This is a digital copy of a book that was preserved for generations on library shelves before it was carefully scanned by Google as part of a project
to make the world's books discoverable online.
It has survived long enough for the copyright to expire and the book to enter the public domain. A public domain book is one that was never subject
to copyright or whose legal copyright term has expired. Whether a book is in the public domain may vary country to country. Public domain books
are our gateways to the past, representing a wealth of history, culture and knowledge that's often difficult to discover.
Marks, notations and other marginalia present in the original volume will appear in this file - a reminder of this book's long journey from the
publisher to a library and finally to you.
Usage guidelines
Google is proud to partner with libraries to digitize public domain materials and make them widely accessible. Public domain books belong to the
public and we are merely their custodians. Nevertheless, this work is expensive, so in order to keep providing this resource, we have taken steps to
prevent abuse by commercial parties, including placing technical restrictions on automated querying.
We also ask that you:
+ Make non-commercial use of the files We designed Google Book Search for use by individuals, and we request that you use these files for
personal, non-commercial purposes.
+ Refrain from automated querying Do not send automated queries of any sort to Google's system: If you are conducting research on machine
translation, optical character recognition or other areas where access to a large amount of text is helpful, please contact us. We encourage the
use of public domain materials for these purposes and may be able to help.
+ Maintain attribution The Google "watermark" you see on each file is essential for informing people about this project and helping them find
additional materials through Google Book Search. Please do not remove it.
+ Keep it legal Whatever your use, remember that you are responsible for ensuring that what you are doing is legal. Do not assume that just
because we believe a book is in the public domain for users in the United States, that the work is also in the public domain for users in other
countries. Whether a book is still in copyright varies from country to country, and we can't offer guidance on whether any specific use of
any specific book is allowed. Please do not assume that a book's appearance in Google Book Search means it can be used in any manner
anywhere in the world. Copyright infringement liability can be quite severe.
About Google Book Search
Google's mission is to organize the world's information and to make it universally accessible and useful. Google Book Search helps readers
discover the world's books while helping authors and publishers reach new audiences. You can search through the full text of this book on the web
at|http : //books . google . com/
1
■' I
THE
AMERICAN EPHEMERIS
AND
NAUTICAL ALMANAC.
VOB THB TBAR
18 5 6.
PUBLISHED BY AUTHOBITY OP THB SECBETABT OF THE NAVY.
-;:^i.ii>i.',r;>
w -v^
WASHINGTON.
1853.
OA M BBIDGS:
MKTCALr AlTD OOMrAlTY, 8TBBBOTTPKBS AXD PBUTTEKS.
PRE F AC E
TO THE FIRST VOLUME,
The preparation of this work was begun in the latter part of the
year 1849, in accordance with an act of Congress, approved on the 3d
of March of that year. An account of this preparation, its details, the
values of the constants adopted, and the means employed in various
parts of the work to secure additional accuracy or greater convenience,
will be found in the article "On the Constbuction of the Ephemeeis,"
contamed in the Appendix to this volume.
An article " On the Arrangement and Use of the Tables " will
also be found in this volume, to which the student is referred for in-
struction.
The theoretical department of the work has been placed under the
special direction of Professor Benjamia Peirce, LL.D., and most of the
calculations have passed under his final revision.
It is due to the memory of the late Nathaniel Bowditch, LL.D., the
illustrious commentator of La Place, to say, that his zeal in enriching
the library of the University at Cambridge, that of the American Acad-
emy of Arts and Sciences, and his private library, still preserved and
accessible to students, with the best works in astronomical science, and
his influence in promoting and diffusing in America a love for this
branch of knowledge, have greatly facilitated the labor of preparing the
American Ephemeris for publication in its present form.
CHARLES HENRY DAVIS,
Lieut. TJ. S. Navy^ SuperintendenL
Cambridob, October 1, 1859.
ERRATUM
IN THB NAUTICAL PART OF THE EPHEMEBIS FOR 1855.
P^ 115, in the column of Diff.for 1 Iwur^ of Horizontal Parallax, from Noon, the — and
-f- signs on the 12th and 13th lines should be put one line lower, so as to read
— 0.05 instead of -|-0.05. This is j:K>rrected in the cheap edition.
CONTENTS.
Chronological Eraa and Cycles vii
Symbols and Abbreviations viii
&HEMERI8 FOR THE MERIDIAN OF GREENWICH. ^^SoSh.
Ephemeris of the Son I.
Ephemeris of the Moon ^ IV.
Lunar Distances Xlll.
Ephemerides of the Planets, Venus — Saturn S18
Sun's Coordinates 843
Ephemeris for the Meridian of Washington.
Obliquity of the Ecliptic, &c 846
Fixed Stars .... * 847
Ephemeris of the Sun 895
Moon Culminations 301
Moon-Culminating Stars • 316
Moon's Semidiameter, Horizontal Parallax, and Meridian Transit 384
Moon's Phases 330
Moon's Equator 331
Ephemerides of the Planets, Mercury — Neptune 338
Horizontal Parallaxes and Semidiameters of the Planets 374
Sun's Coordinates 376
Heliocentric Coordinates of the Planets 388
Eclipses 391
Occultations 400
Jupiter's Satellites 434
Saturn's Ring, Discs of Venus and Mars 468
Phenomena, Planetary Constellations . . . . ; 469
Latitudes and Longitudes of Obeenratories 471
Use of the Tables 483
Appendix.
Construction of the Ephemerides 1
Table of Corrections of Moon's Horizontal Parallax, after Adams 6
Table for changing Longitude and Latitude to Right Ascension and Declination, and'the Reverse 7
Moon's Libration 9
Moon's Mean Motion 10
Table of Corrections for Second Differences in Moon's Motion 11
TableofLogarithmsof Small Arcs 13
Table of Log. iV, used in clearing Lunar Distances by Chauvenet's Method .... 30
ChauTcnet's Lnproved Method of finding the Error and Rate of a Chronometer by Equal Altitudes 33
Table for conyerting Sidereal into Mean Solar Time, and the Reverse 54
Ephemerisof Neptune for 1854 61
ERRATA
IN THE FIRST EDITION OF THE EPHEMERIS FOB 1865.
u
Astronomical Fart.
Pbge 806, thirteenth line from bottom, for 2r read 1*" ; and next line, for page 221, read
page 222.
354, last line, " Log. Rad. Vect — p," for 901060, read 001060.
855, first line, " " " " " 9.9 « 0.0.
u 35^ ii cc ic ct cc ci ic u ic u
" 861, " " *♦ ** " " ** 0.0 •* 9.9.
** *' Dele a on second line.
" 866, Neptune, first line, ** Days fr. begin'g of Julian Period,'' for 8000, read 8600.
** 868, lines 12, 16, for Nov., read May ; and for 337** 14', read 3r 14'.
" 872, Append Note : — " To reduce the map to Washington, add 26® to the longi-
tudes ; to reduce to Greenwich, add 103**."
** 873, line 7, headings of columns, for log G, read log H; and for log H, read log (?.
^ 874, change the decimal point one place to the right in the columns of this page ;
thus, for 817.0, read 8170.
Use of the Tables.
Page 465, in the formulas for computation of the interval t, omit log If a- 1.3757 ; and
for -|- H' A sin (/i — X), read — Hh fif sin (/* — X) ; and for — h' cot ^, read
+ 5' cot V^.
•* 466, third line, for ^ — Xi ^^^^^ V^ + X«
Note. — The preceding corrections in thefommlas add to mean time ofend^
in the example^ 4*'.5.
^ 474, twenty-eighth line, for west, read east; and on the n^ line, for east, reaj
west ; and for ajler, read before.
Appendix.
Pftge 7, eighth line, "Jupiter's Vertical Semidiameter," for 19". 19, read 18".62.
" 19, seventh and eighth lines, for increasing and decreasing, read decreasing and
increasing.
In the Epheraeris of Neptune for 1853, the times of meridian transit are two minutes too
late. This error was not in the original computations of the distinguished and deeply lamented
aBtroDomcr, Mr. Sears C. Walker, llie ephemcris is correct
CHRONOLOGICAL ERAS AND CYCLES.
CHRONOLOGICAL ERAS.
THB TEAR 1866, WHICH COMPRISES THE LATTER FART OF THE BOTH ANP THE BEOINlfIKO
OF THE 81ST TEAR OF THE INDEPENDENCE OF THE UNITED STATES OF AMERICA, COR-
RESPONDS TO
The year 6569 of the Julian Period; to the latter part of
'* 5616 and the begmning of
^* 5617 of the creation of the world, according to the Jews ;
" 2609 since the foundation of Rome, according to Varro ;
^ 2603 of the era of Nabonassar, which has been assigned to Wednesday, the 26th
of February, of the 3967th year of the Julian Period, corresponding, accord-
ing to the chronologists, to the 747th, and according to the astronomers, to the
746th year before the birth of Christ ;
** 2632 of the Olympiads, or the fourth year of the 6d8th Olympiad, commencing in
July, 1853, if we fix the era of the Olympiads at 7751 years before Christ, or
near the beginning of July of the year 3938 of the Julian Period ; to the
latter part of
^ 1272 and the beginning of
^ 1273 (of twelve lunations) since the Hegira, or flight of Mahomet, which, as is
generally supposed, took place on the 16th of July, in the year 622 of the
Christian era ; and, finally, to
" 7364-5 of the Byzantine era.
The year 1272 of the Mohammedan era begins on the 13th of September^ 1855, and ends
on the 31st of August, 1856.
The year 5616 of the Jewish era begins on the 13th of September, 1855, and ends on the
29th of September, 1856.
The first day of January of the year 1856 is the 2,398,950th day since the commencement
of the Julian Period.
CHRONOLOGICAL CYCLES.
Dominical Letters • . . . F £
Epact 23
Lunar Cycle or Golden Number . 14
Solar Cycle 17
Roman Indiction . • • • 14
Julian Period 6569
SYMBOLS AND ABBKEVIATIONS.
SIGNS OF THE PLANETS, &c.
o
The Sun.
<r
The Moon.
$
Mercury.
9
Venus.
©or 6
The Earth.
e
Man.
^
Jupiter.
h
Saturn.
d
Uranus.
w
Neptune
SIGNS OF THE ZODIAC.
« Summer I -
Autumn \ ^
"«"• \ 9.
10
Winter
signs.
110. vy
11. sza
12. K
^ Libra.
i»l Scorpio.
/ Sagittarius.
Capricomus.
Aquarius.
X Pisces.
ASPECTS.
^ Conjuncti<m, or having the same Longitude or Right Ascension,
a Quadrature, or differing 90^ in " «' '«
; Opposition, or differing 18(f in " •* "
ABBREVIATIONS.
Q Ascending Node.
O Descending Node.
N. North. S. Sooth.
E. East W. West
• Degrees.
Minutes of Arc.
Seconds of Arc.
Hours.
Minutes of Time.
Seconds of Time.
ASTRONOMICAL EPHEMERIS
Tom THB USB or
NAYIGATORS.
JANUARY, 1856.
AT GREENWICH APPARENT NOON.
SIdawl
i
5
1
THE SUN'S
Tim*
of the
Semldi-
unelar
P««liig
the
Merid-
laa.
Eqnatloiior
Time,
lot*
aided to
Appannt
Tim:
JML
for
Ihoor.
Jf,anM
UKlbr
Ihoor.
4f«Mrait
DMsUnMiaB.
DULfor
Ihoar.
Baal-
diameter.
Tues.
Wed.
Thur,
1
2
3
h. m. ■.
18 44 56.79
18 49 21.93
18 53 46.67
«.
11.047
11.034
11.020
S.SS 3 2S.6
22 68 28.6
22 53 2.6
12.99
UU
1^ 18.42
16 18.41
16 18.40
7*1.06
71.02
70.99
"3 36.03
4 4.49
4 32.58
1.192
1.180
1.166
Fri.
Sat
4
5
6
18 58 11.06
19 2 35.07
19 6 58.65
11.004
10.987
10.909
22 47 9.1
22 40 48.5
22 34 0.9
15.28
16.42
17.5S
16 18.38
16 18.36
16 18.34
70.96
70.90
70.84
5 0.34
5 27.72
5 54.66
1.150
1.132
1.113
Mon.
Tues.
Wed.
7
8
9
19 11 21.75
19 15 44.38
19 20 6.50
10.960
10.980
10.907
22 36 46.5
22 19 5.5
22 10 58.0
18.64
19.74
20.84
16 18.31
16 18.28
16 18ii5
70.78
70.71
70.64
6 21.14
6 47.15
7 12.63
1.092
1.071
1.048
Thur.
FrL
Sat
10
11
12
19 24 28.06
19 28 49.03
19 33 9.39
10.88S
10.858
10.88S
22 2 24.5
21 53 25.0
21 44 0.1
21.92
28.00
24.05
16 18.21
16 18.17
16 18.13
70.57
70.49
70.41
7 37.56
8 1.91
8 25.65
1.025
1.002
0.977
M(m.
Tues.
13
14
15
19 37 29.14
19 41 48.25
19 46 6.68
10.808
10.780
10.761
21 34 9.9
21 23 54.6
21 13 14.7
25.10
26.18
27.16
16 18.08
16 18.02
16 17.96
70.82
70.22
70.13
8 48.78
9 11.27
9 33.08
0.950
0.922
0.894
Wed.
Thur.
Fri.
16
17
18
19 50 24.42
19 54 41.44
19 58 57.72
10.722
10.698
10.668
21 2 10.5
20 50 42.0
20 38 50.0
28.16
29.16
80.18
16 17.90
16 17.83
16 17.75
70.04
69.94
69.85
9 54.20
10 14.61
10 34i28
0.865
0.885
0.806
Sat
Sm.
Mod.
19
20
21
20 8 13J28
20 7 28.09
20 11 42.14
10.688
10.601
10.668
20 36 34.5
20 18 56.1
20 0 55.0
81.10
82.05
88.00
16 17.66
16 17.57
16 17.48
69.75
69.65
69.55
10 53.23
11 11.42
11 28.88
0.775
0.743
0.711
Tues.
Wed.
Thur.
22
23
24
20 15 55.42
20 20 7.93
20 24 19.66
10.686
10.604
10.471
19 47 31.3
19 33 45.7
19 19 38.5
88.91
84.82
85.71
16 17.38
16 17.26
16 17.14
69.45
69.34
69.24
11 45.56
12 1.46
12 16.60
0.679
0.647
0.615
Fri.
Sat
Sm.
25
26
27
20 28 30.61
20 32 40.76
20 36 50.12
10.488
10.406
10.872
19 5 10.0
18 50 20.5
18 35 10.3
86.61
87.47
88.88
16 17.03
16 16.91
16 16.78
69.12
69.01
68.90
12 30.95
12 44.50
12 57.29
0.582
0.549
0.516
Moo.
Tues.
Wed.
Thur.
28
29
30
31
20 40 58.71
20 45 6.48
20 49 13.45
20 53 19.62
10.889
10.806
10.278
10.289
18 19 89.9
18 3 49.7
17 47 40.0
17 81 11.2
89.16
89.99
40.78
41.56
16 16.65
16 16.51
16 16.36
16 16.22
68.78
68.66
68.55
68.43
13 9.28
13 20.45
13 30.84
13 40.43
0.488
0.450
0.416
0.883
Fri.
32
20 57 24.97 I0.M6
S.17 14 23.6
42.84
16 16.07
68.32
13 49.20
0.849
V
^ ■ «••»>•«
nmdhj
aobti^e^agO^t^ ^"^^ **^
SidtnalTime "
1
II.
JANUARY, 1856.
AT GREENWICH MEAN
NOON.
THE SUN'S
1
s
1
Equation of
TtaHS
tobe
nbtraeud
jTOM
Mean
Tim*.
DUL
tat
Ihoor.
8id0ml*
Time.
Bight Ajoeodon.
DULftxr
Ihoar.
Jppareni
IMff.fbr
Iboar.
Tues.
Wed.
Thur.
1
2
3
h. m. •.
18 44 56.20
18 49 21.18
18 53 45.83
11.047
11.084
11.020
O 1 u
23 3 27.7
22 58 29.4
22 53 3.6
11.85
12.99
14.14
m. s.
3 35.98
4 4.41
4 32.50
1.192
1.180
1.166
18 41 20.22
18 45 16.77
18 49 13.33
Fri.
Sat.
Sun.
4
5
6
18 58 10.14
19 2 34.07
19 6 57.57
11.004
10.987
10.969
22 47 10.3
22 40 49.9
22 34 2.5
15.28
16.42
17.63
5 0.25
5 27.62
5 54.56
1.160
1.182
1.118
18 53 9.89
18 57 6.45
19 1 3.01
Ill
7
8
9
19 11 20.60
19 15 43.15
19 20 5.19
10.960
10.980
10.907
22 26 48.4
22 19 7.6
22 11 0.4
18.64
19.74
20.84
6 21.03
6 47.03
7 12.51
1.092
1.071
1.048
19 4 59.57
19 8^6.12
19 12 52.68
Thur,
Fri.
Sat
10
11
12
19 24 26.68
19 28 47.58
19 33 7.88
10.883
10.858
10.883
22 2 27.2
21 53 28.0
21 44 3.4
21.92
28.00
24.05
7 37.43
8 1.78
8 25.52
1.025
1.002
0.977
19 16 49.25
19 20 45.80
19 24 42.36
&m.
Mon.
Tuea.
13
14
15
19 37 27.56
19 41 46.60
19 46 4.97
10.808
10.780
10.761
21 34 13.5
21 23 58.5
21 13 18.9
25.10
26.13
27.16
8 48.64
9 11.13
9 32.94
0.960
0.922
0.894
19 28 38.92
19 32 35.47
19 36 32.03
Wed.
Thur.
Fri.
16
17
18
19 50 22.65
19 54 39.62
19 58 55.85
10.722
10.693
10.663
21 2 15.0
20 50 46.9
20 38 55.2
28.16
29.16
80.13
9 54.06
10 14.47
10 34.14
0.865
0.884
0.806
19 40 28.59
19 44 25.15
19 48 21.71
Sat
Sun.
Mon.
19
20
21
20 3 11.36
20 7 26.12
20 11 40.13
10.633
10.601
10.568
20 26 40.1
20 14 2.0
20 1 1.2
81.10
82.05
83.00
10 53.10
11 11.29
11 28.75
0.775
0.743
0.711
19 52 18.26
19 56 14.83
20 0 11.38
8-« 3
22
23
24
20 15 53.37
20 20 5.84
20 24 17.53
10.686
10.604
10.471
19 47 37.9
19 33 52.6
19 19 45.7
88.91
84.82
85.71
11 45.43
12 1.34
12 16.48
0.679
0.647
0.615
20 4 7.94
20 8 4.50
20 12 1.05
Fri.
Sat
Sun.
25
26
27
20 28 28.44
20 32 38.56
20 36 47.90
10.488
10.405
10.872
19 5 17.5
18 50 28.3
18 35 18.5
8d.61
87.47
88.83
12 30.83
12 44.39
12 57.18
0.582
0.649
0.616
20 15 57.61
20 19 54.17
20 23 50.72
Mon.
Tues.
Wed.
Thur.
28
29
30
31
20 40 56.46
20 45 4.20
20 49 11.14
20 53 17.30
10.889
10.806
10.273
10.239
18 19 48.4
18 3 58.5
17 47 49.1
17 31 20.5
89.16
89.99
40.78
41.58
13 9.18
13 20.36
13 30.75
13 40.35
0.483
0.450
0.416
0.383
20 27 47.28
20 31 43.84
20 35 40.39
20 39 36.95
Fri.
32
20 57 22.63
10.206
17 14 33.2
42.84
13 49.12
0.849
20 43 33.51
Ni
m. — Tb. Semldkmi
tterforMea
n Noon maj be aasi
inMdttMi
■OMMthatfor
Appuent
Noon
JANUARY, 1856.
III.
AT GREENWICH MEAN NOON.
^
^
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
I
1
2
8
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
82
THE SUN*S
IVnf LOAttlTUDB.
280 1^ 5^.7
281 21 6.1
282 22 16.8
283 23 27.7
284 24 38.7
285 25 49.7
286 27 0.5
287 28 11.0
288 29 21.3
289 30 31.3
290 31 40.7
291 32 49.5
292 33 57.6
293 35 5.0
294 36 11.7
295 37 17.5
296 38 22.5
297 39 26.7
298 40 30.0
299 41 32.5
300 42 84.2
301 43 35.0
302 44 35.1
303 45 34.5
304 46 33.2
305 47 31J2
306 48 28.5
307 49 25.1
308 50 21.0
309 51 16.1
310 52 10.4
811 53 4.0
20 3.6
21 13.9
22 24.4
23 35.1
24 45.9
25 56.7
27 7.3
28 17.6
29 27.7
30 37.5
81 46.7
32 55.4
34 3.3
35 10.5
36 17.0
37 22.6
38 27.4
89 31.4
40 84.5
41 86.8
42 38.3
43 89.0
44 88.9
45 88.2
46 86.7
47 84.5
48 81.7
49 28.1
50 28.8
51 18.7
52 12.8
53 6.3
n&ftxr
Ihow.
LATHUD'E.
62.94
62.94
62.94
52.95
62.95
52.96
52.95
52.94
62.98
52.92
62.91
62.89
62.86
62.82
52.78
62.78
62.69
62.65
52.62
62.68
52.64
52.51
62.48
62.45
52.42
62.89
62.86
52.88
52.81
52.28
62.26
162.21
-mJ.io
—0.04
0.16
0J29
0.89
0.48
0.58
0.56
0.57
0.53
0.46
0.37
0.28
0.16
—0.03
-hO.ll
0.22
0.84
0.48
0.50
0.52
0.54
0.58
0.48
0.40
0.29
0.18
H-0.02
—0.12
0.26
0.87
—0.48
OfttM
lUdiaaTMlor
of ttM
■uth.
9.9926549
.9926581
.9926633
.9926704
.9926792
.9926897
.9927019
.9927159
.9927315
.9927488
.9927679
.9927887
.9928118
.9928360
.9928630
.9928922
.9929237
.9929576
.9929941
.9930332
.9930751
.9931197
.9931671
.9932172
.9932698
.9933250
.9933824
.9934422
.9935043
.9935684
.9936345
9.9937023
DULftff
1 hoar.
0.9
1.6
2.4
8.1
8.9
4.7
5.4
6.2
6.9
7.5
8.8
9.1
10.0
10.8
11.7
12.6
18.6
14.7
15.8
16.9
18.0
19.0
20.1
21.2
22.8
28.4
24.8
25.8
26.1
27.0
27.9
28.6
Oh.
h. m. •.
5 17 47.57
5 13 51.67
5 9 55.76
5 5 59.85
5 2 3.93
4 58 8.02
4 54 12.10
4 50 16.19
4 46 20SIS
4 42 24.36
4 38 28.46
4 34 32.55
4 30 36.63
4 26 40.72
4 22 44.80
4 18 48.90
4 14 52.98
4 10 57.06
4 7 1.16
4 3 5.24
8 59 9.34
8 55 13.42
8 51 17.50
8 47 21.59
8 48 25.68
3 39 29.78
3 35 33.86
8 31 37.96
3 27 42.05
3 23 46.14
3 19 50.23
8 15 54.30 I
Von. — X coiwyomh lo Um irwt •qaiooz of tht date, »>' to Um mean •qoiooz of Jan. Od.
IV.
JANUARY, 1856.
GREENWICH ]
MEAN TIME.
THE
MOON^S
^
SEMIDIAMKIEB.
HORIZONTAL PARAIiLAX.
MKRIDIAN PASSAGl.
"3
1
2
3
AGB.
NOOD*
Midnight.
Noon.
DUtfor
Ihoor.
Midnight.
DULfor
Ihoar.
DULfor
Ihoor.
14 ^9.4
15 8.8
15 20.2
15 3.8
15 14.3
15 26.5
54 ^.3
55 28.5
56 10.7
+1.22
1.60
1.88
55 10.2
55 48.7
56 34.0
+1.42
1.76
1.98
19 11.0
19 55.6
20 44.5
m.
1.78
1.95
2.14
d.
23.1
24.1
25.1
4
5
6
15 33.2
15 46.9
16 0.0
15 40.0
15 53.6
16 6.0
56 58.4
57 48.5
58 36.8
2.07
2.08
1.92
57 23.4
58 13.1
58 59.0
2.10
2.02
1.77
21 3a5
22 37.5
23 39.9
2.86
2.58
2.61
26.1
27.1
28,1
7
8
9
16 11.5
16 20.3
16 25.6
16 16.3
16 23.4
16 26.8
59 19.1
59 51.4
60 10.9
1.67
1.09
40.62
59 36.7
60 2.9
60 15.4
1.85
0.82
+0.28
6
0 43.0
1 43.9
2.68
2.46
29.1
0.5
1.5
10
11
12
16 27.1
16 25.0
16 19.9
16 26.5
16 22.8
16 16.5
60 16.4
60 8.7
59 49.9
-0.05
0.57
0.07
60 14.1
60 0.5
59 37.3
-0.82
0.79
1.11
2 41.0
3 34.2
4 24.1
2.80
2.15
2.05
2.5
3.5
4.5
13
14
15
16 12.7
16 4.1
15 55.0
16 8.5
15 59.6
15 50.4
59 23.1
58 51.7
58 18.4
1.22
1.86
1.40
59 7.8
58 35.2
58 1.6
1.81
1.89
1.89
5 12.2
5 59.9
6 48.4
2.00
2.01
2.06
5.5
6.5
7.5
16
17
18
15 45.9
15 37.0
15 28.5
15 41.4
15 32.7
15 24.4
57 44.9
57 12.3
56 41.0
1.88
1.84
1.27
57 28.4
56 56.5
56 25.8
1.87
1.80
1.24
7 38.9
8 31.7
9 26.6
2.15
2.25
2.80
8.5
9.5
10.5
19
20
21
15 20.4
15 12.7
15 5.6
15 16.5
15 9.1
15 2.3
56 11.1
55 42.9
55 16.9
1.21
1.18
1.08
55 56.8
55 29.6
55 4.8
1.17
1.08
0.97
10 22.3
11 17.2
12 9.7
2.80
2.24
2.12
11.5
12.5
13.5
22
23
24
14 59.2
14 53.8
14 49.6
14 56.4
14 51.5
14 48.0
54 53.5
54 33.5
54 18.1
0.91
0.75
0.58
54 43.0
54 25.2
54 12.4
0.88
0.66
0.41
12 58.9
13 44.5
14 27.1
1.98
1.84
1.78
14.5
15.5
16.5
25
26
27
14 46.9
14 46.1
14 47.5
14 46.3
14 46.5
14 49.1
54 8.2
54 5.2
54 10.3
-0.27
+0.04
0.89
54 5.8
54 6.7
54 16.2
-0.12
+0.21
0.59
15 7.4
15 46.5
16 25.5
1.67
1.68
1.66
17.5
18.5
19.5
28
29
30
31
14 51.4
14 57.9
15 7.1
15 18.9
14 54.3
15 2.2
15 12.7
15 25.6
54 24.6
54 48.6
55 22.6
56 5.8
0.79
1.21
1.61
1.98
54 35.4
55 4.4
55 43.1
56 30.4
1.00
1.41
1.80
2.18
17 5.5
17 47.7
18 33.5
19 23.8
1.71
1.88
2.00
22.0
20.5
21.5
22.5
23.5
82
15 32.8
15 40.3
56 56.7
+2.26
57 24.3
+2.84
20 19.2
24.0
24.5
JANUARY, 1856.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
DilL
for^m.
Dur.
ftfflm.
Hour.
Right ABooulan.
DWt
forlm.
DUL
fbrlm.
TUESDAY 1.
THURSDAY 3.
4
h. m. •.
■•
O 1 «
n
h. m. •.
•.
O 1 ar
a
0
13 19 53.96
1.8173
S. 7 30 6.7
18.754
0
14 58 30.90
2.0799
S.17 63 37.0
11.819
1
13 31 43.09
13906
7 43 60.4
18.787
1
14 54 35.45
2Un94
18 6 24.1
11.761
3
13 33 33.43
1.8941
7 57 34.1
13.718
3
14 56 40.43
2.0867
18 17 7.1
11.681
3
13 35 31.98
1.8977
8 11 16.7
18.609
3
14 58 45.85
2.0940
18 38 45.8
11.609
4
13 37 11.75
1.8S1S
8 34 58.0
18.679
4
16 0 51.73
3.1014
18 40 30.3
11.586
5
13 39 1.73
1.8S49
8 38 38.1
13.658
5
15 3 58.03
2.1060
18 51 50.8
11*499
6
13 30 51.94
1.8867
8 63 17.0
18.636
6
16 6 4.78
3.1169
19 3 15.7
11.887
7
13 33 43.38
1.8497
9 5 54.5
18.614
7
15 7 11.98
9.1288
19 14 36.6
11J09
8
13 34 33.06
1.8497
9 19 30.7
13.501
8
16 9 19.63
S.U13
19 35 63.8
11.931
9
13 36 33.98
1.8507
9 33 5.4
13.566
9
16 11 37.73
9.1888
19 37 4.3
11.160
10
13 38 15.15
1.8000
9 46 38.6
13.&41
10
16 13 36.39
9.1466
19 48 10.9
11.089
11
13 40 6.58
1.8508
10 0 10.3
13.515
11
15 15 45.31
9.1649
19 69 13.5
10.986
12
13 41 58.37
1.8837
10 13 40.5
13489
13
15 17 54.80
9J691
30 10 9.1
lOJOl
13
13 43 50.33
1.80B0
10 37 9.0
13.460
13
15 SO 4.76
9.1600
30 31 0.6
10.814
U
13 45 43.43
1.8794
10 40 35.8
13.439
14
15 82 15.19
9.m7
30 31 46.8
10.797
15
13 47 34.91
1.8770
10 54 0.8
18.409
16
15 24 26.09
9.1867
80 43 37.8
io.6n
16
13 49 37.67
iJBBn
11 7 34.0
13.871
16
15 26 37.47
9.1937
30 53 3.3
10.546
17
13 51 30.71
1.8864
11 30 45.4
13.389
17
15 28 49.33
9.2017
31 3 33.4
10.454
18
13 53 14.03
1.8011
11 34 4.8
13.807
18
15 31 1.67
9.2097
31 13 57.8
10.300
19
13 55 7.64
1.8000
11 47 32.3
13.274
19
15 33 14.49
2.2177
31 34 16.6
10.964
30
13 57 1.55
1.9010
13 0 37.6
13.989
30
16 35 37.79
9.9957
31 34 39.6
10.167
21
13 58 55.76
1.9061
13 13 50.9
13.204
31
15 37 41.57
9.2337
31 44 36.6
HUMS
33
14 0 50.38
1.9119
13 37 3.1
13.167
33
15 39 55.84
9.2419
21 64 37.7
M»
33
14 3 45.11
WED
1.9165
NESD
S.13 40 11.0
AY 2.
13.129
33
16 43 10.61
FI
9.3603
IIDAY
S.S9 4 39.7
4.
0.800
0
14 4 40.36
1.9918
S.13 53 17.6
13.091
0
16 44 35.87
3.3581
S.88 14 31.6
9.799
1
14 6 35.73
lJWf79
13 6 31.9
13U)51
1
16 46 41.63
3.9666
33 34 4.3
9.656
3
14 8 31.53
1.9897
13 19 33.7
18.010
S
15 48 57.86
3.2747
33 33 40.4
9.549
3
14 10 37.66
1.9388
13 33 83.1
12.969
3
15 51 14.59
2.2699
33 43 10.1
9.440
4
14 13 34.13
1.9440
13 45 19.9
12.996
4
15 53 31.81
2.2911
83 58 33.3
9.830
5
14 14 30.93
1.9496
13 58 14.3
19.889
6
15 55 49.58
2.2992
S3 1 49.7
9.318
6
14 16 18.07
1*9554
14 11 5.8
19.887
6
15 58 7.78
2.8074
83 10 59.4
9.104
7
14 18 15.57
1.9618
14 33 54.6
12.791
7
16 0 26.42
2J1W
83 30 3.8
a989
8
14 30 13.43
1.9679
14 36 40.7
12.743
8
16 2 45.62
24941
83 88 58.0
8.871
9
14 33 11.63
1.9739
14 49 33.9
12.695
9
16 5 5.32
2.8324
83 37 46.8
8.758
10
14 34 10.30
1.9799
15 3 4.1
12.645
10
16 7 25.52
3.3407
33 46 38.4
8.689
11
14 26 9.14
1.9855
15 14 41.3
13.504
11
16 9 46.21
33489
83 55 3.7
8.610
13
14 38 8.45
1.9917
15 87 15.4
12.549
13
la 12 7.39
3.3671
34 3 39.6
8.386
13
14 30 8.14
1.9980
15 39 46.3
12.489
13
16 14 29.06
3.3652
34 11 49.0
8.261
14
14 33 8.21
9.0044
15 58 14.1
12.434
14
16 16 51.22
3.3783
34 80 0.9
8.133
15
14 34 8.67
2.0109
16 4 38.5
12.379
15
16 19 13.88
3<^17
34 38 6.1
8.006
16
14 36 9.52
9.0175
16 16 59.5
12.399
16
16 21 37.03
9.3698
34 36 1.4
7.874
17
14 38 10.77
94)949
16 39 17.1
12.»1
17
16 24 0.67
3.3980
34 43 49.9
7.741
18
14 40 13.43
9.0306
16 41 31.8
19.904
18
16 26 24.79
3.4060
34 51 30.4
7.607
19
14 43 14.47
2.0376
16 53 41.6
19.143
19
16 28 49.39
3.4140
34 59 3.8
7.471
30
14 44 16.93
17 5 48.4
19.061
30
16 31 14.47
3.4319
35 6 36.9
7.383
31
14 46 19.80
2.0518
17 17 51.4
19U)18
31
16 33 40.03
3.4399
36 13 43.8
7.194
33
14 48 33.08
2.0382
17 39 60.6
11.953
88
16 36 6.07
3.4877
35 80 50.3
74)63
33
14 50 26.78
3.0659
17 41 45.8
11.887
33
16 38 32.58
3.4456
36 37 49.3
6.910
34
14 52 30.90
9.0729
S.17 53 37.0
11.819
34
16 40 59.55
3.4534
S.36 34 39.6
6.706
TI.
JANUARY, 1856.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
V
Hoar.
Right AMMukm.
wrr.
for 1 m.
DIff.
fori m.
Hour.
Right AMnahrn.
Dm.
forlm.
DMUaUlon.
Difl.
Itarlm.
SATURDAY 5.
MONDAY 7.
b m. •.
8.
O 1 n
M
h. m f.
•.
O 1 u
K
0
16 40 59.55
!UAU
S.25 34 39.5
0.766
0
18 45 45.95
9.0607
S.27 45 26.9
1.745
1
16 43 26.99
S.40I-i
25 41 21.1
6.6.W
1
18 48 27.36
9.0906
27 43 36.3
\JM
2
16 45 54.89
3.4066
25 47 53.9
6.472
2
18 51 8.82
9.6013
27 41 33.8
9.140
3
16 48 23.25
3.47M
25 54 17.8
6.893
3
18 53 50.31
9.6917
27 39 19.4
9488
4
16 50 52.06
9.4839
26 0 32.7
6.173
4
18 56 31.83
9.6919
27 36 53.2
9480
5
16 53 21.32
3.491S
26 6 38.4
6^19
5
18 59 13.36
9.0090
27 34 15.2
9.788
6
16 55 51.03
a.4«7
26 12 34.9
8.865
6
19 1 54.89
9.0019
27 31 25.3
9J80
7
16 58 21.18
9.4000
26 18 22.1
8.709
7
19 4 36.41
9.0917
27 28 23.6
8.197
8
17 0 51.77
3.51S9
26 24 0.0
8.859
8
19 7 17.91
9.0919
27 25 10.1
8494
9
17 3 22.79
9.M09
26 29 28.4
8.8&8
9
19 9 59.37
9.0900
27 21 44.7
8431
10
17 5 54.22
9.6979
26 34 47.2
6.933
10
19 12 40.78
34807
27 18 7.5
8.717
11
17 8 26.07
9.0841
26 39 56.3
54)71
11
19 15 22.13
9.0888
27 14 18.6
8.918
12
17 10 58.33
9.M0O
26 44 55.7
4.907
12
19 18 3.41
9.0878
27 10 17.9
4.100
13
17 13 31.00
9.84T7
26 49 45.2
4.749
13
19 20 44.61
9.0860
27 6 5.5
4404
14
17 16 4.07
9.8548
26 54 24.8
4476
14
19 23 25.73
9.0848
27 1 41.4
4.400
15
17 18 37.54
9.8000
26 58 54.3
4.406
15
19 26 6.75
94830
26 57 5.6
4498
16
17 21 11.39
9.60TS
27 3 13.7
4.986
16
19 28 47.66
94807
26 52 18.1
4487
17
17 23 45.62
9.8786
27 7 22.9
4.067
17
19 31 28.44
94784
26 47 19.1
5480
18
17 26 20.22
9.87V7
27 11 21.8
8.885
18
19 34 9.09
94709
26 42 8.5
5.978
19
17 28 55.18
9.8880
27 15 10.3
8.799
19
19 36 49.60
94787
26 36 46.4
6404
20
17 31 30.50
9.8014
27 18 48.4
8.547
20
19 39 29.95
94719
26 31 12.8
6455
21
17 34 6.17
9.8079
27 22 16.0
8.871
21
19 42 10.14
94084
26 25 27.7
5.845
22
17 36 42.18
9U»97
27 25 32.9
8.198
22
19 44 50.16
94855
26 19 31.3
0484
23
17 39 18.51
SU
9.0089
NDA^
S.27 28 39.1
' 6.
84)14
23
19 47 30.00
TU]
94094
ESDA^
S.26 13 23.5
Z 8.
0.998
0
17 41 55.16
9.0184
S.27 31 34.6
9jB84
0
19 50 9.65
941809
S.26 7 4.5
0411
1
17 44 32.13
9.0166
27 34 19.3
9.053
1
19 62 49.10
94557
26 0 34.2
0407
2
17 47 9.40
9.005
27 36 53.0
9.471
2
19 55 28.34
945»
25 53 52.8
6.763
3
17 49 46.97
9.0984
27 39 15.8
9.966
3
19 58 7.36
9.0464
25 47 0.3
6.068
4
17 52 24.82
9UBS0
27 41 27.5
9.108
4
20 0 46.15
94445
25 39 56.7
7.151
5
17 55 2.95
94970
27 43 28.2
14)16
5
20 3 24.70
9.0404
25 32 42.1
7433
6
17 57 41.35
9.0430
27 45 17.7
1.789
6
20 6 3.00
94009
25 25 16.7
7414
7
18 0 20.00
9.0401
27 46 56.0
1.544
7
20 8 41.05
9.0890
25 17 40.4
7.6M
8
18 2 58.90
9.0603
27 48 23.0
1J56
8
20 11 18.84
94376
25 9 53.4
7479
9
18 5 38.04
9.0541
27 49 38.7
1.167
9
20 13 56.36
94280
25 1 55.7
8450
10
18 8 17.40
9.0577
27 50 43.1
04m
10
20 16 33.61
9.6163
24 53 47.4
8.936
11
18 10 56.97
9.0019
27 51 36.0
0.766
11
20 19 10.58
24137
24 45 28.6
8400
12
18 13 36.74
9.6044
27 52 17.4
0.504
12
20 21 47.27
9.6088
24 36 59.4
8473
13
18 16 16.71
9.0675
27 52 47.3
0.403
13
20 24 23.65
940S7
24 28 19.8
8.748
14
18 18 56.86
9.0704
27 53 5.7
0.900
14
20 26 59.73
9.5987
24 19 29.9
8415
15
18 21 37.18
9.0789
27 53 12.5
04)16
15
20 29 35.50
9.5085
24 10 29.9
9484
Ifi
IS 24 I7.GG
9.S757
27 53 7.6
0.176
16
20 32 10.96
9.5888
24 1 19.8
0.959
17
18 26 58,30
ajJTM
27 52 51.1
0.872
17
20 34 46.10
9.6899
23 51 59.7
9418
ifl
IB 29 39.07
9.aa(M
27 52 22.9
0.567
18
20 37 20.90
94774
23 42 29.7
9.689
19
te 32 19.97
9^am
27 51 43.0
0.763
19
20 39 55.37
94718
23 32 49.9
0.744
20
IS 35 0.99
^m^s
27 50 51.3
0-958
20
20 42 29.51
24663
23 23 0.4
0.005
2t
18 37 42,11
^J&d9&
27 43 47.9
1.165
21
20 45 3.31
9.5604
23 13 1.3
10404
22
18 iO iJ3.32
ijmra
27 48 32.7
1.851
22
20 47 36.76
94546
23 2 52.7
10.999
93 1
18 43 4.60
ILflBaS
27 47 5.7
1.546
23
20 50 9.86
94487
22 52 34.6
10478
ftl
18 45 45.1>5
iLim;
S.27 45 26.9
1.745
24
20 52 42.61
94496
S.22 42 7.2
10.688
8
JAIWARY, 1866-
VII.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right
DUL
tat Im.
D«cliiuitioii.
DUL
for Im.
Hoar.
Bight
DIff.
forlm.
DtnHwition
DUL
forlm.
0
1.
3
3
4
5
6
7
8
9
10
U
12
13
14
15
16
17
18
19
20
21
23
23
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
WEDNESDAY 9.
h.
20
20
20
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
m. •.
•.
52 42.61
3.A4S8
55 15.00
3.5808
57 47.03
3.5807
0 18.69
9.5346
2 49.98
3.5184
5 20.89
3.5139
7 51.43
3.5000
10 21.59
9.4907
12 51.37
3.4888
15 20.77
3.4870
17 49.80
3.4806
20 18.45
3.4743
22 46.71
3.40n
25 14.58
3.4613
27 42.06
3.4547
30 9.15
3U489
32 35.85
34417
35 2.16
3.4853
37 28.08
3.4387
39 53.61
3.4393
42 18.75
3.4157
44 43.50
3.4009
47 7.86
3.4097
49 31.84
3.8069
o
S.22
22
22
22
21
21
21
21
21
21
20
20
20
20
20
19
19
19
19
18
18
18
18
S.18
42 7.2
31 30.6
20 44.9
9 50.3
58 46.8
47 34.5
36 13.6
24 44.1
13 6.2
1 19.9
49 25.4
37 22.8
25 12.2
12 53.8
0 27.6
47 53.7
35 12.3
22 23.5
9 27.4
56 24.2
43 13.9
29 56.7
16 32.6
3 1.8
THURSDAY 10.
51 55.43
54 18.63
56 41.45
59 3.89
1 25.95
3 47.63
6 8.93
8 29.85
10 50.40
13 10.58
15 30.40
17 49.86
20 8.95
22 27.68
24 46.05
27 4.07
29 21.74
31 39.07
33 56.05
36 12.69
38 38.99
40 44.96
43 0.61
45 15.94
47 30.95
9.8806
9.8885
9J779
9.8708
941645
9.8589
9.8510
9.8456
9.8889
9.8373
9.8913
9.8159
9.8009
9.8089
9.9074
9.9016
9.9858
9.9801
9.9745
9.36B0
9.9684
9.9581
9.3598
3.3476
M7 49 24.4
17 35 40.6
17 21 50.5
17 7 54.1
16 53 51.7
16 39 43.3
16 25 29.0
16 11 9.0
15 56 43.4
15 42 12.3
15 27 35.8
15 12 54.0
14 58 7.1
14 43 15.2
14 28 18.4
14 13 16.8
13 58 10.5
13 42 59.6
13 27 44.3
13 12 24.7
12 57 0.9
13 41 32.9
12 26 1.0
12 10 25.2
.11 54 45.7
10.588
10.685
10.084
11.181
11.977
11.490
11.669
11.701
11.830
11.075
13.110
19.949
13.879
13.500
19.697
19.751
19.874
19.004
18- 113
18.390
18.844
18.457
18«5«7
18.978
18.789
18.887
184»0
14.000
14.189
14.365
14.880
14.473
14.568
14.659
14.788
14.898
14.906
144)87
15.066
15.149
15.917
15.901
15.869
15.481
15.400
15.697
FRIDAY 11.
b. m.
22 47
22 49
22 52
22 54
22 56
23 58
23 0
23 3
23 5
23 7
23 9
23 11
23 14
23 16
23 18
23 20
23 22
23 25
23 27
23 29
23 31
23 33
23 35
23 37
0.
s.
30.95
3.3476
45.64
3.3438
0.02
3.3371
14.09
3.3890
27.86
3.3370
41.33
9.3331
54.50
3.3171
7.39
3.9134
19.99
3.9077
32.32
3.9081
44.37
3.1086
56.15
. 3.1941
7.66
3.1807
18.91
3.1854
29.90
3.1811
40.64
3.1770
51.14
3.1780
1.40
3.1601
11.43
3.1653
21.23
3.1614
30.80
3.1ffn
40.15
3.1frl0
49.29
3.1606
58.22
9.1479
s.
O I It
11 54 45.7
11 39 2.5
11 23 15.8
11 7 25.7
10 51 32.3
10 35 35.7
10 19 36.1
10 3 33.5
9 47 28.0
9 31 19.7
9 15 8.8
8 58 55.4
8 42 39.6
8 26 21.4
8 10 1.0
7 53 38.5
7 37 14.0
7 20 47.6
7 4 19.4
6 47 49.5
6 31 18.0
6 14 45.0
5 58 10.6
5 41 35.0
SATURDAY 12.
23 40
23 42
23 44
23 46
23 48
23 50
23 52
23 55
23 57
23 59
0 1
0 3
5
7
9
11
14
16
18
20
0 22
0 24
0 26
0 28
0 30
6.95
9.1438
15.48
9.1406
23.81
9.1373
31.96
9.1343
39.93
9.1813
47.72
9.1384
55.34
9.I9S6
2.79
9.1398
10.08
9.1909
17.22
9.1177
24.21
9.1159
31.06
9.1199
37.78
9.1107
44.35
9.1086
50.79
9.1065
57.12
9.1M6
3.34
9.1097
9.45
9.1010
15.46
94908
21.37
94J077
27.18
94)061
32.90
94)947
38.54
94)088
44.09
94)091
49.57
94)900
24 58.2
8 20.3
51 41.3
35 1.5
18 20.9
1 39.5
44 57.5
28 15.0
3 11 32.1
2 54 48.9
2 38 5.5
2 21 21.9
N.
4 38.3
47 54.8
31 11.4
14 28.2
57 45.3
41 2.8
24 20.8
7 39.4
9 1.3
25 41.2
42 20.3
58 58.4
15 35.5
15.749
5.800
15.809
16.916
15.969
164)19
164)68
16.114
6.150
16.983
16.891
16.857
16.809
16.494
16411
16-587
16^1
16-588
16.098
16.640
16.656
16.070
16.708
16.711
16.717
16.799
16.795
16.736
16.706
16.736
16.799
16.717
16.719
16.704
16.679
16458
164a
16497
VIII.
JABTUARY, 1856.
9
GREENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hoar.
Sight AflonMkRL
Difl.
iorlm.
DUL
forlm.
Hoar.
Bight ikMendon.
DUL
forlm.
DMlimtion.
DIflL
ftxrlm.
SU]
:^DAY
13.
TUESDAY 15.
h. m. «.
1.
O 1 «
N
h. m. •.
0.
O 1 «
H
0
0 30 49.57
9.0909
N. 1 15 35.6
16.600
0
3 11 30.20
9.1846
N.13 46 51.7
14.909
1
0 32 54.98
%OSM
1 32 11.5
10.690
1
2 13 38.35
9.1879
14 1 1.4
14.191
3
0 35 0.34
94)689
1 48 46.3
16.609
2
2 15 46.66
9.1899
14 15 6.1
144)68
3
0 37 5.65
94)680
2 5 19.8
16.647
3
2 17 55.14
9.1497
14 29 5.9
18.966
4
0 39 10.91
94)873
3 21 51.9
16.694
4
2 20 3.79
9.1466
14 43 0.7
18.871
5
0 41 16.12
94)866
2 38 22.7
16.600
5
2 22 12.61
9.1486
14 56 50.4
18.786
6
0 43 21.29
94)8W
2 54 52.0
16.476
6
3 24 21.61
9.1616
15 10 34.9
18.008
7
0 45 26.43
94)664
3 11 19.7
16.448
7
2 26 30.79
9.1646
15 24 14.2
18.611
8
0 47 31.54
94)849
3 27 45.7
10.418
8
2 28 40.15
9.1676
15 37 48.2
18.633
9
0 49 36.63
94)646
3 44 9.9
16.887
9
2 30 49.70
9.1607
15 51 16.8
18.483
10
0 51 41.70
94)644
4 0 32.1
16.866
10
2 32 59.44
9.1689
16 4 39.9
18440
11
0 53 46.75
94)841
4 16 52.4
16.839
11
2 35 9.37
9.1671
16 17 57.6
18.948
13
0 55 51.79
941840
4 33 10.7
16.368
12
3 37 19.48
9.1704
16 31 9.7
18.164
13
0 57 66.83
94)611
4 49 27.0
16.968
13
3 39 29.79
9.1787
16 44 16.1
184)09
14
1 0 1.88
94)649
5 &41.1
16.316
14
2 41 40.30
9.1770
16 67 16.8
13.968
15
1 2 ^.94
94)844
5 21 53.0
16.177
15
2 43 51.02
9.1803
17 10 11.7
19.867
16
1 4 12.01
94)847
5 38 2.5
16.187
16
2 46 1.94
9.1887
17 23 0.8
19.769
17
1 6 17.10
94)860
5 54 9.5
164)90
17
2 48 13.07
9.1873
17 35 43.9
19.668
18
1 8 22.21
94)864
6 10 14.0
104)64
18
2 50 24.41
9.1907
17 48 21.0
19.667
19
1 10 27.35
94)660
6 26 16.0
164)11
19
2 52 35.96
9.1941
18 0 52.1
13.467
20
1 12 32.52
94)865
6 42 15.4
16.906
20
2 54 47.72
9.1977
18 13 17.1
13.864
21
1 14 37.74
94)678
6 58 12.0
16.0W
21
2 56 59.69
9.9013
18 25 35.8
13.980
22
1 16 43.00
94)661
7 14 5.8
16.8r73
22
2 69 11.87
9.9048
18 37 48.2
19.164
23
1 18 48.30
MO
94)686
NDAY
N. 7 29 56.7
14.
16.6»
23
3 1 24.26
WEDI
9.9068
^ESDJ
N.18 49 54.3
LY 16.
194M8
0
1 20 53.65
941697
N. 7 45 44.6
16.778
0
3 3 36.88
9.9193
N.19 1 54.0
11.041
1
1 22 59.06
94)907
8 1 29.5
16.733
1
3 5 49.72
9.9168
19 13 47.2
11.689
2
1 25 4.54
94)919
8 17 11.3
16.670
2
3 8 2.78
9.9196
19 25 33.9
11.799
3
1 27 10.09
94)961
8 32 49.9
16.616
3
3 10 16.06
9.3933
19 37 14.0
11.619
4
1 29 15.71
94)MS
8 48 25.3
16.661
4
3 12 29.67
9.3366
19 48 47.5
11.609
5
1 31 21.41
94)997
9 3 57.3
16.606
5
3 14 43.30
9.3806
20 0 14.3
11J90
6
1 33 27.19
94)971
9 19 25.9
16.447
6
3 16 57.25
9.3841
20 11 34.3
11.376
7
1 35 33.05
94)966
9 34 51.0
16.388
7
3 19 11.43
9.3881
20 22 47.4
11.161
8
1 37 39.01
9.1001
9 50 12.5
16.838
8
3 21 25.84
9.3419
20 33 53.6
114)46
9
1 39 45.06
9.1017
10 5 30.4
16.367
9
3 23 40.47
9.9467
20 44 52.8
10.997
10
1 41 51.21
9.1084
10 20 44.6
16.904
10
3 25 55.33
9.3496
20 55 44.9
10.809
11
1 43 67.47
9.1069
10 35 55.0
16.140
11
3 28 10.42
9.3634
21 6 29.9
10.690
12
1 46 3.84
9.1071
10 51 1.5
16.076
12
3 30 25.74
9.3873
21 17 7.7
10.670
13
1 48 10.32
9.1090
11 6 4.1
164)09
13
3 32 41.29
9.3610
21 27 38.3
10.449
14
1 50 16.92
9.1110
11 21 2.7
144)43
14
3 34 57.06
9.3648
21 38 1.6
10.897
15
1 52 23.64
9.1180
11 35 57.2
14.878
15
3 37 13.05
9.3086
21 48 17.5
10.908
16
1 54 30.48
9.1161
11 50 47.5
14.808
16
3 39 29.27
9.3798
21 68 26.0
104)70
17
1 56 37.45
9.1179
12 5 33.6
14.783
17
3 41 45.72
9.3760
22 8 27.0
9.964
18
1 58 44.55
9.1196
12 20 15.4
14.660
18
3 44 2.39
9.3797
22 18 20.5
9.89B
19
2 0 51.79
9.1918
12 34 52.8
14.660
19
3 46 19.29
9.3886
22 28 6.4
0.703
20
3 2 59.17
9.1343
12 49 25.8
14.613
20
3 48 36.41
9.3873
22 37 44.6
9.674
21
2 5 6.70
9.i9en
13 3 54.2
14.436
21
3 50 53.76
9.3900
22 47 15.1
9444
22
3 7 14.38
9.1303
13 18 18.0
14.367
22
3 53 11.32
2.3W6
22 66 37.8
9314
23
2 9 22.21
9.1818
13 32 37.2
14.380
23
3 55 29.10
3.3063
23 5 52.7
0.I8S
24
2 11 30.20
9.1846
N.13 46 51.7
14.303
24
3 57 47.10
9.8018
N.23 14 59.7
94161 1
10
JANUARY, 1856.
IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
BighiAaomOaa.
JAIL
forlm.
Biff,
torlm.
Hoar.
DUL
fiorlm.
DMT.
Ibrlm.
THURSDAY 17.
SATURDAY 19.
h. m. ■.
•.
o / //
«
h. m. ■.
■.
O 1 II
•
0
3 57 47.10
9.8018
N.83 14 59.7
9461
0
6 51 34.77
9.4034
NJ27 43 16.1
1496
1
4 0 5.33
SJ066
33 33 58.8
8.918
1
5 53 48.93
9.4038
37 45 6.8
1.707
3
4 3 33.76
9.8001
83 33 49.9
8.786
8
6 56 13.05
9.4090
37 46 48.1
1410
3
4 4 43.40
9.8198
33 41 33.9
8460
3
6 58 37.16
9.4016
37 48 30.0
14M
4
4 7 1.35
9.8180
33 50 7.8
8414
4
6 1 1.34
94011
37 49 43.6
1407
5
4 9 30.31
9.81M
83 58 34.6
8478
5
6 3 35.39
94006
37 50 55.7
1.140
6
4 11 39.58
9.8998
84 6 53.1
8.340
6
6 5 49.30
94087
87 51 59.3
0489
7
4 13 59.05
9.8903
34 15 3.3
8.103
7
6 8 13.36
94080
87 68 53.5
0486
8
4 16 18.73
9.8906
84 33 5.3
7468
8
6 10 37.17
94080
87 53 38.3
0400
9
4 18 38.59
9.8898
34 30 58.9
7433
9
6 13 1.03
94000
87 64 13.8
041S
10
4 30 58.66
9.8801
34 38 44.1
7488
10
6 15 34.81
94060
87 54 39.9
0457
11
4 33 18.93
9.3808
34 46 30.9
7449
11
6 17 48.53
94M6
87 54 56.6
0.301
12
4 35 39.37
9.8494
34 53 49.3
7.400
18
6 30 13.15
94081
37 55 4.0
.0440
13
4 38 0.01
9446ft
35 1 8.9
7.967
13
6 83 35.69
94016
87 55 8.1
0.100
14
4 30 30.83
94486
85 8 30.0
7*118
14
6 84 59.14
94000
87 54 50.9
0404
15
4 33 41.83
946U
35 15 33.5
6400
15
6 87 33.49
94809
37 54 30.3
0490
16
4 35 3.00
94543
35 33 16.3
6434
16
6 39 45.73
94864
37 54 0.4
0475^
17
4 37 34.34
94flr70
35 39 1.4
0478
17
6 33 8.86
94846
37 53 81.8
0.790
18
4 39 45.84
94607
35 35 37.7
6433
18
6 34 31.87
94834
37 53 33.8
0488
19
4 43 7.51
94036
35 43 5.3
6486
19
6 36 54.75
94803
37 51 35.3
1480
20
4 44 39.34
94003
35 48 33.9
6.387
30
6 39 17.49
94778
37 50 38.5
1.188
31
4 46 51.33
94OT7
35 54 33.7
6-080
31
6 41 40.09
94764
87 49 13.7
1480
33
4 49 13.47
94703
36 0 34.6
6440
33
6 44 3.55
94780
37 47 47.8
1400
33
4 51 35.76
94797
Nj36 6 36.5
6.790
33
6 46 84.86
94706
N.37 46 13.7
1449
FR
IDAY
18.
SUl
OT)AY
20.
0
4 53 58.19
94780
N56 18 9.4
6480
0
6 48 47.01
94678
N.87 44 30.6
1.798
1
4 56 30.75
94771
86 17 43.3
6.488
1
6 51 8.99
94640
37 43 38.4
14U
3
4 58 43.44
94703
86 33 8.0
6487
8
6 63 30.80
94030
37 40 37.8
9404
3
5 1 6.36
94818
36 88 83.8
6.186
3
6 65 53.43
94600
37 38 87.0
9444
4
5 3 39.30
94888
86 33 30.5
6486
4
6 58 13.88
94660
37 36 7.9
9409
5
5 5 53.36
94853
36 38 38.1
4488
5
7 0 35.14
94637
27 33 39.9
9440
6
5 8 15.43
94871
86 43 16.5
4.780
6
7 3 56.31
94496
87 31 3.1
9487
7
5 10 38.71
94888
36 47 55.7
4477
7
7 5 17.08
94461
37 38 17.4
94U
8
5 13 3.09
94904
36 53 35.7
4438
8
7 7 37.74
94436
^ 37 35 33.9
9480
9
5 15 35.56
94010
36 56 46.5
4.906
9
7 9 58.19
94380
37 83 19.7
8.195
10
5 17 49.11
94089
87 0 57.9
4.118
10
7 13 18.43
94863
37 19 7.9
8.908
11
5 30 13.74
94M6
37 5 0.0
8467
11
7 14 38.43
94814
37 15 47.5
8411
13
5 33 36.45
94067
87 8 53.8
8403
18
7 16 58.19
94376
37 13 18.6
8468
13
6 35 0.83
94060
87 13 36.3
8447
13
7 19 17.73
94387
87 8 41.1
8406
14
6 37 34.08
94980
37 16 10.5
8.409
14
7 81 37.04
94108
87 4 55.1
8486
15
6 39 47.99
94080
37 19 35.4
8486
15.
7 S3 56.11
94167
37 1 0.6
8477
16
5 33 11.95
94007
37 83 50.9
8.180
16
7 36 14.93
94116
36 56 57.7
4.in
17
5 34 35.96
9.4006
37 35 57.0
8438
17
7 38 33.49
94073
36 68 46.4
4.967
18
5 37 0.01
9.4011
37 38 63.7
9466
18
7 30 51.79
94038
36 48 36.7
4487
19
5 39 34.09
9.4016
37 31 40.9
9.708
19
7 33 9.83
9.9986
36 43 58.7
4486
30
5 41 48.30
9.4090
37 34 18.7
9461
30
7 35 37.61
9.9041
86 39 33.5
4.071
31
5 44 13.33
9.4038
37 36 47.1
9495
31
7 37 45.13
9.3806
86 34 38.3
4406
33
5 46 36.47
3.4094
87 39 6.8
9.940
33
7 40 3.36
9.3890
86 39 46.0
4488
33
5 49 0.63
9.4036
37 41 15.9
9488
33
7 43 19.33
9.3803
36 34 45.7
6471
34
6 61 34.77
3.4034
N.37 43 16,1
1.936
34
7 44 35.99
9.3765
NiJ6 19 37.4
6.904
X.
JANUARY, 1856.
11
GREENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
Bight AmmmIoii.
DHL
fbrlm.
DeeUafttton.
DUEL
fbrlm.
Hour.
Bight AMenikm.
BUL
ftfflm.
DUt
Ibrlm.
MO
NDAY
21.
WEDNESDAY 23.
h. m. ■.
B,
O 1 «
«
h. m. •.
■.
o 1 k
«
0
7 44 35.99
3.9766
N56 19 37.4
6.304
0
9 27 39.80
34)140
N.19 66 49.0
10498
1
7 46 52.37
3.3707
26 14 21.2
6.886
1
9 29 40.48
34)080
19 46 26.9
10.408
3
7 49 8.47
3.3060
26 8 57.1
6.407
2
9 31 40.84
34)089
19 36 0.1
10.488
3
7 51 24.28
3.3610
26 3 25.2
6.607
3
9 33 40.87
1.9978
19 25 28.7
10463
4
7 53 39.79
3.3600
25 67 45.6
6.736
4
9 35 40.58
1.9996
19 14 52.6
10440
5
7 55 55.00
3.3610
25 61 58.1
6.863
6
9 37 39.97
1.9878
19 4 11.9
10.716
6
7 68 9.91
3.3460
35 46 3.1
6.080
6
9 39 39.06
1.9691
18 63 26.7
10.790
7
8 0 24.51
3.3407
25 40 0.6
0.100
7
9 41 37.82
1.9709
18 42 37.1
10463
8
8 2 38.80
3.3866
25 33 60.4
0.381
8
9 43 36.28
1.9717
18 31 43.1
10406
9
8 4 62.78
3.3803
25 27 32.8
0.866
9
9 46 34.43
1.9060
18 20 44.8
11407
10
8 7 6.45
3.3861
25 21 7.8
6.477
10
9 47 32.27
1.9016
18 9 42.2
11478
11
8 9 19.80
3.3198
25 14 35.6
6.607
U
9 49 29.80
1.9604
17 58 35.4
11.148
13
8 11 32.83
3.3146
35 7 66.3
6.717
13
9 61 27.03
1.9614
17 47 24.4
11.917
13
8 13 45.54
3.9003
35 1 9.6
6.8S7
13
9 63 23.97
1.0406
17 36 9.3
11.986
14
8 15 57.93
3.3098
34 54 15.8
0.960
14
9 65 20.61
1.9410
17 24 50.2
11461
15
8 18 10.00
3.1984
24 47 14.9
74)78
16
9 67 16.96
1.9867
17 13 27.3
11.416
16
8 20 21.74
3.1999
24 40 7.0
7.190
16
9 69 13.02
1.0819
17 3 0.6
11.479
17
8 23 33.14
3.1878
24 32 62.1
7.800
17
10 1 8.79
1.9371
16 60 39.9
11449
18
8 84 44.31
3.1817
24 25 30.3
7.430
18
10 3 4.27
1.9338
16 38 65.6
11.004
19
8 36 54.95
3.1769
24 18 1.7
7.688
19
10 4 69.46
1.9176
16 27 17.4
11400
20
8 39 5.36
3.1707
24 10 26.4
7.044
30
10 6 64.37
1.9138
16 16 35.6
11.797
31
8 31 15.44
3*1669
24 2 44.4
7.766
31
10 8 49.01
1.9064
16 3 60.2
11.780
33
8 33 35.19
9.1607
23 54 55.8
7404
33
10 10 43.38
1.0069
16 63 1.3
11444
33
8 35 34.60
TUI
3.1640
:SDA^
N.23 47 0.7
' 22.
7.978
83
10 12 37.48
THU
14906
RSDA^
N.16 40 9.0
r 24.
11.900
0
8 37 43.67
3.1488
NJ33 38 69.1
84)80
0
10 14 31.31
1.8063
N.15 38 13.3
11460
1
8 39 53.40
3.1497
23 30 61.1
8.186
1
10 16 24.88
1.8907
16 16 14.1
13414
3
8 42 0.79
3.1870
23 33 36.8
8.991
3
10 18 18.19
1.8803
16 4 11.6
19409
3
8 44 8.84
S.1818
33 14 16.3
8.806
3
10 20 11.24
14890
14 53 5.8
19.133
4
8 46 16.55
3.1367
33 5 49.3
8.499
4
10 22 4.04
14777
14 39 56.9
13.176
5
8 48 23.92
3.1300
33 67 16.3
8.009
6
10 23 66.58
14786
14 37 44.9
19.937
6
8 50 30.95
3.1148
33 48 37.0
8.708
6
10 25 48.86
14604
14 15 29.7
13.378
7
8 52 37.64
3.1087
32 39 61.8
8.803
7
10 27 40.90
14663
14 3 11.5
13498
8
8 54 43.99
3.1080
22 31 0.7
8.901
8
10 29 32.70
14018
13 60 50.4
13477
9
8 56 50.00
3.0074
22 22 3.8
8.997
9
10 31 24.26
14674
13 38 26.3
13.436
10
8 68 55.68
3.0017
22 13 1.1
9.003
10
10 33 15.58
14636
13 25 69.4
19.473
11
9 1 1.01
3.0060
22 3 62.6
9.189
11
• 10 35 6.67
1.8497
13 13 29.7
13.618
13
9 3 6.00
94)608
21 64 38.4
9.383
13
10 36 67.54
14468
13 0 67.2
13404
13
9 5 10.66
34)747
21 45 18.6
Mm
13
10 38 48.18
14499
12 48 22.0
13.600
14
9 7 14.97
34)009
21 35 53.2
9.409
14
10 40 38.60
14386
12 35 44.1
13.663
15
9 9 18.96
34)686
21 26 22.3
9.660
16
10 42 28.80
14360
12 23 3.6
13400
16
9 11 22.61
34)680
21 16 46.0
9.649
16
10 44 18.79
14316
12 10 20.6
13.788
17
9 13 25.92
34)698
21 7 4.4
9.787
17
10 46 8.67
14980
11 57 35.1
13.779
18
9 15 28.89
34)407
20 67 17.6
9.894
18
10 47 68.14
14946
11 44 47.1
13490
19
9 17 31.53
34M19
30 47 35.6
0.910
19
10 49 47.61
14919
11 31 66.7
13400
30
9 19 33,84
34)867
20 37 28.4
9.990
30
10 61 36.68
14180
11 19 3.9
13408
31
9 21 35,82
34)809
20 27 26.1
104)61
31
10 63 35.66
14148
11 6 8.9
13.986
2^
9 23 37-47
%&us
20 17 18.7
10.106
22
10 65 14.46
14116
10 63 11.7
19479
m
fl 25 38,80
34}I1M
20 7 6.3
10.347
23
10 67 3.05
14066
10 40 12.3
18400
^1
9 27 39.8(1
a.0l40
N49 56 49.0
10.398
24
10 58 61.46
14064
N.IO 27 10.6
134)46
12
JANUARY, 1856.
XI.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
B%ht AMtnakm.
DilL
Ibrlm.
DUr.
fi>rlm.
Hoar.
Right AMmalon.
DUL
forlm.
Difll
forlm.
FRIDAY 25.
SUNDAY
27.
h. m. 1.
■.
o 1 a
«
h. m. s.
■.
O 1 «
a
0
10 58 51.46
1.80ft4
N.IO 27 10.6
1SUH5
0
12 23 19.05
1.7410
S. 0 25 39.9
ujan
1
11 0 39.69
1.80M
10 14 6.8
1S.080
1
12 25 3.52
1.7415
0 39 33.2
13486
9
U 2 27.75
1.7995
10 1 1.0
1S.U8
2
12 26 48.02
1.7430
0 53 26.5
13487
3
11 4 15.63
1.7987
9 47 53.2
1S.146
3
12 28 32.56
1.7435
1 7 19.7
13487
4
11 6 3.34
1.7940
9 34 43.5
13.178
4
12 30 17.13
1.7483
1 21 12.9
13486
5
11 7 50.89
1.7914
9 21 31.8
18.311
5
12 32 1.74
1.7430
1 35 6.0
1348S
6
11 9 38.29
1.7688
9 8 18.2
18.343
6
12 33 46.40
1.7448
1 48 58.9
13480
7
11 11 25.53
1.786J
8 55 2.8
13.373
7
12 35 31.11
1.7467
2 2 51.6
134rn
8
11 13 12.62
1.7837
8 41 45.6
13400
8
12 37 15.88
1.7467
2 16 44.3
13474
9
11 14 59.56
1.7812
8 28 26.7
13438
9
12 39 0.71
1.7477
2 30 36.6
13470
10
11 16 46.35
1.7787
8 15 6.2
13456
10
12 40 45.60
1.7488
2 44 28.7
13405
11
11 18 33.00
1.7764
8 1 44.0
18.384
11
12 42 30.56
1.7500
2 58 20.4
13460
13
11 20 19.51
1.7743
7 48 20.1
18.411
12
12 44 15.59
1.7513
3 12 11.8
13463
13
11 22 5.89
1.7731
7 34 54.7
13.486
13
12 46 0.70
1.7595
3 26 2.7
13445
14
11 23 52.15
1.7700
7 21 27.8
13.460
14
12 47 45.90
1.7540
3 39 53.2
13437
15
11 25 38.28
1.7060
7 7 59.5
13.484
15
12 49 31.18
1.7565
3 53 43.2
13429
16
11 27 24.29
i.7oao
6 54 29.8
13.507
16
12 51 16.56
1.7571
4 7 32.7
13430
17
11 29 10.19
1.7040
6 40 58.7
13.530
17
12 53 2.04
1.7568
4 21 21.6
13411
18
11 30 55.98
1.7633
6 27 26.2
13.553
18
12 54 47.62
1.7605
4 35 10.0
13400
19
11 32 41.66
1.7605
6 13 52.4
18.578
19
12 56 33.30
1.7638
4 48 57.7
13.788
20
11 34 27.24
1.7588
6 0 17.4
13.593
20
12 58 19.09
1.7643
5 2 44.6
13.776
21
11 36 12.72
1.7573
5 46 41.3
13.613
21
13 0 5,00
1.7663
5 16 30.8
13.764
22
11 37 58.10
1.7567
5 33 4.0
13.683
22
13 1 51.03
1.7663
5 30 16.3
13.751
23
11 39 43.39
1.7543
N. 5 19 25.5
13.660
23
13 3 37.19
1.7708
S. 5 44 0.9
13.736
SAT
URDA
Y 86.
MO
NDAY
28.
0
11 41 28.60
1.7538
N. 5 5 45.9
18.666
0
13 5 23.47
1.T735
S. 6 67 44.6
13.191
1
11 43 13.73
1.7515
4 52 5.3
13.685
1
13 7 9.89
1.7748
6 11 27.4
13.706
2
11 44 58.78
1.7503
4 38 23.7
13.701
2
13 8 36.45
1.T779
6 25 9.3
13400
3
11 46 43.75
1.7490
4 24 41.2
13.716
3
13 10 43.15
1.7797
6 38 50.2
13478
4
11 48 28.66
1.7478
4 10 57.8
13.781
4
13 12 30.00
1.7832
6 52 30.1
13456
5
11 50 13.50
1.7468
3 57 13.5
18.745
5
13 14 17.01
1.7848
7 6 8.9
18,6n
6
11 51 58.28
1-7450
3 43 28.3
13.759
6
13 16 4.17
1.7674
7 19 46.5
134n
7
11 53 43.01
1.7451
3 29 42.4
13.773
7
13 17 51.50
1.7903
7 33 23.0
13497
8
11 55 27.69
1.7441
3 15 55.7
13.784
8
13 19 39.00
1.7981
7 46 58.3
134T7
9
11 57 9.32
1.74S5
3 2 8.3
13.795
9
13 21 26.67
1.7960
8 0 32.3
18466
10
11 58 56.90
1.7438
2 48 20.3
18.806
10
13 23 14.52
1.7990
8 14 5.0
13434
11
12 0 41.44
1.7433
2 34 31.6
13417
11
13 25 2.55
14031
8 27 36.4
13.513
12
12 2 25.95
- 1.7417
2 20 42.3
18.836
12
13 26 50.77
14063
8 41 6.4
13.468
13
12 4 10.43
1.7413
2 6 52.5
13.884
13
13 28 39.18
14085
8 54 34,9
13.463
14
12 5 54.89
1.7408
1 53 2.2
18.843
14
13 30 27.79
14118
9 8 1.9
18.438
15
12 7 39.32
1.7405
1 39 11.5
13.860
15
13 32 16.60
14153
9 21 27.5
13^13
16
12 9 23.74
1.7403
1 25 20.3
13.897
16
13 34 5.61
14187
9 34 51.5
13486
17
12 11 8.15
1.7400
1 11 28.7
13.863
17
13 35 54.84
14393
9 48 13.9
13466
18
12 12 52.55
1.7400
0 57 36.7
13.869
18
13 37 44.28
14356
10 1 34.5
13430
19
12 14 36.95
1.7400
0 43 44.4
18.878
19
13 39 33.94
14396
10 14 53.4
13401
20
12 16 21.35
1.7400
0 29 51.9
13.8n
20
13 41 23.83
14384
10 28 10.6
13.S79
21
12 18 5.75
1.7401
0 15 59.2
13.860
21
13 43 13.95
14373
10 41 26.0
13.941
22
12 19 50.17
1.7403
N. 0 2 6.3
18.883
22
13 45 4.31
14118
10 54 39.5
13.909
23
12 21 34.60
1.7406
S. 0 11 46.7
U-BBS
23
13 46 54.91
14453
11 7 51.1
13.176
24
12 23 19.05
1.7410
S. 0 25 39.9
18.887
24
13 48 45.74
14493
S.ll 21 0.7
13.143
XII.
JANUARY, 1856.
13
«
GREENWICH
MEAN TIME.
n
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Right Awsenaloii.
DIflL
ftxrlm.
Deolinatioii.
DMt
fiorlm.
Hoar.
Bight AM3«naion.
DiflL
forlm.
DUL
forlm.
TUESDAY 29.
THURSDAY 31.
h. m. ■.
■.
O 1 N
M
h. m. ».
■.
O 1 K
«
0
13 48 45.74
1.8498
S.ll 21 0.7
13.149
0
15 83 44.78
3.1366
S.30 56 4.3
10.360
1
13 50 36.83
1.8A85
11 34 8.3
13.108
1
15 25 53.14
3.I43I
81 5 83.6
10.989
♦
3
13 53 38.16
1.8078
11 47 13.7
1S.074
2
15 38 1.96
3.1607
31 15 35.6
10.179
3
13 54 19.76
1.8039
13 0 17.1
19J038
3
15 30 11.33
3.1688
31 35 43.3
KM)e9
4
13 56 11.63
1.8667
13 13 18.3
134)09
4
15 33 30.96
3.1660
31 35 45.5
9.991
5
13 58 3.77
1.8712
13 36 17.3
19.964
5
15 34 31.16
3.1738
31 45 43.3
9.898
6
13 59 66.18
1.8767
13 39 14.0
13.996
6
15 36 41.83
3.1816
31 55 33.3
9.803
7
14 1 48.86
1.8804
13 53 8.3
134«86
7
15 38 63.95
3.1804
83 5 18.5
9.706
8
14 3 41.83
1.8809
13 5 0.3
13.846
8
15 41 4.55
9.1973
83 14 57.9
9.607
9
14 5 35.09
1.8901
13 17 49.7
19.804
9
15 43 16.61
9.3060
33 34 31.4
9.608
10
14 7 38.64
1.8061
13 30 36.7
13.763
10
15 45 39.15
1.3199
33 33 58.9
9.407
11
14 9 33.49
1.9001
13 43 31.3
19.719
11
15 47 43.16
3.3308
83 43 30.3
9306
13
14 11 16.64
1.9061
13 56 3.0
134174
13
15 49 55.65
1.3388
88 53 35.6
9.909
13
14 13 11.10
1.9109
14 8 43.1
13499
13
15 53 9.63
9.9368
33 1 44.6
9.007
U
14 15 5.87
1.9164
14 31 18.5
13.683
14
16 64 34.07
1^1448
33 10 47.1
8.990
15
14 17 0.95
1.9207
14 33 52.1
13.636
15
15 66 38.99
3.9698
33 19 43.3
8.889
16
14 18 56.35
1.9i261
14 46 33.8
13.488
16
16 68 64.40
8.9608
33 38 33.9
&779
1
17
14 30 53.08
1.9817
14 58 60,6
13.440
17
16 1 10.39
3.3688
33 37 16.9
8.660
18
14 33 48,15
14»S7a
15 11 15.5
13.391
18
16 3 36.66
9.9769
33 45 63.1
8.647
19
14 24 44.56
l-iM39
15 23 37.5
13.aw
19
16 5 43.53
3.9830
33 54 31.5
8.438
90
14 36 4L30
I.MK^
15 35 56.3
H.an
20
16 8 0.86
9.9931
84 8 44.0
8316
n
14 39 39.37
J-swq
15 48 U.9
n-aan
31
16 10 18.69
9.3019
34 10 59.4
8.198
2ft
14 30 35.7a
l.?ei)0
16 0 24,3
n^in
2-2
16 13 37.00
3.8009
34 19 7.8
84)80
33
14 32 33.57
WEDl
^ESDi
S.16 13 33.1
^Y 30,
i^j.i-a
23
16 14 66.79
FRIDAY,
34179
FEBI
S.34 87 9.0
lUARY 1.
7.066
0
14 34 31.70
1J738
S,16 24 38.6
10 30 40.7
|3,M4
0
16 17 16.07]
9.93581
S.84 36 S.8|
7386
1
14 36 30.10
1.9719
l'J,W7
3
14 38 29.05
1.0641
16 48 39.4
ii.i>j*>
3
14 40 28,28
J,9S0«
17 0 34.6
J 1^9
4
14 43 37.80
].99d(l
17 12 26.1
nsiR
5
14 44 37.88
a.(»oao
17 24 14.0
ri.7ff:
0
7
14 16 28.25
14 4§ 29.00
9.0 1 W
17 35 58,1
17 47 38.3
11. :m
PHASES (
3F TI
IE MOON.
■^
8
9
14 50 30,14
U 53 31 SB
a.D-iso
17 59 14.6
IR 10 47,0
Bh
110
14 54 33.n2
S.QMT
IB 22 15.3
ii.-i^M
Day. h. m.
^Hiu
14 56 3r>.!>fi
%04n
18 33 39,5
]i,3€t^
0 New Moo
n, .
7 11 17.
3
^^^F' ^
14 58 3!:*,71
3,(U»i
18 44 59,5
n.J97
3) First Qua
rter,
. 14 3 43
7
K
15 0 41>I7
!UK>d2
18 50 15/2
11. ^w
O Full Mooi
n, .
. 31 15 38.
8
15 3 15.45
!I.M33
19 7 26.5
11. 16 J
(£ Last Quai
rter, .
. 39 30 34.
8
^^^
^■^ * 4CI.45
53.87
a.oiDa
19 18 33.5
19 29 36,0
ll4r7S
3.0773
114KB
^^H
"
71
!4.tSlJ
, 10 40 33,9
tQ.9JS
Bay. h.
. . 9 33.
^
%mu
19 51 27.1
io.a47
C Perigee,
0
%iota
20 3 15-6
20 13 59.2
10.7f7
C Apogee,
• .
. . 85 31.
0
'\im
20 23 38.0
iO.flfW
J
^J
20 34 n.B
20 44 40.0
10'.V>2
10*437
'
-M 55 4.2
lO'Sao
14:
JANUARY, 1856.
XIII.
GREENWICH MEAN TIME.
LUNAR DISTANCES.
^1
SUr'sNuM
and
Portion.
Noon.
P.L.
of
Difl.
UP*-
P.L.
of
DilL
VPi.
P.L.
of
Diff.
DCh.
P.L.
or
Difl.
1
Regulos
Venus
Antares
Sun
W.
E.
E.
E.
O 1 tl
63 26 4
33 26 27
46 46 2
79 3 41
2976
8451
9983
8397
O 1 «
64 66 48
32 6 8
46 14 2
77 40 36
9964
8488
9961
8846
O 1 II
56 27 46
30 43 34
43 42 48
76 17 16
3968
8436
3989
8889
O 1 II
57 58 58
29 21 49
42 11 19
74 63 41
9940
8490
9998
8890
s
Regulus
Ma^
Antares
Sun
W.
W.
E.
E.
65 39 3
24 49 45
34 30 11
67 62 8
9074
8006
9960
8368
67 11 66
26 19 48
32 57 8
66 27 1
9860
9904
9868
8988
68 45 5
27 50 8
31 23 49
65 1 37
9846
9976
9888
8398
70 18 34
29 20 47
29 60 12
63 36 55
9811
9904
8907
3
Regulns
Mars
Sun
W.
W.
E.
78 10 63
36 68 69
66 22 44
gf7iS
98B8
8136
79 46 23
38 31 39
64 65 8
9787
9866
8110
81 22 14
40 4 41
63 27 U
9791
9860
8094
82 68 26
41 38 4
51 68 64
9flD4
9889
8on
4
Regulus
Mars
Son
W.
W.
E.
91 5 4
49 30 39
44 32 20
901
9746
9994
92 43 31
61 6 19
43 2 0
3008
9797
9977
94 22 22
52 42 23
41 31 19
9886
9709
9969
96 1 36
64 18 61
40 0 18
9fif9
9699
9946
9
Sun
a Arietis
Aldebaran
W.
E.
E.
21 23 12
87 16 25
117 40 20
3S60
3190
3191
23 3 7
85 26 42
116 61 39
9689
9186
9186
24 43 26
83 37 66
114 2 51
9590
9187
3183
26 24 4
81 49 9
112 13 68
96U
9186
9181
10
Sun
a Arietis
Aldebaran
Saturn
w!
E.
E.
E.
34 60 4
72 46 15
103 8 69
120 29 16
3480
3196
3178
3181
36 31 34
70 56 37
101 19 59
118 39 4
3187
9107
9180
9184
38 13 6
69 8 5
99 31 1
116 48 66
9487
9901
9189
9186
39 64 38
67 19 39
97 42 6
114 58 60
948T
9906
9186
9187
11
Sun
a Arietis
Aldebaran
Saturn
W.
E.
E.
E.
48 21 43
68 19 42
88 38 63
106 49 31
3S03
9943
3907
9167
60 2 54
66 32 17
86 50 36
103 69 59
9607
9961
9919
9168
51 43 68
64 45 5
85 2 27
102 10 35
9619
9961
9919
3169
53 24 54
62 58 8
83 14 28
100 21 20
9818
9979
9996
9176
12
Sun
Jupiter
a Arietis
Aldebaran
Saturn
W.
W.
E.
E.
E.
61 47 21
20 17 47
44 7 62
74 17 18
91 17 38
9664
9899
9841
9967
9911
63 27 19
22 3 4
42 22 62
72 30 30
89 29 27
9668
9831
9860
3976
3290
66 7 5
23 48 18
40 38 18
70 43 65
87 41 30
3ff79
3836
3878
3996
3939
66 46 39
25 33 27
38 54 11
68 67 35
85 63 46
9860
9389
9396
9996
9938
13
Sun
Fomalhaut
Jupiter
Aldebaran
Saturn
Pollux
W.
W.
W.
E.
E.
E.
76 1 21
39 46 8
34 17 16
60 9 49
76 68 24
103 47 2
9699
9766
9879
9868
99B6
3«8
76 39 37
41 21 20
36 1 31
58 25 6
76 12 2
102 0 45
3689
9744
9380
9864
3996
9996
78 17 39
42 67 2
37 45 34
66 40 40
73 25 66
100 14 42
3049
3796
9889
9377
9805
9808
79 65 27
44 33 9
39 29 25
64 66 32
71 40 4
98 28 54
9600
9708
3896
9391
9316
9317
14
Sun
Fomalhaut
Jupiter
a Pegasi
Aldebaran
Saturn
Pollux
W.
W.
W.
W.
E.
E.
E.
88 0 48
62 37 46
48 6 22
36 44 37
46 20 60
62 64 36
89 43 32
9714
9069
9446
8680
9468
9869
9866
89 37 9
64 15 7
49 47 53
37 4 28
44 38 45
61 10 17
87 69 12
9726
9666
3465
8461
9480
9880
9878
91 13 15
66 52 32
51 30 9
38 25 47
42 67 3
69 26 14
86 15 6
9736
9665
9405
8881
9497
9891
9380
92 49 7
67 29 59
63 12 11
39 48 25
41 15 46
67 42 27
84 31 15
9747
966d
9475
8391
3516
9403
9890
16
Sun
Fomalhaut
W.
W.
100 44 43
66 36 66
9601
96n
102 19 6
67 14 7
9816
3661
103 63 16
68 61 12
9896
9666
106 27 9
70 28 11
9887
9699
XIV.
JANUARY, 1856.
15
GREENWICH MEAN
TIME.
LUNAB DISTANCES.
1
8ter*fll«M
and
Pocition.
Midnight.
P.t.
of
DUL
XVh.
P.L.
of
ma.
xvmh^
P.L.
of
Dm.
XXlh.
P.L.
of
ma.
Regulus
Venus
Antaiet
Sun
W.
E.
E.
E.
O 1 «
59 30 36
37 59 55
40 39 36
73 39 53
9997
8414
SS07
O 1 «
61 9 11
36 37 54
39 7 39
79 6 50
9014
8400
9006
8904
O 1 n
63 34 13
35 15 48
37 35 36
70 41 33
9001
8406
9809
8981
O 1 H
64 6 39
33 53 37
36 3 57
69 16 58
8404
9878
8967
9
Regulus
Mars
Antares
Sun
W.
W.
E.
E.
71 53 33
30 51 45
38 16 16
63 9 54
9B16
9»4e
1811
S199
73 96 29
39 93 3
96 49 9
60 43 35
9800
9089
9708
8178
75 0 57
33 54 41
35 7 89
59 16 57
9786
9016
9199
8100
76 35 44
35 36 40
83 33 38
67 50 0
9700
9900
9708
8144
3
Regulus
Mars
Sum
W.
W.
E.
84 35 1
43 11 50
50 30 16
9087
9816
8080
86 11 58
44 45 58
49 1 18
9871
9708
8048
87 49 17
. 46 30 39
47 31 59
9664
9791
80Sr7
80 86 59
47 55 33
46 3 80
9887
9788
8010
4
Regulus
Mars
Sum
W.
W.
E.
97 41 14
55 55 43
38 38 56
9159
9874
9880
99 91 14
57 39 57
36 57 15
9886
9807
90U
101 1 38
59 10 35
35 35 14
9610
9889
9899
108 43 35
60 48 37
33 53 54
9609
9691
9886
9
Sum
a Arietis
Aldebaran
W.
E.
E.
38 4 57
80 0 30
110 35 3
9807
9188
9170
99 46 1
78 11 31
108 36 3
9480
9186
9178
31 37 15
76 33 43
106 47 3
9494
9188
9177
33 8 37
74 33 57
104 58 0
9480
9190
9178
10
Sum
a Arietis
Aldebaran
Saturn
W.
E.
E.
E.
41 36 9
65 31 31
95 53 16
113 8 47
9480
9319
9188
9140
43 17 38
63 43 10
94 4 30
111 18 49
9401
9918
9199
9144
44 59 4
61 55 10
98 15 51
109 38 57
9494
9936
9190
9147
46 40 36
60 7 30
90 37 18
107 39 10
9407
9988
9303
9168
11
Sum
a Arietis
Aldebaran
Saturn
W.
E.
E.
E.
55 5 43
51 11 37
81 36 39
98 33 15
9094
99B4
9988
9183
56 46 99
49 95 4
79 39 1
96 43 90
9681
9300
9941
9186
58 36 53
47 38 59
77 51 35
94 54 35
9688
9811
9340
9196
60 7 13
45 53 15
76 4 31
93 6 0
9646
9836
9918
9904
13
Sun
Jupiter
a Arietis
Aldebaran
Saturn
W.
W.
E.
E.
E.
68 36 1
37 18 30
37 10 33
67 11 30
84 6 14
9880
9844
9491
9807
9917
70 5 11
99 3 36
35 87 38
65 35 41
83 18 56
9900
9860
9446
9817
9908
71 44 8
30 48 13
33 44 58
63 40 7
80 31 53
9800
9887
9478
9830
3966
73 83 51
33 33 50
33 3 7
61 54 50
78 45 1
9618
9864
9804
9840
9974
13
Sun
Fomalhaut
Jupiter
Aldebaran
Saturn
PoUux
W.
W.
W.
E.
E.
E.
81 33 0
46 9 38
41 13 3
53 13 44
69 54 38
96 43 30
9871
9000
9407
9404
9890
9898
83 10 19
47 46 43
43 56 38
51 39 15
68 9 7
94 58 1
9689
9687
9416
9418
9887
9888
84 47 33
49 33 30
44 39 40
49 46 6
66 34 1
93 13 57
9893
9870
9496
9438
9848
9848
86 84 13
51 0 39
46 39 38
48 3 18
64 39 11
91 38 7
9704
9673
9486
9448
9868
9866
14
Sum
Fomalhaut
Jupiter
a regasi
Aldebaran
Saturn
Pollux
W-
W.
W.
W.
E.
E.
E.
94 34 44
59 7 36
54 53 59
41 13 13
39 34 53
55 58 56
83 47 39
9700
9886
11166
8970
9S3A
9414
9410
96 0 6
60 44 53
56 35 33
43 36 59
37 54 37
54 15 41
81 4 18
9no
9066
9406
8936
9666
9496
9190
97 35 13
63 33 18
58 16 53
44 3 39
36 14 30
53 33 43
79 31 13
9789
9860
9806
8187
9877
9487
9480
99 10 5
63 59 39
59 57 59
45 39 4
34 35 3
50 50 1
77 38 30
9799
9879
9616
8168
9601
9449
9440
15
Sum
Fomalhaut
W.
W.
107 0 49
73 5 3
9840
9608
108 34 15
73 41 45
9880
9704
110 7 36
75 18 30
9870
9710
111 40 33
76 54 46
9880
9718
16
JANUARY, 1856.
XV.
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
^1
Star^NuM
and
Noon.
P.L.
of
mh.
P.L.
of
Vlh.
P.L.
of
IX«^
P.L.
of
Podtton.
DilL
DIff.
Di£
DHL
O 1 II
O 1 w
O 1 II
O J N
15
Jupiter
aPefirasi
Aldebaran
W.
61 38 51
3995
63 19 29
9SS0
64 59 53
9545
66 40 3
9006
W.
46 56 10
tm
48 23 51
3100
49 52 1
8070
51 20 37
8060
E.
32 56 9
soar
31 17 51
9005
29 40 10
1006
28 3 11
9731
Saturn
E.
49 7 36
MOO
47 25 27
9473
45 43 36
9485
44 2 1
9197
Pollux
E.
75 55 42
SIM
74 13 18
9400
72 31 9
9470
70 49 14
9480
16
Sun
W.
113 13 7
MBl
114 45 37
9903
116 17 52
9914
117 49 53
S9S4
Fomalhaut
W.
78 31 2
sm
80 7 9
9789
81 43 6
9741
83 18 52
3749
Jupiter
aregasi
W.
74 57 28
9004
76 36 17
9015
78 14 52
9034
79 53 14
9634
W.
58 48 18
MOS
60 18 27
9997
61 48 44
9999
63 19 7
3969
Saturn
E.
35 38 32
9a6S
33 58 46
9578
32 19 21
3503
30 40 17
9810
Pollux
E.
62 23 12
.9600
60 42 41
9540
59 2 23
3&19
57 22 18
9650
Regalus
E.
96 58 8
9S88
97 17 48
3546
95 37 41
3557
93 57 47
9600
17
Fomalhaut
W.
91 14 55
9T»
92 49 32
9803
94 23 57
9813
95 58 9
9833
Jupiter
a Pegasi
W.
88 1 52
9081
89 38 58
9069
91 15 52
3099
92 52 33
9708
W.
70 51 40
9980
72 22 10
9909
73 52 37
3991
75 23 1
9994
a Arietis
W.
27 16 30
9881
28 49 13
9803
30 22 20
3818
31 55 45
9838
Pollux
E.
49 5 10
9000
47 26 23
9615
45 47 49
3034
44 9 27
9683
Regulus
E.
85 41 30
9013
84 2 52
9093
82 24 27
9632
80 46 15
9640
18
Jupiter
a Pe^i
a Anetis
W.
100 53 0
9763
102 28 30
9762
104 3 48
2770
105 38 55
9779
W.
82 53 44
1090
84 23 32
30M
85 53 13
8033
87 22 45
8040
W.
39 45 25
9815
41 19 34
9814
42 53 44
3615
44 27 53
9616
Pollux
E.
36 0 41
9078
31 23 32
3088
32 46 36
9697
31 9 52
3706
Regulus
E.
72 38 11
9084
71 1 10
9003
69 24 21
3701
67 47 43
3710
19
a Arietis
W.
52 17 55
98S9
53 51 41
9836
55 25 22
2842
66 58 56
9846
Aldebaran
W.
22 30 43
SOTS
23 59 26
8043
25 28 45
8018
26 58 36
9990
Regulus
E.
59 47 28
97S3
58 11 59
3763
56 36 42
2ni
55 1 36
3780
Mars
E.
106 47 4
3803
105 13 44
3801
103 40 35
3660
102 7 36
98n
30
a Arietis
W.
64 45 4
9875
66 17 55
3881
67 50 38
3866
69 23 12
3804
Aldebaran
W.
34 32 8
9954
36 3 18
3951
37 34 32
3950
39 5 48
3950
Regulus
E.
47 9 1
»»
45 35 5
3889
44 1 19
3343
42 27 45
3853
Mars
E.
94 25 18
9910
92 53 20
3935
91 21 33
2933
89 49 55
3941
Spies
E.
101 8 42
9809
99 34 26
3618
98 0 21
3835
96 26 26
3633
21
a Arietis
W.
77 4 0
9998
78 35 43
3B35
80 7 17
3943
81 38 42
3049
Aldebaran
W.
46 41 55
2956
48 13 0
3909
49 44 1
3965
51 14 57
3970
Saturn
W.
29 52 58
2917
31 24 55
39-30
32 56 49
3933
34 28 39
3996
Mars
E.
82 14 17
3980
80 43 39
9987
79 13 10
2904
77 42 50
8009
Spica
E.
88 39 22
9871}
87 6 27
9680
85 33 42
9887
84 1 7
3805
22
a Arietis
W.
89 13 35
9065
90 44 7
3908
92 14 29
8000
93 44 43
3007
Aldebaran
W.
58 48 12
9993
60 18 33
3909
61 48 47
3005
63 18 54
8000
Saturn
W.
42 6 40
9947
43 37 59
3953
45 9 12
3957
46 40 19
3963
Mars
E.
70 13 30
8080
68 44 6
8047
67 14 51
8053
65 45 44
8060
Spica
E.
76 20 36
9933
74 48 58
3880
73 17 29
3947
71 48 10
3954
23
Aldebaran
W.
70 47 49
8006
72 17 15
8043
73 46 35
8048
75 15 48
8068
Saturn
W.
54 14 6
9990
55 44 31
3906
57 14 49
8001
58 45 1
8006
Pollux
W.
26 38 23
3999
28 8 46
3997
29 39 3
8003
31 9 13
8006
Mars
W.
58 22 17
8093
56 53 59
8100
55 25 49
8106
63 57 47
8113
Spica
E.
64 11 44
3988
62 41 16
3994
61 10 56
8001
59 40 45
8007
XVI.
JANUARY, 1856.
IT
GKEENWICH MEAN TIME.
LUNAB DISTANCES.
3
Btar^i NaiM
PL.
P.L.
P.L.
P.L.
and
Midnigto.
of
XV^
of
XVUIh.
of
XXlh.
of
PoritiOB.
DMt
DIS.
ma.
MB.
O 1 M
O 1 M
O 1 M
O 1 «
16
Jupiter
a Pegasi
W.
68 19 59
iB6»
69 59 42
9876
71 39 11
9686
73 18 96
9888
W.
52 49 36
1044
54 18 54
1099
56 48 29
1019
57 18 18
8010
Aldebenn
E.
26 26 59,
7m
24 51 42
9B10
23 17 27
9866
21 44 23
9999
Saturn
E.
42 20 43
S610
40 39 43
999i
38 59 1
9686
37 18 37
9649
PaUux
£.
69 7 33
9191
67 26 7
901
65 44 56
96U
64 3 57
9890
16
Son
W.
119 21 41
SBtft
120 53 15
9910
199 24 36
9987
123 66 42
998S
Fomalluuit
W.
84 54 27
fTft7
86 29 51
9f700
88 5 4
fn6
89 40 6
9784
JwMter
aPegifti
W.
81 31 23
QMS
83 9 19
9809
84 47 3
9889
86 24 34
sra
W.
64 49 34
9BM
66 20 4
9889
67 59 36
98SI
69 21 9
9986
Sstora
E.
29 1 36
9m
27 23 18
9847
95 46 97
98B6
24 8 4
9899
PoUox
E.
55 49 26
SM8
54 2 47
9876
59 23 22
9668
50 44 10
9696
RagulM
E.
92 18 6
1076
90 38 38
9668
88 59 23
9894
87 20 90
9804
17
Fomtlhaol
W.
97 32 7
im
99 6 59
9BI4
100 39 23
9864
102 12 41
9668
Jupitar
a Pe^i
W.
94 29 9
m9
96 5 20
9118
97 41 26
9716
99 17 18
9744
W.
76 53 21
998
78 23 36
loot
79 53 45
1006
81 23 48
8014
a Arntis
W.
33 29 24
wm
35 3 14
9889
36 37 13
9B18
36 11 rt
9816
Pollux
E.
42 31 17
9m
40 53 20
9889
39 16 36
ffff^l
37 38 2
9689
Regults
E.
79 8 15
9m
77 30 26
9887
76 52 49
9868
74 15 24
9876
IS
Jiroiter
W.
107 13 50
9m
108 48 34
9796
110 23 7
9806
111 57 29
9814
W.
88 52 8
1048
90 21 21
1067
91 50 23
1008
93 19 14
1076
a Anetis
W.
46 2 0
SIS
47 36 6
9891
49 10 6
9894
50 44 4
9S98
Pollux
E.
20 33 20
9lli
27 57 90
9794
26 20 52
9734
24 44 57
9744
Regulos
E.
66 11 17
9119
64 35 2
9796
69 56 59
9787
61 23 8
9766
19
a Arietb
W.
58 39 24
9m
60 5 45
98S7
61 38 59
9869
63 12 6
9689
Aldebarau
W.
28 28 50
9P8B
29 50 22
9974
31 30 7
9966-
33 1 3
9966
Regulms
E.
53 26 42
3V8B
51 52 0
9f708
60 17 29
9606
48 43 0
9616
Man
E.
100 34 48
9866
99 2 10
9894
97 29 43
9901
95 57 26
9909
90
a Arietis
W.
70 55 39
9901
72 27 67
9Kn
74 0 7
9914
75 32 8
9991
AMebarao
W.
40 37 4
9900
42 8 20
9961
43 39 34
9968
45 10 46
9966
Reffulus
E.
40 54 24
9881
39 21 15
9870
37 48 18
9880
36 15 33
9890
Man
E.
88 18 28
9948
86 47 10
9997
85 16 3
9964
83 45 6
9979
Spica
E.
94 52 41
9841
93 19 6
9B46
91 45 41
9087
90 12 27
9864
91
a Ari^lis
W.
83 9 59
9960
84 41 7
9964
86 12 5
99T1
87 42 54
9on
Aldebaran
w.
52 45 47
9n4
54 16 32
9979
55 47 11
9984
57 17 44
9986
Saturn
w.
36 0 25
9999
37 32 7
99S8
39 3 44
9988
40 35 16
9949
Man
E.
76 12 40
1009
74 42 39
ion
73 12 47
1094
71 43 4
8081
Spica
E.
82 28 42
9909
80 56 26
9910
79 24 20
9917
77 52 23
9996
23
a Arietis
W.
95 14 47
1014
96 44 43
1091
98 14 30
1098
99 44 8
8086
Aldebaran
W.
64 48 55
1016
66 18 49
1091
67 48 36
1096
69 18 16
8019
Saturn
W.
48 11 18
990B
49 42 11
9974
61 12 56
9980
52 43 34
9966
Man
E.
64 16 46
10S7
62 47 56
1074
61 19 15
1061
59 50 42
8087
Spica
E.
70 14 59
9901
68 43 57
9908
67 13 4
9974
65 42 10
9961
93
Aldebaran
W.
76 44 55
1009
78 13 65
1064
79 42 49
1009
81 11 36
8074
Saturn
W.
60 15 6
1011
61 45 5
1017
63 14 57
1099
64 44 43
8096
Pollux
W.
32 39 16
1018
34 9 13
1018
35 39 3
1094
37 8 46
1099
Man
E.
52 29 52
1118
51 2 4
1194
49 34 23
1199
48 6 48
1116
Spica
E.
58 10 41
1018
56 40 44
1019
65 10 55
1096
63 41 13
8010
18
JANUARY, 1856.
XFII.
GREENWICH MEAN
TIME.
n
LUNAB DISTANCES. 1
1^
Bter'f NaoM
P.L.
P.L.
P.L.
F.L,
^1
and
Noon.
of
ink-
of
VP».
or
IXh.
of
Position.
Diff.
Diff.
iMfl:
%
Diff.
O 1 II
,
O 1 II
O 1 II
O 1 «
24
Aldebaran
W.
89 40 17
aoTO
84 8 59
8068
85 37 22
8060
87 5 45
8089
Saturn
w.
66 14 23
aosi
67 43 57
8086
69 13 25
8041
70 49 47
80U
Pollux
w.
38 38 93
aosi
40 7 54
8030
41 37 19
8643
43 6 48
80C7
Mara
E.
46 39 91
8140
45 19 0
8146
43 44 45
8160
49 17 36
8164
Spica
E.
59 11 38
9m
50 49 10
8043
49 12 49
8047
47 43 34
8069
Antares
E.
98 3 34
8080
06 33 58
8036
95 4 29
8040
93 35 6
8046
VenuB
E.
110 56 18
8610
109 36 5
8616
108 15 57
8630
106 55 65
8696
95
Aldebaran
W.
94 96 97
8118
95 54 91
3116
97 22 19
. 8110
08 49 68
am
Saturn
W.
78 8 98
8088
79 37 93
8066
81 6 15
8066
89 35 0
8070
Pollux
W.
50 39 3
8006
59 0 55
8060
53 99 43
8071
64 68 98
8078
Regulus
W.
14 94 39
8314
15 50 95
8104
17 16 49
8176
18 43 90
8ia
Mare
E.
35 3 8
8174
33 36 98
8176
39 9 59
8061
30 43 90
8188
Spica
E.
40 18 44
8078
38 50 9
8on
37 91 94
8061
35 59 51
8068
Antares
E.
86 9 97
8004
84 40 33
8006
83 11 49
8060
81 49 55
8079
Venus
E.
100 17 0
8646
98 57 26
8649
97 37 56
8663
96 18 99
8666
26
Aldebaran
W.
106 8 5
8188
107 35 35
8183
109 3 5
8136
110 30 31
8186
Saturn
W.
89 58 30
8070
01 27 6
8078
99 55 49
8078
94 94 18
8078
Pollux
W.
69 91 40
8060
63 50 14
8061
65 18 47
8061
66 47 90
8080
Regulus
W.
95 59 97
8198
27 27 3
8134
98 54 44
8190
30 99 29
8116
Spica
E.
98 31 0
8008
27 9 48
8101
95 34 39
8104
24 6 39
8187
Antares
E.
74 19 36
8070
79 51 1
8079
71 99 97
8060
69 53 63
8070
Venus
E.
89 41 51
8564
88 99 37
8964
87 3 93
8666
85 44 10
assi
97
PoUux
W.
74 10 99
8078
75 39 5
8070
77 7 61
80ff7
78 36 41
8004
Regulus
W.
37 49 24
8007
39 10 37
8006
40 38 55
8066
49 7 19
8088
Antares
E.
62 30 45
8078
61 9 9
8070
59 33 15
8066
58 4 94
8004
Venus
E.
79 7 51
8667
77 48 30
8666
76 99 6
8669
76 9 39
8668
Sum
E.
121 15 45
8486
119 55 4
8461
118 34 19
8<76
117 13 30
8I1S
98
Pollux
W.
86 2 6
80S8
87 31 30
8083
89 I 9
8096
90 30 49
8090
Regulus
W.
49 30 55
8066
51 0 0
8046
59 99 13
8041
53 58 35
8088
Antares
E.
50 39 0
8080
49 9 36
8033
47 40 4
8037
46 10 95
8090
Venus
E.
68 31 18
86M
67 11 90
8616
65 51 16
8613
64 31 5
8806
Sun
E.
110 27 57
8446
109 6 31
8436
107 44 57
8430
106 93 14
8499
99
Pollux
W.
98 1 24
9977
99 39 5
9966
101 9 58
9066
109 34 4
984i
Regulus
W.
61 28 I
9900
69 58 98
9079
64 29 7
9960
65 59 59
9007
Antares
E.
38 39 48
9070
37 9 9
9069
35 38 17
9960
34 7 13
9048
Venus
E.
57 48 2
8408
56 26 57
8464
55 5 41
8444
53 44 14
8489
Sun
E.
99 32 13
8374
98 9 27
8861
96 46 29
8863
95 93 18
8841
30
Regulus
W.
73 38 2
9607
75 10 25
3863
76 43 6
3666
78 16 6
9864
Mare
W.
23 25 33
9066
24 56 4
3070
26 26 54
3965
97 58 3
9900
Spica
W.
19 37 46
9oai
21 9 38
3003
29 41 53
9686
94 14 30
9800
Antares
E.
26 28 25
9891
24 55 55
3676
23 23 8
9866
91 50 5
9809
Venus
E.
46 53 59
8876
45 31 8
8364
44 8 10
8361
49 44 58
8880
Sun
E.
88 93 50
8970
86 59 10
8960
85 34 12
8946
84 8 56
8980
31
Regulus
W.
86 5 45
fTTS
87 40 42
S763
89 15 59
9746
90 51 38
9799
Mare
W.
35 38 54
9667
37 12 8
9640
38 45 44
9633
40 19 49
9806
Spica
Venus
W.
39 3 7
9768
33 37 57
3766
35 13 10
9748
36 48 46
9180
E.
35 45 91
8376
34 20 42
8966
32 55 50
8354
31 30 45
890
1
Sun
E.
76 57 59
8148
75 30 48
8131
74 3 16
8113
79 35 92
8006
XVIII.
JANUARY, 1856.
19
GREENWICH MEAN
TIME.
LUNAB DISTANCES.
^1
Star'iNanM
P.L.
P.L.
P.L.
P.L.
•Qd
Midnight.
of
XVH.
of
xvnp^
of
XXIb.
of
PodOoa
Diff.
DiC
Dill.
Dm.
94
Aldebaran
W.
O t f u
88 34 4
SOW
O 1 N
90 3 17
8101
O 1 1
91 30 35
8106
O 1 u
93 58 28
8109
Saturo
W.
73 13 5
aoie
73 41 18
8063
75 10 86
8066
76 39 39
8060
Pollux
w.
44 35 53
lOM
46 5 3
80M
47 34 7
8060
49 3 7
8063
Mars
E.
40 50 33
SIM
39 33 33
8108
37 56 40
8166
36 39 53
8171
Spica
E.
46 14 35
8086
44 45 33
8060
43 16 34
8066
41 47 31
8008
AnUres
E.
93 5 49
1049
90 36 36
8068
89 7 38
8066
87 38 35
8060
Yearn
E.
105 35 59
8090
104 16 7
8684
103 66 30
8688
101 36 38
8649
96
Aldebaran
W.
100 17 41
S19i
101 46 30
8197
103 13 57
8199
104 40 33
8180
Saturn
W.
84 3 50
807S
85 33 33
8074
87 1 14
8077
88 39 53
8077
Pollux
W.
56 37 11
aOTft
57 55 51
8077
59 34 39
8976
60 53 5
8079
Regulns
W.
30 10 13
SlAt
31 37 19
8146
33 4 34
8188
34 31 57
8188
Mars
E.
39 16 51
S180
37 50 35
8186
36 34 3
8191
34 57 43
8198
Spica
E.
34 34 31
8067
33 55 55
8090
31 37 33
8098
39 59 15
8006
Antares
E.
80 14 11
8074
78 45 30
8076
77 16 50
8on
76 48 13
8078
Venus
E.
94 59 5
8607
93 39 44
8660
93 20 35
8660
91 1 7
966&
96
Aldebaran
W.
in 67 67
8187
113 35 33
8188
114 53 45
8187
116 30 13
8186
Saturn
W.
95 53 54
8078
97 31 30
8on
98 50 8
8076
100 18 47
8074
Pollux
W.
68 15 54
8080
69 44 38
8078
71 13 4
8077
78 41 48
8076
Regulus
w.
31 50 19
8118
33 18 13
8109
34 46 13
8106
36 14 16
8101
Spica
K
33 38 39
8100
31 10 30
8114
19 43 37
8118
18 14 49
8139
Antares
E.
68 35 18
8078
66 56 43
8077
65 38 5
8076
63 59 36
8074
Venus
E.
84 34 56
89S4
83 6 43
8668
81 46 37
8661
80 37 10
8619
97
Pollux
W.
80 5 35
8000
81 34 34
8066
83 3 39
8061
84 39 49
8046
Regulus
W.
43 35 49
8078
45 4 33
8078
46 33 8
8067
48 I 58
8061
Antares
E.
56 35 31
8000
55 6 33
8066
53 37 38
8080
53 8 17
8046
Venus
E.
73 50 8
854A
73 30 34
8640
71 10 54
8686
69 51 9
8680
Sdn
E.
115 63 35
8408
114 31 35
8468
113 10 39
8487
111 49 17
8460
98
Pollux
W.
99 0 30
8013
93 30 38
8001
95 0 36
9906
96 30 54
9967
Regulus
W.
55 38 7
8096
56 57 49
8016
68 37 43
8007
59 57 46
3006
Antares
E.
44 40 37
8018
43 10 40
8006
41 40 33
9997
40 10 16
3966
Venus
E.
63 10 47
8487
61 50 30
8486
60 39 45
8480
59 8 57
8473
Sun
E.
105 1 33
8414
103 39 31
8404
103 17 9
8396
100 54 47
8866
99
PoUux
W.
104 6 34
9888
105 36 58
9934
107 8 46
9Wl3
108 40 49
9800
Regulus
W.
67 31 6
9048
69 3 37
3984
70 34 3
9931
73 5 55
9809
Antares
E.
33 35 55
9B88
31 4 34
9937
39 33 39
9916
38 0 39
9808
Venus
E.
53 33 34
84S9
51 0 43
8411
49 38 38
8400
48 16 33
8886
Soil
E.
93 59 54
8839
93 36 16
8816
91 13 33
8803
89 48 14
8989
30
Regulus
W.
79 49 34
9B40
81 33 0
9836
83 56 58
9610
84 31 9
9794
Mars
W.
39 39 33
9934
31 1 31
9007
33 33 31
9891
34 6 3
9674
Spica
W.
35 47 39
9803
37 30 50
9886
38 54 33
9617
30 38 39
9600
Antares
E.
30 16 45
9889
18 43 8
9637
17 9 15
3616
15 35 6
9601
Venus
E.
41 31 33
8896
39 57 51
8814
38 33 56
8301
37 9 46
8386
Sun
E,
83 43 33
8314
81 18 30
8196
79 51 19
8183
78 34 49
8166
31
Regulus
W.
93 37 40
31713
94 4 4
9694
95 40 63
96n
97 18 3
9669
Mars
W.
41 54 4
9787
43 38 49
9766
45 3 59
9780
46 39 33
9781
Spica
Venus
W.
38 34 46
9ni8
40 1 9
9606
41 37 56
9676
43 15 8
9687
E.
30 5 37
8388
38 39 57
8336
37 14 18
7319
35 48 31
8914
Sun
E.
71 7 6
8077
69 38 38
8066
68 9 37
8089
66 40 3
8091
20
FEBRUARY, 1856.
I.
AT GREENWICH APPAEENT NOON.
i
FrL
Sat.
Sim.
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
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
THE SUITS
Appareni
Bight
1l m. f.
20 57 24.97
21 1 29.52
21 5 33i26
21 9 36.17
21 13 38.28
21 17 39.56
21 21 40.03
21 25 39.69
21 29 38.53
21 33 36.59
21 37 33.84
21 41 30.30
21 45 25.94
21 49 20.80
21 53 14.93
21 57 8.29
22 1 0.92
22 4 52.81
22 8 44.01
22 12 34.52
22 16 24.36
22 20 13.54
22 24 2.10
22 27 50.05
22 31 37.40
22 35 24.17
22 39 10.39
22 42 56.07
22 46 41.23
22 50 25.89
DlCftv
Ihoot.
10.206
10.172
10.189
10.105
10.071
10.037
10.0(VI
9J971
94)37
9.908
9.869
9.8»
9.808
9.772
9.740
9.709
9.677
9.648
9.619
9J^92
9.564
9.537
9.612
9.487
9.462
9.488
9.416
9.398
9.873
9.852
Appanni
S.17 14 23.6
16 57 17.9
16 39 54.3
16 22 13.0
16 4 14.8
15 46 0.1
15 27 29.2
15 8 42.5
14 49 40.5
14 30 23.7
14 10 52.2
13 51 7.0
13 31 8.0
13 10 56.1
12 50 31.5
12 29 54.5
12 9 5.7
11 48 5.4
11 26 54.1
11 5 32.1
10 43 59.9
10 22 17.7
10 0 26.0
9 38 25.0
9 16 15.5
8 53 57.5
8 31 31.6
8 8 58.0
7 46 17.1
S. 7 23 29.5
DilLlbr
1 hoor.
42.84
43.10
43.88
44.57
45.25
45.94
46.60
47.86
47.88
48.50
49.09
49.66
50.21
50.76
51.27
51.78
52.26
52.74
58.18
58.63
54.04
54.45
54.88
55.22
55.57
55.92
56.24
56.56
56.84
57.12
diameter.
16 16.07
16 15.92
16 15.76
16 15.60
16 15.44
16 15.27
16 15.10
16 14.92
16 14.74
16 14.56
16 14.38
16 14.20
16 14.01
16 13.82
16 13.63
16 13.43
16 13.23
16 13.02
16 12.81
16 12.59
16 12.87
16 12.14
16 11.91
16 11.67
16 11.44
16 11.20
16 10.96
16 10.71
16 10.47
16 10.22
Sklereel
of the
Semldl-
peadng
the
Merid-
68.32
68.09
67.97
67.86
67.74
67.63
67.52
67.41
67.30
67.19
67,08
66.97
66.86
66.75
66.65
66.55
66.46
66.36
66i26
66,16
66.07
65.97
65.87
65.78
65.69
65.61
65.54
65,47
65.39
Eqoftlionof
Time,
tobt
addedio
AppamU
TEm*.
13 49J20
13 57.18
14 4.33
14 10.66
14 16.21
14 20.93
14 24.84
14 27.92
14 30.20
14 31,71
14 32.41
14 32.30
14 31.39
14 29.69
14 27.27
14 24.08
14 20.17
14 15.51
14 10.18
14 4.14
13 57.46
13 50.09
13 42.13
13 33.54
13 24.36
13 14.61
13 4.29
12 53.45
12 42.10
12 30.23
DHL
0.849
0L816
0.282
0.248
0214
0.180
0.147
0.118
0.079
0.046
0.013
0.020
0.053
0.086
0.117
0.148
0.179
0.206
0.287
0.265
0.298
Ow820
0.845
0.369
0.894
0.418
0.441
0.463
0.484
0.505
NoTi.--lfiraM TInie of the SoildlMaeter pMsIng maj U IlKmd by fobtiMtliicO^^
n.
FEBRUARY, 1856.
21
AT GRF.F.NWICH MEAN NOON.
THE SUN'S
1
1
1
1
looattoncf
Tim*,
tote
ttAtnOtd
Mnm
IMft
tor
Ibour.
8id««a
ItaM.
Jnm»t
Bight AfMuto.
DIftlbr
Ibour.
JfP^rmi
WLtn
Ibow.
Fri.
Sat
Sum.
1
2
3
20 57 22.63
21 1 27.17
21 5 30.89
f.
10.S06
10.172
10.189
S.17 14 9SJ2
16 57 27^
16 40 4.5
42.84
48.10
48.88
13 49.12
13 57.11
14 4.27
0.849
0.816
0.282
20 43 33.51
20 47 30.06
20 51 26.62
Mon.
Tuea.
WeA
4
6
6
21 9 33.79
21 13 85.90
21 17 37.18
10.10S
10.071
10.087
16 22 23.5
16 4 25.5
15 46 11.0
44.57
45.25
46.94
14 10.61
14 16.17
14 20.89
0.248
0.214
0.180
20 55 23.18
20 59 19.73
21 3 16.29
Thur,
Fri.
Sat
7
8
9
21 21 87.65
21 25 37.30
21 29 36.14
10.004
9.971
9.ftS7
15 27 40.3
15 8 53.8
14 49 52.0
46.60
47.26
47.88
14 24.81
14 27.90
14 30.18
0.147
0.118
0.079
21 7 12.84
21 11 9.40
21 15 5.96
Sun.
Mon.
Tues.
10
11
12
21 33 34J21
21 87 31.47
21 41 27.93
9.908
9.869
.9.886
14 30 35.3
14 11 4.0
13 51 ia9
48.60
49.09
49.66
14 31.69
14 32.40
14 32.30
0.046
0.013
0*020
21 19 2.52
21 22 59.07
21 26 55.63
WeA
Thur.
Fri.
13
14
15
21 45 23.58
21 49 18.45
21 58 12.59
9.808
9.772
9.740
18 81 20.1
13 11 8.3
12 50 43.7
60.21
60.76
61.27
14 31.40
14 29.71
14 27.30
0.058
0.085
0.117
21 30 52.18
21 34 48.74
21 38 45.29
Sat
Sun.
Mod.
16
17
18
21 57 6.97
22 0 58.62
22 4 50.53
9.709
9.877
9.648
12 30 6.8
12 9 18.1
11 48 17.9
61.78
62.26
62.74
14 24.12
14 20.22
14 15.57
0.148
0.179
0.208
21 42 41.85
21 46 38.40
21 50 34.96
Tues.
Wed.
Thur.
19
20
21
22 8 41.75
22 12 32.28
22 16 22.15
9.619
9.592
9.664
11 27 6.7
11 5 44.7
10 44 12.4
68.18
68.68
64.04
14 10.24
14 4.21
13 57.53
0.287
0.265
0.293
21 54 31.51
21 58 28.07
22 2 24.62
Fri.
Sat
Sun.
22
23
24
22 20 11.35
22 23 59.94
22 27 47.91
9.687
9.612
9.487
10 22 30.2
10 0 38.5
9 38 37.5
54.45
64.88
66.22
13 50.17
13 42.21
13 33.63
0.820
0.345
0.869
22 6 21.18
22 10 17.73
22 14 14.28
M<M1.
Tues.
Wed.
25
26
27
22 31 35.29
22 35 22.10
22 39 a34
9.462
9.488
9.415
9 16 27.9
8 54 9.8
8 31 43.8
65.67
65.92
66.24
13 24.45
13 14.71
13 4.39
0.394
0.418
0.441
22 18 10.84
22 22 7.39
22 26 3.95
Thur.
Fri.
26
29
22 42 54.05
22 46 39.25
9.898
9.878
8 9 10.1
7 46 29.1
66.56
66.84
12 53.55
12 42.20
0.468
0.484
22 30 0.50
22 33 57.05
Sat
30
22 50 23.95
9.852
S. 7 23 41.4
57.12
12 3a34
0.605
22 37 53.61
N
jw.— Tht BilJIiw
•iMTlbrlli
IA& NooB waaj be Mm
lOMd the nme m thai Ibi
rApparen
t Noon.
22
FEBRUARY, 1856.
III.
AT GREENWICH MEAN NOON.
THE SUN'S
I
i
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
XViM LONGITUDB.
32
33
84
35
36
87
88
39
40
41
42
43
44
45
46
47
48
49
50
51
52
58
54
55
56
57
58
59
60
61
O I H ^
311 53 4.0
312 53 56.7
313 54 48.5
314 55 39.3
315 56 29.0
316 57 17.4
817 58 4.5
318 58 50.2
319 59 34.5
821 0 17.3
822 0 58.5
323 1 38.0
324 2 15.8
825 2 51.9
826 3 26.1
327 3 58.5
828 4 29.2
829 4 58.0
830 5 25.1
831 5 50.5
332 6 14.3
883 6 36.5
834 6 57.1
835 7 16.2
836 7 83.8
337 7 49.8
838 8 4.8
839 8 17.8
340 8 28.9
341 8 39.0
^ 6.3
53 58.8
54 50.5
55 41.1
56 30.6
57 18.9
58 5.9
58 51.4
59 35.6
0 18.3
0 59.4
1 38.8
2 16.4
2 52.4
8 26.5
3 58.8
4 29.3
4 58.0
5 24.9
5 50.1
6 13.8
6 85.9
6 56.4
7 15.4
7 82.9
7 48.8
8 3.1
8 15.9
8 27.4
8 87.4
IMftlbr
Ibour.
LATITUDB.
168.21
152.17
152.18
152.09
152.04
151.99
151.93
151.87
151.81
151.75
151.68
151.61
151.54
151.47
151.40
151.88
151.26
151.18
151.10
151.02
150.95
150.89
150.88
150.77
150.71
150.65
150^9
150.58
150.47
150.40
— (J.48
0.56
0.64
0.66
0.67
0.64
0.57
0.50
0.40
0.27
0.14
—0.01
H-0.12
0.24
0.32
0.39
0.43
0.46
0.44
0.40
0.31
0.22
4-0.11
—0.02
0.18
0.31
0.43
0.55
0.64
—0.71
LoffulUim
of the
BadiiM Yeotor
of the
Suth.
9.9987023
.9937716
.9938422
.9939142
,9939875
.9940619
.9941377
.9942148
.9942930
,9943725
.9944531
.9945353
.9946190
.9947043
.9947913
.9948801
.9949707
.9950629
.9951579
.9952546
.9953581
.9954538
.9955563
.9956606
.9957665
.9958740
.9959829
.9960931
.9962046
9.9963169
Dur.fop
1 hoar.
28.6
29.2
29.7
80.2
80.8
81.3
31.8
32.3
82.8
88.8
88.9
84.6
85.8
86.0
86.6
87.8
88.1
88.9
89.7
40.6
41.4
42.1
42.9
48.7
44.5
45.2
45,7
46.2
46.6
47.0
of
BlderMUOh.
h. m. I.
3 15 54.30
3 11 58.40
3 8 2.49
8 4 6.57
8 0 10.67
2 56 14.76
2 52 18.85
2 48 22.94
2 44 27.02
2 40 31.11
2 36 35.20
2 32 39.29
2 28 43.38
2 24 47.47
2 20 51.58
2 16 55.66
2 12 59.76
2 9 3.84
2 5 7.93
2 1 12.02
1 57 16.11
1 53 20.20
1 49 24.29
1 45 28.40
1 41 82.48
1 37 36.57
1 83 40.66
1 29 44.76
1 25 48.85
1 21 52.94
Von.— A. I
I to Ike »iw eqvlMz cf ihe AOe, x' to tte wMMi eqniaos of Jaa. Od.
IV.
FEBRUARY, 1856.
23
\
GRKENWICH
MEAN TIME.
THE
MOON'S
^
HOKIZONTAL PARALLAX.
MERIDIAN PASSAGB.
AGS.
Heon.
HUnighi.
Noon.
DULfbr
Ihoar.
DULfor
Ibour.
Dlff.for
Ibonr.
1
2
3
l8 %2.8
15 48.0
16 3.5
ih 40.3
15 55.8
16 10.9
56 56.7
57 52.7
58 49.5
+2.25
2.37
2.82
57 24.3
58 21.3
59 16.7
+2.84
2.87
2.20
h m.
20 19.2
21 19.2
22 21.9
2.40
2.56
2.59
24.5
25.5
26.5
4
5
6
16 17.8
16 29.6
16 37.3
16 24.1
16 34.0
16 39.5
59 42.1
60 25.1
60 53.8
2.02
1.52
0.84
60 5.1
60 41.5
61 1.7
1.80
1.20
+0.47
23 24.5
6
0 24.7
2.56
2.48
27.5
28.5
0.1
7
8
9
16 40.4
16 38.5
16 32.1
16 40.1
16 35.8
16 27.5
61 5.0
60 58.0
60 34.4
+0.08
-0.66
1.27
61 3.7
60 48.1
60 17.5
-0.29
0.98
1.52
1 21.2
2 14.3
3 5.0
2.28
2.16
2.09
1.1
2.1
3.1
10
11
12
16 22.2
16 10.0
15 57.0
16 16.3
16 3.5
15 50.5
59 58.0
59 13.5
58 25.6
1.72
1.95
2.00
59 36.5
58 49.7
58 1.6
1.86
1.99
1.98
3 54.5
4 44.2
5 35.1
2.07
2.09
2.14
4.1
5.1
6.1
13
14
15
15 44.1
15 32.0
15 21.2
15 37.9
15 26.4
15 16.4
57 38.1
56 53.9
56 14.3
1.93
1.75
1.53
57 15.6
56 33.5
55 56.5
1.85
1.65
1.42
6 27.9
7 22.4
8 17.8
2.23
2.29
2.29
7.1
8.1
9.1
16
17
18
15 11.9
15 4.0
14 57.5
16 7.8
15 0.6
14 54.7
55 40.1
55 11.1
54 47.2
1.82
1.10
0.89
55 25.0
54 58.5
54 37.1
1.22
1.00
0.79
9 12.6
10 5.3
10 55.1
2.24
2.18
2.00
10.1
11.1
12.1
19
20
21
14 52.3
14 48.4
14 45.8
14 50.2
14 46.9
14 45.0
54 28.1
54 13.9
54 4.3
0.69
0.50
0.30
54 20.4
54 8.5
54 1.4
0.59
0.40
-0.19
11 41.5
12 24.8
13 5.7
1.87
1.75
1.67
13.1
14.1
15.1
22
23
24
14 44.6
14 45.0
14 47.0
14 44.6
14 45.8
14 48.7
53 59.9
54 1.1
54 8.6
-0.07
+0.17
0.46
53 59.7
54 4.0
54 15.0
+0.05
0.31
0.61
13 45.1
14 23.9
15 3.3
1.68
1.63
1.67
16.1
17.1
18.1
25
26
27
14 51.0
14 57.1
15 5.6
14 53.8
15 1.0
15 10.8
54 23.3
54 45.8
55 17.0
0.77
1.12
1.48
54 33.5
55 0.3
55 35.8
0^.94
1.80
1.66
15 44.2
16 27.9
17 15.3
1.76
1.90
2.07
19.1
20.1
21.1
28
29
15 16.5
15 29.5
15 22.7
15 36.7
55 56.8
56 44.8
1.83
2.14
56 19.9
57 11.3
1.99
2.27
18 7.1
19 3.4
2.25
2.48
22.1
23.1
30
15 44.3
15 52.3
57 39.2
+2.37
58 a4
+2.44
20 3.1
2.46
24.1
24
FEBRUARY^ 1856.
V.
GREENWICH MEAN TIME,
n
THE MOON'S RIGHT ASCENSION AND DECLINATION. H
Hoar.
Bight Aioaiuian.
DUL
forlm.
DIff.
forlm.
Hoar.
Diff.
forlm.
VltL
ftrlm.
FRIDAY
L
SUNDAY
3.
h. m. ■.
1.
O f «
«
h. m. •.
f.
O 1 ff
«
0
16 17 16.07
3.SS8S
S.24 35 9.6
7316
0
18 17 17.59
34431
s.28 0 36.0
0.186
1
16 19 34.83
3.SS84
24 42 49.2
7.713
1
18 19 56.23
34466
28 0 41.4
0406
3
16 21 55.08
3.S416
34 50 28.9
7.667
9
18 92 35.09
94494
28 0 35.4
0.196
3
16 24 15.81
S.I406
94 57 59.6
7U60
3
18 96 14.16
94696
28 0 17,9
0486
4
16 26 37.02
S4976
95 5 93.3
7.880
4
16 97 53.43
94681
97 59 48.9
0460
6
16 28 58.71
Jitffffft
95 19 39.9
7.199
6
18 30 39.89
94803
97 59 8.3
0.T7S
6
16 31 20.88
%rm
95 19 47.9
7.087
6
18 33 19.53
94831
97 58 16.1
0487
7
16 33 43.54
3.8816
25 26 47,2
•J88
7
18 35 59.34
34648
97 57 19.3
1.161
8
16 36 6.67
2M^
25 33 39.2
8.799
8
18 38 39.31
94878
97 55 56.6
1466
9
16 38 30.27
^Mn
95 40 93.1
8.889
9
18 41 19.42
94897
97 54 99.6
1461
10
16 40 54.35
%¥m
95 46 58.7
8.638
10
18 43 59.67
94718
97 59 50.7
1.746
11
16 43 18.90
fi.4180
95 53 95.9
6.863
11
18 46 33.04
94738
97 51 0.1
1441
IS
16 45 43.91
9.4906
95 59 44.7
6.343
19
18 40 13.53
94767
97 48 57.8
9.1S7
13
16 48 9.39
i.4985
96 5 54.9
6.008
13
18 51 54.12
94778
97 46 43.7
9484
14
16 50 35.33
3.438-}
96 11 56.5
6.964
14
18 54 34.81
94788
97 44 17.7
94S9
15
16 53 1,73
8.4488
26 17 49.4
6.808
15
18 57 15.58
34801
97 41 39.8
-9.780
16
16 55 28.59
3.4614
26 23 33.4
0.800
16
16 58 56.42
94819
97 38 50.1
9437
17
16 57 55.90
3.4680
96 99 8.5
8.611
17
10 2 37.32
94631
97 35 48.6
9.194
18
17 0 23.66
9.468S
96 34 34.7
6.880
18
10 6 18.27
94696
97 39 35.3
8433
19
17 2 51.86
3U7S7
96 39 51.7
6.307
19
19 7 59.96
34834
97 99 10.1
8419
20
17 5 20.50
3.4810
96 44 59.5
•463
90
19 10 40.98
94637
27 25 33.0
9.717
21
17 7 49.58
3.4883
96 49 58.0
4407
21
19 13 21.31
94639
27 21 44.0
8416
22
17 10 19.09
3.4964
96 54 47.1
4.789
99
19 16 2.35
34840
97 17 43.1
4.118
23
17 12 49.03
SAT
3.6036
'JJBDA
S.96 59 96.7
lY 2.
4461
93
19 18 43.39
MC
34880
S.27 13 30.4
' 4.
4400
0
17 15 19.39
9.60M
S.97 3 56.8
4^1
0
19 21 24.42
3.8638
S.27 9 6.0
4408
1
17 17 50.16
.3.616S
97 8 17.9
4.380
1
19 94 5.49
34630
27 4 99.7
4.703
2
17 20 21.34
S.63S1
97 19 97.9
44)96
9
19 96 46.38
34838
96 59 41.6
4400
3
17 22 52.93
3.6998
97 16 98.7
9.931
3
19 99 97.30
94814
96 54 41.6
6467
4
17 25 24.92
3.6806
97 90 19.6
9.786
4
19 39 8.16
34804
96 49 99.8
6403
5
17 27 57.31
3.6480
97 94 0.5
8406
5
19 34 48.95
84799
96 44 6.4
6466
6
17 30 30.09
S.64M
97 97 31.4
9480
6
19 37 99.67
94779
96 38 31.9
•468
7
17 33 3.24
3.6697
97 30 59.1
8.360
7
19 40 10.30
94788
96 39 44.3
•478
8
17 35 36.77
3.6018
97 34 9.5
9467
6
19 42 50.83
94746
96 96 45.8
6478
0
17 38 10.66
3.6878
97 37 9.6
3416
9
19 45 31.26
94738
96 90 35.6
8487
10
17 40 44.91
9.6737
97 39 59.3
8.741
10
19 48 11.57
34708
96 14 13.8
8469
11
17 43 19.51
3.6706
97 49 31.5
3488
11
19 60 51.76
94887
96 7 40.5
6461
12
17 45 54.45
2J662
97 45 0.2
9489
19
19 53 31.81
94663
96 0 55.7
6441
13
17 48 29.73
3.6007
97 47 18.9
9.311
13
19 56 11.72
94886
95 53 59.4
7408
14
17 51 5.34
3.6083
97 49 95.5
9483
14
19 58 51.47
34813
95 46 51.7
7333
15
17 53 41.27
9.8014
97 51 99.1
1463
15
90 1 31.06
94664
95 39 39.7
7413
16
17 56 17.51
9.8006
97 53 7.8
1473
16
90 4 10.48
94666
95 39 9.3
7400
17
17 58 54.05
3.8116
97 54 49.7
1490
17
90 6 49.72
34694
95 94 90.7
7.788
18
18 1 30.89
94183
27 56 6.6
1408
18
20 9 28.77
34493
95 16 98.0
7473
19
18 4 8.01
3.8310
97 57 19.4
1.131
19
20 19 7.62
94468
96 8 94.1
8.167
20
18 6 45.41
3.8368
97 58 21.2
0437
90
90 14 46.27
34434
95 0 9.2
8441
21
18 9 23.08
3.8800
97 59 11.8
0.760
91
20 17 24.71
34388
94 51 43.9
8434
22
18 12 1.01
3.8343
97 59 51.1
0483
99
20 20 9.03
34361
94 43 6.3
8.706
23
18 14 39.18
3.8883
28 0 19.2
0474
93
90 99 40.92
34313
94 34 18.6
8404
24
18 17 17.59
3.8431
S.28 0 36.0
0.186
94
20 25 18.67
34373
S.94 95 90.9
0483
VI.
FEBRUARY, 1856.
25
GREENWICH MEAN TIME.
THB MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Vk^iAmmmkm.
Dill
ftirlm.
WL
forlm.
Hoar.
Bight AMaoAm.
DUt
forlm.
DMUnfttkni.
DUt
forlm.
TU
ESDA^
r 5.
THURSDAY 7.
h. B. 1.
1.
O 1 N
H
h. BH. •.
f.
O 1 N
0
0
90 95 18.67
tjnn
S.94 95 90.9
0.068
0
99 95 97.51
94676
S.14 15 19.5
10416
I
90 97 56.18
fumi
94 16 11.1
0.911
1
99 97 49.40
94899
13 59 39.9
10.703
9
90 30 33.44
9.618B
94 6 51.3
0418
9
99 30 10.97
94067
13 43 55.9
10.787
3
90 33 10.45
3.0147
93 57 90.9
0403
3
92 32 32.21
94618
13 98 5.5
10470
4
90 35 47.90
Mxm
93 47 40.1
0.767
4
92 34 53.13
94460
13 19 10.8
10401
5
90 38 93.68
%am
98 37 48.9
0.088
5
92 37 13.73
94407
19 56 11.4
16498
6
90 40 59.80
9.6013
93 97 47.5
10.100
6
99 39 34.01
94864
19 40 7.4
16.108
7
90 43 35.89
3.0014
93 17 35.8
10.978
7
92 41 53.08
94809
19 23 59.0
16.177
8
90 46 11.46
%a9w
93 7 14.1
10446
8
92 44 13.64
94961
19 7 46.2
16.949
9
90 48 46.81
84687
99 56 49.8
10413
9
22 46 32.99
94900
11 51 29.1
16418
10
90 51 91.86
34617
99 46 0.6
10.777
10
22 48 52.04
94100
11 35 8.0
16460
11
90 53 56.61
94767
99 35 0.1
10.988
11
92 51 10.79
94100
11 18 42.9
16461
19
90 56 31.07
34T17
99 94 7.9
11.100
19
92 53 20.24
94061
11 9 13.9
16414
13
90 59 5.99
3466S
99 19 57.1
11.960
13
22 55 47.40
94008
10 45 41.9
16476
14
91 1 39.05
34619
99 1 36.7
11418
14
22 58 5.27
9.9006
10 99 4.9
16488
15
91 4 19.56
346flQ
91 50 6.9
11474
15
93 0 22.86
9.9907
10 12 25.2
16480
16
91 6 45.75
34006
91 38 97.8
11.798
16
23 2 40.16
9.9861
9 55 49.2
16.748
17
91 9 18.69
34401
91 96 39.5
11479
17
23 4 57.19
9.9B16
9 38 56.0
16.706
18
91 11 51.16
34806
91 14 49.3
19499
18
93 7 13.95
94771
9 92 6.6
16447
19
91 14 93.37
34641
91 9 36.0
19.179
19
93 9 30.44
9.9798
9 5 14.3
16406
90
91 16 55.95
34986
90 50 90.8
19499
90
23 11 46.67
94689
8 48 19.9
16.041
91
91 19 96.79
3.6990
90 37 56.9
19.471
91
23 14 2.63
9.9689
8 31 91.4
164B4
99
91 91 57.90
34179
90 95 94.3
19414
99
93 16 18.34
3.3007
8 14 91.1
17496
93
91 94 98.85
WED
34116
NBSD
S.90 19 43.9
AY 6.
19.766
93
93 18 33.80
FI
3.9686
iroAY
S. 7 57 18.3
8.
17.M7
0
91 96 59.87
34067
9.19 50 53.7
19J04
0
93 90 40.01
34616
S. 7 40 13.1
n.l04
1
91 99 99.54
34000
19 46 55.0
18469
I
93 23 3.98
9.9476
7 93 5.8
17.180
9
91 31 59.37
34048
19 33 49.0
18.167
S
93 95 18.72
9.9486
7 5 56.4
17.178
3
91 34 98.85
34866
19 90 35.0
18JD0
8
23 97 33.92
94808
6 48 45.0
17406
4
91 36 57.99
34097
19 7 13.9
184S9
4
93 99 47.49
9.9860
6 31 31.8
n484
6
91 39 96.78
34768
18 53 44.0
18463
6
93 32 1.54
94894
6 14 16.9
17463
6
91 41 55.91
34709
18 40 6.4
184B8
6
23 34 15.38
9.9986
5 57 0.4
17487
7
91 44 93.99
34661
18 96 21.4
18.^18
7
93 36 29.00
94963
5 39 49.4
17411
8
91 46 51.09
34008
18 12 28.9
18.067
8
93 38 42.41
9.3918
5 22 23.1
17483
9
91 49 18.40
34686
17 58 90.0
UJOK
0
23 40 55.62
94186
5 5 2.6
17461
10
91 51 45.43
344T7
17 44 91.9
14.176
10
23 43 8.63
9.9168
4 47 41.0
17468
11
91 54 19.19
34410
17 30 7.9
14403
11
93 45 21.45
9.9191
4 30 18.4
17484
19
91 56 38.46
34860
17 15 47.0
14407
19
23 47 34.08
9.9QB0
4 12 54.8
17498
13
91 59 4.44
34801
17 1 19.1
14490
13
23 40 46.52
9.9000
3 55 30.5
17410
14
99 1 30.07
34348
16 46 44.5
14481
14
93 51 58.79
9.9090
3 38 5.6
17490
15
99 3 55.36
34166
16 39 3.4
14.780
15
23 54 10.88
9.9Q0O
8 20 40.1
17498
16
99 6 90.30
34196
16 17 15.9
14446
16
23 56 92.80
9.1078
8 3 14.2
17484
17
99 8 44.80
34070
16 9 92.0
14.M0
17
93 58 34.56
9.1047
2 45 48.0
17487
18
99 11 9.14
34013
15 47 92.0
10480
18
0 0 46.17
9.1099
2 28 21.7
n480
19
99 13 33.05
94067
15 32 16.0
16.160
19
0 2 57.62
3.1807
2 10 55.3
17441
90
99 15 56.69
34000
15 17 4.0
16.948
90
0.5 8.02
3.1879
I 53 28.8
17440
91
99 18 19.85
348a
15 1 46.2
16444
91
0 7 20.08
9.1848
1 36 2.5
17486
99
99 90 42.74
34787
14 46 22.7
16487
22
0 9 31.10
9.1896
1 18 36.5
17481
93
99 93 5.98
34781
14 30 53.8
16497
23
0 11 41.90
9.1604
1 1 10.8
17434
94
99 95 97.51
34976
S.14 15 19.5
16416
24
0 13 52.75
9.1783
S. 0 43 45,6
17416
26
FEBRUARY, 1856.
VII.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
lUgfat
DIfL
forlm.
Declination.
Dur.
fbrlm.
Hoar.
Bight
Diff.
forlm.
DUL
ftvlDk.
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
24
SATURDAY 9.
m. f.
■.
13 52.75
2.1788
16 3.39
2.1764
18 13.92
2.1745
20 24.33
2.17M
22 34.63
2.1709
24 44.84
2.1699
26 54.95
2.1678
29 4.97
2.1663
31 14.91
2.1649
33 24.76
2.1636
35 34.54
2.1604
37 44.25
2.1612
39 53.89
2.1603
42 3.47
2.1699
44 13.00
2.1664
46 22.48
2.1676
48 31.91
2.1669
50 41.31
2.1663
52 50.67
2.1667
55 0.00
2.1668
57 9.31
2.1660
59 18.60
2.1647
1 27.88
2.1646
3 37.15
9.1M8
0 43 45.6
0 26 20.9
0 8 56.9
8 26.2
25 48.4
43 9.6
0 29.8
17 48.7
35 6.3
1 52 22.5
2 9 37.2
2 26 50.3
2 44 1.7
3 1 11.2
3 18 18.8
3 35 24.4
3 52 27.9
N.
SUNDAY 10.
5 46.40
7 55.66
10 4.92
12 14.19
14 23.48
16 32.79
18 42.11
1 20 51.47
1 23 0.86
1 25 10.28
1 27 19.75
1 29 29.27
1 31 38.83
1 33 48.45
1 35 58.13
1 38 7.87
1 40 17.68
1 42 27.57
1 44 37.53
1 46 47.57
1 48 57.69
1 51 7.90
1 53 18.20
1 55 28.60
1 57 39.10
2.1642
2.1648
2.1646
2.1647
2.1660
2.1668
91667
2.1663
2.1668
2.1674
2.1662
2.1690
2.1608
2.1606
2.1618
2.1680
2.1642
2.1664
2.1667
2.1680
2.1694
2.1709
2.1726
2.1743
2.1760
N. 6
6
6
6
7
7
7
8
8
8
8
9
9
9
9
10
10
10
10
11
11
11
12
12
N.12
9 29.2
26 28.2
43 24.7
0 18.7
17 10.2
33 59.0
50 45.0
7 28.1
24 8.3
40 45.4
57 19.4
13 50.1
30 17.5
46 41.6
3 2.2
19 19.1
35 32.4
51 41.9
7 47.6
23 49.4
39 47.2
55 40.9
U 30.4
27 15.6
42 56.5
58 33.0
14 5.0
29 32.4
44 55.1
0 13.1
15 26.3
30 34.5
17.416
17.406
17.898
17.878
17.863
17.846
17.836
17.806
17.283
17.368
17.383
17.304
17.174
17.148
17.110
174)76
17.040
174)02
16.963
16.931
16.879
16.886
16.790
16.742
16.694
16.6U
16.608
16.689
16.484
16.439
16.872
16.812
16.363
16.190
16.137
164)68
16.907
16.939
16.860
16.789
16.718
16.646
164ni
16Jt96
16.418
16.389
16.359
16.178
164)96
0
1
2
3
4
5
6
7
8
9
10
n
12
13
14
15
16
17
18
19
20
21
22
23
24
h. m.
1 57
1 59
2 2
2 4
2 6
2 8
2 10
2 12
2 15
2 17
2 19
2 21
2 23
2 26
2 28
2 30
2 32
2 34
2 37
2 39
2 41
2 43
2 46
2 48
s.
O 1 K
M
3.1709
N.12 30 34.5
15UM
3.1776
12 45 37.8
15.018
2.1794
13 0 36.0
14.938
2.1819
13 15 29.1
9.1881
13 30 17.0
14.785
2.1861
13 44 59.7
14.667
2.1871
13 59 37.1
14.S78
9.1893
14 14 9.1
14.487
9.1914
14 28 35.5
14404
2.1986
14 42 56.3
14.800
2.1966
14 57 11.4
14.905
2.1981
15 11 20.9
14.110
2.9004
15 25 24.6
144)18
9.9098
15 39 22.4
18.915
9.3053
15 53 14.3
13.615
9.9077
16 7 0.2
13.714
3.9109
16 20 40.0
18.618
9.9137
16 34 13.7
18.511
9.9158
16 47 41.3
18.408
9.9180
17 1 2.6
18.809
9.9307
17 14 17.5
18.196
^9.9984
17 27 26.0
184)87
9.9361
17 40 28.0
19J79
9.9388
N.17 53 23.6
lajm
MONDAY 11.
39.10
49.70
0.41
11.23
22.16
33.20
44.36
55.65
7.07
18.62
30.30
42.12
54.07
6.17
18.41
30.80
43.34
56.03
8.87
21.87
35.03
48.35
1.83
15.48
TUESDAY 12.
