.1
30.1
May 10. 1
20.1
30.0
June 9.0
19.0
29.0
July 8.9
18.9
28.9
Aug. 7.8
17.8
27.8
Sept. 6.8
16.7
26.7
Oct. 6.7
16.7
26.6
Nov. 5.6
15-6
255
Dec. 5.5
15.5
25.5
35-4
X Aurigte.
Mag. 4.9
Right
Ascenskm.
Sec S, Tan B
Mean Place
h m
5 27
2V ^,I>t0d ^
5-20
5.24
5.22
516
5.05
4.90
4-73
4.54
4.35
4.17
4.00
3.87
3.78
3-73
3.73
3.79
3.89
4.04
423
4-47
4.74
5.03
5-35
5.69
6.04
6.40
6.76
7.12
7.47
7.81
8.14
8.45
8.73
8.98
9.19
936
9.49
956
4
2
6
II
15
17
19
19
18
'7
13
9
5
o
6
10
15
19
24
27
29
32
34
35
36
36
36
35
34
33
31
28
25
21
17
13
7
Dedina-
tion N.
+32 7
//
53.3
540
54.6
55.1
55-6
56.0
56.2
56.2
56.0
55.7
55.3
54.8
54-2
53.6
53.0
52.4
51.8
51-3
509
50.7
50.6
505
50.6
507
509
5^-2
51.5
51.8
52.1
52.5
52.9
53.3
53-7
54-2
54.8
55.4
56.0
56.7
7
6
5
5
4
2
o
2
3
4
5
6
6
6
6
6
5
4
2
I
I
I
I
2
3
3
3
3
4
4
4
4
5
6
6
6
7
S Orlonls.
Mag. 2.5
Right
Ascension.
1. 181 +0.628
3'-855 42".94
h m
5 27
+0.02
■K>.l
-O.OI
+1.0
3487
34.90
34.88
34.82
34.72
34.59
34.44
3427
34.10
33.94
33.80
33.68
33.59
33.54
33.53
33.57
33.65
33.77
33.92
34.11
34.33
34.58
34.84
35.12
35.41
3
2
6
10
13
15
17
17
16
14
12
9
5
I
4
8
12
15
19
22
25
26
28
29
30
30
29
29
35.71
36.01
36.30
36.59 ,^
36.88 ^9
27
37.15
37.40
37.63
37.84
38.01
38.14
38.24
38.29
25
23
21
17
13
10
Declina-
tions.
— O 21
//
39.1
40.3
41.4
42.3
43.0
43.5
43-9
44.1
44.1
43.9
43.5
43.0
42.3
41.4
40.4
39.2
37.9
36.4
34.9
33.4
31.9
30.5
29.2
28.1
27.2
26.5
26.1
26.1
26.3
26.8
27.6
28.6
29.8
31. 1
32.5
33.9
35.2
36.5
12
II
9
7
5
4
2
o
2
4
5
7
9
10
12
13
15
15
15
15
14
13
II
9
7
4
o
2
5
8
10
12
13
14
14
13
13
Oroombrldge 966.
Mag. 6.4
1 .000 -0.006
33".68o 45".96
Right
Ascension.
h
5
s
9.47
9.42
9.20
8.83
8.33
7.72
7.03
6.30
5.57
4.87
4.23
3.68
324
2.94
2.79
2.79
2.95
3.26
3.72
4.30
5.01
5.82
6.71
7.67
8.69
m
28
5
22
37
50
61
69
73
73
70
64
55
44
30
15
o
16
31
46
58
71
81
89
96
102
105
0.00 0.00
-K>.I +1.0
9.74
0.81 ^^7
1.87^°^
2.92
3.93
Declina-
tion N.
+74 59
//
36.5 '^
38.8 ^3
40.7 '^
14
42.1
43.0
43.4
43.2
42.5
4.88
5.75
6.53
7.20
7.73
8.11
8.33
8.38
105
lOI
95
87
78
67
53
38
22
5
41.3
39.7
37.7
35.4
32.9
30.3
27.6
25.0
22.5
20.2
18.2
16.4
14.9
13.8
13.1
12.8
12.9
13.3
14.2
15.5
9
4
2
7
12
16
20
23
25
26
27
26
25
23
20
18
15
II
7
3
I
4
9
13
16
17.I
19.I
21.4
23.9 ._
26.6 ^7
29
29.5
20
23
25
ci Leporis.
Mag. 2.7
Right
Ascension.
Dectioa-
ticnS.
32.4
35-2
29
28
h m
5 28
54.87
54.88
54-84
54.76
54.64
54.49
54.31
54.12
53.93
53.75
53.59
53.45
53.34
53.27
53.24
4
8
12
15
18
19
19
18
16
14
II
7
3
2
-1752
0*
6
10
14
53.26
53.32
53.42
53.56
53.73 *^
5^-94 _ .
54-^^ 26
54.44 '
54-72 'J
55.01 ^9
30
55-31
55.61 30
55.91 ^
56.20
56.48
56.9
59.0
60.8
62.4
63.7
64.6
65.2
655
65.4
65.0
64.3
63.3
61.9
60.3
58.5
56.5
54-3
52.0
49.6
47.3
3.861
5'.029
+3.730
i7".32
+0.10
+0.1
-0.03
+1.0
56.75
57.00
57.23
57.43
57.59
57.71
57.79
57.82
29
28
27
25
23
20
16
12
8
3
21
18
16
13
9
6
3
I
4
7
10
14
16
18
20
23
23
24
23
22
45- 1
43.0
39-5
38-3
12
8
37.5
37.1
37-1
37-6
38.5
39.8
41-5
43-5
45-7
48.0
50.3
52.6
54.8
4
0
5
9
13
17
20
22
23
23
23
22
+1.05 1 -0.323
53'-574 62^.07
-0.01
40.I
aoo
APPARENT PLACES OF STARS, 1913.
335
FOR THE UPPER TRANSIT AT WASHINGTON.
)tam Solar
Date.
Jan. 0.5
10.4
20.4
30.4
Feb. 9.3
19.3
Mar. 1.3
11.3
21.2
31-2
Apr. 10.2
20.2
30.1
May 10. 1
20.1
30.0
June 9.0
19.0
29.0
July 8.9
18.9
28.9
Aug. 7.9
17.8
27.8
Sept. 6.8
16.7
26.7
Oct. 6.7
16.7
26.6
Nov. 5.6
25.6
^- 5.5
15.5
25.5
35.4
Sec 5, Tan*
^fcafl Place
(p^ Orlonls.
Mag. 4.5
Right
Aacenskm.
h
5
m
30
3.80
3.83
382
3-77
3.68
3.55
3.40
3-24
3.07
2.91
2.77
2.65
2.57
2.52
2.52
2.56
2.64
2.77
2.93
313
3.36
3-6i
3.88
417
4-47
3
I
5
9
13
16
17
16
14
12
8
5
o
4
8
13
16
20
23
25
27
29
30
30
4-77
5.08 3"
5.38 ^°
5.68 3°
6.25 ..
6.52 ^7
6.76 ^^
6.98 "
7.16 ^»
7.31
7.42 "
7.48 ^
Declina-
tion N.
+ 9 25
//
60.9
60.3
59-7
59-2
58.8
58.5
58.3
58.2
58.1
58.2
58.3
58.5
58.8
59-2
59.8
60.5
61.3
62.1
63.0
64.0
65.0
66.0
66.9
67.8
68.5
69.0
69.4
69.5
69.4
69.2
68.8
68.2
67.4
66.6
65.8
65.0
64.2
63.4
6
6
5
4
3
2
I
I
I
I
2
3
4
6
7
8
8
9
10
10
10
9
9
7
5
4
I
I
2
4
6
8
8
8
8
8
8
I Orionls.
Mag. 2.9
Right
Ascension.
1. 014 +0.166
2'.6o8 52".99
0.00
0.0
0.00
+1.0
h m
5 31
[
s
11.84
11.86
2
11.84
2
6
11.78
11.68
10
13
"55
t6
11.39
1 \J
11.22
*7
11.05
17
10.88
»7
15
10.73
10.61
1 2
10
10.51
fi
10.45
T
10.44
i
3
10.47
Pm
10.54
7
10.65
1 1
10.80
15
10.98
18
21
II. 19
11-43
11.69
24
26
11.96
27
12.25
29
29
12.54
12.84
3^
13-13
29
13.42
29
13.71
29
27
13.98
1423
25
14.46
23
14.67
21
14.84
17
13
14.97
15.06
9
6
15.12
Declina-
tion S.
- 5 57
//
52.4
53.9
55.2
56.3
57.2
57.9
58.4
58.6
58.6
58.4
57.9
57-2
56.3
55.2
53.9
52.4
50.8
49.1
47-4
45.6
43.8
42.2
40.7
39.4
38.4
37-7
37-3
37.2
37.5
38.2
39.2
40.4
41.9
43.5
45.2
47.0
48.7
50.3
15
13
II
9
7
5
2
o
2
5
7
9
I
3
5
6
7
7
8
8
6
5
3
o
7
4
I
3
7
10
12
15
16
17
18
17
i6
1.005
IO".622
-0.104
58".68
0.00
0.0
0.00
+1.0
s Orlonls.
Mag. 1.8
Right
Ascension.
h m
5 31
s
49.10
4913
49.11
49.05
48.95
3
2
6
10
12
48.83
48.68 '5
48.51 '^
48.34
48.18
48.03
47.91
47.82
47.77
47.76
47-79
47.86
47.97
48.12
48.31
17
16
15
12
9
5
7
II
15
22
48.53
48.77
49.03
49.60 '9
24
26
28
49.89
50.19
50.49
50.78
51.06
51.33
51.59
51.83
52.04
52.21
52.35
52.45
52.50
29
30
30
29
28
27
26
24
21
17
14
10
5
Dcdina
lion S.
- I 15
tf
17.2
18.5
19.6
20.5
21.3
21.9
22.3
22.5
22.5
22.3
21.9
21.4
20.7
19.8
18.7
17,4
16.0
14.6
I3.I
II.5
1 0.0
8.6
7.3
6.1
5.2
4.5
4.1
4.0
4-3
4.8
13
II
9
8
6
4
2
o
2
4
5
7
9
I
3
4
4
5
6
5
4
3
2
9
7
4
I
3
5
8
II
5.6
6.7
8.0^3
9.4'^
10.8
C Tanrl.
Mag. 3.0
12.3
13.7
15.I
14
15
14
14
1. 000
47«.90i
-0.022
24".02
Right
Ascension.
Declina-
tion N.
h m
0 /
5 32
+ 21 5
8
27.92
340
27.97 5
340
34- 1 ^
27.97
27.92 5
27.82 "^
13
34.t;
34-2^
27.60
34-2
27.54
27.37
27.19
27.02
26.87
26.75
26.67
26.62
26.62
15
17
18
17
15
12
8
5
o
4
26.66
26.75 ^
26.88 ^l
27.06 '*
27.27
21
24
27.51
27.78
28.07
28.37
28.69
27
29
30
32
32
33
29.01
29.34 _.
29.66 3^
29.98 3^
30.30
32
30
0.00
0.0
0.00
+1.0
30.60
30.88
31.14
31.38
31.58
31.74
3186
31.94
28
26
24
20
16
12
8
34.2
34.2
34-1
34.0
33.8
33.7
33.6
33.5
33.4
33.4
33.5
33.7
34.0
34.3
34.7
35.1
35.5
36.0
36.4
36.8
37.1
37.3
37.4
37.4
37.4
37.3
37.1
36.9
36.8
36.7
36.6
36.5
o
o
I
I
2
I
I
I
I
o
I
2
3
3
4
4
4
5
4
4
3
2
I
o
o
I
2
2
I
I
I
I
1.072 +0.386
26«.68o
24"-95
+0.01
0.0
0.00
(Kph 13]
336
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
C Orionls.
a Coluinbae.
0 Aurigse.
C Leporis.
Mean Solar
Mag. 2.0
Mag. 2.8
Mag. 5.5
Mag. 3.7
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right Derlina
Ascension.
tion S.
Ascension.
tion S.
Ascension.
tion N.
Ascension.
UooS.
h m
0 /
h m
0 /
h m
0 /
h m
e /
5 36
- 158
5 36
-34 6
m 0
5 39
+49 47
A m
5 43
-1450
Jan. 0.5
8
23.33 .
99
69.9 ,,
s
31.47 ,
67.8 „
s
"•34 .
w w
32.6
8
2.06
^7-4 ,„
10.4
23.36 ^
71.2 '3
31.45 ,
7°-5 I
11.39 \
34-3 I
35-9 '
2.08 ^
71.2
20.4
23.35 .
72-3 "
31.38 ^l
72.9 J
"37 g
".29 ,,
2.06 ^
mm
30.4
23.30 I
73.3 '°
74.1 *
3'-26 \l
75.0 "
37.3 \\
^•99 ,;
72.7 \l
Feb. 9.3
23.20
76.7 ^
"•'4 ^
38.5 "
'•89 °
73-9 "
13
6
19
13
20
9
>4
10
19.3
23.07 ,.
74.7 ^
30.91 „
78.0
10.94 . .
39.4 ,
^•75 „
74-9 ,
Mar. 1.3
22.92 ^
75.2 5
30.69 "
78.9 \
10.70 ^ 40.0
;io
1.40 „
1.22 'f
^•°4 :'
75.6 ^
11.3
22.75 ^^
75-4 I
30.46 J
30.22 ^
29.99 ^3
79-3 ,
10.45 ^1
9.93 „
40.3 ,
76.0 ^
21.2
312
22.42
75.4 °
75.2 \
79.2 '
78.7 i
40.2
39.8 4
76.0 °
75.7 i
15
3
21
9
23 7
17
6
Apr. 10.2
22.27
74.9 ,
74.3 \
73.5 ^
29.78
77-8 ,.
9.70" „ 39-1 _
0.87
75-1 0
20.2
22.15
29.59 _^
76.4 ^
9.51 "
38.2 "
0.73 *
74.2 '
301
22.06 ^
22.00
29.44 ,^
74.7
9.36 ^
<.*. .„. 12
37.0
V .4
0.62 "
73-» !
May 1 0.1
72.6 ^
T T
29.33 _
72.6 ^'
9.27 9
35.6 4
0.55 ^
7^-7 *
70.1
>9
20.1
21.98 ^
3
71-5
12
29.26 '
2
70.3 J
9.24 3
4
34.1 '^
15
0.51 *
0
30.0
22.01
70.3 ,,
29.24 .
^4-9 'J
9-28 ,„
32.6 „
0.51
68.2
June 9.0
22.08 ^
68.9 4
29.27 ^
9-38 6
31.I \\
0.56 s
66.2'°
19.0
22.19 "
67.4 5
29.34 ,1
62.0 =^9
9-54 'J
29.6 '5
0.65 ,^
64.1 "
29.0
22.33 ,J
22.51 :^
65-9 \l
29.46 "
29.62 '^
20
59-» ^0
976 ,8
10.04
32
28.2 '4
0.78 3
61.9 "
July 8.9
^4-3 :^
5^-2 Z
26.9 '3
12
°-95 Z
20
59-8 '■
21
18.9
22.72
62.7
29.82
53.4 .
10.36
25.7
^•^5 ,,
57.7 _
28.9
22.96 ^*
61.2 '5
30.06 ^4
50.8 f
10.72 36
24.8 '
22
^•37 "
20
55-7 .8
Aug. 7.9
23.22
59-9 \\
30.32 ,^
486 !
I I.I I '^^
24.1 \
1.62 =^5
18
53.9 „
17.8
'H I
30.61 ^9
30.92 ^^
46.7 ^
"•"1!
23.6 5
••89 11
52.4
27.8
23.78 ^^
29
57.8 I
«-2 :^
"•97 j^
23.2 ^
2.17 *"
29
5'-2 'I
Sept. 6.8
2407
57.2 ^
31.24 „
44.2
"•43 ^,
13.35 ^'
23.0
2 46 ,„
50^.
16.7
2437 ;„
56.8 4
31.57 ^^
43.7 1
23.0 °
2.76 30
49.9 „
26.7
24-67 ^°
56.7 ;
31.90 33
43.8 •
23.3 :
3°6to
49-9 .
Oct. 6.7
24.96 11
57.0 ^
57.6 1
32.22 3
"1 1
44.5 ,^
13.80 45
.4 it
23.8 5
24.4 a
336 f!
50.3 I
16.7
25.25 „
3253 ^^
45.7 '
14.24 ^
365 '^
51.2 ^
27
8
29
17
43
8
27
12
26.6
25.52 .
25.78 ll
58.4 „
32.82
47.4 „
^4-67 ,^
252 ,„
392 ,,
4'8 '!
52-4 ,6
54° ,8
55-8 I,
Nov. 5.6
59.5 "
3309 _
49.6 "
15.07 4^
26.2 '°
15.6
26.02 ^
60.8 '3
24.
33-33 .^
52.1 ^\
15.44 ^^
27.4 '\
4-42 !*
25.6
26.23 'I
62.3 |s
33.53 ,
33.69 ^
54-9 Z
15.77 ^^
16.05 '!
28.8 '4
4.63 "
21
57-9 ,'
Dec. 5.5
26.41 '^
63.8 '5
57-9 ^°
30.3 'i
4.80 ]l
60.1 "
14
15
12
30
23
10
»4
22
15.5
2^-55 ,^
653 „
33.81
33.87 ^
60.9
16.28 ^
31-9 ,,
4-94 ,„
62.3
25.5
26.65 ^°
66.8 '5
63.9 ^^
66.7 ^^
16.44 ;^
33.5 '
5.04
64.5
35.4
26.72 '
68.2 '4
33.88 '
16.54 '°
35.2 '^
5.09 5
66.6^'
Sec <5, Tan d
1. 001 -0.035
1.208 -0.677
1.549 +1.183
1.035 -0.265
Mean Place
22».ii9 76".63
29'-9i9 72".02
9".527 2i".25
o'-773 73".23
DV fli I)« « o-oo o-oo 1
-0.02 0.00
+0.03 -0.01
-o.oi 0.00
D,^ 5, D« 6
0.0
+ 1.0 1
0.0
+ 1.0 1
0.0
+ 1.0
0.0
+1.0
Eph 13]
APPARENT PLACES OF STAKS, 1913. 337
FOR THE UPPER TRANSIT AT WASHINGTON.
338
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
a Orlonls.
<^ Aurigse.
V Leporls.
P AuiicK.
MeanSolar
Var. 1. 0-1.4
Mag. 3.9
Mag. 3.8
Mag. 2.1
Date.
Right , Declina-
Right
Dedina-
Right
Dcdfaia-
Right
Dednui*
Aacension. tion N.
Ascennon.
tioii N.
Asccnaion.
tionS.
Aaoenstofi.
tianN.
h m ■ 0
/
h m
0 /
1
h m i • '
h m
0 ^
5 50
+ 723
00
5 52
+54 16
5 52
-14 10
mm
5 53
+44 5^
mm
Jan. 0.5
28.92
37.6
23.96
■
27.82
WW
'fO-57 ,
WW
33.2 „
10.4
28.97 ^
36.7
9
24.03 7
S?-
27.85 \
57.7 „
10.64
34.6 ♦
20.4
28.97 °
36.0
7
6
24.02 *
27.84 '
27.78 ,^
10.65 '
35.9 '
30.4
28.93 t
28.85 ,f
35.4
23.93 ^
61.8 '7
^°-59 ,;
37.1 :
Feb. 9.4
34.9
5
23.78 '^
63.2 ;4
27.68 '«
59.0 '3
10.47 "
38.2 "
II
4
21
13
13
10
16
9
19.3
28.74 ,^i34.5
^3-57 .
64.4 „
65.2 *
27-55 ,,
60.0
10.31
39.1 -
Mar. 1.3
28.60 '*
28-44 '!
34-3
2
^3-31 'J
27.39 J
60.7 \
10.11 »°
39.7 \
"•3
34-2
I
23.02 ^
65.7 \
27.21 ;
61. 1 4
9.88 \\
40.0 *
21.2
28.27 ]l
34.1
I
22.73 ^^
65.8
27.03 *
26.85 ,
61.1 °
9.64 \\
40.1
312
28.11 '*'34.2
I
22.44 ^
655 ^
60.9 \
9.41 '3
39.9 ,
15
2
27
7
17
5
81
5
Apr. 10.2
27.96 „
34-4
22.17,^
^+-* ,„
26.68
60.4
9-20 -
394 ,
20.2
27.83 ]l
34.6
2
21.94 .^
^3-8 !
26.53 If
59-6 *
9-~ ;
38.7 I
30.1
27.73 '
27.67 ,
35.0
4
21.76 »
62.6 "
26.41 "
26.33 \
58.5 '
8.88 *4
37-8.?
May 10. 1
35.5
5
6
8
21.64 "
61.I '5
59.5 %
8.79 '
36.7 '
20.1
27.65 ^
36.1
21.59 ;
26.29
' 0
8.75 4
35.5 I
30- 1
27.67
27.73 „
36.9
8
21.60
57-8 ,0
54.2 ,
26.29
53-8 ,„
8.77 „
34.2
June 9.0
37.7
21.68 *
26.34 \
26.42 „
5»-8'°
8.85 ,!
32.9 ,
19.0
27.84 '
38.6
9
21.83 '^
49-8 Z
8.98 '3
31.6 '3
29.0
27.98 '1
28.16 '^
39-6
10
22.05 "
5^-5 I
26.54 "
26.70 '^
47.7
9-^7 !'
30.4 '
July 8.9
40.6
10
22.33 ':
50.9 \\
45-6 '
9-41 !*
29-3 '
21
II
33
14
19
31
89
10
18.9
28-37 „
41.7
22.66
49.5 ,
26.89 „
43-5 ,„
9.70
28.3
28.9
28.60 'I
28.86 '^^
42.7
10
23.03 37
48.3
27.11 "
41.5 °
I0.03 3
27.4 ^
Aug. 7.9
43.6
9
8
6
23.45 \^
47.2 "
2735 z
27.61 ^x
27.89 *;
39.8 \\
10.37 "
'°-75 f *
26.7 \
17.8
29.14 44.4
23.90 2^
46.3 I
38.3 f
26.2 ^
27.8
29-43 Z i 45.0
24.37 7
45.6 \
37.1 "
11.1540
25.8 \
29
5
49
4
29
9
41
5
Sept. 6.8
29.72 ,„
45.5
24.86
45-2
28.18
36.2
"•56^,
25-5 ,
16.8
30.0230 ^^g
3
25.36 5^
45.0 .
*8-47 '^
35.8 4
11.98 42
25.4 J
26.7
30.33 ,'
45.9
I
25.87 5'
45.1 '
28.77 Z
35.8 °
12.40 ♦'
25.5 ^
Oct. 6.7
30.63 3°
45.7
2
26.37 ^°
45-4 \
46.0 \
29-07 ;„
36.2 *
370 *
^ 12
12.82 4*
25.7 .
16.7
30.93 ,„
29
45.3
4
6
26.86 ^?
48
29.36 ^^
13.24 4'
40
26.1 ^
26.6
31.22
44.7
8
27.34 ^^
46.8
29.64 -,
38.2
13.64
14.02 3»
14.38 '*
26.6
27.3 0
28.2 ^
Nov. 5.6
31.49 J
31.75 '^
43-9
27.79 ^,
47.8 °
29.91 J
39.7 J
15.6
430
9
28.21 ^^
49.0 "
30.15 *
25.6
31.98 ^^
42.0
10
28.59 3^
50-5 \\
22
30.37 \^
43.6 •
14.71 "
29.2 '
r>ec. 5.5
32.18 '°
17
41.0
10
10
28.91 3^
16
5^-^ ,8
30.56 '9
15
45.8 "
22
14-99 "
23
30.3 lj
15.5
32.35 .,
40.0
29.17
53.9 0
30.71 _
48-0 „
1522
31.5 ,-
25-5
12
32.47 "
32.55 *
39.0
10
29.37 ^
18
30.81 -
30.87 ^
^^ « 22
50.2
15.39 'J
34.2
35.5
38.1
9
29.49
57.6 "
52.3 "
15.50 "
Sec^,Tan<5
1.008 +0.130
1.713 +1.391
1.031 -0.253
1. 413 40.998
Mean Place
27*.69i 29".98
2IV869 45".53
26*.532 58''.44
8*.857 22".89
D'f a, Dw a
0.00 0.00
+0.04 0.00
-0.0 1 0.00
40.03 aoo
D^ 6, D« S
0.0
+1.0
1
0.0
+ 1.0 1
0.0
+ 1.0 1
0.0
+1.0
lEph ijA
APPARENT PLACES OF STARS, 1913
339
FOR THE UPPER TRANSIT AT WASHINGTON.
0 Aurigse.
1 Oeminonun.
1 Puppis (0.).
y Orionls.
Mem Solar
Mag
27
Mag.
4.3
Mag. 6.2
Mag. 4.4
Date.
Right
Declina-
Risht 1
Declina-
Right
Declina-
Right Declina-
tion N.
Asomsion.
tion N.
Ascension.
tion S.
Asoensioa.
tionN.
h m
0 /
h m
0 /
h m
0 /
h m
0 /
5 53
+37 12
5 58
+23 16
m m
6 I
-45 I
6 2
+ 14 46
Jan. 0.5
48*84
99
36.5 ^
51.25 ,
W W
16.5
60.01
WW
647 „
37.58
WW
54-8^
10.4
48.91 I
37.4 ;
51.32 \
16.6 '
59-99 8
59.91 ,,
67.9 3^
37.65 .;
54-4^
20.4
48.92 '
38.3^
51.34 ,
16.7 '
70.8 ^9
37-67 '\
54-0*
30.4
48.88 ♦
39.2 ^
40.0^
51.31 \
5».23
12
16.9 \
59.78 3
73.3
3764 3
53-7 \
Feb. 9.4
48.78 "»
14
x7.t;
59.59 4
75-5 "
17
37-57 J
53-6 1
19.3
48.64 „
40.6
51.11
17.2 ^
59.36
77.2 „
37.46
53.5 ,
' Mar. 1.3
48.47 z
41. I 5
50.96 '5
17.4 -
5909 ,„
78.4 "
37.32 4
37.16 «
53-4 „
"3
A,Z.^7 11
41.4 \
50.79 '^
•7-5 '
58.80 '9
79.1 ;
53.4^
21.3
48.06"
41.4 ,
50.62 '7
17.5°
58.51 z
79.4 \
36.99 ^
53-4-
31.2
47.86 '°
19
*-;
50.45 ;^
.7.4;
5«" :^
79.1 \
36.82 '7
J5
53-4 0
Apr. 10.2
47.67 ,
47.51 t
40.9 ,
50.29
17.3 ^
57-94 ,,
57.68 ^^
78.3 ,,
36.67
53.4 ,
20.2
40.4 ,
5°' 5 ^
17.2
75.5 '^
36.54 \\
53.5 ,
30.1
47-39 ,
39.7 1
38.9*
50.05 '°
17.0 ^
57.28 «
36.44 '°
53.6'
May 10. 1
4732 ;
4998 \
16.9 '
73-4 !
36.37 ;
53.8 \
20.1
47.29 I
38.0 9
49.95 ^
16.7 ^
57.15 '^
71.0^*
27
36.34 \
54.15
30.1
47-31
47.39 ,!
36.3?
35.5 «
34.7!
49.97 ,
16.6
57.07 .
^^•3 ,0
36.35 ,
36-4' .^
54-4 ^
Jtme 9.0
50.04 ;
16.5 ;
57.04 ,
65.3 ^°
54-8 4
19.0
47.52 \l
50.15
16.4 '
57.06
62.2 3'
36.51 °
55.2 \
29.0
4769 11
50.30 Ix
16.5 ;
57-13 ,;
59.0 3^
36.65 4
55.7 !
56.3 J
Jnly 9.0
47-9' 11
34.0^
50.49 ''
22
16.6 '
I
57-26 ;3
55-9 ^!
30
36.82 '7
21
18.9
^•^7 ,„
33.4 _
50.71 „
16.7
57-44 „
529 ,„
37.03 „
56.9 .
28.9
48.46 11
32.9 \
50.96 5
16.8 *
2
57-67 '^
57-93 f
5°° 6
47.4 '
37.26 ^3
37-52 J
37-80 *«
57-5,
Ai^. 7.9
48.78 11
32.5 \
5^-24 '0
17.0
58.0 5
17.8
49.12 34
49.48 36
37
32.2 ^
51.54^,
17.2 ^
58.22 ^9
45-2 "
58.5 f
27.8
32.0 ^
51.85 ^
32
17.4 ^
5»-5*
^^•*
38.10'°
30
58.9^
Sept. 6.8
49.85
50.23 ta
50.61 ll
31.9 .
52.17
17-5 ,
58.89
5925 ^,
59.61 36
*7
42.1
38-40
59.2
16.8
31.9 ,
52.50 33
17.6 '
41.4 7
38.71 3
59.3 ^
26.7
32.0 '
52.83 ^^
17.6°
4^-3 ,
39.02 3
59.3 ,
Oct. 6.7
50.99 ll
32.1
53.16 33
17.5'
59.98 37
60.34 f.
6
41.9
39.34 ,.
I
59.2 ,
16.7
51.36^7
32.3 ^
53-49 ,^
17.4
430
39.65 \\
58.93
36
3
32
2
34! 171
30 5
26.7
51.72
32.6
53-81
17.2
60.68
44-7 „
39-95
58.4,
W. 5.6
52.07 35
33.0 ^
54" :
17.0
60.99 ^g
61.27 ^;
47.0 5
40.24 J
40.52 °
57-9^
57.3 J
15.6
52.40 ^^
33.4 6
54.40 J
54-66 ^^
16.8 ^
49-7 '^
. 25.6
52.69 11
34.0
16.6 ^
6^-51 :^
5^-7 ^^
40.77 ,,
56.6 7
^c. 5.5
52.94 ,^
34.7 J
54.89 :^
16.5 ;
61.70 '9
14
55-9 ^'
34
22
40.99
^ 19
55.9^
15.5
53.15 ,^
53.31 ^
35.5 ^
55.08
16.4
61.84
61.92 \
59-3 ,.
41.18
\ A
55.3 .
54-7'
25.5
36.4^
55.23 ;;
16.3
62.7 34
44
41.32 ^
35.5
53.42 "
37.3 ^
55.34
16.4 '
61.94
66.0 33
41.42
54.2 *
Sec5,Tan*
1.256
-K).759
1.089
+0.430
1-415
-1. 001
1.034
+0.264
Mno Place
47'.3i8
26".8o
49*.9i5
7".90
58*. 1 79 7o".oo
36«.305 46".84
DVa,D»a
40.02
0.00
40.0I
0.00
-0.03 0.00
40.0I O.QO
DfS,DmS
*o.o
+1.0
0.0
+ 1.0
0.0
+1.0
\ 0.0
•V-VJO
[Hph 23]
340
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
22 H. Camelop.
V Oemlnonun.
2 Lyncis.
C Canis Majoils.
Mean Solar
Mag. 4.7
Var. 3.2-4.2
Mag. 4.4
Mag. 3.1
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Decbna-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion S.
h m
0 /
h m
0 /
h m
0
/
' h m
e »
6 9
-1-69 21
6 9
+ 22 31
6 II
+59
§ §
2
6 16
-30 I
Jan. 0.5
^9-41 ,0
W '
38-95 „
r W
66.6
59*50
W 9
47.4
"7 ¥
59.78
^ w
21.6
^44 ,,
10.5
19.51 '°
20.2 ^^
39-03 :
66.6 °
59-61 '
49.5
^ 1
59.82 \
20.4
19.48 I
22.7 ^5
39-06 •*
66.7 '
59.62 '
51.6
21
59.80 ^
^M -TV 26
27.0
30.4
19-33 ,^
25.1 ^^
39-04 i
66.8 '
59-55 !
59-39 '
53.6
20
59.73 ,;
29.3 \^
Feb. 9.4
^906 11
27.2
38.97 ^
67.0 ^
55.3
17
59.62 •'
31.2 '^
36
17
II
2
23
15
16
16
19.3
18.70
28.9
38.86
67.2
59-^*^ ,H
56.8
59.46
32.8
Mar. 1.3
18.26 **
30.2 '^
31.0
38.72 \i
38.56 ^
67.3 ;
58.88 ^8
57.9
II
59- 27 '
34.0 -
II-3
'7-76 5°
67.4
58.56 3^
58.6
7
59.06 ^'
34.8 !
21.3
17.24 5
31.4 ^
38.39 ]l
67.5 '
58.22 34
59.0
4
58.84 "
35.1 ,
312
16.72 52
312
67.5^
57-88 34
58.9
I
58.62 "
35.0
49
7
16
0
3^
5
21
5
Apr. 10.2
'^•^•^ AA
30.5 , ,
38.05
67.5 ,
5756 „
57-28 '«
584
58.41 ,„
34-5 „
20.2
15-79 ;;
29.4
37-91 *
67.4
57.5
9
58.22 9
33.6 9
30.2
15-42 11
27.9 J
26.1 '®
3780 "
37-72
67-3
57.04 ^
56.86 ^
56.2
13
58.05 7^
32.3 X
May 10. 1
'5'4 ]l
67.2 *
54.7
>5
57.92 '3
20. 1
H-96 •«
24.0 '^
23
37-69 ^
67.1 '
56.76 '^
53.0
17
19
57.83 J
28.7 ^-^
22
30.1
14.88
21.7
3770
67.0
56.74 ,
51. I
7
57.78
26.5
June 9.0
14.92 *
19.2 5
37-75 ,^
66.9 '
56.79 .^
49.1
20
57.78 °
=^4-^ ^6
19.0
15.07 '*
16.7 ^^
37-85 °
66.9°
56-91 "
'47.1
20
57.82 4
21.5 '*
29.0
15-32 11
'4-3 !
37-99 J
66.9 °
57." !
45.1
20
8
5790 , ,
18.8 '7
July 9.0
15.68 3*
45
11.9^4
23
38-17 ;:
67.0 '
5^-^« «
43.2
19
18
58°^ ;:
16.1 »7
36
18.9
16.13 ,,
9-6 ,„
38-38 ,^
67.1
57-71
41.4
58.18
'3.5 „
28.9
16.67 i*
7-6 g
38.62 »4
67.3 '
58.1039
39.7
17
58-38 °
ii.o'S
Aug. 7.9
17.28 ll
5.8-8
38-89 '^
67-4
5854 ;[^
38.2
15
58.61 \\
8.7*3
17.9
17-95 !
4-3 ^
39'7 ''
67-5
59.02 ^8
37.0
12
58-86 ;5
59- '4 '„
6-7 !«
27.8
18.67 J'
3' n
39-47 ,,
67-6 '
59.53 , ,
36.0
10
5.1 '*
76
9
32
I
54
8
30
II
Sept. 6.8
'9-43
1.6 ^
39-79 „
67.7
60.07
60.63 ^2
35-2
59-44 ,,
4.0
16.8
20.22 1'
40.12 ^-^
67.7°
34.7
5
59-75 \,
3.3 ^
26.7
oO 2
40.45 ^^ 67.6 '
61.19^. 34-5
2
60.06 3*
3-' '
Oct. 6.7
21.82 f° 1.6 '
40.78 " 67.5 '
61.76^7 34.6
I
60.38 3^
3-5 *
16.7
22.62 2.1 ^
41. u l^ 67.3 ^
62.32 5 35.0
4
60.70 3^
4.4 9
77 9
3-2 3
55
6
3«
»5
26.7
23.39 _. 3.0
41.43 ,, 67.0
62.87 ^^ ' 35.6
61.01
5-9 .„
Nov. 5.6
24.12 11 4.3 I
41.74 11 66.7 3
63.39^ ,36.5
9
61.30^^
7.8 '9
15.6
0 68 16
24.80 ° 5.9
42.03 9 1 66.4 3
63.88 ^9
37.7
12
^'•57 I
10. 1 *3
25.6
60
2540
7.8 '9
42.30 ' 66.1 •'
64.33 ^^
39.2
15
61.81 ^^
"•7 !f
Dec. 5.6
25.92 ]
lO.O "
42-54 I*
65-8^
64.72 ^9
40.9
17
62.02 ^'
15.6 ^9
42
24
20
2
32
19
16
30
15.5
2^-34 ,^
'2-4 „
42.74 , 65.6 _
65.04
42.8
62.18
18.6
25.5
26.64 ^^
'4-9 ^
42.90
65-5 '
65.28 ^4
6544 '^
44.8
20
62.29 "
21.6 3°
35-5
26.82 *^
17-5 '"
43.02
65-5°
46.9
21
62.36 7 , 24.5 ^"^
Sec<5,Tan<5
2.836
+ 2.654
1.083 +0.415
1.944
+1.667
i>55 -0578
Mean Place
i5".75i 7"-24
37".6o8 58".39
57«.oio 37".64
58V322 37"-97
D'lf a, Dm a
+0.07 +0.01
+0.01 0.00 1 +0.05 +0.01
-0.02 0.00
D^ 6, Dm 6
0.0
4-I.O
1 0.0
+1.0
1 0.0
+1.0
<5.o
♦ I.O
IKph u]
APPARENT PLACES OF STARS, 1913.
341
FOR THE UPPER TRANSIT AT WASHINGTON.
/I aemlnomm.
^'^ Aurig«.
^ Canls Xajorls.
8 XoBocerotia.
Jleaa Solar
Mag. 3.2
Mag. 5.1
Mag. 2.0
Mag. 4.5
Dite.
Risht
Declina-
Richt
Declina-
1
Right
Declina-
Right
Declina-
Ascmnosi.
tion N.
Aacension.
tion N.
Ascension.
tion S.
Aacensioo.
h m
tion N.
r
h m
0 /
h m
0 /
h m
0 /
0 t
6 17
+ 22 33
00
6 18
+49 19
6 18
-1754
6 19
+ 438
Jan. 0.5
s
43.22
w w
40.9
8
14.00
w w
^9-4 .
s
53.41 .
W '
36.4 ,,
a
10.76
' W
235 „
10.5
43.31 9
40.9
I4.II "
5346 *
38.7 '
10.83 ^
22.4 "
20.4
43.35 I
41.0
14.15 \
72.6 '^
5346 °
40.8 '■
10.86 3
^'•4^ ft
20.6 ^
20.0
30.4
43.33 ,
43.27 _
4I.I
I4.II ^
74.1 \\
53-42 *
4-7 ^
44-3 ,
10.84 '
10.78 °
- Feb. 9.4
41.3 \
'4°' !
75.5 't
53.33 '
10
1
16
12
12
12
10
5
19.3
43-17 ,^
41.5 ^
13.85 „
7^-7 .„
53.21 ,^
45.5 ^
10.68
^9-5
Mar. 1.3
43.03 *
42.87 !
41.7 ^
13.64 ;
n-7 '°
78.3 !
53.06 5
52.88 '*
46.4 ^
47.0 ^
10.55 ^^
19.2 3
"•3
41.8 '
13.40 *
1 c
10.40 5
10.24
19.0
21.3
4270 ;
41.9 '
12.89 !t
78.6 3
52.69 ;'
47.3 ;
18.9 ^
31.2
42.53 .,
42.0 '
78.6 °
52.50 '^
47.2
10.07 ;7
19.0
17
0
25
3
:8 41
10
2
.\pr. 10.2
42.36
42.0
12.64
0 T
78.3 ,
77-7 I
52.32
52.16 *
46.8
^•^' lA
19.2
20.2
42.21 •*
41.9 \
12.42 "
18
12.24
46.1 7
9.77 ^
19.5 \
30.2
42.10 "
42.02
41.8 '
76.8 9
52.03 3
45' ^
9.66"
9.58 \
19.9 ^
20.5 ^
May 10. 1
41.7 '
I2.II '3
75.6
51-93 •"
42-2 '^
^ 18
20.1
41.98 ^
41.6
12.04 '
74-3 ;j
5.86 J
9-54 J
21.2 1
8
30.1
41.98
41.5
12.03
72.9
51.83 ,
4°-4 ,_
9.53 .
22.0
June 9.0
42.03 5
41.4 ,
12.07 ^^
7'-4 6
69.8 '^
51-84
38.4 °
9.57 Z
9.65 ,^
22.9 ^
19.0
42.12 ^
T 1
4^-3 0
12.18 "
T T
51.89 5
36-3
29.0
42.25 *^
41.3''
12.35 !
68.3 '5
51-98 \
34.1 "
9.76 "
249 °
July 9.0
17
42.42 /
41.4 ^
22
^2.57 _
66.8 '5
52.11 '3 31.9"
9.91 x
26.0 "
21
27
"4
17
21
18
II
18.9
42.63 _
41.5
12.84 1 65.4
52-28
29-^ ..
10.09
27.1 ,^
28.9
42.86 "^
0
41.5
13.16 3'
64.1 '3
52-48 z
27.7 ^
10.30 '
28.1 ^^
Aug. 7.9
43.40
41.6 '
13.51 ^x
13.89 ^^
63.0 ' '
22
52.70
24.2
\ t.
10.53 ^^
10.79 _^
29.0 ^
29.8 ;
17.9
41-7 '
62.0 '^
61.2 *
52.95 ^;
27.8
43.70 ^"
41.8 ^
1430 ^
53.22 \
22.9 ^
11.06^7
30.5 \
3^
0
43
6
28
10
29
5
Sept. 6.8
44.02
41.8
14.73
60.6
53.50 _
21.9 ,
"•35 _
31.0
16.8
44.34 t]
41.7 '
15.18^5
60.1 5
53.79^,^121.3 \
"•^^,0
31.2
26.7
44.6733 41.5 ^
15.63 ^^
59.8 3
54.093 I 21.2
11.943
31.1 ^
Oct. 6.7
t"» 2
45.00 ;f^ 41.3
16.09 4^
I
59.7
54.393° 21.6 4
^^•^5 ^^
30.8 3
16.7
45.33 ^^ 41. 1 ,
'^•55 l!
2
59.9 ,
54.693 22.4
^^•55 Z
30.3 \
33 3
45
3
30 13
30
8
26.7
45.66 , 40.8
17.00
60.2
54-99 _ 23.7
'2-85 ,„
295 ,„
Nov. 5.6
45.98 11
40.4 ^
17.43 ^,
60.7 \
55-^ ^6 ^5.3 :
55.54 ^° ; 27.3 ^,
13-14 '
28.5 '°
15-6
46. 28 3 40.0 ^
17.84 t'
^^•5 ,0
13.41 ^'
^•. ^ 12
27.3 ,,
25.6
46.55 '^ 39.6 ^
18.21 37
62.5 '^
55.78 ^4 29.5 "
13-66 "5
26.1 '^
' Dec. 5.6
46.80 ^5 1 39.3 3
18.54 ^^
63.7 ^
55.99 :., 31.9 ,:
13.88 "
24-8 '3
21 1 2
28
13
17 1 25
19
'3
15.5
47-OI _ 39-1 _
18.82
65.0
56.16 34.4
14.07
'3-5 ,,
25.5
35.5
47.18 ^7
12
47.30
390
38.9 '
22
19.04
19.19 ^
68.1 '^
56.29 '3 36.9 5
56.37 J39.3 ^
14.22 *
14-33 "
^>* ^ 12
22-3 ,,
21. 1
SkS, Tan 8
1.083 ■*o-4i5
1.535 +1.164
1. 05 1 -0.323
i.c»3 +0.081
Mean Place
4i'-863 32".99
I2V034 6o".45
52Vo89 43".07
-o.oi 0.00
9'.504
i6".24
0.00
DV«,D«a
+0.01 0.00
+0.03 +0.01
0.00
Ik6,DmS
0.0 +1.0
0.0 +1.0
0.0 +1.0
\ 0.0 -VV.Ci
(Eph 13I
342
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
a Aiftls.
10 Xonocerotli.
1
y Oemlnonuii.
8 Lyncis.
Mean Solar
Mag. -0.9
Mag. 5.0
Mag.
4.1
Mag.
6.0
Date.
Right
Declina-
Right 1 DecUna-
Right
Declina-
Right
Declina-
Ascension.
tion S.
Ascensioo. i tion S.
Ascension.
tion N.
Ascension.
tion N.
h m
0 /
h m
0
9
h m
0 t
h m
0 t
6 21
-5238
§ f
6 23
-442
§ t
6 23
+20 16
00
6 29
+6133
00
Jan. 0.5
8
63.36 ^
45-8
8
41.12
w 9
20.3
16
s
49.20
12.8
s
47-44 ,,
40.8
10.5
63.34 I
49-2 34
41.19 \ 21.9
49.29 ;
12.7;
47-58 '4
43.1 \\
20.4
63.09 ^t 55.3 11
41.21 ^ 23.3
14
49.33 ^
12.6 •
47.62 *
47-56 ,J
45.3 "
30.4
41.19 ^24.6
41.13 ^ 25.7
13
49.33 ,
49.27 ^^
12.6°
47-4"
Feb. 9.4
62.87 " ' 57.8 '5
1 1
0
12.7'
47-41 ^
49.4 "!
27 1 20
10 .
8
10
I
22
17
19.4
62.60 59.8
41.03 26.5
6
49-17 ,,,
12.8
47- '9 ,„
5'-i .,
Mar. 1.3
62.29 3' 61.4 '^
40.89 ^27.1
49-04 '3
48.88 '^
13-0^
46-90 Z
5=^-4 ^
11.3
61.95 1\ 62.5 "
40.73 *^ 27.5
4
13-1
46.56 34
53.4 '°
21.3
61.60^^163-0
61.24 3^ 63.0 ""
35 5
40.56 ^' 27.7
2
48.71 ;;
13-2
46.19 %
53.9 \
312
40.39 '^ 1 27.7
0
3
48.54 ;^
'3-3:
45.82 J^
54.0 ^
Apr. 10.2
60.89 62.5
40.23 1 27.4
48.38
13-3 „
45.46 „
53-7 g
52.9 „
20.2
60.56^^161.5 '"^
40.09 ^ 26.9
5
48.24 1
13-3 „
45'4 ^'
44.86'!
30.2
60.27 ^^ 1 60.0 '^
39.97 " ; 26.2
7
48.12 '^
13-3°
51.7 "
May 1 0.1
60.02 ^5 58.0 ^^
39.88 \ 25.3
39.82 ^ 24.3
9
48.03 \
13.3^
44.64 , .
50.2 5
20.1
59-82 ^° 55.7 ^3
14 1 26
10
12
47.99 *
^3-3:
44-50 '*
48.5 ''
19
30.1
59.68 I53.I
^1 ^ ^\
39.81 23.1
V ^
47.99 ^
13.3 „
44-43
46.6
June 9.1
59.59 ^ ! 50.2 J
39.83 ^21.7
14
48.03 *
48.11 *
13.3°
44-44 „
44.5^
19.0
59.56 3 47.1 31
39.90 ' 20.2
15
13-4
44-53 '
44-71 '8
42-4 ^
29.0
59.60 ^'43.9,,
40.00 *° 18.7
15
48.24 \\
48.40 "^
^3-5 '
40.2 "
July 9.0
59.69 ^l 40.6 33
40.13 \^\ 17.2
15
_ ^
»3-7!
44.96 '3
38.0 "
15
32
17
16
19
2
32
31
18.9
59.84 ^,
37-4 ..
40.30 1 15.6
48.59 „
13-9 ,
45.28
45-66 3»
35-9 .„
28.9
60.05 ' 1 34.3 11
40.50 14. 1
15
48.82 '3
•14.1 '
340 '9
Aug. 7.9
^'^'iV^'-^ll
40.73 ^^
12.8
13
49.07 ^^
14-3^
46. 10 **
32.3 ;^
17.9
60.61 3''|29.i ^^
40.97 ,^
II.6
12
49-34 ,„
14.4 ,
46-59 ♦'
30.8 5
27.8
60.95^^27.1 '^
20
41-23 ^^
10.7
9
49.63 ''
T
14.5 \
47.12 33
29.5 .
37 ; 15
28
7
31
0
56
II
Sept. 6.8
61.32 25.6
4^-51 ,„
1 0.0
49.94 _
14.5 ^
47-68
48.26 5»
48.86 J°
49-47 g'
50.08^
28.4 -
16.8
61.72 ^^
24-7 \
41.80^9
9.6
4
50.25 ^'
14.4
27.6 !
26.8
62.13^;
24-4 \
42-10 ^^
9.6
0
50.57 ^^
14.3 i
27.1 3
Oct. 6.7
62.54 ^
2+-^ ,0
42.40 ^^
9.9
3
50.90 ^^
14.0 3
26.9 \
16.7
62.95 1'
25.8 '°
42.70 3^
10.6
7
51.23 ^^
13.6 4
27.0
39
16
29
10
32
4
60
4
26.7
63.34 „
^7-4 ^,
42.99 ^«
11.6
5^-55 ,,
13.2
50.68
27-4 ,
Nov. 5.6
63.71 11
29-5 "
43.27 ''
12.9
13
5^-^^ L
12.7 ^
51.26 58
28.1 '
15-6
64.04 ^^
32.2 7
43.54 ^
14.4
15
52.16 30
12.2 ^
51.81 55
29.2 "
25.6
64.32 ;
35.3 ^J
43.79 ^^
16.1
17
_ 0
28
52.44 _
11.75
5'-3i i°
30-6 I*
Dec. 5.6
64.55 'I
38.7 f
22
44.01
17.9
18
52.69 ^5
II.2 5
52-75 t*
32.2 '<*
17
35
19
18
21
4
37
»9
15-5
64.72
42-2 .
44.20
19.7
r«
52.90
10.8
53-"
34.1
25.5
64.81 9
45.8 ^J
44.35 '^
21.5
18
* 0
53.07 ';
10.5 3
53-41 »9
36.2
35.5
64.84 3
49.3 ^^
44.45
23.3
18
5320 *^
10.3*
53-61 »°
38.4 "
Sec S, Tan 6
1.648 -1. 3 10
1.003 -0.082
1.066
-ro.369
2.100 -1-1.846
Mean Place
6iV238 52".37
39'.862 27".26
47'.853
5"-i7
44'.636 32".38
DV a, Dm a
-0.03 -0.0 1
0.00 0.00
40.0I
0.0
0.00
•K>.05 +0.02
D^ S, Dm 6
0.0
+ 1.0
0.0
+1.0
+ 1.0
1 -0.1
+ 1.0
[Eph 13I
APPARENT PLACES OF STARS, 1913.
343
FOR THE UPPER TRANSIT AT WASHINGTON.
I
88 H. Camelop.
S} Cauls Xajorla.
51 Aurigse.
^ Oeminonun.
McaaSokr
Mag. 5.6
Mag. 4.5
Mag. 5.7
Mag. 1.9
Ditc.
Right
Declina-
Riffht
Declina-
Right
Declina-
Right Declina-
Aaoennon.
tion N.
Ascension. tion S.
1
1
Ascension.
tion N.
Ascension.
tion N.
h m
0 /
h m
0 /
h m
0
/
h m
0 f
6 31
+79 39
6 31
-22 53
m §
6 32
+3928
6 32
+ 16 28
Jan. 0.5
S
32.02
r W
48.3 ,„
25*98
34-0 ,
39*58
99
14.4
s
42-51 _
r r
35.0
10.5
22
32.24
5-35:
26.04
36-6 ^^
3969 "
39-75 ^
15.4
10
42.61 '^
34.6^
20.4
32.20 *
54-3 ^°
26.05 *
390 w
16.5
1 1
42.66 5
34.3 i
30.4
31.92 '^
57-' !
26.01 ^
21
42.9
0
39.75 .
17.6
II
42.66 ""
34-1
Feb. 9.4
31.41 '•
59-6 '5
25.92 9
3969
18.6
10
42.61 ^
34.0^
71
21
13 15
12
9
9
0
19.4
30.70
61.7
25.79 . 44-4 _.
39-57 .
19.5
42.52
34-0
Mar. 1.3
^983 ;^
63.4 ''
^5-^3
=^5-45 ,„
45.6 "
46.4 ,
39-41 ^
20.2
7
42.40
34.0
"3
28.84 ^
64.6 "
39-22 9
20.8
6
42.25 ^^
34-1 '
21.3
'7-7» 12
65.3 \
25.26 '9
46.8 4
20
39-02
21.2
4
42.08 7
34.2 '
31.2
-/- _^ 108
20.70
65-4 '
25.06 ^°
46.8 °
38.81 ^'
21.3
I
4^-91 ^
34-2 J
1
105
5
«9
4
21
I
16
Apr.10.2
23.80 ®7
64.9 „
24.87 ,„
24-69 *
46.4
38.60
21.2
41.75 ,^
34.3
20.2
63.8
45-7 ,;
38.41 ;^
20.9
3
6
41-61 ^
34-4 ,
30.2
62.3 '5
24-54 ^
44.7 °
38.26 '5
20.3
41-49 a
41-41 \
34.5 ,
May 10. 1
23.09 l\
60.4*9
24-42 "
43.4 3
38.15 "
19.6
7
0
34.7 ,
1 20.1
22.56 ^^
58- • '^
24.33 ,
4^-7 !
38.08 7
18.8
8
41.36 5
34.8'
34
26
5
«9
2
9
I
2
30.1
22.22
55-5 ,a
24.28
39-8
38.06
17.9
41.35 ,
35-0
June 9.1
22.08 '^
22.16 *
24.27 '
37.7 _
38.09 3
16.9
10
41.38 3
35-3 ,
19.0
49-8 ',^
24.31 z
35-4 '^
38.18 9
15.8
1 1
41.45 „
35-6 3
29.0
22.45 ^^
46-9 !'
24.39 .,
33-1 !^
38.32 ^\
14.8
10
41.56
35-9 ,
July 9.0
"•^5 ^
^^ 28
12
24.51 ,5
30.7 '^
24
38.50 ;;
13.8
10
9
4-7X :i
36.2 J
18.9
23.64 3
4»-3 ,«
38.7 '^
24.66
24.84 '*
28.3
38.72 ,
12.9
41.89
36.6
28.9
26.0 ^3
38.98 '^
12.0
9
4>
42.10
36.93
.\ug. 7.9
25.54 ::^
36.4 \\
21
/,.. « 20
22.2
20.7 '5
II
39.27 ^^
II. 2
8
2A
42.34 *
42-60 \l
42.88 '^
29
37-2 3
17.9
27.8
26.71 "7
27.99
34-3
3^-5 .4
2529 J
25.56 ^7
39.59 \.
39.93 ^^
10.5
9.8
7
7
6
37.5^
37.7 „
Sept. 6.8
^9-37,,,
3»-' .„
^584 ,„
19.6
40.29 .
9.2
43-17 ,,
37-7 „
16.8
3^83 t^
30.1
26.13 ''
19.0 °
40.67 38
8.7
5
43-48 \\
37.7^
t 26.8
32.33 _.
29.5 ,
26.43 ^°
18.8 ^
41.06 39
8.3
4
43.80 3^
37-5 ,
Oct. 6.7
33.85 '''
2
293
26.74 f
19.1 a
41.45 ''^
8.0
3
44.12 \\
37.2 3
16.7
35-37 i^
29.6 \
27.05 3'
8
41.85^^
7.8
2
%2
44.44 ,,
36-7^
148
7
3»
13
39
I
32
0
26.7
36-*5.,,
30.3 „
27-36 ,„
21.2
42.24 ,a
7-7
44.76
36.1
Nov. 5.6
38.26 "»'
31-4 •'
27-65 ''
22.9 ^J
42.62 ^^
7.8
I
4507 :'
35.4 I
15.6
39-57 If'
330 *
27.92 7
^5-^ !
42.98 36
8.0
2
45.36 9
45.64 \\
34.7 I
25.6
4°-76 "'
35.0 °
28.17 ^
5T A ^4
^7-4 j6
30-0 '"'
27
43-32 ^^
8.4
4
34.0 ;
^c. 5.6
*^-7« 8^
37.3 J
^^•39 :«
^3-^3 \\
8.9
5
7
45.89 ^^
22
33.3 ^
15.5
42.61
39-9 ,8
42-7 ,°
'!-^7 14
32.7
43.89 _,
9.6
8
46.11
46.28 '7
32.6
25.5
28.71 ^\
35-4 '^
44.10
44.26 '^
10.4
32.0
35.5
43.58 37
45.7 ^°
28.80 9
38.1 '^
11.3
9
46.41 '3
31-5 ^
SfcS.Tand
5-57J +5-482
1.086 -0.422
1.295 +0.823
1.043 +0.296
Mean Place
24'-375 39"-53
24".623 4i".oi
37\896 6".67
4I-.I95 27".70
D'^a^Bma
+0.14 +0.05
-0.0 1 0.00
+0.02 +0.01
+0.01 0.00
J)^8,D^S
-0.1
+ 1.0 '
-0.1
+ 1.0
-0.1
+\.o
\ -OA
W.'Ci
[Bphisl
344
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
y Argils.
S Xonooerotli.
c Oemlnonun.
S Oeminoram.
Mean Solar
Mag. 3.2
Mag. 4.7
Mag.
3.2
Mag.
3.4
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
DedUna-
Ascension.
tion S.
tion N.
Ascension.
tion N.
Ascension.
tion N.
h m ® '
h m
0 /
h m
0 /
h m
0 /
6 35 i-43 6
6 36
+ 958
6 38
+25 13
6 40
+ 12 59
mm
Jan. 0.5
7-75 , 61.9
S
W r
44.3 g
43.5 ^
36.24 , ,
12.7
8
25.72
W '
^''^ 6
31.3 ,
10.5
7.78 I 65.233
12.61 '°
36.35 "
36.41
12.8 '
25.83 '
20.4
7-75 I 68.33'
7.66 9 71. 1 ^*
12.66 5
42.8 7
13.0 ^
25.88 5
30.8 5
30.4
12.66 °
42.3 \
36.42
13.3 \
25.89 '
30.4 z
Feb. 9.4
7-51 ]i 1 73-6 2
12.61 5
41-9 :
36.37 „
13.7 :
25.85 *
30.1 ^
19 20
9
3
9
3
9
I
19.4
7.32 ! 75.6
7.09 I 177.2
6.83 ll7S.3'[
6.55 ll 79.0
"-52 ,,
41.6
36.28
14.0
25.76
30.0
Mar. 1.3
12.40 '-^
41.4 ,
35-99 „
35-82 7
35.64 ,
14.4 !:
25-64 \l
29.9 ;
11.3
12.25 5
41.3 .
14.7 ^
25-49 ,^
25-33 ,
25-17 'i
29.9 ^
21.3
12.09
41.3 ,
14.9
29.9 ,
31.3
^•27 '^
79.1 ^
11.92 7
41.4
15.0 ,
30.0
27
3
16
I
17
I
16
I
Apr. 10.2
6.00 ^ 1 78.8 ^
5.74 1 78.0
11.76
» .J
41-5 ^
35-47
15.1 ,
25.01
30.1
20.2
11.62 '^
T ^
41.7 \
35-32 5
15.0
24.86 '5
30.3 ^
30.2
5-51 ^^ 76.7 ^
11.50
42.0 ^
35-19 I
14.9 .
24.74 "
30.5 .
May 10. 1
5-32 ' 75-0 '^
5.16^ 73-0^°
11.41 9
42.4 :
35-10 ^
35.04 ,
14.7
24.65 9
30.7 ^
20.1
11.36 5
42.8 ^
H.5 ,
24.60 ^
31.0 ^
II 24
I
5
2
2
2
4
30.1
5.05 ■ 70.6
4.99 , 67.9^;
"•35 ,
43.3 ,
43.9 ,
44.5 ,
35.02
H.3
24.58
31.4 ,
June 9.1
11.38 I
"•44 ,„
35.05 ft
35.13 ^\
14. 1
24.60
24,66 ^
31.8 *
19.0
4.98 [ 6S.0II
13.9 ,
32.3 1
29.0
5.02 ^ 62.0 ^
"•54 °
45.2 ;
35.24 ,^
13.7 .
24.76 ;^
32.8 5
July 9.0
5-" .!
59.0 ,^
11.68 '4
45.9 ^
35.39 ,x
'3-5 I
24.90 ,;
33-3 f
14
30
17
19
2
17
5
19.0
5-25 ,„ 56-0
5-43 ' 53-1 ^
11.85
46.6
35.58 ^^
13.3 .
^^"^ 20
33.8
28.9
"-05 ,,
47.3 !
35.80 "
I3.I ^
25.27 l""
34.3 I
Aug. 7.9
5-66^3 50.4^7
5.92 ll 48.1 ]l
12.28 ^3
48.0 7
36.05 \\
13.0
25.50 ^
34.7 ;
17.9
12.53 It
48.5 \
36,32 7
12.8 ^
25.75 :l
35.1 t
27.8
6.21 '9 1 46.2 '9
12.80 '7
48.9 ^
36.61 ^9
1 12.6 ^
26.02 ^7
35.4 ■*
32 15
38
2
31
2
28
I
Sept. 6.8
6-53 ,, '44-7 „
13.08
49.1
36.92
' "-4 _
26.30
35.5 ,
16.8
6.87 34 43.8 9
13.38 3°
49.2
37.25 ,,
1 12. 1 ^
26.60 ^"^
35.4 ^
26.8
7-22 35 43.4 4
7-58 ^ > 43-6 I
7.94 3 44.5 V
13.68 3°
49.0 ^
37.58 l\
11.8 3
26.91 3'
35.2 ^
Oct. 6.7
13.99 3
48.6 ^
37.92 ^^
11.4 ^
27.22 ^^
34.8 ^
16.7
14.30 3
48.1 5
38.26 ^^
II.O ^
27.54 ^^
34-3 ,
35 15
31
7
34
5
31
7
26.7
8.29 46.0
14.61
47.4 ^
38.60
10.5
27.85 ^,
33.6
Nov. 5.7
8.63 34 48.0 ^°
»4-9' '°
46.5 1
38.93 ^^
10. 1 ^
28.16 ^'
32.8 ®
15.6
8.94 ^l 50-5 ll
15.20 ll
45.5 '°
39.25 ^_
9.7 \
28.46 30
31.9 ^
25.6
^ ^T 27 ^^ ^ 28
9.21 ^; 53-3 ,,
15.47
44.4;:
39.55 ;^
9.4 ,
28,73 ll
31-0,^
Dec. 5.6
9.44 '^ , 56.5 I]
15.72 5
43.3"
39.82 ll
9.1 I
28.98 ^5
30.0
18 1 34
21 10
23
2
22
9
15.5
9.62 59.9
15.93 , '42.3.„
40.05
3.9 ,
29.20
29.38 \l
29.1
25.5
9.75 '^ ' 63.3 f!
16.10 '7 4,.3'o
40.24 |9
8.8 '
28.2 9
35.5
9.82 7
66.7 -^^
-0.936
16.23 ^ ; 40.4 9
40.39 ^
8.8 °
29.52 "^
27.5 ^
Sec S, Tan 6
1.370
1. 015 •10.176
1. 105
■fo.471
1.026
+0.231
Mean Place
6".036 69^.24
ix".226 37".i9
34'.8i8
5".50
24*.4a3
24".9i
DV a> I^w a
-0.02 -O.OI
0.00 0.00
+0.01
+0.01
+0.0X
0.00
D.^ 6, Dm S
-b.i
+1.0
-o.i
+1.0
-O.I
+ 1.0
-0.1
+ 1.0
[Bph 13]
APPARENT PLACES OF STARS, 1913.
345
FOR THE UPPER TRANSIT AT WASHINGTON.
i^ Aurigse.
(x Canis Majorla.
18 Xonocerotis.
43 Camelop.
- McaaSohr
Mag. 5.3
Mag. -1.6
Mag.
4-7
Mag. 5.1
Date.
1
Riffht
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion N.
h m
0 /
h m
0 /
h m
0 /
h m
• f
6 40
-f-43 39
6 41
-1635
f 0
6 43
+ 2 30
6 44
+6859
0f
Jan. 0.5
30.13 ,_
61.5 ,^
19.93 ^
39-7
S
20.71
364
^^•75 ,^
35-0 ,fi
37.6 ^^
10.5
30.26 '^
62.7 "
20.00 '
42.0 ■'
20.81 '°
35-1 '3
23.94 ^
20.4
30.33 I
64.0 3
20.02 ^
44.2"
20.86 5
34.0 "
7
24.01 ^
40-2 J
30.4
0
30.33 ,
65.4 t
20.00 ^
46.1 9
20.86 °
33-0 '°
32.2
23.95 ,„
42.7 5
Feb. 9.4
30.26 '
66.7 '3
19-93 /
47.8 '7
20.81 5
23.76 ^
45.0 '3
12
II
II
14
9
0
29
20
19.4
30H ,,
67.8
19.82
49-2
20.72
31.6
23.09 ^
47-0 ,,
Mar. 1.3
29.98 [l
68.7 I
19.67 ^
50.2
20.60 "
31.2 4
48-7 Z
"3
29.78 ''^
69.4 ^
19.50 j^
19.32
50.9 ;
20.46 '^
20.30 '
^^•"^ ^6
30.9 3
22.64
4 ^^
50-0 '3
21.3
29.56 11
69.9 I
513 ,
30.8 ^
22.15 ^^
50.7 7
313
29-33 j^
70.1
1
'9'3 :^
51-4 3
30.8 °
2
21.645^
50
50-9 ,
Apr. 10.2
^9" ,„
70.0
'^•95 ,
18.79 f
50.5 °
49.7 „
19.98
310
21.14 ..
50.7
20.2
28.91 ^^
69.7 I
19.83 ^
31.3 ^
20.67 ^'
50.0 ^
30.2
28.74 ]l
69-1 $
18.65 *
19.71 ^^
31.8 \
32.4 .
20.26 4'
^«-9 6
47-3 „
May 10. 1
28.61 '3
68.3 ;
18.54 "
18.46 ]
48.6 '
19.62 \
19.56 t
19.92 ^^
20.1
28.52 9
67-4 '
47.2 '\
33.1 \
19.67 \\
45.4 '
3
II
4
16
3
8
15
21
30.1
28.49 .
66.3
18.42
43-8 »
19.53 _
33-9 ,_
19.52
43.3 „
June 9.1
28.51 I
28.59 ,;
65-1 ]l
18.41 •
19.54 _
34-9 °
19.47 \
19.53 ,.
41-0 *3
19.0
63.8 3
18.45 * 41-9 :i
19.59 ^
35.9 °
38-5 ^
35-9 „
29.0
28.72 ]l
62.5 3
18.53 „
39-9 Z
19.68 9
37.0
19.70 J
19.96 '^.
July 9.0
28-90 '!
6..3 "
18.64 "
37-8 '
19.81 \\
38..
33-4 ^t
22
12
'5
20
16
II
36
24
19.0
29.12
60.1
18.79 .
35.8
19.97
39.2
20.32
310
28.9
^938 '^
58.9 •'
18.97 '*
33.8 ^?
20.16 '9
10
40.2 '"
20.77 ^^
^^•7 ^
Aug. 7.9
29.68 3°
57-8 '
19.18 " 32.0 "
20.37 !'
41.2 ^^
21.30 ^^^
^^•5 "
17.9
30.01 ^^
56.8 '°
19.41 ]l
30.5 ^^
20.61 ^^
42.1 ^
60
24.6 ^
27.8
30.37 ^^
55-9 '
19.66 ^5 ! 29.3 "
20.86 ^5
42.7 ^
22.56 ^^
22.9 7
38
7
^7
9
27
4
71
14
Sept. 6.8
30.75 _
55-2
19.93
28.4
21.13
43.1 ,
23.27 . .
2'-5 _
16.8
31.15^°
54-6 ^
20.22 "
27.9 ^
2 1 .42 ^
2
43-3
24.01 '^
20.4
26.8
3^56^!
6
54.0 ^
20.52 3° ' 27.9 °
21.72 ^^
I
43-2 .
24.78 "
19.6 ^
Oct. 6.7
16.7
31.98^
32.40 ^^
53.6 ^
53.4 ^
20.82 3°
28.3 \
2Q.I
22.02 *^^
22.32 3°
42.8 I
42.2
26.37 ;°
19.2 *
19.2 ^
41
0
30 1 12
30
9
79
4
26.7
32.81
53-4
21.43 130.3 .
22.62
41-3
27-16
19.6
Nov. 5.7
33-22 ^*
I
53-5
21.72 ^^
3^-9 ^
22.92 ^^
40.2 '
27-92 3,
20.3 ,;
i?.6
33.61 39
53-8 3
21.99 ^3
20
33-9 _
23.21 ^^
389 ^
28-64 ^'
21.4
25.6
33.98 11
54-3 ,
2c;
22.24 ,,
3^-2 '^
^3-48 'J
37.5 t
29-30 tf
2!*7 '8
^4.7 ^,
I>ec. 5.6
34.31 ^3
550 ^
22.46 "
38.6 ^4
23.72 7
36.0 '5
29.89 59
28
9
19
25
21
15
50
21
15.5
34-59 „
55-9 ,„
22.65 ,,
41. 1
23.93 ^^
34-5 ,^
30-39 ,„
26.8
25.5
34-82 'I
56.9 °
22.80 '5
43.6 5
24.10 7
33.0 .^
30-78 39
^9-^ '^
35.5
la
35.00 "*
58.1 "
22.90 '°
46.0 ^^
24.23 ^
31.6 '4
31-05 ''
31.6^5
&c^,Tan6
1.382 -^.955
1.044
-0.298
1. 00 1 •to.044
2.790 +2.604
Man Place
28".302 54".20
i8'.86o 46".i6
19V45I 29".37
I9V896
27".66
40.03
t)'fti,Dma
40.02 +0.01
-O.OI o.c»
0.00 0.00
+0.07
T>$9,DmS 1 -O.I -l-I.O
-O.I +1.0
-0.1 +1.0
-o,\ ^\ .^
rEph 13]
346
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.5
10.5
20.5
Feb. 9.4
19.4
Mar. 1.3
21.3
31.3
Apr. 10.2
20.2
30.2
May 10.2
20.1
30.1
June 9.1
19.0
29.0
July 9.0
19.0
28.9
Aug. 7.9
17.9
27.8
Sept. 6.8
16.8
26.8
Oct. 6.7
16.7
26.7
Nov. 5.7
25.6
Dec. 5.6
15.5
25.5
35-5
Sec6,TanS
Mean Place
6 Geminonun.
Mag. 3.6
Right
Ascension.
h m
6 47
500
513
520
5-21
5.17
5.08
4.94
4-77
4.58
4.39
4.20
403
3.88
3.77
3.70
3.67
369
3.76
3.87
4.02
4.21
4.44
4.71
5.00
5.31
564
5.98
6.34
6.71
7.09
7.46
7.82
8.17
8.50
8.80
9.06
9.28
9-45
13
7
I
4
9
14
17
19
19
19
17
II
7
3
2
7
II
19
23
27
29
31
33
34
36
37
38
37
36
35
33
30
26
22
17
Dedina-
tionN.
+34 4
00
1.207
3'.4i3
+0.02
-0.1
8.4
9.1
9.8
0.6
1.4
2.2
2.9
3.4
3.8
4.0
4.0
3-9
3.6
3-2
2.6
2.0
1.3
0.6
9.8
9.0
8.3
7.6
7.0
6.4
5.8
5-2
4.7
4.2
3.7
3.3
2.9
2.7
2.6
2.6
2.7
30
3-4
4.0
7
7
8
8
8
7
5
4
2
o
I
3
4
6
6
7
7
8
8
7
7
6
6
6
6
5
5
5
4
4
2
I
o
I
3
4
6
+0.676
I ".61
+0.01
+1.0
a Piotozis.
Mag. 3.3
Right
Ascension.
h m
6 47
S
20.65
20.63
20.52
20.32
20.04
2
II
20
28
34
9.70
930
8.86
8.39
7.91
7-44
6.98
6.55
6.17
5.85
5.59
5.39
527
5.22
525
5.36
5.54
5.80
6.12
6.50
6.92
7.38
7.87
8.38
8.89
40
44
47
48
47
46
43
38
32
26
20
12
5
3
II
18
26
32
38
42
46
49
51
51
50
9.86 ^7
20.28 ^^
20.65 ^^
20.95
30
22
21.17
21.30
21.34
13
4
2. 119
1 8'. 005
Declina<
tionS.
-61 50
//
43.8
47.5
51.0
54-2
57.0
59.4
61.4
62.9
63.8
64.2
64.1
63.5
62.3
60.7
58.6
37
35
32
28
24
20
15
9
4
I
6
12
16
21
25
28
30
32
56.1
53.3
50.3
47.1
43.8 II
33
40-5
37.3
34-3
31.7
29.4
32
30
26
23
18
27.6
26.4
25.8
25.8
26.5
12
6
o
7
14
29.8 '9
32.3 ^^
35-3
38.6
42.2
45.9
49.7
30
33
36
37
38
-1.868
52".42
-0.05
-O.I
-0.03
+1.0
[Bph 13]
C MexLSA.
Mag. 5.6
Right
Ascension.
h
6
m
47
s
26.21
25.90
25.33
24.52
23.50
22.30
20.96
19.51
17.99
16.44
31
57
81
102
120
134
145
152
155
155
150
142
14.89
13.39
11.97
10.66 '^'
9.49"^
lOI
8.48
7.66
7.05
6.66
6.50
6.57
6.87
7.40
8.14
9.07
82
61
39
16
7
30
53
74
93
108
121
10.15
11.36
12.66 ^3°
14.00 ^^^
^5-^^128
16.62
17.80"^
18.83 '""^
19.67
20.29
Dedina<
tionS.
-8042
f/
36
73.0
76.6
80.0^4
83.2 3^
86.0
88.5
90.5
92.0
93.0
93.5
93.4
92.9
91.9
90.4
88.4
86.1
83.4
80.5
77.4
74.1
70.9
67.8
64.9
62.2
59.9
58.1
56.8
56.1
56.1
56.7
28
25
20
15
10
5
I
5
10
15
20
23
27
29
31
33
32
31
29
27
23
18
13
7
o
6
12
84
62
38
20.67
20.79
20.64
12
15
57-9 ,„
59« !
62.2 ^1
A.. ^ 28
65.0
68.2 ^^
35
71.7
75-3
79.0
36
37
6.202
i8'.3i2
-6.121
82".II
-0.16
-0.1
-0.08
+1.0
r AzfftU.
Mag. 2.8
Right
Ascension.
h m
6 47
48-58
48.60 *
48.56 ,■♦
48.45
48.28 '7
23
48.05
47.78 =^7
47.47 11
47.15 f,
46.82 33
33
46.49 „
46.17 3^
45.88 '9
45.63 '^
45.43
Dedina*
tkmS.
20
16
45.27
45.16
45.11
45."
45.17
45.29
45.46
45.68
4594
46.25
46.59
46.96
47.35
47.75
48.15
48.54
48.92
49.27
49.58
49.84
II
5
o
6
12
17
22
26
31
34
37
39
40
40
39
38
35*
31
26
20
50.04
50.18 '^
50.25 ^
-5030
//
31 o
34-5
37-9
41.0
43-7
46.0
47.8
49.2
50.1
50.5
50.3
49.6
48.5
46.9
44.9
35
34
31
27
23
18
14
9
4
2
7
IX
16
20
24
^•5 ,^
39-^ Jo
36.9 !^
33.8 II
30.6 32
27.5
24.5
21.7
19.1
16.9
15.2
14.1
136
13.7
14.4
15.8
17.8
20.3
23.2
26.5
30.0
33.6
37.2
31
30
28
26
22
17
II
5
I
7
14
20
25
29
33
35
36
36
1.572 -1.213
46'.63i 39".28
03
I
-0.02
APPARENT PLACES OF STARS, 1913. 347
FOR THE UPPER TRANSIT AT WASHINGTON,
348
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
0* Cauls Kajoria.
Mag. 3.1
y Canis Kajoiis.
Mag. 4. 1
(^ Canis Kajorli.
Mag. 2.0
68 Amies.
Mag. 5.1
Date.
Right
Ascension.
Declina-
tions.
Right
Ascension.
Declina-
tion S.
Right
Ascension.
Declina-
tion S.
Right
Ascension.
Dedina-
tionN.
h m
0 f
h m
0 /
h m
0 '
h m
0 #
6 59
-2341
* •
6 59 -15 29
7 4
-26 14
7 5
+3927
Jan. 0.5
10.5
20.5
24.83
24.92 ^
24.96 ^
71-9 „
74-6 11
77-2
50.63
50.73 '°
50.78 5
67.0
69.3 11
71.5
8
52.52
52.61 9
52.65 4
70.0
73.3 11
42.20
42.36 *
42.46 '°
54' .0
56.1 '^
30.4
Feb. 9.4
24.94 ,
24.87 7
II
79-5 \l
81.5 "°
17
50.77 ,|73.5
50.72 ^ 75-2 ",
9 1 *4
52.64 '
52.58 ,^
75-8 11
7«° ]l
42.49 3 57.2 ••
42.46 3 1 58.3 "
9 10
19.4
Mar. 1 .4
".3
21.3
31.3
24.76
24.62 '^
24.45 1^
24.26 '9
24.06 '°
19
83.2
84.6 '4
85.6 -
86.2 ^
86.5 3
50.63
50.50 '3
50.35 ,;
50.18 y
50.00 ;«
76.6
77.7 "
78.5 I
79.0 *
79-2 I
52.47
52.32 '^
52-'4 '„
5' -94 0
20
79-8
81.3 '5
82.4 "
83.1 7
83.5 *
42.37 ,, 59.3 ,^
42.24 \l i 60.3 'I
42.07 '7; 61. 1 *
41.88 '9| 61.7 ^
41.67 ^^ 62.1 ^
21 2
Apr. 10.2
20.2
23.87 ^g
23.69 \l
23-39 ^
23.28"
7
86.4
859 I
49.82
49.65 ^
79.0 ,
78.5 5
51.35 9
83-4 ,
82.9 i
82.1 *
81.0"
79-5 \l
41.46
41.27 9
62.3
62.2 ^
302
May 10.2
20.1
85.0 9
83.8 "
82.4 '-^
«7
4950 ,^
4938 "
49.29 9
0
77-^ ,1
76.8 •"
75.6 ,^
51.18 '7
51.04 ;4
50.92 3
41.10 '
40.96 '4
40.87 I
61.9 3
61.4 5
60.7 7
9
30.1
June 9.1
23.21
23.18 ^
80.7
78.7 -
49.24 .
49.22
74.1
70.6 •*
68.7 '9
50.84
50.80 4
77-7 ,„
75-7 1°
40.82
40.82 ^
59.8 „
58.9 .!
19.1
29.0
23.19 '
23.24 ^
74-2 l\
49.24 ,
49.30
50.80 °
50.84 4
50.92 ^^
73-5 ;
71. 1 ^
0 *
40.87 5 57.9;"
40.96 I 56.8 ',
July 9.0
23.33 ^
12
71.9 =^3
23
4940 ,, '66.7
13 1 20
68.7 ^J
^ 18
55.7 ;;
19.0
28.9
Aug. 7.9
17.9
27.9
23.61 •"
23.80 '9
22
24.02
^4-6 It
69.6
67.4 \\
61.8 '^
12
49-53 ,,
49.69 ^
49.88 9
50.09 ••
50.33 11
^4-7 .„
62.8 '9
61.0 •«
59-5 '^
58.2 '3
10
51.04
5''9 f
51-37 •;
51.58 '
51-82 *4
27
66.3 , .
63.9 't
61.7 "
58.2 •<*
>3
41.28
22
4150 .
^''7^ It
42.05 ^
42.36^'
34
54.6 ^
53-5 ,
5^-4 ,;
5 '4 '
50.4 *°
9
Sept. 6.8
16.8
26.8
Oct. 6.8
16.7
24.80 ^^
25.10 3°
25.4. 11
25.73 I
60.6
59-8 ;
59-5 \
59-7 ,
60.4 '
12
50.59 .g
50.87 ll
51.16^9
5i.77 3^
57.2 ,
56.6 ^
56.5 !
56.8 3
57.5 ^
II
52.09 56.9 „
52.38^9 56.0 9
52.68 3° 55.6 4
52.99 ^ , 55-8 *
53-31 3j 56.5 ^7
42.70
43.06 3^
43.44 :^
^•^^ Jo
49.5 a
48.7 ^
47.9 ,
47.2 I
46.6 ^
4
26.7
Nov. 5.7
15-6
25.6
Dec. 5.6
26.04
26.35 11
26.64 ^
26.91 ^7
27.16 ^5
21
61.6
633 11
65.3 '°
^7-7 It
7°-3 ,8
52.08
52.38 11
52.67 !
52.94 .;
53.18 "^
21
58.6
60.1 '5
62.0 '9
64.1 ''
66.4 '3
24
53.63
53.94 ,„
54.52 «
54.77 ,f
57-7 ,6
59-3
61.4 "
63.8 ^4
66.5 ^7
J9
44.63 ..
45.03 Jg
45.77 5J
46.11 ^4
30
46.2
45.9 f
45.8 '
45.8 ^
46.1 ^
0
156
25-5
35.5
27.37 .
27.53 ^
27.65 ''
III ^«
76.7
53.39 ,_
53.56
53.69 '3
68.8
71.3 I'
73.8 '5
54-98
55-15 ,;
55.28 '3
69.4
7^-3 ,^'
75-2 *9
46.41
46.66 ^5
46.86 ^"^
46.6
47.2 !
48.0 *
Sec<5,Tan5
1.092 -0.439
1.038
-0.277
1.115 -0.493
1.295
+0.823
Mean Place
23'-50i 79".73
49«.36i 74"-52
51'. 179 75".97
40V459
48".4i
+0.02
D'^ a, D« a
-o.oi -0.01
-O.OI 0.00
-0.01 -0.01
+0.02
D^r S, D« S
-O.I
+ 1.0 1
-0.1
+1.0 1
-0.1
+1.0
-0.1
+1.0
IBphia]
APPARENT PLACES OF STARS, 1913.
349
FOR THE UPPER TRANSIT AT WASHINGTON.
■can Solar
Date.
Jan. 0.5
10.5
20.5
30.4
Feb. 9.4
19.4
Mar. 1.4
11.3
21.3
31.3
Apr. 10.2
20.2
30.2
Uay 10.2
20.1
30.1
June 9.1
19.1
29.0
July 9.0
19.0
28.9
Aug. 7.9
17.9
27.9
Sept. 6.8
16.8
26.8
Oct. 6.8
16.7
26.7
Nov. 5.7
156
25.6
Dec. 5.6
255
35.5
Sec ^, Tan d
Hean Place
51 Ctominomm.
Mag. 5.3
Richt
h m
7 8
a
23.96
24.10
24.18
24.21
24.19
24.13
24.03
23.90
23.74
23.57
14
8
3
2
6
10
13
16
17
16
23.41
23.26 ^^
23.13 ^
23.02
22.95
22.91
22.91
22.95
23.03
23.15
23.30
23.48
23.69
23.92
24.17
II
7
4
o
4
8
12
»5
18
21
23
25
27
29
31
32
24.44
24.73
25.04
^536 ^^
25.68 3^
33
26.01
26.33
26.65
26.95
27.23
DccUna-
tion N.
4-16 18
//
32
32
30
28
24
27.47
27.68
27.85
21
17
32.9
32.4
32.0
31.8
31.7
31.7
31.8
31.9
32.0
32.2
32.4
32.6
32.8
32.9
33.1
33.3
33.5
33.7
34.0
34.2
34-4
34.6
34.8
34.9
: 34.9
: 34.7
I 34.4
I 34.0
33.5
32.8
32.0
31. 1
30.1
29.2
28.3
27.4
26.7
26.0
5
4
2
I
o
I
I
I
2
2
2
2
I
2
2
2
2
3
2
2
2
2
I
o
2
3
4
5
7
8
9
10
9
9
9
7
7
1.042
22*.625
+0.293
26^.75
+0.01
-0.1
+0.01
+1.0
y* Yolantii.
Mag. 3.9
Right
Aacentioo.
h m
7 9
32.84
32.82
32.68
32.41
32.03
31.55
30.99
30.37
29.70
29.01
28.32
27.64
26.99
26.39
25.85
25.39
25.02
24.74
24.57
24.50
24.54
24.69
24.94
25.29
25.74
14
27
38
48
56
62
67
69
69
68
65
60
54
46
37
28
17
7
4
15
25
35
45
53
26.27
26.86 59
^7 50 ll
28.18 ^®
28.87
29.55
30.20
30.79
31.31
31.73
32.04
32.23
32.30
69
68
65
59
52
42
31
19
7
Declina-
tion S.
—70 21
ft
17.5
21.3
250
28.4
31.5
34-2
36.5
38.4
39.7
40.5
40.8
40.6
39.8
38.5
36.7
38
37
34
31
27
23
19
13
8
2
8
13
18
22
25 H. Camelop.
Mag. 5.1
Right
Aacenaion.
34-5
32.0
29.2
26.1 ^^
32
25
28
22.9
19.6
16.4
13.3
10.4
7.9
5.9
4-4
3.5
3.2
3.6
4.7
6.4
8.7
11-5
147
18.2
21.9
25-7
33
32
31
29
25
20
15
9
3
4
II
17
23
28
32
35
37
38
2.974 -2.801
29».285 28".07
-0.07 -0.06
-0.1 +1.0
(Bph t3]
h
7
m
12
62.33
62.89
63.10
62.97
62.50
61.72
60.68
59.43
58.02
56.52
55.01
53.54
52.18
50.98
49.98
49.21
48.71
48.49
48.55
48.90
49.53
50.42
51.55
52.91
54.47
56.20
58.07
60.04
62.09
64.18
66.26
68.29
70.23
72.02
73.62
74.98
76.06
76.83
56
21
13
47
78
Declina-
tion N.
+82 34
»/
*^-5 ,„
63.5 ^°
66.6 3'
69.6 3°
28
104
125
22
17
75.0
77.2
78.9
'^'80.1 "
*5°8o.7 ^
151 I
!8o.8
'M 80.3
79.2
77.6
75.6
136
120
too
77
5
II
16
20
24
50
22
6
27
73.2
67.6 '9
64.6 3^
f 61.5^'
63,
58.5
55.5
52.7
50.1
47.7
30
89
"3
136
156
173
30
28
26
24
20
187
197
205
209
208
16
45.7
i44.i
42.8 *3
419 I
41.5 :
203
194
179
160
136
41.6
42.2
43.2
44.7
46.7
108
77.
49.0
51.6
54.5
6
10
15
20
23
26
29
7.747 +7.682
50".993 55".5i
A. Oeminonun.
Mag. 3.6
Right
Aacenaion.
+0.19
-O.I
+0.16
+1.0
h
7
m
13
s
7.01
7.15
724
7.27
7.26
7.20
7.10
6.97
6.82
6.66
14
9
3
I
6
10
13
15
16
17
16
6.49
6.33
6.20 '3
6.09 "
6.02
Declina-
tion N.
4-16 41
5.98
5-97
6.01
6.09
6.20
6.35
6.52
6.72
6.95
7.20
7.47
7.76
8.07
8.38
8.70
7
4
I
4
8
II
15
17
20
23
25
27
29
31
31
32
33
33
9.03
9-36 ,,
9.68 32
9.99 ^'
10.27
28
25
10.52
10.73
10.90
21
17
59.2
58.7
58.3
58.1
58.0
58.0
58.1
58.2
58.4
58.6
58.8
590
59.1
59.3
59-5
59.7
59.9
60.1
60.3
60.5
60.7
60.8
60.9
61.0
60.9
60.7
60.4
60.0
59.4
58.7
57.9
570
56.0
55.0
54.1
53.3
52.5
51.8
5
4
2
I
o
I
I
2
2
2
2
I
2
2
2
2
2
2
2
2
I
I
I
I
2
3
4
6
7
8
10
10
9
8
8
7
1.044 +0.300
5'.670 53".i7
+0.01
+0.01
350
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
'TC ArftU.
Mag. 2.7
Jan. 0.5
10.5
20.5
30.4
Feb. 9.4
19.4
Mar. 1.4
"•3
21.3
31.3
Apr. 10.3
20.2
302
May 10.2
20.1
30- 1
June 9.1
19.1
29.0
July 9.0
19.0
29.0
Aug. 7.9
17.9
27.9
Sept. 6.8
16.8
26.8
Oct. 6.8
16.7
26.7
Nov. 5.7
15.7
25.6
Dec. 5.6
15.6
25.5
35-5
Sec 5, Tan 5
Mean Place
D'^ a, Dw a
2V ^/ !>•» ^
Right
Aaoention.
h m
7 14
5.68
5.77
5.80
5-77
5.69
5-56
5-39
5.18
4-95
4.71
4.47
4.24
4-03
3.85
370
3.58
3.50
3-47
3.48
3.53
3-63
3.77
3-95
4.16
4.40
4.67
4-97
5.29
563
5.97
6.31
6.65
6.98
7.28
7.55
7-77
7.95
8.08
9
3
3
8
13
21
23
24
24
23
21
18
15
12
8
3
I
5
10
14
18
21
24
27
30
32
34
34
34
34
33
30
27
22
18
13
Declina-
tion S.
6 Oeminonim.
Mag. 3.5
-3656
18.3
21.6
24.7
27.6
302
33
31
29
26
23
19
32.5
36.8 'I
37.4 .
37-5
37.1
36.3
351
33.5
316
29.4
26.9
24.2
21.4
18.7
16.0
13.4
II. I
91
7.5
6.4
5-8
5-8
6.4
7-5
9.2
11.4
14.0
16.9
20.1
234
26.8
4
8
12
16
19
22
25
27
28
27
27
26
23
20
16
II
6
o
6
II
17
22
26
29
32
33
34
1. 251
4'-205
-0-752
27".42
-0.02
-O.I
-0.02
40.9
Right
Asomsioa.
h
7
m
14
57.14
57.29
57.38
57.42
57.41
57.35
57.25
57.12
56.96
56.79
56.63
56.47
56.33
56.22
56.14
56.09
56.09
56.13
56.20
56.31
56.46
56.64
56.85
57.09
57.35
57.63
57.93
58.24
58.57
58.90
59.24
5958
59.91
60.23
60.52
60.78
61.00
61.19
15
9
4
I
6
10
13
16
17
16
16
14
II
8
5
o
4
7
II
15
18
21
24
26
28
30
31
33
33
34
34
33
32
29
26
22
19
Declina-
tion N.
+22 8
41.9
41.8
41.7
41.8
42.0
42.3
42.6
42.9
43.2
43.5
43.7
43.8
43.9
44.0
44.0
43.9
43.8
43.7
43.6
43.5
43.4
43.2
43.0
42.7
42.4
42.0
41.5
41.0
40.4
39.7
38.9
38.1
37.3
36.5
35.8
35.2
34.8
34-5
I
I
I
2
3
3
3
3
3
2
I
I
I
o
I
I
I
I
I
I
2
2
3
3
4
5
5
6
7
8
8
8
8
7
6
4
3
^ YolantU.
Mag. 4.0
Right
Aacensiaa.
1.080 +0.407
55"-739 36".20
h
7
m
16
8
56.13
56.15
56.06
55.85
55.54
55.14
54.67
54.14
53.56
52.96
9
21
31
40
47
53
58
60
61
+0.01 +0.01
-o. I +0.9
lEpb 13A
51.75 _.
51.18 57
50.65 53
50.18 47
40
49.78
49.45
49.20
49.04
48.98
33
25
16
6
4
13
22
49.02
49.15
49.37 ,,
49.68 3'
50.07
39
46
50.53
51.06
51.64
52.25
52.87
53.49
54.08
54.63
55.12
55.52
55.83
56.04
56.14
53
58
61
62
62
59
55
49
40
31
21
10
Dedina-
tion S.
-6747
n
42.0
45-7
49.4
52.9
56.1
58.9
61.3
63.3
64.7
65.6
66.0
65.9
65.2
64.0
62.3
60.2
57.7
54.9
51.9
48.7
45.4
42.2
39.1
36.2
33.7
31.6
30.0
29.0
28.7
29.0
37
37
35
32
28
24
20
14
9
4
1
7
12
17
21
25
28
30
32
33
32
31
29
25
21
16
10
3
3
10
17
22
30.0
31.7
33.9 ..
36.6 !7
39.8 ^^
35
43.3
47.0
50.8
37
38
2.646 -2.450
53"036 52".92
-0.06
-0.1
-0.05
40.9
I Oeminonim.
Mag. 3.9
Right
h
7
8
21.00
21.16
21.27
21.32
21.31
m
20
16
II
5
I
6
10
14
16
21.25
21.15
21.01
20.85
20.68 '7
18
20.50
17
20.33 ''
20.18 '5
20.06
19.97
12
9
5
19.92
19.91
19.95
20.02
20.13
20.28
20.46
20.68
20.92
21.19
I
4
7
II
15
18
22
24
27
29
31
33
34
21.48
21.79
22.12
22.46
22.81 35
35
23.16
23.51 35
23.86 35
24.20
24.5^
24.79
25.03
25.22
34
3X
28
24
»9
Dedina
UonN.
+ 275
23.9
24.1
24.4
24.9
25.4
25.9
26.5
27.0
27-5
27.9
28.1
28.2
28.2
28.1
27.9
3
5
5
5
6
5
5
4
2
I
o
I
2
3
27.6
27.2 *
26.8^
26.4^
25.9 J
25-4
24.9
24.3
237
23.1
22.5
21.8
21. 1
20.3
19.5
18.8
18.1
5
6
6
6
6
7
7
%
%
7
7
6
17.5,
16.9
16.2
16.1 *
16.1
1. 132 40.531
I9».5i7 i8".72
40.0X
-0.1
4aoi
40l9
APPARENT PLACES OF STARS, 1913. 351
FOR THE UPPER TRANSIT AT .WHfllWRBiafftH
352
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
<y Argils.
^' Ckminoram.
26 Xonooerotli.
a Canis Minoris.
Mean Solar
Mag. 3.3
Mag. 2.0
Mag. 5.2
Mag. 0.5
Date.
(
Right
Declina-
Right
Declina-
Right
Declina-
Riffht Decltna-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tKm N.
h m
0 '
h m
0 /
h 01
0 t
h m
0 '
7 26
-43 7
7 29
+32 4
0 §
7 32
-3 54
mm
7 34
+ 5 26
m M
Jan. 0.5
s
29.75 ,^
9 $
19.2
s
4-64 „
WW
54-3 ^
58*34 ,^
WW
52.2
s
46.10
WW
60.2
10.5
29.85 ^!
22.7 •'5
4-8' I
54-7 Z
55.3*
58.48 '4
46.24 \l
58.9 \\
20.5
29.88 I
26.0 33
4.93 •:
4-99 „
58.57 I
53.9
46.34 •"
57.8 "
30.5
29.85 ^
^9' ''
56.0 7
58.61 4
55.4 \\
46.39 ^
56.9 \
56' 6
Feb. 9.4
29.76 ^
14
32-0 J
4-99 3
56-7^
58.60 '
5^-7 :^
46.39 ^
19.4
29.62
34-^ „
4-94 ,„
57-5 „
58-3 J
58.55 „
57.7 ft
58.5 !
59.1 ;
46.34 „
55-5 ,
Mar. 1 .4
29.43 '^
36.8 "
484 °
58.46 9
46.25 I
55.1 \
"3
29.21
38.5 ^
4-70 ^
59-0 7
59-6^
58.34 '
^^■'^ !
54-9 ,
21.3
28.96 ^5
39.7 "
4-53
58.20 4
58.04 ;^
59-4 ,
45.99 *
45-83 :^
54.8 •
31.3
28.69 ^7
27
40.4 \
60.1 5
3
59-5 ,
54-8 \
Apr. 10.3
•
2842 ,
28.16 '^
407 ,
3-99 '
60.4
57-88
57-72 ^
59-4 .
45-67
54-9 .
20.2
40.5 ,
60.5 '
59-2 \
45-52 5
55.1 \
30.2
27.92 \\
39.8 7
3-83 t
60.5*'
57-58 4
58.8 4
58.2 J
57-4 ,;
45.38 4
55-5 \
May 10.2
27-70 ,
38.7
3-70 ^
60.3 '
5746 ''
45.27 ■•
56.0 5
20.2
27.51 ''
15
37.2 4
3-^6
60.0 3
4
57.37 ^
45..8 I
56.5 ^
30.1
27.36
35-3 ^^
3-54 .
59-6
59-o^
57.31
56.4
45-12
57.1 g
June 9.1
27.25 "
33-0 ^^
3-52
57.28 3
55.3 "
45-10
57.7 ,
19.1
27.18 7
30.5 J
3-54 -
3-60 ,^
58.3 !
57-29 ^
54.1
45-12
58.4 I
29.0
27.16 '
27-8 'I
57-6 7
57-33 *
52.9 ",
45-17 \
45.25
II
59-2
60.0
7
July 9.0
27.19 ^
20
3-7^ :;
56.9^
5740 '
II
51.6 '3
13
19.0
27.26
7
22.0
3-86 ,„
56-1
57-51
50.3
4536 ,^
60.7 ,
29.0
^7-38 :^
27.54 ' .
^^•^ 28
4.04 '
55-3 g
57-65 \X
49.0 3
45-69 '*
61.4 \
62.0 *•
Aug. 7.9
^6.3 ^;
4-='5 '!
54-5 \
57-82 7
47-9 "
17.9
27.75 w
^3-^ ''
4-49 \\
53-7*
58-01 '9
46.9 '\
45-89 z
62.5 5^
27.9
28.00 ^5
28
II.6"
18
4-76 !I
52.8 9
58-23 "
24
46., «
46.11 "
24
62.8 ^
I
Sept. 6.9
28.28 ' 9.8
506 „
52.0
5847 ,,
45.5 .
4^-35 ,,
46.61 'J
62.9
16.8
28.59^!! 8.5'^
5-38 f.
5'-' '
58.73 'S
45.2 3
62.8 *
26.8
28.92 ^^ 7,7 ^
5-71 ,,
50.2 9
59°' '!
45-3 '
46.89 »^
62.5 \
61.9 '
61. 1 ^
Oct. 6.8
29.27^5 73 2
6.06 35
49-3 \
5930 9
45-7 \
47-19^,
16.7
29.64 ^' . 7.9 ^
6.42 36
48.5 \
59-60 3°
46.4 7
4750 3
37 II
37
8
31
10
3>
11
26.7
30.01 9.0
^•79 „
47-7 ,
59-91
47-4 . .
47.81
60.0
Nov. 5.7
30.37^^ 10.6'^
7.16 37
47-0 I
60.22 3
48.8 '\
48.12 3>
588 z
15.7
30.72 ^^ 12.7 ^'
7-52 ^
46-4^
60.53 f '
5°-4 .0
48.43 ^'
57.4
25.6
31.05 ^^^1 15.3 ^^
7.87 f
45-9 '
60.82 '9
52.2 '8
48.73 f.
55-9 ^
Dec. 5.6
31.34'^ 18.3^^
8.20 33
45-6 3
61.09 '^
54.1 "
49.01 f
10
54-3 ..
24 j 33
30
I
25
20
25
10
15.6
31.58 21.6
850 ,
45-5
61.34 ,
5^-^ .^
49- 26
52.7 ..
25.6
31.78^^ 25.1^^^
8-76 '^^
45-6 '
61.55
5^-^ 0
4948 "
5'-2
35.5
31.92 '^i 28.6 ^^
8.97 "
45-8'
61.72 '7
60.0 '9
49.65 '^
49.8 "^
Sec 6, Tan 6
1.370 -0.937
I. 180 +0.627
I .ooj -0.068
1.005 +0-095
Mean Place
28V 193 29".25
3Vo69 49".8i
+0.02 +0.02
57'.'36 57"-37
44".907 54" 76
D'l^ a, D« a -0.02 -0.02
0.00 0.00
0.00 0.00
D,^d, D»»5 -0.1 +0.9
-0.3 +0.9
1 -O.J -10.9
-0.2 •K>.9
I
Eph 13I
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
853
M Lyncis.
/c Oeminonun.
/3 Oeminomm.
4 Puppii.
Mom Solar
Mag. 5.0
Mag. 3.7
Mag. 1.2
Mag. 5.1
Date.
Right
Declina-
Right
Declina-
Right
Dediaa-
Right ! Declma-
▲aoensum.
tion N.
Aaoension.
tion N.
Aaoenatoa. ! tion N. 1
Aaccnaion. i tionS.
1
h m
0 /
h m
0 /
h m
0 f
h m ; «> '
7 35
+5854
7 39
+2436
7 39 !-h28 14
7 41
-14 20
Jan. 0.5
a
41.96
57-^ .0
13-30 „
31. 1 ^
a "
6115 ,a 17.9 .
57.70 ^^ i 58.0 _
10.5
42.21 5
59-1 ^
13-47 \l
31.0 '
61.33 18.0 •
57.84 "I
^•4,:
20.5
42.38 'I
42.46
61.2 "'
13-59 '^
31.0
61.46 '3
18.3 ^
57.93 I
62.7 ^3
30.5
63-3 l\
13.66 I
31.2 ^
61.53 ,
'^•^ 6
57.97 ;
^4-8 8
Feb. 9.4
42.44 „
20
13-67 '
4
31.6 ^
4
61.54 '
4
57-96 ;
66.6 '!
16
19.4
42.33 ,8
42.15 :.
tit '8
69.2
13.63 32.0 1
61.50
19.9 ^
57-91 .„
68.2
Mar. 1.4
13-55 .,
32.5 ^
61.41 !
20.6 1
57-81 '°
69.5 '3
11.4
4' -9° ,„
70.8 '^
1 2
13.43 '
33.0 ^
61.28 '3 121.2 "1
57-68 '3
70.5 '^
21.3
41.61 '^
72.0 '^
72.8 «
13-12 °
33.4 ^
61.13 '5
21.7 5
57-53 '5
71.2 I
313
41-29 ,,
33.8 ^
60.96 ''^
22.2 5
57-37 '!
71.6 4
33
4
»7
3
17
4
17
I
Apr. 10.3
40.96 ^,
73-2
12.95 „
34.1 ^
60.79
22.6
57-20
71-7 ,
20.2
40.64 \l
73-2
12.78
34.4 ;
60.62 '7
60.46 '*
22.8 ^
57-03 ,;
56.87 \l
71-5 I
30.2
40.343° 72.8 t\
12.63 11
34.5
22.9 '
710 1
70-2 ,„
Uay 10.2
40.08^^
72.0 °
12.51 '^
34.6
60.33 '3
22.9
56.74 3
20.2
3987
15
70.9 ,^
12.42 9
34.5 ,
60.23 -
22.7
3
56.63 ';
69.2 "
13
30.1
3972
69.4 .,
12.36
34.4 ^
60.17
22.4 ^
56-55 ^
68.0
June 9.1
3963 I
67.7 \l
12.34 ,
34.2
60.14 ^
22.1 ^
56-51 *
66.6 '1
^r. ^ 16
65.0
19.1
39-61 I
65.8 9
12.35 .
34.0 .
60.15 '
21.7 4
56.50
29.0
39-66 5
63.7
12.40 5
33.7 ;
60.20 5
21.2 I
20.6 ^
6
56.52 ,
56.58 ^
6?i •»
July 9.0
39-78 11
61.5 "
23
12.49 ^
13
33.4 ^
60.29 ^
13
19.0
39.96
59-2
12.62 ,
"•78 \l
33.0 .
60.42 ,
60.58 '^
20.0
19.4 .
18.8 ^
0m
56.67 „
59-7 „
29.0
40.21 ^
57-0
32.6 4
56.79 \l
58-0 \i
Aug. 7.9
40.88 3^
54.8
»2.97 .:
32.1 ^
60.77 ^^
56.94 ^8
57-12 ',
56.3
17.9
52.7 ''
'3»9 "
31.6 I
60.99 "
18.I 7
54-8 ,1
27.9
41.28 ^°
45
'3-43 :;
31.0 ^
61.24 'I
^ 28
17.3 8
21
57.33 ,,
23
53.6 "
10
Sept. 6.9
41.73 ^^
48.9 „
13.70
30.4 ,
61.52 16.5 „ 1
5756 _,
52.6
52.0
16.8
42.22 "^^
♦7-2 I
13.99 ,,
29.7 I
61.82 30
^5-7 :
26.8
42.74 ^^
45-8 4
14-30 \l
28.9 *
62.14 3^
'4-8 '
58.10 11
51.8 ^
Oct. 6.8
43.28 54
44.6'^
14-62 3J
28.0 9
62.47 33
13.8'°
58.39 ',^
52.0
52.6 ,;
16.7
43.84 ^t
43-7 I
14.96 34
27.1 I
62.82 35
12.9 ^
58.69 ^^
57
6
34
9
35
9
31
It
26.7
44.41
43.1 .
15-30 ,^
26.2
^3- 17 ,,
12.0
59.00
53-7 ,^
Nov. 5.7
44.98 57
"^5-54 l^
42.9
15-65 35
25.2
63.53 3^
63.89 3^
10.3
59.31 ^
56.9 !'
15.7
43.0
16.00 35
24.3 g
23.5 g
22.7
59.62 I'
25.6
46.08 54
43.5 ^
44.3 ,
16.33 33
64.23 34
9.6 7
9-^ !
59.92 ^
60.20 ^*
59.0 "
Dec. 5.6
46.58 5^
16.65 11
6455 3^
6»-3 'i
45
II
29
0
30
4
25
24
15-6
47.03 ^^
45.4 ,,
16.94 ,,
22.1
64.85 ,
65.11 ^
8.6
60.45
637 „
25.6
47.42 ^;
469 \i
17-19 ',^
21.7 ^
^•4 '
60.66^'
66.2 '5
35.5
47.73 ^
48.7 ''
17.40 "
21.5 '
65.32 ^'
8.4 "^
60.83 '7 68.7 ^^
Seed, Tan ^
1.937 +1.659
1. 100 +0.458
i.»35 ■M'-537
1.032 -0.256
Kcan Place
39'.ao3 54".27
IIV869 26".6i
59*.666 13".77
56V508 66".05
T>'4 m,Dma
40.04 40.04
+0.01 +0.01
■Mj.oi ■Hi.02
-O.OI -O.OI
Dfd.Dwd
-0.2 40.9
-0.2 +0.9 1 -0.2 +0.9 V -0.1 -N^^
191:
J ^3
1
rBph 13]
354
APPAEENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.5
10.5
20.5
30.5
Feb. 9.4
19.4
Mar. 1,4
1 1.4
21.3
31.3
Apr. 10.3
20.2
30.2
May 10.2
20.2
30.1
June 9.1
19.1
29.1
July 9.0
19.0
29.0
Aug. 7.9
17.9
27.9
Sept. 6.9
16.8
26.8
Oct. 6.8
16.8
26.7
Nov. 5.7
15-7
25.6
Dec. 5.6
15.6
25.6
35.5
G ArgHs.
Mag. 3.5
Right
Ascension.
m
Sec 6, Tan d
Mean Place
7 45
s
39.35
3949
39.57
3960
39.58
D'«f> a, Dm a
D^ 6, Dw d
39.51
39.40
39.26
39.09
38.91
38.72
38.53
38.35
38.20
38.07
37.97
37.90
37.87
37.88
37.92
37.99
38.10
38.25
38.43
38.64
38.87
39.13
39.41
39.71
40.02
40.34
40.67
40.99
41.30
41.58
41.83
42.04
42.21
14
8
3
2
7
I
4
7
8
9
9
8
5
3
o
7
3
I
4
7
II
15
18
21
23
26
28
30
31
32
33
32
31
28
25
21
17
Declina-
tion S.
-2438
tf
17.7
20.6 *!
23.4 ^«
26.0
28.4
30.4
32.1
33.5
34.5
35.1
35.4
35.3
34.8
34.0
32.8
31.3
29.6
27.7
25.6
23.4
21.2
9.0
6.9
5.0
3.3
1.9
I.O
0.5
0.5
1.0
2.0
3.5
5-4
7.6
20.2
23.0
25.9
28.9
26
24
20
17
14
10
6
3
I
5
8
12
15
17
19
21
22
22
22
21
19
17
14
9
5
o
5
10
15
19
22
26
28
29
30
1. 100
38". "9
-0459
26^.88
-O.OI
-0.2
-O.OI
+0.9
^ Oeminonun.
Mag. 5.0
Right
Ascension.
h
7
m
48
8
^•99 ,„
2.18 '9
13
2.31
2.39
2.41
2.38
2.30
2.18
2.03
1.87
1.70
1.53
1.38
1.25
1. 15
1.08
1.05
1.06
1. 10
1. 18
1.30
1.45
1.63
1.85
2.09
2.36
2.65
2.96
3.29
3.63
3.98
4-34
4.69
5.04
5.37
5.^7
5.93
6.15
8
2
3
8
12
15
16
17
17
15
13
10
7
3
I
4
8
12
»5
18
22
24
27
29
31
33
34
35
36
35
35
33
30
26
22
Declina-
tion N.
-f-26 59
//
34.6
34.6
34.8
35.1
35.6
36.2
36.8
37.4
37.9
38.4
38.8
39.1
39.2
39.2
39.1
39.0
38.7
38.3
37.9
37.4
36.9
36.3
35.7
35.0
34.3
33.5
32.6
31.7
30.7
29.7
28.7
27.7
26.8
26.0
25.3
24.8
24.5
24.3
o
2
3
5
6
6
6
5
5
4
3
I
o
3
4
4
5
5
6
6
7
7
8
10
10
10
10
9
8
7
5
3
2
1. 122 +0.509
IOV529 3o".75
+0.01 +0.02
-0.2 -K>.9
[Eph ii\
26 Lynois.
Mag. 5.7
Right
Ascension.
h m
7 48
8
25.07
25.30
25.46
25.55
25.57
25.52
25.41
25.24
25.04
24.81
24.57
24.33
24.11
23.92
23.77
23.66
23.60
23.59
23.63
23.72
23
16
9
2
5
II
17
20
23
24
24
22
19
15
II
4
9
14
19
23.86
24.05 ,,
24.28 ^3
24.55 \\
24.86 3'
34
25.20
25.57
25.97
26.40
26.84
37
40
43
44
45
46
27.29
27.75 . _
28.20 ^5
28.64 "^^
29.05
41
38
29.43
29.76
30.03
33
27
Declina-
tion N.
+47 47
//
30.4
31.6
33.0
34.6
36.2
37.8
39.3
40.6
41.7
42.6
43.1
43.3
43.2
42.8
42.0
41.0
39.8
38.4
36.9
35.3
33.6
31.9
30.1
28.4
26.7
25.1
23.6
22.2
20.9
19.8
18.9
18.3
18.0
17.9
18.1
18.6
19.4
20.5
2
4
6
6
6
5
3
I
9
5
2
I
4
8
10
2
4
5
6
7
7
8
7
7
6
5
4
3
I
9
6
3
I
2
8
II
Oroombrldse 1874.
Mag. 5.6
Right
Ascension.
1489
23".oo8
+1.103
27".97
h m
7 49
+0.03
-0.2
+0.03
+0.9
53.72
54.17
54.45
54.56
54.50
54.28
53.92
53.44
52.86
52.22
51.55
50.88
50.24
49.66
49.16
48.76
48.47
48.31
48.27
48.36
48.58
48.92
49.38
49.95
50.62
51.38
52.22
53.12
54.08
55.08
56.09
57.11
58.11
59.07
59.95
60.74
61.42
61.96
45
28
II
6
22
36
48
58
64
67
67
64
58
50
40
29
16
4
9
22
34
46
57
67
76
84
90
96
100
lOI
102
100
96
88
79
68
54
Declina-
tion N .
+74 8
//
68.1
70.6
73.3
76.1
78.8
25
27
28
27
26
81.4
83.8 ^^
85.8 ^^
87.3
88.4
15
II
6
5
10
22
25
89.0
89.0
88.5
87.5
86.1 '^
19
84.2
82.0
79.5 ,,
76.8 ^7
»L- ^ 28
74.0 ,^
29
71. 1
68.2 ^9
29
28
26
23
65.3
62.5
59.9
57.6
55.5
53.7
52.2
51.2
50.6
50.4
50.7
51.4
52.6
54.2
56.2
58.6 '^
21
18
15
10
6
2
3
7
12
16
20
3.662 +3.523
48-.3I4 66".68
+0.08
-0.2
+0.11
+0.9
APPARENT PLACES OE STARS, 1913. 355
FOR THE UPPER TRANSIT AT :m^9^fMfSV.
356
APPARENT PLACES OF STARS, 1913,
FOR THE UPPER TRANSIT AT WASHINGTON.
p Arsfts.
SH.UrsteXaJorii.
Y Argtls.
C Canori {ynean) .
Mean Solar
Mag. 2.9
Mag. 5.5
Mag. 2.2
Mag. 4.7
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
AKCBsioii.
tions.
Ascension.
tion N.
Aacenwon.
tions.
Aaoenaioa.
tion N.
h tn
0 /
h m
0 /
h m
0 /
h m 1 0
8 3
— 24 2
• •
8 4
+6843
m m
8 6
-47 4
m m
8 7
+ 17 5'
m »
Jan. 0.6
5^*48 ,,
51-64 ^
60.8
S
14.22
W '
53-4 „
s
52-61
WW
35.3 ,,
S
^476 ^^
9 W
43.4 .
10.5
^■5 ll
^9' !
14.62 ^^
55-6 "
52.76 '5
42-5 :°
14.96 ^°
42.7 '
20.5
51-75 '
14-89 '7 1 58.0 2
15.03 •* 60.6 'I
15.04 ' 63-2 '*
52.85 \
15.10 '4
42.3 \
30.5
51.80 5
52-87 \
46.0 35
15.19 ;
42.1
Feb. 9.4
51-80 °
^•■5 ::
52.82 5 49.2 32
15.23 \
42.0 '
19.4
51-75 „
73-6 ,„
14-93 „
^5-7 „
52-71 ,
522 -
15.22
42.0
Mar. 1 .4
51-66 9
75-4 '*
H-71 "
68.0 ""^
52-55 '^
54.8 '*
15.16 ^
42.2 ^
11.4
51-53 ,^
51-37 ,8
76.9 5
'4-39 ^„
7°° .A
71.6 '^
5'-34 '
57° !»
15.06 ;^
42.5 \
21.3
78.0 ' '
13-99 ^.
52.10 ^
58.8 '«
14.94 ,,
42.8 ^
31.3
78.7 I
4
'3-54 ll
72.8 "
7
5-«3 :^
60.1 '3
9
14.80 '4
15
43-2 J
Apr. 10.3
50-83 !
79-1 „
'306 ^^
73.5 ,
51-55 ,8
51-27 '!
61.0
14.49 '
43.5 ,
20.3
79-1 °
12-57 ll
73-8 ^
61.3 3
43.8
302
50.66 7
-^ -^ I"
50-50
78.8 3
12.10 '*'
73-6 \
5100 7
50.74 ,,
61. 1 \
60.5 ^
14.34 ,,
44.1
May 10.2
78.1 7
11.6743
11.29^
72.9 ^
14.21 3
444 \
20.2
50-36 \\
71-7 "
50-51 J
»A . I »
59-4
I4.II '°
44-6 J
II
13
31
10
20
«5
7
30.1
50.25
75-^ ,6
74-2 «
10.98
7°' .0
50.15 '^
57-9 ,„
14.04 .
44.8 ,
June 9.1
50.18 7
10.76 "
68.2 '9
56-0 '9
14.00 ^
44.9 ,
19.1
50.14 ^
72-4 !
10.63 '^
66.0 "
50.03 '
49.95 .
53-7 \\
13.99 '
45-0 ,
29.1
50.13 '
70-4 '°
10.59 ^
10.65
^3-5 'J
60.9^;
51-2 ^5
14.02 3
I4.0R ^
45.1 0
July 9.0
50.15 ^
68-3 '
49.92 3
48.5 ^
45.1 ,
21
15
^7
2
29
9
19.0
50.21
66.2
10.80
58.2 -
49.94
45-6
14.17
45.0 ,
29.0
50-30 '
64-1 :;
11.04 ^4
55-4 !
50.01 (
4^-7 '
^4-^9 I^
44-9 J
Aug. 8.0
50-43 ^
62.0 ''
11.3733
52-7 ^
5°" 6
50.28 '^
39-9 :;
^^•« 5
44.7
17.9
60.1 '9
12.26 48
47-4 ,°
37-2 !!
14.63 '^
44.4 '
27.9
50.78 9
584 1^
50.49 ,
34.7 '5
14.84 ^I
440 J
22
»3
56
24
25
21
23
Sept. 6.9
16.8
5100
5i.=«5 ^^
57' ,„
56.1 '°
12.82
45-0
50.74
51-03 '
32.6
30.9 |7
'5-^ 26
15.33 ,^
43.5 5
42.9 g
26.8
5^-52 !I
55-6 5
40.9 ^
51-36 ^1
29.8 "
15.61 ^,;
42.1
Oct. 6.8
SI-81 ^9
55-5
14.84 ll
39.2 17
51-72 \
29.2
15.91 ,
41.2 '
16.8
52.12 ^ ^55-9 „
15.59 !ft
37.9 -^
52.10 3
29.2 ?
16.23 3^
40.1 ",
32 9
78
9
39 0
33
26.7
52.44 „
56-8 ,.
'^•^7 78
17.93 ^^
18.69 J'
37.0 ^
52-49 ,„ 29.8
16.56
38.9 ,.
Nov. 5.7
52.77 "
go
60.0
36.5 ^
52.89 1!
3^-' 8
16.90 34
37.7 ,,
15.7
53.10 ^3
36.4
53.28 39
3^-9 ;
17.24 34
36.4 ,2
257
53-41 \\
62.2 "
36.8 4
37.6 ,«
53.65 ^l
35-3 W
1 7.57 ::
35.2 ,j
Dec. 5.6
53.70 :^ 64.7 -
19.40 ^^
53-99 5^
38.2 ^9
32
17.89 3^
30
34.0 „
156
53-97 „
^7-5 ,„
20.05
38.9 ,,
5429 ,, i 41.4
18.19
32.9 .«
25.6
35.5
54.20 ^-^
54.39 ^
70.4 ''
73-4 ^°
20.61 56
21.07 4
40.6 '7
42.6 ^^
54-54 ^^ ' 44-8 34
54-74 ''* 48.4 3*^
18.45 ^t
18.67 "
10
31-9 .
3I-I *
Sec d, Tan 6
1.095 -0.446
2.757 +2.569 1
1.468 -1.075
1.051 40.323
Mean Place
50«.3i8 70". 13
io*.i94
53"-25
5i'.i47 47".56
I3'.463 39".55
D'^ a, D» a
-o.oi -0.02
+0.06
+0.09
-0.02 -0.04
•HXOX 4aOI
D^S,Da»S i
-0.2
+0.9 1
-0.2
+0.9
-0.2
40.9 1
-0.2
-KX8
lEph 13\
APPARENT PLAt^ES OF STARS, 1913
357
FOR THE UPPER TRANSIT AT WASHINGTON.
Sobr
Dtte.
Jan. 0.6
10.5
20.5
30.5
Feb. 9.5
19.4
Mar. 1.4
11.4
21.3
31.3
Apr. 10.3
20.3
30.2
May 10.2
20.2
30.2
June 9.1
19. 1
29.1
July 9.0
19.0
29.0
Ai^. 8.0
17.9
27.9
Sept. 6.9
16.9
26.8
Oct. 6.8
16.8
26.7
Nov. 5.7
15.7
^ 25.7
Dec. 5.6
156
25.6
35.6
Bradley 1147.
Mag. 5.7
Right
h m
8 8
Sec$,rmd
44-74
4530
45-68
45.87
4587
45.68
45.32
44.82
44.20
43.49
42.74
41.98
41.23
40.53
39.91
39.40
39.00
3^.73
3S.60
38.62
38.78
39.08
39.51
40.07
40.75
41.54
42.43
43.40
44.44
45.53
56
38
19
o
19
36
50
62
75
76
75
70
62
51
40
27
13
2
16
30
43
56
68
79
89
97
104
109
1^3
46.66
47.80"*
48.93 "^
50.02
51.04
109
102
93
51.97
52.78
53.44
81
66
Dedina-
tkmN.
+76
//
25.5
28.0
30.7
33.5
36.4
39.1
41.6
43.8
45.6
46.9
47.7
48.0
47.7
46.9
45.6
43.8
41.7
39.2
36.5
33.6
30.6
27.6
24.6
21.6
•18.8
25
27
28
29
27
25
22
18
13
8
3
3
8
13
18
21
25
27
29
30
30
30
30
28
26
16.2
13.8 '*
11.7
1 0.0
8.7
JM) Pappis.
Mag. 5.0
Right
Aflcrasuxi.
7.8
7.3
7.3
7.8
8.8
10.3
12.2
14.4
21
17
13
9
5
o
5
10
15
19
22
4. 141 44.018
38«.597 25".95
•10.09
-0.2
40.14
40.8
h
8
8
21.16
21.33
21.45
21.51
21.53
21.50
21.43
21.32
21.18
21.02
20.86
20.69
20.53
20.39
20.27
20.18
20.12
20.09
20.09
20.12
20.18
20.27
20.40
20.56
20.75
20.96
21.20
21.46
21.74
22.04
22.35
22.67
22.99
2330
2359
23.86
24.10
24.30
tn
9
17
12
6
2
3
7
I
4
6
6
7
6
4
2
9
6
3
o
3
6
9
13
16
19
21
24
26
28
30
31
32
32
31
29
27
24
20
Declina-
tion S.
15 31
//
23-4
25.9
28.3
30.5
32.5
25
24
22
20
18
34-3
35.8 :^
37.0
37.8
38.3
/3 Cancri.
Mag. 3.8
Right
Aaccnsuni.
h
8
m
II
38.6
38.6
38.3
37.7
36.8
35.7
34-4
32.9
31.2
29.5
12
8
5
3
o
3
6
9
1 1
13
15
17
17
18
27.7
26.0 '7
24.3 ''
22.8 '5
21.5 ''
10
6
3
I
5
10
14
17
21
23
25
26
26
20.5
19.9
19.6
19.7
20.2
21.2
22.6
243
26.4
28.7
31.2
33.8
36.4
1.038 -0.278
2O*.O40 3 1 ".68
-0.0 1
-0.2
-0.01
+0.8
iBpiilj]
s
49.10
49.29
49-43
49-52
49.56
49-55
49-49
49.40
49.28
49.14
48.99
48.84
48.70
48.58
48.48
48.41
48.36
48.34
48.36
48.41
48.49
48.61
48.75
48.92
49.11
49-33
49-58
49.85
50.13
50.43
19
14
9
4
1
6
9
12
14
15
15
14
12
10
7
5
2
2
5
8
12
14
17
19
22
25
27
28
30
32
50.75
51.08 3^
51 40
5 1 -72
52.03
32
32
31
29
52.32
52.58
52.79
26
21
Declina-
tion N.
+ 927
//
20.5
19.4
18.4
17.6
17.0
16.6
16.3
16.2
16.3
16.4
16.6
16.9
17-3
17.7
18.I
18.5
19.0
19.5
20.0
20.4
20.8
21.2
21.5
21.7
21.7
21.6
21.3
20.8
20.0
19.0
17.9
16.6
I5.I
13.6
12.0
10.5
9.1
7.8
II
10
8
6
4
3
I
I
I
2
3
4
4
4
4
5
5
5
4
4
4
3
2
o
I
3
5
8
o
I
3
5
5
6
5
4
3
81 Lyncis.
Mag. 4.4
Right
Ascension.
h m
8 16
1.014
47'.893
+0.167
I5".79
0.00
-0.2
40.0I
s
55-03
55.29
55.48
55-60
55-66
55-65
55.58
55.46
5529
55.10
54.89
54.67
54.47
54.29
54.14
54.02
53.94
53.90
53.91
53.96
54.06
5420
54.38
54.60
54.86
26
»9
12
6
/
12
17
19
21
22
20
18
15
12
8
4
I
5
10
14
18
22
26
29
32
55.15
55.47 ..
55.82 35
56.20 3*
56.60 4^
42
57.02
57.44
57.87
58.30
58.71
42
43
43
41
38
59.09
59.43
59.72
34
29
Declina-
tion N.
//
+43 27
9
II
12
14
15
14
14
12
10
7
5
2
I
4
6
657
66.6
67.7
68.9
70.3
71.8
73.2
74.6
75.8
76.8
77.5
78.0
78.2
78.1
777
77.1
76.2
75-1
73.8 ;j
9
II
72.4
70.8
16
16
69.2
67.5 ''
65.8 '7
64.1 '7
62.4
60.7
59.1
57.6
56.2
54.9
53.9
53.1
52.5
52.2
52.2
52.6
53.3
17
17
16
15
14
13
10
8
6
3
o
4
7
1.378 -W.948
53". 1 72 65''.23
•K>.02
40x34
358
APPARENT PLACES OF STARS, 1913,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.6
10.5
20.5
30.5
Feb. 9.5
19.4
Mar. 1.4
11.4
21.4
31.3
Apr. 10.3
20.3
30.2
May 10.2
20.2
30.2
June 9.1
19.1
29.1
July 9.1
19.0
29.0
Aug. 8.0
17.9
27.9
Sept. 6.9
16.9
26.8
Oct. 6.8
16.8
26.8
Nov. 5.7
15.7
257
Dec. 5.6
15-6
25.6
35.6
Seed, Tan 5
Mean Place
D V a, D« a
d} Cancri.
Mag. 5.9
Right
Ascension.
h
8
ra
18
s
24.35
24.56
24.71
24.81
24.86
24.86
24.81
24.72
24.60
24.46
24.31
24.16
24.02
23.89
23.78
23.70
23.65
23.63
23.65
23.70
23.78
23.90
24.04
24.21
24.41
24.64
24.89
25.16
25.45
25.77
26.10
26.44
26.78
27.12
27.45
21
15
10
5
o
5
9
2
4
5
5
4
3
I
8
5
2
2
5
8
12
14
17
20
23
25
27
29
32
33
34
34
34
33
30
27.75 ,,
28.02 ^^
28.25 ""^
Declina-
tion N.
+1836
//
47.2
46.6
46.2
46.0
45.9
46.0
46.2
46.5
46.9
47.3
47.7
48.1
48.4
48.7
48.9
49.1
49.2
49.3
49.3
49.3
49.2
49.0
48.7
48.3
47.8
47.2
46.5
45.6
44.6
43.5
42.3
41.0
39.6
38.3
37.1
36.0
35.0
34.2
6
4
2
I
I
2
3
4
4
4
4
3
3
2
2
I
I
o
o
I
3
4
5
6
7
9
o
I
2
3
4
3
2
I
o
8
1.055 40.337
23'.059 43".99
+0.01
-0.2
+0.01
40.8
B Argtls.
Mag. 1.7
Right Dedina-
Ascension, i tion S.
h m
8 20
s
45.58
45.76
45.86
45.87
45.79
45.63
45.40
45.11
44.78
44.41
18
10
I
8
16
23
29
33
37
39
44.02
43.62 ^°
4323 ^^
42.85
42.50
42.18
41.90
41.68
41.51
41.40
41.35
41.37
41.46
41.61
41.83
42.12
42.46
42.85
43.28
43.75
44.24
44.74
45.23
45.70
46.13
46.50
46.81
47.04
38
35
32
28
22
17
II
5
2
9
15
22
29
34
39
43
47
49
50
49
47
43
37
31
23
-59 13
//
31.2
35.0
38.8
42.5
46.1
49.5
52.5
55.1
57.3
59.0
60.2
60.9
61. 1
60.8
59.9
58.5
56.7
54.6
52.1
49.3
46.3
43.2
40.2
37.2
34.4
32.0
30.0
28.5
27.5
27.2
27.5
28.5
30.1
32.3
35.1
38.3
41.8
45.5
38
38
37
36
34
30
26
22
17
12
7
2
3
9
14
18
21
25
28
30
31
30
30
28
24
20
15
10
3
3
10
16
22
28
32
35
37
1.955 -1.679
43*.779 45".38
30 Monoceiotts.
Mag. 4.0
o Urase Majozls.
Mag. 3.5
Right
Ascension.
h
8
m
21
s
19.97
20.16 '9
14
20.30
20.39
20.43
20.42
20.37
20.28
20.16
20.02
9.87
9.72
9.58
9.45
9.34
9.26
9.20
9.17
9.17
9.21
9.27
9.36
9.49
9.64
9.82
20.02
20.25
20.50
20.78
21.07
21.38
21.69
22.01
22.33
22.64
22.92
23.17
23.38
9
4
I
5
9
12
14
15
15
14
13
II
8
6
3
o
4
6
9
13
15
18
20
23
25
28
29
31
31
32
32
31
28
25
21
Declina-
tion S.
-3 37
//
12.5
14.4
16.2
17.8
19.2
20.4
21.3
22.0
22.5
22.8
22.8
22.6
22.3
21.8
21.2
20.4
9.5
8.5
7.4
6.3
5.2
4.1
3.1
2.2
1.5
i.o
0.8
0.9
1.3
2.1
3.2
4.6
6.2
8.0
20.0
22.1
24.2
26.2
19
18
16
14
12
9
7
5
3
o
2
3
5
6
8
9
10
II
II
II
II
10
9
. 7
5
2
I
4
8
II
14
16
18
20
21
21
20
-0.04 -0.06
-0.2 40.8
[Bph u]
1.002
i8«.869
-0.063
i8".95
0.00
-0.2
0.00
40.8
Right
Ascension.
h m
8 23
5.82
6.18
6.44
6.60
6.66
6.63
6.51
6.31
6.05
5.74
5.40
5.05
4.71
4.40
4.13
3.90
3.73
3.62
3.58
3.61
3.71
3.87
4.09
4.38
4.72
36
26
16
6
3
12
20
26
31
34
35
34
31
27
23
17
II
4
3
10
16
22
29
34
40
45
5.12
5-57 ^^
6.06*9
6.59 ^^
7.16
57
59
7.75
8.35
8.96
9.56
10.13
10.66
II. 13
11.53
60
61
60
57
53
47
40
Declina-
tion N.
+61 O
34.8
36.6
38.6
40.7
43.0
45.3
47.5
49.5
51.2
52.5
534
53.9
54.0
53.7
52.9
51.7
50.2
48.4
46.3
44.0
41.6
39.1
36.5
34.0
31.5
29.1
26.9
24.8
22.9
21.3
20.1
19.2
18.6
18.5
18.8
19.5
20.7
22.2
18
20
21
23
23
22
20
17
13
9
5
I
3
8
12
15
18
21
23
24
25
26
25
25
24
23
21
19
16
12
9
6
I
3
7
u
15
2.063 +1.805
2«.882 36". 13
40.04
-0.2
40.07
40.8
APPARENT PLACES OF STARS, 1913,
FOR THE UPPER TRANSIT AT WASHINGTON.
359
McnSoltf
Date.
Jan. 0.6
10.5
20.5
30.5
Feb. 9.5
19.4
Mar. 1.4
11.4
21.4
31.3
Apr. 10.3
20.3
30.2
May 10.2
20.2
30.2
June 9.1
19. 1
29.1
July 9.1
19.0
29.0
Aug. 8.0
17.9
27.9
Sept. 6.9
16.9
26.8
Oct. 6.8
16.8
26.8
Nov. 5.7
15.7
25.7
Dec. 5.6
156
25.6
35-6
Seed, Tan <^
Mean Place
0 Ghamsleontls.
Mag. 4.3
Right
Asocnston.
m
8 23
S
20.21
20.45
20.51
20.38
20.07
1959
18.96
18.20
1733
16.39
1539
14.36
1333
12.32
11.36
10.46
9.65
8.94
8.36
7.92
7.64
7.52
7.56
7-77
8.14
8.67
9.35
10.15
11.05
12.03
13.05
14.07
15.07
15.99
16.82
17.51
18.04
18.41
24
6
13
31
48
63
76
87
94
100
103
103
lOZ
96
90
8z
71
58
44
28
12
4
21
37
53
68
80
90
98
Z02
102
100
92
83
69
53
37
Declina-
tions.
-77 II
//
59.5
63.3
67.2
71.0
74.7
78.2
81.4
84.3
86.7
88.7
90.2
91.2
91.7
91.6
91.0
38
39
38
37
35
32
29
24
20
15
10
5
I
6
12
16
20
89.8
88.2
86.2
83.8 ^^
81. 1 '7
30
78.1
75.0 ^'
71.9 ''
68.8 3'
tti '3
r^ o 18
59.2
58.0
57.4
12
6
O
57.4
58.1
59.5
61.5
64.0
67.0
70.4
74.1
7
14
20
25
30
34
37
4.515 -4403
i6*.no 75^.38
-0.09
-0.2
-0.17
40.8
Oroombridce 1460.
Mag. 6.0
Right
Ascension.
m
8 27
7.57
7.83
8.02
8.15
8.22
8.22
8.17
8.07
7-93
7.76
7-57
7.38
7.19
7.02
6.88
6.77
6.70
6.66
6.66
6.70
6.78
6.90
7.06
7.25
7.48
7-74
8.03
8.35
8.69
9.06
9-45
9.85
20.25
20.65
21.04
21.40
21.73
22.02
26
19
13
7
o
5
o
4
7
9
9
9
7
4
I
7
4
o
4
8
12
16
19
23
26
29
32
34
37
39
40
40
40
39
36
33
29
Declina-
tion N.
+38 18
//
56.3 ,
56.8 5
57-5 I
58.4 '
59.5 "
12
60.7
62.0 *3
63.2 "
643
65.3
II
10
66.0
66.5
66.8
66.9
66.7
66.3
65.7
64.9
639
62.7
61.4
60.0
58.6
57.1
55.6
54.0
52.4
50.9
49-4
47.9
46.5
45-3
44.2
43.4
42.8
42.5
42.5
42.8
5
3
I
V Cancri.
Mag. 5.5
Right
Ascension.
4
4
5
5
6
6
5
5
5
4
2
I
8
6
3
o
3
1.274 +0.790
i5*-899 55".99
•K).02 +0.03
-0.2 +0.8
fBpiiza]
h m
8 27
s
42.11
42.33
42.50
42.61
42.67
22
17
II
6
I
42.68
42.64
42.56
42.45
42.31
4
8
II
15
15
42.16
42.01
41.86 '5
41.72 '^
41.61
II
8
41-53
41.47
41.44
4145
41.49
6
3
I
4
7
II
14
17
41.56
41.67
41.81
41.98
42.17 '9
22
42.39
42.64
42.91
43.21
43.52
25
27
30
31
33
43.85
44.19
44-54
44-89
45.22
34
35
35
33
31
28
45.53
45.81
46.06 ^5
Declina-
tion N.
+2044
//
7.1
6.5
6.2
6.1
6.1
6.3
6.7
7.1
7.6
8.1
8.6
9.0
9.3
9.6
9.8
9.9
20.0
20.0
9.9
9.7
9-4
9.1
8.7
8.2
7.6
6.8
5-9
4-9
3.8
2.6
11.3
9.9
8.5
7.2
6.0
4.9
4.0
3.3
6
3
I
o
2
4
4
5
5
5
4
3
3
2
I
I
o
I
2
3
3
4
5
6
8
9
10
II
12
13
14
14
13
12
II
9
7
Oroombridfe 1446.
Mag. 6.3
Right
Ascension.
m
h
8 30
1.069 +0.379
40*.8ii I4".54
+0.01
-0.2
+0.02
•KXS
9.02
9.58
9.99
10.24
10.32
10.23
9.99
9.62
9.13
8.56
7.93
7.27
6.62
6.01
5-45
4-97
4-58
4.30
4.13
4.08
4-15
4.35
4.66
5-09
5.62
6.25
6.97
7-77
8.65
9.58
10.55
11.54
12.54
13.52
14.46
56
41
25
8
9
24
37
49
57
63
66
65
61
56
48
39
28
17
5
7
20
31
43
53
63
72
80
88
93
97
99
100
98
94
86
15.32 ^^
16.09 77
16.74 ^^
Declina<.
tion N.
+73 55
^3-4 ^,
65-7 '^
68.2 ^5
27
70.9 J
81.3 '3
84.8 '5
II
85.9
86.4
86.4
85.9
84.9
5
o
5
10
15
19
22
834
81.5
79-3
76.8 ^l
74.0
28
30
71.0
68.0 30
64.9 ^'
61.9
58.9
56.1
53.5
51.2
49.1
47.4
46.1
45.3
45.0
45.1
45.7
46.8
48.4
50.4
30
30
28
26
23
21
17
13
8
3
I
6
II
16
20
3.614 +3.473
3«.7i2 65^.86
+0.07
40.X4
360 APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
S Hydne.
(T Hydne.
Y Cancrl.
<^ Cancrl.
MeanSolar
Mag. 4.2
Mag. 4.5
Mag. 4.7
Mag. 4.2
Date.
Right
Dedina-
Right
Dedina-
Right
Declina- 1
Right
Declina-
AsccBBion.
tionN.
Ascension.
tion N.
Ascension.
tionN
[.
Ascension.
tion N.
h m
e
/
h m
0 /
h m
e
/
h m
0 /
8 33
+ 6
MM
0
8 34
+ 338
mm
8 38
+21 46 1
8 39
+ 18 28
m m
Jan. 0.6
S
WW
32.7
'3-8o
WW
5^-3 .,
54.7 '
'^■54 „
WW
57.3
g-
45.84 „
WW
31.3 -
30.5 ,
299 ,
I0.6
20
4-59 ,
313
14
20
I4.cx>
16.77 \\
16-95 !
56.7
6
0^
46.07 ^3
46.25 ;
20.5
30.0
13
1415 5
53.3 \\
56.4
3
30.5
4.70 "
476 *
28.9
II
14.26 "
14.32 \
5"» 0
17.08 '3
56.3
I
46.37 "
29.6 3
Feb. 9.5
28.0
9
6
5- '\
'7.'5 \
56.4
I
3
46.44 ,
295 ;
19.4
4-77 .
27.4
«
14.33 ^
50.3 ,
49.7 \
^y-'i? ,
56.7
46.46
29.6 .
Mar. 1.4
4-73 ;
27.0
4
14.29 ♦
1714 I
17.06 »
57.1
4
46.43 ,
29-8 \
11.4
4-66 \
26.7
3
14.22 7
49-3 ;
57.6
5
6
46.36 7
30.1 3
21.4
4-55 '
26.6
I
14.11 ",
491 „
16.95
58.2
46.26 •"
30.5 *
31.3
442 /,
26.6
0
13.98 \\
491 °
16.82 '3
58.8
6
46.13 \\
31.0 *
14
2
14
I
15
5
14
5
Apr. 10.3
4-2* ,A
26.8
A
13.84 ,^
49-2
16.67
59.3
m
45.99 ,^
315 .
20.3
*•'* 1
27.1
3
13.70 \\
49.4 \
16.52 5
59.8
5
45.84 5
31.9 \
30.3
4.00 ^
27.4
3
13.57 ;^
49.8 4
16.37 5
60.2
4
45.69 '
32.3 *
May 10.2
3-87 '3
27.8
4
13.44 ^
50.2 *
16.23 *
60.5
3
45.56 3
32.6 3
20.2
3-^'8
28.3
5
5
13.33 ';
50.7 5
16.12 "
9
60.7
2
I
45.45 ';
32.9 \
30.2
3.68
3.62 ^
28.8
6
6
6
6
6
13.24 ,
13.18 \
51-3 ,
51.9 !
16.03 ,
60.8
^v
4536 ,
45.30 \
33.1 ,
June 9.1
29.4
15.96 \
60.8
0
■m
33.3 ,
19. 1
3-59 I
30.0
13.15 ^
52.6 7
15.93 ^
60.7
I
45.26 4
33.4 „
29.1
3-59 ,
306
13.15 \
53-3 ,
54.1 ;
'593 ,
60.6
1
45.26
33.4 ,
July 9.1
3.62 3
31.^
13.18 3
15.96 3
60.4
2
3
45.29 %
33-3 J
19.0
3.68
31.8
M
1324 „
54-8
55-4 ^
56.0 \
16.02
60.1
^
45.35 -
33.1 ,
29.0
3-77 '
32.3
5
13.33 '
16.12 '"
59.7
4
45.44 ,;
32.9 ,
Aug. 8.0
3.89 t
32.7
4
13.44 "
16.25 3
16.41 \\
59.2
5
45-57 1'
32.6 3
18.0
4.04 \'
33.0
3
13.58 4
564 1
58.5
7
45.72 3
4590 "
32.2 *
31.6 ;
27.9
4" ,1
33.2
2
'3-75 'I
56.7 \
57.8
7
ao
0
20
I
21
9
21
7
Sept. 6.9
441 „
33.2
^3-95 „
56.8
16.80
56.9
^ «^
46.11
30.9 g
3°' ,0
16.9
464 ''
330
2
14.17
56.7 '
'704 ^!
55-9
lO
46.34 '^
46.60 'J
46.88 "
26.8
489 '
32.5
5
H.42 ^5
56.3 X
»7-3i \l
54.8
II
29-1 „
Oct. 5.8
5-^6 11
31.8
7
^469 'I
55.6 ^
17.60 »9
53.6
12
28.0 "
15.8
5.45 :'
30.8
10
1498 '9
54-7 '
'7-91 ^'
52.3
13
47.18 3«
26.7 |3
31
12
3>
12
33
14
32
«4
25.8
576 ,,
29.6
^5-^9 „
53.5 „
18.24 „
50.9
47.50
25-3 ,^
Nov. 5.7
6.09 33
28.2
14
_ r
'5-61 ^'
52» \\
18.58 34
49.5
14
47.84 ^^
23-9 ■;
15.7
6.42 33
26.6
16
»5.94 ::
50.5 J
18.93 ^'
48.1
14
48.1935
22.4 5
25.7
6.74 ^
24.9
17
16.26 3'
♦«•» 8
19.28 35
46.8
13
48.53 ^
21.0 '4
Dec. 5.7
7.05 3'
23.2
17
•6-57 ^'
47.0 '»
19.62 34
45-5
13
48.87 ^
19.6 '♦
30
17
30
IB
32
II
32
»3
156
7-35 ,
21.5
»^-^7 „
45.2 -
'9.94 ,„
444
49-^9 ,^
18.3
25.6
7-62 '^
19.8
17
'7.14 '^
43.4 !
20.24 ^°
20.50 '<^
43.5
9
49.48 ^^
17.2
35-6
7.85 *3
18.2
16
1736 "
41.7 '^
42.8
7
49.73 ^
16.3 ^
Sec <5, Tan (5
1.006 40.K
55
1 .002 40.064
1.077 -^.400
1.054 40.334
Mean Place
3*. 107 28".05
i2«.69i 5i".25
i5*.247
+0.01
55".44
44».6oi 28^.93
D V a, D« a
0.00 0.00
0.00 0.00
40.02
40.01 40.0I
Di|r 9, D.« S
-0.2
40.8
-0.2
40.8
-0.3
+0.8
-0.3
40.8
[Eph 13]
APPARENT PLACES OF STARS, 1913,
361
FOR THE UPPER TRANSIT AT WASHINGTON.
IfetaSoJar
Dtte.
Jan. 0.6
I0.6
20.5
30.5
Feb. 9.5
19.4
Mar. 1.4
1 1.4
21.4
31.3
Apr. 10.3
20.3
30.3
Mky 10.2
20.2
30.2
June 9.1
19. 1
29.1
Jtdy 9.1
19.0
29.0
Aug. 8.0
18.0
27.9
Sept. 6.9
16.9
26.8
Oct. 6.8
16.8
26.8
Nov. 5.7
15-7
25.7
Dec 5.7
25.6
35-6
Seca.Tand
Nctn Place
a PyiidiB.
Mag. 3.7
Right
Ascension.
m
8 40
s
6.82
7.01
7.15
7.24
7.27
7.24
7.16
7.05
6.90
6.72
6.53
6.33
6.14
5.79
5.64
5.52
5.43
5.37
5.35
5.36
5.41
5.49
5-77
5-97
6.20
6.46
6.75
7.06
7.40
7.75
8.10
8.45
8.78
9.08
9.35
9.58
19
14
9
3
3
8
II
15
18
19
20
19
18
17
15
12
9
6
2
I
5
8
12
16
20
23
26
29
31
34
35
35
35
33
30
27
23
Declina-
tion S.
-3252
//
8.7
12.0
15.3
18.4
21.3
24.0
26.4
28.4
30.1
31.4
32.3
32.7
32.7
32.4
31.7
30.6
29.1
27.3
25.3
23.1
33
33
31
29
27
24
20
17
13
9
4
o
3
7
II
15
18
20
22
23
24
20.8
18.4
16.0 ^^
13.8 ''
11.8^
18
lO.O
8.6^4
7.6'^
7.1
7.1
12
7-7
8.9
10.6 '7
12.7 "'
29
18.1
31
21.2
24.4
32
1. 191
5*.740
-0.646
20". 14
iy# a, D» a -0.01 -0.03
I)#d, Dwd I -0.3 •»o.8
I Cancri.
Mag. 4.2
Right
Ascension.
m
8 41
8
27.60
27.84
28.03
28.17
28.25
24
19
14
8
28.28
28.25 I
28.17 ^
28.06 "
27.92
14
16
16
16
27.76
27.60
2744
27.29 f
27.16
13
10
27.06
26.99
26.95
26.94
26.97
27.04
27.14
27.27
27.43
27.62
7
4
I
3
7
10
13
16
19
22
25
28
27.84
28.09
28.37
28.68 3'
29.01 '^^
34
2935 ,,
29.71 ^^
30.08 ^^
3045 '"
30.81
37
36
34
31.15
31.46
31.74
31
28
Declina-
tion N.
+29 4
//
44-3
44.2
44.3
44.6
45.2
45.9
46.7
47.6
48.4
49.2
49.9
50.5
50.9
51.2
51-3
51.2
51.0
50.6
50.1
49-5
48.7
47.8
46.9
45.9
44.7
43.5
42.2
40.8
39-4
37.9
36.4
35.0
33.7
32.5
31.4
30.6
30.0
29.7
I
I
3
6
7
8
9
8
8
7
6
4
3
I
I
2
4
5
6
8
9
9
o
2
2
3
4
4
5
5
4
3
2
I
8
6
3
1. 144 +0.556
26". 184 43^.76
•K>.oi +0.02
-0.3 40.8
(Sph 13I
Mag. 3.5
Right
Ascension.
h m
8 42
s
1.33
X.54
I.7I
1.83
1.89
21
17
12
6
I.91
1.88
1.81
1.71
1.59
1.46
1.32
3
7
10
12
13
14
1. 18 '4
1.05 '3
0.94
0.85
0.79
0.76
0.75
0.77
0.82
0.90
1. 01
1. 15
1.32
I.51
1.73
1.97
2.24
2.53
2.84
3.16
3-49 ,,
3.82 ^^
^^2
4.14 ^
30
4.44
II
9
6
3
I
2
5
8
II
14
17
19
22
24
27
29
31
32
33
4.71
4.95
27
24
Declina-
tion N.
+ 644
//
23.5
22.1
20.9
9.8
8.9
8.3
7.9
7-7
7.6
7.6
7.8
8.1
8.5
8.9
9.3
19.8
20.4
21.0
21.6
22.1
22.6
23.0
23.4
23.7
23.8
237
23.4
22.8
22.0
21.0
19.8
18.4
16.8
15.1
13.3
11.6
9.9
8.3
14
12
II
9
6
4
2
I
o
2
3
4
4
4
5
6
6
6
5
5
4
4
3
I
I
3
6
8
10
12
14
16
17
18
17
17
16
1.007
IO".222
+0.1 18
I9".29
S Argtls.
Mag. 2.0
Right
Ascension.
m
8 42
s
9.32
9.53
9.67
9.73
9.72
21
14
6
9.63
9.48
9.27
9.01
8.72
8.41
8.09
7.76
7.44
7.14
6.87
6.63
6.43
6.27
6.16
6.II
6.1 1
6.17
6.29
6.46
15
21
26
29
31
32
33
32
30
27
24
20
16
II
5
o
6
12
17
23
29
33
38
6.69
6.98
7.31
7.69 . _
8.10^'
44
8.54
8.99
9-44
9.89
20.31
45
45
45
42
37
20.68
21.00
21.26
32
26
Declina-
tion S.
-5423
0.00
-0.3
40.0I
+0.8
7.3
II.O
14.8
18.5
22.1
25.5
28.6
31-4
33.7
35.6
37.0
37.9
38.3
38.2
37.6
36.5
34-9
330
307
28.1
37
38
37
36
34
31
28
23
19
14
9
4
I
6
II
16
19
23
26
28
29
30
29
25.3
22.4
19.4
16.5
II. 4
9.3
7-7
6.6
6.1
21
16
II
5
2
8
6.3
7.1
8.6^5
10.7 ^'
13.3
26
30
16.3
19.7
23.3
34
36
1.717 -1.396
I7*.895 2 1 ".91
-0.03
-0.06
362
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
MeanSolar
Date.
Jan. 0.6
I0.6
20.5
30.5
Feb. 9.5
19.5
Mar. 1.4
11.4
21.4
Apr. 10.3
20.3
30.3
May 10.2
20.2
30.2
June 9.2
19. 1
29.1
July 9.1
19.0
29.0
Aug. 8.0
18.0
27.9
Sept. 6.9
16.9
26.9
Oct. 6.8
16.8
26.8
Nov. 5.7
15-7
25.7
Dec. 5.7
25.6
35.6
Seed, Tan d
Mean Place
(T* Cancri {mean).
Mag. 5.5
Right
Ascension.
h m
8 48
s
57.85
58.11
58.31
58.46
58.55
58.58
58.56
58.49
58.38
58.24
58.08
57.91
57.75
57.60
57.47
57.36
57.28
57.23
57.22
57.24
57.30
57.39
57.51
57.66
57.85
58.07
58.32
58.60
58.90
59.23
59.58
59.95
60.32
60.70
61.07
61.42
61.74
62.03
26
20
15
9
3
2
7
II
14
16
17
16
15
13
II
8
5
I
2
6
9
12
15
19
22
25
28
30
33
35
37
37
38
37
35
32
29
Declina-
tion N.
+3054
tt
34.4
34.3
34.5
34.9
35.5
36.3
37.3
38.3
39.2
40.1
40.9
41.5
42.0
42.3
42.4
42.3
42.0
41.6
41.0
40.3
39.4
38.4
37.4
36.2
34.9
33.5
32.1
30.6
29.1
27.5
26.0
24.5
23.1
21.9
20.9
20.1
19.5
19.2
I
2
4
6
8
10
10
9
9
8
6
5
3
I
I
3
4
6
7
9
o
o
2
3
4
4
5
5
6
5
5
4
2
o
8
6
3
1. 166 -K>.599
56«.4i8 34".52
+0.01
-0.3
-K>.03
+0.7
C Hydne.
Mag. 3.3
Right
Ascension.
h m
8 50
s
48.88
22
49- 10
49.28 '*
1"^
49.41 ;
49.48 7
49.50
49.48
49.42
49.33
49.21
2
6
9
12
13
49.08
48.94
48.81
48.68 '^
48.57 "
14
13
48.48
48.41
48.37
48.36
48.37
48.41
48.49
48.59
48.72
48.88
7
4
I
I
4
8
10
13
16
18
49.06
49.27
49.51
49.77 ,^
50.06 ^9
21
24
26
50.37
50.69
51.02
51.35
51.67
51.97
52.25
52.50
31
32
33
33
32
30
28
25
Dedina-
tion N.
+ 6 16
//
42.2
40.8 '^
39.5 ''
38.4
37.5
36.8
36.3
36.1
36.0
36.0
36.2
36.5
36.8
37.2
37.7
38.2
38.8
39.4
40.0
40.5
41.0
41.5
41.9
42.1
42.2
42.1
41.8
41.3
40.5
39.5
38.2
36.7
35.1
33-4
31.6
29.8
28.1
26.5
II
9
7
5
2
I
o
2
3
3
4
5
5
6
6
6
5
5
5
4
2
I
I
3
5
8
10
13
15
16
17
18
18
17
16
1.006 -fO.IIO
47'.8o5 38".i8
t Viut Majozls.
Mag. 3.1
Right
Ascension.
m
8 53
S
7.46
7.78
8.03
8.21
8.32
32
25
18
II
8.35
8.31
8.21
8.06
7.87
7.66
7.43
7.20
6.98
6.79
6.62
6.49
6.40
6.36
6.36
6.41
6.50
6.64
6.82
7.04
7.30
7.61
7.95
8.32
8.73
9.16
9.61
20.07
20.54
20.99
4
10
15
19
21
23
23
22
19
17
13
9
4
o
5
9
14
18
22
26
31
34
37
41
43
45
46
47
45
43
21.42
21.82 ^^
22.17 ^^
Declina-
tion N.
+4822
//
59.5
60.4
61.6
63.0
64.6
66.3
68.1
69.8
71.4
72.8
73.9
74.7
75.2
75.3
75.1
74.6
73.7
72.6
71.2
69.6
67.8
65.8
63.7
61.6
59.4
57.2
55.1
53.0
51.0
49.1
47.4
46.0
44.8
43.9
43.4
43.3
43.5
44.1
9
2
4
6
7
8
7
6
4
I
8
5
I
2
5
9
II
14
16
18
20
21
21
22
22
21
21
20
19
17
14
12
9
5
I
2
6
CI Cancxl.
Mag. 4.3
Right
Ascension.
h m
8 53
S
44.98
45.21
45.40
45*53
45.61
23
19
13
8
45.64
45.63
45.57
45.48
45.36
Dedina*
tionN.
I
6
9
12
13
14
14
45.23
45.09
44.95 _.
44.82 \^
44.71 "
44.62
44.55
44.51
44.50
44.51
II
9
7
4
I
I
4
8
10
44.55
44.63
44.73 ,.
44.86 \l
45.02 "
16
19
45.21
45.43
45.67
45.93
46.22
22
24
26
29
31
0.00 0.00
■0.3 -K).7
LBphx3]
1.506 -^.126
15^.467 62".27
-K>.02
-0.3
40.05
+0.7
46.53 ,,
46.86 33
47.19 33
47.53 ^^
47.86 33
32
48.18
48.47 \\
48.72 ^5
+ 12 II
//
45.1
43.9
42.9
42.2
41.7
41.4
41.2
41.2
41.4
41.7
42.0
42.4
42.8
43.2
43.6
44.0
44.4
44.7
45.0
45.3
45.5
45.6
45.6
45.5
45.3
44.9
44.3
43.5
42.5
41.3
39.9
38.4
36.8
35.2
33.5
31.9
30.5
29.2
12
10
7
5
3
2
o
2
3
3
4
4
4
4
4
4
3
3
3
2
I
o
I
2
4
6
8
10
12
14
15
16
16
17
16
14
13
1.023 .KX3I6
43».855 42".25
0.00
-0.3
.K>.0I
40.7
APPARENT PLACES OF STAES, 1913,
FOR THE UPPER TRANSIT AT WASHINGTON.
363
Mesa Solar
Date.
Jan. 0.6
I0.6
20.5
30.5
Feb. 9.5
19.5
Har. 1.4
1 1.4
21.4
31.4
Apr. 10.3
20.3
30.3
May 10.2
20.2
30.2
June 9.2
19. 1
29.1
July 9.1
19.0
29.0
Aug. 8.0
18.0
27.9
Sept. 6.9
16.9
26.9
Oct. 6.8
16.8
26.8
Nov. 5.7
15.7
257
Dec. 5.7
156
25.6
35.6
Mean Place
b^ Carine.
Mag. 5.x
Right
Asccn^on.
m
h
8 54
s
52.10
52.35
52.51
52.59
52.58
52.49
52.33
52.11
51.83
51.51
25
16
8
16
22
28
32
35
37
37
51.16
50.79
50.42
50.05 ^7
49.69 ^°
33
49.36
49.07 ^
48.82 ^5
48.61 ^'
48.45
21
16
10
48.35
48.32
48.35
48.45
48.61
3
3
10
16
23
48.84 ^^
49.13 ^
49.48 35
49.88 ^°
50.33 \l
50.81
51.31 ^^
51.81 50
52.30 ^^
52.77 \l
5^'^ 36
53.85 ^°
Declina-
tions.
-5853
#/
20.5
24.2
28.0
31.8
35.6
39.2
42.5
45.4
48.0
50.1
51.7
52.9
53.6
53.7
53.3
52.4
51.0
49.2
47.0
44.5
37
38
38
38
36
33
29
26
21
16
12
7
I
4
9
14
18
22
25
28
38.8 ^9
35.8 3^
32.8 5^
29.9 ^^
27.3
25.1
23.3
22.0
21.3
21.3
21.9
23.1
25.0
27.5
30.4
33.7
37.3
26
22
18
13
7
o
6
12
19
25
29
33
36
1.936 -1.657
50".627 36".i7
-ox)3
-0.3
-0.08
+0.7
K TJnm MajoilB.
Mag. 3.7
Right
Ascension.
h m
8 57
8
43-49 „
43.81 3^
44.07 ^J
44.26 '9
II
44.37
44.41
44.38
44.29
44.15
43.97
43.76
43.54
43.32
43.11
42.92
42.75
42.62
42.53
42.49
42.49
42.53
42.62
42.75
42.92
43.13
3
9
14
18
21
22
22
2Z
19
17
13
9
4
o
4
9
13
17
21
26
^3-39 ^^
43.68 ^9
44.01 33
44.38 37
44.78 ^"
42
45.20
45-^4 J4
46.10 ^^
46.56 4^
47.01 45
43
47-44 .^
47.84 4^
48.19 35
Declina-
tion N.
+4729
ft
61.7
62.5
63.6
65.0
66.6
68.3
70.0
71.7
73.3
74.7
75.9
76.8
77.3
77.5
77.3
76.8
76.0
74.9
73.6
72.1
70.3
68.4
66.4
64.3
62.2
60.0
57.8
55.7
53.6
51.7
50.0
48.5
47.2
46.3
45.7
45.5
45.7
46.2
8
I
4
6
7
7
7
6
4
2
9
5
2
2
5
8
II
13
15
18
19
20
21
21
22
22
21
21
19
17
15
13
9
6
2
2
5
1.480 +1.091
4i".555 64".74
O^ Vnm Majozls.
Mag. 4.9
Right
Ascension.
h m
9 2
s
49.02
49.52
49.91
50.19
50.35
50.39
50.31
50.12
49.84
49.49
49.08
48.64
48.19
47.76
47.36
50
39
28
16
4
8
19
28
35
41
44
45
43
40
36
31
24
8
16
47.00
46.69
46.45
46.28 ^l
46.20
o
46.20
46.28
46.44 _,
46.68 ^^
47.00 3^
39
47.39 .^
47.86 *7
48.39 ^^
48.98
49.63
59
65
69
50.32
51.04
51.78
52.52
53.25
53.94
54.57
55.12
72
74
74
73
69
63
55
Dedina-
tionN.
+6728
ft
74.0
17
75-7 „
77.8 "
80.1^3
82.6 *5
26
85.2
87.7
90.1
92.3
94.1
25
24
22
18
14
95.5
96.4
96.9
96.9
96.4
95.5
94.1
92.3
90.1
87.7
85.1
82.3
79.3
76.3
73.3
70.4
67.6
64.9
62.5
60.4
58.6
57.2
56.2
55.7
55.6
56.0
57.0
58.4
9
5
o
5
9
14
18
22
24
26
28
30
30
30
29
28
27
24
21
18
14
10
5
I
4
10
14
2.612 +2.413
45*354 79".2i
K Canori.
Mag. 5.1
Right
Ascension.
h
9
s
3.30
3.54
3.73
3.87
3.96
4.00
3.99
3.94
3.86
3.75
3.62
3.48
3.35
3.22
3.10
3.01
2.94
2.89
2.87
2.88
2.92
2.98
3.07
3.19
3.34
3.52
3.73
3.96
4.22
4.50
m
3
24
19
14
9
4
I
5
8
II
13
14
13
13
12
9
7
5
2
I
4
6
9
12
15
18
21
23
26
28
31
32
33
4.81
5.13
5.46
5.80 34
6.13 33
32
^•45 ,^
6.75 ^°
7.01
26
Dedina*
tionN.
+ 11
ft
70.7
69.4
68.3
67.5
66.9
66.5
66.3
66.3
66.4
66.6
66.9
67.3
67.7
68.2
68.6
69.0
69.4
69.8
70.2
70.5
70.7
70.9
71.0
70.9
70.7
70.3
69.7
68.9
67.9
66.7
65.4
63.9
62.2
60.5
58.8
57.1
55.5
54.1
13
II
8
6
4
2
o
I
2
3
4
4
5
4
4
4
4
4
3
2
2
I
I
2
4
6
8
o
2
5
7
7
7
7
6
4
+0.02 +0.05
-0.3 +0.7
[Bph 13]
40.04
-0.3
+0.12
+0.7
1. 019 +0.195
2».2i3 68".oo
0.00
+0.01
364
APPARENT PLACES OF STAES, 1913,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
X Argils.
Mag. 2.2
0 Hydne.
Mag. 3.8
P Argils.
Mag. 1.8
88 Canori.
Mag. 6.6
Date.
1
Right
Aaoemioti.
Dedlna-
tknia
Right
Aicensioti.
Derlfna-
tionN.
Right
Aioentloti.
Dedica-
tions.
Right
Ascensioci.
Dedina-
tiooN.
h m
e /
h m
e
/
h m
0 /
h m
e #
9 4
-43 4
Mm
9 9
+ 2 40
mm
9 12
-69 21
mm
9 14
-fi8 4
Jan. 0.6
10.6
20.5
30.5
4876 „
48.99 'I
49.16 '7
I I
4927 "
38.2
41.7 ^^
45.3 3**
48.8 35
5'-35
51.78 "
51.92 '^
59.1
57.4
55.8
54.4
17
16
14
16.86
17.20 ^4
17.43 ^^
II
17.54 ;
13-9 „
17.6 37
21.5 39
25.4 39
9.H '*
932 ,f,
9.48 '*
29.8
28.8 '°
28.1 7
27.7 *
Feb. 9.5
4932 '
52.2 3*
3^
52.01 9
53.2
12
9
17.53
13
29.3 11
9.58 -
27.5 ^
19.5
Mar. 1.4
11.4
21.4
31.4
4930 ,
4923 /.
48.95 \l
48.76 '9
21
55-4 ,„
58-3 11
60.9**
64.9 ,^
52.05
52.05 °
52.01 *
51.93 '
51.82 "
13
52.3
51.6
51. 1
50.8
50.7
7
5
3
I
I
17.40
17.17 ^3
16.85 ^'
16.45 J!
52
33-» ,<(
36.7 3«
40.0 33
42.9 '^
45.4 ^,
9.63 ,
9.64 •
9.60 4
9.52 *
9.42
13
27.5 ,
27.7 ,
28.1 ■♦
28.5 *
29.0 5
Apr. 10.3
48.55 „
66.3
51.69 ,,
50.8
15.46
14.90 5
14-33 ^^
13.76 ^^
13.19 ^^
54
ill "
50.2
50.7 '
50.7 °
0
9*9 , .
29.6
20.3
30.3
May 10.2
20.2
48.32 11
48.09 'I
47.86 *3
47.64 "
^ ^ to
67.2 9
67.7 i
67.7 °
67.2 '
9
51.56 '3
51.43 '^
13
51.31
II
51.20
10
51.0
51.3
51.7
52.2
2
3
4
5
6
9.15 '4
9.01 "*
8.88 '3
8.76 "
10
30.1 *
30.6 *
3».i '
31-5 4
30.2
June 9.2
19.1
47 M
47.27 '7
47.13 ;:
66.3
5J.IO
51.02 '
50.97 ^
52.8
53.4
54.0
6
6
12.64
12.13 ^'
11.68*5
50.2
49.1 "
47.6 '5
8.66
8.58 *
8.53 ^
31.8
32.0 ^
32.1 J
29.1
July 9.1
47.02 "
46.95 I
4
61.4 *°
59.1 *3
24
50.94 „
50.94 ,
54.7
55.4
7
7
7
11.29
10.97 ^^
24
45.6 "
8.50 3
8.50 ^
32.2
19.1
29.0
Aug. 8.0
18.0
27.9
46.91
46.91 °
46.96 5
47.05 '
47.18 '3
18
5^-7 ,,
48.8 *<^
46.4 It
22
50.97 .
51.02 5
51.10 '
51.21 "
51.35 "*
17
56.1
56.7
57.2
57.6
57.9
6
5
4
3
0
10.73
10.58 ^i
10.52
10.57 5
10.72 *5
25
40.6
37.7 ^9
34.6
3' -5 ,'
28.5 3^
28
8.53 ,
8.59 t
8.67 *
8.78 "
8.93 '^
17
32.0
31.7 3
31.3 *
30.8 5
30.1 7
Sept. 6.9
16.9
26.9
Oct. 6.8
16.8
^^7-36 „
47-58 "
47.84 [l
48.14 ^°
48.48 34
37
44.2
42.3 '9
40.9 '^
40.0 ^
39.6 1
5^52 ,„
51.71 "
22
51-93 "
52.18 *5
57.9
57.7
57.3
56.6
55.6
2
4
7
10
12
10.97 ,.
11.33 J'
12.31 53
25.7
23.2 *5
21.1 "
19.4 11
18.3 •;
9.10
X «... so
9.30
9.80*^
10.08 ^*
31
*9-3 .„
28.3 '°
27.2 "
25.9 '^
24.5 '4
«5
26.8
48.85
49- 23 ,„
49.62 39
50.01 39
50.38 37
39.7 «
40.5 ^
41.9 "^
43.8 ^;
52.75 ,,
54.4
'3-56 ^3
^^•"^ 69
16.26 ^5
59
17.8
10.39 ..
'3° ,6
21.4
i9.7 ;!
18.0 '7
16.4 •*
Nov. 5.8
15.7
25.7
Dec. 5.7
53.40 33
53.73 ,,
54.05 I
52.9
51.2
49.3
47.4
15
>7
»9
19
20
18.0 ^
18.9 9
20.4 '5
22.5
27
10.72 '*'*
11.06^*
1 1. 41 ^5
11.76^5
33
15.6
25.6
35.6
50.73
51.04^
51.31 ^
49.0
52.2 •'^
55.7 ^^
5436 ,^
54-65 11
54-91 »<*
45.4
43.5
41.7
19
18
16.85
17.36 l\
17.77 ^
25.2
28.4 3^
31.9^^
12.09
%i
12.40 ^
12.68 ^*
14-9
13.6 '3
12.5 "
Sec<J,Tan«
1.369 -0.935
1. 001 +0.047
2.837 -2.655
1.052 40.326
Mean Place
47'-725
-0.02
5 1 ".88
50».365 54".90
I4-.984 3 1 ".56
7».7i7 28''.99
D> a, D» a
-0.04
0.00 0.00
-0.05 -0.13
40.01 40.02
T)^ d, D» d
-0.3
40.7
-0.3
+0.7
-0.3
40.7
-0.3
40.7
(Bph 13]
APPARENT PLACES OF STAES, 1913
365
FOR THE UPPER TRANSIT AT WASHINGTON.
Meaa Solar
Date.
Jan. 0.6
I0.6
20.6
30.5
Feb. 9.5
Mar. 1.4
11.4
21.4
31.4
Apr. 10.3
20.3
30.3
May 10.3
20.2
302
June 9.2
19. 1
29.1
July 9-1
19. 1
29.0
Aug. 8.0
18.0
28.0
Sept. 6.9
16.9
26.9
Oct. 6.8
16.8
26.8
Nov. 5.8
15.7
25.7
Dec. 5.7
15.7
25.6
35-6
Seed, Tan ^
hkan Place
D V «, D« a
Df d, D^d
t Argfts.
Mag. 2.2
Right
h m
9 14
46.85
47.13
47.34
47.46
47.49
28
21
12
3
5
12
19
24
47.44
47.32
47.13
46.89
46.60 ^^
33
46.27
45.92
45.56
45.20
44.85
35
36
36
35
33
44.52
44.21
43.94
43.71
43.53
43.41
43.34
43.33
43.39
43.52
43.72
43.98
44.31
44.70
45.13
45.60
46.10
46.61
47.11
47.59
48.04
48.43
48.76
31
27
23
18
12
7
I
6
13
20
26
33
39
43
47
50
5»
50
48
45
39
33
Declina-
tions.
-5854
tf
18.9
22.6 ^l
26.4 3*
30.2
34.0
38
38
37
37.7
41. 1
44.2
47.0
49.4
51.3
52.7
53.6
54.0
53.8
53.2
52.1
50.5
48.5
46.1
34
31
28
24
19
»4
9
4
2
6
II
16
20
24
26
28
43.5
31.9 '^
29.2
26.9
25.0
23.5
22.6
22.3
22.7
23.7
25.3
27.6
30.4
33.6
37.0
27
23
19
15
9
3
4
10
16
23
28
32
34
1.937 -1.658
45*.574 35".35
-0.03
-0.3
-0.08
+0.7
40 Lynoia.
Mag. 3.3
Right
Ascension.
h
9
m
15
47.00
47.29
47.53 ^1
47.71
47.83
29
18
12
47.90
47.90
47.85
47.76
4763
47.48
47.31
47.14
46.98
46.83
46.70
46.60
46.53
46.49
46.48
46.50
46.56
46.66
46.79
46.95
47.14
47.37
47.63
47.93
48.25
48.60
48.97
49.36
49-75
50.14
50.52
50.87
51.19
5
9
13
15
17
17
16
>5
13
10
7
4
I
2
6
10
13
16
19
23
26
30
32
35
37
39
39
39
38
35
32
Declina-
tion N.
+34 45
//
37.4
37.3
37-6
38.2
39.0
40.0
41.2
42.4
43.6
44.7
45.8
46.7
47.3
47.7
47.9
47.9
47.7
47.2
4^.5
45.6
44.6
43.4
42.0
40.5
38.9
37-2
35.4
33.6
31.8
29.9
28.1
26.4
24.8
23.4
22.2
21.3
20.8
20.5
I
3
6
8
10
2
2
2
I
I
9
6
4
2
o
2
5
7
9
10
2
4
5
6
7
8
8
8
9
8
7
6
4
2
9
5
3
1.217 +0.694
45*55 1 39".84
+0.01
-0.3
+0.03
+0.7
[Bph Z3l
6^Pyxidi8.
Mag. 4.9
Right
Aacenakm.
h m
9 17
39.14
39-37
39.56
39.69
39.77
39.80
39.78
39.72
39.62
39.49
39-34
39.18
39.02
38.86
38.71
38.58
38.47
38.38
38.31
38.27
38.26
38.28
38.33
38.42
38.54
23
19
13
8
3
2
6
10
13
15
16
16
16
15
13
II
9
7
4
I
5
9
12
15
22
26
38.69
38.88 ^?
39.10 '"
39.36
39.64 '
39.95 ,^
40.28 ^^
40.62 ^^
40.96 ^^
41.30
41.62
41.92
42.18
34
32
30
26
Declina-
tion S.
-2535
//
31.9 ._
34.9 ^
37.9 ^°
40.8 '^
T^ A 28
43.6
46.1
48.3
50.3
51.9
53.2
54.1
54.7
54.9
54.8
54.4
53.6
52.5
51-2
49.6
47.8
45.9
44.0
42.0
40.1
38.4
36.9
35.7
34.8
34.4
34.5
35.0
36.0
37.5
39-4
41.7
44.3
47- 1
50.1
25
22
20
16
13
9
6
2
I
4
8
II
13
16
18
19
19
20
19
17
15
12
9
4
I
5
10
15
19
23
26
28
30
1. 109 -0.479
38».278 42^.38
-O.OI
-0.3
-0.02
(X HydiK.
Mag. 2.2
Right
Ascension.
h m
9 23
s
19.62
19.86 ^1
20.06
20.21
20.31
20
15
10
5
20.36
20.36
20.32
20.24
20.14
20.02
19.89
19.76
19.63
19.51
19.40
19.31
19.24
19.20
19.18
19.19
19.23
19.29
19.38
19.50
4
8
10
12
13
13
13
12
II
9
7
4
2
I
4
6
9
12
15
19.65 ,.
19.82 II
20.03
20.27
20.54
21
24
27
29
20.83
21.14
21.46
21.79
22.12
22.44
22.74
23.00
31
32
33
33
32
30
26
Declina-
tions.
- 8 16
tt
45.0
47.3
49.5
51.5
53.3
54.9
56.3
57-4
58.2
58.8
59.1
59-2
59.1
58.8
58.3
57.7
56.9
55.9
54.8
53.7
52.6
51.4
50.3
49.3
48.4
47.8
47-4
47.3
47.6
48.2
49.2
50.5
52.1
54.0
56.2
23
22
20
18
16
14
II
8
6
3
I
I
3
5
6
8
10
II
II
II
12
II
10
9
6
4
I
3
6
10
13
16
19
22
23
58.5 ,,
60.8 ^^
63.2 '^
I. on -0.146
I8V756 5 1 ".38
\ -o
0.00
-O.OI
366
APPARENT PLACES OF STAES, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.6
I0.6
20.6
30.5
Feb. 9.5
19-5
Mar. 1.5
11.4
21.4
31.4
Apr. 10.3
20.3
30.3
May 10.3
20.2
30.2
June 9.2
19.2
29.1
July 9.1
19.1
29.0
Aug. 8.0
18.0
28.0
Sept. 6.9
16.9
26.9
Oct. 6.9
16.8
26.8
Nov. 5.8
157
25.7
Dec. 5.7
157
25.6
35.6
h Uraae Majozls.
Mag. 3.8
Right
Ascension.
Sec d, Tan «
Mean Place
D V a, D« a
h m
9 24
8
44.12
44.60
44-99
4529
45.48
45.57
45.55
45.44
45.24
44.98
44.66
44.31
43.95
43.59
43.24
42.92
42.65
42.43
42.27
42.17
48
39
30
19
9
2
II
20
26
32
35
36
36
35
32
27
22
16
10
4
3
10
17
42.13
42.16
42.26
42.43 ^.
42.66 ^^
30
42.96
43.32
43.75
44.23
44.76
36
43
48
53
57
45.33
45.94
46.58
47.23
47.87
61
64
65
64
62
48.49
49.07
49.60 ^^
58
Declina-
tion N.
+ 63 26
//
27.8
29.2
30.9
32.9
35.2
37.7
40.2
42.6
44.8
46.7
48.3
49-5
50.3
50.6
50.4
49.8
48.7
47.2
45.4
43.3
40.9
38.2
35.4
32.5
29.6
26.6
23.7
20.9
18.3
15.9
14
17
20
23
25
25
24
22
19
16
12
8
3
2
6
II
15
18
21
24
27
28
29
29
30
29
28
26
24
21
18
13.8
12.0
10.6 '^
9.7 ^
9.3
9.3
9.8
10.8
4
o
5
10
2.236
4i*.i26
+2.001
34"-74
+0.03
-0.3
•to. 10
+0.6
d Ur8« Majozls.
Mag. 4.6
Right
Ascension.
h m
9 26
8
52.77 ^
53-37 "^
53.86 ^9
54.23 ^^
54.46
23
10
54.56
54.52
54.35 _.
54.08 ^7
53.72
4
17
36
44
53.28
52.80
52.30
51.79
51.30
50.85
50.45
50.12
49.86
49.69
49.61
49.61
49.71
49.90
50.18
50.55
51.00
51.53
52.14
52.82
53.55
54.33
55.14
55-97
56.78
57-56
58.29
58.95
48
50
51
49
45
40
33
26
17
8
o
10
19
28
37
45
53
61
68
73
78
81
83
81
78
73
66
Declina-
tion N.
+ 70 12
//
41.2
42.7
44-7
47-0
49.6
15
20
23
26
27
27
26
52.3
55.0
57-6 ,^
60.0^^
62.1 ^^
63.8
65.0
65.8
66.0
65.7
17
12
8
2
3
7
12
65.0
63.8
62.1 '7
60.0^'
57.6
24
26
29
31
55.0
52.1
49.0
45.8 3'
42.6 32
31
39.5
36.4 ^'
33.4 3^
30.7 '
28.2 ^5
21
26.1
24.4
23.1
22.3
22.0
»7
13
8
3
2
22.2
22.9
24.2
7
13
2.954 +2.779
48'.737 48".73
+0.05
-0.3
+0.15
+0.6
9 Uraae MajozU.
Mag. 3.3
Right
h m
9 27
s
4.86
5.23
5.54
5.78
5-94
6.02
6.02
5.96
5.83
5.65
5.44
5.20
4-95
4.71
4.48
4-27
4.10
3-96
3.86
3.80
3.79
3.83
3.92
4.05
4.23
4.46
4.73
5.04
5.40
5-80
6.24
6.70
7.18
7.68
8.17
8.64
9.09
9-50
37
31
24
16
8
o
6
13
18
21
24
25
24
23
21
17
14
10
6
4
9
13
18
23
27
31
36
40
44
46
48
50
49
47
45
41
Dedtna-
tkm N.
+ 52 4
//
7
12
22.4
23.1
24-3
25.8 '3
27.5 ''
29.4
31.4
33.4
35.3
37.0
38.5
39.7
40.5
40.9
40.9
40.5
39.8
38.8
37.4
35.7
33.8
31.6
29.3
26.9
24.4
21.8
19.2
16.7
14.2
II. 9
9.8
8.0
6.4
5.2
4.4
4.0
4.0
4.5
19
20
20
19
17
15
12
8
4
o
4
7
10
14
M
19
22
23
24
25
26
26
25
25
23
21
18
16
12
8
4
o
5
1.627
2*.793
+1.283
28".28
+0.02
-0-3
+0.07
40.6
^ LeoBis.
Mag. 5.1
Right
h m
9 27
s
6.51
6.77
6.98
7.14
7.26
7.33
7.34
7.31
7.24
7.15
7.04
6.91
6.78
6.65
6.53
6.43
6.35
6.29
6.26
6.25
26
21
16
12
7
I
3
7
9
II
13
13
13
12
10
8
6
3
I
4
7
10
6.26
6.30
6.37
6.47
6.60 '3
16
6.76
6.94
18
21
715
7.39 ^^
7.66^7
30
8.28 32
8.61 33
8.95 3-^
9.29
9.62
9.93
20.21
34
33
31
28
Dedina
tionN.
+ 11 4C
//
69-9
68.5
67.4
66.5
65-9
65-5
653
65.3
65.5
65.8
66.2
66.6
67.0
67.5
68.0
68.4
68.8
69.2
69.5
69.7
69.9
70.0
70.0
69.8
69-5
II
9
6
4
2
0
2
3
4
4
4
5
5
4
4
4
3
2
I
0
2
3
5
69.0
68.3
67.4
66.3
65.0
7
9
II
13
15
^3-5 ,,
61.9
17
18
60.2
56-^ ,8
54.8
53-1
51.7
17
1. 02 1 40.207
Z5*.499 68".27
0.00
■0.3
•ftO.01
-KX6
APPARENT PLACES OF STARS, 1913. 367
FOR THE UPPER TRANSIT AT WASHINGTON.
368
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.6
I0.6
20. 6
30.5
Feb. 9.5
19.5
Mar. 1.5
1 1.4
21.4
31.4
Apr. 10.4
20.3
30.3
May 10.3
20.2
30.2
June 9.2
19.2
29.1
July 9.1
19.1
29.1
Aug. 8.0
18.0
28.0
Sept. 6.9
16.9
26.9
Oct. 6.9
16.8
26.8
Nov. 5.8
15.8
257
Dec. 5.7
15.7
25.6
35.6
Sec 6, Tan 6
Mean Place
D'f a, Dm a
D^ 6, Dm S
0 Anmm.
Mag. 5.0
Right
Atoeasion.
h m
9 40
B
20.13
20.38
20.59
20.75
20.86
25
21
16
II
5
20.91
20.91
20.87
20.79
20.68
20.55
20.40
20.24
20.09
19.94
19.80
19.67
19.56
19.48
19.42
19.39
19.39
19.42
19.48
19.58
4
8
I
3
5
6
5
5
4
3
I
$
6
3
3
6
10
13
19.71
19.88 '7
20.08 ^°
20.32
20.59
24
27
31
20.90
21.23
21.57
21.92
22.27
22.61
22.93
23.21
33
34
35
35
34
32
28
Declina-
tion S.
-27 22
//
3.8
6.8 3^
9.8 3°
12.8 ^^
15.7 '^
18.3
20.7
22.8
24.6
26.1
273
28.1
28.5
28.6
28.3
27.7
26.8
25.6
24.1
22.4
26
24
21
18
15
12
8
4
I
3
6
9
12
15
17
18
19
20
20.6
18.7
16.7
14.8 [I
13.0
18
16
II.4
10. 1
9.1
8.5
8.3
8.7
9.6
10.9
12.7
14.9
17.4
20.2
23.2
13
10
6
2
4
9
13
18
22
25
28
30
1. 126
I9".388
-0.518
I4".6i
-0.0 1
-0.3
-0.03
+0.6
s LeoBis.
Mag. 3.1
Right
AtotMsion.
h m
9 40
8
56.08
56.37 II
56.61 ^^
56.80 '^
56.94 't
57.03
5706
57.05
56.99
56.90
56.78
56.65
56.51
56.37
56.24
56.13
56.03
55.96
55.91
55.88
55.88
55.92
55.98
56.07
56.19
56.34
56.53
56.75
56.99
57.27
3
I
6
9
12
13
14
14
13
II
10
7
5
3
o
4
6
9
12
15
19
22
24
28
31
33
57.58
57.91
58.26 35
58.62 36
58.98 ll
30
5^-34 _ .
59.68 34
59-99 ^'
Declina-
tion N.
+24 10
//
29.1
28.3
27.9
27.7
27.8
28.1
28.7
29.4
30.2
31. 1
31.9
32.7
33.4
34.0
34.5
34.8
34.9
34-9
34.7
34.4
33.9
33.3
32.5
31.6
30.5
29.3
27.9
26.3
24.7
23.0
21.2
19.3
17.4
15.6
14.0
12.6
11.4
10.4
8
4
2
1
3
6
7
8
9
8
8
7
6
5
3
I
o
2
3
5
6
8
9
I
2
4
6
6
7
8
9
9
8
6
4
2
o
1 .096 -K>.449
54*-949 31 ".00
+0.01 +0.02
-0.3 40.6
[Eph 13I
V JJtsm Majoria.
Mag. 3.9
Right
Aaccnsion.
h m
9 44
8
51.35
51.81
52.19
52.49
52.70
46
38
30
21
12
52.82
52.85
52.79
52.66
52.46
3
6
13
20
25
29
52.21
5 ^92 ,^
51.62 30
31
51.01
30
28
50.73
50.48
50.28
50.12
50.01
25
20
16
II
6
49.95
49.95
50.00
50.11
50.28 '7
o
5
II
50.51
50.80
51.14
51.53
51.97
52.46
52.99
53.55
54-12
54.70
55.27
55.81
56.30
23
29
34
39
44
49
53
56
57
58
57
54
49
Declina.
tion N.
+59 26
//
46.6
47.5
48.9
50.6
52.7
55.0
57-3
59.7
61.9
63.9
65.6
67.0
68.0
68.6
68.7
68.4
67.6
66.4
64.9
63.0
60.8
58.4
55.8
53.0
50.1
47.2
44.3
41.4
38.6
36.0
33.7
31.6
29-9-,
28.6 '3
27.8 ^
4
27.4
27.5
28.1
9
14
»7
21
23
23
24
22
20
17
14
10
6
I
3
8
12
15
19
22
24
26
28
29
29
29
29
28
26
23
21
17
I
6
1.967 +1.694
48V866 54".8i
+0.02
-0.3
40.09
+0.6
V Arsfts.
Mag. 3.2
Right
Aaccnsion.
h m
9 44
56.82
57-19
57.48
57-67
57.77
37
29
»9
10
o
57.77
57.68
57.51 ._
57.26 ^^
56.95 ^'
9
17
56.59
56.19
55.77
55.34
54.91
54.48
54.07
53.70
53.37
53.09
52.86
52.70
52.61
52.60
52.68
52.84
53.08
53.41
53.82
54.29
54.82
55.39
55.98
56.58
57.17
57.72
58.22
58.65
36
40
42
43
43
43
41
37
33
28
23
16
9
X
8
16
24
33
41
47
53
57
59
60
59
55
50
43
Declina-
tion S.
-6439
ff
47.9
51.4
55-1
59.0
62.9
66.8
70.5
74.0
77.1
79.9
82.3
84.2
85.6
86.5
86.9
86.8
86.1
84.9
83.3
81.2
78.8
76.1
73.3
70.3
67.3
64.5
61.9
59.6
57.7
56.3
55.6
55.5
56.1
57.3
59.1
61.5
64.4
67.8 34
35
37
39
39
39
37
35
31
28
24
19
14
9
4
I
7
12
16
21
24
27
28
30
30
28
26
23
19
14
7
I
6
12
18
24
29
2.337 -2.1 12
55-.686 65".98
-0.03
-0.3
-0.12
+0.6
APPAKENT PLACES OF STABS, 1913,
369
FOR THE UPPER TRANSIT AT WASHINGTON.
6 Seztantts.
pi Leonls.
Oroombiidge 1M6.
19 Leonls Mlnoris.
MeuSohr
Mag. 6.0
Mag. 4.1
Mag. 6.0
Mag. 5.2
Date.
-^
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
1
AaoKiisian.
tion S.
Ascension.
tion N.
Atcension.
tion N.
1
Ascension.
tion N.
/
h m
0 /
h m
0 /
h m
0 /
h m
0 /
/
9 46
- 350
9 47
+26 24
9 50
+73 17
9 52 +41 27
f Jan. 0.6
52.09 „
1.6
s
50.23 ,„
59-2 ,
s
42.44
27-9 ,^
s
23-15 ^^
67.7
I0.6
^•^Z
50-53 1°
58.5 I
43'8^t
29.4 5
23.50 ^5
67.7 I
20.6
52.31 "
S^'g
50-78 '5
58.1 *
43-80 ll
3'-3 '
23.80 3°
68.1 ^
Q
30.5
52.48 \l
50.98 °
58.1 1
44-29 :,
33.6 'A
24-04 l^
68.9 ,^
Feb. 9.5
52.60 "
51-13 '^
58.3 '
44.62 " 1 36.2 -^
24.21 y
70.0 ' '
8
14
9
5
18
27
II
14
19.5
52.68
10.6
51.22
58.8
44.80
38-9 ,„
24.32
71-4 ,^
Mar. 1.5
53.71 3
II.8 "
5x26 ^
59-5 I
60.3 *
44.82
41.7 '?
44-5:'
24-36 ;
72.9 5
74-5 ,
H.4
52.70
12.7 9
5125
44-69 „
24-35 ^
24.29
21.4
52.65 5
52-57 .„
13-4 I
51.20 ^:6i.2 ^
44-42 7
47.1 1\
76.2 7
77.8 '^
31.4
13.8 ^
51. II ^
62.2 '"
44.03 39
49.4 '3
24.18
10
2
II
9
48
19
14
>4
Apr. 10.4
52.47 „
14.0
5100
63.1
43.55 .^
5'-3 .,
24.04 ,,
79-2
2a3
52.35 "
14.0
50.87 \l
64-0 I
43.00 55
5^-8 0
23-87 ^
23.69 ]l
23.33 ,^
80.4 ' '
30.3
52.23
13.9 ,
50.73 '^
64.8 I
65-4 J
42.41 ^^
53.8 •"
81.4 ■°
May 10.3
52.H "
10
13.6 3
50.59 ,J
41.20
57
54-3 I
82.1 '
2a2
51.99
II
13.1 I
50.45 ^
12
65-9 '
0
54-3 ^
82.5 1
30.2
51.88
12.5 ,
50.33 ,^
66.2
40.63
53-8
23.17
82.6
June 9.2
51.79 ,
II.8 7
as
50.23
50.15 °
50.09
66.3 1
40.10 53
52.7
23.03 |7
82.4 I
19.2
51.72 I
10.3 °
66.2 '
39.64 \l
5'-^ '
22.92
81.9 ^
29.1
51.67 I
66.0 ^
39.26 ^
49-=» ?
22.83 I
81.1 *
July 9.1
51.64 3
9-4 '
50.06 ^
65.6 I
38.97 ]^
46.8 4
22.77
80.0 "
I
9
0
6
19
27
2
13
19.1
51.63 .
^•5 0
50.06
65.0
64.2 I
38.78 ^
4*-' ,«
22.75 ,
7^-7 .6
29.1
51.65 I
7.6 1
6.8 *
mm
50.09 ^
38.69 ^
41.2 '
22.76
77-1 «
Aug. 8.0
51.69 *
50.14 I
50.22
63.3 '
38.70 '
38-0 3
22.81 5
75-3 '
18.0
51-76 ,;
^' I
62.2 "
38.82 "
34-7 ^^
22.90 ^
73.4 "
28.0
51.86 °
5.5 '
50.33 "
61.0 "
39.05 !^
31-4 33
23-03 11
71.4 °
13
3
15
14
34
34
16
23
Sept. 6.9
5'-99 ,.
52-^5 *
5-2 ,
50.48 ,«
50.66 '*
59.6 ,^
39-39 ,,
28.0
23.19 ,^
692 ^,
16.9
5-»
58-^ 6
565 «
39.83 tl
24-7 33
20
23-39 ,,
66.9 '3
26.9
52.34 ,;
5-2 !
50.87 11
40.37 ^^
21.5 f
23-63 '4
64.6 3
Oct. 6.9
52.56 "
5-6 «
5^-^2 ,«
54-7 '*
41.00 3
18.5 3°
28
23.91 _
62.2 ^4
16.8
5-«^ :'«
6.4 *
II
51.40'^
30
52.8 '9
'9
^'•7^ 80
15.7 ''
25
11
24.22 '*
35
59., :j
26.8
53.09 „
7-5 ,,
51.70
50 9 .„
42-52 ^,
13-2
24-57 -g
57.6,
Nov. 5.8
53.39 ;,
8.9'*
52.03 11
490 '
^3-38 ;^
II. I "
24-95 3
55-5 :
15.8
53.71 3^
10.6 '7
52.38 35
47.1 *'
44.29 9
9.5'''
25-36 ;^'
53.6 '9
^ 25.7
54.04^:
"•5 ^0
52.75 ;;
45.3 ;
45.23 l"]
8.4"
25.78 ^^
5^-9 I
Dec 5.7
54.38 34
»4-5 ,°
53- 1 2 ^7
43-6 '7
46.17 ^^
7-8 ^
26.20 ^
SO-5 '*
33
22
36
'4
92
0
42
10
15.7
54.71 „
16.7
53.48 ,^
42-2
47.09 a.
7.8 ^
26.62
49.5 ,
25.6
55.02 1'
55.30 ^"
19.0 ^
53.83 ^^
41.0 "
47.96 ;7
8-3,^
27.02 4°
48-9 I
35.6
21.2
54.15 ''
40.1 '
48.75 ^^
9.4"
27.39 37
48.7 '
SitS,TiLnS
1.002 -0.067
I.I 17 +0.497
3478 +3.331
1.335 +0.884
Hen Place
5i".o38 6".43
49«.o87 61 ".96
37*.874 37".77
2i*.658 73".82
lK^«,Dwa
0.00 0.00
•to.oi 40.03
+0.05 +0.19
+0.01 +0.05
D^S.JKS
^.3 +0.5
-0.3 40.5
-0.3 +0.5 \ -o.^ ^0,^
1913
24
t
Sl>bi3]
♦'•
• %•
370
APPARENT PLACES OF STAES, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.6
I0.6
20.6
Feb. 9.5
195
Mar. 1.5
1 1.4
21.4
314
Apr. 10.4
20.3
30.3
May 10.3
20.3
30.2
June 9.2
19.2
29.1
July 9.1
19.1
29.1
Aug. 8.0
18.0
28.0
Sept. 7.0
16.9
26.9
Oct. 6.9
16.8
26.8
Nov. 5.8
158
257
Dec. 5.7
15.7
25-7
35.6
Sec d, Tan 6
Mean Place
D'f a, Dm a
^ Argtls.
Mag. 3.7
Right
Ascension.
h m
9 53
49.14
49.46
49.72
49.91
50.03
50.08
5005
49.96
49.82
4963
49.40
49.14
48.86
48.58
48.30
48.02
47.76
47.52
4730
47.12
46.98
46.89
46.84
46.85
46.92
47-05
4723
47.48
47.79
48.15
48.55
48.99
49.45
49.92
50.39
50.84
51.25
51.61
32
26
19
12
5
3
9
14
19
23
26
28
28
28
28
26
24
22
18
14
9
5
I
7
13
18
25
31
36
40
44
46
47
47
45
41
36
Dedina-
tion S.
-54 8
//
56.0
59.5 li
63.1 ^^
66.8 ^l
70.6 3*
37
74-3
77.8 ^5
81. 1 ^^
86.6 '^
22
88.8
90.5^^
91.8 'I
92.6 *
92.9
92.7
92.0
90.8
89.2
87.3
85.0
82.5
79.8
77.0
74.2
71.6
69.2
67.1
65.5
64.4
3
2
7
12
16
19
23
25
27
28
28
26
24
21
16
II
6
63.8
63.8 ^
64.5 ^
65.8 '^
67.7 '^
25
70.2
76.3 ^'
29
1.708
48*.353
-1.384
72".68
).02
>-3
-0.08
+0.5
Tt LeonlB.
Mag. 4.9
Right
Ascension.
h m
9 55
s
37.89
38.17
38.40
38.59
38.73
38.82
38.86
38.86
38.82
38.75
38.66
38.55
38.43
38.31
38.20
38.09
38.00
37.93
37.87
37.84
37.83
37.85
37.89
37.96
38.06
38.18
38.33
38.52
38.74
38.99
39.27
39.57
3990
40.24
40.58
40.91
41.23
41.53
28
23
19
14
9
4
o
4
7
9
II
12
12
II
II
9
7
6
3
I
4
7
10
12
15
19
22
25
28
30
33
34
34
33
32
30
Declina-
tion N.
+ 827
//
44.7
43.1
41.7
40.6
39.7
39.0
38.6
38.4
38.4
38.6
38.9
39.3
39.7
40.2
40.7
41.2
41.7
42.2
42.6
43.0
43.3
43.5
43.6
43.6
43.4
43.0
42.4
41.6
40.6
39.4
37.9
36.2
34.4
32.5
30.5
28.6
26.7
24.9
16
14
II
9
7
4
2
o
2
3
4
4
5
5
5
5
5
4
4
3
2
I
o
2
4
6
8
10
12
15
17
18
19
20
19
19
18
1. 01 1 +0.149
37' 031 43".48
0.00 +0.01
-0.3 +0.5
ff Leoali.
Mag. 3.6
Right
Ascension.
h m
10 2
s
36.34 ,^
36.63 II
36.88 ^5
21
37.09
37.25
37.35
37.40
37.41
37.37
37.30
37.20
37.09
36.97
36.85
36.73
36.62
36.52
36.44
36.38
36.35
36.34
36.35
36.39
36.45
36.54
36.66
36.82
3701
37.23
37.48
37.76
38.07
38.40
38.75
39.10
39.45
39.78
40.09
16
10
5
I
4
7
10
II
12
12
12
II
10
8
6
3
I
4
6
9
12
16
19
22
25
28
31
33
35
35
35
33
31
Dcdina-
tionN.
+ 17 10
//
73.1
71.9
71.0
70.3
69.9
69.8
69.9
70.2
70.7
71.3
72.0
72.7
73.3
73.9
74.4
74.9
75.3
75.6
75.7
75.7
75.6
75.3
74.9
74.4
73.7
72.8
71.7
70.4
69.0
67.4
65.6
63.7
61.8
59.9
58.0
56.2
54.6
53.2
12
9
7
4
I
I
3
5
6
7
7
6
6
5
5
4
3
I
o
I
3
4
5
7
9
I
3
4
6
8
9
9
9
9
8
6
4
1.047
35'.4o6
•♦0.309
74".47
0.00
-0-3
+0.02
+0.5
a Leonis.
Mag. 1.3
Right
h na
10 3
s
"^5-29 ,„
45.58 II
46.03 ^^
46.18 '5
tionN.
46.28
46.33
46.34
46.31
46.24
46.15
46.04
45.92
45.80
45.68
45.57
45 .4»
45.41
45.35
45.31
45.29
45.30
45.34
45.40
45.49
45.61
45.76
45.94
46.15
46.40
46.68
46.98
47.30
47.64
47-99
10
5
I
3
7
9
XI
12
12
12
II
9
7
6
4
2
4
6
9
12
15
18
31
25
28
30
32
34
35
34
4».33 „
48.66 33
48.963®
+1223
//
34.0
32.5
31.3
30.4
29.7
29.3
29.1
29.1
29.3
29.7
30.2
30.7
31.2
31.S
32.3
32.8
33-3
33.7
34.0
34.2
34.3
34.3
34.2
33.9
33.4
32.8
32.0
31.0
29.8
28.4
26.8
25.0
23.1
21. 1
19.2
15
12
9
7
4
2
0
2
4
5
5
5
6
5
5
5
4
3
2
I
0
I
5
5
6
8
10
12
I*
16
18
19
20
19
19
T7.3 ,g
13.9
1.024 .K>.aao
44'.428 34".io
aoo
-0.3
APPAEENT PLACES OF STARS, 1913
371
FOR THE UPPER TRANSIT AT WASHINGTON.
Date.
Jan. 0.6
I0.6
20.6
30.6
Feb. 9.5
19-5
^lar. 1.5
21.4
31.4
Apr. 10.4
20.3
30.3
May 10.3
20.3
30.2
June 9.2
19.2
29.2
July 9.1
19.1
29.1
Aug. 8.0
18.0
28.0
Sq)t. 7.0
16.9
26.9
Oct. 6.9
16.9
26.8
Nov. 5.8
15.8
25.7
Dec. 5.7
15.7
25.7
35.6
A. Hydxae.
Mag. 3.8
Right
Aacensioa.
Declina-
tion S.
h m
10 6
21.45
21.73
21.96
22.15
22.29
22.38
22.42
22.42
22.39
22.32
22.23
22.12
22.00
21.88
21.76
21.64
21.54
21.45
21.38
21.33
21.30
21.30
21.32
21.37
21.44
28
23
19
14
9
4
o
3
7
9
II
12
12
12
12
10
9
7
5
3
o
2
5
7
II
14
Sectf.Tan^
Mean Place
IK^a,D»a
21.55
21.69
21.86 '7
22.07 ^'
22.31 ^^
22.58
22.88 3°
23.20 ^^
23.53 1]
23.87 ^^
33
24.20
24.82 30
-II 55
//
18.4
20.9
23.4
25.7
27.8
29.7
313
32.7
33.8
34.7
35.3
35.7
35.8
35.7
35.4
34.9
34.2
33.4
32.4
31.3
30.1
28.9
27.7
26.6
25.7
24.9
24-3
24.0
24.1
24-5
25
25
23
21
19
16
»4
II
9
6
4
I
I
3
5
7
8
10
II
12
12
12
II
9
8
6
3
I
4
8
g Velonua.
Mag. 4. 1
12
25.3
26.5
28.0 '5
29.0
319
21
23
34-2
36.6
39- 1
24
25
1.022
2o».8o5
-0.21 1
25".oo
Riffht
Ascension.
0.00
-0.3
-0.0 1
+0.5
h
10
s
5.39
570
5.96
6.16
6.30
6.38
6.41
6.38
6.31
6.20
6.05
5.88
570
551
5.32
5.13
4.95
4.78
4.64
452
4.42
4.36
4.33
4-34
4.40
450
4.64
4.83
5.07
5.35
5.68
6.04
6.42
6.82
7.22
7.61
7.98
8.31
m
II
31
26
20
14
8
3
3
7
II
15
<7
18
19
19
19
18
17
14
12
10
6
3
I
6
10
14
19
24
28
33
36
38
40
40
39
37
33
Declina-
tion S.
-41 41
//
II.8
15.0
18.4
21.9
25.3
28.6
31.7
34.6
37.2
39.5
41.4
42.9
44.0
44-7
44-9
44-7
44.1
43- 1
41.7
40.0
38.0
35.8
33-5
31. 1
28.7
32
34
35
34
33
3»
29
26
23
19
15
II
7
6
10
14
17
20
22
23
24
24
22
20
26.5
^^•5 17
22.8 '7
13
21.5
20.7
20.4
20.6
21.4
22.7
24.6
27.0
29.8
32.9
8
3
2
8
13
19
24
28
31
88 Urue Majoxls.
Mag. 5.7
Right
Ascension.
57
h m
10 II
46.78
47-35 ,^
47.85 ^°
48.26 4'
48.56 3°
19
48.75
48.83
48.80
48.67
48.46
48.18
47.85
47.48
47.09
46.70
8
3
13
21
28
33
37
39
39
38
46.32
45.97 .^
45.66 ^'
27
45.39 ^
45.18
35
21
'•339
4".835
-0.891
26". 10
-0.0 1 -0.05
-0.4 +0.5
(Bph 15]
45.03
44.95
44.93
44.98
45.10
45.30
45.57
45.92
46.33
46.81
47.35
47.95
48.59
49.26
49.94
50.62
51.27
51.88
15
8
2
5
12
20
27
35
41
48
54
60
64
67
68
68
65
61
Declina-
tion N.
+65 32
//
23.3
24.2
25.6
27.5
29.7
9
14
19
22
24
26
26
32.1
34.7
37.3
39.8 ^5
42.1 ^3
21
44.2
45.9
47.2
48.1
48.4
48.2
47.6
46.5
45.0
43.1
40.8
38.2
35.4
32.3
29.1
25.9
22.6
19.4
16.3
13.3
10.6
8.3
6.3
4.7
3.6
3.1
3.1
3.7
17
13
9
3
2
6
II
15
19
23
26
28
31
32
32
33
32
3»
30
27
23
20
16
II
5
o
6
C Leonis.
Mag. 3.6
Right
Ascension.
h
10
m
II
s
52.26
52.57
52.84
53.06
53.23
53.35
53.42
53.43
53.40
53.33
31
27
22
17
12
7
I
3
7
9
II
12
53.24
53.13
53.01
52.88 '^
52.75 '^
2.415 +2.198
43"-864
34".32
+0.03
-0.4
+0.13
+0.5
52.63
52.53
52.44
52.37
52.32
52.30
52.30
52.33
52.39
52.47
52.59
52.74
52.92
53.14
53.39
53.68
54.00
54.34
54.70
55.06
55.42
55.77
56.10
12
10
9
7
5
2
o
3
6
8
12
15
18
22
25
29
32
34
36
36
36
35
33
Declina-
tion N.
+ 23 50
//
61. 1
60.1
59.5
59.2
59.2
59.5
60.0
60.7
61.5
62.4
63.4
64.3
65.2
65.9
66.5
66.9
67.2
67.3
67.2
67.0
66.6
66.0
65.2
64.2
63.1
61.8
60.3
58.7
56.9
55.0
53.0
51.0
49.0
47.0
45.1
43.4
42.0
40.8
10
6
3
o
3
5
7
8
9
10
9
9
7
6
4
3
I
6
8
10
II
13
15
16
18
19
20
20
20
20
19
17
14
12
1.093
5i*.269
+0.442
64".6i
40.0I
+0.03
372 APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT
APPARENT PLACES OF STARS, 1913. 373
TOR THB UPPER TRANSIT AT WASHINGTON.
374
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.7
10.6
20.6
30.6
Feb. 9.6
19-5
Mar. 1.5
21.4
314
Apr. 10.4
20.4
30.3
May 10.3
20.3
30.3
June 9.2
19.2
29.2
July 9.1
19.1
29.1
Aug. 8.1
18.0
28.0
Sept. 7.0
17.0
26.9
Oct. 6.9
16.9
26.8
Nov. 5.8
15-8
25.8
Dec. 5.7
15.7
257
35.7
9 H. Draconis.
Mag. 5.0
Right
Ascension.
Declina-
tion N.
h ni
10 27
-f-76 9
Sec 6, Tan 6
Mean Place
D V a, Dw a
49.02
49.96
50.79
51.47
51.99
52.32
52.47
52.44
52.24
51.88
51.39
50.79
50.11
49.38
48.63
47.89
47.18
46.53
45.95
45.46
45.07
44.80
44.64
44.60
44.69
44.91
45.27
45.75
46.35
47.07
47.90
48.83
49.83
50.89
51.98
53.07
54.^3
55.13
94
83
68
52
33
15
3
20
36
49
60
68
73
75
74
71
65
58
49
39
27
16
4
9
22
36
48
60
72
83
93
100
106
109
109
106
I
100
28.8
29.9
31.5
33.6
36.1
38.8
41.7
44.6
47.4
50.0
52.3
54.2
55.7
56.7
57.1
56.9
56.2
55.0
53.3
51.2
48.6
45.7
42.6
39.2
35.7
II
16
21
25
27
29
29
28
26
23
19
15
10
4
2
7
12
17
21
26
29
31
34
35
36
36
35
32.1
28.5
25.0
21.6^^
18.4 ^^
15.5
13.0
10.9
9.3
8.2
7-7
7.8
8.6
29
25
21
16
II
5
I
8
4.180 +4.059
44".oii 4i".87
p Leonis.
Mag. 3.8
Right
Aacenskm.
h
10
m
28
s
4.63
4.93
5.19
5.41
5.58
5.71
5.79
5.82
5.81
5.77
5.70
5.61
5.50
5.39
5.28
5.18
5.08
4.99
4.92
4.87
4.84
4.83
4.84
4.88
4.94
5.03
5.16
5.32
5.51
5.73
30
26
22
17
13
8
3
I
4
7
9
II
II
II
10
10
9
7
5
3
I
I
4
6
13
16
19
22
26
Declina-
tion N
5-99 ,^
6.28 '9
6.60^^
6.93 ^^
7.27
34
34
7.61
7.95
8.27
34
32
+ 9 44
0f
76.4
74.7
73.3
72.1
71.2
70.6
70.2
70.0
70.1
70.4
70.8
71.2
71.7
72.3
72.9
73.4
73.9
74.4
74.8
75.1
75.4
75.5
75.5
75.3
75.0
74.5
73.8
72.9
71.7
70.3
68.7
67.0
65.1
63.0
60.9
58.9
57.0
55.2
17
14
12
9
6
4
2
I
3
4
4
5
6
6
5
5
5
4
3
3
I
o
2
3
5
7
9
12
14
16
17
19
21
21
20
19
18
88 Seztantis.
Mag. 6.4
+0.04
^4
+0.25
+0.4
1.015 +0.172
I3*.9i2 76". 80
Right
Ascension.
Declina-
tion S.
h
10
m
36
0.00 +0.01
-0.4 +0.4
[Bph xj]
8
59.20
59.49
59.75
59.97
60.15
60.28
60.36
60.39
60.39
60.36
60.30
60.21
60.11
60.01
59.90
59.80
59.70
59.61
59.54
59.48
59.44
59.42
59.42
59.44
59.49
59.57
59.68
59.83
60.01
60.23
29
26
22
18
13
8
3
o
3
6
9
10
10
II
10
10
9
7
6
4
2
o
2
5
8
II
15
18
22
25
28
60.48
60.76
61.06^''
61.39 ^^
61.73 '^^
34
62.07
62 40 ^^
62.71 ^^
- I 16
ft
58.8
60.9
62.9
64.7
66.3
67.6
68.7
69.5
70.1
70.4
70.5
70.5
70.3
70.0
69.6
69.1
68.6
68.0
67.3
66.6
65.9
65.3
64.7
64.2
63.9
63.8
63.9
64.2
64.8
65.6
66.8
68.3
70.0
71.9
74.0
76.2
78.4
80.6
21
20
18
16
13
II
8
6
3
I
o
2
3
4
5
5
6
7
7
7
6
6
5
3
I
I
3
6
8
12
15
17
19
21
22
22
22
41 Leonis Minoris.
Mag. 5.0
Right
Ascension.
h
10
8
42.17
42.49
42.78
43.02
43-22
43.37
43.46
43.50
43.50
43.46
43.39
43.29
43.18
43.06
42.94
42.82
42.71
42.61
42.53
42.46
42.41
42.39
42.39
42.42
42.48
42.57
42.69
42.84
43.03
43.26
m
38
32
29
24
20
15
9
4
o
4
7
10
II
12
12
12
II
10
8
7
5
2
o
•3
6
12
15
19
23
26
Declina-
tion N.
+2338
43-52
43.82 3°
44.15 ^^
1. 000 -0.022
58V629 6i".36
0.00
-0.4
0.00
+0.4
44.50
44.86
45.22
45.58
45.92
35
36
36
36
34
f*
34.2
33.1
32.3
31.8
31.7
31.9
32.4
33.1
33.9
34.9
35.9
36.9
37.9
38.8
39.5
40.1
40.5
40.7
40.8
40.6
40.2
39.7
39.0
38.0
36.8
35.5
34.0
32.3
304
28.4
26.3
24.1
21.9
19.7
17.7
15.8
14.2
12.8
II
8
5
I
2
5
7
8
10
10
10
10
9
7
6
4
2
I
2
4
5
7
10
12
13
15
17
19
20
21
22
22
22
20
19
16
14
1 .092 +0.438
41" 307 39" 08
0.00
-0.4
+0.03
.+0.3
APPARENT PLACES OF STABS, 1913
375
FOR THE UPPER TRANSIT AT WASHINGTON.
1
(f Arftls.
42 Leonis Minoris.
7 Aigds.
M AigtLs.
1
Mag. 3.0
Mag. 5.4
Var. 1.6-6.6
Mag. 2.8
1 Mean Solar
1 Date.
1
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion S.
Ascension.
tion N.
0 /
Ascension.
tion S.
Ascension.
tion S.
h m
0 /
h m
h m
0 *
h m
0 /
10 39
-6356
10 41
+ 31 7
10 41
-59 13
10 43
-4857
Jan. 0.7
s
5133
1.4
2^83
80.1
s
41.27
18.9
s
'•76
21.9
10.6
51.80^7
4.5^'
3.17 ^^
79.2 9
41.69^'
22.0 ^
2.13 37
25.0 ^
20.6
52.20 ^^
7.93*
3.48 ''
78.7 5
42.06 ''^
25.4 ^;J
2-44^'
28.3 33
30.6
12
52.52 I
11.6 37
3-74 '
78.7 ^
42.36 3°
29.1 ,fi
^•70 11
31.8 ^5
Feb. 9.6
52.75 ,^
15.5 39
21
3.95 ,'
79.0 ^
42.58 ^^
32.9 ^'
^ ^^ 20
^•90 _
35-4 ^'
f
14 39 i
15
6
14
38
13
36
195
52.89 ,
52.95 .
23.2 38
4.10
79.6
42.72
42.78 ^
36.7 „
3-03 ,
390
Mar. 1.5
4.20 '^
80.5 9
w «
44°,,
3.10 ;
42.5 35
11.5
52.92 ,f
26.9 ^7
4.25 ^
81.6 "
42.77 „
42.69
3" ]
45.8 33
21.4
52.81 •
-52-63 1:
30.4 ^5
4.25 ^
82.9 '3
47.4 \'
3.07 I
48.8 3°
5^-6 '!
314
33.6 ^^
4.20 5
84.2 |3
42-55 ^
50.5 ^!
2.98 9
24
29
8
14
»9
27
13
24
Apr. 10.4
52.39 ,„
36.5 ^^
4.12
856 ,^
42.36
53-2 ,^
2.69 '^
54.0 ,„
20.4
52.10 '
39.0 ^
4.02 '°
86.9 3
42.13 3
55-6 ':^
-/: ^ 20
56.0 ,
30.3
5'*' 38
390 "
88.0 ' '
41.86 =^7
57.5 ^
2.51 ^'
57.6 ^^
May 10.3
42.6
376 1
89.0 '°
89.8 I
41.57 "^^
59.0 ,^
^ ^^ 21
^•30 ^^
58.8 ^^
20.3
43.7 ';
3.62 ;j
41.26 3»
32
60.0'°
5
2.08 "
22
59-5 ;
30.3
50.66
50.28 J
49.90 ,,
44.3 „
3-49 ,,
90.4
40.94 ,,
60.5
1.86
59.8 ^
June 9.2
44.3 °
3-37 „
90.7 3
40.63 3^
60.4
1.65 "
59.6 \
590
19.2
43-8 5
3.26 "
90.8 •
40.33 't^
59.9 ,x
'•44 "
29.2
49.54 ;.
4^-8 !
3.08 ^
90.6 I
39.78 ll
23
20
1.06 '8
IS
57-9 ,^
July 9.1
49.21 ■^i
^^ 28
4-4 ;:
90.2 *
7
57.5 '^
19
5^-5 :^
19.1
48.93 „
39.5 ,,
3.03
89.5 „
39.55 ,^
55-6
0.91 ,,
54-7 „
29.1
48.70 '^
48.52 ^
37.3
3.00 3
88.6 9
39.36 [I
53.4 "
079 a
52.6
Aug. 8.1
34.8 I'
3.00 °
87-5 !!
39.22 ^
39.14 ,
50.9 5
0.71 "
50.3 \\
18.0
48.41 "
32-' !I
3.02
86.1 '4
84-5 ;S
48.2 7
0.67 4
47.8 5
28.0
48.37 t
292 z
3.07 5
39.12
45-5 ,1
0.67 °
45-3 \\
5
29
9
18
5
28
5
25
Sept. 7.0
48.42 ,,
20.9
3-»6
82.7
39.17 ,.