N.18
18
18
18
18
19
19
19
19
19
20
20
20
20
20
21
21
21
21
21
21
22
22
22
NJ22
3 50 29.29
9.9816
2 52 43.27
9.9844
2 54 57.42
9.9878
2 67 11.76
2.3409
2 59 26.25
9.9481
3 1 40.92
9.9460
3 3 55.77
9.9489
3 6 10.79
9.9518
3 8 25.99
9.9548
3 10 41.37
9.9578
3 12 56.93
9.9609
3 15 12.68
9.9689
3 17 28.61
9.9660
3 19 44.71
9.3699
3 22 0.99
9.9799
3 24 17.45
9.9769
3 26 34.10
9.3790
3 28 50.93
9.9890
3 31 7.94
9.9860
3 33 25.13
9.9880
3 35 42.50
9.3910
3 38 0.05
9.9940
3 40 17.78
9.9970
3 42 35.69
9.8000
3 44 53.78
94M)80
6 13.3
19.700
18 64.6
194M8
31 30.0
19.586
43 58.7
19.491
56 20.6
19J06
8 36.4
19.190
20 43.3
194ns
32 44.2
11.950
44 38.0
11.887
56 24.6
ii.7n
8 4.0
11.506
19 36.1
1L.478
31 0.8
11.850
42 18.1
11.937
53 28.0
ll.lM
4 30.4
losn
16 25.2
10.850
26 12.4
10.799
36 61.9
10.604
47 23.7
10.466
57 47.7
10.834
8 3.8
10.908
18 12.0
104)71
28 12.3
0J88
38 4.6
9.804
VIII.
FEBRUARY, 1856.
27
GREENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hoor.
Bight AmuIoq.
DUt
forlm.
DUL
forlm.
Hour.
Bight AmuIoq.
Dis:
forlm.
DeottDfttloii.
VUL
forlm.
WEDNESDAY 13.
FRIDAY
15.
h m. s.
■.
O 1 «
u
h. m. f.
1.
O 1 II
H
0
3 44 53.78
3.aoio
N^ 38 4.6
9.804
0
5 38 4.37
9.8884
NJ37 42 3.2
9.088
1
3 47 12.05
9.8050
22 47 48.8
0.670
1
6 40 27.67
9.3883
27 44 39.5
9.597
9
3 49 30.49
9.8088
22 57 25.0
9.585
2
5 42 50.96
3.8881
27 47 6.4
9J70
3
3 51 49.10
9.8117
23 6 53.0
9.899
3
5 45 14.24
9.8878
27 49 23.9
9.914
4
3 54 7.89
9.8140
23 16 12.8
0.969
4
5 47 37.50
9.3874
27 51 32.0
9.056
6
3 56 26.85
9.8174
23 25 24.4
9.194
5
5 50 0.73
9.3869
27 53 30.8
1.909
6
3 58 45.98
9.8409
23 34 27.7
8.986
6
5 52 23.93
93863
27 55 20.2
1.745
7
4 1 5.28
9.8981
23 43 22.7
8.847
7
5 54 47.09
9.8857
27 57 0.2
1.560
8
4 3 24.75
9.8900
23 52 9.3
8.706
8
5 57 10.21
9.3U9
27 58 30.9
1.484
9
4 5 44.38
9J986
24 0 47.4
8.565
9
5 59 33.28
9.3»10
27 59 52.3
1.9r79
10
4 8 4.18
9J313
24 9 17.1
6.494
10
6 1 56.29
9.3880
28 1 4.4
1.194
11
4 10 24.14
9.8880
24 17 38.3
8.989
11
6 4 19.25
9.38-20
28 2 7.2
0.960
12
4 12 44.25
9.8865
24 25 50.9
8.130
12
6 6 42.14
9.8810
28 3 0.7
0.814
13
4 15 4.52
9.8301
24 33 54.9
7.005
13
6 9 4.96
9.3708
28 3 44.9
0.650
14
4 17 24.94
9.8416
24 41 50.3
7.851
14
6 11 27.70
9.3763
28 4 19.8
0.504
15
4 19 45.51
9.8441
24 49 37.1
7.707
15
6 13 50.35
9.8767
28 4 45.4
0.850
16
4 22 6.23
9.8465
24 57 15.2
7.669
16
6 16 12.91
9.8751
28 5 1.8
0.196
17
4 24 27.09
90480
25 4 44.5
7.416
17
6 18 35.37
9.8735
28 5 9.0
04>49
18
4 26 48.09
9.8519
25 12 5.1
7.960
18
6 20 57.73
9.8717
28 5 6.9
0.119
19
4 29 9.23
9.85S4
25 19 16.8
7.199
19
6 23 19.98
9.8699
28 4 55.6
0.965
90
4 31 30.50
9.8556
25 26 19.7
6.974
20
6 25 42.12
9.8660
28 4 35.2
0.417
31
4 33 51.91
9.8578
25 33 13.7
6-896
21
6 28 4.14
9.8650
28 4 5.6
0.569
22
4 36 13.45
9.8600
25 39 58.8
6.677
22
6 30 26.03
9.8687
28 3 26.9
0.790
23
4 38 35.11
THU
9.8090
HSDA
N.25 46 35.0
Y 14.
6.698
23
6 32 47.78
SAT
94614
URDA
NJ28 2 39.2
Y 16.
0.670
0
4 40 50.89
9.8640
NJ25 53 2.2
0.S78
0
6 35 9.40
9.8501
NJ28 1 42.5
li)91
1
4 43 18.79
9.8659
25 59 20.4
6.997
1
6 37 30.87
9.8566
28 0 36.7
1.179
2
4 45 40.80
9.8677
26 5 29.5
6.077
2
6 39 52.19
9.8641
27 69 21.9
1.898
3
4 48 2.92
9.8605
26 11 29.6
6.996
3
6 42 13.36
9.3615
27 57 58.0
1.478
4
4 50 25.14
9.8712
26 17 20.6
6.775
4
6 44 34.37
9.3488
27 56 25.1
1.691
5
4 52 47.46
9.8720
26 23 2.5
6.693
5
6 46 55.22
9.3461
27 54 43.4
1.760
6
4 55 9.88
9.8745
26 28 35.3
6.471
6
6 49 15.90
9.9489
27 52 52.8
li)17
7
4 57 32.40
9J760
26 33 59.0
5.817
7
6 51 36.40
9.8409
27 50 53.3
9.064
8
4 59 55.00
9.8778
26 39 13.4
6.163
8
6 53 56.72
9.8879
27 48 45.1
9.911
9
5 2 17.68
9J787
26 44 18.6
6.010
9
6 56 16.86
9J1841
27 46 28.0
9.867
10
5 4 40.44
9.8790
26 49 14.6
4.857
10
6 58 36.81
9.3308
27 44 2.2
9.509
11
5 7 3.27
9.8811
26 54 1.4
4.703
11
7 0 56.56
9.3974
27 41 27.7
9.647
12
5 9 26.17
9.8899
26 58 39.0
4.649
12
7 3 16.10
9.8940
27 38 44.5
9.799
13
5 11 49.13
9.8839
27 3 7.3
4MA
13
7 5 35.44
9.3906
27 35 52.7
9.985
14
5 14 12.15
9.8841
27 7 26.3
4.989
14
7 7 54.57
9.3170
27 32 52.3
84)78
15
5 16 35.22
9.8849
27 11 36:0
4MA
15
7 10 13.48
9.8133
27 29 43.4
8.990
16
5 18 58.34
9.8897
27 15 36.4
ZJ^»
16
7 12 32.17
9.3006
27 26 25.9
8.861
17
5 21 21.50
9.8863
27 19 27.5
8.778
17
7 14 50.63
9.8008
27 23 0.0
8.609
18
5 23 44.70
9.3869
27 23 9.2
8.017
18
7 17 8.87
9.9090
27 19 25.7
8.649
19
5 26 7.93
9.8874
27 26 41.5
8U61
19
7 19 26.87
9.9080
27 15 43.0
8.781
20
5 28 31.19
9.3878
27 30 4.5
8.306
20
7 21 44.63
9.9010
27 11 52.0
8.919
21
5 30 54.47
9.8881
27 33 18.2
8.150
21
7 24 2.15
9.9809
27 7 52.7
44)67
22
5 33 17.76
9.3883
27 36 22.5
9.994
22
7 26 19.42
9.9857
27 3 45.1
4.196
23
5 35 41.06
9.3884
27 30 17.5
9.839
23
7 28 36.44
9.9815
26 59 29.3
4.881
24
5 38 4.37
9.3884
NiJ7 42 3.2
9.683
24
7 30 53.21
9.9773
N56 55 5.4
4.466
28
FEBRUARY, 1856.
IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Bight AMaoAm.
DUL
fbrlm.
Beettntttob.
DHL
forlm.
Hoar.
Right AMWMion.
DIff.
ftNTlm.
DHL
forlm.
SUNDAY
17.
TUESDAY 19.
0
h. m. •.
7 30 53.91
1.
%7m
N.96 55 5.4
4.406
0
h. m. 8.
9 14 30.00
94097
N.91 9 h.'B
r
1
7 33 9.79
S.9710
96 50 33.4
4.O0O
1
0 16 31.00
94)976
90 59 46.5
0498
9
7 35 95.97
1.9080
96 45 53.4
4.738
9
0 18 33.30
94998
90 49 48.5
IO40O
3
7 37 41.95
9.9641
96 41 5.4
4.960
3
0 90 34.57
94171
90 39 45.4
10400
4
7 39 57.66
3.9600
96 36 0.5
4.096
4
9 99 35.44
9.0119
90 99 37.3
io.m
A
7 49 13.10
9.9661
96 31 5.7
6.199
5
0 94 36.00
94066
90 19 94.9
104M
6
7 44 98.97
9.9606
96 95 54.0
6.960
6
0 96 36.96
94017
90 9 6.9
10411
7
7 46 43.16
9.9466
96 90 34.6
6.888
7
0 98 36.91
14006
19 51 43.3
10.491
8
7 48 57.77
9.9410
96 15 7.5
6.616
8
0 30 35.85
14010
10 41 15.7
10400
9
7 51 19.09
9.3803
96 9 39.7
6.648
9
0 39 35.19
14806
10 30 43.3
10479
10
7 53 96.19
9.9114
96 3 50.3
6.770
10
9 34 34.93
14816
10 90 6.9
10497
11
7 55 39.86
9.9966
95 58 0.3
6.606
11
0 36 39.97
1.9706
19 0 94.4
10.786
19
7 57 53.39
9.9318
95 59 9.8
64)90
19
0 38 31.49
1.0717
18 58 38.0
10411
13
8 0 6.48
9.9168
95 45 57.9
6.148
13
0 40 99.57
14686
18 47 47.1
10486
14
8 9 19.34
9.9118
95 39 45.6
6.900
14
9 49 97.43
1.0610
18 36 51.8
10490
15
8 4 31.90
9.9060
95 33 95.9
0.886
15
9 44 95.00
1.9671
18 95 59.1
11481
16
8 6 44.16
9.9018
95 96 59.0
6.606
16
9 46 99.98
1.0698
18 14 48.1
11.KI9
17
8 8 56.19
9.1007
95 90 94.9
6.696
17
9 48 10.97
14476
18 3 30.8
11.179
18
8 11 7.77
9.1010
95 13 43.6
6.747
18
0 50 15.08
14496
17 59 97.4
11.909
19
8 13 19.11
9.1804
95 6 55.3
6.866
19
0 59 19.41
1.0869
17 41 10.8
11411
90
8 15 30.14
9.1818
94 59 59.9
6.989
90
9 54 8.56
14886
17 90 50.1
11478
91
8 17 40.87
9.1761
94 59 57.5
74)06
91
9 56 4.43
14986
17 18 95.4
11446
99
8 10 51.98
9.1700
94 45 48.1
7.918
99
0 58 0.09
14948
17 6 56.7
11411
93
6 99 1.38
MO
9.1667
NDAY
N.94 88 31.9
18.
7496
93
9 59 55.34
WEDP
14106
N.16 55 94.1
LY 20.
11470
0
8 94 11.16
9.1606
NJ34 31 9.0
7.480
0
10 1 50.40
14108
N.16 43 47.6
11410
1
8 96 90.63
3.1663
94 93 39.3
7.661
1
10 3 45.19
14100
16 39 7.3
11.1D9
9
8 98 99.78
9.1488
94 16 9.9
7.069
9
10 5 39.71
14066
16 90 93.3
11.7M
3
8 30 38.61
3.1446
94 8 19.9
7.773
3
10 7 33.07
14091
16 8 35.6
114»
4
8 39 47.19
9.1009
94 0 30.3
7.861
4
10 0 97.97
14070
15 56 44.3
11486
6
8 34 55.31
9.1S88
93 59 34.9
7.988
5
10 11 91.79
14087
15 44 40.4
114tt
6
8 37 3.18
9.1986
93 44 31.8
8.004
6
10 13 15.91
14606
15 39 51.1
19401
7
8 39 10.73
9.1983
93 36 93.0
6.190
7
10 15 8.45
14068
15 90 40.3
19466
8
8 41 17.97
9.1170
93 98 7.9
6.804
8
10 17 1.45
14019
15 8 44.1
19.116
9
8 43 94.89
9.1190
93 19 46.5
6.406
9
10 18 54.90
14779
14 56 35.5
19.171
10
8 45 31.48
9.1073
93 11 18.9
8.611
10
10 90 46.71
14789
14 44 93.6
19.996
11
8 47 37.75
9.1018
93 9 45.9
6.019
11
10 99 38.08
14009
14 39 8.5
19418
19
8 49 43.70
94066
99 54 5.5
6.719
19
10 94 31.01
14608
14 10 50.9
19481
13
8 51 49.33
9.0011
99 45 19.8
6.813
13
10 96 99.81
14614
14 7 98.8
19489
14
8 53 54.64
94)867
99 36 98.1
6.910
14
10 98 14.38
14676
13 55 4.3
19.438
15
8 55 59.69
94)803
99 97 30.6
94)07
15
10 30 5.73
14680
13 49 36.8
19.489
10
8 58 4.98
94^740
99 18 J87.3
0.108
16
10 31 56.85
14009
13 30 6.4
19481
17
9 0 8.69
34)096
99 9 18.9
0.196
17
10 33 47.75
14406
13 17 33.1
194T0
18
9 9 19.64
94)048
99 0 3.5
0.903
18
10 35 38.44
14480
13 4 66.0
19497
19
9 4 16.34
94)600
91 50 43.1
0406
19
10 37 98.91
14M4
19 59 17.0
19478
SO
9 6 19.79
94)667
91 41 17.9
0.478
90
10 39 19.17
14860
19 30 36.9
19.717
91
9 8 99.79
94)486
91 31 45.8
0406
91
10 41 9.93
14896
19 96 51.8
19.701
99
9 10 95.54
94)433
91 99 0.0
0466
99
10 49 50.08
14909
19 14 4.8
19406
93
9 19 97.97
94B70
91 19 96.8
0.747
93
10 44 48.73
1^8360
19 1 15.9
19448
94
9 14 30.09
94)137
Nj^l 9 39.3
0436
94
10 46 38.10
14937
N.U 48 93.0
19401
X.
FEBRUARY, 1856«
29
'
GREENWICH MEAN TIME.
THE MOOITS BIGHT ASCENSION AND DECLINATION.
Hoar.
BIgbllmndon.
DUL
PtoHMitinii
DUt
forlm.
Hour.
«.— >
DUt
forlm.
DUt
ftnrlB.
THU
^DA
Y 21.
SATUKDAY 23.
h. m. 1.
1.
O 1 «
»
h. n. f.
«.
O 1 If
fl
0
10 46 38.19
1.09ff7
N.11 48 93.0
19.891
0
19 11 31.79
1.7880
N. 0 56 57.8
18480
I
10 48 97.45
1.81M
11 35 98.3
19J89
1
19 13 16.19
1.7889
0 43 0.4
18J60
9
10 50 16.59
1.816S
11 99 31.9
19J79
9
19 15 0.45
1.7888
0 99 9.8
13489
3
10 59 5.41
1^119
11 9 31.7
184111
3
19 16 44.78
1.7888
0 15 5.0
18464
4
10 53 54.11
1^102
10 56 99.9
18.049
4
19 18 99.11
1.7889
N. 0 1 7.1
13468
5
10 55 49.63
1.8079
10 43 95.0
18.086
5
19 90 13.45
1.7880
S. 0 19 50.9
13407
6
10 57 30.98
1.8044
10 30 19.7
18.199
6
19 91 57.79
1.7109
0 96 48.9
18407
7
10 59 19.16
1.8010
10 17 11.3
18.168
7
19 93 49.15
1.7806
0 40 46.9
18407
8
11 1 7.17
1.7988
10 4 0.7
18.104
8
19 95 96.53
1.7806
0 54 44.0
13406
9
11 9 55.01
1.7880
9 50 48.0
18.196
9
19 97 10.93
1.7409
1 8 49.7
1348S
10
11 4 49.68
I.7JW
0 37 33.3
18409
10
19 98 55.35
1.7400
I 99 40.4
1340(>
11
11 6 30.90
1.7800
9 94 16.6
18.886
11
19 30 39.80
1.7419
I 36 37.9
13497
12
11 8 17.56
1.7881
9 10 57.9
\Mm
19
19 39 94.99
1.7418
1 50 35.9
13468
13
11 10 4.77
1.78i1
8 57 37.3
18468
13
19 34 8.82
1.7416
9 4 39.3
13448
14
11 11 51.84
1.78tt
8 44 14.0
is4err
14
12 35 53.39
1.7439
9 18 99.0
13449
15
11 13 38.77
1.7810
8 30 50.8
18.410
15
12 37 38.00
1.7439
9 39 95.3
13436
16
11 15 95.56
1.778T
8 17 95.0
18444
16
12 39 99.66
1.7448
9 46 91.9
13498
17
11 17 12.91
1.T704
8 3 57.5
18.^79
17
19 41 7.38
1.7468
3 0 16.7
13491
18
11 18 58.73
1.1742
7 50 98.3
18.600
18
19 49 59.16
1.7400
3 14 11.7
13419
19
11 90 45.19
1.7711
7 36 57.5
18486
19
19 44 37.01
1.7481
3 98 6.1
13408
90
11 99 31.39
1.7100
7 93 95.9
18461
90
19 46 91.93
1.7488
8 49 0.0
13408
91
11 94 17.53
1.7080
7 0 51.4
18476
91
19 48 6.99
1.7606
3 55 53.3
18409
99
11 96 3.55
1.7081
6 56 16.1
13400
99
19 49 51.98
1.7617
4 9 45.9
18471
93
11 97 49.46
FK
1.7048
roAY
N. 6 49 39.4
83.
18498
93
19 51 37.12
1.7881
MDAY
S. 4 93 37.8
S4.
13469
0
11 99 35.97
1.7080
N. 6 99 1.3
18.610
0
19 53 99.35
1.7M0
S. 4 S7 99.0
13417
1
11 31 90.97
1.7088
6 15 91.0
18487
1
19 55 7.67
1.7601
4 51 19.4
13433
9
11 33 6.57
1.7M1
6 1 41.9
18.088
9
19 56 53.08
1.7878
h 5 8.9
18418
3
11 34 59.06
1.7874
5 47 59.3
18.7V7
3
19 58 38.58
1.7009
5 18 57.6
18403
4
11 36 37.46
1.7080
5 34 16.3
18.706
4
13 0 24.19
1.7010
5 39 45.3
13.788
6
11 38 99.77
1.7648
5 90 39.9
18.746
6
13 2 9.91
1.7019
5 46 32.1
13.779
6
11 40 8.00
1.7889
5 6 46.9
18.703
6
13 3 55.74
1.7048
6 0 17.9
13.764
7
11 41 53.15
1.7818
4 53 0.6
18.780
7
13 5 41.68
1.7887
6 14 2.6
13.730
8
11 43 38.29
1.7606
4 39 13.3
13.790
8
13 7 97.74
1.7887
6 27 46.2
13.717
9
11 45 23.21
1.7499
4 95 95.1
13411
9
13 0 13.92
1.7707
6 41 28.7
13497
10
11 47 8.13
1.7481
4 11 36.0
18498
10
13 11 0.22
1.7718
6 55 10.0
13477
11
11 48 52.98
1.7470
3 57 46.0
13441
11
13 12 46.65
1.TJ60
7 8 50.0
13.067
19
11 50 37.77
1.74B1
3 43 55.1
13464
19
13 14 33.22
1.7778
7 22 28.8
13480
13
11 52 92.51
1.7469
3 80 3.5
13406
13
13 16 19.93
1.7787
7 46 6.3
13418
14
11 54 7.19
1.7449
3 16 11.9
134n
14
13 18 6.79
1.78*2
7 59 42.3
13489
16
11 55 51.81
1.7483
3 9 18.9
18468
15
13 19 53.80
1.7847
8 3 16.9
13466
16
11 57 36.38
1.7496
9 48 24.6
18408
16
13 91 40.96
1.7879
8 10 50.1
13441
17
11 59 90.91
1.7419
2 34 30.4
13406
17
13 23 98.97
1.7806
8 80 21.8
13416
18
19 1 5.41
1.7418
2 20 35.6
13.917
18
13 95 15.74
1.7990
8 43 51.9
13488
19
19 9 49.87
1.7407
2 6 40.3
13496
19
13 27 3.38
1.7964
8 57 20.4
13401
90
19 4 34.30
1.7409
1 52 44.6
13439
90
13 98 51.19
1.70BS
9 10 47.2
13.433
91
19 6 18.70
1.7888
1 38 48.4
13489
91
13 30 39.18
14019
9 24 12.3
13.404
99
19 8 3.08
1.7806
1 94 51.9
18446
99
13 32 27.34
14048
9 37 35.7
13476
93
19 9 47.44
1.7869
1 10 55.0
1S46I
93
13 34 15.69
14074
9 50 57.3
13446
94
19 11 31.79
1.7880
N. 0 56 57.8
13466
94
13 36 4.23
14106
S.IO 4.17.1
13414
30
FEBRUARY, 1856.
XI.
GREENWICH MEAN TIME. 1
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Boar.
DUL
forlm.
DaoUmtion.
Diff.
forlm.
Hour.
DUL
forlm.
DHL
«Drlm.
MONDAY 25.
WEDNESDAY 27.
h. m. s.
s.
O 1 «
«
h. m. f.
1.
O 1 «
a
0
13 36 4.23
1.8106
S.IO 4 17.1
18.814
0
15 7 56.30
34M9B
S.19 50 48.3
10.764
1
13 37 62.96
1.8188
10 17 35.0
18.989
1
15 9 59.06
34)409
20 1 31.2
10.876
2
13 39 41.88
1.8170
10 30 50.9
18.349
2
15 12 2.21
84)6i7
20 12 9.3
10.606
3
13 41 31.00
1.8904
10 44 4.8
18.915
3
15 14 5.74
34)699
20 22 42.6
10.614
4
13 43 20.33
ism
10 57 16.7
18.181
4
15 16 9.66
34)687
20 33 11.0
10.4S9
6
13 45 9.87
1.8974
11 0 26.5
18.146
5
15 18 13.98
34)769
20 43 34.5
10.340
6
13 46 59.62
1.8809
11 23 34.2
18.110
6
15 20 18.69
34)818
20 53 52.9
10.964
7
13 48 49.58
1.8S45
11 36 39.7
184)78
7
15 22 23.80
34)686
21 4 6.2
10.178
8
13 50 39.76
1.8889
U 49 42.9
184B5
8
15 24 29.31
34)069
21 14 14.3
104)03
9
13 52 30.17
1.8491
12 2 43.9
19.996
9
15 26 35.22
3.1010
21 24 17.2
104)04
10
13 54 20.81
1.8400
12 15 42.5
194)67
10
15 28 41.53
3.1086
21 34 14.8
9J9U
11
13 56 11.69
1.8409
12 28 38.7
12.917
11
15 30 48.25
3.1164
21 44 7.0
0.833
12
13 58 2.80
1.8086
12 41 32.5
19.876
12
15 32 55.38
3.1338
21 53 53.6
0.711
13
13 59 54.15
1.8S79
12 54 23.8
19.883
13
15 35 2.92
3.1393
22 3 34.7
0.«8B
14
14 1 45.75
1.8091
13 7 12.5
19.790
14
15 37 10.88
3.1869
22 13 10.2
•.M8
15
14 3 37.60
1.8688
13 19 58.6
19.747
15
15 39 19.26
3.1433
22 22 40.0
0448
16
14 5 29.71
1.8707
13 32 42.1
19.703
16
15 41 28.06
3.1609
22 32 4.0
0.861
17
14 7 22.08
1.8761
13 45 22.9
19.667
17
15 43 37.28
8.1672
22 41 22.2
0.988
18
14 9 14.72
1.8796
13 58 0.9
134)10
18
15 45 46.92
9.1649
22 50 34.4
0.168
19
14 11 7.63
1.8841
14 10 36.1
13.869
19
15*47 56.98
3.1719
22 59 40.6
OuOSf
20
14 13 0.81
1.8886
14 23 8.4
19.614
20
15 50 7.47
3.1783
23 8 40.7
8.060
21
14 14 54.26
1.8083
14 35 37.8
13.466
21
15 52 18.38
3.1664
23 17 34.6
8.8«7
22
14 16 47.99
1.8070
14 48 4.2
13415
22
15 54 29.72
3.1036
23 26 22.3
8.748
23
14 18 42.01
TUl
1.9096
SSDAl
S.15 0 27.6
r 26.
13464
23
15 56 41.49
THU
3.1007
RSDA^
S.23 35 3.6
^ 28.
0
14 20 36.31
1.9074
s.15 12 47.9
13.813
0
15 58 53.69
3.3009
S.23 43 38.5
8J97
1
14 22 30.90
1.9198
15 25 5.0
13.366
1
16 1 6.32
3.3141
23 52 6.9
8418
2
14 24 25.79
1.9174
15 37 18.9
13.904
2
16 3 19.38
3.3313
24 0 28.7
8.806
3
14 26 20.99
1.9996
15 49 29.5
13.149
3
16 5 32.88
3.3386
24 8 43.9
8.197
4
14 28 16.49
1.9076
16 1 36.8
13.093
4
16 7 46.81
3.3866
24 16 52.3
84)64
5
14 30 12.30
1.9897
16 13 40.7
134)86
5
16 10 1.17
3.3480
24 24 54.0
7.960
6
14 32 8.42
1-9880
16 25 41.2
114)78
6
16 12 15.96
3.3603
24 32 48.7
7.868
7
14 34 4.86
1.9483
16 37 38.1
114)19
7
16 14 81.19
3.3674
24 40 36.4
7.737
8
14 36 1.62
1.9487
16 49 31.5
11.860
8
16 16 46.85
3.3647
24 48 17.1
7.610
9
14 37 58.70
1.9641
17 1 21.3
11.799
9
16 19 2.95
8.3710
24 55 60.7
7400
10
14 39 56.11
1.9606
17 13 7.4
11.787
10
16 21 19.48
3.9703
25 3 17.0
7.878
11
14 41 53.85
IJ651
17 24 49.7
11.678
11
16 23 36.45
8.3864
25 10 36.0
7.966
12
14 43 51.92
1.0707
17 36 28.1
11.608
12
16 25 53.85
3.3886
25 17 47.7
7.183
13
14 45 50.33
1.0763
17 48 2.6
11.643
13
16 28 11.68
3J008
25 24 51.9
74)01
14
14 47 49.08
1.9821
17 59 33.2
IM76
14
16 30 29.94
3.8080
25 31 48.6
6.880
15
14 49 48.18
1.9679
18 10 59.8
11409
15
16 32 48.64
3.S]6il
25 38 37.5
6.768
16
14 51 47.63
1.9038
18 22 22.3
11.841
16
16 35 7.76
3.3398
25 45 18.7
6.639
17
14 53 47.44
1.9998
18 33 40.7
• 11.979
17
16 37 27.31
3.8904
25 61 62.1
6401
18
14 55 47.61
UM8
18 44 55.0
11.309
18
16 39 47.29
341866
25 58 17.6
6.388
19
14 57 48.14
34)118
18 56 5.0
11.180
19
16 42 7.70
8.3486
26 4 35.1
6.896
20
14 59 49.03
34)179
19 7 10.6
114)67
20
16 44 28.53
3.3606
26 10 44.6
64)80
21
15 1 50.29
34)941
19 18 11.8
10.989
21
16 46 49.77
3.8676
26 16 46.0
6.064
22
15 3 51.92
S4n08
19 29 8.5
10.907
22
16 49 11.43
3.8646
26 22 39.1
6.816
23
15 5 53.92
24)865
19 40 0.7
10-831
23
16 51 33.51
3.3716
26 28 23.9
6-677
24
15 7 56.30
34)496
S.19 50 48.3
10.761
24
16 53 56.01
3J784
S.26 34 0.3
•^
XII-
FEBRUARY, 1856.
31
GREENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
0
1
2
3
4
5
6
7
8
9
10
11
13
13
14
15
16
17
18
19
30
31
33
33
34
Bight
DUL
forlm.
DUt
ftwlm.
h. m.
16 53
16 56
16 58
17 1
17 3
17 5
17 8
17 10
17 13
17 15
17 18
17 30
17 33
17 35
17 37
17 30
17 33
17 35
17 37
17 40
17 43
17 45
17 47
17^0
17 53
FRIDAY 29.
S.36
36
36
36
86
36
37
37
37
37
37
37
37
37
37
37
37
37
87
37
37
37
37
38
S.38
s.
■.
56.01
9.S7B4
18.93
9.ien
43.34
3Joao
5.96
3^867
30.08
9.40M
54.60
9.4190
19.53
9.4186
44.84
9.498a
10.54
9.4816
36.63
9.4179
3.09
39.93
9.4fl04
57.14
9.4606
34.73
9.4697
53.66
9-4687
30.96
94746
49.61
9.4808
18.60
9.4800
47.93
9.4917
17.60
94978
47.60
9.6037
17.93
94080
48.56
9.6189
19.51
94188
50.75
94983
I u
34 0.3
39 38.3
44 47.8
49 58.6
55 0.7
59 54.0
4 38.4
9 13.9
13 40.4
17 57.8
33 6.0
36 4.9
39 54.5
33 34.7
37 5.4
40 36.6
43 38.1
46 39.9
49 33.0
53 14.3
54 46.7
57 9.1
59 31.4
1 33.5
3 15.4
•
6.687
6.806
6.958
6.108
4.903
4.814
4.000
4417
4.868
4.918
8.748
8401
8489
8.979
8.111
9.940
9.786
9.093
9460
9.980
9.190
1.060
1.T79
Hour.
Bight
US.
forlm.
Bilt
IbvliD.
SATURDAY, MARCH 1.
Ol
h. Bt. f. I
17 53 50.75
S.88 3 15:41 1.T79
PHASES OF THE MOON.
0 New Moon, .
3) Finit Qaarter,
O Full Moon, .
C Last Quarter, .
5
13
80
38
h. m.
33 36.1
14 11.7
9 40.4
13 41.5
C Perigee,
C Apogee,
7
33
h.
3.6
7.0
32
FEBRUART, 1856.
XIII,
GREENWICH MEAN
TIME.
^
LUNAR DISTANCES.
li
8ter*fNta
M
P.L.
P.L.
P.L.
P.L.
•nd
Noon.
or
mh
or
VP».
or
IXh.
of
PMltkML
DUL
DUL
DUL
Diff.
O 1 M
O 1 «
O 1 «
O 1 M
1
Regains
w.
98 65 38
9641
100 33 37
9638
102 12 1
9606
103 50 49
9086
Mm
w.
48 15 32
SIW
49 51 56
9606
51 28 45
9676
53 5 59
9666
Spica
w.
44 59 45
9m
46 30 46
9691
48 9 13
9609
49 48 5
9588
Sun
E.
65 10 16
8001
63 40 5
9861
62 9 30
9009
60 38 30
9M8
s
Man
W.
61 18 40
fHTT
62 58 43
96ar7
64 39 5
9618
66 10 53
9498
Spica
W.
58 9 2
M87
59 50 33
9466
61 32 31
9460
63 14 55
9481
Antaiea
W.
13 16 19
S804
13 57 27
9480
15 39 8
9467
17 21 22
9486
Svn
E.
59 57 SO
984*
51 23 51
9090
49 49 57
9B07
48 15 38
9766
8
Man
W.
74 50 43
9409
76 84 14
9064
78 18 12
9866
80 2 35
9848
Spica
W.
71 53 39
9ne
73 38 43
9890
75 24 14
9809
77 10 11
9906
Antaies
W.
25 59 40
9198
27 44 44
9890
29 SO 14
9809
31, 16 11
9964
Sun
E.
40 17 55
9006
38 41 14
9661
87 4 8
9006
35 26 42
9060
8
Sun
W.
29 10 12
9806
SO 53 50
9806
82 87 26
9409
34 20 58
9406
a Arietis
E.
49 14 53
9186
47 24 47
9147
45 35 0
9M9
43 45 35
9T78
Aldebana
E.
79 32 48
9066
77 41 30
9004
75 50 22
9109
73 59 26
9111
Saturn
E.
95 14 25
9044
93 22 0
9061
91 29 45
9060
89 37 42
9000
9
Sun
W.
42 56 44
9441
44 39 20
9461
46 21 42
9409
48 3 49
mi
Jupiter
a Arietis
W.
23 S3 7
9900
25 21 34
9908
27 9 49
9917
28 57 51
9997
E.
34 45 15
99B0
32 58 55
9816
81 18 19
9860
29 28 32
9860
Aldebaran
E.
64 48 30
9166
62 59 11
9176
61 10 11
9199
59 21 32
9907
Saturn
E.
80 20 41
9114
78 30 3
9194
76 39 41
9186
74 49 37
9140
PoUux
E.
108 26 59
9108
106 36 5
9116
104 45 29
9196
102 55 10
tllT
10
Sun
W.
56 30 13
9517
58 10 35
9561
59 50 38
9565
61 80 21
9080
Jupiter
W.
37 54 9
9984
39 40 32
9998
41 26 35
9811
43 12 18
S396
Aldebaran
E.
50 24 2
9900
48 37 48
9800
46 52 1
989B
45 6 43
9860
Saturn
E.
65 44 8
9916
63 56 4
9981
62 8 22
9946
60 21 1
9900
Pollux
E.
93 48 11
9909
91 59 44
9916
90 11 42
9380
88 23 59
t9tt
11
Sun
W.
69 43 46
9007
71 21 23
9078
72 58 39
9080
74 35 34
S706
Jupiter
aPeffasi
Aldebaran
W.
51 55 46
9806
53 39 24
9418
55 22 40
MS
57 5 35
940
W.
43 45 26
8066
45 14 15
8040
46 43 38
8016
48 13 32
9006
E.
36 28 18
9479
34 46 25
9601
33 5 13
9683
31 24 46
9609
Saturn
E.
51 30 5
9841
49 45 5
9867
48 0 29
9876
46 16 18
9809
Pollux
E.
79 30 47
9819
77 45 14
9884
76 0 4
9849
74 15 16
9864
Regulus
E.
116 5 17
9898
114 19 59
9844
112 35 3
9860
110 50 29
9878
19
Sun
W.
82 34 43
9186
84 9 29
9803
85 43 53
9819
87 17 56
9686
Jupiter
a Pegasi
W.
65 34 43
9090
67 15 28
9686
68 55 52
9661
70 35 55
9548
W.
55 47 58
9041
57 19 25
9008
58 50 56
9B86
60 22 SO
9086
Saturn
E.
37 41 47
9486
36 0 12
9604
34 19 4
9694
32 38 24
9646
Pollux
E.
65 36 44
9441
63 54 6
9466
62 11 51
9471
60 29 67
9486
Regulus
E.
102 13 9
9449
100 30 37
9404
98 48 33
9480
97 6 51
9494
13
Sun
W.
95 3 3
9018
96 35 5
9099
98 6 47
9044
99 38 10
9080
aPe^an
W.
68 0 0
9060
69 31 16
9066
71 2 25
9069
72 33 25
9060
a Anetis
W.
24 22 39
9888
25 55 20
9861
27 28 29
9844
29 2 0
9089
Pollux
E.
52 5 41
9610
50 25 50
9674
48 46 19
9668
47 7 7
9009
Regulus
E.
88 43 27
9666
87 3 46
9581
85 24 25
9506
83 45 23
900O
14
Sun
W.
107 10 30
8081
108 40 4
8044
110 9 22
8068
111 38 23
8011
XIV.
FEBRUARY, 1856.
33
GREENWICH MEAN
TIME.
'
LUNAR DISTANCES.
h
«
Sttf'f Nn
M
P.L.
P.L.
P.L.
P.L.
mod
Midnight.
of
XVh.
or
xvnD^
of
XXIh.
of
PfMltioa
DUL
IMS:
DUL
DUL
O f »
O 1 If
O 1 «
O 1 if
1
Regulos
w.
105 30 3
9MB
107 9 49
9640
108 49 47
9680
110 30 18
9619
Man
w.
54 43 40
96Sd
56 91 47
9616
58 0 91
9006
59 39 99
96T7
Spioa
w.
51 97 S4
aM4
53 7 9
9646
54 47 90
9636
56 97 58
9607
Sun
K
59 7 6
90M
57 35 17
9004
56 3 3
9864
54 30 94
9606
s
Mars
W.
•8 1 9
sm
69 49 59
9400
71 95 9
9U1
73 7 39
9499
Spiea
W.
64 57 46
Mia
66 41 4
9800
68 94 49
9874
70 9 1
9860
Antaiet
W.
19 4 5
9417
90 47 16
9800
99 30 56
ant
94 15 4
9807
Sun
E.
46 40 54
9f789
45 5 45
9780
43 30 11
9781
41 54 19
9710
8
Man
W.
81 47 95
9810
83 39 41
9818
85 18 91
9V0
87 4 96
9960
Spica
W.
78 56 33
9968
80 43 90
9961
89 30 39
9986
84 18 8
9916
Antaiea
W.
33 9 34
9979
34 49 99
9940
36 36 36
9988
38 95 14
9916
Sun
E.
33 48 54
9tU
39 10 48
9091
30 39 93
9610
98 53 44
9600
8
Sun
W.
36 4 95
9410
37 47 45
9117
39 SO 55
9494
41 13 55
9489
a Ariotis
E.
41 56 34
9194
40 7 58
9118
38 19 50
9986
36 39 15
9960
Aldebaran
E.
79 8 44
9190
70 18 16
9181
68 98 4
9141
66 38 8
9160
Saturn
£.
87 45 50
9in4
85 54 11
9064
84 9 47
9009
89 11 36
9100
9
Sun
W.
49 45 40
9486
51 97 15
9497
53 8 39
9610
54 49 39
9698
Jupiter
a Arietis
W.
30 45 39
9987
39 33 19
9947
34 90 99
9960
36 7 98
9979
E.
97 44 49
9486
96 1 58
9480
94 90 99
9540
99 40 94
9610
Aldebaran
E.
57 33 15
9398
55 45 91
9988
53 57 50
9966
59 10 44
9979
Saturn
£.
79 59 59
9169
71 10 96
9174
69 91 90
9186
67 39 34
9901
Pollux
E.
101 5 8
9180
99 15 95
9109
97 96 0
9176
95 36 55
9180
10
Sun
W.
63 9 44
9806
64 48 46
9610
66 97 97
9096
68 5 47
9041
Jupiter
W.
44 57 41
9880
46 49 44
9864
48 97 96
9806
50 11 47
9888
Aldebaran
E.
43 91 56
9871
41 37 40
9804
39 53 57
9419
38 10 49
9446
Saturn
E.
58 34 3
9970
56 47 98
9301
55 1 16
9806
53 15 98
9896
PoUux
E.
86 36 38
9980
84 49 38
9978
83 9 59
9966
81 16 42
9808
11
Sun
W-
76 19 7
9799
77 48 18
378B
79 94 8
9764
80 59 36
9770
Jupiter
a Pegasi
Aldebuan
W.
58 48 8
9480
60 30 19
9476
69 19 8
9480
63 53 36
9604
W.
49 43 51
9078
51 14 31
9006
59 45 98
9064
54 16 38
9046
E.
99 45 8
9607
98 6 99
9640
96 98 34
9008
94 51 51
9708
Saturn
E.
44 39 39
9410
49 49 19
9490
41 6 18
9440
39 93 49
9486
Pollux
E.
79 30 49
9880
70 46 46
9806
69 3 3
9410
67 19 43
9496
Regulua
E.
109 6 16
9880
107 99 95
9404
105 38 56
9410
103 55 48
9484
13
Sun
W.
88 51 38
9861
90 95 0
9807
91 58 1
9868
93 30 49
9606
Jupiter
aPegasi
W.
79 15 37
9861
73 54 58
9606
75 33 59
9811
77 19 39
9096
W.
61 54 5
9086
63 95 39
9088
64 57 10
9041
66 98 37
9046
Saturn
E.
30 58 13
9607
99 18 33
9601
97 39 96
9616
96 0 59
9040
Pollux
E.
58 48 94
9909
57 7 13
9616
55 96 99
9681
53 45 59
9646
Regulua
E.
95 95 99
9000
93 44 98
9698
99 3 47
9686
90 93 97
9068
13
Sun
W.
101 9 14
9078
109 40 0
9966
104 10 98
8009
105 40 38
8017
aPegasi
W.
74 4 i7
9870
75 35 0
9066
77 5 32
9908
78 35 54
8001
a Arietia
W.
30 35 46
9894
39 9 43
9819
33 43 46
9617
35 17 52
9816
Pollux
E.
45 98 15
9616
43 49 41
9030
49 11 26
9643
40 33 29
9050
Regulua
E.
89 6 40
9098
80 98 16
9680
78 50 10
9010
77 12 21
9003
14
Sun
W.
113 7 8
8084
114 35 37
8006
116 3 49
8110
117 31 46
8199
34
FEBRUARY, 1856.
XV.
GREENWICH MEAN TIME.
LUNAB DISTANCES.
h
Star's Nama
P.Ii.
P.L.
P.L.
P.L.
and
Noon.
of
nihu
of
Vlh.
of
rxh.
J!L
^1
PodtioiL
DHL
Biff.
IMS:
no.
O 1 u
O 1 H
O 1 u
O f «
14
aPe^i
a Arietis
W.
80 6 6
WIO
81 36 6
8091
83 6 62
8080
84 36 27
8041
W.
36 62 0
S810
38 26 7
9616
40 0 11
9891
41 34 11
9BS6
PoUux
E.
38 56 60
9680
37 18 29
73 67 37
9683
36 41 26
9606
34 4 38
9107
ReguluB
E.
76 34 60
W76
9668
72 20 41
9701
70 44 2
9I1S
16
Sun
W.
118 69 29
tm
120 26 67
8M7
121 64 10
8160
123 21 9
8100
a Arietis
W,
49 22 41
S86B
60 56 0
9819
62 29 11
9866
64 2 13
9673
Aldebaran
W.
19 66 6
S9I3
21 21 0
8164
22 47 62
8196
24 16 31
8006
Pollux
E.
26 4 48
9768
24 29 38
9fm
22 64 43
9799
21 20 3
9804
Reffulus
E.
62 44 44
9771
61 9 38
9783
69 34 46
9708
68 0 9
9804
Mars
E.
116 43 7
9fIS7
114 a 36
9807
112 34 16
98n
111 0 10
9096
Spica
E.
116 46 26
9768
116 11 9
«n4
113 30 7
9784
112 1 18
9704
16
a Arietis
W.
61 46 13
9900
63 17 22
9014
64 49 23
9031
66 21 16
9097
Aldebaran
W.
31 40 33
1099
33 10 19
8016
34 40 12
8011
36 10 11
8000
Satani
W.
16 46 61
9076
17 14 31
80U
18 43 49
8094
20 13 32
8806
Rtigultts
E.
60 10 27
9854
48 37 9
9884
47 4 4
9874
46 31 12
9888
Mars
E.
103 12 42
9679
101 39 47
9880
100 7 2
9868
98 34 28
9807
Spica
E.
102 36 60
9841
104 10 26
98B0
101 3 27
i8ao
99 30 16
9897
17
a Arietis
W.
73 68 28
9883
76 29 29
9067
77 0 23
9978
78 31 9
9080
Aldebaran
W.
43 40 28
9006
46 10 30
8010
46 40 30
8019
48 10 28
9016
Saturn
W.
27 46 24
9861
29 16 0
9681
30 46 37
9961
32 17 13
98B9
ReguluB
E.
37 49 46
9838
36 18 4
9988
34 40 34
984B
33 16 16
9066
Mais
E.
90 64 7
9088
89 22 30
9840
87 61 2
9046
86 19 42
90SS
Spica
E.
91 46 61
9806
90 14 40
9913
88 42 37
9990
87 10 44
90S7
18
a Arietis
W.
86 3 3
8010
87 33 3
8016
89 2 66
9091
90 32 43
wm
Aldebaran
W.
66 39 24
9080
67 9 0
8088
68 38 32
8087
60 7 69
8000
Saturn
W.
39 49 37
9886
41 19 55
9880
42 50 9
8003
44 20 19
8006
Mars
E.
78 46 0
98BS
77 14 26
9968
76 43 58
9808
74 13 37
9888
Spica
E.
79 33 23
9866
78 2 18
9966
76 31 21
9970
76 0 31
9976
19
Aldebaran
W.
67 34 14
8057
69 8 16
8060
70 32 14
9064
72 1 8
8068
Saturn
W.
61 60 1
8094
63 19 44
8088
64 49 22
8038
66 18 67
8006
PoUux
W.
23 22 33
8006
24 52 36
8810
26 22 36
8014
27 69 31
8018
Mars
E.
66 43 22
8039
66 13 37
8096
63 43 57
8080
62 14 22
8n4
Spica
E.
67 28 02
8001
66 67 51
8006
64 27 46
8011
62 67 47
8016
Antares
E.
113 20 66
9886
111 60 41
8009
110 20 31
8007
108 60 27
8019
20
Aldebaran
W.
79 24 33
8084
80 63 2
8067
82 21 27
8090
83 49 49
8008
Saturn
W.
63 46 44
8069
66 14 63
8064
66 43 59
8066
68 13 0
8000
Pollux
W.
36 20 59
8086
36 60 28
8088
38 19 53
8043
39 49 14
8044
Mars
E.
54 47 39
8069
63 18 31
8066
51 49 28
8060
60 20 29
8068
Spica
E.
56 29 12
8086
53 69 44
8089
62 30 20
8043
61 1 1
8047
Antares
E.
101 21 26
8081
99 61 52
8084
98 22 22
8080
96 62 67
8041
21
Aldebaran
W.
91 10 44
8106
92 38 44
8110
94 6 42
8113
96 34 37
8114
Saturn
w.
76 37 18
8074
77 6 69
8076
78 34 38
8078
80 3 14
8000
Pollux
w.
47 16 9
8066
48 44 10
8060
60 13 9
8063
61 42 6
8004
Mars
E.
42 66 27
8076
41 27 48
8079
39 59 13
8083
38 30 41
8068
Spica
E.
43 35 28
8068
42 6 33
8066
40 37 41
8066
39 8 62
8071
Antares
E.
89 26 45
8066
87 57 41
8066
86 28 40
8060
84 69 43
8009
22
Aldebaran
W.
102 53 32
3194
104 21 12
8197
106 48 49
8199
107 16 94
8190
XVI.
FEBRUARY, 1856.
35
"
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
Ster^fNu
M
P.L.
P.L.
P. I.
P.L.
ftnd
PfMltiOIL
Midnight.
of
DIff.
XVh.
of
Diff.
xvmh.
of
Diff.
XXIh.
of
IMC
14
a Pe^fasi
w.
O 1 It
86 4 49
8009
O 1 M
87 33 68
806J
O 1 II
89 2 54
8078
O 1 M
90 31 37
8084
a Ariatis
w.
43 8 6
38S0
44 41 55
9886
46 15 38
9841
47 49 13
9848
PoUux
E.
32 28 8
7119
30 51 53
2789
29 15 55
9744
27 40 13
9760
ReguloB
£.
69 7 39
fn»
67 31 32
9W7
65 55 41
9748
64 20 5
1980
15
Son
W.
124 47 55
8181
126 14 27
8108
127 40 45
8904
129 6 50
8914
a Arietis
W.
56 35 7
38B0
57 7 52
98B7
58 40 28
9004
60 12 65
8001
Akiebanii
W.
25 43 46
8079
27 12 30
8064
28 41 36
8041
30 10 58
8080
Pollux
E.
19 45 40
3816
18 11 33
9898
16 37 42
9841
15. 4 7
9866
ReguloB
E.
56 25 46
381f
54 51 37
9896
53 17 41
9886
51 43 58
i8a
Mars
E.
109 26 16
9888
107 52 35
9846
106 19 6
9864
104 45 48
9868
Spica
E.
110 26 42
9804
108 62 19
9814
107 18 9
9894
105 44 11
8889
16
a Arietb
W.
67 52 59
9888
69 24 35
9019
70 56 1
9840
72 27 18
9084
Aldebaran
W.
37 40 12
8007
39 10 16
8007
40 40 20
8006
42 10 25
ooorr
Saturn
w.
21 43 35
9807
23 13 52
9000
24 44 17
9886
26 14 48
9081
Regulus
E.
43 58 31
9809
42 26 2
9001
40 63 45
9011
39 21 40
9090
MaiB
E.
97 2 5
9004
95 29 51
9019
93 57 47
9019
92 25 52
9097
Spica
E.
97 57 14
9878
96 24 24
9888
94 51 43
9001
93 19 12
9908
17
a Arietis
W.
80 1 47
9088
81 32 17
9009
83 2 40
9008
84 32 55
8004
Aldebaran
W.
49 40 22
8018
51 10 13
8091
52 40 0
8098
54 9 44
8090
Saturn
W.
33 47 48
9086
35 18 20
9987
36 48 49
9980
38 19 15
9008
Regulus
E.
31 44 10
9987
30 13 16
9077
28 42 35
9087
27 12 6
9000
Mara
E.
84 48 30
9000
83 17 26
9066
81 46 30
9071
80 15 41
9077
Spica
E.
85 38 59
9084
84 7 23
9M0
82 35 55
90M
81 4 35
9068
18
a Arietis
W.
92 2 24
8089
93 31 57
8087
95 1 24
8oa
96 30 44
oocr
Aldebaran
W.
61 37 23
8018
63 6 42
8047
64 35 57
8061
66 5 7
8064
Saturn
W.
45 50 24
8000
47 20 26
8014
48 50 22
8017
50 20 14
8091
Man
E.
72 43 22
8008
71 13 13
8008
69 43 10
8013
68 13 13
8018
Spica
E.
73 29 48
9081
71 59 12
9088
70 28 42
9809
68 58 19
9007
19
Aldebaran
W.
73 29 57
8071
74 58 42
80T4
76 27 23
8078
77 56 0
8081
Saturn
W.
57 48 26
8088
59 17 53
8849
60 47 13
8046
62 16 30
8047
Pollux
W.
29 22 21
8099
30 52 6
8090
32 21 47
8038
33 51 25
8031
Mara
E.
60 44 52
8088
59 15 27
8oa
57 46 7
8046
56 16 51
8040
Spiea
E.
61 27 53
8090
59 58 5
8091
58 2B 22
8098
56 58 44
8089
Antareo
E.
107 20 29
8016
105 50 36
80OO
104 20 48
8094
102 51 5
8097
30
Aldebaran
W.
85 18 7
8006
86 46 22
8009
88 14 33
8109
89 42 40
8106
Saturn
W.
69 41 59
8064
71 10 53
8066
72 39 44
8068
78 8 33
8079
Pollux
W.
41 18 32
8017
42 47 46
8060
44 16 57
8063
45 46 4
8066
Mara
E.
48 51 34
8066
47 22 42
8089
45 53 54
8om
44 25 0
8078
Spiea
E.
49 31 46
8060
47 2 35
8064
46 33 29
8067
45 4 27
8000
Antares
E.
95 23 35
8044
93 54 17
8047
92 25 3
8060
90 55 52
8068
21
Aldebaran
W.
97 2 29
8117
98 30 18
8119
99 58 5
3190
101 25 50
8198
Saturn
W.
81 31 48
8089
83 0 20
8084
84 28 49
8085
85 57 17
8687
Pollux
W.
53 10 59
8066
54 39 51
8088
56 8 40
8080
57 37 28
8070
Man
E.
37 2 11
8086
35 33 44
8088
34 5 20
8001
32 36 59
8009
Spica
E.
37 40 7
8078
36 11 25
8076
34 42 45
8918
33 14 10
8081
Antaree
E.
83 30 47
8064
82 1 63
8066
80 33 2
8066
79 4 13
8060
23
Aldebaran
W.
108 43 58
3181
110 11 30
8183
111 39 0
8188
113 6 29
8184
36
FEBRUARY, 1856.
XVIL
GREENWICH MEAN TIME.
LUNAR DISTANCES.
23
Star's Nams
P. L.
P.L.
P.L.
P.L.
and
Noon.
of
mh
of
Vlh.
of
ixi*.
of
Posltkni.
DUL
DUL
DUL
ns.
Saturn
W.
O 1 M
87 25 43
8087
O 1 II
88 54 9
8087
O 1 11
90 22 34
8088
O 1 N
91 50 58
8080
Pollux
W.
59 6 14
8079
60 34 58
8079
62 3 42
8078
63 32 25
80»
ReffuluB
w.
22 44 52
8131
24 12 24
8196
25 40 2
8191
27 7 46
8in
Man
E.
31 8 40
8096
29 40 24
8096
28 12 10
8090
26 43 59
8101
Spica
E.
31 45 38
8068
30 17 8
8086
28 48 40
8087
27 20 15
8000
Antares
£.
77 35 25
8070
76 6 38
8071
74 37 53
8079
73 9 9
8079
33
Saturn
W.
99 12 45
8091
100 41 6
8091
102 9 27
8090
103 37 49
8088
Pollux
W.
70 55 53
8078
72 24 36
8079
73 53 20
8071
75 22 5
8070
ReguluB
W.
34 27 32
8101
35 55 40
8098
37 23 52
8096
38 62 7
8009
Antares
E.
65 45 34
8078
64 16 51
8079
62 48 7
8070
61 19 21
8000
Venus
E.
114 42 7
8A06
113 22 56
8866
112 3 44
8664
110 44 30
8iS8
34
Saturn
W.
111 0 2
80S1
112 28 35
8079
113 57 10
8076
115 25 50
aoTS
Pollux
W.
82 46 18
8060
84 15 17
8097
85 44 19
8064
87 13 25
8061
Regulus
W.
46 14 18
8077
47 42 56
8078
49 11 38
8069
50 40 25
8066
Antares
E.
53 55 3
8060
52 26 5
8066
50 57 2
8064
49 27 56
8061
a AquilflB
E.
103 6 34
8846
101 54 0
8989
100 41 13
8990
99 28 14
8811
Venus
E.
104 7 47
8640
103 48 17
8646
101 28 43
8649
100 9 5
8087
dS
Pollux
W.
94 40 8
8098
96 9 46
8099
97 39 31
8017
99 9 23
8011
Regulus
W.
58 5 45
8040
59 35 8
8084
61 4 38
8098
62 34 16
8099
Antares
E.
42 1 12
8098
40 31 34
8098
39 1 50
8018
37 32 0
8011
a AquilflB
E.
93 20 53
8866
92 6 59
8868
90 52 57
8868
89 38 49
8840
Venus
E.
93 29 38
8619
92 9 27
8605
90 49 8
8499
89 28 43
8498
Sun
E.
130 11 33
8496
128 49 46
8419
127 27 51
8419
126 5 48
8408
26
Regulus
W.
70 4 34
9986
71 35 6
9676
73 5 49
9907
74 36 43
9998
Mars
W.
16 46 38
8016
18 16 32
9998
19 46 47
9983
21 17 21
9868
Spica
W.
16 4 45
8017
17 34 37
8009
19 4 47
9988
20 35 15
9976
Antares
E.
30 0 43
9077
28 30 1
9968
26 59 8
9960
25 28 5
9961
Venus
E.
82 44 33
8469
81 23 15
8449
80 1 46
8483
78 40 7
8498
a AquilflB
E.
83 26 49
8897
82 15 15
8894
80 57 38
8898
79 43 0
8899
Son
E.
119 13 23
8864
117 50 25
8868
116 27 15
8844
115 3 54
8889
37
Regulus
W.
82 14 18
9906
83 46 30
9894
85 18 57
9883
86 51 38
9870
Mars
W.
28 54 35
9900
30 26 54
9887
31 59 30
9878
33 32 23
9868
Spica
Venus
W.
28 U 36
9911
29 43 41
9890
31 16 1
9886
32 48 38
9878
E.
71 48 53
8867
70 25 59
8864
69 2 50
S849
67 39 27
8898
a Aquile
E.
73 29 55
8869
72 15 26
8888
71 1 3
8844
69 46 46
8889
Sun
E.
108 4 0
8976
106 39 20
8968
105 14 25
8949
103 49 14
8980
38
Regulus
E.
94 39 10
9604
96 13 33
9790
97 48 14
9776
99 23 14
9780
Mars
W.
41 21 28
9786
42 56 15
9770
44 31 22
9764
46 6 50
9788
Spica
Venus
W
40 36 8
9804
42 10 32
9788
43 45 16
9779
45 20 21
9768
E.
60 38 33
8k7
69 13 31
8949
57 48 12
8996
56 22 34
8910
a AquilflB
E.
63 37 50
8916
62 24 45
8983
61 11 68
8064
50 59 33
8978
Sun
E.
96 39 15
8168
95 12 22
8148
93 45 10
8181
92 17 38
81U
29
Regulus
W.
107 23 22
90B1
109 0 28
9664
110 37 56
96€7
112 15 47
9880
Mars
W.
54 9 35
9666
55 47 16
9688
57 25 21
9690
59 3 50
9601
Spica
W.
53 20 56
9676
54 58 9
9668
56 35 45
9641
58 13 44
9S»
Venus
E.
49 9 33
8197
47 41 56
8110
46 13 58
8099
44 45 39
8074
a Aquil«
R.
54 4 34
4166
52 55 25
4904
51 47 3
4961
50 39 34
4899
Sun
E.
84 54 52
8098
83 25 14
8009
81 55 13
9991
80 24 49
9871
XVIII.
FEBRUARY, 1856.
37
GREENWICH MEAN TIME.
LUNAR DISTANCES.
23
8«ar*f Nai
Dt
P.L.
P.L.
P.L.
P.L.
and
Midnight.
or
XVh-
of
iviiiii.
or
XXIb.
or
Poiltioa
DUL
DIff.
DUL
DUL
Satura
w.
93 19 2*1
8090
O 1 M
94 47 43
8001
O 1 II
96 16 4
8001
O 1 «
97 44 24
8001
Pollux
w.
65 I 7
ao7s
66 29 49
8074
67 58 30
8074
69 27 11
8078
Regains
w.
28 35 35
SI 14
30 3 28
8110
31 31 26
8107
32 59 27
8104
Mare
E.
25 15 51
SIM
23 47 46
8106
22 19 46
8111
20 51 50
8114
Spies
E.
25 51 53
son
24 23 34
8006
22 55 19
8006
21 27 7
8101
Antares
E.
71 40 25
SOTS
70 11 42
8078
68 42 59
SOTS
67 14 17
SOIS
83
Saturn
W.
105 6 13
S088
106 34 37
8006
106 3 4
8065
109 31 32
8068
Pollux
W.
76 50 51
soos
78 19 39
8067
79 48 29
8005
81 17 22
8009
Regultts
W.
40 20 26
sooo
41 48 48
8067
43 17 14
8068
44 45 44
8000
Antares
E.
59 50 34
S068
58 21 45
8006
56 52 53
8064
55 23 59
8009
VenuB
E.
109 25 15
SMO
108 5 57
8flff7
106 46 36
8555
105 27 13
8559
24
Saturn
W.
116 54 32
SOTl
118 23 17
8067
119 52 7
8064
121 21 1
8080
Pollux
W.
88 42 35
S047
90 11 50
SOIS
91 41 10
8086
93 10 36
8088
Regulus
W.
52 9 17
SOOO
53 38 15
8006
55 7 19
8051
56 36 29
8046
AntaroB
E.
47 58 45
S0I7
. 46 29 30
8049
45 0 9
8086
43 30 43
8084
a Aquile
£.
98 15 5
SOOl
97 1 46
8601
95 48 17
8889
94 34 39
8874
Venus
E.
98 49 22
soss
97 29 34
saao
96 9 41
8094
94 49 43
8517
25
Pollux
W.
100 39 22
SOOO
102 9 29
9007
103 39 45
9001
105 10 9
9889
Regulna
W.
64 4 2
soie
65 33 55
8000
67 3 58
SOOO
68 34 11
9999
Antares
E.
36 2 1
SOOO
84 31 54
9008
33 1 39
9809
31 31 16
9964
a Aquilo
E.
88 24 34
SS41
87 10 14
8086
85 56 49
8689
84 41 20
8830
Venus
E.
88 8 11
S405
86 47 30
8476
85 26 39
8470
84 5 41
8001
Sun
E.
124 43 38
ssoe
123 21 19
8860
121 58 50
8860
120 36 11
8879
26
Regains
W.
78 7 49
9MB
77 30 7
9086
79 10 38
9036
80 42 21
9017
Mare
W.
22 48 13
9S0A
24 19 22
9041
25 50 49
9097
27 22 33
9018
Spica
W.
22 5 59
9009
23 36 59
9060
25 8 15
9086
26 39 48
9034
Antares
E.
23 56 51
9Ma
22 25 26
988S
20 53 49
9094
19 22 0
9918
Venus
E.
77 18 17
S419
75 56 16
8401
74 34 1
8801
73 11 34
8879
a Aquils
E.
78 28 21
8698
77 13 43
8893
75 59 5
8835
74 44 29
8838
Sun
E.
113 40 21
SS93
112 16 36
8811
110 52 37
8800
109 28 25
8966
27
Regulus
W.
88 24 35
9856
89 57 48
964S
91 31 18
9681
93 5 5
9616
Mare
W.
35 5 35
9B4S
36 39 5
9B80
38 12 54
9616
39 47 1
9801
Spica
Venus
W.
34 21 32
9600
35 54 44
9645
37 28 14
9631
39 2 2
9618
E.
66 15 49
8814
64 51 54
SSOI
63 27 44
8967
62 3 17
8379
a Aquils
E.
68 33 37
8800
67 18 37
8671
66 4 48
8664
64 51 12
8606
Sun
E.
102 23 47
8938
100 58 4
890O
99 32 5
8194
98 5 49
8178
28
Regulus
W.
100 58 34
9745
102 34 14
9799
104 10 15
9718
105 47 38
9607
Mare
W.
47 42 39
9799
49 18 49
9705
50 55 22
9060
52 32 17
9679
Spica
Venus
W.
46 55 46
9741
48 31 31
9795
50 7 38
9700
51 44 6
9603
E.
54 66 37
8104
53 30 21
8178
52 3 46
8161
50 36 50
8148
a Aquils
E.
58 47 32
4000
57 35 59
40S0
56 24 55
4079
55 14 26
4110
Sun
E.
90 49 47
8008
89 21 35
8061
87 53 2
8664
86 24 8
8046
29
Regulus
W.
113 54 1
9618
115 32 38
9006
117 11 39
9078
118 51 4
9500
Mare
w.
60 42 44
9068
62 22 3
9064
64 1 47
9545
65 41 57
9537
Spica
Venus
w.
59 52 8
9000
61 30 56
9066
63 10 8
9560
64 49 45
9551
E.
43 16 58
8097
41 47 56
S040
40 18 33
809^2
38 48 48
8065
a Aquils
E.
49 53 2
4804
48 27 35
4474
47 23 20
4569
46 20 22
4606
Sun
E.
78 54 1
9994
77 22 50
9BS4
75 51 14
9014
74 19 13
9604
38
MARCH, 1856.
AT GREENWICH APPAEENT NOON.
i
Sat
Sun.
Mod.
Tues.
Wed.
Thur.
Fri.
Sat
Sun.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat
Sun.
Mod.,
Tues.
Wed.
Thur.
Fri.
Sat
Sun.
Mod.
Tues.
Wed.
Thur.
Fri.
Sat
Sun.
Mon.
Tues.
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
THE surra
Bight
h. m. f.
22 50 25.89
22 54 10.06
22 57 53.77
23 1 37.01
23 5 19.81
23 9 2.20
23 12 44.17
23 16 25.77
23 20 6.98
23 23 47.84
23 27 28.;
23 31 8.54
23 34 48.42
23 38 28.05
23 42 7.39
23 45 46.49
23 49 25.36
23 53 4.05
23 56 42.56
0 0 20.94
0 3 59.16
0 7 37.28
0 11 15.35
0 14 53.34
0 18 31.30
0 22 9.27
0 25 47.24
29 25.27
33 3.32
36 41.46
40 19.71
0 43 58.05
TMLtn
Ihoar.
9.852
9.832
9.812
9.294
9,277
9.259
9.248
9.227
9.211
9.197
9.183
9.170
9.157
9.146
9.186
9.126
9.117
9.109
9.108
9.098
9.092
9.068
9.086
9.084
9.084
9.064
9.086
9.087
9.090
9.094
9.097
9.102
Appanni
S. 7 23 2§.5
7 0 35.5
6 37 35.4
6 14 29.6
5 51 18.6
5 28 2.9
5 4 42.7
4 41 18.5
4 17 50.8
3 54 19.9
3 30 46.3
3 7 10.5
2 48 33.5
2 19 53.0
1 56 12.4
1 32 30.8
1 8 48.7
0 45 6.7
S. 0 21 24.8
N. 0 2 16.5
0 25 57.0
0 49 36.3
1 13 13.9
1 36 49.7
2 0 23.2
2 23 54.3
2 47 22.4
3 10 47.4
3 34 8.8
3 57 26.3
4 20 39.7
N. 4 43 48.3
DULfbr
1 hoar.
67.12
67.38
67.64
57.85
58.06
58.25
58.44
58.59
58.74
58.84
58.95
59.04
59.18
59.17
59.24
59.27
59.26
59.25
59.21
59.17
59.11
59.05
58.96
58.86
58.74
58.61
58.47
58.82
58.15
57.97
57.77
dkmeCer.
6 10.22
6 9.97
6 9.71
6 9.45
6 9.19
6 8.93
6 8.67
6 8.41
6 .8.16
7.90
7.64
7.38
6 7.11
6 6.84
6 6.58
6 6.31
6 6.05
6 5.78
6 5.52
6 5.25
6 4.98
6 4.70
4.42
6 4.14
3.85
3.57
6 3.29
3.00
2.71
2.43
2.15
16 1.87
Sidenal
Tfane
of the
•meter
pMihig
the
M«rld-
65.39
65.32
65.25
65.18
65.12
65.06
65.00
64.94
64.89
64.85
64.80
64.76
64.71
64.67
64.64
64.60
64.57
64.54
64.52
64.50
64.48
64.47
64.45
64.47
64.47
64.47
64.47
64.46
64.46
64.47
64.48
64.50
XqOBtlOllOlf
Thne,
tobt
addtdto
Apparent
Tmu.
12 30.23
12 17.87
12 5.07
11.51.80
11 38.08
11 23.96
11 9.42
10 54.49
10 39.19
10 23.53
10 7.54
9 51.21
9 34.59
9 17.71
9 0.54
8 43.13
8 25.51
8 7.70
7 49.72
7 31.57
7 13.28
6 54.90
6 36.45
6 17.95
5 59.41
5 40.88
5 22.34
6 3.87
4 45.42
4 27.05
4 8.79
3 50.63 0.754
for
0.606
0.525
0.545
0.568
0.580
0.597
0.614
0.680
0.645
0.660
0.678
0.686
0.699
0.710
0.721
0.780
0.789
0.747
0.758
0.759
0.764
0.769
0.770
0.770
0.771
0.771
0.770
0.769
0.767
0.768
0.759
Non.— Jtffoii ThiM of the BemkUamater paning maj be flnmd by tubtiactlng Os.18 ftom the Sidereal Time.
II.
MARCH, 1856.
39
AT GREENWICH MEAN
NOON.
THE SUN^S
t
1
1
1
Eqoftttonof
tob0
Mean
Tinu.
DUL
for
Ihour.
Bktoraa
TtaM.
Appartni
DULte
Ibour.
Appartnt
IMff.for
1 hour.
Sat.
Sim.
Mon.
1
2
8
22 50 28.95
22 54 8.15
22 57 51.90
f.
9.S62
t.882
9.S12
S. 7 28 41.4
7 00 47.2
6 87 46.9
57.12
67.88
67jf4
12 ai).84
12 17.98
12 5.18
B.
0JM)5
0JS25
0JS45
22 87 53.61
22 41 50.17
22 45 46.72
Tues.
Wed.
Tliur.
4
5
6
28 1 85.18
28 5 18.02
28 9 0.45
9.394
9.2r7
9.2S9
6 14 40.9
5 51 29.8
5 28 18.9
57.85
584)6
58.25
11 51.91
11 88.19
11 24.07
0.563
0.580
0.697
22 49 43i27
22 58 39.83
2g,57 36.38
Fri.
Sat
Sm.
7
8
9
28 12 42.46
28 16 24.10
28 20 5.85
9.248
9.227
9.211
5 4 53.5
4 41 29.1
4 18 1.2
58.44
58.59
58.74
11 9.58
10 54.61
10 89.81
0.614
0.680
0.645
23 1 32.98
28 5 29.49
28 9 26.04
Mod.
Tuea.
Wed.
10
11
12
28 28 46J25
28 27 26.81
28 81 7.04
9.197
9.188
9.170
8 54 80.1
8 80 56.8
3 7 20.2
58.84
58.95
59.04
10 28.65
10 7.66
9 51.88
0.660
0.678
0.686
23 13 22.60
28 17 19.15
28 21 15.71
Thur.
FrL
Sat.
13
14
15
28 84 46.96
28 88 26.68
28 42 6.02
9.157
9.146
9.186
2 48 42.0
2 20 2.2
1 56 21.3
59.13
59.17
59.22
9 84.70
9 17.82
9 0.65
0.699
0.710
0.721
23 25 12J26
23 29 8.81
23 88 5.87
Sm.
Mon.
Tues.
16
17
18
28 45 45.16
28 49 24.08
28 58 2.82
9.126
9.117
9.109
1 32 89.5
1 8 57.1
0 45 14.8
59.24
59.27
59.26
8 43.24
8 25.61
8 7.80
0.780
0.789
0.747
23 87 1.92
28 40 58.47
23 44 55.02
Wed.
Thur.
Fri.
19
20
21
28 56 41.87
0 0 19.80
0 8 58.06
9.108
9.098
9.092
S. 0 21 32.6
N. 0 2 9.0
0 25 49.8
69.25
59.21
69.17
7 49.79
7 81.67
7 18.87
0.763
0.769
0.764
23 48 51.58
23 52 48.18
23 56 44.69
Sat
Sm.
Moo.
22
23
24
0 7 86.28
0 11 14.34
0 14 52.88
9.068
9.066
9.064
0 49 29.4
1 18 7.3
1 86 48.4
59.11
69.96
'6836
6 54.99
6 36.55
6 18.08
0.769
0.770
0.770
0 0 41.24
0 4 87.79
0 8 84.85
Tues.
Wed.
Thur.
25
26
27
0 18 80.39
0 22 8.40
0 25 46.42
9U)64
9.064
9.066
2 0 11J2
2 28 48.6
2 47 17.1
68.86
68.74
58iU
5 59.49
5 40.95
5 22.41
0.771
0.771
0.770
0 12 30.90
0 16 27.45
0 20 24.01
Fri.
Sat.
Sun.
Mon.
28
29
80
81
0 29 24.49
0 38 2.59
0 86 40.78
0 40 19.07
9.067
9.090
9.094
9.097
3 10 42.4
3 84 4.1
3 57 21.9
4 20 85.6
58.47
58.82
58.15
67.97
5 3.93
4 45.48
4 27.11
4 8.85
0.769
0.767
0.768
0.759
0 24 20.56
0 28 17.11
0 32 13.67
0 36 10.22
Tues.
82
0 48 57.46
9.102
N. 4 43 44.6
67.77
8 50.68
0.764
0 40 6.78
N<
)Tt.— TbeSemkUuw
star for Blei
tn Nocm naj t» a«amed tti*
nm« u that for
ApparvDt Noon.
40
MARCH, 1856.
III.
AT GREENWICH MEAN NOON.
THE SUN'S
1
1
1
Lofuittim
oTUm
lUdfauYtetor
ofth*
luth.
put. tot
Ihoar.
ItaiiTiflM
of
SidMMlOh.
IVw LOROiTUUB.
INA lb.
1
2
8
S
Ihoor.
I
i'
61
62
63
3il
342
343
h »^.0
8 47.5
8 54.4
km A
8 46.8
8 62.6
1M.40
150.88
150.86
— (J.Tl
0.75
0.76
9.9963170
.9964800
.9965487
47.0
47.8
47.5
h. m. ■.
1 21 52.94
1 17 57.04
1 14 1.12
4
6
6
64
65
66
344
345
346
8 59.6
9 8.0
9 4.4
8 57.7
9 1.0
9 2.8
150.18
160.10
160.02
0.78
0.68
0.61
.9966580
.9967728
.9968879
47.7
47.9
48.0
1 10 5.21
1 6 9.80
1 2 13.40
7
8
9
67
68
69
347
348
349
9 4.1
9 1.9
8 67.6
9 1.9
8 59.6
8 66.1
149.94
149.85
149.76
0.92
0.40
0.27
.9970038
.9971189
.9972847
48.1
48.8
48.4
0 58 17.49
0 54 21.58
0 50 25.67
10
11
12
70
71
72
350
351
352
8 61.3
8 42.7
8 81.8
8 48.7
8 40.0
8 28.9
149.67
149.58
149.49
0.14
—0.02
H-0.10
.9978508
.9974678
.9975841
48.5
48.6
48.8
0 46 29.76
0 42 38.86
0 88 87.95
13
14
15
78
74
75
358
854
855
8 18.8
8 3.6
7 46.0
8 16.8
8 0.5
7 42.8
149.89
149.80
149.21
0.22
0.29
0.85
.9977015
.9978190
.9979874
49.1
49.4
49.7
0 84 42.04
0 80 46.13
0 26 50.28
16
17
18
76
77
78
856
857
858
7 26.1
7 4.0
6 39.6
7 22.8
7 0.6
6 36.1
149.12
149.08
148.94
0.86
0.35
0.31
.9980566
.9981766
.9982975
50.0
50.8
50.7
0 22 54.82
0 18 58.41
0 15 2.50
19
20
21
79
80
81
859
0
1
6 13.0
6 44.2
6 ia2
6 9.4
6 40.5
6 9.4
14S.85
148.76
148.67
0.24
0.15
H^.04
.9984193
.9985420
•9986656
51.1
51.4
51.8
0 11 6.60
0 7 10.69
5 • 1 un
22
23
24
82
83
84
2
3
4
4 40.2
4 6.4
8 28.6
4 36.8
4 1.0
8 24.6
148.59
148.51
1*48.48
—0.10
0.24
0.86
.9987902
.9989158
.9990422
52.1
52.8
52.7
23 55 22.96
23 51 27.05
28 47 31.15
25
26
27
85
86
87
6
6
7
2 49.8
2 9.1
1 26.8
2 45.6
2 4.8
1 22.4
148.85
148.27
148.19
0.49
0.61
0.70
.9991692
.9992968
.9994249
58.0
58.2
58.2
23 48 85.24
28 39 89.83
28 85 48.42
28
29
30
88
69
90
8 0 42.8
8 59 56.9
9 59 9J2
0 88.3
69 52.2
59 4.4
148.12
148.04
147.97
0.78
0.82
0.84
.9995532
.9996815
OOOfiAOfi
58.2
58.2
583
28 81 47.52
23 27 51.61
28 28 55.70
31
82
91
92
10 58 19.8
11 67 28.6
58 14.9
67 23.6
147.90
147.82
0.82
—0.78
9.9999379
0.0000656
58.8
58.2
28 19 59.79
28 16 8.89
Hon.-
— >.ee»Mp<
ad! to <U MM *iDla« of
tlMdftlt.X'
bo tiM iiMM eqofa
mof Jan
uOd.
IV.
MARCH, 165«.
41
GREENWICH
MEAN TIME.
-
THE
MOON'S
1
9
SmiDIlMlIlB.
HORTXOIfTAL PARALLAX.
MIBIDIAN PASSAGB.
«
i
Afll.
Noon.
Midni^t.
Noon.
VULtot
Iboar.
Mkbrfghl.
DULlbr
Ihoor.
DHL for
Ihoor.
1
2
8
16 0.2
16 16.7
1^ &.2
16 8.1
16 22.9
57 &.2
68 37.2
69 34.2
+2.86
2.48
2.27
68 8.0
69 6J2
60 0.6
+2.42
1.88
2.10
h m.
20 3.1
21 4.3
22 4.7
m.
2.46
2.44
2.87
d.
24.1
26.1
26.1
4
5
6
16 29.4
16 39.8
16 45.5
16 36.1
16 43.3
16 46.4
60 24.7
61 2.9
61 24.0
1.88
1.2ft
+0.48
60 46.7
61 16.8
61 27.2
1.69
0.88
+0.06
28 2.6
28 67.7
6
2.26
2.16
27.1
28.1
29.1
7
8
9
16 45.9
16 40.8
16 81i2
16 44.0
16 36.6
16 26.0
61 26.8
61 6.8
60 31.2
-0.87
1.16
1.77
61 18.4
60 60.9
60 8.4
-0.77
1.48
2.00
0 50J^
1 41.9
2 38.3
2.06
2.06
2.07
0.7
1.7
2.7
10
11
12
16 18.1
16 3.2
16 47.8
16 10.8
16 66.5
16 40.3
69,43.1
68 48.3
67 61.9
2.17
2.84
2.31
59 16.2
68 20.0
67 24.6
2.28
2.86
2.24
8 25.7
4 19.8
6 l5Jb
2.18
2.20
2.26
8.7
4.7
6.7
IS
14
15
15 33.1
15 20.1
15 9.0
16 26.4
16 14.3
15 4.3
56 68.2
66 10.2
56 29.4
2.18
1.86
1.53
66 38.4
66 49.8
65 12.0
2.00
1.70
1.87
6 12.0
7 8.0
8 1.8
2.26
2.20
2.09
6.7
7.7
8.7
16
17
18
15 0.1
14 63.2
14 48.4
14 66.4
14 60.6
14 46.7
64 56.6
64 31.6
64 13.8
1.21
0.89
0.60
64 43.1
64 21.8
64 7.6
1.06
8.74
0.46
8 62.6
9 39.7
10 23.6
1.96
1.82
1.70
9.7
10.7
11.7
19
20
21
14 45.4
14 44.1
14 443
14 44.6
14 44.0
14 45.0
64 2.8
63 68.0
63 68.8
0.83
-0.08
+0.14
63 69.7
63 67.7
64 1.2
-0.20
+0.08
0.26
11 6.0
11 44.7
12 23.6
1.62
1.57
1.66
12.7
13.7
14.7
22
23
24
14 46.0
14 49.0
14 63.6
14 47.3
14 61.1
14 66.6
64 4.8
64 16.0
64 32.8
0.86
0.58
0.82
64 9.7
64 28.7
64 48.3
0.47
0.70
0.93
13 2.7
13 43.1
14 26.8
1.69
1.66
1.77
16.7
16.7
17.7
25
26
27
14 59.7
15 7.4
15 16.9
15 3.3
16 11.9
16 22.3
64 66.2
65 23.6
65 68.6
1.05
1.82
1.69
65 8.6
66 40.2
66 18.3
1.18
1.46
1.72
16 11.7
16 1.4
16 65.2
1.91
2.07
2.22
18.7
19.7
20.7
28
29
30
31
15 28.1
16 41.0
15 64.9
16 9.1
16 34.4
16 47.9
16 2.0
16 16.0
66 89.7
67 26.8
68 17.9
69 10.1
1.86
2.06
2.17
2.18
57 2.6
67 62.0
68 44.1
69 35.2
1.96
2.18
2.17
2.04
n 62.2
18 61.0
19 49.7
20 46.8
2.32
2.36
2.82
2.24
21.7
22.7
23.7
24.7
32
16 22.6
16 28.4
69 69.0
+1.90
60 20.8
+1.70
21 41.7
2.16
26.7
1
42
MARCH, 1856.
T.
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hoar.
Right iMMUiOII.
DUt
forlm.
DUL
forlm.
Hour.
B^htAMMMlOD.
DUL
forlm.
ns.
forlm.
SATURDAY 1.
MONDAY 3.
h. m. s.
■.
O 1 »
M
h. m. ■.
■.
O f J»
«
0
17 53 60.75
ojm
S.38 3 15.4
1.784
0
19 57 13.63
3UI086
S.85 59 34.5
7J006
1
17 55 33.39
XBasa
38 4 57.3
1.619
1
19 59 48.80
3.8090
35 53 15.4
ijm
9
17 57 54.13
S.68g8
38 6 38.7
1.486
3
30 3 34.86
9.8000
35 44 55.3
7.490
3
18 0 36.83
xaten
38 7 49.8
1.986
3
30 5 0.80
3.6060
35 37 34.3
7.806
4
18 3 58.63
S.M39
38 9 0.5
1.001
4
30 7 36.61
3.6066
35 39 48.3
7.701
6
18 5 31.30
9MIB6
38 10 0.7
0.917
5
30 10 13.30
3.6686
35 31 49.4
7J78
6
18 8 4.33
3.6000
38 10 50.5
0.749
6
30 13 47.86
3.6916
35 13 45.5
6.168
7
18 10 37.40
9.6660
38 11 39.7
0.664
7
30 15 33.37
3.6686
35 5 30.8
6.884
8
18 13 10.83
3.6600
38 11 58.3
0.868
8
30 17 58.58
3.6661
34 57 5.4
6.819
9
18 15 44.48
3.6060
38 13 16.0
0.907
9
30 30 33.61
3.6686
24 48 39.3
6.801
10
18 18 18.37
3.6697
38 13 33.1
4.0.098
10
30 33 8.54
3.6606
34 39 43.5
6.886
11
18 30 53.48
9jnm
38 13 19.4
0.169
11
30 35 43.30
3.6778
34 30 45.1
0.044
13
18 33 36.81
3.6780
38 13 4.9
0.388
18
30 38 17.88
3.6746
34 81 37.3
0.910
13
18 36 1.35
3.6778
38 11 39.5
0.614
13
30 30 53.38
9.6718
34 13 18.8
0.884
14
18 38 36.08
3.6606
38 11 3.3
0.807
14
30 33 36.49
9.6866
34 3 49.9
0.607
15
18 31 11.00
3.6887
38 10 15.9
0.679
15
30 36 0.50
9.6868
33 53 10.7
0.780
16
18 33 46.11
3.6087
38 9 17.7
ijm
16
30 38 34.33
9-6820
33 43 31.3
0.910
17
18 36 31.39
3.6604
38 8 8.4
1.947
17
30 41 7.93
9.6686
33 33 31.5
louno
18
18 38 56.83
3.6090
38 6 48.0
1U39
18
30 43 41.33
9.6660
33 33 11.6
10.940
19
18 41 33.43
3.6046
38 5 16.6
1.617
19
30 46 14 53
9.6618
33 12 51.6
10U18
30
18 44 8.17
3.6088
38 3 34.0
1.808
30
30 48 47.49
9.5477
23 2 21.7
10.689
31
18 46 44.05
3.6001
38 1 40.3
1.069
31
30 51 20.33
3.6486
33 51 41.8
10.747
33
18 49 30.06
3.8019
37 59 35.3
3.176
23
20 53 53 75
3.6400
33 40 53.0
10.911
33
18 51 56.19
SU
3.8083
rNDA^
S.37 57 19.2
' 2.
3.889
33
30 56 85.03
TU
3.6889
ESDA^
S.38 39 53.5
Y 4.
114ns
0
18 54 33.43
3.8060
S.37 54 51.8
3.660
0
30 58 57.08
3.6893
S.38 18 43.4
ujm
1
18 57 8.78
3.8087
37 58 13.3
3.787
1
31 1 38.89
3.6968
33 7 24.6
11.309
3
18 59 45.33
3.8060
37 49 33.3
9.998
3
31 4 0.45
3.6940
21 55 56.3
11.680
3
19 3 31.74
9.8008
37 46 33.1
8.114
3
31 6 31.76
9.6106
21 44 18.6
11.707
4
19 4 58.34
9.8106
37 43 9.6
8.808
4
31 9 3.83
9.6167
21 32 31.5
11.889
6
19 7 35.00
3.8116
37 39 45.8
8.491
5
31 11 33.64
9.6113
21 20 35.2
I9U)16
6
19 10 11.73
3.8196
37 36 10.7
8.860
6
31 14 4.19
9.8070
21 8 29.7
19.187
7
19 13 48.49
3.8189
37 38 34.3
8.660
7
31 16 34.48
9.8037
20 56 15.1
19.3n
8
19 15 35.30
3.8186
37 38 36.4
4.066
8
31 19 4.51
9.4086
20 43 51.6
19.486
9
19 18 3.14
3.8148
37 34 17.3
4.946
9
31 31 34.39
9.4049
20 31 19.3
19.819
10
19 30 39.01
3.8146
37 19 56.8
4.488
10
31 34 3.80
3.4807
20 18 38.1
19.768
11
19 33 15.89
3.8147
37 15 35.0
4.896
11
31 36 33.04
3.4869
20 5 48.3
13.909
13
19 35 53.77
3.8147
37 10 41.8
4.614
13
31 29 3.01
9.4607
19 52 49.9
18.044
13
19 38 39.65
3.8147
87 5 47.3
6.008
13
31 31 30.71
9.4709
19 39 43.0
18.164
14
19 31 6.53
3.8144
37 0 41.5
6.101
14
31 33 59.14
9.4717
19 26 27.8
13.898
15
19 33 43.37
3 8140
36 55 34.4
6.879
15
81 36 37.31
9.4879
19 13 4.3
18.480
16
19 36 30.19
3.8188
36 49 56.0
6.686
16
31 38 55 30
9.4636
18 59 32.6
13.608
17
19 38 56.96
3.8196
86 44 16.3
6.768
17
31 41 33.81
3.4660
18 45 52.9
13.796
18
19 41 33.69
3.8117
36 38 35.3
6.ta
18
31 43 50.15
3.4688
18 32 5.2
18.880
19
19 44 10.36
3.8107
26 33 33.1
6.180
19
31 46 17.31
3U466
18 18 9.7
13.060
30
19 46 46.97
3.8008
36 36 9.7
8.817
30
31 48 44.00
3.4449
18 4 6.5
14.117
31
19 49 33.51
3.8068
36 19 45.1
6.608
31
31 51 10.51
3.4307
17 49 55.7
U.3tt
33
19 51 59.97
3.8070
36 13 9.3
8.889
33
31 53 36.75
3.4860
17 35 37.3
14.867
33
19 54 36.34
3.8066
36 6 33.4
8.678
33
31 56 3.71
3.4804
17 21 11.6
14480
34
19 57 13.63
3.8086
S.35 59 34.5
14m
34
31 58 38.39
3.4960
S.17 6 38.6
14.800
VI-
MARCH, 1856.
43
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
0
1
9
3
4
5
6
7
8
9
10
11
13
13
14
15
16
17
18
10
90
SI
29
93
0
1
9
3
4
5
6
7
8
0
10
11
19
13
14
15
16
17
18
19
20
91
22
23
94
Bight
DUL
forlm.
DIff.
ftxrlm.
WEDNESDAY 5.
h.
21
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
99
92
92
92
22
22
22
22
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
93
m. s.
s.
58 28.39
S.430O
0 53 80
S.49I9
3 18.93
MIM
5 43.79
3.4190
8 8.38
9.4075
10 32.70
9.4080
12 56.74
94986
15 20.51
94M0
17 44.02
9J8B7
20 7.27
946ft3
22 30.25
94608
24 52.97
94766
27 15.43
94799
29 37.63
94979
31 59.58
9406
34 21.27
94103
36 42.71
94663
39 3.90
94619
41 24.84
94«70
43 45.54
94490
46 6.00
94900
48 26.22
94SfiO
50 46.21
94819
53 5.97
94974
.17 6 38.6
16 51 58.5
16 37 11.4
16 22 17.2
16 7 16.2
15 52 8.6
15 36 54.5
15 21 33.9
15 6 7.0
14 50 33.9
14 34 54.6
14 19 9.5
14 3 18.6
13 47 22.0
13 31 19.8
13 15 12.1
12 58 59.1
12 42 40.9
12 26 17.6
12 9 49.3
11 53 16.3
11 36 38.6
11 19 56.3
.11 3 9.6
14.797
14.&I4
14.900
16.079
16.181
16.980
16400
16.603
16.703
16400
16.083
16.173
16.900
16446
16.430
16411
16.667
16.749
16414
THURSDAY 6.
S.lO
10
10
9
9
9
9
8
8
8
7
7
7
7
6
6
6
5
5
5
4
4
4
4
S. 3
55 25.50
949n
57 44.81
94900
0 3.90
94169
2 22.76
94196
4 41.41
94000
6 59.85
94066
9 18.09
9-8091
11 36.12
9.9988
13 53.96
9.9066
16 11.60
9.9094
18 29.05
94809
20 46.31
9.9861
23 3.39
9.9839
25 20.29
9.9809
27 37.02
9.9778
29 53.57
9.9746
32 9.96
9.9718
34 26.19
9.9609
36 42.26
9.9666
38 58.17
94640
41 13.94
9.9616
43 29.57
94609
45 45.05
94069
48 0.40
94648
50 15.63
9.9637
46 18.6
M466
0
29 23.4
16468
1
12 24.2
174)90
2
55 21.0
17486
3
38 14.0
17.M7
4
21 3.4
n.906
5
3 49.3
17.963
6
46 31.8
17418
7
29 11.1
n479
8
11 47.1
n.436
9
54 20.1
17.478
10
36 50.3
17.690
11
19 17.7
17466
12
1 42.5
17407
13
44 4.9
17.648
14
26 24.8
17487
15
8 42.5
17.799
16
50 58.2
17.766
17
33 11.9
17.787
18
15 23.7
17417
19
57 33.9
17443
20
39 42.5
17460
21
21 49.6
17403
22
3 55.4
17418
23
46 0.0
17489
24
Hoar.
BJ^t
DUL
forlm.
DUL
fbrlm.
FRroAY 7.
h. m.
23 50
23 52
23 54
23 57
23 59
0 1
0 3
0 21
0 23
0 26
0 28
0 30
32
34
37
39
41
f.
■.
15.63
94697
30.73
94607
45.71
9.9486
0.56
94466
15.30
94448
29.94
94489
44.48
9.9416
58.92
94308
13.27
94383
27.53
9.9370
41.71
9.9367
55.81
94343
9.83
9.9330
23.78
9.9390
37.67
9.9310
51.51
9.9809
5.29
9.9909
19.03
9.9983
32.70
9.99n
46.34
9.9970
59 95
9.9966
13.53
9.9900
27.08
9.9967
40.61
34964
s.
N.
30
1 32
1 35
1 37
54.13
94909
7.63
94960
21.13
94948
34.62
94948
48.11
94960
1.61
9.9969
15.13
34964
28.66
34367
42.21
9.9900
55.78
9.9963
9.38
9.1968
23.01
9.9376
36.08
9.9989
50.39
9.9988
4.15
94997
17.96
9.9807
31.83
9.9317
45.76
94397
59.75
9.9387
13.81
9.9348
27.94
9.9860
42.14
3.3873
56.42
9.3887
10.78
9.9400
25.23
94416
N.
3 46
3 28
3 10
2 52
2 34
2 16
1 58
1 40
1 22
1 4
0 46
0 28
10
7
25
43
1
19
37
1 55
2 13
2 31
2 49
3 6
H
0.0
3.5
6.2
8.0
9.1
9.6
9.7
9.5
9.1
8.7
8.4
8.2
8.3
51.2
50.0
48.1
45.4
41.8
37.1
31.2
24.1
15.6
5.6
53.8
SATURDAY 8.
N.
3 24 40.3
3 42 25.0
0 7.6
17 48.1
35 26.4
53 2.3
10 35.8
28 6.7
5 45 34.9
6 3 0.3
20 22.8
37 42.2
54 58.4
12 11.4
29 21.0
46 27.2
3 29.9
8 20 28.8
8 37 24.0
8 54 15.3
9 11 2.6
9 27 45.8
9 44 24.8
10 0 59.5
10 17 29.8
17489
17418
17409
17476
17487
17.006
18401
18407
18.006
18.001
17406
17486
17474
17462
17447
17.031
17413
17409
17470
17446
17418
17.780
n.760
17.797
17.609
17467
17.618
17.flr78
17487
n408
17.447
17480
17440
17.997
17.9tt
17.188
17.139
n474
17418
16481
16488
16.764
16466
16414
16467
44
MARCH^ 1856.
VII.
GREENWICH MEAN TIME.
THK MOONS RIGHT ASCENSION AND DECLINATION.
Hoar.
Right Aaomini.
DHL
forlm.
. —
DUL
fbrlm.
Hoar.
«.— ^
DUL
«DrlBi.
. —
no:
Ibrlm.
SUNDAY 9.
TUEffl>AY 11.
b. m. ■.
■.
O 1 »
»
h. B. f.
f.
o 1 ri
n
6
1 37 35.83
93i]ft
N.IO 17 99.8
16307
0
3 97 34.71
9366B
NJSl 33 14.6
n.iff7
1
1 39 39.77
S3iao
10 33 55.6
16301
1
3 90 56 39
93616
81 44 80.5
114D7
9
1 41 54.40
S3M7
10 50 16.7
16313
9
3 33 18.00
93649
81 55 17.9
10307
3
1 44 9.13
%atM
11 6 33.9
16306
3
3 34 40.03
93690
88 6 6.9
10.T46
4
1 46 33.95
13460
11 99 44.9
16.163
4
3 37 2.13
9.8607
83 16 47.3
10309
5
1 48 38.88
9MQ&
11 38 51.6
16370
5
3 39 34.39
93790
88 37 19.1
10367
6
1 50 53.93
tMll
11 54 53.3
16387
6
3 41 46.80
93740
88 37 48.3
10319
7
1 53 9.08
9jmm
19 10 50.0
16301
7
3 44 9.38
93T76
83 47 56.0
10.167
8
1 55 34.35
9.MM
13 36 41.4
16313
8
3 46 33.11
93601
83 58 8.3
10300
9
1 57 39.73
%wn
13 43 37.5
16.793
9
3 48 54.98
93896
33 7 59.0
0379
la
1 59 55.33
%Mm
13 58 8.3
16393
10
3 51 18.01
93060
33 17 46.9
9.790
u
3 3 10.85
%Mlt
13 13 43.4
16341
11
3 53 41.18
93674
83 87 35.8
93M
IS
3 4 36.60
S.98M
13 39 13.1
16341
19
3 56 4.50
93800
33 36 55.8
0396
13
3 6 43.48
sam
13 44 37.1
16363
13
3 58 37.96
93099
83 46 16.8
0.994
14
3 8 58.49
%m9
13 59 55.3
16.966
14
4 0 51.56
93946
83 55 88.7
0.190
15
S 11 14.63
93709
14 15 7.7
16.167
15
4 3 15.31
93960
34 4 31.5
8371
16
S 13 30.91
%tm
14 30 14.3
16306
16
4 5 39.19
93001
84 13 35.3
8316
17
3 15 47.33
93740
14 45 14.6
14366
17
4 8 3.30
93013
34 83 9.7
aooc
18
3 18 3.89
9.«n9
15 0 8.9
14364
18
4 10 37.33
93083
84 30 44.9
8310
19
3 90 30.60
9.9707
15 14 57.1
14.700
19
4 13 51.59
9.4064
34 39 10.9
8366
30
3 33 37.45
9.9031
15 39 38.9
14348
90
4 15 15.97
93074
84 47 87.6
8.900
31
3 34 54.45
9.90M
15 44 14.3
14307
91
4 17 40.48
930O4
84 55 34.9
8344
33
3 37 11.60
93871
15 58 43.3
14390
99
4 30 5.10
93113
85 3 32.9
7388
33
3 99 38.90
MO
93097
NDAY
N.16 13 5.7
10,
14310
93
4 33 39.83
WEDI
93181
^ESD^
N.35 11 81.4
LY 12.
7.W0
0
3 31 46.36
930S9
N.16 97 91.6
14300
0
4 34 54.67
93Y4B
Nj25 19 0.5
ijm
1
3 34 3.97
930«0
16 41 30.8
14306
1
4 87 19.61
93 M6
85 86 30.3
7316
3
3 36 31.74
93076
16 55 33.1
U303
9
4 89 44.65
93183
85 33 50.3
7.966
3
8 38 39.68
93001
17 9 98.6
18367
3
4 33 9.79
93196
35 41 0.9
7307
4
8 40 57.78
93000
17 93 17.9
18.761
4
4 34 35.02
93313
85 48 2.0
0388
6
3 43 16.04
93007
17 36 58.7
1S393
5
4 37 0.33
93335
85 54 53.5
0.779
6
9 45 34.46
93064
17 50 33.0
18318
6
4 39 35.73
93940
86 1 35.3
6317
7
9 47 53.05
93IIS
18 4 0.1
18303
7
4 41 51.31
93969
86 8 7.5
6367
8
9 50 11.80
93100
18 17 30.0
13.973
8
4 44 16.76
93963
86 14 30.1
«3D6
9
9 53 30.79
93im
18 30 39.7
18.160
9
4 46 43.37
93974
86 80 43.0
6.184
10
9 54 49,80
93194
18 43 38.0
13396
10
4 49 8.05
93964
86 86 46.8
6.9T9
11
9 57 9.05
93909
18 56 35.7
1330O
11
4 51 33.78
93908
86 32 39.7
6311
13
9 59 98.47
93910
19 9 35.9
19.773
19
4 53 59.57
93309
26 38 23.5
5M9
13
3 1 48.05
939f7B
19 33 8.5
19346
13
4 56 85.41
93310
26 43 57.6
6.487
14
3 4 7.81
93907
19 34 43.4
133n
14
4 58 51.39
93317
26 49 21.9
6398
15
3 6 97.74
93008
19 47 10.5
13387
15
5 1 17.81
93333
86 54 36.4
6.161
16
3 8 47.84
93061
19 59 39.8
19306
16
5 3 43.16
93337
86 59 41.2
4.908
17
3 11 8.11
93003
30 11 41.9
19.194
17
5 6 9.14
93389
27 4 36.2
4384
18
3 13 98.55
93491
90 93 44.7
11303
18
5 8 35.14
93386
27 9 21.3
4.071
19
30
3 15 49.16
93440
90 35 40.9
11307
10
5 11 1.16
93387
27 13 56.7
4308
3 18 9.94
934T7
90 47 97.5
11.791
90
5 13 87.18
93888
27 18 22.3
4344
31
93
33
34
3 90 30.88
93864
90 59 6.7
11366
91
5 15 53.31
93338
27 22 38.0
4.180
3 93 51.99
93903
91 10 37.7
11347
99
5 18 19.24
93338
27 26 43.9
4317
3 95 13.97
3 97 34.71
93000
93006
91 93 0.3
N.91 33 14.6
11307
11.167
93
94
5 80 45.26
5 83 11.88
93337
93385
27 30 40.0
N57 34 26.3
9308
8.690
vm.
MARCH, 1856.
4fr
GREENWICH MEAN TIME.
•
THE MOOITS BIQHT
ASCENSION AND DECLINATION.
Hoar.
DUL
telm.
. —
telm.
How.
. —
DUL
Ibclm.
—^
DHL
Ibrlm.
THX]
rnsDA
•
T 18.
SATURDAY 15.
h. m. 1.
■.
O 1 H
a
h. m. a.
i.
O 1 «
M
0
5 93 11.38
s.4aa6
NJ87 34 36.3
8400
0
7 17 50M
94067
N57 88 13.9
8.768
1
6 35 37.38
9.4IS1
37 38 3.8
8407
1
7 90 8.69
34040
37 34 33.5
8403
9
5 38 3.35
3.4tl6
37 41 39.5
8468
8
7 93 36.78
94009
87 30 35.8
4461
3
5 30 39.19
S.4B90
37 44 46.3
8.106
3
7 34 44.53
34*16
87 16 19.8
4.106
4
5 33 55.09
3.4813
87 47 53.3
8466
4
7 97 3.06
3.9807
37 13 5.6
4406
5
5 35 30.95
9.4106
97 50 50.5
3478
6
7 39 19.30
34040
87 7 43.3
4441
6
5 37 46 J7
9.490B
87 53 38.0
3.710
6
7 31 36.35
3.9001
87 3 13.7
4476
7
5 40 13.53
a.4988
37 56 15.7
3447
7
7 33 53.91
34769
86 58 34.1
4.700
8
5 43 38.33
%4aem
37 58 43.6
3403
8
7 36 9.97
34r»l
96 53 47.6
4449
9
5 45 3.87
%4aK
38 1 1.7
3.980
9
7 38 95.39
34O0O
36 48 53.1
4474
10
5 47 39.44
S.4964
88 3 10.<>
3407
10
7 40 41.07
34000
86 43 50.7
6.106
n
5 49 54.93
S.4940
38 5 8.6
140T
11
7 43 56.51
3.964B
86 38 40.5
6486
13
5 63 30.33
S.4398
38 6 57.6
1.716
18
7 45 11.65
9.3107
86 33 83.5
6464
13
5 54 45.63
3.4S10
38 8 36.8
1478
13
7 47 86.48
94446
96 87 56.8
6409
14
5 57 10.84
3.4194
88 10 6.3
1.418
14
7 49 40.99
%nu
36 33 33.5
6410
15
5 59 35.96
3.4178
38 11 36.3
1.361
15
7 51 55.19
34840
86 16 43.6
6.746
16
6 3 0.97
9.4106
38 13 36.4
1400
16
7 54 9.07
S4W7
36 10 54.1
6471
17
6 4 35.86
9.4197
88 13 37.0
0480
17
7 56 33.63
34984
36 4 58.1
6406
18
6 6 50.63
9.4m
88 14 38.0
O.TW
18
7 58 35.88
34161
85 58 54.7
6.118
19
6 9 15.86
340M
88 15 9.4
0411
19
8 0 48.80
34196
85 53 43.9
6.340
30
6 11 39.77
3.4078
88 15 41.3
0.460
30
8 3 1.39
3.9079
85 46 35.9
6461
31
6 14 4.14
34000
38 16 3.7
0400
31
8 5 13.66
34018
35 40 0.6
64»
33
6 16 38.37
3.4096
88 16 16.5
0.B6
39
8 7 85.60
3.1008
35 33 88.1
6401
33
6 18 53^5
FB
3.4000
roAY
Nj» 16 19.9
14.
>«
33
8 9 37J»1
SUI
34007
TOAT
NJ25 86 48.5
16.
6.719
0
6 31 16.37
sjns
NjW 16 13.9
o.n8
0
8 11 48 40
3.1009
NjK 90 1.8
6417
1
6 33 40.13
S.8M6
88 15 58.5
0406
1
8 13 59.44
3.1707
95 13 8.1
6469
3
6 36 3.73
3.8018
38 15 ^.7
0409
9
8 16 10.06
3.1748
35 6 7.5
7407
3
6 38 37.15
3.8800
38 14 59.5
0448
3
8 18 30.35
3.1088
84 59 0.0
7.189
4
6 30 50.40
3J6ae
88 14 16.0
0403
4
8 30 30.31
3.M89
84 51 45.7
7406
6
6 33 13.46
94896
38 13 33.3
0467
5
8 33 39.93
3.1676
84 44 34.7
7.607
6
6 35 36.34
34197
38 13 31.3
I.IIO
6
8 34 49.33
3.1690
34 36 56.9
7417
7
6 37 59.03
34708
88 11 10.0
1469
7
8 36 58.17
3.140i
94 99 33.6
7497
8
6 40 31.50
34781
88 9 49.7
1416
8
8 39 6.79
3.1400
34 31 41.7
7.787
9
6 43 43.79
34008
88 8 30.3
1407
9
8 31 15.06
3.1868
34 13 54.3
7446
10
6 45 5.87
34609
38 6 41.6
1.717
10
8 33 33.09
3.1907
84 6 0.3
7469
11
6 47 37.73
34096
38 4 54.0
1480
11
8 35 30.65
9.1969
33 58 0.0
6406
13
6 49 49.37
34667
38 3 57.4
3410
13
8 37 37.93
3.1106
33 49 53.4
8.166
13
6 53 10.78
34648
38 0 51.8
3.107
13
8 39 44.87
3.1199
33 41 40.5
8.906
14
6 54 31.96
34611
37 58 37.4
9414
14
8 41 51.48
9.1074
33 33 31.5
8468
15
6 56 53.91
34479
37 56 14.1
9468
15
8 43 57.76
3.ion
33 34 56.3
8xn
16
6 59 13.63
34489
37 53 41.9
9400
16
8 4A 3.70
94009
33 16 35.0
64V9
17
7 1 34.10
94801
37 51 1.0
9.764
17
8 48 9.31
34007
33 7 47.7
8471
18
7 3 54.33
34800
37 48 11.4
9400
18
8 50 14.59
34869
S3 59 4.5
6.706
10
7 6 14.30
34808
37 45 13.1
8448
19
8 53 19.53
34196
33 50 15.4
6407
30
7 8 34.03
34904
37 43 6.3
8.187
30
8 54 34.14
34749
33 41 30.5
8464
31
7 10 53.47
34390
37 38 50.A
8481
31
8 56 88.43
34607
23 33 19.7
0461
33
7 13 13.66
94176
37 35 36.5
8479
38
8 58 33.38
34689
22 33 13.3
0.166
33
7 15 31.58
34183
37 31 53.9
8418
33
9 0 36.01
84678
23 14 1.1
0448
34
7 17 50.34
94087
N57 38 13.9
8.768
34
9 3 39.31
34633
N.33 4 43.5
0440
46
MARCH, 1856.
IX.
.
GEEENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
How.
Rig^ltAMMOiiOli.
DIff.
fcrlm.
lk>rlm.
Hoar.
Rig^itAaMDilDn.
DUL
forlm.
.^
telm.
MONDAY
17.
WEDNESDAY 19.
h. m. 1.
1.
O 1 H
M
h. m. a.
i.
O 1 K
ff
0
9 2 39.31
9Mn
Njd2 4 43.5
0.840
0
10 35 31.85
1.8843
N.13 8 16.4
13.000
1
9 4 42.28
2MM
21 55 20.3
9.489
I
10 37 21.80
1.8808
12 55 35.8
19.700
2
9 6 44.93
S4MIA
21 45 51.7
0.6S8
2
10 39 11.55
1.8276
12 42 52.4
13.71T
3
9 8 47.26
34M9
21 36 17.6
9.6IS
3
10 41 1.11
1.8348
12 30 6.2
13.790
4
9 10 49.27
9.080B
21 26 38.2
9.701
4
10 42 50.47
13911
12 17 17.3
13.887
6
9 12 50.96
2.035A
21 16 53.5
9.788
5
10 44 39.64
1.6180
12 4 25.8
13.8r79
6
9 14 52.33
94)903
21 7 3.6
9.870
6
10 46 28.63
1.8100
11 51 31.8
13.993
7
9 16 53.38
34)140
20 57 8.5
9.901
7
10 48 17.44
1.8190
11 38 35.2
13.960
8
9 18 54.12
94)097
20 47 8.3
104)46
8
10 50 6.07
1.8000
11 25 36.0
104)07
9
9 20 54.55
94)04A
20 37 3.1
10.198
9
10 51 54.52
1.8061
11 12 34 4
134)46
10
9 22 54.66
LSBM
20 26 52.9
10.911
10
10 53 42.80
1.8089
10 59 30.5
104)64
11
9 24 54.46
1.0049
20 16 37.8
10.908
11
10 55 30.91
1.8006
10 46 24.3
18.138
12
9 26 53.96
1.0801
20 6 17.8
10J7S
12
10 57 18.86
1.7978
10 33 15.7
18.163
13
9 28 53.15
1.0840
19 55 53.0
10.468
13
10 59 6.65
1.7069
10 20 4.9
10.196
14
9 30 52.04
1.0780
19 45 23.5
10.681
14
11 0 54.28
1.7996
10 6 51.9
1S.386
15
9 32 50.62
1.9788
19 34 49.3
104)10
15
11 2 41.76
1.7900
9 53 36.7
IS.^1
16
9 34 48.90
1.0680
19 24 10.3
10.087
16
11 4 29.08
1.7876
9 40 19.4
10.800
17
9 36 46.89
1.0841
19 13 26.8
10.709
17
11 6 16.26
1.7839
9 27 0.1
18.386
18
9 38 44.59
1.0009
19 2 38.9
10.880
18
11 8 3.30
1.7697
9 13 38.8
10.073
19
9 40 41.99
14)6tt
18 51 46.5
10.910
19
11 9 50.19
1.7804
9 0 15.5
18.404
20
9 42 39.10
1.0406
18 40 49.7
10.988
20
11 11 36.95
1.7788
8 40 50 3
10.430
21
9 44 35.93
1.0447
18 29 48.5
114)60
21
11 13 23.59
1.7709
8 33 23.2
10.407
22
9 46 32.47
1.0400
18 18 43.0
11.197
22
11 15 10.09
1.7740
8 19 54.3
18.497
23
9 48 28.73
TUI
1.0)68
2SDA1
N.18 7 33.3
' 18.
11.190
23
11 16 56.47
THU
1.7791
ESDA
N. 8 6 23.6
Y 20.
18.060
0
9 50 24.71
iMn
N.17 66 19.5
11.906
0
11 18 42.74
1.1701
N. 7 52 51.2
10.604
1
9 52 20.41
1.0981
17 45 1.5
11.888
1
11 20 28.88
1.7081
7 39 17.1
18.069
2
9 54 15.84
1.0910
17 33 39.5
11.401
2
11 22 14.91
1.7068
7 25 41.4
10.000
3
9 56 11.00
1.0171
17 22 13.4
11.408
3
11 24 0.84
1.7646
7 12 4.0
U.680
4
9 58 5.89
1.0197
17 10 43.3
114»8
4
11 25 46.66
1.7098
6 58 25.1
18.001
6
10 0 0.52
1.0089
16 59 9.4
11.007
5
11 27 32.38
1.7019
6 44 44.7
10.000
6
10 1 54.88
1*0038
16 47 31.7
11.000
6
11 29 18.00
1.7606
6 31 2.8
18.710
7
10 3 48.98
1.8006
16 35 50.2
11.798
7
11 31 3.52
1.7060
6 17 19.5
18.788
8
10 5 42.83
1.8063
16 24 5.0
11.766
8
11 32 48.96
1.7600
6 3 34.9
10.704
9
10 7 36.42
L8011
10 12 16.0
11.847
9
11 34 34.31
1.7669
5 49 49.0
18.770
10
10 9 29.76
1.8800
16 0 23.4
11.900
10
11 36 19.58
1.7088
5 36 1.8
10.797
11
10 11 22.85
1J8J7
15 48 27.3
11.066
11
11 38 4.77
1.7096
5 22 13.4
19.616
12
10 13 15.69
1.8787
15 36 27.6
194)94
12
11 39 49.88
1.7619
5 8 23 9
18.804
13
10 15 8.29
1.8747
15 24 24.4
134)91
13
11 41 34.92
1.7609
4 54 33.3
10.800
14
10 17 0.65
1.8707
15 12 17.9
13.187
14
11 43 19.90
1.7491
4 40 41.6
10.871
15
10 18 52.78
1.8000
15 0 8.0
13.198
15
11 45 4.81
1.7480
4 26 48.8
10.886
16
10 20 44.68
1.8681
14 47 54.8
19.948
16
11 46 49.66
1.7471
4 12 55.0
13.904
17
10 22 36.35
1.8109
14 35 38.4
19.801
17
11 48 34.46
1.7409
3 59 0.3
10.919
18
10 24 27.78
1.8063
14 23 18.7
19.864
18
11 50 19.20
1.7408
3 45 4.7
10.084
19
10 26 18.09
1.8617
14 10 55.9
19.400
19
11 52 3.90
1.7440
3 31 8.2
19.948
20
10 28 9.99
1.8489
13 58 30.0
13.467
20
11 53 48.55
1.7486
3 17 10.9
10.961
21
10 30 0.77
1.8440
13 46 1.0
19.608
21
11 55 33.16
1.74S9
3 3 12.9
13.973
22
10 31 51.34
1.8411
13 33 29.0
19.668
22
11 57 17.73
1.7490
2 49 14.1
13-960
23
10 33 41.70
1.8876
13 20 54.1
19.006
23
11 59 2.27
1.7439
2 35 14.7
13 906
24
10 35 31.85
1.8849
N.13 8 16.4
19.068
24
12 0 46.79
1.7417
N. 2 21 14.6
14.006
X.
MARCH, 1856.
47
GEEENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hoar.
Rig^itAieeailon.
DUL
forlm.
DUL
forlm.
Hour.
Bight AiCMiakm.
DUt
forlm.
forlm.
FB
JDAY
21.
SUNDAY
23.
h. m. 1.
■.
O 1 0
H
h. m. 1.
■.
O 1 K
It
0
19 0 46.79
1.7417
N. 9 21 14.6
144)06
0
13 25 6.40
1.7972
S. 8 48 14.7
18.500
1
12 2 31.28
1.741S
2 7 14.0
14.015
1
13 26 54.31
1.7999
0 1 49.3
184)69
9
12 4 15.75
1.7410
1 53 12.8
14JKU
2
13 28 42.39
1.8027
9 15 22.1
13.688
3
12 6 0.20
1.7407
1 39 11.1
14.088
3
13 30 30.64
1.8067
9 28 53.2
18.503
4
12 7 44.63
1.7405
1 25 8.9
\4M9
4
13 32 19.07
1.8067
9 42 22.5
18.478
5
12 9 29.06
L7404
1 11 6.4
14U>45
5
13 34 7.68
1.8117
9 55 49.9
18.441
6
12 11 13.48
1.7408
0 57 3.5
14MI
6
13 35 56.47
1.8147
10 9 15.4
13.408
7
12 12 57.90
1.7408
0 43 0.3
14.055
7
13 37 45.44
1.8178
10 22 38.9
13J75
8
12 14 42.32
1.7404
0 28 56.9
14.060
8
13 39 34.61
1.8212
10 36 0.4
18.341
9
12 16 26.75
1.7406
0 14 53.2
HMS
9
13 41 23.98
1.8944
10 49 19.8
13.306
10
12 18 11.19
1.7408
N. 0 0 49.3
UJOOe
10
13 43 13.54
1.8977
11 9 37.1
13.970
11
12 19 55.65
1.7411
S. 0 13 14.7
14U168
11
13 45 3.31
1.8312
11 15 52.2
18.988
12
12 21 40.12
1.7418
0 27 18.8
14.060
12
13 46 53.29
1.8847
11 29 5.1
13.196
13
12 23 24.61
1.7417
0 41 23.0
144)60
13
13 48 43.47
1.8389
11 42 15.7
13.157
U
12 25 9.13
1.7482
0 55 27.1
144)68
14
13 50 33.87
1.8418
11 55 23.9
18.117
15
12 26 53.68
1.7437
1 9 31.2
144)67
15
13 52 24.19
1.8455
12 8 29.8
134)78
16
12 28 38.26
1.748S
1 23 35.2
144)65
16
13 54 15.33
1.8492
12 21 33.3
134)87
17
12 36 22.88
1.7441
1 37 39.0
144)68
17
13 56 6.40
1.8530
12 34 34.2
19.998
18
12 32 7.55
1.7448
1 51 42.7
144)60
18
13 57 57.69
1.8568
12 47 32.5
19.960
19
12 33 52.26
1.7450
2 5 46.2
144)55
19
13 59 49.21
1.8607
13 0 28.2
19.906
20
12 35 37.02
1.7464
2 19 49.3
144)49
20
14 1 40.97
1.8048
13 13 21.2
19.869
21
12 37 21.83
1.7478
2 33 52.1
144>a
21
14 3 32.98
1.8688
13 26 11.6
19.817
22
12 39 6.70
1*7488
2 47 54.5
144)87
22
14 5 25.23
1*8729
13 38 59.2
19.769
23
12 40 51.63
SAT
1-74M
URDA
S. 3 1 56.6
Y 22.
144)00
93
14 7 17.73
MO]
1.8771
PTOAY
S.13 51 43.9
24.
19.791
<^
19 49 36.63
1.7505
S. 3 15 58.1
144X2
0
14 9 10.48
1.8819
S.14 4 25.7
19.673
1
12 44 21.69
1.7517
3 29 59.1
144)18
I
14 11 3.48
1.8655
14 17 4.6
19.098
2
12 46 6.83
1.7580
3 43 59.6
144)04
2
14 12 56.74
1.8899
14 29 40.4
19.579
3
12 47 52.05
1.7549
3 57 59.6
18.904
3
14 14 50.27
1.8043
14 42 13.2
194)91
4
12 49 37.34
1.7556
4 11 58.9
18.982
4
14 16 44.06
1.8987
14 54 42.9
19.467
5
12 51 22.72
1.7572
4 25 57.4
184)60
5
14 18 38.12
1.9083
15 7 9.3
19.418
6
12 53 8.20
1.7567
4 39 55.2
184)67
6
14 20 32.46
1.9079
15 19 32.5
19.380
7
12 54 53.76
1.7602
4 53 52.2
18.048
7
14 22 27.07
1.9195
15 31 52.4
19.804
8
12 56 39.42
1.7619
5 7 48.4
18.929
8
14 24 21.96
1.9172
15 44 9.0
19.948
9
12 58 25.19
1.7687
5 21 43.7
18.914
9
14 26 17.13
1.9219
15 56 22.1
19.189
10
13 0 11.06
1.7654
5 35 38.1
18.896
10
14 28 12.59
1.9967
16 8 31.8
19.181
11
13 1 57.04
1.7672
5 49 31.5
18.889
11
14 30 8.34
1.9816
16 20 37.8
19.079
12
13 3 43.12
1.7690
6 3 23.9
18.864
12
14 32 4.39
1.9366
16 32 40.3
194)19
13
13 5 29.32
1.7710
6 17 15.2
18.846
13
14 34 0.73
14M16
16 44 39.2
11.950
14
13 7 15.64
1.T781
6 31 5.4
18.827
14
14 35 57.37
1.9466
16 56 34.3
11.887
15
13 9 2.09
1.7759
6 44 54.4
18.807
15
14 37 54.32
1.0517
17 8 25.6
11.898
16
13 10 48.67
1.7774
6 58 42.2
13.786
16
14 39 51.57
1.9667
17 20 13.1
11.768
17
13 12 35.38
1.7797
7 12 28.7
13.764
17
14 41 49.13
1.9620
17 31 56.6
11.699
18
13 14 22.23
1.7820
7 26 13.9
18.742
18
14 43 47.01
1.9672
17 43 36.1
114)95
19
13 16 9.22
1.7848
7 39 57.7
18.718
19
14 45 45.20
1.9725
17 55 11.6
11.558
20
13 17 56.35
1.7868
7 53 40.1
18.605
20
14 47 43.71
14T78
18 6 43.0
11.488
21
13 19 43.63
1.7809
8 7 21.1
18.671
21
14 49 42.54
1.9839
18 18 10.3
11.490
22
13 21 31.06
1.7918
8 21 0.6
13.645
22
14 51 41.70
1.9887
18 29 33.4
114M8
23
13 23 18.65
1.7045
8 34 38.5
13.618
23
14 53 41.19
1.9942
18 40 52.1
11.976
24
13 25 6.40
1.7972
S. 8 48 14.7
18.500
24
14 55 41.00
14097
8.18 52 6.5
11.908
48
MARCH, 185a.
XI.
GREENWICH MEAN TIME.
THF. MOOITS RIGHT ASCENSION AND DECXINATION.
Hoar.
Bight AflMDMon.
DUL
fbrlm.
DeeUnstton.
DUL
forlm.
How
BI^tAflOMMion.
dm:
forlm.
DUL
forlm.
TUESDAY 25.
THURSDAY 27.
h m. 1.
1.
O 1 H
ff
li. m. t.
••'
O # If
0
0
14 55 41.00
1.9097
S.18 52 6.5
11.308
0
16 38 39.43
3.9909
S.26 3 40.8
6419
1
14 57 41.15
3.0083
19 3 16.5
11.139
1
16 40 57.37
94031
26 e 56.2
8.00
3
14 59 41.63
3.0109
10 14 22.0
11.088
2
16 43 15.68
S4083
96*16 3.6
•408
3
15 1 42.46
S.010S
19 25 22.9
io.»n
3
16 45 34.36
94148
86 22 3.1
S4S4
4
15 3 43.62
3U»39
19 36 19.2
10J99
4
16 47 53.40
94008
26 27 64.5
0.1»
5
15 5 45.13
3.03B1
19 47 10.8
10.880
5
16 50 12.80
94388
26 33 37.8
tMi
6
15 7 46.99
34n89
19 57 57.6
10.740
6
16 62 32.66
94033
26 39 13.0
0418
7
15 9 49.20
3.0»7
520 8 39.0
104159
7
16 54 52.67
34881
26 44 40.0
0480
8
15 11 51.76
3.04M
20 19 16.7
10.878
8
16 57 13.13
94440
26 49 68.6
0480
9
15 13 54.67
MSli
20 29 48.9
10.494
9
16 69 33.95
94400
26 65 8.7
0408
10
15 15 57.94
3.0975
20 40 16.0
10.400
10
17 1 55.12
94656
27 0 10.4
4400
11
15 18 1.57
SUMS4
20 50 38.0
10.834
11
17 4 16.62
94819
27 6 3.6
4410
12
15 20 5.55
34MB8
21 0 54.9
10.386
12
17 6 38.46
94608
27 9 48.2
4Jm
13
15 22 9.89
34n&4
21 11 6.6
10.150
13
17 9 0.64
94738
27 14 24.2
4437
14
15 24 14.60
34)817
21 21 12.9
104160
14
17 11 23.14
94Tn
27 18 51.4
4480
15
15 26 19.69
34)ef78
21 31 13.8
9.970
15
17 13 45.97
94883
27 23 9.8
4.9S8
16
15 28 25.14
34)930
21 41 9 3
9.879
16
17 16 9.12
94885
27 27 19.4
4480
17
15 30 30.96
3.1001
21 50 59.3
9.787
17
17 18 32.59
94088
27 31 20.0
SJBO
18
15 32 37.15
3.100-2
22 0 43.7
0.098
18
17 20 56.38
94091
27 35 11.6
8.180
19
15 34 43.71
3.1136
22 10 22.5
0408
10
17 23 20.48
94049
27 38 64.2
S4n
20
15 36 50.65
3.1187
22 19 55.5
0.503
20
17 25 44.88
94008
27 42 27.6
8481
21
15 38 57.96
3.1349
22 29 22.7
9.406
21
17 28 9.58
94143
27 45 61.0
S4SB
22
15 41 5.64
3.1813
22 38 44.1
9.807
22
17 30 84.58
94191
27 49 7.0
8.174
23
15 43 13.70
WEDl
3.1878
^ESDi
S.22 47 59.5
LT 26.
9.307
23
17 S2 59.87
FR
94980
IDAY
SJ27 62 12.8
28.
84M9
0
15 45 22.15
3.1489
S.22 57 8.9
0.106
0
17 35 25.45
9.4987
S.27 56 9.3
9488
1
15 47 30.97
3.1003
23 6 12.2
94)04
1
17 37 61.31
94883
27 67 66.4
9.706
2
15 49 40.17
3.1506
23 15 9.4
8.901
2
17 40 17.44
94878
28 0 34.0
9448
3
15 51 49.76
3.1680
23 24 0.3
8.797
3
17 42 43.85
94498
28 3 2.1
9J8B
4
15 53 59.73
3.1098
23 32 44.9
8.801
4
17 45 10.52
94487
28 6 20.0
9438
5
15 56 10.08
3.1757
23 41 23.2
8.0B4
5
17 47 37.45
94509
28 7 29.5
9468
6
15 68 20.82
3.18«
23 49 55.0
8.476
6
17 60 4.63
94551
28 9 28.7
1J06
7
16 0 31.94
3.1885
23 58 20.3
8.807
7
17 62 32.06
94593
28 11 18.2
1.741
8
16 2 43.44
3.1949
24 ,6 39.0
8.356
8
17 64 69.73
94681
28 12 67.9
1480
9
16 4 55.33
3.301S
24 14 51.0
8.144
9
17 67 27.63
94S89
28 14 27.8
14n
10
16 7 7.60
3.3077
24 22 56.3
84)81
10
17 69 65.76
94708
28 16 47.9
1.989
11
16 9 20.26
3.3143
24 30 54.7
7.910
11
18 2 24.12
94744
28 16 68.0
1486
12
16 11 33.30
3.3806
24 38 46.2
7.801
12
18 4 52.69
94779
28 17 58.1
0.9B
13
16 13 46.73
3.3370
24 46 30.8
7^084
13
18 7 21.47
94818
28 18 48.2
0.709
14
16 16 0.54
3.3883
24 54 8.3
7.587
14
18 9 60.45
94847
28 19 28.3
0484
15
16 18 14.72
S.3896
25 1 38.8
7.448
15
18 12 19.63
94879
28 19 68.3
0416
16
16 20 29.29
3.3400
25 9 2.1
7437
16
18 14 49.00
94909
28 20 18.2
0447
17
16 22 44.24
3.3993
25 16 18.1
7.305
17
18 17 18.64
94988
28 20 27.9
4-0.V1B
18
16 24 59.56
3.3886
25 23 26.7
74)83
18
18 19 48.26
94987
28 20 27.6
0488
19
16 27 15.27
3.3649
25 30 27.9
6.968
19
18 22 18.15
94906
28 20 16.8
0.984
20
16 29 31.35
3.3713
25 37 21.7
64»5
20
18 24 48.20
94093
28 19 65.8
0410
21
16 31 47.81
3.3n5
25 44 8.0
8.708
21
18 27 18.41
3.5047
28 19 24.6
0407
22
16 34 4.65
3.3887
25 50 46.7
8480
22
18 29 48.76
94070
28 16 43.0
0.780
23
16 36 21.86
3.3808
25 57 17.6
8451
23
18 32 19.25
34093
28 17 61.0
ojm
24
16 38 39.43
3.3960
S.26 3 40.8
0433
24
18 34 49.87
94114
S.28 16 48.7
1J90
XII.
MARCH, 1856.
49
GREENWICH
MEAN TIME.
THE MOON'S RIGHT, ASCENSION AND DECT.TNATION.
Hoar.
Bi^l Aieeoflon.
iMir.
fbrlm.
Doojinftlion.
VOL
forlm.
Hour.
Diff.
Ibrlm.
DMBmtloii.
DUL
ftrlm.
SAT
URDA
Y 29.
MONDAY
31.
h. ». •.
a.
0 1 * n
H
h. m. 1.
i.
o u
K
0
18 34 49.87
3.6114
S.98 16 48.7
;.i96
0
80 35 34.89
34786
8.84 1 19.3
9430
1
18 37 30.63
3.6114
88 15 35.9
1.808
I
8038 3.51
34766
33 51 41.9
0407
3
18 39 51.48
3.616S
88 14 13.7
1.474
8
80 40 31.95
34736
33 43 1.9
0.740
3
18 43 33.46
3.6173
38 13 39.0
1M8
3
80 43 0.31
34004
33 33 13.4
0406
4
18 44 53.54
t.6188
88 10 54.9
isa
4
80 45 88.38
34009
83 33 13.3
lObOOS
6
18 47 34.73
3.6901
38 9 0.3
liOOB
5
90 47 56.16
34081
33 18 4.6
10.990
6
18 49 55.98
3.6317
88 6 55.1
fi.174
6
80 50 83.86
84607
33 1 46.9
10401
7
18 53 37.33
3.6310
88 4 39.4
3J60
7
30 53 51.34
34606
33 51 19.6
10409
8
18 54 58.74
3.6313
38 3 13.1
3.696
8
80 55 18.63
34688
33 40 43.1
10484
9
18 57 30.33
3.6960
87 59 36.3
9.709
9
80 57 46.78
•4497
33 89 67.5
10887
10
19 0 1.76
3.6361
87 56 48.9
3.878
10
81 0 13.60
•4408
83 19 9.7
10480
11
19 3 33.35
3.6360
87 53 50.9
UM
11
81 3 39.38
34490
33 7 58.8
11.140
13
19 5 4.99
t.69T7
87 50 48.3
8.301
18
81 5 5.75
34101
31 56 45.9
11480
13
19 7 36.67
3.6939
87 47 33.3
8.408
13
81 7 33.01
34868
81 45 84.1
114V7
14
19 10 8.37
3.69B6
87 43 53.4
8.686
14
81 9 58.05
•4899
81 33 53.6
11404
15
19 13 40.09
3.6907
87 40 13.0
8.709
15
81 13 83.88
•4961
91 33 14.0
11.781
16
19 15 11.83
3.6980
87 36 33.0
8.088
16
81 14 49.49
9.4961
81 10 35.8
11474
17
19 17 43.56
3.6300
87 33 30.4
4.116
17
81 17 14.89
•4916
80 58 39.1
194)17
18
19 30 15.30
3.6900
87 38 8.1
4.308
18
31 19 40.07
94178
30 46 83.8
19.100
19
19,83 47.04
3.6986
87 33 45.3
4UO0
19
81 33 5.03
80 34 10.0
19400
30
19 35 18.76
3.6986
37 10 11.8
4.046
30
81 34 39.77
•4100
80 31 47.9
19488
31
19 37 50.45
3.6980
37 14 37.8
4.833
31
81 36 54.38
34007
80 9 17.4
19478
33
19 30 33.13
3.6976
37 9 33.3
"4.008
83
81 89 18.57
•4000
19 56 38.6
19.714
33
19 33 53.75
3.6900
S.87 4 88.1
iJTS
83
81 81 48.64
•JOOO
S.19 43 61.7
13448
SlI
PTOAY
30.
TUESD
AY, A
JPRn, 1.
0
1
19 35 35.34
19 37 56.88
3.6961
^269
S.36 59 19.4
86 63 46.1
fJ60
AJ80
0
91 84 6.49
94000|
S.19 30 66.8
13489
3
19 40 38.86
3.6943
86 48 9.3
0.1Q0
3
19 43 59.79
3JK1»
86 43 38.1
0.070
4
19 45 31.15
3.6990
86 36 34.3
OJOO
6
19 48 3.43
3.6907
86 80 16.1
0.994
6
7
19 50 33.63
19 53 4.75
3.6100
3.6178
86 83 57.4
86 17 38.3
OJOO
0479
PHASES
OP Tl
?E MOON.
8
9
19 55 35.77
19 58 6.69
3.6109
3.6146
86 10 48.8
36 3 58.9
0.746
0.018
10
30 0 37.51
3.6137
85 56 58.7
7.080
DftJ. h. IB.
11
30 3 8.31
3.6107
85 49 48.8
7.961
# New Moo
n, .
. 6 8 39.
8
13
30 5 38.80
9.6088
85 48 37.4
7.483
J> First Qua
irUf,
.13 9 36.
4
13
30 8 9.37
3.6087
95 34 56.4
7409
O Full Moo
D, .
.81 4 4.
7
14
30 10 39.61
3.6046
35 37 15.3
7.771
C Last Quai
rter, .
.89 9 31.
7
15
16
30 13 9.81
30 15 39.88
9.6099
85 19 33.9
35 11 33.4
7.040
3UOO0
8.100
17
90 18 9.80
3.4976
35 3 10.9
8.976
Day. h.
. . 6 13.
. . 80 8.
18
19
30
30 30 39.58
80 33 9.31
90 85 38.68
3.4061
34996
9.4897
34 54 49.4
94 46 17.9
84 37 36.5
8449
8407
6.778
C Perigee,
C Apogee,
• •
4
6
31
30 88 7.98
8.4870
84 88 45.1
8488
33
80 30 37.13
8.4843
84 19 43.9
8.101
33
30 33 6.09
3.4814
34 10 33.0
0.908
34
80 36 34.89
3.4786
S.84 1 18.3
0498
•
50
MARCH, 1856.
Xllt.
GEEENWICH MEAN
TIME.
LUNAR DISTANCES.
>f8
8ter*iKaiM
Position.
Noon.
P.L.
of
DUL
nib.
P.L.
of
DUt
VPi.
P.L.
of
DHL
Kii.
P.L.
or
DHL
1
Mara
Spioa
Antaree
Venus
Sun
W.
W.
w.
E.
E.
O / 1,
67 22 33
66 20 48
20 35 40
37 18 43
72 46 46
3509
SSSS
3U4
9866
O 1 If
60 3 34
68 10 15
22 16 15
35 48 15
71 13 56
9469
3616
3616
3079
9866
0 1 «
70 45 3
60 51 8
23 57 8
34 17 27
60 40 30
9470
9496
9496
9966
9686
O f If
72 26 58
71 32 28
25 38 28
32 46 18
68 6 56
9460
9477
9477
9816
9
Mara
Spies
Antaret
Sun
W.
W.
W.
E.
81 3 25
80 5 45
34 11 50
60 11 40
Q8S6
9983
8381
9714
82 48 5
81 40 45
35 55 52
58 35 28
9886
9804
9809
9096
84 33 13
83 34 12
37 40 21
56 58 41
9817
9840
9844
9^6
86 18 48
85 19 5
39 25 17
55 21 27
9998
9890
9894
9866
3
Mara
Spica
AnUirea
Sun
W.
W.
W.
E.
05 13 30
04 10 18
48 16 44
47 8 45
9900
9Sf7
99S4
9001
07 1 58
05 57 51
50 4 21
45 28 57
9166
9919
9917
96tt
08 50 43
07 45 50
51 52 23
43 48 44
9171
9909
9900
9090
100 30 54
00 34 14
53 40 51
42 8 7
9164
9180
9184
4
Antaret
Sun
W.
E.
62 40 14
33 30 18
9100
940
64 40 4
31 56 31
9008
9191
66 31 15
30 13 26
9079
9410
68 22 46
28 30 5
9400
8
Sun
Aldebaran
Satara
Pollax
W.
E.
E.
E.
23 18 34
56 23 46
71 40 35
00 52 52
9856
9090
9040
9017
25 3 14
54 32 41
60 57 12
07 50 44
9800
9110
9060
26 47 46
52 41 57
68 5 5
06 6 53
9807
9196
9007
9086
28 32 8
50 51 36
66 13 15
04 14 18
9976
9140
9079
9060
9
Sun
Aldebaran
Saturn
Pollu]i
W.
E.
E.
E.
37 10 26
41 46 26
56 50 1
84 56 0
9488
9940
9146
9118
38 53 13
30 58 58
55 0 15
83 5 22
9448
9904
9106
9198
40 35 40
38 12 6
53 10 54
81 15 6
9409
9991
9160
9148
42 17 46
36 25 54
51 30 57
70 25 12
9477
9890
9108
9160
10
Sun
Saturn
Pollux
Regulus
W.
E.
E
E.
50 42 41
42 32 53
70 21 38
106 58 38
9601
9391
9940
9949
52 22 20
40 46 41
68 34 10
105 11 24
9080
9119
3966
9966
54 1 52
30 0 59
66 47 8
103 24 35
9808
9888
9974
9988
55 40 50
37 15 48
65 0 31
101 38 11
98n
9919
9801
11
Sun
a Arietis
Saturn
Pollux
Regulus
W.
W.
E.
E.
E.
63 40 17
20 30 54
28 38 21
56 14 0
02 59 43
9719
9891
9489
988S
9W1
65 25 41
22 4 54
26 56 43
54 30 1
91 8 55
9789
9779
9612
9109
9409
67 1 30
23 30 40
25 15 46
52 46 20
80 25 33
9760
9747
9644
9419
9499
68 37 12
25 15 26
23 35 34
51 3 22
87 42 38
tno
9790
9678
9488
9446
12
Sun
a Arietis
Pollux
Reguhis
W.
W.
E.
E.
76 28 35
33 17 49
42 34 18
70 14 26
9007
flOO
9699
9687
78 1 36
34 54 20
40 53 45
77 34 4
9680
9704
9646
9664
70 34 13
36 31 4
30 13 38
75 54 6
9904
9710
9600
9679
81 6 27
38 7 31
37 33 56
74 14 33
9999
9718
9688
13
Sun
a Arietis
Regulus
W.
W.
E.
88 41 48
46 7 0
66 9 41
8014
9788
9876
90 11 44
47 42 25
64 25 27
8080
9T74
9000
01 41 10
40 17 27
62 48 34
8047
9786
1707
03 10 34
50 52 14
61 12 3
8084
9798
9798
14
Sun
a Arietis
Aldebaran
Regulus
Mara
Spica
W.
W.
W.
E.
E.
E.
100 31 52
58 42 20
28 49 6
53 14 36
104 15 *15
107 14 44
8141
9864
8019
9790
9701
9780
101 50 12
60 15 47
30 10 4
51 40 5
102 38 40
105 30 58
8160
9606
8006
9019
9710
9796
103 26 14
61 48 51
31 40 10
50 5 53
101 2 22
104 5 28
8170
9870
8000
9890
9799
9811
104 52 58
63 21 41
33 10 23
48 31 50
00 26 20
102 31 15
8180
9887
9741
XIV.
MARCH, 1856.
51
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
Ster'fl Name
and
Podtkm.
Midnight.
P.L.
of
DUL
XVb.
P.L.
of
DUL
XVIIPi.
P.L.
of
DilL
XXP».
P.L.
«f
DUL
1
Mars
Spica
Antares
Venoa
Sun
W.
W.
w.
E.
E.
O / M
74 9 21
73 14 14
27 20 14
31 14 49
66 32 47
94S1
3406
94M
9994
3796
O 1 M
75 52 11
74 56 27
29 2 27
29 43 1
64 58 12
3413
3489
9438
3909
9n5
O 1 0
77 35 28
76 39 6
30 45 7
28 10 54
63 23 11
3303
3490
3419
3806
3764
O 1 If
79 19 13
78 22 12
32 28 15
26 38 30
61 47 43
9974
9401
9400
9884
9786
9
Mara
Spica
Antarea
Sun
W.
W.
W.
E.
88 4 51
87 4 26
41 10 41
53 43 47
9779
9306
9906
9696
89 51 22
88 50 14
42 56 32
52 5 41
aaoo
33B0
3987
9616
91 38 21
90 36 29
44 42 50
50 27 8
9941
9371
9370
9667
03 25 47
92 23 11
46 29 34
48 48 9
3334
9364
9303
9680
3
Mara
Spica
AnUirea
Sun
W.
W.
W.
E.
102 29 31
101 23 2
55 29 43
40 27 6
9197
9no
3167
9403
104 19 34
103 12 15
57 19 0
38 45 42
9191
9164
9161
9476
106 10 1
105 1 52
59 8 41
37 3 55
9H)6
9188
9196
9460
108 0 51
106 51 53
60 58 46
35 21 46
9091
9134
3130
3447
4
Antarea
Sun
W.
E.
70 14 37
26 46 30
9064
9993
72 6 47
25 2 44
9MS
9984
73 59 15
23 18 47
' 9089
9978
75 52 0
21 34 40
9091
9871
8
Sun
Aldebaran
Saturn
Pollux
W.
E.
E.
E.
30 16 18
40 1 38
64 21 44
92 22 1
9984
3167
9063
9061
32 0 15
47 12 6
62 30 32
90 30 2
9806
9176
9106
9078
33 43 56
45 23 2
60 39 40
88 38 21
9408
9196
9118
9086
35 27 20
43 34 28
58 49 9
86 47 0
9490
9917
9184
9000
9
Sun
Aldebaran
Saturn
Pollux
W.
E.
E.
E.
43 59 31
34 40 23
49 42 26
77 35 41
9493
9351
9316
9174
45 40 54
32 55 38
47 54 21
75 46 34
9610
9887
9984
9190
47 21 53
31 11 44
46 6 44
73 57 51
3007
9496
9363
3306
40 2 29
29 28 45
44 19 34
72 9 32
9644
9407
2979
9938
10
Sun
Saturn
Pollux
Reguloa
W.
E.
E
E.
57 19 22
35 31 10
63 14 20
99 52 13
9686
9379
9311
9319
58 57 29
33 47 5
61 28 36
98 6 41
9664
940S
9898
9887
60 35 11
32 3 34
59 43 18
96 21 35
3678
3498
3846
3866
-62 12 27
30 20 39
57 58 26
94 36 56
9609
9464
9864
9878
11
Sun
a Arietia
Saturn
Pollux
Regulua
W.
W.
E.
E.
E.
70 12 19
26 51 30
21 56 9
49 20 42
86 0 8
9789
3718
3618
3467
9464
71 47 1
28 27 53
20 17 39
47 38 28
84 18 4
9808
9T05
9665
9476
9483
73 21 18
30 4 26
18 40 12
45 56 39
82 36 26
3838
3700
3710
9483
3600
74 55 9
31 41 6
17 3 57
44 15 16
80 55 13
9648
9008
9779
9611
9619
12
Sun
a Arietia
Pollux
Regulua
W.
W.
E.
E.
82 38 18
39 43 49
35 54 37
72 35 24
9041
9783
9809
9807
84 9 45
41 19 58
34 15 41
70 56 39
9060
3783
3617
9034
85 40 49
42 55 55
32 37 0
69 18 17
39n
Sr743
9686
9641
87 11 30
44 31 39
30 59 1
67 40 18
9006
3768
9669
9867
13
Sun
a Arietia
Regulua
W.
W.
E.
94 39 28
52 26 47
59 35 53
8080
9808
9788
96 8 2
54 1 5
58 0 4
8006
3819
3768
97 36 17
55 35 8
56 24 35
8110
9831
3760
99 4 14
57 8 56
54 49 26
8196
9849
9788
14
Sun
a Arietia
Aldebaran
Regulua
Mara
Spica
W.
W.
W.
E.
E.
E.
106 19 25
64 54 17
34 49 38
46 58 22
97 50 34
100 57 19
8198
9898
9907
9858
3763
3838
107 45 37
66 26 39
36 19 54
45 25 3
96 15 3
99 23 40
9310
3900
3907
3806
3763
3849
109 11 34
67 58 47
37 50 10
43 52 1
94 39 47
9T50 16
8998
9919
9999
9879
9776
9861
110 37 16
69 30 42
39 20 24
42 19 15
93 4 46
96 17 7
8986
9098
9001
9609
9786
9878
52
]!)IAR€H, 1856.
XV.
GREENWICH MEAN
TIME.
LUNAB DISTANCES. 1
15
8ter*iKui
Md
M
Nooo.
P.L.
or
IIIU,
P.L.
of
VPi.
P.L.
or
IXh.
P.L.
or
PCMttfOCL
DUL
DIff.
DUE.
jfUL
Sun
W.
O < J»
119 9 43
SM7
O 1 N
113 97 56
8369
O 1 II
114 59 55
8970
O 1 w
116 17 41
3961
a Arietis
W.
71 9 95
9930
79 33 54
9949
74 6 11
9968
75 36 16
9908
Aldebaraa
W.
40 50 35
8006
49 20 43
1008
43 50 45
1013
45 90 43
son
Satara
W.
24 31 23
kM)l
90 I 34
lOO
97 31 43
MM
90 1 61
8006
Regulus
E.
40 46 46
9906
30 4 33
9917
37 49 36
9939
36 10 64
9919
Man
E.
01 20 50
9T06
80 55 26
9800
88 91 6
9816
86 46 58
9836
Spica
E.
04 44 13
9683
03 11 33
9694
01 39 7
9806
00 6 64
9916
16
a Arietia
W.
83 8 55
aooo
84 38 56
1018
86 8 47
1096
87 38 90
3089
Aldebaraa
W.
59 40 7
8040
54 18 30
1046
55 47 47
1919
67 16 60
3064
Satorn
W.
36 31 43
1036
38 1 24
1039
30 31 1
1033
41 0 33
8088
Reffoloa
E.
28 36 15
loot
27 6 6
3010
95 36 13
1080
94 6 37
8644
Bfaia
E.
78 50 11
9000
77 26 8
3673
75 63 16
9881
74 20 33
9867
Spica
E.
89 98 51
9900
80 57 48
9900
70 26 65
9976
77 56 11
9989
17
a Arietta
W.
05 4 59
8006
06 33 45
1009
08 2 32
1076
00 31 12
3081
Aldebaraa
W.
64 41 31
8076
66 10 10
1080
67 38 44
le&i
60 7 13
3067
Satnm
W.
48 96 46
8000
49 55 45
3004
61 24 38
1Q60
52 53 26
8079
Pollux
W.
90 96 14
8039
21 56 0
8690
23 25 41
1030
24 55 17
8034
MatB
E.
66 38 57
9916
65 6 50
9931
63 35 7
9996
69 3 91
9960
Spica
E.
70 94 49
8016
68 54 48
3090
67 25 0
1996
66 65 10
80M1
18
Aldebaraa
W.
76 98 38
8106
77 56 44
8106
79 24 47
1108
80 69 47
3110
Satorn
W.
60 16 95
8007
61 44 50
3090
63 13 12
3091
64 41 31
8096
PoUax
W.
39 99 8
8061
33 51 18
30ai
35 20 25
3066
36 40 98
3069
Mara
E.
54 95 47
9948
59 54 90
9061
51 23 15
99M
40 59 5
99S6
Spica
E.
58 98 16
8061
56 50 6
8064
55 20 50
8067
54 0 58
8000
Antarea
E.
104 90 38
8016
109 51 99
8060
101 29 11
3068
00 53 4
8066
10
Aldebaraa
W.
88 19 10
8119
80 30 56
8190
91 7 41
3133
09 35 94
3198
Satorn
W.
79 9 98
8106
73 30 34
8106
74 68 38
3106
76 96 41
3ioe
PoUoz
w.