42.7 „
0.72 „
42.8
17.0
48.55 11
3-2« 6
80.8 '9
3929
40.0 "7
0.83
40.5 ^
26.9
4»-77 "
3-44 '
78.7 11
39.49 ,^ ' 37.6 ^^
1. 00 '7
38-4
36.6 «
Oct. 6.9
49.08 3'
18.7 "
16.9 •;
3-^4 11
76.S
39.76 11 35.5 ;
1.51
16.9
49.47 ^^
3-88 ^4
74.2 '3
40.10 34 33.8 7
35-3 a
46
13
28
24
40 12
33
0
26.8
49.93 ,,
15.6
4-16
7^-8 „
^^•50 32.6
40.96 4 32.0
1-84 „
34-5 _
Nov. 5.8
50.45 11
14.9 7
4-47 ^:
69.4 t
2.21 ^7
34.2 ^
15.8
51.02 5'
14.8 '
4.81 34
67.1 *3
41.46 5^ 32.0 ?
2.62 ^'
34.5 ^
25.8
51.62 ^
15.3 ^
5-17 't
64.9 "
41.9953
32.6 °
3.06 ^4
35.4 ^
Dec. 5.7
52.22
16.5 "
5-55 3„
62.9.*°
42.53 _
33-9 'I
3-51 ti
36.8 '4
59
18
38
18
53
19
44
20
15-7
52.81
'^•3 ,,
5-93 ,„
61. I
43.06
35-8 ,,
3-95 _
38.8
25.7
53.38 57
20.6 ^^
6-31 ^'
59.7 :t
43.56 50
38-2 0
4-37 1:
4' -3 f
35.7
53.90 5
23.5 '^
6.67 3<*
58.6 "
44.02 4
41. I '9
4.77 ^"
44.2^9
Sec 6, Tan d
2.276 -2.045
1. 1 68 +0.604
1-955 -1.679
1.523 -1.149
Mtan Place | 50».959 20". 26
I -.843 86^.98
40'.95i 36".99
1V464 37".90
l>'^a,Dma\ -0.02 -0.13
40.0I +0.04
-0.0 1 -0.1 1
-0.0 1 -0.07
bfS,l}mS 1
-0.4
+0.3 1
-0.4
+0.3 1
-0.4
+0.3 '
, -o.\
Mi.->,
iBph 13]
376
APPARENT PLACES OF STARS, 1918.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.7
10.6
20.6
30.6
Feb. 9.6
195
Mar. 1.5
21.5
31-4
Apr. 10.4
20.4
30.3
May 10.3
20.3
30.3
June 9.2
19.2
29.2
July 9.2
19.1
29.1
Aug. 8.1
18.0
28.0
Sept. 7.0
17.0
26.9
Oct. 6.9
16.9
26.9
Nov. 5.8
15.8
25.8
Dec. 5.7
15.7
257
^35-7
Sec 6, Tan 6
Mean Place
D'«^a, Dm a
I Leonis.
Mag. 5.3
Right
Ascension.
31
h m
10 44
8
41.81
42.12 ^
42.40 ^^
42.63 ^^
42.82 '9
42.96
43.06
43.11
43.12
43.09
10
5
I
3
6
43.03
42.95
42.85
42.75
42.64
42.54
42.44
42.35
42.27
42.21
42.17
42.14
42.14
42.16
42.21
42.29
42.40
42.54
42.71
42.92
43.17
43-45
43.76
44.09
44.43
44.78
45.12
45-44
8
10
10
II
10
10
9
8
6
4
3
o
2
5
8
II
14
17
21
25
28
31
33
34
35
34
32
Declina-
tion N.
+ 10 59
/f
79.2
77.5
76.1
75.0
74.1
73.5
73.2
73.1
73.2
73.5
74-0
74.6
75-2
75.8
76.4
77.0
77.5
78.0
78.4
78.7
78.9
78.9
78.8
78-5
78.1
77.5
76.7
75-7
74-5
730
71.3
69.5
67.5
65.4
63.3
61.2
59-2
57-4
17
14
II
9
6
3
I
I
3
5
6
6
6
6
6
5
5
4
3
2
o
I
3
4
6
8
10
12
15
17
18
20
21
21
21
20
18
<^' Cliaiiueleon.
Mag. 4.6
Right
Ascension.
1. 019 +0.194
4iVi6o 8o".70
h m
10 44
0.00
^4
+0.01
+0.3
59.29
60.32
61.19
61.87
62.34
62.59
62.63
62.47
62.12
61.59
103
87
68
47
25
4
16
35
53
69
60.90
60.07
58.08 '^4
56.98"^
83
95
55.83
54.67
53-52
52.41
51.38
50.46
49.67
49-04
48.59
48.34
48.31
48.51
48.94
49.59
50.45
51.48
52.66
53-95
55.30
56.67
58.01
59.27
60.40
115
116
115
III
103
92
79
63
45
25
3
20
43
65
86
103
118
129
135
137
134
126
113
Declina-
tions.
-80 4
/f
31.8
34.7
38.0
41.6
45.4
49.3
53.3
57.2
61.0
64.6
29
33
36
38
39
40
39
38
36
33
^7-9 ,„
70.8 ^9
73.3 ^^
75.4
76.9
21
15
10
77.9
78.3
78.2
77.6
76.4
74.7
72.6
70.1
67.4
64.5
61.5
58.5
55-6
53-0
50.8
49.0
47.8
47-2
47-3
48.1
49-5
51-5
54-0
4
I
6
12
17
21
25
27
29
30
30
29
26
22
18
12
6
I
8
14
20
25
5.806 -5-719
58».640 52^.70
-005 -0-36
-0.4 +0.3
IBph 13]
y Hydm.
Mag. 3.3
Right
Ascension.
h
10
m
45
s
20.27
20.57
20.84
21.07
21.25
21.38
21.46
21.50
21.50
21.47
21.41
21.33
21.23
21.12
21.01
30
27
23
18
13
8
4
o
3
6
8
10
II
II
'II
20.90
20.79 "
20.69 '"^
20.60 ^
20.53 I
20.47
20.43
20.41
20.42
20.46
20.53
20.63
20.77
20.95
21.16
21.41
21.69
22.00
22.33
22.67
23.02
23-36
Declina-
tions.
46 Leonis Minods.
Mag. 3.9
Right
Ascension.
-1544
//
9.7
12.2
14.8
17.3
19.6 ^3
25
26
25
4
2
I
4
7
10
14
18
21
25
28
31
33
34
35
34
21.7
23.6
25.3
26.7
27.9
28.8
29.4
29.8
29.9
29.8
29.5
29.0
28.3
27.4
26.3
25.2
24.0
22.7
21.5
20.4
19.4
18.6
18.I
17.9
18.I
21
19
17
14
12
9
6
4
I
I
3
5
7
9
I
I
2
3
2
I
o
8
5
2
2
5
23.68 ^^
18.6
19.5 ,1
20.8 '3
22.5 ^7
24.5 '°
22
26.7
29.1 ^^
31.6 "5
1.039
19*858
0.00
-0.4
-0.282
i6".54
-0.02
+0.3
m
h
10 48
28.04
28.40
28.72
29.00
29.22
29.39
29.50
29.56
29.56
29.52
29.44
29.34
29.21
29.07
28.92
28.78
28.65
28.53
28.42
28.33
28.26
28.22
28.21
28.22
28.26
36
32
28
22
17
II
6
4
8
10
13
14
15
14
13
12
II
9
7
4
I
I
4
8
28.34
28.46
28.62
28.82
29.06 ^^
12
16
20
29.33
29.64
29.99
30.36
30.75
31.15
31.54
31.91
27
31
35
37
39
40
39
37
DecUna-
tionN.
+3440
ff
54.9
54.1
53.8
53.9
54.3
55.1
56.2
57.5
59.0
60.5
62.0
63.4
64.7
65.8
66.7
67.3
67.6
67.6
67.4
66.9
66.1
65.0
637
62.1
60.3
58.3
56.2
53-9
51-5
49.0
46.5
44.0
41.6
39-3
37-2
35.5
34-1
33.1
8
3
I
4
S
II
15
15
15
14
13
II
9
6
3
o
2
5
S
I
3
6
8
1. 216 40.693
27*.oi9 63".i6
40.0I
-0.4
40.04
+0.3
APPARENT PLACES OF STARS, 1913
377
FOR THE UPPER TRANSIT AT WASHINGTON.
fUnSolut
Dtte.
Jan. 0.7
10.6
20.6
306
Feb. 9.6
Mar. 1.5
21.5
31-4
Apr. 10.4
20.4
30.3
May 10.3
20.3
30.3
June 9.2
19.2
29.2
July 9.2
19.1
29.1
Aug. 8.1
18.0
28.0
Sept. 7.0
17.0
26.9
Oct. 6.9
16.9
26.9
Nov. 5.8
15.8
25.8
Dec 5.7
157
25-7
35.7
M LeonU.
Mag. 4.5
Ri£ht
Seed, Tan ^
Mean Place
J)' fa. Dm a
Dfd,DmS
h m
10 50
8
55.13
55.46
55.76
56.02
56.23
56.39
56.50
56.55
56.56
56.53
56.47
56.38
56.27
56.15
56.03
55.91
55.80
55.70
55-61
55.53
55.47
55.44
55.43
55-45
55.49
55.56
55.67
55.81
55.99
56.21
33
30
26
21
16
II
5
I
3
6
9
II
12
12
12
II
10
9
8
6
3
I
4
7
II
14
18
22
26
29
56.47
56.76 ^,
57.08 3^
57.43 ^^
57.79
58.16
58.52
58.87
36
37
36
35
Declina-
tion N.
+25 12
/f
44.7
43.5
42.7
42.3
42.2
42.4
42.9
43.7
44.7
45.8
46.9
48.0
49.1
50.1
50.9
51.5
51.9
52.2
52.3
52.1
51.7
51. 1
50.3
49.3
48.0
46.5
44.9
43.1
41. 1
39.0
36.8
34.5
32.2
29.9
27.8
12
8
4
I
2
5
8
10
II
II
II
II
10
8
6
4
3
I
2
4
6
8
10
13
15
16
18
20
21
22
23
23
23
21
19
t Anthm.
Mag. 4.7
Right
Ascension.
25.9
24.2
22.8 '^
17
h m
10 52
s
40.18
40.51 "^^
40.80 ^9
41.05 ^5
41.25
20
14
9
4
I
5
8
1. 105 +0.471
54-.306 50^.57
0.00
-0.4
+0.03
•K).3
41.39
41.48
41.52
41.51
41.46
41.38
41.27
41.14
41.00
40.85
40.70
40.55
40.40
40.26
40.13
40.02
39-94
39.89
39.87
39.88
5
39.93
40.02 ^
40.16 '^
40.35 11
40.58 II
40.86
41.18 ^^
41-53
41.91
42.30
3
4
5
5
5
5
4
3
I
8
5
2
I
35
38
39
39
42.69
4307
43.42
38
35
Declina-
tion S.
Oroombridge 1706.
Mag. 6.3
-3639
//
61.7^°
64.8 ^"
68.0 3^
71.2 3^
31
74.3
77-3 11
80.1 ^^
82.6 ^5
84.9 ""^
20
86.9
88.5
89.7
90.6
91. 1
16
12
9
5
I
Right
Ascension.
3
6
10
91.2
90.9
90.3
89.3
88.0 '3
16
86.4
84.6
82.6
80.6
78.6
18
20
20
20
20
19
16
76.6
74-7
731
71.8 '3
70.9 ?
70.5
70.6
71.2
72.3
73.9
76.0
78.5
81.3
I
6
II
16
21
25
28
1.247 -0.745
39-.923 7i"-58
-o.oi -0.05
-0.4 +03
[Eph X3I
h
10
m
53
s
7.09
8.23
9.25
lO.II
io.8o
11.29
11.57
11.63
11.48
11.15
10.65
10.00
9.24
8.40
7.52
6.63
5.75
4.91
4.14
346
2.89
2.44
2. II
1.92
1.88
1.99
2.25
2.67
3.24
3.96
114
102
86
69
49
28
6
15
33
50
65
76
84
88
89
88
84
77
68
57
45
33
19
4
II
26
42
57
72
85
Declina-
tion N.
+7813
//
8
14
19
56.4
57.2
58.6
60.5
62.8 ^3
27
65.5
68.4
71.4
74.3
77.1
79.6
81.8
83.5
84.7
85.4
29
30
29
28
25
22
17
12
7
2
4
10
15
85.6
85.2
84.2
82.7
80.8 '9
24
78.4
75.6
72.5
69.2
65.6
28
31
33
36
37
61.9
58.2
54.5
50.9
47.5
37
37
36
34
32
98
4.81
5-79 ^^
6.88 '°9
8.05 "7
9.28^^3
125
'^•53 ,,,
11.76 "3
12.94
44.3
41.5
39.1
37.2
: 35.8 't
28
24
19
118
8
35.0
34.8
35.2
4.904
i'.693
44.801
7 1 "48
■fo.04
-0.4
■K>.3i
•K).3
01 Crateris.
Mag. 4.2
Right
Ascension.
h m
10 55
32.39
32.70
32.98
33.22
33.41
33.55
33.64
33.69
33.70
33.67
33.62
33.54
33.44
33.34
33.23
3312
3301
32.90
32.80
32.72
32.66
32.61
32.58
32.58
32.60
32.65
32.74
32.87
33.04
33.25
31
28
24
19
14
9
5
I
3
5
8
10
10
II
II
II
II
10
8
6
5
3
o
2
5
9
13
17
21
24
28
33.49
33.77 __
34.08 l[
34.41 ^^
34.75
34
35
35.10
35.44
35.77
34
33
Declina-
tions.
e /
1750
//
26
26
0.4
3.0
5.6
8.1 ^5
10.5
12.8
14.9
16.7
18.3
19.6
20.6
21.3
21.8
22.1
22.1
21.8
21.3
20.6
9.7
8.7
7.6
6.4
5.1
24
23
21
18
16
13
10
7
5
3
o
3
5
7
9
10
II
12
13
3.8 '3
2.6'^
II
1.5
0.6
0.0
9.7
9.7
lO.I
10.9
12. 1
13.7
15.6
17.8
20.2
22.7
9
6
3
o
4
8
12
16
19
22
24
25
1.05 1
32*.054
-0.322
7".65
0.00
-0.02
378
APPARENT PLACES OF STABS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.7
10.7
20.6
30.6
Feb. 9.6
19.5
Mar. 1.5
"5
21.5
31.4
Apr. 10.4
20.4
30.4
May 10.3
20.3
30.3
June 9.2
19.2
29.2
July 9.2
19.1
29.1
Aug. 8.1
18.1
28.0
Sept. 7.0
17.0
26.9
Oct. 6.9
16.9
26.9
Nov. 5.8
15.8
25.8
Dec. 5.7
157
25.7
35-7
Sec 6, Tan 6
Mean Place
^Leonis.
Mag. 5.0
Right
Aicension.
h
10
t
4.60
4.91
5.19
543
5.62
5-77
5.87
5.93
5.95
5.93
5.88
5.81
5-73
5.64
5.54
544
5.34
5.25
5.17
510
5.05
502
501
502
5.05
511
5-21
5-34
550
570
5-94
6.21
6.51
6.83
7.17
7.51
7.85
8.17
m
56
31
28
24
19
15
10
6
2
2
5
7
8
9
10
10
10
9
8
7
5
3
I
I
3
6
10
13
16
20
24
27
30
32
34
34
34
32
Declina-
tion N.
I
+ 44
/*
65.5
63.5
61.7
60.2
58.9
57.9
57.1
56.6
56.3
56.3
56.4
56.6
57.0
57.5
58.0
58.5
59.1
59.7
60.2
60.7
61. 1
61.5
61.8
62.0
62.0
61.8
61.4
60.7
59.8
58.7
57.3
55.6
53.8
51.8
49.7
47-5
45.3
43.3
20
18
15
13
10
8
5
3
o
I
2
4
5
5
5
6
6
5
5
4
4
3
2
o
2
4
7
9
II
14
17
18
20
21
22
22
20
/3 Urtae Majoris.
Mag. 2.4
Right
Ascension.
1.003 +0.071
4'.o84 65".27
h ni
10 56
37.81
38.31
38.76
39.15
39.46
39.69
39.84
39.91
39.90
39.83
39.69
39.50
39.27
3902
38.76
3849
38.23
37.99
37.77
37.58
37.42
37.31
37.24
37.21
37.23
50
45
39
31
23
15
7
I
7
14
•
19
23
25
26
27
26
24
22
19
16
II
7
3
2
8
Declina-
tion N.
+5650
//
37.31
37-44
37.63
37.88 '5
38.18^0
13
19
43.1
43.2
43.8
44.9
46.4
48.3
50.5
52.9
55.3
57.7
60.0
62.0
63.7
65.0
66.0
66.5
66.5
66.1
65.3
64.0
62.4
60.4
58.0
55.4
52.6
I
6
II
15
19
22
24
24
24
23
20
17
13
10
5
o
4
8
13
16
20
24
26
28
30
32
32
32
D V a, Dm a
0.00
-0.4
0.00
+0.3
38.54
38.96
39.42
39.92
4045
40.99
41.52
42.04
36
42
46
50
53
54
53
52
49.6
46.4
43.2
40.0
36.8 3^
31
33-7
30.9
28.3
26.1
24.2
28
26
22
19
14
22.8
22.0
21.7
8
3
1.828 +1.531
36».032 56".40
a Vnm MaJorU.
Mag. 2.0
Right
Ascenskm.
h m
10 58
t
24.36
24.92
25.43
25.87
26.23
56
51
44
36
27
17
7
2
10
n
26.45
26.22 ^3
25.94 '^
25.63
25.30
26.50
26.67
26.74
26.72
26.62
31
33
33
24.97
24.65
24.34
24.06
23.82 ^^
32
31
28
23.62
23.46
23.35
23.30
23.31
23.38
23.52
23.73
24.01
24.35
20
16
II
5
I
7
14
21
28
34
40
47
+0.01 +0.10
-0.4 +0.3
24.75
25.22
25.75 ^^
26.32
26.91
57
59
61
27.52
61
28.13
28.71 5®
Declina-
tion N.
-1-62 12
ff
61.2
61.4
62.1
63.4
65.2
67.3
69.7
72.3
74.9
774
79.8
81.9
83.7
85.1
86.0
86.4
86.4
85.9
84.9
83.5
81.7
79.5
76.9
74.1
71.0
67.8
64.5
61. 1
57.7
544
5^.3
48.4
45.8
43.5
41.7
40.4
39.7
39.6
3
7
13
18
21
24
26
26
25
24
21
18
14
9
4
5
10
14
18
22
26
28
31
32
33
34
34
33
31
29
26
23
18
13
7
I
X Leonia.
Mag 4.7
Right
2- 145
22".2l8
+ 1.898
.ft
75 ".30
+0.01
-0.4
+0.12
40.3
h
II
t
32.36
32.67
32.95
33.19
33.39
33.55
33-66
33.72
33.74
33.73
33.69
33.62
33.53
3344
33.34
33.24
33.14
33.05
32.97
32.90
32.85
32.81
32.79
32.79
32.82
32.88
32.97
33.09
33.25
33.45
33.68
33.95
34.25
34.57
34.91
35.25
35.59
35.92
m
O
3«
28
24
20
16
II
6
2
I
4
7
9
9
10
10
10
9
8
7
5
4
3
o
3
6
9
12
16
30
23
27
30
32
34
34
34
33
Dedina-
tiooN.
H- 748
22.9
21.0 •'
8.0 *♦
6.1
5.6
5.3
5.2
5.4
5.7
6.1
6.6
7.2
7.8
8.4
9.0
9.5
20.0
204
20.7
20.9
21.0
20.9
20.7
20.3
19.7
18.8
^7-7
16.4
14.8
13.0
II. I
9.0
6.8
4.6
2.5
0.6
5
3
I
2
3
4
5
6
6
6
6
5
5
4
3
2
I
I
2
4
6
9
II
13
16
18
19
}t
22
21
19
1.009 'K>.i37
3i*.82i 24"05
0.00
-04
40.0I
40.3
APPARENT PLACES OF STARS, 1913
379
FOR THE UPPER TRANSIT AT WASHINGTON.
IfnflSofaur
Date.
Jan. 0.7
10.7
20.6
30.6
Feb. 9.6
Mar. 1.5
21.5
31.4
Apr. 10.4
20.4
30.4
^lay 10.3
20.3
30.3
June 9.2
19.2
29.2
July 9.2
19. 1
29.1
Aug. 8.1
18.1
28.0
Sept. 7.0
17.0
26.9
Oct. 6.9
16.9
26.9
Xov. 5.8
15.8
25.8
Dec. 5.8
157
25.7
35.7
p* Leonis.
Mag. 57
Right
Aaoension.
Sec*, Tan d
^iean Place
h
II
8
28.47
28.78
29.06
29.30
29.50
29.66
29.77
2983
29.85
29.84
29.80
2973
29.65
29.56
29.46
29.36
29.26
29.17
29.09
29.02
28.96
28.92
28.90
28.90
28.93
28.99
29.08
29.20
29.36
29.55
29.78
30.04
30.34
30.66
30.99
31.33
32.00
m
2
31
28
20
16
II
6
2
I
7
8
9
10
10
10
9
8
7
6
4
2
o
3
6
9
12
16
19
23
26
30
32
33
34
34
33
Declina-
tion N.
H- 2 25
41.8
Z^ Q 20
37-9 ^^
36.2 '7
34.8 '^
II
33.7
32.8
32.2
31.8
31.7
31.7
31.9
32.2
32.6
33.1
33.6
34.2
34-8
35.4
35.9
36.4
36.8
37.1
37.4
37.5
37.4
37.1
36.5
35.7
34.6
33-3
31.7
29.9
27.9
25.8
23.6
21.4
19.3
'/* Ursse Majoxls.
Mag. 3.2
9
6
4
I
o
3
4
5
5
6
6
6
5
5
4
3
3
I
I
3
6
8
II
13
16
18
20
21
22
22
21
Right
Ascension.
h
II
8
47.89
48.30
48.67
49.00
49.27
m
4
1. 001
28*.OOI
■fo.042
4i".26
0.00
-0-4
0.00
+0.2
41
37
33
27
21
8
49.48
4962 'J
49.70
49.72
49.68
4
9
2
5
7
8
8
8
6
5
3
I
8
5
49.59
49.47
49.32
49.15
48.97
48.79
48.61
48.45
48.30
48.17
48.06
47.98
47.93
47.91
47.93
47.99
48.09
48.24
48.44 . .
48.68 ^^
29
48.97
49.30
49.67
50.07
50.50
10
15
20
33
37
40
43
44
50.94
51.38
51.81
44
43
Declina-
tion N.
+44 57
63.2
62.7
62.7
63.2
64.1
65.4
67.0
68.9
70.9
72.9
74.8
76.6
78.2
79.6
80.6
81.3
81.6
81.6
81.2
80.4
5
o
5
9
13
16
19
20
20
19
18
16
14
10
7
3
o
4
8
II
79.3 _^
76.0 *^
74.0
71.7
20
23
25
69.2
66.5
^3-7 ,,
60.8 '9
57.9 '^
55.0
52.2
49.6
47.2
45.1
43.4
42.1
41.3
27
28
29
28
26
24
21
17
13
8
1. 41 3 +0.999
46».697 74".8i
+0.01 +0.06
-0.4 +0.2
[Bph 13]
ft Craterts.
Mag. 4.5
Right
Ascension.
h
II
s
22.87
23.19
23.48
23.73
23.93
24.09
24.20
24.26
24.28
24.26
24.22
24.15
24.06
23.96
23.85
23.73
23.61
23.50
23.40
23.31
23-23
23.17
23.13
23.11
23.12
23.16
23.24
23.36
23.52
23.72
m
7
32
29
25
20
16
II
6
2
2
4
7
9
10
II
12
12
II
10
9
8
6
4
2
I
4
8
12
16
20
24
23.96
24.24
24.55 ._
24.88 ^^
28
31
25.23
35
36
25.59
25.94 ^^
26.28 ^^
Declina-
tion S.
-22 20
n
57.1 '^
59.8 ^7
62.5 ^7
65.2
67.7
70.0
72.1
73.9
75.5
76.8
77.8
78.5
79.0
79.2
79.1
78.7
78.1
77.2
76.2
75.0
73.7
72.3
70.9
69.5
68.2
67.1
66.2
65.6
65.4
65.5
66.0
67.0
68.4
70.2
72.3
74.7
77.3
27
25
23
21
18
16
13
10
7
5
2
I
4
6
9
10
12
13
14
14
14
13
II
9
6
2
I
5
10
H
18
21
24
26
1.081
22».634
-0.41 1
62^.89
d Leonis.
Mag. 2.6
Right
Ascension.
h m
II 9
8
29.70
30.03 ^^
30.33 ^
30.60 ^7
30.83 ^^
31.00
31.12
31.20
31.23
31.22
31.18
31. II
31.02
30.92
30.81
30.70
30.59
30.49
30.40
30.32
30.25
30.20
30.18
30.18
30.20
30.25
30.34
30.46
30.62
30.82
31.05
31.32
31.63
31.96
32.31
32.67
33.02
33.37
17
12
8
3
I
4
7
9
10
II
II
II
10
9
8
5
2
o
2
5
9
12
16
20
23
27
31
33
35
36
35
35
Declina-
tion N.
+ 2059
//
56.2
54.8 !•?
53.7
52.9
52.5
II
8
4
I
52.4
52.7
53.2
53.9
54.8
55.8
56.8
57.8
58.8
59.7
60.4
61.0
61.4
61.6
61.6
61.4
61.0
60.4
59.6
58.6
57.4
56.0
54.4
52.6
50.6
3
5
7
9
10
10
10
10
9
7
6
4
2
o
2
4
6
8
10
12
14
16
18
20
22
23
48.4
46.1
43.8 ^^
41.5 ''
39.3
37.2
35.3
33.7
22
21
19
16
1. 07 1
29».043
+0.384
6i".82
0.00
-0.4
-0.03
+0.2
o.po
+0.02
380 APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
APPARENT PLACES OF STARS, 1913.
381
FOR THE UPPER TRANSIT AT WASHINGTON.
Mesa Solar
Date.
Jan. 0.7
10.7
20.6
30.6
Feb. 9.6
19.6
Mar» 1.5
II-5
21.5
31.4
Apr. 10.4
20.4
30.4
May 10.3
20.3
30.3
June 9.3
19.2
29.2
July 9.2
19.1
29.1
Aug. 8.1
18.1
28.0
Sq>t. 7.0
17.0
27.0
Oct. 6.9
16.9
26.9
Nov. 5.8
15.8
25.8
Dec. 5.8
15.7
257
35-7
^ Oentauii.
Mag. 4.3
Right
Ascension.
Mean Place
h
II
s
2.04
2.47
2.85
3.18
3.45
3.65
3.78
3.85
3.86
3.81
3.71
3.57
3.40
320
2.98
2.74
2.49
2.25
2.01
1.78
1.57
1.39
1.24
113
1.08
1.08
1. 14
1.27
1-47
1.73
ra
17
43
38
33
27
20
13
7
I
5
10
14
17
20
22
24
25
24
24
23
21
18
II
5
o
6
13
20
26
32
38
2.05
2.43
2.86 ^^
47
3.33
3.82
4-31
4-79
5-25
49
49
48
46
1.702
2*.095
Declina-
tions.
-54 o
//
34.0
36.8
39-9
43.3
46.9
50.5
54.1
57.6
60.9
64.0
66.8
69.2
71.3
73.0
74.2
74.9
75.2
75.0
74-4
73.3
71.8
70.0
67.9
65.5
63.0
60.4
57.9
55.5
53.4
51.6
50.3
49-5
49.3
49.7
50.7
52.2
54-3
56.9
28
31
34
36
36
36
35
33
31
28
24
21
17
12
7
3
2
6
II
15
18
21
24
25
26
25
24
21
18
13
8
2
4
10
15
21
26
-1.377
5o".82
t Leonls.
Mag. 4.0
Ri^t
Ascensioa.
I
h
II
tn
19
-o.oi
-0.4
-0.09
+0.2
s
2384
24.17
24.47
2473
2495
25.12
25.25
25.34
25.38
25.38
25.35
25.30
25.23
25.14
25.05
24.95
24.85
24.76
24.68
24.60
24.53
24.48
24.45
24.44
24.45
24.49
24.56
24.67
24.82
25.00
25.22
33
30
26
22
17
13
9
4
o
3
5
7
9
9
10
10
9
8
8
7
5
3
I
Declina-
tion N.
+ 11 O
//
7
II
15
18
22
25
25-47 ,^
25.76 11
26.08 ^^
26.42 34
26.77
27.11
27.45
35
34
34
28.0
26.2
24.6
23.3
22.3
21.7
21.3
21.2
21.3
21.7
22.2
22.8
23.5
24.2
24.9
25.6
26.2
26.7
27.1
27.4
27.6
27.7
27.6
27.4
27.0
26.4
25.5
24.4
23.1
21.6
18
16
13
10
6
4
I
I
4
5
6
7
7
7
7
6
5
4
3
2
I
I
2
4
6
9
II
13
15
17
19.9
18.0 '^
15.9 ^'
^3-7
II-5
22
22
22
9.3
7.2
5-2
21
20
1.019 +0.194
23*.377 3o"-94
r Leonis.
Mag. 5.2
Right
Ascensicm.
Declina-
tion N.
h
II
m
23
-f 3 19
0.00 +0.01
-0.4 +0.2
[Eph 13]
28.18
28.50
28.79
29.05
29.27
29.44
29.57
29.66
29.71
29.72
29.70
29.65
29.58
29.50
29.41
29.32
29.22
29.13
29.04
28.96
28.89
28.84
28.81
28.80
28.81
28.84
28.90
29.00
29.14
29.32
29.54
29.79
30.07
30.38
30.71
31.06
31.40
31.73
//
32
29
26
22
17
13
9
5
I
5
7
8
9
9
10
9
9
8
7
5
3
I
I
3
6
10
14
18
22
25
28
31
33
35
34
33
67.4
65.3
63.4
61.8
60.4
59.3
58.4
57.8
57.5
57.4
57.5
57.7
58.1
58.6
59.1
59.7
60.3
60.9
61.4
61.9
62.4
62.8
63.1
63.2
63.2
63.0
62.6
62.0
61. 1
60.0
58.6
57.0
55.2
53.2
51.0
48.8
46.6
44.5
21
19
16
14
II
9
6
3
I
I
2
4
5
5
6
6
6
5
5
5
4
3
I
o
2
4
6
9
II
14
16
18
20
22
22
22
21
A. Draoonis.
Mag. 4.1
Right
Ascension.
Declina-
tion N.
1.002
27'.8i3
+0.058
67".9i
h
II
m
26
18.61 74
19.30 ^
19.91 ^'
20.42 ^
40
20.82 „
21.10 ^»
21.25 '^
21.28 3
21.19 ^
20
20.99
20.70
20.34
9.92
9.46
8.98
8.50
8.03
7.58
7.16
0.00
-0.4
0.00
+0.2
29
36
42
46
48
48
47
45
42
37
31
25
6.79
6.48
6.23
6.06 *7
5.97 ^
5.96
6.03
6.19
6.45
6.81
7
16
26
36
45
7.26
7.80 54
9-83 I't
77
20.60
21.37 11
22.13
+6948
//
24.2
24.3
25.0
26.3
28.1
30.3
32.9
35.7
38.5
41.3
44.0
46.4
48.4
50.1
51.3
52.0
52.2
51.8
50.9
49.6
47.8
45.5
42.8
39.9
36.7
33.3
29.7
26.0
22.3
18.7
15.3
12. 1
9.2
6.7
4.7
3.2
2.3
2.0
I
7
13
18
22
26
28
28
28
27
24
20
17
12
7
2
4
9
13
18
23
27
29
32
34
36
37
37
36
34
32
29
25
20
15
9
3
2.897 +3.719
I5-.244 40".95
+0.01
-0.4
+0.18
+0.1
382
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
S Hydxae.
X. Oentanii.
t; Leonls.
n ciu
mueleoBtts.
Mean Solar
Mag. 3.7
Mag. 3.3
Mag 4.5
Mag. 5.7
Date.
Right
DcCUiia-
Right
Declinm*
Right
Declina-
Right
Dediiu-
Ascenskn.
tionS.
Aicension.
tionS.
Ascension.
tion S.
Ascension.
tionS.
h m
0 r
b m
0 /
h m
0 t
h 1
m
0 '
II 28
-31 22
II 31
-62 31
II 32
- 0 20
If
II 33
-7524
gm
Jan. 0.7
8
43.25 _
23.6 „
45.31
59-8 ,6
62.4 '<*
29.93 ^,
35-5 „
s
39.17
88
W '
33.4 „
10.7
43.60 ^^
26.3 'J
45-^4 ^«
30.26 ^^
^'^■'J 20
40.05
35-8 *
20.6
30.6
43.91 3
44.19
29.1 "*
32° !!
46.32 '^^
46.74 t'
65.45°
68.7 ^!
30.56 f °
30.82 »;
4'-5 !
40.84
41.52
79
68
38-7 '»
42.0 3^
Feb. 9.6
44.42 J
35.0 3°
29
47-08 34
72.33°
37
3'-4 :^
^^•^ "
42.07
55
41
«•' I
19.6
44.60
• *
37.9 .,
47-34 ,8
79-8 3«
31.22
44-4 „
42.48
<^ •*
49-4 ,„
Mar. 1.5
44-74 I
40.6 ^7
31.36 4
45-5 ''
42.75
27
53.3 ,„
"5
44.83 '
43.2 ^
47-62 '^
83.5 ^^
87.1 3^
31.46 't
46.3 \
42.89
14
57-2 ^'
21.5
44.87 ^
45.6 ^
4765 \
31.51 5
46.9 \
42.89
0
61. 1 ^9
31.5
44.87 I
47-7 :;
47-61 _4
90.5 5t
31.53 ,
47.2 3
42.76
13
25
64.8 37
35
Apr. 10.4
44.84 ,
44.78 I
44.70 °
49.5 ,,
47-50
93-7 ,„
31.52 ,
47.3 ^
42.51
36
46
68.3 „
20.4
51.0 '5
TO
47.33 J
96.6 *9
2 C
31.48 *
47.2 \
42.15
71.6 33
1/^
30.4
VMM **
52.2
47' 2 'I
46.86 '*
99.1 5
31.42 g
31.34 „
47.0 ,
41.69
74.5 '
May 10.3
44.60 °
53-1 ;
53-7 J
101.2''
46.7 \
41.15
54
67
76-9 ^
20.3
44.48 \l
46.57 ''
32
102.8 '^
It
31.25 \
46.3 4
0
40.54
7«-9 ::
30.3
44.36
53-9 .
46.25
103.9 ^
^04.5 ,
31.16
45.8 ,
44.6 °
44.0 °
43.4 :
39.87
«v^
^•5,0
June 9.3
44.23 ^l
53.8 "
45.92 "
31.07 9
39.17
70
81.5 '°
19.2
44.10 3
53-4 *
45.58 34
104.7 ,
30.98 9
38.45
72
82.0 5
29.2
43.97 ,i
52-7 ,;
45.24 ;;
1044 \
103.6 *
30.89 I
30-81 I
37.72
73
81.9 '
July 9.2
43.85 "
51.7 °
44.91 ^3
37.02
70
81.2 7
II
12
3'
•3
7
5
67
II
19.2
+3-74 ,-
5°-S ,.
44-60 „
28
44.32
102.3
100.5 ■*
30-74 ,
30.68 *
42.9 ,
36.35
60
80.1 ,
78.5 :'
29.1
43.64 '°
49-^ 6
47.5 ;
42.4 \
35.75
Aug. 8.1
43.57 I
44.08 =^4
43.90
98-4 : :
30.64 4
41.9 *
35.23
52
76-4
18.1
43.52 5
45.8 ^
96.0^4
93.4 '^
27
30.62
41.5 ;
34.81
42
0^ ^X
74.0 ^*
28.0
43.50 ^
44.1 '7
17
43.78 «;
30.62 ^
4^-3 :
3451
30
17
7'-3 !
29
Sept. 7.0
43.52
ff
43.73 ,
90.7 „
30.64
30.70 °
41.3 ,
34.34
#
68.4
17.0
43.57 ,^
43.76 3
88.0 *7
41.5 ^
34.33
I
65-4 Z
27.0
43.67 °
39.4 \\
43.88 '^
85-3 V
30.79 '
41.9 \
34.48
15
62-5 '2
Oct. 6.9
43.81 4
38.3 "
44-08 °
82.8 ^5
30.92 '3
42.5 f
34.79
31
59.7 *"
16.9
44.00 9
37.5 *
44-37 'I
80-7 !!
31.08 '^
43.4 '
35.25
46
57.2 ^5
24
4
37
17
21
12
61
21
26.9
44.24 ,8
44-52 ^8
37-1 ,
44.74 ,,
790,,
3^29 ^,
44.6 .,
35.86
55.1
Nov. 5.9
37.2 '
45.18 44
77.8 "
^'•54 ^
46.1 5
36.60
74
0 _
53.5 '
15.8
4483 ^
^^-'J ,0
45-69 ^'
46.25 5^
77.1 \
31.82 ^«
47-8 7
37.45
85
52.4"
25.8
45.18 ^5
38.7 °
77.0 '
32.12 3«
49-7 !'
38.38
93
^0
51.9 ^
Dec. 5.8
45.55 11
40.2 ^
19
46.84 59
77-^ ,:
32.45 33
34
51.8"
22
39.36 ^
98
[OO
2
5^-' 8
15.7
45.93 „
42.1 ,^
47.44 ,„
7«-^ ,«
32.79 .^
54-° „
40.36
_ 0
52.9
25.7
46.30 ii
46.66 36
44.3
48.03 59
48.59 5^
80.6 '^
33.13 ^;
56.3 ^
41.34
98
54.4 '
35.7
46.8 ^5
82.9 ^3
33.47 ^^
58.5 "
42.27
93
56.5 "
Sec 6, Tan 6
1.171 -0.610
2.169 ~i-924
1. 000 -0.006
3.971 -3.843
Mean Place
43'.2I9 34".36
45V642 78". 19
29'-655 35 ".88
39'.922 53".7i
DV <x, D« a
0.00 -0.04
-0.01 -0.13 0.00 0.00
-0.0 ]
t -0.25
D^p 6, Dm S
-0.4
•fO.I 1
-0.4
+0.1 1
-0.4
+0.1 1
-0.4
+0.1
tBph 13]
APPARENT PLACES OF STARS. 1913. 383
FOR THE UPPER TRANSIT AT WASHINGTON.
384
APPAKENT PLACES OF STABS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.7
10.7
20.7
30.6
Feb. 9.6
19.6
Mar. 1.5
II.5
21.5
31.5
Apr. 10.4
20.4
30.4
May 10.4
20.3
30.3
June 9.3
19.2
29.2
July 9.2
19.2
29.1
Aug. 8.1
18.1
28.1
Sept. 7.0
17.0
27.0
Oct. 6.9
16.9
26.9
Nov. 5.9
15.8
25.8
Dec. 5.8
15.8
25.7
35-7
>^ Viigiiiis.
Mag. 3.8
Right
ABcension.
Sec 8, Tan 8
Mean Place
D'^ a, Dm a
DvP 8, Dm 8
h
II
zn
46
s
0.03
0.36
0.67
0.95
1. 19
•39
.54
.65
.72
.75
•75
.72
.67
.61
.53
•45
.36
.27
.18
.10
1.02
0.95
0.90
0.87
0.86
0.88
0.92
1. 00
1. 12
1.27
33
31
28
24
20
15
II
7
3
o
3
5
6
8
8
9
9
9
8
8
7
5
3
I
2
4
8
12
15
20
24
27
1.47
I.71
1.98
2.28 30
2.61 ^*^
34
2.95
3.29 ^^
3.63 ^^
Declina-
tion N.
-f 2 14
77.3
75^2
73.2
71.4
69.9
68.7
67.8
67.1
66.7
66.5
66.6
66.8
67.1
67.5
68.0
68.6
69.2
69.8
70.4
70.9
71.4
71.8
72.1
72.3
72.3
72.2
71.9
713
70.5
69.4
68.1
66.5
64.7
62.7
60.6
58.4
56.1
53.9
21
20
18
15
12
9
7
4
2
2
3
4
5
6
6
6
6
5
5
4
3
2
o
I
3
6
8
II
13
16
18
20
21
22
23
22
1. 00 1 +0.039
9».8io 78".30
0.00
-0.4
0.00
+0.1
Oroombxldse 1880.
Mag. 6.5
Right
Ascension.
h
II
m
47
58^86
59.26 ^°
59-64
38
5998 l^
60.28 3°
25
60.53
60.72 ^^
60.86 'J
60.94
60.97 ^
60.96
60.91
60.83
60.72
60.60
60.47
60.33
60.19
60.05
5993
5982
59.73
5965
59.60
59^58
59-59
5963
5972
59-85
60.03
5
8
II
12
13
14
14
14
12
II
9
8
5
2
4
9
13
18
23
27
32
60.26
60.53
60.85
61.20 ^^
61.59 ^^
41
62.00
62.41 ^^
62.83 ^"^
Declina-
tion N.
+38 19
82.9
81.6 '^
80.8 ^
80.5 ^
80.6 '
6
81.2
o
3
5
7
7
82.2
83.5
85.0
86.7
88.4
90.1
91.7
93^ I
94.3
952
95.8
96.1
96.0
95-6
94.8
93.7
92.3
90.6
88.6
7
6
4
2
9
6
3
I
4
8
II
14
17
20
23
26
86.3
83.7
81.0^7
78.1 '9
75.1
30
31
72.0
68.9
65-9
63.0
60.3
57.9
55.9
54.3
31
30
29
27
24
20
16
1.275 40.791
58"i39 95".3i
y Urtie XaJOEis.
Mag. 2.5
0.00 +0.05
-0.4 +0. 1
Right
AflcenMon.
Dcclina'
tiooN.
h
II
m
49
50
s
6.84
7.80 ^^
8.22 42
8.58 36
30
8.88
9.11 '3
9.26 ^l
9.34
9.35
+54 10
//
930
9.19
9.03
8.84
8.63
II
16
19
21
23
8.40
8.16 '^
7.93 ^^
7.70
7.48
23
22
20
7.28
7.11
6.97
6.86
6.79
6.77
6.80
6.88
7.02
7.22
17
14
II
7
2
3
8
14
20
26
26.6
25.9
25.8
26.3
27.3
28.8
30.6
32.8
35.2
37.7
40.1
42.4
44.5
46.4
47.9
49.0
49.7
149.9
49.7
49.0
479
46.4
44.5
42.2
39.6
36.8
337
30.4
27.1
237
7.48 ^^
7.80 3^
8.17 37
8.59
9-05
42
46
49
19.54
20.04
20.55
50
51
7
I
5
10
15
18
22
24
25
24
23
21
19
15
II
7
2
2
7
II
15
19
23
26
28
31
33
33
34
34
20.3
17.0
13.9
II. I
8.6^5
33
31
28
6.6
5.0
4.0
20
16
10
ff* Viigiiiis.
Mag. 4.6
Right
Aaoension.
h
II
m
56
'^*''' 33
2543 *"
2574 II
26.03
26.28 ^5
21
26.49
26.65
26.77
26.84
26.88
16
12
7
4
I
26.89
26.87
26.83
26.77
26.69
26.61
26.52
26.43
26.34
26.25
26.17
26.09
26.03
25.99
25.97
2
4
6
8
8
9
9
9
9
8
8
6
4
a
o
25.97 .
26.00 3
26.07 7
26.18 "
26.32
II
14
19
23
26
29
1.708 +1.385
i5'-673 42".55
0.00
-0.4
+0.09
0.0
26.51
26.74
27.00
27.29 „
27.61 32
34
27.95 „
28.30 35
28.6434
Dcdini.
tionN.
+ 7 5
ti
54.9
52.9
5I.I
49.5
48.2
47.3
46.6
46.2
46.1
46.3
46.6
47.0
47.6
48.3
49.0
49-7
50.3
50.9
51-5
52.0
52.4
52.6
52.7
52.6
52.4
52.0
51.4
50.6
49-5
48.2
46.6
44.8
42.8
40.7
38.4
36.1
33.9
31.8
30
18
16
13
9
7
4
I
2
3
4
6
7
7
7
6
6
6
S
4
2
I
I
2
4
8
II
13
16
18
30
31
23
23
23
21
1.008 -(0.124
24'.883 58''j(»
coo
-04
+OX>I
APPARENT PLACES OF STARS, 1913.
385
FOR THE UPPER TRANSIT AT WASHINGTON.
MnnSohr
Date.
Jan. 0.7
10.7
20.7
30.6
Feb. 9.6
19.6
Mar. 1.6
11.5
21.5
31.5
Apr. 10.5
20.4
30.4
May 10.4
20.3
30.3
June 9.3
19.3
29.2
July 9.2
19.2
29.2
Aug. 8.1
18.1
28.1
Sept. 7.0
17.0
27.0
Oct. 7.0
16.9
26.9
^'ov. 5.9
15.9
25.8
Dec. 5.8
15.3
25.7
35.7
Mean Place
1913^
o Vixflnls.
Mag. 4.2
Right
34
32
17
12
8
5
I
h in
12 O
46.88
47.22
47.54 ,^
47.83 J
48.08 ^5
21
48.29
48.46
48.58
48.66
48.71
48.72
48.70
48.66
48.60
48.53
48.44
48.35
48.26
48.17
48.08
48.00
47.92
47.85
47.80
47.78
47.78
47.81
47.87
47.97
48.11
48.29
48.51
48.77
49.07
49.39
4
6
7
9
9
9
9
9
8
8
7
5
2
o
3
6
10
14
18
22
26
30
32
34
49.73 ._
50.08 ^^
50.42 ^"^
Declina-
tion N.
+ 9 12
//
54.0
52.0
50.2
48.7
47.5
46.7
46.2
45.9
45.9
46.2
46.7
47.3
48.0
48.7
49.5
50.2
50.9
51.5
52.1
52.5
52.8
53.0
53.0
52.9
52.6
52.1
51.3
50.3
49.1
47.7
46.0
44.1
42.0
39.8
37.6
35.3
33.1
31.0
20
18
15
12
8
5
3
o
3
5
6
7
7
8
7
7
6
6
4
3
2
o
I
3
5
8
10
12
14
17
19
21
22
22
23
22
21
1.013 +0.162
46*.68o 58".oo
0.00
-0.4
—25
+0.01
0.0
S Centauri.
Mag. 2.9
Right
Ascension.
h
12
8
50.14
50.59
51.00
51.37
51.69
51.96
52.17
52.32
52.41
52.45
52.45
52.40
52.31
52.19
52.04
m
3
45
41
37
32
27
21
15
9
4
o
5
9
12
15
17
51.68 ^9
51.48
51.27
51.06
20
21
21
20
50.86
50.67
50.51
50.37
50.27
50.21
50.21
50.27
50.39
50.57
50.82
51.13
51.50
51.91
52.36
52.83
53.30
53.76
19
16
14
10
6
o
6
12
18
25
31
37
41
45
47
47
46
Declina-
tion S.
-50 14
//
1.8
4.2
6.9
9.9
13.1
24
27
30
32
33
16.4
19.8^
23.1
26.3
29.4
33
32
3»
28
32.2
34.8
37.0
38.9
40.4
41.5
42.2
42.4
42.2
41.6
40.6
39.2
37.5
35.5
33.3
31.0
28.7
26.5
24.4
22.6
21. 1
20.1
19.6
19.6
20.1
21.2
22.8
24.9
26
22
19
15
II
7
2
2
6
10
14
17
20
22
23
23
22
21
18
15
10
5
o
5
II
16
21
I 564
50».6o6
-1.202
i6".90
S Corvi.
Mag. 3.2
Right
Ascension.
h
12
3875
39.10
39.43
39-73
39-99
40.20
40.37
40.50
40.59
40.64
40.66
40.65
40.61
40.55
40.48
40.39
40.29
40.19
40.08
39.97
39.87
39.77
39-69
39.62
39.58
39.57
39.59
39.65
39.75
39.89
40.08
40.32
40.59
40.90
41.24
41.59
41.95
42.31
m
5
35
33
30
26
21
17
13
9
5
2
I
4
6
7
9
10
10
II
II
10
10
8
7
4
I
2
6
10
14
19
24
27
31
34
35
36
36
Declina-
tion S.
-22 8
ff
2.7
5.1
7.6
10.2
12.7
15.1
17.3
19.4
21.3
22.9
24.3
254
26.3
26.9
27.3
27.5
27.4
27.0
26.5
25.8
24.9
23.9
22.8
21.6
20.4
19.2
18.I
17.2
16.6
16.2
16.I
16.4
I7.I
18.2
19.7
21.5
23.6
25.9
24
25
26
25
24
22
21
19
16
14
II
9
6
4
2
I
4
5
7
9
10
II
12
12
12
II
9
6
4
I
3
7
II
15
18
21
23
1.080
38«.882
-0.407
9".45
0.00
-0.4
-0.08
0.0
fBph 13I
0.00
-04
-0.03
0.0
4 H. Draconis.
Mag. 5.1
Right
Ascension.
h
12
m
8
s
1.73
2.92 "9
4.06 "4
5.1 1 '°5
6.03
6.80
7.38
777
7.96
7.94
7-73
7.35
6.81
6.15
5-39
4.55
3.66
2.76
1.87
1. 01
10.20
9.46
8.81
8.27
7.85
7.56
7.42
7.42
7.58
7.90
92
77
58
39
19
2
21
38
54
66
76
84
89
90
89
86
81
74
65
54
42
29
14
o
16
32
49
8.39
9.04
9.84
^^'77,^,
ii.8i'°4
112
12.93
65
80
93
14.II
15.31
118
120
Declina-
tion N.
+78 5
39.0
38.8
39-2
40.3
42.0
44.1
46.6
49-4
52.4
55.4
58.3
61. 1
63.6
65.7
67.3
68.4
68.9
68.9
68.4
67.3
657
63.6
61. 1
58.2
55.0
2
4
II
17
21
25
28
30
30
29
28
25
21
16
II
5
o
5
II
16
21
25
29
32
35
51.5
47-8 ^l
440 -*
40.1
36.2
39
39
38
32.4
28.9
^5-7 ^^
22.8 '9
24
35
32
20.4
18.5
17.2
16.6
19
13
6
4.848 +4.743
8'.259 58".76
0.00
+0.32
386
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
<^ Cmois.
Mag. 3.1
Right
Ascension.
Jan. 0.7
10.7
20.7
30.6
Feb. 9.6
19.6
Mar. 1.6
21.5
31.5
Apr. 10.5
20.4
30.4
May 10.4
20.3
30.3
June 9.3
19.3
29.2
July 9.2
19.2
29.2
Aug. 8.1
18.1
28.1
Sept. 7.0
17.0
27.0
Oct. 7.0
16.9
26.9
Nov. 5.9
15.9
25.8
Dec. 5.8
15.8
25.7
35.7
Sec<5,Tand
Mean Place
D,p(5, D«<5
h
12
m
lO
8
3065
31.17^^
31.66 ^^
32.10 ^^
32.48
32.80
33.05
33.23
33-34
33.39
38
32
25
18
II
5
I
II
33.38
33.32
33.21
33.06 '5
32.87
19
22
32.65
32.41
32.14
31-86
31.58
24
27
28
28
27
26
31.31
31.05
30.82 '^^
30.62 ^^
30.47
30.38
30.35
30.39
30.51
30.71
30.99
31.34
31.76
32.24
32.76
33.30
33.85
34.39
15
9
3
4
12
20
28
35
42
48
52
54
55
54
Declina-
tion S.
-5815
//
38.3
40.5
43.1
46.1
49.4
22
26
30
33
35
35
35
35
52.9
56.4
59-9
^^•^ .A
66.8 34
32
70.0
72.9
75.5
77^7
79.5
80.9
81.9
82.4
82.4
82.0
29
26
22
18
14
10
5
o
4
9
17
20
26
81. 1
79.8 \\
78.1
76.1
73.8 1
71.3
68.7
66.2 ^5
63.8 ^4
61.6 "
18
14
9
4
2
8
14
19
59.8
58.4
57.5
57.1
57.3
58.1
59-5
61.4
1.901 -1.617
31 '-364 55"-07
0.00
-0.4
-o.ii
0.0
<^ Ursce Majorif.
Mag. 3.4
Rtffht
Ascension.
h
12
m
II
8*76
9.29 ^^
9.80 5^
0.27 ^'^
0.68
1.03
1.30
1.50
1.62
1.66
1.63
1.54
1.39
1.20
0.98
0.73
0.46
0.18
9.91
9.65
9.40
9.18
8.99
8.83
8.71
8.63
8.61
8.65
8.75
8.92
9.15
9.45
9.81
10.23
10.70
41
35
27
20
12
4
3
9
15
19
22
25
27
28
27
26
25
22
19
16
12
8
2
4
10
17
23
30
36
42
47
51
II. 21
12.28 54
53
Declina-
tion N.
+5730
//
39.9
39.1
38.9
39-3
40.2
41.6
43.5
45.7
48.2
50.8
53.4
55.9
58.3
60.4
62.1
63.4
64.3
64.7
64.7
64.2
63.2
61.8
59.9
57.6
55.0
52.1
49.0
45.6
42.1
38.6
350
31.5
28.2
25.2
22.5
20.2
18.5
17.3
8
2
4
9
14
19
22
25
26
26
25
24
21
»7
13
9
4
o
5
10
14
19
23
26
29
31
34
35
35
36
35
33
30
27
23
17
12
1.862 +1.570
7».678
57"-57
Y Corvi.
Mag. 2.8
Right
Ascension.
h
12
m
II
8
19.67
20.01
20.33
20.63
20.89
21. II
21.29
21.42
21.51
21.57
21.59
21.59
21.56
21.51
21.44
21.36
21.27
21.17
21.07
20.97
20.87
20.78
20.70
20.64
20.60
20.58
20.60
20.65
20.74
20.88 '1
18
21.06
21.28
21.54
21.84
22.17
22.52
22.88
23.23
34
32
30
26
22
18
13
9
6
2
o
3
5
7
8
9
10
10
10
10
9
8
6
4
2
2
5
9
22
26
30
33
35
36
35
Declina-
tion S.
-17 3
n
27.0
29.3
31.7
34.1
36.4
38.6
40.6
42.4
44.0
45.3
46.4
47-3
47.9
48.3
48.5
48.5
48.3
47.9
47.4
46.7
45.9
45.0
44.1
43.1
42.1
41.2
40.4
39.8
39.4
39.3
39.5
40.1
41.0
42.3
43.9
45.7
47.8
50.1
23
24
24
23
22
20
18
16
13
II
9
6
4
2
o
2
4
5
7
8
9
9
10
10
9
8
6
4
I
2
6
9
13
16
18
21
23
1 .046 -0.307
i9'-778 3i".82
2 Canmn Venat
Mag. 5.8
Right
Asccnuon.
0.00 +0.10
-0.4 0.0 I
lEph 13]
0.00
-0.4
h
12
m
II
8
46.89
47.30
47.69
48.05
48.37
48.64
48.86
49.02
49.12
49.17
49.18
49.14
49.06
48.95
48.82
48.68
48.53
48.37
48.21
48.05
47.90
47.77
4765
47.56
47.49
47.46
47.46
47.51
47.60
47.74
41
39
36
32
27
22
16
10
5
I
4
8
I
3
4
5
6
6
6
5
3
2
9
7
3
o
5
9
14
19
47.93 _^
48.18 ^5
48.47 ',^
48.80 33
49.17 37
40
4998 *'
50.40 *
Dedtna-
tJonN.
+41 8
tt
25.3
24.0
23.2
23.0
23.3
24.0
25.1
26.6
28.4
30.4
32.5
34.6
36.6
38.4
40.0
41.3
42.2
42.8
43-1
43-0
42.5
41.6
40.3
38.7
36.8
34-6
32.1
29.4
26.5
23-5
20.4
17.3
14.2
II. 2
8.5
6.1
4.1
2.5
13
8
II
15
18
20
21
21
20
18
16
13
9
6
3
1
5
9
13
16
19
22
^5
27
29
30
31
31
31
30
27
24
20
16
-0.02
0.0
1.328 +0.874
46«.29i 39"-53
0.00
-0.4
+0.06
-0.1
APPARENT PLACES OF STARS, 1913
387
FOR THE UPPER TRANSIT AT WASHINGTON.
Mnn Solar
Date.
Jan. 0.7
10.7
20.7
307
Feb. 9.6
19.6
Mar. 1.6
"5
21.5
31.5
Apr. 10.5
20.4
30.4
May 10.4
20.4
30.3
June 9.3
193
29.2
July 9.2
19.2
29.2
Aug. 8.1
18.1
28.1
Sept. 7.1
17.0
27.0
Oct. 7.0
16.9
26.9
Nov. 5.9
15.9
25.8
Dec 5.8
15-8
25.8
357
Sec ^, Tan d
Mean Place
D'f a. Dm a
/3 Chanueleontis.
Mag. 4.4
Right
Ascension.
h
12
s
0.82
m
13
121
2.03
3.16"^
4.18
5.78
6.34
6.72
6.93
6.97
6.85
6.57
6.15
4.93
4-15
330
2.39
1.44
0.49
9.56
8.67
7.86
7.16
6.60
102
88
72
Declina-
tion S.
-7849
56
38
21
4
12
28
42
55
67
78
85
91
95
95
93
89
81
70
56
39
6.21
6.00
5.99
6.19
6.60 f
62
21
I
20
7.22
8.03
9.01
10.12
127
12.60
13.89^'^
81
98
III
121
I5I5
126
251
26.9
29.3
32.2
35-4
38.9
42.6
46.5
50.4
54-3
18
24
29
32
35
37
39
39
39
37
35
58.0
61.5
64.8 ^^
67.7 '^
70.2
25
21
72.3
73.9
74.9
75.4
75.4
74.8
73.7
72.1
70.0
67.6
16
10
5
o
6
II
16
21
24
27
^4-9 ,^
62.0 ^9
59.0 3°
56.1
53.3
50.8
48.7
47.1
46.0
45-5
29
28
25
21
16
II
5
2
8
45.7
46.5
48.0 *5
5.163 -5.065
//
13 034 44-95
+0.01
-0.4
-0.34
-0.1
7 Virsinis.
Mag. 4.0
Right
Ascension.
h
12
Declina-
tion S.
m
15 !- O II
s
27-31
27.65 ^^
27.97 II
28.26 ^l
28.52 '^
22
28.92 '*
29.06 ^4
29.16 ^°
29.22
29.25
29.25
29.22
29.17
29.11
29.04
28.96
28.87
28.78
28.69
28.60
28.52
28.45
28.39
28.35
28.34
28.35
28.39
28.48
28.61
28.78
28.99
29.24
2953
29.84
30.17
30.51
30.86
3
5
6
7
8
9i
9
9
9
8
7
6
4
I
4
9
13
17
21
25
29
31
33
34
35
1,000
27".290
1-5
3-7
5.8
7.6
9.2
0.6
1.7
2.5
3.0
3.3
3.4
3.3
3.1
2.7
2.2
1.7
1.2
0.6
0.0
9.4
8.9
8.4
8.0
7-7
7.6
7.6
7.8
8.2
8.8
9.7
10.9
12.3
14.0
159
18.0
20.2
22.4
24.6
22
21
18
16
14
II
8
5
3
I
I
2
4
5
5
5
6
6
6
5
5
4
3
I
o
2
4
6
9
12
14
17
19
21
22
22
22
-0.003
0".20
0.00 0.00
-0.4 -O. I
[Bph 13]
a^ Cruolf.
Mag. 1.6
Right
Ascension.
h
12
s
m
21
43.94
44.54
45.09
45.59
46.03
60
55
50
44
37
46.40
46.70
46.93 ,,
47.08 '5
47.15 I
30
23
47.16
47.11
47.00
46.83
46.62
5
II
17
21
25
46.37 ,^
46.08 ""^
45.77 ^'
45.44
45.11
Declina-
tion S.
-62 36
//
44-^ or.
46.2 "^
51.6 ^9
54.8 ^^
34
58.2
61.7 35
68.9 36
33
75.7 .^
78.8 3'
81.6 '*
84.1
86.2
44.78
44.46
44.17
43.92
43.72
43.58
43.51
43.53
43.64
43.84
44.13
44.51
44.96
45-48
46.05
46.65
47.26
47.87
33
33
33
87.9
89.1
89.8
90.1
89.9
28
25
21
17
12
7
3
2
7
32 :
29'
25 I
20'
14 i
7 i
2
II
20
29
38
45
52
57
60
61
61
12
16
20
89.2
88.0
86.4
84.4 ,,
82.1 '3
25
79.6
77.0
74.4
71.8
69.4
26
26
26
24
20
67.4
65.7
64.5
63.9
63.8
64.3
65.4
67.1
17
12
6
I
5
II
17
2.174 -1.931
44V933 61 ".45
0.00
-0.4
-0.13
-o.i
20 Ck>nue.
Mag. 5.7
Right ! Dedina-
Ascension. * tion N.
h
12
m
25
21.34
21.70
22.04
22.36
22.64
22.88
23.08
23.23
23.34
23.41
23.44
23.44
23.41
23.36
23.29
23.20
23.10
23.00
22.89
22.78
22.68
22.58
22.49
22.42
22.37
22.34
22.34
22.38
22.45
22.56
22.72
22.92
23.17
23.46
23.78
24.12
24.48
24.84
36
34
32
28
24
20
15
II
7
3
o
3
5
7
9
10
10
II
II
10
10
9
7
5
3
o
4
7
II
16
20
25
29
32
34
36
36
+ 21 22
//
31.0
29.1
27.6
26.5
25.8
25.5
25.6
26.0
26.7
27.7
28.9
30.1
31.4
32.7
33.9
35.0
36.0
36.8
37.4
37.7
37.8
37.6
37.2
36.5
35.6
34.5
33.1
31.4
29.5
27.4
25.1
22.6
20.0
17.4
14.8
12.4
10. 1
8.0
19
15
II
7
3
I
4
7
10
12
12
13
13
12
II
10
8
6
3
I
2
4
7
9
II
14
17
19
21
23
25
26
26
26
24
23
21
1.074 +0.391
2 1 ".144 4o".oi
0.00 +0.03
388
APPARENT PLACES OF STABS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
6 Corvi.
Y Crucis.
Mean Solar
Mag. 3.1
Mag. 1.6
Date.
Right
Declina-
Right
Declina-
Ascension,
h m
tion S.
Ascension,
h m
tion S.
0
t
0 t
12 25
-16
0 m
I
12 26
-5637
Jan. 0.7
s
21.47
WW
48.3
18^97
9 P
17.6
10.7
21.82 35
50.6
23
S2
19.49 5
19.7 \\
20.7
22.15 ^^
52.9
23
19.98 49
22.2 5
30.7
22.45 1"!
55.2
23
20.42 ^^
25.0 ^«
Feb. 9.6
22.72 '
57.4
22
20.81 39 28.1 3'
23
21
34 33
19.6
22.95
59.5
21.15 _!3i.4 ,,
Mar. 1.6
23.14 9
61.4
19
18
T C
21.42^7^34.8 34
11.5
23.29 ;
63.2
21.63^; 38.3 ^f
21.5
23.40
64.7
15
21.77 ^\ 41.7 34
21.85 \ 45.0 33
31.5
23.47 :
66.0
13
4
10
3 31
Apr. 10.5
23.51 _
67.0
8
6
21.88
48' ,„
20.4
23.52
67.8
21.86 ^
?; 6
30.4
23.50 .
68.4
21.79 7
May 10.4
23.46 I
23.40
68.8
4
21.67
2..51 "^
55? 0
20.4
69.0
i
57-8 '
7
0
19
16
30.3
23.33 g
23.25
69.0
21-32 ,.
594 , ,
June 9.3
68.8
2
21.11 '■
60.5"
19.3
23.16 I
68.5
3
20.87 ^'^
61. 1 ^
29.2
23.06 '°
68.0
5
20.62 *^
61.3 '
July 9.2
22.96 '°
10
67.4
6
8
-■36 ::
61.0 •'
7
19.2
22.86
66.6
f\
20.10
60.3
29.2
22.77 I
65.8
8
19.85 \\
59.2 ;;
Aug. 8.1
22.68 ^
22.60
64.9
9
19.62 =^3
^^-^ 0
18.1
64.0
9
20
^942 \.
55.8 '9
28.1
22.55 ^
63.1
9
19.26 '^
53.6 "
3
8
11
24
Sept. 7.1
22.52
62.3
19.15 .
5'-2 „
17.0
22.52
61.6
7
19.10 5
48.8 ^4
27.0
22.56 I
61. 1
5
19.12 ^
4^-4 1
Oct. 7.0
22.64 ,,
60.8
3
19.21 9
44.0 ^4
16.9
22.76 '^
60.7
I
19.38 '7 41.8 "1
17^
2
25
«9
26.9
22.93 ,_ ,60.9
6
19.63 .,
39-9 ,^
Nov. 5.9
23.14 . 61.5
23.40 11 62.4
19.95 ^^
38.5 4
15.9
9
20.34 ^9 37.5 '^
25.8
2369 1 , 63.7
13
16
20.78 ^^ 37.0 5
Dec. 5.8
24.01 3^ 65.3
21.27 "^^ 37.1 '
34 1
18
52
7
15.8
24.35 67.1
21.79 37.8
25.8
24.70 ^^ 69.1
20
22.32 53 I 39.0
35.7
25.05 ^^171-4
23
22.85 53 1 40.8 '^
Sec S, Tan <5
1.040 -0.287
1. 818 -1.518
Mean Place
21'. 660 52". 20
I9«.8i4 33".55
D'l^ a, Dw a
0.00 -0.02
0.00 -O.IO
D4, d, D« 8
-0.4
-O.l
1
-0.4
-0.1 1
lEph i.,l
8 Canoxn Venat.
. Mag. 4.3
Right
Ascension.
Declina-
tion N.
h
12
m
29
s
37.39 ,,
37.80 ^^
38.20 4^
38.57
38.90
37
33
29
+41 49
#/
39.19
39-43
39.61
39.73
39.80
39.82
39.80
39.74
39.64
39.52
39.38
39.22
39.06
38.89
38.73
38.57
38.42
38.28
38.16
38.07
38.01
37.99
38.01
38.07
38.18
38.34
38.56
38.83
39.15
39.51
3990
40.31
40.72
24
18
12
7
2
2
6
o
2
6
6
7
6
6
5
4
2
9
6
2
6
II
16
22
27
32
36
39
41
41
33.1
31.6
30.7
30.3
30.5
15
9
4
2
7
II
31.2
32.3
33.8 \\
35.6
37.6
18
20
21
39.7
41.9
44.0
46.0
47.7
49.2
50.4
51.2
51.6
51.6
22
21
20
17
15
12
8
4
o
4
8
II
51.2
50.4
49.3
47.8 ^5
45.9 ^^
22
43.7
41.3
38.6
35.7 ^^
32.6 3»
32
29.4 „
26.2 32
23.0 3^
20.0
17.2
24
27
29
30
28
26
14.6
12.4
10.7
22
17
I 342
36*. 91 2
+0.895
48".2i
0.00
-04
+0.06
-0.1
K Braoonis.
Mag. 3.9
Right Dcclina-
Ascension. tion N.
h
12
m
29
s
48.25
49.02
49.77
50.47
51.10
77
75
70
63
54
51.64
52.08^
52.40
52.60
52.67
32
20
7
4
52.63
52.48
52.23
51.90
51.50
15
25
33
40
45
48
51.05
50.57 ^^
50.06 5'
SI
49.55 ^
49.04
51
48
45
41
35
48.56
48.11
47.70
47-35 ,^
47.06 "9
22
46.84
46.71
46.67
46.72
46.87
47.13
47.50
47.97
48.53
49.17
13
4
5
15
26
37
47
56
64
70
49.87
50.62 ^5
51.39
77
+70 15
//
43.6
42.9
42.8
43.3
44.5
46.2
48.4
51.0
53.8
56.7
59-6
62.4
65.0
67.3
69.2
70.7
71.7
72.2
72.1
71.5
70.3
68.7
66.6
64.1
61.2
58.0
54.5
50.8
47.0
43.2
39.4
35-7
32.2
29.1
26.3
24.0
22.3
21.2
/
1
5
12
17
22
26
28
29
29
28
26
23
19
15
10
5
I
6
12
16
21
25
29
3-'
35
37
38
38
38
37
35
3»
28
23
17
II
2.961 +2.787
46V6I4 63".72
-o.oi
-0.4
+0.18
-0.1
APPARENT PLACES OF STARS, 1913.
FOB THE UPPER TRANSIT AT WASHINGTON.
390
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.7
10.7
20.7
30.7
Feb. 9.6
19.6
Mar. 1.6
11.6
21.5
315
Apr. 10.5
20.4
30.4
May 10.4
20.4
30.3
June 9.3
193
29.3
July 9.2
19.2
29.2
Aug. 8.1
18.1
28.1
vSept. 7.1
17.0
27.0
Oct. 7.0
17.0
26.9
Nov. 5.9
15.9
25.8
Dec. 5.8
15.8
25.8
_ ^^'1
Sec (5. Tan d
Mean Place
y Centauri.
Mag. 2.4
Right
Ascension.
h
12
m
36
D'^ a, Dw a
42.04
42.50
42.93
43.32
43.67
43.98
44.24
44.44
44.59
44.69
44-74
44.74
44.71
44.64
44.54
44.41
44.26
44.09
43.90
43.70
43.50
4^.31
43.13
42.97
42.84
42.75
42.71
42.72
42.79
42.92
43.12
43.39
43.72
44.10
44.52
44-97
45-43
45-89
46
43
39
35
31
26
20
15
10
5
o
3
7
10
>3
15
17
19
20
20
19
18
16
13
9
4
I
7
13
20
27
33
38
42
45
46
46
Declina-
tion S.
48 28
//
42.2
44-3
46.7
49.4
52.3
21
24
27
29
31
55-4 ,,
58.6 32
61.7 ^'
64.8 3'
67.8 ^l
28
70.6
73.1
75.4
77.4
79.1
80.4
81.3
81.8
81.9
81.6
25
23
20
17
13
9
5
I
3
7
10
14
80.9
79.9
78.5
76.8 '7
74.9 '^
21
72.8
70.6
68.4
66.4
64.6
63.0
61.8
61.0
60.8
61. 1
61.9
63.2
64.9
22
22
20
18
16
12
8
2
3
8
13
17
1.509 -1.130
42".774 55"-85
y Virginis (mean),
Mag. 2.9
Right
Ascension.
0.00 -0.07
-0.4 -0.2
h
12
m
37
^•""^ 34
5.37 ^^
5.99 ^
6.26 ^7
23
6.49
6.69
6.85
6.97
7.05
20
16
12
8
5
7.10
7.12
7.II
7.08
7.04
6.98
6.90
6.82
6.73
6.64
6.54
6.45
6.36
6.28
6.22
6.19
6.18
6.20
6.27
6.38
6.53
6.72
6.95
7.22
7.53
7.86
8.20
8.54
2
I
3
4
6
8
8
9
9
10
9
9
8
6
3
I
2
7
II
15
19
23
27
31
33
34
34
Declina-
tion S.
-058
//
22.3
24.5
26.6
28.5
30.2
31.6
32.7
33.6
34.2
34.5
34.6
34.6
34.4
34.0
33.5
33.0
32.4
31.8
31.2
30.7
30.2
29.7
29.3
29.0
28.8
28.7
28.8
29.2
29.8
30.6
31.7
33.1
34-7
36.6
38.6
40.7
42.9
45.1
22
21
19
17
14
II
9
6
3
I
o
2
4
5
5
6
6
6
5
5
5
4
3
2
I
4
6
8
II
14
16
19
20
21
22
22
I. OCX)
-O.OI
I5».i30 2o".52
p Virginif.
Mag. 5.0
Right
Ascension.
h
12
m
37
0.00 0.00
-0.4 -0.2
(Eph xsl
s
28.91
29.25
29.58
29.89
30.17
30.41
30.61
30.77
30.89
30.97
3102
31.04
31.03
31.00
30.95
30.88
30.80
30.71
30.62
30.52
30.42
30.33
30.24
30.17
30.11
30.07
30.06
30.09
30.15
30.25
30.40
30.59
30.82
31.09
31-40
31-73
32.07
32.41
34
33
31
28
24
20
16
12
8
2
I
3
5
7
8
9
9
10
10
9
9
7
6
4
I
3
6
10
15
19
23
27
31
33
34
34
Declina-
tion N.
-f-io 42
//
47-4
45.3
43.5
42.0
40.8
39.9
39.4
39.2
39.3
39.7
40.3
41.0
41.8
42.7
43.7
44.6
45.4
46.1
46.7
47.2
47.6
47.8
47.8
47.6
47.3
46.7
45.9
44.8
43.5
42.0
21
18
15
12
9
5
2
I
4
6
7
8
9
10
9
8
7
6
5
4
2
o
2
3
6
8
II
13
15
18
40.2
38.2
36.1
33.8 '3
20
21
31-4
24
23
29.1
26.8 ^3
24.6 "
1. 01 8 +0.189
28».900 53".42
76 Urse Xajorli.
Mag. 5.9
Riffht
Ascension.
h
12
m
37
Dedioa-
tionX.
+6310
47.15
47.76
48.35
48.91
49.41
49.85
50.21
50.48
50.66
50.75
50.75
50.67
50.52
50.31
50.05
49.75
49.42
49.07
48.71
48.36
48.02
47.70
47.41
47.15
46.93
46.77
46.67
46.64
46.68
46.79
61
59
56
50
44
36
27
18
9
o
8
15
21
26
30
33
35
36
35
34
32
29
26
22
16
10
3
4
II
20
^6.4
654
65.0
65-3
66.2
67.6
69.5
71.8
74-4
77.2
80.0
82.7
85.3
87.7
89.7
91.3
92.4
93-1
93-3
92.9
92.0
90.7
88.9
86.7
84.1
81. 1
77.8
74.3
170.7
167.0
10
4
3
9
14
19
23
26
28
28
27
26
24
20
16
11
7
2
4
9
13
18
22
26
30
33
35
36
37
38
28
36
0.00
-0.4
+0.01
-0.2
46.99
47.27
48.06 ^3
48.56 5^
55
^^•'' «8
49.69?°
50.29 ^ j 44.0
^^' 37
59-5
56.0 -:
49.9 ,'
i 474
1454
20
14
2.217
46*. 1 26
+1.978
86".Q5
-0.01
+ai3
-a.2
APPARENT PLACES OF STARS, 1913
391
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan,
Feb
0.8
10.7
20.7
30.7
9.6
19.6
Mar. 1.6
1 1.6
21.5
31.5
Apr. 10.5
20.5
30.4
May 10.4
20.4
30.3
June 9.3
19.3
29.3
July 9.2
19.2
29.2
Aug. 8.2
18.1
28.1
Sept. 7.1
17.0
27.0
Oct. 7.0
17.0
26.9
Nov. 5.9
15.9
25.9
Dec. 5.8
15.8
25.8
35.7
Seed, Tan «
Mfan Place
P Crnelf.
Mag. 1.5
Right
Atcenaian.
h
12
to
42
36.61
37.17
37.70
38.19
38.63
39.01
39.33
39.58
39.77
39.89
39.95
39.95
39.90
39.80
39.65
39.46
39.24
38.99
38.72
38.44
56
53
49
44
38
32
25
19
12
6
o
5
10
15
19
22
25
27
28
29
28
38.IS
37.87 ^^
37.60 ^7
37.36 ^^
37.16
20
3701
36.92
36.91
36.97
37.12
15
9
I
6
15
24
31
37.36
37.67 ,^
38.52 ^^
39.03
Decima-
tion S.
-59 12
//
32.3
34.1
36.4
39.1
42.1
18
23
27
30
32
39.58
40.14
40.71
51
55
56
57
45.3 „
48.6 ^3
52.0 ^^
55.5
58.9
62.1
65.1
67.9
70.4
72.5
74.2
75.5
764
76.8
76.8
76.3
75.4
74.0
72.2
70.1
67.8
65.3
62.8
60.3
58.0
56.0
54.3
53.0
52.3
52.1
52.5
53.4
54.9
35
34
32
30
28
25
21
17
13
9
4
o
5
9
14
18
21
23
25
25
25
23
20
17
13
7
2
4
9
15
1.954 -1.679
37«.7I7 48".2i
81 Conue.
Mag. 5.1
Right
Atcension.
h
12
47
+0.01
-0.4
-O.I I
-0.2
27.84
28.21
28.57
28.91
29.21
29.48
29.71
29.89
30.03
30.12
30.17
30.19
30.17
30.13
30.06
29.97
29.86
29.75
29.63
29.51
29.38
29.26
29.15
29.05
28.97
28.91
28.88
28.89
28.93
29.02
29.16
29.35
29.58
29.85
30.16
30.50
30.86
31.23
37
36
34
30
27
23
18
14
9
5
2
2
4
7
9
I
I
2
2
2
I
o
8
6
3
I
4
9
14
19
23
27
31
34
36
37
Declina-
tion N.
-f-28 O
38.1
36.2 '9
34-8 !'
33.8 '\
33.2 ^
33.1
33.5
34.2
35.3
36.7
38.2
39.8
41.5
43.1
44.7
46.1
47.3
48.2
48.8
49.2
49.3
49.0
48.5
47.7
46.5
45.0
43.3
41.3
39.1
36.6
33.9
31.1
28.3
25.5
22.7
20.1
17.7
15.6
4
7
II
14
15
16
17
16
16
14
12
9
6
4
I
3
5
8
12
15
17
20
22
25
27
28
28
28
28
26
24
21
88 H. Camelop. seq.
Mag. 5.3
Right
Ascension.
Declina-
tion N.
1. 133 +0.532
27".7ii 5o".o8
h m I ° '
12 48 +83 52
//
0.00 +0.03
-0.4 -0.2
[Bph 13]
33.27
35.44
37.59
39.65
41.53
43.17
44.52
45.52
46.15
46.40
46.26
45-75
44.91
43.77
42.37
40.77
39.02
37.17
35.27
33.37
31.52
29.77
28.15
26.70
25.45
24.43
23.67
23.20
23.02
23.15
23.60
2437
25.46
26.84
28.48
30.35
32.38
34.50
217
215
206
188
164I
I
135!
ITO
63
25!
14
"4
140
160
175
185
190
190
185
175
162
145
125
102!
76
47
18
13
45
77
109:
138
164
187
203
212
47.2
46.6
46.6
47.3
48.6
50.4
52.7
55.4
58.4
61.5
64.6
67.5
70.2
72.6
74.5
76.0
77.0
77.5
77.4
76.7
75.5
73.7
71.5
68.9
65.9
62.5
58.9
55.1
51.2
47.2
7
J3
18
23
27
30
31
31
29
27
24
19
15
10
5
I
7
12
18
22
26
30
34
36
38
39
40
39
43.3
39.6 37
36.1 3^
32.9
30.2
n Centauri.
Mag. 4.3
32
27
23
27.9
26.2
25.2
17
10
9382
28'.663
+9.328
68".8o
-0.05
-0.4
+0.61
-0.2
Right
Ascension.
h
12
m
48
Declina-
tion S.
s
36.16
36.57 tl
36.96 39
37.33 ^^
37.66 33
29
37.95
38.20
38.40
38.55
38.66
-3942
10.5
12.5 '^
^4-« 26
17.4 '^
38.73
38.76
38.76
38.72
38.66
38.57
38.46
38.33
38.19
38.04
37.89
37.74
37.59
37.46
37-35
37.27
37.23
37.23
37.28
37.39
25
20
15
II
7
3
o
4
6
9
I
3
4
5
5
5
5
3
I
8
4
o
5
II
17
37.56
37.79 ]L
38.07
38.40
38.77
28
33
37
40
39.17
39.58
40.00 ^
41
20.1
22.9
25.7
28.5
31.2
33.7
36.1
38.3
40.2
41.8
43.1
44.1
44.8
45.2
45.2
44.9
44.3
43.4
42.2
40.7
39.1
37.4
35.6
33.8
32.1
307
29.5
28.7
28.3
28.4
28.9
29.8
31.2
33.0
27
28
28
28
27
25
24
22
19
16
13
10
7
4
o
3
6
9
12
15
16
17
18
18
17
14
12
8
4
I
5
9
14
18
1.300 -0.830
36*.8io 21 ".25
0.00
-0.4
-0.05
-0.2
392
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jcui. 0.8
10.7
20.7
30.7
Feb. 9.6
19.6
Mar. 1.6
1 1.6
21-5
315
Apr. 10.5
20.5
30.4
May 10.4
20.4
30.3
June 9,3
193
293
July 9.2
19.2
29.2
Aug. 8.2
18.1
28.1
Sept. 7.1
17.0
27.0
Oct. 7.0
17.0
26.9
Nov. 5.9
159
25.9
Dec. 5.8
15.8
25.8
35.7
€ TJrsae Majoris.
Mag. 1.7
Richt
Ascension.
Sec S, Tan 6
Mean Place
D V a, Dm a
Df d, D« S
h
12
m
50
s
2.97
3.48
3.98
4.46
4.90
51
50
48
44
39
32
529
5.61
If J'
0.04
6.15
6.19
6.16
6.07
5-94
5.76
5-55
531
5.05
4.78
451
4.24
3.98
3.75
3-54
3.36
3-22
312
3.08
3.10
319
3.34
3.56
3.85
4.21
4.63
509
5.58
6.09
II
4
3
9
13
18
21
24
26
27
27
27
26
23
21
18
14
10
4
2
9
15
22
29
36
42
46
49
51
Declina-
tion N.
+56 25
ft
35.8
34-4
33-7
33-6
341
35.2
36.8
38.8
41. 1
43.7
46.4
49.0
540
56.1
57.8
591
60.0
60.4
60.4
59.9
58.9
57.4
55-5
53-2
50.5
47.5
44-3
40.9
37.3
33.6
30.0
26.5
23.1
20.0
17.3
151
135
14
7
I
5
II
16
20
23
26
27
26
26
24
21
17
13
9
4
o
5
10
15
19
23
27
30
32
34
36
37
36
35
34
31
27
22
16
1.808 +1.507
"•.343 54".77
-0.0 1
-0.4
40.IO
-0.2
(^Virginia.
Mag. 3.7
Richt
ABcension.
h
12
m
51
3.08
3.42
3.75
4.06 3!
4-34
34
33
28
25
4-59
4.80
4.97
5.10
5.20
526
5.29
5.30
5.28
524
5.18
5.11
5.03
4.94
4.85
4.75
4-65
4.56
4.48
4.41
436
4.34
4-35
4.40
4-49
4.62
4.80
5.02
5.28
5.57
5.89
6.23
6.57
21
17
13
10
6
3
I
2
4
6
7
8
9
9
10
10
9
8
7
5
2
I
5
9
13
18
22
26
29
32
34
34
Declina-
tion N.
+ 3 51
//
68.1
66.0
64.0
62.2
60.7
59.5
58.6
58.0
57.7
57-7
57.9
58.3
58.8
59.4
60.0
60.7
61.4
62.1
62.7
63.3
63.8
64.2
64.4
64.5
64.5
643
63.9
63.3
62.4
61.3
59-9
58.3
56.5
54-5
52.3
50.0
47.7
45.5
21
20
18
15
12
9
6
3
o
2
4
5
6
6
7
7
7
6
6
5
4
2
I
o
2
4
6
9
II
>4
16
18
20
22
23
23
22
1 .002 40.068
13". 225 72". 21
0.00 0.00
-0.4 -0.2
[Bph 13]
a Can. Ven. seq.
Mag. 2.9
Right
Ascension.
h
12
m
51
57*86
58.26 4°
58.65 3^
59.02
59.36
37
34
30
59.66
59.91
60.11
60.26 *5
60.36
25
20
10
60.41
60.42
60.39
60.32
60.23
60.12
59.98
59.83
59.68
59.52
59.36
59.21
59.07
58.94
58.83
58.75
58.70
58.69
58.72
58.80
3
7
9
II
4
5
5
6
6
5
4
3
I
8
5
I
3
8
14
19
24
58.94
59.13
59-37 ,^
59.66 II
59.99 g
60.35 _g
60.73 ll
61.13 ^^
Dcdina-
tiooN.
+3846
ft
61.7
60.0
58.8
58.1
57.9
58.3
59.2
60.5
62.1
64.0
66.0
68.1
70.2
72.2
74.0
I 75.6
I 76.9
77.9
78.6
78.9
78.8
78.3
77.4
76.1
74.5
17
12
7
2
4
9
13
16
19
20
21
21
20
18
16
13
10
7
3
I
5
9
13
16
19
23
72.6
67.8 '5
65.1 ''
62.1 30
31
59.0 ,,
55.8 ^'
52.6 3^
49.5 ''
46.5 ^"
27
43.8
41.4
39.4
24
20
1.283
57'.6i4
40.804
76".9i
0.00
-0.4
+0.05
-0.2
S Miisc«.
Mag. 3.6
Right
h
12
m
56
4-71 ;
6.26 "
6.93 ^^
59
8.02 5°
»•« to
«-73 1°
8.93 '°
It
9.04 ^
905
8.97
8.80 '7
8.55 ''
Declina-
tions.
-71 4
ff
8
8.23
7.85
7.41
6.93
6.43
5.92
5-41
4.92
4-47
4.09
3.78
3.57
3.48
3.51
3.67
3.96
4.38
4.92
5.57
6.30
7.09
7.91
8.74
32
38
44
48
50
51
51
49
45
38
31
21
9
3
16
29
42
54
65
73
79
82
83
29.9
31.3
33.2
35.6
38.4
41.6
45.0
48.6
52.2
55.9
14
19
24
28
34
36
36
37
36
34
59.5
62.9
66.2 ^^
69.2^
71.8 '^
74.1
75.9
77.2
78.1
78.5
78.3
77.6
764
74.8
72.8
704
67.8
65.0
62.2
59.4
56.9
54.7
52.9
51.6
50.8
50.6
51.0
52.0
23
18
13
9
4
y
12
16
20
24
26
28
28
28
25
22
18
13
8
4
10
3.084 -2.918
I5«.966 47"-27
4O.02
-04
-0.19
-0.2
APPARENT PLACES OF STARS, 1913.
393
FOR THE UPPER TRANSIT AT WASHINGTON.
f Virgliiii.
^ Viiflnlg.
48 Comas.
80 Cmnimi Venat.
Xooi Solar
Mag. 3.0
Mag. 4.4
Mag. 4.3
Mag. 4.7
Date.
Right
Declina-
Right
Dedina-
Right
Declina-
Right
Declina-
Aaoenskm.
tion N.
Ascension.
tionS.
Ascension.
tion N.
Ascension.
tion N.
h m
0 f
h m
e /
h m
0 /
h m
0 t
12 57
+ 11 25
13 5
-54
« 0
13 7
+ 28 18
13 13
+41 I
Jan. 0.8
B
50.66
28.6
s
26.31
WW
30-6 „
S
48.91
99
55.5 _
8
38.77 ^_
99
33.2
10.7
51.01 •'5
26.5 ^;
26.65 ^*
3'-8 ^
49-27 ^\
53-5 '°
39.17 ^^
31.3 '^
20.7
51-34 l^.
23.0 '
26.98 33
34-9 ^'
49-63 ^J
51-9 ;^
39.57 \^ 30.0 '^
30.7
51-65 11
27.30 11
36-9 8
3«-7 le
49-97 „
50.8 "
39.96 ^9
29.2 °
Feb. 9.7
5-94 11
21.8 '^
9
27.59 ^^
50.29 \^
50.2 \
40.32 ^^
32
28.9 ^
3
19.6
52.20
20.9
27.85 „
40.3 , ,
5°-57 ,^
50.0
40.64
29.2
30.0 ^
T 1
Mar. 1 .6
2 2
5'-4^ ,8
52.60 ••
20.4 ^
28.07 "
28.25 '*
41.6 '3
V V
50.81 ^4
50-3 ^
40.91 .;
11.6
20.2
42.7 "
51.01 »°
51.0 '
41.14'^
31.3 ^
21.5
52.74 *
20.4 I
28.40 '5
0
43-5 ,
44.1 3
51.17 ;j
5^-^ ;;
18
41.32 '
17
330 ^
315
52.84 '^
20.8 1
6
28.52 '^
51.28 "
7
53.5 ,♦
41.45 \
34.9 ;^
Apr. 10.5
52.91
21.4 g
22.2
28.60
44.4 ,
51.35 ,
55-» „
41.53 ,
37.0
20.5
52-94 ,
28.65 ^
44.5 ^
51.39 *
5«-6 8
60.4 !
41.56 \
39-3 ,^
30.4
52-95 -
^3-^ 0
28.67 *
44.5 ^
51.39 ,
41.55 .
41-6 ^
May 10.4
5293 ^
'^■' 0
28.66 '
44.3 .
51-36 \
41.50 ^
41.42
II
43-8 0
20.4
52.89 1
'5-* .0
28.64 "^
4
44.0 ^
4
51.31 ^
62.1 '7
«5
45« 7.
30.4
52.83 ,
26.2
28.60 ^
28.54 ;
43.6
51-23 „
63.6
41.31 „
47-6 ,6
49-2
June 9.3
52.76 ;
52.68 I
27.1 g
27.9 ,
43.2 ^
51-14 ,;
649 ^
41.18 '3
193
28.47 I
42.7 ;
51-03 "
66.0 ' '
41.03 ,^
40.87 ^
50.4 "
293
52.58 11
28.6 7
28.38 9
42.2 5
41.6 ^
50.91 \\
66.9 \
5'-2 !
July 9.2
52.48 '«
29.1 5
28.28 '"
50.78 '3
67.4 \
40.70 3
51.6 4
10
4
10
6
13
2
17
1
19.2
5238 ,„
29.5 ,
28.18
41.0
50.65
67.6
40.53 ,8
40.35 ,,
51.7 ^
29.2
52.28 °
29.8 3
28.08 '"^
40.5 \
50.52 3
67.5 '
51.3 I
50.5 ,^
Aug. 8.2
52.18 •«
29-9 _
27.99 ^
40.0 5
50.39 ,^
67.1 \
40.18 '7
18.1
52.09 I
29-7 ,
27.90 ^
27.82 I
39.6 *
50.27 "
66.4 7
40-03 \\
49.3 "
28.1
52.01
0
29.3 I
39.2 \
50.17 '^
65.4 '"^
14
39-89 1^
47« \\
Sept. 7.1
51.96
28.7 _
27.9 „
27.76
39.0 ,
50.09
50.03
64.0
3978 .
39.70
45.9 ..
17. 1
51.93 z
27.73 ^
38.9
^"•3 !^
1? 0
4'° ,8
38-" 30
27.0
51.93 °
26.8 "
27.73 .
39.0 \
50.01
60.3'°
39.66 4
Oct. 7.0
51.97 I
52.05
13
^5-5 [I
27.76 ^
39.3 ^
50.03
5«-^ I
39.66 °
17.0
^3-9 \l
27.84
12
39.9 3
50.09
II
557 :*
39.71 ,^
35.2 3°
26.9
52.18 ^
22.1
27.96
40.7 ,,
50.20
53-' ,.
39-81
3^-° ,,
Nov. 5.9
17
52.35 ^^
20
20.1
28.13 '^
41.8 "
50.36 '^
5°-3 !!
10
39-97 ,,
28.7 33
15.9
5^56 "
17.9 ",
28.35 "
«-^ 6
44-8 «
50.57
47-4 0
22
40.19 „
25.4 33
259
52.82 ^^
15-6 '^
28.60 ^5
50.82 ^5
44-5'^
40.46 'J
22.1 '^^
Dec. 5.8
53.11 ^^
13-2 '*
28.89 '^
46-6 :;
51.12 3°
41.7 ''
40.77 ,,
19.0 3'
32
24
32
20
33
27
35
29
15.8
53.43
10.8
29.21
48.6 ,
51.45 „
39.0 „
41-12
*^' ,/;
25.8
53.77 I'l
8.5^3
29.55 ,,
507 _
51.80 35
52.16 36
36.5 '^
41.50 J
13.5 '^
35.8
54.11 ^
6.2 ^3
29.89 ^^
52.8 "'
34-3
41.91 4'
II.4 ^^
Sec^»Tan5
1.020 40.202
1 .004 -0.089
1.136 +0.539
1.326 +0.870
Mean Place
SO-.y^S 35".54
26".622 29".l8
48'.9o8 68".22
38*.665 49".62
J)*fa,Dma
0.00 +0.01
0.00 -0.0 1 1 0.00 40.03
-0.0 1 40.06
D^6,Dmd
-04
-0.2
-0.4
-0.3
1 -0.4
-0.3
-OA
-0.%,
[Eph X3l
394
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.8
10.7
20.7
30.7
Feb. 9.7
19.6
Mar. 1.6
11.6
21.6
31.5
Apr. 10.5
20.5
30.4
May 10.4
20.4
30.4
June 9.3
19.3
29.3
July 9.3
19.2
29.2
Aug. 8.2
18.1
28.1
Sept. 7.1
17.1
27.0
Oct. 7.0
17.0
27.0
Nov. 5.9
15-9
259
Dec. 5.8
15.8
25.8
35-8
y Hydne.
Mag. 3.3
Sec d, Tan «5
Mean Place
Riffht
Ascension.
h m
13 14
s
0.75
I. II
1.47
I.81
2.12
36
36
34
31
28
2.40
2.64
2.84
301
3-14
324
330
3.33
3-34
3.32
3.28
3-22
3-14
3.04
2.94
2.83
2.71
2.59
2.48
2.39
2.31
2.26
2.25
2.28
2.36
2.48
2.65
2.87
3.14
3-45
3-79
415
451
24
20
17
13
10
6
3
I
2
4
6
8
10
10
II
12
12
II
9
8
5
I
3
8
12
17
22
27
31
34
36
36
Declina-
tion S.
-22 42
//
41.6
43.7
45.8
48.0
50.2
52.4
54-5
56.4
58.2
59.8
61.2
62.4
634
64.2
64.8
65.2
65.4
654
65.2
64.8
64-3
63.6
62.7
61.8
60.8
59.8
58.9
58.0
57-3
56.8
56.5
56.5
56.9
57-6
J58.6
60.0
61.6
63.5
21
21
22
22
22
21
19
18
16
14
12
10
8
6
4
2
o
2
4
5
7
9
9
10
10
9
9
7
5
3
o
4
7
10
14
16
19
I Centauii.
Mag. 2.9
1.084 ~<>-4i9
ir.316 45".99
Right I Dedina-
Ascension. I tion S.
h
13
m
15
-36 15
//
41.24
41.64
42.03
42.40
42.74
40 I
39 1
37-
34
31
18
4305
4332
43-54
4372
43.86 ^4
27
22
18
0.00
-0.4
-0.03
-0.3
43-97
44.04
44.07
44.07
44.04
43.99
43-91
43-81
43-69
43.55
43.41
43.26
43.11
42.97
42.85
42.75
42.68
42.66
42.68
42.76
42.89
43.08
43.33
43.63
43.97
44.34
44.73
45.13
II
7
3
o
3
5
8
o
2
4
4
5
5
4
2
o
7
2
2
8
13
19
25
30
34
37
39
40
4.6
6.4
8.5^^
10.8 ^3
13.3 ""^
15.8
18.4
20.9
23.3
25.6
27.8
29.8
31.6
33.1
34.4
354
36.1
36.5
36.6
36.5
25
26
25
24
23
22
20
18
15
13
10
7
4
I
I
4
7
10
12
36.1
35.4
34.4
^^•^ i^
31.8 '^
15
28.7 '^
27.2 '^
25.8 '4
24.5 '^
II
23.4
22.7
22.3
22.3
22.7
C^ TTrsaB Majorig.
Mag. 2.4
7
4
o
4
8
23.5 ,.
24.8 \l
26.4
16
1.240 -0.733
42*.oi8 I3".i8
+0.01 -0.05
-0.4 -0.3
lEph \i\
Right
Ascension.
h
13
m
20
50
25.81
26.31
26.81 50
27.29 ^
27.74
28.14
28.49
28.78
29.00
29.16
29.25
29.27
29.23
29.14
29.00
45
40
35
29
22
16
9
2
4
9
14
18
28.82
28.61
28.38 ,
28.12 ^^
27.85
21
23
27.58
27.31
27.05
26.81
26.59
26.41
26.27
26.18
26.14
26.17
26.26
26.42
26.65
26.95
27.32
27.74
28.20
28.68
27
27
27
26
24
21
18
14
9
4
3
9
16
23
30
37
42
46
48
Declina-
tion N.
+55 22
//
26.4
24.7
23.6
23.1
23.2
17
II
5
I
8
24.0
25.3
27.1
29.3
31.8^5
13
18
22
a Vixfiiiig.
Mag. 1.2
34.5
37.2
27
27
27
39-9 .6
42.5
44.8!^
20
16
13
8
3
2
6
II
16
20
24
28
31
33
35
37
26.5
22.8 37
19.I 37
15.6 35
12.3 33
29
9.4
6.9^5
4.8''
46.8
484
49.7
50.5
50.8
50.6
50.0
48.9
47.3
45.3
42.9
40.1
37.0
33.7
30.2
1.760 +1.448
25».56i 46".o8
-o.oi
-0.4
+0.09
-0.3
Right
Ascension.
h
13
m
20
s
36.00
36.35
36.69
37.01
37.31
35
34
32
30
27
37.58
37.82 ^^
38.02 ^^
38.19
38.32
17
13
10
38.42
38.48
38.52
38.53
38.52
38.49
38.44
38.37
38.29
38.19
38.09
37.99
37.88
37.78
37.69
37.62
37.57
37.55
37.57
37.64
37.75
37.91
38.11
38.36
38.64
38.96
39.30
39.64
6
4
5
7
8
10
10
ID
II
10
9
7
5
2
2
7
II
16
20
25
28
32
34
34
Declina-
tions.
-1042
26.8
28.9
31.0
330
35.0
36.8
384
39.7
40.8
41-7
42.4
42.9
43.1
43.2
43.2
43.1
42.8
42.4
42.0
41.5
41.0
40.4
39.8
39.2
38.7
38.2
37.8
37.6
37.6
37.8
38.2
38.9
39.9
41.2
42.8
44.6
46.5
48.5
21
21
20
20
18
16
13
II
9
7
5
2
I
o
I
3
4
4
5
5
6
6
6
5
5
4
2
o
t
ID
13
16
18
19
20
1. 018 -0.189
36>.462 26" A>
0.00
-0.4
-aoi
-0.3
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
395
MeaoSoUr
Date.
Jan. 0.8
10.8
20.7
30.7
Feb. 9.7
19.6
^r. 1.6
11.6
21.6
31.5
Apr. 10.5
20.5
30.5
May 10.4
20.4
30.4
June 9.3
29.3
July 9.3
19.2
29.2
Aug. 8.2
18.2
28.1
Sept. 7.1
17.1
27.0
Oct. 7.0
17.0
27.0
Nov. 5.9
15.9
^ 25.9
Dec. 5.9
15-8
25.8
35.8
Oroomtnidfe 8001.
Mag. 6. 1
Right
Ascension.
h
13
m
23
55.58
56.41
57.26
58.09
58.87
59.58
60.19
60.69
61.07
61.31
61.41
61.38
61.23
60.96
60.60
83
8.5
83
78
71
61
50
38
24
10
3
15
27
36
45
52
60.15
59.63 ^^
59.06 I]
58.45 ^'
57.82
63
63
Sec*, Tan d
Mean Place
57.19
56.57
55-97
55.41
54.91
54.47
54-12
53.86
53.70
53.66
53-75
53.96
54.29
54.75
55.33
56.00
56.75
57.56
62
60
56
50
44
35
26
16
4
9
21
33
46
58
67
75
81
Declina-
tion N.
+72 49
//
72.9
71.5
70.7
70.6
71.2
14
8
I
6
12
72.4
742 •«
76-5 II
79' '
82.0 '9
85.0
88.0 3°
91 .0 ^°
27
93.7 J.
96.1^^
98.2
99.8
100.9
IOI.5
IOI.5
21
16
II
6
o
5
lOI.O
1 00.0 *°
96.5 '°
2S
940 I
^^ 28
91.2
88.0^^
84.5 11
80.8 37
76.9 II
39
73-0 ,^
69.1^?
61.7 3^
58.4^^
55-6
53.3
51.5
23
18
3.389 +3.238
54-.8I8 94".83
-0.03
-0.4
+0.20
-0.4
70 Vlrginis.
Mag. 5.2
Right
Ascension.
h m
13 24
s
0.25
0.59
0.93
1.26
1.57
34
34
33
31
37
1.84
2.08 ^^
2.28
2.45
2.58
2.67
2.73
2.76
2.76
2.74
2.70
2.64
2.56
2.46
2.36
2.25
2.14
2.03
.92
.82
.74
.69
.67
.68
.73
20
>7
>3
9
6
3
o
2
4
6
8
10
10
II
II
II
II
10
8
5
2
I
5
10
.83
2.16 '^
2.39 ^^
2.66 ^7
31
2.97
3.30
3.64 ^^
33
Declina-
tion N.
+ 14 14
//
26.6
24.4
22.5
20.9
19.7
18.9
18.4
18.3
18.6
1 9. 1
19.9
20.9
22.0
23.2
24.4
25.6
26.7
27.6
28.4
29.0
29.5
29.8
29.8
29.6
29.1
22
19
16
12
8
5
I
3
5
8
10
II
12
12
12
1 1
9
8
6
5
3
o
2
5
7
9
12
28.4
27.5
26.3
24.8 '5
23.1 ''
21.2
19. 1
16.7
14.2
11.7
9.2
6.7
4.4
19
21
24
25
25
25
25
23
1. 03 1
10' .49 1
+0.254
35 "39
0.00 +0.02
-0.4 -0.4
[Bph 13I
K Octantia.
Mag. 5.6
Right
Ascension.
h
13
m
26
s
28.01
31.02 3°'
33-98 If
36-83 1%
39-49 ,^,
4190
4580 »78
I4.I
47=»i ,*'
48.24 '"^
Declina-
tion S.
-85 20
//
6
12
64
23
17
55
92
127
42.72
40.63 '°l
38.37 1\'
235
36.02
33.63 m
233
48.88
49.11
48.94
48.39
47-47
46.20
10.4
II.O
12.2
^3.9 II
16.2 ^3
27
18.9
22.0
25.4
29.0
32.8
31
34
36
38
38
38
37
36.6
40.4
44.1
47.6 35
50.8 3^
29
53.7
56.3
58.4
60.0
61.0
31-30
29.11
27.13
25-44
24.12
23.23
22.82
22.91
219
198
169;
132
89
41'
9;
61
1^3
161
23.52
24.65
26.26
28.30 ^^^
30.70 ^^°
270
3340
36.30 ^^n
39-30 3"^,
61.5
61.4
60.8
59.6
57.9
55.8
53.3
50.5
47-5
44-5
41.5
38.7
36.2
34.1
32.5
31-5
31-1
31-2
26
21
16
10
5
I
6
12
17
21
25
28
30
30
30
28
25
21
16
ID
4
X
C Virginia.
Mag. 3.4
Right
Ascension.
h
13
m
30
12.318
38". 29*
-12.277
27".65
+0.12
-0.4
-0.76
-0.4
34
Declina-
tion S.
-09
s
5-II
5.45 ,,
5.78 33 '
6.10 3^1
6.40 30 !
^ 28
6.68
6.92
7.13
730
7-44
24
21
17
10
7-54
7.61
7.65
7.67
7.66
7.63
7.58
7.52
7.44
7.35
7.25
7-14
7.03
6.93
6.84
6.76
6.70
6.68
6.69
6.74
6.84
6.98
7.17
7.40
7-67
7-97
8.30
8.63
7
4
2
5
6
8
9
10
II
XI
10
9
8
2
I
5
10
14
X9
23
27
30
33
33
//
9.0
II. I
13. 1
15.0
16.6
18.0
19.I
19.9
20.4
20.7
20.7
20.5
20.2
9-7
9.1
8.5
7-9
7.2
6.6
6.0
5-5
5.0
4.6
4.3
4.2
4-2
4-3
4-7
5-3
6.1
2]
20
19
16
14
II
8
5
3
o
2
3
5
6
6
6
7
6
6
5
5
4
3
I
o
I
4
6
8
1 1
7.2
8.5
20.1
21.9
23.8 '9
13
16
18
25.9
28.1
30.3
21
22
22
1. 000
I5'.5i7
-0.003
4".89
0.00
0.00
396
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
17 H. Canum Venat.
Mag. 5.0
Jan. 0.8
10.8
20.7
307
Feb. 9.7
19.7
Mar. 1 .6
1 1.6
21.6
315
Apr. 10.5
20.5
305
May 10.4
20.4
30.4
June 9.4
193
29.3
July 9.3
19.2
29.2
Aug. 8.2
18.2
28.1
Sept. 7.1
17.1
27.1
Oct. 7.0
17.0
27.0
Nov. 5.9
15.9
259
Dec. 5.9
15.8
25.8
35-8
Sec 6, Tan 8
Mean Place
DV a, Dm a
Df 8, Vm S
Right
Ascension.
h
13
m
30
54-77 ,^
55-55 II
55.93 \^
56.28 ^5
3^
56.60
56.88
57.12
57.31
57.46
28
24
15
10
57.56
57.62
57.63
57.60
57.54
57.46
57.35
57.22
57.08
56.93
56.77
56.60
56.43
56.27
56.13
56.01
5592
55.86
55.85
55.88
3
6
8
3
4
5
6
7
7
6
4
2
9
6
I
3
8
13
55.96
56.09
56.28 ^9
5^52 II
56.81 ^9
33
57.50 :^^
57.89 ^^
Declina-
tion N.
-f-37 37
tt
24.5
22.5
20.9
19.8
19.3
19.3
19.9
21.0
22.4
24.2
26.2
28.4
30.6
32.7
34.8
36.7
38.3
39.6
40.6
41.2
41.5
41.4
40.8
39.9
38.6
36.9
34.9
32.6
30.0
27.1
20
16
XI
5
o
6
II
14
18
20
22
22
21
21
19
16
13
10
6
3
I
6
9
13
17
20
23
26
29
31
24.0
20.8 ^^
33
32
31
30
17.5
14.3
II. 2
8.2
5.5
3.2
27
23
1.263 +0.771
54-.845 40^.50
-o.oi
-0.4
+0.05
-0.4
€ Centauri.
Mag. 2.6
Right j Declina-
Ascension. tion 8.
h m
13 34
s
20.64
21.15
21.65
22.13
22.58
51
50
48
45
40
22.98
23.34
23.65
23.91
24.12
24.27
24.37
24.43
24.44
24.41
24.33
24.22
24.07
23.89
23.68
23.46
23.23
22.99
22.76
22.55
22.38
22.25
22.17
22.16
22.22
22.35
22.56
22.84
23.19
23.60
24.05
24.54
2505
36
31
26
21
15
10
6
I
3
8
II
15
18
21
22
23
24
23
21
>7
13
8
I
6
13
21
28
35
41
45
49
51
-53
//
16.1
17.4
19.1
21.2
23.6
26.3
29.1
32.0
35.0
38.0
40.9
43.7
46.3
48.7
50.8
52.7
54.2
55.3
56.1
56.5
56.5
56.0
55.1
53.9
52.4
50.6
48.6
46.4
44.2
42.1
40.1
38.4
37.0
36.0
35.5
35.5
36.0
37.0
13
17
21
24
27
28
29
30
30
29
28
26
24
21
19
15
II
8
4
o
5
9
12
15
18
20
22
22
21
20
17
14
10
5
o
5
10
m Virgiiiis.
Mag. 5.2
1.663 -1.328
22*.oo8 28". 29
Right
Ascension.
h
13
s
m
37
2.09
2.43
2.77
3.10
3.41
3.69
3.94
4.15
4-33
4.48
4.59
4.67
4.72
4.75
4.75
4.73
4.69
4.63
4.56
447
4.37
4.26
4.15
4.04
3.94
3.86
3.80
3.77
3.77
3.82
3.91
4.05
4.24
4.47
4-74
5.05
5.38
5.72
34
34
33
31
28
25
21
18
15
II
8
5
3
o
2
4
6
7
9
xo
II
II
II
10
8
6
3
o
5
9
14
19
23
27
31
33
34
Declina-
tion S.
-815
53.1
55.1
57.2
59.2
61.0
62.6
64.0
65.2
' 66.2
67.0
I 67.5
67.8
I 67.9
67.9
,67.7
I
67.4
: 67.0
66.6
66.2
65.7
65.1
64.6
64.1
'63.6
63.1
62.7
62.5
62.5
62.6
62.9
+0.0 X -0.08
-0.4 -0.4
lEph i3l
20
21
20
18
16
14
X2
10
8
5
3
I
o
2
3
4
4
4
5
6
5
5
5
5
4
2
o
I
3
6
8
II
63.5
64.3
65.4
66.8 '4
68.4 '^
70.2
72.1
74.1
18
19
20
r Bo0tis.
Mag. 4.5
Right ! DecliiiA'
Ascension. 1 tiooK.
h
13
m
43
+ 17 5*
S
7.33
7.68 35
8.03 35
8.36
8.67
8.96
9.22
9.44
9.62
9-77
9.88
9.96
10.00
10.02
10.01
9.98
9.92
9.84
9.75
965
33
31
29
26
22
18
15
IX
8
4
2
I
3
6
8
9
10
12
12
9-53
9.28 '3
9.16 "
9.05
II
10
1. 01 1 -0.145
2*.620 5 1 ".60
0.00
-0.4
-0.01
-0.4
8.95
8.87
8.82
8.81
8.84
8.92
9.04
9.21
9.43
9.69
9.98
10.30
10.64
8
5
I
3
8
12
17
22
26
29
32
34
2«
i:f
73.3
71. 1
69.2 \l
67.6 '^
664
65.7
65.4
655
659
66.7
67.7
68.9
70.3
717
73-1
74.5
75-8
76.9
77.9
78.7
79.2
79.5
79.5
79.3
78.8
3
I
4
9
10
12
14
14
14
14
13
II
lO
8
5
3
G
a
5
78.0
' 10
75-7 ,i
7A-1 „
72-2 J
70.1
67.8
23
25
62.7
60.0
57.4
54.9
52.5
27
26
25
24
1.051 +0.323
7».667 83".87
o.c»
-04
40.02
-04
APPARENT PLACES OF STAES, 1913
397
FOR THE UPPER TRANSIT AT WASHINGTON.
7
ffJJnm MaJorU.
89 Virginia.
C Centauri.
V Botftia.
1 MetnSolar
Mag. 1.9
Mag. 5. 1
Mag. 3.1
Mag. 2.8
J Date.
1
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Aaoenakm.
tion N.
Ascension,
h m
tion S.
Ascension.
tions.
Ascension,
h m
tion N.
h m
0 /
0 /
h m
0
f
0 /
13 44
+49 44
M §
13 45
-17 42
13 50
-46,
51
13 50
+ 1849
Jan. 0.8
6.80
306
s
7-79 ,
2.7
s
505
28.2
s
32.17
49-4
I0.8
7-24*!
28.6 ^°
8.14 f
4-^0
5.50 y.
29.5
13
32.51 ^^
47.1 'I
20.7
7.68^4
27.1 ^5
8.49 35
6.6'°
5.96 ^^
311
16
32.86 ^^
45-2 '9
30.7
8.12 **
26.2 ^
8.83 34
8.6'°
6.40 ^^
33.1
20
33.20 ^^
43.6 '*
' Feb. 9.7
8-54 t«
25.9 \
9-'5^!
10.6 '°
6.82 ^^
35-3
22
3352 ^"^
42.4 'I
38
4
30
•9
38
24
29
8
19.7
Mar. 1.6
8.92
9.26 ^^
26.3
27.2 ^
9-45 ,6
9-71 ^
"•5 ,8
'5-9 ^
7.20
7-54 ''
37-7
40.3
26
26
34.07 ^
41.6
41.3 3
11.6
9-55 Z
28.7 '5
9-94 ,^
7.84 ^°
8.10 ^^
8.32 "
42.9
34.30 ;^
41.4
21.6
31.6
9-97 ,,
30.6 '9
32.8 "
10..3 9
10.29
17.3 *
18.5 "
45.6
48.2
27
26
34.49 ;^
34.65 '^
41.9 I
42.7 .
12
24
13 11
17
26
12
II
Apr. 10.5
10.09 .
10.15 ^
35-2 ,,
37.8 '!
10.42 19.6
8-49 ,,
50.8
*% p
34-77 „
43.8
20.5
10.51 \
20.5 ^
8.61 "
53.3
25
34.86 9
45-' \\
30.5
10.16
•
43- • ,.
10.57 J
21.2 '
8.69 f
55.6
23
34-91 5
46.5 ^
May 10.4
10.12 '^
10.61 ^
21.7 ^
8.73 *
57.7
2 1
34-93 ,
48.0 5
20.4
10.03 ^
45-5 '1
10.62
22.0 ^
8.73 °
59.6
19
3492 ,
49-5 \\
12
22
I
2
4
16
3
14
30.4
9-91 „
47-7 ,„
10.61
22.2
8.69 ,
61.2
3489 ,
50.9 ,,
June 9.4
9-76 '
49.6 9
10.57 \
22.2 °
8.62 ^
62.6
14
34-84 \
52.2 '3
19.3
958 «
51.1 ^
6
10.51
22.1 '
8.52 1°
63.7
II
34-77 \
53-4 !!
29.3
9-37
52.2 '•
52.8 ^
10.44 „
21.9 ^
8.38 4
8.22 •*
18
64.4
7
34-68 9
54-4 '°
55.2 «
July 9.3
9.15 "
23
10.35 ,^
21.6 ^
4
64.7
3
0
34-57 :;
19.2
8-92 „
530
10.24
21.2
20.6 J
20.0
804 ,„
64.7
34.45 ,^
55-8 ,
29.2
8-^ ,i
52.8 ^
10.12 •'
7-84 Z
64.3
4
34.33 ,.
56.1 3
Aug. 8.2
»•« 't
52> ,,
10.00 '^
7-64 '!
63.6
7
34.20 \\
56.1 °
18.2
8.22 =*3
49-3 ,^
9.89 11
19.3 ^
7-45 \l
62.6
lO
34.08 ^
55-9 ,
28.1
8.01 "
18
9.78 • '
10
18.6 7
7
61.3
13
16
33.96 '"
lO
55-4 \
Sept. 7.1
7.83 „
47-3 ,^
9.68
17.9 ,
7" „
59-7
_ 0
33.86
33.78 «
33.72
54-6 „
17.1
7.68 's
1 ¥
44.9^*
42.2 '7
9.61 7
17.2 7
6.98 '3
6.90 \
57.9
IS
18
53-5 :
27.1
7-57 "
7.51 ;
9.57 I 16.6 ri
56.1
5°S ,-
Oct. 7.0
39.. ^
9.57 .
16.I
6.87 3
54-2
19
18
33.70
17.0
750 '
35-8 ^f
9.61 \ 15.9 '
^•91 ^.
52.4
33.72
48-6 '!
5
35
9 0
10
17
7
22
27.0
7-55 „
32-3 ,,
=^8-7 ^'
9.70,^ 15.9 _
701 ,,
50.7
33.79 _ _
46-4 „
Nov. 5.9
7-67 "
9.84 \\
16.2 ^
7'8 !
49.2
15
33.90 .
44-0 '4
15.9
259
785 '*
8.10 '5
21.5 ,,
1003 ,,
10.26 ^\
16.7 I
17.S ^
7-42 :*
7.72 ^°
48.0
47.2
12
8
34-06
34.27 *
4'-5 i
38-9 f
Dec 5.9
8.41 3;
I8.1 3^
10.54^^ 18.6 "
8.08 36
46.9
3
26
34.53 _
36.2 '7
r "^ —
35
31
31 14
40
I
29
27
15.8
^•76 ,^
^50 ,0
10.85 ' 20.0 ,
8.48 ,,
47.0
34.82
33-5 ,
25.8
9-^^ It
12.2 ^^
11.19^^ 21.6 ^J
8-9' !«
47.5
5
35.14^^
30-9 ''
35.8
9.59 ^^
9.8"^
11.54'^^ j 23.4 '
9.37 ***
48.4
9
35.47 ^^
28.5 '4
^6, Tan 8
1.547 +1.181
1.050 -0.319
1.463 -1.067
1.057 -^0.34 1
kmn Place
6V869 49".70
8".470 4".o8
6*.32i 38".05
32-.541 6o".44
tyfm,I>ma
-0.01 +0.06
0.00 -0.02
+0.01 -0.06
0.00 +0.02
h^B.D^a
-0.4
-0.4 1
-0.4
-0.4
-0.4
-0.5
1
-o.\
-^.«»
£Bfih 13]
398
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.8
I0.8
20.7
30.7
Feb. 9.7
19.7
Mar. 1.6
1 1.6
21.6
31.6
Apr. 10.5
20.5
30.5
May 10.4
20.4
30.4
June 9.4
193
29.3
July 9.3
193
29.2
Aug. 8.2
18.2
28.1
Sept. 7.1
17.1
27.1
Oct. 7.0
17.0
27.0
Nov. 6.0
15.9
259
Dec. 5.9
15.8
25.8
35.8
ff Apodif.
Var. 5.5-6.6
Right
Ascension.
h
13
m
56
Sec*, Tan ^
Mean Place
DV a, Dm a
44-57
4569
46.82
47.92
48.97
49-95
50.84
51-62
52.28
52.81
53-21
53-48
53.62
53.62
53.49
53.23
52.85
52.37
51.79
51.13
50.42
49.68
48.93
48.19
47.50
46.89
46.39
46.03
45.82
45.78
45.92
46.26
46.78
47.46
48.29
49.24
50.29
51.39
Declina-
tion S.
-76 22
//
112
"3
110
105
98
89
78
66
53
40
27
14
o
13
26
38
48
58
66
71
74
75
74
69
61
50
36
21
4
14
34
52
68
83
95
105
no
3
10
24.0
24.3
25.3
26.8 '5
28.7 '^
24
31.1
*^ 28
33.9
37.0 ^*
40.3 ^^
43.8 ^5
35
47.3 ^.
50.9^
54.4 ^^
57.7 ^^
60.8^'
29
63.7 ^^
66.2 ^5
68.3 "
70.0
71.2
r viigiiiig.
Mag. 4.3
Right
Ascension.
17
12
7
71.9
72.0
71.6
70.7
69.3
I
4
9
14
18
67.5 ,^
65.2 'I
62.6 ^^
59.8
57.0
54-2
51-5
49-0
46.9
45.2
44.0
43.4
43-5
28
28
28
27
25
21
17
12
6
I
4.247 -4.127
48-.740 38".74
+0.05
-0.3
-0.24
-0.5
h
13
m
57
2.52
2.85
319
3-52
3.83
33
34
33
31
29
26
23
4.12
4.38
4.61
4-^^ 16
4.96'^
5-09
5-19
5.26
5-30
5.32
5-31
5.28
5-23
5-16
5.07
4.97
4.86
4.74
463
4.52
4-42
4-35
4-30
4.28
430
4.37
4-49
465
4.86
5-II
540
5-71
6.04
13
10
7
4
2
3
5
7
9
10
II
12
II
II
10
7
5
2
12
16
21
25
29
31
33
Declina-
tion N.
-f- I 57
ff
48.9
46.7
44.7
42.9
41-3
40.0
39.0
38.3
37.9
37.8
38.0
38.3
38.8
39.4
40.1
40.9
41-7
42.5
43.2
43.8
44-4
44-9
45.3
45.5
45-6
45-5
45.2
44.8
44.1
43.2
42.0
40.6
39-0
,37-1
35-1
33-0
30.8
28.6
22
20
18
16
13
10
7
4
I
2
3
5
6
7
8
8
8
7
6
6
5
4
2
11 Botftta.
Mag. 6.1
Right
Ascension.
3
4
7
9
12
14
16
19
20
21
22
22
1. 00 1 +0.034
i3'o63 54".58
0.00 0.00
-0.3 -0.5
h
13
m
57
8
3.49
3.85
4.21
4.56
4.90
36
36
35
34
31
28
24
20
5.21
5.49
5.73
5.93 _.
6.10 '7
13
6.23
6.32
6.37
6.39
6.38
6.34
6.28
6.19
6.08
5-96
5-82
5.68
5.53
5.39
5.25
5.12
5.02
4.95
4.91
4.92
4-97
5-07
5.23
5-44
5.69
5.98
6.30
6.65
6
9
I
2
4
4
5
4
4
3
10
7
4
I
5
10
16
21
25
29
32
35
Declina-
tion N.
+2747
//
69.0
66.8
64.9
63.4
62.4
61.9
61.9
62.4
63.3
64.6
66.1
67.9
69.8
71.7
73.6
75.4
77.0
78.4
79.5
80.4
81.0
81.3
81.2
80.8
80.0
78.9
77.4
75-6
73-5
71.2
68.6
65.8
62.9
59.9
56.9
22
19
10
5
5
9
3
5
8
9
9
9
8
6
4
I
9
6
3
I
4
8
II
15
18
21
23
26
28
29
30
30
29
/3 Cent
Mag.*
Right
Ascension.
27
54.0
48.8 ^5
1. 131
I3'.843
+0.527
82".9i
-0.0 1
-0.3
+0.03
-0-5
h
13
m
57
38.49 ^«
39.07 zl
39.66 59
40.24 5»
40.78
41.28
41.74
42.15
42.49
42.77
43.00
43.17
43.27
43.31
43.30
43.23
43.11
42.94
42.73
42.48
42.20
41.90
41.59
41.29
41.01
40.76
40.56
40.42
40.35
40.36
40.47
40.67
40.96
41.33
41.77
54
50
46
41
34
28
23
17
10
4
I
7
12
17
21
25
28
30
31
30
28
25
20
14
7
I
II
20
29
37
44
50
42.27
42.82 55
43.40
58
1-997
40«.409
4O.02
-0.3
APPARENT PLACES OF STARS, 1913
399
FOR THE UPPER TRANSIT AT WASHINGTON.
Meaa Solar
Date.
Jan. 0.8
I0.8
20. 8
30-7
Feb. 9.7
19.7
liar. 1.6
11.6
21.6
316
Apr. 10.5
20.5
30.5
May 10.5
20.4
30.4
June 9.4
19.3
293
July 9,3
193
29.2
Aug. 8.2
18.2
28.2
Sept. 7.1
17.1
27.1
Oct. 7.0
17.0
27.0
Nov. 6.0
15.9
25-9
Dec 5.9
159
25.8
35.8
Sec^,Tan^
Mean Place
n Hydne.
Mag. 3.5
Right
Aaoenaion.
h m
14 I
s
23.91
24.28 ^7
24.65 ^7
25.01
25.36
36
35
32
29
25.68
25.97 _
26.22 ^
26.44 ""^
26.62
26.77
26.89
26.98
27.04
27.06
27.06
27.03
26.98
26.90
26.80
26.69
26.56
26.43
26.30
26.17
26.05
25.96
25.90
25.88
25.91
25.99
26.12
26.30
26.53
26.81
27.13
27.48
27.84
18
15
12
9
6
2
o
3
5
8
3
3
3
3
2
9
6
2
3
8
13
18
23
28
32
35
36
Declina-
tion S.
-26 15
146.0
'47-7
49.5
51.4
53.4
55.4
57.4
59.3
6i.i
62.7
64.2
65.6
66.8
67.8
68.6
69.2
69.6
69.9
70.0
69.9
69.6
69.2
68.6
67.8
66.9
66.0
65.0
64.1
63.2
62.4
61.8
61.5
61.5
61.8
62.4
17
18
19
20
20
20
19
18
16
15
14
12
10
8
6
4
3
I
4
6
8
9
9
10
9
9
8
6
3
o
3
6
9
12
63.3
64.5
66.0 '5
I.I 15 -0.494
24*.8o6 49".42
D'^ a. Dm a
Dfd, D-d
40.0I
-0.3
-0.03
-0.5
0 Centauri.
Mag. 2.3
Right
Ascension.
h
14
s
32.37
32.77
33.17
33.56
33.93
34.27
34.58
34.86
35.10
35.30
35.46
35.59
35.68
35.74
35.76
35.75
35.71
35.64
35.55
35.43
35.29
35.14
34.98
34.82
34.67
34.54
34.43
34.36
34.33
34.35
34-43
34.57
34.77
35.03
35.33
35.67
36.04
36.44
m
I
40
40
39
37
34
31
28
24
20
16
13
9
6
2
I
4
7
9
12
14
16
16
15
13
II
mm
I
3
2
8
14
20
26
30
34
37
40
Declina-
tion S.
-35 56
//
26.3
27.7
29.4
31.3
33.4
35.6
37.9
40.1
42.3
44.4
46.4
48.3
50.1
51.7
53.0
54.1
55.0
55.7
56.1
56.3
56.2
55.8
55.2
54.3
53.3
14
17
19
21
22
23
22
22
21
20
19
18
16
13
II
9
7
4
2
I
4
6
9
10
12
52.1
50.8 '^
49.4 '^
48.1 ^3
46.8 '^
II
45.7
44.8
44.2
43-9
44.0
44.5
45.3
46.5
9
6
3
I
5
8
12
1.235 -0-725
33«.440 32".6o
-K>.oi -0.04
-0.3 -0.5
[Eph X3l
a. Diaconls.
Mag. 3.6
Right
Ascension.
h
14
s
1.90
2.49
3.10
3.71
4.30
4.85
5.35
5.78
6.13
6.39
6.56
6.65
6.65
6.57
6.41
6.19
5.91
5.58
5.21
4.81
4.39
3.96
3.54
3.13
2.74
2.39
2.08
1.83
1.65
1.55
1.54
1.62
1.79
2.05
2.40
2.84
3.35
3.91
m
2
59
61
61
59
55
50
43
35
26
17
9
o
8
16
22
28
33
37
40
42
43
42
41
39
35
31
25
18
10
8
17
26
35
44
51
56
Declina-
tion N.
+ 64 46
67.4
654
64.0
63.2
63.1
63.7
64.9
66.7
68.9
71.5
74.3
77.3
80.3
83.2
85.9
88.3
90.4
92.1
93.3
94.0
94.2
93.9
93.0
91.7
89.9
20
14
8
I
6
12
18
22
26
28
30
30
29
27
24
21
17
12
7
2
3
9
13
18
23
27
87.6
84.9 ^,
81.8 3'
78.4 3^
74.8
36
38
71.0
67.2
63.3
59-5
55.9
152.6
149.8
1474
38
39
38
36
33
28
24
2.348 +2.124
2 ".056 89 ".04
-0.03
-0.3
+0.12
-05
d Botftis.
Mag. 4.8
Right Declina
Ascension.
h
H
s
2549
25.84
26.19
26.54
26.87
6
35
35
35
33
31
28
25
22
27.18
27.46
27.71
27.93 ,^
28.10 '7
13
28.23
28.33
28.39
28.42
28.42
10
6
3
o
28.40
28.35
28.27
28.17
28.06
27.93
27.79
27.64
27.50
27.36
27.23
27.13
27.05
27.01
27.01
27.05
27.14
27.29
27.48
27.72
5
8
o
I
4
5
4
4
3
10
8
4
o
4
9
15
19
24
28
28.00
28.32
28.66 ^^
32
tion N.
-f-25 29
//
58.5
56.2
54-2
52.6
51.5
50.9
50.8
51.2
52.0
53-1
54.5
56.1
57.9
59.8
61.6
63.4
65.0
66.4
67.6
68.5
69.2
695
69.5
69.2
68.6
23
20
16
II
6
I
4
8
II
14
16
18
19
18
18
16
14
12
9
7
3
o
3
6
10
67.6
66.3
62.8 '9
60.6 "
13
16
58.1
55.4
52.6
49.7
46.7
43.8
41. 1
38.6
25
27
28
29
30
29
27
25
1. 108 +0.477
25"-9i5 7i".88
-o.oi
+0.03
400
APPARENT PLACES OF STARS, 1913,
FOR THE UPPER TRANSIT AT WASHINGTON.
K Vlrginig.
4 TJrsse Minoris.
2 Virginis.
a BoBtis.
Mean Solar
Mag. 4.3
Mag. 5.0
Mag. 4.2
Mag. 0.2
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right DecUna-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion S.
Ascension. ; tionN.
h m
0 /
h m
0 '
h m
0 /
h m
0 t
14 8
-952
14 9
+7756
14 II
-5 35
0 0
14 II
+ 1937
Jan. 0.8
s
1445 _ .
1 1.4
s
9-93
59-8 „
s
26.33
12.5
s
41.06
53-9 .
I0.8
1479 ^^
13-3 '9
10.98 '°5
58.0 '8
26.66 33
14-5 'I
414034
51-5 t
20.8
15-13 ^^
15-2 '9
12.09'"
56.8 "
27.00 34
16.5 *°
41.7434
494 '
30-7
1547 ^;
'7' :i
13.22 "3
56.2 *
27.33 ^^
18.4 ;9
42.08 34
47-7 'I
Feb. 9.7
^5-79 \^
18.9 '»
^4-33 "
56-3 '
27.65 3^
20.1 '7
42.40 32
46.4 '\
30
16
104
8
30
»5
30
8
19.7
16.09
^^•5 ,.
^5-37 „,
57-^ ..
27.95 ,,
21.6
42.70 ^^
45-6
Mar. 1 .6
16.36 ^7
21.9 '\
16.32 95
58-5 '*
28.22 ^7
22.9 '3
42.98 ^«
45-2 *
1 1.6
16.60 ^^
'^'' !o
^7-^4 S
6°-4 9
28.46 ^^
23-9 '!
43.22 ^4 45.2
21.6
16.81 ^^
16.99 ;^
24.1 '°
24.9 I
17.81 ^7
62.8 '^
28.67 ''
24.6 7
21
43-43 "
45-6 *
464 I
316
18.30 «
655 !I
28.85 '^
25.1 5
43-61 '8
14
5
30
30
15
3
14
tl
Apr. 10.5
1713
254 _
18.60
68.5
29.00
25-4 ,
43-75 ,^
47-5 ,,
20.5
17.24 "
25.7 I
18.72 "
71.6 3'
29.11 "
25-5
43-85 '^
48.8 '3
1 <
30.5
17-39 \
25.9 _
18.65 J
74-7 l[
29.20 ^
29.26
25-4 '
43-92 7
50.2 *
May 10.5
259 ,
18.41 **
77.7 I'l
25.2
4396 \
5'-7 ^
20.4
17.42 1
25.8 I
18.00 4'
56
80.4*7
24
29.29 3
24-9 3
4
43-97 J
53-3 „
30.4
17-42
25.6
'7-44 „
16.76 *®
82.8
29.30
24.5 _
43-95 ^
54-9 „
June 9.4
17.40
25.3 I
«4-9 "
86.5 ;
29.28 ^
24.0 5
43.91 *
43-85 \
56-3 !
19.3
17.36 \
1730 \
17.22
10
24.9 ^
15.97 11
1510 "^
29.24 ^
29.18 J
235 ^
57-5 ,;
293
245 ;
87-6 "
23.0 5
22.4
5
43-76 9
58.6 ' '
July 9.3
24.0 ^
5
14.16 94
98
88.2 ^
I
29.10
10
43.66 •"
12
59-5 \
19.3
17.12
23.5 ^
13-18
88.3
29.00
21.9
43.54 ,,
60.1
29.2
17.01 "
23.0 5
12.10 99
»7-8 5
28.89
21.4 5
43.41 "^
60.5 ^
Aug. 8.2
16.89 1^
22.5 5
11.21 98
86.8 '°
28.77 "
21.0 ^
43.27 '*
60.6
18.2
16.77 \\
22.0 ^
10.26 95
85-3 li
28.65 "
20.6 ^
43.13 X
60.4 "
28.2
16.66 "
21.6 4
936 ?°
83-3 '°
28.53 "
20.3 3
43.00 '3
59-9 g
10 1 4
83
25
10
2
12
Sept. 7.1
16.56 i21.2
8-53 „
80.8
28.43 «
20.1
42.88
59-' ,,
17.1
16.47 I
16.41 \
20.9 *^
7.80 73
7'9 Jl
77-9 ^9
28.35 I
20.0 ^
42.77 a
42.69 »
58.0
27.1
20.8 '
74-7 ^
28.29
20.1 '
56-6
Oct. 7.0
16.38 3
20.8 °
6.71 4*
71.2 ^^
28.26 3
20.3 ^
42.65 *
_ 1"
55° ,0
17.0
16.40 \
6
21.0 ^
4
6.38 33
10
67.5 ^^
39
28.27 I
20.8 3
7
42.64 '
4
53' I
27.0
16.46
214 ,
6.22
^3-6 ,„
28.33 ,„
21.5 .
42.68
5°-9 H
45» ,.
Nov. 6.0
^^•57 "
22.0
^•^4 '
59.6 f
28.43 ^
22-4 .;
42.77 9
15.9
16.73 ^
22.9 ^
6.44 !°
55.7 ^^
28.58 '5
^3-^ !
42.91 *^
259
16.94 '
^4-^ !
6.82 38
52.0^7
28.78 ^"^
26.6 ^\
18
43.10 *9
43-' :;
4°-3 ,8
Dec. 5.9
29
^5-5 \t
7.38 ^^
73
48.5 35
32
29.03 ^5
43.33 ^^
159
^748 _
27' „
8.II
45-3 „
29.31
28.4
43.60
37-5 ,.
25.8
17.80 ^^
^8-9 !
8.98 ^7
28
42.5
29.62 3^
30.3 '^
43.91 3'
34-8 ;
35.8
18.13 ^^
30.8 '9
9.97 99
22
40.3
29.95 ^3
20
32.3
44.24 33
32.3 ''
Sec S, Tan 8
1. 015 -0.174
4.790 +4685
1 .005 -0.098
X.062 -K).357
Mean Place
I5».i68 9".i8
10". 177
82".56
+0.26
27''.022 8".77
4i*.559 65".69
D'^ a, Dw a
0.00 -0,01
-0.07
0.00 -0.01
-O.OI .K).02
ZV ^,D^S ,
-O.J
^.5 1
-0.3
-0-5
-0.3
-0.5
-0.3
-o-S
lEpVi isA
APPARENT PLACES OF STARS, 1913
401
FOR THE UPPER TRANSIT AT WASHINGTON.
Vein Solar
Date.
Jan. 0.8
I0.8
20.8
307
Feb. 9.7
19.7
Mar. 1.7
11.6
21.6
31.6
Apr. 10.5
20.5
30.5
May 10,5
20.4
30.4
June 9.4
19.4
, 29.3
My 9.3
19.3
29.2
Aug. 8.2
18.2
28.2
Sept. 7.1
17.1
27.1
Oct 7.1
17.0
27.0
Nov. 6.0
15.9
Dec. 5.9
159
25.8
35.8
&c*,Taii^
^fom Place
1913
X BotftU.
Mag. 4.3
Right
Atcmakm.
h
fl
430
4.71
513
5.55
5.96
6.34
6.68
6.98
7.24
7.45
7.61
7.71
7.76
7-77
7.73
7.65
7.54
7.39
7.22
7.02
6.81
6.59
6.36
6.13
591
5.71
5-54
5.40
5.30
526
5.27
5.34
5.47
5.67
5.93
6.24
6.60
6.99
m
13
41
42
42
41
38
34
30
26
21
16
10
5
I
4
8
II
15
17
20
21
22
23
23
22
20
17
14
10
4
I
7
13
20
26
31
36
39
Declina-
tion N.
i+46 28
//
56.0
53-6
51.8
506
49.9
49-9
50.5
51.6
153.2
55.2
24
18
12
7
o
6
II
16
20
23
57.5
60.0^5
27
62.7
65.4
67.9
70.2
72.3
74.1
75.5
76.5
77.1
77.3
77.0
76.2
75.0
27
25
23
21
18
14
10
6
2
3
8
12
17
21
73.3
71.2
68.8 ^^
66.0^®
62.9
59.6
56.1
52.6
49.0
45.5
42.2
39.2
36.6
31
33
35
35
36
35
33
30
26
1452
4'-673
+ 1053
74".69
-0.02
-0.3
26
+0.06
-0.5
A. Virgliiis.
Mag. 4.6
Right
Ascension.
h
14
m
s
23.16
23.51
23.85
24.19
24.52
24.82
25.10
25.35
25.57
25.75
25.90
26.02
26.11
26.18
26.22
26.23
26.22
26.18
26.12
26.04
25.94
25.83
25.71
25.58
25.46
25.35
25.26
25.20
25.17
25.18
25.24
25.35
25.51
25.71
25.96
26.25
26.56
26.89
35
34
34
33
30
28
25
22
18
15
12
9
7
4
I
I
4
6
8
10
II
12
13
12
II
9
6
3
I
6
II
16
20
25
29
31
33
Declina-
tion S.
-12 58
ff
17.4
19.3
21.2
23.0
24.8
19
»9
18
18
17
26.5
28.0 "5
II
29.3 ^
30.4
31.3
II
9
7
32.0
32.5
32.9
33.1
33.1
33.0
32.9
32.7
32.4
32.0
31.5
31.0
30.5
30.0
29.5
29.0
28.6
28.3
28.2
28.2
28.4
28.9
29.6
30.6
31.8
33.2
34.8
36.6
5
4
2
o
I
I
2
3
4
5
5
5
5
5
5
4
3
I
o
2
5
7
10
12
14
16
18
1.026 -0.230
23".949 i6".02
0.00 -0.0 1
-0.3 -0.6
lEph 13]
8 Librae.
Mag. 6.3
Right
Ascension.
h
14
m
18
43.79
34
44.13 ,^
44.48 ^^
44.82 ^^
45.14
32
30
45.44
45.72
45.97
46.19
46.38
46.54
46.66
46.76
46.83
46.87
46.88
46.87
46.84
46.78
46.70
46.60
46.49
46.37
46.25
46.13
46.02
45.93
45.86
45.82
45.83
45.88
45.98
46.13
46.33
46.58
46.86
47.17
47.51
28
25
22
19
16
12
10
7
4
I
3
6
8
10
II
12
12
12
II
9
7
4
I
5
10
15
20
25
28
31
34
1.020
44*583
Declina-
tion S.
-II 19
#/
3.8
5.7
7.6
9-4
II. 2
2.8
4.2
5.5
6.5
7.3
7.9
8.3
8.5
8.6
8.5
8.4
8.2
7.9
7.5
7.1
6.7
6.2
5.7
5.2
4.8
4.4
4.1
3.9
3.8
3.9
4.2
4.7
5.5
6.6
7.9
19.4
21. 1
22.9
19
19
18
18
16
14
13
10
8
6
4
2
I
I
I
2
3
4
4
4
5
5
5
4
4
3
2
I
I
3
5
8
II
13
>5
17
18
-0.200
i".72
0.00
-0.3
-O.OI
-0.6
6 Botftis.
Mag. 4. 1
Right
Ascension.
h
14
m
22
371
4.15^^
4.60^5
5.05 ^^
5.49
5.91
6.30
6.64
6.93
7.16
7.34
7.46
7.52
7.53
7.48
7.39
7.25
7.07
6.86
6.63
6.38
6. II
5.83
5.56
5.30
5.05
4.83
4.65
4.52
4.44
4.42
4.47
4.59
4.78
5.04
5.36
5.73
6.14
44
42
39
34
29
23
18
12
6
I
5
9
14
18
21
23
25
27
28
27
26
25
22
18
13
8
5
12
19
26
32
37
41
Declina-
tion N.
+52 14
//
49.2
46.8 ^^
44-9 '^
43.7
43.1
43.1
43.7
44.9
46.6
48.8
51.3
54.0
56.8
59.6
62.3
64.8
67.0
68.9
70.4
71.5
72.1
72.2
71.8
71.0
69.7
68.0
65.8
63.2
60.3
57.1
53.6
50.0
46.3
42.5
38.9
35.5
32.4
29.7
12
6
o
6
12
17
22
25
27
28
28
27
25
22
»9
15
II
6
I
4
8
13
17
22
26
29
32
35
36
37
38
36
34
31
27
1.633 +1.291
I4«.i56 69^.03
-0.02
+0.07
402
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.8
I0.8
20.8
307
Feb. 9.7
19.7
Mar. 1.7
11.6
21.6
31.6
Apr. 10.5
20.5
30.5
May 10.5
20.4
30.4
June 9.4
19.4
293
July 9.3
19.3
29.2
Aug. 8.2
18.2
28.2
Sept. 7.1
17.1
27.1
Oct. 7.1
17.0
27.0
Nov. 6.0
15.9
259
Dec. 5.9
15.9
25.8
35.8
/ Botftis.
Mag. 5.4
Right
Ascension.
h m
14 22
8
23.98
24.32 ^^
24.66 ^^
25.CX> ^^
25.33
Sec d, Tan d
Mean Place
DV a, Dm a
D^ 8, Dm 6
25.64
25.92
26.17
26.39
26.57
26.72
26.84
26.93
26.98
27.CX>
26.99
26.96
26.91
2683
26.73
26.61
26.48
26.34
26.20
26.06
25.93
25.82
25.74
25.69
25.67
25.70
25.78
25.91
26.09
26.31
33
31
28
25
22
18
15
12
9
5
2
3
5
8
o
2
3
4
4
4
3
II
8
5
2
3
8
13
18
22
27
26.58
26.88 ^"^
27.20 ^^
Declina-
tion N.
+ 1936
ff
5^-3 ,^
48.9 ^1
46.8 ^'
45.1 ''
43.8 '?
43.0
42.6
42.6
43.1
43.9
45.0
46.4
48.0
49.6
51.3
52.9
54.4
55.8
57.0
58.0
58.7
59.2
59.4
59.3
58.9
58.3
57.3
56.0
54.4
52.6
50.5
48.2
45.6
42.9
40.2
37.5
34.8
32.3
8
4
o
5
8
I
4
6
6
7
6
5
4
2
o
5
2
I
4
6
10
»3
16
18
21
23
26
27
27
27
27
25
<p Virgliiis.
Mag. 5.0
1.062
24'.542
+0.356
63".23
Right
Ascension.
h
m
23
-O.OI
-0-3
+0.02
-0.6
8
42.38
42.71
43.05
43.38
43.70
44.00
4427
44.52
44.74
44-93
45.08
45.20
45.30
45.37
45.41
45.42
45.41
45.38
45.32
45.24
45.15
45.04
44.92
44.80
44.68
44.57
44.47
44.40
44.36
44.36
33
34
33
32
30
27
25
22
15
12
10
7
4
I
I
3
6
8
9
II
12
12
12
II
10
7
4
o
4
9
14
44.40
44.49
44.63 ,^
44.82 II
45.05 ^5
^532 ,^
45.62 30
45-94 ^
Declina-
tion S.
- I 50
//
23.6
25.6
27.6
29.4
31.0
32.4
33.5
34.4
35.0
35.3
35.3
35.1
34.8
34.3
33.7
33.1
32.4
31.7
31.0
30.4
29.8
29.3
28.9
28.6
28.4
28.3
28.4
28.6
29.0
29.6
30.5
31.6
33.0
34.6
36.4
38.3
40.3
42.3
20
20
18
16
14
II
9
6
3
o
2
3
5
6
6
7
7
7
6
6
5
4
3
2
I
I
2
4
6
9
II
14
16
18
19
20
20
1. 001 -0.032
43".i02 18". 22
0.00 0.00
-0.3 -0.6
[Bph x3]
5 TSnm XinoxiB.
Mag. 4.4
Right
Ascension.
b
14
m
27
89
95
98
40.88
41.77
42,72
^370 ^^
94
^^•^^ 87
46.49 J^
47-26 II
47.90 "2
48.40 5^
34
48.74
48.92
48.94 ,,
48.80 "1
18
2
48.52
48.11
47.58
46.94
46.22
45.44
44.61
43.75
42.88
42.03
41.22
28
41
53
64
72
78
83
86
87
85
81
76
40.46
39.77 ,^
38.70 4^
38.34
38.13
38.07
38.17
38.44
38.87
39-45
40.17
41.00
69
36
21
6
10
27
43
58
72
83
Declina-
tion N.
+76 4
//
35.6
33.5
32.0
31. 1
30.9
31.4
32.6
34.3
36.5
39.1
42.0
45.1
48.2
51.3
54.2
56.8
59.1
60.9
62.3
63.2
63.6
63.4
62.7
61.4
59.6
21
15
9
2
5
12
17
22
26
29
31
31
31
29
26
23
18
14
9
4
2
7
13
18
22
26
57.4
54-8 ,,
51.8 3°
48.4 34
44.8
36
38
41.0
37.1
33.2
29.4
25.8
22.4
19.4
17.0
39
39
38
36
34
30
24
4.156 +4.034
41 '.630 58". 15
-0.06
-0.3
+0.22
-0.6
pBotftU.
Mag. 3.8
Right
Ascension.
m
h
14 28
8
4.32
4.67
5.02
5.38
5.73
6.06
6.36
6.63
6.87
7.07
7.23
7.35
7.43
7.48
7.49
7.47
7.42
7.35
7.25
7.12
6.98
6.83
6.66
6.49
6.33
6.18
6.04
5.93
5.86
5.82
5.83
5.90
6.02
6.19
6.41
6.68
6.99
7.32
35
35
36
35
33
30
27
24
20
16
12
8
5
I
5
7
o
3
4
5
7
7
6
5
4
I
7
4
I
7
12
17
22
27
31
33
Declina-
tion N.
+3044
//
20
16
II
52.6 ^5
50.6
49.0
47.9
47.3
47.2
47.7
48.6
49.9
51.6
53.5
55.6
57.8
59.9
61.9
63.8
65.5
66.9
68.1
68.9
69.4
69.5
69.2
68.5
67.5
66.1
64.4 21
^2.3 ,^
59.9 26
5
9
13
17
19
21
22
21
20
19
17
14
12
8
5
I
3
7
10
14
17
57.3
54.4
51.4
29
30
3<
48.3 3,
45-2 3,
42.1 29
39.2 ,7
36.5 _
1. 164 +0.595
4V862 7o''.27
-o.oi
-0.3
+0.03
-0.6
APPARENT PLACES OF STABS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
403
;'Ba«Ua.
UonSolu
Hag. 3.0
Date.
Rifht
D«lin.-
tionN.
A 2"8
+3840
Jan. 0.8
34.01
61.1
I0.8
34.38 "
58-6 ''
20.8
-?
30-7
Feb. 9.7
54-1 ,
>9-7
35.86
53-7 ,
Mar. t.7
36.19 M
53-9 ;
11.6
36.48 ''
"■' „
21.6
36-73 "
57-6 ll
31.6
36.94 ,5
Apr. 10.6
37"0 ,,
59-6
20.5
37.22
61.9 "
30.5
37.30 '
'♦■3 ;
May 10.5
37-34 *
*'■' 1
J0.4
37.34 ^
69.1-
. 30.4
37.31
71.4,,
June 9.4
S?'" ,0
'3-5 ",
19.4
37.14 °
75-3 '
19-3
37.01 "
76.8 'S
July 9-3
36.86 ;i
78.0 -J
19-3
36.69 ''
78.8
^9.3
36.50 "
79.2 «
Ans. 8.2
3'-3' '
79.2 °
i8.J
36.11 '°
78.8 »
28.2
=i5" ;i
77.9 ,^
Sqit. 7.1
-«::
76.6
17.1
'*•' 1
27.1
35-45 "
72.9 ;°
Oct. 7.,
35-36 '
70.5 ''
.7.0
35-31 5
67.8 ''
30
27.0
35.31
35-37 „
64.8
Nov. 6.0
61.6 3'
16.0
3548 ;
58-3 f
25-9
35-65 '
54-9 "
Dec. 5.9
^^■''11
51-55;
15-9
36-16
■t'-^ „
35.8
36-48 5'
45-3 »!
35.8
36-83 55
42.6 "
&c«,Tan»
1.281 -to.fioi
Mean Place
34'-53« 78".2»
O-*.,!)..
-o.oi -to.c^
I>t<.D.«
-0.3
-0.6 1
404
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
88 Botftis.
a Apodls.
/i Virginis.
f BoStit.
Mean Solar
Mag. 5.4
Mag. 3.8
Mag. 4.0
Mag. 2.7
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Dedinm-
Ascension.
tion N.
0 /
Ascension.
tion S.
Ascension.
tion a
0 /
Ascennon.
tionN.
h m
h m
0 /
h m
h m
0 «
14 35
-1-4446
14 36
-78 40
14 38
- 5 16
14 41
-1-2725
mm
Jan. 0.8
s
3546 -
277 .
8
53-93 .,„
r r
23.1
27.58
W 9
54-5
s
10.61
WW
71.2
I0.8
35-84 ll
20
^5-» ,°
55-23 ]l°
22.8 3
27.91 33
56-5 '°
10.94 33
68.7 '5
20.8
36.24 ^°
/•^ , 20
23.1
56-58 ^5
23.1 I
28.25 34
58.4 '9
11.29
66.6 ^'
30.7
3665 *'
21.6 ^5
57-94 ^^
23.9 ^!
28.58 33
60.2 '8
11.6435
64-9 •'
Feb. 9.7
3705 t°
20.7 ^
59-27 '-^
25.2 '2
28.91 33
61.8 '^
11.9334
63-7 "
38
3
127
18
31
15
33
8
19.7
37-43 „
20.4
^°-54 . ,„
27.0
29.22
633 ,
'2-31 ,„
62.9
Mar. 1.7
37.78 ^5
20.7 ^
^'•73^^
29.3 I
2950 ll
64-5 '^
12.61 3°
62.6 3
11.6
38.10 3^
21.6 9
62.82 '°9
31.9''
29.76 ^J
65-4 9
.2.89 ^«
62.9 3
21.6
38.38 ;
23.0 ;4
6379 11
34-8 !
29.99 3
66.1 7
»3-i3 t
63-7 ,
316
38.61 ^
^4-9 ^
64.62 *3
38.0 32
30.19 ^'''66.6 5
13-34 "
64.8 "
18
22
69
33
17
2
«7
"5
Apr. 10.6
38.79 ,,
^7-^ ,.
*^5-3i ,,
4»-3 _
30.36
66.8
13-51 .,
66.3 -
20.5
38.92 '3
'9-5 !^
65-84 "
44.7 3^
30.50 '4
66.8 "
13.64 '3
68.1 "
30.5
39.00
32.1 ^
66.20 36
48.2 35
30.61 "
66.7 '
13-74 '!
70-0 !'
May 10.5
3904 ;
34«
37-4 ,°
66.40 *°
51.6^4
30.70 I
30.76 ^
66.4 3
13-81 ^
72.0 °
20.4
3903 ,
66.44 .tl 54-9 33
66.0 4
13-84 3
74-»"
5
24
13
31
3
5
0
20
30.4
38.98 ,
38.90 !
39-8
66.31
5^-^ ,«
30.79 .
65-5 ,
13-84 ,
76. » .„
June 9.4
4'-' ^0
66.02 '9
60.8 ^^
30.79 .
65-0 5
13-81 3
78.0 9
19.4
38.78 "
20
45-7 ,
65-57 t«
^3-3 '^
30.77 ^
64-4 \
13-75 f
79-7 ;
29.3
38.63 5
64-99 5°
65.5 !
30.72 ^
63.8 J
13-66 9
81.2 'S
July 9.3
38.45 '*
20
47.0 '3
^^^-9 ^°
67.2 '7
12
30.65 7
63-2 \
13.55 "
13
82.4 "
9
19.3
38.35 „
47-8 ^
63-49 go
62.61 **
68.4
30.56 ,^
62.7
13-42 ,^
83-3 ,
83-9 *
293
38.03 "
48.2 4
69.1 7
30.46 ^
62.2 ^
13-27 ^
"•95 ,
Aug. 8.2
37.81 "
48.1 '
61.69 9^
69.2 ;;
30.34
61.8 4
84.1 \
18.2
37.58 11
47-6 5
60.77 9^
68.8 4
30.21 3
61.4 4
84-0
28.2
37-35 :.
46.7 9
59-87 r
67.9 9
30.08 '3
61. 1 3
12.79 '^
83.5 5
31
«4
84
14
12
2
16
V V 8
Sept. 7.1
37-^4 ,„
45-3 .„
59-03 „
^^•5 ,n
29.96
60.9
12.63 ,,
82-7 „
17.1
36.95 \l
36-79 t
43.5 ll
58-29 !^
57-69 ^
64.6 ^
29.85 "
29.77 ^
60.9 ^
12.49 ^
81.5
27.1
4' -3 "
^^•3 3
61.0 '
12.38 "
80.0 '5
Oct. 7.1
36.67 'I
38-7 ll
57-26 «
59-7 S
29.72 5
61.2 ^
12.30 \
78.1 '9
17.0
36.60 7
35-8 !
57-02 "*
56.9 ''
29.71
61.6 4
12.26 4
75-9 "
2
32
3
29
3
7
0
24
27.0
36.58
32-6
56.99 ,„
540 ,^
2974 «
62.3
12.26
73-5 „
Nov. 6.0
36.62 *
29.2 •'^
57-'9 ,':
5'-^ ,^
29.82 ^
632 ^^
12.31 5
7°-8 I
16.0
36.72 ]l
^5-7 ^^
57.62 «
58-26 ll
48.4 11
2995 _^
^^•3 :
12.57 ^^
67-9 z
25.9
36.88 '^
22.1 36
45.9 ^,
30.12 '
65.7 1
64-9 ^°
Dec. 5.9
37.11 ^^
18.6 35
59.10 J>
43.7 "
3°-34 "
67.2 ^i
12.78,^
6'-9 3°
28
34
102
17
26
17
25
30
15.9
37.39 „
15-2 ,
60.12
42.0
30.60
^^•9 ,.
^303 ,^
589 ,„
25.8
37.72 33
12.1 3>
61.28"^
40.8
30.90 3^
70.8 '9
13.32 ^
56-0 '
35.8
38.08 36
9.3
62.54'^'
40.1 "^
31.22 3 72.7 '^
13.65 33
53-3 ''
Sec<5,Tan<5
1.409 +0.992
5.094 -4.995
1 .004 -0.093
1. 127 +0.519
Mean Place
36V032 46".09
-0.02 +0.05
59'.789 35"-33
28-.4I5 49".77
"•.253 85".67
D'^ a, Dw a
+0.08 -0.26
0.00 0.00
-0.0 1 +0.03
Dtl,d,DmS
-0.3
-0.6
-03
-0.6 1
^.3
-0.6
-0.3
-0.6
iBph X3)
APPARENT PLACES OF STARS, 1913. 405
FOR THE UPPER TRANSIT AT WASHINGTON.
406
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
/3 Ursse Kinorls.
^ Librae.
Piazzi 881.
)^ Lupi.
Mean Solar
Mag. 2.2
Mag. 5.6
Mag. 5.8
Mag. 2.8
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Dedina-
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion N.
Ascenstoa.
tiooa
h m
0 /
h m
0
/
h m
0
t
h m
• f
14 50
+7430
» 0
14 52
— II
3
H 52
+ 1447
ff
14 52
-4246
Jan. 0.8
s
55-61
'7-5 ,,
s
'•73 „
36.4
s
6.01
39-4
47.99^,
58.3 .
I0.8
56.38 I'
15.1 '\
2.06 33
38-1
17
6.33 3;
37.0
24
48.414^, 58.9 "
20.8
57.22 I*
13.3 '*
2.39 33
39.9
18
6.66 33
34.9
21
_ a
48.84 « 59.9 ^
30.8
58-10 f
12.1 '^
2.73 34
41.6
17
6.99 33
33.1
18
49-27 ^3 61.2 ^
Feb. 9.7
58-99 «^
II.6 5
2
3.06 33
32
43.2
16
15
7.32 33
31.6
>5
II
49.69 4^ 62.7 *
41 17
19.7
59-86
11.8
338 ,„
44.7
7-63 ,„
30.5
6
50.10 64.4 _
Mar. 1.7
60.68 *^
12.6 "
3.68 30
46.0
13
7-92 Z
29.9
50.48 38
^•3 ^
1 1.6
61.42 74
HO ^0
i-95 '\
47-1
II
8-'9 I
29.7
2
50.83 35
68.3 ^"^
21.6
62.06 ^*
lO.O
4.'9 \\
48.0
9
8-43 \\
29.9
2
5-5
51.43 ,3
mm^ ..21
70.4
316
62.58 11
^«-5 :i
4.41 "
19
48.7
7
5
8-64 ''
^ 18
304
5
9
72.5 "
21
Apr. 10.6
62.96
2*-3 ,„
4-6o .,
49.2
8.82
31.3
51.68
74-6 ,„
20.5
63.21 ^5
24.3 3°
4.76 ^
49.5
3
8.97 ;3
32.4
1 1
51.89 '
76.6 ="»
30.5
63.32 •'
27.4 3
'^•^^ \l
49.7
2
9-09 '\
9.17 °
33.7
13
52.06 7
7»-5 '
May 10.5
63.28 4
3°-5 ^'
4.99 '°
49.7
0
35.2
>5
16
15
52.18 '^
80.4 "
20.5
63.11 '7
30
33.5 ^°
5.06 7
4
49.6
I
2
9.22 *
2
36.8
52.27 ^
82.1 'I
16
304
62.81
36-3 „
5.10
49.4
0^
9.24 0
38.3
V M
52.32
f^'' u
June 9.4
62.39 :,
38.8 ^5
5-12
49.1
3
924 ,
39.7
14
52-33 ,
85-1 *
19.4
61.27 ^
60.60 ^7
40-9
5" I
48.8
3
9.21 ■»
41. 1
14
52.30 3
86.3 '
293
42.6 7
5-07 Z
5.01
48.4
4
916 5
42.4
13
52-23 ,;
87.2 9
July 9.3
43.9 '^
48.0
4
43.5
II
52-»3 °
87-9 ]
73
7
9
4
10
9
14
4
193
59-87 „
44.6 ,
4.92 „
47.6
8.98
44.4
6
5'-99 ,.
5' 65 !
88.3 ,
29.3
59. 'o"
44.8 ^
4.8,
47.1
5
8.86 "
45.0
88.4
Aug. 8.2
583 1 ^^
44-5 „
4.69
46.6
5
8-72 ll
45.4
4
88.2 '
18.2
5752 !:
43-6 ,?
4.56 3
46.2
4
8.58 4
45.6
2
51.46 9 1 87.7 *
51.27 9 86.9 *
28.2 56.75 ^^
42.2 '4
4.43 '3
45.8
4
8.44 '4
45.5
I
73
19
13
3
>4
4
19 10
Sept. 7.2
55-34 ^
54-74 ^ ,
40-3 „
4.30 ,,
45.5
8.30 ,,
45.1
51.08 85.9
17.1
35-2
4.18 '^
45.2
3
8.17 '3
44.4
7
50.91 ' 84.7
27.1
4.09 \
4.03
45.0
3
8.07 'I
7.99 J
43.5
9
50.78 '3
83-3 !
.Oct. 7.1
54-23 ^„
32.1 3'
45.0
0
42.3
12
50.69 9. 81.8 1^
17.0
53-83 t«
28.7 34
4.01
45.1
I
7.95 I
40.8
»5
50.65 4
80.2'"
28
37
2
3
0
18
2
15
27.0
53-55 ,,
21.2 38
4.03 .
4.09 ,^
45.4
m
7.95 ,
39.0
f%t^
50.67
78.7 .,
Nov. 6.0
53.41 '\
45.9
5
8.00 ^
37.0
20
50.75 ,^ 77.4;^
16.0
5342 ,
17.3 39
4.21 '^
46.6
7
8.10 '"
34.7
23
50.90 ^ 1 76.2
25.9
53.58 ;
'3-4 ^'
4.38 '7
47.5
9
8-^5 :^
32.3
24
5I.II 75.2^
5^-^^ 33 7^-5 3
Dec. 5.9
53«9 j;
9.6 38
35
4-^^ ^6
48.7
12
14
8-45 '°
24
29.8
25
26
159
54.35
6.1
4.86
50.1
8.69 „
27.2
^
51.72
74-2
25.9
54.94 1,1
3.0 3'
5-15 Z
51.6
15
Q ^X 28
8.97 ,,
24.6
26
52.09 ^7
I
74-3 .
35.8
55.64 ^°
0.2 '^
5.46 3'
53.3
17
9.28 3'
22.2
24
52.50 ^'
74-7 *
Sec <5, Tan 5
3-743 +3-608
1.019 -o.n
1.034 +0.264
1-363
-0.926
Mean Place
56«.879
-0.06
39"-70
2".679 32".9
I
6'.774 50" .47
49'-527 63".39
D'l^ a, Dm a
-K).l8
0.00 -O.OI
0.00 +0.01
+0.02 -0.04
D^ 8, Dm S
-0.3
-0.7
-0.3
-0.7
-0-3
-0.7
-0-3
-0.7
lEph 1,1
APPARENT PLACES OF STAES, 1913.
407
FOR THE UPPER TRANSIT AT WASHINGTON.
SlAhrm.
y? Botftis.
>^ ScorpU.
^ BoStis.
Mesn Solar
Var. 4.8-6.2
Mag. 3.6
Mag. 3.4
Mag. 4.7
Date.
Right
Declina-
Right
Declina-
Right
Declir
a-
Right
Declina-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion N.
h m
0
/
h m
0 /
h m
0
/
h m
0 f
14 56
- 8 ]
It
[O
14 58
+4043
It
14 58
-2456
15 0
-1-27 16
Jan. 0.8
'^"35 „
32.0
18
18
s
39.38
39.74 ^;
42.0
s
57.33 „
25.9
8
42.28
WW
56.3 ,
I0.8
18.67 11
33.8
39-3 ,,
57.68 35
27.1
12
42.61 ^^
53.7 '*
20.8
I9.cx> ^^
35.6
40.11 ^7
37-' "
58.04 3^
28.5
»4
42.95 ^^
51.4 '\
30.8
1 9-34 11
37.3
»7
16
40.49 ^^
40.87 ^^
35.4
58.40 3J
58.76 36
30.0
15
16
43.30 35
49.6 •;
Feb. 9.7
19.67 ^^
38.9
34.2 "
31.6
43.64 ^^
48.3 '3
31
15
37
6
34
16
33
9
19.7
19.98
40.4
41.24 .^
33-6
59.10
33.2
_ ^
43.97
47.4
Mar. 1.7
20.27 ^
41.6
12
41.59 ^^
33-6 °
59.42 3
34.8
16
44.28 3^
47.0 *
11.7
20.54 ^^
20.79 11
42.6
10
ft
41.91 ^g
34.2
59.72 ^!
36.3
15
T A
44.56 ^J
44.82 '^
3
47.2 ;
21.6
43.4
0
42.19'^
35-3 '
59.99 ^,
37.7
*4
47.9 ^
316
22
21.01
43-9
5
42.43 ,^
36-9 !^
60.23 '^
39.0
13
22
45.04
II
49.0
19
3
20
20
21
12
19
>4
Apr. 10.6
21.20 ,
21.36 \t
44.2
«
42.63 ,
42.79 t
38.9 „
60.44 ,«
60.62 '^
40.2
w m
45.39
50.4 „
20.5
44.3
1
41.2 \\
41.3
I I
52.1 '7
30.5
21.49 ,1
44.3
0
42.91 '^
43-7 ,^
46-3 'J
48.9 '^
25
60.77 \\
42.2
9
8
12
45.51 \
54-^ :?
May 10.5
21.59 'I
21.67
5
44.1
2
42.98 \
60.89 '^
43.0
45.59 ^
56.2 "
20.5
43.8
3
4
43.01 3
60.98 I
6
43.7
7
6
45.64 ^
58.3 w
30.4
21.72
43-4
A
43.00
5'-4 ,^
61.04
44.3
45.66
60.4
June 9.4
21.74 _
43.0
4
42.95 \
53.8 \\
61.06 ^
44.8
5
45.65
^^'-^ ^^
19.4
29.4
21.73
21.69 1
21.63 ^
9
42.6
42.1
4
5
42.86 9
42.74 ;;
57-7 ^
61.05 '
61.01 "*
45.1
45.3
3
2
45.60 5
4552 ^^
^5-8 *
July 9.3
41.6
5
5
42.59
17
59.1 \\
60.94 ^
9
45.4
I
1
45.42
67.2 '4
10
19-3
41. 1
^
42.42 ,„
60.2
60.85
45.3
4529 ,^
68.2
293
21-44 ,, 40.6
5
42.23 ''
60.9 \
60.73 ;'
45.1
2
«-»5 ^
68.9 \
Aug. 8.2
21.32
40.2
4
42.02
61.2 ^
60.60 *3
44.8
3
44.99 ;
69-3 t
18.2
21.19
39.8
4
41.80"
61.0 ^
60.4
60.46 '^
44.3
5
6
44-82 7
69-4 '
28.2
21.06 '3
39.5
3
41.59'
60.31 '5
43.7
44.65 '^
69.1 3
>3
3
21
II
15
7
17
7
Sept. 7.2
20-93 „
39.2
4i.38,„
59-3 ,,
60.16
43.0
44.48
68.4
17.1
20.81 '"
39.0
2
41.18^°
57-8 \l
60.03 '3
42.3
7
44.33 ^
67.3 "
27.1
20.71 '°
20.65
38.9
I
17
41.01 '
55.9 ?
59.92 "
41.6
7
44.20 |3
65.9 |1
Oct. 7.1
39.0
I
40.88 »3 ^ 53.6 ^3
59-85 \
40.9
7
6
44.10
64.2 '7
17.1
20.62 •'
39.3
3
40.79 \
51.0'"
59.82 ^ 40.3
44.03 ^
62.1 "
I
4
5 291
I
6
2
24
27.0
20.63 ,
20.69
39.7
««
40.74
48.1
10
59.83 ^
39.7
A
44.01
54.3
Nov. 6.0
40.4
7
40.75 '
40.83 ^°
44.93^
59.90 7
39.3
4
44.04 \
16.0
20.80 ' '
41.3
9
41.6 33
60.02 ^^
0
39.2
I
44.12
259
20.97 ^7
42.4
II
40.96 3 i 38.2 ^^
60.20 ^^
39.3
I
44.26 '^
5^-3 ^°
Dec. 5.9
21.18^'
43.7
13
41.15 ,; 34.7 ,^
60.43 ^3 ' 39.6
3
10
44.45 _
4S-3 ^^
25
15
25 34
27 I
6
23
30
15-9
^^•43 ^«
45-2
41.40 31.3
60.70
40.2
0
44.68
45.3
259
21.71 ''
46.9
17
41.69 '^,28.1 3^
61.01 3^
41.0
8
44.95 ,'
42.4 ^0
35.8
22.02 ^
48.6
17
42.02 ^-^
1.320
^ 25.2 ^9
61.35^^
42.1
II
45.26 3'
Z^ ^ 28
39.6
Sec^,Tana
1. 010 -0.1-
H
-K).86i
1. 103 -0.465
1. 125 +0.516
Mean Place
I9«.288 27".50
40*. 142 59".62
58V493 26".o8
43".053 7o".78
Tyfa,Dma
0.00 -0.0 1
-0.02 +0.04 1 +0.01 -0.02
-o.oi +0.02
D^d,DmS
-03
-0.7
-0.3
-0.7
1 -0.3
-0.7
. -<i^
-^n
(Eph 13I
408
APPARENT PLACES OF STARS, 1913,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.9
10.8
20.8
30.8
Feb. 9.7
19.7
Mar. 1 .7
11.7
21.6
31.6
Apr. 10.6
20.6
30.5
May 10.5
20.5
30.4
June 9.4
19.4
29.4
July 9.3
19.3
29.3
Aug. 8.3
18.2
28.2
Sept. 7.2
17.1
27.1
Oct. 7.1
17.1
27.0
Nov. 6.0
16.0
25.9
Dec. 5.9
15.9
25.9
35.8
CBotftU.
Mag. 5.0
Sec 6, Tan d
Mean Place
Right
Ascension.
h
15
m
3
s
28.CX>
28.32 ^^
28.66 ^^
29.00 ^^
29.34 ^t
32
20.66
29.97 ^
30.26 °
30.52 ^
30.74
D'^ a, Dm a
30.93
31.09
31.21
31.30
31.36
31.38
31.37
31.33
31.26
31.17
31.05
30.91
30.76
30.60
30.43
30.27
30.12
29.99
29.89
29.83
29.81
29.84
29.92
30.05
30.24
30.47
30.74
31.04
26
22
19
16
12
9
6
2
I
4
7
9
2
4
5
6
7
6
5
3
o
6
2
3
8
13
19
23
27
30
Declina-
tion N.
+ 25 II
//
72.6
70.1 ^^
67.8 ^3
65.9 '^
64.5
63.6
63.2
63.3
63.9
64.9
66.2
67.8
69.7
71.7
73.8
75.8
77-7
79.5
81. 1
82.4
83.4
84.1
84.5
84.6
84.4
83.8
82.8
81.5
79.9
77.9
75.6
73.1
70.4
67.5
64.6
61.6
58.7
56.0
14
9
4
I
6
10
13
16
19
20
21
20
19
18
16
13
10
7
4
I
2
6
10
13
16
20
23
25
27
29
29
30
29
27
1. 105
28«.787
+0.471
86".64
-o.oi
-0.3
+0.02
-0.7
C Lupi.
Mag. 3.5
Right
Ascension.
h
15
m
5
s
59.69 ^^
60.17^^
60.66 ^9
61.16 5°
61.65^9
62.12
62.57
62.99
63.37
63.72
64.02
64.28
64.49
64.65
64.77
64.84
64.85
64.82
64.74
64.62
64.45
64.25
64.02
63.78
63.54
63.30
63.08
62.90
62.76
62.68
62.68
62.75
62.90
63.12
63.42
47
45
42
38
35
30
26
21
16
12
7
I
3
8
12
17
20
23
24
24
24
22
18
14
8
7
15
22
30
36
63.78
64.65 ^^
Declina-
tion S.
-51 46
ft
I.O
1.2
1.8
2.7
4.0
5.6
7.4
9.4
II.6
13.9
2
6
9
13
16
18
20
22
23
23
16.2
18.6 ^4
20.9 ^^
23.2
25.4
27.4
29.2
30.8
32.2
33.3
34.1
34.5
34.6
34.3
33.6
32.6
31.3
29.8
28.0
26.1
24.2
22.3
20.6
1 9. 1
17.8
16.9
16.4
16.3
23
22
20
18
16
14
II
8
4
I
3
7
o
3
5
8
9
9
9
7
5
3
9
5
I
1.616
6i*.652
-1.270
7".22
+0.02 -0.06
-0.3 -0.7
lEpVi 13A
I Librae.
Mag. 4.7
Right
Ascension.
Declina-
tion S.
h 1
m
15
7
s
14.41
14.75
34
15.10
35
15.45
35
15.79
34
33
16.12
16.44
32
16.73
29
17.00
27
17.24
24
21
17.45
18
17.63
17.78
15
17.90
1 2
18.00
10
6
18.06
18.09
3
18.09
0
18.06
3
18.00
6
8
17.92
17.82
10
17.69
13
17.55
^4
17.41
14
14
17.27
17.14
»3
II
17.03
8
16.95
16.91
4
I
16.92
6
V *
16.98
17.09
1 1
17.25
1 \J
17.46
21
25
17.71
18.01
30
18.34
33
-19 27
ft
49.3
50.7
52.1
53.6
55.2
56.7
58.1
59.4
60.6
61.6
62.5
63.2
63.8
64.3
64.6
64.8
64.9
65.0
65.0
64.9
64.7
64.4
64.1
63.7
63.2
62.7
62.2
61.7
61.2
60.8
60.6
60.6
60.8
61.2
61.8
62.6
63.7
65.0
7
6
5
3
2
I
o
3
3
4
5
5
5
5
5
4
2
4
6
8
II
13
1. 06 1 -0.353
i5".536 47".52
+0.01
-0.3
-0.02
-0.7
y Txiang. Anst.
Mag. 3.1
Right
Ascension.
h
15
m
10
42.73
43.45
44.21
44.99
45.76
46.51
47.23
47.90
48.52
49.07
72
76
78
77
75
72
67
62
55
48
41
33
24
49.55
49.96
50.29
50.53 ,^
50.68 *5
7
50.75 ,
50.73
50.62
50.42
50.15
II
20
49.81
49.42
48.99
48.54
48.08
27
34
39
43
45
46
45
47.63
47.22
46.87 ,^
46.60 II
46.42
41
35
18
6
46.36
46.42
46.60
46.91
47.34
47.87
48.49
49.18
6
18
31
43
53
62
69
Declina-
tion S.
-6821
//
245
24.1
24.1
24.6
25.6
27.0
28.8
30.9
33.3
35.9
38.7
41.6
44.6
47.6
50.5
53-3
55-9
58.3
60.4
62.1
63.4
64.2
64.6
64.5
63.9
62.9
614
59-6
57.4
55.0
52.4
49.8
47.3
45-0
43-0
4
0
5
10
14
18
21
^
26
2%
29
30
30
29
2S
26
24
21
17
13
8
4
1
6
10
15
18
22
24
26
26
25
23
20
17
^''^ 13
39.2
2.712 -2.521
46*.i50 33".<*
+0.05
-0-3
-an
-0.7
APPARENT PLACES OF STAKS, 1913. 409
FOR THE UPPER TRANSIT AT WASHINGTON.
410
APPARENT PLACES OF STAES, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.9
10.8
20.8
30.8
Feb. 9.8
19.7
Mar. 1 .7
11.7
21.6
31-6
Apr. 10.6
20.6
30.5
May 10.5
20.5
30.5
June 9.4
19.4
29.4
July 9.3
193
293
Aug. 8.3
18.2
28.2
Sept. 7.2
17.2
27.1
Oct. 7.1
17.1
27.0
Nov. 6.0
16.0
26.0
Dec. 5.9
159
25-9
35-9
Sec S, Tan 6
Mean Place
M Botftit pr.
Mag. 4.5
Right
Ascension.
h
s
I-3I
1.64
1.99
2.36
2.73
309
3-43
375
4.04
4.30
4-52
4.70
4.84
4-94
500
5.02
5.00
4-94
4.85
4.73
4-58
4.40
4.20
3-99
3.78
3-57
3-37
319
3.04
2.93
2.86
2.85
2.90
3.00
3.16
3.38
365
3-95
m
21
33
35
37
37
36
34
32
29
26
22
18
14
10
6
2
2
6
9
12
15
18
20
21
2-
21
20
18
15
1 1
7
I
5
lO
16
22
27
30
Declina-
tion N.
+3740
fr
37.6
34.8
32.4
30.4
29.0
28.2
28.0
28.4
293
30.7
32.5
34-6
370
39.5
42.1
44.6
47.0
49.2
51-2
52.9
54.2
55.1
55-6
55.7
55.4
54.7
53-5
51.9
49.9
47.5
44.8
41.9
38.7
35-4
32.0
28.6
254
22.4
28
24
20
14
8
2
4
9
14
18
21
24
25
26
25
24
22
20
17
13
9
5
I
3
7
12
16
20
24
27
29
32
33
34
34
32
30
1.263 +0.772
I2«.230 54".38
-0.02
-03
+0.03
-0.8
r^ Serpentit.
Mag. 5.5
Right
Ascension.
h
15
m
21
8
44.29
44.59
44.91
45-24
45.57
45.89
46.19
46.47
46.73
46.96
47.16
47-34
47-49
47.60
47.68
47.73
47.75
47.74
47.70
47.63
30
32
33
33
32
30
28
26
23
20
18
15
II
8
5
4
7
9
12
47.54
47.28 '^
47.13
46.98
46.83
46.68
46.55
46.45
46.39
46.36
46.38
46.45
46.57
46.74
46.95
47.20
47.49
15
15
15
15
13
10
6
3
2
7
12
17
21
25
29
Declina-
tion N.
+ 1543
//
48.1
45.7
43.5
41.6
40.1
39.0
38.3
38.0
38.2
38.8
39.7
40.9
42.3
43.9
45.5
47.2
48.8
50.4
51.8
53.1
54-1
54.9
55.5
55.8
55.8
55.5
55.0
54.2
53.0
51.5
49.8
47.8
45.6
43-2
40.7
38.1
35.5
33.0
24
22
19
»5
II
7
3
2
6
9
2
4
6
6
7
6
6
4
3
o
8
6
3
o
3
5
8
12
15
17
20
22
24
25
26
26
25
1.039 +0.282
45'- 203 59".90
-0.0 1
-03
+0.01
-0.8
t Draconis.
Mag. 3.5
Right
Ascension.
h
15
m
22
58.89 ^^
59.36 zL
59.86 5°
60.37 5»
50
60.87
61.35
48
61.80^5
62.21 ^'
62.56 ^5
62.85
63.07
63.23
63.32
63.34
63.29
63.18
63.01
62.79
62.52
62.21
61.87
61.50
61.12
60.74
60.36
60.00
59.67
59.39
59.16
59.00
58.91
58.90
58.98
59.14
29
22
16
9
2
5
II
17
22
27
31
34
37
38
38
38
36
33
28
23
16
9
I
8
16
25
59.39
597* ,0
60.10 ^^
32
Declina-
tion N.
+5915
//
53.5
50.6
48.2
46.4
45.2
44.7
44.9
45.7
47.1
49.1
51.5
54.2
57.2
60.3
63.3
66.3
69.1
71.6
73.8
75.6
76.9
77-7
78.1
78.0
77.3
29
24
18
12
2
8
14
20
24
27
30
31
30
30
28
25
22
18
13
8
4
I
7
12
17
31
26
76.1
74.4
72.3
^9-7 ^„
66.8 ^9
33
63.5
59.9
56.2
52.4
48.6
36
37
38
38
37
p Ootantts.
Mag. 5.7
Right
Ascension.
35
44.9
41.4
38.3 ^'
1-957
59*659
+ 1.682
73".66
h
15
s
50.47
52.77
55.23
57.79
m
22
230
246
256
260
Dedina-
tiomS.
-84 10
f^
60.39
257
65.44 "t!
67.78 ^^^
69.95^'^
71.90
3I.I
30.0
29.4
29.4
29.9
73.60
75.01
76.12
76.91
77.36
77.47
77.24
76.67
75.78
74.61
73.19
71.56
69.79
67.92
66.04
195
170
141
III
79
45
II
23I
57
89
117
142
163
177
187
188
183
171
64.21
62.50
61.01 '^9
frx ^»» >24
59-77 ^
58.87
-0.03
-0.3
+0.07
-0.8
58.36
58.25
58.58
59.35
60.53
62.08
63.97
66.13
901
51
II
33
77
118I
155
189
216
11
t
c
5
10
30.9
34-4 „
39-4^
424 „
48.9"
52-3 J
590 „
62.2 ''
67.8"
7- 3
71.9
73-3
74.1
74.4
74.1
73-3
71.9
70.0
67.6
64.9
62.1
591
14
8
3
3
8
14
19
24
27
28
30
3»
56.0
53- • „
50.4 ,;
48.0
J6.i "
44.6 '5
9.864 -9.813
63V25* 4o''.ii
.K>.20
-«.3
-0.41
-0.8
APPARENT PLACES OF STAES, 1913. 411
FOR THE UPPER TRANSIT AT WASHINGTON.
Mdm Solar
Date.
Jan. 0.9
10.8
20.8
30.8
Feb. 9.8
19.7
Mar. 1.7
11.7
21.6
316
Apr. 10.6
20.6
30.5
Hay 10.5
20.5
30.5
June 9.4
19.4
29.4
July 9.3
19.3
29.3
Aug. 8.3
18.2
28.2
Sept. 7.2
17.2
27.1
Oct. 7.1
17.1
27.0
Nov. 6.0
16.0
26.0
Dec 5.9
159
25-9
35.9
Mag. 5.6
Right
h
15
m
23
19.^ .,
20.01 ^
20.35 ^
20.69 ^^
21.03 ^^
33
21.36
21.68 32
21.98 3^
22.25
22.50
27
32
22.72
22.91
23.07
23.21
23.32
23.40
23.45
23.46
2344
23.39
23.32
23.22
23.10
22.96
22.81
22.67
22.54
22.42
22.33 .
22.28 ^
19
16
14
II
8
5
I
2
5
7
o
2
4
5
4
3
2
9
Declina-
tions.
— 16 24
//
22.27
22.31
22.40
22.54
22.74
Sec^.Tana
Mean Place
4
9
14
20
24
28
22.98
23.26
23.56 ^"^
53.2
54.6
56.0
57.5
59.0
60.4
61.7
62.8
63.8
64.6
65.2
65.7
66.1
66.3
66.4
66.4
66.4
66.3
66.2
66.0
65.8
65.5
65.2
64.8
64.4
64.0
63.6
63.2
62.9
62.7
62.7
62.8
63.1
63.6
64.4
65.3
66.4
67.7
14
14
15
15
14
13
II
10
8
6
5
4
2
I
o
o
I
I
2
2
3
3
4
4
4
4
4
3
2
o
I
3
5
8
9
II
13
fi Cozonie Borealis.
Mag. 3.7
Right
Ascension.
1.043 -0-295
2C/.839 jfi",92
Ty^a,Dma 4o.oi
U^d.DmS I -0.3
KOI
>.8
h
15
m
24
8
3.61
3.92
4.25
4.59
4.94
31
33
34
35
34
5.28
5.60^2
5.90^°
6.18
6.43
6.64
6.82
6.96
7.07
7.14
7.18
7.18
7.15
7.08
6.98
6.86
6.71
6.55
6.37
6.18
6.00
5.83
5.67
5.54
5.45
5.40
5.40
5.45
5.56
5.72
28
25
2!
18
14
II
7
4
5
II
16
21
5-93 ,,
6.18 ^5
6.47 ''
Declina-
tion N.
+2923
f/
63.2
60.5
58.1
56.1
54.6
53.6
53.2
53.3
54.0
55.1
56.6
58.4
60.4
62.6
64.9
67.2
69.4
71.4
73.2
74.8
76.1
77.0
77.6
77.8
77.6
27
24
20
15
10
4
I
7
II
15
18
20
22
23
23
22
20
18
16
13
9
6
2
2
6
77.0 ^
76.1 9
74.8 '^
73.1 ''
71. 1
68.8
66.2
63.3
60.3
57.2
54.1
51. 1
48.2
20
23
y^ Botftu.
Mag. 5.2
Right
Ascension.
m
26
29
30
31
31
30
29
1. 148 +0.563
i4".527 78".i5
15 27
47.28
47.61
47.97
48.34
48.72
-0.01 40.02
-0.3 -0.8
[Eph X3l
49.09
49-45
49.79
50.10
50.37
50.60
50.79
50.94
51.05
51."
51.13
51."
51.05
50.95
50.81
50.65
50.46
50.25
50.02
49.79
49.56
49.34
49.14
48.97
48.84
48.76
48.74
48.77
48.86
49.01
49.22
49.48
49.79
33
36
37
38
37
36
34
31
27
23
19
15
II
6
2
6
10
14
16
19
21
23
23
23
22
20
17
13
8
2
3
9
15
21
26
31
Declina-
tion N.
+41 7
tr
27.5
24.6 !?
22.1
20.1
18.7
25
20
14
8
17.9
17.7
18.I
19.0
20.4
22.3
24.6
27.1
29.7
32.4
2
4
9
14
19
23
25
26
27
27
35.1
37.7
40.0
42.1
43.8 '7
26
23
21
45.2
46.2
46.8
46.9
46.6
45.8
44.6
42.9
40.9
38.5
14
10
6
I
3
8
12
17
20
24
28
y Lupi (mean) .
Mag. 3.0
Right
Ascension.
35.7
32.6 3»
29.3 ^^
25.9 ^^
22.4 ^^
34
19.0
15.7 ^^
12.6 3'
1.327 +0.873
48".26i 44".8o
h m
15 29
18.63
19.02
19.43
19.85
20.27
-0.02
-0.2
+0.04
-0.8
20.68
21.07
21.44
21.78
22.10
22.38
22.63
22.84
23.02
23.16
23.26
23.31
23.32
23.29
23.22
23.12
22.98
22.82
22.64
22.44
22.24
22.06
21.90
21.78
21.70
21.68
21.72
21.82
21.98
22.21
39
41
42
42
41
39
37
34
32
28
25
21
18
14
10
5
I
3
7
10
14
16
18
20
20
18
16
12
8
2
4
10
16
23
29
22.50
22.84 ^^
23.21 37
Declina-
tion S.
-4052
tf
28.5
28.8
29.5
30.4
31.5
32.8
34.3
35.9
37-6
39.3
41.0
42.7
44.4
46.0
47.6
49.0
50.3
51.5
52.5
53.3
53.9
54-2
54.3
54-1
53.7
53.0
52.1
51.0
49.7
48.3
47.0
45.7
44.5
43.5
42.8
42.3
42.1
42.2
3
7
9
I
3
5
6
7
7
7
7
7
6
6
4
3
2
o
8
6
3
I
2
4
7
9
II
13
H
13
13
12
10
7
5
2
I
1.323 -0.866
20*.282 30^.87
+0.02
-0.1
-0.04
412
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
Y Libne.
oe Coronie Borealls.
C Cor. Bor. seq.
ct SeipentU.
Mean Solar
Mag. 4.0
Mag. 2.3
Mag. 5.1
Mag. 2.8
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Risbt
DedUHi—
Aflomsioii.
tion S.
Aacenrion.
tion N.
Aacendon.
tion N.
AKOiioa.
tiooN.
h m
0
f
h m
0 #
h m
0 f
h m
e
15 30
-1429
15 30
+2659
MM
15 36
+3654
15 39
+ 641
Jan. 0.9
38.29
WW
63.8
8
59-28
WW
70.2
1
9f
47-4 ,„
57-86
WW
45.5 „
10.8
38.60 3»
65.2
14
59.58 3^
67-5 11
5.41 11
44.5 n
58.15 ''
43.4!^
20.8
38.93 ^^
66.7
15
« IP
59.91 l^
^5-^ .0
5-75 It
4»° L
58-46 ^'
41.4 n
30.8
3927 ^;
68.2
15
60.25 34
63.1 '^
40.0 ^°
58.78 ^^
39.6
Feb. 9.8
39.61 34
69.6
14
60.59 l^
61.6 '5
6.47 't
38.5 '5
59.10 3
38.0 '
33
13
33
10
36
9
31
13
19.7
39.94 .,
70.9
60.92
60.6
683 „
37.6
59.41
36.8
Mar. 1.7
40.25 \
72.1
12
61.243^
60.1 s
7.18 35
37.2 ^
59-72 3'
35.9 ,
11.7
40.83 „
73.2
1 1
^'•54^^
60.1 °
750 11
37-4 .
38.2 °
60.01 '9
35.4 :
21.7
74.1
9
61.82 ^^
60.6 5
7.80 30
60.28 '7
35.2 '
31.6
41.08 ='5
74.8
7
62.07 ^^
61.6 •°
8.07 *7
39.5 '3
60.52 *4
3
35.4 .
»3
5
22
«4
23
17
32
5
Apr. 10.6
■♦'•31 ,„
75.3
62.29
63.0
830 ,„
41-2 ,.
60.74 ,„
35-9 ,
20.6
20
41.51 „
75-7
4
62.47 ^
^+•7 '^
850 ,
43.3 "
60.93 '
61.09 f
3^-7 j
30.5
41.68 '7
75.9
2
62.62 '5
66.7 *°
8.66 '^
45-6 '!
37.7
May 10.5
41.82 ''^
76.0
I
62.74 "
62.82 ^
5
68.8 "
8.78 'I
5°-7 ,6
61.23 *
38.8
20.5
41.93 'J
76.0
0
I
71.0 "
22
8.85 J
61.34 *;
40.0 "
13
30.5
42.01
75.9
62.87 ,
73-2 „
8.88
53.3 ,.
61.41
41.3 „
June 9.4
42.06 ^
75-7
2
62.88 '
75-3 Z
8.88 °
55.8 '5
61.45 :
42.6
19.4
42.08 ^
75.5
2
62.86 ^
62.80 ^
77-3 8
8.84 ^
8.76 ,J
58' '0
61.47 '
43.9
29.4
42.07 '
75.3
2
60.1 ""i
61.9 '«
«4
61.46 '
45.i
July 9.4
42.03 ^
7
75.0
3
3
62.71 9
II
80.6 '5
«3
8.65 "
14
61.41 \
46.2 ■;
19.3
41.96 ,^
74.7
62.60
^■•9 ,„
8-51 .,
63.3 „
^^•33 ,„
47.1 ,
29.3
41.86 '^
74.4
3
62.47 ]l
62.31 ^
82.9 '°
83.5 I
8-34 ^
64.4 "
61.23 °
47.8
Aug. 8.3
41.74 ,,
74.1
3
8.'5 '^
65.1 \
61.11 "
48.4
18.2
41.61 "^
73.7
4
62.14 I
61.96 '°
^ 18
83.8 3
7.94
654 \
60.97 ;*
48.8 1
28.2
41.47 '^
^ 14
73.3
4
3
837
7.73 "
21
65.2 ^
60.83 *
15
49-0,
Sept. 7.2
41.33 ,,
73.0
«.^
61.78
83.3 „
752 „
^4-6 ,„
60.68
49.0 ,
17.2
41.19 t
72.7
3
61.61 *7
82-5 ,;
7-31 "
63.6 ^
60.54'!
48.8'
27.1
41.07
72.4
3
61.45 ;'
79-7 f
7" 6
6.96 ^
62.1 '5
60.41 3
48.4;
Oct. 7.1
40.98 9
40.92
72.2
2
61.32 '3
60.2 '9
60.30 "
60.22
47-7 ,0
17.1
72.1
I
61.23 I
77-8 !?
6.84 ''
580 "
46.7 ;
2
I
5
22
8
25
3
13
27.1
40.90
72.2
61.18
75-6 ,,
6.76
55-5 ,„
60.19 ,
45-5 ,.
Nov. 6.0
40.93 g
72.4
2
61.17 [
73-^ ''
6.73 \
52.6 »9
60.20 '
60.26 *
44-1 J
16.0
41.01
72.8
4
6
8
61.22 ^
7^-4 ^I
6.76 3
49.5 ^!
4^-5
26.0
^'•^5 \\
73.4
6^-48 'J
^7-5 ^
^•^4 *
46.2 33
60.37 "
^•53 '^
40.6
Dec. 5.9
4^-33 !!
74.2
^4-5 ^^
6-98 '*
42.8 34
38.5
23
10
20
30
20
33
30
21
15.9
41.56
75.2
61.68
61.5
7-^^ 0.
39-5 „
60.73 ,,
36.4
25.9
41.83 ^^^
76.4
12
^'•93 ^J
55.7 '^
7-43 ;
3<*-3 ^:
60.97^
34-2
35.9
42.13 3^
77.8
14
62.22 ^
7.72 ^
33.3 3**
61.24^7
32.1
Sec S, Tan S
1033 -0-259
1. 122 40.510
1.251 40.751
1.007 -HJ-ll?
Mean Place
39".447 59".74
6o«.234 84".7i
6M13 . 63".86
58«.890 55".29
DV Af I^w a
40.0I -0.01
[
-o.oi +0.02
-0.02 40.03
0.00 aoo
Dfi^S, Btod
-a2
-0.8
-0.2
-0.8 1
-0.2
-a8 1
-o.a
-aS
lEpb 13A
APPAKENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
413
9-92 ,
ro.57 3
10.89 ,
11.20 ■•
■'\''
;i.76
[3. 01
12.42
r2.s8
[2.88
[2.92
■2.93
12.91
U.85
12.76
12.65
■ 2.52
12.37 ,
•''It
tl.64""
l,.56 «
■•SI „
13.00
12.24"*
48.34,
48.63!
48.94'
49.26 a
49.58 3
49.90
50.21 ^
50.51 \
50.79 '
51.04;
51.26
51.45 ,
51.62
SI-75 !
51.85 ■
51-92
51.96
51.97
51.94
51.67
51.53
51.38
51.22 J
51.06
50.90
50.75
50.62
50.53
50.48
50.47
50.51
50.61 '
50.75 ,
50.94 ,
29-3
30.3
309
30.1
28.9 '
27.4 I
25-7,
23.7;
49'.366 34".32
-0.8
IBph lil
414
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.9
10.9
20.8
30.8
Feb. 9.8
19.7
Mar. 1 .7
11.7
21.7
31-6
Apr. 10.6
20.6
306
May 10.5
20.5
30.5
June 9.4
19.4
29.4
July 9.4
193
29.3
Aug. 8.3
18.3
28.2
Sept. 7.2
17.2
27.1
Oct. 7.1
17.1
27.1
Nov. 6.0
16.0
26.0
Dec. 6.0
15.9
25.9
35.9
€ Serpentis.
Mag. 3.8
Right
Ascension.
h
15
m
46
s
27.60
27.88
28.19
28.51
28.83
29.15
29.46
2975
30.02
30.27
Seed, Tan S
Mean Place
D'^ a, Dm a
D^ 6, D« <^
28
31
32
32
32
31
29
27
25
22
20
30.49
30.69
30.86 '7
31.00 ^^
31.12
12
8
31.20
31.25
31.27
31.26
31.22
31.15
31.06
30.94
30.80
30.65
30.50
30.36
30.23
30.12
30.04
30.00
30.01
30.07
30.17
30.32
30.52
30.76
31.03
5
2
I
4
7
9
12
14
15
15
14
13
II
8
4
I
6
10
15
20
24
27
Declina-
tion N.
+ 4 43
//
71.3
69.2
67.2
65.4
63.9
62.7
61.8
61.2
61.0
61. 1
61.5
62.2
63.1
64.2
65.4
66.6
67.8
69.0
70.1
71. 1
72.0
72.7
73.3
73.7
74.0
74-1
73.9
73.5
72.9
72.1
71.0
69.7
68.2
66.5
64.6
62.6
60.5
58.4
21
20
18
15
12
9
6
2
I
4
7
9
I
2
2
2
2
I
o
9
7
6
4
3
I
2
4
6
8
II
13
15
17
19
20
21
21
C Ur8«e Kinoris.
Mag. 4.3
Right
Ascension.
1.003
28V67I
+0.083
8o".67
0.00
-0.2
0.00
-0.8
h
15
m
47
s
5.24
6.00
6.90
7.91
8.99
0.09
1. 17
2.20
3.15
3.98
4.67
5.19
5-54
5.70
5.67
5.47
5.10
4.57
3.89
3.09
2.18
1. 18
0.12
9.02
7.91
6.82
5.76
4.76
3.85
306
2.42
1.93
1.62
1.51
1.60
1.89
2.37
3.03
76
90
lOI
108
no
108
103
95
83
69
52
35
16
3
20
37
53
68
80
91
100
106
no
III
109
106
100
91
79
64
49
31
II
9
29
48
66
Declina-
tion N.
+78 3
//
24.6
21.7
19.3
17.5
16.3
29
24
18
12
5
15.8
16.0 I
16.8 *
18.2 '^
20.2
22.6
25.4
28.4
31.5
34.7
37.8
40.7
43.4
45.7
47.6
49.0
50.0
50.5
50.4
49.8
48.7
47.1
45.0
42.5
39.7
36.5
33.0
29.3
25.5
21.7
18.0
14.5
1 1.4
20
24
28
30
31
32
31
29
27
23
19
14
10
5
I
6
II
16
21
25
28
32
35
37
38
38
37
35
31
/3 Triang. Aust.
Mag. 3.0
Right
Ascension.
4833 +4-728
8'.5o6 45".33
-o.io 40.17
-0.2 -0.8
h
15
m
47
8
24.97
25.55
26.17
26.81
27.46
28.11
28.74
29.34
29.91
30.43
30.90
31.32
31.68
31.97
32.19
32.34
32.42
32.42
32.35
32.20
31.99
31.72
31.41
31.06
30.69
30.32
29.97
29.65
29.38
29.18
29.07
29.06
29.15
29.34
29.64
30.03
30.50
31.04
58
62
64
65
65
63
60
57
52
47
42
36
29
22
15
8
o
7
15
21
27
31
35
37
37
35
32
27
20
II
9
19
30
39
47
54
Declina-
tion S.
-63 9
//
42.6
41.8
41.5
41.6
42.1
8
3
I
5
9
13
16
43.0
44.3
"^5-9 ,„
47.8 !?
49.9
21
23
52.2
54.6
57.2
59.8
62.4
24
26
26
26
26
25
65.0
67.5 ..
69.8 ^^
71.8^°
73.6
18
15
75.1
76.2
76.9
77.2
77.0
76.4
75.4
73.9
72.1
70.1
67.9
65.6
63.2
61.0
59.0
II
7
3
2
6
10
15
18
20
22
23
24
22
20
18
A. Libne.
Mag. 5.1
Right
57.2
55.8 '^
1 1
54.7
h
15
m
48
2.215 -1.977
27'.977 47".5i
40.04
-0.2
-0.07
-0.8
5.55 ,_
5.86 3'
6.19 ^^
6.54
6.89
35
35
34
33
31
7.23
7.56
7.87
8.16 ^9
8.43 ''
8.68
8.90
9.10
9.27
9.40
9.50
9.57
9.61
9.61
9.58
9.52
9.43
931
9.17
9.02
8.87
8.72
8.58
8.47
8.40
8.37
8.39
8.46
8.58
8.75
8.97
9.23
9.53
25
22
20
17
13
10
7
4
o
3
6
9
12
14
15
15
15
14
II
7
3
2
7
12
17
22
26
30
tiooS.
-195-
ff
31.7 ,^
32.8 '^
34.0 "
35.3 \l
36.6 II
37.8
38.9 ..
40.0
41.0
41.8
II
10
8
7
42.5
43-0
43.4
43.8
44.1
44.3
44.4
44.5
44.5
44-5
44-4
44.2
44.0
43-7
434
43.0
42.6
42.2
41.8
41.5
41.3
41.2
41.2
41.4
41.8
42.4
43.2
44.2
I
I
0
0
I
0
2
4
6
8
ic
1.064 -0.362
i6'.84i 28".28
.IO.OI
-a8
APPARENT PLACES OF STARS, 1913.
415
FOR THE UPPER TRANSIT AT WASHINGTON.
y Serpentis.
^ Scorpii.
f Coronse Borealis.
<^ Scorpii.
1 MenaSolar
Mag. 3.9
Mag. 3.0
Mag. 4.2
Mag. 2.5
■ Date.
1
■
Right
Declina-
Right i Declina-
Right
Declina-
Right
DecUna-
1
Ascension.
tion N.
Ascension.
tion S
«
Ascension.
tion N.
Ascension.
tionS.
1
h m
0 /
h m
0
/
h ra
0 /
h m
0 /
1
15 52
+ 1556
0 f
15 53
-25 5
00
I
15 53
+ 27 7
00
•5 55
-22 22
mm
I Jan. 0.9
I IO-9
24-96 ^g
25-24 "
27-2 ^5
^^"^^ 33
34.07 ^3
54-2
55.0
8
58*00
58.28 ^®
^7-9 ,.
9.81
10.12 3'
WW
32.8
33-7 .^
1 20.8
'5-55 ^,
^+•9 ?a
34.42 ^5
35-14 ^
56.0
10
58.59 \\
25-4 ^f
10.46 34
34-8
1 30.8
25-87 11
"•9 °
21.3
57.1 1
[ 1
58.92 33
21.7
10.81 35
35-9
1 Feb. 9.8
26.19 ^
58.2 \
[I
5926 3^
11.16 35
37-1 "
■
32
12
35
[2
33
II
35
12
1 19-7
26.51
20.1
19-3 ,
35-49 ,^
59.4 ,
59-59 ..
20.6
"•51 ,^
38.3 „
1 Mar. 1.7
26.82 3'
35-83 \\
60.5
11
59.91 ^^
19-9 \
.1.8534
39-4
11.7
27-12 3^
18.9 ;^
36.16 33
61.6 '
[I
60.22 ^
19.8 *
12.173="
10
40.4
21.7
27.40 f
18.9 ^
36-47 ^'
62.7 ^
[I
^•5^ 11
20.2 *
12.47 ^°
"•75 :!
41.4 'I
316
27.65 It
19.4 5
36.76 ^^
63.7 '
[O
^77 t
21. 1 '
42.3 I
23
9
26
9
24
14
25
8
Apr. 10.6
27-88 ,„
20.3 ,,
37.02
64.6
n
61.01
22-5 .,
13.00
43.1 ,
20.6
28.08 '*•
^^•5 "
37.25 ,3
65.4
8
0
61.22 "
24-^ I
13.23 ,,
43.7 J
30.6
28.25 \l
22.9 I
24.5 ;,
37-46 ^
37-64 \\
66.2
8
61.39;^
26.1 '9
13.44 •
44.2 5
May 10.5
28.39 *
66.9
7
6^-53 ^
28.2 "
'3-62 \\
44.7 ^
20.5
28.50 "
26.2 7
37-79 ;,
67.5
0
61.63 '^
30-5 \\
13-76 \\
45-1 :
8
IB
12
5
7
23
II
3
30.5
28.58 ^
28.0
29.8 ;f
37-91
37-99 ,
68.0
61.70
32-« „
13-87 »
13-95 \
45.4 ,
June 9.4
28.63 ^
68.5
5
61.73 ^
35-1 3
45.7 ;
19.4
28.65 I
31-5
38-03 *
68.9
4
61.73 ^
37-2 "
14.00 5
45.9 ,
29.4
28.63 I
33-0 ,^
38.03 °
69.2
3
61.69 ^
39-1 9
14.01
46.0 '
July 9.4
28.58 I
34-3 '^
12
38.00 3
69.4
2
2
61.62 7
10
40.8 '7
»5
13-98 I
46.1 '
0
19-3
28.50
35-5 .„
37-94 ,„
69.6
61.52 ^,
42-3 „
13.92
46.1
293
28.39 "
36-5 '°
37.84 °
69.7
I
61.39 3
61.23 ;
43-5 "
13-83 '
46.0 *
Aug. 8.3
28.26 '3
37-2 7
37-72
69.6
I
44-3 *
»37i !
45.9 ,
18.3
28.11 '5
27-95 ;,
37.6 \
37-58 ^
37-42 ^^
69.4
2
0^
61.06 '7
60.88 '*
19
44-7 7
13-57 t
45.7
28.2
i7'7 \
69.1
3
4
44-8 ;
^3-42 :^
45.4 :
4
Sept 7.2
27-79 ,,
27-63 ^
37-6
37-26
37-10 ^
68.7
•
60.69
44-5 ,
43-9 ,„
13.26
45.0
17.2
37-2 *
36.4 '
68.2
5
6
6
6
6
60.50 '9
44.6 4
27.1
27.48 \l
36-96 *
67.6
60.33 \l
4^-9 °
12.96 *
44.1 5
Oct. 7.1
27.36 "
35.3
36.84 "
36.76 8
4
67.0
60.18 '5
41-5 t
12.85 "
12.77
4
43.6 I
17.1
27.27 ^
34- \l
66.4
60.07 "
7
39.8 ;^
43.2 ^
4
27.1
27.21
32-4 ,„
36.72
65.8
60.00
37-7 -,
12.73 ,
42-8
Nov. 6.0
27.20
30-5 ^
36.73 '
36.79 ,t
65.3
5
59.97 3
32-7 ,„
I
12-74 -
12.80 ^
42.5 ,
16.0
27-24 I
28.4 "
65.0
3
59.99 ^
42.4 ,
26.0
27-33 '
26.0 "♦
36-91 "
64.9
I
60.06 '
^9-8 Z
12.92 "
42-5 \
Dec. 6.0
27-47 ,;
^3-5 'J
37.09 '^
23
64.9
0
2
60.19 '3
^ 18
26.8 30
30
'3-09 ,^
42.8 3
4
15.9
27-^5 „
2°-9 ,A
37.32
65.1
^•37 _
23-8 ,„
^3-31 „,
43-2 ,
259
27.88 '3
28.14
18.3 '^
37.59 ^;
65.5
4
60.59 "
20.8 3°
18.0 ^8
^3-57 :'
43-8 \
35.9
15.8 '^
37.90 ^'
66.2
7
60.86 ^7
13-87 ^'^
44-6
Sec8,ranS
1.040 40.286
I.I 1 1 -0.48
5
1. 124 40.512
1. 08 1 -0.412
Mean Place
36*.038 4i".73
35". 147 51 ".93
59«.079 45".o5
1 1". 162 29".55
iy^a,J>ma
-o.oi -to.oi
+0.01 -0.02
-0.01 +0.02
40.0I -0.01
D^d.n.S 1
-o.a
-0.8 1
-o.a
-0.9
-0.2
-0.9 1
-p.2
-0.<J
[£ph 23]
416
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.9
10.9
20.8
30.8
Feb. 9.8
19.8
Mar. 1 .7
11.7
21.7
316
Apr. 10.6
20.6
306
May 10.5
20.5
30.5
June 9.5
19.4
29.4
July 9.4
19.3
293
Aug. 8.3
18.3
28.2
Sept. 7.2
17.2
27.2
Oct. 7.1
17.1
27.1
Nov. 6.0
16.0
26.0
Dec. 6.0
15.9
259
35-9
0 Draconis.
Mag. 4.1
Right
Ascension.
Sec (5, Tan*
Mean Place
D'^a, Dm a
D^a, Dm*
m
O
h
16
8
4.26 36
5.62 ^^
49
6.II
6.60^9
47
43
39
34
7.07
7.50
7.89
8.23
8.51
8.73 ,^
8.88 '5
8.96
28
22
8
8.98
8.93
8.81
8.64
8.41
8.13
7.81
7.45
7.07
6.67
5
12
17
23
28
32
36
38
40
40
6.27
5.88 39
5.52
5.19
4.90
4.67
4.51
4.43
4-44
4-53
4.70
4-95
5.27
36
33
29
23
16
8
I
9
17
25
32
Declina-
tion N.
+5847
//
31.5
28.3
25.6
234
21.8
20.9
20.7
21. 1
22.2
23.8
259
28.5
314
34-5
37.7
32
27
22
16
9
2
4
II
16
21
26
29
31
32
31
40.8
43.8 3°
46.6
49.1
51.3
28
25
22
18
53.1
54-4
55-3
55.7
55-6
55.0
53.8
52.1
50.0
47-4
44-5
41.2
37.7
340
30.2
26.5
22.9
195
13
9
4
I
6
12
17
21
26
29
33
35
37
38
37
36
34
1.930 +1.65 1
I5'.49i 5o".44
-0.04
.-0.2
+0.06
-0.9
P ScorpU.
Mag. 2.9
Right
Ascension.
h
16
21.18
21.48
21.81
22.15
22.49
22.83
23.16
2348
23.78
24.06
24.32
24.55
24.76
24.94
25.09
25.20
25.28
25.33
2534
25.32
25.26
2517
25.06
24.92
24.77
24.61
24.46
24.32
24.21
24.13
24.09
24.09
24.14
24.25
24.41
24.62
24.87
25.16
m
O
30
33
34
34
34
33
32
30
28
26
23
21
18
15
II
8
5
I
2
6
9
II
14
15
16
15
14
II
8
4
o
5
II
16
21
25
29
Declina-
tion S.
-19 34
//
9.0
lO.I
II. 2
12.4
13.6
14.7
15.8
16.8
17.7
18.4
19.0
19.5
19.9
20.2
20.4
20.5
20.6
20.6
20.6
20.6
20.5
20.3
20.1
19.9
19.6
19.3
19.0
18.6
18.2
17.9
17.7
17.6
17.6
17.8
18.2
18.8
19.6
20.5
II
II
12
12
II
II
10
9
7
6
5
4
3
2
I
I
o
o
o
I
2
2
2
3
3
3
4
4
3
2
I
o
2
4
6
8
9
K Hexculii.
Mag. 5.3
Right
Ascension.
I.061
22*.5o6
-0.356
4".95
+0.01
-0.2
-0.0 1
-0.9
lEph 13I
27
h m
16 4
8
7.70
7-97 ,^
8.27 3°
31
32
32
32
30
28
26
24
8.58
8.90
9.22
9.54
9.84
0.12
0.38
21
18
0.62
0.83
1. 01
I.16 '5
1.28
12
9
1-37
1.43
1.45
1.44
1.39
1.31
1.21
1.08
0.93
0.77
0.60
0.43
0.27
0.14
0.03
9.96
9.94
9.97
10.04
10.16
10.33
10.55
10.81
6
2
I
5
8
o
3
5
6
7
7
6
3
I
7
2
3
7
12
17
22
26
Declina-
tion N.
+ 17 16
//
28.0
25.5
23.2
21.2
19.6
18.3
17.5
17.2
17.3
17.9
18.8
25
23
20
16
13
8
3
I
6
9
13
20.1
21.6 '5
23.3 '^
25.2
19
19
27.1
29.0
30.8
32.5
34.0
35.3
36.4
37.2
37.7
38.0
37.9
37.5
36.8
35.8
34.5
19
18
17
15
13
II
8
5
3
I
4
7
10
13
16
19
31
32.9
31.0
28.9
26.6 ^3
24.1 '5
21.5
18.9
16.3
26
26
26
1.047 +0.31 1
8».8i7 4o".34
^ Hercnlis.
Mag. 4.3
Right
h
16
s
0.40
0.70
1.04
I.4I
1.79
2.18
2.56
2.93
3.28
m
6
30
34
37
38
39
38
37
35
3-^ ^8
3.88
4.12
4.32
4-47
4.57
24
20
15
10
6
4.63
4.64
4.60
4.52
4.39
4
8
13
16
20
4.23
403 ^,
3.80 ^3
3.55 ''
3.29
26
27
302
2.75
2.50
3.28
2.09
1.94
1.85
1.82
1.85
1-95
2.11
2.33
2.60
27
25
22
19
15
9
3
3
10
16
22
27
Declina-
tion N.
+45 9
28.0
24.9
22.2
31
27
23
19-9 „
18.2 '^
II
16.6 5
16.7 ;
i8-9^
18
20.7
22.9
25.4
28.2
31.1
34.0
36.8
39.5
42.0
44.2
46.0
474
48.4
48.9
49.0
22
25
28
29
29
28
27
25
22
18
14
10
5
I
4
48.6
47.7
9
22
44.5
39-7^
33-5 :^
30.1 ^
26.6 35
35
23-1
19.6
16.3
35
33
1.418 +1.006
i*.705 45".2i
-0.0 1
-0.2
40.0I
-0.9
4aQ3
-0-9
APPAEENT PLACES OF STARS, 1913.
417
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.9
10.9
20.8
30.8
Feb. 9.8
19.8
Mar. 1.7
11.7
21.7
Apr. 10.6
20.6
30.6
May 10.5
20.5
30.5
June 9.5
19.4
29.4
July 9.4
19.3
29.3
Aug. 8.3
18.3
28.2
Sept. 7.2
17.2
27.2
Oct. 7.1
17.1
27.1
Nov. 6.0
16.0
26.0
Dec. 6.0
15.9
25.9
35.9
Sec ^, Tan ^
Mean Place
«9>3
Oroombrldge 2820.
Mag. 5.4
Rifffat
Aaoenskm.
h m
16 6
2.67
3."
3.63
4.21
4.83
5-47
6.11
6.73
731
7.83
8.28
8.65
8.93
9.1 1
9.19
9.17
9.06
8.86
8.58
8.22
7.79
7.30
6.77
6.21
563
5.04
4.46
3.91
3.41
2.97
2.61
2.34
2.17
2. II
2.16
2.33
2.61
2.99
44
52
58
62
64
64
62
58
52
45
37
28
18
8
II
20
28
36
43
49
53
56
58
59
58
55
50
44
36
27
17
6
5
17
28
38
Dedina-
tion N.
+68 I
//
61.6
58.4
55.7
53.5
52.0
50.9
51-4
52.5
54-2
32
27
22
15
9
2
5
II
17
22
26
56.4
62.0 3«>
65.1 ''
68.3
32
32
71.5
74.6
77.5
80.1
82.3
84.1
85.4
86.3
86.7
86.5
85.8
84.6
82.9
80.7
78.1
31
29
26
22
18
13
9
4
2
7
12
17
22
26
30
75.1
71.8 ^^
68.2 36
64.4 \l
37
53.3 ^^
49.9^
2.673
4".86i
+2.479
8l".02
-0.06
-0.2
—27
+0.08
-0.9
Mag. 4.8
Rigfat
Asocnsion.
Ill
h tn
16 7
8
11.32
13.66"^
14.98 '^^
132
126
1x8
19.10
20.42
21.68
22.86
2393
24.88
25.69
26.35
26.84
27.16
27.31
27.28
27.07
26.69
26.16
25.49
24.71
23.85
22.93
22.00
21.10
20.26
19.53
18.94
18.53
18.32
18.33
18.56
19.02
107
95
81
66
49
32
15
3
21
38
53
67
78
86
92
93
90
84
73
59
41
21
I
23
46
67
86
19.69
21.58 '°3
Declina-
tions.
-78 28
//
37.6
36.0
34.9
34.3
34.2
16
II
6
I
4
34.6
35.5 ^
36.8 '3
38.5 ''
40.5
20
24
42.9
45.5
48.4
51.4
54.5
26
29
30
31
31
57-6 ,«
60.6 30
63.5 '^
66.2 ^7
68.6 ^^
21
70.7
72.4
73.7
74.5
74.7
17
13
8
2
4
74.3
73.4
72.0
70.2
68.0
9
14
18
22
25
28
65.5
62.7
56.9 '^
54.1
51.6
49-4
47.5
28
25
22
19
5.008 -4.907
i8V3o8 42".43
40.II
-0.2
-0.16
-0.9
(Bph 13]
<^ Ophluchl.
Mag. 3.0
Right
Afloension.
h m
16 9
45*88
46.16
46.46
46.77
47.09
47.41
47.72
48.02
48.31
48.58
48.82
49.04
49.24
49.41
49.55
49.66
49.74
49.79
49.80
49.78
28
30
31
32
32
31
30
29
27
24
22
20
17
14
II
8
5
I
2
49.73
49.65
49.54
49.41 ,^
49.26 '5
8
II
13
49.11
48.96
48.82
48.70
48.61
48.56
48.55
48.59
48.68
48.81
48.99
49.22
49.48
15
15
14
12
9
5
4
9
13
18
23
26
Dedina-
tion S.
(f Cor. Bor. seq.
Mag. 5.8
-328
»t
23.6
25.3
26.9
28.5
29.9
31. 1
32.1
32.8
33.2
33.3
33.2
32.9
32.4
31.7
30.9
30.1
29.3
28.5
27.7
26.9
26.2
25.6
25.1
24.7
24.4
24.2
24.1
24.2
24.4
24.8
17
16
16
14
12
10
7
4
I
I
3
5
7
8
8
8
8
8
8
7
6
5
4
3
2
I
I
2
4
6
8
10
12
254
26.2
27.2
28.4
29.8 '^
15
32.9
34.6 '7
1.002
47V090
-0.061
I5".58
0.00
-0.2
0.00
-0.9
Right
Ascension.
h
16
m
II
8
23.99
24.27
24.58
24.91
25.25
28
31
33
34
35
34
32
31
25.60
25.94
26.26
26.57
26.86 ^l
26
27.12
27.35
27.54
27.69
27.81
23
19
15
12
8
27.89
27.93
27.93
27.89
27.81
4
o
4
8
12
27.69
27.54
27.37 ,„
27.18 ^9
26.97
15
17
26.75
26.54
26.34
26.16
26.01
25.90
25.83
25.82
25.87
25.97
26.12
26.33
26.59
21
22
21
20
18
15
II
7
I
5
10
15
21
26
Declina-
tion N.
+34 4
//
27.8
24.9
22.3
20.0
18.2
17.0
16.4
16.3
16.8
17.8
29
26
23
18
12
6
I
5
10
15
19
22
19.3
21.2
23.4
25.8 !1
28.4
31.0
33.6
36.0
38.2
40.2
41.9
43.3
44.4
45.0
45.2
26
26
26
24
22
20
17
14
II
6
2
2
6
II
45.0
44.4
43.3
41.8 ^5
40.0
18
22
26
28
31
37.8
35-2
32.4
29.3 ^,
26.1 3^
32
22.9
19.7 ^^
16.6 3'
1.207 40.676
25*.205 43' 24
-0.02
-0.2
+0.02
-0.9
418 APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
APPARENT PLACES OP STARS, 1913
419
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.9
10.9
20.8
30.8
Feb. 9.8
19.8
Mar. 1.7
11.7
21.7
31.7
Apr. 10.6
20.6
30.6
May 10.5
20.5
30.5
June 9.5
19.4
29.4
July 9.4
19.4
293
Aug. 8.3
18.3
28.2
Sept. 7.2
17.2
27.2
Oct. 7.1
17.1
27.1
Nov, 6.1
16.0
26.0
Dec. 6.0
15.9
259
35-9
t Heroolii.
Mag. 3.9
Right
Ascension.
h
16
m
17
Seed, Tan d
Mean Place
s
6.13
6.42
6.76
7.13
7.51
7.90
8.29
8.67
903
9.36
965
9.91
10.12
10.29
10.41
10.48
10.50
10.47
10.39
10.27
10.10
9.90
9.67
9.41
9.14
8.86
8.58
8.31
8.07
7.86
7.69
7.58
7.53
7.54
7.62
7-77
7.98
8.24
29
34
37
38
39
39
38
36
33
29
26
21
17
12
7
2
3
8
12
17
20
23
26
27
28
28
27
24
21
17
II
5
I
8
15
21
26
Declina-
tion N.
+46 30
//
55.1
51.9
49.1
46.7
44-9
43.7
43-1
43.2
43-9
45-2
47.0
49.2
51.7
54-5
57.5
32
28
24
18
12
6
I
7
13
18
22
25
28
30
30
29
60.5
^3-4 ,,
66.1 ^7
68.7 '^
71.0
23
19
72.9
74-5
75.6
76.3
76.5
76.2
75-4
74.1
72.4
70.3
67.8
64.9
61.7
58.3
54.7
47.6
44.3
16
II
7
2
3
8
13
17
21
25
29
32
34
36
36
35
33
y Hercnlif.
Mag. 3.8
Right
Ascension.
1.453
7*-543
+1.054
72".II
-0.03
-0.2
■K>.03
-0.9
h
16
s
3.71
3.97
4.26
4-57
4.89
5-21
5.53
5.83
6.12
6.39
6.64
6.86
7.05
7.22
7.36
7.46
7.52
7.55
7.55
7.51
7-44
7.33
7.20
7.05
6.88
6.71
6.54
6.37
6.22
6.10
6.01
5.97
5.98
6.04
6.15
6.31
6.51
6.75
m
18
26
29
31
32
32
32
30
29
27
25
22
19
17
14
10
6
3
o
4
7
II
13
15
17
17
17
17
15
12
9
4
I
6
II
16
20
24
Declina-
tion N.
+ 19 21
t»
8.9'^
4.5'^
2.8^7
13
1-5
0.7
0.4
0.5
I.I
8
3
I
6
10
2.1
3.4
6.9
8.9
10.9
12.9
14.9
16.7
18.4
19.9
21. 1
22.0
22.6
22.9
22.9
22.6
22.0
21.0
19.7
13
16
19
20
20
20
20
18
17
15
12
9
6
3
o
3
6
10
13
16
rf ITrue Xinorli.
Mag. 5.0
Right
Ascension.
h
16
m
19
s
58.32
58.88
59.57
60.37
61.25
62.18
63.12
64.04
64.91
65.70
66.38
66.94
67.36
67.63
67.75
67.71
67.52
67.19
66.72
66.13
65.43
64.63
63.76
62.84
61.89
60.93
59.98
59.07
58.22
57.45
18.I
16.2 '9
14.0 "
11.6^1
26
9.0
27
6.3
I.O
1.060 ■K>.35i
4".894 24". 19
-o.oi
-0.2
40.0I
-0.9
(Eph 13I
56
69
80
88
93
94
92
87
79
68
56
42
27
12
19
33
47
59
70
80
87
92
95
96
95
91
85
77
66
56.79 ^.
56.26 53
55.88 38
55.66
55.62
22
55.75
56.05
56.51
4
13
30
46
Declina>
tion N.
+75 56
//
63.4 ,,
60.2 ^l
57.4 '^
55.2
53.6
22
16
10
52.6
52.3
52.7
53.7
55.3
3
4
10
16
22
26
29
57.5
60.1
63.0
66.1 3'
69.3 32
32
72.5
75.6 ^'
78.5 '^
81.2 ^^
83.6 ^^
85.5
87.0
88.0
88.5
88.5
87.9
86.8
85.2
83.2
80.7
77.8
74.6
71.2
67.5
63.7
60.0
56.4
53.0
19
15
10
5
o
6
II
16
20
25
29
32
34
37
38
37
36
34
y Apodlf.
Mag. 3.9
Right
Ascension.
h
16
8
57.00
58.09
59.32
60.64
62.02
m
19
109
123
132
138
141
140
63.43
64.83,,^
66.20 '37
67.51 '^'
68.74
4.120 +3.997
6i*.903 82".43
-o.io
-0.2
40.II
-0.9
69.88
70.90
71.78
72.51
73.08
73.47
73.68
73.70
73.54
73.21
72.71
72.06
71.29
70.43
69.50
68.55
67.61
66.73
65.95
65.30
64.82
64.55
64.50
64.67
65.07
65.70
66.53
67.53
123
114
102
88
73
57
39
21
2
16
33
50
65
77
86
93
95
94
88
78
65
48
27
5
17
40
63
83
100
Declina-
tion S.
-7842
//
7.9
6.6^3
5.8 «
5.5
3
2
6
II
15
5.7
6.3
7.4
8.9
10.8 '9
22
13.0
15.5 .;
18.2 ^7
29
30
31
30
29
28
25
22
21. 1
24.1
27.2
30.2
33.1
35.9
38.4
18
40.6
43.8 '^
44.7
45.1
9
4
I
45.0
44.3
43.1
41.4
39.2
36.7
34.0
31. 1
28.2 ^l
7
12
17
22
25
27
29
22.8
20.4
18.3
24
21
^.107 -5.008
64*.2i5 I3".33
+0.12
-0.14
420
APPARENT PLACES OF STARS, 1913,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
00 Herculis.
Mag. 4.5
Jan. 0.9
10.9
20.8
30.8
Feb. 9.8
19.8
Mar. 1.7
11.7
21.7
31.7
Apr. 10.6
20.6
30.6
May 10.5
20.5
30.5
June 9.5
19.4
29.4
July 9.4
19.4
29-3
Aug. 8.3
18.3
28.2
Sept. 7.2
17.2
27.2
Oct. 7.1
17.1
27.1
Nov. 6.1
16.0
26.0
Dec. 6.0
159
25.9
35.9
Seed, Tan*
Mean Place
D V a, Dm a
Right
Ascension.
h
16
m
21
s
22.61
22.87
2315
23.45
23.77
26
28
30
32
32
31
30
29
24.09
24.40
24.70
24.99 ,,
25.26 ^7
25
25.51
22
^5-73 ,^
25.93 ^
26.10 '7
26.24 ^^
26.35
26.42
26.46
26.46
26.43
26.37
26.28
26.16
26.02
25.86
25.69
25.52
25.36
25.22
25.11
25.03
24.99
25.00
25.06
25.17
25.33
2553
25.77
II
7
4
o
3
6
9
12
16
17
17
16
14
II
8
4
I
6
II
16
20
24
Declina-
tion N.
+ 14 13
//
46.7
44.3
42.1
40.1
38.4
37.1
36.3
35.9
35.9
36.3
37.1
38.3
39.7
41.3
43.0
44.8
46.6
48.4
50.0
51.5
52.8
53.9
54.8
55.4
55.7
55.8
55.6
55.1
54.3
53.2
24
22
20
17
13
8
4
o
4
8
12
14
16
17
18
18
18
16
15
13
II
9
6
3
I
2
5
8
II
14
17
19
21
51.8
50.1
48.2
46.1
43.8 *3
41.4
38.9 '5
36.5 ''
1.032 40.254
23*798 58".43
-0.0 1
-0.2
40.0I
-0.9
Tf Draconii.
Mag. 2.9
Right
Ascension.
h
16
m
22
8
46.69
47.04
47.45
47.91
48.41
48.93
49.46
49.97
50.45
50.90
51.30
51.63
51.90
52.10
52.22
52.27
52.24
52.14
51.97
51.73
35
41
46
50
52
53
51
48
45
40
33
27
20
12
5
3
10
17
24
30
34
39
51.43
51.09
50.70
50.28 ^^
49.84 ^^
49.38
48.93
48.50
48.10
47.75
46
45
43
40
35
30
23
47.45
47.22
47.08 '\
47.03 ^
47.06
3
13
47.19
47.41
47.71
22
30
Declina-
tion N.
-|-6i 42
//
20.9
17.6 ^3
14.7 ^'
12.3
10.5
29
24
18
II
9.4
8.9
9.1
1 0.0
11.5
5
2
9
15
20
13.5
15.9
18.7
21.8 3'
32
24
28
25.0
28.2
31.3
34.3
37.1
39.5
41.6
43.2
44.3
45.0
45.2
44.8
43.9
42.5
40.6
38.3
32
31
30
28
24
21
16
II
7
2
4
9
14
19
23
28
a Scorpii.
Mag. 1.2
Right
Ascension.
32
34
36
35.5
32.3
28.9
25.3
21.6^7
38
17.8
I4.I
10.6 35
37
2. no +1.858
48'.659 39". 2 1
-0.04 40.05
-0.2 -0.9
h
16
s
2.73
3.03
3.36
3.70
4.06
4.42
4.77
5.II
5.43
5.74
6.03
6.29
6.53
6.74
6.92
7.07
7.18
7.25
7.28
7.28
7.24
7.16
7.05
6.91
6.75
6.59
6.42
6.26
6.12
6.02
5.95
5.93
5.96
6.05
6.20
6.40
6.64
6.92
m
24
30
33
34
36
36
35
34
32
31
29
26
24
21
18
15
II
7
3
o
4
8
II
14
16
16
17
16
14
10
7
2
3
9
15
20
24
28
Declina-
tion S.
-26 14
ft
27.0
27.5
28.2
29.0
29.9
30.8
31.7
32.6
33.4
34.2
34.9
35.5
36.1
36.7
37.2
37.7
38.1
38.5
38.8
39.1
39.3
39.4
39.5
39.5
39.3
39.0
38.6
38.2
37.7
37.2
36.7
36.2
35.8
35.5
35.4
35.5
35.7
36.1
5
7
8
9
9
9
9
8
8
7
6
6
6
5
5
4
4
3
3
2
I
I
o
2
4
4
5
5
5
5
4
3
I
I
(i HercQlis.
Mag. 2.8
Right
Ascensioin
h
16
m
26
26
s
27.50
27.76 .
28.04 ^^
28.34 ^°
28.66 32
32
28.98
29.30 3^
29.61 3»
29.91 3°
30.19
28
25
1. 115
4'.226
-0.493
23". 10
+0.01
-0.2
-0.01
-a9
30.44
30.67
30.87
31.04
31.18
31.29
31.36
3 1. -39
31.39
31.35
31.28
31.18
3105
30.89
30.72
30.54
30.36
30.18
30.02
29.89
29.80
2975
29.74
29.78
29.88
30.03
30.22
30.46
23
20
17
14
II
7
3
o
4
7
10
13
16
17
18
18
18
16
13
9
5
I
4
10
15
19
24
Dediaa
tionM.
+21 40
293
26.7
24.3
22.2
20.4
19.0
18.2
17.9
18.I
18.7
19.7
21. 1
22.8
24.7
26.8
29.0
3»-2
33-3
35-3
37.1
38.6
39.9
40.9
41.6
42.0
26
21
18
8
3
2
6
10
14
17
19
21
22
22
21
20
18
15
n
10
7
4
0
42.0
^'' 10
40.1
38.8 '^
^ 17
37.1
35.1 ,,
32.9,^
30.4 ,
27.8
25.1
22.3
19-5
2i
1.076 40.397
aS'.jaa 4a".39
4001
-0.9
APPARENT PLACES OF STARS, 1913.
421
FOR THE UPPER TRANSIT AT WASHINGTON
Mean Solar
Date.
Jan. 0.9
10.9
20.9
30.8
Feb, 9.8
19.8
Mar. 1.7
11.7
21.7
31-7
Apr. 10.6
20.6
30.6
May 10.6
20.5
30.5
June 9.5
19.4
29.4
July 9.4
19.4
29.3
Aug. 8.3
18.3
28.3
Sept, 7.2
17.2
27.2
Oct. 7.1
17.1
27.1
Nov. 6.1
16.0
26.0
Dec. 6.0
16.0
259
35-9
A. Ophiuchi.
Mag. 3.8
Right
Ascension.
h
16
m
26
Mean Place
s
30.22
3048 ll
30.77 ^
31.08^'
3139
31
31.70
32.01
3231 ._
32.60 ^
32.87
31
30
27
25
33.12
33.35
33.56
33.74
33.89
34.02
34.11
34.17
34.19
34.18
23
21
18
15
13
9
6
2
I
5
8
10
34.13
34.05
33.95 ,,
33.82 '3
33.67 '^
15
33.52
33.36 '^
33.08 '^
32.98 '?
32.91
32.88
32.90
32.96
3307
33-23
33.44
33.69
3
2
6
II
16
21
25
Declina-
tion N.
+ 2 10
tf
15.6
13-7
11.9
10.2
8.7
7.5
6.6
6.0
5.8
5.9
6.2
6.8
7-7
8.7
9.8
i.o
2.2
3.4
4.5
5.6
6.5
7.3
8.0
8.5
8.8
9.0
9.0
8.8
8.4
7.8
7.0
5.9
4.6
3.2
1.6
19
18
17
15
12
9
6
2
I
3
6
9
10
II
12
12
12
II
II
9
8
7
5
3
2
o
2
4
6
8
II
13
14
16
18
A Draconii.
Mag. 5.0
Right
Ascension.
9.8
6.0 '9
1. 001
3i*.459
+0.038
25".03
0.00
-0.2
0.00
-0.9
h
16
m
28
s
6.24
6.64 ^^
7.13 "^^
770 ^^
8.32 ^'
8.97
9.63
0.28
0.90
1.47
1.97
2.39
2.72
2.96
3.10
3.14
3.07
2.90
2.64
2.30
1.88
1.39
0.84
0.25
9.63
9.00
8.38
7.78
7.22
6.71
6.27
5.93
569
5.56
5.55
65
66
65
62
57
50
42
33
24
14
4
7
17
26
34
42
49
55
59
62
63
62
60
56
51
44
34
24
13
I
II
22
5.66
5-88
6.22 34
Declina-
tion N.
+68 56
ff
64.6
61.3
58.4
56.0
54.2
53.0
52.5
52.7
53.6
55.1
57.1
59.6
62.4
65.5
68.7
72.0
75.2
78.2
81.0
83.5
85.6
87.2
88.4
89.1
89.3
33
29
24
18
12
5
2
9
15
20
25
28
31
32
33
32
30
28
25
21
16
12
7
2
4
88.9
88.0 9
86.6 '^
84.7 '^
82.4
23
28
79.6
76.5
73.1
69.5
65.7
61.9
58.2
54-7
31
34
36
38
38
37
35
2.784 +2.599
8-.844 82".98
-0.06 +0.07
-0.2 -0.9
(Bph 13]
T Scorpii.
Mag. 2.9
Right
Ascenskm.
h
16
m
30
8
26.28
26.58 3^
26.91 33
27.26 35
27.62 36
^ 36
27.98
28.33 35
28.68 35
29.02 34
29.34
29.63
29.90
30.15
30.37
30.56
30.72
30.84
30.92
30.96
30.96
30.92
30.84
30.73
30.59
30.43
30.26
30.09
29.93
29.79
29.68
29.60
29.57
29.60
29.69
29.83
32
29
27
25
22
«9
16
12
8
4
o
4
8
II
14
16
17
17
16
14
II
8
3
3
9
14
19
30.02
30.26 ^^
30.54
Declina-
tion S.
-28 2
//
14.9
15.3
15.8
16.5
17.3
18.I
18.9
19.8
20.6
21.4
22.1
22.8
23.4
24.0
24.6
25.2
25.7
26.2
26.6
27.0
27.3
27.5
27.6
27.7
27.6
27.4
27.0
26.5
26.0
25.4
24.8
24.2
23.7
23.3
23.1
23.0
23.1
23.4
4
5
7
8
8
8
9
8
8
7
7
6
6
6
6
5
5
4
4
3
2
I
I
I
2
4
5
5
6
6
6
5
4
2
I
I
3
1. 133
27^.824
-0-533
1 1 ".01
+0.01
-0.2
-0.01
-0.9
ff Heroulli.
Mag. 4.2
Right
Ascension.
h
16
m
31
8
16.44
16.71
17.02
17.36
17.72
27
31
34
36
37
18.09
18.46
18.83
19.18 35
19.50 *^
37
37
29
26
22
18
14
9
5
o
19.79
20.05
20.27
20.45
20.59
20.68
20.73
20.73 ^
20.68 5
20.59 ^
13
20.46
20.29
20.08
9.85
9.60
17
21
23
25
26
9.34
9.08
8.83
8.60^3
8^^ 20
.40
8.24
8.13
8.07
8.07
8.13
8.26
8.45
8.69
26
25
16
II
6
o
6
13
19
24
Declina-
tion N.
+42 36
//
40.9 __
37.8 3'
34.9
32.4
30.5
29
25
19
13
29.2
28.4
28.3
28.8
29.9
31.5
33-6
36.0
38.7
41.5
44.4
47.3
50.1
52.7
55.0
8
I
5
II
16
21
24
27
28
29
29
28
26
23
20
17
57.0
58.7
60.0 '3
60.8 ^
61.2
61. 1
60.6
59-6
58.1
56.2
53.9
51.2
48.2
45.0
41.6
38.1
34.7
31.4
4
I
5
10
15
19
23
27
30
32
34
35
34
33
1-359 +0.920
I7-.882 56".94
-0.0a
+ao2
-0%
422
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.9
10.9
20.9
30.8
Feb. 9.8
19.8
Mar. 1.7
11.7
21.7
317
Apr. 10.6
20.6
30.6
May 10.6
20.5
30.5
June 9.5
19.4
29.4
July 9.4
19.4
29.3
Aug. 8.3
18.3
28.3
Sept. 7.2
17.2
27.2
Oct. 7.1
17.1
27.1
Nov. 6.1
16.0
26.0
Dec. 6.0
16.0
25.9
35-9
Sec 6, Tan 8
Mean Place
D'^ a, Dm a
C Ophiuclii.
Mag. 2.7
Right
Ascension.
h
16
m
32
27
31
s
20.66
20.93
21.23
21.86 3^
32
22.18
22.50 ^
22.81 ^'
23.11 '^^
23.40
23.67
23.91
24.13
24.33
24.50
24.64
24.74
24.81
24.85
24.85
24.81
24.74
24.64
24.52
24.38
24.23
24.07
23.92
23.79
23.69
23.62
23.59
23.61
23.68
23.80
23.97
24.18
24.43
29
27
24
22
20
17
14
10
7
4
o
4
7
10
12
14
15
16
15
13
10
7
3
2
7
12
17
21
25
Declina-
tion S.
-10 23
//
37.1
38.4
39-7
41.0
42.2
43.2
44.0
44.7
45.2
45.5
45.6
45.5
45.3
44.9
44.5
44.0
43.5
42.9
42.4
41.9
41.4
41.0
40.7
40.4
40.1
39-9
39.7
39.6
39.6
39.7
39.9
40.3
40.8
41.5
42.4
13
13
13
12
10
8
7
5
3
I
I
2
4
4
5
5
6
5
5
5
4
3
3
3
2
I
o
I
2
4
5
7
9
10
II
43.4
44.5
45.8 '^
1.017
2i*.99i
-0.183
29".88
0.00
-0.1
0.00
-0.9
24 Scorpii.
Mag. 5.0
Right
Ascension.
m
16 36
30.94
31.22
31-52
31-84
32.17
32.51
32.84
33-16
33.47
33-77
34-05
34.31
34-54
34.75
34.93
35.08
35.20
35.28
35.32
35.33
28
30
32
33
34
33
32
31
30
28
26
23
21
18
15
12
8
4
I
3
35.30
35.23
35.13
35.00
34.86 '4
7
10
13
34.71
34.55
34.39
34.25
34.14
34.07
34.04
34.06
34.13
34.25
34.42
34.64
34.90
15
16
16
14
II
7
3
2
7
12
17
22
26
Declina-
tion S.
17 34
//
34.3
35-2
36.2
37-2
38.2 ^^
9
10
10
39.1
39.9
40.6
41.2
41.7
42.0
42.2
42.3
42.3
42.3
42.2
42.1
41.9
41.8
41.6
41.5
41.4
41.2
41.0
40.8
40.6
40.3
40.1
39.9
39.7
39.6
39.6
39-7
40.0
40.4
40.9
41.6
42.4
9
8
7
6
5
3
2
I
o
o
2
2
2
2
3
2
2
2
I
o
I
3
4
5
7
8
1.049 -0.317
32'.353 28".27
+0.01
-0.1
-0.0 1
-0.9
C HercnliB.
Mag. 3.0
Right
Ascension.
h
16
m
37
25
5904
59.29 ,8
59-57 ,,
59-88 3'
60.21 ^"^
33
60.54
60.87 ^^
61.20 ^^
61.52 3^
61.81 ^9
27
62.08
62.33
62.55
62.73
62.88 '5
II
62.99
63.06
63.09
63.07
63.02
25
22
18
62.93
62.81
62.65
62.47
62.27
62.06
61.84
61.63
61.44
61.28
61.15
61.06 ^
61.02 4
61.04
61. II
12
16
18
20
21
22
21
19
16
13
61.24
61.42
61.64
7
13
18
22
Declina-
tion N.
+31 45
//
20.9
18.0 ^9
15-3 ''
13.0
11. 1
23
19
14
9.7
8.9
8.6
8.9
9.7
8
3
3
8
13
II.O
12.8
14.9
17.3
18
21
24
22.4
25.0
27.5
29.9
32.0
33.9
35.5
36.7
37.6
38.1
38.2
37.9
37.2
36.0
34.4
26
25
24
21
19
16
12
9
5
I
3
7
13
16
19
23
26
38
32.5
30.2
27.6
24.8
21.8 3^
31
18.7
15.6^'
12.5
31
1. 176 ■fo.619
60-.373 35".38
-0.02
-0.1
40.0I
-0.9
a TrlAng. Anst.
Mag. 1.9
Right
h
16
m
39
s
22.47
23.08
23.76
24.50
25.28
61
68
74
78
80
26.08
26.88 ^
27.67
28.43
29.16
79
76
73
68
29.84
30.46
31.02
3150
31.90
32.21
32^2
32.53
32.54
32.45
32.26
31.99
31.64
31.22
30.76
30.27
29.78
29.31
28.89
28.53
62
56
48
40
31
21
II
I
9
19
27
35
42
46
49
49
47
42
36
36
28.27
28.11
28.07
28.16 9
28.37 "
28.71
16
4
34
29.17
29.72
46
55
DecUiia-
tiooSL
-68 5J
It
85
6.9
5-7
4.9
4.5
4.5
4-9
5-7
6.9
8.4
10.2
12.2
14-4
16.8
19.4
22.0
24.6
27.2
29.7
32.0
34.0
35.7
37-1
38.0
38.5
38.5
38.0
37.1
16
la
8
4
0
4
8
13
15
18
20
23
24
36
26
26
26
n
n
20
17
14
9
5
0
5
9
35.7 ;!
33.9 ,,
^^•4 25
21.94
19.5
>7-3 ,8
15.5
77
2.774
26^.463
-a.588
k//
9'.73
+ao6
-ao6
-0.9
APPAEENT PLACES OF STARS, 1913.
423
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Dtte.
Jan. 0.9
10.9
20.9
30.8
Feb. 9.8
19.8
Mar. 1.8
11.7
21.7
317
Apr. 10.6
20.6
30.6
May 10.6
20.5
30.5
June 9.5
29.4
Jtily 9.4
19.4
29-3
Aug. 8.3
18.3
28.3
Sept. 7.2
17.2
27.2
Oct 7.2
17. 1
27.1
Nov. 6.1
16.0
26.0
Dec. 6.0
16.0
25-9
35-9
Stcd,TsaiS
Mean Place
fj Hezonlli.
Mag. 3.6
I Oroombridge 2877.
Mag 4.9
Right
Asoenskm.
h
16
m
39
53-33 ^^
53-59 ,^
53.88 \l
54.20 ^
54.54 5^
54.89
55.25 ^
55.60 35
55.94 l\
56.26 32
29
56.55
56.81
57.04
57.23
57.38
26
23
15
10
57.48
57.54
57.56
57.53
57.46
57.35
57.20
57.02
56.81
56.58
56.34
56.09
55.85
55.63
55.44
55.29
55.18
55.12
55.12
55.18
55.30
55.47
55.70
3
7
II
15
18
21
23
24
25
24
22
19
15
II
6
o
6
12
17
23
Declina-
tion N.
+39 4
58.2
55.1
52.3
49.8 '5
47.8
31
28
464
45.6
45-3
45.7
46.7
48.2
50.1
52.4
55.0
57.7
60.5
63.3
66.1
68.7
71.0
20
14
8
3
4
10
15
19
23
26
27
28
28
28
26
23
21
73.1
74.8 ''
76.1 ^3
77.0 \
77-5 I
77-5
77.1
76.2
74.9
73.2
4
9
13
17
21
71. 1
68.6 ^5
65.8 ^«
62.7
59.4
56.0
52.7
49.4
31
33
34
33
33
1.288
54*.76i
+0.812
73".57
-0.02
-0.1
+0.02
-0.9
Right
Ascension.
h
16
m
43
36!86
37.15
3750
3790
38.33
38.78
3925
39-71
40.15
40.56
40.94
41.27
41.55
41.77
41.93
42.02
42.05
42.01
41.91
41.75
29
35
40
43
45
47
46
44
41
38
33
28
22
16
9
3
4
10
16
22
41.53 ..
41.26 ^7
40.95 l\
40.60 '^^
40.23 37
39.85
39.46
39.08
38.72
38.40
38.13
37.92
37.77
37.70
37.71
37.80
37.97
38.22
38
39
38
36
32
27
21
15
7
I
9
17
25
Declina-
tion N.
+56 55
56.6
53-2
50.1
47.5
45-5
44.1
43-3
43-2
43.8
45.0
34
31
26
20
14
8
I
6
12
18
23
46.8
^^•^ .,
51.8^7
54.7 '^
57.8 3^
32
61.0
64.2
67.3
70.2
72.8
32
31
29
26
23
75.1
77.0
78.4
79.4
79.9
79.9
79.3
78.2
76.7
74.7
72.2
69.3 ,,
66.1 32
62.7 34
59.1 ^'
37
55.4
19
14
10
5
o
6
II
15
20
25
29
51.7
48.1
37
36
1-833 +1.536
38*.797
73".47
-0.04 +0.03
-0.1 -0.9
(Bph X3l
€ Soorpii.
Mag. 2.4
Right , Dedina-
Ascension. tion S.
h
16
m
44 -34 8
s
29.81
30.12
30.46
30.82
31-19
31.57
31.95
32.32
32.68
33.02
33.34
3364
33.92
34.17
34.38
34.55
34.69
34-79
34.85
34.86
34.83
34.75
34.63
34.48
34.31
34.13
33.94
3376
33.60
33.47
33.37
33.32
33.33
33.40
33.53
33.72
33.96
34.24
31
34
36
37
38
38
37
36
34
32
30
28
25
21
17
14
10
6
8
12
15
17
18
19
18
16
13
10
5
I
7
13
19
24
28
4.3
4-3
4.5
4.8
5.3
5.9
6.6
7.3
8.1
8.9
19.7
20.6
21.5
22.3
23.1
24.0
24.8
25.6
26.4
27.1
27.8
28.3
28.7
28.9
28.9
28.8
28.5
28.0
27.3
26.6
25.8
24.9
24.1
23.4
22.7
22.2
21.9
21.7
3
5
6
7
7
8
8
8
9
9
8
8
9
8
8
8
7
7
5
4
2
o
I
3
5
7
7
8
9
8
7
7
5
3
2
1.208
3 1 ■•509
-0.678
io".77
40. 02
-0.1
-o.oi
-0.9
48 Heroulis.
Mag. 6.4
Right
Ascension.
h
16
5.87
6. 1 1
6.38
6.67
6.97
7.28
7.59
7.90
8.20
8.48
8.74
8.98
9.20
9.40
956
9.69
9.79
9.85
9.88
9.87
9.82
9.74
9.63
9.50
9.34
9.17
8.99
8.82
8.66
8.53
8.43
8.37
8.36
8.39
8.47
8.60
8.77
8.99
m
48
24
27
29
30
31
31
31
30
28
26
24
22
20
16
13
10
6
3
I
5
8
II
13
16
17
18
17
16
13
10
3
8
13
17
22
Declina-
tion N.
+ 15 6
58.0
55.6
53-4
51.4
49.7
48.3
47.4
46.9
46.9
47.3
48.1
49.3
50.7
52.4
54-3
56.2
58.1
60.0
61.8
63.5
65.0
66.3
67.3
68.1
68.6
68.8
68.7
68.3
67.6
66.6
65.3
63.8
62.0
59.9
57.6
55.2
52.7
50.3
24
22
20
17
14
9
5
o
4
8
4
7
9
9
9
9
8
7
5
3
o
8
5
2
4
7
10
13
15
18
21
23
24
25
24
1.036 +0.270
7«.i62 69^.85
-0.01
+0.01
424
AITARENT PLACES OF STABS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solur
Date.
Jan. 0.9
10.9
20.9
30.8
Feb. 9.8
19.8
Mar. 1.8
11.7
21.7
317
Apr. 10.7
20.6
30.6
May 10.6
20.5
30.5
June 9.5
19.5
29.4
July 9.4
19.4
29.4
Aug. 8.3
18.3
28.3
Sept. 7.2
17.2
27.2
Oct. 7.2
17.1
27.1
Nov. 6.1
16.1
26.0
Dec. 6.0
16.0
25-9
35-9
Sec 6, Tan S
Mean Place
€^ Ar«.
Mag. 4.2
D'^ a, Dw a
Right
Ascension.
h
16
m
52
s
36.26
36.65
37.08
37.55
38.04
38.54
3904
39.54
40.03
40.50
40.94
41.35
41.72
42.05
42.34
42.58
42.76
42.89
42.95
42.95
42.89
42.77
42.60
42.39
42.15
41.88
41.60
41.33
41.09
40.89
40.74
40.65
40.64
40.70
40.84
41.06
41.35
41.71
39
43
47
49
50
50
50
49
47
44
41
37
33
29
24
18
13
6
o
6
12
17
21
24
27
28
27
24
20
15
9
I
6
14
22
29
36
Declina-
tion S.
-53
//
42.3
41-3
40.5
40.0
39.8
39-9
40.3
40.9
41.8
42.9
10
8
5
2
I
4
6
9
II
12
fc Ophiuclii.
Mag. 3.4
44.1
45-5
47.1
48.8 [I
50.6
52.4
54.3
56.1
57.9
59.5
61.0
62.3
63-3
64.0
64.4
64.5
64.2
63.5
62.5
61.2
59-7
58.0
56.2
54.4
52.6
50.9
49-4
48.2
14
16
18
18
19
18
18
16
15
13
10
7
4
I
1.663 -1.329
38«.664 4o".72
+0.03
-0.1
-0.03
-i.o
Right
Ascension.
h
16
tn
53
8
31.66
3189
32.15
32.44
32.74
23
26
29
30
31
31
33.05
3336 ^^
33.66 3°
20
33.95 ^
34.23
28
27
34.50
34.75
34.98
35.18
35.35
35-49
35.60
35.67
35.70
35-70
35.67
3560
35.50
35.37
35.22
35.06
34.89
34.72
34.57
34.44
34-34 ,
34.28 ^
34.27 .
34-30 I
34.38 ^i
34-51
34.68 '7
34.90
25
23
20
17
14
II
7
3
o
3
7
10
13
15
16
17
17
15
13
10
Declina-
tion N.
+ 9 30
//
23.4
21.3
19.2
17-3
15-7
14.4
13.5
13-0
12.9
13.2
13.9
14.8
16.0
17.4
19.0
20.7
22.4
24.0
25.6
27.1
28.4
29-5
30.5
31-2
31.7
31-9
31.9
31.6
31-1
30.3
21
21
19
16
13
9
5
I
3
7
9
12
14
16
17
17
16
16
15
13
II
10
7
5
2
o
3
5
8
10
30 Ophiuchl.
Mag, 5.0
22
29.3
28.0 '3
26.5 '5
24-7
22.7
20.6
18.4
16.3
18
20
21
22
21
Right
Ascension.
h
16
m
56
25
27
s
27.00
27-25
27-52 ^^
27.81 ^9
28.11 30
31
28.42
28.74
29.05
29.35
29.63
32
31
30
28
27
29.90
30.16
30.40
30.61
30.79
30.95
3107
31.16
31-21
31-23
26
24
21
18
16
12
9
5
2
2
31.21
31.15
31.06
30.94 ,,
30.80 '^
6
9
12
30.65
30.49
30.33
30.19
30.07
29.98
29.93
29.93
29.97
30.06
30.20
30.38
30.61
15
16
16
14
12
9
5
o
4
9
14
18
23
Declina-
tion S.
-45
ft
43-2
44-8
46.3
47.7
48.9
49-9
50.7
51-3
51-6
51-6
51-4
51.0
50.4
49-6
48.7
47.8
46.8
45.8
44-9
44.1
43.4
42.7
42.1
41.6
41-3
41. 1
41.0
41.0
41.2
41.5
42.0
42.7
43-5
44.5
45.7
47.0
48.4
49.9
16
15
14
12
10
8
6
3
o
2
4
6
8
9
9
10
10
9
8
7
7
6
5
3
2
I
o
2
3
5
7
8
10
12
13
14
»5
€ Hercnlis.
Mag. 3.9
Right
Ascenskm.
h
16
m
56
s
56.21
56.44
56.71
57-01
57.32
23
27
30
31
32
57-64
57-97
58.30
58.62 32
58.93 ^'
33
33
29
26
23
20
59.22
59.48
59-71
59.91 ..
60.08 *7
13
60.21
60.30
60.35
60.36
60.33
II
60.25
60.14
60.00 ^*
59.83 '^
59.63
20
21
22
21
20
1. 014 +0.167
32".962 34".34
0.00 0.00
-0.1 -i.o
1.003
28-.348
-0.072
34".36
59.42
59.20
58.99
58.79 _.
58.62 *7
14
58.48
5838
58.32
58.32
58.37
58.48
58.64
58.84
10
6
o
5
II
16
20
Dedint'
tionK.
+3^ 2
rr
60.2
57-2
54-4
52.0
50.0
48.5
47.6
47.2
47.3
48.0
49.2
50.9
52.9
55.2
57-7
60.3
62.9
65.5
68.0
70.2
72.2
73.9
75-3
76.4
77'^
77.4
77.2
76.6
75-6
74.2
72.4
62.3 ;
59.2 ,
56.1 ^
30
28
24
20
15
9
4
I
7
2
7
20
3
5
6
6
6
5
2
20
7
4
I
7
3
2
6
10
14
18
21
53.0
3
0.00
-0.1
0.00
-1.0
1. 167 40.602
57».627 73".97
>.02
40.01
-1-0
APPARENT PLACES OF STARS, 1913
425
FOR THE UPPER TRANSIT AT WASHINGTON.
d Heroulis.
Tf OpMachi.
tj Scorpii.
C Draconis.
Kean Solar
Mag.
5-3
Mag.
2.6
Mag. 3.4
Mag.
3-2
Date.
Right
Declina-
Riglit
Declina-
Right 1 Dedina- |
Right
Declina-
Aacensicm.
tion N.
Ascension,
h m
tion S.
Ascension, j tion S
«
«
Ascension,
h m
tion N.
h m
0 /
0 f
h m 0
/
0 r
16 58
+33 41
'7 5
-15 37
17 5
-43
7
17 8
+6548
f 0
Jan. 0.9
8
22.11
22.7
s
21-75
12. 1
s
53-17
35.9
^
29- « 8
62.1
10.9
22.34 11
'9-7 ^8
22.00 ^
-^ 0
13.0 9
53-49 \.
35.3
6
29.46 ^»
58-6 ^^
20.9
22.61 ^7
10.9
22.28 **
13-9 ^
53-85 ^J
34.8
5
29.83 37
55-4 ^^
30.9
22.91 ^°
14-4 \\
22.58 3°
14.8^
54-23 I,
34-5
3
30.28 ^5
52-6 :«
Feb. 9.8
23.23 11
12.3 ^
22.90 ^^
15.6 °
5464 \\
34.5
0
30.79 ^'
50.4
33
15
32
8
42
2
55
17
19.8
23-56
10.8
23-22
16.4
5506
34.7
31-34 „
48.7
Mar. 1.8
23.90 ^4
9-9 '
23-55 W
17.I 7
55-48 J^
35.0
3
31.92 ^
32.50 58
47-7
11.7
24.23 ^3
9-5 \
23.87 3^
17.6 5
5590*
35.5
5
6
0
47-4 :
21.7
24.56 \]
9-7
24.19 ^
18.0 ^
563 1 1'
36.1
33-07 "
47-8 4
31-7
24-87 i\
10.4 I
24-50 ^'
18.3 3
56.71 t°
36.9
0
33-62 55
48.8 '^
29
12
»9
I
38
9
50
16
Apr. 10.7
25.16
11.6
24-79 „
18.4
57-09
57-45 ^,
37.8 ,
34- '2 ^^
5°-4 „
20.6
2543 J
13.3 \\
25.06 w
18.3 ^
38.8 '
[O
34-56 44
52-6 I'
30.6
25.67 J^
'5-4 !
25-31 *
I8.I ^
57-78 ^3
39.9 \
[ I
34-94 ^°
55-2 \l
May 10.6
25.87 °
'7« :
25-54 ,^
^79 ^
58-08 f
41.0
[ I
35-25 f.
58.1 '9
20.6
26.04 ^
25-75 '!
17.6 3
42.2 ^
[2
35-47 "
6i.2 3'
13
27
18
3
23
[2
«3
33
30.5
26.17 ^
*3-^ „
25.93 ,,
17.3 ,
5857 ,«
43.4 ,
35-60
64-5 „
June 9.5
26.26 ^
25-8 ^^
26.07 ^
17.0 ^
58.75 !
44.7
13
35-64 \
67.8 \\
195
26.31 ^
26.17 ^!
16.73
58.88 '3
46.0
13
35-60 4
71.1 33
29.4
26.31 °
26.24 '
16.43
58.96 ;
47.2 \
r2
35-47 ,t ' 74-2 3'
July 9.4
26.27 g
33-4 :^
26.27 3
I
16.I 3
3
58.99 \
48.4 J
[2
[I
35-25 ^^ 77-0 ^»
30 26
19.4
26.19 „
35.5 ^„
26.26
15.8
5897 ,
49.5 ,
34.95 _ ; 79-6 _
29.4
26.07
37-3 '
26.21 ^
15.6 ^
58-90 ,^
50.5
[O
0
34.58 37
81.8 "
Aug. 8.3
25-92 ''
'5-74 '1
38.7 ^
26.13 ,,
15.4 ,
58.78 "
51-3
8
6
34-15 :^
83-5 \l
18.3
39.8 "
26.02 "
15.2
58.62 \i 51-9
33.67 1!
84.8 '3
28.3
=^5-54 Z
40.5 ,
25.88 '\
15.0
58-43 , 52.2
3
33.15 ^:
85-6 «
22
3
16
I
21
I
54
3
Sept. 7.3
25-32
40.8
2572 ,
25-56 J
H.9 ,
58-22
52.3
32-^^ ,6
32.05 5^
85.9 ,
17.2
25-09 J:
40.6 ^
40.0
14.7
58.00 "
52.1
2
85-7 I
27.2
24-87 \\
25.40
14.6 '
57.79 \'
51.7
4
mm
31.50^^
84-9 .!
Oct. 7.2
24.66 ''
24-48 \\
390 °
25.25 ,^
14-5 ;
57.59 ^
510
1
30.97 53 83.6 \i
17. 1
37-5 ^
25.13
14.4
57.42 \l
50.1
9
3048 49
81.8 '°
»5
18
9
0
13
]
[I
44
22
27.1
24-33 , ,
35-7 „
25.04 .
14.4
57.29 „
57.21 \
49.0 ^
30.04 ! 79.6 „
Nov. 6.1
24.22
22
33.5 ^^
24.98 ^
14.5 ,
47.8
[2
r 1
29.67 ^7
76.9 ^^
16.1
24.16 °
28.1 "^
24.97 '
14.7 1
57.19 ^
46.5
13
29.39 ,^
73-9 ^°
26.0
24-15
25.01 "*
15.0 ^
57.24 ,
45.2
^3
29.20 ^
70- 5 •'1
Dec. 6.0
24.20 '
25.1 3°
25.11 '^
15.4 \
I I
57.35 '
44.0 ^
[2
29.11 9
66.9 3^
10
31
14
6
18
[I
I 37
16.0
24-30
22.0
25.25 „
16.0
57.53 _ .
42.9
29.12
63.2
26.0
^^-^ ,„
18.8 3^
25.43 \\
16.7 J
57-77 "l
41.9
[O
2924 "
59-5 ^!
35.9
24-65 '°
15.73^
25.66 ^3
1.038
17.5 «
-0.280
58.06 '9
41.0
9
29.46 "
55.9 ^*
Sec S, Tan S
1.202 -fO.667
1.370
-0.93
.7
2.441 +2.227
Mean Place
23"-568 36". 79
23*.200
4".72
55'.«50 32".22
■
3i".967 78".04
DV a. Dm a
-0.02 +0.01
+0.01
0.00
+0.02 -O.OI
-0.06 +0.03
T>^d,VmS
-0.1
-1.0
-O.I
-1.0
-0.1
-i.o
-o.\
-\.<5i
fE0h 13I
426
APPARENT PLACES OF STABS, 1913-
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 0.9
10.9
20.9
30.9
Feb. 9.8
19.8
Mar. 1.8
11.7
21.7
31.7
Apr. 10.7
20.6
30.6
May 10.6
20.6
30.5
June 9.5
195
29.4
July 9.4
19.4
29.4
Aug. 8.3
18.3
28.3
Sept. 7.3
17.2
27.2
Oct. 7.2
17.1
27.1
Nov. 6.1
16. 1
26.0
Dec. 6.0
16.0
26.0
35.9
Sec 6, Tan d
Mean Place
(X Herculis.
Var. 3.1-3-9
Right
Ascension.
h
17
m
10
39-43
3965
3990
40.17
40.46
22
25
27
29
31
41.08 3^
41.38 ^°
41.68 3°
41.97 II
42.25
42.51
26
24
42.96 ^'
43.14
43.30
43.42
43.50
43.55
43.56
43.53
43.46
43.36
43.23
43.08
42.91
42.73
42.56
42.40
42.25
42.13
42.05
42.02
42.03
42.09
42.20
42.35
42.55
18
16
12
8
5
I
3
7
o
3
5
7
8
7
6
5
2
8
3
I
6
II
15
20
Declina-
tion N.
+ 14 28
//
67.9
65.5
63.3
61.3
59.6
58.2
57.3
56.8
56.7
57.1
57.9
59.0
60.4
62.0
63.8
65.8
67.8
69.7
71.6
73.4
75.0
76.4
77.5
78.4
79.0
79.3
79.3
79.1
78.6
77.8
76.6
75.1
73.4
71.5
69.4
67.1
64.7
62.4
24
22
20
17
14
9
5
I
4
8
II
14
16
18
20
20
19
19
18
16
14
II
9
6
3
o
2
5
8
12
15
17
19
21
23
24
23
1.033
40'.792
-fo.258
79".44
^ Herculis.
Mag. 3.2
Right
Ascension.
h
17
s
26.02
26.24
26.49
26.77
27.07
m
II
22
25
28
30
31
32
27.38
27.70
28.01 3'
28.32 3^
28.62 ^"^
29
28.91
29.18 ^7
29.42 ^^
29.63
29.81
29.96
30.07
30.14
30.18
30.17
21
18
15
II
7
4
I
5
8
12
15
30.12
30.04
29.92
29.77 ,.
29.60 '
19
29.41 ,^
20
29.21
20
29.01
28.82 'I
16
28.66
28.52
28.42
28.37
28.36
28.40
28.50
28.65
28.84
14
10
5
I
4
10
15
19
Declina-
tion N.
+24 56
f/
15.3
12.5
9-9
7.6
5.7
4.2
3.2
2.7
2.7
3.2
4.2
5.6
7.4
9.4
11.7
28
26
23
19
15
10
5
o
5
10
14
18
20
23
24
14. 1
16.6 ^5
19.0 ^^
21.3
23.4
23
21
19
25.3
27.0
28.4
29.5
30.3
30.7
30.7
30.3
29.5
28.4
26.9
25.1
22.9
20.5
17.9
151
12.3
9.5
17
14
II
8
4
o
4
8
II
15
18
22
24
26
28
28
28
1. 103 +0.465
27".443 28".07
7t Herculii.
Mag. 3.4
Right
Ascension.
h
17
m
II
59.40
59.62
59.88
60.17
60.49
22
26
29
32
33
60.82
61.16^^
61.50 3^
61.84
62.17
62.48
62.76
63.01
63.23
63.41
63.56
63.66
63.72
63.73
63.70
63.62
63.50
63.34
63.15
62.93
34
33
31
28
25
22
18
15
10
6
I
3
8
12
16
19
22
23
62.70
62.46
62.22 ^*
61.99 ^3
61.79
24
20
17
13
9
3
2
8
61.47
61.61 '^
61.80 '^
61.62
61.49
61.40
61.37
61.39
Declina-
tion N.
+36 53
ft
69.8
66.7 ^'
^3-« 26
61.2 ^^
59.1
57.5
56.4
55.9
56.0
56.7
58.0
59.7
61.8
64.2
66.9
21
16
II
5
I
7
13
17
21
24
27
28
^9-7 ,„
72.6 ^9
75.5 II
78.2 ^7
80.7^5
22
82.9
84.9 ,^
86.5 '^
87.8 'I
88.6 *
4
89.0
89.0
88.5
87.6
86.2 '^
18
84.4 ,,
82.2 "
25
o
5
9
79.7
28
76.9 ._
73.8 II
32
70.6
67.3 ^^
64.1 3"
1. 251
6o*.962
+0.751
83'.'.79
69 Apodis (G.).
Mag. 5.9
Right
Ascension.
h
17
s
1.26
2.35
3.63
5.07
6.64
8.30
10.00
11.72
13.42
15.07
16.64
18.09
19.41
20.57
21.55
22.33
22.90
23.?4
23.34
23.20
m
15
22.84
22.27
21.50
20.56
19.49
109
128
144
157
166
170
172
170
165
157
145
132
116
98
78I
57
34
10
14
36I
57
77
94
107
115
17.15 "3
15-97
14.85
13.84
118
112
lOI
84I
13.00
12-37
11.98
11.85
12.00
".43
13.12
14.06
63
39
13
15
43
69
94
Dedina-
tiooS.
-8046
0t
52.2
49.8'*
21
47.7 „
46.0 '7
44.8
44.0
43.7
43-9
44-5
45-5
46.9
48.7
50.8
53.2
55-9
58.7
61.6
64.6
67.5
70.3
72.9
75-3
77.3
78.8
79.9
80.5
80.5
80.0
78.9
77.3
8
3
2
6
10
14
18
21
24
27
28
29
30
29
28
26
H
20
15
II
6
5
11
16
21
^•9 20
67.0 I
64.0 ^°
61.0
55-5
6.244 -6.163
xo^.347 5o".95
DV a, D» a
-o.oi
-0.1
0.00
-i.o
-O.OI +0.01
-o.i -1.0
-0.02
-0.1
40.0I
-1.0
+0.16
-0.1
-ox>8
-1.0
APPARENT PLACES OF STARS, 1913.
427
FOR THE UPPER TRANSIT AT WASHINGTON.
1
0 Ophiuchi.
te; HercoliB.
ft ArsB.
h Ophluchi.
■ VtaSobr
Mag. 3.4
Mag. 5.4
Mag. 2.8
Mag. 4.3
■ Dtte.
f
Rifffat
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
1
tion S.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion S.
1
h m
0 /
h m
0 /
h m
0 /
h m
0 /
f
17 16
-24 54
17 17
+32 34
ma
17 18
-55 26
17 21
-24 5
1 Jan. 0.9
3832 ^^
WW
55-5 ,
s
22.67
' w
s
'•33 ,„
w »
58-4 ,^
s
'•74 ,^
53.5 ,
1 IO-9
3S.57 li
55-8 \
22.88 '^
27-8 3'
'•71 ^!
57-0 4
'•98 It
53.8 3
I 20.9
38.86 ^9
56.2;^
23.13 ^«
25.0 f
2-^3 1^
55.9 '•
2.26 '8
54-2 ^
30.9
39.17 1\
56.6^
23.41 ^J
22.5 '5
^•59 to
55-0 '
54-4 ,
2-57 5;
54.6 4
Feb. 9.8
39.50 ^,
57-1 ,
23.72 ^'
2°-4 .,
309 _
2.90 -*•'
55.1 \
34
5
32
17
52
3
34
5
19.8
39.84 _
57-6
24.04
18.7 .,
3-6i
54-1
3-24 ,,
55.6 ^
Mar. 1.8
40.19 ^^
58.1 5
24.37 ^^
17.6 '■
4-14 „
54-1 .
3-58 34
56.0 4
11.8
40.53 ,,
58.5^
24.70 ^^
17.0 ^
4-67 "
54-4 \
3.92 34
56.4 t
21.7
40.87 1\
58-9^
25.03 ^^
17.0 °
17.6 *
5-19 ^'
54-9 ,
4.26 34
56.7^
317
41.20 •*■'
59-2 \
25.35 ^^
5-69 f
55-6 7
1 "1
4-59 ,
57.0 ^
32
3
30
II
49
10
31
2
Apr. 10.7
^^•^' to
59-5 _
25.93 ',
2°-3 ^
6.18 ^
6.64 46
56.6
^•9° ,0
57-2
20.6
41 -82 3^
59-7 ,
57-8 "
520 11
57-4 ,
30.6
28
42.10 "
2
59.9 ,
26.18 ^5
22-3 Z
707 :^
59-2 1
60.8 "*
5-48 ll
57-6'
May 10.6
42.35 ,*
60.1 ^
26.40 "
24-6 ^3
7-45 ^!
5-74 '
57-7
20.6
42-58 2
60.2 '
26.59 '\
27.1 ^5
7-79 ^
62-5 11
5-97'^
57-8 '
20
2
15
26
29
18
20
I
30.5
42.78 ,^
42.94 ,,
60.4
26.74
29-7 „
8.08
^4-3 ,„
6.17
57-9 ,
June 9.5
60.6 ^
26.85 "
32-4 !^
8.31 ^3,
66.2 '9
6-34 7
58.0
19.5
43-07 1
43.15 .
60.8 ^
26.92 '
35-' I
8.48 7
68.1 '9
6.47 '^
58.1 '
295
61.0 ^
26.95 \
37-7 '
8.58 '°
70.0 |9
6.56 9
58-3*
July 9.4
43.19 *
61.2 ^
26.93 ^
40.1 ="4
8.62 4
71.8 ^
6.60 4
58.5"
0
2
6
22
3
»7
0
I
19.4
43.19 .
61.4
26.87 ,,
423 ,„
^•59 ,„
73-5 ,,
6.60
58.6
29.4
43-15 :
43-07 ,,
61.6 ^
26.77 °
44-^ 6
8-49 Z
750 '
6.56 4
58.8*
Aug. 8.3
61.8 ^
26.63 ^
45-8 ^
8-33 ^
762 !
6.49 7
59-0 ,
18.3
42-95 "
61.9;;
26.46 '7
47-0 "
8.12 "
77-2 '°
638 •
59-» '
28.3
^■^' A
61.9^
0
26.27 '^
21
47-8 «
7-87 *f
28
77-9 7
0
59-^ 0
Sept. 7.3
42.65 „
61.9
26.06
48.2
7-59 „
78.2
6.08
59-1
17.2
42.48 \l
61.8 '
25-83 ^3
48-2 °
729 3°
78.2 °
5-91 |7
59-0 '
27.2
42.31 \l
4*-»5 !
61.6 ^
25-61 "
47-8 4
6.99 ^°
77-8 4
5-74 \l
58-8'
Oct 7.2
61.3^
25.40 •
47-0 °
6.72 ^7
77-0 *
5-58 ^
58-6'
17.1
42.01 **
61.0 3
25.21 9
45-7 '^
6.48 '4
75-9 ,,
5-44 '*
58.3^
II
4
16
»7
19
14
11
3
27.1
41.90
60.6
25-05
44-°, „
^•29 „
74-5 ,^
5-33 ,
58.0
Nov. 6.1
41.83 I
60.3 ^
24.92 '3
42° !
6.16 '3
6.10 *
7^« 0
5.26 I
57.7^
16.1
4i.8it^
60.0 ^
24-84 ,
39-6 4
70.9 *9
5-24 ,
57-4:
26.0
41.85 I
59-8 ^,
24.82 \
36-9 !^
6.12 =*
69.0 11
5-27 3
2
57.2 \
Dec. 6.0
41.94 ,:
59.6 \
24-85 ^
34-0 ^9
6.22 '^
67.1 '^
5.35
I
57.1
14
I
8
31
19
19
13
0
16.0
42.08
59-5 ,
24-93 „
30-9 ,,
6-67 ',^
6?! -8
5-48 ,„
57.1 ,
26.0
42.27 ^^
59-6 '
25-06 3
27.8 3
5.66 »
57.2 \
35.9
42.50 ^3
59-8 '
25-24 "
24.7 ^'
7.01 ^*
61.8 '^
5.89 '3
2
57-4
Stcd.TanS
1. 102 -0.465
1. 187 +0.639
1.764 -1.452
1.096 -0.447
MeanHace
39».893 48^.96
24*. 194 44".26
3*.90i 55".i5
3».304 46".6i
D> a, D« a
40.01 -0.0 1
-0.02 +0.01
40.04 -0.02
40.01 -0.01
D^a D«5
-0.1
-I.O
-0.1
-1.0
-0.1
-1.0
i -o.\
— ■v»
[Bph 13I
428 APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
APPARENT PLACES Oi" STARS, 1913
FOR THB UPPER TRANSIT AT WASHINGTON.
429
Mean Solar
Date.
Jan. 0.9
10.9
20.9
30.9
Feb. 9.8
19.8
Mar. 1.8
11.8
21.7
31.7
Apr. 10.7
20.6
30.6
May 10.6
20.6
30.5
June 9.5
19.5
29.5
July 94
19.4
29.4
Aug. 8.3
18.3
28.3
Sept. 7.3
17.2
27.2
Oct. 7.2
17.2
27.1
Nov. 6.1
16.1
26.0
Dec. 6.0
16.0
26.0
35-9
Mean Place
A. Soozpli.
Mag. 1.7
Right
h tn
17 27
40.13
40.40
40.71
41.05
41.42
41.80
42.19
42.58
42.96
43.33
27
3»
34
37
38
39
39
38
37
36
43.69
44.04
44.36
44.66 3^
44.93 ^
35
32
45.17
45.36
45.51
45.61
45.67
45.68
45.64
45.55
45.42
45.26
45.08
44.88
44.68
44.49
44.33
44.20
44.11
44.07
44.09
44.17
44.31
44.51
44.76
24
19
15
10
6
4
9
13
16
18
20
20
19
16
13
9
4
2
8
14
20
25
Dedioa-
tkmS.
o /
37 2
//
34.1
33.6
33.2
33.0
32.9
33.0
33.2
33.5
33.8
34.2
34.7
35.2
35.8
36.5
37.2
38.0
38.8
39.7
40.6
41.5
42.3
43.0
43.7
44.2
44.6
44.8
44.8
44.5
44.1
43.5
42.8
41.9
41.0
40.0
39.1
38.2
37.5
36.9
5
4
2
I
I
2
3
3
4
5
5
6
7
7
8
8
9
9
9
8
7
7
5
4
2
o
3
4
6
7
9
9
10
9
9
7
6
1.253
4i*.949
-0.755
28".28
40.02
-O.I
-0.0 1
-I.O
/S Biaoonis.
Mag. 3.0
Risht
Ascmsion.
h m
17 28
25.91
26.11
26.38
26.70
27.06
20
27
32
36
39
27.86 ^'
28.28 ^^
28.70 ^^
29.10
29.48
29.83
30.14
30.40
30.62
30.79
30.90
30.94
30.92
30.85
30.72
30.54
30.31
30.03
29.72
29.39
29.04
28.69
28.35
28.04
27.76
27.53
27.35
27.23
27.19
27.22
27.32
27.48
40
38
35
31
26
22
17
II
4
2
7
13
18
23
28
31
33
35
35
34
31
28
23
18
12
4
3
10
16
Dedina-
tioaN.
+52 21
//
41.2
37.7
34.5
31.6
29.2
27.4
26.2
25.6
25.7
26.4
35
32
29
24
18
12
6
I
7
13
27.7
29.6
31.9
34.6 ^7
37.6 3°
19
23
40.8
44.0
47.2
50.3
53.2
32
32
32
31
29
27
24
20
55.9
58.3
60.3
61.8 '5
62.9 -
63.5 .
63.6
63.2
62.3
60.9
4
9
14
18
56.8 ^^
54.0^^
50.9
47.6
44.1
40.5
37.0
31
33
35
36
35
1.638 +1.297
27*-976 55".4i
-0.03 +0.01
-O.I -1.0
lEph 13I
a Ophluolii.
Mag. 2.1
Right
Ascension.
h m
17 30
s
52.31
52.51
52.75
53.01
53.29
53.59
53.89
54.19
54.49
54.79
20
24
26
28
30
30
30
30
30
29
55.08
55.35 _^
55.60 II
55.83 '^
56.03
27
20
56.20
56.34
56.44
56.51
56.54
56.53
56.48
56.39
56.27
56.13
55-97
55.80
55.62
55.45
55.30
55.18
5509
5504
55.03
55.07
55.16
55.30
55.48
17
14
10
7
3
I
5
9
2
4
6
7
8
7
5
2
9
5
I
4
9
14
18
Declina-
tion N.
+ 12 36
ff
70.1
67.9 "
63.7 '"
62.0 '7
60.7
59.8 I
59.2
59.0
59.3
60.0
61. I
62.4
64.0
65.8
67.7
69.6
71-5
73.4
75.2
76.8
78.2
79.4
80.3
81.0
81.4
81.6
81.5
81. 1
80.4
79.4
78,1
76.6
74.8
72.8
70.7
68.5
66.3
I
3
6
8
9
9
9
9
8
6
4
2
9
7
4
2
I
4
7
10
13
15
18
20
21
22
22
1.025
53'*.722
+0.224
8l".20
-0.0 1
-0.1
0.00
-1.0
S Seipentis.
Mag. 3.6
Right
Ascension.
h
17
m
32
8
34.72
34.95
35.21
35.49
35-79
36.10
36.42
36.75
37.07
37.38
37-68
37.97
38.24
38.49
38.72
38.92
39.09
39-22
39.32
39.37
23
26
28
30
31
32
33
32
31
30
29
27
25
23
20
17
13
10
5
I
3
6
10
39.38
39-35
39-29
39-19 ,^
39.06 ^^
38.91
38.75
38.58
38.42
38.28 '^
16
17
16
38.17
38.09
38.06
38.08
38.15
38.26
38.42
38.62
II
8
3
2
7
II
16
20
Declina-
tions.
-1520
rr
48.5
49.2
50.0
50.8
51.5
52.1
52.6
53.0
53.2
53.3
53.3
53.1
52.8
52.4
52.0
51.5
5I-I
50.7
50.3
49.9
49.6
49.4
49.2
49.1
49.0
48.9
48.8
48.7
48.7
48.7
48.7
48.8
49.0
49-2
49.6
50.1
50.7
51.4
7
8
8
7
6
5
4
2
I
o
2
3
4
4
5
4
4
4
4
3
2
2
o
o
o
I
2
2
4
5
6
7
1.037 -0.274
36*. 2 10 40", 23
40.0I
0.0
0.00
-1.0
430
APPA.RENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. i.o
10.9
20.9
30.9
Feb. 9.8
19.8
Mar. 1.8
II. 8
21.7
31.7
Apr. 10.7
20.7
30.6
May 10.6
20.6
305
June 9.5
195
295
July 9.4
19.4
29.4
Aug. 8.4
18.3
28.3
Sept. 7.3
17.2
27.2
Oct. 7.2
17.2
27.1
Nov. 6.1
16.1
26.1
Dec. 6.0
16.0
26.0
35-9
t Hercolis.
Mag. 3.8
Right
Ascension.
h m
17 36
58.66
58.85
5910
59-39
59-71
19
25
29
32
35
37
60.06
60.43
60.80^7
61.18 3^
61.55
61.90
62.23
62.53
62.79
63.01
63.18
63-30
63.37
63-39
63.36
63.27
63.13
62.95
62.73
62.47
37
35
33
30
26
22
17
12
7
2
3
9
14
18
22
26
28
29
Sec d, Tan S
Mean Place
62.19
61.90
61.60 3^
61.31 '9
61.04
60.80
60.60
60.45
60.36
60.33
60.36
60.45
60.61
27
24
20
15
9
3
3
9
16
Declina-
tion N.
+46 2
//
54.4
51.0^"^
47.8 ^o
45.0
42.6
28
24
19
40.7
39.4
38.7
38.7
39.3
40.5
42.2
44.4
47.0
49-9
53.0
56.1
59.2
62.3
65.2
67.8
70.2
72.2
73-8
75.0
75.7
75-9
75-6
74.9
73.7
13
7
o
6
12
17
22
26
29
31
31
31
31
29
26
24
20
16
12
7
2
3
7
12
17
22
25
29
72.0
69.8
67.3
64.4
61.2 ^^
34
57.8
54.4
51.0
34
34
1.441
6o*.552
+1.037
67".8i
a, D(o a I
-0.03
00
+0.01
-1.0
7 Pavonif.
Mag. 3.6
Right
Aacension.
h
17
m
37
8
8.01
8.43
8.94
9.51
10.12
0.77
1.44
2.12
2.80
3.47
42
51
57
61
65
67
68
68
67
65
4.12
4.73
5.30
6.28 ^^
61
57
40
32
23
15
6
3
12
20
28
34
38
6.09
5.68 4^
5.27 ^'
4.87
4.51
6.68
7.00
7.23
7.38
7.44
7.41
7.29
7.09
6.81
6.47
40
36
30
4.21
3.98
3.84
3.80
3.87
4.05
4.33
4.70
23
14
4
7
18
28
37
Dedina*
tion S.
-64 40
65.0
63.0
61.2
59.7
58.6
57.8
57.4
57.3
57.5
58.1
20
18
15
II
8
4
I
2
6
9
12
59.0
60.2
61.6 '^
65.2 ^9
31
695
71.8 '3
74.1 ''
76.4
23
31
78.5
80.4
82.1
83.5
84.6
85.3
85.5
85.2
84.5
83.4
19
17
14
II
7
2
3
7
II
15
81.9
80.0 '9
«« -TV 21
77.9
75-6
73-2
70.8
68.5
66.4
23
24
24
23
21
2.339 -2.1 14
1 1 •.394 6o".84
+005
0.0
-0.01
-1.0
00 ]>racoiiiB.
Mag. 4.9
Right
Aacension.
h
17
m
37
22
s
24.09
24.31
24.65 ^^
25.08 ^3
25.59
26.16
26.78
27.42
28.07
28.70
29.29
29.83
30.30
30.69
30.99
31.20
31.30
31.30
31.20
31-00
30.70
30.31
29.85
29.32
28.74
28.12
27.48
26.83
26.20
25.60
25.04
24.55
24.15
23.85
23.65
51
57
62
64
65
63
59
54
47
39
30
21
10
o
10
20
30
39
46
53
58
62
64
65
63
60
56
49
40
30
20
8
23.57 .
23.61 ^
23.76 ^^
Declina-
tion N.
+6847
tf
39.6
36.0
32.7
29.7
27.2
25.3
24.0
23.4
23.4
24.1
254
27.3
29.7
32.4
35.5
38.8
42.2
45.5
48.8
51.9
54.7
57.2
59.4
61.1
62.3
36
33
30
25
19
13
6
o
7
13
19
24
27
31
33
34
33
33
31
28
25
22
17
12
7
63.0
63.2 ^
62.9 I
62.1 *
60.8 '3
19
58.9
56.6
53.8
50.7
47.3
23
28
31
34
36
43.7
40.1
36.5
36
36
2.765 +2.578
27*557 53".62
-0.07
0.0
+0.02
-1.0
/3 Opihlaclil.
Mag. 2.9
Right
h m
17 39
s
9-74 ,8
10.02
29
0.31
0.61 30
0.91 3^
I.2I
1.50
1.79
2.07
2.33
2.56
2.77
2.96
312
3.24
3.32
3.36
3.36
3.33
3-26
315
3.02
2.87
2.71
2.54
2.38
2.23
2. II
2.02
1.97
1.97
2.01
2.10
2.24
2.42
30
29
29
28
26
23
21
19
16
12
8
4
o
3
7
I
3
5
6
7
6
5
2
9
5
o
4
9
14
x8
DecUna*
tionN.
+ 435
r0
60.0
58.2
56.5
54.9
53.5
52.3
51.5
51.0
50.9
5I.I
51.6
52.4
53.5
54-8
56.3
57.8
59.4
61.0
62.5
63.9
•
65.2
66.3
67.2
68.0
68.6
69.0
69.2
69.2
68.9
68.4
67.7
66.8
65.7
64.4
62.9
61.2
59.4
57.6
18
17
16
14
13
5
I
2
5
8
II
13
15
15
16
16
15
14
13
II
9
8
6
4
2
0
3
5
1
I.OQ3 40.080
10^.462 y&'^
OJOO
oo
OuOO
-IjO
APPAKENT PLACES OF STARS, 1913.
431
FOR THE UPPER TRANSIT AT WASHINGTON.
MeiaSolu'
Date.
Jan. i.o
10.9
20.9
30.9
Feb. 9.9
19.8
Mar. 1.8
11.8
21.7
31.7
Apr. 10.7
20.7
30-6
May 10.6
20.6
30.5
June 9.5
19.5
, 29.5
July 9.4
19.4
29.4
Aug. 8.4
18.3
28.3
Sept 7.3
17.2
27.2
Oct. 7.2
17.2
27.1
Nov. 6.1
16.1
26.1
Dec. 6.0
16.0
26.0
35.9
Mean Place
t^ ScorplL
Mag. 3.1
Right
AKension.
h m
17 41
s
28.07
28.34
28.65
28.99
29.36
2975
30.15
30.55
30.95
31.34
31.72
32.09
32.44
32.76
33.05
33.31
33.53
33.70
33.32
33.89
33.91
33.88
33.80
33.67
33.51
33.32
33.11
32.90
32.70
32.52
32.37
32.26
32.20
32.21
32.28
32.41
3?.59
32.83
27
31
34
37
39
40
40
40
39
38
37
35
32
29
26
22
17
12
7
2
3
8
13
16
19
21
21
20
18
15
II
6
I
7
13
18
24
Declina-
tion S.
-40 5
//
45.6
44.8
44.2
43.7
43.4
43-2
43.1
43.2
43.4
43.7
44.1
44.6
45.2
45.9
46.7
47.6
48.5
49.5
50.5
51.5
52.5
53.5
54.4
55.1
55.6
55.9
56.0
55.9
55.5
54.9
54.1
53.1
52.1
51.0
49.9
48.8
47.8
47.0
8
6
5
3
2
I
I
2
3
4
5
6
7
8
9
9
10
10
10
10
10
9
7
5
3
I
I
4
6
8
10
10
II
II
II
10
8
1.307 -0.842
29*.973 39".28
/^ Herculis.
Mag. 3.5
Right
Ascension.
h
17
s
1.64
1.82
2.04
2.29
2.57
2.87
3.18
3.50
3.82
4.13
4.43
4.72
4.99
5.23
5.44
5.62
5.76
5.86
5.92
5.93
5.90
5.83
5.72
5.58
5.41
5.22
5.01
4.80
4.60
4.41
4.24
4.II
4.02
3.98
3.99
4.05
4.16
4.31
m
43
18
22
25
28
30
31
32
32
31
30
29
27
24
21
18
14
10
6
I
3
7
II
14
17
19
21
21
20
19
17
13
9
4
I
6
II
15
Declina-
tion N.
+27 45
//
63.2
60.3
57.6
55.2
53.1
51.4
50.2
49.5
49.3
49.7
50.6
52.0
53.8
55.9
58.2
60.7
63.3
65.9
68.5
70.9
73.1
75.0
76.7
78.1
79.1
79.7
80.0
79.9
79.4
78.4
77.1
75.4
73.3
71.0
68.4
65.6
62.7
59.8 ^9
29
27
24
21
17
12
7
2
4
9
14
18
21
23
25
26
26
26
24
22
19
17
14
10
6
3
I
5
10
13
17
21
23
26
28
29
^ Dxaconls.
Mag. 4.9
Right
Ascension.
h
17
m
43
s
24.80
25.02
25.38
25.85
26.42
27.07
27.78
28.52
29.27
30.00
22
36
47
57
65
71
74
75
73
69
63
55
46
30.69
31.32
31.87
32.33
32.68 ^5
24
32.92
33.04
33.03 '
32.90 "^
32.66 ^;[
36
12
32.30
31.84
31.28
30.65
29.95
46
56
63
70
75
77
78
29.20
28.43
27.65 ,^
26.88 77
^^-^68
25.46
24.86
24.35
23.95
23.67
60
51
40
28
14
•¥0J02
OJOO
-1.0
1. 130 +0.527
3".i84 75''.32
■0.01 0.00
0.0 -1.0
IBph 13]
23.53
23.53
23.67
Declina-
tion N.
+72 II
tf
17.0
13.4
lO.O
7.0
4.5
2.5
I.I
0.4
0.3
0.9
2.2
4.0
6.3
9.0
12.0
36
34
30
25
20
14
7
I
6
13
18
23
27
30
32
15.2
18.6 ^^
34
33
31
28
22.0
25.3
28.4
31.2
33.7
35.9
37.7
39.0
25
22
18
13
8
39.8
40.1
39.9
39.1
36.0
33-7 II
31.0^7
28.0 30
33
14
24.7
21. 1
17.4
13.8
36
37
36
y Ophiuchi.
Mag. 3.7
Right
Ascension.
h
17
m
43
s
30.36
30.56
30.79
31.04
31.32
31.61
31.91
32.21
32.51
32.81
20
23
25
28
29
30
30
30
30
29
33.10
33.38
33.64
33.88 It
34.10
28
26
22
34.29
34.45
34.57
34.66
34.71
34.72
34.69
34.62
34.52
34.39
34.24
34.08
33.91
33.75
33.61
33.49
33.40
33.35
33.34
33.38
19
16
12
9
5
I
3
7
10
13
15
16
17
16
14
12
9
5
I
4
9
3.269 +3.113
28'.955 3o''.54
-0.08
0.0
+0.01
-1.0
33.47 _,
33.60 ll
33.78 '^
Declina-
tion N.
+ 2 44
//
II. 2
7.8 '7
6.3 '5
5.0
13
II
3.9
3.1
2.6
2.4
2.6
3.1
3.9
4.9
6.1
7.5
9.0
0.5
2.0
3.4
4.7
5.9
6.9
7.8
8.5
9.1
9.5
9.7
9.6
9.4
9.0
8.4
7.5
6.5
5.3
3.9
2.3
0.7
9.0
8
5
2
2
5
8
10
12
14
15
15
15
14
13
12
10
9
7
6
4
2
I
2
4
6
9
10
12
14
16
16
17
1. 001 40.048
3i".784 2i''.39
0.00
0.0
0.0a
432 APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
APPARENT PLACES OF STARS. 1913.
FOR THE UPPER TRANSIT AT WASHINGTOX,
438
15-52 ,„ 03.7
15-81 II 63.2
16.09 'I 6J.6
17-06;
10-44 „ 54-
16.29 \l 55-
54-7
i6.a8 '
16.46 •
I4'.i87 49"-47
434
APPARENT PLACES OF STABS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
0 Arse.
y Sagittaiii.
70 Ophiuchi.
78 Oph
Mean Solar
Mag. 3.9
Mag. 3.1
Mag. 4. 1
Mag.
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
tion S.
Ascension.
tion S.
Ascension.
tion N.
Ascension.
h m
0 /
h m
0 /
h m
0 /
h m
17 59
-50 5
ft
18 0
-3025
18 I
+ 2 30
00
18 3
Jan. I.o
10.9
49*24 ,8
49-52 \°
61.4
59.9 '\
s
^^•39^,
42.0
41.7 3
57.8 „
56.1 '7
s
12.01 „
12.19 '*•
20.9
49-86 34
58.6 \\
"•^7 \l
2
41.5 ^
^•39 "
54.5 't
"•40 "
30.9
50.24 3
57.5 "
12.16^9
2
41.3 ,
2.63 It
2-89 ^^
' a8
53.0 5
"•63 '^
Feb. 9.9
50.65 :;
56.6 9
7
12.48 3^
34
41.2
I
51.7 '3
II
12.89 =•*
19.8
5 1 09
55.9
12.82
41. 1
^■^7 ,„
50.6
13-17 ,
Mar. 1.8
51-54^^
55.4 ^
^3-^7 ^g
4^-^o
3-47 ^^
49.8 ^
13.46 ";
11.8
52.00 2
55.1 \
13.53 ,,
13.89 f^
4^-^ n
3-77 ^°
49.3 \
13-76 3°
21.8
52.47 2^
55.0 '
41.1°
4-07^°
49.1
14.06 f
31-7
5294 1;
2
55-2 ^
14.24 ^5
41. 1
4-37 ^^
2
49-3 ,
14.36 f
46
4
35
0
30
5
29
Apr. 10.7
5340 ^^
55-6 ^
14.59 - .
41. 1
4-^7 ,„
49-8
14-65
20.7
53-84 ^
56.1 5
14.93 i:
41.2
4-95 !
5°-6 ,^
14-94 „
30.6
54-26 4^
56.8 7
15.25 Z
41.3
5-22 l\
5'-6 °
IS.2I ^^
May 10.6
54.65 %
57-7 '
15.55 ^8
15.83 ',
41.4
5-47 ',
5^-8 !
15.46 "^
20.6
58.8 '
41.6 ^
570 '^
54.2 '\
^5.69 '^
32
12
25
2
21
IS
20
30.6
55-33 „
60.0
16.08
41.8
6.09
55-7 „
15-89 „
June 9.5
55.60 \l
61.4 \\
16.30 "
42.1 ^
57-2 5
16.06 '7
19.5
55-82 "
62.9 5
16.48 ;
42.5 ^
6.23 t
587 ^
16.20 '4
295
55-98 \l
64.4 \\
66.0 '^
16
16.61 '3
16.69 ^
4
42.9 \
6.34 "
60.1 '4
16.30 '°
16.36 ^
July 9.5
56.08 '"
3
43.4 ^
6.40
2
61.4 '3
12
19.4
56.11
67.6
16.73
43.9 .
6.42
62.6
16.38
29.4
56.08 3
56.00
69.1 ^,
16.72 '
44-4 ^
6.41 ;
63.7 "
16.36 ^
16.30 ^
Aug. 8.4
70.4 3
16.67 5
44.9 ^
6.36 5
64.6 I
18.3
55-86 \l
71.5 "
16.58 ^
45-3 I
6.27 I
65.4 ^
16.20 '°
28.3
55-67 \l
72.4 a
^^•45 \l
45.7 :
6.15 "
66.0 ^
16.07 '3
23
0
16
3
15
4
15
Sept. 7.3
55-44 „
730
16.29
16.11 '*
15-75 '
46.0
6.00
584 w
66.4
15-92 ,,
17.3
55.19 ^l
54-93 .,
54-67 2
73.4 ^
46.1 '
66.6 ^
15-75
27.2
73.4 °
46.1^
567 1
66.6 °
15.58 \l
Oct. 7.2
73.1 ;
46.0
5-51 \\
66.3 3
•5-4I
15.25 \
17.2
54.43 *
72.4 7
15-58 ''
45.7 ,
536 '5
65.9 \
20
9
«4
4
13
6
14
27.2
5423 ^^
7^-5 ,,
15-44 ,„
45.3 .
5-23 ,„
65.3 «
I5.II
Nov. 6.1
54.08 5
7^-3 '
15-34 '°
15.28 ^
44.9 \
5-13 '°
15.00
16.1
53.98 ^^
^^•9 6
65.7 ^^
44.4 ^
43.8 J
5-07 ,
^3-5 ,,
14.93 ;
26.1
53.95 \
15-27 ,
5-05 ,
62.3 "
14.90 ^
Dec. 6.0
53.99 ,:
15-31 *
43.3 ^
5.08 3
61.0 '3
14.92 .
1 1
17
9
5
7
15
6
16.0
54.10
15-40
42.8
5-^5 „
59-5 .
14.98
26.0
54.28 ^^
'5-55 ^„
42.3 ^
5-26 "
57.9 ^
1509
36.0
54.53 ^
60.8 '^
20
15.75
41.9 4
5-42 •'
50.3
IS
15.24 '5
Sec d. Tan 8
1.559 -1. 196
1. 160 -0.587
1. 00 1 40.044
1.014
Mean Place
5 1 •.487 54".59
I3*.074 33".89
3".433 67".96
i3*-475
D'^ a. Dm a
40.03 o.oo
40.02 0.00
0.00 0.00
0.0 -1.0
0.00
I>^ S, D«* S
0.0 -1.0
0.0 -1.0
0.0
1
LEtAiis\
APPARENT PLACES OF STARS. 1913. 435
FOR THE UPPER TRANSIT AT WASHINGTON.
436
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
86 Braconis.
d Sagittarii.
7 SeipentU.
€ (Uglttarii.
Mean Solar
Mag. 5.0
Mag. 2.8
Mag. 3.4
Mag. 2.0
Date.
J
Right
Declina-
Right
Declina-
Right
Declina-
Right Declina
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion S.
Aaoension.
1
tion S.
h m
0 /
h m
0 /
h m
0 /
h m
0 '
18 13
+64 21
18 15
-2951
m a
18 16
- 2 55
0 M
18 18
-34 25
Jan. 1 .0
s
20.56
WW
522 ,
s
23.79 .,
W W
66.4
46*98 „
w w
29.5 ,,
22.09 ,,
44.3,
II.O
20.70 ^
48.6 36
24.00
66.1 3
47.15 '^
30.8 '3
22.30
43.6:
20.9
20.93 ^'^
45-2 \\
24.25 ^x
65.8 3
47.35 :
32.1 \\
22.55 ^^
43.0
30.9
21-24 11
42° ^8
^^•53 Z
65.5 \
47.58 11
47.84 It
33-3 '
22.84 2
42.5;
Feb. 9.9
21.63 ^^
39.2 *«
24-83 3^
65.3 :
34.3 'I
23.16 3*
42.1;
45
23
32
2
28
9
34
4
19.8
22.08
36.9 .,
25.15 . .
65.1 ^
48.12
35.2 ,
35.8 *
2350 ,^
417,
Mar. 1 .8
22.58 5°
35.2
25.49 ,7
65.0 ^
48.41 2
23.85 «
24.21 3
414 ,
1 1.8
23.11 ^■'
34.1 "
25.84 35
64.8 -
48.70^9136.1 ?i
41.2 ;
21.8
23.66 55
33-7 \
26.20 3
64.7 ;
49.00 ^
36.2 •
24.58 37
41.0;
31.7
24.21 ^^
34-0
26.55 ^^
64.6 \
49.31 3
36.0 \
24.95 „
40.8;
53
9
35
2
30
4
37
I
Apr. 10.7
2474
34-9 ,,
26.90
644 .
49.61
35.6
2532 ,,
25.68 3«
40.7,
20.7
2525 ,,
36.4 ^
27.24 34
643
49.90 1
34-9 \
40.7,
30.7
^5-71 t
38.5
27.57 33
64.2 •
50.18 ^8
34.0 9
26.03
40.8^
May 10.6
26.11 '^^
4^° i
27.89 ^;
64.2°
5°-45 I
32.9 •
26.36 33
40.9 2
20.6
26.45 ^*
27
43.9 -
28.18 ^l
26
64.2 °
50.69 1^
31.7 "
«3
26.66 30
38
41. 1
30.6
26.72
47.1
28.44 ,,
64- 3 ,
5°-9i ,„
30.4 ,,
26.94 ,^
414,
41.8*
42.3 \
June 9.5
26.91 '9
50.4 ^)
28.67 ^3
64.5 '
5^'° 6
29.1 ^
27.18 ^^4
19.5
27.01 '°
53-8 't
28.86 '9 64.8 3
51.26 « 127.9 "
27.38 ^
27.54 '
29.5
27.02 '
57.2 ^;|
29.01 '5
65.2 ♦
51.38'^ 26.7^
51.46 « 25.6;;
42.9.
July 9.5
26.94 ,6
60.533
32
29.1X -
65.6 4
4
27.65 •;
43.6:
<
19.4
26.78
^3-7 ^^
29.17
66.0
51.51 24.6
27.71
44-3.
29.4
26.54 \*
66.6'^
29.18 '
66.55
51.51 23.7 9
51.47 8 22.9
51.39 122.3 .
27.72 '
45.01
Aug. 8.4
26.23 l'
69.1 ^5
29.14 ^
67.0 5
27.68 4
27.60
45-71 .
18.4
2585 ^^
7^-3
2905 ,^
675 i
46.4;
28.3
^5-*' It
73.0 '7
13
28.93
15
67.9 *
«5
51.28"
14
21.9 *
3
27.47 ,^
47-0 ^
V
Sept. 7.3
2493 .,
74-3 «
75.1 ;
28.78
68.2
5'-^4 ,
50.98 ll
50.82 ll
50.66 '^
21.6
27.13 "
47.5,
47-8 i
17.3
2442 ^,
28.61 '7
28.43 •;
68.4 ^
'^•4 0
27.2
23.89 "
75.4 \
68.5 •
21.4 \
26.93 Z
*7-2,
Oct. 7.2
23.36 53
75-1 g
28.24 9
68.5°
2^-5 ,
26.74 ^
47-8 \
17.2
"•«5 11
^^•^ 14
28.07 '7
68.3 1
3
50.51 \l
21.8 3
4
47-6 j
27.2
22.37
729 _
27.92
68.0
50.37 „
22.2
22.8 ^
26.40
47-^, 6
Nov. 6.1
2 1 .93
71.0 9
27.81 "
67.6 4
50.26
26.28 "
26.20 '
46.6 J
16. 1
21.56^7
68.7 \l
27.74 \
67.1 I
50.19 7
23.5 !
46.0.
26.1
21.26 3°
66.0 ^7
27.72
66.6 5
50.16 3 24.4 ^
26.17 ^
45.3;
Dec. 6.1
2X.05 -
62.9 3^
34
27.75 ^
66.1 5
5
50.18 ;:25.4„
1
26.19 g
44.5 8
16.0
20.93
59-5 ,,
27.83 ,,
65.6
50.24
26.5
26.27
43-7 8
26.0
20.91 ^
55-9 ^J
27.96 3
65.1 5
50.34 °
27.7 ^^
26.40 '3
42.9.
36.0
20.98 7
52.3 ^'
28.14
64.7 ^
50.49 ^^
29.0 3
26.59 '^
42.2 '
Sec d, Tan 5
2.31 1 +2.684
II53 ^.574
1. 00 1 -0.051
I.2U -0.685
Mean Place
23".769 63".52
25".46o 57"-64
48-.436 X9".59
23'.889 35".54
D'^ «, Dw a
-0.06 -O.OI
40.02 0.00
0.00 0.00
40.09 OXX>
D^S, D^S I
0.0
-x.o
0.0
-I.O
0.0
-1.0
0.0
-1.0
1
ta^uA
APPARENT PLACES OF STABS, 1913.
437
FOR THE UPPER TRANSIT AT WASHINGTON.
1
109 HeroulU.
^ TelescopiL
A. Sagittarii.
X Dxaconis.
1 XetnSolar
Mag. 3.9
Mag.
3.8
Mag. 2.9
Mag. 3.7
■ Date.
Risht
Declina-
Right
Declina-
Right
Declina-
Right Declina-
Aicmrion.
tion N.
Aaoension.
h m
tion S.
Ascension.
tions.
Ascension. tion N.
h m
0 /
0 /
h m
0 1
h m ; *> '
18 19
+ 21 43
MM
18 20
—46 I
mm
18 22
-25 28
mm
18 22
4-72 41
m m
Jan. I.O
57*85 ,,
w w
35.0
s
29.31
WW
II.O
s
34.50
WW
24.0
32.96 ^^
W W
29.0 ^
II.O
58.00 5
32.5 \\
^9-55 "l
9-6 !t
34.69 '^
23.9 .
33.06 ^^
20.9
58.19 11
30.0 5
29.84 ^9
8.4"
3492 ^3
35.18'^
23.8 •
33.31 5
33.69 f
25-5 ;;
309
58.41 "
27.7 ^x
30. 1 7 33
7.3"
23.8°
22.3 ^
Feb. 9.9
58.66 ^5
^5-7 ,
30.54 f
6-3'°
35.47 7
23.8°
34.18 ^^
'9-4 '
1
27
10
39
8
31
I
59
24
19.8
5^-93 ^^
24.1
30.93 ^,
5-5 .
4.9 *
35.78 ^^
23-7 ,
^•77 67
35.44 ^,
'7° ,8
Mar. 1.8
59.22 *9
22.9
31.34^!
36.10 3^
23-6 '
'5-2 ,
11.8
59.52 t^
22.1
31.77^;
4-4 ,
36.43 ^f
23.5 *
36.17 73
36.93 \\
14.0
13.4 ,
21.8
59.82 30
21.8 3
32.20 ^3
4.1 \
36.77 ;^
23-3 ,
317
60.13 3^
22.0 *
32.64 ^^
3-9 '
37.12 35
23.1 \
37.70 ;^
13.5 ^
31
7
43
0
34
2
75
Apr. 10.7
60.44 _
22.7 „
33.07
3.9 ^
37.46
22.9
3^-45 ,^
^4.3 ,^
20.7
60.74 ^l
23.9
33.49 ^
4-^
37-79 ,
22.6 3
39.15^^
^5-7 ^
30.7
61.02 ^^
^5-* '
33.90 ^
^•5 t
38.11 3^
22.3 3
39.79 4
40.35 ^°
17.6 '9
Hay 10.6
61.29^7
27.3 !'
34.29 ,;
5.0 5
38.42 3^
3«-7o :;
22.1
20.0 ^
22.8 ^«
31
20.6
6..53 ::
29-5 "
23
34.64 35
32
"J
21.9 ^
2
40.82 ^J
36
30.6
61.74 0
31.8
3496 ^
6.6
38-96
21.7
4^-'8
25.9 ._
June 9.5
^■•92 ;;
34-2 \\
28
3524 "
39-19 ,„
21.6 '
41.42 ^7
29.2 33
195
62.06 '♦
367 ^5
35-47 \
8.8 '"
39-38 '
21.6^
41-53 "
32-7 ,,
295
62.17 "
39' \\
35-65 '
10.1 '3
39-53 '„
21.7 1
2
41.51 ,,
36-1 34
July 9.5
62.23 ^
41.5 "'^
22
35.77 ',
ii.4'3
13
39.63 •"
21.8 '
2
4-37 :^
39-4 J^
19.4
62.25
43-7 ,
35-83
12.7
39.69 , 22.0
41. II ,g
'^^•^ ,0
29.4
62.23 1
45-7 °
35-84 '
14.0 '3
39.70 \ 22.3 3
4^-73 ^^
Aug. 8.4
62.16 7
47.4 ^
35-79 '
15.3 ^
39.67 3 22.6 3
40.24 ^^
39.66 ^«
39.00
18.4
28.3
62.05 ' '
61.91 »4
48.9 '5
50.I "
35-68 '
35-52 <^
16.4 "
17.3 !
39.60 '^ 22.9 3
39-49 \\ 23.2 3
52-3 ,^
16
9
19
7
14 2
73
14
Sept. 7.3
^'•75 .
^^•57 ;
5I.O
35-33 „
18.0
39-35 ,^ ; 23.4 ,
38.27
3750 "
3670 °
35.90
53-7 „
54-6 9
17.3
515 \
35" "
18.5 5
39'9 ^
3901
38-83 ,
23-6 '
27.2
^'•38 ^
51-7 \
34.87 \\
18.7 \
23-7 '
55-0 ;
Oct. 7.2
61.18^^
51-5 ',
34-63 W
1 8.6 '
23-7 .
54-9 g
54-3 „
17.2
60.99 ^l
510 *
34-41 »
18.2 4
38.66 '7
23-6
35-" „
16
9
»9
7
>4
I
75
12
27.2
60.83
50.1 ,,
34-22
34.06 '^
1 1
33.95 "
'7-5 „
38-52 „
23-5 ^
3367 '
33.06 <*'
53' ,.,
Xov. 6.1
16.1
60.69 '*
60.59 'I
48.8 \\
1 6.6 9
15-5 •!
38.41 "
38-34 \
23.3 ,
23.1 :
51.4 ^
46.6 ^<*
' W^0\.
26.1
60.53 I
45.3 •'
33.90 5
14.2 '3
38-31 \
22.8 3
f ¥
3^-55 io
Dec. 6.1
60.51
43-2 ''
3392 J,
12.8 '^
38-33 ^
22.5 3
32.15;,
43.6 3°
3
23
0
15
7
2
27
33
16.0
60.54 fl
4°-9 „
34-00
"•3 ,,
3840 . ,
22.3
31.88
40.3 „
26.0
60.62 *
38.4 \\
34-14 1
9-^ i
38.52 "
22.1
31.75 ;
36.8 5
33.2 3°
36.0
60.74 ''
35.9 '5
2 I
34.35
8.4'^
38.68 '*
21.9 ^
31.77
Sfcd.Tana
1.076 ■K>.399
1.440
-1.036
1. 108 -0.476
3.361 +3.209
Mean Place
59M17 45".6o
3 1 '.365
2".63
36M01 14".78
37».666 43".oo
Tr^a^Dma
-0.01 0.00
■K>.03
■K>.OI
+0.01 0.00
-0.08 -0.02
D^d.DmS
0.0
-1.0
0.0
-1.0
0.0
-1.0
\ 0.0
-■va
[Eph 13I
438
APPARENT PLACES OP STABS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. I .o
ii.o
20.9
30.9
Feb. 9.9
19.9
Mar. 1.8
11.8
21.8
31.7
Apr. 10.7
20.7
30.7
May 10.6
20.6
30.6
June 9.6
195
29.5
July 9.5
19.4
29.4
Aug. 8.4
18.4
28.3
Sept. 7.3
17.3
27.3
Oct. 7.2
17.2
27.2
Nov. 6.1
1 6. 1
26.1
Dec. 6.1
16.0
26.0
36.0
Sec 8, Tan 6
Mean Place
D'^ a. Dm a
c Seipentls.
Mag. 5.4
Right
Ascension.
h
18
m
25
8.01
8.21
8.44
8.69
16
20
23
25
27
28
29
8.96
9.24
9-53 ,^
9.83 ^^
10.14
0.44
0.74
1.02
1.29
1.54
1.77
1-97
2.14
2.27
2.36
2.41
2.41
2.38
2.31
2.20
2.07
.92
.76
.60
.44
.30
.19
.12
.08
.09
.14
24
.38
31
30
30
28
27
25
23
20
X7
13
9
5
o
3
7
II
13
15
16
16
16
14
II
7
4
I
5
10
14
Declina-
tion S.
— 2
//
42.4
43.7
45.0
46.2
47.2
48.1
48.7
49.0
49.1
48.9
48.4
47.6
46.6
45-5
44.2
42.8
41.4
40.1
38.8
37.6
36.5
35-5
34.7
34.0
33.5
33.1
32.9
32.9
330
33-2
33.6
34-2
34-9
35.8
36.8
37.9
39.1
40.4
13
13
12
10
9
6
3
I
2
5
8
o
I
3
4
4
3
3
2
I
10
8
7
5
4
2
o
I
2
4
6
7
9
10
1 1
12
13
1. 001
9*309
-0.036
32".45
0.00
0.0
0.00
-i.o
1 Aquiltt.
Mag. 4. 1
Right
Ascension.
h
18
m
30
16
20
23
8
26.89
27.05
27.25
27.48
27.73 ^^
27
28.00
28.29
28.59
28.89
29.20
29
30
30
31
31
29.51 ,,
29.82 ^^
30- 1 I
30.39
30.65
30.89
31.10
31.28
31.42
31.52
31.58
31.59
31.56
31.50
31.40
31.27
31.12
30.96
30.80
30.64
30.50
30.39
30.31
30.27
30.28
30.34
30.44
30.58
29
28
26
24
21
18
14
10
6
I
3
6
10
13
15
16
16
16
14
II
8
4
I
6
10
14
Declina-
tion S.
- 8 18
//
30.4
31.3
32.2
33.0
33.8
34.4
34.8
35.0
35.0
34.7
34.2
33.5
32.7
31.8
30.8
29.8
28.7
27.6
26.6
25.8
25.1
24.4
23.8
23.4
23.1
22.9
22.8
22.8
22.9
23.1
23.4
23.8
24.2
24.8
25.5
26.3
27.1
28.0
9
9
8
8
6
4
2
o
3
5
7
8
9
10
10
II
II
10
8
7
7
6
4
3
2
I
o
I
2
3
4
4
6
7
8
8
9
1. 01 1 -0.146
28V36I 2o".46
0.00
+0.1
0.00
-1.0
C PaTOBlS.
Mag. 4.1
Right
Ascensioci*
h m
18 32
8
48.08
48.46
48.96
49.56
50.25
51.01
51.83
52.69
53.58
54.47
55.35
56.22
57.05
57.83
58.54
38
50
60
69
76
82
86
89
89
88
87
83
78
71
64
59.18
59.72 54
60.16 ^*
60.48 32
60.68
20
8
5
17
29
60.76
60.71
60.54
60.25
59.86 39
47
59.39 ^^
58.86 53
58.29 57
57.71
57.15
56.63
56.19
55.84
55.61
55.51
55.54
55.71
56.01
58
56
52
44
35
23
10
3
17
30
Dedina-
tiona
-71 30
//
*3-5 „
20.8 »7
18.3 »s
16.0 »3
13.9 "
12. 1
10.7
9.7
9.0
8.7
8.8
9.3
10.2
11.4
12.9
18
14
10
7
3
I
5
9
12
15
18
16.8^'
I9.I
21.5
24.0
26.5
29.0
31.3
33.3
35.0
36.3
37.2
37.7
37.7
37.1
36.0
34.4
32.5
30.2
27.7
25.0
22.2
19.4
23
24
25
25
Mag. o. I
Ri^t
25
23
20
17
13
9
5
o
6
II
16
»9
23
25
27
28
28
h
18
33
8
57.69
57.81
57.98
58.19
58.44
58.73
5904
59.37
59.71
60.05
12
17
21
25
29
31
33
34
34
34
33
32
30
3153
52*.355
-2.990
i5".o8
+0.08
40.I
40.03
-1.0
60.39
60.72
61.04
61.61 ^7
23
61.84
62.03 '9
62.18 *5
62.28 '°
62.33 5
62.33 ,
62.28 5
62.19 ^
62.05
61.87
14
18
21
61.66
61.42
61.17
60.92
60.67
24
25
25
25
23
60.44
60.24
60.08 '^
59.96
59.89
20
12
7
DecUna..
tioaN.
59.87
59.90
59.99
3
9
+3841
rt
57-6
54.5 ''
514^^
48.5 ''
46.0 ^5
21
16
II
13
18
43.9
42.3
41.2
40.7
40.8
41.5
42.8
44.6
46.8 "
52.1
55-1!;
61.3^'
64.3 '"
67.2
699''
72.3'*
' '^ 20
74-3 ,.
76.0 ''
77.3
78.2
78.6
78.6
78.1
9
4
0
5
10
14
77*^
75-7 ,8
73.9 ,,
66.2
63.2 3°
60.1 3^
1. 28 1 40.801
59*.569 67".6i
I
-0.02
40.I
-act
-1.0
APPARENT PLACES OF STARS, 1913.
439
FOR THE UPPER TRANSIT AT WASHINGTON.
Mcftn Solar
Date.
Jan. I .o
II.O
20.9
30.9
Feb. 9.9
19.9
Mar. 1.8
ii.'S
21.8
31.8
Apr. 10.7
20.7
30.7
May 10.6
20.6
30.6
June 9.6
295
July 9.5
195
29.4
Aug. 8.4
18.4
28.3
Sept. 7.3
173
27.3
Oct. 7.2
17.2
27.2
Nov. 6.2
16.1
26.1
Dec. 6.1
16.0
26.0
36.0
Sec^.Tana
Mean Place
8 Aquiltt.
Mag. 4.7
Right
Ascensioii.
h m
18 37
29.20
29.36
2955
29.77
30.02
16
19
22
27
30.29
3057
30.87
31.18^'
31
38
30
31.49
31.80
32.10
32.40
32.68
32.95
31
30
30
28
27
25
33.20
33.42
33.60
33.74 !t
33.85
22
18
II
33.92
33-94
3392
33.86
33.76
33.64
33.49
33-33
33.17
33.01
32.87
32.75
32.67
32.63
32.64
32.69
32.78
32.91
2
6
10
12
15
16
16
i6
14
12
8
4
I
5
9
13
DecUna-
tton S.
-98
tt
21.7
22.5
23.3
24.1
24.8
25-3
25.6
25-7
25-7
25-4
24.9
24.2
23.4
22.4
21.4
20.3
9.3
8.3
7.4
6.5
5.7
5.1
4.6
4.2
3.9
3.7
3.6
3.6
3.7
3-9
4.2
4.5
4.9
5-4
6.0
6.7
7-5
8.3
8
8
8
7
5
3
I
o
3
5
7
8
10
10
II
10
10
9
9
8
6
5
4
3
2
I
o
I
2
3
3
4
5
6
7
8
8
^ Stgittarii.
Mag. 3.3
Riffht
Ascensiofl.
Declina-
tion S.
I.013
30'.67I
-O.161
"".73
DV a. Dm a
0.00
+0.1
0.00
-i.o
h
18
re
40
-27 4
1*66
1.84
2.06
2.31
2.58
2.88
3.20
3-53
3.87
4.22
18
22
25
27
30
32
33
34
35
34
34
34
32
4.56
4.90
5-24
556 ,^
6.14
6.38
6.59
6.76
6.89
24
21
17
13
8
6.97
7.00
6.98
6.92
6.82
6.68
6.52
6.35
6.17
6.00
5.85
5.72
563
5.59
5-59
5-64
5-74
5.89
3
2
6
10
14
16
17
18
17
15
13
9
4
o
5
10
15
//
61.7
61.4
61. 1
60.8
60.6
60.3
60.0
59-7
59.4
59.1
58.7
58.3
57-9
57.6
57.3
57.1
57.0
56.9
57.0
57.2
57.5
57.8
58.2
58.6
590
59-4
59-7
59-9
60.0
60.0
59.8
59-6
59.3
59.0
58.7
58.3
57.9
57.6
3
3
3
2
3
3
3
3
3
4
4
4
3
3
2
I
I
1
2
3
3
4
4
4
4
3
2
I
o
2
2
3
3
3
4
4
3
1. 123 -0.511
I3V269 5i".82
+0.01 +O.OI
40.I -1.0
[Bph X3l
110 HercuUs.
Mag. 4.3
Right
Ascension.
h m
18 41
53-42
53-55
53-72
53.92
54.15
13
17
20
23
25
27
29
54-40
54-67
54.96 ,^
55.26 I
55.57 3^
55-88
56.18^°
56.47 '^
56.75
5701
28
26
23
57-24
57-44
57.60
57.73
57.82
57.86
57.85
57.80
57.72
57.60
20
16
13
9
4
I
5
8
12
15
18
57.45
57.27 ,„
57.08 ^
56.89 '^
56.71
56.54
56.39
56.28
56.20
56.17
56.18
56.24
56.34
18
17
15
II
8
3
I
10
Declina-
tion N.
+20 27
//
34-5
32.0
29.6
27.4
25.4
23.8
22.5
21.7
21.4
21.5
22.1
23.2
24.6
26.4
28.5
30.8
33.2
35.7
38.1
40.5
42.8
44.9
46.7
48.3
49.6
50.6
51.2
51-5
51-5
51. 1
50.4
49.4
48.0
46.3
44-3
42.1
39.8
37-4
25
24
22
20
16
13
8
3
I
6
II
14
18
21
23
24
25
24
24
23
21
18
16
13
10
6
3
o
4
7
10
14
17
20
22
23
24
6 Aquilce.
Mag. 4.5
Right ' Dedina-
Ascension. , tion S.
h m
18 42
32.04
32.19 w
32.37 ^J
32.58 ^'
32.82 ^^
26
33-08
33.36
33-65
33.95
34.25
28
29
30
30
31
34.86 30
35-^ 8
35-44
35-71
27
24
1.067 +0-373
55".ooo 44".28
-0.0 1
40.I
0.00
-1.0
35-95
36.17
36.35
36.50
36.61
36.68
36.70
36.68
36.62
36.52
36.40
36.25
36.09
35.93
35.77
35.63
35-52
35-43
35-38
35-38
35-42
3550
35-63
22
18
15
II
7
2
2
6
10
12
15
16
16
16
14
II
9
5
o
4
8
13
-450
//
40.3
41.4
42.4
43.4
44.3
45.0
45-4
45-6
45-6
45.3
44.8
44.0
43.0
41.9
40.7
39.4
38.1
36.9
35-7
34-6
33-6
32.7
32.0
31.4
30.9
30.6
30.4
30.4
30.5
30.7
31.0
31.5
32.1
32.8
33.6
34.5
35-5
36.5
II
10
10
9
7
4
2
o
3
5
8
10
II
12
13
13
12
12
II
10
9
7
6
5
3
2
o
I
2
3
5
6
7
8
10
10
1.004 -0.085
33*500 3o".32
0.00
+0.1
0.00
-1.0
440 APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. i.o
II.O
20.9
30.9
Feb. 9.9
19.9
Mar. 1.8
11.8
21.8
31.8
Apr. 10.7
20.7
30.7
May 10.6
20.6
30.6
June 9.6
295
July 9.5
19.5
29.4
Aug. 8.4
18.4
28.3
Sept. 7.3
17-3
27.3
Oct. 7.2
17.2
27.2
Nov. 6.2
16.1
26.1
Dec. 6.1
16.0
26.0
36.0
Sec <y, Tan 8
Mean Place
D'^ a, Dm a
A. Pavonls.
Mag. 4.4
Riffht
Ascension.
h
18
m
44
s
6.62
6.89
7.24
7.65
8.13
8.66
27
35
41
48
53
57
9-23 en
9.82 59
0.43 '^
62
63
62
59
56
53
48
4.46
4.88 4^
5-23 ^^
569
1.05
1.68
2.30
2.89
3.45
3.98
27
19
10
5.79
5.80
5.73
5.58
5.35
I
7
15
23
29
5.06
4.72
4.35
3-97
3.60^7
34
37
38
326
2.97
2.74
2.59
2.53
2.56
2.68
2.90
34
29
23
15
6
3
12
22
Declina-
tion S.
-62 17
//
27.9
25.6
23.4
21.3
19.4
7.8
6.4
5-3
4.5
4.0
3.8
4.0
4-5
5.3
6.4
7-7
9.3
21. 1
23.1
25.2
27-3
29.4
314
33.3
34.9
36.2
37.1
37.6
37.7
37.4
36.6
35-4
33.8
31.9
29.8
27-5
25.1
22.7
23
22
21
19
16
14
II
8
5
2
2
5
8
II
13
16
18
20
21
21
21
20
>9
16
13
9
5
I
3
8
12
16
19
21
23
24
24
2.151
9*-523
-1.904
i8".37
40.05
+0.1
40.02
-1.0
ft JiYTm.
Var. 3.4-4. 1
Right
Ascension.
m
18 46
8
50.29
50.40
50.55
50.74
50.97
51.23
51.52
51.83
52.15
52.48
52.81
53.13
53.44
53.74
54.01
54.25
54.45
54.62
54.74
54.81
54.84
54.82
54.75
54.63
54.48
5430
54.09
53.87
53.64
53.41
53.20
53.02
52.87
52.76
52.69
52.67
52.70
52.78
II
15
19
23
26
29
31
32
33
33
32
31
30
27
24
20
17
12
7
3
2
7
12
15
18
21
22
23
23
21
18
15
II
7
2
3
8
Declina-
tion N.
+33 15
//
30.4
27.5
24.6
21.9
19.5
17.4
15.8
14-7
14.2
14.3
14.9
16.0
17.6
19.7
22.1
24.8
27.6
30.5
33.5
36.4
29
29
27
24
21
16
II
5
I
6
II
16
21
24
27
28
29
30
29
28
26
23
20
39.2
41.8
44.1
46.1
47.8 ^7
13
49.1
50.0
150.5
50.6
50.3
49.5
48.3
46.6
44.6
42.3
39.7
36.9
34.0
12
17
20
23
26
28
29
1. 1 96 40.656
52".o6o 39". 82
-0.02 -0.0 1
+0.1 -1.0
lEph la^
60 Dxaconis.
Mag. 5.4
Right
Ascension.
h
18
m
49
I
16
5.50
5.49
5.65
5.98^3
6.45 ''
7.05
7.76
8.56
9.42
10.30
1. 18
2.02
2.80
3.50
4.10
4.58
4.92
5.12
5.17
5.08
4.84
4.46
3.95
3.31
2.57
1.75
0.86
60
71
80
86
88
88
84
78
70
60
48
34
30
5
9
24
38
51
64
74
82
89
94
96
9.92
8.96
8.01 95
92
7.09
6.22
5.42
4.72
4.15
87
80
70
57
42
3.73
3.46
3.35
27
II
Declina-
UonN.
+75 19
//
45.8
42.3 ^^
38.8 35
35.5 II
29.9
27.8
26.3
25.4
25.2
21
15
9
2
4
II
16
22
26
30
32
34
35
34
33
32
29
26
22
18
14
9
3
2
7
67.3
66.0 ^l
64.2 ^»
62.0
25.6
26.7
28.3
30.5
33.1
36.1
39.3
42.7
46.2
49.6
52.9
56.1
59.0
61.6
63.8
65.6
67.0
67.9
68.2
68.0
22
59.3
56.2
52.9
49.4
27
31
33
35
3-949 +3.820
"'•264 53".85
-o.io
+0.1
-005
-1.0
(T Saglttaiil.
Mag. 2.1
Right
h m
18 49
s
50.66
50.82
51.02 ^°
51.26 ^4
51.53 ^^
16
51.82
52.13
52.45
52.78
53.12
53.47
53.81
54.15
54.48
54.78
55.06
55.31
55.53
5571
55.84
55.93
55.97
55.96
55.91
55.82
55.69
55.53
55.36
55.18
55.01
54.86
54.73
54.63
54.58
54.58
54.62
54.71
54.85
29
31
32.
33
34
35
34
34
33
30
28
25
32
18
13
9
4
I
5
9
13
16
17
x8
17
15
13
10
5
o
4
9
14
Declins-
tionS
-2624
31.0
307
304
30.1
29.8
295
29.2
28.8
28.4
27.9
274
26.9
26.5
26.1
25.7
254
25.2
251
25.1
25.2
25-4
257
26.1
26.5
26.9
27.2
27.5
27.8 J
27-9,
28.0'
27-9,
27.8^
27.6^
3
27-3
27.0^
26.6^
26.3 \
X.116 -0497
52V234 2o".7i
.^o.oi
•KXI
4O.0I
-1.0
APPARENT PLACES OF STARS, 1913
441
FOR THE UPPER TRANSIT AT WASHINGTON.
If CMi Solar
Date.
Jan. i.o
II.O
2I.O
30.9
Feb. 9.9
19.9
Mar. 1.8
11.8
31.8
31.8
Apr. 10.7
20.7
30.7
May 10.7
20.6
30.6
June 9.6
195
29.5
July 9-5
19-5
29.4
Aug. 8.4
18.4
28.4
Sept. 7.3
17.3
27.3
Oct. 7.2
17.2
27.2
Nov. 6.2
16.1
26.1
Dec. 6.1
16.1
26.0
36.0
Sec*,Tan^
Mean Place
DV a, Dm a
o Dnoonis.
Mag. 4.8
Right
Asoensioii.
m
h
18 49
s
52.28
52.35
52.49
52.71
53.00
53-35
53.75
54.19
54.65
55.13
55.61
56.07
56.51
56.91
57.27
57.57
57.81
57.98
58.08
58.10
58.05
57.92
57.73
57.47
57.15
56.79
56.39
55.97
55.53
55.10
54.69
54.31
53.97
53.69
53.47
53.33
53.27
53.29
7
14
23
29
35
40
44
46
48
48
46
44
40
36
30
24
17
10
2
5
13
19
26
32
36
40
42
44
43
41
38
34
28
22
14
Dcdina-
tioii N.
+59 16
tf
45-9
35
42.4
38.9 "
35-6 "
32.6 30
0 Seipentls pr,
Mag. 4.5
Risht
AaccnsioD.
b m
18 51
30.1
28.1
26.6
25.8
25.6
26.1
27.3
29.0
31.2
33.9
36.9
40.2
43.6
47.1
50.6
53.9
57.0
59.9
62.5
64.7
66.4
67.7
68.5
68.7
68.4
25
20
15
8
2
5
12
17
22
27
30
33
34
35
35
33
31
29
26
22
17
13
8
2
3
8
13
18
67.6
66.3
64.5 ,,
62.2 ^^
mr. M 28
59.4
31
56.3
53.0 ^^
49-5 ^^
1.958 +1.682
55M78 54".32
-0.04
+0.1
-0.02
-1.0
s
52.18
52.31
52.48
52.68
52.90
53.15
53.42
53.70
53.99
54.29
54.59
5489
55.18
55.46
55-73
55.98
56.19
56.37
56.52
56.63
56.70
56.73
56.71
56.65
56.56
13
17
20
22
25
27
28
29
30
30
30
29
28
27
25
21
18
15
II
7
3
2
6
9
13
56.43
56.28 \l
56.12 '^
55.96
55.80
55.65
55.52
55.43
55.37
55.35
55.37
55.43
55.54
x6
16
15
13
9
6
6
II
Dedina-
tkmN.
+ 45
//
16
16
12.8
II.2
9.6
8.2'^
7.0
12
10
6.0
5.2
4.7
4.6
4.9
5.5
6.4
7.6
9.0
10.6
12.3
14.0
15.8
17.5
I9.I
20.6
22.0
23.2
24.2
25.0
25.6
26.0
26.2
26.2
25.9
25.4
24.7
23.9
22.9
21.7
20.3
18.8
17.3
8
5
I
3
6
9
2
4
6
7
7
8
7
6
4
2
o
8
6
4
2
o
3
5
7
8
10
12
14
15
15
1.003 -K).07I
53"-653 22".62
0.00 0.00
■K>.I -1.0
CBphisl
R Lyne.
Var. 4.0-4.7
Right
Aaccaaion.
h
18
m
52
s
39-22
39.31
3945 .^
39.64 \l
39.88 ^1
9
14
40.16
40.47
40.81
41.16
41.52
41.88
42.24
42.59
42.91
43-20
43.46
43.68
43.85
43.97
44.04
44.05
44.00
43.90
43.76
43.57
43.34
43.08
42.81
42.53
42.25
41.99
41.75
41.55
41.39
41.28
41.22
41.22
41.27
28
31
34
35
36
36
36
35
32
29
26
22
17
12
7
I
5
ID
14
19
23
26
27
28
28
26
24
20
16
II
6
o
5
D«clina-
UonN.
+43 49
ti
42.9
39.6
36.4
33.4
30.7
28.4
26.5
25.2
24.5
24.4
25.0
26.1
27.8
29.9
32.4
35.3
38.4
41.6
44.9
48.1
33
32
30
27
23
19
13
7
I
6
II
17
21
25
29
31
32
33
32
31
29
51.2
54.1
56.8 ^7
59.1 ''
61. 1
62.7
63.9
64.6
64.8
64.5
63.7
62.4
60.7
58.6
56.1
53.2
50.1
46.9
20
16
12
7
2
3
8
13
17
21
25
29
31
32
1.386 -^.960
4I-.284 5i".59
-0.02
-O.OI
-1.0
e Aquilft.
Mag. 4.2
Right
Ascension.
h
18
m
55
38.88
39.00
39.15
39.34
39.56
39.81
40.07
40.35
40.64
40.94
41.25
41.55
41.84
42.12
42.39
42.63
42.85
4303
43.17
43.27
43.33
43.35
43.32
43.25
43.15
12
15
19
22
25
26
28
29
30
31
30
29
28
27
24
22
18
14
10
6
2
3
7
10
14
16
43.01
42.85
42.68 \l
42.50 "
42.32
18
18
16
42.16
42.02
41.91
41.83
41.80
41.81
41.86
41.95
14
II
8
3
I
5
9
Declina-
tion N.
+ 1456
//
48.2
46.1
44.0
42.0
40.3
38.8
37.7
37.0
36.7
36.9
21
21
20
17
15
II
7
3
2
6
10
37.5
38.5 ,,
39.8 '3
41.5 ''
43.4
19
21
45.5
47.7
50.0
52.3
54.5
22
23
23
22
20
56.5
58.4
60.1
61.6 '5
62.8 '^
19
17
63.7
64.3
64.7
64.8
64.5
9
6
4
I
3
6
9
II
14
63.9
63.0
61.9
60.5
58.8 '7
19
56.9
54-9
52.8
20
21
1.035 +0.267
" -».
40'.4i3 57".74
-0.0 1
+0.1
0.00
-1.0
442
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
y Lyrse.
C SaglttaiU.
C Aq^iiliB.
X AquiUD.
Mean Solar
VX A.
Mag. 3.3
Mag. 2.7
Mag. 3.0
Mag. 3.6
Date.
1
Right ! Declina-
Right
Declina-
Right
Declina-
Right
DecliU'
Ascensioiit
tion N.
Aaccnsion.
tion £
>.
Ascension.
tion N.
AKennon.
tioo&
h m
0 /
h m
0
/
h m
0 /
b m
0 /
18 55
+32 33
18 57
-30
0
19 1
+ 1343
J m
19 I
- 5 0
mm
Jan. I.O
39-55 ,„
61.5
3'6 ll
30.5
£•
23-15 „
w w
SO-8 ,„
8
36.46 .,
WW
59-3 ,„
II.O
39-65 °
55-8 It
29.9
0
23.26 "
48.8 ^°
36.59 \\
60.3""
2I.O
39-79 *
336 °
29.4
5
23-59 '!
46.8 ^°
3676 '7
61.2 ^
30.9
39-98 '9
53-1 :!
3.60 ^*
28.9
5
44.9 '
36-96 n
62.1 J
Feb. 9.9
22
40-20 ^^
50.7 :t
3-87 '7
29
28.4
5
5
23.81 ^
43.2 '7
14
37.18 "
25
62.9
19.9
40.46
48-6 .«
4.16
27.9
£_
2405 ,,
41.8
37-43 „
63.5
Mar. 1.8
40.74 „
470
4-48 l\
27-3
6
20
'4-59 ,°
40.7"
37-70 '7
37-98 '*
63.9 ,
11.8
41 04 \,
. p. « 11
45-9 g
4.81 33
26.8
5
40.0 \
64.1
21.8
41-36 ^'
45-3 -
5.15 It
26.3
5
gL
24.88 '9
39-7 3
38.27 '9
64.0 '
31.8
41.68 3^
33
45-3 5
5.50 35
25.7
0
5
25.17 *9
30
39.9 6
38.57 ^
31
63.6 \
Apr. 10.7
42-01
45-8
5-86
25.2
25-47 „
40-5 .„
38.88
63.0
62.2
20.7
42-33 *,
^^^•9 '
6.21 35
24.7
5
25-78 3'
41-5 Z
39.19 ''
30.7
42.64 ^'
^^■^ \t
6.56 35
24.3
4
26.08 30
4-8
39.49 f„
61.2 '^
May 10.7
42-94 Ja
43-22
50-5 °
6.90 34
23.9
4
26.36 '^
39.78 »9
40.06 '8
60.0"
T 9
20.6
52-9 't
7.22 ^2
23.6
3
26.63 ^7
46.3 "
58.7 i
t
25
26
30
2
25
21
25
13
30.6
43-47 „
55-5 ,-,
752 .
23-4
26.88
48.4 ,,
40.31 „
57-4 , .
June 9.6
43-68 "
43-86 8
58-3 '
23.3
I
22
27.10
27.28 '*
T K
50.6
4°-54 «o
56.0 ♦
19.5
61.2 '9
8.01 ^3
T ^\
234
I
52.8 "
40.74 „
54-7
29.5
43-99 \
4407 ^
64.2 30
8.20 '9
23.6
2
^9
27-43 „
55.0 J^
40.91 J;
53-5 ,,
July 9.5
67-1 !
8-35 :^
23.9
3
4
27-54 ';
57-2 "
20
41.04 1
52.3 „
19.5
44-" -
^9-9 ,6
72-5 ,,
8.45 ,
24.3
p
27.60
59-2 ,0
41.12
5i-» ,
29.4
44.10
4404 „
8.50 5
24.8
5
27.62
61. I '9
41.16 4
50.3 J
Aug. 8.4
74.8 l'^
8.50 °
25.3
5
6
6
5
27.60 ^
62.8 '7
41.16 »
49.6 4
18.4
«-93 "
769 ''
8-45 ,t
25.9
27-54 -
64.2 \\
41." g
41.03
49-0
28.4
43.79 X
78.7
8.35 -
26.5
27-45
13
65.4 ';
48.5 5
Sept. 7.3
^^•^^ ,r.
80.1
8.22
27.0
vr
27.32
66.3 ,
66.9 \
40.92 ,^
48.2 ,
17.3
20
43-41 °
81. 1 '°
8.06 "^
27.4
4
27.17 1^
40.78 4
40.62 '*
40.46 ;*
40.30 '
48.0
27.3
22
81.7 I
789 ;^
27.7
3
27.00 ^
26.82 '°
26.64 1^
67.3 1
47-9 ,
Oct. 7.2
22
42-97 „
81.9 '
7-7' 8
7-53 It
27.9
2
67-4 '
48.0
17.2
22
42.75
8i.6 3
28.0
I
67.1 3
48.2
21
7
»7
I
16
5
»5
27.2
42.54 ,_
80.9
7-36
27.9
26.48
66.6 ,
65.8 «
40.15 „
48-5 ,
Nov. 6.2
42.35 7.
79-8 6
7.22 *
27.7
2
26.34 \\
40.03 '
48.9 \
16.1
42.20 ^
7.12 '°
7-06 *
27.3
4
26.23 "
26.15 \
64-7 !
39-94 !
39.88 \
49-5 ,
50.2 J
26.1
42.08 '"^
76.3 '
26.9
4
^3-3 1
61.7 'p
18
Dec. 6.1
42.01 ^
2
74.0 -
7.04
4
26.4
5
5
26.11 ^
0
39.86 J
51.0 g
16.1
41.99
7^-5 ,,
7.08
25.9
6
6
26.11
59-9 ,„
39.88
39.94 „
5».8 ,
52-7 I
53.7
26.0
42.01
68.8 ^7
7-^7 ,^
25.3
26.16 5
58.0 '9
36.0
42.08 '
65.9 '^
7.30 '3
24.7
26.25 ^
56.0 ^^
40.05
Sec d, Tan 6
1. 187 •K).639
1.155 -0.578
1.029 40.244
1.004 -0.088
Mean Place
4i«.324 7o''.44
4*.6i2 I9".9S
>
24".670 6o".26
37'.9i6 49".ai
DV a, D» a
-0.02 -O.OI
+0.01 +O.OI
-O.OI 0.00
0.00 0.00
D^ 6, D«» S
+0.1
-1.0 1
+0.1
-1.0
40.I
-1.0 1
40.I
-iu>
lEpbisl
APPARENT PLACES OF STARS, 1913.
443
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
a CoroBse Austialis.
Mag. 4. 1
t Lyno.
Mag. 5.1
Mag. 3.0
^ SafittaiU.
Mag. 4.9
Date.
•
Riffht
Ascension.
Dcdina-
tionS.
Right
Ascension.
Declina-
tion N.
Right
Aacension.
Dedina-
tiooS.
Right
Ascension.
Declina-
tions.
h m
0
#
h m
0 /
b m
0 t
h m
0 /
19 3
-38
2
19 4
+35 57
19 4
-21 9
0 B
19 10
-25 24
Jan. 1 .0
II.O
21.0
30.9
Feb. 9.9
31-87 "
32.12 '5
32.41 "'
3«
38.8
37.7
36.6
35.6
34.6
IZ
II
10
10
9
*
10.00
10.08 *
10.21 '3
10.39 •'
10.61 "
35
39-' ,„
36.1 3°
33.2 \l
3°-4 °
27.8 ^<^
22
33*93
34-07 4
34-25 '!
34-7' M
W w
56.4 „
56.4°
56.3 '
56.3°
56.2 »
s
10.87
1 1. 01 ^\
11.19^^
II.4I "
11.66 ^5
27
w w
37.9 ,
37.6 \
37.3 \
37.0 3
36.6 4
19.9
Mar. 1.9
11.8
21.8
31.8
32.72
33.06 34
33-42 "*
33.79 11
34.17 ^
39
33.7
32.8
32.0
31.3
30.7
9
8
7
6
6
10.86
11.14^8
11.44 3«
11.76 3^
12.10 -^^
34
25.6
23.9 ;^
22.7 '
22.0 ^
21.0 '
5
34-97 ,„
35-26 9
35-57 :'
35-89 ^'
36.21 32
33
56.0
55-8 '
55-5 ^
550 5
54.55
"•93 ,^
12.22 '9
12.53 ^'
12.86 33
13.19^^
34
36.2
35.7 ^
35.2 \
34.6 J
34.0^
Apr. 10.7
20.7
34.56
34-95 ^^
35-33 ^!
30- I
29.6
5
12.44
12.77 ^^
22.4
25.0
36.54 „
36.87 33
53-9 ,
53-2 I
13.53
13.87 ^^
33.4 ^
32.7 ;
30.7
29.3
3
13.10 '^'^
37.20 ^"^
52.5 ,
14.21 34
4 ^
32.0 7
31.4 t
May 10.7
35-70 11
29.1
2
13.41 11
27.0
37.52 ^*
51.8 7
14.54 ^^
20.6
36.05 J5
29.1
0
I
'3-70 :^
29.3 "^
27
37-82 ^8
5-^
14.86 3*
29
30.9 ^
30.6
June 9.6
19.6
29.5
July 9.5
36.37 ,„
36.67 f,
36.93 ^
37.14
17
37.31 '7
29.2
29.5
30.0
30.6
31.3
3
5
6
7
9
13.96
14.18 "
•T oA 18
14-50 'J
14-59 I
4
32.0
34-9 !'
5^:2 3:
38.10
38.36 ^;
38.58 "
38.77 \l
38.91 '4
10
50.5 .
49.9 ^
49.4 \
49.0 ^
48.8 ^
I
15.15
'5-42 '!
15.66 '4
15.86 ^°
16.01 '5
II
30.4 ^
30.0 "^
29.7 ^
29.6 '
29.6°
1
19.5
29.4
Aug. 8.4
37-42 ,
37-48 I
37-48 °
32.2
33.1
34.1
9
10
14.63
14.62 '
14.56 ,;
+7-0 ,8
49-8 ="8
52.3 \\
39.01
39.06 5
39-07 '
48.7 ,
48.7^
48.8
l6.I2
16.18 *
16.19 '
29.7 ^
29.9 ^
30.2 3
18.4
28.4
37-43 ,^
37.33 ,^
35.1
36.0
10
9
8
14.45
14.30 ,1
54-5 "
39-03 *
38.95 .;
48.9 '
16.15 4
16.07
12
30.6^
31.0 ^
4
Sept. 7.3
17.3
27.3
Oct. 7.3
17.2
37'9 ,8
36.82 '9
36.62 '°
36.42 ^°
19
36.8
37.5
38.0
38.2
38.2
7
5
2
0
I
14.12
.- „. 21
13.68 ^3
13.44 '-^
'3.20 ^4
58.0
59.1 "
59.8 I
60.1 3
60.0 ^
6
38.83
38.69 4
38.53 *
38.36 \l
38..9 :j
49.4 .
49.6^
49.8^
50.0 ^
50.2 ^
15.81 4
15.47
15.30 ,^
31.4 ,
31.8^
32.1 ^
32.3 \
32.5 ;
27.2
Nov. 6.2
36.23
36.07 J
38.1
37.7
4
6
8
9
10
12.98
12.78 ^°
T •«
59.4 , ,
58.3
38.04
37-91 ^
50.3
50.3 ^
15.00 ^
32.6
32.5 ;
16.1
26.1
Dec. 6.1
35.95 „
35.87. '
35.84 I
37.1
36.3
35.4
12.61 '7
12.48 '3
12.39 '
56.8 '5
54^'°
52.5 \l
37-81 '^
37-75 °
37-73
50.3 ^
50.3^
50.3 ^
14.90 '°
14.83 ^
14.81 ^
2
32.4 '
32.2 -
31.95
16.1
35-87 .
35.95 '
34.4
T ^\
12.35 „
47-2 „
37.76 ^
50.2
14.83 ,
31.6
26.0
33.4
10
".35 °
37.83 ^\
50.1 '
14.90 7
31.3 \
36.0
36.09 "^
32.3
I I
12.40 ^
44-3''
37.95
50.1 "^
15.01 "
31.0 3
Sec^,Tan*
1.270 -0.782
1.235 +0.725
1.072 -0.387
1. 107 -0.475
Mean Place
33'.225 27".86
I1V855 47".40
35V437 45".8i
i2*.4o8 27".04
D'^ a. Dm a
+0.03 +0.01
-0.02 -O.OI
+0.01 +0.01
+0.01 +0.01
D^d, D»d
+0.1
-I.O
1
+0.1
-1.0
+0.1
-1.0
40.1
-1.0
[Bphia]
444
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. I.O
II.O
2I.O
Feb. 9.9
19.9
Mar. 1.9
11.8
21.8
31.8
Apr. 10.7
20.7
307
May 10.7
20.6
306
June 9.6
19.6
295
July 9.5
19.5
29.4
Aug. 8.4
18.4
28.4
Sept. 7.3
27.3
Oct. 7,3
17.2
27.2
Nov. 6.2
16.1
26.1
Dec. 6. 1
16.1
26.0
36.0
Sec (5, Tan <5
Mean Place
D'^ a, Dtu a
d Dxaconls.
Mag. 3.2
Right
Aacension.
h
19
m
12
28.38
28.36
28.45
28.65
28.95
2934
29.80
3033
30.91
31-51
9
20
30
39
46
53
58
60
61
60
57
32.12
32.72
3329
33.82 53
34.30 l^
34-71 _
35.03 ^,
35.26 J
35.40 'I
35.44 ;
35.38
35.22
34-97
34-63
34-22
33.74
33.20
32.62
32.02
31.42
30.83
30.27
29.76
29.31
28.94
28.65
28.46
28.38
16
25
34
41
48
54
58
60
60
59
56
51
45
37
29
19
8
Declina-
tion N.
+67 30
//
24.4
20.9
17.4
14.0
10.9
35
35
34
31
28
8.1
5.8^3
4.0
2.9
2.5
18
II
4
2.7
3.5
4.9
6.9
9.4
12.3
15.5
18.9
22.4
26.0
8
14
20
25
29
32
34
35
36
35
29.5 „
32.8 ^^
35-9 t^
38.8 ^9
41.3 ''
43.4
45.1
46.3
47.0
47.1
46.7
45.7
44.2
42.2
39.7
21
17
12
7
I
4
10
15
20
25
29
36.8
33.6 ^'
30.2 ^^4
2.614
32V325
+2.415
3o".54
-0.06
+0.1
-0.05
-1.0
(^SaglttarU.
Mag. 5.0
Right
Aacension.
h
19
s
31.24
31.37
31.54
31.74
31.97
m
12
13
17
20
23
26
28
32.23
32.80 '9
'^i
33.11 ^
33.43 ,,
32
33.75 ,,
34.08 33
34.41 ^^
34.73
35.03
32
30
28
35.31
35.57
35.80
35.99
36.14
36.24
36.30
36.31
36.28
36.21
36.10
35.96
35.80
35.63
35.47
35.32
35.19
35.09
35.02
34.99
35.01
35.07
35.18
26
23
19
15
10
6
I
3
7
II
14
16
16
15
13
10
7
3
2
6
II
Declina-
tion S.
--19 6
tf
41.5
41.6
41.7
41.7
41.6
41.5
41.3
41.0
40.6
40.0
39.3
38.6
37.8
36.9
36.1
35.3
34.6
34.0
33.5
33.1
32.8
32.7
32.7
32.7
32.8
33.0
33.2
33.4
33.6
33.8
34.0
34.1
34.2
34.3
34.3
34.4
34.4
34.5
I
I
o
I
I
2
3
4
6
7
7
8
9
8
8
7
6
5
4
3
I
o
o
I
2
2
2
2
2
2
I
I
I
o
I
o
I
1.059 -0.346
32V7I4 3o".8i
+0.01 40.01
+0.1 -1.0
lEph ii\
ff Lyno.
Mag. 4.5
Right
Ascension.
7
12
16
21
25
28
30
h m
19 13
18*95
19.02
19.14
19.30
19.51
19.76
20.04
20.34 ,,
20.66 32
21.00 3^
35
34
33
32
30
27
23
19
15
10
5
I
6
10
15
18
31
23
25
25
23
21
18
15
II
6
I
4
21.35
21.69
22.02
22.34
22.64
22.91
23.14
23.33
23.48
23.58
23.63
23.62
23.56
23.46
23.31
23.13
22.92
22.69
22.44
22.19
21.96
21.75
21.57
21.42
21.31
21.25
21.24
21.28
Declina-
tion N.
+3758
ft
34.2
31.2 3°
28.2 30
.28
22.8 ^^
23
20.5
18.6 '9
17.3 ''
16.5
16.3
16.7
17.7
19.2
21.2
23.6
26.3
29.2
32.3
35.4
38.5
41.5
44.4
47.1
49.5
51.5
53.2
54.5
55.3
55.7
55-6
10
15
20
24
27
29
31
31
31
30
29
27
24
20
17
13
8
4
I
5
10
14
55.1
54.1
50.8 '9
48.5 ''
25
46.0
43.2
40.2
28
30
1.268 40.781
20". 864 4 1 ".9 1
-0.02
40.I
-0.02
-0.9
Q^Aqnto.
Mag. 5.1
Right
h m
19 13
Dedinft-
tiooN.
4-1 1 25
s
42.47
42.57
42.71
42.88
43.09
43.32
43.57
43.84
44.12
44.42
44.72
45.02
45.32
45.61
45.89
46.15
46.38
46.58
46.74
46.86
46.94
46.98
46.97
46.92
46.83
10
H
17
21
23
25
27
28
30
30
30
30
29
28
26
23
20
16
12
8
4
I
5
9
12
46.71
46.57
46.41
46.23
46.06 '7
16
18
45.90
45.76
45.64
45.56
45.52
45.52
45.56
45.64
16
14
12
8
4
o
4
8
66.9
65.0
63.2
61.4
59.B
58.5
57.5
56.9
56.6
56.8
57.4
58.3
59.6
61.2
63.0
65.0
67.1
69.3
71-4
73.5
75-5
77-3
78.9
80.3
81.5
82.4
83.0
83.4
83.5
83.3
82.9
82.2
81.2
80.0
78.6
19
18
18
16
13
10
6
3
2
6
9
13
16
18
20
ii
22
21
21
20
18
16
14
12
9
6
4
I
2
4
7
10
13
M
16
77.0 ,j
75.2
73.3
i<
I.030 4O.202
43'.972 76"x>5
-0.01
40.I
OiOO
-0;9
APPARENT PLACES OF STARS, 1913.
445
FOR THE UPPER TRANSIT AT WASHINGTON.
Date.
Jan. I .o
II.O
2I.O
309
Feb. 9.9
19.9
Mar. 1.9
11.8
21.8
31.8
Apr. 10.8
20.7
30.7
May 10.7
20.6
30.6
June 9.6
19.6
29.5
July 9-5
19-5
29.5
Aug. 8.4
184
28.4
Sept. 7.3
173
273
Oct. 7.3
17.2
27.2
Nov. 6.2
16.2
26.1
Dec 6.1
16.1
26.0
36.0
Mean Place
K Cygai.
Mag. 4.0
Richt
Ascmsion.
h
19
8
304
3.08
319
336
3.59
3.87
4.20
4-57
4.96
5.37
5.79
6.21
6.62
7.00
7.35
7.66
7.92
8.13
8.27
8.35
8.36
8.31
8.20
8.03
7.80
7.53
7.22
6.88
6.53
6.18
5.84
552
5.23
4-99
4.80
4.67
4.60
4.60
m
15
4
II
17
23
38
33
37
39
41
42
42
41
38
35
31
36
31
14
8
I
5
II
17
23
27
31
34
35
35
34
32
29
24
19
13
7
o
Declina-
tion N.
+53 II
//
80.6
77.2 ^^
73.8 II
70.6 ^^
67.6 3°
27
64.9
^ Z 22
61. 1 "^
60.1 ^°
59.85
60.1
61.0 9
62.5 '5
64.5 ^
67.0 ^5
29
73-0 1
76.3 tl
79.8 35
83.3 II
86.7
89.9 3^
92.9^.
98.0 ^^
T Draconls.
Mag. 4.6
Right
Ascension.
20
15
II
6
I
5
10
15
20
24
28
90.0^*
86.7 ^3
100.0
IOI.5
102.6
103.2
1033
102.8
IOI.8
100.3
98.3
95.9
93.1
1.670
5*.579
+1-337
87".20
D> a. Dm a -0.03 -0.03
l>^d,'DmS I 40.1 -0.9
h
19
m
17
8.85
8.77
8.83
9.04
9.39
9.86
0.43
1.09
I.81
2.58
3.36
4.13
8
6
21
35
47
57
66
72
77
78
77
4-^^ II
5.54
6.14
6.65
705
7-33
7.48
7.50
60
51
40
28
15
2
II
7.39 ,,
7.16 ^^
6.81 35
6.34 4^
5.77
5.11
4.38
3.60
2.79
1.97
57
66
73
78
81
82
81
78
1. 16
0.38
9.66 7^
9.01 ^
8.46 55
43
8.03
7.72 3'
7.55
17
Declina-
tion N.
+73 II
tf
33.9
30.5
27.0
23.6 ^4
20.4
34
35
32
28
7.6
5.2
3.4
2.2
1.6
24
18
12
6
I
8
14
1.7
2.5
5.8 '9
8.2^^
28
21.0
24.1
275
31.0
34.5
38.0
41.4
44.6
47-5
50.1
52.3
540
55-3
56.1
56.3
31
34
35
35
35
34
32
29
26
22
17
13
8
2
3
8
56.0
55-2
53.8 '^
10
46.7
43.6 3'
40.2 ^^
3458 +3.310
//
I4".079 39''.43
-0.08 -0.07
+0.1 -0.9
fBph 13I
d Aquilse.
Mag. 3.4
Right
Ascension.
h
19
8
5.27
5.37
5.51
5.68
5.88
6. 1 1
6.36
6.63
6.91
7.20
750
7.81
8.11
8.41
8.70
8.96
9.20
9.41
9.58
9.72
9.81
9.86
9.87
9.84
9-77
9.66
952
9.37
9.21
905
8.90
8.77
8.66
8.58
8.54
8.54
8.58
8.66
m
21
10
14
17
30
23
25
27
38
29
30
31
30
30
29
36
24
21
17
14
9
5
I
3
7
II
14
15
16
16
15
13
II
8
4
o
4
8
Declina-
tion N.
+ 2 56
14
16.5
I5.I
13.8 '^
12.5
1 1.4
13
II
9
10.5
9.8
9-4
9.4
9-7
7
4
o
3
6
9
12
10.3
II. 2
12.4
13.8 "1
15.4
16
17
17.1
18.9
20.7
22.4
24.1
257
27.1
28.3
29.4
30.2
30.8
312
31.5
31.6
31-4
31.0
30.4
29.7
28.8
27.8
26.6
25.3
239
18
18
17
17
16
14
12
II
8
6
4
3
I
2
4
6
7
9
10
12
13
14
I.OOI
6". 719
+0.051
26".o6
^Cyfni.
Mag. 3.2
Right
Ascension.
0.00
+0.1
0.00
-0,9
I
h
19
s
1.05
1. 13
1.24
1.39
1.58
m
27
8
II
15
19
33
1.80
2.05
2-33 ,^
2.62 ^9
31
25
38
32
32
2.93
3.25
3.57
3.88 3'
4.19
4.48
31
29
27
4.75
4.99
5-20
5.37
5.49
556
5-59
5.57
5.51
5.41
5.27
510
4.91
4.71
4.50
430
4.12
3.97
3.85
3-77
3.72
3.72
3.76
24
31
17
12
7
3
2
6
10
14
17
19
20
21
20
18
15
12
8
5
o
4
Declina-
tion N.
+ 2746
//
27.1
245
21.9
19.4
17.I
I5.I
13.5
12.4
II.8
11.7
12. 1
13.0
14.4
16.2
18.3
20.7
23.4
26.2
29.0
31.8
34.6
37.2
39.6
41.7
43-5
45.0
46.2
47.0
47.4
47-4
.47.0
46.2
|45-o
.43.5
41.6
39.4
370
34.5
26
26
25
23
20
16
II
6
I
4
9
14
18
21
24
27
28
28
28
28
24
21
18
15
12
8
4
o
4
8
12
15
19
22
24
25
1. 130 +0.527
I2V750 34"-64
-O.OI
-0.0 1
446
APPARENT PLACES OF STARS, 1913,
FOR THE UPPER TRANSIT AT WASHINGTON.
I Cygnl.
/i Aqulle.
h Sagittarii.
K AgnilK. ]
Mean Solar
Mag. 3.9
Mag. 4.6
Mag. 4.7
Mag. 5.0 -l
Date.
■!
Right
Declina-
Riffht
Declina-
Risht
Dcdm*-
Riciit
DmSm-
Ajcennoa.
tion N.
Aacensian.
tion K.
Aacension.
tioaS.
AsCWMPOli.
thaS.
4
h m
0 /
h m
0
/
h m
0 1
h m
1
0 9
19 27
+51 32
19 29
+ 71
[I
19 31
-25 4
19 32
- 7 n ^
mm
Jan. 1 .0
8
28.32
99
32.8
8
48.93 ^
9 9
28.0
16
16
8
2336 ,,
WW
46.7 ,
s
"•31 .„
WW
27.8
28.6 * ;
II.O
28.35 I
29.4 ^^
49.02 9
26.4
23-64 '*
46.4 3
"•*» !
21.0
28.44 ,!
26.1 33
49.15 ^
24.8
46.0 ♦
".55 \t
29.3 I
29.9 _
31.0
28.59 '^
22-9 ^^
49.31 ^^
233
15
23-83 ''
45-6 4
"•72 ,'
Feb. 9.9
28.80 ^l
^9-9 ^!
49.50 '9
22.0
13
22
24.05 "
45-1 5
20
"•92 ^°
30.4 J
26
27
22
II
25
5
22
19.9
29.06
17.2
49.72
20.9
24.30
24-58 '^
44-6
44-0
12.14
30.8 ,
Mar. 1.9
2936 3°
15.0 "
49.96 ^^
20.0
9
12.39 „
31.0
11.8
21.8
29.70 ^J
30.08 3^
13-3 '^
12.2 "
20
50.22
50.50 ^°
19.5
19.4
5
I
24.88 30
25.20 3^
43-3 ;
42.6 7
12.66 '7
"•94 !!
310 ^
30.8 '
31.8
30.48 :j^
11.7 \
50.79 ,
19.6
2
2553 ^^
41-8 „
13-24 ,.
30.3 J
41
3
30
6
33
8
3«
Apr. 10.8
30.89
"•9 a
51.09
20.2
25.86
41.0
13-55 „
29.6
20.7
41
31 30;
12.7 "
51.39 ^
21. 1
9
26.20 34 4.0.1 ? 1
13.86 3
28.6 '^
307
3170*
32.08 38
^4-^ !o
51.69^^
22.3
12
26.54 ^^
39-3"
38.5!
*4-^7 \^
27.5 "
May 10.7
16.0 '9
51.99^
23.8
15
26.88 34
H-47 ^^
26.3
20.7
32.43 11
18.4 't
^ 28
52.28 ^9
27
25.5
17
19
27.21 33
31
37-8 J
14-77 f.
25.0 jj
30.6
32.75 „
21.2
5^-55 .^
27.4
^^x
27.80 ^°
37-1
15-05 „
23.6
22.2 '*
June 9.6
33-02 ,;
24-3 ^
52.79 ,,
29.4
20
36.6 5
'5-30 ^
19.6
22
3324 _
27.6 33
53.00 ^
31.4
20
28.05 ^ 1 36.2 "* 1
15-53 ,^
20.9 '3
295
17
33-41 I
31.0 34
53-^8 ;
33.4
20
28.27 "
35-9 .
15-72 ;'
15-88 **
II
19.7 !|
July 9-5
33.51 ^
4
34.5
34
53.32 ,^
35.3
19
18
28.44 ^
13
35-8;
'^•5 ,^
19.5
33.55 .
37-9 ,.
53.42
53.48 \
37.1
16
28.57 «
28.65 !
35-8
15-99 ,
16.6 ^
29.5
3352 I
41.2 "
38.7
36-0^
16.06 '
Aug. 8.4
33.43 _^
44-3
47-1 ,:
53.49 _
40.2
15
28.68 3
36-3^
16.08 '
15.9 J
154 J
18.4
33.29 ,^
53.46 3
41.5
13
28.66 ^
36.6 3
16.06 '
28.4
20
33-09 „
49.6 5
7
53.39 .1
42.5
10
28.60 ^
37-0 4
16.00
15.0 *
25
21
10
8
10
5
9
Sept. 7.4
32.84
32.56 ^^
5'-7 ,,
5329 ,,
43.3
6
28.50
37-5 ,
15-91 ,.
14.7 . -
17-3
53-4
53.16 ^
43.9
28.37 w
28.21 '*
38.0 5
15-79 "
14.5 0 ^
27.3
32-25 ;
54-6 -^
53.01 ^
52.85 ;
44.2
3
38-4!
'5-49 ,6
15.33 ,^
14.5 , s
Oct. 7.3
3i-f2 „
55-3 \
44.3
I
28.04 *'
38.7^
14.6 *
17.2
3'-59^3
55.5 3
5-^« :^
44.2
I
3
27.87 ;^
38.9^
14.8 , i
3 i
27.2
31.26
55-2 „
5^52 , .
43.9
6
8
27.71 , .
390
15-18
11
I5.I . }
15.5 ,
16.0 ^
16.5 ^
Nov. 6.2
30.95 ,» 154.4 .
52.38 ^
43.3
27.57 ,:
39-1
15-05 1;
16.2
30.67 ll
51.2
52.26 '^
52.18 \
42.5
27.45 '
27.37 .
39-1
14-94 -
14.86 »
26.1
30.43 ,„
41.5
10
39-0 ,
Dec. 6.1
IQ
30.24 ,J
48.9 '^
• 27
52.13 ^
40.3
12
14
27.33 *
38.8;
14.8a 4
I7.I 7
1
16.1
30.11 g'46.2 __
52.12
38.9
27-33 .
38-5 ,
14.81
17.8 , .
18.5 '
19.2
26.1
30.03
43.2 ^^
52.15 ;
37.4
»5
16
27-37 *
38.2 3
14.85 *
14-93
36.0
30.01
40.0^
52.22 '
35.8
27.46 '
37-8*
Sec <5, Tan S
1.608 +1.259
1.008 +0.126
1. 104 -0.468
1.00B -O.U7
Mean Place
30'.783 38".5i
5o'.389 37".02
0.00 0.00
34'.847 35".26
ia..723 i7".5*
D'^ a, Dm a
-0.03 -0.03
+0.01 +aoi
0.00 ooo
D4, 8, D« <^
+0. 1 -0.9
+0.2 -0.9
■K).2 -0.9
40.3 -a9
lEph 13]
APPARENT PLACES OF STARS, 1913. 447
FOR THE UPPER TRANSIT AT WASHINGTON.
448
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. I.O
II.O
2 I.O
Feb. 9.9
199
Mar. 1 .9
1 1.9
21.8
31.8
Apr. 10.8
20.7
30.7
May 10.7
20.7
30.6
June 9.6
19.6
29.6
July 9.5
29.5
Aug. 8.4
18.4
28.4
Sept. 7.4
17.3
27-3
Oct. 7.3
17-3
27.2
Nov. 6.2
16.2
26.1
Dec. 6.1
16.1
26.1
36.0
Sec ^, Tan d
Mean Place
D'l^ a, Dt* a
/ Saginarii.
Mag. 5.1
Right
Ascension.
h
19
m
41
10
5.87
5-97
6.11 '^
6.28 '7
6.49 ''
6.72
6.98
7.26
7.56
7.87
23
26
28
30
31
32
8.19
8.52
8.85
9.18 33
9.50 32
33
33
19.80
20.08
20.33
20.55
20.73
20.86
20.94
20.98
20.97
20.92
20.83
20.71
20.56
20.40
20.24
20.08
19.94
19.82
19.74
19.69
19.68
19.71
19.79
30
28
25
22
18
13
8
4
I
5
9
12
15
16
16
16
14
12
8
5
I
3
8
Declina-
tion S.
-1958
//
26.8
26.8
26.7
26.5
26.3
26.0
25.6
25.1
24.4
23.6
22.7
21.8
20.8
9.8
8.8
7.9
7.1
6.4
5.8
5.3
5.0
4-9
4.9
50
5.2
5.4
5.7
6.0
6.3
6.6
6.9
71
7.2
7.3
7.3
7.3
7.3
7.2
o
I
2
2
3
4
5
7
8
9
9
10
10
la
9
8
7
6
5
3
I
o
I
2
2
3
3
3
3
3
2
I
I
o
o
o
I
1.064
I7».289
-0.363
i5".54
+0.01
+0.2
+0.01
-0.9
y Aqulle.
Mag. 2.8
Right
Ascension.
h
19
m
42
s
5.94
6.01
6.12
6.27
6.45
6.66
6.89
7.14
7.41
7.70
7
II
15
18
21
23
25
27
29
30
30
8.00
8.30
8.61 3'
8.91 3°
9.20
29
28
9.48
9-73
9.95
0.14
0.29
0.40
0.46
0.48
0.45
0.39
25
22
19
15
II
6
2
3
6
10
0.29
0.16
O.OI
9.85
9.68 '7
13
15
16
952
9-37
9.25
9.16
9.10
9.07
9.08
9.13
16
15
12
9
6
I
5
Declina-
tion N.
4-10 23
//
53.4
51.7
50.0
48.4
46.9
45.6
44.7
44.1
43.9
44.0
44.5
45.4
46.7
48.3
50.1
52.1
54.2
56.3
58.5
60.6
69.8
70.6
71. 1
71.3
71.2
70.9
70.4
69.6
68.5
67.2
65.8
64.2
62.5
17
17
16
15
13
9
6
2
I
5
9
13
16
18
20
21
21
22
21
20
18
62.6
64.4
66.1 '7
67.6 '5
68.8 "
12
10
8
5
2
I
3
5
8
II
13
14
16
17
1. 01 7 +0.183
7".4io 6i".9i
0.00 -O.OI
+0.2 -0.9
(Bph tjl
S Cygni.
Mag. 3.0
Right
Ascension.
h
19
m
42
s
3.24
3.26
3.33
346
3.64
3.87
4.14
4-44
4.77
512
5.49
5.87
6.24
6.60
6.94
7
13
18
23
27
30
33
35
37
38
37
36
34
31
27
23
18
7.25
7.52
7.75
7.93 ^_
8.06 '3
7
8.13
8.14
8.10
8.01
7.87
7.68
7.45
7 20
6.93
6.65
I
4
9
14
19
23
25
27
28
28
26
6.37
6. II
5.88 ^3
5.68 ^'^
5.52
20
16
12
5.40
5-33
5.32
7
I
Declina-
tion N.
+44 54
//
59.3
56.2
53.1
50.0
47.1
44.6
42.4
40.7
39.6
39.1
39.2
39.9
41.2
43.0
45-3
47-9
50.9
54.1
57.4
60.7
64.0
67.2
70.2
730
75.5
31
31
31
29
25
22
17
II
5
I
7
13
18
23
26
30
32
33
33
33
32
30
28
25
21
17
77.6
79.3 ,^
80.6 '3
81.4
81.8
81.7
81.0
79.8
78.2
76.1
73.6
70.9
67.9
7
12
16
21
25
27
30
I 412
i5'.393
40.997
64".44
6 Sagitte.
Mag. 3.8
Right
Ascension.
-0.02
+0.2
-0.03
-0.9
7
II
h m
19 43
28.96
29.03
29.28 *^
17
^9-45 ,;
20
29.65 ,,
29.88 ^l
30.14 "
30.42
30.71
26
28
29
30
31-01
31.32
31.63
31.93
32.22
32.50
32.75
32.97
33-16
33.31
33.41
33.46
33.47
33.44
33.37
33-26
33.12
32.96
32.79
32.61
32.44
32.28
32.14
32.03
31-96
3192
31.92
31.96
31
31
30
29
28
25
22
19
15
10
5
I
3
7
II
4
6
7
8
7
6
4
I
7
4
o
4
Dedina-
ttonN.
+ 18 18
//
21
21
21
16
12
9
5
o
5
9
13
16
19
22
24
60.9
58.8
56.7
54-6
52.7
51-1
49-9
49.0
48.5
48.5
49.0
49.9
51.2
52.8
54.7
56.9
59-3 ._
61.8 ^5
64.3 ''
24
24
23
21
18
16
13
10
7
4
0
3
6
9
13
15
17
19
21
66.7
69.1
71.4
73.5
75.3
76.9
78.2
79.2
79-9
80.3
80.3
80.0
79.4
78-5
77.2
75.7
74.0
72.1
70.0
1.053 +0.331
30«.5i5 68".53
-O.OI
+0.2
-0.01
-0.9
APPARENT PLACES OF STARS, 1913.
449
FOR THE UPPER TRANSIT AT WASHINGTON.
1
a Aqnilie.
7 AquUsB.
f Draconia.
I SaglttarU.
Mean Solar
Mag. 0.9
Var. 3-7-4.4
Mag. 4.0
Mag. 4.2
Dtte.
1
Riffht
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
tion N.
Ascension,
h m
tion N.
Ascension.
tion N.
Ascension.
tion S.
h m
0 /
0 /
h m ' ° '
h m
0 /
19 46
+ 837
19 .
*8
+ 0 46
19 48
+70 2
19 49
-42 5
Jan. i.o
s
30.86
^7-6 ./;
1.08
0
$9
44.6
s
23.98
440
s
13.99
64.8
II.O
30.93 ,!
66.0 '*
1. 16
8
12
43.4
23.85 '^
40.7 _
1 1
14.10 "
63.4 '*
} 2I.O
II
3104 "
644 It
1.28
12
42.3
23.84 '
37-3 ^1
'4-26 ^^
61.9 '5
: 310
31-19 11
62.9 5
1.43
15
_ 0
4'-* W
23.95 "
33.9 _
14.46 ^° 1 60.4 5
» Feb. 9.9
3^-37 ll
6^-5 t
I.61
18
40.2 '«
24.18 ^3
30.6 33
14.71 *5 58.8 -6
20
13
20
7
34
30
28 15
19.9
31-57 „
60.3
I.81
39-5 .
24.52
"7-^ .6
*5-o „
14.99 ,,
57-3 ,,
Mar. 1.9
31.80 11
59-4 '
2.04
23
39.0 5
24.96 1:
15.30^'
55-9 \\
11.9
32 05 '5
58.9 ^
2.29
25
38.8 I
25.48 5^
21.3
15.643^
16.00 36
54.5 \\
21.8
32.32 11
58.8 '
2.56
27
38.8 °
26.07 ^:
53.2 '3
31.8
32.61 '9
59.0 ^
2.85
29
39.1 ^
26.71 ^
20.4 ^
16.39 39
52.0 '^
30
6
30
7
67
3
40
II
Apr. 10.8
32.91 „
59-6
3-15
39-8 ,„
27.38 ,
20.1
16.79 ^_
50.9 ^
20.7
33-21 30
60-5'
3.45
30
40.8 '°
2^-°5 ^
20.5 ^
17.19^
49-9 Q
30.7
33-52 3'
61.7 "
3.76
31
4*° !!
^«-7' ^
^^•5 :"
17.60^'
49.1 ^
May 10.7
33-82 11
63-2 ^
4.06
30
43-4 '\
29.34 ^g
^3-^ ?
18.01 ^'
48.5 \
20.7
34" It
65.0 '8
20
4.36
30
28
45-0 '*
17
29.92 ^
51
18.41 ^°
37
48.2 ^
I
30.6
34-39 ,.
34.65 ll
67-0,,
4.64
26
46.7 „
30.43 ^,
=^7-8 ,„
18.78
48.1
June 9.6
69.1 11
4.90
48.4 'I
30.86 ^3
30.8 3°
19.13 ^^
48.2 ;
19.6
34-88 'I
71-2 "
5.13
23
50.2 '?
31.20 ^^
34.1 "
19.45 ^^
48.5 ^
29.6
Ny 9-5
35-07 '
35-23 '*
II
73-3 "
75-3 '°
19
5-33
5-49
20
16
12
5'-9 ^
53.5 :
31.44 :j
31.57 '^
37.6 ^5
4- ^6
19.72 7
22
19.94 ,^
49.1 \
49.9 ^
Q
19.5
35-34 ,
77-* .«
5.61
A
55.0 .^
3159 .„
44.8,,
20.11 50.8
' 29.5
35-41 7
79-0 !
5.69
8
56.4 't
10
31.49
48.3 ^^
20.22 "
51.9 •
Aug. 8.4
35-44 I
80.6 '*
5.73
4
57-6 0
20
31.29 _
517 ^t
20.27 ^
53.1 ;
18.4
35-42 I
35-36 °
82.0 "^
5.72
I
58.6 '«
30.99 ^^
54-9 ^!
20.26 ^
20.20
II
54-4 W
28.4
83.2 '^
10
5.67
5
9
59.5 I
3-59 z
57« ^6
55.6 w
Sept 7.4
35-27 „
84.2
5-58
60.1
30.11
^•4,,
20.09
56.8 ,,
17-3
35-15
84-9 ^ S-46
12
60.5 ^
29.56 55
^^•95 ^
62.6 "
19.94 If
57.9 ■'
27.3
35-00 '^
34.84 *
34-68 ^
85.4 I
5.32
14
60.7 ^
64-3 :^
19.75 ',
58.8 9
59.4 '
Oct. 7.3
85-6 ^
5-17
15
16
60.8 '
^^•3o J^
27.64 f
65.6 '3
19.54 w
17.3
855
5.01
60.7 \
66.3 7
22
19.32
59.8 \
10
3
15
3
67
2
21
I
27.2
34-52
85.2
4.86
60.4
26-97 ,,
66.5
'9." _
59.9 ,
' Nov. 6.2
34.37 1^
84-7 ^
4.72
14
59.9 ^
^^•31 'J
66.1 *
18.92 ^
18.76 ^
59-7 ^
16.2
34.25 'I
84.0 7
4.60
12
59-3 „
25.69 J^
65.1 ;°
59.3 ,
26.1
34-16 9
34-10
83.0 °
4.51
9
58.5 ^
25.13 _
636 5
18.64 "
58.6 7
Dec 6.1
81.8 "
4.46
5
57.6 ^
24.64 ^9
61.6 ^°
18.56 I
57.7 ^
3
13
2
10
41
25
3
II
16.1
3407 ,
80.5
4.44
56.6
24.23 59.1 „l
18.53 ,
56.6
26.1
34.08 '
77.4
4.46
2
55.5
23.92 \
56.2 !
18.55 \
18.63
55-3 J
36.0
34.13 ^
4.51
5
54-4 ' '
23.72 1 530 '^^
539 '4
Stc6,ran6
i.oii +0.152
I.OOO
•1-0.014
2.930 +2.754
1.347 -0.903
Mean Place
32'.3i5 76". 10
2*492
53".93
28'.50i 46".74
15*639 5 1 ".7 1
D^o^D-a
0.00 0.00
0.00
0.00
-0.07 -0.08
+0.02 +0.03
t>^9,J>md 40.2 -0.9 1
+0.2
t
-0.9
+0.2 -0.9
+0.2 -ojt^
I9I3
29
1
Eph 13]
450
APPARENT PLACES OF STAK8, 1913,
FOR THE UPPER TRANSIT AT WASHINGTON.
€ Pavonis.
>9 AquiUs.
7^ Sagitte.
0 BagittaiU.
Mean Solar
Mag. 4.1
Mag. 3.9
Mag. 3.7
Mag. 4.6
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right Dediu-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion N.
Ascensioa.
ttonS.
h m
• /
h m
0 /
h m
0 /
h m
0 #
19 50
-73 8
##
19 51
+ 6 II
19 54
+19 14
19 57
-2757
am
Jan. I.O
28.93 . .
A2-7
8
0.96
10.9 ,^
51.72
7^-7 ,.
8
17.21
WW
21.3 4
20.7
II.O
29.07 J*
39.7 I,
103 ,;
9-5 J
51.77 X
69-6 "
17.30 9
2I.O
29.34 z
366 ^'
'•^4 '
8.0*5
51.86 9
67.5 "
17.43 ^
20.0 '
31.0
29.74 1^
33.6 3°
1.28 '4
6.6 '4
51.99 J
654 '
17.60 '7
19.3 I
Feb. 9.9
30.26 5^
30.7 ,;
1.45 '''
20
5.3'^
"^ ^ 10
10
52.15
»9
«3-5 :^
17.80 ^°
23
18.5 J
19.9
30.89
28.0
-^5 „
4-3 8
3.5 .
52.34 „
^^•9 _
18.03 .
17.7 ^
Mar. 1.9
31.61 7^
25-5 '^
-87 "
52.56 "
60.6 '3
18.29 ^^
16.8 »
11.9
32.40 11
23-3 "
2.12 »5
3.0 5
52.81 ll
59.6
18.58 ^9
^5.9 '
21.8
33.25 _
21.4 '9
^•39 ll
2.9 '
5308 ll
59.1 ,
18.89 ^'
14.9 '•
31.8
34-^5 ^
^9-9 \\
^•^7 !'
3.2 I
53-37 ,'
I
59-0 '
19.21 32
13.8
93
12
30
30
4
34
II
Apr. 10.8
35.08
18.7
^•97 ,„
3-8 0
53-67 „
59-4 „
19.55 ^^
"•7 ,„
20.7
36.03 95
18.0 7
3.27 ^°
4-7 '
53.98 ll
60.3,^
19.90 ^5
"•7 0
307
36.97 94
^77 ^
358 ^'
59"
5430 3^
61.6 '3
63-2 If
20.25 ^^
^°-7 Z
May 10.7
37.90 11
17.8 '
3.88 30
7-4 '
54.61 3'
20.60 35
9-7'"
20.7
38.79 ll
18.3 5
4.18 3«
^ 28
9.1 '7
»9
54-91 3^
65.1 '9
22
20.94 ^
33
8.8 9
7
30.6
June 9.6
39.62
40.38 ll
19.2
20.5 '^
113 »6
4-72 „
II.O
12.9 '9
55-^9 ,^
55.45 't
**7-3 ,^
697 '4
21.27
21.58 3'
7-5 :
19.6
41.05 %
22.2 7
4-95 '^
» - ^ 20
55-68 »3
72.2 I
21.86 28
7' t
29.6
41.61 56
24.2 ^!
5'5 !°
16.9 "^
55.87 9
56.03 "^
II
74.8 't
22.10 24
6-9!
July 9.5
42.05 5*
26.5 '3
24
5-3' :^
18.8 '9
18
77-3 '^
25
22.30 ^^
10
6.9;
195
42.36
28.9 ,
5.43 ,
20.6 ,
22.2
56.14 ,
79-8 „
22.46
7-0 ,
29.5
42.53 ,
3-4
34-° ,.
5.50 7
56.21 7
82.1 »3
22.57 "
7.3 »
Aug. 8.4
42.56 ,^
5.53 ,
23.7 5
56.23 I
«4-2 "
22.62 5
7-7 t
18.4
42.45 '
36.5 l\
5.52
250 3
56.21 ^
86.1 '9
22.63 '
8.2 1
8.8*
28.4
42.20 5
37
38.8 '3
21
5.47 \
26.1 "
8
56.14 7
10
87.8 '7
»4
22.59 J
Sept. 7.4
41.83 ..
4°-9 ,0
42.7
14
44-1 „
5-^! 12
26.9
56.04
89.2
T T
22.51 ,^
9-4 g
17.3
273
41.36 47
40.81 55
40.20
39.56 11
5.26 '^
5.12 ;4
27.5 .
27.9 *
55.91 '^
55.75 ^
90.3 0
91. I ,
22.39 "
22.24 '^
10.0 ,
10.6 *
Oct. 7.3
450 '
28.1 '
55.58 7
55-40 \l
91.6 5
22.07 '7
I... 5
17.3
45.4 *
28.0 '
3
917 I
21.90 *7
17
n.55
27.2
38.93 ^
38.33 1°
45-2
4.65 ,,
27.7 ,
55-22
55.06 ^
91.5 ^
21.73 ,^
21.57
II.8
Nov. 6.2
44.5 .!
4-50 \\
27.2 i
91.0 ^
"•9 '
16.2
37.79 ll
37-33 t^
12
43.3 ,
4.38 '^
26.5 7
54.92 4
oo.i 9
^'•44 '^
11.9 ^
11.8 *
26.1
41.6 \\
4.29 ^
4.23 ,
25.6 9
54.81 "
88.9 "
21.34 'I
21.28 ^
Dec. 6. 1
36.98 35
39-5 \\
24.5 "
54.72 9
87.5 1
11.5 \
22
25
3
13
5
17
2
1 6. 1
36.76 ^
37-^ 28
34-2 ,^
4.20
23.2
5467 ,
^5-^ ,«
21.26
II. I
26.1
36.68 *
4.21
21.8 '4
54.66 ;
83.9 '.^
21.28 I
10.6 ^
lO.O
36.0
36.73 ^
31.2 ^°
4.26 5
20.4 '4
54.69 3 81.8 ="'
21.34
Sec<5,Tan<5
3.448 -3.300
1.006 +0.108
1.059 40.349
1. 132 -0.53*
Mean Place
32\758 28".45
2".388 I9".63
53».262 78".79 | i8*.635 9".oi
D'^ a, Dm a
+0.08 40.I0
0.00 0.00 1 -0.0 1 -0.01 1 -KXOX +0.02
D^S,J>^d
+0.2
-0.9
+0.2
-0.9
1 40.2
-0.9
1 40.2
-0.9
\Ep\l 13^
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
451
Ncaa Solar
Date.
31.0
Feb. 1 0.0
30.7
June 9.6
19.6
29.6
JuJy 9-5
19.5
295
Aug. 8.5
18.4
28.4
Sept. 7.4
17.3
27.3
Oct. 7.3
17.3
27.2
Nov. 6.2
16.2
26.2
Dec. 6.1
Sec*, Tan tf
Mean Place
T Aqnihe.
Mag. 5.6
Right
Ascension.
5i"99 ^
52.15
52.28 '^
52.45 ''
52.64
52.86
53.10
53.36
53.64
53.94
54.24
54.55
54.85
55.15
55.43
5569
55-93
56.14
56.31
56.44
56.52
56.56
56.55
56.50
56.42
56.31
56.17
56.02
55.86
55.70
55.55
55.43
55.33
55.26
55.23
55.23
55.27
19
Declina-
tion N.
+ 7
//
46.8
45-3 '5
43.8 '5
42.4 '*
41.2 '^
1.008 +0.123
53«.4I2 55"- 16
0 AquiUs.
Mag. 3.4
Right
Ascension.
s
4763 .
47.69 ,^
47.79
47.92 I
48.08 '^
IQ
48.27 ^^
48.49 11
48.73 II
48.99 ll
49.27 ^^
49.56
49.87 f,
50.18 ^'
50.49 11
5^-79 ^^
29
51.08
51.35 ''
51.60^5
51.99 ..
15
5150
51.36
51.24
51.14
51.07
51.04
51.05
51.09
Declina-
tion S.
— I
ff
57.9
58.9
59-9
60.8
61.6
i.ooo -0.019
48".987 48".67
o Cygni seq.
Mag. 4.0
Right Declina-
Ascension. 1 tion N.
55.20
55.51
55.77
55.99
56.16
+46 28
K Cephei.
Mag. 4.4
Right
Ascension.
20
43.33
43.88
44.58
45.41
46.33
47.32
48.33
49.34
50.31
51.21
52.01
52.69
53.24
53.64
53.87
Declina-
tion N.
-^77 26
4.602 +4.492
5o'.392 59' .47
452
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. I.I
II.O
2I.O
31.0
Feb. 1 0.0
19.9
Mar. 1.9
1 1.9
21.8
31.8
Apr. 10.8
20.8
30.7
May 10.7
20.7
307
June 9.6
19.6
29.6
July 9-5
19.5
29.5
Aug. 8.5
18.4
28.4
Sept. 7.4
174
27.3
Oct. 7.3
17-3
27.2
Nov. 6.2
16.2
2(3.2
Dec. 6. 1
16.1
26.1
36.1
24 Vulpeculse.
Mag. 5.4
Right
Ascension.
Sec <5, Tan d
Mean Place
D'^ a, D« a
h
20
8
2.14
2.17
2.24
2.35
2.49
2.66
2.87
3.11
3.38
3.66
396
4.27
4-59
4.91
5-22
5.52
5.80
6.04
6.25
6.42
6.55
6.63
6.67
6.66
6.60
6.50
6.37
6.21
6.04
5.86
5.68
5.50
5.34
5-21
5.10
503
5.00
500
m
13
3
7
II
14
17
21
24
27
28
30
31
32
32
31
30
28
24
21
17
13
8
4
I
6
10
13
16
17
18
18
18
16
13
II
7
3
o
Declina-
tion N.
+ 24 23
^3.5 ,,
61.2 '3
58.9 '^
56.7
54.6
22
21
19
52.7
49-9
49.2
48.9
49.1
49.8
510
52.6
54.6
56.9
59-4
62.0
64.7
675
70.3
72.9
75-3
77.5
79.5
16
12
7
3
2
7
12
16
20
23
25
26
27
28
28
26
24
22
20
17
81.2
82.6 '^
83.7 ' '
84.4
84.7
or' Capricoml.
Mag. 3.8
Right
Ascension.
84.7
84.3
83.5
82.4
80.9
79.1
75.0
4
8
II
15
18
20
21
1.098 +0.454
3'-739 69".05
-0.0 1
+0.2
-0.02
-0.8
h
20
m
13
s
2.40
2.47
2.57
2.70
2.87
Declina-
tion S.
-12 48
//
7
10
13
17
20
22
24
3.07
329
3-53
3.80^7
^•^30
4-39
4.70 3-
"^2
5.34 ''
5.66 3^
31
5-97 ,^
6.26 '9
A «.^ 26
6.52
6.75
6.95
23
20
16
7.11
7.22
7.28
7.30
7.27
7.21
7.11
6.98
6.84
6.69
6.54
6.40
6.28
6.18
6. 1 1
6.08
6.08
6.12
II
6
2
3
6
o
3
4
5
5
4
2
o
7
3
o
4
65.4
65.7
66.0
66.2
66.2
66.1
65.9
65-5
64.9
64.1
63.1
62,0
60.8
59-5
58.2
56.8
55.4
*54.2
53.1
52.1
51.3
50.7
50.2
49-9
49-7
49.6
49-7
49.9
50.1
50.4
50.7
51. 1
51.5
51-8
52.2
52.5
52.9
53.2
3
3
2
o
I
2
4
6
8
10
II
12
13
13
14
14
12
II
10
8
6
5
3
2
I
1
2
2
3
3
4
4
3
4
3
4
3
fi Capricoml.
Mag. 3.2
Right
Ascenston-
1.025 -0.227
i3'-724 54"-64
+0.01 +0.01
+0.2 -0.8
lEph i3l
h
20
m
16
6
10
s
6.19
6.25
^•^5 i^
6.49 '^
6.66 '7
19
6.85
« <^X 22
7.07
7.32 ^^
7.59 '^
7.88 ^9
30
8.18
8.49
8.81
9.14
9.46
31
32
33
32
31
9.77
0.07
0.34
0.58
0.78
0.94
1.05
1. 12
1. 14
1. 12
1.06
0.96
0.84
0.70
0.54
0.38
0.24
0.12
0.02
9.95
9.92
9.92
9.96
30
27
24
20
16
II
7
2
2
6
10
12
14
16
16
14
12
10
7
3
o
4
Declina-
tion S.
-15 3
#/
35.5
35.7
35.8
35.8
35.7
35.5
35.1
34.6
33.9
33-0
32.0
30.9
29.7
28.4
27.1
25.8
24.5
23-3
22.3
21.5
20.8
20.3
19.9
19.7
19.6
19.7
19.9
20.2
20.5
20.8
21. 1
21.4
21.7
22.0
22.3
22.6
22.8
23.0
2
I
o
I
2
4
5
7
9
10
I
2
3
3
3
3
2
o
8
7
5
4
2
I
I
2
3
3
3
3
3
3
3
3
3
2
2
a Pavonis.
Mag. 2.1
1.036
7".5o6
-0.269
24".43
Right
Ascension.
h
20
m
18
44-35
44.42
44-55
44-75
45.01
45.33
45.69
46.10
46.55
47.03
7
13
20
26
32
36
41
45
48
51
+0.01
+0.2
+0.01
-0.8
47.54 __
48.06 5^
48.59 53
49.12
49.64
53
52
5»
48
50.15
50.63
51-06^^
51.44 ^
51.7632
25
52.01
52.18 '7
52.28 ^°
52.30
52.24
2
6
r4
52.10
51.91
51.67
51.39
51.09
50.78
50.48
50.21
49.98
49.80
49.69
49.64
49.66
19
24
28
30
31
30
27
23
18
II
5
2
Declina-
tion S.
-57 o
ft
68.6
66.3
639
61.4
59.0
56.6
54.3
52.1
50.1
48.3
46.8
45.5
44-5
43.9
43.6
43.7
44.1
44-9
46.0
47.3
48.9
50.7
52.6
54-6
56.6
58.5
60.2
61.6
62.7
634
63.7
63.6
63.1
62.2
60.9
59.2
57-2
55.0
23
24
25
24
24
23
22
20
18
15
13
10
6
3
I
4
8
II
13
16
18
19
20
20
19
17
14
II
7
3
I
5
9
13
17
20
22
1-837 -i.54>
46».28i 53". 18
+0.03
+0.2
+0.06
-0.8
APPARENT PLACES OF STARS, 1913
453
FOR THE UPPER TRANSIT AT WASHINGTON.
XOygni.
n Caprioorni.
p Caprioorni.
41 Oygnl.
If e«n Solar
Mag. 2.3
Mag. 5.2
Mag.
5.0
Mag. 4.1
Date.
Right
DecKna-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tionN.
Ascension,
h m
tion S.
Ascension,
h m
tion S.
Ascension.
tion N.
h
m
e /
0
/
0
r
h m • '
20
19
+3958
20 22
-18 29
20 23
-18
§ »
6
20 25
+30 4
Jan. I.I
4*38
s
19.27
'9-33 ,^
$ i
62.5
s
52.70
52.76 «
WW
18.6
s
48.81
35-8 ,^
II.O
4.37
I
33-9 ;
62.5
0
18.6
0
48.81 ^
33-4 \\
2I.O
4.41
4
3'°'!
»9.43 °
62.4
I
52.85 9
18.5
I
48.86 3
30.9 f
31 o
4.50
9
28.1 '9
1956 \\
62.2
2
52-98 \\
18.3
2
48.95 ,^
^»-4 i
Feb. 1 0.0
463
13
25-4 ^'
19.72 '^
61.9
3
53.14 •*
18.0
3
49.08 ^\
26.0 "^
17
25
>9
5
>9
4
16
21
19.9
4.80
22.9
'9-91 ,^
61.4
^
53-33
17.6
^
49.24 _
^3-9 «
Mar. 1.9
5.02
22
20.7
22
60.8
6
22
53-55 "
17.0
6
20
49-44 „
«^ , >8
22.1
11.9
21.9
5.28
5.57
26
29
19.0 '7
17.8 "
20.38 ^5
20.65 ^7
60.1
59.3 ,
7
8
53-79 ,;
54-06 *7
16.3
15.5
7
8
49-67 ^
49-93 „
20.7 '4
19.7 '°
31.8
5.88
31
17.1 '
20
20.94 _
58.3 \
lO
54.35 ,
14.5
10
50.22 ^
19.2 5
34
I
30
[I
30
XI
31
0
Apr. 10.8
6.22
17.0
2124
57.2
54.65 ^^
13.4
50-53 „
19.2
19-8 .^
20.8
6.57
35
17.4 ^
21.56^2
56.0
[2
54.97 \
12.2
12
50.85 ^^
30.7
6.93
36
18.4 '\
21.89
54.7 \
^3
55.30 ,
10.9
13
51.18 33
20.9
May 10.7
7.29
36
20.0 '^
22.23 ^^
53.4 ,
13
55.63 ^^
9.6
13
51-51 ^^
22.4 '5
20.7
763
34
32.0
22.56 33
52.1 \
^3
55.96 ^3
8.3
13
51.84 33
=^4-4 n
32
»4
31
[2
32
13
3»
23
30.7
7.95
244 „
22.87 ,^
50.9 ,
56.28
7.0
5215 ,„
29-3 „
June 9.6
8.25
30
^7-' L
23.17 ^3
23.45 ^^
49.8
[ I
56.58 ^^
5.8
12
5^-44 Z
19.6
8.52
27
30.1 J°
48.8 '
[O
56.86 ^^
4.8
10
52-70 ^^
32-0 ^7
or*
29.6
8.74
22
• 0
33-3 ^'
23.70 ^
47.9
9
57.11 'f
3.9
9
52.92 ,3
53-10 1°
34-9 ''
July 9.6
8.92
10
365 ^^
23.91 '!
47.2
7
57.32 '
3.2
7
37-9 3"
12
32
17
5
17
6
14 30
19.5
9.04
«■
39-7 „
24.08
46.7
J
57.49 ,^
2.6
^
53-24 0 40.9 „
29.5
9.II
7
42-9 ^
11
24.21 '^
24.29
46.3
4
57.62 '^
2.2
4
53-33 r43-8|9
Aug. 8.5
9.13
2
46.0 3«
46.1
2
57.70 ^
2.0
2
53-37 ; 46.5 J
18.4
9.09
4
8
24.32 ^
46.1
0
57.73 I
2.0
0
53-37 ,
49-0 :^
28.4
9.01
24.30 ,
46.3
2
57.71 ^
2.2
2
53-32 5
51-3 \i
13
23
6
2
6
2
10
20
Sept. 7.4
8.88
53-8 ,„
24-24 ,„
46.5
57.65 ^
2.4
53-22
53-3 „
17.4
8.71
17
55-8 ^
24- H ^
46.8
3
57.56 ^
2.7
3
53-08 '^
55-0 7
27.3
8.51
20
57-3 ^
12
24.02
47.2
4
57.44 \\
3.1
4
16
52.92 „
56-3 '^
Oct. 7.3
8.29
22
58.4 "
23.88 ">
47.6
4
57.30 "*
3.5
4
5274 *
57-2 9
17.3
8.05
24
24
591 \
0
23-73 \\
48.0
4
4
57-'5 -
3.9
4
4
5-55 :^
57.8 \
27.3
7.81
59.4 .
23-57 ,^
48.4
56-99 „
4.3
32-35 ,^
58.0
Nov. 6.2
7.58
23
59.1 \
58.3 '
23.42 5
48.7
3
56-84 \\
4.6
3
52.16 ^
51.98 ^
57-7 ,
16.2
736
22
23.29 ■^
49.0
3
56.71 3
4.9
3
57-0 ,;
26.2
7.17
'9
16
12
55-5 ,0
23-19 '°
49.2
2
56.61 '»
5.1
2
51.83 3
55.9 ,^
Dec. 6.1
7.01
23.12 '
4
49.4
2
I
56.54 ;
4
5.3
2
I
51.70 3
54-4 :t
16.1
6.89
8
53-5 ,^
23.08
49.5
56.50
5.4
51.61 ^
51.55 _
52.6
26.1
6.81
5^-^ t
23.08 °
49.5
0
56.50
5.4
0
50.5
36.1
6.77
4
48.4 ^7
23.11 ^
49.5
0
4
56.53 ^
1.052
5.4 "
-0.327
51.53
48.2 '3
Seed, Tan <5
1.305 +0.838
1.054 -0.33
1. 156 +0.579
Mean Place
6'.337 39"-7i
20^.569 5o".97
53'.992
7".o:
1
50".492 39".82
D'^ a. Dm a
-0.02 -0.03
+0.01 +0.01
+0.01
40.0]
I
-0.0 1 -0.02
D^S, DmS
+0.2
-0.8 1
+0.2
-0.8
+0.2
-0.8
+0.2
-0.8
[Sph 23]
154
APPARENT PLACES OF STARS, 1913,
FOR THE UPPER TRANSIT AT WASHINGTON.
6 Cephei.
f Delphini.
Oroombridge 8241.
orindi.
Mean Solar
Mag. 4.3
Mag. 4.0
Mag. 6.4
Mag. 3.2
Date.
Right Declina-
Right
Declina-
Right
Declina-
I
Right ' Dedmt-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion N.
Aaoenskm. tionS.
h m
0 /
h m
0 f
h m
0 0
h m
0 f
20 28
+ 62 41
20 29
+ 11 0
P0
20 30
+72 13
mm
20 31
-47 35
0f
Jan. I.I
s
4.13 _ .
65-4 ,,
s
2.02
18.0
8
18.45 ^«
WW
74.6
25.50
59-9 .,
II. O
3.99 ^
62.3 3'
2.05 ^
16.4
18.17 ^^
71.6 3«
2555 ^
58.1 «;
2I.O
3.94 I 1 59.1 ^^
2.12 '
14.8 ^^
18.02 '5
68.3 33
25.66 "
.56.2 '9
31.0
3-97 I
55-8 it
2.22 ^° 1 13.3 '^
18.00 ^
64.9 34
25-81 \i
54.2 z
Feb. 1 0.0
4.09
52.5 ^^
2.35 ''
11.9^4
18.II "
61.6 33
26.01 ^^
20
52.2
20
31
16
12
25
3S
25
21
19.9
4-^9 ,a
*9-4 ,„
2.51 ,„ • 10.7
18.36
584 ,„
26.26
50- ' ,„
Mar. 1.9
4.57 f
46.6 »
2.70 '9
9-7 '^
18.73 3J
55.5 ''
26.55 '^
48-'^
11.9
4.92 ^5
44.3'^
2.92
9.1 '
19.21 48
53.0 '5
26.87 ^'
46.1 »
21.9
5-33 1:
42.5 ;
3-'7 ^
8.8 3
19.79 ^J
51.0 *°
27.23 ^_
44-^
31.8
5.80 47
41.2 '3
3.44 'J
8.9 '
20.44
49.6 '4
27.61 38
42.4 '
50
7
28
5
70
8
41
17
Apr. 10.8
6-30 ^^
40.5 „
372 ,„
9-4 0
21.14^,
48.8
28.02
40.7,^
20.8
6.82 52
40.5 °
4.02 30
10.2 ^
21.88 74
48.6 =•
28.45 «
393 \\
30.7
7.35 11
41-2 ,;
4-33 ^:
22.63 ^^
49- 1 .^
28.89 "^^
38'
May 10.7
7.87 5^
44-3 !
4.64 \]
23.36 73
50.2 "
29.33 ^
37.1 '
36.4 \
20.7
^•37 ^l
4-95 ^'
24.06 70
51-9 '^
29.77 Vl
46
23
30
20
65
33
43
4
307
8.83 ^^
46.6
5-25 ,„
16.8
2471 ,,
54-^ „
30.20
36.0
June 9.6
925 :, 49-3 ,,
5.53 '
>8.9 ^^
25.28 57
568 ^
30.61 j^
30.99 ^°
36.0
19.6
9.61 36; 52.43'
5-78 ^
22
21. 1
2575 ^^
59-8 ^!
36.2
29.6
9.90^9
55-8 it
6.01 ^3
23.4 ^^
26.12 ^7
63.1 33
31.33 :^
36.7
37-5 „
July 9.6
10.11 ''
59-4 'I
6.20 '9
25.6 "
26.38 ^^
66.6 35
31.62 11
13
36
IS
22
14
36
23
II
19.5
10.24 63.0
6.35 ,,
^7-8 ,„
26.52
70.2
31.85 ^^
38.6
295
10.29 66.6 3
6.46 "
^9-8 Z
26.54
73-9 ,:
32.02 *7
39-9
Aug. 8.5
10.25 1 1 70-2 l^
6.52 ^
3^.7 ^
26.43 ;!
77-6 37
32.12 '^
414
18.4
10.13 "173-6 ^^
6.54 :
33-4 I
26.21 "
81. I 35
32.16 \ 42.9:'
28.4
9.94" 76.8 3^
27 29
6.52 I
34.8 ;4
25.88 3^
44
844 ^3
30
32.14 3
44-5,6
Sept. 7.4
967 79-7 .,
6.46
360
25-44 ^_
87-4 „
32.06
46.1
48.9
50.0
50.8
17.4
27.3
9-34 ^.t
8.96 38
82.3 ^°
84-5 ;;
6.36 '°
36.9 I
37-6 7
24.91 ^
'^i' 66
23.65 !;
90.1 ^7
924 \l
31.93 'S
31.75 '^
Oct. 7.3
8-54 1'
86.2 '7
6.09 1
38.0 4
94-3 "
31.54"
W'3
8.10*1
87.4 '!
5-94 i
38.2 ^
22.94 :' 957 I
31.31 11
46
7
16
I
73 9
24
5
27-3
764 ,,
88.1
578 ,,
38.1
22.21 96.6
31.07,^
51-3 ,
Nov. 6.2
7-'8 t
88.2 ■
5-^3 1
37.8 3
37-2 „
2 1 .47 74 96.9 3
30-84 \i
514 ,
16.2
6.74 ^t
877 .^
5-49 ^
20.75 ^3 96.6 3
20.07 ° 957 ^
30.64 ^^
30.46 ;
51.2
507 '
26.2
6.33 t
86.7 '°
538 "
36.3 ,^
Dec. 6.1
5.96 f
85.2 '5
529 ;
35.2
19.44 /
94-3 \l
30.32 ^i
49.8 .
32 . 20 1
6
12
55
19
9
13
16. 1
5-64 „
83.2
523
34° ,.
'^•^9 ^6
92.4 _
30.23
48.6
471 ,,
26.1
5-39 .«
80.7 ^5
5.20 -^
31.0
18.43 1^ 90.0:2
30.19 2
36.1
18
5.21
77.8 ''
5.21 '
18.08 ^5 1 87.1 29
30.2 1
45-4 "
Sec (5, Tan (5
2.180 +1.938
1.019
+0.194
+3.278 +3.122
1.483 -1.095
Mean Place
7\469 65".02
3\4ii 24".93
23".478 73". 15
27».04i 44".70
D'^ u, Dm a
-0.04 -0.08
0.00 -0.0 1
-0.07 -0.13
40.02 -10.04
D^ 6, Du, S
+0.2
-0.8
+0.2
-0.8
+0.2
-0.8
40.2
-aS
lEph ul
APPARENT PLACES OF STARS, 1913
455
FOR THE UPPER TRANSIT AT WASHINGTON.
/S Delphini.
t> (
[^prioomi.
a Delphinl.
y^ Pavonis.
Hcul Solar
Mag. 3.7
1
^ag. 5.3
Mag. 3.9
Mag. 3.6
Date.
.
Right . DecHna-
Right
Declina-
Right
Declina-
Right
Declina-
Aaccnsioii.
UonK.
Ascent
ion.
m
tion S
Aacensioa.
tion N.
Ascension.
tions.
h m
0 f
h
0
/
h m
0 /
h m
0 /
20 33
+14 17
0 0
20 .
35
-1826
20 35
4-15 36
§ 0
20 37
-66 30
0 0
Jan. I . I
26*78
W '
24.6
4.68
m
W W
55.3
m
s
34-41
w W
9-5 ,a
5*58
WW
77-5 „
II. I
26.80 I
26.86 ^
22.9 ^
4.73
5
0
55.2
I
34-43 ,
5-59 ,„
74-8 '!
2I.O
21.1 '*
4.81
0
55.0
2
34-49 „
7-7 «
5-69 °
7' -9 '9
31.0
26.95 '
»9-4 !I
4-93
12
54.8
2
34-58 9
5-9 !
5-89 °
690 ^9
Feb. 10.6
27.08 '3
t6
17.8 •*
14
5.08
15
18
54.5
3
5
3470 "
15
10
4.3
14
'-^'l
66,0 30
29
19.9
2724
16.4 „
5.26
54.0
^
34-85
2-9 _
^•53 „
^3-* ,a
Mar. 1.9
27-43 ,;
15.3 "
5.47
21
53.4
6
0
3504 ':
^•7"
6.96^3
60-3 ?
11.9
2764 '
14-5 \
570
23
52.6
0
35-26 "
0.8 ^
746 ^°
57-6 'I
21.9
27.88 ^*
^4' 0
5.96
26
51.7
9
3550 '*
0.3 5
8.02 f
55-2 \\
31.8
28.15 "'
29
14. 1
4
6.24
28
30
50.6
II
12
27
35-77 ,^
0.2 '
4
«-^3 ^;
53- Is
Apr. 10.8
2844 ,„
14-5 „
6.54
49.4
36-05 ,„
0.6
9'8 6,
10.64 ^
51-3 ,,
20.8
28.74 1° ; »5.3 ,!
6.86
32
48.1
13
36.35 f
^•4 '
49-8 5
30.8
29.0s w 1 16.5 ['
7.19
33
46.8
13
36.66 3'
2.6^"
48.7 "
47-9 :
May 10.7
2936 3
18.0 '5
7.52
33
45.4
14
36.98 3^
4' ^\
5-9 ^.
"•34 j;
12.03 ^^
20.7
^967 11
7.85
33
44.0
14
37-29 ,'
47-6 \
30
21
32
13
30
21
67
I
30.7
'9-97 ,„
21.9
8.17
42.7
37-59 ,a
8.0
12.70
13.33 ^
13.91 5°
47.7 ,
June 9.6
19.6
30.26 '9
30.52 It
24.1 "
26.5 '^
8.48
8.77
31
29
41.5
40.4
12
II
37-87 'J
38.13 "^
10.3 '^
48.2 5
49.2
29.6
30.75 2 ! 28.9 !*
9.03
26
39.5
9
0
38.36 ^^
^5-^ 1
^442 \^
July 9.6
30.94 '
3'-3 ::
9.25
22
38.7
8
38.56 '°
17.5 !*
14.86 ^
15
23
18
6
16
24
35
«9
19.5
3109 „
33-6 ,,
9.43
38.1
38.72 , .
19.9
15.21 ^^
54-0
29.5
31.20"
35-8 "
9.56
13
37.7
4
38.83 "
22.2 ^
'5-46 'f
56.2 "^
Aug. 8.5
31.27 I 37-8"°
3129 ,139-6
3'-^7 ^!4i-2,^
9.65
9
37-5
2
38.89 \
^4-3 \\
.15.60 '^
58-5 '
18.5
9.69
4
37.5
0
38.91 \
26.2 '9
15.64 ^
60.9^*
28.4
9.69
0
5
37-6
I
3
38.89 ^
27.9 ''
14
^5-57 ,^
63-3 '*
22
Sept. 7.4
31-21 ,„ 142-6
9.64
8
37.9
38.83 .„
29-3 ,,
15.41 ,,
^5-5 ,„
17.4
31.11 °
43-7 "
44-5 !
45-1 \
9.56
38.3
4
38.73 °
30.5 "
15.16 5
f.^ r 20
^9-3 ;
27.3
30.98 \l
9.45
1 1
38.7
4
38.61 "
31.4 \
14.83 ^^
Oct. 7.3
30.83 5
9.31
14
39.1
4
38.46 5
0
32.0
14.44 f ;
70.7 ^
17.3
30.68 ;5
45-4 ;
9.16
15
16
39.6
5
4
38.30 J 1 32.3 ^
10 1 0
14.01 ^-^
44
71-7 ,
5
27.3
30.52 ,^
45-3 ,
9.00
40.0
38.14 .,
32.3 _
13.57 ^^
72.2
Nov. 6.2
30.36 ;
45-0 \
44-4
8.85
»5
40.4
4
37.98 ^
32.0 I
13.132^
72.2
71.6 ^
16.2
30.22 *♦
8.72
'3
40.7
3
3784 "*
31.4 J
12.71 ^^
26.2
30.10 *^
43-5 „
8.61
II
40.9
2
12
3772
30.5 ^
12.34^^
70.6 ;°
Dec. 6.2
30.01 9
I 1
8.53
8
41. 1
2
37.62 ^^
29.4 ,,
12.04 ^,
69' '
7
13
5
I
7
14
23
19
1 6. 1
29.94
4^-' ,c
8.48
41.2
37.55 ^
2^-^ ,/>
11.81
^7-^ ..
26.1
29.91 ^
39.6
8.47
I
41.2
0
37.52 \
26.4 !
11.67'^
62.3 "^
36.1
29.91 °
37.9 '^
8.50
3
41.2
0
3752
24.7 '^
11.62 ^
Sec 6, Tan 6
1.032 +0.255
1 054 -0.333
1.038 +0.279
2.510 -2.302
Mean Place
28'. 198 3o".79
5*933 43".67
35'.84i I7".i7
7*908
60". 70
+0.10
D> a. Dm a
-o.oi -0.0 1
+0.01 +0.0 1
I
-0.0 1 -0.0 1
+0.05
D^9,VmS
40.2
-0.8 1
+o.a
-0.8
+0.2
-0.8
+0.3
-0.8
[Eph 13)
456
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
J
I
i
Mean Solar
Date.
Jan. I.I
II. I
2I.O
310
Feb. lo.o
19.9
Mar. 1.9
II. 9
21.9
31.8
Apr. 10.8
20.8
30.8
May 10.7
20.7
307
June 9.6
19.6
29.6
July 9.6
195
29.5
Aug. 8.5
18.5
28.4
Sept. 7.4
17.4
273
Oct. 7.3
173
27.3
Nov. 6.2
16.2
26.2
Dec. 6.2
16. 1
26.1
36.1
Sec <J, Tan S
Mean Place
D'^ a, Dw a
D^ 3, D« 6
a Cygni.
Mag. 1.3
Risht
Ascension.
h m
20 38
s
25.84
2579
2579
25.85
25.96
26.11
26.31
26.56
26.85
27.17
27.52
27.89
28.27
28.65
29.02
2937
29.70
30.00
30.25
30.45
30.60
30.69
30.72.
30.70
30.63
30.50
30.33
30.12
29.89
29.64
2938
29.12
28.87
28.65
28.45
28.29
28.17
28.09
5
o
6
II
15
20
25
29
32
35
37
38
38
37
35
33
30
25
20
15
9
3
2
7
13
17
21
23
25
26
26
25
22
20
16
12
8
Declina-
tion N.
+44 57
II
673
64.6 ^7
61.7 '9
58.7 ^°
55.8 ^9
27
53- 1
50.7
48.7
47.2
46.2
45.8
46.0
46.8
48.2
50.1
52.4
55.0
58.0
61.2
645
S Ilelphiiii. I ^ Capricomi.
Mag. 4.5
24
20
15
10
4
2
8
14
19
23
26
30
32
33
34
67.9
71.3 ^^
74.6 33
77-7 ^'
80.6
83.2
85.5
87.4
88.8
89.8
90.3
90.4
89.9
88.9
87.4
85.5
83.2
80.6
29
26
23
19
14
10
5
I
5
10
15
19
23
26
1. 4 14 +0.999
27\940 68".26
-0.02
+0.3
-0.04
-0.8
Rii^t
Ascension.
h m
20 39
s
22.43
22.45
22.50
22.59
22.71
22.86
23.04
23.25
23.49
23.76
24.04
24.34
24-65
24.96
25.27
25.58
25.87
26.13
26.36
26.56
26.72
26.84
26.91
26.93
26.91
26.85
26.76
26.64
26.50
26.34
2
5
9
12
15
z8
21
24
27
28
30
31
31
31
31
29
26
23
20
16
12
7
2
2
6
9
12
14
16
16
16
26.18
26.02
25.88 '^
25.76 '^
25.66
10
7
25.59
25-55
25.55
4
o
Declina-
tion N.
+ 1445
//
36.5
34.8 !I
33.0
31.3
29.7
28.3
27.2
26.4
26.0
25.9
26.2
27.0
28.2
29.7
31.5
18
17
16
14
Mag. 4.3
II
8
4
I
3
8
12
15
18
20
33.5
35.8 '3
38.2 ^4
40.6
43.0
24
24
24
45-4
47.6
49.7
51.6
53.2
54-6
55-7
56.6
57.2
57-5
57-5
57-2
56.6
55.8
54.7
53.4
51.9
50.2
22
21
19
16
14
II
9
6
3
o
3
6
8
II
13
15
17
1034
23*841
+0.263
42".38
-0.0 1 -0.0 1
+0.3 -0.8
Right
Ascension.
h
20
m
40
s
55.58
55.62
55.70
55.82
55.97
4
8
12
15
18
21
56.15
56.36 ^^
56.60 ^^
56.87 ^7
57.16
57.48
57.81
58.15
58.50
58.84
29
32
33
34
35
34
34
33
30
59.18
59.51
59.81
60.08 ^7
60.32 ^^
20
60.52
60.67
60.77
60.82
60.82
60.77
60.68
60.57
60.43
60.27
60.11
59.95
59.81
5969
59.60
59.54
59.52
59.54
15
10
5
o
5
9
I
4
6
6
6
4
2
9
6
Declina-
tion S.
-2534
//
Y BeLphini 5rf
Mag. 4.5
Right
Ascenskm.
75.2
74.7
74.1
73.4
72.6
71.7
70.6
69.4
68.2
66.9
65.6
64.2
62.8
61.5
60.2
59.0
58.0
57.2
56.6
56.2
56.0
56.1
56.3
56.7
57.2
57.8
58.5
59.2
59.8
60.4
60.9
61.3
61.5
61.6
61.6
61.4
61. 1
60.7
5
6
7
8
9
I
2
2
3
3
4
4
3
3
2
10
8
6
4
2
I
2
4
5
6
7
7
6
6
5
4
a
I
o
2
3
4
h m
20 42
8
35.90 ,
35.92
35.97
36.05
36.16
1. 109
56V825
-0.479
62^.42
+0.01
+0.3
4O.02
-0.8
36.31
36.49
36.70
36.94
37.20
37.48
37-78
38.09
38.41
38.72
39.02
39.31
39.58
39.82
40.02
40.18
40.30
40.37
40.39
40.37
40.32
40.23
40.11
39.97
39.81
39.65
39.49
39.35
39-22
39.12
39-05
39.01
39.00
5
8
II
15
18
21
24
26
28
30
31
32
31
30
29
27
24
20
16
12
7
2
2
5
9
12
14
16
16
16
14
13
10
7
4
I
Dcdini*
tion N.
21
1.039
-0.01
-K>.3
APPARENT PLACES OF STARS, 1913.
457
FOR THE UPPER TRANSIT AT WASHINGTON.
€ Cygni.
^ Aqnarli.
tf Cephel.
/^ Aqnaril.
Hean Solar
Mag. 2.6
Mag. 3.8
Mag. 3.6
Mag. 4.8
Date.
Risbt
Declina-
Right
De^na-
Right
Declina-
Right
Declina-
Aacensioa.
tion N.
Ascension.
tionS.
Ascension.
tion N.
Ascension.
tions.
h m
e /
h m
e
/
*h m
0 /
h m
0 /
20 42
+3338
20 42
-948
20 43
+61 29
mm
20 47
- 9 18
§ m
Jan. I.I
39-73 ,
WW
35-5 „
56*83 ,
63.6
28*15 ^^
WW
*^3-9 ,„
56.54 ,
WW
47.7 ,
II. I
39-71
33-1 »4
56.86 3
64.0
4
28.00 '5
61.0 *9
56.57 3
56.63 ,^
48.2 5
2I.O
39-73 ,
30.6 »5
28.0 **
56.93 ^^
64.4
4
27.93 \
57-8 3*
48.6 4
310
39-80 7
57-^3 ^
64.7
3
27-94 ^
54-5 "
56.73 ^
48.9 3
Feb. 1 0.0
39-91
15
25.5 ''
23
57.17 ,^
64.8
I
0
28.03 9
17
S»-3 ^'
30
56.86 ;3
490 ^
19.9
40.06
40-24 „
*3-2 ,„
57.33 ,^
64.8
28.20
48-3,8
45-5 ,°
57.02
5720 '»
49-0 ,
Mar. 1 .9
21.2 **•
57.52 *^
64.6
2
28.44 't
48-8 \
11.9
40-46 "
40-72 ll
19-6 ;^
57-74 "
64.2
4
6
8
10
28.75 3!
43-' '0
57-41 »
48-5 3
47-9 \
47-' .0
21.9
18.5 ''
57.98 ^4
63.6
29.13 3°
4'=' !
57-65 '1
31.8
41.01 »9
31
17.8 7
I
5^-5 :9
62.8
29-56 J^
39-8 '4
57-92 J
Apr. 10.8
4^-32 „
17.7 ^
58-54 ,^
61.8
30-04
39-0 ,
58.20
46.1 ,,
20.8
41.643^
i8.i 4
58.84 3^
60.6
12
30-54 ^,
38.9 '
58.50 3°
44-9 !
30.8
41-98 34
19.0 ^
59-153
59-3
13
31-05 ;
39-4 *
58.81 3'
13
43-5 \\
May 10.7
42.32 I*
20.4 '4
59-47 ^.
57-8
^5
16
31-56 5;
40.5
59-133
4^° 6
40.4 .-
20.7
42.66 34
22.3 *^
59-79 \^
56.2
32.06 5°
42-2 !^
59-45 ,,
33
23
3*
16
47
22
3'
16
30.7
42.99
24.^ .e
60.10
54.6
32.53 ..
44-4^^
59-77 ,„
388 ,.
June 9.6
19.6
43-30 3
43-58 ll
2^; «
60.40 3^
60.68 ^^
53.1
51.6
15
15
32.96 ;3
33-33 ,.
50.2 3*
60.073°
60.35 'J
37-2 •«
35-7 \\
29.6
43-82 2
32.9 3«
60.93 ^^
50.2
14
3364 3'
53-5 33
6o.6i ^^
34.3 4
July 9.6
20
44.02
15
36.0 3'
3«
^-5;^
49.0
12
II
33-88 ;4
57-0 35
37
60.83 ;^
33.0 ,3
19.5
44.17 ,,
39- > _
61.33 _
47.9
34-04 a
60.7
61.01
3^-9 .„
29.5
44.28 "
42' ^0
61.47 '*
47.0
9
34-12
64-4 "
68.0 36
1C
^'•'5 ;^
30-9 '^
30.. I
Aug. 8.5
44.34 _
47-9 ,.
61.56 9
46.3
7
6
34-12
^'•^5 '°
18.5
44.34 ^
61.61 5
45.7
34-05 -•
71-5 35
61.30 5
295 .
28.4
44.30 I
504 \\
6i.6i °
45.3
4
33-90 ^
74-8 33
61.30 °
29.1 4
8
22
4
2
22
31
4
2
Sept. 7.4
44-22
526 ,„
61.57 »
61.49 „
45.1
33-68
T^*^ „
61.26
28.9 ,
17.4
44.09 .1
43.93 '
54-5 Z
56.1 *
45-1
0
33-39 J
80.6 *7
61.19 ^
28.8 ■
27.3
61.38 ;
45.2
I
33.05 ^x
32.67 ^J
8'-9 *3
61.09 ^
28.9 '
Oct. 7.3
^3-75 ll
57-3 '^
38.1 \
61.25 \\
45-4
2
84-8 !
60.97 "
29.1
17.3
43-55 _
61.II '4
45.7
3
32.26 ^
86.2 '4
60.83 '4
29-4 ,
20
4
14
3
43
9
»5
3
27.3
43-35 ^^
58-5 ,
60.97 ,^
46.0
31-83 ^,
87.1 ^
60.68
29-7 ,
Nov. 6.2
^3-^5 ]l
58.4
60.83 4
46.4
4
31-40^^
87-5 t
60.54 4
30.1 4
16.2
42.96 ^
57-9 \
60.70 3
46.8
4
30.98 ^^
87.3 I
86.5 *
60.41 '3
30-5 ;
26.2
42.79 ,1
57-0 '
60.59 "
60.51
»5
47-3
5
30.59 :^
30.23 J^
60.30 "
60.22 \
6
31.0 \
Dec. 6.2
42.65 ^4
II
''■' ::
47-8
5
5
«5-^ :^
3X-5 3
16. 1
42.54 g
53-9 ,„
60.46
48.3
29.91
29.65 ;
83.4 ,,
60.16
32.0
26.1
42.46 °
51-9 °
60.44 \
48.7
4
81. 1 ^3
«Q -» 28
78.3
60.14
32-5 3
36.1
42.42 ^
49-6 '3
60.45
49-1
4
29.46 '9
60.15 ^
33-0 *
Sec S, Tan d
1. 201
+0.665
1. 015 -o.i;
2.096
+ 1.842
1. 013 -0.164
Mean Place
41 '.459 37"-90
-0.0 1 -0.03
58'.057 53".4!
I
3i».328 62".26
57'-755
37" 69
+0.01
D> a. Dm a
0.00 +0.0]
I
-0.04 -0.08
0.00
J)^$,l)mS 40.3 -0.8 1
+0.3 -0.8
+0.3 -0.8
■K).3 -0.7
1
Bphij]
458
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. I.I
II. I
2I.O
310
Feb. 1 0.0
20.0
Mar. 1 .9
II. 9
21.9
31.8
Apr. 10.8
20.8
30.8
May 10.7
20.7
307
June 9.7
19.6
29.6
July 9.6
19.5
295
Aug. 8.5
18.5
28.4
Sept. 7.4
17.4
27.4
Oct. 7.3
173
27-3
Nov. 6.2
16.2
26.2
Dec. 6.2
16.1
26.1
36.1
Seed, Tan <5
Mean Place
D V a, Dm a
D^ d, Dm S
Mag. 3.7
Right
Ascension.
h m
20 47
s
59-38
59-39
59-47
59-61
59-82
I
8
14
21
27
33
38
60.09
60.42
60.80
61.22 ^^
61.69^7
50
62.19
62.71 52
63.26 ^l
63.82 56
64-37
64.91
65-42
65.90
66.33
66.70
67.00
67.23
67.38
67.45
67-43
55
54
51
48
43
37
30
23
15
7
2
10
67-33
67.16
66.93
66.66 ^7
66.35 ^'
17
23
66.03
65-71
65.41
65.14
64.91
64-74
64.64
64.61
32
32
30
27
23
17
10
Declina-
tion S.
-5846
ff
75-5
73-2
70.7
68.1
65-4
62.7
60.1
57.6
55-2
53-0
51.0
49-3
48.0
47.0
46.4
46.1
46.2
46.7
47-6
48.9
50.4
52.2
54-1
56.2
58-3
60.4
62.3
64.0
65-4
66.5
67.2
67-4
67.1
66.4
65-3
63.8
61.9
59-7
23
25
26
27
27
26
25
24
22
20
17
13
10
6
3
I
5
9
13
15
18
19
21
21
21
19
17
14
II
7
2
3
7
II
15
19
22
82 Vvlpecnbe.
Mag. 5.2
Right
Ascension.
h
20
m
50
1.930 -1.650
6i'.i3i 58".65
+0.03
.K).3
+0.07
-0.7
s
49-53
49-52
49-54
49.60
49.70
49-84
50.02
50.23
50.47
50.74
I
2
6
10
14
18
21
24
27
29
31
51.03
51-34 ,,
51-66 3'
51.99 33
52.32
52.64
52.94
53-22
53-47
53-68
53-84
5396
54.03
54.05
54-03
53-97
53-87
53.73
53.57
53.39
33
32
30
28
25
21
16
12
7
2
2
6
10
14
16
18
18
18
53.21
53.03
52.86 '7
52.71 '5
52.58
13
10
52.48
52.41
52.37
7
4
280 Draoonis (Heis).
Mag. 5.6
Declina- Right
tion N. Ascension.
+ 2743
tf
31.5
29.3
27.0
24-7
22.5
20.5
18.7
17.3
16.3
15.8
22
23
23
22
20
18
14
10
5
o
15-8
16.3 5
17.2 ^
18.6 't
20.4 '^
22
22.6
25.1 ''
27-8 'I
30.6 ^»
29
29
33-5
36.4
39-2
41.9
44-4
46.7
48.8
50.6
52.0
53.1
53.8
54-1
54-0
53-5
52.7
51-5
49-9
48.0
45-9
28
27
25
23
21
18
14
II
7
3
5
8
12
16
19
21
1. 130 +0.526
5i'.ii2 34".48
-0.0 1 -0.02
•K).3 -0.7
[Sph 13]
h
20
s
25-35
24.65
24.17
23-93
2394
24.19
24.68
25-39
26.29
27-34
28.51
29-75
31.03
32.30
33-51
34-63
35-63
36.48
37.16
37-64
37-91
37.98
37-84
37-49
36.94
m
51
Declina-
tion N.
+80 13
//
70
48
24
I
25
49
71
90
105
"7
124
128
127
121
112
100
85
68
48
27
7
14
35
55
74
36.20
3530 ^^^!
33-07 "!'
31.80^^7
134
30.46
29.09
27-72
26.39
25-13
2399
22.99
22.17
37-1
34.0 ^'
30.8 3^
27.5 ^^
32
24.3
21.3^°
18.6 ^7
23
18
II
16.3
14-5
13.4
12.9
13.0
13-7
15-0
16.8
19.I
21.9
25.0
28.4
31.9
35.5
39-2
42.8
46.3
5
I
7
13
18
23
28
31
34
35
36
37
36
35
33
137
137
133
126
114
100
82
^9-6 ,^
52.6 ^^
55-3
57.6
59.4
60.7
61.4
61.6
61.2
60.2
58.7
56.7
54.1
27
23
18
13
7
2
4
10
15
20
26
5.891 +5.806
34". 234 35 "-89
-0.1 1
-K>.3
-0.26
-0.7
y Cygni.
Mag. 4.0
Right
Ascension.
h m
20 53
53.84
53.79
53.78
53.82
53.91
54.05
54.23
54.45
54-71
5501
55-33
55.67
56.03
56.40
56.76
57."
57-44
57-74
58.00
58.22
58.39
58.50
58.56
58.57
58.53
58.44
58.30
58.13
57.93
57-71
57.48
57-25
57.03
56.82
56.64
56.49
56.38
56.30
5
I
4
9
14
18
22
26
30
32
34
36
37
36
35
33
30
26
22
17
II
6
I
4
9
14
17
20
22
23
23
22
21
18
15
II
8
Declina-
tion N.
+4049
//
510
45-5 „
40.2
37-9 ]l
36.0 !?
34-5
33-6
IS
9
4
33.2
33.3
34.0
35.3
37.1
I
7
13
18
22
39.3 .^
41.8 '5
44.7
47-8 3'
^ 33
54.3 „
57.6
60.8 3^
63.9
66.7
69.3
71-5
73.4
74-9
76.0
76.6
76.7
76.4
75-6
74.3
72.6
70.5
68.1
31
28
26
19
15
II
3
8
13
17
21
24
1.32 1 40.864
55'.747 54"'OS
-0.02
+a3
APPARENT PLACES OF STARS, 1913.
459
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. I.I
II. I
2I.O
31.0
Feb. 1 0.0
20.0
Mar. 1.9
1 1.9
21.9
Apr. 10.8
20.8
30.8
May 10.7
20.7
30.7
June 9.7
19.6
29.6
July 9.6
19-5
29.5
Aug. 8.5
18.5
28.4
Sept. 7.4
174
27.4
Oct. 7,2,
27-3
Nov. 6.2
16.2
26.2
Dec. 6.2
16. 1
26.1
36.1
Sec 6, Tan d
Mean Place
D'^ a, Dm a
D^ 6, Dm S
a Octantis.
Mag. 5.2
RIsht
Asccnsioii.
h
20
s
9.21
9.06
9.09
9.29
965
m
54
15
3
20
36
52
66
10.17
10.83
11.62 79
'"•53,^
^3-53 ,,g
14.61
15.75"*
16.92 "7
i8.ll "9
19.29"'
20.44
21-53
22.54
23-44
24.21
24.82
25.26
25-52
25.60
25-49
25.20
2474
24.14
23.42
22.61
21.75
20.88
20.03
1925
18.56
18.00
17-59
17-33
109
lOI
90
77
61
44
26
8
U
29
46
60
72
81
86
87
85
78
69
56
41
26
Declina-
tion S.