44 14 5
8000
45 43 54
8009
47 11 41
3070
48 40 97
3071
Mara
E.
49 16 53
9006
40 45 57
9907
30 15 3
9969
37 44 11
9970
Spica
R
46 36 37
8071
45 7 53
1073
43 39 11
3076
49.10 31
3076
Antarea
E.
09 98 11
8006
00 50 10
1007
80 30 90
8608
88 1 40
3069
SO
Aldebaran
W.
00 53 49
8131
101 91 10
1197
109 48 60
8198
l64 16 39
SI96
Saturn
W.
83 46 46
8106
85 14 46
1108
86 43 46
8107
88 10 47
3107
Pollux
W.
56 4 7
8071
57 33 50
1073
50 1 34
3073
60 30 18
8071
Regulua
W.
10 45 50
1161
91 19 55
1144
33 40 11
8185
24 7 38
3198
Spica
E.
34 47 39
loat
33 10 0
1083
31 50 20
3063
30 21 68
3666
Antarea
E.
80 37 51
1071
70 0 6
1071
77 40 21
3071
76 11 36
3070
91
Saturn
W.
05 31 9
1106
06 50 8
1101
08 27 17
8100
00 55 27
3096
Pollox
W.
67 54 13
1060
60 93 4
1065
70 51 57
3063
79 90 53
8061
Regulna
W.
31 96 51
IMI
39 55 0
1096
34 23 14
3093
35 51 33
8686
Antarea
E.
68 47 35
1666
67 18 43
1064
65 40 49
3063
64 90 63
8060
39
Saturn
W.
107 16 47
1009
108 45 10
1087
110 13 36
30&4
111 49 5
8061
Pollux
W.
70 46 4
1060
81 15 15
1917
83 44 30
8044
84 13 48
tau
Regulua
W.
43 14 90
1060
44 43 7
1066
46 11 58
3003
47 40 64
3069
Antarea
£.
56 55 37
1061
55 96 95
104T
53 57 10
3043
59 97 61
8oa
93
Pollux
W.
01 41 91
100
03 11 5
1019
04 40 54
8016
06 10 48
sou
Rcfl^lua
W.
65 6 54
1067
56 36 17
mm
58 5 50
3037
60 35 90
8099
XVI.
MARCH, 1856.
63
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
34
8ter*flNH
M
P.L.
P.L.
P.L.
P.L.
a
Md
Midnight.
of
XVh.
or
XVlUh.
or
XXlh.
of
Portion.
DIff.
DUE.
DHL
DHL
O 1 M
O 1 N
O 1 n
O ) N
15
Sun
w.
117 42 14
am
119 6 34
8808
120 30 42
8818
121 54 39
8899
a ArietiB
w.
77 7 9
vn
78 37 51
9066
80 8 23
9008
81 38 44
8001
Aldebaran
w.
46 50 35
aoai
48 20 22
8096
49 50 3
8080
51 19 38
8086
Saturn*
w.
30 31 57
8007
32 2 1
8011
33 32 0
8016
35 1 54
8090
Regains
E.
34 39 28
»M
33 8 17
9066
31 37 21
9fn
30 6 40
9000
Mars
E.
85 13 2
9Bt4
83 39 18
9649
82 5 45
9061
80 32 23
9660
Spica
£.
88 34 54
1994
87 3 6
9684
85 31 30
9013
84 0 5
9061
16
a Arietis
W.
89 8 2
ao8P
90 37 27
8016
92 6 43
8060
03 35 51
806B
Aldebaran
W.
58 46 5
aeao
60 15 5
8004
61 43 59
8000
63 12 47
8079
Saturn
W.
42 29 59
a048
43 59 19
8047
45 28 33
8069
46 57 42
8066
Regulus
E.
22 37 19
ao60
21 8 20
8078
19 39 43
80O7
18 11 30
8190
Mars
E.
72 47 58
9M4
71 15 32
9000
69 43 13
9600
68 11 2
9011
Spica
£.
76 25 36
9I»
74 55 10
9006
73 24 53
8000
71 54 44
8000
17
a Arietis
W.
100 59 45
aoM
102 28 12
8001
103 56 33
8006
105 24 48
8100
Aldebaran
W.
70 35 38
aooi
72 3 58
8604
73 32 15
80O7
75 0 28
8100
Saturn
W.
54 22 10
8676
55 50 49
8078
57 19 25
8069
58 47 57
8086
PoUux
W.
26 24 48
8088
27 54 14
8041
29 23 36
8044
30 52 54
8047
Mars
E.
60 31 40
9066
59 0 5
9080
57 28 35
9043
55 57 9
9046
Spica
E.
64 25 43
8604
62 56 13
8089
61 26 49
8048
59 57 30
8047
18
Aldebaran
W.
82 20 44
8119
83 48 39
SlU
85 16 31
8116
86 44 22
8m
Saturn
W.
66 9 47
8067
67 38 0
8000
69 6 12
8101
70 34 21
8109
Pollux
W.
38 18 28
8000
39 47 26
8008
41 16 21
8005
42 45 14
8000
Mars
E.
48 20 57
9906
46 49 52
9061
45 18 50
9068
43 47 51
9964
Spica
E.
52 32 0
8068
51 3 5
8006
49 34 13
8006
48 5 24
8000
Antares
E.
98 24 0
8066
96 54 59
8060
95 26 1
son
93 57 5
8064
19
Aldebaran
W.
94 3 6
8194
95 30 47
8196
96 58 26
8196
98 26 4
8190
Saturn
W.
77 54 43
81C7
79 22 44
8107
80 50 45
8107
82 18 46
8106
Pollux
W.
50 9 12
8079
51 37 56
8079
53 6 40
8079
54 35 24
8078
'
Mars
E.
36 13 20
9071
34 42 31
9973
33 11 42
997a
31 40 56
9078
Spica
E.
40 41 52
8076
39 13 15
8079
37 44 40
8080
36 16 6
8080
Ajitares
E.
86 32 53
8070
85 4 7
8070
83 35 21
8071
82 6 36
8071
20
Aldebaran*
W.
105 44 8
8196
107 11 44
8199
108 39 19
8196
110 6 55
8196
Saturn
W.
89 38 48
8106
91 6 50
- 8106
92 34 53
8106
94 2 57
8104
Pollux
W.
61 59 3
8070
63 27 49
8000
64 56 36
8060
66 25 24
8068
Re^us
W.
25 35 14
8191
27 2 58
8114
28 30 50
8110
29 58 48
8106
Spica
E.-
28 53 28
8064
27 24 59
8065
25 56 31
8067
24 28 5
8067
Ajitarea
E.
74 42 50
8009
73 14 3
8060
71 45 15
8068
70 16 26
8066
21
Saturn
W.
101 23 39
8006
102 51 53
8006
104 20 9
8003
105 48 27
8091
PoUux
W.
73 49 49
8009
75 18 49
8067
76 47 51
8065
78 16 56
8063
Regulus
W.
37 19 57
806t
38 48 26
8061
40 16 59
8on
41 45 37
8078
Antares
E.
62 51 55
8069
61 22 55
8067
59 53 52
8064
58 24 46
8063
22
Saturn
W.
113 10 38
8079
114 39 13
8076
116 7 52
8073
117 36 34
8070
PoUux
W.
85 43 10
8068
87 12 36
8084
88 42 7
8000
90 11 42
8097
Regulus
W.
49 9 55
8061
50 39 1
8060
52 8 12
8046
53 37 28
8041
Antares
E.
50 58 29
8068
49 29 3
8084
47 59 33
8000
46 29 58
8096
23
Pollux
W.
97 40 47
8006
99 10 52
8001
100 41 4
9996
102 11 22
9091
Regulus
W.
61 5 14
8018
62 35 5
8013
64 5 2
8006
65 35 5
8001
52
MARCH, 1856.
XV.
GKEBNWICH MEAN
TIME.
JAmAB, DISTANCSa
8ter*iN«iP«
P.L.
P.L.
P.L.
P.L.
md
Noon.
or
IIIU,
of
Vpi.
of
IX>-
d
J
15
PodtioiL
DUL
DIff.
DUL
MS.
Sun
W.
O J II
113 3 43
8917
O 1 M
113 37 56
8960
O 1 II
114 53 55
8970
116 17 41
aiBt
a Arietis
W.
71 3 35
9M9
73 33 54
9949
74 5 11
9958
75 36 16
9908
Aldebaran
w.
40 50 35
8006
43 30 43
8008
43 50 45
8019
45 30 43
son
Satom
w.
34 31 33
kM)l
36 1 34
8003
37 31 43
8004
39 1 51
8005
Regulus
E.
40 46 46
9906
39 4 33
9917
37 43 36
9999
36 10 54
9049
Mars
E.
91 39 59
9788
89 55 36
9806
88 31 6
9815
86 46 58
9895
Spica
E.
94 44 13
9683
93 11 33
9894
91 39 7
9905
90 6 54
3915
16
a Arietis
W.
83 8 55
8099
84 38 56
8018
86 8 47
8096
87 38 99
8089
Aldebaraa
W.
53 49 7
8040
54 18 30
8045
65 47 47
8049
57 16 59
8054
Satam
W.
36 31 43
8035
38 1 34
30-29
39 31 1
8033
41 0 33
8038
Regains
E.
38 36 15
8008
37 6 6
3016
35 36 13
3080
84 6 37
SOU
Mars
E.
78 59 11
9866
77 36 9
9878
75 53 16
9881
74 30 33
9887
Spica
E.
83 88 51
9900
80 57 '48
9968
79 36 55
9975
77 56 11
3969
17
a Arietis
W.
95 4 53
8005
96 33 45
8069
98 3 33
8075
99 31 13
8081
Aldebaraa
W.
64 41 31
8976
66 10 10
8080
67 38 44
8081
69 7 13
8087
Saturn
W.
48 36 46
8000
49 55 45
8064
51 34 38
8060
58 53 36
8079
Pollux
W.
30 36 14
8099
31 56 0
8096
33 35 41
8090
34 55 17
8034
Mars
E.
66 38 57
9916
65 6 59
9991
63 35 7
9996
63 3 81
9980
Spica
£.
70 34 43
8015
68 54 48
8090
67 35 0
3096
65 55 19
80»
18
Aldebaran
W.
76 38 38
8108
77 56 44
8106
79 34 47
8108
80 58 47
SIM
Saturn
W.
60 16 35
8087
61 44 50
8090
63 13 13
8009
64 41 31
8005
Pollux
W.
33 S3 8
8061
33 51 18
8088
35 30 35
8066
36 49 88
aoio
Mars
E.
54 35 47
9918
59 54 39
9051
51 83 15
9964
49 58 5
9966
Spica
E.
58 38 16
806J
56 59 6
8054
55 89 59
8067
54 0 58
8060
Autares
E.
104 30 38
8046
103 51 33
8050
101 33 11
8053
99 53 4
8066
10
Aldebaran
W.
88 13 10
8119
89 39 56
8190
91 7 41
8199
93 35 84
8198
Saturn
W.
73 3 38
8103
73 30 34
8105
74 58 38
3105
76 86 41
8106
Pollux
W.
44 14 5
8068
45 43 54
3069
47 11 41
3070
48 40 87
8071
Mars
E.
43 16 53
9065
40 45 57
9967
39 15 3
9069
37 44 11
9970
Spica
E.
46 36 37
8071
45 7 53
8073
43 39 11
8075
48.10 31
8076
Antares
E.
93 38 11
8065
90 59 19
3067
89 30 39
8068
88 1 40
8069
30
Aldebaran
W.
99 53 43
8197
101 31 19
3197
103 48 56
3198
l64 16 38
8198
Saturn
W.
83 46 46
8106
85 14 46
3106
86 43 46
3107
88 10 47
8107
Pollux
W.
56 4 7
8073
57 33 50
3079
59 1 34
3079
60 30 18
8071
Regulus
W.
19 45 50
8153
31 13 55
3144
33 40 11
3135
84 7 38
8198
Spica
E.
34 47 33
8089
33 19 0
8oea
31 50 39
3089
30 31 58
8888
Antares
E.
80 37 51
8071
79 9 6
8071
77 40 81
8071
76 U 36
8070
31
Saturn
W.
95 31 3
8108
96 59 8
8101
98 37 17
3100
99 55 37
8098
Pollux
W.
67 54 13
8066
69 33 4
3065
70 51 57
8063
73 30 58
8061
Regulus
W.
31 36 51
8101
33 55 0
3096
34 33 14
3009
35 51 33
8088
Antares
E.
68 47 35
8065
67 18 43
8064
65 49 49
8009
64 80 53
8060
33
Saturn
W.
107 16 47
8089
108 45 10
8087
110 13 36
3084
111 48 5
8081
Pollux
W.
79 46 4
8060
81 15 15
3(M7
83 44 30
8044
84 13 48
SOU
Regulus
W.
43 14 30
8009
44 43 7
8066
46 11 58
3069
47 40 54
8006
Antares
E.
56 55 37
8049
55 36 35
8047
53 57 10
8043
53 87 51
SOU
33
Pollux
W.
91 41 31
8093
93 11 5
3019
94 40 54
3015
96 10 48
son
Regulus
W.
55 6 56
3037
56 36 17
8089
58 5 50
8097
59 35 89
8093
XVIII.
MARCH, 1856.
55
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
23
8tar*iN«iiM
P.L.
P.H
P.L.
P.L.
AOd
Midnight.
of
XVlL
of
xvmh.
of
XXPi.
of
Podtton.
DUt
IMlt
DilL
DUL
Antares
E.
O 1 «
39 0 51
8006
O 1 M
37 30 46
8001
O 1 M
36 0 35
3997
O 1 tf
34 30 18
9991
a Aquila
E.
90 55 34
8841
89 41 10
8849
88 96 51
8889
87 13 39
8836
34
Pollux
W.
109 44 33
9009
111 15 34
9965
113 46 43
9948
114 18 1
9943
Regulus
W.
73 7 13
9071
74 38 3
9965
76 8 59
9966
77 40 4
9950
Antares
E.
36 57 13
9964
35 36 15
9957
33 55 8
9950
33 33 53
9944
a Aqaila
E.
81 0 7
8888
79 45 39
8885
78 31 13
8688
77 16 49
8841
35
Regnlos
W.
85 17 53
9019
86 49 57
9808
88 33 13
9804
89 54 38
9886
Man
W.
37 40 51
9786
39 15 34
an9
40 50 30
9769
43 35 38
3760
Spica
W.
31 14 45
9014
33 46 46
9904
34 19 0
9694
35 51 36
9886
a Aqails
E.
71 6 13
8878
69 53 31
8887
68 88 59
8809
67 35 41
8916
YenoB
£.
103 5 7
88ao
100 43 4
8850
99 18 50
8840
97 55 35
3380
36
Regolos
W.
97 39 48
9887
99 13 38
9886
100 47 33
9816
103 31 30
3606
Man
W.
50 34 38
9710
53 0 55
9698
53 37 37
9687
55 14 34
3676
Spica
W.
43 36 46
9884
45 10 30
9899
46 44 39
9811
48 18 43
9799
a Aquils
E.
61 33 35
4017
60 13 3
4045
59 1 8
4077
57 50 43
4110
Fomalhaut
E.
85 30 48
3019
83 50 59
8010
83 30 59
8001
80 50 47
3991
VenuB
E.
90 55 17
8976
89 30 37
8964
88 5 43
8961
86 40 34
8938
Sun •
E.
130 58 41
8186
119 33 14
8178
118 5 33
8161
116 38 37
8149
37
Man
W.
63 33 13
9616
65 1 47
9608
66 40 38
9800
68 19 47
3677
Spica
W.
56 13 45
9788
57 49 34
9735
59 35 41
9719
61 3 5
3608
a Aquila
E.
53 8 7
4847
51 1 58
4409
49 56 45
4480
48 53 34
4560
Fomialhaut
E.
73 16 50
9846
71 45 38
9986
70 13 55
9937
68 43 10
3919
Venus
E.
79 31 0
8173
78 4 17
8158
76 37 17
8143
75 10 0
8199
Sun
E.
109 30 9
8088
107 51 39
8069
106 33 51
8055
104 53 46
8040
38
Man
W.
76 40 14
9807
78 31 18
9499
80 3 43
3477
81 44 38
3469
Spica
W.
69 8 43
9698
70 47 0
9619
73 35 38
3506
74 4 36
3863
Antares
W.
33 14 38
9617
34 53 56
9619
36 31 35
3896
38 10 35
9681
Fomalhaut
E.
61 0 54
9881
59 38 11
9876
57 55 33
3870
56 33 35
9866
Venus
E.
67 48 57
8061
66 19 47
8034
64 50 17
8018
63 30 36
8001
Sun
E.
97 33 44
9964
95 53 46
9947
94 31 37
9081
93 49 48
3916
39
Man
W.
90 18 41
9884
93 3 38
3869
93 46 57
9868
95 31 39
3887
Spica
W.
83 34 49
9808
84 5 58
9487
85 47 39
9470
87 39 34
9456
Antares
W.
36 30 58
9509
38 13 9
9465
39 53 43
9469
41 35 40
3458
Fomalhaut
E.
48 36 45
9869
47 3 38
9866
45 30 36
9878
43 57 43
9883
Venus
E.
55 45 53
9916
54 13 53
9897
53 41 30
3880
51 8 45
9863
Sun
E.
85 6 11
9899
83 33 31
9819
81 58 9
9795
80 33 34
3777
30
Man
W.
104 31 8
9956
106 8 13
3989
107 55 43
3333
109 43 37
3907
Spica
W.
96 4 43
9879
97 48 58
3855
99 33 37
9889
101 18 40
3398
Antares
W.
50 11 17
9869
51 55 36
3358
53 40 18
9886
55 35 25
3390
Fomalhaut
E.
36 17 53
9993
34 47 31
8084
33 18 1
8065
31 49 33
8144
Venus
e;
43 19 13
9779
41 44 9
9764
40 8 41
3787
38 33 50
9719
Sun
E.
73 34 47
9088
70 47 51
9669
69 10 31
9653
67 33 46
3684
31
Spica
W.
110 9 48
9948
111 57 12
3997
113 44 59
3919
115 33 9
3198
Antares
W.
64 16 54
9939
66 4 33
9934
67 53 15
.9908
69 40 30
3194
Venus
E.
30 37 50
9685
38 49 43
3690
37 11 15
9004
35 33 35
3590
Sun
E.
59 18 6
9648
57 37 59
3831
55 57 39
9615
54 16 37
3499
56
APRIL, 1856.
AT
GREENWICH APPARENT NOON.
Sklenal
Stinfttionof
THE SUN'S
Time
of the
Time,
tob*
1
1
1
1
Semldi-
•meter
pMring
the
Merid-
iaa.
added 10
Dlfl:
fior
Ihoor.
tubtraeled
jTOfn
Apparent
Time,
Atrartnt
Bl(ht A*M>ukn.
DUtlbr
Iboor.
Appmnni
DUtfor
Ihoor.
57.77
B«nl.
diameter.
Tues.
I
0 43 58.05
a.
9.102
N. 4 43 48.3
ife 1.87
64.50
"3 50.63
e.
0.754
Wed.
2
0 47 36.53
9.107
5 6 52.1
57.66
16 1.59
64.53
3 32.60
0.748
Thur.
3
0 51 15.16
9.115
5 29 50.5
67.82
16 1.31
64.55
3 14.73
0.741
Fri.
4
0 54 53.93
9.122
5 52 43.2
67.08
16 1.04
64.57
2 57.00
0.788
Sat.
5
0 58 32.91
9.129
6 15 29.9
66.82
16 0.76
64.60
2 39.47
0.726
Sun.
6
1 2 12.05
9.137
6 38 10.1
66.64
16 0.48
64.63
2 22.11
0.718
Mon.
7
1 5 51.41
9.146
7 0 43.4
56.25
16 0.21
64.67
2 4.97
0.709
Tues.
8
1 9 30.98
9.156
7 23 9.5
65.94
15 59.94
64.61
1 48.04
0.700
Wed.
9
1 IS 10.80
9.166
7 45 28.2
65.62
15 59.67
64.74
1 31.34
0.691
Thur.
10
1 16 50.86
9.176
8 7 38.9
55.28
15 59.40
64.78
1 14.90
0.679
FrL
11
1 20 31.18
9.187
8 29 41.3
54.93
15 59.13
64.82
0 58.70
0.668
Sat
12
1 24 11.78
9.199
8 51 35.1
64.56
15 58.86
64.87
0-42.80
0.657
Sm.
13
1 27 52.68
9.212
9 18 19.8
54.18
15 58.60
64.91
0 27.19
0.644
Mon.
Tues.
14
15
1 31 33.88
1 35 15.44
9.227
9.240
9 34 55.3
9 56 21.3
53.7S
53.88
15 58.34
15 58.08
64.96
65.01
0 11.87
0.631
0.617
0 ^.6^
Wed.
16
1 88 57.33
9.255
10 17 37.3
52.96
15 57.82
65.06
0 17.72
0.608
Thur.
17
1 42 39.59
9.270
10 38 43.0
52.53
15 57.56
65.12
0 31.97
0.587
Fri.
18
1 46 22.21
9.287
10 59 38.1
52.06
15 57.30
65.18
0 45.86
0.570
Snt.
19
1 SO 5.24
9.804
11 20 22.3
51.62
15 57.04
65.24
0 59.35
0.558
&M.
20
1 58 48.70
9.821
11 40 55.6
51.14
15 56.78
65.30
1 12.42
0.585
Mon.
21
1 67 82.58
9.889
12 1 17.5
60.65
15 56.52
65.36
1 25.04
0.517
Tues.
22
2 1 16.90
9.857
12 21 27.4
60.16
15 KM
65.48
1 87.25
0.496
Wed.
23
2 5 1.70
9.876
12 41 25.4
49.66
15 56.00
65.49
1 48.97
0.478
Thur.
24
2 8 46.95
9.895
13 1 11.0
49.18
15 55.74
65.56
2 0.24
0.457
Fri.
25
2 12 82.72
9.418
13 20 43.7
48.60
15 55.49
65.68
2 11.00
0.487
Sat
26
2 16 18.99
9.440
13 40 3.4
48.05
15 55.24
65.70
2 21.26
0.416
Sim.
27
3 20 5.78
9.461
13 59 9.8
47.49
15 54.99
65.77
2 30.99
0.895
Mod.
28
2 23 B3.11
9.488
14 18 2.5
46.91
15 54.74
65.84
2 40.19
0.878
Tuea.
29
2 27 40.97
9.506
14 86 41J2
46.82
15 54.49
65.92
2 48.86
0.849
Wed.
80
3 31 29.87
9.589
14 56 5.7
46.72
15 54.25
66.00
2 57.00
0.827
Thur.
81
3 85 18.83
9.668
N.16 18 15.8
46.11
15 54.01
66.07
8 4.59
0J04
Itan.-
---"-—
Hkm f 1 liin may bt fcanfl by
■obtaelliicOf.lSfttiBtlM
SIdmelTlme.
II.
APRIL, 1856.
57
AT GREENWICH MEAN
NOON.
i
1
THE SUN'S
IqialSooor
TfaM,
fote
DUL
for
Ihour.
TtaM.
BIchtlMukni.
DUtfior
Iboor.
Appmnni
Declinattoa.
Silt for
Ihoor.
atUUd$0
Mtmm
Tims,
TUM.
Wed.
Thur.
1
2
3
h. m. f.
0 43 57.46
0 47 35.98
0 51 14.66
a.
9.103
9.107
9.115
N. 4 43 44.6
5 6 48.7
5 29 47.4
57.77
57.56
57.82
"s 50.68
8 32.65
8 14.77
0.754
0.748
0.741
h. m. s.
23 40 6.78
23 44 3.33
23 47 59.89
Fri.
Sat
4
5
6
0 54 53.48
0 66 32.50
1 2 11.69
9.122
9.129
9.1S7
5 52 40.4
6 15 27.4
6 38 7.9
57.08
56.82
56.54
2 57.04
2 39.51
2 22.14
0.788
0.726
0.718
23 51 56.44
23 55 52.99
23 59 49.55
Moa.
TuM.
Wed.
7
8
9
1 . 5 51.09
1 9 80.71
1 IS 10.97
9.146
9.155
9.166
7 0 41.5
7 23 7.9
7 45 26.8
56.25
55.94
55.62
2 4.99
1 48.06
1 31.36
0.709
0.700
0.691
1 8 46.10
1 7 42.65
1 11 39J21
Thur.
Fri.
Sat
10
11
12
1 16 50.ff7
1 20 31.03
1 24 11.67
9.176
9.187
9.199
8 7 37.7
8 29 40.3
8 51 34.4
55.28
54.93
64.56
1 14.91
0 58.71
0 42.80
0.679
0.668
0.657
1 15 35.76
1 19 32.32
1 28 28.87
Smt.
Mon.
Tues.
13
14
15
1 27 52.61
1 81 83.85
1 85 15.44
9.212
9.227
9.240
9 13 19.4
9 34 55.1
9 56 21.3
54.18
58.78
68.88
0 27.19
0 11.87
0.644
0.681
0.617
1 27 25.42
1 31 21.98
1 85 18.53
0 3.09
Wed.
Thur.
Fri.
16
17
18
1 88 57.87
1 42 39.66
1 46 22.82
9.255
9.270
9.287
10 17 37.5
10 38 43.4
10 59 38.8
52.96
52.58
52.08
0 17.72
0 31.98
0 45.87
0.608
0.587
0.570
1 39 15.09
1 43 11.64
1 47 8.19
Sat
Sun.
Mon.
19
20
21
1 50 6.39
1 58 48.88
1 57 82.80
9.804
9.821
9.889
11 20 23.2
11 40 56.6
12 J 18.5
51.62
51.14
50.65
0 59.36
1 12.43
1 25.06
0.558
0.585
0.517
1 51 4.75
1 55 1.31
1 58 57.86
Tues.
Wed.
Thur.
22
23
24
2 1 17.15
2 6 1.98
2 8 47.27
9.857
9.876
9.805
12 21 28.5
12 41 26.5
13 1 12.2
50.16
49.66
49.18
1 37.27
1 48.99
2 0J26
0.498
0.478
0.457
2 2 54.42
2 6 50.97
2 10 47.53
Fri.
Sat
25
26
27
2 12 33.06
2 16 19.86
2 20 &18
9.418
9.440
9.461
13 20 45.1
13 40 5.0
13 59 11.6
48.60
48.06
47.49
2 11.02
2 21.28
2 31.01
0.487
0.416
0.895
2 14 44.08
2 18 40.64
2 22 37.19
Mon.
Tuea.
Wed.
28
29
80
2 28 53.54
2 27 41.4SI
2 81 29.84
9.488
9.506
9.529
14 18 4.5
14 36 43.4
14 55 8.0
46.91
46.82
46.72
2 40.21
2 48.88
2 57.02
0.878
0.849
0.827
2 26 33.75
2 30 30.30
2 34 26.86
Thur.
SI
2 36 18.81
9.552
N.15 13 18.1
46.11
8 4.60
0.804
2 38 23.41
N<
Iter for M«i
m NooD may be ■wnnwrt tb» t
MiiMiflthatfor
App««iit
Noon.
58
APRIL, 1856.
III.
AT GREENWICH MEAN N(X)N. |
THE SUN'S
1
1
1
"8
-
Lo^ittfam
Badhu TMtor
OftiM
Swth.
ma. tot
Iboar.
ItaaTfaM
IViM LONOITUDB.
DUtte
Ihoor.
LkTCnjBE.
I
X'
1
2
a
92
98
94
n 57 28.6
12 56 35.5
13 55 40.6
57 23.6
56 30.4
55 35.4
147.82
147.74
147.66
— (J.78
0.70
0.61
0.0000656
.0001928
.0003195
58.2
68.0
62.6
h. m. ■.
23 16 3.89
23 12 7.98
23 8 12.07
4
6
6
95
96
97
14 54 48.7
15 53 44.9
16 52 43.9
54 38.4
53 39.5
52 38.4
147.S8
147.60
147.41
0.49
0.36
0.23
.0004454
.0005705
.0006948
62.6
62.0
61.7
23 4 16.16
23 0 20.25
22 56 24.34
7
8
9
98
99
100
17 51 40.9
18 50 35.7
19 49 28.4
51 35.2
50 29.9
49 22.5
147.83
147.2S
147.14
—0.10
-H).02
0.14
.0008183
.0009409
.0010626
61.9
60.9
50.6
22 52 28.44
22 48 32.54
22 44 36.62
10
11
12
101
102
108
20 48 18.6
21 47 6.6
22 45 52.4
48 12.6
47 0.5
45 46.2
147.04
146.9S
146.86
0.21
0.28
0.30
.0011834
.0013037
.0014235
50.2
50.0
49.8
22 40 40.72
22 36 44.80
22 32 48.89
13
14
15
104
105
106
23 44 35.9
24 43 17.1
25 41 56.1
44 29.5
48 10.6
41 49.5
146.77
146.68
146.M
0.81
0.29
0iJ2
.0015427
.0016616
.0017800
49.6
49.4
49.8
22 28 52.99
22 24 57.08
22 21 1.18
16
17
18
107
106
109
26 40 83.0
27 39 7.7
28 37 40.8
40 26.2
89 0.7
37 33.2
146.60
146.41
146.SS
0.14
^0.08
—0.09
.0018981
.0020163
.0021343
49.8
49.2
49.2
22 17 5J26
22 13 9.36
22 9 13.45
19
20
21
110
111
112
29 36 10.9
30 34 39.7
31 33 6.6
86 3.7
84 82.4
32 59.2
146.26
146.17
146.09
0.22
0.37
0.50
.0022522
.0023698
.0024873
49.1
49.0
48.9
22 5 17.54
22 1 21.62
21 57 25.72
22
23
24
113
114
115
32 31 31.6
33 29 54.8
34 28 16.4
31 24.1
29 47.1
28 8.6
146.01
146.94
146.87
0.61
0.71
0.78
.0026045
.0027215
.0028382
48.6
48.4
48.8
21 53 29.81
21 49 33.91
21 45 37.99
25
26
27
116
117
118
85 26 36.4
86 24 54.9
37 23 11.9
26 28.5
24 46.6
23 3.6
146.79
146.72
146.66
0.83
0.85
0.84
.0029543
.0030698
.0031844
48.2
48.0
47.6
21 41 42.09
21 37 46.17
21 33 50.27
28
29
30
119
120
121
88 21 27.4
39 19 41.8
40 17 58.7
21 18.9
19 82.8
17 45.1
146.60
146.64
146.48
0.79
0.72
0.63
.0032980
.0034104
.0035214
47.1
46.6
46.9
21 29 54.36 1
21 25 58.45
21 22 2.53
81
122
41 16 4.7
15 55.9
146.42
—0.52
0.0036310
46.4
21 18 6.63
Holm.— >. iiwM.pi
)a«i«»lb*»iM«ialMx«r
tiMdftHX'
to lb» MUM WIllll
wsoT Jm
uOd.
rr.
APRIL, 1856.
59
GEEENWICH
MEAN TIME.
THE
MOON'S
^
HIMIDTAMITIB.
HORIZONTAI
PARATJiAX.
MIRIDIAN PASSAQB.
*
s
AOB.
Nooni
Mldnlcht
Noon.
PULfor
Iboar.
Mkliiight.
DUtfor
Ihoor.
DUtfor
Iboor.
1
2
8
lfe'&.5
16 33.5
16 40.9
1^28.4
16 37.7
16 42.9
5^ 59.0
60 39.7
61 6.8
+1.90
1.44
0.79
60 20.8
60 55.2
61 14.1
+1.70
1.13
+0.42
h. m.
21 41.7
22 34.4
23 25.8
m.
2.15
2.08
2.05
25.7
26.7
27.7
4
6
6
16 43.6
16 41.1
16 33.5
16 43.0
16 87.9
16 28.1
61 16.8
61 7.5
60 39.8
+0.02
-0.78
1.48
61 14.6
60 55.8
60 20.1
-0.89
1.15
1.77
6
0 17.3
1 10.1
2.08
2.15
28.7
0.3
1.3
t
8
9
16 21.9
16 7.6
15 52.0
16 15.0
15 59.9
15 44.2
59 57.2
59 4.6
58 7.3
2.01
2.82
2.40
59 31.8
58 36.2
57 38.6
2.19
2.89
2.36
2 4.9
3 1.9
4 0.3
2.24
2.81
2.84
2.3
3.3
4.3
10
11
12
15 36.6
15 22.3
15 10.0
16 29.2
15 15.9
15 4.8
57 10.6
56 18.3
55 33.1
2.29
2.04
1.70
56 43.7
55 54.7
55 13.8
2.18
1.88
1.51
4 58.6
5 54.9
6 47.8
2.80
2.19
2.04
5.3
6.3
7.3
13
14
15
15 0.1
14 52.7
14 47.9
14 56.1
14 50.0
14 46.4
54 56.8
54 29.7
54 11.8
1.82
0.94
0.56
54 42.1
54 19.6
54 6.2
1.18
0.75
0.88
7 86.6
8 21.7
9 3.9
1.88
1.74
1.64
8.3
9.3
10.3
16
17
18
14 45.4
14 45.0
14 46.5
14 44.9
14 45.5
14 47.9
54 2.6
54 1.2
54 6.7
-0.22
+0.09
0.85
54 1.0
54 3.2
54 11.7
-0.06
+0.28
0.47
9 44.0
10 23.0
11 2.0
1.58
1.56
1.58
11.3
12.3
13.3
19
20
21
14 49.6
14 54.0
14 59.6
14 51.6
14 56.7
15 2.8
54 18.0
54 34.3
54 55.0
0.68
0.77
0.95
54 25.6
54 44.1
55 6.8
0.68
0.86
1.02
11 42.1
12 24.3
13 9.4
1.64
1.74
1.88
14.3
15.3
16.8
22
23
24
15 6.3
15 13.9
15 22.4
15 10.0
15 18.0
15 27.0
55 19.4
55 47.3
56 18.7
1.09
1.24
1.88
55 32.9
56 2.6
56 35.6
1.16
1.81
1.44
18 58.2
14 50.9
15 46.8
2.08
2.17
2.28
17.8
18.8
19.8
25
26
27
15 31.8
15 42.0
15 52.8
15 86.8
15 47.4
15 58.3
56 53.2
57 30.7
58 10.3
1.50
1.61
1.67
57 11.6
57 50.3
58 30.5
1.56
1.65
1.68
16 44.5
17 42.2
18 d8J2
2.82
2.29
2.20
20.3
21.8
22.8
28
29
30
16 3.8
16 14.3
16 23.4
16 9.2
16 19.1
16 27.1
58 50.7
59 29.3
60 2.7
1.66
1.52
1.22
59 10.4
59 46.9
60 16.2
1.61
1.89
1.01
19 31.8
20 23.8
21 18.4
2.10
2.08
2.00
23.8
24.8
25.8
31
16 80.0
16 32.1
60 27.0
+0.76
60 34.6
+0.48
22 8.4
%M
26.8
1
60
APRIL, 1856.
Hoar.
GREENWICH MEAN TIME.
THE MOONS RIGHT ASCENSION AND DECLINATION.
BigbtAMenikm.
DifL
fbirlm.
Dlff.
forlm.
TUESDAY 1.
IL BL
81 34
31 36
21 38
91 41
21 43
31 46
31 48
31 50
21 53
31 55
31 57
33 0
23 3
33 4
33 7
33 9
33 11
33 14
33 16
S3 18
33 31
33 23
33 35
83 38
1.
s.
6.49
3.8056
30.11
S.3919
53.51
3.3869
16.69
9J»4A
39.65
3.8606
3.38
3.3170
34.89
3J7S8
47.18
3.8007
9.35
3.8060
31.10
3.8038
58.73
3.8067
14.14
3.8500
35.33
3JU14
56.31
3.3479
17.08
33448
37.63
3.8406
57.97
3J878
18.10
S.8S38
38.03
3.8804
57.74
3.8970
17.36
3.8388
36.57
3.8908
55.69
3.8170
14.61
33188
S.19
19
10
18
18
18
18
17
17
17
17
17
16
16
16
16
15
15
15
15
14
14
14
S.14
30 56 8
17 53.9
4 43.1
51 34.5
37 58.1
34 34.3
10 43.8
56 53.9
42 57.7
38 54.3
14 43.5
0 35.8
46 1.1
31 39.5
16 51.3
3 6.3
47 14.6
33 16.5
17 13.0
3 1.3
46 44.3
31 31.3
15 58.3
0 17.4
WEDNESDAY 2.
0
88 30 33.34
33106
S.13 44 36.8
1
83 33 51.88
33074
13 38 50.5
8
83 35 10.33
33043
13 13 58.7
3
38 37 28.40
33013
18 57 1.4
4
22 39 46.38
3.9963
18 40 58.7
5
22 42 4.19
3.3963
13 34 50.9
6
22 44 21.82
3.9944
13 8 38.0
7
22 46 39.28
3.9695
11 52 80.0
8
38 48 56.57
33897
11 35 67.8
9
38 51 13.69
33640
11 19 89.6
10
38 53 30.65
33813
11 3 57.8
11
88 55 47.45
33787
10 46 80.3
IS
83 58 4.09
33761
10 39 39.0
13
83 0 30.58
33786
10 13 53.3
14
83 3 36.93
3.9719
9 56 3.4
15
88 4 53.18
33686
9 39 9.4
16
83 7 9.17
33065
9 38 11.4
17
83 9 85.09
33643
9 5 9.5
18
33 11 40.88
33091
8 48 3.9
19
83 13 56.54
3.9069
8 30 54.6
30
33 16 13.07
3.3S78
8 13 41.8
31
83 18 37.47
3.9006
7 56 85.6
33
33 30 42.76
3.9539
7 39 6.1
23
23 22 57.94
9.9091
7 31 43.4
34
23 25 13.01
3.9008
S. 7 4 17.6
13363
13.114
18.346
18375
18.703
18376
18396
14.118
14.387
14.469
14363
14306
14314
164»9
16.197
10.980
10333
16.734
16318
16300
i«.m
16.951
16.490
16300
16378
16303
16.790
16.797
17.063
17.194
17.164
17.949
17.996
17359
17304
17.454
Hoar.
Bight
Dlff.
forlm.
DoftHmtWwi
DUL
ftarlm.
THURSDAY 8.
h. mu
33 35
33 87
33 89
83 31
83 34
33 36
33 38
83 40
83 43
83 45
33 47
83 49
33 53
33 54
33 56
33 58
0 1
0 3
■i
■i
13.01
33608
37.97
3.9485
48.83
83469
57.60
33418
18.37
93138
86.86
3.9496
41.37
33413
55.80
3.3899
10.16
3.3387
84.44
3.3870
38.65
33365
53.81
33806
6.03
83847
30.97
33889
34.98
3.3389
48.95
3.9330
3.88
3.3319
16.78
33313
30.64
33808
44.48
33306
58.31
83308
13.13
33309
35.93
3.9801
39.73
xasMO
6
5
5
6
5
4
4
4
e I •
. 7 4 17.6
6 46 48.9
6 89 17.4
11 43.8
54 6.4
36 37.1
18 45.5
1 1.6
43 15.7
35 87.8
7 38.0
3 49 46.5
3 31 53.4
3 13 58.8
8 56 3.8
8 38
3 80
8 3
1 44
1 36
1 8
0 50
0 33
5.6
7.8
7.9
7.7
6.7
5.1
3.0
0.5
S. 0 13 57.8
FRIDAY 4.
18 53.58
81 7.33
83 31.15
35 34.98
37 48.83
30 3.71
38 16.61
84 30.54
36 44.53
38 58.54
41 18.60
43 86.78
45 40.90
47 55.13
0 50 9.43
0 53 33.81
0 54 38.36
0 56 53.79
0 59 7.40
1 32.10
3 36.89
5 51.78
8 6.77
10 21.87
12 37.07
N.
33304
33807
33311
3.9816
3.3819
3.9840
83818
83409
834U
33438
8.9448
33406
9.9C7S
83490
83507
33543 N.
0 4 5.1
U3M
0 88 8.0
WJKI
0 40 10.8
183U
0 58 13.3
18388
1 16 15.5
183n
1 34 17.3
16398
1 52 18.3
18318
8 10 18.7
nsn
8 88 18.3
n3Bi
8 46 16.7
173OT
3 4 14J3
nJMB
3 88 10.4
17398
3 40 5.8
n308
3 57 58.6
173tTlB
4 15 50.3
nJB4S
4 33 40.4
n3l8
4 51 88.6
17.787
5 9 14.8
n.768
5 86 59.0
n.Tw
5 44 41.0
17380
6 8 80.6
njtm
6 19 57.7
173»8
6 37 38.3
n36S
6 65 4.1
1730r7
7 18 33.1
n308
If
173M
17303
n3«8
n399
n3»4
17.718
17.748
n.7a9
n3i4
n344
n379
n308
17323
17343
n3S3
n.ssi
n396
18310
1A389
18349
18347
VI.
APRIL, 185e.
61
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
How.
Blghl AfMBrfOB.
DUL
forlm.
Dift
forlm.
Hoar.
dm:
forlm.
DUL
Ibrlm.
SAl
TRDi
lY 5,
MONDAY 7.
h. m. 1.
1.
O It
H
h. m. ■.
■.
O 1 u
«
0
1 13 37.07
3.9548
N. 7 13 33.1
n.4so
0
3 4 0.41
34008
N.19 38 38.8
13498
1
1 14 53.39
9.9flO
7 89 59.8
17.409
1
3 6 84.57
34044
19 51 84.1
13.797
2
1 17 7.83
3.3a«
7 47 83.8
17467
8
3 8 48.94
34079
80 4 7.8
19460
3
1 19 33.38
9.980t
8 4 43.0
17408
3
3 11 13.58
34114
80 16 43.8
13491
4
1 31 39.06
S.WM
8 31 58.6
17447
4
3 13 38.31
34149
80 89 10.3
19409
5
1 33 54.87
S.9840
8 39 11.7
17.188
6
3 16 3.31
34184
80 41 89.0
13440
6
1 86 10.83
S.M60
8 56 81.8
n.l98
6
3 18 88.58
34919
80 53 39.1
13407
7
1 38 36.90
3.9699
9 13 87.1
n467
7
3 30 53.94
94968
81 5 40.6
11468
8
1 30 43.13
3Jf7ia
0 30 89.3
17408
8
3 83 19.56
34988
81 17 33.5
11400
0
1 33 59.49
3.9740
9 47 87.4
16487
9
3 85 45.39
34639
81 89 17.7
11468
10
1 35 16.00
3.9105
10 4 81.6
16466
10
3 88 11.43
34866
81 40 53.1
11416
11
1 37 33.67
3.9791
10 81 11.6
16.798
11
3 30 37.65
34808
81 53 19.6
11406
13
1 39 49.49
3.9817
10 37 57.3
16.796
13
3 33 4.07
34490
88 3 36.9
11416
13
1 43 6.47
9.3843
10 54 38.7
16469
13
3 35 30.69
34469
88 14 45.3
11464
14
1 44 33.61
3.9871
11 11 15.6
164T7
14
3 37 57.50
34404
88 85 44.6
10418
15
1 46 40.93
3.9609
11 87 47.0
16489
15
3 40 34.50
94616
88 36 34.8
10.760
16
1 48 58.40
3.9998
11 44 15.5
16419
16
3 43 51.69
»-46n
88 47 15.8
10406
17
1 51 16.05
3J9M
18 0 38.8
16487
17
3 45 19.06
S46n
88 57 47.5
10480
18
1 53 33.87
3.9984
13 16 56.0
16464
18
3 47 46.61
34000
83 8 9.8
10.998
19
1 55 51.86
3J014
13 33 8.7
M.169
19
3 50 14.33
34086
83 18 88.7
10.186
30
1 58 10.04
SJ046
13 49 16.8
10409
80
3 53 43.83
34B66
83 88 86.1
9479
31
3 0 88.41
%xn
13 5 18.5
16490
81
3 55 10.31
84094
83 38 80.0
9410
33
8 3 46.96
3jioe
13 81 15.4
16409
88
3 57 38.56
34791
83 48 4.3
•467
33
3 6 5.70
SB
3jia9
TTOAl!
N.13 37 6.7
' 6.
I64D0
83
4 0 6.96
TU]
94747
ESDA1
Njd3 57 38.9
r 8.
•466
0
8 7 84.63
3J171
N.13 53 58.5
16.716
0
4 8 15.68
S4T78
NjM 7 3.7
0408
1
8 9 43.75
3.1901
14 8 33.5
16418
1
4 5 4.83
34799
84 16 18.8
0.100
3
8 13 3.07
3.t3M
14 84 6.6
16460
8
4 7 33.09
34093
84 85 84.0
0406
3
3 14 33.58
3.8969
14 39 34.9
16.491
3
4 10 3.10
34846
84 34 19.4
0441
4
3 16 43.39
3.8809
14 54 57.1
16418
4
4 13 31.85
34809
84 43 4.9
8476
5
8 19 3.30
9J88A
15 10 13.1
16.914
5
4 15 0.53
34899
84 51 40.4
8408
6
8 31 83.31
SJI68
15 85 33.8
16.109
6
4 17 89.95
34914
85 0 6.9
8443
7
8 83 43.63
3.8408
15 40 86.8
16409
7
4 19 69.60
34904
85 8 81.4
8.n4
8
3 86 3.14
3.8488
15 55 83.0
14498
8
4 88 89.16
34960
85 16 86.8
8406
9
8 88 83.88
3.8478
16 10 13.3
U.788
9
4 84 68.93
34971
85 84 88.0
7480
10
3 30 44.83
34806
16 34 57.0
14471
10
4 87 88.81
34900
85 33 7.1
7407
11
8 33 5.97
3.8643
16 39 33.8
14407
11
4 89 68.80
34007
85 39 48.0
7490
13
8 35 37.34
3.8579
16 54 3.8
14.443
13
4 33 88.80
34098
85 47 6.6
7496
IS
8 37 48.93
3.8614
17 8 86.8
U494
13
4 34 69.07
34017
85 54 81.0
7.164
14
8 40 10.71
3.8649
17 88 48.7
14406
14
4 37 89.33
34061
86 1 85.1
0488
15
8 43 33.71
3.8684
17 36 61.5
14487
15
4 39 59.68
34006
86 8 18.9
0411
16
8 44 54.93
3J730
17 50 53.1
18464
16
4 49 30.11
34077
86 15 3.4
0488
17
8 47 17.35
34737
18 4 47.3
18440
17
4 45 0.60
34088
86 81 35.5
0406
18
8 49 40.00
34708
18 18 33.9
18.116
18
4 47 31.16
34008
86 87 58.8
0.303
19
8 53 8.86
34898
18 33 13.1
18489
19
4 60 1.77
34106
86 34 10.5
0.110
30
8 54 85.94
34864
18 45 44.6
18400
30
4 63 33.43
34114
86 40 13.4
6444
31
8 56 49.83
34900
18 59 8.3
18480
81
4 55 3.14
34131
86 46 3.8
6.T70
33
8 59 13.74
34087
19 13 84.8
18.100
88
4 67 33.88
84196
86 51 44.8
6400
33
3 1 36.47
34878
19 85 33.8
18407
33
5 0 4.65
34180
86 57 15.3
6430
34
3 4 0.41
3.4008
N.19 38 33.3
13488
34
6 8 35.44
34183
N.87 3 35.8
6.9M
62
APRIL, 1856.
VII.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
RiglilABoansloii.
DHL
forlm.
DHL
forlm.
Hour.
DHL
forlm.
fiorlm.
WEDNESDAY 9.
FRIDAY
11,
1l m. B,
■.
O t ff
If
h. m. 1.
■.
O 1 »
It
0
5 3 35.44
S.filS8
NJ27 3 36.3
5.944
0
7 1 31.43
9.8090
N57 66 17.3
9.814
1
5 5 6.35
9.5136
37 7 44.6
5.000
1
7 3 44.80
9.8670
37 63 33.9
9.966
3
5 7 37.07
9.5187
37 13 43.5
4.605
3
7 6 7.86
9.8819
37 60 81.5
t.116
3
6 10 7.89
3.51S7
37 17 33.0
4.790
3
7 8 30.68
9J767
87 47 10.0
tJ906
4
5 13 38.71
3.51S5
37 33 9.9
4.544
4
7 10 53.06
9.8714
37 43 49.6
9413
5
5 15 9.51
3.51S9
37 86 37.3
4.860
6
7 13 16.19
9.3601
37 40 80.4
8.660
6
5 17 40.39
9.6198
37 30 54.3
4.108
6
7 16 36.99
9.3007
87 36 43.6
t.706
7
5 30 11.05
9.5198
37 36 0.5
4.018
7
7 17 68.47
9.3568
37 33 65.8
t.8M
8
5 33 41.77
9.5117
37 38 66.3
8.6a
8
7 30 19.63
9.8407
37 39 0.6
3J04
9
5 35 13.45
9.5110
37 43 41.7
8.666
9
7 33 40.43
9.3441
37 34 66.6
4.187
10
5 37 43.09
9.5109
37 46 16.5
8.408
10
7 86 0.91
9.8385
87 30 44.0
4.978
11
5 30 13.67
9.5009
37 49 40.8
8.816
11
7 87 81.06
9.3836
37 16 33.1
4410
12
5 39 44.18
9.5061
37 53 54.6
8.148
18
7 39 40.84
9.3f70
37 11 63.7
4.660
13
5 35 14.63
9.5066
37 65 67.9
9.008
13
7 33 0.39
9.3919
37 7 16.0
4.007
14
5 37 45.00
9.5054
37 68 50.8
9.704
14
7 34 19.39
9.3153
37 8 30.1
4.884
15
5 40 15.38
9.5080
38 1 33.3
9.619
16
7 36 38.13
9.30O4
36 67 35.9
4.971
16
6 43 45.47
9.5098
38 4 6.1
9.445
16
7 38 66.63
9.8085
36 58 33.6
6.106
17
5 45 15.56
9.5006
38 6 36.6
9.979
17
7 41 14.55
9.3076
36 47 33.3
A.9I0
18
5 47 45.55
9.4966
38 8 37.8
9.100
18
7 43 38.33
9.9016
36 43 4.8
6.378
19
5 50 15.43
9.4066
38 10 38.6
1.037
19
7 45 49.54
9.9865
36 36 38.4
6406
30
6 53 45.17
9.4047
38 13 39.0
1.754
30
7 48 6.49
9.3704
36 31 4.8
6^686
31
6 55 14.79
9.4090
38 14 9.1
1.563
31
7 60 33.07
9.3788
36 36 33.3
6.766
33
5 57 44.38
9.4008
38 16 38.9
1411
33
7 68 39.38
9.9671
36 19 38.4
6.800
83
6 0 13.63
THD
9.4818
rRSDA
NJ88 16 68.4
Y 10.
IJM
83
7 64 66.18
SATl
9.9609
JRDA^
N.36 13 36.0
r 12.
6410
0
6 3 43.81
9.4658
N.38 18 7.6
1.068
0
7 67 10.59
9.9648
NjW 7 30.1
6.146
1
6 5 11.85
9.4896
38 19 6.6
0.600
1
7 69 85.69
9.9486
36 1 17.6
6.970
3
6 7 40.73
9.4706
38 19 65.6
0.780
8
8 1 40.48
9.9498
35 64 67.7
6.394
3
6 10 9.43
9.4760
38 30 34.8
0.561
3
8 3 64.77
9.3860
36 48 30.3
6.617
4
6 18 37.96
9.4780
38 31 3.8
0.803
4
8 6 8.74
9.9907
36 41 65.6
6.808
5
6 15 6.30
9.4706
38 31 31.4
0.996
6
8 8 33.34
9.9385
35 35 13.7
6.7SS
6
6 17 34.45
9.4«76
38 31 39.9
0MB
6
8 10 35.56
9.9179
36 38 34.6
6.«n
7
6 30 3.41
9.4648
38 31 38.4
0.106
7
8 13 48.40
93100
35 31 38.4
6.006
8
6 33 30.16
9.4606
38 31 17.0
0.378
8
8 15 0.86
9.9046
35 14 35.8
7.II9
9
6 34 57.70
9.4579
38 30 65.6
0488
9
8 17 13.95
9.1088
85 7 16.0
7.998
10
6 37 35.03
9.4585
38 30 34.6
0.603
10
8 19 34.65
9.1010
34 69 67.9
7.942
11
6 39 53.13
9.4497
38 19 43.4
0.706
11
8 31 35.97
9.1866
34 63 33.9
7466
13
6 33 18.99
9.44Se
38 18 68.6
0.030
18
8 33 46.93
9.1798
34 45 3.3
7.668
13
6 34 45.63
9.4419
38 17 61.9
1.000
13
8 35 67.49
9.1780
34 37 35.8
7.678
14
6 37 13.01
9.4870
38 16 41.7
1.961
14
8 38 7.68
9.1666
34 39 41.8
7.788
15
6 39 38.17
9.4886
38 16 31.8
1419
16
8 30 17.48
9.1608
34 31 51.3
. 7.807
16
6 43 4.07
9.4904
38 13 63.3
1.071
16
8 33 36.91
9.1540
34 13 64.1
84)05
17
6 44 39.70
9.4350
38 13 13.3
1.790
17
8 34 36.96
9.1476
34 6 50.6
8.119
18
6 46 55.07
9.4900
38 10 34.8
1.887
18
8 36 44.63
9.1418
33 67 40.7
8.918
19
6 49 30.17
9.4160
38 8 86.8
9.044
19
8 38 53.91
9.1351
33 49 34.5
8.8:81
30
6 51 44.99
9.4114
38 6 19.6
9.900
30
8 41 0.83
9.1966
33 41 3.8
8.«89
31
6 54 9.54
9.4067
38 4 8.8
9.355
31
8 43 8.37
9.1936
33 33 33.7
8.006
33
6 56 33.80
9.4016
38 1 36.8
9.510
33
8 46 16.63
9.1168
33 33 69.1
8.097
33
6 58 57.76
9.8060
37 59 1.6
9.068
33
8 47 33.33
9.1101
33 16 18.6
8.T96
34
7 1 81.43
9.80X)
N.37 56 17.3
9.814
34
8 49 38.75
9.1040
N53 6 38.0
-
VIII.
APRIL, 1856.
6a
GREENWICH MEAN TIME.
■
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar
Right AMoakm.
DHL
Ibrlm.
DUL
fbrlm.
Hoar
DUL
forlm.
DeeUnfttkn.
Difll
forlm.
SIT
NDAY
13.
TUESDAY 15.
h. m. ■.
§.
O f tf
»
h. m. 1.
■.
O 1 «
1}
0
8 49 38.75
3.1040
Nja3 6 33.0
8.034
0
10 24 2.27
1.0646
N.14 29 11.6
13.860
1
8 51 34.80
fLom
33 67 39.6
8.039
1
10 25 63.43
1.8608
14 16 48.4
13410
S
8 53 40.48
34)017
S3 48 41.4
94)18
3
10 27 44.36
1.8470
14 4 23.3
19461
3
8 55 45.80
3.0666
33 39 37.4
0.114
3
10 29 35.07
1.8438
13 51 63.1
19.610
4
8 67 50.74
341704
33 30 37.7
0.306
4
10 31 25.66
1.8807
13 39 31.0
13460
5
8 59 55.32
34)714
33 31 13.4
0.001
6
10 33 15.82
ijm\
13 36 46.1
19.006
6
9 1 59.55
34)074
33 11 61.6
0J09
6
10 36 5.88
1.8896
13 14 8.3
13468
7
9 4 3.41
34»1S
33 3 36.3
0.401
7
10 36 66.72
1.8900
13 1 37.7
13409
8
9 6 6.91
34)M4
31 53 63.6
0.074
8
10 38 46.36
1.8966
13 48 44.4
13.746
9
9 8 10.06
34)400
31 43 16.4
0.604
9
10 40 34.79
1.8999
13 35 68.3
13.790
10
9 10 12.85
34M8S
31 33 33.9
0.761
10
10 42 24.02
1.8180
13 33 9.6
13488
11
9 12 15.29
34077
31 23 46.3
0.887
11
10 44 13.06
1.8167
13 10 18.3
13477
13
9 14 17.37
34)019
21 13 63.6
0.090
13
10 46 1.91
1.8196
11 67 34.4
13490
13
9 16 19.11
34)961
21 3 66.6
104)07
13
10 47 50.67
1.8006
11 44 37.9
13403
14
9 18 20.50
34)900
30 53 52.7
104)01
14
10 49 39.06
1.8066
11 31 39.0
18403
15
9 20 21.55
34)140
20 43 44.7
10.174
16
10 61 27.36
1.8006
11 18 37.7
184)43
16
9 22 22.25
34)080
20 33 31.8
10.966
16
10 53 15.47
1.8006
11 6 34.0
18401
17
9 24 22.62
34)031
20 23 14.1
10.8S6
17
10 55 3.42
1.7978
10 53 18.0
18.110
18
9 26 22.65
1.MT7
30 13 61.6
10.414
18
10 56 51.20
1*7060
10 30 9.7
18.107
19
9 28 22.34
1.9033
30 3 34.4
10490
19
10 68 38.82
1-7038
10 35 69.1
18.194
20
9 30 21.71
1.900B
19 61 63.6
10.671
20
11 0 26.28
1.7807
10 13 46.4
18.990
31
9 32 20.75
1.081S
19 41 16.9
10.640
21
11 3 13.68
1.7071
9 59 31.6
18464
22
9 34 19.46
1.0746
19 30 34.7
10.738
22
11 4 0.73
1*7847
9 46 14.7
18.990
23
9 36 17.86
1.9706
N.IO 19 49.1
10.707
33
11 5 47.74
1.7898
N. 9 33 65.7
18488
MO
NDAY
14.
WED^
resDA
T 16.
^
0
9 38 15.92
1.9663
N.19 8 59.1
10.870
0
11 7 34.60
1.T790
N. 9 19 34.7
18407
1
9 40 13.67
1.0609
18 68 4.7
10.043
1
11 9 21.32
1.7776
9 6 11.7
18409
2
9 42 11.11
1.9648
18 47 • 6.0
11.016
3
11 11 7.91
1.7764
8 63 46.8
18480
3
9 44 8.25
l.»t97
18 36 3.9
11.067
3
11 12 64.37
1.7788
8 39 30.1
18461
4
9 46 5.08
1.0446
18 24 56.6
11.166
4
11 14 40.70
1.7719
8 36 61.6
18489
5
9 48 1.60
1.0305
18 13 44.2
11.394
5
11 16 26.91
1.7601
8 13 31.1
18491
6
9 49 67.82
1.9845
18 2 28.7
11/109
6
11 18 12.99
1.7071
7 68 49.0
10449
7
9 61 53.74
1.9906
17 61 9.2
11.360
7
11 19 68.96
1.7669
7 46 16.3
18477
8
9 63 49.37
1.0947
17 39 46.7
11.496
8
11 21 44.82
1.7636
7 31 39.7
18.606
9
9 66 44.71
1.0109
17 28 18.2
11.401
9
11 23 30.68
1.7610
7 18 3.6
18.681
10
9 67 39.76
1.0169
17 16 46.8
11.664
10
11 26 16.23
1.7601
7 4 24.0
18.667
11
9 69 34.63
14)106
17 6 11.7
11.617
11
11 27 1.78
1.7684
6 50 43.8
18488
13
10 1 29.02
1.9068
16 53 32.8
11.690
13
11 28 47.24
1.7669
6 37 2.1
18.708
13
10 3 23.23
1.901S
16 41 60.1
11.749
13
11 30 32.61
1.7664
6 23 18.9
18.781
14
10 5 17.17
1.8066
16 30 3.8
11.801
14
11 32 17.89
1.7640
6 9 34.4
18.768
15
10 7 10.84
1.80S3
16 18 14.0
11.880
16
11 34 3.09
1.7697
6 66 48.6
18.776
16
10 9 4.24
1.80T8
16 6 20.6
11.919
16
11 36 48.21
1.7614
6 42 1.3
18.797
17
10 10 67.38
1.88M
16 64 23.7
11.076
17
11 37 33.26
1.7609
6 28 12.9
18418
18
10 12 50.26
1.8701
15 42 23.3
194)86
18
11 39 18.23
1.7491
5 14 23.2
18488
19
10 14 42.87
1.8740
15 30 19.4
19.001
19
11 41 3.14
1.7480
5 0 32.3
18468
20
10 16 36.24
1.8708
15 18 12.3
19.145
20
11 42 47.99
1.7469
4 46 40.3
18476
21
10 18 27.36
1.8607
16 6 2.0
19.101
21
11 44 32.78
1.7460
4 32 47.2
18494
22
10 20 19.24
1.8897
14 63 48.4
19.964
22
11 46 17.61
1-7469
4 18 63.0
18411
23
10 22 10.88
1.8686
14 41 31.6
19.007
23
11 48 2.20
1-7444
4 4 67.9
18497
34
10 34 8.37
1.8646
N.14 29 11.6
19.860
24
11 49.46.84
1.7487
N. 3 51 1.8
10448
64
APRIL, 1856.
IX.
GREENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECO^INATION.
Hoar.
BiglitAMeniioii.
DHL
fiirlm.
DUL
ibrlm.
Hour.
DHL
forlm.
INflL
fiorlm.
THURSDAY 17.
SATURDAY 19.
h. m. f.
■.
O 1 «
It
h. m. ■.
B.
o r B
It
0
11 49 46.84
1.7487
N. 3 61 1.8
18.MS
0
13 13 56.04
1.7868
S. 7 22 26.3
16496
1
11 51 31.44
L74I0
3 37 4.8
18.066
1
13 15 43.44
1.70U
7 36 15.2
1S40S
2
11 53 16.00
L7434
3 23 6.9
18.978
2
13 17 31.00
1.7M0
7 50 2.7
16.781
3
11 55 0.53
L7418
3 9 8.1
18.007
3
13 19 18.73
1.7966
8 3 48.9
16.760
4
11 56 45.02
1.7418
2 55 8.5
18.980
4
13 21 6.62
1.7996
8 17 33.7
18.784
5
11 58 29.49
1.7410
2 41 8.2
144)11
5
13 22 54.68
14094
8 31 17.0
18.700
6
12 0 13.95
1.7407
2 27 7.2
14433
6
13 24 42.91
14068
8 44 58.7
U4B8
7
12 1 58.88
1.7404
2 13 5.5
14418
7
13 26 31.32
14088
8 58 38.9
18407
8
12 3 42.80
1.740S
1 59 3.2
14418
8
13 28 19.91
14m
9 |2 17.4
184»
9
12 5 27.22
1.7408
1 45 0.4
14460
9
13 30 8.69
14146
9 25 54.2
13400
10
12 7 11.63
1.7403
1 30 57.0
14461
10
IS 31 57.65
14177
9 39 29.3
184«
11
12 8 56.04
1.7403
1 16 53.1
14460
11
13 33 46.81
1490O
9 53 2.5
U488
IS
12 10 40.45
L740S
1 2 48.7
1447<
12
13 35 36.16
14919
10 6 33.9
18407
13
12 12 24.87
1.7404
0 48 43.9
14468
13
13 37 25.71
14970
10 20 3.4
16476
14
12 14 9.30
1.7407
0 34 38.8
14486
14
13 39 15.47
14810
10 33 30.9
18.449
15
12 15 53.75
1.7410
0 20 33.4
14408
15
13 41 5.43
14840
10 46 56.4
18408
16
12 17 38.22
1.74U
N. 0 6 27.7
14467
16
13 42 55.61
14861
11 0 19.9
1S476
17
12 19 22.71
1.7416
S. 0 7 38.2
14.100
17
13 44 46.01
144n
11 13 41.2
18480
18
12 21 7.23
1.7433
0 21 44.3
14.109
18
13 46 36.62
14466
U 27 0.2
18480
19
12 22 51.78
1.7498
0 35 50.5
14.104
19
13 48 27.45
14401
11 40 17.0
16461
20
12 24 36.37
1.7486
0 49 56.8
14.100
20
13 50 18.51
14690
11 53 31.5
18493
21
12 26 21.00
1.T443
1 4 3.2
14.107
21
13 52 9.81
14600
12 6 43.7
18.168
22
12 28 5.67
1.7440
1 18 9.6
14.100
22
13 54 1.34
14006
12 19 53.5
18.M9
23
12 29 50.39
FB
l.74«
JDAY
S. 1 32 15.9
18.
U.106
23
13 55 53.11
SUl
14648
TOAY
S.12 33 0.8
20.
18.100
0
12 31 35.16
1.7406
S. 1 46 22.2
14.108
0
13 57 45.12
14668
S.12 46 5.5
18407
1
12 33 19.98
1.7470
2 0 28.3
14.100
1
13 59 37.37
14780
12 59 7.6
18418
2
12 35 4.87
1.7487
2 14 34.2
14487
2
14 1 29.87
14779
13 12 7.1
19408
3
12 36 49.83
1.7496
2 28 40.0
14499
3
14 3 22.63
14614
13 25 3.9
19488
4
12 38 34.85
1.7610
2 42 45.5
14488
4
14 5 15.64
14867
13 37 57.9
19476
5
12 40 19.95
1.7638
2 56 50.6
14488
5
14 7 8.91
14901
13 50 49.0
1949B
6
12 42 5.13
1-7687
3 10 55.4
14477
6
14 9 2.45
14046
14 3 37.3
19.780
7
12 43 50.39
1.7660
3 24 59.8
14470
7
14 10 56.25
14989
14 16 22.6
19.780
8
12 45 35.73
1.7604
3 39 3.7
14403
8
14 12 50.32
14004
14 29 4.9
19.ff79
9
12 47 21.16
1.7679
3 53 7.2
14468
9
14 14 44.66
14080
14 41 44.1
19.098
10
12 49 6.68
L7606
4 7 10.1
144tt
10
14 16 39.28
14197
14 54 20.2
19409
11
12 50 52.30
L7013
4 21 12.4
14488
11
14 18 34.18
14173
15 6 53.1
19481
12
12 52 38.02
1.7639
4 35 14.1
14493
12
14 20 29.36
14990
15 19 22.7
19488
13
12 54 23.84
1.7047
4 49 15.1
14410
13
14 22 24.82
14369
15 31 49.0
19410
14
12 56 9.78
1.7060
5 3 15.3
18496
14
14 24 20.58
14816
15 44 11.9
19488
15
12 57 55.83
1.7066
5 17 14.8
18484
15
14 26 16.63
14007
15 56 31.3
19408
16
12 59 42.00
1.T706
5 31 13.4
18.909
16
14 28 12.98
14M7
16 8 47.2
19488
17
13 1 28.29
1.7736
5 45 11.1
18464
17
14 30 9.63
14407
16 20 59.6
I9.n»
18
13 3 14.70
1.7740
5 59 7.9
18.988
18
14 32 6.58
14617
16 33 8.3
19.114
19
13 5 1.24
1.T706
6 13 3.7
18.993
19
14 34 3.83
14506
16 45 13.3
194188
20
13 6 47.92
1.7791
6 26 58.5
18404
20
14 36 1.39
14630
16 67 14.5
114BB
21
13 8 34.73
1.7814
6 40 52.2
18486
21
14 37 59.27
14079
17 9 11.8
11.088
22
13 10 21.68
1.7888
6 54 44.8
18467
22
14 39 57.46
14796
17 21 5.2
23
13 12 8.78
1.7868
7 8 36.2
18446
23
14 41 55.97
14777
17 32 64.7
U.78t
24
13 13 56.04
1.7886
S. 7 22 26.3
18436
24
14 43 54.79
14680
S.17 44 40.1
ll.TSO
X.
APRIL, 1856.
65
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
RighlAMraston.
DIft
forlm.
DMUnatloii.
DHL
forlm.
Ooar.
Bighl AModon.
Dur.
forlm.
Difll
Ibrlm.
MO
NDAY
21.
WEDNESDAY 23.
h. IB. >.
a.
O 1 n
N
h. m. f.
a.
O 1 «
li
0
14 43 64.79
I.ffi30
S.17 44 40.1
11.798
0
16 25 51.13
9.9091
S.35 36 36.1
7.061
1
14 45 63.93
1.98W
17 56 31.4
11.698
1
16 28 7.45
9.9749
36 33 36.0
6.984
3
14 47 63.40
1.9040
18 7 58.5
11J63
3
16 30 24.12
9.9808
36 40 28.3
6.809
3
14 49 63.21
1.9906
18 19 31.4
11.913
3
16 32 41.15
9.3866
35 47 12.6
6.676
4
14 51 53 35
9JN)61
18 30 59.9
11.489
4
16 34 58.62
9.39^24
35 63 49.3
6.946
5
14 53 53.82
MUM
18 43 34.0
11.869
5
16 37 16.23
9.9081
36 0 18.1
6414
6
14 55 54.62
OJOM
18 53 43.7
11.390
0
16 39 34.39
9.8038
36 6 39.0
6.389
7
14 57 55.75
9.0317
19 4 58.8
11.914
7
16 41 53 69
9.8094
36 13 51.9
6.148
8
14 59 57.22
J.0J73
19 16 9 3
11/187
8
16 44 11.42
9^190
36 18 56.7
6.018
9
15 1 59.04
fumi
19 27 15.3
110)99
9
16 46 30 49
9.8906
36 34 53.5
9.878
10
15 4 1.20
S.0380
19 38 16.4
10.960
10
16 48 49.89
9.3361
36 30 42.1
9.741
11
15 6 3.71
9.0447
19 49 13.8
10.899
11
16 61 9.62
9.3819
36 36 22.4
9.601
19
15 8 6.67
9.0005
20 0 4.3
10.818
13
16 53 39.67
9.8366
36 41 54.3
9468
13
15 10 9.77
9.05W
20 10 50.9
10.784
13
16 55 50.04
9.3431
36 47 17.9
9.333
14
15 12 13.33
90633
20 31 33 4
10.648
14
16 58 10.73
9.8474
36 52 33.0
6.181
15
15 14 17.24
90682
30 33 8.8
10.968
15
17 0 31.73
9.8936
36 57 39.6
6.088
16
15 16 21.51
Un4'2
30 43 40.0
10.477
16
17 3-53.04
9.8977
37 3 37.6
4.806
17
15 18 26.14
9.0801
30 53 6.0
10.389
17
17 5 14.65
9.86-/I
37 7 27.0
4.791
18
15 20 31.12
9.0861
21 3 26.7
10.800
18
17 7 36.57
9.3en
27 12 7.7
4.606
19
15 22 36.47
U»il
31 13 43.0
10.910
19
17 9 58 78
9-3796
27 16 39.7
4490
80
15 24 42.18
94)961
31 33 51.9
10.118
30
17 13 31.28
9.8774
37 21 2.8
4.311
21
15 26 48.24
9.1041
31 33 56.3
10.039
31
17 14 44.07
9.88W
27 25 17.1
4.163
23
15 28 54.67
9.1109
31 43 64.9
0.98>2
33
17 17 7.14
9.3866
27 29 22.4
4.014
33
16 31 1.47
TUI
9.1168
:SDA1
S.S1 63 48.0
' 22.
9.887
33
17 19 30.49
THIT
9.8914
RSDA^
S.37 33 18.8
r 24.
8.864
0
15 33 8.63
9.1994
S.33 3 36.3
9.740
0
17 31 54.11
9.8959
S.87 37 6.1
8.719
1
15 35 16.16
9.19B6
33 13 16.8
9JM2
1
17 34 18.00
9.4003
37 40 44.3
8.960
3
15 37 3^1.06
9.1S48
33 33* 53.4
9.643
3
17 36 43.15
37 44 13.3
8407
3
15 39 33.33
9.1409
33 33 33.0
9.448
3
17 39 6.55
9.4088
37 47 33.3
8.998
4
15 41 40.97
9.1471
33 41 45.6
9.849
4
17 31 31.20
9.4130
37 50 43.8
8.008
5
15 43 49.98
9.1989
33 51 3.1
9.940
6
17 33 56.10
9.4160
37 53 45.0
9J)43
6
15 45 59 35
9.1008
33 0 14.4
9.136
6
17 36 21.23
94308
37 56 36.9
9.786
7
15 48 9.09
9.1669
33 9 19.4
9.081
7
17 38 46.59
9.4346
37 59 19.4
9.639
8
15 50 19.31
9.1717
33 18 18.1
8.939
8
17 41 12.18
9.4984
38 1 52.4
9473
9
15 62 39.70
9.1779
S3 37 10.4
8.818
9
17 43 38.00
9.4331
28 4 16.0
9.818
10
15 54 40.56
9.1841
33 35 56.3
8.700
10
17 46 4.03
9.4396
28 6 30.0
9.193
11
15 56 51.79
9.1903
33 44 35.6
8.999
11
17 48 30.27
9.4890
28 8 34.4
1.993
13
15 59 3.39
9.1964
33 63 8.1
8.488
13
17 50 56.71
9.4498
28 10 29.2
1.883
13
16 1 15.36
9.9036
24 1 34.0
8.876
13
17 53 23.35
9.4499
38 12 14.3
1.671
14
16 3 37.70
9.9087
24 9 53.3
8.968
14
17 65 50.17
9.4489
28 13 49.7
1.909
15
16 5 40.40
9.9148
24 18 5.6
8.148
16
17 58 17.17
9.4919
28 15 15.4
1AI7
16
16 7 53.47
9.9909
34 36 10.9
8.083
16
18 0 44.35
9.4444
28 16 31.3
1.183
17
16 10 6.91
9.2170
24 34 9.3
7.914
17
18 3 11.70
9.4973
28 17 37.4
14)19
18
16 13 30.71
9.9331
24 42 0.6
7.796
18
18 6 39.21
9.4906
28 18 33.6
0.894
19
16 14 34.88
9.9183
24 49 44.8
7.677
19
18 8 6.88
9.4623
28 19 19.9
0.680
30
16 16 49.41
9.9493
34 67 31.8
7.996
30
18 10 34.69
9.4648
28 19 56.3
0.934
31
16 19 4.30
9.9919
36 4 51.6
7.433
31
18 13 2.65
94671
28 20 22.8
0.399
33
16 31 19.55
9.9979
36 13 13.8
7.810
33
18 15 30.74
94603
28 20 39.3
^0039
' ' 0.149
33
16 33 35.16
9.9639
36 19 28.7
7.186
33
18 17 58.96
94713
28 20 45.8
34
16 35 51.13
9.9601
S.36 36 36.1
7.061
?4
18 20 27.30
9.4733
8.28 20 42.3
68
APRIL, 1856.
XIII.
GREENWICH MEAN TIME.
LUNAR DISTANCES.
Star's Name
P.L
P.L.
P.L.
P.L.
and
Noon.
of
np».
of
VPi.
of
IX«^
of
Poeitioa
Oiff.
DilL
Difl.
DHL
O / u
O 1 N
o 1 n
O 1 M
1
Antares
W.
71 29 7
S180
73 18 5
9166
75 7 25
9161
76 57 7
91S7
Venus
E.
23 53 16
Sfl75
22 13 47
9668
20 34 1
9661
18 53 59
96U
Son
E.
52 35 23
9488
50 53 46
9467
49 11 47
9468
47 29 27
9486
3
Antares
W.
86 10 33
aom
88 2 8
906ft
89 54 1
9066
91 46 10
9066
Son
E.
38 52 53
387S
37 8 39
9869
35 24 9
9861
33 39 23
9941
7
Son
W.
31 19 3
9486
33 0 83
9619
34 41 19
9580
36 21 51
9648
Saturn
E.
35 50 36
997ft
34 4 0
9907
32 17 56
9890
30 32 26
9846
Pollux
E.
62 3 51
9193
60 15 12
9908
58 26 57
9996
56 39 6
9941
Regulus
E.
98 42 20
9901
96 53 54
2917
95 5 52
9988
93 18 14
9960
8
Sun
W.
44 38 10
9649
46 16 8
9669
47 53 39
9081
49 30 44
flOI
Pollux
E.
47 46 16
9811
46 1 1
9849
44 16 13
9808
42 31 52
9887
ReffuluB
E.
84 26 25
9380
82 41 22
9867
80 56 45
9875
79 12 35
9»4
Mars
E,
127 1 43
9916
125 13 39
9984
123 26 2
9351
121 38 51
9970
0
Sun
W.
57 29 95
9809
59 3 49
9894
60 37 46
9844
62 11 17
9864
Pollux
E.
33 56 54
9489
32 15 16
9S09
30 34 5
9591
28 53 21
9640
Regulus
E.
70 38 34
9480
68 57 6
9800
67 16 5
9096
65 35 31
9»n
Mars
E.
112 49 44
9869
111 5 15
9881
109 21 13
9800
107 37 37
94n
10
Sun
W.
69 52 32
9969
71 23 39
9089
72 54 7
8001
74 24 18
8090
Aldebaran
W.
25 1 16
9968
26 32 53
9090
28 4 47
9000
29 36 55
9003
Regulus
E.
57 19 12
9641
55 41 13
9660
54 3 39
9678
52 26 30
9600
Mars
E.
99 6 6
9S07
97 25 3
9695
95 44 25
9543
94 4 11
9550
Spica
E.
HI 19 54
9681
109 41 41
9648
108 3 51
9666
106 26 25
9688
11
Son
W.
81 49 36
8100
83 17 35
8196
84 45 13
8148
86 12 31
8168
Aldebaran
W.
37 18 19
9000
38 50 26
9016
40 22 25
9039
41 54 16
9099
Saturn
W.
19 23 43
9064
20 54 41
9967
22 25 48
9058
23 57 0
9964
Regulus
E.
44^ 40
9784
42 51 51
9801
41 17 24
9618
39 43 19
9BU
Mars
E.
85 48 45
9641
84 10 46
9066
82 33 7
9679
80 55 49
9687
Spica
E.
98 24 55
9766
96 49 42
9789
95 14 50
9706
93 40 17
9811
13
Son
W.
93 24 21
8988
94 49 51
8947
96 15 5
8960
97 40 3
8974
Aldebaran
W.
49 31 3
9971
51 1 52
9070
52 32 31
9986
54 2 59
9006
Saturn
w.
31 32 12
9on
33 2 54
9085
34 33 26
9009
36 3 49
990O
Regulus
E.
31 58 12
9016
30 26 13
90S9
28 54 35
9049
27 23 18
»65 1
Mars
E.
72 54 4
9764
71 18 36
9767
69 43 25
9770
68 8 30
9791
Spica
E.
85 52 14
9880
84 19 30
9808
82 47 2
9005
81 14 50
9on
13
Son
W.
104 41 19
8881
106 4 56
8840*
107 28 21
8860
108 51 34
8869
Aldebaran
W.
61 32 44
8087
63 2 1!
8044
64 31 29
8060
66 0 38
8098 1
Saturn
W.
43 33 22
8088
45 2 48
8045
46 32 5
8059
48 1 13
1
8050
Pollux
W.
17 14 0
9081
18 44 37
9067
20 15 6
9004
21 45 26
8001
Mars
E.
60 17 33
9844
58 44 2
9858
57 10 43
•9869
55 37 35
9870
Spica
E.
73 37 23
9970
72 6 33
9080
70 35 55
9080
69 5 28
9097
14
Sun
W.
115 45 18
8808
117 7 37
8406
118 29 48
8411
119 51 52
8415 1
Aldebaran
W.
73 24 25
8088
74 52 49
8008
76 21 7
8008
77 49 19
8109
Saturn
W.
55 24 56
8080
56 53 19
8004
58 21 36
8009
59 49 47
8109
Pollux
W.
29 14 57
8084
30 44 28
8089
32 13 52
8044
33 43 10
8050
Mars
E.
47 54 30
9007
46 22 20
9018
44 50 18
9919
43 18 23
9994
Spica
E.
61 35 39
8088
60 6 7
8080
58 36 43
8045
57 7 26
8061
XIV.
APRIL, 1856.
69
GREENWICH MEAN
TIME.
LUNAB DISTANCES.
Ster*! Nu
M
P.L
P.L.
P.L.
P.L.
•ad
Potion
Midnight.
of
Diff.
XVii.
of
DilL
xvmh.
of
Difl.
XXP^
of
1
Antares
w.
O 1 II
78 47 9
9134
O 1 M
80 37 32
3111
0 1 a
82 28 14
9000
O 1 M
84 19 15
3088
Venas
E.
17 13 43
3983
15 33 15
3630
13 52 42
3637
19 12 6
3636
Sun
E.
45 46 47
3434
44 3 47
3410
42 20 27
3808
40 36 49
3886
3
Antares
W.
93 38 33
3037
95 31 10
9038
97 24 0
3091
99 17 2
3014
Sun
E.
31 64 23
3ni
30 9 9
3833
28 23 42
3814
26 38 3
3807
7
Sun
W.
38 1 58
3666
39 41 40
3686
41 20 56
9004
42 59 46
9098
Saturn
E.
28 47 33
837S
27 S 90
9406
25 10 49
9486
23 37 4
3470
Pollux
E.
54 51 40
3360
53 4 40
3977
51 18 6
9904
49 31 58
3813
Regulus
E.
91 31 1
3367
89 44 13
3966
87 57 51
9803
86 11 55
9830
8
Sun
W.
51 7 22
3113
52 43 33
9749
54 19 17
9768
55 54 34
8783
Pollux
E.
40 47 58
3405
39 4 31
3434
37 21 3!
3444
35 38 59
3408
Regulua
E.
77 28 52
3114
75 45 37
3488
74 2 49
3463
72 20 28
3471
Mars
E.
119 52 7
39B9
118 5 51
3807
116 20 2
3836
114 34 40
38U
9
Sun
W.
63 44 22
38BS
65 17 2
3008
66 49 17
3038
68 21 7
9043
Pollux
E.
27 13 4
3660
25 33 14
3670
23 53 50
3600
22 14 53
9618
Regulua
E.
63 55 23
3666
62 15 42
3666
60 36 26
3604
58 57 36
9098
Mars
E.
105 54 27
9416
104 11 43
3464
102 29 25
3473
100 47 33
9480
10
Sun
W.
75 54 6
8010
77 23 31
8066
78 52 34
8074
80 21 15
8001
Aldebaran
W.
31 9 10
3809
32 41 30
3000
34 13 49
3801
35 46 6
3006
Refrulus
E.
50 49 45
3714
49 13 24
3789
47 37 26
3760
46 1 52
9766
Mars
E.
92 24 20
9977
90 44 53
9803
89 5 48
3610
87 27 6
9696
Spica
E.
104 49 22
9700
103 12 42
3716
101 36 24
3784
100 0 29
3760
11
Sun
W.
87 39 30
8174
89 6 10
8100
90 32 3!
8306
91 58 34
8990
Aldebaran
W.
43 25 58
9087
44 57 30
9046
46 28 52
3064
48 0 3
9069
Saturn
W.
25 28 U
99M
26 59 20
9030
28 30 24
3064
30 1 22
9070
Regulus
E.
38 9 35
9SA1
36 36 13
9867
35 3 12
3883
33 30 32
9800
Mars
E.
79 18 51
9701
77 42 12
9714
76 5 5!
3790
74 29 49
3741
Spica
E.
92 6 3
3896
90 32 8
3840
88 58 32
3864
87 25 14
9868
19
Sun
W.
99 4 46
8986
100 29 14
8907
101 53 29
8800
103 17 30
8810
Aldebaran
W.
55 33 17
8006
57 3 24
8013
58 33 21
8099
60 3 7
8090
Saturn
W.
37 34 3
8007
39 4 7
8014
40 34 2
8099
42 3 47
8080
Regulus
E.
25 52 22
9088
24 21 48
8001
22 51 37
8091
21 21 50
8043
Mars
E.
66 33 50
3809
64 59 25
9813
63 25 14
9894
61 51 17
9884
Spica
E.
79 42 53
90-28
78 11 10
9080
76 39 41
3060
75 8 26
9060
13
Sun
W.
110 14 38
8868
111 37 31
8878
113 0 15
8883
114 22 51
8801
Aldebaran
W.
67 29 39
8066
68 58 32
8071
70 27 17
8078
71 55 64
8089
Saturn
W.
49 30 13
8066
50 59 6
8079
62 27 49
8078
63 56 26
8063
Pollux
W.
23 15 37
8000
24 45 39
8016
26 15 33
8099
27 45 19
8098
Mars
E.
54 4 38
9870
52 31 52
9886
60 59 15
9804
49 26 48
9001
Spica
E.
67 35 U
8006
66 5 4
8013
64 35 7
8090
63 5 19
8096
14
Sun
W.
121 13 51
8491
122 35 44
8496
123 57 32
8430
125 19 16
8484
Aldebaran
W.
79 17 26
8106
80 45 28
8111
82 13 24
8114
83 41 16
8117
Saturn
W.
61 17 53
8107
62 45 54
8111
64 13 50
8114
66 41 42
8117
Pollux
W.
35 12 21
8064
36 41 27
8068
38 10 28
8062
39 39 24
8066
Mars
E.
41 '46 34
90»
40 14 52
3033
38 43 15
9038
37 11 44
9019
Spica
E.
55 38 16
8066
54 9 12
8060
52 40 13
8064
61 11 19
8068
1
70
APRIL, 1856.
XV.
GREENWICH MEAN
TIBfE.
LUNAB DISTANCES.
^3
Star's Nu
M
P.L.
P.L.
P.L.
P.L.
•ad
Noon.
of
IIP».
of
Vlh.
of
IXh.
of
Poaitioa
DUL
Diff.
DUL
IMS.
O 1 H
O 1 II
O 1 II
O 1 u
14
Antares
E.
107 28 12
8030
105 58 36
8086
104 29 7
8041
102 50 45
80IS
15
Sun
W.
126 40 53
8486
128 S 27
8488
129 23 59
SMI
130 45 29
S««l
Aldebaran
W.
85 9 5
3120
86 36 50
8193
88 4 32
8196
89 32 11
8197
Saturn
W.
67 0 31
8190
68 37 16
8193
70 4 58
8194
71 32 38
8198
Pollux
W.
41 8 17
8068
42 37 6
8070
44 5 52
8078
45 34 35
8074
Mare
E.
35 40 18
3046
34 8 56
9048
32 37 38
9951
31 6 24
9098
Spica
E.
49 42 30
8S7I
48 13 45
8078
46 45 3
aon
45 16 25
8019
Aotares
E.
95 34 18
8085
94 5 26
8066
92 36 37
8071
91 7 52
SOTS
16
Aldebaran
W.
96 49 57
8188
98 17 26
3183
99 44 55
8184
101 12 23
8138
Saturn
W.
78 50 34
8180
80 18 7
3130
81 45 40
8180
83 13 13
8198
Pollux
W.
52 57 44
8070
54 26 19
8070
55 54 54
8070
57 23 29
8918
RegnloB
W.
16 44 23
8104
18 10 39
8170
19 37 13
8165
21 4 4
8153 1
Mara
E.
23 30 50
SMI
21 59 48
9909
20 28 47
9989
18 57 47
9089
Spica
E.
37 53 51
8087
36 25 25
806ry
34 57 0
8086
33 28 36
8068
Antares
E.
83 44 34
8078
82 15 58
8076
80 47 31
8976
79 18 44
aon
17
Saturn
W.
90 31 16
8199
91 58 59
8190
93 26 44
9118
94 54 32
8110
Pollux
W.
64 46 44
8071
66 15 29
8000
67 44 17
8066
69 13 8
8064
Regulus
W.
28 21 17
8114
29 49 10
8106
31 17 10
8109
32 45 17
8006
Antares
E.
71 55 22
8070
70 26 36
8008
68 57 47
8066
67 28 56
8068
18
Saturn
W.
102 14 22
8100
103 42 32
8006
105 10 47
8009
106 39 6
8080
Pollux
W.
76 38 17
8047
78 7 32
8048
79 36 51
8080
81 6 15
8064
Regulus
W.
40 7 32
8070
41 36 18
8005
43 5 11
8000
44 34 11
88M
Antases
E.
60 3 43
8048
58 34 27
8048
57 5 7
8080
55 35 42
8084
10
Pollux
W.
88 34 42
8011
90 4 41
8005
91 34 47
8001
93 4 59
8961
Reffulus
W.
52 0 49
8096
53 30 30
8090
55 0 18
8014
56 30 13
8008
Mare
W.
13 4 45
9007
14 36 55
90oa
16 9 11
9607
17 41 34
9861
Antares
E.
48 7 14
8010
46 37 14
8005
45 7 8
8000
43 36 55
9966
a Aquils
E,
98 24 34
8879
97 10 46
8869
95 56 48
8889
94 42 39
86tt
20
Pollux
W.
100 37 47
9866
102 8 43
9060
103 39 46
9054
105 10 57
9616
Regulus
W.
64 1 43
9on
65 32 24
9870
67 3 14
9fTM
68 34 12
9886
Mare
W.
25 25 16
9863
26 58 22
9606
28 31 35
9659
30 456
»46
Antares
E.
36 4 9
9866
34 33 14
9060
33 2 11
90M
31 31 0
IMS
a Aquils
E.
88 29 52
8610
87 15 0
8805
86 0 3
8809
84 45 3
8600
21
Regulus
•w.
76 11 8
9094
77 42 57
9016
79 14 56
9006
80 47 4
9001
Mare
W.
37 53 35
9616
39 27 43
9800
41 1 59
9609
42 36 24
9706
Spica
w.
22 8 44
9085
23 40 19
9096
25 12 5
9916
26 44 3
9807
a Aquils
E.
78 29 51
8804
77 14 53
8806
75 59 59
8814
74 45 11
8890
22
Regulus
W.
88 30 3
9665
90 3 7
9816
91 36 22
9848
93 9 47
9841
Mare
W.
50 30 39
9769
52 5 57
fnu
53 41 25
9747
55 17 2
9741
Spica
W.
34 26 42
9864
35 59 47
9816
37 33 2
9848
39 6 28
9836
a Aquils
E.
68 33 16
8874
67 19 30
8600
66 6 0
8806
64 52 48
8697
Fomalhaut
E.
94 8 7
8046
92 38 51
8086
91 9 25
8080
89 39 60
80«9
Jupiter
E.
120 9 56
9085
118 38 21
9895
117 6 34
9017
115 34 37
9006
23
Regulus
W.
100 59 26
9600
102 33 54
9709
104 8 33
3783
105 43 23
9fn4
Mare
W.
63 17 33
9709
64 54 10
9004
66 30 58
9867
68 7 56
9678
Spica
W.
46 56 28
9705
48 31 2
9766
50 5 47
9T78
51 40 44
9700
XVI.
APRIL, 1856.
71
GREENWICH MEAN TIME.
LUNAE DISTANCES.
1
Sterns Name
P.L.
P.L.
P.L.
P.L.
i
ud
Midnight.
of
XVii.
of
XVUl*^
of
xjah.
of
PositioiL
DUt
Diff.
DUL
DIS.
O 1 »
o < u
O 1 H
O f N
14
Antares
E.
101 30 20
8051
100 1 19
'OOM
98 32 14
8060
97 3 14
800
15
Sun
W.
132 6 67
844fi
133 28 23
8446
134 49 48
8146
136 11 12
8447
Aldebaran
W.
90 59 48
S139
92 27 23
8130
93 54 56
8183
95 22 27
8188
Saturn
W.
73 0 16
S198
74 27 52
8139
75 55 27
8199
77 23 1
8180
Pollax
W,
47 3 16
8076
48 31 55
8078
50 0 32
8078
51 29 8
8078
Mars
E.
29 35 12
90M
28 4 3
3968
26 32 57
9950
25 1 53
3900
Spica
E.
43 47 50
8061
42 19 18
8003
40 50 47
8084
39 22 18
8086
Antares
E.
89 39 9
8074
88 10 28
8076
86 41 49
8077
85 13 11
8078
16
Aldebaran
W.
102 39 52
8188
104 7 21
8188
105 34 50
8188
107 2 20
8189
Saturn
W.
84 40 47
8190
86 8 22
8138
87 35 58
8136
89 3 36
8134
Pollux
W.
58 52 5
8018
60 20 42
8076
61 49 21
8076
63 18 1
8078
Regulua
W.
22 31 10
8148
23 58 27
8184
25 25 55
8137
26 53 32
8130
Mars
E.
17 26 47
3903
15 55 47
3903
14 24 47
3963
12 53 46
9903
Spica
E.
32 0 12
8066
30 31 48
8088
29 3 24
8088
27 35 0
8088
Antares
E.
77 50 6
8on
76 21 28
8076
74 52 48
8078
73 24 6
8079
17
Saturn
w.
96 22 23
8118
97 50 17
8110
99 18 15
8106
100 46 17
8104
Pollux
W.
70 42 2
8001
72 10 59
3067
73 40 1
8054
75 9 7
8051
Regulus
W.
34 13 31
8001
35 41 52
3086
37 10 19
8081
38 38 52
8071
Antares
E.
66 0 1
8000
64 31 2
30fi7
63 2 0
8064
61 32 54
8060
18
Saturn
W.
108 7 29
8066
109 35 57
8080
111 4 31
8076
112 33 10
wn
Pollux
W.
82 35 45
8030
84 5 21
3036
85 35 2
8031
87 4 49
8010
Regulus
W.
46 3 17
8048
47^ 30
8043
49 1 49
8098
60 31 15
8081
Antares
E.
54 6 12
8090
52 36 36
8036
51 6 55
8031
49 37 8
8015
19
PoUux
W.
94 35 18
9060
96 5 44
3963
97 36 18
3077
99 6 59
9073
Regulus
W.
58 0 16
8003
59 30 26
3906
61 0 44
3980
62 31 10
9984
Mars
W.
19 14 4
9880
20 46 41
3880
22 19 25
3874
23 52 17
3860
Antares
E.
42 6 36
3989
40 36 10
3984
39 5 37
3878
37 34 57
3973
a Aquil»
E.
93 28 21
8834
92 13 54
8837
90 59 20
8630
89 44 39
8616
20
Pollux
W.
106 42 17
9040
108 13 45
9984
109 45 21
3937
HI 17 5
9931
Regulus
w.
70 5 18
3900
71 36 33
9944
73 7 56
3987
74 39 28
3981
Mars
W.
31 38 24
3840
33 12 0
9834
34 45 44
3838
36 19 35
383]
Antares
E.
29 59 42
3043
28 28 16
3985
26 56 42
3938
25 24 59
3938
a Aquila
E.
83 30 1
8799
82 14 58
3790
80 59 55
8799
79 44 52
8801
21
Regulus
W.
82 19 21
9894
83 51 47
3887
85 24 23
3860
86 57 8
3671
Mars
W.
44 10 57
9789
45 45 39
3783
47 20 30
9776
48 55 30
9761
Spica
W.
28 16 13
3898
29 48 34
9890
31 21 6
3881
32 53 49
9671
a AquilsQ
E.
73 30 29
8817
72 15 55
8887
71 1 31
8847
69 47 17
8651
22
Regulus
W.
94 43 22
3883
96 17 7
3835
97 51 3
9817
99 25 9
9808
Mars
W.
56 52 48
3788
58 28 44
3736
60 4 50
3718
61 41 6
9710
Spica
W.
40 40 6
3830
42 13 55
3831
43 47 55
3813
45 22 6
9801
a Aquils
E.
63 39 56
8950
62 27 27
8976
61 15 23
4004
60 3 47
4084
Fomalhaut
E.
88 10 5
8014
86 40 10
3007
85 10 6
8000
83 39 52
9998
Jupiter
E.
114 2 28
3900
112 30 9
3891
110 57 38
3883
109 24 57
9878
23
Regulus
W.
107 18 25
3766
108 53 38
3757
110 29 2
3748
112 4 38
9789
Mars
W.
69 45 5
3670
71 22 25
3661
78 59 67
3653
74 37 41
9644
Spica
W.
53 15 53
3760
54 51 14
3750
56 26 47
3741
58 2 33
9789
72
APRIL, 1856.
XVII,
1
GREENWICH MEAN TIME. |
'
LUNAR DISTANCES.
!
1
h
^
Star'a Nams
P.L.
P.L.
PL.
P.L. 1
and
Noon.
of
Illh.
of
Vlh.
of
rx>.
of ,
Poaition.
Oiff.
DilL
Difl.
JMff.
O 1 N
O 1 II
o ( h
O 1 u
23
a Aquilae
E.
58 52 41
4008
57 42 8
4105
66 32 11
4145
65 22 53
4191
Fomalhaut
E.
82 9 30
3965
80 38 59
2078
79 8 19
2073
77 37 31
396»
Jupiter
E.
107 52 4
98S5
106 19 0
3856
104 45 45
3848
103 12 19
9888
Venus
E.
121 0 42
81190
119 35 7
8390
118 9 21
8910
116 43 24
«•!
24
Man
W.
76 15 36
9835
77 63 43
3096
79 32 2
3018
81 10 33
9008
Spica
w.
59 38 31
aia
61 14 42
arns
62 61 6
9709
64 27 43
9093
Antares
w.
13 44 35
3796
16 20 40
3716
16 56 59
3704
18 33 33
9094 ■
Fomalhaut
E.
70 1 39
9080
68 30 9
3984
66 68 33
3090
65 26 61
3994 i
aPeijasi
E.
01 24 40
8059
89 55 32
8048
88 26 12
8034
86 66 41
8090 '
Jupiter
E.
95 22 10
3703
93 47 32
9789
92 12 40
3779
90 37 36
97W
Venus
E.
109 30 40
8149
108 3 30
8180
106 36 8
8198
106 8 32
8118
Sun
E.
132 45 45
8058
131 16 44
8048
129 47 31
8038
128 18 6
8097 j
25
Mars
W.
89 26 20
3561
91 6 9
9501
92 46 12
3540
'94 26 29
9S90
Spica
W.
72 34 10
. 3641
74 12 9
3830
75 50 23
3090
77 28 51
9000 j
AnUres
W.
26 39 59
3640
28 17 69
3039
29 66 14
9018
31 34 45
9007
Fomalhaut
E.
. 67 47 21
3915
56 15 21
3910
54 43 22
3010
53 11 24
9019 .
aPegasi
E.
79 26 31
3067
77 56 2
3961
76 25 24
2075
74 64 40
99S9 1
Jupiter
E.
82 38 53
3710
81 2 26
9099
79 25 45
3080
77 48 50
90n j
Venus
E.
97 47 15
8061
96 18 18
8000
94 49 7
8038
93 19 41
8096 1
Sun
E.
120 47 34
3973
119 16 46
3001
117 45 44
3940
116 14 27
9B87 1
26
Mars
W.
102 51 30
3477
104 33 15
3407
106 16 15
3465
107 57 31
9445 1
Spica
W.
85 45 0
3559
87 25 1
3540
89 5 18
3090
00 45 51
9517 1
Antares
W.
39 51 7
3551
41 31 10
9588
43 11 30
9097
44 52 6
9515 ]
Fomalhaut
E.
45 32 54
3064
44 1 44
3008
42 30 61
9985
41 0 19
8000 >
a Pegasi
E.
67 19 32
3058
65 48 20
3059
64 17 7
3053
62 45 54
9954 1
Jupiter
E.
69 40 24
^21
68 1 67
3008
66 23 13
3006
64 44 13
9564 '
Venus
^.
85 48 46
3064
84 17 48
3051
82 46 34
3980
81 15 4
9090
Sun
E.
108 34 16
3877
107 1 28
3865
105 28 24
3859
103 65 3
9888
27
Mars
W.
116 32 49
3886
118 16 41
3876
120 0 52
9864
121 46 17
1
9859
Spica
W.
99 12 45
3457
100 54 59
3445
102 37 30
3489
104 20 19
9490 i
Antares
W.
53 19 17
»55
65 1 34
3449
56 44 9
3439
58 27 2
9417
a Pegasi
E.
55 10 47
3061
53 40 11
3009
52 9 60
8006
50 39 47
8094
Jupiter
E.
56 25 0
3532
54 44 18
3510
53 3 19
3496
51 22 3
9485
Venus
E.
73 33 26
3850
72 0 15
9846
70 26 47
3833
68 53 1
9819.
Sun
E.
96 4 5
3774
94 29 3
3760
92 63 43
9747
91 18 6
9714
28
Antares *
W.
67 5 52
3355
68 50 32
3349
70 36 30
3881
72 20 45
1
9818
Jupiter
E.
42 51 16
3433
41 8 13
3410
39 24 53
3806
37 41 15
9980
Venus
E.
60 59 49
3751
59 24 17
3788
57 48 27
3735
56 12 20
9T11
Sun
E.
83 15 34
3607
81 38 10
3656
80 0 29
9641
78 22 30
908
29
Antares
W.
81 11 26
3356
82 58 28
3947
84 45 46
3335
86 33 21
9935
Jupiter
E.
28 58 45
3836
27 13 24
3815
25 27 47
3804
23 41 64
3996 1
Venus
E.
48 7 19
3647
46 29 28
3685
44 51 20
3093
43 12 55
9010
Sun
E.
70 8 9
3064
68 28 24
3553
66 48 23
3540
65 8 5
9598 ,
30
Antares
W.
95 35 11
3178
97 24 19
9184
99 13 41
3155
101 3 17
9146
a Aquil»
W.
53 17 35
8646
64 35 20
8500
55 54 28
8500
67 14 52
8487
Venus
E.
34 56 52
3555
33 16 55
3545
31 36 44
3535
29 56 20
9897
Sun
E.
56 42 38
3474
55 0 48
34^4
53 18 44
2454
61 36 26
9M. 1
1
XFIII.
APRIL, 1856.
73
GREENWICH MEAN TIME.
LUNAB DISTANCES.
id
Star's Name
P.L.
P.L.
P.L.
P.L.
23
and
Midnight.
of
XVix.
of
xvinh.
of
XXP^
of
Potitton
Dlff.
DUL
Diff.
DUL
a Aquilae
E.
O 1 «
54 14 18
40*0
O 1 N
63 6 30
4906
O 1 II
51 59 34
4356
O 1 /(
50 53 35
4427
Fomalhaut
E.
76 6 35
99M
74 35 31
9054
73 4 21
9948
71 33 3
9048
Jupiter
E.
101 38 41
3830
100 4 52
9890
98 30 50
9811
96 56 36
9801
Venus
E.
116 17 15
8191
113 60 55
•180
112 24 22
8170
110 57 37
8100
34
W.
82 49 17
m»
84 28 13
9500
86 7 22
9580
87 46 44
9870
Spica
W.
66 4 33
9683
67 41 37
9079
69 18 54
9669
70 56 25
9009
AnUres
W.
20 10 21
9683
21 47 24
9679
23 24 41
9061
25 2 13
9051
Fomalhattt
E.
63 65 3
9921
62 23 11
9090
60 61 17
9017
69 19 20
9016
m Pegasi
E.
85 26 69
8016
83 57 6
8000
82 27 4
8001
80 56 52
9008
Jupiter
E.
89 2 18
2759
87 26 47
9749
85 51 3
2782
84 15 5
9791
Venoa
E.
103 40 44
8106
102 12 42
8006
100 44 27
8084
99 15 68
8078
Sun
E.
126 48 26
8017
125 18 34
8005
123 48 28
9004
122 18 8
9088
S5
Mars
W.
96 7 0
9590
97 47 45
9010
99 26 46
9480
101 10 0
9486
Spica
W.
79 7 34
9507
80 46 33
9087
82 25 46
9375
84 6 15
9004
AnUres
W.
33 13 31
9506
34 62 32
9585
36 31 48
9078
38 11 20
9509
Fomalhaot
E.
51 39 29
9098
50 7 39
sam
48 35 65
9035
47 4 20
9049
m Pegasi
E.
73 23 48
9004
71 52 50
9961
70 21 48
2956
68 50 42
9954
Jupiter
E.
76 11 39
9666
74 34 13
9055
72 66 32
9643
71 18 36
9689
Venus
E.
91 60 0
80U
90 20 6
8001
68 49 64
9080
87 19 28
9077
Sum
E.
114 42 55
9095
113 11 8
9018
HI 39 6
2901
110 6 49
9880
26
Mars
W.
109 40 2
9433
111 22 49
9499
113 5 63
9410
114 49 13
9800
Spica
W.
92 26 40
9506
94 7 46
9403
95 49 9
9482
97 30 48
9460
AnUres
W.
46 32 59
9508
48 14 8
9401
49 55 34
9170
51 37 17
9467
Fomalhaut
E.
39 30 12
8090
38 0 34
8060
36 31 35
8006
35 3 20
8185
aPegasi
E.
61 14 43
9056
59 43 35
9000
68 12 32
9065
56 41 35
9979
Jupiter
E.
63 4 66
9579
61 25 22
9860
59 45 32
0548
68 5 25
9585
Venus
E.
79 43 18
9019
78 11 15
9800
76 38 55
9887
75 6 19
9678
Bun
E.
102 21 25
9895
100 47 30
9819
99 13 18
9800
97 38 50
2787
27
Mars
W.
193 30 1
9841
125 15 1
9t98
127 0 19
9817
128 45 64
9806
Spica
W.
106 3 25
9406
107 46 49
9806
109 30 30
9383
HI 14 29
2871
Antares
W.
60 10 12
9405
61 53 40
9809
63 37 26
9380
65 21 30
9867
aPegasi
E.
49 10 4
8044
47 40 46
8068
46 11 57
3096
44 43 43
8199
Jupiter
E.
49 40 29
9479
47 68 37
9400
46 16 28
9448
44 34 1
9435
Venus
E.
67 18 68
9605
65 44 37
9709
64 9 59
2779
62 35 3
2766
Sun
E.
89 42 11
9790
88 6 58
9107
86 29 28
9004
84 52 40
9081
28
Antares
W.
74 6 18
9807
76 52 8
9994
77 38 16
9981
79 24 42
9270
Jupiter
E.
35 57 20
9878
34 13 7
9869
32 28 37
9349
30 43 49
9388
Venus
E.
64 35 55
9008
52 59 12
9085
51 22 12
9679
49 44 54
9659
Sun
E.
76 44 13
9015
75 6 39
9009
73 26 46^
9S60
71 47 37
9676
29
Antares
W.
88 21 12
9914
90 9 19
9004
91 67 41
9194
93 46 18
2188
Jupiter
E.
21 55 47
9«5
20 9 25
9975
18 22 49
8906
16 35 59
9907
Venus
E.
41 34 13
9608
39 55 15
9588
38 16 3
9576
36 36 35
2905
Sun
E.
63 27 31
9517
61 46 41
9505
60 5 35
9494
58 24 14
9484
30
Antares
W.
102 53 6
9138
104 43 7
9180
106 33 20
9193
108 23 44
9116
a Aquils
w.
58 36 27
8879
59 59 B
8395
61 22 51
3276
62 47 31
8981
Venus
E.
28 15 45
9510
26 34 58
9511
24 54 0
9504
23 12 52
9497
Sun
E.
49 63 55
9436
48 11 12
9499
46 28 18
9421
44 45 13
9413
10
74
MAY, 1856.
1
AT
GREENWICH APPARENT NOON.
SlderoU
THE SUN'S
of the
Equttaof
t
j
Semidl-
lobt
DUL
i
tmeter
iMnettd
for
pMcing
the
jTOfft
Apparent
Ihoar.
^
ys
Hfliid-
Tinu,
K
K
Appareni
DIftfor
Appareni
SUMtoi
SmdI-
ko.
A
A
Ihonr.
Ihoar.
diMMtor.
h. m. •.
a.
O 1 «
N
1 n
a.
m. 1.
a.
Thur.
1
2 35 18.32
9.552
N.15 13 15.8
45.11
15 54.01
66.07
3 4.59
0.304
Fri.
2
2 39 7.83
9.575
15 31 10.8
44.47
15 53.77
66.15
3 11.62
0.282
Sat.
3
2 42 57.88
9.598
15 48 50.5
43.82
15 53.53
66.23
3 18.11
0.258
Sun.
4
2 46 48.51
9.621
16 6 14.4
43.16
15 53.30
66.32
3 24.01
0.285
Mon.
5
2 50 39.71
9.645
16 23 22.5
42.50
15 53.07
66.40
3 29.36
0.211
Tues.
6
2 54 31.46
9.668
16 40 14.3
41.81
15 52.84
66.48
3 34.14
0.188
Wed.
7
2 58 23.76
9.692
16 56 49.3
41.11
15 52.62
66.57
3 38.39
0.165
Thur.
8
3 2 16.62
9.715
17 13 7.2
40.89
15 52.41
66.65
3 42.06
0.141
Fri.
9
3 6 10.04
9.738
17 29 7.9
89.66
15 52.20
66.74
3 45.19
0.118
Sat
10
3 10 4.05
9.762
17 44 51.1
88.92
15 51.99
66.82
3 47.75
0.095
Sun.
11
3 13 58.60
9.785
18 016.4
38.17
15 51.78
66.91
3 49.76
0.072
Mon.
12
3 17 53.70
9.809
18 15 23.2
37.41
15 51.56
66.99
3 51.21
0.049
Tues.
13
3 21 49.39
9.832
18 30 12.0
36.64
15 51.36
67.07
3 52.08
0.026
Wed.
14
3 25 45.62
9.855
18 44 42.0
35.85
15 51.22
67.16
3 52.41
0.002
Thur.
15
8 29 42.41
9.878
18 58 52.8
35.05
15 51.03
67.24
3 52.17
0.021
Fri.
16
3 33 39.74
9.901
19 12 44.5
34.24
15 50.84
67.32
3 51.40
0.044
Sat
17
3 37 37.64
9.924
19 26 16.6
38.42
15 50.65
67.40
3 50.06
0.067
Sun.
18
3 41 36.07
9.947
19 39 29.1
32.59
15 50.46
67.48
3 48.18
0.090
Mod.
19
3 45 35.07
9.969
19 52 21.6
31.78
15 50.28
67.56
3 45.74
0.118
Tues.
20
3 49 34.63
9.992
20 4 53.7
30.91
15 50.10
67.64
3 42.75
0.186
Wed.
21
3 53 34.71
10.015
20 17 5.4
30.05
15 49.92
67.71
3 39.24
0.167
Thur.
22
3 57 35.34
10.037
20 28 56.3
29.18
15 49.74
67.79
3 35.17
0.180
Fri.
23
4 1 86.51
10.059
20 40 26.3
28.31
15 49.57
67.86
3 30.57
0.202
I Sat
24
4 5 38.23
10.081
20 51 35.1
27.42
15 49.40
67.93
3 25.43
0.SS4
; Sun.
25
4 9 40.48
10.103
21 2 22.7
26.63
15 49.23
68.00
3 19.76
0.946
1 Mon.
26
4 13 43.22
10.124
21 12 48.6
26.62
15 49.07
68.07
3 13.61
0.267
Tues.
1
27
4 17 46.44
10.145
21 22 52.6 »4.70
15 48.91
68.13
3 6.94
0.288
; Wed.
28
4 21 50.18
10.165
21 32 34.5 38.78
15 48.75
68.20
2 69.77
0.308
' Thur.
29
4 25 54.39
10.185
21 41 54.2 22.85
15 48.59
68.25
2 52.14
0.328
1 Fri.
30
4 29 59.06
10.203
21 50 51.3 21.91
15 48.44
68.31
2 44.05
0.847
Sat
31
4 34 4.19
10.221
21 59 25.7
20.96
15 48.30
68.37
2 35.51
0.865
S»m.
32
4 88 9.72
10.239
N.22 7 87.3
19.99
15 48.16
68.43
2 26.55
0.888 1
Hon.-
-K«MllaM0f Um
SemkUuM
itv pwdac anj b. tMa< by
mbinedof Oi IB tnm Um
Stdmal Time. 1
II.
MAY, 1856.
76
AT GREENWICH MEAN
NCX)N,
THE SUN'S
i
i
i
1
,
Iqoationof
TliiMs
adiUdto
Mean
Tim$,
for
Ihoor.
8id«ml
Tima.
Jpptnni
Dlltfor
Ihoor.
Appareni
Deolinatton.
DUE. for
Ihoor.
Thur.
Fri.
Sat
1
2
3
h. m. a.
2 35 18.81
2 39 8.34
2 42 58.41
a.
9.562
9.675
9.698
N.15 13 18.1
15 31 13.2
15 48 52.9
46.11
44.47
48.82
m. a.
3 4.60
3 11.63
3 18.12
a.
0.804
0.282
0.268
h. m. a.
2 38 23.41
2 42 19.97
2 46 16.53
Sun.
Mon.
Tue8.
4
5
6
2 46 49.06
2 50 40.27
2 54 32.04
9.621
9.645
9.668
16 6 16.8
16 23 24.9
16 40 16.7
48.16
42.60
41.81
3 24.02
3 29.37
3 34.15
0.285
0.211
0.188
2 50 13.08
2 54 9.64
2 58 6.19
Wed.
Thur.
Fri.
7
8
9
2 58 24.35
3 2 17.23
3 6 10.66
9.692
9.716
9.788
16 56 51.7
17 13 9.7
17 29 10.4
41.11
40.89
39.66
3 38.40
3 42.07
3 45.20
0.165
0.141
0.118
3 2 2.75
3 5 59.30
3 9 55.86
Sat
Sun.
Mod.
10
11
12
3 10 4.67
3 13 59.22
3 17 54.33
9.762
9.785
9.809
17 44 53.5
18 0 18.6
18 15 25.6
38.92
88.17
87.41
3 47.75
3 49.76
8 51.20
0.096
0.072
0.049
3 13 52.42
3 17 48.98
3 21 45.53
Tues.
Wed.
Thur.
13
14
15
3 21 50.02
3 25 46.25
3 29 43.04
9.882
9.865
9.878
18 30 14.4
18 44 44.4
18 58 55.2
86.64
35.85
85.05
3 52.07
3 52.40
3 52.16
0.025
0.002
0.021
3 25 42.09
3 29 38.65
3 33 35.20
Fri.
Sat
Sun.
16
17
18
3 33 40.37
3 37 38.27
3 41 36.70
9.901
9.924
9.947
19 12 46.8
19 26 18.8
19 39 31.2
84.24
83.42
32.69
3 51.39
3 50.05
3 48.17
0.044
• 0.067
0.090
3 37 31.76
3 41 28.32
3 45 24.87
Mon.
Tues.
Wed.
19
20
21
3 45 35.70
3 49 35.25
3 53 35.32
9.969
9.992
10.015
19 52 23.6
20 4 55.6
20 17 7.2
81.76
80.91
80.05
3 45.73
3 42.74
3 39.23
0.113
0.135
0.167
3 49 21.43
3 53 17.99
3 57 14.55
Thur.
Fri.
Sat
22
23
24
3 57 35.94
4 1 37.10
4 5 38.81
10.087
10.059
10.081
20 28 58.0
20 40 27.9
20 51 36.7
29.18
28.81
27.42
3 35.16
3 30.56
3 25.41
0.180
0.202
0.224
4 1 11.10
4 5 7.66
4 9 4.22
Sun.
Mod.
Tues.
25
26
27
4 9 41.05
4 13 43.74
4 17 46.97
10.103
10.124
10.145
21 2 24.2
21 12 50.0
21 22 53.9
26.68
25.62
24.70
3 19.72
3 13.59
3 6.92
0.246
0.267
0.288
4 13 0.77
4 16 57.33
4 20 53.89
Wed.
Thur.
Fri.
Sat
28
29
30
31
4 21 50.69
4 25 54.88
4 29 59.53
4 34 4.63
10.165
10.18C
10.203
10.221
21 32 35.7
21 41 55.3
21 50 52.3
21 59 26.6
28.78
22.85
21.91
20.96
2 59.75
2 52.12
2 44.03
2 35.49
0.808
0.328
0.347
0.865
4 24 50.44
4 28 47.00
4 32 43.56
4 36 40.12
Sun.
32
4 38 10.14
10.239
N.22 7 38.1
19.99
2 26.54
0.383
4 40 36.68
Ni
vn, — The Semidiam
©tor for Me
«n Noon may be assi
lined the
nunc 05 that for Apparen
tNoon.
76
MAT, 1856.
IIL
AT GREENWICH MEAN NOON. 1
THE SUN'S
1
i
1
1
Logarithm
of th«
RMUuTMtor
of the
Xirth.
Dlflr.for
Iboor.
Han Him
of
flkUmlOh.
Tnu lAMaiTODB.
DUtfbr
Iboor.
LATITUDB.
I
I'
1
a
8
122
128
124
41 li "4.7
42 14 14.2
48 12 28.1
<5 55.9
14 5.8
12 18.1
146.42
145.86
146.29
— (J.62
0.39
0.24
0.0086310
.0087890
.0088454
46.4
44.7
44.0
h. m. 1.
21 18 i.68
21 14 10.72
21 10 14.80
4
5
6
125
126
127
44 10 28.4
45 8 33.1
46 6 36.0
10 19.2
8 23.8
6 26.5
146.28
146.17
146.10
-4).ll
-M).01
0.13
.0089501
.0040531
.0041548
48.8
42.6
41.9
21 6 18.90
21 2 22.98
20 58 27.07
7
8
9
128
129
180
47 4 87.1
48 2 86.5
49 0 34.1
4 27.5
2 26.7
0 24.1
146.02
144.94
144.87
0.20
0.27
0.30
.0042537
.0043512
.0044466
41.1
40.4
89.6
20 54 81.17
20 50 85.25
20 46 89.85
10
11
12
181
182
183
49 58 80.0
50 56 24.1
51 54 16.4
58 19.9
56 13.8
54 6.0
144.79
144.72
144.65
0.31
0.30
0.24
.0045408
.0046334
.0047246
88.9
88.4
87.9
20 42 48.44
20 88 47.51
20 34 51.61
18
14
15
134
185
186
52 52 6.9
58 49 55.6
54 47 42.6
51 56.8
49 44.8
4n 31.6
144.67
144.49
144.42
0.16
H-0.06
—0.07
.0048148
.0049028
.0049902
87.4
86.9
86.4
20 80 55.70
20 26 59.78
20 23 8.88
16
17
18
187
188
189
55 45 28.0
56 48 11.8
57 40 54.1
45 16.9
48 0.5
40 42.6
144.86
144.80
144.24
0.20
0.33
0.46
.0050765
.0051617
.0052459
86.9
86.6
86.0
20 19 7.97
20 15 12.05
20 11 16.15
19
20
21
140
141
142
58 38 35.0
59 36 14.5
60 88 52.8
38 28.3
36 2.7
38 40.8
144.18
144.13
144.08
0.57
0.68
0.76
.0053292
.0054114
.0054927
84.6
84.0
88.5
20 7 20.24
20 8 24.82
19 59 28.41
22
23
24
143
144
145
61 81 80.0
62 29 6.1
68 26 41.3
31 17.8
28 53.7
26 28.7
144.04
144.00
148.96
0.81
0.83
0.82
.0055730
.0056522
.0057301
88.0
82.5
82.0
19 55 83.49
19 51 86.59
19 47 40.68
25
26
27
146
147
148
64 24 15.6
65 21 48.9
66 19 21.4
24 2.8
21 86.0
19 8.3
148.92
148.88
148.84
0.77
0.70
0.61
.0058066
.0058817
.0059550
81.5
80.9
80.2
19 43 44.77
19 89 48.85
19 85 52.94
28
29
80
149
150
151
67 16 53.0
68 14 23.8
69 11 53.8
16 89.7
14 10.4
11 40i2
148.80
148.76
148.78
0.51
0.38
0.24
.0060266
.0060962
.0061637
29.5
28.5
27.7
19 81 57.04
19 28 1.18
19 24 bm
31
82
152
153
70 9 23.0
71 6 51.4
9 9.2 148.69
6 37.4 148.65
-^.10
+0.02
.0062290
0.0062921
26.9
26.0
19 20 9.80
19 16 13.88
1ton.—Ktanmf
UMdftte.x'
to th* memm •qaii
ooxof Ju
i.Od.
IV.
MAY J 1866.
7T
GREENWICH 1
MEAN TIME.
THE
MOON'S
1
BmnwAMimnt
BOBIZOIITAL
PARALLAX.
MEBIDIAIT PAB8A0B.
^
s
AOB.
Noon.
MUidght
Noon.
SULIbr
IhODT.
MidiilgVt
DULfor
Ihoar.
Wftfor
Ihoar.
1
1^ 30.0
16 &.1
66s?r.o
+0.76
60 34.6
+0.48
h m.
22 3.4
m.
2.02
d.
26.3
2
16 33.2
16 33.3
60 38.6
+0.18
60 38.9
-0.14
22 54.5
2.09
27.3
3
16 32.3
16 30.2
60 35.2
-0.48
60 27.5
0.80
23 47.9
2.20
28.3
4
16 27.0
16 22.9
60 16.0
Ml
60 0.9
1.89
6
29.3
5
16 17.9
16 12.2
59 42.6
1.64
59 21.6
1.85
0 44.3
2.81
0.9
6
16 5.9
15 59.1
58 58.3
a.oi
58 33.3
2.13
1 43.2
2.89
1.9
7
15 52.0
15 44.8
58 7.3
2.19
S7 40.8
2.20
2 43.3
2.39
2.9
8
15 37.6
15 30.6
57 14.4
2.17
66 48.7
2.10
3 42.3
2.31
3.9
9
15 23.9
15 17.5
56 23.9
2.01
56 0.5
1.88
4 38.3
2.16
4.9
10
15 11.6
15 6.2
55 38.8
1.72
55 19.2
1.54
5 29.9
1.98
5.9
11
15 1.5
14 57.4
55 1.8
1.86
54 46.7
1.15
6 17.3
1.82
6.9
12
14 53.9
14 51.2
54 34.1
0.94
54 24.0
0.72
7 0.9
1.69
7.9
13
14 49.2
14 47.8
54 16.5
0.52
54 11.4
-0.32
7 41.8
1.60
8.9
14
14 47.0
14 46.9
54 8.7
-0.12
54 8.4
+0.07
8 21.1
1.56
9.9
15
14 47.5
14 48.6
54 10.4
+0.25
54 14.5
0.41
8 59.9
1.57
10.9
16
14 50.2
14 52.3
54 20.4
0.56
54 28.0
0.70
9 39.5
1.62
11.9
17
14 54.8
14 57.7
54 37.2
0.82
54 47.8
0.98
10 21.0
1.71
12.9
18
15 0.9
15 4.4
54 59.6
1.08
55 12.5
1.11
11 5.3
1.84
13.9
19
15 8.1
15 12.0
55 26.2
1.17
55 40.5
1.21
11 53.3
2.00
14.9
20
15 16.1
15 20.2
55 55.3
1.25
56 10.5
1.28
12 45.5
2.16
15.9
21
15 24.4
15 28.6
56 25.9
1.29
56 41.4
1.29
- 13 41.3
2.28
16.9
22
15 %2.8
15 37.0
56 56.8
1.28
57 12.1
1.27
14 39.3
2.33
17.9
23
15 41.1
15 45.1
57 27.2
1.25
57 42.0
1.22
15 37.5
2.30
18.9
24
15 49.1
15 53.0
57 66.5
1.20
58 10.7
1.17
16 34.1
2.21
19.9
25
15 56.7
16 0.3
58 24.5
1.13
58 37.7
1.08
17 27.8
2.10
20.9
26
16 3.7
16 7.0
58 50.3
1.03
59 2.3
0.97
18 18.8
2.00
21.9
27
16 10.0
16 12.8
59 13.5
0.89
59 23.6
0.79
19 7.8
1.94
22.9
28
16 15.2
16 17.2
59 32.5
0.67
59 39.8
0.53
19 56.0
1.94
23.9
29
16 18.7
16 19.7
59 45.4
0.38
59 49.0
+0.20
20 44.9
1.99
24.9
30
16 20.0
16 19.7
59 50.3
+0.00
59 49.0
-0.22
21 35.7
2.09
25.9
31
16 18.6
16 16.8
59 45.0
-0.46
59 38.3
0.68
22 29.5
2.22
26.9
32
16 14.2
16 10.9
59 28.8
-0.90
59 16.7
-1.11
23 26.6
2.34
27.9
78
MAT, 1856.
V.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Uoor.
Right Ajcmisloa.
DifL
forlm.
Dtff.
forlm.
floor.
Rlclii Anomifloii.
DUt
forlm.
DUL
ftirlm.
THURSDAY 1.
SATURDAY 3.
h. m. ■.
■.
O 1 H
«
h. m. ■.
8.
O 1 «
11
0
33 57 23.77
2.1700
S. 3 49 5.3
17.449
0
1 43 4.93
2.9639
N.ll 1 36.7
I
33 59 33.97
9.1701
3 31 38.0
17.464
I
1 45 30.87
9.9670
11 18 1.4
io4n
2
0 1 44.18
S.170i
3 14 9 5
n.48a
8
1 47 37.04
9.9718
11 34 33.0
10407
3
0 3 54.40
S.1704
1 56 39.8
17.604
3
1 49 53.43
9.9769
11 50 38.3
10.980
4
0 6 4.63
S.1708
1 39 9.0
17.639
4
1 53 10.06
3.9701
13 6 50.3
10.109
5
0 8 14.89
3.1713
1 31 37.3
17.487
5
1 54 86.93
9.9880
13 33 57.8
10.097
6
0 10 35.17
3.1710
1 4 4.6
17.600
6
1 56 44.03
9.9870
13 39 0.7
louno
7
0 13 35.48
3.17*2
0 46 31 3
17.069
7
1 59 1.37
9.9011
18 54 58.9
16.980
8
0 14 45.83
3.I7«
0 38 57.1
17.678
8
8 1 18.96
9.90S3
13 10 53.3
16.frt8
9
0 16 56.31
3.17S4
S. 0 11 33.4
n.6e9
9
8 3 36 81
3.9906
13 36 40.7
16.706
10
0 19 6.64
3.1742
N. 0 6 13.8
17.689
10
8 5 54.90
9.80S7
13 43 84.1
16480
11
0 31 17.18
3. mi
0 33 48.3
17.60J
11
8 8 13.35
9.8080
13 58 3 3
16409
13
0 33 87 65
3.1700
0 41 34.0
17.606
13
8 10 31.86
3.8198
14 13 35.3
16408
13
0 35 38.34
3.1771
0 58 59.8
17.608
13
8 13 50.73
3.8166
14 89 8.7
16.419
14
0 37 48.90
3.I7W
1 16 35.7
17.608
14
8 15 9.85
3.8900
14 44 34.7
16490
15
0 29 59.63
S.170ft
1 34 11.5
17.605
15
8 17 89.34
9.8968
14 59 41.1
16.9^
16
0 33 10.44
3.1606
1 51 47.1
n.601
16
8 19 48.89
2.3298
15 14 51.7
16.198
17
0 34 31.33
3.1833
8 9 38.4
17.686
17
8 38 8.81
3.8843
15 39 56.5
16480
18
0 36 33.30
3.1836
3 86 57 3
17.677
18
8 34 39.00
94388
15 44 55.3
144J0
1 1^
0 38 43.36
9.1661
8 44 31 6
17.666
19
8 86 49.47
34434
15 59 48.0
14.877
30
0 40 54.53
3.1807
3 3 5.3
17.668
30
8 39 10 31
94479
16 14 34.5
14.794
31
0 43 5.78
3.1866
3 19 38.0
17.640
31
3 31 31.33
34636
16 39 14.7
14417
33
0 45 17 14
3.1006
3 37 10.0
17.696
33
3 33 53.51
34671
16 43 48.5
14400 j
33
0 47 38.63
3.1M9
N. 3 54 41.0
17.608
33
8 36 14.08
34617
N.16 58 15.8
14400
Fl
IIDAY
2.
SUNDAY
4.
0
0 49 40.31
3.19^
N. 4 18 10.9
n.486
0
8 38 35.93
34063
N.17 18 36.4
14.987
1
0 51 51.93
3.196^2
4 39 39.5
n.46«
1
3 40 58.04
34710
17 86 50.3
]4.n4
8
0 54 3.76
9.19BI
4 47 6.8
17U43
8
8 43 30.44
3.87»
17 40 57.3
14460
3
0 56 15.73
3.9006
5 4 33.7
17.418
3
8 45 43.13
34806
17 54 57.4
18.049
4
0 58 37.81
9.90-28
5 31 57.0
17J01
4
8 48 6.10
34861
18 8 50.4
18.»2S
6
1 0 40.05
9.9042
5 39 19.6
17J03
6
8 50 39.34
94897
18 33 36.3
18.709
6
1 3 52.43
9.9076
5 56 40.5
17.881
6
8 53 52.86
34044
18 36 14.7
18490
7
1 5 4.96
3.9101
6 13 59.4
n.908
7
8 55 16.66
34001
18 49 45.8
18.460 '
8
1 7 17.64
3.9197
6 31 16.3
n.964
8
3 57 40.75
340S8
19 3 9.4
18431 ■
0
1 9 30 48
9.9IM
6 48 31.1
n.tn
9
3 0 5.13
3.4086
19 16 85.5
18.904
10
1 11 43.48
9.9161
7 5 43.6
n.i86
10
3 8 89.77
3.4189
19 39 33.9
luni .
11
1 13 56.65
9.9900
7 83 53.7
n.i48
U
3 4 54 70
3.4178
19 43 34.5
19.943
13
1 16 9.99
9.9966
7 40 1.4
n.io7
18
3 7 19 91
3.4996
19 55 37.1
19410
13
1 18 33.50
9.9997
7 57 6.5
n4M9
13
3 9 45.40
3.4971
30 8 11.7
12477
14
1 30 37.19
9.9J67
8 14 8.8
n.016
14
3 13 11.16
3U8I7
80 30 48.3
19449
15
1 33 51.07
9.9996
8 31 8.3
ie.807
15
3 14 37.30
3.4W9
80 33 16.7
19403
16
1 35 5.13
9.9860
8 48 4.8
M.916
16
3 17 3.51
3.4408
30 45 36.7
19.364 1
17
1 37 19 39
9.9801
9 4 58.3
16.8M
17
3 19 30.09
3.446S
30 57 48.4
19.194
1 18
1 39 33.85
9.9496
9 81 48.5
IMll
18
3 31 56.94
3.4498
31 9 51.6
ll.W
19
1 31 48.51
3.94A0
0 38 35.5
10.764
19
3 84 34.06
3.4643
21 81 46 3
11.838
30
1 34 3.36
3.9IM
0 55 19.0
10400
80
3 36 51.45
3.4687
31 33 32.2
i.4n
|31
1 36 18.42
3.9498
10 11 59.0
10.087
81
3 39 19.10
3.4080
81 45 9.4
11.647
33
1 38 33.70
3.9W
10 28 35.4
10.676
38
3 31 47.01
3.407J
81 56 37.8
11409
33
1 40 49.30
9.'2009
10 45 8.0
10-611
33
3 34 15.18
3^16
33 7 57.3
11.948
34
1 43 4.93
9.9080
N.ll 1 36.7
10.446
34
3 36 43.61
3.4700
N.33 19 7.6
11487
VI.
MAY, 1856.
79
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Right AMenBlon.
Dlfl.
forlm.
DwUMtioii.
DIft
forlm.
Hoar.
Rl^t AMaMkm.
Dur.
forlm.
DUL
forlm.
MC
)NDA1
' 5.
WEDNESDAY 7.
h. m. 1.
■.
.. ° ' -
IT
h. m. ■.
1.
O 1 •
M
0
3 36 43.61
2A7b9
NiJ2 19 7.6
IIMI
0
6 38 48.56
9.5664
N57 57 61.0
9.766
1
3 39 12.29
3.4801
22 30 8.9
10.M5
1
6 41 22.51
9.5651
28 0 31.5
9464
9
3 41 41.22
9.4849
22 41 1.0
10.799
2
5 43 56.37
9.5686
28 3 1.1
9409
3
3 44 10.39
9U868
22 51 43.9
10.687
3
6 46 30.14
9.5610
28 6 19.7
9.990
4
3 46 39.81
9.4833
23 2 17.5
10.481
4
6 49 3.81
9.5603
28 7 27.4
UM
6
3 49 9.46
9.4W3
23 12 41.6
10.333
6
6 51 37.37
9.5583
28 9 24.3
1.806
6
3 51 39.35
9.0001
23 22 56.2
10.164
6
5 54 10.81
94563
28 11 10.4
14n
7
3 54 9.47
9.0089
23 33 1.3
104)04
7
5 56 44.13
94543
28 12 45.6
1497
8
3 56 39.81
9.Mr76
23 42 56.7
9.843
8
6 59 17.31
94618
28 14 10.0
1417
9
3 59 10.38
9.51 IS
23 52 42.3
9.679
9
6 1 50.35
94404
28 15 23.6
1.138
10
4 1 41.16
9:6148
24 2 18.2
9.516
10
6 4 23.24
94168
28 16 26.5
0.900
11
4 4 12.15
9.5183
24 11 44.2
9.351
11
6 6 55 96
28 17 18.7
0.780
12
4 6 43.36
9.5918
24 21 0.3
9.186
12
6 9 28.51
9.5410
28 18 0.1
0409
13
4 9 14.77
9.5261
24 30 6 4
94)18
13
6 12 0.88
94880
28 18 30.9
0490
14
4 11 46.37
9.598i
24 39 2 5
8.860
14
6 14 33.07
94349
28 18 51.1
0.349
15
4 14 18.15
9.5313
24 47 48.4
8.680
15
6 17 5.07
94317
28 19 0 8
0474
16
4 16 50.12
9.6343
24 56 24.1
8.510
16
6 19 36 87
9.5-283
28 19 0.0
0.101
17
4 19 22.27
9.5373
25 4 49 6
8.340
17
6 22 8.45
94345
28 18 48.7
0.376
18
4 21 54.59
9.M0I
25 13 4.9
8.166
18
6 24 39.81
9.5208
28 18 26.9
0450
19
4 24 27.08
9.5426
25 21 9.8
7.905
19
6 27 10.95
94170
28 17 54.7
0433
20
4 26 59.72
9.5453
25 29 4.3
7^«
20
6 29 41.85
94130
28 17 12.2
0.708
21
4 29 32.52
9.5479
25 36 48.4
7.818
21
6 32 12.51
94090
28 16 19.5
0.964
22
4 82 5.47
9.5503
25 44 22.0
7-173
22
6 34 42.93
S.0048
28 15 16.5
1.184
23
4 34 38.55
TU
9.5535
ESDA^
N.25 51 45.0
Y 6.
7.996
23
6 37 13.09
THU
94004
FRSDA
N.28 14 3.4
Y 8.
1408
0
4 37 11.77
9.0547
Nj25 58 57.5
7.119
0
6 39 42.98
9.4900
N.28. 12 40.1
1479
1
4 39 45.12
9.5506
26 5 59 3
60)43
1
6 42 12.60
9U914
28 11 6.7
1.640
2
4 42 18.58
9.5086
26 12 50.5
6.766
2
6 44 41.95
9.4808
28 9 23.3
1.806
3
4 44 52.15
9.0604
26 19 31.1
6.587
3
6 47 11.02
9U891
28 7 30.0
1.079
4
4 47 25.83
9.5691
26 26 1.0
6.408
4
6 49 39.80
9.4771
28 6 26.7
9.187
5
4 49 59.60
9.5635
26 32 20.1
6.998
6
6 52 8.27
947J0
28 3 13.6
9.900
6
4 52 33.45
9.5649
26 38 28.3
64M8
6
6 64 36.44
94669
28 0 60.8
9461
7
4 55 7.38
9.0663
26 44 25.8
5.867
7
6 67 4.30
94617
27 68 18.3
9.M3
8
4 57 41.39
9.0674
26 50 12.4
5.686
8
6 69 31.84
94564
27 65 36.1
9.784
9
6 0 15.47
9.5684
26 55 48.1
5.506
9
7 1 59.07
94011
27 52 44.2
9.040
10
5 2 49.60
9.5603
27 1 13.0
5.S33
10
7 4 25.97
94400
27 49 42.7
8.108
11
5 5 23.78
9.5700
27 6 26.9
5.141
11
7 6 52.53
94899
27 46 31.8
8.960
12
6 7 58.00
9.0706
27 11 29.9
4.058
12
7 9 18.76
94843
27 43 11.5
8416
13
5 10 32.25
9.5710
27 16 21.9
4.776
13
7 11 44.64
94384
27 39 41.9
8470
14
5 13 6.52
9.5713
27 21 3.0
4.504
14
7 14 10.17
94936
27 36 3.1
8.734
15
5 15 40.81
3.5715
27 25 33.2
4.413
16
7 16 35.35
94167
27 32 15.0
8477
16
5 18 15.10
9.5715
27 29 62.4
4.999
16
7 19 0.17
94107
27 28 17.8
4438
17
5 20 49.39
9.5713
27 34 0.6
44M6
17
7 21 24.63
94046
27 24 11.6
4.177
18
5 23 23.66
9.5710
27 37 67.9
. 3.863
18
7 23 48.72
948S4
27 19 56.6
4496
19
5 25 57.91
9.5706
27 41 44.2
3.680
19
7 26 12.44
94993
27 16 32.6
4474
20
5 28 32.13
9.5701
27 46 19.6
3497
20
7 28 35.78
94800
27 10 69.6
4491
21
5 31 6.32
9.56M
27 48 43.8
8.814
21
7 30 58.74
94700
27 6 18.0
4.766
22
6 33 40.46
9.5686
27 51 57.2
8.133
22
7 33 21.32
94781
27 1 27.7
4400
23
5 36 14.54
9.0670
27 54 59.6
9.949
23
7 35 43.61
94666
26 66 28.9
Mm
«_
5 38 48.56
9.56<M
N.27 57 61.0
9.766
24
7 38 6.31
94601
NJMJ 61 21.6
6.106
80
MAY, 1856.
VII.
1
GREENWICH MEAN TIME. |
THK MOON'S RIGHT
ASCENSION AND DECLINATION.
Hoar.
Bight Aaeeniioii.
DHL
forlm.
DeoUnfttion.
Dur.
forlm.
Hoar.
DHL
fbrlm.
Diff.
forlm.
FBTDAY
9.
SUNDAY
11.
h., m. ■.
■.
o n
N
h. m. 8.
1.
O 1 II
H
0
7 38 5.31
9.3001
Nj26 51 21.5
5.103
0
9 23 27.02
34)880
N50 24 17.3
10.445
1
7 40 26.72
9.M85
26 46 5.7
5.833
1
9 25 28.81
94)908
20 13 48.2
10434
2
7 42 47.73
2M9S
26 40 41.6
5.471
2
9 27 30.23
94)307
20 3 14.4
10403
3
7 45 8.34
9.8403
26 35 9.2
5MB
3
9 29 31.29
94140
19 62 35.9
104B0
4
7 47 28.55
9.SSS5
26 29 28.6
5.744
4
9 31 31.98
94065
19 41 52.8
10.756
6
7 49 48.36
9.8a07
26 23 39.9
5.879
5
9 33 32.31
94)094
19 31 5.2
10431
6
7 52 7.76
S^IW
26 17 43.1
04)13
6
9 35 32.27
14908
19 20 13.1
10405
7
7 54 26.75
9.S1S1
26 11 38.4
0.144
7
9 37 31.87
14904
19 9 16.6
10.978
8
7 56 45.33
9J06i
26 5 25.8
0J75
8
9 39 31.12
14645
18 58 15.7
11460
0
7 69 3.50
3.9993
25 59 5.4
0.405
9
9 41 30.01
14786
18 47 10.6
11.190
10
8 1 21.25
S.«994
25 52 37.3
0.083
10
0 43 28 55
14798
18 36 1.3
11.189
11
8 3 38.59
3.9855
25 46 1.5
0.059
11
9 45 26.75
14673
18 24 47.9
11.356 .
Id
8 5 55.51
9,tm
25 39 18.2
6.784
12
9 47 24.62
14017
18 13 30.3
11496
13
8 8 12.01
3.3715
25 32 27.4
0.908
13
9 49 22.15
14601
18 2 8.7
11483
14
8 10 28.09
3.3515
25 25 2^.2
74)83
14
9 51 19.35
14600
17 50 43.2
1U457
15
8 12 43.75
9.3675
25 18 23.6
7.154
15
9 53 16.22
14453
17 39 13.8
11493
16
8 14 58.99
3.3105
25 11 10.8
7.375
16
9 55 12.77
14888
17 27 40.5
11480
17
8 17 13.81
3.905
25 3 50.8
7498
17
9 57 9.00
14845
17 16 3.5
IIMQ
18
8 19 28.21
3.3S04
24 56 23.7
7.510
18
9 59 4.91
14393
17 4 22.7
11.711
19
8 21 42.18
3.3393
24 48 49.6
7.0-26
19
10 1 0.51
14341
16 52 38.2
11.T71
30
8 23 55.73
9.3333
24 41 8.6
7.740
20
10 2 55.80
14189
16 40 50.2
11.830
21
8 26 8.86
3.3153
24 33 20.8
7.858
21
10 4 50.78
14138
16 28 58.6
11469
22
8 28 21.57
3.3068
24 25 26.2
7400
22
10 6 45.46
14069
16 17 3.5
11.M7
23
8 30 33.85
SATl
9.9019
[JRDA^
NJ24 17 24.9
jr 10.
84m
23
10 8 39.85
14040
NDAY
N.16 5 5.0
12.
19404
0
8 32 45.71
9.1943
Nj24 9 16.9
8.187
0
10 10 33.94
14001
N.15 53 3.0
19461
1
8 34 57.15
9.1879
24 1 2.4
8.»6
1
10 12 27.74
14948
15 40 57.7
19.110 1
2
8 37 8.17
9.1803
23 52 41.4
8.408
2
10 14 21.26
14897
15 28 49.1
19.170
3
8 39 18.77
9.1783
23 44 14.0
8409
3
10 16 14.50
14690
15 16 37.3
19.333 1
4
8 41 28.95
9.1003
23 35 40.3
8418
4
10 18 7.46
14604
15 4 22.3
19.3:76
5
8 43 38.72
9.1593
23 27 0.4
8.717
5
10 20 0.15
14700
14 52 4.2
19497 j
6
8 45 48.07
9.1533
23 18 14.3
8419
6
10 21 52.58
14710
14 39 43.0
13478
7
8 47 57.00
9. 1454
23 9 22.1
8419
7
10 23 44.74
14073
14 27 18.8
19.436
8
8 50 5.52
9.1880
23 0 24.0
9418
8
10 25 36.64
14638
14 14 51.6
19.4T7
9
8 52 13.63
9.U17
22 51 19.9
9.117
9
10 27 28.28
14566
14 2 21.5
194(96 1
10
8 54 21.32
9.1348
22 42 10.0
9418
10
10 29 19.67
14544
13 49 48.5
194ii8 j
11
8 56 28.60
9.1180
22 32 54.3
9400
11
10 31 10.81
14608
13 37 12.7
19.619 1
12
8 58 35.48
9.1118
22 23 32.9
9.404
12
10 S3 1.71
14408
13 24 34.2
19465
13
9 0 41.95
9.1045
22 14 5.8
9.497
13
10 34 52.37
14494
13 11 52.9
13.710
14
9 2 48.02
9.0978
22 4 33.2
9.568
14
10 36 42.80
14886
12 59 9.0
13.7M
1^
9 4 53.69
9.0911
21 54 65.2
9.079
15
10 38 33.00
14346
12 46 22.5
19.797
16
9 6 58.95
94)844
21 45 11.7
9.709
10
10 40 22.97
14810
12 33 33.4
19480
17
9 9 3.82
9.0779
21 35 22.9
9457
17
10 42 12.72
14378
12 20 41.8
19461
18
9 11 8.30
94ni4
21 25 28.8
9446
18
10 44 2.25
143S8
12 7 47.7
19.999
19
9 13 12.39
94)649
21 15 29.5
10481
19
10 45 51.57
14908
11 54 51.2
19463
20
9 15 16.09
94)563
21 5 25.1
10.117
20
10 47 40.68
14168
11 41 52.3
11401
21
9 17 19.39
94)518
20 55 15.5
10.301
21
10 49 29.59
14135
11 28 51.1
lS4kS9
22
9 19 22.31
94)455
20 45 1.0
10.383
22
10 51 18.30
14103
11 15 47.6
19477
23
9 21 24.85
94»93
20 34 41.6
10464
23
10 53 6.82
14070
11 2 419
19.114 1
24
9 23 27.02
94)880
N.20 24 17.3
10445
24
10 54 55.14
14039
N.IO 49 33.9
19.161
nil.
MAT, 1856.
81
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Bight AjoeDrfon.
Dlff.
forlm.
.^
DUt
forlm.
Hoar.
Bight Aiofliiflkm.
Dur.
for 1 m.
DUL
forlm.
TUl
^SDA-i
' la
THURSDAY 15.
h. m. 8.
■.
O 1 N
w
h. m. ■
1.