-7721
//
4569
I2'.887
43-2
40.2
36.9
33-5
30.1
26.7
23-5
20.5
17.7
15-2
13-1
1 1.4
10.2
9-4
9.1
9-3
9-9
II.O
12.5
14.4
16.6
30
33
34
34
34
32
30
28
25
21
17
12
8
3
2
6
II
15
19
22
19.I '5
21.8 ^7
27
24-5
27.2
29.8
32.2
34-3
36.0
37-2
37-8
37-9
37-4
36.3
34.6
32.5
29.9
27.0
27
26
24
21
11
12
6
I
5
II
17
21
26
29
-4-459
25".20
+0.09
+0.3
+0.20
-0.7
y Miorosooyii.
Mag. 4.7
Richt
Ascension
h
20
m
55
s
56.30
56.33
56.40
56.50
56.64
56.82
57.03
57.27
57-54
57-84
3
7
10
14
18
21
24
27
30
32
34
36
37
58.16
58.50
58.86
59-23 ..
59.60 ^'
37
59.97
60.32
60.65
60.95
61.21
35
33
30
26
22
61.43
61.61
61.73
61.80
61.81
61.78
61.70
61.58
61.43
61.27
61.10
60.93
60.77
60.63
60.52
60.45
60.41
60.41
18
12
7
I
3
8
12
15
16
17
17
16
14
II
7
4
o
Declina-
tion S.
-32 35
//
68.3
67-4
66.4
65.2
63.9
62.5
61 o
59-4
57-8
56.2
54.5
52.9
51.4
50.0
48.8
47-7
46.8
46.2
45.8
45-7
45-8
46.2
46.8
47-5
48.4
49-4
50.4
51.4
52.3
53-1
53-8
54-3
54-5
54-5
54-3
53-9
53-3
52.4
9
o
2
3
4
5
6
6
6
7
6
5
4
2
I
9
6
4
I
4
6
7
9
10
10
10
9
8
5
2
o
2
4
6
9
1. 1 87 -0.639
57*513 54".26
+0.01
-K>.3
+0.03
-0.7
(Rph 13I
6 Capricomi.
Mag. 4.2
Right
Ascension.
h
21
s
2.35
2.37
2.43
2.52
2.64
2.79
2.97
3.18
3.42
368
5-59
5-91
6.21
6.48
6.72
6.93
7-09
7.20
7.26
7.28
7.26
7.20
7.10
6.98
6.84
6.69
6.55
6.42
6.30
6.20
6.14
6. 1 1
6. 1 1
m
I
2
6
9
12
15
18
21
24
26
29
31
3.97
4.28
4.60 3^
4-93 ^^
526 ^3
33
32
30
27
24
21
16
II
6
2
2
6
10
12
14
15
14
13
12
10
6
3
o
Declina-
tions.
-1734
//
56.8
56.7
56.6
56.4
56.0
55-4
54-7
53.9
52.9
51.7
50.4
49.0
47-5
46.0
445
43.0
41.6
40.3
39.2
38.3
37-6
37-0
36.7
36.6
36.7
36.9
37-2
37.6
38.1
38.6
391
39-6
40.0
40.3
40.6
40.8
40.9
40.9
I
I
2
4
6
7
8
o
2
3
4
5
5
5
5
4
3
I
9
7
6
3
I
I
2
3
4
5
5
5
5
4
3
3
2
I
o
S Cygni.
Mag. 3.9
1.049
3*.500
-0.317
45".26
Right
Ascension.
h
21
8
43.96
43.89
43.87
43-90
43-98
44.10
44-27
44.49
44-75
45-05
45-38
45-73
46.10
46.48
46.86
m
I
7
2
3
8
12
17
22
26
30
33
35
37
38
38
37
34
47-23
47-57 ._
47.88 \\
48.15 '^
48.38
23
18
48.56
48.69
48.76
48.77
48.73
48.64
48.50
48.32
48.12
47-89
13
7
I
4
9
14
18
20
23
24
4765
47.41
47.18^^
46.96 "
46.76
24
20
+0.01
+0.3
+0.02
-0.7
46.59
46.46
46.36
17
13
10
Declina-
tion N.
+43 34
It
50.1
47.5
44.7
41.9
39.1
36.4
34-0
32.0
30.4
29-3
28.8
28.8
29.4
30.5
32.2
26
28
28
28
27
24
20
16
II
5
o
6
II
17
22
25
28
34-4
36.9
39-7
42.8 3'
46.1 ^^
34
49-5 ^,
52.8 33
56.1 33
59.3
62.3
65.0
67.4
69.4
71. 1
72.3
73.1
73.4
73.1
72.4
71.2
69.6
67.5
65.1
32
30
27
24
20
17
12
8
3
3
7
12
16
21
24
1.380 +0.952
45'.949 49" 49
-0.02
+0.3
-0.05
-0.7
460
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. I.I
II. I
2I.O
310
Feb. 1 0.0
20.0
Mar. 1.9
1 1.9
21.9
31.9
Apr. 10.8
20.8
30.8
May 10.7
20.7
30.7
June 9.7
19.6
29.6
July 9.6
19.6
29.5
Aug. 8.5
18.5
28.4
Sept. 7.4
17-4
27.4
Oct. 7.3
17.3
27.3
Nov. 6.3
16.2
26.2
Dec. 6.2
16.1
26.1
36.1
61 Cygni pr.
Mag. 5.6
Right
Ajocnnon.
h
21
8
57.91
57.87
57.87
57.92
58.02
58.16
58.34
58.56
58.82
59.11
59-44
59.79
60.15
60.51
60.87
m
2
4
o
5
10
14
18
22
26
29
33
35
36
36
36
36
34
61.23
61.57
61.88^'
62.15 ^7
62.38
23
18
62.56
62.69
62.77
62.80
62.77
13
8
3
3
7
II
15
17
62.70
62.59
62.44
62.27
62.08 '9
21
61.87
61.66
61.46
61.28 ^^
61.12
21
20
Secd.Tan^
Mean Place
60.99
60.89
60.83
16
13
10
6
Declina-
tion N.
+3818
//
75-2 ,^
72.8^^
67.7 '^
65.2 ^5
24
62.8
y Aqnaril.
Mag. 4.5
60.7
59.0
57.7
56.9
56.6
56.9
57.7
59.1
60.9
21
17
13
8
3
3
8
14
18
23
63.2
65.9'^
68.8^9
31
71.9
33
75.2
33
78.5 ,,
81.8^3
85.0 3^
88.1 3'
93-6
95-9 ,X
97.8 '9
I^
99.3 „
7
100.4
lOI.I
IOI.3
lOI.I
100.4
99.3
2
2
7
II
16
95.8 II
93.6"
1.275
59'.725
+0.790
75 ".68
-0.01
+0.3
-0.04
-0.7
Right
AscensioB.
h
21
s
50.23
50.24
50.29
50.37
50.48
50.62
50.79
50.99
51.22
51.48
m
4
5
8
II
14
17
20
23
26
28
51.76
52.05
52.36 ^^
52.68 3^
53.01 ^^
29
31
53-33
53.64
53-93
54.20
54.44
54.64
54.80
54.91
54.98
55-00
54.98
54.92
54.83
54.71
54.58
54.44
54.30
54.17
54.06
53.97
53.90
53.86
53.86
32
31
29
27
24
20
16
II
7
2
6
9
12
13
14
14
13
II
9
7
4
o
Declina-
tion S.
-" 43
//
38.2
38.5
38.7
38.8
38.8
38.6
38.2
37.7
37.0
36.0
34.8
33.5
32.0
30.5
28.9
27.3
25.7
24.1
22.7
21.5
20.5
19.6
18.9
18.4
I8.I
18.0
I8.I
18.3
18.6
19.0
19.4
19.8
20.3
20.7
21. 1
21.5
21.9
22.2
3
2
I
O
2
4
5
7
o
2
3
5
5
6
6
6
6
4
2
o
9
7
5
3
I
I
2
3
4
4
4
5
4
4
4
4
3
Bradley 8777.
Mag. 5.9
Right
Ascension.
1.02 1 -0.207
5i".367 27".9i
0.00
•♦0.3
+0.01
-0.7
IBph 13I
h
21
8.75
8.16
7.74
7.51
7.47
7.62
7-96
8.48
9.16
9.98
0.91
1.91
2.95
3.99
5-00
5.96
6.83
7.59
8.22
8.70
9.02
9.17
9.15
8.96
8.61
8.II
7.47
6.70
5.82
4.86
m
7
59
42
23
4
15
34
52
68
82
93
100
104
104
lOI
96
87
76
63
48
32
15
2
19
35
50
64
77
88
96
102
Declina-
tion N.
+7746
//
1 06
106
3.84
2.78
1.72
0.68 '^^
9.68 '"^
92
8.76
7.95
7.27
81
68
28.2 ^7
25.2 ^^
22.0
18.7
32
33
32
15.5
12.4
9.6
7.2
5.3
4.0
3.3
3-2
3.8
5.0
31
28
24
19
13
7
I
6
12
17
22
6.7
8.9
11.6^7
14.7 ''
18.0 ^3
35
21.5
25.2
28.9
32.6
36.2
37
37
37
36
34
42.8 ^^
45-6 ^"
48.0
50.0
28
24
20
15
8 Pisoii AustimlU.
Mag. 5.6
Right
Ascension.
51.5
52.5
52.9
52.7
51.9
50.6
48.7
46.3
10
4
2
8
13
19
24
4.722
15'. 766
+4.615
25" 54
-0.08
+0.3
-0.22
-0.7
h
21
6^83
6.84
6.89
6.98
7.10
7.25
7.44
7.66
7.91
8.19
m
8
I
5
9
12
15
19
22
25
28
30
8.49 „
8.81 ^^
9.15 ^^
9.51
9.87
36
36
35
0.22
0.56
0.89
1. 19
1.45
1.67
1.85
1.98
2.06
2.09
2.07
2.01
1. 91
1.78
1.63
34
33
30
26
22
18
13
8
3
2
6
10
13
15
16
16
1.47
1.31
1.16^5
1.03 '3
0.92 g
0.84
0.80 ^
0.79 '
tianS.
-2758
##
42.5
41.9
41. 1
40.2
39.2
6
8
9
10
12
38.0
36.7
35.3
33-8 \l
32.2
13
14
30.6
29.0
27.4
259
24.4
23.1
22.0
21. 1
20.4
20.0
19.8
19.8
20.1
20.6
21.2
22.0
22.9
23.8
24.6
25.4
26.1
26.6
27.0
27.2
27.2
27.0
26.6
26.0
16
16
16
15
>5
13
II
9
7
4
2
o
3
5
6
8
9
9
8
8
7
5
4
2
o
2
4
6
1. 132 -0.531
7*.953 29". 12
+0.01
+0.3
+0,03
-0.7
APPAEENT PLACES OF STARS. 1913. 461
FOR THE UPPER TRANSIT AT WASHINGTON.
462 APPARENT PLACES OF STABS, 1918.
FOR THE UPPER TRANSIT AT
APPARENT PLACES OF STARS, 1913.
468
FOR THE UPPER TRANSIT AT WASHINGTON.
yTvfimlM.
C Oaprioomi.
^Cygnl.
/? Miuixil.
Mean Solar
^r^ — ^ —
Mag. 4.3
Mag. 3.9
Mag. 5.3
Mag.
3.1
Date.
Right
Declina-
Rigbt
Declina-
Right
Declina-
Right
Declina-
Aacension.
tions.
Ascension.
tions.
Ascension.
tion N.
Ascension.
tions.
h m
e #
h m
0 /
h m
e /
h m
0 9
21 19
-6545
21 21
-2247
21 26
+46 9
21 26
-557
Jan. I.I
■
14.12
W r
57-2 „
■
41.12
WW
31.8
s
12.28
26.8
s
57.72
It
24.8
II. I
14.03 I
54-7 t
41.12 °
31.5 ;
12.18 ^\
12.12
24.4 ^4
57.72 °
25.3 \
21. 1
14.03 I
I4.II ^l
41.16 ^
310 \
30.4 n
"•7 X
57-74 ,
25.8 5
310
48.9 ^°
41.23 7
12. II *
18.9 ^\
57.80 ^
26.2 *
Feb. 1 0.0
14.28 11
45-8 ^'
41.33 t
29.6 »
12.15 *
16.1
5789 ^
26.5 3
25
32
•3
9
10
28
11
I
20.0
H.53 ,,
426 „
4^ 62 '^
28.7 „
12.25 ,^
13.3 ,
58.00
26.6
Mar. 1.9
14.85 11
39-5 11
27.6
12.39 _
10.8 »5
58.14 4
26.5 '
11.9
15.24 ^9
365 11
4».82 V"
=^6-4 "
12.58 '9
8.6"
58.32 '*
26.2 3
21.9
15.69 t^
33.6 '9
42.05 J
42.31 '^
25.1 ^
12.82 ^4
6.8 '8
58.53 ''
25.7 \
31.9
16.21 52
57
30.9 4
^3-^ le
I3.II '^
33
5-4 8
58.76 ^3
R
24.9
"^ 10
Apr. 10.8
16.78
28s „
42-59 ,„
22.0 ^
13.44 _
4-6 ,
59.02
23.9 .,
20.8
26.4 '
42.89 3°
20.4 ;*
13.79 Vl
4-4
59.30 !°
22.6 "3
30.8
24.7 \l
43.21 11
•8-7 ^
'^^'^ff
4.7 3
59.60 3^
21.2 '4
May 10.8
18.69 ^
233 I*
43.55 ^;
15.5 t
^•56 ^^
5-6 !
59.91 3*
'9-^ t
20.7
22.3 ,
43.90 35
14.95 ^^
7.0 '4
60.23 32
17.9 'I
'
67
5
34
>5
39
20
32
18
30.7
20.03
21.8
44.24 „
'4.° .,
15.34 -
9.0
60.55 _
16.I ^
June 9.7
20.67 ^t
21.8 °
44.57 "
12.6 '4
15.71 37
11.4^4
60.86 3*
14.3 •*
19.6
21.28^^
22.2 4
44.89^'
II.4"
16.05 34
14.1 '7
61.16 3^
12.5 '»
29.6
21.84 f^
230 .,
45.19 ^g
45-45 ,,
10.4 '^
16.36 3^
17.1 3°
61.44
10.8 '7
July 9.6
22.33 "^^
24.2 "
9.6 \
16.62 ^^
20.3 3^
61.69 ^5
9.2
42
16
*3
5
22
34
21
>4
19.6
22-75 ,,
*5-8 .„
45.68
45-86 8
9-^ ,
16.84
23.7 ._
61.90
7-8 „
29.5
23.08 ^^
^7-7 '
8.8 3
17.00 ^^
27.2 ^^
62.07 ^
6.5 f
Aug. 8.5
23.31 ]l
29.8
46.00 '4
8-7 '
17.10 ^^
30.6 34
62.20 '3
54"
18.5
23.44 I
3'' i
46.09 9
8-9 \
17.14 ;
33.9 33
62.29 ^
4-5 \
3-9 °
28.5
23.47 i
34-5 't
46.13 ^
9.3 :
17.13 '
37.0 3'
62.33 4
0
34
0
5
6
30
0
4
Sept. 7.4
23.39 ,.
36.9
46.13 ,
9-8 6
10.4
^7-^ t^
40.0
62.33
3.5 .
17.4
23.22 '
39-2 ,^
46.08 5
^^•95 !
42-7 Z
62.29 2
3.2 *
27.4
22.97 11
4»-3 i
45.99 ,^
11. 1 7
16.79 ^
45.0 ^3
62.21 ^
3-^
Oct. 7.3
22.65 11
43.1 '!
45.88 "
11.8 7
16.60 '9
47.0 ^°
62.11 "^
3-2 !
17.3
22.27
44-5 «
45.75 \l
12.5 7
16.38 "
48.5 '^
61.99 "
3.4 '
41
10
'5
7
24
II
13
3
27.3
21.86
45-5 ,
45-60 ,,
13.2 •,
13.8 *
^^•^4 ,,
49.6
61.86
3-7 ,
Nov. 6.3
2^-44^^
46.0 5
45-45 \i
15.89 'f
50.2
61.73 ;3
4-^ t
16.2
21.02 ^
46.0 I
45-31 t
14.2 *
15.65 !^
50.3 '
61.60 '3
4.6 \
26.2
20.63 3^
45-4 ..
45.18 3
^•5 \
'5-41 1
49.9 4
61.48 "
5- J
5-7 .
Dec. 6.2
20.28 ^5
1 1
44.3 ::
45.08 '°
14-7 '
^5-^9 "
49.0 ,^
61.38 'I
29
15
8
I
19
14
7
6
16.2
19.99 „
42-^ ,r.
45.00
14.8
15.00
14.84 t
47-6 ,0
61.31
^•3 ^
^•9 6
7.5 "^
26.1
19.77 "
4^-^ ^!
44.95 I
14.7
45.8 ;
61.26 5
36.1
19.63 '4
38.4 '^
44.93 14.4 ^
14.71 ^
43.5 '3
61.23 3
Sec*, Tan «
2.436 -2.221
X.085 -0.420
1.443 +1.041
1.005
-0.104
Mean Place
15'.867 38".69
42VI7I I9".3i
I4".290 23".89
58'.8o3
i6".o6
D V a. Dm a
40.04 40.11
+0.01 40.02
-0.02 -0 05
0.00
40.0I
Di,S,DmS
40.3
-0.6 1
40.3
-0.6
40.3
-0.6
+0.3
-0.6
[Bph 13]
464
APPARENT PLACES OF STAE8, 1918.
FOR THE UPPER TRANSIT AT WASHINGTON.
P Cephei.
^ Aquarii.
74Cyinl.
Y Oaprioonii.
Mean Solar
Mag. 3.3
Mag. 4.8
Mag. 5.1
Mag. 3.8
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Dedias.
Aaoension.
tion N.
Ascension.
tion S.
Ascension.
tion N.
Asccnskn.
tion&
h m
0 /
h m
0
/
h m
e /
h m
0 f
21 27
4-70 10
21 33
- 8 1
4
21 33
+40 I
m m
21 35
-17 3
§§
Jan. I.I
27.98 ^!
' w
49-6 ,^
6.27
50.6
s
25.93 ^
f 9
15*38 ,
W '
31-7 „
II. I
47-' f
6.26 '
51. 1
5
25.84 \
/%^ w 22
20.1
15-37 ,
31-7 .
21. 1
27.71 ,^
^•^3!
6.28 ^
51.5
4
25.79 ;
12.4
15.39 ,
31-6 '
31.0
27.55 ^\
41. 1 3'
6.33 \
6.41 .,
51.7
^
25.79 °
J 5-44 1
15-52 .
31.3 \
Feb. 1 0.0
27.51 \
37-9 ,,
51.8
I
25.83 ^
30.9 :
8
32
II
I
9
25
11
c
20.0
2759 ,„
34-7 ,,
^•52 ,^
51.7
25.92
9-9,,
15.63 ,^
30-3 .
29-5 ,„
Mar. 2.0
27.78 '9
3'-6 '«
6.66 '4
51.5
2
26.05 ^
7.6^3
15-78 5
11.9
28.09 ^
28.8 ^*
683 \l
51. 1
4
26.22 '^
5.6 ^°
15-96 •«
28.5 '°
21.9
28.50 4'
^6-3 !^
7-03 °
50.4
7
26.44" 3.9 "7 1
16.17 !'
27-4 ■;
31.9
29.00 5^
7-^6 :«
49.5
9
II
26.70 ^^
30
^ »T 12
2.7
16.40 '3
26
26.1 '3
Apr. 10.8
20.8
2958 ,
30.22 /
30-89 ^^
22.9
22.1 ^
7-8° 'J
48.4
47.1
13
27.00 ; 2.0
27.33 ^^ 1.9 ^
16.66
16.95 '^
'4-7 ,6
23' .
30.8
21.9 ^
8.10 30
45.6
15
27.68 35
2.3 *
17.26 3'
21.4''
May 10.8
3'-58^'
32.27 I
22.3 ^
8.42 32
4 'n
43.9
17
28.04 ^
3-3 ::
17.59 ^^
19-7 'i
20.7
^3-4 :;
8-74 ^'
32
42.2
17
18
28.41 37
36
4.8 '5
>9
17.92 33
33
18.0''
17
30.7
32.93 ^,
33-55 .,
*5° ,,
9-06
40.4
• 0
28-77 „
6-7 „
18.25 „
'6-3 ,6
14-7 ,
June 9.7
=^7-' ^6
938 ^^
38.6
18
29.12 35
9.0 '3
18.58 33
19.7
34" L
^9-7 '
9-68 30
10.22
36.9
17
29.45 33
11.7*7
•8.90 3^
13.2
29.6
3460 z
32.7 3°
35.2
17
29-75 ^°
14.6 *9
19.19 ^9
II.9
July 9.6
35 00 :„
36.0 33
33.7
15
30.0I f
17.7 3'
19.46 '7
10.8"
30
35
22
13
23
32
23
9
19.6
3530
39-5 „
10.62 '*
32.4
30.23
20-9 ..
19.69
9-9 .
295
35-49 „
43-2 37
31.2
12
30.40 ''
24.2 33
19.88 '9
9-' '.
Aug. 8.5
35-58 9
47-0 3«
10.75 '^
30.2
10
30.51 "
30.57 t
27-5 "
20.02 *4
8.8 ^
.1
18.5
35-57 ,,
50-7 ^;
10.84 \
29.5
7
306 ^ '
20.12 '°
8.6 '
ft
28.5
35-45 „
54-4 ^^
10.89 5
29.0
5
30.58 '
33-6 3°
20.17 5
8.6 "^
23
35
0
3
4
28
I
Sept. 7.4
35-22
57.9 „
10.89 ,
28.7
30.54 „
36-4 „
20.18
8.8
17.4
3490 \
61.2 33
10.86 ^
28.6
I
30.45 ,;
38.9 '5
20.15 ^
9-2 '
27.4
3450 \
^4' z
10.79 \
28.6
0
30.32 3
41-0"
20.08 7
9-6 ^
Oct. 7.4
34-03 ^^
66.7 ^<^
10.70 ^
28.8
2
30.16 ^
42.8 •«
19.98 '^
10.1 ^
10.7 ^
17.3
33-50 "
68.8 '■
10.58 ;^
29.1
3
29.98 '8
44.2 '4
19.86 "
57
17
13
4
20
10
13
27.3
32.93 ^
32.33 g,
3'-7i fi.
70.5 ,.
10.45 , •
29.5
29.78
45.2
19.73
11.3 6
"9 ,
Nov. 6.3
71.6 "
72.2 ^
10.32 -^
29.9
4
29-57 ,
45.7 \
19.59 ;:
16.2
10.19 1^
30.4
5
29.36 "
45.8 '
19.46 '3
12.4
26.2
30.52 ^^
54
72.2 I
10.07 ,^
30.9
5
29.16 ^°
45.4 1
12
19.34
12.9 ^
Dec. 6.2
71.6 ^
12
9.97 '\
31.4
5
5
28.97 ;^
44.6 ®
13
II
19.23 '\
13.3 :
m
16.2
29.98 .^
68.6 '^
9.89 ,
31.9
28.81
43.3 _
19.15 ^
13.5 ,
26.1
29.49 , ,
9.84 ^,
32.4
5
28.67 '^
4^-6 '
19.09 ^
13.6 ^
36.1
29.08 ^'
66.3 '3
9.81 ^
32.9
5
28.56 "
39.5 '^
19.06 3
13.7
Sec d, Tan d
2.949 +2.774
i.o;o -0.145
1.306 40.840
1.046 -a307
Mean Place
32-.588 43".ii
7V307 41 ".49
27^.678 20". 1 1
i6".367 2o".57
D'f 0, D« a
-0.05 -0.15
0.00 40.0I
-o.oi -0.04
0.00 4Ow02
D^^,Da,S
+O.J
-0.6
+0.3
-0.6
+0.3
-0.6
W3
-0.6
lEifti is\
APPARENT PLACES OF STARS, 1913. 465
FOR THE UPPER TRANSIT AT WASHINGTON.
466
APPARENT PLACES OF STARS, 1913,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. I.I
II. I
21. 1
31.0
Feb. 1 0.0
20.0
Mar. 2.0
1 1.9
21.9
31.9
Apr. 10.9
20.8
30.8
Mav 10.8
20.7
30.7
June 9.7
19.7
29.6
July 9.6
19.6
29.6
Aug. 8.5
18.5
28.5
Sept. 7.4
17.4
27.4
Oct. 7.4
17.3
273
Nov. 6.3
16.3
26.2
Dec. 6.2
16.2
26.1
36.1
Sec 6, Tan 8
Mean Place
7t^ Cygni.
Mag. 4.3
Right
Ascenskm.
h
21
m
43
32.63
32.49
32.40
32.36
32.37
32.44
32.56
32.74
32.97
33.25
33-57
33-93
34.32
34.72
35.13
35.54
35.94
36.31
36.64
36.93
37.17
37.35
37.48
37-55
37.56
37.51
37.41
37.26
37.08
36.86
36.62
36.36
36.10
35.85
35.61
35-39
35.20
35.04
14
9
4
I
7
12
18
23
28
32
36
39
40
41
41
40
37
33
29
24
18
13
7
I
5
10
15
18
22
24
26
26
25
24
22
19
16
Declina-
tion N.
+4854
tr
28.7
26.4
23-8
21.0
18.2
23
26
28
28
28
27
24
20
15.4
12.7
10.3
8.3
6.8 '5
10
5.8
5.3
5-4
6.1
7.4
5
I
7
13
17
9.1
"•3
13-9
16.8
20.0
23.4
26.9
30.4
33.8
37.1
40.2
43- 1
45.7
47-9
49.7
51.0
51-8
52.2
52.1
51-4
50.2
48.5
46.4
22
26
29
32
34
35
35
34
33
31
29
26
22
18
13
8
4
I
7
12
17
21
1.522
34".68i
+1.147
24".03
D'l^ a, Dw a I
-0.02
+0.3
-0.06
-0.6
^ Capricorni.
Mag. 5.2
Right
Ascension.
h
21
m
48
32.31
32.29
32.29
32.33
32.40
32.50
32.63
32.79
32.98
33-20
33.45
33-73
34-03
34-35
3467
3500
35.33
35-65
35-95
36.22
36.45
36.65
36.81
36.92
36.98
37.00
36.98
36.93
36.84
36.73
36.61
36.48
36.35
36.23
36.12
36.03
35-97
35.93
2
o
4
7
10
13
16
19
22
25
28
30
32
32
33
33
32
30
27
23
20
16
II
6
2
2
5
9
II
12
13
13
12
II
9
6
4
Declina-
tion S.
-1357
//
53.1
53.2
53.2
53.1
52.8
52.4
51.8
51.0
50.0
48.8
47-4
45-9
44-2
42.5
40.7
38.9
37.1
35.5
34.0
32.7
31.6
30.7
30.0
29.6
29.4
29.4
29.6
29.9
30.3
30.8
31.4
32.0
32.5
33.0
33-5
33.9
34.2
34.4
I
o
I
3
4
6
8
10
12
14
15
17
17
18
18
18
16
15
13
II
9
7
4
2
o
2
3
4
5
6
6
5
5
5
4
3
2
1.030 -0.249
33».249 42".8o
0.00
+0.3
40.0I
-0.5
y Orolt.
Mag. 3.2
Right
Ascension.
h
21
m
48
s
38.93
38.89
38.89
38.93
39.01
4
o
4
8
12
39.13
39.28 '5
39.47 '^
39.70
39.96
40.26
40.59
40.94
41.31
41.69
42.08
42.47
42.85
43.20
43.52
43.80
4403
44-22
44-35
44-42
44-44
44.41
44-33
44.21
44-07
4390
43.72
43.55
43.38
43.23
43.11
43.02
42.96
23
26
30
33
35
37
38
39
39
38
35
32
28
23
19
13
7
2
3
8
12
14
n
18
17
17
15
12
9
6
Declina-
tion S.
-3746
//
44.1
43.0
41.7
40.2
38.5
36.6
34-6
32.5
30.3
28.1
II
13
15
n
19
20
21
22
22
22
21
20
19
25.9
23.8
21.8
9-9
8.2 '7
14
6.8
5.6
4-7
4.1
3.8
12
9
6
3
I
3.9
4.3
5.0
6.0
7.2
8.5
9.9
21.3
22.7
24.0
25.1
25-9
26.5
26.8
26.8
26.4
25.8
24.9
4
7
10
12
13
14
14
13
II
8
6
3
o
4
6
9
1.265
39".850
-0.775
28''49
40.0I
+0.3
40.04
-0.5
16 Pegaai.
Mag. 5.0
Right
Ascension.
h
21
4.83
4.77
4.74
4.75
4.79
4.86
4.97
5.12
5.31
5.54
5.80
6.08
6.39
6.71
7.04
7.37
7.70
8.01
8.30
8.56
8.78
8.96
9.10
9.19
9.23
9.23
9.19
9.II
9.01
8.88
8.73
8.57
8.42
8.27
8.13
8.01
7.91
7.84
m
49
6
3
I
4
7
II
15
19
23
26
28
31
32
33
33
33
31
29
26
22
18
14
9
4
o
4
8
10
13
15
16
15
»5
14
12
10
7
Declina-
tion N.
+2530
tt
53.8 '^
51.9 '^
49-9 ,„
48.0^9
19
46.1
44-4
43.0
42.0
41.4
17
14
10
6
41.2
41.4
42.1
43-2
44-7
II
15
19
46.6
48.8
51.3
^5
21
54.0,.
56.7 i
59-5 ,g
62.3 ;
67-6 :
72.2
' 19
741 '
75-8
'^ 13
77.1 ^
78.1 ^
3
1
4
7
II
7S.S
79.1
79.0
78.6
77.9
76.8
73.8
1. 108 40477
6-. 168 55".7i
-0.01
•KX3
-ox>3
-0.5
APPARENT PLACES OF STARS, 1913.
467
FOR THE UPPER TRANSIT AT WASHINGTON.
79 Draconls.
eindi.
80 Pegasi.
a Aquaril.
Mean Solar
Mag. 6.6
Mag. 4.7
Mag. 5.7
Mag. 3.2
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascensioo.
tion N.
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion S.
h m
0 /
h m
0 /
h m • '
h m
e f
21 51
+73 17
21 56
-57 8
21 56 |-hl2 41
!
22 I
- 044
m m
Jan. I.I
s
4158 ,„
r f
34.9 ,,
s
41.65
99
5^-9 ,„
49.91
r r
66.8
9
18.00
WW
40.8
II. I
41.08 50
3°' ,„
41.56 I
55.1 '
49.87 4
65.5 \\
17.97 f
41.6 *
21.1
40.68 ^°
41.52 ^
52.9
49.86
^4-=^ 4
17.96 '
42.3 \
42.9 ^
31. 1
27.1 Z
41.54 g
41.62
14
50.4 \l
49.87 '
62.8 '4
17.98 \
Feb. lo.o
40.26 ''^
0
23-9 5,
47-7 \l
49.91 ^
61.5 '3
12
18.03 I
43-4 J
20.0
40.26
20.7 ,.
41.76
44 9 ,
49.98
60.3
18.II
43-8
Mar. 2.0
40.40 \t
17.6 3'
41.95 \\
4=^° 0
1 1
50.09
59.3 '!
18.22 ''
44.0 *
II.9
40.67 'I
'4-6 f.
42.20 ^
39' '
50.23 \
58.6 7
18.36 ;4
43-9
21.9
41.07*°
12.0 ^<*
4^-5^ 'i
36=^ «
50.41 ',
58.2 4
^^•53 \i
43-6 I
31.9
4'-59^
9-^ .,
42.87 3f
33-4 !
50.62 ^'
58.1 ;
18.73 Z
43-0 ^
63
«7
41
26
24
3
24
9
Apr. 10.9
42.22
8.1
43.28
30.8
5°-^^ ,A
58.4
'^•97 ,,
42.1
20.8
42.93 ^,
6-9''
43.73 4^
28.4 *4
51.12'^
59.1 "
19.23 '\
41.0"
30.8
43.69 ll
6.3 '
44.21 4«
^^•^ !«
5i.4r \^^
60.1 ■°
28
39-6 :*
May 10.8
4448 5^
4528 ^^
6.4 !
44.72 5
24.4 '
51.72^
61.5 \\
19-81 30
4 ^
36.2 '*
20.8
71 I
45.25 ^^
22.9 ^
52.04 ^
63.2 '7
20.13
79
•3
54
II
3-'
"9
32
»9
30.7
46.07
8-4 0
10.2 '8
45.79 ,,
21.8
52.36 ,,
65.1 ,,
20.45 .^
34-3 ,^
June 9.7
46.82 75
47-51 J:
46.32 \l
21. 1 7
52.68 3^
67.2
20.77 :.
32.3 _
19.7
"•5 '«
46.84 5^
20.8 3
52.99 \\
69-5 A
21.08 3'
20
30.3
29.6
48.12 J
15.3 '
47.33 4^
20.9 '
53-^7 '
53.53 ^
7' -8 A
21.37^9
^8-3 :
July 9.6
48.64 \]
^8-4 ^'
47.78 45
74-2 4
21.64^7
26.4 '^
41
34
39
10
23
23
23
18
19.6
49.05 _
21.8 ^
48.17
22.5
53.76
76-5
21.87
24.6 .
29.6
49.35 ^^
49.53 '\
25.4 ^;
48.50 33
48.76 \l
23.9 j^
53.95 ,^
78.7
22.07 ^
22.23
23.0
Aug. 8.5
32.9 ^8
36.7 ^!
^5-^ I
54.10 5
80.8 *'
21.6 '4
18.5
49.58 5
48.95 ^
27.6 ^
5420 '
54-26 ;
82.8 "^
84.6 '^
22.34 "
20.4 ''
28.5
49.51 .1
49.06 *'
=^9-8 '
22.41 7
19-4 „
19
37
3
22
2
»5
3
8
Sept. 7.5
49.32
40.4 ..
49.09
32.0
54.28
86.1
22.44 ^
18.6 ^
18.0 *
17.4
49.01 I
43-9 ,,
49.05 ^^
34-3 \\
54.26 ^
5420
87.4 ^
22.43
27.4
48.60 4'
47' 'I
48.94 "
365 "
88.5 'I
22.38 ^
17.6 4
Oct. 7.4
48.10 5°
50.0 ;
48.76 ^^
ioi '«
40.3 ,,
54-11 9
¥ T
89.3 ;
22.31 7
•7-5 I
17.3
47-53 ^
52.5 '5
20
48.54 \l
54.00 ^^
89.8 5
3
22.21
12
17.5 :
27.3
4689
46.20 ^
54-5 ,.
56' 0
48.28
48.00 ^^
28
4772
41.8 „
53.88
90.1
22.09
17-7 ,
Nov. 6.3
42.9 "
43-5 t
53.75 ^
90.1
21.97 "
18.0 3
16.3
45.49 l\
57-' 4
53.62 ^
89.9 '
21.85 ''
¥ ^5
18.4 4
26.2
44-77 ;,
57-5 \
47-45 ,;
43.7
53.49 ,,
89.4 I
21.73 '
18.9 5
>9.5 J
Dec. 6.2
44.06 7^
57.3 8
47.20 5
22
43.4 I
53-38 ;;
88.7 7
9
21.62 "
9
16.2
43-38
42.75 ^^
5^-5 ,,
46.98 .
46.80 '^
42.6
53.28
53- 20
87.8
21.53 ,
20.2
26.2
55-1 "^
41.3 '^
86.7 ^'
21.46 7
20.9 7
36.1
42.195^
53.1 ^°
46.67 ^3
39.6 '7
6
53.14
85.5 '^
21.41 5
21.7 *
Sec 5, Tan 9
3478 +3.331
1.843 -1.549
1.025 +0.225
i.ooo -0.013
Mean Place
46».372 25".97
42«.665 38". 19
5xVo27 69".86
I8V967 34".29
DVa, I>-a
-0.05 -0.19
+0.02 +0.09
0.00 -0.0 X
0.00 0.00
D^^, Dm^
+0.3
-0.5 1
+0.3
-0.5 1
+0.3
-0.5 1
+0.3
-0.5
(Bpb Z3)
468
APPARENT PLACES OF STABS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. I . I
II. I
21. 1
31. 1
Feb. lo.o
20.0
Mar. 2.0
II. 9
21.9
31.9
Apr. 10.9
20.8
30.8
May 10.8
20.8
30.7
June 9.7
19.7
29.6
July 9.6
19.6
29.6
Aug. 8.5
18.5
28.5
Sept. 7.5
17.4
27.4
Oct. 7.4
17.3
27.3
Nov. 6.3
16.3
26.2
Dec. 6.2
16.2
26.2
36.1
Sec «5, Tan 6
Mean Place
t Aquarii.
Mag. 4.4
Right
Ascension.
h
22
9
43.52
43.49
43-49
43.51
43.56
43.64
43.76
43.91
44.09
44.30
44.54
44.81
45.10
45.41
45.74
46.07
46.40
46.72
47.02
47.30
47.55
47.76
47.92
48.04
48.12
48.16
48.15
48.10
48.02
47.92
47.80
47.68
47.55
47.43
47.32
47.23
47.16
47.11
m
I
3
o
2
5
8
12
15
18
21
24
27
29
31
33
33
33
32
30
28
25
21
16
12
8
4
I
5
8
10
12
12
13
12
II
9
7
5
Declina-
tion S.
-14 17
ff
42.1
42.2
42.2
42.1
41.8
41.3
40.6
39.7
38.6
37.4
36.0
34.4
32.7
30.9
29.0
27.2
25.4
23.7
22.2
20.8
19.6
18.7
18.0
17.6
17.4
17.4
17.6
18.0
18.5
19.0
19.6
20.2
20.8
21.3
21.8
22.2
22.5
22.7
I
O
I
3
5
7
9
I
2
4
6
7
8
9
8
8
7
5
4
2
9
7
4
2
o
2
4
5
5
6
6
6
5
5
4
3
2
80 Cephei.
Mag. 5.4
Right
Ascension.
1.032
44'.392
-0-255
3i".9i
0.00
+0.01
-0.5
h m
22 2
s
18.96
18.69
18.48
18.34
18.27
18.28
18.37
18.55
18.81
19.15
19.55
20.01
20.51
21.03
21.57
22.11
22.63
23.12
23.56
23.95
24.27
24.52
24.70
24.79
24.80
24.74
24.61
24.41
24.15
23.84
23.49
23.11
22.71
22.31
21.92
21.54
21.19
20.89
27
21
14
7
I
9
18
26
34
40
46
50
52
54
54
52
49
44
39
32
25
18
9
I
6
13
20
26
31
35
38
40
40
39
38
35
30
Declina-
tion N.
4-62 21
//
47.6
45.5
42.9
40.0
37.0
33.9
30.9
28.1
25.6
23.5
21.9
20.9
20.5
20.7
21.5
22.8
24.7
27.1
29.9
33.0
36.4
40.0
43.6
47.3
51.0
21
26
29
30
31
30
28
25
21
16
10
4
2
8
13
19
24
28
31
34
36
36
37
37
36
a Orolt.
Mag. 2.2
Right
Ascension.
33
31
28
54.6
57-9
61.0
63.8
66.2 ^^
19
68.1
695
70.4
70.7
70.5
14
9
3
2
8
69.7
68.3
66.4
14
»9
2.156 +1.910
2i".830 39".i2
-0.02
+0.3
-o.ii
-0.5
h
22
8
44.44
44.37
44-34
44.35
44.41
m
2
7
3
I
6
10
44.51
44.66 '5
44.85
45.09
45.37
19
24
28
32
36
39
41
4569
46.05
46.44
46.85
47.28 ^3
44
47.72
48.16^
48.58 ^'
48.98
49.35
49.68
49.96
50.18
50.34
50.44
50.48
50.45
50.37
50.24
50.07
49-87
49.65
49.43
49.22
49.03
48.86
48.72
48.62
40
37
33
28
22
16
10
4
3
8
13
17
20
22
22
21
19
17
10
Declina-
tion S.
-4722
0f
76.1
72.8 '*
70.8 »*»
68.5 "3
66.1
61.0 *<^
58-3 II
55.7 '^
25
53.2
50.8 '^
46.5 '"^
44.8 '7
14
43.4
42.3
41.5
41.2
41.3
t Pegati.
Mag. 4.0
Right
41.8
42.6
43.7
45.1
46.7
48.5
50.4
52.3
54.1
55.7
57.0
58.0
58.7
59.0
58.9
58.4
57.5
56.3
II
8
3
I
5
8
II
14
16
18
19
19
18
16
13
10
7
3
I
5
9
12
h m
22 2
s
56.34
56.28
56.24
56.23
56.26
6
4
I
3
6
56.32
56.42
56.56
56.73
56.94
10
14
17
21
24
1.476 -1.087
45'.30i 58".67
+0.01
+0.3
40.06
-0.5
28
30
57.18
57.46
57.76
58.08 ^^
58.41 ^^
34
58.75 ,,
59.08 II
59.40 ^
59.70
59-97
30
27
24
60.21
60.40
60.55
60.66 "
60.72 ^
19
15
60.74
60.71
60.65
60.56
60.44
3
6
9
12
14
15
60.30
60.15
60.00 '^
59.86 **
59.72
14
12
59.60
59.50
59.42
10
.8
Declina-
tion N.
+2454
//
71.7
70.0
17
18
68.2
66.3 ^9
64.4
19
18
62.6
61.0
59-6
58.5
57.8
57.6
57.8
53.4
59.5
61.0
19
62.9
65.0 "
674;:
70.0
7-7 :;
75.5
16
14
II
m
t
2
t
m
6
II
15
78.2 ''
80.9''
83.5 ''
85.9
88.1
90.0
91.7
93.1
94.2
94-9
95.3
95.4
95.1
94.4
24
22
19
17
II
4
I
3
7
10
93-4
92.1 ^
90.6'^
1.103
57'.6ii
40.465
7i".i5
-0.01
■K>-3
-0.03
-«.5
APPARENT PLACES OF STARS, 1913.
469
FOR THE UPPER TRANSIT AT WASHINGTON.
^Pegasi.
7C Pegasi.
C Cephei.
24 Cephei.
Mean Solar
Mag.
3.7
Mag. 4.4
Mag. 3.6
Mag. 5.0
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Afcenskm.
tion N.
Ascension.
tion N.
Atcenskm.
tion N.
Ascension.
tion N.
h m
e /
h m
e /
h m
0 /
h m
0 /
22 5
+ 546
22 6
+3244
22 7
+5746
22 8
+71 54
Jan. I.I
4770 ^
5-7 „
s
5-93
66.1 „
8
47.62
28.0
s
3-99 ,„
550
II. I
47.66 4
♦•7 °
5-84 I
578 t
^4-3 ^,
22
4740 _
25.9 1[
3-5' !!
53° !
21. 1
47.64
3-7 ^
62.2 ^'
47" !
^3-4 11
3" tl
5°-5 li
311
47.65 '
^'^'o
576 I
60.0"
47.10 "
20.6 **
2.82 *9
47-6 *9
Feb. lo.o
47.69 :
^•8 «
578 '
57.8 "
4705 *
'77 2
2.65 '7
44-5 3'
7
8
5
21
1
30
4
32
20.0
4776 ^^
I.O
583 ^
557 ,„
47.06
'47 ,„
2.61
41-3 ,.
Mar. 2.0
47.86 ^^
0.5 \
592 '
537 '°
47.14 !
11.8*9
2.69 *
38.2 3'
I2.0
48.00 '^
0.2 ^
6.05 '3
51-9 '!
4730 '*
9' 'I
2.90 ^■
35.2 3°
21.9
48.17 11
0.2 ^
6-23 '«
50.5 t
47.53 ,x
6.7 ="4
3.24 34
32.5 11
319
4837 VI
^•4 ^
6.45 "
49.4 "
4783 3°
4-7'°
3.69*^
30.2 3
23
6
25
6
35
15
55
19
Apr. 10.9
48.60 ^
48.86 il
1.0
6.70 48.8 1
48.18
3-2 „
4-24 ,,
28.3
20.8
'•9 t
6.99 "'
48.7 '
48.58 ^°
^•3 !
4.87 ^3
27.0 '3
30.8
28
49.14 _
3-^
7-30^' 491 .1
49.02 44
1-9 ^
5-57 ?
26.3 I
May 10.8
49-44 t.
4-6 «
764 34
500 .;
49.49 *l
^•' «
6-31 ^^
26.2 '
20.8
49.75 11
6-4 !
7.99 35
S1.3 '3
4998 49
2.9 *
7.07 f
26.7 5
32
19
35 »»
48 14
75
n
307
5007
8-3 ,„
8-34 531 ,
50.46 i 4.3 _ .
782 „
278 „
June 9.7
5039 l^
10.3 °
8.69 35 ; 55.2 ^'
50.93 ::
6.2 '9
8-54 Is
29-5
19.7
5070 1:
"•4 "
9.02 ^*^ 57.6 ^
51.3845
8.6 ">
9.22 f
3'7"
29.7
5099 ?^
9.33 ^' j 60.3 11
51.79;'
"•3!!
9.83
343 ll
July 9.6
51 26 11
16.8 "
9'^' T ^3.2 11
52.15 ^f
•4-4 l\
10.36 5^
37-3 3°
24
21
24 30
31
34
44
33
19.6
51-50,^
18.9 ^
9.85 66.2
52.46
17-8
10.80
40.6
29.6
5^70 "
20.8 '9
10.05 ^° 1 69.2 3°
52.70 ^3
21.3 35
II. 14 34
44-2 3J
Aug. 8.5
51.86 ^
22.6 '!
10.20 '5
72.2 f
52.87 '7
24-9 \t
11.36
47.9 11
18.5
28.5
51.98 "
52.05 I
24.2 '^
25.6 "4
12
10.31 "
10.37 J
75-1 '^
52.98 "
53.02 ^
28.6 3^
32.2 36
34
11.47'
11.46
II
517 3?
55-5 3«
Sept. 7.5
52.08
26.8
10.38
80.4
52.99 ,^
35-6
11-35 ,^
62.8 3^
17.4
52.07
27.7 I
10.35 3
82.8 ^^
52.73 '
38.9 11
22
"•13 „
27.4
52.03 ;
28.4 ^
10.28 '
84.9 ''
41-9 3°
10.81 3^
66.1 33
Oct. 7.4
51.96 ,;
28.9 5
IO.I7 "
86.6 '7
52.52 l[
44-6 n
10.40 4'
69.1 3°
17.3
51-86 -
29.1
I
10.04 ■^
15
88.0 '4
10
52.27 J
46.9 i
^ =' 18
^■^' I5
71.8*7
22
273
51.74 ,,
29.2
9.89
973 '
89.0 ^
51.99 ,,
487 ,^
877 ,,
7-49 !^
^•«* ?3
74° ,8
75-8 \l
Nov. 6.3
51.62 Y
29.1
89.7 ^
51.68 3'
50.1 '4
16.3
51.50
28.8 3
9-56 \l
89.9 '
51.35^^
51.0 9
77.0 'I
77-6 I
26.2
51.38
28.3 ^
9-39 ^
89.7 '
89.1 ^
10
51.02 ^'^
51-3 .
Dec. 6.2
51.27 'I
27.6 7
9.23 ,3
50.69^3 51. p 3
31 1 0
77.6 I
16.2
51.18
26.8
9-^ ,.
«8-» „
50.38 ^a
5°-2 „
6.21
770 .,
26.2
51.10
51.04
25.9 I
«-96 0
86.8 '3
28
50.10
48-9 3
5.62 59
So -
74.0
36.1
25.0 9
8.86 '°
85.1 '7
49.85 '^
47.0 '9
5.lo5*
Sec*, Tan ^
1.005
+O.IOI
1. 189 +0.643
1.875 +1-587
3.220 +3.062
Mean Place
48".698
io".25
7V346 63".43
50'.053 X9".83
8'.254 44".78
DVa, Dm a
0.00
-0.0 1
-0.0 1 -0.04
-0.02 -0.09
-0.04 -0.18
D^S,VmS
+0.3
-0.5 1 +0.3 -0.5 1 +0.4 -<i.«i
V Mi.Aj -Q.^
fEph 13I
470
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
0 AquaiiL
a Tucaiue.
>^ AqnariL
81 Pegasi.
Mean Solar
Mag. 4.3
Mag. 2.9
Mag. 4.0
Mag. 4.9
Date.
Right
Declina-
Right
Declina-
Right
DccUna-
Right
Declina-
Ascension.
tion S.
Ascension.
tion S.
Ascension.
tionS.
Ascension.
tion N.
h m
0 /
h m
0 /
h m
0 /
h m
0 '
22 12
- 8 12
22 12
-6041
m g
22 17
- 149
22 17
+11 45
Jan. I . I
13.77 ^
68.9 ^
s
32.06
31.90'
w w
55-9 ,„
8!9i ,
WW
39.9 ,
s
13.13 ,
56.8 „
II. I
13.73 ;
693 t
53-9 „
8.87 \
40.6 7
41.2 \
13.08 5
55-6
21. 1
13.72 '
69.6 \
31.80'^
51.6 3
8.85 \
1305 3
54 4
311
13.73 '
69.8 ^
31.77 \
48-9 0
8.85 ^
41.7 \
13.05 ,
53-^
Feb. lo.o
13.77 ^!69.8 "
31.80 3
46.0 9
8.88 ^
42.1 \
1307 :
52.0 "
7
I
9
3'
6
3
5
11
20.0
13.84
697 ,
32.05 '°
42.9 .,
8.94
42.4
13.12
50.9 „
Mar. 2.0
13.94 °
694 \
39.8 3'
903 ,^
42.5 '
»3.2i ^
50.0 '
I2.0
14.07 I
68.9 \
32.28 '3
20
32.57 J
36.6 3
2;2
9.32
42.3 .
13.33 ,g
^3.49 „
49-3
21.9
14.23 *^!68.i "
33-4 ^
41.9 _
48.9
31.9
20
14.43 ,
67- 1 "
32.91 -»*
30.3 ,'
9.51 '^ 41.2 7
13.68 '9
48.9
23
12
40
29
22
9
22
3
Apr. 10.9
14.66
1520 °
^5-9 ,^
33-31
274 „
9.73 „
403 ^^
13.90^^
49-2 .
20.8
30.8
62.9 '^
61.1 '«
3376 ^^
3425 7;
24.7 '^
22.3 ^4
^•9« 8
10.26 ^*
««> » 12
39.1
37.7 ^\
14.43 'J
49.9 '
50.9 ;:
May 10.8
^550 1^
34.78 53
20.2 "
10.56 30
30.1 Q
14.73 ,
52.2 '
20.8
15.82 3^
59-3 ,„
35-33 „
18.5 '\
10.88 3^
X^ -, *8
34.3
15.05 ?!
53-8
33
«9
57
13
32
19
32
'9
30.7
'^•^5 „
574 ,„
35-90 „
17.2
11.20
32.4 _
'5-37 ,,
55-7 „
June 9.7
16.47 ^^
55-5 Z
36.47 ^^
16.3 I
^^•52 ^^
/•^ - 20
30-4 ,^
^5-^ ?'
57-8
19.7
16.79 ^l
53-6 'I
37.02 55
15.9 „
11.83^'
28.4 '°
16.01 32
60.0"
29.7
17.09 f.
?;-2
50.2
37-54 ^„
0
15.9 °
12.13^^
^^•4 ::
^^•31 ?^
62.3 1
July 9.6
»7-37 l\
38.03 ^^
164 5
28
24.5 ^^
16.58 ^7
64.7
25
15
43
10
25
18
24
23
19.6
17.62
48.7 ,,
38.46
'7-4 .,
12.66
22.7
16.82
67.0 „
29.6
17.83 "
'^7-4 ^
38.83 ^7
18.7 \i
12.87 ^'
21.1 '*
17.03 "
69.=^
Aug. 8.5
18.00 '7
46.4 '°
39.13 ,.
^°-4 ^
17
13.04 *^
19.7 '^
17.20 '
7'-3
18.5
18.13 'I 45.6 !
39-34
22.4 ^°
13.17 '3
'8-5 :
17.33 'g
73-^
75-° ,6
28.5
18.22 9
450
39.46 ''
^'^•^ !
13.26 ^
»7.5 '^
17.41 !
4
4
4
24
4
7
4
Sept. 7.5
18.26
44.6
39.50
^7-0 ,,
13.30
16.8
1745 ^
76.6 „
17.4
18.26 °
44-5 „
39.46 ^
294 ^
13.30 °
16.3 5
17.45 \
77-9 '
« 10
78-9 8
79-7 ,
27.4
18.23 ^
44-5 ,
39-34 "
31-7 3
13.27 \
13.21
16.0 3
17.41 ;
Oct. 7.4
18.16 7
44-7 ,
39.15 '
33-8 0
^5-9 '
17.34 ^
17.4
18.07 '
II
«■■:
38.90 ^5
30
35-7 Z
13.12 ^
10
15-9:
17.25 ^
80.2 '
273
17.96
45-5 ,
38.60
37-3 „
13.02
16.1
'7.^4 ,^
80.5 ,
Nov. 6.3
17.84 "
46.0 5
38.28 3^
38-5 "
12.91 "
16.4 3
12
17.02 "
80.6
16.3
17.72 \\
46.5 \
47.7 ^^
37.95 ^^
39-2 \
12.79 **
16.9 5
16.89 ^
80.4
26.2
17.60 '^
37.62 33
39.4 ,
12.67
'7-5 t
16.77 "
80.0 \
79.4 8
Dec. 6.2
1749 "
9
37-30 3
29
39.1 \
12.56 -
18.1 \
6
16.65 "
^ 10
16.2
17.40
48.2
37-OI ,,
38.3 „
12.47 ^
18.7
16.55
78-6 „
26.2
17.33 I
17.27
48.7 \
36.77 '^
37.0 3
12.39 \
19.4 I
16.46 ^
77.6
36.1
49.1 ^
36.58 '9
35.3 ''
12.33
0
20.0
16.39 7
76.5 "
Sec 8, Tan d
i.oio -0.144
2.043 -I.78I
1. 000 -0.032
I.03I .K>.208
Mean Place
I4*.626 6o".55
32V956 36".46
9".789 33".54
14*. 148 59".2i
D'^a, Dm a
0.00 +0.01
+0.02 +0.1 1
0.00 0.00
OOO HXOZ
V^d,D^d
+0'4 -0.5
+0.4 -0.5
+0.4 -04
404 -04
1
lEpVi 15A
APPARENT PLACES OF STARS, 1913. 471
FOR THE UPPER TRANSIT AT WASHINGTON.
8 Laoerte.
TV Aquarii.
0
' Aquarii.
^ Lacerte.
Mean Solar
Mag. 4.6
Mag. 4.6
■
Mag. 4.9
Mag. 3.8
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Asccnsioii.
tion N.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tion N.
h m
0 /
h m
0 #
h
m
0
/
h m
0 t
22 20
+51 47
MM
22 20
+ 055
22 :
26
-11
m a
7
22 27
+49 49
a a
Jan. 1.2
s
6.22
6.04 ;;
w 9
42-4 „
8
49.15 ^
WW
62.4
s
1.92
p»
WW
33.1
0%
4048 ^3
40.30
WW
II. I
2CJ
40.4 „
49.10 5
61.7 7
1.87
5
33.4
3
71.8 '9
21. 1
5-89 ^
38-' M
49.07 I
61.0 7
1.84
3
33.6
2
40.16 '^
696 "
311
5.79 '^
26
35-5 ^«
49.07 °
60.3 7
1.84
0
33.6
0
40.06 '°
67-1 ^
Feb. lo.o
5-74 \
^^ m 28
3^-7 ,8
49.10 ^
59.7 ;
4
1.87
3
5
33.4
2
3
40.01 ^
0
64.4 ''
27
20.0
5-75 ,
29-9
49.16
59.3 ,
1.92
^^
33.1
m
40.01
40-07 ,
61.7
Mar. 2.0
5-82 .!
27.2 ^7
49.25 ,:
59.0 3
2.01
9
32.6
5
59.0 =^7
I2.0
5-95 \l
24.7 '5
12
49-37 "
0
59.0
2.13
12
31.9
7
12
40.19 ,,
56.5
21.9
^•'4 \l
"•4 '^
4952 \i
59.3 3
2.28
15
30.9
10
40-36 '^
54.3 "
31-9
6.39 '5
=°-5 '
49.71 11
59.8 \
2.47
19
29.7
12
40.59 ,^
15
52.5 !
30
14
23
8
22
14
29
14
Apr. 10.9
669 „
'9-* „
49-93 ^,
60.6
2.69
28.3
40.88
51. 1
20.9
704 ,'
18.2 9
50-18 ^5
61.7 "
2.94
25
26.8
15
41.21 33
50.2 ^
30.8
7« fr
17.9 3
50.45 ,;
63.0 3
64.6 '^
66.4 '8
3.21
27
25.1
17
18
4' 58 37
49.9 ;
Hay 10.8
7-84 1
18.2 3
190 „
50-75 '°
3.51
30
23.3
41.98 4°
50.1
50.9 ,t
20.8
8.27 43
51.06 f
3.83
32
21.4
19
42.40 :,
44
13
32
«9
33
20
43
13
30.7
8-71 _
20.3 .
51.38
68-3 ,„
4.16
19.4
42.83
52.2
June 9.7
9'4 11
22.1 '8
51-70 11
703 ,.
4.49
33
17.5
19
43-25 *
^^ ^ 18
540 ^,
19.7
9-93 ^*
24.4 '^
52.02 3^
7^-4
4.81
32
15.6
19
44-03 ^,
29.7
27- 1 11
52.32 ^
74-4 '^
5.12
31
13.9
*7
16
July 9.6
10.28 •'s
30.1 3°
52.59 J
764 '^
5.41
29
12.3
44-38 35
61.8 "9
30
32
25
»9
26
14
30
32
19.6
10.58
33-3 ,,
52-^4 ,,
78.3 „
5.67
10.9
44-68
^50 ^^
29.6
10.82 ^*
36.7 I*
53.06 "
80.0 '7
5.89
22
9.7
12
44.93 ,„
68.4 \\
Aug. 8.6
1 1. 01 '9
40.2 35
53.23 ^
81.6 '**
6.08
19
8.8
9
45." !
71.9 35
18.5
ii.i4'3
43-7 l^
53.36 ^3
83.0 '4
6.23
15
8.1
7
45.26 'J
75.3 ^t
28.5
11.20
47-2 35
53.45 ^
84.1 "
6.33
10
7-7
4
8
45.34 ,
78.7 \\
0
34
0
9
5
2
0
33
Sept. 7.5
11.20
50.6
53-50
85.0 ,
6.38
«
7.5
f\
45.36
82.0
17.4
"•^5 '
53-7 ^'
53-51 '
85-7 '
6.39
I
7.5
0
45.33 ^
45.25 ,,
85-^ ^0
27.4
"•05 [I
566 11
53-48 3
86.2 5
6.37
2
7^7
2
88.0 ^9
Oct. 7.4
10.90 ^
59.2 f
53-42 ^
86.4 '
6.31
6
8.1
4
45.12 !,
9o-6!!
17.4
10.71 *^
' 22
61.4 "
^ 18
53-33 ,^
86.5 1
6.23
8
10
8.6
5
6
17
44.95 ,^
20
^« Q 22
9^-8 ,8
27.3
10.49 _
^3.2 _
5323 ,.
86.4
6.13
9.2
^
44-75 ,,
94.6
Nov. 6.3
10.25 I
64.5 ''
II
53.12
86.1 3
6.02
II
9.8
6
22
44.53 ,,
95-9 ^
16.3
9.99 ^
65.4 ^
12
53.00
857 \
5.90
12
10.4
6
6
44.29 *
96-8 I
26.3
65.7 ^
52.88 "
85.2 5
84.6 ^
5.78
12
II.O
44.04 ,f
97.2 *
Dec. 6.2
65.5 '
52.77 "
5.67
II
11.5
5
43.80 ^4
97-1 ,
25
7
9
7
10
•
5
23
7
16.2
^•^' ^a
64.8
52.68
52.60
52.54
83-9 ,
5.57
8
12.0
43.57 „
96.4 „
26.2
^•^^ ^n
63.5 \t
83-2 J
82.4 *
5.49
12.4
4
22
43.35 ,„
93.6
36.1
8.78 ^^
61.8 '7
5.42
7
12.8
4
43.15 '°
SccS,rand
I.6I7 +I.27I
1. 000 +0.016
1.019 -o.n
?7
1.550 +1.185
Mean Place
8«.2I3 34".42
50V036 67".89
2*.682 24".32
42".328 65".6o
D'^a,Dma
-0.01 -0.08
0.00 0.00
0.00 40.0I
-0.01 -0.07
D^S,DmS
■fO.4
-0.4 1
+0.4
-0.4 1
40.4
-0.4
[
•voA
-^A
(Sph tjl
472
APPARENT PLACES OF STABS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 1.2
II. I
21. 1
31.1
Feb. lo.o
20.0
Mar. 2.0
I2.0
21.9
319
Apr. 10.9
20.9
30.8
May 10.8
20.8
30.7
June 9.7
19.7
29.7
July 9.6
19.6
29.6
Aug. 8.6
18.5
28.5
Sept. 7.5
17.4
27.4
Oct. 7.4
17.4
27.3
Nov. 6.3
16.3
26.3
Dec. 6.2
16.2
26.2
36.1
V AqnaiU.
Mag. 5.3
Rigbt
Ascension.
h m
22 29
s
55.47
55.42
55.39
55.39
55.41
55.46
55.55
55.67
55.83
56.02
56.24
56.50
56.79
57.10
57.42
57.76
58.11
58.45
58.77
59.07
59.35
59.59
59.79
59.95
60.06
60.12
60.14
60.12
60.06
59-97
59.86
59.74
59.61
59.48
59.36
59.26
59.17
59.10
5
3
o
9
12
16
19
22
26
29
31
32
34
35
34
32
30
28
24
20
16
II
6
2
2
6
9
II
12
13
13
12
10
9
7
Declina-
tion S.
-21 8
ff
87.1
86.9
86.6
86.1
85.3
84.3
83.2
81.9
80.4
78.7
76.9
75.0
73.0
70.9
68.9
2
3
5
8
o
I
3
5
7
8
9
20
21
20
19
226 B. Cephei.
Mag. 5.7
Right
Ascension.
67.0
65.2
63.5
62.0 '5
60.8 '^
18
17
59.9
59.2
58.8
58.7
58.8
59.2
59.8
60.6
61.5
62.4
63.3
64.2
65.0
65.6
66.1
66.4
66.6
66.6
7
4
I
I
4
6
8
9
9
9
9
8
6
5
3
2
o
h m
22 30
39.90
39.22
38.63
38.16
37.84
68
59
47
32
16
17
74
83
89
37.68
37.68
37.85 ,^
38.18 33
38.66 f
62
39.28
40.02
40.85
4^-74^^
42.66 9'
93
43.59
44.50 I
45.37 !:
46.17 *°
46.88 7^
47.48
47.96
48.31
48.52
48.59
48
35
21
7
6
48.53
48.33
48.00
47.55
47.00
46.36
45.64
44.86
44.04
43.20
42.37
41.58
40.85
20
33
45
55
64
72
78
82
84
83
79
73
Declina-
tion N.
+7546
//
53.3
51.5
49.3
18
22
26
467 ,,
43.8 '9
31
40.7
37.5
34.4
31.5
29.0
32
31
29
25
21
26.9
25.3
24.2
23.7
23.8
24.5
25.8
27.7
30.1
32.9
36.0
39.4
43.1
46.9
50.7
16
II
5
77 AqnaiU.
Mag. 4.1
Right
Ascension.
13
19
24
28
31
34
37
38
38
38
37
35
33
54.5
58.2
61.7
65.0
68.0 3^
26
70.6
72.7
74.3
75.4
75.8
21
16
II
4
2
75.6
74.8
73.4
8
14
h m
22 30
52.35
52.29
52.26
52.25
52.27
6
3
I
8
II
52.32
52.40
52.51
52.66 II
52.84 "
18
21
24
27
29
31
32
54.48 ,,
54.80 32
^2
55.12 ^
55.43
55.71
53.05
53.29
53.56
53.85
54.16
55.96
56.18
56.37
56.51
56.61
56.67
56.69
56.67
56.62
56.54
56.44
56.33
56.22
56.11
56.00
55.90
55.82
55.75
31
28
25
22
»9
14
10
6
2
2
5
8
10
II
II
II
II
10
8
7
Declina-
tion S.
-033
/»
63.8
64.5
65.2
65.8
66.3
66.6
66.7
66.6
66.3
65.7
7
7
6
5
3
I
I
3
6
9
10 LacertK.
Mag. 4.9
Right
12
64.8
63.6
62.2 **
60.6 '^
58.8
56.9
54.9
52.8
50.8
48.8
18
»9
20
21
20
20
18
17
47.0
45.3 ,.
43.8 '5
42.5 ^
41.4
II
8
40.6
40.0
39.6
39.4
39.4
39.6
39.9
40.3
40.8
41.4
42.1
42.8
43.5
6
4
2
o
2
3
4
5
6
7
7
7
h
22
m
35
19.94 ,,
19.81 II
19.71 "^
19.64
19.61
10
7
3
I
19.62
19.68
19.78
1993
20.13
20.37
20.65
20.97
21.32
21.68
22.05
22.42
22.78
23.12
23.44
23.72
23.96
2415
24.30
2439
24.43
24-43
24.38
24.30
24.18
24.04
23.88
23.71
23.53
23-35
6
10
15
20
24
28
32
35
36
37
37
36
34
32
28
24
19
15
9
4
o
5
8
12
14
16
17
18
18
17
23.18
23.02
22.88 '^
16
Declina-
tion N.
+3835
55.7
540
52.0
49.8
47-5
45-2
42.9
40.8
391
37.7
36.7
36.2
36.2
36.7
377
391
41.0
43-3
45-9
48.7
17
20
22
23
21
17
H
10
5
0
5
10
14
23
26
28
30
54-8 ^
57-9^
61.0
64.0
66.9
31
30
29
69.6,
72.1
27
5
22
74-3 ,8
76.1
77-5
78.6
79-3
79-5
79.2
78-5
77.4
75.9
14
II
3
7
II
15
Sec S, Tan 6
Mean Place
1.072
56'. 159
-0.387
75".56
4.071 +3.947
44'-973 4o".83
1. 000 -0.0 10
53VI7I 58".29
1.279 4a798
ai».347 49".70
0.00
+0.4
+0.02
-0.4
-0.04 -0.24
+0.4 -0.4
0.00
40.4
0.00
-0.4
■HX4
-O.Q5
-04
APPARENT PLACES OF STARS, 1913.
473
FOR THE UPPER TRANSIT AT WASHINGTON.
Mran Solar
Date.
Jan. 1.2
II. I
21. 1
Feb. lo.i
20.0
Mar. 2.0
I2.0
21.9
319
Apr. 10.9
20.9
30.8
May 10.8
20.8
30.8
June 9.7
19.7
29.7
July 9.6
19.6
29.6
Aug. 8.6
18.5
28.5
Sq)t. 7.5
17.5
27.4
Oct. 7.4
17.4
27.3
Nov. 6.3
16.3
26.3
Dec 6.2
16.2
26.2
36.2
€ Plsots Auttnlit.
Mag. 4.2
Right
Aacraston.
h m
22 35
s
50.13
50.06
50.02
50.01
50.03
Sec 6, Tan S
Mean Place
50.08
50.16
50.28
50.44
50.63
50.86
51.12
51.41
51.73
52.07
52.42
52.77
53.12
53.46
53.78
54.07
54.33
54.54
54.71
54.83
54.90
54.92
54.90
54.84
54.75
54.64
54.51
54.37
54.23
54.10
53.98
53.88
53.80
7
4
I
2
5
8
12
16
19
23
26
29
32
34
35
35
35
34
32
29
26
21
17
12
7
2
2
6
9
II
13
14
14
13
12
10
8
Declina-
tion S.
— 27 29
//
65.4
65.0
64.3
63.4
62.3
4
7
9
II
13
C Pegati.
Mag. 3.6
Right
Ascension.
15
61.0
59.5
57.8 II
55-9
53.9
19
20
21
51.8
49.6
47.4
45.3
43-2
41.2
39.4
37.8
36.5
35.5
34.8
34.4
34.3
34-6
35.1
35.9
36.8
37.9
39.1
40.3
41.4
42.4
43.3
44.0
44.5
44.7
44.7
44-5
22
22
21
21
20
18
16
13
10
7-
4
I
3
5
8
9
II
12
12
II
10
9
7
5
2
o
2
1. 127 -0.521
5o".755 52".3i
0.00
•fo.4
40.03
-0.4
h
22
m
37
B
6.46
6.39
6.34
6.32
6.33
7
5
2
I
4
7
10
6.37
6.44
6.54
6.68 '^
6.85 '7
21
24
7.06
730 ^^
7.57 '^
7.86 ^9
8.17 3'
32
S-49 ,^
8.82 ^3
9.14^
9-44
9.72
30
28
26
9.98
0.21
0.40
0.54
0.64
0.70
0.72
0.71
0.66
0.58
0.49
0.38
0.26
0.14
0.03
9-93
9.84
9.76
23
19
14
10
6
2
I
5
8
9
II
12
12
II
10
9
8
Declina-
tion N.
+ 10 22
//
34.7
33.7
32.6
31.5
30.4
29.4
28.6
28.1
27.8
27.8
28.2
28.9
29.9
31.2
32.8
10
II
II
II
10
8
5
3
o
4
7
10
13
16
18
/5 Octantis.
Mag. 4.3
Right
Ascension.
34-6
36.6
38.8
41. 1
43.4
45.6
47.8
51.8 '^
53.5
20
22
23
23
22
22
21
17
15
55.0
56.2
57.2
58.0
58.5
58.8
58.9
58.8
58.4
57.8
57.1
56.2
55.2
12
10
8
5
3
I
I
4
6
9
10
h
22
s
12.32
11.37
10.63
lO.II
9.82
9.77
9.96
10.39
11.04
11.90
12.96
14.19
15.57
m
37
95
74
52
29
5
19
43
65
86
106
123
138
150
1.017 +0.183
7'.36o 36".72
0.00 -o.oi
40.4 -0.4
[Ex>hz3l
^7-07,,,
18.66 '59
165
20.31
21.98 '^
23.62 '^l
is8
^5-^'' 1^8
26.68 '^*
133
28.01
29.16 "5
30.09
30.78
31.20
Declina-
tion S.
93
69
42
13
31.33
31.17
30.74
30.05
29.13
28.01
26.74
25.38
23.97
22.57
21.24
20.02
18.95
16
43
69
92
112
127
136
141
140
133
122
107
-81 49
98.6
96.1 ^5
93.1 ^^
89.8 ^l
86.2 ^^
37
82.5
78.7
74.9
71. 1
67.5
38
38
38
36
33
64.2
61.2 30
58.6 '^
56.4
54.6
22
18
13
53.3
52.6
52.4
52.8
53.7
55.1
570
59.2
61.7
64.5
67.4
70.3
73.1
75-7
78.0
79.9
81.3
82.1
82.3
81.8
80.7
79.0
76.8
7
2
4
9
14
19
22
25
28
29
29
28
26
23
»9
14
8
2
5
II
17
22
/5 Oruls.
Mag. 2.2
Right
Ascension.
h m
22 37
s
28.09
27.98
27.90
27.86
27.86
27.91
28.00
28.14
28.33
28.56
28.83
29.15
29.51
29.89
30.30
II
8
4
o
5
9
19
23
27
32
36
38
41
43
44
30.73
31.60 ^'^
32.02 ^^
32.41 ^^
3277 „
3308 3"
7.042 -6.972
I3'.726 77".38
40.07
40.4
40.44
-0.4
33.34
33.55
33.69
33.77
33.79
33.75
33-66
33.52
33.35
33.15
32.94
32.73
32.53
32.34
32.17
32.04
26
21
14
8
2
4
9
14
»7
20
21
21
20
19
17
13
Declina-
tion S.
-4720
ff
41.5
40.2
38.6
36.7
34.5
32.0
29.4
26.7
23.9
21.0
18.2
15.5
12.9
10.5
8.4
6.6
5.1
4.0
3.3
3.0
13
16
19
22
25
26
27
28
29
28
27
26
24
21
18
15
II
7
3
2
3.2
3.8
4-7
6.0 '3
7.6'^
6
9
9.4
11.3
13.3
15.3
17.I
18.7
20.1
21. 1
21.8
22.0
21.8
21.2
20.2
18
19
20
20
18
16
14
10
7
2
2
6
10
1.476 -1.085
28».656 23".92
40.01
40A
40.07
474
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
7 Pegasi.
A, Pegasi.
eornis.
r AqiULXii.
Mean Solar
Mag. 3.1
Mag. 4. 1
Mag. 3.7
Mag. 4.2
Date.
Right Declina-
Right
Declina-
Right
Declina-
Right
Declina-
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tions.
h m
0 /
h m
0
/
h m
0 /
h m
0 !>
22 38
+ 2945
22 42
+23
m m
6
22 43
-51 46
m g
22 44
-14 2
Jan. 1.2
8
5414 _.
W 9
60.8
8
19.29
w w
29.3
17.77 „
WW
4<5-7 ,,
58*59 ft
58-53 !
76-4 ,
II. I
54.04
59.3 \l
19.20 ^
27.9
14
17.63 ^
43.5 "
76.6 '
21. 1
53.97 I
57-6 '
19.13 7
26.4
»5
16
17-53 '°
17.47 \
58-49 \
76.6 ^
31.1
53.92 ^
55-7 ''
19.09 -J
24.8
41.4 '
58.47 "
76.5 \
Feb. I O.I
53.90 ^
53.7 '°
20
19.08 ^
2
23.1
17
17
.7.46
38.9 :5
58.48 •
76.2 3
5
20.0
53.92
5398 ^^
49.9 .,
19.10
21.4
•
17-49 „
17.57 \
33.4 ,„
58.52 ,
KM
75-7 .
Mar. 2.0
19.9
15
5859 2.
75.0 '
12. o
54.08 ^
483 !
19.26 ^
18.7
12
17.71 *
3°-5 !'
58.69 °
10
74.0 ,
21.9
14.
54.22 I
54.40 ^^
^^•9 :
19.39 ,^
17.7
10
17.90 J
^7-5 5:
58.82 '3
72.8 ^-
V 4
319
45.9 6
19.56 ;^
17.0
7
3
18.14 1
^ 28
24.5 ^
30
58.99 '^
^^ 21
71.4 '*
'5
Apr. 10.9
54.88 f
45-3 ,
19-77 _-
16.7
1842 ,,
^^•5 ,„
59.20
69-9,,
20.9
45.1 *
20.02 ^
16.8
I
18.7s ^^
18.6 *9
59.44
68.2 '7
30.8
55-17 '
45.4 ,
20.30 \
17.3
5
19.12 37
^5-9 Z
^^ 27
59.71 7
66.3 "
May 10.8
55.48 3'
46' .1
20.60 ^
18.2
9
19.53 ^!
'3-5 't
60.00^9
643 z
20.8
5582 34
47.3 '^
20.92 3^
19.5
13
19.97 ^
"•3 "
60.31 ^'
6^-3^
35
16
34
17
46
18
33
JO
30.8
56.17 „
48-9 ,„
21.26
21.2
20.43 . .
9-5 _
60.64
^■3,„
June 9.7
5652 35
5°-8 !
21.60 34
23.2
20
20.90 ^'
8.0 '5
60.97 ^^
58-3
19.7
56.86 34
53.1 \\
21.93 ^^
25.4
22
21.37 t!
7-0 -
61.3033
56.4 !
29.7
57.19 \l
55.6 3
^2
22.25
27.8
24
21.82 ^5
6.4 ^
61.62 32
54.7 :
July 9-6
57.49 l^
5«-3 :^
22.54 ^^
27
30.4
26
27
22.24 ^\
^38
6.2 ^
3
61.92 3«
27
«•' I
19.6
5776
61. I
22.81
33.1
22.62
6.5
62.19
51-9 ,
29.6
57.99 .X
66.8 ^f
69.6 ^!
23.04 ^^
35.7
26
22.96 34
7.2 7
62.43 \\
50-8 •
50-%
49-4 ,
Aug. 8.6
58.18 9
23.23 ,;
38.3
26
23.25 ^^
8.3
62.64 ''
18.5
58.33 \i
23.38 ^
40.8
25
23.48 '^
9-8 «
62.81 '7
28.5
58.43 '°
72.3 ^
23.48 '^
43.2
24
23.64 "'
11.6 '«
62.93 ""
49.1 :
5
2.S
6
22
9
20
7
0
Sept. 7.5
58.48 ,
74.8
23.54 _
45.4
23.73 _
136
63.00
49.1 2
17.5
58.49 '
77-^ '0
23.56
47.4
20
23.75 .
»5.7 1'
63.03 ;
49.3 ,
27.4
58.46 3
79' 8
80.9 ■*
23.54 -
49.1
17
23.71 ,\
17-9 "
63.03
49.7 \
Oct. 7.4
58.39 I
23.49 g
50.5
14
23.61 ^
^^ ^21
20.0
62.99 \
50.8 .
17.4
58.30 '
12
82.4 '5
11
51.6
1 1
9
23.46 ;j
22.0 ^
18
62.02 "
9
27-3
58.18
83.5 .
84.3 \
23.31 ,2
52.5
^
23.27 ,,
^3-8 ,,
62.83 ^^
51.5 g
52.3 .
Nov. 6.3
58.05 3
23.19 ,_
53.1
6
22
2305 ,,
25.2 4
62.72 "
16.3
57.91 ^
84.7 ^
23.06 ^
53.3
2
22.81 ^^
26.3 "
62.60 "
53.0 1
26.3
57.76 ]\
84.7 ^
22.92 '"*
53.2
I
22.57 ^^
27.0 \
62.48 "
53.7 ;
54.3 ,
Dec. 6.2
57-6' f
84.3 t
22.79 I^
52.8
4
22.33 ^
27.2 \
62.37 "
«4
7
12
7
22
2
10
5
16.2
57.47 ,,
^3-6 ,,
22.67
52.1
22.11
27.0
62.27
54.8 ,
26.2
57.34 3
82.6 '°
22.56 "
51. 1
10
21.92 '^
26.3 7
62.18 I
4
55.2 1
36.2
57.23 "
81.2 *^
22.46 '°
49.8
13
21.75 '^
25.2 "
62.10
2
55-4
Sec 6, Tan 6
I. 152 +0.572
1.087 +0.427
1.616 -1.270
1.031 -0.250
Mean Place
55'.329 56".98
20«.335 27".!
8
l8«.282 28".29
59*.240 67^.23
D'fa, D«a
-0.0 1 -0.04
0.00 -0.03
+0.01 +0.08
0.00 40.02
D^S, Dm<$
+0.4
-0.3 1
+0.4
-0.3
+0.4
^.3
.KX4
-0.3
lEph 13\
APPARENT PLACES OF STARS, 1913
475
FOR THE UPPER TRANSIT AT WASHINGTON.
1
M Pegasi.
t Cephei.
\
Aqnaili.
pindi.
■ UoaSolw
Mag. 3.7
Mag. 3.7
]
Silag. 3.8
Mag.
6.1
■ Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Declina-
1
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
tions.
I
h m
0 0
h m
0 /
h
m
0
/
h m
0 t
1
22 45
+24 8
22 46
+6544
mm
22 i
^8
- 8
2
22 48
-7031
m m
I Jan. 1.2
s
47.13 ^
WW
33-6
31.58^!
w w
45-8 „
s
3.92
41.4
3^-57 .
36.21 36
WW
100.4
I
47.04 9
32.2 *
44-1 ^
3.85
7
41.8
4
983 "
I 21. 1
46.97 7
30.6 ^
31.25^^
42.0 '
3.81
4
42.1
3
35-92 ^^
95-8 ^5
I 3I-I
46.92 5
28.9 '7
30.99 l.
30.81 ^\
30-7 ,„
3.79
2
42.3
2
35.72 ^
92.9 ^9
1 Feb. lo.i
46.91
27.2 J7
3.80
I
42.3
0
35.61 "
897 \'
H
2
16
9
30
3
I
2
34
1 20.0
46.93 ,
25.6
30.72
^^■^ ,«
3.83
^
42.2
35.59 «
86-3 ,,
I Mar. 2.0
46.98 5
24.1 5
30.72 ^
30.7 ^°
3.89
6
41.8
4
35-67 I
8^-7 t
I I2.0
47.07 ^
22.8 '3
30.82 ^
^7-7 ^°
3-99
10
41.2
6
35.85 '«
79-1 36
I 22.0
47.20 '^
21.7 «
31.01 J
^4-9 !
4.12
13
40.4
8
36-^3 !
75-5 ^t
1 31-9
47.37 y
20.9 °
31.29 °
"•5 :^
4.28
16
39.4
10
36.50 37
72.0^5
21
4
37
20
20
13
46
34
K Apr. 10.9
^7-58 ^^
20.5
31.66
20.5
4.48
38.1
36.96
68.6
■ 20.9
47.82 ^4
20.6 '
32.11 ^^
19.0 ^
4.71
23
36.6
15
3750 ^^
^5-5 \l
1 30.8
48.10^^
21. 1 ^
32.62 \\
18.0 '°
4.97
26
34-9
17
38.11^'
62.6 '9
Hay 10.8
48.41 11
22.0 ^
33.18 5J
17.6 \
5.26
29
33.1
18
38.78 ;7
60.1^5
20.8
48.73 f
^3.2 ,
33.77 ^;
17.8 ^
5.57
31
31-2
19
3950 7-
58° 'i
34
16
61
7
32
20
75
16
30.8
49.07
24-^ ,„
3438 ,
18.5
5.89
29.2
40.25
56-4,,
June 9.7
49.41 34
26.8 ^°
34.98 ^
^9-^ 0
6.22
33
27.2
20
41.02 ''
55-3 ,
19.7
49.74 ::
29° "
35.56 ^;
21.7 '9
6.54
32
25.2
20
41 -79^^
54-7 \
29.7
50.06 3^
3'-4 \\
36.11 55
24.0 ;3
6.85
31
23.3
19
42.53 \z^
54-6 '
July 9.7
50.36 ^°
34.0 ^^
36.61 50
26.7 7
715
30
21.6
17
43.23 I
55-0 *
27
27
44
31
27
16
64
9
19.6
50.63
3^-7 „
37-05 ,.
29.8 ^^
7.42
20.0
43-87 „
55-9 ,^
29.6
50.87 ^4
39-4 Z
37.41 ^^
33.2 3^
7.66
24
18.6
14
44-44 "
57-3 1
Aug. 8.6
51.07^°
42.0 ^^
37.70 ^9
36.8 36
7.86
20
17.4
12
4491 ,
59-^ M
18.5
51.22 '5
44-6 !
37.91
40.5 37
8.02
16
16.5
9
45-28 37
61-3
28.5
51.33 '^
470 ^-^
22
38.03 ^\
4
«'i;
8.14
12
8
15.9
6
4
45-53 ^\
^3« :|
Sept. 7.5
51 -39 ^
49-2 ,„
38.07
^■:' s
8.22
15.5
45.66
66.4
17.5
51.41 I
20
51-2 ,„
38.02 5
8.26
4
15.3
2
45-66 °
69-1 '^
27.4
51.39 ^
53.0 «
37.89 \i
550 ^5
8.26
0
15.3
0
45-54
74-4 '
Oct. 7.4
51.34 t
54-5 ^
37.69 ^
58=^ '0
8.22
4
15.5
2
45-31 3
17.4
51.27 7
55-7 •'
37.42 ,;
61. I '9
8.16
6
15.9
4
44-98 33
768 ':^
10
9
32
25
9
5
41
20
27.4
5^-^7 _
56.6
37.10
^3-6 ,„
8.07
16.4
^
44-57 .g
788 ,6
80.4 \\
Nov. 6.3
51.05 ^,
57-2 ;
36.73 :;
656 °
7-97
10
17.0
6
44.09^
16.3
50.92 3
57-5 I
36.33 1^
67.1 "5
1 r\
7.86
II
17.6
6
6
43-57 ^ .
81.5"
26.3
50.79 ^
57.5 °
3590 2^
68.1 '°
7-75
1 1
18.2
4303 ^2
82.0 5
Dec. 6.2
50.66 '3
571 *
35.46 ^
68.5 4
7.64
II
18.8
6
42.49 ^;
81.9 •
13
7
44
2
10
6
51
6
16.2
50.53 ,^
5^-4 ,„
35.02
68.3
7.54
0^
19.4
mm
41.98
8i-3 ,.
26.2
5^-^' 0
55-4 °
^4-59 2o
67.6 7
7-45
9
8
19.9
5
^^•5' li
80.1 "
T ^
36.2
50.31 '"^
54-2 "
34.19^
66.3 '3
7.37
20.3
4
41.10 ^
78.4 '7
Sec<5,Tan«
1.096 +0.448
2.434 +2.219
i.oio -0.141
3.001
-2.830
Mean Place
48M76 30".97
34'-797 33".37
4'.589 34". 1 2
37-.089
79".58
D'^a,Dma
0.00 -0.03
-0.02 -0.14 1 0.00 +0.01
40.02
40.18
D^ d, D« S
-K>.4
-0.3
+0.4
-0.3
1 +0.i
\
-0.3
40,4
-<^^
IBph 13]
476
APPARENT PLACES OF STABS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
d
Aquarll.
a Plscis Austialis.
0 AndromedK.
/^PesMl.
MeanSolar
Mag. 3.5 1
Mag. 1.3
Mag. 3.6
Var. 2.2-2.7
Date.
1
~
Right
Declina-
Right
Declina-
Right
Declina-
Rigbt
Decltoa.
Aacenaioii.
tion S.
Ascension.
tion S.
Ascenskni.
tion N.
Aacemioa.
tioo N.
h
m
0 f
h m
0
f
h m
0 /
h m
0 #
22 I
50
-16 16
0 f
22 52
-30
m 0
4
22 57
+41 51
00
22 59
+2736
Jan. 1.2
s
1.46
6
71.2
s
50.26
50.18 \
w w
74.6
M
8
53-53 „
37.7 ,^
32.26
42.6
II. I
1.40
71-3 •
74.2
4
5338 \\
36.2 \i
32.15 "
41-3 ii
21. 1
1-35
5
I
71.2
50.12
73.5
7
5325 ^\
34.3 Z
32.06 ^
39.7
3I-I
1.33
2
2
71.0
50.09 3
72.5
10
10
53.15 ,
32.1 "
32.00
38-0
Feb. I O.I
1-33
0
70.6 ^
50.09
71.2
13
0
53.09 ^
29.8 ^3
31.97 ^
36.. :i
3
7
3
15
2
23
0
20.0
1.36
6
69.9
50.12
50.18 ^
69.7
53.07 .
27.5 „
31.97 .
34-4,,
Mar. 2.0
1.42
69.0 ^
68.0
17
5309
=^5-2 '^
32.00 3
32-7
I2.0
152
10
67.9
50.28 ^
66.1
19
53-16 7
23-0 "
32.08 ^
31-2
22.0
1.65
13
66.6 '3
50.42 ,;
64.1
20
53-29 \
«, ^ 20
21.0 ,
32.20 '
30.0'
31-9
1.82
17
65.1 '\
50.60 '^
61.9
22
53.47 '
19.4 ,,
3^36 ^^
29.1 \
20
16
21
23
23
12
20
Apr. 10.9
2.02
«% 0%
^? J -
50.81
59.6
^ *9
53-70
18.2 ^
17.4 ;
32.56
28.5 ,
20.9
2.25
23
51 06 '^
57-3
23
53-97 :'
32.80 **
28.3
30.8
2.52
27
59.7 ^°
28
51-34 ,,
54.9
24
54-28 3
17.1 3
3307 '^
28.6 ^
May 10.8
2.81
29 . 57.7 -
51.66 3-
52.6
23
54-63 ^l
17.3 ,
33.38 3'
29-3 „
20.8
3.13
32
55.6 "
52.00 3*
50.4
22
5500 37
18.0 7
33.71 33
30-4
33 ]" 20|
35
21
38
12
34
15
30.8
346
53-6 _
52.35 ,-
48.3
55-38 ^^
19.2
3405
3'-9 ,»
33-7 »
June 9.7
3.79
33
<9 t
^ 20
5'-^ ,0
5^-7' 6
5307 „
46.4
19
55-77 t!
56'5 ^,
20.9 '
34.40 3*
34-74 „
19.7
4.12
33
49-7 '
44.8
10
35-8"
29.7
4.44
32
48.0 7
5342 ^f
43.5
13
56-52 "
25.3 *
35.07 Z
40.8
July 9.7
4.75
31
28
46.5 '^
13
5376 ^^
42.5
10
7
56.86 34
31
28.0 ^7
29
3538 ^'
29
19.6
5.03
^ #*
^^•^ ,0
5407
41.8
M
57-17 „
30.9 .,
3567 „
«-5 >8
29.6
5-28
25
44-2 •°
54-34 '^
41.4
4
57-44 ^
34.0 3'
35.92 *
46-3
Aug. 8.6
5.49
" ' 43.5 '
54-57 \\
41.4
0
57-66 "
5784 !
37.2 3,^
36.13 "
49-0
18.5
5.66
17
43- 1 t
54-76 9
41.7
3
40.4 ^'
36.30 7
5-7 :i
54-3,4
28.5
5-79
13
8
2
42.9 ^
14
54.90 4
42.4
7
9
57-97 ^
43.6 3'
3>
36.4. '^
Sept. 7.5
5.87
43.0
54-99 ^
43.3
58-04 ,
4^-7 „
36.50
5<*-7 ,3
59-%
17.5
5.91
4
43-3 f
55-03 ;
44.4
1 1
58.06 *
52.2 ^"
36.54 .
27.4
591
0
43.8 \
55-03
45.6
12
V 4%
58-04 '
5798 ,^
36.53 !
61.0"°
Oct. 7.4
5.87
4
44-5 g
54-99 g
54-91 ^^
46.9
13
54.6 w
36.49 ,
62.7 '^
64.1 •♦
17.4
5.80
7
9
45.3 g
48.3
14
13
57-88 ;«
567 :•
36.42 7
27.4
5.71
46.1 ^
46.9 g
54-80
49.6
57-75 ,^
58-5 ,^
36.33 ,.
65.3 8
Nov. 6.3
5.60
II
54-67 ^
50.8
12
57-60 5
59.9 '*
36.22 "
66.1 '
16.3
5-49
II
47-7 ,
54-53 J
51.8
10
8
6
57-43 ,^
60.8 9
36.09 '3
66.6 '
f
26.3
5.37
12
48.4 ^
49.0
54-39 J
52.6
61.3 5
35.96 \\
66.7
Dec. 6.2
5-25
12
54-25 '^
53.2
57-06 '9
61.3 ^
3582 '*
66.5;
^1^ ^i'
II
5
13
3
18
4
X3
16.2
514
49-5 ,
54-12
53.5
56.88
56.70 !
60.9
3569 „
65.9 -
26.2
5.05
9
49.8 \
54.01 "
53.6
I
60.0 ^
35.56 ;f
65.0 ,
36.2
4.98
7
50.0
53.92 9
53.3
3
56.53 '^
58.7 ^^
35-45
63.8 "
Sec (5, Tan 6
X.042 -0.292
1. 156 ^.579
1-343 +0.896
1.129 ■•0.5'}
Mean Place
2*.o62 61 ".49
50».766 61 ".07
54».897 29''.47
33'.287 38".27
D'^ a, Dw a
0.00 +0.02
0.00 +0.04
-o.oi -0.06
0.00 -0.03
D^ d, D« 6
+0.4
[
-0.3 1
+0.4
^.3
+0.4
-0.3
•K>.4
-0.3
lEpb is'i
APPARENT PLACES OF STABS, 1913
477
FOR THE UPPER TRANSIT AT WASHINGTON.
ar Pegasi.
6ftPesMi.
(? AqnaxU.
^ Cephei.
M«ui Solar
Mag. 2.6
Mag. 4.7
Mag. 3.8
Mag. 4.6
Date.
Richt
Declina-
Right
Declina-
Right
Declina-
Right
Dedina*
AjcensioB.
tion N.
Ascension.
tion N.
Ascension.
tion S.
Ascension.
thmN.
h m
0 0
h m
0 /
h m
0 /
h m
0 /
23 0
+ 1444
ft
23 2
+ 856
23 4
-21 38
mm
23 5
+74 54
Jan. 1.2
24.73 ^
^^•5 ,,
36.51 «
36.43 J
36.37 J
w '
20.0
48.09 ^
48.01 \
47.95 \
WW
52.7 .
*
342 ,
76-3 ,
II. 2
24.64 9
12.4 "
I9.I ^
52.6 '
2-73?
75-0 '3
21. 1
24.57 I
11.2 "
18.I ^^
52-3 \
2.11 ^^
73-1 '9
31.1
24.53 I
9-9 '3
36.33 :
I7.I '°
47.91 ^
51-8 \
t-59 5^
70.8 ="3
Feb. ID. I
24-51 ,
8.7
36.31 ]
16.2 9
47.90 '
51.0 *
1.194°
68.1*7
I
II
I
8
2
10
^ 26
29
20.0
24-52
7-6
36.32
15.4 ^
47.92
5°° . ,
0.93 ,
65.2
Mar. 2.0
2456 I
24-64 ,,
6.6 "°
5.8 «
36.36 *
36.44 „
14.7 7
47.97 I
48.05 ^°
48.8 \\
0.82 "
62.1 3'
I2.0
14.2 ^
474 \\
0.86 ^
59-0 3'
22.0
24.76 \l
5.3 ;
36.55
14.0 ^
48.17 '
45-8 S
, .^A 20
1.06
56.0 30
31.9
24-91 ,„
5.0 ^
36.70 5
I4.I \
48.32 \l
44.0 '»
1. 41 35
53-3 "7
19
I
«9
4
19
19
49
24
Apr. 10.9
25.10
5-^ JL
36.89
14.5 ^
48.51 „
42-1 „
^•90^^
50.9
20.9
^5-32 "
25-58 ll
5-5 *
37." "
15.2 *
48.74 ^
49.00
40.0
« .-« 62
2.52
49-0 !
30.9
37-36 '5
tA a 10
10.2
37-8 "
325 i"^
47-6 '4
May 10.8
25.87 ^'
7-4"
37.64 !°
^7-5 !^
49-29 ,;
35-6 \\
406 -,
46.7 9
20.8
26.18 3' ! 8.9 '5
32 ; 17
37-94 J,
I9.1 1
^ 18
49.60 3'
33
33.4
22
86
4-92 89
46.4 \
0
30.8
26.50
10.6
38.26
^^•9 _
49.93 _ .
31.2
5-81
46.7
June 9.7
26.83 ^-^
T/* A 20
12.0
38.58 f.
z*^ ^ 20
22.9
50.27 ^
«^ • 21
29.1 0
6-71 I^
47-6 9
19.7
27-»5 11
H-7 ^!
38.91 33
25.1 "
50.62 f5
27.3 ,
7-59 f
49.1 '5
29.7
^7-47 ,„
17.0 ="3
39-23 ,„
27-3
50.96 r:
^5-7 !
8.42 «^
51.I '°
July 9.7
27.77 ^,
'94 *1
39-53 ^°
^^ - 22
29.5 ^
51.28 3^
24-3 '4
9-'8 I«
53-5 '4
27
24
27
22
29
II
68
29
19.6
28.04 21.8
39.80
31.7
51.57
23.2 _
9.86
56-4
29.6
28.28 **
24-1 'J
40.04 ^
33.9 ,^
51.84'^
22.4 ^
10.44 ^
59-6 3^
Aug. 8.6
28.49 "
26-3
40.25
35-9 «
52.07 \]^
21.9 5
10.91 47
63.1 35
18.6
28.66 '7
28.4 "
40.42 7
37.7 ''
52.26 "9
21.7
11.25 '''^
66.8 37
28.5
28.79 'I
3-4 !^
I"*
40.55 ^
16
39-3 ,,
52.40 ^^
21.8 '
4
11.47 -;
70.6 3f
38
Sept. 7.5
28.87 32.2
40.63
40-7 ,^
52.50
22.2
22.8 ^
^3-6 '
11.56
74-4 ,8
17.5
28.91 ^
33.7 ^
40.68 5
52.55 ;
"•52 ,^
27.4
28.92 '
35.0 \l
40.69 '
42-9 •°
52.56 \
"•36!^
81.9 f
Oct. 7.4
28.89 I
28.83 «
36.0 "^
36.8 ^
40.67
43-6 7
52.53 ^
52.47 \
'^•^ 0
11.08^^
85.4 ^5
17.4
40.62 I
44-« ,
25.6
10.69 ^^
88.7 33
8
5
8
3
8
II
49
29
27.4
^^•75 ,^
37.3 .
40-54 ,-
44-4 ,
52-39 ,„
26.7
10.20
9»-6 ^,
Nov. 6.3
28.65 ^ 37.6 ^
40.44 ,„
44-5
52.29 °
27.7
9.62 58
8.97 \\
94-^ Z
16.3
28.54
37.7 '
4034 , ,
44-3 ,
52.17 "
28.6 9
29.4 ^
96.1 t
26.3
28.43
37-5 ^
40.23 , ,
44.0 \
52.05 "
8.26 7»
97-6 '5
Dec. 6.3
28.31 ''
II
37.1 ^
40.12 "
10
43-5 5
51.93 "
II
30.1 7
0
7.52 ;4
98.5 \
16.2
28.20
36.4 «
40.02
42.9 „
51.82
30.6
6-76 „
98.8
26.2
28.10 '°
3992 '°
39.84 *
4^-^ !
51.71 "
30.9 ^
6.01 75
985 ,^
36.2
28.01 9
34.6^°
41.2 '
51.62 9 31.0 '
5.29 ''
97.5
Sec S, Tan 6
1.034 +0.263
1. 01 2 -w.isy
1.076 -0.397
3-843 +3-7 >>
Mean Place
25*.557
0.00
I3".07
37*.259 2i".32
48*.568 41 ".69
7«.637 61 ".30
DV<i» l>tci
-0.02
0.00 -0.01
+0.01 +0.03
-0.02 -0.34
D^ d, Dm S
+0.4
-0.3
+0.4
-0.2
+0.4
-0.2
+0.4
-0.2
[Bph 13]
478
APPARENT PLACES OF STARS, 1918,
FOR THE UPPER TRANSIT AT WASHINGTON.
t Gruis.
69 Pegasi.
6 Oatsiop. (Heis).
^ Aqnaiii
Mean Solar
Mag. 4. 1
Mag. 5.2
Mag. 5.6
Mag. 44
Date.
Right
Declina-
Right
Declina-
Ri(ht
Declina-
Right , Dedina-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion N.
Ascension. ' ti<ni S.
h m
0 f
h m
0 /
h m
0 f
h m i • '
23 5
-4542
23 7
+ 8 14
m m
23 9
+5641
23 9 \- (>V>
Jan. 1.2
s
25.97 ,^
W W
82.6
s
19.89 .
W W
49.7 „
s
3.50 ,^
9 9
29.0
48*46 -
71-7 .
II. 2
25.83 ^
81.6 '^
19.81 J
48.8 9
3.25 11
27.6 '4
48.38 ° 72.2 *
21. 1
25.72 '
80.2 '*
19.74 I
47.9 '
3.02 -^
25.7 ^9
48.32 \
72.6*
31.1
25.65 ;
785 I
19.70 ^
47.0 9
2.83 9
20.8 "^
27
48.28 ■♦
72.8
Feb. I O.I
25.62 ^
0
76.5 '°
23
19.68 ^
I
46.1 \
2.70 3
48.27 ;
72.9 ,
20.0
25.62
74.2 ,,
19.69
45.3 ^
44.7 °
2.62
18.I
^5-3 :!
48.28
72.8
Mar. 2.0
25.67 1 71.6 in
19.73 ,
2.61 *
48.32 4
72-5 ;
I2.0
25.76 9
68.8"
19,80 7
44.3 :
12.6*7
48.39 ^
72.0 »
22.0
25.90 J 66.0 11
26.08 '^ 63.1 ^9
^9-91 !
2
44.1
2.80 '3
10. 1 *5
48.50 "
7' -3 ,„
31.9
20.05 ^
44.2 ^
-% ^» 21
301 ^^
7.9"
48.64 ^\
70.3 1
23
29
18
4
27
19
18
11
Apr. 10.9
26.31 ,e
60.2
20.23
44.6
3.28
6.0
48.82
69.' „
20.9
26.59 il
57-3 !!
20.45 "
45.3 ,;
3.62 11
4.6'*
49.03 "
67-7
30.9
26.91 \[ 54.5 :::
20.70 I
46.4
4-^^ ^^
3.6
49.28 '5
<^'
May 10.8
27.26 11
5'-9 ::
20.98 f^
47.7 '\
4.44 ^t
3-2 "^
49.56 *»
<^4-3;
20.8
27.64 ^^
49.5 w
21.28 30
49-3 '
4-91 11
3.4 '
49.86 f
62-3^
41
21
32
19
49
7
3>
. 20
30.8
28.05 _
47.4 „
21.60
5>-2 ,„
5.40
4.1
50.17
60.3,,
June 9.7
28.47 1' i 45.6 "
21.92 ^^
53.2 °
5.90 50
5-4'^
50.49 ^
58-^ I
19.7
28.89 4^
44-^ n
22.24 ^^
55-3 :
6.39 49
7.2 ^«
50.82 33
56-2^
29.7
29.30 ^'
43.2 '°
42.6 ^
2
22.56 ^^
57.5
6.85 1^
^ ^ 22
9-4 26
12.0
30
5^H ^!
54<
July 9.7
29.70 ^
37
22.86 30
27
59.7
22
7.28 43
40
5-44^;
52.3 ,y
19.6
30.07
42.4 ,
23.13 ,,
61.9 ,,
7.68
'5.0 „
5^-72 ,,
50-6
29.6
30.40 ^^
42.6 '
23.38 '^
^^•^ 0
8.03 ^5
18.2 3^
51.98 ^t
49-1 ,2
Aug. 8.6
30.69 9
43.3 ,;
23.59 ,8
23.77 ^
66.0 "^
^9-4 !
8.32 ^9
21.6 34
22
52.20 "
47-9 ,^,
18.6
30.92 ^
^•4 1
8.71 ^^
25.1 35
28.7 3*'
52.38 '
46.9 g
46.1
28.5
31.09 7
45-8 "»
23.90 ^
5252 *
12 17
9
14
10
35
10
Sept. 7.5
31.21 47-5
31.27 „:49-4,„
23.99 .
70.8
8.81
32-2 ,^
52.62
52.68 <*
45-6 ,
45-3 \
17.5
24.04 5
71.9 "
8.85 *
35-6 34
27.4
0 ■ 20
31-27 , 514 _
24.06
72.8 9
8.82 3
^•74 ,1
38.9 ^^
52.69 '
45.2 J
Oct. 7.4
3'-^' ,n
53-4 0
24.04
73.5 ^
*"-° 28
44.8'*
24
52.67 \
45-4 ,
17.4
3I.XI -
20
55.4 .3
23.99 .^
74.0 \
8.60 '1
18
52.63 *
45.8 ;
27.4
30.97 „
57-2 -
58.8 ^
23.92
74-2 „
8.42 „
♦7.2 ,„
52.56
46.2
Nov. 6.3
30.80 '7
23.83 ,^
74.2 °
8.21 "
49.2 '°
52.47 '
46.7 \
47-3 6
47-9 ,
16.3
30.61 '9
60.1 '3
10
23.73 ,„
74.1
7.97 'Jt
5°-7 '
52.37 °
26.3
3°-^' !o
61.0 9
61.6 *
I
23.63. °
73-8 ^
29
51.7 't
5^-^6 0
Dec. 6.3
30.21 ^°
«9
23.52 "
11
73.3 \
52.2 5
52.16 '°
10
48.6 ^
16.2
30.02
61.7
^3-41 ,„
72.7 „
7'-9
71. 1
6.85 It
52.2
51.6 ,^
52.06
49-2 .
26.2
29.85 \l
61.4 ^
23.23 *
51.97 \
49.8 '
36.2
29.69 '^ 1 60.6 °
6.58 '7
50.5 "
51.88 9
50.3 '
Sec (5, Tan <5
1.432 -1.025
i.oio +0.145
+I.82I +1.522
1.007 -0.1 14
Mean Place
26*.294 65".50
20*.6o9 5 1 ".07
5-.382 i6".57
49*.02i 6s".56
D'^a, Dwa
+0.01 +0.07
0.00 -0.0 1
-O.OI -O.IO
0.00 +0.01
D^S,DmfS I +0.4 -<}.2
+0.4 -0.2
+0.4 -0.2
40.4 -0.2
VUphisV
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
479
Mean Solar
Date.
fp Aquaiii.
Mag. 4.5
Right
Aacennon.
Jan. 1.2
II. 2
21. 1
Feb. 1 0.1
20.1
Mar. 2.0
12.0
22.0
31-9
Apr. 10.9
20.9
30.9
May 10.8
20.8
30.8
June 9.8
19.7
29.7
July 9.7
19.6
29.6
Aug. 8.6
18.6
28.5
Sept. 7.5
17.5
275
Oct. 7.4
17.4
27.4
Nov. 6.3
16.3
26.3
Dec. 6.3
16.2
26.2
36.2
h
23
in
II
s
1956
19.48
19.42
19.38
19.37
19.38
19.42
19.49
19.59
19.73
19.91
20.13
20.38
20.65
20.95
8
6
4
I
I
4
7
10
18
22
25
27
30
32
21.27
21.60 ^^
33
32
31
29
Declina-
tion S.
"9 33
tt
Sect5,Tan5
Mean Place
D'l^ a^ Dm a
D^ d. Dm d
21.93
22.25
22.56
22.85
23.11
23.33
23.51
23.65
23.75
23.81
23.83
23.82
23.78
23.71
23.62
23.52
23-41
23.30
23.20
23.11
23.02
26
22
18
14
10
6
2
I
4
7
9
10
II
II
10
9
9
49-4
49.8
50.1
50.2
50.1
49.8
49-3
48.6
47.7
46.6
45.2
43.6
41.9
40.0
38.0
35.9
33.8
31.8
29.8
28.0
26.4
25.0
23.9
23.1
22.5
22.2
22.1
22.2
22.5
23.0
23.6
24.2
24.9
25.6
26.3
26.9
27.4
27.8
y TuoansB.
Mag. 4. 1
4
3
I
I
3
5
7
9
II
14
16
17
19
20
21
21
20
20
18
16
14
II
8
6
3
I
I
3
5
6
6
7
7
7
6
5
4
1. 014 -0.168
20*.o87 42 ".35
Right
Ascension.
Declina-
tion S.
h
23
ni
12
s
21.29
21.06 ^^
20.88 '®
14
9
3
2
9
20.74
20.65
20.62
20.64
20.73
20.88 *5
21.09 ^^
27
21.36
21.69 ^^
22.08 ^^
44
5842
f/
22.52
22.99
23.49
24.01
47
50
52
53
24.54 .^
25.06 52
25.56 J^
26.03
26.45 \l
26.81 36
27.11 ^°
22
27.33
0.00
+0.4
+0.01
-0.2
27.47
27.54
2753
27.44
27.29
27.08
26.83
26.55
26.25
25.94
2564
2536
25.11
14
7
I
9
15
21
25
28
30
31
30
28
25
66.9
65.5
63.6
61.3
58.7
55.8
52.7
49.4
46.0
42.6
14
19
23
26
29
31
33
34
34
33
y Plscium.
Mag. 3.8
Right
Ascension.
39'3
36.1
33.1
30.3 __
27.8 ^5
32
30
28
25.7
24.0
22.8
22.1
21.9
22.1
22.8
24.0
25.6
27.6
29.8
32.2
34-7
37.2
39.5
21
17
12
7
2
2
7
12
16
20
22
24
25
25
23
21
18
41.6
44.8 '^
45.8 ^^
46.3 ^
46.2
45-6
44.5
6
II
1.926 -1.645
2i*.473 47".47
+0.01 +0.1 1
+0.4 -0.2
lEph X3l
h
23
m
12
Declina-
tion N.
38.66
38.58
38.52
38.48
38.46
38.47
38.50
38.57
38.67
38.81
38.99
39.20
39.45
39.73
40.03
+ 248
ff
8
6
4
2
3
7
10
14
18
21
25
28
30
31
40.34 „
40.66 ^^
40.99
41.31
41.61
33
32
30
28
25
22
18
41.89
42.14
42.36
42.54 ,,
42.68 '^
10
42.78
42.84 ^
42.86 ^
42.85 '
42.81 4
42.75
42.66 ^
42.56 \l
42.46 °
42.36 '°
10
42.26
42.17 I
42.08 9
21.4
20.6
19.9
19.3
18.7
18.2
17.9
17.8
18.0
18.5
19.2
20.2
21.4
22.9
24.6
26.5
28.6
30.7
32.9
35'0
37.0
38.9
40.6
42.1
43.4
44-5
45.3
45.9
46.3
46.5
46.5
46.3
46.0
45-5
45.0
44.4
43-7
43.0
y Sonlptoris.
Mag. 4.5
8
7
6
6
5
3
I
2
5
7
10
12
15
17
19
21
21
22
21
20
19
17
15
13
II
8
6
4
2
o
2
3
5
5
6
7
7
Right Declina-
Ascension. 1 tion S.
h m
23 14
s
736
7.26
7.18
7.12
7.09
I.OOI
39". 294
+0.049
24".38
0.00
+0.4
0.00
-0.2
10
8
6
3
o
7.09
7.13
7.21
7.32
7.47
4
8
II
»5
19
24
27
30
7.66
7.90
8.17
8.47
8.80 3^
35
9.15
9.52 -^^
9.89 \l
0.25 ^^
0.60 ^^
33
0.93
1.23
1.48
1.69
1.85
30
25
21
16
II
1.96
2.03
2.05
2.03
1.96
1.86
1-74
1. 61
1.47
1.32
1. 18
1.05
0.93
7
2
2
7
10
12
13
14
15
14
13
12
-33 o
ff
36.2
35.8
350
33.9
32.5
30.9
29.0
26.9
24.7
22.3
19.8
17.3
14.7
12.2
9.8^4
22
7.6
5.6
3.9
2.4
1.3
0.6
0.3
0.3
0.7
1.4
4
8
II
14
16
19
21
22
24
25
25
26
25
20
17
15
II
7
3
o
4
7
10
13
14
2.4
3-7
5.1
6.6^5
8.2 '^
9.7
II. I
12.3
13.3
14.0
14.4
14.5
14.3
14
12
10
7
4
I
2
1. 192 -0.650
7".705 22". 21
0.00
+0.4
+0.04
-0.2
480
APPAKENT PLACES OF STARS, 1913,
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 1.2
II. 2
21. 1
Feb. I O.I
20.I
Mar. 2.0
I2.0
22.0
31.9
Apr. 10.9
20.9
30.9
May 10.8
20.8
30.8
June 9.8
19.7
29.7
July 9.7
19.6
29.6
Aug. 8.6
18.6
28.5
Sept. 7.5
17.5
27-5
Oct. 7.4
17.4
27.4
Nov. 6.3
16.3
26.3
Dec. 6.3
16.2
26.2
36.2
Seed, Tan (5
Mean Place
2V <^/ ^*^ ^
o Cephei.
Mag. 4.9
Right
Ascension.
h
23
m
14
s
60.13
5969
5929
58.96
58.70
44
40
33
26
17
8
3
14
58.53
58-45
58.48
58.62
58.86 ^4
34
59.20
59.63
60.14
60.71
61.33
61.98
62.63
63.27
63.89
64.47
43
57
62
65
65
64
62
58
52
64.99
6544
65.81
66.10^9
66.30 "^
45
37
66.42
66.45
66.39
66.25
66.03
65.74
65.40
65.00
12
3
6
14
22
29
34
40
^456 \l
64.10 4^
47
6363
63.16^7
62.70 ^
Declina-
tion N.
+6737
//
82.0
80.7 ^3
78.9
76.7
74.1
71.3
68.3
65.3
62.5
59.9
57.6
55.8
54.5
53.7
53.5
53.9
54.8
56.3
58.3
60.7
635
66.7
70.1
73.7
77-4
81.2
84.9
88.5
91.9
95.1
97.9
100.3
102.3
103.7
104.5
104.7
104.4
103.5
18
22
26
28
30
30
28
26
23
18
13
8
9
15
20
24
28
32
34
36
37
38
37
36
34
32
28
24
20
14
8
2
3
9
2.628
62».863
+2.431
67".35
-0.0 1
+0.4
-0.16
-0.2
r Pegasi.
Mag. 4.6
Right
Ascension.
h
23
m
16
i8!86
18.75
18.66
18.59
18.55
II
9
7
4
I
2
6
10
18.54
18.56
18.62
18.72
18.86 '^
18
19.04
19.26
1952
19.81
20.12
22
26
29
31
33
20.45
20.79
21.13
21.46
21.78
22.07
22.33
22.55
22.73
22.87
22.97
23.03
23.05
23.03
22.98
22.91
22.82
22.71
22.59
22.47
22.35
22.23
22.12
34
34
33
32
29
26
22
18
14
10
6
2
2
5
7
9
I
2
2
2
2
I
Declina-
tion N.
+23 15
i>
54.0
52.9
51.5
50.0
48.5
47.0
45.5
44.2
43-2
42.5
42.1
42.1
42.5
43.2
44.3
45.8
47.6
49.7
52.0
54.4
56.9
59-5
62.1
64.6
67.0
II
14
15
15
15
15
«3
10
7
4
o
4
7
II
15
18
21
23
24
25
26
26
25
24
22
20
18
15
69.2
71.2
730
74.5
75.8 '^
10
76.8
77-5
77.9
78.0
77'^
77-3
76.5
75.5
8
10
1 .089 +0.430
I9*.722 50". 17
0.00 -0.03
+0.4 -0.2
\Ep\i 13\
h^ Aqnaril.
Mag. 4.2
Right
Ascension.
h
23
s
23.75
23.66
23.59
23.54
23.52
23.52
23.55
23.61
23.71
23.85
24.03
24.24
24.49
24.77
25.07
m
18
9
7
5
2
o
3
6
10
14
18
21
25
28
30
33
34
25.40
25.74
26.08 ^^
26.42 ^^
26.74
32
30
27.04
27.31
27.55
27.75
27.90
28.01
28.08
28.11
28.10
28.05
27.98
27.88
27.77
27.66
27.54
27.43
27.32
27.22
27
24
20
»5
II
7
3
I
5
7
10
II
II
12
II
II
10
Declina-
tion S.
4 Cassiopeije.
Mag. 5.2
-2034
n
42.9
42.9
42.7
42.3
41.6
40.7
39.6
38.2
36.6
34.8
32.9
30.8
28.6
26.4
24.1
21.9
9.8
7.9
6.2
4.7
3.5
2.6
2.0
1.7
1.7
2.0
2.5
3.3
4.2
5-2
6.3
7.4
8.4
9.3
20.0
20.6
21.0
21. 1
o
2
4
7
9
II
14
16
18
19
21
22
22
23
22
21
19
17
15
12
9
6
3
o
3
5
8
9
10
II
II
10
9
7
6
4
I
Right
1.068 -0.375
24*. 149 32^.58
0.00
+0.4
+0.02
-0.2
h m
23 20
55.88
55-55
55.25
55.00 ^5
54.80
33
30
20
54.67
54.61
54.63
54.74
54.94
13
6
2
II
30
38
Declina-
tion N.
-I-6148
ft
29.3 „
27.1
24.6^5 ,
21.9 ]
19.0'^ ]
16. 1 ^^ '
13.4'^
11.0^*
55.22
55.57 ^^
55.99
56.46
56.98
42
47
52
54
55
57.52
58.07
58.61 54
59.14^^
59.64 ^°
45
60.09
60.48 39
60.81 33
61.08 ^7
61.28 ^^
61.40
61.45
61.43
61.34
61.19
12
5
2
9
15
21
25
29
60.98
60.73
60.44,,
60.12 32
59-78 34
5942 ,
59.06 3^
58.72 *♦
21
8.9
7.2
6.0
5.3
5.2
17
12
7
I
4
5-6
6.6'^
8.1^5
10.1^
12.6 ^5
29
18.6 3*
22.0^
36.3 ,
39-8 f,
43.1 •'''
III y"
48.8
52.9 ,3
54.2 \
55.0 .
29
55.2
54.8
53.9
4
9
2.1 16 +1.865
57«.99i i«".2i
-OX)I
+0.4
-0.12
-0.2
APPARENT PLACES OF STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
481
Mean Solar
Date.
t^Pegasl.
Mag. 4.6
Right
Ascenskm.
Jan. 1.2
II. 2
21. 1
Feb. 10. 1
20.1
Mar. 2.0
12.0
22.0
31.9
Apr. 10.9
20.9
30.9
May 10.8
20.8
30.8
June 9.8
19.7
29.7
July 9.7
19.6
29.6
Aug. 8.6
18.6
28.5
Sept. 7.5
17.5
27-5
Oct. 7.4
17.4
27.4
Nov. 6.3
16.3
26.3
Dec. 6.3
16.2
26.2
36.2
h
23
s
1.27
1. 17
1.08
I.OI
0.96
0.94
0.96
1.02
I. II
1.24
1.42
1.64
1.89
2.18
2.49
2.82
316
350
3.83
4-15
•
4-44
4.70
4.93
512
5.27
5.37
5-43
546
5-45
5-41
5-34
525
514
503
4.91
479
4.67
4.56
m
21
10
9
7
5
2
2
6
9
13
18
22
25
29
31
33
34
34
33
32
29
26
23
19
15
10
6
3
X
4
7
9
II
II
12
12
12
II
Declina-
tion N.
+2255
n
33-7
32.6
29.9
28.4
26.9
25.5
24.2
23.2
22.5
22.1
22.1
22.5
23.2
24.3
257
27.5
29.6
31-9
34-3
II
13
14
15
15
14
X3
10
7
4
o
4
7
II
14
18
21
23
24
25
26
25
25.
36.8
39.4
41.9
46.8 ^^
22
49.0
51.0
52.8
54.3
55.6
20
18
13
10
56.6
57.3
57.7
57.8
57.6
57.1
56.4
55.4
7
4
I
2
5
7
10
Sec «, Tan 6
Mean Place
1.086 +0.423
2". 105 29".78
D V a, D« a 0.00 -0.03
D^^, D»^ +0.4 -0.2
1913 31
K Plscium.
Mag. 4.9
Right
Ascension.
h
23
m
22
27.80
27.72
27.65
27.60
27.57
27.57
27.59
27.65
27.74
27.87
28.04
28.24
28.48
28.75
29.04
29.35
29.67
29.99
30.31
30.62
30.91
31.39
31.58
31.73
31.84
31.90
31.93
31.93
31.90
31.84
31.76
31.67
31.57
31.47
31.37
31.27
31.18
8
7
5
3
o
2
6
9
13
17
20
24
27
29
31
Z^
32
32
31
29
26
22
19
X5
II
6
3
o
3
6
8
9
10
10
10
10
9
Declina-
tion N.
+ 046
n
42.0
41-3
40.7
40.1
39.6
39.3
39-2
39.3
39.6
40.1
40.9
42.0
43.3
44.9
46.7
48.6
50.6
52.7
54.8
56.9
58.9
60.7
62.3
63.7
64.9
65.9
66.6
67.1
67.4
67.5
67.4
67.1
66.7
66.2
65.6
65.0
64.4
63.7
7
6
6
5
3
I
I
3
5
8
II
X3
16
18
19
20
21
21
21
20
18
16
14
12
10
7
5
3
I
I
3
4
5
6
6
6
7
1. 000 +0.014
28».358 45"-32
0.00 0.00
+0.4 -0.2
lEph 13I
0 PUclnin.
Mag. 4.4
Right
Ascension.
h m
23 23
s
32.64
32.55
32.48
32.43
32.40
32.40
32.42
32.47
32.56
32.69
9
7
5
3
o
5
9
13
17
20
24
27
32.86
3306
33.30
33-57 ,„
33.86 ^9
31
34.17
34.49
34.81
35.13
35.44
32
32
32
31
29
35.73
35-99
36.21
36.39
36.54
36.65
36.72
36.75
36.75
36.72
36.66
36.58
36.49
36.39
36.29
36.19
36.09
36.00
26
22
18
15
II
7
3
o
3
6
8
9
10
10
10
10
Declina-
tion N.
+ 5 53
ft
62.2
61.4
60.6
59.8
59.1
58.5
58.0
57.7
57.7
58.0
58.6
59-4
60.5
61.9
63.5
65.3
67.3
69.4
71.6
73.8
75.9
77.9
79.7
81.4
82.9
84.2
85.2
86.0
86.6
86.9
87.0
87.0
86.8
86.4
85.9
85.3
84.6
83.9
8
8
8
7
6
5
3
o
3
6
8
II
14
16
18
20
21
22
22
21
20
18
17
15
13
10
8
6
3
I
o
2
4
5
6
7
7
1.005 +0.103
33V250 63".73
0.00
+0.4
-0.0 1
-0.2
70 Pegasl.
Mag. 4.7
Right
Ascension.
h m
23 24
8
44.54
44.45
44-37
44.31
44.28
44.27
44.29
44.34
44-43
44.55
44.72
44.93
45-17
45-44
45.74
46.05
46.37
46.70
47.02
47.33
47.62
47.88
48.11
48.30
48.45
48.56
48.63
48.66
48.65
48.62
48.56
48.48
48.39
48.29
48.18
48.07
47.97
47.88
9
8
6
3
I
5
9
12
17
21
24
27
30
31
32
33
32
31
29
26
23
19
15
II
7
3
I
3
6
8
9
10
II
II
10
Declina-
tion N.
+ 12 16
It
50.4
49.4
48.4
47.4
46.4
45.4
44.6
44.0
43-6
43.4
43.6
44.1
44.9
46.1
47.6
10
10
10
10
10
8
6
4
2
2
5
8
12
X5
17
49.3
51.2
53.3
55.5 ,,
57.8 3
19
21
22
60.1
62.3
64.4
66.4
68.2
69.8
71.2
72.4
73.4
74.1
74.6
74.8
74.8
74.6
74.2
7Z'7
73.0
72.1
23
22
21
20
18
16
12
10
7
5
2
o
2
4
5
7
9
1.023 -K).2l8
45».2io 49".72
0.00
+0.4
-0.0 1
-0.2
482 . APPARENT PLACES OP STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 1.2
II. 2
21. 1
31.1
Feb. I O.I
20.I
Mar. 2.0
I2.0
22.0
Apr. I .o
10.9
20.9
30.9
May 10.8
20.8
30.8
June 9.8
19.7
29.7
July 9.7
19.7
29.6
Aug. 8.6
18.6
28.5
Sept. 7.5
17.5
27.5
Oct. 7.4
174
27.4
Nov. 6.4
16.3
26.3
Dec. 6.3
16.2
26.2
36.2
Sec <5, Tan 8
Mean Place
D'^a, Dwa
/3 Sculptoris.
Mag. 4.5
Right
Ascension.
h
23
m
28
8*36
8.24
8.13
8.05
8.00
12
II
8
5
2
I
5
10
7.98
7.99
8.04
8.14
8.28 '4
18
8.46
8.69
8.96
9.27
9.61
23
27
31
34
36
19.97
20.35
20.73
21. II
21.48
21.83
22.15
22.43
22.67
38
38
38
37
35
32
28
24
22,86 '9
13
22.99
23.07
23.10
23.09
23.03
22.93
22.81
22.67
22.51
22.34
22.18
22.03
21.89
8
3
I
6
10
12
14
16
17
16
15
14
Declina-
tion S.
-38 17
n
73-9
73-4
72.5
71.2
69.6
67.7
65.6
63.2
60.7
58.0
55-2
52.4
49.6
46.9
44-4
5
9
13
16
19
21
24
25
27
28
28
28
27
25
23
21
18
42.1
40.0
38.2
36.8 !^
35.7
II
7
35.0
34-8
35.0
35.6
36.6
37-9
39.4
41. 1
42.9
44-7
46.5
48.1
49.5
50.6
514
51-9
52.0
51.7
2
2
6
o
3
5
7
8
8
8
6
4
I
8
5
I
3
1.274 -0.790
I8V557 58".85
0.00
+0.4
+0.05
-O.I
72Pecasi (mean).
Mag. 5.2
Right
Ascension.
h m
23 29
s
37.13
37.00
36.89
36.80
36.73
36.70
36.70
36.74
36.82
36.95
37.13
37.35
37.61
37.91
38.23
38.57
38.93
39.29
39-64
39-97
13
II
9
7
3
4
8
13
18
22
26
30
32
34
36
36
35
33
31
28
40.28
40.56
40.80 ^^
41.00
41.16
20
16
12
41.28
41-35
41-38
41.37
41-33
7
3
I
4
7
9
II
13
41.26
41.17
41.06
40.93 ^.
40.80 ^^
14
40.66
40.52
40.39
14
13
Declina«
tion N.
+3050
/r
49-3
48.1
46.7
45.1
43.4
41.6
39.8
38.1
36.6
35-4
34.6
34-2
34-1
34-5
35-3
12
14
16
17
18
18
17
15
12
8
4
I
4
8
12
36.5
38.1
40.1
42.3
44.8^5
16
20
22
A. Andromedse.
Mag. 4.0
Right
Ascension.
47.4
50.1
52.9
55-6
58.3
60.9
63-3
65.5
67-5
69.2
70.6
71.7
72.5
72.9
73-0
72.7
72.0
71.0
26
27
28
27
27
26
24
22
20
17
14
II
8
4
I
3
7
10
1. 165 +0.597
38».045 42^.42
0.00 -0.04
+0.4 -0.1
h
23
m
33
6^87
6.68 '9
6.51 ''
6.36
6.25
15
II
7
6.18
6.15
6.18
6.26
6.40
3
3
8
14
20
25
30
34
6.60
6.85
7.15
40
8.27
8.68 4'
42
9.10
9.50
9.88
40
38
36
32
28
23
18
13
8
2
2
6
9
21.31
21.18 '^
21.02 '
20.84 '^
20.65 '^
20
20.45
20
20.25
20.06 '9
20.24
20.56
20.84
21.07
21.25
21.38
21.46
21.48
21.46
21.40
Declina-
tion N.
+45 59
//
23.6
22.4
20.8
18.9
16.7
14.4
12.0
9.7
7-5
5.5
3.9
2.7
2.0
1.8
2.1
2.8
4.0
5-7
7.8
10.2
13
16
22
23
24
23
22
20
16
12
7
2
3
7
12
17
21
24
27
12.9
15.8 '^
18.9 ^'
22.1 ^^
25-3 'I
32
28.5
31.6 3'
34.5 '^
37.2
39-7
27
25
21
41.8
43.6
45.0
45.9
46.3
46.3
45.8
44.9
18
14
9
4
o
5
9
I Aadiomete.
Mag. 4.3
Right
Aflcensioa.
h m
23 33
Decfiaa*
tionK.
+4247
17
16
13
ID
S
50.78
50.61
50.45
50.32
50.22
7
50.15 ,
50.13 .
50.16 I
50.24
50.37 *^
19
50.56
50.80 ^^
51.09
51.42
51.78
29
33
36
38
1-439
i8«.ii6
+1.035
I2".25
0.00
+0,4
.07
-O.I
52.16
52.56
52.96
53.35
53.72
54.06
54.37
54.64
54.86
55.04
55.17
55.25
55.28
55.26
55.;2i
40
40
39
37
34
31
27
22
18
13
8
3
2
5
9
12
55.12
55.00
54.86 ]i
54.70
54.53
16
17
18
54.35 ,^
54.16*9
53.98
18
It
21.4
20.2
18.7*2
16.9
14.8
12.6
10.3
8.1
6.1
4.3
2.8
1.8
1.2
i.i
1.5
il
2t
32
2]
30
It
15
10
6
I
4
S
^'^ 21
12.6
18.6^'
21.7^'
248 ^'
27.9
30.9^
337
36.2
3«-5 :^
405 ,.
42.2 '^
43-5
44-3
44.7
44.6
44.1
43-2
^
1.363 +0.9:6
5i*.928 io".90
0.00
404
-0.06
-0.1
APPARENT PLACES OF STARS, 1913
FOR THE UPPER TRANSIT AT WASHINGTON.
483
MetaSolar
Date.
Jan. 1 .2
1 1. 2
21. 1
Feb. I O.I
20.I
Mar. 2.0
I2.0
22. o
Apr. I .o
10.9
20.9
30.9
May 10.8
20.8
30.8
June 9.8
19.7
29.7
July 9.7
19.7
29.6
Aug. 8.6
18.6
28.5
Sept. 7.5
17.5
27.5
Oct. 7.4
27.4
Nov. 6.4
16.3
26.3
Dec. 6.3
16.2
26.2
36.2
2 Pitelnm.
Mag. 4.3
Right
Ascension.
h m
23 35
8
27.96
27.87
27.79
27-73
27.69
27.67
27.68
27.73
27.81
27.93
9
8
6
4
2
Declina-
tion N.
+ 59
n
I
5
8
12
x6
28.09
28.28 '9
28.51 ^^
28,77 '^
20.06 ^^
31
29.37
29.69
30.01
30.33
30.64
32
32
32
31
29
Sec ^, Tan d
Mean Place
30.93
31.20
31.44
31.64
31.80
31.92
32.00
32.04
32.05
32.03
31.99
31.92
31.84
31.75
31.65
31.54
31.44
31-35
27
24
20
16
12
8
4
I
2
4
7
8
9
10
II
10
9
5.5
4.7
3.9
3.2
2.5
1.9
1-5
1.3
1.3
1.6
2.2
3-1
4.2
5.6
7.2
19.0
21.0
23-1
25.2
27.3
29.4
31.4
33.2
34.9
36.3
37-5
38.5
39.2
39-7
40.0
40.1
40.0
39.8
39.4
38.9
38.3
37.6
36.9
8
8
7
7
6
4
2
o
3
6
9
1 1
14
16
18
20
21
21
21
21
20
18
»7
14
12
10
7
5
3
I
I
2
4
5
6
7
7
1.004
28".488
+0.090
i6".79
0.00
+0.4
-0.0 1
-0.1
y Cephei.
Mag. 3.4
Right
Ascension.
h m
23 35
41.85
40.99
40.19
39.49
38.91
38.47
38.20
38.11
38.21
38.49
38.95
39.57
40.33
41.20
42.16
86
80
70
58
44
27
9
10
28
46
62
76
87
96
102
Declina-
tion N.
^77 8
//
104
43.18
44.22
45.26 >°4
46.27 '^^
47.22
48.09
48.86
49.51
50.04
50.43
50.67
50.77
50.72
50.53
50.20
49.75
49.18
48.50
47.73
46.90
46.03
45.14
44.26
95
87
77
65
53
39
24
10
5I
191
33 1
45
57
68
77
83
87
89
88
65.7
64.8
63.4
61.5
59.1
I
; 56.3
I 53.3
150.3
47.3
44.4
41.8
39-6
37.8
36.5
35.8
35.7
•36.1
37-1
38.7
40.8
43.3
46.2
49-5
53.0
56.7
60.5
64.4
68.2
71.9
75.4
78.6
81.5
83.9
85.9
87.3
88.1
88.2
87.7
9
14
19
24
28
30
30
30
29
26
22
18
13
7
I
4
10
16
21
25
29
33
35
37
38
39
38
37
35
32
29
24
20
8
4-497 +4.384
46».i03 48".46
-o.oi -0.29
+0.4 -o. I
IBph x3i
K Andromedae.
Mag. 4.3
Right
Ascension.
h
23
s
5-99
5.81
565
5.51
540
5-33
5.30
5.32
5.40
5.54
m
36
18
16
14
II
7
3
2
8
14
19
24
5-73
5-97 ,^
6.26 '9
6.59 ^^
6.95
36
39
Declina-
tion N.
12
15
+43 50
78.4
77.2
75.7
'^ ' 18
73.9
71.8"
23
69.5 ^,
67.2 ^3
/;l ^ 22
65.0
62.9
61. 1
21
18
15
7.34
7.74
8.14
8.54
8.92
9.27
9-59
9.86
0.09
0.27
0.40
0.48
0.51
0.50
0.45
0.36
0.24
o.io
9.94
9.76
9-57
9.38
9.20
40
40
40
38
35
32
27
23
18
13
8
3
I
5
9
12
14
16
18
19
19
18
59.6
58.5
57.8
57.6
57-9
II
7
2
3
8
58.7
60.0 ^^
61.7^7
63.8^'
66.2 ^4
27
68.9
71.8^9
74.9^^
78.0 3'
81.2 3^
31
26
90.1
92.7
95-1
97.2
98.9
100.2
lOI.I
101.6
101.6
lOI.I
100.2
24
21
17
J3
9
5
o
5
9
1.387 +0.961
7M44 67^.48
Cit' Aqnaril.
Mag. 4.6
Right
Ascension.
0.00 -0.06
+0.4 -O.I
b
23
s
2.37
2.27
2.19
2.13
2.09
2.07
2.08
2.13
2.21
2.33
2.48
2.67
2.90
3.16
3.45
3.76
4.09
4.42
4.75
5.07
m
38
10
8
6
4
2
I
5
8
12
15
19
23
26
29
31
33
33
33
32
30
28
25
21
5-37
5.65
590
6. 1 1
6.28 ^7
13
6.41
6.49
6.54
6.55
6.52
6.47
6.40
6.31
6.21
6.10
5.99
5.89
5.79
7
9
10
II
II
10
10
Declina-
tion S.
-15 I
//
41.4
41.6
41.7
41.6
41.2
40.6
39.8
38.8
37.5
36.0
34.3
32.4
30.4
28.3
26.1
a
z
I
4
6
8
10
13
15
17
19
20
21
22
22
22
21
19
239
21.7
9.6
77
6.0 '7
15
4.5
3.2
2.2
1.6
1-3
13
10
6
3
I
1.2
1.4
1.9
2.6
3-4
4.3
5.2
6.1
7.0
7.8
8.5
9.0
9.4
2
5
7
8
9
9
9
9
8
7
5
4
1.035 -0.268
12V692 33".33
0.00
+0.02
484
APPARENT PLACES OF STARS, 1913,
FOR THE UPPER TRANSIT AT WASHINGTON.
i^ Aquaril.
^ Andromedse.
41 H. Cephei.
^ Scolptoiis.
Mean Solar
Mag. 5.3
Mag. 5.1
Mag. 5.0
Mag. 4.6
Date.
Right
Declina-
Right
Declina-
Right
Declina-
Right
Decima-
Ascension.
tion S.
Ascension.
tion N.
Ascension.
tion N.
Ascension.
tion S.
h m
0 /
h m
0 /
h m
0 /
h m
0 /
23 39
-1845
23 41
+4556
23 43
+67 19
23 44
-2836
Jan. 1.2
4i'i5 ^
45.0 ^
8
41-94 ,„
=^5-5 „
^^"^7 .^
40.3
23^56
5A.4 .
II. 2
41.06 I
40.98 *
45.1
4^-75 ^
4^-57 \l
41-41 „
24.4
41.82 45
A ^
39-4 '
*3-45 !
54.3 .
21.2
45.0 '
22.0 *^
21.1 '8
41.40^
38.0 '4
23-35 '«
2327 °
53.9 :
31. 1
40.91 I
44.7 I
41.03 t
36.1 '9
53.2 ,;
Feb. I O.I
40.86 5
44.1 t
12
41.29 I
19.0 "
40.72 3'
33.8 ^3
23.21 ^
II
52.1
2
8
8
23
23
27
3
14
20.I
40.84
43-3 ,„
41.21
>6.7 ,,
40.49 , .
31-1 ,
23.18
5°-7 ,6
47-3 °
Mar. 2.0
*°-^5 !
42.3 °
41-17 ;
H.3 4
40.35 I
28.2 ^9
23.18 I
I2.0
40.89 i
40.97 ,:
41. 1 '*
41.19 ,
12.0 '3
40.31 I
'5-3 ''
23.22 *
22.0
39.6 5
41.26 7
9.8"
40.38 ^
22.4 *9
23.29 7
20
45-3 ,,
Apr. i.o
12
41.09 ,,
37.9 '^
19
41.39 ,J
7-9;^
4-55 11
19-7 ''
24
II
23.40 ^,
43-' :;
10.9
41.25
36.0 _
4'-58 ,,
6-3 ,
40.83 „
17-3
2356
40-7 „
20.9
41-44 '
^- ^ 21
33.9 ^,
41.82 ^4
5-» I
41.21 38
'5-3 'I
23.76 '^
38-='
30.9
41.67 11
4' -93 It
22
31.7 ^j
42.11 ^9
4-3
41.67 J'
13-7 •'^
23.99 ^^
35-^
33-0 \
May 10.9
29.5 "
42.44 3^
4.0 3
42.20 ^-^
12.6 "
24.26 ^7
20.8
42.22 ^
27-2 J
42.81 37
4.2 '
42.79 5'
12.1 5
24.56 3^
30.5
31
32
40
7
63
0
33
24
30.8
4253 ,,
250
43.21 ^^
4-9 „
43.42
'2-1 ,
24.89
28.1
June 9.8
19.7
42.86 3^
43.20 ^^
22.8 "
20.7 "
44.03 ^;
6.0"
7.6 '«
44-07 2
44-72 J5
12.7 *
13.8 "
25.24 ^5
25.59 ^^
^5-9;:
23-9 ,.
29.7
43.53 tt
18.8 '9
17.2 "*
14
44.44 :^
9-6 ^
45.36 «4
'5-5 11
25.94 „
22.2 ''
July 9.7
43.86 33
31
44.83 f.
12.0 '4
27
^^•97 %
^7-^ :;
26.20 35
33
20.7 ^
' 11
19.7
44-^7 ,9
15-8 ,,
45.19 „
H.7 ,
46.53
20.2
26.62
19.6 ^
29.6
28
44.45 ,^
14.7 "
13.9 *
4552 1^
17.6 ^,^
47-04 ,,
23.2 30
26.92 3°
18.9 ;
Aug. 8.6
44.70 ,^
45.81 ^9
20.7 3'
47-48 4^
^^•4 ^^
27.19 ^^
18.6 ^
18.6
44.91
45 09 ^,
13.4 ,
46.05 '4
23.8 11
47.84 ^J
48.12 ll
29.8 34
33-4 „
27.42 ,3
18.6 "
28.6
13.3 ,
46.24 9
27.0 3^
27.61 '9
19.0 *
13
2
14
3»
20
37
14
<
Sept. 7.5
45.22
13.5 . 46.38 _
30-2
48.32 ,^
37-' „
27.75 ,^
'9-7 ,0
17.5
45.31 ^
13.9 t
46.47 ;
33-3 f„
48.43 "
40.8 37
27.85 '^
20.7 '
27.5
45.36 ^
46.51 ^
36.2 11
48.45 '
48.39 ,t
44-5 t^
27.90 3
12
21.9 ,,
Oct. 7.4
45.37 ^
'5-4 ,;
46.51 °
38.9 n
48.0 35
27.91 •
23-3
17.4
45-35 g
16.4 "*
10
46.46 I
41.4 '5
22
48.26 '3
21
5'-3 li
30
27.88 3
248 "
27.4
4529 «
45.21 «
'7-4 „
46.38 ,,
43-6 .
45-4 It
48.05 .
54-3 „
27.82
26.3 ,,
Nov. 6.4
18.5
46.26 y
47.77 1:
57-0 11
27.73 ^
27.7 1
16.3
26.3
45.12 9
II
4501
19.6 "
20.6 '°
21.4 !
46.11 '5
45-94 1^
45-76 »
46.9 '^
47-9 '^
48.5 ^
47.44 ^^
47.06 38
59.2
60.9 7
27.62 "
27.50 "
29.0 ::
30.2 „
Dec. 6.3
4490 ,,
46.64 ^^
62.1 "
27.37 ^
3'-'
1 1
7
19
I
45
7
13
7
16.3
44-79 , ,
22.1
45-57 ,„
48.6
4^-^9 ^.
62.8
27.24
31.8 ,
26.2
44.68 '
22.6 ^
45-37 1°
48.2 ^
45-73 It
62.9 '
27.11 "3
32.2 \
36.2
44.58 '°
22.9 3
45-17 '°
47.3 ^
45.28 43
62.3 ^
26.99 "
32.3
Sec d, Tan S
1.056 -0.340
1.438 +1.033
2.594 +2.394
1. 139 -0.545
Mean Place
4i*.439 35".77
43».ii2 13^.69
44'.573 23".95
23».7a9 4a".35
D'^a, D«a
0.00 +0.02
0.00 -0.07
0.00 -0.16
0.00 40.04
D,^S,Du,d 1 H).4 -0.1 1
+0.4 -0.1
+0.4 -0.1
40w4 "0-'
lUph ii\
APPARENT PLACES OF STARS, 1913,
485
FOR THE UPPER TRANSIT AT WASHINGTON.
Uetn Solar
Date.
Jan. 1.2
II.2
21.2
31.1
Feb. I O.I
20.I
Mar. 2.0
I2.0
22.0
Apr. i.o
10.9
20.9
30.9
May 10.9
20.8
30.8
June 9.8
19.7
29.7
July 9.7
19.7
29.6
Aug. 8.6
18.6
28.6
Sept. 7.5
17.5
27.5
Oct. 7.4
17.4
27.4
Nov. 6.4
16.3
26.3
Dec. 6.3
16.3
26.2
36.2
Sec 5, Tan 5
Meao Place
D>a,D«a
Y^ Octantifl.
Mag. 5.1
Ri«ht
h
23
m
46
141
8
63.75
61.08"^
60.00 '°*
59.13
58.48
58.07
57.91
58.01
58.36
87
65
41
16
10
35
59
82
58.95
60.81 *°^
62.05 '^^
63.46 '^'
154
65.00
66.64 '^^
68.35^7'
70.08 *73
71.78 '7<>
73.40
74.90
76.23
77.35
78.22
78.82
79.12
79.11
78.79
78.17
162
150
133
112
87
60
30
I
32
62
89
113
132
146
77.28
76.15
74.83
71.82 '55
159
68.67 ^
67.18 '49
Declina-
tion S.
— 82 29
tt
89.5
85.4
82.6
79.4
75.9
72.2
68.3
64.4
60.5
18
23
28
32
35
37
39
39
39
38
36
56.7
53.1
49.8 ^^
46.8 ^^
44.2
26
22
42.0
40.3
39.2
38.6
38.6
39.2
40.3
41.9
44.0
46.5
49.2
52.1
55-1
58.1
60.9
634
65.6
67.3
68.4
68.9
68.8
68.0
66.6
17
II
6
o
6
II
16
21
25
27
29
30
30
28
25
22
17
II
5
I
8
14
7663 -7.597
6i\96i 68".43
+0.01
40.4
+0.51
-0.1
0 Pegasl.
Mag. 5.2
Right
Ascension.
h
23
s
2.97
2.87
2.77
2.69
2.63
2.59
2.58
2.61
2.67
2.77
2.92
3.II
3.34
3.61
3.90
4.21
4-54
4.88
5.21
5-53
5.84
6.12
6.37
6.58
6.75
6.88
6.97
703
705
7.04
7.00
6.94
6^86
6.76
6.65
6.54
6.43
6.32
m
48
10
lo
8
6
4
I
3
6
10
X5
19
23
27
29
31
33
34
33
32
31
28
25
21
17
13
9
6
2
I
4
6
8
10
II
II
II
II
Declina-
tion N.
+1838
//
17.3
16.4
15.3
I4.I
12.9
II.7
10.6
9.6
8.8
8.3
8.1
8.2
9.5
10.6
12.0
13.7
15.7
17.9
20.2
22.5
24.9
27.2
295
31.6
33-6
35-4
36.9
38.2
39.3
40.2
40.8
41. 1
41.2
41.0
40.6
40.0
39-2
9
II
12
12
12
II
10
8
5
2
I
5
8
II
14
17
20
22
23
23
24
23
23
21
20
18
15
13
II
9
6
3
I
2
4
6
8
1.055 +0.337
3V588 I3".48
0.00 -0.02
40.4 -o. I
lEph 131
p Cassiopeise.
Mag. 4.8
Right
Ascension.
I
h m
23 49
8
60.27
59-99
59.72
59.48
59.29
59.15
59.07
59.05
59.10
59.23
28
27
24
19
14
8
2
5
13
31
59.44 .g
59.72
60.06^4
60.46 4°
60.90 ^^
47
61.86^9
62.36 5°
62.85 49
63.32 ^"^
44
63.76
64.16 4<^
64.51 ^5
64.81
6505
30
24
17
65.22
65.33
65.38
65.37
65.31
65.19
65.03
64.83
64.60
64.34
64.06
63.77
63.49
II
5
I
6
12
16
20
26
28
29
28
Declina-
tion N.
+57 o
It
9
14
70.2
69.3
^7-9 ,^
66.0 '9
63.8 "
61.3
58.7
56.0
53.4
51.0
48.9
47.2
45.9
45.1
44.8
45.1
45.9
47.2
49.0
51.2
25
26
27
26
24
21
17
13
8
3
3
8
13
18
22
26
29
53.8
56.7
59.8 ^'
63.1 ^^
66.6 35
35
70.1
73.5 ^^
76.8 33
80.0 32
83.0 30
27
85.7
88.0 ^3
^^ ^ 20
90.0
91.5
92.5
15
10
4
92.9
92.8
92.2
I
6
1.837
6I-.785
+X-54I
55"-37
0.00
+0.4
-o.io
0.0
Groombridge 4163.
Mag. 6.6
Right
Ascension.
h m
23 50
31.83
31.15
30.51
29.94
29.46
29.09
28.84
28.74
28.78
28.98
29.32
29.79
30.38
31.07
31.85
32.68
33.54
34.41
35.26
36.07
36.83
37.51
38.10
38.59
38.97
3924
39.40
39.44
39.36
39-17
38.87
38.47
37.99
37.43
36.81
36.15
35.47
34.79
68
64
57
48
37
25
10
4
20
34
47
59
69
78
83
86
87
85
81
76
68
59
49
38
27
16
4
8
19
30
40
48
56
62
66
68
68
Declina-
tion N.
+73 55
/#
51.8
51.1 '
49.8 \\
48.0
45.8
18
22
26
43-2
40.3
37.3
34.3
31.4
28.8
26.5
24.7
23-4
22.6
22.3
22.6
23.5
25-0
26.9
293
32.1
35-3
38.7
42.3
46.1
49-9
53-7
57.4
60.9
64.1
67.0
69.5
71.5
73.0
73.9
74.2
73.9
29
30
30
29
26
23
18
13
8
3
3
9
15
19
24
28
32
34
36
38
38
38
37
35
32
29
25
20
15
9
3
3
3.612 +3.471
34'-945 34". 13
0.00
-0.23
486
APPARENT PLACES OP STARS, 1913.
FOR THE UPPER TRANSIT AT WASHINGTON.
Mean Solar
Date.
Jan. 1.2
II. 2
21.2
31. 1
Feb. lo.i
20.I
Mar. 2.1
I2.0
22.0
Apr. I .o
10.9
20.9
30.9
May 10.9
20.8
30.8
June 9.8
19.8
29.7
July 9.7
19.7
29.6
Aug. 8.6
18.6
28.6
Sept. 7.5
17.5
27-5
Oct. 7.5
17-4
27.4
Nov. 6.4
16.3
26.3
Dec. 6.3
16.3
26.2
36.2
CO Piscimn.
Mag. 4.0
Right
Ascension.
h m
23 54
Sec^.Tan*
Mean Place
8
50.15
50.05
49.96
49.89
49.83
40.80
49.79
49.81
49.87
49-97
50.11
50.28
50.50
50.75
51.03
51.33
51.65
51.97
52.29
52.61
52.91
53.19
53.44
53.65
53.83
53.97
54.07
54.13
54.16
54.16
54.13
54.08
54.01
53.92
53.83
53.73
53.63
53.53
10
9
7
6
3
I
2
6
10
14
17
22
25
28
30
32
32
32
32
30
28
25
21
18
14
10
6
3
o
3
5
7
9
9
10
10
10
Declina-
tion N.
+ 6 22
//
540
53.3
52.5
51.8
51. 1
50.5
50.1
49.8
49.8
50.0
50.5
51.3
52.3
53.6
55.2
57.0
58.9
60.9
63.0
65.2
67.3
69.3
71.2
72.9
74.4
75.7
76.8
77.6
78.2
78.6
78.8
78.8
78.6
78.3
77.9
77.3
76.6
75.9
7
8
7
7
6
4
3
o
2
5
8
10
13
16
18
19
20
21
22
21
20
19
17
15
13
II
8
6
4
2
£ Tucaxue.
Mag. 4.7
Right
Ascension.
3
4
6
7
7
I .cx)6 +0. 112
50*.579 54". 19
h m
23 55
38
24.71
24.33
23.98 ^5
23.68 3°
23.44 '^^
23.27
23.17
23.14
23.19
23.32
17
10
3
5
13
22
0.00
•fo.4
-0.0 1
0.0
^3-54 ,^
23.84 3^
24.21 ^^
24.66 ^5
25.17 ^\
26:33 ^
26.95 f^
27.58 !^
28.20 ^^
60
28.80
29.36 \
29.86 5<>
30.29 ^^
30.64 35
30.90
31.06
31.12
3108
30.95
30.74
30.45
30.10
29.71
29.29
28.86
28.44
28.04
16
6
4
13
21
29
35
39
42
43
42
40
Dedina-
tionS.
-66 3
//
58.9
57.7
56.0
53.8
51.2
48.2
44.9
41.4
37.8
34.1
30.4
26.8
23.4
20.2
17.4
14.9
12.8
II. 2
lO.I
9.6
9.6
10. 1
11. 2
12.8
14.8
I7.I
19.7
22.4
25.2
27.9
30.5
32.8
34.7
36.1
37.0
37.3
37.1
36.3
12
17
22
26
30
33
35
36
37
37
36
34
32
28
25
21
16
II
5
o
5
II
16
20
23
26
27
28
27
26
23
19
14
9
3
2
8
80 Plsoiiim.
Mag. 4.7
Right
Ascension.
2.464 -2.252
24*.i85 39".i6
h m
23 57
0.00 +0.15
40.4 0.0
8
29.61
29.52
29.44
29.37
29.31
29.27
29.26
29.28
29.34
29.44
29.57
29.74
29.95
30.19
30.47
30.77
31.09
3».4i
31.73
32.05
32.36
32.64
32.89
33.11
33.29
33.43
33.54
33.61
33.64
33.63
33.60
33.55
33.48
33.39
33.30
33.20
33.10
33.00
9
8
7
6
I
2
6
10
13
17
21
24
28
30
32
32
32
32
31
28
25
22
18
14
II
7
3
1
3
5
7
9
9
10
10
10
SCetL
Mag. 4.6
Declina-
tion S.
- 6 29
//
55.8
56.3
56.7
56.9
57.0
56.9
56.6
56.1
55.3
54.3
53.1
51.6
49.9
48.1
46.1
44.0
41.9
39.8
37.7
35.7
33.9
32.3
30.9
29.8
29.0
28.4
28.1
28.0
28.2
28.6
29.1
29.7
30.4
31. 1
31-9
32.6
33.2
33.7
5
4
2
I
I
3
5
8
10
12
15
17
18
20
21
21
21
21
20
18
16
14
II
8
6
3
I
2
4
5
6
7
7
8
7
6
5
Right
h
23
59
1.006 -0.1 14
29*.905 5 1 ".23
0.00
40.4
+0.01
0.0
6.86
6.76
6.67
6.59
6.53
6.49
6.48
6.50
6.56
6.65
6.78
6.95
7.16
7.41
7.69
7.99
8.31
8.64
8.98
9.31
9.63
20.18 *^
20.41 *3
20.60 '^
15
20.75
20.86
20.93
20.96
20.95
10
9
8
6
4
I
2
6
9
13
'7
21
25
28
30
32
33
34
33
32
29
DccUna-
tioo&
II
7
3
1
4
20.91
20.85
20.77
20.68
20.58
20.47
20.35
20.24
6
8
9
10
II
12
II
-1748 J
//
81.6
81.9
81.9
81.7
81.2
80.5
79.5
78.3
76.9
75.3
73.4
71.3
69.1
66.9
64.6
62.3
60.0
57.8
55.8
54.1
52.6
51.4
50.5
49.9
49.6
49-7
50.1
50.7
51.5
52.5
53.6
54.7
55.8
56.8
57.7
58.5
59.1
59.5
3
0
2
5
7
0
2
4
6
I
2
2
3
3
3
2
20
7
5
12
9
6
3
I
4
6
8
10
II
II
II
10
9
8
6
4
1.050 -0.321
17*.038 73".35
coo
40.02
ao
JANUARY, 1913.
487
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 OotantU.
81 MenscB.
7 Octantis.
C Ootantis.
V Octantis.
Mag. 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6.3
Mean
Solar
Date.
Right
Ascen-
aion.
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
Souih.
h m
0 /
h m
e r
h m
0 /
h m
0 /
h m
0 t
Jan.
142
-85 12
Jan.
5 47
-8449
Jan.
7 17
-8653
Jan.
9 9
-8518
a 0
Jan.
1059
-84 7
0.3
s
28.39
50.53
0.5
8
17.06
47.93
•
0.5
8
63.17
28.48
0.6
8
38.75
W '
39.94
0.7
8
56.87
09
11.88
1-3
28.09
50.59
1.5
16.96
48.30
1.5
63.17
28.88
1.6
38.91
40.29
1.7
57.08
12. II
2.3
27.79
50.63
2.5
16.84
48.68
2.5
63.15
29.28
2.6
3905
40.66
2.7
57.31
12.37
3.3
27.48
50.64
3.5
16.70
49.05
3.5
63.11
29.69
3.6
39.17
41.04
3.7
57.53
12.65
4.3
27.18
50.62
4.5
16.55
49.40
4.5
63.04
30.09
4.6
39.27
4X43
4.7
57.72
12.95
5-3
26.88
50.59
5.4
16.40
49-72
5.5
62.94
30.46
5.6
39.36
41.81
5.7
57.90
13.24
6.3
26.61
50.55
6.4
16.25
50.01
6.5
62.84
30.82
6.6
39.44
42.18
6.7
58.06
13.53
7-3
26.35 50.49
1
7.4
16.10
50.29
7.5
62.73
31. »6
7.6 39.51
42.53
7.7
58.21
13.82
8.3
26.10! 50.43
8.4
1596
50.55
8.5
62.62
31.49
8.6 39.57
42.86
8.7
58.35
14.09
9-3
25.85
50.39
9-4
15.82
50.81
9.5
62.51
31.80
9.6
39.63
43.19
9.7
58.49
14-35
10.3
25.61
50.35
10.4
15.69
51.07
10.5
62.42
32.10
10.6
39.70
43-51
10.7
58.64
14.60
"•3
25.37
50.3 X
11.4
15.56
51.34
"5
62.35
32.41
1 1.6 39.78
1
43.82
II.6
58.79
14.85
12.3
25.13
50.28
12.4
15.43
5«.62
12.5
62.28
32.74
12.6 39.87
44.14
12.6
58.95
1510
13-3
24.87
50.26
13.4
15.30
51.91
13.5
62.21
33-08
13.6 •3996
44-48
13.6
59.12
15.36
H-3
24.60
50.25
14.4
15.17
52.22
14.5
62.14
33.44
14.6 40.05
44.83
14.6
59.29
15.63
15.3
24.31 50.23
15.4
15.02
52.54
X5.5
62.05 33.82
15.6 40.14
45.21
15.6
59.47
15.91
16.2
24.02 50.19
16.4
14.85
52.87
16.5
61.95
34-21
16.6 '40.23
45.61
16.6
59.65
l6.22
17.2
23.71
50.13
17.4
14.67
53.»9
17.5
61.80
34.61
17.6 40.30
46.02
17.6
59.82
16.56
18.2
23.40
50.03
18.4
14.47
53.50
18.5
61.61 ' 35.01
18.6
40.34
46.44
18.6
59.98
16.93
19.2
23.10
49.91
19.4
14.25
53.79
19.5
61.41 35.39
i
19.6 40.36
46.87
19.6
60.12
17.30
20.2
22.81
49.76
20.4
14.02
54.04
20.5
6X.17; 35-74
20.5 40.36
47.28
20.6
60.25
17.68
21.2
22.54
49.60
21.4
13.80
54.26
21.5
60.92
36.06
21.5 40.34
47.67
21.6
60.35
18.04
22.2
22.29
49.44
22.4
13.59
54.48
22.5
60.69
36.37
22.5 40.32
48.04
22.6
60.44
18.38
23.2
22.05
49.30
23.4
13.39
54.68
23.5
60.47
36.66
23.5 40.30
48.39
23.6
60.54
18.71
24.2
21.82
49.16
24.4
13.20
54.88
24.5
60.28
36.95
24.5 40.30
48.72
24.6
60.64
19.03
25.2
21.59
49.04
25.4
1302
55.10
25.5
60.10
37-25
25.5 '40.31
49.06
25.6,
60.75
19.33
26.2
21.34
48.95
26.4
12.85
55.35
26.5
59.94
37.56
26.5 40.33
49.40
26.6
60.88
19.63
27.2
21.08
48.86
27.4
12.66
55.60
27.5
59.77
37.90
27.5
40.37
49.77
27.6
61.02
19.95
28.2
20.80
48.75
28.4
12.46
55.87
28.4
5958
38.27
28.5
40.41
50.17
28.6
61.17
20.29
29.2
20.51
48.63
29.4
12.25
56.15
29.4
59.37
38.64
29.5
40.43
50.59
29.6
61.31
20.65
30-2
20.21
48.48
30.4
12.02
56.43
30.4
59.13
39.01
30.5
40.44
51. 02
30.6
61.44
21.03
312
19.92
48.31
31.4
11.78
56.69
3x4
58.87
39-37
31-5
40.43
51.46
31-6
61.56
21.43
32.2
19.63
48.13
32.4
"53
56.92
32.4
58.58
39.72
32.5
40.39
51.89
32.6
61.66
21.83
11.99 -11.94
1 1. 10 -11.05
18.45 -18.42
12.24 -12. 20
9.76 -9.71
1^ 42™ I7V46
5** 47" i*.50
7^ 17" 4i".i9
9»» 9a 3o».42
10** 59" 56'.70
-85^
12' 3
3".92
-84**
49' 5
i".9i
-86®
53' 4«
0".29
-85^
18' 5.
B".68 1
-84*
' 7'
33".I4
[Ephz3]
488
FEBRUARY, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 Octantis.
81 MensA.
7 Octantis.
C Octantis.
rf Octantis.
Mag. 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6.3
Mean
Right
Declina-
Mean
Right
Declina-
Mean
Right
Declina-
Mean
Right
Dedina^
Mean
Right
Defo-
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
tion
Sohtf
Ascen-
liation
Date.
sion.
South,
Date.
sion.
South,
Date.
sion.
South.
Date.
sion.
South.
Date.
sion.
South.
h m
0 /
h m
0 /
h m
0 t
h m
0 /
h m
0 '
Feb.
142
-85 12
Feb.
5 47
-8449
Feb.
7 17
-8653
0 a
Feb.
9 9
-8518
mm
Feb.
II 0
-84 7
1.2
s
19.63
48.13
1.4
s
11.53
56.92
1.4
s
58.58
39.72
1.5
s
40.39
WW
51.89
1.6
s
1.66
WW
21.83
2.2
19.36
47.92
2.4
11.27
57.12
2.4
58.28
40.05
2.5
40.33
52.30
2.6
1.75
22.23
3-2
19.10
47.70
3.4
11.02
57.30
3.4
57.96
40.34
3.5
40.27
52.68
3.6
1.82
22.62
4.2
18.86
47.49
4.4
10.77
57.46
4.4
57.66
40.62
4.5
40.20
53.05
4.6
1.89
23.00
5.2
18.64
47.29
5.4
10.54
57.63
5.4
57.37
40.89
5.5
40.13
53.40
5.6
1.94
23-37
6.2
18.43
47.08
6.4
10.31
57.78
6.4
57.09
41.16
6.5
40.07
53.75
6.6
2.00
23.72
7.2
18.21
46.88
7.4
10.09
57.93
7.4
56.82
41.42
7.5
40.02
54.09
7.6
2.07
24.06
8.2
1799
46.70
8.4
9.88
58.09
8.4
56.55
41.69
8.5
39.97
54.44
8.6
2.14
24.40
9.2
17.77
46.52
9.4
9.67
58.27
9.4
56.30
41.96
9.5
3992
54.78
9.6
2.22
24.74
10.2
17.54
46.34
10.4
9.45
58.47
10.4
56.05
42.25
10.5
3989
55.14
10.6
2.30
25.08
II. 2
17.29
46.17
"3
9.23
58.66
II.4
55.79
42.56
"5
39.85
55-52
11.6
2.39
2544
12.2
17.03
45.98
X2.3
8.99
58.86
12.4
55.51
42.89
12.5
39.81
55.92
12.6
2.48
25.83
13-2
16.75
45.77
13.3
8.72
59.07
13.4
55.21
43.22
13.5
39.76
56.33
13.6
2.57
26.24
14.2
16.48
45.54
14.3
8.44
59.27
14.4
54.86
43.55
14.5
39.69
56.76
14.6
2.65
26,65
15.2
16.22
45.28
15.3
8.15
59.45
15.4
54.49
43.86
15-5
39.59
57.19
15.6
2,71
27.09
16.2
15.97
44.99
16.3
7.86
59.60
16.4
54.10
44.15
16.5
39.47
57.61
16.6
2.75
27.53
17.2
15.73
44.69
17.3
7.56
59.72
17.4
53.69
44.41
X7.5
39.33
58.00
17.5
2.78
27.96
18.2
15.52
44.39
18.3
7.27
59.82
18.4
53.28
4465
18.5
39.18
58.36
18.5
2.79
28.38
19.2
15.33
44.09
19.3
6.99
59.90
19.4
52.87
44.87
19.5
39.04
58.71
19.5
2.79
28.78
20.2
15.15
43.80
20.3
6.73
59.97
20.4
52.50
45.07
20.5
38.91
59.04
20.5
2.79
29.16
21.2
14.96
43.54
21.3
6.48
60.05
21.4
52.15
45.29
21.5
38.79
59.36
21.5
2.80
29.5^
22.1
14.77
43.30
22.3
6.23
60.16
22.4
51.82
45.52
22.5
38.69
59.68
22.5
2.83
29.88
23.1
14.57
43.07
23.3
5.99
60.29
23.4
51.50
45-77
23.5
38.60
60.02
235
2.87
30.24
24.1
14.35
42.83
24.3
5.73
60.42
24.4
51.17
46.04
24.5
38.51
60.39
24.5
2.92
30.62
25-1
14.12
42.58
25.3
5.46
60.57
25.4
50.83
46.32
25.5
38.41
60.78
255
2.97
3i.Oi
26.1
13.88
42.31
26.3
5.17
60.72
26.4
50.45
46.60
26.4
38.30
61.18
26.5
3.01
31.44
27.1
13.64
42.02
27.3
4.87
60.85
27.4
50.04
46.88
27.4
38.17
61.57
27.5
3.04
31.88
28.1
X3.41
41.71
28.3
4.57
60.96
28.4
49.62
47.15
28.4
38.02
61.97
28.5
3.05
32.32
29.1
13.19
41.38
29.3
4.27
61.03
29.4
49.18
47.38
29.4
37.85
62.34
295
3.04
32.76
30.1
13.00
41.04
30.3
3.96
61.09
30.4
48.73
47.60
30.4
37.67
62.70
30.5
3.02
33.18
11.98 -11.94
II. 10 -11.06
18.46 -18.44
12.25 -12.20
9.77 -9.72
i^ 42«» I7'.46
5^ 47«^ i».50
7»» 17" 4iVi9
9^ 9» 30-.42
lo*" 59" 56'.70
-850
12' 3;
3''.92 1
-84<>
49' 5
i''.9i 1
-86*>
53' 4<
3".29 1
-85^
18' 5J
5".68 1
-84^
' r ,
33".i4
[Bph 13]
MARCH, 1913.
489
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 OctantU.
81 Xentse.
7 OotantU.
Tf Ootantls.
Mag. 5.6
Mag. 6
.2
Mag. 6.4
Mag. 5.4
■
Mag. 6.3
Mean
Right
Declina-
Mean
Right
Declina-
Mean
Right
Declina-
Mean
Right
Declina-
Mean
Right
Dedi.
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
nation
I>ate.
sion.
South.
Date.
sion.
SouAh.
Date.
sion.
South.
Date.
sion.
South.
Date.
sion.
South.
h m
0 /
h m
0 f
h m
0 t
h m
0 /
h m
0 t
Mar.
142
-85 12
Mar.
546
-8450
Mar.
7 17
-8653
Mar.
9 9
-8519
Mar.
II 0
-84 7
I.I
s
13.19
41.38
1.3
8
64.27
1.03
1.4
s
49.18
47.38
1.4
s
37.85
2.34
1.5
s
3.04
32.76
2.1
13.00
41.04
2.3
63.96
1.09
2.4
48.73
47.60
2.4
37-67
2.70
2.5
3.02
33.18
3.1
12.82
40.70
3.3
63.67
1. 14
3.4
48.29
47.78
3.4
37-49
3.04
3.5
3.00
33.59
4.1
12.66
40.37
4.3
63.39
1. 16
4.4
47.86
47.96
4.4
37-30
3-35
4.5
2,97
33.97
5.1
12.51
40,04
5-3
63.11
1. 18
5.4
47.44
48.12
5-4
37.12
3.65
5.5
2.93
34-34
6.1
12.36
39.73
6.3
62.84
1. 19
6.3
47.03
48.28
6.4
36.95
3.95
6.5
2.89
34.71
7.1
12.21
39.43
7.3
62.57
1. 21
7.3
46.64
48.43
7.4
36.78
4.25
7.5
2,86
3508
8.1
12.07
39.14
8.3
62.31
1.25
8.3
46.27
48.59
8.4
36.63
4.54
8.5
2.84
35.44
9.1
11.91
38.85
9.3
62.06
1.30
9-3
45.89
48.77
9-4
36.49
4.84
9.5
2.84
35.80
10. 1
11.74
38.56
10.3
61.80
1.35
10.3
45.51
48.96
10.4
36.34
5-16
10.5
2.84
36.17
II. I
"55
38.27
11.3
61.54
1.42
"3
45.x 2
49.17
11.4
36.19
5.50
"5
2.84
36.55
12. 1
11.36
37.96
12.3
61.25
1.49
12.3
44.72
49.38
12.4
36.03
5-85
12.5
2.84
36.95
13.1
II. 17
37.63
13.3
60.95
1.55
13.3
44.29
49.60
13.4
35.86
6.21
135
2.83
37.36
14.1
10.98
37.28
143
60.64
X.59
H.3
43.82
49.80
14.4
35.66
6.57
14.5
2.80
37-79
15.1
10.80
36.90
15.3
60.32
I.61
153
43.33
49.99
15.4
35.44
6.92
15.5
2.75
38.22
16. 1
10.64
36.51
16.3
60.00
1.60
16.3
42.82
50.15
16.4
35-21
7.26
16.5
2.69
38.65
17.1
10.50
36.11
17.3
59.68
1.57
173
42.31
50.28
17.4
34.96
7.57
17.5
2.61
39.06
18.1
10.39
35.72
18.3
59.38
I.5I
18.3
41.82
50.39
18.4
34.72
7.85
18.5
2.52
39.46
19.1
10.29
35-34
19.2
59.09
X.43
19.3
41.35
50.49
19.4
34.48
8.11
19-5
2.43
39.83
20.1
10.20
34.98
20.2
58.82
1.37
20.3
40.90
50.58
20.4
34.26
8.35
20.5
2.35
40.18
21. 1
IO.IO
34.63
21.2
58.56
1.32
21.3
40.47
50.68
21.4
34.05
8.60
21.5
2.28
40.52
22.1
9.99
34.30
22.2
58.30
1.30
22.3
40.06
50.80
22.4
33.86
8.87
22,5
2.23
40.87
23.1
9.86
33.98
23.2
58.04
1.29
23.3
39.65
50.93
23.4
33.67
9.15
23.5
2.19
41.23
24.1
9.72
33.66
24.2
57.77
1.30
24.3
39-22
51.08
24.4
33.49
9.45
24.5
2.15
41.61
25.1
9.58
33.32
25.2
57.48
1.30
25.3
38.78
51.24
25-4
33.30
9.75
25-5
2.10
42.00
26.1
9-43
32.96
26.2
57.18
1.29
26.3
38.32
51.39
26.4
33.08
10.07
26.4
2.05
42.40
27.1
9.29
32.58
27.2
56.87
1.26
27.3
37.84
51.53
27.4
32.84
10.38
27.4
1.98
42.81
28.1
9.16
32.18
28.2
56.56
1.22
28.3
37.34
51-66
28.4
32.59
10.68
28.4
1.89
43.21
29.1
9.04
31.78
29.2
56.25
1. 15
29.3
36.82
51.75
29.4
32.32
10.96
29.4
1.79
43.60
30.1
8.95
31.37
30.2
55.95
1.05
30.3
36.31
51.81
30.4
32.05
II. 21
30.4
1.68
43.97
31.0
8.88
30.96
31.2
55.66
0.93
31.3
35.81
51.86
3J-4
31.78
11.44
31.4
1.56
44.33
32.0 ! 8.82
30.56
32.2
55-39
0.81
32.3
35.33
51.90
32.4
31-52
11.66
32.4
1.44
44.67
11.98 -11.93
II. II
-11.06
18.47 -18.45
12.25 -
12.21
i
?.77 -9.72
i»» 42» I7*.46
5^47"
I ■.50
7^ I7» 41M9 1 9** 9" :
JOV42
id
^ 59" 56". 70
-85^
12' 3
3".92
-84«
•49' 5
I ".91
-86°
53' 4
o".29
|-85«
18' 5
8".68
-84
0 7/
33".i4
[£ph 13]
490
APRIL, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 Octeiitis.
81 Mensce.
7 Octantis.
C Ootantis.
7 OctBBfls. W
Mag. 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6.3 1
Mean
SolM
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
1
Right
Ascen-
sion.
Declina-
tion
S<mik.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
S<mlh.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sioo.
SaSV
h m
0 t
h m
0 t
h m
0 1
h m
0 /
h m
* * m
Apr.
142
-85 12
§ g
Apr.
546
-8449
00
Apr.
717
-8653
00
Apr.
9 9
-8519
Apr.
1059
ti
I.O
8.82
w w
30.56
1.2
s
55.39
60.81
1.3
s
35-33
51-90
1.4
s
31.52
11.66
1-4
t
61.44
44.^
2.0
8.78
30.18
2.2 55.12
60.69
2.3
34.87
51-93
2.4
31.26
11.86
2.4
61.32
45.»
3.0
8.73
29.81
3.2 54.86
60.58
3.3
34.42
51-95
3.3
31.01
12.06
3.4
61.21
45-32
4.0
8.68
29.46
4.2
54.62
60.47
4.3
33.99
51.98
4.3
30.77
12.25
4-4
61. II
45.63
5.0
8.63
29.11
5.2 54.38
60.37
5.3
33.57
52.02
5.3
30.54
12.44
5.4
61.01
45-93
6.0
8.56
28.77
6.2 '54.14
60.29
6.3
33-16
52.08
6.3
30.32
12.65
6.4
60.92
46.24
7.0
; 8.48
28.43
72 ; 53.89
60.22
7.3
32.73
52.15
7.3
30.11
12.88
7-4
60.84
46.57
8.0
8.39
28.08
8.2
53.63
60.16
8.3
32.29
52.23
8.3
29.89
1312
8.4
60.76
46.92
9.0
8.30
27.71
9.2
53.35
60.08
9.3
31.83
52.30
9.3
29.66
13.37
9-4
60.67
47.2S
1 0.0
j 8.21
27.32
10.2
53.07
59.98
10.3
31.35
52.38
10.3
29.41
13-61
10.4
60.57
47-64
1 1.0
' 8.13
26.92
1 1.2 52.78
59.87
1 1.2 130.84
52.43
11.3
29.14
13.86
1 1.4
60.46
48.01
12.0
1 8.07
1
26.50
12.2
52.48
59.74
12.2 30.31
1
52.47
12.3
28.85
14.09
12.4
60.32
48.37
13.0
i 8.03
26.07
13.2
52.19
59.57
13.21 29.78
52.46
13.3
28.55
14.29
13.4
60.17
48.71
14.0
8.01
25-63
14.2
51.91
59.39
14.2 29.26
52.44
14.3
28.24
14.47
14.4
60.00
49.<^
150
8.01
25.20
15.2
51.65
59.20
15.2 28.77
52.40
15.3
27.93
14.62
15.4
59.84
49.34
16.0
! 8.02 i 24.80
16.2
51.40
59.00
16.2 ' 28.30
52.35
16.3
27.64
14.76
16.4
59.68
49-63
17.0
i 8.03
24.42
17.2
51.17
58.81
17.2 27.86
52.30
17.3
27.37
14.88
17.4
59.53
49.90
17.9
8.04
24.06
18.2
50.95
58.64
18.2 27.44
52.27
18.3
27.12
1502
18.4
59-40
50.11
18.9
8.02
23.72
19.2
50.73
58.49
19.2 ! 27.03
52.26
19.3 ; 26.88
1516
194
59.28
5045
19.9
8.00
23.38
20.2
50.50
58.36
20.2 26.62
52.26
20.3 26.64
15.32
20.4
59-17
50.74
20.9
1
7-97 23.03
21.2
50.25
58.24
21.2
26.18
52.28
21.3 i 26.40
15-50
21.4
59.06
51.04
21.9
1 7.93
22.66
22.2
50.00
58.11
22.2
25.72
52.29
22.3
26.14
15-69
22.4
58.94
51.35
22.9
7.89
22.26
23.2
49.74
57.97
23.2
25.25
52.30
23.3
25.86
15-88
23.4
58.80
51.67
239
7.86
21.85
24.2
49-47
57.81
24.2
24.76
52.30
24.3
25.56
16.06
24.4
58.65
51.99
1
24.9
7.85
21.43
25.1
49.20
57.62
25.2 24.26
52.27
25.3
25.27
16.22
254
58.49
52.30
25-9
7.87
21.01
26.1
48.95
57.40
26.2
23.76
52.21
26.3
24.97
16.36
26.4
58.32
52.59
26.9
7.90
20.61
27.1
48.70
57.16
27,2
23.28
52.13
27.3
24.66
16.46
27.4
58.14
52.86
27.9
7.94 1 20.21
28.1
48.47
56.92
28.2! 22.81
1
52.03
28.3 24.35
16.5s
38.4
57-95
53."
28.9
r
! 7.99
19.82
29.1
48.25
56.68
29.2
22.36
51.91
293
24-05
16.63
29.4
57.76
53-35
29.9
1 8.06
19.44
30.1
48.05
56.44
30.2
21.93
51.78
30.3
23.77
16.69
30-4
57-59
53.57
30.9
8.12
19.09
31. 1
47.86
56.20
31.2
21.52
51.67
31.3
23.50
16.75
31-3
57.43
53-78
31.9
8.18
18.75
32.1
47.67
55.98
32.2
21.12
51.59
32.3
23.24
16.82
32.3
57.26
53.99
II.
97 -11.93
11.10 -11.06
18.48 -18.45
12.26 -
12.22
9-78 -9-73
i»»
42" I7'.46
5»» 47" I '50
7»» i7» 4iVi9
9"> 9» ,
JO».42
lo* 59?* 56".70
-850
12' 33".92
-84*^49' 5 1 "9 1
-86*^53' 4o".29
-85<» 18' 5.
B".68
-84** 7' 33''i4
lEph i:
il
MAY, 1913.
491
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 Ootantis.
81 Mtnsm,
7 Ootantis.
C Ootantis.
7 Ootantis.
Mag. 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6.3
Mean
Solar
Date.
Right
Ascen-
sion.
DecUoa-
tion
South.
Mean
Solar
Date.
Right
Ascen-
don.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina.
tion
South.
Mean
SoUr
Date.
Right
Ascen-
sion.
DecK-
natlon
South.
h m
0 /
h m
0 /
h m
0 /
h m
0 /
h m
0 /
May
142
^85 12
ft
May
546
-8449
May
717
-8653
Mm
May
9 9
-8519
ff
May
1059
-84 7
§m
1.9
8.18
18.75
I.I
47*86
56.20
1.2
s
21.52
WW
51.67
1.3
s
23.50
16.75
1.3
s
57.43
' W
53.78
2-9
8.23
18.41
2.1
47.67
55.98
2.2
21.12
51-59
2.3
23.24
16.82
2.3
57.26
53-99
3-9
8.27
18.07
3.1
47.49
55.77
3.2
20.73
51-51
3.3
22.99
16.88
3.3
57.11
54.19
49
8.30
17.74
4.1
47.30
55.58
4.2
20.34
51.44
4.3
22.74
16.96
4.3
56.97
54.40
5-9
8.32
17.39
5.1
47.10
55.39
5.2
19.95
51.38
5.3
22.49
17.06
5-3
56.83
54.63
6.9
8.34
17.03
6.1
46.89
55.21
6.2
19«4
51.33
6.3
22.23
17.15
6.3
56.69
54.88
79
8.37
16.65
7.1
46.67
55-01
7.2
19.12
51.27
7.3
21.96
17.27
7.3
56.53
55.13
8.9
8.41
16.24
8.1
46.45
54.80
8.2
18.67
51.20
8.3
21.67
17.38
8.3
56.36
55.39
99
8.47
15.83
9.1
46.22
54.57
9.2
18.21
51.10
9.3
21.37
17.47
9.3
56.17
55.65
10.9
8.55
15.42
10. 1
46.00
54-30
10.2
17-74
50.98
10.2
21.05
17.55
10.3
55.97
55.90
1 1.9
8.66
15.03
11. 1
45.79
5401
II. 2
17.28
50.83
11.2
20.72
17.60
11.3
55.78
56.12
12.9
8.78
14.65
12. 1
45-59
53.71
12.2
16.83
50.66
12.2
20.40
17.63
12.3
55.55
56.31
13.9
8.90
14.29
13.1
45-41
53.40
13.2
16.41
50.48
13.2
20.09
17.62
13.3
55.34
56.48
14-9
9.02
13.97
14.1
45.25
53.10
14.2
16.03
50.30
14.2
19.80
17.60
14.3
55-14
56.64
159
913
13.66
15.1
45.10
52.82
15.2
15-67
50.13
152
19.53
17.59
15.3
54.95
56.78
16.9
9.22
13-35
16.1
44.96
52.57
16.2 15.33
49.98
16.2
19.28
17.58
16.3
54.78
56.92
17.9
9.29
1305
17.1
44.81 ' 52.33
17.2
14.99
49.85
17.2
19.04
17.61
17.3
54.62
57.08
18.9
9-35
12-73
18.1
44-65
52.10
18.I
14.64
49.74
18.2
18.80
17.64
18.3
54.46
57.25
19.9
9.42
12.40
19.1
44.48
51.88
19.1
14.27
49.63
19.2
18.55
17.69
19.3
54.30
57.43
20.9
950
12.04
20.1
44.30
51.64
20.1
13.88
49.51
20.2
18.28
17.74
20.3
54.14
5763
21.9
9.59
11.66
21. 1
44.11
51.38
21. 1
13.47 49.37
21.2
17.99
17.78
21.3
53.95
57.82
22.9
9.70
11.29
22.1
43-93 51.11
22.1
13.06 49.22
22.2
17.69
17.80
22.3
53-75
58.01
23.9
983
10.92
23.1
43.76 50.81
23.1
12.65 1 49.04
23.2
17.38
17.80
23.3
53.54 58-18
24.9
9.98
10.57
24.1
43.59
50.49
24.1
12.25 1 48.85
24.2
17.08
17.77
24.3
53.32
58.34
25.9
10.15
10.24
25.1
43-44 50.15
25.1
11.86 48.63
25.2
16.78
17.73
25-3
5310
58.47
26.9
10.31
9.92
26.1
43.30 1 49.82
26.1
11.49
48.39
26.2
16.49
17.66
26.3
52.87
58.58
27.9
10.48
9.62
27.1
43.18
49.49
27-1
11.15
48.16
27.2
16.21
17.58
27.3
52.65
58.67
28.9
10.65
9.33
28.1
43.08
49.17
28.1
10.85
47.92
28.2
15.94
17.49
28.3
52.45
58.75
29.9
10.81
9.06
29.1
42.99
48.86
29.1
10.55
4770
29.2
15.69
17.41
29.3
52.26
58.82
30.9
XO.96
8.79
30.1
42.90
48.57
30.1
10.27
47.49
30.2
15.45
17-33
30.3
52.08
58.88
31.9
11.09
8.53
311
42.80
48.29
31.1
10.00! 47.29
31.2
15.22
17.26
31-3
51.90
58.95
32.9
II. 21
8.26
32.0
42.70
48.02
32.1
9.72 [ 47 11
32.2
15.00
17.20
32.3
51.72
59.04
II.
96 -11.92
1 1. 10 -11.05
18.48 -18.45
12.26 -
-12.22
9.78 -9.73
i''
42™ 1 7*. 46
^h 47m ,.^0
7»» 17"" 4iVi9
9^ 9m .
50*.42
IO** 59» 56V70
-850
12' 33".92
-84*»49' 5i".9i
-86O53' 4o".29
-85^ 18' 5
8".68
-84** 7' 33". 14
[Eph I.
\\
492
JUNE, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 Octantis.
81 Xense.
7 Octantis.
C Octantis.
V Octantis.
Mag. 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6.3
Mean
Solar
Date.
Ri«ht
Ascen-
sion.
Declina.
tion
South.
Mean
Solar
Date.
Richt
Ascen-
sion.
Declina-
tion
South,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
Souih.
Mean
Solar
Date.
Right
Ascen
sion.
Declina-
tion
Souih,
Mean
Solar
Date.
Right
Ascen-
noo.
DeHi-
natkm
Somih.
h m
0 /
h ra
0 /
h m
0 /
h m
0 t
h m
0 '
June
I 42
-85 12
ft
June
546
-8449
It
June
717
-8653
tt
June
9 9
-8519
n
June
10 59 -84 7
1.9
s
II. 21
8.26
I.O
s
42.70
48.02
I.I
8
9.72
47.11
1.2
8
15.00
17.20
1.3
8
51.72
59.04
2.9
"•33
7.97
2.0
42.59
47-77
2.1
9.42
46.94
2.2
14.76
17.16
2.3
51.55
59.14
39
11.45
7.67
3.0
42.47
47-5 »
3.1
9.II
46.77
3.2
14.52
17.12
3-3
51.38
59.24
4.9
11.58
7.36
4.0
42.34
47.23
4.1
8.78
46.59
42
14.27
17.09
4-3
51.20
59.36
5.9
"73
7.02
5.0
42.21
46.92
5.1
8.44
46.39
5.2
13.99
17.05
53
51.00
59-^8
6.9
11.90
6.69
6.0
42.08
46.60
6.1
8.08
46.17
6.2
13.71
16.98
6.3
50.78
59.60
7.9
12.09
6.38
7.0
41.96
46.26
7.1
7-73
45.92
7.2 13.42
16.90
7.2
50.55
59.69
8.9
12.30
6.07
8.0
41.86
45.90
8.1
7.40
45.65
8.2
13.12
16.79
8.2
50.32
59-74
9.9
12.52
5.79
9.0
41.78
45.53
9-1
7.09
45.36
9.2
12.84
16.64
9.2
50.09
59.77
10.9
12.74
5.55
lO.O
41.71
45.17
10. 1
6.82
45.08
10.2
12.58
16.49
10.2
49.86
59.78
11.8
12.94
5.33
1 1.0
41.66
44.82
II. I
6.58
44.79
II. 2
12.35
16.33
II. 2
49.65
59.78
12.8
1313
5."
12.0
41.62
44.50
12. 1
6.37
44.52
12.2
12.13
16.18
12.2
49.46
59.77
13.8
13.31
4.90
13.0
41.58
44.20
13.1
6.17
44.27
13.2
11.93
16.04
13.2
49.28
59.77
14.8
13.47
4.69
14.0
41.53
43.92
14. 1
5.96
44.04
14.2
"73
15.92
14.2
49.11
59.78
15.8
13.63
4.46
15.0
41.47
43.66
15.1
5.74
43.83
15.1
11.52
15.82
15.2
48.94
59.81
16.8
13.79
4.20
16.0
41.40
43.39
16.1
5.50
43.63
16.I
11.31
15.72
16.2
48.77
59.86
17.8
13.96
3.95
17.0
41.33
43.10
17.1
5.24
43.41
I7.I
11.08
15.63
17.2
48.58
59.90
18.8
14.15
3.69
18.0
41.25
42.79
18.1
4.97
43.16
18.I
10.84
15.52
18.2
48.38
59.94
19.8
14.36
3.43
18.9
41.18
42.45
19.1
4.71
42.90
I9.I
10.58
15.38
19.2
48.17
59.96
20.8
14.59
3.X7
19.9
41.12
42.10
20.1
4.45
42.62
20.1
10.33
15.22
20.2
47.95
59.97
21.8
14.83
2.94
20.9
41.08
41.74
21. 1
4.21
42.32
21. 1
10.08
15.05
21.2
47.72
59.96
22.8
15.07
2.72
21.9
41.05
41.36
22.1
3.99
42.00
22.1
9.84
14.85
22.2
47.49
59.93
23-8
1532
2.53
22.9
41.03
40.99
23.0
380
41.68
23.1
9.61
14.64
23.2
47.27
59.87
24.8
15.57
2.35
23.9
41.03
40.63
24.0
3.63
41.35
24.1
9.41
14.41
24.2
47.06
59.80
25.8
15.80
2.18
24.9
41.04
40.29
25.0
3.48
41.03
25.1
9.22
14.19
25.2
46.86
59.71
26.8
16.03
2.04
25.9
41.06
3996
26.0
3.35
40.72
26.1
9.04
13.98
26.2
46.68
59.62
27.8
16.24
1.90
26.9
41.08
3965
27.0
3.24
40.44
27.1
8.87
13.78
27.2
46.51
59.55
28.8
16.44
1-75
27.9
41.09
39.36
28.0
3.13
40.17
28.1
8.70
13.59
28.2
46.35
59.48
29.8
16.64
1.60
28.9
41.10
3908
29.0
3.01
39.92
29.1
8.52
13.41
29.2
46.19
59.42
30.8
16.83
1.44
29.9
41. II
38.80
30.0
2.87
39.68
30.1
8.34
13.25
30.2
46.04
59.37
31-8
17.02
1.26
30.9
41.10
38.51
31.0
2.71
39.43
31. 1
8.15
13.09
31.2
45.86
59.34
32.8
17.23 1.05
3x9
41.08
38.20
32.0
2.53
39.18
32.1
7.95
12.92
32.2
45.67
59.31
11.95 -11.91
II. 10 -11.05
18.46 -18.44
12.26 -12.22
9.78 -9.73
i»» 42» I7*.46
^h 47m i.,^o
7^ 17™ 4i'.i9
9^ 9™ 30'.42
10^ 59" 56'.70
-85** 12' 33".92
-84'' 49' 5 1 ".91
-86<'53' 4o".29
-85** 18' 58".68
-84** V 33".i4
[Eph XI
\\
JULY, 1913.
493
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 OcteBtU.
SI XensiB.
7 Ootantis.
C Octantis.
7 Octantis.
Mag. 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6.3
Mean
.Solar
Date.
Risfat
Ascen-
sion.
Declina-
tion
Souih.
Mean
Solar
Date.
Ritfht
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Riffht
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
So%Uh.
Mean
Solar
Date.
Right Dedi-
Ascen- nation
sion. { South.
1
h m
0 /
h m
0 *
h m
0 /
h m
0 /
h m' « '
July
142
-85 II
0 0
July
546
-8449
July
717
-8653
§ §
July
9 9
-8519
00
July
10 59 -84 7
1.8
s
17.02
61.26
1-9
s
41.08
38.20
I.O
8
2.71
» w
39.43
I.I
8.15
WW
13.09
1.2
45.86
59.34
2.8
17.231 61.05 1
2.9
41.06
37.88
2.0
2.53
39.18
2.1
7.95
12.92
2.2
45.67
59.31
3.8
17-46
60.84
3.9
41.05
37-55
3.0
2.35
38.90
3.1
7.74
12.75
3.2
45.47
59.28
4.8
17.70
60.64
4-9
41.04
37.19
4.0
2.17
38.59
4.1
7.53
12.55
4.2
45.26
59.22
5.8
17.96
60.46
5.9
41.06
36.81
5.0
2.00
38.25
5.1
7.32
12.32
5.2
45.04
59.15
6.8
18.24
60.31
6.9
41.10
36.44
6.0
1.85
37.90
6.1
7.13
12.07
6.2
44.83
59.04
7.8
18.52
60.19
7.9
41.16
36.09
7.0
1.74
37.55
7.1
6.94
II 80
7.2
44.62
58.92
8.8
18.79
60.08
8.9
41.23
35.76
8.0
1.67
37.21
8.1
6.78
11.52
8.2
44.42
58.77
9.8
19.04
60.00
9-9
41.30
35.45
9.0
1.62
36.88
9.1
6.63
11.25
9.2
44.24
58.61
10.8
19.27
59.94
10.9
41.38
35.16
lO.O
1.60
36.59
10. 1
6.50
10.99
10.2
44.08
58.45
11.8
19.48
59.87
11.9
41.44
34.90
1 1.0
1.58
36.30
II. I
6.38
10.75
II. 2
43.93
58.31
12.8
19.69
59.78
12.9
41.49
34.64
1 1.9
1.54
36.03
12. 1
6.25
10.52
12.2
43.79
58.18
13.8
19.90
59.68
13.9
41.53
34.37
12.9
1.49
35.76
13.1
6.12
10.31
I3.I
43.65
58.07
14.8
20.12
59.57
14.9
41.58
34.09
13.9
1.42
35.50
14.1
5.98
10. 1 1
14.1
43.50
57.97
15.8
20.35
59.45
15.9
41.62
33.79
14.9
1.34
35.23
15.1
5.83
9.90
15.1
43.34
57.87
16.8
20.60
59-33
16.9
41.67
33.47
15.9
1.25
34.93
16.1
5.68
9.67
16.I
43.16
57.76
17.7
20.86
59.22
17.9
41.73
33.13
16.9
1.17
34.62
17.1
5.53
9.42
I7.I
42.98
57.63
18.7
21.13
59.13
18.9
41.80
32.79
17.9
I. II
34.29
18.1
5-37
915
18.I
42.79
57.48
197
21.41
59.06
19.9
41.89
32.46
18.9
1.07
3394
19.1
5.23
8.86
19.1
42.60
57.30
20.7
21.69
59.00
20.9
42.00
32.13
19.9
1.06
33.58
20.1
5.11
8.56
20.1
42.42
57.11
21.7
21.97
58.97
21.9
42.11
31.82
20.9
1.07
33.23
21. 1
5.00
8.24
21. 1
42.25
56.90
22.7
22.24
58.97
22.9
42.24
31.52
21.9
I. II
32.89
22.0
4.90
7.92
22.1
42.09
56.68
237
22.50
58.97
23.9
42.37
31.25
22.9
1. 16
32.56
23.0
4.81
7.60
23.1
41.94
56.45
24.7
22.75
58.98
24.9
42.50
31-00
23.9
1.22
32.24
24.0
4-73
730
24.1
41.80
56.23
25.7
22.98
58.99
259
42.62
30.76
24.9
1.29
31.95
25.0
4.66
7.02
251
41.68
56.02
26.7
23.20
58.99
26.9
42.74
30.53
25.9
1.37
31.67
26.0
4.60
6.75
26.1
41.56
55.81
277
23.41
58.99
27.9
42.85
30.29
26.9
1-43
3140
27.0
4.53
6.49
27.1
41.45
55.62
28.7
2363
58.97
28.9
42.94
30.05
27.9
1.48
31.14
28.0
4-45
6.24
28.1 '41.33
*
55.45
29.7
23.86
58.94
29.9
43.03
29.79
28.9
1.51
30.88
29.0
4.36
5-99
29.1 '41.21
55.28
30.7
24.10
58.90
30.9
43.13
29.51
29.9
1.53
30.61
30.0
4.26
5-74
30.1
41.06
55.12
31.7
24.36
58.86
31.9
43.23
29.21
30.9
1.54
30.32
31.0
4.16
5-48
311
40.91
54.94
32.7
24-63
58.82
32.9
43.34
28.90
31.9
1.55
30.00
32.0
4.06
5.19
32.1
40.75
54.74
11.95 -1 1. 91
11.09 -11.04
18.45 -18.42
12.25 -
-12.21
9.78 -9.73
i»> 42« I7V46
5^ 47" I '50
7»» 17M 4i".i9
9^ 9m .
}o*.42
lo*" 59" 56".70
-85*> 12' 33".92
-84O49' 5 1 ".9 1
-86O53' 40".29
-85O18' 5
8".68
-84^ 7' 33". 14
lEph I.
\\
494
AUGUST, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 Ootanftls.
SI Xense.
7 Ootantis.
C OotantiE.
V Octe]
Mag. 5.6
Mag. 6
.2
Mag. 6.4
Mag. 5.4
Mag. 1
Mean
SoUr
Date.
Right
Ascen-
sion.
Declina-
tion
Satdh.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Dedina.
tion
Stmtk.
Mean
Solar
Date.
Right
Ascen-
sion.
h m
0 /
h m
0 /
h m
0 /
h m
0 t
h IT
Aug.
142
-85 II
Aug.
546
-8449
ft
Aug.
717
-8653
f §
Aug.
9 9
-8518
Aug.
1059
»-7
s
«4.63
58.82
s
1.9 143 34
28.90
1.9
s
1.58
29.66
I.O
s
4.06
65.19
I.I
5
40.75
2.7
24.91
58.81
2.9 ! 43.48
28.59
2.9
1.65
29.30
2.0
3.97
64.87
2.1
40.58
3.7
25.20
58.83
3.9
43.64
28.30
3.9
1.75
28.95
3.0
3.90
64.54
3.1
40.43
4.7
25.48
58.88
4.9
43.80
28.03
4.9
1.89
28.62
4.0
3.85
64.19
4.1
40.29
5-7
25.74
58.95
5.9
43.98
27.78
5-9
2.05
28.32
5.0
3.81
63.85
5-1 '40.17
6.7
25.98
59.03
6.9
44.16
27.56
6.9
2.22
28.04
6.0
3.79
63.52
6.1 '40.06
7.7
26.20
59.12
7-9
44.32
27.37
7.9
2.38
27.79
7.0
3.78
63.22
7.1 ! 39.98
8.7
26.41
59.21
8.9
44.49
27.19
8.9
2.53
27.54
8.0
3.77
62.94
8. 1 , 39-90
9-7
26.61
59.28
9.9
44.63
27.01
9-9
2.67
27.30
8.9
3.76
62.67
1
9.1 139.82
10.7
26.81
59.33
10.9
44.76
26.82
10.9
2.78
2705
9.9
3.75
62.41
lO.I
39-74
11.7
27.03
59.37
II. 9
44.89
26.61
11.9
2.89
26.79
10.9
3.73
62.15
II. I
3965
12.7
27.26
5941
12.8
45.03
26.37
12.9
2.99
26.52
11.9
370
61.88
12. 1
39.55
13.7
2750
59.46
13.8
45.19
26.13
13.9
3.10
26.22
12.9
3.66
61.59
13.x
39.44
14.7
27.76
59.53
14.8
4536
25.88
14.9
324
25.90
13-9
362
61.29
14. 1
39-32
15.7
28.02
59.61
15.8
45-54
2564
15-9
3.41
25.59
14.9
3.60
60.97
"5.1
39-21
16.7
28.29
5971
16.8
45.74
25.41
16.9
3.60
25.28
15-9
3.59
60.63
16.1
39.10
177
28.55
59.83
17.8
45.95
25.19
17.9
3.81
24-99
16.9
3.59
60.28
17.1
39.00
18.7
28.80
59.97
18.8
46.16
24-99
18.9
4.05
24.70
17.9
3.62
59.93
18.1
38.91
197
29.04
60.13
19.8
46.38
24.81
19.9
4.31
24-43
18.9
3.66
59.59
19.0
38.84
20.7
29.27
60.30
20.8
46.60
24-65
20.9
4.57
24.19
19.9 3.70
59.26
20.0
38.78
21.7
29.48
60.47
21.8
46.81
24.52
21.9
4.83
23.96
20.9
3.76
58.94
21.0
38.74
22.7
29.67
60.64
22.8
47.01
24.40
22.9
5.08
23-75
21.9
3.82
58.63
22.0
38.69
23.6
29.86
60.80
23.8
47.20
24.28
23.9
5.31
23-55
22.9
3.88
58.35
23.0
38.66
24.6
30.04
60.94
24.8
47.38
24.16
249
5.52
23.36
23.9
3.94
58.09
24.0
38.63
25.6
30.22
61.06
25.8
47.56
24.03
25.9
5-72
23.15
24.9
3.99
57.84
25.0
38.59
26.6
30.41
61.18
26.8
47.72
23.88
26.9
5-91
22.92
25.9
4.02
57.58
26.0
38.54
27.6
30.61
61.29
27.8
*
47.89
23-7«
27.9
6.10
22.68
26.9
4.05
57.31
27.0
38-4«
28.6
30.83
61.41
28.8
48.08
23.52
28.9
6.30
22.42
27-9
4.08
57.02
28.0
38.43
29.6
3106
61.55
29.8
48.29
23-34
29-9
6.52
22.15
28.9
4.1 1
56.72
29.0
38.35
30.6
31.30
61.71
30.8
48.51
23.17
30.9
6.78
21.88
29.9
4->5
56.41
30.0
38.28
31.6
31.53
61.90
318
48.74
23.01
31 9
7.07
21.63
30.9
4.21
56.08
31.0
38.23
32.6
31-75
62.11
32.8
48.98
22.89
32.9
7-39
21.40
31.9
4.29
55.74
32.0
38.ifi
11.95 -11.91
11.08 -
11.04
18.43 -18.41
12.25 -12.21
9.78
I** 42" i7'.46
5** 47°
I '.50
7»» 17m 4i*.i9
9»» 9« 3o».42
10^59^
-85^
12' 3,
J".92 1
-84<>
49' 5
i".9i
-86*»
53' 4<
y'.29 1
-85*"
18' 51
B".68 1
-84^
. 7/
IBph X3l
SEPTEMBER, 1913.
495
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 OctentU.
81 Mtnnm,
7 Octantis.
C OotantiE.
Tf OotantiB.
Mag. 5
.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6.3
Mean
Richt
Dedina*
Mean
Right
Declina.
Mean Right
Declina-
Mean
Right
Declina-
Mean
Right
Decli-
Solar
Ascen-
tion
Solar
Ascen-
tion
Solar Ascen-
tion
Solar
Ascen-
tion
Solar
Ascen-
nation
Date.
sion.
South.
Date.
sion.
South.
Date.
sion.
Souih.
Date.
sion.
South.
Date.
sion.
Souih.
h m
0 /
h m
0 t
h m
0 /
h m
0 /
h m
0 /
Sept.
142
-85 12
Sept.
546
-8449
Sept.
7 17
-8653
ft
Sept.
9 9
-8518
f0
Sept.
1059
-84 7
am
1.6
s
31.75
2. II
1.8
s
48.98
22.89
1-9
s
7.39
21.40
1-9
s
4.40
55.42
I.O
38.18
WW
46.33
2.6
31.95
2.34
2.8
49.22
22.80
2.9 7.71
21.19
2.9
4.52
55.12
2.0
38.16
46.00
3.6
32.12
2.58
3.8
49.46
22.74
3.9
8.04
21.01
3.9
4.64
54.84
3.0
38.16
45.68
4-6
32.27
2.81
4.8
49.69
22.69
4.8
8.36
20.86
4.9
4.75
54.59
4.0
38.16
45.37
5.6
32.40
3.04
5.8
49.90
22.65
5.8
8.67
20.72
5.9
4.86
54.36
5.0
38.18
45.08
6.6
32.54
3.24
6.8
50.09
22.60
6.8
8.95
20.57
6.9
4.98
54. "3
5-9
38.21
44.81
7.6
32.68
3-44
7.8
50.29
22.54
7.8
9.21
20.42
7.9
5.08
53.90
6.9
38.22
44.53
8.6
32.84
3.62
8.8
50.48
22.46
8.8
9-47
20.25
8.9
5.19
53.65
7-9
38.23
44.27
9.6
33.00
3.81
9.8
50.68
22.37
9.8
9-74
20.07
9-9
5.28
53.39
8.9
38.22
44.00
I0.6
33.18
4.00
10.8
50.90
22.28
10.8
10.02
19.87
10.9
5.37
53."
9.9
38.21
43.71
II.6
33.37
4.21
11.8
51.13
22.18
11.8
10.32
19.67
11.9
5-47
52.81
10.9
38.19
43.41
12.6
33.56
4.43
12.8
«
51.37
22.09
12.8
10.64
19.47
12.9
5.59
52.5J
1 1.9
38.18
43.10
13-6
33.75
4.68
13.8
51.63
22.01
13-8
10.99
19.28
13-9
5.73
52.21
12.9
38.17
42.77
14.6
33-93
4.95
14.8
51.89
21.96
14.8
11.36
19.09
14.9
5.88
5i.9»
13.9
38.18
42.42
15.6
34.09
5.23
15.8
52.15
21.93
15.8
"•75
18.93
15.9
6.05
5 1 62
14.9
38.19
42.08
16.6
34.24
5.54
16.8
52.40
21.93
16.8
12.14
18.79
16.9
6.23
5x36
15.9
38.22
41.74
17.6
34-37
5.84
177
52.66
21.94
17.8
12.53
18.68
17.9
6.41
51."
16.9
38.27
41.41
18.6
34.48
6.14
18.7
52.91
21.97
18.8
12.92
18.58
18.9
6.61
50.88
17.9
38.34
41.09
19.6
34.58
6.43
19.7
53.14
22.01
19.8
13.29
18.50
19.9
6.80
50.67
18.9
38.41
40.78
20.6
3467
6.70
20.7
53.36
22.05
20.8
13.63
18.43
20.9
6.98
50.48
19.9
38.49
40.49
21.6
34-75
6.95
21.7
53.56
22.08
21.8
13.96
18.36
21.9
7.15
50.29
20.9
38.56
40.22
22.6
34.84
7.18
22.7
53.76
22.09
22.8
14.28
18.28
22,9
7.30
50.10
21.9
38.62
39.97
23.6
34.94
7.41
23.7
53.97
22.09
23.8
14.58
18.17
23.9
7.45
49.90
22.9
38.67
39.72
24.6
35.06
7.65
24.7
54.18
22.09
24.8
14.89
18.06
24.9
7.58
49.68
23-9
38.71
39.46
25.6
35.19
7.90
25.7
54.39
22.07
25.8
15.22
17.95
25.9
7.73
49.45
24.9
38.74
39.19
26.6
35.32
8.17
26.7
54.62
22.06
26.8
15.58
17.82
26.9
7.89
49.20
25.9
38.78
38.90
27.6
35.45
8.45
27.7
54.88
22.07
27.8
15.96
17.70
27.9
8.08
48.96
26.9
38.82
38.60
28.6
35.57
8.75
28.7
55.14
22.10
28.8
16.37
17.60
28.9
8.29
48.72
27.9
38.88
38.28
29.5
35.67
9.07
29.7
55.40
22.17
29.8
16.80
17.53
29.9
8.51
48.50
28.9
38.96
37.96
30.5
35.75
9.41
30.7
55.64
22.27
30.8
17.22
17.49
30.9
8.74
48.30
29.9
39.06
37.65
31.5
35.80
9.74
31.7
55.88
22.38
31.8
17.64
17.48
31-9! 8.99
48.14
30.9
39.17
37.35
32.5
35.83
10.06
32.7
56.11
22.51
32.8
18.03
17.49
32.9 923
48.00
31.9
3929
37.08
11.95 -
11.91
11.08 -11.04
18.42 -18.40
12.24 -12.20
9.78 -9.72
i^ 42™ ]
I7'.46
^h ^^m ,.,50
yh I7» 4l'.I9
9»» 9a 3o".42
io»» 59» 56". 70
-85 0
12' 3
3".92
-84**
49' 5
i".9i
-86*>
53' 4<
d".29
-85''
18' 5
8".68
-84'
' r
33". 14
lEph 13]
496
OCTOBER, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 Octantis.
81 Xense.
7 Octantis.
C Octantis.
17 Octantis.
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
SatUh.
Mean
Solar
Date.
Right
Ascen-
sion.
Dedina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Aaoeo-
sion.
Decfr
SmA.
h m
0 r
h m
0 /
h m
0 t
h m
0 /
h m' » '
Oct.
142
-85 12
Oct.
546
-8449
m §
Oct.
717
-8653
Oct.
9 9
-85 18
t §
Oct.
1059
-*^ 7
1-5
s
35.80
9.74
1.7
s
55.88
w w
22.38
1.8
8
17.64
w r
17.48
1.9
s
8.99
' w
48.14
1-9
s
39.29
37.08
2.5
35.83
10.06
2.7
56.11
22.51
2.8
18.03
17.49
2.8
9.23
48.00
2.9
39.42
36.83
3-5
35.86
10.36
3.7
56.31
22.64
3.8
18.39
17.50
3.8
9-45
47.88
39
39.54
36.60
4-5
35.88
10.64
4.7
56.50
22.75
4.8
18.74
17.51
4.8
9.65
47.76
49
39.65
36.38
55
35.92
10.91
5.7
56.69
22.86
5.8
19.08
17.50
5.8
9.85
47.63
5.9
39-75
36.16
6.5
3596
II. 17
6.7
56.89
22.94
6.8
19.42
17.47
6.8
XO.04
47.48
6.9
39.84
35.93
75
36.02
11.44
7.7
5709
23.01
7.8
19.75
17-44
7.8
10.22
47.32
7.9
39-93
35.68
8.5
36.09
11.72
8.7
57.30
23.08
8.8
20.11
17.40
8.8
10.42
47.15
8.9
40.02
35.42
9-5
36.16
12.01
9.7
57.53
23.16
9.8
20.49
1735
9.8
10.63
46.97
9.9
40.11
3515
10.5
36.23
12.32
10.7
57.77
23.24
10.7
20.90
17.32
10.8
10.85
46.79
10.9
40.22
3487
II-5
36.29
12.64
II.7
58.01
23.35
11.7
21.32
17.29
XI.8
11.09
46.62
11.9
40.34
3458
12.5
36.33
12.99
12.7
58.25
23.48
12.7
21.76
17.28
12.8
11.35
46.45
*
12.9
40.47
3430
13.5
36.36
13.34
137
58.49
23.63
13.7
22.20
17.30
13.8
11.62
46.30
13.9
40.62
3403
14.5
36.37
13.69
14.7
58.72
23.81
14.7
22.64
17.34
14.8
11.90
46.18
14.9
40.78
33.77
15.5
36.36
14.04
15.7
58.95
24.00
15.7
23.07
17.41
15.8
12.18
46.09
159
40.94
33.53
16.5
36.34
14.38
16.7
59.17
24.21
16.7
23.48
17.49
16.8
12.45
46.01
16.9
41. II
33.32
17.5
36.31
14.70
17.7
59.36
24.41
17.7
23.87
17.59
17.8
12.72
45.94
17.9
41.28
33.12
18.5
36.27
15.01
18.7
59.53
24.61
18.7
24.23
17.69
18.8
12.97
45.89
18.9
41-45
32.93
19.5
36.23
15.30
19.7
59.70
24.80
19.7
24.57
17.77
19.8
13.21
45.85
19.9
41.61
32.76
20.5
36.20
15.57
20.7
59.87
24.97
20.7
24.89
17.85
20.8
13.43
45.80
20.9
41.75
32.60
21.5
36.18
15.84
21.7
60.04
25.13
21.7
25.22
17.91
21.8
13.65
45.74
21.9
41.88
32.43
22.5
36.17
16.11
22.7
60.22
25.27
22.7
25.56
17.96
22.8
13.86
45.66
22.9
42.01
32-25
23.5
36.17
16.40
23.7
60.41
25.42
23.7
25.92
18.00
23.8
14.09
45.56
23.9
42.14
32.04
24.5
36.17
16.70
24.6
60.61
25.58
24.7
26.30
18.05
24.8
14.34
45.46
24.9
42.28
31.83
25.5
36.16
17.04
25.6
60.82
25.76
25.7
26.69
18.11
25.8
14.60
45.38
25.9
42.44
31.61
26.5
36.14
17.38
26.6
61.03
25.97
26.7
27.10
18.20
26.8
14.88
45.31
26.9
42.63
31.39
27.5
36.09
17.73
27.6
61.24
26.22
27.7
27.53
18.33
27.8
15.17
45.26
27.9
42.83
31.19
28.5
36.01
18.08
28.6
61.43
26.49
28.7
27.94
18.48
28.8
15.47
45.24
28.9
43.04
31.01
295
35.91
18.42
29.6
61.60
26.77
29.7
28.32
18.65
29.8
15.76
45.26
29.9
43.25
30.86
30.5
35.81
18.74
30.6
61.75
27.06
30.7
28.68
18.83
30.8
16.04
45.30
30.8
4346
30.75
315
3570
19.02
31.6
61.89
27.34
31.7
29.01
19.02
31.8
16.31
45.34
31.8
43.65
30.66
32.5
35.59
19.29
32.6
62.02
27.60
32.7
29.32
19.19
32.8
16.56
45.38
32.8
43.84
30.56
11.96 -11.92
11.08 -
11.04
18.42 -
18.39
12.24 -12.20
9.77 -9.72
i^ 42™ I7V46
5*^47"'
i".50
7»i lyin ^
M'.i9
9>» 9» 30-.42
lo^ 59^ 56*.70
-850
12' 3.
3".92
-840
49' 5
i".9i
-86*»
53' 4<
y.29
-850
18' 5I
B".68
-%K
» 7'
33"-i4
[Eph X3l
NOVEMBER, 1913.
497
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
4 Oeteatti.
81 XensiB.
7 OotanttB.
C Ootantis.
7 OotanttB.
Mag. 5.6
Mag. 6.2
Mag. 6.4
Mag. 5.4
Mag. 6.3
Solar
Date.
Riglit
akm.
De<dma-
tioa
Somik.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina
tion
So%Uk.
Mean
Solar
Date.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen"
sion.
Decli-
nation
South.
h m
0 t
h m
0 /
h m
0 /
h ni
0 t
h m
0 /
Nov.
142
-85 12
»0
Nov.
5 47
-8449
mm
Nov.
7x7
-8653
0 p
Nov . 9 9
-8518
m §
Nov.
1059
-84 7
m m
1.5
a
35.59
WW
19.29
1.6
8
2.02
W W
27.60
1.7
8
29.32
19.19
1.8
8
16.56
w w
45.38
1.8
8
43-84
9 r
30.56
2.5
35.50
19.55
2.6
2.15
27.84
2.7
29.62
19.35
2.8
16.80
45.41
2.8
44.01
30.46
3.5
35.41
19.80
3.6
2.28
28.06
3-7
29.92
19.49
3.8
1703
45.42
3.8
44.18
30.35
44
35.34
20.07
4.6
2.42
28.27
4.7
30.24
19.61
4.8
17.26
45.42
4.8
44-34
30.22
54
35.28
20.35
5.6
2.57
28.49
5.7
30.56
19.74
5.8
17.50
45.42
5.8
4452
30.09
64
35-22
20.64
6.6
2.73
28.72
6.7
30.90
19.87
6.8
17.75
45.41
6.8
44.70
29-95
74
35.15
20.94
7.6
2.89
28.97
7.7
3X-26
20.01
7.8
18.02
4541
7.8
44.89
29.80
«4
35.07
21.26
8.6
3.06
29.23
8.7
31.63
20.17
8.7
18.30
45.41
8.8
45.08
29.65
94
34.98
21.59
9.6
3.22
29-5"
9.7
32.01
20.35
9.7
18.60
45-44
9.8
45.30
29.51
104
34.87
21.91
10.6
3.38
29.81
10.7
32.39
20.55
10.7
18.90
45-48
10.8
45.53
2939
"4
34.73
22.23
11.6
3.53
30.12
11.7
32.76
20.78
11.7
19.21
45-55
11.8
45.77
29.30
124
34.57
22.55
12.6
3.66
30.46
12.7
33.10
21.03
12.7
19.51
45.64
12.8
46.01
29.21
134
3441
22.84
X3-6
3.78
30.80
13.7
3342
21.28
13.7
19.79
45.75
13.8
46.24
29.16
M4
34.24
23.11
14.6
3.88
3»»3
147
33.72
21.54
14.7
20.06
45.87
14.8
46.47
29.13
154
34.07
23.35
15.6
3.96
3145
15.7
33.99
21.79
15.7
20.31
46.00
15.8
46.69
29.11
164
33.91
2357
16.6
4.04
3x75
16.7
34.23
22.03
16.7
20.54
46.13
16.8
46.90
29.10
>74
3376
23.78
17.6
4.II
32.04
17.6
3446
22.25
17.7
20.77
46.25
17.8
47.10
29.09
iM
33.62
24.00
18.6
4.19
32.31
18.6
34.69
22.46
18.7
20.99
46.35
18.8
47.29
29.07
m
3349
24.21
19.6
4.27
32.57
19.6
34.94
22.67
19.7
21.21
46.44
19.8
47.47
29.03
»4
33.37
24.45
20.6
4.37
32.83
20.6
35-21
22.87
20.7
21.45
46.52
20.8
47.66
28.98
214
33.24
24.70
21.6
4.48
33-"
21.6
35.50
23.07
21.7
21.71
46.60
21.8
47.86
28.92
224
33.10
24.97
22.6
4.59
3341
22.6
35.81
23.30
22.7
21.98
46.70
22.8
48.08
28.87
234
32.94
25.26
23.6
4.70
33.74
23.6
36.12
23.56
23.7
22.26
46.82
23.8
48.32
28.82
244
32.75
25.53
24.6
4.79
34.10
24.6
3642
23.85
24.7 22.55
46.97
24.8
48.57
28.80
254
32.54
25.80
25.6
4.86
3447
25.6
36.70
24.17
257
22.83
47.15
25.8
48.83
28.81
264
32.31
26.03
26.6
4.92
34.85
26.6
36.95
24.50
26.7
23.10
47.36
26.8
49.08
28.85
274
32.08
26.24
27.6
4.95
35.22
27.6
37.16
24.83
27.7
23.36
47.58
27.8
49.32
28.91
284
31.85
26.43
28.6
4.97
35.58
28.6
37.35
25.14
28.7
23.59
47.80
28.8
49.55
28.99
294
31.64
26.60
29.6
4.99
35.92
29.6
37.51
25.44
29.7
23.80
48.01
29.8
49.77
29.07
304
3144
26.76
30.5
500
36.24
30.6
37.67
25.72
30.7
2399
48.21
30.8
49.97
29.14
314
31.26
26.92
31.5
502
36.54
31.6
37.84
25.99
31.7
24.20
48.38
31.8
50.16
29.20
11.97 -11.93
XI.09 -XI.04
18.43 -18.40
12.24 -12.20
9.77 -972
i^ 42* I7'.46
5** 47» I -.50
7^ i7» 4i*.i9
9** 9°" 30*.42
lo^ 59^ 56«.70
-«5^
12' a
3".92
-84^
49' 5
i".9i
-86*>
53' 4<
0".29
-85**
18' 5
8".68
-84
. 7.
33". 14
1913-
-32
[Bphxs]
498
DECEMBER, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
i OotantU.
Mag. 5.6
Mean
Solar
Date.
Right
Ascen-
sion.
h m
Dec.
142
8
1-4
31-26
2.4
31.09
3.4
30-92
4.4
3074
Declina
tion
South.
5.4
6.4
7-4
8.4
9.4
10.4
11.3
12.3
133
143
153
16.3
173
30.55
30.35
30.13
29.90
29.65
2939
29.13
28.86
28.60
28.35
28.12
27.91
27.69
18.3 127.48
193
20.3
21.3
22.3
233
243
253
26.3
273
28.3
293
30.3
313
32.3
27.26
27.03
26.78
26.51
26.21
25-91
25.62
25-33
2504
24.80
24-55
24-31
24.07
23.83
-85 12
ft
26.92
27.09
27.28
27.47
27.67
27.89
28.10
28.31
28.51
28.68
28.84
28.96
29.07
29.16
29.25
29.33
29.41
29.52
29.64
29.77
29.91
30.04
30.15
30.22
30.26
30.29
30.29
30.30
30.31
30.31
30.34
30.38
81 XenuB.
Mag. 6.2
11.97
-85** 12'
-11.93
I7-.46
33".92
Mean
Solar
Date.
Dec.
1-5
2.5
3.5
4-5
5-5
6.5
7.5
8.5
9-5
10.5
11.5
12.5
13.5
14.5
15.5
16.5
175
18.5
19.5
20.5
21.5
22.5
23.5
24-5
25.5
26.5
27.5
28.5
295
30.5
31.5
32.5
Right
Ascen-
sion.
h m
5 47
s
5.02
505
509
5.13
5.18
5-23
5-27
530
5-32
5.31
5.29
5.25
5.20
5-15
5.10
5.05
5.01
4-99
4-97
4.95
4.92
4.88
4.81
4-72
4.61
4-49
438
4.27
4-17
4.07
3.99
3-91
Declina<
tion
South.
-8449
//
36.54
36.83
37-13
37.44
37.76
38.09
38.44
38.82
39.22
39.60
39.98
40.35
40.71
41.04
41-35
41.64
41.94
42.25
42.57
42.91
43.27
43-65
4405
44.44
44.81
45.15
45-47
45.77
46.05
46.33
46.63
46.93
7 Ootantts.
Mag. 6.4
11.09 -11.05
5^ 47» 1-.50
-84** 49' 5 1 "91
Mean
Solar
Date.
Dec.
1.6
2.6
3.6
Right
Ascen-
sion.
h m
7 17
8
37.84
38.01
38.20
4.6 38.40
5.6
6.6
7.6
8.6
9.6
10,6
II .6
12.6
13.6
14.6
15-6
16.6
17.6
18.6
19.6
38.62
38.84
39.05
39.26
39-45
39.62
39.76
39.87
39.94
40.00
40.05
40.12
40.19
40.27
40.39
Declina-
tion
South.
-8653
ff
20.6:40.51
21.6
22.6
23-5
24.5
25-5
26.5
27.5
28.5
29.5
30.5
31.5
32.5
40.63
40.72
40.80
40.83
40.83
40.80
40.76
40.72
40.68
40.66
40.65
40.66
2599
26.25
26.50
26.77
2705
27.34
27.65
27-98
28.33
28.69
29.05
29.42
29.78
30.12
30.45
30.75
31.04
31-33
31-64
31-97
32.33
32.72
33.12
33-52
33-92
3430
34.66
35.00
3532
3564
35-95
36.28
C OotftBtU.
Mag. 5.4
Mean
Solar
Date.
18.44 -18.42
yh 17™ 4lVl9
-86'' 53' 4o".29
[Eph 13]
Right
Ascen-
sion.
Declina-
tion
South.
Dec.
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
14.6
15.6
16.6
17.6
18.6
19.6
20.6
h m
9 9
s
24.20
24.41
24.62
24.84
25-07
2532
25.57
25.82
26.07
26.30
26.53
26.73
26.91
27.07
27-23
27-39
27-55
27-72
27.90
28.09
-8518
ft
21.6 ! 28.30
22.6 : 28.51
23.6 28.70
24.6 28.88
25.6
26.6
27.6
28.6
29.6
30.6
31.6
32.6
29-04
29.17
29.29
48.38
48.55
48.71
48.87
4905
49.24
49-45
49.68
49.92
50.19
50.48
50.77
51.07
51.35
51.62
51.87
52.11
52.34
52.59
52.85
53.14
53.46
53.80
54.16
5452
54.87
55-22
7 Octentts.
Mag. 6.3
Mean
Solar
Date.
29.39 55.54
29.49
29.60
29-72
29.85
55.84
56.13
56.41
56.70
12.24 -12. 20
9»» 9« 30'.42
-85<> 18' 58".68
Dec.
1.8
2.8
3.8
4.8
5.8
6.7
7.7
8.7
9.7
10.7
11.7
12.7
"37
14.7
15.7
16.7
17.7
18.7
19.7
20.7
21.7
22.7
23.7
24.7
Right
Ascen-
sion.
Dedi.
natiM
S<mtk
h m
1059
s
50.16
50.36
50.56
50.77 : 29.30
-84 7
29.20
29.24
29.27
50.99
51.22
51.46
51.71
51.96
52.20
5244
52.67
52.89
53.10
53.29
53.47
53.66
53.85
5405
29.33
29-37
2942
2949
29-59'
29.72
29.85
30-a>
30.17
30.34
30.50
30.64
30-77
30.91
31-02
54.27 3i.>5
54.51 31.29
54.76 3146
55.00 1 31.67
55.22 ! 31.91
32.16
3240
32.64
32.8S
33-10
33.30
33-50
33.71
25.7
55.43
26.7
55.63
27-7
55.81
28.7
55.98
29.7
56.15
30.7
56.32
31.7
56.49
32.7
5667
9.77 -9.72
10^ 59* 56'.70
JANUARY, 1913.
499
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
tOotentU.
(^OctantU.
X Ootantis.
(T OotantlB.
V Ootantis.
Mag. 5.4
Mag. 4.1
Mag. 5.2
Mag. 5.5
Mag. 5.7
McAn
Solar
Date.
Right
Ascen-
sion.
DecUna-
tson
S<mih.
Mean
Solar
Date.
Right
Ascen-
sion.
Dechna-
tion
Souik.
Mean
SoUr
Date.
Right
Ascen-
sion.
Declina-
tion
South,
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
S<nUh.
Mean
Solar
Date.
Right
Ascen-
sion.
Decli-
nation
South,
h m
0 f
h m
0 t
h m
0 /
h m
0 /
h m
0 /
Jan.
1245
-8438
Jan.
14 12
-8315
Jan.
18 3
-8739
M m
Jan.
1919
-8913
mm
Jan.
22 15
-86 24
0.8
s
36.67
44.65
0.8
s
41.77
59.63
0.9
8
14.88
58.55
I.O
s
50.15
WW
69.43
I.I
5
14.09
it
60.42
1-7
36.96
44.71
1.8
41.99
59.53
1.9
15.10
58.19
2.0
50.20
69.03
2.1
13.81
60.14
•2-7
37.26
44.81
2.8
42.24
59.47
2.9
15.37
57.83
3.0
50.38
68.63
3.1
13.55
59.84
37
37.55
44.94
3.8
42.49
59.45
3.9
15.68
57.48
4.0
50.67
68.23
4.1
13.32
59.53
4-7
37.82
45.08
4.8
42.73
5946
4.9
16.01
57.15
5.0
51-07
67.85
5.1
13.11
59-21
57
38.08
45.23
5.8
42.95
59.48
5.9
16.35
56.84
6.0
51.55
67.50
6.1
12.93
58.90
6.7
38.34
45-39
6.8
43.16
59.52
6.9
16.69
56.56
7.0
52.05
67 16
7.1
12.76
58.59
7-7
38.57
45.55
7.8
43.37
59.55
7.9
17.02
56.30
8.0
52.54
66.83
8.1
12.61
58.29
8.7
38.80
45.70
8.8
43.57
59.58
8.9
17.35
56.04
9.0
53.02
66.52
91
12.47
58.02
97
39.01
45.85
9.8
43.76
59.61
9.9
17.67
55.78
1 0.0
53.45
66.22
10. 1
12.32
57.75
I0.7
3923
45.98
10.8
43.95
59.64
10.9
17.97
5552
10.9
53.84
65.91
II. I
12.16
57.49
II.7
39.46
46.10
II. 8
44.14
59.65
11.9
18.26
55.25
1 1.9
54.19
65.60
12.1
12.00
57.22
12.7
39.70
46.22
12.8
44.34
59.66
12.9
18.54
54.97
12.9
54.51
65.28
13.1
II.81
56.95
137
39.94
46.34
13.8
44.54
59.66
13.9
18.82
5467
139
54.82
64.94
14.1
II.61
56.66
14-7
40.19
46.47
14.8
44.76
59.66
14.9
19.14
5436
14.9
55.18
64.58
15.1
11.40
56.36
15-7
40.45
46.63
15.8
44-99
59.67
15.9
19.48
54.04
15.9
55.61
64.19
16. 1
11.20
56.04
16.7
40.73
46.79
16.8
45.24
59.69
16.9
19.87
53.71
16.9
56.16
63.81
17.1
1 1. 01
55.68
17.7
41.01
46.99
17.8
45.49
59.74
17.9
20.30
53.39
17.9
56.85
63.42
18.1
10.84
55.31
18.7
41.27
47.22
18.8
45.73
59.83
18.9
20.77
53.09
18.9
57.70
63.04
19.1
10.69
54.93
19.7
41-53
47.47
19.8
45.96
59.93
19.9
21.26
52.82
19.9
58.65 62.67
20.1
10.58
54.54
20.7
41.76
47.73
20.8
46.19
60.06
20.9
21.77
52.56
20.9
59.67
62.33
21. 1
10.52
54.17
21.7
41.97
47.99
21.8
46.41
60.21
21.9
22.26
52.34
21.9
60.68
62.03
22.1
10.46
53.82
22.7
42.17
48.24
22.8
46.61
60.35
22.9
22.74
52.13
22.9
61.66
61.74
23.1
10.40
53.48
23-7
42.36
48.47
23.8
46.80
60.48
23.9
23.18
51.92
23.9
62.57
61.46
24.1
10.34
53.16
24.7
42.55
48.69
24.7
46.99
60.58
24.9
23.58
51.72
1 1
24.9 63.38' 61.18
25.1
10.26
52.85
25.7
42.76
48.88
25.7
47.19
60.68
25.9
23.98
51.49
25.9 1 64.12' 60.87
26.1
10.15
52.55
26.7
42.97
49.08
26.7
47.39
60.74
26.9
24.38
5124
26.9
64.81
60.55
27.1
10.02
52.22
27.7
43.20
49.28
27.7
47.61
60.81
27.9
24.79
50.97
27.9
65.52
60.22
28.1
9.88
51.88
28.7
43.46
49.51
28.7
47.83
60.90
28.9
25.24
50.68
28.9
66.33 59.86
29.1
9.75
51.51
29.7
43.71
49.75
29.7
48.07
61.01
29.9
25.73
50.39
29.9
67.26 59.49
30.1
9.62
51.12
30.7
43.97
50.01
30.7
48.31
61.14
30.9
26.25
50.11
30.9
68.32 59.12
311
9.53
50.71
317
44.20
5029
31.7
48.54
61.28
31.9
26.81
49.85
31.9
69.47 58.77
32.1
9.47
50.30
32.7
44.42 5059
32.7
48.77
61.45
32.9
27.37
4963
32.9
70.70 ; 58.43
33.1
9.42
49.90
10.
72 -10.67
8.53 -8.47
24.54 -24.52
74.85 -74.84
i(
>.oo -15.96
I2»»-
45° 43'.33
i4»» 12™ 50».8i
i8»» 3» 48».95
19b 21™ 19*. 15
22'
' 15° 19*. 18
-84*>
39' ,
3".86
-830
16' i;
5".94 1
-87^
39' 5,
3".07 1
-89<>
13' 5:
7".47 1
-86<
>24'
39"46
[Bph 23]
500
FEBEUARY, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
t OotantiB.
d OctantlB.
X OotantiB.
<rootuiiiB.
t^Octuitis.
Mag. 5.4
Mag. 4
.1
Mag. 5.2
Mag. 5.5
1
Mag. 5.7
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
Souik.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
DecUna-
tton
•South.
Mean
Solar
Date.
Right
Ascen-
sion.
Dcdi-
natifll ■
SmA. .
h m
0 f
h m
0 f
h m
0 /
h m
0 #
h m
0 »
Feb.
1245
-8438
Feb.
14 12
-8316
§ B
Feb.
18 3
-8739
Feb.
19 20
-8913
Feb.
22 15
-8614 :
tt 1
1.7
8
44.42
50.59
1.7
s
48.77
9 W
1.45
1.9
s
27-37
49.63
"•9
s
10.70
r r
58.43
I.I
s
9-47
5o.y> ■
2.7
44.63 50-90
2.7
48.99
1.64
2.9
27-94
49.42
2.9
11.97
58.12
2.1
9.42
4990 '.
3.7
44.83 51-21
3.7
49.20
1.83
3.9 28.50
49.23
3.9
13.25
57.83
3.1
9.40
49-50 •
4.7
45.01
51.50
4.7
49.39
2.02
4.9
29.04
49.05
4.9
14.50
57.55
4.1
938
49.13
5-7
45.17, 51.79
5.7
49.58
2.21
1
5.9 29.57
48.90
5.9
15.71
57.30
5-1
9.38
48.76
6.7
4534: 52.07
6.7
49.77
2.39
6.9
30.08
48.74
6.9
16.86
57.05
6.0
9.39
4842
7.6
45.51 '. 52.34
7-7
49.96
2.57
7-9
30.56
48.57
7.9
17.97
56.78
7.0
9.38
48.06
8.6
45.69 ' 52.59
8.7
50.14
2.72
8.9
31.04 48.38
8.9
19.04
56.51
8.0
9.36
47-74
9.6
45.87 52.85
9.7
50.32
2.87
9.9 I 31.53 1 48.19
9.9
20.10
56.23
9.0
9.34
47.40
10.6
46.07; 53.11
10.7
50.52
3.03
10.9
32.02
47.98
10.9
21.16
55.94
lO.O
930
47.06
11.6
46.27 53.38
XI.7
50.72
3.18
1 1.9
32.54
47.77
II.9; 22.28
55.62
II.O
9.24
46.71
12.6
46.48
53.66
12.7
50.94
3.34
12.9
33.10
47.54
12.9
23.49
55.29
12.0
9.19
46-33
13.6
46.69
53.97
13.7
51.16
3.53
13.9
33.69
47.32
13.9
24.82
54.96
130
9.15
45.93
14.6
46.90
54.31
14.7
51.39
3.74
14.8
34.32
47.12
14.9
26.29
54.64
14.0
9.12
45.50
15.6
47.10
54.66
15.7
51.61
3.99
15.8
34.99
46.93
15-9
27.88
54.34
15.0
913
45.07
16.6
47.27
55.04
16.7
51.82
4.26
16.8
35.67
46.78
16.9
29.54
54.06
16.0
9.15
44.64
17.6
47.43
55.42
17.7
52.01
4.53
17.8
36.33
46.66
17.9
31.24
53.81
17.0
9.22
44.2a
18.6
47.57
55.80
18.7
52.19
4.81
18.8
36.97
46.56
18.9
32.90
53.57
iS.o
9-31
43.8i
19.6 47.69
56.15
19.7
52.36
5.08
19.8
37-58
46.46
19.9
34.48
53.36
19.0
941
4343
20.6 47.82 1 56.49
1
1
20.7
52.52
5.33
20.8
38.17
46.37
20.9
35.95
53.16
20.0
9.51
43.06
21.6 j 47.94, 56.81
21.7
52.69
5.56
21.8
38.72
46.28
21.9
37.33
52.95
21.0
9.58
42-71
22.6
48.08
57.11
22.7
52.86
5-77
22.8
39.27
46.15
22.9
38.68
52.71
22.0
9.65
4237
23.6
48.23
57.42
23.7
53.04
5.98
23.8
39.82
45.99
23.9
40.01
52.45
23.0
9.68
42.03
24.6
48.40
57-73
24.7
53-22
6.19
24.8
40.40
45.82
24.9
41.40
52.18
23.9
9.71
41.66
25.6
1
48.58 58.06
25.7
53.42
6.42
25.8
41.02 45.65
25.9
42.88
51.90
24.9
9.73
41-27
26.6
48.75
58.41
26.7
53.63
6.68
26.8
41.67
45.50
26.9
44.46
51.62
25.9
9.76
40.86
27.6
48.92
58.79
27.7
53.84
6.95
27.8
42.35
45.35
27.9
46.15
51.34
26.9
9.80
40.43
28.6
49.07
1
59.18
28.7
5403
724
28.8
43.04
45.22
28.9
47-94
51.09
27.9
9.87
40.00
1
29.6 .49.21
59.58
29.6
54.21
7-54
29.8
43.73
45.12
29.9
49.77
50.87
28.9
9.97
39-58
30.6 i 49.32
59.97
30.6
54.38
7-85
30.8
44.41
45.06
30.9
51.59
50.67
29.9
10.10
39.i«
10.72 -10.68
8.53
-8.47
24.52 -24.50
7458 -74.58
I,
5.98 -15.95
12*^45" 43*. 13 1 14^ >2™ «
jo".8i
i8»» 3» 48».95
I9»»2,m i9«.i5 1 22"
^ 15* I9'i8
^^0
39'
3".86
1-83''
16' 1
3".94
-87**
39' 5
3".07
-89«
13' 5
7".47
1 -86<
•>24'
39"46
[Bphxj]
MAECH, 1913.
501
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
lOeteBtli.
c^Ootantis.
ATOotantis.
<TOotanti8.
V Ootantis.
Mag. 5.4
Mag. 4. 1
Mag. 5.2
Mag. 5.5
Mag. 5.7
labr
Date.
Risht
ikm.
tkm
South,
Me*n
Solar
Date.
Richt
Ascen-
sion.
DrcUna-
tion
SmUk,
Mean
Solar
Date.
Right
Aacen-
8ton.
Declina.
tion
South.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
Smtih,
Mean
Solar
Date.
Right
Ascen-
sion.
Decli-
nation
SoyUh,
b m
0 '
h m
0 /
h m
0 /
h m
0 t
h m
0 /
Mar.
1245
-8438
Mar.
14 12
-8316
Mar.
18 3
-8739
Mar.
19 20
-8913
Mar.
22 15
-8624
1.6
49.21
59.58
1.6
s
54-21
7.54
1.8
s
43.73
45.12
1.9
s
49-77
50.87
1.9
s
10.10
39.18
2.6
4932
59.97
2.6
54.38
7.85
2.8 144-41
45.06
2.9
51.59
50.67
2.9
10.24
38.79
3.6
49.42
60.36
3.6
54.54
8.17
3-8; 45.09
45.00
39
53-39
50.49
3.9
10.39
38.41
4.6
49.51
60.74
4.6
54.70
8.47
4.8 45.73
44.96
4-9
55.14
50.32
4-9
10.54
38.05
5.6
49.60
61. II
5.6
54.84
8.77
5.8 46.34
44-93
5.9
56.83
50.16
5-9
10.69
37.70
6.6
49.68
61.46
6.6
54.97
9.07
6.8
46.94
44-89
6.8
58.46
49.99
6.9
10.83
37-36
7.6
49.77
61.80
7.6
55.10
9.34
7.8
47.51
44.84
7-8
60.03
49.83
79
10.96
3703
8.6
49.86
62.13
8.6
5525
9.60
8.8
48.09
44.78
8.8
61.56
49.67
8.9
11.07
36.69
9.6
49.96
62.46
9.6 \ 55.40
9.86
9-8
48.67
44.71
9.8
63.09
49.47
9.9
11.17
36.33
ia6
50.08
62.80
10.6 55.55
10.12
10.8
49.27
44.62
10.8
64.64
49.26
10.9
11.28
35.97
11.6
50.20
63.16
11.6 55.72
10.38
11.8
49.88
44.53
11.8
66.27
49.05
11.9
11.38
35.60
12.6
50.32
63.52
12.6
55.89
10.66
12.8 1 50.54
i
44.44
12.8
67.98
48.83
12.9
11.48
35.21
13.6
50.45
63.92
13.6
56.06
10.96
1
13.8151.24
44.35
13.8
69.81
48.61
13.9
11.62
34.80
14.6
50.56
64.32
14.6
56.24
11.29
14.8
5X 96
44-28
14.8
71-75
48.40
14.9
11.79
34.38
15.6
50.66
64.75
156
56.40
11.64
15-8 '52.69
44.25
15.8
73.78
48.23
15.9
11.99
33.97
i^S
50.73
65.18
16.6
56.54
12.01
16.8 53.42
1
44.25
16.8
75.85
48.07
16.9
12.21
33.58
»7.5
50.78
65.61
17.6
56.68
12.38
17.8
54.13
44.27
17.8
77.92
47.95
17.9
12.44
33.21
i».5
50.82
66.03
18.6
56.80
12.76
18.8
54.81
44.30
18.8
79.91
47.85
18.9
12.68
32.86
»9.5
50.85
66.43
19.6
56.90
13.II
19.8
55.45
44.34
19.8
81.80
47.76
19.9
12.92
32.53
20.5
50.89
66.80
20.6
57.01
13.44
20.8
56.06
44.37
20.8
83.58
47.67
20.9
13.13
32.21
21.5
50.93
67.16
21.6
57.12
13.75
21.8 '56.65
44.38
21.8
85.27
47.56
21.9
13.3"
31.90
22.5
50.98
67.50
22.6
57.23
14.04
22.8:57.23
44.38
22.8
86.93
47.43
22.9
13-49
31.58
23.5
51.05
67.85
23.6
57.35
14.34
23.7
57.85
44.35
23.8
88.61
47.28
23.9
13-65
31.24
24.5
51.13
68.22
24.6
57.49
14.64
24-7
58.49
44.31
24.8
9036
47.12
24-9
13.80
30.87
25.5
51.21
68.60
25.6
57.64
14.96
25.7
59.16
44.28
25-8
92.21
46.95
25.9
13.98
30.49
26.5
51.30
69.01
26.6
57.78
15.30
26.7
59.85
44.25
26.8
94.16
46.79
26.9
14.17
30.10
27.5
51.36
6943
27.6
57.92
15.65
27-7
60.56
44-27
27-8
96.20
46.65
27.9
14.40
29.72
2«.5
51.41
69.85
28.6
58.04
16.02
28.7
61.27
44.29
28.8
98.28
46.55
28.9
14.65
29.35
29.5
51.44
70.28
29.6
58.16
16.41
29.7
61.98
44.34
29.8
1
100.371 46.44
29.9
14.91
28.99
30.5
51.45
70.70
30.6
58.26
16.79
30.7
62.67
44.42
30.8
102.44
46.38
30.9
15.19
28.67
31.5
51.45
71. IX
31.6
58.34
17.17
31.7
63.32
4450
31.8
104.44
46.33
31.9
15.47
28.36
32.5
51-44
71.50
32.6
58.42
17-54
32.7
63.95
44.59
32.8
106.37
46.29
32.9
15.75
28.06
10.73 -10.68
8.53 -8.47
24.52 -24.50
74.42 -
•74.4 «
15.97 -15.94
I2«» 45« 43«.33
I4*» 12" 50".8i
i8»» 3"» 48'.95
19** 21™ I9'.i5
22^ 15" 19M8
-84^ 39' 3".86
-83O16' I3".94
-87^39' 53".07
-89** 13' 57 "47
-86<>24' 39".46
lEph I
3]
502 APRIL, 1913.
APPARENT PLACES OF C
FOR THE UPPER TRANSIT AT
MAY, 1913.
503
APPARENT PLACES OP CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
f Oetantts.
(^Ootantis.
X OotantlB.
<rOotanti8.
V OotantiB.
Mag. 5.4
Mag. 4.1
Mag. 5.2
Mag. 5.5
Mag. 5.7
Itam
Solar
Date.
Rislit
Aacen-
■ion.
Dcdina-
tion
South.
Mean
Solar
Date.
Right
Aacen-
•ion.
DecUna-
tion
SmUh,
Mean
Solar
Date.
Right
Ascen-
sion.
DtcUna-
tton
SoMXk.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South,
Mean
Solar
Date.
Right
Ascen-
sion.
Dech-
nation
South.
h m
0 /
h m
0 /
h m
0 /
h m
0 /
h m
0 /
May
1245
-8439
If
May
14 12
-83x6
May
18 4
-8739
fi
May
19 22
-8913
May
22 15
-86 24
1-4
s
50.48
22.56
1-5
8
60.14
28.35
1.6
s
21.74
48.23
1.7
s
42.98
r W
46.19
1.8
s
24.72
20.12
2.4
50.39
22.85
2.5
60.14
28.67
2.6
22.20
48.42
2.7
44-60
46.27
2.8
25.03
19.95
3.4
50.3 «
23.14
3.5
60.15
28.99
3.6
22.67
48.59
3.7
46.18
46.34
3.8
25.34
19.78
4A
50.24
23-44
4-5
60.17
29.31
4.6
23.15
48.75
4.7
47.78
46.39
4.8
2564
19.59
5-4
50.18 23.75 1
5.5
60.20
29.62
5.6
23-63
48.89
5.7
49-43
46.43
5.8
25.94
19.39
6a
50.12
24.07
6.5
60.22
2995
6.6
24-15
49.05
6.7
51.17
46.47
6.8
26.25
19.17
7A
50.05
24.41
7.5
60.25
30.30
7.6
24.70
49.21
7.7
52.99
46.5«
7.8
26.58
18.95
Sa
49-97
24.76
8.5
1
60.27
30.67
8.6
25.27
49.40
8.7
54.91
46.59
8.8
26.93
18.73
9-4
49.88
25.13
1
9.5
60.28
31.06
9.6
25.84
49.60
9.7
56.88
46.68
9.8
27-32
18.51
10.4
49.76
25.50
10.5
60.27
31.46
10.6
26.39
49.84
10.7
58.86
46.78
10.8
27-74
18.33
1 1.4
4963
25.85
11.5
60.25
31.86
11.6
26.91
50.10
11.7
60.78
46.94
11.8
28.16
18.17
12.4
49.48
26.18
12.5
60.22
32.24
12.6
27.39
50.38
12.7
62.59
47.11
12.8
28.56
18.04
13.4
49.33
26.47
13.4
60.17
32.60
13.6
27.84
50.65
13.7
64.28
47.28
13.8
28.96
17.93
14^
49.18
26.74
14-4
60.13
32.92
14.6
28.23
50.91
14-7
65.85
47.44
14.8
29.33
17.82
15.4
49^05
27.00
15.4
60.09
33-23
15.6
28.61
5115
15.7
67-32
47.58
15.8
29-67
17-73
16.4
48.94
27.25
16.4
60.06
33.52
16.6
28.98
5137
16.7
68.75
47.72
16.8
29.99
17.62
17.4
48.84
27.51
17.4
60.04
33.81
17.6
29.38
51.57
17.7
70.20
47.83
17.8
30.30
17.49
18.4
48.74
27.78
18.4
60.03
34.10
18.6
29.79
51.76
18.7
71-70
47.92
18.8
30.61
17.34
19.4
48.65
28.06
19.4
60.03
34-41
19.6
30.25
51.95
19.6
73.29
48.02
X9.8
30.94
17.19
20.4
48.55
28.36
20.4
60.03
34.75
20.6
30.72
52.15
20.6
74.96
48.12
20.8
31.30
17.04
21.4
48.43
28.67
21.4
60.01
35.09
21.6
31.20
52.38
21.6
76.69
48.23
21.8
31.67
16.88
22.4
48.30
28.98
22.4
5998
35.45
22.6
31.66
52.63
22.6
78.46
48.38
22.8
32.07
16.74
23.4
48.15
29.28
23.4
59.94
35.81
23.6
32.11
52.90
23.6
80.20
48.55
23.8
32.47
16.63
24-4
47.98
29.57
24.4
59.89
36.16
24.6
32.54
53.19
24.6
81.87
48.74
24.8
32.89
16.54
25.4
47.81
29.84
25.4
59.82
36.50
25.6
32.92
53.49
25.6
8345
48.94
25.8
33.30
16.47
26.4
47.63
30.09
26.4
59.75
36.83
26.6
33.27
53.79
26.6
84.94
49.16
26.7
33.70
16.42
27.4
47-45
30.32
^7-4
59.67
3714
27.6
3360
5409
27.6
86.33
49.38
27.7
34.08
16.39
2S.3
47.28
30.55
28.4
59.59
37.43
28.6
33.89
54.38
28.6 87.63
49.59
28.7
34.46
16.36
29.3
47.12
30.75
29.4
59.52
37.69
29.6
34.17
54.65
29.6 88.87
49.80
29.7
34.81
16.33
30.3
46.97
30.94
30.4
59-45
37.95
30.6
34.44
54.91
30.6
90.07
50.00
30.7
35.14
16.30
313
46.82
31.13
31.4
59-39
38.21
31.6
34.73
55.16
31.6
91.27
50.18
31.7
35.47
16.25
32.3
46.68
31.32
32.4 59.34
38.46
32.6
3502
55-39
32.6 1 92.50
1
50.35
32.7
35.79
16.20
10.74 -10.69
8.54 -8.48
24.54 -24.52
74.40 -74.39
15.95 -15.92
I2»» 45»» 43«.33
I4*» 12° 50».8i
i8»» 3"» 48».95
19^ 21™ I9*.i5
22h i^m i^«.i8
-84*> 39' 3".86
-83** 16' I3".94
-87^39' 53".07
-89** 13' 57".47
-86*»24' 39".46
[Bph 1
3]
504
JUNE, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
tOotantis.
C^OotftBtif.
X OotantlB.
<TOote]itig.
f OetentU.
Mag. 5.4
Mag. 4.1
Mag. 5.2
Mag. 5.5
Mag. 5.7
Mean
Solar
Date.
Right
Aacen-
sioa.
DecUna-
tion
South.
Mean
Solar
Date.
Risbt
Ascen-
sion.
Declina-
tion
Soulh.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
Souik.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
S4mik,
Mean
Solar
Date.
Right
Ascen-
sion.
Dcd-
■atioi
h m
0 /
b m
0 /
h m
0 /
h m
0 t
h m
0 /
June
1245
-8439
ff
June
14 12
-8316
June
18 4
-8739
ft
June
1923
-8913
ft
June
2215
-8624
1.3
46.68
31.32
1.4
s
59.34
38.46
1.6
8
35.02
55.39
1.6
s
32.50
50.35
1.7
s
35-79
16.20
2.3
46.55
31.53
2.4
59-29
38.73
2.6
35-33
5563
2.6
33.80
50.51
2.7
36.12
16.12
3*3
46.42
31.76
3.4
59.24
39.01
3.6
35.67
55.87
3.6
35.16
50.66
3.7
36.46
16.04
4-3
46.28
32.00
4-4
59.20
39.31
4.6
36.03
56.12
4-6
36.60
50.83
4.7
36.82
15-96
5-3
46.12
32.26
5.4
59.14
39.63
5.5
36.40
56.39
5.6
38.11
51.02
5.7
37-20
i5-«9
6.3
45-95
32.51
6.4
59.06
39.96
6.5
36.76
56.68
6.6
39.65
51.23
6.7
37.62
15.84
7-3
4576
32.75
7.4
58.98
40.29
7.5
37.09
57.01
7.6
41.13
51.48
7.7
38.04
15.81
8.3
45-55
32.98
8.4
58.88
40.60
8.5
37.39 i 57-35
8.6
42.52
51-74
8.7
38.46
15.81
9-3
45-33
33.17
9.4
58.77
40.90
9.5
37.64
57.70
9.6
43.78
52.02
9-7
38.87
15.83
10.3
45-"
33.35
10.4
58.65
41.16
10.5
37-84
58.03
10.6
44.90
52.30
10.7
39.24
15.88
1 1.3
44.91
33.49
11.4
58.54
41.39
"5
38.01
58.34
11.6
45.89
52.56
11-7
39.60
15-94
12.3
44.73
33.62
12.4
58.44
41.61
12.5
38.17
58.63
12.6
46.81
52.81
12.7
39-92
15.98
13-3
44.56
33-75
13.4
58.35
41.81
13.5
38.33
58.90
13.6
47.72
53.03
13-7
40.24
i6xx>
14.3
44.40
33.87
14.4
58.27
42.02
14.5
38.52
59.15
14.6
48.66
53.24
14.7
40.54
i6x>i
15-3
44.24
3402
15.4
58.20
42.24
15.5
38.74
59.40
15.6
49.67
53.43
15.7
40.85
*i6xn
16.3
44.09
34-19
16.4
58.13
42.47
16.5
38.98 59.66
1
16.6
50.77
53.63
16.7
41.18
16.00
17-3
43-93
34.36
17.4
58.05
42.73
17.5
39.23
59-94
17.6
5194
53-84
17.7
41-53
15.99
18.3
43-75
34.54
18.4
57-95
42.99
18.5
39-47
60.23
18.6
53.13
54-07
18.7
41.89
15.99
193
43-56
34.72
19.3
57.85
43.26
»9-5
39.68
60.55
19.6
54.30
54-33
19.7
42.28
i6xQ
20.3
43.35
34.89
20.3
57.73
43.52
20.5
39.89
60.88
20.6
55-42
54-61
2a 7
42.68
idm
21.3
43.14
3504
21.3
57.61
43.78
21.5
40.06
61.23
21.6
56.47
54-91
21.7
4306
16.14
22.3
42.91
35.16
22.3
57.47
44.02
22.5
40.18
61.57
22.6
57.42
55-21
22.7
43.44
16.23
23.3
42.67
35-26
233
57-33
44.23
23.5
40.28
61.92
23.6
58.25
55-52
23.7
43.79
16.34
24.3
42.45
35.35
24.3
57.19
44.42
24-5
40.35
62.25
24.6
58.97
55.83
24-7
44-14
1646
25.3
42.24
35.42
25.3
57.05
44-60
25.5
40.40
62.57
25.5
59-62
56.12
257
44-47
16.58
26.3
42.03
35.48
26.3
56.92
44.75
26.5
40.44
62.86
26.5
60.21
56.40
26.7
44-76
16.71
27.3
41.84
35.53
27.3
56.80
44.90
27.5
40.47
63.15
27.5
60.77
56^
27.7
45-05
16S1
28.3
41.66
35.58
28.3
56.68
45.05
28.5
40.51
63.41
28.5
61.34
56.91
28.7
45-33
16.91
293
41.48
35.64
29.3
56.57 45.20
29.5
40.56
63.67
29.5
61.95
57-16
29.7
45-62
16.99
30.3
41-30
35.72
30.3
56.46
45.36
30.5
40.66
63.93
30.5
62.63
57.39
30.7
45-90
17.P5
31-3
41.14
35-81
31.3
56.36
45.54
31.5
40.77
64.20
31.5
63.39
57-62
31-7
46.21
17.12
10.74 -10.70
8.54 -8.48
24-56 -24.54
74.56 -74-55
15-95
-15.91
12^ 45» 43».33
14^ 12™ 50".8i
18^ 3» 48V95
I9»» 21™ 19*. 15
22** I5» 19" 1*
-84^
39' :
}".86 1
-830
16' i:
5".94 1
-87**
39' 5:
J".07 1
-89**
13' 5'
7".47 1
-86*
*24' ,
39"-46
[Eph 13]
JULY, 1913.
505
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
f OoteBlls.
<^Ootanti8.
ATOotaatU.
t;ootuitl8.
Mag. 5.4
Mag. 4.1
Mag. 5
.2
Mag. 5.5
Mag. 5.7
Mmo
Solar
Dftte.
Riffht
Asocn-
skm.
DccUna-
tkm
Sauik,
Mcfta
Solar
Date.
Right
Aacen-
ston.
DecUna.
tion
Souih,
Mean
SoUr
Date.
Right
Ascen-
ston.
DecUna-
tion
Mean
Solar
Date.
Right
Ascen-
sion.
DecUna-
tion
Mean
Solar
Date.
Right
Ascen-
sion.
DecH*
nation
SotUh,
h m
0 f
h m
0 t
h m
0 t
h m
0 /
h m
0 t
July
1245
-8439
July
14 12
-8316
July
18 4
-8740
It
July
1924
-8913
ff
July
22 15
-8624
m g
1.3
s
41.14
35.81
1.3
8
56.36
45.54
1.5
s
40.77
4.20
1-5
8
3.39
57.62
1.7
s
46.21
W 9
17.12
2.3
40.95
35.92
2.3
56.25
45.73
2.5
40.89
4.50
2.5
4.21
57.88
2.6
46.54
17.20
3.3
40.75
36.03
3.3
56.12
45.94
3.5
41.01
4.81
3.5
5.07
58.16
3.6
46.89
17.28
4.2
40.53
36.14
4.3
55.98
46.15
4.5
41.10
5.15
4.5
591
5846
4.6
47.25
17.39
5.2
40.29
36.24
5.3
55.82
46.36
5.5
41.17
5.51
5-5
6.69
58.79
5.6
47.62
17.51
6.2
40.04
36.29
6.3
55.66
46.55
6.5
41.18
5.86
6.5
7.32
59.13
6.6
47.97
17.68
7.2
39-80
36.33
7.3
55.49
46.70
7.5
41.15
6.21
7.5
7.81
59.47
7.6
48.31
17.85
8.2
39.57
36.32
8.3
55.33
46.83
8.5
41.07
6.54
8.5
8.15
59.79
8.6
48.61
18.04
9.2
39.35
36.31
9.3
55.17
46.92
9.5
40.98
6.85
9.5
8.37
60.11
9.6
48.88
18.23
10.2
39-14
36.29
10.3
55.03
47.01
10.5
40.90
7.13
10.5
8.56
60.39
10.6
49-13
18.41
II. 2
38.96
36.26
1 1.3
54.89
47.08
11.4
40.82
7.39
11.5
8.76
60.66
1 1.6
49.37
18.58
12.2
38.79
36.25
12.3
54.77
47.16
12.4
40.76
7.64
12.5
9.03
60.91
12.6
49.59
18.72
13.2
38.62
36.25
13.3
5465
47.26
13.4
40.73
7.89
13.5
9.35
61.16
13.6
49.84
18.85
14.2
38.44
36.28
14.3
54.52
47.38
14.4
40.71
8.15
14.5
9.75
61.42
14.6
50.09
18.98
15.2
38.25
36.31
15.3
54.39
47.50
15.4
40.70
8.44
15.5
10.20
61.69
15.6
50.37
19.11
16.2
38.05
36.33
16.3
54.25
4763
16.4
40.68
8.75
16.5
10.65
61.99
16.6
50.66
19.25
17.2
37.84
36.34
173
54.10
47.76
17.4
40.65
9.06
17.5
11.06
62.30
17.6
50.96
19-43
18.2
37.60
36.35
18.3
53.93
47.89
18.4
40.57
9.39
18.5
11.37
62.63
18.6
51.26
19.62
19.2
37.36
36.33
19.3
53.76
48.00
194
40.45
9.73
19.5
"•59
62.97
19.6
51.55
19.83
20.2
37.12
36.28
20.3
53.58
48.07
20.4
40.30
10.06
20.5
11.70
6332
20.6
51.83
20.07
21.2
36.89
36.22
I
21.3 5340
48.13
21.4
40.13
10.38
21.5
11.71
63.66
21.6
52.08
20.31
22.2
36.67
36.13
22.3153.22
48.18
22.4
39.92
10.67
22.5
11.62
63.99
22.6
52.32
20.56
23.2
36.45
36.04
23.3 j 53.05
48.20
23.4
39.71
10.95
23.5
11.46
64.31
23.6
52.52
20.81
24.2
36.26
35.94
24.3
52.89
48.21
24.4
39.48
II.2I
24.5
11.25
64.61
24.6
52.72
21.05
25.2
36.07
35.84
25.3
52.73
48.21
25.4
39.25
11.46
25.5
11.04
64.88
25.6
52.90
21.28
26.2
33.90
35.74
26.2
52.58
48.22
26.4
3905
11.69
26.5
10.85
65.14
26.6
53.07
21.49
27.2
35.73
35.66
27.2
52.44
48.23
274
38.88
11.92
27.5
10.73
65.40
27.6
53.25
21.69
28.2
35.56
35.59
28.2
52.31
48.26
28.4
38.73
12.15
28.5
10.68
65.65
28.6
53.44
21.88
29.2
3540
35.54
29.2
52.17
48.29
29.4
38.58
12.40
29.5
10.69
65.92
29.6
53.64
22.06
30.2
35.20
35.50
30.2
52.03
48.35
30.4
38.45
12.67
30.5
10.75
66.20
30.6
53.86
22.26
31.2
3500
35.45
31-2
51.88
48.41
31.4
38.31
12.95
31.4
10.82
66.51
31.6
54.10
22.47
32.2
34.78
35.39
32.2
51.70
48.47
32.4
38.14
13.25
32.4
10.83
66.83
32.6 54.34
22.70
10.75 -10.70
8.54 -8.49
24.59 -
24.57
74
.78 -
74.77
15.95 -15.92
i2»» 45» 43«.33
I4*» 12" 5o".8i
i8»» 3™ ^
^8^95
I9'»
21™ 1
[9".i5
22** 15™ 19*. 18
-84^
39'
3".86 1
-83*>
16' i;
5".94 1
-87^
39' 5;
3".07
-89**
13' 5'
7".47
-86'
»24'
39".46
(Kph 13]
506 AUGUST, 1913. ,
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT 31<
SEPTEMBER, 1913.
507
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
xOoteBtts.
(^OotantU.
X OotantlB.
0 Ootantis.
V Ootantis.
Mag. 5.4
Mag. 4. 1
Mag. 5.2
Mag. 5.5
Mag. 5.7
Ble.
Racht
Aacra-
Declina-
tion
SatOk.
Mean
Solar
Date.
Right
Ascen-
sion. 1
Declina-
tion
South,
Mean
Solar
Date.
1
Riglit ! Declina-
Ascen- ' tkm
sion. . Souih,
1
Mean
Solar
Date.
Riffht
Awren-
sion.
1
Declina-
tion
SoMih,
0 /
Mean
Solar
Date.
Right
Ascen-
sion.
Decli-
nation
South.
h m
0 t
h m <» '
1
h m « '
h m
h m ° '
!pt.
1245
-8439
Sept.
14 12 -83 16
Sept.
18 4 -87 40
Sept.
1923
-89 14
Sept.
22 15 -86 24
(.1
s
29.64
29.76
I.I
s
46.83 1 45.96
1.3
s
27.35 19-58
1-4
s
50.39
15. II
1-5
8
57-39131-45
M
2952
29.49
2.1
46.68 45.77
2.3
26.85
19.70
2.4
49.12
15-33
2-5
57-36 1 31-79
31
29.42
29.18
3.1
46.54 45-55
3.3
26.34
19-79
3.4
47.82
15-52
3-5
57-30
32.10
♦•I
2934
28.89
4.1
46.42
1
45-33
4-3
25.86
19.87
4-4
46.56
15-68
4-5
57-23
32.38
51
29.27
28.63
5.1
46.321 45.13
5.3
25-42 1 19-92
5-4
45-36
15-83
5-5
57-15 32.65
6.1
29.19
28.38
6.1
46.22
44.93
6.3
25-00
19.98
6.3
44-23
15-97
6.5
57.09 32.90
7.1
29.11
28.15
7.1
46.12
44-75
7.3
24.60
20.04
7.3
43.18
16.12
7-5
57-05 '33-15
S.I
2903
27.92
8.1
46.01
44-58
8.3
24.20
20.13
8.3
42.20
16.28
8.5
57-02 i 33.40
9-1
28.94
27.69
9.1
45.89
44.42
9-3
23-79
20.23
9-3
41.20
16.46
9-5
57.01
33-68
ai
28.84
2745
10. 1
45.76
44.26
10.3
2336
20.34
10.3
40.16
16.66
10.5
56.99
33-96
I.I
28.72
27.20
II. I
4563
44.08
II-3
22.92
20.46
"3
3903
16.86
11-5
56.97
34-27
2.1
28.61
26.92
12. 1
45-49
43-90
12.3
22.45
20.57
12.3
37.80
17.08
12.5
56.94
34-59
3.1
28.50
26.63
13.1
45-35
43.68
13-3
21.92
20.68
13.3
36.46
17.28
13-4
56.88
34-92
4.1
28.40
26.33
14. 1
45-22
43-45
14-3
21.38
20.77
H-3
3505
17.48
14.4
56.81
35-25
:5.o
28.31
26.01
151
45-09
43.21
15-3
20.83
20.83
15-3
33-57
17.66
15-4 56.70
35-59
;6.o
28.25
25.68
16.1
44.96
42.94
16.3
20.27
20.87
16.3
32.02
17.82
16.4
56.59
35.91
17^
28.19
2534
17.1
44.86
42.66
17-3
19-73
20.90
17-3
30.46
17-95
17-4
56.45
36.21
i8x>
28.15
25.02
18.1
44-76
42.37
18.3
19.19
20.90
18.3
28.91
18.07
18.4
56.29
36.50
19.0
28.13
24.70
19.1
44.68
42.10
«9-3
18.68
20.89
19-3
27.41
18.16
19.4
56.13
36.76
too
28.11
24.40
20.1
44.60
41.83
20.3
18.19
20.86
20.3
25-98
18.24
20.4
•
55-97
37-01
il.0
28.09
24.12
21. 1
44-52
41-59
21.3
17-74
20.84
21.3
2463
18.32
21.4
55-83
37.25
t2.o
28.07
23.86
22.1
44-45
41-37
22.2 1 17.31
20.84
22.3
23-37
18.40
22.4
55-71
37-49
13.0
28.04
23.60
23.1
44-381 41.15
23.2 ■ 16.89
20.85
23.3
22.17
18.50
23-4
5560
37-72
4.0
28.00
2334
24.1
44.29' 40.94
24.2 ! 16.47
1
20.88
24-3
20.98
18.62
24.4
55-51
3796
5.0
2794
23.08
25- 1
44.20 ; 40.73
25-2
16.02
20.92
25-3
«9-73
18.74
254
55-41
38.24
6.0
27.88
22.80
26.1
44.10
40.51
26.2
15-53
20.96
26.3
18.40
18.88
26.4
55-31
38.54
7.0
27.82
22.50
27.1
43.99
40.27
27.2
15.02
20.98
27-3
16.94
19.02
27-4
55-19
38-83
8.0
27.78
22.18
28.1
4390
39-99
28.2
14.48
20.99
28.3
15.35
19-15
28.4
55.03
39.13
J.O
27.76
21.83
29.1
4381
3969
29.2 13.91
20.97
29-3
13-67
19-23
29.4
54.84
39.43
>.o
2775
21.48
30.1
43.74
39-39
30.2 13.35!; 20.92
30.3
11.96
19.29
30.4
54-62
39.71
[.0
27-77
21.15
31. 1
43.68
39.06
31.2 12.82 20.83
31-3
10.29
19-32
31-4 1 54-39
39.96
10.74 -10.69
S
1.54 -8.49
24.62 -24.60
75.22 -
75-21
15-97 -15-94
2^ 45" 43*-33
,^h Jim 50'. 81
\%^ 3" 48-.95
19'* 21" 1
»9'-i5
22** 15" 19*. 18
14** 39' 3".86 1-83^16' I3".94
-87^39' 53".07
-89^ 13' 5
7".47
-86<» 24' 39".46
[Bphi
3]
508
OCTOBER, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
lOotantis.
Mag. 5.4
Date.
Oct.
I.O
2.0
2.9.
3-9
4.9
5.9
6.9
7.9
8.9
9-9
X0.9
11.9
12.9
13-9
14.9
159
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
331-9
Right
Ascen-
sion.
h m
1245
9
2777
27.80
27.84
27.88
2793
27.95
27.97
27.98
27.99
28.00
28.01
28.02
28.07
28.12
28.20
28.28
28.38
28.49
28.60
28.69
28.77
28.85
28.92
28.98
29.04
29.12
29.23
29.37
29.51
29.67
29.84
30.00
-8439
DecUna
tion
South.
//
21.15
20.83
20.53
20.24
^9-97
19.71
19.45
19.18
18.89
18.58
18.26
17.92
17.58
17.24
16.90
16.58
16.28
15.99
15.73
15.48
•
15.25
15.02
14.76
14.49
14.21
13.91
13.60
13.30
13.01
12.74
12.50
12.27
<^Oota]itU.
Mag. 4.1
Mean
Solar
Date.
10.73
I2»» 45""
-84^ 39'
-10.69
43*.33
3
".86
Oct.
I.I
2.1
3.1
4.1
5.1
6.1
7.0
8.0
9.0
lO.O
1 1.0
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
Riglit
Ascen-
sion.
h m
14 12
8
43.68
43.64
43.61
43.58
43.55
43.52
43-47
43.42
43.36
43.29
43.24
43.19
43-15
43.13
43."
43.10
43.11
43.13
43.15
43.17
43.18
43.18
43.17
43.16
43.15
43.16
43.18
43.20
DecUna
tion
Souih.
-8316
ff
39.06
38.75
38.45
38.18
37.92
37.66
37.41
37.16
36.89
36.62
36.31
35-99
35.67
35.32
34.98
34.64
34.31
34.01
33.72
33.44
33.18
32.93
32.68
32.40
32.10
31.78
31.45
31.10
JtOotentU.
Mag. 5.2
Mean
Solar
Date.
43.25 30.76
43.32
43.39
43.46
30.43
30.13
29.86
8.54 -8.48
I4»» 12™ 50".8l
-83^ 16' I3".94
Oct.
1.2
2.2
3.2
4.2
5.2
6.2
7.2
8.2
9.2
10.2
II. 2
12.2
13.2
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
29.1
30.1
31.1
32.1
Risht
Ascen-
sion.
Declina-
tion
South,
h m
18 3
s
72.82
72.32
71.86
71.42
71.00
70.59
70.17
69.72
69.24
68.74
68.22
67.69
67.16
66.64
66.12
65.63
65.18
64.77
64.38
64.01
63.65
63.28
62.88
62.46
62.01
61.54
61.08
60.63
60.23
59.86
59-53
59.25
-8740
//
20.83
20.73
20.63
20.54
20.45
20.38
20.33
20.29
20.24
20.18
20.11
20.02
19.91
19.78
19.63
19.45
19.27
19.09
18.91
18.76
18.62
18.50
18.38
18.26
18.13
17.95
17.75
17.52
17.27
17.02
16.77
16.52
(TOotantU.
Mag. 5.5
Mean
Solar
Date.
24.62 -24.60
iS'^ 3» 48V95
-87*^39' 53".07
[Bph 13]
Oct.
1.3
2.3
3.3
4.3
5.3
6.3
7.3
8.3
9-3
10.3
"3
12.2
13.2
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
19 22
8
70.29
68.70
67.17
65.73
64.38
63.06
61.73
60.35
58.88
57.32
55.68
53.98
52.24
50.48
48.73
47.04
45.43
43.92
42.50
41.16
39.86
38.57
37.22
35.76
34.20
32.56
30.86
29.19
27.59
26.10
24.72
23.44
Declina
tion
South.
-8914
//
19.32
19.33
19.33
19-34
19.34
19.37
19.41
19.46
19.52
1957
19.61
19.64
19.64
19.62
19.59
19.52
19.44
19-35
19.27
19.19
19.13
19.09
19.06
19.03
18.98
18.92
18.82
18.70
18.54
18.37
18.20
18.03
75.27 -75-26
19** 21" I9'.i5
-89^ 13' 57".47
trOotuittg.
Mag. 5.7
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
20.3
21.3
22.3
23.3
24.3
25.3
26.3
27.3
28.3
29.3
30.3
31.3
32.3
53.52
53.34
53.16
52.99
52.81
52.60
52.38
52.14
51.87
51-58
51.29
50.98
50.68
50.39
50.12
49.86
49.64
49-41
49.18
48.93
48.67
48.37
48.06
47-71
47.36
47.01
46.67
46.37
4a7$
40.9*
41.20
4>43
41.68
4>-93
42.19
4244
42.67
42.90
43"
43.29
4346
43.to
43.74
43-«7
44.00
44.16
4433
4451
44-70
44.88
4505
45-19
45.30
45.38
45-45
45.51
15-98 -15.95
22* 15* I9».l8
-86* 24' 39"46
NOVEMBER, 1913.
509
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON
lOotanttB.
X Ootantls.
<f Ootantls.
t'Ootaiitti.
Mag. 5.4
Mag. 4.1
Mag. 5.2
Mag. 5.5
Mag. 5.7
Mcui
Soltf
Date.
Riffht
Ascen-
sion.
Dcclina<
tion
South.
Meui
Solar
Date.
Right
Ascen-
sion.
DecUna-
tion
SotOk.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
SoMik.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
South,
Mean
Solar
Date.
Right
Ascen-
sion.
Dedi-
nation
Souih,
h m,
0 /
h m
e /
h m
0 /
h m
e /
h m
0 t
Nov.
1245
-8439
Nov.
14 12
-8316
Nov.
18 3
-8740
Nov. 19 21
-8914
§§
Nov.
22 15
-8624
mm
1-9
8
30.15 12.07
1.9
s
43.53
29.60
I.I
s
59.25
16.52
8
1.2 83.44
WW
18.03
1.3
s
46.37
WW
45.51
2-9
30.29
11.87
2.9
43.58
29.35
2.1
58.96
16.30
2.2
82.23
17.88
2.3
46.07
45.57
3-9
30.41
11.66
3.9
43.63
29.10
3.1
58.68
16.10
3.2
81.05
17.74
3.3
45.80
45.63
49
30.53
XI.44
4.9
43.67
28.84
4.x
58.39
15.90
4.2
79.84
17.62
4.3
45.53
45.72
5-9
30.65
II. 21
5.9
43.71
28.57
5.1
58.07
15.71
5.2
78.58
17.5X
5.3
45.25
45.82
6.9
30.78
10.97
6.9
43.75
28.28
6.1
57-73
15.52
62
77.25
17.40
6.3
44.97
45.92
79
30.91
10.72
7-9
43.80
27.98
7.1
57.36
15.32
7-2
75.83
17.28
7.3
44.67
46.03
8.9
31.07
10.45
8.9
43.85
27.68
8.1
56.98
15.10
8.2
74.37
17.14
8.3
44.35
46.13
9-9
31 23
10.19
9-9
43.93
27.35
9.1
56.61
14.85
9.2
72.87
16.99
9.3
44.02
46.23
10.9
31.41
9.93
10.9
44.01
27.03
lO.l
56.25
14.58
10.2
7x36
16.81
10.3
43.65
46.32
1 1.9
31.61
9.69
11.9
44.10
26.72
11. 1
55.92
14.29
II. 2
69.87
16.61
1 1.3
43.28
46.39
13.9
31.82
9.46
12.9
44.21
26.42
12. 1
55.60
14.00
12.2
68.43
X6.39
12.3
42.90
46.4a
139
32.03
9.27
13.9
44.33
26.13
13.I
55.31
13.69
13.2
67.08
16.14
13.3
42.53
46.44
149
32.24
9.09
14.9
44.44
25.86
14. 1
55.07
13.37
14.2
65.84
15.90
14.3
42.17
46.44
159
32.45
8.91
15.9
44.56
2562
15.X
54.87
1306
15.2
64.72
15.65
15.3
41.83
46.42
16.9
32.64
8.78
16.9
44.67
25.39
16. 1
54.70
12.77
16.2
63.71
15.42
16.3
41.51
46.39
17-9
32.82
8.64
317.9
44.78
25.18
17.1
54.54
12.49
17.2
62.77
15.20
17.3
41.21
46.36
18.9
33.00
8.49
18.9
44.87
24.98
18.I
54.38
12.24
18. 1
61.86
14.99
18.3
40.93
46.35
19.9
33. « 7
8.34
19.9
44.96
24.76
19.I
5421
12.00
19. 1
60.91
H.79
19.3
40.64
46.35
20.9
33.33
8.18
20.9
45.05
24.52
20.1
54.01
11.77
20.1
5992
14.62
20.3
40.36
46.36
21.9
33.51
7-99
21.9
45.14
24.28
21. 1
53.78
"53
21. 1
58.83
14.43
21.3
40.06
46.38
22.9
33.71
7.79
22.9
45.24
24.01
22.1
53^4
11.27
22.1
57.65
14.23
22.3
39.73
46.40
239
3392
7.60
239
45.37
23.72
23.1
53.29
10.97
23.1
56.42
13.99
23.3
39.39
46.41
24.9
34.16
7.41
24.9
45.50
23.44
24.1
53.07
10.65
24.1
55.20
' 13.73
24.3
39.00
46.39
259
34.41
7.26
25.9
45.66
23.18
25.1
52.87
10.30
25.1
54.04
13.44
25.2
38.62
46.35
26.8
34.67
7.13
26.9
45.83
22.95
26.1
52.72
9.93
26.1
53.00
13.13
26.2
38.24
46.27
27.8
34.92
7.04
27.9
46.00
22.73
27.1
52.62
9.57
27.1
52.09
12.81
27.2
37.87
46.16
28.8
*
35.»7
6.95
28.9
46.16
22.54
28.1
52.56
9.23
28.1
51.30
12.49
28.2
37.54
46.04
29.8
35.40
6.88
29.9
46.31
22.37
29.1
52.52
8.91
29.1
50.62
12.20
29.2
37.22
45.93
30.8
3562
6.8 X
30.9
46.45
22.20
30.1
52.50
8.61
30.1
50.00
11.92
30.2
36.92
45.82
31.8
35.82
6.75
31.9
46.59
22.03
3I.I
52.45
8.31
31. 1
49.38
11.65
3>.2
36.65
45.72
IO-73 -10.68
8.54 -8.48
24.60 -24.58
75.^6 -
75. x6
15.98 -15.95
I a** 45" 43'.33
I4*» 12" 50".8i iS** 3" 48».95
-83^ 16' I3".94 -87« 39' 53".07
19** 21" ]
t9'.i5
22** 15" 19V 1 8
-84^ 39' 3".86
-89^ 13' 5
7".47
-86*24' 39".46
IBph I
3]
510
DECEMBER, 1913.
APPARENT PLACES OF CIRCUMPOLAR STARS
FOR THE UPPER TRANSIT AT WASHINGTON.
lOotantU.
S Ootantis.
X Ootantts.
<f Ootantts.
tiOctanttt.
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
Sauik.
Mean
Solar
Date.
Right
A9cen>
sion.
Declina-
tion
Souik.
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
SovOk,
Mean
Solar
Date.
Right Dedi-
Aacen- oatiaa
sion. SoiA.
h m
0 /
h m
0 9
h m
0 /
h ni
0 /
h m
0 »
Dec.
1245
-8439
Dec.
14 12
-8316
Dec.
«8 3
-8739
Dec
19 21
-8914
MM
Dec
22 15
-8624
mm
1.8
9
35.82
6.75
1-9
8
46.59
22.03
I.I
t
52.45
w w
68.31
I.I
8
49.38
WW
11.65
1.2
8
36.65
WW
45.72
3.8
36.02
6.66
2.9
46.72
21.86
2.1
52.39
68.04
2.1
48.72
11.39
2.2
36.37 45.64
3.8
36.23
6.56
3-9
46.85
21.67
3.1
52.31
67.76
3.1
47-99
II. 14
3.2
36.09
45.57
4.8
36.44
6.45
4.9
46.99
21.48
4.1
52.22
67.48
4.1
47.23
10.90
4.2
35.80
45-50
5.8
36.67
6.34
5.9
47.13
21.26
5.0
52.12
67.19
5.1
46.42
10.64
5.2
35.49
4544
6.8
36.90
6.23
6.9
47.27
21.03
6.0
52.01
66.89
6.1
45.56
10.37
6.2
35.16
45-36
7.8
37.14
6.12
7.9
47.44
20.82
7.0
51.91
66.56
7.1
44.70
10.07
7.2
34.82
45-27
8.8
37.40
6.03
8.9
47.61
20.61
8.0
51.82
66.21
8.1
43.85
9.76
8.2
34.47
45.17
9.8
37.68
5.94
9.9
47.80
20.41
9.0
51.77
65.85
9.1
43.06
9.42
9.2
34-"
45-04
10.8
37.96
5.88
10.9
47.99
20.21
lO.O
51.76
65.48
10. 1
42.36
9.08
10.2
33.76
4490
11.8
38.24
5.85
1 1.9
48.20
20.05
II.O
51.78
65.11
II. I
41.78
8.73
II. 2
33.41
44.72
12.8
38.51
5.85
12.9
48.40
19.92
12.0
51.84
64.73
12.1
41.34
8.36
12.2
33-09
44.53
13.8
38.77
5.86
13.9
48.60
19.81
13.0
51.94
64.38
13.1
41.00
8.00
13-2
32-79
44.33
14.8
39.01
5.88
14.9
48.78
19.72
14.0
52.07
64.05
14. 1
40.75
7.68
14.2
32.52
44.13
15.8
39.25
5.90
159
48.96
19.64
15.0
52.20
63.74
15.1
40.57
7.37
15.2
32.37
43.93
16.8
39-47
5.92
16.9
49.12
19.55
16.0
52.30
63.46
16. 1
40.38
7.06
16.2
32.03
43.76
17.8
39.68
5.92
17.9
49.28
19.45
17.0
52.39
63.18*
17.1
40.15
6.78
17.3
3i;8i- 43.60
18.8
39.91
5.90
18.8
49.44
19.34
18.0
52.46
62.90
18.1
39.85
6.50
18.3
31.56
4344
19.8
40.15
5.88
19.8
49.61
19.20
19.0
52.51
62.61
19.1
39.47
6.22
19.3
31.30 143.30
20.8
40.41
5.86
20.8
49.80
19.06
20.0
52.54
62.29
20.1
39.04
5.91
20.2
31.01 43.14
1
21.8
40.68
5.84
21.8
49.99
18.92
21.0
52.59
61.94
21. 1
38.57
5-57
1
21.2 30.70
42.97
22.8
40.97
5.84
22.8
50.21
18.78
22.0
52.67
61.58
22.1
38.16
5.20
22.2
30.37
42.76
23.8
41.26
5.87
23.8
50.44
18.66
22.9
52.79
61.21
23.1
37.85
4.81
23*2
30.04
42.53
24.8
41.56
5-94
24.8
50.67
18.58
23.9
52.96
60.81
24.0
37.67
4.42
24.2 29.74
42.28
25.8
41.85
6.03
25.8
50.89
18.53
24.9
53.17
60.44
25.0
37.64
4.03
25.2 29.46
42.00
26.8
42.12
6.13
26.8
51.10
18.49
25.9
53.41
60.10
26.0
37-73
3.64
26.2
39.30
41.72
27.8
42.37
6.23
27.8
51.31
18.47
26.9
53.69
59.77
27.0
37.91
3.29
27.3
28.98
41-45
28.8
42.60
6.33
28.8
51.52
18.46
27.9
53.94
59.46
28.0
38.12
2-95
28.2
38.78
41.19
29.8
42.83
6.42
29.8
51.70
18.43
28.9
54.18
59.18
29.0
38.31
2.63
29.3
38.59
40^95
30.8
4306
6.51
30.8
51.87
18.40
29.9
54.40
58.90
30.0
38.46
2.32
30.3
28.39
40.71
31.8
43.29
6.58
31.8
52.06
18.36
30.9
54.61
58.63
31.0
38.54
2.03
31.2
38.17
40.49
32.8
43-54
6.64
32.8
52.26
18.29
3x9
54.81
58.34
32.0
38.58
1.71
32.1
37.96
40.28
10.73 -
10.68
8.54
-8.48
2457 -
24.55
74.94 -
74-93
15-98 -15.95
12^ 45° ^
^3•.33
,^h j2» «
}oV8i
\%^ 3™ i|
^8-.95
19** 21" 1
9'.i5
33* 15" I9*.l8
►84«>
39'
3".86
-83*>
16' I
3".94
-87^
39' 5,
3".07
-89"
>3' 5'
7".47
-86*
»34'
39".46
lEph 13]
MEAN ERRORS.
511
MEAN ERRORS OF NEWCOMB'S PLACES FOR 1930 OF STARS OF THE AMERICAN
EPHEMERIS AND NAUTICAL ALMANAC.
Mean Error
•
Mean Error
Cat
Name.
R. A
1913.
Decl
1913.
1920.
Cat
No.
Name.
R. A.
1913.
Decl.
1913.
1930.
No.
a
<
a
<
h m
0
s
//
h m
0
s
II
I
33 Pisdum
0 I
- 6
.018
.25
112
4 Octantis(G.)
C Ceti
I 42
-85
.039
.40
3
a Androm.
4
+29
.010
.13
116
47
— 1 1 .020
.24
4
/3 Cassiop.
5
+59
.017
.17
118
a Trianguli
48
+ 29
.022
.22
5 .
e Pboemcis
5
-46
.051
.41
117
e Cassiop.
48
+63 .017
.17
6
22 Androm.
6
+46
.024
.28
120
4 Pisdum
49
+ 3 018
.23
10
y Pegasi
0 9
+ 15
.0x1
•14
121
/3 Arictis
I 50
+ 20
.013
.20
14
6 Androm.
14
+36
.029
.33
122
if Phoenids
50
—47 j .080
.81
15
t Ccti
15
- 9
.014
.20
127
V Ceti
56
— 22
.025
.32
16
C Tucanae
16
-65
•047
.38
126
50 Cassiop.
56
+72
.016
•17
19
44 Pisdum
21
+ I
.018
.22
129
a Hydri
56
-62
.049
.34
20
/? Hydri
0 21
-78
• • • ■
• • •
131
y Andr. pr.
I 59
+42
.016
.16
21
a Pbcenids
22
-43
•047
.31
133
a Arictis
2 2
+ 23
.010
•14
23
12 Ceti
26
- 4
.017
.21
134
ft Trianguli
4
+35
.018
.21
30
13 CcU
C 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
jr Androm.
0 32
+33
.02 1
.21
138
4* CcU
2 8
+ 8
.018
.23
35
e Androm.
34
+29
.016
•19
139
M Fornads
9
-31
.076
.83
36
6 Androm.
35
+30
.018
.22
141
y Trianguli
12
+33
.024
31
37
a Cassiop.
36
+56
.012
.14
142
67 Ceti
13
- 7
.021
•25
38
M Phoemds
37
-47
• • • •
•53
144
(p Eridani
13
-52
.049
.42
39
/?Ccti
0 39
-18
.013
•17
145
0 Ceti
2 15
- 3
.018
.23
42
0 Cassiop.
40
+48
.034
.26
146
ic Fornads
19
-24
.049
•47
41
21 Cassiop.
40
+75
.017
•24
148
« 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
4=»Ceti
24
+ 8
.014
•19
49
6 Pisdum
0 44
+ 7
.014
.20
156
a Ceti
2 28
-16
.028
•37
52
X Hydri
46
-75
• • • •
•70
157
36 H. Cassiop.
30
+72
.021
.22
53
20 Ccti
49
— 2
.018
.26
160
r Ceti
31
+ 5
.020
.26
54
y Cassiop.
51
+60 (
.018
.22
163
fi Hydri
33
-79
.056
70
55
M Androm.
52
+38 1
1
.017
.21
161
r Anetis
34
+22
.020
.26
58
a Scujptoris
43 H. Ccphci
0 54
-30
•025 ,
•23
165
S CeU
2 35
— 0
.014
.20
59
57
+86
.010
.17
172
e Hydri
38
-69
• • • •
• • •
61
e Pisdum
0 58
+ 7
.012 1
1
.26
170
9 Persei
38
+49
.021
•19
66
fi Phcenicis
I 2
-47
.0501
.47
173
y Ceti sea.
39
+ 3
.016
.20
65
M Cassiop.
2
+54
.022 1
1
.27
174
n Ceti
40
-14
.025
•25
69
7 Ccti
I 4
— 11
.025
.22
175
11 Ceti
2 40
+ 10
.020
.21
71
ft Androm.
5
+35
.013
•17
177
tf Persei
44
+56
.010
•25
74
r Piscium
7
+30
.019 '
•33
178
41 Arictis
45
+ 27
.020
.22
76
C Pisdum
9
+ 7
.019
•24
179
fi Fornads
45
-33
.050
•47
78
ic Tucanae
13
-69
• • •
180
6 Arietis
47
+ 15
.018
•24
79
y Pisdum
I 13
+ 3
.022
.29
181
r^ Eridani
2 47
— 21
.022
.32
80
V Pisdum
15
+ 27
.022
.25
182
r Persei
48
+52
.020
.19
85
e Ccti
20
- 9
.013
•19
183
7 Eridani
52
— 9 .016
.21
86
S Cassiop.
20
-f-60
.018
•19
185
c Arietis
54
+ 21 .016
.23
91
y Phcenicis
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
ff Pisdum
27
+ 15
.020
•19
189
a Ceti
58
+ 4 .010
•>3
89
a Urs. Min.
28
+89
• • • •
• • •
190
y Persei
58
+53 1 .029
.20
96
40 Cassiop.
32
+73
.028
•25
191
T^ Eridani
2 59
-24 0291
.32
97
V Androm.
32
+41
.024
.26
192
p Persei
3 0
+38 1 .019 1
•24
98
It Piscium
I 32
+ 12
.022
.25
194
/i Horologii
3 2
—60 .060
•49
99
V Persd
33
+48
.018
• 19
197
e Hydri
2
-72 .046
•47
lOI
a Eridani
34
-58
• • « •
• • •
195
fi Persei
2
+41
.016
.20
103
GO Cassiop.
36
+68
.025
•25
199
d Arietis
7
+19
.014
.17
104
r Pisdum
37
+ 5
.014
.20
202
12 Eridani
8
—29 .022
.30
105
ip Persd
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
X08
0 Pisdum
41
+ 9
013
•19
204
38 Horolopi(a)
10
—58 . . . . ,
• • •
109
e Sculpt.
I 42
-25
.037
.46
206
C Eridani
3 12
- 9
.022 1
•31
[Eph 13)
512
MEAN ERRORS.
MEAN ERRORS OF NEWCOMB'S PLACES FOR 1920 OF STARS OF THE AMERICAN
EPHEMERIS AND NAUTICAL ALMANAC.
Mean Error
]
Mean Brror
Cat.
No.
Name.
R. A.
1913.
Decl.
X913.
1920.
Cat.
No.
Name.
R. A.
1913.
DecL
1913.
x9>o.
a
<
a
5
h m
0
8
ft
h m
0
s
tf
209
r Arietis
3 16
+ 21
.027
.32
319
tf Aurigae
5 0
+41
.021
.21
210
e Eridani
16
-43
.056
.49
320
e Leporis
2
— 22
.021
•25
212
t Hydri
18
-78
• • • •
• • •
322
fi Endani
4
- 5
.016
.21
211
a Persei
18
+50
.013
.14
327
H Aurigae
7
+ 38
.028
.29
213
0 Tauri
20
•+ 9
.014
.21
326
19 H. Camelop.
8
+79
.025
•33
214
2 H. Camel.
3 22
+60
.028
.37
328
/£ Leporis
5 9
-16
.032
-31
215
% Tauri
22
+ 9
.023
.22
329
a Aurigae
10
+46
.012
•14
219
/ Tauri
26
+ 13
.016
.22
330
fi Orionis
10
- 8
.009
•>5
221
6 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
•24
230
^ Persei
3 37
+48
.016
.16
335
0 Columbae
5 14
-35
.068 ; .60
235
^ Eridani
39
— 10
.020
•24
342
y Orionis
20
+ 6
.017 .21
234
y Persei
39
+42
.024
•25
343
P Tauri
21
+29
.010 , .14
237
5 H. C4imel.
41
+71
.025
.29
344
17 Camelop.
22
+63
.029
.22
238
Tf Tauri
42
+24
.014
17
347
P Leporis
25
— 21
.025
'}^
239
r* Eridani
3 43
-24
.023
•30
348
X Aurigse
5 27
+32
.022
.30
243
g Eridani
46
-36
•073
.63
350
6 Orionis
28
— 0
.012
.16
246
r 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
0* Ononis
30
+ 9
.021
•31
248
e Persei
3 52
+40
.019
.22
359
t Orionb
5 31
- 6
.022
.25
250
h Persei
53
+36
.019
.22
361
B Orionis
32
— I
.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
5 Reticuli
57
-62
.044
.36
366
C Orionis
36
— 2
.016 I .22
255
y Tauri
3 59
+ 6
.018
.22
368
a Columbae
5 36
-34
.024
.28
256
A Tauri
4 0
+ 22
.020
.23
369
0 Aurigae
39
+50
.028 .39
260
c Persei
2
+47
.020
.22
372
C Leporis
43
-15
.023 .30
263
p Tauri
6
+26
.030
.37
373
K Ononis
44
— 10
.013 .19
265
0* Eridani
8
- 7
.016
.23
375
S Doradus
45
-66
• • • «
• • •
264
Gr. 750
4 9
+85
.017
.24
374
r Aurigse
5 45
+39
.021
.26
268
/£ Tauri
II
+ 9
.027
•47
381
31 Mensse(G.)
47
-85
.042
.56
270
a Horolo^
II
-43
.073
.69
378
6 Leporis
48
— 21
.036
.37
271
a Reticuli
13
-63
.061
.54
382
a Ononis
50
•+ 7
.008 .14
274
y Tauri
3^5
+ 15
.013
.21
383
d Aurigae
52
+54
.026 .25
277
5 Tauri
4 18
+ 17
.017
.23
385
V Leporis
p Aurigse
5 52
-14
.022 .22
279
u* Eridani
21
-34
.046
•42
387
53
+45
.016
.16
281
e Tauri
24
+ 19
.013
.20
388
0 Auri|^
54
+37
.020 .20
:i84
5 Mensff*
24
-80
.058
•52
393
I Gemm.
5 59
+23
.021 .30
285
m Persei
27
+43
.031
.34
395
I Puppis(G.)
6 2
-45
.057 .55
288
a Tauri
4 31
+ 16
.009
•13
396
y Orionis
6 3
+ 15
.016 .19
289
y Eridani
32
- 4
.018
•24
402
22 H. Camelop.
9
+69
.022 .26
291
a Doradus
32
-55
•054
.40
405
ft Gemin.
10
+23
.014 .20
292
53 Eridani
34
-14
.023
.28
406
2 Lyncis
12
+59
.023 .22
296
r Tauri
37
+ 23
.014
.23
4"
C Can. Maj.
17
-30
.055 -44
294
Gr. 848
4 37
+76
.024
.30
412
/i Gemin.
6 18
+23
.013 , .17
297
a Coeli
38
-42
.050
.46
413
t^* Aurigae
18
+49
.025 • .23
298
4 Camelop.
41
+57
.027
•25
414
P Can. Maj.
19
-18
.019 .22
299
u Eridani
41
- 3
.016
.21
415
8 Monoc.
»9
+ 5
.022 .24
303
^ Orionis
45
+ 7
.021
.22
416
a Argiis
22
-53
« • • • 1 • • •
302
9 Camelop.
4 45
+66
.021
•19
418
10 Monoc.
6 24
- 5
•017 .37
304
% Tauri
46
+ 19
.023
•31
419
V Gemin.
24
+20
.027
.21
307
«* Orionis
50
+ 2
.016
.22
423
8 Lyncis
30
+62
.022
.23
309
{ Aurigae
51
+33
.014
.17
424
23 H. Camelop.
31
+80
.024
.29
312
fi Camelop.
56
+60
.023
•19
425
I'Can. Maj.
31
-23
•034
.35
313
c Aurigse
4 56
+44
.021
.19
426
51 Auripe
6 33
+39
.025
.31
314
C Aurigse
56
+41
.017
.22
427
y Gemm.
33
+ 16
.013
.17
316
t Tauri
4 58
+21
.019
.26
429
r Argds
35
-43
.058
.48
318
II Orionis
5 0
+ 15
.020
.35
430
S Monoc.
6 36
+ 10
.016
.22
[Kph 13I
MEAN ERKORS.
513
MEAN ERRORS OF NEWCOMB'S PLACES FOR 1920 OF STARS OF THE AMERICAN
EPHEMERIS AND NAUTICAL ALMANAC.
Cat. I
No.
431
433
432
434
435
436
440
441
443
442
446
451
454
455
456
449
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
5x7
520
523
522
525
526
527
528
5i8
529
533
534
535
Mean Crror
Mean Crror
Name.
R. A.
1913-
Decl.
1913.
1930.
Cat.
No.
Name.
R. A
1913.
DecL
1913.
1930.
a
s
<
a
<
h m
0
It
h m
0
s
//
e Gemin.
6 39
+25
.014
.19
536
30 Monoc.
8 21
- 4
.017
•23
4 Gcmin.
40
+ 13
.013
.21
537
0 Urs. Maj.
23
+61
.014
•>5
^^ Aurigs
40
+44
.029
.24
539
e Chamael.
23
-77
.050
.40
a Can. Maj.
41
-17
• • • •
.16
543
Gr. 1450
27
+38
.047
•43
18 Monoc.
43
+ 3
.020
.25
544
rj Cancri
28
+21
.019
.20
43 Camelop.
6 44
+69
.027
.24
545
Gr. 1446
8 30
+74
.032
•38
0 Getnin.
47
+34
.020
.22
547
6 Hydrae
33
+ 6
.019
.26
a Pictoris
47
-62
.061
.63
548
6 Hydrae
34
+ 4
.023
.27
C Mensae
47
-81
.048
•47
554
y Cancri
38
4-22
.016
.21
r Argds
48
-51
.069
.64
556
^ Cancri
40
+ 18
.017
.21
15 Lyncis
d Can. Maj.
6 50
+59 023
.21
557
a Pyxidis
8 40
-33
•053
•42
50
— 12 .021
1
.31
558
t Cancri
41
+29
.025
.26
e C^n. Maj.
55
-29 1 .017
.23
559
B Hydrae
42
+ 7
.014
•19
C Gemin.
59
4*21 1 .016
.19
560
^ Argiis
42
-54
.053
•41
o^Can. Maj.
6 59
-24 ; .025
•29
566
<^ Cancri
49
+31
.022
•31
y Can. Maj.
7 0
—16 \ .021
.28
567
C Hydre
8 51
+ 6
.018
.24
51 H. Cephci
S Can. Maj.
0
+87
• • • •
• • •
569
t Urs. Maj.
53
+48
.016
.17
5
-26
.020
.24
571
a Cancri
54
+ 12
.015
.20
63 Aurigae
6
+39
.021
.26
574
6» Carinae
55
-59
.044
.43
51 Gemin.
8
+16
.023
•37
576
if Urs. Maj.
8 58
+48
.018
•19
y^ Volantis
7 9
-70
.071
.64
582
d» Urs. Maj.
9 3
+67
.020
.28
25 H. Camel.
X Gemin.
13
+83
.625
.24
583
tc Cancri
3
+ 11
.016
.22
13
+17
.013
.22
585
A Argds
5
-43
.039
•32
jr Argds
14
-37
.046
•34
590
• Octantis
10
-85
.041
.38
6 Gemin.
15
+22
.014
•17
589
6 Hydrae
10
+ 3
.014
•19
6 Volantis
7 17
-68
.061
.64
591
fi Argds
9 12
-69
.035
.28
7 Octant. (G.)
18
-87
.053
.46
593
83 Cancri
14
+ 18
.018
•24
t Gemin.
20
+28
.014
.22
594
% Argils
15
-59
• • • •
• • •
Tf Can. Maj.
21
-29
.021
.25
595
40 Lyncis
16
+35
.018
.21
Gr. 1308
22
+69
.028
.26
596
6 Pyxidis
18
-26
.046
.61
P Can. Mia.
7 22
+ 8
.014
.19
599
a Hydrae
9 23
- 8
.010
•15
p Gemin.
24
+32
.021
.27
601
h Urs. Maj.
25
+63
.019
.19
6 Argiis
26
-43
.060
.46
600
I H. Draco.
25
+82
.016
.20
a' Gemin.
29
+32
.019
•14
603
d Urs. Maj.
27
+70
.025
•24
25 Monoc.
33
- 4
.040
.42
604
e Urs. Maj.
27
+52
.017
.17
a Can. Min.
7 35
+ 5
• • • •
•15
605
4 Leonis
9 27
+ 12
.024
.30
24 Lyncis
36
+59
.033
.29
606
* ArgOs
27
-40
.056
.51
K Gemin.
39
+25
.018
.22
607
ID Leo. Min.
29
+37
.020
.27
P Gemin.
40
+28
.DIG
.12
620
C Chamael.
36
~8i
.047
•48
4 Puppis
42
-14
.028
.36
619
0 Leonis
37
+ 10
.014
.16
i Argds
7 46
-25
.021
.27
622
6 Antlias
9 40
-27
.057
.49
4> Gemin.
48
+27
.018
.28
623
B Leonis
41
+24
.014
•17
26 Lyncis
48 ! 4-48
.022
•30
626
V Urs. Maj.
45
+59
.013
.17
Gr. 1374
50
+74
.029
.32
627
V ArgOs
45
-65
.049
.38
X ArgOs
55
-53
.052
.40
629
6 Sextantts
47
- 4
.030
.35
00 Cancri
7 56 4-26
.022
.30
630
^ Leonis
9 48
+ 26
.014
.19
X Gemin.
7 58 ! -f-28
.CI 8
•24
632
Gr. 1586
51
+73
.026
•32
27 Lyncis
8 2
+52
.022
•23
634
19 Leo. Min.
52
+41
.022
•24
p Argils
4
-24
.018
•24
636
0 ArgAs
54
-54
•045
•37
3 H.Ur. Maj.
4
+69
.025
.29
638
n Leonis
9 56
+ 8
.012
.20
y Argds
8 7
-47
.051
•44
641
1} Leonis
10 3
+ 17
.022
.22
C Cancri
7
+ 18
.022
•25
642
a Leonis
4
+ 12
.015
.13
Br. 1 147
9
+76
.026
.31
644
A Hydrae
6
— 12
.019
•24
20 Puppis
9
-16
.023
.32
645
q Velorura
II
-42
.088
.76
Gr. 1119
12 1 4-89
.025 1
• • •
646
32 Urs. Maj.
12
4-66
.024
.25
fi Cancri
8 12 + 9
.013
.24
648
C Leonis
10 12
+24
.018
.22
31 Lyncis
17
+43
.027
.22
647
A Urs. Maj.
12
+43
.017
.16
J* Cancri
18
+ 19
.022
.29
653
y Leonis pr.
15
4-20
.019
•15
B Argds
8 21
-59
.038
.33
657
fi Urs. Maj.
10 17
+42
.016
•19
1913-
-33
lEph 13I
514
MEAN ERRORS.
MEAN ERRORS OF NEWCOMB'S PLACES FOR 1920 OF STARS OF THE AMERICAN
EPHEMERIS AND NAUTICAL ALMANAC.
Mean Error
Mean Error
Cat.
No.
Name.
R. A.
1913.
Decl.
1913.
1930.
Cat.
No.
Name.
R. A.
1913.
DecL
1913.
i9>o.
a
<
a
tt
h m
0
8
//
h m
0
6
658
30 H. Ur. Maj.
10 18
+66
.031
.27
770
fi Chamael.
12 13
-79
.037 Z^
659
30 H. Camel.
21
+83
.026
.30
772
Br. 1672
H
+88
.016
.22
661
fi Hydrae
22
-16
.018
.22
773
ff Virginis
15
— 0
.013
•17
662
31 Leo. Min.
23
+37
.019
.24
780
ay 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
6 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
-fio
.016
.21
791
8 Can. Ven.
30
+42
.022
•23
679
33 Sextantis
37
— I
.024
.31
793
K Draconis
30
+70
.018 ,
•14
683
41 Leo. Min.
39
+24
.022
.26
792
fi Corvi
30
-23
.019
.21
684
6 ArgAs
10 40
-64
.052
.41
795
24 Comae j«9.
12 31
+ 19
.025 1
.y>
685
42 Leo. Min.
41
+31
.019
.28
796
a Muscae
32
-69
.063
•51
687
17 Argfts
42
-59
• • • •
• • •
799
X Virginis
35
- 8
.024
•31
688
11 Argfts
43
-49
.049
.37
800
y Centauri
37
-48
.041
•33
689
/ Leonis
45
H-ii
•015
.20
801
y Virginis
37
— I
.018 j
•24
691
d^Charaael.
10 45
-80
.047
•39
802
p Virginis
12 37
+ 11
.023
.29
690
V Hydrae
45
-16
.022
.24
803
76 Urs. Maj.
38
+63
.034
.26
692
46 Leo. Min.
48
+35
.019
.21
808
fi Crucis
43
-59
.034
.29
694
54 Leonis
51
+25
.027
.35
810
t Octantis
46
-85
.046
•37
696
% Antliap
53
-37
.072
•95
812
31 Comae
47
+28
.024
•27
695
Gr. 1706
xo 53
+78
.034
.40
814
32 H. Camel.
12 48
+84
.021
•23
698
a Crateris
56
-18
.020
•25
813
n Centauri
49
-40
.068
.62
699
d Leonis
56
+ 4
.018
•24
816
« Urs. Maj.
50
+56
.017
19
701
/? Urs. Maj.
57
+57
.017
.16
817
^ Virginis
51
+ 4
.013
•17
702
a Urs. Maj.
10 58
+62
.016
•15
818
a Can. Ven.
52
+39
.014
•>7
704
7 Octantis
II 0
-84
.044
.42
820
d Muscae
12 56
-71
.017
•33
703
X Leonis
I
+ 8
.013
.19
821
e Virginis
12 58
+ 11
.013
.17
706
/* Leonis
2
+ 2
.022
•25
827
6 Virginis
13 5
- 5
.014
•>7
708
0 Urs. Maj.
5
+45
.016
•17
830
43 Comae
8
+28
.019 '
-25
710
/8 Crateris
7
—22
.021
.33
836
20 Can. Ven.
14
+41
.024
24
712
5 Leonis
II 9
+21
.014
.16
838
y Hydra
13 14
-23
.022
.35
713
0 Leonis
10
+ 16
.019
.21
839
I Centauri
16
-36
.056
.43
718
y Urs. Maj.
14
+34
.021
.21
842
C* Urs. Maj.
20
+55
.020
•»9
719
^ 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
•31
721
ic Centauri
II 17
-54
• • • •
• • •
845
70 Virginis
13 24
+ 14
.025
•31
723
% Leonis
19
+ 11
.018
.21
847
K Octantis
27
-85
.039
•35
727
r Leonis
23
+ 3
.016
.21
852
C Virginis
17 H. Can. V.
30
— 0
.010
•17
730
X Draconis
26
+70
.016
.16
854
31
+38
.041
-42
731
4 Hydrae
29
-31
.050
•39
857
« Centauri
34
-53
.039
.34
733
X Centauri
II 32
-63
.053
.48
859
#f» Virginis
13 37
- 8
.015
.22
734
V Leonis
32
— 0
.016
.18
863
r Bo6tis
43
+ 18
.018
.19
735
ic Chamael.
34
-75
.079
.80
866
7 Urs. Maj.
44
+50
.012
.14
737
3 Draconis
C Crateris
38
+67
.025
•25
867
89 Virginis
( Centauri
45
-18
.027
•35
738
40
-18
.019
•29
871
50
-47
.042
•33
740
X Urs. Maj.
p Leonis
II 41
+48
016
•17
872
ri Bo6tis
6 Apodis
13 51
+ 19
.012
•17
744
45
+ 15
.010
.14
878
57
-76
• • • •
■ • «
745
P Virginis
46
+ 2
.012
.14
879
r Virginis
57
+ 2
.013
.iS
747
Gr. 1830
48
+38
.037
•32
880
II Bo6tis
57
+28
.023
.26
748
y Urs. Maj.
49
+54
.012
.14
881
fi Centauri
13 58
-60
• • * •
• • •
753
IC Virginis
11 56
+ 7
.016
.21
882
n Hydrae
14 I
-26
.021
.26
758
0 Virginis
12 I
+ 9
.016
•15
883
e Centauri
2
-36
.044
.33
760
^ Centauri
4
-50
.067
.46
885
a Draconis
2
+65
.016
.17
762
t Corvi
6
— 22
.020
.23
888
d Bo6tis
6
+26
.023
•38
763
4 H. Draco.
8
+78
.017
.19
889
K Virginis
8
— 10
.013
.21
765
d Crucis
12 II
-58
.058
.45
890
4 Urs. Min.
14 9
+78
.018
.24
766
« Urs. Maj.
II
+58
.020
•17
891
I Virginis
II
- 6
.017
.21
767
y Corvi
II
-17
.019
.20
893
a Bodtis
12
+20
.008
.13
768
2 Can. Ven.
12 12
+4»
.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.
Cat.
No.
894
898
901
9<H
905
907
911
910
912
914
915
917
919
921
926
930
932
934
936
941
944
945
946
948
950
952
953
955
957
962
959
960
963
965
966
967
976
975
977
979
973
978
980
981
984
986
9«7
993
997
998
999
1000
1002
1003
1006
10Q4
1005
1009
lOIO
Name.
X Bodtis
X Virginis
2 Librae
6 Bodtis
/ Bodtis
ip Virginis
5 Urs. Min.
p Bodtis
y Bodtis
7 Centauri
a Bodtis
a* Centauri
33 Bodtis
a Apodis
M Virginis
e Bodtis
X09 Virginis
8 Librae
a Librx
Or. 2164
fi Urs. Min.
? Librae
Piazzi 221
fi Lupi
d Librae
fi Bodtis
X Scorpii
^ Bodtis
c Bodtis
Gr. 2283
C Lupi
t Librae
X Tri. Aust.
3 Serpentis
i Bodtis
fi Librae
y Urs. Min.
^ Bodtis y>r.
r* Serpentis
t Draconis
p Octantts
32 Librae
fi Cor. Bor.
r» Bodtis
y Lupi(m«an)
y Librae
a Cor. Bor.
C Cor.Bor.je^.
a Serpentis
fl Serpentis
K Serpentis
M Serpentis
12 H. Draco.
8 Serpentis
C Urs. Min.
fi Tri. Aust.
X Librae
y Serpentis
K Scorpii
R. A.
DccL
1913.
19U.
h m
0
14 13
+46
14
-13
19
— II
22
+52
22
-|-20
14 24
— 2
28
+ 76
28
4-31
29
+39
30
-42
14 31
+30
34
-60
36
+45
37
-79
38
- 5
14 41
+ 27
42
+ 2
46
-16
46
-16
49
+60
14 51
+75
52
— II
52
+15
53
-43
56
- 8
14 59
+41
U 59
-25
15 I
+17
3
+ 25
5
+88
15 6
-5»
7
-19
XI
-68
II
+ 5
12
+34
15 12
- 9
21
+7J
21
+38
22
+ 16
23
+59
15 23
-84
23
-16
24
+ 29
28
+4«
29
-41
15 31
-14
31
+27
36
+37
40
+ 7
42
+ 16
15 45
+ 18
45
- 3
45
+63
46
+ 5
47
+78
15 47
-63
48
— 20
52
+ 16
15 54
-26
Mean Crror
i9>o.
019
017
025
018
021
018
019
016
017
045
025
' • • •
034
044
014
016
018
018
010
033
016
018
025
054
026
020
024
018
030
023
059
021
044
029
018
013
018
019
026
025
037
018
025
023
043
021
010
027
GIG
018
024
GI9
028
014
GI6
059
G26
G16
G23
21
24
33
17
26
25
21
19
21
37
32
• •
33
47
21
16
22
2G
>4
35
16
23
29
45
25
22
29
22
33
29
51
24
36
31
23
17
16
22
36
21
38
28
22
31
35
24
13
36
13
21
25
35
32
19
^5
45
36
23
29
lEph
Cat.
No.
Gil
012
GI9
GI7
G2I
026
027
G23
030
G31
034
G32
033
035
G36
039
045
041
G46
05G
051
056
055
059
g6i
G62
G63
G65
G67
068
G69
G71
073
G78
083
G84
G87
g86
g88
G89
G92
093
094
G96
G98
IGO
lOI
105
ig6
IG7
1G9
III
112
"5
"7
118
119
123
125
3]
Name.
1
« Cor. Bor.
d Scorpii
0 Draconis
/3 Scorpii
ic Herculis
0 Herculis
Gr. 2320
^* Apodis
d Ophiuchi
tf Cor. Bor. seq.
19 Urs. Min.
y^ Normae
8 Ophiuchi
d Scorpii
r Herculis
y Herculis
Tf Urs. Min.
y Apodis
00 Herculis
77 Draconis
a Scorpii
ft Herculis
X Ophiuchi
A Draconis
r Scorpii
Herculis
Ophiuchi
Scorpii
Herculis
a Tri. Aust.
Tf Herculis
Gr. 2377
8 Scorpii
49 Herculis
e' Arae
K Ophiuchi
8 Urs. Min.
3G Ophiuchi
8 Herculis
d Herculis
Tf Ophiuchi
n Scorpii
t Draconis
a Herculis
5 Herculis
K Herculis
59 Apodis (G.)
6 Ophiuchi
w Herculis
ft Arse
b Ophiuchi
6 Ophiuchi
S Arae
a Arae
X Herculis
X Scorpii
fi Draconis
a Ophiuchi
4 Serpentis
R. A.
19«3.
h m
15 54
15 55
16 G
G
4
16 6
6
7
IG
II
16 13
13
14
16
17
16 18
2G
2G
21
23
16 24
26
27
28
30
f6 31
32
37
38
39
16 4G
44
45
48
53
16 54
55
56
57
16 58
17 5
6
9
II
II
17 12
15
n
17
18
17
n
n
21
22
23
25
27
28
28
31
33
Dccl.
I9»3.
+^7
— 22
+59
— 2G
+ 17
+45
+68
-78
- 3
+34
+76
-50
- 4
-25
+47
+ 19
+76
-79
+ 14
+62
-26
+22
+ 2
+69
-28
+43
— 10
-18
+32
-69
+39
+57
-34
+ 15
-53
+ 10
+82
- 4
+31
+34
-16
-43
4-66
+ 14
+ 25
+37
-81
-25
+33
-55
-24
+ 4
-61
-50
+ 26
-37
+52
+ 13
-15
Mean Brror
X930.
023
G20
018
014
028
G25
G32
053
GI2
037
G29
049
GI4
GI9
022
GI6
G22
033
G30
G18
GI3
GI8
GI7
G22
G2I
GI7
GI4
G22
G16
G36
0X5
G38
040
G24
G56
GI4
GI8
035
016
G26
016
044
G2G
GIG
G2G
GI8
073
GI9
G27
G69
GI8
GI7
I • • •
G56
031
G58
GI4
GIG
024
//
24
26
17
17
33
22
35
49
17
42
23
38
22
28
2G
21
22
38
37
"7
21
21
22
19
25
18
2G
30
17
29
17
45
33
29
50
17
16
39
21
30
17
34
19
14
24
22
74
21
30
49
29
22
• •
46
37
47
15
14
24
516
MEAN ERRORS.
MEAN ERRORS OF NEWCOMB'S PLACES FOR 1920 OF STARS OF THE AMERICAN
EPHEMERIS AND NAUTICAL ALMANAC.
Cat.
No.
31
29
32
34
35
37
40
38
45
46
47
50
48
49
51
52
56
58
64
59
60
53
61
66
69
70
71
73
74
75
78
79
82
85
87
89
90
93
96
99
202
204
206
209
212
211
213
215
218
219
220
222
226
227
228
230
231
255
237
Nainc.
R. A.
1913.
t
*
r
80
6
35
y
r
67
6
r
s
70
72
X
0
U
V
36
V
e
109
a
X
X
c
I
c
a
2
<P
no
6
X
50
6
o
6
R
€
r
C
C
X
a
t
ie
X
Herculis
Pavonis
Draconis
Ophiuchi
Scorpii
Herculis
Draconis
Ophiuchi
Herculis
Draconis
Herculis
Draconis
Ophiuchi
Herculis
Draconis
Ophiuchi
Arae
Sagittarii
Urs. Min.
Ophiuchi
Ophiuchi
Octantis
Herculis
Sagittarii
Sagittarii
Or. 2533
Draconis
Sagittarii
Serpentis
Sagittarii
Herculis
Telescopii
Sagittarii
Draconis
Serpentis
Aquilae
Pavonis
Lyrae
Aquilse
Sagittarii
Herculis
Aquilx
Pavonis
Lyrae
Draconis
Sagittarii
Draconis
Serp. pr.
Lyrae
Aquilae
Lyrae
Sagittarii
Aquilae
Aquilae
Cor. Aust.
Lyra!
Sagittarii
Urs. Min.
Sagittarii
h
17
17
17
17
18
x8
18
m
37
37
37
39
41
43
43
44
52
52
53
53
54
54
55
56
o
o
o
I
3
4
4
9
12
13
13
15
17
18
18
18
20
21
23
23
25
30
33
34
38
40
18 42
43
44
47
49
18 50
50
52
53
56
56
57
I
2
4
18
18
19
19 4
5
7
19 10
Decl.
X9n.
+ 46
-65
+ 69
-f 5
-40
-f28
+72
+ 3
+ 26
+57
+37
+ 77
- 10
+ 29
+51
+ 3
-50
-30
+87
+ 3
+ 10
-88
+ 29
- 21
-37
+42
+64
-30
- 3
-34
+ 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
oi8
067
021
013
066
014
021
017
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
ff
17
58
21
17
54
19
20
21
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
lEph
240
239
241
242
243
248
251
224
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
319
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
3l
Name.
6 Draconis
d Sagittarii
0 Lyrae
CO Aquilae
K* Cygni
r Draconis
8 Aquilae
(S Octantis
fi Cygni
1 Cygni
u Aquilae
h Sagittarii
K* Aquilse
e Cygni
54 Sagittarii
fi Sagittse
15 Cygni
/ Sagittarii
y Aquilae
6 Cygni
8 Sagittae
a Aquilae
;; Aquilae
e Draconis
t Sagittarii
£ Pavonis
fi Aquilae
y Sagittsfe
c Sagittarii
r Aquilae
Q Aquilae
o Cygni seq.
K Cephei
24 Vulpeculae
cr* Capricorni
fi Capricorni
a Pavonis
r Cygni
It Capricorni
p Capricorni
41 Cygni
0 Cephei
e Delphini
Gr. 3241
a Indi
P Delphini
V Capricorni
a Delphini
P Pavonis
a Cygni
8 Delphini
^ Capricorni
y Del ph. seq.
B Cygni
e Aquarii
tj Cephei
// Aquarii
P Indi
76 Draconis
R. A.
Dccl.
1913.
1913.
h m
0
19 13
4-68
13
-19
13
+38
14
+ n
15
+53
19 17
+73
21
+ 3
21
-89
27
+ 28
28
+52
19 30
+ 7
31
-25
32
- 7
34
+50
36
-16
19 37
+ 17
41
+37
41
— 20
42
+ 10
42
+45
19 44
+ 18
47
+ 9
48
+ I
48
+70
49
-42
19 51
-73
51
+ 6
55
+ 19
19 57
-28
20 0
+ 7
20 7
— X
II
+46
12
+77
13
+24
13
-13
20 16
-15
19
-57
19
+40
22
-18
24
-18
20 26
+30
28
+63
29
+ 11
30
+ 72
31
-48
20 33
+ 14
35
-18
36
+ 16
37
-67
38
+45
20 39
+ 15
41
-26
43
+ 16
43
+34
43
— 10
20 44
+61
48
- 9
48
-59
20 49
+82
Mean Hrror
1930.
016
014
025
019
019
019
012
025
014
020
024
019
018
019
022
016
029
020
009
021
017
010
022
024
073
• •
008
017
017
022
013
019
018
025
012
022
• • •
013
019
018
029
Of8
013
034
046
016
023
014
• •
010
019
028
024
014
014
018
016
067
022
MEAN ERRORS.
517
MEAN ERRORS OF NEWCOMB'S PLACES FOR 1920 OF STARS OF THE AMERICAN
EPHEMERIS AND NAUTICAL ALMANAC.
Cat.
No.
1369
1371
1373
1372
1374
1378
1380
1381
1384
1387
1386
1389
1391
1392
1394
1396
1397
1398
1399
1400
1403
1406
1407
1409
1415
1416
1417
1418
1424
1426
1428
1431
1433
1434
1435
1439
1442
1444
1449
1450
1452
145 1
1453
1456
1457
1459
1460
1466
1467
1469
1473
1474
1477
1478
1483
1488
1489
1491
1490
Name.
r
a
6
32 Vulpeculae
220 Draco^H^)
y Cygni
a Oclantis
y Microscop.
6 Capricorni
i Cygni
61 Cygni ^.
y Aquani
Br. 2777
3 Pise. Aust.
s Cygni
Cygni
Equulei
Cygni
0* Microscop.
a Cephei
t Capricorni
I Pegasi
X Pavonis
C Capricorni
g Cygni
fi Aquarii
P Cephei
h Aquani
74 Cygni
y Capricorni
A Octantis
e Pegasi
II Cephei
5 Capricorni
jr2 Cygni
u Capricorni
y Gruis
16 Pegasi
79 Draconis
e Indi
20 Pegasi
a Aquarii
t Aquarii
20 Cephei
or Gruis
1 Pegasi
6 Pegasi
ic Pegasi
C Cephei
24 Cephei
0 Aquarii
a Tucanae
V Octantis
y Aquarii
31 Pegasi
3 Lacerts
K Aquarii
6 Aquarii
a Lacerts
V Aquarii
226 B. Cephei
7 Aquarii
20
21
21
21
21
21
R. A.
191J.
b m
20 51
52
54
54
56
I
2
3
5
7
8
9
II
II
14
15
16
17
18
19
22
26
27
28
33
33
35
38
40
4«
42
44
49
49
49
52
57
57
I
2
2
3
3
6
6
8
8
12
13
15
17
17
20
21
26
28
30
31
31
21
21
21
22
22
22
22
Mean Brror
1920.
22
22
.029 .29
— I
//
Name.
10 Lacertx
B Pise. Aust.
C Pegasi
P Octantis
P Gruis
rf Pegasi
A Pegasi
« Gruis
r Aquarii
^l Pegasi
t Cephei
X Aquarii
p Indi
B Aquarii
a Pise. Aust.
0 Androm.
P Pegasi
a Pegasi
55 Pegasi
r* Aquarii
n Cephei
1 Gruis
59 Pegasi
5 Cassiop.(H'.)
ip Aquani
if Aquarii
y Tucanse
y Piscium
y Sculptoris
o Cephei
r Pegasi
6^ Aquarii
4 Cassiop.
V Pegasi
K Piscium
9 Piscium
70 Pegasi
30 H. Cephei
P Sculptoris
72 Pegasi
A Androm.
t Androm.
t Piscium
y Cephei
K Androm.
ao' Aquarii
i^ Aquarii
if Androm.
41 H. Cephei
d Sculptoris
y^ Octantis
(f> Pegasi
p Cassiop.
Gr. 4163
oa Piscium
c Tucanae
30 Piscium
2 Ceti
R. A.
1913.
h m
22 35
36
37
37
37
22 39
42
43
45
46
22 47
48
49
50
53
22 58
23 o
o
3
5
23 5
5
7
9
10
23 II
12
13
14
15
23 16
18
21
21
22
23 24
25
28
28
30
23 33
34
35
36
36
23 38
40
42
44
44
23 47
48
50
51
55
23 55
57
23 59
Dec!.
I9«3
-f-39
-27
+10
-82
-47
+30
+ 23
-52
-14
+24
4-66
- 8
-71
-16
-30
+42
+ 28
+ 15
+ 9
— 22
+ 75
-46
+ 8
+57
- 7
— 10
-59
+ 3
-33
-f-68
+23
— 21
+62
+ 23
+ I
+ 6
+ 13
+ 87
-38
+ 31
+46
+43
+ 5
+77
+44
-15
-19
+46
+67
-29
-83
+ 19
+57
+74
+ 6
-66
- 6
-18
Mean Error
1930.
.027
.028
.013
.036
.060
.017
.016
.052
.018
.016
.014
.013
.051
.019
.032
.017
.020
.010
.029
.023
.019
.064
.028
.030
.016
.020
.044
.013
.053
^25
.020
.024
.022
.020
.014
.019
.022
.Q18
.046
.026
.016
.021
.013
.014
.020
.023
.022
.023
.024
.024
.032
.023
.032
.032
.013
.071
.022
.018
//
30
38
>7
30
46
21
21
48
24
19
17
19
62
25
28
22
21
14
40
32
21
56
41
31
22
29
38
16
46
25
25
32
23
24
19
26
26
21
47
30
20
21
19
14
23
37
27
39
27
33
29
31
28
37
16
60
28
23
51B SOLAR EPHBMBEIS, 1913.
FOR WASHINGTON MEAN AND APPARENT NOON.
■ubtCBct □•.istftvin tbcMcTHlin
SOLAS EPHEMEKIS, 1913. 519
FOR WASHINGTON MEAN AND APPARENT NOON.
K interval of ■Hoidluncter puiing merliUan. tnbtiKCt v.ifttiomxyKMKta&ViKien'JV.
IBph ,i1
520 SOLAR EPHEMERI8, 1913.
FOR WASHINGTON MEAN AND APPARENT NOON.
ID tline lolerval of •emidiunctct tiuiiiia meridlui, «wbtncta*.iBfnnitbe>ii
80LAE BPHEMERIS, 1913. 521
FOR MEAN AND APPARENT NOON.
522
SOLAR BPHEMERI8, 1913.
FOR WASHINGTON MEAN AND APPARENT NOON.
Date.
Apparent Right
Ascension.
Apparent
Declination.
Hotirly
Motion.
Bqnation
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
h m s
8
0 # "1 "
8
tt
m 8
/ II
m 8
h m s
July I
640 7.51
8.13
+23 756.8
56.2
ZO.346
- 9.93
+333.08
15 45.66
1 8.75
6363446
2
6 44 15.69
16.34
23 3 46.7 145-9
10.33s
10.93
344.71
15 45.65
I 8.72
6 40 31.02
3
6 48 23.60
24.28
225912.3 1 1.4
10.333
11.93
356.06
15 45.64
I 8.68
6 44 27.58
4
6 52 31-23
31.94
225413.8 12.9
ZO.JXZ
Z3.93
4 7.12
15 45.64
I 8.64
648 24.14
5
6 56 38.54
39.28
224851.4 50.4
io.i97
13.93
4 17.87
15 45.65
I 8.60
6 52 20.70
6
7 045.50
46.27
+2243 5.2 4.2
zo.aSa
-14.9a
+4 28.29
15 45.66
1 8.55
6 56 17.25
7
7 452.10
52.90
223655.3 54.2
zo.a67
15.90
4 38.33
15 45.68
1 8.50
7 0 13.81
8
7 858.32
59.14
22 30 21.8 1 20.5
zo.aso , x6.88
447.98
15 45.70
1 845
7 4 10.37
9
7 «3 4-12
4.97
22 23 25.0
23.5
Z0.333
17.8s
4 57.22
15 45.73
1 8.39
7 8 6.93
lO
7 17 9.50
10.37
22 16 5.0
3.4
zo.axs
x8.8z
5 6.04
15 45.77
1 8.33
7 12 349
II
7 21 14.44
15.33
■1-22 822.1
20.4
X0.X96
- Z9.76
+5 14.41
15 45.81
1 8.27
7 16 0x34
12
7 25 18.91
19.82
22 0 16.4
14.6
ZO.X77
30.7Z
5 22.32
15 45.85
I 8.21
7 19 56.60
13
7 29 22.90
23.83
215148.2
46.2
IO.IS7
3Z.64
5 29.76
15 45.89
I 8.15
7 23 53.16
H
7 33 2640
27.35
21 42 57.6
55-4
Z0.Z36
33.56
5 36.71
15 45.94
1 8.08
7 27 49.72
IS
7 37 29.41
30.37
2x3344.8
42.5
zo.zzs
23.48
54315
1546.00
I 8.01
7 31 46.28
i6
7 41 31.91
32.89
f 21 24 10.0
7.6
z 0.093
-34.39
+5 49.09
15 46.06
1 7.94
7 35 42A»
17
7 45 33.89
34.88
21 14 13.4
10.9
Z0.07Z
25.30
554.52
15 46.12
I 7.86
7 39 39-39
i8
7 49 35.35
36.34
21 355.2
52.6
Z0.049
36.30
5 59.42
1546.18
1 7.79
7 43 35.95
19
7 53 36.28
37.28
2053 15.6
13.0
lo.oay
37.09
6 3.79
15 46.24
I 7.71
7 47 32.51
20
7 57 36.67
37.69
2042 14.9
12.2
Z0.005
37.96
6 7.62
15 46.30
I 7.63
7 51 29X)6
21
8 I 36.52
37.55
■»-20 30 53.4
50.5
9.983
—38.82
+6 10.91
15 46.38
1 7.55
7 55 25.62
22
8 535.81
36.85
20 19 1 1.2
8.1
9.959
39.68
6 13.65
15 46.46
1 747
7 59 22.18
23
8 934.55
35.59
20 7 8.5
5.3
9.936
30.53
6 15.83
15 46.54
1 7.39
8 3 18.74
H
8 13 32.73
33.77
195445-5
42.2
9.913
31.37
6 17.45
15 46.62
I 7.30
8 7 15.30
25
8 17 30.34
31.38
19 41 62.6
59.2
9.889
33.30
6 18.49
1546.71
1 7.22
8 11 11.85
26
8 21 27.38
28.42
f 19 28 59.9
56.5
9.86s
-33.0Z
+6 18.97
1546.80
1 7.13
8 15 841
27
8 25 23.84
24.88
19 15 37-8
34.3
9.841
33.83
6 18.88
1546.90
1 7.05
8 19 4-97
28
8 29 19.73
20.76
19 I 56.6
53.0
9.8x7
34.63
6 18.21
15 47.00
I 6.96
8 23 1.52
29
8 33 15.03
16.06
18 47 56.4
52.7
9.793
35.39
6 16.95
1547.10
I 6.88
8 26 58.08
30
837 9.74
10.76
18 33 37.5
33.8
9.768
36.X6
6 15.10
1547.21
I 6.79
830 54.64
31
8 41 3.86
4.87
H-18 18 60.2
56.4
9.743
-36.93
+6 12.66
15 47.33
I 6.71
8 34 51.20
Aug. I
8 44 57.38
58.38
18 4 4.8
0.9
9.7x8
37.68
6 9.62
15 47.45
I 6.62
8 38 47.75
2
84850.30
51.28
17 48 51.6
47.7
9.693
38.41
6 5.97
15 47.57
1 6.53
8 42 44.31
3
8 52 42.61
43.58
17 33 21.0 17.2 1
9.666
39.13
6 1.72
15 47.70
I 6.44
8 46 40.86
4
8 56 34.31
35.26
17 17 33.3
29.5
9.641
39.84
5 56.87
15 47.84
1 6.35
8 50 37-*2
5
9 025.39
26.33
4.17 I 28.8 24.9
9.6x5
—40.54
+5 51.40
15 47.98
I 6.26
85433-98
6
9 4 15.86
16.78
1645 7.8 3.9
9.590
41. 3X
5 45.31
1548.13
I 6.17
8 58 30.54
7
9 8 5.72
6.62
16 28 30.7 26.7
9.565
41.88
5 38.61
15 48.28
I 6.09
9 2 27.09
8
9 " 54-97
55.85
16 II 37.7 33.7
9.540
43.54
531.30
15 48.43
I 6.00
9 6 23.65
9
9 15 43.62
4448
15 54 29.1 25.2
9.5x5
43.17
5 23.39
15 48.58
1 5.92
9 10 20.20
lO
9 19 31.67
32.50
■H537 5.3 1.5
9.490
-43.80
+5 14.88
15 48.75
1 5.84
9 14 16.76
XI
9 23 19.12
19.92
15 19 26.6 1 22.8
9.465
44.43
5 5.77
15 48.92
I 576
9 18 13.32
12
9 27 5.99
6.76
15 133.3 29.6
9.441
45.03
456.09
15 49.09
I 5.68
9 22 9.87
13
9 30 52.30
53.04
144325.7 22.1
94x8
45.60
445.84
15 49.26
I 5.60
9 26 643
14
9 34 38.05
38.76
1425 4.1 0.6
9.395
46.X8
4 35.02
15 49-44
1 5.52
930 2.98
15
9 38 23.25
23.93
+14 6 28.8 254
9.373
-46.75
+4 23.66
15 49.62 1
1 5-44
9 33 59.54
i6
942 7.91
8.56
+ 134740.1 36.8
9.350
-47.31
+4 11.77
15 49.80 ;
1 5.36
9 37 56.10
N'OTB.-
—For mean tin
ae inten
iral of semidiai
meter [
Msnng meridian,
, subtract o*
.x9firMnth
eiidefeia
interval.
[Bph X3]
SOLAK BPHEMEEIS, 1913. 523
MEAN AND APPARENT NOON.
VoTB. — PornKan dnw interval of Kmidianwter ihuhiic mgiidiiui, nbtnct o>,iS[nHiitl»iUisa^\aM(nA.
[Bph 111
524 SOLAfi EPHEMEBIS, 1913.
FOR MEAN AND APPARENT NOON.
i«nwridiB&.n]btract o^.iafrooi th*iii
SOLAR EPHEMEKIS, 1913. 525
TOR WASHINGTON MEAN AND NOON.
Ct Q* , 1 4 &«& i:tA vAlIVli^\llUSNl!u
526 MOON-CULMINATIONS, 1918.
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINC.TOK
MOON-CULMINATIONS, 1913. 52
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
528
MOON-CULMINATIONS, 1913.
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Date.
*
c
.2
a
3
u
Mean
Time of
Tniwit.
Diff.
for 1
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-
ridion.
Geocen-
tric
Semidi-
ameter.
Equa-
torial
Hori-
sotital
Parallax
Bright \
Limbs. 1
h m
m
h m s
s
0 ' //
n
s
/ ft
f 1$
■ j
Feb. 15
U
720.75
a. 488
5 2 ao.59
159.53
4-27 47 49.6
+ a66.8
75.07
15 53.8 i 58 14.6]
I. s. \
15
L
»9 5«H
a.573
5 34 47«7
164.65
28 27 27.0
+ xa7.x
76.29 16 2.0
5844-6
I. Ni. 1
16
U
8 22.41
a. 634
6 8 6.68
168.30
283751.7
- a4.7
77.13 16 10. 1
59 14.3
I. N.
16
L
20 5433
a. 664
6 41 59-44
170.16
28 17 3.4
x84.a
77-53 1617.9
59 43.0
I. X.
17
U
9 26.23
a. 663
7 16 2.84
170.07
<-27 24 4.5
- 345.4
77.47 1 16 25.2
60 9.9
I. N.
17
L
21 58.03
a. 63 a
7 49 54.24
168. ao
25 59 12.0
509.1
76.99 16 31.8 6033.9
I. N.
18
U
10 29.30 i 1.576
8 23 13.84
164.84
24 356.9 648.1
76.16
16374
6054.5
I. N.
18
L
22 59-79 '-so*
8 55 46.76
160.50
21 40 58.3 77».7
75.08
16 41.8
61 10.8
I. N.
19
U
II 29.36 «.4»3
9 27 24.03
155.66
f 18 53 46.3 '- 889.8
73.87
1644.9
61 22.2
I. N. t
19
L
235795 »34>
958 2.53
150.76
15 46 27.0 , 979.6
72.65
1646.5
61 28.0
I. .V
20
U
12 25.60 9.l6t
10 27 44.12
146. aa
12 23 24.4 1 X047.X
71.50
1646.6
61 284
II.N.S. i-
21
L
052.391 J. aol
10 56 34-37
I4a.a6
849 7-4
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7049
1645.1
61 23.2
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21
U
13 1847 ».I4»
11 2441.42
13905
^57 59.3
-XXIS.7
69.67 1 16 42.2
61 12.5
II. s. I
22
L
"4398
a.xo8
II 52 14.87
136.66
4- I 24 10.4
XI19.X
69.07 ! 16 37 9
6056.8
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22
U
14 9.Il|a.o83
12 19 24.95
135.16
- 2 18 25.6
IX04.0
68.70
16324
6036.7
II. &
23
L
2 34.02 1 J.07I
12 46 21.90
134.50
5 56 14.9
X07X.6
68.56
16 26.0 60 13.I
II. s.
23
U
1458.881 J. 073
13 13 15-58
134.61
-926 3.2
-xoa3.9
68.62
16 18.8
5946.6
II. s.
24
L
3 23.82
a. 086
13 40 14.84
135.39
12 44 54.6
96a. 3
68.87-16 11.0
59 18.0
II. s.
24
U
15 48.99
a. 109
14 727.32
136.77
15 50 1 1.6
888.4
69.26
16 2.9
58 48.2
II. s.
25
L
41448
a. 139
14 34 59-05
138.57
18 39 33.1
803.4
6977
1554.7
58 18.1
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25
U
16 40.35
9173
15 253.91
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-21 1053.5
- 708.5
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57 48x>
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26
L
5 6.64 ».t07
15 31 1345
i4a.64
23 22 23.9
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15 38.5
57 18.7
II. s.
26
U
17 33-3«
a.a38
15 59 56.49
144.48
25 12 32.1 49S.Z
71.35
1530.9
5650.7
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27
L
6 0.31 1 >.»6i
16 28 59.08
145.86
2640 5.5 379.7
71.70
15 23.7
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27
U
18 27.52 ».173
1
16 58 14.61
146.60
-27 44 134
— a6i.a
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15 170
56 ox>
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28
L
654.80
a.a7a
17 27 34.26
146.53
2824304
X41.6
71.86
15 11.0
55 37.6
II. s.
28
U
19 21.98
a. 356
175647.84
145.57
28 40 56.6
- a3.a
71.60
IS 5.6
55*17.6
II.N.
Mar. I
L
7 48.88 < 2.72$
18 25 44.68
143.75
28 33 59.5
+ 9x9
71. II
15 0.8
54 59-9
II.N.
I
U
20 15.34 i.x8«
18 54 14.75
141.14
-28 4 31. 1 -♦• aoi.8
7040
14 56.6
54446
II.N.
2
L
8 41.21 ! a.iaS
1922 9.47
137.89
27 13 44.2 I 304.7
69.52
14 53.0
5431.6
II.N.
2
U
21 6.39 a. 067
19 49 22.35
134. ao
26 3 8.8 399.8
68.51
1450.1
5420.8
II.N.
3
L
9 30.801 a. OCX
20 15 49.32
130.17
24 34 24.4 486.x
6743
14 47.7
5412.1
II.N.
3
U
21 54.42, 1. 935
2041 28.77
ia6.3X
-2249 17.8 + 563.4
66.32
14 45.9
54 54
1I.N.
4
L
10 17.26 1.879
21 6 21.27
iaa.48
204937.5 63x8
65.24
1444.6
54 0.5
II.N.
4
U
22 39.36 1.813
21 30 29.27
1 18.91
18 37 10.8 691.3
64.22 14 43.7
53 57.5
II.N.
5
L
II 0.791 '-760
21 5356.73
115. 73
16 13 41.8 742.3
63.30
14 434
53 56.2
5
U
23 21.63; 1. 715
22 16 48.75
113.01
-134050.0 + 785.1
62.52
14 43.5
53 56.5
6
L
II 41.98; 1.678
22 39 11.27
1x0.83
II 0 II. 2 8ao.i
61.88
14 43.9
53 58.2
7
U
0 1.94.1.651
23 I 10.82
X09. 19
8 13 16.9 847.7
6140
14 44-7
54 1.2
7
L
12 21.641 1-634
23 22 54.38
108.16
5 21 35.3 868.0
61.10
14 45-9
54 5.5
8
U
041.20 1.627
2 7, 44 29.26
107.76
- 2 26 32.3 + 881.3
60.99
14 474
54 III
8
L
13 0.74 1.631
0 6 3.03
X07.98
4- 0 30 26.6 887.3
61.07
14 49.3
5418.0
I. &
9
U
I 20.39 1.646
0 27 43.50
108.88
32755.5' 8«6.a
61.35
14516
5426.2
I. S.
9
L
13 40.281 1.67a
0 49 38.69
110.43
6 24 26.3 877.6
1
61.83
1454.1
54 35-6
I. S.
10
U
t
2 0.56. X.709
1 II 56.82 iia.7o|
f 9 18 26.7 + 861.0
62.50
1457.1
54464
I. s.
lEph 13I
MOON-CULMINATIONS, 1913. 529
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
530 MOOX-CIJLMINATIONS, 1913.
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
MOON-CL'LMINATIONS, 1913. 531
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
532 MOON-CULMINATIONS, 1913.
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OP WASHINGTON.
MOON-CULMINATIONS, 1913. 53;
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OP WASHINGTON.
634
MOON-CULMINATIONS, 1913.
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTOI*
Date.
•
a
■B
(0
e
•**
E
s
Mean
Time of
Transit.
Diff.
for 1
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
Brir&f
Limbs.
h m
m
h m s
s
Q / //
//
s
/ //
f It
• 1
1
1
July I
L
lO 3.16
2.438
4 41 23.40
156.54
f27 7 12.6
+ 332.0
74.03
1547.1 57 50.2 1
II. s.,
I
U
22 32.95
»'S»3
5 13 13.86
X61.66
28 036.4
199.6
75.25
15 53-7
5814-3
II. S.;
2
L
1 1 3.62
a.58S
5 45 57.45
165.35
28 26 14.9
+ 55.0
76.12
15 59.9
58 37.2
II. S.
2
U
23 34.86
a.6i6
6 19 15.12
167.35
28 22 5.2
- 97.3
76.56
16 5.7
58 58.3
3
L
12 6.29
a. 6x6
6 52 44.00
167.33
f27 47 6.7
— 353.1
76.55
16 10.8
59 17-0
4
U
0 37.52
3.585
7 26 1.27
165.36
26 41 29.6
403 .8
76.11
16 15.2 59 33.0]
4
L
13 8.22
a.SaS
7 58 46.46
x6x.95
25 634.9
544.2
75.30
16 18.7
5946.1
I. s.
5
U
I 3812
a.454
8 30 43.82
15744
23 4 45-7
671.4
74.22
16 21.3
59 55-7
I. N.
5
L
14 7.06
a.370
9 143.47
152.42
f20 39 9.9
- 781.6
73.00
16 23.0
60 1.9
I. N.
6
U
2 34.98
3.285
9 31 41.46
147.26
17 53 23.9
873.0
71-74
16 23.8
60 4.6
I. N. i
6
L
15 1.89
a.ao4
10 038.99
142.39
1451 15.5
945.2
70.53
16 23.6
60 4X>
I. N.
7
U
3 27.89
2.Z32
10 28 41.26
138.10
11 3631.5
999.0
69.45
16 22.7
60 0.5
I. N.
7
L
1553.10
3.073
1055 56.18
134.53
f 8 12 50.1
-1035.0
68.54
16 20.9
59 54-1
I. N. '
8
U
4 17.68
3.038
II 2233.54
131.84
4 43 37-1
1054.5
67.85
16 18.S
59 45.3
I. N.
8
L
16 41.82
1.998
1 1 48 44.06
130.07
^- I 12 3.1
1058.6
67.40
16 15.6
5934.5
I. N.
9
U
5 5.70
1.984
12 14 38.82
139. 31
- 2 18 53.7
1048.4
67.19
16 12. 1
59 21.9
I. N.
9
L
17 29.49
1.985
12 40 28.88
139.37
- 5 46 26.2
-1034.7
67.21
16 8.3
59 8.0
I. N.
lO
U
5 53.39
3.000
13 624.90
130.30
9 756.7
988.1
6747
16 4-3
58 53-2
I. N.
lO
L
18 17.55
3.029
13 32 36.84
131.92
12 2052.2
939.0
6793
16 O.I
58 37.6
I. N.
II
U
6 42.12
3.069
13 59 13.53
134.31
15 22 44.0
877.S
68.55
15 55.7
58 21.6
I. N.
II
L
19 7.23
2.117
14 26 22.26
137.23
-18 II 5.3
- 803.9
69-30
15 51-3
58 5.3
I. N
12
U
732.96
3.17Z
1454 8.29
140.49
20 43 31.8
7x8.5
70.12
1546-8
5748.9
I. N.
12
L
19 59.34
3.337
15 22 34.21
143.82
22 57 43-9
631.6
70.95
1542-3
57 324
I. N.
13
U
8 26.38
2.279
1551 39.36
146.97
2451 29.9
514.4
71.72
15 37-8
57 i6x>
I. N.
13
L
20 54.CX)
2.323
16 21 19.42
149-59
-26 22 53.2
- 398.3
72.35
15 33.4
56 59.8
I. N.
14
U
922.07
3.353
16 51 26.37
151.40
27 30 19-7
275-3
72.77
IS 29.1
5643.9
I. N.S.
0\
14
L
21 50.40
a. 365
17 21 48.77
152.13
28 12 44.7
148.6
72.92
15 24-8
56 28.1
I. s.
15
U
10 18.75
2.357
17 52 12.83
151.66
28 29 40.3
— 3I.O
72.77
15 20.6
56 12.7
I. s.
15
L
22 46.88
3.338
18 22 23.67
149.94
-28 21 18.8
+ 103.8
72.32
15 16.5
55 57-6
I. s.
i6
U
" 14.55
3.381
1852 6.93
147.10
274832.1
333.8
71-59
15 12.5
5542.9
I. s.
i6
L
23 41.56
3.3X8
19 21 10.23
143.34
26 52 45.7 333-4
70.61
15 8.6
55 28.8
I. s.
17
U
12 7.75
2.145
19 49 24.16
138.92
25 35 53.0 433.6
69.47
15 4.9
.55 15-3
I.II. s.
i8
L
0 33.02
3.066
20 16 42.81
134.16
-24 0 4.0 i+ 522.6
68.23
15 1-5
55 2.6
II. s.
i8
U
12 57-33
X.986
2043 365
129.34
22 7 36.9 600.0
66.96
14 58.2
54 50.7
II.N.S.
19
L
I 20.69
X.908
21 8 27.31 j X34.66
20 051.0
665.9
65.72
14 55-3
54 39.9
II.N.S.
19
U
1343.15
1.836
21 32 56.86! 1 30.34
17 42 0.0
730.9
64.56
14 52.7
54304
II.N.
20
L
2 4.80
1.772
21 56 37.28 u6.so
-15 13 9-3
+ 766.0
63.51
14 50.5
5422.2
II.X.
20
U
14 25.73
X.718
22 19 34.89' 1x3.33
12 36 13-7
80X.8
62.62
1448-7
54 15.6
II.N.
21
Iv
2 46.07
X.674 22 41 56.92 j 1x0.57
9 52 56.9 839.6
61.90
14 47-4
5410.8
II.N.
21
U
15 5.95
1.641 23 351-19 108.59
7 452.7 849.8
61.36
1446.6
54 7-9
II.N.
22
L
3 25.50
i.6ao 23 25 25.88 107.30
- 4 13 26.7 !+ 863.4
61.01
14 46.3
54 7.0
II.N.
22
U
15 44-87
X.611
234649.521 106.75 1
- I 19 574 870.4
60.88
1446.7
54 8.3
II.N.
23
L
4 4.20
Z.613
0 8 10.75
Z06.93
i- 1 34 20.6 871.4
60.96
14 47.7
5412.0
II. N.
23
U
16 23.64
Z.638
0 29 3844
107.83
4 28 14.6 i 866.5
61.25
14 49.3
54 1B.0
II.N.
24
L
4 43-33
1.656
051 21.69
109.52
^- 7 20 30.4 1
+ 855. «l
61.76
14 51.7
54*^7
II.N.
lEph 13A
MOON-CTJLMINATIONS, 1913. 535
AT TRANSIT OP MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
536
MOON-CULMINATIONS, 1913.
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Ti
ss:
I.II. i
II.KS.
n.N5.
II.N,
II.N.
II.N.
II.N.
II.N.
II.N.
II.N.
II.N
II.K,
II.N.
II.N
II.N
II.N.
II.N.
UN.
II.N.
II.N.
II a
II. &
II. &
II. a
11. i
II. s.
II. s.
II. s.
.3
•9
■a
■3
M
I. N.
■9
I. N.
-4
I. N.
I. N.
■9
I. N.
■5
1. N.
•4
I. N.
■4
I. N.
-4
I. N.
■7
I. N.
■9
I. N.
-S
I. N.
■3
I. N^.
MOON-CVLMINATIONS, 1913. 537
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
538
MOON-CULMINATIONS, 1913.
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
Date.
•
c
0
C
1
9
U
Mean
Time of
Transit.
Diff.
for 1
Hour
of
Long.
m
Right
Ascen.sion
of
Center.
Diff.
fori
Hour
of
Long.
Geocentric
Declination
of
Center.
Diff.
for X
Hour
of
Long.
Sid.
Time
of
Semid.
Pass-
ing Me-
ridian.
Geocen-
tric
Semidi-
axnetcr.
Bqua-
torial
Hori-
zontal
Parallax
Bricfat
Limbs.
h m
h m s
s
0 / //
//
s
r ff
/ //
Sept. 30
L
12 40.45
3. 196
13 17 52.85
141.99
-1054 16.2 -1053.9I
70.45
16 38.3
6057.8
Oct. I
U
I 7.04
2.»37
13 46 31.19
144.48
14 18 28.7
986.x
71.10
16 33.6
6040.6
I. N.
I
L
1334.17
a.aSs
14 15 41.86
14735
17 27 32.3
90X.6
71.85
16 27.7
60 19.3
I. N.
2
U
2 1.90
a.33S
14 45 28.20
150.37
20 18 3.4
801.0
72.64
16 21.0
59 54.6
I. N.
2
L
14 30.22
a. 383
15 15 50.25
153.34
-22 47 0.6 - 686.4
7340
16 13.6
59 27.5
I. N.
3
U
2 5907
2.4*3
15 46 44.26
155.64
245X51.3
560.4
74.03
16 5.8
58 58.7
I. N.
3
L
15 28.32
a. 450
16 18 2.59
157.35
26 30 38.3
436.3
74-47
15 57.7
58 28.8
I. N.
4
U
3 57.79
3.459
16 49 33.94
157.78
2742 6.4
287.9
74.62
15 49.5
57 58.7
I. N.
4
L
16 27.25
a.447
17 21 4.41
157.08
-28 25 45.9
- 148.9
74.48
15 41.4
5729.1
I. N.
5
U
456.44
».4I4
17 52 18.82
155.11
28 41 53.8
- 13.3
74.01
15 33.6
57 0.6
I. N.
5
L
17 25.12
a.361
1823 2.45
151.97
28 31 29.9
+ 115.9
73.24
15 26.2
5633.4
I. S.
6
U
5 53.07
a. 293
1853 2.47
147.88
2756 8.9
335.9
72.21
15 19.3
56 8.1
I. S.
6
L
18 20.14
a. 2x5
19 22 9.19
143.13
-^5751.4
+ 345-3
71.01
15 13.0
5544.9
I. S.
7 U
646.21
a.zjx
19 50 16.48
138.04
25 38 53.2
443.6
69.67
15 7.3
5524.0
I. S.
7
L
19 11.26
a. 044
20 17 21.76
133.86
24 135.5
538.4
68.29
15 2.3
55 5-6
I. s.
8
U
7 35.29
1.961
20 43 25.65
127.83
22 8 17.8
602.7
66.92
14 57.9 ' 54 49-5
I. s.
8
h
19 5835
i.8«3
21 831.26
133.17
-20 I 13.2
+ 666.3
65.62
14 54.2
5435.9
I. s.
9
U
8 20.52
1.8x3
21 32 43.61
1x8.98
17 42 25.0
720. X
64.42
14 51. 1
5424.7
I. s.
9
L
20 41.92
I.7S3
21 56 8.98
115.36
15 13 46.2
764.9
63.37
14 48.7 54 15.7
I. s.
10
U
9 2.65
1.703
22 18 54.48
113.34
1237 0.3
801.5
62.48
1446.9 54 9.0
I. s.
10
L
21 22.84
1.664
2241 7.70
109.97
- 9 53 42.5
+ 830.3
61.76
14 45.6 '54 4.3
I. s.
II
U
942.63
«.63S
23 2 56.47 xo«.a8
7 521.0
852.0
61.24
14 44.9 54 1.6
I. s.
II
L
32 2.14
1.6x8
23 24 28.68 107. ax
4 13 19.8
867.0
60.90
1444.6154 0.7
I. s.
12 u
10 21.51
1.6X3
23 45 52.26 ' X06.83
1
- I 18 59.8
875 3
60.75
14 44.8] 54 1.4
I. s.
12 ;l
22 40.86
X.616
0 7 15.14 X07.10
f I 36 17.8
+ 876.6
60.81
1445.5 54 3-8
I. s.
13
U
II 0.34
1.632
0 28 45.20 108.02
431 "6
87X.3
61.06
14 46.5
54 7.6
I. s.
13 L
23 20.07
X.658
05030.29 X09.60
7 24 16.0
858.3
61.51
14 47.9
54 12.7
I. N.S.
14IU
II 40.17
1.69s
I 12 38.10 IZX.81
10 14 I.I
837.8
62.14
14 49.6
54 19. 1
1.1 1. US.
15 L
0 0.78
1.74a
I 35 16.27 XX4.65
f 12 58 50.6
+ 808.9
62.95
14 51.7
54 26.7
UN.
15 u
12 22.01
1.799
I 5832.06 XX8.07
1537 0.2: 771.1
63.92
14 54.1
54 35 4
II.N.
i6|L
04398
X.865
2 22 32.24 Z22.04
18 637.2
733.4
65.03
14 56.7
54 45.2
I I.N.
16
u
13 6.79
1.938
2 47 22.72 , 126.44
ao 25 40.1
665.3
66.25
14 59.7
5456.0
II.N.
»7
L
1 30.51
a.oz6
3 13 8.14 131.17
f22 31 58.4
+ 595-8
67.55
15 3.0 55 8.1
UN.
17
U
1355.19
a.097
3 39 5 1.30 '136.04
24 23 15.2
514.9
68.87
15 6.6
55 21.4
UN.
18
L
2 20.84
2.177
4 7 32.65 X40.82
25 57 10.3
432.2
70.15
15 10.5
55 35.7
II.N.
18
U
14 47.41
a. 251
436 9.60 145.35
27 II 25.1
318.3
71.32
15 14.7
55 51.3
II.N.
19 1 L
3 14.81
»'3i4
5 536.39 149.07
+28 349.4
+ 204.X
72.33
15 19.3
56 8.0
II. N.
«9:u
15 42.89
a. 363
53543.83 153.00
28 32 30.4
.(- 81.4
73.10
15 24.2
56 26.0
II.N.
20 L
4 11.44
3.393
6 6 20.02 1 X53.84
28 35 59.8
- 47.3
73-59
1529.4
5645.1
II.N.
20 U
16 40.24
a. 404
637 11.13I 154.48
28 13 22.7
179.1
73.77
1534.9
57 5.3
II.iV.S.
21 L
5 9.06
a.39S
7 8 2.91
153.95
f27 24 21.2
- 310.9
73.66
15 40.7
57 26.6
II. s.
21 U
17 37.66
a. 3 70
73842.18
153.43
26 9 16.7
439.1
73.29
15 46.7
5748.7
II. s.
22
L
6 5.88
2.331
8 858.06
150.11
24 29 6.0
561.3
72.72
15 52.9
58 11.3
II. s.
22
U
>8 33.58
2.385
8 38 42.98
147.31
22 25 19.4
674.9
72.00
15 59-1
5834.2
II. s.
23
L
7 0.7o|a.a3S
9 752.93
144.34
^•19 59 51.7
- 777.9
71.23
16 5.3
58 57.0
II. s.
[Bph X3]
MOON-CULMIXATIONS, 1913. 539
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OP WASHINGTON.
540 MOON-CULMINATIOlSrS. 1913.
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
MOON-OULMINATIONS, 1913. 541
AT TRANSIT OF MOON'S CENTER OVER THE MERIDIAN OF WASHINGTON.
542 MERCURY, 1913.
FOR TRANSIT AT WASHINGTON.
MEKCURY, 1913. 548
FOR TRANSIT AT WASHINGTON.
544
MERCURY, 1913.
FOR TRANSIT AT WASHINGTON.
Mean
•
a
ii
Mean
E g^
Date.
Time
of
Tran-
sit.
h ni
AmMtfent
Riffht
Ascension.
Apparent
Decllnatioii.
Hot.
Par.
tt
at
1
r
Date.
Time
of
Tran-
sit.
h m
Apparrat
Risht
Ascension.
Apparent
Declination.
Hot.
Par.
ft
1 £s
h m 8
0 r ft
n
s
h m 8
9 t t»
/»
s
July I
152
8 28 51.57
+19 53 58.8
9.5
3.6
0.25
Aug. 15
2257
8 34 29.50
+16 18 50.6
"5,44
0-30
2
153
83341.31
1927 6.7
9.6
3.6
0.26
16
2254
836 1.23
16 31 12.6
11.2,4.2
0.29
3
154
8 38 17.72
19 0 0.3 9.8
3.7
0.26
17
2252
838 3.26
16 41 39.3
10.8^4.1
0.29
4
154
8 42 40.66
18 32 45.7 10.0
3.8
0.27
18
2251
8 40 35.43
16 49 59.2
10.5 4.0
0.28
5
154
84649.98
18 5 28.9,10.2
1
3.9
0.27
19
2250
8 43 37.30
1656 1.5
10.2 3.9 1 0.27
6
154
8 50 4548
+17 38 15.7
10.4
3-9
0.28
20
2250
847 8.14
+16 59 36.3
9.9; 3.8 1 0.26
7
154
8 54 26.92
17 II 12.0
10.5
4.0
0.28
21
2250
851 6.99
17 034.6J 9.6:3.6
0.25
8
153
85754.07
16 44 23.9
10.7
4.1
0.28
22
2250
8 55 32.66
16 58 48.4
9.3
3-5
0.25
9
153
9 1 6.63
16 17 57.6
10.9
4.1
0.29
23
2251
9 023.73
16 54 10.9 9.1
34
0.24
lO
152
9 4 4.30
15 51 59.5
II. I
4.2
0.29
24
2252
9 538.54
16 46 36.8
8.8
3.3
0.23
II
150
9 646.75
+15 26 36.0
"4
4.3
0.30
25
2254
9 II 15.26
+16 36 2.4
8.6
3-3
0.23
12
149
9 913.62
15 153.5
1 1.6
4.4
0.30
26
2256
9 17 11.91
16 22 25.8
84
3-2 ' 0.22
13
147
9 II 24.53
14 37 58.7
11.8
4.5
0.31
27
2258
9 23 26.38
16 547.2
8.2
3,1 0.21
14
145
9 13 19."
14 14 58.6
12.0
4.6
0.31
28
23 I
9 29 56.45
1546 8.7
8.0
30^0.21
15
143
9 14 56.94
1353 0.1
12.2
4.6
0.32
29
23 4
9 36 39.89
15 23 34.3
7.8
2.9
0.20
i6
I 40
9 16 17.63
+13 32 10.3
124
4.7
0.32
30
23 7
9 43 34.47
+1458 10. 1
7.6
2.9
0.20
17
137
9 17 20.81
13 12 36.4
12.6
4.8
0.33
31
23 10
9 50 38.01
1430 40
7.5
2.8 \ 0.20
i8
134
9 18 6.14
12 54 25.9
12.9
4.9
0.33
Sept 1
23 13
9 57 48.45
135925.1
7.3
2.8
0.19
19
131
9 18 33.29
12 37 46.0
131
5.0
0.34
2
23 16
K> 5 3.84
13 26 23.7
7.2
2.7
0.19
20
127
9 18 42.02
12 22 44.0
13.3
5.0
0.34
3
2320
10 12 22.41
12 51 II.2
7.1
2.7
0.19
21
I 23
9 18 32.16
+12 9 27.1
13.5
5.1
0.35
4
2323
10 19 42.59
+12 13 59 4
7.0
2.6 , 0.18
22
I 18
918 3.67
11 58 2.2
13.7
5.2
0.35
5
2326
10 27 3.01
11 35 0.2
6.9
2.6
0.18
23
I 14
9 17 16.63
II 48 35.6
13.9
5-3 0.36
6
2330
10 34 2247
10 54 25.4
6.8
2.6
0.18
24
I 9
9 16 11.30
11 41 13.0
14. 1
5.3
0.36
7
2333
10 41 39.99
10 12 26.7
6.7
2.5
0.17
25
I 4
91448.13
"35 597
14.3
5.4
0.37
8
2336
10 48 54.76
9 29 15.3
6.7
2.5
ai7
26
058
913 7.81
+11 32 59.6
14.4
5.5
0.37
9
23 4J
1056 6.14
+ 845 1.6
6,6
2.5
0.17
27
052
9 II 11.29
" 3« 15.5
14.6
5.5 '0.38
10
2343" 313.64
7 59 55.5
6.5
2.5
0.17
28
046
9 859.81
II 33 48.8
14.7
5.6 0.38
II
23 46 II xo 16.90
7 14 6.2
6.5
24
0.17
.29
0409 634.90
II 37 38.9
14.8
5.6; 0.38
12
23 49 II 1715.69
6 27 42.0
64
24
a 16
30
033
9 358.41
"4343.6
14.8
5.6 0.38
13
2352
II 24 9.85
5 40 50.6
6u^
24
0.16
31
0 26
9 I 12.51
+11 51 58.8
14.8
5.6
0.38
14
2355
113059.30
+ 4 53 390
64
24
a 16
Aug. 1
0 20
8 58 19.66
12 2 18.2
14.8
5.6 0.38
15
2358
113744.05
4 613.3
6-4
24 ai6
2
013
8 55 22.59
12 14 33-4
14.8
5.6 0.38
17
0 0
II 4424.16
3 18 39.3
6-3
24
0.16
3
0 6
8 52 24.24
12 28 34.0
14.7
5.6 0.38
18
0 3" 5059.71
2 31 2.0
63
24
0.16
3
2359
8 49 27.73
12 44 8.0
14.6
5.5
0.38
19
0 6115730.83
1 43 26.1
6.3
24
a 16
4
2352
8 46 36.31
+13 I 1.7
14.5
5.5
0.38
20
0 8
12 357.66
+ 0 55 55.8
6.3
24
a 16
5
2345
8 43 53.23
13 19 0.2
14.3
5.4
0.37
21
0 10
12 1020.39+ 0 834.6
6-3
24
ai6
6
2339
841 21.69
13 37 47.5
14. 1
5.4
0.37
22
013
12 1639.20-03834.2
6.3
24
a 16
7
2333
839 4.80
1357 7.3
13.9
5.3
0.36
23
015
12 22 54.28
I 25 27.6
6.3
24
0.16
8
2327
837 5.49
14 16 43.0
13-7
5.2
0.36
24
0 17
12 29 5.82
2 12 2.7
6.3
24
ai6
9
2321
8 35 26.45
+14 36 18.0
13-4
5.1
0.35
25
020
12 35 14.02
- 2 58 17.1
6-3
24
0.16
10
23 16
8 34 10.07
14 55 35-8
13.1
5.0
0.34
26
0 22
12 41 19.09
3 44 84
6.3
24
ai6
II
23 II
8 33 18.44
15 14 20.4
12.8
4.8
0.34
27
0 24
12 47 21.21
42934.7
6-3
24
ai6
12
23 7
8 32 53.32
15 32 16.6
12.5
4.7
0.33
28
0 26
12 53 20.56
5 14 34.1
6.3
24
ai6
13 23 3
83256.13
1549 9.5
12.2
4.6
0.32
29
028
12 59 17.33 5 59 4.8
6.3
24
ai6
14 23 6
8 33 27.94
+16 445.3
11.8
4.5
0.31
30
030
13 5 11.71-643 5.1
6.3
24
0.16
15
2257
8 34 29.50
+16 18 50.6
"5
4.4
0.30
Oct. I
032
13 II 3.86
^ 7 26 33.4
6.3
24
ai6
(Eph ul
MEKCUKY, 1913. 645
FOR TRANSIT AT WASHINGTON.
546
VENUS, 1913.
FOR TRANSIT AT WASHINGTON.
Mran
6
ii
Mean
8
^%
Date.
Time
of
Tran-
sit.
h ro
Apparent
Ri^t
Ascension.
Apparent
Declination.
Hot.
Par.
It
Date.
Time
of
Tran-
sit.
h m
Ascension.
Apparent
Declination.
Hor.
Par.
II
1
h m s
0 ' "
//
s
h m s
9 1 II
s
Jan.
o
3
2
21 41 5542
-15 41 M
8.8
8.5
0.59
Feb. 15
3 5
046 3.62
+ 6 47 28X)
13. 1
12.7
0.85
I
3
3
21 46 28.70
15 15 39.9
8.8
8.6
0.59
16
3 5
04931.29
7 x6 25.8
13.2
12.9
0.86
2
3
4
21 51 0'34
14 49 56.3
8.9
8.6
0.60
17
3 4
0 52 57.36
7 45 "2
134
13-0
0.88
3
3
4
215530.36
1423514
9.0
8.7
0.60
18
3 4
05621.77
8 13 43.2
13.5
13.2
0.89
4
3
5
215958.76
13 57 26.1
9.0
8.8
0.60
19
3 3
0594448
842 I.I
13.7
13.3
0.90
5
3
5
22 425.55
-13 30 41. 1
9.x
8.8
0.60
20
3 2
I 3 543
•». 9 10 4.4
13.9
13.5
0.91
6
3
6
22 850.75
13 337.3
9-1
8.9
0.61
21
3 2
I 624.58
9 37 524
14.0
13.6
0.92
7
3
6
22 13 14.37
12 36 15.4
9-2
8.9
0.61
22
3 1
I 941.86
10 5244
14.2
13.8
0.94
8
3
6
22 17 3641
12 836.2
9.3
9.0
0.61
23
3 0
I 12 57.21
10 32 39.7
144
14X)
0.95
9
3
7
22 21 56.90
II 4040.7
9.3
9.1
0.62
24
3 0
I 16 10.57
10 59 37.6
14.6
14.I
0.96
lO
3
7
22 26 15.84
-II 12 29.5
94
9.1
0.62
25
259
I 19 21.87
+11 26 17.5
>4.7
14-3
0.98
II
3
8
223033.26
1044 34
9.5
9.2
0.63
26
258
I 22 31XH
II 5238.6
14.9
14.5
0,99
12
3
8
223449.15
10 15 234
9.5
9.3
0.63
27
258
I 25 37.98
12 1840.3
15.1
14-7
1. 00
13
3
8
2239 3.52
9 46 30.3
9.6
9.3
0.63
28
257
I 28 42.61
12 4422.0
15.3
14.9
IXU
14
3
9
22 43 16.38
9 17 24.8
9-7
94
0.64
Mar. I
256
13144.84
n 943.0
15.5
15.1
1.03
15
3
9
22 47 27.76
- 8 48 7.6
9.8
9.5
0.64
2
255
13444.55
+13 34 42.5
15.7
15-3
X.05
i6
3
9
2251 37.66
8 18 39.7
9-9
9.6
0.65
3
254
I 37 41.64
13 59 J9.7
15.9
15.5
I 06
17
3
9
22 55 46.10
7 49 1.9
9.9
9.6
0.65
4
253
I 40 35.99
14 23 33.8
16. 1
15.7
1.06
i8
3
9
22 59 53.09
7 19 14.9
10.0
9.7
0.66
5
252
I 43 27.46
14 47 24.1
164
15.9
I. ID
19
3
10
23 358.64
6 49 194
10. 1
9.8
0.66
6
2 50
I 46 15.94
15 10 49.8
16.6
16. 1
I. II
20
3
10
23 8 2.78
- 6 19 16.3
10.2
9.9
0.66
7
249
I 49 1.28
+15 33 50.0
16.8
16.3
I.I3
21
3
10
23 12 5.52
5 49 6.3
10.3
10.0
0.67
8
248
I 51 43.30
15 56 23.8
17.1
16.6
I.I5
22
3
10
23 16 6.86
5 18 50.3
104
10. 1
0.67
9
247
1 54 21.85
16 18304
17.3
16.8
I.I7
23
3
10
23 20 6.82
4 48 28.9
10.4
10. 1
0.68
10
245
I 56 56.75
1640 8.9
17.6:17.1
1. 18
24
3
10
2324 543
4 18 2.9
10.5
10.2
0.68
II
244
I 59 27.84
17 1 184
17.8
17.3
1.20
25
3
10
23 28 2.69
- 3 47 32.8
10.6
10.3
0.69
12
2 42
2 154.93
+17 21 57.8
18. 1
17.5
1.22
26
3
10
23 31 58.62
3 16 594
10.7
10.4
0.70
13
241
2 4 17.81
17 42 6.0
18.3
17.8
1.24
27
3
10
23 35 53.23
2 46 23.5
10.8
10.5
0.70
14
239
2 6 36.27
18 1 42.0
18.6
18. 1
1.26
28
3
10
23 39 46.54
2 15 45.8
10.9
10.6
0.71
15
238
2 850.09
18 2044.6
18.9
18.3
1.29
29
3
10
23 43 38.57
145 6.8
II.O
10.7
0.71
16
236
2 10 59.07
18 39 12.8
19.2
18.6- 1. 31
30
3
10
23 47 29.32
- I 14 27.3
II. I
10.8
0.72
17
234
2 13 2.96
+1857 5.3
194
18.9
133
31
3
10
23 51 18.80
0 43 48.0
11.2
10.9
0.73
18
232
2 15 1.51
19 14 2a9
19.7
19.2
1-35
Feb.
I
3
10
2355 700
- 0 13 9.7
"3
1 1.0
0.73
19
2 30
2 165448
19 30 58.3
2ai
19.5
138
2
3
9
23 58 53.92
+ 0 17 27.0
114
II. I
0.74
20
2 28
2 1841.63
19 46 56.2
204
19.8
140
3
3
9
0 239.56
048 14
11.6
11.2
0.75
21
2 26
2 20 22.71
20 2 13,1
20.7
2ai
142
4
3
9
0 6 23.92
+ I 18 32.7
11.7
11.3
0.76
22
2 23
2 21 5747
+20 16 47.5
21.0
204
145
5
3
9
0 10 7.00
149 0.2
11.8
11.4
0.76
23
2 21
2 23 25.67
203038.0
214
20.7
147
6
3
8
0 13 48.79
2 19 23.3
11.9
"5
0.77
24
2 18
2 24 47.Q5
20 43 43xJ
21.7
21. 1
1.50
7
3
8
0 17 29.28
2 49 41.2
12.0
11.7
0.78
25
2 15
2 26 1.35
2056 a7
22X>
214
1-53
8
3
8
0 21 8.44
3 19 53.1
12.2
1 1.8
0.79
26
2 13
2 27 8.34
21 729.7
224
21.7
1.55
9
3
8
0 24 46.26
+ 3 49 58.2
12.3
1 1.9
0.80
27
2 10
2 28 7.78
.1-21 18 8.2
22.7
22.1
1.58
10
3
7
0 28 22.72
4 19 55.9
124
12.0
0.81
28
2 7
2 28 5941
21 2754.2
23.1
224
1.61
II
3
7
0 31 57.79
4 49 45.6
12.5
12.2
0.82
29
2 3
2 29 43.00
21 3645.6
23.5
22.8
1.63
12
3
6
0 35 3145
5 19 264
12.7
12.3
0.83
30
2 0
2 30 18.33
214440.3
23.9
23,2
1.66
13
3
6
039 3.66
5 48 57.6
12.8
12.4
0.83
31
I 57 !2 304518
21 51 36.2
24.2
23-5
1.69
14
3
6
0423440
.f. 6 18 184
12.9
12.6
0.84
Apr. I
153
231 3-37
+215731.024.6123.9
1.72
15
3
5
046 3.62
.». 6 47 28.0
13.1
12.7
0.85
2
149
231 12.71
+22 2 224
25.0
'24^
1.75
[Bph 13]
VENUS, 1913. 547
FOR TRANSIT AT WASHINGTON.
548
VENUS, 1913-
FOR TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Tran-
sit.
July I
2
3
4
5
6
7
8
9
lO
II
12
13
15
i6
17
i8
19
20
21
22
23
24
25
26
27
28
29
30
31
Aug. I
2
3
4
5
6
7
8
9
10
II
12
I h
20
20
20
20
ao
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
2
2
2
2
2
2
2
2
2
2
2
2
2
2
m
52
52
51
51
51
51
51
51
52
52
52
52
52
52
53
53
53
54
54
55
55
56
56
57
57
58
58
59
13 j2
14 I2
»5
16
I
2
2
3
4
5
6
6
7
8
9
10
II
12]
13
14
14
Apparent
Right
Ascension.
h m s
3 31 31.65
3 35 20.35
339 11.20
3 43 4x6
34659.19
3 50 56.27
3 54 55.36
3 58 56.42
4 259.43
4 7 4.36
4 II II. 19
4 15 19.89
4 19 30.44
4 23 42.82
4 27 57.00
4 32 12.96
4 36 30.67
4 40 50.09
445 11.20
4 49 33.98
4 53 58.38
4 58 24.37
5 251.93
5 721.01
5 II 51.58
5 16 23.60
5 20 57.02
5 25 31.79
530 7.87
5 34 45.24
5 39 23.84
5 44 3.62
5 48 44.54
5 53 26.54
558 9-57
6 253.59
6 738.55
6 12 2442
6 17 II. 14
6 21 58.69
6 26 47.01
6 31 36.05
6 36 25.76
641 16.12
6 46 7.07
6 50 58.56
6 55 50.54
Apparent
Declination .
//
542 8.9
5 55 41 -2
6 9 9.7
6 22 33.3
63551.0
649 1.8
7 2 4.7
7 14 58.8
7 27 43.2
7 40 16.8
7 52 38.8
8 448.3
8 16 44.5
8 28 26.3
8 39 52.9
851 3.6
9 157.4
9 12 33.5
9 22 51. 1
9 32 49.3
9 42 27.4
9 51 44.5
20 040.0
20 9 13.0
20 17 22.8
+20 25 8.7
20 32 30.2
20 39 26.5
20 45 56.9
20 52 0.8
+20 57 37.6
21 2 46.7
21 7 27.6
21 II 39.9
21 15 23.0
+21 18364
21 21 19.8
21 23 32.6
21 25 14.5
21 26 25.2
+21 27 4.3
21 27 11.4
21 2646.1
21 2548.3
21 24 17.7
+21 22 14.1
+21 19 37.2
Hor.
Par.
ft
•
i
••*
•0
1
II
li
s
Date.
Mean
Time
of
IVan-
sit.
h m
12.7
12.3
0.86
Aug. 16
21 14
12.5
12.2
0.85
17
21 15
12.4
12.0
0.84
18
21 16
12.3
II.9
0.83
19
21 17
12. 1
II.8
0.82
20
21 18
12.0
II.6
0.81
21
21 19
II.9
"•5
0.80
22
21 20
II.7
1 1.4
0.80
23
21 21
II.6
11.3
0.79
24
21 22
11-5
1 1.2
0.78
25
21 23
1 1.4
II.O
0.77
26
21 24
11.3
10.9 0.77 1
27
21 25
1 1.2
10.8
0.76
28
21 26
1 1.0
10.7
0.75
29
21 27
10.9
10.6
0.75
30
21 28
10.8
10.5
0.74
31
21 29
10.7
10.4
0.74
Sept. I
21 30
10.6
10.3
0.73
2
21 30
10.5
10.2
0.72
3
21 31
10.4
10. 1
0.72
4
21 32
10.3
lO.O
0.71
5
2133
10.2
9.9
0.70
6
2134
10. 1
9.8
0.70
7
2135
lO.O
9.8
0.69
8
21 36
10.0
9-7
0.69
9
2137
9.9
9.6
0.68
10
21 38
9.8
9-5
0.68
II
2139
9.7
9.4
0.67
12
21 40
9.6
9.3
0.67
13
21 40
9.5
9-3
0.66
14
21 41
9.5
9.2
0.66
15
21 42
9.4
9.2
0.65
16
2143
9.3
9.1
0.65
17
2144
9.2
9.0
0.64
18
2145
9.2
8.9
0.64
19
2145
9.1
8.8
0.63
20
21 46
9.0
8.8
0.63
21
2147
9.0
8.7
0.62
22
2148
8.9
8.6
0.62
23
2148
8.8
8.6
0.61
24
2149
8.8
8.5
0.61
25
2150
8.7
8.5
0.61
26
21 51
8.6
8.4
0.60
27
2152
8.6
8.3
0.60
28
21 52
8.5
8.3
0.59
29
2153
8.5
8.2
0.59
30
2154
8.4
8.2
0.59
Oct. I
2154
Apparent
Ri«ht
Ascension.
h m
655
7 o
7 5
7 10
715
7 20
725
730
734
7 39
744
7 49
7 54
7 59
8 4
8 9
8 14
8 19
823
828
833
838
843
848
853
857
9 2
9 7
912
917
9 21
9 26
931
936
940
9 45
950
9 55
9 59
10 4
10 9
10 13
10 18
1023
1027
54+2
8
50.
42.96
35.80
28.97
22.44
16.18
10.13
4.23
58.44
52.71
47.00+20
41.26
35.43
29.48
23.37
17.05
1049
3.64
56.46
48.93
41.02
32.71
23.97
14.78
5.II
54.96
44.31
33.141
2143
9.16
56.34
42.97
29.02
14.50
59.41
43.74
2748
10.63
53.21
35.21
16.65
57.52
37.83
17.58
56.79
10 32 35.47
10 37 13.63
Apparent
Declination .
rt
119
21 16
21 12
21 8
21 3
+2058
2052
2045
2038
2030
37.2
26.9
42.9
25.1
334|8.2
7.8
8.2
34.6
27.0
45-3
Hor.
Par.
84
8.3
8.3
8.2
20
20
9
5
5
5
4
4
4
3
3
2
2
2
I
I
I
o
+10
+ 9
22 29.7
13404
417.5
5421.0
43 51.1
3248.1
21 12.3
9 3.9
56 23.0
43 10. 1
29 25.5
15 9.5
022.4
45 4.6
29 16.3
12 58.1
56 104
38 53.6
21 8.0
254.1
44124
25 3.4
527.6
45 25.5
24 57.6
4
42 46.5
21 4.5
58 59.0
3630.5
1339.5
5026.9
26 53-3
2593
38 45.5
14 12.5
49 21. oi
8.1
8.1
8.0
8.0
•9
.9
.8
.8
.7
•7
.6
.6
.5
.5
^5
•A
'A
.3
.3
.3
Kl
K2
r.2
r.I
M
.1
.0
.0
X>
6.9
6.9
6.9
6.8
6.8
6.8
6.7
6.7
6.7
6.6
6.6
6.6
6.6
S
(S
•o
E
A.
ft
8.2
8.1
8.0
8.0
7.9
7.9
7.8
7.8
7-7
7.7
7.6
7.6
7.6
7.5
7.5
7-4
74
7.3
7.3
7.2
7-2
7.2
7.1
7.1
7.0
7-0
7.0
6.9
6-9
6.9
6.8
6.8
6.8
6.7
6.7
6.7
6.6
6.6
6.6
6.6
6.5
6.5
6.5
6.5
64
64
64
0.59
0.58
0.58
0.57
0.57
0.56
0.56
0.56
0.55
0.55
055
0.54
0.54
0.53
0.53
0.53
0.52
0.52
0.51
0.51
0.50
0.50
0.50
049
049
049
049
048
048
048
047
047
047
046
046
046
046
045
045
045
045
044
044
044
044
043
043
[Eph 13]
VENUS, 1913. 549
FOR TRANSIT AT WASHINGTON.
550
MARS, 1913.
FOR TRANSIT AT WASHINGTON.
6 6 38 6.57 t
4 640 13.91
2 64! 17.94
0 6 44 1 1 .66
8 6 46 14.03
5 6 48 J5.t
5 6 50 14.63
3 653 "85
1 6 S4 '9-64
q 6 56 14.97
7 658 8.81
o 1.13
1 51.91
341.11
5 JSj:"
7 1470 +
85900
1041.60
II 32.46
>4 '-54
S 7 '5 38-81 1
3 28 30-0
3 ^7 54-
3 ^7 '5-6
3 36 33-9
3 25 49-&
325 3,8
3 M 139
3 ^3 »3-
1 >9 45-
l 18 48.4
I 17 514
t 16 54-3
I 15 57-6 8.
1 '5 M
1 14 6.0
1 13 "-7
1 13 18.9
19-35 33 1
48.79
3 7 J3 '6.30
□ 7344
8 7 36 5.06
5 7 !7 '6.3
2 7 3fl45-'6
o]730
16.30
4 7 3J 38.41
73338.17
9 7 34 45-33
6 7 35 504s
3 7 36 5^.88
7 37 5^.79
7 73850.13 33
4 7 39 44-85 I ^3
I 74036.901+13
8 741 36.35 23
5 743 13.85 1 33
1 7 42 56-63 1 33
8 7 43 37 55 ; =3
5 34-8 1
5 J9-6 I
530.' '
5 36.7 1
5 49-6 I
7 49-5 '
8 37-7 >
9 33-8 I
Utu
M
Time
:^'
^^^
Her.
1
b m
b m i
. , „
~
6
16 2I 7 44 50-58
♦23 "50.5 11.'
64
046
7
1558:74533-57
I3i3ii-6|ii.3
64
046
8
'5 35
7 45 51.48
33'44'.5i'.3
6-5
047
9
'5 51
7 46 1735
33 1610411.3
6-5
047
0
'5 48
7 46 3983
1318 8.411.4
6.6
048
■I
'5 44
7 46 59.14
*i3io 5.9," S
6.6
048
■3
'5 4° 7 47'5-'5
13 12 .1.9. '.6
6.7
04a
3
'5 37
7 47 17.80
13 14 19.5
11.7
6.7
049
4
1533
7 47 37.05
13 16 56.0
11.8
6.8
049
S
■529
7 47 42-84
33 39 33.2
11.9
6.8
049
36
15^5
7 47 45-»3
+33 33 18.2
13.0
6.9
0.50
37
1511
7 47 43-90
333514.1
13.1
6.9
o-so
18
'5 '7
7 47 39-11
33 38 19.7
11. 1
7.0
0-51
19
15 13
7 47 30-74
33 4' 35-3
11.3
7.0
0.51
30
'5 9
7 47 'fl-76
3345 0.3
■1-4
7-"
0.51
I
'5 5
7 47 3-'5
•■33 48 34-9
13-4
7-1 ■ 0.52
3
15 0
74643-89
13 52 18.8
12.5
7.3
0.51
3
1456
74630.98
33S6ii.»
13.6
7-3
0.51
4
1453
7 45 54.43
34 013-7
11.7
7-3
0-53
5
1448
7 45 34.30
14 434-1
1 3.8
7-3
0.53
6
1443
7 U 50.3'
»24 843.9
13.9
7-4
0.54
7
'4 38
7 44 >3.77
3413 9.5
13^
74
054
8
■4 34
74331.58
34 17 43.7
'3.0
7-5
0-55
9
1429
7 43 4678
14 2 3 25.0
■3-'
7.5 0-55
10
1434
7 41 58.38
24 27 13.9
■ 3-2
7-6 1 0.55
1430
7 4' 6-43
+3433 7.0
'3-3
7-61 0.56
13
14 15
7 40 10.95
3437 6.7
■3-*
7-7 j 0.56
13
14 10
7 39 11.97
3443 "4-
'3-4
7-7 '0-56
'4
'4 5
738 9.56
24 47 20.7
'35
7-7 j ■»-57
■5
14 0
7 37 3.78
14 52 33-9
'3-6
7-8 O.S7
16
■3 55
7 35 54-69
*14 57 503
■3-6
7-8 : 0.57
17
1350
7 34 42-35
25 3 9-3
13.7
7-8 i 0.57
18
13 44 7 33 36.86
25 830,1
13.8
7.9 0.57
19
'3 3*7 33 8.33
351352.1
'3.8
7.9 0,57
30
'3 34; 7 30 4685
15 '9 '4-4
■3-9
7-9 0.58
'339
7 39 31.55
•^35 34 36,1
'3-9
8.0 0.58
12
1333
7 27 55.56
25 39 56.9
■3.9
8.0 0.58
n
13 '8
7 26 26.03
25 35 '5-6
i4J>
8.0 j 0.58
^
13"
7 3454"
254031-5
14.0
8.o|o.S9
35
■3 7 733 19.97
25 45 43-7
14.0
8.0 059
36*13 1 7 31 43.80
»2S50 5i.5
14.1' 8.1, 0.59
37 13 56' 7 30 5.79
25 55 54- 1
14.1 8.1 10.59
18 IJ 50; 7 18 36.14
26 050.7
14.1 8.1 |o.6o
19,1345 7 1645.06
16 5404
14.1' 8.1 a.6o
3o]i3 39 7 15 1.76
36 10 33.6
i4-i| 8.1 0.60
3' " 33 7 13 .9-45
t36 14 56.7
14.1 8.1 11x60
33
13 38
7 "1 35.34
►36 19 11.1
14.1
g.1
a6o
SteUar nucnllude ■
JUPITER, 1913. 551
FOR TRANSIT AT WASHINGTON.
[Bph ijl
552
JUPITER, 1913.
FOR TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Tran-
sit.
Apparent
Richt
Aacennon.
h m
July I
12 20
2
12 15
3
12 II
X
4
12 6
•
5
12 2
6
"57
7
"53
8
II 48
9
II 44
lO
"39
II
" 35
12
1130
13
II 26
14
II 21
15
II 17
i6
II 12
17
II 8
i8
II 4
19
1059
20
1055
21
1050
22
1046
23
10 41
24
1037
25
1032
26
1028
27
10 24
28
10 19
29
10 15
30
10 1 1
31
10 6
Aug. I
10 2
2
958
3
9 53
4
9 49
5
9 45
6
940
7
936
8
932
9
927
10
923
II
9 19
12
9 15
13
9 10
14
9 6
X5
9 2
16
858
Apmamtat
Dectiaation.
Hot.
Par.
B
•a
B
22 ^
225351.4 2.
22 54 44.9 2.
22
h m 8 o / //
[85811.40-2252 3.2,2
8 57 38.35 22 52 57.5 2
t8 57 523
t8 56 32.07
[8 55 58.88
^855 25.70-22
185452.54 22
[854 19.44 22
85346.42 22
^853 13.51 22
[8 52 40.72 -23
[852 8.07 23
^851 35.60 23
[851 3.32 23
[85031.24 23
//
[8 49 59.40-23
[84927.81 23
[84856.51 23
[84825.52 23
[84754.84 23
[84724.49-23
[84654.49 23
[84624.88 23
'84555.67 23
[8 45 26.88 23
f8 44 58.53 -23
[84430.64 23
844 3.23 23
184336.32 23
843 9-9-2 23
[84244.06-23
[8 42 18.75 23
18 41 54.01 23
[8 41 29.87 23
[841 6.34 23
[84043.42-23
[84021.13 23
183959.50 23
83938.53 23
[8 39 18.24 23
[83858.64-23
183839.73 23
183821.53 23
[838 4.04 23
[83747.28 23
183731.25-23
t8 37 15.971-23
55 38.0
56 30.5
57 22.6
58 14.2
59 5-3
59 55-8
045.7
135.0
223.5
3 ".3
358.4
444.8
530.4
6 15.2
659.2
742.4
824.7
9 6.3
947.2
10 27.2
11 6.3
"44.5
12 21.9
1258.4
13340
14 8.8
1442.7
15 15.7
15 47.8
16 19. 1
1649.5
17 19.1
17 47.7
18 15.4
18 42.3
19 8.3
19 33.4
19 57.6
20 20.9
20 43-4
21 50
21 25.8
21 45.8
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.
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
'I
//
22.5
22.5
22.5
22.5
22.5
22.5
22.5
22.5
22.5
22.5
22.5
22.5
22.5
22.5
22.5
22.5
22.4
22.4
22.4
22.4,
22.4
22.4
22.4
22.3
22.3
22.3
22.2
22.2
22.2
22.2
22.1
22.1
22.1
22.1
22.0
21.9
21.9
21.8
21.7
21.7
21.7
21.6
21.6
21.5
21.5
21.4
21.4
74
74
74
74
74
74
74
74
74
74
74
74
74
74
74
74
74
73
73
73
73
73
72
72
72
72
71
71
71
71
71
70
70
70
69
69
69
69
68
68
68
67
67
66
66
65
64
Date.
Mean
Time Apparent
of Riffbt
Tran-' Aacenrion.
sit. I
Aug. 1 6
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
Sept. I
2
3
4
5
6
7
8
9
10
II
12
13
14
»5
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
Oct I
h m
858
854
850
845
841
837
833
8 29
825
821
817
813
8 9
8 5
8 I
57
53
49
45
41
37
33
29
25
21
18
14
K)
6
2
658
655
651
647
644
640
636
632
6 29
625
6 21
6 18
6 14
6 10
6 7
6 3
6 o
h m s ^
837 15.97-23
837 1.44 23
83647.66 23
83634.64 23
83622.39 23
8 36 10.93 -23
836 0.25 23
83550.37 23
83541.28 23
83532.99 23
83525.51-23
8 35 18.84 23
835 12.99 23
835 7.96 23
835 376 23
835 0.39
Apparaat
Declioation
ff
Hot.
Par.
B
.2
B
83457.84 23
83456.11 23
83455.22 23
83455.17 23
83455.96-23
83457.58 23
835 0.04 23
835 3.32 23
835 7.42 23
835 12.34-23
8 35 18.09 23
8 35 24.65 23
8 35 32.03 23
83540.23 23
83549.23-23
83559.03 23
836 9.63 23
83621.03 23
83633.23 23
8 36 46.22 -23
83659.99 23
8 37 14.55 23
8 37 29.90 23
83746.02 23
838 2.92-23
83820.58 23
83839.00 23
83858.18 23
83918.11 23
83938.79-23
840 0.22I-23
-23
21 45.8
22 5.0
22 23.4
22 40.9
22 57.7
23 13.8
23 29.1
23 43.6
23 57-3
24 10.2
24 22.3
24 33.7
2444.3
2454.1
25 3.2
25 1 1. 6
25 19.2
25 26.0
25 32.1
25 37.4
25 41.9
25 45.7
25 48.8
25 51. 1
25 52.7
25 53.5
25 53.6
25 53.0
25 51.6
25 49.4
25 46.5
25 42.8
25 38.3
25 33.0
25 27.0
25 20.2
25 12.5
25 4.1
24 54.9
2444.9
2434.0
24 22.2
24 9.6
2356.1
23 41.7
23 26.5
23 10-4
2.0
o
o
o
o
21.4
21.3
21.3
21.2
21.2
He
toft*
21. 1
21. 1
2I.O|
21.0
o 20.9
20.8
20.8
20.7
20.7
20.6
20.6
20.5
9 20.5
20.4
20w^
20.3
20.2
20.1
20.1
20.01
I
9
9i
9
9
9
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
7
19.91
19.9
19.8
19.7
19.7
19.6
19.6
19.5
19.5
19.41
19.3
19.3
19.2
19.1
19.1
19.0
19.0
18.9
18.8
18.8
18.7
18.7
a
.64
64
.64
.63
1.63
.63
.63
62
.62
.62
.61
.60
.60
•59
.59
.58
.58
1-57
.57
.57
56
.56
.56
•55
•55
.54
.54
.54
.53
•53
•52
.52
•51
-51
.50
1.50
.49
149
•48
1.48
47
■47
.47
[46
46
45
1.45
Stellar magnitude at opposition, in July. 1913. —a.a.
(Bph 13]
8ATUKN, 1913. 658
FOR TRANSIT AT WASHINGTON,
554
SATURN, 1913.
FOR TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Tran-
sit.
h m
Apparent
Right
Ascension.
Apparent
Declination.
Hor.
Par.
•
a
•9
1
1
11
S.T.ofSem.
Pass. Mer.
Date.
Mean
Time
of
Tran-
sit.
Apparent
Right
Ascension.
1
Apparent
Declination.
Hor
Par.
II
•
1
II
05 ft*
h
m 8
<
» / //
s
h m
h m s
0 1 II
8
Oct. I
1627
5
9 12.55
+2]
I 13 54.9
I.O
8.9
0.70
Nov. 16
13 18
5 I 6.84
+21 0 19.9
9-5
0.75
2
1623
5
9 11.65
21
I 13 47.4
I.O
90
0.70
17
13 14
5 048.10
20 59 53.5
95
0.75
3
16 19
5
9 10.28
2]
f 13 39.5
1.0
9.0
0.71
18
13 10
5 029.13
20 59 26.9
9.6
0.75
4
16 15
5
9 845
21
t 13 31. 1
I.O
90
0.71
19
13 6
5 0 9.95
2059 0.1
9.6
0.75
5
16 II
5
9 6.14
2]
t 13 22.1
I.O
9.0
0.71
20
13 I
4 59 50.58
205833.1
I.I 9.6
0.75
6
16 7
5
9 3.36
+2)
[ 13 12.6
I.O
9.0
0.71
21
1257
45931.02
+2058 5.8
9.6
075
7
16 3
5
9 0.12
21
[ 13 2.7
I.O
9.0
0.71
22
1253
4 59 11.27
20 57 38.3
9.6
0.75
8
1559
5
8 56.41
21
I 12 52.3
1.0
9.1
0.71
23
1249
45851.36
20 57 10.7
9.6
0.75
9
1555
5
8 52.23
21
[ 12 41.3
1.0
9.1
0.71
24
1244
45831.29
20 56 43.0
9.6
0.75
lO
15 51
5
847.60
21
[ 12 29.8
I.O
9.1
0.71
25
12 40
458 11.07
20 56 15.2
9.6
0.75
II
1547
5
8 42.52
+21
t 12 17.9
I.O
9.1
0.71
26
1236
4 57 50.71
+20 55 47.2
9.6
0.75
12
1543
5
836.98
21
I 12 5.5
I.O
9.1
0.71
27
12 31
4 57 30.23
2055 19.1
9.6
0.75
13
1539
5
830.98
21
[ II 52.6
I.O
9.1
0.72
28
12 27
4 57 964
205451.0
9.6
0.75
14
1535
5
8 24.53
21
I II 39.2
I.O
9.2
0.72
29
12 23
4 56 48.95
20 54 22.8
9.6
0.75
15
15 31
5
8 17.63
21
I " 25.3
I.O
9.2
0.72
30
12 19
45628.17
20 53 54.5
9.6
0.75
i6
15 27
5
8 10.28
+21
[ II 10.9
I.O
9.2
0.72
Dec. I
12 14
456 7.33
+20 53 26.2
9.6
0.75
17
15 23
5
8 2.49
21
[ 1056.0
I.O
9.2
0.72
2
12 10
4 55 4643
20 52 57-9
9-6 0.75
i8
15 19
5
754.26
21
[ 1040.7
I.O
9.2
0.72
3
12 6
4 55 25.47
20 52 29.7
9.6
0.75
19
15 15
5
7 45.59
21
[ 10 24.9
I.O
9.2
0.72
4
12 I
4 55 4.47
2052 1.5
9.6
0.75
20
15 "
5
7 36.49
21
t 10 8.7
I.O
9.2
0.72
5
II 57
4 54 43.46
2051 33.2
9.6
0.75
21
15 7
5
7 26.95
+21
i 952.0
I.I
9.3
0.73
6
1153
4 54 22.44
+2051 5.0
9.6
0.75
22
15 3
5
716.99
21
f 934.9
I.I
9.3
0.73
7
II 49
4 54 1.42
20 50 36.8
9.6
0.75
23
1459
5
7 6.61
21
I 9 17.3
I.I
9-3
0.73
8
II 44
4 53 4041
2050 8.8
9.6
0.75
24
1454
5
6 55.81
21
I 859.3
I.I 9.3
0.73
9
II 40
4 53 19.43
20 49 40.9
9.6
0.75
25
1450
5
644.59
21
[ 840.9
I.I 9.3
0.73
10
II 36
4 52 58.48
2049 13.1
9.6
0.75
26
1446
5
632.96
+21
[ 822.1
1.1,9 3
0.73
II
II 32
4 52 37.58
+20 48 45.5
9.6
0.75
27
1442
5
6 20.92
21
[ 8 2.8
I.I 9.3
0.73
12 II 27
4 52 16.73
2048 18.1
9.6
0.75
28
1438
5
6 8.49
21
I 743.0
I.I 93
0.73
13
II 23
45155.96
20 47 50.8
9.6
0.75
29
1434
5
5 55.67
21
[ 722.9
I.I 9.4
0.73
14
II 19
45135.27
20 47 23.7
9.6
0.75
30
1430
5
5 42.46
21
[ 7 2.4
I.I 9.4
1
0.73
15
II 14
4 51 14.67
20 46 56.8
9.6
0.75
31
1426
5
5 28.88
+ 21
[ 641.5
I.I 9.4
0.73
16
II 10
45054.18
+20 46 30.2
9.6
0.75
Nov. I
14 21
5
5 14.93
21
[ 6 20.2
I.I 9.4
0.74
17
II 6
4 50 33.81
2046 3.9
9.6
0.75
2
14 17
5
5 0.61
21
' 558.6
I.I 9.4
0.74
18
II 2
4 50 13.56
20 45 37.8
9.6
0.75
3
'4 13
5
4 45-95
21
1 536.5
I.I 9-4 0.74
19
1057
4 49 53-44
2045 12.0
9.6
0.75
4
14 9
5
430.94
21
I 5 14.1
I.I 9-4
0.74
20
1053
4 49 33-47
20 44 46.6
9.6
0.75
5
14 5
5
4 15.58
+21
' 451.4
II 9.4
0.74
21 1049
4 49 1367
+204421.5
9.6
0.75
6
14 0
5
359.89
21
[ 4 28.2
I.I 9.410.74
22[l0 44
4 48 54.04
20 43 56.7
9.6
0.75
7*1356
5
34389
21
f 4 4.7
1. 1 9.5 0.74
23 1040
4 48 34.60
20 43 32.3
9.6
0.75
8 1352
5
3 27.58
21
I 340.9
I.I 95
0.74
24
1036
4 48 15.35
2043 8.3
9.6
0.75
9 1348
5
3 10.96; 2]
I 3 16.8
I.I
9.5
0.74
25
1032
4 47 56.31
20 42 44.8
T f
9.6
0.75
10 1344
5
254.05+21
I 252.4
II. 9.5
0.74
26
10 28
4 47 37 49
+2042 21.7
9.6
0.75
" 1339
5
2 36.85' 21
[ 227.7
II; 9-5
0.74
27 10 23
4 47 18.90
2041 59.1
9-5
0.75
12 13 35
5
2 19.371 21
[ 2 2.7
II 9-5
0.74
28 10 19
4 47 0.55
20 41 37.0
9-5
0.74
13 13 31
5
2 1.62 21
I 137.4
-.1J9.5
0.75
29 10 15
4 46 42.45
20 41 15.4
9-5
0.74
14 1327
5
I 43.60 21
[ I 11.8
I.I '95 0.75
30
10 II
4 46 24.62
20 40 54.4
9-5
0.74
15 13 22
5
1 25.34 +2]
I 046.0
III 9.5
0.75
31
10 6
446 7.06
+20 40 33.9
95
0.74
16 13 18I5
I 6.84
+21
I 019.9
I.I
9.5
0.75
32
10 2
4 45 49.78
+2040 14.1
9-5
0.74
Stellar magnitude at opposition, in December. 1913, -o.a.
lEph 13I
TJEANTI8, 1913. 555
FOR TRANSIT AT WASHINGTON.
556 URANUS, 1913.
FOR TIUNSIT AT WASHINGTON.
NEPTUNE, 1913. 667
FOR TRANSIT AT WASHINGTON.
568 NEPTUNE, 1913.
FOR TRANSIT AT WASHINGTON.
PART III.
PHENOMENA.
[Eph 13] 559
560
ECLIPSES, 1913.
In the year 191 3 there will be five eclipses, three of the Sun and two of the
Moon.
I. — A Total Eclipse of the Moon, 191 3, March 21-22, partly visible at Wash«
ington, the Moon setting eclipsed; the beginning visible generally in North America,
western South America, throughout the Pacific Ocean, Australia, and the eastern
border of Asia; the ending visible generally in western North America, the Pacific
Ocean, Australia, central and eastern Asia.
ELEMENTS OF THE ECLIPSE,
d h m s
Greenwich mean time of ^ in right ascension, March 21 23 47 57.7
Hourly motion
Hourly motion
h m s
Sun's right ascension o 4 37.49
Moon's right ascension 12 4 37.49
O f tt
Sun's declination o 30 5.7 N. Hourly motion
Moon's declination o 18 26.1 S. Hourly motion
Sun's equa. hor. parallax 8.8 Sun's true semidiameter
Moon's equa. hor. parallax 60 58.9 Moon's true semidiameter
Moon enters penumbra
Moon enters shadow
Total eclipse begins
Middle of the eclipse
Total eclipse ends
Moon leaves shadow
Moon leaves penumbra
CIRCUMSTANCES OF THE ECLIPSE,
d h
21
22
s
9.10
]
[32.19
/
//
0
59-2 N. i
18
7-3 S.\
16
2.8
16
362
March 21
21
21
21
22
22
22
23
23
o
I
2
Greenwich Mean Time.
Contacts of Shadow
with Moon's limb.
First
Last
Angles of position
from the north point.
128 to E.
70 to W.
m
16.3
12.6
10.9
57.6
44.4
42.6
38.9
The Moon being in the irnitli
in longitude ,
from Greenwich. and in Istitiub
152 II w.
157 6 E.
o 10 N.
o 53 S.
Magnitude of the eclipse= 1.575 (Moon's diameter«= i.o).
II. — A Partial Eclipse of the Sun, 1913, April 6, invisible at Washington.
ELEMENTS OF THE ECLIPSE.
d h m s
Greenwich mean time of 6 in right ascension, April 6 6 54 57.9
h m s SI
Sun and Moon's R. A. i 018.70 Hourly motion 9.14 and 109.32
O f tf t I'
Sun's declination 6 26 20.3 N. Hourly motion o 56.7 N.
Moon's declination 7 47 54.8 N. Hourly motion 14 14.0 N.
Sun's equa. hor. parallax 8.8 Sun's true semidiameter 15 58.5
Moon's equa. hor. parallax 54 51.4 Moon's true semidiameter 14 56.2
CIRCUMSTANCES OF THE ECLIPSE.
Greenwich Mean
Time.
J 1.
Longitude from
Greenwich.
0 0
Latitude
Eclipse begins
Greatest eclipse
Eclipse ends
d h m
April 6 3 53.9
6 5 32.9
6 7 II. 2
151 24.1 w.
175 32.3 E.
37 49.1 E.
28 59.0 N.
61 20.5 N.
82 9.3 N.
Magnitude of greatest eclipse = 0.424 (Sun's diameter*- 1.0).
ECLIPSES, 1913.
561
III. — A Partial Eclipse of the Sun, 1913, August 31, invisible at Washington.
ELEMENTS OF THE ECLIPSE,
d h m 8
Greenwich mean time of 6 in right ascension, August 31 7 34 56.7
h m s s s
Sun and Moon's R. A. 10 37 45.36 Hourly motion 9.09 and 137.98
//
tf
Sun's declination 8 39 48.0 N.
Moon's declination 10 19 39.3 N,
Sun's equa. bor. parallax 8.7
Moon's equa.bpr. parallax 6 1 17.3
Hourly motion
Hourly motion
Sun's true semidiameter
Moon's true semidiameter
o 54.1 S.
17 14.2 S.
16 41.2
CIRCUMSTANCES OF THE ECLIPSE.
Krlipse begins
Greatest eclipse
Eclipse ends
Greenwich Mean
Time.
d h
m
August 31 8 2.5
31 8 52.0
31 9 42.0
Longitude from
Greenwich.
13 1 6.0 E.
26 36.2 W.
47 50 W.
Latitude.
o /
77 36.3 N.
61 36.5 N.
43 44.5 N.
Magnitude of greatest ecUpse = 0.151 (Sun's diameter «i.o)
IV, — A Total Eclipse of the Moon, 1913, September 14-15, the moon setting
at Wasbil^on as the eclipse begins; the beginning visible generally in North
Anieri|:a excepting the extreme northern portions, the Pacific Ocean, Australia,
and eastern A^sia; the ending visible generally in Alaska, the Pacific Ocean except-
ing the eastern portions, Australia, and Asia,
ELEMENTS OF THE ECLIPSE.
d
Greenwich mean time of S in right ascension, September 15
h m t
o 34 9.4
m
Sun's right ascension ii 3047.50
Moon's right ascension 23 30 47.50
Hourly motion
Hourly motion
8*97
104.22
//
tf
Sun's decUnation 3 9 22.0 N. Hourly motion
Moon's declination 3 22 23.2 S. Hourly motion
Sun's equa. hor. parallax 8.8 Sun's true semidiameter
Moon's equa. hor. parallax 53 58.2 Moon's true semidiameter
CIRCUMSTANCES OF THE ECLIPSE.
d h m
September
o 57.7 S.
14 8.8 N.
15 54-6
14 41.7
Moon enters penumbra
Moon enters shadow
Total eclipse begins
Middle of the eclipse
Total eclipse ends
Moon leaves shadow
Moon leaves penumbra
14 21 39.9
14 22 52.5
15 o i.o
0 48.1
1 35.2
2 43.6
3 56.3
15
15
15
15
Greenwich Mean Time.
Contacts of Shadow
with Moon's limb.
First
Last
Angles of position
from the north point.
49 to E.
107 to W.
The Moon being in the zenith
in longitude
from Greenwich. and in latitude.
164 58 w.
138 46 E.
3 46 S.
2 52 S.
1913
Magnitude of the eclipse = 1.435 (Moon's diameter = i.o).
-36 l^p^ »3l
562 ECLIPSES, 1913.
V. — A Partial Eclipse of the Sun, 1913, September 29, invisible at Washington, f
ELEMENTS OF THE ECLIPSE.
d h m s
Greenwich mean time of 6 in right ascension, September 29 17 48 lAt
h m s
Sun and Moon's R. A . 12 23 43.00
Hourly motions 9.04 and 134.16
//
//
Sun's declination 2 33 57.9 S. Hourly motion o 584 SL
Moon's declination 3 50 48.1 S. Hourly motion 18 9.0 S.
Sun's equa. hor. parallax 8.8 Sun's true semidiameter 15 58.5 j|
Moon's equa. hor. parallax 61 17.6 Moon's true semidiameter 16 41.3 j
CIRCUMSTANCES OF THE ECLIPSE.
Greenwich Mean
Longitude from
1
Time.
Greenwich.
latitude.
d h m
0 /
0 /
,
29 14 55-6
42 54.0 E.
17 5-2
&
29 16 45.6
II 31.2 E.
61 12.6
s.
29 18 35.2
178 12.4 E.
74 41.3
&:
Eclipse begins September
Greatest eclipse
Eclipse ends
Magnitude of greatest eclipse = 0.825 (Sun's diameter = i.o).
The regions within which the eclipses of the Sun are visible are laid down
the accompanying charts, from which, by means of the dotted lines, the Greenwk
mean times of beginning and ending at any place may be found with an tu
tainty which will vary from three or four minutes for a high Sun to fifteen
twenty minutes when the Sun is near the horizon.
(RphisJ
t
PARTIAL ECLIPSE <
Note-!' 77?& /?oars of Am^jhfT^hff c^ncf i
I-HE SUN APR. 6. 1913.
' exprvssee^ /^ Gnffsnv^/cA Mean Turte
ECLIPSES, 1913.
563
IN ELEMENTS OF THE PARTIAL ECLIPSE OF THE SUN, 1913,
APRIL 6.
Coordinates of Center
«
Radius of
of Shadow on
Fundamental Plane.
Direction of Axis of Shadow.
A CIIUIIILIAK VU
Fundamental
Plane.
s
y
Log sin d
Log cosd
fi
/
-1.39776
+0.74291
+9.04638
+9.99729
0 /
56 51.6
+0.56517
-1.32222
+0.78338
+9.04655
+9.99729
59 21.6
+0.56516
1.24668
0.82386
9.04672
9.99729
6]
t 51.7
0.56515
I.I7II3
0.86433
9.04690
9.99729
64 21.7
0.56514
I 09558
0.90479
9.04707
9.99729
66 51.8
0.56513
1 .02003
0.94526
9.04724
9.99728
69 21.8
0.56512
0.94447
0.98571
9.04741
9.99728
71
t 51.8
0.5651 1
-0.86891
+I.02617
+9.04758
+9.99728
74 21.9
+0.56510
0.79334
1.06662
9.04775
9.99728
76 51.9
0.56508
0.71777
1. 10706
9.04792
9 99728
79 22.0
0.56507
0.64220
1.14751
9.04809
9.99727
81
t 52.0
0.56506
0.56663
1. 18794
9.04826
9.99727
84 22.0 1
0.56504
0.49105
1.22838
9.04843
9.99727
8e
) 52.1
0.56503
-0.41547
+1. 26881
+9.04860
+9.99727
89 22.1
+0.56501
0.33988
1.30924
9.04877
9.99726
91
52.2
0.56500
0.26430
1.34966
9.04894
9.99726
9A
. 22.2
0.56498
O.I 887 1
1.39007
9.0491 1
9.99726
9t
) 52.2
0.56496
O.II312
1 .43048
9.04928
9.99726
9S
) 22.3
0.56495
-0.03753
1.47089
904945
9.99726
lOl
52.3
0.56493
+0.03806
+I.51129
+9.04962
+9.99725
104 22.4
+0.56491
O.I 1 366
1.55169
9.04979
9.99725
loe
> 52.4
0.56489
+0.18926
+1.59208
+9.04995
+9.99725
109 22.4
+0.56487
1
Log Tangent of Angle
of Cone.
Log x' for I M
inute. i Log y' for i Minute.
Log fi' for I Mil
lute.
7.6074
Penumbra.
+7. 878c
)
+'
+ I.I762
+7.66942
7.8782
1
7.6072
1. 1 762
7.66941
7.8783
7.6069
1. 1 762
7.66941
7.8784
»
7.6067
1. 1762
7.66940
7.8785
7.6064
1. 1762
7.66940
+7.8785
►
+:
7.6061
+I.I762
+7.
66939
[Eph i3]
564
ECLIPSES, 1913.
BESSELIAN ELEMENTS OF THE PARTIAL ECLIPSE OF THE SUN, 1913,
AUGUST 31.
Coordinates of Center
Radrasof
^A t #
Direction of Axis off Sludow. 1
PcMmfaBa OS
Qnmumkh
IfMua
Fundamental Plane.
B&j!!
Time.
X
y
Lof sin^
Log cos </
/>
/
b m
0 /
8 0
+0.21650
+I.53137
+9. 1 774 1
+9.99503
119 55.9
+0.53205
10
0.30290
1. 4768 1
9.17729
9.99503
122 26.0
0.53205
30
0.38930
1.43224
9.17717
999503
124 56.0
0.53205
30
0.47570
1.38766
9.17705
9.99504
127 26.0
0.53205
40
0.56210
1.34308
9.17693
9.99504
129 56.1
0.53204
50
0.64850
1.29849
9. 1 768 1
9.99504
132 26.1
0.53204
9 0
+0.73489
+1.25389
+9.17669
+9.99504
134 56.2
+0.53204
10
0.82128
1.20928
9.17657
9.99505
137 26.2
0.53203
20
0.90766
1. 16467
9.17645
9.99505
139 56.3
0.53203
30
0.99404
1. 12005
9.17633
9.99505
142 26.3
0.53202
40
1.08042
1.07543
9.17621
9.99506
144 56.4
0.53201
50
+ 1.16679
+1.03079
+9.17609
+9.99506
147 26.4
+0.53200
Log Taagent of Angle
Greennnch
of Cone.
Mean
Log s' for I M
inute.
Log y' for i Minute.
Log |i' for z Minute.
Time.
Pcmmbta.
h m
8 0
+7.936"
-7.6489
+ 1.1762
+7.66586
9 0
7.936^
^
7.6493
1.1762
7.66586
10 0
+7.936;]
\
—
7.6497
+ 1.1762
+7.66586
(Bph ij]
PARTIAL ECLIPSE
Note^ 7~hc hours of b^^inrtin^ errr^ *<
PARTIAL ECLIPSE O
Nofie-h 7h^ houra of h^^'nnkT^ ^th^
HE SUN SEPT. 29, 1913.
It ■S'd.^^^lwct, '
1" j' —
/ \. /
\___ '
^
^^si o c
\
^p\
<
^JT/ ■''
\ ' \ *
\ \ '"'
^ / v^ / /
\<
Artr
\ V' A'^
7^0/ \ /\
/ ^p^ \ / ^
/VsA / "^
/ / ^VX, li"
//Px^P\\i^^^^
°xK<3j--Ar\_i^'-C\ ■"]
/vl^ Tl\ 1
"^
s^"^>
/ — ^ ^
r J:>Ki:i>^
^ — "^ -Si- '^ — "/
^ — f~^
•a
..<<^^^-rr-i^-^j
if of » Gr..r,ui;ch -■«.. -■■•■ II
7 c?/Tr axpnessec^ tn GrwsniA/ich Mearr 77/rrt^
ECLIPSES, 1913.
565
lESSELIAN ELEMENTS OF THE PARTIAL ECLIPSE OF THE SUN, 1913,
«
SI
SPTEMBEK
. 29.
Gimiwich
Mean
Coordinates of Center
of Shadow on
Fundamental Plane.
Direction of Axis of Shadow.
Radius of
Penumbra on
Fundamental
Plane.
rime.
X
y
Log sin d
Log cos </
ft
/
b m
H 50
-I. 51422
-0.4221 1
-8.64261
+9.99958
f
22i^
^ 55.7
+0.53401
»5 0
-I.42919
-0.46901
-8.64305
+9.99958
227
' 25.8
•H>.53402
10
I. 34416
0.5 1 591
8.64350
9.99958
229
> 55.8
0.53403
20
I.259I3
0.56280
8.64394
9.99958
232
'' 25.9
0.53404
30
1. 17409
0.60969
8.64439
9.99958
23^
^ 55.9
0.53405
40
1.08904
0.65658
8.64483
9.99958
237
' 26.0
0.53406
50
1.00399
0.70346
•
8.64528
9.99958
239
} 56.0
0.53407
16 0
—0.91894
-0.75034
-8.64572
+9.99957
242
26.1
+0.53408
10
0.83389
0.79722
8.64616
9.99957
24^
[ 56.1
0.53409
20
0.74883
0.84409
8.64661
9.99957
247
' 26.2
0.53410
30
0.66378
0.89096
8.64705
999957
24s
} 56.2
0.53410
40
0.57871
0.93783
8.64749
9.99957
252
*• 26.3
0.5341 1
50
0.49365
0.98469
8.64793
9.99957
25^
^ 56.3
0.53411
17 0
-0.40858
-1.03155
-8.64837
+9.99957
257
' 26.4
+0.53412
10
0.32352
1.07840
8.64881
9.99957
25s
> 56.4
0.53412
20
0.23845
1. 12525
8.64925
9.99957
262
i 26.4
0.53413
30
0.15338
1. 17209
8.64969
9.99957
264 56.5 1
0.53413
40
-0.06831
1. 21893
8.65013
9.99957
267
' 26.5
0.53413
50
+0.01676
1.26577
8.65057
9.99957
269 56.6
0.53413
18 0
+O.IOI83
-1. 31260
-8.65IOI
+9.99956
272
1 26.6
+0.53413
10
0.18690
1.35943
8.65145
9.99956
274
[ 56.7
0.53413
20
0.27197
1.40625
8.65188
999956
277
' 26.7
0.53413
30
0.35704
145307
8.65232
9.99956
279 56.8
0.53413
40
+0.442 1 1
-1.49988
-8.65276
+9.99956
282
J 26.8
+0.53412
i
Log Tangent of Angle
ifeenwich
of Cone.
Mean
Log X' for I M
inute.
Logy'
for I Minute.
Log ft' for I Mi
nute.
Time.
Penumbra.
h m
•
14 0
+7.929/!
—
7.6713
+I.1762
+7.66926
J5 0
7.929^
7.6712
1. 1762
7.66927
16 0
7.9295
7.6710
1. 1762
7.66927
17 0
7.929^
7.6708
1.1762
7.66928
18 0
7.929^
7.6705
1. 1762
7.66928
19 0
+7.929^
—
7.6702
+ I.I762
+7.
66929
lEph J 3]
566 STARS OCCULTED BY THE MOON, 1913.
MEAN PLACES FOR 1913.0. (January 0^.248, Washington.)
Name of Star.
Magni-
tude.
80 B. Pisciura
98 B. Piscium
44 Piscium
60 Piscium
62 Piscium
147 B. Piscium
o Piscium
171 B. Piscium
e Piscium
jr Piscium
20 H.* Arietis
19 Arietis
26 Arietis
27 Arietis
/i Arietis
40
47
e
c
r
66
7
II
16
17
18
20
21
22
23
V
104 B.
27
28
14
H
36
p
0
X
5
B
17
B
38
B
47
B
354
B
73
B
22
P
107
B
116
B
406
B
136
154
B
415
B
Arietis
Arietis
Arietis (mean)
Arietis
Arietis
Arietis
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Aurigae
Aurigae
Aurigae
Aurieae
Tauri
Aurigae
Aurieae
Taun
Aurigae
Aurigae
Tauri
Tauri
Aurigae
Taun
6.3
6.3
6.0
6.2
6.1
5.9
4.6
6.3
4-4
5.6
6.4
5.8
6.2
6.4
5.7
6.0
5.8
4.6
5.0
5-2
6.1
5-9
6.1
5-4
3-8
5.6
4.3
41
5.8
6.5
4-3
3.0
5-5
3-7
52
5-3
5.6
5.6
50
5-3
5-7
6.0
6.5
6.0
6.4
5.8
6.4
1.8
6.5
5.9
5.6
4.6
6.4
6.1
Right Ascension.
h m s
o o 36.204
o 13 19-533
o 20 56.538
o 42 53-577
o 43 46.490
o 43 48.993
o 44 10.031
o 55 18.971
0 58 25.585
1 32 29.044
2 4 36.174
2 8 18.423
2 25 45-474
2 26 4.705
2 37 27.466
2 43 39.248
2 53 6.248
2 54 14.034
3 9 53-856
3 16 12.091
3 23 21 265
3 29 17.310
3 35 34-355
3 39 37.716
3 39 42-370
3 39 58.056
3 40 1.534
3 40 38.815
3 40 43.286
3 40 51-730
3 41 9.571
3 42 18.596
3 43 11.596
3 43 59 164
3 44 0.447
3 45 4936
3 59 9.307
4 5 31.781
4 15 0.019
4 17 17.163
4 35 52.941
4 47 20.931
4 59 11-449
5 4 17102
5 15 31.438
5 15 40-574
5 17 52.199
5 20 47-470
5 30 27.878
5 33 46.348
5 45 29.087
5 47 51.568
5 51 2.174
5 55 32.512
lEph 13]
Annual
Proi>er Motion.
+0.0037
-Ho. 0051
—0.0014
+0.0010
+0.0070
+0.0483
+0.00SS
+0.0008
— O.OOS4
—0.0049
+0.0112
+0.0071
+0.0050
+o.ooa9
+0.0023.
+0.0030
+0.0160
—0.0009
—0.0019
+0.0023
+0.0006
+0.0013
+0.0014
+0.0009
+0.00x6
+0.0004
+0.0010
+0.00x6
+0.0012
+0.0006
I
+0.0016
+0.00x6
+0.0008
+0.0013
+0.0009
+0.0033
+0.000X
—0.0024
—0.0019
+0.0028
+0.0036
+0.0033
— O.OOOI
• • • •
—0.0027
+0.0004
+0.0017
+ 0.002S
—0.0013
+0.0012
—0.0013
+0.0013
• • • •
+ 0.0018
Declination.
Amnuil
Proper Motioi.
e / ff
- o 59 9.74
-f I 12 18.47
I 27 28.44
6 15 58.97
6 49 30.47
-f 4 50 1.06
7 6 42.47
6 o 50.88
7 25 19.06
II 41 48.48
-f 16 49 O.II
14 52 21.24
19 28 10.97
17 19 10.34
19 38 29.06
+ 17 55 1919
20 19 13.90
20 59 3463
20 43 21.42
20 50 2.59
-f-22 30 17.24
24 10 24.00
25 2 56.08
24 o 59.30
23 50 25.84
+24 34 1.57
24 II 42.67
24 5 47.89
24 17 1. 17
24 15 25.93
+23 40 40.76
23 50 12.62
23 9 16.73
23 47 17.28
23 52 17.91
+25 19 3.84
23 52 1.59
26 15 16.88
27 8 36.18
25 25 29.11
+28 26 49.66
27 45 983
27 34 31.05
27 55 17.55
27 52 11.83
+29 28 56.80
28 51 16.92
28 32 5.62
27 36 22.57
29 9 57.37
+27 56 3400
27 35 33.15
28 55 45.63
+27 34 7.20
—0.051
+0.011
-0.023
— Oioos
+0.008
—1. 131
-0044
—0 00$
+o.oa6
+0.034
-0.179
-o.o«r
-o.oaa
-0.089
-0.038
-0.019
-o.oto
-o.oS)
-o.«3S
-O.033
-.9.008
-0.049
-0-050
-0-038
'0.«34
-0.044
—0-046
-0.039
-0.050
-0.050
-0-«45
-0.048
-0.04<
-0.04a
-0.0*9
-0.047
-O.0J7
-0.075
. . •
-0.015
-0.01 «
-0.03 «
-0.177
-0.076
-o.oio
+0.011
-o.oao
. . •
-o.ooi
STARS OCCULTED BY THE MOON, 1913. 567
MEAN PLACES FOR 1913.0. (January o<'.248, Washington.)
Name of Star.
Magni-
tuoe.
Right Ascension.
Annual
Proper Motion.
Declination.
Annual
Proi>er Motion.
h m s
9
0 / //
tt
183 B.
Aurigse
6.3
6 0 49.197
• • • ■
+29 31 12.75
• • •
K
Aurigae
4.4
6 9 50.125
—0.0044
29 31 51.90
—0.263
211 B.
Aurigs
6.3
6 15 38.710
• • • •
29 34 52.49
. • •
49
Aurigse
5.1
6 29 43.354
— O.OOOI
28 5 27.44
— o.oa7
53
Aurigae
5.6
6 32 52.019
—0.00x9
29 3 35.26
— o.oaa
54
Aurigae
5.8
6 34 3971
— o.ooia
-I-28 20 26.83
-0.035
28
Geminorum
5.5
6 39 14.766
—O.OOOI
29 3 35.40
— o.oa6
47
Geminorum
5.6
7 5 59.431
— O.OOII
27 0 1.08
—0.051
53
Geminorum
5.9
7 10 31.268
—0.0008
28 2 58.68
—0.002
134 B.
Geminorum
6.5
7 " 40.155
+0.0058
26 50 49-34
-0.134
59
Geminorum
5-7
7 19 8.755
+0.0010
-f-27 48 25.05
+0.019
X
Geminorum
3.9
7 20 19.517
—0.0086
27 58 18.72
—0.088
6»
Geminorum
5.0
7 23 55.346
—0.003 a
28 17 53.83
—0.063
fc»
Geminorum
5.0
7 24 24.198
—0.0019
28 5 47.05
—0.030
V
Geminorum
4.3
7 30 33.838
—0.0016
27 5 23.75
—0.109
c
Geminorum
5.5
7 38 48.611
—0.0017
+25 59 30.50
—0.028
K
Geminorum
3.7
7 39 11.869
—0.0014
24 36 26.61
—0.060
4>
Geminorum
5.0
7 48 10.529
—0.0020
26 59 30.75
—0.027
00
Cancri
5.9
7 55 40.139
+0.0003
25 37 54.27
—0.004
5 B.
Cancri
6.4
7 55 49.251
—0.0003
23 49 22.38
-0.047
4
Cancri
6.2
7 56 29.082
—o.ooia
+25 19 46.94
+0.007
^
Cancri
5.9
8 5 12.915
— o.ooss
25 46 19.80
-0.351
'r-
Cancri
6.4
8 8 32.572
—0.0017
23 24 0.66
—0.022
Cancri
5.9
8 15 21.931
— O.OOII
24 17 49.17
—0.028
28
Cancri
6.1
8 23 27.434
—0.0024
24 26 3.20
—0.07a
v»
C^incri
5.7
8 26 22.034
-0.0056
-1-24 22 30.33
—0.069
v^
Cancri
6.4
8 27 51-702
—0.0047
24 22 52.80
—0.068
r
Cancri
4.7
8 38 15.247
—0.0071
21 46 55.44
-0.043
90 H.
^ Cancri
6.1
9 8 39299
—0.0007
21 38 31.89
—0.013
8
Leonis
5-9
9 32 14.734
—0.0006
16 49 41.29
—0.015
107 B.
Leonis
6.3
10 0 57.911
—0.0023
-I-16 10 53.30
+0.017
34
Leonis
6.4
10 6 57.661
+0.0037
13 47 6.24
—0.036
37
Leonis
5-5
10 12 0.664
—0.0013
14 9 4531
—0.014
45
Leonis
5.8
xo 23 3.380
+0.001 1
10 12 22.66
—0.003 .
P
Leonis
3.8
lo 28 13.9*3
—0.0004
9 45 16.80
—0.003
I
Leonis
5-3
10 44 41.160
+0.0001
-|-ii 0 20.70
-0.033
56
Leonis
6.x
10 51 30.512
—0.0013
6 38 59.88
—0.008
c
Leonis
5.1
10 56 14.289
—0.0035
6 34 8.95
— o.oa5
X
Leonis
4.7
IX 0 31.820
-0.0234
7 48 24.05
—0.040
308 B.
Leonis
5.8
II 9 30.653
+0.0032
8 32 12.82
— o.ia5
6
Leonis
4.1
II 16 39.080
—0.0062
-|- 6 30 22.90
—0.013
80
Leonis
6.4
II 21 21.848
—0.0051
4 20 21.14
—0.050
83
Leonis
6.3
II 22 2^.079
—0.049a
3 29 15. II
+0.187
r
Leonis
5-2
II 23 27.813
+0.0008
3 20 7.91
—0.016
89
Leonis
5.7
II 29 54.838
— 0.0121
3 32 36.62
—0.104
2 ^•
Virginis
6.2
II 44 35090
—0.0148
+ 09 53.53
+0.007
/^
Virginis
3.8
II 46 9.810
+0.0494
2 15 18.30
-0.375
27 B.
Virginis
6.5
II 54 36.394
—0.0033
+ I 0 52.25
+0.033
31 B.
Virginis
6.4
II 56 34.536
—0.0006
- I 16 54.99
-0.075
13
Virginis
5-9
12 14 12.665
+0.0019
0 18 13.14
—0.021
162 B.
Virginis
6.2
12 23 23.694
—0.0062
— 48 2.24
—0.003
200 B.
Virginis
> •
6.3
12 27 10.290
—0.002a
4 34 21.77
+0.035
/
Virginis
» •
6.0
12 32 18.420
—0.0021
5 21 9.06
—0.027
319 B.
Virginis
1
6.3
12 43 3.564
—0.0003
- 5 49 32.70
-0.053
[Eph 13]
568 STARS OCCULTED BY THE MOON, 1913.
MEAN PLACES FOR 1913.0. (January 0^.248, Waahii^on.)
STARS OCCULTED BY THE MOON, 1913. 569
MEAN PLACES FOR 191 3.0. (January o**.248, Washington.)
Name of Star.
C. D.— 28
48 G. Sagittarii
6a B. Sagittarii
S Sagittarii
58 G. Sagittarii
<p Sagittarii
r Sagittarii
183 B. Sagittarii
201 B. Sagittarii
234 B. Sagittarii
348 B.. Sagittarii
k ' Se^ttarii
308 B. Sagittarii
00 Sagittarii
A Sagittarii
14268
36 B.
56 B.
20
»7
X
27
30
31
Capricorni
Capricomi
Capricorni
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
128 B. Capricomi
X Capricomi
45 Capricomi
d Capricomi
152 B. Capricomi
t
39
42
45
50
183
6
58
213
70
A
78
81
82
h
X
96
316
3»7
B.
B.
B.
B.
337 B.
342 B.
20
60 B.
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Piscium
Piscium
Magni-
tude.
6.4
63
6.0
2.8
6.1
33
35
6.2
59
5-9
57
4-7
6.3
4.8
4-9
62
6.3
5.8
62
4.8
5-3
6.1
5-3
5-4
6.3
6.5
3.8
5.8
30
6.5
4.4
6.2
5-5
6.1
5.9
6.2
4.9
6.4
6.5
6.1
3-8
6.3
64
6.4
5-4
4.4
5.3
5.7
6.5
6.3
6.4
6.5
56
6.0
Right Ascension.
h m s
18 6 26.389
18 XX 52946
18 II 53.410
18 15 25.460
18 16 29.911
18 40
19
19
19
19
I
2
7
19
13-269
30.582
2.327
52.213
4.806
19 24 29.395
19 31 24.846
19 49 5.288
19 50 30.7 «9
19 53 39-238
20 24 25.174
20 35 1.300
20 41 7.492
20 54 39.661
20 59 27.354
21 3 34 769
21 4 34.696
21 10 40.89X
21 13 4.703
21 13 23.730
21 25 6.733
21 35 16368
21 39 16.089
21 42 14.441
21 45 25.919
22 I 44-392
22 7 44 369
22 12 8.672
22 14 20.690
22 19 47.561
22 25 22.533
22 26 2.682
22 27 4.671
22 38 29.989
22 43 55.668
22 48 4.589
22 50 2.330
22 56 52.399
22 58 1.660
23 o 37.622
23 9 49021
23 12 20.410
23 H 53.328
23 15 45-234
23 16 11.833
23 25 2.236
23 27 1.926
23 43 28.220
23 50 19.441
[Eph 13]
Annual
Proper Motion.
— o.ooot
•f 0.0093
+O.OOS3
+0.0023
+ 0.0028
+ 0.0034
—0.0046
+0.0024
—0.0015
—0.0013
+ 0.0017
+ 0.0044
—0.0094
+O.OI4S
+ 0.0013
+0 0003
+ 0 0376
+0.0011
+0 0012
—0.0025
+0.0013
+0.0085
0.0000
+0.0015
+ 0.0031
+0.0019
+ 0.0129
—0.0013
+0 0176
—0.0004
+0.0022
+ 0.0016
+0.0010
+0.0051
+0.0034
+ 0.0129
0.0000
+ 0.0050
+0.0014
+0.0035
+0.0002
— 0.0017
—0.0015
0.0000
+0.0081
+0.0015
— 0.0015
+0.0128
+0.0191
—0.0099
+ O.OI2I
+ 0.0124
+0.0064
—0.0023
Declination.