O 1 If
N
0
10 54 55.14
1.8030
N.IO 49 33.9
13.161
0
12 19 18.62
1.7411
S. 0 9 57.6
\\sm
1
10 56 43.28
1.8006
10 36 23.8
13.186
1
12 21 3.10
1.7417
0 24 1.7
14.069
2
10 58 31.24
1.7978
10 23 11.6
13.331
2
12 22 47.62
1.7438
0 38 5.9
14.071
3
11 0 19.02
1.7949
10 9 57.3
134166
3
12 24 32.17
1.7499
0 52 10.2
14.073
4
U 2 6.63
1.7931
9 56 41.0
13.388
4
12 26 16.77
1.7436
1 6 14.5
14.073
5
11 3 54.07
1.7893
9 43 22.7
13^131
5
12 28 1.41
1.7444
1 20 18.9
14.073
6
11 5 41.35
1.7887
9 30 2.5
13.363
6
12 29 46.10
1.7463
1 34 23.2
144)71
7
11 7 28.47
1.7841
9 16 40.4
13.883
7
12 31 30.85
1.7463
1 48 27.4
144)69
8
U 9 15.44
1.7815
9 3 16.5
18.414
8
12 33 15.67
1.7474
2 2 31.5
144)67
9
U 11 2.25
1.7789
8 49 50.7
13.446
9
12 35 0.54
1.7486
2 16 35.5
144)65
10
11 12 48.91
1.7T66
8 36 23.1
13.473
10
12 36 45.48
1.7497
2 30 39.3
144)61
11
11 14 35.44
1.7743
8 22 53.9
13.601
11
12 38 30.50
1.7609
2 44 42.8
144)66
12
11 16 21.83
1.7731
8 9 23.0
13.696
12
12 40 15.59
1.7633
2 58 46.0
144)61
13
11 18 8.09
1.7899
7 55 50.5
18.656
13
12 42 0.76
1.7686
3 12 48.9
144)45
14
11 19 54.22
1.7«78
7 42 16.4
1SJI69
14
12 43 46.02
1.7663
3 26 51.4
144)38
15
11 21 40.23
1.76S8
7 28 40.7
13.607
15
12 45 31.38
1.7668
3 40 53.5
144)31
16
11 23 26.12
1.7688
7 15 3.5
13.683
16
12 47 16.83
1.7084
3 54 55.1
144)33
17
11 25 11.89
1.7019
7 1 24.9
13.656
17
12 49 2.38
1.7600
4 8 56.2
144)13
18
11 26 57.55
1.7601
6 47 44.8
13.680
18
12 50 48.03
1.7617
4 22 56.7
144K)3
19
11 28 43.10
1.7864
6 34 3.3
18.703
19
12 52 33.78
1.7685
4 36 56.6
13.098
20
11 30 28.56
1.7068
6 20 20.5
18.733
20
12 54 19.65
1.7656
4 50 55.9
13.963
21
11 32 13.92
1.7ftft8
6 6 36.5
13.744
21
12 56 5.65
1.7677
6 4 54.5
13.070
22
11 33 59.19
1.7638
5 52 51.2
13.766
22
12 57 51.77
1.7897
5 18 52.3
13.907
23
11 35 44.37
WEDl
1.7831
<ESDJ
N. 5 39 4.7
lY 14.
13.796
23
12 59 38.01
FR
1'77I8
roAY
S. 5 32 49.4
16.
13.044
0
11 37 29.47
1.7610
N. 5 25 16.9
uuno
0
13 1 24.38
1.7789
S. 5 46 45.6
13.939
1
11 39 14.49
1.7498
5 11 28.0
13.834
1
13 3 10.88
1.7763
6 0 40.9
13.914
2
11 40 59.44
1.7486
4 57 38.0
13.811
2
13 4 57.53
1.7787
6 14 35.3
13.809
3
11 42 44.31
1.7478
4 43 47.0
13.806
3
13 6 44.32
1.7811
6 28 28.8
13.883
4
11 44 29.12
1.7468
4 29 55.0
13.875
4
13 8 31.26
1.7886
6 42 21.2
18.865
5
11 46 13.87
1.7464
4 16 2.0
13.893
5
13 10 18.35
1.7861
6 56 12.5
13.847
6
11 47 58.57
1.7446
4 2 8.0
13.907
6
13 12 5.59
1.7687
7 10 2.8
13.836
7
11 49 43.22
1.7488
3 48 13.1
13JW3
7
13 13 52.99
1.7914
7 23 51.9
18.606
8
11 51 27.82
1.7430
3 34 17.4
13.985
8
13 15 30.56
1.7943
7 37 39.7
13.767
9
11 53 12.37
1.7499
3 20 20.9
13JM8
9
13 17 28.30
1.7971
7 51 26.3
13.766
10
11 54 56.88
1.7416
3 6 23.6
13.961
10
13 19 16.21
1.8000
8 5 11.6
13.743
11
11 56 41.36
1.74ia
2 52 25.6
18J73
11
13 21 4.30
1.8030
8 18 55.5
13.719
12
11 58 25.82
1.7407
2 38 26.8
13.986
12
13 22 52.57
1.8060
8 32 37.9
13.696
13
12 0 10.25
1.7403
2 24 27.4
13.996
13
13 24 41.02
1.6092
8 46 18.9
134ni
14
12 1 54.66
1.7400
2 10 27.4
14.005
14
13 26 29.67
1.6136
8 59 58.4
13.646
16
12 3 39.05
1.7898
1 56 26.8
14.014
15
13 28 18.51
1.8156
9 13 36.3
13.616
16
12 5 23.43
1.7897
1 42 25.7
14.033
16
13 30 7.55
1.8191
9 27 12.6
13.601
17
12 7 7.81
1.7396
1 28 24.1
14.031
17
13 31 56.80
1.8335
9 40 47.2
13.563
18
12 8 52.18
1.7896
1 14 22.0
14.038
18
13 33 46.25
1.8360
9 54 20.1
13.533
19
12 10 36.55
1.7896
1 0 19.5
14.044
19
13 35 35.91
1.8396
10 7 51.2
13.603
20
12 12 20.93
1.7896
0 46 16.7
14.080
20
13 37 25.79
1.8333
10 21 20.5
13.473
21
12 14 5.33
1.7401
0 32 13.5
]4/>06
21
13 39 15.89
1.8369
10 34 47.9
13.441
22
12 15 49.74
1.7404
0 18 10.0
14.060
22
13 41 6.22
1.8M)7
10 48 13.4
13.407
23
12 17 34.17
1.7407
N. 0 4 6.3
14U)64
23
13 42 56.78
1.6145
11 1 36.8
13.873
24
12 19 18.62
1.7411
S. 0 9 57.6
14X67
24
13 44 47.56
1.8483
S.ll 14 58.2
13.339
11
$2
MAY, 1856.
IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
DUL
forlm.
DeelinfttUm.
Dur.
forlm.
Hour.
DW.
forlm.
DeeUDAtUm.
Difll
forlm.
SATURDAY 17.
MONDAY
19.
h. m. 1.
t.
O 1 11
a
h. m. 1.
8.
O 1 N
N
0
13 44 47.56
1.848S
S.U 14 58.3
13.830
0
15 19 10.60
3.1043
S.30 55 33.5
Mun
1
13 46 38.58
IJB&n
11 38 17.5
18.304
1
15 31 17.05
3.1107
31 5 54.8
10496
3
13 48 39.84
1.8564
11 41 34.7
13.967
3
15 33 33.88
3.1171
31 16 11.6
10484
3
13 50 31.35
1.8606
11 54 49.6
13.990
3
15 35 31.10
3.1335
31 36 33.9
10.U9
4
13 53 13.11
1.8647
13 8 3.3
13.101
4
15 37 38.70
3.1999
31 36 38.6
104)47
5
13 54 5.13
1.8880
13 31 13.5
13.169
5
15 39 46.69
3.1864
31 46 38.6
0.069
6
13 55 57.38
1.87S3
13 34 30.4
18.119
6
15 31 55.07
3.1439
31 56 33.8
0455
7
13 57 49.90
1.8T76
13 47 35.9
izjmo
7
15 34 3.84
3.1404
33 6 11.3
0.757
8
13 59 43.69
1.8891
13 0 38.8
134)97
8
15 36 13.00
3.1560
33 15 53.6
0457
9
14 1 35.75
1.8866
13 13 39.1
19.988
9
15 38 33.55
3.1634
33 35 30.1
0457
10
14 3 39.08
1.8B11
13 36 36 8
19.038
10
15 40 33.49
3.1660
33 35 0.5
0.466
11
14 5 33.68
1.8N7
13 39 31.7
19.808
11
15 43 43.83
3.1754
33 44 34.8
0469
13
14 7 16.56
1.9008
13 53 13.9
19.847
13
15 44 53.54
9.1690
33 53 43.8
0.947
13
14 9 10.73
1.0061
14 5 3.3
19.799
13
15 47 4.66
3.1686
33 3 54.5
0.149 1
14
14 11 5.17
1.0100
14 17 49.8
19.749
14
15 49 16.17
3.1051
33 11 59.8
04O4 1
15
14 13 59.93
1.0140
14 30 33.3
19.699
15
15 51 38.07
3^16
33 30 58.6
843S
16
14 14 54.96
1.0108
14 43 13.7
13.649
16
15 53 40.36
3.9061
33 39 50.9
8416 1
17
14 16 50.39
1.0M7
14 55 51.1
19.697
17
15 55 63.04
9.9146
S3 38 36.5
8.704
18
14 18 45.93
i^jsrj
15 8 35.4
14.516
18
15 58 6.11
3.9911
33 47 15.4
6409
19
14 30 41.85
1.0849
15 30 56.5
19.401
19
16 0 19.57
3.3376
33 55 47.5
8-177
30
14 33 38.10
1.9401
15 33 34.3
19.485
30
16 3 33.43
3.9340
34 4 13.7
8409
31
14 34 34.66
1.0453
15 45 48.7
19.379
31
16 4 47.65
3.9404
34 13 31.0
8.^46 1
33
14 36 31.53
1.0fl05
15 58 9.8
19.899
33
16 7 3.37
3.3460
34 30 43.3
8.198 j
33
14 38 38.73
su
1.0666
NDAY
S.16 10 37.4
18.
13.963
33
16 9 17.38
TDI
3.9583
:SDA\
S.34 38 46.4
' 20.
6406 j
0
14 30 36.34
1.0618
S.16 33 41.4
13.303
0
16 11 33.67
3.3597
3.34 36 43.3
7.887
1
14 33 34.08
1.0668
16 34 51.8
13.143
1
16 13 48.44
9.9660
34 44 33.9
7.766
3
14 34 33.35
1.0730
16 46 58.6
13.069
3
16 16 4.59
3.9734
34 53 15.3
7.648
3
14 36 30.74
1.0777
16 59 1.6
194)18
3
16 18 31.13
3.9787
34 59 50.1
7.510
4
14 38 19.57
1.9888
17 11 0.8
11.954
4
16 30 38.04
3.9650
35 7 17.5
7.893
6
14 40 18.74
1.0800
17 33 56.1
11.868
5
16 33 55.33
3.9019
35 14 37.3
7.968
6
14 43 18.35
1.0047
17 34 47.4
11.899
6
16 35 13.99
9.9074
35 31 49.4
7.187
7
14 44 18.10
3.0004
17 46 34.7
11.754
7
. 16 37 31.03
3.8085
35 38 53.8
7.008
8
14 46 18.30
3.0063
17 58 17.9
11.866
8
16 39 49.41
3.3006
35 35 50.4
6.877
9
14 48 18.85
90)131
18 9 57.0
114)16
9
16 33 8.17
3.3157
35 43 39.1
6.746
10
14 50 19.75
3.0180
18 31 31.8
11.544
10
16 34 37.39
3.3917
35 49 19.9
6.619
11
14 53 31.01
3U»80
18 33 3.3
11.473
11
16 36 46.77
3.3976
35 55 53.6
6.478
13
14 54 33.63
3.0908
18 44 38.4
11.898
13
16 39 6.60
3.3334
36 3 17.3
6343
13
14 56 34.59
3.0368
18 55 50.1
11.893
13
16 41 36.78
9.3303
36 8 33.8
6.906
14
14 58 36.93
3U)4I8
19 7 7.3
ii.ai7
14
16 43 47.31
3.3451
36 14 43.0
6087
15
15 0 39.63
3.0480
19 18 19.7
11.169
15
16 46 8.19
3.3506
36 30 41.9
6.996
16
15 3 33.68
3.0641
19 39 37.5
114)91
16
16 48 39.41
3.3664
36 36 33.4
5.787
17
15 4 36.11
3.0609
19 40 30.6
114)11
17
16 50 50.96
3.3690
36 33 16.4
5.e4e
18
15 6 39.91
3.0664
19 51 38.8
10.939
18
16 53 13.85
34676
36 37 50.9
•408
19
15 8 44.08
3i)797
30 3 33.1
10.847
19
16 55 35.07
34730
36 43 16.8
5360
30
15 10 48.63
34)780
30 13 10.5
10.764
30
16 57 57.61
3.3783
36 48 34.0
6.314
31
15 13 53.55
3.0869
30 33 53.8
10.878
31
17 0 30.46
34835
36 53 43.5
54)08
33
15 14 58.85
3.0015
30 34 31.9
10499
33
17 3 43.63
34867
36 58 43.3
4331
33
15 17 4.53
34)970
30 45 4.8
10.605
33
17 5 7.10
34038
37 3 33.0
4.779
34
15 19 10.60
3.1048
S.30 55 33.5
10.417
34
17 7 30.88
34866
S.37 8 14.8
4339
X.
MAY, 1856.
8S
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Wff.
fbrlm.
DeeUnatloii.
DHL
forlm.
Hour.
Bight Ajeouloii.
DHL
fbrlm.
Deelimtioa
DUL
fbrlm.
WEDNESDAY 21.
FRroAY
23.
h. m. 8.
■•
O 1 u
H
h. m. ■.
t.
O 1 It
H
0
17 7 30.88
3.3968
S.27 8 14.8
4.623
0
19 6 19.31
9.6017
s.27 43 18.2
8.337
1
17 9 54.96
2.4038
27 12 47.7
4.473
1
19 8 49.44
9.6010
27 39 52.9
t.607
2
17 12 19.33
3.4066
27 17 11.5
4.331
2
19 11 19.50
9.6004
27 36 17.4
z.ffn
3
17 14 43.99
2.4183
27 21 26.2
4.166
3
19 13 49.49
9.4903
27 32 31.6
8.847
4
17 17 8.93
9.4160
27 25 31.7
4J01&
4
19 16 19.40
349T7
27 28 35.6
44)19
6
17 19 34.15
3.4205
27 29 28.0
3.861
5
19 18 49.21
34961
27 24 29.4
4.188
6
17 21 59.63
9.4269
27 33 15.0
3.706
6
19 21 18.93
34946
27 20 13.1
AMI
7
17 24 25.38
2.4313
27 36 52.7
3.649
7
19 23 48.55
94027
27 15 46.6
4.626
8
17 26 51.38
2.4356
27 40 20.9
3.392
8
19 26 18.06
9.4006
27 11 10.0
4.004
9
17 29 17.64
2.4397
27 43 39.7
8.334
9
19 28 47.45
94866
27 6 23.3
4.862
10
17 31 44.15
%44M
27 46 49.0
94ns
10
19 31 16.72
34667
27 1 26.6
0.030
11
17 34 10.89
3.4476
27 49 48.7
9.916
11
19 33 45.85
34M6
26 56 19.7
6.196
12
17 36 37.86
3.461.1
27 52 38.8
9.766
12
19 36 14.85
34832
26 51 3.0
6.362
13
17 39 5.05
27 55 19.3
9.503
13
19 38 43.71
34798
26 45 36.3
6.637
14
17 41 32.46
9.4667
27 57 50.0
9431
14
19 41 12.42
34773
26 39 59.7
6.093
15
17 44 0.09
2.4632
28 0 11.0
9.366
15
19 43 40.97
34745
26 34 13.1
6.856
16
17 46 27.92
2.4655
28 2 22.2
3.106
16
19 46 9.36
94718
26 28 16.7
0.033
17
17 48 55.95
2.4687
28 4 23.6
1.941
17
19 48 37.58
94080
26 22 10.5
6.185
18
17 51 24.17
9.4718
28 6 15.1
1.776
18
19 51 5.62
94060
26 15 54.6
6.347
19
17 53 52.57
94748
28 7 56.7
L610
19
19 53 33.50
94030
26 9 28.9
6.606
20
17 56 21.14
2.4776
28 9 28.3
1444
20
19 56 1.18
94608
26 2 53.6
6.669
21
17 58 49.87
3.4803
28 10 50.0
1.378
21
19 58 28.67
94666
25 56 8.6
6.839
22
18 1 18.76
3.4838
28 12 1.7
1.111
22
20 0 55.97
94683
26 49 14.1
6.968
23
18 3 47.81
THD
9.4868
RSDA
S.28 13 3.3
Y 22.
0.943
23
20 3 23.06
SATl
34496
JRDA^
S.25 42 10.1
IT 24.
7.147
0
18 6 17.00
3U877
S.28 13 54.8
0.774
0
20 5 49.95
94404
S.26 34 56.5
IMS
1
18 8 46.33
3.4896
28 14 36.2
0.006
1
20 8 16.63
94429
26 27 33.5
7.461
2
18 11 15.78
3.4918
28 15 7.5
0.437
2
20 10 43.10
9.4398
25 20 1.2
7.617
3
18 13 45.34
3.4036
28 15 28.6
0.367
3
20 13 9.35
94356
25 12 19.5
7.773
4
18 16 15.01
3.4964
28 15 39.5
0.007
4
20 15 35.37
9.4S19
25 4 28.5
7.036
5
18 18 44.79
3.4972
28 15 40.2
0.073
5
20 18 1.17
9.4981
24 56 28.4
8.079
6
18 21 14.67
3.4967
28 15 30.7
0.244
6
20 20 26.74
9.4343
24 48 19.1
8.331
7
18 23 44.63
3.6000
28 15 10.9
0415
7
20 22 52.07
34303
24 40 0.7
6.383
8
18 26 14.67
3.5013
28 14 40.9
0.566
8
20 25 17.16
94109
24 31 33.2
8.633
9
18 28 44.78
3.6028
28 14 0.6
0.767
9
20 27 42.01
94193
24 22 56.8
8.681
10
18 31 14.95
3.6033
28 13 10.0
0.999
10
20 30 6.62
34060
24 14 11.5
8.839
11
18 33 45.18
3JS043
28 12 9.1
l.IOl
11
20 32 30.98
3.4038
24 5 17.3
8.977
12
18 36 15.45
3.5048
28 10 57.9
1.373
12
20 34 55.08
3J»06
23 56 14.3
9.133
13
18 38 45.76
3.5064
28 9 36.4
1446
13
20 37 18.93
9.3964
23 47 2.6
9.367
14
18 41 16.10
3.6066
28 8 4.5
1.617
14
20 39 42.53
3.3911
23 37 42.2
9.411
15
18 43 46.46
3.6001
28 6 22.3
1.789
15
20 42 5.87
3.3866
23 28 13.3
9.553
16
18 46 16.83
3.6063
28 4 29.8
1.961
16
20 44 28.95
3.3826
23 18 35.9
9.604
17
18 48 47.20
3.5063
28 2 27.0
9.133
17
20 46 51.77
3.3761
23 8 50.0
9336
18
18 51 17.58
3.5062
28 0 13.8
9.306
18
20 49 14.32
9.3787
22 58 55.7
9J74
19
18 53 47.95
3.6059
27 57 50.3
9477
19
20 51 36.61
9.3603
22 48 53.1
10.113
20
18 56 18.29
3.6066
27 55 16.5
9.M9
20
20 53 58.63
9.3647
22 38 42.3
10.348
21
18 58 48.61
9.5060
27 52 32.4
9.821
21
20 56 20.37
9.8001
22 28 23.3
10.884
22
19 1 18.89
27 49 38.0
9.993
22
20 58 41.84
9.3556
22 17 56.2
10.618
23
19 3 49.12
3.5035
27 46 33.3
8.166
23
21 1 3.04
9.3611
22 7 21.1
10.663
24
19 6 19.31
3.5037
S.27 43 18.2
3.937
24
21 3 23.97
9.3466
S.21 56 38.0
10.784
84
MiLlf, 1856.
XI.
GREENWICH
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hoar.
Rl^iAMeaalon.
Dur.
forlm.
Diit
fbrlm.
Hour.
Diff.
foplm.
TVHnatlftn,
SUL
fbrlm.
SUNDAY
25.
TUESDAY 27.
h. m. ■.
B.
O 1 «
M
h. m. 8.
8.
O 1 u
a
0
81 3 33.97
mw
S.81 56 38.0
10.784
0
88 51 3.53
2.1642
S.ll IS S.3
16.647
1
31 6 44.63
9.8490
31 45 47.0
10.916
1
33 53 13.69
9.1616
10 56 37.5
16.019
3
31 8 5.01
9.S87S
81 34 48.3
11.044
8
33 55 31.70
9.1488
10 40 48.9
15.976
3
31 10 35.11
OMTJ
31 33 41.7
11.179
3
33 57 30.55
9.1463
10 85 6.5
15.787
4
31 13 44.93
9.S9B1
81 18 87.5
iiUoo
4
33 59 39.34
9.1437
10 9 30.4
15.798
5
31 15 4.48
9.8396
31 1 5.8
11.494
5
33 1 47.79
9.1412
9 53 30.7
15.897
6
31 17 83.76
9.8191
30 49 36.6
11.649
6
33 3 56.19
9.1386
9 37 37.5
15.915
7
81 19 43.77
9.8145
SO 37 59.9
11.672
7
33 6 4.45
9.1866
9 81 40.9
15.979
8
31 33 1.50
9.8098
SO 86 15.9
11.793
8
33 8 13.58
9.1844
9 5 40.9
164137
9
31 34 19.95
9.80A9
30 14 34.7
11.918
9
33 10 30.58
9.1823
8 49 37.7
164n0
10
31 36 38.13
9.8007
30 3 36.3
194tt8
10
83 13 88.45
2.1808
8 33 31.3
16.189
11
31 38 56.04
9.9909
19 50 30.7
12.162
11
33 14 36.31
2.1283
8 17 31.8
16.189
13
31 31 13.67
9.9916
19 38 8.1
12.968
13
33 16 43.85
9.1268
8 1 9.4
16.381
13
81 33 31.03
9.9971
19 35 48.5
19.888
13
83 18 51.37
9.1246
7 44 54.1
16.779
14
31 35 48.18
9.9896
19 13 33.1
19.407
14
33 30 58.79
2.1230
7 38 35.9
16.396
15
31 38 4.94
9.9781
19 0 48.9
19.609
15
33 33 6.13
2.1218
7 13 15.0
16.370
16
31 40 31.49
9.9787
18 48 9.0
12.791
16
83 85 13.35
2.1196
6 55 51.5
16.418
17
31 43 37.78
9.9098
18 35 33.4
19.831
17
83 37 80.49
9.1183
6 39 35.4
I6.4&5
18
31 44 53.80
9.9649
18 33 39.3
19.989
18
33 39 87.54
9.1108
6 33 56.9
16.495
19
81 47 9.56
9.960ft
18 9 39.7
18.046
19
33 31 34.51
2.1166
6 6 36.0
16.684
30
81 49 35.06
9.9661
17 56 33.8
18.169
30
83 33 41.41
9.1144
5 49 53.8
16.679
31
31 51 40.39
9.9618
17 43 11.5
18.967
31
83 35 48.34
9.1188
5 33 17.4
]64»7
33
31 53 55.37
9.9476
17 39 53.0
18.369
33
33 37 55.00
9.1199
5 16 39.9
16449
33
31 56 9.99
MO
9.9488
NDAY
S.17 16 88.4
26.
18.461
33
33 40 1.70
WEDI
9.1119
^ESDi
S. 5 0 0.4
LY 28.
iMta
0
31 58 34.46
9.9890
S.17 8 67.7
18.602
0
S3 48 8.35
9.1104
S. 4 43 18.9
16.707
1
33 0 38.67
9.9848
16 49 31.0
18.660
1
33 44 14.95
9.1006
4 36 35.6
16.787
3
33 3 53.64
9.9808
16 35 38.5
18.767
3
33 46 31.51
9.1080
4 9 50.5
16.786
3
S3 5 6.37
9.9968
16 31 50.1
18.864
3
33 48 38.03
9.1068
3 53 3.8
16.799
4
33 7 19.85
9.9298
16 7 56.0
18.048
4
33 50 34.50
9.1078
3 36 15.5
16.817
5
33 0 33.10
9.9188
15-53 56.3
14.042
5
33 53 40.96
9.1074
3 19 35.7
16.843
6
33 11 46.11
9'9148
15 39 51.0
U.184
6
33 54 47.39
9.1070
3 3 34.5
16.864
7
33 13 58.88
9.9109
15 35 40.3
14.294
7
33 56 53.80
9.1066
S 45 43.0
16.885
8
33 16 11.43
9.9071
15 11 34.1
14.813
8
33 59 0.30
9.1067
8 88 48.3
16.906
9
33 18 33.73
9.9034
14 57 3.6
14.402
9
0 1 6.60
9.1067
8 11 53.4
16.933
10
33 30 35.83
9.1097
14 43 35.9
14.487
10
0 3 13.00
9.1067
1 54 57.5
16.969
11
33 33 47.69
9.1960
14 38 4.1
14.672
11
0 5 19.40
9.1068
1 38 0.7
16.968
13
33 34 59.34
9.1098
14 13 37.3
14.666
13
0 7 35.81
9.1060
1 81 3.1
16.967
13
33 37 10.77
9.1868
13 58 45.5
14.787
13
0 9 33.33
9.1072
1 4 4.7
16.978 '
14
83 39 33.00
9.1868
13 43 58.8
14.818
14
0 11 38.68
2.ion
0 47 5.7
16.980
15
33 31 33.03
9.1819
13 39 7.3
14.807
15
0 13 45.15
3.1082
0 30 6.0
16.990
16
33 33 43.83
9.1786
13 14 11.1
14.076
16
0 15 51.65
9.1087
S. 0 13 6 8
17.007
17
38 35 54.44
9.1764
13 59 10.3
16.062
17
0 17 58.19
9.1093
N. 0 3 54.8
17.013
18
33 38 4.87
9.1729
13 44 4.9
16.197
18
0 30 4.77
9.1101
0 80 55.6
174)15
19
33 40 15.10
9.1600
13 38 55.1
16.900
19
0 33 11.40
9.1109
0 37 56.6
174118
30
33 43 35.14
9.1696
13 13 40.9
16.979
30
0 34 18.08
9.1118
0 54 57.8
17400
31
33 44 35.00
9.1698
11 58 33.5
16.842
31
0 36 34.83
9.1198
1 11 59.0
174)10
33
33 46 44.68
9.1600
11 43 59.9
16.419
33
0 38 31.63
9.1139
1 39 0.1
174)17
33
33 48 54.19
2.1670
11 37 33.1
16.480
33
0 30 38.49
9.1152
1 46 1.0
n4)18
34
33 51 3.53
9.1649
S.ll 13 3.3
16.647
34
0 33 45.44
9.1165
N. 3 3 1.7
17.000
XII.
MAY, 1866.
8d
•
GEEENWICH
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Uoar.
R^htAMMMkn.
DUL
tdtlm.
DUL
fbrlm.
IJoDr.
Right AmomIoii.
DUt
forlm.
Bwlinatioii.
DUL
fbrlm.
THU
rRSDA
Y 29.
SATURDAY 31.
h. m. 1.
■.
*. o ' *
It
h. m. a.
t.
o 1 a
N
0
0 32 45.44
3.n6*
N. 2 3 1.7
17.008
0
2 17 25.73
9J9788
NJ5 2 9.8
14401
1
0 34 52.47
2.1178
2 20 2.0
17.001
1
2 19 42.30
9.9786
15 16 55.2
14.719
2
0 36 59.58
3.110S
2 37 1.8
16.909
2
2 21 59.16
9.98M
15 31 35.2
14493
3
0 39 6.78
3.1906
2 64 1.1
16.983
3
2 24 16.32
9.9885
15 46 9.8
14480
4
0 41 14.08
9.1225
3 10 59.8
16.079
4
2 26 33.78
9.9085
16 0 38.8
14486
5
0 43 21.48
9.1049
3 27 57.7
16.968
5
2 28 51.54
9.9986
16 15 2.1
U440
6
0 45 28.98
9.1900
3 44 54.8
16.048
6
2 31 9.61
24067
16 29 19.6
14443
7
0 47 36.60
9.1{»0
4 1 50.9
16.097
7
2 33 27.99
94068
16 43 31.2
14.148
8
0 49 44.34
9.1300
4 18 46.0
16.900
8
2 35 46.67
34188
16 57 36.8
14419
9
0 51 52.20
9.1390
4 35 40.0
16400
9
2 38 5.66
94101
17 11 36.3
18440
10
0 54 0.18
9.1349
4 52 32.8
16.866
10
2 40 24.96
94948
17 25 29.6
18436
a
0 56 8.30
3.1305
5 9 24.2
16.845
11
2 42 44.57
94905
17 39 16.6
18.180
12
0 58 16.56
9.1888
5 26 14.2
16.890
12
2 45 4.50
94348
17 52 57.2
18499
13
1 0 24.96
9.1419
5 43 2.6
16.703
13
2 47 24.74
94400
18 0 31.3
18413
u
1 2 33.50
9-1437
5 59 49.4
16.766
14
2 49 45.30
94459
18 19 58.7
18401
15
1 4 42.20
9.1463
6 16 34.6
16.787
15
2 52 6.17
34506
18 33 19.4
18487
16
1 6 51.06
9.1400
6 33 17.9
16.706
16
2 54 27.36
34556
18 46 33.2
18.179
17
I 9 0.08
9.1518
6 49 59.3
16.673
17
2 56 48.87
94619
18 59 40.1
18466
18
1 11 9.27
9.1546
7 6 38.7
16.680
18
2 59 10.71
94666
19 12 40.0
19488
19
I 13 18.63
9.1575
7 23 16.0
" 16409
19
3 1 32.86
94710
19 25 32.7
19418
20
1 15 28.17
9.1605
7 39 51.0
16.564
20
3 3 55 33
94779
19 38 18.2
19407
21
1 17 37.89
9.1S86
7 56 23.7
16.595
21
3 6 18.12
94895
19 50 56.3
19478
22
1 19 47.80
9.1067
8 12 54.0
16.483
22
3 8 41.23
94878
20 3 27.0
19.448
23
1 21 57.91
9.1700
N. 8 29 21.7
16*440
23
3 11 4.65
94930
N.20 15 50.1
19429
FR
IDAY
30.
SUNDi
\Y, JI
JNE 1.
0
1
1 24 8.21
1 28 18.71
3.17SS
9.1767
N. 8 45 46.8
9 2 9.2
16J06
0|
3 13 28.391
94983|
NJ20 28 5.6 1
19.194
16J40
2
1 28 29.42
3.1809
9 18 28.7
16.801
3
1 30 40.34
3.1838
9 34 45.3
16.951
4
1 32 51.48
9.1875
9 50 58.8
16.190
5
1 35 2.84
9.1019
10 7 9.2
16.147
6
1 37 14.42
9.1M9
10 23 16.4
iMm
PHASES (
DF Tl
iE MOON.
7
1 39 26.22
9.1087
10 39 20.2
16.034
8
1 41 38.26
3.9037
10 55 20.5
11 11 17.3
154P76
9
1 43 50!54
2.9067
16.916
10
1 46 3.06
3.9107
11 27 10.4
15.864
^7- ^ fl-
11
1 48 15.83
3.9148
11 42 59.8
15.790
0 New Moo
n, .
. 4 2 42.
3
12
1 50 28.84
3.9180
11 58 45.2
15.794
J> First Qua
rter,
. 11 8 45.
2
13
1 52 42.10
9.9339
12 14 26.6
15457
O Full Moo
n, .
. 19 11 56.
6
14
1 54 55.62
3.9976
12 30 4.0
15.588
(C Last Quai
rter, .
. 26 17 33.
9
15
16
1 57 9.41
1 59 23.46
9.9890
9.9868
12 45 37.2
13 1 6.1
15417
15445
17
2 1 37.77
9.9407
13 16 30.6
15471
Daj. h.
18
2 3 52.35
3.9453
13 31 50.6
15.905
C Perigee,
, ,
..26.
7
19
2 6 7.21
3.9000
13 47 6.0
15.917
<r Apogee,
, ,
. . 14 7.
7
20
2 8 22.35
9.9M6
14 2 16.6
15.187
<C Perigee,
, ,
. . 30 0.
0
21
2 10 37.76
3.9506
14 17 22.4
15466
22
2 12 53.46
3.9641
14 32 23.3
14479
23
2 15 9.45
9.9080
14 47 19.1
14487
24
2 17 25.73
9.9788
N.15 2 9.8
14401
86
MAT, 1856.
XIII.
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
lii
star's Nam*
P. L
P. L.
P. L.
1
P. L. !
and
Noon.
of
Jill*
of
Vlh.
of
IXh.
of
Position.
OUL
DUr.
Diff.
9096
Diff.
1
Antares
W.
O / II
no u 10
9]00
O 1 H
119 5 4
9103
O 1 II
113 55 58
O 1 M
115 47 0
3009
a AquilaB
W.
64 13 4
Sl»
65 39 96
9153
67 6 32
1119
68 34 10
8087
Sun
E.
43 1 57
Moe
41 18 33
3401
30 34 50
3M7
37 51 17
3801
6
Sun
W.
95 35 46
9617
97 13 37
9089
28 51 7
9079
30 98 15
3006
Reffulas
E.
76 94 10
am
74 39 5
9904
79 54 94
3870
71 10 6
3807
Mars
E.
111 47 48
3900
110 1 47
9915
108 16 10
3889
106 30 57
MO
7
Sun
W.
38 98 7
7m
40 9 53
9804
41 37 16
3898
43 11 15
3043
Regains
E.
69 34 46
UJA
60 59 56
9109
59 11 31
3610
57 30 31
3090
Mars
E.
97 51 3
uu
96 8 90
9405
94 96 3
3479
09 44 11
3400
Spies
E.
116 36 19
9465
114 54 17
9481
113 19 40
3500
111 31 97
3616
8
Sun
W.
50 55 5
99U
59 96 39
9004
53 57 49
9079
55 98 37
3001
Saturn
W.
19 98 47
8006
13 57 48
9000
15 98 13
3M6
16 59 34
3017
Regulos
E.
49 11 59
9090
47 33 94
9098
45 55 91
3697
44 17 44
3071
Mars
E.
84 91 9
9S61
89 41 48
90OO
81 9 51
3616
79 94 18
3090
Spies
E.
103 11 97
9000
101 39 39
9099
99 54 15
3640
98 16 14
3060
9
Sun
W.
69 56 51
9089
64 95 93
9000
65 53 35
8115
67 91 96
8181
Satara
W.
94 41 49
9W0
96 14 19
9801
97 46 50
9807
99 19 13
30O4
Regains
E.
36 15 44
9707
34 40 33
9786
33 5 47
9805
31 31 95
3098
Mars
E.
71 17 30
9790
60 41 17
9796
68 5 96
9758
66 90 57
3700
Spies
E.
90 11 59
9741
88 36 6
9707
87 0 40
9n9
85 95 35
1788
10
Sun
W.
74 35 48
9911
76 1 44
9995
77 97 93
8340
78 59 46
8960
Satara
W.
36 58 30
SOftl
38 99 45
9001
40 0 47
9071
41 31 36
9901
PoUaz
w.
13 17 15
9971
14 50 3
9668
16 99 37
9800
17 54 57
9900
Mars
E.
58 37 34
9040
57 4 4
98B0
55 30 59
9879
53 57 57
9800
Spies
E.
77 35 11
9000
76 9 1
9874
74 99 0
3687
79 56 34
9000
11
Sun
W.
85 55 48
9910
87 19 41
9397
88 43 91
8886
90 6 40
9840
Satara
W.
49 9 37
9090
50 39 14
9098
59 1 40
8047
53 30 55
8006
PoUax
w.
95 33 18
9001
97 4 90
9070
98 35 U
3979
30 5 50
9080
Mars
E.
46 17 28
9040
44 46 7
9007
43 15 0
3007
41 44 6
9on
Spies
E.
65 17 39
9068
63 46 96
9000
69 15 34
son
60 44 53
9986
Antares
E.
111 10 99
9004
109 30 10
9004
108 8 99
9074
106 37 37
9004
13
Sun
W.
97 1 93
9909
08 93 49
9100
99 46 7
8405
101 8 18
8411
Satura
W.
60 54 46
1001
69 93 7
1006
63 51 91
8103
65 10 98
8107 ,
Pollax
W.
37 36 95
9090
39 6 5
ion
40 35 37
8000
49 5 9
80U
Mars
E.
34 19 31
9090
39 49 43
109B
31 13 5
80S4
99 43 35
8040
Spies
K.
53 14 19
9090
51 44 41
MSA
50 15 19
8041
48 45 50
8047
Antares
E.
99 6 36
9094
97 36 53
MOO
06 7 18
8006
04 37 50
8043
13
Sun
W.
107 57 40
9494
100 19 18
9438
110 40 59
8440
119 9 93
8441
Satura
w.
79 38 39
9197
74 6 16
1139
75 33 50
8111
77 1 92
iin
Pollux
w.
49 30 34
9005
50 50 98
MOB
59 28 17
8070
53 57 3
1079
Spica
E.
41 90 49
9070
39 51 55
M74
38 93 14
8077
36 54 36
9000
Antares
E.
87 19 4
9009
85 43 0
9000
84 14 18
8066
82 45 30
9070
14
Sun
W.
118 49 94
94IT
190 10 48
9440
191 39 13
8445
199 53 39
8445
Satura
W.
84 18 34
9190
85 46 0
1115
87 13 97
8114
88 40 56
8181
Pollux
W.
61 90 3-2
9075
69 40 19
1074
64 17 53
8073
H5 46 35
1079
Regulns
W.
94 56 51
9197
96 94 98
1199
97 59 11
1116
20 20 1
1110
XIV.
MAY, 1856.
87
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
h
^
Ster'i Nam*
P.L
P. L.
P.L.
P. L. 1
and
Midnight.
of
XVli.
of
XVlIlh.
of
XXP>.
of
PosiOon.
DIff.
Diff.
Diff.
DUL
1
Antares
W.
O • II
117 38 10
9068
O 1 II
119 29 27
3066
121 20 49
3062
O 1 ,1
123 12 16
«n. i
a AqoilaB
W.
70 2 44
aoao
71 SI 43
8036
73 1 12
8013
74 31 9
SPftI i
Sun
E.
36 7 29
3887
34 23 35
3883
32 39 36
3360
30 55 32
3378
^
Suv
W.
33 6 0
9f7U
33 41 22
9781
35 17 21
3749
36 52 56
1
9767
Regains
E.
60 26 13
3404
67 42 44
3433
65 59 40
3480
64 17 1
3466
Mars
E.
104 46 8
3M6
103 1 44
3M8
101 17 45
3401
99 34 11
3410
7
Sum
W.
44 44 49
3600
46 17 59
3070
47 60 45
3606
49 23 7
9016
Regtdos
E.
55 49 67
3546
54 9 48
3664
62 30 4
3668
60 60 46
9001
Mars
E.
91 2 44
3fi06
89 21 42
3697
87 41 6
3646
86 0 65
9668
Spica
E.
109 50 39
3616
108 10 15
3668
106 30 16
3070
104 50 39
9668
8
Sun
W.
56 59 1
8000
68 29 2
8037
69 68 41
8046
61 27 66
8068
Saturn
W.
18 31 31
3600
20 3 51
3800
21 36 23
3884
23 9 2
9883
Regulus
E.
42 40 31
3004
41 3 43
9712
39 27 19
3780
37 61 19
9740
Mars
E.
77 46 10
3063
76 8 25
3060
74 31 4
9067
72 64 6
9708
Spica
E.
96 38 37
3074
95 1 22
9001
93 24 30
9107
91 48 0
3794
9
Sun
W.
68 48 58
S148
70 16 9
8164
71 43 1
8180
73 9 34
8106
Saturn
W.
30 61 27
3013
32 23 30
9091
33 65 22
9001
35 27 3
9041
Regulus
E.
29 57 27
3843
28 23 54
'9609
26 50 46
9681
25 18 3
9901
Mars
E.
64 54 48
3786
63 20 0
9000
61 45 32
9816
60 11 23
9880
Spica
E.
83 50 51
3803
82 16 27
9818
80 42 23
9888
79 8 38
9847
10
Sun
W.
80 17 53
8906
81 42 44
8970
83 7 20
3903
84 31 41
8804
Saturn
W.
43 2 13
8901
44 32 37
8001
46 2 49
8010
47 32 49
8090
Pollux
W.
19 27 4
3030
20 58 57
9081
22 30 37
3041
24 2 4
9961
Mars
E.
52 25 19
3808
50 52 58
9011
49 20 53
9933
47 49 3
9086
Spica
E.
71 24 15
3013
69 52 12
9034
68 20 24
3086
66 48 51
9047
11
Sun
W.
91 30 6
8S68
92 53 11
8867
94 16 5
8376
95 38 49
8886
Saturn
W.
54 59 59
8063
56 28 54
80T0
57 57 40
8078
59 26 17
8084
Pollux
W.
31 36 17
9097
33 6 33
8006
34 36 40
8013
36 6 37
8090
Mars
E.
40 13 24
30B6
38 42 54
9006
37 12 36
8006
35 42 29
8019
Spica
E.
59 14 25
3007
57 44 8
8006
56 14 2
8014
54 44 6
8031
Antares
E.
105 7 4
3903
103 36 42
8001
102 6 30
8000
100 36 28
8017
13
Sun
W.
102 30 22
8417
103 52 19
8493
105 14 11
8436
106 35 58
8481
Saturn
W.
66 47 29
8113
68 15 24
8117
69 43,13
8130
71 10 58
8134
Pollux
W.
43 34 20
8060
45 3 31
8064
46 32 37
8060
48 1 37
8061
Mars
E.
28 14 12
8047
26 44 57
8063
25 15 49
8067
23 46 47
8069
Spica
E.
47 16 36
8063
45 47 29
8068
44 18 28
8063
42 49 33
8066
Antares
E.
93 8 29
8047
91 39 15
8063
90 10 6
8066
88 41 3
8060
13
Sun
W.
113 23 51
3446
114 45 16
8447
116 6 40
3448
117 28 2
8448
Saturn
W.
78 28 51
8136
79 56 18
8186
81 23 44
8187
82 51 9
8187
Pollux
W.
55 25 47
8073
56 64 29
8074
58 23 10
8074
59 51 51
8076
Spica
E.
35 26 2
8083
33 57 29
8084
32 29 0
8086
31 0 32
8087
Antares
E.
81 16 44
8073
79 48 0
8073
78 19 17
8078
76 50 35
8074
14
Sun
W.
124 15 5
8444
125 36 32
8448
126 58 1
8441
128 19 31
8440
Saturn
W.
90 8 25
8181
91 35 57
8199
93 3 31
8136
94 31 0
8194
Pollux
w.
67 15 19
80T0
68 44 6
. 8068
70 12 54
8066
71 41 46
8063
Regulus
w.
30 47 58
8106
32 16 1
8100
33 44 11
8006
35 12 27
8090
88
miAT, 1856.
XV.
GREENWICH MEAN
TIME.
1
1
LUNAR DISTANCES.
1
1^
8ter*8 Nan
M
P.L.
P.L.
P.L.
1
P.L.
aod
Noon.
of
IIP».
of
VPi.
of
1X>-
of
14
Positka.
DifL
Difl.
DUL
BUL
Spica
E.
O J l<
20 33 7
S087
O 1 u
38 3 43
8088
o 1 u
26 35 18
8069
O 1 II
25 6 55
8800
Antares
£.
75 31 54
8071
73 53 13
8078
72 24 31
8079
70 55 47
8071
15
Saturn
W.
95 58 49
SlSl
97 36 33
8117
98 54 22
8114
100 22 15
8110
Pollux
W.
73 10 43
SOW
74 39 43
8066
76 8 46
8089
77 37 65
8047
Regulos
W.
36 40 49
aoe»
38 9 17
8079
39 37 52
8078
41 6 34
8060
Antares
£.
63 31 34
aofs
63 3 33
8068
60 33 28
8061
59 4 18
8046
a Aquile
E.
110 54 0
4044
109 43 4
4099
108 31 46
4001
107 20 7
8081
16
Pollux
W.
85 5 7
8091
86 34 54
8016
88 4 48
8000
89 34 50
8003
Regulus
W.
48 31 48
8087
50 1 15
8080
51 30 50
8098
53 0 34
8016
Antares
E.
51 37 1
8039
50 7 15
8016
48 37 21
8009
47 7 19
8001
a Aquile
E.
101 17 18
8897
100 3 55
8888
98 50 18
8889
97 36 27
8806
17
Pollux
W.
97 7 8
900T
98 38 3
9066
100 9 7
9061
101 40 21
9049
ReguluB
W.
60 31 31
2976
63 3 11
9060
63 33 2
9009
65 4 3
9068
Mars
W.
35 15 19
9086
26 45 50
9978
28 16 30
9870
29 47 20
9063
Antares
E.
39 34 57
9100
38 4 2
. 9060
36 32 58
9051
35 1 44
9043
a Aquile
E.
91 24 13
8806
90 9 15
8796
88 54 11
8799
87 39 0
8186
Fomalhaut
E.
130 48 55
8997
119 23 18
8911
117 57 22
8197
116 31 9
8189
18
Pollux
W.
109 19 11
9000
110 51 30
9881
112 24 0
9868
113 56 41
9871
Regulus
W.
73 41 53
9800
74 13 59
9901
75 46 17
9801
77 18 47
9889
Mars
W.
37 33 58
9099
38 55 49
9914
40 27 50
9006
42 0 2
9896
Spica
W.
18 40 11
9899
20 11 53
9910
. 21 43 52
9004
.23 16 6
9809
Antares
E.
37 33 3
9801
25 50 45
9808
24 18 17
9864
22 45 38
9876
a Aquile
E.
81 31 38
8706
80 5 59
8764
78 50 19
8766
77 34 40
8766
Fomalhaat
E.
109 15 50
8114
107 47 58
8109
106 19 51
8080
104 51 29
8078
19
Regulus
W.
85 4 14
9888
86 37 55
9896
88 11 50
9818
89 45 55
9808
Mars
W.
49 43 49
9863
51 17 8
9844
52 50 39
96S5
54 24 22
9896
Spica
W.
31 0 53
9836
32 34 32
9696
34 8 24
9816
35 42 39
9806
a Aquile
E.
71 17 18
8704
70 2 10
8806
68 47 13
8616
67 32 29
8830
Fomalhaut
E.
97 36 7
8099
95 56 22
8019
94 26 24
8009
92 56 14
9609
aPegasi
E.
117 45 7
8969
116 19 59
8989
114 54 28
8918
113 28 34
8104
30
Regulus
W.
97 39 36
9761
99 14 45
9769
100 50 16
9743
102 25 59
9734
Mars
W.
63 15 47
9789
63 50 39
9779
65 25 43
9764
67 0 58
9755
Spica
W.
43 36 11
9766
45 11 34
9748
46 47 10
9789
48 22 59
9730
a Aquile
E.
61 33 5
8036
60 10 22
8966
58 58 8
4000
57 46 28
4036
Fomalhaut
E.
85 33 31
9047
83 51 2
9980
82 19 32
9931
80 47 63
9034
a Pegasi
E.
106 13 51
Sill
104 45 56
8097
103 17 43
8063
101 49 13
8069
Jupiter
E.
116 35 30
9818
115 1 19
9804
113 26 66
9796
111 52 21
9r?86
21
Regulus
W.
110 37 34
9869
112 4 28
9681
113 41 34
9672
115 18 62
9663
Mars
W.
75 0 8
9711
76 36 33
9708
78 13 9
9895
79 49 56
9086
Spica
W.
56 25 9
9868
58 2 12
9878
59 39 28
9664
61 16 56
9656
a Aquile
E.
51 58 34
4969
50 61 21
4867
49 45 21
4486
48 40 31
4619
Fomalhaut
E.
73 7 35
9893
71 34 57
9867
70 2 22
9863
68 29 41
9680 1
a Pegasi
E.
94 33 48
8019
92 52 50
3001
91 22 39
9803
89 52 17
9964
Jupiter
E.
103 56 19
9786
102 20 30
9799
100 44 28
9790
99 8 16
9710 1
23
Mars
W.
87 56 43
9644
89 34 37
9886
91 12 43
9898
92 51 0
I
9690
Spica
W.
69 27 17
9611
n 5 57
9009
72 44 49
9603
74 23 53
9666 1
Antares
W.
33 33 57
9611
26 11 37
9601
26 50 30
9698
28 29 35
9866
XVI.
MAY, 1856.
89
GREENWICH MEAN TIME.
LUNAR DISTANCES.
1
I
i!
Star'aNuM
P. L.
P.L.
P.L.
P.L.
and
Poiitfan.
Midnight.
of
Diff.
XVh.
of
TAB.
xvim
or
DUL
XXJh,
or
Diff.
14
Spica
E.
23 98 33
8001
O 1 w
22 10 12
8009
O 1 II
20 41 53
8000
O 1 N
19 13 35
8000
Anuires
£.
69 97 2
wm
67 58 14
8007
66 29 24
8005
65 0 31
8061
15
Satnrn
W.
101 50 13
S105
103 18 16
8100
104 46 26
8000
106 14 41
8000
PoHox
W.
79 7 9
KMS
80 36 29
8080
82 5 55
8003
83 35 27
8086
Regulus
W
42 35 22
S06S
44 4 17
8006
45 33 20
8051
47 2 30
8044
Antares
E.
57 35 2
8041
56 5 40
8007
54 36 13
8089
53 6 40
8097
a Aqoils
E.
106 8 9
8003
104 55 52
8044
103 43 17
8098
102 30 26
8019
16
PoUax
W.
01 5 0
8005
92 35 19
aooo
94 5 46
9061
95 36 23
9074
Regulos
W.
54 30 28
8000
56 0 30
8001
57 30 41
9004
59 1 1
9980
Antaree
E.
45 37 8
soot
44 6 48
8088
42 36 20
9081
41 5 43
9973
a AquilflB
E.
96 22 23
8845
95 8 7
8838
93 53 39
8899
92 39 0
8814
17
Pollax
W.
103 11 46
8964
104 43 21
9090
106 15 7
9018
107 47 3
9000
Regolos
W.
66 35 16
8044
68 6 39
9000
69 38 12
9097
71 9 56
9018
Man
W.
31 18 19
90S6
32 49 28
9040
34 20 48
9000
35 52 18
9901
Antares
E.
33 30 20
8000
31 58 47
9097
30 27 3
9010
28 55 8
9010
a Aqaile
E.
86 23 42
8770
85 8 18
tn4
83 52 49
8770
82 37 15
8707
Fomalhaut
E.
115 4 38
8168
113 37 50
8168
112 10 46
8141
110 43 26
8196
18
PollttX
W.
115 29 34
9804
117 2 38
9855
118 35 55
9840
120 9 92
9687
Regolas
W.
78 51 29
38T8
80 24 23
9804
81 57 28
9855
83 30 45
9845
Mars
W.
43 32 25
9806
45 4 59
9880
46 37 44
9871
48 10 41
9869
Spica
W.
24 48 35
9881
26 21 18
9870
27 54 15
9850
29 27 27
9848
Antares
E.
21 12 49
9868
19 39 49
9800
18 6 39
9859
16 33 18
98tt
a Aqaila
E.
76 19 2
troo
75 3 28
8778
73 47 58
8780
72 32 35
8760
Fomalhaat
E.
103 22 58
8007
101 54 3
8005
100 24 58
8048
98 55 39
8088
19
Regains
W.
91 20 13
9708
92 54 43
9780
94 29 25
9770
96 4 20
9r70
Mars
W.
55 58 16
8817
57 32 21
9808
59 6 38
9700
60 41 7
9701
Spica
W.
37 16 47
9797
38 51 19
9780
40 26 3
97T7
42 1 1
9708
a Aqnile
E.
66 17 58
8847
65 3 44
8805
63 49 49
8886
69-86 15
8810
Fomalhaat
E.
91 25 51
9009
89 55 16
9078
88 24 29
9064
86 53 80
9055
aPegasi
E.
112 2 18
8177
110 35 41
8100
109 8 44
8148
107 41 27
8196
90
Regains
W.
104 1 55
979S
105 38 2
9710
107 14 21
9707
108 50 52
9006
Mars
W.
68 36 25
9747
70 12 3
9738
71 47 53
9790
73 23 55
9790
Spica
W.
49 58 59
9719
51 35 13
9710
53 11 39
9701
54 48 18
9009
a Aqnile
E.
56 35 24
40T7
55 25 0
4191
54 15 19
4171
53 6 25
4«7
Fomalhaat
E.
79 16 4
9016
77 44 6
9010
76 12 0
9004
74 39 46
9808
a Pegasi
E.
100 20 26
80M
98 51 23
8045
97 22 6
8003
95 59 84
8099
Jupiter
E.
110 17 34
9nd
108 42 34
9700
107 7 22
9756
105 31 57
9747
21
Regalas
W.
116 56 22
96A4
118 34 4
9640
120 11 57
9688
121 50 0
9080
Mars
W.
81 26 55
9678
83 4 5
9000
84 41 26
9661
86 18 58
9009
Spica
W.
62 54 36
9046
64 32 28
9637
66 10 32
9098
67 48 49
9090
a Aqaila
E.
47 36 66
4010
46 34 44
4717
45 33 59
4881
44 84 48
4901
Fomalhaat
E.
66 56 56
98T6
65 24 7
9874
63 51 15
9879
62 18 20
9871
a Pegasi
E.
88 21 43
9975
86 50 59
9066
85 20 4
9000
83 49 1
9954
Jupiter
E.
97 31 50
9701
95 55 13
9602
94 18 23
9068
92 41 91
9074
99
Mars
W.
94 29 28
9019
96 8 6
9004
97 46 55
9900
99 25 56
9666
Spica
W.
76 3 8
9sn
77 42 35
9609
79 22 18
9500
81 2 3
9558
Antares
w.
30 8 51
9070
31 48 19
9507
33 27 59
9560
35 7 51
9651
12
90
MAY, 1856.
XVII.
GREENWICH MEAN TIME.
LUNAR DISTANCES
•
^4
Ster'i Nam*
and
Noon.
P.L.
of
nih-
P.L.
of
Vlh.
P.L.
of
DO*.
P.L.
or
33
Position.
DiiL
•
Diff.
DIff
DHL
Fomalhaut
E.
O 1 1$
60 45 24
3870
o 1 n
69 12 27
9871
O 1 »l
57 39 31
9878
O 1 N
56 6 38
9876
a Pegasi
E.
82 17 60
9M7
80 46 31
9943
79 15 5
9938
77 43 34
9988
Jupiter
E.
91 4 7
9866
89 26 41
3667
87 49 3
9648
86 11 13
9640
.93
Mara
W.
101 5 7
Sfieo
102 44 29
9678
104 24 1
9566
106 3 44
9587
Spica
w.
82 42 4
9643
84 22 17
96S6
86 2 41
9637
87 43 16
9519
Antares
w.
36 47 54
9643
38 28 9
9683
40 8 36
9636
41 49 15
95n
Fomalhaut
E.
48 23 37
3911
46 51 32
3934
45 19 43
9989
43 48 14
9960
a Pegasi
E.
70 4 55
3934
68 33 6
9934
67 1 18
9936
65 29 32
9999
Jupiter
a Arietis
E.
77 59 12
966e
76 20 14
9690
74 41 6
3563
73 1 45
3878
E.
111 29 4
9600
109 50 9
9691
108 11 1
3663
106 31 41
9579
Sun
E.
137 33 17
avn
135 59 29
9B68
134 26 29
3866
132 53 17
9B4B
24
Spica
W.
96 9 1
3480
97 50 43
9473
99 32 36
9464
101 14 40
9456
Antares
w.
50 15 12
94T7
51 56 58
3470
53 38 64
9463
55 21 2
9154
a Pegasi
E.
57 52 9
9963
56 21 10
3976
54 50 26
9969
63 19 59
8004
Jut>iter
E.
64 42 13
9683
63 1 44
3634
61 21 4
3516
59 40 13
9608
a Arietb
E.
98 11 54
3639
96 31 21
9631
94 50 37
9613
93 9 41
9505
Sun
E.
125 4 16
9804
123 29 53
9796
121 55 19
9787
120 20 34
9779
25
Spica
W.
109 47 44
3418
111 30 53
9410
113 14 13
9403
114 57 43
9898
Antares
W.
63 54 24
9416
65 37 37
9406
67 21 1
9400
69 4 36
9893
Jupiter
a Arietis
E.
51 13 13
3469
49 31 16
9409
47 49 9
9458
46 6 50
9146
E.
84 42 21
3467
83 0 22
9460
81 18 12
9468
79 35 52
9146 ■
Sun
£.
112 24 0
9786
110 48 7
9798
109 12 4
9719
107 35 50
9719
26
Antares
W.
77 45 10
3866
79 29 49
9848
81 14 38
9841
82 59 37
9884
Jupiter
a Arietis
E.
37 32 37
3408
35 49 14
9401
34 5 41
9394
32 21 68
9867
E.
71 1 51
M16
69 18 37
9409
67 35 14
9403
65 51 43
9897
Sun
E.
09 32 2
9673
97 54 45
9664
96 17 17
9667
94 39 39
96«
27
Antares
W.
91 47 4
9901
93 33 2
9391
95 19 10
9986
97 5 27
9981
a Aquiks
W.
50 33 47
8937
51 46 39
8843
53 0 57
8764
54 16 37
8899
a Arietis
E.
57 12 21
9876
55 28 11
3878
53 43 57
9870
51 59 39
9867
Sun
E.
86 28 59
9618
84 60 22
9607
83 11 36
9600
81 32 41
9608
28
Antares
W.
105 59 8
9368
107 46 16
9948
109 33 32
9343
111 20 55
9989
a Aquila
W.
60 52 14
8413
62 14 16
8371
63 37 6
8380
65 0 43
8988
a Arietis
E.
43 17 39
9868
41 33 19
9879
39 49 4
3876
38 4 65
9889
Sun
E.
73 15 56
9664
71 36 11
9669
69 56 19
3568
68 16 20
9549
29
a Aquile
W.
72 8 19
8168
73 35 24
8138
75 2 54
8114
76 30 46
8008
Fomalhaut
W.
40 41 1
9689
42 17 66
9666
43 55 36
9634
45 33 59
9606
Sun
E.
59 54 53
9638
58 14 18
3536
66 33 40
963i
54 52 58
9531
30
a AquilaB
W.
83 64 17
8046
85 23 33
8041
86 52 65
8037
88 22 22
8065
Fomalhaut
W.
53 64 0
9499
55 35 14
9486
67 16 47
9476
58 58 36
9468
Jupiter
w.
18 49 24
9360
20 36 37
3349
22 23 51
9949
24 11 6
9949
Sun
E.
46 28 58
9617
44 48 8
9617
43 7 19
9618
41 26 31
9590
31
a AquilaB
W.
95 49 16
8066
97 18 19
8066
98 47 11
. 8078
100 15 48
8091
Fomalhaut
W.
67 30 43
9436
69 13 28
9433
70 56 16
9431
72 39 7
9480
Jupiter
W.
33 7 6
3366
34 54 12
9356
36 41 13
9961
38 28 10
9964
Sun
E.
33 3 29
3540
31 23 12
9546
29 43 2
9563
28 3 2
9680
XVIII.
MAY, 1856.
91
GREENWICH MEAN TIME.
LUNAR DISTANCES.
u
Bter'sNaaM
and
PoriOon.
Midnight.
PL.
of
Dlft
XVb.
P.L.
of
Difl.
xvniJi.
P.L.
of
Dur
XXIh.
P.L.
of
^
♦
O 1 M
O 1 H
O 1 H
o «
S3
Foraalhaut
E.
54 33 48
9880
53 1 3
9885
51 38 35
9803
49 55 56
9900
a Pegasi
E.
76 11 67
9930
74 40 16
9937
73 8 31
3935
71 36 44
9994
Japiter
E.
64 33 13
9031
83 54 59
9638
81 r6 35
9614
79 37 59
9006
S3
Mars
W.
107 43 38
95fl0
109 33 43
3543
111 3 57
9535
113 44 33
9697
Spica
W.
89 34 3
3511
91 5 1
3508
93 46 10
9495
94 87 30
9487
Antares
W.
43 30 4
3009
45 11 5
9509
46 53 16
9494
48 33 38
9485
Fomalhant
E.
43 17 8
9080
40 46 30
8006
39 16 35
8085
37 46 56
8015
a Pegasi
E.
63 57 50
99n
63 36 13
3939
60 54 43
9945
59 33 31
9958
Japiter
a Arietis
E.
71 33 13
saes
69 43 30
3557
68 3 36
3548
66 33 30
9540
E.
104 53 8
9668
103 13 33
3554
101 33 35
9546
99 53 15
9588
Son
E.
131 19 53
9S89
139 46 15
3881
138 13 37
9833
136 38 37
9618
S4
Spica
W.
103 56 55
9448
104 39 31
3441
106 31 58
9488
108 4 45
9495
Antares
W.
57 3 80
9445
58 45 50
3488
60 38 30
9430
63 11 32
9498
a Pegasi
E.
51 49 51
8038
60 30 7
8045
48 50 50
8071
47 33 6
8103
Japiter
E.
57 59 11
3fi00
56 17 58
3493
54 36 34
9485
53 54 59
9cn
a Arietis
E.
91 38 35
3467
89 47 18
3189
88 5 50
9483
86 34 11
9474
Sun
E.
118 45 38
9770
117 10 30
9761
115 35 11
9758
113 59 41
9744
S5
Spica
W.
110 41 34
3S89
118 36 15
3881
130 9 17
9878
131 63 30
9806
Antares
W.
70 48 33
3385
73 33 18
3878
74 16 35
9371
76 0 43
3868
Jupiter
E.
44 34 31
9488
43 41 41
9481
40 58 50
9494
39 15 49
9416
a Arietis
E.
77 53 33
3438
76 10 43
9433
74 37 56
9496
73 44 67
9490
Sun
E.
105 59 36
9704
104 33 51
9605
103 46 5
9688
101 9 9
9660
S6
Antares
W.
84 44 47
9827
86 30 7
3831
88 15 36
9314
90 1 15
9801
Jupiter
a Arietis
E.
30 38 5
9880
38 54 3
9373
37 9 49
3366
35 35 36
9850
E.
64 8 4
9893
63 34 18
9887
60 40 35
9383
58 56 36
9879
Sun
E.
93 1 51
9641
91 33 53
9635
89 45 44
9697
88 7 36
9691
S7
Antares
W.
98 51 54
9775
100 38 30
9970
103 35 14
9964
104 13 7
9356
a Aqails
W.
55 33 33
8636
56 51 39
8565
58 10 51
8510
59 31 4
8480
a Arietis
E.
50 15 17
9866
48 30 53
9865
46 46 38
9865
45 3 3
9866
Sun
E.
79 53 37
9567
78 14 34
9581
76 35 3
9674
74 55 33
9669
88
Antares
W.
113 8 35
9984
114 56 3
9999
116 43 46
9335
118 31 37
9990
a Aquilse
W.
66 35 3
89S0
67 50 3
8330
69 15 36
8303
70 41 43
8178
a Arietis
E.
36 30 55
9891
34 37 7
3409
33 53 35
9416
31 10 33
9481
Sun
E.
66 36 15
9545
64 56 4
9540
63 15 46
9585
61 35 33
9589
S9
a Aqaile
W.
77 58 58
8084
79 37 37
8071
80 56 13
8061
83 25 9
8063
Fomalhaut
W.
47 13 59
9579
48 53 33
9551
60 33 36
9581
53 13 6
9514
Sun
E.
53 13 14
9519
51 31 37
9517
49 50 38
9517
48 9 48
9517
30
a Aqnilse
W.
89 51 51
8037
91 31 18
8089
93 50 43
8043
94 30 3
8048
Fomalhaut
W.
60 40 41
3453
63 33 0
9447
64 5 38
3443
65 48 3
9488
Jupiter
W.
35 58 30
9949
37 45 34
9950
39 32 47
9351
31 19 58
9968
Sun
E.
39 45 45
9598
38 5 4
9536
36 24 26
9580
34 43 54
9685
31
a Aquilae
W.
101 44 9
8106
103 13 11
8134
104 39 53
8148
106 7 11
8197
Fomalhaut
W.
74 31 59
9499
76 4 53
3430
77 47 45
9433
79 30 33
9486
Jupiter
W.
40 15 3
9968
43 1 48
3973
43 48 37
9978
45 34 59
S988
Sun
E.
36 33 13
9569
34 43 34
3579
33 4 11
9594
81 36 8
9615
92
JUNE, 1856.
AT GREENWICH APPAEENT NOON.
i
OlCft*
Mod.
Tues.
Wed.
Thur.
Fri.
Sat
Sun.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat
Suit.
Mod.
Tues.
Wed.
Thur.
Fri.
Sat
Sun,
Mon.
Tues.
Wed.
Thur.
Fri.
Sat
Sun.
Mon.
Tues.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
THE SUN'S
Appanni
Bight
h. m. ■.
4 38 9.72
4 42 15.68
4 46 22.04
4 50 28.73
4 54 35.76
4 58 43.11
5 2 50.76
5 6 58.65
5 11 6.81
5 15 15.18
5 19 23.78
5 23 82.55
5 27 41.48
5 31 50.55
5 35 59.73
5 40 9.03
5 44 18.39
5 48 27.80
5 52 37.26
5 56 46.74
6 0 56.25
6 5 5.72
6 9 15.16
6 13 24.53
6 17 33.83
6 21 43.03
6 25 52.09
6 30 1.00
6 34 9.74
6 38 18.27
6 42 36.58
DOLfbr
Iboar.
0.2S9
0.255
0.271
0.285
0.299
0.311
0.822
0.833
0.848
0.852
0.861
0.368
0.874
0.879
0.884
0.888
0.890
0.892
0.898
0.394
0.894
10.392
0.891
0.889
[0.884
0.879
0.874
10.866
0.858
0.850
10.340
Jpptrttu
N.22 7 37.3
22 15 25.6
22 22 5a6
22 29 52.3
22 36 30.3
22 42 44.5
22 48 34.7
22 54 0.8
22 59 2.8
23 3 40.5
23 7 53.9
23 11 42.8
23 15 7.3
23 18 7.0
23 20 42.2
23 22 52.8
23 24 38.7
23 25 59.8
23 26 56.1
23 27 27.6
23 27 34.5
23 27 16.7
23 26 33.9
23 25 26.4
23 23 54.3
23 21 57.4
23 19 36.0
23 16 49.9
23 13 39.3
23 10 4.2
N.28 6 4.8
Diff.ftnr
1 hoor.
19.99
19.02
18.05
17.08
16.08
16.08
14.08
13.08
12.07
11.06
10.04
9.02
7.99
6.96
5.94
4.92
3.89
2.85
1.83
0.80
0.23
1.27
2.29
3.81
4.84
5.37
6.40
7.43
8.44
9.46
10.47
ScoU.
15 48.16
15 48.02
15 47.92
15 47.80
15 47.68
15 47.56
15 47.45
15 47.35
15 47.25
15 47.16
15 47.08
15 47.00
15 46.91
15 46.83
15 46.75
15 46.69
15 46.62
15 46.56
15 46.50
15 46.44
15 46.39
15 46.34
15 46.30
15 46.26
15 46.22
15 46.18
15 46.15
15 46.13
15 46.11
15 46.09
15 46.08
sidereal
Tfane
or Am
Semldl-
tiM
Moid*
68.43
68.48
68.54
68.59
68.64
68.69
68.73
68.77
68.81
68.84
68.87
68.90
68.91
68.93
68.95
68.96
68.97
68.97
68.98
68.98
68.98
68.97
68.97
68.96
68.94
68.93
68.89
68.86
68.83
68.80
68.76
Time,
tobt
frOtn
adtUdto
Appvmi
Titnt.
2 26.55
2 17.18
2 7.41
1 57.29
1 46.86
1 36.10
1 25.04
1 13.74
1 2.17
0 50.39
0 38.37
0 26.19
0 13.86
0 1.39
0 11.20
0 23.90
0 86.69
0 49.51
1 2.37
1 15.25
1 28.17
1 41.04
1 58.88
2 6.66
2 19.37
2 31.98
2 44.44
2 56.75
3 8.90
8 20.83
8 82.56
DHL
for
ft.
0.388
0.399
0.414
0.428
0.442
0.455
0.466
0.476
0.486
0.494
0.502
0.509
0.516
0.522
0.527
0.582
0.535
0.586
0.587
0.538
0.588
0.597
0.535
0J»1
0.527
0.522
0.516
0.509
0.501
0.498
0.488
Hon. — J
iTlMortlMfl
( Oi.18 Chan Um SIdmal Ite*.
II.
JUNE, 1856«
oa
AT GREENWICH MEAN
NOON.
i
1
4
1
THE SUN'S
Mqximikmct
Tim*,
tolm
wUhdf
DI&
tot
Ihoor.
BUmmI
TlM.
subtraeted
frtmi
Mean
Time,
Appanni
Bight Amoalm.
DULfbr
Iboar.
Jppaumi
DULfbr
Ihour.
SUH,
Mon.
Tues.
1
2
3
h. m. a.
4 38 10.14
4 42 16.07
4 46 22.40
s.
10.239
10.255
10.271
N.S» '7 88.1
22 15 26.3
22 22 51.2
19.99
19.02
18.05
m. ■.
2 26.54
2 17.17
2 7.40
0.388
0.399
0.414
h. m. •.
4 40 36.68
4 44 83.24
4 48 29.80
Wed.
Thur.
Fri.
4
5
6
4 50 29.06
4 54 36.06
4 5& 43.38
10.285
10.299
10.811
22 29 52.8
22 36 30.8
22 42 44.9
17.08
16.08
15.08
1 57.80
1 46.86
1 36.10
0.428
0.442
0.455
4 52 26.36
4 56 22.92
5 0 19.48
Sat.
Sun.
Mon.
7
8
9
5 2 51.00
5 6 58.86
5 11 6.99
10.822
10.883
10.843
22 48 35.0
22 54 1.1
22 59 3.0
14.08
13.08
12.07
1 25.04
1 13.74
1 2.17
0.466
0.476
0.486
5 4 16.04
5 8 12.60
5 12 9.16
Ill
10
11
12
5 15 15.33
5 19 23.89
5 23 32.63
10.8S2
10.861
10.868
23 3 40.7
23 7 54.0
23 11 42.9
11.06
10.04
9U)2
0 50.39
0 38.38
0 26^20
0.494
0.602
0.509
5 16 5.72
5 20 2JJ7
5 23 58.83
Fri.
Sat
13
14
15
5 27 41.52
5 31 50.55
5 35 59.70
10.874
10.879
10.884
23 16 7.3
28 18 7.0
23 20 4S.2
7.99
6.96
5.94
0 13.87
0 1.40
0 11.19
0.516
0.522
0.527
5 27 55.39
5 31 51.95
5 35 48.51
Mon.
Tues.
Wed.
16
17
18
5 40 8.96
5 44 18.29
5 48 27.66
10.888
10.890
10.892
23 22 52.8
28 24 38.7
23 25 59.8
4.92
8.89
2.85
0 23.89
0 36.67
0 49.49
0.582
0.585
0.586
6 39 45.07
5 43 41.62
5 47 38.17
Thur.
Fri.
Sat.
19
20
21
5 52 37.09
5 56 46.53
6 0 56.00
10.898
10.894
10.894
28 26 S6.I
23 27 27.6
23 27 34.5
J.88
0.80
0.88
1 2.35
1 15.23
1 28.14
0.587
0.538
0.538
5 51 34.74
5 55 31.30
5 59 27.86
San.
Mon.
Tues.
22
23
24
6 5 5.43
6 9 14.83
6 13 24.17
10.892
10.891
10.889
28 27 16.7
23 26 84.0
23 25*26.6
1.27
2.29
8.81
1 41.01
•1 53.85
2 6.63
0.537
0.535
0.581
6 3 24.42
6 7 20.98
6 11 17.54
Wed.
Thur.
Fri.
25
26
27
6 17 33.43
6 21 42.60
6 25 51.62
10.884
10.879
10.874
23 28 54.5
23 21 57.7
23 19 36.8
4.84
5.87
6.40
2 19.34
2 31.95
2 44.41
0.527
0.522
0.516
6 15 14.09
6 19 10.65
6 23 7.21
Sat.
Sun.
Mon.
28
29
30
6 30 0.49
6 34 9.20
6 38 17.69
10.866
10.858
10.350
28 16 50.8
23 18 39.8
23 10 4.8
7.48
8.44
9.46
2 56.72
8 8.87
3 20.80
0.509
0.501
0.498
6 27 3.77
6 31 0.33
6 34 56.89
Tues.
31
6 42 25.97
10.840
N.23 6 5.4
10.47
3 32.52
0.488
6 38 53.45
tr
an Noon may be tan
unedihe
nmeuthatfof
Apparmt
Noon.
94
JUNE, 1856.
III.
AT GREENWICH MEAN NOON.
THE SUN'S
1
2
3
4
5
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
26
26
27
28
29
30
31
I
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
3Vm LONOITUBB.
71 6 51.4
72 4 19.0
73 1 45.7
73 59 11.4
74 56 36.2
75 54 0.0
76 51 22.8
77'48 44.5
78 46 5.2
79 43 25.0
80 40 43.8
81 38 1.7
82 35 18.7
83 32 34.9
84 29 50.2
85 27 4.8
86 24 18.8
87 21 32.2
88 18 45.3
89 15 58.1
90 13 10.7
91 10 23.1
92 7 35.5
93 4 47.8
94 2 0.1
94 59 12.5
95 56 25.0
96 53 37.6
97 50 50.3
98 48 3.1
99 45 16.1
6 37.4
4 4.9
1 31.4
58 56.9
56 21.5
53 45.1
50 7.7
48 29.2
45 49.7
43 9.3
40 28.0
37 45.7
35 2.5
32 18.5
29 33.6
26 48.0
24 1.8
21 15.0
18 27.9
15 40.5
12 52.9
10 5.2
7 17.4
4 29.5
1 41.6
58 53.8
56 6.1
53 18.5
50 31.0
47 43.6
44 56.4
DIff fbr
1 hoar.
43.65
48.61
48.57
48.54
48.50
48.46
48.42
48.88
48.83
48.29
48.26
48.22
48.19
43.15
48.12
48.10
48.08
48.06
48.04
48.04
48.03
48.03
48.02
48.02
48.02
48.02
48.02
48.02
48.02
48.02
148.08
LATITUDE
-fO.02
0.14
0.23
0.30
0.34
0.36
0.35
0.30
-M>.14
0.00
—0.14
0.27
0.40
0.50
0.61
0.69
0.76
0.79
0.80
0.76
0.69
0.61
0.50
0.37
0.22
—0.09
-h0.04
0.17
0.27
+0.34
Iiogwithm
oftbt
lUdltu Vector
of Ul6
Barth.
0.0062921
.0063527
.0064109
.0064668
.0065203
.0065713
.0066199
.0066664
.0067105
.0067525
.0067925
.0068308
.0068673
.0069022
.0069357
.0069678
.0069983
.0070275
.0070552
.0070812
.0071059
.0071291
.0071505
.0071702
.0071879
.0072036
.0072172
.0072284
.0072372
.0072436
0.0072475
DUr.ft>r
1 hoar.
26.0
25.0
23.9
22.8
21.8
20.8
19.8
18.8
17.9
17.2
16.5
15.8
15.1
14.3
18.6
18.0
12.4
11.8
11.2
10.6
9.9
9.2
8.5
7.8
6.9
6.0
5.1
4.2
8.2
2.1
1.0
81<l6mlOh.
h. m. ■.
19 16 13.38
19 12 17.47
19 8 21.56
19 4 25.64
19 0 29.73
18 56 33.81
18 52 37.89
18 48 41.98
18 44 46.07
18 40 50.16
18 36 54.24
18 32 58.34
18 29 2.48
18 25 6.51
18 21 10.59 >
18 17 14.68
18 13 18.78
18 9 22.88
18 5 26.95
18 1 31.03
17 57 35.12
17 53 39.20
17 49 43.29
17 45 47.38
17 41 51.46
17 37 55 56
17 33 59.65
17 30
17 26
3.73
7.82
17 22 11.90
17 18 15.99
HoVB. — X ooRWpood* to Um mw •qolaox of th* dftto, ».' to Cb* mmm •qolaox of Jan. Od.
IV.
JUNE, 1856.
95
GREENWICH
MEAN TIME.
THE
MOON^S
1
aBHiDTAiratm.
HORIZONTAL PARALLAX.
MERIDLAN PASSAGE.
AOB.
Noon.
Midnight
Noon.
DULlbr
Ihoor.
Midnight.
DUltor
Ihoor.
Dill for
Ihoor.
1
16 14,2
16 10.9
5^ 28.8
-0.90
59 16.7
-1.11
h m.
23 26.6
m.
2.34
28.9
2
16 6.9
16 2.3
59 2.1
1.31
58 45.2
1.49
6
29.9
3
15 57JJ
15 51.7
58 26.4
1.68
58 6.0
1.74
0 26.3
2.40
0.5
4
15 45.8
15 39.7
57 44.5
1.82
57 22.3
1.86
1 26.5
2.88
1.5
5
15 33.6
15 27.5
56 59.8
1.87
56 37.5
1.88
2 24.9
2.27
2.5
6
15 21.6
15 16.0
56 15.8
1.77
55 55.1
1.68
3 19.5
2.10
3.5
7
15 10.7
15 5.8
55 35.6
1.56
65 17.9
1.48
4 9.5
1.92
4.5
8
15 1.5
14 57.7
55 1.7
1.25
54 47.8
1.07
4 55.3
1.76
5.5
9
14 54.5
14 52.0
54 36.1
0.87
54 26.8
0.67
5 37.6
1.64
6.5
10
14 50.1
14 49.0
54 20.1
0.45
54 16.0
-0.28
6 17.6
1.57
7.5
11
14 48.6
14 48.8
54 14.4
-0.02
54 15.4
+0.19
6 56.6
1.55
8.5
12
14 49.8
14 51.4
54 18.9
+0.89
54 24.8
0.59
7 35.7
1.58
9.5
13
14 53.7
14 56.5
54 33.1
0.77
54 43.4
0.98
8 16.2
1.66
10.5
14
14 59.8
15 3.6
54 55.6
1.08
55 9.4
1.21
8 59.2
1.79
11.5
15
15 7.7
15 12.2
55 24.7
1.82
55 41.2
1.4i
9 45.8
1.95
12.5
16
15 16.9
15 21.8
55 58.6
1.47
56 16.6
1.51
10 36.7
2.12
13.5
17
15 26.8
15 31.9
56 34.9
1.53
56 53.3
1.52
11 31.8
2.28
14.5
18
15 36.8
15 41.5
57 11.4
1.48
57 28.9
1.42
12 30.2
2.87
15.5
19
15 46.1
15 50.4
57 45.6
1.85
58 1.3
1.26
13 29.8
2.87
16.5
20
15 54.3
15 57.9
58 15.8
1.15
58 29.0
1.08
14 28.2
2.28
17.5
21
16 1.1
16 3.9
58 40.7
0.91
58 50.9
0.79
15 23.8
2.16
18.5
22
16 6.3
16 8.2
58 59.6
0.66
59 6.7
0.53
16 16.1
2.04
19.5
23
16 9.7
16 10.8
59 12.3
0.41
59 16.5
0.30
17 5.6
1.94
20.5
24
16 11.6
16 12.0
59 19.4
+0.19
59 21.0
+0.08
17 53.6
1.90
21.5
25
16 12.1
16 11.9
59 21.3
-0.03
59 20.4
-0.13
18 41,3
1.92
22.5
26
16 11.3
16 10.3
59 18.2
0.24
59 14.6
0.85
19 80.2
2.00
23.5
27
16 9.0
16 7.3
59 9.8
0.46
59 3.6
0.57
20 21.5
2.11
24.5
28
16 5.2
16 2.7
58 55.9
0.70
58 46.7
0.83
21 15.9
2.24
25.5
29
15 59.8
15 56.5
58 36.0
0.95
58 23.8
1.07
22 13.5
2.36
26.5
30
15 52.8
15 48.7
58 10.2
1.19
57 55.3
1.28
23 13.8
2.46
27.5
31
15 44.4
15 39.8
57 39.4
-1.36
57 22.5
-1.42
6
28.5
96
JUNE, 1856.
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Qoar.
DUL
forlm.
Dfteltofttkm.
DUt
forlm.
Hoor
Bight Awenston.
IMff.
forlm.
DecHnftdoa.
DUL
fiirlm.
SUNDAY
■ 1.
TUESDAY 3.
h. m. ■.
ft.
O 1 1
«
h. m. ft.
ft.
0 1 ft
«
0
3 13 28.39
9J08S
N.20 28 6.6
19.194
0
6 13 42.69
94770
N.27 18 33.6
4479
1
3 16 62.46
9.40M
20 40 13.4
liMi
1
6 16 17.24
94780
27 22 66.9
4.997
2
3 18 16.82
t.40e6
20 62 13.3
11.939
9
6 18 61.96
94788
27 27 9.3
4.116
3
3 20 41.61
9.4141
21 4 6.2
11.797
3
6 21 26.70
94795
27 31 10.7
8.933
4
3 23 6.61
S.4193
21 16 49.0
11.689
4
6 24 1.49
94600
27 36 1.2
8.700
5
3 26 31.82
QAMS
21 27 24.7
11.6-27
6
6 26 36.30
34803
27 38 40.7
3.667
6
3 27 67.46
SAsan
21 38 62.3
11.890
6
6 29 11.12
94604
27 42 9.2
8J84
7
3 30 23.38
9.4348
21 60 11.6
11.949
7
6 31 46.96
94606
27 46 26.7
3.901
6
3 32 49.62
9.4386
22 1 22.2
11.108
8
6 34 20.78
94604
27 48 33.3
30)18
9
3 36 16.16
1.4449
22 12 24.6
10J67
9
6 36 66.60
94609
27 61 28.9
9.836
10
3 37 43.01
9.4499
22 23 18.2
10.839
10
6 39 30.40
94797
27 64 13.6
9.069
11
3 40 10.16
9.4548
22 34 3.2
10.677
11
6 42 6.16
94791
27 66 47.1
9468
12
3 42 37.69
9.4094
22 44 39.6
10461
19
6 44 39.89
94784
27 69 9.7
9.985
13
3 46 6.32
%46ia
22 66 6.9
M469
13
6 47 14.67
94774
28 1 21.3
9.109
14
3 47 33.34
9.409J
23 6 26.4
10.939
14
6 49 49.18
94763
28 3 22.0
\J^M)
15
3 60 1.64
9.4741
23 16 34.8
104)89
16
6 62 23.73
94761
28 6 11.7
1.787
16
3 62 30.23
9.4788
23 26 36.1
9.9tt
16
6 64 68.20
94737
28 6 60.4
1464
17
3 64 69.10
9.483A
23 36 26.2
9.774
17
6 67 32.57
94791
28 8 18.2
1473
18
3 67 28.26
9.4881
23 46 8.0
9419
18
6 0 6.86
94704
28 9 36.2
1.181
10
3 69 67.67
9.49i5
23 64 40.6
9469
19
6 2 41.02
94686
28 10 41.2
ijaio
20
4 2 27.36
9.4969
24 4 3.6
9404
20
6 6 16.08
94660
28 11 36.4
0.899
i 31
4 4 67.29
XWl'2
24 13 17.0
9.146
21
6 7 49.01
9.5643
28 12 20.7
0448
22
4 7 27.49
9J0ft4
24 22 20.9
8.984
22
6 10 22.80
9.5619
28 12 64.2
0468
23
4 9 67.94
MC
9JW5
>NDA^
tfJU 31 16.1
' 2.
8.833
23
6 12 66.44
WED
94695
NESD
Ni» 13 16.9
AY 4.
0.908
0
4 12 28.63
9.A1S6
NJ34 39 69.7
8.661
0
6 16 29.93
X6668
N.28 13 28.8
0.109
1
4 14 69.66
9.4176
24 48 34.6
0497
1
6 18 3.26
94641
28 13 30.0
0469
2
4 17 30.73
9.Mlft
24 66 69.3
8431
2
6 20 36.42
94511
28 13 20.6
a946
3
4 20 2.14
9.«9ft9
26 6 14.2
8.166
3
6 23 9.39
94479
28 13 0.4
0.493
4
4 22 33.77
9Meo
26 13 19.1
7498
4
6 26 42.17
9.6447
28 12 29.7
0480
5
4 26 6.61
9.6S3A
26 21 13.9
7.899
6
6 28 14.76
94413
28 11 48.4
am
6
4 27 37.67
9.&360
26 28 68.6
7460
6
6 30 47.13
9.6378
28 10 66.6
0463
7
4 30 9 93
9JSS93
26 36 33.2
7490
7
6 33 19.29
94349
98 9 64.2
L196
8
4 32 42.39
%U»
26 43 67.6
7418
8
6 36 61.23
94308
28 8 41.6
1409
9
4 36 16.04
9.6 1A7
26 61 11.4
7.140
9
6 38 22.93
94963
28 7 18.3
1479
10
4 37 47.87
9.M87
26 68 16.0
6473
10
6 40 64.39
94999
28 6 44.8
1444
11
4 40 20.88
9.6616
26 6 8.2
6400
11
6 43 26.69
94178
98 4 1.0
1416
12
4 42 64.06
9.664S
26 11 61.0
6436
19
6 46 66.64
14136
28 9 7.0
1486
13
4 46 27.40
9.6569
26 18 23.3
•460
13
6 48 97.23
94099
28 0 2.8
9.164
14
4 48 0.89
9.5591
26 24 46.0
6.973
14
6 60 67.64
94046
97 67 48.6
9899
16
4 60 34.63
9.6618
26 30 66.1
•496
16
6 63 27.77
94996
97 66 24.1
9490
16
4 63 8.31
94642
28 36 66.6
6419
16
6 66 67.61
94919
97 62 49.7
9406
17
4 66 42.23
94689
26 42 46.4
6.749
17
6 68 27.16
94900
27 60 6.4
9430
18
4 68 16.27
9469i
26 48 26.6
6468
18
7 0 66.41
94810
97 47 11.3
9484
19
6 0 60.42
94700
26 63 64.0
6488
19
7 3 26.36
94798
97 44 7.3
8.147 1
20
6 3 24.67
94717
96 69 11.6
6.908
SO
7 6 63.99
9.4744
27 40 63.6
8409
21
6 6 69.03
94764
97 4 18.4
6433
91
7 8 22.29
9.4689
27 37 30.2
8470
22
5 8 33.48
94748
97 9 14.3
4449
22
7 10 60.26
94633
27 33 67.2
8430 1
23
6 11 8.00
94759
97 13 69.4
4481
23
7 13 17.89
94578
27 30 14.6
8.788
24
5 13 42.69
94770
NJ87 18 33.6
4479
24
7 16 46.19
945«
N.27 26 22.6
8.846
VI.
JUNE, 1856.
97
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
'hoot.
Bight Amofkm.
Dur.
forlm.
DeeUnaOon.
Dur.
for 1 m.
Hoar.
Bight AMeniioii.
Dtff.
forlm.
DwUnfttfon.
DUL
forlm.
THl
FRSDA
Y 5.
SATURDAY 7.
h. m. ■.
•.
O 1 »
11
h. m ■.
■.
O 1 II
H
0
7 15 45.19
3.4I33
Nj27 96 99.6
8.945
0
9 5 49.37
3.1900
N.21 41 5.0
9410
1
7 18 19.15
3.4401
97 99 91.9
4.101
1
9 7 49.36
3.1180
21 31 7.7
10400
9
7 90 38.75
3.44m
97 18 10.5
4.350
9
9 9 55.93
3.1001
21 21 5.0
10409
3
7 93 4.90
3.4S43
97 13 50.5
AAIO
3
9 19 9.00
34099
21 10 57.0
10.177
4
7 95 30.86
3.4961
97 9 91.3
4.509
4
9 14 7.83
34993
91 0 43.8
10.964
6
7 97 56.36
3.4390
97 4 43.0
4.718
5
9 16 13.16
34655
20 50 25.4
10450
6
7 30 91.50
3.41M
96 59 55.7
4.803
6
9 18 18.09
34786
20 40 1.8
10.435
7
7 39 46.97
3.4008
96 54 59.4
54)19
7
9 90 99.61
34790
90 29 33.9
10417
8
7 35 10.65
3.4010
96 49 54.3
5.150
8
9 99 96.73
34898
90 18 59.7
10496
9
7 37 34.63
3J004
96 44 40.4
5404
9
9 94 30.45
34580
90 8 21.4
10478
10
7 30 58.99
SJOBO
96 39 17.8
5.449
10
9 96 33.76
34519
19 57 38.3
10.757
11
7 49 91.49
3.a8»
96 33 46.5
5499
U
9 98 36.68
34454
19 46 50.5
10436
19
7 44 44.99
S.S106
96 98 6.7
5.784
19
9 30 39.91
34889
19 35 58.0
10418
13
7 47 6.61
3.3009
96 99 18.4
5474
13
9 39 41.35
34895
19 95 0.9
10.066
14
7 49 98.60
3.S081
96 16 91.8
0418
14
9 34 43.11
34901
19 13 59.4
11409
15
7 51 50.18
%M64
96 10 16.8
0.151
15
9 36 44.48
34197
19 9 53.4
11.186
16
7 54 11.36
9.8400
96 4 3.6
0.987
16
9 38 45.47
34184
18 51 43.1
11.906
17
7 56 39.13
9.8437
95 57 49.3
0499
17
9 40 46.09
34079
18 40 98.5
11.979
18
7 58 59.48
9.8897
95 51 19.9
0.556
18
9 49 46.33
34010
18 99 9.6
11.849
19
8 1 19.41
3.8106
95 44 35.6
0488
19
9 44 46.91
1.0049
18 17 46.6
11.417
90
8 3 31.91
3.8314
95 37 50.4
0419
20
9 46 45.72
1.9068
18 6 19.5
11.485
91
8 5 50.08
9.sia
95 30 57.3
0.949
21
9 48 44.87
1.9898
17 54 48.4
11.551
99
8 8 9.63
3.8079
95 93 56.5
7.077
99
9 50 43.66
1.9706
17 43 13.4
11416
93
8 10 97.85
FI
3.8001
IIDAY
NJ35 16 48.1
6.
7*909
93
9 59 49.09
SU
14709
NDAY
N.17 31 34.5
8.
11481
0
8 19 45.64
3.3980
NJ25 9 39.9
7497
0
9 54 40.17
14851
N.17 19 51.7
11.7U
1
8 15 3.01
S.98M
95 9 8.8
7.451
1
9 56 37.90
14608
17 8 5.2
11406
9
8 17 19.04
3.7785
94 54 38.1
7.878
9
0 58 35.29
14137
16 56 15.0
11467
3
8 19 36.43
3.3713
94 47 0.0
7495
3
10 0 39.35
14489
16 44 91.9
11497
4
8 91 59.48
3.3040
94 39 14.7
7414
4
10 9 99.07
14490
16 32 23.8
11486
6
8 94 8.10
3.9608
94 31 99.3
7439
5
10 4 95.46
14871
16 90 92.9
19.043
6
8 96 93.99
3.3498
94 93 99.9
8.047
6
10 6 91.52
14817
16 8 18.6
19.100
7
8 28 38.05
3.3438
94 15 16.6
8.169
7
10 8 17.26
14908
15 56 10.9
19.156
8
8 30 52.37
3.9849
94 7 3.4
8.977
8
10 10 12.68
14910
15 43 59.9
19.910
9
8 33 6.24
3.3075
93 58 43.3
8491
9
10 12 7.79
14159
15 31 45.7
19.908
10
8 35 19.67
3.3908
93 50 16.5
8401
10
10 14 9.59
14108
15 19 98.3
19410
11
8 37 39.67
3.9189
93 41 43.9
8410
11
10 15 57.08
14057
15 7 7.7
19466
19
8 39 45.95
3.3000
93 33 3.3
8.718
19
10 17 51.96
14000
14 54 44.1
19.418
13
8 41 57.39
3.1987
93 94 17.0
8.895
13
10 19 45.15
14957
14 49 17.5
19.466
14
8 44 9.09
3.1914
93 15 94.3
84^1
14
10 91 38.75
14000
14 99 47.9
19418
15
8 46 90.36
3.1849
93 6 95.3
9.085
15
10 93 39.06
14661
14 17 15.3
19468
16
8 48 31.19
3.1700
99 57 90.1
9.137
16
10 25 25.08
14813
14 4 39.9
19418
17
8 50 41.59
3.1087
99 48 8.8
9488
17
10 27 17.82
14707
13 59 1.7
19400
18
8 59 51.55
3.1095
99 38 51.4
9489
18
10 29 10.29
14799
13 39 90.7
19.706
19
8 55 1.09
3.1554
99 99 98.1
9.487
19
10 31 9.48
140n
13 26 37.0
19.750
90
8 57 10.90
3.1488
99 19 58.9
9435
90
10 39 54.41
14039
13 13 50.7
19.793
91
8 59 18.88
3.1411
99 10 23.9
9481
91
10 34 46.07
14586
13 1 1.0
19435
99
9 1 97.13
3.1840
99 0 43.9
9.795
99
10 36 37.47
14546
12 48 10.5
13477
93
9 3 34.96
3.1370
91 50 56.9
9418
93
10 38 28.62
14504
12 35 16.6
19418
94
9 5 49.37
3.1300
N.91 41 5.0
9410
94
10 40 10.59
14163
N.12 29 90.3
19458
13
98
JUNE, 1850.
VII.
— - - 1
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Diff.
forlm.
DeeUnatloii.
BUL
forlm.
Hour.
Biff,
forlm.
Mff.
forlm.
MONDAY 9.
WEDNESDAY 11.
h. m. ■.
■.
O f II
u
h. m. 1.
■.
O 1 M
«
0
10 40 19.53
1.846S
N.13 33 80.3
134)68
0
12 5 40.83
1.7408
N. 1 38 51.3
18300
1
10 43 10.18
1.8438
13 9 31.6
13.907
1
12 7 25.84
1.7401
1 14 51.3
14304
3
10 44 0.60
1.8884
11 56 30.6
184)85
3
13 9 9.04
1.7899
1 0 60.8
14300
3
10 45 50.78
1.8844
11 43 17.4
184)78
3
13 10 54.03
1.7898
0 46 60.1
14318
4
10 47 40.73
1.8806
11 30 11.9
18.110
4
18 13 38.41
1.7807
0 38 49.8
14319
5
10 49 30.45
1.8988
11 17 4.8
1S.146
5
13 14 33.79
1.7898
0 18 48.2
14.018
6
10 51 19.95
1.8283
11 3 54.4
18.181
6
18 16 7.18
1.7S99
N. 0 4 47.0
14330
7
10 53 9.33
1.8198
10 50 43.5
18.315
7
13 17 51.58
1.7401
S. 0 9 14.8
14391
8
10 54 58.30
1.8181
10 37 38.6
18.348
8
12 19 35.99
1.7408
0 83 15.5
14339
9
10 56 47.16
1.8196
10 24 12.7
18.381
9
13 31 30.42
1.7407
0 37 16.9
14398
10
10 58 35.81
1.8008
10 10 54.9
18.818
10
12 23 4.87
1.7411
0 61 18.3
14339
11
11 0 34.37
14061
9 57 35.3
11
13 34 49.35
1.74n
1 6 19.6
14390
13
11 2 13.54
1.8099
9 44 13.6
18.875
13
13 86 33.87
1.7438
1 19 80.7
143n
13
11 4 0.63
1.790T
9 30 50.3
18.404
13
13 38 18.43
1.7439
1 33 81.7
14319
14
11 5 48.51
1.7967
9 17 35.1
18.488
14
18 30 3.03
1.7486
I 47 38.5
M313
15
11 7 36.23
1.7987
0 3 58.3
18.461
15
18 31 47.66
1.7444
8 1 83.3
143Q0
16
11 9 33.76
1.7909
8 50 39.8
18.488
16
18 33 33.35
1.7458
8 15 83.6
14384
17
11 11 11.13
1.7881
8 36 69.7
18.515
17
13 35 17.10
1.7464
8 89 33.7
18309
18
11 IS 58.33
1.7858
8 33 38.0
18.541
18
13 37 1.93
1.7475
8 43 83.5
18308
10
11 14 45.37
1.7837
8 9 54.8
18.566
19
13 38 46.80
1.7486
8 57 32.9
1S3B7
20
11 16 33.36
1.7809
7 66 30.1
18.501
30
13 40 31.75
1.7490
3 11 81.9
18370
21
11 18 18.99
1.7777
7 43 43.9
184)15
31
13 43 16.78
1.75)9
8 86 80.4
18371
23
11 30 5.58
1.7758
7 39 6.3
18.688
33
13 44 1.89
1.7536
3 39 18.4
18388
33
11 31 53.03
TUI
1.T710
ilSDAl
N. 7 15 37.4
' 10.
18.660
33
12 45 47.08
THU
1.7588
RSDA
S. 8 63 16.9
Y 12.
18364
0
11 33 38.34
1.7707
N. 7 I 47.1
18.089
0
18 47 83.35
L7668
S. 4 7 18.0
18316
1
11 35 34.53
1.7096
6 48 5.5
18.708
1
13 49 17.73
1.7670
4 81 9.3
18384
3
11 37 10.57
1.7666
6 34 33.7
18.738
8
13 51 3.19
1.7668
4 36 6.0
18339
3
11 38 56.50
1.7646
6 80 38.8
18.743
3
13 63 48.77
1.7006
4 48 69.9
18310
4
11 30 43.31
1.7836
6 6 53.7
18.761
4
13 64 34.46
1.7634
6 3 64.1
18307
5
11 32 38.00
1.7606
6 53 7.5
18.779
5
18 66 30.86
1.7648
6 16 47.5
18388
6
11 34 13.58
1.7588
5 39 30.3
18.796
6
18 58 6.17
1.7668
• 6 30 40.1
18300
7
11 35 59.06
1.7571
5 35 33.0
18.813
7
13 69 53.31
1.7684
6 44 31.8
18364
8
11 37 44.44
1.7555
5 11 43.7
18329
8
13 1 38.38
1.7706
6 68 88.6
18380
9
11 39 39.72
1.7680
4 57 63.5
9
13 3 34.67
1.7737
6 18 18.6
18398
10
11 41 14.91
1.7535
4 44 1.4
18.860
10
13 6 11.10
1.7751
6 86 1.4
18308
11
11 43 0.02
1.7611
4 30 9.4
18.874
11
13 6 57.68
1.7776
6 39 49.3
18.788
13
11 44 45.05
1.7498
4 16 16.5
18.888
13
13 8 44.40
1.7799
6 63 36.9
18.789
13
11 46 30.00
1.7486
4 3 33.8
18.901
13
13 10 31.87
1.783I
7 7 81.6
18.780
14
11 48 14.88
1.7476
3 48 28.4
18.918
14
13 13 18.30
L7853
7 81 6.9
18.780
15
11 49 59.70
1.7464
3 34 33.3
18.934
15
13 14 5.49
1.7878
7 34 49.1
18.700
16
11 51 44.45
1.7464
3 30 37.5
18.986
16
13 15 53.84
1.7906
7 48 31.0
18380
17
11 53 29.15
1.7445
3 6 41.1
18.946
17
13 17 40.35
1.7988
8 3 11.6
18386
18
11 55 13.79
1.74S7
3 53 44.0
18.965
18
13 19 88.04
1.7968
8 16 60.9
lS3a
19
11 56 58.39
1.7480
3 38 46.4
18.964
19
13 31 15.91
1.7908
8 89 88.6
20
11 58 42.95
1.7438
3 34 48.3
18.978
20
13 33 3.96
13034
8 43 6.8
18304
31
13 0 37.46
1.7417
3 10 49.6
18.981
21
13 34 58.30
13056
8 66 40.1
18308
33
13 3 11.94
1.7413
1 56 50.5
184)87
22
13 36 40.63
13086
9 10 13.4
18349
33
13 3 56.40
1.7407
1 43 51.1
18.998
23
13 88 39.36
13131
9 33 45.1
1S31A
34
13 5 40.83
1.7408
N. 1 38 51.3
U.«M
24
13 30 18.09
13165
S. 9 37 15.8
ujta
vm.
JUNE, 1856.
99
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hoar.
RigfatAMtiirfoo.
Difl.
forlm.
IMIL
forlm.
Hoar.
Bight AMtMiaa.
Diff.
forlm.
DIff.
ftwlm.
FB
.IDAY
13.
SUNDAY
15.
h. B. ■.
■.
O 1 «
«
h. m. ft.
8.
O 1 «
H
13 30 18.09
I.61M
S. 9 37 15.9
1S.487
0
15 2 43.16
84008
s.19 34 59.0
11410
13 32 7.12
1.8190
9 50 43.6
18.460
1
15 4 46.97
34066
19 45 57.6
10.987
13 33 56.37
1.8396
10 4 10.3
18.481
3
15 6 51.18
94784
19 56 51.5
10497
13 36 45.83
1.8M3
10 17 35.3
18.401
3
15 8 55.78
34800
20 7 40.5
10.770
13 37 35.51
ism
10 30 58.4
18.800
4
15 11 0.78
34867
20 18 24.6
10408
13 30 25.42
1.8187
10 44 19.5
18.886
5
15 13 6.18
34084
20 29 3.7
10409
13 41 15.55
ISKK
10 57 38.7
18.808
6
15 15 11.99
3.1009
20 39 37.7
10498
13 43 5.91
1.8418
11 10 55.9
18.390
7
15 17 18.20
3.1000
20 50 6.5
KU80
13 44 56.51
1.84M
11 34 11.0
18.984
8
15 19 24.82
3.1186
21 0 30.1
10449
13 46 47.36
1.8406
11 37 34.0
18.199
9
15 21 31.84
8.1904
21 10 48.4
10.300
13 48 38.45
1.8180
11 50 34.9
18.189
10
15 23 39.27
8.1378
21 21 1.3
10.188
13 50 29.79
1.8678
13 3 43.5
18.196
11
15 25 47.12
8.1848
21 31 8.6
10.070
13 52 21.39
« 14831
13 16 49.9
18.087
13
15 27 55.39
3.1418
21 41 10.4
0483
13 54 13.34
1.8064
13 39 54.0
IS440
13
15 30 4.07
3.1489
21 51 6.5
0.987
13 56 5.36
1-8700
13 43 55.7
18.007
14
15 33 13.17
3.1661
22 0 56.9
0.703
13 57 57.75
I'SIM
13 55 54.9
13.960
15
15 34 23.68
3.1090
22 10 41.5
9.004
13 59 50.41
1.8600
13 8 51.6
13.9i4
16
15 36 32.61
3.1000
22 20 20.2
0.606
14 143.35
14046
13 31 45.8
19.899
17
15 38 43.96
3.1701
22 29 52.9
0.406
14 3 36.56
1.8608
13 34 37.4
19487
18
15 40 63.74
3.1881
22 39 19.6
9.808
14 5 30.06
140U
13 47 36.3
19.799
19
15 43 4.93
3.1901
22 48 40.1
0.960
80
14 7 33.85
l<80e0
14 0 13.5
19.747
30
15 45 16.54
3.1971
22 57 54.3
0.186
31
14 9 17.93
1«0088
14 13 55.9
13.700
31
15 47 38.58
3.3043
23 7 2.3
0480
8S
14 11 12.31
i-8oee
14 25 36.5
13469
33
15 49 41.04
8.3119
23 16 3.9
8473
23
14 13 6.99
SATl
1*0110
S.14 38 14.1
r 14.
13408
33
15 51 53.93
MO]
34189
TOAY
S.23 24 58.9
16.
6403
14 15 1.98
1.9101
S.14 50 48.8
13408
6
16 54 7.23
8.3308
S.23 33 47.4
8.709
14 16 57.28
L0343
15 3 30.5
13409
1
15 56 20.96
3.9898
23 42 29.2
8.041
14 18 52.89
1.0905
15 15 49.0
19.440
8
15 58 35.11
3.9808
23 51 4.3
8438
14 20 48.82
1.8U8
15 38 14.4
13406
8
16 0 49.68
34463
23 59 32.6
8414
14 22 45.07
1.8409
15 40 36.5
19449
4
16 3 4.67
3.3683
24 7 54.0
8.307
14 24 41.65
1.04A7
15 52 55.4
19.967
5
16 5 20.08
3.3608
24 16 8.3
8.180
14 26 38.55
14019
16 5 10.9
19.980
6
16 7 35.91
3.9878
24 24 15.6
8409
14 28 35.79
1.9008
16 17 23.0
19,n9
7
16 9 52.16
3.3748
24 32 15.7
7.941
14 30 33.37
14034
16 29 31.6
19.113
8
16 12 8.82
3.3819
24 40 8.5
7430
14 33 31.28
1.0661
16 41 36.6
13403
9
16 14 25.90
8.3681
24 47 54.1
7406
' 10
14 34 29.54
1.9789
16 53 38.0
11408
10
16 16 43.39
9.2960
24 55 32.3
7478
14 36 28.15
14707
17 5 35.8
11439
11
16 19 1.30
34019
25 3 2.9
7.447
14 38 27.10
1.9606
17 17 29.8
11406
13
16 21 19.62
34067
25 10 26.0
7431
14 40 26.40
1.9014
17 29 20.0
11404
18
16 33 38.35
34166
25 17 41.4
7.103
14 43 26.07
14076
17 41 6.8
11.788
14
16 35 57.48
3.3993
25 24 49.0
7483
14 44 26.10
34066
17 53 48.6
11472
15
16 28 17.02
84380
25 31 48.8
6481
14 46 26.50
34007
18 4 36.9
11403
16
16 30 36.95
34366
25 38 40.7
0.798
14 48 27.27
34166
18 16 1.0
11434
17
16 32 57Jd8
94499
25 45 24.6
0406
18
14 50 28.40
34319
18 37 31.0
11404
18
16 35 18.01
84486
25 52 0.5
0480
19
14 52 29.90
94389
18 38 56.7
11402
19
16 37 39.13
94663
25 58 28.2
0403
90
14 54 31.78
S4I40
18 50 18.1
11430
20
16 40 0.64
84617
96 4 47.6
0464
31
14 56 34.05
34410
19 1 35.1
11.947
21
16 42 22.53
34061
26 10 58.7
0.116
•23
14 58 36.70
34174
19 13 47.7
11.173
22
16 44 44.81
24744
20 17 1.4
6474
23
15 0 39.74
34688
19 33 55.7
11404
23
16 47 7.46
34806
36 22 55.6
6483
24
15 2 43.16
34008
S.19 34 59.0
11416
24-
16 49 30.48
84868
S.26 28 41.2
6468
too
JUNE, 1856.
IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hoar.
DUL
ftnrlm.
DUt
ftwlm.
Hoot.
Bight Ajoeiukm.
forlm.
IMS.
Ibrlm.
TUESDAY 17.
THURSDAY 19.
h. m. ■.
ft.
o 1 ir
«
h m. s.
ft.
O 1 0
11
0
16 49 30.48
Sje86
S.26 28 41.2
6.088
0
18 49 14.34
34618
S.27 56 39.1
8400
1
16 51 53.87
3.8039
26 34 18.2
6444
1
18 51 47.45
34618
27 54 15.2
3487
2
16 54 17.63
3.3090
26 39 46.5
6498
2
18 54 20.56
34617
27 51 40.6
3406
3
16 56 41.75
3.40M
26 45 6.0
6.369
3
18 56 53.85
34613
27 48 55.4
a.8a
4
16 59 6.23
3.4108
26 50 16.7
6.103
4
18 59 26.71
34307
27 45 59.5
3U131
5
17 1 31.05
3.4100
26 55 18.4
4403
5
19 1 59.73
34601
27 42 52.9
3400
6
17 3 56.22
3.4393
27 0 11.1
4403
6
19 4 32.72
84404
27 39 35.5
3478
7
17 6 21.73
3.4379
27 4 54.7
4430
7
19 7 5.66
34484
27 36 7.5
3466
8
17 8 47.57
3.4SS5
27 9 29.1
4497
8
19 9 38.53
34478
27 32 28.9
3.733
9
17 11 13.75
3.4M0
27 13 54.4
4444
9
19 12 11.33
34401
27 28 39.7
3406
10
17 13 40.25
3.4443
27 18 10.4
4.188
10
19 14 44.06
34448
27 24 39.9
4466
11
17 16 7.06
3.4495
27 22 17.0
4483
11
19 17 16.70
34433
27 20 29.5
4409
12
17 18 34.19
3.4M7
27 26 14.3
3470
12
19 19 49.25
34416
27 16 8.5
44r
13
17 21 1.62
3.4307
27 30 2.1
3.717
13
19 22 21.69
34307
27 11 37.0
4413
14
17 23 29.35
3.4040
27 33 40.3
3430
14
19 24 54.02
843n
27 6 55.0
4.7«fT
15
17 25 57.37
3.4001
27 37 8.8
3495
15
19 27 26.23
34807
27 2 2.5
4409
16
17 28 25.68
3.4741
27 40 27.7
3.933
16
19 29 58.31
34380
26 56 59.6
6.133
17
17 30 54.26
3.4787
27 43 36.8
3Hr70
17
19 32 30.26
3.3318
26 51 46.3
6400
18
17 33 23.12
3.4883
27 46 36.1
3407
18
19 35 2.07
34380
26 46 22.7
6480
19
17 35 52.24
3.4874
27 49 25.6
3.743
19
19 37 33.73
34388
26 40 48.7
6469
90
17 38 21.61
3.4910
27 52 5.1
3470
20
19 40 5.23
34987
26 35 4.5
6493
21
17 40 51.22
3.4997
27 54 34.7
3^10
21
19 42 36.57
34308
26 29 10.0
6403
32
17 43 21.09
3.4090
27 56 54.3
S-349
22
19 46 7.73
34178
26 23 5.3
6.M9
23
17 45 51.18
WEDl
34004
^ESDJ
S.27 59 3.8
^Y 18.
um
23
19 47 38.70,
FR
84147
IDAY
S.96 16 50.5
20.
•431
0
17 48 21.50
xtmi
S.28 1 3.1
1404
0
19 50 9.49
34113
S.96 10 95.6
6430
1
17 50 52.03
3.6100
28 2 52.3
1.736
1
19 52 40.08
34089
26 3 50.6
0407
2
17 53 22.77
3.3140
28 4 31.3
1404
2
19 55 10.47
34048
25 57 5.6
0409
3
17 55 53.71
3.3178
28 6 0.0
1498
3
19 57 40.66
34014
25 50 10.7
040T
4
17 58 24.85
3.3905
28 7 18.5
1439
4
20 0 10.64
34079
25 43 5.9
7.109
5
18 0 56.17
3.3383
28 8 26.6
1430
5
20 2 40.41
34944
25 35 51.2
7497
6
18 3 27.67
3-3308
28 9 24.4
0477
6
20 5 9.97
34807
25 28 20.7
7400
7
18 5 59.33
3>J90
28 10 11.8
0,709
7
20 7 39.29
34807
25 20 52.5
7430
8
18 8 31.15
3.3810
28 10 48.7
0497
8
20 10 8.37
34890
25 13 8.7
7411
9
18 11 3.12
3.3840
28 11 15.1
0438
9
20 12 37.20
34T83
25 5 15.2
7471
10
18 13 35.23
3.3008
28 11 31.1
0.178
10
20 15 5.79
84743
24 57 12.2
8.190
11
18 16 7.47
3.3883
28 11 36.6
0401
11
20 17 34.12
34701
24 48 59.7
8487 ;
12
18 18 39.83
3.M08
28 11 31.3
0.170
19
20 20 2.20
84038
24 40 37.8
8448
13
18 21 12.31
3.3439
28 11 15.5
0433
13
20 22 30.02
34013
24 32 6.6
8407
14
18 23 44.89
28 10 49.1
0497
14
20 24 57.58
84671
24 23 26.2
8.731
15
18 26 17.56
3.M3S
28 10 12.2
0.704
15
20 27 24.87
34MS
24 14 36.5
8.004
16
18 28 50.32
3.M00
28 9 24.6
0489
16
20 29 51.89
84480
24 5 37.7
0466
17
18 31 23.15
3.3«n
28 8 26.3
1400
17
20 32 18.63
34484
23 56 29.9
0.803
18
18 33 56.05
3.3488
28 7 17.4
1.338
18
20 34 45.09
34888
93 47 13.1
0464
19
18 36 29.01
34497
28 5 57.8
MIO
19
20 37 11.28
84841
23 37 47.4
0401
20
18 39 2.01
34304
28 4 27.5
1403
90
20 39 37.18
84309
93 28 12.9
04«
21
18 41 35.06
34310
28 2 46.4
1.773
91
90 42 2.78
84849
23 18 29.6
Mm
22
18 44 8.14
34314
28 0 54.7
1431
22
20 44 28.08
84108
23 8 37.7
•407
23
18 46 41.23
34317
27 58 52.3
3.130
23
20 46 53.09
84144
22 58 37.2
104170
24
18 49 14.34
34310
S.27 56 39.1
3400
24
90 49 17.81
84006
S.22 48 28.2
10490
X.
JUNE, 1856.
101
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hoar.
DUL
forlm.
IhrnHnitttm
DUL
forlm.
Hour.
Dfff.
Ibrlm.
DeeUofttkm.
DUt
forlm.
SAT
UKDA
Y 21.
MONDAY
23.
h. m. s.
■.
O 1 N
11
h. m. 1.
■.
O 1 M
M
0
20 49 17.81
3.40M
S.22 48 28.2
10.990
0
22 39 6.80
9.1769
S.12 23 12.3
15.944
1
20 51 42.24
9.4M5
22 38 10.8
10.860
1
22 41 17.24
9.1791
12 7 55.6
15.319
9
20 54 6.36
9J0P8
22 27 45.1
10.498
2
22 43 27.45
9.1663
11 52 34.9
15.877
3
20 56 30.16
%8Hl
22 17 11.0
10.887
3
22 45 37.43
9.1846
11 37 10.4
15.440
4
20 58 53.65
9.8890
22 6 28.7
10.779
4
22 47 47.19
9.1600
11 21 42.1
15X09
5
21 1 16.84
3.8840
21 55 38.4
10.906
5
22 49 56.74
9.1678
11 6 10.1
15.664
6
21 3 39.73
9.S780
21 44 40.1
ujom
6
22 52 6.07
9.1588
10 50 34.4
15.894
7
21 6 2.31
9J78?
21 33 33.9
11.160
7
22 54 15.20
9.1604
10 34 55.2
15.881
8
21 8 24.58
9.8686
21 22 19.8
11.990
8
22 56 24.13
9.1471
10 19 12.7
15.787
9
21 10 46.53
9.8838
21 10 58.0
11.497
9
22 58 32.85
9.1488
10 3 26.8
15.799
10
21 13 8.17
9.8080
20 59 28.5
11.666
10
23 0 41.38
9.1407
9 47 37.7
15X44
U
21 15 29.49
9.8597
20 47 51.4
11.680
11
23 2 49.73
9.1878
9 31 45.5
16X90
13
21 17 50.50
9.8476
20 36 6.9
11.808
12
23 4 57.89
9.1846
9 15 50.2
16X48
13
21 20 11.20
9.8498
20 24 15.0
11.9W
13
23 7 5.87
9.1818
8 59 52.0
15.994
14
21 22 31.58
9.8871
20 12 15.8
194M7
14
23 9 13.68
9.1988
8 43 50.9
16X43
15
21 24 51.65
9.8818
20 0 9.3
19.187
15
23 11 21.32
9.1980
8 27 47.0
16X87
16
21 27 11.40
9.8960
19 47 55.7
19.986
16
23 13 28.79
9.1988
8 11 40.4
16.131
17
21 29 30.84
9.8914
19 35 35.1
19.401
17
23 15 36.11
9.1907
7 55 31.2
16.174
18
21 31 49.97
9.8109
19 23 7.6
19.616
18
23 17 43.27
9.1181
7 39 19.5
16.916
19
21 34 8.79
9.8111
19 10 33.2
19.880
19
23 19 50.28
9.1166
7 23 5.4
16.966
20
21 36 27.30
9.8060
18 57 52.0
19.749
20
23 21 57.15
9.1189
7 6 48.9
16.998
21
Sil 38 45.50
9.8007
18 45 4.2
19.869
21
23 24 3.87
9.1109
6 50 30.2
16X99
22
21 41 3.38
9.9066
18 32 9.8
19.901
22
23 26 10.46
9.1087
6 34 9.4
16X84
23
21 43 20.96
SU]
9.9004
NDAY
S.18 19 8.9
22.
18488
23
23 28 16.92
TUI
9.1086
:SDA1
S. 6 17 46.5
' 24.
16X97
0
21 45 38.23
9J»6S
S.18 6 1.6
18.174
0
23 30 23.25
9.1045
S. 6 1 21.7
16.499
1
21 47 55.20
9.9808
17 52 48.0
18.978
1
23 32 29.46
9.1096
5 44 55.0
16.480
2
21 50 11.87
9.9763
17 39 28.2
18.881
2
23 34 35.56
9.1008
5 28 26.5
16.490
3
21 52 28.23
9.9709
17 26 2.3
18.489
3
23 36 41.56
9.0991
5 11 56.2
16X18
4
21 54 44.29
9.9669
17 12 30.4
18.681
4
23 38 47.45
9X973
4 55 24.3
5
21 57 0.06
9.9803
16 58 52.6
18.879
5
23 40 53.24
9X967
4 38 50.9
16.568
6
21 59 15.53
9.9664
16 45 8.9
18.T76
6
23 42 58.94
9.0943
4 22 16.1
16.699
7
22 1 30.71
9.9606
16 31 19.5
18.871
7
23 45 4.55
9X939
4 5 39.9
16.614
8
22 3 45.60
9.9468
16 17 24.4
18.984
8
23 47 10.08
9X916
3 49 2.4
16.036
9
22 6 0.20
9.M10
16 3 23.8
14J066
9
23 49 15.54
9X908
3 32 23.7
10
22 8 14.51
9.980J
15 49 17.7
14.146
10
23 51 20.92
9X892
3 15 43.9
16.671
11
22 10 28.54
9.9816
15 35 6.3
14.984
11
23 53 26.24
9X889
2 59 3.1
16.687
12
22 12 42.30
9.9970
15 20 49.6
14.899
12
23 55 31.50
9X879
2 42 21.4
16.709
13
22 14 55.78
9.9994
15 6 27.7
14.407
13
23 57 36.70
9X863
2 25 38.8
16.716
14
22 17 8.99
9.9178
14 52 0.7
14.491
14
23 59 41.86
9X865
2 8 55.5
16.797
15
22 19 21.93
9.9134
14 37 28.8
14.679
15
0 I 46.97
9X818
1 52 11.6
16.737
16
22 21 34.60
9.9090
14 22 52.0
14.863
16
0 3 52.04
9X843
1 35 27.1
16.746
17
22 23 47.01
9.9046
14 8 10.4
14.733
17
0 5 57.08
9X838
1 18 42.1
16.763
18
22 25 59.15
9.9003
13 53 24.0
14819
18
0 8 2.09
9X833
1 1 56.7
16.750
19
22 28 11.04
9.1961
13 38 33.0
14.887
19
0 10 7.08
9X880
0 45 11.0
16.763
20
22 30 22.68
9.1918
13 23 37.6
14.981
20
0 12 12.05
9X898
0 28 25.1
16.787
21
22 32 34.07
9.1878
13 8 37.7
16.036
21
0 14 17.01
9X897
S. 0 11 39.0
16.788
22
22 34 45.22
9.18S8
12 53 33.4
16.107
22
0 10 21.97
9X897
N. 0 5 7.1
16.767
23
22 36 56.13
9.1798
12 38 24.9
16.176
23
0 18 26.93
9X897
0 21 53.1
16.787
24
22 39 6.80
9.1760
S.12 23 12.3
16.944
24
0 20 31.89
9X8«
N. 0 38 39.1
18.764
102
JUNE, 1856.
XI.
GREENWICH MEAN TIME.
THE MOOITS RIGHT ASCENSION AND DECLINATION.
Hoar.
Diff.
forlm.
DeettoftikNi.
DMT.
fbrlm.
lloor.
DMT.
forlm.
DeoUnatlan.
Ibrlm.
WEDNESDAY 25.
FRIDAY
27.
h. m. •.
■.
O f •
«
h m. •.
1.
O 1 IT
H
0
0 90 31.89
N. 0 38 39.1
16.184
0
9 9 21.69
9.1931
N.13 32 21.3
14408
1
0 99 36.86
SUMO
0 55 94.8
16.780
1
9 4 33.34
9.1988
13 47 13.3
14437
9
0 94 41.85
34WS4
1 19 10.9
16.784
9
2 6 45.24
9.9005
14 2 0.6
14.750
3
0 96 46.87
SXMB
1 28 55.3
16.747
3
9 8 57.40
9.9048
14 16 43.3
14479
4
0 98 51.91
itma
1 45 39.9
16.788
4
2 11 9.81
9.9001
14 31 21.2
14409
5
0 30 56.99
3.0MO
S 2 23.9
16.798
5
9 13 99.49
94185
14 45 54.3
14410
6
0 33 2.11
tjoen
2 19 7.3
16.716
6
9 15 35.43
9.9170
15 0 22.4
14497
7
0 35 7.27
SJKU
2 35 49.9
16.708
7
9 17 48.64
9J934
15 14 45.5
14449
6
0 37 13.48
%j»n
9 52 31.7
16480
8
9 90 9.19
9.9970
15 29 3.4
14458
9
0 39 17.74
Mm
3 9 12.7
16^8
9
9 99 15.88
9.9816
15 43 16.1
U.167
10
0 41 93.06
umn
3 95 59.7
16487
10
9 94 99.91
93888
15 57 23.5
14477
11
0 43 98.45
UI906
3 49 31.5
16488
11
9 96 44.93
9.9410
16 11 25.4
18487
19
0 45 33.99
S40I7
8 59 9.9
16418
19
9 98 58.83
9.9486
16 95 91.9
13408
13
0 47 39.46
umn
4 15 45.7
16408
13
9 31 13.79
9.9600
16 39 19.8
18400
14
0 49 45.08
S4M4
4 39 20.8
16.879
14
9 33 98.90
94584
16 59 57.9
18.704
15
0 51 50.79
. ft4M0
4 48 54.4
16447
15
2 35 44.36
94808
17 6 37.3
18407
16
0 53 56.59
t4»1«
5 5 96.5
I64»
16
9 38 0.12
9.9853
17 90 10.8
18400
17
0 56 9.49
uan
5 21 57.0
16496
17
9 40 16.18
9.9701
17 33 38.3
18401
18
0 58 8.49
t.1009
5 38 25.9
16467
18
2 42 32.53
94750
17 46 59.7
18408
19
1 0 14.60
3.1018
5 54 53.0
16488
19
2 44 49.18
94881
18 0 15.0
18.908
30
1 9 20.83
3.104B
6 11 18.2
16408
90
2 47 6.14
9.9853
18 13 94.0
18407
91
1 4 97.17
s.ioa8
6 27 41.4
16470
91
9 49 23.40
9.9003
18 96 96.7
19401
99
I 6 33.64
t.ioei>
6 44 9.6
I6*888
99
9 51 40.96
9405S
18 39 93.0
19408
93
1 8 40.94
THU
•.Ull
RSDA
N. 7 0 2iA
Y 2«.
I04N
93
9 63 58.83
SAT
94004
URDA
Na8 69 X9.7
y 28.
11.774
6
1 10 46.97
s.im
N. 7 16 38.4
MJ61
0
9 56 17.01
94085
N.19 4 55.9
19400
1
I 19 53.84
S.llf7
7 39 59.8
16.993
I
9 58 35.49
94108
19 17 39.3
19480
9
1 15 0.85
9.UdJ
7 49 4.9
16.183
9
3 0 54.28
94158
19 30 1.9
19487
3
1 17 8.02
•.1908
8 5 14.6
16.140
3
3 3 13.39
94911
19 42 24.7
19499
4
1 19 15.35
S.I3U
8 91 91.7
16.005
4
3 5 32.81
9496S
19 54 40.5
19408
6
1 91 92.84
9.1903
8 37 26.0
16JM0
6
3 7 52.54
94814
90 6 49.1
19404
6
1 93 30.49
9-1980
8 53 27.6
WJ»2
6
3 10 12.58
94888
90 18 50.6
11484
7
1 25 38.30
9.1818
9 9 26.3
7
3 12 32.93
94418
90 30 44.8
11449
8
1 27 46.29
9.1848
9 25 22.1
18J00
8
3 14 53.60
94471
90 49 31.6
11.710
9
1 29 54.47
9.1878
9 41 14.9
18.854
9
3 17 14.58
948tt
90 54 11.1
11408
10
1 32 2.83
9J400
9 57 4.6
18.801
10
3 19 35.87
94874
91 5 43.1
11480
11
1 34 11.38
9.1441
10 12 51.0
18.746
U
3 21 57.47
94898
91 17 7.4
11449
19
1 36 20.12
9.I47S
10 28 34.1
18.680
19
3 24 19.37
94076
91 98 94.1
114U
13
1 38 29.05
9.1A08
10 44 13.8
18^888
13
3 26 41.58
94798
91 39 33.0
11401
14
1 40 38.19
9.1841
10 59 50.1
18478
14
3 29 4.11
94781
91 50 34.0
10481
15
1 42 47.54
9.1876
11 15 22.8
18418
15
3 31 26.95
94883
99 1 97.1
104n
16
1 44 57.10
9.1619
11 30 51.9
18488
16
3 33 50.09
94061
99 19 19.1
10483
17
1 47 6.88
9.1048
11 46 17.2
18480
17
3 36 13.54
94888
99 99 49.0
10447
18
1 49 10.87
9.1884
19 1 38.6
18494
18
3 38 37.29
94081
99 S3 17.7
1O40O
19
1 51 27.08
9.179:1
19 16 56.1
18418
19
3 41 1.34
94088
99 43 38.1
10.970
90
1 53 37.53
9.1781
12 39 9.6
18.180
90
3 43 25.69
94088
99 53 50.1
10.180
91
1 55 48.21
9.1800
19 47 18.9
18.190
91
3 45 50.34
14188
93 3 53.7
9400
99
1 57 50.13
9.1840
13 9 94.0
18440
99
3 48 15.29
14103
93 13 48.9
0448
93
9 0 10.99
9.1880
13 17 94.8
usn
93
3 50 40.53
14980
93 93 35.5
0.708
94
9 9 91.69
9.1991
N.13 39 91.3
14401
94
3 53 6.05
94978
NJi3 33 13.3
0407
XII.
JUNE, 1856.
108
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Boar.
B^htAMtMlaa.
DUt
forlm.
Ibrlm.
Hour.
R%ht AMeniioii.
Dtft
forlm.
DUL
forlm.
SUNDAY 29.
MONDAY
30.
lLM.iL
f.
O f «
«
h. m. f.
i.
O f H
H
0
3 63 6.05
%4am
NJB3 33 13.3
9J6r7
0
4 52 35.15
94308
N.26 37 51.3
8.780
1
3 55 31.86
iA»»
23 42 42.3
9.410
1
4 55 6.48
94384
26 43 30.0
5459
S
3 67 57.95
9Mn
23 52 2.5
9.903
2
4 57 37.96
94360
26 48 58.4
5488
3
4 0 24.33
S.U19
24 1 13.8
9ais
3
6 0 9.59
94984
26 54 16.6
5417
4
4 2 50.98
%u»
24 10 16.1
8.983
4
6 2 41.37
948(FT
26 59 24.4
5444
5
4 5 17.91
t.4dll
24 19 9.3
8.811
5
6 5 13.27
94897
27 4 21.8
4471
6
•4 7 45.11
SUM6
24 27 53.4
8468
6
6 7 45.29
948«7
27 9 8.9
4407
7
4 10 12.58
3.4009
24 36 28.3
8404
7
5 10 17.43
94808
27 13 45.5
4433
8
4 12 40.30
9AM
24 44 53.9
8449
8
6 12 49.67
94889
27 18 11.6
4447
0
4 15 8.28
%Aadi
94 53 10J2
8.199
9
6 15 22.02
94400
27 22 27.2
4.171
10
4 17 36.51
9.4791
26 1 17.1
8490
10
6 17 64.47
94414
27 26 32.2
8495
11
4 20 4.98
9.4799
25 9 14.5
7477
11
6 20 26.99
94498
27 30 26.6
8419
12
4 22 33.70
S.4805
25 17 2.3
7.717
12
5 22 59.58
34488
27 34 10.5
8443
13
4 25 2.65
9.49U
95 24 40.6
7487
13
6 25 32.24
94448
27 37 43.7
8405 1
1^
4 27 31.83
9.4898
95 32 9.2
7490
14
5 28 4.95
94407
27 41 6.3
8488
15
4 30 1.25
9.49»
25 39 28.1
7489
15
6 30 37.72
94405
27 44 18.4
8.111
16
4 32 30.89
9.4998
95 46 37.2
7409
16
5 33 10.53
94471
27 47 19.8
3404
17
4 35 0.74
9.4999
95 53 36.4
0494
17
6 35 43.37
94475
27 50 10.5
3.767
18
4 37 30.79
9.6098
26 0 25.7
0.789
18
5 38 16.23
34477
27 52 50.6
3479
19
4 40 1.05
9.6089
26 7 5.1
0478
19
6 40 49.10
94178
27 55 20.0
3401
30
4 42 31.50
9.6009
96 13 34.5
0.407
20
6 43 21.97
94478
27 57 38.7
9.333
21
4 45 2.15
9419S
26 19 53.9
0.980
21
5 45 54.84
94177
27 59 46.8
3440
22
4 47 32.98
9.A1M
26 26 3.2
0470
22
6 48 27.70
94474
28 1 44.2
1487
23
4 50 3.98
9.6181
26 32 2.3
8401
23
6 51 0.53
94409
28 3 30.9
1489
24
4 52 35.15
9.6908
N.26 37 51.3
8.780
24
5 53 33.33
94468
Nj38 5 6.9
1411
PHASE
S OF TH
E MOON.
Bi^-
h. m.
% New Moon, .
«...
. . . 2 ]
11 39.6
J> First Quarter,
O Full Moon, .
... 10
1 50.2
. • . •
... 17 S
13 51.9
C Last Quarter,
. . . 24 S
52 17.5
Bq
r. It
<^ ATMiireA. . .
. . . . li
1.4
<r p
r-o — 9
erigee, • •
24
\ 21.1
104:
JUNE, 1856.
XIII.
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
4
SUr't Nu
Portion
M
Noon.
P.L.
of
Dur.
HP*-
P.L.
of
Difl.
XVb.
P.L.
of
IXb.
P.L.
of
DUL
Sum
Reinilut
Mars
Spica
w.
E.
E.
E.
O 1 »
90 0 30
54 30 10
99 90 9
108 30 57
ttoe
Mlft
tseo
SKM
O 1 «
91 39 59
59 49 18
90 40 39
106 49 49
9006
9690
9606
9618
O 1 u
93 5 4
51 8 47
89 1 38
105 9 1
9019
9646
9611
9699
O 1 H
94 37 6
49 98 37
87 99 58
103 98 34
9894
9661
9896
9646
5
Sun
Regulut
Mara
Spica
W.
E.
E.
E.
39 13 50
44 13 19
79 14 53
95 11 94
9081
9S49
9904
33 44 94
39 35 14
77 38 19
93 33 0
9906
9666
9r791
85 14 49
37 57 38
76 9 7
91 54 56
9011
9876
9r797
9089
36 44 41
36 90 95
74 96 16
90 17 19
9086
9089
9709
6
Son
Regains
Man
Spica
W.
E.
E.
E.
44 10 7
98 90 13
66 39 9
89 13 49
SMO
9m
9Btl
r44
45 38 17
96 45 93
64 58 91
80 38 0
9114
9846
r66
47 6 10
95 10 59
63 94 53
79 9 37
tm
9894
9061
9779
48 33 45
93 37 9
61 51 44
77 97 39
•149
9646
9816
9786
7
Son
PoUax
Man
Spica
Antares
W.
w.
E.
E.
E-
55 47 19
91 14 44
54 10 41
69 36 41
115 30 10
•914
904S
9866
9M9
57 13 11
99 47 50
59 39 93
68 3 95
113 56 49
•997
9874
9081
9866
58 38 48
94 90 43
51 8 99
66 30 94
119 93 45
•941
9874
9060
9877
60 4 9
95 53 91
49 37 37
64 57 40
110 50 57
•969
9887
9807
8
1
Son
Pollux
Man
Spica
AjDtares
W.
W.
E.
E.
E.
67 7 14
33 39 57
49 7 48
57 17 46
103 10 49
1914
9010
9047
9846
68 31 9
35 4 19
40 38 34
55 40 30
101 39 91
9996
9860
9068
9880
69 54 51
36 35 16
39 9 33
54 15 96
100 8 13
9896
9060
9060
9866
71 18 91
38 6 8
37 40 45
59 44 35
98 37 17
9946
wm
9878
9874
9
Sun
PoUoz
Man
Spica
Aotarea
W.
W.
E.
E.
E.
78 IS 17
45 37 43
30 19 49
45 13 8
91 5 91
88M
9018
9194
9091
90M
79 35 49
47 7 35
98 59 1
43 43 91
89 35 98
•984
9094
9191
9098
80 58 19
48 37 18
97 94 30
49 13 43
88 5 43
9401
9090
•190
•094
•098
89 90 97
50 6 53
95 57 8
40 44 13
86 36 5
•486
•086
•146
•040
•984
10
Sun
Pollux
Re^ua
Spica
Antarea
W.
W.
W.
E.
E.
89 10 0
57 33 13
91 10 45
33 18 98
79 9 39
9499
9066
om
9060
9066
90 31 39
59 9 14
99 38 98
31 49 37
77 40 99
•497
9061
9110
9060
9060
91 53 14
60 31 19
94 6 15
30 90 50
76 11 99
8496
9094
9114
9079
9089
93 14 47
69 0 6
95 34 7
98 59 8
74 49 33
•Ml
•066
SIM
•016
•064
11
Son
Pollux
Regulua
Antarea
a Aquils
W.
W.
W.
E.
E.
100 9 5
69 94 14
39 54 97
67 18 17
113 59 33
94a
9006
9087
9006
4100
101 93 31
70 53 3
34 99 40
65 49 96
119 49 31
9446
9060
9000
9067
4077
109 44 57
79 91 59
35 50 58
64 90 36
111 39 7
9444
9089
9080
9066
4064
104 6 94
73 50 43
37 19 90
69 51 44
110 98 91
ua
•064
•087
•969
19
Son
Pollux
Regulua
Antarea
a Aquils
W.
W.
W.
E.
E-
110 54 14
81 15 44
44 49 19
55 96 38
104 99 43
9496
9040
9066
9047
9844
119 16 0
89 44 57
46 11 19
53 57 94
103 17 8
•490
9oa
9oa
98«
113 37 59
84 14 16
47 40 19
59 98 4
109 4 17
•4U
•066
•064
•000
•014
114 59 51
85 43 40
49 9 18
50 58 38
100 51 11
•418
•084
•040
•006
IS
Sun
Pollux
Regulna
MiTra
W.
W.
W.
W.
191 51 97
93 19 31
66 36 48
16 7 58
9976
9009
90U
9I«
193 14 9
94 49 41
58 6 45
17 35 33
9ni
9006
9119
194 36 59
96 13 9
59 36 59
19 3 90
9066
9087
9110
195 59 58
97 43 33
61 7 9
90 31 18
•866
98n
SMO
XIV.
JUlfE, 1856.
105
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
4
8tar*fNu
M
P.L.
P.L.
P.L.
P.L.
ftDd
Midnight.
or
XVb.
of
xvmh.
of
XXIh.
of
Podtkm.
DUL
Diff.
Diff.
DUL
Sum
w.
O t H
28 8 56
9084
O ^ M
27 40 31
9046
O 1 0
29 11 53
9066
O 1 If
30 42 59
9000
Regulus
E.
47 48 48
vm
46 9 21
9608
44 30 16
9009
42 51 33
9096
Man
E.
85 44 39
9B43
84 A 41
9007
82 29 4
9078
80 51 48
9088
Spies
E.
101 48 27
9009
100 8 40
9677
98 29 14
9608
96 50 9
9007
5
Sum
W.
38 14 23
aoM
39 43 47
8066
4! 12 62
8071
42 41 38
8064
Regains
E.
34 43 36
3710
33 7 10
9798
31 31 7
9740
29 55 28
9764
Man
«.
72 50 46
roB
71 15 35
9784
69 40 46
9790
68, 6 17
9810
Spies
E.
88 39 60
9084
87 2 48
9008
85 26 6
9718
83 49 44
9790
6
Sum
W.
50 1 2
8166
61 28 2
8173
52 54 45
8187
54 21 10
8900
E.
22 3 32
9808
20 30 32
9884
18 58 5
9993
17 26 14
9063
Man
E.
60 18 54
9881
68 46 23
9906
57 14 11
9090
55 42 17
»84
Spies
E.
75 52 46
980O
74 18 17
9814
72 44 7
9898
71 10 15
9813
7
Sum
W.
61 29 15
8900
62 64 6
8978
64 18 43
8901
65 43 5
8809
Pollax
W.
27 25 44
9008
28 57 53
9918
30 29 48
9080
32 1 29
9840
Man
E.
48 7 8
8000
46 36 55
8018
45 6 58
8096
43 37 16
8088
Spies
E.
63 25 11
9900
61 52 58
9910
60 21 0
9097
58 49 16
9980
Antares
E.
100 18 25
9901
107 46* 8
9913
106 14 5
9994
104 42 17
9986
8
Sum
W.
72 41 40
8S0A
74 4 48
8808
76 27 47
8871
76 50 37
8879
Pollax
W.
39 36 48
9967
41 7 17
9000
42 37 35
8004
44 7 43
8010
Man
E.
36 12 10
8089
34 43 47
8008
33 15 34
8107
31 47 33
8116
Spies
E.
51 13 56
3968
49 43 28
9907
48 13 11
8006
46 43 5
8018
Aiitares
E.
97 6 32
9084
96 35 59
9003
94 5 36
8001
92 35 24
8006
9
Sum
W.
83 42 35
8416
85 4 35
8490
86 26 29
8436
87 48 17
8480
PoUaz
W.
51 36 21
8043
53 5 42
8010
54 34 58
8061
56 4 8
8066
Man
E.
24 29 54
8163
23 2 47
8166
21 35 47
8164
20 8 55
8100
Spies
£.
39 14 50
8(Vi7
37 45 35
8063
36 16 26
8067
34 47 24
8009
Antares
E.
85 6 34
8080
83 37 10
8044
82 7 52
8049
80 38 40
8063
10
Sum
W.
94 36 17
8443
95 57 46
8444
97 19 13
8448
98 40 39
8446
Pollax
W.
63 28 58
8007
64 57 48
8008
66 26 37
8008
67 65 26
8000
Regolos
W.
27 2 4
8108
28 30 4
8106
29 58 9
8103
31 26 16
8000
Spies
E.
27 23 29
8079
25 54 54
8063
24 26 23
8066
22 57 65
8067
Ajitares
E.
73 13 39
8000
71 44 48
8000
70 15 57
8007
68 47 7
8007
11
Sum
W.
105 27 52
8441
106 49 22
8488
108 10 55
8486
109 32 32
8481
Pollux
W.
75 19 37
8003
76 48 33
8060
78 17 33
8066
79 46 36
8069
Regulus
W.
38 47 46
8083
40 16 17
8070
41 44 52
8076
43 13 32
8008
Antares
E.
61 22 49
8003
59 53 53
8066
58 24 52
8066
56 65 47
8069
a Aqail»
E.
109 17 15
4014
108 5 49
8900
106 54 5
8978
105 42 2
8880
12
Sum
W.
116 21 56
8104
117 44 8
8808
119 6 27
8803
120 28 53
8880
Pollux
W.
87 13 11
8038
88 42 49
8033
90 12 35
8016
91 42 29
8006
Regulus
W.
50 38 31
8043
52 7 52
8084
53 37 22
8037
65 7 1
8031
Antares
E.
49 29 6
8038
47 59 28
8033
46 29 42
8016
44 59 48
8006
a Aqnil«
E.
99 37 50
8680
98 24 16
8878
97 10 29
8860
95 56 29
8660
13
Sum
W.
127 23 5
8849
128 46 20
8841
130 9 44
8839
13! 33 18
8814
Pollux
W.
99 14 14
9000
100 45 5
9061
102 16 7
9051
103 47 21
9919
Regulus
W.
62 37 37
9070
64 8 16
9000
65 39 7
9000
67 10 10
9960
Man
W.
21 59 28
8091
23 27 49
8061
24 56 22
8073
26 25 6
8061
14
106
JUNE, 1856.
XV.
GREENWICH MEAN TIME.
n
LUNAB DISTANCBa 1
13
8Ur'f Nan
M
P. L.
P.L.
P.L.
P.L.
•nd
Noon.
of
HP*-
of
Vlh
of
DP*-
of
Poritfon.
Antares
E.
DUL
DUL
DUL
DHL
O < M
43 29 45
SOOl
O 1 II
41 59 33
9000
O 1 M
40 29 12
9908
O f »
38 58 42
wn
a Aquile
E.
94 42 18
1818
93 27 55
80»
92 13 23
8890
90 68 41
8810
Fomklhaut
E.
124 26 43
tOQO
123 2 20
8974
121 37 38
8957
120 12 36
8940
14
PoUux
W.
105 18 47
toil
106 50 26
9999
108 22 17
9919
109 64 21
9001
Regulut
W.
68 41 26
iMO
70 12 54
9081
71 44 34
9990
73 16 27
9809
Mars
W.
27 64 3
SOU
29 23 12
8041
30 62 34
8080
32 22 9
8090
Antares
E.
31 23 27
9989
29 51 49
9998
28 19 59
9919
26 47 66
9809
a Aquife
E.
84 42 55
8774
83 27 26
8789
82 11 52
1788
80 66 15
S7S9
Fotoalhaat
E.
113 2 40
S183
111 35 46
8148
110 8 34
tllS
108 41 6
8118
15
Rejpilns
W.
80 59 25
8889
82 32 45
9849
84 6 19
9880
85 40 8
9818
Mars
W.
39 53 28
908S
41 24 27
9989
42 65 40
9980
44 27 8
9998
Spica
W.
26 56 13
9808
28 29 26
9848
30 2 66
9881
31 36 43
9819
a Aqui1»
E.
74 37 33
8181
73 21 50
8788
72 6 11
8770
70 60 38
tn^
Fomalhaut
E.
101 19 14
8049
99 50 2
8088
98 20 33
8099
96 60 48
8808
a Pegaai
E.
121 28 2
8800
120 3 51
8976
118 39 10
8960
117 14 0
8998
10
Regulut
W.
03 33 9
rsT
95 8 33
9745
96 44 13
9789
98 20 10
9790
Mars
W.
52 8 19
9887
53 41 20
9855
55 14 37
9849
66 48 10
9010
Spica
W.
39 29 47
97M
41 5 14
9749
42 40 58
9780
44 16 59
9717
a Aqui1»
E.
64 35 4
8837
63 20 40
8055
62 6 34
8678
60 52 60
8801
Fomalhaut
E.
89 17 56
9M0
87 46 35
9084
86 14 59
9098
84 43 9
9819
a Pegasi
E.
110 1 25
8119
108 33 38
8100
107 6 28
8061
106 36 56
8088
Jupiter
E.
124 51 17
9791
123 16 37
9779
121 41 41
9788
120 6 28
978S
r
Regulus
W.
106 24 0
9880
108 1 33
9848
109 39 23
9887
111 17 2ft
9898
Mars
W.
64 39 57
9780
66 15 6
9758
67 60 31
9744
69 26 12
9189
Spica
W.
52 21 12
98M
53 58 53
9848
55 36 50
9880
67 16 4
9818
a Aquile
E.
54 51 33
4081
53 41 13
4181
52 31 41
4187
61 23 3
4988
Fomalhaut
E.
77 0 34
9881
75 27 25
9889
73 54 5
9844
72 20 34
9808
a Pegasi
E.
98 8 57
99B4
96 38 24
9980
95 7 33
9955
93 36 23
9049
Jupiter
E.
112 6 14
9891
110 29 22
9879
108 52 14
9887
107 14 60
9688
18
Mars
W.
77 28 30
9875
79 5 43
9885
80 43 10
9854
82 20 62
98a
Spica
W.
65 30 13
9M1
67 10 2
9550
68 50 6
9589
70 30 25
9010
Antares
W.
19 35 50
9M3
21 15 36
9551
22 55 39
9540
24 35 67
9698
Fomalhaut
E.
64 30 44
980B
62 56 26
9804
61 22 3
9801
59 47 37
9801
a Pegasi
E.
85 56 46
9887
84 24 1!
9978
82 51 24
9889
81 18 95
9881
Jupiter
E.
99 3 45
9888
97 24 45
9SM
95 45 31
9874
94 6 1
9804
19
Mara
W.
90 32 53
9a08
92 11 57
9884
93 51 14
9875
95 30 43
96» .
Spica
W.
78 55 35
9479
80 37 18
9470
82 19 14
9180
84 1 23
9481
Antares
W.
33 1 11
9177
34 42 56
9488
36 24 54
9457
38 7 6
9408
Fomalhaut
E.
51 55 38
9814
50 21 27
9B»i
48 47 28
9889
47 13 42
9845
a Pegasi
E.
73 31 22
98Sa
71 57 40
9881
70 23 56
9839
68 60 10
9688
Jupiter
a Arietis
E.
85 44 57
9818
84 4 2
9608
82 22 63
9494
80 41 32
9488
E.
115 12 2
9887
113 31 40
9698
111 51 3
9818
110 10 12
96»
90
Man
W.
103 51 2
9898
105 31 39
9890
107 12 25
9819
108 63 21
96»
Spica
W.
92 35 10
9411
94 18 29
9404
96 1 58
9897
97 45 87
9808
Antares
W.
46 41 9
9410
48 24 23
9409
60 7 65
9808
61 61 37
8868
a Pegasi
E.
61 1 51
98M
59 28 30
9881
67 65 21
9879
66 22 26
9608
Jupiter
a Arietis
E.
72 11 46
944A
70 29 15
94S7
68 46 33
9490
67 3 41
9198
—
E.
101 42 35
9400
100 0 26
9458
98 18 7
94U
96 35 37
9488
XVI.
JUNE, 1856.
107
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
13
Bter'tName
P. L.
P. L.
P. L.
P.L.
and
Midnight.
of
XVii.
of
xvmh.
of
XXV^
of
Podtkm.
DUt
DUL
DUt
DHL
Antares
E.
O 1 A
37 98 1
9989
O 1 II
35 57 10
9960
O 1 II
34 96 7
9961
o 1 n
39 54 53
3919
a Aquile
E.
89 43 49
8800
88 28 47
879-2
87 13 37
87frl
85 58 18
8780
Fomalhaut
E.
118 47 14
8904
117 21 33
8909
116 65 34
8198
114 99 16
8178
14
Pollux
W.
111 26 39
3891
119 59 10
9880
114 31 55
9860
116 4 54
3858
Regulos
W.
14 48 34
9806
76 90 65
9887
77 63 30
9876
79 96 90
3864
Man
W.
33 51 67
8009
35 91 58
9997
36 59 14
9986
38 99 44
3976
An tares
E.
25 15 40
9893
23 43 11
9889
99 10 99
9970
90 37 99
3897
a Aqufle
E.
79 40 33
8759
78 24 48
8769
77 9 3
8769
75 53 18
8769
Fomalhaut
E.
107 13 17
810S
105 45 11
8090
104 16 49
8076
109 48 10
8063
15
Reeulos
W.
87 14 14
9806
88 48 34
9794
90 93 10
9189
91 58 1
3769
Mars
W.
45 58 51
9916
47 30 49
9904
49 3 3
9891
50 35 33
3879
Spica
W.
33 10 46
9806
34 45 6
2798
36 19 43
9780
37 54 87
3768
a Aquile
E.
69 35 10
8781
68 19 51
8793
67 4 49
8806
65 49 46
8890
Fomalhaut
E.
95 20 46
9996
93 60 28
9989
99 19 53
9969
90 49 9
3966
a Pegasi
E.
115 48 22
89(M
114 29 17
8181
119 65 45
8169
111 98 47
8189
16
Regulus
W.
99 56 93
2Tcn
101 39 53
9696
103 9 39
9684
104 46 41
3673
Mars
W.
58 99 0
9817
69 56 6
9806
61 30 97
9198
63 6 4
groi
Spica
W.
45 53 16
97D4
47 99 60
9699
49 6 41
9880
60 43 48
3667
a Aquihe
E.
59 39 31
89S9
58 96 41
89fl9
57 14 91
8696
66 9 37
4086
Fomalhaut
E.
83 11 5
9900
81 38 47
9891
80 6 16
9880
78 33 31
3870
a Pegasi
E.
104 8 I
8046
109 38 45
8080
101 9 9
8018
99 39 19
3998
Japiter
E.
118 30 58
9141
116 55 19
9198
116 19 9
9116
113 49 60
9r703
17
Regulus
W.
119 55 49
9614
114 34 95
9609
116 13 17
9691
117 62 96
3680
Mars
W.
71 9 9
9721
79 38 91
^ 39 90
9709
74 14 49
9698
75 51 39
3687
Spica
W.
58 53 34
9607
9895
69 11 99
9683
63 50 40
3673
a Aquile
E.
50 15 93
4890
49 8 49
4898
48 3 26
4485
46 59 91
4686
Fomalhaut
E.
70 46 53
96-28
69 13 2
»22
67 39 3
9817
66 4 67
3819
a Pegasi
E.
99 4 57
9999
90 33 15
9918
89 1 19
9907
87 99 9
3997
Jupiter
E.
105 37 9
9643
103 59 12
9681
102 90 69
9619
100 49 30
9607
18
Mars
W.
83 58 49
9639
85 37 0
9693
87 15 94
9619
88 64 9
9606
Spica
W.
79 10 58
9618
73 51 46
9808
76 39 48
9497
77 14 6
3488
Aotares
W.
96 16 31
9617
97 57 90
9607
99 38 93
9487
31 19 40
3487.
Fomalhaut
E.
58 13 10
9801
56 38 44
9809
55 4 18
98M
53 99 56
3808
a Pegasi
E.
79 45 16
98SS
78 11 67
9848
76 38 31
9843
75 4 69
3889
Jupiter
E.
99 96 17
9663
90 46 18
9648
89 6 5
9683
87 95 38
3638
19
Mars
W.
97 10 94
9666
98 60 17
3660
100 30 91
9649
109 10 36
3534
Spica
W.
85 43 45
9443
87 96 19
9484
89 9 5
9496
90 69 9
3419
Antares
W.
39 49 99
9441
41 39 6
9488
43 14 63
9495
44 57 69
3417
Fomalhaut
E.
45 40 19
9860
44 7 9
9878
42 34 15
9900
41 1 66
3998
a Pegasi
E.
67 16 94
9884
65 49 40
9885
64 8 68
3689
69 36 91
9846
Jupiter
a Arietis
E.
78 59 58
9477
77 18 19
9469
76 36 16
9460
73 64 6
9458
E.
108 99 7
9498
106 47 48
9487
105 6 16
3478
103 94 39
3469
90
Mars
W.
110 34 96
9499
119 16 40
9498
113 67 3
9487
116 38 35
9481
Spica
W.
99 99 96
9888
101 13 95
9376
109 67 39
9871
104 41 48
3866
Aotares
W.
53 35 99
9389
55 19 30
9875
67 3 40
9860
68 47 69
3868
a Pegasi
E.
54 49 46
9868
53 17 94
9916
61 46 95
9937
60 13 53
3961
Jupiter
E.
65 90 39
9416
63 37 97
9410
61 54 7
9403
60 10 37
3898
a Arietis
E.
94 52 57
9431
93 10 7
9495
91 97 8
9419
89 44 0
9418
108
JUNE, 1856.
XVII.
GEEENWICH MEAN TIME.
LUNAB DISTANCES.
U
and
Noon.
P.L.
of
UP*-
P.L.
of
Vih.
P.L.
of
IXJ^
P.L.
of
'SJ
Petition.
DiA
Dur.
Dur
DIff
21
Spica
W.
O 1 H
106 26 12
9360
O 1 N
108 10 44
9864
O 1 II
109 55 24
9350
O 1 N
111 40 11
98a
Antares
W.
60 32 27
«ffl
62 17 3
9863
64 1 46
9847
65 46 37
SM8
a Pegaai
E.
48 42 51
9089
47 12 25
8019
45 42 36
8065
44 13 31
8090
Jupiter
E.
58 26 59
3393
56 43 13
9887
54 59 19
9389
53 15 18
9877
a Arietis
E.
88 0 44
9406
86 17 20
9403
84 33 49
9306
82 50 11
9394
Aldebaran
E.
118 27 47
9439
116 44 52
9190
115 1 46
9418
113 18 30
9406
99
Autares
W.
74 32 20
S»9
76 17 57
9817
78 3 31
9816
79 49 9
9811
Jupiter
a Arietis
E.
44 33 20
98M
49 48 48
9860
41 4 9
9847
39 19 11
9sa
E.
74 10 35
9S7ft
72 26 25
9978
70 49 19
9871
68 57 56
9370
Aldebaran
E.
104 39 57
9^9
102 55 52
9376
101 11 42
9871
99 97 26
9888
Sun
E.
128 28 11
9680
126 50 24
9646
125 12 31
9860
123 34 31
9687
93
Antares
W.
88 38 21
mm
90 24 23
9997
99 10 97
9996
93 56 34
9994
a Aquils
W.
48 18 7
4080
49 28 28
8084
50 40 23
8898
51 53 45
8819
a Arietis
E.
60 16 10
9808
58 31 47
9887
56 47 25
9808
55 3 5
9869
Aldebaran
E.
90 44 55
9B0I
89 0 13
9869
87 15 29
9860
85 30 42
3648
Sun
E.
115 23 17
9811
113 44 50
9618
119 6 19
9616
110 27 45
9614
94
Antares
W.
102 47 39
9968
104 33 56
9987
106 20 15
9987
108 6 36
9988
a Aquiln
W.
58 18 53
8518
59 38 57
8479
60 59 59
tai
62 21 33
8894
a Arietis
E.
46 22 12
9H7
44 38 19
9399
49 54 33
3899
41 10 57
9401
Aldebaran
E.
76 46 25
9M8
75 1 33
9846
73 16 41
9846
71 31 49
9847
Sun
E.
102 14 18
9000
100 35 31
9606
98 56 43
9804
97 17 54
9604
95
a Aquils
W.
69 19 24
8968
70 44 30
8988
79 10 0
8914
73 35 59
8188
Fomalhant
W.
37 48 18
9888
39 21 56
9800
40 56 24
9785
49 31 38
9786
a Arietis
E.
32 36 29
9478
30 54 38
9499
29 13 14
9610
27 32 23
9649
Aldebaran
E.
62 47 56
9367
61 3 19
9369
59 18 45
9889
57 34 16
9808
Sun
E.
89 3 42
9004
87 24 52
9004
85 46 3
9806
84 7 15
9806
96
a Aquils
W.
80 49 13
8146
82 16 28
8138
83 43 51
8184
85 11 19
8188
Fomalhaut
W.
50 36 27
9898
52 14 44
9615
53 53 19
9601
55 39 12
9691
aPegasi
Aldebaran
W.
33 25 50
8569
34 45 9
8454
36 6 95
8880
37 29 97
89n
E.
48 53 28
9894
47 9 44
9400
45 26 9
9408
43 49 46
9419
Sun
E.
75 53 36
9619
74 14 58
9615
79 36 93
9617
70 57 51
9619
97
a Aquils
W.
99 28 42
sia
93 56 0
8148
95 93 12
8166
96 50 14
8166
Fomalhaut
W.
63 49 42
9666
65 29 38
9651
67 9 40
954B
68 49 46
9646
aPegasi
W.
44 45 1
8001
46 15 13
9965
47 46 10
9881
49 17 49
9908
Jupiter
W.
25 40 26
9816
27 25 30
3819
99 10 29
9844
30 55 24
9847
Aldebaran
E.
35 9 57
9487
33 28 26
9607
31 47 23
9689
30 6 54
9669
Sun
E.
69 46 7
9686
61 7 59
9838
59 29 55
9641
57 51 57
96a
98
a Aquils
W.
104 1 53
8936
105 97 17
8967
106 59 19
8978
108 16 56
8808
Fomalhaut
W.
77 10 41
9646
78 50 51
9618
80 30 57
9661
82 10 59
1664
aPegasi
W.
57 3 53
9604
58 38 16
9799
60 19 55
9781
61 47 48
9m
Jupiter
W.
39 38 46
9808
41 93 10
9870
43 7 28
9876
44 51 39
9880
Sun
E.
49 43 43
9879
48 0 96
9879
46 99 18
9885
44 59 18
9888
99
Fonudhaut
W.
90 99 55
96n
99 9 91
9686
93 48 36
9808
95 97 41
9880
a Pegasi
W.
69 44 39
9T47
71 90 17
97a
79 55 57
17a
74 31 37
17a
Jupiter
W.
53 30 44
9406
55 14 10
9418
56 57 96
9419
58 40 33
9488
Sun
E.
36 49 53
am
35 14 0
9746
33 38 20
9747
39 9 56
1N8
XVIII.
JUNE, 1856.
109
GEEENWICH MEAN TIME.
LUNAR DISTANCES.
i4
11
Star's Nan
aad
»
Midnight.
P.L.
of
XVJi.
P.L.
of
XVIIPi^
P.L.
of
XXIh.
P.L.
or
Podtkm.
IMlt
Dur,
Dur
DIS.
O 1 «
O 1 «
O 1 w
O 1 N
81
Spica
W.
113 85 5
9M0
115 10 6
9887
116 55 18
3888
118 40 83
9880
ADtares
W.
67 31 34
9S88
60 16 38
3838
71 1 40
3890
73 47 6
9890
aPegasi
E.
48 45 16
S144
41 18 0
8108
30 51 40
8960
38 86 50
8349
Jupiter
E.
51 31 10
ma
40 46 55
9807
48 8 33
3809
46 18 4
9866
a Arietit
E.
81 6 87
m»
70 88 37
3880
77 38 41
3889
75 54 40
9870
^
Aldebann
E.
111 35 4
MOO
100 51 80
38ai
108 7 46
3860
106 83 55
3804
99
ADtires
W.
81 34 58
9M0
83 80 38
3800
85 6 80
3804
86 58 83
9801
Japiter
a Arietis
E.
37 34 17
9S43
35 40 10
3880
34 4 17
3887
38 10 18
9886
E.
67 13 38
3968
65 80 18
9807
63 44 56
3866
63 0 33
9360
Aldebaran
E.
97 43 5
aM4
05 58 30
3801
04 14 8
9866
08 80 33
9860
Son
E.
181 56 86
9619
180 18 15
3090
118 40 0
9090
117 1 41
9098
83
Antares
W.
95 48 43
9991
07 88 55
3901
00 15 8
3960
101 1 83
3960
a Aquils
W.
53 8 88
1740
54 84 86
8081
55 41 33
8099
56 50 44
8666
a Arietis
E.
53 18 46
9r79
51 34 30
3874
40 50 10
3878
48 6 13
9869
Aldebaran
E.
83 45 53
3847
88 1 3
3840
80 10 13
3840
78 31 18
9340
Sun
E.
108 49 9
9019
107 10 30
3010
105 31 48
3006
103 53 4
9007
84
Antares
W.
109 58 56
39Sft
111 30 17
3960
113 35 30
9964
115 18 1
9968
a Aquile
W.
63 43 56
3800
05 6 58
8800
66 30 35
8801
67 54 45
8970
a Arietis
E.
39 87 38
9117
37 44 81
9498
36 1 85
9440
34 18 47
9464
Aldebaran
E.
69 46 58
3S48
68 8 8
9880
66 17 31
9859
64 38 37
9864
Sun
E.
05 39 4
9004
04 0 14
9O0O
08 81 33
9003
00 48 33
9004
85
a Aqai1»
W.
75 8 3
S186
76 88 30
8178
77 55 18
8109
70 88 7
8168
Fomalhaat
W.
44 7 38
9700
45 44 8
9084
47 31 3
9068
48 58 33
9046
a Arietis
E.
85 58 18
9066
84 13 3
9037
33 34 45
9069
30 57 41
9780
Aldebaran
E.
55 49 53
9S7I
54 5 36
9870
58 31 35
9880
50 37 33
9397
Sun
E.
88 88 88
9807
80 40 48
9006
70 10 58
9010
77 33 16
9011
36
a Aqails
W.
86 38 40
sua
88 0 10
8189
80 33 50
8184
01 1 18
8186
Fomalhaat
W.
57 11 10
9061
58 50 40
9574
60 30 11
9600
68 0 58
9000
a Pegasi
W.
38 54 5
8906
40 30 7
8146
41 47 31
8001
43 15 43
8048
Aldebaran
E.
41 50 38
9490
40 16 45
9441
38 34 8
9466
36 51 51
9471
Sun
E.
60 10 88
9099
67 40 57
9096
66 8 36
9039
64 84 30
9081
87
a A(|ail0
W.
08 17 5
•177
00 43 48
8180
101 10 4
8904
103 36 8
8990
Fomalhaat
W.
70 80 55
9040
73 10 6
9644
73 50 17
9643
75 30 30
9646
aPegasi
W.
50 50 4
98m
58 38 53
9656
53 56 8
9686
55 80 50
9810
Japiter
W.
38 40 15
3U0
34 35 1
9866
36 0 41
9866
37 54 16
9869
Aldebaran
E.
88 37 8
9000
86 47 53
90»
85 0 37
9077
33 33 36
9731
Sun
E.
56 14 4
9001
54 36 18
9066
58 58 30
9001
51 81 7
9007
88
a Aqails
W.
100 41 5
8899
111 4 43
8868
118 87 48
8800
113 50 17
8498
Fomalhaat
W.
83 50 57
9M0
85 30 40
9661
87 10 37
9666
88 50 80
9671
a Pegasi
W.
63 38 54
9768
64 58 10
3767
66 33 34
9763
68 0 4
9749
Japiter
W.
46 35 43
9884
48 10 40
9800
50 3 30
3896
51 47 11
3401
Sun
E.
43 15 88
9700
41 38 48
9707
40 3 18
9716
38 36 0
9795
80
Fomalhaat
W.
07 6 36
9008
08 45 30
9018
100 83 51
9097
108 8 0
9088
aPegasi
W.
76 7 17
9747
77 48 54
9761
70 18 36
9766
80 53 53
9700
Japiter
W.
60 83 31
9488
68 6 10
9440
63 48 57
9447
65 31 85
9460
Sun
E.
30 87 48
9704
88 58 50
97S6
87 18 80
9816
35 44 80
9881
110
JULY, 1856.
I.
AT GREENWICH APPARENT NOON.
Slderaal
i
's
1
1
1
THE SUN'S
Time
of the
Semidi-
•meter
pawing
the
Herid-
iao.
EqoatSonof
Time,
tobe
added io
Apparent
Time,
Difl:
for
Ihonr.
Appartnt
DULibr
Ibour.
Apparent
Declination.
VULtor
Ihoar.
10.47
Semi,
diameter.
Tues.
1
h. m. e.
6 42 26.58
0.
10.S40
N.^ 6 4.8
15 46.08
^.76
m. 0.
3 32.56
e.
0.483
Wed.
2
6 46 34.62
10.829
23 1 41.0
11.48
15 46.07
68.72
3 44.01
0.472
Thur.
3
6 50 42.39
10.316
22 56 53.1
12.48
15 46.08
68.67
3 55.19
0.459
Fri.
4
6 54 49.86
10.803
22 51 41.2
13.48
15 46.09
68.63
4 6.07
0.447
Sat
5
6 58 57.00
10.289
22 46 5.4
14.47
15 46.11
68.58
4 16.63
0.438
Sun.
6
7 8 3.75
10.278
22 40 5.7
16.47
15 46.13
68.53
4 26.80
0.418
Mod.
7
7 7 10.14
10.267
22 33 42.5
16.46
15 46.16
68.48
4 36.60
0.401
Tues.
8
7 11 16.18
10.240
22 26 55.9
17.42
15 46.19
68.44
4 46.01
0.384
Wed.
9
7 15 21.71
10.223
22 19 46.1
18.88
15 46.22
68.40
4 55.00
0.366
Thur.
10
7 19 26.86
10.205
22 12 13.2
19.38
15 46.26
68.34
5 3.58
0.348
Fri.
11
7 23 31.54
10.186
22 4 17.2
20.29
15 46.30
68.27
5 11.68
0.329
Sat
12
7 27 35.77
10.166
21 55 58.6
21.23
15 46.36
68.20
5 19.33
0.310
Sun.
13
7 31 39.53
10.145
21 47 17.5
22.17
15 46.41
68.14
5 26.51
0.289
Mod.
14
7 35 42.77
10.124
21 38 14.2
28.09
15 46.46
68.07
5 33.19
0.267
Tues.
15
7 39 45.52
10.108
21 28 48.9
24.01
15 46.52
68.00
5 39.35
0.246
Wed.
16
7 43 47.74
10.082
21 19 1.7
24.91
15 46.59
67.93
5 45.00
0.225
Thur.
17
7 47 49.45
10.060
21 8 52.7
26.81
15 46.67
67.86
5 50.13
0.204
Fri.
18
7 51 50.63
10.088
20 58 22.2
26.69
15 46.74
67.78
5 54.75
0.182
Sat
19
7 55 51.28
10.015
20 47 30.6
27.68
15 46.81
67.70
5 58.81
0.159
Sun,
20
7 59 51.39
9.993
20 36 17.8
28.45
15 46.89
67.63
6 2.36
0.136
Mod.
21
8 3 50.96
9.970
20 24 44.4
29.32
15 46.97
67.55
6 5.36
0.112
Tues.
22
8 7 49.96
9.948
20 12 50.4
80.16
15 47.04
67.47
6 7.79
0.089
Wed.
23
8 11 48.40
9.924
20 0 36.0
81.01
15 47.13
67.39
6 9.68
0.065
Thur.
24
8 15 46.30
9.901
19 48 1.5
81.84
15 47.22
67.31
6 11.01
0.043
Fri.
25
8 19 43.63
9.878
19 35 7.3
82.67
15 47.31
67.22
6 11.78
0.019
Sat
26
8 23 40.38
9.864
19 21 53.4
88.47
15 47.40
67.14
6 11.98
0.004
Sun.
27
8 27 36.55
9.880
19 8 20.2
84.28
15 47.50
67.05
6 11.59
0.028
Mod.
28
8 31 32.18
9.806
18 54 27.9
86.06
15 47.61
66.95
6 10.66
0.052
Tues.
29
8 35 27.18
9.780
18 40 16.8
85.85
15 47.72
66.86
6 9.11
0.076
Wed,
30
8 89 21.58
9.756
18 25 47.1
86.60
15 47.83
66.77
6 6.97
0.101
Thur.
31
8 43 15.39
9.780
18 10 59.4
87.86
15 47.95
66.69
6 4.22
0.125
Fri.
32
8 47 8.59
9.706
N.17 55 53.7
88.10
15 48.09
66.60
6 0.88
0.151
Hon.
— IflMii Tim* of the SemkUami
Bter pewing may be Ibimd bj
mibtnMi«ln«0«.18firom the SideraJ Time. 1
II.
JULY, 1856.
Ill
AT GREENWICH MEAN
NOON.
THE SUN'S
i
1
1
Xqnatkmor
TIma,
tab*
nbtmcttd
jTOtlt
Mean
Tinu,
DIS.
fbr
Iboar.
Sldanal
Hum.
• Apparent
Right Awenakm.
DULfor
Iboor.
Apparmt
Dwttnatton.
DULfor
Ihoar.
Tues.
Wed.
Thur.
1
2
3
h. m. a.
6 42 25.97
6 46 33.98
6 50 41.71
10.840
10.829
10.816
Ni3 '6 '5.4
23 1 41.7
23 56 58.9
10.47
11.48
12.48
m. t.
3 32.52
8 43.97
8 55.15
a.
0.488
0.472
0.450
h. m. a.
6 38 53.45
6 42 50.01
6 46 46.56
Fri.
Sat
Sun.
4
5
6
6 54 49.15
6 58 56.27
7 3 3.00
10.808
10.289
10.278
23 51 ^.1
22 46 6.4
22 40 6.8
18.48
14.47
15.47
4 6.03
4 16.59
4 26.76
0.447
0.438
0.418
6 50 43.12
6 54 39.68
6 58 36.24
Ill
7
8
9
7 7 9.86
7 11 15.32
7 15 20.88
10.257
10.240
10.228
22 33 43.7
22 26 57.2
23 19 47.5
16.46
17.42
18.88
4 36.56
4 45.97
4 54.96
0.401
0.884
0.866
7 2 32.80
7 6 29.35
7 10 25.92
Thar.
Fri.
Sat
10
11
12
7 19 26.01
7 23 30.67
7 27 34.88
10.206
10.186
10.166
22 12 14.7
22 4 18.9
21 56 a4
19.88
20.29
21.28
6 3.54
5 11.64
5 19.29
0.848
0.329
0.810
7 14 22.47
7 18 19.03
7 22 15.59
Sm.
Mon.
Tues.
13
14
15
7 31 38.62
7 35 41.85
7 39 44.58
10.145
10.124
10.103
21 47 19.4
21 38 16.2
21 28 51.0
22.17
28.09
24.01
6 26.47
5 33.15
5 39.32
0.289
0.267
0.246
7 26 12.15
7 30 8.70
7 34 5.26
Wed.
Thur.
Fri.
16
17
18
7 43 46.79
7 47 48.48
7 51 49.65
10.082
10.060
10.038
21 19 3.9
21 8 55.0
20 58 24.7
24.91
25.81
26.69
5 44.97
5 50.10
5 54.72
0.225
0.204
0.182
7 38 1.82
7 41 58.38
7 45 54.93
Sat.
Sim.
Mon.
19
20
21
7 55 50.29
7 59 50.39
8 3 49.95
10.015
9.993
9.970
20 47 33.2
20 36 20.6
20 24 47.3
27.58
28.45
29.82
5 58.79
6 2.34
6 5.34
0.159
0.186
0.112
7 49 51.50
7 53 48.05
7 57 44.gl
Ill
22
23
24
8 7 48.94
8 11 47.38
8 15 45.28
9.948
9.924
9.901
20 12 53.4
20 0 39.1
19 48 4.7
80.16
81.01
81.84
6 7.77
6 9.66
6 11.00
0.089
0.065
0.048
8 1 41.17
8 5 37.72
8 9 34.28
Fri.
Sat.
Sun.
25
26
27
8 19 42.61
8 23 39.37
8 27 35.54
9.878
9.854
9.880
19 85 10.5
19 21 56.7
19 8 23.6
82.67
88.47
84.28
6 11.77
6 11.98
6 11.59
0.019
0.004
0.028
8 13 30.84
8 17 27.39
8 21 23.95
Mon.
Tues.
Wed.
Thur.
28
29
30
31
8 31 31.17
8 35 26.18
8 39 20.59
8 43 14.41
9.805
9.780
9.755
9.730
18 54 31.4
18 40 20.3
18 25 50.7
18 11 3.0
85.06
85.85
86.60
87.86
6 10.66
6 9.11
6 6.97
6 4.23
0.052
0.076
0.101
0.125
8 25 20.51
8 29 17.07
8 33 13.62
8 37 10.18
Fri.
32
8 47 7.63
9.706
N.17 55 57,4
88.10
6 0.89
0.161
8 41 6.74
N
Mm NooD nuij be usnmed the
nme as that fbi
r Apparen
tNoon.
112
JULY, 1856-
IIL
AT GREENWICH MEAN NOON.
THE SUN^
i
1
2
3
4
5
7
8
9
10
11
12
18
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
IVw LONOITUDl.
O I II
99 45 16.1
100 42 29.1
101 39 42.0
102 36 55.0
103 34 7.9
104 81 20.9
105 28 33.7
106 25 46.4
107 22 59.1
108 20 11.7
109 17 24.3
110 14 37.0
111 11 49.9
112 9 2.7
113 6 15.7
114 3 28.9
115 0 42.6
115 57 56.9
116 55 11.8
117 52 27.8
118 49 43.5
119 47 0.4
120 44 18.3
121 41 37.3
122 88 57.3
123 36 18.3
124 83 40.8
125 31 3.4
126 28 27.5
127 25 52.6
128 23 18.6
129 20 45.6
44 56.4
42 9.2
39 22.0
86 34.8
33 47.5
31 0.3
28 12.9
25 25.4
22 37.9
19 50.8
17 2.7
14 15.2
11 28.0
8 40.6
5 53.4
3 6.4
0 19.9
57 34.1
54 48.9
52 4.2
49 20.2
46 37.0
43 54.7
41 13.5
88 33.4
85 MSI
88 16.0
80 88.9
28 2.9
25 27.8
22 53.6
20 20.4
DUtlbr
Ihoor.
48.08
48.08
48.04
48.04
48.04
48.04
48.08
48.08
48.08
48.08
48.08
48.04
48.04
48.05
48.06
48.07
48.09
48.11
48.18
48.16
48.19
48.88
48.27
48.81
48.86
48.89
48.44
48.48
48.52
48.56
48.60
48.64
LATITUDB.
+6.34
0.40
0.42
0.40
0.37
0.30
0.21
H-0.11
—0.02
0.16
0.28
0.40
0.51
0.60
0.66
0.69
0.69
0.66
0.59
0.52
0.42
0.28
0.15
—0.01
-hO.ll
0.24
0.34
0.48
0.50
0.52
0.51
-H).49
LofuUhm
oftlM
Radini Y«etor
of tiM
Ivth.
0.0072475
.0072486
.0072469
.0072427
.0072360
.0072266
.0072147
.0072005
.0071840
.0071653
.0071446
.0071221
.0070977
.0070718
.0070444
.0070155
.0069852
.0069535
.0069203
.0068857
.0068497
.0068122
.0067729
.0067319
.0066891
.0066444
.0065975
.0065482
.0064966
.0064429
.0063868
0.0063283
DHL for
Ihoor.
1.0
0.2
1.2
8.8
8.8
4.8
6.8
6.8
7.8
8.1
8.8
9.6
10.8
11.1
11.7
12.8
12.9
18.5
14.1
14.7
16.4
16.1
16.8
17.5
18.8
19.2
20.0
20.9
21.9
22.9
28.9
24.9
of
8i<tomlQh.
17 18 15.99
17 14 20.08
17 10 24.17
17 6 28.26
17 2 32.85
16 58 36.43
16 54 40.51
16 50 44.61
16 46 48.69
16 42 52.78
16 88 56.87
16 85 0.96
16 81 5.04
16 27 9.18
16 23 13.22
16 19 17.81
16 15 21.40
16 11 25.49
16 7.29.56
16 8 83.66
15 59 87.75
15 55 41.88
15 51 45.98
15 47 50.01
15 48 54.10
15 89 58.19
15 SS 2J28
15 32 6.37
15 28 10.47
15 24 14.54
15 20 18.64
15 16 22.73
KoTt.— X
to tiM Irw tqolaoz of Um 4ftlo, x' to Iht mmm tqnlaos of Jm. 04.
IV.
JULY, 1856.
113
GEEENWICH
MEAN TIME.
THE
MOON'S
1
RXHIPIAMimR.
HOBIZONTAI
PARALLAX.
■9
AOl.
NO0B<
MUnlskt
Noia.
DULfor
Iboor.
HMol^t.
DU-flir
Ihoor.
DUtfbr
Ibonr.
1
2
3
lb ^.4
15 35.0
15 25.1
15 39.8
15 30.1
15 20.1
S7 SdA
67 4.9
56 28.5
-l.»6
1.49
1.52
67 22.5
66 46.8
56 10.3
-1.44
1.62
1^
6
0 11.7
1 8.0
Bl.
2.48
2.27
28.5
0.1
1.1
4
5
6
15 15.3
15 6.3
14 58.6
15 10.7
15 2.2
14 55.5
56 52.6
55 19.5
54 5L3
1.45
1.29
1.04
55 35.6
66 4.6
54 89.7
1JI8
1.18
0.89
2 0.2
2 4d.l
3 32.1
2.09
1.91
1.T7
2.1
3.1
4.1
7
8
9
14 52.8
14 49.3
14 48.6
14 50.7
14 48.6
14 49.2
54 30.0
54 17.3
54 14.3
0.72
-0.83
■M>.09
54 22.6
54 14.6
54 16.6
0.68
-0.12
■HiM
4 13.3
4 52.7
6 31.6
1.67
1.62
1.68
5.1
6.1
7.1
10
11
12
14 50.5
14 55.3
15 2.7
14 52.6
14 58.7
15 7.2
54 21.5
54 39.0
66 6.1
0.62
0.98
1.81
54 29.0
54 51.4
55 22.8
0.78
1.18
1.47
6 11.1
6 62.6
7 37.1
1.68
1.78
1.92
8.1
9.1
10.1
13
14
15
15 12.2
15 23.5
15 35.6
15 17.7
15 29.5
15 41.8
55 41.3
56 22.5
57 7.1
140
1.80
1.88
66 1.3
66 44.6
57 29.7
1.72
1.86
1.87
. 8 26.7
9 ia9
10 16.3
2.II
2.30
2.46
11.1
12.1
13.1
16
17
18
15 47.8
15 69.1
16 8.6
15 53.6
16 4.1
16 12.5
57 51.9
58 33.6
59 a4
1.82
1.61
1.2T
58 18.8
58 62.0
59 22.5
1.78
1.46
1.07
11 16.3
12 16.5
13 14.6
2.63
2.48
2.86
14.1
15.1
16.1
19
20
21
16 15.6
16 19.6
16 20.6
16 18.0
16 20.6
16 20.1
59 34.0
59 48.6
59 52.8
0.84
+0.88
-0.06
59 42.7
59 51.8
59 50.4
0.61
-M>.I5
-0.26
14 9.5
16 1.3
15 50.7
2.22
2.10
2.02
17.1
18.1
19.1
22
23
24
16 ia9
16 15.0
16 9.5
16 17.2
16 12.4
16 6.3
59 46.1
59 31.8
59 11.6
0.44
0.78
0.98
59 39.8
59 22.3
58 69.9
0.60
0.84
1.00
16 39.0
17 27.7
18 18.0
2.01
2.05
2.14
20.1
21.1
22.1
25
26
27
16 2.9
15 65.7
15 47.9
15 69.4
15 51.9
15 43.9
58 47.5
58 20.7
57 52.1
1.06
1.16
1.22
58 34.4
68 6.6
67 87.3
1.12
1.19
1.26
19 10.9
20 6.6
21 4.4
2.25
2.87
a.44
28.1
24.1
25.1
28
29
30
31
15 39.7
15 31.3
15 22.8
15 14.5
15 35.5
16 27.1
15 18.6
15 10.5
57 22,2
66 51.3
56 20.2
55 49.7
1.27
1.80
1.29
1.24
57 6.8
56 35.7
66 4.8
65 35.0
1.29
IJtO
1.27
1.20
22 2.7
22 59.8
23 52^
6
2.42
2.29
2.12
26.1
27.1
28.1
29.1
32
15 6.7
15 3.0
55 20.8
-1.15
55 7.8
-1.08
0 41.8
1.97
0.6
15
114
JULY, 1856.
V.
GREENWICH MR\N TIME. |
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hoar.
Right AMndon.
DIff.
forlm.
DMlinatton.
Wff.
forlm.
Hoar
WIT.
forlm.
DmUimUoo.
Dur. 1
f^lm.l
1
TUESDAY 1.
THURSDAY 8.
b. m. t.
■.
O 1 «
«
h. m. ■.
t.
o 1 n
«
0
5 53 33.33
3.A46S
N.98 5 6.9
1411
0
7 59 20.32
94508
N.96 9 17.0
•401
1
5 56 6.09
9.ft4M
28 6 32.2
1404
1
7 54 41.51
34600
95 55 54.8
C480
2
5 58 38.70
3.ft44A
28 7 46.9
1.157
9
7 57 2.32
34487
95 49 94.4
0474
3
6 1 11.43
3.504
28 8 51.0
0480
3
7 59 99.75
34873
25 42 45.9
0.700
4
6 3 44.00
3.5439
98 9 44.5
0409
4
8 1 49.78
34804
95 35 59.3
0448
5
6 6 16.49
3.5406
98 10 97.3
0425
5
8 4 9.40
34380
25 29 4.7
0470
6
6 8 48.89
3.fiS99
98 10 59.5
0.441
6
8 6 21.61
34100
95 99 9.9
1.101
7
6 11 91.19
3.5875
28 11 91.0
0.371
7
8 8 40.42
34109
95 14 51.9
1.3U
8
6 13 53.39
3.6157
98 11 32.0
0400
8
S 10 58.86
34085
25 7 34.0
1499
9
6 16 25.48
Mm
28 11 32.5
0479
9
8 13 16.87
34007
95 0 8.5
14B6
10
6 18 57.44
3.5tl6
28 11 22.5
0454
10
8 15 34.47
34800
94 59 35.4
1418
11
6 21 29.27
%9m
28 11 2.0
0.490
11
8 17 51.66
8.9681
94 44 54.8
1.781
13
6 24 0.96
3.5905
28 10 31.0
O40S
19
8 20 8.44
34f709
94 37 6.9
1460
13
6 26 39.49
3.5943
28 9 49.6
0.777
13
8 22 24.81
3.3000
94 99 11.7
1480
14
6 29 3.86
3.5914
98 8 57.8
0410
14
8 24 40.76
3.9094
94 91 9.3
Mm
15
6 31 35.06
3.5185
98 7 55.6
1.189
15
8 26 56.30
34665
24 19 59.8
8.311
16
6 34 6.08
3.5155
98 6 43.1
1.904
16
8 29 11.42
34486
24 4 43.3
8488
17
6 36 36.99
3.5134
98 5 90.3
1.406
17
8 31 26.12
34414
93 56 19.8
8.440
18
6 39 7.58
3.M01
98 3 47.9
14M
18
8 33^40.39
3.9844
23 47 49.4
64a
19
6 41 38.03
94066
98 9 3.9
140O
19
8 35 54.24
34974
93 39 19.2
6470
90
6 44 8.96
3.5030
98 0 10.5
1474
90
8 38 7.68
3.3901
23 30 28.3
8.181
81
6 46 38.97
3.4081
97 58 7.0
9.143
91
8 40 20.70
3.3184
23 21 37.8
6407
99
6 49 8.06
3.4045
97 55 53.4
9410
39
8 49 33.30
3.9054
23 12 40.7
0405
93
'6 51 37.61
S.4006
N.97 53 99.8
9.47S
93
8 44 45.47
3.1008
NM 3 37.9
0>111
WED
NESD
AY 2.
FI
IIDAY
4.
0
6 54 6.93
9.4800
NJ37 50 56.3
14U
0
8 46 57.91
8.1099
NJ39 54 97.4
•415
1
6 56 36.00
3.48tS
97 48 19.9
9400
1
8 49 8.53
3.1858
99 45 11.4
•419
3
6 59 4.81
3.4770
97 45 19.6
9471
9
8 51 19.44
3.1705
99 35 49.9
•491
3
7 1 33.35
3.4754
27 42 16.4
9.154
3
8 53 99.95
3.1717
99 96 90.0
•419
4
7 4 1.62
3.4588
27 39 3.4
5400
4
8 55 40.04
3.1040
99 16 46.5
•491
5
7 6 99.61
3.4541
27 35 40.8
t.457
5
8 57 49.70
3.1575
99 7 6.1
•.191
6
7 8 67.31
3.4603
27 32 8.6
S417
6
8 59 58.94
8.1506
91 57 19.8
•416
7
7 11 24.72
3.4544
27 28 26.8
9.TW
7
9 9 7.77
3.1480
91 47 97.8
•4M
8
7 13 51.84
3.4103
27 24 35.5
9404
8
0 4 16.18
9.1807
91 37 30.1
10496
9
7 16 18.65
3.4443
97 90 34.8
4401
9
9 6 94.18
9.1900
91 97 96.8
10.101
10
7 18 45.15
3.4500
97 16 94.6
4447
10
9 8 31.77
9.1381
91 17 17.9
M.t99
11
7 21 11.33
3.45M
97 19 5.1
4.409
11
9 10 38.95
9J108
91 7 3.6
10408
19
7 23 37.18
3.4«^I
27 7 36.4
4455
19
0 19 45.79
9.1004
90 56 43.9
10471
1 13
7 96 2.71
3.49in
27 2 58.5
4.10(7
13
0 14 59.08
9.1096
90 46 18.9
104M
1 H
7 28 27.91
3.4171
26 58 11.5
4468
14
0 16 58.04
94060
90 35 48.6
10446
1 1^
7 30 59.77
3.4114
96 53 15.5
5408
15
9 19 3.60
94809
90 95 13.9
10489
16
7 33 17.98
3.4065
96 48 10.5
5.157
16
0 91 8.76
94990
90 14 39.8
10.115
17
7 35 41.44
9J807
96 49 56.6
5406
17
9 93 13.59
94100
90 3 47.4
io.irT
18
7 38 5.94
9.5037
96 37 33.9
5.451
18
9 95 17.88
94004
19 59 57.1
10436
19
7 40 98.68
94077
96 39 9.5
5400
19
9 97 91.85
94090
19 49 9.0
I04«
90
7 49 51.76
34816
96 26 29.4
5.740
90
9 99 95.43
94654
19 31 9.1
11497
91
7 45 14.47
34753
96 90 33.7
5469
91
9 31 98.69
94480
19 19 57.5
11.115
99
7 47 36.80
34000
26 14 36.5
04M
99
0 33 31.49
94485
19 8 48.3
11.191
93
7 49 58.75
340^
96 8 30.9
0.109
93
0 35 33.84
94073
18 57 34.6
11405
94
7 59 20.39
34003
NJ26 9 17.0
0401
94
9 37 35.88
94000
N.18 46 16.5
11486
VI.
JULY, 1856.
115
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
inoar.
Wff.
for 1 m.
DUL
forlm.
Hour.
Right iMMIilOII.
forlm.
DeoUiuttoii.
1
ibrlm.
SAl
'URDA
lY 5.
MONDAY 7.
h. BL 0.
■.
o 1 n
N
h. m. ■.
0.
O 1 •
M
0
9 37 35.88
&0M6
N.18 46 16.5
11.398
0
11 8 55.71
14007
N. 8 38 33.0
18.600
1
9 39 37.54
3Un46
18 34 54.0
1 1.410
1
11 10 43.66
1.7077
8 24 56.3
13493
9
9 41 38.89
S4>l8i
18 23 97.2
11.489
9
11 12 31.43
1.7047
8 11 18.2
13447
3
9 43 39.73
34)191
18 11 56.1
11.609
3
11 14 10.02
1.7017
7 57 38.7
18470
4
9 45 40.97
3.0060
18 0 90.9
llUi90
4
11 16 6.44
1.7868
7 43 57.8
18409
5
9 47 40.45
3.0000
17 48 41.7
11.087
5
11 17 53.60
1.7869
7 30 15.5
18.714
6
9 49 40.97
I.M40
17 36 58.5
11.764
0
11 10 40.78
1.788ft
7 16 32.0
18.734
7
9 51 39.73
1.0881
17 95 11.9
11430
7
11 21 27.71
1.760O
7 2 47.4
13.764
8
9 53 38.84
1.0839
17 13 90.0
11489
8
11 23 14.40
1.7784
6 40 1.6
13.773
9
9 55 37.59
1.970
17 1 25.1
11.M6
9
11 25 1.12
1.7760
6 35 14.6
13.709
10
9 57 35.99
1.0700
16 40 26.5
13407
10
11 26 47.61
1.T787
6 21 26.5
18410
11
9 59 34.05
1.8648
16 37 94.9
13466
11
11 28 33.06
1.7714
6 7 37.4
18437
IS
10 1 31.77
1.0103
16 95 18.3
13.136
19
11 30 20.17
1.7603
5 53 47.3
134a
13
10 3 99.15
1.0SI6
16 13 8.0
13.186
13
11 32 6.25
1.7670
5 30 56.3
13466
14
10 5 26.90
1.8481
16 0 56.0
13.94S
14
11 33 52.21
1.7660
5 26 4.4
13.879
15
10 7 99.99
1.M96
15 48 30.7
19.900
15
U 35 38.05
1.7680
5 12 11.7
1348ft
16
10 9 19.31
1.0871
15 36 20.1
13464
16
11 37 23.77
1.7611
4 58 18.2
13.806
17
10 11 15.37
14816
15 23 57.2
13.406
17
11 30 0.38
1.7608
4 44 23.0
13411
16
10 13 11.10
10968
15 11 31.1
13.461
18
11 40 54.80
1.7676
4 30 28.8
13.938
10
10 15 6.59
1«13
14 50 1.0
13419
19
11 42 40.30
1.7600
4 16 33.0
1348ft
90
10 17 1.64
14109
14 46 20.6
13463
90
11 44 25.61
1.7644
4 2 36.5
13.046
91
10 18 56.46
1.0111
14 33 54.3
13419
21
11 46 10.82
1.7698
3 48 30.5
13466
99
10 20 50.97
1.0061
14 21 16.1
19461
29
11 47 55.05
1.7614
3 34 41.0
13.064
93
10 99 45.18
SD
UOll
M)A^
N.14 8 35.0
' 6.
13.700
93
11 40 41.00
TU
1.7A01
ESDA1
N. 3 20 43.8
f 8.
18479
0
10 94 39.10
1.8803
N.13 55 51.0
19.766
0
11 51 95.06
1.7486
N. 3 6 45.9
13480
1
10 26 39.73
1.8014
13 43 4.9
13403
1
11 53 10.86
1.7477
9 59 46.2
13487
9
10 98 96.07
1.8887
13 30 14.7
13447
9
11 54 55.68
1.7467
2 38 46.8
13408
3
10 30 19.13
1.8891
13 17 99.5
13401
3
11 56 40.45
1.7467
2 24 47.0
13409
4
10 39 11.91
1.877ft
13 4 97.7
13484
4
11 58 95.16
1.7447
2 10 46.0
14404
5
10 34 4.42
1.87-iO
19 51 30.4
1347ft
5
19 0 0.81
1.7438
1 56 46.5
14.000
6
10 35 56.66
146&1
12 38 30.7
1841ft
6
19 1 54.41
1.7480
1 42 45.8
14413
7
10 37 48.63
1.8040
12 25 28.6
18.055
7
19 3 38.07
1.7493
1 28 44.0
14417
8
10 39 40.34
1.8997
12 12 24.1
18406
8
12 5 23.40
1.7416
1 14 43.8
14419
9
10 41 31.70
1.89A4
U 50 17.2
18.184
9
12 7 7.06
1.7410
1 0 42.6
14491
10
10 43 22.99
14519
11 46 8.0
18.171
10
12 8 52.40
1.7406
0 46 41.3
14499
11
10 45 13.94
14471
11 32 56.7
18.907
11
12 10 36.82
1.7401
0 32 39.0
14.093
19
10 47 4.64
144S1
11 10 43.2
18.343
19
12 12 21.22
1.7898
0 18 38.5
14493
13
10 48 55.10
14S01
11 6 27.6
i8.9rn
13
12 14 5.60
1.7386
N. 0 4 37.1
14493
14
10 50 45.33
14Sft9
10 53 10.0
18410
14
12 15 40.07
1.7886
S. 0 0 24.2
14499
15
10 52 35.33
14814
10 30 50.4
18449
15
12 17 34.34
1.7306
0 23 25.5
14490
16
10 54 25.10
143n
10 26 28.0
18474
16
12 10 18.71
1.7806
0 37 26.6
14417
17
10 56 14.65
14941
10 13 5.5
18.40ft
17
12 21 3.07
1.7886
0 51 27.5
14413
18
10 58 3.09
14906
0 50 40.3
18.48ft
18
12 22 47.44
1.7886
1 5 28.2
14400
19
10 59 53.12
14171
0 46 13.3
18.466
19
12 24 31.82
1.7808
1 10 28.6
14404
90
11 1 42.04
14186
0 32 44.5
18.404
90
12 26 16.22
1.7409
1 33 28.7
13400
91
11 3 30.75
14103
0 10 14.0
13499
91
12 28 0.64
1.7406
1 47 28.5
13408
99
11 5 19.26
14068
0 5 41.0
13448
99
12 20 45.00
1.7411
9 1 28.0
13487
93
11 7 7.58
140S7
8 52 8.2
18474
93
12 31 20.57
1.7416
2 15 27.0
13.960
1 ^
11 8 55.71
14007
N. 8 38 33.0
18400
94
12 33 14.08
1.7499
S. 2 20 25.6
13479
116
JULrY, 18&6»
VII.
GREENWICH MEAN TIME.
THE MOOITS RIGHT ASCENSION AND DECLINATION.
Hour.
forliii.
DHL
Ibrlm.
Hoar.
w
Bight AflModon.
DIff.
forlm.
-
Ibrls.1
WEDNESDAY 9.
FRIDAY
11.
h. m. 0.
t.
O 1 •
IT
h. m. ■.
6.
O 1 »
«
0
19 33 14.08
uim
S. 9 99 95.6
18.979
0
13 59 5.00
14040
S.13 18 15.7
11.784
1
19 34 58.63
1.14»
9 43 93.7
18.006
1
14 0 57.03
14804
13 31 1.4
11.740
9
19 36 43.93
].74t7
9 57 91.9
18.064
9
14 9 49.33
14780
13 43 44.5
11488
3
19 38 97.88
1.14M
3 11 18.9
16.010
3
14 4 41.90
14106
13 56 94.9
19466
4
19 40 19.58
1.14M
3 95 14.6
18.064
4
14 6 34.75
14869
14 9 9.5
19406
&
19 41 57.34
1.7486
3 39 10.3
18.029
5
14 8 97.88
14870
14 91 37.3
19468
6
19 43 49.16
1.74f76
3 53 5.3
18.810
6
14 10 91.30
14097
14 34 9.9
11481
7
19 45 97.05
1.7467
4 6 59.6
18.808
7
14 19 15.01
14077
14 46 38.9
19.468
8
19 47 19.01
1.7100
4 90 53.1
18.886
8
14 14 9.09
14097
14 59 4.9
11408
0
19 48 57.05
1.76I4
4 34 45.8
18.879
9
14 16 3.33
14078
15 11 97.9
11481
10
19 50 49.18
1.7M0
4 48 37.7
18.808
10
14 17 57.95
14190
15 93 47.1
11486
11
19 59 97.40
1.7i44
5 9 98.7
18.818
11
14 19 59.88
14181
15 36 3.9
19498
19
19 54 19.71
i.7aao
6 16 18.8
18.897
19
14 91 48.19
14909
15 48 17.5
11.180
13
19 55 58.11
1.7ff7»
5 30 7.9
18.810
13
14 93 43.67
14986
16 0 97.8
11.148
14
19 57 43.61
1.7409
5 43 56.0
18.706
14
14 95 39.54
14688
16 19 34.7
11487
16
19 50 99.99
1.7611
5 57 43.1
18.778
15
14 97 35.73
14809
16 94 38.9
19490
16
13 1 14.04
i.7aw
6 11 99.9
18.797
16
14 99 39.95
14448
16 36 38.9
11471 1
17
13 3 0.78
1'7660
6 95 14.1
18.718
17
14 31 99.11
14606
16 48 34.7
ll4n
18
13 4 46.74
1.7671
6 38 57.8
18.718
18
14 33 96.31
14669
17 0 97.7
11468
19
13 6 39.83
1.7609
6 59 40.3
18.608
19
14 35 93.85
14810
17 19 17.1
11.708
90
13 8 19.05
1.7714
7 6 91.6
i8.«n
90
14 37 91.74
146n
17 94 9.7
lUlW
91
13 10 5.40
1.7767
7 90 1.6
18.666
91
14 39 19.98
14186
17 35 44.5
11486
99
13 11 51.89
1.7760
7 33 40.3
18.664
99
14 41 18.57
14704
17 47 99.5
11481
93
13 13 38.59
THU
1.7184
BSDA^
S. 7 47 17.7
r 10.
18418
93
14 43 17.51
SAT
14868
UBDA
.817 58 66.6
Y 12.
11488
0
13 15 95.30
1.7800
S. 8 0 53.7
18468
0
14 45 16.81
14018
S.18 10 96.7
11488
1
13 17 19.93
1.7836
8 14 98.9
18.068
1
14 47 16.47
14074
18 91 59.8
11.481
9
13 18 59.39
1.7669
8 28 1.9
18.687
9
14 49 16.50
94086
18 33 14.8
11488
3
13 90 46.58
1.7801
8 41 39.6
18.610
3
14 51 16.90
94008
18 44 39.6
11486
4
13 99 34.01
1.7010
8 55 9.4
18.483
4
14 53 17.68
94161
18 55 46.9
11.181
6
13 24 91.61
1.7048
9 8 30.6
18.456
5
14 55 18.84
14814
19 6 56.5
11.118
6
13 96 9.38
i.Ton
9 91 57.1
18U96
6
14 57 90.38
S4988
19 18 0.4
11.044
7
13 97 57.33
1.8007
9 35 91.9
13.808
7
14 50 99.30
94689
19 99 0.8
10460
8
13 99 45.47
1.8030
9 48 44.9
18JI68
8
15 1 94.61
94417
19 39 56.7
18486
0
13 31 33.80
1.8079
10 9 6.1
18436
9
15 3 97.31
14188
19 50 48.0
M4I6
10
13 33 99.33
1.6106
10 15 95.5
13407
10
15 5 30.41
94660
90 1 34.7
18.718
11
13 35 11.07
1.8UI
10 98 43.1
13.978
11
15 7 33.91
14617
90 19 16.6
10468
19
13 37 0.02
ism
10 41 58.7
18.9a
19
15 9 37.81
14888
90 99 53.6
18417
13
13 38 49.18
1.6311
10 55 12.3
13.900
13
15 11 49.11
14760
90 33 95.7
I04M
14
13 40 38.55
1.6i46
11 8 93.8
18.174
14
15 13 46.81
14817
90 43 59.9
UMU
15
13 49 28.13
ism
11 91 33.9
18.130
15
15 15 51.99
14888
90 54 15.1
16418
16
13 44 17.93
1.8310
11 34 40.5
13.109
16
15 17 57.44
14864
91 4 39.1
10468
17
13 46 7.96
1.836H
11 47 45.6
13JM6
17
15 90 3.37
1.1098
91 14 43.9
18.168
18
13 47 58.93
1.810b
19 0 48.4
134)98
18
15 99 9.79
1.1066
91 94 60.4
18486
10
13 49 48.74
1.8l3ti
19 13 49.0
19400
19
15 94 16.49
1.1188
91 34 61.6
8418
90
13 51 39.49
1.8470
19 96 47.9
19461
90
15 96 93.68
1.1983
91 44 47.4
8484
91
13 53 30.49
1.8A91
19 39 43.1
19411
91
15 28 31.99
1.1800
91 64 37.7
8.781
99
13 55 91.74
1.8fl68
19 59 36.5
19460
99
15 30 39.32
1.1874
99 4 99.4
8481
93
13 57 13.94
14606
13 5 97.4
19467
93
15 39 47.78
1.1446
99 14 1.4
8486
94
13 59 5.00
1.66«
S.I3 18 15.7
19.764
94
15 34 56.66
1.1616
S.99 93 34.7
8486
VIII.
JULY, 1856.
IIT
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
HiMir.
Elghft iMiMlOB.
DUt
Ibrlm.
DItt
forlm.
Hoar.
Right iMMIilOII.
Diff.
forlm.
DUL
forlm.
SUNDAY
13.
TUESDAY 15.
h. m. B.
B.
o 1 ir
N
h. m. t.
t.
O 1 »
»
0
15 34 56.66
9.1516
S.22 33 34.7
0.506
0
17 86 34.08
9.4784
S.97 49 94.3
8.918
1
15 37 5.97
3.1i80
23 33 3.8
0.400
1
17 38 58.89
9.4887
97 45 34.3
8466
S
15 30 15.71
9.1606
33 43 33.8
9.810
8
17 31 98.07
9.4888
97 48 34.6
9498
3
15 41 35.87
9.17»
83 51 39.4
0.900
3
17 33 51.55
9.4888
97 51 95.1
9.788
4
16 43 36.47
9.1601
33 0 48.9
0.107
4
17 36 91.33
9.4087
97 54 5.6
9409
5
15 45 47.51
9.1876
93 9 58.3
0.004
6
17 38 51.40
9.1685
97 56 36.1
9.495
6
15 47 58.98
9.1040
83 18 49.4
8.800
6
17 41 91.76
94889
97 58 56.5
9,967
7
15 50 10.89
9.9039
83 37 40.3
8.708
7
17 43 59.40
94190
98 1 6.9
9.068
8
15 53 33.34
9.90O6
33 36 34.6
8.686
8
17 46 93.31
,94n4
98 3 7.1
1.918
0
15 54 36.03
9^168
33 45 3.5
Bjen
9
17 48 54.49
94S17
98 4 57.1
1.747
10
15 56 49.36
9.9949
33 53 33.9
8.467
10
17 51 95.93
949B0
98 6 36.8
1.675
11
15 59 3.93
9.9IU
84 1 58.6
8.356
11
17 53 57.60
94800
98 8 6.1
1.409
19
16 1 17.04
9.988B
84 10 16.6
8.943
18
17 56 99.53
94830
98 9 95.0
1.990
13
16 3 31.59
9.9461
34 18 87.8
8.190
13
17 59 1.67
94877
98 10 33.6
1466
14
16 5 46.58
9.9685
84 36 33.1
8.018
14
18 1 34.04
94413
98 11 31.6
0481
15
16 8 3.01
9.9600
34 34 39.4
7.606
15
18 4 6.63
94449
98 19 19.9
0.706
16
16 10 17.88
9.9688
84 43 19.6
7.777
16
18 6 39.43
94483
98 18 56.9
0498
17
16 13 34.30
9.9T57
84 50 3.6
7.657
17
18 9 18.43
94516
98 13 22.0
0451
18
16 14 50.96
9.98»
34 57 38.4
7.506
18
18 11 45.63
94547
28 13 38.3
0.179
19
16 17 8.15
9.9000
35 5 6.0
7.418
19
18 14 18.99
94976
28 13 43.3
0.006
30
16 19 35.76
9.9970
85 18 87.9
7.988
80
18 16 58.53
94603
98 13 37.6
0.185
21
16 21 43.79
9.8041
85 19 41.4
7'169
81
18 19 88.83
94639
98 13 91.1
0465
33
16 34 3.85
9.8119
85 36 47.3
7484
38
18 33 0.08
94664
38 18 53.8
0445
33
16 36 31.14
MO
9.8184
NDAY
S.85 33 45.5
14.
6486
93
18 34 34.08
WEDI
94678
^ESD/
S.88 18 15.7
LY 16.
0.796
0
16 28 40.46
9.8986
S.85 40 36.0
6.777
0
18 87 8.83
94701
S.88 11 96.7
6407
1
16 31 0.30
9JSiS
25 47 18.7
6.646
1
18 89 48.49
94799
98 10 96.8
1480
3
16 33 20.36
9.8804
25 53 53.5
6.519
9
18 33 16.68
94740
98 9 16.0
1471
3
16 35 40.93
9.U63
26 0 20.1
6.877
3
18 34 51.37
94756
98 7 54.3
1458
4
16 38 1.91
9.8589
26 6 38.7
6.941
4
18 37 35.95
9.5770
98 6 91.7
1485
5
16 40 23.31
9.8601
26 12 49.1
6.104
5
18 40 0.61
94788
88 4 38.8
1417
6
16 42 45.12
94660
26 18 51.8
5.966
6
18 42 35.35
94795
88 8 43.7
9400
7
16 45 7.34
9J7a7
86 84 45.0
5.896
7
18 45 10.15
94806
88 0 38.3
9.164
8
16 47 29.97
9.8600
86 30 30.3
5.684
8
18 47 45.01
94814
87 58 81.6
9468
9
16 49 53.00
9.8879
36 36 7.1
5.641
9
18 50 19.92
94691
87 55 54.0
9469
10
16 53 16.43
9.8938
36 41 35.3
5.807
10
18 52 54.86
94696
87 53 15.4
9.786
11
16 54 40.85
9.4008
86 46 54.8
5.959
11
18 55 29.83
94680
37 50 85.8
9419
13
16 57 4.46
9.4068
86 53 5.6
5.106
19
18 58 4.82
94889
87 47 35.1
3.108
13
16 59 39.06
9.4139
36 57 7.6
4.080
13
19 0 39.89
94633
87 44 13.4
8487
14
17 1 54.05
9.4196
37 8 0.7
4.810
14
19 3 14.89
94839
87 40 50.7
8470
15
17 4 19.42
9.4960
87 6 44.8
4.660
15
19 5 49.81
94880
97 37 17.0
8466
16
17 6 45.17
9.4893
87 11 19.8
4.507
16
19 8 24.78
94896
97 33 39.3
8487
17
17 9 11.29
943ai
87 15 45.6
44M
17
19 10 69.79
94891
97 99 36.6
4490
18
17 11 37.78
9*4445
87 80 3.3
4.900
18
19 13 34.63
94614
97 95 99.9
4.909
19
17 14 4.63
9.4504
87 84 9.7
44M4
19
19 16 9.49
94806
97 91 19.9
4486
30
17 16 31.83
9.4569
87 88 7.7
8487
80
19 18 44.99
94706
97 16 43.6
4468
31
17 18 59.37
9.4618
87 31 56.8
8.799
31
19 91 19.03
94788
97 19 4.1
4.749
33
17 21 27.25
9.4674
87 36 35.3
8.570
83
19 23 53.69
94no
97 7 13.7
4.081
33
17 23 55.47
9.4730
87 39 4.6
8400
83
19 26 28.27
94756
97 9 19.4
5.119
34
17 26 24.02
9.4784
S.37 43 84.3
8.948
84
19 29 2.77
94741
B.96 57 6.9
5.908
118
JULY, 1856.
IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Bight AMndon.
forlm.
Wff.
for 1 m.
Hoar.
DHL
forlm.
DwOiBfttloii.
DHL
Ibclm.
THURSDAY 17.
SATURDAY 19.
h. m. ■.
0.
O 1 «
«
h. m. ■.
0.
O 1 l»
a
0
19 29 2.77
3.0741
S.26 57 0.2
A.988
0
21 28 36.33
9.8780
s.19 31 37.8
U.780
1
19 31 37.17
S^M
26 51 37.2
0.478
1
21 30 58.85
9^8737
19 18 47.0
19.007
2
19 34 11.46
SsfiTOft
26 46 3.4
6.008
2
21 33 21.05
9.8678
19 5 48.9
ixon
3
19 36 45.63
%jm
26 40 18.8
6.889
3
21 35 42.93
QMX>
18 52 43.7
18.146
4
19 39 19.67
9.M09
26 34 23.5
04)11
4
21 38 4.49
9.3507
18 39 31.4
18.963
6
19 41 53.58
%M»
26 28 17.5
0.189
5
21 40 25.73
9.8614
18 26 12.2
13.377
6
19 44 27.36
3.M10
26 22 0.8
6.806
0
21 42 46.65
9.3461
18 12 46.2
13.480
7
19 47 0.99
9.5001
26 15 33.5
0.643
7
21 45 7.26
9.3400
17 59 13.5
13.600
8
19 49 34.46
9.AM4
26 8 55.7
0.717
8
21 47 27.56
9.3850
17 45 34.2
18.700
9
19 52 7.76
S.00S6
26 2 7.4
6.809
9
21 49 47.54
9.8303
17 31 48.4
13.8n
10
19 54 40.89
9Mm
25 55 8.6
7.007
10
21 52 7.20
9.895)
17 17 56.2
13.048
11
19 67 13.84
9Mn6
25 47 59.3
7.341
11
21 54 26.54
9.3196
17 3 57.7
144)97
12
19 59 46.60
S.6444
25 40 39.6
7.414
12
21 56 45.57
9.8146
16 49 53.0
14.190
13
20 2 19.16
9.6411
25 33 9.6
7.465
13
21 59 4.29
9JD04
16 35 42.2
14.380
14
20 4 51.52
9.aaT7
25 25 29.4
7.744
14
22 1 22.70
9J043
16 21 25.5
IAMB
16
20 7 23.68
9.0843
25 17 39.1
7.098
15
22 3 40.81
9.3903
16 7 3.0
14.434
16
20 9 56.63
9.4800
25 9 38.7
8.002
16
22 5 58.62
3.3943
15 52 34.7
14.519
17
20 12 27.36
9.8909
25 1 28.2
8.350
17
22 8 16.13
9.3804
15 38 0.7
14.618
18
20 14 58.86
9.4980
24 53 7.6
8.436
18
22 10 33.35
9.3845
15 23 21.2
14.705
19
20 17 30.12
9.4100
24 44 37.0
8.601
19
22 12 50.27
9.9705
15 8 36.3
14.704
20
^ 20 1.14
9.4140
24 35 56.6
8.755
20
22 15 6.89
9.3745
14 53 46.1
14.881
31
20 22 31.92
9.4100
24 27 6.4
8.018
21
22 17 23.21
9.9606
14 38 50.6
14.808
22
20 25 2.45
9.4008
24 18 6.4
o^eo
22
22 19 39.24
9.3648
14 23 49.9
154)58
23
20 27 32.73
FB
9.4090
IDAY
S.24 8 56.8
18.
0.940
23
22 21 54.98
SUl
9.9600
!«)AY
S.U 8 44.2
20.
16.136
0
20 30 2.76
9.4088
S.23 59 37.6
9J00
0
22 24 10.43
9.9659
S.13 53 33.7
16.314
1
20 32 32.53
9.4088
23 50 8.9
0.557
1
22 26 25.60
9.3006
13 38 18.5
15.399 1
2
20 35 2.03
9.4008
23 40 30.8
9.714
2
22 28 40.50
9.9461
13 22 68.6
15.300
3
20 37 31.25
9.4847
23 30 43.3
9.889
3
22 30 55.13
9.9416
13 7 34.1
15.446 {
4
20 40 0.19
9.4800
23 20 46.5
• 104W3
4
22 33 9.49
9.3373
12 52 5.1
15.520 1
5
20 42 28.85
9.4749
23 10 40.5
10.170
5
22 35 23.59
9.3329
12 36 31.7
15.503
6
20 44 57.22
9.4705
23 0 25.4
10.837
6
22 37 37.44
9.3386
12 20 54.0
154«;
7
20 47 25.31
9.4857
22 50 1.3
10.476
7
22 39 51.03
9.3344
12 5 12.2
15.780 (
8
20 49 53.11
9.4000
22 39 28.3
8
22 42 4.37
9.9J09
11 49 26.4
15.797 '
9
20 52 20.62
9.4400
22 28 46.4
10.771
9
22 44 17.46
9.3161
11 33 36.7
15.861
10
20 54 47.83
9.4510
22 17 55.7
10.910
10
22 46 30.30
3.3130
11 17 43.1
15.944
11
20 57 14,74
9.4440
22 0 56.4
11.000
11
22 48 42.90
9.9081
11 1 45.8
I5J86 !
12
20 59 41.34
9.4408
21 55 48.5
11.309
12
22 60 55.27
9.3043
10 45 44.8
164)46 1
13
21 2 7.64
9.4847
21 44 32.1
11.843
13
22 53 7.40
3.3008
10 29 40.3
16.103
14
21 4 33.63
9.4800
21 33 7.3
11.483
14
22 55 19.30
9.1964
10 13 32.4
16.100
15
21 6 59.31
9.1354
21 21 34.2
11.091
15
22 57 30.97
* 9.1996
9 57 21.2
16.314
16
21 9 24.68
9.4903
21 9 52.8
11.757
16
22 59 42,41
9.1888
« 41 6.7
16.307
17
21 11 49.74
9.4151
20 58 3.3
11.881
17
23 1 53.63
9.1853
9 24 49.1
16.318
18
21 14 14.49
9.4000
20 46 5.8
194)34
18
23 4 4.63
9.1816
9 8 28.5
16.367
19
21 16 38.93
9.4046
20 34 0.4
13.155
19
23 6 15.42
9.1781
8 62 5.1
16.418
20
21 19 3.05
9.8888
20 21 47.2
13.385
20
23 8 26.00
9.1747
8 35 38.9
16.469
21
21 21 26.85
9.8040
20 9 26.2
13.418
21
23 10 36.38
9.1714
8 19 10.0
16408
22
21 23 50.33
9.8887
19 56 57.5
13.540
22
23 12 46.56
9.1003
8 2 38.5
16.546
23
21 26 13.49
9J8SS
19 44 21.3
13.064
23
23 14 56.55
9.1050
7 46 4.6
16485
"
21 28 36.33
9.8780
S.19 31 37.8
13.786
24
23 17 6.36
9.1040
S. 7 29 28.3
16.684
X.
JULY, 1856.
119
GREENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hoar.
Right AmmmIoii.
ibrlm.
DMT.
fbrlm.
Hoor.
Right AMeiMloD.
forlm.
forlm.
MONDAY
21.
WEDNESDAY 23.
h. m. f.
■.
O 1 «
N
h. m. 0.
■.
O 1 M
t
0
93 17 6.36
3.16«
S. 7 99 28.3
10.094
0
0 58 59.19
9.1173
N. 6 1 45.9
i6jm
1
23 19 15.99
9.1000
7 12 49.7
10.061
1
1 1 6.26
9.1184
6 18 19.1
16433
S
23 21 25.44
9.IA01
6 56 9.0
10.606
9
1 3 13.40
9.1107
6 34 49.9
16.403
3
23 23 34.72
S.1AM
6 39 26.2
16.790
3
1 5 20.62
9.1911
6 61 18.3
16.469
4
23 25 43.83
9.1004
6 22 41.5
16.760
4
1 7 27.93
9.1937
7 7 44.2
16.400
6
23 27 52.77
9.1477
6 5 55.0
10.700
5
1 9 35.34
9.1943
7 24 7.4
16404
0
23 30 1.55
9.I4M
5 49 6.7
16.810
6
1 11 42.85
9.1900
7 40 27.9
I0J18
7
23 32 10.19
9.1438
5 32 16.7
16.046
7
1 13 50.46
9.19n
7 56 45.6
10.973 1
8
93 34 18.69
9.1406
5 15 95.2
16.871
8
1 15 58.17
9.1904
8 13 0.4
10.999
9
93 36 97.06
9.iae9
4 58 32.3
16.804
9
1 18 5.99
9.1318
8 29 12.2
10.171
10
93 38 35.29
9.1100
4 41 38.0
16.016
10
1 20 13.93
9.1838
8 45 20.9
10.118
11
23 40 43.38
^13S8
4 24 42.4
10.087
11
1 92 21.99
9.1363
9 1 26.4
10.004
IS
23 49 51.34
9.W17
4 7 45.6
16466
12
1 24 30.17
9.1374
9 17 28.0
16,C00
13
23 44 59.18
9.iaw
3 60 47.8
16.071
13
1 26 38.48
9.1307
9 33 27.5
10463
14
23 47 6.91
9.1970
3 33 49.1
16.086
14
1 28 46.93
9.1490
9 49 23.0
16.806
15
93 49 14.53
9.1901
3 16 49.5
n.000
15
1 30 55.52
9.1444
10 5 15.0
10437
10
23 51 22.04
9.19tt
9 59 49.1
17411
16
1 33 4.26
9.1460
10 21 3.4
16.777
17
23 53 29.45
9.1937
2 42 48.0
17439
17
1 35 13.15
9.1404
10 36 48.2
16.710
18
93 65 36.77
9.1919
2 25 46.3
I7409
18
1 37 22.19
9.1630
10 52 29.2
10.661
19
23 57 44.00
9.1107
2 8 44.1
17400
19
1 39 31.39
9.1647
11 8 6.3
16463
90
23 59 51.14
9.1189
1 51 41.6
n4o
90
1 41 40.75
9.1674
11 23 39.4
16418
91
0 1 58.90
9.1170
1 34 38.8
n440
21
I 43 50.27
9.1603
11 39 8.5
16.461
99
0 4 5.19
9.1100
1 17 35.8
17461
29
1 45 59.97
9.1633
11 54 33.5
16489
93
0 6 19.11
TUl
9.1140
SSDAl
S. 1 0 32.7
' 22.
17409
93
1 48 9.85
THU
9.1603
ESDA
N.12 9 54.3
Y 24.
16411
0
0 8 18.97
9.1100
S. 0 43 99.5
n.Oil
0
1 60 19.91
9.1603
N.19 95 10.8
16.988
1
0 10 25.78
9.1100
0 26 26.4
17.000
1
1 52 30.15
9.1793
12 40 22.9
16.166
9
0 12 32.54
9.1 19i
S. 0 9 23.5
17447
2
1 54 40.58
9.1766
12 55 30.6
16401
3
0 14 39.25
9.1110
N. 0 7 39.1
17441
3
1 66 51.20
9.1787
13 10 33.8
16416
4
0 16 45.92
9.1100
0 24 41.4
17484
4
1 59 2.02
9.1890
13 25 32.4
14487
5
0 18 52.55
9.1104
0 41 43.2
17436
5
2 1 13.04
9.1864
13 40 26.3
14456
6
0 20 59.16
91100
0 58 44.4
17416
6
2 3 24.27
9.1860
13 55 15.4
14.777
7
0 23 5.75
9.1007
1 15 45.0
17403
7
2 6 35.71
9.1033
14 9 59.6
14.606
8
0 25 12.32
9.1004
1 39 44.8
10400
8
2 7 47.35
9.1007
14 24 38.8
14411
9
0 27 18.88
9.I00J
1 49 43.8
10470
0
2 9 59.20
9.1003
14 39 12.9
14426
10
0 29 25.43
9.1000
2 6 41.9
10450
10
2 12 11.27
9.9080
14 63 41.9
14.440
11
0 31 31.97
9.1080
2 23 38.9
16441
11
2 14 23.66
9.9067
15 8 5.7
14469
19
0 33 38.50
9.1000
2 40 34.8
16493
12
2 16 36.07
9.9104
15 22 24.2
14.909
13
0 35 45.04
9.100^1
- 2 57 29.5
16401
13
2 18 48.81
9.9143
15 36 37.2
14.171
14
0 37 51.60
9.1006
3 14 22.9
16478
14
2 21 1.78
9.9181
16 50 44.7
14470
15
0 39 58.19
9.1101
' 3 31 14.9
164M
16
2 23 14.98
9.9390
16 4 46.7
13466
16
0 49 4.81
9.1100
3 48 5.4
16430
16
2 25 28.42
9.9961
16 18 43.1
I340I
17
0 44 11.46
9.1111
4 4 54.4
16403
17
2 27 42.11
9.9809
16 32 33.7
13.706
18
0 46 18.14
9.1110
4 21 41.8
16.776
18
2 29 56.05
9.9343
16 46 18.5
13407
19
0 48 24.85
9.1199
4 38 27.4
16.746
19
2 32 10.23
9.9883
16 59 57.4
18408
20
0 50 31.60
9.1190
4 55 11.1
16.718
90
2 34 24.65
9.9494
17 13 30.3
13.408
91
0 52 38.40
9.1138
5 11 52.9
16480
21
2 36 39.31
9.9466
17 26 57.2
13487
99
0 54 45.26
9.1140
5 98 32.7
16446
22
9 38 54.23
9.9008
17 40 18.0
13.904
93
0 56 52.19
9.1100
5 45 10.4
16410
23
2 41 9.41
94061
17 53 32.6
13.180
94
0 58 59.19
9.1179
N. 6 1 45.9
10479
24
2 43 24.85
9.9004
N.18 6 40.8
13483
120
JULY, 1856.
XL
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Ughi
DUL
fori in.
DHL
forlm
Hoar.
Right
DHL
forlm
mm.
fbrlM.
0
1
2
3
4
6
•6
7
8
0
10
11
19
13
14
15
16
17
18
10
30
21
28
23
FRIDAY 25.
b. m. ■• 0. o I II
2 43 24.85 9Jim N.18 6 40.8
2 45 40.55 9.9091 18 19 42.6
2 47 56.50 s-aaso 18 32 37.9
2 50 12.71 9^» 18 45 26.7
2 52 29.18 3.9707 18 68 8.9
2 54 45.92 3.9811 19 10 44.4
2 57 2.92 3.9866 19 23 13.1
2 59 20.16 3.9089 19 35 34.9
3 1 37.71 3.9844 19 47 49.7
3 3 55.51 3.9980 19 59 57.5
3 6 13.59 3.8007 20 11 58.2
3 8 31.95 S.8O0S 20 23 51.8
3 10 50.59 3.S198 20 35 38.2
3 13 9.50 34174 20 47 17.2
3 15 28.68 34S» 20 58 46.7
3 17 48.13 34300 21 10 12.7
3 20 7.86 34819 21 21 29.2
3 22 27.87 34857 21 32 38.0
3 24 48.15 34409 21 43 39.1
3 27 8.70 34447 21 54 32.4
3 29 29.52 34489 22 5 17.8
3 31 50.61 346S7 22 15 55.2
3 34 11.97 34189 22 26 24.6
3 36 33.60 34837 Nj32 36 46.0
SATURDAY 36.
0
3 38 65.50
1
3 41 17.66
2
3 43 40.08
3
3 46 2.77
4
3 48 25.72
6
3 50 46.93
6
3 53 19.39
7
3 55 36.11
8
3 58 0.08
9
4 0 24.29
10
4 9 48.75
11
4 5 13.46
12
4 7 38.41
IS
4 10 3.59
14
4 12 29.00
15
4 14 54.64
16
4 17 20.51
17
4 19 46.60
18
4 22 12.92
19
4 24 39.46
20
4 27 6.19
21
4 29 33.13
22
4 32 0.27
23
4 34 27.60
24
4 36 55.12
3J879
34710
34760
S4874
3.4016
3.4087
3.4187
S.4IT7
34910
*Am
3.4887
34478
34107
34871
N.22
22
23
23
23
23
23
23
24
94
24
94
94
94
94
95
95
95
95
95
95
95
95
96
NJW
46 59.9
57 4.3
7 0.9
16 49.1
26 28.9
36 0.2
45 22.9'
54 36.9
3 42.2
12 38.8
21 26.6
30 5.5
38 35.3
46 56.2
55 7.0
3 10.5
11 3.9
18 48.1
26 23.0
33 48.5
41 4.6
48 11.2
55 8.3
1 55.8
8 33.7
19470
13487
12.767
19447
19486
19491
19406
19.188
13471
11418
11488
11.711
11467
11489
11487
11.911
11488
10487
10498
M.181
MU»U
9478
0.788
0409
8.101
8416
6.790
6471
8499
6471
6.118
7488
7418
7410
7484
7417
7.168
7461
6419
6.713
6481
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
SUNDAY 27.
h.
4
4
4
4
4
4
4
4
4
4
5
5
5
5
5
5
5
5
6
5
5
5
5
5
■.
f.
55.12
94009
22.82
34689
50.70
94B09
18.77
94081
47.00
94718
15.39
94746
43.94
94770
12.63
94704
41.46
94817
10.43
94680
39.53
94801
8.76
94882
38.11
94801
7.57
94818
37.12
94088
6.76
94048
36.49
94869
6.31
94076
36.21
94887
6.17
94888
36.19
94006
6.26
94010
36.38
94098
6.54
94099
Nj36 8
96 15
26 21
26 27
96 33
26 39
26 44
26 50
26 65
27 0
27
27
27
27
97 24
97 98
97 32
27 36
27 39
27 43
27 46
27 49
27 52
N J7 55
5
10
15
19
33.7
1.0
90.4
29.2
98.9
17.3
56.6
26.0
45.4
54.8
54.2
43.6
22.9
52.1
11.2
20.1
18.8
7.3
45.6
13.7
31.5
39.1
36.4
23.4
MONDAY 28.
5 36 36.73
5 39 6.94
5 41 37.17
5 44 7.40
5 46 37.62
5 49 7.83
5 51 38.02
5 64 8.18
6 66 38.31
5 59 8.39
1 38.41
4 8.37
6 38.26
9 8.07
11 37.80
14 7.44
16 36.98
19 6.42
6 91 35.75
6 94 4.95
6 96 34.01
6 99 9.02
6 31 31.68
6 34 0.99
6 36 98.74
6
6
6
6
6
6
6
6
940n
NJ97 58 0.1
9496
94087
98 0 96.5
940
940W
98 9 49.5
9.161
94087
28 4 48.2
9408
94080
28 6 43.6
1487
94088
28 8 28.7
1486
94099
28 10 3.4
1468
94094
28 11 27.8
1491
94017
28 12 41.9
1.148
94008
28 13 45.8
0477
94088
28 14 39.4
0488
94087
98 15 99.7
0486
94076
98 15 55.7
0464
94869
98 16 18.4
6408
940C7
98 16 30.9
0.199
94869
98 16 33.1
0408
94iU
98 16 95.1
04n
94087
98 16 7.0
•468
i48n
98 15 38.8
0486
94866
98 15 0.4
6.794
94881
98 14 11.9
•4n
94808
98 13 13.3
1488
94781
98 19 4.7
I4IT
94766
98 10 46.1
1461
94117
NJ28 0 17.5
1488
0461
6417
6484
6401
8.787
6479
6474
4487
4.788
4471
440«
8.791
8.919
8411
XII.
JULY, 1856.
121
GREENWICH
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Ibrliii.
DeoBiMUlon.
Dlfll
fbrlm.
Hour.
DUt
forlm.
Ibrlm.
TUI
SSDA^
' 29.
THURSDAY 81.
k. a. t.
t.
O 1 K
If
h. m. f.
t.
O 1 N
fl
0
6 36 28.74
9jem
NJ28 9 17.5
1.680
0
8 29 58.40
9.9971
NJ33 59 24.2
8.07
1
6 38 57.02
%m»
28 7 38.9
1.796
1
8 32 11.83
9.9906
23 50 54.5
8.661
2
6 41 25.13
9Am
28 5 50.4
1.801
2
8 34 24.87
9.9149
23 42 18.0
8.684
3
6 43 53.05
%4mn
28 3 52.0
9U)66
3
8 36 37.53
9.9077
23 33 34.8
8.776
4
6 46 90.77
9A0(m
28 1 43.6
9.919
4
8 38 49.80
9.9013
23 24 44.9
6.887
5
6 48 48.29
%itm
27 59 25.8
9.889
5
8 41 1.68
9.1947
23 15 48.4
8.988
6
6 51 15.60
S.4SM
27 66 58.0
%5U
6
8 43 13.16
9.1889
23 6 45.4
9.108
7
6 53 42.70
9.448B
27 54 20.5
9.706
7
8 45 24.25
9.1817
22 57 36.0
9.910
8
6 56 9.58
S44fl
27 51 33.4
9.866
8
8 47 34.95
9.1763
22 48 20.2
9J16
9
6 58 36.23
9.U91
27 48 36.7
8.095
9
8 49 45.26
9.1867
22 38 58.1
0.419
10
7 1 2.64
9.4881
27 45 30.4
8.184
10
8 51 55.18
9.1699
22 29 29.9
0J91
U
7 3 28.79
%4Mm
27 42 14.6
8.843
11
8 54 4.72
9.1607
22 19 55.6
0.899
12
7 5 54.70
%mi
27 38 49.3
8.499
12
8 56 13.87
9.1499
22 10 15.3
9.791
13
7 8 90.36
14908
27 35 14.6
8.896
13
8 58 22.63
9.1497
22 0 29.1
8L810
14
7 10 45.75
9.490O
27 31 30.6
8.811
14
9 0 31.00
9.1868
21 50 37.0
9J18
15
7 13 10.87
9.4184
27 27 37.3
8.965
15
9 2 38.97
9.1999
21 40 39.1
10^19
16
7 15 35.72
9.4118
27 23 34.8
4.118
16
9 4 46.57
9.1934
21 30 35.4
10.107
17
7 18 0.29
9.4079
27 19 23.1
4.971
17
9 6 53.78
9.1169
21 20 26.1
10.900
18
7 20 24.58
9.4034
27 15 2.3
4.498
18
9 9 0.60
9.1104
21 10 11.3
10.993
19
7 22 48.58
9.8975
27 10 32.5
4.674
19
9 11 7.03
9.1040
20 59 51.0
10.888
20
7 25 12.28
9.aOM
27 5 53.6
4.793
20
9 13 13.08
Mm
20 49 25.3
10.478
21
7 27 35.68
9.867ft
27 1 5.7
4.871
21
9 15 18.75
9^14
20 38 54.2
10.681
22
7 29 58.78
%mn
26 56 9.0
64)18
22
9 17 24.05
94»51
20 28 17.9
10.8C7
23
7 32 21.56
9.8770
NJ26 51 3.5
6.185
23
9 19 28.97
94788
Nj^O 17 36.5
10.719
WEDl
^ESD^
^Y 30.
FRIDAY
\ AU(
5UST 1.
0
7 34 44.02
7 37 6.16
7 39 27.98
9.8717
NJ36 45 49.2
26 40 26.2
26 34 54.6
iw8]|
0|
9 91 33.511
9X798|
Nj30 6 50.0|
10.818
1
S
9J868
9.8800
6.4i6
6.887
3
7 41 49.47
9.8568
26 29 14.5
8.789
4
7 44 10.62
9.8497
26 23 25.9
6.880
5
6
7 46 31.43
7 48 51.90
9.8440
9.888S
26 17 28.9
26 11 23.5
8.090
6.150
PHASES i
OP TI
IE MOON.
7
8
7 51 12.03
7 53 31,81
9J8M
9.8967
26 5 9.8
25 58 47.9
8.997
6.483
9
7 55 51.24
9-8908
25 52 17.8
8.568
Bar. b. m.
10
7 58 10.31
9.8148
25 45 39.7
6.701
# New Moo
D, .
. 1 21 30.
6
11
8 0 29.02
941066
25 38 53.7
8^3
J) First Qua
Tier,
. 9 19 22.
2
12
8 2 47.37
9.8098
25 31 59.8
64163
O Full Moo
n, .
. 17 9 31.
9
13
8 5 5.36
9.9967
25 24 58.1
7.098
C Last Quai
rter, .
. 94 3 2.
1
14
8 7 22.98
9.9905
25 17 48.6
7.939
# New Moo
n, .
.31 9 8.
6
15
16
17
8 9 40.23
8 11 57.10
8 14 13.59
9.9843
9.9780
9.9718
• 25 10 31.5
25 3 6.8
24 55 34.5
7.849
7.475
7.800
18
19
20
8 16 29.71
8 18 45.45
8 21 0.81
9.9655
9.9002
9.9538
24 47 54.7
24 40 7.6
24 32 13.2
7.794
7*846
7.967
C Apogee,
C Perigee,
• •
• •
. . ^' is!
. . SO 20.
9
6
21
8 23 15.79
9.9484
24 24 11.6
8.087
22
8 25 30.38
9.9809
24 16 2.8
8.905
23
8 27 44.58
9.9836
24 7 47.0
8.393
24
8 29 58.40
9.9971
N53 59 24.2
8.487
j__—
16
122
JULY, 1856.
XIII.
GRKENWICH MEAT^ TIME.
LUNAR DISTANCES.
it
Btar'i Xuna
PL.
P.L.
P.L
P.L. i
and
Noon.
of
nih.
of
Vlh.
of
rx>.
of i
'^
PoAitkm.
PiA
i>ifl:
DUL
DUL >
O 1 N
O 1 II
O 1 II
O 1 »
4
SCN
W.
25 47 14
9it»
27 13 16
8911
28 39 12
8919
30 4 69
81W 1
Mars
E.
68 33 56
7899
67 2 27
98M
65 31 14
9866
64 0 17
98n
Spies
E.
74 6 20
97U
72 31 32
9787
70 57 0
9008
69 22 43
9811
Antares
E.
190 0 13
9tm
118 25 22
9706
116 50 47
9800
116 16 27
9618
6
Sun
W.
37 11 41
S96B
38 36 30
wm
40 1 9
8987
41 96 36
8985
Mars
E.
56 29 23
a036
64 59 57
8040
53 30 45
8000
52 1 47
8079
Spica
E.
61 35 7
3877
60 9 19
9888
58 29 46
9800
56 67 27
9618
Antares
E.
107 28 36
QB76
105 55 46
9880
104 23 9
9887
102 60 46
9807
6
Sun
W.
48 25 13
SMI
49 48 37
ssao
61 11 51
8896
62 34 67
8888
Mars
E.
44 40 17
am
43 12 36
81S8
41 45 7
8148
40 17 49
8189
Spica
E.
49 19 8
9000
47 48 5
9008
46 17 13
9876
44 46 33
9887
Antares
E.
95 12 6
99i7
93 40 59
9806
92 10 2
9878
90 39 16
9889
7
Sun
W.
59 28 5
8409
60 50 19
aioo
62 12 26
8115
63 34 26
8490
Regulus
W.
17 13 57
8100
18 41 59
8101
20 to 8
8000
2! 38 22
8084
Mars
E.
33 3 54
8101
31 37 34
8188
30 11 22
8904
28 46 17
8918
Spica
E.
37 15 47
9im
35 46 5
8011
34 16 31
8086
32 47 6
8044
Antares
E.
83 7 57
8010
81 38 8
8095
80 8 26
8000
78 38 61
8088
8
Sun
W.
70 23 6
8441
71 44 36
8418
73 6 4
8440
74 27 29
844T
Regulns
W.
29 0 1
8001
30 28 22
8001
31 56 43
8001
33 26 4
8001
Spica
E.
25 21 43
8070
23 52 57
8074
22 24 16
8079
20 66 41
8084
Antares
E.
71 12 31
8067
69 43 28
8080
68 14 29
8008
66 46 34
8085
a Aquils
E.
117 11 39
4146
116 2 30
4181
114 52 58
4107
113 43 3
4005
9
Sun
W.
81 14 12
8480
82 35 32
8448
83 56 64
8447
86 18 17
84tt
Rej^ilas
W.
40 47 0
8000
42 15 27
8064
43 43 66
8001
45 19 29
8079
Antares
E.
59 21 22
8007
57 52 32
8000
66 23 41
8005
64 64 49
8085
a Aquil»
E.
107 48 35
8000
106 36 51
8878
105 94 6!
8804
104 19 36
8851
10
Sun
W.
92 6 0
8477
93 27 46
8498
94 49 37
8416
96 11 36
8410
Regulos
W.
52 36 11
80M
54 5 1!
8084
65 34 17
8046
67 3 30
8849
Antares
E.
47 29 42
8047
46 0 27
8049
44 31 6
8087
43 1 39
8881
a Aquils
E.
98 8 13
8888
96 54 46
8888
96 41 9
8878
94 97 92
8084
11
Sun
W.
103 3 18
8878
104 96 5
8804
105 49 3
8855
107 19 11
8845
Regulns
W.
64 31 39
8000
66 1 46
9887
67 39 3
9889
69 9 31
9818
Antares
E.
35 39 30
8987
34 9 13
9808
39 31 45
9860
31 1 7
9871
a Aquils
E.
88 16 17
8885
87 1 41
8618
85 46 68
8614
84 39 10
8818
Fomalhaut
E.
116 54 25
8848
115 29 13
8984
114 3 44
8990
119 37 68
8104
19
Sun
W.
114 10 50
8»1
115 35 12
8978
116 69 48
8987
118 24 38
8688
Regulos
W.
76 37 58
889i
78 9 45
9818
79 41 47
9001
81 14 4
tm
Mars
W.
24 17 57
8080
25 46 12
8089
97 14 43
8070
28 43 99
8008
Spica
W.
22 34 55
908S
94 6 33
9818
25 38 28
9606
27 10 40
98N
AnUres
E.
93 94 57
8890
21 53 4
9800
90 20 66
9we
18 48 34
9807
a Aquils
E.
78 17 11
fTM
77 9 3
8784
76 46 65
8784
74 31 47
8785
Fomalhaut
E.
105 24 49
8188
103 67 20
8118
102 29 33
8106
101 1 29
8081
a Pegasi
E.
125 27 10
8411
194 5 6
8888
199 49 30
8855
191 19 29
W7
13
Sun
W.
125 39 41
8187
196 69 6
8n8
198 96 48
8158
199 69 46
8145
Regnliis
W.
88 59 22
9890
90 33 17
9811
99 7 31
9797
93 49 3
9788
' . -
Mars
W.
36 11 15
9881
37 41 39
98n
39 19 91
9904
40 43 91
9847
XIV.
JULY, 1856.
123
GREENWICH MEAN '
riME.
LUNAB DISTANCES.
^1
Btar>fNaoM
PL.
P.L.
P.L
P.L.
and
Midnight.
of
XVh.
of
xvnpi-
of
XXP».
of
Podtioa
Difl:
DUL
Diff.
DUL
4
Sun
W.
O 1 N
31 30 39
S33i
O 1 »
32 56 10
8941
O 1 II
34 21 31
8900
o 1 n
35 46 41
8960
Mare
E.
63 20 36
9Q90
60 59 11
8001
59 29 0
8014
57 59 4
8096
Spica
E.
67 48 42
»»
66 14 50
9844
64 41 25
9856
63 8 9
9866
Antares
E.
113 43 23
aB80
112 8 34
9844
110 35 0
9858
109 1 41
9864
6
Sun
W.
49 49 53
8S06
44 13 59
8814
45 37 54
8898
47 1 39
8889
Mare
E.
50 33 3
80O
49 4 33
8098
47 36 15
8104
46 8 10
8114
Spica
E.
55 25 21
»21
53 53 29
9931
52 21 50
9941
50 50 23
9960
Antaies
E.
101 18 36
S918
99 46 40
9998
98 14 56
90S8
96 43 25
9947
6
Sun
W.
63 57 52
1874
55 20 36
8881
56 43 14
8889
58 5 43
8390
Mare
E.
38 50 42
tl61
37 23 46
8168
35 56 59
8in
34 30 22
8184
Spica
E.
43 16 4
9990
41 45 45
8008
40 15 36
8011
38 45 37
8018
Antares
£.
89 8 41
9990
87 38 16
9997
86 8 0
8005
84 37 54
8018
7
Sun
W.
64 56 20
8496
66 18 8
84»
67 39 52
8438
69 1 31
8487
Reguloa
W.
23 6 39
8099
24 34 58
8091
26 3 18
8091
27 31 39
8090
Mare
E.
27 19 20
8916
25 53 30
8991
24 27 46
8996
23 2 8
8981
Spica
E.
31 17 47
8060
29 48 36
80S6
28 19 32
8060
26 50 34
8066
Antares
£.
77 9 23
8049
75 40 2
8047
74 10 47
8061
72 41 37
8054
8
Sun
W.
75 48 52
8448
77 10 13
8460
78 31 33
8451
79 52 52
8400
Repulos
W.
34 53 25
8090
36 21 47
8009
37 50 10
8088
39 18 34
8087
Spica
E.
19 27 12
808B
17 58 48
8088
16 30 30
8098
15 2 18
8104
Antares
E.
65 16 41
8006
63 47 50
8068
62 19 1
8066
60 50 12
8067
a Aquils
E.
112 32 47
4066
111 22 10
4045
110 11 16
4098
109 0 4
4011
9
Sun
W.
86 39 43
8448
88 1 11
8489
89 22 43
8436
90 44 19
8481
Regains
W.
46 41 5
8076
48 9 44
8079
49 38 28
8066
51 7 17
8064
Antares
E.
53 25 5%
8000
51 56 56
8060
50 27 56
8056
48 58 59
8069
a Aqnils
fi.
103 0 8
8988
101 47 27
8996
100 34 34
8915
99 21 29
8904
10
Sun
W.
97 33 40
8404
98 55 52
8807
100 18 12
8389
101 40 41
8889
Regains
W.
58 32 51
8086
60 3 20
8099
61 31 57
8099
63 1 43
8014
Antares
E.
41 32 5
8096
40 2 24
8010
38 32 35
8019
37 2 37
8006
a Aqnils
E.
93 13 25
8860
91 59 20
8848
90 45 7
8840
89 30 46
8889
11
Sun
W.
108 35 31
8S86
109 59 2
8395
111 22 45
8818
112 46 41
8809
Regnlns
W.
70 33 11
9969
72 4 3
9958
73 35 8
9947
75 6 27
9987
Antares
E.
29 30 18
9909
27 59 17
9951
26 28 3
9949
24 56 37
9981
a Aqnils
E.
83 17 18
8806
82 2 22
8601
80 47 22
8796
79 32 18
8796
Fomalhaut
E.
111 11 54
8100
109 45 34
8176
108 18 56
8169
106 52 1
8148
18
Sun
W.
119 49 44
8941
121 15 5
8998
122 40 41
8914
124 6 33
8901
Regnlns
W.
82 46 35
9978
84 19 22
9866
85 52 25
9853
87 25 45
9880
Mare
W.
30 12 30
8046
31 41 47
8089
33 11 20
8010
34 41 9
8006
Spica
W.
28 43 9
9870
30 15 55
9866
31 48 58
9859
33 22 19
9888
Antares
E.
17 15 58
9876
15 43 7
9868
14 10 1
9859
12 36 40
9841
a Aqnils
e:
73 16 40
8798
72 1 36
8809
70 46 36
8807
69 31 41
8814
Fomalhant
E.
99 33 8
8076
98 4 29
8069
06 35 33
8047
95 6 19
8014
aPegasi
E.
119 55 42
8801
118 31 31
8976
117 6 52
8951
115 41 43
8997
13
Sun
W.
131 20 0
8180
132 47 33
8116
134 15 23
8109
135 43 30
8066
Regains
W.
95 16 53
9766
96 52 3
9f764
98 27 31
9730
100 3 19
9794
Mare
W.
42 14 40
998^?
43 46 18
9917
45 18 15
9909
46 50 31
9687
124
JULY, 1856.
XV.
GREENWICH BiEAN
TIME.
LUNAR DISTANCES.
13
Sterol NaoM
P.L.
P.L.
P.L.
P.L.
and
Noon.
or
nih.
of
VP».
of
IXh.
or
Podtkm.
i>ifl:
Diff.
VUL
SMC.
Spica
W.
O 1 N
34 55 58
9894
O 1 N
36 99 55
9800
O 1 J<
38 4 11
2706
O 1 n
39 38 46
97W
a Aquils
E.
68 16 53
9891
67 9 13
9S33
65 47 44
8846
64 33 28
8888
Fomalhaot
E.
93 36 48
9019
99 6 59
8006
90 36 59
9001
89 6 28
9077
aPe^asi
E.
114 16 6
8904
119 50 9
8189
111 93 31
8180
109 56 33
8188
14
Regoltm
W.
101 39 27
9710
103 15 54
9606
104 59 41
9080
106 29 48
9864
Mars
W.
48 93 7
9079
49 56 9
9867
51 99 16
9049
53 2 50
9896
9668
4078
Spica
W.
47 36 39
9704
49 13 6
9600
50 49 59
9076
62 27 13
a Aqoils
E.
58 96 29
8967
57 14 17
4001
56 9 38
4088
54 51 36
Fomalhaut
E.
81 30 4
9909
79 57 56
9606
78 95 39
9861
76 59 59
9871
aPegaai
E.
109 35 99
8087
101 5 55
8018
99 36 4
9000
98 5 50
9981
Jupiter
E.
119 10 5
9717
117 33 48
9709
115 57 11
9087
114 90 13
9679
15
Man
W.
60 55 51
9747
69 31 99
9781
64 7 98
9716
65 43 47
2108
Spica
W.
60 38 36
9889
69 17 56
9607
63 67 36
9661
65 37 38
9880
Antares
W.
14 44 17
9086
16 93 39
9600
18 3 10
9663
19 43 9
9638
Fomalhaut
E.
69 5 49
9810
67 31 35
9600
65 57 15
9706
64 99 44
9788
aPegasi
E.
90 99 16
9800
88 56 56
9884
87 94 17
9870
85 51 90
9808
Jupiter
E.
106 10 10
9608
104 31 6
9678
109 61 41
9888
101 11 56
9648
16
Mars
W.
73 50 30
9096
75 98 51
9811
77 7 31
9006
78 46 31
9888
Spica
W.
74 9 55
9488
75 45 0
9460
77 97 94
9486
79 10 8
9499
Antares
W.
98 8 96
9488
99 50 31
9440
31 39 56
9186
33 15 41
9499
Fomalhaut
E.
56 97 57
9706
54 59 44
9706
53 17 30
9766
51 49 17
2708
aPegasi
E.
78 9 95
9798
76 97 55
9700
74 53 13
9781
73 18 91
2ns
Jupiter
a Arietis
E.
99 47 55
9476
91 6 6
9400
89 93 57
9446
87 41 98
94SS
£.
190 1 3
9fi95
118 90 95
9800
116 39 94
9499
114 58 0
9C78
17
Mars
W.
87 6 6
9618
88 46 54
960T
90 97 58
91 17 53
9404
99 9 19
9484
Spica
W.
87 48 98
9360
89 33 9
9347
9S86
93 3 0
9896
Antares
W.
41 54 8
9867
43 38 44
9S46
45 93 36
9886
47 8 45
9894
Fomalhaut
E.
43 48 6
9819
49 14 3
9840
40 40 97
9866
39 7 94
9888
aPegaai
E.
65 99 9
9766
63 46 35
9766
69 11 8
9767
60 35 44
2789
Jupiter
E.
79 4 90
9868
77 19 59
9866
75 35 91
9346
73 50 97
9334
a' Arietis
E.
106 95 59
9400
104 49 37
9906
109 58 57
9884
101 15 0
9878
18
Mars
W.
100 39 45
9484
109 99 31
9496
104 5 30
9417
105 48 40
9418
Spica
W.
101 59 16
9978
103 38 48
9970
105 25 32
9961
107 19 99
99a
Antares
W.
55 58 17
9776
57 44 53
9966
59 31 42
99S0
61 18 42
9ttl
a Pegasi
E.
59 41 0
9816
51 6 59
9884
49 33 8
9807
47 59 56
9884
Jupiter
E.
65 9 11
9986
63 15 51
9im
61 29 18
9960
59 49 33
9989
a Arietis
E.
99 31 91
9S98
90 45 55
9SU
89 0 16
9806
87 14 95
9908
Aldebaran
E.
199 58 36
2(368
191 13 54
9349
119 28 56
9838
117 43 44
9899
19
Antares
W.
70 16 17
9390
79 4 14
9916
73 59 19
9911
75 40 30
9107
Jupiter
E.
50 46 6
9990
48 58 92
9936
47 10 31
9390
45 22 34
9918
a Arietis
E.
78 99 47
9970
76 36 4
9966
74 49 14
9909
73 2 19
2380
Aldebaran
E.
108 54 93
S9S9
107 7 57
9377
105 91 93
9371
103 34 41
9987
90
Antares
W.
84 49 39
91M
86 31 15
9198
88 19 53
9109
90 8 39
9199
a Aquilas
W.
45 39 11
4990
46 47 10
4106
47 67 7
8009
49 8 54
8888
Jupiter
E.
36 91 30
9904
34 33 8
9909
32 44 43
9900
30 56 16
9908
a Arietis
E.
64 7 0
9964
69 19 53
9960
60 32 48
9906
58 45 46
9908
Aldebaran
E.
94 39 45
9961
99 59 34
9960
91 5 21
2949
89 18 6
2948 1
XVI.
JULY, 1856.
125
GREENWICH MEAN TIME.
LUNAB DISTANCES.
h
Bter^Nama
P.L.
P.L.
P.L.
P.L.
13
and
Midnight.
of
XVh.
of
XVllIh
of
XXIh.
of
Podtkm.
Dlft
Dtfl.
Diff.
3786
Dift
Spica
W.
O 1 N
41 13 40
3786
O 1 «
43 48 53
9700
O 1 II
44 34 36
O 1 M
46 0 10
3730
a Aqailas
E.
63 10 25
8878
63 5 30
8888
60 58 13
8018
50 30 8
8040
Fomalhaut
E.
87 35 46
3983
86 4 47
3040
84 33 30
9086
83 1 55
3093
aPe^asi
E.
108 SO 9
8117
107 1 80
8008
105 33 5
8078
104 4 36
8068
14
Regains
W.
108 7 16
3849
109 45 4
9884
111 33 13
9810
113 1 43
9804
Mars
W.
54 36 45
SBIO
56 11 0
9704
57 45 36
sns
50 30 33
3789
Spica.
W.
54 4 48
3848
55 43 44
9897
57 31 0
9813
58 50 38
9087
a Aquilae
E.
53 41 14
413S
53 31 36
4177
51 33 48
4387
50 14 57
4804
Fomalhaut
E.
75 10 56
3600
73 46 45
9847
73 13 18
3888
70 39 37
9896
a Pegasi
E.
06 35 14
9964
05 4 16
9048
03 38 56
9081
93 1 16
9016
Jupiter
E.
113 43 55
9608
HI 5 16
9640
100 87 15
9894
107 48 53
ttma
15
Mars
W.
67 20 37
9686
68 57 37
980O
70 34 48
9606
78 18 30
9640
Spica
W.
67 18 0
9631
68^58 43
9006
70 30 47
9403
78 31 11
3478
Antares
W.
31 33 30
3633
33 4 13
9007
34 45 16
9499
36 36 41
9477
Fomalhaut
E.
63 48 3
3782
61 13 11
9776
50 38 13
9773
58 3 7
3788
a Pegasi
E.
84 18 5
9848
83 44 33
3881
81 10 45
3819
70 36 43
3808
Jupiter
E.
90 31 40
9088
07 51 31
9618
96 10 33
3603
04 30 34
3480
ir.
Mars
W.
80 35 40
9689
83 5 86
9808
83 45 31
9648
85 85 35
3680
Spica
W.
80 53 11
9100
83 36 33
9888
84 30 13
9388
86 4 13
3371
Antares
W.
34 58 45
9408
36 43 8
9800
38 35 50
9883
40 0 50
3870
Fomalhaut
E.
50 7 7
3778
48 33 4
3780
46 57 10
3701
45 38 30
9808
a Pegasi
E.
71 43 18
3787
70 8 7
3788
68 33 50
3760
66 57 38
3706
Jupiter
E.
85 58 40
9419
84 15 34
9408
83 33 8
3888
80 48 33
3880
a Arietis
E.
113 16 16
9484
111 34 13
9440
100 51 47
3485
108 0 3
3499
17
Mars
W.
03 50 55
9478
05 33 46
9489
07 14 53
9468
08 57 12
9448
Spica
W.
04 48 33
9816
06 34 1
3806
08 10 53
3306
100 5 57
3987
Antares
W.
48 54 10
9818
50 30 50
9803
53 35 45
9304
54 11 54
9984
Fomalhaut
E.
37 35 0
9884
36 3 34
9079
34 33 45
8034
33 3 14
8008
a Pegasi
E.
50 0 36
2786
57 35 16
9775
55 50 16
3786
54 15 30
9798
Jupiter
E,
73 5 17
9894
70 10 53
3818
68 34 18
3804
66 48 18
9306
a Arietis
E.
00 30 47
9883
97 46 17
3864
06 1 33
3843
04 16 34
3883
18
Man
W.
107 33 1
9106
100 15 33
3808
110 50 13
3880
118 43 3
3884
Spica
W.
108 50 38
3346
110 46 58
9380
113 34 28
3983
114 33 7
3327
Antares
W.
63 5 53
3344
64 53 15
9987
66 40 47
3«1
68 38 38
3396
a Pegasi
E.
46 37 17
3018
44 55 18
9064
43 24 7
9907
41 53 50
8048
Jupiter
E.
57 55 37
3368
56 8 30
9947
54 31 11
9340
53 33 43
3384
a Arietis
E.
85 38 34
9901
83 43 13
9906
81 55 53
9980
80 0 33
3375
Aldebaran
E.
115 58 17
3818
114 13 37
9804
lis 36 44
3906
110 40 30
3380
19
Antares
W.
77 38 47
3964
70 17 0
9901
81 5 35
3108
83 54 5
3106
Jupiter
E.
43 34 30
9il3
41 46 31
9310
30 58 8
3907
38 0 50
3306
a Arietis
E.
71 15 30
9908
60 38 18
9306
67 41 13
3356
65 54 7
3954
Aldebaran
E.
101 47 53
9383
100 0 58
390O
08 13 58
3368
06 36 53
3358
30
Antares
W.
01 57 11
3193
03 45 50
9199
05 34 30
3108
07 33 7
3104
a Aquilas
W.
50 33 10
8806
51 37 16
8797
53 53 35
8664
54 11 11
8080
Jupiter
E.
30 7 48
9300
37 10 31
9901
35 30 55
3909
33 42 30
3308
a Arietis
E.
56 58 46
3989
56 11 51
9964
53 34 50
9988
51 38 13
3378
Aldebaran
E.
87 30 51
9340
85 43 36
3949
83 56 23
3351
82 0 10
3968
126
JULY, 1856.
XVII.
GREENWICH MEAN TIME. 1
LUNAR DISTANCES.
i.
Star's NaiM
P. L.
P. L.
P. L.
P. L.
*S8
31
and
Noon.
of
mh
of
Vlh.
of
IX»^
of
Podtioa.
IMfl.
Diff.
Dilt
Dur.
Antares
W.
O I M
99 11 43
SIM
O 1 1
101 0 17
9198
102 48 47
9900
O 1 H
104 37 14
9908
a Aquils
W.
65 29 57
Sttl
56 49 47
84:8
6R 10 36
8480
59 32 19
8887
a Arietis
E.
49 51 34
«79
48 6 4
9987
46 18 45
9098
44 32 39
m»
Aldebaran
E.
80 22 1
3365
78 34 55
9358
. 76 47 53
9961
75 0 66
9385
Saturn
E.
109 45 17
tm
107 68 14
9958
106 11 13
9-MO
104 24 15
9369
Son
E.
131 33 32
9099
129 52 60
9593
128 12 8
9594
126 31 28
9898
22
Antares
W.
113 38 21
3SSI
116 26 17
9998
117 14 6
9931
119 1 48
9988
a Aqoi]»
W.
66 31 31
sat
67 67 1
8919
69 22 56
8193
70 49 13
am
Fomalhaut
W.
35 2 5
flB77
36 34 53
9899
38 8 43
9787
39 43 28
9751
a Arietis
E.
35 46 6
9t88
34 1 46
9165
32 17 49
9407
30 34 24
9488
Aldebaran
E.
66 7 46
9990
64 21 32
9907
62 35 28
9804
60 49 34
9811
Satam
E.
95 30 26
9979
93 43 56
9984
91 67 33
9988
90 11 16
9988
Sun
E.
118 8 55
9540
116 28 38
9545
114 48 27
9840
113 8 22
9588
23
a Aqail»
W.
78 4 34
8191
79 32 6
8197
80 69 43
8194
82 27 23
8198
Fomalhaot
W.
47 46 59
9888
49 26 3
9894
61 3 25
9819
62 42 3
9808
Aldebaran
E.
52 3 0
9156
60 18 25
9888
48 34 5
9880
46 60 2
am
Saturn
E.
81 21 48
ma
79 36 20
9898
77 51 1
9885
76 6 62
9849
Sun
E.
104 49 44
9661
103 10 23
9067
101 31 10
9103
99 52 7
9801
24
a Aquilae
W.
89 45 27
9148
91 12 46
8151
92 39 63
8180
94 6 60
am
Fomalhaut
W.
60 57 37
9B60
62 37 0
9879
64 16 24
9579
65 66 48
9879
a Pegaai
W.
41 59 6
9077
43 27 44
8088
44 57 12
8000
46 27 25
9880
Jupiter
W.
21 1 7
9390
22 46 37
9837
24 31 57
9834
26 17 7
9849
Aldebaran
E.
38 14 47
9478
36 32 56
9405
34 61 36
9519
33 10 49
95a
Saturn
E.
67 22 38
9878
65 38 32
9888
63 64 37
9804
62 10 63
9408
Sun
E.
91 39 13
9887
90 1 8
9845
88 23 14
9853
86 45 30
9880
25
a Aquils
W.
101 17 43
8947
102 42 57
8988
104 7 46
8388
105 32 11
8819
Fomalhaut
W.
74 12 20
98M
76 51 26
9S00
77 30 26
9801
79 9 19
980T
a Pegasi
W.
54 6 35
9888
55 39 35
9855
57 12 51
9845
58 46 20
9BM
Jupiter
W.
35 0 18
9878
36 44 24
9885
38 28 20
9804
40 12 4
9401
Saturn
E.
63 35 15
9445
61 52 45
9455
60 10 28
9465
48 28 25
9n5
Sun
E.
78 39 30
9101
77 2 51
7m
75 26 23
9718
73 60 7
mo 1
26
a Aquil»
W.
112 26 65
8456
113 48 8
8491
116 8 42
8598
116 28 35
1
8588
Fomalhaut
W.
87 21 45
9840
88 69 46
9847
90 37 37
9855
92 15 17
9884
aPejfaai
W.
66 35 67
9814
68 10 7
9818
69 44 18
9819
71 18 30
9818 j
Jupiter
W.
48 48 7
9489
60 30 46
9440
52 13 15
9455
63 65 32
9403 >
Saturn
E.
40 1 43
9598
38 21 9
9840
36 40 52
9853
35 0 52
9600 .
Sun
E.
65 51 36
9770
64 16 29
9779
62 41 34
9788
61 6 60
mm ;
27
W.
100 20 34
_9719
101 56 58
9793
103 33 7
9735
105 9 1
9748 1
aPegasi
W.
79 8 51
9899
80 42 42
98)4
82 16 26
9839
83 60 3
98a
Jupiter
W.
62 24 12
930i
64 6 23
9810
65 46 23
9818
67 27 11
9597 1
Saturn
E.
26 46 0
9853
25 8 16
9815
23 31 2
9701
21 64 23
«789 !
Sun
E.
63 16 16
9845
61 42 46
9855
60 9 29
9884
48 36 24
9875 1
28
Fomalhaot
W.
113 4 28
9818
114 38 39
9898
116 12 31
9814
117 46 2
9880
a Pegasi
W.
91 35 55
9884
93 8 34
9804
94 41 1
9HM
96 13 15
9014
Sun
E.
40 54 22
9898
39 22 39
9180
37 51 10
9053
36 19 67
9884
20
aPegata
W.
103 60 53
9875
105 21 37
9089
106 52 3
8084
108 22 11
8898
._
Sun
E.
28 47 53
8084
27 18 23
8051
25 49 13
8088
24 20 24
8088 1
XVIII.
JULY, 1856.
12T
GREENWICH MEAN
TIME.
LUNAB DISTANCES.
31
Star'iNuM
P. L.
P. L.
p. L.
P. L.
and
Poritfon.
Midnight.
of
IMfl.
XVh.
of
Dur.
XVlIIh
of
DUL
XXIh.
of
Dlff.
Antares
W.
O 1 M
106 25 37
9906
O 1 V
108 13 56
3910
O 1 II
110 2 9
3918
HI 50 18
3916
a Aquil»
W.
60 54 50
1848
62 18 6
8315
63 42 0
8984
65 6 30
8358
a Arietia
E.
42 46 47
3SI0
41 1 11
3837
39 15 51
3880
37 30 49
3858
Aldebaran
E.
73 14 5
9-J69
71 27 20
3918
69 40 41
3378
67 54 9
3984
Saturn
E.
102 37 20
3985
100 60 29
3968
99 3 43
9379
97 17 2
3375
Sum
E.
124 50 49
3037
123 10 14
3680
121 29 43
9584
119 49 17
3587
23
AnUres
W.
120 49 24
3940
122 36 52
9345
124 24 12
9951
126 11 24
3956
a Aqoils
W.
72 15 50
8161
73 42 43
8159
75 9 50
8148
76 37 8
8186
Fomalhaut
W.
41 19 0
3730
42 55 13
9605
44 32 0
9673
46 9 17
3654
a Arietia
E.
28 51 37
3465
27 9 34
9609
25 28 23
3544
23 48 11
3609
Aldebaran
E.
59 3 50
3818
57 18 17
3897
55 32 57
3887
53 47 51
9847
Satam
E.
88 25 6
3996
86 39 4
3804
84 53 10
9810
83 7 25
9815
Son
E.
111 28 23
3560
109 48 31
36M
108 8 47
9071
106 29 12
9676
33
a Aquils
W.
83 55 5
8193
85 22 48
8135
86 50 27
8180
88 18 0
8185
Fomalhaat
W.
54 20 54
3806
55 59 54
9601
57 39 2
9865
69 18 17
9669
Aldebaran
E.
45 6 17
3407
43 22 52
9491
41 39 47
3487
39 57 5
9454
Saium
E.
74 20 53
9848
72 36 4
9855
70 51 25
3869
69 6 56
9870
Sun
E.
98 13 13
3007
96 34 28
9615
94 55 53
3639
93 17 28
9090
34
a Aqails
W.
95 33 33
8188
97 0 2
8108
98 26 14
8913
99 52 8
8338
Fomalhaut
W.
67 35 12
fueo
69 14 34
9688
70 53 53
3665
72 33 9
9588
a Pegasi
W.
47 58 16
90tt
49 29 40
9090
51 1 34
3800
52 33 52
9888
Jupiter
W.
28 2 6
3840
29 46 55
3856
31 31 33
3868
33 16 1
9871
Aldebaran
E.
31 30 36
3173
29 51 2
3604
28 12 12
3643
26 34 14
9687
Saturn
E.
60 27 21
3410
58 44 1
3410
57 0 53
3498
55 17 58
9486
Sun
E.
85 7 57
9668
83 30 34
3075
81 53 21
3684
80 16 19
9608
35
a Aquile
W.
106 56 9
8886
108 19 39
8868
109 42 38
8309
111 5 4
8498
Fomalhaut
W.
80 48 5
3619
82 26 43
3618
84 5 13
3695
85 43 34
9683
a Pegasi
W.
60 20 1
9890
61 53 51
3894
63 27 48
3690
65 1 50
3816
Jupiter
W.
41 55 38
3408
43 39 1
3415
45 22 14
3438
47 6 16
3481
Saturn
E.
46 46 36
3485
45 5 1
3404
43 23 40
3605
41 42 34
3516
Sun
E.
72 14 2
3785
70 38 8
9744
69 2 26
3763
67 26 55
3761
36
a Aqnilae
W.
117 47 44
8613
119 6 5
8661
120 23 34
8719
121 40 8
8765
Fomalhaut
W.
93 52 45
3678
95 30 1
3689
97 7 5
3609
08 43 56
3701
a Pegasi
W.
72 52 4!
3815
74 26 49
3818
76 0 54
9821
77 34 55
3895
Jupiter
W.
55 37 38
9410
57 19 33
3478
59 1 17
3486
60 42 50
3494
Saturn
E.
33 21 11
3660
31 41 49
3606
30 2 49
3618
28 24 12
3683
Sun
E.
59 32 19
9807
57 58 0
9816
56 23 53
3895
54 49 58
9885
37
Fomalhaut
W.
106 44 40
9768
108 20 3
9771
109 55 9
9784
111 29 58
3706
a Pegasi
W.
85 23 32
3863
86 56 52
9850
88 30 3
3807
90 3 4
9075
Jupiter
W.
69 7 47
3680
70 48 12
9548
72 28 26
3551
74 8 28
9560
Saturn
E.
20 18 26
3760
18 43 18
9815
17 9 9
9871
15 36 13
9944
Sun
E.
47 3 33
3885
45 30 55
9805
43 58 30
3006
42 26 19
9017
38
Fomalhaut
W.
119 19 12
98T7
120 52 0
9806
122 24 24
3015
123 56 24
9080
a Pegasi
W.
97 45 16
3095
99 17 3
9887
100 48 35
3040
102 19 52
9869
Sun
E.
34 48 59
3on
33 18 17
3080
31 47 51
8004
30 17 43
8018
39
a Pegasi
W.
109 51 59
8036
111 21 27
8058
112 50 34
8071
114 19 19
8080
Sun
E.
22 52 0
8110
21 24 3
8135
19 56 36
8168
18 29 43
8104
128
AUGUST, 1856.
I.
AT GREENWICH APPARENT NOON.
i
Fri.
Sat
Sim.
Mod.
Tues.
Wed.
Thur.
Fri.
Sat
Sun.
Mod.
Tues.
Wed.
Thur.
Fri.
Sat
Sun.
MoQ.
Tues.
Wed.
Thur.
Fri.
Sat
Sun.
MoQ.
Tues.
Wed.
Thur.
Fri.
Sat
uVfl.
Mon.
THE surra
Appartni
Righli
h. m. s.
8 47 8.59
8 51 1.19
8 54 53.18
8 58 44.56
9 2 35.34
9 6 25.51
9 10 15.06
9 14 3.98
9 17 52.33
9 21 40.08
9 25 27.22
9 29 13.83
9 32 59.84
9 36 45.31
9 40 30.24
9 44 14.62
9 47 58.51
9 51 41.89
9 55 24.79
9 59 7.22
10 2 49.18
10 6 30.69
10 10 11.78
10 13 52.47
10 17 82.76
10 21 12.66
10 24 52.20
10 28 31.88
10 82 10.21
10 35 48.70
10 39 26.87
10 43 4.75
Diftlbr
Ihoar.
t.
9.705
9.680
9.654
9.629
9.608
9.578
9.558
9.527
9.502
9.478
9.454
9.480
9.407
9.884
9.862
9.841.
9.820
9.299
9.279
9.259
9.240
9.228
9.205
9.188
9.172
9.157
9.142
9.127
9.118
9.086
9.074
I>lff.fbr
Ihoor.
N.
7 55 53.7
7 40 30.4
7 24 49.8
7 8 52.2
6 52 37.7
6 36 7.1
6 19 20.6
6 2 18.4
5 45 0.6
5 27 27.9
5 9 40.6
4 51 38.6
4 33 22.6
4 14 52.7
3 56 9.2
3 37 12.5
3 18 2.9
2 58 40.7
39 6.0
19 19.0
59 20.4
1 89 10.2
1 18 48.9
0 58 16.6
0 37 33.8
0 16 40.7
9 55 37.6
9 84 25.0
9 13 8.1
8 51 82.3
8 29 53.0
N. 8 8 5.5
88.10
88.84
39.54
40.25
40.93
41.61
42.26
42.91
48.54
44.17
44.77
45.87
45.95
46.54
47.08
47.68
48.16
48.70
49.20
49.71
50.18
50.66
51.11
51.57
52.00
52.48
52.82
58.22
58.59
53.97
54.81
54.66
Semi-
Id 4^.09
15 48.22
15 48.35
15 48.49
15 48.65
15 49.80
15 48.96
15 49.12
15 49.29
15 49.47
15 49.65
15 49.82
15 49.99
15 50.16
15 50.34
15 50.53
15 50.71
15 50.90
15 51.09
15 51.28
15 51.49
15 51.70
15 51.90
15 52.11
15 52.32
15 52.52
15 52.73
15 52.94
15 53.16
15 53.39
15 53.61
15 53.85
Sldeml
TllIM
of the
Semldi-
tbe
Bbrtd.
ton.
66.60
66.51
66.42
66.34
66.25
66.17
66.09
66.01
65.92
65.84
65.76
65.68
65.60
65.52
65.45
65.37
65.30
65.23
65.15
65.08
65.01
64.94
64.87
64.81
64.75
64.69
64.64
64.60
64.54
64.50
64.45
64.40
Time,
jrOfn
Appottfti
Tim*.
6 0.88
5 56.94
5 52.39
5 47.21
5 AIM
5 35.09
5 28.09
5 20.48
5 12.30
5 3.51
4 54.13
4 44.21
4 33.70
4 22.64
4 11.05
3 58.90
3 46.27
3 33.12
3 19.50
3 5.42
2 50.87
2 35.86
2 20.44
2 4.62
1 48.40
1 31.78
1 14.82
0 57.49
0 89.82
0 21.81
0 3.48
0 15.14
MS.
for
Ihoar.
0.151
0.177
0.204
0.228
0.258
0.278
0.304
0.829
0.854
0.878
0.402
0.427
0.450
0.473
0.495
0.517
0.538
0J(57
0.577
0.597
0.616
0.685
0.652
0.669
0.686
0.702
0.717
0.7)0
0.744
0.758
0.771
0.783
If on. ^ Mmr TIb» «r Iht I
( WI7 W fcoDd by Mblnetfi^ 0t.l8 from Iht
II.
AUGUST, 1856.
129
AT GREENWICH MEAN
NOON.
1
1
1
THE SUN'S
Sftoationof
Time,
toU
iubtraeud
DUL
for
Ihoor.
SIdflieal
Thne.
Apparent
DUr. ft>r
1 hcmr.
Appetrent
DecUnation.
Dlff.for
1 boor.
added to
Mean
TitM.
Fri.
Sat.
Sm.
1
2
3
h. m. •.
8 47 7.63
8 61 0.24
8 64 52.25
s.
9.705
9.680
9.654
N.f? 55 57.4
17 40 34.2
17 24 53.6
88.10
88.84
89.54
m. f.
6 0.89
5 56.95
5 52.40
a.
0.151
0.177
0.204
h. m. i.
8 41 6.74
8 45 3.29
8 48 59.85
Mon.
Tuea.
Wed.
4
5
6
8 58 43.64
9 2 34.44
9 6 24.63
9.629
9.603
9.578
17 8 66.0
16 52 41.6
16 36 11.0
40.25
40.98
41.61
5 47.23
5 41.48
5 35.11
0.228
0.258
0.278
8 52 56.41
8 56 52.96
9 0 49.52
Thur.
Fri.
Sat
7
8
9
9 10 14.19
9 14 3.13
9 17 51.61
9.568
9.527
9.502
16 19 24.5
16 2 22.2
15 45 4.4
42.26
42.91
43.54
5 28.11
5 20.50
5 12.32
0.804
0.829
0.854
9 4 46.06
9 8 42.63
9 12 39.19
Mon.
Tues.
10
11
12
9 21 39.28
9 25 26.45
9 29 13.09
9.478
9.454
9.430
15 27 31.6
15 9 44.2
14 51 42.2
44.17
44.77
45.87
5 3.53
4 54.15
4 44.23
0.878
0.402
0.427
9 16 35.75
9 20 32.30
9 24 28.86
Wed.
Thur.
Fri.
13
14
15
9 32 59.13
9 36 44.63
9 40 29.59
9.407
9.384
9.362
14 33 26.1
14 14 56.1
13 56 12.4
45.95
46.54
47.08
4 33.72
4 22.66
4 11.07
0.450
0.478
0.495
9 28 25.41
9 32 21.97
9 36 18.52
Sat.
&m.
Mon.
16
17
18
9 44 14.00
9 47 57.92
9 61 41.33
9.841
9.320
9.299
13 37 15.6
13 18 5.9
12 58 43.5
47.68
48.16
48.70
3 58.92
3 46.29
3 33.14
0.517
0.588
0.567
9 40 15.08
9 44 11.63
9 48 8.19
Tues.
Wed,
Thur.
19
20
21
9 55 24.27
9 59 6.74
10 2 48.74
9.279
9.259
9.240
12 39 8.6
12 19 21.5
11 59 22.7
•
49.20
49.71
50.18
3 19.52
3 5.44
2 60.89
0.577
0.597
0.616
9 52 4.75
9 56 1.30
9 59 57.85
Fri.
Sat.
Sun.
22
23
24
10 6 30.29
10 10 11.42
10 13 52.15
9.228
9.205
9.188
11 39 12.4
11 18 60.9
10 58 18.4
50.66
51.11
51.57
2 35.88
2 20.46
2 4.63
0.635
0.652
0.669
10 3 54.41
10 7 50.96
10 11 47.52
Mon.
Tues.
Wed.
25
26
27
10 17 32.48
10 21 12.42
10 24 52.01
9.172
9.157
9.142
10 37 35.4
10 16 42.1
9 55 38.8
52.00
52.13
52.82
1 48.41
1 31.79
1 14.83
0.686
0.702
0.717
10 15 44.07
10 19 40.63
10 23 37.18
Thur.
Fri.
Sat.
Sun.
Mon.
26
29
30
31
32
10 28 31.23
10 32 10.11
10 35 48.65
10 39 26.87
10 43 4.79
9.127
9.113
9.099
9.036
9.074
9 34 26.0
9 13 3.8
8 51 32.7
8 29 53.1
N. 8 8 5.3
53.22
53.59
53.97
54.31
54.66
0 57.49
0 39.82
0 21.80
0 3.47
0.730
0.744
0.758
0.771
0.783
10 27 33.74
10 31 30.29
10 35 26.85
10 39 23.40
10 43 19.95
0 15.16
H
on. — Th« Semldian
wter for H
Ban Xoon may be aatumed the
■ame as that foi
r Apparenl
bNoon.
17
130
AUGUST, 1856.
IIL
AT GREENWICH MEAN NOON.
THE SUN'S
4
I
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
IVm lonoitudb.
129 20 &.e
130 18 13.6
131 15 42.6
132 13 12.5
133 10 43.2
134 8 14.7
135 5 47.0
136 3 20.1
187 0 54.2
137 58 29.2
138 56 5.0
139 53 41.8
140 51 19.7
141 48 58.7
142 46 38.9
143 44 20.3
144 42 3.1
145 39 47.3
146 37 33.2
147 35 20.7
148 33 9.9
149 31 0.8
150 28 53.5
151 26 48.0
152 24 44.3
153 22 42.5
154 20 42.5
155 18 44.3
156 16 47.9
157 14 53.3
158 13
159 11
0.3
8.9
20 20.4
17 48.3
15 17.2
12 46.9
10 17.5
7 48.8
5 20.9
2 53.9
0 27.8
8 2.7
55 38.4
53 15.0
50 52.8
48 31.7
46 11.7
43 52.9
41 35.6
89 19.7
37 5.5
84 52.9
82 42.0
80 32.7
28 25.3
26 19.6
24 15.8
22 13.9
20 13.7
18 15.4
16 18.8
14 24.1
12 31.0
10 39.5
DUr for
1 boor.
LATXTUDE.
4S.64
48.68
48.78
48.77
43.80
48.84
48.88
48.91
48.95
44.00
44.04
44.07
44.11
44.16
44.21
44.26
44.82
44.87
44.44
44.51
44.58
•
44.65
44.78
44.81
44.88
44.95
45.02
45.10
45.17
45.24
45.81
45.89
LQearfthm
of th«
RMUosVeetor
of th«
Barth.
-Hii.49
0.42
0.33
0.23
4-0.10
—0.02
0.15
0.27
0.38
0.46
0.53
0.57
0.59
0.57
0.53
0.44
0.33
0.20
—0.07
H-0.07
0.19
0.32
0.43
0.52
0.59
0.61
0.62
0.60
0.53
0.45
0.35
-H).23
0.0063282
.0062672
.0062038
.0061381
.0060701
.0059998
.0059276
.0058537
.0057780
.0057006
.0056218
.0055418
.0054605
.0053780
.0052947
.0052106
.0051255
.0050394
.0049522
.0048639
.0047748
.0046844
.0045929
.0045000
.0044056
.00430^6
.0012119
.0041125
.0040114
.0039084
.0038037
0.0036972
PUT. fbr
1 hour.
24.9
26.9
26.9
27.8
28.7
29.5
80.8
81.2
81.8
82.4
88.0
88.6
84.1
84.5
84.9
85.8
85.8
86.1
86.6
87.1
87.5
88.0
88.4
89.0
89.6
40.8
41.0
41.8
2.5
8.2
4.0
4.7
ItenTlnM
of
SklOTMlOb.
15 16 22.73
15 12 26.82
15 8 30.91
15 4 34.99
15 0 89.08
14 56 43.17
14 52 47.26
14 48 51.35
14 44 55.44
14 40 59 53
14 87 8.62
14 38 7.71
14 29 11.80
14 25 15.89
14 21 19.99
14 17 24.07
14 18 28.16
14 9 82J25
14 5 86.84
14 1 40.45
18 57 44.58
18 58 48.62
13 49 52.71
13 45 56.80
18 42 0.89
18 38 4.98
18 84 9.07
18 80 18.16
18 26 17.25
13 22 81.35
13 18 25.44
18 14 29.53
Nontax eoRWpoodc to Um Ctm •qolnox of Um ^to, k' to Um mtmm •qoloox oT Jul. Od.
IV.
AUGUST, 1856.
131
GREENWICH
MEAN TIME.
THE
MOON'S
s
HORIZONTAL
PARALLAX.
HXRIDLiN PASSAOB.
AGB.
Noon.
mdnlgfat.
Noon.
Dim for
Ihour.
Midnight.
Did: for
1 hoar.
DHL for
Ihour.
1.97
1.82
1.71
1
2
3
15 "6.7
14 59.6
14 53.7
15 3.0
14 56.5
14 51.3
55 20.8
54 54.8
54 33.2
-1.15
1.00
0.79
1 w
55 7.3
54 43.4
54 24.4
M
-1.08
0.90
0.66
h. m.
0 41.8
1 27.2
2 9.3
d.
0.6
1.6
2.6
4
5
6
14 49.4
14 47.0
14 46.9
14 47.9
14 46.7
14 47.8
54 17.3
54 8.6
54 8.3
0.52
-0.19
+0.18
54 12.0
54 7.3
54 11.7
0.36
-0.01
+0.39
2 49.3
3 28.2
4 7.2
1.68
1.60
1.68
3.6
4.6
5.6
7
8
9
14 49.4
14 54.7
15 2.7
14 51.7
14 58.4
15 7.7
54 17.6
54 37.0
55 6.4
0.60
1.02
1.42
54 26.0
54 50.5
55 24.6
0.81
1.22
1.60
4 47.4
5 30.1
6 16.2
1.72
1.84
1.99
6.6
7.6
8.6
10
11
12
15 13.2
15 25.8
15 39.8
15 19.3
15 32.7
15 47.0
55 44.9
56 31.0
57 22.5
1.77
2.05
2.21
56 7.1
56 56.3
57 49.1
1.92
2.15
2.22
7 6.5
8 1.2
8 59.6
2.17
2.86
2.50
9.6
10.6
11.6
13
14
15
15 54.2
16 8.1
16 19.9
16 1.3
16 14.3
16 24.7
58 15.7
59 6.3
59 49.7
2.19
1.98
1.59
58 41.6
59 29.2
60 7.3
2.11
1.81
1.32
9 59.8
10 59.3
11 56.4
2.52
2.44
2.31
12.6
13.6
14.6
16
17
18
16 28.6
16 33.3
16 33.6
16 31.5
16 34.0
16 32.2
60 21.5
60 38.8
60 40.2
1.03
+0.39
-0.27
60 32.1
60 41.5
60 35.1
0.72
+0.06
-0.58
12 50.7
13 42.5
14 32.7
2.21
2.12
2.07
15.6
16.6
17.6
19
20
21
16 29.9
16 22.8
16 13.5
16 26.7
16 18.4
16 8.2
60 26.5
60 0.5
59 26.0
0.85
1.28
1.56
60 14.8
59 44.1
59 6.7
1.08
1.44
1.64
15 22.6
16 13.6
17 6.7
2.09
2.16
2.25
18.6
19.6
20.6
22
23
24
16 2.7
15 51.6
15 40.8
15 57.2
15 46.1
15 35.6
58 46.7
58 5.9
57 26.0
1.68
1.69
1.62
58 26.3
57 45.7
57 6.9
1.70
1.66
1.57
18 2.1
18 59.5
19 57.5
2.35
2.42
2.40
21.6
22.6
23.6
25
26
27
15 30.5
15 21.1
15 12.5
15 25.7
15 16.7
15 8.6
56 48.4
56 13.8
55 42.4
1.61
1.37
1.24
56 30.7
55 57.7
55 28.0
1.44
1.31
1.16
20 54.1
21 47.8
22 37.8
2.31
2.17
2.00
24.6
25.6
26.6
28
29
30
31
15 4.9
14 58.3
14 52.8
14 48.5
15 1.5
14 55.4
14 50.5
14 46.8
55 14.5
54 50.2
54 29.9
54 14.1
1.09
0.98
0.75
0.55
55 1.9
54 39.5
54 21.4
54 8.1
1.01
0.84
0.65
0.44
23 23.9
6
0 6.7
0 47.2
1.84
1.7^
1.65
27.6
28.6
0.0
1.0
32
14 45.6
14 44.9
54 3.6
-0.81
54 0.6
-0.18
1 26.4
1.62
2.0
132
AUGUST, 1856.
V.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Right Ammrion.
DUL
forlm.
Diff.
Ibrlm.
Hoar.
1
1 Bight Asccoalon.
DUL
forlm.
DwUnattoA.
JSUL
forln.
FRIDAY
1.
SUNDAY
3.
h. m. t.
■.
O t M
M
b. m. t.
t.
O 1 If
a
0
9 31 33.51
9j(rm
N.30 6 50.0
10.816
0
10 54 41.07
1.8992
N.IO 13 8.9
13.498
1
9 33 37.67
S.0663
19 55 58.5
10.800
1
10 56 30.72
1.8367
9 59 38.1
13.099
3
9 35 41.46
9M01
19 45 3.1
104)81
3
10 58 30.15
1.8391
9 46 5.4
13.560
3
9 37 44.88
9.0080
19 34 0.8
114)69
3
11 0 9.37
1.8180
9 33 30.9
13.688
4
9 39 47.93
S4M78
19 S3 54.7
11.143
4
11 1 58.38
1.8103
9 18 54.8
13.610
5
9 31 50.63
3.0418
19 11 43.8
11.331
5
11 3 47.19
1.8119
9 5 17.0
6
9 33 53.95
%OUfJ
19 0 38.3
11.388
6
11 5 35.81
1.8087
8 51 37.6
13.660
7
9 35 54.91
ijyin
18 49 8.1
11.373
7
11 7 34.24
1.8000
8 37 56.7
13.004
8
9 37 56.51
ijom
18 37 43.5
11.447
8
11 9 12.48
1.8094
8 34 14.3
13.710
9
9 39 57.76
94)178
18 26 14.5
11.090
9
11 11 0.53
1.7998
8 10 30.4
13.743
13.706
10
9 41 58.65
34)110
18 14 41.1
11.009
10
11 12 48.40
1.7964
7 56 45.1
11
9 43 59.19
34)001
18 .3 3.5
11.663
11
11 14 36.10
1.7036
7 43 58.5
13.788
13
9 45 59.39
94)003
17 51 31.7
11.781
13
11 16 23.63
1.7908
7 29 10.6
13.800 1
13
9 47 59.34
1.8040
17 39 35.8
11.799
13
11 18 10.99
1.7860
7 15 31.4
13.SS0
14
9 49 58.74
1.8860
17 37 45.8
11.866
14
11 19 58.19
1.7804
7 1 31.0
13^19 1
15
9 51 57.90
1.0883
17 15 51.8
11.933
15
11 21 45.24
1.7890
6 47 39.5
13.867 '
16
9 53 56.72
Lono
17 3 53.9
114)97
16
11 33 32.14
1.7604
6 33 46.9
13.88S j
17
9 55 55.21
1.9731
16 51 53.3
134)00
17
11 25 18.89
1.7779
6 19 53.3
13.90i
18
9 57 53.37
i.06(n
16 39 46.7
13.133
18
11 37 5.49
1.7700
6 5 58.7
13.019
10
9 59 51.21
1.9618
16 37 37.5
13.183
19
11 28 51.95
1.7739
5 53 3.1
13-986
20
10 1 48.72
1.9550
16 15 34.7
19.343
30
11 30 38.28
1.7710
5 38 6.5
I8.AM)
21
10 3 45.90
1.0000
16 3 8.3
13.303
31
11 32 24.48
1.7680
5 34 9.0
13«M
23
10 5 43.76
14»4ft3
15 50 48.3
13.361
33
11 34 10.55
1.7667
5 10 10.7
13.977
33
10 7 39.31
SAT
ISM
N.I5 38 34.9
lY 2.
19.418
33
11 35 56.49
MC
1.7647
>NDA^
N. 4 56 11.7
' 4.
13.980
0
10 9 35.55
1.0847
N.15 35 58.1
13.474
0
11 37 42.31
1.7037
N. 4 43 13.0
144)01
1
10 11 31.48
14)900
15 13 38.0
13.039
1
11 39 38.03
1.7608
4 38 11.6
144)19
3
10 13 37.10
14)946
15 0 54.7
13.089
3
11 41 13.63
1.7603
4 14 10.6
144)90
3
10 15 33.43
14)196
14 48 18.3
13.634
3
11 43 59.13
1.7677
4 0 9.1
144)99
4
10 17 17.44
1.9140
14 35 38.6
13.060
4
11 44 44.52
1.76S8
3 46 7.1
144>t8
6
10 19 12.17
1.9097
14 33 56.0
13.736
5
11 46 29.82
1.7643
3 38 4.6
144M6
6
10 31 6.61
1.9040
14 10 10.4
13.780
6
11 48 15.03
1.7637
3 18 1.6
14.068 I
7
10 33 0.76
1.0001
13 57 31.8
19.833
7
11 50 0.15
1.7613
3 3 58.3
144)60 1
8
10 34 54.62
1.800S
13 44 30.4
13.880
8
11 51 45.18
1.7408
3 49 54.5
144)04 1
0
10 36 48.20
1.8907
13 31 36.3
13.090
9
11 53 30.13
1.7480
3 35 50.5
144)69 1
10
10 38 41.51
1.8803
13 18 39.3
13.971
10
11 55 15.01
1.7474
3 31 46.3
144)74
11
10 30 34.55
i«n
13 5 39.7
134)10
11
11 56 59.82
1.7463
3 7 41.6
144X78 {
13
10 33 37.32
1.8778
13 58 37.5
184)68
13
11 58 44.56
1.7463
1 53 36.8
144)61
13
10 34 19.83
1.8730
13 39 32.8
13.100
13
13 0 29.24
1.7443
1 39 31.8
144)84
14
10 36 13.08
1.8087
13 36 35.6
13.141
14
12 2 13.86
1.7433
1 35 26.7
144)86
15
10 38 4.07
1.8644
13 13 15.9
U.183
15
13 3 58.43
1.7496
1 11 21.5
144)87
16
10 39 55.81
1.6003
13 0 3.8
13.331
16
13 5 42.95
1.7418
0 57 16.2
144»7
17
10 41 47.30
1.8061
11 46 49.4
13.309
17
12 7 27.43
1.7411
0 43 11.0
144)86
18
10 43 38.54
1.8090
11 33 33.7
13.397
18
13 9 11.88
1.7406
0 39 5.9
144)84 1
19
10 45 29.54
1.8480
11 30 13.8
18.383
19
13 10 56.29
1.7800
0 15 0.9
14.069
30
10 47 30.30
1.6441
11 6 53.8
18.867
30
12 13 40.67
1.7306
N. 0 0 56.0
144)80
31
10 49 10.83
1.8403
10 53 39.8
18.400
31
13 14 35.03
1.7891
S. 0 13 8.7
144Q7
33
10 51 1.13
1.8806
10 40 4.8
18.483
33
13 16 9.36
1.7887
0 37 13.3
144n4
33
10 53 51.31
1.8898
10 36 37.8
13.400
33
13 17 53.68
1*7384
0 41 17.4
144)60
34
10 54 41.07
1.8903
N.IO 13 8.9
13.496
34
13 19 37.98
1.7888
S. 0 55 31.3
144)09
VI.
AUGUST, 1856.
133
GREENWICH MEAN TIME.
THB MOON'S RIGHT
ASCENSION AND DECLINATION.
Hoar.
BlshtAMMdon.
forlm.
DUt
fiorlm.
4
Uoor
Right AMeoflioD.
DUL
for 1 m.
DUL
fbrlm.
TU
ESDA
Y 6.
THURSDAY 7.
h. m. t.
1.
O * ff
«
h. m. 1.
0.
O 1 H
M
0
12 19 37.98
1.7S89
S. 0 55 21.3
14U)09
0
13 44 17.85
1.8181
S.ll 51 10.4
19.008
1
12 21 22.27
1.7189
1 9 24.8
IAM6
1
13 46 7.04
1.8916
12 4 9.1
19J)66
s
12 23 6.56
1.7189
1 23 27.9
HMO
2
13 47 56.44
1.8969
12 17 5.4
19.9n
3
12 24 50.86
1.718S
1 37 30.7
14.049
3
13 49 46.06
1.8988
12 29 59.2
13.878
4
12 26 35.16
1.1188
1 51 33.0
144)88
4
13 61 35.90
1.8896
12 42 50.5
19.8U
5
12 28 19.46
1.788ft
2 5 34.7
14.098
5
13 53 25.96
1.886S
12 55 39.3
19.791
6
12 30 3.78
1.7880
2 19 35.8
14U)18
6
13 55 16.25
1.8401
13 8 25^
13.747
7
12 31 48.13
1.7108
2 33 36.3
lum
7
13 57 6.77
1.8440
13 21 9.0
13.703
8
12 33 32.50
1.7807
2 47 36.2
itjsn
'8
13 58 57.53
1.8470
13 33 49.8
13.607
9
12 35 16.89
1.7409
3 1 35.5
18.089
9
14 0 48.53
1.8690
13 46 27.9
13.611
10
12 37 1.32
1.7408
3 15 34.1
18.971
10
14 2 39.78
1.8669
13 59 3.2
19.664
11
12 38 45.79
1.7414
3 29 32.0
18.968
11
14 4 31.28
1.8604
14 11 35.6
134116
12
12 40 30.29
1.7491
3 43 29.1
18.944
12
14 6 23.03
1.8047
14 24 5.1
13.407
13
12 4^ 14.83
1-7490
3 57 25.3
18.999
13
14 8 15.04
1.8601
14 36 31.7
13.418
14
12 43 59.43
1.7488
4 11 20.6
18.014
14
14 10 7.32
14780
14 48 55.4
19.868
15
12 45 44.09
1.7448
4 25 15.0
18.800
15
14 11 59.87
1^781
15 1 16.0
19.817
16
12 47 28.81
1.7498
4 39 8.5
18.884
16
14 13 52.69
1.8896
15 13 33.5
1X966
17
12 49 13.59
1.7400
4 53 1.0
18.807
17
14 15 45.78
1.8879
15 25 47.8
19.919
\ 18
12 50 58.44
1.7480
5 6 52.5
18.840
18
14 17 39.15
1.8018
15 37 58.9
19.168
19
12 52 43.36
1.7409
5 20 42.9
18.890
19
14 19 32.80
16006
15 50 6.8
13.104
20
12 54 28.35
1.7fi05
6 34 32.1
18.811
20
14 21 26.74
1.9014
16 2 11.4
134)48
21
12 56 13.42
1.7610
5 48 20.2
18.701
21
14 23 20.98
1.0064
16 14 12.6
11.999
1 22
12 57 58.58
1.7184
6 2 7.1
18.770
22
14 25 15.52
1-0114
16 26 10.4
11.984
23
12 59 43.83
WED
1.7100
NESD
S. 6 15 52.7
AY 6.
18.700
23
14 27 10.36
Fi
1-0164
tIDAY
S.16 38 4.7
8.