0t
28 55 15.25
28 19 I.61
28 40 55.11
29 51 57.63
28 28 13.04
27 4 51.82
27 47 54-44
28 46 17.97
26 3 12.68
28
27
25
24
9
4
9
4.43
50.74
35.26
29.89
26 31 51-59
26 25 54.26
22 40 50.39
24 5 32.93
21 49 51.05
19 22 23.50
20 II 59.18
21 32 37.48
20 54 22.66
21 o 48.05
18 21 0.79
17 49 39-93
19 31 40.00
17 3 20.57
15 8 55.07
16 31 21.23
17 15 504
14 17 31.91
H 37 21.57
13 15 56.38
13 44 27.12
13 58 14.49
13 21 39-74
II 7 24.32
II 21 5.82
8 46 0.97
II o 54.48
8 2 34.12
7 40 2.25
7 31 42.55
7 2 29.00
8 9 48.49
6 31 5.56
8 12 4.15
5 35 59.29
4 23 34.98
6 22 59.58
5 o 23.73
4 33 46.00
3 14 43-26
• o 22 28.52
Annual
Proper Motion.
—0.019
—0.234
+0.032
—0.034
+0.005
—0.006
—0.254
—0.009
—0.018
+0.017
—0.014
—0.027
-0.438
+0 080
+0.036
—0.027
+0.462
—0.014
—0.020
—0.047
-O.OS9
—0.123
0.000
—0.002
+0.006
— 0027
— o 018
— o 002
—0.297
— o 054
—0.062
—0.044
+0 009
—0.002
+0.013
—0.019
—0.026
—0.032
+0 031
+0.010
+0.035
—0.029
— O.OOI
-0.034
+0.016
-0.194
—0.014
—0.010
— o.n8
— o 065
—0.218
—0.172
+0.002
—0.013
570
OCCULTATIONS, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JANUARY.
Th8 Star's
At Conjunction in R. A.
Limit-
ns Par-
allels.
Name.
621 B.
2:4 G.
40 H.
43 B.
47 G.
64 G.
169 B.
177 B.
42
A
31 B.
32 B.
3
40 B.
48 B.
50 B.
24 G.
65 B.
41 G.
85 B.
6
a
22
116 B.
134 B.
118 B.
95 G.
43
V
X
27
4>
128 B.
152 B.
1
39 '
42
45
50
182 B.
58
70
h
X
96
317 B.
337 B.
342 B.
20
80 B.
Virginis
Virginis
Virginis
Librx
Librae
Librae
Librae
Librae
Librae
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scoipii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Ophiucfai
Ophiucfai
Ophiucfai
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Pisdum
Pisdum
Mag.
Red'ns from
i9i3«o«
98 B. Pisdum
4.8
5.3
6.1
5.3
6.5
3.8
30
6.5
4-4
6.2
5.5
6.1
5-9
6.2
6.4
6.1
54
4.4
5-3
5-7
6.3
6.4
6.5
5.6
6.3
6.3
6.4
6.5
51
5-7
6.1
5.8
6.0
6.2
5.0
4.6
5.4!-
5-3 I
5-9
5-4
4.9
6.4
6.2
5.5
6.3
6.0
3.1
1.2
4.8
6.2
6.4
6.2
6.1
5.4
Aa
s
-0.71
0.73
0.76
.03
A<
Apparent
Declina-
tion.
Waahinffton
Mean Time.
//
.08
.13
.23
.24
.25
.30
.28
.28
.30
.31
.34
.32
•33
.36
.35
.37
•39
.43
.41
44
.46
.49
•52
•55
•14
.12
.12
.10
.04
.01
0.98
0.96
0.91
0.88
-0.86
0.84
0.82
0.80
0.80
-0-73
0.67
0.64
0.61
0.63
-0.62
0.58
0.58
0.50
0.44
-0.39
0.4-1433.2
0.1 1555.2
02 1553.5
0.8 21 1.5
i.o 21 41.6
1.4-22 4.7
2.2 2251.2
2.2 22 52.0
2.1 2332.2
2.5 25 4.1
2.7-2416.5
2.8 2343.2
2.5. 2459.2
2.8, 2434.9
2.8! 2537.5
3.1-2429.3
3-3 2413.8
2.9 26 5.7
3.6 24 1 2. 1
3.5 2515.5
3.8-2523.2
4.0 2614.5
4.3 2455.5
4.0 26 21.0
4.5 2717.7
5.7-2623.9
5.8 27394
6.3 28 3.7
NEW
-1 1.9
12.0
1 1.9
12.0
11.7
-2012.2
21 32.8
20 54.6
21 1.0
1931-9
-1 1.2 -17 3.5
1 1.0
11. 1
10.3
10.3
16 31.5
17 15.3
H 17-7
14 37.5
d h m
0 21 55.8
22 17.5
1 058.9
22 49-5
8 3 0.4
733.0
17 13.3
17 55-2
18 19.4
014.4
Hour
Angle.
H
h
2
2
5
2
6
8
+11
- 3
2
2
3
022.7
024.1
042.3
2 26.8
432.2
448.1
632.7
637.5
9 7.8
936.6
12 21.5
15 55.2
16 17.3
1646.5
22 20.4
4 8 34
10 24.0
15 3-7
MOON.
8
9
10
9.9-13 16.1
9.9 1344.6
9.9 1358.4
9.6 13 21.8
9.1 II 21.2
8.6 -I I I.I
7.4 8 9.9
6.6 631.2
7.1 8 12.2
6.3 5 36.1
6.4- 6 23.1
5.7; 5 0.5
5.5 4 33.9
4.6| 3 14.8
3-2>- 059.2
2.I1+ I 12.3
[Epb
+
+
11
12
18
18 24.2
2027.5
2057.4
o 1.3
721.9
1236.9
16 15.3
17 55.9
236.0
5 49-8
8 12.8
924.6
12 22.8
15 26.5
1622.7
143.7
II 6.8
16 19.1
17 45.1
19 12. 1
1956.8-
059.3
2 7.6
II3I.9 +
21 20.0
4 35-2
m
38.7
59-7
36.0
43.8
46.4
9.8
29.7
49
25.8
16.8
+0.0601
+1.4009
+0.7269
+1.2891
+1.1625
+0.6992
-0.1966
.2998
+0.3464
+1.0397
2-0
3
3
3
5
7
7
9
9
+11
-II
- 9
- 5
- 5
-4
+ o
+ 9
-II
- 7
24.9
26.
438
24.7
25.6
+0.1719
3I-04242
+0.8825
+0.1893
+1.0005
41.0
22.0
26.6
51.6
40.6
1.6
354
14.1
45.9
36
58.0
464
16.9
- 7
- 5
-4
- I
+ 5
+10
-10
8
o
3
-II
-10
- I
+ 7
-II
-10
- 8
7
2
I
7
7
o
21.6
22.1
53-2
549
12.5
18.2
9-7
32.1
6.9
1-5
20.4
30.2
234
38.0
43.3
37-5
304
25.6
1.9
37.2
-0.2522I
-0.7718.
+1.2 1 14!
-1.1537:
-0.0851'
-0.2985!
+0.1920
-1.2624
+0.21181
1.6366
0+0
-1. 1730
+0.0210
+0.1723
-1.3059
+0.5589,
-0.0557I
+0.6374;
+0.4230
I-1.2497
-1.0780
+0.0889
-1.2978
-0.2012
-i^i633
-0.3602
■K>.5857
+0.6282
-1.3823
+0.4972
^.3447
-0.8578
+1.3706
-1. 1437
53.7,-0.0862
59.2-0.3206;
52.8,-0.5189
16.6+0.4580I
10.8+0.5217
7.0+0.0089
0.5256
0.5258
0.5267
0.5360
0.5380
0.5401
0.5448
0.5451
0.5454
0.5480
0.5481
0.5481
0.5482
0.5490
0.5500
0.5501
0.5508
0.5509
0.5519
0.5521
0.5531
0-5545
0.5546
0.5548
0.5566
0.5591
0.5594
0.5601
0.5191
0.5178
0.5174
05154
0.5105
0.5072
0.5049
0.5039
0.4991
0.4973
0.4961
0-4955
0.4941
0.4927
04923
04886
0.4856
04843
0.4839
04836
0.4835
0.4828
0.4826
0.4820
0.4822
0.4831
-0.2418
0.2413
0.2378
0.2037
0.1960
875
678
/
N.
o.
o.
o.
o.
o.
o.
o.
o.
o.
o.
o.
o.
o.
o.
-o.
o.
o.
o.
+43
+75
+75
+69
+69
+68
+21
654
522
519
519
5"
473
424
419
381
378
317
306
238
153
142
130
0.0990
-0.0738
0.0677
0.0551
+0.1808
0.1840
0.1847
0.1894
0.2004
+0.2073
0.2120
0.2143
0.2238
0.2273
664 +16
S.
r4i
+60
- 6
+40
+-26
- 6
-62
-25
+-I8
+49
♦65
+38-35
8,-71
k66iV 6
h
+39|-34
+65j+i5
i6p59
-I2p90
+64^+35
-39
+23-49
fii
+36
-90
-63
1-53-90
+37
-3^
+60- 8
-46L90
+23i-43
1+28^35
-49-90
+64—14
+31 -47
+68-10
+59 -22
-36|--90
-2Ip90
+42-40
-39'--90
+30-56
+0.2297
0.2308
0.2335
0.2363
0.2370
+0.2442
0.2502
0.2530
0.2538
0.2545
+0,2548
0.2566
0.2571
0.2598
0.2614 1+76
1
-25,-90
+22J-65
+74r>4
+76-12
-48-90
7J-19
+26-64
o'-90
+82 1+41
-18-90
+39-49
+28.-62
+18-75
+711-21
-18
+0.2618 1+451-44
OCCULTATIONS, 1913.
571
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JANUARY.
Limit-
Ths Stak'8
At Conjunction in R. A.
ing Par*
aflels.
Red'nt from
^ ^
Name.
Mag.
1913.0.
Apparent
Declina-
tion.
Washington
Mean Time.
Hour
Angle,
H
Y
j/
/
N.
S.
Aa A3
S
It
0 /
d h m
h ra
0
0
44
Pisdum
6.0
-0.35
- 1-7
+ I 27.4
18 8 54.8'+ 4 5.7
+0.8630
0.4839
+0.2616
+90
0
6o
Pisctum
6.2
0.29
+ 0.8
6 16.0
21 15.9!- 753.2
-1. 1790
0.4876
0.2597
-22
-84
147 B.
Pischim
59
0.27
0.3
450.0
2146.8I- 723.1
+0.5200
0.4878
0.2595
+75
-18
171 B.
Pisdutn
6.3
0.21 1.2
6 0.9
14 4 9.6|- I 10.8
+0.8810
0.4904
0.2576
+90
+ I
e
Pischim
4.4
0.2a 1.8
725.3
552.4+ 029.2
-0.21 1 1
0.491 1
0.2570
+34
-55
%
Pischim
5.6
^.05 + 4.5
+IX 41.9
16 013.6-540.7
-0.2043
0.5017
+0.2470
+34
-53
«9
Arietis
5.8
+0.15 6.7
1452.5
18 36.1
-II 50.9
+0.7907
0.5158
0.231 X
+90
+ I
27
Arietis
6.4
0.23; 8.0
17 19.3
16 3 19.6
- 3 23.9
+0.1566
0.5239
0.2206
+53
-30
>«
Arietls
5-7
0.29 9.1
19 38.6
846.4
+ I 52.4
-I.I 184
0.5291
0.2135
-21
-71
40
Arietis
6.0
0.34 8.6
17 55-5
II 41.6+ 441.9
+1.3164
0.5320
0.2091
+90
+46
47
Arietls
5.8
+0.39+ 9.6
+20 19.4
16 5.2+ 856.8-0.3082
0.5366
+0.2024
+28
-51
e
Arietis {mean)
4.6
0.40 9.8
2059.7
16 36.4 + 9 27.0-0.9108
0.537 >
0.2017
-6
-70
C
Arietls
5.0
0.49
9-9
2043.5
2342.8- 7 41. 1
+0.7661
0.5446
0.1894
+90
+ 6
r
Arietis
5-2
0.53
lO.O
2050.2
17 231.11-458.7
+1.1727
0.5478
0.1 841
+90
+35
66
Arietls
6.1
0.57
10.6
22 30.5
539.8
- I 56.7
-0.0017
0.5512
0.1784
+44
-32
7
Tauri
5-9
+0.61
+11. 2
+24 10.6
814.7
+ 032.8
-1.2856
0.5541
+0.1731
-43
-66
16
Tauri
5-4
0.68
XI. 2
24 1.2
1240.8
+ 4 49.3
-0.3717
0.5589
0.1636
+24
-50
17
Tauri
3.8
0.68
II. I
23 50.6
1242.8
+ 451.2
-0.1836
0.5590
0.1634
+34
-39
18
Tauri
5.6
0.68
II.4
2434.2
12495
+ 457.6
-0.9194
0.5592
0.1631
-8
-66
^
Tauri
4.3
0.68
II. 2
2411.9
12 51.0
+ 459.1
-0.5293
0.5592
0.1631
^■15
-58
20
Tauri
4.1
+0.68
+ II.2
+24 6.0
13 6.8
+ 5 14.3
-0.3839
0.5594
+0.1626
+23
-50
21
Tauri
5.8
0.68
II.3
24 17.2
13 8.6
+ 5 16.1
-0.5729
0.5594
0.1626
^•13
-6i
22
Tauri
6.5
0.68
"3
24 15-6
13 12.2
+ 5 19.5
-0.5354
0.5595
0.1623
+15
-58
23
Tauri
4-3
0.69
II. I
2340.9
13 19.8
+ 5 26.8
+0.0859
0.5597
0.1621
+49
-26
7
Tauri
3.0
0.69
II. I
23 50.4
1349.1
+ 555.1
+0.0003
0.5602
0.1610
+44
-30
104 B.
Tauri
5-5
+0.70
+10.9
+23 9.5
14 11.5
+ 6 16.6
+0.7679
0.5606
+0.1602
+90
+10
27
Tauri
3-7
0.70
II. I
23 47.5
14 31.6
+ 636.0
+0.1644
0.5610
0.1594
+54
-22
28
Tauri
5-2
0.70
II. 2
23 52.5
14 32.1
+ 6 36.5 40.0795
0.5610
0.1594
+49
-26
36
Tauri
5.6
0.79
XI. I
23 52.2
2051.2
-II 18.6 +x. 0462
0.5680
0.1448
+90
+29
P
Tauri
5.6
0.84
IX.8
26 15.5
23 28.1
- 8 47.5
-1.0447
0.5707
0.1384
-18
-64
X
Tauri
5-3
+0.91 +11.5
+25 25.7
18 413.5
-413.1
+0.4410
0.5758
+0.1262
+73
-4
17 B.
Aurigte
6.0
1. 10 11.7
27 45.4
16 2.6
+ 7 7.8
-0.6356
0.5875
0.0929
+ 8
-59
38 B.
Aurigae
6.5
1.17
1 1.4
2734.7
2034.8
+11 29.0
-0.0615
o.59>4
0.0796
+41
-25
47 B.
Aurigae
6.0
1.20 11.4
27 55.5
2230.8
-1039.8
-0.2645
0.5930
0.0735
+29
-35
354 B.
Taun
6.4
1.26' II. 0
27 52.4
19 2 44.6
-636.5
+0.0716
0.5964
0.0598
+49
-17
22
Aurigae
6.4
+1. 28+11. 2
+2851.5
337.3
- 546.1
-0.8722
0.5970
+0.0571
- 7
-62
P
Taun
1.8
i.3o|
II.O
28 32.3
442.7
- 4 43.4
-0.4879
0.5979
0.0537
+17
-47
107 B.
Aurigae
6.5
1.33
10.5
27 36.6
818.0
- I 17.21+0.6209
0.6004
0.0419
+90
+14
116 B.
Aurigae
5 9
1.37
10.8
29 10. 1
931.3
- 0 7.0-0.9012
0.601 1
0.0378
- 9
-61
406 B.
Taun
5.6
1. 41
10. 1
27 56.7
1349.3
+ 4 0.0+0.4613
0.6035
0.0231
+75
+ 7
136
Tauri
4.6
+1.42
+10.0
+27 35-7
14 41.4
+ 449.8+0.8318
0.6040
+0.0203
+90
+27
154 B.
Aurigae
6.4
1-45
ID. I
28 55-9
15 51.0
+ 5 56.4,-04884
0.6046
0.0162
+17
-45
415 B.
Taun
6.1
1.46
9-7
2734.3
17 29.4
+ 7 30.6 +0.8980
0.6056
0.0105
+90
+32
183 B.
Aurigae
6.3
I-5I
9-9
2931.4
19 24.4
+ 9 20.7
-1.0423
0.6065
+0.0039
-21
-61
K
Aurigae
44
1.55
9-5
29 32.0
22 40.2
-II 32.1
-1.0566
0.6074
-0.0075
-22
-61
211 B.
Aurigae
6.3
+1.57
+ 9.2
+29 350
20 046.0
-931.7
-I. 1282
0.6079
-0.0147
-29
-61
49
Aurigae
5.1
1.60
8.3
28 5.6
550.1
- 440.7
+0.2386
0.6093
0.0324
+59
-6
53
Aurigae
5.6
1.63
8.3
29 3.7
657.8
- 336.1
-0.7644
0.6096
0.0366
o;-6i
54
Auripe
5.8
1.62
8.2
28 20.6
723.7
- 311.3
-0.0652
0.6096
00379
+41-22
28
Geminonim
5-5
1.65
8.0
29 3.7
915.3
- I 24.6
-0.8564
0.6096
0.0446
-6
-61
47
Gemlnonim
5.6
+1.70
+ 6.4
+27 0.1
18 51.6
+ 746.6
+0.5950
0.6094
-0.0784
+88
+ 9
53
Geminonim
5-9
1.74
6.3
28 3.1
20 29.4
+ 9 20.2
-0.5750
0.6089
0.0841
+12
-54
134 B.
Gemlnonim
6.5
1.72
6.1
26 50.9
2054.2
+ 9 43.8
+0.5789
0.6088
0.0853
+86
+ 8
59
Gemlnomm
57
1.75
5-8
27 48.5
23 35-9
-II 41.5
-0.6124
0.6080
0.0942
+10
-58
t
Geminonim
3.9
1.76
5.7
27 58.4
21 0 1.5
-II 17.1
-0.8156
0.6079
0.0959
-3
-63
6»
Gemlnonim
5.0
+1.77
+ 5-6
+28 18.0
I 19.5
-10 2.5
-1.2653
0.6075
-0.1003
-4-^
iC^
lEph 13I
572
OCCULTATIONS, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JANUARY.
Thb Star's
Name.
1^ Cancri
y Cancri
90 H*. Cancri
X07 B. Leonis
34 Leonis
37 Leonis
/ Leonis
X Leonis
308 B. Leonis
6 Leonis
80
27 B.
200 B.
319 B.
a
86
214 G.
40 H.
43 B.
47 G.
64 G.
153 B.
169 B.
177 B.
'I
31 B.
32 B.
3
40 B.
48 B.
50 B.
24 G.
65 B.
85 B.
6
a
116 B.
134 B.
95 G.
43
Leonis
Leonis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Librae
Librae
Librae
Librae
Librae
Librae
Librae
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Opbiudii
Ophiudii
Mag.
V^ Geminorum
V Geminorum
c Geminorum
0 Geminorum
00 Cancri
± Cancri
i) Cancri
A Cancri
28 Cancri
v* Cancri
5.0
4-3
5-5
50
5.9
6.2
5-9
5.9
6.1
5-7
6.4
4.7
6.1
6.3
6.4
5-5
5-3
4-7
5.8
4.1
6.4
5-7
3.8
6.5
5.9
6.3
5.6
1.2
5.6
6.5
51
5-7
6.1
5.8
6.3
6.0
6.2
5.0
4.6
5.4
5-3
5-9
5.4
30
4-9
6.4
6.2
5-5
6.0
3.1
1.2
6.2
6.4
6.1
5-4
Red'ns from
1913.0.
Aa
A<
8
•77
.76
.76
.79
•77
•77
.78
.77
.78
.78
.78
.70!-
•521
.46-
.33
•23
•23
•17
.12
.08
0.991
o*94
0.86
+0.75
0.66
0.55
0.44
035
+0.21
+0.18
-0.07
0.13
0.18
//
Api>arent Washin;
Declma<
tion.
+28
27
25
26
25
+25
25
24
24
I 24
1.6+24
0.9 21
0.9 21
3-5( 16
5.5
5.1
4.5
4.01
3.5
3-5
3'0
2.3
1.8
3.5
3^8
5.1
5^2
5-9
5.8
5.4
5.6
6.0
5.9
6.5
5.7
5.8
5.8
5.6
5-9
5-1
5.3
5-1
4-9
5-1
13
+14
II
7
8
6
+ 4
3
2
+ I
- o
5.9
5^5
59.6
59-6
38.0
19.8
46.4
17.9
26.1
22.5
22.9
46.9
38.5
10.8
47.0
9.7
0.3
48.3
32.1
30.3
20.3
32.5
152
0.8
18.3
-0.25
0.26J
0.271
0.28^
0.36J
-0.36
0.35
0.37
0.38'
0.40
-0.42
0.41
0.42
0.44
0.47
-0.50
0-50,
o-5ii
0.58,
0.69
-0.70
-434.5
549.6
831.2
1042.5
1 1 59-5
-15 55.3
15 53.6
21 1.5
21 41.7
22 4.8
-24 1 1.8
2251.3
22 52.1
23 32.2
25 4.2
- 5.5-24 16.6
- 4.9
5-5
5.6
5.4
5-2i
5-7
5.3
5-5
5.1
5.3
5-7
5.9
5.3
23 43.3
24 59.3
2435-0
25 52.0
-25 37-5
2429.3
24 13.9
26 5-7
571 25 15.5
5.9,-25 232
5.9, 26 14.5
5.9, 2621.0
6.0J 27 17.7 81
6.61 2739.4
6.9'-28 3.7
[Eph IS]
At Conjunction m R. A.
incton
lAean Time.
Hour
Anffle.
H
d h m
21 I 29.9- 9
3 43.7r 7
6434- 4
10 8.5- I
1253.4'+ I
13 1 1.4+ I
16 24.6)+ 4
20 10.9+ 8
23 1 2.6 +10
28 018.2 +11
052.0-1 1
448.2- 7
1633.7+ 3
28 1346.3- o
16 17.4+ 2
1825.6+ 4
2* 833.3-5
15 35-8)+ o
19 38.5,+ 4
22 52.9 + 7
y'
I 1.9+ 9
4 57-4 -10
12 29.6- 2
16 26.6,+ o
13^4
S2.Q
53-6
26 I i.q'+ 058.3
14. 1
56.9
52.3
26 I 41.5+ 949.1
7 51.0- 8
15 26.2I- o
27 I 27.8 + 8
9 24.6!- 7
19 16.9 + 2
28 4 22.6|+io
7 i.o|-io
29 433.I1+10
841.6,- 9
13 12.0- 5
2043.1+ I
2249.1+ 3
23 30.8 + 4
23 54.9 + 4
80 5 48.9+10
m
52.5-1.0834
44.5 -0.3237
52.5,-K>ufi8o
36.2-0.9899
1.6,-0.0199
18.9+0.2355
23.9-0.6639!
0.6|+0.20IO
54.7ho.4333
57.6-0.5621
30.0,-0.6656
43.51+1.1765'
33.5rl.0361 1
2.7 -0.6805^
22.8+1.0259'
26.3+O.IOI5
564-0.6005
51.4+0.5883
45.8-1.2800
-0.1944
+1.3391
+1.0023
+0.1 II I
+0.2071
-1. 1434
+1.3883
52.9 +0.5096
49.5 404634
29.0 +0.5544
4.3 -0.7039
+1.0867
+04214
+1.0032
+0.8833
+0.4284
+1.3256
-04504
^.5523
+0.0926
+0.7938
0.6074-0.1007
0.6067' 0.1084
0.6058 O.I 186
0.6041! 0.1292
0.60261 0.1378
Limit-
iii« Par-
allels.
I
N. S.
-23,-62
+26-41
+711-4
-15-64
+43-27
0.6024-0.1389 +59'-i5
0.6007
0.5985
0.5963
0.5955
0.1491
0.1603
0.1687 +2 1 1-53
0.1717 +141-60
0.59511-0.1734
0.5923 0.1845
0.5829 1 0.2136
0.5648 1 0.2537
0.56261 0.2577
0.5609 -0.2609 ^50^35
0.5501
0.5453
0.2764
0.2816
0.5427 0.2843
0.5409- 0.2855 If 34J-55
0.5397 -0.2863 1+90I+36
0.5376
0.5341
0.5325
0.5296 0.2871
0.5281 -0.2851
0.5271
0.2878 1+90J+ 8
0.2887
0.2889
557.2+10
5 58.6^+10
6 16.7 +11
52.2
34.5
14.8
45.<^
23.7
51.9
53.5
33-9
57.1
38.8
46.8
48.2
8
8
X.I
7-1
10 6.3
1022.2
12 6.8j-
12 11.6-
15 10.6
-II
-II
- 9
- 8
7
7
4
1755.7- I
21 29.81+ I
22 2I.2j+ 2
3 56.2 + 7
16 3.2 - 4
2044.7I+ o
-0.0719
-0.6670
+0.6374
-0.0512
+1.3029
+0.7619
-0.4883
-1.0042
+0.9761
^.3135
-0.5219
-0.0259
-0.0048
+0.4302
-0.1635
ii.4'-o.oo33
5.6
13.7
7.9
12.8
57.5
16.5
1 1.9
19.2
40.0
46.5
36.2
59-1
20.0
0.5265
0.5268
0.5280
0.5300
0.5305
0.5375
0.5390
0.5407
0.5436
0.5444
0.5446
0.2808
0.2733
0.2660
0.2552
-0.2430
0.2394
0.2032
o.
o.
I
-o.
o.
o.
o.
o.
0.5447
0.5469
0.54691-0.
0.5470 o.
0.5471 o.
0.5477 o.
0.5477
0.5484
0.5485
0.5491
0.5491
0.5501
0.5510
0.5520
0.5522
0.5537
0.5560
0.5565
o.
-o.
o.
o.
o.
o.
-o.
o.
o.
287
221
131
no
0.0968
0.0652
-0.0527
•■ 7-^5
^56-19
»^5
♦90f+36
-i5'-69
9I-74
[*90i'+i5
^137-76
f8il-i3
-31-82
+50;-39
^56-34
-»7h90
4*6+43
+75-18
+70-21
+74 -16
5-90
*-75+i7
+62-22
♦69+13
♦^+ 5
+55-21
+661+53
+ 8-73
f 2-81
+35-39
+65 o
+26J-49
-5,-90
+6i- 9
+26-47
+65+51
♦65- 2
+ 3r77
-26-90
955
863
710
662
646
638
508
505
503
497
455
455
407
401
358
358 +64^+13
+11-64
0^80
+24-46
'•25 -45
+47-20
+12-54
+2o'-45
OCCULTATIONS, 1913.
573
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
FEBRUARY.
Thb Stak's
Name.
G. Ophiudii
Sagittarii (var.)
G. Sagittarii
B. Scorpii
Sagittarii iyar.)
B. Sadttarii
ai).-28** 14268
G. Sagittarii
B. Sagittarii
G. Sagittarii
Sagittarii
Sagittarii
B. Sagittarii
B. Sagittarii
B. Sagittarii
Aquarii
Aquarii
Aquarii
Aquarii
B. Aquarii
B. Aquarii
B. Ac|uarii
Piscium
B. Pisdum
B. Pisdum
Ptsduin
VSNUS
Pisdum
Pisdum
B. Pisdum
B. Pisdum
Pisdum
Pisdum
Arietis
Arietis
Arietis
Arietis
Arietis (m$an)
Arietis
Arietis
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
B. Tauri
Tauri
Tauri
I Tauri
Mag.
6.3
44
5-7
5.8
4-3
47
6.4
6.3
6.0
6.1
3-3
3-5
6.2
5-9
5-7
Red'ns from
19I3-0-
Aa
A3
s
-0.77
0.78
o.8i
0.82
0.82
-0.85
0.86
0.87;
o.88i
0.86
-0.90-
0.94'
0-95'
0.94'
0.95I
//
Apparent «,
Declina-
tion.
I
7-4
7-5
7-7
7.6
7.5
7-9
7-9
8.1
8.0
8.2
9.0
9-3
9.1
9-5
9-7
-0.78-
0.76
0.75!
-0.74-
0-73
0.72
0.72
0.67
-0.64-
0.61
0.58
6.4
5-4
4.4
5.7
6.3
6.4
6.5
5.6
6.3
6.3
6.0
-4.0
6.2
6.1
5-9
6.3
4-4
5.6
5.8
6.4 0.13
5.7 -0.08
5.8 -KJ.OI
4.6 O.OI
7-9
7-9
7-3
7.0
7.1
6.6
6.4
5.6
4.4
341+
30
-27 50.7
27 48.0
28 3.2
2845.1
29 35.2
-28 28.2
28 55.4
28 19.2
28 41. 1
28 28.4
-27 5.0
27 48.1
28 46.5
28 2.2
27 lO.O
NEW
- 7 31-8
8 9.9
631.2
- 5 36.1
623.1
5 05
4 33-9
3 H-8
0.55
0.9
-0.55 - 0.8
0.52
1-3
0.49
-0.4
0.49
+ 0.1
0.38
2.8
1
-0.22
+ s.i
- 059.2
1 12.3
1 27.4
4 9.9
6 16.0
5-0
6.1
5-9
5.4
3.8
5-6
4-3
4.1
5-8
6.5
4-3
3.0
5-5
3.7
5-2
5.3
+0.12
0.20
0.24
0.30
0.30
+0.30
0.30
0.30
0.30
0.31
+0.31
0.32
0.33
0.33
0.33
-K).34
6495
450.0
6 0.8
725-3
11 41.9
5.1+1452.4
6.6 17 19.3
7-8 1938.6
8.4 20 19.4
8.7! 2059.7
9.0+2043.5
9.9 2230.5
0.6 24 10.6
0.7 24 1.2
0.6 2350.6
0.9 +24
0.7 24
0.7. 24
o.8j 24
o.8j 24
0.6+23
0.6
0.4
0.6
0.7
1.2
23
23
23
23
+25
34-2
1 1.9
6.0
17.2
15.6
40.9
504
9-5
47-5
52.5
19-3
lEph
At Conjunction in R. A.
ashin^ton
Mean Time.
d
1
h m
5 18,
7 8,
" 3.
"53
1436.
>5 57-
>7 37-
1958.
1958.
2157-
816.
1738.
1752.
I 28.
354.
MOON.
8
8
o
o
o
3
8
6
5
5
3
2
Hour
Angle.
H
h m
+ 826.
+ 10 12.5
-10 0.8
- 9 12.8
- 6 35-2
517.8
341-3
I 25.4
I 35.2
030.1
+10 26.9
- 431.0
- 4 17-5
+ 3 2.5
+ 5 23.4
6-0
-lO
- 8
8
9
IS 29.4
1736.6
2249.1- 3
1 42.2- o
2 26.9 + o
729.7
838.2
18 3-5
3 53-6 +
II io.8i+
+
+
+
10
11
18
18
I
8
15 3i-8|-ii
19 5.0- 8
358.4+ o
428.2+ I
429.6+ I
1056.1 + 7
1240.0+ 9
7 16.1J+ 3
I 59-2.- 2
1054.4+ 5
16 29.2 +11
n 59-3 - 5
031.4- 4
7 49-7+ 2
1357-I1+ 8
16 36.6+10
21 10.9- 8
21 12.9I- 8
21 19.8- 8
21 21.3- 8
21 37-7i- 8
21 39.6j- 8
2143.3:- 8
21 51.1 - 8
22 21.3- 7
22 44-4- 7
5927
-0.6915
-0.4929
+0.2570
+I-I455
-0.0773
+0.4200
-0.2237
+0.1751
-0.0316
-1.2572
+0.0394
+1.1254
+0.8968
+0.1534
0.5568
0.5569,
0.5565'
-1.4044
-0.1645
-0.6690
-0.9502
+0.1 1 14
-0.1 150
-0.3120
+0.6828
+0.7609
40.2549
+1.1 184
-0.9392
-0.9243
-1-4093
+0.7863!
+1.1545I
+0.0554!
+0.0681!
23
23
5-1
5-7
- 7
- 7
16.2
12.3
8.2
19.6
23.9
18.7
254
24.2
10.3
16.0
29.8
2-4
36.9
5-8
7-2
23-3
4-4
9-4
40.2+1.0720
58.7 +0.4270
23.01-0.8682 j
21.3I-0.0528;
50. 2! -0.6639
I
1 3.61 +1.030 1
8.540.2452
42.5-1.0602
52.71^.1379
50.8.+0.0530
44.2-0.6942
42.7I-0.2983
26.9-0. 15 10
25.o'-o.3427
21-5,-0.3049
14.0+0.3260
44.8I+0.2384
22.6+1.0170
2.6 'K).4043
2.0
23 33.7!- 6 35.0
+0.3178
-1.1310
0.5564
0.5562
0.5561
0.5559
0.5556
0.5556
0.5551
0.5526
0.5492
0.5491
0.5458
0.5447
0.4871
0.4864
0.4851
0.4845
0.4844
0.4833
0.4832
0.4822
0.4822
0.4838
0.4834
0.4443
0.4862
0.4863
0.4863
0.4884
0.4891
0.4977
0.5104
0.5176
0.5223
0.5291
0.5295
0.5363
0.5424
0.5450
0.5495
0.5496
0.5497
0.5497
0.5500
0.5500
0.5501
0.5502
0.5507
0.5510
0.5514
0.5514
05519
-0.0397
0.0249
0.0142
0.01 19
0.0045
-0.0010
+0.0036
0.0097
0.0097
0.015 1
+0.0434
0.0664
0.0670
0.0855
0.0913
+0.2513
0.2537
0.2551
+0.2564
0.2567
0.2589
0.2592
0.2617
+0.2627
0.2627
0.2624
0.2400
0.2598
+0.2597
0.2597
0.2573
0.2566
0.2460
+0.2285
0.2179
0.2106
0.1991
0.1983
+0.1863
0.1747
0.1697
0.1603
0.1601
+0.1598
0.1598
O.I593
0.1593
0.1590
+0.1587
0.1577
0.1569
0.1561
0.1561
Limit-
ing Par-
allels.
-9-78
-30
+31
-49
-21
-58
-35
-46
+30
+61
+11
+39
+ 4
+25
+15
-58
+23
+62
+63
+31
-90
-42
+28
+ 9
-36
-48
+35
+10
- 5
+50
+39
+29
+87
+90
+58
+90
5
-90
-53
-88
-90
-39
-51
-62
-10
- 5
-32
+15
-86
-4-84
-471-84
-4
+19
-41
-39
+90
+90
+47
+48
+90
+70
- 3r7
+42
W 9
+19
-16
I
-38
-70
+90+23
+59
-18
+37
+47
+ 6
+28
+36
+26
+28
+64
+59
+90
+70
+64
-20
-66
-36
-28
-66
-46
-37
-48
-46
-13
-18
+25
-10
-13
sf^'bv^^
ii\
574
OCCULTATIONS, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
FEBRUARY.
Tbb Stak's
Name.
P
X
17 B.
38 B.
47 B.
354 B.
22
fi
107 B.
116 B.
406 B.
136
154 B.
415 B.
183 B.
K
211 B.
49
53
54
28
47.
53
134 B.
59
t
V
c
0
4
i>
X
28
r
90 H*.
107 B.
34
37
/
X
308 B.
6
80
89
27 B.
13
162 B.
200 B.
/
Tauri
Tauri
Tauri
Aurigse
Aurigx
Auri^
Taun
Auri^
Taun
Aurigse
Aurigse
Tauri
Tauri
Auri^
Taun
Aurigse
Aurigse
Aurigse
Aurigse
Aurigse
Auri^
Geminonim
Geminonim
Geminonim
Geminonun
Geminonmi
Gemlnonmi
Geminonmi
Geminonim
Geminonim
Geminonim
Geminonim
Cancri
Cancri
Cancri
Cancri
Cancri
Cancri
Cancri
Cancri
Cancri
Leonis
Leonis
Leonis
Leonis
Leonis
Leonis
Leonis
Leonis
Leonis
Virginis
Virginis
Virginis
Virginis
Virginis
'^irginis
Mag.
5.6
5.0
5-3
6.0
6.5
6.0
6.4
6.4
1.8
6.5
5-9
5.6
4.6
6.4
6.1
6.3
4.4
6.3
51
5.6
5.8
5.5
5.6
5.9
6.5
5-7
3-9
5.0
50
4.3
5.5
5.0
5.9
6.2
5-9
5-9
6.1
5-7
6.4
4.7
6.1
6.3
6.4
5.5
5-3
4-7
5.8
41
6.4
5-7
3.8
6.5
5-9
6.2
6.3
6.0
Rcd'ns from
Aa
A3
s
+0.48
0.55
0.57
0.78
0.87
+0.91
0.99
.01
.04
.10
.12
•19
.20
.24
.26
.31
•37
.41
.48
•52
.51
.54
.66
.70
.69
.74 +
.75
.78
.77
.78
.80 +
.86
.86
.86
•90
,90 +
.93
•94
.94
.92,+
•98,-
•93
.88
.89
.82
.76
.75
.71
.67
.65
.62
.58
.51
.44'
•43
.42-
//
1.7
2.0i
1-5
2.1
19
2.0I+27
1.8
2.1
1.9
1.4
1.8
I.I
1. 01
13
0.7
I.I
0.8
0.6
9.6
9-7
95
9-5
7.7
77
7-3
72
7
7.0
6.9
6.3
5^6
5.3
4.6
45
4.0
3^1
2.6
2.4
2.3
1.2
0.7
4.6
5.0
5.5
73
8.1
8.6
8.81
8.8l
9.1!
Apparent
Declina
tion.
•♦■26
27
25
27
27
9.9 +
io.o]+
io.6|-
10.2;
10.3'
10.4-
27
28
28
27
+29
27
27
28
27
+29
29
29
28
29
+28
29
27
28
26
+27
27
28
28
27
+25
26
25
25
25
-1-24
24
24
24
21
+21
16
13
14
II
7
8
6
4
3
2
I
o
4
4
5
15.5
8.8
257
45-4
34.7
555
52.4
515
32.3
36.6
10. 1
56.8
357
55.9
343
31-4
32.0
35^ I
5^6
3-7
20.6
3.7
0.1
3.1
50.9
48.5
58.4
18.0
59
55
59^6
59-6
38.0
19.9
46.4
17.9
26.1
22.5
22.9
46.9
38.5
10.8
47.0
9-7
0.2
At Conjunction in R. A.
Washinffton
Mean Time.
Hour
Angle,
H
d
14
16
16
17
18
19
20
81
22
h m '
8 i8.6j+
12 16.4,+
13 13.3 +
I 25.8 -
6 6.9-
8 6.7
12 28.7
1323-1
14 30-6
18 12.9
19 28.4
23 54.5
048.2
1599
3 41-3
5 39-8
9 1-4
II 10.8
16 23.4
17 33.0
17 59.6
19 54.2
5 447
724.8
7 50- 1
h m
I 50.9h>-8354'
5 39.8 -1.2439;
6 34.6-K>.667i
541.0-0.4433
I 10.9 +0.1326
044.1-0.0764
455.6+0.2578
5 47.8,-0.7016
652.6-0.3133
+i0 25.8-K).8o6i
1035.4
11 1.5
12 21. 1
12 31.8
14 48.3
17 51.4
21 20.1
0 7.7
026.0
342-1
731.4
1035.2
II 41.6
12 15.7
16 14.I
4 3-2
1 1 1.4
341.0
547.7
19 430
48.3
32.1
30.2
20.2
32-5
I5-I
0.7
18.4
8.2
34-5
21.3
[Bph 13]
+11 38.2I-0.7405
- 8
- 7
- 6
- 4
- 2
6.7
153
6.6
29.4
35.8
37.3
o
241.21-0.9956
+ 9
+11
- 3
- I
- I
I
I
2
2
5
+ 8
+11
- 9
- 9
- 6
2
o
I
I
5
42.0
30.7
8.6
493
25.3
23.2
1.6
7
-10
- 8
- 6
+ 7
-10
- 630.01-1.3655
19.0
2372
634.4
9 44-3!- 3 26.8
ii50.i|- I 25.4
15 39^6|+ 2 16.3
2259.1!+ 920.7
249.IJ-1057.0
II 46.5- 2 17.8
15 59 5 -»■ I 46.7
1743.8+ 327.5
20 5.6+ 5 44.6
+0.6346
+1.0090
-0-3320
+1.0708
-0.8997
-0.9194
0.5606
0.5644
0.5653
0.5766
0.5807
0.5822
0.5854
0.5861
0.5869
0,5897
/
+0.1352
0.1252
0.1228
0.0900
0.5904
0.5928 0.0213
0.5933 0.0185
0.5939 0.0146
0.5949 0.0086
0.5960+0.0023
Limit-
ing Par-
aflels.
N.'a
-3r^
"41 1-63
+9o|+ 8
+20-47
0.0767 +52pi5
■K).07I0
0.0574
0.0548
0.05 1 1
ox>396
+0.0358
40.7 +0.3798;
47.3 ^.6377
i2.8-K).o693
2.5 -0.7347
32.I-K).7I42
56.2 -04707
32.0+0.6937
6.2-0.5140
31.2 -0.7201
47.4 -1. 1 760
57.8-0.9929
8.4-0.2309
3.8-K).5iio
23.7 -0.9147
55.8+0.0566
38.2+0.3130
30.3 -0.5983
50.6 +0.2630
5.6-0.3804
9.3-0.5120
-0.6172
+1.2218
-1.0200
-0.7104
+0.9813
+0.0569
-0.6707
■K).49ii
-0.2985
+1.2120
+0.87 10
-0.0232
+0.0646
-1.2803
+1.2735
+1.2017
+1.2883
0.5972
0.5979
0.5995
0.5999
-0x089
0.0163
0.0338
0.0378
+40[-25
+60- 7
+ 4|-6i
+27r36
+90J+24
+ 2^61
W+I5
+90J+38
+26p34
+90+43
-9^-61
-11-61
-I7f-6i
+69+ I
+ 8-55
0.6000-0.0395 ♦^49-15
0.6004
0.6009
0.6009
0.6008
0.6003
0.6003
0.6000
0.6000
0.5996
0.5991
0.5979
0.5968
0.5967
0.5954
0.5938
0.5922
0.5916
0.5912
0.5891
0.5816
0.5672
0.5654
0.5640
0.5552
0.55*4
0.5492
0-5478
0.5469
0-5452
0.5425
0.5413
0.5390
0.5382
0.5378
0.5375
-0.0952 +16-52
0.0460
0.0793
0.0850
0.0862
+ 2!-6'i
+905+15
+90!+ 14
0.0968
0.1012
0.1016
0.1091
-0.1 193
0.1303
0.1388
0.1395 ^|-ii
0.1499 +11
-0.1615
0.1699
0.1729
0.1746
0.1856
-0.2155
0.2570
0.261 1
0.2644
0.2814
-0.2869
0.2900
0.2914
0.2922
0.2937
-0.2951
0.2952
0.2937
0.2923
0.2917
I-0.29P5
3-63
-33-62
-15-62
+32^36
A
+481-24
-61
+60-16
+24-50
+ 17-58
+I1I-63
+90+40
-14-69
+ 7-74
+90 + 12
+48-37
+10-79
+74 ->9
^40-82
+29-61
♦90+23
♦90 o
+43-46
+48-41
-28-90
+86+29
+86+23
OCCULTATIONS, 1918.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
FEBRUARY.
G. Sagittani
B. Sagittanj
6.3
6.0
+C.03
0.03
- 7-9.-J8 19.2
7,8 1841-0
1 150.1
150.3
* 6i4.i'-o.38i8io.5S49
* 614.3+0.01540.5549
+0,0107
0.0107
nt^
G. Sagittflrii
Sagittani
B. Sogittarii
B. &gittarii
B. Sagittaiii
6.1
3-5
6.3
5-9
5-7
HD.I4
0.14
-7.8-2828,3
8.0 1748.0
7.7 3846.4
7.9 28 2.2
8.1 37 'oo
3 49.3
13 27.8
23 4' .9
S 7 1S.0
944.3
+ 8 9,0
* 3 5.8
* 1 19.4
+10396
-1059.3
-0.1885! 0.5543
-O.098r 0.5472
+C.9S56 0,5471
+0.7661 0.5+35
+0.0J69 0.5423
+0,0163
0,0671
0,0677
0,0867
0,0923
1:-;
«Sj-43
Sagittarii
Sagittani
B, Capnconu
4.8
4-9
6.3
n
O.I9
0.43
0.47
- 8.1
1
-3633,0
36 26.0
34 5-7
2150.0
11 37.9/ 030.5
23 5-3+ ' 550
8 1845.0-3 3.^
«.5936' 0,5358
+0.66080,5349
+0.88960,5233
-1,12621 0,5214
-1.34090.5159
TO, 1194
0,1235
0,1625
t66|+ 6
-321-90
«h9o
Capricomi
5-3
-0.47
-8.5
-21 32.8
8 53-ol
*.0 38.i
«>.5Vfll'»•v^^
w^«»1
^i*fi--i.^
576
OCCULTATIONS, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
MARCH.
Tbs Stax'8
At Conjunction in R. A.
Limit-
ins Par-
allels.
Name.
37 Capricornt
0 Capricorni
128 B. Capricorni
y Capricsomi
d Caprioomi
152 B. Caprioomi
60 Pisdum
62 Pisdum
147 B. Pisdum
171 B. Pisdum
t Pisdum
n Pisdum
20 H*. Arietis
19 Arietis
27 Arietis
/I Arietis
47 Arietis
e Arietis i^nean)
C Arietis
66 Arietis
7 Tauri
16 Tauri
17 Tauri
18 Tauri
q Tauri
20 Tauri
21 Tauri
22 Tauri
23 Tauri
7 Tauri
104 B. Tauri
27 Tauri
28 Tauri
Tauri
Tauri
Tauri
Tauri
Auriga
Aurigae
Aurigse
Taun
Aurigie
Taun
Aurigtt
Aurigs
Taun
Tauri
Aur^
Taiui
Aurigae
Aurigse
Aurigse
Aurigse
53 Aurigae
H
H
P
<P
X
17
B
38
B
47
B
354
B
22
P
107
B
116 B
406
B
136
154
B.
415
B.
183
B.
ic
211
B.
49
M«g.
6.1
5-3
6.5
3.8
3.0
6.5
6.2
6.1
5.9
6.3
4.4
5.6
64
5.8
6.4
5-7
5.8
4.6
50
6.1
5-9
5-4
3.8
5.6
4-3
4.1
5.8
6.5
4-3
30
5.5
3-7
5-2
5.3
5.6
50
5-3
6.0
6.5
6.0
6.4
6.4
1.8
6.5
5-9
5.6
4.6
64
6.1
6.3
4.4
6.3
51
5-6
Red'ns from
19x3*0.
Aa
a
-0.48
0.49
0.50
0.54
0.55
H>.55
-0.69
0.70
-0.67
0.66
0.67
0.62
0-57
AS
It
8.6
8.5
84
8.6
8.6
-84
'20 54.5
21 0.9
1931-8
17 3.5
16 31.5
H7 15.2
1.9 +
X.8
2.3
14
i.o
1-3
3.9
3.6
5.0
6.0
6.8
71
-0.53
047
0-45
0.38
0.38
-0.28+ 7.6
0.23I 8.5
0.211 9.2
0.14 9.4
0.14' 94
-0.15 + 9.6
0.14 9 5
0.14
0.14
0.14
-0.13
0.12
0.1 1
0.1 1
0.1 1
-0.1 1
4O.02
0.07
0.09
0.31
+040
0.44
0.51
0.53
0-55
40.62
0.65
0.74
0.75
0.79
+0.81
0.87
0.94
0.96
X.06
+1.09
9-5
9.5
9-5
9.3
9.^
9.2
9-5
9-5
+10.0+25
10.7
II. 2
10.6
11.7
+1 1.7 +27
H.8
11.8
12.1
12.
Apparent
Declina
lion.
Waabtxiston
Mean Time.
6
6
^ 4
6
7
II
16
+14
17
19
20
20
+20
22
24
24
23
+24
24
24
24
24
+23
23
23
23
23
26
27
25
27
27
27
28
28
+1 1.6 +27
12. 1
"5
"3
11.8
+11. 2
11.8
"•5
"5
10.6
+10.8
29
27
27
28
+27
29
29
29
28
+29
d
4
h m
923.2
Hour
Ancle,
H
h
+11
m
7.5
1228.5- 952.8
1952.0
6 I 8.8
448.1
629.2
MOON.
9
10
11
12
13
16.0
49-5
50.0
0.8
25.3
41.8
49.1
52.4
19.3
38.6
19-3
59.7
43-5
30.4
10.6
I.I
50.6
34.2
11.9
6.0
17.2
15.6
40.8
504
9.4
47.4
52.5
19.2
15.5
8.8
257
45-4
34.7
55-5
524
51.5
32.3
36.^
10.2
56.8
35-7
56.0
34.3
31.4
32.1
35- 1
5.6
3 8|
lEph 13]
953.1
10 22.8
10 24.2
16 49.5
18 33.1
13 7-6
5 59
753.0
16 51.0
22 28.2
6 2.7
6350
1358
20 II. 2
22 53.2
332.1
334.2
0 +
6+10 9.9+1
- 7 50.0
- 5 13.4
- 044.0
- 042.0
3 41.2
342.8
3 59-4
4 1-4
4 5-1
413-0
443.8
5 7-3
5284
529.0
14
557.6
14 53-
18 56.1
19 54.3
825.2
13 14.2
15 17.5
19 47.4
30434
21 53.0
16
I 42.2
3 0.2
735.1
830.
944.7
16
II 29.5
13 32.1
17 0.7
19 14.7
038.5
150.6
2424
225.0
558.0
736.2
+ 8
+ 8
+ 8
- 8
- 7
+10
3
18.9
47.8
49.2
55
15.2
48.6
10.4
91+1
+ 5
-10
-4
+ 2
+ 3
i.ol+i
17-3
50
29-5
0.8
-0.0790
40.6268
40.4394
-1. 2 165
-1 .031 1
■K>.i443
-0.8344
-1 .3192
+0.8774
2517
+0.1530
+0.1786
-1.3515
.1956
+0.5508
.7513
+0.0705
-0.5455
.1628
+0.3710
-0.9475
-0.0169
+0.1760
6-0
- 035.3-0.5790
- 033.7-0.1789
- o 17.6-0.0302
- 015.7-0.2239
- O 12.2 -0.1857
- o 4.61+0.4518
+ o 25.2,+o.363o
+ 047.81+1.1505
+ I 8.2+0.5308
+ I 8.8+0.4436
-1.0214
^.7249
-1. 1403
56.8,+o.7949
6.0|-o.3347
44.O1+0.2479
42.5^+0.0348
58.0^+0.3723
4.3-0.6021
57.4'
8.8
36.4
01+10 12.8
52.9
+ I
-9
- 8
+ 3
+ 7
+ 9
-9
-9
- 7
-4
- 3
+ I
2
+ 3
17.2
-0.2084
+0.9268
6 +
2.3-0.6451
21.6+0.7502
14.9+1.1301
26.1 -0.2335
6.6+1. 1918
4.3-0.8126
24.4-0.8344
27.0-0.9137
16.4+0.4823
- 5 7-3-0.5531
+ 5
^ 7
+10
-II
- 6
0.5144
0.5126
0.5084
0.5056
0.5036
0.5027
0.4879
04881
0.4881
0.4901
0.4906
0.4990
0.5090
0.5103
0.5166
0.5210
0.5269
0.5274
0.5336
0.5388
0.5412
0.545'
0.5452
0.5453
0.5453
0.5455
0.5455
0.5456
0.5457
0.5461
0.5465
0.5468
0.5469
0.5472
0.5548
0.5583
0.5591
0.5688
0.5721
0.5735
0.5765
0.5770
y
N.
+0.1875
0.1922
0.2033
0.2103
0.2153
+0.2174
+0.2617
0.2616
+0.2615
0.2592
0.2586
0.2469
0.2313
+0.2292
0.2182
0.2103
o.
o.
^30r-49
+67-11
*^59
-33
-18
r-2l
-90
K6-37
^■53
+54
+ I
-34 -«4
+90 o
+90+27
-36
-33
991
982
«53
739
683
590
588
585
585
581
581
578
576
566
559
551
549
336
241
216
0.0889
'K5.0753
0.0695
0.0564
0.0535
0.5777 ( 0.0502
0.5798+0.0386
+0.
o.
o.
o.
o.
+0.
o.
o.
o.
o.
+0.
o.
o.
o.
o.
+0.
o.
o.
o.
-44-74
490+28
+80-10
+ 4-71
+49-
+15
+90+33
+67-13
10-66
-31
-22
+44t
+55
+i3[-6i
+35-39
+43-31
+32
-42
+34-39
+73
+67
+80
-28
0.5805
0.5829
0.5832
0.5837
0.5843
0.5851
0.5871
0.5880
0.5882
0.0345
0.0206
0.0176
0.0138
+0.0081
+0.0016
-31
-64
-7
-12
^^90+35
- 2
+73-7
-16-^
+ 4-64
-63
♦90+15
+26-41
+60-9
+47 -19
+68 o
+10-54
+33-30
+90+31
+ 8-56
+90+22
+90+47
+31
0.5863 -00094
00163
0.0337
■0.0375
+90+53
-3-^1
-5-61
-10-61
+77
+13
-a8
[+6
-50
OCCULTATIONS, 1913. 577
BLEHBITTS FOR THE PREDICTION OF OCCULTATIONS.
MARCH.
578
OCCULTATIONS, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
MARCH.
Thb Star's
At Conjunction in R. A.
Limit-
ills Par-
allels.
Name.
3 Scorpii
40 B. Scorpii
n. Scorpii
48 B. Scorpii
50 B. Scorpii
24 G. Scorpii
65 B. Scorpii
85 B. Scorpii
6 Scorpii
a Scorpii
116 B. Scorpii
134 B. Scorpii
135 B. Scorpii
95 G. Ophiuchi
43 Ophiuchi
163 G. Ophiuchi
X Sagittarii (tar.)
10 G. Sagittarii
210 B. Scorpii
W Sagittarii (xor.)
38 B. Sagittarii
C. D. -28^ 14268
48 G. Sagittarii
62 B. Sagittarii
^ Sagittarii
58 G. Sagittarii
r Sagittarii
183 B. Sagittarii
234 B. Sagittarii
248 B. Sagittarii
a? Sagittarii
A Sagittarii
56 B. Capricomi
17 Capricomi
X Capricomi
27 Capricomi
<t> Capricomi
Mag.
5-9
5.4
30
4-9
6.4
6.2
5.5
6.0
3.1
1.2
6.2
6.4
6.0
6.1
5-4
6.3
4.4
5-7
5.8
4-3
4-7
6.4
6.3
6.0
2.8
6.1
3-5
6.2
5-9
5-7
4.8
4.9
6.3
5.8
5-3
6.1
5.3
Red'ns from
I9i3'0.
Aa
•47
.45
.46
•44
•44
.42
•43
.40
•38
.35
•35
.30
•31
.22
.18
.09
.11
.07
.07
.04
.02
.00
0.97
0.98
0.97
-K).95
0.76
0.77
0.68
0.65
+0.55
0.53
0.35
0.29
0.19
+0.18
+0.18
A3
n
Apparent
Declina-
tion.
Washington
Mean Time.
Hour
Angle,
H
-1 1.6 -24 594
1 1.6 2435.1
11.3 2552.1
11.3 2537.6
1 1.6 2429.4
-11.6-24 14.0
11. 1 26 5.8
1 1.2 25 15.6
1 1.0 25 23.3
10.6 26 14.6
-10.6-26 21.1
d
26
26
lO.O
9.7
9-4
9.0
- 8.6
8.5
8.2
7-9
7-5
■7.8
7^5
7-7
7-5
7.01
■ 7-5
6.5
6.2
6.0
6.1
•5.6
5.6
5^i
5-7
5.2
■54
■ 5.1
27 17.8
28 21. 1
27 39.5
28 37
-27 507
2748.1
28 3.2
2845.1
29 352
-28 28.2
28 55-4
28 19.2
2841.0
2952.1
-28 28.3
27 48.0
28 46.4
28 2.2
27 99
-26 32.0
26 26.0
24 5.6
2149.9
21 32.7
-20 54.5
-21 0.9
27
28
29
SO
81
h m h m
21 49.8,+ 6 14. 1
2328.4+ 749.1
23 34-1,+ 7 54-6
I 26.8+ 9 43.0
141-9+ 9 57-6
3 20.9 +11 32.9
3 25-4+" 37-3
615.1,- 9 39-4
851.8;- 7 8.5
12 15.2- 352.8
13 4-1- 3 5-8
18 23.2+ 2 1.4
1839.8+ 2 17.4
559.2-1048.7
1030.0— 628.1
1845.7+ I 29.1
2032.2+ 3 1 1.6
020.3+ 651.2
I 8.6 + 7 37.6
347.5+1010.6
5 5.7+iii5^9
643.2.-11 0.2
9 0.6 - 8 47.8
9 0.8- 847.6
10 30-3'- 721.4
i0 57-5r 6552
6 i6.9|+ii 42.4
6 30.8 +11 55.8
14 1.4I-449.4
16 26.0- 2 29.8
4 13-2 + 8 53.3
540.0+10 17. 1
I 13.8+ 5 12.9
4i2.2j-^ 8 5.7
15 20.4,- 5 6.8
1550.6- 437.5
1855.8- 137.9
+0.3605
-0.3095
+1.0090
+0.4838
-0.7342
-12365
+0.6939
-0.5617
-0.7637
-02773
-0.2562
+0.1727
+1.2552
-0.3984
-0.2371
-0.8084
-0.9036I
-0.7050
+0.0337
+0.9 1 10
-0.291 1
+0.2005
-0.43 1 1
-0.0383
+1.2578
-0.2392
-0.1457
+0.9294
+0.7140
-0.0194
+0.5474
+0.6148
+0.8492
-1. 1580
+0.5005
-0.1 1 14
+0.5935
0.5627
0.5630
0.5630
0.5634
0.5635
0.5638
0.5638
0.5645
0.5648
0.5652
0.5653
0.5659
0.5660
0.5659
0.5654
0.5642
0.5637
0.5626
0.5624
0.5617
0.5613
0.5608
0.5599
0.5599
0.5593
0.5591
0.5501
0.5500
0.5455
0.5440
0.5365
0.5356
0.5226
0.5206
0.5135
/
N.
S.
0.1534
0.1493
0.1490
0.1440
0.1434
-0.1390
0.1390
0.1316
0.1244
0.1152
-0.1 1 29
0.0984
0.0978
0.0655
0.0528
-0.0290
0.0240
0.013 1
O.OIII
-0.0036
+0.0001
0.0049
O.OI 1 1
O.OIII
0.015 1
+0.0164
0.0679
0.0686
0.0871
0.0930
+0.1200
0.1232
0.1622
0.1677
0.1865
+48
-25
0.5132 ,+0.1873
0.5II2I+0.I924
+13-63
+651+15
+54|->8
-9,-90
-47|-90
+64- 6
- 1-S4
-13,-90
+11-62
+12.-60
+^-35
+62+45
0-70
W 8-59
-25-90
-31-90
-20-90
+17-43
+61+10
r
0-63
+26-33
-6-73
+i4;-47
+6r+50
+ 4'-59
+I4r53
+62I+11
+62r4
+231-46
56I-14
+60-10
+66i+ 3
-34i-90
+60-18
I
+29.-51
+66-13
APRIL.
128 B.
152 B.
39
42
45
50
182 B.
58
70
81
h
96
Capricomi
Capricomi
Capricomi
Capricomi
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
6.5
3-8
3.0
6.5
4-4
6.2
5-5
6.1
5-9
6.2
6.4
6.1
6.4
5-4
4-4
5-7
+0.1 1
0.04
+0.01
0.00
-0.07
-0.09
0.1 1
0.12
0.13
0.16
-0.18
0.22
0.29
0.30
0.34
-0.36
- 5.1-
5-5
5-4
5-1
5.3
50
5.2
5.0
4.8;
4.8,
4-5
4-8
4-5!
4-5:
4^4l-
19 31-8
17 3.4
16 31.4
17 15.2
14 17.6
■14 37.4
13 16.0
1344-5
13 58.3
13 21.7
-II 21.2
II i.o
731-8
8 9.9
631.2
- 5 36.1
[Eph
8
2 19.2+ 532.3
7 36.1 +10 39.8
II 15.7- 946.8
1256.81- 8 8.7
21 39-3|+ o 19.0
0 53-8|+ 327-9
3174+ 5 47-5
4 29.3!+ 6 57.4
728.01+ 9 51. 1
10 32.0 -I I 10.0
11 28.3-10 15.2
2049.7!- I 9.1
4 5-4!+ 5 54-9
612.3!+ 758.4
II 24.0-1058.2
14 16.6- 8 10.3
-K).4o89
-1. 2419
-1. 056 1
■K>.II72
-1.2342
-0-1255
-1.0777
-0.2702
+0.6863
+0.7405
-1.2650
+0.6479
-1,4002
-0.1595
-0.6548
-0.9307
0.5070 +0.2028
0.5039' 0.2102
0.5020
0.501 1
0.4969
0.4955
0.4945
0.4940
0.4928
0.4917
0.4914
0.4884
0.4867
0.4861
0.4854
0.4850
0.2147
0.2168
0.2269
+0.2302
0.2327
0.2339
0.2369
0.2396
+0.2403
0.2479
0.2
0.2542
0.2568
+0.2583
+58-23
-35-90
-20-90
+44-38
31-90
+33-52
-18-90
+27-60
+77- 9
+77'- 6
-32-^
+79-11
528 -47'-90
36
1+11
-53
-«7
V 4h90
13]
OCCULTATIONS, 1913.
579
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
APRIL.
Tbs Star's
Name.
317 B. Aquarii
337 B. Aquarii
342 B. Aquarii
Arietis
Arietis
Arietis {mean)
Arietis
Arietis
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Aurigae
Aurigae
Aurigae
Tauri
Aurigae
Taun
Aurigae
Aurigae
Tauri
Tauri
Aurigae
Taun
Aurigae
Aurigse
Aurigae
Aurigae
Aurigae
Aurigae
Geminorum
Geminorum
Geminorum
Geminorum
Geminorum
Geminorum
Geminorum
Geminorum
Geminorum
Geminorum
M
47
e
C
66
7
16
17
18
20
21
22
23
V
104 B.
27
28
14 H.
P
0
X
17 B.
38 B.
47 B.
354 B.
22
/J
107 B.
116 B.
406 B.
136
154 B.
415 B.
183 B.
K
211 B.
49
53
54
28
47
53
134 B.
59
f
6»
V
c
0 Geminorum
I
6.3
6.5
5.7
5.8
4.6
50
6.1
5-9
5.4
3.8
5.6
4.3
4.1
5.8
6.5
4-3
30
5-5
3.7
5-2
5.3
5.6
50
5.3
6.0
6.5
6.0
64
64
1.8
6.5
5-9
5.6
4.6
64
6.1
6.3
44
6.3
51
5.6
5.8
5-5
56
5 9
6.5
5.7
3.9
50
50
4-3
5.5
50
Red'ns from
Aa
A£
//
8
-o.36|- 4-3
« 0.38 4.0
-0.39- 4.0
,-0.63
i 0.58
, 0-59
0.54
o-50|
f0.50 +
I ^-45
; 0.44
i ^-45
1-0.44 +
°-45
' 045,
: 0.44
-0.42 +
' 0.42
043
043
' 0-35,
^.30,+
0.27I
o.ii'
I 0.03!
,-O.OI|
+0.06 +
0.07'
o.io|
0.16,
0.18
(
,40.27:+
I 0-291
0.31
, 0.34
0.37!
+043 +
0.48
0.57'
0.60
0.61
+0.65 +
0.82
0.86
0.86
0.92
+0.93 +
0.96
0.96
1.00
1.04
+ I.I2 +
4.6
54
5.6
6.1
7.0
7.5
7.9
7-9
8.0
7.9
7.9
8.0
8.0
7-9
8.0
7.8
8.0
8.0
8.4
9-2
Apparent
Declina-
tion.
623.1
5 05
433.8
NEiV
+19 38.6
20 19.3
20 59.7
20 43.5
22 304
+24 10.5
24 I.I
23 50-6
2434.2
24 1 1.8
+24
24
24
23
23
+23
23
23
25
26
9.7+27
9.3, 25
0.6 27
0.7; 27
0,8, 27
0.9 +27
1.3! 28
I.I
0.9
1.4
28
27
29
5-9
17.2
15.6
40.8
50.3
9.4
474
524
19.2
154
8.7
25.6
45.3
34.7
55-5
524
51-5
32.3
36.6
10. 1
56.8
35-7
56.0
34.3
i.5i 2931.4
1. 1+27
0.9 27
'4,
0.9
I
28
27
1.4+29
1.4 29
0.7 28
i.o 29
0.7 28
0.9 +29
9.6 27
9.8 28
9-3 ^(^
9-5 27
9-5 ^27
9.5 28
28
27
25
8.1 +26
94
8.8
8.1
At Conjunction in R. A.
Limit-
inic Par<
allels.
Washington
Mean Time.
d
8
h m
15 l-l
20 2.6
21 10.8
MOON.
Hour
Angle.
H
h m
726.9
2334
I 27.
% 410.3+ 239.0-0.7659
9
10
12
13
11 41.0.+ 9
12 13.1 +10
19 334 - 6
1 43.9 - o
425.1,+ 2
9 2.8"+ 6
9 4.9+ 6
9 ii.8|+ 6
9 I3.4i+ 6
930.0
931.9
935.7
943.6
10 14.2
+0.1292
-0.0892
.2837
0-0
1037.7
1058.7
10 59.3
11 27.7'+ 8
20 22.2- 6
025.2- 2
I 23.4 - I
13 564!+io
1847.0- 8
2051. ij- 6
11 I 23.2!- 2
2 i9.7r I
3 29.9'- o
721.6;+ 3
8 40.5 + 4
13 18.7'+ 8
14 14.9+ 9
+10
-II
- 9
55.2 +0.0528
26.3-0.5621
27.9+ 1. 143 1
29.8,+o.35ii
5.8-0.9683
34.0-0.0382
36.o'+o.i548
42.6-0.6008
44.2 -0.2004
7 0.3-0.0515
7 2.1-0.2456
7 5.7-0.2074
7 13.3 +0.4305
742.9+0.3417
8 5.5+1. 1293
8 25.8+0.5096
8 26.4 +0.4220
53.8|-i.0440
30.7-0.7499
364 -1. 1673
404+0.7723
24.7I-0.3632
55.8 +0.221 1
56.5+0.0067
34.9,+o.3455
40.6 -0.6353
32.1
35-1
5.6
3.8
20.6
3.8
0.2
31
51.0
4«.6
58.5
18.1
59
5-5
596
596
lEph IJ]
15 30."
17 164
19 20.8
2252.8-
I 9.2-
6 390'+
7 52.6 +
8 20.6 +
9.5
25.3
52.6
46.5
58.7
19. 1
19.6
-0.2395
+0.9030
-0.6801
0.4849
0.4844
0.4843
/
+0.2586
0.2609
+0.2612
+0.21 15
0.1998
0.1988
0.1864
0.1745
+0.1691
0.1596
0.1596
0.1593
0.1591
+0.1585
0.1585
0.1583
0.1580
0.1569
+0.1561
0.1553
0.1553
0.1543
0.1338
+0.1239
0.1216
0.0885
0.0754
0.0691
10 21.8+ 5
2048.2- 8
2234.6- 7
23 1.6- 6
3
1574-
2 25.2-
3 50 o -
4 13-
6 26.8 +
9 42.0 +
13 24.7 +
3
2
I
o
3
+0.7248
+1.1074
-0.2672
+1.1698'
-0.8519;
56.0-0.8750'
45.1-0.9557
31.6+04533
42.2 -0.5933
9->|+o.i33i
54-06953'
53-2 +0.7885
1 1.0 -04334
45.1 +0.7661
56.4 -0.4806
29.6 <j.69,V4
8.2 -1. 1644
57-3 0.9759
22.4 -0.1924
29-9*0.5703
3.8 -<j.9026
0.5245
0.5303
0.5308
0.5367
0.5416
0.5439
0.5475
0.5475
0.5476
0.5477
0.5479
0.5479
0.5480
0.5481
0.5484
0.5487
0.5490
0.5490
0.5494
0.5563
0.5592
0.5600
0.5685
0.5715
0.5726
0.5748 140.0561
0.5753' 0.0533
0.57581 0.0498
0.5777 0.0385
0.5781 0.0345
0.5796 +0.0202
0.5799' 0.0172
0.5803! 0.0136
0.5809' 0.0081
0.5815+0.001.8
0.5820 -OXXD9I
0.5823' 0.0162
0.5831 0.0335
0.5831 0.0372
0.5830 0.0387
0.5829 -ox)450
0.5821 0.0773
0.5817 0.0827
0.5816 0.0842
0.5810 0.0929
0.5809 -0.0943
o.58f:>5 0.0987
0.58^^5 ox>990
o.58of:) 0.1066
0.5788 0.1 159
05775 -0.1266
N.
-38
h49
+30-60
+5«
+40
+ 3
+48
+15
-71
-32
-^5
+904^31
+66:14
-11-66
+43-32
+541-22
+ I2|^2
+34,-40
+42 -32
+31,-42
+33-41
+72- 8
+661-12
+90J+34
+78!- 4
+7i|- 9
-17' -65
-3o:-63
+90,+i4
+24I-43
+58,-10
+45.-2 1
+66 - 2
8|-57
|+3i|-32
+90+29
5-59
+90+21
+90+45
+29-30
+90+51
- 6-61
- 7-61
-13-61
+75+ 5
+ 11 -52
r53-ii
+ 5-60
-^90+19
+20-45
+90 +17
+18 -50
5-63
-31-62
-14-62
34-34
+85+ 4
-8-64
580
OCCULTATIONS, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
APRII<.
Tan Stak's
At Conjunction in R. A.
Limit-
ins Par-
allels.
Name.
00
4
X
28
r
90 H^
107 B.
34
37
/
X
308 B.
6
80
89
/?
27 B.
13
162 B.
200 B.
/
319 B.
9
a
550 B-
86
621 B.
214 G.
40 H.
43 B.
47 G.
64 G.
153 B.
169 B.
177 B.
42
6
A
31 B.
32 B.
3
40 B.
It
48 B.
50 B.
24 G.
65 B.
85 B.
6
a
116 B.
Cancri
Catim
Cancri
Cancri
Cancri
Cancri
Cancri
Cancri
Cancri
Leonis
Leonis
Leonis
Leonis
Leonis
Leonis
Leonib
Leonis
Leonis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Librae
Librae
Librae
Librae
Librae
Libne
Libne
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scoipii
Scorpii
Scorpii
Scorpii
134 B. Scorpii
Mag.
I Red' ns from .
5-9
6.2
5.9
5.9
6.1
5.7
6.4
4-7
6.1
6.3
6.4
5-5
5-3
4.7
5.8
4.1
6.4
5-7
3-8
6.5
5-9
6.2
6.3
6.0
6.3
5.6
6.2
1.2
6.0
5-6
6.4
6.5
5.1
5-7
6.1
5.8
6.3
6.0
6.2
50
4.7
4.6
5.4
5.3
5.9
5.4
3.0
4.9
6.4
6.2
5-5
6.0
3.1
1.2
6.2
6.4
A8
%
.16
.16
.21
•25
.31
.33
.34
.37
.53
•71
.701
•73
.82
.82
.87
.87
.85
.87
.92
.91
.95
.94
•941
•95
•97
H-2.00
1.99
2.01
2.03
2.05
+2.06
2.06
2.07
2.14
2.12
+2.12
2.15
2.14
2.14
2.14
+2.15
2.15
2.14
2.13
2.14
+2.14
2.15
2.14
2.13
2.12
+2.14
2.12
2. II
2.14
2.14
+2.12
n
7
7-2
6.9
6.1
5.7
5^6
5-5
4.0
2.4
2.3
4+25
3.4H-I3
3.6
6.4
8.0
8.3
9.2
9.9
0.5
1.6
2.1
3.1
4.0
4.2
4-4
4.8
5.6
5-7
6.0
6.2
6.3
6.4
6.4
6.4
6.3
5-5
53
4.7
4.8
4-7
4.6
4.0
4.0
4^1
4-2
4.0
3-9
3-7
3.6
3^8
3.7
Declina-
tion.
askington
eantune.
Mean
38.0
25 199
25 46.4
24 >7.9
24 26.1
+24 22.6
24 23.0
21 47.0
21 38.6
16 10.8
14
II
7
8
6
4
3
2
I
o
4
4
5
5
- 8
9
10
12
II
-H
15
15
21
21
47.0
9.7
0.2
48.3
32.1
302
20.2
32.4
15.1
0.7
18.4
8.3
34-6
21.4
49.8
31.4
52.2
42.7
46.4
59.7
33.5
55-5
53.8
1-7
41.9
-22 4.9
24 1 1.9
2251.5
22 52.2
23 32.4
-25 29.5
25 4.3
24 16.7
23 43-4
24 59.4
-2435.1
2552.1
25 37.6
24 29.5
24 14.0
3.3-26 5.9
3-3 25 15.6
3.0 2523.3
2.6 26 14.6
2.5 26 21. 1
1.8-27 17.8
d
18
14
Hour
Angle,
h m h
16 23.6 + 9
16 43.2 +10
20 1 2.7 -10
O 17.6- 6
3 34.0:- 3
445^o- 2
521.4- I
9 36.2|+ 2
22 13.11- 9
15 20 40.3 -I I
16
17
23 18.4
I 32.1
16 8.8
23 20.3
326.4
642.8
852.7
1248.8
18
19
80
21
28
r 9
- 7
-^ 7
- 9
- 6
- 2
- o
+• 3
20 19.0 +10 1 7.0 -0.05 1 3
83
013.4
917.8- I
1332.6+ 2
15 17.3+ 4
1739.5+ 6
2236.6+11
8 12.3- 3
845.1- 2
15 44.9 + 4
20 0.4+8
1 3.0-10
9 14.2- 2
934.1-2
12 2.0- o
8 2.3- 4
"52.3- I
16 2.6+ 2
22 59.9 + 9
056.5 +11
I 35-1-"
I 57.4 -I I
6 20.0- 7
725.2- 6
732.9- 6
734.1-6
7510- 5
9277- 4
933.2- 4
II 23.7- 2
II 38.5- 2
X3 15-5 - o
13 19.9- o
16 6.1+ I
1839.4+ 4
2158.4+ 7
22 46.3 + 8
358.3
m
55.7 +0x5967
14.5 +0.3608
24.1-0.5820
28.8+0.3035
19.9 -0.3629
11.6-0.^996
36.6 -0.0084
28.5 +1.2847
23.0-1.0356
44-3 -0.7308
1 1.8 +1.0025
2.7 +0.0531
3.7-0.6994
59.6 +0.481 1
1.6 -1.4090
519
46.3
1.9
- 9 56.4
10. 1
56.2
37-4
54-9
42.0
1.6
29.9
15.7
22.4
45.4
0.3254
+1.2064
+0.8576
+0.0362
-1-3183
+1.2465
+1.1735
+1.2586
'K).2942
+0.2363
+1.4263
+0.3178
+I.217O
-0.9129
51.4-04632
32.1 +0.8262
9.4 +0.1 801
52.2 +0.7477
10.6 +0.6342
50.4+0.1972
32.3+1.0700
24.6-0.6439
58.3-0.7417
36.9 -O.I 182
24.2+1. 1673
21.4+0.5649
I4.0-0.27I3
12.9-0.8463
56.6 +0.4143
23.5 -0.2496
18.2 +1.0588
31.9+0.5388
17.7-0.6694
44.4 -1. 1663
40.2 +0.7482
59.6-0.4953
27.2-0.6937
38.5 -0.2099
24.5-0.1887
+0.2393
-10 35.4
0.5764
0.5763
0.5749
0.5730
0.5715
0.5710
0.5707
0.5686
0.5619
0.5505
0.5493
0.5483
0.5426
0.5405
0.5394
0.5385
0.5382
0.5377
0.5369
0.5368
0.5370
0.5374
0.5376
0.5379
0.5388
0.5410
0.5412
0.5434
0.5449
0.5468
0.5502
0.5503
0.55 H
0.5603
0.5620
0.5638
0.5665
0.5672
0.5675
0.5676
0.5692
0.5696
0.5696
0.5696
0.5697
0.5701
0.5701
0.5706
0.5707
0.57"
0.571 1
0.5719
0.5725
0.5730
0.5731
0.5738
N.
1358 +67
+12
+63
+25
2900 +90
-0.1348
o.
0.1455
0.1562
0.165 1
-0.1679
0.1695
0.1 801
0.2089
0.2505
2543
0.2575
0.2753
0.2817
0.2848
-0.2873
0.2883
o.
0.2936
0.2930
-0.2929
0.2918
0.2914
0.2908
0.2883
-0.2822
0.2816
0.2750
0.2706
0.2641
-0.2528
0.2523
0.2484
0.2 1 15
0.2029
936
772
732
707
698
587
559
556
556
549
504
504
452
445
403
400
326
257
162
138
+17
+11
+90
-15
+50-22
-9
-59
-49
-57
-63
+48
I-69
6-74
^+13
M7-38
8-79
+73 -19
-48-82
+28-63
+90+22
1+42
46
o
1-48
-43
-32
+86+27
+86
^85
+61
+57
+81
+21
+28
-30
-32
+54
o.
o.
o.
o.
-o.
o.
o.
o.
o.
-o.
o.
o.
o.
o.
-o.
o.
o.
o.
o.
♦^5^
+59
+15
-15
+51
+16
*65
+57
+62
+ I
-9
+60-28
+78+26
-6
+17
75
|+49[
+68-
+68
-72
- I
-35
4
-10
+43-34
+66'+-i9
- 2
-81
+24
-90
-51
+29
-13
-61
-90
h-22
h6o
+19
1-15
6-90
h39r90
- 2
-77
-90
+I5p57
+16^6
lEph ul
-0.0990 |+36i-3 1
OCOULTATIONS, 1918. 581
BLEMENTS FOR THE PREDICTION OF OCCULTATIONS.
APRIL.
582
OCCULTATIONS, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
MAY.
Tun Star's
At Conjunction in R. A.
Limit*
ini; Par-
allels.
Name.
17 B.
38 B.
47 B.
354 B.
22
/J
107 B.
116 B.
406 B.
136
154 B.
415 B.
183 B.
K
211 B.
49
53
54
28
47
53
134 B.
59
1
V
' c
1 ^
< 00
t
Pisdum
Aurigse
Aurigse
Auries
Taun
Aurieae
Taun
Aurigse
Aurieae
Taun
Tauri
Auriese
Taun
Aurigse
Aurigae
Aurigae
Aurigae
Aurigae
Aurigae
Gemmonim
Geminonim
Geminonim
Geminomm
Gemmonim
Geminomm
Geminonim
Geminonim
Geminonim
Geminonim
Cancri
Cancri
Cancri
Cancri
28 Cancri
v* Cancri
V* Cancri
y Cancri
90 H*. Cancri
107 B. Leonis
34 Leonis
37 Leonis
/ Leonis
X Leonis
6
80
27 B.
162 B.
200 B.
/,
319 B.
9
50
Leonis
I^eonis
Leonis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Mag.
4.4
6.0
6.5
6.0
6.4
6.4
1.8
6.5
5-9
5.6
4.6
6.4
6.1
6.3
4.4
6.3
5.1
5.6
5-8
5-5
5-6
5-9
6.5
5-7
3-9
5.0
4.3
5-5
5.0
5-9
6.2
5.9
5.9
6.1
5.7
6.4
4.7
6.1
6.3
6.4
5.5
5.3
4.7
4.1
6.4
57
3.8
6.5
6.2
6.3
6.0
6.3
5.6
6.2
9
-0.25
-0.27
0.23
Red'ns from
1913.0.
Aa
-0.20|-»- 9.6
0.15
0.15
0.13
0.08
-0.07
-O.OI
+0.01
0.02
0.05
+0.07
0.12
0.16
0.24
0.26
+0.27
0.30
0.45
0.48
0.49
-K>.54
0.55
0.57
0.61
0.65
K).72
0-75
0.75
0.81
0.86
+0.91
0-93
0.94
0.98
1. 16
AS
//
+ I.I
9.2
9-4
9-7
lO.Oj
9.9
9.9
+10.2
lO.O
IQ.O
10.3
icd
+10.5
10.4
10.5
10. 1
10.4
+10.2
10.3
94
9.6
9-3
94
94
94
9.0
8.4
8.5
7-9
7-7
7-5
6.8
6.5
6.4
6.4
5
3.8
+1.38
1.38
1.42
1-54
1.58
+1.65
1.65
1.68
1.76
1-77
+1.85
1.87
1,89
1-93
2.01
Apparent
Declina-
tion.
Washington
Mean Time.
-0.7
1.8
1.9
4-7
6.6
-7.8
8.7
9-3
10.5
II. I
-136
13-8
14.2
14.6
15.7
+ 7 25.3
NEW
+27 45.3
27347
+27 55-5
27 524
2851.4
28 32.3
27 36.5
+29 10. 1
27 567
27 357
28559
2734.3
+29314
29 32.0
29 35.0
28 5.6
29 3.8
+28 20.6
29 3.8
27 0.2
28 3.1
26 5 1 .0
+27 48.6
27 58.5
28 5.9
27 5-5
25 59.6
+26 59.7
25 38.0
25 19.9
25 46.5
24 179
+24 26.2
24 22.6
24 23.0
21 47.0
21 38.6
-»-i6 10.9
13 47.1
14 97
II t).3
748.3
630.3
4 20.2
332.5
2 15.1
I 0.7
•- 4 8.3
4 34-6
521.4
5 49-8
8314
d
8
h m
7 59-2
MOON,
7
8
9
10
11
+2.001-16.0'- 9 52.2
[Eph
12
13
14
16
16
19 50-3
036.8
Hour
Angle.
H
h m
+ 946.1
- 5 54.0-0.4613
I 18.6
2393+ 039- 1
+ 457.2
+ 5 50.7
+0.1685
7 7.8
8 3.6
913-0+ 657.4
13 1-9
14 19.9
18552
19 508
21 5.2
22 50.6
053-8
424.0
639.3
12 7.0
13 20.2
13 48.1
15 48.7
2 13.2
3 59-5
426.4
722.3
750.0
926.3
II 52.0
15 7.8
18 51.3
2151-2
22 10.8
I 41.7
548.5
9 6.8
10 18.5
1055.3
15 12.9
4 0.8
2554
5 37-3
754.3
22 54.2
6 18.0
13534
16 7.1
20 10.3
353.9
755.2
21 377
23 25.3
151-5
656.8
1647.4
17 20.9
+1037.2
-m 52.2
- 7 43-5
- 650.1
- 5 38.6
- 3 574
- I 59-3
+
+
+
+
+0.1153
-0.0999
■K>.233I
-0.7442
-0.35 1 1
40.7829
-0.7947
+0.6009
+0.9816
-0.3892
+1.04 1 1
-0.9757
I 22.5 -1 .002 1
332.4
-1.0839
846.9+0.3173
957.1,-0.7285
+10 23.9-0.0037
-1 1 40.4I-0.8323
- I 4o.8-K).643i
+ o 1.3-0.5802
+ 027.0+0.6193
+ 3 15-9 -0.6301
+ 3 42.6 ^.8433
+ 5 i5-i,-'-^272
+ 7 349,-0.3445
+1043.1 ■K).4i76
- 942.2-1.0612
- 649.3-0.0603
- 6 30.5
- 3 7.7
+ 049.6
4 0.3
5 9-3
5 447
952.6
147.8
■K).2045
-0.7434
+0.1436
^-5274
-0.6651
-0.7748
+I.I277
-I.2II7
- 341.71-0.9051
- I 54
+ I 7.0
- 8 23.3
- I 14-3
+ 6 6.3
+ 8 15.6
-II 49.0
- 4 20.4
- o 26.8
-II 10.8
- 9 26.8
7 5-3
2 10.0
721.4
753.8
+0.8476
-0.1112
-0.8660
+0.3354
-0.4754
+1.0797
+0.7305
-0.1824
-0.0887
+1.1577
+ 1 .0862
+ 1.1760
+0.2068
+0.1646
+1.3703
0.4942
0.5741
0.5767
0.5778
0.5802
0.5805
0.5810
0.5823
0.5828
0.5844
0.5845
0.5847
0.5850
0.5853
0.5858
0.5862
0.5859
0.5858
0.5858
0.5857
0.5836
0.5831
0.5830
0.5822
0.5820
0.5813
0.5803
0.5789
0.5773
0.5757
0.5755
0.5736
0.5714
0.5694
0.5687
0.5683
0.5656
0.5576
0.5441
0.5426
0.5414
0.5350
0.5324
0.5306
0.5301
0.5294
0.5287
0.5286
0.5296
0.5299
0.5304
0.5313
0.5344
0.5345
+0.2592
+0.0885
0.0746
+0.0687
0.0558
0.0528
+0.0337 - 2;-6i
0.0198 +891+14
y
N.
+54:-35
+191-48
+51-16
+39-26
+59
- 8
+ 2-62
0.0492 +251-38
0.0378
+90+22
0.0168
0.0126
0.0074
+0.0009
-O.OIOO
O.OI 7 1
0.0345
0.0383
-0.0398
0.0462
0.0780
0.0835
0.0850
-0.0937
0.0951
0.0996
0.1069
0.1 162
-0.1270
0.1350
o 1360
0.1453
0.1562
-0.1646
0.1675
0.1689
0.1793
0.2072
-0.2469
0.2510
0.2541
0.2706
0.2770
-0.2816
0.2828
490+36
+22L-37
+90+41
-i5ki
-i7!-6i
-25^-61
+^5r '
2-61
+44-18
- 4-6t
+90+11
+12-54
+90+ 9
+ 9^-59
-271-62
+25-43
+71
- 4
-20J-64
+41-30
+57-17
+ 3.-65
+53-21
+16I-58
+ 8-66
1I-66
+90+32
-30-69
-4f-74
+90+ 3
+39
-4:
- 1-79
0.28681+35
0.2876
-0.2863
0.2857
0.2849
0.2832
0.2768
-0.2765
+63
+20
-26
-72
+90+13
0.28481+90- 7
-55
+40-49
+86+20
+86+15
+85+21
+56-34
+53-36
+81 +42
I3l
OCCULTATIONS, 1913.
583
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
MAY.
Limit-
Th« Star's
At Conjunction in R. A.
inff Par-
allels.
Namr.
Mag.
Red'ns from
19x3.0.
Apparent
Declina-
tion.
Washinston
Mean Time.
Hour
Angle,
H
Y
x"
y
N.
S.
A5
0 f
d h m
h m
0
0
a Virginls
1.2
+2.07
-16.4
-1042.7
17 0 30.8
- 9 10.5
40.2606
0.5373
-0.2700
^-56-31
550 B. Virgmis
6.0
2.10
16.9
1246.4
452.0
-458.1
+1.1771
0.5391
0.2659
478 +23
86 Virgiilis
5.6
2.15
16.9
1 1 59.7
10 I.O
+ 0 0.5
-0.9661
0.5414
0.2599
- 9
-90
621 B. Virginis
6.4
2.21
17.3
14 33.5
18 21.6
+ 8 4.0
-04959
0.5456
0.2491
+15
-75
214 G. Virgmis
6.5
2.22
17.5
15 55-5
18 41. 8
+ 8 23.6
+0.8063
0.5457
0.2487
^■75
- 2
40 H. Virginis
5.1
•H2.24
-17-5
"15 53.8
21 12.2
+1048.8
+0.1588
0.5471
-0.2447
H7
-36
43 B. Librae
57
2.44
18.1
21 1.7
18 1728.6
+ 622.2
+0.7672
0.5582
0.2090
+69
-3
47 G. Librse
6.1
2.46
17.3
2141-9
21 20.8
+10 5.9
+0.6595
0.5603
0.2006
+68
-9
64 G. Librae
5.8
2.49
17.0
22 5.0
19 1 330
-9511
+0.2280
0.5626
0.1912
+44
-32
153 B. Librae
6.3
2.55
16.6
24 1 1.9
832.8
-3 6.8
+1.1163
0.5662
0.1753
466
+23
169 B. Librae
6.0
+2.55
-16.4
-2251.5
10 29.9
- I 14.1
-0.6006
0.5671
-0.1705
- I
-86
177 B. Librae
6.2
2.55
16.3
22 52.2
II 8.6
- 0 36.9
-0.6974
0.5674
0.1687
- 5
-90
42 Librae
5.0
2.56
16.3
23324
1131-0
- 0 15.3
-0.0712
0.5676
0.1678
+27
-49
b Scorpii
4-7
2.61
159
25 29.5
1554.4
+ 3 58.2
+1.2252
0.5696
0.1571
+65
^36
A Scorpii
4.6
2.61
15.8
25 4.3
16 59.7
+ 5 i-»
+0.6232
0.5701
0.1544
+63
-10
31 B. Scorpii
54
-•-2.60
-15.8
-24 16.7
17 74
^ 5 8.5
-0.2149
0.5702
^.1538
+18
-57
32 B. Scorpii
5.3
2.59
15.7
23434
17 8.7
+ 5 9-7
-0.7912
0.5702
0.1538
-12
-90
3 Scorpii
5-9
2.61
157
24 594
17 25.6
+ 5 26.0
+04728
0.5703
0.1532
^■54
-18
40 B. Scorpii
54
2.62
15.6
24351
19 24
+ 659.1
-0.1898
0.5710, 0.1493 1
+19
-)6
jr Scorpii
3.0
2.64
15-6
2552.1
19 8.0
+ 7 4-5
+1.1215
0.5710
0.1489
+65
+25
48 B. Scorpii
4-9
+2.65
-154
-25 37.7
2058.6
+ 8 50.9
+0.6033
0.5717
^.1437
+61
-II
50 B. Scorpii
64
2.63
154
24 29.5
21 13.3
+ 9 5.1
-0.6066
0.5718
0.1431
- 3
-88
?4 G. Scorpii
6.2
2.64
15.2
24 14.0
22 50.4
+1038.5-1.1015
0.5724
0.1388
-34
-90
65 B. Scorpii
5-5
2.66
15.1
26 5.9
2254.8+1042.7
+0.8162
0.5724
0.1385
+64
+ 2
85 B. Scorpii
6.0
2.66
14.8
25 15.7
20 1 40.9
-10 37-5
-04243
0.5733
0.1310
+ 5
-72
6 Scorpii
3.1
+2.67
-14.5
-25 23.3
414.0
- 8 10.2
-0.6186
0.5742
-0.1242
- 6
-89
a Scorpii
1.2
2.70
14. 1
26 14.6
732.6
- 4 59-3
-0.1286
0.5752
0.1 149
+18
-52
116 B. Scorpii
6.2
2.70
14.0
2621.2
820.3
- 4 134
-0.1059
0.5754
0.1128
+19
-51
134 B. Scoipii
6.4
2.73
13.2
27 17.8
1331-2
+ 045.5^+0.3301
0.5764
0.0980
+41
-26
95 G. Ophiuchi
6.1
2.76
11.6
27 39.5
21 047.2 +11 35.2
-0.2109:0.5775
0.0649
^ 9
-57
43 Ophiuchi
54
+2.77
-10.8
-28 3.7
5 9.5- 812.7
-0.0426
0.5776
-0.0517
+17
-47
163 G. Ophiuchi
6.3
2.75
9.6
27 50.7
13 9 3j- 031.3 -0.5899
0.5765
0.0280
-13
-88
X Sagittarii
(var.) 4.4
2.74
9-3
27 48.1
1452.2+ I 7.4-0.6806
0.5761
0.0226
-18
-90
10 G. Sagittarii
5.7
2.74
8.7
28 3.2
18 32.7 + 4 39.4
-0.4776
0.5755
o.oi 19
- 8
-77
210 B. Scorpii
5.8
2.78
8.4
2845.1
i9i9-4-»- 524.3-^-2523
0.5753
0.0094
+29
-30
W Sagittarii
(var,) 4.3
+2.79
-7.8
-29 35.2
2152-9,-^ 751.9+1.1223
0.5743
-0.0019
+61
+29
38 B. Sagittarii
C. I).-28<>
4.7
2.76
7.8
28 28.2
23 8.5
+ 9 4.6J-0.0606
0.5738
+0.0019
+12
-48
14268 6.4
2.76
7-5! 2855.4
22 0 42.6
-no 35. 1
+0.427 1
0.5732
0.0065
+40
-20
48 G. Sagittarii
6.3
2.74
7.3 28 19.1
2 55.4 -II 17.1
-0.1916
0.5724
0.0129
+ 6
-56
62 B. Sagittarii
6.0
2.75
7.i| 2841.0
2 55.6|-ii 16.9
+0.1957
0.5724
0.0129
+27
-33
58 G, Sagittarii
6.1
+2.73
- 6.8;-28 28.3
4 48.3 - 9 28.5
+0,0009
0.5717 +0.0186
+16
-44
0 Sagittarii
3.3
2.64
54
27 50
1433.91-0 5.1
-I. 1633
0.5668
0.0462
-47
-90
r Sagittarii
3.5
2.62
3-7
27 48.0
23 28.8+ 8 30.0
+0.1251
0.5615
0.0704
+28
-37
183 B. Sagittarii
6.2
2.64
3.5
28 46.4
2342.2+ 842.9
+1.1847
0.5613
0.0710
+62
+35
234 B. Sagittarii
5.9
2.56
24
28 2.1
28 658.3-816.9
+0.9842
0.5565
0.0902
+62
+15
248 B. Sagittarii
5-7
+2.52
- 2.2
-27 9.9
9 18.4- 6 1.8
+0.2654 0.5547
+0.0958
+38
-29
a> Sagittarii
4.8
243
0.5
2631.9
2044.8+ 5 0.4
+0.8408
0.5457
O.I23I
+64
+ 4
A Sagittarii
4-9
2.41
-0.3
26 25.9
22 9.2+ 6 21.9
+0.9093
0.5447
0.1259
+64+ 9
36 B. Capricorn]
i 6.2
2.18
+ 0.7
22 40.8
24 12 14.4- 4 1.3
-1. 1763
0.5331
0.1554
-38
-90
56 B. Capricorn
i 6.3
2.16
2.0
24 5-5
17 14. 1 + 048.6+1. 1649 0.5291
0.1649
+66
+28
17 Capricorn
i 5.8
+2.10
+ 1.7
-21 49.8
20 8.8+ 337.7
-0.8166 0.5266
+0.1703
-11
-<K>
^ Capricorn
i 4.8
1.97
2.3
20 1 1 .9
25 5 2.6 -I I 45.4
-1.0202! 0.5 195
0.1853
-21
-90
X Capricorn
i 5-3
1.97
3.0
21 32.6
7 4-7r 9 47.0
+0.833110.5180
0.1886
+69
+ 2
27 Capricorn]
i 6.1
^•95
2.8
20 54.3
734.3- 9184
+0.2275
0.5176
0.1893
+47
-32
4p Capricorn]
i 5.3
1.92
3-2
21 0.9
1036.6- 621.7
+0.9277:0.5153
0.1937
+69
+ 7
128 B. Capricomi
6.5
+1.80
+ 3-6
-19 31.6
1753.9
+ 042.4
40.7494
0.5099
+0.2043
+70
-4
(Eph 13]
584
0CCULTATI0N8, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
MAY.
Tb> Star's
Name.
152 B.
I
39
42
45
50
182 B.
6
58
70
81
h
0
96
317 B.
337 B.
342 B.
20
Capricomi
Capricorni
Capricorni
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Pisdum
60 B. Pisdum
80 B. Pisdum
98 B. Pisdum
44 Pisdum
60 Pisdum
62 Pisdum
147 B. Pisdum
o Pisdum
171 B. Pisdum
e Pisdum
jr Pisdum
Maf.
3.8
3.0
6.5
4-4
6.2
5.5
6.1
5.9
6.2
4.9
6.4
6.1
6.4
54
44
5.7
6.3
64
6.5
5.6
6.0
6.3
6.3
6.0
6.2
6.1
5-9
4.6
6.3
44
5.6
Red'nft from
1913.0.
Aa
.74
.69
.68
•53
•501
•45
.48
.44
.41
.36
36
.25
.16
•15
.07
•03
.03
0.96
0.95
0.87
+0.80
0.75
0.66
0.64
048
+048
0.51
0.47
0.43
0.40
+0.25
Aa
//
+3.5
3.6
4-1
4.0
44
+4.1
4.6
5.0
5-0
4.3
+44
5-1
4.6
5-0
4.8
+4.7
51
4.9
4.8
5-3
+4.6
5-2
4-9
5.3
4.6
+4.5
4.6
44
5.1
4.8
+5-0
Apparent
Declina-
tion.
■17 3.3
16 31.3
17 15.0
H 17.5
14 37-3
-13 15.9
13444
13 58.2
13 21.6
" 7.3
■II 21.0
II 0.8
731.6
8 9.7
631.0
- 535.9
622.9
5 0.3
433.7
314.6
- o 224
-059.1
+ I 124
I 27.6
6 16.1
+ 649.6
450.1
7 6.8
6 0.9
7254
+11 41.9
At CoNjvNcnoN in R. A.
Washington
Mean Time.
d
S6
h m
23 7-2
2446
424.8
13 3-4
16 16.8
f7
1839.7
1951.4
2249.5
153.0}+
2 15. 1
Hour
Angle.
H
h
+ 5
+ 9
+10
4
I- I
ra
46.4J-O.88159 0.5064
17.5-0.7008
54.6+04639
41.7-0.8784
33.7+0.2229
249.2
12 lO.Oi-
+
+
+
19 26.0
2133.2
2456
538.6
623.2
1125.6
1234.0- 6
2157.9+ 2
29
o
I
4
7
8
8
6
o
2
7
+10
+11
- 7
45
54.9
48.
46.5
8.
2-0
o+i
o-i
41.2
133
50.9
54.7
58.
47-1
305
3.").»
28.4
40.5
1530+ 629.5
745.3-1147.5
1459.8- 444.5
19 i8.8t- o 32.5
+11 26.9
+"554
+11 56.8
8 20.6|-ii 51.8
143D.6- 551.9
16 13.1- 4 12.2
80 738.1
7.5
8.9
8
8
81 10 31.7
- 5
-4
-10
24.7
8-0
7251
40.0779
.0289
+1.0817
3032
-0^9154
40.9840
-1.0641
+0.1708
3295
-0.6084
+04479
40.2227
40.0270
+1.0139
-1. 1264
+1.0853
+0.5742
+1.4278
-0.6238
-1.1071
+1.0767
-1.3636
+14299
+0.3335
+0.3013
0.5039
0.5028
0.4977
0.4959
0.4945
0.4940
0.4926
04912
0.491 1
0.4908
0.4872
0.4850
0.4844
0.4833
0.4827
0.4826
0.4822
0.4821
04818
0.4820
0.4823
0.4839
0.4847
0.4887
0.4891
04891
0.4892
0.4920
0.4928
0.5035
40.3108
0.2154
0.2175
0.2267
0.2299
40.2324
0.2334
0.2359
0.2385
0.2388
40.2392
0.2461
0.2507
0.2518
0.2544
+0.2558
0.2562
0.2579
0.2583
0.2608
+0.2614
0.2622
0.2622
0.2622
0.2599
+0.2596
a 2596
0.2596
0.2573
0.2567
+0.2459
Limit-
ins Par*
alleU.
N.
- 9-90
+ 2-90
463r-20
- 6'-90
^52|-33
3J-90
+451-40
477+12
+77+16
-37;-90
-6;-H90
+79+ 8
-I3r90
+53
-36
+57
+27-63
+13-83
470-22
-33
+4^-43
487+10
16-90
+90+14
+80-15
490+49
412-82
-161-84
4901+13
-4^-83
+9o!+55
+63I-27
461^27
JUNE.
20 H>
. Arietis
6.4
40.I2
+4.9
+16 49.1
1 3 2.5!+ 5 36.7
-1.2697
0.5158
40.2308
-33
-74
»9
27
M
47
Arietis
Arietis
Arietis
Arietis
5.8
6.4
5.7
5.8
40.I2
0.05
40.02
-O.OI
+5-5
5.6
5.6
6.0
+14524
17 19.3
19 38.6
2019.3
453.7
13 38.3
19 6.5
2 2 28.0
+ 7 24.5
- 8 7.3
- 2 49.6
+ 4 17.5
+1.2459
40.5760
-0.7312
+0.0552
0.5174
0.5248
0.5296
0.5366
0.2288
0.2180
0.2108
+0.1988
490
+82
+ 5
+48
+34
-8
-71
-31
NEW
MOON.
47
53
134 B.
59
Geminorum
Geminorum
Geminorum
Geramorum
5.6
5.9
6.5
5.7
+0.33
0.36
0.36
0.39
+8.7
8.8
8.5
8.7
+27 0.2
28 3.1
2651.0
27 48.6
6 840.1
10 24.3
1050.7
13 43.2
+ 6 33.5
+ 8 13.5
+ 8 38.8
+11 24.3
+0.4832
-^.7325
+0.4558
-0.7878
0.5907
0.5900
0.5899
0.5888
-ao8o7
0.0862
0.0873
0.0962
m+ 3
+ 2-62
+74 0
- 1-63
t
V
c
0
00
Geminorum
Geminorum
Geminorum
Geminorum
Cancri
3.9
4.3
5.5
5.0
5.9
40.40
0.44
047
0.52
0.55
+8.7
8.3
8.0
8.0
7.6
+27 58.5
27 5.5
25 59-6
26 59.6
25 38.0
14 10.4
18 7.8
21 20.0
7 059.6
356.3
+11 50.4
- 821.8
- 5 17.3
- I 46.4
+ I 3-2
-0.9995
-0.51 18
+0.2385
-1.2339
-0.2463
0.5886
0.5871
0.5854
0.5834
0.5818
-ao976
0.1098
0.1 192
0.1294
0.1380
-16
+16
+5^
-39
+31
-^3
-52
-13
-64
-40
28
Cancn
Cancri
Cancri
Cancri
Cancri
6.2
5.9
64
5.9
6.1
+0.55
0.60
0.59
0.64
0.68
+7.5
7.2
6.7
6.8
6.6
+25 19.9
25464
23 24.1
24 17.9
24 26.2
415.6
742.9
9 2.3
II 45.8
15 I.I
+ I 21.8
+ 441.0
+ 5 57.2
+ 834.3
+11 42.1
40.016 1
-0.9298
41.2788
-0.0558
-0.7266
0.5817
0.5796
0.5788
0.5769
0.5748
-0.1387
0.1484
0.1518
0.1589
0.1672
+45
-10
+90
441
+ 4
-27
-65
+51
-32
-66
v»
Cancri
5.7
40.69
+6.5
+24 22.6
16 1 1.6
-II lO.I
I-0.8656
0.5740
L0.1703
'-5
-<i6
[Bph 1 3]
OCCULTATIONS, 1913. 585
ELBUENTS FOR THB PREDICTION OF OCCULTATIONS.
JUNE.
586
OCCULTATIONS, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JUNE.
The Star's
Name.
C. 0.-28® 14268
48 G. Sagittarii
62 6. Sagittarii
58 G. Sagittarii
4> Sagittarii
r Sagittarii
234 B. Sagittarii
248 B. Sagittarii
a> Sagittarii
A Sagittarii
36 B. Capricomi
17 Capricomi
if Capricomi
X Capricomi
27 Capricomi
0 Capricomi
128 B. Capricomi
y Capricomi
d Capricomi
152 B. Capricomi
1 Aquarii
39 Aquarii
42 Aquarii
45 Aquarii
50 Aquarii
182 B. Aquarii
6 Aquarii
58 Aquarii
70 Aquarii
A Aquarii
81 Aquarii
82 Aquarii
k Aquarii
0 Aquarii
945 Aquarii
317 B. Aquarii
337 B. Aquarii
342 B. Aquarii
20 Piscium
60 B. Piscium
80 B. Piscium
98 B. Piscium
60 Piscium
62 Piscium
147 B. Piscium
S Piscium
c Piscium
It Piscium
20 H*. Arietis
27 Arietis
U Arietis
47 Arietis
e Arietis {mean)
C Arietis
66 Arietis
7 Tauri
Mas.
.Red'ns from
x9i3*o.
6.4
6.3
6.0
6.1
3.3
3-5
5-9
5.7
4.8
4.9
6.2
5-8
4.8
5-3
6.1
5-3
6.5
3.8
30
6.5
4.4
6.2
5-5
6.1
5.9
6.2
4.9
6.4
6.1
3.8
6.4
6.4
5-4
4.4
5.7
6.3
6.4
6.5
5.6
6.0
6.3
6.3
6.2
6.1
5.9
4.6
4-4
5-6
6.4
6.4
5-7
5-8
4.6
6.1
5-9
s
+3-35
3.33
3.34
3-34
3.32
^■3-32
3.31
3-27
3.23
320
+303
2.94
2.82
2.83
2.81
+2.82
2.71
2.61
2.56
2.55
+2.44
2.41
2.36
2.36
2.33
+2.29
2.24
2.24
2.17
2.10
+2.04
2.03
2.03
•95
•91
.90
.86
.86
.75
.67
.61
.55
•32
.36
.32
.27
.09
0.92
0.85
H>.79
0-73
0.72
0.69
0.64
+0.62
A8
n
8.0
7.6
7.5
7-1
5.1
3.2
1.6
1.2
i.oi
1-3
3-4
4.6
5.7
6.3
6.2
6.9
7.6
7-7
7-9
8.4
8.8
9-3
9.2
9-5
99
+10.0
9-4
9-5
105
9.8
+10.1
10.0
10.5
10.3
10.3
+10.6
10.7
106
II.O
10 2
+10.8
10.7
99
97
9-9
+ 9.6
10. 1
9-7
8.6
9.0
+ 8.6
8.6
8.5
8.8
8.5
■♦- 8.2
Apparent
Declina-
tion.
-28
28
28
28
27
-27
28
27
26
26
-22
21
20
21
20
-21
9
7
6
7
4
4
3
3
3
3
I
I
I
8
- 7
7
8
6
5
- 6
5
4
3
o
- o
-♦- I
6
6
4
+ 7
7
II
16
17
+ 19
20
20
20
22
+24
554
19.2
41.0
28.3
4.9
48.0
2.1
99
31.8
259
40.8
49.8
II. 9
32.5
54.3
0.7
315
3-2
312
14.9
17.4
37.2
158
44.3
58.1
21.5
7-2
20.9
0.7
2.4
31.5
2.3
9.6
30.9
35.8
22.8
0.2
33.6
145
22.3
At Conjunction in R. A.
Limit.
ins Par-
allels.
Washinfrton
Mean Time.
d
18
19
80
81
22
23
24
25
26
27
28
29
30
Hour
AngJe,
H
590
125
16.I
49.7
50.2
6.9
255
42.0
49.1
19.3
38.6
19.4
59.7
43.5
30.4
10.5
[Eph 13]
h m
9 "6- 3
II 24.9- o
11 25. ij- o
13 18.2 + o
23 4.9+10
7 59-8- 5
15 28.8,+ 2
17 48.614. 4
5»3.i- 8
6 37.2|- 7
2038.8+ 6
430.8-10
13 22.0- I
15 23.4,+ o
15 52.9|+ o
18 54.3 + 3
2 9-5+10
7 21.3'- 8
1057.8- 4
12 37-6r 3
21 14.4!+ 5
027.2'+ 8
2 49.6+10
4 ii;+ii
6 58.8 - 9
10 2.0- 6
10 24.0 - 5
10 58.1- 5
20 18.4+ 3
22 37.6J+ 5
3 34-5 +10
4 13.6 +11
5 4I-71-"
1054.6- 6
13 47.9r 3
m
8.1
59.8
59-6
49.1
13.7
II. 2
1-5
16.3
43.4
22.2
10.9
+0.5106
-0.1049
+0.2835
+0.0920
-1.0527
+0.2569
+1.1321
-K>.4i75
+1.0158
+1.0872
-0.9689
12.6I-0.5947
38.2-0.7823
19.4 +1.07 1 8
48.0+0.4681
43.8+1. 1722
45.8+1.0058
U.71-0.6197
41.6-0.4298
4-7
17.2
245
+0.7360
0.5732
0.5724
0.5724
0.5717
0.5677
0.5630
0.5581
0.5566
0.5482
0.5471
0.5357
0.5294
0.5222
0.5206
0.5202
0.5178
0.5123
0.5085
0.5061
0.5050
+45
-0.5940
+0.5106
42.9l-0.4341
52.4+0.3695
14.9+1.3231
i6.8;+i.379i
55.4-1.0048
22.2-0.6163
42.7+1.2906
1432.7- 2
1936.0+ 2
20 44.6|+ 3
6 10.7 -I I
71
- 7
10
16 1.4- I
23 18.8 + 5
16 4.9-
1634.6'-
16 36.0 -
1647.9-
044.7
19 13.8
1 1 54.0 -
2235.2 +
4 5.8
11 30.3
12 2.0
19 14.6
I 17.4
355.0
2
I
I
I
6
o
7
2
+ 7
- 8
- 8
- I
+ 4
+ 6
58.2
47-2
25.2
9.1
4.4
15.7
32.1
23 1
299
18.9
28.7
43.7
22.1
18.5
49.6
48.2
-1 .42 1 3
-07537
-1. 1 290 04850
+0.4825
-0.0157
-0.2940
+0.7633
+05393
+0.3432
+1.3320
-0.8140
+1.4009
+0.8853
-0.3304
-0.8160
+1.3756
36.6-1.0738
7 2+0.6202
5.3^+0.5608
439-1.0454
37.5+0.7849
57.7 -0.5379
52.2|-K>.2342
21.5,-0.3791
23.4+1.2709
26.840.4513
58.9'-o.8682
40.0086
0.0152 If II
0.01521+32
0.0208
0.0484
+0.0728
0.0923
0.0982
0.1253
0.1287
+0.1579
0.1723
0.1873
0.4994
0.4976
0.4962
0.4956
0.4938
0.4924
0.4923
0.4920
0.4878
0.4870
0.4852
0.4845
0.4832
04825
0.4824
0.4813
0.4812
0.4805
0.4806
0.4809
0.4818
0.4862
0.4864
0.4864
0.4864
0.4898
0.4999
0.5125
0.5216
0.5267
0.5339
0.5344
0.5415
0.5476
0.5502
+35
+62
+47
+64
+64
0.1906 +694-18
0.1914
+0.1962
0.2062
0.2131
0.2173
0.2192
+0.2285
0.2316
0.2337
0.2348
0.2376
+0.2398
0.2401
0.2405
0.2471
0.2483
+0.251 1
0.2514
0.2522
0.2545
0.2556
+0.2558
0.2576
02579
o 2600
02604
+0.2608
0.2606
N.
S.
-«5
"51
-28
+22-39
-30
4-28
—21
«7
23
-2Ip90
2-«5
- 6-90
+60-19
+69+26
+71 4-12
6-86
+171-70
+73-5
+10-83
+69
-18
+19.— 70
+61-25
+77t+38
+77!+-46
-iij-90
+iO|-84
+79+32
-54|-90
4I-90
-18-90
+71—20
+43-45
+29-61
+841-5
+77-17
+64-27
+87,+35
^ 3h9o
0.25731+28,-63
0.2572
0.2572
+0.2571
0.2540
0.2434
0.2276
0.2148
+0.2073
0.1957
0.1949
0.1828
0.1707
+0.1657
+90+45
+90) o
2,-^
+90+41
-14^83
+84J-12
+79I-13
-i4|-74
+90|4- 3
+16-65
+58-23
+24HS4
+90+45
+73-9
-5'-^
OCCULTATIONS, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATION&
JUNE.
587
1
limit-
Ths Star's
At Conjunction in R. A.
ins Par-
fUlela.
Red'119 from
Name.
Mas.
Z913.0.
Apparent
Declina-
tion.
Washinffton
Mean Time.
Hour
Ansle.
H
y
%f
y
N.
S.
Aa
A8
9
ti
e /
d h ra
h m
0
0
i6
Tauri
5.4
+0.59
+ 8.4
+24 I.I
80 8 25.9 +11 20.3
+0.0263
0.5547
+0.1562
+46-^9
17
Tauri
3.8
0.59
8.5
23 50.6
8 27.9 +11 22.2
+0.2167
0.5547
0.1562
+57
-19
18
Tauri
5.6
0.59
8.3
2434.2
834.7
+ 11 28.7
-05305
0.5549
0.1559
+15
-58
q
Tauri
4.3
0.59
8.4
2411.9
836.2
+11 30.2
-0.135 1
0.5550
0.1557
+37
-36
20
Tauri
41
0.59
8.4
24 5-9
852.4
+1145-8
+0.0108
0.5552
0.155 1
+45
-29
21
Tauri
5.8
+0.59
+ 8.41+24 17.2
8543
+11 47.7
-0.1813
0.5552
+0.155 1
+34
-39
23
Tauri
6.5
0.59
8.4'
24 15.6
858.0
+11 51.2
-0.1438
0.5553
0.1548
+36
-36
23
Taun
4.3
0.59
2-5
2340.8
9 5.7
-^1158.6
+04856
0.5555
0.1546 +76
-5
7
Tauri
30
0.58
8.5
23 504
935.5
-II 32.6
+0.3952
0.5559
0.1535
+69-10
104 B.
Tauri
5-5
0.58
8.6
23 9.4
9 58.4 -II 10.6
+1.1711
0.5563
0.1526
+90+38
27
Tauri
3-7
+0.58
+ 8.5+23 47.4
lo 18.8-1050.9
+0.5565
0.5567
40.1518
+82+ I
28
Tauri
5.2
0.58
8.5
23 52.4
10 19.4 -10 50.3
+0.4703
0.5567
0.1518
+75-5
14 H.
. Tauri
5-3
0.57
8.1
25 19.2
1047 I -10 23.6
-0.9802
0.5571
0.1507
-13-65
P
Tauri
5.6
0.53
8.2
26 15.4
1926.4- '.' 3.3
-0.7370
0.5656
0.1308
+ 3-64
4>
Tauri
50
4O.52J+ 8.1+27 8.7
2321.9,+ 143.3
-1.1691
0.5694
+0.1209
-31-63
JULY.
X Tauri
5-3
+0.52
8 Leonis
59
+0.83
107 B. Leonis
6.3
0.93
34 Leonis
6.4
0.93
37 Leonis
5.5
+0.96
/ Leonis
5-3
1.06
X Leonis
4.7
1.09
6 Leonis
4.1
1.16
80 Leonis
6.4
1. 16
83 Leonis
6.3
+1.13
r Leonis
5-2
1. 16
89 Leonis
5.7
1.19
P Virginis
3.8
1.29
27 B. Virginis
6.5
1.30
31 B. Virginis
6.4 +1.29
162 B. Virginis
6.2 ' 1.41
200 B. Virginis
6.3
1.43
f Virginis
6.0
1.45
319 B. Virginis
6.3
1.51
g Virginis
5.6 +1.62
50 Virginis
6.2
1.62
a Virginis
1.2
1.72
i Virginis
5-7
1.72
550 B. Virginis
6.0 ' 1.77
86 Virginis
5.6 +1.85
621 B. Virginis
6.4
1-97
214 G. Virginis
6.5
1-97
40 H. Virginis
5.1
2.01
43 H. Virginis
5.5
2.04
17 G. Librae
6.4
+2 27
18 G. Librae
6.1
2.28
43 B. Librae
5.7
2.39
47 G. Librae
6.1
2.42
64 G. Librae
5.8
2.49
153 B. Librae
6.3
+2.64
2.2
I.l
0.2
O.I
2.1
3.7
4.8
5.6
5.8
6.0
6.3
7.4
8.0
+25 25.6
NEW
+16
16
13
+14
u
7
6
4
+ 3
3
3
2
4- 1
9.0-
0.8'
I.I
1.6
2.1
3.6
4.0
4.6
5.2
5.5
I
4
4
5
5
8
9
10
12
12
49.7
10.9
47.1
9.8
0.3
48.3
30.3
20.3
29.2
20.0
32.5
15.2
0.7
17.1
8.2
34.5
21.3
49.7
31.3
52.2
42.7
15.6
46.4
1 o 18.3 + 2 37 7
MOON.
6
7
8
2 49.4 + o 13.9
15 10.6-11 51.6
17 48.3J- 9 19.5
20 1.9-7 10.5
1043.6+ 7 0.9
18 1.0-956.3
131.8- 2
3 44.5 - o
+0.736310.5702
+1.0037
-1.3626
+0.3613
-0.5909
-1.3679
-0.1860
40.4 -0.9992
32.1 +0.5481
412.4I- o 5.1
25.3
21.9
49.4
16.6
+
+
9
5-4-"
6.4
6.9
6.9
7.5
8.3
8.3
9.1
8.2
8.0
8.1
14
15
15
17
-20
20
21
21
22
-24
11
12
59-7
33.5
55-5
53.8
48.0
48.8
57-9
1.8
41.9
5.0
12.0
[Eph 13]
4 43.8
746.3
15 28.9I+10
19 30.6- 9
2027.0- 8
9 18.3'+ 4
II 7.0,+ 5
13 34.9 + 8
18 44.4-10
+1.2713
+1.2752
+0.1995
-0.7112I
-0.6163
2 2.0' +1.4294'
4.5+0.6466
49-7i+o.5779i
12.9+0.6728)
47.5-0.2925,
10 445.2- I 5.9-0.3135;
5 19.4!- 032.8+0.9039]
32.1-0.19611
12 38.5 + 6
1321.5+ 7 13.7
17 5.9+1050.7
22 22 9- 8 2.6
6572]+ 014.5
7 i8.o|+ 034.7
9 52.8+ 3 4-3
1157.3,+ 5 4-7
149.8- 531.3
2 17.5- 5 4.5
647.4- 044.0
1047.1+ 3 7.3
15 7.6,+ 7 18.6
l.ll- q
22 2J
943.3
+1.1962
+0.7437
-1.4084
-0.9045
+0.4162
-0.2308
+1.2406
+1.2640
+1.3252
+0.4677
+0.3748
-0.0454
+0.8874
0.5615
0.5525
0.5506
0.5491
0.5399
0.5361
0.5328
0.5320
0.5318
0.5316
0.5306
0.5283
0.5275
0.5273
0.5261
0.5261
0.5262
0.5264
0.5278
0.5280
0.5298
0.5300
0.53"
0.5329
0.5363
0.5364
0.5376
0.5386
0.5454
0.5456
0.5479
0.5499
0.5523
0.5560
+0.1184
-0.2337
0.2531
0.2566
-0.2595
0.2746
0.2797
0.2834
0.2843
-0.2844
0.2846
0.2855
0.2866
0.2866
-0.2865
0.2835
0.2828
0.2816
0.2788
-0.2716
0.271 1
0.2643
0.2635
0.2595
-0.2533
0.2418
0.2414
0.2376
0.2344
-0.2109
0.2100
0.2014
0.1934
0.1843
-0.1683
+90
+90
-46-74
+65
+14
-42
+35
-9
+78
+90
+90
+56
+
+14
+18
-21
-72
-79
-53
-83
-16
+30
+30
-34
8-88
+13I-83
+89
+84
+79
+84
+28
+26
+80
+32
+78
+77
-61
-9
+61
+26
+72
+69
69
58
+52
+29
+66
+51
-II
-15
-10
-60
-62
+ 3
-56
+24
-6
-90
-90
-23
-57
+31
+36
+45
-19
-24
-47
+ 6
588
0CCULTATI0N8, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JUI.Y.
Ths Star's
Name.
169 6. Librae
177 B. LtbnE
42 Librae
b Scoqjii
A Scorpii
31 B. Scorpii
32 B. Scorpii
3 Scorpii
4 Scorpii
40 B. Scorpii
It Scorpii
48 B. Scorpii
50 B. Scorpii
24 G. Scorpii
65 B. Scorpii
85 B. Scorpii
6 Scorpii
a Scorpii
116 B. Scorpii
134 B. Scorpii
95 G. Ophiuchi
43 Ophiuchi
163 G. Ophiuchi
X Sagittarii (var.)
10 G. Sagittarii
210 B. Scorpii
W Sagittarii (var.)
38 B. Sa^ttarii
CD. -28^ 14268
48 G. Sagittarii
62 B. Sagittarii
58 G. Sagittarii
0 Sc^ttarii
r Sagittarii
234 B. Sagittarii
248 B. Sagittarii
00 Sagittarii
A Sagittarii
36 B. Capricomi
17 Capricomi
7 Capricomi
X Capricomi
27 Capricomi
0 Capricomi
128 B. Capricomi
y Capricomi
d Captricomi
152 B. Capricomi
t Aquarii
39 Aquarii
42 Aquarii
45 Aquarii
6 Aquarii
58 Aquarii
X Aquarii
78 Aquarii
Mag.
6.0
6.2
50
4-7
4.6
54
5-3
5.9
5-7
5.4
30
4.9
6.4
6.2
5-5
6.0
31
1.2
6.2
6.4
6.1
5.4
6.3
4.4
5-7
5.8
4.3
4.7
6.4
6.3
6.0
6.1
3-3
3.5
5-9
5.7
4.8
4.9
6.2
5.8
4.8
5.3
6.1
5-3
6.5
3.8
3.0
6.5
4.4
6.2
5.5
6.1
4.9
6.4
3.8
Red'ns from
1913.0.
Aa
S
42.65
2.66
2.68
2-77
2.79
+2.78
2.77
2.79
2.81
2.81
+2.83
2.86
2.85
2.87
2.90
+2.93
2.97
3.04
306
3.16
+3.32
3391
3.48
3.501
3.55
+3.58-
3.631
3.60J
3.63I
3.64
+3.65
3.65
3.68
3.74
3.78
+3.76
3.76
3.74
3.61
3.56
+3.48
3.51
3-50
3.48
3.41
+332
3.29
329
3.17
3.15
A6
II
+3.10
3.IJ
3.01
3.02
2.87
7.6
7.6
7-7
7.8
7.6
7.4
7-2
7.5
7.8
7-2
7.6
7-3
7.0
6.8
7.2
6.6
6.4
6.2
6.1
5.6
3.6
2.9
1.3
0.9
0.2
o.i
9-7
9.2
9.01
8.5
- 8.4
8.0
5.6
3.7
1.8
- 1.3
+ 1.4
1.7
4.6
6.2
f 7.8
8.3
8.3
8.9
10. 1
+10.6
II.O
11.5
12.3
12.9
6.3 1+2.86
+13.CH
13.2
13.6
13.7
14.4
+14.4
Apparent
Declina-
tion.
-2251.5
22 52.3
23 32.5
25 29.6
25 4-4
-24 16.8
23 43-4
24 59.5
26 0.9
2435.1
-25 52.2
25 37.7
24 29.5
24 14. 1
26 5.9
■25 15.7
25 23.4
26 14.7
26 21.2
27 17.9
-27 39.5
28 3.8
27 50.8
2748.1
28 3.3
-2845.2
29 35-2
28 28.2
28 55.4
28 19.2
-28 41. 1
28 28.4
27 5.0
27 48.0
28 2.1
-27 9-9
2631.8
26 25.9
2240.8
21 49.7
-20 1 1 .9
21 32.5
2054.2
21 0.7 19
19 31.5
-17 3-2
1631.2
17 14.9
14 17.3 20
14 37.1
-13 15.7
1344.2
II 7.2
II 20.9
8 2.3 21
- 7 39.8
[Eph 13]
At Conjunction in R. A.
Washiii(rton
lleanTim«.
d
18
14
16
16
17
18
Hour
Anslc,
h m
022.0- 7
I 2.«- 7
I 25.1;- 6
2
I
m
46.7
8.2
556.9
7 4.3
712.3
7 13.6
731.0
7 5».6^-
9 10.9:+
9 I6.6J+ o
II 10.7'+ 2
" 25.9'+
n 5.9I+
I
I
o
o
o
-0.8474
•.9428
46.o[-o.3054
24.0+1.0306
19.0 +0.4241
-0.4262
10. 1 -I.OIII
534I+0.2735
1.2958
- I 11.3
- o 33.5
13 10.5
16 1.7
18 39-4
22 3.9
22 53.0
412.7
15 46.5
20 15. 1
425.5
610.5
9 55-3
1042.9
13 19.2
14 36.1
16 1 1.9
18 26.8
18 27.0
2021.6
615.2
15 15.7
22 48.8
1 9.8
1239.2
14 3.8
4 9.7
12 3-4
20 56.0 +
22 57.6
23 27.2
2 28.9
944.6
14 56.7
1833.2
20 13. 1
449.9
8 2.7
10 25.2
1 1 36.6
17 59.6
1833.6
613.3
2
4
4
7
9
-10
-10
- 4
+ 6
+10
- 5
- 3
o
7194
42.9-0.3918
48.4 +0.9397
38.3+0.4218
53.0-0.8051
29.3 -1 .3000
+0.6465
33.7
18.5
50.5
52.7
54
57.7
9-9
- 022.6
o
2
4
5
7
+ 7
+ 9
-4
+ 3
+11
-10
23.3
53.7
49.7
49.8
40.1
o
I
8
o
7
+ 9
+10
-10
- 3
+ I
+ 4
+ 6
- 9
6
-0.5999
^.7853
-0.2732
-0.2467
+0.2190
-0.2782
28.3-ox>88i
39.9-0.6052
58.8-0.6892
-0.4670
+0.2736
+1.1629
7.7 -0.0253
39.940.4736
-0.1406
- 3
- 2
+ 3
+ 4
- 8
"- 7
+0.2500
+0.0618
48.4 -1. 067 1
52.340.2696
9.1 +1.1655
34.9+0.4531
30.4+1.0794
52.i}+i.i539
30.5 -0.8766
52.2,-0.4835
43.5!^-65i5
41.4 +1. 2107
10. 1 +0.6069
53.9+1.3188
51.5 +1. 1673
1 1.4 -0.4496
41.4 -0.2519
18.440.9187
19.6-0.3959
12.340.7158
53.8-0.2255
44.440.5815
28.0-0.7834
1.0-0.3933
38.4-1. 1810
34.1L1.3211
0.5568
0.5573
0.5575
0.5596
0.5602
0.5603
0.5603
0.5604
0.5607
0.561 1
0.561 1
0.5620
0.5621
0.5628
0.5628
0.5640
0.5651
0.5662
0.5666
0.5682
0.5705
0.5710
0.5710
0.5709
0.5705
0.5704
0.5699
0.5697
0.5693
0.5688
0.5688
0.5682
0.5646
0.5604
0.5560
0.5546
0.5468
0.5459
0.5354
0.5293
0.5225
0.5210
0.5206
0.5183
0.5130
0.5093
0.5069
0.5058
0.5002
0.4984
0.4971
0.4964
0.4931
0.4927
0.4875
04871
-0.1637
0.162 1
0.1612
0.1503
0.1476
-0.1472
0.1472
0.1465
0.1456
0.1424
-0.142 1
0.1374
0.1368
0.1324
0.1323
-0.1249
0.1180
0.1090
0.1068
0.0923
-0.0596
0.0468
0.0231
0.0180
0.0071
-0.0048
40.0027
0.0064
0.01 10
0.0174
40.0174
0.0229
0.0506
0.0749
0.0944
4O.I002
0.1275
0.1306
0.1602
0.1749
40.1899
0,1931
0.1938
0.1985
0.2086
40.2154
0.2198
0.2217
0.2308
0.2339
40.2360
0.2371
0.2422
0.2427
0.2503
+0.2509
1-15^90
21-90
+i4;-63
+^5;+i7
+50-21
+ 6,-71
-27-90
+42—29
+64+50
^ 71-69
+64+10
+49-21
-16J-90
-59^-90
+61-8
-5r87
-161-90
+io!-6i
+11 1-59
+34]-32
+ 5-62
*^i3-50
Limit*
Ing Vvt-
aUels.
N. S.
-15
-89
-201-90
- 9-76
429-29
+6oi+33
^i3i-46
f42ki7
8J-53
+29-30
4I9J-4I
41^90
+35^29
+62+32
448-19
+63I+22
+64+29
-17
-90
7 '-75
0-90
+68+30
+^-12
+69
+44
+701+25
+14-72
+25^-59
+73+ 6
+19-68
- 7
-57
-14
-90
+21-67
+75
+28
+72
■24
37
-90
OCCTJLTATIONS, 1913. 589
ELEMENTS FOR THE PREDICTION OE OCCULTATIONS.
JULY.
590
OCCULTATIONS, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JULY.
Thb Star's
Name.
53 Aurigae
54 Auri^
28 Genunorum
c
X
6
80
83
r
89
B.
9
P
27 B.
31 B.
162 B.
200 B.
/
319 B.
49
50
a
t
550 B.
621 B.
214 G.
40 H.
43 H.
231 G.
236 G.
9 G.
17 G.
18 G.
43 B.
47 G.
64 G.
153 B.
169 B.
177 B.
42
b
A
31 B.
32 B.
3
4
40 B.
It
48 B.
50 B.
65 B.
Leonis
Leonis
Leonis
Leonis
Leonis
Leonis
Leonis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Librae
Librae
Librae
Librae
Librae
Librae
Librae
Librae
Librae
Librffi
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Mag.
5.6
5.8
5.5
Red'ns from
1913.0.
Aa
A5
s
+1.06
1.05
+1.05
//
+ 7.0
7.1
+ 6.9
Apparent
Declina-
tion.
+29 3.7
28 20.6
+29 3-7
NEW
At Conjunction in R. A.
Washington
Mean Time.
d
80
h ra
14373
15 4.3
17 0.6
MOON.
Hour
Angle,
H
h m
- 7 22.3
- 6 56.4
- 5 50
-0.8078
-0.0988
-0.9244
y
0.5967
0.5967
0.5969
-0.0454
0.0469
-0.0533
Limit-
ing Par-
allels.
N. S.
- 3-^1
+39-23
-11-61
AUGUST.
51
4.7
4.1
6.4
6.3
5-2
5.7
6.2
3.8
6.5
6.4
6.2
6.3
6.0
6.3
5-2
5.6
6.2
1.2
5-7
6.0
6.4
6.5
51
5-5
6.4
5.7
6.5
6.4
6.1
5-7
6.1
5.8
6.3
6.0
6.2
50
+0.96
0.98
.02
.01
0.98,
.01
•03
.04-
•'?!
.08,
.17
•19;-
.21
.26
•34
.35
•35 1
.43
.43
.48;
.66|
.66
.70
•73
•74
•75
.87
•95
.96
2.08
2.12
I
+2.19
2.35
2.36'
2.37'
2.38
+
3-1 +
3-ij
4.0 +
47
4.8
50
5-2
6.6
6.3
6.8
7-5
9-3
9-5
0.0
05
2.5
2.0
2.4
3^1
3.6
4.0
5-0
4.7
+2.49
4.6
2.51
54
2.50
5.3
2.49
5-9
2.51
57
+2.52
5.4
2.54
30
2.56
4.9
2.59
6.4
2.58
5.5 +2.64-
634.1
748.3
630.3
420.3
329.2
3 20.0
3 32.5
o 9.8
2 15.2
+ I 0.8
- I 17.0
4 8.2
- 4 34-5
521.3
549.7
10 16.7
831.3
- 952.1
1042.7
12 155
1246.3
H 33.5
5-5-15
5.51 15
6.2! 17
6.3' 18
6.4, 18
7.0-20
7.3 20
7-3 20
8.4, 21
7.4 21
7.4 -22
7-8, 24
7.2 22
7.2 22
7-4^ 23
7.7-25
7.5 25
7-2: 24
7.o| 23
7.4, 24
7.7-26
7-i| 24
7.6 25
7-3 25
6.9; 24
7.3-26
55.4
53.7
48.0
"3
19.1
3.8
48.7
57.9
1.8
41.9
50
12.0
51.5
52.3
32.4
29.6
4-4
16.8
43-4
59.5
0.9
35.1
52.2
37.7
29.5
5.9
lEph
4 o 15.91- I
2 11.5 ■>- o
9 29.0 + 7
11 37.8+ 9
12 4.8+ 9
i2 35.3l-»io
1532.5I-11
22 17.6- 4
23 1.4- 3
« 2 55.9:- o
3 50.7 + o
16 20.0,-11
18 5.7;- 9
2029.5- 7
6 I 30.7 - 2
1057.71+ 6
11 16.4+ 7
"497+ 7
1858.5-9
1940.5]- 8
2320.1;- 5
7 1255.5+ 8
13 15.9+ 8
15 48.1 +10
17 50.6 -II
i8 35.i'-io
19 17.6- 9
8 2 31.0- 2
731.9+ I
7 59.3 + 2
12 26.4+ 6
16 23.9+10
2042.4!- 9
» 353.5-2
5 53.8 - o
633.6,+ o
656.7+ o
4
5
6
6
6
49.8+1.42351
2.0-0.3479!
4.51-1.1622'
8.9+0.3590,
35.0 +1.07 II
4.5+1.0740
4 2+0.0092
32.7+1.3881.
50.4;-o.8994l
3.6 -0.81 10:
49.3+1.2046
6.1 +0.4198
23.9+0.3506
4.8I+0.4422
13.7 -0.5140
54.6+1.3137
12.7 -0.5401
45.0+0.6630
20.5 -04263
39.9+0.9509
7.7,+o.5032
0.3,-1.1283
20.1 (+0.1812
47.1j-0.4596
14.6+1.0008
31.6I+1.2216
50.6+1. 1909
52.2+1.3431
58.21+1.0336
24.7'+ 1. 0948
42.4+0.2458
31.5+0.1565
19.2-0.2582
23.6+0.6782
27.6-1.0495
10.7 -1. 1442
32.9-0.5081
0.5454 -0.2845
0.54451 0.2857
0.5412-0.2895
0.5404: 0.2903
0.5402! 0.2904
0.5400 1 0.2906
0.5390, 0.2915
0.5368 -0.2923
0.5366 1 0.2923
0.5357 0.2922
0.5355
0.5337
0.5337
0.2921
0.2885
1-0.2877
0.5336; 0.2864
0.5336 0.2832
0.5343
0.5343
0.5343
0.2757
0.2754
-0.2748
0.5356 0.2675
0.5358 0.2667
0.5365 1 0.2624
0.5404
0.5406
0.5414
0.5422
0.5424
0.5427
0.5455
0.5476
0.5478
0.5496
0.5512
0.2436
-0.2431
0.2391
0.2358
0.2346
0.2334
-0.2207
0.2113
0.2104
0.2014
o.i93r
II 27.7+ 454.1
12 34-9,+ 558.9
1242.9+ 6 6.6
1244.2'+ 6 7.8
13 1.5+ 624.4
1322.1,+ 644.3
0.6
6.1
55.8
10.6
1441.31+ 8
14 47.0J+ 8
1640.9+ 9
16 56.2 +10
18 40.7 +11
51.2
+0.8296
+0.2256
-0.6230
-1.2067
+0.0758
+1.0966
-0.5869
+0.7428
+0.2279
-0.9971
+0.4546
0.5531 -0.1839
0.5561; 0.1675
0.55691 0.1627
0.5572
0.5573
0.5590
0.5595
0.5595
0.5595
0.5596
0.5597
0.5602
0.5602
0.5609
0.5610
0.1612
0.1603
-0.1493
0.1465
0.1461
0.1461
0.1454
^.1445
0.1412
0.1409
0.1361
0.1355
0.5616 -0.1310
+9o;+54
+27-62
-20 -«3
+64-26
+90+14
+90+14
+45 -43
+90+43
- 2-88
+ 3-89
+89+23
+68-23
+63-26
+69 '-22
+i8'r75
+80+35
+15-77
+80-10
+20-69
+78+ 6
+68-18
-24-90
+48-35
+I5r72
+72+11
+72+29
+72 +26
+70+47
+69+14
+69+19
+46-31
+40-36
+19-60
+65-7
-28-90
-36,-90
+ 3,-78
+39 -32
-4-«9
-44r-90
31-40
♦641+23
-3'-«5
+64-3
+38 'i^
-28-90
+50-19
I3l
OCCULTATIONS, 1913.
591
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
AUGUST.
Thv Star's
At Conjunction in R. A.
Limit-
ins Par-
aUels.
Name.
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Ophiuchi
Ophiuchi
Ophiuchi
Sagittarii (var.)
Sagittarii
Scorpii
Sagittarii (tar.)
Sagittarii
C. D.-28*» 14268
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Piscium
85 B.
6
a
116 B.
r
134 B-
135 B.
95 G.
43
163 G.
X
10 G.
210 B.
W
38 B.
48 G.
62 B.
58 G.
0
r
183 B.
234 B.
248 B.
00
A
36 B.
17
V
X
27
<P
30
128 B.
r
s
152 B.
t
39
42
45
6
58
A.
78
81
82
h
0
96
316 B.
317 B.
337 B.
342 B.
60 B.
98 B. Pisdum
Mag.
6.0
3.1
1.2
6.2
2.9
6.4
6.0
6.1
5.4
6.3
4-4
5.7
5.8
4.3
4.7
6.4
6.3
6.0
6.1
3.3
3.5
6.2
5-9
5.7
4.8
4.9
6.2
5.8
4.8
5-3
6.1
5-3
5-4
6.5
3.8
30
6.5
4.4
6.2
5-5
6.1
49
6.4
3.8
6.3
6.4
6.4
5-4
4.4
5.7
6.5
6.3
6.4
6.5
6.0
6.3
Red'ns from
1913.0.
Aa
A8
s
+2.67
2.73
2.80
2.82
' 2.88
+2.93
2.96
' 3.14
' 3.23
' 3.36
+3.38
3-45
3.48I
3-54
3.53
^^571-
359'
3.60
3.61
369
+3.81
3.85
3.88
3.88
3-94
■^3.94
3.86
3-86
3.82
3-86
+385
385
3-77
3.80
3-73
+3.72
3-7-2
3.63
3-63|
3-60j
f3.6o +
352
3-53
342
341
+340 +
338
34i[
3-35
3.33,
+3.32,+
3-33'
330
329
3- 1 6
ff
Appaj^nt
Declina>
lion.
Wasbinjirton
Mean Time.
6.7-2515.7
25 23 4
26 14.7
2621.2
28 2.5
6.5
6.4
6.3
6.6
5-9
6.2
4.3
3-7
2.2
1-9
I.I
1.2
0.9
0.3
0.1
9.6
9.6
9.1
6.6
4.8
4-9
2.9
2.2
0.5
o
4
6
8,
8,
8,
9
9
o
I.
2,
2,
4'
4
5
5
6
6,
7'
7-
8.
8.
8.
8.
9
8.
9
9
9
20.
+3.081+20.7+ I
-27
28
27
28
27
-27
28
28
29
28
-28
28
28
28
27
-27
28
28
27
26
-26
22
21
20
21
-20
21
18
19
17
-16
17
H
H
13
-13
II
II
8
7
7
7
8
6
5
4
6
5
4
o
o-
17.9
21.2
39-6
3.8
50.8
48.1
3.3
45.2
35.3
28.2
554
19.2
41. 1
28.4
50
48.0
46.4
2.1
9.9
31-9
25.9
40.8
49.8
11.8
32.5
54-2
0.6
20.8
31.5
31
311
14.9
17.3
37- 1
15-7
44.2
71
20.8
2.3
39-7
314
2.2
9-5
30.8
35.7
23.3
22.7
0.1
334
22.1
d
9
10
11
12
13
14
15
16
17
18
Hour
Anglo.
H
19
12.7
[Eph 13]
h m
2131-9- 9
0 9.8;- 6
3 34-6- 3
4 23.8 - 2
6 14.4- I
9 445+ 2
10 i.i|+ 2
21 2I.6!-IO
1 52.0- 6
10 6.1+ I
11 52.J+ 3
15 38.7^+ 7
1626.8+ 7
19 4.5+10
20 22.2 +11
21 58.8-10
015.1,- 8
0 15-3- 8
2 10.9- 6
12 10.7+ 2
21 16.9+11
21 30.6 +11
4 54-8 - 4
7 174- 2
i8 53-9[+ 8
20 19.4 + 9
10 33.1- o
1830.9+ 7
3 27.4'- 7
5 29.9 - 5
5 59-7 - 5
9 2.6-2
10 14.8^- I
1620.9+ 4
2134.6+ 9
1 I2.l'-IO
2 5241- 9
11 31.2'- o
1444.7'+ 2
»7 7.6j+ 4
18 19.2 + 5
043.1 +11
I 17.2 -II
12 58.2;- o
14 4.4+ o
17 55-6+ 4
1834.8+ 5
20 3.2 + 6
I 16.7+11
4 10.5 - 9
440.2- 8
455.5- 8
9 59 7- 3
II 8.5- 2
0 34.7|+io
1352.1- o
m
24.0-0.7874
51.8-0.9700
34.6-0.4541
47.3^.4265
0.8+1. 1630
21.5+0.0457
37.4 +1 1349
27-6,-0.4371
7.4'-o.2407
48. 1 1-0.7481
30.0I-0.8298
8.2J-0.6019
54.5+0.1420,
26.3+1.0380
41.1-0.1521
45-9+0.3507;
34.6-0.2623I
34.5+0. 1 297I
43.1-0.0563;
54.6 -1. 1 746
41.0+0.1812
54.2+1.2523
57.4+1.0927
39.9+0.3813
32.5+1.0289
55.1 +1.1061'
19.7HD.9079
22.7 -0.4996
57-5 -0-6524
58.8+1.2193
29.9 +0.6145
32.6+1.3339
22.6-1.3579
32.4+1. 1945
36.8 -0.41 761
52.1 -0.2129'
14.7 +0.9636
50.8-0.3391;
17.2+0.7807;
36.1 -0.1586
45.7 +0.6520
59.0-0.70481
27.8-0.31301
5.9-1.0832
58.5-1.2219
43-5 -0.3986
21.7 -0.7731
47.7 +0.8487
52.840.3634
17.9+0.0914
49.o!-i.i2io
34.21+1. 1555
38.0+0.9435
31.0+0.7493
34.2-0.3850
29.2'+i.3475
0.5625
0.5633
0.5642
0.5645
0.5649
0.5656
0.5657
0.5672
0.5674
0.5671
0.5669
0.5664
0.5663
0.5658
0.5655
0.5651
0.5645
0.5645
0.5640
0.5604
0.5561
0.5560
0.5520
0.5507
0.5433
0.5424
0.5325
0.5268
0.5205
0.5190
0.5187
0.5166
0.5158
0.5117
0.5083
0.5060
0.5050
0.4998
0.4981
0.4968
0.4962
0.4931
0.4928
0.4879
0.4875
0.4862
0.4860
0.4855
0.4841
0.4833
0.4832
0.4831
0.4821
0.4819
0.4804
0.4806
/
N.
-0.1236
0.1166
0.1075
0.1052
0.1002
-0.0906
0.0898
0.0580
0.0451
0.0215
0.0164
0.0056
-0.0033
+0.0042
0.0079
+0.0124
0.0188
0.0188
0.0243
0.0518
+0.0760
0.0766
0.0954
0.1012
0.1284
+0.1315
0.1610
0.1759
0.1909
0.1941
+0.1949
0.1996
0.2013
0.2099
0.2167
+0.22 1 1
0.2230
0.2323
0.2354
0.2376
+0.2386
0.2439
0.2443
0.2520
0.2526
+0.2546
0.2550
0.2556
0.2578
0.2588
+0.2590
0.2591
0.2605
0.2608
0.2626
+0.2618
[-28
I
+ 2
+62
S.
-16-90
-74
-72
+31
+241-42
+62+28
-3;-73
6-59
1-23,-^
-28-90
-16-89
+22-36
+60+20
+ 7-54
+34-24
+ 2-60
+22-37
+131-48
-49.-90
+30-34
+61+46
+62 1+24
+43-23
+63+17
+64
-18
6
+24
-90
-77
0-90
+68'+3i
+66-11
+69+47
-57|-^
+70^+27
+16.-70
+27-56
+73 + 8
+22-64
+75 - 3
+32 -53
+75
+ 5
+25
-16
-27
+23
+ 4
+82
+64
-II
-90
-62
-90
-90
-67
-90
o
26
+49J-40
-181-90
+84 +19
+85+5
+85- 6
+25-66
+90+37
592
OOCULTATIONS, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
AUGUST.
Tss Star's
At Conjunction in R. A.
Name.
Mas.
Red'ns from
1913.0.
Apparent
Declina-
tion.
Mean Tnne.
Hour
Angle,
U
Y
jf
/
s
A5
If
0 /
d h m
1
h ra
60
Piadum
6.2
+2.95
+20.5
+ 6 16.3
20 6 49.7
- 7 58.4 40.1404
0.4834
40.2572
62
Pisdum
6.1
295
20.4
649.8
719.8
- 7 29.1
^•3495
04836
0.2570
6
Piachim
4.6
2.94 20.3
7 70
733.2
- 7 16.I
-0.6096
0.4836
0.2569
$
Piscmm
4.4
2.90
20.6
725.7
15 37.4
+ 035.2
+1.1054
0.4860 j 0.2532
n
Pisctum
5.6
2.78
19.8
II 42.1
21 10 29.0.- 5 4.2
+1.0466
04941 0.2406
20 H»
. Arietis
6.4
+2.68+18.2
+1649.3
2« 3 35.7|+"33.3
^.5964
0.5043 40.2240
26
Arietis
6.2
2.62
17.2
19 28.5
1427.3,- I 54.5 -1. 1300
0.5120' 0.2108
27
Arietis
6.4
2.61
17-9
17 19-5
1437.0- I 45.1 +1.2498
0.5122
0.2106
M
Arietis
5-7
2.58
17.0
19 38.8
20 18.8+ 346.2
-0.1038
0.5166
0.2027
47
Arietis
5.8
2.54
16.6
20 19.5
28 3 59.2 +11 12.3
+0.6686
0.5228
O.I9I0
M
Arietis (ifi«on)
4.6
+2.53
+16.3
+20 59.8
4 32.0 +11 43.9
+00435
0.5233
+0.1902
66
Arietis
6.1
2.44
152
2230.5
18 17.9+ I 3.0
+0.8614
0.5352
0.1659
7
Tauri
5.9
2.44
14.5
24 10.6
21 1.6+ 341.2
-04890
0.5376
0.1606
II
Tauri
6.1
2.42' 14. 1
25 3.2
2353.4+ 627.2
^.9773
0.5403
0.1548
16
Tauri
5.4
2.40 14.3
24 1.2
24 143.4+813.5
+0.41 16
0.5420
0.I5II
17
Tauri
3.8
+2.40+144
"»-23 507
145.5
+ 8 15.6
40.6056 0.5420
40.1510
18
Tauri
5.6
2.40 14. 1
24 34-3
152.6
+ 8 22.4
-0.1561
0.5420
0.1507
q
Tauri
4.3
2.40, 14.2
24 1 1.9
154.2
+ 8 23.9
+0.2468
0.5420
0.1506
20
Tauri
41
2.40' H-3
24 6.0
2 1 1.0+ 840.2
+0.3945
0.5423
0.1501
21
Tauri
5.8
2.40, 14.2
24 173
2 13.O1+ 842.1
40.1990
0.5423
0.1500
22
Tauri
6.5
+2.40 +14.2
+24 157
2 16.8 + 8 45.8
40.2368
0.5424
+0.1499
23
Tauri
4.3
2.39
14.4
2340.9
224.8
+ 8 53.5
40.8778
0.5425
0.1496
^
Tauri
30
2.39
143
23504
255.8
+ 9 23.5
+0.7844
0.5429
0.1485
27
Tauri
3.7
2.38
143
23 47.5
340.9
+10 7.0
40.9472
0.5436
0.1469
28
Tauri
5-2
2.39
14.3
23 52.5
341.5
+10 7.6
+0.8592
0.5436
0.1469
14 H.
Tauri
5.3
+2.40
+13.7
+25 19.3
410.3+1035.4I-0.6198
0.5441
+0.1458
p
Tauri
5-6
2.33
12.8
26 15.5
13*0.7- 443.2,-0.3942
0.5521
0.1256
0
Tauri
5.0
2.31
12.2
27 8.8
17 15.9
- 046.8
-0.8448
0.5557
O.I 159
a:
Tauri
5-3
2.29
12.8
25 25.7
18 14.5
+ 0 9.7
+1.0934
0.5565
O.I 134
17 B.
Aurigse
6.0
2.21
10.9
27 45.3
21^ 6 50.9
-I I 42.0
-0.1465
0.5669
0.0807
38 B.
Aurigse
6.5
+2.16
+10.5
+27 34.7
11 41.6- 7 2.3
40.3986
0.5706
+0.0672
47 B.
Auiigse
6.0
2.15
10.2
27 55-5
1345.6- 5 3.0
+0.1676
0.5721
0.0614
354 B.
Taun
6.4
2.10
9.8
27 52.4
18 16.9
-042.3
+0.4688
0.5752
0.0482
73 B.
Aurigse
5.8
2.12
9-2
29 29. 1
18 20.6- 038.7-1.2151
0.5752
0.0481
22
Aurigse
6.4 ! 2.11
94
2851.4
19 13.2
+ 0 1 1.9
-0.5171
0.5758
OXM55
ft
Tauri
1.8 j+2.10
+ 9-3
+28 32.2
20 23.2
+ I 19.1
-0.1316
0.5765
40.04JO
107 B.
Aurigse
6.5
2.05
9.2
27 36.5
26 013.5
+ 5 0.4
+0.9755
0.5789
0.0J05
116 B.
Auiigae
5-9
2.06
8.6
29 10. 1
I 31.8
+ 6 15.6
-0.6118
0.5796
OXM^
406 B.
Taun
5.6
2.00
8.6
27 56.7
6 7.8
+1040.7
+0.7488
0.5821
0.0123
136
Tauri
4.6
1.98
8.6
27 35-7
7 3-4
+11 34.1
+1.1218
0.5825
0.0095
154 B.
Auriese
6.4
+1.99
+ 8.0
+28 55.9
8 17.8
-I I 14.5
-0.2530
0.5831
4oxx)56
4»5 B.
Taun
6.1
1-95
8.3
27 34-3
10 3.0
- 9 33.5
+1.1587
0.5839
4<XOOOI
183 B.
Aurigse
6.3
1.96
7-4
2931.3
12 6.0
- 7 35.5
-0.8665
0.5848
-0.0064
K
Aurigse
4.4
193
6.8
29 32.0
15 35-2
- 4 14.7
-0.9170
0.5862
0.0175
211 B.
Aurigse
6.3
1. 91
6.8
29 35.0
1749.6
-2 5.8
-IX>I42
0.5868
0.0246
49
Aurigtt
51
+1.85
+ 6.6
+28 5.6
23 14.1
+ 3 5.5
+0.3385
0.5882
-00420
53
Aurigse
5.6
1-85
6.2
29 3-7
27 0 26.4
+ 4 14.9
-0.7077
0.5885
0-0459
54
Aurigse
5.8
1.84
6.4
28 20.6
054.0+ 441.3
+0.0079
0.5886
0.0473
28
Geminonim
5-5
1.83
5 9
29 3.7
2530+ 635.5
-0.8279; 0.5889
O.Q537
47
Geminonim
5.6
1.72 5.3 27 0.1
13 6.2
- 7 36.4
40.5562
0.5895
0.0865
53
Geminonun
5-9
+1.71
+ 4.9+28 3.1
14 50. 1 j- 556.7
-0.6640
0.5894
-0.0920
134 B.
Geminonjtn
6.5
1.69
5.0 2650.9
15 16.4- 5 31.5
+0.5159
0.5894
0.0934
59
Geminonim
5.7
1.68 4.6' 2748.5
18 8.0- 246.9
-0.7369
0.5892
0.1024
t
Geminonun
3-9
1.67 4.4; 2758.4
1835.1- 220.9
-0.950*
0.5891
a 1038
6»
Geminonun
50
1.66
4.2, 28 5.9 1
20 8.8- 051.0
-1.2409
0.5889
a 1087
V
Getmnoryxok
4-3
+1.63
+ 4.2
+27 5-5 1
2230.5
+ I 24.9
-04875
0.5886
-0.1160
VBpYi ii\
OCCULTATIONS, 1913.
593
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
AUGUST.
Umit-
The Star's
\
Kt CoNjuwcnoN IN R. A.
ing Par-
allels.
Rcd'ns from
Name.
Mag.
i9i3«o*
Apparent
Declina-
tion.
Washington
Mean Time.
Hour
Angle,
H
Y
%f
y
N.
S.
Aa
Ad
s
n
0 /
d h m
h m
0
0
c
Geminonim
5-5
+1-59
+ 4.1
+25 59.6
28 1 40.5
+ 4 27.2 +0.2383
0.5879
-0.1257
+59
-13
^
Geminorum
50
1.58
3.5
26 59.6
516.9
+ 7 54.8-1.2405
0.5871
0.1365
-40-63
a>
Caocri
5.9
1-53
3.4
25 38.0
8 10.6
+10 41.4 -0.2798
0.5862
0.145 1
+29
-41
4
Cancri
6.2
152
3.5
25 19.8
829.5
+1059.6-0.0225
0.5861
0.1460
*-43
-28
*
Cancri
5.9
1.50
2.8
25 464
" 52.7
- 9 45.3 -0-9762
0.5850
0.1558
-13
-M
^^
Cancri
64
+147
+ 3.3
+2324.1
13 IO-3
- 8 30.9+1. 1952 0.5845
-0.1595
f90+42
Cancri
5-9
1.46
2.8
24 17.9
15 500
- 557.6,-0.13700.5835
0.1669
+37
-36
28
Cancri
6.1
1.44
24
24 26.1
19 0.2
- 255.0-0.8161 0.5822
0.1756
- I
-66
v^
Cancri
5.7
M3
2.3
24 22.5
20 8.8
- I 49.1 -0.9590 0.5817
0.1787
-11
-66
v^
Cancri
6.4
1.43
2.2
24 22.9
2044.0
- I 15.3 -1.0705 0.5814
0.1803
-19
-66
r
Cancri
4-7
+1.36
+ 2.2
+21 47.0
29 050.3
+ 241.3+0.756505796
-0.1909
f90+-'8
NEW
MOON.
SEPTEMBER.
/
319 B.
49
9
50
a
%
550 B.
621 B.
214 G.
40 H.
43 H.
231 G-
236 G.
9 G.
17 G.
18 G.
43 B.
47 G.
64 G.
153 B.
169 B.
177 B.
42
h
A
31 B.
32 B.
3
4
40 B.
n
48 B.
50 B.
65 B.
85 B.
6
a
116 B.
Yiiginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Virginis
Librae
Librae
Librae
Librae
Librae
Librae
Librae
Librae
Librae
Librae
Scorpii
Scorpii
Scorpii
Scorpii
Scorjjii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
1913
6.0
+1.05
.
6.3
1.08
5-2
1. 11
T
5.6
1.13
I
6.2
+1.12
— I
1.2
1. 18
5-7
1.17
6.0
1.21
64
1.35
6.5
+1-35
— I
5.1
1.38
5-5
1.40
64
141
5-7
141
6.5
+1.52
— I
64
1.58
6.1
1-59
5.7
1.71
6.1
1-73
5.8
+1.79
— I
6.3
1.92
6.0
1.95
6.2
1.96
5.0
1-97
4-7
+2.07
—I
4.6
2.08
5.4
2.08
5.3
2.09
5.9
2.09
5-7
+2.10
—I
5.4
2.12
30
2.13
4-9
2.16
¥
64
2.16
5.5
+2.21
—I
6.0
2.25
31
2.30
1.2
2.38
6.2
2.39
2.9
+245
—I
8.8- 5 21.3
93' 5 49-7
[0.9, 10 16.7
io.6j 831.3
0.9- 952.1
1.6
2.0
i2.3
^34
[3.8
'3-9
145
[4.6;
[4.7
lit
[5.8
[7.0
[6.1
1042.6
12 15.5
1246.3
14 33.5
-15 554
15 53-7
1748.0
18 II. I
18 19.0
h20 3.7
20 48.7
2057.9
21 1.7
2141-9
-38
1 6. 1 -22 4.9
[6.7 24 12.0
[6.2 2251.5
[6.1 2252.2
t6.3 23324
[6.8,-25 29.5
[6.6 25 4.4
[6.3 24 16.8
[6.1 1 23434
i6.6i 2459.5
[6.9-26 0.9
t6.3i 2435.1
[6.8 2552.1
16.6 25 37.7
[6. 1 1 2429.5
[6.6-26 5.9
6.1 25 15.7
5.9 25234
5.9J 26 14.7
5.91 2621.2
6.3!-28 2.5
[Eph
2 539.6+353.2
10314
19 40.2
19 58.3
+• 8 35.0I-0.6046
- 6
6
8
2030.51- 5
325.3+ o
4 5-9+ I
7 38.3 + 4
2046.9- 6
21 6.7- 6
2334-0- 3
132.5- I
2 15.6- 1
2 56.8 - o
956.6+ 6
14 48.4 +11
15 15.0+11
19 34.2 - 8
2325.0- 4
3 36.3 - o
1036.1 + 6
1233-4+ 7
13 12.3+ 8
35.0
174
46.3
54.2
334
584
20.6
+0.3422
+1.1879
6377
+0.5464
-0.5307
+0.8246
+0.3818
-1.2305
13 34-8
+ 8
-10
17 59-2
19 50-9
19 12.7- 9
19 14.0- 9
19 310-
1951.1
21 8.5-
21 14.1I-
23 5-5,-
23 20.4 -
6
I 2.7-
3504
625.1
1.4+0.0590
39-3-0.5730
45.O1+0.8648
3.5'+ 1. 0821
23.7+1.0518
21.0+1.2008
2.3 +0.8956
28.0+0.9559
22.2 +0.1 188
39.9+0.0306
37-7-0.3784
6.6+0.5468
59.6|-i.i595
37.0-1.2529
58.6-0.6245;
46.8 +0.6982
43.5+0.1015
36.0-0.7374
34.8-1.3145
18.5-0.0466
59.1+0.9627
44.6-0.7014
39.2 +0.6134
52.0; +0.1047
37-7
0.5424
0.5426
0.5436
0.5436
0.5437
0.5450
0.5452
0.5460
0.5497
0.5498
0.5506
0.5512
0.5515
0.5517
0.5542
0.5560
0.5561
0.5576
0.5591
0.5606
0.5629
0.5635
0.5638
0.5639
0.5652
-0.2921
0.2890
0.2813
0.2810
-0.2804
0.2729
0.2721
0.2676
0.2483
-0.2477
0.2436
0.2401
0.2389
0.2377
-0.2245
0.2147
0.2138
0.2045
0.1960
-0.1864
0.1695
0.1646
0.1630
0.1621
-0.1507
+63-27
+i2;-82
+80+23
+10-85
+73-17
+15-77
+78- I
+61-25
-33-90
[+41
9
1+72
+72
+72
0.5655! 0.1479
59.3
1.1069
+0.3296
II.O
9 46.01+ 4 24.2
1034.4+ 5 10.7
1223.0I+ 655.2
0.5655
0.5655
0.5656
0.1476
0.1475
0.1468
- I 18.0-0.8987
-1.0790
-0.5675
-0.5400J
+1.0353
0.5657-0.1459
0.5660
0.5661
0.5665
0.5666
0.5670
0.5676
0.5681
0.5687
0.5688
0.5691
0.1425
0.1423
0.1373
0.1366
-0.1320
0.1244
0.1 174
0.1080
0.1058
-0.1007
-41
-81
+ 2
+17
+15
+70+28
+69j+ 5
+69+ 9
+39-38
+34
+12
-43
-68
+59 -15
-37|-90
-47,-90
-3-89
+64 - 6
+32-39
10,-90
-62I-90
+25-47
+64+12
- 9-^
+60-10
+32-39
-36|-90
+43-26
-22r-90
-36-90
5-84
- 4-82
I
+621+19
13]
594
OCCULTATIONS, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
SEPTEMBER.
TftB Star's
Name.
134
135
95
B.
B.
G.
43
163
G.
X
10
G.
210
B.
W
38
B.
48
62
G.
B.
58
G.
r
183
234
248
B.
B.
B.
on
A
36
B.
17
V
X
27
128 B.
152 B.
I
39
42
45
6
'I
78
81
82
h
<P
96
316 B.
317 B.
337 B.
342 B.
60 B.
98 B.
60
62
e
2oH*.^rietis
Scorpii
Scorpii
Ophiuchi
Ophiuchi
Ophiuchi
Sagittarii iyar.)
Sagittarii
Scorpii
Sagittarii (T«r.)
Sagittarii
C. D.-28° 14268
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Sagittarii
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Pisdum
Pisdum
Piscium
Piscium
Piscium
Pisdum
Pisdum
Mag.
6.4
6.0
6.1
54
6.3
4.4
5-7
5-8
4.3
4.7
6.4
6.3
6.0
6.1
3.3
3-5
6.2
5-9
5-7
4.8
4.9
6.2
5-8
4.8
5-3
6.1
5-3
6.5
3.8
30
6.5
4-4
6.2
5-5
6.1
49
6.4
3.8
6.3
6.4
6.4
5.4
4-4
5-7
6.5
6.3
6.4
6.5
6.0
6.3
6.2
6.1
4.6
4.4
5.6
6.4
Red'ns from
1913.0.
Ai
s
+2.51
2.53
2-74
2.83
2.98
+3.01
309
312
3.18
3.18
+3.22
324
3.25
328
3-39
+3.54
358
365
3.65
3-77
■»-3-77
3.78
3.81
3.81
3.86
+3.85
3.86
3.85
3.81
3-8i
+3.82
3-77
3.78
3.75
3-77
+3.71
372
3.66
365
3.65
"'■3.65
3.68
364
363
362
+363
362
3.61
3-54
351
+3-45
3.45
3-45
3.43
3.38
A5
ft
Apparent
Declina-
tion.
57-27
6.0
4-5
4.0
2.7
28
27
28
27
2.4-27
1.8 28
1.9! 28
1-7, 29
I.I 28
1.0-28
' 28
05
0.4
0.0
7.6
6.1
6.2
4-4
3-6
0.8
-05
3-5
5.4
7.5
7.7
7.8
8.5
0.2
1.6
2.1
2.5
4.4
4-9
5-5
5-6
6.8
6.9
8.8
8.9
9.4
28
28
27
-27
28
28
27
26
-26
22
21
20
21
-20
21
19
17
16
-17
14
14
13
-II
II
8
7
7
9-5 1- 7
9-7
20.2
20.7
20.7
+20.7
21.2]
21.3
22.6-
23.5.+
+24.0 +
23.9!
23.8I
24.1
237
f+3-37+22.3
8
6
5
4
6
5
4
o
1
6
6
7
7
II
+16
17.9
21 2
39-6
3.8
50.8
48.1
3-3
45.2
35-3
28.2
554
19.2
41. 1
28.4
5.0
48.0
46.4
2.1
9.9
319
259
40.8
49.8
1 1.9
32.5
54.2
0.7
31.5
3.1
312
14.9
173
37- 1
157
44.2
71
20.8
2.3
397
314
2.2
95
30.8
35.6
23.2
22.6
0.0
334
22.1
12.7
16.4
49-9
7.1
257
42.2
494
At Conjunction in R. A.
Washington
Mean Time.
d
6
Hour
Angle.
H
8
h m h m
15 49-5 +10 ^3-9
16 5.9+1029.6
3 16.5 - 2 45.3
7 437+ I 31.8
1552.8+ 922.2
34
20.3
344
3-5
49.2
16.7
6.1
5-9
44.8
20.8
9
10
11
17 37.9 +11
21 22.8- 9
22 10.5 - 8
047.3- 6
2 4-5|- 4
3 406 - 3
5 56.2- I
5564- I
751.5+ o
17 49.6 +10
2 55-6- 4
3 9-3- 4
1034.2+ 2
1257.0'+
0359-
2 1.7
16 19.8]+
020.3-
9 20.0 -
12
52.9
397
294
47-^
58.1
35-2
145
0.4
-0.0705
+1.0092
-0-5454
-0.3488
-0.8499
-09305
-0.7023
+0.0382
-^0.93 1 3
-0.2527
+0.2487
-0.3605
+0.0300
-0.1544
-1.2644
+0.0932
+1.1625
+1.0084
+0.2992
^•9545
+1.0327
-0.9722
-0.5580
18
14
15
16
17
18
II 23.3
II 53.3+ 2
1457.3+ 5
22 18.2 -I I
3 33-7 - 6
7124- 3
8533- I
1734.6+ 7
2049.0+10
23 12.5 -I I
o 24.4 -10
649.7- 4
7 24 o- 3
19 6.8+ 7
20 13.2+ 8
o 4.9 -I I
044.1 -10
2 12.6- 9
7 26.5 - 4
10 20.5 - I
1050.2- o
11 5.4- o
16 9.7+ 4
17 18.5+ 5
6 44.3;- 5
20 0.5 + 7
1256.3- o
13 26.4+ o
1339.8+ o
21 43.2+ 8
1634.0+ 2
942.3- 4
0.5695 -0.0909
0.0901
0.0578
0.0448
0.0210
0.5695
0.5697
0.5695
0.5683
0.5680 -0.0160
0.5670
0.5668 -0.0029
17.6-0.7045
42.0+1. 1711
II. I +0.5659
9.4+1.2885
42.9+1. 1547
36.6-0.4556
4.3-0.2477
26.3+0.9316
0.1 -0.3661
90,+o.7577
3i.5;-o.i8ii
21.6 +0.6315
7.0-0.7219
33 6I-0.3293
50.1 -1 .091 2
54.7-1.2292
19.7 -0.4023
41.6-0.7766
15.41+0.8477
9.91+0.3657
20.4 +0.0955
51.5-1.1175
36.8+1.1610
19.6+0.9522
26.5 +0.7587
28.8 -0.3678
26.6+1.3735
4.4+0.1736
250,-0.3167
38.o;-o.577i
28.5 j+i. 1435
48.3+1.0914I
32.8l-0.5534'
0.5661
05657
0.5652
0.5644
0.5644
0.5636
0.5593
0.5545
0.5544
0.5499
0.5484
0.5407
0.5397
0.5297
0.5240
0.5178
0.5164
0.5161
0.5140
0.5092
0.5060
0.5039
0.5029
0.4982
0.4966
0.4954
0.4948
0.4919
0.4917
0.4874
0.4870
0.4859
0.4857
0.4853
0.4840
0.4834
0.4833
0.4832
0.4824
0.4822
0.4812
04818
0.4848
0.4850
04952
/
-49
+17
-9-83
0-67
-29
0.0051
-22
+16
+0.0047
0.0084
+0.01
0.0194
0.0194
0.0248
0.0524
+0.0764
0.0770
0.0957
0.1015
0.1285
+0.1316
0.1610
0.1757
0.1908
0.1940
+0.1947
0.1994
0.2097
0.2166
0.2210
+0.2230
0.2323
0.2355
0.2377
0.2387
+0.2440
0.2445
0.2525
0.2531
0.2552
■»o.2555
0.2562
0.2585
0.2596
0.2598
+0.2598
0.2614
0.2616
0.2636
0.2630
+0.2584
0.2582
30 +29
-30
- 3-67
^'7
9
-60-90
0.4850 0.2581
0.4874 0.2543
0.2413
0.5046 .+0.2244
Limit-
ing Par-
allels.
N.
+19
♦62
^90
-34-90
-90
h42
+60^12
+ 2r-6o
h43
-54
+26
+61
-39
+62rH6
+39L-28
+63+12
+64
-22
+ 3
+17
-^
-82
- 2-90
+68
+64
+69
+26
-14
+39
+70+23
+14-72
+25'-58
+ 6
1-66
-5
+73
+21
*-75
*-3i
*-75
-54
-12
^■5-90
^■25
-63
-17-90
-27-90
+23-68
3
+82
+641
H9
-1
-90
o
-26
-40
7-90
-84+x>
6
6
+80-
+85
+80
+26J-65
+90+40
+541-35
+2&-61
+15-77
+9d+«)
+90^+19
fi6'-68
tEph 13]
OCCULTATIONS, 1913. 595
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
SBPTEUBER.
596
OCCULTATIONS, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
SEPTEMBER.
Ths Star's
Name.
^
B. Cancri
Cancri
28 Cancri
v* Cancri
r
8
34
37
Cancri
Cancri
Leonis
Leonis
Leonis
Venus
Mag.
6.4
5-9
6.1
57
6.4
47
5.9
6.4
5-5
-3.4
Red'ns from
Aa
s
+2.19
2.18
2.14
2.13
2.12
+2.02
I.7I
1.54
+1.53
A8
I.O
0.2
0.3
0.5
0.6
04
2.3
3.6
4.0
Apparent
Declina
tion.
+23 24.0
24 17.8
24 26.0
24 22.5
24 22.9
+21 46.9
16 49.6
13 47.0
14 97
+11450
NEW
At Conjunction in R. A.
Washinfrtoo
Mean Time.
d h m
84 22 38.4
26 I 23.2
439.3
550.1
626.5
1040.3
«« 9 57
23564
27 2 7.6
326.0
MOON.
Hour
Angle.
H
h
+ 2
+ 5
+ 8
+ 9
+10
-9
+11
+ 2
+ 4
+ 5
m
45.2
23.6
32.2
40
15.3
40.6
54.5
12.9
19
35.1
3-0
+1.2336
-O.I 184
-0.8077
9529
-1.0660
40.7846
40.9429
■K).24I5
.7088
+1.3270
4-0
0.5743
0.5734
0.5723
0.5719
0.5716
0.5700
0.5606
0.5546
0.5538
0.5074
y
-0.1570
0.1643
0.1729
0.1760
0.1775
-O.I88I
0.2373
0.2624
0.2656
-0.2518
Limit-
ing Par-
N.
♦90
+90 +
+46
^38-35
- 1-66
-10-66
-19-66
9
3
1-28
♦90+13
58
h 8-76
[♦90+39
OCTOBER.
231 G. Virginis
236 G. Virginis
9 G. Librae
17 G. Librae
18 G. Librae
43 B. Librae
47 G. Librae
64 G. Librae
153 B. Librae
169 B. Librae
177 B. Librae
42 Librae
b Scorpii
A Scorpii
31 B. Scorpii
32 B. Scorpii
3 Scorpii
4 Scorpii
40 B. Scorpii
n Scorpii
48 B. Scorpii
50 B. Scorpii
65 B. Scorpii
85 B. Scorpii
6 Scorpii
a Scorpii
116 B. Scorpii
r Scorpii
134 B. Scorpii
135 B. Scorpii
95 G. Ophiuchi
43 Ophiuchi
163 G. Ophiuchi
X Sagittarii {var.)
10 G. Sagittarii
2 10 B. Scorpii
W Sagittarii (vdr.)
38 B. Sagittarii
C.D.-28<* 14268
48 G. Sagittarii
62 B. Sagittarii
64
+1.20
-130
-18 II. I
57
1. 21
13.1
18 19.0
6.5
1.27
137
20 37
64
1.32
14. 1
2048.7
6.1
1.32
14. 1
2057.9
57
+143
-15.5
-21 1.7
6.1
142
144
21 41.9
5.«
147
145
22 4.9
6.3
1.57
150
24 1 1.9
6.0
1.59
14.7
22515
6.2
+1.60
-14.7
-22 52.2
5.0
1.61
14.8
23 324
4-7
1.68
15.3
25 29.5
4.6
1.70
15.1
25 4.3
5.4
1.70
14.9
24 16.7
5-3
+1.70
-14.7
-23 434
5.9
1.70
15.1
24 594
57
1.71
154
26 0.9
5.4
1.73
14.9
2435.1
30
1.73
15-3
2552.1
4-9
+1.76
-151
-25 37-7
6.4
1.76
14.8
24 29.5
5.5
180
15.1
26 5.9
6.0
1.84
14.8
25 157
3.1
1.88
14.7
25 23.3
1.2
+1.94
-14.8
-26 14.6
6.2
1-95
147
2621.2
2.9
2.00
15.1
28 2.4
6.4
2.05
14.6
27 17.9
6.0
2.07
14.9
28 21. 1
6.1
+2.26
-13.8
-27 39.5
5.4
2.35
134
28 3.8
6.3
2.49
124
27 50.8
4.4
2.52
12. 1
2748.1
5.7
2.60
11.7
28 3-3
5.8
+2.63
-1 1.8
-2845.2
4.3
2.69
11.8
29 35-3
4.7
2.69
11.2
28 28.2
64
2.72
II. I
28554
6.3
2.76
10.7
28 19.2
6.0
+2.76
-10.6
-28 41. 1
2
12 7.1
12 47.1
19 3441
o 17.2
042.9
4 54.01+ 2 45.6
20.5
14.6
14.7
25.6
8
837.^
1240.7
19 26.9
21 20.4
21 58.0
22 19.8
235.8
3 394
346.9
348.1
4 4.5
424.0
538.9
544.3
732.3
746.6
9257
1052.3
15 12.1
23 8.6
051. 1
4307
5 17.3
7504
9 5.9
10 39.9
1252.6
1252.8
+10
+11
-6
- I
- I
36.1
14.7
13.1
40.9
16.1
+ 6
+10
- 7
-5
-4
-4
o
+
+
+
+
+
+
+
+
+
+
+11
-9
-8
-7
-4
-3
+ 6
+10
-5
-3
o
49.5
28.5
22.4
38.8
46.0
471
2.9
21.6
33.6
38.8
22.6
36.4
11.5
47.
11.6
41-
56.3
15.2
27
47.5
38.2
47.8
344
55.7
24.7
20.1
47.3
59-9
30.3
37.9
38.1
4-0
12 8.0+ 847.6I-0,
14 37.9
1752.6
18 39.5
20 24.7
2345.1
o i.oi
+1.07 16
+1.0416
+1.1888
40.8883
40.9478
40.1231
40.0369
-0.3655
■«>.5472
-1.1333
-1.2252
-0.6062
+0.6976
+0.1099
-0.7164
-1.2848
^.0359
-K).9584
-0.6805
+0.6146
+0.1138
-1.0796
+0.3356
.8739
-1.0511
.5467
^•5194
+1.0332
-0.0559
+1.0085
-0.5223
-0.3276
-0.8213
-0.9007
-0.6749
40.0568
+0.9399
-0.2301
+0.2659
-0.3361
40.0499
0.5605
0.5608
0.5637
0.5657
0.5659
0.5678
0.5692
0.5707
0.5731
0.5737
0.5739
0.5740
0.5753
0.5755
0.5756
0.5755
0.5756
0.5757
0.5760
0.5761
0.5765
0.5765
0.5769
0.5774
0.5778
0.5782
0.5783
0.5784
0.5786
0.5786
0.5781
0.5774
0.5755
0.5750
0.5737
0.5734
0.5724
0.5719
0.5712
0.5702
0.5701
-0.2427
0.2414
0.2282
0.2183
0.2174
-0.2081
994
896
500
492
o.
o.
o.
o.
-o.
o.
o.
o.
o.
-o.
o.
o.
o.
o.
-o.
o.
o.
o.
o.
-o.
o.
o.
0.0922
0.0914
-O.Q585
0.0453
0.0212
0.0160
0.0050
-0.0027
40.0049
0.0086
0.0133
0.0197
+72+14
+70+26
469+4
469+ 8
+39-38
+34^*2
+13-67
+59 -15
-35^90
-44-90
724I+59N5
674
658
648
533
504
500
- 2
464
+33
-9-90
^54-90
+25^7
483 +64+12
448 - 8.-90
446 f6o-io
395
388
342
264
1*92
097
074
022
+aoi97»fi8l-42
+72
+16
-87
-6
-38
+32-38
-34-90
443-26
-21-90
-34-90
- 4-82
-3-80
4621+19
191-48
+62+17
- 8-81
+ 1-65
-27-90
-32
-90
+17
+60+1
+ 3
+29
- 2
-20-90
|-4»
2
-59
-29
-66
tEph 13]
OCCULTATIONS, 1913. 597
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
OCTOBER.
598
OCCULTATIONS, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
OCTOBER.
1
I.imit-
Thr Star's |
At Conjunction in R. A.
ins Par*
1
alleU.
Red'nsfrom 1
*T _
Name.
Mag.
1913.0.
Apparent
Declina-
tion.
Washington
Mean Time.
Hour
Angle.
H
y
s"
y
N.
S.
s
Aa
//
0 t
d h m
h m
0
e
21
Tauri
5.8
+3.98
+20.0+24 17.4
17 14 20.7 + 0 24.7
+0.1701
0.5410
+0.1489
+54-20
22
Tauri
6.5
3.98
20.0
24 15-8
14 24.5 + 0 28.5
+0.2084
0.5410
0.1488
+57
-18
23
Tauri
4-3
3.97
20.1
2341.0
14 32.7 + 0 36.3
+0.8561
0.541 1
0.1485
^90+17
V
Tauri
30
3.97
20.0
23 50.5
15 4.1+ I 6.6
.K).76i4
0.5415
0.1474
f90'+ii
27
Tauri
3.7
3-97
19.9
23 47-6
1549.8+ 150.7
.K).9256
0.5420
0.1457
+90+21
28
Tauri
5-2
+3.97
+19.9
+23 52.6
1550.4+ I 51.3
K).8366
0.5420
+0.1457
♦90+16
14 H.
Tauri
5.3
4.00
19.5
25 19 4
1619.7+ 2 19.7
-0.6587
0.5424
0.1447
+ 8-63
P
Tauri
5.6
4.01
17.9
26 15.6
18 I 29.2,+! I 10. 1
-04373
0.5489
0.1242
f2ii-49
0
Tauri
50
4.02
17.0
27 8.9
5 39.3 - 8 48.6
-0.8972
0.5516
0.1143
-8-63
X
Tauri
5.3 i 3.98
17.2
25 25.8
6 39.2|- 7 50.7
+1.0677
0.5523
0.1119
^+35
17 B.
Aurigs
6.0 +4.00I
+143
+27 45-4
1935.3+ 437-4
-0.1982
0.5602
ko.0790
+33-32
38 B.
Aurigse
6.5
3-97
13.3
2734.7
19 035.2+ 926.3
+0.3536
0.5628
0.0656
+67- I
47 B.
Aurigse
6.0
3-97
12.9
27 55.5
243.3+1129.6
.K).1I72
0.5639
0.0598
+51,-13
354 B.
Taun
6.4
3.94
11.9
27 52.4
7 243;- 7 59.8
+04218
0.5660
0.0468
+72^+ 4
22
Aurigse
6.4
3-97
11.4
2851.5
822.7
- 7 3-5
-05843
0.5664
ox>440
+11-51
P
Tauri
1.8
+3-95+" I
+2832.3
9 35-2- 553.7
-0.1918
0.5670
+0.0406
+33-28
107 B.
Aurigse
6.5
3.901 10.6
3.94 9-9
27 36.6
13 34.6 - 2 3.3
-K).9364
0.5684
0.0293
+90+34
116 B.
Aurigse
5-9
29 10. 1
1456.3,-044.8
-0.6857
0.5689
0.0254
+ 5-58
406 B.
Taun
5.6
3.86; 9.2
27 56.7
1944.0+ 3520
+0.7025
0.5703
0.0115
+90+21
136
Tauri
4.6
3.84 91
27 35.7
2042.2+ 448.0
4
+1.0836
0.5706
0.0086
+90+45
154 B.
Aurigse
6.4
+3.88
+ 8.4
+2855.9
21 59 9;+ 6 2.7
-0.3254
0.5709
+0.0048
+26-32
415 B.
Taun
6.1
382
8.4
2734.3
2350.0+ 748.6
+1.1202
0.5713
r-0.0005
■f90+48
183 B.
Aurigse
6.3
3.861 7-3
2931.3
80 I 58.7 + 9 52.3
-0.9537
0.5718
0.0068
-13-60
K
Aurigse
44
3.82
6.3
2932.0
538.2-1036.6
-1.0080
0.5724
0.0176
-18-60
1
211 B.
Aurigse
6.3
3.81
5-9
29 35.0
7 59.3 - 8 20.9
-1.1094
0.5726
0.0246
-27J-60
49
Aurigse
5.1
+3.71
+ 51
+28 5.5
1340.8- 252.6
+0.2747
0.5730
-0.0414
+61- 4
53
Aurigse
5.6
3.72
4-5
29 3.7
1457.1- 139.1
-0.7994
0.5731
0.0452
- 2-61
54
Auri^
5.8
3.69
4-7
2820.5
15 26.1- I 11.3
-0.0654
0.5731
0.0466
f4i;-2i
28
Geminorum
5-5
3.69
3.9
29 3-7
1731.7+ 049.5-0.9245
0.5731
0.0528
-11-61
47
Geminorum
5.6
3.50' 2.2
27 0.1
81 4 20.4 +11 13.2+04925
0.5721
0.0844
+78+4
53
Geminonim
5.9
+3.52+ 1-4
+28 3.0
6 10.6 -1 1 0.9
^.7629
0.5718
-0.0896
0-62
134 B.
GemiiKMiiin
6.5
3.49 1-6
2650.8
638.5-i0 34.o;.K).4503
0.5718
0.0910
+74+1
59
Geminorum
5.7
3-471 0.8
2748.4
9 40.7i- 7 38.8
-0.8396
0.5712
0.0996
- 4-62
1
Geminorum
3.9
3.45 + 0.5
27 58.3
10 9.4- 7 IX. 2
-1.0592
0.5711
O.IOIO
-21-62
V
Geminorum
4.3
338- 0.1
27 5.4
14195- 310.6-0.5848
0.5701
O.I 127
fi2-56
c
Geminorum
5.5
+331
-0.4
+25 59-5
17 41.6+0 3.7.K).i6io
0.5692
-0.1220
+54-17
OD
Cancri
5-9
3.20I 1.7
25 37.9
82 0 37. 1 + 6 43.6 -0.3746
0.5670
0.1406
+24-47
4
Cancri
6.2
3.19 1-7
25 19.8
057.2,+ 7 3o;-o.i097
0.5668
0.1415
+38-32
i>
Cancri
5-9
3.15 2.9
25 46.3
4338+1031.4-1.0929
0.5656
0.1509
-22-64
35 B.
Cancri
6.4
307 2.1
23 24.0
556.6+1151.1+1.1432
0.5650
0.1544
+90+37
X
Cancri
5-9
+306- 3.0
+24 17.8
846.8- 925.1
-0.2295
0.5640
-0.1615
+32-40
28
Cancri
6.1
301 3.7
24 26.0
12 9.6- 6 9.8
-0.9295
0.5626
0.1698
-9-66
v^
Cancri
5-7
2.99 3-9
24 22.4
1322.8-459.3
-1.0770
0.5622
0.1728
-20I-66
v^
Cancri
6.4
2.98 4.0
24 22.8
14 0.4-423.1
-1. 1918
0.5619
0.1743
-31-66
r
Cancri
4-7
2.86| 3.9
2 1 46.9
18 23.1 - 0 10. 1
+0.6892
0.5600
0.1846
^,+ 4
8
Leoms
5-9
+2.45 - 6.3
+1649.6
83 17 37.3f 1 46.1
+0.8572
0.5501
-0.2323
♦90+ 9
34
Leonis
6.4
2. 211 7.6
13 47 0
24 9 o.5-i0 55.o!-K>.i522
0.5445
0.2569
+53-32
37
Leonis
5-5
2.18 8.1
14 9.6
11 16.4- 843.7-0.8120
0.5438
0.2600
f 2;-76
c
Leonis
51
1.85
8.4
634.0
25 7 20.1+1038.9+1.3245
0.5392
0.2819
^90+37
X
Leonis
4-7
1.83
9.0
748.3
917.9-1127.3
-04629
0.5389
0.2834
f2i-69
6
Leonis
4.1
+1.75J- 9.5
+ 630.2
16 41.5- 4 18.6
-1.2826
0.5384
-0.2884
-30-83
80
Leonis
6.4
1.71! 9.2
420.2
1851.3- 2 13.1I+0.2432
0.5383
0.2896
+58,-32
83
Leonis
6.3
1.67
8.9
329.1
19 18.5 - 1 46.8
+0.9568
0.5383
0.2898
f90+6
r
Leonis
5.2
1.70
9.1
320.0
19492- I 17.1
+0.9592
0.5383
0.2901
♦90+7
+39'-50
89
Leonis
5-7
1.67
9-5
332.5
22 47.0,+ 1 34.7
-0.1088
0.5383
0.2914
9B
. Virginis
6.2
+1.57
- 9.4
+ 0 9.7
W 5313
+ 8 5.5
+1.2650
0.5387
-0.2934
♦90I+28
[Eph 13]
OCCULTATIONS, 1913. 599
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
OCTOBER.
600
OOCULTATIONS, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIQNS.
NOVEMBER.
Trb Star's
Name.
317 B. Aquarii
337 B. Aquarii
342 B. Ac^uarii
60 B. Pisdum
60 Pisdum
62 Pisdiun
d Pisdum
£ Pisdum
X Pisdum
20 H^ Arietis
26
27
M
47
e
66
7
II
16
17
18
20
21
22
23
n
27
28
14 H.
P
X
17 B.
38 B.
47 B.
354 B.
22
107 B.
116 B.
406 B.
136
154 B.
415 B.
183 B.
K
49
53
54
28
47
53
134 B.
59
Arietis
Arietis
Arietis
Arietis
Arietis (iftean)
Arietis
Tauri
Tauri
Tauri
Tauri
Tauri-
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Tauri
Aurigae
Aurigae
Aurigae
Taun
Aurieae
Taun
Aurigae
Aurisae
Taun
Tauri
Aurigae
Taun
Aurigae
Aurigse
Aurigse
Aurigae
Aurigae
Geminonmi
Geminonmi
Geminonmi
Geminonun
Geminonun
Geminonim
Mag.
6.3
6.4
6.5
6.0
6.2
6.1
4.6
44
5.6
6.4
6.2
6.4
5-7
5.8
4.6
6.1
5-9
6.1
5-4
3.8
5.6
4.3
41
5.8
6.5
4-3
30
3-7
5-2
5.3
5.6
50
5.3
6.0
6.5
6.0
6.4
6.4
1.8
6.5
5-9
5.6
4.6
6.4
6.1
6.3
4.4
5.1
5.6
5.8
5.5
5.6
5-9
6.5
5.7
3.9
Red'ns from
1913.0.
Aa
s
+345
349
349
3-53
3.70
+3.70
3.70
3-75
3.89
4.06
+4.17
4.14
4.21
4.28
4.29
Aa
ff
+4.401+23
446
450
4.48
4.48
+4.50
449
4.49
449
449
+4.48
448
449
449
4-53
+4.60
4.64
4.60
471
4.701
+4.72
4.71
4.75
4.74
4.69
+4.75
4.69
4.68
4.72
4.66
+4.73
4.71
4.61
4.64
4.60
+4.62
4.44
447
4.42
4.42
+442
+193
20.1
20.3
22.7
259
+26.0
26.0
26.3
27.0
26.8
+26.4
26.2
259
25.1
25.1
.2
22.8
22.3
22.0
22.0
+22.0+24
22.0
22.0
22.0
22.0
+21.
21.8
21.7
21.7
21.5
+19.8
18.8
18.8
15.7
14.5
+14.0I+27
12.8
12.4
12.0
11.2
+10.6I+29
9-5
9-3
8.7
8.4
44
3.8
3-9
3.1
05
0.2
0.1
I.I
- 1-3
Apparent
Declina-
tion.
622.7
5 0.1
4 334
022.1
6 164
649.9
7 7.1
725.8
II 42.3
1649.4
+19 28.6
17 19.6
19 38.9
20 19.6
21 0.0
+22
24
25
24
23
24
24
24
24
9+23
23
23
23
25
+26
27
25
27
27
27
28
28
27
27
27
28
27
74^+29
6.2
29
28
29
28
+29
27
28
26
27
+27
30.7
10.8
3.3
1.4
50.8
34.4
12. 1
6.2
174
15.8
41.0
50.6
47.6
52.7
19.4
15.6
8.9
25.8
454
34.8
55.5
524
51.5
32.3
36.6
10. 1
56.7
35.7
55.9
34-3
31.3
32.0
5.5
3-7
20.5
3.6
0.0
3.0
50.8
484
58.3
[£ph
At Conjunction in R. A.
Washington
Mean Time.
d h
8 O
5
6
19
10 2
2
2
10
11 5
22
12 9
9
14
22
22
18 12
15
18
20
20
16
16
17
m
17.2
Hour
Angle,
H
h
- 7
21.0- 2
30.5 - I
56.0 +11
- 7
- 6
- 6
I.I
31.0
44.3
4391+ I
22.6- 4
16.4 +11
0.2- I
9.8
48.1
24.1
56.7
37.7 +
21.0I+
+
12.6
2.5
4.6
11.7
13.2
20 II. 7 +
20 13.2 +
2030.0+ 8
2032.0 +
2035.8 +
43.9
14.9
0.0
0.6 +
- I
+ 3
+10
+11
m
50.0]
541
46.4
18.0
24.6
554
42.5
4.2
48.1
36.3
59-2
49.9
37-9
59.5
31.1
45.2
22.9
8.8
54.9
56.9
3.8
5.2
21.5
27.1
20
21
22
22
22 29.5 +10
+
+
+
14 731.9
7
II
12
I
6
8
13
14
15
19
20
I
2
3
5
7
II
19
20
20
22
9
II
12
15
15
34.9
4.8
48.3
48.9
16.8
+1.3117
+1.0932
40.9008
-0.2461
+0.2300
-0.2598
-0.5196
+1.1756
+10773
-0.6020
-1.1617
+1.2176
-0.1495
+0.6060
-0.0214
+0.7679
-0.5947
-1.0923
+0.2997
+0.4948
-0.2714
+0.1337
+0.2816
8 23.41+0.0848
8
8
9
9
9
38.8- I
38.0- o
24.5 -I I
20.9- 7
27.6
5.7-
3.51+
15.31+
12.5 +
- 4 59.7
- 4
o
o
I
5
+ 6
+11
-II
33-5 -10
22.8- 8
33.3
18.6
16.4
40.1227
40.7673
+0.6721
+0.8343
+0.7457
-0.7434
-0.5374
1.6J-1.0016
4.5+0.9529
46.d-0.3265
0.7+0.2163
58.7-0.0223
3i.d+o.2750
24.6-0.7293
33.6-0.3396
21.9+0.7800
30.7
8.8-
9.3
25.3
54.3
59.5
48.0
38.4
6.3
9.0- o
37-8I+ o
6
3
4
5
6
+ 8
- 5
- 3
- 3
39.5-0.8394
13.9+0.5393
50.4+0.9183
36.3-0.4895
51.2,40.9513
48.3-1.1217
18.6,-1.1808
23.3I+0.0911
36.5 -0.9843
4.3-0.2509
4.6-1. 1126
3».9
45.7-0.9661
18.8
23.1
4.6
+0.2938
+0.2493
-1.0468
-1.2675
04816
04809
04807
0.4804
0.4864
0.4865
0.4866
0.4898
0.4992
0.5 lOI
0.5179
0.5180
0.5223
0.5283
0.5286
0.5395
0.5418
0.5441
0.5454
0.5454
0.5455
0.5455
0.5458
0.5458
0.5459
0.5460
0.5463
0.5469
0.5469
0.5472
0.5539
0.5568
0.5575
0.5652
0.5677
0.5687
0.5707
0.57 1 1
0.5715
0.5728
0.5732
0.5744
0.5745
0.5749
0.5751
0.5754
0.5757
0.5757
0.5756
0.5756
0.5754
0.5733
0.5728
0.5727
0.5718
0.5716
/
+0.2573
0.2589
0.2592
0.2613
0.2569
+0.2567
0.2566
0.2531
o.
0.2242
+0.2108
0.2105
0.2025
905
896
647
593
534
495
495
492
491
485
485
483
480
469
o.
o.
+0.
o.
o.
o.
o.
+0.
o.
o.
o.
o.
+0.
o.
o.
o.
o.
+0.
o.
o.
+31-57
+18-73
+90+23
2408 +90+18
+13-70
-24-71
+90+35
36-42
^-85- 2
+43-34
+90+10
+12-61
-22
|f62
77
137
"3
0.0781
0.0647
+0.0588
0.0457
0.0430
0.0395
0.0281
+0.0242
0.0102
0.0073
40.0035
-0.0019
-0,0082
0.0190
0.0428
0.0466
0.0480
-0.0541
0.0855
0.0908
0.0921
a 1006
h-0.1020
Limit-
ins Par-
alleli.
N.
+^4+33
+85
+85
+15
+ 3
+32-58
+57
-32
-13
-3
+29I-42
+52
+61
+49
+51
-21
-14
-24
-22
+90+1
+90+
2
6
453 +90+16
453 +90+11
442 + 2-65
236 +14-55
-16-63
+90+27
26-39
+58
+43
+61
+
+25
-9
-20
-4
2-61
-36
+90+24
-5-^1
+82+13
+90+34
+16-42
+90+37
-29-60
-36-60
+50-13
-16-61
+30-31
-27-61
+63-6
-14-62
+59 -w
-20-62
-48U2
I3l
OOOULTATIONS, 1913.
601
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
NOVEMBER.
Limit-
Thb Star's |
At Conjunction in R. A.
ing Par-
allels.
A
Red'ns from
V «
1
Name.
Ma£.
i9i3'0.
Apparent
Declina-
tion.
Washington
Mean Time.
Hour
Angle,
H
y
xf
/
N.
0
S.
8
n
0 /
d
h m
h m
0
V
Geminonim
4.3
+4.34
- 2.3
■»'27 54
17
19 48.9
+ 4 6.2
-0.7963
0.5702
-0.1135
- 2
-63
c
Geminorum
5.5
4.26
2.8
25 59-5
23 12.2
+ 721.7
-0.0512
0.5689
0.1227
HI
-28
oa
Cancri
5.9
4.17
4.6
25 37-8
18
6 10.7
- 9 55.5 -0.5953
0.5657
0.1410
+11-59
5
B.
Cancri
6.4
4.11
4.0
23 49-3
614.4
- 952.0+1.2754
0.5657
0.1411
*^+53
4
Cancri
6.2
415
45
25 197
631.0
- 9 36.0
-0.3294
0.5656
0.1418
426-44
^
B.
Cancri
6.4
+4.02
-5.2
+23 23.9
"33-3
-444.9
+0.9268
0.5631
-0.1544
490+21
Cancri
5-9
4.02
6.2
24 17.7
14 25.5
- I 59.0
-0.4560
0.5616
0.1614
^■19-53
28
Cancri
6.1
398
7-2
24 25.9
17 50.8
+ I 18.7
-1.1632
0.5600
0.1695
-28!-66
v>
Cancri
5-7
3-95
7-5
24 22.4
19 5.0
+ 2 30.2-1.3127
0.5593
0.1724
-50-66
r
Cancri
4-7 1 380
7.8
2146.8
19
0 9.7
+ 723.9+0.4631
0.5565
0.1838
^■73-8
8
Leonis
5-9 +3.35
-11 .0
+1649.5
2351.8
+ 6 15.940.6279
0.5441
-0.2296
486-5
34
Leonis
64 307
12.7
13 46.9
20
15 39.5
- 2 28.5 -0.0833
0.5369
0.2529
440-44
37
Leonis
5-5 ' 3.04
13.2
H 9-5
1759.3
- 0 13.4
-1.0599
0.5360
0.2558
-14
-76
c
Leonis
5.1
2.64
135
633.9
21
1441. 1
- 4 12.4
+1.1218
0.5303
0.2762
+90+19
X
Leonis
4.7
2.62
14.2
748.2
1642.8
- 2 14.7
-0.6914
0.5299
0.2776
+ 9-82
8o
Leonift
6.4
+2.47
-14.2
+ 420.1
22
235.7
+ 7 19.0
40.0369
0.5289
-0.2833
+46
-42
83
Leonis
6.3
2.42
13.8
329.0
3 3.8
+ 7 46.2
+0.7627
0.5289
0.2835
490
- 5
r
Leonis
5.2
245
14.0
319.9
3356
+ 8 17.0
40.7658
0.5289
0.2837
490
-5
89
Leonis
5-7
2.41
14.4
332.4
639.5
+11 14.9
-0.3154
0.5289
0.2849
428
-^i
9
B.
Virginis
6.2
2.30
life
0 9.7
13 37.8
- 6 0.3
+1.0910
0.5293
0.2868
+90
+15
fi
Virginis
3.8
+2.37
-15.0
+ 2 15.1
14 22.8
- 5 16.7
-1.2258
0.5293
-0.2869
"25
-88
27
B.
Virginis
6.5
2.27
14.6
+ I 0.6
18 23.1
- I 24.2
-1.1283
0.5298
0.2874
-18
-89
31
B,
Virginis
6.4
2.24
14.1
- I 17.2
19 19. 1
- 030.0
+0.9105
0.5300
0.2874
489
+ 4
162 B.
Virginis
6.2
2.09
14.2
4 8.3
28
758.2
+U44.4
+0.1406
0.5329
0.2858
*-5i
-37
200
B.
Virginis
6.3
2.07
14.2
4 34-6
9 444
-10 32.9
+0.0748
0.5334
0.2853
+48
-40
/
Virginis
6.0
+2.05
-14.2
- 521.4
12 8.5
- 8 13.5
+0.1722
0.5342
-0.2844
*-53-35
319
B.
Virginis
6.3
2.00
14.5
5 49-8
17 8.7
- 3 23.3
-0.7713
0.5361
0.2821
+ 4-90
49
' Virginis
5.2
1.91
13-9
10 16.8
24
2 29.0
+ 5 38.2
+1.0754
0.5403
0.2758
f8o
+15
9
Virginis
5-6
1.92
14.4
831.4
2473
+ 5 56.0
-0.7666
0.5404
0.2756
*- 3
-90
50
Virginis
6.2
1.91
14.0
952.2
320.1
+ 6 27.6
+0.4307
0.5407
0.2752
466
-22
a
Virginis
1.2
+1.86
-14.2
-1042.7
10 19.2
-1047.5
-0.6279
0.5444
-0.2688
+ 9
-85
i
Virginis
5.7
1.84
13.9
12 15.5
II 0.1
-10 8.1+0.7375
0.5448
0.2680
478
-6
550
B.
Virginis
6.0
1.83
14.0
1246.3
14332
- 642.3+0.3055
0.5468
0.2642
+57
-28
621
B.
Virginis
6.4
1.76
14. 1
14 33-5
26
337.5
+ 5544-1.2527
0.5550
0.2467
-35
-90
21^4
G.
Virginis
6.5
1.76
13.8
15 554
3 57-0
+ 6 13.2
+0.0343
0.5552
0.2462
440
-42
40
H.
Virginis
5.1
+1.76
-13.9
-15 53.7
622.2
+ 8 33.2
-0.5853
0.5569 -0.2424
4 8
-82
43
H.
Virginis
5.5
1-74
13.7
1747.9
818.8
+10 25.7
+0.8534
0.5583 -0.2392
472
+ 2
NEW
MOON,
58
G.
Sagittarii
6.1
+2.24
-8.5
-28 28.4
29
930.1
+ 747.1
+0.1842
0.5845
40.0283
426
-34
4>
Sagittarii
3-3
+2.32
- 71
-27 5.0
1852.2
- 7 13.1
-0.8675
0.5790
40.0565
-27
-90
r
Sagittarii
3.5
2.41
6.2
27 48.0
80
326.6
+ I 1.5
^.4733
0.5727
0.0810
+47
-17
201
B.
Sagittarii
5.9
2.41
5-3
26 3-3
6 2.5
+ 3314
-1.1414
0.5707
0.0881
-44
-90
248
B.
Sagittarii
5.7
2.50
4.5
27 9.9
1255.4
+10 8.8
+0.6974
0.5649
0.1063
462
-5
h
Sagittarii
4-7
2.50
3.6
25 4-6
1549.8
-11 3.3
-1.1892
0.56^23
0.1137
-46
-90
308
B.
Sagittarii
6.3
+2.54
- 2.6
-24 9.5
23 22.5
- 3 47.0
-1.2406
0.5555
+0.1319
-49
-90
DECEMBER.
36 B. Capricomi
17 Capricomi
ij Capricomi
27 Capricomi
30 Capricomi
y Capricomi
8 Capricomi
6.2
58
4.8
6.1
5.4
3.8
30
+2.68+0.6-2240.8 1 15
+2.74+ 2.0-21 49.8
2.78 3.8 2011.9
2.83 3.9 2054.3
2.81 5.4 18 20.9
2.90 7.4 17 3.2 8 1 14.2
+2.92+ 7.8I-1631.2 448.7
[Eph 13]
2.81+11 20.6-0.4894
-0.0728
-0.2059
+1.0438
-0.8890
2245.6- 5 12.1
2 7 27.9I+ 3 133
9 56.71+ 5 37.4
14 6.3+ 939.2
- 3 33.2
-o 5.1
+0.0518
+0.2578
0.5406 40.1652
0.5332
0.5252
0.5230
0.5193
0.5101
0.5074
+0.1795
0.1939
0.1977
0.2037
H-5
428
+23
469
-12
0.2180 440
40.222I
1+51
-76
-48
-56
+16
-90
-41
-31
602
OCCULTATIONS, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
DECEMBER.
Limit-
Thb Star's
At Conjunction in R. A.
ing Par-
allels.
Red'ns from
*» —
Name
Mag.
I913.0-
Apparent
Declina-
tion.
Washington
Mean Time.
Hour
Angle,
H
Y
%f
/
N.
S.
s
It
0 /
d h m
h m
•
•
t
Aquarii
i 4.4
+2.96
+10.2
-14 17.4
8 15 0.8
+ 949.2
+0.1415
0.5001
+0.2324
+47
-37
39
Aquarii
i 6.2
2.99
10.5
14 37.2
18 12.6 -I I 4.5
+1.2516
0.4981
0.2353
*-75
+30
42
Aquarii
i 5.5
2.98
"•3
13 158
20344
- 8 46.7
+0.3228
0.4966
0.2373
+57
-27
45
Aquarii
i 6.1
3.01
II. 2
1344.3
21 45-5
- 7 37.6+1. 1261
0.4959
0.2382
+76+19
tf
Aquarii
i 4.9
3.01
12.9
II 7.2
4 4 7.0
- I 26.8
-0.2173
0.4923
0.2430
+30
-56
58
Aquarii
i 6.4
+3.02
+12.9
-II 20.9
441.0
-053.7
+0.1712
0.4920
+0.2434
+50-35
.,^B.
Aquari
i 6.5
303
14.6
845.8
10 58.8
+ 5 13-6
-I. I 276
0.4889
0.2474
-2OJ-90
Aquari:
I 3.8
3.07
15.4
8 2.3
16 19. 1
+10 25.3
-0-5977
0.4867
0.2504
+12
-82
78
Aquari
i 6.3
307
156
739.8
17 25.1
+11 29.5
-0.7362
0.4862
0.2509
^■5
-^
8i
Aquarii
I 6.4
3.10
16.2
731.4
21 15.8
- 846.0
+0.0786
04848
0.2527
+47
-40
82
Aquari
I 6.4
+3.10
+16.4
- 7 2.2
2154.9
- 8 8.0
-0.2942
0.4846
+0.2530
+281-60
h
Aquari
I 5-4
3.14
16.1
8 9.5
2323.1
- 642.2
+1.3167
0.4841
0.2536
+82J+35
<f>
Aquari
I 4.4
3.15
17.0
630.8
5 436.1
- I 37-4
+0.8288
0.4826
0.2556
+83-1
+76-16
+10^86
96
Aquarii
I 5-7
318
17.8
5 35-7
729.6
+ I 1 1.5 +0.5546
0.4819
0.2565
316 B.
Aquarii
I 6.5
3.17
18.2
423.3
7 59-2
+ 140.3-0.6524
0.4818
0.2566
337 B.
Aquarii
i 6.4
+3-22
+18.3
- 5 0.1
13 18.2
+ 650.9+1.3943
0.4808
+0.2580
+85+44
342 B.
Aquarii
I 6.5
3.22
18.6
433.5
14 26.9
+ 7 57.8+1. 1989
0.4806
0.2582
+851+23
60 B.
Pisdun
1 6.0
3.28
21.2
- 022.1
6 351.8
- 258.5+0.0421
0.4796
0.2598
+46
-42
60
Pisdun
1 6.2
3.54
24.9
+ 6 16.4
7 959.6
+ 2 21.6 +0.4741
0.4848
0.2545
+72
-19
62
Pisdun
1 6.1
3-55
251
649.9
10 29.5
+•250.8-0.0161
0.4850
0.2543
+43
-44
8
Pisdun
1 4.6
+3-55
+25.2
+ 7 7.1
1042.8
+ 3 3.8-0.2763
0.4851
+0.2542
+30-58
e
Pisdun
1 4.4
3.62
255
725.7
18 43.4
+10 51.4
+1.4031
0.4882
0.2506
^90^50
ft
Pisdun
1 5.6
3.83
26.7
"42.3
8 13 23.9
+ 5 10
+1.2653
0.4979
0.2382
+90+34
20 H>
. Arietis
6.4
4.07
27.2
1649.5
9 617.7
- 234.7
-0.4513
05095
0.2218
H-20!-62
26
Arietis
6.2
4.23
27.2
19 28.6
17 0.4
+ 7 48.7
-1.0358
0.5179
0.2084
-i4|-7i
27
Arietis
64
+4.20
+26.6
+17 19.6
17 lO.O
+ 7 58.0
+1.3379
0.5180
+0.2082
+90+50
M
Arietis
5.7
4.30
26.7
19 38.9
2247.1
-1035.4
-0.0401
0.5226
0.2003
+42-36
47
Arietis
5.8
4.42
26.0
20 19.7
10 621.2
- 3 15.7
+0.6940
0.5291
0.1884
k90+3
e
Arietis
{mean) 4.6
4.42
26.0
21 0.0
653.5
- 244.4+0.0672
0.5296
0.1875
+48-29
66
Arietis
6.1
4.62
24.2
22 30.7
2029.1
+10 24.4+0.8187
0.5414
0.1628
+90+13
+i4,'-58
7
Tauri
5.9
+4.70
+24.2
+24 10.8
23 II.O
-10 59.3-0.5450
0.5439
+0.1574
II
Tauri
6.1
4-75
23.8
25 3.3
11 2 I.I
- 8 15.1 -1.0473
0.5463
0.1516
-18-^
16
Tauri
5-4
4.75
233
24 1.4
350.0
- 629.9+0.3336
0.5479
0.1477
+65-11
»7
Tauri
3.8
4.74
23.2
23 50.8
352.1
- 627.9+0.5277
0.5479
0.1476
+79I-1
18
Tauri
5.6
4.76
23.3
2434.4
359.1
- 621.0-0.2352
0.5480
0.1474
+31
-40
^
Tauri
4.3
+4.76
+233
+24 1 2. 1
4 0.6
- 6 19.6+0.1679
0.5480
^.1473
+54
-20
20
Tauri
4.1
476
23.2
24 6.2
417.3
- 6 3.5 +0.3145
0.5482
0.1467
♦^3
-12
21
Tauri
5.8
4.76
23.2
24 17.4
419.3
- 6 1.6
+0.1186
0.5483
0.1467
+51
-22
22
Tauri
6.5
4.76
23.2
24 15.8
423.0
- 5 58.0
+0.1562
0.5483
0.1465
+53-20
23
Tauri
4.3
4-75
23.1
23 41. 1
4310
- 5 50.3
+0.7972
0.5484
0.1463
+901+14
+90+ 8
V
Tauri
3.0
+4.75
+23.0
+23 50.6
5 1-7
- 520.7
+0.7012
0.5489
-K>.i45i
27
Tauri
3.7
4.76
22.9
23 47.7
546.4
- 4 37.6
+0.8607
0.5495
0.1435
+905+18
28
Tauri
5.2
4.76
22.9
2352.7
546.9
-437.1
■^0.7725
0.5495
0.1435
+90
+13
14 H.
Tauri
5.3
4.81
23.0
25 19.4
615.6
- 4 9-4
-0.7104
0.5500
0.1424
+ 4
-65
P
Tauri
5.6
4-94
21.2
26 15.6
15 12.0
+ 428.1
^.5275
0.5573
0.1219
+15
-54
0
Tauri
5.0
+5.01
+20.4
+27 8.9
19 15-9
+ 8 23.2
-0.9989
0.5605
+0.1120
-16
-63
X
Tauri
5-3
4.97
20.0
25 25.8
20 14.4
+ 9 19.5
+0.9414
0.5612
0.1095
+90
+27
17 B.
Aurigse
6.0
5.17
17.0
27 45.4
12 8 50.2
- 2 32.5
-0.3609
0.5701
0.0764
+24
-40
38 B.
Aurigse
6.5
520
15.6
27 34.8
13 42.0
+ 2 8.2
+0.1663
0.5729
0.0628
+541-11
47 B.
Aurigae
6.0
5.23
i5>
27 55-5
15 46.7
+ 4 8.1
-0.0755
0.5740
0.0569
+40
-23
354 B.
Tauri
6.4
+525
+137
■»-27 52.4
2020.2
+ 831.1
+0.2086
0.5763
+0.0437
+57I-7
22
Aurigae
6.4
5.30
134
2851.5
21 17.0
+ 9 25.7
-0.7902
0.5767
ox>409
- 2
-61
fi
Taun
1.8
530
13.0
2832.3
22 27.6
+1033.6
-0.4063
0.5773
0.0375
+21
-40
107 B.
Aurigae
6.5
5.28
11.8
27 36.6
18 2 20.7
- 9 42.4
^•6955
0.5788
0.0260
+90^-20
116 R.
Aungae
5.9
5.35
II-5
29 10. 1
340.1
- 8 26.1
-0.9 14 1
0.5793
0.0220
-ii|-6i
406 B.
Tauri
5.6
+5 32 +10.1
+27 56.7
820.4
- 3 56.7
+0.4425
0.5807
+00079
+74+8
[Eph
I 13I
OCCULTATIONS, 1913. 603
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
DECEMBER.
604
OCCULTATIONS, 1913.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
DECEMBER.
TsB Stab's
Name.
43 B.
47 G.
64 G.
153 B.
169 B.
177 B.
42
b
A
31 B.
32 B.
3
4
40 B.
n
48 B.
50 B.
65 B.
85 B.
6
36 B.
17
20
V
27
30
31
y
'%
42
6
58
213 B.
Libre
Librae
Librae
Librae
Librae
Librae
Librae
Scorpii
Scorpii
Scorpii
Scorpii
Scoipii
Scoipii
Scoipii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Scorpii
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Capricomi
Aquarii
Aquarii
Aquarii
Aquarii
Aquarii
Mac.
5-7
6.1
5.8
6.3
6.0
6.2
5.0
4.7
4.6
54
5.3
5.9
5.7
5-4
30
4.9
64
5-5
6.0
31
6.2
5.8
6.2
4.8
6.1
5.4
6.3
3.8
5.8
30
4-4
5-5
4-9
6.4
6.5
Red'ns from
1913-0.
Aa
s
+2.52
2.44
2.42
2.41
2.40
+2.39
2.40
2.40
2.40
2.39
+2.38
2.39
2.40
2.39
2.40
+2.39
2.39
2.41
2.39
2.38
A<
//
7.5
5-2
4.5
4.7
Apparent
Declina-
tion.
-21 1.7
21 41.9
22 4.9
2411.9
2251.5
4.6-2252.2
4.5
3.8
3.8
4.0
41
3.8
3.6
3-8
3.6
3.5
3.7
3.2
32
30
+2.61!+ i.o
2.63I 2.2
2.62
23 32.4
25 295
25 4-3
24 16.7
-23 434
24 59 4
26 0.8
24 35- 1
25 52.1
-25 37.6
24 29 4
26 5.9
25 15.6
25 23.3
NEW
+2.65
2.69
2.65
2.65
2.71
+2.67
2.73
2-74
2.76
2.77
+2.78
3.6
3-7
3.9
5.1
5-2
6.8
76
7-2
9.2
10.2
II.7
+II.7
+2.79I+I3.2
80
-22 40.8
21 49.8
19 22.3
-20 1 1 .9
2054.3
1820.9
17 49.6
17 3.2
-15 8.8
16 31.2
14 17.4
n 158
II 7.2
-II 20.9
- 8 45.8
lEph X3l
At Conjunction in R. A.
Washington
Mean Time.
d
88
24
h m
955.2
1343.6
17 51.5
043.2
237.8
Hour
Angle.