11.876
0
13 I 29.18
1.7091
S. 0 29 37.1
18.730
0
14 29 5.49
1.9916
S.16 49 55.4
11.81*6
1
13 3 14.63
1.7084
6 43 20.2
11.707
1
14 31 0.93
1.9967
17 1 42.5
11.766
2
13 5 0.18
L7aoi
6 57 1.9
18.084
2
14 32 56.69
1.9820
17 13 26.0
11.004
3
13 6 45.84
1.7610
7 10 42.2
18.000
3
14 34 52.77
1.9878
17 25 5.8
11.689
4
13 8 31.61
1.7086
7 24 21.1
18.686
4
14 36 49.17
1.9497
17 36 41.8
11.668
5
13 10 17.50
1.7008
7 37 58.5
18.610
5
14 38 45.89
1.9461
17 48 14.0
11.608
6
13 12 3.51
1.7070
7 51 34.3
18.664
6
14 40 42.94
14)686
17 59 42.3
11.488
7
13 13 49.65
1.7709
8 5 8.6
18.607
7
14 42 40.32
1.9599
18 11 6.6
11479
8
13 15 35.93
1.7796
8 18 41.2
18.600
8
14 44 38.04
1.9648
18 22 26.9
11.806
0
13 17 22.35
1.7747
8 32 12.2
18.609
9
14 46 36.09
14)704
18 33 43.2
11.937
10
13 19 8.90
1.7771
8 45 41.5
18.474
10
14 48 34.48
14r761
18 44 55.4
11.168
11
13 20 55.60
1.7706
8 59 9.1
18.440
11
14 50 33.22
1.0890
18 56 3.5
114)08
12
13 22 42.45
1.7891
9 12 34.9
18416
12
14 52 32.32
1.0879
19 7 7.3
114)97
13
13 24 29.45
1.7847
9 25 58.9
18.884
13
14 54 31.77
1.8988
19 18 6.8
10.966
14
13 26 16.61
1.7878
9 39 21.0
18.869
14
14 56 31.57
1.8097
19 29 1.9
10.881
15
13 28 3.93
1.7000
9 52 41.2
18.890
15
14 58 31.73
34)097
19 39 52.5
10.800
16
13 29 51.42
1.7098
10 5 59.5
18.968
16
15 0 32.25
94)118
19 50 38.6
10.780
17
13 31 39.08
1.7»a7
10 19 15.8
18.y64
17
15 2 33.14
34)179
20 1 20.1
10468
18
13 33 26.91
1.7087
10 32 30.0
18.910
18
15 4 34.41
94)940
20 11 57.0
10.676
19
13 35 14.92
1.8018
10 45 42.1
18.184
19
15 6 36.04
34)808
20 22 29.2
10.497
20
13 37 3.12
1.8040
10 58 52.1
13.140
20
15 8 38.05
34)866
20 32 66.7
io.4n
21
13 38 51.51
1.8081
11 12 0.0
18.114
21
15 10 40.44
34)499
20 43 19.3
10.886
22
13 40 40.09
1.8111
11 25 5.8
184m
22
15 12 43.21
34)408
20 53 36.9
10.969
23
13 42 28.87
1.8147
11 38 9.3
18408
23
15 14 46.36
34)667
21 3 49.6
10.108
l"
13 44 17.85
1.8181
S.ll 51 10.4
19.008
24
15 16 49.90
94)699
S.21 13 57.1
104)84
134
AUGUST, 1856.
VII
GREENWICH MEAN TIME.
THE MOON'S EIGHT
ASCENSION AND DECLINATION.
Hoar.
DHL
forlm.
DwUmtloii.
Diflr.
for 1 m.
Hour.
iNir.
for 1 m.
DlflL
forlm.
SATURDAY 9.
MONDAY
11.
h. m. 0.
•.
O 1 »
N
h. m. 1.
0.
O 1 H
ff
0
15 16 49.90
S.0899
S.21 13 57.1
10.084
0
17 3 43.73
94908
S.27 16 62.2
4.098
1
15 18 53.83
%OKJ
21 23 59.6
9.908
1
17 6 7.37
94971
27 21 20.1
4401
9
15 20 58.15
unn
21 33 66.9
9.911
2
17 8 31.38
94089
27 25 39.1
4.949
3
16 23 2.87
941890
21 43 48.9
9.899
3
17 10 66.76
34099
27 29 40.1
AJOM
4
16 25 7.99
34687
21 53 35.6
9.788
4
17 13 20.50
94156
27 33 60.1
t.941
5
15 27 13.51
%tmi
22 3 17.0
9448
6
17 15 45.60
94918
27 37 42.0
8.7)88
6
16 29 19.43
a.i(»o
22 12 52.9
9459
6
17 18 11.06
' 94*78
27 41 24.7
8.684
7
15 31 25.75
3.1067
22 22 23.3
9U60
7
17 20 36.88
9.4839
27 44 58.1
8470 '
8
15 33 32.48
3.1106
22 31 48.0
946^
8
17 23 3.05
9.4890
27 48 22.2
S494 1
9
15 35 39.62
9.1904
22 41 7.0
9.969
9
17 25 29.56
9.4446
27 51 37.0
8.187 i
10
15 37 47.17
3.1994
22 50 20.3
9.178
10
17 27 56.40
94501
27 64 42.3
14)09 .
11
15 39 65.13
3. 1960
22 59 27.8
0.075
11
17 30 23.57
94655
27 67 38.1
9.861
13
15 42 3.49
3.1499
23 8 29.4
8.975
12
17 32 61.06
94600
28 0 24.4
9491
13
15 44 12.27
3.1498
23 17 24.9
8474
13
17 35 18.87
94669
28 3 1.0
9499 j
14
15 46 21.47
9.1668
23 26 14.3
8.779
14
17 37 47.00
94714
28 6 27.9
1
9466 ,
15
15 48 31.09
9.ieS8
23 34 57.6
8.970
15
17 40 15.44
94766
28 7 45.0
9.901
16
15 50 41.13
9.n08
23 43 34.7
8467
16
17 42 44.18
94814
28 9 62.1
94.6!
17
15 52 51.59
9.1778
23 52 6.6
8463
17
17 45 13.21
94869
28 11 49.3
1.871 '
18
15 55 2.47
9.1849
24 0 30.2
8.355
18
17 47 42.52
94908
28 13 36.6
1.705
19
15 67 13.78
9.19«
24 8 48.3
8.947
19
17 60 12.11
94056
28 15 13.9
1418
20
15 59 25.51
9.1990
24 16 59.8
8.ir
20
17 52 41.98
94001
28 16 41.2
14IO
21
16 1 37.66
9.9060
24 25 4.7
84)96
21
17 55 12.12
94046
28 17 68.3
1.199 i
22
16 3 50.23
9.9U1
24 33 2.9
7.914
22
17 57 42.53
9.6089
28 19 5.1
l^X
23
16 6 3.23
SU]
9.9303
raAY
S.24 40 64.3
10.
7401
23
18 0 13.19
TUl
94180
2SDA^
S.28 20 1.7
' 12.
0497
1
1
0
16 8 16.65
9.9979
S.24 48 38.9
7487
0
18 2 44.09
9.5170
S.28 20 48.0
0485 1
1
16 10 30.49
9.3844
24 66 16.7
7471
1
18 6 15.23
9.6900
28 21 23.9
0419 ^
2
16 12 44.75
9.9419
26 3 47.6
7064
2
18 7 46.60
94947
28 21 49.4
0498
3
16 14 69.43
9.9489
25 11 11.2
7485
3
18 10 18.19
94388
28 22 4.4
0.168
4
16 17 14.53
9.95M
25 18 27.7
7.914
4
18 12 49.99
94819
28 22 8.9
0419 1
5
16 19 30.06
9.9698
26 25 36.9
7409
5
18 15 22.01
9.5853
28 22 2.9
0.187
6
16 21 46.01
9.960S
25 32 38.8
6.970
6
18 17 54.23
94884
28 21 46.4
0464 '
7
16 24 2.38
9.9763
25 39 33.3
64n
7
18 20 26.63
94415
28 21 19.2
04a ,
8
16 26 19.17
9.9688
25 46 20.4
6.799
8
18 22 69.21
944U
28 20 41.3
0.799 '.
9
16 28 36.38
9.9908
25 52 59.9
6405
9
18 25 31.96
9.5479
28 19 52.6
0401 '
10
16 30 54.01
a.9979
25 69 31.8
6407
10
18 28 4.88
34499
28 18 53.2
1479 i
11
16 33 12.06
94048
26 5 65.9
6487
11
18 30 37.95
94698
28 17 43.1
1458 1
12
16 35 30.53
94118
26 12 12.2
6.907
12
18 33 11.16
94648
28 16 22.2
1438 ,
13
16 37 49.43
94189
26 18 20.7
6476
13
18 35 44.51
94560
28 14 60.6
1419 '
14
16 40 8.73
94450
26 24 21.3
6448
14
18 38 17.99
94591
28 13 7.9
1400 '
16
16 42 28.43
94317
26 30 13.9
6408
16
18 40 51.60
94610
28 11 14.6
1461 1
16
16 44 48.54
94385
26 35 58.3
5479
16
18 43 26.32
94698
28 9 10.2
9.169 1
17
16 47 9.05
94459
26 41 34.5
5485
17
18 45 59.14
94645
28 6 65.0
9444 1
18
10 49 29.96
94518
26 47 2.5
5497
18
18 48 33.06
94661
28 4 28.9
9496
19
16 51 51.27
94584
26 52 22.1
6*357
19
18 51 7.07
94674
28 1 51.9
9.709 1
20
16 54 12.98
94650
26 67 33.3
6*116
20
18 53 41.15
9.5686
27 59 3.9
1
9499
21
16 56 35.09
94715
27 2 36.0
4*978
21
18 56 15.30
94607
27 56 4.9
8476
22
16 68 67.59
94780
27 7 30.1
4429
22
18 68 49.51
3.1706
27 52 55.0
8.9» '
23
17 1 20.47
94844
27 12 15.6
4484
23
19 1 23.77
94714
27 40 34.1
8441
24
17 3 43.73
94808
S.27 16 62.2
4488
24
19 3 68.08
34731
S.27 46 2.1
3495
VIII.
AUGUST, 1856.
135
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Dilt
forlm.
BwHnattnn
IMSl
forlm.
Hoar.
RichtAMMdon.
DUL
forlm.
DUL
forlm.
WEDI
^ESDI
LY 18.
FRIDAY
15.
h. m. s.
t.
O 1 «
N
h. m. t.
■•
O 1 •
H
0
19 3 58.08
9jrm
S.27 46 2.1
8.098
0
21 6 38.57
9.4871
s.21 27 38.4
11481
1
19 6 32.42
9.9796
27 42 19.1
8.809
1
21 8 5.86
9.4896
21 15 44.2
11470
s
19 9 6.78
9.0780
27 38 25.1
S.90S
2
21 10 32.88
9.4481
21 3 41.3
19.190
3
19 11 41.17
9.0789
27 34 20.0
4.177
3
21 12 59.63
9.4487
20 51 29.8
19409
4
19 14 15.57
%efm
27 30 3.8
4.801
4
21 15 26.12
9.4899
20 39 9.9
19401
5
19 16 49.96
9.8780
27 25 36.6
4.848
5
21 17 52.33
9.4846
20 26 41.7
19488
6
19 19 24.33
9.8728
27 20 58.4
4.799
6
21 20 18.26
9U998
20 14 5.3
19478
7
19 21 58.68
9.87.M
27 16 9.2
4.919
7
21 22 43.91
9.4969
20 1 20.7
19410
8
19 24 33.01
9.47 19
27 11 9.0
84M
8
21 25 9.29
9U907
19 48 28.0
19444
9
19 27 7.31
9.6719
27 5 57.9
8.977
9
21 27 34.39
9U100
19 35 27.3
18477
iO
19 29 41.55
9.8709
27 0 35.8
8.489
10
21 29 59.21
9.4118
19 22 18.7
18.908
11
19 32 15.73
9.8091
26 55 2.8
8.041
11
21 32 23.75
9.4008
19 9 2.3
13487
12
19 34 49.84
9.8079
26 49 18.9
8.839
12
21 34 48.00
9.4018
18 55 38.2
18.404
13
19 37 23.88
9JW67
26 43 24.1
04(M
13
21 37 11.97
9.3979
18 42 6.6
18468
14
19 39 57.85
9.8088
26 37 18.4
0.188
14
21 39 35.66
94990
18 28 27.6
13.719
15
19 42 31.74
9.8041
26 31 1.9
0.808
15
- 21 41 59.08
94879
18 14 41.2
13434
16
19 45 5.54
9.8098
26 24 34.6
0.848
16
21 44 22.21
94839
18 0 47.5
13.984
17
19 47 39.24
9.8007
26 17 56.8
0.798
17
21 46 45 06
94785
17 46 46.7
14479
18
19 50 12.83
9.8860
26 11 7.8
0.904
18
21 49 7.63
94738
17 32 38.9
14.188
19
19 52 46.31
9.8870
26 4 8.2
7489
19
21 51 29.92
94099
17 18 24.0
14403
30
19 55 19.67
9.8849
25 56 58.0
7.989
20
21 53 51.93
94040
17 4 2.4
14410
21
19 57 52.90
9.88«7
25 49 37.2
7^80
21
21 56 13.66
94899
16 49 34.1
14497
22
20 0 25.99
9.8801
25 42 5.8
7-019
22
21 58 35.11
94859
16 34 59.2
14480
23
20 2 58.93
THD
9.8478
RSDA
S.25 34 23.8
Y 14.
7.787
23
22 0 56.29
SAT
94807
URDA
S.19 20 17.8
Y 16.
14.748
0
20 5 31.72
9.8189
S.25 26 31.3
7J01
0
22 3 17.20
94409
S.16 5 30.0
14449
I
20 8 4.36
9.8198
25 18 28.4
8.138
1
22 5 37.84
94410
15 50 35.9
14483
2
20 10 36.83
9.8197
25 10 15.1
8J08
2
22 7 68.20
9.3870
15 35 35.7
18468
3
20 13 9.13
9.8807
25 1 51.4
8.481
3
22 10 18.28
94894
15 20 29.5
18.184
4
20 15 41.25
9.8887
24 53 17.4
8.089
4
22 12 38.09
94980
15 5 17.3
18.969
6
20 18 13.19
9.8807
24 44 33.2
8.891
5
22 14 57.64
94986
14 49 59.3
18447
6
20 20 44.94
9.8978
24 35 38.9
8.990
6
22 17 16.93
94199
14 34 35.7
15441
7
20 23 16.49
9.8949
24 26 34.5
9.188
7
22 19 35.95
94148
14 19 6.4
18.883
8
20 25 47.84
9.8908
24 17 20.0
9.898
8
22 21 54.71
94106
, 14 3 31.7
18498
9
20 28 18.99
9-8174
24 7 55.5
9.491
9
22 24 13.22
94008
13 47 51.6
18.711
10
20 30 49.93
9.8189
23 58 21.1
9.080
10
22 26 31.47
9.1091
13 32 6.3
18.797
11
20 33 20.66
9.8103
23 48 36.9
9490
11
22 28 49.47
94979
13 16 15.9
16489
12
20 35 51.17
9.8008
23 38 42.8
9.988
12
22 31 7.22
9.9937
13 0 20.4
16.904
13
20 38 21.45
9.8097
23 28 39.0
10.144
13
22 33 24.72
9.9897
12 44 20.0
10.044
14
20 40 51.50
9.4980
23 18 25.6
10.808
14
22 35 41.98
9.9887
12 28 14.9
10.193
15
20 43 21.32
9.4950
23 8 2.6
10.409
15
22 37 59.00
9.9817
12 12 5.2
10.900
16
20 45 50.90
9.4010
22 57 30.1
10.090
16
22 40 15.78
94777
11 55 50.9
10.970
17
20 48 20.24
9.4870
22 46 48.2
10.770
17
22 42 32.32
9.9788
11 39 32.2
16449
18
20 50 49.34
9.4899
22 35 57.0
10.931
18
22 44 48.63
9.9700
11 23 9.0
10.490
1 19
20 53 18.19
9.4787
22 24 56.5
11484
19
22 47 4.72
9.9083
11 6 41.7
10.488
1 20
20 55 46.78
9.4744
22 13 46.9
11.880
20
22 49 20.59
9.9097
10 50 10.4
10484
21
20 58 15.11
9.4701
22 2 28.2
11480
21
22 51 36.24
9.9890
10 33 35.2
10419
22
21 0 43.19
9.4088
21 51 0.5
11488
22
22 53 51.67
94888
10 16 56.1
10489
23
21 3 11.01
9.4018
21 39 23.9
11484
23
22 56 6.88
94817
10 0 13.3
10.748
24
21 5 38.57
9.4871
S.21 27 38.4
11411
24
22 58 21.88
9.9484
S. 9 43 26.8
10408
136
AUGUST, 1856.
IX
GREENWICH
MEAN TIME.
. THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hoar.
Diff.
forlm.
Dacliofttion.
DUE.
forlm.
Hoar.
Right AMMulon.
Mir.
forlm.
DeeUnaliea.
for 1 m.
SUNDAY
17.
TUESDAY 19.
h. m. f.
s.
O 1 If
«
h. m. 1.
M.
O 1 u
«
0
33 58 31.88
9.9484
S. 9 43 36.8
16.803
0
0 43 43.98
9.1789
N. 4 14 81.4
17.809
1
33 0 36.68
9.3451
9 36 36.8
16.861
1
0 45 54.38
9.1787
4 31 43.8
njui
3
33 3 51.38
9.0118
9 9 43.4
16.917
3
0 48 4.83
9.1748
4 49 3.0
n.si9
3
33 5 5.69
9.9885
8 53 46.7
16.970
3
0 50 15.30
. 9.1749
5 6 80.7
nsn
4
33 7 19.90
9.9S53
8 35 46.9
174)19
4
0 53 85.83
9.n56
5 83 36.8
nj989
5
33 9 33.93
9.9899
8 18 44.3
17.067
5
0 64 36.38
9.1788
5 40 49.4
n.900
6
83 11 47.76
9.9399
8 I 38.8
17.114
6
0 56 46.98
9.1771
5 58 0.8
n.i<e
7
33 14 1.43
9.9969
7 44 30.5
17.160
7
0 58 57.63
9.1780
6 15 8.4
17.114
8
33 16 14.90
9.9989
7 37 19.5
17.904
8
1 1 8.34
9.1791
6 38 13.9
n^Mo
9
33 18 38.31
9.9904
7 10. 6.0
17.345
9
1 3 19.18
9.1808
6 49 16.7
174H1
10
33 30 41.35
9.9176
6 53 50.1
17.985
10
1 6 89.98
9.1815
7 6 16.6
M.978
11
33 83 54.33
9.9149
6 35 31.8
17.838
11
1 7 40.91
9.1838
7 83 13.5
18.094
13
33 35 7.14
9.9193
6 18 11.3
17.859
13
1 9 51.93
9.1849
7 40 7.5
16.87S
13
33 37 19.80
9.9098
6 0 48.7
17.893
13
1 13 3.01
9.18S6
7 56 68.3
I«i819
14
33 39 33.31
9.9074
5 43 84.8
17.438
14
1 14 14.19
9.1873
8 13 45.8
16.768
15
33 31 44.68
9.9080
5 35 57.9
17.458
15
1 16 85.47
9.1888
8 30 89.9
16.706
16
33 33 56.91
9.9037
5 8 39.8
17.481
16
1 18 36.85
9.1905
8 47 10.6
16^48
17
33 36 9.01
9.9006
4 51 0.1
17.507
17
1 30 48.33
9.1993
9 3 47.8
16.569
18
33 38 30.98
9.1984
4 33 38.9
17.581
18
1 33 59.91
9.1089
9 80 81.3
16.597
19
33 40 33.88
9.196S
4 15 56.3
17.558
19
1 35 11.60
9.1967
9 36 51.0
16.488
30
33 43 44.54
9.1943
3 58 33.5
17.678
80
1 37 33.40
9.1977
9 53 16.8
16.S98
31
33 44 56.14
9.1994
3 40 47.5
17.603
81
1 39 35.33
9.1997
10 9 38.7
16.839
33
83 47 7.63
9.1907
3 33 11.4
17.609
88
1 31 47.37
9.9018
10 85 56.6
16.964
33
83 49 18.03
MO
9.1800
NDAY
S. 3 5 34.4
18.
17.688
83
1 33 59.54
WEDl
9.9089
N.10 48 10.4
^Y 20.
16.195
0
83 51 30.31
9.1878
S. 8 47 56.6
17.686
0
1 36 11.84
9.9069
N.10 58 80.0
16.194
I
33 53 41.50
9.1897
8 30 18.3
nM5
1
1 38 34.88
9.9085
11 14 85.3
16.051
8
83 65 63.59
9.1819
8 13 39.3
17.654
8
1 40 36.86
9.9108
11 30 80.1
15.976
3
83 58 3.60
9.1839
1 54 59.7
n.661
3
1 48 49.58
9.3183
11 46 83.3
15.608
4
0 0 14.54
9.1816
1 37 19.8
17.666
4
1 45 8.44
9.9157
18 8 13.9
15.831
6
0 8 35.40
9.1804
1 19 39.7
n.669
5
1 47 15.45
9.9189
18 18 0.8
15.749
6
0 4 36.19
9.1793
1 1 59.5
17.671
6
1 49 88.68
9J3908
18 33 48.9
15.661
7
0 6 46.91
9.1763
0 44 19.3
17.671
7
1 51 41.95
9.9985
18 49 80.1
15.579
8
0 8 57.57
9.1773
0 36 39.0
17.669
8
1 53 55.44
9.9969
13 4 53.4
15.406
9
0 11 8.18
9.1764
S. 0 8 59.0
17.664
9
1 56 9.10
9.9990
13 80 19.6
15.410
10
0 13 18.74
9.1756
N. 0 8 40.7
17.697
10
1 58 88.93
9.9818
13 35 41.7
15.8^
11
0 15 89.35
9.1748
0 36 19.9
17.648
11
8 0 36.93
9.9847
13 50 68.5
16.3U
13
0 17 39.78
9.1741
0 43 58.5
17.688
18
8 8 61.10
i.98n
14 6 9.9
15.145
13
0 19 50.15
9.1786
1 1 36.5
17.697
13
8 5 5.45
9.9407
14 81 15.9
150)64
14
0 38 0.55
9.1789
1 19 13*.8
n^ll4
14
8 7 19.98
9.9437
14 36 16.4
14.969
15
0 84 10.93
9.1738
1 36 50.3
17.509
15
8 9 34.70
9.9109
14 51 11.3
14.868
16
0 36 31.39
9.1796
1 54 85.8
17.583
16
8 11 49.61
9.9S03
15 6 0.5
14.TJ9
17
0 38 31.63
9.1799
8 18 0.1
17.569
17
8 14 4.73
9^3585
15 80 43.9
14.675
18
0 30 41.95
9.1790
8 39 33.8
17.541
18
8 16 80.03
9.9568
15 35 81.5
14.577
19
0 38 59.87
9.1719
8 47 5.0
17.518
19
8 18 35.54
9.9603
15 49 53.8
14.477
30
0 35 3.59
9.1790
8 4 35.4
17.494
80
8 30 51.35
9.3635
16 4 18.8
14.875
31
0 37 13.93
9.1739
3 88 4.4
17.469
81
3 33 7.16
9.3669
16 18 38.8
14.979
33
0 39 33*36
9.1734
3 39 31.9
17.448
83
8 35 33.38
9.3705
16 33 51.4
14.167
33
0 41 33.61
9.1737
3 56 57.6
17.414
83
8 87 39.63
9.3743
16 46 58.3
14.063
34
0 43 43.98
9.1789
N. 4 14 81.4
17.383
34
8 39 56.18
9.9T78
N.17 0 58.9
18.ft56
X.
AUGUST, 1856.
131
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
noor.
1
Ttlghk kmmmkm
DHL
forlm.
PtIImHoq
forlm.
noor.
Rlfh«Aie0Biioii.
DUL
forlm.
DHL
forlm.
THURSDAY 21.
SATURDAY 23.
h. B. t.
1.
O 1 ff
u
h. m. •.
s.
O f «
$1
0
9 39 56.18
13778
N.17 0 58.9
13.956
0
4 33 33.36
94501
NJ25 43 19.5
7480
1
3 33 13.96
3.3815
17 14 53.1
1
4 36 0.45
94538
35 50 37.5
7.319
8
3 34 39.96
9.3853
17 38 40.7
13.738
8
4 38 87.70
9.4554
25 57 45.8
70)57
3
3 36 47.16
a.3888
17 43 81.7
UMH
3
4 30 55.10
94579
26 4 44.4
6405
4
3 39 4.63
9.393d
17 55 56.0
13415
4
4 33 83.65
3.4604
36 11 33.2
6.733
5
3 41 33.38
9.3963
18 9 33.5
13400
5
4 35 50.35
94698
36 18 12.2
6.568
6
3 43 40.16
9.9898
18 33 44.1
13.385
6
4 38 18.19
94651
36 34 41.3
0404
7
3 45 58.36
940S5
18 35 57.7
13.168
7
4 40 46.17
94673
36 31 0.6
6.340
8
3 48 16.58
9.9073
18 49 4.3
1S4M0
8
4 43 14.38
94095
86 37 10.0
OU)75
9
3 50 35.13
9J110
19 3 3.8
134S1
9
4 45 43.51
94715
86 43 ^.6
5.910
10
3 53 53.89
9J148
19 14 56.1
13411
10
4 48 10.86
94734
86 48 59.2
5.744
11
3 55 13.89
94185
19 37 41.1
13400
11
4 50 39.32
9.4753
26 54 38.8
5.577
13
3 57 33.11
94333
19 40 18.8
13.587
13
4 53 7.88
9.4760
87 0 8.4
5.400
13
3 59 51.56
94961
19 53 49.1
13443
13
4 55 36.55
34786
87 5 87.9
5.341
14
3 8 11.34
94399
80 5 11.8
13415
14
4 58 5.31
94801
87 10 37.3
5.078
15
3 4 31.15
94117
30 17 36.9
13.187
15
5 0 34.16
94815
87 15 36.6
4.905
16
3 6 51.39
94976
30 39 34.3
13450
16
5 3 3.09
948-29
87 80 85.8
4.736
17
3 9 11.66
94415
30 41 34.0
11.930
17
5 5 33.10
94843
87 35 4.9
4.567
18
3 U 33.37
94454
30 53 85.9
11.790
18
5 8 1.19
24853
87 29 33.8
4497
19
3 13 53.11
94193
31 5 9.9
11466
19
5 10 30.35
9.4863
87 33 53.5
4.337
30
3 16 14.18
94511
31 16 45.9
11.583
30
5 13 59.56
94873
87 38 1.0
4Mn
31
3 18 35.48
94570
81 38 13.8
11497
31
5 15 28.81
94879
87 41 59.3
8.887
33
3 30 57.03
94609
31 39 33.6
11.993
33
5 17 58.11
34886
37 45 47.3
8.710
S3
3 33 18.79
94917
N51 50 45.3
1M9S
33
5 30 37.44
94890
N.37 49 35.1
8445
FB
XD\Y
29.
SUI
WAY
24.
0
3 35 40.79
9J6B5
N.38 1 48.8
10J89
0
5 38 56.79
94804
N57 58 53.7
8474
1
• 3 38 3.08
94798
33 13 44.0
10450
1
5 85 86.16
94887
37 56 10.1
3.308
8
3 30 35.47
94761
38 83 30.8
10.710
8
5 37 55.55
94900
37 59 17.2
8.033
3
3 33 48.15
94799
33 34 9.3
10469
3
5 30 34.96
94903
28 8 14.0
3.861
4
3 35 11.06
946S7
83 44 39.1
10437
4
5 33 54.38
94901
38 5 0.5
2.690
5
3 37 34.19
94874
33 55 0.4
10.381
5
5 35 33.78
94899
88 7 36.7
2.519
6
3 39 57.55
94910
33 5 13.1
10.199
6
5 37 53.17
94897
88 10 3.7
9448
7
3 43 31.13
94916
33 15 17.1
9494
7
5 40 83.54
94898
88 13 18.5
2.177
8
3 44 44.93
94983
83 35 18.4
9.918
8
5 43 51.89
94889
88 14 84.0
2.006
9
3 47 8.93
9.4018
83 34 58.9
9.701
9
5 45 81.31
94883
88 16 19.3
1435
10
3 49 33.16
94064
33 44 36.5
9459
10
5 47 50.48
94874
88 18 4.3
1464
11
3 51 57.60
94090
33 54 5.1
0.403
11
5 50 19.70
94a66
38 19 39.0
1498
13
8 54 33.35
94135
84 3 84.7
9.959
13
5 53 48.86
94855
38 81 3.5
1438
13
3 56 47.11
94160
84 13 35.3
9.101
13
5 55 17.96
34843
38 83 17.8
1.158
14
3 59 13.17
94194
84 81 36.8
8.949
14
5 57 46.98
94830
38 83 31.9
0483
15
4 1 37.43
94397
84 30 89.3
8.797
15
6 0 15.92
94816
88 34 15.9
0414
16
4 4 3.89
94960
84 39 13.4
8.6U
16
6 2 44.77
94801
38 34 59.7
0445
17
4 6 38.55
94398
34 47 46.3
8.488
17
6 5 13.53
24785
88 85 33.3
0476
18
4 8 54.41
94S35
34 56 10.9
8493
18
6 7 43.19
9.4768
88 85 56.8
0407
19
4 U 30.46
94957
35 4 36.1
8.174
19
6 10 10.75
94750
88 86 10.3
0.139
30
4 13 46.60
94887
3:> 13 31.8
8416
30
6 13 39.19
94790
38 36 13.5
0.039
31
4 16 13.10
94416
35 30 38.0
7456
81
6 15 7.51
94700
38 86 6.7
0.196
33
4 18 39.68
94445
35 38 14.7
7489
33
6 17 35.70
94686
28 25 49.9
0463
33
4 31 6.44
9447S
35 35 51.9
7440
33
6 80 3.75
24603
28 25 33.1
0430
34
4 33 33.36
94601
NJ35 43 19.5
7480
84
6 33 31.65
34638
Ni28 34 46.3
0407
18
138
AUGUST, 1856.
XI.
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Right Aaoandon.
forlm.
Dur.
for 1 m.
Hoar.
DUr.
forlm.
DML '
forlm.
MO
NDAY
25.
WEDNESDAY 27.
h. m. •.
•.
O t U
«
h. m. f.
t.
O i $1
g
0
6 22 31.65
iM»
N.28 24 46.3
0.007
0
8 16 4.05
3.3881
NJ^i 54 16.7
7.708
1
6 24 59.41
1U613
28 23 59.5
0.863
1
8 18 18.15
3.3310
34 46 30.9
7.aS8
3
6 27 97.01
iMU
28 23 2.8
}jm
3
8 SO 31.87
3.3367
34 38 37.9
7.043
3
6 29 54.44
S.4A&7
28 21 56.2
1.10^2
3
6 33 45.33
9.3106
34 30 37.8
84M0
4
6 32 21.70
SUiMB
28 20 39.8
1.355
4
8 34 58.33
S.31S4
84 33 30.7
8.n6 '
6
6 34 48.78
%4m
28 19 13.6
1.618
5
8 37 10.64
9.3073
84 14 10.7
8.301 1
6
6 37 15.67
3446ft
28 17 37.6
1.081
6
8 39 33.09
3.3011
84 5 55.8
B.406
7
6 39 42.36
%44»-2
28 15 51.9
1.843
7
8 31 34.97
3.1040
33 57 38.1
8.518 1
8.
6 42 6.85
3.4396
28 13 56.5
34XM
8
8 33 46.48
9.1887
33 48 53.7
8.630
9
6 44 35.14
3.4364
28 11 51.4
3.165
9
8 35 57.61
3.1634
33 40 12.6
8.740 !
10
6 47 1.22
3.4828
28 9 36.7
3.*25
10
8 38 8.37
9.063
23 31 34.9
8.840
11
6 49 27.08
34W
28 7 12.4
3.484
11
8 40 18.76
9.1700
83 22 30.7
8.057 1
13
6 51 52.72
3.4^64
28 4 38.6
3.643
13
6 43 28.78
3.1638
33. 13 30.1
0408
13
6 54 18.13
3.4*215
28 1 55.3
3.801
13
8 44 38.42
3.1676
83 4 33.3
0.108
U
6 56 43.30
3.4114
37 59 2.5
3.066
14
8 46 47.69
3.1614
33 55 10.1
0.971 1
15
6 59 8.23
S.4IS6
37 56 0.2
3.115
15
8 48 56.59
9.1463
32 45 50.7
0J74 <
16
7 1 32.92
3.4004
27 52 48.6
3.370
16
6 51 5.11
9.1300
22 36 25.2
0.476 1
17
7 3 57.36
3.40&'2
27 49 27.8
8w|34
17
8 53 13.26
9.13-28
22 26 53.7
0.576 1
16
7 6 21.54
3.4000
27 45 67.8
8.677
18
8 55 21.05
9.1367
22 17 16.2
0.674 1
19
7 8 45.45
3.3064
27 42 18.6
3.780
19
8 57 28.47
9.1906
22 7 32.8
0.773
20
7 II 9.09
soon
27 38 30.2
3.883
30
6 59 35.52
9.1144
31 57 43.5
0.800 ;
21
7 13 32.46
3.3872
27 34 .32.7
4.083
21
0 1 42.20
9.108-2
31 47 48.4
0^05
22
7 15 55.56
3.3835
27 30 26.2
4.163
33
9 3 46.51
9.1031
21 37 47.7
I04M0
23
7 18 18.37
TUI
9.S777
ilSDAl
N.27 26 10.8
' 26.
4.383
33
9 5 54.45
THU
94000
TISDA
Nj31 37 41.4
Y 28.
10.163
0
7 20 40.89
3Jn30
N57 31 46.5
4.470
0
9 8 0.03
9J0B»
N.dl 17 89.5
N.90
1
7 23 3.12
3.30B0
37 17 13.4
4.636
1
9 10 5.24
9X688
81 7 13.3
UU8S '
2
7 25 25.05
3J630
27 12 31.5
4.773
8
9 13 10.09
941778
30 56 49.5
10.433
3
7 27 46.67
3.3A70
27 7 40.8
4.017
3
9 14 14.58
94ni8
80 46 81.4
MUlO
4
7 30 7.98
3.3M6
87 3 41.5
64M0
4
9 16 18.71
94Mao
80 35 48.1
10.607 1
5
7 32 28.98
3.S47-2
36 57 33.6
6.303
5
9 18 22.49
3.0000
30 85 9.7
M4» <
6
7 34 49.66
30419
26 52 17.1
6.845
6
9 20 25.91
34)610
80 14 86.3
10.708 1
7
7 37 10.02
3.336A
26 46 52.2
6.485
7
9 22 28.97
94)481
20 3 37.6
104^ 1
8
7 39 30.05
8.SSI0
26 41 18.9
6.635
8
9 24 31.68
34)433
19 52 44.0
104)04
9
7 41 49.75
3.S3&&
26 35 37.2
6.764
9
9 36 34.04
84)364
19 41 45.5
11.015
10
7 44 9.11
34100
26 29 47.2
6.001
10
9 38 36.05
34»07
19 30 42.2
114)04 i
11
7 46 28.14
3.3143
26 23 49.0
6.037
11
9 30 37.72
94»30
19 19 34.2
11.173
12
7 48 46.83
3.3087
26 17 42.7
6.173
13
9 32 39.05
94)103
19 8 21.6
11.340
13
7 51 5.18
3.3030
26 11 28.3
6.307
13
9 34 40.03
94)137
18 57 4.4
11.325
14
7 53 23.19
3.3074
26 5 5.9
6.440
14
9 36 40.68
94)081
18 45 42.6
11.401
15
7 55 40.87
3.WI8
35 58 35.5
6.573
15
9 38 41.00
94)0i5
18 34 16.3
11.475 ,
16
7 57 68.21
3.3HQ0
25 51 57.3
6.703
16
9 40 40.98
1.0068
18 33 45.6
n.648!
17
8 0 15.19
3.3800
25 45 11.3
6.833
17
9 42 40.62
1.0013
18 11 10.5
11.630 '
18
8 2 31.81
3.3740
25 38 17.5
6.000
18
0 44 39.93
1.0857
17 59 31.3
11.000
19
8 4 48.07
3.30HI
25 31 16.0
7.087
19
9 46 38.91
1.0803
17 47 47.7
11.7M
20
8 7 3.98
%76H
25 24 7.0
7.313
30
9 48 37.57
1.0750
17 36 0.1
n.«7
21
6 9 19.51
3.3563
25 16 50.5
7«7
31
9 50 35.91
1.0607
17 84 8.4
22
8 11 34.74
3.3At.l
25 0 26.6
7.460
32
9 52 33.93
1.06U
17 13 18.7
11411
23
8 13 49.58
3.3442
25 1 55.3
7.58^2
83
9 54 31.64
1.0flOI
17 0 13.1
194M6
24
8 16 4.05
V.-23HI
N.24 51 16.7
7703
24
9 56 39.03
1.0530
iN.16 48 9.0
19400
XII.
AUGUST, 1856.
139
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hoot.
K^htlMQikm.
IHff.
forlm.
Deelinatloii.
for 1 m.
Hour.
Right Aicaifllon.
Dur.
fbrlm.
Diff.
forlm.
FR
.ffiAY
29.
SUNDAY
81.
h. m. t.
t.
O 1 N
N
h. m. t.
•.
O 1 N
»
0
9 56 29.03
iJtOSO
N.16 48 9.6
13.090
0
11 25 22.55
1.7736
N. 6 13 55.9
18470
1
9 58 26.12
I.M87
16 36 2.3
12.153
1
11 27 8.90
1.7714
5 59 57.2
13467
9
10 0 22.90
1.MS7
16 23 51.3
12.214
2
11 28 55.12
1.7693
5 45 57.6
14408
3
10 2 19.37
I.9S86
16 11 36.6
12.375
3
11 30 41.21
1.7671
5 31 56.8
14419
4
10 4 15.53
1.0836
15 59 18.3
12^^34
4
11 32 27.18
1.7660
5 17 55.2
14468
5
10 6 11.40
1.9387
15 46 56.5
12491
5
11 34 13.03
1.7681
5 3 62.8
14.047
6
10 8 6.98
1.9J30
15 34 31.3
12.448
6
11 35 58.76
1.7613
4 49 49.6
14460
7
10 10 2.27
1.9191
15 22 2.7
12.504
7
11 37 44.38
1.7596
4 36 45.6
14472
8
10 11 67.27
1.9143
15 9 30.8
12.560
8
11 39 29.90
1.7678
4 21 40.9
14483
9
10 13 51.99
1.9097
14 56 66.5
12414
9
11 41 15.32
1.7603
4 7 35.6
14494
10
10 15 46.43
1.9000
14 44 17.0
12.667
10
11 43 0.64
1.7546
3 53 29.6
14.104
11
10 17 40.59
i4m)4
14 31 35.4
12.719
11
11 44 46.87
1.7561
3 39 23.1
14.118
12
10 19 34.48
1.6999
14 18 50.7
12.771
12
11 46 31.01
1.7516
3 25 16.1
14.121
13
10 21 28.10
1.6914
14 6 2.9
12421
13
11 48 16.06
1.7502
3 11 8.6
14.128
14
10 23 21.45
1.8810
13 53 12.2
13469
14
11 50 1.03
1.7489
2 57 0.7
14.135
15
• 10 25 14.54
1.6837
13 40 18.6
12.916
15
11 51 45.93
1.7477
2 42 52.4
14.141
16
10 27 7.37
1.8784
13 27 22.1
12.963
16
11 53 30.76
1.7465
2 28 43.8
14.146
17
10 28 59.94
1.8741
13 14 22.8
13410
17
11 65 15.52
1.7664
2 14 34.9
14.160
18
10 30 52.26
1.8009
13 1 20.8
13455
18
11 57 0.21
1.7444
2 0 26.8
14.153
19
10 32 44.33
1.86fi7
12 48 16.1
13498
19
11 58 44.84
1.7435
1 46 16.5
14.156
20
10 34 36.16
14016
12 35 8.9
13.141
20
12 0 29.42
1.7426
1 32 7.1
14.158
21
10 36 27.72
ISBTW
12 21 59.1
18.183
21
12 2 13.95
1.7418
1 17 57.6
14.160
22
10 38 19.05
14687
12 8 46.8
13*234
22
12 3 58.43
1.7410
1 3 48.0
14.161
23
10 40 10.16
14499
N.U 55 32.1
13.965
23
12 5 42.87
1.7403
N. 0 49 38.3
14.162
SAT
URDA
Y 30.
MONDi
\Y, SJ
EPT. 1.
0
10 42 1.04
10 43 61.69
1.8461
N.11 42 15.0
11 28 55.5
13405
0
12 7 27.271
1.7396|
N. 0 35 28.6|
14.163
1
14423
13443
2
10 45 42.11
14884
11 15 33.8
13480
3
10 47 32.30
14347
11 2 9.9
18.416
4
10 49 22.27
14813
10 48 43.9
18^61
6
10 51 12.04
14278
10 35 15.8
VU85
6
10 53 1.62
14214
10 21 46.7
1S419
PHASES (
OF TI
IE MOON.
7
10 64 51.00
14311
10 8 13.6
13452
8
9
10 66 40.17
10 58 29.14
14178
14145
9 54 39.6
9 41 3.5
18464
13414
10
11 0 17.91
14113
9 27 26.7
18444
Daj. h. m.
11
11 2 6.48
14081
9 13 46.2
18.^
3) First Qua
irter,
. 8 12 22
2
12
11 3 54.85
14050
9 0 5.0
13.701
O Full Moo
n, .
. 15 17 65.
3
13
11 6 43.05
14030
8 46 22.1
18.728
C Last Qua
rter, .
. 22 9 7.
8
14
11 7 31.08
1.7991
8 32 37.6
18.764
# New Moc
m, .
. 29 23 14.
2
15
16
11 9 18.94
11 11 6.64
1.7963
1.7936
8 18 51.6
8 5 4.1
18.779
18404
17
11 12 64.17
1.7907
7 51 16.1
18438
Say. h.
18
11 14 41.53
1.7880
7 37 24.7
18461
C Apogee,
,
. . 5 12.
6
19
U 16 28.73
1.7856
7 23 33.0
18478
C Perigee,
, ^
. . 17 14.
2
20
11 18 15.78
1.7830
7 9 40.0
18404
21
11 20 2.69
1.7806
6 55 45.7
18.916
22
11 21 49.46
1.7782
6 41 50.2
18.994
23
11 23 36.07
1.7759
6 27 53.6
18462
24
11 25 22.55
1.7736
N. 6 13 55.9
18.970
140
AUGUST, 185^.
XIII.
GREENWICH MEAN TIME.
LUNAR DISTANCES
.
ii
2
8tar*f NftOM
P.L.
P.L.
P.L.
P.L.
and
Nooo.
of
nih.
of
Vlh.
of
IX»^
of
Podtioii.
Di£
DUL
8401
DHL
Sun
W.
O 1 II
18 67 25
8413
20 19 28
8406
O 1 «
21 41 38
O 1 M
23 3 63
8889
Spica
Mtn
E.
53 14 45
9937
61 43 1
9086
60 11 27
9944
48 40 4
9969
K.
62 32 22
ilSO
61 4 49
8189
69 37 27
8148
68 10 16
8187
Antaret
E.
99 8 8
9997
97 36 21
9983
96 4 44
9943
94 33 18
99»
8
Son
W.
89 55 21
SI04
31 17 33
8408
32 39 41
8411
34 I 45
8418
Spica
Mara
E.
41 5 40
9991
39 35 16
9998
38 6 1
8000
36 34 65
10 18
E.
60 66 49
S197
49 30 36
8304
48 4 32
8919
46 38 37
13W 1
Antarea
E.
86 68 32
9987
85 28 3
99*4
83 67 43
8001
82 27 32
MOB
4
Sun
W.
40 51 0
UU
42 12 38
8488
43 34 12
8441
44 66 49
1448
Spica
Man
E.
29 6 29
1044
27 37 11
8060
26 7 59
8060
24 38 65
1081
E.
39 30 59
t960
38 6 49
8966
36 40 45
89S1
36 16 48
1300
Antarea
E.
74 58 28
KM
73 29 0
8041
71 60 38
8047
70 30 22
1081
a AquilB
£.
120 13 1
4317
119 4 61
4189
117 66 16
Aim
116 47 13
418T
5
Sun
W-
61 42 21
S4aB
63 3 32
8469
64 24 42
8460
66 46 60
8481 1
Man
E.
28 12 15
1184
26 47 45
8187
26 23 18
8180
23 58 54
1190 1
Antarea
E.
63 6 16
•087
61 36 25
8009
60 7 38
80f71
68 38 63
1071 1
a Aquiba
E.
110 66 37
4018
109 45 35
4998
108 34 18
4009
107 22 47
1988
6
Sun
W.
62 31 29
t481
63 62 37
8468
66 13 48
8480
66 36 1
M8t
Antarea
E.
61 16 27
a0f74
49 46 46
8078
48 18 3
8019
46 40 19
wn
a Aqoila
E.
101 22 4
1919
100 9 24
8980
98 66 35
8933
97 43 38
nil ,
7
Son
W.
73 21 66
8410
74 43 32
8480
76 6 15
8484
77 27 4
MB '
Anurea
E.
39 24 66
806ft
37 65 51
8060
36 26 40
8046
34 67 23
MM
a Aquils
E.
91 37 4
3884
90 23 28
8879
89 9 47
8874
87 66 1
1070
Fomalhaai
E.
120 28 25
8S80
119 4 48
8317
117 40 66
8800
116 16 60
MM
8
SUH
W.
84 18 4
8881
85 40 42
8871
87 3 32
1881
88 26 33
Mil
Spica
W.
18 29 66
8081
19 59 43
8011
21 29 42
8001
22 69 54
98M
Antarea
E.
27 29 6
8000
25 59 1
9996
24 28 45
9809
22 58 19
98M
a Aquils
E.
81 46 21
88M
80 32 19
3868
79 18 17
8867
78 4 14
WW 1
Fomalhant
E.
109 12 60
8388
107 47 20
8390
106 21 35
8900
104 66 36
IIM j
9
Sun
W.
96 24 38
839&
90 48 65
8983
98 13 28
8909
99 38 16
MM 1
Suica
Nfara
W.
30 34 24
3983
32 6 1
9930
33 37 54
9908
36 10 3
MM '
W.
17 11 28
8143
18 38 47
8199
20 6 21
8110
21 34 11
IIM !
a Aqoils
E.
71 64 26
8878
70 40 39
8880
69 26 69
8888
68 13 27
1897
Fomalhaat
E.
97 41 59
8188
96 14 30
8191
94 46 46
8108
93 18 46
MM 1
a Pegaai
E.
118 20 7
8888
116 56 37
8814
116 32 42
1993
114 8 21
MTO '
10
Sun
W.
106 46 26
8188
108 12 66
8108
109 39 46
8149
111 6 66
IIM
Spica
Man
W.
42 66 5
9836
44 29 1
9810
46 3 16
9796
47 37 61
9770
W.
28 67 30
8033
30 27 3
8017
31 66 55
8001
33 27 7
M86 ,
a Aqoils
E.
62 8 44
8870
60 66 35
8989
69 44 45
4013
58 33 18
4018
Fomalhaat
E.
85 54 37
8036
84 24 67
8014
82 65 1
8000
81 24 48
9987
a?eg9ai
E.
107 0 17
8180
106 33 27
8M7
104 6 12
8137
102 38 35
IIW 1
Jupiter
E.
123 66 29
9808
122 22 U
9798
120 47 34
fT78
119 12 37
ITM
11
Sun
W.
118 27 49
8047
119 67 3
8080
121 26 39
8013
122 66 37
IBM
Spica
Mara
W.
66 35 58
3008
67 12 41
98B1
58 49 46
9088
60 27 16
M4T ■
W.
41 3 17
3001
42 35 35
9888
44 8 16
9806
46 41 19
9841
Fomalhaat
E.
73 49 31
3OJ0
72 17 37
3907
70 46 27
9ea4
69 13 1
MM 1
XIV.
AUGUST, 1856.
141
GREENWICH MEAN
TIME,
n
LUNAR DISTANCES. 1
9
Stv*« Name
P.L.
P.L.
P.L.
P.L.
and
Midnight.
of
XVb.
of
xvmb.
of
XXP^
of
PMition.
DUL
DIfl.
DUL
8400
DUL
Sun
W.
O 1 II
24 26 11
S306
25 48 30
8398
O 1 «
27 10 49
O 1 II
28 33 6
Mil
Spica
E.
47 8 61
9901
45 37 49
9968
44 6 56
9976
42 36 13
3984
1
Man
E.
56 43 14
S165
55 16 23
8173
53 49 42
8183
52 23 11
8189
Antares
E.
93 2 1
9907
91 30 54
9960
89 59 57
9973
88 29 10
9980
3
Sun
W.
3S 23 45
S41»
36 45 40
8491
38 7 34
8496
39 29 18
8ai
Spica
E.
35 4 58
1019
33 35 9
80M
32 5 28
8089
30 35 55
8038
Mara
E.
45 12 50
t995
43 47 11
8389
42 21 40
838S
40 66 16
8344
Antares
E.
80 57 29
1014
79 27 33
8019
77 57 44
8096
76 88 3
8080
4
Son
W.
46 17 8
t448
47 38 30
8460
48 59 50
8453
50 91 7
8480
Spica
E.
23 9 57
SOOT
21 41 7
8079
20 12 23
8078
18 43 46
8083
Mare
E.
33 50 56
S770
32 26 9
8974
31 I 27
89n
29 36 49
8381
Aatares
E.
60 1 12
iOOA
67 32 7
8067
06 3 5
8061
64 34 8
3060
a Aquils
E.
115 37 47
4114
114 27 59
4009
118 17 50
4073
112 7 22
4000
5
Son
W.
57 6 58
S40I
58 28 6
8461
59 49 14
8469
61 10 21
8461
Mare
E.
22 34 31
SI9^}
21 10 10
8193
19 45 50
8394
18 21 31
8394
Antares
E.
57 10 10
1074
55 41 29
8074
54 12 48
8070
52 44 8
8074
a Aquiln
E.
106 11 2
S9BI
104 59 4
8970
103 46 55
8900
102 34 86
8948
6
Son
W.
67 56 17
t409
69 17 35
8447
70 38 58
8444
72 0 25
8440
Antares
E.
45 20 33
sooe
43 51 44
8066'
42 22 52
8063
40 53 56
8009
a Aquile
E.
96 30 33
M07
95 17 20
8601'
94 4 1
8891
92 50 35
8889
7
Son
W.
78 49 0
t4U
80 11 3
8400
81 33 14
8397
82 55 34
8868
Antares
E.
33 27 59
MXM
31 58 28
8097
30 28 49
8091
28 59 2
8014
a Aqailas
E.
86 42 11
1897
85 28 18
8863
84 14 21
8861
83 0 22
8800
Fomalhaut
E.
114 52 30
tlSI
113 27 56
8969
112 3 8
8907
110 38* 6
8340
8
Son
W.
89 49 45
9341
91 13 8
8830
92 36 45
8819
94 0 34
8306
Spica
W.
24 30 20
9978
26 1 0
9967
27 31 54
9906
29 3 2
9940
Antares
E.
21 27 42
9970
19 56 52
9961
18 25 50
9901
16 54 36
3941
a Aquile
E.
76 50 12
8860
75 36 12
8861
74 22 13
8860
73 8 18
8868
Fomalhaut
E.
103 29 22
itS4
102 2 54
8179
100 36 11
8109
99 9 13
8146
9
Son
W.
101 3 20
8949
102 28 40
8999
103 54 18
8919
105 20 13
81S7
Spica
Mare
W.
36 42 28
988^2
38 15 10
9867
39 48 11
9804
41 21 29
3840
W.
23 2 17
8090
24 30 39
8076
25 59 18
8061
27 28 15
8017
a Aquile
E.
67 0 4
8909
65 46 53
8991
64 33 55
8980
63 21 11
8903
Fomalhaut
E.
91 50 29
80SI
90 21 56
8067
88 53 6
8604
87 24 0
8040
a Pegasi
E.
112 43 34
8148
111 18 22
•937
109 52 45
8906
108 96 43
3186
10
Son
W.
112 34 26
8117
114 9 15
8100
115 30 25
8089
116 58 56
8060
Spica
W.
49 12 46
9763
50 48 2
2747
52 23 39
9731
53 59 38
9710
Mare
W.
34 57 39
9968
36 28 32
9901
37 59 46
9930
39 31 21
9918
a Aquilie
E.
57 22 18
407a
56 11 49
4106
55 1 53
4140
58 52 35
4190
Fomalhaut
E.
79 54 19
9978
78 23 33
3909
76 52 29
9946
75 21 8
9968
a Pegasi
E.
101 10 33
8067
99 42 8
8068
98 13 19
8049
96 44 7
8081
Jupiter
E.
117 37 20
9747
116 1 42
9780
114 25 42
9710
112 49 22
9697
11
Sun
W.
124 26 57
9970
125 57 41
9967
127 28 47
9989
129 0 17
9991
Spica
Mare
W.
62 5 6
9699
63 43 21
9619
65 22 0
3094
67 1 3
3076
W.
47 14 46
9639
48 48 36
9811
50 22 49
9793
51 57 26
2774
Fomalhaut
E.
67 40 20
9671
66 7 24
9660
64 34 14
3849
63 0 50
9639
142
AUGUST, 1856*
XV.
GREENWICH MEAN TIME.
LUNAR DISTANCES.
^1
SUr'i Namt
and
Noon.
P.L.
of
m«>-
P.L.
of
VP».
P.L.
of
IXh.
P.L.
of
Podtkm.
DHL
Di£
Di£
DHL
11
a Pegasi
E.
O 1 N
95 14 33
aois
o 1 n
93 44 36
9904
O 1 u
92 14 16
9977
O 1 «
90 43 84
9887
Jupiter
E.
HI 12 38
aasi
109 35 32
9684
107 58 4
9647
106 20 13
9880
18
Spica
Mara
W.
68 40 31
ssoo
70 20 23
9541
72 0 39
9598
73 41 20
9608
W.
53 33 28
97M
55 7 54
9788
56 43 44
9719
58 19 59
gfioi
Antarea
W.
22 46 0
3U0
24 25 52
9540
26 6 9
9539
27 46 51
9804
Fomalhaat
E.
61 27 13
9830
59 53 24
9899
58 19 25
9815
56 45 17
9008
aPegasi
E.
83 4 43
9978
81 31 56
986S
79 58 50
9848
78 25 25
9BM
Jupiter
E.
98 5 2
9M1
96 24 46
9534
94 44 6
1606
93 3 1
S689
13
Spica
Mara
W.
82 10 56
9418
83 54 5
9401
85 37 38
9884
87 21 35
9887
W.
66 27 18
9610
68 6 0
9699
69 45 6
9874
71 24 36
9568
Antares
W.
36 16 33
9417
37 59 44
9400
39 43 19
9868
41 27 18
9888
Fomalhaat
E.
48 53 10
9801
47 18 44
9807
45 44 25
9815
44 10 16
9836
a Pegasi
E.
70 34 9
3777
68 59 11
9768
67 24 1
9781
65 48 42
9755
Jupiter
E.
84 31 26
9401
82 47 52
9889
81 3 53
9866
79 19 29
9849
a Arietia
E.
112 0 85
MBO
110 18 38
9450
108 36 15
9483
106 53 27
9415
14
Spica
Mara
W.
96 7 20
9988
97 53 37
9773
99 40 16
99S0
101 27 16
9944
W.
79 47 57
9475
81 29 46
9460
83 11 56
9444
84 54 28
1480
Antarea
W.
50 13 12
9980
51 59 32
1179
53 46 13
9957
55 33 16
99tt
a Pegaai
E.
57 50 41
9747
56 15 4
9751
54 39 32
«769
53 4 10
tm
Jupiter
E.
70 31 32
9271
68 44 50
9^157
66 57 47
9949
65 10 22
9997
a Arietia
E.
98 13 18
903
06 28 6
9117
94 42 31
980^1
92 56 34
9988
15
Spica
Mara
W.
110 27 24
9180
112 16 21
9169
114 5 35
91fi0
115 55 5
9M8
W.
93 32 6
9m
95 16 33
98A9
97 1 17
9^1
98 46 17
9881
Antarea
w.
64 33 34
9178
66 22 34
9108
68 11 50
9157
70 1 23
9147
a Pegasi
E.
45 12 8
9876
43 39 18
9919
42 7 15
9937
40 36 8
8008
Jupiter
a Arietia
E.
56 8 4
9183
54 18 39
9151
52 28 57
9110
50 38 59
9180 1
E.
84 1 53
9916
82 14 3
9914
80 25 57
9904
78 37 35
9104 1
Aldebaraa
E.
114 32 18
9949
112 45 3
9387
110 57 30
9331
109 9 38
tii3
16
Mara
W.
107 34 48
9987
109 21 6
9981
111 7 34
«74
112 54 11
9960
Antarea
w.
79 12 41
9105
81 3 33
9098
82 54 35
9099
84 45 46
9086
a AquilB
w.
42 22 37
4610
43 24 53
448S
44 29 45
4471
45 37 4
4197
Jupiter
E.
41 25 36
908S
39 34 18
9081
37 42 49
9075
35 51 12
9071
a Arietia
E.
69 32 29
9IA7
67 42 56
9151
65 53 15
9147
64 3 28
9IU !
Aldebaran
E
100 6 19
9185
98 16 59
9188
96 27 2h
9151
94 37 47
9146
17
Antarea
W.
94 3 27
9070
95 55 12
906B
97 47 0
9068
99 36 49
9008
a Aquils
W.
51 44 32
8509
58 3 7
8535
54 23 4
8456
55 44 17
8804 1
a Arietia
E.
54 53 37
9189
53 3 37
9141
51 13 41
9144
49 23 49
9149
Aldebaraa
E.
85 27 42
9180
83 37 28
9199
81 47 13
9198
79 56 57
9199 ,
Saturn
E.
118 0 15
9198
116 9 59
9196
114 19 39
9194
112 29 17
9194
18
a Aquils
W.
62 45 43
8178
64 12 25
8148
65 39 43
8114
67 7 35
8880
Fomalhaut
W.
31 12 41
9918
32 44 37
9841
34 18 12
9775
35 53 1;>
9790 ]
a Arietia
E.
40 16 47
9190
38 28 4
9908
36 39 41
9319
34 51 42
9917 ■
Aldebaran
E.
70 46 16
9144
68 56 24
9149
67 6 39
9155
65 17 4
9109
Saturn
E.
103 17 31
9180
101 27 17
9188
99 37 8
9187
97 47 6
9141 1
PoUux
E.
114 19 35
9079
112 28 3
9081
110 86 35
9085
108 45 12
9000
10
a Aquils
W.
74 32 42
8090
76 2 30
8014
77 32 26
8009
79 2 28
8008
1
Fomalhaut
W.
44 8 7
9AM
45 43 8
9684
47 23 34
9518
49 4 22
9007 j
XVI,
AUGUST, 1866.
143
GREENWICH MEAN TIME.
LUNAR DISTANCES.
of
11
Star's Name
PL.
P.L.
PL.
P.L.
and
Midnight.
of
XVh.
of
XVlUh.
of
XXIh.
of
Portion.
DUL
Dlff.
DUL
DUL
a Pegasi
E.
O 1 N
89 13 30
2M9
O 1 II
87 41 4
9936
O 1 II
86 9 18
9900
O 1 11
84 37 10
9804
Jupiter
E.
104 41 59
9013
103 3 21
9096
101 24 19
9677
99 44 53
9669
13
Spica
W.
75 22 25
3487
77 3 56
9470
78 45 51
9462
80 28 11
9436
Mars
W.
59 56 38
3083
61 33 41
9604
63 11 9
9046
64 49 1
9698
Antares
W.
29 27 58
3487
31 9 30
9470
32 51 26
3462
34 33 47
9434
Fomalhaut
E.
55 11 0
9904
53 36 37
9600
52 2 9
9798
50 27 39
9799
a Pegasi
E.
76 51 42
3831
75 17 41
9600
73 43 25
9798
72 8 54
3787
Japiter
E.
91 21 32
3411
89 39 38
9468
87 57 19
9436
86 14 35
9418
13
Spica
l^ra
W.
89 5 57
98M
90 50 43
9836
92 35 52
SB18
94 21 25
9308
W.
73 4 29
3640
74 44 46
9623
76 25 27
9007
78 6 31
9491
Antares
W.
43 U 42
3S49
44 56 30
3888
46 41 41
9817
48 27 15
9809
Fomalhaut
E.
42 36 21
9B40
41 2 45
9860
39 29 35
9686
37 56 57
a»n
a Pegasi
E.
64 13 15
9700
62 37 41
9746
61 2 2
9746
59 26 22
9744 !
Jupiter
E.
77 34 41
3tt3
75 49 28
9816
74 3 52
3800
72 17 53
9986
a Arietis
E.
105 10 14
3S08
103 26 36
9880
101 42 33
9304
99 58 7
iS48
U
Spica
Alars
W.
103 14 38
3380
105 2 21
9917
106 50 23
9904
108 38 44
9199
W.
86 37 20
941A
88 20 33
3401
90 4 6
9880
91 47 57
9370
Antares
W.
57 20 40
3339
59 8 25
9216
60 56 29
3203
62 44 52
9190
a Pegasi
E.
51 29 1
3789
49 54 10
2798
48 19 40
3820
46 45 38
9846
Jupiter
E.
63 22 35
931S
61 34 27
9900
59 45 59
3186
57 57 11
9174
a Arietis
E.
91 10 17
9374
60 23 39
9961
87 36 42
3248
85 49 26
3937
15
Spica
W.
117 44 51
9188
119 34 51
9130
121 25 5
3131
123 15 32
91U
Mars
W.
100 31 32
3321
102 17 1
9311
104 2 44
3309
105 48 40
9294
Antares
W.
71 51 U
9197
73 41 14
9128
75 31 31
9120
77 22 0
9119
a Pegasi
E.
39 6 6
3070
37 37 20
3143
36 10 2
3229
34 44 27
3899
Jupiter
E.
48 48 46
3120
46 58 18
9112
45 7 37
9103
43 16 42
3090
a Arietis
E.
76 48 58
9185
75 0 8
91T7
73 11 6
9170
71 21 53
9168
Aldebaran
E.
107 21 29
9201
105 33 3
9191
103 44 22
9182
101 55 27
9173
16
Mars
W.
114 40 56
9964
116 27 48
9261
118 14 45
9267
120 1 48
9964
Antares
W.
86 37 6
9083
88 28 33
9076
90 20 6
9074
92 11 45
9079
a Aquils
W.
46 46 40
8998
47 58 22
8881
49 12 1
tno
50 27 28
3681
Jupiter
E.
33 59 28
9066
32 7 37
9061
30 15 38
9066
28 23 34
2066
a Arietis
E.
62 13 35
9141
60 23 38
9189
58 33 39
9188
56 43 38
3138
Aldebaran
E.
92 47 58
3141
90 58 2
9137
89 8 0
9134
87 17 53
3183
17
Antares
W.
101 30 38
9008
103 22 27
9009
105 14 14
9071
107 5 58
3078
a Aquilae
W.
57 6 40
8838
58 30 7
3991
59 54 29
3247
61 19 43
3208
a Arietis
E.
47 34 4
3lft5
45 44 28
9161
43 55 1
9169
42 5 47
3178
Aldebaran
E.
78 6 42
9181
76 16 30
9182
74 26 20
9136
72 36 15
3139
Saturn
E.
110 38 54
3133
108 48 30
9124
106 58 8
9196
105 7 48
3128
18
a Aquilae
W.
68 35 54
8073
70 4 38
3066
71 33 43
3041
73 3 5
8080
Fomalhaut
W.
37 29 25
9674
39 6 40
9636
40 44 47
9603
42 23 38
3676
a Arietis
E.
33 4 9
3J57
31 17 6
9981
29 30 38
9309
27 44 52
3343
Aldebaran
E.
63 27 39
3170
61 38 26
9177
59 49 25
9188
58 0 38
3197
Saturn
E.
95 57 9
9146
94 7 20
9162
92 17 40
9160
90 28 10
3166
Pollux
E.
106 53 57
9096
105 2 50
2101
103 11 52
9107
101 21 3
3114
10
a Aquilae
W.
80 32 33
8005
82 2 39
3008
83 32 41
3019
85 2 39
3018
Fomalhaut
W.
50 45 26
9497
52 26 44
9489
54 8 12
9484
55 49 48
3481
144
AUGUST, 1866.
XVII-
GREENWICH MEAN
TIME.
LUNAR DISTANCES. 1
1
*8S
Star's Kmm
and
Noon.
P.L.
or
IIP^
P.L.-
of
Vlh.
P.L.
or
IXh^
P.L.
of
Podtion.
DUL
DHL
DHL
1
O / M
O 1 «
O 1 «
O 1 u
19
AldebaraD E.
56 19 6
9906
64 93 50
9990
69 35 63
9988
60 48 14
IMT 1
Saturn E.
88 38 5d
2173
86 49 40
9180
86 0 42
9188
83 11 66
9197
Pollux E.
09 30 95
S131
97 39 68
3198
96 49 43
9187
93 59 40
9146
20
a AquUe W.
86 39 30
a095
88 9 19
8089
89 31 45
8043
91 1 5
8000
Fomalhaut W.
67 31 98
S480
69 13 10
9480
60 64 62
9480
62 36 33
9«8i
a Pegasi W.
38 46 42
1068
40 16 31
8010
41 46 24
9071
43 16 13
90S9
Jupiter W.
18 4 7
9174
19 63 13
3184
91 49 4
3104
23 30 40
9900 !
Aldebarau E.
41 65 36
9ns
40 10 94
9860
38 96 46
9878
36 41 39
9100
Saturn E.
74 11 38
9M7
79 94 90
9966
70 87 18
9960
68 50 33
9981
PoUux E.
84 69 47
9198
83 4 0
9908
81 16 46
9914
79 27 40
9990
Sun E.
191 17 49
9004
119 36 36
9010
117 66 43
9096
116 16 6
9008
1
91
a AquilB W.
98 93 91
Site
09 50 44
81(<1
101 17 40
8184
102 44 8
1
8900
Fomalhaut W.
71 3 36
9510
79 44 36
9018
74 95 93
9037
76 6 69
90S*
a Pegasi W.
61 0 19
9B10
69 34 19
9804
64 8 42
9704
66 43 18
9786 1
Jupiter W.
39 99 38
9901
34 16 36
9778
36 3 15
9985
37 49 37
9907
Saturn E.
60 1 17
9M4
68 16 91
9067
66 31 45
9871
64 47 29
9884
Pollux E.
70 31 94
99B4
68 46 1
9906
66 58 56
9800
66 13 9
9899
Sun E.
107 66 9
9S0O
106 17 13
9813
104 38 34
9096
103 0 13
9688
99
a Aquila W.
109 48 31
9UQ
111 11 34
iooo
119 33 56
8484
113 66 34
8474 ;
Fomalhaut W.
84 96 39
9068
86 4 50
9O0O
87 43 45
9613
89 92 23
9890 j
a Pegaw W.
63 37 69
9n5
66 19 68
9n6
66 47 57
9779
6^99 52
9788 !
Jupiter W.
46 36 67
9800
48 91 31
9871
60 6 47
9084
61 49 45
9800
a Arietia W.
90 0 96
9708
91 36 36
9797
93 11 39
9006
94 48 94
9873 j
Saturn E.
46 11 10
9406
44 98 68
9474
42 47 8
9480
41 6 40
9006 1
PoUux E.
66 98 49
9086
64 44 52
9008
63 1 14
9410
61 17 64
9190 '
Sum E.
94 69 66
1700
03 16 92
9718
91 40 6
9783
90 4 9
9V4*
93
Foroalhant W.
97 31 11
9099
09 8 1
9106
100 44 33
9731
109 90 45
9780
a Pegasi W.
76 16 49
9016
77 49 58
9838
79 23 66
9831
80 57 43
9840
Jupiter W.
a Arietis W.
60 26 9
9468
69 7 91
9470
63 49 17
948i
65 30 56
9104
1
39 67 93
9on
34 36 35
9883
36 13 46
9634
37 51 55
9SS7
Saturn E.
39 44 13
9000
31 6 12
9016
29 26 39
9038
97 48 36
9089
Pollux E.
49 46 43
9487
41 4 U
9499
39 22 56
9011
37 41 68
9894
Sun E.
89 8 48
9010
80 34 37
»i6
79 0 43
9888
77 97 6
9003
94
Fomalhaut W.
110 16 49
9810
111 60 60
9BS3
113 24 36
9860
114 67 69
*»!
a Pegasi W.
88 43 33
9809
00 16 2
9004
91 48 16
9016
93 20 15
99-J8 ;
Jupiter W.
a Arietis W.
73 66 3
9009
76 35 4
9668
77 14 50
9074
78 54 20
9iB6 1
46 1 16
9009
47 38 45
9671
49 16 4
9678
60 53 13
90M 1
Pollux E.
99 91 99
9066
97 42 14
9607
26 3 15
9010
24 24 33
9039 1
Sun E.
69 43 11
90M
68 11 13
9030
66 39 31
9043
66 8 6
"** 1
96
a Pegasi W.
100 66 11
9004
109 96 31
8000
103 56 33
8033
105 96 17
1
8000 ;
Jupiter W.
o Arietis W.
87 8 10
9SM
88 46 13
9648
90 24 2
9868
99 1 38
9000
68 66 90
9790
60 39 95
9786
62 8 18
9744
63 44 0
9700 j
Sun E.
67 34 38
0014
66 4 49
8006
64 36 0
8086
63 6 31
8047
^
Jupiter W.
a Arietis W.
100 6 94
f7M
101 49 43
9736
103 18 50
9784
104 54 46
1
9T49 1
1
71 39 43
9790
73 14 18
9803
74 48 43
9811
76 29 66
9018
Sun E.
46 41 34
8101
44 13 96
8118
42 45 3-2
8194
41 17 61
8IS4 ,
i 97
Sun E.
34 9 36
8197
39 36 11
8198
31 10 0
8300
90 44 9
8390
XVIII.
AUGUST, 1856.
141
GREENWICH MEAN
TIME.
LUNAB DISTANCES.
n
Star's Kune
and
Midnight.
P.L.
of
XVH.
P.L.
of
XVIUh.
P.L.
or
XXlh.
P.L.
of
PMltkm.
IMff.
DUL
IHft
Difli
O / II
O 1 «
O f It
O 1 M
19
Aldebaran E.
49 0 56
S903
47 14 1
9917
45 27 27
9994
43 41 18
9819
Saturn E.
81 23 24
9906
79 35 5
9916
77 47 1
9996
75 59 12
9936
Pollux E.
92 9 49
9164
90 20 12
9168
88 30 49
9113
86 41 41
9189
20
a AquilsB W.
92 30 10
soeQ
93 58 58
3084
95 27 27
3101
96 55 35
3119
Fomalhaut W.
64 18 11
0487
65 59 43
9491
67 41 9
9491
69 22 27
9003
'
a Pegasi W.
44 47 51
9000
46 20 10
9813
47 53 3
9861
49 26 25
9631
Jupiter W.
25 19 0
9910
27 7 4
9991
28 54 52
' 9937
30 42 24
9949
Aldebaran E.
34 58 9
9ai
33 15 18
9468
31 33 13
9499
29 51 58
9038
Saturn E.
67 4 6
9994
65 17 57
9306
63 32 5
9811
61 46 31
9831
Pollux E.
77 39 50
9917
75 52 17
9948
74 5 2
9960
72 18 4
9979
Sum E.
114 34 46
9ftM
112 54 42
9661
111 14 54
9014
109 35 23
9086
SI
a Aquil© W.
104 10 7
8986
105 35 34
3968
107 0 29
3994
108 24 48
3390
Fomalhaut W.
77 46 23
S54ft
79 26 33
9666
81 6 30
9566
82 46 12
9arn
aPegaai W.
57 18 4
9180
58 52 58
9Tn
60 27 56
9n6
62 2 57
9n4
Jupiter W.
39 35 41
9309
41 21 27
9399
43 6 55
9884
44 52 5
9346
Saturn E.
53 3 32
9398
51 19 55
0413
49 36 39
9498
47 53 44
9443
Pollux E.
63 27 41
9884
61 42 30
9846
59 57 38
9309
58 13 4
9879
Sun E.
101 22 9
9661
99 44 23
9666
98 6 56
9678
96 29 47
9691
S2
a Aquila W.
115 16 27
8616
116 S6 33
3661
117 55 50
3609
119 14 15
3664
Fomalhaut W.
91 0 44
9038
92 38 48
9661
94 16 34
9664
95 54 2
9678
a Pegasi W.
69 57 42
9788
71 32 26
9194
73 7 2
9800
74 41 30
9801
Jupiter W.
53 33 25
9409
55 16 47
9491
56 59 52
9433
58 42 39
9440
aArietis W.
26 25 41
9657
28 3 19
9646
29 41 12
9688
31 19 15
9630
Saturn E.
39 24 35
9699
37 43 53
9640
36 3 35
9667
34 23 41
9676
Pollux E.
49 34 52
9435.
47 52 7
9448
46 9 41
9161
44 27 33
9414
Sun E.
88 28 29
9769*
86 53 7
9119
85 18 3
9786
83 43 17
9799
83
Fomalhaut W.
103 56 38
9761
105 32 10
9167
107 7 21
9789
108 42 12
9796
a Pegaai W.
62 31 19
9849
84 4 43
9860
85 37 53
9870
87 10 50
9861
Jupiter W.
67 12 18
9606
68 53 24
9617
70 34 13
9699
72 14 46
9040
a Arietia W.
39 30 0
9640
41 8 0
9646
42 45 53
9601
44 23 39
9661
Saturn E.
26 11 5
9688
24 34 9
9716
22 57 51
9749
21 22 16
9787
Pollux E.
36 1 18
9686
34 20 56
9648
32 40 50
9061
31 1 1
9073
Sum E.
75 53 46
9866
74 20 43
9878
72 47 56
9891
71 15 25
9904
24
Fomalhaut W.
116 31 0
9886
118 3 37
9906
119 35 49
9990
121 7 36
9946
a Pegasi W.
94 51 58
9940
96 23 26
9953
97 54 38
9966
99 25 33
9980
Jupiter W.
80 33 35
9096
82 12 35
9601
83 51 21
9617
85 29 52
9691
a Arietis W.
52 30 12
9694
54 7 0
9709
55 43 38
9710
57 20 4
9718
Pollux E.
22 46 8
9686
21 8 0
9648
19 30 10
9661
17 52 38
9614
Sum E.
63 36 54
9900
62 5 58
9977
60 35 16
9989
59 4 50
8001
25
o Pegasi W.
106 55 42
3064
108 24 48
8011
109 53 35
3088
111 21 57
81C0
Jupiter W.
93 39 1
9678
95 16 11
9887
96 53 8
9097
98 29 52
9706
a Arietis W.
65 19 31
9761
66 54 50
9769
68 29 59
9778
70 4 50
97B0
Sun E.
51 36 16
8008
50 7 15
8060
48 38 28
3081
47 9 55
8091
^
Jupiter W.
a Arietis W.
106 30 30
9761
108 6 2
9760
109 41 23
9768
111 16 33
9n6
77 56 59
9898
79 30 50
9836
81 4 31
9844
82 38 ^
9859
Sun E.
39 50 23
3144
38 23 7
8166
36 56 4
3166
35 29 14
8116
27
Sum E.
28 18 17
3989
26 52 46
3944
25 27 29
3906
24 2 26
3}68
19
146
SEPTEMBER, 1856.
AT GBEENWICH APPARENT NOON.
i
Mon.
Tues.
Wed.
Thur.
Fri.
Sat
Sim.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat
Sim.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat
Sun.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat
Sm.
Mon.
Tues.
Wed.
THE SUN»S
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
80
31
BJfhl AM6odon.
h. m. f.
10 43 4.75
10 46 42.32
10 50 19.60
10 53 56.60
10 57 33.36
11 1 9.91
11 4 46.22
11 8 22.31
11 11 58.22
11 15 34.00
11 19 9.63
11 22 45.14
11 26 20.57
11 29 55.92
11 33 31J24
11 37 6.52
11 40 41.81
11 44 17.11
11 47 52.45
11 51 27.86
11 55 3.37
11 58 38.98
12 2 14.71
12 5 50.61
12 9 26.66
12 13 2.94
12 16 39.39
12 20 16.09
12 28 53.01
12 27 80.20
12 81 7.67
DUr.ft>r
Ihoar.
9.074
9.061
9.049
9.088
9.019
9.020
9.011
9.008
8.99v
8.990
8.985
8.980
8.976
8.978
8.978
8.978
8.978
8.974
8.977
8.980
8.985
8.989
8.994
9.001
9.006
9.016
9.0M
9.085
9.046
9.057
9.069
DULfor
1 hoar.
N.
8 8 5.5
7 46 10.1
7 24 7.2
7 1 57.2
6 39 40.4
6 17 17.0
5 54 47.5
5 32 12.4
5 9 31.8
4 46 45.9
4 23 55.4
4 1 0.3
i
3 38 1.0
8 14 57.7
2 51 50.9
2 28 40.8
2 5 27.6
1 42 11.8
1 18 53.6
0 55 33.4
0 32 11.5
N. 0 8 48.2
S. 0 14 36.2
0 88 IJS
1 1 27.0
1 24 52.5
1 48 17.5
2 11 41.9
2 85 5.3
2 58 27.2
8. 8 21 47.1
54.66
54.97
55.29
55.57
65.85
56.10
66.86
56.59
66.82
67.02
57.22
57.89
67.67
57.71
57.86
67.99
68.12
68.22
58.32
68.88
68.45
68.60
58.55
68.66
68.57
58.56
58.55
68.60
68.45
68.87
68.29
8«nl-
15 53.85
15 54.08
15 54.32
15 54.58
15 54.83
15 55.08
15 55.33
15 55.58
15 55.84
15 56.10
15 56.36
15 56.62
15 56.88
15 57.14
15 57.40
15 57.66
15 57.92
15 58.18
15 58.44
15 58.70
15 58.96
15 59.23
15 59.50
15 59.77
16 0.04
16 0.31
16 0.58
16 0.85
16 1.13
16 1.40
16 1.68
Time
oTtlM
Semidi-
Um
64.40
64.36
64.32
64.28
64.25
64.22
64.19
64.16
64.14
64.12
64.11
64.09
64.08
64.07
64.06
64.06
64.06
64.06
64.06
64.07
64.09
64.10
64.12
64.14
64.16
64.19
64.22
64.25
64.29
64.88
64.88
B^QfttiOII of
TImo,
$tAtna$d
Appanmt
0 15.14
0 34.09
0 53.31
1 12.81
1 32.54
1 52.49
2 12.69
2 83.09
2 53.68
3 14.89
3 35.27
3 56.26
4 n.82
4 88.47
4 59.65
5 20.86
5 42.08
6 8.28
6 24.43
6 45.50
7 6.49
7 27.39
7 48.14
8 8.74
8 29.16
8 49.40
9 9.44
9 29J25
9 48.82
10 ai3
10 27.17
0.788
0.794
0.806
0.816
0.827
0.887
0.846
0.858
0.860
0.866
0.870
0.875
0.879
0.882
0.888
0.888
0.888
0.882
0.880
0.877
0.872
0.867
0.862
0.856
0.849
0.841
0.880
0.821
0.811
0.800
0.788
Kon. ~ Mm* TlMO on
{■ay bo
Oo.Uf
II.
SEPTEIUBER, 1856.
147
AT GREENWICH MEAN
NOON.
•
THE SUN'S
i
1
1
TtaMS
Mean
Tmu,
DUL
for
Ihoor.
•
BMWMI
Ilm..
RlCbtAMoulon.
DUUfor
Ihoar.
Appanni
Din: for
Ihoor.
III
1
2
3
h. m. •.
10 43 4.79
10 46 42.40
10 60 19.73
9.074
9.061
9.049
N.^8 '8 5.3
7 46 9.6
7 24 6.4
54.66
54.97
55.29
"o 15.16
0 34.11
0 53.83
t.
0.788
0.794
0.806
h. m. •.
10 43 19.95
10 47 16.51
10 51 13.06
Thur.
Fri.
Sat
4
5
6
10 53 56.78
10 57 33.59
U 1 10.19
9.088
9.029
9.030
7 1 56.1
6 39 39.0
6 17 15.8
55.57
55.85
56.10
1 12.84
1 32.58
1 52.53
0.816
0.827
0.887
10 55 9.62
10 59 6.17
11 3 2.72
Mon.
Tuee.
7
8
9
11 4 46.55
11 8 22.70
11 11 68.66
9.011
9.008
0.99o
5 54 45.5
5 32 10.0
5 9 29.1
56.86
56.59
56.82
2 12.78
2 33.14
2 53.72
0.848
0.853
0.860
11 6 59.28
11 10 55.84
11 14 52.39
Wed.
Thur.
Fri.
10
11
12
11 15 34.49
11 19 10.17
11 22 45.73
8.990
8.985
8.980
4 46 42.9
4 23 52.0
4 0 56.5
57.02
57.22
57.89
8 14.45
8 35.38
8 56.32
0.866
0.870
0.876
11 18 48.94
11 22 45.50
11 26 42.05
Sat.
Sm.
Mon.
13
14
15
11 26 21.21
11 29 56.61
11 33 31.98
8.976
8.978
8.978
3 37 56.9
3 14 53.3
2 51 46.2
57.57
57.71
57.86
4 17.89
4 38.55
4 59.73
0.879
0.882
0i888
11 30 38.60
11 34 85.16
11 38 31.71
Tues.
Wed.
Thur.
16
17
18
11 37 7.31
11 40 42.65
11 44 18.01
8.978
8.978
8.974
2 28 35.7
2 5 22.2
1 42 6.1
57.99
58.12
58.22
6 20.95
6 42.17
6 3.36
0.888
0.888
0.882
11 42 28.26
11 46 24.82
11 50 21.37
Fri.
Sat.
SUH.
19
20
21
11 47 53.40
11 51 28.87
11 55 4.43
8.977
8.980
8.986
1 18 47.6
0 55 27.0
0 32 4.7
58.82
58.88
58.46
6 24.58
6 45.61
7 6.60
0.880
0.877
0.872
11 54 17.93
11 58 14.46
12 2 11.03
Mon.
Tues.
Wed.
22
23
24
11 58 40.09
12 2 15.88
12 6 51.83
8.989
8.994
9.001
N. 0 8 41.1
S. 0 14 43.7
0 38 9.3
58.60
68.65
68.56
7 27.50
7 48.26
8 8.86
0.867
0.862
0.866
12 6 7.59
12 10 4.14
12 14 0.69
Thur.
Fri.
Sat.
25
26
27
12 9 27.96
12 13 4.27
12 16 40.77
9.008
9.016
9.026
1 1 85.2
1 25 1.0
1 48 26.4
68.57
68.66
68.56
8 29.29
8 49.53
9 9.58
0.849
0.841
0.880
12 17 57.25
12 21 53.80
12 25 60.35
Mon.
Tues.
28
29
30
12 20 1162
12 23 54.49
12 27 31.73
9.085
9.046
9.057
2 11 51.1
2 35 14.8
2 58 87.0
68.60
68.45
58.87
9 29.89
9 48.97
10 8.28
0.821
0.811
0.800
12 29 46.91
12 33 43.46
12 37 40.01
Wed.
SI
12 31 9.26
9.069
S. 8 21 57.2
68.29
10 27.82
0.788
12 41 86.57
N
«l«lbr]fi
nNooDiuijbeMm
iBMdtbe
nmeMtlMtfoi
rAppuenl
Nooa
148
SEPTEMBER, 1856.
IIL
AT GREENWICH MEAN NOON.
1
2
8
4
5
6
7
8
9
10
11
12
18
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
I
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
THE SUN'S
2>iM LONQITUDB.
159
160
161
11 §.9
9 19.3
7 31.1
162 5 44.4
163 3 59.3
164 2 15.9
165 0 33.9
165 58 53.3
166 57 14.2
167 55 36.7
168 54 0.8
169 52 26.7
170 50 54.3
171 49 23.7
172 47 55.1
173 46 28.5
174 45 8.9
175 43 41.3
176 42 20.9
177 41 2.8
178 39 46.9
179 38 33.3
180 37 22.0
181 36 13.0
182 35 6.2
183 34 1.6
184 32 59.2
185 81 59.1
186 31 0.9
187 30 4.7
188 29 10.5
10 39.5
8 49.8
7 1.5
5 14.6
3 29.4
1 45.9
0 3.8
58 23.1
56 43.9
55 6.3
53 30.2
51 56.0
50 23.5
48 52.8
47 24.1
45 57.8
44 32.6
43 9.9
41. 49.4
40 31.2
39 15.2
38 1.5
36 50.1
85 41.0
34 34.0
33 29.3
32 26.8
81 26.6
30 28.3
29 32.0
28 37.7
DUribr
Ihoar.
46.89
46.46
46.62
46.68
46.64
46.70
46.77
46.84
46.90
46.96
46.08
46.10
46.18
46.26
46.84
46.48
46.62
46.61
46.70
46.79
46.88
46.98
47.98
47.07
47.26
47.86
47.46
47.66
47.68
47.72
147.80
LATITUDE.
-^6.23
-M).10
—0.04
0.17
0.27
0.39
0.45
0.49
0.51
0.49
0.44
0.37
0.27
0.16
—0.02
H-0.11
0.24
0.34
0.49
0.58
0.65
0.68
0.70
0.68
0.62
0.54
0.45
0.32
0.19
H-0.06
—0.06
Logarithm
or the
BadlQs Teetor
of tiM
Xtrth.
0.0036972
.0035890
.0034794
.0032557
.0031419
.0030270
.0029112
.0027947
.0026776
.0025601
.0024423
.0023242
.0022059
.0020875
.0019691
.0018505
.0017318
.0016129
.0014938
.0013745
.0012548
.0011346
.0010138
.0008923
.0007701
.0006471
.0005233
.0003986
.0002732
0.0001471
DUUfiyr
1 hour.
44.7
46.4
46.9
46.6
47.0
47.6
48.1
48.8
48Ji
48.7
48.9
49.2
49.2
49.2
49.8
49.4
49.4
49.6
49.6
49.7
49.8
60.0
60.2
60.4
60.7
61.0
61.4
. 61.7
62.1
62.4
62.7
3 14 29.53
3 10 33.62
3 6 37.72
8 2 41.80
2 58 45.89
12 54 50.00
2 50 54.08
2 46 58.17
2 43 2.26
2 89 6.86
2 85 10.45
2 31 14.54
2 27 18.68
2 23 22.72
2 19 26.82
2 15 30.92
2 11 35.00
2 7 39.09
2 8 43.19
1 59 47.28
1 55 51.37
1 51 55.46
1 47 59.56
1 44 8.65
1 40 7.74
1 36 11.83
1 32 15.98
1 28 20.02
1 24 24.11
1 20 2SJIII
11 16 82.29
KotB. — A.
^fbMtrm •qjeaanx of tht telt, a.' lo «b« «
I •^utoiKOf Jts. Od.
IV.
SEPTEMBER, 1856.
149
GREENWICH
MEAN TIME.
-
THE
MOON^S
i
HRMTDTAHirmi,
HORraOlfTAL PARALLAX.
MERIDIAN PA8SAGB.
"B
s
AQB.
Noon.
IDdiiight.
Noon.
Diff.ft>r
Ihour.
Midnight.
DUtfitf
Ihoor.
DUtfor
Ihour.
1
2
8
14 45.6
14 44.4
14 45.1
14 44.8
14 44.5
14 46.3
54 3.6
53 59.1
54 1.8
-0.82
-0.05
+0.27
54 0.^
53 59.5
54 6.1
-0.19
+0.11
0.44
h. m.
1 26.4
2 5.2
2 44.8
m.
1.60
1.61
1.67
d.
2.0
3.0
4.0
4
5
6
14 48.1
14 53.5
15 1.3
14 50.5
14 57.1
15 6.1
54 12.5
54 32.0
55 0.9
0.62
1.00
1.39
54 21.1
54 45.3
55 18.8
0.81
1.19
1.59
3 26.2
4 10.3
4 58.0
1.76
1.90
2.07
5.0
6.0
7.0
7
8
9
15 11.6
15 24.3
15 38.9
15 17.7
15 31.4
15 46.7
55 39.0
56 25.8
57 19.3
1.78
2.12
2.34
56 1.4
56 51.9
57 47.7
1.96
2.25
2.40
5 49.7
6 45.2
7 43.2
2.26
2.40
2.47
8.0
9.0
10.0
10
11
12
15 54.6
16 10.2
16 24.3
16 2.5
16 17.5
16 30.3
58 16.7
59 14.3
60 5.8
2.43
2.32
1.96
58 45.8
59 41.2
60 27.8
2.41
2.16
1.71
8 41.9
9 39.4
10 34.8
2.44
2.35
2.25
11.0
12.0
13.0
13
14
15
16 35.4
16 42.2
16 44.0
16 39.4
16 43.8
16 42.9
60 46.6
61 11.8
61 18.3
1.40
+0.69
-0.14
61 1.4
61 17.5
61 14.4
1.05
+0.27
-0.64
11 28 0
12 19.7
13 10.9
2.16
2.11
2.14
14.0
15.0
16.0
16
17
18
16 40.6
16 32.6
16 21.1
16 37.1
16 27.2
16 14.5
61 5.9
60 36.2
59 54.0
0.92
1.65
1.97
60 53.0
60 16.3
59 29.9
1.26
1.79
2.09
14 3.3
14 57.5
15 54.0
2.21
2.31
2.42
17.0
18.0
19.0
19
20
21
16 7.5
15 53.1
15 39.2
16 0.3
15 46.0
15 32.7
59 4.5
58 11.6
57 20.7
2.16
2.18
2.05
58 38.2
57 45.8
56 56.6
2.19
2.13
1.95
16 52.5
17 51.7
18 49.7
2.49
2.48
2.86
20.0
21.0
22.0
22
23
24
15 26.6
15 15.5
15 6.0
15 20.9
15 10.5
15 2.0
56 33.8
55 52.9
55 18.6
1.83
1.57
1.31
56 12.5
55 35.0
55 3.7
1.70
1.44
1.16
19 44.5
20 35.5
21 22.4
2.21
2.02
1.86
23.0
24.0
25.0
25
26
27
14 58.4
14 52.4
14 48.0
14 55.2
14 50.0
14 46.4
54 50.4
54 28.5
54 12.3
1.04
0.79
0.56
54 38.7
54 19.7
54 6.2
0.91
0.67
0.45
22 5.8
22 46.6
23 25.9
1.78
1.65
1.61
26.0
27.0
28.0
28
29
30
14 45.1
14 43.5
14 43.5
14 44.1
14 43.3
14 44.1
54 1.4
53 55.8
53 55.9
0.34
-0.11
+0.18
53 57.9
53 55.1
53 58.1
-0.23
+0.01
0.24
6
0 4.7
0 43.9
1.60
1.63
29.0
0.3
1.3
31
14 45.1
14 46.5
64 1.7
+0.86
54 6.9
+0.49
1 24.5
1.78
2.3
l&O
S£PTE]!»IB1^R, 1856.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Ri^tAMenston.
Dur.
forlm.
Diff.
Ibrlm.
Hoar.
Ri^t Aaoansioii.
DUL
forlm.
DUL
fiorlm.
MONDAY 1.
WEDNESDAY 3.
h. m. f.
f.
O t «
N
h. m. 1.
s.
O 1 IT
»
0
13 7 37.25
1.78W
N. 0 35 38.6
14.160
0
13 31 31.46
1.7897
S.IO 39 13.9
13.357
1
13 9 11.59
1.7S88
0 3K19.1
14.166
1
13 33 18.93
1.7925
10 43 37 8
13.221
2
13 10 55.91
1.7S84
N. 0 r 9.7
14.156
8
13 35 6.56
1.7953
10 55 39.3
13.188
3
13 13 40.31
1.7380
S. 0 6 59.6
14.158
3
13 36 54.36
1.7981
11 8 49.1
13.144
4
13 14 34.48
1.7t77
0 31 8.6
14.148
4
13 38 43.33
1.8000
11 81 56.5
13.105
5
13 16 8.73
1.78T4
0 35 17.3
14.143
5
13 40 30.47
1.8038
11 35 1.6
134)06 j
6
13 17 53.97
1.7872
0 49 35.8
14.137
6
13 43 18.79
1.807O
11 48 4.4
izjom <
7
13 19 37.19
1.7371
1 3 33.9
14.131
7
13 44 7.30
1.8101
13 1 4.7
13.065 '
8
13 31 31.41
1.7370
1 17 41.6
14.124
8
13 45 56.00
1.8182
13 14 3.5
19.041 j
9
13 33 5.63
1.7370
1 31 48.8
14.116
9
13 47 44.89
1.8165
13 86 57.7
12.900 1
10
13 34 49.85
1.7871
1 45 55.5
14.107
10
13 49 33.98
1.8198
18 39 50.4
12.856
11
13 36 34.08
1.737?
8 0 1.7
14.008
11
13 51 33.37
1.8281
13 58 40.5
13.813 i
13
13 38 18 31
1.7873
3 14 7.5
14UM0
13
13 53 13.76
1.8265
13 5 37.9
13.7W i
13
13 30 3.55
1.7875
3 38 13.6
14.081
13
13 55 3.45
1.8300
13 18 13.5
13.721 ,
14
13 31 46.81
1.7878
3 43 17.0
14.070
14
13 56 53.36
1.8386
13 30 54.3
13.672
15
13 33 31.09
1.7863
3 56 30.8
14.058
15
13 58 43.49
1.8373
13 43 33.3
13.636 I
16
13 35 15.41
1.7888
3 10 23.8
14.045
16
14 0 33.84
1.8410
13 56 9.3
13.678 1
17
12 36 59.75
1.7303
3 24 26.1
14.082
17
14 8 33.41
1.8447
14 6 43.5
13.029 1
18
13 38 44.13
1.7899
3 38 27.6
14.018
18
14 4 14.31
1.8486
14 21 13.7
13.478 1
19
13 40 38.53
1.7406
3 52 28.2
14.003
19
14 6 5.35
1.8525
14 33 39.8
13.426
30
13 43 13.98
1.7414
4 6 37.9
13.987
30
14 7 56.53
1.8664
14 46 3.8
12.375 !
31
13 43 57.48
1.7428
4 30 36.6
13.970
31
14 9 48.03
1.8608
14 58 34.7
13322 '
33
13 45 43.04
1.7431
4 34 34.3
13.962
32
14 11 39.78
1.8643
15 10 43.4
13.268 1
33
13 47 36.65
TU
1.7438
ESDA^
S. 4 48 30.9
r 2.
13.934
83
14 13 31.77
THl
1.8665
JRSDA
S.15 23 56.8
T 4.
13.313 ^
0
13 49 11.31
1.7447
S. 5 8 16.4
13.916
0
14 15 34.01
1.8738
S.15 35 7.9
13.157 1
1
13 50 56.03
1.7466
5 16 10.8
13.897
1
14 17 16.51
1.8n«
15 47 15.6
13.100 '
3
13 53 40.83
1.7470
6 30 4.1
13.876
3
14 19 9.38
1.8816
15 59 19.9
VUM 1
3
13 54 35.69
1.7482
5 43 56.3
13.855
3
14 31 3.31
1.8660
16 11 30.8
11.986 j
4
13 56 10.63
1.7495
5 57 47.0
13.885
4
14 33 55.61
1.8904
16 33 18.3
11.928 j
5
13 57 55.65
1.7608
6 11 36.5
13.814
5
14 34 49.16
1.8049
16 35 13.0
11.867
6
13 59 40.75
1.7523
6 35 34.7
13.792
6
14 36 43.98
1.8004
16 47 8.1
11.806 '
7
13 1 35.94
1.7538
6 39 11.5
13.770
7
14 38 37.07
L9040
16 58 48.6
11.745 1
8
13 3 11.33
1.7554
6 53 56.9
13.746
8
14 30 31.45
1.9087
17 10 31.4
11.682 1
9
13 4 56.60
1.7571
7 6 40 9
13.720
9
14 33 36.13
1.9135
17 S3 10.4
11US18 1
10
13 6 43.07
1.7588
7 30 33.3
13.603
10
14 34 31.07
1.9182
17 33 45.6
11354
11
13 8 37.65
1.7606
7 34 4.1
13.667
11
14 36 16.31
1.9230
17 45 16.9
11.492
13
13 10 13.34
1.7024
7 47 43.8
18.641
18
14 38 11.85
1.9279
17 56 44.4
11.426 '
13
13 11 59.14
1.7643
8 1 80.9
13.618
13
14 40 7.69
ia»30
18 8 7.9
11.356 1
14
13 13 45.06
1.7662
8 14 56.8
13.664
14
14 43 3.83
1.9881
18 19 37.3
11.290 1
15
13 15 31.09
1.7682
8 38 31.0
13.554
15
14 44 0.36
1.0482
18 30 43.6
11320
16
13 17 17.34
1.7702
8 43 3.3
13.524
16
14 45 57.00
1.9482
18 41 53.7
11.160
17
13 19 3.53
1.7725
8 55 33.8
13.498
17
14 47 54.05
1.9583
18 53 0.6
11.060
18
13 30 49.94
1.7748
9 9 3.5
13.461
18
14 49 51.41
1.9666
19 4 3.3
11.010
19
13 33 36.50
l.Tn2
9 33 39.3
13.429
19
14 51 49.09
1.9689
19 15 1.7
10338
30
13 34 33.30
1.7795
9 35 54.0
13.897
80
14 53 47.09
1.9e88
19 86 55.7
10368
31
13 36 10.04
1.7819
9 49 16.9
13.864
21
14 55 45.41
1.9747
19 36 45.8
10.786
33
13 37 57.03
1.7844
10 3 37.7
13.330
22
14 57 44.05
1.0601
19 47 30.8
10.712
33
13 39 44 16
1.7870
10 15 56.4
13.298
23
14 59 43.03
1.9667
19 58 10.6
10 635
34
13 31 31.46
1.7897
S.IO 39 13.9
13.207
84
15 1 43.33
1.9914
S.80 8 46.4
10360
VI.
SEPTEMBER, 1856.
151
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Ihoop.
DUt
forlm.
DUt.
forlm.
Hour.
Dur.
forlm.
DacUmUion.
DHL
forlm.
Fl
UDAY
5.
SUNDAY
7.
h. m. t.
1.
O f If
u
h. m. 0.
t.
O 1 »
II
0
15 1 42 33
1J914
S.20 8 46.4
10.000
0
16 44 15.84
9.3873
s.26 45 46.1
0449
1
15 3 41.96
iMm
20 19 17.6
10.490
1
16 46 33.25
3.3983
26 51 15.1
5417
9
15 5 41.93
uxm
20 29 44.0
10.401
2
16 48 51.02
9.3993
26 66 36.2
5.364
3
15 7 42.23
iMflB
20 40 5.6
10J90
3
16 51 9.16
94054
27 1 49.4
5.153
4
15 9 42.88
%01U
20 50 22.3
10.930
4
16 53 27.67
94114
27 6 64.4
0416
5
15 11 43.88
Uim
21 0 34.0
10.106
5
16 55 46.53
94173
27 11 61.2
4.876
e
15 13 45.22
U}M\
21 10 40.8
vuni
6
16 58 5.74
94333
27 16 39.7
4.740
7
15 15 46.91
S.0tlO
21 20 42.5
9.987
7
17 0 25.30
94390
27 21 19.9
4401
8
15 17 48.95
94010
21 30 39.1
OJOl
8
17 2 45.21
94348
27 25 61.7
4400
9
15 19 51.35
3.0480
21 40 30.5
0.819
9
17 5 5.47
94405
27 30 15.0
4416
10
15 21 54.12
S4M90
21 50 16.6
0.798
10
17 7 26 07
94403
27 34 29.8
4.176
11
15 23 57.25
S4U0
21 50 57.5
9.038
11
17 9 47.01
94016
27 38 36.0
4480
Id
15 26 0.73
9.0010
22 9 33.1
0.048
12
17 12 8.29
94075
27 42 33.5
8486
13
15 28 4.57
9.0070
22 19 3.2
0.407
13
17 14 29.91
94030
27 46 22.4
8.743
14
15 30 8.77
9.0710
22 28 27.8
0.304
14
17 16 51.85
94004
27 50 2.6
8404
15
15 32 13.33
9.0700
22 37 46.8
9.909
15
17 19 14.10
94735
27 53 33.7
8447
16
15 34 18.26
9.0051
22 47 0.1
0.176
16
17 21 36 67
34786
27 56 66.0
8496
17
15 36 23.56
94019
22 66 7.7
0.092
17
17 23 59.56
94843
28 0 9.3
8.140
18
15 38 29.22
9^0074
23 5 9.7
8.084
18
17 26 22.77
94805
28 3 13.7
9406
19
15 40 35.25
9.1080
23 14 5.8
8487
19
17 28 46.29
94945
28 6 9.0
9446
20
15 42 41.66
9.1000
23 22 56.0
8.780
20
17 31 10.11
94804
28 8 65.1
9401
21
15 44 48.44
9.1109
23 31 40.1
8480
21
17 33 34.21
9.4043
28 11 31.9
9437
22
15 46 55.60
9.199ft
23 40 18.2
8460
22
17 35 58.61
3.4003
28 13 59.5
9483
23
15 49 3.14
SAl
9.19B8
'UBDA
S.23 48 50.3
lY 6.
6.484
23
17 38 23.31
MO
3.4141
iNDAl
S.28 16 17.8
' 8.
9496
0
15 51 11.06
9.1909
S.23 67 16.2
8.979
0
17 40 48.30
34180
S.28 18 26.7
9471
1
15 53 19.36
9.1410
24 5 35 8
8.9T4
1
17 43 13 57
94980
28 20 26.2
1413
9
15 55 28.04
9.1478
24 13 49.1
8.108
2
17 45 39.11
94376
28 22 16.2
1.703
3
15 57 37.10
9.1A49
24 21 56.1
8.003
3
17 48 4.91
94831
28 23 66.6
1400*
4
15 59 46.54
9.1000
24 29 56.7
7.960
4
17 50 30.97
34863
28 25 27.5
1434
5
16 1 56.37
9.1070
24 37 60.7
7.845
5
17 52 57.27
94405
28 26 48.7
1473
6
16 4 6.57
9.1733
24 45 38.1
7.734
6
17 56 23.82
94445
28 28 0.2
1.113
7
16 6 17.16
9.1790
24 53 18.8
7433
7
17 67 60.61
9.4485
S8 29 2.0
0447
8
16 8 28.14
9.18»
25 0 52.8
7411
8
18 0 17.64
94035
28 29 63.9
0.786
9
16 10 39.50
9.1096
25 8 20.0
7498
9
18 2 44.91
94065
28 30 36.0
0433
10
16 12 51.25
9.1001
25 15 40.4
7484
10
18 6 12.42
94003
28 31 8.3
0400
11
16 15 3.39
9.9000
25 22 53.8
7.107
11
18 7 40.13
94036
28 31 30.6
0.380
12
16 17 15.93
9.91i9
25 30 0.3
7400
12
18 10 8.04
9.4070
28 31 42.9
0.130
13
16 19 28.85
9.9186
25 36 59.7
0433
13
18 12 36.16
94704
28 31 45.1
^0440
14
16 21 42.15
9.9918
25 43 51.9
0413
14
18 15 4.48
34736
28 31 37.3
^0413
15
16 23 55.82
9.9S10
25 50 37.0
8491
15
18 17 33.00
94770
28 31 19.4
0483
16
16 26 9.87
9.9378
25 57 14.8
0467
16
18 20 1.71
94800
28 30 61 3
0454
17
16 28 24.30
9.9437
26 3 45.2
8443
17
18 22 30.68
94837
28 30 13.0
0.731-
18
16 30 39.11
9.9001
26 10 8.1
0433
18
18 24 59.61
94853
28 29 24.6
0403
19
16 32 54.30
9.9000
26 16 23.6
0.196
19
18 27 28.81
94878
28 28 25.9
1404
20
16 35 9.87
9.9897
26 22 31.5
0400
20
18 29 58.17
94006
28 27 16.9
1486
21
16 37 25.81
9.9080
26 28 31.7
6.041
21
18 32 27.69
94800
28 25 67.6
140T
22
16 39 42.12
9.9700
26 34 24.3
0 819
22
18 34 57.36
94000
28 24 28.0
1480
23
16 41 58.80
9.9810
26 40 9.1
0483
23
18 37 27.15
940n
28 22 48.0
1.753
24
16 44 15.84
9.9879
S.26 45 46.1
0449
24
18 39 57.07
94997
S.28 20 67.6
1438
152
SEPTEMBER, 1856.
VII.
GREENWICH MEAN TIME.
THE M00N*8 RIGHT ASCENSION AND DECLINATION.
Uoar.
Right Afloeiuloa.
INS.
forlm.
DeoHnfttkm.
Difl:
forlm.
Honr.
Bight AMendoD.
Dlff.
fbrlm.
DtnHnatlon,
una.
fl>rliii.|
TUESDAY 9.
THURSDAY 11.
1
h. m. t.
t.
O 1 It
N
b. m. f.
f.
o # »
•
0
18 39 67.07
9.4997
S.28 20 57.6
1.996
0
90 40 3.97
94040
S.93 97 91.5
M.1BI
1
18 42 27.11
2Mn
28 18 56.8
9.100
1
90 49 31.02
94610
93 17 5.3
10480
3
18 44 57.26
3.fiOSS
28 16 45.5
9.774
2
20 44 58.59
94061
23 6 39.6
10401
3
18 47 27.51
9.M49
28 14 23.8
9.449
3
90 47 25.98
94000
22 56 4.5
10464
4
18 49 57.85
9JX)65
28 11 51.6
9.aa
4
90 49 53.18
34016
22 45 20.0
10419
5
18 52 28.28
3.0081
28 9 8.9
9J01
5
90 59 90.18
94490
22 34 26.2
104T6
6
18 54 58.81
9.a006
28 6 15.6
9JT6
6
90 54 46.99
94409
22 23 23.1
11.190
7
18 57 29.42
%sim
28 3 11.8
9.161
7
90 57 13.60
94418
22 12 10.8
11.989
8
19 0 0.10
S.61I7
27 59 57.4
t.177
8
90 59 40.01
94980
22 0 40.5
11499
9
19 2 30.82
%5l7t
27 56 32.5
9.009
9
91 9 6.92
94S09
91 40 19.1
11460
10
19 5 1.57
%tm
27 52 57.0
9^060
10
21 4 32.23
94817
91 37 39.7
11.791
11
19 7 32.41
3.A14S
27 49 10.9
9.887
11
21 6 58.03
94984
91 25 51.5
11479
19
19 10 3.29
9.6100
27 45 14.2
4489
12
21 9 23.63
94900
21 13 54.6
19431
13
19 12 34.21
9.61A3
27 41 6.9
4.911
13
21 11 49.02
9431S
21 1 48.9
19.167
14
19 15 5.14
9.6107
27 36 49.0
4400
14
21 14 14.19
94176
20 49 34.6
19419
15
19 17 36.08
9.0106
27 32 20.6
440i
15
21 16 39.14
94141
20 37 11.7
19499
16
19 20 7.03
9.0106
27 27 41.6
4.798
16
21 19 3.88
94106
20 94 40.4
19499
17
19 22 37.98
9.0106
27 22 52.0
4416
17
21 21 28.41
94073
90 19 0.7
19.799
18
19 25 8.93
9.0106
27 17 51.8
6493
18
21 23 52.73
94036
19 59 19.7
19489
10
19 27 39.87
9.0100
27 12 41.0
6.968
19
21 26 16.83
94998
19 46 16.5
19406
20
19 30 10.79
9.0100
27 7 19.7
6.443
90
21 28 40.71
94903
19 33 19.1
19.149
21
ia32 41.68
9.0147
27 1 47.9
6419
21
21 31 4.37
949M
19 19 59.5
i9.tn
22
19 35 12.54
9.0140
26 56 5.5
6.799
29
21 33 27.81
94889
19 6 38.9
19411
23
19 37 43.36
WEDI
9.0U4
^ESD^
S.20 50 12.6
LY 10.
6471
93
91 35 51.04
FR
94806
IDAY
S.18 53 10.4
12.
19489
0
19 40 14.14
9.0177
S.26 44 9.1
6.147
0
91 38 14.06
94818
s.18 39 34.9
19499
I
19 42 44.87
9.0118
26 37 55.1
6419
1
91 40 36.86
94783
18 95 50.3
1X791
2
19 45 15.54
9.0106
26 31 30.7
6.494
9
91 49 59.44
94746
18 11 58.7
I9.n9{
3
19 47 46.14
9.0OB5
26 24 55.8
6.670
3
91 45 91.81
94708
17 57 59.6
14449
4
19 50 16.67
9.0O6S
26 18 10.4
6.844
4
91 47 43.94
94608
17 43 53.1
14.169 ,
5
19 52 47.12
9.0007
26 11 14.6
7410
5
91 50 5.83
94677
17 99 39.3
14499 '
6
19 55 17.48
9JAM
26 4 8.5
7.188
6
91 59 27.49
94003
17 15 18.2
14411 ■
7
19 57 47.75
9.0088
25 56 52.0
7463
7
91 54 48.95
94061
17 0 50.0
14491 I
8
20 0 17.93
9.4023
25 40 25.1
7.097
8
91 57 10.21
94036
16 46 14.7
14447
9
20 2 48.01
9.0005
25 41 47.8
7.707
9
91 59 31.26
94491
16 31 39.5
14.799 1
I 10
20 5 17.98
9U965
25 34 0.3
7478
10
22 1 52.10
94406
16 16 43.5
14476
11
20 7 47.83
9.4960
25 26 2.6
8449
11
22 4 12.73
94438
16 1 47.7
14499
12
20 10 17.56
9.4946
25 17 54.6
8.310
19
22 6 33.15
94989
15 46 45.3
16496 '
18
20 12 47.17
9.49)4
25 9 36.5
8487
13
22 8 53.34
94948
15 31 36.4
16499
< 14
20 15 16.65
9.4903
25 1 8.3
6464
14
22 11 13.33
94916
15 16 91.1
1*411 1
1 ^*
20 17 46.00
9.4881
24 52 30.1
8.798
15
22 13 33.12
94980
15 0 59.4
16419 1
16
20 20 15.21
9.4836
24 43 41.8
8488
16
22 15 52.70
94947
14 45 31.6
16416 <
17
20 22 46.27
9.4831
24 34 43.6
9403
17
22 18 12.08
94919
14 99 57.7
i64ry
18
20 25 13.18
9.4807
24 25 35.5
9418
18
22 90 31.26
94183
14 14 17.8
16.7tt
1 19
20 27 41.94
9.4781
24 16 17.5
9463
19
99 99 50.25
94147
18 68 39.1
16410 ,
90
20 30 10.54
9.4703
94 6 49.7
9444
90
99 95 9.04
94118
13 49 40.6
164a9|
1 21
20 32 38.97
9.4736
23 57 12.2
9.706
91
99 97 97.65
94087
13 96 43.3
M4M 1
22
20 35 7.24
9.4897
93 47 25.0
9466
99
99 99 46.07
94069
13 10 40.5
mm
23
20 37 35.34
9.4070
23 37 28.1
16490
93
99 39 4.29
94018
19 54 32.3
M.M9
24
20 40 3.27
9.4640
S.93 27 21.5
10.191
94
99 34 99.31
9.9989
S.19 38 18.7
M410
VIII.
SEPTEIOBER, 1856.
153
GREENWICH MEAN TIME.
THE MOON'S BIGHT
ASCENSION AND DECLINATION.
Oov.
Dur.
forlm.
ma.
forlm.
Hour.
BighlAMeo0km.
DIff.
forlm.
Deelinattoa.
IHff.
forlm.
SAT
URDA
Y 13.
MONDAY
15.
h. B. t.
t.
O 1 H
M
h. m. 1.
■.
O 1 »
If
0
88 34 99.31
imo
S.19 38 18.7
16.370
0
0 22 21.80
9.9989
N. 1 96 42.8
18.168
1
99 36 40.16
S.IMO
19 91 50.0
16.856
1
0 24 35.59
9.3966
1 44 51.0
18.148
9
99 38 57.84
9J8I1
12 5 35.9
16.4a
9
0 26 49.32
9.3990
2 3 0.3
18.133
3
99 41 15.34
S.990S
11 49 6.9
16.596
3
0 29 3.08
9.9995
2 21 7.8
18.118
4
89 43 39.67
9.9875
11 39 33.0
16.606
4
0 31 16.87
9.9J00
9 39 14.3
18.101
5
99 45 40.83
f.9M
11 15 54.4
16.864
5
0 33 30.70
9.9806
9 57 19.7
18.083
•
99 48 6.81
S.9810
10 59 11.1
16.760
6
0 35 44.56
9.9318
3 15 94.0
18.061
7
99 50 93.63
9.9n99
10 49 93.3
16.888
7
0 37 58.47
9.9894
3 33 26.0
18Un6
8
99 59 40.30
%am6
10 85 31.1
16.006
8
0 40 12.45
9.3837
3 51 28.3
]8U>13
9
99 54 56.81
urn
10 8 34.5
16.980
0
0 49 96.50
9.3346
4 9 28.2
17.986
10
89 57 13.17
S.97U
0 51 33.7
17.048
10
0 44 40.61
9.3850
4 27 26.4
17.955
11
99 50 90.38
930B8
0 34 98.0
17.114
11
0 46 54.79
9.9865
4 45 22.7
17.938
18
93 1 45.43
9.9664
0 17 90.2
17.179
19
0 40 0.02
3.3877
5 3 17.0
17.886
18
93 4 1.34
9.9641
0 0 7.6
17.949
13
0 51 23.34
9.3305
5 21 0.2
17.853
14
83 6 17.19
9.9619
8 49 51.3
17409
14
0 53 37.75
941408
5 38 50.2
17.818
15
93 8 39.77
9.9607
8 95 31.4
17.669
15
0 55 52.24
9.3499
5 56 47.0
17.777
1«
93 10 48.90
9.9f7ft
8 8 8.0
17^18
16
0 58 6.82
9.9439
6 14 32.3
17.784
17
93 13 3.68
9.96M
7 50 41.3
n^9
17
1 0 21.50
3.9457
6 32 15.0
17.660
18
93 15 18.04
9.96IS
7 33 11.4
17.535
18
1 2 36.29
9.3473
6 40 55.0
17.649
10
93 17 34.08
9.96U
7 15 38.4
n.576
10
1 4 51.18
9.3499
7 7 32.3
17.866
00
93 10 40.11
9.9490
6 58 9.4
17.695
20
1 7 6.18
9.9507
7 25 6.6
17.&I6
91
93 99 4.03
9.9478
6 40 23.5
n.«78
91
1 9 21.28
9.3537
7 42 37.8
17.496
80
93 94 18.85
%9m
6 99 41.8
n.7i8
22
1 11 36.50
9.3547
8 0'5.9
17.443
83
93 96 83.57
SUl
9.9446
C«)AY
S. 6 4 57.5
14.
17.769
93
1 13 51.84
TUI
9.3566
:SDAY
N 8 17 30.7
16.
17.387
0
83 88 48.10
9.9499
S. 5 47 10.6
17.808
0
1 16 7.30
9.9667
N 8 34 59.1
17.897
1
83 31 8.79
9.9414
5 90 91.4
17.841
1
1 18 92.89
9.3600
8 59 0.0
17.366
8
83 33 17.16
9.9M8
5 U 99.9
17.876
9
1 20 38.61
9.3099
0 0 94.1
17.306
3
83 35 31.51
9.9689
4 53 36.3
17.918
3
1 22 54.46
9.9653
0 96 34.5
17.143
4
83 37 45.78
9.9688
4 85 40.6
17.048
4
1 25 10.46
9.9678
0 43 41.0
njne
5
83 80 50.00
9.9666
4 17 43.1
17J78
5
1 27 96.61
9.9706
10 0 43.5
nM»
6
83 49 14.13
%am
3 50 43.8
184»9
6
1 99 49.99
9^780
10 17 41.9
16.938
7
83 44 98.90
9.9660
3 41 42.0
18.098
7
1 31 50.38
9.3757
10 34 36.0
16.868
8
93 46 49.91
9.9663
3 93 40.5
18.005
8
1 34 16.00
9.9789
10 51 95.8
16.798
0
93 48 56.17
9.9891
3 5 36.6
18.076
0
1 36 .32.77
9.9807
11 8 11.1
16.717
10
93 51 10.07
9.98U
9 47 31.5
18.005
10
1 38 40.71
9.3887
11 94 51.8
16.643
11
93 53 93.09
9.9806
2 90 95.3
18.119
11
1 41 6.81
9.3867
11 41 97.8
16.663
19
93 55 37.79
9.9M
9 11 18.1
18.190
19
1 43 24.10
9.3B05
11 57 50.9
16.483
13
83 57 51.48
9.9909
1 53 10.0
18.149
13
1 45 41.56
3.9994
12 14 25.6
16.890
14
^0 0 5.98
9.9988
1 35 1.0
18.159
14
1 47 59.20
9.9967
19 30 47.0
16.816
15
0 8 18.04
9.9985
1 16 51.6
18.169
15
1 50 17.03
9.9987
19 47 3.3
16.998
16
0 4 39.64
9.998S
0 58 41.6
18.179
16
1 52 35.03
9J0I8
13 3 14.3
16.141
17
0 6 46.32
9.9978
0 40 31.1
18.170
17
1 54 53.24
2.8047
13 10 90.0
16460
18
0 8 50.07
9.9378
0 92 20.3
16.189
18
1 57 11.62
9.30n
13 35 20.2
15.968
10
0 U 13.61
9.9978
S. 0 4 0.4
18.189
19
1 50 30.19
9.8109
13 51 14.8
15.866
80
0 13 97.95
9.9375
N. 0 14 1.5
18.189
20
2 1 48.96
3.8147
14 7 3.7
15.768
81
0 15 40.00
9.9174
0 32 12.3
18.180
21
9 4 7.94
3.3179
14 22 46.8
15.668
89
0 17 54.55
9.9375
0 50 22.9
18.174
22
9 6 97.12
9.8915
14 38 23.0
15.560
83
0 90 8.21
9.9978
1 8 33.1
18.187
23
2 8 46.51
3.3248
14 53 55.1
15.471
84
0 99 91.80
9.9989
N. 1 26 42,8
18.158
24
9 11 6.10
3.8980
N.15 0 20.4
15.870
20
154
SEPTEMBER, 1856.
IX.
GREENWICH
MEAN TIME.
n
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Door.
Right Aaoeniion.
Dur.
for 1 m.
DecUaation.
Dur.
forlm.
Uoar.
DUL
forlm.
DHL
forlm.
WEDNESDAY 17.
»
FRIDAY
19.
h. m. t.
■.
o «
N
h. m. f.
t.
O 1 »
•
0
2 11 6.10
3.S980
N.15 9 20.4
16J70
0
4 7 6.39
34908
N.24 68 67.2
8488
1
2 13 25.89
9Mn
15 24 39.5
15.965
1
4 9 36.43
34091
25 7 33.2
8414
2
2 15 45.90
9.8S&S
15 39 52.2
lft.160
2
4 12 6.63
34047
26 16 69.0
8446
3
2 18 6.13
3.9390
15 54 58.5
15U)51
3
4 14 36.98
34070
26 24 14.7
s.m
4
2 20 26.58
3.3406
16 9 58.2
14.939
4
4 17 7.47
34098
26 32 20.3
BMB
5
2 22 47.25
3.340-3
16 24 51.2
14.899
5
4 19 38.10
34115
26 40 16.6
7.885
6
2 25 8.13
3.8496
16 39 37.5
14.714
6
4 22 8.87
34146
25 48 0.6
IMJ
7
2 27 29.23
3.8084
16 54 16.9
14.600
7
4 24 39.79
34168
25 66 36.4
7.499
8
2 29 50.55
3.8671
17 8 49.4
14.484
8
4 27 10.83
34184
26 2 60.8
7493
9
2 32 12.09
3.3009
17 23 14.9
14.368
9
4 29 41.99
34908
26 10 13.9
7.149
10
2 34 33.87
3.3647
17 37 33.3
14.950
10
4 32 13.26
34991
26 17 17.6
0.974
11
2 36 55.87
3J0B5
17 51 44.4
14.137
11
4 34 44.64
94941
26 24 10.8
6.796
13
2 39 18.09
3.3798
18 5 48.3
14.004
12
4 37 16.13
34966
26 30 63.6
6.098
13
2 41 40.54
3.8761
18 19 44.8
18.880
13
4 39 47.71
34371
26 37 26.6
0418
14
2 44 3.22
3.8799
18 33 33.8
18.754
14
4 42 19.38
34387
26 43 47.2
6.379
15
2 46 26.13
3.8887
18 47 15.2
13.637
15
4 44 51.14
34999
26 49 68.2
0406
16
2 48 49.27
3.387ft
19 0 48.9
13.498
16
4 47 22.97
34811
26 65 68.6
6.918
17
2 51 12.64
3.3918
19 14 14.8
18.367
17
4 49 54.87
94838
27 1 48.4
ft.749
18
2 53 36.23
3.8951
19 27 32.8
13.933
18
4 52 26.84
34884
27 7 27.6
6404
19
2 56 0.05
3J»e9
19 40 42.8
13*101
19
4 54 58.87
34840
27 12 66.1
ft48ft
20
2 58 24.10
34097
19 53 44.8
19.966
20
4 67 30.95
348A3
27 18 13.9
6409
21
3 0 48.38
3406ft
20 6 38.7
19.899
21
6 0 3.07
34860
27 23 21.1
6481
22
3 3 12.88
34108
20 19 24.3
19.691
22
6 2 35.24
34864
27 28 17.6
4453
23
3 5 37.62
THU
34148
RSDA^
N.20 32 1.6
Y 18.
19.558
23
6 6 7.43
SAT
3416ft
URDA
N27 33 3.4
Y 20.
4.074
0
3 8 2.60
34186
N20 44 30.6
13415
0
6 7 39.63
34809
N.27 37 38.6
4497
1
3 10 27.82
34390
20 56 51.2
19.379
1
6 10 11.85
34871
27 42 2.9
441ft
2
3 12 53.25
,349ftft
21 9 3.2
19.198
2
6 12 44.08
34878
27 46 16.6
4.IS8
3
3 15 18.90
34997
21 21 6.6
11J89
3
6 15 16.32
34874
27 60 19.4
8J0S
4
3 17 44.79
3.4833
21 33 1.2
11.888
4
6 17 48.56
34874
27 64 11.6
8.779
5
3 20 10.90
34370
21 44 47.1
11.688
5
6 20 20.78
34373
27 67 62.9
8489
6
3 22 37.23
34407
21 56 24.2
11.518
6
5 22 52.98
34368
28 1 23.6
8491
7
3 25 3.78
3.4444
22 7 52.3
11.393
7
5 25 25.16
34300
28 4 43.6
8.9<9
8
3 27 30.55
3.4181
22 19 11.4
11.943
8
5 27 57.29
3.ff3M
28 7 62.7
8464
9
3 29 57.54
34ftl7
22 30 21.5
11.099
0
6 30 29.36
3.5843
28 10 61.2
3480
10
3 32 24.74
3.4ftftS
22 41 22.4
10.938
10
5 33 1.39
3.5883
28 13 39.0
3.707
11
3 34 52.16
34fi88
22 52 14.0
10.784
11
5 35 33.36
34894
28 16 16.1
3499
12
3 37 19.79
3.4699
23 2 56.3
10.696
12
5 38 5.27
34814
28 18 42.6
3451
13
3 39 47.63
346ftft
23 13 29.1
10466
13
5 40 37.11
34800
28 20 68.2
9.179
14
3 42 15.66
3468B
23 23 52.4
10.811
14
^ 43 8.86
3.5986
28 23 3.2
1496
15
3 44 43.89
S.473I
23 34 6.4
10.158
15
5 45 40.51
34909
28 24 67.6
14n
16
3 47 12.32
347ftl
23 44 11.1
10.001
16
5 48 12.07
34851
28 26 41.3
i-ms
17
3 49 40.94
94787
23 54 6.3
9.840
17
5 50 43.52
S4388
28 28 14.4
1467
18
3 52 9.75
3.4890
24 3 51.8
9.6n
18
6 63 14.86
34918
28 29 37.1
1.9B1
19
3 54 38.76
34849
24 13 27.5
9.518
19
6 55 46.08
94194
28 30 49.2
l.IU
20
3 57 7.94
34877
24 22 63.3
9.848
20
6 68 17.18
34173
28 31 60.7
0.986
21
3 59 37.29
34808
24 32 9.2
9.183
21
6 0 48.15
34148
28 32 41.6
0.76D
22
4 2 6.82
34936
24 41 15.2
9.017
22
6 3 18.96
34133
28 33 22.0
0466
23
4 4 36.52
3.4968
24 50 11.2
8.850
23
6 5 49.62
34098
28 33 62.0
0416
24
4 7 6.39
3.4993
N.24 58 57.2
8.685
24
6 8 20.13
34078
N.28 34 11.7
C.949
X.
SEPTEMBER, 1856.
155
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Blgbl Aaeeniioii.
Ibrlm.
SMUnattOD.
DUL
forlm.
Hoar.
BighlAfoeukm.
DUL
forlm.
DUt.
forlm.
su.
NDAY
21.
TUESDAY 23.
b. m. ■.
O 1 N
»
h. m. 1.
1.
o 1 ir
»
0
6 8 20.13
N^ 34 11.7
0.349
0
8 3 37.41
3J9669
N.25 41 25.0
7.000
1
6 10 50.48
2Mii
28 34 21.0
0.009
1
8 5 53.23
3.3006
25 34 18.3
7. no
3
6 13 20.68
2M\&
28 34 19.9
0.104
2
8 8 8.67
3.3544
26 27 4.2
7.399
3
6 15 50.63
3.4865
28 34 8.5
0.976
3
8 10 23.73
3.3479
25 19 42.6
7.431
4
6 18 20.44
3.4MS
28 33 46.7
0.447
4
8 12 38.38
3.3410
25 12 13.8
7.549
5
6 20 50.05
3.4990
28 33 14.8
0.017
6
8 14 52.62
3.3847
25 4 37.7
7.609
6
6 23 19.45
3.4866
28 32 32.7
0.787
6
8 17 6.52
3.3383
24 66 54.4
7.781
7
6 25 48.66
3U850
28 31 40.4
0.966
7
8 19 20.02
3.3917
24 49 4.1
7.880
8
6 28 17.65
3.4613
28 30 38.0
1.138
8
8 21 33.12
3.9161
24 41 6.7
84)15
9
6 30 46.41
3.4T76
28 29 25.6
1.390
9
8 23 45.83
9.3085
24 33 2.4
8.130
10
6 33 14.95
3.4788
28 28 3^
1.497
10
8 25 58.14
3.9019
24 24 51.2
8.348
11
6 35 43.26
3.4006
28 26 30.8
1.033
11
8 28 10.06
3.1958
24 16 33.2
6.350
12
0 38 11.32
34066
28 24 48.4
1.788
12
8 30 21.59
3.1688
24 8 8.6
8.465
* 13
6 40 30.13
3.4014
28 22 56.2
1.954
13
8 32 32.72
3.1694
23 59 37.4
8.075
14
6 43 6.69
3.4«79
28 20 54.2
3.119
14
8 34 43.47
3.1769
23 50 59.6
6.084
15
6 45 34.00
3.4099
28 18 42.2
3.389
16
8 36 53.83
3.1084
23 42 15.3
8.799
16
6 48 1.04
3.4460
28 16 20.5
3.443
16
8 39 3.80
3.1699
23 33 24.6
8.896
17
6 50 27.80
3.4480
28 13 49.3
3.009
17
8 41 13.38
3.166S
23 24 27.6
9.008
18
6 52 54.29
3.4803
28 11 8.5
3.761
18
8 43 22.56
3.1498
23 15 24.3
9.107
19
6 55 20.50
3.4044
28 8 18.0
3.919
19
8 45 31.36
3.1433
23 6 14.8
9.910
20
6 57 46.42
3.4306
28 5 18.1
8.077
20
8 47 39.77
3.1371
22 56 59.2
9.811
21
7 0 12.05
3.4348
28 2 8.7
3.984
21
8 49 47.80
3.1305
22 47 37.5
9.419
22
7 2 37.39
3.4196
27 58 49.9
3.890
22
8 51 55.44
3.1343
22 38 9.9
9.610
23
7 5 2.42
MO
3.4147
NDAY
N.27 55 21.9
22.
3.545
23
8 54 2.70
WEDI
3.1177
N.22 28 36.4
LY 24.
9.008
0
7 7 27.13
3.4000
N.27 51 44.6
S.099
0
8 56 9.57
3.1113
N.22 18 67.0
0.705
1
7 9 51.55
3.4043
27 47 58.1
3.853
1
8 68 16.06
3.1060
22 9 11.9
9.800
2
7 12 15.64
3.8086
27 44 2.6
4.004
2
9 0 22.17
3.0886
21 59 21.1
9.894
3
7 14 39.40
3.8088
27 39 57.9
4.154
3
9 2 27.90
QJ»M
21 49 24.7
9.966
4
7 17 2.84
3.8878
27 35 44.2
4JX»
4
9 4 33.26
3.0663
21 39 22.8
104)77
5
7 19 55.94
3.8838
27 31 21.6
4.460
5
9 6 38.25
3.0800
21 29 15.4
10.167
6
7 21 48.70
3.8767
27 26 50.2
4Mn
6
9 8 42.86
furm
21 19 2.7
10.366
7
7 24 11.14
3.8710
27 22 10.0
4.743
7
9 10 47.09
3UM74
21 8 44.7
10.344
8
7 26 33.23
3.8609
27 17 21,0
4.888
8
9 12 50.96
34)613
20 68 21.4
10.433
9
7 28 54.97
3JI004
27 12 23.2
5.089
9
9 14 54.45
34)553
20 47 52.8
10.519
10
7 31 16.36
3.8030
27 7 16.8
5.176
10
9 16 57.68
3.0499
20 37 19.1
10.004
11
7 33 37.40
3.3477
27 2 2.0
5.317
11
9 19 0.35
34)439
20 26 40.4
12
7 35 58.08
3.8418
26 56 38.8
5.467
12
9 21 2.76
94)873
20 15 56.8
10.708
13
7 38 18.41
3.8866
26 51 7.2
5.607
13
9 23 4.82
34)314
20 5 8.3
10.860
14
7 40 38.37
3.8990
26 45 27.2
5.737
14
9 25 6.53
34)955
19 54 14.9
10.981
15
7 42 57.96
3.8384
26 39 38.8
5.876
15
9 27 7.88
94)196
19 43 16.7
114)11
16
7 45 17.18
3J179
26 33 42.2
0.011
16
9 29 8.88
94)137
19 32 13.8
114)89
17
7 47 36.03
3.3110
26 27 37.6
6.146
17
9 31 9.53
94)079
19 21 6.2
11.105
18
7 49 54.61
3.8048
26 21 25.1
6.978
18
9 33 9.83
34)033
19 9 54.1
11.340
19
7 52 12.61
3.3985
26 15 4.6
6.410
19
9 35 9.79
1.9966
18 58 37.5
11.314
20
7 54 30.33
3.3939
26 8 36.2
6.540
20
9 37 9.42
1.9910
18 47 16.5
11.386
21
7 56 47.67
3.9856
26 1 59.9
6.660
21
9 39 8.71
1.9804
18 35 51.1
11.460
22
7 59 4.63
3.3796
25 55 15.8
6.797
22
9 41 7.66
1-9799
18 24 21.4
11.531
23
8 1 21.21
3.3783
25 48 24.2
6.934
23
9 43 6.29
1.9745
18 12 47.5
11401
24
8 3 37.41
3.3609
N.25 41 25.0
74)00
24
9 45 4.60
1.9091
N.18 1 9.4
11.670
156
SEPTEMBER, 1856.
XI.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
VUL
Ibrlm.
«^
Diff.
forlm.
Hoar.
Bight AKitilo..
Difl:
forlm.
dm:
ftrlm.
THURSDAY 25.
SATURDAY 27.
h. m. 1.
1.
O 1 »
N
h. n. ■.
f.
o t u
•
0
0 45 4.60
l.Mii
N.18 1 9.4
11470
0
11 14 96.66
1.TJ06
N. 7 40 30.6
lojn
1
9 47 9.59
IMTt
17 49 97.9
11.738
1
11 16 13.30
1.7701
7 96 40.0
10J07
9
0 49 0.95
1.M0I
17 37 40.9
11404
9
11 17 59.80
1.TJ06
7 19 48.0
10400
3
0 50 57.59
1.90aO
•17 95 50.7
11400
3
11 19 46.17
1.7710
6 58 54.5
I0JO9
4
0 59 54.61
1.M1B
17 13 56.6
11404
4
11 91 39.40
1.7000
6 44 59.8
10499
5
9 54 51.33
IMtl
17 1 58.6
11409
5
11 93 18.50
1.7070
6 31 3.9
10J041
6
9 56 47.75
i4sn
16 40 56.7
19468
6
11 95 4.48
1.7068
6 17 6.9
10400
7
9 58 43.86
1.0BS7
16 37 51.1
19.193
7
11 96 50.34
1.7010
6 3 8.8
10470
8
10 0 39.67
1.99T7
16 95 41.9
19.183
8
11 98 36.08
1.7018
5 49 9.5
10407
0
10 9 35.18
1.9»7
16 13 99.1
19444
9
11 30 91.70
1.7604
5 35 9.9
14414
10
10 4 30.39
1.0178
16 1 19.7
19400
10
11 39 7.91
1.7070
5 91 7.9
14400
11
10 6 95.31
1.0110
15 48 59.8
19481
11
11 33 59.69
1.7600
5 7 5.7
14444
19
10 8 10.95
1.0009
15 36 99.5
19.416
19
11 35 37.93
1.7648
4 53 9.7
14400
13
10 10 14.30
1.0006
15 94 9.8
19.471
13
11 37 93.14
1.700T
4 38 58.8
14479
14
10 19 8.37
14068
15 11 39.8
19497
14
11 39 8.96
1.7019
4 94 54.1
14406
16
10 14 9.16
140M
14 58 50.6
19480
15
11 40 53.99
1.7407
4 10 48.7
14407
16
10 15 55.68
1.6807
14 46 93.9
194N
16
11 49 38.93
1.7483
3 56 49.5
14.M0
17
10 17 48.93
14669
14 33 43.7
19484
17
11 44 93.09
1.7400
3 49 35.7
14.118
18
10 19 41.91
14606
14 91 1.1
19.786
18
11 46 7.87
1.7467
3 98 98.3
14.198
19
10 91 34.63
14706
14 8 15.6
19.784
19
11 47 59.58
1.7440
3 14 90.3
14.107
90
10 93 97.10
147»
13 55 97.1
19483
90
11 49 37.99
1.7406
3 0 11.8
U.146
91
10 95 19.31
14061
13 49 35.7
19461
91
11 51 91.79
1.7496
9 46 9.9
14.109
99
10 97 11.97
140»
13 99 41.4
19.096
99
11 53 6.31
1.7416
9 31 53.6
14.160
93
10 90 9.96
FB
140»
IDAY
N.13 16 44.3
26.
19474
98
11 54 50.77
SUI
1.7400
WAY
N. 9 17 43.9
28.
MJOO
0
10 30 54.44
iMm
N.13 3 44.5
11490
0
11 56 35.17
1.7000
N. 9 3 33.8
M.I1D
1
10 39 45.67
1.8118
19 50 49.0
10484
1
11 58 10.59
1.7088
1 49 93.4
14.176
9
10 34 36.66
14170
19 37 36.9
10.106
9
19 0 3.83
1.7081
1 35 19.8
M.I79
3
10 36 97.41
1.8441
19 94 99.3
10.148
3
19 1 48.11
1.7076
1 91 9.0
u.iei
4
10 38 17.95
1.8401
19 11 19.1
10.180
4
19 3 39.35
1.7000
1 6 51.1
14. M3
5
10 40 8.96
1.8M7
11 58 6.5
104K>
5
19 5 16.55
1.7000
0 59 40.1
14.104
0
10 41 58.35
i.8ni
11 44 51.4
tt.971
6
19 7 0.71
1.7000
0 38 99.0
14.106*
7
10 43 48.99
i.a»6
11 31 34.0
10410
7
19 8 44.85
1.7004
0 94 17.9
14.186
8
10 45 37.88
1.8060
11 18 14.3
18447
8
19 10 98.97
1.7001
N. 0 10 6.8
14.104
9
10 47 97.39
1.0904
11 4 59.4
10484
9
19 19 13.08
1.7000
S. 0 4 4.3
14.103
10
10 49 16.56
1.0100
10 51 98.3
10.490
10
19 13 57.18
l.7t#
0 18 15.9
14.101
11
10 51 5.60
14107
10 38 9.1
10.466
11
19 15 41.97
1.7147
0 39 95.9
14.170
19
10 59 54.45
14106
10 94 33.8
10.480
19
19 17 95.35
L70«O
0 46 36.3
14.170
13
10 54 43.11
140M
10 11 3.5
13499
13
19 19 9.49
1.7000
1 0 46.5
14.108
14
10 56 31.56
14000
0 57 31.9
10466
14
19 90 53.50
1.7040
1 14 56.4
14.109
15
10 58 10.85
14009
9 43 56.9
10487
15
19 99 37.59
1.7040
1 99 5.9
14.166
16
11 0 7.95
14001
0 30 90.8
10417
16
19 94 91.69
1.7061
1 43 15.0
14.140
17
11 1 55.87
1.7071
0 16 49.9
10447
17
19 96 5.80
1.7060
1 57 93.7
14.140
18
11 3 43.61
1.7041
9 3 3.9
10470
18
19 97 49.99
1.7880
9 11 39.0
14.111
10
11 5 31.18
1.70U
8 49 91.7
10.706
19
19 99 34.07
1.7000
9 95 39.7
14.190
90
11 7 18.59
1.7007
8 35 38.6
10.709
90
19 31 18.94
1.7008
9 39 46.8
14.110
91
11 9 5.84
1.7000
8 91 53.9
10.708
91
19 33 9.45
1.71T0
9 53 53.3
14.100
99
11 10 59.04
1.7007
8 8 7.7
10.784
99
19 34 46.69
l.70n
3 7 59.1
14400
93
11 19 39.88
1.7000
7 54 10.9
10400
93
19 36 30.97
1.7003
3 99 4.9
14470
94
11 14 96.66
1.7706
N. 7 40 30.6
13413
94
19 38 15.99
L70O1
S. 3 36 8.5
14401
XII.
SEPTEMBER, 1856.
157
— - - 1
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
BighlAmoBion.
DIff.
forlm.
DUL
forlm.
Hour.
BighlAMMMlOII.
DIff.
forlm.
DUt.
fbrlM.
MONDAY 29.
TUESDAY 30.
h. m. ■.
0.
O 1 H
IT
b. m. 1.
1
u
o 1 n
«
0
13 38 15.29
1.7391
S. 3 36 8.5
14.066
0
IS 20 21.53
1.7768
S. 9 8 6.3
18.636
1
12 39 59.66
1.7389
3 50 12.0
144)63
1
13 22 8.15
1.7781
9 31 36.6
18.493
3
12 41 44.08
1.7407
4 4 14.7
144)68
3
13 23 54.91
1.7806
9 35 5.0
18.466
3
12 43 28.55
1.7416
4 18 16.5
144R3
3
13 25 41.81
1.7880
9 48 31.5
13.434
4
12 45 13.07
1.749fl
4 32 17.4
lAJOm
4
13 27 28.87
1.7866
10 1 55.9
18.889
5
12 46 57.66
1.7416
4 46 17.3
UMO
5
13 29 16.08
1.7883
10 15 18.3
18J64
0
12 48 42.30
1.7447
5 0 16.1
11.973
6
13 31 3.43
1.7908
10 38 38.3
13318
7
12 50 27.02
1.74A9
5 14 13.8
11.964
7
13 32 50.96
1.7916
10 41 56.3
13.381
8
12 52 11.81
1.7472
5 38 10.4
11.965
8
13 34 38.65
1.7963
10 55 13.0
18.348
9
12 53 56.68
1.7487
5 42 5.9
11.916
9
13 36 26.50
1.7989
11 8 85.4
18.908
10
12 55 41.64
1.7801
5 56 0.2
11494
10
13 38 14.52
i.8on
11 31 36.4
18.168
11
12 57 26.68
1.7516
6 9 53.2
11.878
11
13 40 2.72
1.8047
11 34 45.0
18.138
12
12 59 11.79
1.7699
0 23 44.9
11.861
13
13 41 51.11
1.8077
11 47 51.3
13.083
13
13 0 56.99
1.7646
6 37 35.3
11.838
13
13 43 39.67
1.8107
13 0 55.1
18.043
14
13 2 42.30
1*7669
6 51 34.3
113)4
14
13 45 28.42
1.8118
12 13 56.3
13.999
15
13 4 27.72
1.7678
7 5 11.8
11.778
15
13 47 17.35
1.8171
12 26 54.8
13JK6
10
13 6 13.24
1.7094
7 18 67.7
11.763
16
13 49 6.48
1.8304
12 39 50.7
13.911
17
13 7 58.86
1.7613
7 32 42.1
11.736
17
13 50 55.81
1.8387
12 52 43.9
13.866
18
13 9 44.59
1.7663
7 46 35.1
11.700
18
13 52 45.33
1.8370
13 5 34.4
13.819
19
13 11 30.44
1.7663
8 0 6.3
U.674
19
13 54 35.05
1.8804
13 18 22.0
13.771
20
13 13 16.41
1.7673
8 13 45.8
11.647
30
13 56 24.98
1-6388
13 31 6.8
13.733
21
13 15 2.49
1.7093
8 87 33.7
11.619
31
13 58 15.13
1.8873
13 43 48.7
13.675
22
13 16 48.71
1.7716
8 40 59.7
11.090
33
14 0 5.48
1.8407
13 56 27.7
13.636
23
13 18 35.06
1.7716
8 54 33.9
18.686
23
14 1 56.05
1.8444
14 9 3.7
13.676
24
13 20 21.53
1.7788
S. 9 8 6.3
11.635
24
14 3 46.83
1.8481
S.14 21 36.6
13.634
PHASE
S OF TH
E MOON.
Day. h.
m.
3> First Quarter,
O Full Moon, .
...73
56 9
• • • .
. . . 14 2
8.5
C Last Quarter,
# New Moon, .
... 30 17
48 6
• • • «
... 28 15
48.3
DV.
h.
if ADOcee. •
.... 3
3.6
(T PArionA.
.... 14
19 8
€ A
pogee, • •
. . . . 3(
)
11.3
158
SEPTEMBER, 1856.
XIII.
GREENWICH MEAN TIME. |
LUNAR DISTANCES
.
^^
Btar'i NuM
and
Noon.
p. L.
of
nPi.
P. L
of
VIb.
P.L.
of
I».
P.L.
of
J
PodtloiL
DUL
Diff.
Diff
DUL
1
Sun
W.
O 1 N
33 10 45
S471
O 1 II
23 40 41
8471
O 1 II
25 1 37
8471
O » N
26 22 34
8471 i
Mars
E.
48 10 37
830S
46 46 31
8808
45 22 29
3312
43 58 31
8815 1
Antares
E.
66 28 57
8058
64 59 56
8060
63 30 58
8C63
62 2 3
8066 '
s
Sun
W,
33 7 25
S400
34 28 24
8460
35 49 23
3469
37 10 22
8469
Mars
E.
36 59 32
8898
35 35 53
8899
34 12 15
8831
32 48 39
8339
Antares
E.
54 38 18
8077
53 9 40
8on
51 41 2
8079
50 12 27
8079
a Aqails
E.
104 12 45
8M0
103 0 35
89fiP
101 48 14
8950
100 35 46
8849
3
Sun
W.
43 55 31
846-2
45 16 38
8460
46 37 47
8468
47 58 58
8454
Mars
E.
25 50 58
8886
24 27 28
8886
23 3 57
8336
21 40 27
8836
Antares
E.
42 49 29
8on
41 20 51
8077
39 52 13
8075
38 23 33
8079
a Aqails
E.
94 31 40
8015
93 18 36
8919
92 6 27
8909
90 52 16
8906
4
Sun
W.
54 45 51
8486
56 7 37
8481
67 29 8
8496
58 50 55
8491
Spioa
W.
14 59 18
8078
16 27 55
8009
17 56 42
8063
19 25 37
8056
Antares
E.
30 59 24
8068
29 30 23
8064
28 1 17
8048
36 32 4
8043
a Aquile
E.
84 45 50
8903
83 32 31
8909
82 19 14
8903
81 5 57
8906
5
Sun
W.
65 41 39
8886
67 4 12
8877
68 26 55
8868
60 49 48
8868
Spica
W.
36 52 23
8019
28 23 12
8011
29 52 11
8009
31 22 21
9990
a Aquils
E.
75 0 20
8996
73 47 27
8983
72 34 41
8049
71 23 4
8050
Fomalhaut
E.
101 9 55
8334
99 44 14
8914
98 18 22
8906
90 52 19
8196
6
Sun
W.
76 47 2
8806
78 11 6
8994
79 35 24
8989
80 59 56
8970
Spica
W.
38 56 3
9946
40 27 25
9938
41 59 2
9099
43 30 53
9010
a Aquils
E.
65 21 29
4013
64 10 2
4081
62 58 53
4060
61 48 3
4079
Fomalhaut
E.
89 39 9
8146
88 11 54
8184
86 44 26
8194
85 16 46
8114
a Pegasi
E.
110 44 53
8309
109 20 40
8989
107 56 7
8906
106 31 14
8M7
7
Sun
W.
88 6 33
8198
89 32 44
3184
90 59 12
8168
02 25 50
8168
Spica
Mars
W.
51 14 4
98t6
52 47 33
9831
54 21 31
9616
55 55 28
9801
W.
19 48 27
8096
21 16 41
8080
22 45 15
8064
24 14 0
8047
a Aquils
E.
55 59 59
4938
54 51 65
4963
53 44 28
4809
52 37 44
4859
FomalHaut
E.
77 55 7
8068
76 26 6
8047
74 56 51
8086
73 27 23
8096 1
a Pegasi
E.
99 21 49
8168
97 54 56
3148
96 27 44
8181
05 0 12
8114 ,
Jupiter
E.
113 20 23
3805
HI 46 2
9790
no 11 21
9776
108 36 31
9760
1
8
Sun
W.
99 44 54
8067
101 13 44
8048
102 42 57
8080
104 13 32
1
8011 1
Spica
Mars
W.
63 51 1
9793
65 27 11
9706
67 3 43
9088
68 40 30
9673
W.
31 44 0
995D
33 15 4
9941
34 46 31
9999
36 18 33
9904 !
Antares
W.
17 56 34
9799
19 32 45
9704
21 9 19
9688
33 46 15
9971 ,
Fomalhaut
E.
65 56 37
9971
64 25 48
9969
62 54 47
9069
61 33 34
99a
a Pegasi
E.
87 37 34
8034
86 8 4
8019
84 38 15
8004
83 8 7
9080 '
Jupiter
E.
100 36 16
9089
98 59 12
9065
97 21 45
9648
05 43 55
9680 j
0
Sun
W.
111 46 25
9916
113 18 24
9894
114 50 50
9876
116 33 41
9866 '
Spica
Mars
W.
76 51 10
9661
78 30 31
9663
80 10 17
9646
81 50 38
9096 ;
W.
44 3 35
9800
45 37 51
9789
47 12 33
9769
48 47 41
9760
Antares
W.
30 56 53
9880
32 36 15
9869
34 16 2
9648
35 56 15
9696 1
Fomalhaut
E.
53 44 58
9910
53 12 52
9907
50 40 42
9006
49 8 39
9906 i
a Pegasi
E.
75 32 49
9918
74 0 63
9906
72 28 41
9808
70 56 13
9889 '
Jupiter
E.
87 28 47
9549
85 48 82
9694
84 7 52
9606
82 26 46
9487 i
1
10
Sun
W.
124 14 27
9768
125 49 56
9784
127 25 51
9713
120 3 13
9004
xrr.
SEPTEMBER, 1856.
159
GREENWICH MEAN TIME.
LUNAR DISTANCES.
^4
Bter«sNaiD0
and
Midnight.
PL.
of
XVH.
P.L.
of
xvinh.
P.L.
of
XXV^
P.L.
of
O g
Poamon.
DUL
DUL
DUL
Diff.
1
Sun
W.
O 1 II
27 43 31
S470
O 1 N
29 4 29
8409
O 1 II
30 25 28
8400
O 1 N
31 46 27
8470
M»re
E.
42 34 37
8816
41 10 46
8890
39 46 58
8S»
38 23 14
8836
Anures
E.
60 33 12
8089
59 4 24
8079
57 35 40
8078
56 6 58
8076
s
Sun
W.
38 31 21
8408
39 52 21
8407
41 13 23
8400
42 34 26
8408
Mars
E.
31 25 5
8888
30 1 32
8884
28 38 0
8886
27 14 29
8886
Antares
E.
48 43 52
8079
47 15 17
8079
45 46 42
8078
44 18 6
8078
a Aquils
E,
99 23 9
8038
98 10 26
8999
96 57 36
8994
95 44 41
8910
3
Sun
W.
49 20 13
8483
50 41 31
8448
52 2 53
8444
53 24 20
8440
Mars
E.
20 16 57
8887
18 53 28
8887
17 29 59
8888
16 6 31
8888
Antares
E.
36 54 49
8071
35 26 4
8066
33 57 15
8066
32 28 22
8000
a Aquils
E.
89 39 2
8004
88 25 45
8809
87 12 28
8801
85 59 9
8001
4
Sun
W.
60 12 48
8414
61 34 49
8406
62 56 58
8400
64 19 15
8S98
Spica
W.
20 54 41
8049
22 23 52
8043
23 53 14
8084
25 22 44
8097
Antares
E.
25 2 45
8080
23 33 20
8088
22 3 48
8037
20 34 9
8090
a Aquils
E.
79 52 43
8809
78 39 32
8019
77 26 24
8010
76 13 20
8019
6
Sun
W.
71 12 52
8849
72 36 7
8889
73 59 33
8899
75 23 11
8816
Spica
W.
32 52 42
9086
34 23 13
9976
35 53 57
3966
37 24 54
9966
a Aquils
E.
70 9 35
SOfiO
68 57 15
8971
67 45 7
8068
66 33 11
8906
Fomalhaut
E.
95 26 5
8186
93 59 39
8170
92 33 1
8106
91 6 11
8160
6
Sun
W.
82 24 43
8S86
83 49 46
8949
85 15 5
8339
86 40 40
8914
Spica
W.
45 2 59
3808
46 35 21
9666
48 7 59
3678
49 40 53
9860
a Aquils
E.
60 37 34
4097
59 27 29
4199
58 17 49
4168
57 8 38
4184
Fomalhaut
E.
83 48 53
8109
82 20 46
8091
80 52 26
8081
79 23 53
8070
a Pegasi
E.
105 6 1
8981
103 40 28
8918
102 14 34
8197
100 48 21
8161
7
Sun
W.
93 53 5
8180
95 20 31
8119
96 48 18
8109
98 16 25
8064
Spica
Nfars
W.
57 29 53
3787
59 4 39
3ni
60 39 45
3766
62 15 12
3736
W.
25 43 24
8080
27 13 0
8013
28 42 58
3994
30 13 18
99n
a Aquils
E.
51 31 46
UI6
50 26 39
4479
49 22 26
4649
48 19 19
4090
Fomalhaut
E.
71 57 41
8014
70 27 45
8009
68 57 35
3003
67 27 13
9961
a Pegaai
E.
93 32 19
8006
92 4 7
8069
90 35 36
8066
89 6 45
8060
Jupiter
E.
107 1 1
9748
105 25 21
3W9
103 49 20
3714
102 12 59
9606
8
Sun
W.
105 42 31
9098
107 12 53
3978
108 43 39
3964
110 14 50
9986
Spica
Mara
W.
70 17 57
9804
•71 55 39
3080
73 33 45
3016
75 12 16
3601
W.
37 50 36
9866
39 23 14
3860
40 56 16
3647
42 29 43
3636
Antares
W.
24 23 34
9069
26 1 18
3086
27 39 25
3017
29 17 57
3500
Fomalhaut
E.
59 52 10
99S6
58 20 35
39-/7
56 48 51
3990
55 16 58
3016
a Pegaai
E.
81 37 40
9978
80 6 54
3960
78 35 50
3045
77 4 28
3931
Jupiter
E.
94 5 41
9818
92 27 4
3600
90 48 3
3677
89 8 37
3600
0
Sun
W.
117 56 57
9688
119 30 40
3616
121 4 49
3794
122 39 25
3774
Spica
Mare
W.
83 31 5
9607
85 12 9
3486
86 53 39
3409
88 35 36
3461
W.
50 23 15
3199
51 59 16
3700
53 35 44
3669
55 12 39
3000
Antares
W.
37 36 53
9600
39 17 59
3487
40 59 30
3406
42 41 29
9449
Fomalhaut
E.
47 36 18
9907
46 4 8
3913
44 32 4
99«
43 0 10
3981
a Pegasi
E.
69 23 31
9870
67 50 34
3600
66 17 24
3869
64 44 3
3848
Jupiter
E.
80 45 14
9407
79 3 15
3448
77 20 49
3439
75 37 56
3411
10
Sun
W.
130 39 1
9074
132 16 16
3866
133 53 57
9636
135 32 5
3016
160
SEPTEMBER, 1856.
XV.
GREENWICH MEAN
TIME.
1
LUNAR DISTANCES. i
1
h
Star's Hum
and
Noon.
P.L.
of
mh.
P.L.
of
Vlh.
P.L.
of
IXh.
1
10
Podtioii.
DUL
DHL
Dili.
1894
DilL ,
1
Spica W.
O 1 M
90 17 68
94S1
O 1 M
92 0 48
1419
O 1 u
93 44 5
O 1 $1
96 27 49
m5
Mars W.
56 50 0
9000
68 27 47
9680
60 6 1
1610
61 44 42
S691
Antares W.
44 23 53
9480
46 6 46
1411
47 60 4
1889
49 33 49
9878
Fomalhaut E.
41 28 31
9946
39 67 10
1966
38 26 13
1967
36 65 44
8096
a Pegasi E.
63 10 31
98S8
61 36 60
1681
60 3 3
9898
68 29 11
9B36
Jupiter E.
73 64 37
9W3
72 10 61
1878
70 26 38
9866
68 41 69
9837
a Arietis E.
104 0 8
9470
102 18 21
1407
100 36 7
9438
98 63 26
9419
n
Mars W.
70 4 48
9404
71 46 9
.1177
73 27 66
9406
76 10 7
9UI
Antares W.
68 19 21
1989
60 6 47
7m
61 62 39
9947
63 39 66
9B1
a Pegasi E.
60 39 67
1848
49 6 31
9B0»
47 33 23
9879
46 0 37
9801
Japiter E.
69 51 59
194A
68 4 39
9998
66 16 63
9910
64 28 41
9184
a Arietis E.
90 13 14
1898
88 27 63
9800
86 42 6
9901
84 66 64
9^4
19
Mars W.
83 47 IS
1886
86 31 48
1848
87 16 46
9398
89 2 3
9814
Antares W.
72 42 30
1109
74 32 11
1187
76 22 14
9199
78 12 39
9100
a Pegasi E.
38 26 28
8116
36 68 37
8166
36 32 11
8979
34 7 27
8374
Jupiter E.
45 21 36
9116
43 31 0
1101
41 40 3
9067
39 48 44
9078
a Arietis E.
75 58 56
1196
74 10 24
9184
72 21 32
9171
70 32 21
9180
Aldebaran E.
106 30 40
1917
104 42 38
1909
102 64 13
9186
101 6 26
9179
13
Mars W.
97 63 26
19B8
99 40 34
1148
101 27 68
9984
103 16 36
9990
Antares W.
87 29 36
1000
89 21 52
lOU
01 14 23
9031
93 7 9
9Q3S
a Aquils W.
47 20 45
8095
48 33 39
8606
49 48 33
S701
61 6 19
8604
Jupiter E.
30 27 12
1016
28 34 3
1006
26 40 38
1996
24 46 57
1987
a Arietis E.
61 22 6
1106
60 31 19
1101
67 40 22
9094
56 49 13
908O
Aldebaran E.
91 66 23
1119
90 6 42
1103
88 14 46
9098
86 23 36
906S
Saturn E.
126 67 31
IMTT
125 6 42
1006
123 16 36
9066
121 24 12
1070
14
Antares W.
102 33 51
1801
104 27 39
19PT
106 21 33
1964
108 16 32
iin
a Aquils W.
67 62 33
na
69 17 61
8190
60 44 12
8143
62 11 30
8100
a Arietis E.
46 31 69
1078
44 40 26
1061
42 48 67
1063
40 57 32
900O
Aldebaran E.
77 6 6
1007
75 12 59
1068
73 20 48
1069
71 28 35
1088
Saturn E.
112 3 67
1080
110 11 23
1088
108 18 41
1080
106 26 64
109T
15
a Aquils W.
69 39 17
1048
71 10 34
1990
72 42 16
1019
74 14 19
900
Fomalhaut W.
38 43 20
1096
40 23 68
1467
42 6 29
1464
43 47 47
9490
a Pegasi W.
Aldebaran E.
24 37 67
4036
25 35 34
4641
26 38 60
4918
27 47 4
8944
62 7 39
9009
60 16 41
1088
68 23 62
1074
66 32 13
1081
Saturn E.
97 1 16
1096
96 8 20
' 1097
93 16 28
1090
91 22 41
1083
Pollux E.
106 31 42
1888
103 37 40
1886
101 43 42
1908
99 49 40
1909
I
16
a Aquils W.
81 67 40
1871
83 30 36
1078
86 3 20
1676
86 36 18
~
Fomalhaut W.
62 27 9
1847
64 12 0
1888
66 67 3
1386
67 42 12
1889 1
a Pegasi W.
34 23 2a
8148
36 60 31
8007
37 19 33
1960
38 60 11
»16
Jupiter W.
16 23 10
1987
17 17 4
1004
19 10 47
1008
21 4 17
1011
Aldebaran E.
47 17 30
1180
46 27 30
1166
43 37 66
1179
41 48 46
1109
Saturn E.
82 0 36
1064
80 8 40
1079
78 16 68
1061
76 26 29
1001
Pollux E.
90 22 14
1091
88 29 13
1080
86 36 24
1086
84 43 49
HMO
17
a Aqnils W.
94 17 34
i»a
96 48 67
»09
97 19 68
1961
98 60 34
80M
Fomalhaut W.
66 28 11
1841
68 13 9
9849
69 57 67
1366
71 42 36
nu
a Pegasi W.
46 40 14
1716
48 16 32
1884
49 63 20
1676
51 30 32
9868
Jupiter W.
30 28 9
1068
32 20 6
1076
34 11 41
1066
36 2 68
9109
Aldebaran E.
32 61 30
1899
31 6 13
1867
29 21 51
9410
27 38 31
HOI
XVI.
SEPTEMBER, 1856.
161
GREENWICH MEAN
TIME.
'
LUNAR DISTANCES.
10
Star^NuM
P.L.
P.L.
P.L.
P.L.
and
PofliUon.
Midnight.
of
Dur.
XVh.
of
DUL
XVIIPi-
of
Dur.
XXIh.
of
DUL
Spic* W.
Mars W.
O 1 II
97 18 0
9SM
O 1 «
98 56 38
9880
O 1 «
100 41 42
9890
108 87 I'i
9801
63 23 50
9171
65 3 85
9009
66 43 26
9588
68 83 54
9514
Antares W.
51 18 3
9%U
53 8 48
9080
54 47 49
9318
56 33 88
9800
Foraalhaut E.
35 86 3
todi
33 57 6
8110
32 29 9
8170
31 8 84
8941
• Pei^ E.
56 55 15
98«
55 81 19
9080
53 47 25
9831
58 13 37
9837
Jupiter E.
m ArietiB E.
66 56 54
9B10
65 11 88
9900
63 25 21
9981
61 38 53
9968
97 10 18
9M0
95 86 48
9000
93 48 39
9809
91 58 10
9844
11
Mars W.
76 58 43
9494
78 35 44
9100
80 19 10
9860
88 3 0
9878
Antares W.
65 27 37
9914
67 15 44
9107
69 4 16
9181
70 63 18
9167
« Pegasi E.
44 38 80
9080
48 56 39
9008
41 85 40
8005
39 55 33
8055
Jupiter E.
« Arietta E.
58 40 4
9178
50 51 3
9101
49 1 37
9145
47 11 47
9181
83 9 17
9916
81 88 16
9819
79 34 51
9927
77 47 4
3119
18
Mare W.
00 47 48
9000
98 33 41
9987
94 19 59
9370
96 6 34
9900
Antares W.
80 3 34
9000
81 54 30
9004
83 45 54
9079
85 37 37
9061
• Pegasi E.
38 44 41
8407
31 84 14
8oa
30 6 88
88-28
28 51 50
4089
Jupiter E.
« ArieUs E.
37 57 3
9000
36 5 8
9048
34 18 48
9037
32 80 6
9096
68 48 51
9147
66 53 3
9180
65 8 59
9198
63 18 39
9117
Aldebaran E.
99 16 15
9100
97 86 46
9145
95 36 56
9184
93 46 47
9199
13
Mare W.
105 3 85
9017
106 51 87
9910
108 39 40
9904
110 28 8
9196
Antares W.
95 0 7
901A
96 53 18
9000
98 46 40
9001
100 40 18
1097
« Aqnil« W.
58 83 49
8517
53 43 54
8488
55 5 88
8306
66 88 83
8801
Jupiter E.
28 53 3
1001
80 58 59
ion
19 4 48
1973
17 10 31
1970
a Arietis E.
53 57 57
9004
58 6 33
9001
50 15 5
9076
48 83 38
9078
Aldebaran E.
84 38 14
9on
88 40 40
9079
80 48 57
9066
78 57 5
9081
Satam £.
119 38 34
9000
117 40 48
9O0O
115 48 38
9050
113 56 28
90U
14
Antares W.
110 9 34
1001
118 3 39
1080
113 57 45
1000
115 51 51
1081
« Aqoihe W.
63 39 40
3009
65 8 36
8090
66 38 14
9908
68 8 89
2079
m Arietis E.
39 6 17
9087
37 15 13
9107
35 24 85
9110
33 33 55
9189
Aldebaran E.
69 36 81
9051
67 44 6
9058
65 51 54
9055
63 59 45
9057
Saturn E.
104 33 8
9095
108 40 7
9094
100 47 10
9094
98 64 13
9098
16
m AquiUe W.
75 46 38
9080
77 19 11
9080
78 51 55
9876
80 84 45
9079
Foraalhaut W.
45 30 45
9M8
47 14 15
9884
48 58 18
9869
50 48 31
9856
a Pegasi W.
Aldebaran E.'
28 59 39
8799
30 16 3
8538
31 35 45
8386
33 58 18
8957
54 40 44
9001
58 49 31
9101
60 58 33
9119
49 7 58
9194
Saturn E.
89 89 59
9080
87 37 85
oou
85 44 50
9000
83 53 48
9056
Pollax E.
97 56 8
1000
96 8 81
9001
94 8 49
9000
98 15 87
9014
16
a AquilB W.
88 8 58
9800
89 41 30
9001
91 13 47
9919
98 45 50
9097
Fomalhaut W.
59 87 85
9880
61 18 41
9831
62 57 55
9384
64 43 6
9887
« Pegasi W.
40 88 11
9800
41 55-21
9015
43 89 30
9775
45 4 30
9749
Jupiter W.
83 57 34
9090
24 50 37
9080
86 43 84
9041
88 35 55
9063
Aldebaran E.
40 0 7
9914
38 18 0
9937
36 84 88
9900
34 37 38
2204
Saturn E.
74 34 16
9101
78 43 18
9119
70 58 37
9193
69 8 13
9185
PoUoK E.
88 51 87
9057
80 59 22
9007
79 7 38
9079
77 16 0
9080
17
a Aqails W.
100 80 48
8098
101 50 20
8058
103 10 87
8009
104 47 59
8111
Fomalhaut W.
73 27 2
9374
75 11 14
9884
76 55 11
9306
78 38 52
9408
a Pegasi W.
53 8 2
9059
54 45 47
9644
56 83 48
9688
58 1 45
9085
Jupiter W.
37 53 54
9115
39 44 30
9180
41 34 44
9143
43 84 37
9158
Aldebaran E.
25 56 23
9590
24 15 38
9501
88 36 30
9674
80 59 16
9760
21
162
SEPTEMBER, 1856.
XVII.
GREENWICH MEAN '
riME.
LUNAR DISTANCES.
n
17
Star's Narna
PL.
P.L.
P.L.
1
P.L.
and
Noon.
of
mi»-
of
VPt.
of
IXh.
of
PodiUon.
DUL
DUL
Difl.
DUL
Saturn
E.
O 1 N
67 13 7
3149
O 1 II
65 22 22
9161
O 1 II
63 .32 56
9175
O 1 «
61 43 51
9190
Pollux
E.
76 24 44
9103
73 33 48
9114
71 43 10
9137
69 52 52
9141
Sun
E.
139 0 1
9403
137 16 30
9416
135 33 16
9138
133 50 21
9449
18
Fomalbaut
W.
80 32 16
9431
82 5 21
9484
83 48 7
9448
85 30 33
9168
a Pegasi
W.
59 39 53
96S5
61 18 1
9686
62 56 7
9688
64 34 10
960
Jupiter
a Arietis
W.
45 14 8
9ns
47 3 16
9188
48 52 1
9308
50 40 24
9919
W.
16 7 28
9706
17 42 3
9706
19 18 35
9048
20 56 32
9508
Saturn
E.
53 44 6
9300
50 57 21
9387
49 11 2
9804
47 35 8
9838
Pollux
E.
60 46 40
9218
58 58 32
9339
57 10 47
9345
55 83 36
9300
Sun
E.
135 30 59
9519
123 40 12
9686
121 59 48
9663
130 19 47
9660
19
Fomalhaut
W.
93 57 13
9Mft
95 37 23
9fi68
97 17 9
9969
98 56 39
9001
a Pegasi
W.
78 43 23
9663
74 19 26
9603
75 56 15
9704
77 33 49
»7n
Jupiter
W.
59 36 19
9800
61 22 18
9816
63 7 54
9838
64 53 6
9860
a Arietis
W.
29 16 34
9530
30 57 20
9518
32 38 8
9530
34 18 53
9096
Saturn
E.
38 43 35
9«»
36 59 32
9444
35 17 0
dl67
33 35 0
9400
Pollux
E.
46 32 35
9848
44 47 38
9359
43 3 5
9876
41 18 56
9804
Sun
E.
112 5 32
9656
110 37 53
9674
108 50 38
9601
107 13 46
9710
30
aPegasi
W.
85 31 15
9787
87 6 0
9803
88 40 24
9818
90 14 39
9BS6
Jupiter
a Arietis
W.
73 33 6
9433
75 15 55
9440
76 58 21
9464
78 40 35
9180
W.
42 40 27
9566
44 20 8
95n
45 59 34
9860
47 38 44
9001
Aldebaran
w.
14 40 53
9587
15 59 41
8805
17 22 3
8358
18 47 9
8161
Pollux
E.
32 44 15
9478
31 2 31
9496
29 21 11
9511
37 40 13
9090
Sun
E.
99 15 27
9799
97 40 58
9816
96 6 51
9884
94 33 7
9801
21
a Pefrasi
W.
97 59 22
9090
99 31 15
9080
101 3 44
9068
103 33 50
99n
Jupiter
W.
87 5 18
9656
88 45 11
9074
90 34 42
9369
93 3 58
900O
a Arietis
W.
55 50 26
9068
57 27 55
9070
59 5 7
9689
60 43 3
9109
Aldebaran
W.
26 15 1
9917
27 46 58
9908
29 19 17
9887
30 51 53
98n
Sun
E.
86 49 58
9086
85 18 25
9053
83 47 12
9906
83 16 19
9904
33
Jupiter
a Arietis
W.
100 15 2
9669
101 52 24
9681
103 39 30
9604
105 6 18
9707
W.
68 42 20
9764
70 17 35
9777
71 52 33
9768
73 37 16
9O0O
Aldebaran
W.
38 36 30
9871
40 9 26
9874
41 43 18
9876
43 15 5
Sun
E.
74 46 43
8090
73 17 43
8078
71 49 1
8068
70 30 37
8101
33
Jupiter
a Arietis
W.
113 6 7
9767
114 41 18
9778
116 16 15
9788
117 50 58
9790
W.
81 17 6
9856
82 50 20
9868
84 33 30
9877
85 56 8
9007
Aldebaran
W.
50 57 15
9913
52 29 17
9090
54 1 11
9037
55 33 56
9004
Saturn
W.
15 32 34
8141
16 59 54
8106
18 37 54
8079
19 56 29
8007
Sun
E.
63 2 32
8165
61 35 41
8177
60 9 4
8188
58 42 40
8190
34
a Arietis
W.
93 36 56
9036
95 8 29
9044
06 39 52
9954
98 11 3
9003
Aldebaran
W.
63 9 29
9960
64 40 21
9976
66 11 4
9981
67 41 40
9080
Saturn
W.
27 23 51
8018
28 53 41
8017
30 23 33
8018
31 53 24
8018
Pollux
E.
18 57 12
9904
20 29 26
9011
22 1 31
9918
23 33 27
9094
Sun
E.
51 33 56
8353
50 8 48
9961
48 43 51
8970
47 19 5
sm
35
Aldebaran
W.
75 12 35
8030
76 43 33
8035
78 13 5
8081
79 41 39
8or
Saturn
W.
39 22 12
8030
40 51 47
80S4
43 81 18
8087
43 50 45
8040
Pollux
W.
31 10 56
3959
32 43 0
9965
34 13 57
9971
35 43 46
9on
Sun
E.
40 17 43
3319
38 53 54
8337
37 30 14
8834
36 6 42
8841
XVIII. SEPTEMBER, 1856.
163
GREENWICH MEAN TIME.
LUNAR DISTANCES.
8ter*8 Name
P. L.
P. L.
P. L.
P.L.
and
Midnight.
of
XV^
of
XVIIIh.
of
XXIh.
of
Position.
Dim
DUL
Difl.
Diff.
O 1 u
O 1 t,
O 1 II
O 1 II
17
Satarn
E.
59 55 8
xxu
58 6 47
9iao
56 18 50
3938
54 31 16
9969
Pollux
E.
68 2 55
3165
66 13 19
9160
64 24 4
3183
62 35 11
3198
Sun
E.
133 7 46
9467
130 25 32
9473
128 43 39
3467
127 2 8
9608
18
Fomalbaut
W.
87 12 38
3479
88 54 21
9494
90 35 42
3611
92 16 40
9699
aPegasi
W.
66 12 7
9649
67 49 56
3655
69 27 36
3663
71 5 6
9673
Jupiter
W.
52 28 23
9386
54 15 58
9361
56 3 9
9366
57 49 56
9261
a Arietis
W.
22 35 30
9606
24 15 12
3646
25 55 22
9530
27 35 53
95-23
Saturn
E.
45 39 42
9341
43 54 42
9361
42 10 11
9381
40 26 9
9401
Pollux
E.
53 36 28
9376
51 49 53
3393
50 3 43
9309
48 17 57
9396
Sun
E.
118 40 9
9666
117 0 54
8603
115 22 3
9690
113 43 35
9638
19
Fomalhaut
W.
100 35 23
S0I9
102 13 52
9039
103 51 54
9666
105 29 30
9078
a Pegasi
W.
79 9 6
9780
80 45 6
9744
82 20 48
9756
83 56 11
9779
Jupiter
W.
66 37 54
3866
68 22 18
3383
70 6 18
9399
71 49 54
9416
a Arietis
W.
35 59 31
9530
37 40 3
3688
39 20 23
9547
41 0 31
9560
Saturn
E.
31 53 33
9616
30 12 41
3643
28 32 26
9670
26 52 49
9600
Pollux
E.
39 35 13
9410
37 51 52
9437
36 8 56
9443
34 26 23
9401
Sun
E.
105 37 19
9797
104 1 15
9746
102 25 35
9763
100 50 19
9783
30
a Pegasi
W.
91 48 11
9863
93 21 31
9809
94 54 30
9886
96 27 7
9908'
Jupiter
W.
80 22 7
9496
82 3 27
9610
83 44 26
3936
85 25 3
9643
a Arietis
W.
49 17 39
9618
50 56 15
96)6
52 34 35
3638
54 12 38
9660
Aldebaran
W.
20 14 17
8076
21 42 57
8017
23 12 49
3974
24 43 34
9941
Pollux
E.
25 59 40
9645
24 19 30
9563
22 39 44
9679
21 0 20
9696
Sun
E.
92 59 45
9860
91 26 46
9865
89 54 8
3903
88 21 52
9930
SI
a Pegasi
W.
104 4 31
3996
105 34 49
8015
107 4 43
8035
108 34 12
8066
Jupiter
W.
93 42 43
3617
95 21 15
3631
96 59 28
3644
98 37 23
9656
a Arietis
W.
62 18 39
9714
63 55 0
3737
65 31 4
9741
67 6 50
9763
Aldebaran
W.
32 24 41
3873
33 57 35
3869
35 30 33
3669
37 3 32
9869
Sun
E.
80 45 46
3909
79 15 32
8014
77 45 37
8030
76 16 1
8044
23
Jupiter
W.
106 42 49
9719
108 19 3
3733
109 55 0
9744
111 30 41
9766
a Arietis
W.
75 1 44
3813
76 35 56
3823
78 9 54
3836
79 43 36
9846
Aldebaran
W.
44 47 46
3889
46 20 19
3894
47 52 45
3900
49 25 3
9900
Sun
E.
68 52 29
8114
67 24 36
8137
65 56 59
8140
64 29 38
8168
S3
Jupiter
W.
119 25 28
3808
120 59 46
3816
122 33 51
3637
124 7 44
9830
a Arietis
W.
87 28 43
3698
89 1 4
3906
90 33 13
3917
92 5 10
9030
Aldebaran
W.
57 4 32
3941
58 35 59
3947
60 7 18
3954
61 38 28
9963
Saturn
W.
21 25 31
8043
22 54 50
803a
24 24 23
8096
25 54 4
8030
Sun
E.
57 16 30
8310
55 50 33
8330
54 24 48
8331
52 59 16
8343
S4
a Arietis
W.
99 42 4
3909
101 12 55
3979
102 43 34
9986
104 14 4
3998
Aldebaran
W.
69 12 7
3995
70 42 26
8001
72 12 37
8008
73 42 40
8014
Saturn
W.
33 23 15
8019
34 53 4
8093
36 22 50
8034
37 52 33
8097
Pollux
E.
25 5 15
3933
26 36 53
3939
28 8 22
3946
29 39 43
3963
Sun
E.
45 54 29
8968
44 30 3
8396
43 5 47
8305
41 41 41
8813
25
Aldebaran
W.
81 11 6
3043
82 40 26
8048
84 9 39
8053
85 38 46
8066
Saturn
W.
45 20 8
8043
46 49 27
8017
48 18 42
8053
49 47 51
8066
Pollux
W.
37 14 27
3983
38 45 2
3938
40 15 29
3993
41 45 50
3999
Sun
E.
34 43 18
8348
33 20 2
3354
31 56 53
3360
30 33 51
3800
164
OCTOBER, 1856.
I.
AT
GREENWICH APPARENT
NOON.
i
1
THE SUN'S
Sideteal
Time
of the
Semidl.
uneter
pMdng
the
Merld
faUL
Bqafttioii«r
TtaMS
tobt
tmbtraeted
from
Apparent
Tinu.
DIB.
for
Iboor.
Apparent
B^tAwensloo.
DMT. tor
Ihoar.
Apparent
I>ifl.for
Ihoar
58.29
58.19
58.08
8eml.
diameter.
Wed,
Thur.
Fri.
1
2
3
12 31 7.67
12 34 45.42
12 38 23.50
9.069
9.082
9.095
S. % 21 47.1
3 45 4.8
4 8 19.9
16
16
16
1.68
1.96
2.24
64.28
64.42
64.47
10 sS^.17
10 45.92
11 4.35
0.788
0.775
0.762
Sat
Sun.
Mon.
4
5
6
12 42 1.89
12 45 40.64
12 49 19.73
9.109
9.124
9.140
4 31 31.9
4 54 40.3
5 17 45.1
57.94
57.79
57.62
16
16
16
2.58
2.82
3.10
64.52
64.58
64.64
11 22.47
11 40.22
11 57.63
0.749
0.784
0.718
Tues.
Wed.
Thur.
7
8
9
12 52 59.22
12 56 39.11
13 0 19.42
9.156
9.178
9.191
5 40 45.8
6 3 41.8
6 26 32.9
57.44
57.24
57.03
16
16
16
3.38
3.66
3.95
64.70
64.76
64.83
12 14.66
12 31.28
12 47.49
0.702
0.685
0.667
Fri.
Sat
Sm.
10
11
12
13 4 0.18
13 7 41.40
13 11 23.08
9.210
9.230
9.250
6 49 18.8
7 11 59.2
7 34 33.7
56.80
56.57
56.81
16
16
16
4.24
4.52
4.80
64.90
64.98
65.05
13 8.23
13 18.52
13 33.34
0.648
0.627
0.607
Mon.
Tues.
Wed.
13
14
15
13 15 5.31
13 18 48.07
13 22 31.37
9.271
9.293
9.817
7 57 2.0
8 19 23.4
8 41 37.8
56.04
55.75
55.46
16
16
16
5.08
5.36
5.63
65.18
65i21
65.29
13 47.62
14 1.39
14 14.60
0.586
0.564
0.540
Thur.
Fri.
Sat
16
17
18
13 26 15.24
13 29 59.71
13 33 44.79
9.842
9.367
9.892
9 3 44.8
9 25 44.4
9 47 36.0
55.14
54.81
54.46
16
16
16
5.90
6.17
6.44
65.38
65.46
65.55
14 27.24
14 39.31
14 50.75
0J(15
0.490
0.464 1
Sm.
Mon.
Tues.
19
20
21
13 87 80.49
13 41 16.85
13 45 3^
9.419
9.447
9.476
10 9 18.8
10 30 52.7
10 52 17.6
54.11
63.72
53.33
16
16
16
6.70
6.96
7.21
65.64
65.73
65.83
15 1.57
15 11.72
15 21J22
0.438 !
0.410
0.381 I
Wed.
Thur.
Fri.
22
23
24
13 48 51.66
13 52 40.08
13 56 29.23
9.505
9.534
9.564
11 13 32.8
11 34 38.2
11 55 33.2
52.92
52.50
52.05
16
16
16
7.47
7.73
7.99
65.93
66.02
66.12
15 30.00
15 38.12
15 45.50
1
0.852 1
0.323 1
0.298 1
Sat
Sim.
Mon.
25
26
27
14 0 19.11
14 4 9.72
14 8 1.08
9.595
9.626
9.657
12 16 17.3
12 36 50.0
12 57 11.3
51.59
51.11
50.63
16
16
16
8.25
8.50
8.76
66.23
66.34
66.45
15 52.15
15 58.06
16 3.25
0.268
0.232
0.200
Tues.
Wed.
Thur.
Fri.
28
29
30
31
14 11 53.22
14 15 46.12
14 19 39.79
14 23 34J22
9.688
9.720
9.753
9.786
13 17 20.3
13 37 16.8
13 57 0.4
14 16 30.5
50.11
49.58
49.02
48.46
16
16
16
16
9.01
9.27
9.52
9.77
66.55
66.66
66.78
66.89
16 7.66
16 11.31
16 14.19
16 16.30
1
0.169
0.187 ;
0.103
0.072
Sat
32
14 27 29.46
9.819
S.14 35 46.8
47.87
16
10.02
67.00
16 17.61
0.088
Mon.-JtfM»TlMorUM
)«wpMilBcmiOrbtimBdl7fabliM«|]iffO».18fhimtht8ld«rMlT^ 1
II.
OCTOBER, 1856.
165
AT GREENWICH MEAN NOON.
THE SUN'S
i
1
Tfane,
addtdto
Mtan
Tkm,
DiS.
for
1 hoar.
Stdanal
Time.
Apparnt
BVitAMMiulon.
DULfor
Ihcmr.
AppctmU
DeoliiMtion.
DULfor
Ihoar.
Wed.
Thur.
Fri.
1
2
3
h. m. a.
12 31 9.25
12 34 47.05
12 38 25.17
0.
9.009
9.082
9.095
S. 3 21 57.2
3 45 15.1
4 9 30.5
&B.29
58.19
58.08
To 27.32
10 46.07
11 4.50
t.
0.788
0.776
0.762
h. m. 1.
12 41 36.57
12 45 33.11
12 49 29.67
Sat
Sim.
Mon.
4
5
6
12 42 3.61
12 45 42.41
12 49 21.55
9.109
9.124
9.140
4 31 42.8
4 54 51.5
5 17 56.5
57.94
67.79
67.62
11 22.62
11 40.37
11 57.78
0.749
0.734
0.718
12 53 26.23
a2 57 22.78
13 1 19.33
Tues.
Wed.
Thur.
7
8
9
12 53 1.08
12 56 41.02
13 0 21.37
9.166
9.178
9.191
6 40 57.4
6 3 53.7
6 26 45.0
67.44
67.24
57.08
12 14.81
12 31.42
12 47.63
0.702
0.685
0.667
13 5 15.89
13 9 12.44
13 13 9.00
Fri.
Sat.
Sun.
10
11
12
13 4 2.18
13 7 43.45
13 11 25.18
9.210
9.280
9.260
6 49 31.1
7 12 11.7
7 34 46.8
66.80
66.67
56.81
13 3.37
13 18.66
13 33.48
0.648
0.627
0.607
13 17 5.55
13 21 2.11
13 24 58.66
Mon.
Tues.
Wed.
13
14
15
13 15 7.45
13 18 50.25
13 22 33.59
9.271
9.293
9.817
7 57 14.7
8 19 36.3
8 41 50.9
56.04
66.76
65.46
13 47.76
14 1.52
14 14.73
0.686
0.664
0.610
13 28 55.21
13 32 51.77
13 36 48.32
Thur.
Fri.
Sat.
16
17
18
13 26 17.50
13 30 2.00
13 33 47.12
9.942
9.867
9.892
9 3 58.1
9 25 57.8
9 47 49.4
56.14
64.81
54.46
14 27.37
14 39.43
14 50.87
0.615
0.490
0.464
13 40 44.87
13 44 41.43
13 48 37.99
Sun.
Mon.
Tues.
19
20
21
13 37 32.86
13 41 19.27
13 45 6.33
9.419
9.447
9.476
10 9 32.3
10 31 6.3
10 52 31.3
64.11
53.72
68.33
15 1.68
15 11.83
15 21.32
0.438
0.410
0.381
13 52 34.54
13 56 31.10
14 0 27.65
Wed.
Thur.
Fri.
22
23
24
13 48 54.11
13 52 42.56
IS 56 31.73
9.606
9.584
9.664
11 13 46.5
11 34 51.9
11 55 46.9
62.92
52.60
52.06
15 30.09
15 38.20
15 45.58
0.352
0.323
0.293
14 4 24.20
14 8 20.76
14 12 17.31
Sat.
Sun.
Mon.
25
26
27
14 0 21.65
14 4 12.29
14 8 3.67
9.696
9.626
9.657
12 16 31.0
12 37 3.7
12 57 24.9
61.59
61.11
50.68
15 52.22
15 58.13
16 3.31
0.263
0.232
0.200
14 16 13.87
14 20 10.42
14 24 6.98
Tues.
Wed.
Thur.
Fri.
28
29
30
31
14 11 55.82
14 15 48.74
14 19 42.43
14 23 36.88
9.688
9.720
9.758
9.786
13 17 33.8
13 37 30.2
13 57 18.6
14 16 43.6
50.11
49.58
49.02
48.46
16 7.71
16 11.35
16 14.22
16 16.32
0.169
0.137
0.105
0.072
14 28 3.53
14 32 0.09
14 35 56.65
14 39 53J20
Sat.
32
14 27 32.13
9.819
S.14 35 59.7
47.87
16 17.63
0.038
14 43 49.76
Vl
eterforMe
•n Noon may be aasi
uned the same as that for
Apparent
Noon
166
OCTOBER, 1856.
III.
AT GREENWICH MEAN NOON.
THE SUN'S
1
1
2
3
1
1
"a
Logarithm
of the
fUdiaaVeotor
of the
Barth.
IMff. fbr
1 hoar.
BfeuTlBM '
of '
Sidereal Oh.
3Vm LONGITUDB.
DULfor
Ihoar.
LAT1TI7DB.
X
v
275
276
277
1& 29 10.5
189 28 18.4
190 27 28.2
28 37.7
27 45.5
26 55.2
147.80
147.88
147.95
— (5i.06
0.19
0.29
0.0001471
0.0000203
9.9998930
52.7
58.0
58.0
h. m. e.
11 16 32.29
11 12 36.39
11 8 40.49
4
5
6
278
279
280
191 26 39.8
192 25 53.1
193 25 8.1
26 6.7
25 19.9
24 34.7
148.02
148.09
148.16
0.38
0.43
0.45
.9997652
.9996371
.9995089
53.1
58.2
53.2
11 4 44.57
11 0 48.67 1
10 56 52.75
7
8
9
281
282
283
194 24 24.9
195 23 43.6
196 23 4.0
23 51.5
23 10.1
22 30.4
148.23
148.80
148.87
0.43
0.39
0.31
.9993809
.9992528
.9991252
53.8
58.0
52.8
10 52 56.84
10 49 0.95
10 45 5.03
10
11
12
284
285
286
197 22 26.2
198 21 50.2
199 21 16.0
21 52.5
21 16.4
20 42.1
148.45
148.58
148.62
0.24
—0.12
H-0.01
.9989982
.9988718
.9987462
52.6
52.4
52.2
10 41 9.13
10 37 13.21
10 33 17.30
13
14
15
287
288
289
200 20 44.0
201 20 14.0
202 19 45.9
20 10.0
19 39.9
19 11.6
148.71
148.79
148.88
0.14
0.28
0.40
.9986213
.9984975
.9983747
51.8
51.4
51.0
10 29 21.41
10 25 25.49
10 21 29.59
16
17
18
290
291
292
203 19 19.8
204 18 55.9
205 18 34.2
18 45.4
18 21.4
17 59.6
148.96
149.04
149.13
0.51
0.62
0.69
.9982529
.9981320
.9980120
60.6
50.2
49.9
10 17 33.68
10 13 37.77
10 9 41.85
19
20
21
293
294
295
206 18 14.8
207 17 57.5
208 17 42.5
17 40.1
17 22.7
17 7.5
149.22
149.82
149.42
0.72
0.73
0.72
.9978929
.9977747
.9976573
49.6
49.2
48.8
10 5 45.94 1
10 1 50.03 1
9 57 54.13 1
22
23
24
296
297
298
209 17 29.9
210 17 19.7
211 17 11.6
16 54.8
16 44.4
16 36.2
149.52
149.61
149.70
0.68
0.60
0.51
.9975406
.9974244
.9973086
48.5
48.4
48.2
9 53 58.23 '
9 50 2.31 1
9 46 6.41
25
26
27
299
300
301
212 17 5.8
213 17 2.0
214 17 0.2
16 30.3
16 26.3
16 24.4
149.78
149.87
149.96
0.40
0.26
-h0.12
.9971933
.9970782
.9969634
4S.0
47.9
47.7
9 42 10.49 '
9 38 14.58
9 34 18.67 ,
28
29
30
802
303
304
215 17 0.5
216 17 2.8
217 17 6.9
16 24.6
16 26.7
16 30.6
150.04
150.12
150.20
0.00
—0.11
0.22
.9968489
.9967348
.9966210
47.6
47.4
47.2
9 30 22.77 ,
9 26 26.86 '
9 22 30.94 1
31
32
305
306
218 17 12.8
219 17 20.2
16 36.3 150.28
16 43.7! 150.86
0.30
—0.37
.9965077
9.9963944
47.1
47.0
9 18 35.04
9 14 39.12 !
-.
NoTB.— xeorrwp
Boda to the tTM •quinox <tt
Vb»dMU,K'
to the mean eqnli
Doxof Jax
i.Od.
1
IV.
OCTOBER, 1856.
167
GREENWICH
MEAN TIME.
THE
MOON'S
1
81UUUUMKTIB.
HORIZONTAL
PARALLAX.
MKRIDLAN PASSAQB.
•s
i
1
2
3
AGS.
Noon.
Midnight.
Noon.
IMff.fbr
Ihonr.
Midnight
Diff.for
Ihonr.
Diff. for
1 hour.
14 45.1
14 48.4
14 53.7
14 4is.5
14 50.8
14 57.1
54 "1.7
54 13.8
54 33.0
+0.S6
0.61
0.95
54 6.9
54 22.5
54 45.4
+0.49
0.79
1.12
h. m.
1 24.5
2 7.6
2 53.8
m.
1.73
1.85
2.00
d.
2.3
3.3
4.3
4
5
6
15 1.0
15 10.4
15 22.0
15 54
15 15.9
15 28.5
54 59.8
55 34.5
56 17.0
1.29
1.6-^
1.93
55 16.2
55 54.8
56 41.0
1.46
1.78
2.07
3 43.5
4 36.6
5 32.3
2.16
2.30
2.38
5.3
6.3
7.3
7
8
9
15 35.4
15 50.4
16 5.9
15 42.7
15 58.2
16 13.5
57 6.6
58 1.6
58 58.4
2.19
2.86
2.37
57 33.5
58 30.0
59 26.3
2.29
2.39
2.80
6 29.0
7 25.1
8 19.7
2.36
2.31
2.23
8.3
9.3
10.3
10
11
12
16 20.8
16 33.6
16 42.5
16 27.6
16 38.6
16 45.2
59 52.9
60 39.5
61 12.8
2.17
1.71
1.05
60 17.5
60 58.1
61 23.0
1.97
1.40
+0.66
9 12.5
10 3.9
10 55.0
2.15
2.11
2.12
11.3
12.3
13.3
13
14
15
16 46.7
16 45.5
16 38.9
16 46.8
16 42.8
16 33.9
61 28.3
61 23.7
60 59.6
+0.24
-0.63
1.40
61 28.6
61 13.9
60 41.1
-0.20
1.03
1.73
11 47.0
12 41.3
13 38.4
2.20
2.32
2.46
14.3
15.3
16.3
16
17
18
16 27.8
16 13.6
15 57.9
16 21.0
16 5.8
15 50.0
60 18.9
59 26.4
58 28.9
2.01
2.36
2.46
59 53.7
58 57.9
57 59.9
2.22
2.48
2.42
14 38.3
15 39.8
16 40.3
2.60
2.58
2.48
17.3
18.3
19.3
19
20
21
15 42.2
15 27.6
15 14.7
15 34.7
15 20.9
15 9.1
57 31.3
56 37.4
55 50.3
2.35
2.12
1.81
57 3.6
56 12.9
55 29.7
2.25
1.97
1.63
17 37.9
18 31.5
19 20.4
2.33
2.13
1.92
20.3
21.3
22.3
22
23
24
15 4.1
14 55.9
14 49.9
14 59.7
14 52.6
14 47.7
55 11.3
54 41.0
54 19.2
1.44
1.08
0.73
54 55.1
54 29.1
54 11.3
1.26
0.90
0.68
20 4.9
20" 46.2
21 25.7
1.76
1.66
1.60
23.3
24.3
25.3
25
26
27
14 46.0
14 44.3
14 44.2
14 44.9
14 44.1
14 44 6
54 5.2
53 58.3
53 57.7
0.43
-0.14
+0.09
54 0.9
53 57.3
53 59.5
0.28
-0.02
+0.21
22 4.4
22 43.4
23 23.6
1.60
1.63
1.70
26.3
27.3
28.3
28
29
30
31
14 45.4
14 48.2
14 52.3
14 57.7
14 46.5
14 50.1
14 54.8
15 1.0
54 2.7
54 12.9
54 28.0
54 48.0
0.33
0.53
0.73
0.94
54 7.2
54 19.8
54 37.4
54 59.9
0.43
0.63
0.83
1.05
6
0 6.0
0 51.4
1 40.2
1.82
1.96
2.12
29.3
0.6
1.6
2.6
32
15 4.6
15 8.6
55 13.1
+1.16
55 27.7
+1.27
2 32.3
2.26
3.6
168
OCTOBER, 1856.
V.
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Right AMendon.
DIff.
forlm.
DHL
forlm.
Hoar.
DIff.
for 1 m.
telB.
WEDNESDAY 1.
FRIDAY
3.
h. in. f.
•.
O 1 H
H
h. m. 0.
8.
O 1 »
M
0
14 3 46.83
IM»1
S.14 21 36.6
13.594
0
15 37 42.25
34606
S.23 6 10.9
8409
1
14 5 37.84
1.8519
14 34 6.3
12.471
1
15 39 47.24
34663
23 15 5.9
8487
2
14 7 29.08
1.8506
14 46 32.9
13.418
9
15 41 52.61
94930
23 23 54.9
8.768
3
14 9 20.54
1.8S07
14 58 56.3
13464
3
15 43 58.31
24977
23 32 37.9
6498
4
14 11 12.24
1.80S7
15 11 16.5
19410
4
15 46 4.34
2.1093
23 41 14.9
8469
5
14 13 4.18
issn
15 23 33.4
13.364
5
15 48 10.71
3.1089
23 49 45.7
8.469
6
14 14 56.36
1.8717
15 35 46.9
19.198
6
15 50 17.41
3.1145
93 58 10.3
8468
7
14 16 48.78
1.8756
15 47 57.0
19.140
7
15 52 24.45
3.1303
94 6 28.7
8.256
8
14 18 41.45
1.8799
16 0 3.6
13480
8
15 54 31.83
2.1360
24 14 40.8
8.148
9
14 20 34.37
1.8841
16 12 6.6
19430
9
15 56 39.56
2.1818
24 92 46.5
6441
10
14 22 27.54
1.8888
16 24 6.0
11400
10
15 58 47.64
2.1875
24 30 45.7
7482
U
14 24 20.97
1.8996
16 36 1.8
11400
11
16 0 56.06
3.1431
24 38 38.4
7499
13
14 26 14.66
14970
16 47 54.0
11418
12
16 3 4.81
2.1487
24 46 24.5
7.7U
13
14 28 8.61
1.9014
16 59 42.4
11.775
13
16 5 13.89
2.1544
24 54 4.0
7408
14
14 30 2.83
1.9056
17 11 27.0
11.711
14
16 7 23.32
2.1803
25 1 36.8
7.481
15
14 31 57.31
14101
17 23 7.7
11445
15
16 9 33.11
3.1660
25 9 2.8
7478
16
14 33 52.06
14148
17 34 44.5
11.879
16
16 11 43.24
3.1717
25 16 22.0
7.284
17
14 35 47.09
14193
17 46 17.3
114U
17
16 13 53.71
2.1774
25 23 34.3
7.169
18
14 37 42.39
14339
17 57 46.2
11.446
18
16 16 4.52
2.1831
25 30 39.7
7489
19
14 39 37.96
1.9J86
18 9 11.0
11478
19
16 18 15.66
3.1887
25 37 38.0
6415
30
14 41 33.82
14334
18 20 31.6
11409
20
16 20 27.14
3.1943
25 44 29.3
6.797
21
14 43 29.97
1.9383
18 31 48.0
11.338
21
16 22 38.96
3.1999
25 51 13.6
6478
22
14 45 26.41
14431
18 43 0.1
11.166
22
16 24 51.12
3.3055
25 57 50.7
6456
23
14 47 23.14
THl
19479
JRSDA
S.18 54 7.9
Y 2.
11493
23
16 27 3.61
SAT
2.3110
URDA
S.26 4 20.5
Y 4.
6.487
0
14 49 20.16
145«
S.19 5 11.3
11490
0
16 29 16.43
93165
S.26 10 43.0
6415
1
14 51 17.48
L95TI
10 16 10.3
10447
1
16 31 29.57
3.2319
26 16 58.1
6.181
2
14 53 15.10
140^16
19 27 4.9
10479
2
16 33 43.04
2.2979
26 23 5.8
6486
3
14 55 13.01
14876
10 37 54.9
10.797
3
16 35 56.84
2.2327
26 29 5.9
6410
4
14 57 11.22
14737
19 48 40.3
10.730
4
16 38 10.97
2.2381
96 34 58.5
8414
5
14 59 9.74
14n9
19 59 21.1
10449
5
16 40 25.42
2.24S5
96 40 43.5
5487
6
15 1 8.57
14831
90 9 57.2
10463
6
16 42 40.19
23488
96 46 90.9
8499
7
15 3 7.71
14663
SO 20 28.4
10.481
7
16 44 55.27
2.2541
96 51 50.5
84891
8
15 5 7.16
14935
20 30 54.8
MUOO
8
16 47 10.67
9.9094
96 57 19.3
84981
9
15 7 6.93
14987
20 41 16.3
10418
9
16 49 26.39
2.2647
97 9 96.2
6.166 ,
10
15 9 7.01
94039
20 51 32.9
10.3M
10
16 51 42.42
24699
97 7 32.2
8488 1
' 11
15 11 7.41
94093
21 1 44.5
10.151
11
16 53 58.76
2.2751
97 19 30.2
urn <
1 13
15 13 8.12
94145
21 11 51.0
10465
12
16 56 15.42
2.2809
97 17 90.1
4.765
' 13
15 15 9.15
S4I99
21 21 52.4
9.978
13
16 58 32.38
24653
97 99 9.0
AMO
' 14
15 17 10.51
94358
21 31 48.5
9491
14
17 0 49.64
2.3903
97 96 35.7
4.«4
15
15 19 12.20
94908
91 41 39.3
9406
15
17 3 7.19
9.3951
97 31 1.9
4487
le
15 21 14.21
94863
21 51 94.9
9.715
16
17 5 25.04
9.3999
97 35 18.4
4419
1 17
15 23 16.55
94417
22 1 6.1
9436
17
17 7 43.18
24047
97 39 97.3
4480
1 18
15 25 19.22
94473
22 10 39.9
9435
18
17 10 1.60
24084
97 43 97.9
8488
I 19
15 27 22.22
94637
92 20 0.2
9.443
10
17 12 20.30
24141
97 47 90.0
8.797
! 20
15 29 25.55
94083
99 29 32.9
9449
20
17 14 39.28
24186
97 51 3.6
94U
21
15 31 29.22
94638
22 38 51.0
9.369
91
17 16 58.54
2.9394
97 54 38.8
8413
1 22
15 33 33.22
94694
92 48 3.5
9.159
22
17 19 18.08
24979
97 58 5.3
i4:«
23
15 35 37.56
94760
92 57 10.1
9463
23
17 21 37.88
24333
28 1 23.2
8.298
,«4
15 37 42.25
Me06
S.93 6 10.9
8465
24
17 23 57.94
24966
S.28 4 32.4
""1
VI.
OCTOBKR, 1856.
169
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Boar.
Btghl 4wwMloo
forlm.
Wit.
forlm.
Hoar.
BI^IAaoaoiloa.
DMT.
for 1 m.
fiorlm.
su
NDA^
' 5.
TUESDAY 7.
h. m. 8.
■.
O 1 If
«
h. m. ■.
■.
O 1 II
n
0
17 23 57.94
S.83M
S.28 4 32.4
tMl
0
19 19 39.12
94301
s.27 32 47.8
4408
1
17 26 18.26
9.S409
28 7 32.9
9.936
1
19 91 55.45
9.4388
37 28 8.8
4.TS9
3
17 28 38.82
S.S451
28 10 24.6
9.788
2
19 24 21.76
9.4384
27 23 19.9
4406
3
17 30 59.66
S.S4M
38 13 7.4
9.641
3
19 26 48.05
94379
27 18 21.2
64»1
4
17 33 20.74
2.a5SS
28 15 41.4
9498
4
19 29 14.30
94379
37 13 13.5
0490
5
17 35 42.06
S.8078
28 18 6.5
9.343
5
19 31 40.51
94364
37 7 53.9
6498
6
17 38 3.62
S.8618
38 20 22.6
9.198
6
19 34 6.67
94866
37 3 35.3
0468
7
17 40 25.41
SsSfSa
98 22 29.6
94)49
7
19 36 32.78
94846
36 56 46.9
6.799
8
17 42 47.43
9.MQ0
28 24 27.6
1.891
8
19 38 58.84
94880
96 50 58.7
0480
9
17 45 9.67
a.1796
28 26 16.5
1.739
9
19 41 24.84
94899
36 45 0.7
04)49
10
17 47 39.13
S.8761
28 27 56.3
1486
10
19 43 50.78
94817
36 38 53.8
6419
11
17 49 54.80
9.S7M
28 29 26.8
1431
11
19 46 16.64
94804
36 32 35.2
0470
12
17 52 17.67
9.S898
28 30 48.0
1.976
12
19 48 42.43
94901
36 36 7.9
0488
13
17 54 40.74
34861
38 31 59.9
1.191
13
19 51 8.14
94978
36 19 30.9
0.701
14
17 57 4.01
%9Bn
28 33 2.5
0.906
14
19 53 33.70
94964
36 13 44.1
0464
15
17 59 97.46
9.a03ft
28 33 55.8
0.819
15
19 55 59.30
94949
36 5 47.4
74)96
16
18 1 51.10
QM66
28 34 39.8
0.607
16
19 58 24.75
94933
35 58 41.1
7.187
17
18 4 14.92
%WM
38 35 14.4
0499
17
20 0 50.10
94916
35 51 35.1
7447
18
18 6 38.92
9.4014
38 35 39.5
0.341
18
30 3 15.34
94198
35 43 59.5
7407
19
18 9 3.08
9.4041
28 35 55.1
0.189
19
30 5 40.47
94179
35 36 34.3
7407
20
18 11 27.41
9.400T
28 36 1.2
04m
20
30 8 5.49
94100
35 38 39.5
7496
21
18 13 51.89
9.4009
28 35 57.8
0.137
21
30 10 30.40
94140
35 30 45.1
7484
22
18 16 16.52
9.4110
28 35 44.7
0.987
22
30 13 55.18
94190
35 13 41.3
8.149
23
18 18 41.29
MC
3.4U0
S.28 35 22.0
' 6.
0497
23
30 15 19.84
WED
94099
NESD.
S.35 4 38.0
^Y 8.
84QD
0
18 21 6.21
9.4101
S.28 34 49.8
0.618
0
90 17 44.37
94077
S.34 56 5.1
8468
1
18 23 31.25
9^181
28 34 7.8
0.780
1
80 30 8.77
94066
34 47 33.9
8.010
2
18 25 56.41
94904
28 33 16.1
0.949
2
30 32 33.03
94033
34 38 51.3
8.778
3
18 28 21.70
9U914
28 32 14.6
1.104
3
20 24 57.16
-94010
34 SO 0.4
8.999
4
18 30 47.10
9.4949
28 31 3.4
1.967
4
30 37 31.15
94987
24 21 0.2
9.064
5
18 33 12.60
9A960
28 29 42.4
1481
5
30 39 44.99
94963
34 11 50.8
9.938
6
18 35 38.20
9.497ft
28 28 11.6
1.606
6
30 32 8.70
94989
24 3 33.1
9401
7
18 38 3.89
9U980
28 26 31.0
1.760
7
20 34 32.26
94914
23 53 4.3
9449
8
18 40 29.67
9*4303
28 24 40.5
1.993
8
20 36 55.66
94888
23 43 37.4
9499
9
18 42 55.53
94310
28 22 40.1
94)07
9
20 39 18.90
94861
23 33 41.4
9449
10
18 45 21.47
9.48«
28 20 30.0
9.961
10
30 41 41.98
94834
23 23 46.3
9499
11
18 47 47.48
94340
28 18 10.0
9.410
11
30 44 4.91
94807
23 13 42.3
10.141
12
18 50 13.56
94390
38 15 40.2
9481
12
30 46 37.67
94780
23 3 39.3
10.990
13
18 52 39.69
94SM
28 13 0.4
9.746
13
30 48 50.28
94769
93 53 7.5
10487
14
18 55 5.87
94387
28 10 10.7
94»11
14
20 51 12.72
94794
32 42 36.9
10484
15
18 57 32.10
94374
28 7 11.1
34n6
15
20 53 34.98
94096
22 31 57.5
10.780
16
18 59 58.37
94380
28 4 1.6
3.911
16
20 55 57.08
94606
22 21 9.4
10474
17
19 2 24.67
94386
28 0 42.2
3406
17
20 58 19.01
94639
22 10 12.7
11410
18
19 4 50.99
94380
27 57 12.8
3.671
18
21 0 40.76
94611
21 59 7.5
11.168
19
19 7 17.33
94309
27 53 33.5
3.736
19
21 3 2.34
9.3683
21 47 53.8
11400
20
19 9 43.68
94394
27 49 44.3
3.909
20
21 5 23.75
94664
21 36 31.6
11449
21
19 12 10.04
94306
27 45 45.1
44)69
21
21 7 44.99
9.3696
21 25 0.8
11481
22
19 14 36.41
94306
27 41 35.9
4.936
22
21 10 6.05
94496
21 13 21.7
11.791
23
19 17 2.77
94388
27 37 16.8
4400
23
21 12 26.93
9.3407
21 1 34.3
11460
24
19 19 29.12
94391
S.27 32 47.8
4*606
24
21 14 47.64
94437
S.20 49 38.7
11496
22
170
OCTOBER, 1856.
Til.
GREENWICH MEAN TIME.
THE MOON»S RIGHT
ASCENSION AND DECLINATION.
Hoar.
Bight Asoensioii.
Dlff.
for 1 m.
Deolinatioii.
DifiC
forlm.
Hour.
Right Afcenskm.
WIT.
forlm.
DUL
fbrlnu
THURSDAY 9.
SATURDAY 11.
h. m. 8.
0.
O 1 u
M
h. m. a.
0.
0 1 0
f»
0
21 14 47.64
iU437
S.20 49 38.7
11.998
0
23 4 10.79
2.2282
S. 9 0 17.8
174)13
1
21 17 8.17
3.3407
20 37 34.9
12.181
1
23 6 24.45
2.2270
8 43 15.2
174178
2
21 19 28.52
2.33T7
20 25 23.0
12,265
2
23 8 38.04
9.2250
8 26 8.6
17.143
3
21 21 48.70
2.3348
20 13 3.1
12.398
3
23 10 51.56
3.2248
8 8 58.2
17.»6
4
21 24 8.70
2.8319
20 0 35.2
12.531
4
23 13 5.02
2.2238
7 51 44.1
17.266
5
21 26 28.52
2.8299
19 47 59.3
1-2.663
5
23 15 18.42
2.2229
7 34 26.4
17.825
6
21 28 48.16
2.8280
19 35 15.6
12.793
6
23 17 31.77
3.2220
7 17 5.2
I7J81
7
21 31 7.63
2.3230
19 22 24.1
12.922
7
23 19 45.07
2.2212
6 59 40.7
17.417
8
21 33 26.92
2.8200
19 9 25.0
liJM9
8
23 21 58.32
3.2905
6 42 12.9
17.493
9
21 35 46.02
2.3170
18 56 18.3
13.176
9
23 24 11.53
3.3199
6 24 41.8
17.644
10
21 38 4.95
2.3142
18 43 4.0
13.302
10
23 26 24.71
3.2194
6 7 7.7
17.8M
11
21 40 23.71
2.8112
18 29 42.2
18.426
11
23 28 37.86
2.2189
5 40 30.6
17.643
13
21 42 42.29
2.8062
18 16 13.0
18.548
12
23 30 50.98
3.2185
5 31 50.7
17.688
13
21 45 0.69
2^53
18 2 36.6
13.668
13
23 33 4.07
3.2181
5 14 8.1
n.7M
14
21 47 18.92
2.3024
17 48 52.9
18.788
14
23 35 17.14
3.3178
4 56 22.9
17.775
15
21 49 36.99
2.2996
17 35 2.0
13.907
15
23 37 30.20
3.2175
4 38 35.1
17.817
16
21 51 54.88
2.2968
17 21 4.1
144)25
16
23 39 43.25
2.2173
4 20 45.0
17.856
17
21 54 12.60
2.2939
17 6 59.2
14.141
17
23 41 56.30
2.2172
4 2 52.7
17.891
18
21 56 30.15
2.3911
16 52 47.3
14.267
18
23 44 9.36
3.2178
3 44 58.2
n.935
19
21 58 47.53
2.2863
16 38 28.5
14.871
19
23 46 22.42
2.2176
3 27 1.6
17*968
20
22 1 4.75
2.2856
16 24 2.9
14.483
20
23 48 35.49
2.2179
3 9 3.0
17.990
21
22 3 21.82
2.2830
16 9 30.6
14.592
21
23 50 48.57
2.2182
2 61 2.7
184)20
22
22 5 38.72
2.2804
15 54 51.8
14.701
22
23 53 1.68
2.2166
2 33 0.7
184)47
23
22 7 55.47
FE
2.2778
JDAY
S.15 40 6.5
10.
US09
23
23 55 14.81
SUl
2.3191
raAY
S. 2 14 57.2
12.
184173
0
22 10 12.06
2.2752
S.15 25 14.7
14.917
0
23 57 27.97
3.2197
S. 1 56 52.2
184M
1
22 12 28.50
2.2727
15 10 16.5
154)23
1
23 59 41.17
2.2903
1 38 45.9
18.1 n
2
22 14 44.79
2.2702
14 55 12.0
15.126
2
0 1 54.41
2.2209
1 20 38.3
18.187
3
22 17 0.93
2.2677
14 40 1.4
15.228
3
0 4 7.69
3.3216
1 2 29.6
18.167
4
22 19 16.93
2.2663
14 24 44.7
15.329
4
0 6 21.02
3.3224
0 44 20.0
18.174
5
22 21 32.78
2.2630
14 9 22.0
I5U29
5
0 8 34.41
2.2384
0 26 9.6
18.183
6
22 23 48.49
2,2807
13 53 53.4
15.627
6
0 10 47.85
3.3346
S. 0 7 58.4
18.193
7
22 26 4.07
2.2384
13 38 19.1
15.623
7
0 13 1.36
3.2358
N. 0 10 13.4
18.301
8
22 28 19.51
2.2562
13 22 30.1
15.718
8
0 15 14.94
3JZ370
0 28 25.7
18.308
9
22 30 34.81
2.2640
13 6 53.3
15.810
9
0 17 28.59
3.3268
0 46 38.3
18.313
10
22 32 49.99
2.2619
12 51 2.1
15.901
10
0 19 42.33
3.3296
1 4 51.2
18.216
11
22 35 5.04
2.2498
12 35 5.5
154W0
11
0 21 56.15
3.2310
1 23 4.1
18.216
12
22 37 19.97
2.2478
12 19 3.5
164r78
12
0 24 10.05
2.2325
1 41 17.0
18.215
13
22 39 34.78
2.^56
12 2 56.3
16.166
13
0 26 24.05
2.2341
1 59 29.8
18.213
14
22 41 49.47
2.2439
11 46 43.8
16.250
14
0 28 38.15
2.2358
2 17 42.3
18.307
15
22 44 4.04
2.2421
11 30 26.2
16.833
15
0 30 52.36
3.2376
2 35 54.4
18.1S0
16
22 46 18.51
2.2403
11 14 3.8
16.414
16
0 33 6.68
3.3395
2 54 6.0
18.188
17
22 48 32.88
2.2386
10 57 36.6
16.494
17
0 35 21.11
3.2414
3 12 16.9
18.176
18
22 50 47.14
2.2369
10 41 4.6
16.572
18
0 37 35.65
3.2434
3 30 26.9
18.163
19
22 53 1.30
2.2353
10 24 28.0
16.U9
19
0 39 50.32
2.2456
3 48 35.9
16.145
20
22 55 15.37
2.2338
10 7 46.8
16.7-26
20
0 42 5.12
2.2479
4 6 44.2
18.137
21
22 57 29.35
2.2323
9 51 1.0
16.801
21
0 44 20.05
2.2602
4 24 51.1
18.106
22
22 59 43.24
2.2309
9 34 10.8
16.872
22
0 46 35.13
2.2625
4 42 56.8
184)86
23
23 1 57.05
2.2295
9 17 16.4
16.913
23
0 48 50.35
2.2549
5 1 1.0
184)96
24
23 4 10.79
2.2282
S. 9 0 17.8
174)12
24
0 51 5.71
2.2674
N. 5 19 3.7
184)83
VIII.
OCTOBER, 1856.
171
GREENWICH MEAN TIME.
THE MOON^S RIGHT
ASCENSION AND DECLINATION.
Hoot.
t
Diit
for 1 m.
neoUnatkn.
Dlff.
forlm.
Uonr.
Right Aaovniioii.
Dur.
for 1 m.
J>eoliiMtl<m.
Dlir.
forlm.
MO
NDAY
13.
WEDNESDAY 15.
h. m. a.
0.
O 1 M
N
h. m. f.
s.
O 1 II
»
0
0 51 5.71
2.W4
N. 5 19 3.7
18.083
0
2 43 35.28
3.4486
N.18 .32 3.6
14.191
1
0 53 21.23
3.3986
5 37 4.7
18403
1
2 46 2.34
3.4534
18 46 11.1
14463
2
0 55 36.90
3.9035
5 55 3.8
17473
2
2 48 29.69
9.4563
19 0 10.8
184b)
3
0 57 52.73
9.3653
6 13 1.1
17488
3
2 50 57.33
9.4631
19 14 2.5
18.795
4
1 0 8.73
9.9060
6 30 56.3
17402
4
2 53 25.26
9.4660
19 27 46.0
13.606
6
1 2 24.90
9.9710
6 48 49.2
17464
5
2 55 53.48
94738
19 41 21.3
13419
6
1 4 41.25
9.9740
7 6 39.8
n433
6
2 58 21.98
9.4775
19 54 48.3
13479
7
1 6 57.78
9.9710
7 24 27.9
17.781
7
3 0 50.77
94839
20 8 6.8
I8.3W
8
1 9 14.49
9.9600
7 43 13.4
17.717
8
3 3 19.84
94809
20 21 16.8
13406
9
1 11 31.38
9.96S9
7 59 56.3
17480
9
3 5 49.19
34916
20 34 18.1
19448
10
1 13 48.47
9.960ft
8 17 36.1
17441
10
3 8 18.82
34963
20 47 10.6
19401
11
1 16 5.76
3.9608
8 35 13.0
17401
11
3 10 48.74
34010
20 59 54.2
19463
18
1 18 33.24
9.9M1
8 53 46.8
17438
12
3 13 18.94
3.0006
21 12 28.9
1^004
13
1 20 40.92
9.906ft
9 10 17.3
17.483
13
3 15 49.41
34103
31 24 54.6
19463
14
1 22 58.82
9.3000
9 37 44.4
n.438
14
3 18 20.15
94116
21 37 11.1
13.300
15
1 25 16.93
9.M00
9 45 7.9
17463
15
3 20 51.15
9.0100
21 49 18.4
13444
16
1 27 35.26
9.307S
10 3 37.8
17403
16
3 23 22.42
9.0334
22 1 16.3
11467
17
1 29 53.81
94110
10 19 44.0
17.388
17
3 25 53.95
94977
22 13 4.7
11.738
18
1 32 12.58
94148
10 36 56.3
17.171
18
3 28 25.73
3.0319
22 24 43.5
11468
19
1 34 31.59
34186
10 54 4.4
17.103
19
3 30 57.77
3.5861
22 36 12.8
11407
30
1 36 50.83
94937
11 11 8.4
174)33
20
3 33 30.06
22 47 32.3
11.346
21
1 39 10.30
94900
U 28 8.1
16.900
21
3 36 2.60
22 58 42.1
11.060
22
1 41 30.01
94806
11 45 3.4
16485
22
3 38 35.40
3.5466
23 9 41.9
10.018
23
1 43 49.97
TUI
94S47
:SDA^
N.13 1 54.1
' 14.
16407
23
3 41 8.45
THU
34539
RSDA
N.23 20 31.7
Y 16.
10.747
0
1 46 10.17
94S86
N.13 18 40.1
16.797
0
3 43 41.74
34069
N.23 31 11.5
10480
1
1 48 30.62
34480
12 35 21.3
16446
1
3 46 15.26
34605
23 41 41.2
10.410
2
1 50 51.33
94478
12 51 57.6
16463
2
3 48 48.99
34641
23 52 0.7
10.338
3
1 53 12.30
94516
13 8 28.8
16.4T7
3
3 51 22.95
3.5677
24 2 9.8
10467
4
1 55 33.52
34500
13 24 54.7
16489
4
3 53 57.12
34713
24 12 8.6
9.894
5
1 57 55.00
3400S
13 41 15.3
16.396
5
3 56 31.50
3.6749
24 21 57.0
9.719
6
2 0 16.75
34617
13 57 30.4
16.307
6
3 59 6.10
3.5764
24 31 34.9
9.645
7
2 2 38.76
34681
14 13 39.9
16.113
7
4 1 40.91
3.5617
24 41 2.3
9469
8
2 5 1.04
34785
14 29 43.7
16417
8
4 4 15.90
9.5848
24 50 19.1
9.193
9
2 7 23.58
34780
14 45 41.7
16418
9
4 6 51.07
3.5679
24 59 25.2
9413
10
2 9 46.39
348-25
15 1 33.7
15416
10
4 9 26.44
3.5910
25 8 20.5
6433
11
2 12 9.48
34871
15 17 19.5
15.718
11
4 12 1.99
3.5940
25 17 5.0
8451
12
2 14 32.85
34917
15 32 59.1
16406
12
4 14 37.72
3.5966
25 25 38.6
8470
13
2 16 56.49
34964
15 48 32.3
15.003
13
4 17 13.61
3.0096
25 34 1.3
8.388
14
2 19 20.41
3.4011
16 3 59.1
15403
14
4 19 49.66
3.6033
25 43 13.0
8.104
15
2 21 44.62
3.4006
16 19 19.3
15.36!
15
4 22 25.86
34046
25 50 13.6
7419
16
2 24 9.11
3.4105
16 34 32.7
15.167
16
4 25 2.20
34068
35 58 3.1
7.788
17
2 26 33.88
3^153
16 49 39.2
15451
17
4 27 38.67
34090
26 5 41.5
7447
18
2 28 58.93
3.4199
17 4 38.8
14433
18
4 30 15.27
34111
26 13 8.8
7460
19
2 31 24.27
3.4347
17 19 31.4
14414
19
4 32 51.99
34130
36 30 34.9
7.178
20
2 33 49.90
3.4395
17 34 16.7
14494
20
4 35 28.82
34149
36 87 39.7
6406
21
2 36 15.81
3.4S48
17 48 54.7
1447i
21
4 38 5.76
9*6166
36 34 23.4
6.790
22
2 38 42.01
3.4801
18 3 25.3
14.447
22
4 40 42.81
34183
26 41 5.7
6411
23
2 41 8.50
3.4439
18 17 48.3
14.330
23
4 43 19.94
34196
26 47 36.6
6433
24
2 43 35.28
N.18 32 3.6
14.191
24
4 45 57.15
3.6306
N.26 53 56.2
6.333
t72
OCTOBER, 185B.
IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION. !
1
Hoar.
forlm.
DeeUmtton.
DIff.
forlm.
Hour.
Bight AMeoBtoB.
forlm.
1
DHL 1
forlm. '
1
FRIDAY
17.
SUNDAY
19.
1
1
h. m. 1.
f.
O 1 11
w
h. m. 8.
■.
O 1 •
• 1
0
4 45 57.15
3.8906
N.26 53 56.2
0.389
0
6 50 23.41
34063
NS8 14 65.1
8474
1
4 48 34.43
3.0919
27 0 4.4
0.049
1
6 52 53.74
84096
88 18 9.7
3449
8
4 51 11.77
3.0999
27 6 1.1
6481
2
6 65 23.73
34973
88 9 14.4
8407
3
4 53 49.17
3.0919
27 11 46.4
6.080
3
6 57 63.37
34013
88 6 9.8
8.m
4
4 56 26.64
3.0348
27 17 20.2
6407
4
7 0 82.66
34889
88 8 64.1
8483
5
4 59 4.14
3.03S5
27 82 42.5
6477
6
7 2 61.69
34799
87 59 89.3
8406
6
5 1 41.67
9.0960
87 27 63.4
6468
6
7 6 80.16
34781
87 55 64.8
8406
7
6 4 19.22
3.O90B
27 32 52.8
4498
7
7 7 48.36
27 58 10.7
8410
8
6 6 66.79
941909
27 37 40.6
4.700
8
7 10 16.19
34006
87 48 17.0
8470
9
5 9 34.35
3.09Se
27 42 16.8
4467
0
7 12 43.63
34841
87 44 13.8
4.110
10
5 12 11.88
3.09i8
27 46 41.4
4418
10
7 15 10.68
34«n
87 40 1.3
4480
11
5 14 49.38
3.0948
27 50 54.6
4.138
11
7 17 37.34
84413
87 35 39.3
4440
12
5 17 26.85
3.0948
37 54 56.4
8488
12
7 80 3.60
84S48
87 31 7.9
440O
13
5 20 4J38
3.0986
27 58 46.8
8.748
13
7 22 89.46
34978
87 86 87.4
4.788
14
5 22 41.68
S^09n
26 2 25.5
8448
14
7 84 64.93
84310
87 81 37.7
4408
15
5 25 19.05
3^0398
28 5 62.5
8484
15
7 37 19.97
84M3
87 16 39.0
6403 1
16
5 27 56.37
3^18
28 9 7.9
8.103
10
7 89 44.61
840T9
87 11 31.5
6480 1
17
5 30 33.63
3.0906
28 12 12.0
3*979
17
7 38 8.83
84009
87 6 15.1
6448
18
5 33 10.81
34166
28 15 4.7
3.761
18
7 34 33.63
34888
87 0 49.9
6498
19
5 35 47.88
34170
28 17 45.9
3400
19
7 36 66.08
84604
96 55 16.0
64M
20
5 38 24.84
34181
28 20 15.6
3.400
20
7 39 18.99
84708
86 49 33.6
6.781
21
5 41 1.69
84189
28 22 33.9
3.910
21
7 41 41.63
34789
96 43 48.5
6481
22
6 43 38.43
34118
28 24 40.8
3^no
22
7 44 3.68
34081
86 37 43.8
0401
23
5 46 15.05
SAT
34009
URDA
Nj28 26 36.4
Y 18.
1.881
23
7 46 85.31
Mo:
84880
NDAY
N.86 31 36.6
2a
0401
0
5 48 51.51
3.O07O
N.28 28 20.6
1.043
0
7 48 46.69
84806
N.86 96 19.4
0480
1
5 51 27.85
3.0044
28 29 53.5
1.484
1
7 61 7.48
84480
86 18 66.3
04TI
2
5 54 4.03
34010
28 31 15.1
1.960
8
7 63 27.81
84808
96 18 83.1
O406
3
5 56 40.04
3J066
28 32 25.4
1.078
3
7 65 47.75
84990
86 6 43.8
0.7J6
4
5 59 15.88
3.8006
28 33 24.5
0.800
4
7 68 7.86
34310
85 58 64.6
0490
5
6 1 51.53
34096
28 34 12.4
0.709
6
8 0 86.33
84149
85 51 58.6
7400 '
6
6 4 26.99
34804
28 34 49.0
0410
6
8 3 44.96
8.8007
85 44 64.8
7.187 i
7
6 7 2.25
34601
28 35 14.4
0489
7
8 5 3.13
8.9808
85 37 43.4
7464 ,
8
6 9 37.31
34697
28 35 28.8
0.146
8
8 7 80.87
3.9090
85 30 84.4
7479
9
6 12 12.16
34793
28 35 32.2
0488
9
8 9 38.17
3.3647
86 83 67.8
7408 '
10
6 14 46.79
34768
28 35 24.6
0.918
10
8 11 65.03
3.3778
85 15 83.9
7480 1
11
6 17 21.18
34719
28 35 6.0
0400
11
8 14 11.44
34807
35 7 43.7
7.748 1
12
6 19 55.32
34070
28 34 36.4
0469
12
8 16 37.40
3.9838
84 69 64.8
7408
13
6 22 29.20
3.0096
28 33 56.0
0.709
13
8 18 43.92
3.3860
34 51 68.6
7467 '
14
6 25 2.84
34668
28 33 4.9
0.943
14
8 20 58.00
3.9410
84 43 65.9
S.106 1
15
6 27 36.21
34886
28 32 3.0
1.191
15
8 23 12.63
34401
94 36 46.8
6419
16
6 30 9.30
34403
28 30 50.5
1.997
16
8 25 26.81
34837
84 87 89.7
6483
17
6 32 42.11
34440
28 29 27.5
1.473
17
8 27 40.55
3.3968
94 19 6.3
8446 i
18
6 35 14.64
34800
26 27 63.9
1.647
18
8 29 63.85
3.3177
84 10 36.1
8400
19
6 37 46.89
34860
28 26 9.9
1430
19
8 32 6.69
3.9108
34 1 69Ji
6489
20
6 40 18.83
34906
28 24 15.5
1.003
20
8 34 19.09
34080
S3 63 15.8
6.TW
21
6 42 50.45
34948
28 22 10.7
3.108
21
8 36 31.05
8.1967
83 44 85.9
6466
22
6 45 21.76
34191
28 19 65.7
3488
22
8 38 42.67
8.1688
83 36 39.6
8409
23
6 47 52.75
34U7
28 17 30.6
3408
23
8 40 63.65
3.1611
33 86 87.0
9406 1
24
6 50 23.41
34008
NM 14 66.1
3474
24
8 43 4.30
3.1789
N.83 17 18.8
9.190 1
X.
OCTOBER, 185«.
173
■
GREENWICH MEAN TIME,
THE MOON'S RIGHT ASCENSION AND DECLINATION.
nonr.
Din:
ibrlm.
DwHnMlon,
DUL
forlm.
Hoar.
UgfatlmniioB.
Wff.
forlm.
DwHnMlon,
DHL
forlm.
TUl
3SDA1
r 2L
THURSDAY 28.
h. m. ■.
•.
o 1 n
M
h. m. 0.
■.
O 1 4
w
0
8 43 4.30
t.l7»
N.93 17 18J8
0.100
0
10 19 50.07
I4V94
N.14 20 20.7
19.738
1
8 45 14.52
t.1697
23 8 3J3
0409
1
10 21 42.70
14740
14 7 36.0
13.786
9
8 47 24.30
aaans
22 58 42.1
0.408
2
10 23 35.06
14704
13 54 46.5
13434
3
8 49 33.65
3.1ft91
29 49 15.0
0.609
3
10 25 27.15
14660
13 41 55.1
13480
4
8 51 42.55
S.I44B
22 39 42.0
0400
4
10 27 18.97
146U
13 29 1.0
13434
6
8 53 51.03
%W1
22 30 3.2
0.0M
5
10 29 10.53
14079
13 16 4.3
19407
6
8 55 59.10
s.iao7
22 20 18.6
9.709
0
10 31 1.84
14800
13 8 5.1
13439
7
8 58 6.73
3.1917
22 10 28.3
0487
7
10 32 52.91
1.8488
12 50 3.3
13469
8
9 0 13.94
9.IM6
22 0 32.3
0.970
8
10 84 43.71
14466
12 36 59.0
13494
9
9 2 20.72
S.10iM
21 50 30.6
104(71
9
10 36 34.25
14406
12 23 52.1
13.134
10
9 4 27.08
3.1034
21 40 28.8
]0.ia9
10
10 88 24.57
14386
12 10 42.9
13.n4
11
9 6 33.03
34966
21 30 11.5
10.310
11
10 40 14.66
14397
11 57 31.4
13.919
12
9 8 88.58
34)880
21 19 54.0
10488
12
10 42 4.51
14900
11 44 17.6
13.948
13
9 10 43.71
3.08-28
. 21 9 31.2
10.4U
13
10 43 54.14
149S0
11 31 1.6
18484
14
9 12 48.48
34nM
20 59 3.3
10410
14
10 45 43.55
14116
11 17 43.4
13499
15
9 14 52.75
34600
20 48 80.2
10494
15
10 47 32.74
14181
11 4 22.9
13468
16
9 16 56.67
34633
20 37 62.1
104n
16
10 49 21.72
14146
10 51 0.4
18493
17
9 19 0.19
34568
20 27 9.1
10.768
17
10 51 10.49
14110
10 37 36.9
18497
18
9 21 3.31
34486
20 16 21.3
10489
18
10 52 59.06
14076
10 24 9.3
13.489
19
9 23 6.03
34431
20 5 28.6
10418
19
10 54 47.41
140tt
10 10 40.8
13.409
20
9 25 8.37
34S67
19 54 31.2
10.906
20
10 56 35.59
14011
9 57 10.4
13494
21
9 27 10.32
34i06
19 43 29.2
11473
21
10 58 23.57
i*7no
9 43 38.2
13464
22
9 29 11.89
34930
19 32 22.6
11.140
22
11 0 11.36
1.7010
9 30 4.1
13468
23
9 31 13.07
WEDl
34U6
^ESDJ
N.19 21 11.4
LY 22.
11.394
23
11 1 58.97
FR
1.1010
IDAY
N. 9 16 28.3
24.
13419
0
9 33 13.89
94MM
N.19 9 55.8
1L390
0
11 8 46.40
1.7801
N. 9 2 60.9
13440
1
9 35 14.33
9404S
18 58 85.8
.11460
1
11 6 33.66
1.7863
8 49 12.3
18407
2
9 37 14.40
Looeo
18 47 11.6
1L440
2
11 7 20.76
1.7836
8 35 30.7
18403
3
9 39 14.09
1.0090
18 35 43.1
11.610
3
11 9 7.68
1.7807
6 21 48.6
13.718
4
9 41 13.43
14800
18 24 10.4
1U670
4
11 10 54.44
1.TT70
8 8 4.8
13.744
5
9 43 12.41
14800
18 12 33.7
11446
5
11 12 41.04
1.7768
7 54 19.6
13.7tt0
6
9 45 11.03
IJrus
18 0 53.1
ii.7n
6
11 14 27.48
1.7798
7 40 32.7
18.701
7
9 47 9.31
146B4
17 49 8.4
1UT78
7
11 16 13.78
1.7704
7 26 44.6
13413
8
9 49 7.24
14638
17 37 19.8
11449
8
11 17 59.94
1.7681
7 12 55.2
13486
9
9 51 4.82
14079
17 25 27.4
11406
9
11 19 45.97
1.7660
6 59 4.5
13466
10
9 53 2.07
14618
17 13 31.1
1L96B
10
11 21 31.86
1.7637
6 45 12.6
13476
11
9 54 58.98
14466
17 1 31.1
13480
11
11 23 17.62
1.7617
6 31 19.5
13406
12
9 56 55.55
14409
16 49 27.5
13499
12
11 25 3.26
1.7607
6 17 25.2
18416
13
9 58 51.80
1.0848
16 37 20.2
13.168
13
11 26 48.78
1.7677
6 3 29.8
13434
14
10 0 47.73
14^4
16 25 9.3
19.911
14
11 28 34.18
1.7666
5 49 33.4
18461
15
10 2 43.33
14941
16 12 55.0
19.968
15
11 30 19.46
1.7686
6 36 36.9
13406
16
10 4 38.62
14180
16 0 37.3
13498
16
11 32 4.63
1.7619
5 21 37.5
13463
17
10 6 33.60
14137
15 48 16.3
19477
17
11 33 49.70
1.7606
5 7 38.2
13408
18
10 8 28.27
14085
15 35 52.1
13.481
18
11 36 34.68
1.7488
4 63 37.9
14413
19
10 10 22.64
14088
15 23 24.7
19.486
19
11 37 19.56
1.7479
4 39 36.8
14496
20
10 12 16.71
14086
15 10 54.1
13488
20
11 39 4.36
1.7467
4 26 34.9
14488
21
10 14 10.48
14080
14 58 20.3
19400
21
11 40 49.05
1.7443
4 11 32.3
14460
22
10 16 3.97
14808
14 45 43.4
19441
22
11 42 33.67
1.7499
3 57 29.0
14461
23
10 17 57.17
L884S
14 33 3.5
19400
23
11 44 18.21
1.7417
3 43 25.0
14473
24
10 19 50.07
14794
N.14 20 20.7
19.738
24
11 46 2.68
1.7405
N. 8 29 20.4
14463
174
OCTOBER, 1856.
XI.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Right AfoensloD.
forlm.
DIff.
forlm.
Hour.
Right ABoenskm.
Dlff.
for 1 m.
DeettnMioo.
for 1 m. !
1
SATURDAY 25.
MONDAY
27.
h. m. ■.
■.
O 1 If
»
h. m. ■.
■.
O 1 W
•
0
11 46 2.68
1.7406
N. 3 39 30.4
14.069
0
13 9 32.81
1.7649
S. 7 44 18.8
18.707
1
11 47 47.08
I.TSM
3 15 15.3
14U»1
1
13 11 18.77
1.7671
7 58 0.4
18.681
S
11 49 31.42
1.7S84
3 1 9.5
14.100
3
13 13 4.86
1.7693
8 11 40.4
izjua
3
11 51 15.69
1.7874
3 47 3.3
14.107
3
13 14 51.08
1.7716
8 36 18.7
UJSU
4
11 52 59.91
1.7866
3 33 56.7
14.114
4
13 16 37.45
1.T740
8 38 55.3
18.696
6
11 54 44.08
1.7866
2 18 49.7
14.190
5
13 18 23.96
1.7764
8 53 30.3
18.867
6
11 56 28.20
1.7848
3 4 43.3
14.196
6
13 20 10.61
1.T789
9 6 3.3
18.688
7
11 58 12.27
1.7841
1 50 34.5
14.189
7
13 21 67.42
1.7814
9 19 34.6
18.607
8
11 59 56.30
1.7886
1 36 36.5
14.186
8
13 23 44.38
1.7888
9 33 4.0
18.474
9
12 1 40.30
1.7881
1 33 18.3
14.188
9
13 25 31.49
1.7864
9 46 31.4
18.440
10
12 3 24.27
1.1896
1 8 9.9
14.141
10
13 27 18.76
1.7899
9 69 66.8
1S.40T
11
12 5 8.21
1.7890
0 54 1.3
14.144
11
13 29 6.20
1.7990
10 13 30.3
18.876
13
12 6 52.12
1.7816
0 39 53.6
14.146
13
13 30 63.81
1.7949
10 36 41.6
1SJ40
13
12 8 36.01
1.7818
0 35 43.9
14.146
13
13 32 41.59
1.7978
10 40 0.8
18.809
14
12 10 19.89
1.7818
N. 0 11 35.3
14.146
14
13 34 29.55
1.8006
10 63 17.8
18.966
15
12 12 3.77
1.7813
S. 0 3 33.5
14.146
15
13 36 17.69
1.8038
11 6 33.6
18.998
16
12 13 47.64
1*7819
0 16 43.3
14.143
16
13 38 6.01
1.8008
11 19 45.1
18.190
17
12 15 31.51
1.7811
0 30 60.7
14.140
17
. 13 39 54.52
1.8009
11 33 65.3
18.161
18
12 17 15.37
1.7811
0 44 59.0
14.186
18
13 41 43.21
1.8139
11 46 3.1
18.111
19
12 18 59.24
1.7819
0 59 7.0
14.189
19
13 43 32.10
1.8166
11 59 8.5
18.070
30
12 20 43.12
1.7816
1 3 14.8
14*199
30
13 45 21.19
14)198
13 13 11.4
134)97
SI
12 23 27.02
1.7818
1 27 83.4
14.196
31
13 47 10.47
1.8939
13 35 11.7
19.963
23
12 24 10.94
1*7891
1 41 39.7
14.119
33
13 48 59.96
1.8966
12 38 9.4
19.M0
23
12 25 54.88
SU]
1*7896
TOAY
S. 1 55 36.6
26.
14*119
33
13 50 49.66
TUI
1.8801
3SDA^
S.12 51 4.5
' 28.
13.896
0
12 27 38.85
1.7880
S. 3 0 43.1
14.106
0
13 62 39.57
1.8889
S.13 3 66.9
13.869 i
1
12 29 22.85
1.7886
3 33 49.3
14.008
1
13 64 39.71
1.8374
13 16 46.6
13.806 ,
2
12 31 6.89
1.7841
3 37 54.8
14.088
3
13 56 80.06
1.8408
13 39 33.5
19.768 •
3
12 32 50.96
1.7849
3 51 59.8
14.078
3
13 58 10.63
1.8446
13 43 17.5
13.709 1
4
12 34 35.08
1.7867
3 6 4.3
UJOCB
4
14 0 1.41
1.8484
13 64 58.5
13,660 ,
5
12 36 19.25
1.7366
3 30 8.0
14.066
5
14 1 53.43
1.8699
14 7 36.6
13.611 '
6
12 38 3.46
1.7873
3 34 11.1
14.046
6
14 3 43.68
1.8660
14 30 11.7
13.660 1
7
12 39 47.73
1.7889
3 48 13.4
14.033
7
14 5 35.16
1.8000
14 33 43.7
13.607 ,
8
12 41 32.06
1.7894
4 3 15.0
14.091
8
14 7 86.88
1.8640
14 45 13.5
19.468 1
9
12 43 16.46
1.7406
4 16 15.8
14.006
9
14 9 18.84
1.8680
14 57 38.1
19.401 {
10
12 45, 0.93
1.7418
4 30 15.7
18.991
10
14 11 11.04
1.8791
15 10 0.5
13.S47
11
12 46 45.47
1.7498
4 44 14.7
18.976
11
14 13 3.49
1.8763
15 38 19.6
13.390 f
12
12 48 30.08
1.7448
4 58 13.8
18.966
13
14 14 66.18
1.8803
15 34 35.3
19.383 1
13
12 50 14.78
1.7467
5 13 9.8
18.949
13
14 16 49.13
1.8847
15 46 47.6
19.177
14
12 51 69.56
1.7471
5 36 5.8
18.996
14
14 18 48.34
1.8801
15 58 66.5
19.190
15
12 53 44.42
1.7486
5 40 0.8
18.908
15
14 30 35.81
1.8930
16 11 1.9
19.061 1
16
12 55 29.38
1.7600
6 53 64.7
13.888
16
14 33 89.53
1.8978
16 33 3.6
11.999 ,
17
13 57 14.43
1.7616
6 7 47.3
13.868
17
14 34 23.53
1.9093
16 35 1.7
11.988 '
18
13 58 59.58
1.7688
6 31 38.7
13.847
18
14 86 17.82
1.9068
16 46 56.1
11.876 1
19
13 0 44.84
1.7660
6 35 38.8
13.896
19
14 28 12.34
1.9118
16 58 46.8
11.818 1
20
13 3 30.31
1.7668
6 49 17.6
18.809
30
14 30 7.15
1.9158
17 10 33.6
11.760 ,
21
13 4 15.68
1.7968
7 3 5.0
18.778
31
14 32 2.23
1.9205
17 22 16.6
11.6S3 1
23
13 6 1.37
1.7608
7 16 51.0
13.755
22
14 33 57.59
1.9259
17 33 55.6
11.616 '
23
13 7 46.98
1.76-28
7 30 35.6
13.781
23
14 35 53.34
1.9998
17 45 30.6
11.650 i
24
13 9 33.81
1.7649
S. 7 44 18.8
13.707
24
14 37 49.16
1.9344
S.17 57 1.7
11.483 j
1
XII.
OCTOBER, 1856.
176
1
GREENWICH
MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Uoor.
1
Right iMenrfon.
IMff.
forlm.
Dlff.
forlm.
Hour.
Bl^tA«oai«lon.
Dirr.
forlm.
Dlff.
telra.
WED
NESD.
A.Y 29.
FRIDAY
31.
h. m. ■.
0.
O 1 n
N
h. m. ■.
■.
O 1 M
K
0
14 37 49.16
1.9844
S.17 67 1.7
11.483
0
16 16 41.27
3.1896
S.25 30 10.6
0.996
1
14 39 45.37
IMn
18 8 28.6
11.414
1
16 18 62.81
3.1946
25 37 6.7
0.876
2
14 41 41.87
1.M40
18 19 51.3
11.844
2
16 21 4.66
3.3001
25 43 66.6
6.766
3
14 43 38.67
1.9486
18 31 9.8
11.978
3
16 23 16.83
3.3064
25 60 37.3
0.838
4
14 46 35.75
1.96S8
18 42 24.0
11.901
4
16 26 29.31
3.3100
25 67 11.6
0.610
5
14 47 33.13
1.9568
18 53 33.8
11.199
6
16 27 42.10
3.3166
26 3 38.6
0J67
6
14 49 30.81
1.9638
19 4 39.3
114)66
6
16 29 56.20
3.3910
26 0 68.0
0.964
7
14 51 28.79
1.9068
19 15 40.3
10.978
7
16 32 8.61
3.9961
26 16 10.1
0.139
8
14 53 27.07
1.9796
19 26 36.7
10.909
8
16 34 22.32
9.3311
26 22 14.7
0.019
9
14 55 25.67
1.9789
19 37 28.5
10.994
9
16 36 36.33
3.3303
26 28 11.6
6.684
10
14 57 24.56
1.9640
19 48 15.6
10.740
10
16 38 50.65
3.9413
26 34 0.8
6.760
11
14 59 23.76
1.9691
19 68 68.0
10.006
11
16 41 6.27
3.3409
26 39 42.3
64197
12
15 1 23.28
1.994S
20 9 35.6
10.666
12
16 43 20.18
3.9610
26 45 16.1
6.497
13
15 3 23.10
1.9997
20 20 8.3
10.507
13
16 45 35.37
3.3667
26 60 42.0
6.307
U
15 5 23.24
341061
20 30 36.2
10.494
14
16 47 50.85
3.3003
26 66 0.1
6.980
15
15 7 23.70
M109
20 40 69.1
10.341
15
16 60 6.61
3.3060
27 1 10.3
6.104
16
15 9 24.47
94)195
20 61 17.0
10.360
16
16 62 22.65
3.9097
27 6 12.5
4.970
17
15 11 25.56
941006
21 1 29.8
10.179
17
16 64 38.97
3.9744
27 11 6.6
4.834
18
15 13 26.97
341981
21 11 37.6
104)60
18
16 66 66.67
3.9790
27 15 62.5
4.006
19
15 15 28.70
34)816
21 21 40.0
104)00
19
16 69 12.44
3.9633
27 20 30.3
4.609
20
15 17 30.75
34008
21 31 37.3
9.913
20
17 1 29.67
3.9877
27 24 69.9
4.436
21
15 19 33.12
34)439
21 41 29.2
9.619
21
17 3 46.96
3.9990
27 29 21.3
4.967
! 22
15 21 35.82
94)478
21 51 16.5
9.730
22
17 6 4.61
3.9069
27 33 34.6
4.146
23
15 23 38.85
34)639
S.22 0 56.3
9.034
23
17 8 22.51
3.8006
S.27 37 39.2
44)06
THU
RSDA^
Y 30.
SATUKl
3AY,
NOV. 1.
0
1
15 25 42.20
15 27 45.87
3^)665
34)039
S.22 10 31.6
22 20 1.3
9.649
9.448
0
17 10 40.671
3.30471
S.27 41 36.4|
8.868
2
15 29 49.87
3.0094
22 29 25.3
9.368
3
15 31 54.20
34)749
22 38 43.6
9.366
4
15 33 58.86
94)604
22 47 66.1
9.169
5
15 36 3.86
34)800
22 67 2.7
94)61
6
15 38 9.19
34)914
23 6 3.4
64)63
PHASES (
W TI
IE MOON.
7
15 40 14.84
34)970
23 14 68.2
8.663
8
15 42 20.82
3.1096
23 23 46.9
8.761
0
15 44 27.14
3.1063
23 32 29.4
8.069
10
15 46 33.79
3.1187
23 41 6.8
8.664
Day. h. m.
11
12
15 48 40.77
15 50 48.07
3.1100
3.1346
23 49 35.9
23 67 69.7
6.449
6441
3) First Qua
O FulfMooi
rter,
1, .
. 6 17 37.
. 13 10 69.
B
1
13
15 52 55.69
3.1301
24 6 17.2
8.986
<C Last Quai
ter,.
.20 6 6.
7
14
15 55 3.65
3.1365
24 14 28.2
8.199
# New Moo
n, .
.28 9 64.
B
15
16
15 57 11.94
15 59 20.56
3.1409
3.1464
24 22 32.6
24 30 30.6
84)90
7.911
17
16 1 29.51
3.1610
24 38 21.8
7.800
Day. h.
18
16 3 38.79
3.1574
24 46 6.5
74)88
C Perigee,
• •
. . 13 6.
6
19
16 5 48.40
3.1098
24 53 44.4
7.670
C Apogee,
• •
. . 26 14.
6
20
16 7 68.33
3.1082
25 1 16.5
7.403
21
16 10 8.58
3.1736
25 8 39.8
7.347
22
16 12 19.16
3.1790
25 15 67.1
7.381
23
16 14 30.05
3.1613
25 23 7.4
7.113
24
16 16 41.27
3.1806
S.25 30 10.6
0.996
176
OCTOBER, 1856.
XIII.
GREENWICH MEAN TIME.
1
LUNAB DISTANCES. '
1
*8S
8ter*f Nmm
P.L.
P.L.
P.L.
P.L. 1
ftOd
Noon.
of
HP*-
of
Vlh.
of
I».
<^
Poiitloii.
Dur:
Dur:
Dur:
US.
O 1 M
O 1 M
O 1 II
O 1 «
1
1
Sun
W.
25 30 49
S440
36 43 30
8487
38 3 55
8484
39 35 33
8481 1
Antares
E.
34 3 66
8069
33 34 0
8060
31 6 3
8060
39 36 3
8040 [
Mars
E.
36 9 60
san
34 46 33
8840
33 33 15
8846
31 59 65
aoa
a Aquil«
E.
87 18 69
80QB
86 6 42
8004
84 63 36
8006
83 39 11
8007
S
SUK
W.
86 14 37
am
37 36 40
aioo
38 68 48
8409
40 91 3
8807 1
Venus
W.
16 36 15
SttS
17 56 1
Sflffl
19 15 55
8610
30 35 67
8619
Man
E.
S5 S 66
saao
23 39 30
8800
32 16 4
8880
30 52 38
8840
a Aqui]e
E.
77 S3 46
asao
76 20 66
8081
75 8 14
8046
73 56 40
8S66
FoQialhaiit
E.
104 6 39
t9M
103 40 34
8947
101 15 21
8941
99 60 0
8904 1
3
Sun
W.
47 IS 47
8906
48 36 42
88A0
49 60 46
8869
61 33 56
8844
Veaus
W.
S7 18 U
84T7
28 39 1
8460
30 0 0
8460
31 21 9
8440 1
a AquilflB
E.
67 66 32
4019
66 44 11
4086
66 S3 7
4064
64 33 31
4076 ,
Fomaihaal
E.
92 41 16
8001
91 16 8
8104
89 48 63
8167
88 33 37
8100
Jupiter
E.
135 30 17
»ao
123 59 1
lOtt
133 37 37
1007
130 66 5
«90 ,
4
Suw
W.
68 31 18
8800
69 46 30
MBO
61 9 63
8970
68 34 30
aio7
Venus
W.
38 9 38
8«M
39 31 40
aaoo
40 64 6
8868
43 16 41
8071
a Aquil«
E.
68 34 11
4tl9
67 26 66
4940
66 18 16
4987
65 11 10
4890
FoouUhaut
E.
81 8 18
8U4
79 41 2
8188
78 13 38
8180
76 46 5
8198 1
aPegaai
E.
103 33 68
8809
101 8 2
1960
99 43 53
8987
98 17 37
8996 i
Jupiter
E.
113 16 67
9B0lt
111 43 33
1000
110 10 38
9870
108 37 41
9000 ,
6
Sun
W.
69 40 61
8900
71 6 49
UOO
73 33 4
8109
73 69 35
8100 '
Venus
W.
4U 13 6
8800
60 37 7
1906
63 1 34
8989
63 35 56
8900
Fomalhaut
E.
69 36 9
8087
67 67 44
8009
66 39 12
8074
65 0 31
8060 .
a Pegasi
E.
91 6 42
8164
89 39 60
8109
88 13 43
8140
86 45 33
8190 '
Jupiter
£.
100 49 37
1006
99 16 17
1706
97 40 43
1709
96 6 61
1700
6
Sun
W.
81 16 26
8QM
83 44 43
8078
84 13 19
8009
85 43 15
80tt 1
Venus
w.
60 32 64
8191
61 59 14
ano
63 35 53
8168
64 63 53
8149
AnUres
w.
26 48 4
9746
38 33 43
1789
39 69 41
9716
31 36 0
9701 ■
Mars
w.
21 26 17
8009
33 56 42
8018
34 35 33
90O7
35 66 49
9077 '
Fomalhaut
E.
67 35 20
80i9
56 6 69
8080
64 36 35
8087
63 7 8
8084
a Pegaai
E.
79 25 7
8079
77 56 33
8061
76 37 36
8061
74 68 16
80«
Jupiter
E.
88 7 18
9f709
86 30 41
1007
84 63 44
9079
83 16 38
1607
7
Sun
W.
93 12 10
9056
94 43 15
9OI0
96 14 43
9099
97 46 34
mo
Venus
W.
73 13 0
808S
73 43 7
80S4
76 11 38
8016
76 41 33
wm
Antares
W.
39 43 47
9«1
41 31 14
9008
43 0 5
1600
44 39 19
1600
Mars
W.
33 33 13
1088
36 6 63
10O4
36 38 68
1044
38 13 39
M86
a Pegasi
E.
67 39 36
1000
65 69 7
fm
64 38 40
1009
63 68 6
9077
Jupiter
a Arietis
E.
76 4 60
107S
73 36 35
1609
71 46 38
1646
70 6 97
9017
E.
108 38 66
MOB
107 1 33
1061
105 33 47
1089
103 46 36
lOU
8
Sun
W.
106 31 63
1000
107 6 10
1708
108 40 64
1700
110 16 3
fUO
Venus
w.
84 16 67
SOI
86 49 16
wn
87 31 69
MOO
88 66 9
wm
Antares
w.
63 1 33
9480
64 43 13
1409
66 35 30
Mtt
68 7 63
M86
Mars
w.
46 6 19
tm
47 43 33
9700
49 18 61
MOO
60 56 46
1600
a Pegasi
E.
66 94 0
lOSO
63 63 8
9078
63 33 31
WTO
60 61 43
1017
Jupiter
a Arietis
E.
61 38 30
1440
69 66 63
1499
68 13 48
1404
66 39 19
MOO
E.
96 38 33
1094
93 47 63
1606
99 6 46
1607
90 36 16
MSO ■
1
9
Sun
W.
118 18 30
Mil
119 66 6
9m
131 34 18
1019
193 13 66
.-.1
xrr.
OCTOBER, 1856.
177
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
1
Btar'aNuM
P.L.
P.L.
P.L.
P.L.
and
Midnight.
of
XV^
of
xvnih.
of
XXIh.
of
PodtioQ.
Wff.
Dlff.
Ditt
Dlff.
Sun
W.
O J II
30 47 14
M98
O 1 »
32 8 59
8435
33 30 47
8493
O 1 11
34 52 39
8416
Antares
E.
28 6 68
805J
26 37 50
8050
25 8 30
8M6
23 39 23
8041
Mare
E.
30 36 33
8a43
29 13 11
8841
27 49 47
8340
26 26 22
8880
a AqoilflB
E.
82 25 58
S910
81 12 48
8916
79 59 43
8918
78 46 41
8938
8
SUK
W.
41 43 32
8391
43 5 49
8880
44 28 21
8880
45 51 0
8878
Venus
W.
21 56 8
8505
23 16 27
8497
24 36 54
8490
25 57 29
84BI
Man
E.
19 29 13
834^
18 5 50
8840
16 42 32
8861
15 19 20
8864
a Aquile
E.
72 43 16
8905
71 31 2
8070
70 18 59
8969
69 7 9
4008
Fomalhaut
E.
98 24 31
8396
96 58 55
8390
95 33 10
8314
94 7 18
8307
3
Sun
W.
52 46 17
8886
54 9 47
8837
55 33 27
8819
56 57 17
8800
Venus
W.
32 42 29
8441
34 3 59
8433
35 25 38
8434
36 47 27
8414
a Aquile
E.
63 11 55
4008
62 1 51
4133
60 52 11
4160
59 42 57
4170
Fomalhaut
E.
86 55 54
8173
85 29 13
8160
84 2 23
8169
82 35 25
8169
Jupiter
E.
119 24 23
3932
117 52 32
9014
116 20 31
2006
114 48 20
9807
4
Sun
W.
63 59 20
8357
65 24 22
8346
66 49 38
1884
68 15 7
8931
Venus
W.
43 39 31
8369
45 2 34
8847
46 25 51
8836
47 49 21
8838
a Aquils
E
54 4 44
4878
52 59 3
4418
51 54 7
4486
50 50 3
4649
Fomalhaut
E.
75 18 23
8115
73 50 32
8109
72 22 33
8103
70 54 26
8094
aPegasi
E.
96 51 47
8913
95 25 53
8900
93 59 44
8186
92 33 20
8176
Jupiter
E.
107 4 31
2850
105 31 8
9840
103 57 32
9899
102 23 42
3818
6
Sun
W.
75 26 22
8154
76 53 26
8189
78 20 48
8134
79 48 28
8110
Venus
W.
54 50 45
8353
56 15 52
8389
57 41 15
8935
59 6 55
8300
Fomalhaut
E.
63 31 43
8003
62 2 47
8056
60 33 44
8063
59 4 35
8047
a Pegasi
E.
85 17 47
8117
83 49 58
8106
82 21 55
8094
80 53 38
8083
Jupiter
E.
94 30 43
9757
92 55 19
9744
91 19 37
3780
89 43 37
9710
6
Sun
W.
87 11 32
8099
88 41 9
8013
90 11 7
9994
91 41 27
2070
Venus
w.
66 20 12
8194
67 47 52
8107
69 15 53
8000
70 44 15
8071
Antares
w.
33 12 39
9086
34 49 38
9660
36 26 59
9063
38 4 42
2637
Mare
w.
27 26 30
9966
28 57 35
9940
30 29 3
9991
32 0 55
2901
Fomalhaut
E.
51 37 38
8036
50 8 9
8086
48 38 41
8089
47 9 16
8040
a Pegasi
E.
73 28 53
8080
71 59 18
8031
70 29 31
8013
68 59 33
8004
Jupiter
E.
81 38 51
9649
80 0 53
9636
78 22 34
9610
76 43 53
2604
7
Sun
W.
99 18 49
9884
100 51 28
9866
102 24 31
9846
103 57 59
2877
Venus
W.
78 11 50
90n
79 42 31
9968
81 13 36
2940
82 45 4
2930
Antares
W.
46 18 57
9661
47 58 59
9683
49 39 26
2616
51 20 17
2499
Mare
W.
39 46 25
9806
41 20 46
2786
42 55 32
9788
44 30 42
9747
o Pegasi
E.
61 27 24
9078
59 56 37
9969
58 25 46
2968
66 54 53
2908
Jupiter
a Arietis
E.
68 24 52
9610
66 43 53
3493
65 2 30
2476
63 20 43
2458
E.
102 7 1
9690
100 28 1
9678
98 48 36
3560
97 8 46
3648
8
Sun
W.
111 51 38
9799
113 27 39
9710
115 4 6
2089
116 41 0
9670
Venus
W.
90 28 47
9816
92 2 55
9795
93 37 29
2778
95 12 26
9760
Antares
W.
59 50 52
9406
61 34 16
3889
63 18 6
2871
65 2 23
9363
Mare
W.
52 33 8
9649
54 10 57
9030
55 49 11
2610
67 27 52
9501
a Pegasi
E.
49 21 13
9999
47 50 59
8014
46 21 3
8033
44 51 31
8057
Jupiter
a Arietis
E.
54 45 24
3866
53 1 4
2850
51 16 18
2833
49 31 7
2316
E.
88 43 18
9461
87 0 56
3483
85 18 7
9416
83 34 54
2897
9
Sun
W.
124 52 0
9874
126 31 30
9660
128 11 26
9638
129 61 47
2619
23
178
OCTOBER, 1856.
XV.
GREENWICH MEAN TIME.
LUNAR DISTANCES
.
9
Star's Name
Noon.
P.L.
of
in»i.
P.L.
of
VPi.
P.L.
of
I»
PL. 1
of
Poeition.
Diff.
IMff.
Diff.
PML
Venus
W.
O t 0
96 47 48
3740
O ( M
98 23 35
9790
O f II
99 59 48
3700
101 36 28
9981
Antares
W.
66 47 7
38M
68 32 16
9817
70 17 51
3299
72 3 52
3»1 ,
Man
W.
59 6 59
3S79
60 46 33
9503
62 26 33
3684
64 6 59
9616 '
a Pegasi
E.
43 22 29
1086
41 54 2
1191
40 26 18
1164
38 59 26
3916
Jupiter
E.
47 45 29
2396
45 59 22
39n
44 12 49
3960
42 25 51
39a ,
a Arietis
E.
81 51 15
fom
80 7 10
3363
78 22 40
3344
76 37 45
9957 J
10
Antares
W.
81 0 29
9196
82 49 4
9179
84 38 3
3164
86 27 25
9148 1
Mars
W.
72 35 40
9i^
74 18 41
3407
76 2 6
3890
77 45 56
38f74
Jupiter
a Arietis
E.
33 24 37
QUO
31 35 7
9143
29 45 13
3138
27 54 66
9119
E.
67 47 5
3847
65 59 48
3383
64 12 8
3918
62 24 8
9904 1
Aldebaran
E.
98.20 1
3900
96 33 1
3949
94 45 36
3935
92 57 46
9119 <
11
Mars
W.
86 30 37
3300
88 16 37
3986
90 2 57
9974
91 49 84
3961 '
a AquilflB
W.
52 52 41
aM6
54 12 1
1477
55 32 51
9401
56 55 6
un
a Arietis
E.
53 19 16
9147
51 29 29
3187
49 39 27
3180
47 49 14
3134
Aldebaran
E.
83 53 3
9140
82 3 5
3198
80 12 49
3117
78 22 16
9196
Saturn
E.
120 17 4
9110
118 26 29
3103
116 35 34
3089
114 44 18
99n
12
Mars
W.
100 46 41
9914
102 34 48
3206
104 23 7
3199
106 11 36
3191
a Aquile
W.
64 4 10
8000
65 32 58
1080
67 9 34
9B98
68 32 65
9961 !
Fomalhaut
W.
32 38 52
97tt
34 14 21
9676
35 51 34
9006
37 30 18
36M>
a Arietis
E.
38 36 16
9119
36 45 35
9116
34 55 0
3193
33 4 34
9119
Aldebaran
E.
69 5 49
9006
67 13 57
9061
65 21 57
3066
63 29 50
3089 1
Saturn
E.
105 23 34
9096
103 30 40
9018
101 37 34
3011
99 44 17
9996 I
13
a Aquilae
W.
76 13 27
9B48
77 46 53
9884
79 20 37
9B93
80 54 36
9119
Fomalhaut
W.
46 0 57
9U6
47 45 35
9ni
49 30 49
9111
51 16 S3
SMS
Jupiter
a Pegasi
Aldebaran
W.
11 52 22
im
13 47 57
1998
15 43 34
1998
17 39 10
1991
w.
29 21 18
8t97
30 39 23
1444
32 0 50
1991
33 25 12
IWI
E.
54 8 36
9060
52 16 25
9068
50 24 21
9063
48 32 25
1911
Saturn
E.
90 15 52
1906
88 21 56
1966
86 27 58
1986
84 34 0
1996
Pollux
E.
97 23 11
1066
95 28 30
1966
93 33 47
1966
91 38 4
1997
14
Fomalhaut
W.
60 10 31
9141
61 57 58
38n
63 45 31
9B6
66 S3 7
91M
a Pegasi
W.
40 59 28
9151
42 35 0
3709
44 11 37
9960
45 49 11
39»
Jupiter •
W.
27 16 36
me
29 U 49
1949
31 6 55
1948
33 1 61
1906
Aldebaran
E.
39 16 30
9116
37 26 24
3166
35 36 50
9179
33 47 61
SMS '
Saturn
E.
75 4 51
9009
73 11 20
3097
71 17 57
9114
69 94 46
9919
Pollux
E.
82 6 8
1979
80 11 49
i9n
78 17 38
1983
76 98 36
1991
15
Fomalhaut
W.
74 30 34
3961
75 17 43
3161
78 4 40
mo
79 61 24
1
a Pegasi
W.
54 6 45
9690
55 47 31
3610
57 28 31
9809
59 9 41
%m
Jupiter
W.
42 33 16
9000
44 26 50
9011
46 20 7
9934
48 13 4
9on
Saturn
E.
60 2 9
9079
58 10 27
9M5
56 19 4
9998
54 28 1
9111
PoUux
E.
66 56 38
9DM
65 4 0
9048
63 11 40
9969
61 19 38
9071
Regulns
E.
103 38 2
9049
101 45 34
9068
99 53 23
3966
98 1 31
son
16
Focnalhant
W.
88 40 55
9U4
90 25 50
9960
92 10 22
9in
93 64 SO
91M
a Pegasi
w.
67 36 6
9606
69 17 11
9613
70 58 6
9931
72 38 60
9811
Jupiter
a Arietis
w.
57 32 42
9107
59 23 31
9193
61 13 56
9118
63 3 67
9186
w.
24 0 58
9M6
25 44 35
9M3
27 28 35
9r9
29 19 60
9MT
Saturn
E.
45 18 32
9194
43 29 55
9619
41 41 46
9988
39 54 7
SMS
Pollux
E.
52 4 32
9ia
50 14 38
9188
48 25 7
9174
46 36 1
9199
Regulns
E.
88 47 10
914B
86 57 24
9M4
85 8 2
9180
83 19 4
9I91
XTI.
OCTOBER, 1856.
179
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
'i
8ter*f Nmm
P.L.
P.L.
P.L.
PL.
Podtioa.
Midnight.
of
Dur.
XVh.
of
^ DHL
JfVIIIb.
of
DIff.
XX^
of
Dur.
t
»
Venus
W.
o / w
103 13 34
9061
O 1 N
104 51 6
9619
O 1 II
106 39 3
9094
O 1 u
108 7 36
9009
Antaree
W.
73 60 20
3388
75 37 14
9946
77 34 34
3299
79 13 18
99n
Mars
w.
65 47 53
9496
67 29 11
»I77
69 10 56
9400
70 53 5
9443
aPegaei
E.
37 33 35
•an
36 8 57
SSftI
34 45 44
8440
33 34 13
8663
Jupiter
a Arietit
E.
40 38 27
9996
38 50 38
990O
37 3 34
3101
35 13 43
3174
E.
74 52 25
9il0
73 6 40
3»4
71 30 39
SS78
69 34 0
3982
10
Antares
W.
88 17 11
9199
90 7 21
9117
91 57 54
9104
73 48 47
9090
Mara
w.
79 30 7
98a0
81 14 41
9M6
83 59 38
9998
84 44 57
9818
Japiter
a Arietit
E.
26 4 15
9097
24 13 11
9086
33 31 45
9060
30 29 58
9066
E.
60 35 47
9191
58 47 6
9170
56 58 7
9167
55 8 50
9160
Aldebaraa
E.
91 9 34
9196
89 20 59
9180
87 33 2
3166
85 43 43
9169
11
Mara
W.
93 36 28
9961
95 23 39
9941
97 11 6
9ni
98 58 47
9998
"
a Aquile
W.
58 18 39
9970
59 43 25
9310
61 9 19
8160
63 36 16
8118
a Arietia
E.
45 58 51
9116
44 8 10
9114
43 17 41
3111
40 26 59
9111
Aldebaraa
E.
76 31 26
9097
74 40 22
9089
73 49 3
9079
70 57 32
9079
Satura
E.
113 52 43
9066
HI 0 51
9064
109 8 41
9044
107 16 15
9084
13
Mara
W.
108 0 14
9188
109 49 0
9184
111 37 53
9180
113 26 49
9178
a Aquils
W.
70 3 57
9099
71 35 35
9008
73 7 44
9984
74 40 23
9666
Fomalhaot
w.
39 10 22
9400
40 51 36
9466
43 33 53
3418
44 17 1
9886
a Arietia
E.
31 14 23
9146
29 24 32
9161
27 35 5
9184
25 46 14
9911
Aldebaraa
E.
61 37 39
906)
59 45 24
9060
57 53 7
9060
56 0 50
9059
Satura
E.
97 50 50
9000
95 57 15
1906
94 3 33
1901
92 9 44
1989
13
a Aquils
W.
82 28 45
9006
84 3 3
9806
85 37 25
9809
87 11 50
9800
Fomalhaat
W.
53 2 43
9978
54 49 15
9964
56 36 7
9354
58 23 14
3947
Japiter
• Pegasi
W
19 34 46
1994
21 30 20
1097
23 25 50
1999
25 21 16
1988
W.
34 53 8
9061
36 21 18
9067
37 52 25
9978
39 25 12
9800
Aldebaraa
E.
46 40 41
9070
44 49 10
90OO
42 57 56
9103
41 7 1
9118
Satura
E.
82 40 2
1987
80 46 7
1980
78 52 16
1908
76 58 30
1907
Pollux
E.
89 44 22
1068
87 49 41
1961
85 55 5
1964
84 0 34
1967
14
Fomalhaat
W.
67 20 44
9996
69 8 20
9968
70 55 51
9941
72 43 17
9947
a Pegasi
W.
47 27 32
9MM
49 6 35
9670
50 46 11
9649
52 26 16
9633
Japiter
w.
34 50 36
1966
36 51 8
1979
38 45 26
1983
40 39 28
1901
Aldebaraa
E.
31 59 33
3360
30 13 4
99n
28 25 30
3991
26 40 1
9378
Satura
E.
67 31 45
9060
65 38 58
9040
03 46 26
9060
61 54 9
9061
PoUux
E.
74 29 47
1907
73 36 8
9007
70 42 44
9915
68 49 33
9096
15
Fomalhaat
W.
81 37 53
9900
83 34 7
3909
85 10 3
9916
86 55 39
9990
a Pegasi
W.
60 50 58
9496
68 33 18
9496
64 13 37
9497
65 54 54
9601
Jupiter
W.
50 5 41
9060
51 57 58
9099
53 49 55
9077
55 41 30
9009
Satura
E.
52 37 19
9196
50 47 0
9149
48 57 5
9160
47 7 35
9177
Pollux
E.
59 27 54
9085
57 36 31
9000
55 45 30
9118
53 54 50
9197
Regulua
E.
96 9 56
9091
94 18 43
9104
92 27 50
9118
90 37 19
3798
16
Fomalhaat
W.
95 38 14
9419
97 31 31
9461
99 4 23
9460
100 46 46
3170
a Pegasi
W.
74 19 20
9641
75 59 36
9666
77 39 35
3606
79 19 17
9680
Jupiter
W.
64 53 33
9171
66 43 44
9199
68 31 30
3905
70 19 50
3998
a Arietis
W.
30 57 12
9966
33 41 36
9968
34 35 57
3873
36 10 12
3880
Saturn
E.
38 6 58
3974
36 30 31
9908
34 34 18
3839
32 48 50
9846
Pollux
E.
44 47 19
3908
43 59 3
3936
41 11 13
3443
39 33 49
9960
Regulus
E.
81 30 30
9114
79 43 33
9180
77 54 40
3148
76 7 34
9964
180
OCTOBER, 1856.
XVII.
.„„...„„ 1
V
LUNAR DISTANCES
.
h
Starts Name
and
Noon.
PL.
of
IIP».
P.L.
of
Vlh.
P.L.
of
IXb.
P.L.
^ 1
17
PoAltioo.
DUL
ms.
DUL
DUE. 1
1
a Pegasi
W.
O 1 II
80 58 39
asM
O 1 M
83 37 41
3610
O 1 II
84 16 33
3096
O 1 N
85 54 41
9813 1
Jupiter
W.
73 7 43
9341
73 55 9
3960
75 43 8
3377
.77 38 41
9996
a Arietis
w.
37 54 16
3888
39 38 8
9896
41 31 46
3409
43 5 8
9491
Pollux
E.
37 36 51
3979
35 50 30
3897
34 4 16
3816
33 18 39
3336
Regulus
E.
74 30 33
3984
73 34 9
3809
70 48 13
3331
69 3 43
3389
Sun
E.
130 39 30
3fl89
139 0 80
9808
137 31 36
9699
135 43 30
9848
18
oPegaai
W.
94 0 13
97S8
95 36 1
3T00
97 11 33
3780
08 46 16
980S
Jupiter
W.
86 14 38
3880
87 58 39
3408
89 41 53
9497
91 34 48
3448
a Arietis
W.
51 37 13
3498
53 18 35
3609
54 59 36
9690
56 40 13
9641
Aldebaran
W.
33 31 3
9889
33 54 10
3898
35 38 4
9799
37 8 33
3781
Regulus
E.
60 33 5
9484
58 39 19
9463
56 57 0
9473
55 15 9
9493
Sun
E.
117 38 43
3760
116 3 9
3769
114 38 1
3791
113 53 81
98W
19
Jupiter
a Arietis
W.
99 53 55
3688
101 33 16
9656
103 13 13
9679
104 53 46
9601
W.
64 57 43
3096
66 36 8
3641
68 14 1
9669
69 51 36
9876
Aldebaran
W.
34 58 40
3760
36 34 1
3768
38 9 18
9769
39 44 37
sno
Regulus
E.
46 53 34
3688
45 13 33
3807
43 34 36
9896
41 56 16
9844
Sun
E.
105 6 39
3911
103 34 34
3030
103 8 43
9960
100 31 37
9989
90
Jupiter
a Arietis
W.
113 4 33
3876
114 41 46
3890
116 18 39
3706
117 55 11
970
W.
77 54 6
3766
79 39 33
9770
81 4 40
3786
83 39 36
9801
Aldebaran
w.
47 37 39
3899
49 11 38
9839
50 45 14
3844
53 18 45
9864
Regulus
E.
33 50 51
37S6
33 14 59
976ft
30 39 32
3n3
89 4 89
9799
Sun
E.
93 0 57
8060
91 31 57
8076
90 3 18
8003
88 35 0
3110
31
Aldebaran
W.
00 3 49
3910
61 34 55
9991
63 6 47
9031
64 38 86
99«9
Saturn
W.
33 36 33
3974
34 57 7
3973
36 37 55
3971
37 58 44
9979
Pollux
W.
15 47 38
3846
17 30 58
3866
18 54 14
3866
30 97 10
38n
Sun
E.
81 18 38
8188
79 53 5
8303
78 35 59
391?
77 0 10
8981
23
Aldebaran
W.
73 13 37
3099
73 43 50
8001
75 14 3
8009
76 44 3
3018
Saturn
W.
35 31 57
9908
37 9 18
3999
38 33 33
3004
40 8 40
3009
Pollux
W.
38 9 1
3999
39 40 43
3989
31 13 13
9948
38 43 31
9998
Sun
E.
69 54 55
9908
68 30 35
8808
67 6 37
33U
65 49 38
8896
33
Aldebaran
W.
84 11 38
8087
85 40 40
8004
87 9 34
8080
88 38 91
8078
Saturn
W.
47 31 31
8088
49 0 57
3043
50 30 16
3048
51 59 99
3089
Pollux
W.
40 17 19
3807
41 47 35
8006
43 17 43
3010
44 47 43
8017 1
Sun
E.
58 45 47
8871
57 33 57
3878
56 0 15
3380
54 37 48
3388
34
Aldebaran
W.
96 0 35
8104
97 38 30
8109
98 56 99
8113
100 84 93
31 M
Saturn
W.
59 34 13
8078
60 53 56
8076
63 81 35
3080
63 50 9
3089
Pollux
W.
53 15 53
8043
53 45 12
8017
55 14 26
3069
56 43 35
30M
Sun
E.
47 46 50
843S
46 34 59
3498
45 3 14
3439
43 41 34
3137 '
35
Saturn
W.
71 13 18
8099
79 40 37
8096
74 8 53
8098
75 37 8
8098
Pollux
W.
64 8 35
8088
65 37 13
8060
67 6 40
8071
68 34 45
3073
Regulus
W.
97 36 97
8101
39 4 35
8101
30 38 45
3100
39 0 54
3888
Sun
E.
36 54 IH
8464
35 33 3
3466
34 11 49
1469
38 50 30
3481
31
Sun
W.
38 46 13
8889
30 9 58
3314
31 33 53
8307
33 57 56
urn
a AquilflB
E.
60 44 39
4188
59 35 4
4171
58 86 10
4904
57 17 48
4944
?^)malhaut
K.
83 55 30
8)40
H3 38 30
3141
81 1 4
8140
79 33 43
3134
Jupiter
E.
113 14 10
9914
111 43 9
9908
no 10 0
9901
108 37 48
1894
XVIII.
OCTOBER, 1856.
181
GREENWICH MEAN '
TIME.
LUNAR DISTANCES.
iA
Ster'c NamA
PL.
P. L.
P.L.
P.L.
H
and
Midnight.
of
XVh.
of
XVIIJh
of
XXL^
of
'^
Podtioa.
DUL
DIff.
DllL
Dur.
o 1 n
O 1 N
O 1 II
O 1 N
17
a Pegasi
W.
87 32 37
9061
89 10 9
9680
90 47 16
9696
92 23 58
3719
Jupiter
W.
79 14 47
3S14
81 0 26
9SSS
82 45 37
9353
84 30 20
9070
a Arietis
w.
44 48 13
S4»l
46 30 59
9449
48 13 24
9463
49 55 29
9479
Pollux
E.
30 33 30
3854
28 48 49
9878
27 4 36
9893
25 20 51
9419
Regulus
E.
67 17 40
9156
66 33 5
98n
63 48 57
9896
62 5 17
9416
Son
E.
124 5 30
9060
122 28 8
9686
120 51 12
9709
119 14 44
9799
18
aPesr^i
W.
100 20 40
9835
101 54 36
9847
103 28 3
9870
105 1 0
9804
Jupiter
W.
93 7 17
9465
94 49 20
9488
96 30 57
9901
98 12 9
9090
a Arietis
W.
58 20 29
9596
60 0 22
9675
61 39 51
9901
63 18 58
9606
Aldebaran
w.
28 37 26
9769
30 12 34
9761
31 47 53
9757
33 23 17
9758
Uegulus
E.
53 33 44
95)9
51 52 47
9ftS0
50 12 16
9540
48 32 11
9500
Sun
E.
111 19 6
9881
109 45 18
9801
108 11 56
9871
106 39 0
9601
19
Jupiter
W.
106 31 54
9009
108 10 37
9095
109 48 58
9019
111 26 56
9608
a Arietis
w.
71 28 50
9091
73 5 42
9708
74 42 11
9793
76 18 20
9741
Aldebaran
w.
41 19 26
9785
42 54 14
9793
44 28 52
9801
46 3 18
9813
Regulus
E.
40 18 21
9009
38 40 50
9083
37 3 46
9700
35 27 6
9710
Son
E.
99 0 35
9088
97 30 7
8005
96 0 1
8034
94 30 18
8043
20
Jupiter
W.
119 31 22
9787
121 7 13
9700
122 42 46
9705
124 18 0
9779
a Arietis
W.
84 13 52
9816
85 47 59
9881
87 21 47
96U
88 55 1^-
9655
Aldebaran
w.
63 52 3
9866
55 25 6
98n
56 57 54
9886
58 30 28
9898
Hegulus
E.
27 29 61
9811
25 55 37
9881
24 21 49
9890
22 48 26
9669
Sun
E.
87 7 3
8197
85 39 26
8ia
84 12 8
8156
82 45 9
8173
21
Aldebaran
W.
66 9 52
9058
67 41 4
9909
69 12 4
9078
70 42 51
9961
Saturn
W.
29 29 32
9975
31 0 16
9079
32 30 55
9088
34 1 29
9988
.Pollux
W.
22 0 4
9887
23 32 39
9899
25 4 59
9000
26 37 6
9919
Sun
E.
75 34 37
8944
74 9 20
8908
72 44 17
8900
71 19 29
8981
22
Aldebaran
W.
78 13 53
8096
79 43 34
8084
81 13 5
8049
82 42 25
8049
Saturn
W.
41 32 41
8016
43 2 34
8099
44 32 19
8097
46 1 58
8039
Pollux
W.
34 14 37
9066
35 45 32
9974
37 16 17
9081
3S 40 53
9989
Sun
E.
64 18 49
8885
62 55 18
8844
61 31 67
8858
60 8 47
8303
23
Aldebaran
W.
90 7 0
8069
91 35 31
8087
93 3 56
8004
94 32 13
8098
Saturn
W.
53 28 37
8057
54 57 39
8009
56 26 35
8006
57 55 26
8009
Pollux
W.
46 17 34
8033
47 47 18
8098
49 16 56
80M
50 46 27
8036
Sun
E.
53 15 17
8400
51 53 0
8406
50 30 50
8419
49 8 47
8417
24
Aldebaran
W.
101 52 13
8191
103 19 57
8195
104 47 36
8190
106 15 11
8189
Saturn
W.
65 18 41
8085
66 47 9
8087
68 15 34
8080
69 43 57
8091
Pollux
W.
58 12 41
8096
59 41 42
8001
61 10 39
8061
62 39 33
8006
Sum
E.
42 19 59
8440
40 58 28
8444
39 37 1
8447
38 15 38
8450
25
Saturn
W.
77 5 23
8097
78 33 36
8098
80 1 48
8097
81 30 1
8098
Pollux
W.
70 3 28
8074
71 32 9
8074
73 0 50
8074
74 29 30
8074
Regulus
w.
33 29 6
8096
34 57 18
8096
36 25 32
8096
37 53 47
8097
Sum
E.
31 29 31
84«8
30 8 25
8463
28 47 20
8465
27 26 17
8467
31
Sum
W.
34 22 9
8990
35 46 32
8983
37 11 5
8374
38 35 47
8965
a Aquilae
E.
56 10 3
4984
55 2 56
4889
53 56 33
4861
52 50 55
4433
Fomalhaut
E.
78 6 15
8180
76 38 42
8196
75 11 4
8193
73 43 22
8119
Jupiter
E.
107 5 16
9887
105 32 41
9881
103 69 58
9874
102 27 6
9866
182
NOVEMBER, 1856.
AT
GREENWICH APPARENT
NOON. 1
i
i
1
THE SUN'S
Sideraal
Tim.
OfUM
Scmldl-
uneter
pMing
tiM
Hntd-
Eqiuttonif
How,
uu
nd)tmtU4
JrnfH
Apparent
Tim*.
DUL ;
fbr
Ibour.
Appannt
Right Aioendon.
DUr.for
Ihour.
Appmnni
SwUnaUon.
Diff-for
1 hoar.
47.87
47.28
46.65
Semi-
diuneter.
Sat
Sun.
Mod.
1
2
3
h. m. •.
14 27 29.46
14 31 25.49
14 35 22.33
9.819
9.852
9.886
S.14 35 4&8
14 54 4a7
15 13 86.1
16
16
16
10.02
10.27
10.52
67.00
67.12
67.24
fe 17.61
16 18.13
16 17.86
•- 1
0.038
0.029
Tues.
Wed.
Thur.
4
5
6
14 39 19.95
14 43 18.41
14 47 17.69
9.919
9.952
9.986
15 32 8.3
15 50 25.0
16 8 25.6
46.02
45.85
44.68
16
16
16
10.77
11.02
11.26
67.86
67.49
67.61
16 16.79
16 14.89
16 12.19
0.063
0.097
0.180
Fri.
Sat.
Sun.
7
8
9
14 51 17.77
14 55 18.67
14 59 20.40
10.020
IO.OSS
10.090
16 26 10.3
16 43 38.0
17 0 48.6
48.99
43.29
42.56
16
16
16
11.50
11.74
11.97
67.78
67.85
67.96
16 8.67
16 4.33
15 59.17
0.164
0.196
0.283
Mon.
Tue8.
Wed.
10
11
12
15 3 22.99
15 7 26.41
15 11 30.68
10.125
10.160
10.195
17 17 41.8
17 34 17.3
17 50 34.5
41.83
41.08
40.32
16
16
16
12.21
12.44
12.66
68.08
68.20
68.81
15 53.14
15 46.30
15 36.61
0.268
0.803
0.888
Thur.
Fri.
Sat.
13
14
15
15 15 85.78
15 19 41.73
15 23 48.56
10.230
10.265
10.S01
18 6 33.1
18 22 12.7
18 37 32.9
39.58
38.74
37.92
16
16
16
12.87
13.08
13.28
68.43
68.55
68.66
15 30.10
15 20.74
15 10.48
0.878
0.406
0.444
Sbi.
1 Mon.
Tues.
16
17
18
15 27 56.24
15 32 4.79
15 36 14.17
10.8S7
10.37S
10.409
18 52 33.4
19 7 14.0
19 21 34.0
37.10
86.26
35.41
16
16
16
13.48
13.68
13.88
68.77
68 89
69.00
14 59.38
14 47.43
14 31.65
0.480
0.515
0.550
Wed.
Thur.
Fri.
19
20
21
15 40 24.41
15 44 35.50
15 48 47.41
10.444
10.478
10.511
19 85 31.1
19 49 11.0
20 2.27.3
84.52
33.62
82.70
16
16
16
14.07
14.25
14.43
69.12
69.23
69.34
14 21.00
14 6.50
13 51.20
0.585 '
0.619 :
0.655 1
Sat.
Sun.
Mon.
22
23
24
15 53 0.12
15 57 13.63
16 1 27.95
I0.S4S
10.579
10.611
20 15 21.8
20 27 53.7
20 40 3.1
81.78
80.88
29.88
16
16
16
14.61
14.79
14.96
69.45
69.55
69.66
13 35.09
13 18.18
13 0.47
0.689'
0.722 j
0.755
Tues.
Wed.
Thur.
25
26
27
16 5 43.05
16 9 58.91
16 14 15.47
10.642
10.673
10.708
20 51 49.3
21 8 12.0
21 14 11.1
28.91
27.94
26.94
16
16
16
15.12
15.29
15.46
69.76
69.86
69.96
12 41.97
12 22.72
12 2.77
0.788
0.817
0.847
Fri.
Sat.
Sun.
28
29
30
16 18 32.78
16 22 50.77
16 27 9.43
10.732
10.760
10.787
21 24 46.0
21 34 56.4
21 44 42.1
25.93
24.90
28.87
16
16
16
15.62
15.78
15.95
70.06
70.15
70.24
11 42.07
11 20.72
10 58.66
0.876
0.904
0.931
Mod.
31
16 31 28.73
10.814
S.21 54 2.8
22.81
16
16.10
70.83
10 35.98
0.957
Xtm-JCMMTlMorth.
SaiaUoM
»t«r pMdof mMj b« fooad b j i
iobtnettiiiOi.l81hwtlM8ld«MlTlin.. |l
II.
NOVEMBER, 1856.
183
AT GREENWICH MEAN NOON.
I
Sat.
Sun.
Mod.
Tuea.
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.
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
THE SUN'S
Apparent
Right Ajoenalon.
h. m. s.
14 27 32.13
14 31 28.17
14 35 25.01
14 39 22.64
14 43 21.11
14 47 20.38
14 51 20.46
14 55 21.36
14 59 23.09
15 3 25.68
15 7 29.09
15 11 33.34
15 15 38.42
15 19 44.35
15 23 51.17
15 27 58.83
15 32 7.35
15 36 16.70
15 40 26.91
15 44 37.97
15 48 49.83
15 53 2.50
15 57 15.97
16 1 30.25
16 5 45.31
16 10 1.12
16 14 17.63
16 18 34.88
16 22 52.79
16 27 11.41
16 31 30.65
DULfor
1 hoar.
9.819
9.852
9.886
9.919
9.952
9.986
10.020
10.055
10.090
10.125
10.160
10.195
10.230
10.265
10.801
10.887
10.878
10.409
10.444
10.478
10.611
10.545
10.679
10.611
10.642
10.673
10.708
10.782
10.760
10.787
10.814
DacUnatloa.
S.14 35 59.7
14 55 1.5
15 13 48.7
15 32 20.7
15 50 37.3
16 8 37.9
16 26 22.1
16 43 49.6
17 1 0.0
17 17 52.9
17 34 28.1
17 50 45.0
18 6 43.8
18 22 22.6
18 37 42.5
18 52 42.7
19 7 22.9
19 21 42.6
19 35 41.4
19 49 19.0
20 2 35.0
20 15 29.1
20 28 0.7
20 40 9.7
20 51 55.5
21 3 17.9
21 14 16.6
21 24 51.2
21 35 1.2
21 44 46.6
S.21 54 7.0
DUtfor
Ihoar.
47.87
47.28
46.65
46.02
45.85
44.68
48.99
48.29
42.66
41.88
41.06
40.82
89.58
88.74
87.92
87.10
86.26
85.41
Z4.52
88.62
82.70
81.78
80.88
29.88
28.91
27.94
26.94
25.98
24.90
28.87
22.81
IqoAdonof
Timt|
tobe
added to
Tim$.
16 17.63
16 18.15
16 17.87
16 16.79
16 14.88
16 12.17
16 8.64
16 4.80
15 59.18
15 53.09
15 46.24
15 38.54
15 30.02
15 20.65
15 10.38
14 59.28
14 47.32
14 34.53
14 20.87
14 6.37
13 51.07
13 34.95
13 18.04
13 0.32
12 41.82
12 22.57
12 2.62
11 41.91
11 20.56
10 58.51
10 35^
Dur.
1 hoar.
0.038
0.005
0.029
0.068
0.097
0.180
0.164
0.198
0.288
0.268
0.803
0.838
0.873
0.406
0.444
0.480
0.515
0.550
0.585
0.619
0.655
0.689
0.722
0.755
0.788
0.817
0.847
0.876
0.904
oa^i
0.957
fiideraal
Time.
4 43 49.76
4 47 46.32
4 51 42.88
4 55 39.43
4 59 35.99
5 3 32.55
5 7 29.10
5 11 25.66
5 15 22.22
5 19 18.77
5 23 15.33
5 27 11.88
81
85
5 39
8.44
5.00
1.55
5 42 58.11
5 46 54.67
5 50 51.23
5 54 47.78
5 58 44.34
6 2 40.90
6 37.45
10 34.01
16 14 30.57
6 18 27.13
6 22 23.69
6 26 20.25
6 30 16.80
6 34 13.36
6 38 9.92
16 42 6.48
NoTB. — The Scoiidiameter for Mean Nooo maj bt a
ne M thftt for Appueot Noon.
184
NOVEMBER, 1856-
III.
AT GREENWICH MEAN NOON.
THE SUN'S
I
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
I
"8
1 306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
835
336
IVm lonoitudb.
219 17 20.2
220 17 29.4
221 17 40.2
222 17 52.5
223 18 6.4
224 18 21.7
225 18 38.4
226 18 56.6
227 19 16.3
228 19 37.6
229 20 0.3
230 20 24.6
231 20 50.4
232 21 18.0
233 21 47.3
234 22 18.3
235 22 51.1
236 23 25.7
237 24 2.1
238 24 40.2
239 25 19.9
240 26 1.2
241 26 44.2
242 27 28.8
243 28 14.9
244 29 2.4
245 29 51.1
246 30 41.0
247 31 32.1
248 32 24.3
249 33 17.5
16 43.7
16 52.8
17 3.5
17 16.6
17 29.3
17 44.4
18 1.0
18 19.0
18 38.6
18 59.7
19 22.2
19 46.3
20 12.0
20 39.4
21 8.5
21 39.4
22 12.0
22 46.4
23 22.7
24 0.7
24 40.2
25 21.3
26 4.2
26 48.6
27 34.5
28 21.8
29 10.3
30 0.1
30 51.0
31 43.0
32 36.0
DIAfor
1 hoar.
60.86
50.48
50.49
50.55
50.61
50.67
50.74
50.80
50.86
50.92
50.98
51.05
51.12
51.19
51.27
51.84
51.41
51.48
51.55
51.62
51.69
51.76
51.82
51.88
51.94
62.00
62.04
62.09
52.18
52.18
152.23
LATITUDE,
—0.37
0.39
0.39
0.36
0.29
0.21
—0.11
-hO.Ol
0.15
0.29
0.41
0.54
0.63
0.70
0.75
0.76
0.74
0.72
0.64
0.55
0.44
0.31
0.17
H-0.04
—0.08
0.19
0.28
0.35
0.39
0.40
—0.38
Logarithm
of Um
lUdiua Vector
of the
Earth.
9.9963947
.9962822
.9961706
.9960600
.9959503
.9958418
.9957346
.9956288
.9955248
.9954227
.9953224
.9952241
.9951277
.9950332
.9949407
.9948505
.9947622
.9946758
.9945911
.9945081
.9944268
.9943470
.9942687
.9941915
.9941156
.9940409
.9939674
.9938951
.9938240
.9937543
9.9936865
DUr.tor
1 hoar.
47.0
46.8
46.4
45.9
45.6
45.0
44.4
48.7
42.9
42.2
41.4
40.6
89.8
88.9
88.5
87.2
36.4
85.7
35.0
34.3
38.6
83.0
82.5
31.9
81.4
80.9
80.4
29.8
29.2
28.6
28.0
h. m. •.
9 14 39.12 '
9 10 43.21
9 6 47.29
9 2 51.39
8 58 55.48
8 54 59.56
8 51 3.66
8.47 7.75
8 43 11.83
8 39 15.93
8 35 20.01
8 31 24.11
8 27 28i20
8 23 32.29
8 19 36.38
8 15 40.47
8 11 44.55
8 7 48.63
8 3 52.73
7 59 56.82
7 56 0.91
7 52 5.00
7 48 9.08
7 44 13.17 I
7 40 17.26
7 36 21.34 I
7 32 25.43
7 28 29.52
7 24 38.61 •
7 20 87.71
7 16 41.79
Vvn.'^K rnriMpnaito to Om Itm eqateoz oT the tele, >i' to the himm eqainos of Jea. Od.
IV.
NOVEMBER, 1856.
185
GREENWICH
MEAN TIME.
THE
MOON'S
1
8EHIDIAMKIKR.
HORIZONTAL
PARALLAX.
HKRIDIAN PA88AGB.
I
2
8
AaB.
Naoo.
Midniffht.
Nooo.
Diff-for
Iboor.
MIdDight.
DUtfor
Ihoar.
DHL for
Ihoor.
15 "4.6
15 13.0
15 22.7
15 8.6
15 17.7
15 28.1
56 13.1
55 43.7
56 19.6
+1.16
1.38
1.60
55 27.7
56 1.0
56 39.6
+1.27
1.49
1.70
h. m.
2 32.3
3 26.9
4 22.4
m.
2.26
2.83
2.81
d.