H
h
-10
- 7
- 3
+ 3
+ 5
m
49.1
9.1
10.5
25.8
16.
o-i
3 15.7 + 5
3 3771+ 6
755.2+10
8 59.0 +11
52.4
6.5
9
9 7.7
924.2
943.7
1058.7
11 4.2
12 52.1
13 6.5
14 45.4
1727.2-4
- 2
+11
+11
+11
-II
-10
-10
- 8
- 8
- 7
19 56.3
MOON,
89
13
21.2
22.6
29.8
30.9
46.7
54.5
42.4
37.1
534
39.5
4.6
29.1
5.8
6-0
81
023.0:- I
8 1. 8'+ 5
14 22.5I-II
16 39.3 - 9
19 6.6- 7
23 13.6;- 3
23 22.9|- 3
10 14.6 + 7
12 16.0+ 9
13 46.8+10
23 52.6i- 3
5 22.8 + I
12 51. 1 + 9
13 24.8+ 9
19 39.3 - 8
31.2
52.1
59-6
47.3
24.7
25.5
16.5
15.1
12.8
40.9
31.2
49.6
5.2
38.0
+0.0346
-0.0291;
-04101!
-K>.5540
.1278
-1.2161
.5902;
+0.7478
-K>.i635|
-0.6660
-I. 237 I
+0.0197
+1.0204
-0.6181
+0.6827
40.1908
-1.0049
+04245
^.7709
-0.9324
0.5621
0.5646
0.5675
0.5719
0.5731
0.5735
0.5737
0.5763
0.5769
0.5769
0.5769
0.5771
0.5773
0.5779
0.5780
0.5790
0.5791
0.5799
0.5813
0.5824
/
-o.
o.
o.
o.
o.
-o.
o.
o.
o.
o.
-o.
o.
o.
o.
o.
-o.
o.
o.
o.
-o.
-0.2887
40.1444
-1. 303 1
-K).0309
+I.28I3
.6357
-1. 1 678
-K5.3232
-1.2965
+0.5350
+04365
+0.6256
40.0980
40.4857
1 7.91-0.8009
0.5442
0.5372
0.5313
0.5293
0.5271
0.5235
0.5233
0.5142
0.5126
0.5 1 14
0.5039
0.5002
0.4956
0.4952
0.4918
40.
o.
o.
40.
998
916
823
658
611
594
585
474
445
442
442
434
426
392
389
340
334
288
212
141
|+35'-42
30r46
10-70
+59i-i4
-35;-90
-44h90
2r«5
465-2
684
827
935
971
0.2009
0.2070
0.2072
0.2212
40.2236
0.2253
o.
0.2401
0.2456
40.2460
40.2497
2354 +63
Limit-
ing Par*
alkls.
N.
S.
+35
-35
-7-^
-48-90
+28f-43
+64.417
-5-89
463-6
+36-34
-29-90
481-21
-15-^
-261-90
+i6|-6i
+39-36
-48-90
+35-42
+6^+38
-31-90
+54-27
-41-90
+671-16
-22
1+75 -12
+46J-39
468-19
+ Ih90
OOOULTATIONS, 1913.
605
OCCULTATIONS VISIBLE AT WASHINGTON DURING THE YEAR 1913.
Ths Star's
IMMERSION.
EMBRSION.
1
1
Dura-
tion of
Occul-
Dftte.
Washington
Angle
from —
Washington
Angle
from—
Nation
Name.
Maff.
Sidereal
Mean
North
Ver-
Sidereal
Mean
North
Ver-
%rs* wa\^aj
Time.
Time.
Point.
tex.
Time.
Time<
Point.
tex.
h m
h m
•
0
h m
h m
0
0
h m
Jan.
2
42 Librae
5.0
II 23
16 33
74
119
12 II
17 21
343
22
0 48
19
406 B. Tauri
56
10 33
14 37
99
39
II 31
15 34
276
219
0 57
20
49 Auri^
51
0 29
4 31
6
60
0 40
4 42
342
38
0 II
21
c Gemmorum
5.5
I 2
5 0
91
143
I 56
5 53
274
330
0 53
ai
4 Cancri
6.2
9 15
13 "
88
41
ID 19
H 15
318
261
I 4
23
34 Leonis
6.4
13 32
17 19
174
123
14 12
17 59
254
201
0 40
24
X Leonis
p Virginis
319 B. Virginis
4.7
II 41
15 25
118
102
12 51
16 34
321
287
I 9
25
3.8
654
10 35
lOI
151
7 52
II 32
324
12
0 57
26
6.3
10 38
14 14
W5
156
II 52
15 28
316
330
I 14
Feb.
II
fC Piscium
5.6
5 46
8 20
40
347
6 48
9 22
269
216
I 2
12
27 Arietis t
6.4
9 22
" 51
86
36
10 14
12 44
244
199
0 53
15
38 B. Aurigae
6.5
2 44
5 3
42
103
3 52
6 10
284
332
I 7
15
47 B. Auri^
6.0
5 59
8 17
17
334
6 33
851
330
276
0 34
15
354 B. Taun
6.4
II 17
13 34
31
336
II 42
13 59
337
284
0 25
18
X Cancri
5-9
3 45
5 52
108
166
4 50
657
273
332
I 5
21
89 Leonis
5.7
14 18
16 II
118
76
15 21
17 14
314
266
I 3
22
162 B. Virjrinis
6.2
15 25
17 14
205
165
15 39
17 28
228
186
0 14
23
^ Virginis t
47 G. Librae
5.6
7 5
852
129
180
7 59
9 46
294
343
0 54
25
6.1
13 16
14 54
99
121
14 29
16 7
325
332
I 13
26
48 B. Scorpii
4.9
14 10
15 44
52
74
14 46
16 20
359
H
0 36
Mar.
3
56 B. Capricomi t
6.3
15 34
16 48
73
122
16 46
18 0
266
307
I 12
12
47 Arietis
5.8
6 8
6 48
46
351
7 16
756
276
219
I 8
13
28 Tauri
5.2
5 0
536
135
91
5 39
6 15
189
137
0 39
17
09 Cancri
5.9
9 15
9 35
65
17
10 4
10 23
343
287
0 48
17
4 Cancri
6.2
9 42
10 2
"3
59
10 54
II 13
296
236
I 11
19
34 Leonis
6.4
15 28
15 39
132
78
16 19
16 30
287
235
0 51
22
319 B. Virginis
6.3
11 4
II 4
71
96
II 40
II 40
II
28
0 36
Apr.
12
49 Auri^se
5-1
8 22
7 0
142
83
9 22
7 59
242
180
0 59
17
89 Leonis
5-7
15 15
13 32
100
53
16 II
14 28
327
276
0 56
18
162 B. Virginb
6.2
16 28
14 41
165
118
17 14
15 27
259
210
0 46
19
^ Virginis
47 G. Librae
5.6
8 II
6 21
113
162
9 9
7 19
315
0
0 58
21
6.1
12 32
10 34
108
139
13 43
II 44
316
333
I 10
22
48 B. Scorpii
4.9
II 44
9 42
105
149
12 48
10 46
306
343
I 4
22
65 B. Scorpii
5-5
14 17
12 14
96
118
15 33
13 30
312
318
I 16
25
183 B. Sagittarii
6.2
•
15 25
13 10
120
160
16 34
14 19
240
269
I 9
29.
182 B. Ac|uarii
6.2
18 49
16 18
27
68
19 56
17 25
273
306
I 7
May
H
X Leonis
4.7
8 26
4 58
128
170
9 41
6 12
306
333
I 14
June
12
/ Virginis
550 B. Virginis J
6.0
13 29
8 6
150
134
14 40
9 17
289
258
I II
13
6.0
17 53
12 26
112
65
18 56
13 28
298
247
I 2
x8
C.D.-28«»i4268t
6.4
13 17
7 31
52
lOI
14 2
8 16
326
10
0 45
21
X Capricomi
5.3
20 46
H 47
108
112
21 42
15 43
187
178
0 56
21
27 Capricomi
6.1
22 26
16 26
357
339
23 7
17 8
297
271
0 42
22
152 B. Capricomi
6.5
17 II
II 8
5
52
17 43
II 40
313
357
0 32
24
317 B. A^uarii
6.3
19 18
13 6
4
50
20 I
13 50
291
333
0 44
July
13
It Scorpii
3.0
16 26
9 I
105
98
17 51
10 26
289
264
I 25
17
oa Sagittarii
4.8
19 56
12 14
114
"3
20 55
13 13
200
186
0 59
NoTS. — 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.
I Emersion below the horizon of Washington.
[Eph 13]
606
OCCULTATIONS, 1913.
OCCULTATIONS VISIBLE AT WASHINGTON DURING THE YEAR 1913.
Ths Star's
IMMBRSION.
EMERSION.
1
1
Dara-
Cioaof
Occol-
Date.
Washinffton
Angle
from —
Washington
Angle
from—
Name.
Maff.
Sidereal
Mean
North
Ver-
Sidereal
Mean
North
Ver-
%^^%MM^mMm
Time.
Time.
Point.
tex.
0
Time.
Tfane.
Point.
tex.
h m
h m
0
h m
h m
0
0
h m
July 21
h Aquarii
54
20 3
12 5
9
47
20 58
13 0
282
3u
055
27
i6Tauri
54
0 56
16 34
16
73
I 48
17 26
288
341
0 52
27
1 7 Tauri
3.8
0 35
16 13
58
116
I 50
17 28
247
299
1 15
29
107 B. Aurigse t
6.5
21 49
13 20
105
150
22 34
14 4
234
284
044
Aug. 8
1 7 G. Librae
6.4
17 4
7 57
120
90
18 19
9 "
284
243
I 14
8
18 G. Librae
6.1
17 47
8 39
131
95
18 54
9 46
268
223
I 7
18
337 B. Aquarii
6.4
17 47
8 0
42
93
18 48
9 I
261
310
I I
18
342 B. Aquarii
6.5
19 32
9 44
2
47
20 14
ID 26
291
333
0 42
21
It Piscium t
5.6
18 26
8 27
68
117
19 20
9 21
236
288
0 54
27
134 B. Geminorum
6.5
23 56
13 33
91
139
0 48
14 25
270
322
0 52
Sept. II
27 Capricomi
6.1
23 48
12 26
62
29
0 59
13 36
231
189
I 10
12
152 B. Capricomi
6.5
18 48
7 22
52
88
20 12
8 46
250
271
I 24
14
317 B. A(}uarii
6.3
21 23
9 49
118
147
21 52
10 18
158
180
0 29
19
47 Arietis
5.8
20 23
8 30
30
81
21 8
9 15
278
332
045
20
7 Tauri t
3.0
19 43
7 46
58
lOI
20 31
833
63
3"
047
20
27 Tauri f
3.7
20 19
8 22
99
146
21 4
9 6
219
270
044
20
28 Tauri f
5.2
20 20
8 22
81
128
21 10
9 13
237
289
051
24
4 Cancri
6.2
4 36
16 21
59
119
5 32
17 17
324
21
0 56
Oct. 5
W Ssigitt. (var,) J
4.3
21 30
8 33
127
89
22 15
9 19
211
166
0 46
7
00 Sagittarii
4.8
19 15
6 II
84
91
20 42
7 37
233
222
I 26
II
h Aquarii
54
20 20
7 0
41
77
21 42
8 22
243
264
I 22
II
<f> Ac^uarii J
44
4 I
14 40
87
38
4 55
15 34
209
158
054
16
e Anetis (mean)
4.6
7 15
17 34
31
334
8 5
18 24
299
243
0 50
17
16 Tauri
54
2 44
13 0
90
127
4 5
14 20
221
202
I 20
17
^ Tauri
4.3
3 7
13 22
62
86
4 36
14 51
251
214
I 29
17
20 Tauri
4.1
3 29
13 45
98
107
4 47
15 2
218
178
I 17
17
21 Tauri
5.8
3 39
13 54
59
60
5 7
15 22
258
210
I 28
17
22 Tauri
6.5
3 42
13 57
68
66
5 12
15 27
250
201
I 30
20
49 Aurigse
51
I 52
II 56
74
135
3 0
13 4
275
338
I 8
20
54 Auriga
5.8
4 31
H 35
20
80
4 59
15 2
341
37
0 27
21
c Geminorum
5.5
7 0
16 59
96
127
8 23
18 22
302
267
I 23
25
80 Leonis
6.4
7 27
17 10
121
170
8 33
18 16
308
350
I 6
Nov. 8
342 B. Aquarii
6.5
20 0
4 50
44
87
21 18
6 7
242
275
I 17
15
354 B. Tauri
6.4
3 44
12 5
94
149
5 8
13 29
246
255
I 24
17
47 Geminorum
5.6
0 0
8 14
33
81
0 29
8 43
326
18
0 29
17
134 B. Geminorum
6.5
2 5
10 18
77
136
3 9
II 22
284
345
I 4
20
34 Leonis
6.4
5 57
13 58
50
103
6 24
14 25
4
56
0 27
Dec. 5
4> Aquarii
4-4
20 4
3 8
32
7^
21 19
4 22
255
283
I 14
5
96 Aquarii
5-7
0 28
7 31
61
41
I 47
8 50
217
182
I 19
7
60 Piscium
6.2
3 41
10 36
104
60
4 32
II 27
190
142
051
7
62 Piscium
6.1
4 53
II 47
13
323
5 42
12 36
286
234
049
10
47 Arietis
5.8
21 47
4 31
50
106
22 48
5 32
252
308
I I
II
23 Tauri t
4.3
20 7
2 48
56
102
20 56
3 36
264
314
048
II
7 Tauri
3.0
20 39
3 20
42
90
21 26
4 6
277
329
0 46
II
27 Tauri
3.7
21 12
3 52
84
135
22 4
4 44
232
287
052
II
28 Tauri
5-2
21 15
3 55
66
118
22 9
4 49
249
305
054
12
38 B. Auri^
6.5
7 31
14 6
74
13
8 43
15 18
288
226
I 12
13
406 B. Taun
5.6
0 2
633
68
125
I 0
7 31
270
330
0 58
15
35 B. Cancri
6.4
" 57
18 19
130
71
12 57
19 19
282
224
I 0
21
i Virginis
5.7
10 34
16 33
122
157
II 44
17 43
315
338
I 10
31
42 Aquarii
5-5
0 21
5 42
78
49
I 28
6 48
207
168
I 6
NOTB. — ^The angles of position are counted from the north point and Tertex of the Moon's Umbf toward the cast
t Immersion below the horizon of Washington,
t Emersion below the horizon of Washington.
[Eph 13]
SUN, 1913.
607
EPHEMERIS FOR PHYSICAL OBSERVATIONS OF THE SUN.
FOR WASHINGTON MEAN NOON.
Date.
P
Bo
Lo •
Date.
P
B,
Lo
0
0
0
0
0
0
Jan. I
+ 1.90
-3.19
3.37
July 5
- 0.79
+ 3.45
81.56
6
- 0.54
3.76
297.53
10
-h 1.48
3.97
15.39
II
2.96
4.29
231.69
15
3-73
4.46
309.22
i6
5-33
4.79
165.85
20
5.93
4.92
243.07
21
7.63
5.26
100.02
25
8.08
5.34
176.92
26
- 9.85
-5.68
34.19
30
-fio.15
+5-73
H0.78
31
11.97
6.06
328.36
Aug. 4
12.14
6.08
44.66
Feb. 5
13.98
6.38
262.52
9
14.03
6.39
338.55
lO
15.86
6.66
196.69
14
r 15.82
6.66
272.45
J5
.17.61
6.89
130.85
19
17.49
6.87
206.37
20
-19.22
— 7.06
65.00
24
■+-19.04
+ 7.04
140.30
25
20.68
7.18
359.15
29
20.46
7.16
74.24
Mar. 2
21.98
7.24
293.29
Sept. 3
21.75
7.23
8.19
7
23.13
7.25
227.42
8
22.89
7.25
302.16
12
24.11
7.20
161.53
13
23.88
7.21
236.14
17
-24.93
-7.09
95.62
18
+ 24.72
+7.12
170.13
22
2557
6.93
29.70
23
25.40
6.98
104.14
27
26.04
6.72
323.76
28
25.92
6.79
38.15
Apr. I
26.33
6.47
257.80
Oct. 3
26.26
6.55
332.18
6
26.44
6.16
191.82
8
26.42
6.26
266.21
II
-26.36
-5.81
125.82
13
-h 26.40
+5.92
200.25
i6
26.11
5.42
59.80
18
26.20
5.54
134.30
21
25.67
4.99
35376
23
25.80
5.11
68.36
26
2505
4.53
287.70
28
25.21
4.64
2.42
May I
24.24
4.03
221.62
Nov. 2
24.42
4.14
296.49
6
-23.25
-3.51
>55.53
7
+ 23.43
4-3-60
230.56
II
22.08
2.96
89.41
12
22.25
304
164.64
i6
20.75
2.40
23.29
17
20.88
2.45
98.73
21
19.26
1.82
31715
22
1 19.32
1.84
32.83
26
17.61
1.22
250.99
27
17.59
1.22
326.93
31
-15.82
—0.62
184.83
Dec. 2
+ 15.69
+0.58
261.03
June 5
13.90
—0.02
118.65
7
13.65
—0.06
19515
lO
11.88
+0.58
52.47
12
11.48
0.70
129.27
15
9.77
1.18
346.29
>7
9.21
1.33
63.39
20
7.58
1.77
280. fi
22
6.86
1.96
357.53
25
- 5.35
+ 2.35
213.92
27
+ 4.46
-2.57
291.67
30
- 3.08
+ 2.91
147.74
32
-h 2.02
— 3.16
225.82
In the above table, P is the position-angle of the axis of rotation measured eastward from
the north point of the disk, while L^ and B^ are the hell ©graphic longitudes and latitudes, respec-
tively, of the center of the disk. The longitudes are reckoned from the Solar Meridian which
passed through the ascending node of the Sun's equator on the ecliptic, on Jan. i, 1854, Green-
wich Mean Noon.
lEph 13I
608 MOON, 1913.
EPHEMERIS FOR PHYSICAL OBSERVATIONS OF THE MOON.
FOR WASHINGTON MEAN MIDNIGHT.
Date.
The Barth's
Selenographic —
Physical Libration.
The Sun's
Sctenographic —
c
Long.
Lat.
Long.
Lat.
Colong.
Lat.
0
0
0
0
0
e
0
Jan.
I
■f6.oo
+3.60
+0.01
+0.03
203.20
-1.52
17.21
2
582
4-74
0.0 1
0.03
21537
1-52
13.72
3
546
563
0.0 1
0.03
22755
1.53
9.38
4
4-94
6.23
0.0 1
0.03
23973
1-53
4.42
5
425
6.52
0.01
0.03
251.92
1.53
359.17
6
+341
+6.51
+0.01
+0.03
264. 10
-1-53
354.03
7
2.42
6.20
0.0 1
0.03
276.29
1-53
349-36
8
1.28
562
H-o.oi
0.03
288.48
1-53
345-43
9
-ho.oi
.4-79
0.00
0.03
300.67
1.52
342.35
lO
-1.36
3.76
0.00
0.03
312.85
1.52
340-13
II
-2.77
+2.58
0.00
+0.03
325.03
-1.5*
338.74
12
4.16
+ 1.28
0.00
0.03
337.20
1.50
338-" j
13
5-45
—0.09
0.00
0.03
349.37
1.49
338-26 1
14
6.54
1.48
0.00
0.03
1.53
1.48
339-18 ,
15
7.34
2.83
0.00
0.03
13.68
1-47
34097 '
i6
-7.76
—4.08
O.CX)
+0.03
25.83
-1.46
343-74
17
771
515
0.00
0.03
37.98
1-44
347-59
i8
7.15
5-97
O.CX)
0.02
50.11
1.43
352-53 .
19
6.07
6.46
0.00
0.02
62.25
1. 41
35836
20
4-54
6.54
O.CX)
0.02
74.38
1.40
4-57 .
21
-2.66
-6.18
0.00
+0.02
86.50
-1.38
10.44
22
—0.61
5.37
0.00
0.02
98.62
1.36
15-32
23
+ 1.43
4.19
O.CX)
0.02
110.75
1-34
18.87
24
3.28
2.72
0.00
0.02
122.88
1-33
21.04
25
4.82
— 1.09
0.00
0.02
13501
1.31
21.92
26
+5.97
+0.58
0.00
+0.02
147.15
-1.29
21.64
27
6.72
2.16
O.CX)
0.02
159.30
1.28
20.30
28
7 -07
3.58
OXK)
0.02
171.45
1.26
17-95
29
707
4-77
0.00
0.02
183.62
1.25
1465
30
6.78
5.68
0.00
0.03
195.78
1.24
10.49
31
+6.24
+6.30
0.00
+0.03
207.96
-1.23
5.66
Feb.
I
5-49
6.62
0.00
0.03
220.14
1.22
0.48
2
4.57
6.63
0.00
0.03
232.32
1. 21
35532
3
352
6.34
0.00
0.03
244.51
1.20
35054
4
2.34
5-77
0.00
0.03
256.70
1.19
346.43
5
H-I.07
+4.95
0.00
+0.03
268.90
-1. 18
343- »3
6
-0.28
392
0.00
0.03
281.09
1. 16
340.68
7
1.67
.2.73
— O.OI
0.03
293.28
1. 14
33906
8
3-07
1.42
0.0 1
0.03
305.47
• 1.13
338.22
9
4.42
H-o,04
O.OI
0.03
317.66
I. II
338-14
10
-5-66
-1.36
—O.OI
+0.02
32985
-1.09
338.83
II
6.73
2.71
O.OI
0.02
342.03
1.07
340.33
12
7-54
3.97
O.OI
0.02
35420
1.04
342.73
13
8.01
5-07
O.OI
0.02
6.37
1.02
346.11
14
8.07
5-93
O.OI
0.02
18.53
I. CO
350.53
15
-7.66
-6.50
—O.OI
-I-0.02
30.68
-0.97
355.88
16
-6.75
—6.70
— O.OI
+0.02
42.83
-0.94
1-83
VR^Vi ii\
MOON, 1913.
PHBMBRIS FOR OBSERVATIONS OF THE MOON.
FOR MEAN
610
MOON, 1913.
EPHEMERIS FOR PHYSICAL OBSERVATIONS OF THE MOON.
FOR WASHINGTON MEAN MIDNIGHT.
Date.
The Earth's
Selenographic —
Physical Libration.
The Sun's
Selenographic —
c
Lon£.
Lat.
Long.
Lat.
Colong.
Lat.
0
0
0
0
e
0
e
Apr. I
+2.00
+4.48
—0.0 1
+0.02
218.48
+0.25
341.91
2
+0.61
3.33
0.01
0.02
230.69
0.27
339.85
3
-0.77
2.03
O.OI
0.02
242.91
0.29
338.59
4
2.08
+0.64
0.0 1
0.02
25513
0.31
338.10
5
326
—0.80
O.OI
0.02
267.35
0.33
338.38
6
-4.29
— 2.21
—0.02
+0.02
27957
+0.35
339.46
7
513
3-54
0.02
0.02
291.80
0.37
341.40
8
5.76
4.71
0.02
0.02
30402
0.40
344.28
9
6.14
567
0.02
0.02
316.24
0.42
348.15
lO
6.28
6.36
0.02
0.02
328.45
0.44
352.93
II
— 6.17
-6.73
—0.02
+0.02
340.66
+047
358.40
12
5-79
6.73
0.02
0.02
352.87
0.50
4.14
13
5.14
6.34
0.02
0.02
507
0.53
9.60
14
4-25
5.58
0.02
0.02
17.26
0.56
14.32
15
3.13
4.45
O.OI
0.02
2944
0.59
17.98
i6
— 1.82
—302
—O.OI
+0.02
41.62
+0.62
20.45
17
-0.38
-1.38
O.OI
0.02
53.80
0.66
21.73
i8
H-I.I2
+0.35
O.OI
0.02
65.97
0.69
21.84
19
2.57
2.05
O.OI
0.02
78.14
0.73
20.80
20
3.88
3-6i
O.OI
0.02
90.31
0.76
18.59
21
+4-95
H-4-9I
—O.OI
+0.02
102.48
+0.79
15.23
22
5.70
5.89
—O.OI
0.02
1 14.65
0.82
10.83
23
6.08
6.50
0.00
0.02
126.83
0.85
5.67
24
6.06
6.76
0.00
0.02
139.01
0.87
0.16
25
565
6.67
—O.OI
0.02
151.20
0.89
354.79
26
H-4-9I
+6.26
—0.01
+0.02
163.39
+0.91
34996
27
3.88
5.58
O.OI
0.02
175.59
0.93
345.91
28
2.65
4.67
O.OI
0.02
187.80
0.95
342.73
29
+ 1.29
3.57
O.OI
0.02
200.01
0.96
340.41
30
— O.IO
2.32
O.OI
0.02
212.23
0.97
338.91
May I
-1.45
+0-97
—0.01
-+-0.02
224.46
+0.99
338.18
2
2.68
-0.44
O.OI
0.02
236.68
1. 00
338.21
3
372
1.85
O.OI
0.02
248.92
1. 01
339.03
4
4-53
319
O.OI
0.02
261.16
1.03
340.72
5
5.08
4.40
O.OI
0.02
273.39
1.04
343-35
6
-5-35
-541
—O.OI
-fo.02
285.63
+1.06
346.99
7
5.35
6.15
O.OI
0.02
297.87
1.07
351.62
8
510
6.57
O.OI
O.OI
3IO.II
1.09
35703
9
4.65
6.63
O.OI
O.OI
322.34
1. 10
2.80
10
4.02
6.31
O.OI
O.OI
334-57
1. 12
8.38
II
-3-26
-5.61
—O.OI
+0.01
346.79
+I.I4
13.27
12
2.40
4.57
O.OI
O.OI
35900
1. 16
1715
13
1.44
3.25
O.OI
O.OI
II. 21
1. 19
19.88
M
-0-43
1.72
O.OI
0.02
23.42
1. 21
21.46
15
-fo.62
--0.08
O.OI
0.02
3561
1.23
21.93
16
+ 1.69
+ 1.57
—O.OI
-f0.02
47.80
-fl.26
21.31
17
+2.72
+3.12
0.00
-f0.02
59.99
+1.28
19.58
IKph 13I
MOON, 1913.
611
EPHEMERIS FOR PHYSICAL OBSERVATIONS OF THE MOON.
FOR WASHINGTON MEAN MIDNIGHT.
Date.
Tbe Earth's
Selenographic —
Physical Libration.
The Sun's
Selenographic —
c
Lonff.
Lat.
Long.
Lat.
Colonf.
Lat.
fay 17
0
+ 2.72
0
+3.12
0
O.CX)
0
+0.02
0
59.99
0
■fl.28
0
19.58
X8
3.66
4.46
0.00
0.02
72.17
1.31
16.70
19
4.43
551
0.00
0.02
84.35
1.33
12.72
20
4.96
6.23
0.00
0.02
96.54
1.35
7.82
21
5.20
6.58
0.00
0.02
108.72
1.37
2.36
22
+5-"
+6.58
0.00
+0.02
120.91
+1.38
356.83
23
4.67
6.26
0.00
0.02
133.10
1.40
351.69
24
3.91
564
0.00
0.02
145.30
I.4I
347.28
25
2.88
4.78
0.00
0.02
157.50
1.42
343-75
26
1.64
3.72
O.CX)
0.02
169.71
1.42
341.12
27
+0.28
+ 2.51
0.00
+0.02
181.93
+1.43
339-34
28
— I. II
+ I.19
— O.OI
O.OI
194.15
1.43
338.35
29
2.43
—0.18
O.OI
0,01
206.38
1.44
338.11
30
3.60
1.56
O.OI
O.OI
218.61
1.44
338.65
31
4.53
2.89
O.OI
0.01
230.85
1.44
340.02
UK I
-5.16
-4.1 1
—0.01
-fo.oi
24309
+ 1.44
342.31
2
5.45
5-15
O.OI
O.OI
255.34
1.45
345.62
3
5-39
5-94
0.01
O.OI
267.58
1-45
349-99
4
5.00
6.42
O.OI
O.OI
27983
1-45
355.28
5
4.32
6.54
O.OI
O.OI
292.08
M6
I. II
6
-344
—6.27
—O.OI
H-o.oi
304.33
+1.46
6.91
7
2.44
5.61
O.OI
O.OI
316.58
1.46
X2.XI
8
1.40
4.60
—0.01
0.01
328.82
1.47
16.31
9
-0-37
331
0.00
O.OI
341.05
1.48
19.33
10
+0.60
1.82
0.00
O.OI
353.28
M9
21.18
II
+ 1.51
—0.22
0.00
+0.01
5.50
+1.50
21.92
12
2.33
+ 1.39
0.00
0.01
17.71
I.5I
21.59
13
3.07
2.90
0.00
O.OI
29.92
1.52
20.20
H
3.72
4.23
0.00
O.OI
42.12
1.53
17.71
15
4.25
530
0.00
O.OI
54.31
1.54
14.14
16
+4.63
+6.06
0.00
-fo.oi
66.50
+1.55
9.59
17
4.82
6.47
0.00
O.OI
78.70
1.56
4.33
18
4.77
6.53
0.00
O.OI
90.89
! 1.56
358.80
19
4-45
6.26
0.00
O.OI
103.08
*« 1.56
^ 1.57
353.48
20
3.86
569
0.00
O.OI
"5.27
348.77
21
H-2.99
+4.86
0.00
-fo.oi
127.47
+1.56
344.91
22
1.89
3.83
0.00
O.OI
139.67
1.56
341.96
23
+0.62
2.64
0.00
O.OI
151.88
i 1.56
339.88
24
—0.76
+ 1.34
0.00
O.OI
164.09
■ 1.55
338.61
25
2.16
—0.0 1
0.00
O.OI
176.31
1-54
338.11
26
-3.48
-1-37
0.00
-ho.oi
188.53
+1.54
338.36
27
463
2.69
0.00
O.OI
200.76
1-53
339.40
28
5.51
391
0.00
O.OI
213.00
1.52
341-32
29
6.05
4-97
0.00
O.OI
225.24
1.51
344-22
30
6.19
5-8i
0.00
0.01
237.48
1.50
348.18
Jy X
-591
-6.36
0.00
+0.01
249.73
H-I.49
2
-5.22
-6.55
0.00
-\-o.oi
\ ^^XSfii
\ -V^A^
lEph 13I
612 MOON, 1918.
EPHBMBRIS FOR OBSERVATIONS OF THE MOON.
FOR WASHINGTON MEAN
MOON, 1913. 613
EPHEHERIS FOR OBSERVATIONS OF THE MOON.
FOR MEAN
614 MOON, 1913.
EPHEMERIS FOR OBSERVATIONS OF THE MOON,
FOR WASHINGTON MEAN
MOON, 1913.
615
PHEMERIS FOR PHYSICAL OBSERVATIONS OF THE MOON.
FOR WASHINGTON MEAN MIDNIGHT.
■ I
«te.
The Earth's
Selenographic —
Physical Libration.
The Sun's
Selenographic —
C
Long.
Lat.
Long.
Lat.
Colong.
Lat.
0
0
0
0
0
0
0
l6
-5.14
-6.48
0.00
— O.OI
133.48
-1.38
0.90
17
5.04
6.02
0.00
O.OI
145.63
1.39
6.40
18
4.76
5.22
0.00
O.OI
157.78
1.39
1 1. 41
19
4.31
4.12
-l-o.oi
O.OI
169.94
1.40
15.58
20
3.69
2.76
0.0 1
0.01
182.10
1.40
18.74
21
-2.88
— 1.22
+0.01
—O.OI
194.27
-1.41
20.84
22
1.89
+0.41
0.0 1
0.00
206.44
1.42
21.86
23
—0.72
2.04
O.OI
0.00
218.62
M3
21.78
24
. +0.58
3.55
O.OI
0.00
230.81
1.44
20.56
25
1-95
483
O.OI
0.00
243.00
1.44
18.11
26
+329
+5-79
+0.01
—O.OI
255.20
-1.46
14.39
27
4.48
6.37
O.OI
O.OI
267.40
M7
9.55
28
5-41
6.55
O.OI
O.OI
279.59
1.48
3.95
29
5.98
6.34
O.OI
O.OI
291.78
1.49
358.14
30
6.14
5-79
0.01
O.OI
303.97
1.50
352.69
I
+5.89
+4.96
+0.01
—O.OI
316.16
-1.51
348.00
2
5.25
3.90
0.01
O.OI
328.34
1.52
344.25
3
4.28
2.69
O.OI
O.OI
340.51
1.52
341.46
4
3.06
1.38
O.OI
O.OI
352.68
1.53
339.54
5
1.69
+0.02
+0.01
O.OI
4.84
1.54
338.42
6
' +0.27
-1.33
0.00
—O.OI
17.00
-i.55
338.06
7
— I. II
2.63
0.00
O.OI
29-15
1.56
338.46
8
2.35
382
0.00
O.OI
41.30
1.56
339.66
9
3.39
4.86
0.00
O.OI
53.43
1.56
-341.73
10
4.16
5.69
0.00
O.OI
65.57
1.56
344.76
II
-4.64
-6.26
0.00
—O.OI
77.70
-1.56
348.79
12
4.82
6.53
0.00
O.OI
89.83
1.56
353.72
13
4.73
6.45
0.00
O.OI
101.95
1-55
359.24
H
4.41
6.02
0.00
O.OI
1 14.08
1.55
4.90
15
3.9X
5.24
0.00
O.OI
126.21
1.54
10.18
16
-3.28
-4.15
0.00
—O.OI
138.35
-1.53
14.65
17
2.57
2.80
0.00
O.OI
150.48
1.52
18.08
18
1.80
-1.27
0.00
O.OI
162.63
1.50
20.44
19
0.98
+0.34
0.00
O.OI
174.78
1.50
21.72
20
—0.12
X.93
0.00
001
186.94
1.48
21.93
21
+0.79
+3.40
0.00
—0.01
199.10
-1.48
21.06
22
1-73
4.67
0.00
O.OI
211.27
1-47
19.04
23
2.67
5.65
0.00
O.OI
223.45
1.46
15.82
24
3.56
6.29
0.00
O.OI
235.63
1.46
"45
25
4.32
6.54
0.00
O.OI
247.82
1.46
6.17
26
+4.88
+6.41
0.00
—0.01
260.01
-M5
0.43
27
5.17
5.92
0.00
0.01
272.19
1-45
354.80
28
5.13
5.13
0.00
O.OI
284.38
1.44
349.76
29
4.75
4.09
0.00
O.OI
296.57
1.44
345.61
30
4.05
2.88
0.00
O.OI
308.75
144
34242
31
+3.05
+ 1-55
0.00
—0.01
320.93
-1.43
340.15
32
-fi.83
-fo.18
0.00
—0.01
333.10
. -lA^
^ ^^^n^t
[Bph X3I
616 ILLUMINATED DISK OF MERCURY, 1913,
FOR WASHINGTON MEAN NOON.
Date.
k
•
%
6
L
Stellar
Mag.
Date.
k
•
%
6
L
SteUar
Mag.
0
0
0
0
Jan.
I
0.728
63
188
39-4
-0.2
July 5
0.450
96
15
329
40.6
6
0.803
53
184
33-7
0.2
10
0.367
105
18
307
0.8
II
0.857
44
179
29.7
0.2
15
0.281
116
22
277
M
i6
0.896
38
174
27.2
0.3
20
0.192
128
26
22.7
14
21
0.927
31
168
26.0
03
25
0.106
142
32
14.9
19
26
0.952
25
162
259
-05
30
0.037
158
47
6.0
+2.5
31
0.971
19
154
26.9
0.6
Aug. 4
O.OII
168
no
19
2.9
Feb.
5
0.987
13
143
29.2
0.8
9
0.047
155
169
8.3
23
lO
0.999
6
III
33-2
I.I
14
0.152
134
183
24.4
14
15
0.998
7
20
39-5
1.2
19
0.316
112
190
444
4o6
20
0.974
19
351
48.5
-1.2
24
0.517
88
196
61.4
-0.2
25
0.914
34
341
59-6
1.2
29
0.717
64
202
693
0.8
Mar.
2
0.792
54
336
69.2
1.0
Sept. 3
0.872
42
208
657
I.I
7
0.609
77
333
69.9
--0-5
8
0959
23
216
55-6
1-3
12
0.390
103
330
56.1
+0.2
13
0.994
9
236
45-3
14
17
0.194
128
326
33-2
+1.0
18
0.997
6
345
37 I
-1.2
22
0.059
152
316
xi-3
2.0
23
0.985
14
14
319
09
27
0.005
172
262
I.O
30
28
0.965
22
20
28.5
0.6
Apr.
I
0.031
160
171
5.6
2-5
Oct. 3
0.940
28
22
26.7
04
6
0.109
141
159
16.3
1.8
8
0.91 1
35
23
26.0
03
II
0.206
126
155
25.0
+1.3
13
0.877
41
23
26.6
-0.2
i6
0.301
113
153
29.6
1.0
18
0.836
48
22
28.2
01
21
0.388
103
152
31.7
0.8
23
0.784
55
21
31 I
-0.1
26
0.470
93
151
32.9
0.6
28
0.714
65
20
354
0.0
May
I
0-547
85
151
34- 1
0.4
Nov. 2
0.620
76
18
40.9
0.0
6
0.622
76
152
36.1
+0.2
7
0.488
91
16
45-8
40.2
II
0.702
66
153
395
-0.1
12
0.312
112
15
43-7
06
I6
0.788
55
155
44.8
0.4
17
0.115
140
15
235
14
21
0.876
41
158
52.2
0.9
22
O.OOI
176
349
04
30
26
0-955
25
163
60.7
1.4
27
0.086
146
205
19.6
1.6
31
0.998
5
186
66.8
-1.9
Dec. 2
0.303
"3
203
49.2
404
June
5
0.981
16
340
66.3
1.6
7
0.516
88
201
551
-01
lO
0.910
35
350
59-6
1.2
12
0.672
70
198
485
0-3
15
0.813
51
357
511
0.7
17
0.778
56
194
40.4
03
20
0713
65
3
44.0
-0.2
22
0.850
46
190
341
03
25
0.620
76
7
38.9
+0.1
27
0.898
37
185
29.6
-04
30
0-535
86
II
35-5
+0.4
32
0.932
30
180
26.9
-04
NOTATION.
ib=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's^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.
L:=the brilliancy of the disk. The unit of L is the amount of light received by an eye fro^
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 Ulttmiiiated by tbe
latter as the mean disk of the planet is illuminated.
The magnitudes of the planet have been computed from formulae given in the Potsdam
Observations, vol. 8, page 366.
[Bphx5]
ILLUMINATED DISK OF VENUS, 1913. 617
FOR WASHINGTON MEAN NOON.
Date.
k
•
e
L
Stellar
Mag.
Date.
k
•
6
L
Stellar
Mag.
0
0
0
0
Jan.
I
0.692
67.5
342.5
96.7
-3-7
July 5
0.506
893
163.9
135.0
-3-9
6
0.674
69.7
341.0
101.3
3.7
10
0.533
86.3
165.7
127.6
3.9
II
0.655
71.9
3397
106.3
3.8
15
0.558
83.4
167.6
120.7
3.8
i6
0.636
74.2
338.6
III. 7
3.8
20
0.582
80.7
169.8
114.4
3.8
21
0.616
76.6
337.7
117.5
3.8
25
0.605
78.0
172. 1
108.7
3.8
26
0.595
79.1
337.0
123.9
-3.9
30
0.626
75-4
1745
103.5
-3.7
31
0.573
81.7
336.4
1309
3-9
Aug. 4
0.647
72.9
177.0
98.8
3.7
Feb.
5
0.549
84.4
336.0
138.4
4.0
9
0.667
70.5
179.6
94.5
3.7
lO
0.524
87.3
335.7
146.4
4.0
14
0.686
68.1
182.2
90.6
3.6
15
0.497
90.4
335-5
154.9
4.1
19
0.705
65.8
184.9
87.0
36
20
0.468
93.6
335-4
163.9
-4.1
24
0.723
63.5
187.5
83.8
-3.6
25
0.438
97 I
335.3
173.3
4.2
29
0.740
61.3
190. 1
80.8
3.5
Mar.
2
0.406
100.9
335-2
182.4
4-2
Sept. 3
0.757
59.1
192.6
78.1
3.5
7
0.371
105.0
335-1
190.8
4-2
8
0.773
56.9
194.9
75. «
3.5
12
0.334
109.4
334.9
198.2
4.3
13
0.789
54.8
197.1
73.2
3.5
17
0.294
1 14.4
334.5
202.3
-4.3
18
0.804
52.7
199.1
71. 1
-3.5
22
0.251
"9 9
333.7
201.3
4.3
23
0.818
50.6
200.9
69.2
3.4
27
0.205
126.1
332.5
192.9
4.3
28
0.832
48.5
202.5
67.3
3.4
Apr.
I
0.158
133.2
330.5
173.5
4.2
Oct. 3
0.845
46.4
203.8
65.5
3.4
6
O.I II
141.0
327.5
141.3
41
8
0.857
44-4
204.9
64.0
3.4
II
0.068
149.7
322.6
97.9
-3.8
13
0.869
42.4
205.7
62.6
-3.4
i6
0.032
159.3
313.7
51.5
3.6
18
0.881
40.4
206.2
61.2
3.4
21
O.OII
167.9
296.9
18.9
32
23
0.892
38.4
206.5
59.9
3.4
26
0.005
171.6
223.6
91
30
28
0.902
36.5
206.5
58.7
3.4
May
I
0.019
164.2
181.4
30.9
3.4
Nov. 2
0.912
346
206.2
57.6
34
6
0.048
154.7
168.6
71.5
-3.6
7
0.921
32.7
205.7
56.5
-3.4
II
0.088
145.6
163.1
1.14.9
3.9
12
0.929
30.8
204.8
55-5
3.4
i6
0.133
137.3
160.2
iSo.o
4.1
17
0.937
29.0
203.6
54.6
3.4
21
0.179
129.9
158.6
172.3
4-2
22
0.945
27.2
202.1
53.7
3.4
26
0.225
123.4
157.9
183.5
4-2
27
0.952
25.4
200.3
52.9
3.4
31
0.269
117-5
157.6
1 86. 1
-42
Dec. 2
0.958
23.6
198.2
52.1
-3.4
June
5
0.310
112. 3
157.7
1 83. 1
4.2
7
0.964
21 8
195.8
51.4
3.4
lO
0.349
107.6
158.1
177.1
4.2
12
0.970
20.1
193.1
50.8
3.4
15
0.384
103.4
158.8
168.9
41
17
0.975
18.4
190. 1
50.2
3.4
20
0.418
995
159.8
160.3
4.1
22
0.979
16.7
186.8
49.6
34
25
0.449
95.9
160.9
151.5
-4.0
27
0.983
150
183.3
49.1
-3.4
30
0.478
925
162.3
143.0
r4.o
32
0.986
13.4
179-6
48.7
-3.4
NOTATION.
ik=the ratio of the area of the illuminated portion of the apparent disk to the area of the
entire apparent disk regarded as circular,
f =the angle between the Sun and Earth, as seen from the planet.
6 s the angle which the line joining the cusps, or extremities of the illuminated portion, makes
with the meridian.
L«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.
The magnitudes of the planet have been computed from formulae given in the Potsdam
Observations, vol. 8, page 366.
(Bph xj]
618 MAES, 1913.
EPHEHERIS FOR PHYSICAI, OBSERVATIONS OF MARS.
WASHINGTON MEAN TIME-
MARS, 1913.
619
EPHEMERIS FOR PHYSICAL OBSERVATIONS OF MARS.
WASHINGTON MEAN TIME.
k
Diame-
ter.
•
1
^
Q
Central
Meridian.
Transit of Zero Meridian.
oon.
Of Date.
Of Intermedi-
ate Date.
//
0
//
0
0
h m
h m
I
0.892
6.23
38.44
0.68
251.18
194.69
II 19.8
12 O.I
3
0.891
6.26
38.63
0.69
251.57
175.08
12 40.4
13 20.7
5
0.890
6.29
38.82
0.70
251.97
155.48
14 I.O
14 41.2
7
0.889
6.33
39.00
0.71
252.38
135.88
15 21.5
16 1.8
9
0.888
6.36
39.18
0.72
252.80
1 16.30
16 42.0
17 22.2
II
0.887
6.40
39.36
0.73
253.23
96.73
18 2.5
18 42.7
13
0.886
6.44
39-53
0.74
253.68
77.18
19 22.8
20 3.0
15
0.885
6.48
39.70
0.75
254.13
57.63
20 43.2
21 23.4
17
0.884
6.52
3987
0.76
254.59
38.10
22 3.5
22 43.6
19
0.883
6.56
40.03
0.77
255.06
18.58
23 23.7
21
0.882
6.60
40.19
0.78
255.54
359.07
0 3.8
0 43.9
23
0.881
6.64
40.35
0.79
256.02
339.57
I 24.0
2 4.1
25
0.880
6.69
40.50
0.80
256.51
320.07
2 44.1
3 24.2
27
0.879
6.73
40.65
0.81
257.01
300.59
4 4.2
4 44.2
29
0.878
6.78
40.80
0.82
257.51
281.12
5 24.2
6 4.2
31
0.878
6.83
40.94
0.84
258.01
261.67
6 44.2
7 24.2
2
0.877
6.87
41.08
0.85
258.52
242.22
8 4.2
8 44.1
4
0.876
6.92
41.21
0.86
259.03
222.78
9 24.1
10 4.0
6
0.875
6.97
41.34
0.87
259.55
203.36
10 43.9
II 23.8
8
0.875
7.02
41.46
0.88
260.07
183.95
12 3.7
12 43.6
lO
0.874
7.08
41.58
0.89
260.60
164.54
13 23.5
14 3.4
12
0.873
7.13
41.69
0.90
261.13
145.14
14 43.2
15 23.1
14
0.873
7.19
41.80
0.91
261.66
125.76
16 2.9
16 42.7
i6
0.872
7.24
41.90
0.93
262.19
106.38
17 22.5
18 2.3
i8
0.872
730
42.00
0.94
262.73
87.02
18 42.1
19 21.9
20
0.871
7-36
42.09
0.95
263.26
67.66
20 1.6
20 41.4
22
0.871
7.42
42.18
0.96
263.80
48.31
21 21. 1
22 0.9
24
0.870
7.48
42.26
0.97
264.33
28.98
22 40.6
23 20.3
26
0.870
7.55
42.33
0.98
264.86
9.66
0 0.0
28
0.869
7.61
42.40
0.99
265.39
350.35
0 39.7
I 19.4
30
0.869
7.68
42.46
1. 01
265.91
331.04
1 59-0
2 38.7
:. I
0.869
7.75
42.51
1.02
266.43
311.74
3 18.3
3 58.0
3
0.868
7.83
42.56
103
266.95
292.46
4 37.6
5 17.2
5
0.868
7.90
42.60
1.04
267.47
273.19
5 56.8
636.4
7
0.868
7.98
42.63
1.05
267.99
253.93
7 15.9
7 55.5
9
0.868
8.05
42.65
1.06
268.50
234.68
8 35.0
9 14.6
11
0.868
8.13
42.66
1.08
269.00
215.44
9 54.1
10 33.6
13
0.868
8.22
42.66
1.09
269.50
196.21
II 13-1
II 52.6
15
0.868
8.30
42.65
1. 10
269.99
176.99
12 32.1
13 11.6
17
0.868
8.39
42.64
HI
270.47
157.79
13 51.0
14 30.4
19
0.868
8.48
42.61
1. 12
270.95
138.60
15 9.9
15 49.3
21
0.868
8.58
42.57
1. 13
271.42
119.42
16 28.7
17 8.0
23
0.869
8.67
42.52
1. 14
271.88
100.25
17 47.4
18 26.8
25
0.869
8.77
42.46
I-I5
272.33
81.09
19 6.1
19 45.4
27
0.869
8.87
42.38
1. 16
272.77
61.95
20 24.7
21 4.0
29
0.870
8.97
42.29
1. 17
273.20
42.83
21 43.3
22 22.6
I
0.871
9.08
42.18
1. 18
273.62
23.72
23 1.8
1-5, 10^.^
lEph 13I
620 MARS, 1913.
EPHBMERIS FOR OBSERVATIONS OF HARS.
W MEAN TIME.
MARS, 1913.
621
EPHEMERIS FOR PHYSICAL OBSERVATIONS OF MARS.
WASHINGTON MEAN TIME.
Diame-
ter.
Central
Meridian.
Transit of Zero Meridian.
Noon.
k
•
t
^
Q
Of Date.
Of Intermedi-
ate Date.
//
e
//
e
e
h m
h m
Oct. 1
0.871
9.08
42.18
1. 18
273.62
23.72
23 1.8
23 41.0
3
0.871
9.19
42.06
1. 18
274.03
4.63
0 20.2
5
0.872
930
41.93
1. 19
274.43
345.55
0 59.4
I 38.5
7
0.873
9.42
41.78
1.20
274.82
326.49
2 17.7
2 56.8
9
0.874
9.54
41.61
1.20
275.19
307.45
3 35.9
4 15.0
II
0.875
9.67
41.42
I.2I
275.55
288.43
4 54.0
5 33.1
13
0.876
9.80
41.21
I.2I
275.90
269.42
6 12.1
6 51. 1
15
0.877
9-93
40.98
1.22
276.23
250.44
7 30.1
8 9.0
17
0.879
10.07
40.73
1.22
276.55
231.48
8 48.0
9 26.9
19
0.880
10.21
40.46
1.22
276.85
212.54
10 5.8
10 44.6
21
0.882
10.35
40.16
1.22
277.13
19362
II 23.4
12 2.2
23
0.884
10.50
39.84
1.22
277.40
174.73
12 41.0
13 19.8
25
0.886
10.66
39.50
1.22
277.65
155.86
13 58.5
14 37.2
27
0.888
10.82
39.13
1. 21
277.88
137.02
15 15.8
15 54.4
29
0.890
10.98
38.72
I.2t
278.10
II8.2I
16 33.0
17 11.6
31
0.892
II. 15
38.28
1.20
278.30
9944
17 50.1
18 28.6
KOV. 2
0.895
11.32
3782
1. 19
278.47
80.69
19 7.1
19 45.5
4
0.898
11.50
37.34
1. 18
278.62
61.97
20 23.9
21 2.2
6
0.900
11.68
36.82
I. id
278.75
43.29
21 40.5
22 18.8
8
0.903
11.86
36.25
1. 15
278.86
24.64
22 57.0
23 35.2
lO
0.906
12.05
35.64
1. 13
278.94
6.03
0 13.4
12
0.910
12.24
34.99
1. 10
279.00
347.46
0 51.5
I 29.5
14
0.913
12.44
34.31
1.08
279.03
328.93
2 7.6
2 45.6
i6
0.917
12.64
33.59
1.06
279.02
310.44
3 23.5
4 1.4
i8
0.920
12.84
32.83
1.03
278.98
291.99
4 39.2
5 17.0
20
0.924
13.05
32.02
0.99
278.91
273.59
5 54.7
6 324
22
0.928
1326
31.15
0.96
278.81
255.23
7 lO.O
7 47.6
24
0.932
nA7
30.24
0.92
278.67
236.92
8 25.1
9 2.6
26
0.936
13.68
29.28
O.S7
278.49
218.66
9 40.0
10 17.4
28
0.940
13.89
28.27
0.83
278.26
200.46
10 54.7
II 32.0
30
0.945
14.10
27.21
0.78
277.98
182.30
12 9.2
12 46.3
Dec. 2
0.949
14.31
26.09
0.73
277.65
164.20
13 23.4
14 0.4
4
0.953
14.51
24.92
0.67
277.27
146.14
14 37.4
15 H.3
6
0.958
14.71
23.70
0.62
276.83
128.14
15 51.2
16 28.0
8
0.962
14.91
22.42
0.56
276.30
110.19
17 4.7
17 41.4
10
0.966
I5IO
21.10
0.51
27568
92.29
18 18.1
18 54-7
12
0.971
15-27
19.73
0.45
274.97
74.44
19 31.2
20 7.7
14
0.975
1544
18.31
0.39
274.14
56.64
20 44.1
21 20.5
16
0.979
15.60
16.84
0.33
273.17
38.88
21 56.9
22 33.2
18
0.982
15.74
15.33
0.28
272.01
21.17
23 9.4
23 45.6
20
0.986
15.87
13.78
0.23
270.63
3.50
0 21.8
22
0.989
15.98
12.20
0.18
268.93
345.87
0 57-9
I 34.0
24
0.991
16.07
X0.59
0.14
266.76
328.28
2 10. 1
2 46.1
26
0.994
16.14
8.97
O.IO
263.90
310.71
3 22.1
3 58.1
28
0.996
16.19
7.35
0.07
259.89
293.16
4 34.0
5 9.9
30
0.998
16.22
5.75
0.04
253.82
275.64
5 45.8
6 21.7
32
0.999
16.23
4.24
0.02
243.49
258.13
6 57.6
7 33.5
lEph 13I
622
SATELLITES OF MARS, 1913.
APPARENT ORBITS OP THE SATELLITES OP MARS, AT DATE OF OPPOSITION,
JANUARY 5, 1914, AS SEEN IN AN INVERTING TELESCOPE.
South
North
Phoboc
Deimos.
Date.
Position Angle
of Apds.
Distance at
Apsis.
Date.
Position Angle
of Apsis.
Distance at
d
Nov. 22
Dec 12
32
o
256.7
255.8
251.9
tr
17.0
19.6
20.8
d
Nov. 22
Dec. 12
32
0
256.7
255.8
251.9
42.7
49.2
52.2
WASHINGTON MEAN TIME OF GREATEST ELONGATION.
Phobos.
Deimos.
d
h
d h
d
h
d
h
d
h
Nov. II
22.4 E.
Nov. 28 16.2 W.
Dec. 15
10. 1 E.
Nov. 8
15.2 E.
Dec 7
i.o W.
13
1.2 W.
29 19.0 E.
16
12.8 W.
ID
12.6 W.
8
22.4 B.
14
4.0 E.
30 21.8 W.
17
15 6 E.
12
10. 1 E.
10
19.8 W.
15
6.8 W.
Dec. 2 0.6 E.
18
18.4 W.
14
7.5 w.
12
17.2 E.
16
9.6 E.
3 3.4 W.
19
21. 1 E.
16
5.0 E.
14
14.7 w.
17
12.4 W.
4 6.2 E.
20
23.9 w.
18
2.5 w.
16
12.0 E.
18
15.1 E-
5 8.9 W.
22
2.7 E.
20
0.0 E.
18
9.5 w.
19
17.9 W.
6 II. 7 E.
23
5.4 w.
21
21.4 W.
20
6.9 E.
30
20.7 E.
7 14.5 W.
24
8.2 E.
23
18.9 E.
22
4.3 w.
21
23.5 w.
8 17.3 E.
25
ii.o W.
25
16.3 W.
24
1.7 E.
23
2.3 E.
9 20.1 W.
26
13.8 E.
27
13.8 E.
25
23.1 w.
24
5.1 w.
10 22.9 E.
27
16.6 W.
29
11.2 W.
27
20.4 E.
25
7.8 E.
12 1.7 W.
28
19.4 E.
Dec. I
8.7 E.
29
17.9 W.
26
10.6 W.
13 4.5 E.
29
22.2 W.
3
6.1 W.
31
15.2 E.
27
134 E.
14 7.3 w.
31
0.9 E.
5
3.5 E.
33
12.7 W.
For Phobos every seventh eastern and western elongation is given, and for
Deimos every third; the intermediate ones may be found by adding multiples of
the period of the satellite.
Sidereal period of Phobos, 7** 39" I3*.85. Sidereal period of Deimos, 30^
IT" 54».86.
(Bph 13]
JUPITER, 1913.
623
EPHEMERIS FOR PHYSICAL OBSERVATIONS OF JUPITER.
WASHINGTON MEAN TIME.
Noon.
Light-
Time.
Stellar
Macni-
tude.
P
i4^ + i8oO
^e
A^ + iSoO
'^o
m
0
«
e
0
0
Jan.
25
50.51
-M
356.78
139.46
— 2.09
134.06
— 2.21
Feb.
I
49.98
M
356. »o
140.93
2.05
134.63
2.18
8
49.38
1.5
35544
142.35
2.02
135.20
2.16
15
48.72
1-5
354.82
143.72
1.98
135.78
2.14
22
48.00
1.5
354.23
145.02
1.94
136.35
2.12
Mar.
I
47.22
-1.5
353.68
146.23
-I.9I
136.92
— 2.10
8
46.39
1.6
353.17
147.36
1.87
137.50
2.08
'5
45.52
1.6
352.70
148.40
1.84
138.07
2.05
22
44.62
1.7
352.28
149.34
I.8I
138.64
2.03
29
43.70
1.7
351.92
150.16
1.78
139.22
2.00
Apr.
5
42.77
-1.8
351.62
150.85
-1.75
139.80
-1.98
12
41.84
1.8
351.37
I5MI
1.72
140.37
1.96
19
40.91
1.9
351.19
I5>.83
1.70
140.95
1.94
26
40.00
1.9
35107
152.10
1.68
141.53
1.91
May
3
39.13
2.0
351.01
152.22
1.66
142.10
1.89
10
38.31
—2.0
35102
152.19
-1.65
142.68
-1.86
17
37.54
2.1
351.10
152.01
1.64
143.26
1.84
24
36.84
2.1
351.25
151.68
1.64
143.84
1.81
31
36.22
2.2
351.46
151.20
1.63
144.42
1-79
June
7
3570
2.2
351.72
150.59
1.63
145.00
1.76
14
35.28
—2.2
352.03
149.88
-1.63
145.59
-1.74
21
34.96
2.2
352.39
149.08
1.63
146.17
1.71
28
34.76
2.2
352.77
148.22
1.64
146.75
1.68
July
5
34.69
2.2
353.17
147.32
1.64
147.34
1.66
12
34.73
2.2
353.57
146.42
1.64
147.92
1.63
*
19
34.89
— 2.2
353.96
145.56
-1.64
148.50
-1.60
26
35.16
2.2
354.33
144.76
1.64
149.09
1.58
Aug.
2
35.54
2.2
354.66
144.04
1.65
149.67
1.55
9
36.03
2.2
354.94
143.43
1.64
150.26
1.52
16
36.61
2.1
355.16
142.95
1.64
150.84
1.50
23
37.27
— 2.1
355.31
142.61
-1.64
151.43
-1.47
30
38.00
2.1
355.40
142.42
1.63
152.02
1.44
Sept.
6
38.79
2.0
355.41
142.39
1.62
152.61
1. 41
13
39.62
2.0
355.35
142.51
1.61
153.19
1.39
20
40.49
1.9
355-22
142.79
1.59
153.78
1.36
27
41.37
-1.9
355.02
143.22
-1.58
154.37
-1.33
Oct.
4
42.26
1.8
354.76
143.79
1.56
154.96
1.30
II
43- 15
1.8
354.44
144.50
1.53
155.56
1.27
18
44.02
1.8
354-06
145.33
1.51
156.15
1.24
25
44.88
1.7
353.63
146.28
1.48
156.74
1. 21
Nov.
I
45.71
-1.7
353-16
147.34
-1.45
157.33
-1. 18
8
46.49
1.6
352.64
148.49
1.42
157.92
1.15
15
47.22
1.6
352.08
149.73
1.38
158.52
1.12
22
47.90
1.6
351.50
15105
1.34
159.11
1.09
29
48.53
1.5
350.89
152.45
1.30
159.71
1.06
Dec.
6
49.08
-1.5
350.26
153.90
-1.26
160.30
-1.03
13
49-55
-1.5
349.62
155.41
— 1. 21
160.90
— 1. 00
lEph 13]
624 JUPITEK, 1913.
EPHEMERIS FOR PHYSICAL OBSERVATIONS OF JUPITER.
WASHINGTON MEAN TIMB.
JUPITER, 1913.
625
EPHEMERIS FOR PHYSICAL OBSERVATIONS OF JUPITER, EQUA-
TORIAL REGION.
WASHINGTON MEAN TIME.
Transit of Zero
Meridian.
Interval
between
Successive
Transits.
Transit of Zero
Meridian.
Interval
between
Successive
Transits.
Transit of Zero
Meridian.
laterval
between
Successive
Transits.
Jan.
Feb.
d h m
26 19 35.96
28 20 49.00
30 22 2.02
I 23 15.03
4 0 28.03
h m
9 50.61
d h m
May 13 10 33.29
15 11 45.50
17 12 57.69
19 14 9.87
21 15 22.04
h m
9 50.44
d h m
Aug. 28 I 8.55
30 2 21.23
Sept. I 3 33.94
3 4 46.67
5 5 59-43
b ra
9 50.53
6 I 41.01
8 2 53.98
10 4 6,93
12 5 19.87
14 6 32.79
9 50.59
23 16 34.19
25 17 46.33
27 18 58.45
29 20 10.57
31 21 22.67
9 50.43
7 7 12.22
9 8 25.03
II 9 37.86
13 >o 50.72
15 12 3.60
9 50.56
16 7 45.70
18 8 58.59
20 10 11.47
22 II 24.34
24 12 37.19
9 50.58
June 2 22 34.77
4 23 46.85
7 0 58.92
9 2 10.99
11 3 23.05
9 50.42
17 13 16.51
19 H 29.43
21 15 42.37
23 16 55.34
25 18 8.32
9 50.58
Mar.
26 13 50.02
28 15 2.84
2 16 15.64
4 J 7 28.43
6 18 41.20
9 50.56
13 4 35.10
15 5 47.15
17 6 59.20
19 8 11.24
21 9 23.28
9 50.41
27 19 21.33
29 20 34.34
Oct. I 21 47.38
3 23 0.44
6 0 13.51
9 50.60
8 19 53.95
10 21 6.69
12 22 19.41
14 23 32.12
17 0 44.81
9 50.55
23 10 35.32
25 II 47.36
27 12 59.41
29 14 11.45
July I 15 23.50
9 50.41
8 I 26.60
10 2 39.71
12 3 52.84
14 5 5.98
16 6 19.13
9 50.62
>9 I 57.49
21 3 10.15
23 4 22.79
25 5 35.41
27 6 48.01
9 50.53
3 16 35.56
5 17 47.63
7 18 59.71
9 20 11.80
II 21 23.91
9 50.41
18 7 32.30
20 8 45.48
22 9 58.67
24 II 11.88
26 12 25.10
9 50.64
Apr.
29 8 0.60
31 9 13.17
2 10 25.72
4 11 38.26
6 12 50.78
9 50.52
13 22 36.03
15 23 48.17
18 I 0.32
20 2 12.50
22 3 24.70
9 50.43
28 13 38.32
30 14 51.56
Nov. I 16 4.81
3 17 18.06
5 18 31.32
9 50.65
8 14 3.28
10 15 15.76
12 16 28.23
14 17 40.68
16 18 53.12
9 50.50
24 4 36.91
26 5 49.15
28 7 1.42
30 8 13.71
Aug. I 9 26.03
9 50.45
7 19 4458
9 20 57.86
II 22 II. 14
13 23 24.43
16 0 37.73
9 50.65
18 20 5.54
20 21 17.94
22 22 30.33
24 23 42.69
27 0 55.05
9 50.48
3 10 38.37
5 " 50.74
7 13 3.14
9 14 15.56
II 15 28.01
9 50.47
18 I 51.04
20 3 4-35
22 4 17.67
24 5 31.00
26 6 44.32
9 50.66
May
29 2 7.38
» 3 19.70
3 4 32.00
5 5 4429
7 6 56.56
9 50.46
13 16 40.48
15 n 52.99
17 19 5.52
19 20 18.07
21 21 30.65
9 50.50
2^ 7 57.66
30 9 10.99
Dec. 2 10 24.33
4 11 37.66
6 12 51.00
9 50.67
9 8 8.82
II 9 21.06
9 50.45
23 22 43.26
25 23 55.89
9 50.52
8 14 4.33
10 15 17.67
9 50.67
1913-
-40
lEph 13I
626
JUPITER, 1913.
EPHEMERIS FOR PHYSICAL OBSERVATIONS OF JUPITER, GREAT
RED SPOT.
WASHINGTON MEAN TIME.
Transit of Great Red
Spot.
Interval
between
Successive
Transits.
Transit of Great Red
Spot.
Interval
between
Successive
Transits.
Transit of Great Red
Spot.
Interval
between
Successive
Transits.
d h m
Jan. 25 5 35.26
27 7 14.18
29 8 53.08
31 10 31.97
Feb. 2 12 10.85
h m
9 55.78
d h m
May 12 18 58.09
14 20 36.17
16 22 14.23
18 23 52.28
21 I 30.31
h m
9 55.62
d h m
Aug. 28 7 57.95
30 9 36.51
Sept. I II 15.09
3 12 5370
5 14 32.34
h m
9 55.71
4 13 49.71
6 15 28.56
8 17 7.40
10 18 46.23
12 20 25.05
9 55.77
23 3 8.32
25 4 46.31
27 6 24.29
29 8 2.26
31 9 40.22
9 55.60
7 16 11.00
9 17 49.68
II 19 28.38
13 21 7. II
15 22 45.86
9 55.73
14 22 3.85
16 23 42.63
19 1 21.38
21 3 0. 1 2
23 4 38.83
9 55.76
June 2 II 18.17
4 12 56.11
6 14 34.04
8 16 11.96
10 17 49.88
9 55.59
18 0 24.63
20 2 3.43
22 3 42.25
24 5 21.08
26 6 59.93
9 55.76
25 6 17.53
27 7 56.23
Mar. I 9 34.92
3 II 1359
5 12 52.24
9 55.74
12 19 27.80
14 21 5.71
16 22 43.61
19 0 21.51
21 I 59.40
9 55-58
28 8 38.81
30 10 17.70
Oct. 2 II 56.61
4 13 35.55
6 15 14.50
9 55-78
7 14 30.88
9 16 9.49
11 17 48.08
13 19 26.66
15 21 5-23
9 55.72
23 3 37.29
25 5 15.19
27 6 53.09
29 8 30.99
July I 10 8.89
9 55.58
8 16 53.47
10 18 32.45
12 20 11.44
14 21 50.45
16 23 29.47
9 55.80
17 22 43.79
20 0 22.33
22 2 0.85
24 3 39-35
26 5 17-83
9 55.71
3 II 46.80
5 13 24.72
7 15 2.65
9 16 40.60
II 18 18.56
9 55.58
19 I 8.52
21 2 47.58
23 4 26.66
25 6 5.74
27 7 44.83
9 55.81
28 6 56.29
30 8 34.73
Apr. I 10 13.15
3 II 51-56
5 13 29.95
9 55.69
13 19 56.53
15 21 34.52
17 23 12.53
20 0 50.56
22 2 28.61
9 5560
29 9 23.93
31 II 3-04
Nov. 2 12 42.16
4 14 21.29
6 1 6 0.43
9 55.8^
7 15 8.33
9 16 46.69
II 18 25.03
13 20 3.36
15 21 41.67
9 55.67
24 4 6.69
26 5 44.80
28 7 22.93
30 9 1 .08
Aug. I 10 39.25
9 55.62
8 17 39.58
10 19 18.74
12 20 57.91
14 22 37.07
17 0 16.24
9 55.83
17 23 19.96
20 0 58.23
22 2 36.48
24 4 14.72
26 5 52.94
9 55.66
3 12 17-44
5 13 55-66
7 15 33.91
9 17 12.20
II 18 50.51
9 55.64
19 I 55.42
21 3 34.61
23 5 13.81
25 6 53.01
27 8 32.22
9 5584
28 7 31.14
30 9 9.32
May 2 10 47.49
4 12 25.64
6 14 3.78
9 55.64
13 20 28.85
15 22 7.22
17 23 45.61
20 I 24.02
22 3 2.47
9 55-67
29 10 11.42
Dec. I II 50.63
3 13 29.85
5 15 9.06
7 16 48.28
9 55.84
8 15 41.90
10 17 20.00
9 55.62
24 4 40.94
26 6 19.43
9 55.70
9 18 27.50
II 20 6.71
9 55.84
[Eph 13]
SATELLITES OF JUPITER, 1913.
627
N
APPARENT ORBITS OF THE SATELUTES OF JUPITER AT DATE OF OPPOSI^
TION, JULY 4, 1913, 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 632-
655, 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 Washington 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 config-
uration, one or more satellites are projected on the disk of the planet, that phe-
nomenon is indicated by a light disk Oi at 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 pages 630 and 631.
MEAN SYNODIC PERIODS OF THE SATELLITES.
d h m 9
d
d h m s
d
I.
I 18 28 35-945
= 1.76986048
V.
0 n 57 27.635
= 0.498 236 52
II.
3 13 17 53-735
= 355409416
VI.
= 266.00
III.
7 3 59 35-854
= 7.166 387 20
VII.
= 276.67
IV.
16 18 5 6.928
= 16.75355241
lEpl
H3l
628
SATELLITES OF JUPITER. 1913.
SATELLITE V.
WASHINGTON MEAN TIME OF EVERY TWENTIETH GREATEST ELONGATION.
d
b
d
h
d
h
d
h
Apr.
20
12.4
E.
July
19
16.2
E.
Apr.
20
6.4
W.
July
19
10.2
W.
30
"•5
E.
29
15.3
E.
30
17.5
W.
29
9.3
W.
May
10
10.6
E.
Aug.
8
14.4
E.
May
10
16.6
w
Aug.
8
8.4
w.
20
9-7
E.
18
13.5
E.
20
15.7
w.
18
7.5
w.
30
8.8
E.
28
12.6
E.
30
14.8
w.
28
6.6
w.
June
9
7-9
E.
Sept.
7
11.8
E.
June
9
13.9
w.
Sept.
7
17.7
w.
19
7.0
E.
17
10.9
E.
19
12.9
w.
17
16.9
w.
29
6.1
E.
27
10. 1
E. 1
29
12.0
w.
27
16. 1
w.
July
9
17.1
E.
Oct.
7
9.3
E. 1
July
9
II. I
w.
Oct.
7
15.2
w.
WASHINGTON MEAN TIME OF SUPERIOR GEOCENTRIC CONJUNCTION.
SATELLITE I.
d
h m
d
h m
d
b m
d
h m
Jan. 18
12 28.9
Apr. 13
12 1.3
July 7
9 27.1
Sept. 30
7 95
20
6 59- 1
15
6 29.5
9
3 53.1
Oct. 2
I 38.3
22
I 29.3
17
0 57.6
10
22 19.0
3
20 7.1
23
19 59-5
18
19 25.7
12
16 45.0
5
14 36.0
25
14 29.7
20
13 53-7
H
II II.O
7
9 4-9
27
8 59-9
22
8 21.7
16
5 37.0
9
3 33 9
29
3 30.0
24
2 49-6
18
0 3.1
10
22 3.0
^ . ^
22 0.1
25
21 173
19
18 29.2
12
16 32.1
Feb. I
16 30.2
27
15 450
21
12 55.3
14
II 1.2
3
II 0.3
29
10 12.7
23
7 21.5
16
5 304
5
5 30.4
May I
4 40.3
25
I 47-7
17
23 59-7
7
0 0.3
2
23 7.8
26
20 13.9
19
18 29.0
8
18 30.3
4
17 35.3
28
14 40.2
21
12 58.4
10
13 0.2
6
12 2.7
30
9 6.5
23
7 27.8
12
7 30.1
8
6 30.0
Aug. I
3 32.9
25
I 57.2
14
2 0.0
10
0 57.2
2
21 59-4
26
20 26.8
15
20 29.9
II
19 24.4
4
16 25.9
28
H 56.4
17
H 59.7
13
13 51.5
6
10 52.5
30
9 26.0
19
9 29.4
15
8 18.6
8
5 191
Nov. I
3 55-6
21
3 59- 1
17
2 45-5
9
23 45.8
2
22 25.3
22
22 28.8
18
21 12.4
II
18 12.5
4
16 550
24
16 58.5
20
15 39.3
13
12 39-3
6
II 24.8
26
II 28.1
22
10 6.1
15
7 6.1
8
5 54-6
28
5 57-7
24
4 32.8
17
I 33.1
10
0 24.5
Mar. 2
0 27.3
25
22 59-5
18
20 0.1
II
18 544
3
18 56.8
27
17 26.1
20
14 27.2
13
13 24.3
5
13 26.2
29
II 52.6
22
8 54.3
15
7 54-3
7
7 55.6
31
6 19. 1
24
3 21.5
17
2 24.3
9
2 25.0
June 2
0 45-5
25
21 48.8
18
20 54.3
10
20 54-3
3
19 11.9
27
16 l6«2
20
15 244
12
15 23.6
5
13 38.3
29
10 43.6
22
9 54-4
14
9 52.8
7
8 4.6
31
5 III
24
4 24.5
16
4 22.0
9
2 30.9
Sept. I
23 38.7
25
22 54.6
17
22 51. 1
10
20 57.1
3
18 6.3
27
17 24,8
19
17 20.2
12
15 23.3
5
12 340
29
" 550
21
II 49.2
14
9 49.4
7
7 1.8
Dec. I
6 25.2
23
6 18.2
16
4 15-5
9
I 29.7
3
0 554
25
0 47.1
17
22 41.6
10
19 57.6
4
19 25.6
26
19 159
19
17 7.6
12
14 25.6
6
13 55 9
28
13 44-7
21
" 33.6
14
8 53.7
8
8 26.2
3°
8 13.4
23
5 59.6
16
3 21.9
10
2 56.5
Apr 1
2 42.1
25
0 25.6
17
21 50.1
II
21 26.8
2
21 10.7
26
18 515
19
16 18.4
13
15 57-2
4
15 39.3
28
13 17.5
21
10 46.7
15
10 27.6
6
10 7.8
30
7 43.5
23
5 15.1
17
4 58.0
8
4 36.3
July 2
2 9.4
24
23 43.6
18
23 284
9
23 4.7
3
20 35-3
26
18 12. 1
II
»7 33.0
5
15 1.2
28
12 40.8
[Eph 13I
SATELLITES OF JUPITER, 1913.
629
WASHINGTON MEAN TIME OF SUPERIOR GEOCENTRIC CONJUNCTION.
SATELLITE II
d
h m
d
h m
d
h m
d
h m
Jan.
19
5 32.2
Apr. 14
13 43.0
July 8
17 517
Oct. I
22 50.4
22
»8 55.9
18
2 58.5
12
6 58.7
5
12 9.3
26
8 19.4
21
16 13.6
15
20 6.5
9
I 29.8
29
21 42.8
25
5 28.1
19
9 14.0
12
14 49.8
Feb.
2
II 5.9
28
18 42.1
22
22 22.4
16
4 11.3
6
0 28.7
May 2
7 55-6
26
II 30.5
19
17 32.1
9
13 51.4
5
21 8.6
30
0 39.6
23
6 54.4
13
3 13.8
9
10 21. 1
Aug. 2
13 48.4
26
20 16.0
16
16 35-9
12
23 33.0
6
2 58.4
30
9 39.2
20
5 57.7
16
12 44.4
9
16 8.1
Nov. 2
23 1.6
23
19 193
20
I 55.3
13
5 191
6
12 25.4
27
8 40.6
23
15 5.8
16
18 29.8
10
X 48.5
Mar.
2
22 1.5
27
4 158
20
7 42.0
13
15 13.0
6
II 22.0
30
17 25.4
23
20 53.9
17
4 36.7
10
0 42.3
June 3
634.6
27
10 7-3
20
18 1.7
13
14 2.2
6
19 43-3
30
23 20.4
24
7 25.8
17
3 21.8
10
8 51.8
Sept. 3
12 351
27
20 51.3
20
16 40.9
13
21 59-7
7
I 49-5
Dec. I
10 15.9
24
5 59.7
17
II 7.6
10
15 5-4
4
23 417
27
19 18.1
21
0 15.0
14
4 20.9
8
13 6.6
31
8 36.0
24
13 22.5
17
17 38.1
12
2 32.7
Apr.
3
21 53.5
28
2 29.6
21
6 54.8
15
15 57 9
7
II 10.4
July I
15 37-1
24
20 13.1
19
5 24.x
II
0 27.0
5
4 44.1
28
9 30.9
;
SATELLITE III
d
h m
d
h m
d
Jan.
18
20 29.6
Apr.
14
23 18.9
July 9
26
0 55-8
22
3 II. I
16
Feb.
2
5 20.7
29
6 58.8
23
9
9 44-5
May
6
10 41.6
31
16
14 6.2
13
14 20.0
Aug. 7
23
18 26.3
20
17 54-6
14
Mar.
2
22 43.3
27
21 24.6
21
10
2 57-5
June
4
0 51. 1
28
17
7 8.5
11
4 136
Sept. 4
24
II 16.3
18
7 33.2
12
31
15 21. 1
25
10 50.6
19
Apr.
7
19 21.7
July
2
14 6.8
26
h m
d
h m
17 23.4
Oct.
3
12 35.x
20 40.6
10
16 38.6
23 59-8
17
20 46.5
3 20.8
25
0 57.6
6 44.7
Nov.
I
5 12.3
10 12.6
8
9 29 2
13 44.7
15
13 48.7
17 22.0
22
18 10.6
21 3.5
29
22 34.5
0 49.1
Dec.
7
3 0.8
4 40.7
14
7 28.3
8 35.7
SATELLITE IV.
d
h m
d
Jan. 26
18 57.7
Apr. 20
Feb. 12
15 14.0
May 7
Mar. I
II 4.6
24
18
6 22.2
June 9
Apr. 4
0 57.4
26
h m
18 43.1
II 33.8
3 27.4
18 29.8
8 56.6
d !
July 1 2
29
Aug. 15
31
Sept. 17
h
23
13
4
20
13
m
9.2
35- 1
38.4
32.6
25.2
d
Oct. 4
21
Nov. 6
23
Dec. 10
h
7
I
21
17
m
14.8
55.1
18.3
16.0
13 38.8
lEph 13]
630
SATELLITES OF JUPITER, 1913.
DIFFERENTIAL COORDINATES OF SATELLITE VI.
Washing-
Washing-
Washing-
mtL m^
ton Mean
Noon.
^VI-^Jup.
<^vr-<^jup.
ton Mean
Noon.
^Vl-^Jap.
<^vr-<^jnp.
ton Mean
Noon.
«Vl-«Jup.
tfvi-OjBp.
m
s
/
m
s
/
m
s
»
Feb. 15
— 2
32
+ 11.3
May 20
+4
20
— 12. 1
Aug. 22
— 2
37
-21.6
17
2
26
12. 1
22
4
20
13.3
24
2
45
20.5
19
2
20
12.9
24
4
20
14.6
26
2
52
19.3
21
2
14
13-6
26
4
20
15.8
28
2
59
I8.I
23
2
7
14.3
28
4
19
I7.I
30
3
6
16.9
25
— 2
0
4-14.9
30
4-4
18
-18.3
Sept. I
-3
12
-15.7
27
I
52
15.4
June I
4
16
19.5
3
3
18
14.5
Mar. I
I
44
15.8
3
4
13
20.6
5
3
23
13-3
3
I
36
16.2
5
4
9
21.7
7
3
27
12.1
5
I
27
16.5
7
4
5
22.8
9
3
31
10.9
7
— I
17
4-16.8
9
4-4
0
-23.9
II
-3
35
- 9-7
9
I
7
17.0
II
3
54
25.0
13
3
38
8-5
II
0
57
17.1
13
3
48
26.0
15
3
41
7-4
13
0
46
17.1
15
3
41
27.0
17
3
43
6.2
15
0
35
17. 1
17
3
34
279
19
3
44
50
17
—0
24
4-170
19
4-3
26
-28.8
21
-3
45
-3.8
19
— 0
12
16.9
21
3
18
29.6
23
3
45
2.6
21
0
0
16.7
23
3
9
30.4
25
3
45
1-4
23
+0
12
16.5
25
2
59
31.1
27
3
45
- 0.3
■ 0
25
0
24
16.2
27
2
49
31.8
29
3
44
-}- 0.8
27
4-0
37
4-15.8
29
+2
38
-32.4
Oct. I
-3
42
4 1.9
29
0
49
15.3
July I
2
27
32.9
3
3
40
30
31
I
I
14.8
3
2
16
33.4
5
3
37
4.0
Apr. 2
I
13
14.2
5
2
4
33.8
7
3
34
5-1
6.1
4
1
25
13.6
7
I
52
34.1
9
3
31
6
+ 1
37
4-12.9
9
+ 1
40
-34-3
II
-3
27
4 7-1
8.0
8.9
8
I
49
12. 1
II
I
28
34.4
13
3
23
10
2
0
II. 2
13
I
15
34-5
15
3
18
12
2
II
10.3
15
I
2
34.5
17
3
13
9-7
14
2
22
9.4
17
0
49
34.5
19
3
7
10.5
16
+ 2
32
4- 8.4
19
4-0
36
-34.4
21
-3
I
4n.3
18
2
42
7.3
21
0
23
34.1
23
2
54
12.0
20
2
52
6.2
23
4-0
10
33-8
25
2
47
12.7
22
3
I
5-1
25
—0
3
33.4
27
2
40
13-3
24
3
10
4.0
27
0
16
32.9
29
2
32
139
26
4-3
18
4- 2.9
29
—0
28
-32.3
31
—2
24
4144
28
3
26
1.7
31
0
41
31.7
Nov. 2
2
16
14-9
30
3
34
4- 0.5
Aug. 2
0
53
31.0
4
2
8
153
May 2
3
41
- 0.8
4
I
5
30.3
6
59
15/
4
3
48
2.0
6
I
17
29.5
8
50
16.0
6
+3
54
- 3-3
8
— 1
28
—28.7
10
— I
40
-fl6.2
8
3
59
4.5
10
I
39
27.9
12
30
16.4
10
4
4
5.8
12
I
50
27.0
14
20
16.5
12
4
8
7.0
14
2
0
26.0
16
10
16.5
14
4
12
8.3
16
2
10
25.0
18
^^ \
0
4-16.5
16
+4
15
- 9.6
18
— 2
19
-23.9
18
4-4
18
— 10.8
20
—2
28
—22.8
[Eph 13]
SATELLITES OF JUPITEK, 1913.
631
DIFFERENTIAL COORDINATES OF SATELLITE VII.
WtMaf
Washing-
tf^ fl^
Washing-
MiMeui
Noon.
^▼ir-^jap.
<^VII-<^Jup.
ton Mean
Noon.
OTvir-^jup.
<>vir-<>jup.
ton Mean
Noon.
«vir-<
^Jup.
<^vir-<^jiip.
m
s
/
m
s
/
m
s
/
eb. 15
— 2
0
-17.8
May 20
—0
24
4-25.9
Aug. 22
4-4
13
4-20.0
17
2
7
17.7
22
0
15
27.0
24
4
8
18.6
19
2
13
17.6
24
—0
5
28.1
26
4
2
17.2
21
2
19
174
26
+0
5
29.2
28
3
56
15.7
23
2
25
17.1
28
0
15
303
30
3
49
14.2
25
— 2
30
-16.7
30
+0
26
4-31-3
Sept. I
4-3
42
4-12.7
, ^7
2
35
16.3
June I
0
36
32.3
3
3
34
II. I
:ar. I
2
39
15.8
3
0
47
33-2
5
3
26
9.6
3
2
43
153
5
0
58
34-1
7
3
17
8.0
5
2
46
14.7
7
I
9
34.9
9
3
7
6.5
7
— 2
49
-14. 1
9
+ 1
20
4-35-7
II
4-2
57
4- 4.9
9
2
51
134
II
I
31
36.4
13
2
47
3.3
II
2
53
12.6
13
I
42
37-0
15
2
36
1.7
13
2
55
11.8
15
I
53
37-6
17
2
25
4- 0.1
15
2
56
10.9
17
2
4
38-1
19
2
13
- 1-4
17
— 2
57
— lO.O
19
+ 2
14
4-38.6
21
4-2
I
- 2.9
19
2
57
9.1
21
2
24
39-0
23
I
49
4.3
21
2
57
8.2
23
2
34
39-3
25
I
37
5-7
23
2
56
7.2
25
2
44
39-5
27
I
24
7.1
25
2
55
6.2
27
2
54
39-7
29
I
12
8.4
27
— 2
54
- 5.2
29
+3
3
4-39.8
Oct. I
4-0
59
~ 9-7
29
2
52
4.2
July I
3
12
39.8
3
0
47
10.9
31
2
50
3.1
3
3
21
39.7
5
0
34
12.0
pr. 2
2
48
2.0
5
3
29
39.6
7
0
21
13.0
4
2
45
- 0.8
7
3
37
39.4
9
4-0
9
14.0
6
— 2
42
+ 0.3
9
+3
44
4-39-2
II
—0
3
-14.9
8
2
39
1-5
II
3
51
38.9
13
0
15
15.7
10
2
36
2.6
13
3
57
38.5
15
0
27
16.4
12
2
32
3-7
15
4
3
38.0
17
0
38
17.1
14
2
28
4.8
17
4
8
37-5
19
0
49
17.6
16
— 2
24
-h 6.0
19
+4
13
4-37.0
21
—0
59
-18.1
18
2
19
7.1
21
4
18
36.4
23
I
9
18.5
20
2
14
8.3
23
4
22
35.8
25
I
19
18.7
22
2
9
9-4
25
4
26
35.1
27
I
29
18.9
24
2
3
10.6
27
4
29
34.3
29
I
38
19.0
26
— I
57
+11.7
29
4-4
31
4-33.5
31
— I
47
— 19.0
28
51
12.9
31
4
33
32.7
Nov. 2
I
55
18.9
30
44
14.0
Aug. 2
4
34
31.8
4
2
2
18.7
ly 2
37
15.2
4
4
34
30.8
6
2
9
18.5
4
30
16.4
6
4
34
29.8
8
2
15
18.2
6
— I
23
+ 17.6
8
-f4
33
4-28.7
10
— 2
21
— 17.8
8
16
18.8
10
4
32
27.6
12
2
26
17.3
10
8
20.0
12
4
30
26.4
14
2
30
16.7
12
0
21.2
14
4
28
25.2
16
2
33
16.0
14
0
51
22.4
16
4
25
24.0
18
— 2
36
-15.3
16
—0
42
4-23.6
+24.7
18
■f4
22
-f22.7
18
—0
33
20
■f4
18
-h2i.4
ll
t I
i L
i.
;■ I
i
c
4 ■
lEph 13]
1:
'■]
t,-
■ii
■J
.1
J.
11
632
SATELLITES OF JUPITER, 1913.
WASHINGTON MEAN TIME.
JANUARY.
By reason of the proximity of Jupiter to the Sun the phenomena
of the satellites are not given prior to January 17.
d h m 9
d
h m s
d h m g
17 13 39
I.
Sh.
In.
22
16 24 49
II. Ec.
Dis.
28 2 45
I]
[. Sh.
Eg.
14 10
I.
Tr.
In.
20 igr
II. Oc.
Re.
4 9
I]
[. Tr.
Eg.
15 55
I.
Sh.
Eg.
21 4
I. Sh.
In.
4 29
]
[. Sh.
In
16 27
I.
Tr.
E?.
21 40
I. Tr.
In.
5 10
]
[. Tr.
In.
18 10 51 0
I.
Ec.
Dis.
23 20
I. Sh.
Eg.
6 45
1
[. Sh.
Eg.
13 37
I.
Oc.
Re.
23 57
I. Tr.
E^.
7 27
]
[. Tr.
E|;.
16 58 38
III.
Ec.
Dis.
28
18 16 30
I.* Ec.
Dis.
29 I 42 3
]
[. Ec.
Dis.
21 58
III.
Oc.
Re.
21 8
I. Oc.
Re.
4 38
]
[. Oc.
Re.
19 3 7 48
II.
Ec.
Dis.
24
10 41
II. Sh.
In.
10 45
III
[. Sh.
In.
655
II.
Oc.
Re.
" 57
II. Tr.
In.
13 33
III
[. Tr.
In.
8 8
I.
Sh.
In.
13 26
II. Sh.
Eg.
13 36
II]
[. Sh.
Eg.
8 40
I.
Tr.
In.
14 44
II. Tr.
Eg.
16 32
II]
[. Tr.
El
10 24
I.
Sh.
Eg.
15 33
I. Sh.
In.
18 58 42
I]
. Ec.
Dis.
10 57
I.
Tr.
Hg.
16 10
I. Tr.
In.
22 58
]
[. Sh.
In.
20 5 19 27
I.
Ec.
Dis.
17 49
I. Sh.
Eg.
23 6
I]
[. Oc.
Re.
8 7
I.
Oc.
Re.
18 27
I. Tr.
E^.
23 40
]
[. Tr.
In.
21 23
II.
Sh.
In.
26
12 45 3
I. Ec.
Dis.
30 I 14
]
[. Sh.
Eg.
22 32
II.
Tr.
In.
15 38
I. Oc.
Re.
I 57
]
[. Tr.
E?.
21 0 8
II.
Sh.
Eg.
20 56 37
III. Ec.
Dis.
20 10 31
]
[. Ec.
D^.
I 19
IT.
Tr.
Eg.
26
2 25
III. Oc.
Re.
23 8
]
[. Oc.
Re.
2 36
I.
Sh.
In.
5 41 47
II. Ec.
Dis.
31 13 17
I]
[. Sh.
In.
3 10
I.
Tr.
In.
9 43
II. Oc.
Re.
14 47
I]
:. Tr.
In.
4 52
I.
Sh.
Eg.
10 I
I. Sh.
In.
16 2
I]
.. Sh.
Eg.
5 27
I.
Tr.
E^.
10 40
I. Tr.
In.
17 26
1
Sh.
In.
23 48 1
I.
Ec.
Dis.
12 17
I. Sh.
Eg.
17 33
I]
. Tr.
Eg.
22 2 38
I.
Oc.
Re.
12 57
I. Tr.
Eg.
18 10
1
[.♦ Tr.
In.
6 46
III.
Sh.
In.
27
7 13 30
I. He.
Dis.
19 42
]
[. Sh.
Eg.
9 8
III.
Tr.
In.
10 8
I. Oc.
Re.
20 27
1
.. Tr.
Eg.
9 37
in:
Sh.
Eg.
23 59
II. Sh.
In.
^*
12 5
III.
Tr.
Eg.
28
I 23
II. Tr.
In.
NoTS. — In. denotes ingress; Eff.. egress; Dis.. disappearance; Re., reappearance; Ec. edipbe.
Oc. denotes occultation; Tr., transit of the satellite; Sh.. transit of the shadow; * Visible at Washington.
lEph T^l
SATELLITES OF JUPITER, 1913.
WASHINGTON MEAN TIME.
633
JANUARY.
Phases of Ike Eclipses of the Satellites for an Inverting Telescope.
I.
III.
*
d
II.
IV. NoEcUpse.
Confignrations at i8^ if^ for an Inverting Telescope.
Q
West.
Bast.
I
O
2
O
o
o
o
o
7|
o
8
9l
o
o
lO
II
13
o
o
o
>3
»4
15 I
o
o
i6
o
23
27 I
28
29 I
30
31IOI
17 1
*3
2' r
0
4*
I8|
•24-
0
•I
•3#
»9
4*
1*
0
•2 -3
20 1
4*
2-
•I
0
2* I*
3*
21
4*
0
3'
22
•4
3*
0
r
'2«
•4
3*
•iQ
2*
24 Oi-
•4
•3
2- 0
25
•4*2 '3 0 •!
26
•4
I- 0 '2 '3
o
2- -I O
■^ 'A
3*
•3
•4
•4
3^
•3
11. o
2-0
•2
•4
4*
[Eph X3l
634
SATELLITES OF JUPITER, 1913,
WASHINGTON MEAN TIME.
FEBRUARY.
d h m s
d h m s
d b m s
1 14 39 3
I.
Ec.
Dis.
11 5 12
11.
Sh.
In.
20 2 37
III
. Tr.
In.
17 39
I.
* Oc.
Re.
7 I
II.
Tr.
In.
2 39 29
II
. Ec.
Dis-
2 0 54 39
III.
Ec.
Dis.
7 58
II.
Sh.
Eg.
4 38
I
. Sh.
In.
3 36 42
III.
Ec.
Re.
8 16
I.
Sh.
In.
5 38
I
. Tr.
In.
3 51
III.
. Oc.
Dis.
9 9
I,
Tr.
In.
5 40
III
. Tr.
Eg.
651
III.
Oc.
Re.
9 47
II
. Tr.
Eg.
6 54
I
. Sh.
Eg.
8 15 36
II
. Ec.
Dis.
10 32
I.
. Sh.
Eg.
7 21
II
. Oc.
Re.
" 55
I.
Sh.
In.
II 26
I
. Tr.
Eg.
7 54
I
. Tr.
Eg.
12 29
II
Oc.
Re.
12 5 29 58
I.
Ec.
Dis.
21 0 7
IV
. Tr.
In.
12 40
I
. Tr.
In.
8 39
I
. Oc.
Re.
I 21
IV
. Tr.
Eg.
14 XX
I
. Sh.
Eg.
14 39
IV.
. Oc.
Dis.
I 52 16
I
. Ec.
Dis.
14 57
I
Tr.
E5.
15 49
IV
Oc.
Re.
5 8
I
. Oc.
Re,
8 9 7 29
I
. Ec.
Dis.
18 40
III
Sh.
In.
21 6
II
. Sh.
In.
12 9
I
. Oc.
Re.
21 34
III
. Sh.
Eg.
23 6
I
. Sh.
In.
4 2 36
II
. Sh.
In.
22 18
III
. Tr.
In.
23 II
II
. Tr.
In.
4 12
II
. Tr.
In.
13 0 6 I
II
. Ec.
Dis.
23 52
II
. Sh.
Eg.
5 21
II
. Sh.
Eg.
I 20
III
. Tr.
Eg.
22 0 7
I
. Tr.
In.
6 23
I
. Sh.
In.
2 44
I
. Sh.
In.
I 22
I
. Sh.
Eg.
6 59
II
. Tr.
Eg.
3 39
I
. Tr.
In.
I 58
II
. Tr.
Eg.
7 10
I
. Tr.
In.
4 37
II
. Oc.
Re.
2 24
I
. Tr.
Eg.
8 39
I
. Sh.
Eg.
5 I
I
. Sh.
Eg.
20 20 47
I
. Ec.
Dis.
9 27
I
. Tr.
E?.
5 56
I
. Tr.
E5.
23 37
I
Oc.
Re.
« 3 36 2
I
. Ec.
Dis.
23 58 24
I
. Ec.
Dis.
28 12 50 II
III.
. Ec.
Dis.
6 39
I
. Oc.
Re.
H 3 8
I
. Oc.
Re.
15 35 56
Ill
. Ec.
Re.
14 42
III
. Sh.
In.
18 30
II
. Sh.
In.
15 56 II
II
. Ec.
Dis,
17 35
III
.♦ Sh.
Eg.
20 24
II
. Tr.
In.
16 54
III
♦ Oc.
Dis,
17 56
III
.♦ Tr.
In
21 13
I
. Sh.
In.
17 34
I
.♦ Sh.
In.
20 57
III
. Tr.
E5.
Dis.
21 15
II
. Sh.
Eg.
18 37
I
Tr.
In.
21 32 26
II
. Ec.
22 9
I
. Tr.
In.
19 51
I
. Sh.
Eg.
« 0 51
I
. Sh.
In.
23 II
II
. Tr.
Eg.
19 59
III.
. Oc.
Re.
I 40
I
. Tr.
In.
23 29
I
. Sh.
Eg.
20 43
II
. Oc.
Re.
I 52
II
. Oc.
Re.
16 0 26
I
. Tr.
Eg.
20 54
I
Tr.
E?.
3 7
I
. Sh.
Eg.
18 26 55
I
. Ec.
Dis.
24 14 49 xo
I
. Ec.
Dis.
3 57
I
. Tr.
E?.
Dis.
21 38
I
. Oc.
Re.
18 7
I.
♦ Oc.
Re.
22 4 29
I
. Ec.
16 8 51 26
III
. Ec.
Dis.
26 10 25
II.
. Sh.
In.
7 I 9
1
. Oc.
Re.
II 35 58
III
. Ec.
Re.
12 3
I.
Sh.
In.
15 53
II
. Sh.
In.
12 35
III
. Oc.
Dis.
12 34
II.
. Tr.
In.
17 36
II
.♦ Tr.
In.
13 22 46
II
. Ec.
Dis.
13 6
I
. Tr.
In.
18 39
II
. Sh.
Eg.
15 38
III
. Oc.
Re.
13 II
II
. Sh.
^^'
19 19
1
. Sh.
In.
15 41
I
. Sh.
In.
14 19
I
. Sh.
Eg.
20 10
I
. Tr.
In.
16 38
I
. Tr.
In.
15 22
II.
. Tr.
Eg.
20 23
II
. Tr.
Eg.
17 58
I
.♦ Sh.
Eg.
15 23
I,
Tr.
Eg.
21 36
I
. Sh.
Eg.
18 0
II
♦ Oc.
Re.
26 9 17 4X
I.
Ec.
Dis.
22 26
I
. Tr.
4'
Dis.
18 55
I
. Tr.
Eg.
12 37
I.
Oc.
Re.
8 16 33 0
I
. Ec.
17 12 55 19
I
. Ec.
Dis.
27 2 35
III.
Sh.
In.
»9 39
I
. Oc.
Re.
16 8
I
. Oc.
Re.
5 12 50
IL
Ec.
Dis.
S 4 53 >o
III
. Ec.
Dis.
18 7 48
II
. Sh.
In.
5 32
III.
Sh.
Eg.
7 36 28
III
. Ec.
Re.
9 48
II
. Tr.
In.
631
I.
Sh.
In.
8 14
III
. Oc.
Dis.
10 9
I
. Sh.
In.
6 53
III.
Tr.
In.
10 49 15
II
. Ec.
Dis.
10 34
II
. Sh.
Eg.
7 35
I.
Tr.
In.
" >5
III
. Oc.
Re.
II 8
I
. Tr.
In.
8 47
I.
Sh.
Eg.
13 48
I
. Sh.
In.
12 26
I
. Sh.
Eg.
9 52
I.
Tr.
Eg.
14 39
I
. Tr.
In.
12 35
II
. Tr.
Eg.
9 59
III.
Tr.
Eg.
15 15
II
. Oc.
Re.
13 25
I
. Tr.
Eg.
10 4
II.
Oc.
Re.
16 4
I
. Sh.
Eg.
1» 7 23 50
I.
. Ec.
Dis.
28 3 46 6
I.
Ec.
Dis.
16 56
I
. Tr.
Eg.
Dis.
10 38
I
. Oc.
Re.
7 6
I.
Oc.
Re.
IC II I 25
I
. Ec.
22 38
III
Sh.
In.
23 42
11.
Sh.
In.
14 9
I
. Oc.
Re.
20 I 33
III
Sh.
Eg.
NOTB.
—In. denotes ingress: Eg., egress: Dis., disappearance: Re., reappearance: Ec. eclipse.
Oc. denotes occulta tion: Tr., transit of the satellite; Sh., transit of the shadow; * Visible
at Washinctoo.
[Eph 13]
SATELLITES OF JUPITER, 1913.
635
WASHINGTON MEAN TIME.
FEBRUARY.
Phases of the Eclipses of, the Satellites for an Inverting Telescope,
I.
II.
d
III.
d
IV. No Eclipse.
Configurations at 17^ jd°^ for an Inverting Telescope,
91
1
West.
East.
I
'2 -3 0
4*
'!•
2
I- 0
•2 -3
4*
3
0
4- 2
•3
4
2 4-
0
3"
5
4* '2
0 r
6
4'
3' -I
0
•2
7
4'
•3
0 I-
8
•4
•2*3
0
'!•
•4
i*0 '2*3
10
III
•4
O 'I 2-
•3
•4 2*1
o
3*
12
13
23
27
28
•2
o',.
•I
3' *i
o
•2 '4
14
3'
0 2- I-
•4
15
•s
•lO
•4
16 Oi*
0 -3
•4
•2#
17 t
0 'I 2-
•3
4'
18
1-
0
3*
4*
19
•2
0 s'.^
4*
20
3* 'I
0 4* '2
21
3*
4*
•3 2- •!
0 .?•
0
22
4'
4'
Oi
'2#-3i
24
4'
0
2- '3
•i#
25
•4
3*
26
•4
•2
0
•I 3*
•4
•4
o
•2
fEph 13I
636
SATELLITES OF JUPITER, 1913.
WASHINGTON MEAN TIME.
MARCH.
d h m 8
d h m 8
d h m g
1 O 59
,
[. Sh.
In.
10 4 31
III.
Oc.
Re.
20 15 43
I.*
' Tr. Eg.
I 57
I]
I. Tr.
In.
18 36 45
I.
Ec.
•Dis.
17 29
III.*
' Sh. Eg.
2 5
]
[. Tr.
In.
22 3
I.
Oc.
Re.
18 5
II.
Oc. Re.
2 28
1]
[. Sh.
Eg.
11 15 37
II.*
Sh.
In.
19 29
III.
Tr. Id.
3 i6
]
[. Sh.
Eg.
15 49
I.*
Sh.
In.
22 39
III.
Tr. Ez.
4 22
]
. Tr.
Eg.
17 0
I.*
Tr.
In.
21 9 27 23
I.
Ec. dL
4 44
I]
[. Tr.
E5.
18 3
II.
Tr.
In.
12 58
I.
Oc. Re.
lO 14
IV
'. Oc.
Dis.
18 6
I.
Sh.
Eg.
22 6 39
I.
Sh. In.
" 55
IV
\ Oc.
Re.
18 24
II.
Sh.
Eg.
7 31
II.
Sh. In.
22 14 36
]
. Ec.
Dis.
19 18
I.
Tr.
Eg.
7 54
I.
Tr. In.
2 I 36
]
[. Oc.
Re.
20 52
II.
Tr.
E^.
855
I.
Sh. Eg.
16 48 16
II]
[.* Ec.
Dis.
12 13 5 15
I.
Ec.
Dis.
10 6
11.
Tr. In.
18 29 29
I]
[. Ec.
Dis.
16 32
I.*
Oc.
Re.
10 12
I.
Tr. Eg.
19 28
]
[. Sh.
In.
18 10 17
I.
Sh.
In.
10 18
II.
Sh. Eg.
19 35 14
III
[. Ec.
Re.
10 19 19
II.
Ec.
Dis.
12 54
II.
Tr. Ee.
20 34
]
[. Tr.
In.
10 31
III.
Sh.
In.
28 3 55 52
I.
Ec. Dis.
21 10
II]
[. Oc.
Dis.
II 29
I.
Tr.
In.
7 27
I.
Oc. Re.
21 44
J
[. Sh.
Eg.
12 34
I.
Sh.
Eg.
24 I 7
I.
Sh. In.
22 51
]
.. Tr.
Eg.
13 30
III.
Sh.
Eg.
295
II.
Ec. Dis.
23 25
I]
[. Oc.
Re.
13 47
I.
Tr.
Eg.
2 23
I.
Tr. h.
8 0 16
II]
[. Oc.
Re.
15 20
III.
Tr.
In.
3 24
I.
Sh. Eg.
16 42 59
]
.♦ Ec.
Dis.
15 26
II.*
Oc.
Re.
4 40
I.
Tr. Ee.
20 5
]
[. Oc.
Re.
18 28
III.
Tr.
E?.
Dis.
4 41 52
III.
Ec. Dis.
€ 13 I
I]
[. Sh.
In.
1* 7 33 39
I.
Ec.
7 24
II.
Oc. Re. i
13 56
]
[. Sh.
In.
II I
I.
Oc.
Re.
7 32 25
III.
Ec. Rt
15 3
J
[. Tr.
In.
16 4 46
I.
Sh.
In.
9 41
III.
Oc. Dis.
15 20
I]
[. Tr.
In.
4 55
II.
Sh.
In.
12 52
III.
Oc. Re.
15 47
I]
[. Sh.
Eg.
5 59
I.
Tr.
In.
22 24 14
I.
Ec. Dii
16 12
1
.* Sh.
Eg.
7 2
I.
Sh.
Eg.
26 I 56
I.
Oc. Re
17 21
J
* Tr.
Eg.
7 24
II.
Tr.
In.
19 35
I.
Sh. In.
18 7
I]
[. Tr.
E?-
7 41
II.
Sh.
Eg.
20 50
II.
Sh. In.
6 II II 29
1
[. Ec.
Dis.
8 16
I.
Tr.
Eg.
20 52
I.
Tr. In.
14 35
]
. Oc.
Re.
10 12
II.
Tr.
Eg.
21 52
I.
Sh. Eg. .
6 6 33
II]
[. Sh.
In.
16 2 2 9
I.
Ec.
Dis.
23 9
I.
Tr. Eg.
7 46 7
I]
L. Ec.
Dis.
5 31
I.
Oc.
Re.
23 26
II.
Tr. In.
8 24
]
[. Sh.
In.
23 14
I.
Sh.
In.
23 37
II.
Sh. Eg.
9 31
II]
[. Sh.
Eg.
23 35 55
II.
Ec.
Dis.
26 2 14
II.
Tr. Eg.
9 33
]
[. Tr.
In.
17 0 28
I.
Tr.
In.
2 41
IV.
Sh. In.
10 41
1
. Sh.
Eg.
0 44 0
III.
Ec.
Dis.
3 36
IV.
Sh. Eg.
II 8
II]
[. Tr.
In.
I 31
I.
Sh.
Eg.
14 ai
rv.
Tr. In.
II 50
]
[. Tr.
Eg.
2 45
I.
Tr.
e|.
16 31
16 5a 43
30 95
IV.*
I.*
Tr. U
Ec Dis^
12 46
I]
. Oc.
Re.
3 33 22
III.
Ec.
Re.
I.
Oc. Re.
14 15
11]
[. Tr.
E^.
Dis.
4 46
II.
Oc.
Re.
87 14 4
I.
Sh. IB.
7 5 39 53
]
[. Ec.
5 34
III.
Oc.
Dis.
15 ao
ic ac 40
I,*
Tr. la.
Ec. Dtt.
9 4
]
[. Oc.
Re.
8 43
III.
Oc.
Re.
16 ao
I.*
Sh. U.
8 2 19
I]
[. Sh.
In.
18 21 43
IV.
Ec.
Dis.
17 38
I.
Tr. E|.
2 52
4 2
]
]
[. Sh.
. Tr.
In.
In.
19 13 21
20 30 30
IV.
I.
Ec.
Ec.
Re.
Dis.
i8 a?
20 43
21 a8
III.
II.
III.
Sh. In.
Oc. R<
Sh. Eg.
4 41
1]
[. Tr.
In.
18 0 0
I.
Oc.
Re.
•• '3 ^^
III.
Tr. In-
■ 1
5 5
1]
[. Sh.
gS-
5 19
IV.
Oc.
Dis.
M 3 45
II ai 6
III.
I.
Tr. E|.
Ec. Dtf.
5 9
]
[. feh.
Eg.
7 25
IV.
Oc.
Re.
14 53
!.♦
Oc. U
6 19
7 29
]
I]
[. Tr.
[. Tr.
17 42
18 14
I.
11.
Sh
Sh.
In.
In.
89 8 33
9 49
10 7
I.
I.
II.
Sh. In.
Tr. In.
Sh. In-
9 0 8 23
]
[. Ec.
Dis.
18 56
I.
Tr.
In.
10 49
I.
Sh. K|.
3 34
]
[. Oc.
Re.
19 59
I.
Sh.
Eg.
13 6
I.
Tr. U
Tr. !■•
Sh. Ef-
19 31
IV
^ Tr.
In.
20 46
II.
Tr.
In.
13 45
13 <4
II.
II.
20 46 14
IIJ
[. Ec.
Dis.
21 0
II.
Sh.
Eg.
IS 33
II.*
Tr. Bf.
21 2 44
I]
[. Ec.
Dis.
21 14
I.
Tr.
Eg.
80 i 49 35
I.
Ec. D»
Oc. R«
Sh. In-
21 18
IV
\ Tr.
Eg.
23 34
II.
Tr.
5?-
9 33
81 3 0
I.
I.
21 21
]
[. Sh.
In.
19 14 59 0
I.*
Ec.
Dis.
0 **
4 17
I.
Tr. la
22 31
23 34 24
]
II]
[. Tr.
[. Ec.
In.
Re.
18 29
20 12 10
I.
I.
Oc.
Sh.
Re.
In.
4 43 15
5 17
6 3S
II.
I.
I.
Ec. 2*
Sh. E«-
Tr. Ef-
23 37
1
[. Sh.
Eg.
12 52 30
II.
Ec.
Dis.
8 40 16
III.
Ec. Dtf.
10 0 48
]
[. Tr.
Eg.
13 25
I.
Tr.
In.
10 0
II.
Oc. ;«•
Ec. Rf-
Oc, D*
I 24
II]
[. Oc.
Dis.
14 27
I.
Sh.
Eg.
II 33 0
13 45
ni.
III.
2 6
I]
[. Oc.
Re.
14 29
III.
Sh.
In.
'6 57
IIL*
Oc. R*:-
Note. — In. denotes ingress: Eg.
Oc. denotes occultation ;
, egress; Dis.. disappearance; Re., reappearance; Bc.^
Tr.. transit of the satellite ; Sh.. transit of the shadow; * Visible at WashingtoD.
\EpVi 13^
SATELLITES OF JUPITEK, 1913
WASHINGTON MEAN TIME.
637
MARCH.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
3 r\
III.
*
d
. r\
I.
d f \
r f \
\J
^j
II.
3 ^
IV.
5*
dr
o
^
^
Configurations at i6^ 50™ /or on Inverting Telescope.
a 1
West. East.
I
•3 2- -I 0 '4
2^
Tj
4i02' Qi
^1
^1
8!
^ o
1*
•4
•lO
•3
•4
o
•3
•4
•2
o -I
3'
4*
!• 3* O '2
4*
3* O 'I 2* 4^
•3 2'' 6 ' 4*
'\ O,. I-
10
4- -I O
•3*2
II
12
4*
oj.-
3*
4'
2*
o
3*
ij|C3'
14
4*
r O '2
•4
y
O
•I 2*
£5
16
17
•4
•3
•4
I-
o
•3
•%
O
o
I*
■3 "2
18
o ..'
2-
•3
24 I
•I
25
0_*3 ^
1-
o
4* '3
•I
19
2- 0
3*
3- -4
•4
'!•
20
I- 0
'2%
21
3- 0
•I
2*
•4
22
•3
I* 2- 0
•3 -2 0
•I
4*
4'
23
26|04'
•lO
3*
27IO1
4*
O 3-
28
4'
y
y 0
•I
•2
09\
4*
r 2- 0
30
4*
*3 -2 0
•I
31
•4
•I 0
•2
•3«
[Eph 13]
638
SATELLITES OF JUPITER, 1913.
WASHINGTON MEAN TIME.
APRIL.
d h m s
d h m s
d h m 8
1 o 17 56
I. Ec.
Dis.
11 2 22
III.
Sh.
In.
20 17 26
IV.
Oc.
Dis.
3 51
I. Oc.
Re.
5 25
III.
Sh.
Eg.
20 I
IV.
Oc.
Re.
21 28
1. Sh.
In.
7 33
III.
Tr.
In.
21 8 39
1.
Sh.
In.
22 46
I. Tr.
In.
10 46
III.
Tr.
E^.
9 55
I.
Tr.
In.
23 26
II. Sh.
In.
15 8 30
I.*
Ec.
Dis.
10 56
I.
Sh.
Eg.
23 45
I. Sh.
Eg.
18 42
I.
Oc.
Re.
12 13
I.
Tr.
Eg.
« I 3
I. Tr.
Eg.
20 30
IV.
Sh.
In.
12 22 2
II.
Ec.
d£s.
2 5
II. Tr.
In.
21 55
IV.
Sh.
Eg.
17 38
II.
Oc.
Re.
2 13
II. Sh.
Eg.
12 8 29
IV.
Tr.
In
20 35 II
III.
Ec.
Dis.
4 53
II. Tr.
Eg.
10 54
IV.
Tr.
Eg.
23 30 22
III.
Ec.
Re.
18 46 25
I. Ec.
Dis.
12 18
I.
Sh.
In.
22 I 34
III.
Oc.
Dis.
22 20
I. Oc.
Re.
13 36
I.*
Tr.
In.
4 48
III.
Oc.
Re,
8 12 8 0
IV. Ec.
Dis.
14 35
I.*
Sh.
Eg.
5 59 2
I.
Ec.
Dis.
13 28 17
IV. Ec.
Re.
15 19
II.*
Sh.
In
9 31
I.
Oc.
Re.
15 57
I.* Sh.
In.
15 53
I.*
Tr.
Eg.
23 3 8
I.
Sh.
In.
17 14
I.* Tr.
In.
17 58
II.
Tr.
In.
4 23
I.
Tr.
In.
17 58 51
II. Ec.
Dis.
18 7
II.
Sh.
Eg.
5 25
I.
Sh.
Eg.
18 13
I. Sh.
Eg.
20 47
II.
Tr.
E?.
6 41
I.
Tr.
Eg.
19 32
I. Tr.
Eg.
18 9 36 59
I.
Ec.
Dis.
7 H
II.
Sh.
In.
22 24
III. Sh.
In.
13 10
I.
Oc.
Re.
9 48
II.
Tr.
In.
23 18
II. Oc.
Re.
14 6 46
I.
Sh.
In.
10 2
II.
Sh.
Eg.
23 46
IV. Oc.
Dis.
8 4
I.
Tr.
In.
12 37
II.
Tr.
Eg.
4 I 27
III. Sh.
Eg.
9 3
I.
Sh.
Dis.
24 0 27 31
1.
Ec.
Dis.
2 9
IV. Oc.
Re.
9 48 42
II.
Ec.
358
I.
Oc.
Re.
3 36
III. Tr.
In.
10 21
I.
Tr.
Eg.
21 36
I.
Sh.
In.
6 48
III. Tr.
E?-
15 8
II.*
Oc.
Ri.
22 51
I.
Tr.
In.
13 14 48
I. Ec.
Dis.
16 37 8
III.*
Ec.
Dis.
23 53
I.
Sh.
Eg.
16 48
I.* Oc.
Re.
19 31 10
III.
Ec.
Re.
26 I 8
I.
Tr.
Eg.
6 10 25
I. Sh.
In.
21 42
III.
Oc.
Dis.
X 38 45
II.
Ec.
Dis.
II 43
I. Tr.
In.
16 0 56
III.
Oc.
Re.
653
II.
Oc.
Re.
12 42
I. Sh.
Eg.
4 5 20
I.
Ec.
Dis.
10 18
III.
Sh.
In.
12 44
II. Sh.
In.
7 38
I.
Oc.
Re.
13 23
III.*
Sh.
Eg.
14 0
I. Tr.
Eg.
16 I 15
I.
Sh.
In.
15 16
III.*
Tr.
In.
15 23
II.* Tr.
In
2 32
I.
Tr.
In.
18 31
III.
Tr.
Eg.
15 31
II.* Sh.
Eg.
3 32
I.
Sh.
Eg.
18 55 54
I.
Ec.
Dis.
18 II
II. Tr.
E?.
4 38
II.
Sh.
In
22 26
I.
Oc.
Re.
« 7 43 17
I. Ec.
Dis.
4 49
I.
Tr.
Eg.
26 16 4
I.*
Sh.
In.
II 17
I. Oc.
Re.
7 16
II.
Tr.
In.
17 18
I.
Tr.
In.
7 4 53
I. Sh.
In.
7 26
II.
Sh.
Eg.
18 21
I.
Sh.
Eg.
6 II
I. Tr.
In.
10 5
II.
Tr.
E?.
Dis.
19 36
I.
Tr.
Eg.
7 10
I. Sh.
E^.
22 33 49
I.
Ec.
20 32
II.
Sh.
In.
7 15 27
II. Ec.
Dis.
17 2 6
I.
Oc.
Re.
23 3
II.
Tr.
In.
8 29
I. Tr.
Eg.
19 43
I.
Sh.
In.
23 19
II.
Sh.
5«-
12 35
II. Oc.
Re,
21 0
I.
Tr.
In.
27 I 52
II.
Tr.
Eg.
12 38 27
III. Ec.
Dis.
22 0
I.
Sh.
E^.
Dis.
13 24 24
I.*
Ec.
Dk
15 31 20
III.* Ec.
Re.
23 5 22
II.
Ec.
16 54
I.
Oc.
Re.
17 45
III. Oc.
Dis.
23 17
1.
Tr.
Eg.
28 10 32
I.
Sh.
In.
20 58
III. Oc.
Re.
18 4 23
II.
Oc.
Re.
II 46
I.
Tr.
In.
8 2 II 38
I. Ec
Dis.
6 19
III.
Sh.
In.
12 50
I.
Sh.
Eg.
5 45
I. Oc.
Re.
9 24
III.
Sh.
Eg.
14 4
I.*
Tr.
Eg.
23 21
I. Sh.
In.
II 26
III.
Tr.
In.
14 22
IV.*
Sh.
In.
9 0 39
I. Tr.
In.
14 41
III.*
Tr.
E?.
Dis.
14 55 29
II.*
Ec.
Dis.
I 38
I. Sh.
Eg.
17 2 12
I.
Ec.
16 9
IV.*
Sh.
s«-
2 2
II. Sh.
In
20 35
I.
Oc.
Re.
20 7
II.
Oc.
Re.
2 57
I. Tr.
Eg.
19 14 II
I.*
Sh.
In.
29 0 33 II
III.
Ec.
Dis.
4 41
4 49
II. Tr.
II. Sh.
In.
Eg.
15 28
16 28
I.*
I.*
Tr.
Sh.
In.
Eg.
I 43
3 29 »9
4 19
IV.
III.
IV.
Tr.
Kc.
Tr.
In.
Re.
7 30
II. Tr.
E^.
17 45
I.
Tr.
Eg.
S ax
III.
Oc.
20 40 7
10 0 14
I. Ec.
I. Oc.
Dis.
Re.
17 56
20 33
II.
II.
Sh.
Tr.
In.
In.
7 S» 45
8 37
II 73
I.
III.
I.
Ec.
Oc,
Oc
Dis.
Re
Re
17 50
I. Sh.
In.
20 43
II.
Sh.
Eg.
80 5 I
6 13
I '*
8 31
I.
Sh,
In.
19 8
20 7
I. Tr.
I. Sh.
In.
E^.
23 22
20 5 58 14
II.
IV.
Tr.
Ec.
4'
Dis.
I.
I.
L
Tr,
Sh,
Tr,
In.
Ec.
20 32 5
II. Ec.
Dis.
7 39 30
IV.
Ec.
Re.
9 SO
II.
Sh.
In.
21 25
I. Tr.
!«•
II 30 41
I.
Ec.
Dis.
13 18
la ^8
II.
IL*
Tr.
Sh.
In.
Ec
11 I 52
II. Oc.
Re.
15 3
I*
Oc.
Re.
'5 7
II.*
Tr.
Bg.
N0T8. — In. denotes ingress: Eg., egress; Dis., disappearance: Re., reappearance; Ec.
Oc. denotes occulution : Tr., transit of the satellite; Sh., transit of the shadow;
lEph 13]
, eclipse.
* Visible at Washinxton.
SATELLITES OF JUPITEE, 1913.
639
WASHINGTON MEAN TIME.
APRIL.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
I.
*
d
III.
d r
II.
d
15
16
20
21
22
23
28
29 I.
30 10 2
* *
d r
IV.
Configurations at i')'^ o™ for an Inverting Telescope.
4*
•4
O
O
•I
•3
17 1
•4
•4
18 1
19
3
•2
o I-
3*
•13O
•2
Ol' 2-
2*
•'0
2
•4
2- -I 0
•«* 0 I- 3-
3*
3
4
3* 0 '4 '2
'!•
5
3*
i-O
•4
6
•3
•2 0 •!
•4
7
I*
0 -2
•4
•3#
8.
0 'I 2- '3
4'
9i
•1
0
3*
4'
%
10
•2
0 I* 3-
4*
II
3"
lO 4* -2
12 Oi*
3-
•34* 2-
4*
0 2-
13
4'
0 -I
14
•8
1-
0
'2%
'I
•3 I- o
•4
•2
O •! "3 2-
•4
I* 2- O
•3
•4
24
•2
0
1*
3*
•4
25
•I
0
8-
•2
4*
4*
26
3*
0 I-
2*
27
'3
2-
0
4*
'i#
•3
I'O 4*
*2
4*
4: O
o
•2
r
[Eph 13]
640
SATELLITES OF JUPITER, 1913.
WASHINGTON MEAN TIME.
MAY.
d h m s
Dis.
d h m s
d h m a
1 2 21 14
I.
Ec.
11 I 43
II. Sh.
In.
81 10 41
I.
Sh. In.
5 49
I.
Oc.
Re.
3 58 II. Tr.
In.
II 38
I.*
Tr. In.
23 29
I.
Sh.
In.
4 31
II. Sh.
Eg.
12 58
I.*
Sh. Eg.
2 0 41
I.
Tr.
In.
6 47
II. Tr.
E?.
13 56
I.*
Tr. Eg.
I 46
I.
Sh
Eg.
17 II 54
I. Ec.
Dis.
17 37
^'
Sh. In.
2 59
I.
Tr.
Dis.
20 33
I. Oc.
Re.
19 33
II.
Tr. In.
4 12 13
II.
Ec.
18 14 19
I.* Sh.
In.
20 26
II.
Sh. Eg.
9 20
II.
Oc.
Re.
15 24
I.* Tr.
In.
22 23
II.
Tr. Eg.
14 16
III.
* Sh.
In.
16 36
I. Sh.
Eg.
22 8 2 36
I.
Ec. Dii
17 22
III.
Sh.
Eg.
17 42
I. Tr.
Eg.
II 15
I.*
Oc. Re.
19 1
III.
Tr.
In.
20 2 48
II. Ec.
Dis.
28 5 9
I.
Sh. In.
20 49 38
I.
Ec.
Dis.
18 0 58
II. Oc.
Re.
6 5
I.
Tr. In.
22 17
III.
Tr.
Eg.
8 29 9
III. Ec.
Dis.
7 26
I.
Sh. Eg.
8 0 17
I.
Oc.
Re.
II 27 39
III. Ec.
Re.
8 23
I.
Tr. Eg.
17 57
I.
Sh.
In.
II 40 17
I.* Ec.
Dis.
II 53 43
II.*
Ec. d\i.
19 8
I.
Tr.
In.
12 42
III.* Oc.
Dis.
16 31
II.
Oc. Re.
20 14
I.
Sh.
Eg.
15 0
I.* Oc.
Re.
17 45 16
IV.
Ec. Dis.
21 26
I.
Tr.
Eg.
15 58
III.* Oc.
Re.
19 58 44
IV.
Ec. Re.
23 7
II.
Sh.
In
14 8 47
I. Sh.
In.
24 2 3
IV.
Oc. Dis.
4 I 31
II.
Tr.
In.
9 51
I. Tr.
In.
2 10
III.
Sh. In.
I 55
II.
Sh.
Eg.
II 5
I. Sh.
Eg.
2 31 2
I.
Ec. Dii
4 21
II.
Tr.
E?.
Dis.
12 9
I.* Tr.
Eg.
4 52
IV.
Oc. Re.
15 18 8
I.
♦ Ec.
15 2
II.* Sh.
In.
5 20
III.
Sh. Eg.
18 44
I.
Oc.
Re.
17 xo
II. Tr.
In.
5 42
I.
Oc. Re.
8 12 26
I.
* Sh.
In.
17 50
II. Sh.
Eg.
5 50
III.
Tr. In.
13 35
I.
♦ Tr.
In.
20 0
II. Tr.
E5.
Dis.
9 6
III.
Tr. Eg.
14 43
I.
♦ Sh.
Eg.
16 6 8 46
I. Ec.
23 38
I.
Sh. In.
15 53
I.
♦ Tr.
E^.
Dis.
8 16
IV. Sh.
In.
26 0 32
I.
Tr. In.
17 29 3
II.
Ec.
9 27
I. Oc.
Re.
I 55
I.
Sh. Eg
22 33
II.
Oc.
Re.
10 22
IV. Sh.
Eg.
2 50
I.
Tr. Eg.
6 4 31 5
III.
Ec.
Dis.
18 I
IV. Tr.
In.
655
II.
Sh. In.
7 28 29
III.
Ec.
Re.
20 44
IV. Tr.
Eg.
8 44
II.
Tr. In.
9 4
III.
Oc.
Dis.
16 3 16
I. Sh.
In.
9 43
II.
Sh. Eg.
9 46 30
I.
Ec.
Dis.
4 18
I. Tr.
In.
II 33
II.*
Tr. Eg.
12 20
III.
* Oc.
Re.
5 33
I. vSh.
Eg.
20 59 34
I.
Ec. Dii
13 12
I.
* Oc.
Re.
6 36
I. Tr.
Dis.
26 0 9
I.
Oc. Re.
23 51 14
IV.
Ec.
Dis.
9 19 42
II. Ec.
18 6
I.
Sh. In.
7 I 49 40
IV.
Ec.
Re.
14 9
II.* Oc.
Re.
18 58
I.
Tr. In.
6 54
I.
Sh.
In.
22 12
III. Sh.
In.
20 23
I.
Sh. Eg.
8 3
I.
Tr.
In.
17 0 37 11
I. Ec.
Dis.
21 16
I.
Tr. Eg.
9 n
I.
Sh.
E^.
Dis.
I 21
III. vSh.
Eg.
27 I 10 51
II.
Ec. Dis.
10 12
IV.
Oc.
2 18
III. Tr.
In
5 41
II.
Oc. Re.
10 21
I.
Tr.
Eg.
3 54
I. Oc.
Re.
15 27 59
I.*
Ec. Dis.
12 26
II.
* Sh.
In
5 35
III. Tr.
Eg.
16 26 22
III.
Ec. Dis.
«2 55
IV.
♦ Oc.
Re.
21 44
I. Sh.
In.
18 35
I.
Oc. Re.
H 45
II.
* Tr.
In.
22 45
I. Tr.
In.
19 27 I
III.
Ec. Re.
15 14
II.
* Sh.
Eg.
18 0 I
I. Sh.
Eg.
19 46
III.
Oc. Dis
17 35
II.
Tr.
Eg.
I 3
I. Tr.
Eg.
23 3
III.
Oc. Re.
8 4 14 59
I.
Ec.
Dis.
4 19
II. Sh.
In
28 12 34
I.*
Sh. In.
7 39
I.
Oc.
Re.
6 22
II. Tr.
In.
13 25
I*
Tr. In.
9 I 22
I.
Sh.
In.
7 7
II. Sh.
Eg.
14 52
I*
Sh. Eg.
2 30
I.
Tr.
In.
9 10
II. Tr.
4
Dis.
15 43
I.*
Tr. Eg.
3 39
I.
Sh.
Kg.
19 5 42
I. Ec.
20 13
II.
Sh. lo.
4 48
I.
Tr.
E?.
22 21
I. Oc.
Re.
21 54
II.
Tr. In.
-- - m%
6 45 53
II.
Ec.
Dis.
19 16 12
I.* Sh.
In.
23 2
II.
Sh. Eg.
II 46
18 14
II.
III.
Oc.
Sh.
Re.
In.
17 12
18 30
I. Tr.
I. Sh.
In.
Eg.
89 0 44
9 56 19
xj a
II.
I.
I.*
Tr. Bf-
Ec. D»
Oc. R«
21 22
III.
Sh.
Eg.
19 30
I. Tr.
E?.
Dis.
W 7 3
I.
Sh. IB-
22 42
III.
Tr.
In.
22 36 43
II. Ec.
7 SI
I.
I.
I.
Tr. 1»-
Sh. Bf-
22 43 23
I.
Ec.
Dis.
20 3 20
II. Oc.
Re.
9 20
xo 9
10 I 58
III.
Tr.
Eg.
12 27 50
III.* Ec.
Dis.
X4 a7 56
II.*
2 6
19 51
I.
I.
Oc.
Sh.
Re.
In.
13 34 6
15 27 25
I.* Ec.
Ill* Ec.
Dis.
Re.
x8 50
81 4 24 56
6 8
II.
I.
III.
Ec. V^
Sh. If-
20 57
I.
Tr.
In.
16 16
III. Oc.
Dis.
7 •«
L
Oc. R«-
22 8
23 15
I.
I.
tiotes
Sh.
Tr.
ingress
EjT.
: Eg.. 1
16 48
19 33
I. •Oc.
III. Oc.
Re.
Re.
9 17
9 19
" 34
IIL
in.
IIL*
Tr. If-
Sh. Be
Tr. BIl.
Nors.—In. dc
f'gress: Dts.. disappearance: R<
!.. reapi
pearancc: Be, cd
June.
Oc. de
notes
occulta tion; T
r., transit of *H« sateUlle; Sh., t
ranstt 0
>f the shadow; *Vi
bible at Washhiftoa.
\1
ipVi \i\
SATELLITES OF JUPITER, 1913
641
WASHINGTON MEAN TIME.
MAY.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
I.
d
III.
*
r
II.
d
IV. d
*
r
5|Or
21
22
23!
24 I
25
26
27
Configurations at 14^ o™ for an Inverting Telescope,
I
4*
•2
0
•I
3*
2
4'
•I
3*
0
0
s-
1- 2'
3
•4
•4
3*
2'
'I o
•4
•3
•2 O
•4
o:;
•2
I- 02^
'3
8
•2
0
•I '4 3*
9l
r
0 •
2 3*
•4
10 1
3'
0
r 2'
•4
II
3-
2' *I
0
•4
12
•3 '2
Oi-
4*
.3I
0
•2
4'
•i#-3#
.41
r
0 2-
•s
4-
.5I
2'
04-
•I 3-
.61
4- r
0
3*
'2%
.7 1
4*
3'
0
I* 2*
iSl
4*
3*
•1
0
.9I
4'
•3 '2
0
I*
20
•4
0
•2
'imsm
•4
rO 2-
•3
2'
o -I
3*
o
3'
28iOi
3- 0
•4*1 2'
3*
•I 2' 0
•4
•3
•2 0
r
•4
•3-1 0
•2
•4
29^
30
31
2*
O 2- ;3^
O -I
•3
4*
I* -2 O
3-0
3*
•I
1913 41
[Eph ul
642
SATELLITES OF JUPITER, 1913.
WASHINGTON MEAN TIME.
JUNE.
d h m s
d h m 8
'
d h m s
1 I 31
I
. Sh.
In.
10 6 19 49
II. Ec.
Dis.
20 15 2
I.*
Sh.
Eg.
2 14
IV
. Sh.
In.
10 17
II
♦ Oc.
Re.
15 23
I.*
Tr.
Eg.
2 l8
I
. Tr.
In.
19 15 56
I
. Ec.
Dis.
22 12 4
II.
Ec.
Dis.
3 49
I
. Sh.
Eg.
22 6
I
. Oc.
Re.
21 I 40
II.
Oc.
Re.
4 34
IV
. Sh.
Eg.
11 0 24 0
III
. Ec.
Dis.
10 7 6
I.*
Ec.
Dis.
4 36
I
. Tr.
Eg.
5 52
III
. Oc.
Re.
12 43
I.*
Oc.
Re.
9 24
IV
. Tr.
In.
16 22
I.
Sh.
In.
18 4
III.
Sh.
In.
9 30
II.
. Sh.
In.
16 55
I.
. Tr.
In.
19 21
III.
Tr.
In.
II 3
II
.♦ Tr.
In.
18 39
I.
Sh.
Eg.
21 18
III.
Sh.
Eg.
12 12
IV
.♦ Tr.
Eg.
19 13
I,
Tr.
Eg.
22 37
III.
Tr.
Eg.
12 19
II.
♦ Sh.
Eg.
12 I 24
II.
Sh.
In.
22 7 13
I.
Sh.
In.
13 53
II.
♦ Tr.
E5.
2 30
II.
Tr.
In.
7 31
I.
Tr.
In.
22 53 29
I.
. Ec.
Dis.
4 13
II.
Sh.
Eg.
9 31
I.*
Sh.
Eg.
2 I 55
I.
. Oc.
Re.
5 20
II.
Tr.
Eg.
9 49
I.*
Tr.
Eg.
20 0
I.
Sh.
In.
13 44 29
I.
.♦ Ec.
Dis.
17 17
II.
Sh.
In.
20 44
I.
. Tr.
In.
16 32
I.
Oc.
Re.
17 53
II.
Tr.
In.
22 17
I.
. Sh.
Eg.
18 10 50
I.
♦ Sh.
In.
20 7
II.
Sh.
Eg.
23 2
I.
Tr.
E?.
II 21
I.
♦ Tr.
In.
20 43
II.
Tr.
Eg.
» 3 45 13
II.
. Ec.
Dis.
13 8
I.
* Sh.
Eg.
28 4 35 42
I.
Ec.
ms.
8 0
II.
. Oc.
Re.
13 39
I.
* Tr.
Eg.
Dis.
7 9
I.
Oc.
Re.
17 21 55
I.
. Ec.
Dis.
19 37 6
II.
Ec.
24 I 42
I.
Sh.
In.
20 21
I,
Oc.
Re.
23 25
II.
Oc.
Re.
I 57
I.
Tr.
In.
20 25 27
III
. Ec.
Dis.
14 8 12 58
I.
Ec.
Dis.
3 59
I.
Sh.
Eg.
4 2 30
III
. Oc.
Re.
10 58
I.
* Oc.
Re.
4 15
I.
Tr.
Eg.
14 28
I.
.♦ Sh.
In.
14 5
III.
♦ Sh.
In.
II 29 50
II.*
Ec.
Dis.
15 10
I.
♦ Tr.
In.
16 2
III.
* Tr.
In.
14 47
II.*
Oc.
Re.
16 46
I.
Sh.
Eg.
17 18
III.
Sh.
Eg.
23 4 13
I.
Ec
Dis.
17 28
I
Tr.
Eg.
19 19
III.
Tr.
Eg.
25 I 35
I.
Oc.
Re.
22 49
II.
. Sh.
In.
16 5 19
I.
Sh.
In.
8 21 6
III.
Ec.
Dis.
5 0 13
II.
Tr.
In.
5 47
I.
Tr.
In.
12 29
III.*
Oc.
Re.
I 37
II.
Sh.
Eg.
7 36
I.
Sh.
Eg.
20 10
I.
Sh.
In.
3 3
II.
Tr.
E5.
8 5
I.
Tr.
Eg.
20 23
I.
Tr.
In.
II 50 27
I.
* Ec.
Dis.
14 42
II.
♦ Sh.
In.
22 28
I.
Sh.
Eg.
14 47
I.
♦ Oc.
Re.
15 38
II.
* Tr.
In.
22 41
I.
Tr.
Eg.
6 8 56
I.
Sh.
In.
17 31
II.
Sh.
Eg.
26 5 38 24
IV.
Ec.
Dis.
9 36
I.
Tr.
In.
18 28
II.
Tr.
Eg.
6 35
II.
Sh.
In.
II 14
I.
* Sh.
Eg.
16 2 41 33
I.
Ec.
Dis.
7 I
II.
Tr.
In.
II 54
I.
* Tr.
E5.
5 25
I.
Oc.
Re.
9 25
II.*
Sh.
Eg.
17 2 23
II.
Ec.
Dis.
23 47
I.
Sh.
In.
9 50
II.*
Tr.
Eg.
21 8
II.
Oc.
Re.
17 0 13
I.
Tr.
In.
lo 23
IV.*
Oc.
Re.
7 6 18 55
I.
Ec.
Dis.
2 5
I.
Sh.
Eg.
17 32 47
I.
Ec.
Dis.
9 14
I.
Oc.
Re.
2 31
I.
Tr.
Eg.
Dis.
20 I
I.
Oc.
Re,
10 6
III.
* Sh.
In.
8 54 41
II.
Ec.
27 14 38
I.*
Sh.
In.
12 41
III.
♦ Tr.
In.
12 33
II.
* Oc.
Re.
14 49
I.*
Tr.
In.
13 18
Ill,
* Sh.
Eg.
20 13
IV
Sh.
In.
16 56
I.
Sh.
Eg.
15 58
III.
Tr.
Eg.
21 10 2
I.
Ec.
Dis.
17 7
I.
Tr.
Eg.
« 3 25
I.
Sh.
In.
22 46
IV
Sh.
Eg.
28 0 47 19
II.
Ec.
Dis.
4 3
I.
Tr.
In.
23 51
I
Oc.
Re.
3 55
II.
Oc.
Re.
5 42
I.
Sh.
Eg.
18 0 2
IV.
Tr.
In.
12 I 20
I.*
Ec.
Dis.
6 21
I.
Tr.
Eg.
2 52
IV.
Tr.
Eg.
Dis.
14 27
I.*
Oc.
Re.
12 6
II.
♦ Sh.
In
4 22 32
III.
Ec.
22 3
III.
Sh.
In.
13 21
II.
* Tr.
In.
9 12
Ill
* Oc.
Re.
22 38
III.
Tr.
In.
14 55
II.
* Sh.
Eg.
18 16
I
vSh.
In.
29 I 18
III.
Sh.
Eg.
16 II
11.
Tr.
E?.
18 39
I
. Tr.
In.
I 55
III.
Tr.
Eg.
9 0 47 29
I.
Ec.
Dis.
20 34
I
. Sh.
Eg.
9 7
I.*
Sh.
In.
3 40
I.
Oc.
Re.
20 57
I
. Tr.
Eg.
9 15
I.*
Tr.
In.
II 40 52
IV
♦ Ec.
Dis.
19 4 0
II
. Sh.
In
II 25
I.*
Sh.
Eg.
14 7 37
IV
* Ec.
Re.
4 46
II
. Tr.
In.
II 33
I.*
Tr.
Eg.
17 4
IV
. Oc.
Dis.
6 49
II
. Sh.
Eg.
19 53
II.
Sh.
In.
19 56
IV
. Oc.
Re.
7 36
II
. Tr.
Eg.
20 8
II.
Tr.
In.
21 53
I
. Sh.
In.
15 38 35
I
.* Ec.
Dis.
22 42
II.
Sh.
Eg.
22 29
I
. Tr.
In.
18 17
I
. Oc.
Re.
22 57
II.
Tr.
Eg.
10 0 II
I
Sh.
Eg.
20 12 44
I
.* Sh.
In.
30 6 29 57
I.
Ec.
Dis.
0 47
I
Tr.
Eg.
13 5
I
♦ Tr.
In.
853
I.*
Oc.
Re.
NoTB. — In. denotes tnsress: Eg., egress; Dis., disappearance: Re., reappearance: Ec, eclipse.
Oc. denotes occultation; Tr., transit of the satellite: Sh., transit of the shadow; * Visible at Waslunct
lEph 13]
L
II.
SATELLITES OF JUPITER, 1913.
WASHINGTON MEAN TIME.
JUNE.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
d
III.
d
d
IV.
*
d
r
643
i.Or
j3
4
_5
7
J9
10
II
13
II
£5
\i
ifl
I?
20
21
22
23
?i
25
26
?7
28
29
Configurations at 12^ j^oi^ for an Inverting Telescope.
WC8t.
East.
4'
_y I' 4'0
•3 4* 2 O I*
•3'i 6 '2
4'
4'
2'
o_i- l_
'6 ' '
•3
•4
•2 I'O
3*
•4
o -I
a- _
o"
•3
«l
«3 Or
ill
«5
_. _.
i(
«7l
■8|
_
20
4*
21 1
221
23! ~
4'
•4
•4
241
25
26 1
0
I
0
'2
•4
0
•a
1-
2-
3*
V
•2
*3 *i
2- -I 0_
o "'
y !• b 2-_
0 •!
•3*1
4*
•4
•3
3*
•2
4*
4*
O 4-
0_-3i'
2--i"0 __
•2 6'*
•3
3*
3*
•4
O 3* -2
3' !• O 2'
2' "O 'I
•3 r O
•4 0*3_i* 2
"6 I*
•3
•4 3*
•I
•4'
'4
•4
4*
4*
•2
•I
•2
3*
3'
2*
1- O 2-
O 'I
[Kph iM
•4
•I
•4
•4
644 SATELLITES OF JUPITER, 1918.
WASHINGTON MEAN TIME.
JULY.
D. dcDotei ingreu: Es-, •
Be. ccHni.
av: (VidbleM
SATELLITES OF JUPITER, 1913.
645
WASHINGTON MEAN TIME.
JULY.
Phases of the Eclipses of the Satellites for an Inverting Telescope,
I.
III.
II.
IV.
3IO2'
6|Oi'
7l
8
Configurations at ii^ jo" for an Inverting Telescope.
•
1
West.
East.
I
•3 I* '2 C
) 4-
\3_0
•1 o
•I '2
4'
•2
04' !•
3*
4*
•I O *2 3*
4*
3* O
2*
4*
3'
2*
o -1
4*
V
o
10|02'
III
12
13
14
18
19
20 10 3'
21
23
23
24
25
26 I
27
28
•4
•3 o
•I '2
•4
r
O
•3
•4 '2
o
O '2
I*
•3
3*
3* Oi* •42-
3*
2*
o
•4
15
•3
•2 r 0
•4
16
•3 0 'I '2
•4
n\
I- 02- -3
4-
2'
o
r
4*
•I
0*2
3*
o I-
3'
•3 4'
2- 4:^0
•2 I'O
4*
•3
4'
r
0_*i ^2
O ~2- -3
2*
•4
•I
o
o
o I-
2*
2' 'I O
29
Oi-
•3
•2
•4
0
30
•3
0 ■! '2 '4
31
I*
0 l
•4
lEph 13]
646
d
1
2
8
6
8
9
10
11
SATELLITES OF JUPITER, 1913.
WASHINGTON MEAN TIME.
h
2
5
o
I
2
12
i6
20
23
15
17
i8
i8
i8
20
20
21
7
8
lO
II
15
i8
12
13
15
I
5
9
12
19
21
2
5
5
6
7
9
9
II
20
22
23
O
4
7
I
2
3
4
19
22
I
l8
'9
20
21
22
22
22
I
9
_JI
NOTB
m s
24
i8 35
32
12
50
30
24
33 38
51
47 14
12
58
o
27
40
16
59
20
25
50
15
40
17
15 58
25
9
43
27
34
52 35
44
44 38
4
57
16
7
25
51
38
9
56
27 55
34
8
24
58
10
13 21
18
7
36
25
43
10 51
37
42 I
38
45
35
54
o
3
54
21
44
26
II
II
II
II
I
I
I
I
IV
IV
IV
III
IV
II
I
I
I
I
II
II
II
II
I
I
. Oc.
Dis.
. Ec.
Re.
. Tr.
In.
. Sh.
In.
. Tr.
Eg.
. Sh.
E^.
.* Oc.
Dis.
. Ec.
Re.
. Oc.
Dis.
. Ec.
Re.
. Tr.
In.
. Tr.
In.
. Sh.
In.
. Tr.
Eg.
. Sh.
In.
. Tr.
Eg.
. Sh.
Eg.
. Sh.
Eg.
. Tr.
In.
.♦ Sh.
In.
.♦ Tr.
Eg.
.♦ Sh.
E?.
. Oc.
Dis.
. Ec.
Re.
.* Tr.
In.
.♦ Sh.
In.
. Tr.
Eg.
. Sh.
Eg.
. Oc.
Dis.
. Ec.
Re.
.* Oc.
Dis.
.* Ec.
Re.
. Tr.
In.
. Tr.
Eg.
. Sh.
In.
. Oc.
Dis.
. vSh.
Eg.
. Tr.
In.
.♦ Sh.
In.
.* Tr.
Eg.
.♦ Sh.
Eg.
.* Ec.
Re.
. Tr.
In.
. Sh.
In.
. Tr.
Eg.
. Sh.
Eg.
. Oc.
Dis.
. Ec.
Re.
. Tr.
In.
. Sh.
In.
. Tr.
Eg.
. Sh.
E?.
. Oc.
Dis.
. Ec.
Re.
. Oc.
Dis.
. Ec.
Re.
. Tr.
In.
. Tr.
In.
. Sh.
In.
. Tr.
Eg.
. Sh.
In.
. Tr.
Eg.
. Sh.
Eg.
. Sh.
Eg.
.* Tr.
In.
* Sh.
In.
d
11
12
18
14
16
16
17
18
19
80
21
AUGUST.
h
12
14
17
20
14
15
16
17
3
8
II
14
8
8
9
10
II
II
12
15
22
o
I
3
3
5
6
9
II
14
3
4
5
6
17
21
o
3
21
22
22
23
o
I
2
5
2
4
4
6
8
22
6
6
8
9
6
I
3
6
o
I
2
2
3
5
57
27
48
14
m 8
34
16
4
10 46
12
4
30
22
54
29
30
39
35
39
33
57
51
51
16
28
54
43
44
II
34
57
6
8 10
37 45
47 19
6
2
24
20
5
48
24
36
33
9
31
51
49
25
I
22
5
I
55
52
51
5
o
59
18
18
17
7
18
34
27
28
7
45
46
23
18
52
37
33
20
II
Tr.
Sh.
Oc.
Ec.
Tr.
Sh.
Tr.
Sh.
Oc.
Ec.
Oc.
Ec.
Oc.
Tr.
Sh.
Tr.
Sh.
Oc.
Ec.
Ec.
Tr.
Sh.
Tr.
Oc.
Sh.
Oc.
Oc.
Ec.
IV.* Ec.
II
II
II
I
I
I
IV.
I
IV.
IV.
II
II
II
II
I
I
I
I
II
II
I
I
*
»
■
*
Ec.
Tr.
Sh.
Tr.
Sh.
Oc.
Ec.
Oc.
Ec.
Tr.
Tr.
Sh.
Tr.
Sh.
Tr.
Sh.
Sh.
Tr.
Sh.
Tr.
Sh.
Oc.
Ec.
Tr.
Sh.
Tr.
Sh.
Oc.
Ec.
Oc.
Ec.
Tr.
Sh.
Oc.
Tr.
Sh.
Oc.
Dis.
Re.
In.
In.
?«•
E?.
Dis.
Re.
Dis.
Re.
Dis.
In.
In.
if:
Re.
Dis.
Re.
In.
In.
E?.
Dis.
Eg.
Dis.
Re.
Re.
Dis.
Re.
In.
In.
Eg.
Dis.
Re.
Dis.
Re.
In.
In.
In.
Eg.
Eg.
In.
Eg.
In.
In.
Eg.
Dis.
Re.
In.
In.
Eg.
Eg.
Dis.
Re.
Dis.
Re.
In.
In.
Dis.
Eg.
Eg.
Re.
d h m
21 16 16
19 28
22
28
24
26
26
27
28
29
80
81
I
3
4
6
7
II
4
5
7
16
18
6
9
45
3
54
57
12
8
25
44
8 15
10 28
13 24
19 29
20 20
23 38
o 25
2
5
23 22
o 26
13
31
58
46
I
I
2
5
6
9
40
44
44
o
I
23
14 28
16 36
17 18
19 27
20 40
o o
17 49
18 55
20 7
21 13
8 42
13 45
15 7
18 29
12 17
13 23
14 35
15 42
15 44
19 o
20 16
23 29
3 41
5 54
6 31
8 45
9 35
12 58
6 44
32
20
16
42
53
7
9
52
2
10 II
21 55
3
4
7
19
22
3
2
26
3
49
43
II
II
I
I
I
I
IV
IV
I
IV
IV
I
II
II
II
II
I
I
I
I
II
II
II
II
I
I
I
I
IV
IV
Ec. Dis.
Ec. Re.
Tr. In.
Sh. In.
Tr. Eg.
Sh. Eg.
Oc. Dis-
Ec. Re.
Tr. In.
Sh. In.
Tr. Eg.
Sh. Eg.
Tr. In.
Tr. Eg.
Oc. Dis.
Sh. In.
Sh. Eg.
Ec. Re.
Oc. Dis.
Ec. Re.
Tr. In.
Sh. In.
Tr. Eg.
Tr. In.
Sh. Eg.
Tr. Eg.
Sh. In.
Sh. Eg.
Tr. In.
Sh. In.
Tr. Eg.
Sh. Eg.
Oc. Dis.
Ec. Re.
Tr. In.
Sh. In.
Tr. Eg.
Sh. Eg.
Oc. Dis.
Ec. Re.
Oc. Dis.
Ec. Re.
Tr. In.
Sh, In.
Tr. Eg.
Sh. Eg.
Oc. Dis.
Oc. Re.
Ec. Dis.
Ec. Re.
Tr. In.
Sh. In.
Tr. Eg.
Sh. Eg.
Oc. D&.
Ec. Re.
Tr. In.
Sh. In.
Tr. Eg.
Sh. Eg.
Oc. Dis,
Ec. Re.
Oc. Dis.
Ec. Re.
Oc. Dis.
Oc. Re.
— In. denotes
Oc. denotes
ingress: Eg., egress: Dis., disappearance: Re., reappearance; Kc.
occultation; Tr.. transit of the satellite; Sh., transit of the shadow;
lEnh 13I
, eclipse.
* Visible at Wasbtngtoo.
SATELLITES OF JUPITER, 1913.
WASHINGTON MEAN TIME.
647
AUGUST.
Phases of the Eclipse 9 of the Satellites for an Inverting Telescope.
I.
II.
*
r
III.
*
r
r
IV.
d r
Configurations at /o" o"* for an Inverting Telescope.
West.
East.
lO
Il|02'
2'
o
•I
•3
•4
4*
•4
3* 'I
o
3'*i '2
2
I- -2 0
3'
•4
3
0 3* I-
•2
4*
4 02-
3" -I 0
4*
5
3"
•2 0 I'
4*
6
•3 0 4."*
'!•
7
4' i*0 2-
•3
•3#
8
4'
2- 0 •!
9
4*
r -2 0
3'
12
13
I4IOI
15
16^
17
18
19
•4
3'
•2
o I-
•4
•3
•4
•lO *2
2- lZo_!-iIJL_
'ji _ o _ ^__:
5 V '2
*:' 0 2-
•3
•4 3*
•4
•4
3*
2*
o 1-
4*
20
21
•3
22 ;
23
•2 1- O
4-
4*
2*
4'
3*
24
25
26
4*
o -I I
4*
4"
27
4'
3* 2-
•3
r 3- Q 2^
•I o
28
•4
•3 O I*
2*
lEph 13]
•3'
•2
•I
•2
29 1
•4
2- 0
•3
'!•
30 1
•4
'2 I' 0
•3
31 1
•4 0
•I -2 3*
SATELLITES OF JUPITER, 1913.
WASHINGTON MEAN TIME.
BER.
sssiS-i?n;;i.S!'o!«sssr4r»ssEsjaiS>-^s,«,-
SATELLITES OF JUPITEK, 1913.
649
WASHINGTON MEAN TIME.
SEPTEMBER.
Phases of the Eclipses of the Satellites for an Inverting Telescope,
I.
r
III.
d
*
r
II.
r
IV.
d r
3o|
Configurations at g^ o" for an
- Inverting Telescope.
1
West.
BfMt.
I
I- 3-0
•4
3
3- 2- O
•I
•4
_3.
•3
•I -2 O
•4
4
•3 O
,. -2
•4
5
•I2-0
•3
4"
6 0»-
•2 O
•3
4*
7l -
o
•2
3* 4
•
*!•
8
1- o
8-
*•
9l
3- 2- 4- O
•I
lol
"3
4* r '2 O
"1
4*
•3 O
X- -2
talOa"
4*
•1 o
•3
'3|
4*
•2 Qi-
•3
14 1
•
4
o
•2
3*
1%
«5l
•4
I- O 3
2-
16 1
•4 3* 2- O
•I
%
•7l
3*
.? ♦o
181
•3 0
•I 02'
"4
19 1
•3#
2o|
2- O
I*
•3
•4
21
•lO
3"
•4
'2%
22|Ox-
o
3* 2-
4*
23 1
3- 2- O
•I
4"
24 1
3'
•21- O
4-
25
•3 O
4* -1-2
26 1
i o
2-
•3#
27 1
4- r O
I'
•3
28
4'
•1 O
y
'2%
29 Oi'
4-
O
3* 2-
•4
r 2- o
[Bph 13^
650 SATELLITES OF JUPITER, 19IS.
MEAN TIME.
KfTa.^In. tltaot
SATELLITES OF JUPITER, 1913.
WASHINGTON MEAN TIME.
651
OCTOBER.
Phases of the Eclipses of the Satellites for an Inverting Telescope,
I.
r
III.
d
r
II.
r
IV.
s
r
Configurations at 7** s^ f^ ^^ Inverting Telescope,
a
Q
I
2
West.
East.
•4
'2
I- O
•4 '3
o
•1
A'
5
'4 '• '3 O
2- q
•I '2 O
2'
r
•3
•4
•4'
•3
o I-
•4
7l02-
3"iO
•4
8
3*
i-O
•4
9l
•3
10 1
1
1-
II
2*
12
•1
O *I*2
4*
o
o
2'
4'
•I -3 4-
O 4-
•3
13
4*
o I-
•2 3'
i4lQ3'
i5lOi-
4*
•I 02-
4*
I * * '
o
16
4*
•3
o
*I#*2
18
•4
•4
19
•4
•3 jj o
6
2*
2*
•3
20
21
22
23
24
•4
O I* '2 3'
•I Os^*
Oi-
•4
•3
o
•4
'l9*2
•3
I- o
2*
•4
25
2- O •!
4*
*3
26
•21*
o
•3
4*
27 I
o
r '2
3*
4'
28
29
04- I""
4*
30
3i|Oi-
3*
4*
4*
•3
O
lEph 13]
2'
652 SATELLITES OF JUPITER, 1913.
WASHINGTON MEAN TIME.
SATELLITES OF JUPITER, 1913
653
WASHINGTON MEAN TIME.
NOVEMBER.
Phases of the Eclipses of the Satellites for an Inverting Telescope,
1.
r
III.
r
11.
r
IV.
♦
d
Configurations at 6^ jo" for an Inverting Telescope.
r
I
4-
2*0 "I
•3«
2
4*
•2 I- O
•3
3l
•4
o ?,
3"
4
•4
•I O 3^
5
•4
2-3- O I'
6
3*
•4l O
7l
•3
Or
•2
•4#
8I02-
•30
•4
•f
9
•2 I- O
•3
"4
lO
O •2-1
3*
•4
"1
I' o
I-
4'
12 1
2- 3* O I*
4'
13 1
3'
•^. o
4'
14 1
•3
O I'
15 04-
•3*i02"
i6
i-O
•3
17
o -I
•3
22
27
28
30
18
4*
I*
0
2- 3*
19
4'
2*
3-0
•I
20
•4
3-
•2'I
0
21
*4
•3
0
I* -2
•4
•3 'I O 2-
23:01-
2'
•4 0
•3
24 1
o-i
•4
•3
•2#
25
I- 0
2- 3*
•4
26
2- 03*
•I
•4
3* "21
o
•3
o
4'
2'
2*
O
Oi- "3
[Eph 13]
654
SATELLITES OF JUPITER, 1913.
WASHINGTON MEAN TIME.
DECEMBER.
d h m 8
r—
d h m s
d h m a
1 5 i6
I*
Oc.
Dis.
7 10 6
I.
Tr.
In.
13 22 20
II.
Tr.
Eg.
8 21 45
I.
Ec.
Re.
10 50
I.
Sh.
In.
23 36
II.
Sh
Eg.
8 50
II.
Oc.
Dis.
12 25
I.
Tr.
Eg.
1* 5 44
III.*
Oc.
Dfi.
13 21 0
II.
Ec.
Re.
13 9
I.
Sh.
Eg.
II 42 44
III.
Ec.
Re.
8 I 18
IV.
Tr.
In.
8 7 17
I.
Oc.
Dis.
12 8
I.
Tr.
In.
2 35
I.
Tr.
In.
10 16 34
I.
Ec.
Re.
12 45
i.
Sh.
In.
3 23
I.
Sh.
In.
II 40
II.
Oc.
Dis.
14 27
I.
Tr.
Eg.
4 54
I.
Tr.
Eg.
15 58 45
II.
Ec.
Re.
15 5
I.
Sh.
Eg.
5 3
IV.
Tr.
Eg.
» 4 36
I.
Tr.
In.
16 9 18
I.
Oc.
Dis.
5 43
I.*
Sh.
Eg.
5 19
I.*
Sh.
In.
12 II 21
I.
Ec.
Re.
8 56
IV.
Sh.
In.
6 55
1.
Tr.
Eg.
14 32
II.
Oc.
Dis.
13 I
IV.
Sh.
E?.
7 38
I.
Sh.
E?.
18 36 19
II.
Ec.
Re.
23 46
I.
Oc.
Dis.
10 I 47
I.
Oc.
Dis.
16 6 38
I.
Tr.
In.
8 2 50 27
I.
Ec.
Re.
4 45 15
I.
Ec.
Re.
7 14
I.
Sh.
In.
3 15
II.
Tr.
In.
6 3
II.*
Tr.
In.
8 57
I.
Tr.
Eg.
4 49
II.
Sh.
In.
7 25
II.
Sh.
In.
9 33
I.
Sh.
Ef.
6 7
II.*
Tr.
Eg.
8 56
II.
Tr.
Eg.
17 3 48
I.
Oc.
Dk
7 42
II.
Sh.
Eg.
10 18
II.
Sh.
E?-
6 40 I
I.
Ec.
Re.
10 58
III.
Tr.
In.
II 44
IV.
Oc.
Dis.
8 52
II.
Tr.
In.
14 8
III.
Sh.
In.
15 24
III.
Tr.
In.
10 0
II.
Sh.
In.
14 26
III.
Tr.
Eg.
15 34
IV.
Oc.
Re.
II 44
II.
Tr.
Eg.
17 41
III.
Sh.
Eg.
18 2 II
IV.
Ec.
Dis.
12 53
II.
Sh.
Eg.
21 5
I.
Tr.
In.
18 8
III.
Sh.
In.
19 52
III.
Tr.
In.
21 52
I.
Sh.
In.
18 53
III.
Tr.
Eg.
22 8
III.
Sh.
In.
23 24
I.
Tr.
Eg.
21 42
III.
Sh.
Eg.
23 22
III.
Tr.
Eg.
4 0 12
I.
Sh.
Eg.
Dis.
22 2 51
IV.
Ec.
Re.
18 I 9
I.
Tr.
In.
18 16
I.
Oc.
23 7
I.
Tr.
In.
1 42
III.
Sh.
Eg.
21 19 12
I.
Ec.
Re.
23 47
1.
Sh.
In.
I 43
I.
Sh.
Id.
22 16
II.
Oc.
Dis.
11 I 26
I.
Tr.
Eg.
3 28
I.
Tr.
Eg.
6 2 40 22
II.
Ec.
Re.
2 7
I.
Sh.
Eg.
4 2
I.
Sh.
Eg.
15 36
I.
Tr.
In.
20 17
I.
Oc.
Dis.
21 52
IV.
Tr.
In.
16 21
I.
Sh.
In.
23 13 59
I.
Ec.
Re.
22 19
I.
Oc.
Dis.
17 54
I.
Tr.
Eg.
12 I 6
II.
Oc.
Dis.
19 I 8 44
I.
Ec.
Re.
18 40
I.
Sh.
E?-
Dis.
5 18 0
II.*
Ec.
Re.
I 48
IV.
Tr.
Eg.
6 12 46
I.
Oc.
17 37
I.
Tr.
In.
3 3
IV.
Sh.
In.
15 47 52
I.
Ec.
Re.
18 16
I.
Sh.
In.
3 58
II.
Oc.
Dis.
16 39
II.
Tr.
In.
19 56
I.
Tr.
Eg.
7 15
IV.
Sh.
Eg.
18 7
II.
Sh.
In.
20 36
I.
Sh.
Eg.
7 55 26
II.
Ec.
Re.
19 31
II.
Tr.
Eg.
13 14 48
I.
Oc.
Dis.
19 40
I.
Tr.
In.
21 0
II.
Sh.
Eg.
17 42 39
I.
Ec.
Re.
20 12
I.
Sh.
In.
7 I 17
III.
Oc.
Dis.
19 27
II.
Tr.
In.
21 59
I.
Tr.
Eg.
7 42 2
III.
Ec.
Re.
20 42
II.
vSh.
In.
22 31
I.
Sh.
Eg.
By reason of the proximity of Jupiter to the Sun the phenomena
of the satellites are not given after December 19.
JVbrH.— In. denotes ingress: Eg., egress. Bis., A^«aP^?it^^«^v^V'^^?5f^Ji'^^^'^?5^^
Oc. denotes occuJtation; Tr.. transit oflViesaleWWc; SVv.,\ititisx\.o\xX«^\»Acp«v*N>«&cftft%x^
\EpVx ia\
SATELLITES OF JUPITER, 1913.
655
WASHINGTON MEAN TIME.
DECEMBER.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
I.
*
r
III.
*
r
II.
Q
Oa-
_8|
9'0''
lol
II
12 i
13 I
yd
ill
i6l_
ul
i8|
19 I
r
IV.
West.
Bast.
•2 O
4'
•3
VO
•2 3*
4'
O
4*
J. I
4*
3*
P
O '2 -I
4'
•3
•I
2*
"4
2'
o I-
•4
•4
3*
•3
•21 O
O
'4 O' •' 3'
•2 X r O '4
O -2 -I
•I O 2^
2- O I'
•3
•2 3-
•4
d
•4
•2 -I O
•3
'4
4*
2"
O 2-
O
•2
3*
3*
4*
4*
4"
3*
4- O
•I
r
Configurations at 3^ 43^ for an Inverting Telescope.
•I
•3*
•3
•I
•2
lEph 1^
656 MAGNITUDE AND RINGS OF SATITRN, 1913.
ELEMENTS FOR DETERMINING THE GEOCENTRIC POSITION, APPEARANCE.
AND MAGNITUDE OF SATURN'S RINGS.
a
b
P
/
/'
u
u'
Incliiiatioii
The Bleva-
The Eleva-
Earth's Longitude from
SteDar
of Northern
tion of the
tion of the
Saturn counted on Plane
Mag.
IVashinsrton
Outer
Outer
Semi -minor
Earth above
Sun above
of Rings from the Rings'
OTB^^^fl
Mean Mrtrtn
Major
Minor
Axis to
the Plane of
the Plane of
Ascending Node on —
«VA ^rflb&A A T
Axis.
Axis.
Circle of
T) Pollination
the Rings.
the Rings.
from North
to East.
Equator.
Ecliptic.
//
//
0 /
0 f
0 /
0 /
0 /
Jan.
o
4510
-18.42
-2 28.3
-24 6.8
-24 57.7
"o 5.5
67 34.2
0.0
lO
44.45
18.13
2 25.0
24 4.8
25 1-5
109 38.0
67 6.8
40.I
20
4372
17.84
2 23.0
24 4.7
25 5-2
109 21.7
66 50.5
0.2
30
42.95
17.55
2 22.6
24 6.8
25 8.8
109 17.3
66 46.2
0.2
Feb.
9
42.17
17.27
2 23.5
24 II. I
25 12.5
109 25.2
66 54.1
0.3
19
41.39
-17.03
-2 26.0
-24 17.3
-25 16.0
109 45.0
67 14.0
-K).3
Mar.
I
40.65
16.81
2 29.8
24 25.2
25 19.5
no 16.4
67 45-5
0.3
II
3996
16.62
2 34.9
24 34.6
25 22.9
no 58.3
68 27.5
0.4
21
39-34
16.47
2 41.2
24 45.0
25 26.2
III 49.9
69 19.1
0.4
31
38.79
16.35
2 48.4
24 56.1
25 29.4
112 49.9
70 19.2
04
Apr.
10
38.32
-16.27
-2 56.4
-25 7.6
-25 32.6
"3 57.3
71 26.6
404
20
37.93
16.22
3 5.2
25 19.0
25 35-8
115 10.8
72 40.2
0.3
30
37.63
16.20
3 H-4
25 30.1
25 38.8
116 29.3
73 58.7
0.3
May
10
37.42
16.21
3 24.0
25 40.6
25 41.9
"7 51.4
75 20.9
0.3
20
37.30
16.25
3 33.8
25 50.2
25 44.8
119 16.1
76 45-6
0.3
30
37.27
-16.32
-3 43.6
-25 58.9
-25 47.7
120 42.0
78 1 1.6
4a2
June
9
37.32
16.42
3 53.2
26 6.4
25 50.4
122 8.0
79 37.6
0.3
19
3746
16.55
4 2.6
26 12.7
25 53-2
123 33.0
81 2.6
0.3
29
37.69
16.70
4 II-7
26 17.8
25 55.8
124 55.6
82 25.2
0.3
July
9
38.00
16.88
4 20.2
26 21.7
25 58.4
126 14.7
83 44.4
0.3
19
38.40
-17.08
-4 28.0
-26 24.5
-26 1 .0
127 29.1
84 58.9
40.3
29
38.88
17-31
4 35-2
26 26.2
26 3.5
128 37.6
86 7.5
0.3
Aug.
8
39-44
17.56
4 41-4
26 27.1
26 5-9
129 39.1
87 9.0
0.3
18
40.07
17.84
4 46.8
26 27.2
26 8.2
130 32.2
88 2.2
0.3
28
40.75
18.15
4 51-1
26 26.7
26 10.5
131 16.0
88 46.0
0.3
Sept.
7
41.49
-18.47
-4 54.4
-26 25.9
-26 12.6
131 49.3
89 19.3
40.2
17
42.26
18.80
4 56.5
26 24.9
26 14.7
132 1 1.3
89 41.4
0.2
27
43.05
19.14
4 57.5
26 23.8
26 16.8
132 21.3
89 5x5
0.2
Oct.
7
43.82
19-47
4 57-2
26 22.8
26 18.9
132 19-1
89 49.3
-fCI
17
44.56
19-79
4 55.7
26 21.8
26 20.7
132 4-6
89 34.8
QJO
27
45.23
-20.07
-4 53.1
-26 21.0
-26 22.4
131 38.5
89 8.8
0.0
Nov.
6
45.79
20.31
4 49-5
26 20.2
26 24.2
131 2.0
88 32.3
-0.1
16
46.23
20.50
4 45.0
26 19.4
26 25.9
130 16.9
87 47.3
0.2
26
46.50
20.61
4 39.8
26 18.6
26 27.5
129 25.6
86 56.1
0.2
Dec.
6
46.61
20.65
4 34.2
26 17.9
26 29.1
128 31.0
86 1.5
0.2
16
46.53
-20.60
-4 28.5
-26 17.2
-26 30.6
127 36.2
85 6.8
-0.2
26
46.27
20.48
4 23.0
26 16.5
26 32.0
126 44.2
84 14.8
0.2
31
46.07
-20.39
-4 20.5
-26 16.3
-26 32.6
126 20.3
83 50.9
-0.2
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 negative sign of I indicates that the visible surface of the rings is the aoutbeni
lEph 13]
SATELLITES OF SATURN, 1913.
657
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658
SATELLITES OF SATURN, 1913.
WASHINGTON MEAN TIME OF GREATEST ELONGATION, ETC.
In the diagram on the preceding page, the points of the orbits marked **o" 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 elon-
gation. 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 substracting 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 cU Washington.
d h
d h
d h
d h
d h
d h
Jan. 2 14.6 E.
Jan. 30 9.8 W.
Oct. 212.0W.
Nov. I 15.6 W.
Nov. 24 6.3 W.
Deci2 15.2 E.
3 I3-2E.
31 MW.
3 10.6 W.
2 14.2 W.
24 175 E.
13 138 E.
4 II. 8 E.
Feb. I 7.0 W.
7 16.2 E.
3 12.8 W.
25 16.1 E.
14 12.4 E.
5 10.4 E.
5 12.9 E.
8 14.8 E.
41X.5W.
26 14.7 E.
15 ii.oE.
6 9.0 E.
• 6 1 1.5 E.
9 13.4 E.
5 10. 1 W.
27 13-4 E.
16 9.6 E.
7 7-7 E.
7 lo.i E.
10 12. 1 E.
6 8.7 W.
28 12.0 E.
17 8.2 E.
8 6.3 E.
8 8.7 E.
II 10.7 E.
8 17.1 E.
29 10.6 E.
18 6.8 E.
10 14.8 W.
9 7.4 E.
12 9.3 E.
9 15.7 E.
30 9.2 E.
19 54E.
II 13.4 W.
14 II. 7 W.
15 16.6 W.
10 14.3 E.
Dec. I 7.8 E.
19 16.8 W.
12 12.0 W.
15 10.3 w.
16 15.2 W.
II 12.9 E.
2 6.4 E.
20 15.4 W.
13 10.7 W.
16 8.9 w.
17 13.8 W.
12 11.6E.
2 17.8 W.
21 14.0 W.
14 9 3^-
17 7.6 w.
18 12.4 W.
13 10.2 E.
3 16.4 W.
22 12.6 W.
15 7.9 w.
• • • •
19 ii.o W.
14 8.8 E.
4 15.0 W.
23 11.3W.
16 6.5 W.
Sept.2o 17.2 E.
20 9.7 W.
15 7.4 E.
5 136 W.
24 9.9 W.
19 13.7 E.
21 15.8 E.
23 16.7 E.
16 17.4 W.
6 12.3 W.
25 8.5 W.
20 12.3 E.
22 14.4 E.
24 15.3 E.
17 16.0 W.
7 10.9 W.
26 7.1 W.
21 ii.oE.
23 13.0 E.
25 139 E.
i8 14.6 W.
8 95W.
27 5.7 W.
22 9.6 E.
24 11.6E.
26 12.5 E.
19 133 w.
9 8.1 W.
27 17.0E.
23 8.2 E.
25 10.2 E.
27 II. I E.
20 1 1.9 W.
10 6.7 W.
28 15.6 E.
24 6.8 E.
29 16. 1 W.
28 9.7 E.
21 10.5 W.
10 17.9 E.
29 14.2 £.
2812.5 W.
30 14.7 W.
29 8.4 E.
22 9.1 W.
II 5.3 w.
30 I2.8E.
29 II. 2 W.
Oct. I 13.3 W.
31 17.0 W.
23 7.7 W.
II 16.5 E.
31 11.4E.
ENCELADUS.
d h
d h
d h
d h
d h
d h
Jan. 2 5.2 E.
Jan. 15 22.0 E.
Jan. 29 14.9 E.
Feb. 12 7.8 E.
Feb. 26 0.8 E.
Mar. 1 1 17.7 E.
3 14- 1 E.
17 6.9 E.
30 23.8 E.
13 16.7 E.
27 9-7 E.
....
4230E.
18 15.8 E.
Feb. I 8.7 E.
15 1.6 E.
28 18.6 E.
Aug. 20 12.0 E.
6 7.9 E.
20 0.7 E.
2 17.6 E.
16 10.5 E.
Mar. 2 3.5 E.
2 1 20.9 E.
7 16.8 E.
21 9.6 E.
4 2.5 E.
17 19.4 H.
3 12.4 E.
23 5-8 E.
9 1.6 E.
22 18.5 E.
5 II-4E.
19 4-3 E.
4 21.2 E.
24 14.7 E.
10 10.5 E.
24 3.4 E.
6 20.3 E.
20 13.2 E.
6 6.1 E.
25 23.6 E.
II 19.4 E.
25 12.3 E.
8 5.2 E.
21 22.1 E.
7 150 E.
27 8.5 E.
13 4-3 E.
26 21.2 E.
9 14.1 E.
23 7.0 E.
8 23.9 E.
28 17.4 E.
14 13.2 E.
28 6.1 E.
ID 23.0 E.
24 15.9 E.
10 8.8 E.
30 2.2 E.
VEp\i ia\
SATELLITES OF SATURN, 1913.
659
WASHINGTON MEAN TIME OF GREATEST ELONGATION.
UNCELABVS— (Concluded).
d b
Aug 31 ii.i E.
Sept. I 20.0 E.
3 4.9 E.
4 13.8 E.
5 22.7 E.
7 7-6 E.
8 16.5 E.
10 1.4 E.
11 10.3 E.
12 19.1 E.
14 4.0 E.
15 12.9 E.
1621.8 E.
18 6.7 E.
19 15.5 E.
d b
Scpt.2i 0.4 E.
22 9.3 E.
23 18.2 E.
25 31 H.
26 12.0 E.
27 20.9 E.
29 5.8 E.
30 14.7 E.
I 23.6 E.
3 8-4 E.
Oct.
4>7-3E.
6 2.2 E.
7 II.I E.
8 20.0 E.
10 4.8 E.
d b
Oct. II 13.7 E.
12 22.6 E.
14 7-5 E.
15 16.4 E.
17 1.2 E.
18 lo.oE
19 18.9 E.
21 3.8 E.
22 12.7 E.
23 21.5 E.
25 6.4 E.
26 I5-3E.
28 0.2 E.
29 9.1 E.
30 17.9 E.
Nov.
d b
1 2.8 E.
2 II. 7 E.
3 20.6 E.
5 5-5 E.
6 143 E.
7 23.2 E.
9 8.1 E.
10 17.0 E.
12 1.9 E.
13 10.7 E.
14 19.5 E.
16 4.4 E.
17 13.3 E.
18 22.1 E.
20 7.0 E.
d b
Nov. 21 15.9 E.
23 0.8 E.
24 9.7 E.
25 18.6 E.
27 3.4 E.
28 12.3 E.
29 21.2 E.
Dec. I 6.1 E.
I 2 15.0 E.
3 23.8 E.
5 8.6 E.
6 17.5 E.
8 2.4 E.
9 11.3 E.
10 20.1 E.
d b
Dec. 12 5.0 E.
13 13.9 E.
14 22.8 E.
16 7.7 E.
17 16.5 E.
19 1.4 E.
20 10.3 E.
21 19.2 E.
23 4.1 E.
24 12.9 E.
25 21.8 E.
27 6.6 E.
28 15.5 E.
30 0.4 E.
31 9.3 E.
TETHYS.
^ '
<■
d b
d b
d b
d b
d b
d b
Jan. 2 8.2 E.
Feb. 7 5.0 E.
Mar. 15 2.2 E.
Sept. 16 4.9 E.
Oct. 22 1.6 E.
Nov. 2622.1 E.
4 5-5 E.
9 2.3 E.
16 23.5 E.
18 2.2 E.
23 22.9 E.
28 19.4 E.
6 2.8 E.
10 23.6 E.
• • • •
19 23.5 E.
25 20.2 E.
30 16.7 E.
8 0.1 E.
12 20.9 E.
Aug. 16 23.8 E.
21 20.8 E.
27 17.5 E.
Dec. 2 14.0 E.
9 21.4 E.
14 18.3 E.
18 21.2 E.
23 18.1 E.
29 14.8 E.
4 11.2E.
II 18.7 E.
16 15.6 E.
20 18.5 E.
25 154 E.
31 12.1 E.
6 8.5 E.
13 16.0 E.
18 12.9 E.
22 15.8 E.
27 12.7 E.
Nov. 2 9.4 E.
8 5.8 E.
15 13.3 E.
20 10.2 E.
24 13.1 E.
29 lo.o E.
4 6.7 E.
10 3.1 E.
17 10.6 E.
22 7.6 E.
26 10.4 E.
Oct. I 7.3 E.
6 4.0 E.
12 0.4 E.
19 7.9 E.
24 4-9 E.
28 7.8 E.
3 4-6 E.
8 1.2 E.
13 21.7 E.
21 5.2 E.
26 2.2 E.
30 51 E.
5 1-9 E.
9 22.5 E.
15 19.0 E.
23 2.5 E.
27 235 E.
Sept. I 2.4 E.
6 23.2 E.
II 19.8 E.
17 16.3 E.
24 23.8 E.
Mar. I 20.9 E.
2 23.7 E.
8 20.5 E.
13 171 E.
19 13.6 E.
26 21. 1 E.
3 18.2 E.
4 21.0 E.
10 17.8 E.
15 144 E.
21 10.8 E.
28 18.4 E.
5 155 E.
6 18.3 E.
12 15.2 E.
17 11.7 E.
23 8.1 E.
30 15.7 E.
7 12.8 E.
8 15.6 E.
14 12.5 E.
19 9.0 E.
25 5.4 E.
Feb. I 13.0 E.
9 10.2 E.
10 13.0 E.
16 9.8 E.
21 6.2 E.
27 2.7 E.
3 IO-4 E.
II 7-5 E.
12 10.3 E.
18 7.0 E.
23 3.5 E.
29 0.0 E.
5 7-7 E.
13 4-8 E.
14 7-6 E.
20 4.3 E.
25 0.8 E.
30 21.3 E.
DIONE.
d b
d b
d b
d b
d b
d b
Jan.
2 18.5 E.
Feb. 7 8.4 E.
Mar. 14 22.7 E.
Sept. 17 5.1 E.
Oct. 22 18.9 E.
Nov. 27 8.3 E.
5 12. 1 E.
10 2.1 E.
17 16.4 E.
19 22.8 E.
25 12.5 E.
30 I-9E.
8 5.8 E.
12 19.8 E.
20 10.2 E.
22 16.5 E.
28 6.2 E.
Dec. 2 19.6 E.
10 23.5 E.
15 13.5 E.
• • • •
25 10.2 E.
30 23.8 E.
5 13.2 E.
13 17.2 E.
18 7.2 E.
Aug. 23 13.8 E.
28 3.8 E.
Nov. 2 17.5 E.
8 6.8 E.
16 10.8 E.
21 0.9 E.
26 7.5 E.
30 21.5 E.
5 II. 2 E.
II 0.5 E.
19 4.5 E.
23 18.6 E.
29 1.2 E.
Oct. 3 15.2 E.
8 4.8 E.
13 18.1 E.
21 22.2 E.
26 12.4 E.
31 18.9 E.
6 8.9 E.
10 22.4 E.
16 II. 8 E.
24 15.9 E.
Mar. I 6.1 E.
Sept. 3 12.6 E.
9 2.6 E.
13 16.1 E.
19 5-4 E.
27 9.6 E.
3 23.8 E.
6 6.3 E.
II 20.2 E.
16 9.7 E.
21 23.1 E.
30 3.3 E.
6 17.5 E.
9 0.0 E.
14 13.9 E.
19 3.4 E.
24 16.7 E.
Feb.
I 21.0E.
9 II. 2 E.
II 17-7E.
17 7.6 E.
21 21.0 E.
27 10.4 E.
4 14.7 E.
12 5.0 E.
14 II.4E.
20 1.2 E.
24 14.7 E.
30 4.0 E.
(Bpb 13]
660
SATELLITES OF SATURN, 1913.
WASHINGTON MEAN TIME OF GREATEST ELONGATION.
RHEA.
TITAN.
HYPERION.
d h
d h
d h
d h
d
d
Jan. 4 19. 1 E.
Sept.24 2.3 E.
Jan. 2 2.3 1.
Oct. 8 22.5 S.
Jan.
5.6 W.
Sept
8.2 E.
9 7-5 E.
28 14.8 E.
5 22.1 W.
13 i.oE.
11.6S.
12.9 L
13 19.9 E.
Oct. 3 3.2 E.
9 19.6 S.
17 1.2 1.
16.7 E.
18.7 W.
18 8.3 E.
7 156 E.
13 22.9 E.
2021.7 w.
21.4 1.
24.6 S.
22 20.7 E.
12 4.0 E.
18 0.4 1.
24 20.6 S.
26.9 W.
29.4 E.
27 9.1 E.
16 16.3 E.
2 1 20.4 W.
28 23.0 E.
Feb.
1.9 S.
Oct
4.1 1.
31 21.6 E.
21 4.7 E.
25 18.0 S.
Nov. I 23.1 1.
7.0 E.
9.9 W.
Feb. 5 1 0.0 E.
25 17.0 E.
29 21.4 E.
5 19.5 W.
1 1.7 I.
15.8 s.
9 22.5 E.
30 5.4 E.
Feb. 2 23.1 1.
9 18.1S.
17.2 W.
20.6 E.
14 10.9 E.
Nov. 3 17.7 E.
6 19.2 W.
13 20.5 E.
23.2 S.
25.2 1.
18 23.4 E.
8 6.0 E.
10 17.0S.
17 20.6 1.
28^ E.
31.0 W.
23 1 1.9 E.
12 18.3 E.
14 20.5 E.
21 16.8 W.
Mar
50 1-
Nov.
6.0 S.
28 0.4 E.
17 6.6 E.
18 22.2 I.
25 15-4 S.
10.6 W.
10.7 E.
Mar. 4 12.9 E.
21 18.9 E.
22 18.5 W.
29 17.7 E.
16.5 S.
153 1-
9 1-5 E.
26 7.2 E.
• • • •
Dec. 3 17.8 I.
21.6 E.
21.1 W.
• • • •
30 19.5 E.
Sept. 1 1 3-5 E.
7 14.1 w.
26.4 1.
27.1 S.
Aug. 27 23.6 E.
Dec. 5 7.8 E.
15 3-9 1.
II 12.5 S.
• • •
Dec
1.8 E.
Sept. I 12.1 E.
9 20. 1 E.
19 0.7 W.
15 14.9 E.
Aug.
131 s.
6.5 I.
6 0.5 E.
14 8.4 E.
22 23.8 S.
19 151 1-
18.0 E.
12.2 W.
10 13.0 E.
18 20.7 E.
27 2.5 E.
23 11.3 W.
22.6 1.
18.2 &
15 1-5 E.
23 9.0 E.
Oct. I 2.81.
27 9.6 S.
28.4 w.
23.0 E.
19 13.9 E.
27 21.4 E.
4 23.5 W.
31 12. 1 E.
Sept.
3.4 s.
27.6 1.
lAPETUS.
Jan.
d
8.9 S.
29.1 E.
Feb.
Mar.
d
18.8 I.
10.4 W.
Aug.
d
20.1 W.
Sept.
d
8.5 s.
29.0 E.
Oct.
Nov.
d
19.5 I.
7.5 w.
d
Nov. 26.3 S.
Dec 16.3 E.
NINTH SATELLITE OF SATURN.
DIFFERENTIAL COORDINATES OF PHOSBE FOR I913.
Waahinffton
Mean Noon.
«Ph.— OflM.
dph.— ^Sat.
Washington
Mean Noon.
«Ph.— Oflat.
dph.— ^Sat.
Washington
Mean Noon.
Oph— Ofci.
ipb.-^
m 8
/ n
m s
/ //
m a
/ tt
Jan.
I
+ 2 19.I
+ 11 46
Apr.
7
+0 15.2
+2 45
Sept. 30
— I 24.6
-4 55
5
2 15.5
II 35
II
0 9.1
2 19
Oct. 4
I 19.3
448
9
2 1 1.7
II 22
15
+0 3.0
I 53
8
I 13.6
441
13
2 7.8
II 8
19
-0 3.1
+ 1 28
12
I 7.5
433
17
2 3-7
10 52
• • •
• • •
16
I I.I
423
21
I 59.3
10 35
July
16
-I 49.8
-438
20
0 54.6
4 13
25
I 54.7
10 16
20
I 52.0
4 45
24
0 47.9
4 2
29
I 500
9 56
24
I 53.9
4 51
28
0 41.0
3 50
Feb.
2
« 45.3
9 35
28
I 55.4
4 56
Nov. I
0 33.8
336
6
I 40.4
9 14
Aug.
I
I 56.6
5 I
5
0 26.5
^'I
10
I 35-4
8 52
5
I 57.4
5 5
9
0 19. 1
3 6
14
I 302
8 28
9
I 57.8
5 8
13
0 1 1.6
2 49
18
I 24.9
8 4
13
I 57.8
5 II
17
-0 4.1
2 31
22
I 195
7 40
17
I 57.5
5 13
21
+0 3.4
2 II
26
I 14.1
7 15
21
I 56.7
5 15
25
0 10.9
I 51
Mar.
2
I 8.5
6 48
25
I 55.4
5 16
^ ^9
0 18.4
I 30
6
I 2.8
6 21
29
I 53-7
5 16
Dec 3
0 25.8
I 8
10
0 57.0
5 54
Sept.
2
I 515
5 16
7
0 331
045
14
0 51.2
5 27
6
I 48.8
5 15
II
0 40.3
—0 22
18
0 45-3
5 0
10
I 45.8
5 13
15
0 47.3
+^ \
22
0 39.3
4 32
14
I 42.4
5 II
19
0 54.2
0 26
26
0 33.3
4 5
18
I 38.6
5 8
23
I 0.8
051
30
0 27.3
3 38
22
I 34.3
5 4
27
I 7.2
I 16
Apr.
3 /
+0 21.2
+ 3 II
26
— I 29.6
-5 0
31
+1 13^
+141
VJi^iV\
SATELLITES OF SATURN, 1913.
661
FRACTIONS OF THE PERIODS OF REVOLUTION.
Fraction of a
Revolutioti.
Mimas.
Bnceladus.
Tethys.
Dione.
Rhea.
Titan.
Practionofa
Revolution.
h
d h
d h
d h
d h
d h
O.OO
0.0
0 0.0
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 1.3
0 2.2
0 7.7
0.02
0.04
0.9
0 1.3
0 1.8
0 2.6
0 4.3
0 15.3
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
1.8
0 2.6
0 3.6
0 5.3
0 8.7
I 6.6
0.08
O.IO
2.3
0 3.3
0 4.5
0 6.6
0 10.8
I 14.3
O.IO
0.12
2.7
0 4.0
0 5-4
0 7.9
0 13.0
I 21.9
0.12
0.14
3-2
0 4.6
0 6.3
0 9.2
0 15.2
2 5-6
0.14
0.16
3.6
0 5.3
0 7.2
0 10.5
0 17-3
2 13.2
0.16
0.18
41
0 5.9
0 8.2
0 11.8
0 19.5
2 20.9
0.18
0.20
4.5
0 6.6
0 9.1
0 13.1
0 21.7
3 4.5
0.20
0.22
5.0
0 7.2
0 lO.O
0 14.5
0 23.9
3 12.2
0.22
0.24
5-4
0 7.9
0 10.9
0 15.8
I 2.0
3 19-8
0.24
0.26
5-9
0 8.6
0 11.8
0 17. 1
I 4.2
4 3-5
0.26
0.28
6.3
0 9.2
0 12.7
0 18.4
I 6.4
4 II. 2
028
0.30
6.8
0 9.9
0 13.6
0 19.7
I 8.5
4 18.8
0.30
0.32
7-2
0 10.5
0 145
0 21.0
I 10.7
5 2.5
0.32
0.34
7-7
0 11.2
0 15.4
0 22.3
I 12.9
5 10. 1
0.34
0.36
8.x
0 II. 8
0 16.3
0 23.6
I 150
5 17.8
0.36
0.38
8.6
0 12.5
0 17.2
I 1.0
I 17.2
6 1.4
0.38
0.40
9.1
0 13.2
0 18.1
I 2.3
I 19.4
6 9.1
0.40
0^2
9.5
0 13.8
0 19.0
I 3.6
I 21.5
6 16.7
0.42
0.44
1 0.0
0 14.5
0 19.9
I 4.9
X 23.7
7 0^
0.44
0.46
10.4
0 15. 1
0 20.8
I 6.2
2 1.9
7 8.0
0.46
0.48
10.9
0 15.8
0 21.7
I 7.5
2 4.0
7 *5-7
0.48
0.50
11.3
0 16.4
0 22.7
I 8.8
2 6.2
7 23.3
0.50
0.52
11.8
0 17.1
0 23.6
I 10.2
2 8^
8 7.0
0.52
0.54
12.2
0 17.8
I 0.5
X XI.5
2 10.5
8 14.7
0.54
0.56
12.7
0 18.4
I 1.4
I 12.8
2 12.7
8 22.3
0.56
0.58
13.1
0 19.1
I 2.3
I 14. 1
2 14.9
9 6.0
0.58
0.60
13-6
0 19.7
I 3.2
I 15.4
2 17. 1
9 13.6
0.60
0.62
14.0
0 20.4
I 4.1
I 16.7
2 19.2
9 21.3
0.62
0.64
14.5
0 21.0
I 50
I 18.0
2 21.4
10 4.9
0.64
0.66
14.9
0 21.7
X 5-9
I 19.4
2 23.6
10 12.6
0.66
0.68
15.4
0 22.4
I 6.8
I 20.7
3 x-7
10 20.2
0.68
0.70
15.8
0 23.0
I 7.7
I 22.0
3 3-9
" 3.9
0.70
0.72
16.3
0 23.7
I 8.6
I 23.3
3 6.1
II 11.5
0.72
0.74
16.7
I 0.3
I 9-5
2 0.6
3 8.2
II 19.2
0.74
0.76
17.2
I I.O
I 10.4
2 1.9
3 10.4
12 2.8
0.76
0.78
17.6
I 1.7
I 11.3
2 3.2
3 12.6
12 10.5
0.78
0.80
18.1
I 2.3
I 12.2
2 4.5
3 14.7
12 18.1
0.80
0.82
18.5
I 30
I 13.2
2 5.9
3 16.9
13 1.8
0.82
0.84
19.0
I 3.6
I 14.1
2 7.2
3 19.1
13 9-5
0.84
0.86
19.5
I 4-3
I 15.0
2 8.5
3 21.2
13 17.X
0.86
0.88
19.9
I 4.9
I 159
2 9.8
3 23.4
14 0.8
0.88
0.90
20.4
I 5.6
I 16.8
2 II. I
4 1.6
14 8.4
0.90
0.92
20.8
I 6.3
I 17.7
2 12.4
4 3.7
14 16.1
0.92
0.94
21.3
I 6.9
I 18.6
2 137
4 5.9
14 23.7
0.94
0.96
21.7
I 7.6
I 195
2 15. 1
4 8.1
15 7.4
0.96
0.98
22.2
I 8.2
I 20.4
2 16.4
4 10.3
15 15.0
0.98
1. 00
22.6
I 8.9
I 21.3
2 17.7
4 12.4
15 22.7
1. 00
lEph 13]
662
SATELLITES OF SATURN, 1913.
Six Inner Satellites of Saturn.
Hyperion.
lapettts.
Fraction of
Time from
Time from
a Revolu-
p^
F
Bastem
^
F
Bastem
^
F
tion.
Blongation.
Bkmsatlon.
0
d
e
d
0
o.oo
85.1
1. 000
0.0
87.1
0.913
0
76.1
1.028
0.02
81.9
0.994
0.5
82.7
0.902
2
73.9
1. 01 7
0.04
78.7
0.975
1.0
78.0
0.871
4
71.6
0.984
0.06
75.2
0.944
1.5
72.9
0.822
6
69.0
0.930
0.08
71.5
0.902
2.0
67.0
0.756
8
66.1
0.857
O.IO
67.4
0.850
2.5
59-7
0.677
10
62.5
0.767
0.12
62.6
0.789
3.0
50.6
0.593
12
57.9
0.662
0.14
57.0
0.723
3.5
38.5
0.513
14
515
0.548
0.16
503
0.653
4.0
22.3
0.451
16
41.6
0432
0.18
42.0
0.584
4-5
2.6
0.422
18
24.8
0.327
0.20
315
0.521
50
342.3
0.435
20
356.7
0.264
0.22
18.5
0.472
5.5
324.6
0.488
22
3232
0.279
0.24
3.2
0.445
6.0
311.3
0.566
24
299.5
0.362
0.26
347.0
0.445
6.5
301.3
0.654
26
285.8
0474
0.28
331.8
0.472
7.0
2938
0.744
28
277.4
0.588
0.30
318.8
0.521
7-5
287.8
0.829
30
271.7
0.697
0.32
308.3
0.584
8.0
282.9
0.905
32
267.5
0.793
0.34
300.0
0.653
8.5
278.7
0.969
34
264.1
0.871
0.36
293.2
0.723
9.0
274.9
1.02 1
36
261.2
0.928
0.38
287.6
0.789
9.5
271.5
1.058
38
258.6
0.962
0.40
282.9
0.850
lO.O
268.3
1.080
40
256.1
0.972
0.42
278.8
0.902
10.5
265.1
1.087
42
2536
0.958
0.44
275.0
0.944
II.O
262.0
1.078
44
250.9
0.919
0.46
271.6
0.975
11.5
258.8
1.055
46
248.0
0.857
0.48
268.3
0.994
12.0
255-4
1.018
48
2445
0.774
0.50
265.1
1. 000
12.5
251.7
0.967
50
240.0
0.675
0.52
261.9
0.994
13.0
247.4
0.905
52
2338
0.563
0.54
258.7
0.975
13-5
242.5
0.832
54
224.5
0.445
0.56
255.2
0.944
14.0
236.6
0.753
56
208.7
0.336
0.58
251.5
0.902
14.5
229.3
0.670
58
181.5
0.264
0.60
247.4
0.850
150
219.9
0.589
60
146.9
0.271
0.62
242.6
0.789
15.5
207.8
0.517
62
121.6
0.351
0.64
237.0
0.723
16.0
192.3
0.466
64
107.1
0.463
0.66
230.3
0.653
16.5
174.4
0.447
66
98.4
0.582
0.68
222.0
0.584
17.0
156.4
0.463
68
92.7
0.695
0.70
211.5
0.521
17.5
140.4
0.510
70
88.4
0.797
0.72
198.5
0.472
18.0
127.8
0.578
72
85.1
0.883
0.74
183.2
0.445
18.5
118.1
0.654
74
82.4
0.950
0.76
167.0
0.445
19.0
110.4
0.729
76
79.9
0.997
0.78
151.8
0.472
19.5
104. 1
0.796
78
77.6
1.023
0.80
138.8
0.521
20.0
98.7
0.852
80
75.4
1.026
0.82
128.3
0.584
20.5
93.8
0.891
0.84
120.0
0.653
21.0
89.3
0.9 II
0.86
113.2
0.723
21.5
84.8
0.910
0.88
107.6
0.789
0.90
102.9
0.850
0.92
98.8
0.902
0.94
95.0
0.944
0.96
91.6
0.975
0.98
88.3
0.994
1. 00
85.1
1. 000
The fraction of a revolution is reckoned from the Bastem Blongatioa.
Position angle of satellite /»-/>'+(P— Po).
Apparent distance of satellite j—F^i^.
lEph 13I
SATELLITES OF SATURN, 1913
663
Mimas.
Bnoeladus.
Tethys.
Dione.
Date.
aip)
a(p)
a(p)
o(p)
P-Po
p
P-Po
P
P-Po
P
P-Po
P
o
It
0
It
0
It
0
II
Jan. I
+I.O
30.7
+2.4
39-4
+3-2
48.8
+2.4
62.5
II
1.2
30.2
2.5
38.8
3.2
48.0
2.5
61.6
21
1.5
29.7
2.5
38.2
3.3
47.3
2.5
60.6
31
1.8
29.2
2.5
37-5
3-2
46.4
2.5
59.5
Feb. lo
2.0
28.7
2.5
36.8
3-2
45.6
2.5
58.4
20
+2.3
28.2
+2.5
36.2
+3.1
44-7
+2.5
57.3
Mar. 2
2-5
27.6
2.4
35.5
3.0
43.9
2.4
56.3
12
+2.8
27.2
2.3
34-9
+2.8
43-2
2.3
55.4
Aug. 19
-0.4
27.3
40.1
351
-0.4
43.4
+0.1
55.7
29
0.8
27.8
0.0
35.7
0.5
44.2
0.0
56.6
Sept. 8
1.2
28.3
0.0
36.4
0.6
45-0
0.0
57.7
i8
1.4
28.8
0.0
37.0
0.7
45.8
0.0
58.8
28
-1.6
29.4
-O.I
37.7
-0.7
46.7
0.0
59.8
Oct. 8
1.7
29.9
-O.I
38.4
0.8
47.5
0.0
60.9
i8
1.8
30.4
0.0
39- 1
0.8
48.3
0.0
61.9
28
1.8
30.9
0.0
39.6
0.8
49.0
0.0
62.8
Nov. 7
1-7
312
+0.1
40.1
0.7
49.6
+0.1
63.6
n
-1.6
31.5
+0.1
40.5
-0.7
50.1
+0.2
64.2
27
1.4
31.7
0.2
40.7
0.6
504
0.3
64.6
Dec. 7
1.2
31.8
0.3
40.8
0.5
50.5
0.4
64.7
n
0.9
31.7
0.4
40.7
0.4
50.4
0.4
64.5
27
-0.6
31.5
+0.5
40.5
-0.4
50.0
+0.5
64.2
Rh
•
ea.
Tit
an.
• Hyp*
aion.
lapetus.
Date.
P-Po
o(p)
P
P-Po
a(p)
P
P-Po
P
P-Po
a(p)
P
0
n
0
II
0
It
0
//
Jan. I
+2.7
87.3
+2.4
202
+ 1.9
245
-I.I
589
II
2.7
86.0
2.4
199
1.9
241
I.I
580
21
2.8
84.6
2.4
196
2.0
237
1.2
571
31
2.8
83.1
2.4
193
2.0
233
I.I
561
Feb. lo
2.7
81.6
2.4
189
2.0
229
I.I
551
20
+2.7
80.1
+2.4
186
+ 1.9
225
-I.I
541
Mar. 2
2.6
78.7
2.3
182
1.9
221
I.I
531
12
2.6
77-4
2.2
«79
+1.8
217
-I.I
522 .
Aug. 19
+0.5
77.8
+0.2
180
-0.2
218
+0.2
525
^9
0.4
79.1
O.I
183
0.3
222
03
534
Sept. 8
0.3
80.6
O.I
187
0.3
226
0.3
544
i8
0.3
82.0
O.I
190
0.4
230
0.4
554
28
+0.3
83.6
+0.1
194
-0.4
235
+0.4
564
Oct. 8
0.3
85.1
O.I
197
0.4
239
0.4
574
i8
0.3
86.5
O.I
200
03
243
0.4
584
28
0.3
87.8
O.I
203
0.3
246
0.3
593
Nov. 7
0.4
88.8
0.2
206
0.2
249
0.3
600
17
+0.5
89.7
+0.2
208
-0.2
252
+0.2
606
27
0.6
90.2
0.3
209
-0.1
253
+0.1
609
Dec. 7
0.7
90.4
0.4
209
0.0
254
0.0
610
17
0.8
90.1
0.5
209
208
+0.1
253
-O.I
609
27
+0.8
89.6
+0.6
+0.2
251
-0.2
605
lEph i3l
664
SATELLITES OF URANUS, 1913.
APPARENT ORBITS OF THE SATELUTES OF URANUS AT DATE OF OPPOSITION,
JULY a8, 1913, AS SEEN IN AN INVERTING TELESCOPE.
Apparent Apiidei.
May 18. 355-6 13.6 18.9
Aug. 6, 356.8 14.0 ig.6
Oct. aj, 357.6 13.4 18.6
May rS, 355.6 31. i 41.5
Aug. 6, 356.8 33.1 49.9
Oct. as, 357.6 30.6 40J
WASHINGTON MEAN TIME OF GREATEST ELONGATION.
ARIEL.
UMBRIEL.
TITANIA.
OBERON.
Noth.
Sootli.
North.
South.
North.
South.
North ■odSoBth.
d h
d h
d h
d h
d h
d h
d h
M«yis 9.0
May 16 15.3
""^o■l.1
May 4 I.I
Apr.aS 1.6
May a 10. i
May ta lo.oN.
13 23.4
24 4.7
13 8.0
May 6 18.5
11 3.0
39 3.6 &
30 II -9
31 18.1
18 13.3
It in
IS "^
;i;?:i
June 4 31.1 K.
June 7 1.3
14 14.8
June 8 7-6
36 30. 1
'A 4*
II 14.7 s.
IS aio
June 4 3.0
June 6 4.8
June I 31. 3
JOMS 5.8
18 8.3 N.
33 4.3
33 10.5
13 9.9
14 11.7
10 14.3
U M-7
•S 1-9 S-
39 17.7
July I 0.0
ao 16,9
38 33.8
33 18.6
It 1.1
,^r'i V,
July I 19.5 N.
July 7 7'
8 13-4
July I i.j
8 13.1S.
14 30.7
,6 3.9
July 7 6.7
9 8.4
July 6 11-3
II 1.6
IS 6.7 v.
33 i6-4
15 13-7
"7 i5'4
15 10.1
19 1S.6
>a 0,3 s.
19 33.6
3' S-9
33 30.6
35 33-3
34 31
38 I 1.6
38 .7.9 M-
Aug. I it,
Aug. 7 19-4
Aug. I 3.5
Aug- 3 S3
Aug. I 30.I
Aug. 6 4.6
Aog. 4 11.6&
14 3.6
.5 8.8
9 'O'S
10 13.1
14 31.6
II 5-3 N.
31 l6.t
17 17-4
19 ig.3
19 6.1
33 14.6
17 33.8 S.
39 5-6
30 ":8
36 0.4
38 3.1
37 33.1
Sept. I 7-6
34 16.4 N.
Sept. s 190
Sept. 7 1.3
Sept. 3 7 3
Sept 5 9.1
Septs I6-J
10 0.6
.>-^3i"-c^
'3 8-5
14 .4.8
It 14.3
13 16-0
18 17.6
Sept. 7 3-7 N.
ao 33. 0
»a 4-3
T".
31 33.0
33 3.1
37 10.6
«3 »i-3 ^
38 ,1.5
3Q 17.8
30 S'9
Oct. I 19.0
Oct. 6 3.5
■0 14-9 N.
Oct. 6 i.o
Oct. 7 7.3
Oct. 6 ir.i
Oct. 8 13.9
14 ">.$
.7 S-sS.
'3 US
14 30.7
14 18. 1
16 19.8
19 S-o
33 13.4
Oct. 4 3.0 N.
31 4.0
33 1.0
35 3.7
37 31.9
Nov. I 6.4
10 19.6 S.
aS 17.5
29 33.7
31 7-9
Nov. a 9,7
Nov. s 14.9
9 23-3
17 i3»"-
Nov. 5 6.9
Nov. 6 lyi
Nov. a 14.9
10 16.6
4 7-8
18 .6.3
.4 isa
la J0.4
14 3,7
16 31.8
'8 33.5
33 0.7
37 9-3
31 0.3 N.
For Ariel every tfaird elongation is given, and for Umbriel every alternate
one; the intermediate ones may be found by adding multiples erf the period d
the satellite.
Sidereal Period of Ariel, a"* i2\489; of Umbriel, 4'' 3*-t6o; of Titsnia,
S'' i6''.g43; of Oberon, i^^ ii''.ii9.
SATELLITES OF URANUS, 1913.
665
Fractions of the Period ol Revolution.
Fraction of
Fraction of
a Revolu-
tion.
^
F
a Revolu-
Ariel.
Umbriel.
Titania.
Oberon.
tion.
d h
d h
d h
d h
0
O.OO
0 0.0
0 0.0
0 0.0
0 0.0
0.00
356.6
1. 000
0.02
0 1.2
0 2.0
0 4.2
0 6.5
0.02
13
0.995
0.04
0 2.4
0 4.0
0 8.4
0 12.9
0.04
6.0
0.982
0.06
0 3.6
0 6.0
0 12.5
0 19.4
0.06
1 1.0
0.960
0.08
0 4.8
0 8.0
0 16.7
I 1.8
0.08
16.2
0.930
O.IO
0 6.0
0 lO.O
0 20.9
I 8.3
O.IO
21.8
0.894
0.12
0 7.3
0 1 1.9
I I.I
I 14.8
0.12
27.8
0.852
0.14
0 8.5
0 13.9
I 5-3
I 21.2
0.14
34.6
0.809
0.16
0 9.7
0 15.9
I 9.4
2 3.7
0.16
42.1
0.764
0.18
0 10.9
0 17.9
I 136
2 10.2
0.18
50.5
0.723
0.20
0 I2.I
0 19.9
I 17.8
2 16.6
0.20
59.9
0.687
0.22
0 13-3
0 21.9
I 22.0
2 23.1
0.22
70.2
0.661
0.24
0 145
0 23.9
2 2.1
3 5-5
0.24
81. 1
0.647
0.26
0 15.7
I 1.9
2 6.3
3 12.0
0.26
92.2
0.647
0.28
0 16.9
I 3.8
2 10.5
3 X8.5
0.28
103. 1
0.661
0.30
0 18.1
I 5-8
2 14.7
4 0.9
0.30
"34
0.687
0.32
0 19.4
I 7.8
2 18.9
4 7-4
0.32
122.8
0.723
0.34
0 20.6
I 9.8
2 23.0
4 13.9
0.34
131-2
0.764
0.36
0 21.8
I 11.8
3 3-2
4 20.3
0.36
138.7
0.809
0.38
0 23.0
I 1 3-8
3 7.4
5 2.8
0.38
145.4
0.852
0.40
I 0.2
I 158
3 "6
5 9.2
0.40
15 1. 5
0.894
0.42
I 1.4
I 17.8
3 15.8
5 157
0.42
157.1
0.930
0.44
I 2.6
I 19.8
3 19.9
5 22.2
0.44
162.3
0.960
0.46
I 3-8
I 21.8
4 0.1
6 4.6
0.46
167.2
0.982
0.48
I 5-0
I 23.7
4 4-3
6 II. I
0.48
172.0
0.995
0.50
I 6.2
2 1.7
4 8.5
6 17.6
0.50
176.6
1. 000
0.52
I 7.5
2 3.7
4 12.6
7 0.0
0.52
181.3
0.995
0.54
I 8.7
2 5.7
4 16.8
7 6.5
0.54
186.0
0.982
0.56
I 9.9
2 7.7
4 21.0
7 12.9
0.56
19 1.0
0.960
0.58
I II. I
2 9.7
5 1.2
7 19.4
0.58
196.2
0.930
0.60
I 12.3
2 11.7
5 5-4
8 1.9
0.60
201.8
0.894
0.62
I 13.5
2 13.7
5 9-5
8 8.3
0.62
207.8
0.852
0.64
I 14.7
2 15.7
5 13.7
8 14.8
0.64
214.6
0.809
0.66
I 159
2 17.6
5 17.9
8 21.3
0.66
222.1
0.764
0.68
I 17.1
2 19.6
5 22.1
9 3.7
0.68
230.S
0.723
0.70
I 18.3
2 21.6
6 2.3
9 10.2
0.70
239.9
0.687
0.72
I 19.6
2 23.6
6 6.4
9 16.6
0.72
250.2
0.661
0.74
I 20.8
3 1-6
6 10.6
9 23.1
0.74
261. 1
0.647
0.76
X 22.0
3 3.6
6 14.8
10 5.6
0.76
272.2
0.647
0.78
I 23.2
3 5-6
6 19.0
10 12.0
0.78
283.1
0.661
0.80
2 0.4
3 7.6
6 23.2
10 18.5
0.80
293.4
0.687
0.82
2 1.6
3 9.6
7 3.3
II I.O
0.82
302.8
0.723
0.84
2 2.8
3 "5
7 7-5
II 7.4
0.84
311.2
0.764
0.86
2 4.0
3 135
7 "-7
II 13.9
0.86
318.7
0.809
0.88
2 5.2
3 15.5
7 15.9
II 20.3
0.88
325.4
0.852
0.90
2 6.4
3 17.5
7 20.0
12 2.8
0.90
331.5
0.894
0.92
2 7.7
3 19.5
8 0.2
12 9.3
0.92
337.1
0.930
0.94
2 8.9
3 21.5
8 4.4
12 15.7
0.94
342.3
0.960
0.96
2 10. 1
3 23.5
8 8.6
12 22.2
0.96
347.2
0.982
0.98
2 11.3
4 1.5
8 12.8
13 4.7
0.98
352.0
0.995
1. 00
2 12.5
4 3.5
8 16.9
13 "I
I. GO
356.6
1. 000
The fraction of a revolution is reckoned from the Northern Elonsation.
Position angle of satellite ^/►»+(P-Po).
Apparent distance of satellite j— F-^--
P
lEph 13I
666
SATELLITES OF UKANUS, 1913.
a(p)
a(p)
Dai
e.
P-Po
f
r
Date.
P-P^
p
Ariel.
Umbrid.
TiUnia.
Obenm.
ArieL
UmbrieL
TiUnia.'
!
Obcroo.
0
#/
#/
II
II
e
II
//
II
tt
Mar.
29
-0.6
13.0
18.3
29.8
39.8
July
27
0.0
14.0
19.7
32.1
429
Apr.
3
0.7
13.0
18.4
29.9
40.0
Aug.
I
+0.1
14.0
197
32.1
42.9
8
0.8
13.I
18.4
30.0
40.2
6
0.2
14.0
19.7
32.1
42.9
13
0.8
13.2
18.5
30.1
40.3
II
0.3
14.0
197
32.0
429
18
0.9
132
18.6
30.3
405
16
0.4
14.0
19.6
320
42.8
23
-0.9
13.3
18.7
30.4
40.6
21
+0.5
13.9
19.6
320
42.7
28
I.O
13.3
18.7
30.5
40.8
26
0.6
13.9
19.6
31 9
42.6
May
3
I.O
13.4
18.8
30.6
41.0
31
0.6
13-9
195
31.8
42.5
8
1.0
13-4
18.9
30.8
41.2
Sept.
5
0.7
13-8
19-5
31.7
42.4
13
I.O
13.5
19.0
30.8
4*3
10
0.8
13.8
19.4
31.6
423
18
-I.O
13.5
19.I
310
41.5
15
+0.8
13.7
19.4
31.5
42.2
23
I.O
13.6
19.I
31.2
41.7
20
0.9
13.7
19-3
31.4
42.0
28
0.9
13.6
19.2
31.3
41.8
25
0.9
13.7
19.2
31.3
41.9
June
2
0.9
13.7
19.3
31.4
42.0
30
I.O
13.6
19.1
31.2
41-7
7
0.9
13.7
19.3
31.5
42.1
Oct.
5
I.O
13-5
19.1
3I.I
41-5
12
-0.8
13.8
19.4
31.6
42.3
10
+1.0
13.5
19.0
30.9
41.4
17
0.7
13.8
19.5
31.7
42.4
15
I.O
13.4
18.9
30.8
41.2
22
0.6
13.9
19.5
31.8
42.5
20
0.9
13-4
18.8
30.7
41.0
27
0.6
13.9
19.6
31.9
42.6
25
0.9
13-3
18.8
30.5
40.8
July
2
0.5
13.9
19.6
31.9
42.7
30
0.9
13.3
18.7
30.4
40.7
7
-0.4
14.0
19.6
32.0
42.8
Nov.
4
+0.8
13.2
18.6
30.3
405
12
0.3
14.0
19.7
32.0
42.8
9
0.8
13.1
18.5
30.1
40.3
17
0.2
14.0
19.7
32.1
42.9
14
0.8
13.1
18.4
30.0
40.1
22
-O.I
14.0
19.7
32.1
42.9
19
+0.7
13.0
18.4
29.9
40.0
SATELLITE OF NEPTUNE, 1913.
Time from
Bastem
Blongation.
^
F
Time from
Bastern
Blongation.
^
F
Date.
P-Po
a(p)
P
Date.
P-P.
d h
0
d h
0
0
II
0
i»
0 0
0 3
0 6
IIO.O
105.0
99.9
1. 000
0.995
0.980
3 0
3 3
3 6
287.6
282.5
277.3
0.999
0.989
0.969
Jan. 0
5
10
+0.5
0.4
-K).2
16.9
16.9
16.9
Apr 30
May 5
10
-1.5
1.3
16.2
16. 1
16. 1
0 9
94.6
88.9
0.955
0.922
3 9
3 12
271.8
265.9
0.940
0.904
15
20
0.0
-0.2
16.9
16.9
15
-1.2
16.0
0 12
Sept. 26
+3-9
16.I
0 15
0 18
0 21
1 0
I 3
82.8
76.0
68.5
60.1
50.6
0.883
0.839
0.793
0.748
0.708
3 15
3 18
3 21
4 0
4 3
259.5
252.4
244.5
235.6
225.6
0.862
0.816
0.770
0.727
0.691
25
30
Feb. 4
9
14
-0.3
0.5
0.6
0.8
I.O
16.9
16.8
16.8
16.8
16.8
Oct. I
6
II
16
21
+4.0
4.1
4-2
4.2
4-3
16.1
16.2
16.2
16.3
16.3
I 6
I 9
I 12
I 15
I 18
40.1
28.8
17.1
5.6
354.7
0.676
0.657
0.653
0.665
0.690
4 6
4 9
4 12
4 15
4 18
214.6
203.1
191.4
180.1
169.6
0.665
0.654
0.658
0.676
0.707
19
24
Mar. I
6
II
-I.I
1.2
1.3
1-4
1.5
16.8
16.7
16.7
16.7
16.6
26
31
Nov. 5
10
15
+4.3
4.3
4.3
4.3
4.3
16.4
164
16.5
16.5
16.5
I 21
344-7
0.726
4 21
160. 1
0.747
16
-1.6
16.6
20
+4.2
16.6
2 0
2 3
2 6
335.7
327.7
320.6
0.770
0.815
0.861
5 0
5 3
5 6
151.7
144.2
137.4
0.792
0.838
0.882
21
26
31
1.7
1-7
1.7
16.5
16.5
16.4
25
30
Dec 5
41
4.1
4.0
16.6
16.7
16.7
2 9
314.2
0.903
5 9
131.3
0.922
Apr. 5
1-7
16.4
10
3.8
16.7
2 12
2 15
2 18
308.4
302.9
297.6
0.940
0.968
0.988
5 12
5 15
5 18
125.6
120.3
115. 1
0.955
0.980
0.995
10
15
20
-1-7
1.7
1.6
16.4
16.3
16.3
15
20
25
+3.7
3.6
3.5
16.8
16.8
16.8
2 21
292.6
0.999
5 21
1 10. 1
1. 000
25
-1.6
16.2
30
+3.3
16.9
Position angle of satellite /»->^ +(P -Po).
Apparent distance of satellite s —F^i^*
SATELLITE OF NEPTUNE, 1913.
667
APPARENT ORBIT OF THE SATELLITE OF NEPTUNE AT DATE OF OPPOSITION,
JANUARY 14, 1913, AS SEEN IN AN INVERTING TELESCOPE.
South
North
Date.
Position Angle
of Apsis.
Apparent Distance
at Apsis.
Jan. 22,
May 2,
Oct. 9,
Dec. 28,
0
109.8
108.6
1 14.2
"34
ft
16.8
16. 1
16.1
16.8
WASHINGTON MEAN TIME OF GREATEST ELONGATION.
East.
West.
East.
West.
East.
West.
d h
d .h
d
h
d h
d
h
d h
Jan.
5 12.5
Jan.
8 II. I
Mar.
28
20.1
Mar.
31 18.6
Oct.
14
13.1
Oct.
17 11.6
II 9.6
14 8.2
Apr.
3
17.1
Apr.
6 15.6
20
10. 1
23 8.6
17 6.8
20 5.3
9
14.2
12 12.7
26
7-2
29 5-7
23 3.9
26 2.4
15
11.2
18 9.7
Nov.
I
4-2
Nov.
4 2.7
29 I.O
31 23.6
21
8.2
24 6.8
7
1.2
9 23.7
Feb.
3 22.2
Feb.
6 20.7
27
5-3
30 3.8
12
22.3
15 20.8
9 19-3
12 17.8
May
3
2-3
May
6 0.8
18
193
21 17.8
15 16.4
18 14.9
8
234
II 21.9
24
16.4
27 14.9
21 135
24 12.0
14
20.4
17 18.9
30
13.5
Dec.
3 12.0
27 10.6
Mar.
2 9.2
20
17.4
23 159
Dec.
6
10.6
9 91
Mar.
5 7-7
II 4.8
8 6.3
14 3-4
12
7-7
4.8
15 6.2
21 3-3
Sept.
26
22.2
Sept.
29 20.7
18
17 1.9
20 0.5
Oct.
2
19. 1
Oct.
5 17.6
24
1-9
27 0.4
22 23.0
25 21.5
8
16.1
II 14.6
29
23.0
32 21.5
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 sidereal period of the satellite of Neptune is 5** 21*^.044.
NoTS. — In the preceding diagrams the central circle represents the planet and is on the same scale as the orbits.
[Eph 13]
PHENOMENA, 1913.
WASHINGTON MEAN TIME.
PHENOMENA, 1913.
W 5S MEAN TIME.
PLA ^ ^iATIONS.
670
OBSERVATORIES, 1913.
Grographic
Reduction to
Alti-
Log p
Longitude
No.
Placb.
Geocentric
tude
(Including
from
I^alllU
%s^.
Latitude.
(Meiers).
aUUude),
Washington.
I
Abbadia, France .
0 /
+43 22
52.2
/ //
-II 39.2
69
9.999313
h
- 5
m s
I 15-7
2
Adelaide ....
-34 55
38
+10 56.8
43
9.999 523
+ 9
37 23.92
3
Albany, N. Y. . .
+42 39
12.7
-11 38.0
67
9999331
- 0
13 9-0
4
Algiers ....
+36 47
50
-II 11.3
342
9.999 497
- 5
20 24.33
5
Allegheny, Pa. . .
+40 28
58.0
-II 31.4
384
9.999409
+ 0
II 49.61
6
Amherst, Mass.
+42 21
56.5
-II 37.3
no
9-999 341
- 0
18 9.85
7
Ann Arbor, Mich. .
+42 16
48.0
-II 370
285
9.999 355
+ 0
26 39.41
8
Appleton, Wis.
+44 15
39
-II 40.1
238
9.999 301
+ 0
45 20.11
9
Arcetri ....
+43 45
14.6
-II 39-7
184
9.999310
- 5
53 1712
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
9.999 033
- 4
41 40.4
12
Athens ....
+37 58
20.7
-II 18.9
107
9.999 452
- 6
43 8.70
13
Baltimore, Md.
+39 17
48
-11 25.5
75
9.999417
- 0
I 49.8
H
Bamberg, Bavaria.
+49 53
6.0
-II 30.7
300
9.999 161
- 5
51 49-43
15
Barcelona, Spain .
+41 25
18
-II 34-7
420
9.999 387
- 5
16 43.8
i6
Bayswater . . .
-31 55
13
+10 27.8
30
9.999 593
+11
8 6
17
Beloit, Wis. . . .
+42 30
8.4
-II 37-6
• • •
9999331
+ 0
47 51.5
i8
Bergen, Norway .
+60 23
54
-10 2.7
• • •
9.998 888
- 5
29 28.53
19
Berkeley, Cal. . .
+37 52
23.6
-II 18.3
97
9.999 455
+ 3
0 46.94
20
Berlin, Prussia. .
+52 30
16.7
-II 17.1
47
9.999 078
- 6
I 50.63
21
Berlin, Prussia. .
+52 31
30.7
-II 17.0
• • •
9-999 075
- 6
I 43.23
22
Berlin, Prussia . .
+52 29
7
-II 173
38
9.999078
- 6
2 lO.O
23
Berne, Switzerland
+46 57
8.7
-II 390
573
9.999 255
- 5
38 1.51
24
Besangon, France .
+47 14
59.0
-II 38.5
310
9.999229
- 5
32 12.95
25
Bethlehem, Pa. .
+40 36
23.1
-II 31.9
• • •
9.999 379
- 0
6 43.93
26
Birr Castle, Ireland
+53 5
47.0
-II 13.3
56
9.999 064
- 4
36 34.9
27
Bloomington, Ind.
+39 9
54
-II 25.5
266
9-999 433
+ 0
3838
28
Bogota
+ 4 36
15.4
-II 51.5
2634
0.000170
- 0
II 21.58
29
Bombay, India
+18 53
45
- 7 8.1
19
9.999 848
- 9
59 31.52
30
Bonn, Prussia . .
+50 43 45 0
-II 26.9
62
9.999 124
- 5
36 39.00
31
Bordeaux, France
+44 50
7.2
-II 40.4
73
9.999 276
- 5
6 10.24
32
Boston, Mass. . .
+42 20
58
-II 37.2
• • •
9.999 334
- 0
23 56.7
33
Bothkamp, Prussia
+54 12
9.6
-II 5.3
32
9.999 035
- 5
48 47.0
34
Bremen, Germany
+53 4
36
-II 134
• • •
9.999061
- 5
43 31.7
35
Breslau, Prussia .
+51 6
55.8
-II 25.0
147
9.999 120
- 6
16 24.57
36
Brisbane ....
-27 28
0
+ 9 32.2
• • •
9.999 689
+ 8
39 37.8
37
Brussels, Belgium.
+50 47
55-5
-II 26.6
100
9.999 125
- 5
25 42.7
38
Budapest, Hungary
+47 29
34-7
-II 38.0
• • •
9.999 202
- 6
24 31. 1
39
Cambridge, Eng. .
+52 12
516
-II 18.9
26
9.999084
- 5
8 38.53
40
Cambridge, Mass. .
+42 22
47.6
-II 37-3
24
9.999 336
- 0
23 44.73
41
Cape of Good Hope
-33 56
3.6
+10 48.0
16
9-999 544
- 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
9.999 460
- 6
8 36
44
Charkow, Russia .
+50 0
9.6
-II 30.2
138
9.999 147
- 7
33 11.55
45
Charlottesville, Va.
+38 2
1.2
[Ei
-II 19.3
250
9.999461
+ 0
5 49.44
OBSERVATORIES, 1913.
671
l™.„„. ™.
Rcductioa
No.
of H»D
1 tn Time.
Id Arc.
S. T™. N.
h
^
I
+ 0701
■¥
145 15
+ 1.15
Obs. Paris Academy of Science, Hendaye.
a
-914 20.30
-
3835 4-5
«- 91.06
■4
3
+ 4 55 6-8
*
73 46 42.0
-f 48.48
Dudley Obs, Old Obs- 36".8 N.. e*.?? E.
4
-012 8.55
3 2 8.2
- a.oo
At Bouiariab, near
5
+ 5 20 5-39
■K
80 120.8
+ 52.58
Univ. . OldOba.,76".4S.,2'.46E.
6
+ 4 50 5-93
■H
72 31 29.0
-K 47-66
OldObs, jo",6N.,i',36E.
•J
+ 5 34 55- 19
■t-
83 43 47-8
+ 55-oa
University of Michigan.
8
+ 5 53 35 89
■t-
88 23 58.4
+ 58-09
the Lawrence University.
9
-045 1-34
-
11 1520.1
- 7.40
Italy.
lO
+ 44611.73
+
7' 32 56.0
+ 47.02
Harvard College Observatory.
II
+ 02635.4
+
63851.0
+ 4-37
University Observatory.
12
- I 3452-92
-
2343138
- 1 5-59
Greece.
13
+ 56 26.0
■\-
76 36 30
+ 50.34
•^m?. Observatory.
14
- 0 43 33.65
-
105324.8
- 7-.6
15
- 0 8 28.0
-
270
~ 1-39
Fabra Acad, of Sci. and Arts.
i6
- 7 43 38
_
155430
- 76.16
West Australia.
17
+ 5 56 7-3
+
89 I 49.5
+ 58.50
Beluit College.
18
-021 12.75
-
5.8ii.a
- 3.48
Naval School.
19
+ 89 2.7a
+ 122 1540.8
+ 80.34
of the University of California.
30
- 0 53 34.85
132342.8
- 8.80
Royal Obs. Old Obs. 56".4 N., o'.ag W.
ai
- 0 53 27.45
-
132151-8
- 8.78
Urania
aa
- 05354.2
-
132833
- 8.86
n
- 0 29 45.73
-
7 26 a6.o
- 4.89
University.
24
- 02357.17
5 59 17.6
- 3-94
n
+ 5 131-85
+
75 22 57.8
+ 49-53
Sayre Obs. of Lehigh Univ. at South Bethlehem.
26
+ 031 40.9
+
7 55 13.5
■f 520
Private M the Eari of Rosse.
27
+ 5 46 54
+
86 43 30
+ 56.99
of Iitdiana.
28
+ 45654.20
+
74 13 33-0
+ 4877
of Colombia.
29
-451 15-74
-
724856-1
- 47.85
Colaba.
30
- 02823.22
-
7 548.3
- 4.66
Observatory.
31
+ 02 5.54
+
031 23.1
+ 0.34
Univ. of Bordeaux at Floirac.
32
+ 4 44 191
-f
71 446.5
+ 46-71
Univ. OldObs, 34"N.. 4'.i E.
33
- 0403I-2
-
10 748.0
- 6.66
Herr. von Bfilow.
34
-035 15-9
-
8 48 58.5
- 5.79
Observatory.
35
- 1 8 8.79
-
17 a 11.8
Observatory.
36
-10 12 6.4
-
53 I 36
-100.55
Queensland, Australia.
37
- 01726.9
-
421 43 5
- 2.87
Belgium. Old Obs.3':8"N.,i*.8 E.
38
- I 16 15.3
_
19 3 49-5
- 12.53
Wm. of Royal Polytechnic School-
39
- 0 0 2a.75
_
0 541.2
- 0.06
^ Observatory.
40
■H 4443105
+
71 7 45-8
+ 46-74
Observatory.
41
- I 13 54.76
-
18 28 41.4
- 12.14
Royal
4a
-033 14.9
_
81843.5
- 546
V^ Sardinia.
43
-
15 5 0
- 9-9>
Obs. of the University.
44
- 3 24 55.77
36 1356.6
- 23.81
45
+ 5 14 5-22
-I-
7831 18.3
-I- 51.60
Leander McCormkk Obs. of Univ. of Virginia.
672
OBSERVATOKIES, 1913.
-t-:_
Reduction to
Alti-
Ix>g p
Longit
No.
Placs.
Gcosrapui^
Geocentric
tude
(Including
fron
l^UlU
uc.
Latitude.
(Meters) .
altitude).
Washini
46
Chicago, 111.. . .
0 /
+41 50
I.O
-II 35.9
• • •
9.999 348
h m
+ 0 42
47
Christiania, Norway
+59 54 44.0
-10 8.7
25
9.998 901
- 5 51
48
Cincinnati, Ohio .
+39 8
19.5
-II 25.4
249
9.999 433
+ 0 29
49
Cleveland, Ohio
+41 30
14.5
-II 34-9
212
9.999 370
+ 0 18
50
Clinton, N. Y. . .
+43 3
17.0
-II 38.7
276
9.999 335
-06
51
Coimbra, Portugal
+40 12
24.5
-II 30.3
99
9.999 396
- 4 34
52
Columbia, Mo. . .
+38 56
51.7
-II 24.4
225
9.999 436
+ I I
53
Columbus, Ohio
+39 59
50.4
-II 29.4
• • •
9.999 394
+ 0 23
54
Copenhagen . . .
+55 41
12.6
-10 53.1
14
9.998 998
-5 58
55
Cordoba ....
-31 25
15.2
+10 22.2
434
9.999 632
- 0 51
56
Cracow, Austria .
+50 3
52.0
-II 29.9
220
9.999152
- 6 28
57
Dantzig ....
+54 21
18.0
-II 4.1
3
9.999029
- 6 22
58
Dehra Dun, India.
+30 18
51.8
-10 9.4
687
9.999 674
-10 20
59
Denver, Colo. . .
+39 40 36.4
-II 27.9
1650
9.999514
+ I 51
60
Des Moines, Iowa .
+41 36
0
-II 35.2
296
9.999 374
+ I 6
61
Dorpat, Russia
+58 22
47-1
-10 26.4
65
9.998 938
-6 55
62
Dresden, Saxony .
+51 2
16.8
-II 25.4
• • •
9.999 1 12
-6 3
63
Dublin, Ireland
+53 23
13. 1
-II 11.3
86
9.999 059
- 4 42
64
Dun Echt., Scotland
+57 9
36
-10 39.2
141
9.998 972
- 4 58
65
Durham, England
+54 46
6.2
-11 0.9
107
9.999 026
- 5 I
66
Diisseldorf , Prussia
+51 12
25.0
-II 24.6
26
9.999 1 10
- 5 35
67
Edinburgh, Scotland
+55 55
28.0
-10 50.9
134
9.999000
- 4 55
68
Edinburgh, Scotland
+55 57
23.2
-10 50.7
106
9.998 998
- 4 55
69
Evanston, 111. . .
+42 3
33.4
-II 36.5
175
9.999 354
+ 0 42
70
Flagstaff, Ariz.
+35 12
30.4
-10 59.2
2210
9.999 664
+ 2 18
71
Gaithersburg, Md.
+39 8
13.2
-II 25.4
165
9.999427
+ 00
72
Geneva, N. Y. . .
+42 52
46.2
-II 38.3
152
9.999331
-00
73
Geneva, Switzerland
+46 II
58.8
-II 39.9
406
9.999 264
- 5 32
74
Genoa, Italy . .
+44 25
9.3
-II 40.2
105
9.999 288
- 5 43
75
Georgetown, D. C.
+38 54
26.7
-II 24.2
46
9-999 425
+ 00
76
Glasgow, Mo. . .
+39 13
45.6
-II 25.8
227
9.999 430
+ I 3
77
Glasgow, Scotland.
+55 52
42.8
-10 51.5
55
9.998 997
- 4 51
78
Gotha, Germany .
+50 56
37.9
-II 25.9
320
9.999136
- 5 51
79
Gottingen, Prussia
+51 31
47.9
-II 22.8
160
9.999 1 1 1
- 5 48
80
Greencastle, Ind. .
+39 38 46.6
-II 27.8
262
9.999421
+ 0 39
81
Greenwich, England
+51 28
38.1
-II 23.1
47
9.999 104
-5 8
82
Hamburg, Germany
+53 28
46.0
-II 10.6
40
9.999 054
- 5 49
83
Hamburg, Germany
+53 33
7.0
-II lO.I
25
9.999051
- 5 48
84
Hamburg, Germany
+53 32
51.8
-II 10.2
30
9.999051
- 5 48
85
Hanover, N. H. .
+43 42
15.3
-II 39.6
183
9.999312
- 0 19
86
Haverford, Pa. . .
+40 0
40.1
-II 29.4
• • •
9.999 394
-07
87
Heidelberg, Baden
+49 23
55.2
-II 32.6
570
9.999 192
- 5 43
88
Heidelberg, Baden
+49 23
54.9
-II 32.6
562
9.999 191
- 5 43
89
Helsingfors, Finland
+60 9 42.6
-10 5.6
38
9.998 896
- 6 48
90
Her^ny, Hungary .
+47 15
47.4
-II 38.4
229
9.999 224
- 6 14
[Bph 13]
OBSERVATORIES, 1913.
673
LONOm7D8 FROM
Orbbnwich.
Reduction
from Or.
Sid. Time
No.
of Mean
DSflCRIPTION.
In Time.
In Arc.
Noon to
Local
S. T. M. N.
h m s
• / //
%
46
+5 50 26.84
+
87 36 42.6
■^57-57
Old Obs.; transferred to Evanston, 111., in 1887.
47
-0 42 53.52
—
1043 22.8
- 7.05
Observatory of the University.
48
+5 37 41.40
+
8425 21.0
+55.48
Univ.Obs.onMt.Lookout.01dObs.i'53"S.i7*.6W.
49
+5 26 25.82
+
81 36 27.3
+53.62
Obs. of Case School of Applied Science.
50
+5 I 37.45
+
752421.7
+49.55
Litchfield Obs. of Hamilton College.
51
+0 33 43.1
+
8 25 46.5
+ 5.54
Royal Astronomical Observatory of Portugal.
52
+6 9 18.33
+
92 1935.0
+60.67
Laws Observatory of the University of Missouri.
53
+5 32 2.6
+
83 039.0
+54.55
Emerson McMillan Obs. of Ohio State Univ.
54
-0 50 18.70
—
123440.5
- 8.26
University Observatory, Denmark.
55
+4 16 48.22
+
6412 3.3
+42.19
National Observatory of Argentine Republic.
56
-I 19 50.28
—
19 57 34.2
-13.12
Royal University Observatory.
57
-I 14 39.6
—
18 39 54.0
-12.26
Western Prussia.
58
-5 12 13.47
—
78 3 22.0
-51.29
Obs. Great Trigonometric Survey of India.
59
+6 59 47.63
+104 56 54.4
+68.96
Chamberlin Observatory of the Univ. of Denver.
60
+6 14 30.56
+
93 37 38.4
+61.52
Drake University Observatory.
61
-1 46 53.29
—
2643 19.3
-17.56
Observatory Imperial University (Jurjew).
62
-0 54 54.85
—
134342.7
- 9.02
Baron Engelhardt's Observatory.
63
+0 25 21. 1
+
6 20 16.5
+ 4.16
Observatory of Trinity College at Dunsink.
64
+0 9 40.0
+
2 25 0.0
+ 1.59
Formerly Lord Crawford's Observatory.
65
+0 6 19.75
+
I 34 56.3
+ 1.04
Observatory of the University.
66
-0 27 5.0
—
646 15.0
- 4.45
Municipal Observatory, Bilk.
67
+0 12 44.2
+
311 3.0
+ 2.09
Royal Obs. of Scotland, Blackford Hill.
68
+0 12 43.1
+
3 10 46.5
+ 2.09
City Observatory, Calton Hill.
69
+5 50 42.3
+
87 40 34.5
+57.61
Dearborn Observatory of North Western Univ.
70
+7 26 44.57
+111 41 8.6
+73.39
Lowell Observatory.
71
+5 847.73
+
'j^ 1 1 56.0
+50.73
International Latitude Observatory.
72
+5 8 1.00
+
77 0 15.0
+50.60
Smith Observatory.
73
-0 24 36.71
—
6 9 10.7
- 4.04
Municipal Observatory.
74
-035 41.33
—
8 55 20.0
- 5.86
Hydrographic Institute.
75
+5 8 18.26
+
77 433.9
+50.65
Georgetown College Observatory, Wa^ington.
76
+6 II 18.08
+
924931.2
+61.00
Morrison Observatory.
n
+0 17 10.55
+
41738.3
+ 2.82
University Observatory.
78
-0 42 50.49
—
104237.3
- 7.04
Ducal Observatory, Saxe-Coburg-Gotha.
79
-0 39 46.29
—
9 56 34.3
- 6.53
Royal University Observatory.
80
+5 47 24.34
+
8651 5.1
+57.07
McKim Observatory of De Pauw University.
81
0 0 0.00
0 0 0.0
0.00
Royal Observatory.
82
-0 40 58.5
—
10 14 37.5
- 6.73
New Observatory, Bergedorf .
83
-0 39 53-8
—
9 58 27.0
- 6.55
Old Observatory.
84
-o 39 53.42
—
95821.3
- 6.55
Imperial Marine Observatory.
85
+4 49 7.91
+
72 1658.7
+47.50
Shattuck Observatory of Dartmouth College.
86
+5 I 12.70
+
75 18 10.5
+49.48
Haverford College Observatory.
87
-0 34 53.13
—
84317.0
- 5.73
Astronomical Institute, Kdnigstuhl.
88
-0 34 54.25
—
8 43 33.7
- 5.73
Astrophysical Institute, Kdnigstuhl.
89
-I 39 49.15
—
245717.3
-16.40
University Observatory.
90
-I 6 24.7
—
16 36 10.5
-10.91
Astrophysical Obs., near Steinamanger.
19
13 ^43
[Bph 13]
674
OBSEEVATOKIES, 1913.
...
P.C.
'^^:'
Redudionto
Latitude.
Alli-
lude
<,.^.f..
WashtaBi™.
91
Hong Kong, China
+22 18 13.4
- 8 10.7
34
9.999791
+11 15 2.36
92
Iowa City, Iowa .
+41 40 0
-'I 35-4
183
9-999364
+ 0 57 50
93
Ithaca, N.Y. . .
+42 26 47.3
-II 37-4
256
9-999 349
- 0 2 19.79
94
Jamaica, Westlndies
+18 24 51
- 6 58-7
9-999 854
+ 03 13.70
95
Jena, Saxe-Weimar
+50 55 34-9
-II 26.0
"156
9.999126
- 5 54 36.05
96
eimer
+50 56 II.O
-II 25-9
174
9.999126
- 5 54 36.56
97
-26 10 54.5
+ 9 13-5
1806
9.999838
- 7 0 33.8
98
Kalocsa ..'.'.
+46 3" 417
-II 39-6
117
9-999 235
- 6 24 tO.I2
99
Kasan, Russia . .
+55 50 JO.o
-10 51-7
98
9.999000
- 8 23 32.3
100
Kasan, Russia . .
+55 47 243
-10 52.2
79
9.999000
- 8 24 44.8J
101
Kew. Eng. . . .
+51 28 6
-II 23.2
11
9.999 102
- 5 7 0.7
102
Kief, Russia . .
+50 27 10.5
-II 28.2
182
9-999139
- 7 10 1641
103
Kiel, Prussia . .
+54 20 27.6
-" 4-3
48
9999033
- 5 48 51-33
104
+47 41 54-8
-II 37-5
9.999197
- 6 26 27.5
105
, Prussia
+54 42 504
-11 1-3
22
9.999022
- 6 30 14.81
106
+48 3 23.1
-II 36.7
384
9-999214
- 6 4 47-37
107
La Plata ....
-34 54 30- 3
-no 56.7
12
9.999521
- 1 16 38.8
108
Lawrence, Kansas .
+36 57 30
-II 12.4
311
9.999491
+ 1 12 42
109
Uiden, Netherlands
-I-52 9 20.0
-II 19.3
4
9.999084
- 5 26 H.9S
no
Leipzig, Saxony .
+51 20 5.9
-II 23.9
119
9.999 112
- 5 57 49-76
III
+50 37 7
-II 27.5
127
9-999132
- 5 30 31-0
113
+38 42 31-3
-II 23.1
94
9-999 433
- 4 31 31-10
"3
+53 24 4-8
-II 1 1.2
62
9-999057
- 4 55 58-45
114
+55 4> 51.6
-10 53.0
38
9.999000
- 6 I 0.79
J15
-f44 32 ri.o
-II 40-3
42
9-999 281
-66 8.19
116
+45 4r 41-0
-II 403
300
9.999 268
- 5 27 24-33
117
+43 4 368
-n 38.7
292
9-999336
+ 0 49 22.15
ri8
Madras, India . .
+13 4 8.0
- 5 7.6
7
9-999 925
-10 29 14.90
119
Madrid, Spain . .
+40 24 29.7
-II 3I-I
655
9-999428
- 4 S3 30.66
1 20
Manila, P. I. . .
+14 35 25
- 5 405
3
9.999907
+10 47 54
121
Mare Island, Cal. .
+38 5 55-8
-It 19.7
22
9.999444
+ 30 49-8
122
Mark
+54 10 31-8
-II 5-5
45
9-999037
- 4 34 274
123
Marseilles, France .
+43 18 17.5
-II 39-1
75
9-999315
- 5 29 5037
124
Mauritius . . .
-20 5 39
+ 7 30.8
55
9-999 832
- 8 58 28.4
125
Melbourne, Victoria
-37 49 53-4
-MI iS.t
28
9999451
+ 911 50.2
136
Meudon , France
+48 48 18
-II 34-6
162
9.999180
- 5 17 II-4
127
Middletown,Conn.
+41 33 16.0
-II 35.1
9-999 355
- 0 17 38.60
I2S
Milan, Italy . . .
+45 27 59-3
-II 40.4
120
9.999 262
- 5 45 1-70
129
+44 58 40-0
-II 40.4
260
9.999 285
+ I 4 41-06
130
+39 8 3.6
-II 25.4
62
9.999420
+ 9 27 13-47
131
Modena, Italy . .
-f44 38 52.8
-II 40.4
9-999 275
- 5 5> 58-7
132
Montreal, Canada .
+45 30 170
-II 40.4
■ 67
9-999258
- 0 13 57 15
133! Moscow, Russia .
+55 45 19-8
->o 52.5
150
9.999005
- 7 38 32-87
1341 Mount Hamilton .
+37 20 25.6
-11 14.9
1283
9-999 548
+ 2 58 19-11
135
Mount Wilson . .
+34 12 59-5
-10 50.6
1800
9-999660
+ 2 43 58.55
OBSERVATORIES, 1913.
675
LONGITUDB FROM
Grsbnwich.
Reduction
from Or.
Sid. Time
of Mean
Noon to
Local
S. T. M. N.
No.
In Time.
In Arc.
DSSCRIPTION.
h m s
0 f ff
8
91
-7 36 41.86
-]
ti4 1027.9
-75.01
British Colonial Observatory.
92
+6 6 6
+
91 31 30
+60.14
Obs. of the State Univ. of Iowa.
93
+5 5 55.99
+
76 28 59.9
+50.26
Observatory of Cornell University.
94
+5 II 29.48
+
77 52 22.2
+51.17
Mr. Hall's Observatory, Montego Bay.
95
-0 46 20.27
—
II 35 4.0
- 7.61
University Observatory.
96
-0 46 20.78
—
II 35 11.7
- 7.61
The late Dr. Winkler's Observatory.
97
-I 52 18.0
^
28 4 30.0
-18.45
Government Observatory, Transvaal.
98
-I 15 54-34
—
18 58 35.1
-12.47
Haynald Obs., Hungary.
99
-3 15 16.5
—
4849 7.5
-32.08
Englehardt Observatory.
100
-3 16 29.04
—
49 7 15.6
-32.28
Imperial Univ. Observatory.
lOI
+0 I 15. 1
+
0 1846.5
+ 0.21
Meteorological Obs., Kew Gardens, London.
102
-2 2 0.64
—
3030 9.6
-20.04
Imperial University Observatory.
103
-0 40 35.55
—
10 853.3
- 6.67
Old position of Transit Circle, 0^.9 N., o».i2 E.
104
-I 18 11.7
—
193255.5
-12.85
Near Asz6d, Hungary.
105
-I 21 59.04
—
202945.6
-13.47
Royal University Observatory.
106
-056 31.59
—
14 753.9
- 9.29
Obs. of the Benedictines, Austria.
107
+3 51 37-0
+
575415.0
+38.05
Obs. National Univ., Argentine Republic
108
+6 20 58
+
95 1430
+62.58
Obs. of the State Univ. of Kansas.
109
-0 17 56.17
—
429 2.6
- 2.95
University Observatory.
no
-0 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
+
3 420.0
+ 2.02
Bidston, Birkenhead.
114
-0 52 45.01
—
13 II 151
- 8.67
Royal Observatory of the University.
115
~o 57 52.41
—
1428 6.1
- 9.51
Manora Observatory, Austria.
116
-0 19 8.55
—
4 47 8.3
- 3.14
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 59.12
—
80 1446.8
-52.73
Founded by East India Company.
119
+0 14 45.12
+
341 16.8
+ 2.42
Ast. and Meteorological Observatory.
120
-8 350
—
1205730
-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 CoUooney.
123
-021 34.59
—
5 23 38.9
- 3.54
National Obs., Univ. of Aix-Marseilles.
124
-3 50 12.6
—
57 33 90
-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 1354.0
- 1.47
Seine-et-Oise, near Paris.
127
+4 50 37.18
+
72 39 177
+47.74
Wesleyan University Observatory.
128 -0 36 45.92
—
9 II 28.8
- 6.04
Royal Observatory, Brera.
129 +6 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.
131
-0 43 42.9
—
105543.5
- 7.18
Ducal Observatory.
132
+4 54 18.63
+
73 34 39.4
+48.35
McGill University Observatory.
133
-2 30 17.09
—
373416.3
-24.69
Obs. of the Imperial University, Presnia.
134
+8 6 34.89
+121 3843.3
+79.93
Lick Obs. of the University of California.
135
+7 52 14.33
+118 334.9
+77.58
Solar Observatory, near Pasadena, Cal.
lEph 13I
676
OBSEKVATOKIES, 1913.
Gwglmrtiic
Latitude.
Alli-
Lot,
No.
pmo.
GeooDtric
tude
{Inchidint
iron,
Latitude.
IMlir,).
oUilwU).
WaihingtoB.
136
Munich, Bavaria .
+48 8 45-5
-I" 36-5
528
9.999222
h m 1
- 5 54 41-85
137
+40 51 46.3
-II 32.8
154
9-999 382
- 6 5 17-51
138
+36 8 54.4
•■II 6.6
9-999 490
+ 0 38 56.4
139
Natal, S. Africa '.
-29 50 46.6
+10 3.7
79
9.999642
- 7 12 16.96
140
Neuchatel . . .
+47 0 1 .2
-II 38.9
488
9-999 248
- 5 36 571
141
New .J.
+40 30 0.6
-II 31-5
21
9-999384
- 0 TO 29.4
142
New
+4> 19 23.3
-II 34-4
40
9-999 364
- 0 16 35.20
>43
New York. N. Y. .
+40 48 34 6
-II 32.6
9-999 374
- 0 12 26
144
Nice, France . .
+43 43 '6.9
-II 39.6
"376
9999325
- 5 37 27.96
145
+46 58 21.8
-.1 38.9
55
9.999220
- 7 16 958
146
+42 19 2
-II 37.2
81
9-999 340
- 0 17 42.7
147
+44 27 41.6
-II 40.3
320
9.999 302
+ I 4 20.03
148
+37 48 5
-11 17.9
11
9999450
+ 3 0 5a77
149
Odessa, Russia . .
+46 28 37.9
-II 39-6
9.999228
-711 18.0
150
Odessa, Russia . .
+46 28 36.7
-II 39.6
55
9.999232
- 7 II 17-88
I5>
+47 52 27-3
-I. 37-1
"3
9.999 200
- 6 21 i.3i
152
+41 16 5.6
-II 34-3
344
9999384
+ I 15 3i-i8
153
Oncativo, Arg. Rep.
-31 55 10
+10 27.8
280
9.999610
- 0 53 31.0
154
+44 53 58
-II 40.4
41
9.999 272
- 0 33 35-5
155
Ottawa, Canada .
+45 23 30
•-II 40.4
85
9,999263
- 0 5 22
156
Oxford, Miss. . .
+34 22 12.6
-10 52.0
9-999533
+ 0 49 51.3
157
Oxford, Eng. . .
+5" 45 35-4
-II 21.6
' 65
9-999098
- 5 3 i3-»
158
+51 45 34-2
-II 21.6
64
9.999098
- 5 3 15-4
159
+45 24 5
-II 40.4
30
9.999258
- 5 55 44-97
i6a
+38 6 440
-II 19.7
72
9-999 447
- 6 I 41.6S
161
Paris, France . .
+48 50 1 1.2
-II 34-5
61
9.999172
- 5 17 36-75
162
Perth
-31 57 8.9
+10 28.1
61
9-999 594
-HI 82248
163
Pa. .
+39 58 2.1
-II 29.2
74
9-999400
- 0 7 9.1
164
+44 51 48.7
-II 40.4
30
9-999 272
- 6 3 38.67
165
Potsdam, Prussia .
+52 22 56.0
-II 17.9
97
9.999085
- 6 0 317
166
Y.
+4t 41 18
-II 35-5
46
9 999 354
- 0 12 42.13
167
+50 5 15-8
-II 29.8
197
9.999 149
-65 56-1
168
+40 20 55.8
-11 309
50
9999389
- 0 9 36.34
169
+41 50 31-
-II 35-9
64
9999352
- 0 22 39.83
170
. R. I. '.
+41 49 46.4
-II 35-9
9999348
- 0 22 38.14
171
+59 46 18.7
-10 10.4
74
9.998907
- 7 9 3442
172
Quebec, Canada
+46 47 59-2
-11 39-2
90
9.999 226
- 0 23 23.14
173
Quito
- 0 14 0
+ 0 5.7
2908
0.000198
+ 05 50.88
174
Riga, Russia . .
+56 57 9.3
-10 41.3
9.998967
- 6 44 43.9s
175
Rio de Janeiro . .
-22 54 23.6
-f 8 21. 1
61
9999783
- 2 15 34-4
176
Rome, Italy . .
+41 53 53.6
^11 36-1
51
9-999 350
- 5 58 11.33
177
Rome, Italy. . .
+41 53 33-5
^i. 36-0
65
9-999 350
- 5 58 1J.15
178
Rome, Italy. . .
+41 54 4-8
-II 36.1
9-999 353
- 5 58 5J5
179
San Fernando . .
+36 27 42.0
-11 8.9
30
9-999485
- 4 43 26-6^
i8d
San Francisco, Cal.
+37 47 27-9
IB
-II 17.8
9.999450
+ 3 I 27.08
OBSERVATORIES, 1913.
677
L0N01TUD8 ntoM
Grbsnwich.
Reduction
from Or.
Sid. Time
to.
of Mean
Noon to
DB8CRIPT10N.
In Time.
In Arc.
Local
S. T. M. N.
h m s
0 / //
s
36
-0 46 26.07
—
II 3631.0
- 7.63
Royal Observatory.
37
~o 57 1.73
—
14 15 26.0
- 9.37
Royal Obs., Capo di Monte.
38
+5 47 12.2
+
8648 3.0
+57.04
Observatory of Vanderbilt University.
39
-2 4 1. 18
—
31 017.7
-20.37
Government Observatory, Durban.
40
~o 27 49.93
—
6 57 29.0
- 4.57
Cantonal Observatory, Switzerland.
41
+4 57 46.4
+
74 26 36
+48.92
Schank Obs., Rutgers College.
42
+4 51 40.58
+
7255 8.7
+47.92
Yale University Obs. 01dObs.45''.8 S.,i».58W.
43
+4 55 50
+
73 57 30
+48.60
Columbia Univ. Obs. Old Obs. 3' i i^'.s S., 3'.6 E.
44
-0 29 12.18
—
7 18 2.7
- 4.80
Ml. Gros, near Nice.
45
-2 7 53.80
—
31 58 27.0
-21.01
Naval Observatory.
46
+4 50 33.1
+
72 38 16.5
+47.73
Smith College Observatory.
47
+6 12 35.81
+
93 857.1
+61.21
Goodsell Observatory of Carleton College.
48
+8 9 6.55
+122 1638.3
+80.35
Chabot University.
49
-2 3 2.18
—
304532.7
-20.21
Branch of Pulkowa Observatory.
50
-2 3 2.10
—
304531.5
-20.21
University Observatory.
51
-I 12 45.54
—
18 II 23.1
-11.95
Royal Astrophysical Observatory.
52
+6 23 46.96
+
95 56 44-4
+63.05
Creighton University Observatory.
53
+4 14 44.8
+
63 41 12.0
+41.85
International Latitude Observatory.
54
+4 34 40.3
+
6840 4.5
+45.12
Observatory of the University of Maine.
55
+5 2 54
+
75 43 30
+49.76
Dominion Observatory.
56
+5 58 7.1
+
893146.5
+58.83
Observatory of the University of Mississippi.
57
+0 5 2.6
+
I 15 39.0
+ 0.83
Radcliffe Observatory.
58
+0 5 0.4
+
I 15 6.0
+ 0.82
University Observatory.
59
-0 47 29.19
—
II 52 17.9
- 7.80
Royal University Observatory.
60
~o 53 25.90
—
13 21 28.5
- 8.78
Royal Observatory.
61
-0 9 20.97
—
2 20 14.6
- 1.53
National Observatory of Paris.
62
-7 43 21.74
-]
[15 5026.1
-76.12
State Observatory, West Australia.
63
+5 I 6.6
+
75 1639.0
+49.46
Flower Observatory, University of Pennsylvania.
64
-0 55 22.89
—
135043.3
- 9.10
Obs. of the Imperial Hydrographic Office.
65
-0 52 15.9
—
13 358.5
- 8.59
Royal Astrophysical Observatory.
66
+4 55 33.65
+
73 53 24.7
+48.55
Vassar College Observatory.
67
-0 57 40.3
—
1425 4.5
- 9.47
Royal Observatory of the University.
68
+4 58 39.44
+
743951.6
+49.06
Halsted Observatory of Princeton University.
69
+4 45 35.95
+
71 23 59.3
+46.92
Ladd Observatory of Brown University.
70
+4 45 37.64
+
71 24 24.6
+46.92
Mr. Seagrave's Observatory.
71
-2 I 18.64
—
301939.6
-19.93
Obs. Central Nicolas, near St. Petersburg.
72
+4 44 52.64
+
71 13 9.6
+46.80
Bonner's Hill.
73
+5 14 6.66
+
7831 39.9
+51.60
National Observatory of Ecuador.
74
-I 36 28.17
—
24 7 2.6
-15.85
Polytechnic School Observatory.
75
+2 52 41.4
+
43 10 21.0
+28.37
National Observatory of Brazil.
76
~o 49 55.55
—
12 2853.3
- 8.20
Royal Observatory at Roman College.
77
-0 49 56.37
—
12 29 5.6
- 8.20
Royal University Observatory at Capitol.
78
~o 49 49.47
—
12 27 22.0
- 8.18
Vatican Observatory.
79
+0 24 49.2
+
6 27 18.0
+ 4.08
Naval Observatory, near Cadiz, Spain.
Bo
+8 9 42.86
+122 25 42.9
+80.45
Davidson Observatory.
[Bph X3]
678
OBSERVATORIES, 1913.
Geographic
Reduction to
Alti-
Logp
Longitude
No.
Placs.
Geocentric
tude
(Including
from
L^
■ft%l&U
y*^%
Latitude.
(Meters).
aUitude).
Washington.
1
I8l
San Luis, Arg. Rep.
0
-33
18
It
0
+ 10 42.0
800
9.999614
h
- 0
m s
42 52
182
Santiago, Chile
-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
-II 22.7
• • •
9.999429
+ 0
52 33.48
185
St. Petersburg . .
+59 56
32.0
-ID 8.4
4
9.998 898
- 7
9 27.2
186
Stockholm, Sweden
+59
20
330
-10 15.5
44
9.998915
- 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
9.999184
- 5
39 20.47
189
Sydney, N. S. W. .
-33
51
41. I
+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
Tashkent . . .
+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, Italy . .
+42
39
27
-II 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.^
198
Triest, 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
• • ■
9.999325
- 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, Italy. . .
+45
4
8.0
-II 40.4
276
9.999 284
- 5
39 2.96
203
Tuscaloosa, Ala. .
+33
12
36.8
-10 41. 1
• • •
9.999561
+ 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, 111. . . .
+40
6
20.2
-II 29.8
236
9.999408
+ 0
44 38.2
207
Utrecht, Netherlands
+52
5
9.6
-II 19.7
13
9.999087
- 5
28 46.8
208
Venice, Italy . .
+45
26
10.5
-II 40.4
15
9.999 256
- 5
57 37.90
209
Vienna, Austria
+48
13
55.4
-II 36.2
240
9.999199
- 6
13 37.17
210
Vienna, Austria
+48
12
53.8
-II 36.2
214
9.999198
- 6
13 41.1
211
Vienna, Austria .
+48
12
46.7
-II 36.2
280
9.999 202
- 6
13 26.89
212
Warsaw, Russia .
+52
13
4.7
-II 18.9
no
9.999 090
- 6
32 23.06
213
Washington, D. C.
+38
55
14.0
-II 24.2
82
9.999 428
0
0 0.00
214
Washington, D. C.
+38
53
38.8
-II 24.1
31
9.999 424
- 0
0 3.63
215
Washington, D. C.
+38
53
17.3
-II 24.1
9
9.999 422
- 0
0 9.6
216
Washington, D. C.
+38 56
14.8
-II 24.2
• • •
9.999422
- 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, N. Y.
+41
23
22.1
-II 34.6
170
9.999371
- 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
9.999340
- 0
15 26
223
Windsor, N. S. W.
-33
36
30.8
+10 44.9
16
9-999 552
-¥ 8
48 23.7
224
Z6-S^, China . .
+31
5 477
-10 18.6
100
9.999617
+10
46 59.5
225
Zurich ....
+47
22
40.0
-II 38.2
470
9.999 237
- 5 42 28.08
[Bi
>ht3]
OBSERVATORIES, 1913.
679
LONGITUDS PROM GrSBNWICH.
Reduction
from Gr.
1
Sid. Time
No.
1
of Mean
Noon to
Dbscrtptioi/.
In Time. In Arc.
Local
1
S. T. M. N.
h m s
0 / //
8
I8l
+ 4 25 24
+ 66 2 1 0
+ 43.60
Southern Observatory of Carnegie Institution.
182
+ 4 42 46.22
+ 70 41 33.3
+ 46.45
NationalObs. of Chile. OldObs. i6".6N.,9».5 E.
183
+ 4 50 20.29
+ 72 35 4.3
+ 47.70
Observatory of Mt. Holyoke College.
184
+ 6 049.26
+ 90 12 18.9
+ 59.27
Washington University Observatory.
185
-2 I II. 4
- 30 17 51.0
- 19.91
Imperial University Observatory, Russia.
186
- I 12 13.99
- 18 329.9
- 11.87
Observatory of Academy of Science.
187
+ 09 52.68
+ 2 28 10.2
+ 1.62
Stonyhurst College Observatory, near Blackburn.
188
-031 4.69
- 7 46 10.3
- 5.II
Imperial University Observatory.
189
-10 4 49-54
-151 12 23.1
- 99.36
Government Observatory.
190
+ 5 433.36
+ 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
+ 444 20
+ 71 5 0
+ 46.71
Mr. Metcalf's Observatory.
194
- 0 54 56
-1344 0
- 9.02
At Collurania, near Teramo.
195
- 9 18 58.02
-1394430.3
- 91.82
University Observatory.
196
+ 5 1734.65
+ 79 23 39.7
+ 52.17
University Observatory.
197
- 0 5 49.88
- I 27 28.2
- 0.96
University Observatory.
198
-055 2.95
- 134544.3
- 9.04
Imperial Maritime Observatory.
199
+ 45442.29
+ 73 40 34.3
+ 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
- 74147.7
- 5.06
Royal Observatory, Palazzo Madama.
203
+ 55011.74
+ 873256.1
+ 57.53
Observatory of the University of Alabama.
204
+ 8 12 9
+123 2 15
+ 80.85
International Latitude Observatory.
205
- I 1030.15
- 173732.3
- 11.58
University OKservatory.
206
+ 5 52 540
+ 88 13 30
+ 57.97
Observatory of the University of Illinois.
207
- 02031.0
- 5 745.0
- 3.37
University Observatory, Sonnenborgh.
208
- 04922.12
- 12 2031.8
- 8.II
Observatory of the Nautical Institute.
209- I 521.39
- 16 2020.9
- 10.74
Imperial Univ. Obs. Old Obs. i ' 20" S., io».25 E.
210 - I 525.3
1
- 16 21 19.5
- 10.75
Oppolzer Observatory, Josephstadt.
2ii|- I 5 nil
- 16 17 46.7
- 10.71
Kuflfner Observatory, Ottakring.
2I2I- I 24 7.28
- 21 I 49.2
- 13.82
Imperial University Observatory.
213;+ 5 815.78
+ 77 3 56.7
+ 50.64
U. S. Naval Observatory, Georgetown Heights.
214
+ 5 812.15
+ 77 3 2.3
+ 50.63
Old U. S. Naval Observatory. 1842-1893.
215
+ 5 8 6.2
+ 77 I 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 Welleslcy College.
218
-II 39 6.52
-1744637.8
-114.85
Colonial Time Service Obs. of New Zealand.
219
+ 4 55 50.55
+ 73 57 38.3
+ 48.60
U. S. Military Academy. Old Obs. 9" N., i-.2 E.
220
- 03235.11
- 8 846.7
- 5.35
Imperial Naval Observatory of Germany.
221
+ 55413.24
+ 8833 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
- 8 444.7
-121 II 10.5
- 7963
Obs. of the Jesuits near Shanghai.
225
-034 12.30
-833 4.5
- 5.62
Obs. of the Polytechnic School, Switzerland.
[Bph 13]
680 LUNAR DISTANCES.
THE COMPUTATION OF LUNAR DISTANCES.
The tables of lunar distances formerly given on pages XIII to XVIII, inclu-
sive, 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 calculated for the even hour before and after, the required
lunar distance may be interpolated and the longitude derived by the methods
given in Bowditch and other books on navigation.
EXAMPLE I.
Find the lunar distance of Aldebaran, May 1 1, 191 3, at 8 P. M. Greenwich Mean Time.
Let a and S =Right Ascension and Declination of the star
" a'and*^= " " " " " " Moon
' ' D = Lunar Distance
Also let tan M =tan 6^ sec (a—a^)
Then cos D=sin S^ cos (M —6) cosec M
a = 4»» 30» 55-.3 M =+38** 28^ 2/'
0^= 8»» 8» 7«.i d =4-16® 2(/ 14''
a-cr^=- 3»» 37« ii«.8 M-* =+22** 8^ 13'^
a— 0/=— 54® !•/ $Y^ sin ^^=9.623983
^^=+24° 52^ 46^^ cos (M-*) =9.966745
tan d' =9.666283 cosec M =0.206097
sec {a — of) =0.233920 cos D =9. 796825
tan M =9.900203 D=5i® 13^ 4'^
EXAMPLE 2.
Find the lunar distance of Venus, February 8, 1913, at 6 P. M. Greenwich Mean Time. In
this case the distance is smaller and the following method is more accurate:
Let a and 6 = Right Ascension and Declination of the planet
** a'and«'= " " " " " " Moon
D= Lunar distance
Also let tan N=tan K («-«^) cos % (*-h^0 cosec K (^-*0
Then sin }4 D=sin yi {a-a') cos }4 (fi -h*0 cosec N
a = o^ 20" 47".8 tan >^ (a— cr') =9. 1 70564
a*z= 23** 13™ 24' .0 cos >^ (*H-d^) =9.999812
a—af^^ i*» 7™ 23".8 cosec yi {^ —^')^\ .062505
a-a'=:+i6° 50^ 57^^ tanN=o.23288i
^ =+ 30 1/ 2" N=59« 4c/ 28^'
^/=- 6° 39' ^'
^4.^/=- 30 22^ 4^^ sinK(«-«^)=9i65853
d-d^=H- 9*» 56^ ^" cos K (^+^0=9-999812
cosec N =0.063903
>^(a-a')=+ 8° 25' 28^' sin >^ 0=9.229568
>^(«+^/)=- lO 41/ 2'' >^D=9°46' 4^'
^(d-dO = + 4** 58^ Af' D=i9^ 32^ ^*
\Kp1x tsl
TABLE I.
681
FOR FINDING THE LATITUDE BY AN OBSERVED ALTITUDE OF POLARIS, 1913
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.T)ecl. of Polaris for the time of observation (pp. 251-262).
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. Decl. of Polaris as the horizontal
argument, take out the correction from Table I and add it to or subtract it from the true alti-
tude, according to its sign.
For other altitudes than 45^, corrections taken from the supplementary table at the bottom
of Table I (Table la) may be applied when necessary for the degree of accuracy required.
Example. — 1913, 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° 20' o", required the latitude of the
place.
h m s
Local astronomical mean time 10 40 30
Reductions from Table III for lo** 40™ 30* .... +1 45
Greenwich sidereal time of mean noon, October 7, page iii . 13 2 6
Reduction from Table III, for longitude ( =3^ 56™ west, or plus) -f o 39
h m s
Sum (having regard to signs) is equal to local sidereal time . 23 45 o
R. A. of Polaris (page 260) for time of observation i 29 15
h m 8
Remainder is equal to hour-angle of Polaris . 22 15 45
Decl. of Polaris (page 260) for time of observation 88® 50^ 46'^
o / //
True altitude +33 20 o
Correction from Table I — 124
Correction from Table la — 3
O t ft
Latitude of the place +32 17 53
Observations of Polaris for latitude should be made when practicable, near the times of
upper or of lower culminations (hour-angle o^ or 12*^). 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 mmute.
Decl.
H. A.
h m
O O
3
6
9
12
o 15
18
21
24
27
o 30
33
36
39
42
o 45
48
51
54
0 57
1 o
3
6
9
I 12
88*50' 20
//
88° 50' 30
//
//
-69 40
69 39
69 38
69 36
69 34
-69
69
69
69
69
-69
68
68
68
68
-68
68
67
67
67
■67
67
66
66
66
31
27
22
16
10
3
56
48
39
29
18
7
55
42
29
15
I
46
29
12
I
I
2
2
3
4
5
6
6
7
7
8
9
10
II
II
12
13
13
14
14
15
17
17
-69
69
69
69
69
-69
69
69
69
69
■68
68
68
68
68
■68
67
67
67
67
-67
66
66
66
66
30
29
28
26
24
21
17
12
6
o
53
46
38
29
19
8
57
45
32
19
5
51
36
19
2
I
I
2
2
3
4
5
6
6
7
7
8
9
10
II
II
12
13
13
14
14
15
17
17
88° 50' 40
//
//
-69 20
69 19
69 18
69 16
69 14
-69 II
69 7
69 2
68 56
68 50
-68 43
68 36
68 28
68 19
68 9
■67 58
67 47
67 35
67 22
67 9
6655
66 41
66 26
66 9
65 52
I
I
2
2
3
4
5
6
6
7
7
8
9
10
II
II
12
13
13
H
14
15
17
17
88° 50' 50"
-69
69
69
69
69
-69
68
68
68
68
-68
68
68
68
67
//
10
9
8
6
4
I
57
52
46
40
33
26
18
9
59
•67 48
67 37
67
67
66
-66
66
66
65
-65
25
12
59
45
31
16
59
42
I
I
2
2
3
4
5
6
6
7
7
8
9
10
II
II
12
13
13
14
14
15
17
17
88° 51' o"
//
-69 o
68 59
6858 I
6856 I
6854 3
-68 51 .
6847 ^
68 42
68 36
68 30
-68 23
68 16
68 8
^7 59 ,1
67 49
-67 38 „
67 27 \l
67 15 "
67 2 3
66 49 \l
■66 35
66 21 ^^
66 6 J5
65 50 ^
5
6
6
7
7
8
9
o
II
88° 51' 10"
-68
68
68
68
68
-68
68
•68
68
68
-68
68
67 58
67 49
50
49
48
46
44
41
37
32
27
21
14
6
67
-67
67
67
66
66
-66
66
65
65
39
29
18
6
53
40
26
12
57
41
I
I
2
2
3
4
5
5
6
7
8
8
9
10
10
II
12
13
13
14
14
15
16
m
o
h
24
23 57
54
51
48
23
23
45
42
39
36
33
30
27
24
21
18
23 15
12
9
6
3
23 o
22 57
54
\ ^^
682 TABLE I.
FOR FINDING THE LATITUDE BY AN OBSERVED ALTITUDE OF POLARIS, 1913.
Decl.
H. A.
h
I
I
2
2
3
3
4
m
12
15
18
21
24
27
30
33
36
39
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
12
15
18
21
24
27
30
33
36
39
42
45
48
51
54
57
o
3
6
9
88° 50' 20"
//
-66
65
65
65
64
-64
64
63
63
63
-62
62
61
61
61
-60
60
59
59
58
-58
57
57
56
56
-55
55
54
53
53
-52
52
51
12
54
36
17
57
37
16
54
32
9
45
21
56
30
4
37
9
41
12
43
13
42
II
39
7
34
o
26
51
16
40
4
27
50 50
50 12
-49
48
48
47
46
-46
45
44
44
43
-42
41
41
40
39
34
55
15
35
54
13
32
50
8
25
42
58
14
29
44
_
-38 58
38
37
36
35
-35
34
33
32
31
12
26
40
53
6
18
30
42
53
18
18
19
20
20
21
22
22
23
24
24
25
26
26
27
28
28
29
29
30
31
31
32
32
33
34
34
35
35
36
36
37
37
38
38
39
40
40
41
41
4«
42
42
43
43
44
44
45
45
46
46
46
46
47
47
48
48
48
49
88*» 50' 30"
2
44
26
7
■66
65
65
65
64 48
64 28
7
45
23
o
64
63
63
63
-62
62
61
61
60
-60
60
59
59
58
-58
57
57
56
55
55
54
54
53
53
-52
51
51
50
50
-49
48
48
47
46
-46
45
44
44
43
•42
41
41
40
39
•38
38
37
-
35
34
33
32
31
36
12
47
21
55
28
o
32
3
34
4
34
3
31
59
26
52
18
43
8
32
56
19
42
4
26
47
8
28
47
6
25
43
I
18
35
52
8
23
38
53
7
21
36 35
35 48
I
13
25
37
48
18
18
19
19
20
21
22
22
23
24
24
25
26
26
27
28
28
29
29
30
30
31
32
32
33
34
34
35
35
36
36
37
37
38
38
39
39
40
41
41
41
42
42
43
43
43
44
45
45
45
46
46
46
47
47
48
48
48
49
88*> 50' 40"
52
34
16
57
■65
65
65
64
64 38
-64 18
57
35
13
50
27
3
38
12
63
63
63
62
-62
62
61
61
60 46
■60 19
59
59
58
58
-57
57
56
56
55
■55
54
54
53
53
■52
51
51
52
24
55
26
56
26
55
23
51
18
44
10
35
o
24
48
12
50 35
49 57
■49
48
48
47
46
-46
45
44
43
43
42
41
41
40
39
19
41
2
22
41
o
19
37
55
12
29
46
2
18
33
-38 48
38
37
36
35
-34
34
33
32
31
1-
2
16
30
43
56
9
21
33
44
18
18
19
19
20
21
22
22
23
23
24
25
26
26
27
27
28
29
29
30
30
31
32
32
33
34
34
35
35
36
36
36
37
38
38
38
39
40
41
41
41
42
42
43
43
43
44
44
45
45
46
46
46
47
47
47
48
48
^9
88° 50' 50"
//
65 42
65 25
65 7
64 48
64 29
64 9
63 48
63 26
\
63
62
-62
61
61
61
60
-60
59
59
58
58
-57
57
56
56
55
-55
54
54
53
52
-52
51
51
50
49
-49
48
47
47
46
-45
45
44
43
43
-42
41
40
40
39
-38
37
37
36
35
-34
34
33
32
-3^
4
41
18
54
29
4
38
II
44
16
47
18
48
18
47
15
43
10
37
3
28
53
17
41
5
28
50
12
34
55
15
35
54
12
30
48
6
23
40
56
12
27
42
57
II
25
38
51
4
16
28
17
18
19
19
20
21
22
22
23
23
24
25
25
26
27
27
28
29
29
30
30
31
32
32
33
33
34
35
35
36
36
36
37
38
38
38
39
40
40
41
42
42
42
42
43
43
44
44
45
45
45
46
46
47
47
47
48
48
88° 51' o"
//
-65 33
65 15
64 57
64 39
64 19
■63 59
63 39
63 17
62 55
62 32
62
18
18
18
20
20
20
22
22
—02 9
25
26
27
23
23
61 45 It
61 20 _r
60 55
60 29
.60 2
59 35 28
59 7 '^
58 38
58 9
■57 40
57 9
56 38
56 7
55 35
■55 2
54 29
53 55
53 20
52 46
-52 10
51 34
50 58
50 21
49 43
29
29
29
31
31
31
32
33
33
34
35
34
36
36
36
37
38
38
38
39
40
40
41
41
42
1^ 'i T2
■49 5
48 27
47 48
47 8
46 28
•45 47
45 6
44 24
\-
43
42 17
41 34
40 50
40 6
39 21
38 36
37 51
37 5
36 19
35 33
34 46
33 59
33 "
32 23
43
43
44
44
45
45
45
46
46
46
47
47
48
48
48
88° 51' 10"
//
•65 24
65 6
64 48
64 30
64 10
■63 50
63 30
18
18
18
20
20
20
22
22
23
23
24
24
26
26
26
•59 54 27
It '^ 28
58 59
58 30
58 I
63 8
62 46
62 23
■62 o
61 36
61 12
60 46
60 20
Decl.
H. A.
29
29
29
•57 32
57 I ^j
56 30 \\
55 59 iy
55 27 ^
33
33
33
35
34
36
36
36
37
38
38
38
1! ^l 40
39
41
41
42
43 37 ^l
42 54 li
■^^ ^l 44
41 28^
4045 ^
40 I ^^
39 16
-54 54
54 21
53 48
53 13
52 39
-52 3
51 27
50 51
50 14
49 36
■48 58
48 20
47
47 I
46 22
■45 41
45 o
44 18
■38 31
37 46
37 o
36 14
35 28
-34 41
33 54
33 7
32 19
45
45
45
46
46
46
47
47
47
48
48
h
22
22
22
22
22
21
21
21
21
m
48
45
42
39
36
33
30
27
24
21
18
15
12
9
6
3
o
57
54
51
48
45
4^
39
36
33
30
27
24
21
18
15
12
9
6
3
o
21
21
20 57
54
51
20 48
45
42
39
36
20 33
30
27
24
21
20 18
15
12
9
6
20 3
20 o
19 57
54
19 5»
VEv>\i ii\
TABLE I.
683
FOR FINDING THE LATITUDE BY AN OBSERVED ALTITUDE OF POLARIS, 1913.
\Decl.
Dec!
y
h.aNv^
88° 50' 20"
88° 50' 30"
88° 50' 40"
SB" 50' 50"
88° 51' 0"
88° 51' 10"
H.A.
h m
/ //
/ //
/ //
/ //
/ //
/ //
h
m
4 9
12
15
18
3' 4^^
30 '5 11
29 25 en
-3« 48
30 59 11
30 10 ^^
29 20 i
-3' 44 49
30 55 Yg
30 6j^
29 J6 5
-3' 40
30 51 ll
30 2 49
29 "3 to
-3« 35 49
3° 46 ll
29 58 4
^2 9 50
28 .9 5„
-3« 31 40
3° 42 49
'"^ '5 ?
19
51
48
45
42
21
28 35 5°
28 30 50
28 26 50
28 23 50
28 .5 5°
39
4 24
-27 45 so
"'2 '*" 50
26 50 lo
25 9 5
24 .8 5^
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26 46 5°
25 56 5
25 55,
24 14 5,
-27 33 c,
26 42 5^
25 52 5
25 « 5
24 .0 5^
-27 29
26 39 5
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24 58 5
24 75.
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26 36 5°
25 45 5
24 55 5,
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36
27
30
26 55 5°
26 4^
25 >3 |,
24 .2 5^
33
30
33
36
27
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42
45
48
51
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22 38 11
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13 41 vi
12 48 53
II 54 54
II 0 ^^
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13 39 ^^
12 46 53
II 53 \i
10 59 -tr
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9 17 54
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8 22 54
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9 13 54
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33
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7 29 54
6 35 54
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7 27 54
6 33 54
7 2^53
7 ^5 53
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18
21
18
15
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, 55
54
S 54
- I 6
-16
-16,
-16
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— I 7
18
6
S 57
— 0 12 54
— 0 12 54
- 0 '2 54
— 0 12 54
— 0 12 54
— 0 13 54
3
6 0
3
6
+ 0 42 54
I 37 55
. ' 'I 5i
+ 0 42 54
^' S4.
. ' 'I 55
+ 0 42 54
I 36 54
^ ^ 30 54
+ 0 42 54
136 54
2 30 54
+ 0 42 54
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^ ^ '9 55
+ 0 41 54
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18
17
57
54
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12
15
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+ ^ ^4 - ,
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+ 3 24 ^ .
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+ 3 23
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17
51
48
45
42
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7 455
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^^ '^5:
^^ '^11
6 59 54
^^ 54
•
39
6 24
27
30
33
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85455
9 48 54
10 42 ^l
+ 7 58 - .
852 \\
9 46 54
10 40 \^
+ 7 56 c.
9 44 54
10 38 54
'' 32 54
+ 7 55 5^
94354
10 37 IX
„ 30 53
+ 7 54 „
84753
^^' 54
10 35 r:
11 28 ^^
54
+ 7 53 .^
8 46 53
10 33 ^^
11 26 53
54
17
36
33
30
27
24
6 39
42
45
48
51
+12 30
'^ "'^ 53
•4 17 *:?
■5 'O „
+ '' '* 54
'3 22 ^Jt
14 15 %\
■5 8 53
A '53
+ 12 26
«3 20 ^*
14 «3 ii
•5 ^53
. 'i '' 53
+ 12 24
'3 '^ 53
14 II ^::
IS 4
S^
15 57 ^2
-hl2 22
13 16 54
14 953
'5 ' 53
15 54 ^^
+ 12 20
13 13 li
14 6 53
'^ 58 ^3
^5 5^ ll
17
21
18
15
12
9
6 54
6 57
+16 56
17 49 ^^:J
+ 16 54
17 46 5^
+ .6 52
«7 44 5
+ 16 49 .,
17 41 ^2
+ 16 46 .2
17 38 ll
+ 16 44 ^^
17 36 {I
17
6
1
7 0
3
7 6
18 42 5^
19 34 ^2
+ 20 26 52
18 38 5^
19 30 I
+20 22 •'
18 36 52
«9 28 5^
+20 20 ''
18 33 5^
19 25 \^
18 30 5\
lEph 13A
684
TABLE I.
FOR FINDING THE LATITUDE BY AN OBSERVED ALTITUDE OF POLARIS, 1913.
Decl.
H. A.
h
7
7
8
8
m
6
9
12
15
18
21
24
27
30
33
36
39
42
45
48
51
54
57
o
3
6
9
12
15
18
8
8
8
21
24
27
30
33
36
39
42
45
48
51
54
8 57
9 o
3
9 6
9
12
15
18
9 21
24
27
30
33
9 36
39
42
45
48
9 51
54
57
o
3
88® 50' 20
//
9
10
10
-|-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
26
16
6
56
45
34
23
IX
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
52
26
59
32
5
37
9
40
10
39
8
36
4
31
57
52
52
52
51
51
51
51
50
50
50
49
49
49
48
48
48
48
47
47
46
46
46
45
45
44
44
44
43
42
42
42
41
41
40
40
39
39
39
38
38
37
36
36
35
35
34
33
33
33
32
32
31
30
29
29
28
28
27
26
88° 50' 30
//
+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
46
28
10
51
32
13
53
33
12
51
30
8
45
22
58
34
9
44
18
51
24
57
29
I
32
2
31
o
28
55
22
48
52
52
52
51
51
51
51
50
50
49
49
49
49
48
48
48
48
47
47
46
46
46
45
45
44
44
43
43
42
42
41
41
41
40
40
39
39
39
38
37
37
36
36
35
35
34
33
33
33
32
32
31
30
29
29
28
27
27
26
88° 50' 40
//
+20
21
22
22
23
+24
25
26
27
27
+28
29
30
31
32
+32
33
34
35
35
+36
37
38
39
39
+40
41
41
42
43
+44
44
45
46
46
+47
48
48
49
50
+50
51
51
52
53
+53
54
54
55
55
+56
56
57
57
58
+58
59
59
60
+60
20
12
4
55
46
37
28
18
8
58
47
36
25
14
2
50
37
24
II
58
44
30
16
I
45
29
13
56
39
21
3
45
26
7
47
27
6
45
23
I
38
15
51
26
I
36
10
43
16
49
21
52
23
53
22
51
19
46
13
39
52
52
51
51
51
51
50
50
50
49
49
49
49
48
48
47
47
47
47
46
46
46
45
44
44
44
43
43
42
42
42
41
41
40
40
39
39
38
38
37
37
36
35
35
35
34
33
33
33
32
31
31
30
29
29
28
27
27
26
880 50' 50
//
+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
56
38
19
o
40
20
59
38
16
53
30
6
42
18
53
27
I
34
7
40
12
43
14
44
13
42
10
37
4
30
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
88° 51' o
//
+20
21
21
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
45
46
+47
47
48
49
49
+50
50
51
52
52
+53
53
54
54
55
+56
56
57
57
58
+58
59
59
59
+60
//
14
6
57
48
39
30
20
10
o
49
38
27
16
4
52
40
27
14
I
47
33
19
4
49
33
17
o
43
26
8
50
32
12
53
33
13
52
30
8
46
23
59
35
10
45
19
53
26
59
32
4
35
5
35
4
33
I
28
55
21
52
51
51
51
51
50
50
50
49
49
49
49
48
48
48
47
47
47
46
46
46
45
45
44
44
43
43
43
42
42
42
40
41
40
40
39
38
38
38
37
36
36
35
35
34
34
33
33
33
32
31
30
30
29
29
28
27
27
26
88** 51' 10
//
+20
21
21
22
23
+24
25
26
26
27
+28
29
30
31
31
+32
33
34
34
35
+36
37
37
38
39
+40
40
41
42
43
+43
44
45
45
46
+47
47
48
49
49
+50
50
51
52
52
+53
53
54
54
55
+55
56
56
57
57
+58
58
59
59
+60
//
II
3
54
45
36
26
16
6
56
45
34
23
12
o
48
36
23
10
56
42
28
14
59
43
28
II
55
38
20
3
44
26
6
47
27
6
45
23
I
39
16
52
28
3
38
12
46
19
52
24
56
27
57
27
56
25
53
20
47
13
52
51
51
51
50
50
50
50
49
49
49
49
48
48
48
47
47
46
46
46
46
45
44
45
43
44
43
42
43
41
42
40
41
40
39
39
38
38
38
37
36
36
35
35
34
34
33
33
32
32
31
30
30
29
29
28
27
27
26
h m
16 54
51
48
45
42
16 39
36
33
30
27
16 24
21
18
15
12
16 9
6
3
16 o
15 57
15 54
51
48
45
42
15 39
36
11
30
27
15 24
21
18
15
12
15
9
6
3
15 0
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
lEph 13I
TABLE I.
685
FOR FINDING THE LATITUDE BY AN OBSERVED ALTITUDE OF POLARIS, 1913.
^\DecL
Dccl/
H.A^\.
88<» 50' 20"
88° 50' 30"
88° 50' 40"
88*> 50' 50"
8805I'
0"
88° 51' 10"
yYi,K,
h m
/ //
/ //
/ //
/ //
/ //
/ //
h m
10 3
+60 57 j6
+60 48
26
+60 39
26
+60 30
26
+60 21
26
+?• *3 26
13 57
6
61 23 „
6« 48 'i
61 14
25
61 5
25
60 56
25
0% ^
60 47
25
6039 „
61 4 }.
54
9
61 39
61 30
61 21
61 12
51
12
62 13 ,5
62 4
25
61 55
25
61 46
25
61 37
25
6' 28 ^1
48
15
62 37 *
•'' 23
62 28
24
23
62 19
24
23
62 10
24
23
62 I
24
23
6. 52 ^4
45
10 18
+63 0 „
+62 51
^ t
+62 42
^ ^
+62 33
^ 'Y
+62 24
0 <9
+62 15
13 42
21
24
63 23 11
63 45 "
63 14
63 36
23
22
55
63 5
63 27
23
22
62 56
63 18
23
22
1 T
62 47
63 9
23
22
21
62 38 ^3
63 0^^
39
36
27
^ 7 "
63 58
21
63 48
21
63 39
* L
21
63 30
21
^3 ^' 2
33
30
64 28 11
64 19
20
64 9
20
64 0
mi M
20
63 51
mm A
20
«3 42 ^;
30
10 33
+64 48 20
+64 39
■2f>
+64 29
20 &^^ ^^
20
+64 II
19
19
18
+^ ''9
^ " >9
64 40 ,1
13 27
36
*5 8 it
64 59
64 49
10 64 40
64 30
24
39
^5 27 1
65 18
*9
18
65 8
*9
18
64 59
*9
18
64 49
21
42
tl « 1
65 36
1 0
18
65 26
M. 0
18
65 17
18
65 7
18
64 58 "
65 15 15
18
45
66 3 1;
65 54
17
65 44
17
65 35
17
65 25
17
15
10 48
+66 20 ,
+66 II
16
t er
+66 I
/
16
+65 52
#
+65 42
t6
+65 32 ,6
13 12
51
66 36 \l
66 52 Jt
66 27
66 17
66 8
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65 58
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65 48 °
66 3 I!
9
54
66 42
*5
66 32
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66 23
15
66 13
15
6
10 57
67 7 i
66 57
15
66 47
15
66 38
15
66 28
15
66 18 '5
3
II 0
67 2, ;4
+67 35 ,,
67 II
14
14
67 I
14
14
66 52
14
66 42
14
66 32 \\
13 0
II 3
+67 25
1 t
+67 15
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+67 5
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+66 45 ,,
12 57
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68 0
68 11
67 38
13
12
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II
10
67 28
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10
67 18
13
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67 8
13
12
II
II
10
66 58 \\
54
9
12
67 50
68 I
67 40
67 51
67 30
67 41
II
II
10
67 20
67 31
67 10 ^
67 22 ^
51
48
15
^8 " j;
68 12
68 2
67 52
67 42
67 32 ;°
45
II 18
+68 32 ^
+68 22
^\
+68 12
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+68 2
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+67 52
g^
+67 42 ,0
12 42
21
68 41 9
68 31
9
68 21
9
68 II
9
68 I
9
67 52 '1
68 0 1
39
24
68 50 9
68 40
9
68 30
9
g
68 20
9
g
68 10
9
g
36
27
68 58 °
68 48
68 38
0
fm
68 28
0
mm
68 18
68 8 ,
33
30
69 5 ^
6855
7
7
68 45
7
7
68 35
I
6
68 25
7
7
68 15 \
30
II 33
+69 12 ,
69 18 °
+69 2
6
+68 52
#
6
+68 42
+68 32
+68 22 -
12 27
36
69 8
68 58
68 48
68 38
68 28 °
24
39
69 23 ^
69 27 T
69 31 3
69 13
5
4
4
1
69 3
5
4
6853
5
4
4
3
2
2
68 43
5
4
4
3
6833 ?
6838 \
6841 1
21
42
69 17
69 7
6857
68 47
18
45
69 21
69 II
4
'I
69 I
68 51
15
II 48
+69 34
69 36 2
+69 24
0
2
0
+69 14
2
+69 4
+68 54
0
+6844 ,
6847 \
6849 0
12 12
51
69 26
69 16
69 6
68 56
2
f
9
54
69 38 ^
69 28
T
69 18
T
69 8
68 58
6
II 57
69 39 ,
69 29
k
I
69 19
1
69 9
T
68 59
I
6849 ,
+68 50 '
3
12 0
+69 40
+69 30
+69 20
X
+69 10
X
+69 0
12 0
TABLE la.
Table I has been computed for an altitude of 45°. For other altitudes, corrections taken
fxom the following table may be applied when the desired degree of accuracy requires it.
Altitude.
Altitude.
^^^.^^
10°
20°
30°
40°
50°
60°
700
""'"'^
H.A.
^"'^''^^-^^
H.A.
h
h
//
If
//
//
//
//
//
h
h
0
12
0
0
0
0
0
0
0
12
24
I
II
- 3
— 2
— 2
— I
0
+ 2
+ 5
13
23
2
10
9
7
5
2
+2
8
18
14
22
3
9
17
13
9
4
4
16
36
15
21
4
8
26
20
13
5
6
24
55
16
20
5
7
32
25
16
7
8
28
68
17
19
6
6
-35
-27
-18
-7
+8
+30
+73
18
18
lEph 13]
TABLE INTO MEAN SOLAR TIME.
TO BE FROM A SIDEREAI, TIME
TABLE INTO MEAN SOLAR TIME. 687
TO BE FROM A SIDEREAL TIME J
tabu; into mean solar time.
TO BE FROM A SIDEREAL TIME ^-PSi*!*'^
TABLE in.— MEAN SOLAR INTO SIDEREAL TIME.
689
IX) BE ADDED TO A MEAN TIME INTERVAL.
Mean
Solar.
0"
i" 2"
3-
4''
5-
&>
f
]?or
Second8.
m
m s
m 8
m s
m 8
m 8
m 8
m 8
m 8
8
8
o
0 O.OCX)
0 9.856
019.713
0 29.569
0 39.426
0 49.282
059.139
I 8.995
0
0.000
I
0 0.164
0 10.021
0 19.877
0 29.734
0 39.590
0 49.447
0 59.303
X 9.160
I
0.003
2
0 0.329
0 10.185
0 20.041
0 29.898
0 39.754
049.611
0 59.467
I 9.324
2
0.005
3
0 0.493
0 10.349
0 20.206
0 30.062
039.919
0 49-775
0 59.632
X 9.488
3
0.008
4
0 0.657
0 10.514
0 20.370
0 30.227
0 40.083
0 49.939
0 59.796
I 9.652
4
0.01 1
5
0 0.821
0 10.678
0 20.534
0 30.391
0 40.247
050.104
0 59.960
I 9.817
5
0.014
6
0 0.986
0 10.842
0 20.699
0 30.555
040.412
0 50.268
I 0.124
I 9.981
6
0.016
7
0 1. 150
0 11.006
0 20.863
030.719
0 40.576
0 50.432
I 0.289
1 10.145
7
0.019
8
0 1.314
0 II. 171 0 21.027
0 30.884
0 40.740
0 50.597
I 0.453
I 10.310
8
0.022
9
0 1.478
0 11.335
0 21. 191
0 31/048
0 40.904
0 50.761
I 0.617
1 10.474
9
0.025
lO
0 1.643
0 11.499
021.356
031.212
041.069
0 50.925
I 0.782
I 10.638
10
0.027
II
0 1.807
0 11.663
0 21.520
031.376
041.233
051.089
I 0.946
I 10.802
II
0.030
12
0 1.971
0 11.828
0 21.684
031.541
041.397
051.254
I I. no
I 10.967
12
0.033
13
0 2.136
0 11.992
0 21.849
031.705
041.561
051.418
I 1.274
I II. 131
13
0.036
14
0 2.300
0 12.156
0 22.013
031.869
041.726
051.582
I 1.439
1 11.295
14
0.038
15
0 2.464
0 12.321
0 22.177
0 32.034
041.890
051.746
I 1.603
I "459
15
0.041
i6
0 2.628
0 12.485
022.341
032.198
0 42.054
051.911
I 1.767
I 11.624
16
0.044
17
0 2.793
0 12.649
0 22.506
0 32.362
042.219
0 52.075
I 1.932
I 11.788
17
0.047
i8
0 2.957
0 12.813
0 22.670
032.526
042.383
052.239
I 2.096
I 11.952
18
0.049
19
0 3.121
0 12.978
0 22.834
032.691
0 42.547
0 52.404
I 2.260
I 12.117
19
0.052
20
0 3.285
0 13.142
0 22.998
0 32.855
042.711
0 52.568
I 2.424
I 12.281
20
0.055
21
0 3450
0 13.306
023.163
0 33019
042.876
052.732
I 2.589
I 12.445
21
0.057
22
0 3.614
0 13.471
023.327
033.183
0 43.040
052.896
I 2.753
I 12.609
22
0.060
23
0 3-778
0 13.635
0 23.491
0 33.348
043.204
053.061
I 2.917
I 12.774
23
0.063
24
0 3.943
0 13.799
0 23.656
033.512
0 43.368
053.225
I 3.081
I 12.938
24
0.066
25
0 4.107
0 13.963
0 23.820
0 33.676
0 43.533
0 53389
I 3.246
I 13.102
25
0.068
26
0 4.271
0 14.128
0 23.984
0 33.841
0 43.697
0 53.554
I 3.410
I 13.266
26
0.071
27
0 4-435
0 14.292
0 24.148
0 34.005
0 43.861
053.718
I 3.574
I 13.431
27
0.074
28
0 4.600
0 14.456
024.313
034.169
0 44.026
0 53.882
I 3.739
I 13.595
28
0.077
29
0 4.764
0 14.620
0 24.477
0 34.333
044.190
0 54.046
I 3.903
I 13.759
29
0.079
30
0 4.928
0 14.785
0 24.641
0 34.498
0 44.354
054.211
I 4.067
I 13.924
30
0.082
31
0 5.093
0 14.949
0 24.805
0 34.662
044.518
0 54.375
I 4.231
I 14.088
31
0.085
32
0 5.257
0 15. 113
0 24.970
0 34.826
0 44.683
0 54.539
I 4.396
I 14.252
32
0.088
33
0 5.421
0 15.278
025.134
0 34.990
0 44.847
0 54.703
I 4.560
I 14.416
33
0.090
34
0 5-585
0 15.442
0 25.298
035.155
045.011
0 54.868
I 4.724
I 14.581
34
0.093
35
0 5-750
0 15.606
0 25.463
035.319
045.176
055.032
I 4.888
I 14.745
35
0.096
36
0 5.914
0 15.770
025.627
0 35.483
045.340
055.196
I 5.053
I 14.909
36
0.099
37
0 6.078
0 15.935
025.791
0 35.648
045.504
055.361
I 5.217
I 15.073
37
O.IOI
38
0 6.242
0 16.099
0 25.955
035.812
0 45.668
055.525
I 5.381
I 15.238
38
0.104
39
0 6.407
0 16.263
0 26.120
0 35.976
0 45.833
0 55.689
I 5.546
I 15.402
39
0.107
40
0 6.571
0 16.427
0 26.284
036.140
0 45.997
055.853
I 5.7x0
I 15.566
40
O.I 10
41
0 6.735
0 16.592
0 26.448
0 36.305
046.161
056.0x8
I 5.874
I 15.731
41
O.I 12
42
0 6.900
0 16.756
0 26.612
0 36.469
0 46.325
056.182
I 6.038
I 15.895
42
O.I 15
43
0 7.064
0 16.920
0 26.777
0 36.633
0 46.490
0 56.346
I 6.203
I 16.059
43
O.I 18
44
0 7.228
0 17.085
0 26.941
0 36.798
0 46.654
056.510
I 6.367
I 16.223
44
0.120
45
0 7.392
0 17.249
027.105
0 36.962
046.818
0 56.675
I 6.531
I 16.388
45
0.123
46
0 7.557
0 17.413
027.270
037.126
0 46.983
056.839
I 6.695
I 16.552
46
0.126
47
0 7.721
0 17.577
0 27.434
037.290
047.147
057.003
I 6.860
I 16.716
47
0.129
48
0 7.885
0 17.742
0 27.598
037.455
047.3"
057.168
I 7.024
I 16.881
48
O.I3I
49
0 8.049
0 17.906
0 27.762
037.619
047.475
057.332
I 7.X88
I 17.045
49
0.134
50
0 8.214
0 18.070
0 27.927
0 37.783
0 47.640
0 57.496
I 7.353
I 17.209
50
0.137
51
0 8.378
0 18.234
0 28.091
0 37.947
0 47.804
0 57.660
I 7-517
I 17.373
51
0.140
52
0 8.542
0 18.399
0 28.255
038.112
047.968
057.825
I 7.681
I 17.538
52
0.142
53
0 8.707
0 18.563
0 28.420
038.276
048.132
057.989
I 7.845
I 17.702
53
0.145
54
0 8.871
0 18.727
0 28.584
0 38.440
048.297
058.153
I 8.010
I 17.866
54
0.148
55
0 9.035
0 18.892
0 28.748
0 38.605
048.461
058.317
I 8.174
I 18.030
55
0.15 1
56
0 9.199
0 19.056
0 28.912
0 38.769
048.625
0 58.482
I 8.338
I 18.195
56
0.153
57
0 9.364
0 19.220
0 29.077
0 38.933
0 48.790
0 58.646
I 8.502
I 18.359
57
0.156
58
0 9.528
0 19.384
0 29.241
0 39.097
0 48.954
058.810
I 8.667
I 18.523
58
0.159
59
0 9.692
0 19.549
0 29.405
0 39.262
049.118
0 58.975
I 8.831
I 18.688
59
0.162
Mean
Solar.
0^
I^
2"
3-
4"
5-
6^
1 t
L '5s
For
19 13 44
IRph 13A
690 TABLE ni.— MEAN SOLAR INTO
TO BE ADDED TO A MEAN TIUB
TABLE III.— MEAN SOLAR INTO SIDEREAL TIME.
691
TO BE ADDED TO A MEAN TIME INTERVAL.
Mean
Solar.
m
o
I
2
3
4
5
6
7
8
9
lO
zi
12
13
14
15
i6
17
i8
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
46
47
48
49
50
51
52
53
54
55
56
57
58
59
16'
m 8
2 37704
2 37.868
2 38.032
2 38.196
2 38.361
17'
m 8
2 47.560
2 47.724
2 47.889
2 48.053
2 48.217
2 38.525 2 48.381
2 38.689 I 2 48.546
2 38.854 2 48.710
2 39.018 j 2 48.874
2 39.182 I 2 49039
2 39.346 j 2 49.203
239.511 249.367
2 39.675
2 39839
2 40.003
Mean
Solar.
2 40.168
2 40.332
2 40.496
2 40.661
2 40.825
2 40.989
241.153
241.318
2 41.482
2 41.646
2 41.810
241.975
242.139
2 42.303
2 42.468
2 42.632
2 42.796
2 42.960
2 43.125
2 43.289
2 43.453
243.617
2 43.782
2 43.946
2 44.110
2 44.275
2 44-439
244.603
2 44.767
2 44932
2 45.096
2 45.260
2 45.425
2 45589
2 45.753
245.917
2 46.082
2 46.246
2 46.410
2 46.574
2 46.739
2 46.903
2 47.067
2 47.232
2 47396
2 49.531
2 49.696
2 49.860
2 50.024
2 50.188
2 50.353
250.517
2 50.68 1
2 50.846
2 51.010
251.174
251.338
251.503
2 51.667
2 51.831
251.995
2 52.160
2 52.324
2 52.488
2 52.653
2 52.817
2 52.981
253.145
2 53.310
2 53.474
2 53.638
2 53803
2 53.967
254.131
2 54.295
2 54.460
2 54.624
2 54.788
2 54.952
255.117
2 55.281
2 55.445
2 55.610
2 55.774
2 55.938
2 56.102
2 56.267
2 56.431
2 56.595
2 56.759
2 56.924
2 57.088
2 57.252
18^
16*
17'
m 8
2 57.417
2 57.581
2 57.745
257.909
2 58.074
2 58.238
2 58.402
2 58.566
2 58.731
2 58.895
2 59.059
2 59224
2 59388
2 59.552
2 59.716
2 59.881
3 0.045
3 0.209
3 0.373
3 0.538
19'
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
3
3
3
3
3
3
0.702
0.866
3
3
3 1031
3 1. 195
3 1.359
1.523
1.688
1.852
2.016
2.181
2.345
2.509
2.673
2.838
3.002
3.166
3.330
3.495
3.659 _
3823 3
m
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
3
3
3
3
3
3
3.988
4.152
4.316
4.480
4645
4.809
4.973
5.137
5.302
5.466
5630
5.795
5.959
6.123
6.287
6.452
6.616
6.780
6.944
7.109
18^
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
8
7.273
7.437
7.602
7.766
7.930
8.094
8.259
8.423
8.587
8.751
8.916
9.080
9.244
9.409
9.573
9.737
9.901
0.066
0.230
0.394
0.559
0.723
0.887
1. 05 I
1. 216
1.380
1-544
1.708
1.873
2.037
2.201
2.366
2.530
2.694
2.858
3.023
3.187
3-351
3.515
3.680
3.844
4.008
4->73
4-337
4501
4.665
4-830
4.994
5.158
5.322
5.487
5.651
5-815
5-980
6.144
6.308
6.472 ,
6.637
6.801
6.965!
20'
m
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
8
7.129
7.294
7.458
7.622
7.787
7.951
8.115
8.279
8.444
8.608
8.772
8.937
9.101
9.265
9.429
2t
9.594
19.758
[9.922
3 20.086
3 20.251
3 20.415
3 20.579
3 20.744
3 20.908
3 21.072
3 21.236
3 21.401
321.565
3 21.729
321.893
3 22.058
3 22.222
3 22.386
322.551
322.715
3 22.879
3 23-043
3 23.208
3 23.372
3 23.536
3 23.700
3 23.865
3 24.029
324.193
3 24.358
3 24.522
3 24.686
3 24.850
3 25.015
325.179
3 25.343
3 25.508
3 25.672
3 25.836
3 26.000
3 26.165
3 26.329
3 26.493
3 26.657
3 26.822
19" i ao**
m 8
3 26.986
327.150
327.315
3 27.479
3 27.643
3 27.807
3 27972
3 28.136
3 28.300
3 28.464
3 28.629
3 28.793
3 28.957
3 29.122
3 29.286
3 29.450
3 29.614
3 29-779
3 29.943
330.107
330.271
3 30.436
330.600
3 30.764
3 30.929
3 31.093
331.257
331.421
331.586
3 31.750
331.914
3 32.078
3 32.243
3 32.407
332.571
3 32.736
3 32.900
333.064
3 33.228
3 33-393
3 33.557
333.721
3 33.886
3 34050
334.214
3 34.378
3 34-543
3 34.707
334.871
3 35.035
3 35.200
3 35.364
3 35528
3 35.693
3 35.857
336.021
3 36.x 85
3 36.350
22'
m 8
3 36.842
3 37.007
337.171
3 37.335
3 37.500
3 37.664
3 37.828
3 37.992
338.J57
338.321
3 38.485
3 38.649
338.814
3 38.978
339.142
3 39.307
339.471
3 39.635
3 39-799
3 39.964
340.128
3 40.292
3 40.456
340.621
3 40.785
3 40.949
34i."4
341.278
341-442
3 41.606
341.771
341.935
342.099
3 42.264
3 42.428
3 42.592
3 42.756
342.921
3 43.085
3 43.249
3 43.413
3 43.578
3 43.742
343906
344.071
3 44.235
344.399
3 44.563
3 44.728
3 44.892
3 45.056
3 45.220
3 45.385
3 45.549
345.713
3 45.878
3 46.042
3 46.206
23'
3 36.514 '3 46.370
3 36.678 j 3 46.535
m 8
346.699
3 46.863
3 47027
347.192
3 47.356
3 47.520
3 47-685
3 47-849
3 48.013
348.177
3 48.342
3 48.506
3 48.670
3 48.834
3 48.999
349-163
3 49.327
3 49.492
3 49.656
3 49.820
3 49-984
350.149
350.3x3
3 50.477
3 50.642
3 50.806
3 50.970
35X.134
35x299
35X.463
35x627
351.791
351.956
3 52.X20
3 52.284
3 52.449
352.6x3
3 52.777
352.941
353.X06
3 53.270
3 53.434
3 53.598
3 53763
3 53.927
3 54.091
3 54.256
3 54420
3 54.584
3 54.748
3 54.913
3 55.077
3 55.241
3 55.405
3 55.570
3 55.734
3 55.898
3 56.063
3 56.227
3 56.391
Per
Seoonda*
21
[ 24" I 'i^'^
8
o
I
2
3
4
5
6
7
8
9
10
II
12
13
14
X5
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
3x
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.X04
0.107
O.I 10
O.I 12
O.II5
O.II&
0.120
0.123
0.126
0.129
0.I3I
0.134
0.137
0.140
0.142
0.145
0.148
0.I5I
0.153
0.156
0.159
0.162
\
692
TABLE IV.
AZIMUTH OF POLARIS AT ALL HOUR ANGLES, 1913.
[For hour angles o'' to 1 1** the star is west of north, and for hour angles 1 2'* to 24'* it is east of north.]
\.
Lat.
t
1
\AK.y
H.A.
IO«
15°
20®
25°
30°
35°
40° 45°
1
1
50^'
^yn.K.
h
m
0
/
0
/
0 /
0 /
0
/
0 /
0 /
i
0 / 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 3-9
0 4.0
0
4.2
0 4.5
0 4.8
0 5.2
0 5.8
22> 48
24
0
7-3
0
7-5
0 7.8
0 8.1
0
8.5
0 9.0
0 9.6
0 10.5
0 1 1.5
36
36
0
II. 0
0
II-3
0 11.6
0 12. 1
0
12.7
0 13-4
0 14.4
0 15.6
0 17.3
24
48
0
147
0
15.0
0 15.5
0 16.0
0
16.8
0 17.8
0 19.1
0 20.8
0 22.9
12
I
0
0
18.2
0
18.7
0 19.2
0 20.0
0
20.9
0 22.2
0 23.8
0 25.9
0 28.6
23 0
12
0
21.8
0
22.3
0 22.9
0 23.8
0
25.0
0 26.5
0 28.4
0 30.9
0 34- 1
22 48
24
0
25.2
0
25.8
0 26.6
0 27.6
0
29.0
0 30.7
0 32.9
0 35.8
0 39.5
36
36
0
28.7
0
29.3
0 30.2
0 31-4
0
32.9
0 34.8
0 37-4
0 40.6
0 44.8
24
48
0
32.0
0
32.7
0 33-7
0 35.0
0
36.7
0 38.9
0 41.7
0 45-3
0 50.0
12
2
0
0
35-3
0
36.0
0 37.1
0 38.5
0
40.4
0 42.8
0 45-9
0 49.9
0 55-0
22 0
12
0
38.4
0
39.2
0 40.4
0 42.0
0
44.0
0 46.6
0 50.0
0 54.3
0 59.9
21 48
24
0
415
0
42.3
0 43.6
0 45-3
0
47.5
0 50 3
0 53-9
0 58.5
I 4-6
36
36
0
44.4
0
45.3
0 46.7
0 48.5
0
50.8
0 53.8
0 57.7
I 2.6
I 9.1
24
48
0
47.2
0
48.2
0 49.6
0 51.5
0
54-0
0 57.2
I 1.3
I 6.5
I 13.4
12
3
0
0
49.8
0
50.9
0 52.4
0 54.4
0
57.0
I 0.4
I 4.7
I 10.3
I 17-5
21 0
12
0
52.4
0
53.5
0 55.1
0 57-2
0
59-9
I 3-4
I 8.0
I 13.8
I 21.4
20 48
24
0
54.8
0
55-9
0 57.6
0 59.8
2.6
I 6.3
I 1 1.0
I 17.1
I 25.0
36
36
0
57.0
0
58.2
0 59-9
I 2.2
5-2
1 9.0
I 13.9
I 20.2
I 28.4
24
48
0
59.1
0.3
I 2.1
I 4.4
7.5
I 11.5
I 16.5
I 23.1
I 31.6
12
4
0
I.O
2.3
I 4.1
I 6.5
9.7
I 13.8
I 19.0
I 25.7
I 34.5
20 0
12
2.8
4-1
I 5-9
I 8.4
1 1.6
I 15.8
I 21.2
I 28.1
I 37.1
19 48
24
4.3
5.7
1 7.5
I 10. 1
13-4
I 17.7
I 23.2
I 30- 2
I 39.4
36
36
5.7
7.1
I 9.0
I 11.6
15.0
I '9-3
I 24.9
I 32.1
I 41.5
24
48
70
8.3
I 10.3
I 12.9
16.3
I 20.8
I 26.4
I 33-7
1 43-2
12
5
0
8.0
9.4
I 11.3
I 14.0
17.5
I 22.0
I 27.7
I 35-1
I 44.7
19 0
12
8.8
10.2
I 12.2
I 14.9
18.4
I 23.0
I 28.8
I 36.2
I 45-9
18 48
24
9-5
10.9
I 12.9
I 15.6
19.1
I 23.7
I 29.5
I 37.1
I 46.8
36
36
1 0.0
11.4
I 13.4
I 16.1
19.6
I 24.2
I 30- 1
I 37-6
I 47-4
24
48
10.3
11.6
I 13.6
I 16.4
19.9
I 24.5
I 30.4
I 37.9
I 47.7
12
6
0
10.3
II. 7
I 13.7
I 16.4
20.0
I 24.6
I 30.4
I 38.0
1 47-7
18 0
12
10.3
11.6
I 13-6
I 16.3
19.8
I 24.4
I 30- 2
I 37.7
I 47-5
17 48
24
1 0.0
11.3
I 13-3
I 15-9
19-5
I 24.0
I 29.8
I 37.2
I 46.9
36
36
9-4
10.8
I 12.7
I 15-4
18.9
I 23.3
I 29.1
I 36.4
I 46.0
24
48
8.8
10. 1
I 12.0
I 14.6
18.0
1 22.5
I 28.1
I 35.4
I 44.9
12
7
0
7.8
9.2
I II. I
I 13.6
17.0
1 21.4
I 27.0
I 34.1
I 43.4
17 0
12
6.8
8.1
I 1 0.0
I 12.5
15.8
1 20.1
I 25.6
I 32.6
I 41.7
16 48
24
5-5
6.8
I 8.6
I II. I
14.4
I 18.5
I 23.9
I 30.8
I 39-7
36
36
4.2
5.4
I 7.1
I 9.6
12.7
I 16.8
I 22.0
I 28.8
I 37-5
24
•
48
2.6
3.7
I 5.5
I 7.8
10.9
I 14.9
I 20.0
1 26.5
I 35.0
12
8
0
0.8
1.9
I 3.6
I 5.9
8.9
I 12.7
I 17.7
I 24.0
I 32.2
16 0
12
0
58.9
0.0
I 1.6
I 3.8
6.7
I 10.4
I 15.1
I 21.3
I 29.2
15 48
24
0
56.8
0
57.8
0 59-4
I 1-5
4.3
I 79
I 12.4
I 18.3
I 26.0
36
36
0
54.5
0
55.5
0 57.0
0 59-1
1.7
I 5.1
I 95
I 15-2
I 22.5
24
48
0
52.2
0
53.1
0 54.5
0 56.4
0
59.0
I 2.3
I 6.5
I II. 8
1 18.8
12
9
0
0
49.6
0
50.5
0 51 9
0 53.7
0
56.1
0 59.2
I 3-2
I 8.3
I 14.9
15 0
12
0
46.9
0
47.8
0 49.1
0 50.8
0
53.1
0 56.0
0 59.8
I 4.6
I 10.8
14 48
24
0
44.2
0
44-9
0 46.1
0 47.8
0
499
0 52.6
0 56.2
I 0.7
I 6.6
36
36
0
41.2
0
42.0
0 43.1
0 44.6
0
46.6
0 49.1
0 52.4
0 56.7
I 2.1
24
48
0
38.2
0
38.9
0 39-9
0 413
0
43.1
0 45.5
0 48.6
0 52.5
0 57.5
12
10
0
0
35.1
0
35-7
0 36.6
0 37.9
0
39.6
0 41.8
0 44.6
0 48.1
0 52.8
14 0
12
0
31.8
0
32.4
0 33.3
0 34.4
0
35.9
0 37.9
0 40.4
0 43-7
0 47.9
13 48
-^4
0
28.5
0
29.0
0 29.8
0 30.8
0
32.2
0 34.0
0 36.2
0 39- 1
0 42.9
36
36
0
252
0
25.6
0 26.2
0 27.2
0
28.4
0 29.9
0 31-9
0 34.5
0 37.8
24
48
0
21.7
0
22.1
0 22.6
0 23.4
0
24.5
0 25.8
0 27.5
0 29.7
0 32.6
12
II
0
0
18.2
0
18.5
0 18.9
0 19.6
0
20.5
0 21.6
0 23.0
0 24.9
0 27.3
13 0
12
0
14.6
0
14.8
0 15.2
0 157
0
16.4
0 17-3
0 18.5
0 20.0
0 21.9
12 48
24
0
1 1.0
0
II. 2
0 11.5
0 11.8
0
12.4
0 13.0
0 13-9
0 15.0
0 16.5
36
36
0
7-3
0
7-5
0 7.7
0 7.9
0
8.3
0 8.7
0 9.3
0 1 0.0
0 1 1.0
24
"J
0
3.7 1
0
3.7
0 3.8
0 4.0
0
4-1
0 4.4
0 4.7
0 5.0
0 5.5
12
12
0
0.0 I
0
0.0
0 0.0
0 0.0
0.0
\ 0 0.0
\o 0.0
^o 0,0
0 0.0
12 0
VEpVi xi\
TABLE IV.
693
AZIMUTH OF POLARIS AT ALL HOUR ANGLES, 1913.
[For hour angles 0** to 12'' the star is west of north, and for hour angles 1 2** to 34'' it is east of north.]
"v
i^t.
i
Lat. y^
H.A.
52*^
54°
56»
58°
600
61°
62°
63°
64°
^'^H.A.
h
m
0 /
tO '
0
/
0 /
0 /
0 /
0 /
0 /
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 6.1
0 6.3
0
6.7
0 7.1
0 75
0 7.8
0 8.0
0 8.3
0 8.6
23 48
24
0 12.1
0 12.7
0
133
0 14.1
0 15.0
0 15 5
0 16.0
0 i6.6
0 17.2
36
36
0 18.2
0 19.0
0
20.0
0 21.1
0 22.5
0 23.2
0 24.0
0 24.8
0 25.8
24
48
0 24.0
0 25.2
0
26.5
0 28.1
0 29.8
0 30.8
0 31.9
0 33 0
0 34.2
12
I
0
0 29.9
0 313
0
330
0 34.9
0 371
0 38.3
0 39.6
0 41. 1
0 42.6
23 0
12
0 35-6
0 37-4
0
39.4
0 41.7
0 44-3
0 45-7
0 47 3
0 49.0
0 50.8
22 48
24
0 41-3
0 43.4
0
45-7
0 48.3
0 513
0 53.0
0 54 8
0 56.8
0 58.9
36
36
0 46.9
0 49.2
0
51.8
0 54.8
0 58.2
I 0.1
I 2.2
1 4.4
I 6.8
24
48
0 52.3
0 54.9
0
57.8
I i.i
I 4.9
I 7.0
I 9-3
I II. 8
I 145
12
2
0
0 57-5
I 0.4
3.6
1 7.2
I 11.4
I 138
I 16.3
1 19.0
I 21.9
22 0
12
I 2.6
I 5.7
9.2
1 13.2
I 17.7
I 20.3
I 23.0
1 25.9
1 29.1
21 48
24
I 7-5
I 10.9
14.6
I 18.9
I 23.8
I 26.5
I 29.5
1 32.6
I 36.1
36
36
I 12.3
I 158
19.8
I 24.4
I 29.6
1 32.5
1 35-7
I 39.1
I 42.7
24
48
I 16.8
I 20.5
24.8
I 29.6
I 35.2
I 38.3
I 41.6
I 45-2
I 49.1
12
3
0
I 21.0
I 25.0
295
I 34.6
1 40.4
I 43-7
I 47.2
I 51 0
1 55.1
21 0
12
I 25.1
1 29.2
33.9
I 39.3
I 45-4
I 48.8
I 52.5
I 56.4
2 0.7
20 48
24
I 28.9
I 33-2
38.1
I 43.7
I 50- 1
I 53-6
I 57.4
2 1.6
2 6.0
36
36
I 32.4
I 36.9
42.0
I 47.8
I 54 4
I 58.1
2 2.1
2 6.3
2 1 1.0
24
48
I 35-7
I 403
45-6
I 516
I 58.4
2 2.2
2 6.3
2 10.7
2 155
12
4
0
I 38.7
1 43-5
48.9
I 550
2 2.1
2 6.0
2 10.2
2 14.8
2 197
20 0
12
I 41.4
I 46.3
51-9
I 58.2
2 5.4
2 9.4
2 13-7
2 18.4
2 23.4
19 48
24
I 43 9
1 48.9
54-5
2 I.O
2 8.3
2 12.4
2 16.9
2 21.6
2 26.8
36
36
I 46.0
1 51.1
56.9
2 3.4
2 10.9
2 15.1
2 19.6
2 24.4
2 29.7
24
48
I 47-9
I 530
58.9
2 5-5
2 13.2
2 17.4
2 21.9
2 26.8
2 32.2
12
5
0
I 49.4
I 54.6
2
0.6
2 7.3
2 15.0
2 193
2 23.9
2 28.8
2 34-2
19 0
12
I 50.6
1 55-9
2
1-9
2 8.7
2 16.5
2 20.8
2 25.4
2 30.4
2 35-8
18 48
24
I 516
1 56.9
2
2.9
2 9-7
2 17.5
2 21.9
2 26.5
2 31.6
2 37.0
36
36
I 52.2
I 57.5
2
3.6
2 10.4
2 18.2
2 22.6
2 27.3
2 32.3
2 37-7
24
48
I 52.5
I 57.8
2
3-9
2 10.7
2 18.6
2 22.9
2 27.6
2 32.6
2 38.1
12
6
0
I 52.5
I 57.8
2
3.8
2 10.7
2 18.5
2 22.8
2 27.5
2 32.5
2 37-9
18 0
12
I 52.2
I 57-5
2
3.5
2 10.3
2 18.0
2 22.4
2 27.0
2 32.0
2 37-4
17 48
24
I 51.6
I 56.8
2
2.8
2 9-5
2 17.2
2 21.5
2 26.1
2 31.0
2 36.4
36
36
I 50.7
I 55-9
2
1.7
2 8.4
2 16.0
2 20.3
2 24.8
2 29.7
2 35.0
24
48
I 49.4
I 54.6
2
0.4
2 7.0
2 14.5
2 18.6
2 23.1
2 28.0
2 33-2
12
7
0
I 47-9
I 53.0
58.7
2 5.2
2 12.6
2 16.7
2 21. 1
2 25.8
2 30.9
17 0
12
I 46.1
1 511
56.7
2 31
2 10.3
2 143
2 18.7
2 23.3
2 28.3
16 48
24
I 44.1
I 48.9
54.4
2 0.6
2 7-7
2 II. 6
2 15-9
2 20.4
2 25.3
36
36
I 41.7
I 46.4
51.8
I 57.8
2 4.8
2 8.6
2 12.7
2 17. 1
2 21.9
24
48
I 39.1
I 43-7
48.9
' 54.8
2 1.5
2 5-2
2 9.2
2 135
2 18.2
12
8
0
I 36.2
1 40.7
45.7
I 51-4
I 57-9
2 1.5
2 5.4
2 9.5
2 14.0
16 0
12
I 330
I 37-4
42.2
I 47.7
I 54.0
1 57-5
2 1.2
2 5.2
2 9.6
15 48
24
I 29.7
I 33.8
38.5
I 43.8
I 49.8
I 53-2
I 56.7
2 0.6
2 4.8
36
36
I 26.0
I 300
34-5
I 39.6
I 45-3
I 48.5
I 52.0
I 55.7
I 59.7
24
48
I 22.2
I 26.0
30.2
1 351
I 40.6
I 43.6
I 46.9
I 504
I 54.2
12
9
0
I 18.1
I 21.7
25.8
I 30.4
I 35.6
I 38.5
I 41.6
I 44.9
I 48.5
15 0
12
I 139
I 173
21. 1
I 25.4
I 30.4
1 33- 1
I 36.0
1 39-2
I 42.6
14 48
24
I 9.4
I 12.6
16.2
I 20.3
I 24.9
I 27.4
I 30- 2
I 33-2
I 36.3
36
36
1 4.8
I 7.8
II. I
1 14.9
I 19.2
I 21.6
I 24.1
I 26.9
I 29.9
24
48
I 0.0
I 2.7
5.8
I 9-3
I 13.3
I 15-5
I 17.9
I 20.4
I 23.2
12
10
0
0 550
0 57.5
0.4
I 3.6
1 7.2
I 9-3
I 1 1.4
I 138
I 16.3
14 0
12
0 49.9
0 52.2
0
54.8
0 57.7
I 1.0
I 2.8
I 4.7
I 6.9
I 9.2
13 48
24
0 44.7
0 46.8
0
49.1
0 517
0 54.6
0 56.3
0 38.0
0 59-9
I 1.9
36
36
0 39.4
0 41.2
0
43-2
0 45-5
0 48.1
0 49-5
0 51. 1
0 52.7
0 54.5
24
48
0 33-9
0 35-5
0
37-2
0 39.2
0 41.4
0 42.7
0 44.0
0 45.4
0 47.0
12
II
0
0 28.4
0 29.7
0
31.2
0 32.8
0 34.7
0 35.7
0 36.8
0 38.0
0 39.3
13 0
12
0 22.8
0 23.9
0
25.0
0 26.4
0 27.9
0 28.7
0 29.6
0 30.5
0 31.6
12 48
24
0 17.2
0 17.9
0
18.8
0 19.8
0 21.0
0 21.6
0 22.3
0 23.0
0 23.8
36
36
0 1 1.5
0 12.0
0
12.6
0 13.3
0 14.0
0 14.4
0 14.9
0 15-3
0 159
24
48
0 5 7
0 6.0
0
6.3
0 6.6
0 7.0
0 7.2
0 7.4 0 7.7
0 7.9
12
0
0 0.0
0 0.0
0
0.0
0 0.0
0 0.0
0 0.0
i 0 0.0
\o 0.0
lEpb 13I
694
TABLE V,
AZIMUTH OF POLARIS AT ELONGATION, 1913.
^\DecL
88<> 50' 20"
88« 50' 30"
880 50' 40"
880 50' 50"
88<»5i' 0"
88<>5i' 10"
Vsriation for —
Lat.^v
I'ofLat.
I" of*.
0 t
e / //
0 r tf
0 t tf
0 t 0/
0 f f»
0 # #/
ft
*»
5 0
I 9 56.0
I 9 45-9
I 9 35.9
I 9 25.9
I 9 158
I 9 5.8
4-aii
— 1.00
5 20
I 9 58-2
I 9 48.1
I 9 38.1
I 9 28.0
I 9 18.0
I 9 8.0
0.12
1. 00
5 40
I 10 0.5
I 9 50.4
I 9 40.4
I 9 30.4
1 9 20.3
I 9 IO-3
0.12
1. 00
6 0
I 10 3.0
I 9 52.9
I 9 42.9
I 9 32.9
I 9 22.8
I 9 12.8
0.13
1. 00
6 20
I 10 5-7
I 9 55-6
I 9 45-6
I 9 35-5
I 9 25.4
I 9 154
0.14
1. 01
6 40
I 10 8.5
I 9 58.4
I 9 48.3
I 9 38.3
I 9 28.2
I 9 18. 1
4-0.14
— 1. 01
7 0
I 10 II. 4
I 10 1.3
I 9 512
I 9 412
I 9 311
I 9 21.0
0.15
1. 01
7 20
I 10 14.5
I 10 4.4
I 9 54.3
I 9 44.2
I 9 341
I 9 24.1
0.15
1. 01
7 40
I 10 17.7
I 10 7.6
I 9 57-5
I 9 47.4
I 9 37-3
I 9 27.3
0.16
1. 01
8 0
I 10 21. 1
I 10 II.O
I 10 0.9
I 9 50.8
I 9 40.7
I 9 30.6
0.17
1. 01
8 20
I 10 24.6
I 10 14.5
I 10 4.4
I 9 54-3
I 9 44.2
I 9 341
-fo.i8
— 1. 01
8 40
I 10 28.3
I 10 18.2
I 10 8.1
I 9 57.9
I 9 47.8
I 9 37-7
ai9
1. 01
9 0
I 10 32.1
I 10 22.0
I 10 11.9
I 10 1.7
I 9 51-6
I 9 415
0.20
1. 01
9 20
I 10 36.1
I 10 26.0*
I 10 15.8
I 10 5.7
I 9 55.5
I 9 45.4
0.20
1. 01
9 40
I 10 40.2
I 10 30.1
I 10 19.9
I 10 9.8
I 9 59-6
I 9 49.5
a2i
1. 01
10 0
I 10 44.5
I 10 34-3
I 10 24.2
I 10 14.0
I 10 3.8
I 9 53.7
4-0.22
— 1.02
10 20
I 10 48.9
I 10 38.7
I 10 28.6
I 10 18.4
I 10 8.2
I 9 58.1
0.23
1.02
10 40
I 10 53.5
I 10 43-3
I 10 33.1
I 10 23.0
I 10 12.8
I 10 2.6
0.23
1.02
II 0
I 10 58.2
I 10 48.0
I 10 37.8
I 10 27.7
I 10 17.5
I 10 7.3
a 24
1.02
II 20
1 u 3.1
I 10 52.9
I 10 42.7
I 10 32.5
I 10 22.3
I 10 12.1
0.25
1.02
II 40
I II 8.2
I 10 57.9
I 10 47.7
I 10 37.5
I 10 27.3
I 10 17. 1
-fo.26
— 1.02
12 0
I II 13.4
I II 31
I 10 52.9
I 10 42.7
I 10 32.5
I 10 22.3
0.26
1.02
12 20
I II 18.7
I II 8.5
I 10 58.3
I 10 48.0
I 10 37.8
I 10 27.6
0.27
1.02
12 40
I II 24.3
I II 14.0
I II 3-8
I 10 53.5
I 10 43.2
I 10 33.0
0.28
103
13 0
I II 30.0
I II 197
I II 9-4
I 10 59.2
I 10 49.0
I 10 38.7
0.29
1.03
13 20
I II 35.8
I II 25.5
I II 152
I II 50
I 10 54.7
I 10 44-4
-fo.30
-1.03
13 40
I II 41.8
I II 31.5
I II 21.2
I II 10.9
I II 0.6
I 10 50.4
0.31
103
14 0
I II 48.0
I II 37.7
I II 27.4
I II 17.0
I II 6.7
I 10 56.5
0.31
103
14 20
I II 54-3
I II 44.0
I II 33-7
I II 23.3
I II 13.0
I II 2.7
0.32
103
14 40
I 12 0.8
I II 50.5
I II 40.1
I II 29.8
I II 19.4
I II 9.1
0.33
1.03
15 0
I 12 7-5
I II 571
I II 46.7
I II 36.4
I II 26.0
I II 157
+0.34
-1.04
15 20
I 12 14.3
I 12 3.9
I II 53-5
I II 43.2
I II 32.8
I II 22.5
0.34
1.04
15 40
I 12 21.3
I 12 10.9
I 12 0.5
I 11 50.1
I II 39-7
I II 29.4
0.35
1.04
16 0
I 12 28.5
I 12 18.0
I 12 7.6
I II 57.2
I II 46.8
I II 36.5
0.36
1.04
16 20
I 12 35.8
I 12 25.4
I 12 14.9
I 12 4.5
I II 541
I II 43.7
0.37
1.04
16 40
I 12 43-3
I 12 32.9
I 12 22.4
I 12 12.0
I 12 1.5
I II 511
•fo.38
-1.04
17 0
I 12 51.0
I 12 40.5
I 12 30.1
I 12 19.6
I 12 9.2
I II 58.7
0.39
1.05
17 20
I 12 58.9
I 12 48.4
I 12 37.9
I 12 27.4
I 12 16.9
I 12 6.5
0.40
1.05
17 40
I 13 6.9
I 12 56.4
I 12 45-9
I 12 35.4
I 12 24.9
I 12 14.4
0.40
1.05
18 0
I 13 151
I 13 4-6
I 12 541
I 12 43.6
I 12 331
I 12 22.6
0.41
1.05
18 20
I 13 23.5
I 13 130
I 13 2.5
I 12 51.9
I 12 41.4
I 12 30.9
4-0.42
-1.05
18 40
I 13 32.1
I 13 21.6
I 13 II.O
I 13 0.5
I 12 50.0
I 12 39-4
0.43
1.06
19 0
I 13 40.9
I 13 30.3
I 13 19.7
I 13 9-2
I 12 58.6
I 12 48.0
0.44
1.06
19 20
I 13 49-9
I 13 39-2
I 13 28.6
I 13 18.0
I 13 7-4
I 12 56.8
0.45
1.06
19 40
I 13 590
I 13 48.3
I 13 37-7
I 13 27.1
I 13 16.5
I 13 5-9
0.46
1.06
20 0
I 14 8.3
I 13 57-6
I 13 47.0
I 13 36.4
I 13 25.7
I 13 151
4-0.47
— 1.06
20 20
I 14 17.8
I 14 7.1
I 13 56.5
I 13 45.8
I 13 35-2
I 13 24.5
0.48
1.07
20 40
I 14 27.5
I 14 16.8
I 14 6.1
I 13 55-4
I 13 44-7
I 13 34.1
0.49
1.07
21 0
I 14 37.4
I 14 26.7
I 14 16.0
I 14 5.3
I 13 54-6
I 13 43.9
0.50
1.07
21 20
I 14 47-5
I 14 36.8
I 14 26.0
I 14 15.3
I 14 4.6
I 13 53.9
0.51
1.07
21 40
I 14 57.8
I 14 470
I 14 36.3
I 14 25.5
I 14 14.7
I 14 40
4-0.52
— 1.08
22 0
I 15 8.3
I 14 57-5
I 14 46.7
I 14 36.0
I 14 25.2
I 14 14.4
0.53
1.08
22 20
I 15 190
I 15 8.2
I 14 57.4
I 14 46.6
I 14 35-8
I 14 25.0
0.54
1.08
22 40
I 15 29.9
I 15 191
I 15 8.2
I 14 57-4
I 14 46.5
I 14 35-7
0.55
1.08
23 0
I 15 410
I 15 30.2
I 15 193
I 15 8.4
I 14 57-5
I 14 46.7
0.56
1.09
23 20
I 15 52.4
I 15 415
I 15 30.6
I 15 19-7
I 15 8.8
I 14 57-9
+0.57
-1.09
23 40
I 16 3.9
I 15 53.0
I 15 42.0
I 15 31.1
I 15 20.2
I 15 9-3
0.58
1.09
24 0
I 16 15.6
I 16 4-7
I 15 53.7
I 15 42.8
I 15 31.8
I 15 20.9
0.59
1.09
24 20
I 16 27.6
I 16 16.6
I 16 5.6
I 15 54-7
I 15 43-7
1 15 32.7
0.60
1. 10
24 40
I 16 39.8
I 16 28.7
I 16 17.7
I 16 6.8
I 15 55.8
1 15 44-8
0.61
1. 10
2S 0 1
I 16 52.2
I 16 41. 1
1 16 30.1
I 16 19.1
I 16 8.0
I 15 570
4-o.6a
-I.IO
VEpVi ii\
TABLE V.
695
AZIMUTH OF POLARIS AT ELONGATION, 1913.
\^pecl.
Variation for —
88*> 50' 20"
88« 50' 30"
88° 50' 40"
880 50' 50''
88*>5i' 0"
88*>5x'io''
T A* ^V
jjat. ^v
I'ofLat.
x" 6f «.
0 /
0 / //
0 / //
0 f *f
0 / //
0 / /'
Off*
//
ff
25 0
I 16 52.2
I 16 41. 1
I 16 30.1
I x6 19.1
I 16 8.0
I 15 57.0
+0.62
— 1. 10
25 20
1 17 4-8
I 16 53.7
I 16 42.7
I x6 3X.6
I 16 20.5
I 16 9.5
0.64
I. II
25 40
I 17 17.7
1 17 6.6
I 16 55.5
I 16 44.4
I 16 33.3
I 16 22.2
0.65
I. II
26 0
I 17 30.7
I 17 19.6
1 17 8.5
I 16 57.4
I 16 46.2
I 16 35.1
0.66
I. II
26 20
I 17 44.0
I 17 32.9
I 17 2X.7
I 17 X0.6
I 16 59.4
I 16 48.3
0.67
1. 12
26 40
I 17 57-6
1 17 46.4
I 17 35.2
X 17 24.0
I X7 12.8
X 17 1.7
+0.68
— 1.12
27 0
I 18 11.4
I 18 0.2
I 17 48.9
I 17 37-7
I 17 26.5
I 17 153
0.70
1. 12
27 20
1 18 25.4
I 18 14.2
I x8 2.9
I 17 516
I 17 40.4
I 17 29.2
0.71
I.I3
27 40
I 18 39.7
I 18 28.4
X 18 17.1
X x8 5.8
I 17 54-5
I 17 43.3
0.72
1. 13
28 0
I 18 54.2
X 18 42.9
I 18 3X.6
X 18 20.2
X 18 8.9
I 17 57-6
0.73
1. 13
28 20
I 19 9.0
I 18 57.6
X 18 46.3
X x8 34.9
I 18 23.5
I 18 12.2
+0.74
-1. 14
28 40
I 19 24.0
I 19 12.6
I 19 X.2
I 18 49.8
I 18 38.4
X x8 27.0
0.75
1.14
29 0
I 19 39.3
1 19 27.9
I 19 16.4
X ig 50
X 18 53.6
I 18 42.2
0.77
1. 14
29 20
I 19 54.8
I 19 43.4
I 19 31.9
I X9 20.4
I 19 8.9
I 18 57.5
0.78
115
29 40
I 20 10.7
I 20 26.7
I 19 59-2
X 20 15.2
I 19 47.6
I 20 3.6
I 19 36.1
I X9 52.x
I 19 24.6
X X9 40.5
I X9 X3.X
X X9 29.0
0.80
4-0.8X
XI5
30 0
-115
30 10
I 20 34.8
I 20 23.3
I 20 IX. 7
X 20 0.1
I 19 48.6
I 19 37.1
0.82
1. 16
30 20
I 20 43.0
I 20 31.5
I 20 19.9
X 20 8.3
I 19 56.7
I 19 45.2
0.82
1. 16
30 30
I 20 51.3
I 20 39.7
I 20 28.x
I 20 X6.5
I 20 4.9
I 19 53-4
0.83
X.16
30 40
I 20 59.7
I 20 48.1
X 20 36.4
I 20 24.8
I 20 13.2
I 20 X.6
0.84
i.x6
30 50
I 21 8.2
I 20 56.5
I 20 44.8
I 20 33.1
I 20 21.5
I 20 9.9
+0.85
-1.16
31 0
I 21 16.7
I 21 5.0
I 20 53.3
I 20 4X.6
I 20 30.0
I 20 18.3
0.85
1. 17
31 10
I 21 25.3
I 21 13.5
I 21 1.8
X 20 50.1
I 20 38.4
I 20 26.8
0.86
1. 17
31 20
I 21 33.9
I 21 22.1
X 21 XO.4
I 20 58.7
I 20 47.0
I 20 35.3
0.87
1. 17
31 30
I 21 42.6
I 21 30.8
I 21 I9.I
I 21 7.4
I 20 55.6
I 20 43.9
0.88
1. 17
31 40
I 21 51.3
I 21 39.6
I 2X 27.8
X 2X x6.x
I 21 4.3
I 20 52.6
+0.88
-X.I8
31 50
I 22 0.2
X 21 48.4
I 21 36.6
I 21 24.8
I 2X 13.0
I 2X 1.3
0.89
1. 18
32 0
I 22 9.1
I 21 57.3
I 2X 45.5
» 21 33.7
I 21 2X.9
I 21 XO.I
0.90
1. 18
32 10
I 22 18.1
1 22 6.3
I 21 54.5
I 2X 42.7
X 2X 30.8
1 21 X9.O
0.90
1. 18
32 20
1 22 27.2
I 22 15.3
I 22 3.5
I 21 51.7
I 2X 39.8
I 21 28.0
0.91
1. 18
32 30
I 22 36.3
I 22 24.5
I 22 X2.6
X 22 0.8
I 21 48.9
I 2X 37.0
-fo.92
-X.I9
32 40
I 22 45.5
I 22 33.7
I 22 21.8
I 22 9.9
I 2X 58.0
I 21 46.x
0.93
X.I9
32 50
I 22 54.8
I 22 43.0
X 22 31. 1
I 22 X9.2
I 22 7.2
I 2X 55.3
0.93
I.I9
33 0
I 23 4.2
I 22 52.3
I 22 40.4
I 22 28.5
I 22 X6.5
X 22 4.6
0.94
X.I9
33 10
I 23 13.7
I 23 1.8
I 22 49.8
X 22 37.9
I 22 25.9
X 22 X3.9
0.95
X.20
33 20
I 23 23.2
I 23 11.3
I 22 59.3
I 22 47.3
I 22 35.3
X 22 23.4
+0.96
— 1.20
33 30
I 23 32.9
I 23 20.9
I 23 8.9
I 22 56.9
I 22 44.9
I 22 32.9
0.96
x.20
33 40
I 23 42.6
I 23 30.5
I 23 X8.5
I 23 6.5
I 22 54.4
I 22 42.4
0.97
1.20
33 50
I 23 52.3
I 23 40.3
I 23 28.2
I 23 16.2
I 23 4.2
I 22 52.1
0.98
1.20
34 0
I 24 2.2
I 23 50.1
I 23 38.0
I 23 26.0
I 23 X3.9
I 23 X.8
0.99
I.2I
34 10
I 24 12.2
I 24 0.0
I 23 47.9
I 23 35.8
I 23 23.7
I 23 XX.7
+ 1.00
— X.2I
34 20
I 24 22.3
I 24 lO.O
I 23 57.9
I 23 45.8
I 23 33.7
I 23 21.6
1. 00
I.2I
34 30
I 24 32.3
I 24 20.1
I 24 8.0
I 23 55.9
I 23 43.7
I 23 31.5
1. 01
1. 21
34 40
I 24 42.4
I 24 30.3
X 24 x8.i
I 24 6.0
I 23 53.8
I 23 41.6
X.02
1.22
34 50
I 24 52.7
I 24 40.5
I 24 28.3
I 24 16.I
I 24 3.9
I 23 51.7
1.03
1.22
35 0
I 25 3.0
I 24 50.8
I 24 38.6
X 24 26.4
I 24 X4.2
I 24 2.0
+ X.04
— 1.22
35 10
I 25 13.4
I 25 1.2
I 24 49.0
I 24 36.8
I 24 24.5
I 24 X2.3
105
1.22
35 20
I 25 24.0
I 25 11. 7
I 24 59.5
I 24 47.3
I 24 35.0
I 24 22.7
X.06
123
35 30
X 25 34.6
I 25 22.3
I 25 xo.x
I 24 57.8
I 24 45.5
I 24 33.2
1.06
I 23
35 40
I 25 45.3
I 25 33.0
I 25 20.7
X 25 8.4
I 24 56.0
I 24 43.7
X.07
123
35 50
I 25 56.1
1 25 43.8
I 25 31.4
I 25 19.x
I 25 6.7
I 24 54.4
+ 1.08
-X.23
36 0
I 26 7.0
I 25 54.6
X 25 42.2
I 25 29.9
I 25 X7.5
1 25 5.x
X.09
1.24
36 10
I 26 18.0
I 26 5.5
I 25 53.1
I 25 40 7
I 25 28.3
I 25 16.0
I.XO
1.24
36 20
I 26 29.0
I 26 16.5
I 26 4.1
I 25 51.7
I 25 39.3
I 25 26.9
I. XI
1.24
36 30
I 26 40.1
X 26 27.6
X 26 15.2
I 26 2.8
I 25 50.3
I 25 37.9
1. 12
1.24
36 40
I 26 51.3
I 26 38.9
I 26 26.4
I 26 14.0
I 26 X.5
I 25 49.0
+ I.I3
-X.25
36 50
I 27 2.7
I 26 50.2
1 26 37.7
I 26 25.2
I 26 12.7
I 26 0.2
1. 14
1.25
37 0
I 27 14.1
X 27 1.6
X 26 49.x
X 26 36.6
I 26 24.0
I 26 XI.5
115
1.25
37 10
I 27 25.6
I 27 X3.X
X 27 0.6
X 26 48.1
I 26 35.5
1 26 22.9
1. 15
1.25
37 20
I 27 37.2
I 27 24.7
I 27 X2.I
X 26 59.6
I 26 47.0
I 26 34,4
1. 16
X.26
37 30
I 27 48.9
I 27 36.3
I 27 23.7
I 27 II. I
I 26 58.5
I 26 46.Q
V -V'^'^-V
"v— -V,-!.^
lEph 13I
696
TABLE V.
AZIMUTH OF POLARIS AT ELONGATION,
1913.
\^ecl.
88® 50' 20"
88° 50' 30"
0 t If
88® 50' 40"
880 50' 50"
88^51' 0"
88° 51' 10"
Variation for—
Lat.\v
I 'of Lai.
I "of I.
o /
0 / //
0 t ti
0 1 tf
0 ' //
0 f 'f
- 1
11
37 30
I 27 48.9
I 27 36.3
I 27 23.7
I 27 II. I
I 26 58.5
I 26 46.Q
+ 1 17
-1.26
37 40
I 28 0.8
I 27 48.1
I 27 35.5
I 27 22.9
1 27 10.2
I 26 57.6
1.18
1.26
37 50
I 28 12.7
I 28 0.0
I 27 47.4
I 27 34.7
I 27 22.0
I 27 9.4
1. 19
1.27
38 0
I 28 24.7
I 28 12.0
I 27 59.3
I 27 46.6
1 27 33.9
I 27 21.3
1.20
1.27
38 10
I 28 36.8
I 28 24.0
I 28 11.3
I 27 58.6
i 27 45.9
I 27 33.2
1. 21
1.27
38 20
I 28 49.0
I 28 36.2
I 28 23.5
I 28 10.8
I 27 58.0
I 27 45.3
4-1.22
-1.27
38 30
I 29 1.4
I 28 48.5
1 28 35.8
I 28 23.0
1 28 10.2
I 27 57.5
1.23
1.28
38 40
1 29 13.8
I 29 0.9
I 28 48.1
I 28 35.3
I 28 22.5
I 28 9.7
1.24
1.28
38 50
I 29 26.2
I 29 13.4
I 29 0.5
I 28 47.7
I 28 34.9
I 28 22.1
1-25
1.28
39 0
I 29 38.9
I 29 26.0
I 29 13.1
I 29 0.3
I 28 47.4
I 28 34.5
1.26
1.29
39 10
I 29 51.6
I 29 38.7
I 29 25.8
I 29 12.9
I 29 0.0
I 28 47.1
•f 1.27
-1.29
39 20
I 30 4-4
I 29 51.5
I 29 38.6
I 29 25.6
I 29 12.7
I 28 59.8
1.28
1.29
39 30
I 30 17.4
I 30 4.4
I 29 51.4
I 29 38.4
I 29 25.5
I 29 12.6
130
1.30
39 40
I 30 304
I 30 17 4
I 30 4.3
I 29 51.3
I 29 38.4
I 29 25.5
I 31
130
39 50
I 30 43-5
I 30 30.5
I 30 17.4
I 30 4.4
I 29 51.5
1 29 38.5
1.32
1.30
40 0
I 30 56.8
I 30 43-7
I 30 30.6
1 30 17.5
1 30 4-5
I 29 51.6
+ 1.33
-I-3I
40 10
I 31 10.2
I 30 57.0
I 30 43.9
I 30 308
I 30 17.8
I 30 4.8
1.34
I-3I
40 20
1 31 23.7
I 31 10.5
I 30 57.4
I 30 44.3
1 30 31-2
I 30 18.1
1.35
1-31
40 30
I 31 37-3
I 31 24.1
I 31 II.O
I 30 57.8
I 30 44-7
I 30 316
1.36
1-32
40 40
I 31 51.0
I 31 37.9
I 31 24.7
I 31 11.5
I 30 58.3
I 30 45- 1
1.37
1.32
40 50
I 32 4.8
I 31 51 7
I 31 38.4
I 31 25.2
I 31 12.0
I 30 58.8
+ 1.38
-132
41 0
I 32 18.8
I 32 5.6
I 31 52.3
I 31 39 I
I 31 25.8
I 31 12.6
I 39
1.33
41 10
I 32 32.9
I 32 196
I 32 6.3
I 31 530
I 31 39 7
I 31 26.5
1.40
I 33
41 20
I 32 47.0
I 32 33.7
I 32 20.4
I 32 7.1
I 31 53.8
I 31 40.5
1.42
1-33
41 30
I 33 1.4
1 32 48.0
1 32 34.6
I 32 21.3
I 32 8.0
I 31 54-7
1-43
1-34
41 40
I 33 15.8
I 33 2.4
I 32 49.0
I 32 35-6
I 32 22.2
I 32 8.9
+ 1.44
-1.34
41 50
I 33 30.4
I 33 170
I 33 3-5
I 32 500
I 32 36.6
I 32 23.3
1-45
1-34
42 0
I 33 45.0
I 33 31-6
I 33 18.1
I 33 4.6
I 32 5>-2
I 32 37.8
1-47
1-35
42 10
I 33 59-8
I 33 46.4
I 33 32.8
I 33 19-3
I 33 5-8
I 32 52.4
1.48
1-35
42 20
I 34 14.8
I 34 t.3
I 33 47.7
I 33 34-2
I 33 20.6
1 33 71
1.50
1.35
42 30
I 34 29.9
I 34 16.3
I 34 2.7
I 33 49- 1
I 33 35.5
I 33 22.0
-f 1.51
-1.36
42 40
I 34 45 0
I 34 31.4
I 34 17.8
I 34 4-2
I 33 50 6
I 33 370
152
136
42 50
I 35 0.3
I 34 46.7
1 34 330
I 34 194
I 34 5-7
I 33 52.1
1-54
136
43 0
I 35 15.8
I 35 2.1
I 34 48.4
I 34 34.7
I 34 21.0
I 34 7-4
1-55
1-37
43 10
I 35 31.4
I 35 176
I 35 3.9
I 34 50.1
I 34 36.4
I 34 22.8
1.56
1.37
43 20
I 35 47-1
I 35 33.3
I 35 19.5
I 35 5.7
I 34 520
I 34 38.3
+ 1.57
-1.38
43 30
X 36 2.9
I 35 49- 1
I 35 35.3
I 35 21.5
I 35 7-7
I 34 540
158
1.38
43 40
I 36 18.9
I 36 51
I 35 51.2
I 35 37.4
I 35 23.5
I 35 9.7
1.60
1-38
43 50
I 36 350
I 36 21. 1
I 36 7.2
1 35 53-3
I 35 39.5
I 35 25.7
1. 61
1.39
44 0
I 36 513
I 36 37.3
I 36 23.4
I 36 9-4
I 35 55-5
I 35 41.7
1.62
1-39
44 10
I 37 7.7
I 36 53.7
I 36 39.7
I 36 25.7
I 36 1 1.8
I 35 57.9
-fx.63
-140
44 20
I 37 24.2
I 37 10.2
I 36 56.2
I 36 42.2
I 36 28.2
I 36 14.3
1.65
1.40
44 30
I 37 40.9
1 37 26.8
I 37 12.8
I 36 58.8
I 36 44.8
I 36 30.8
1.66
140
44 40
I 37 57-7
I 37 43.6
I 37 29.6
I 37 15.5
I 37 1-5
I 36 47.4
1.68
141
44 50
I 38 147
I 38 0.6
I 37 46.5
1 37 32.4
I 37 18.3
I 37 4.2
1.70
1. 41
45 0
I 38 319
I 38 17-7
1 38 3.6
I 37 49.5
I 37 35-3
I 37 21.1
4-1.72
-1.42
45 10
I 38 49-2
I 38 35.0
I 38 20.8
I 38 6.7
I 37 52.4
I 37 38.2
1.73
1.42
45 20
I 39 6.6
I 38 52.4
I 38 38.1
I 38 23.9
I 38 9-6
I 37 55.4
1.75
1.42
45 30
I 39 24.1
I 39 9-9
I 38 55.6
I 38 41-3
I 38 27.0
I 38 12.8
X.76
143
45 40
I 39 41.8
I 39 27.5
I 39 132
I 38 58.9
I 38 44.6
I 38 30.3
1.78
1.43
45 50
I 39 59-7
I 39 45-4
I 39 310
I 39 16.7
I 39 2.3
I 38 48.0
4-1.80
-1.44
46 0
I 40 17.8
I 40 3.4
I 39 49.0
I 39 34-6
I 39 20.2
I 39 5-8
1.82
1.44
46 10
I 40 36.0
I 40 21.6
I 40 7.1
I 39 52.7
I 39 38.2
I 39 23.8
1.83
144
46 20
I 40 54.4
I 40 39.9
I 40 25.4
I 40 10.9
I 39 56.4
I 39 41.9
1.85
1.45
46 30
I 41 13.0
I 40 58.4
I 40 43.9
I 40 29.3.
I 40 14.8
I 40 03
1.87
1.45
46 40
> 41 31.7
I 41 17. 1
I 41 2.5
I 40 47.9
I 40 33-3
I 40 18.7
4-1.88
-1.46
46 50
I 41 505
I 41 36.0
I 41 21.3
I 41 6.7
I 40 52.0
I 40 37-4
1.90
1-46
47 0
I 42 9-5
I 41 54.9
I 41 40.2
I 41 25.6
I 41 10.9
I 40 56.2
1.91
1.47
47 10
I 42 28.7
I 42 14.0
I 41 59.3
I 41 44.6
I 41 29.9
I 41 15.2
1.93
M7
47 20
X 42 48.1
I 42 33-3
I 42 18.6
I 42 3 9
I 41 49.1
I 41 34.3
195
1.48
47 30 '
' 43 7-7
I 42 52.9
I 42 38.1
I 42 23.3
I 42 8.5
I 41 53.7
4-196
-1.48
VEp^ ii\
TABLE V.
697
AZIMUTH OF POLARIS AT ELONGATION, 1913.
^\l)ccl.
Variation for —
88° 50' 20"
88° 50' 30"
88*> 50' 40"
88<» 50' 50"
88<» 51' 0"
88° 51' 10"
Lat.^V
I'of Lat.
I" of a.
0 /
Off
0 / //
0 t tt
0 t ft
0 t ft
0 / //
//
//
47 30
I 43 7-7
I 42 52.9
I 42 38.x
I 42 23.3
I 42 8.5
X 41 53.7
+ 196
-1.48
47 40
I 43 27.4
1 43 12.5
X 42 57.7
I 42 42.9
I 42 28.0
I 42 X3.2
1.98
1.49
47 50
I 43 47-3
1 43 32.4
I 43 X7.5
I 43 2.6
X 42 47.7
X 42 32.8
2.00
1.49
48 0
I 44 7-4
I 43 52.5
X 43 37-5
X 43 22.6
X 43 7.6
X 42 52.7
2.02
1.50
48 10
I 44 27.7
I 44 12.7
X 43 57-7
X 43 42.7
X 43 27.7
X 43 12.7
2.04
1-50
48 20
1 44 48.2
I 44 331
I 44 18.1
X 44 30
X 43 48.0
X 43 33.0
+ 2.06
~x.5i
48 30
I 45 8.9
I 44 53-8
X 44 38.7
X 44 23.6
X 44 8.5
X 43 53-4
2.07
X.5X
48 40
I 45 29.7
I 45 H-6
X 44 59-5
I 44 44.4
I 44 29.2
I 44 X4.0
2.09
X.52
48 50
I 45 50- 7
1 45 35.6
X 45 20.4
X 45 5.3
I 44 50.0
X 44 34.7
2. II
X.52
49 0
I 46 1 1.9
I 45 56.7
X 45 4x5
X 45 26.3
X 45 xi.o
X 44 55-7
2.13
X.53
49 10
I 46 33-3
I 46 18. 1
I 46 2.8
X 45 47.5
X 45 32.2
I 45 X6.9
+ 2.15
-X.53
49 20
I 46 55 0
I 46 39-6
I 46 24.3
I 46 9.0
X 45 53-6
X 45 38.3
2.17
X.54
49 30
I 47 16.9
I 47 1.4
I 46 46.0
I 46 30.6
X 46 X5.2
X 45 59-8
2.19
X.54
49 40
I 47 38.9
X 47 23.4
X 47 7-9
I 46 52.4
I 46 37.0
I 46 21.6
2.21
X.55
49 50
I 48 I.I
X 47 45-6
I 47 30.0
X 47 X4.5
I 46 59.0
X 46 43.6
2.23
X.55
50 0
I 48 23.6
I 48 8.0
X 47 52.4
I 47 36.8
X 47 21.3
X 47 5-8
+ 2.25
-1.56
50 10
1 48 46.2
I 48 30.6
I 48 14.9
X 47 59-3
X 47 43-7
X 47 28.1
2.27
X.56
50 20
I 49 9.1
X 48 53-4
X 48 37-7
I 48 22.0
X 48 6.3
X 47 50.7
2.30
X.57
50 30
I 49 32.2
I 49 16.4
I 49 0.7
I 48 45 0
I 48 29.2
X 48 135
2.32
X.57
50 40
I 49 55-5
X 49 39-7
X 49 23.9
I 49 8.1
X 48 52.3
X 48 36.6
2.34
X.58
50 50
I 50 19.0
I 50 3-2
X 49 47-3
X 49 3x5
I 49 15.6
I 48 59.8
+ 2.36
-X.58
51 0
I 50 42.8
I 50 26.9
I 50 10.9
X 49 55 0
X 49 39- 1
X 49 23.3
2.38
X.59
51 10
I 51 6.8
I 50 50.8
X 50 34-8
I 50 18.8
X 50 2.9
I 49 470
2.40
1.60
51 20
X $1 310
X 51 15.0
X 50 58.9
I 50 42.9
I 50 26.9
I 50 10.9
2.42
1.60
51 30
I 51 55-4
X 5X 39-4
X 5X 23.2
X 5X 7.2
X 50 5X.X
X 50 35- X
2.45
1.61
51 40
I 52 20.1
X 52 40
I 51 47.8
X 5X 3X.7
X 5X X5.6
I 50 59-5
+ 2.47
-1.61
51 50
I 52 450
I 52 28.8
I 52 12.6
X 5X 56.5
X 5X 40.3
I 5x 24.1
2.50
1.62
52 0
I 53 IO-2
X 52 53-9
X 52 37-7
X 52 21.5
X 52 5-2
I 5X 49.0
2.52
1.62
52 10
I 53 35.6
X 53 X9.3
X 53 30
X 52 46.7
X 52 30.4
X 52 14.1
2.54
X.63
52 20
I 54 1.2
X 53 44-9
X 53 28.5
X 53 X2.I
X 52 55.7
X 52 39-4
2.57
1.64
52 30
I 54 27.2
I 54 10.8
X 53 54-3
X 53 37-9
X 53 21.5
X 53 50
+ 2.60
-1.64
52 40
I 54 53-4
X 54 36.9
I 54 20.4
X 54 3.9
X 53 47-4
X 53 30.9
2.62
X.65
52 50
I 55 199
X 55 3-3
X 54 46.7
X 54 30.x
I 54 X3.5
X 53 57.0
2.65
1.66
53 0
I 55 46.6
X 55 30.0
X 55 13-3
X 54 56.6
X 54 40.0
X 54 23.4
2.67
1.66
53 10
I 56 135
X 55 56.9
X 55 40.x
X 55 23.4
I 55 6.7
X 54 50.0
2.70
1.67
53 20
I 56 40- 7
I 56 24.0
X 56 7-2
X 55 50.4
X 55 33'^
X 55 X6.9
+ 2.73
-1.68
53 30
I 57 8.2
X 56 5x4
X 56 34.6
X 56 X7-7
I 56 0.9
X 55 44.x
2.75
1.68
53 40
1 57 36.0
X 57 X9.1
I 57 2.2
X 56 45-3
X 56 28.4
X 56 XX.5
2.78
1.69
53 50
I 58 40
X 57 470
X 57 30.x
X 57 X3.1
X 56 56.2
X 56 39.3
2.81
1.70
54 0
I 58 32.3
X 58 15-2
I 57 58.3
X 57 4x3
X 57 24.3
X 57 7-3
2.84
1.70
54 10
I 59 09
X 58 43-8
I 58 26.8
X 58 9-7
X 57 52.6
X 57 35-5
+ 2.87
-I.7X
54 20
I 59 29.9
I 59 X2.7
X 58 55-6
X 58 38.4
I 58 21.2
I 58 4.x
2.90
1.72
54 30
I 59 59.1
X 59 4x9
X 59 24.7
X 59 7-5
I 58 50.2
X 58 33.0
2.93
1.72
54 40
2 0 28.6
2 0 1 1.4
X 59 54.x
X 59 36.8
X 59 X9.5
X 59 2.2
2.96
1.73
54 50
2 0 58.5
2 0 41. 1
2 0 23.8
2 0 6.4
I 59 49.0
X 59 3X.6
3.00
1.74
55 0
2 I 28.6
2 I II. 2
2 0 53.8
2 0 36.4
2 0 18.9
2 0 1.4
+3.03
-X.74
55 10
2 I 59- 1
2 I 41.6
2 I 24.1
2 I 6.6
2 0 49.0
2 0 31.5
3.06
X.75
55 20
2 2 29.8
2 2 12.3
2 X 54.7
2 I 37.x
2 X 19.5
2 I 1.9
3.09
1.76
55 30
2 3 09
2 2 43.3
2 2 25.6
2 2 8.0
2 X 50.3
2 I 32.6
3.X2
1.76
55 40
2 3 32-3
2 3 X4.6
2 2 56.9
2 2 39.2
2 2 21.5
2 2 3.7
3x5
X.77
55 50
2 4 41
2 3 46.3
2 3 28.5
2 3 X0.7
2 2 52.8
2 2 35.0
■f3.x8
-1.78
56 0
2 4 36.2
2 4 X8.3
2 4 0.4
2 3 42.5
2 3 24.6
2 3 6.7
3.22
1.79
56 10
2 5 8.6
2 4 50.6
2 4 32.7
2 4 X4-7
2 3 56.7
2 3 38.8
3.25
1.80
56 20
2 5 4X-4
2 5 23.3
2 5 5-3
2 4 47-3
2 4 29.2
2 4 II. 2
3.28
1.80
56 30
2 6 14.5
2 5 56.4
2 5 38.3
2 5 20.2
2 5 2.0
2 4 43-9
3.32
1.81
56 40
2 6 48.0
2 6 29.8
2 6 II. 6
2 5 53.4
2 5 35-2
2 5 X7.0
+3.35
-1.82
56 50
2 7 21.9
2 7 3-6
2 6 45.3
2 6 27.0
2 6 8.7
2 5 50-4
3.39
1.83
57 0
2 7 56.1
2 7 37.7
2 7 X9.3
2 7 I.O
2 6 42.6
2 6 24.2
3.43
1.83
57 10
2 8 30.7
2 8 12.2
2 7 53.7
2 7 35.3
2 7 16.8
2 6 58.4
3.46
1.84
57 20
2 9 5-7
2 8 47.1
2 8 28.5
2 8 10.0
2 7 5X.5
2 7 32.9
3.50
X.85
57 30
2 9 41. 1
2 9 22.4
2 9 3.7
2 8 45.1
2 8 26.4
1 % lA
^ -Vv^Ti
\— ^»fc
lEpb 13A
698
TABLE V.
AZIMUTH OF POLARIS AT ELONGATION, 1913.
\Decl.
88'
' 50' 20"
88*
' 50' 30"
88
«> 50' 40"
88** 50' 50"
88° 51' 0"
88
°5i'io"
Variation f m^-
Lat.\v
I'ofLat.
i"of«.
0 /
0
/ ti
0
/ //
0
/ #/
0 / //
0 t II
0
/ It
tt
n
57 30
57 40
57 50
58 0
58 10
2
2
2
2
2
9 41. 1
10 16.8
xo 52.9
11 29.4
12 6.4
2
2
2
2
2
9 22.4
9 58.0
10 34.1
11 10.5
II 47.4
2
2
2
2
2
9 3.7
9 39-3
10 153
10 51.6
11 28.4
2 8 45.1
2 9 20.6
2 9 56.5
2 10 32.7
2 II 9-4
2 8 26.4
2 9 1.9
2 9 37.7
2 10 13.8
2 10 50.4
2
2
2
2
2
8 7.8
8 43.2
9 18.9
9 55 0
10 31.5
+3-53
3.57
3.61
3.65
3.70
-1.86
1.87
1.88
1.89
1.90
58 20
58 30
58 40
58 50
59 0
2
2
2
2
2
12 43.8
13 21.5
13 59-7
14 38.4
15 175
2
2
2
2
2
12 24.7
13 2.4
13 40.5
14 19.0
14 58.0
2
2
2
2
2
12 5-6
12 43.2
13 21.2
13 59.7
14 38.6
2 II 46.5
2 12 24.0
2 13 2.0
2 13 40.4
2 14 19.2
2 II 27.4
2 12 4.8
2 12 42.7
2 13 21.0
2 13 59.7
2
2
2
2
2
II 8.4
11 45.7
12 23.5
13 1.7
13 40.3
+3-75
3.80
3.84
3.89
3.93
-1.91
1.92
1.93
1.94
1.95
59 10
59 20
59 30
59 40
59 50
2
2
2
2
2
15 57.0
16 37.0
17 17.5
17 58.4
18 39.8
2
2
2
2
2
15 37-4
16 17.3
16 57.7
17 38.6
18 19.9
2
2
3
2
2
15 17.9
15 57.7
16 38.0
17 18.7
18 0.0
2 14 58.4
2 15 38.1
2 16 18.3
2 16 58.9
2 17 40.1
2 14 38.9
2 15 18.5
2 15 58.6
2 16 39.1
2 17 20.2
2
2
2
2
2
14 19-4
14 58.9
15 38.9
16 19.3
17 0.2
+3.98
4.02
4.07
4.11
4.16
— 1.96
1.97
1.98
1-99
2.00
60 0
2
19 21.7
2
19 1.7
2
18 41.7
2 18 21.7
2 18 1.7
2
17 41.7
4-4-20
— 2.01
TABLE Va.
FOR REDUCING TO ELONGATION, OBSERVATIONS MADE NEAR ELONGATION, 1913.
>. Azimuth
Xat Elong.
at "BXao^.y
\.
1° 10'
!<> 20'
1° 30'
i<> 40'
1*50'
2*> 0'
2® 10'
2** 20'
y^
♦Time. ^s.
y^ Time*
m
n
n
//
n
//
//
//
//
m
0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0
I
+ 0.1
4- O.I
4- 0.1
4- 0.1
4-0.1
4- O.I
4- 0.1
4- 0.2
I
2
0.2
0.2
0.2
0.2
0.3
0.3
0.3
0.3
2
3
0.4
0.4
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
-f i.o
-f I.I
+ 1-3
4- 1.4
4- 1.6
+ 1.7
-f 1.9
4- 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
+ 40
4- 4.6
+ 5.1
-f 5-7
+ 6.3
4- 6.8
-f 7-4
4- 8.0
10
II
4-9
5.6
6.2
6.9
7.6
8.3
9.0
9-7
II
12
5-8
6.6
7-4
8.2
9.0
9.9
10.7
11.5
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
-f 9.0
4-10.3
4-11.6
-f 12.9
4-141
+ 15-4
4-16.7
4-18.0
15
i6
10.2
11.7
13-2
14.6
16.1
17.5
19.0
20.4
16
17
II-5
132
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
38.9
19
20
4-16.0
+ 18.3
4-20.6
4-22.9
4-25.1
+27.4
4-29.7
4-32.0
20
21
17.7
20.2
22.7
25.2
27-7
302
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
4-25.0
4-28.6
+32.1
+35-7
+39.3
+42.7
+46.3
+49-9
25
26
27.0
309
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
58.3
27
28
31.3
35.8
40.3
44.7
49.2
53.7
58.1
63.6
28
29
33.6
38.4
43.2
48.0
52.8
57.6
62.3
67.1
29
30
+35.9
4-41-1
4-46.2
+51.4
+56.5
4-61.6
4-66.7
4-71.8
30
* Sidereal time from elonffation.
VEpb ii\
TABLE VI.
699
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 URSiE
MAJORIS (MIZAR) SUB POLO AND 6 CASSIOPEIiE SUB POLO,
RESPECTIVELY.
Except at high latitudes, the pole star at either upper or lower culmination
furnishes a simple and convenient method for laying 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 Cassiopeiae below the pole. In the former case, for the year 1913, 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 S Cassiopeiae for ten-day intervals in the following table.
This method can not be used at places south of 30® north latitude.
TABLE VI.
MEAN TIME INTERVAL.
CURS^
MAJORIS (MIZAR).
d CASSIOPEI-B.
(Upper culmination of Polaris.)
(Ixiwer culmination of Polaris.)
Lat.
\.
Lat
1913
40O
45^
50^
55**
60**
1913
35**
400
45**
50<>
55^
m 8
m s
m 8
m 8
m
8
m s
m 8
m s
m 8
m 8
Jan.
I
7 18
7 17
7 15
7 13
7
10
Jan.
I
8 22
8 23
8 25
8 27
8 29
11
7 8
7 7
7 5
7 3
7
0
II
8 II
8 12
8 14
8 16
8 18
21
6 58
7 13
6 57
7 II
655
7 9
653
7 7
6
7
50
4
21
31
8 I
7 50
8 2
7 51
8 4
7 53
8 6
7 55
8 8
July
10
7 57
20
7 24
7 22
7 20
7 18
7
15
Feb.
10
7 40
7 41
7 42
7 44
7 46
30
7 34
7 33
7 31
7 29
7
26
20
7 30
7 31
7 33
7 35
7 37
Aug.
9
7 44
7 43
7 41
7 38
7
35
Mar.
2
7 23
7 24
7 26
7 28
7 30
19
7 53
7 52
7 50
7 47
7
44
12
7 16
7 17
7 19
7 21
7 23
29
8 2
8 0
7 58
7 56
7
53
22
7 12
7 13
7 14
7 16
7 18
Sept.
8
8 10
8 8
8 6
8 3
8
0
Apr.
I
7 10
7 II
7 12
7 14
7 16
18
8 15
8 14
8 12
8 9
8
6
11
7 10
7 II
7 12
7 14
7 16
28
8 20
8 18
8 16
8 14
8
xz
21
7 II
7 12
7 13
7 15
7 17
Oct.
8
8 24
8 22
8 20
8 17
8
14
May
I
7 14
7 15
7 17
7 19
7 21
18
8 25
8 24
8 22
8 19
8
16
II
7 20
7 21
7 23
7 24
7 26
28
8 25
8 23
8 21
8 18
8
15
21
7 27
7 28
7 30
7 32
7 34
Nov.
7
8 24
8 22
8 20
8 17
8
14
31
7 35
7 36
7 38
7 39
7 41
17
8 21
8 19
8 17
8 14
8
II
June
10
7 44
7 45
7 47
7 49
7 51
27
8 15
8 14
8 12
8 9
8
6
20
7 55
7 56
7 58
8 0
8 2
Dec.
7
8 8
8 7
8 5
8 2
7
59
30
8 5
8 6
8 8
8 10
8 13
17
8 0
7 59
7 57
7 54
7
51
July
10
8 16
8 17
8 19
8 21
8 23
27
7 52
7 50
7 48
7 46
7
43
20
8 27
8 28
8 30
8 32
8 35
37
7 42
7 41
7 39
7 37
7
34
30
8 38
8 40
8 42
8 44
8 46
[Eph 13]
ON THE ARRANGEMENT AND USE OF THE AMERICAN
EPHEMERIS AND NAUTICAL ALMANAC.
The matter contained in the first 175 pages of this volume is intended pri-
marily for the use of navigators, and consists of ephemerides of the Sun and Moon
and of the planets Mercury, Venus, Mars, Jupiter, and Saturn. The remainder
of the book contains ephemerides of all the planets, of their satellites, of 825 fixed
stars, elements for the computation of predictions of eclipses of the Sun and Moon
and of occultations of stars, tables of the pole star, Polaris, and in addition
miscellaneous data for the convenience and use of astronomers, surveyors, and
the general public.
TIME.
There are in general use three different kinds of time, True Solar Time —
also called Apparent Solar Time — Mean Solar Time, and Sidereal Time.
True or Apparent Solar Time is measured by the diurnal motion of the 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 the hour-angle of the Sun
westward from the meridian. Owing to the obliquity of the ecliptic and to the
lack of uniformity of the motion of the Earth in its orbit, the rate of motion of
the Sun in hour-angle and the length of the apparent solar day are not constant.
Therefore clocks and chronometers can not be regulated to apparent solar time,
which may, however, be determined by observations of the Sun when visible.
Mear^ Solar Time is measured by the motion of a fictitious body called the
mean Sun which is supposed to move uniformly in the celestial equator, com-
pleting the circuit in one tropical year. Since mean solar time is uniform and
regular in its passage, clocks and watches may be regulated to it, and those in
ordinary use are usually so regulated.
Mean solar time can not, of course, be determined by direct observation, but
may be determined indirectly by correcting observations of the Sun for the equa-
tion of time (page 702), or by converting to mean time sidereal time determined
by observations of fixed stars (page 701).
The Mean Solar Day is the unit of mean solar time, and is equal in length
to the mean or average of all the true or apparent solar days of the year. It
may be otherwise defined as the interval of time elapsing between two successive
transits of the mean Sun across the meridian of any place.
Sidereal Time or star time, in general terms, is measured by the diurnal motion
of the fixed stars, or, speaking more precisely, by the diurnal motion of that point
on the celestial equator called the vernal equinox, from which the right ascensions
of the heavenly bodies are measured. Astronomical clocks regulated to sidereal
time are called sidereal clocks. Sidereal time may be determined from observa-
tions of stars whose right ascensions are known.
[Eph 13] "^o^
702 THE AMERICAN EPHEMERIS.
A Sidereal Day is very nearly the length of time in which the Earth rotates
on its axis and is accurately defined as the time interval between two successive
transits of the vernal equinox over the same meridian. The sidereal day is
shorter than the mean solar day by 3" 56*.555 sidereal time or 3" 55*.909 mean
solar time, the tropical year of 365.2422 mean solar days containing 366.2422 side-
real days. Sidereal time and the length of the sidereal day are subject to slight
irregularities on account of small differences between the positions of the true
and mean equinoxes.
The mean solar and sidereal days are each divided into 24 hours. About
March 23 (civil date) of each year, about two days after the vernal equinox, there
is an instant when the face of a sidereal clock shows the same time as a mean
time clock, and the former gains on the latter 3™ 56*.555 sidereal time per mean
solar day, so that at the end of a year it will have gained one sidereal day and
will again agree with the mean time clock. •
The Equation of Time is the difference in hour-angle between the true Sun
and the mean Sun. The true Sun is sometimes before and sometimes behind
the mean Sun by an amount which varies from zero to about 16 minutes. The
equation of time is given on pages I and II of each month of the Greenwich
Ephemeris, and in the Solar Ephemeris for the Meridian of Washington, pages
518-525-
The Civil Day begins at midnight and comprises 24 hours, the hours being
counted from o to 12 in two series; the first, marked A. M., running from mid-
night to noon, and the second, marked P. M., running from noon to midnight.
The Astronomical Day begins at noon on the civil day of the same date, the
24 hours being counted from o to 24, running from noon of one day to noon of
the next following day. Astronomical time as well as civil time may be either
apparent or mean.
The civil day begins twelve hours before the astronomical day; theiefore 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
January 9, 2**, astronomical time.
PRECEPTS FOR THE CONVERSION OF TIME.
To convert Sidereal Time at any place into Mean Solar Time, subtract the
sidereal time of local mean noon for the beginning of the astronomical day, from
the given sidereal time, and convert the interval of sidereal time thus found into
mean time by means of Table II, page 686.
To convert Mean Solar Time at any place into Sidereal Time, convert the given
interval of mean time (counted from mean noon) into sidereal time by means of
Table III, page 689, and add the sidereal time of local mean noon for the begin-
ning of the astronomical day.
Processes similar to the above may be employed, using the mean time of
sidereal noon given on page III of the Greenwich Ephemeris instead of the sidereal
time of mean noon.
lEph 13]
USE OF THE TABLES. 703
To convert Apparent Solar Time into Mean Solar Time, add or subtract the
equation of time as indicated on page I of the Greenwich Ephemeris, or add
algebraically the equation of time taken from the Washington Solar Ephemeris,
pages 51S-525.
To convert Mean Solar Time into Apparent Solar Time, add or subtract the
equation of time as indicated on page II of the Greenwich Ephemeris, or subtract
algebraically the equation of time taken from the Washington Solar Ephemeris,
pages 518-525.
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; if the civil time is
marked P. M., take away the designation P. M.
To convert Astronomical Time into Civil Time, — If the astronomical time is
less than twelve hours, write P. M. after it; if greater than twelve hours, sub-
tract 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 convert Mean Solar or Sidereal Time of any meridian B to that of another
meridian A, add the difference of longitude expressed in time when A is east of
B, and subtract the difference of longitude when A is west of B.
PART /.—THE EPHEMERIS FOR THE MERIDIAN OF GREENWICH.
Pages 2-145 ^ve 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 Declinationy 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
lEph 13]
704 THE AMERICAN EPHEMERIS.
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 observ^ed 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, 1913, April 15, at a
place whose longitude is 89° 40', or 5*^ 58°* 40® west from Greenwich: —
h m s
Local apparent time April 15, 000
Longitude from Greenwich (additive) 5 58 40
Greenwich apparent time . April 15, 5 58 40
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**.022 before
Greenwich apparent noon on April 16.
On page 38 of the Ephemeris we find that the change of declination in one
hour is:
ft
April 15, at Greenwich apparent noon +53- 7'
April 16, at Greenwich apparent noon . +53- 30
Difference for one day — o. 41
If great exactness is desired, we find the amount 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 ^ day; so the calculation is as follows:
//
Difference for one hour, April 15 . . . +53- 7*
Change for 0.125 of a day or — o".4i X0.125 — 0.05
Difference at 3 hours after noon +53-66
53".66X5.978=32o".8=:5' 2o".8
Declination at Greenwich noon, April 15 . N. 9 39 3. 7
Change in 5,978 hours (additive) ... 5 20.8
Sun's declination at time of observation N. 9 44 24. 5
When the time of observ^ation 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*'.o22 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
* lEph X3]
USE OF THE TABLES. 705
interval is 53".45. Then, we find —
Declination at Greenwich noon, April 1 6 . N. lo 027.9
Product of 53".45X 18.022 =963".3 (subtractive) — 16 3.3
Sun's declination at time of observation . N. 9 44 24. 6
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 sufBdent to compute the
declination to the nearest half minute, and the reduction may then be fotmd by
Table 12 of Bowditch's American Practical Navigator,
Page II contains, for Greenwich mean noon of each day, The Sun'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
mean time, by using the hourly difference, 9^.8565; or by Table III, page 689 of
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 affected 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 Stm out of the meridian.
The sidereal time of mean noon, or right ascension of the mean Stm, is useftd
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,
page 686 of this volume, or from Table 8 of BoworrcH's Navigator, Instead of
19x3 ^45 ®P** '3^
706 THE AMERICAN EPHEMERIS.
using Table II, this reduction may be found by multiplying 9".8296 by the houre
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
1913, July 13, 10** 3" 30^ A. M., mean time, at a place whose longitude is 85° 15',
or 5** 41™ o* west of Greenwich.
h m s
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'*. 74 17
Sun's Right Ascension. Equation of Time.
h m 8 m s
July 13, Greenwich noon 7 28 30.70 July 13, Greenwich noon 5 28.18 (subtractive)
H. D. io«.i59X3-74i7 + 3801 H. D.-f o«.302X3.74i7 • + 113
7 29 8.71 5 29.31
In this case the hourly differences interpolated to half the interval, or i*'.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 Bowditch's Navigator.
2. — If the sidereal time is required for the same time and place, we have —
h m s
July 13, sidereal time (at Greenwich mean noon) . . 7 23 2. 52
Reduction for 3^ 44™ 30* from Table III, or 9*.8565X3.74i7 . + 36. 88
Add the local astronomical mean time . . 22 3 30. 00
The required sidereal time is (rejecting 24**) . 5 27 9. 40
3. — On 1 91 3, July 13, A. M., at a place whose longitude is 85® 15' W., suppose ■
the sidereal time to be 5^ 27™ 9*. 40, and that the corresponding mean time is
required.
The astronomical day is July 12; the longitude in time, +5^* 41" o% or-f5**.683.
h m s
July 12, sidereal time (at Greenwich mean noon) . . • 7 19 5. 96
Reduction for 5^ 41" o" from Table III, or 9'.8565 X5.683 + 56. 01
— ^^^— ^^^— ^^^-^.^^ '
The sidereal time of local mean noon 7 20 i . 97 •
The given sidereal time ( -f 24**, if necessary for the following sub- j
traction) 29 27 9. 40 I
\
Subtracting the first from the second gives the sidereal interval '
from noon 22 7 7. 43=22**.! 187
Reduction for 22*^7™ 7".43 from Table II, or— 9*.8296X 22. 1 1 87 — 337.42
The required astronomical mean time is July 12, 22 330.01
Page III contains, for Greenwich mean noon of each day, The Sun's True
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 X';X 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 Besselian ficti-
tious 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 logarithin
of the radius vector, for any hour from noon.
lEph 13I
\
USE OF THE TABLES. 707
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 Greenwich. It may be reduced to any
meridian, or to any Greenwich sidereal time, by using the hourly diflFerence,
— 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 illustn*'-on, let us take Example 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.
h m s
July 12, the mean time of Greenwich sidereal noon is . .16 38 10. 06
Reduction for longitude from Table II, or —9". 8296 X5. 683 —55- 86
The mean time of local sidereal noon 16 37 14. 20
Add the given sidereal time 5279. 40=5*^.4526
The sum is 22 4 23. 60
Reduction for 5** 27" 9'.40 from Table II, or— 9*.8296X5.4526 —53. 60
The required astronomical mean time July 12, 22 3 30.00
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 0.2725 (see p. xi), or by simply
computing the proportional part.
If, for example, the semidiameter of the Moon is to be taken out for 191 3, March 10, 7**,
P. M., Greenwich mean time, we see that the difference of the semidiameters at noon and mid-
night of March 10 is 3". o; then,
12^ : 7^=3".o : i".7
0
which is the correction to be added to the semidiameter at noon, because the semidiameter is
increasing. The Moon's semidiameter for March 10, 7*^, is therefore 14' 57".o.
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
708 THE AMERICAN EPHEMERIS.
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 Moan'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 tb^. 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
1913, April 27, 10** 10^ 30*, astronomical mean time at Greenwich: —
Right A scension. Declination.
h in s o ^ ff
April 27, 10** . 20 26 45.44 S. 23 48 9.3
Diff. 2*. 1059X10.5 . 22.11 +8'''.548Xio.5 + i 29. 8
April 27, lo'^ 10™ 30* 20 27 7.55 S. 234639.5
For the sake of precision, the differences here employed have been intepolated for 5"^. 2 =0^.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.
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
over 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 b
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 704-707. The local mean time of meridian passage <rf
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 hcturs 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
lEph 13]
USE OF THE TABLES. 709
LogarUhm 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 Redtic. 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 vear.
Pages 208-211 contain 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.
Page 213 contains the elements of the Moon's Libration, and the Sun's
Aberration and Horizontal Parallax. The formulae for finding the libration in lon-
gitude and latitude, are given on pj^e xii. 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 longi-
tude as affected by aberration is always less than the true longitude. The Sun's
Horizontal Parallax, given in the last column, is the angle subtended by the equa-
torial radius of the Earth, as seen from the center of the Sun.
Pages 214, 231-232 contain 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
A. = the longitude of any body referred to the true equinox of the date.
A.' = the longitude of the same body referred to the mean equinox of the
{beginning of the Besselian fictitious year.
^'1 =» the adopted value of the general precession.
6*ip =» 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.
lEph 13J
710 THE AMERICAN EPHEMERIS.
<^"^ = theshortperiodtermsof nutation in longitude, given on pages 231-232.
oj = the true or apparent obliquity of the ecliptic at the date.
go' = the mean obliquity of the ecliptic at the beginning of the Besselian
fictitious year.
6' GO = 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"oo == the short period terms of nutation in obliquity, given on pages
231-732.
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.
r =
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 191 3.0 = r^^; the Nutation in Longi- '
tude = <^'^; the Nutation in Right Ascension = (<J'^) cos co'; the Nutation in
Obliquity = d'co, and the Obliquity of the Ecliptic = a? — S^'go, which is the true :
inclination of the Earth's equator to the ecliptic, exclusive of the terms depending *
on the Moon's longitude. !
PART //.—THE EPHEMERIS FOR THE MERIDIAN OF WASHINGTON. {
!
Pages 216-217 contain formulae for reducing the positions of fixed stars,
including expressions for the Besselian star-numbers and star-constants, and for
the independent star-numbers; the whole based upon the constants of the Paris ,
Conference of May, 1896, and expressed in the notation of Bessel. {
Pages 218-221 contain the logarithms of the Besselian Star-Numbers, A, B, \
C, D, for each Washington mean midnight, with the values of E appended at the ,'
bottoms of the pages. The terms of short period have been included. These |
numbers serve to reduce the mean place of a star at the beginning of the Bessefian \
fictitious year to its apparent place at the dates for which the numbers are given, I
and in ordinary cases four-figure logarithms suffice; but where extreme accuracy
is desired the logarithms of ^4 , 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 j
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. i
The following is an example of the reduction of a star to apparent place by
the Besselian star-numbers : , 1
[Eph ul
USE OF THE TABLES. 711
ComptUcUion of the apparent place of jS Tauri for May i, 191 3, for the upper transit at lVashin0on,
loga 0.5543 logb 8.1715 lege 8.5645 logd 8.7993
logi4 9.4804 logB o.968in logC i.i53on logD i.i26on
loga' 1.0038 log 6' 9.9366n logc' 8.6728 logd' 9.3088
logi4a 0.0347 log Bb 9.i396» log Cc 9.7i75n logDd 9.9253»
logAa' 0.4842 logB6' 0.9047 logCc' 9.8258^ log Dd^ 0.434891
h m 9 o / //
Mean Place, 1913,0, a^ ^ 3 59 9-307 *o =4-23 52 1.59
Aa = 4-1.083 Aa' = +305
Bb = -0.138 By = +8.03
Cc = —0.522 Cc' = —0.67
Dd = —0.842 Dd' = , —2.72
E = 0.000 r m' = — o.oi
r /< = 0.000
Apparent Place, May I, 3 59 8.888 ^ = 4-23 52 9.27
-/' -0.005
^ ^ 3 59 8883
Pages 222-229 contain the Independent Star-Numbers, which can frequently
be advantageously used instead of the Besselian Star-Numbers, The terms of
short period have been included. 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,
df 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 accuracy is desired the logarithms of
g and h are needed to five places of decimals, and G and H are needed to <5ne-tenth
of a minute of arc. The column r gives the fraction of a year, counted from the
beginning of the Besselian fictitious year to each date.
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 i, 1913, for the upper transit at Washington.
G
h m
= 20 12.4
*o =
4- 23 5:
!.0
0^0
= 3 59.2
GH-ao =
0^ 11".
6
H
= 15 7-1
HH-a, =
19
6.
3
logA
8.8239
log A
8.8239
0^0 =
h m s
3 59 9307
log^
1.045 X
log A
1.2904
/ =
4- 0.924
sin (G-hao)
8.7041
sin (//-h^o)
9.98 1 6n
{9) =
4- 0.017
tan^o
96459
sec ^0
0.0388
(A) =
- 1.364
^og(g)
8.2190
log (A)
o.i347n
T ft —
a =
0.000
3
59 8.884
logg
1.045 1
log A
1.2904
«o =
4-
23
52 1.59
cos (G-htto)
9.9994
cos (//4-ao)
sindj,
9-4553
9.6070
(/) =
-f 11.08
4- 2.25
log (g')
10445
(•■) =
- 5.64
log (*')
0.3527
r«'=
— 0.01
log i o.7903n
cos ^o 9.9612
log(t) 0.75 1 5»
* = + 23 52 9.27
lEph 13I
712 THE AMERICAN EPHEMERIS.
Page 230 contains for every tenth sidereal day the Besselian 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 differential 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 pwtge 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 oi 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 u day in the column Mean Solar Date.
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 circumpolars. 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 circumpolar stars in all
respects similar to those of northern circumpolar 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 Asironomical
Papers of the American Ephemeris, Vol. VHI, Part 2, pages 370-382. They furnish
data for estimating approximately the accuracy of the Mean Places of the Stars
on pages 233-250.
IBph 13]
USE OF THE TABLES.
713
Pages 518-525 contain the Apparent Right Ascension and Declination di 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 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 oi 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 Eqtuition of Time for A pparent Noon is the correction to be applied to appar-
ent 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 oi the Sun's center over
the meridian of Washington, counted from thenearest noon. The useof all the quan-
tities 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. The mean time given in the third 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 of the Moon in right ascension were uniform, or, in
other words, they are differential coefficients corresponding to the instants of Wash-
ington 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 Dif-
ference for One Hour of Longitude. Write down three successive values of F, together
with the corresponding values of D, and difference the latter as in the following
scheme; where the middle values, Fo and Do, belong to the culmination from which
is to be derived the value of F for the culmination on the meridian whose longitude
is A.: —
Function.
Diff. for
I Hour of
Longitude.
^'
J"
F_,
Fo
F+.
Do
D+,
a'
a"
b
Then, for the culmination at the meridian A.
lEph 1 5\
714 THE AMERICAN EPHEMERIS.
where A. must be expressed in hours and decimals of an hour, and reckoned from
Washington or from i8o° from Washington according as the upper or lower cul-
mination is used for the middle value (F©) . Adding twelve hours to the Washington
time of lower transit at Washington gives the local time of upper transit at places
whose longitude is i8o° from Washington.
The columns of Sidereal Time of Semidiameier Passing Meridian, Geocentric
Semidiameter and Equatorial Horizontal Parallax need no explanation, except that
they are all given for 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 for each of the seven major planets, the geocentric
Apparent Right Ascension and Declination, the Horizontal Parallax, Semidiameter,
and Sidereal Time of Semidiameter Passing Meridian, for the moments of all tran-
sits 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.
The stellar magnitude at opposition for Mars, Jupiter, Saturn, Uranus, and
Neptune, respectively, is given at the bottom of the page containing the ephemeris
of the planet.
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
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 51 150. The principal
circumstances of each total and annular eclipse are stated in five lines, 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 tVve simWat pVvt^kSfc&iot the begiiming.
VEpYi \i\
USE OF THE TABLES. 715
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 eclipse 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 1913,
April 6, begins and ends near Sitka, Alaska, latitude 57*^ o' N., longitude 135° 8' W.
For the beginning we compare the distance of the place from the curves of 4**
and 5**, and find it to correspond to about 40 minutes from the former, thus giving
for the approximate time of beginning 4*^ 40°*; for the end we compare the distance
of the place from the curves of 6^ and 7^, and find it to be about 20 minutes from
the former, thus giving for the approximate time of ending 6*^ 2o°», and both of these
results are probably correct to within 3 or 4 minutes.
Changing to local mean time, we shall have
c —
Beginning.
d h m
April 6 4 40
9 I
Ending.
d h m
6 6 20
9 I
April 5 19 39
5 21 19
Greenwich mean time ....
Longitude west ....
Local mean time ....
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 caUed VVi^ ^utidam«^\oX ^Xa-tvt ^"^ ^Jssa^R.
lEph 13I
716 THE AMERICAN EPHEMERIS.
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 Xy 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 cA the Sun as
seen from the center of the Moon. The angle ft is the Greenwich hour-angle of this
same point of the celestial sphere.
The quantities /^ and /j are the radii of the shadow cones upon the ftmda-
mental plane, l^ 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 /j and /,, 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 semiangles of the two cones.
In order to facilitate interpolation to any required moment, the logarithms
of x\ y', snd fi\ which are the changes of x, y, and /£, 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, S, tf, and C, together with their varia-
tions 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.
(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 (p' and p sin ^^ which are the geocentric coordinates of the
station referred to the Earth's equator, p being the distance from the center oi the
Earth and (p* the geocentric latitude. These coordinates may be obtained from
geodetic tables, or may be computed from the following table based on CXarkb's
spheroid of 1866, by the formulae —
pcos ^' = Fcos (p
^ . ^, sin a>
psm <p*=^—^
^ being, as usual, the geographic latitude.
USE OP THE TABLES.
Table for Computing the Geocentric Coordinates of a Place,
717
9
Lof^.
Lof (7.
5
lO
15
20
25
30
35
40
45
50
55
60
65
70
75
80
85
90
0.00000
0.00001 '
0.00004 J
O.OOOIO
0.00017 ^
0.00026 '
0.00037 '*
0.00048 "
0.00061 ^^
0.00074 II
0.00086
0.00099 II
0.001 1 1
10
O.OOI2I
0.00130 '
0.00138
0.00143 '
0.00146 ^
0.00147
0.00295
0.00294 '
0.00291 J
0.00285
0.00278 ^
0.00269 '
0.00258 "
0.00247 "
0.00234 ^
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 d, cos d, and /i. Then, with A, for the longitude west
from Greenwich, the coordinates of the observer will be —
5'= p cos (p' sin (/i— A.)
if^ p sin g^' cos d— p cos g^' sin d cos (/i— A.) = ^j— ^,
C«= P sin ^' sin rf-f /o cos 9>' cos d cos ()ti-- A.) = Ci+ Cj
and their variations in one minute of mean time will be —
^' = [7.63992] p cos (p' cos (/'—A.)
17'= [7.63992] p cos 9>' sin (f sin (/i— A.) = [7.63992] S sin d
C is not needed.
(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 jc' and y', and their
logarithms are given beneath the tables of x 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=jc —S
m cos M^y —t}
n sin N=x'—S'
n cos N^y' — tf^
(4) Both for the sliadow and for the penumbra, the radius L at the distance ^
from the fundamental plane is computed by the formula —
L=/~C tan/
/and / being found from the table of elements, and ^ computed in (i).
(5) If the time chosen for computation is exactly that of the be^innim^ <vc
ending of the eclipse, we shall have —
tii= Lf
lEph X3^
718 THE AMERICAN EPHEMERIS.
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—N)
smy?= ^ ^
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 ^ is negative; but simplicity will be gained
by taking only that value of ^ for which cos ^' is positive. This value lies between
the limits -f 90° and — 90°. The correction r to the assumed time of beginning or
ending of the eclipse will then be found, in minutes, from —
m cos (M—N) L cos ^
T= —
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.
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 formulae —
n cos tj) n cos ^ *• v • r/ ^3 v • r/j
where the double signs are to be taken negative for the begiiming 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 twa^dn^ \>rc\\ifet ^:»tt^s:^t^ and com-
putations.
USE OF THE TABLES.
719
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 formulae —
P= AT— ^± i8o° for the beginning,
or P=N+t/; for the ending,
it being assumed that, in each case, the value of ^ is taken between the limits ± 90*^.
Computation of the Solar Eclipse of J913, April 6, for a point at Sitka, Alaska.
The position of the point chosen is —
Latitude, 9'= + 57 o
Longitude, A.= + 135 8
o
o
and its geocentric coordinates an
p sin 9*' = 9.92 1 68
pcos 9*' = 973715
\
Greenwich Mean Time.
Beginning.
4" 4<^
m
Ending.
6^ 2d^
69
+ 135
- 65
21 48
8 o
46 12
9-73715
9-95995 n
94
+ 135
- 40
22 12
8 o
45 4S
9.73715
9.81487 n
From the Eclipse Chart we find the approximate times of the phases to be
d h m
Beginning April 6 4 40
Ending 6 6 20
Greenwich Mean Time, T, April 6,
X
p cos 9*'
sin i^—X)
log S
p sin 9>'
cos d
log Vi
p cos (p'
sin d
cos (/^— A)
log%
p sin (p' sin d
c.
p cos <p* COS d cos {y^—X)
const, log
pcos fp' cos (/^—A)
log 5'
If
9.69710 n
9.55202 n
— 0.49786
-0.35647
9.92168
9.92168
9.99728
9.99726
9.91896
9.91894
-f 0.82978
+ 0.82974
9-73715
973715
9.04724
9.04894
9.61320
9-87933
8-39759
8.66542
+ 0.02498
+ 0.04628
+ 0.80480
+ 0.78346
8.96892
8.97062
+ 0.09309
+ 0.09346
9-34763
9-61374
-f 0.22265
+ 0.41090
+ 0.31574
+ 0.50436
7.63992
7.63992
935035
c^.^^^ftj^
6.9^^17
T.a^e^
lEph 13A
720
THE AMERICAN EPHEMERIS.
Beginning.
S'
+ 0.000978
+0.001805
const, log
7.63992
7.63992
S sind
8.74434 n
8.60096 n
\ogrf'
6.38426 n
6.24088 n
V'
— 0.000242
— 0.000174
x~S
-0.52217
+ 0.09217
y-v
+0.14046
+0.56620
x'-S'
4- 0.006578
+ 0.005753
y'-v'
+ 0.004288
+ 0.004216
m sin M
9.71781 n
8.96459
m cos M
914755
975297
tan M
0.57026 n
9.21 162
M
-74" 56' 40"
+ 9" 14' 45"
sin M
9.98483 n
9.20593
log m
9.73298
9-75866
n sin N
7.81809
775989
ncos N
763225
7.62490
taniV
0. 1 8584
0.13499
N
+ 56^ 54' 4"
+ 53" 45' 53"
sin N
9-92310
9.90666
logn
7.89499
7.85323
tan/
7.66941
7.66940
logC
9-49933
9.70274
•
7.16874
7.37214
Ctan/
+ 0.00147
+ 0.00236
/
+ 0.56512
+ 0.56498
L
+ 0.56365
+ 0.56262
M-AT
+ 228° 9' 16"
-44" 31' 8"
sin(Af-Ar)
9.87212 n
9.84581 n
logm
9.73298
9.75866
colog L
0.24899
0.24978
sin ^
9.85409 n
9.85425 ^
^
-45" 36' 50"
-45" 38' 9"
log
1 .83799
1.90543
cos (M- AT)
9.82421 n
9.85310
1.66220 n
175853
m
n
cos (M—N)
+ 45-941
- 57.350
logL
9.75 lOI
9.75022
cos^
9.84478
9.84461
colog n
2.10501
2.14677
1.70080
I.74I60
[Bph 13]
USE OF THE TABLES.
721
n
r
T+r
Besinniiic.
-50.211
m
- 4.270
d h m
6 4 35730
+55.
157
m
- 2.193
d h
6 6
m
17.807
Since the value of r for the beginning is rather large, we compute the correc-
>n dr for this phase as follows:
Bcsiimliig-
Bcginnlnff.
const, log
5.3100
cos(N-^)
9.3359 ^
log^
9.6971 n
log%
8.3976
cosd
9.9973
log % cos (AT- ^)
7.7335 n
5.004411
Ssin(N-i^)
— 0.4861
number
— O.OOOOIOI
V, cos {N — ^)
-0.0054
/'
— O.OOOOOIO
diff.
— 0.4807
sum
— O.OOOOIII
log (sum)
5.0453 w
log (diff.)
9.6819 n
log(-r)
0.6304
const, log
4.9788 n
cologn
2.1050
logr»
1.2608
sec^
0.1552
cdog (n cos i>)
2.2602
7.9359 n
8.1817
(I)
— 0.0086
(2)
+ 0.0152
N-i^
102° 31'
m
sin (N—^)
9.9896
(i)+(2) = <Jr
■f 0.0066
log 5
9.6971 n
r
-4.270
log ^ sin (N—f)
9.6867 n
^0
-4.263
The corrected time of beginning is, therefore,
To«AprU 6'* 4** 35".737
Whence we find —
Beginning,
d h m
Greenwich Mean Time, April 6 4 35.737
^ +9 0.533
Local Mean Time, April 5 19 35.204
Therefore we have —
d h m •
Beginning of the Eclipse, April 5
End of the Eclipse, April 5 2
constant
Bnding.
h m
6 6
9
5 21
17.807
0.533
17.274
h m •
19 35 12.2 )
21 17 16.4 J
Local Mean Time.
Angle of position : P
Beginning.
Bnding.
0 /
0 /
102 30.9
8 7.7
180 0.0
0 0.0
282 30.9
8 7.7
Dm the north point of the Sun's disk toward the east for direct image.
Pages 566-569 contain the adopted mean places and annual proper motions
such stars as bright as magnitude 6.5 as will be occulted during the year by the
oon.
19 1 3 ^46 [Bph 13I
722 THE AMERICAN EPHEMERIS.
Pages 570-604 contain the elements for the prediction of the times of occulta-
tions 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 funda-
mental plane passing through the center of the Earth, and being taken perpen-
dicular 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 RecVns from jgij.o give the
quantities necessary to reduce the mean place of the star at the beginning of 191 3
to its apparent place at the time of occultation. These reductions are suflfidently
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:
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 ftmdamental 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 same as that already explained for computing
eclipses, but somewhat more simple.
Prediction of Occultations for a given Place, — When it is desired to predict the
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
semidiurnal 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 — X, 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 difficult to determine
whether H—XorT—X falls within the limits; and in such cases the computer may
lEph 13]
USE OF THE TABLES. 723
mark the occultation for trial and leave the decision for the subsequent oper-
ations. 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;
A.= 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 ^' and p cos 9', are to be
computed by the formulae and table given in connection with eclipses on page 716.
The next step will be jto 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 /. It will have the same sign as ho.
When DowNES*s table is not available, the correction may be computed from
the formulae,
5o=P cos <p' sin ho
5' = [9.4192] p cos ^'cos-Ao
By applying / 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:
5 =pcos ^' sin (ho+to)
ff = p sin (p' cos 6— p cos <p' sin S cos (^-j-^o) = Vi—Vi
^'=[9-4192] P cos cp' cos (^ + /o)
V'= [9.4192] p cos 9>' sin 6 sin (ho + to) =" [9-4^92] S sin 6
X -=x't
Compute also w, A/, n, N, and ^' from the equations,
m sin M^x—£
m cos M = y—rf
n sin N—x'—$'
n cos N=y''-'rf'
sin 0= [0.5646] m sin (Af-iV)
^ being taken between the limits ± 90°. Finally compute,
iBph 13I
724 THE AMERICAN EPHEMERIS.
n
^"—^ — ^ cos(M— iV)T^ ^^cosif
where the double signs are to be taken negative for an immersion and positive for
an emersion. Both r and dr thus have two values, which are expressed tn minutes
of time, and in order to distinguish them let those pertaining to immersion be
designated respectively r' and 6r\ while those pertaining to emersion are designated
r" and 6r". We then have for the Washington mean times of the phases,
Instant of immersion = T+ /+ r'-f dr'
Instant of emersion = 74- /+ r" + St"
These expressions are practically exact, as the corrections 6t 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
to compute ^, v, %, and y for the times of immersion and emersion finally obtained.
If these times are correct the quantities in question will fulfill the condition.
If log m sin (M—iV)> 9.4354, sin i> 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 formulae,
p « iV — ^ -f- dp for immersion,
or P= iV+ ?H- ^P ± 180** for emersion,
where the angles N—f and iV+^ are taken directly from the computation of dr,
and ^P is found in degrees of arc from the expression.
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,
V=^P-C
where C is computed from the expression,
g-f[8.22i8]rg^-[4.98>o]^'g
^^" V+[8.22i8]rv'-h[4.9«io]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.
USE OF THE TABLES.
725
In the volumes of the American Ephemeris 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 fbr 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 rj Tauri
{Alcyone) on December 11, 191 3, for Baltimore, whose position is —
9- +39° 17' 48
ir
A.= -
and whose geocentric coordinates are —
,m
49'.8
psin 9^' = 9-7993
pcos 9>' = 9.8893
From the elements on page 602 we have,
h m
T- 5 1.7
if =-5 20.7
and feo=if— ^=— 5 18.9
From the formulae on page 723, we find the correction, /, to the Washington
mean time of geocentric conjunction, T, to be about — i** i5°"-5; therefore the
Washington mean time of apparent conjunction is —
r+ /= December 1 1** 3** 46".2.
17 Tauri {Alcyone).
Apparent
Declination.
0 /
+ 23 50.6
W. T. of .^
d h m
Dec. II 5 1.7
Hour Angle.
h na
-5 20.7
Y
-I-O.7012
0.5489
+0.145 1
r+/Dec.
K
to
K + io
pcos (p'
sin {ho + O
log 5
p sin <p'
cos S
p cos (p'
sin 6
cos (feo+'o)
log '/a
ir
3" 46™.2
V2
-5 18.9
Vi-V2-V
-I 15-7
const, log
-6 34.6
pcos 9>'
cos (/I0+/0)
9.8893
log 5'
9.9950 n
S'
98843 n
const, log
— 0.7661 1
^sin S
9-7993
9.9612
97605
+ 0.5761
9.8893
9.6066
9.1772 n
8.6731 n
log 7f
\ogx'
log/
logx
X
log/
log//
— 0.0471
+ 0.6232
9.4192
9.0665 n
8.4857 n
— 0.0306
9.4192
94909 n
8.9101 n
— 0.0813
9.7395
0.0998 n
9.8393 w
— 0.6907
9.1617
9.2615 n
lBi>h 13]
726
THE AMERICAN EPHEMERIS.
r+<Dec.
II** 3*'46".2
const, log
0.5646
y't
— 0.1826
logw
9. 1 104
Y
+0.7012
sin (M- AT)
9.9860
•
y
y-v
+0.5186
+0.0754
— 0.1046
+ 0.5795
sin^
const, log
9.6610
+ 27^ 16'
1.7782
y'-v'
+0.2264
log-
9.3165
msinM
tncosM
tan M
M
8.8774
9.0195 n
9.8579 n
+ 144° 13'
cos (M-N)
[1.7782IW ,-. ._.
— *=— ^-^^ — ^— cos (M—N)
9.3971
0.4918
- 3.10
cosM
9.9091 n
const, log
1.2135
logfw
9.1104
colog n
0.2061
nsin N
9.7631
cos^
9.9488
ncosiV
9.3549
1.3684
taniV
N
0.4082
+ 68^ 40'
[i.2i35]cos^
n
=F 23.36
sinN
9.9692
r for immersion
m
— 26.46
logn
9.7939
r for emersion
+ 20.26
The computation of dr for the two contacts is as follows:
Immersion.
omemoti*
A^T^
41" 24'
95" 56'
cos(iVqF^)
9.8751
9.014411
log%
8.6731 n
8.6731 n
log (I)
8.5482 n
7.6875
(I)
- 0.0353
+0.0049
sin(iV + ^)
9.8204
9.9977
log^
9.8843 n
9.8843 n
log (2)
9.7047 n
9.8820 n
(2)
— 0.5066
— 0.7621
(I)- (2)
+ 0.4713
+ 0.7670
log [(I) -(2)]
9.6733
9.8848
const, log
6.7591
6.7591
logr»
2.8452
2.6133
colog (n cos ^)
0.2573
0.2573
logdr
9-5349
9.5145
St
m
+ 0.34
m
+ 0.33
r+dr
— 26.12
+ 20.59
T-\-i
d h m
Dec. II 3 46.2
h m
3 46.2
Washington Mean
Time of Phase,
" II 3 20.1
4 6.8
X
-0 1.8
-0 1.8
Baltimore Mean Time,
Dec. II 3 18.3
5.0
(Bph 13I
USE OF THE TABLES. 727
To find 6P and P:
log 7, 8.673 in
log 5
9.8843 n
(3)
-0.0439
sin N 9.9692
cosN
9.5610
(4)
-0.2788
log (3) 8.6423 n
log (4)
9.4453 n
Inimcrsioii.
(3) + (4)
-0.3227
Emersion.
log [(3) + (4)]
9.5088 n
9.5088 n
const, log
7.3038 n
7.3038
logr»
2.8452
2.6133
COlog COS ^
0.0512
0.0512
\og^P
9.7090
9.4771 n
6P
0
+ 0.5
0
- 0.3
iVT^
41.4
95.9
constant
•
0.0
180.0
Angle of position : P
41.9
275.6
from the north point of the Moon's limb toward the east, for direct image.
Pages 605-606 contain in detail all the data necessary for observing every
occultation of the general list which is visible at Washington during the current year.
Page 607 contains the Ephemeris for Physical Observations of the Sun,
Pages 608-615 contain the Ephemeris for Physical Observations of the Moon,
The selenographic longitudes are measured in the plane of the Moon's equator,
the axis of reference being the radius of the Moon which passes through the mean
center of the visible disk, positive toward the west — i. e., toward Mare Crisium — and
the latitudes are measured from the Moon's equator, positive toward the north — ^i. e.,
in the hemisphere containing Mare Serenitatis.
The optical and physical librations in longitude and latitude have been com-
puted with elements and formulae given on pages xi and xii, and their sums are
given in the second and third columns respectively, the physical libration being
given separately in the fourth and fifth columns. The Sun's selenographic colongi-
tude (90°— longitude) and latitude and the position-angle of the Moon's axis, C,
in the sixth, seventh, and eighth columns, respectively, have all been corrected
for the effect of physical libration.
When the libration in longitude is positive, the mean center of the disk is
displaced toward the east — that is, the region thus exposed to view is on the west
limb — and when the libration in latitude is positive the mean center of the disk is
displaced toward the south — that is, the region thus exposed to view is on the
north limb.
The altitude of the Sun, A, at any given time above the horizon of any point
on the Moon whose selenographic longitude and latitude, A. and /3, are known, may
be computed from the following formula, the Sun's selenographic longitude and
latitude being denoted by Iq and 6©, respectively :
sin A =sin 6© sin /J+cos 6© cos /3 cos (/q— A)
Pages 616-617 contain the data with reference to the illuminated disks of
Mercury and Venus. The angle 0 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,
iBph 13]
728 THE AMERICAN EPHEMERIS.
measured in the direction west, north, east, south. It is measured from o® to 360®.
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.
Pages 618-621 contain the Ephemeris for Physical Observations of Mars. The
quantities here given have been corrected for aberration, so that in using them
they should be interpolated to the actual time of observation.
P is the position-angle of the axis of rotation measured eastward from the
north point of the disk.
A^ and ^40 are the planetocentric right ascensions of the Earth and Sun, re-
spectively, measured in the plane of the planet's equator from its vernal equinox.
D^ and Dq are the planetocentric declinations of the Earth and Sun, respec-
tively, referred to the planet's equator.
Ocf is the planetocentric longitude of the Sun measured in the plane of the
planet's orbit from its vernal equinox.
k is the ratio of the area of the illuminated portion of the apparent disk to
the area of the entire apparent disk regarded as circular.
i is the angle between the Sun and the Earth as seen from the planet.
q is the angular value of the greatest defect of illumination as seen from the
Earth.
Q is the position-angle of the radius of the disk which passes through the point
of greatest defect of illumination — that is, of the radius perpendicular to the line
joining the cusps. It is measured eastward from the north point of the disk.
The column headed Central Meridian contains the longitude of the meridian
which bisects the disk, measured from the adopted zero meridian.
The columns headed Transit of Zero Meridian contain the Washington Mean
Time of every transit of the zero meridian across the actual center of the disk.
Page 622 contains, for the Satellites of Mars, the diagram of their orbits and
the times of their elongations.
Pages 623-626 contain the Ephemeris for Physical Observations of Jupiter.
The columns headed Central Meridian contain the longitudes of the meridian
which bisects the disk, measured from the adopted zero meridians for the equatorial
region and from the meridian of the Great Red Spot, respectively.
The column headed Correction for Phorse contains the corrections to be applied
to the longitudes of the central meridian to obtain the longitudes of the meridian
bisecting the illuminated disk.
The column headed Transit of Zero Meridian contains the Washington Mean
Time of every fifth transit of the zero meridian across the center of the illuminated
disk.
The column headed Transit of Great Red Spot contains the Washington Mean
Time of every fifth transit of the meridian through the Great Red Spot across the
center of the illuminated disk.
The remaining quantities used on pages 623-624 are the same as those defined
under the Ephemeris for the Physical Observations of Mars.
Pages 627-655 contain, concerning the Satellites of Jupiter , the diagram of the
orbits of Satellites I-V, the times of conjunction of Satellites I-IV, the times of
iKph 13]
USE OF THE TABLES. 729
elongation of Satellite V, the differences in right ascension and declination between
Jupiter and Satellites VI and VII, and the phenomena of the Satellites I-IV
together with their configurations.
Page 656 contains the Magnitude of Saturn and the Elements of the Rings.
Pages 657-663 contain, concerning the Satellites of Saturn, the diagram of the
orbits of the seven inner satellites, the times of elongation for the first eight
satellites, the differences in right ascension and declination between Saturn and
Phoebe, the ninth satellite, and tables for predicting the position-angles and dis-
tances from the center of the planet of the first eight satellites.
Page 664 contains the diagram of the orbits of the satellites of Uranus, together
with the times of their elongations.
Pages 665-666 contain tables for predicting the position-angles and distances
from the center of the planet of the satellites of Uranus and Neptime.
Page 667 contains the diagram of the orbit of the satellite of Neptune, together
with the times of its elongations.
Pages 668-669 contain the Phenomena. The predicted times of the conjunc-
tions, quadratures, 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 o**, ±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 ascension. The degrees and minutes to the right show the difference of
declination at the moment of conjunction.
Pages 670-679 contain the Positions of Observatories. These have been com-
piled from various sources, and the data used are the best immediately available.
The tabular arrangement is self-explanatory.
Page 680 contains two examples in the computation of lunar distances, which
are inserted because the lunar distance tables have been omitted from the American
Ephemeris since 191 1.
Pages 681-699 contain a series of tables numbered from I to VI.
Table I — For Finding the Latitude by an Observed Altitude of Polaris.
Table II — For converting Sidereal into Mean Solar Time.
Table III — For converting Mean Solar into Sidereal Time.
Table IV — For finding the Azimuth of Polaris at All Hour Angles.
Table V — For finding the Azimuth of Polaris at Elongation.
Table VI — For Finding the Times of Upper and Lower Culmination of Polaris.
The following-named persons were engaged in the preparation of the American
Ephemeris and Nautical Almanac for the year 191 3:
Assistants and Employees. — James Robertson, H. G. Hodgkins, W. M. Ham-
ilton, W. T. Carrigan, Arthur Snow, Arthur Newton, Perez Fisch, H. H. Brogan,
Miss Isabel Martin, Clifford S. Lewis, G. F. Crawley, Roberdeau Buchanan, Mrs.
E. B. Davis, Miss Janet Mc William, Mrs. H. F. M. Hedrick, Alfred Doolittle, Henry B.
Evans, Geo. B. Merriman, F. E. Ross, H. B. Hedrick, Wm. Auhagen, Thomas E.
Trott, B. J. Sigmund, Louis Lindsey.
[Eph 13]
730 INDEX TO APPARENT PLACES OP STAKS, 1913.
INDEX TO APPARENT PLACES OF STARS, 1913. 731
Name.
Page.
Name.
Page.
Name.
Page.
Name. Page.
Name. Page.
Name.
Page.
Name. Page.
Corvi.
Doradus.
Eridani.
Groombr.
Horologii.
Leonis.
Lupi.
P
389
a
326
y
325
1446 359
a 323
e
368
P 406
r
386
6
337
0*
323
1450 359
/* 313
C
371
y 411
s
388
r«
3"
1586 369
38 (G.) 315
7
370
C 408
e
385
Draconis.
r»
313
1706 377
6
380
r*
318
1830 384
Hydrse.
t
381
Lynds.
Crateris.
a
399
t*
319
2001 395
f^
369
V
P
429
v*
324
2164 405
a 365
k
366
2 340
8 343
a
377
r
433
<P
305
2283 263
y 394
0
367
P
379
6
444
e
316
2320 417
^ 360
n
370
15 347
6
380
€
449
g
319
2377 423
« 361
P
374
24 353
C
383
c
425
12
314
2533 435
C 362
6
380
26 354
n
420
53
326
3241 454
G 364
r
381
27 355
Crucis.
B
t
416
410
Fornacis.
4163 485
^ 371
^ 373
V
X
382
378
31 357
40 365
P
y
387
K
X
388
381
p
310
Gruis.
y 376
\ 382
d
I
378
376
391
388
386
0
X
432
441
445
K
306
305
a 468
P 473
* 399
6 360
54
379
377
Lyrae.
a 438
X
437
Geminor.
r 466
Hydri.
Leo.
Min.
P 440
Cygni.
*
00
431
430
a>
352
t 474
% 478
a 303
10
367
y 442
6 444
a
45<>
A
421
P
353
p 289
19
369
* 443
P
445
iH.
263
r
343
Herculis.
y 320
31
373
R 441
r
453
3
383
d
350
5 306
41
374
d
448
4H.
385
e
344
a 426
« 308
42
375
Mensse.
457
9H.
374
:
347
P 420
0 313
46
376
c
«
461
12 H.
413
n
340
y 419
I 316
* 325
9
447
35
432
6
346
5 426
^ 293
Leporis.
C 346
f
446
36
436
t
350
t 424
^ 308
31 487
K
445
50
440
K
353
C 422
a
334
r
4
458
459
76
79
275
467
349
341
7 423
0 432
Indi.
P
d
333
337
Microscop.
0
451
220 H».
458
V
342
« 430
a 454
e
330
4^ ^ 0 ^v
466
461
Equulei.
4
P
344
351
K 416
A 428
P 458
« 467
V
336
338
X 459
6^ 462
r
461
<P
354
^ 431
9 475
M
331
g
463
a
461
X
355
4 433
*^*^
Monocer.
15
447
I
339
0 435
Lacerte.
Libra:.
^m^
41
453
Eridani.
51
349
n 426
S 344
6i
460
6 421
a 471
a
405
8 341
74
464
a
299
Groombr.
r 419
3 471
P
409
10 342
P
330
q> 416
10 472
y
412
18 345
Delphini.
r
321
750
251
00 420
6
407
25 352
d
318
848
326
^ 425
Leonis.
C
411
30 358
a
455
€
317
944
251
w 427
t
408
P
455
c
315
966
334
49 423
a 370
X
414
MvLfKset,
r
456
V
311
1 1 19
263
89 432
P 383
e
406
s
456
e
312
1308
351
109 437
y 372
2
401
a 389
B
454
M
327
1374
354
no 439
[Bph 13]
* 379
8
405
S 392
732 INDEX TO PLACES OF 8TAES, 1913.
GENERAL INDEX.
Abbreviations xvi
Aberration, Constant of xiv
of the Sun 213
Achemar (Alpha Eridani), Apparent Place 299
Mean Place 234
Age of the Moon Greenwich Ephemeris IV
Alcyone (Eta Tauri), Apparent Place 319
Mean Place 235
Aldebaran (Alpha Tauri), Apparent Place 325
Mean Place 236
Algol (Beta Persei), Apparent Place 314
Mean Place 235
Alioth (Epsilon Ursae Majoris), Apparent Place 392
Mean Place 242
Alkaid (Eta Ursae Majoris), Apparent Place 397
Mean Place 242
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 Ursae Minoris (Polaris), Apparent Place . 251
Mean Place 233, 250
Polaris Tables 681
Alpheratz (Alpha Andromedae), Apparent Place 287
Mean Place 233
Altair (Alpha Aquilse), Apparent Place 449
Mean Place 247
Anniversaries and Festivals vi
Antares (Alpha Scorpii), Apparent Place 420
Mean Place 244
Aphelia of Planets 668
Apogee of Moon Greenwich Ephemeris XII
Apparent Place of 36 Tauri, Example of Reduction to 711
Places of 800 Standard Stars 287
of 15 Northern Circumpolar Stars 251
of 10 Southern Circumpolar Stars 487
of 825 Stars, Index to 730
Arcturus (Alpha Bodtis), Apparent Place 400
Mean Place 242
Ariel, First Satellite of Uranus 664, 66s^ 666
[Bph xsl •\'>»'>»
734 GENERAL INDEX.
Arrangement and Use of the American Ephemeris 701
Aspects of the Planets 668
Astronomical Constants xiv
Azimuth of Polaris at all Hour Angles, Table IV 692
at Elongation, Table V 694
Beginning of the Seasons 668
Bellatrix (Gamma Ononis), Apparent Place 333
Mean Place 236
Besselian Elements of Solar Eclipses 563, 564, 565
Formulae for Star Reductions 216
Star Numbers 2x8, 230
Example of Reduction with 7 1 x
Exclusive of short-period Terms 230
Betelgeux (Alpha Orionis), Apparent Place 338
Mean Place 237
Brilliancy of the Planets, greatest (see Stellar Magnitude under each planet).
Canopus (Alpha ArgAs), Apparent Place 342
Mean Place 237
Capella (Alpha Aurigae), Apparent Place 331
Mean Place * . 236
Castor (Alpha Geminorum), Apparent Place 352
Mean Place 238
Charts of Solar Eclipses following pages 562, 564
Chronological Eras and Cycles xxii
Circumpolar Stars, Apparent Places 251,487
Mean Places 250
Clarke's Spheroid xiv
Conjunctions of Planets 668
of Satellites 628
Constants, Astronomical xiv
Culminations, Moon 526
of Polaris, Table VI for finding times of 699
Cygni 61, Apparent Place 460
Mean Place .............. 247
X araiiax .............. ix
Day, Civil and Astronomical . . . • 702
Length of xiv
of Julian Period xiii
Deimos, Second Satellite of Mars 622
Delta Cassiopeise, Apparent Place 297
Mean Place . 233
Used for finding time of culmination of Polaris (Table VI) 699
Deneb (Alpha Cygni), Apparent Place 456
Mean Place 247
Denebola (Beta Leonis), Apparent Place 383
Mean Place 241
Dione, Fourth Satellite of Saturn ^571 659f 661, 663
Disk of Mercury 616
of Venus 6x7
Distance, Astronomical Unit of xiv
of the Moon xiv
of the Planets (see also reference under each planet) xv
of the Sun Greenwich Ephemeris III, xiv
Dominical Letter xiii
Earth, Dimensions of xiv
Elements of Orbit of xv
Earth's Radius Vector, Logarithm of Greenwich Ephemeris III
Easter, date of vi
GENERAL INDEX. 735
Page.
Eccentricities of the Orbits of the Earth and Planets xv
Eclipses, Solar and Lunar, Elements and Circumstances of 560
Solar, Besselian Elements of 563, 564, 565
Charts of following pages 562, 564
Correction to Elements of x
Example of the Computation of 719
Ecliptic, Obliquity of 214
Election Day, Date of vi
Elements of Planetary Orbits xv
Elongations of Planets 668
of Satellites 622, 628, 658, 664, 667
Elongation, Azimuth of Polaris at. Table V 694
Enceladus, Second Satellite of Saturn 657,658,661,663
Epact xiii
Ephemeris for the Meridian of Greenwich (Part I) x-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, Moon's 2x2
Equinoxes, Date of ............ . 668
Errata iv
Errors, Mean, for X920 (Newcomb's Star Catalogue) 511
Example of the Computation of Lunar Distances 680
of Occultations 725
of Solar Eclipses 7x9
Reduction of Stars to Apparent Place . 711
of the Sun 704
Festivals, etc vi
Fomalhaut (Alpha Piscis Australis), Apparent Place 476
Mean Place 249
Geocentric Ephemerides of the Planets 146
Latitude of Observatories, Reduction to 670
Golden Number xiii
Gravity, Acceleration due to xiv
Gaussian Constant of xiv
Greenwich Ephemeris (Part I) 1-2 14
Heliocentric Coordinates of the Planets 178
Hyperion, Seventh Satellite of Saturn 657, 660, 662, 663
lapetus, Eighth Satellite of Saturn 657, 660, 662, 663
Independent Star-Numbers 222, 230
Example of Reduction with 711
Exclusive of short-period Terms 230
Formulae for 2x6
Irradiation xi
Julian Period xiii
Jupiter, Distance from Earth, logarithm of X94
Elements of Orbit of xv
Ephemeris for Physical Observations of 623
Elements used xii
Greenwich Transit of 164
Heliocentric Longitude and Latitude of 194
Horizontal Parallax of 164, 55 x
Radius Vector (Distance from Sun), logarithm of 194
Reduction to Orbit 194
Right Ascension and Declination at Greenwich Mean Noon .... 164
at Washington Transit ^^^b^v
lEph 13I
736 GENERAL INDEX.
Jupiter, Satellites, Diagram of Apparent Orbits of 627
S3modic Periods of . . 627
I, II, III, and IV, Phenomena and Configurations of . . . 632
Times of Superior Conjunction of . . . 628
Satellite V, Greatest Elongation of 628
Satellites VI and VII, Differential Coordinates of 630
Semidiameter, Adopted Constant of xy
Apparent 164,551
Sidereal Time of. Passing Meridian 551
Stellar Magnitude of 551*623
Washington Transit of 551
Latitude, for finding, by an Observed Altitude of Polaris, Tables I, la . . . 681
Formula for Reduction to Geocentric xiv
Heliocentric, of the Planets 178
of the Moon 208
Corrections to x
of the Sun Greenwich Ephemeris III
Length of the Day xiv
of the Month xiv
of the Seconds Pendulum xiv
of the Year xiv
Libration of the Moon 213
Light, Velocity of xiv
Longitude, Heliocentric, of the Planets 178
Mean, of the Moon 212
Nutation in 214
of the Sun Greenwich Ephemeris III
of the Moon, Corrections to x
Short Period Terms of Nutation in 231
True, of the Moon 208
Lunar Distances, Examples in 680
Magnitudes, Stellar, of Jupiter 551*623
of Mars 550, 618
of Mercury 616
of Neptune 557
of Saturn 553, 656
of Uranus 555
of Venus 6x7
Maps of Solar Eclipses following pages 562, 564
Markab (Alpha Pegasi), Apparent Place 477
Mean Place 249
Mars, Distance from Earth, logarithm of 190
Elements of Orbit of xv
Ephemeris for Physical Observations of 618
Elements used xii
Greenwich Transit of 158
Heliocentric Longitude and Latitude of 190
Horizontal Parallax of 158, 550
Occultation of 581,603
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, Apparent Apsides ... 622
Diagram of Apparent Orbits of 622
Greatest Elongations of 622
Sidereal Periods of 622
Semidiameter, Adopted Constant of xv
lEpVi liA
GENERAL INDEX.
737
Mars, Semidiameter, Apparent
Sidereal Time of, Passinj^ Meridian
Stellar Magnitude of
Washington Transit of
Mass of Planets
Mean Errors for 1920, of 825 Standard Stars (Newcomb's Star Catalogue) .
Mean Places of 825 Standard Stars
of 15 Northern Circumpolars
of 10 Southern Circumpolars
of Stars Occulted by the Moon
Mean Solar into Sidereal Time, Table III
Mercury, Apparent Disk of
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), logarithm of
Reduction to Orbit
Right Ascension and Declination at Greenwich Mean Noon ....
at Washington Transit ....
Semidiameter, Adopted Constant of
Apparent
Sidereal Time of. Passing Meridian
Stellar Magnitude of
Washington Transit of
Meridian Passage of Jupiter
of Mars ............
of Mercury
of Moon ....... Greenwich Ephemeris
of Neptune
of Saturn
of Sun Greenwich Ephemeris
of Uranus
of Venus
Mimas, First Satellite of Saturn 657, 658,
Mira (Omicron Ceti) Apparent Place
Mean Place
Mizar (2^ta Ursae Majoris), Apparent Place
Mean Place
Used for finding time of Culmination of Polaris (Table VI)
Month, Length of
Moon, Age of, at Greenwich Mean Noon
Apogee and Perigee
Bright Limbs
Corrections to the Long., Lat., and Hor. Parallax of the
Culminations, upper and lower. Meridian of Washington
Distance from Earth, Mean
Eclipses during the Year, Elements and Circumstances of
Ephemeris for Physical Observations of
Formulae used
hourly
Equator, Position of
Libration, Formulae for computing
Quantities used in computing .
Longitude and Latitude of ....
Formulae for
[Eph rjl
1913 47
Greenwich Ephemeris
Greenwich Ephemeris
Greenwich
Ephemeris
Page.
550
550»6i8
550
XV
5"
233
250
250
566
689
6x6
178
XV
146
178
146, 54-2
178
178
146
54-2
XV
146, 542
542
616
542
164.551
158, 550
146, 542
IV
177.557
170.553
I. 518
176,555
152, 546
66x, 663
306
234
394
242
699
xiv
IV
XII
526
X
526
xiv
560,668
608
xi
V-XII
212
xii
213
208
• •
Vtl
738 GENERAL INDEX.
Moon, 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 xiv
Perigee and Apogee Greenwich Ephemeris XII
Perigee, Mean Longitude of 212
Phases of Greenwich Ephemeris XII
Right Ascension and Declination for each Hour . Greenwich Ephemeris V-XII
for Washington upper and lower Transit 526
Semidiameter, Adopted Constant of . . . . . . xi, xv
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 xv
Greenwich Transit of 177
Heliocentric Longitude and Latitude of 199
Horizontal Parallax of <77»557
Radius Vector (Distance from Sun), logarithm of i99
Reduction to Orbit 199
Right Ascension and Declination at Greenwich Mean Noon .... 177
at Washington Transit .... 557
Satellite, Apparent Apsides of 667
Diagram of Apparent Orbit of 667
Sidereal Period of 667
Tables for Determining Position Angle and Distance of . 666
Times of Elongation of 667
Semidiameter, Adopted Constant of xv
Apparent 177.557
Sidereal Time of. Passing Meridian 557
Stellar Magnitude of 557
Washington Transit of 557
Node, Mean Longitude of the Moon's 212
Nutation, Constant of xiv
Formulae for viii
Terms of Short Period in the 231
in Longitude, Right Ascension and Obliquity 214
Oberon, Fourth Satellite of Uranus 664, 665, 666
Obliquity of the Ecliptic, Apparent 214
Mean xiv, 214
Nutation in 214
Short Period Terms of Nutation in 231
Observatories, Positions of, etc 670
Occultations, Elements for Prediction of 570
Example of Computation of 725
Mean Places of Stars 566
of Planets 573, 581, 596, 603
Visible at Washington 605
Opposition of Planets 668
Orbits of the Planets, Elements of xv
Orbit Positions of Sirius, Procyon, and a' Centauri ix
Parallax, Annual of Sirius, Procyon, a' Centauri, and 61 Cygni .... ix
I
Corrections to, of the Moon x
lEph 13]
GENERAL INDEX. 739
Parallax, Horizontal, of Jupiter 164,551
of Mars 158,550
of Mercury 146, 542
of Moon Greenwich Ephemeris IV, xiv, 526
of Neptune i77, 557
of Saturn 170, 553
of Sun 213
of Uranus 176,555
of Venus 152, 546
Solar, Constant of . vii, xiv
Pendulum, Length of Seconds xiv
Perigee of the Moon Greenwich Ephemeris XII
Longitude of Moon's 212
Perihelia of Planets xv, 668
Phases of Eclipses of Jupiter's Satellites 633
of the Moon Greenwich Ephemeris XII
Phenomena, Eclipses; Occultations, Satellites, etc., Part III 559
of Jupiter's Satellites 632
Planetary Configurations 668
Phobos, First Satellite of Mars 622
Phoebe, Ninth Satellite of Saturn 657, 660
Physical Observations of Jupiter, Ephemeris for 623
of Mars, Ephemeris for 618
of the Moon, Ephemeris for 608
of the Sun, Ephemeris for 607
Planetary Configurations 668
Orbits, Elements of xv
Planets, Aspects of 668
at Greatest Brilliancy (see Stellar Magnitude under each planet).
at Stationary Points 668
in Ascending and Descending Node 668
in Conjunction 668
in Elongation 668
in Opposition 668
in Perihelion and Aphelion 668
in Quadrature 668
Occultations of 573,581,596,603
Semidiameter of xv
Signs of xvi
Polaris (Alpha Ursae Minoris), Apparent Place 251
Azimuth of, at All Hour Angles, Table IV 692
Azimuth of, at Elongation, Table V 694
for Finding the Times of Upper and Lower Culminations from observations in
connection with 2^ta Ursae Majoris (Mizar), S. P. and Delta Cassiopeiae, S. P.,
Table VI ............ . 699
Mean Place 233, 250
Tables for Determining Latitude by Observations of Polaris . .681, 692
Pole Star (see Polaris).
Pollux (Beta Gerainonim) Apparent Place 353
Mean Place 238
Precession, General xiv
in Longitude, in Solar Day, in Sidereal Day 2x4
Procyon (Alpha Canis Minoris), Apparent Place 352
Mean Place 238
Orbit Position ix
Parallax ix
Quadrature of Planets ^*^
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