3.6
4.6
5.6
4
5
6
15 33.8
15 46.1
15 59.4
15 39.8
15 52.7
16 6.1
57 0.8
57 46.1
58 34.5
1.80
1.97
2.06
57 23.0
58 10.0
58 59.0
1.89
2.08
2.05
5 17.2
6 10.5
7 2.1
2.26
2.18
2.09
6.6
7.6
8.6
7
8
9
16 12.6
16 24.6
16 34.2
16 18.8
16 29.8
16 37.6
59 23.0
60 7.1
60 41.8
1.99
1.70
1.21
59 45.9
60 25.9
60 54.3
1.87
1.48
0.90
7 52.0
8 41.3
9 31.2
2.01
2.08
2.09
9.6
10.6
11.6
10
11
12
16 39.9
16 40.9
16 37.0
16 41.0
16 39.6
16 33.2
61 2.9
61 6.9
60 52.4
+0.55
-0.23
0.99
61 7.2
61 1.9
60 38.6
+0.17
-0.62
1.88
10 23.2
11 18.6
12 17.7
2.21
2.40
2.67
12.6
13.6
14.6
13
14
15
16 28.3
16 16.0
16 1.3
16 22.6
16 8.9
15 53.5
60 20.8
59 35.5
58 41.4
1.64
2.13
2.38
59 59.6
59 9.2
58 12.8
1.91
2.29
2.41
13 19.8
14 22.8
15 24.4
2.65
2.65
2.51
15.6
16.6
17.6
16
17
18
15 45.7
15 30.5
15 16.8
15 38.0
15 23.4
15 10.8
57 44.0
56 48.2
55 58.1
2.40
2.24
1.95
57 15.6
56 22.3
55 35.9
2.34
2.11
1.77
16 21.9
17 13.8
18 0.8
2.26
2.04
1.85
18.6
19.6
20.6
19
20
21
15 5.4
14 56.4
14 50.1
15 0.6
14 52.9
14 48.0
55 16.0
54 43.3
54 20.4
1.67
1.16
0.74
54 58.4
54 30.6
54 12.7
1.36
0.95
0.64
18 43.9
19 24.3
20 8.2
1.71
1.62
1.59
21.6
22.6
23.6
22
23
24
14 46.6
14 45.5
14 46.6
14 45.8
14 45.8
14 47.8
54 7.3
54 3.2
54 7.0
-0.35
+0.00
0.81
54 4.2
54 4.2
54 11.5
-0.17
+0.16
0.46
20 41.9
21 21.6
22 8.3
1.^1
1.68
1.78
24.6
25.6
26.6
25
26
27
14 49.4
14 53.8
14 59.5
14 51.4
14 56.5
15 2.7
54 17.6
54 33.8
54 54.3
0.67
0.76
0.93
54 25.1
54 43.6
55 5.9
0.67
0.85
1.00
22 47.9
23 36.0
6
1.98
2.09
27.6
28.6^
29.6
28
29
30
15 6.0
15 13.2
15 21.1
15 9.5
15 17.1
15 25.2
55 18.3
55 44.9
56 13.6
1.06
1.15
1.23
55 31.3
55 59.0
56 28.7
1.11
1.19
L27
0 27.6
1 22.2
2 lai
2.28
2.84
2.85
0.8
1.8
2.8
31
15 29.4
15 33.7
56 44.2
+1.81
57 0.3
+1.84
8 13.6
2.28
i
3.8
24
186
NOVEMBER, 1856.
GREENWICH MEAN TIME.
THE MOOITS RIGHT
ASCENSION AND DECLINATION.
Hoar.
Right Asoeniion.
Diff.
for 1 m.
Decliofttioii.
JAfL
for 1 m.
Hour.
Right Ascension.
Dim
forlm.
Deelinalioii.
DHL i
l»rlin. 1
SATURDAY 1.
MONDAY 3.
h. m. s.
s.
O 1 II
n
h. m. s.
s.
O 1 «
•
0
17 10 40.67
3.8047
S.27 41 35.4
8.866
0
19 4 23.21
2.3954
S.27 53 66.0
S.496
1
17 12 59.07
3.3066
27 45 23.2
8.728
1
19 6 46.92
2.3949
27 50 21.5
SUSM 1
3
17 15 17.71
2.3117
27 49 2.5
8.583
2
19 9 10.60
2.394S
27 46 37.5
8^12
3
17 17 36.58
2.3166
27 52 33.3
8.440
3
19 11 34.23
2.3986
27 42 44.0
8.970 1
4
17 19 55.69
2.3206
27 55 55.4
8.297
4
19 13 57.82
2.3828
27 38 41.0
4.128
5
17 22 15.03
3.3*42
27 59 8.9
8.158
5
19 16 21.36
3.39X)
27 34 28.6
4.280 •
6
17 24 34.59
2.3279
28 2 13.7
8.006
6
19 18 44.85
3.8911
27 30 6.7
4.444
7
17 26 54.37
2.3314
28 5 9.7
2.862
7
19 21 8.28
3.8900
27 25 35.3
4.601
8
17 29 14..36
2.3349
28 7 57.0
3.716
8
19 23 31.64
3.3887
27 20 64.5
4.756
9
17 31 34.56
2.33&1
28 10 35.6
3.569
9
19 25 64.92
3J878
27 16 4.3
4.916
10
17 33 54.97
2.3418
28 13 5.1
3.421
10
19 28 18.12
3.3861
27 11 4.7
6.073
11
17 36 15.57
2.3430
28 15 26.3
3.273
11
19 30 41.24
3.3846
27 5 55.7
6.228
12
17 38 36.35
24M80
28 17 38.2
8.123
12
19 33 4.27
3.3832
27 0 37.4
5.388
13
17 40 57.32
2.3610
28 19 41.1
1.973
13
19 35 27.21
2.3816
26 55 9.8
6.618
U
17 43 18.47
2.3541
28 21 35.0
1.8-23
14
19 37 50.05
2.3798
26 49 32.9
6.688
15
17 45 39.81
2.3372
28 23 19.9
]>673
15
19 40 12.78
2.3T79
26 43 46.7
6348
16
17 48 1.32
2.3399
28 24 55.8
1.522
16
19 42 35.40
2.3761
26 37 51.2
6.003
17
17 50 22.99
2.3623
28 26 22.6
1.371
17
19 44 57.91
2.3743
26 31 46.6
6.166
18
17 52 44.81
2.3651
28 27 40.3
1.218
18
19 47 20.31
2.8723
26 25 32.5
6.310
19
17 55 6.79
2*3676
28 28 48.8
1.065
19
19 49 42.58
2.3702
26 19 9.3
6.402
20
17 57 28.92
2.3700
28 29 48.1
0-912
20
19 52 4.73
2.3682
26 12 37.0
6.018
21
17 59 51.19
2.3724
28 30 38.3
0*759
21
19 54 26.75
3.3660
26 5 55.6
0.704
22
18 2 13.60
2.3745
28 31 19.2
0*605
22
19 56 48.63
2.8638
25 59 6.2
6.910
23
18 4 36.13
SU
2.3765
fNDA^
S.28 31 50.8
' 2.
0-450
23
19 59 10.38
TU.
2.3616
ESDA^
S.25 62 6.7
^ 4.
7061
0
18 6 58.78
3.S786
S.28 32 13.0
0.204
0
20 1 32.00
2.3501
S.25 44 57.1
7.217 1
1
18 9 21.55
2.3806
28 32 26.0
^ 0.138
4L0.019
^ 0.176
1
20 3 53.47
3.3566
25 37 39.6
7J«|
2
18 11 44.43
2.38«
28 32 29.6
2
20 6 14.79
2.3640
25 30 13.1
7.618 1
3
18 14 7.41
2.3839
28 32 23.8
3
20 8 35.97
2.3514
25 22 37.6
7.660;
4
18 16 30.49
2.3835
28 32 8.6
0.331
4
20 10 56.95
2.3488
25 14 53.2
7.813
5
18 J8 53.66
2.3871
28 31 44.0
0.487
5
20 13 17.80
2.3462
25 6 59.9
7.900 '
6
18 21 16.92
2.3884
28 31 10.1
0.644
6
20 15 38.49
2.3435
24 58 57.9
8.10f7 1
7
18 23 40.25
2.3897
28 30 26.7
0.802
7
20 17 59.02
3.3408
24 50 47.1
8.3S8 ,
• 8
18 26 3.65
3.3908
28 29 33.8
0.960
8
20 20 19.39
3.3382
24 42 27.6
8.308
9
18 28 27.13
3.3918
28 28 31.5
1.118
9
20 22 39.60
3.3356
24 33 59.5
8UWt2 '
10
18 30 50.67
3.3038
28 27 19.7
i.2n
10
20 24 59.64
2.8326
24 25 22.7
8.085
11
18 33 14.27
3.3038
28 25 58.4
1.436
11
20 27 19.50
3.3295
24 16 37.3
8.827 ,
12
18 35 37.93
3.8046
28 24 27.7
1.503
12
20 29 39.18
2.3266
24 7 43.4
8.969
13
18 38 1.64
3.3954
28 22 47.4
1.761
13
20 31 58.68
2.8233
23 58 41.0
9.111
14
18 40 25.38
3.3960
28 20 57.6
1.909
14
20 34 28.00
3.3211
23 49 30.1
9.232
15
18 42 49.15
3.3063
28 18 58.3
3.068
15
20 36 37.16
2.3179
23 40 10.8
9.302
16
18 45 12.93
3.3966
28 16 49.4
3.227
16
20 38 56.11
2J147
23 30 43.1
9.681
17
18 47 36.72
3.3967
28 14 31.0
3.885
17
20 41 14.88
3.3115
23 21 7.1
9.070
18
18 50 0.52
3.8967
28 12 3.2
3.544
18
20 43 33.47
3.3084
23 11 22.8
9.807 '
19
18 52 24.32
3.3967
28 9 25.8
3.703
19
20 45 51.88
3JI053
23 1 30.3
9^943 i
20
18 54 48.12
3.3968
28 6 38.9
3.862
20
20 48 10.10
3.3021
22 51 29.6
ith079
21
18 57 11.92
3.3067
28 3 42.4
8-021
21
20 50 28.12
3.2968
22 41 20.7
10-214 ,
22
18 59 35.71
2.3964
28 0 36.4
3-180
22
20 52 45.95
3.2936
22 31 3.8
10.S48
23
19 1 59.47
2.3939
27 57 20.9
3-338
23
20 55 3.59
2.2924
22 20 38.9
10.483 1
24
19 4 23.21
2.39M
S.27 53 56.0
8-496
24
20 57 21.05
3.2802
S.22 10 6.0
10415 i
VI.
NOVEMBER, 1856.
18T
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Bight AMmuton.
BUL
ftwlm.
DMlinfttkm.
Dift
forlm.
Hoor.
Right Aseentioii.
Diff.
forlm.
DUL
Ibrlm.
WED
NESD
AY 5.
FRIDAY
7.
h. m. s.
s.
O f u
N
b. m. •.
•.
O 1 M
»
0
20 67 21.05
«.WM
S.22 10 6.0
10.615
0
22 43 50.42
2.1613
S.ll 27 44.1
15.715
1
20 59 38.31
2.2980
21 59 25.2
10.745
1
22 46 0.06
2.1600
11 11 58.9
15.792
S
21 I 55.38
2.2628
21 48 36.6
10376
2
22 48 9.62
2,1587
10 56 9.1
15.868
3
21 4 12.25
2.2796
21 37 40.2
11.001
3
22 50 19.10
2.1573
10 40 14.8
15.942
4
21 6 28.93
9.2704
21 26 36.1
11.132
4
22 52 28.50
2.1659
10 24 16.1
16^)16
5
21 8 45.42
2.27S-2
21 15 24.3
11.261
5
22 54 37.82
2.1547
10 8 13.0
WJ09B
6
21 11 1.72
2.2701
21 4 4.8
11.388
6
22 56 47.07
2.1536
9 52 5.6
16.156
7
21 13 17.83
2.26G9
20 52 37.7
11.513
7
22 58 66.26
2.1536
9 35 54.1
16.226
8
21 15 33.75
2.2637
20 41 3.2
11.638
8
23 1 5.39
2.1515
9 19 38.6
16.298
9
21 17 49.48
2.2604
20 29^21. 2
20 ir31.9
11.761
9
23 3 14.45
2.1505
9 3 19.0
16.859
10
21 20 5.01
2.2ft72
11.884
10
23 5 23.46
2.1497
8 46 55.5
16.425
11
21 22 20.35
2.2542
20 5 35.3
12.006
11
23 7 32.43
2.1490
8 30 28.1
16.480
12
21 24 35.51
2.2511
19 53 31.4
12.127
12
23 9 41.35
2.1483
8 13 56.9
16.550
13
21 26 50.48
2.2479
19 41 20.2
12.247
13
23 11 50.23
2.1477
7 57 22.1
16.610
14
21 29 5.26
2.2448
19 29 1.9
12.365
14
23 13 59.08
2.1472
7 40 43.7
16.669
15
21 31 19.85
2.2416
19 16 36.6
12.482
15
23 16 7.90
2.1468
7 24 1.7
16.726
16
21 33 34.25
2.2385
19 4 4.2
12.598
16
23 18 16.70
2.1464
7 7 16.4
16.781
17
21 35 48.47
2.2355
18 51 24.9
12.713
17
23 20 25.48
2.1460
6 50 27.9
16.834
1 13
21 38 2.51
2.2325
18 38 38.6
V2.8Q8
18
23 22 34.23
2.1458
6 33 36.1
16.887
19
21 40 16.37
2.2295
18 25 45.5
12.911
19
23 24 42.98
2.14.^8
6 16 41.2
16.938
20
21 42 30.05
2.2266
18 12 45.7
13.053
20
23 26 51.73
2.1458
5 59 43.4
16.988
31
21 44 43.57
2.2237
17 49 39.2
13.165
21
23 29 0.48
2.1458
5 42 42.6
17.037
22
21 46 56.91
2.2108
1% 36 26.0
13.275
22
23 31 9.23
2.1458
5 25 39.6
17.085
33
21 49 10.07
THl
2.2179
JRSDA
S.17 23 6.2
T 6.
18.381
23
23 33 17.98
SAT
2.1460
'URDA
S. 6 8 33.1
.Y 8.
17.129
0
21 51 23.06
2.2161
S.17 19 40.0
18491
0
23 35 26.75
2.1463
S. 4 51 23.9
17.172
1
21 53 35.88
2.2123
17 6 7.3
13.598
1
23 37 35.54
2.1466
4 34 12.3
17.212
2
21 55 48.54
2.2095
16 52 28.3
13.701
2
23 39 44.36
2.1472
4 16 58.4
17.251
3
21 58 1.03
2.2068
16 38 42.9
18.800
3
23 41 53.21
2.1478
3 59 42.2
17.289
4
22 0 13.36
2.2041
16 24 51.3
13.912
4
23 44 2.10
2.1484
3 42 23.7
17.328
5
22 2 25.53
2.2016
16 10 53.6
14.015
5
23 46 11.03
2.1493
3 25 3.0
17.361
6
22 4 37.53
2.1989
15 56 49.7
14.116
6
23 48 20.01
2.1600
3 7 40.3
17.394
7
22 6 49.39
2.1968
15 42 39.8
14.216
7
23 50 29.04
2.1609
2 50 15.7
17.435
8
22 9 1.10
2.1937
15 28 24.0
14.314
8
23 52 38.13
2.1518
2 32 49.2
17.455
9
22 11 12.65
2. 1913
15 14 2.4
14.411
9
23 54 47.27
2.1538
2 15 20.8
17.485
10
22 13 24.06
2.1890
14 59 34.9
14.507
10
23 56 56.48
2.1541
1 57 50.8
17.514
11
22 15 35.33
2.1867
14 45 1.7
14.604
11
23 59 5.77
2.1556
1 40 19.2
17.541
13
22 17 40.46
2.1844
14 30 22.9
14.694
12
0 1 15.15
2-1671
1 22 46.1
17.566
13
22 19 57.45
2.1821
14 15 38.5
14.786
13
0 3 24.62
2.1565
1 5 11.7
17.588
14
22 22 8.31
2.1800
14 0 48.6
14.877
14
0 5 34.17
2.1598
0 47 36.0
17.608
15
22 24 19.05
2.1779
13 45 53.2
14.967
15
0 7 43.80
2.1612
0 29 59.2
17.636
16
22 26 29.66
2.1757
13 30 52.6
15.056
16
0 9 53.53
2.1630
S. 0 12 21.3
17.642
17
22 28 40.14
2.1736
13 15 46.7
15.143
17
0 12 3.37
2.1649
N. 0 5 17.6
17.656
18
23 30 50.50
2.1717
13 0 35.5
15.2-J9
18
0 14 13.33
2.1668
0 22 57.3
17.668
19
22 33 0.75
2.1699
12 45 19.3
15.313
19
0 16 23.40
2.1686
0 40 37.7
17.679
20
22 35 10.89
2.1690
12 29 58.0
15.396
20
0 18 33.59
2.1708
0 58 18.7
17.689
21
22 37 20.93
2.1663
12 14 31.7
15.478
21
0 20 43.91
2.1730
1 16 0.3
17.697
22
22 39 30.86
2.1W8
11 59 0.6
15.559
22
0 22 54.37
2.1754
1 33 42.3
17.708
23
22 41 40.69
2.1629
11 43 24.7
15.638
23
0 25 4.97
21778
1 51 24.6
17.707
24
22 43 50.42
2.1618
S.U 27 44.1
15.715
24
0 27 15.71
2.1801
N. 2 9 7.1
17.709
188
NOVEMBER, 1856.
VII-
l— ^ —
GREENWICH MEAN TIME.
■ ■ ' 1
THE MOON'S RIGHT ASCENSION AND DECLINATION. 1
1
Hoar.
Right AMMiaton.
DUt
ftvlm.
T)>o»natinn.
DHT.
ft>rlm.
Hour.
Right AiOMiikm.
Diff.
forlm.
i
Diff. '
Itarlm. j
1
SUNDAY 9.
TUESDAY 11.
h. m. s.
s.
O f «
M
h. m. s.
B.
O 1 «
•
0
0 27 15.71
9.1801
N. 2 9 7.1
17.709
0
2 16 16.40
9J009
N.15 43 49.7
1649S j
1
0 29 26.59
9.1806
2 26 49.7
17.710
1
2 18 39.09
9.3903
15 59 12.5
1A.8M 1
2
0 31 37.62
9.1851
8 44 32.3
17.711
2
2 21 3.94
9.4099
16 14 29.3
U.999 1
3
0 33 48.80
9.1870
3 2 14.8
17.708
3
2 23 28.25
9.4063
16 29 39.9
16.194 1
4
0 36 0.13
9.1003
3 19 57.0
17.700
4
2 25 52.92
94149
16 44 44.2
10U>I8 1
5
0 38 11.63
9.1080
3 37 38.8
17.091
5
2 28 17.95
94909
16 59 42.0
US09 \
6
0 40 23.30
9.1900
3 55 20.1
17.083
6
2 30 43.34
94909
17 14 33.3
14.706 1
7
0 42 35.15
9.1960
4 13 0.7
17.671
7
2 33 9.09
94899
17 29 17.8
14UK6 1
8
0 44 47.18
9.9090
4 30 40.6
17.666
8
2 35 35.20
94869
17 43 55.5
i4jno !
9
0 46 59.40
9.9099
4 48 19.7
174M3
9
2 38 1.67
94449
17 58 26.3
14.408 '
10
0 49 11.81
9.9086
6 5 57.9
17.636
10
2 40 ^.50
94508
18 12 49.9
lAJaSi 1
U
0 51 24.43
9.9190
5 23 34.9
17.007
11
2 42 55.70
94564
18 27 6.2
14.911 1
12
0 53 37.26
9.9156
5 41 10.7
17.566
12
2 45 23.2r
94^5
18 41 15.2
I4J»7 ,
13
0 55 50.31
9.9108
5 58 45.2
17.563
13
2 47 51.20
94065
18 55 16.7
UMl '
14
0 58 3.58
9.9980
6 16 18.2
17.588
14
2 50 19.49
94740
19 9 10.5
13.833 1
15
1 0 17.07
9.9907
6 33 49.6
17.511
15
2 52 48.15
94807
19 22 56.6
18.703 !
16
1 2 30.78
9.9804
6 51 19.3
17.481
16
2 55 17.18
94808
19 36 34.8
13.571 1
17
1 4 44.73
9.9843
7 8 47.2
17.448
17
2 57 46.57
94938
19 50 5.0
13437 1
18
1 6 58.91
9.9383
7 26 13.1
17.414
18
3 0 16.32
94988
20 3 27.1
18.301 1
19
1 9 13.34
9.9494
7 43 36.9
17.379
19
3 2 46.43
9.5049
20 16 40.9
1S.I0S
20
1 11 28.01
9.9480
8 0 58.6
17.844
20
3 5 16.91
9.5110
20 29 46.3
1S4»3 1
21
1 13 42.93
9.3508
8 18 18.1
17.806
21
3 7 47.75
9.5171
20 42 43.3
19.819 i
22
1 15 58.11
9.95S0
8 35 35.2
17.906
22
3 10 18.95
9.5980
20 55 31.6
19.734 1
23
1 IS 13.55
9.9503
N. 8 69 49.8
17.994
23
3 12 50.50
9.5986
NJ21 8 11.1
19.567
MO
NDAY
la
WEDI
^ESDi
lY 12.
•
0
1 20 29.24
9.9637
N. 9 10 1.8
17.179
0
3 15 22.39
9.58U
N.21 20 41.8
19436
I
1 22 45.21
9.3688
9 27 11.0
17.131
1
3 17 54.63
9UM0S
21 33 3.7
19.987 ,
2
1 25 1.46
9.9790
9 44 17.3
17U)61
2
3 20 27.22
9.6469
21 45 16.4
19.134 ,
3
1 27 17.98
9.9777
10 1 20.6
17.038
3
3 23 0.17
9.5590
21 57 19.9
11.960
4
1 29 34.79
9.9895
10 18 20.6
16.979
4
3 25 33.46
9.5576
22 9 14.1
11.835
5
1 31 51.89
9.3878
10 35 17.2
16.9M
5
3 28 7.08
9.5689
22 20 58.9
11.666 '
6
1 34 9.28
9.9933
10 52 10.2
16.854
6
3 30 41.03
9.5066
22 32 34.3
11409
7
1 36 26.97
9.3973
11 8 59.6
16.798
7
3 33 15.32
9.5743
22 44 0.0
11.848 1
8
1 38 44.96
9.8033
11 25 45.3
16.731
8
3 35 49.93
9.67M
22 55 16.0
11.166 ;
9
1 41 3.25
9.3074
11 42 27.2
16.667
9
3 38 24.85
9.5647
23 6 22.2
11.033
10
1 43 21.85
9.8190
11 59 5.2
16.601
10
3 41 0.09
9.5000
23 17 18.5
10.866
11
1 45 40.77
9.8178
12 15 39.2
16.589
11
3 43 35.65
9JW51
23 28 4.8
10.68B
12
1 48 0.00
9.3981
12 32 9.0
16.461
12
3 46 11.51
9.6009
23 38 41.0
lO^M
13
1 50 19.55
9.8965
12 48 34.5
16.388
13
3 48 47.68
9.0066
23 49 6.9
10345 i
14
1 52 39.42
9.8338
13 4 55.5
16.319
14
3 51 24.15
9.0106
23 59 22.4
10.169
15
1 54 59.61
9.8399
13 21 12.0
16.384
15
3 54 0.92
941153
24 9 27.3
9.990
16
1 57 20.13
9.3448
13 37 23.6
16.154
16
3 56 37.97
9.0199
24 19 21.6
0.816
17
1 59 40.98
9.3503
13 53 30.3
16.073
17
3 59 15.30
9.0345
24 29 5.4
91011 J
18
2 2 2.16
9.3A58
14 9 32.1
15.988
18
4 1 52.90
94t388
24 38 38.5
9464 ^
19
2 4 23.68
9.3614
14 25 28.8
15.901
19
4 4 30.76
9.0383
24 48 0.8
9.3n <
20
2 6 45.54
94)070
14 41 20.1
15.813
20
4 7 8.88
9.0377
24 57 12.0
9406 '
21
2 9 7.73
9.3738
14 57 6.0
15.790
21
4 9 47.26
9.0419
25 6 12.3
8.815
22
2 11 30.27
9.3786
15 12 46.3
15.696
22
4 12 25.88
9.6456
25 15 1.7
8.733 '
23
2 13 53.16
9.3844
15 28 20.9
15.530
23
4 15 4.73
9.649S
25 23 40.1
Mm 1
24
2 16 16.40
9.3903
N.15 43 49.7
15*439
24
4 17 43.81
9.6583
N.25 32 7.4
&361 1
VIII.
NOVEMBER, 1856.
189
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hoar.
BUL
forlm.
JAIL
taelm.
Hour.
BUL
for 1 m.
DUL
forlm.
THU
rasDA
Y 18.
SATURDAY 15.
h. m. B.
■.
o 1 a
M
h. m. •.
s.
O 1 M
II
0
4 17 43.81
9.6AS8
N.S5 33 7.4
8461
0
6 26 18.94
94860
NJ88 86 37.6
1.108
1
4 30 33.11
9.0070
35 40 23.4
8.179
1
6 38 66.94
94800
88 35 25.7
1409
9
4 33 2.63
9.00M
35 48 38.1
7.066
9
6 31 34.65
94901
88 34 3.6
1479
3
4 35 42.35
34W37
35 66 31.6
7.790
3
6 34 13.07
94311
88 33 88.3
1.004
4
4 38 32.37
S.0869
36 4 3.6
7406
4
6 36 49.18
94100
38 30 43.9
1449
6
4 31 3.38
3.9701
36 11 34.1
7.406
6
6 39 36.98
94108
88 18 46.4
9464
6
4 33 43.67
%m90
36 18 53.0
7.991
6
• 43 8.46
94064
88 16 38.9
9.917
7
4 36 33.13
34766
36 86 0.4
7.097
7
6 44 38.61
94000
88 14 80.4
9400
8
4 39 3.75
a.«788
36 33 56.1
6490
8
6 47 14.41
940W
38 11 51.0
9479
9
4 41 44.53
94806
36 39 40.0
6406
9
6 49 49.85
94677
38 9 10.9
9.768
10
4 44 35.43
34690
36 46 13.9
6.406
10
6 53 84.93
94817
38 6 30.1
9467
11
4 47 6.47
34651
36 53 33.6
0.949
11
6 64 59.65
94707
88 3 18.6
8.114
13
4 49 47.63
34600
36 58 41.3
0444
18
6 67 34.01
94006
88 0 6.6
8.900
13
4 53 38.90
34667
37 4 37.9
§446
13
7 0 7.99
94090
37 66 43.9
8464
14
4 55 10.37
34004
37 10 33.6
§446
14
7 8 41.67
94664
87 53 10.9
8430
15
4 67 51.74
34018
37 15 55.3
§.447
15
7 5 14.76
94400
87 49 87.6
8400
16
5 0 33.38
340^
• 37 31 16.1
§.917
16
7 7 47.65
94489
37 45 34.1
8476
17
5 3 14.89
34938
37 36 34.9
§447
17
7 10 19.94
94804
87 41 30.5
4.144
18
5 5 56.67
940M
37 31 31.7
4440
18
7 18 51.98
94904
37 37 16.8
4419
19
6 8 38.31
34000
87 36 6.4
4444
19
7 16 83.47
9.6998
87 38 53.3
4478
20
6 11 30.07
34064
37 40 39.0
4*444
80
7 17 64.59
9.6168
87 38 19.7
4.649
31
5 14 1.86
34007
37 44 59.6
4.9U
31
7 30 35.39
9.6061
87 33 36.4
4409
22
6 16 43.66
34008
87 49 8.8
4446
38
7 38 66.55
94006
37 18 43.5
4409
23
6 19 35.46
FB
94007
.IDAY
N.87 53 4.7
14.
t4U
83
7 86 86.37
SUl
9.4083
raAY
N57 13 41.0
16.
§.191
0
6 33 7.35
9.0065
N57 66 49.1
S4W
0
7 27 64.74
94B66
N.S7 8 28.9
§.970
1
5 34 49.03
94069
38 0 81.4
8.430
1
7 30 33.66
94788
37 3 7.6
§.486
3
5 37 30.77
94950
38 3 41.6
8.930
3
7 33 63.13
9.4706
26 67 36.8
§460
3
5 30 12.48
9.0040
28 6 49.7
6464
3
7 35 30.15
9.4631
36 61 66.9
§.749
4
6 33 54.14
94036
38 9 45.7
9433
4
7 37 47.70
9.4669
36 46 7.9
§403
5
5 35 35.73
94030
38 13 39.6
9430
5
7 40 14.78
94474
36 40 9.9
6443
6
5 38 17.34
94019
38 15 1.4
9.496
6
7 43 41.39
94806
86 34 3.9
6.101
7
6 40 58.66
94807
38 17 31.1
9.997
7
7 46 7.53
9.4817
36 37 47.1
6437
8
6 43 39.98
946n
38 19 38.7
9.097
8
7 47 33.19
94987
36 31 83.6
6.461
9
6 46 31.18
94668
88 31 34.3
1497
9
7 49 58.37
94107
36 14 49.5
6.694
10
5 49 3.36
94636
38 33 7.9
1.096
10
7 63 33.07
94070
86 8 7.8
6.766
11
5 61 43.33
94616
38 34 39.5
1.497
11
7 64 47.88
94004
36 1 17.7
0404
12
5 54 34.05
94799
38 35 69.3
1.999
18
7 57 11.00
94019
86 54 19.3
7.043
13
5 57 4.73
34706
38 37 7.0
1401
13
7 69 34.23
94630
85 47 13.6
7.180
14
6 59 45.33
94741
38 88 3.9
0438
14
8 1 66.97
94746
35 39 67.8
7416
15
6 3 35.58
94710
38 38 46.9
0.085
15
8 4 19.30
94666
35 33 34.9
7446
16
6 5 5.74
94078
38 39 19.0
0.480
16
8 6 40.94
94664
86 35 4.0
7.670
17
6 7 45.70
94644
28 29 39.4
0.944
17
8 9 3.19
94609
85 17 35.3
7.700
18
6 10 35.45
94006
28 29 48.3
0449
18
8 11 33.95
94419
35 9 38.9
7487
19
6 13 4.97
9.0679
38 39 45.3
0.146
19
8 13 43.31
94880
85 1 44.9
7.964
20
6 15 44.36
94632
38 39 30.8
0480
30
8 16 3.98
94956
34 53 43.3
6.060
31
6 18 33.33
94491
38 39 4.7
0481
31
8 18 23.35
94170
24 45 34.3
6.919
22
6 31 3.13
94440
38 38 37.1
0.792
38
8 30 41.03
94087
34 37 17.8
6488
23
6 33 40.67
94401
28 37 38.1
0418
33
8 83 69.39
94006
34 38 54.1
8468
24
6 36 18.94
94860
Ni» 36 37.6
1.103
84
8 36 17.07
9.3899
N.84 30 33.4
6411
190
NOVEMBER, 1856.
IX.
GREENWICH MEAN TIME. |
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hoar.
DUL
forlm.
DwliBatton.
DIff.
forlm.
Hour
Right Aaoeoiion.
DHT.
forlm.
Dlff.
forlm.
MONDAY
17.
WEDNESDAY 19.
h. m. •.
•.
O 1 «
»
h. m. ■.
••
O 1 N
•
0
8 25 17.07
3.9093
N54 20 83.4
8.ff71
0
10 6 22.36
1.9404
N.15 41 6.6
19.640
1
8 27 34.35
9.9B30
24 11 45.6
8.680
1
10 8 18.61
14)847
15 28 32.5
19.601
2
8 29 51.13
9.9756
24 3 0.8
8.806
2
10 10 14.52
1.9991
15 15 55.4
19.649
3
8 32 7.42
9.9678
23 54 9.1
8.919
3
10 12 10.10
1.9936
15 3 15.4
19.699
4
8 34 23.21
9.9901
23 45 10.6
0.0SI
4
10 14 5.34
1.9179
14 50 32.4
19.741
5
8 36 38.51
9.9000
23 36 5.4
0.141
5
10 16 0.25
1.9193
14 37 46.5
19.790
6
8 38 53.31
9.9490
23 26 53.6
0.960
6
10 17 54.83
1.9009
14 24 57.6
19.837
7
8 41 7.62
9.9344
23 17 35.4
9.867
7
10 19 49.09
1.9017
14 12 6.0
19.869
8
8 43 21.44
9.9909
23 8 10.8
9.461
8
10 21 43.04
1.8006
13 59 11.7
19.997
9
8 45 34.77
9.9181
22 58 39.8
9.607
9
10 23 36.68
1.8916
13 46 14.8
194)71
10
8 47 47.62
9.9100
22 49 2.6
9.669
10
10 25 30.02
1.8866
13 33 15.2
134)14
11
8 49 59.98
9.9019
22 39 19.4
9.769
•11
10 27 23.06
1.8816
13 20 13.1
184)66
13
8 52 11.85
9.10S8
22 29 30.3
0.868
12
10 29 15.81
1.8767
13 7 8.5
134)97
13
8 54 23.24
9.1866
22 19 35.3
9.966
13
10 31 8.27
1.8719
12 54 1.5
13.137
14
8 56 34.15
9.1778
22 9 34.4
104)09
14
10 .33 0.45
1.8679
12 40 52.1
13.177
15
8 58 44.59
9.1000
21 59 27.8
10.167
15
10 34 52.34
1.86i6
12 27 40.4
13.913
16
9 0 54.55
9.1090
21 49 15.5
10.960
16
10 36 43.96
1.8360
12 14 26.5
13.949
17
9 3 4.03
9.1649
21 38 57.6
10.849
17
10 38 35.31
1.8534
12 1 10.4
13.990
18
9 5 13.04
9.1404
21 28 34.2
10.438
18
10 40 26.38
1.8488
11 47 52.0
13093
19
9 7 21.59
9.1006
21 18 5.3
10.698
19
10 42 17.17
1.8443
11 34 31.6
13.350
20
9 9 29.67
9.1908
21 7 31.1
104117
20
10 44 7.69
1.8400
11 21 9.2
13.399 1
21
9 11 37.28
9.1981
20 56 51.6
10.700
21
10 45 57.97
1.8360
11 7 44.7
13.491 1
22
9 13 44.43
9.1165
20 46 7.1
10.783
22
10 47 48.01
14090
10 54 18.4
13.460 1
93
9 15 51.13
TUI
9.1000
SSDAl
N50 35 17.6
' 18.
10.868
23
10 49 37.81
THU
1.8381
RSDA
N.IO 40 50.2
Y 20.
13.4W
1
1
0
9 17 57.39
9.1006
N.20 24 23.1
10.948
0
10 51 27.38
1.8948
N.IO 27 20.2
1
13.614 1
1
9 20 3.20
9unw
20 13 23.8
114)98
1
10 53 16.72
1.890&
10 13 48.5
13.649 '
3
9 22 8.57
9.0837
20 2 19.7
11.108
2
10 55 5.83
1.8106
10 0 15.1
13.671 i
3
9 24 13.49
9.0785
19 51 10.8
11.187
3
10 56 54.72
1.8181
9 46 39.9
13.000 1
4
9 26 17.98
9.0713
19 39 57.2
11.964
4
10 58 43.40
1.6005
9 33 3.1
18.097 1
5
9 28 22.04
9.0641
19 28 39.1
11.380
5
11 0 31.87
1.6060
9 19 24.7
13.6&9
6
9 30 26.67
941570
19 17 16.6
IMll
6
11 2 20.12
1.8090
9 5 44.8
i3.6n !
7
9 32 28.88
9.0900
19 5 49.6
11.484
7
11 4 8.18
1.7008
8 52 3.4
13-709 ■
8
9 34 31.67
18 54 18.3
11.566
8
11 5 56.04
1.7900
8 38 20.5
13.797
9
9 36 34.04
9.0861
18 42 42.6
11.697
9
11 7 43.71
1.7998
8 24 36.1
13.761 1
10
9 38 36.00
9.0908
18 31 2.8
11.697
10
11 9 31.20
1.7808
8 10 50.4
13.773
11
9 40 37.55
9.0996
18 19 18.9
11.766
11
11 11 18.50
1.7808
7 57 3.4
13.794
13
9 42 38.69
94)160
18 7 30.9
11.888
12
11 13 5.62
1.7837
7 43 15.1
13.815
13
9 44 39.44
94)099
17 55 38.9
11.888
13
11 14 52.56
1.7806
7 29 25.6
13.3S6
14
9 46 39.79
94)096
17 43 43.1
11.969
14
11 16 39.34
1.7781
7 15 34.9
13.S64
15
9 48 39.74
1.9961
17 31 43.5
194)96
15
11 18 25.95
1.7764
7 1 43.1
13.973
16
9 50 39.31
1.9896
17 19 40.1
19.088
16
11 20 12.40
1.7798
6 47 50.2
j 13^1
17
9 52 38.50
1.9832
17 7 33.0
19.148
17
11 21 58.70
1.7703
6 33 56.3
1
18
9 54 37.30
1.9709
16 55 22.4
19.907
18
11 23 44.85
1.7679
6 20 1.3
13.9:i4
19
9 56 35.73
1.9707
16 43 8.2
19.966
19
11 25 30.86
1.7656
6 6 5.4
13.939
20
9 58 33.79
1.9646
16 30 50.5
19.399
20
11 27 16.73
1.7634
5 52 8.6
13.9M
21
10 0 31.47
1.9S63
16 18 29.5
19.879
21
11 20 2.47
1.7619
5 38 10.9
19.906
22
10 2 28.79
1.9503
16 6 5.1
19-184
22
11 30 48.08
1.7891
5 24 12.4
13.989
23
10 4 25.75
1.9463
15 53 37.5
19.488
23
11 22 33.57
1*7670
5 10 13.1
134)96
24
10 6 22.36
1.9404
N.15 41 6.6
19.640
24
11 34 18.93
1.7661
N. 4 56 13.0
144)06
X.
NOVEMBER, 1856.
191
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Right Aateutioa.
Dlff.
fur 1 m.
Wff.
for 1 m.
Hoar
Right Aacensioo.
Dlff.
for 1 m.
Diff.
forlm.
FRIDAY
21.
SUNDAY
23.
h. m. •••
•.
O 1 u
•
h. m •.
B.
O 1 u
«
0
11 34 18.93
1.1A0I
N. 4 56 13.0
UM6
0
12 57 47.41
1.7510
S. 6 17 10.5
13^1
1
11 36 4.18
1.7532
4 42 12.2
14.018
1
12 59 32.59
1.7537
6 30 57.6
18.770
2
U 37 49.32
1.7513
4 28 10.8
lAJOOd
2
13 1 17.88
1.7555
6 44 43.3
18.757
3
11 39 34.35
1.7400
4 14 8.8
14.088
3
13 3 3.28
1.7574
6 58 27.8
18.785
4
11 41 19.28
1.7481
4 0 6.2
14.048
4
13 4 48.80
1.7506
7 12 10.9
18.712
5
11 43 4.12
1.7466
3 46 3.1
14.057
5
13 6 34.45
1.7617
7 25 52.5
13.087
6
11 44 48.87
1.7451
3 31 59.4
14.065
6
13 8 20.22
1.7680
7 39 32.6
18.661
7
11 46 33.53
1.7487
3 17 55.3
14.072
7
13 10 6.13
1.7662
7 53 11.2
13.636
8
11 48 18.11
1.74-24
3 3 50.8
ujcne
8
13 11 52.18
1.7685
8 6 48.2
134)10
9
11 50 2.61
1.7411
2 49 45.9
144)84
9
13 13 38.37
1.7708
8 20 23.8
13.588
iO
11 51 47.04
1.7389
2 35 40.6
14.089
10
13 15 24.70
1.7782
8 33 57.6
13.556
11
11 53 31.40
1.7388
2 21 35.1
14.098
11
13 17 11.18
1.7757
8 47 29.8
13.527
13
11 55 15.70
1.7878
2 7 29.4
14.097
12
13 18 57.80
1.7782
9 1 0.2
18.407
13
11 56 59.94
1.7169
1 53 23.5
14.101
13
13 20 44.58
1.T806
9 14 28.9
13.467
14
11 58 44.13
1.7360
1 39 17.4
14.104
14
13 22 31.50
1.7880
9 27 55.6
18.487
15
12 0 28.27
1.7853
1 25 11.1
14.106
15
13 24 18.57
1.7856
9 41 20.6
18.406
16
12 2 12.37
1.7847
1 11 4.7
14.107
16
13 26 5.80
1.7883
9 54 43.6
18J74
17
12 3 56.43
1.7841
0 56 58.3
14.107
17
13 27 53.20
1.7011
10 8 4.8
18.841
18
12 5 40.45
1.7335
0 42 51.9
14*107
18
13 29 40.78
1.7041
10 21 23.8
18.306
19
12 7 24.44
1.7330
0 28 45.6
14.106
19
13 31 28.52
1.7073
10 34 40.8
18.270
20
12 9 8.41
1.78-27
0 14 39.3
14.104
20
13 33 16.46
1.8001
10 47 55.6
18.234
21
12 10 52.36
1.78-24
N. 0 0 33.1
14.101
21
13 35 4.58
1.8087
11 1 8.5
18.198
22
12 12 36.29
1.78*21
S. 0 13 32.9
14.098
22
13 36 52.91
1.8070
11 14 19.0
18.162
23
12 14 20.21
SATl
1.7819
URDA^
S. 0 27 38.7
Y 22.
144)06
23
13 38 41.44
MO]
1.8108
>a)AY
S.ll 27 27.3
24.
18.126
0
12 16 4.11
1.7818
S. 0 41 44.5
144)02
0
13 40 30.17
1.8186
S.ll 40 33.2
184)65
1
12 17 48.01
1.7817
0 55 50.1
144)88
1
13 42 19.09
1.8171
11 53 36.8
184)45
3
12 19 31.92
1.7317
1 9 55.1
144)82
2
13 44 8.23
1.8-206
12 6 37.9
184)04
3
12 21 15.83
1.7818
1 23 59.7
144n6
3
13 45 57.58
1.8-241
12 19 36.7
12.068
4
12 22 59.76
1.7321
1 38 3.9
144)09
4
13 47 47.14
1.8276
12 32 32.8
12.021
5
12 24 43.70
1.7325
1 52 7.7
144)61
5
13 49 36.91
1.8311
12 45 26.5
12.878
6
12 26 27.68
1.73-29
2 6 11.0
144)52
6
13 51 26.88
1.8348
12 58 17.6
12.834
7
12 28 11.68
1.7334
2 20 13.8
144)43
7
13 53 17.09
1.8386
13 11 6.1
12.780
8
12 29 55.70
1.7839
2 34 16.1
144)84
8
13 55 7.53
1.84-25
13 23 51.8
12.744
9
12 31 39.76
1.7844
2 48 17.8
144)-25
9
13 56 58.22
1.8463
13 36 34.7
12.607
10
12 33 23.84
1.7850
3 2 18.9
144)15
10
13 58 49.13
1.8503
13 49 14 8
12.640
11
12 35 7.96
1.7857
3 16 19.4
14.005
n
14 0 40.28
1.8543
14 1 52.0
1-2.601
12
12 36 52.12
1.7365
3 30 19.3
13.004
12
14 2 31.66
1.8584
14 14 26.3
12.551
13
12 38 36.34
1.7875
3 44 18.5
18.083
13
14 4 23.29
1.8627
14 26 57.6
12.501
14
12 40 20.62
1.7885
3 58 17.0
18.070
14
14 6 15.19
1.8671
14 39 25.8
12.451
15
12 42 4.96
1.7395
4 12 14.6
18.056
15
14 8 7.36
1.8715
14 51 51.0
12.800
16
12 43 49.37
1.7406
4 26 11.4
18.041
16
14 9 59.78
1.8758
15 4 13.1
12.345
17
12 45 33.84
1.7417
4 40 7.3
13.926
17
14 11 52.47
1.8801
15 16 31.8
12.201
18
12 47 18.38
1.7480
4 54 2.3
184)10
18
14 13 45.41
1.8845
15 28 47.4
12.236
19
12 49 3.01
1.7443
5 7 56.3
18.804
19
14 15 38.61
1.8889
15 40 59.6
12.180
20
12 50 47.71
1.7456
5 21 49.3
13.877
20
14 17 32.09
1.8084
15 53 8.4
12.128
21
12 52 32.50
1.7470
5 35 41.3
13.860
21
14 19 25.84
1.8970
16 5 13.8
124)66
22
12 54 17.37
1.7485
5 49 32.2
18.842
22
14 21 19.86
1.9025
16 17 15.8
134)06
23
12 56 2.35
1.7501
6 3 22 0
13.822
23
14 23 14.16
1.0072
16 29 14.2
11.048
24
12 57 47.41
1.7519
S. 6 17 10.5
13.801
24
14 25 8.73
1.0118
S.16 41 8.9
UJKn
192
NOVEMBER, 1856.
XI
GREENWICH MEAN TIME.
THE MOOITS RIGHT
ASCENSION AND DECLINATION.
Hoar.
Right Ajoenskm.
DUt
forlm.
DacUnAtkm.
DUL
forlm.
Hoar.
Right AMenakm.
DUt
forlm.
DMUnatkni.
Diff.
forlm.
TUESDAY 25.
THURSDAY 27.
h. m. s.
s.
O f II
«
h. m. ■.
s.
o n
A
0
14 35 8.73
1.9118
S.16 41 8.0
11.887
0
16 3 6.37
2.1777
S.84 41 35.7
7.714
1
14 37 3.58
1.9166
16 53 0.1
11.826
1
16 5 17.09
3. 1833
34 49 14.9
7400
3
14 38 68.73
].9ai4
17 4 47 6
11.763
3
16 7 88.86
3.1890
34 56 47 3
7.485
3
14 30 54.15
1.9963
17 16 31.3
11.699
3
16 9 39.76
3.1944
35 4 13.6
74«9
4
14 33 49.88
1.9814
17 38 11.1
11.634
4
16 11 51.61
9.1998
35 11 31.0
7451
6
14 34 45.91
1.9S66
17 39 47.0
11.569
5
16 14 3.78
9JU56
85 18 48.3
7.183
6
14 36 43.36
1.9411
17 51 19.0
11.503
6
16 16 16.30
3.3116
35 35 46.4
7411
7
14 38 38.91
1.9467
18 3 46.9
11484
7
16 18 39.16
3.3170
35 38 43.3
6490
8
14 40 35.86
1.9517
18 14 10.7
11.865
8
16 30 43.34
3.3338
35 39 33.7
6.798
9
14 43 33.11
1.9S69
18 35 30.4
11.996
9
16 88 65.85
3.3383
35 46 14.9
6.646
10
14 44 30.68
1.9628
18 36 45.7
11.334
10
16 35 9.71
3.3388
35 58 49.7
6433
11
14 46 38.58
1.96n
18 47 56.8
11.153
11
16 87 33.89
3.3393
35 59 17.0
6486
13
14 48 36.81
1.9780
18 59 3.6
11.081
13
16 39 38.40
3.9447
86 5 36.7
6.9G9
13
14 50 35.35
1.9784
19 10 6.0
114107
13
16 31 53.34
3.3490
86 11 48.8
6.141
14
14 53 34.31
1.9838
19 31 3.8
10.980
14
16 34 8.38
3.3551
36 17 53.8
641S
15
14 54 33.40
1.9891
19 31 57.1
10.854
15
16 36 83.84
3.3603
86 83 49.9
5.883
16
14 56 33.91
1J943
19 43 45.8
10.777
16
16 38 39.60
3.3653
86 89 38.8
5.753
17
14 58 33.73
1.9993
19 53 39.8
10.700
17
16 40 55.67
3.3703
36 35 19.8
5430
18
15 0 33.85
9.0045
30 4 9.3
10.631
18
16 43 18.03
3.3754
36 40 58.8
5.4S7
19
15 3 33.89
3.0101
30 14 43.8
10.540
19
10 45 88.70
3.3808
36 46 17.8
54M
30
15 4 34.07
3.0160
30 35 13.5
10.457
80
16 47 45.65
3.3951
36 51 34.8
5.330
31
15 6 35.30
34)317
30 35 38.3
10478
81
16 50 8.89
3.3899
36 66 43.8
5485
33
15 8 36.67
34M78
30 45 57.9
10.393
33
16 53 80.43
3.3948
27 1 44.6
4.949
33
15 10 38.48
WED]
MESDi
S.30 56 13.6
\Y 26.
10.305
33
16 64 38.35
FR
9.3997
IDAY
SJ87 6 37.3
28.
4411
0
15 13 30.63
3.0884
S.31 6 33.0
10.119
0
16 56 66.37
9.8044
S.37 11 31.5
4473
1
15 14 33.11
3.0448
31 16 36.3
10.030
1
16 69 14.76
3.8080
37 15 57.4
4433
3
15 16 35.94
3.0502
31 36 35.3
9.945
8
17 1 33.41
3.8183
87 80 34.9
4491
3
15 18 39.13
3.0656
31 36 19.1
9M6
3
17 3 53.33
3.8177
87 84 44.0
4.349
4
15 80 43.64
3.0616
31 46 7.5
9.764
4
17 6 11.51
3.8319
87 88 54.5
4.107
5
15 33 46.51
3.0674
31 55 50.4
9.978
5
17 8 30.94
3.8360
87 38 56.5
8465
6
15 M 50.73
3.0784
33 5 37.8
9.580
6
17 10 50.61
3.8800
87 36 50.0
84«
7
15 36 55.39
3.0790
33 14 59.6
0.488
7
17 13 10.53
3.S341
37 40 34.8
t4n
8
15 39 0.30
3.0846
38 34 35.8
9M2
8
17 15 30.67
33885
37 44 10.9
8431
9
15 31 5.45
3.0908
33 33 46.3
9.396
9
17 17 51.07
3.S4S3
37 47 38.3
8465
10
15 33 11.05
3.0963
33 43 0.8
9.197
10
17 30 11.71
3.8460
37 50 56.8
8.339
11
15 35 17.01
3.1034
33 53 9.5
9.101
11
17 33 33.57
9.S497
37 54 6.5
3493
13
15 37 33.38
3.1083
33 1 18.3
8.909
13
17 24 63.66
34581
87 67 7.3
3.944
13
15 39 39.99
3.II40
33 10 8.9
8.906
13
17 37 14.94
34668
37 59 59.3
3.7M
14
15 41 37.00
3.1196
33 18 59.5
8.801
14
17 89 36.44
94608
38 8 48.3
3444
15
15 43 44.35
3.1358
33 87 43.9
8.095
15
17 31 58.14
34683
38 5 16.3
3.493
16
15 45 53.05
3.1813
33 36 33.1
8.589
16
17 34 30.03
34669
88 7 41.1
3442
17
15 48 0.11
3.1875
33 44 54.0
8.488
17
17 36 48.13
34703
88 9 56.9
3.192
18
15 50 8.53
3.1481
33 53 19.6
6sn
18
17 39 4.48
34788
38 18 3.7
34M0
19
15 63 17.38
3.1487
34 1 38.8
8.370
19
17 41 86.89
34763
38 14 1.3
1487
30
15 54 36.38
3.1546
34 9 51.4
8.161
30
17 43 49.53
34788
38 15 49,7
1.734
31
15 56 35.83
3.1604
34 17 57.5
84)51
31
17 46 18.38
34816
38 17 38.9
1479
33
15 58 45.63
3.1663
34 85 67.0
7.940
33
17 48 35.88
34843
88 18 58.7
1.434
33
16 0 55.78
3.1730
34 33 49.8
7.837
33
17 60 58.39
34866
88 80 19.3
1.369
34
16 3 6.37
3.1777
S.34 41 35.7
7.714
34
17 53 81.65
34888
S.38 81 30.5
1.1 14
XII.
NOVEMBER, 1856.
193
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
noar. Right Ateenikm.
Dlff.
forlm
DecUuidon.
Dtff.
forlm.
Hoar.' Ri|^t AMmaion.
Diff.
forlm
Decliiuttio&.
Dlff.
for Id
SATURDAY 29.
SUNDAY 30.
h. m. ■.
■.
1 o
0
17 53 91.65
3.3888
S.28
1
17 55 45.03
3.9000
28
2
17 58 8.54
3.S83I
38
3
18 0 33.17
3.8SM
38
4
18 3 55.93
3^073
38
5
18 5 19.81
3.9001
38
6
18 7 43.79
9.4008
38
7
18 10 7.87
3.4035
98
8
18 13 32.04
3.4039
38
9
18 14 56.30
3.4053
38
10
18 17 30.63
3.4061
38
11
18 19 45.00
3.4069
38
13
18 83 9.43
3.4078
38
13
18 34 33.90
3.4066
38
14
18 2(i 58.43
3.1003
38
15
18 39 32.97
3.4099
38
16
18 31 47.58
3.4106
38
17
18 34 12.23
3.4113
38
18
18 36 36.91
3.tll6
38
19
18 39 1.59
3.4120
38
•20
18 41 26.29
3.4131
38
21
18 43 51.00
3.4131
38
'22
18 46 15.70
3.4118
38
23
18 48 40.37
3.4113
38
24
18 51 5.00
3.4106
S.38
31 30.5
33 33.5
33 25.1
34 8.4
34 43.3
35 6.7
35 33.7
25 27.1
35 33.9
35 9.3
34 46.0
34 13.3
33 31.0
33 39.1
31 37.6
30 36.4
19 5.6
17 35.2
15 55.4
14 5.8
6.7
57.9
39.6
11.6
34.0
12
9
7
5
3
1.114
0.006
0.803
0UM6
0.480
0.SS1
0.173
04)18
0.146
0.633
0.783
0.043
MOS
1.363
1.438
1.683
1.743
1.903
3^)63
9.333
3-883
3.5IS
3.703
h.
18 51
18 53
18 55
18 58
19 0
19 3
19 5
19 7
19 10
19 13
19 15
19 17
19 19
19 33
19 34
19 97
19 99
19 31
19 34
19 36
19 39
19 41
19 43
19 46
19 48
■.
•.
O 1 u
N
5.00
3U106
s.28 3 34.0
3.703
39.61
3.4100
37 59 47.3
9.864
54.18
9.4094
37 56 50.8
um
18.73
9.4086
37 53 44.9
S.184
43.21
3.4077
37 50 39.3
8.843
7.63
3.4067
87 47 4.2
3.501
31.99
3.4057
37 43 39.8
MBQ
56.29
3.4045
37 39 45.7
8.817
20.51
8.4033
37 35 53.3
8.976
44.65
3.4018
87 31 49.1
4.134
8.70
3.4004
87 37 36.5
4.393
32.65
3.3988
37 33 14.4
4.449
56.51
3.8970
87 18 43.0
4.606
20.27
3.3953
87 14 8.3
4.763
43.91
3.3933
37 9 18.0
4.918
7.43
9.3013
37 4 18.5
5.074
30.83
9.3803
86 59 3.5
5.339
54.10
3.8870
36 53 45.3
5.883
17.23
3.3847
36 48 17.9
5.537
40.23
3.3884
36 43 41.3
5.600
3.09
3.9800
36 36 55.6
5.843
25.80
3.3774
86 31 0.6
5.996
48.35
3.3748
36 34 56.5
6.148
10.74
3.3731
36 18 43.3
6.399
33.97
341693
S.36 13 31.0
6.449
PHASES OF THE MOON.
Day. h. m.
J> First Quarter, 5 5 33.8
O Full Moon, 11 80 55.3
(T Last Quarter, 18 88 34.3
# New Moon, 97 4 1.4
Day. h.
<C Perigee, 10 17.1
<C Apogee, 99 93.4
25
194
NOVEMBER, 1856.
XIII.
GREENWICH MEAN
TIME.
1
LUNAB DISTANCES.
u
mod
Noon.
P.L.
or
mh
P.L.
or
VP».
P.L.
or
rs^
P.L.
or
¥
PoriOoii.
IMS.
IMS.
IMS.
IMS.
O 1 11
O 1 N
O 1 H
O 1 II
1
SUK
W.
40 0 39
9X6
41 35 43
8948
43 50 54
8988
44 16 18
8980
VeDOS
W.
13 13 49
tm
14 33 55
.8487
15 55 30
8418
17 17 38
8880
Foroalhaut
E.
73 15 34
si 14
70 47 43
8110
69 19 44
8108
67 51 44
8104
a Pegasi
E.
93 50 51
8198
93 34 39
8188
90 58 16
8180
89 31 43
8179
Jupiter
E.
100 54 3
9860
99 30 51
9BS0
97 47 38
98a
96 13 56
9886
s
Sun
W.
51 36 3
8180
53 53 36
sno
55 19 31
8160
56 46 19
8148
Veout
W.
34 13 37
8808
35 37 33
8909
37 1 54
8970
88 36 30
8986
Foroalhaut
E.
60 30 51
80O5
59 3 35
8008
57 34 19
80O6
56 6 3
8086
aPegaai
E.
83 16 34
8184
80 49 6
8197
79 81 39
8190
77 53 44
8114
Jupiter
E.
68 33 31
9190
86 48 50
9780
85 13 56
9779
83 38 51
9761
3
Sun
W.
64 4 39
8080
65 33 3
8076
67 1 41
8068
68 30 36
8060
Venus
W.
35 33 53
8190
37 0 14
8177
38 36 51
8161
39 53 43
fl80 I
Foroalhaut
E.
48 45 39
8119
47 17 43
8198
45 50 6
8180
44 83 44
8181
a Pegaai
E.
70 33 14
8068
69 4 50
8086
67 36 33
8082
66 7 50
80T8
Jupiter
E.
75 40 0
9108
74 3 31
9007
73 36 47
9886
70 49 47
9878 1
4
Sun
W.
75 59 15
9081
77 39 51
9087
79 0 45
9068
80 31 57
90»
Venus
W.
47 13 35
8078
48 41 4
8080
50 10 3
8046
51 39 18
8080 !
Mars
W.
33 40 31
9017
34 11 50
9097
95 43 35
9007
87 15 45
9888 1
aPegasi
E.
58 44 38
8078
57 16 3
8089
55 47 30
8087
54 19 4
8008 t
Jupiter
a Arietia
E.
63 40 43
sen
61 3 3
9608
59 93 4
9864
57 43 47
9871
E.
99 10 46
9878
97 33 36
9861
95 56 6
9840
94 18 18
9888
5
Sun
W.
88 13 45
9801
89 45 54
98tA
91 19 93
9090
93 53 13
9818
Venus
W.
59 10 35
9960
60 41 51
9984
63 13 37
9017
63 45 34
9900 1
Mars
W.
35 3 33
9798
36 37 8
9789
38 11 54
9768
39 47 10
9746 '
aPegasi
E.
46 59 40
8l8i
45 33 51
8ia)
44 6 34
8918
43 40 30
8946
Jupiter
o Arietia
E.
49 33 39
9500
47 41 36
9486
45 59 53
9479
44 18 0
9487
E.
86 4 30
9M4
84 34 45
9660
83 44 41
9686
81 4 16
urn ,
6
Sun
W.
100 47 39
9782
103 33 37
9716
103 59 57
9690
105 30 38
•^ 1
Venus
W.
71 30 40
9816
73 4 49
9708
74 39 19
97fr2
76 14 11
9166 '
Mars
W.
47 49 15
9080
49 36 49
96a
51 4 45
9096
53 43 5
9810
Jupiter
a Arietis
E.
35 43 15
9MI
33 59 13
9188
33 14 49
9881
30 30 4
9888 ;
E.
73 37 7
9M8
70 54 41
9484
69 11 54
9419
67 88 46
9«08 1
Aldebaran
E.
103 10 31
9464
101 38 37
9448
99 46 1
9489
98 3 13
S416 1
7
Sun
W-
113 45 35
9809
115 34 37
9186
117 8 41
9870
118 43 17
9686 ;
Venus
W.
84 14 9
9880
85 51 16
9888
87 88 46
9646
89 6 40
9881
Mars
w.
61 0 33
9M8
63 41 0
9810
64 31 59
9405
66 3 19
sai
a Aquil«
w.
49 0 47
4008
50 13 19
8806
5i 35 34
8808
58 40 88
8790
a Arietis
E.
58 48 14
9818
57 3 10
9896
55 17 49
9816
53 33 11
9186
Aldebaran
E.
89 33 31
9880
87 38 39
9896
85 53 6
9811
84 7 33
9987 i
8
Venus
W.
97 90 53
9868
90 0 45
98a
100 40 58
9ni
103 31 88
9810 1
Mars
W.
74 36 10
9408
76 18 34
9m
78 9 18
9880
79 46 31
9868
a Aqail«
W.
59 16 33
8888
60 39 15
8819
63 3 13
8980
63 88 11
8918
a Arietis
E.
44 40 13
9«e
43 53 10
9961
41 5 59
9947
39 18 41
9>a <
Aldebaran
E.
75 13 44
9989
73 96 4
9991
71 38 8
9910
69 49 55
9198
Saturn
E.
111 35 53
9IS4
109 47 1
9ni
107 57 50
9160
106 8 80
9148 •
0
Mars
W.
88 30 54
9811
00 16 37
9809
03 9 34
9901
93 48 44
9988
a Aquil«
W.
70 45 53
8098
79 15 34
9180
73 45 53
9980
75 16 43
9oa
XIV.
NOVEMBER, 1856,
195
GREENWICH MEAN
TIME,
LUNAR DISTANCES.
%A
Star's Name
P.L.
P.L.
P.L.
P.L.
lA
and
Midnight.
of
XVh.
of
xvnih.
of
XXPi.
of
Portion.
DUt
Diff.
DIff.
JHOL
O 1 n
O 1 N
O 1 M
O 1 II
1
Sun
W.
45 41 53
8290
47 7 37
8310
48 33 34
8900
40 50 43
8191
Venus
W.
18 40 1
S3fl0
20 2 53
8861
21 26 6
8884
22 49 38
8819
Fomalhaut
E.
66 23 30
8101
64 55 31
8009
63 27 20
8096
61 50 6
8096
a Pegasi
E.
88 5 0
S16S
86 38 7
8]fi6
85 11 5
8148
83 43 54
8141
Jupiter
E.
04 40 13
3897
03 6 20
9818
01 32 15
9809
80 57 50
9800
2
Sun
W.
58 13 31
8186
50 40 57
8194
61 8 37
8118
62 36 31
8101
Venus
W.
20 51 21
Si58
31 16 27
8386
32 41 53
8315
34 7 44
8900
Fomalhaut
E.
54 37 48
8099
53 0 37
SIOI
51 41 20
8106
50 13 25
8111
a Pe^asi
E.
76 25 52
8109
74 57 53
8108
73 20 47
8097
72 1 34
8091
Jupiter
E.
82 3 32
S7A1
80 28 0
9741
78 52 14
3780
77 16 14
2719
3
Sun
W.
60 50 47
8U87
71 20 14
8034
72 58 57
8010
74 28 57
9996
Venus
W.
41 20 52
3188
42 48 18
8131
44 16 2
8106
45 44 4
8091
Fomalhaut
E.
42 55 36
8ia9
41 28 50
8188
40 2 27
8311
38 36 31
8384
a Pegasi
E.
64 30 14
8077
63 10 36
8076
61 41 57
8075
60 13 17
8076
Jupiter
E.
60 12 31
9661
67 34 50
3649
65 57 10
3687
64 10 5
96-14
4
Sun
W.
82 3 28
S9B3
83 35 18
3908
85 7 27
3894
86 30 56
9876
Venus
W.
53 8 54
8014
54 38 40
3908
56 0 4
3963
57 30 39
9965
Mars
W.
28 48 10
S869
30 21 17
3861
31 54 30
3883
33 28 24
3815
a Pegasi
E.
52 50 46
8101
51 22 38
8113
40 54 44
8136
48 27 6
8141
i
Jupiter
E.
56 4 12
3668
54 24 10
3648
52 44 5
3539
51 3 32
3516
a Arietis
E.
02 40 U
3091
01 1 45
3607
80 22 50
3693
87 43 54
9579
5
Sun
W.
04 27 24
3797
06 1 56
9781
07 36 40
2765
00 12 3
2748
Venus
W.
65 17 43
9863
66 50 25
3866
68 23 28
9848
60 56 53
9831
Mars
W.
41 22 50
9738
42 58 53
3711
44 35 18
3095
46 12 5
9678
aPegasi
E.
41 15 15
8385
30 50 46
8833
38 27 11
8386
37 4 30
8450
Jupiter
E.
42 35.46
9443
40 53 11
3438
39 10 14
3411
37 26 55
9396
a Arietis
E.
70 23 31
3fi06
77 42 26
3491
76 1 0
3477
74 10 14
9469
6
Sun
W.
107 13 42
9606
108 51 7
9649
110 28 55
2634
112 7 4
9618
Venus
w.
77 40 25
2747
70 25 2
3730
81 1 2
3713
82 37 25
3697
Mars
w.
54 21 47
3903
56 0 51
8477
57 40 18
3560
59 20 8
9548
Jupiter
E.
28 44 57
3831
26 50 28
3305
25 13 36
3391
23 27 23
9276
a Arietis
E.
65 45 10
3391
64 1 31
3378
62 17 25
3865
60 32 59
9351
Aldebaran
E.
06 20 0
3401
04 36 26
3886
02 52 30
3809
91 8 11
9855
7
Sun
W-
120 23 13
3540
122 3 30
3535
123 44 8
3513
125 25 5
3497
Venus
W.
00 44 50
9630
02 23 18
3604
04 2 8
3588
95 41 19
3673
Mars
W.
67 44 50
9466
60 27 0
3451
71 0 22
3486
72 52 6
9493
a Aquile
W.
53 56 54
8688
55 14 47
8669
56 34 3
8493
57 54 36
8427
a Arietis
E.
51 46 16
9983
50 0 6
9388
48 13 41
3374
46 27 3
2365
Aldebarao
E.
82 21 18
9368
80 34 ^3
3970
78 48 0
3357
77 1 6
3344
8
Venus
W.
104 2 15
3806
105 43 20
3494
107 24 42
3483
100 6 20
9471
Mars
W.
81 30 42
3866
83 15 21
3344
85 0 16
3883
86 45 27
9833
a AquilfB
W.
64 54 5
8169
66 20 51
8138
67 48 27
aooi
69 16 48
8066
a Arietis
E.
37 31 18
3341
35 43 52
3343
33 56 27
3346
32 9 8
9349
Aldebaran
E.
68 1 26
3190
66 12 43
3180
64 23 46
3173
62 34 38
316^
Saturn
E.
104 18 30
3184
102 28 22
3133
100 37 57
3111
98 47 15
9101
9
Mars
W.
05 35 5
3978
07 21 37
3371
00 8 10
3364
100 55 11
»5e
a Aquilae
W.
76 48 5
3934
78 10 53
3906
70 52 4
3860
81 24 36
9875
J
196
NOVEMBER, 1856.
XV.
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
!
8ter*fNan
and
•
Noon.
P.L.
of
HP*.
P.L.
of
Vlh.
P.L.
of
IX^-
P.L.
of
Podtkm.
DUL
Dili.
DUt
DUL
O / II
O 1 N
O < M
o 1 u
9
Fomalhaut
W.
39 59 12
asai
41 38 19
9546
43 18 29
9506
44 59 34
9470
Aldebaran
E.
60 45 16
9156
58 55 46
3163
57 6 6
9147
55 16 19
9ia
Saturn
E.
96 56 17
9090
95 5 3
9081
93 13 35
9078
91 21 54
S065
Pollux
E.
104 7 12
9om
102 15 37
9068
100 23 49
9050
98 31 47
9063
10
Mara
W.
102 42 12
99H
104 29 19
9940
106 16 33
9346
108 3 52
99a
a Aquile
W.
82 57 27
9864
84 30 32
9854
86 3 50
9847
87 37 17
9843
Fomalhaut
W.
53 36 12
9t88
55 21 16
9390
57 6 46
9804
58 52 40
9380
a Pegaai
W.
35 18 55
8978
36 47 32
9689
38 18 7
9001
39 50 24
3881
Jupiter
W.
22 32 25
9006
24 25 50
9003
26 19 21
1900
28 12 57
1006
Aldebaran
E.
46 6 32
9ia
44 16 39
9147
42 26 52
9154
40 37 15
3168
Saturn
E.
82 0 41
90M
80 8 0
9081
78 15 14
9038
76 22 23
9035
Pollux
E.
89 8 51
9031
87 15 49
9017
85 22 41
9018
83 29 27
9010
11
a Aquil«
W.
95 25 14
98fl0
96 58 37
980O
98 31 49
9870
100 4 47
9B88
Fomalhaut
W.
67 46 26
3946
69 33 45
9919
71 21 10
9389
73 ^ 39
9^286
a Pegaai
W.
47 61 19
9609
49 30 25
3563
61 10 12
3585
52 50 36
9518
Jupiter
W.
37 41 37
1904
39 35 20
1906
41 29 0
1900
43 22 36
9003
Saturn
E.
66 57 33
9096
65 4 37
9037
63 11 45
9081
61 18 59
9016
Pollux
E.
74 2 38
9008
72 9 16
9010
70 15 57
9013
68 22 42
9016
Regulus
E.
110 43 40
9016
108 50 29
9016
106 57 20
9010
105 4 15
9099
13
Fomalhaut
W.
82 5 54
•960
83 53 7
3356
85 40 9
9961
87 27 1
9973
a Pegaai
W.
61 18 55
9447
63 1 23
3441
64 43 59
3487
66 26 41
9496
Jupiter
W.
52 48 56
9010
54 41 44
2037
56 34 20
9046
58 26 43
9065
Saturn
E.
51 57 12
900B
50 5 24
9078
48 13 52
3060
46 22 36
9101
Pollux
E.
58 58 9
90tt
57 5 42
9051
55 13 27
9050
53 21 24
9070
Regulus
E.
95 40 26
9048
93 48 7
9066
91 56 0
9064
90 4 6
9078
13
Fomalhaut
W.
96 17 44
901
98 9 59
9S46
99 47 52
9803
101 32 22
3878
a Pegaai
W.
74 59 54
94M
76 42 14
9400
78 24 24
9460
80 6 21
9480
Jupiter
a Arietia
W.
67 44 45
9110
69 35 29
9133
71 25 54
9180
73 15 59
9150 ,
W.
31 38 51
9974
33 25 28
9374
35 12 6
3374
36 58 43
9978
Saturn
E.
37 11 16
9n6
35 22 11
9104
33 33 34
9915
31 45 2fl
9987
Pollux
E.
44 5 8
9194
42 14 46
9197
40 24 43
9151
38 35 1
9165
Regulus
E.
80 48 25
9198
78 58 9
9U1
77 8 3
3155
75 18 37
9160
14
aPegasi
W.
88 31 56
9647
90 19 4
9M4
01 51 49
9561
93 31 10
9000
Jupiter
w.
82 20 46
9937
84 8 33
9^)a
85 55 56
9360
87 42 54
9378
a Arietis
w.
45 49 40
9190
47 35 11
99»3
49 20 24
3844
51 5 19
9866
Aldebaran
w.
17 11 8
9om
18 41 30
9881
20 14 13
3600
21 48 41
9741
Pollux
E.
29 32 6
9944
27 44 44
9961
25 57 47
3370
24 11 17
9tt7
Regulus
E.
66 16 7
9946
64 28 48
1969
62 51 54
9380
60 55 25
9307
15
Jupiter
a Arietis
W.
96 31 12
9MB
98 15 32
9987
99 59 26
9406
101 42 52
9494
w.
59 44 41
9496
61 27 26
9461
63 9 48
9460
64 51 4^
9466
Aldebaran
w.
89 54 40
9696
31 S3 4
9618
33 11 35
9617
34 50 7
9630
Regulus
E.
52 9 33
9960
50 95 43
9400
48 42 91
9498
46 59 20
9448 ,
Sun
E.
137 18 12
97n
135 41 65
9796
134 6 5
9756
132 30 41
9n6 1
16
Jupiter
a Arietis
W.
110 13 92
9619
HI 54 9
9566
113 34 29
9666
115 14 21
i
9675
w.
73 15 26
9674
74 54 56
9601
76 34 1
9610
7*4 12 4e
9t»
Aldebaran
w.
43 1 7
9666
44 38 43
9680
46 16 6
9661
47 53 10
9604
Regulus
E.
38 31 49
9646
36 51 42
9667
35 12 2
9068
33 32 51
Spies
E.
92 28 32
966T
90 47 59
96a
89 7 5*J
9666
87 28 11
9606
XVI.
NOVEMBER, 1856.
197
GREENWICH MEAN
TIME.
LUNAB DISTANCES.
9
8ter*»NaiiM
P.L.
P.L.
P.L.
P.L.
and
Podtfon.
Midnight.
of
VUL
xvt.
of
DilL
xvmh.
of
Diff.
xxi^.
of
Fomalhaut
W.
O < 1,
46 41 30
9436
O 1 M
48 24 13
9406
0 1 1
50 7 37
9389
O 1 H
51 51 37
3868
Aldebaran
E.
53 26 26
9141
51 36 29
9130
49 46 30
9130
47 56 30
9140
Saturn
E.
89 30 1
9W7
87 37 56
9060
85 45 40
9044
83 53 15
9039
Pollux
E.
96 39 33
9044
94 47 8
9087
92 54 32
9031
91 1 46
9095
10
Mars
W.
109 51 15
9941
111 38 41
ftUX
113 26 8
9341
115 13 35
9941
a Aquilae
W.
89 10 51
9839
90 44 28
9838
92 18 6
9840
93 51 42
9848
Fomalhaut
W.
60 38 55
9978
62 25 27
9967
64 12 15
9958
65 59 16
9969
a Pegaai
W.
41 24 12
9700
42 59 21
9715
44 35 41
9669
46 13 3
9099
Jupiter
W.
30 6 37
1994
32 0 20
1993
33 54 6
1998
35 47 52
1903
Aldebaran
E.
38 47 52
9m
36 58 45
9188
35 10 0
9904
33 21 39
9991
Saturn
E.
74 29 27
9093
72 36 29
9093
70 43 30
9098
68 50 31
9098
Pollux
E.
81 36 9
9000
79 42 48
9008
77 49 26
9007
75 56 2
9007
11
a Aquils
W.
101 37 28
9008
103 9 49
9917
104 41 46
9988
106 13 17
9966
Fomalhaut
W.
74 56 10
9930
76 43 41
9339
78 31 10
9943
80 18 35
9946
a Pegasi
W.
54 31 31
9494
56 12 52
9478
57 54 36
9466
59 36 38
3466
Jupiter
W.
45 16 7
9006
47 9 32
9011
49 2 49
9017
50 55 57
9098
Saturn
E.
69 26 19
9040
57 33 47
9046
55 41 25
9063
53 49 13
9000
Pollux
E.
66 29 33
9019
64 36 29
9095
62 43 33
9030
60 50 46
3087
Regulua
E.
103 11 15
9096
101 18 21
9030
99 25 34
9035
97 32 55
3049
12
' Fomalhaut
W.
89 13 41
9983
91 0 6
9999
92 46 17
9304
94 32 10
9817
a Pegasi
W.
68 9 25
9436
69 52 8
9438
71 34 49
9441
73 17 26
3447
Jupiter
W.
60 18 51
9065
62 10 44
9075
64 2 21
9086
65 53 42
9098
Saturn
E.
44 31 39
9113
42 41 0
9127
40 50 42
9149
39 0 47
9168
Pollux
E.
51 29 38
9078
49 38 5
9088
47 46 48
9100
45 55 49
9119
Regulus
E.
88 12 25
9083
86 21 0
9094
84 29 51
9105
82 38 59
9116
13
Fomalhaut
W.
103 16 29
9396
105 0 10
9415
106 43 24
9433
108 26 11
9453
a Pegasi
W.
81 48 3
9491
83 29 29
9503
85 10 38
9517
86 51 27
9532
Jupiter
W.
75 5 42
9166
76 55 1
9180
78 43 59
9195
80 32 34
9-210
a Arietis
W.
38 45 15
9983
40 31 39
9990
42 17 53
9-299
44 3 54
9300
Saturn
E.
29 57 56
9961
28 10 59
9988
26 24 42
9318
24 39 9
9348
Pollux
E.
36 45 40
9179
34 56 41
9195
33 8 6
9910
31 19 54
9997
Regulus
E.
73 29 22
9183
71 40 29
9198
69 61 58
9914
68 3 51
9999
14
a Pegasi
W.
95 10 5
9618
96 48 35
9639
98 26 37
9660
100 4 11
9661
Jupiter
W.
89 29 26
9996
91 15 32
9313
93 1 12
9339
94 46 25
9350
a Arietis
W.
52 49 54
9379
54 34 9
9387
56 18 2
9403
58 1 33
9419
Aldebaran
W.
23 24 27
9698
25 1 10
9667
26 38 34
9646
28 16 26
9680
Pollux
E.
22 25 13
9317
20 39 38
9337
18 54 32
9357
17 9 55
9377
Regulus
E.
59 9 21
9815
57 23 44
9333
55 38 33
9359
53 53 49
9371
15
Jupiter
W.
103 25 52
2U43
105 8 25
9469
106 50 31
9489
108 32 9
9500
a Arietis
W.
66 33 19
9503
68 14 28
9591
69 55 12
9588
71 35 32
9657
Aldebaran
W.
36 28 35
9694
38 6 58
9630
39 45 12
9688
41 23 16
9647
Regulus
E.
45 16 59
9467
43 34 59
9487
41 53 28
9507
40 12 24
9597
Sun
E.
130 55 42
9796
129 21 9
9816
127 47 2
9836
126 13 21
9856
16
Jupiter
W.
116 53 53
9504
118 32 56
9614
120 11 32
9639
121 49 43
3653
a Arietis
W.
79 50 58
9646
81 28 50
9665
83 6 17
368-2
84 43 21
9701
Aldebaran
W.
49 29 58
9707
61 6 29
9721
52 42 41
9735
54 18 35
9748
Regulus
E.
31 54 8
9039
30 15 53
3851
28 38 7
9672
27 0 50
9694
Spica
E.
85 48 56
9604
84 10 6
26W
82 31 41
9640
80 53 40
9666
198
NOVEMBER, 1856.
XVII,
GREENWICH MEAN TIMF..
LUNAB DISTANCES.
^4
8ter*iNaiM
PL.
P.L.
P.L.
P.L.
1^
16
Md
Noon.
of
mk
of
Vlh.
of
ixn.
of
Pwitkm.
Di£
DI8:
DiiL
hUL
Sun
E.
O 1 «
194 40 6
9876
O 1 n
123 7 17
9000
O 1 II
121 34 55
9017
O 1 W
120 9 58
9077
17
a Arietia
W.
86 90 0
9718
87 56 16
9786
89 32 9
9769
91 7 40
9780
Aldebaran
W.
55 54 11
978S
57 29 27
9777
59 4 25
9709
60 39 4
9808
Satara
W.
19 46 52
9840
21 20 16
98t3
22 53 50
9838
94 27 29
9838
Spica
E.
79 16 4
9876
77 38 51
900S
76 2 2
9710
74 25 36
9798
Son
E.
119 99 95
8034
110 59 55
8063
109 30 48
8079
108 2 4
8081
18
Aldebtran
W.
68 97 38
9877
70 0 96
9601
71 32 57
9904
73 5 11
9917
Saturn
W.
39 14 41
9868
33 47 41
98n
35 20 29
9887
36 53 5
9898
Pollux
W.
94 91 49
9815
95 55 51
98»
27 29 41
9843
29 3 13
9867
Spica
E.
66 98 56
9808
64 54 39
98as
63 20 41
9888
61 47 2
9869
Sun
E.
100 43 54
S178
99 17 19
8198
97 51 2
8910
96 25 5
8996
19
Aldebann
W.
80 49 16
9970
89 19 55
9880
83 43 21
8001
85 13 32
8019
Saturn
W.
44 33 1
9MA
46 4 93
9064
47 35 83
9088
49 6 32
9078
Pollux
W.
36 46 37
9090
38 18 31
90S1
39 50 10
9M8
41 21 34
9864
Spica
E.
54 3 15
9917
59 31 18
9080
50 59 37
9849
49 28 11
9»ftl 1
Sun
E.
89 10 46
9am
87 55 31
8810
86 31 31
88»
85 7 46
8838
90
Aldebaran
W.
99 41 18
8080
94 10 16
8080
95 39 4
8076
97 7 43
8084
Saturn
W.
56 38 41
8014
58 8 37
8091
59 38 24
8097
61 8 3
8084
Pollux
W.
48 55 95
8001
50 95 37
8000
51 55 39
8817
53 95 31
8094
Regulus
W.
19 36 54
8188
14 4 17
8190
15 39 2
8110
17 0 0
8101.
Spica
E.
41 54 18
8001
40 94 7
8000
38 54 6
8018
37 24 15
8096
Sun
E.
78 19 91
8880
76 49 51
888B
75 97 39
8407
74 5 23
8416
91
Saturn
W.
68 34 99
8000
70 3 98
8004
71 39 22
8086
73 1 11
8871
Pollux
W.
60 69 47
8088
69 91 54
8068
63 50 55
8083
65 19 50
8088
Regius
W.
94 91 18
8003
95 49 37
8008
27 17 55
8Q0S
98 46 13
8001 ;
Spica
E.
99 57 10
8087
98 28 8
808^1
26 59 12
8087
95 30 92
8071 1
Sun
E.
67 16 46
8448
65 55 94
8461
64 34 8
8460
63 19 58
8488 1
99
Saturn
W.
80 94 97
8089
81 59 59
8089
83 21 30
8081
84 50 0
8884 ,
Pollux
W.
79 43 39
8078
74 19 8
80B0
75 40 42
8081
77 9 15
8080 '
Rogulus
w.
36 7 30
8006
37 35 44
8087
39 3 57
8806
40 32 11
8088 .
Sun
E.
56 98 16
8480
55 7 29
8481
53 46 44
8488
59 96 1
8486
93
Saturn
W.
99 19 33
aoeo
93 41 7
8078
95 9 43
8077
96 38 91
8074
Pollux
w.
84 39 4
8078
86 0 41
wn
87 99 19
8074
88 58 0
8079 1
Reguius
w.
47 53 37
soeo
49 22 0
8087
50 50 25
8084
52 18 54
1
8009
Sun
E.
45 49 40
8486
44 29 0
8486
43 1 19
8484
41 40 37
8488
94
Saturn
W.
104 9 90
8080
105 31 19
8086
107 0 22
806^1
108 99 31
«>-l
Pollux
W.
96 29 14
80fl«
97 51 17
8063
99 90 94
8048
100 49 37
8oa .
Regulus
W.
50 42 13
806A
61 11 6
8000
69 40 4
8066
64 9 8
soil ,
Sun
E.
34 56 44
8476
33 35 52
8473
39 14 58
8471
30 54 1
8471 1
98
Sun
W.
91 33 15
8»6
99 58 54
8910
24 24 52
tm
95 51 0
8186
Jupiter
E.
90 39 0
9;99
89 4 93
9780
87 99 39
flBl
85 54 46
S779
30
Sun
W.
33 6 40
8116
34 34 30
8106
36 9 34
mm
37 30 60
8008
Fomalhaut
K.
61 30 45
SOU
50 9 17
8003
48 33 59
8106
47 5 55
8118
a Pegasi
E.
73 12 41
806.
71 43 49
8080
70 14 51
80M
68 45 50
8088
Jupiter
E.
77 57 95
9798
76 91 92
9719
74 45 7
9711
73 8 49
9»8 !
XVIII. ]fOV£MB£!lt^ IBM.
1^0
GREENWICH MEAN TIME.
LUNAR DISTANCES.
Il
Ster^sName
P L.
P.L.
P.L.
P.L.
•ad
Midnight.
of
XVh.
of
XVllli^
of
XXP^
of
-
Podtton.
DUL
DUL
TML
Dur.
16
Sun
E.
118 31 96
39^
O 1 h
117 0 19
am
O t II
115 99 37
9996
O « II
113 59 19
8015
17
a Arietis
W.
99 49 48
9768
94 17 34
9808
95 51 58
3818
97 96 9
3884
Aldebano
W.
69 13 94
3831
63 47 95
9886
65 91 7
9646
66 54 39
3868
Saturn
W.
96 1 7
3841
97 34 49
9846
99 8 10
9853
30 41 30
3600
Spica
E.
79 49 33
3744
71 13 52
3760
69 38 39
9777
68 3 34
9793
Sun
£.
106 33 43
SlOO
105 5 44
8136
103 38 6
8144
109 10 50
8161
18
Aldebaraa
W.
74 37 8
3981
76 8 48
3943
77 40 13
9866
79 11 99
9987
Saturn
W.
38 95 99
3906
39 57 41
9815
41 99 41
9996
43 1 97
9986
Pollux
W.
30 36 27
2870
39 9 94
3883
33 49 5
9898
35 14 99
9909
Spica
E.
60 13 42
3866
58 40 39
3660
57 7 65
9898
55 35 97
3905
Sun
E.
94 59 26
8343
93 34 6
8365
99 9 2
8970
90 44 16
•984
19
Aldebaran
W.
86 43 30
son
88 13 15
8033
89 49 47
8043
91 19 8
8061
Saturn
W.
50 37 19
398i
59 7 54
S990
53 38 19
3997
55 8 35
8006
Pollux
W.
49 52 45
3964
44 23 43
3973
45 54 99
3964
47 95 9
9993
Spica
E.
47 56 58
3963
46 95 59
9m
44 55 13
9963
43 94 39
9908
Sun
E.
83 44 16
S347
89 90 59
8366
80 57 54
8889
79 35 9
8879
90
Aldebaran
W.
98 36 12
8091
100 4 32
8099
101 39 43
8105
103 0 46
8111
Saturn
W.
69 37 34
8039
64 6 58
8046
65 36 \b
8051
67 6 25
8096
Pollux
W.
54 55 14
80S1
56 94 48
8087
57 54 15
8043
59 93 34
8048
Regulns
W.
18 98 8
8096
19 56 99
8094
91 94 39
8003
99 59 58
8091
Spica
E.
35 54 33
8033
34 25 0
8089
39 55 36
8016
31 96 90
8051
Sun
E.
79 43 23
8433
71 21 32
8430
69 59 49
8487
68 38 14
8443
SI
Saturn
W.
74 29 56
wn
75 58 38
8077
77 97 16
8078
78 55 62
8079
PoHux
W.
66 48 41
8009
68 17 28
8073
69 46 12
8074
71 14 53
8076
Re^rulus
w.
30 14 30
8096
31 42 46
8096
33 11 1
8096
34 39 15
8096
Spica
E.
24 1 37
8076
29 39 58
8079
91 4 93
8064
19 35 54
8069
Sun
E.
61 51 53
8408
60 30 53
8«71
59 9 57
8476
67 49 5
8478
99
Saturn
W.
86 18 99
8088
87 46 59
8068
89 15 29
8063
90 44 0
8061
Pollux
W.
78 37 49
8081
80 6 99
8061
81 34 55
8080
83 3 99
8079
Regulus
W.
49 0 95
8006
43 98 41
8004
44 56 58
8093
46 96 16
8091
Sum
E.
51 6 90
8186
49 44 40
8486
48 93 59
8486
47 3 19
8487
93
Satnm
W.
98 7 9
8073
99 35 46
8089
101 4 33
8066
109 33 94
8003
Pollux
W.
90 26 44
8009
91 55 31
8087
93 94 91
8084
94 53 15
8060
Regulus
W.
53 47 95
8078
55 16 1
8076
56 44 40
8073
58 13 94
8068
Sum
E.
40 19 54
8483
38 59 10
8480
37 38 93
8478
36 17 34
8477
94
Saturn
W.
109 58 44
8048
111 98 3
8089
119 57 97
80U
114 26 57
8080
Pollux
W.
109 18 56
8089
103 48 90
8084
105 17 60
8080
106 47 26
8036
Regulus
W.
65 38 18
8047
67 7 33
8041
68 36 65
80B6
70 6 93
8081
Sun
E.
99 33 5
8469
98 19 4
8486
96 51 4
8497
95 30 3
8408
99
Sum
W.
97 17 41
8166
28 44 33
8163
30 11 40
' 8140
31 39 2
8136
Jupiter
E.
84 19 41
3768
89 44 95
9766
81 8 58
9fr46
79 33 18
9736
30
Sum
W.
38 59 91
8073
40 98 4
8060
41 57 9
8061
' 43 26 12
8069
Fomatbaut
E.
45 38 7
8138
44 10 38
8161
49 43 30
8178
41 16 48
8104
aPegasi
E.
67 16 49
8068
65 47 48
8060
64 18 47
8080
62 49 50
8068
Jupiter
E.
71 39 9
3699
69 55 97
3693
68 18 37
3661
66 41 31
3873
200
DECEMBER, 1856.
I.
AT
GREENWICH APPARENT
NOON.
1
THE SUN'S
Sldm.1
Tim.
OftlM
BaofttfoBor
t0b$
t
i
4
1
SmiMi-
UDctor
purine
tb.
MmM-
tan.
9mkrott$d
for
Iboor.
•dd*dto
Appannt
Tim*,
Apparent
DULibr
Ibonr.
Jppmnni
DULfor
Ihoor.
Siinl.
Mod.
1
16 31 28.73
10.814
S.2I 54 2.8
22.81
1^
16.10
70.33
Vd 35.98
0.957
Tues.
2
16 35 48.65
10.840
22 2 58.2
21.74
16
16.26
70.42
10 12.69
0.984
Wed.
3
16 40 9.17
10.865
22 11 27.9
20.67
16
16.40
70.50
9 48.79
1.008
Thur.
4
16 44 30.25
10.888
22 19 81.7
19.60
16
16»5
70.58
9 24.33
1.081
Fri.
5
16 48 51.88
10.910
22 27 9.5
18.51
16
16.67
70.67
8 59.33
1.054
Sat
6
16 53 14.03
10.930
22 84 20.8
17.42
16
16.80
70.74
8 83.82
1.074
Sun.
7
16 57 36.67
10.930
22 41 5.7
16.81
16
16.94
70.81
8 7.81
1.095
Mon.
8
17 1 59.76
10.969
22 47 23.9
15.19
16
17.06
70.87
7 41.86
1.113
Tues.
9
17 6 23.28
10.987
22 53 15.1
14.05
16
17.18
70.92
7 14.47
1.180
Wed.
10
17 10 47.23
11.004
22 68 89.2
12.91
16
17.28
70.97
6 47.15
1.146
Thur.
11
17 15 11.60
11.019
23 3 35.9
11.78
16
17.39
71.02
6 19.43
1.162
Fri.
12
17 19 36.31
11.034
23 8 5.2
10.64
16
17.49
71.07
5 51.36
1.177
Sat
13
17 24 1.34
11.048
23 12 7.1
9.49
16
17.59
71.11
5 22.96
1.190
Sun.
14
17 28 26.69
11.060
23 15 41.3
8.84
16
17.68
71.15
4 54.23
1.201
Mon.
15
17 32 52.34
11.071
23 18 47.6
7.17
16
17.75
71.20
4 25.21
1.212
Tues.
16
17 87 18.21
11.079
23 21 25.9
6.00
16
17.83
71.23
8 55.98
1.228
Wed.
17
17 41 44.30
11.086
23 23 86.2
4.84
16
17.90
71.26
8 26.53
1.282
Thur.
18
17 46 10.59
11.098
28 25 18.5
8.67
16
17.97
71.28
2 56.88
1.289
Fri.
19
17 60 87.03
11.099
23 26 32.6
2.48
16 18.03
71.30
2 27.08
1.844
Sat
20
17 55 3.62
11.104
23 27 18.4
1.29
16
18.07
71.30
1 57.14
1.249
Sun.
21
17 59 80.27
11.108
23 27 35.8
0.12
16
18.12
71.31
1 27.12
1.258
Mon.
22
18 8 56.99
11.109
23 27 24.9
1.04
16
18.17
71.31
0 57.05
1.255
Tues.
Wed.
23
24
18 8 23.71
18 12 50.42
11.108
11.106
23 26 45.7
23 25 38.1
2.82
8.40
16
16
18.21
18.24
71.31
71.29
0 26.97
1.255
1.254
6 3.16
Thur.
25
18 17 17.07
11.108
28 24 2.2
4.57
16
18.27
71.28
0 83.09
1.251
Fri.
26
18 21 43.62
11.099
23 21 57.9
5.75
16
18.30
71.27
1 2.98
1.248
Sat
27
18 26 10.02
11.098
23 19 25.4
6.93
16
18.33
71.25
1 32.72
1.286
Sun.
28
18 30 86.24
11.086
23 16 24.8
8.11
16
18.35
71.23
2 2.36
1.227
Mon.
29
18 85 2.25
11.075
28 12 56.3
9.27
16
18.87
71.19
2 81.73
1.216
Tues.
30
18 89 28.02
11.068
23 8 59.7
10.48
16
18.38
71.16
8 0.86
1.204
Wed.
31
18 43 53.47
11.050
28 4 85.3
11.58
16
18.38
71.11
8 29.68
1.192
Thur.
32
18 48 16.59
11.085
S.22 59 43.2
12.78
16
18.38
71.07
8 58.16
1.178
Ron.-JbMT1iM<irUM
n^m^tMmw^
rtar |MMli« mfty b* ft)
QBdbjri
nbtm
etfnc OlU ftoa <bt
aUvwlTlB*. 1
II.
DECEMBER, 1856.
201
AT GREENWICH MEAN
NOON.
1
i
1 ^
i
THE SUN'S
Bao.llo.of
Tim.,
toht
addedUt
DUL
for
Ihoor.
BIdMMl
TImo.
twbtntttu
/ram
Mean
21WM.
Bli^t AMouion.
DUtfor
Ihoor.
DeeUnatioa
WLtw
Ihour.
Mon.
Tues.-
Wed.
1
2
3
16 31 30.65
16 35 50.50
16 40 10.95
10.814
10.840
10.865
S.21 54 7.0
22 3 2.0
22 11 31.4
22.81
21.74
20.67
To 35.83
10 12.54
9 48.65
I.
0.957
0.984
1.008
h. m. •.
16 42 6.48
16 46 3.04
16 49 59.60
Thar.
Fri.
Sat
4
5
6
16 44 31.96
16 46 53.52
16 53 15.59
10.888
10.910
10.980
22 19 34.9
22 27 12.4
22 84 28.5
19.60
18.51
17.42
9 24.19
8 59.19
8 33.68
1.064
1.074
16 53 56.15
16 57 52.71
17 1 49.27
Sum.
Moo.
Tues.
7
8
9
16 57 38.15
17 2 1.16
17 6 24.60
10.060
10.969
10.987
22 41 8.1
22 47 26.0
22 53 16.9
16.81
15.19
14.05
8 7.68
7 41.23
7 14.35
1.095
1.118
1.180
17 5 45.83
17 9 42.39
17 13 38.95
Wed.
Thur.
Fri.
10
11
12
17 10 48.47
17 16 12.74
17 19 37.86
11.004
11.019
11.084
22 58 40.8
23 3 37.3
23 8 6.4
12.91
11.78
10.64
6 47.04
6 19.32
5 51.26
1.146
1.162
1.177
17 17 35.51
17 21 32.06
17 25 28.62
Sat
Sum.
Mon.
13
14
15
17 24 2.31
17 28 27.59
17 32 53J6
11.048
11.060
11.071
23 12 8.1
23 15 42.1
23 18 46.2
9.49
8.84
7.17
5 22.87
4 54.15
4 25.14
1.190
1.201
1.212
17 29 25.18
17 33 21.74
17 37 18.30
Tues.
Wed.
Thur.
16
17
18
17 37 18.94
17 41 44.94
17 46 11.14
11.079
11.086
11.098
23 21 26.4
23 23 36.6
23 25 18.8
6.00
4.84
8.67
3 55.92
8 26.48
2 56.84
1.228
1.282
1.289
17 41 14.86
17 45 11.42
17 49 7.98
Fri.
Sat
Sum.
19
20
21
17 50 37.49
17 55 3.98
17 59 30.54
11.099
11.104
11.108
23 26 32.8
23 27 18.5
23 27 35.9
2.48
1.29
0.12
2 27.05
1 57.12
1 27.11
1.244
1.249
1.258
17 53 4.54
17 57 1.10
18 0 57.65
Mon.
Tues.
Wed.
22
23
24
18 3 57.16
18 8 23.79
18 12 50.41
11.109
11.108
11.106
23 27 25.0
23 26 45.7
23 25 38.1
1.04
2.22
8.40
0 57.05
0 26.98
1.256
1.255
1.254
18 4 54.21
18 8 50.77
18 12 47.33
6 i.ofe
Thur.
Fri.
Sat
25
26
27
18 17 16.97
18 21 43.43
18 26 9.74
11.103
11.099
11.093
23 24 2.2
23 21 58.0
23 19 25.6
4.57
• 5.75
6.98
0 33.08
1 2.98
1 32.73
1.251
1.248
i.286
18 16 43.89
18 20 40.45
18 24 37.01
Sum.
Mon.
Tues.
Wed.
28
29
30
31
18 30 35.87
18 35 1.79
18 39 27.47
18 43 52.85
11.085
11.075
11.063
11.060
23 16 25.1
23 12 56.6
23 9 0.1
23 4 35.7
8.11
9.27
•10.48
11.58
2 2.30
2 31.66
3 0.78
3 29.59
1.227
1.216
1.204
1.192
18 28 33.57
18 32 30.13
18 86 26.69
18 40 23.24
Thur.
32
18 48 17.90
11.085
S.22 59 43.7
12.78
3 58.08
1.178
18 44 19.80
Ho
u Nook maj bt anoaMd the
■me M thaft for
Appuent
Noon.
26
202
DECEMBER, 1856.
III.
AT GREENWICH MEAN NOON.
THE SUN'S
1
i
of th«
BMUtuYeetOT
OfttM
luth.
IMff.fbr
Ihoar.
ItaiiTfaiM
of
BklHMlQh.
Jhu LONQITUDB.
DUr. ftir
Ibour.
LATIIUUB.
I
X'
32 36.0
33 29.9
34 24.5
1
2
3
336
337
338
249 3^ 17.5
250 34 11.6
251 35 6.4
162.23
162.26
162.30
0.32
0.25
9.9936861
.9936195
.9935544
28.0
27.8
26.5
h. m. ■.
7 16 41.79
7 12 45.86
7 8 49.96
4
5
6
339
340
341
252 36 1.9
253 36 58.2
254 37 55.2
35 19.8
86 15.9
37 12.7
162.88
162.86
162.89
0.15
—0.02
-hO.ll
.9934912
.9934298
.9933705
25.7
24.9
24.2
7 4 54.05
7 0 58.14
6 57 2.22
-7
8
9
342
343
344
255 38 52.8
256 39 51.0
257 40 49.9
88 10.1
89 8.2
40 6.9
162.41
162.44
162.46
0.24
0.36
0.48
.9933135
.9932587
.9932065
28.1
22.0
21.0
6 53 6.31
6 49 10.39
6 45 14.48
10
11
12
345
346
347
258 41 49.6
259 42 50.0
260 43 51.0
41 6.4
42 6.6
43 7.4
162.49
168.62.
162.66
0.59
0.67
0.73
.9931570
.9931102
.9930658
20.0
18.0
17.8
6 41 18.57
6 37 22.66
6 33 26.75
13
14
15
348
349
350
261 44 52.7
262 45 55.3
263 46 58.7
44 8.9
45 11.3
46 14.5
168.69
162.62
162.66
0.75
0.74
0.71
.9930243
.9929856
.9929494
16.8
15.7
14.6
6 29 30.83
6 25 34.92
6 21 39.01
16
17
18
351
352
353
264 48 2.7
265 49 7.6
266 50 13.4
47 18.3
48 23.0
49 28.6
162.69
162.72
162.76
0.63
0.54
0.44
.9929159
.9928848
.9928563
18.5
12.5
11.5
6 17 43.09
6 13 47.17
6 9 51.27
19
20
21
354
355
356
267 51 20.0
268 52 27.4
269 53 35.5
50 35.0
51 42.2
52 50.1
162.80
162.83
162.86
0.31
0.18
-hO.OS
.9928301
.9928062
.9927845
10.6
9.6
8.7
6 5 55.35
6 1 59.43
5 58 3.53
22
23
24
357
358
359
270 54 44.3
271 55 53.6
272 57 3.5
53 58.7
55 7.8
56 17.5
162.87
162.89
162.91
—0.07
0.20
0.29
.9927647
.9927467
.9927305
7.8
7.1
6.4
5 54 7.62
5 50 11.70
5 46 15.79
25
26
27
360
361
362
273 58 13.7
274 59 24.3
275 60 35.1
57 27.5
58 37.9
59 48.5
162.98
162.94
162.94
0.36
0.41
0.43
.9927161
.9927033
.9926921
5.7
4.8
4.2
5 42 19.88
5 38 23.96
5 34 28.05
28
29
30
363
364
365
277 1 46.1
278 2 57.2
279 4 8.2
0 59.3
2 10.2
3 21.0
162.94
162.94
162.94
0.41
0.38
0.30
.9926827
.9926750
.9926690
8.5
2.8
2.1
5 SO 32.13
5 26 36.22
5 22 40.31
31
32
866
367
280 5 19.0
281 6 29.6
4 31.6
5 42.0
162.94
0.21
—0.09
.9926647
9.9926625
1.4
0.7
5 18 44.40
5 14 4a49
Kan.— >. tmmii
all to lb* »iw aqnlMS of
lbtdAto,x'
to Ibt «««• •qoli
MHioCJta
uOd.
IV.
DECEMBER, 1856.
203
GREENWICH
MEAN TIME.
THE
MOON^S
1
RlMTDTAMirrKIL
HORIZONTAL PARALLAX.
IfERIDIAN PASSAGE.
%
s
AGS.
Vwm.
mdnlght.
No<«.
mutot
Ihour.
Midnight.
DilLfor
Ihoar.
DifLfbr
Ihour.
1
15 29.4
15 33.7
56 44.2
+1.81
57 0.3
+1.84
h. m.
3 13.6
m.
2.28
3.8
2
15 38.1
15 42.6
57 16.7
1.37
57 33.3
1.40
4 7.1
2.18
4.8
3
15 47.2
15 51.9
57 50.2
1.43
58 7.4
1.45
4 58.3
2.07
5.8
4
15 66.7
16 1.4
58 24.7
1.44
58 41.9
1.42
5 47.2
1.98
6.8
5
16 6.0
16 10.5
58 58.7
1.38
59 14.9
1.82
6 34.7
1.95
7.8
6
16 14.7
16 18.5
59 30.2
1.23
59 44.2
1.11
7 22.3
1.98
8.8
7
16 21.8
16 24.5
59 56.4
0.95
60 6.4
0.75
8 11.3
2.08
9.8
8
16 26.5
16 27.7
60 13.8
+0.51
60 18.3
+0.24
9 3.1
2.28
10.8
9
16 28.1
16 27.5
60 19.6
-0.05
60 17.5
-0.84
9 58.9
2.48
11.8
10
16 25.9
16 23.3
60 11.7
0.63
60 2.4
0.92
10 58.9
2.62
12.8
11
16 19.8
16 15.5
59 49.6
1.19
59 33.8
1.44
12 1.9
2.70
13.8
12
16 10.5
16 4.8
59 15.2
1.66
58 54.1
1.84
13 5.3
2.62
14.8
13
15 58.5
15 51.8
58 31.0
1.97
58 d.5
2.05
14 5.9
2.43
15.8
14
15 44.9
15 38.0
57 41.3
2.09
57 16.0
2.10
15 1.7
2.20
16.8
15
15 31.2
15 24.6
56 51.0
2.07
56 26.7
2.00
15 52.2
1.98
17.8
16
15 18.3
15 12.4
56 8.5
1.90
55 41.8
1.76
16 37.9
1.80
18.8
17
15 7.0
15 2.2
55 22.0
1.58
55 4.4
1.88
17 20.0
1.68
19.8
16
14 58.0
14 54.5
54 49.0
1.17
54 36.0
0.96
17 59.8
1.61
20.8
19
14 51.7
14 49.6
54 25.7
0.73
54 18.0
0.51
18 38.7
1.60
21.8
20
14 48.2
14 47.5
54 13.0
-0.30
54 10.6
-0.10
19 18.0
1.66
22.8
21
14 47.5
14 48.2
54 10.6
+0.10
54 12.9
+0.30
19 58.9
1.74
23.8
22
14 49.5
14 51.4
54 17.6
0.50
54 24.6
0.68
20 42.3
1.86
24.8
23
14 53.8
14 56.7
54 33.6
0.84
54 44.3
0.98
21 29.0
2.03
25.8
24
15 0.0
15 3.6
54 56.5
1.09
55 9.9
1.18
22 19.6
2.21
26.8
25
15 7.5
15 11.7
55 24.4
- 1.26
55 39.7
1.80
23 13.8
2.85
27.8
26
15 16.1
15 20.6
55 55.6
1.34
56 11.9
1.37
6'
28.8
27
15 25.1
15 29.5
56 28.3
1.38
56 44.6
1.36
0 10.3
2.40
0.1
28
15 33.8
15 38.0
57 0.5
1.31
57 15.9
1.26
1 7.1
2.36
1.1
29
15 42.0
15 45.8
57 30.7
1.20
57 44.8
1.14
2 2.4
2.26
2.1
30
15 49.4
15 52.8
57 58.1
1.07
58 10.5
1.00
2 55.1
2.13
3.1
31
15 56.0
15 58.9
58 22.0
0.98
58 32.6
0.85
3 45.1
2.02
4.1
32
16 1.5
16 3.9
58 42.3
+0.77
58 51.1
+0.69
4 32.9
1.94
5.1
204
DECEMBER, 1856*
V.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight ABOMuloa.
DIff.
for 1 m.
Deollnatlon.
DilL
Ibrlm.
Hoar.
Right ABoeadon.
Diff.
forlm.
0
1
3
3
4
5
6
7
8
9
10
11
13
13
U
15
16
17
18
19
80
21
89
33
0
1
3
3
4
6
6
7
8
9
10
11
13
13
14
15
16
17
18
19
20
31
22
33
34
MONDAY 1.
WEDNESDAY 8.
h.
19
19
19
19
19
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
SO
30
30
30
30
30
30
30
31
31
31
31
31
31
31
31
31
31
31
31
31
31
31
21
21
31
48 32.97
50 55.04
53 16.93
55 38.65
58 0.18
0 31.54
3 48.73
5 3.73
7 34.53
9 45.11
13 5.50
14 35.69
16 45.66
19 5.44
31 35.00
33 44.33
36 3.44
38 33.31
30 40.96
33 59.38
35 17.56
37 35.51
39 53.34
43 10.73
■.
3.8aD8
9.3064
9J685
3.8006
9.Sffn
9.8548
9.8517
9.8484
9.8450
9.8416
9.8889
9.3848
9.8814
9.8979
9.8049
9.8W4
9.8106
9^198
9.8080
9.8061
9^19
1^9078
9.9984
9.9806
S.36
36
35
35
36
35
35
35
35
35
35
34
34
34
34
84
34
34
S3
33
S3
33
33
S.83
TUESDAY 9.
S.3S
99
38
33
33
38
81
31
31
31
31
31
30
80
30
30
30
19
19
19
19
19
18
18
S.18
44 37.98
9.9887
46 45.01
t.9810
49 1.81
9.9781
51 18.38
9.9749
53 34.71
9.3708
55 50.80
9.9068
58 6.65
9.9698
0 33.37
9.9064
3 37.66
9.9546
4 53.83
9.9806
7 7.74
9.9466
9 33.41
9.9496
11 36.83
9.3884
13 51.00
9.9844
16 4.95
9.9806
18 18.67
9.9968
30 33.16
9.9998
33 45.41
9.9188
34 58.48
9.9140
37 11.30
9.9111
39 33.75
9.9079
31 36.07
9.9088
33 48.16
9.1906
36 0.03
9.1968
38 11.67
9.1999
13 31.0
5 49.8
59 9.6
52 20.5
45 22.4
38 15.5
30 59.7
23 35.2
16 2.0
8 20.3
0 30.0
53 31.3
44 33.4
36 7.3
37 43.9
19 10.3
10 39.0
1 39.6
53 48.0
43 36.4
34 38.6
35 0.8
15 30.9
6 63.8
56 7.6
46 14.8
36 13.1
36 4.3
15 47.8
5 33.9
54 58.4
44 13.5
33 87.3
33 33.7
11 33.9
0 34.9
49 9.7
37 47.4
36 18.3
14 48.3
3 59.3
51 9.7
39 13.4
37 10.4
15 0.7
3 44.4
50 81.7
37 53.6
35 17.3
6.598
6.748
6.808
74)47
7.104
7.889
7.484
7.098
7.779
7.915
8450
8.909
8.843
8.481
8.690
8.768
8.806
04)81
9<166
0.303
0.487
0.896
0
0.987
1
10.086
8
10.915
3
10.849
4
10.467
5
10.661
6
10.714
7
10.886
8
10.957
9
114m
10
11.197
11
11.816
18
11.488
13
11.548
14
114)09
15
11.775
16
11.888
17
194)00
18
19.111
19
19.991
30
19.899
31
19.430
33
19.541
33
19.645
34
h. m.
31 38
21 40
21 42
81 44
31 46
31 49
81 51
31 53
31 55
31 57
21 59
33 2
83 4
33 6
32 8
33 10
33 13
S3 14
83 17
33 19
S3 81
83 33
33 35
33 37
f.
a.
11.67
9.1099
33.09
9.1889
34.39
9.1848
45.37
9.1811
56.03
9.1770
6.58
9.1741
16.93
9.1706
37.06
9.1971
36.98
9.1687
46.71
9.1608
56.33
9.1570
5.55
9.1537
14.68
3.1604
33.61
9.1479
33.35
9.1440
40.90
9.1400
49.37
9.1878
57.46
9.1349
5.48
9.1891
13.33
9.1999
30.99
9'1964
88.50
9'19S7
35.83
9.1900
43.03
9.1184
.18 35 17.8
18 18 35.6
17 59 47.8
17 46 53.9
17 33 53.9
17 30 48.0
17 7 36.1
16 54 18.4
16 40 55.0
16 37 35.9
16 13 51.3
16 0 11.0
15 46 35.4
15 33 34.3
15 18 37.9
15 4 36.3
14 50 39.3
14 36 17.4
14 88 0 4
14 7 38.4
13 53 11.5
13 38 39.8
13 34 3.3
.13 9 33.0
THUBSDAY 4.
33 39
83 31
93 34
83 36
23 38
33 40
38 43
38 44
33 46
33 48
33 50
33 53
33 55
38 57
33 59
33
33
33
33
33
33 11
33 13
33 15
23 17
23 20
50.05
9.1159
56.94
9.1184
3.67
9.1110
10.27
9.1086
16.72
9.1064
33.04
9.1049
39.33
9.1090
35.30
3.9000
41.34
9X981
47.07
94)069
58.80
94)044
58.41
94)096
393
94)000
9.33
941604
14.66
94)870
19.89
94)864
35.04
94)860
30.10
94)887
35.09
94)895
40.03
94)818
44.87
94)809
49.67
94)709
54.41
94)788
59.10
94)775
3.74
941797
.13 54 36.3
18 39 45.8
18 34 51.0
18 9 51.8
11 54 48.3
II 39 40.6
11 84 38.6
11 9 18.6
10 68 58.6
10 38 88.6
10 83 0.6
10 7 38.9
9 51 53.5
9 36 14.5
9 30 31.9
9 4 45.8
8 48 56.3
8 33 3.4
8 17 7.3
8 1 7.9
7 45 6.4
7 38 59.9
7 18 51.4
7 6 40.1
. 6 40 86.9
VI.
DECEMBER, 1856.
205
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
DUL
forlm.
u.^
forlm.
Hoar.
Bight AMDilOB.
forlm.
DIff.
forlm.
Fl
imAY
5.
SUNDAY
7.
h. m. ■.
■.
O 1 II
«
h. m. •.
■.
O 1 «
•
e
23 20 3.74
Mm
S. 6 40 25.9
16.961
0
1 0 41.07
9.1608
N. 6 46 44.3
16414
1
23 23 8.34
94n63
6 24 9.1
16.S06
1
1 2 50.25
9.1M8
7 3 32.0
10.788
d
23 24 12.93
9Un69
6 7 49.6
16.861
2
1 4 50.67
9.1088
7 30 18.0
10.760
3
23 26 17.48
3.0756
5 51 27.6
16.804
3
1 7 9.33
9.1638
7 37 3.3
16.780
4
23 28 22.01
%inM
5 35 3.1
16.484
4
1 9 19 23
9.1008
7 63 44.8
16499
6
23 30 26.53
34^749
5 18 36.5
16.474
6
1 11 29.38
9.1710
8 10 35.3
10466
6
33 33 31.01
%mAi
. 5 2 7.4
16.613
6
1 13 39.77
9.1769
8 37 3.8
16439
7
93 34 35.50
9Un47
4 45 35.9
16.649
7
1 15 60.43
9.1796
8 43 40.0
16401
8
23 86 39.99
9.0746
4 29 2.3
16.684
8
1 18 1.36
9.1840
0 0 13.9
16469
9
23 38 44.48
M148
4 12 26.8
16.018
9
1 20 12.65
9.1886
9 16 45.4
16410
10
23 40 48.98
un49
3 55 49.0
16.661
10
1 22 24.01
9.1933
9 33 14.4
16470
11
23 42 53.49
34700
3 39 9.4
16.683
11
1 24 35.76
9.1979
9 49 40.9
10436
13
23 44 68.00
34nA-2
3 23 27.9
16.711
12
1 26 47.79
9.3037
10 6 4.8
16479
13
93 47 2.54
9.0768
3 5 44.8
16.760
13
1 99 0.11
9.9076
10 33 35.7
10480
14
23 49 7.13
94n66
2 48 59.9
16.707
14
1 31 12.72
9.9131
10 38 43.6
10.980
15
23 51 11.74
94T73
2 32 13.4
16.794
16
1 33 25.63
9.3176
10 54 58.5
10.339
16
23 53 16.40
94)780
2 15 25.4
16.819
16
1 35 38.85
9.3937
11 11 10.3
10.170
17
23 55 21.11
94^88
1 58 35.9
16.813
17
1 37 52.39
9.9379
11 37 18.8
10.131
18
23 57 25.88
94)798
1 41 44.9
16.866
18
1 40 6.23
9.9331
11 43 34.0
104)04
19
23 59 30.72
94)806
1 24 52.8
16.886
19
1 42 20.39
9.3886
11 59 35.6
104)06
20
0 1 35.61
94>817
1 7 59.5
10.603
20
1 44 34.88
9.9441
13 15 33.6
16444
91
0 3 40.56
94)828
0 51 5.2
10.931
21
1 46 49.70
9.9496
13 31 18.0
16480
32
0 5 45.58
94)811
0 34 9.9
10.967
99
1 49 4.85
9.9661
18 47 8.4
16414
23
0 7 50.68
SAT
94)666
URDA
S. 0 17 13.7
Y 6.
10 MO
93
1 61 90.33
MG
9.9607
INDAI
N.13 9 64.9
' 8.
16.741
0
0 9 55.87
94)870
S. 0 0 16 6
10J6S
0
1 63 36.15
9.9663
N.13 18 37.4
16478
1
0 12 1.15
94)886
N. 0 16 41.2
16.976
1
1 65 59.30
9.3730
13 34 16.6
16.606
3
0 14 6.53
94)009
0 33 39.6
10.986
9
1 68 8.81
9.3n9
13 49 49.5
16.666
3
0 16 12.01
94)»0
0 60 38.6
10.993
3
9 0 25.68
9.3866
14 5 19.0
16463
4
0 18 17.60
94IM0
1 7 38.1
174)01
4
2 2 42.90
9.3808
14 30 44.0
16486
6
0 20 23.29
94)060
1 24 87.9
174107
6
9 5 0.48
9.3968
14 36 4.3
16408
6
0 32 29.14
94)060
1 41 88.1
174)11
6
9 7 18.42
9J019
14 51 19.8
16.987
7
0 24 35.10
9.1000
1 68 38.4
174)14
7
2 9 36.73
9.8081
15 6 30.5
16.143
8
0 26 41.18
9.1091
9 15 38.8
174)10
8
9 11 65.41
9.31a
15 31 36.1
164)67
9
0 28 47.39
9.1046
9 39 39.4
174)16
9
9 14 14.46
9J306
15 36 36.5
14489
10
0 30 53.75
9.1070
9 49 39.8
174)13
10
9 16 33.89
9.8368
16 61 31.6
14480
11
0 33 0.26
9.1006
3 6 40.0
174)08
11
9 18 53.70
9.6833
16 6 21.3
14.790
12
0 35 6.94
94 196
3 93 40.0
174)03
19
9 91 13.88
94396
16 31 5.6
14498
13
0 37 13.78
9.1160
3 40 39.5
10.996
13
9 93 34.45
9.3469
16 35 44.3
14404
14
0 39 20.78
9.1177
3 57 38.6
10.987
14
9 95 65.41
94634
16 50 17.3
14408
15
0 41 27.04
9.1904
4 14 37.2
10.977
15
9 98 16.76
34668
17 4 44.3
14409
16
0 43 35.28
9.1964
4 31 35.2
10.906
16
2 30 38.60
94663
17 19 5.3
14407
17
0 45 42.83
9.1967
4 48 32.4
10.963
17
2 33 0.63
94790
17 33 30.2
14.308
18
0 47 50.53
9.1800
5 5 28.9
10.908
18
2 35 23.16
94786
17 47 38.9
U4M
19
0 49 58.43
9.1168
5 22 24.5
10.993
19
9 37 46.08
94861
18 1 31.3
13.987
20
0 53 6.54
9.1667
5 89 18.9
10.904
90
9 40 9.40
94918
18 15 37.0
13486
31
0 54 14.85
9.1403
6 56 12.2
10.884
21
9 49 33.19
94986
18 39 16.3
13.779
33
0 56 93.37
9.1467
6 13 4.2
10.803
22
9 44 57.94
9.4063
18 43 58.8
13467
33
0 58 33.11
9.1473
6 29 65.0
10.860
23
9 47 21.76
9.4119
18 66 34.4
13444
24
1 0 41.07
9.1608
N. 6 46 44.3
10.814
24
9 49 46.69
9.4186
N.19 10 3.1
13497
206
DECEMBER, 1856.
VII.
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hoar.
Bight Aaoendon.
Dlff.
Ibrlm.
DIft
Ibrlm.
Hoar.
IMff.
forlm.
Dlff.
forlm.
TUESDAY 9.
THURSDAY 11.
h. m. •.
1.
O 1 »
N
h. m. ■.
8.
O 1 ff
H
0
2 40 46.69
S.4186
N.19 10 3.1
18.437
0
4 53 0.88
3.6848
N57 3 15.1
6.668
1
2 52 12.01
3U9fiS
19 23 24 7
18.807
1
4 55 42.04
3.6878
27 8 49.3
6.477
9
2 54 37.74
S.433I
19 36 39.0
18.188
2
4 58 23.37
3.6908
27 14 11.7
6.376
3
2 57 3.87
9.4S80
19 49 45.9
18.063
3
5 1 4.85
34)938
27 19 22.5
64)80
4
2 59 30.41
3.4465
20 2 45.4
13.986
4
5 3 46.47
3.6»49
27 24 21.3
4.884
6
3 1 57.36
9.45M
20 15 37.2
13.813
5
5 6 28.21
3.6968
27 29 8.3
4.686
6
3 4 24.71
3.4603
20 28 21.5
13.68^1
6
6 9 10.06
3.6986
27 33 43.2
4.487
7
3 6 52.47
3.4W1
20 40 58.0
13.649
7
5 11 52.00
3.7003
27 38 6.4
4.387
8
3 9 20.63
3.4738
20 53 26.5
13.416
8
5 14 34.04
3.7016
27 42 17.6
44)86
9
3 11 49.20
3.4796
21 5 46.9
13.3W
9
5 17 16.16
3.7096
27 46 16.5
8.886
10
3 14 18.17
3.4862
21 17 59.1
13.140
10
5 19 58.34
3.7086
27 60 3.6
8.686
U
3 16 47.54
3.4098
21 30 2.9
13.001
11
5 22 40.59
3.7046
27 53 38.6
8.486
12
3 19 17.32
3.4894
21 41 58.6
11.861
12
5 25 22.90
3.7064
27 57 1.7
84IB4
13
3 21 47.48
3.6060
21 53 45.6
11.719
13
5 28 5.23
3.7063
28 0 12.6
84)83
U
3 24 18.04
3.6136
22 5 24.0
11.676
14
5 30 47.60
3.7066
28 3 11.5
3.880
15
3 26 49.00
3.6191
22 16 53.7
11.438
15
5 33 29.99
3.7066
28 5 68.2
3.677
16
3 29 20.34
3-6366
22 28 14.5
11.378
16
5 36 12.37
3.7067
28 8 32.7
3.476
17
3 31 52.07
3.6618
22 39 26.2
11.139
17
5 38 54.75
3.7066
28 10 65.2
3.374
18
3 34 24.19
3.6880
22 50 29.0
10.976
18
5 41 37.11
3.7060
28 13 5.6
34n8
19
3 36 56.68
23 1 22.5
10.833
19
5 44 19.43
3.7061
28 15 3.7
1.869
20
3 39 29.55
3.66ia
23 12 6.7
10.667
20
5 47 1.69
3.7040
28 16 49.7
1.667
31
3 42 2.80
3.6674
23 22 41.5
10.607*
21
5 49 43.88
3-7037
28 18 23.6
^1.466
22
3 44 36.41
34i«8S
23 33 6.7
22
5 62 25.99
3.7014
28 19 45.5
1.361
23
3 47 10.39
WED]
3.66S8
N.23 43 22.2
\Y 10.
10.188
23
6 66 8.02
FR
3.7001
IDAY
NJStQ 20 66.2
12.
i^
e
3 49 44.73
3.6758
N.23 53 28.1
UM«
0
5 57 49.95
3.6088
Nj38 21 62.9
0.864
1
3 52 19.42
3.6618
24 3 24.4
9.856
1
6 0 31.77
3.6066
28 22 38.7
0.603
2
3 54 54.46
3.6670
24 13 10.8
9.693
2
6 3 13.48
3.6943
28 23 12.3
0.463
3
3 57 29.84
^6937
24 22 47.2
9.686
3
6 5 55.05
3.6990
28 23 34.0
0.368
4
4 0 5.56
^6988
24 32 13.4
9.866
4
6 8 36.48
3.6894
28 23 43.8
04)66
5
4 2 41.62
3.6040
24 41 29.4
9.183
5
6 11 17.75
341867
28 23 41.8
0.1SS
6
4 5 18.03
3.6096
24 50 35.1
9.009
6
6 13 58.85
3.6888
28 23 28.0
0.S30
7
4 7 54.75
8.6148
24 59 30.3
8.886
7
6 16 39.77
3.6808
28 23 2.2
0.637
8
4 10 3i.78
3.6198
25 8 15.0
8.666
8
6 19 20.50
3.6n6
28 22 24.7
0.733
9
4 13 9.11
3.6348
25 16 49.1
8.483
9
6 22 1.03
3.9741
28 21 35.3
0.919
10
4 15 46.74
3.6}98
25 25 12.5
8.803
10
6 24 41.35
3.6708
28 20 34.3
1.116
11
4 18 24.67
3.6848
25 33 25.1
8.133
11
6 27 21.44
3.6664
28 19 21.6
IJOO
12
4 21 2.90
3.6896
25 41 27.0
7.940
12
6 30 1.30
3.6634
28 17 57.2
1.601
13
4 23 41.40
3.6443
25 49 17.9
7.76n
13
6 32 40.92
34)668
28 16 21.4
1.693
14
4 26 20.17
3.6486
25 56 57.7
7.673
14
6 35 20.28
3.6640
28 14 34.0
1.885
15
4 28 59.21
3.66*
26 4 26.4
7.386
15
6 37 59.37
3.6494
28 12 35.2
34r76
16
4 31 38.49
3.6670
26 11 44.0
7.300
16
6 40 38.18
3.6447
28 10 24.9
3.366
17
4 34 18.02
3.6610
26 18 50.4
74)16
17
6 43 16.70
3.6899
28 8 3.4
3U63
18
4 36 57.79
3.6648
26 25 45.6
6.836
18
6 45 54.93
3.6847
28 5 30.6
S.MO
10
4 39 37.78
3.6084
26 32 29.3
6.687
19
6 48 32.83
3.6394
28 2 46.7
9.836
20
4 42 17.99
3.6731
26 39 1.6
6.446
20
6 51 10.42
3.6339
27 69 61.7
t4)00
21
4 44 58.43
3.6766
26 45 22.4
6.353
21
6 53 47.69
3.6184
27 66 45.7
8.191
22
4 47 39.06
3.6790
26 51 31.6
64)69
22
6 56 24.62
3.6137
27 53 28.7
8.S73
23
4 50 19.88
2MU
26 57 29.2
6.864
23
6 59 1.19
3.6073
27 60 0.9
8.663
24
4 53 0.88
8.6818
NiJ7 3 16.1
64M8
24
7 1 37.43
3.6011
N.27 46 22.1
S.7S3
VIII.
DECEMBER, 1856.
207
GREENWICH MEAN TIME.
THE MOON'S RIGHT
• ASCENSION AND DECLINATION.
Hoar
Right ABoaukm.
WIT.
forlm.
Dur.
forlm.
Hour
. Right ABoendon.
IMff.
forlm.
Diff.
forlm.
SAT
URDA
Y 13.
MONDAY
15.
h. m. •.
■.
O 1 u
«
h. m. ■.
8.
\ O 1 II
ti
0
7 1 37.43
3.0011
NiJ7 46 22.1
S.7S9
0
8 57 49.44
3.338^
N.21 50 34.4
10U80
1
7 '4 13.30
3.S050
27 42 32.8
1.919
1
9 0 2.59
3.3160
21 40 5.5
10.584
9
7 6 48.80
3.6689
27 38 32.7
4.090
2
9 2 15.25
3.3067
21 29 30.9
10.080
3
7 9 23.94
3.fiW7
27 34 22.1
4.364
3
9 4 27.41
3.1984
21 18 50.6
10.794
4
7 11 58.69
3.5*61
27 30 1.0
4.487
4
9 6 39.08
3.1909
21 8-4.6
10.817
5
7 14 33.04
3.6003
27 25 29.2
4.610
5
9 8 50.25
3.1899
20 57 13.2
10.907
6
7 17 6.99
3.6805
27 20 47.8
4.780
6
0 11 0.94
3.1749
20 46 16.4
10.997
7
7 19 40.54
3.5567
27 15 55.9
4.050
7
9 13 11.15
3.1069
20 35 14.2
11.067
8
7 22 13.66
3.5489
27 10 53.8
6.118
8
9 15 20.88
3.1669
20 24 6.7
11.177
9
7 24 46.37
3.5419
27 5 41.7
5.988
9
9 17 30.13
3.1601
20 12 53.8
11.901
10
7 27 18.66
3.5U7
27 0 10.7
5.446
10
9 19 38.90
3.1499
20 1 36.1
11.844
11
7 29 50.51
3.5273
26 54 48.0
5.609
11
9 21 47.20
3.1344
19 50 13.4
11.496
13
7 32 21.92
3.5900
26 49 6.4
5.779
12
9 23 55.05
3.1966
19 38 45.8
11.506
i3
7 34 62.89
3.5195
26 43 15.2
5.033
13
9 26 2.42
3.1190
19 27 13.5
11.585
H
7 37 23.40
3.6048
26 37 14.6
6.080
14
9 28 9.33
3.1114
19 15 36.4
11.663
15
7 39 53.43
3.4971
26 31 4.6
6.944
15
9 30 15.78
3.1087
19 3 54.7
11.787
16
7 42 23.01
3.4804
26 24 45.3
6497
16
9 32 21.77
34)961
18 52 8.6
11.810 '
17
7 44 52.13
3.4815
26 18 16.6
6.550
17
9 34 27.31
34)885
18 40 18.1
11.885
18
7 47 20.79
3.4786
26 11 38.8
0.703
18
9 36 32.41
34)819
18 28 23.1
11.955
10
7 49 48.94
3.4658
26 4 52.0
6.854
19
9 38 37.06
34)789
18 16 24.0
194)96
20
7 52 16.64
3.4580
25 57 56.1
74»4
20
9 40 41.27
34)665
18 4 20.7
19.095
21
7 54 43.87
3.4498
25 50 51.5
7.150
21
9 42 45.03
34)59^2
17 52 13.3
1^109
22
7 57 10.59
3^16
25 43 38.1
7.994
22
9 44 48.36
34)590
17 40 1.9
19.396
23
7 59 36.83
SU]
3.4S36
WAY
Ni25 36 16.2
14.
7.487
23
9 46 51.27
TUI
34)449
:SDA^
N.17 27 46.6
' 16.
13.999
0
8 2 2.59
3.4955
NJ25 28 45.8
7.678
0
9 48 53.76
34)879
N.17 15 27.5
19J54
1
8 4 27.86
3.4179
25 21 7.0
7.718
1
9 50 55.84
34)310
17 3 4.7
13.416
2
8 6 52.63
3.408S
25 13 19.9
7.857
2
9 52 57.51
34)941
16 50 38.2
19.476
3
8 9 16.91
3.4004
25 5 24.4
7.991
3
9 54 58.76
34)173
16 38 8.0
13.586
4
8 11 40.68
3.8090
24 57 21.0
6.194
4
9 56 59.69
3.0105
16 25 34.3
13.606
5
8 14 3.95
9.8836
24 49 9.6
8.356
5
9 59 0.02
3.0039
16 12 57.2
134)58
6
8 16 26.71
3.3759
24 40 50.3
6.386
6
10 1 0.07
1.9973
16 0 16.6
19.707
7
8 18 48.06
9.3668
24 32 23.3
6.515
7
10 2 59.71
1.9907
15 47 32.9
13.700
8
8 21 10.71
3.3564
24 23 48.5
6.649
8
10 4 58.97
1.9648
15 34 46.0
13.614
9
8 23 31.95
3.3498
24 15 6.2
6.768
9
10 6 57.84
1.9779
15 21 56.0
19.667
10
8 25 52.67
3.W19
24 6 16.2
6.893
10
10 8 56.34
1.9717
15 9 2.8
19.917
11
8 28 12.88
3.3396
23 57 19.1
94)14
11
10 10 54.46
1.9656
14 56 6.6
19.966
12
8 30 32.59
3.3949
23 48 14.7
9.133
12
10 12 52.23
14)695
14 43 7.6
1M15
13
8 32 51.78
3.3158
23 39 3.1
9.959
13
10 14 40.62
1.0584
14 30 6.6
184)09
14
8 35 10.46
3.3074
23 29 44.5
9.868
14
10 16 46.66
1.9474
14 17 0.8
18.106
15
8 37 28.64
3.39U8
23 20 19.0
9.489
15
Ifi 18 43.34
1.9416
14 3 53.3
18.159
16
8 39 46.30
3.9909
23 10 46.6
9.604
16
10 20 30.68
1.9866
13 50 43.2
18.196
17
8 42 3.45
3.9818
23 1 7.6
9.706
17
10 22 35.67
1.0803
13 37 30.5
18.988
18
8 44 20.11
33734
22 51 21.9
9.817
18
10 24 31.32
1.9346
13 24 15.3
18.978
19
8 46 36.25
3.9649
22 41 29.7
0.995
19
10 26 26.64
1.9190
13 10 57.7
18.816
20
8 48 51.88
3.9565
22 31 31.0
104)98
20
10 28 21.62
1.9184
12 57 37.7
18.866
21
8 51 7.01
3.3481
22 21 26.2
10.189
21
10 30 16.27
1.9061
12 44 15.3
18.897
22
8 53 21.64
3.9398
22 11 15.0
10.386
22
10 32 10.61
1«)99
12 30 50.7
18.485
23
8 55 35.78
3.3315
22 0 57.7
10.889
23
10 34 4.64
i.8on
12 17 24.0
18X71
24
8 57 49.50
3.9939
N.21 50 34.4
10.439
24
10 35 58.35
1.8097
N.12 3 55.0
18.607.
208
DECEMBER, 1856.
IX.
GREENWICH MEAN TIME.
' THB MOON'S RIGHT ASCENSION AND DECLINATION.
How.
Bight AMendon.
DUL
telm.
DwKMlkB.
DUL
forlm.
Hour.
Bight AMDilOB.
am.
forlm.
DwKMlkB.
IHS.
WEDNESDAY 17.
FRIDAY
19-
h. m. •.
1.
O 1 If
u
h. m. •.
1.
O 1 «
tt
0
10 35 58.35
I.8W7
N.19 3 55.0
10.607
0
19 9 39.89
1.7409
N. 0 59 99.4
14.180
1
10 37 51.76
1.88T7
11 50 23.9
18.64]
1
19 4 17.62
1.7468
0 38 11.7
M.ie9
9
10 39 44.88
1.8817
11 36 50.8
10.073
9
12 6 9.37
1.7460
0 94 1.9
14.178
3
10 41 37.70
IJBm
11 93 15.8
10.000
3
19 7 47.06
1.7440
N. 0 9 51,1
14.178
4
10 ^3 30.23
IJB19
11 9 38.9
10.000
4
19 9 31.71
1.74S7
S. 0 4 1B.7
14.107
6
10 45 22.47
ijum
10 56 0.1
lOJOO
5
19 11 i6.31
1.7499
0 18 98.1
14.100
6
10 47 14.44
1.86S7
10 49 19.5
10.090
6
19 13 0.88
1.7498
0 39 37.9
14.100
7
10 49 6.14
i.8aoi
10 98 37.2
I8.790
7
12 14 45.49
1.7417
0 46 46.8
14.140
8
10 50 57.57
1.8645
10 14 53.3
18.701
8
19 16 29.93
1.7418
1 0 63.9
14.100
9
10 52 48.72
1.8003
10 1 7.8
18.778
9
12 18 14.41
1.7411
1 15 1.6
14.199
10
10 54 39.62
13400
9 47 20.7
10.804
10
19 19 58.88
1.7409
1 99 8.7
14.119
11
10 56 30.27
1.8418
9 33 32.1
10.838
11
19 91 43.34
1.7406
1 43 15.9
14.M9
12
10 58 20.66
1.8S78
9 19 42.0
10.809
19
19 93 97.80
1.7406
1 67 91.0
14.090
13
11 0 10.81
1.8S88
9 5 50.5
10.874
13
19 95 19.96
1.7408
9 11 96.9
14*000
14
11 2 0.73
1.8908
8 51 57.7
18.896
14
19 96 56.79
1.7408
9 96 80.7
14J070
15
11 3 50.41
l.»J0O
8 38 3.6
10.917
15
19 28 41.18
1.7400
9 39 34.3
14.000
16
11 5 39.86
ism
8 24 8.3
10.938
16
12 30 95.65
1.7419
9 63 37.1
14447
17
11 7 29.10
1.8188
8 10 11.8
10.960
17
19 39 10.14
1.7416
3 7 39.3
14.000
18
11 9 18.11
1.8IM
7 56 14.0
io.9n
18
19 33 64.64
1.7418
3 91 40.7
14419
19
11 11 6.91
1.8116
7 42 15.2
10.094
19
19 35 39.17
1*7493
3 35 41.1
14404
20
11 12 55.51
i^rm
7 23 15.4
14.010
90
12 37 93.74
1.7498
3 49 40.6
104B0
21
11 14 43.89
1.8048
7 14 14.6
14490
91
19 39 8.34
1*7404
4 3 30.9
10479 1
22
11 16 32.11
1^16
7 0 12.8
144M0
99
19 40 69.98
1*7449
4 17 36.7
10406
23
11 18 90.12
THD
i.79e>
HSDA
N. 6 46 10.1
Y 18.
14*060
93
19 49 37.67
SAT
1*7461
URDA
S. 4 31 33.1
Y 20.
18407
0
11 90 7.99
1.1VM
N. 6 39 6.7
lum
0
19 44 99.43
1.7400
S. 4 46 98.6
njio
1
11 21 55.57
1.7933
6 18 9.5
14404
1
19 46 7.93
1.7470
4 59 99.7
18400 1
3
11 23 43.03
1.7808
6 3 57.4
UjOOO
9
19 47 69.09
1.7479
6 13 15.8
10400
3
11 25 30.32
1.7806
5 49 51.6
14.108
3
12 49 37.00
1.7400
6 97 7.6
11480 ,
4
11 27 17.44
1.78M
5 35 45.9
14.119
4
12 61 91.98
1.7600
6 40 68.3
ujm
5
11 20 4.39
1.7813
5 91 38.1
14.190
6
19 53 7.04
1.7614
5 54 47.6
11417 ■
6
11 30 51.20
1.7787
5 7 30.5
14.137
6
19 54 59.17
1.7639
6 8 35.6
11.790 !
7
11 32 37.86
1.7703
4 63 22.3
14.140
7
19 66 37.40
1.7644
6 99 99.3
11.779
8
11 34 94.37
1.7718
4 39 13.6
14.160
8
19 68 99.71
1.7669
6 86 7.5
11.740 1
9
U 36 10.73
1.7714
4 25 4.5
14.109
9
13 0 8.19
1.7074
6 49 51.3
11.790
10
11 37 56.96
uimi
4 10 54.9
14.108
10
13 1 53.62
1.7600
7 3 33.7
11*700 ,
11
11 39 43.06
I.78W
3 60 45.1
14.170
11
13 3 39.99
1*7007
7 17 14.6
10474
12
11 41 99.04
1.7f69
3 42 34.9
14.178
19
IS 0 94.93
1*7096
7 30 63.9
11440 ,
13
11 43 14.90
1.7»9
3 98 94.5
14.189
13
13 7 10.76
1*7040
7 44 31.6
10491 '
14
11 45 0.64
1.7flS
3 14 13.8
14.180
14
13 8 66.70
1*7080
7 68 7.7
11400 ,
15
11 46 46.97
1.7080
3 0 9.9
14.100
16
13 10 49.75
1*7089
8 11 49.0
10404 1
16
11 48 31.80
1.7078
9 45 61.9
14.191
10
13 19 98.92
1*7701
8 96 14.6
11400
17
11 50 17.99
1.7001
9 31 40.7
14.194
17
13 14 15.22
1.7796
8 38 46.5
11400 '
18
11 59 9.55
1.7046
9 17 99.3
14.100
18
13 16 1.66
1*7748
8 69 U.t
11470 '
19
11 53 47.79
1.7001
9 3 18.0
14.100
10
13 17 48.23
1*7779
9 6 41.8
11444
90
11 65 39.95
1.7010
1 49 6.7
14.194
90
13 19 34.95
1*7796
9 19 7.9
11411
21
11 57 18.03
1.7001
1 34 66.4
14.199
91
13 21 91.81
1*7091
0 39 30.7
11480 i
99
11 59 3.03
1.7403
1 90 44.3
14.190
99
13 93 8.82
1.7048
9 45 69.3
11447 ,
93
19 0 47.06
1.7480
1 6 33.9
14.100
93
13 94 55.99
1.7876
9 59 11.7
11411 1
u
19 9 39.82
1.7080
N. 0 69 99.4
14.106
94
13 96 43.39
1*7909
S.IO 19 99.9
X.
DECEMBER, 1856.
209
GREENWICH MEAN TIME.
1
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hoor.
DMt
fbrlm.
Dlff.
forlm.
floor.
Bight AMmdon.
forlm.
DMliBAtlOll.
Dlff.
fbrlm.
SU]
TOAY
21.
TUESDAY 23.
h. m. ■.
■.
O 1 u
N
h. m. ■.
••
O 1 M
»
0
13 96 43.39
L7909
S.IO 19 99.9
13.978
0
14 57 3.75
1JW9;S.19 64 98.9
10440
1
13 98 30.81
1.7M9
10 95 44.5
is.9a
1
14 59 3.78
94084
20 5 4.8
10463
9
13 30 18.47
1.7966
10 38 57.6
13.907
9
15 1 4.16
94088
20 15 35.9
10484
3
13 39 6.30
1.7066
10 59 8.7
13.170
3
15 3 4.89
94149
20 26 2.2
10404
4
13 33 54.31
1.8018
11 5 17.5
18.139
4
15 5 5.96
94908
20 36 23.7
10499
6
13 35 49.51
iMa
11 18 94.0
13404
5
15 7 7.38
94964
20 46 40.3
10.988
6
13 37 30.89
ism
11 31 98.1
13466
6
15 9 9.14
94399
20 56 51.7
10.164
7
13 30 10.46
1.8111
11 44 99.9
13416
7
15 11 11.95
9.0881
21 6 58.1
10409
8
13 41 8.93
1.8144
11 57 99.3
19476
8
15 13 13.79
94441
21 16 59.5
0488
0
13 49 57.10
1.8176
19 10 96.9
1S4S4
9
15 15 16.56
94609
91 26 55.6
9496
10
13 44 46.36
1.8S11
19 93 90.6
19499
10
15 17 19.75
94669
21 36 46.4
9408
11
13 46 35.74
1.8946
19 36 19.5
19449
11
15 19 93.30
94699
21 46 32.0
9.790
19
13 48 95.39
1.8981
19 49 1.8
19406
12
15 21 27.21
94689
91 56 12.3
9430
13
13 50 15.19
1.8117
13 1 48.4
19.760
13
15 23 31.48
94749
22 5 47.1
9438
U
13 59 5.13
1.8S68
13 14 32.3
19.714
14
15 25 36.12
94603
22 15 16.3
9.446
15
13 53 55.37
1.8S80
13 97 13.6
19467
15
15 27 41.13
94864
22 24 40.0
9461
16
13 55 45.83
14498
13 39 51.8
19490
16
15 29 46.50
94996
22 33 58.0
9.967
17
13 57 36.59
1.8468
13 59 97.9
19473
17
15 31 52.24
94966
22 43 10.2
9.161
18
13 59 97.46
1.8606
14 5 0.0
19496
18
15 33 58.36
9.1049
22 52 16.6
9464
19
14 1 18.64
14648
14 17 99.7
19.476
19
15 36 4.84
9.1111
23 1 17.2
8-966
20
14 3 10.07
14860
14 99 56.4
19*496
20
15 38 11.69
9.1174
23 10 11.9
8466
21
14 5 1.74
14630
14 49 90.1
19476
21
15 40 18.92
9.1986
93 19 0.4
8-764
29
14 6 53.66
14678
14 54 40.8
19493
22
15 49 26.52
9.1996
23 27 42.9
8469
93
14 8 45.84
MO
14716
NDAY
S.15 6 58.3
22.
13.969
23
15 44 34.49
WEDI
9.1360
^ESDi
S.23 36 19.2
\Y 24.
8460
0
14 10 38.97
1J760
S.15 19 19.4
19.916
0
15 46 49.89
9.1491
S.23 44 49.3
8466
1
14 19 30.96
14608
15 31 23.4
19.160
1
15 48 51.53
9.1489
23 53 13.3
8460
9
14 14 93.93
14648
15 43 31.1
19.104
2
15 51 0.60
9.1646
24 1 30.8
8.9U
3
14 16 17.16
146B6
15 55 35.3
19.048
3
15 53 10.06
9.1607
24 0 42.0
8.186
4
14 18 10.68
14041
16 7 36.1
11491
4
15 55 19.88
9.1668
24 17 46.5
8496
5
14 90 4.48
14097
16 19 33.5
11489
5
15 57 30.08
9.1789
24 25 44.5
7416
6
14 91 58.55
14034
16 31 97.4
11474
6
15 59 40.66
9.1794
24 33 35.8
7403
7
14 23 52.90
14089
16 43 17.8
11414
7
16 1 51.60
9.1866
24 41 20.4
7490
8
14 25 47.54
14130
16 55 4.5
11.763
8
16 4 2.92
9.1916
24 48 57.9
7476
9
14 27 42.47
14180
17 6 47.5
11.690
9
16 6 14.60
9.1960
24 56 28.8
7.461
10
14 29 37.71
14330
17 18 96.7
11497
10
16 8 26.66
9.9040
25 3 52.8
7446
11
14 31 33.24
14960
17 30 9.1
11464
11
16 10 39.07
9.9100
25 11 9.9
7499
19
14 33 29.07
1.9830
17 41 33.8
11.409
12
16 19 51.84
9.9161
25 18 19.9
7*111
13
14 35 95.21
1.9881
17 53 1.4
11.433
13
16 15 4.99
94999
25 25 22.7
6491
U
14 37 21.65
14439
18 4 25.0
11466
14
16 17 18.49
94989
25 32 18.2
6470
15
14 39 18.40
14484
18 15 44.6
11.996
15
16 19 32.36
94849
25 39 6.5
6.747
16
14 41 15.48
1.9636
18 27 0.1
11.999
16
16 21 46.59
9*9409
25 45 47.3
6498
17
14 43 12.86
14669
18 38 11.4
11.169
17
16 24 1.18
9.9461
25 52 20.8
6.496
18
14 45 10.56
1.9643
18 49 18.6
11468
18
16 26 16.11
9.9619
25 58 46.8
6473
19
14 47 8.60
14696
19 0 21.5
11416
19
16 28 31.39
9-9677
26 5 5.2
6.947
20
14 49 6.96
14766
19 11 20.0
10.049
20
16 30 47.02
9-9686
26 11 15.9
6.119
21
14 51 5.67
1.9619
19 22 14.0
10467
21
16 33 3.02
9.9696
96 17 19.0
6.990
99
14 53 4.71
14866
19 33 3.5
10.799
22
16 35 19.35
9.9769
26 23 14.2
6460
93
14 55 4.08
1.9996
19 43 48.5
10.716
98
16 37 36.03
9.9606
26 29 1.7
6.730
94
14 57 3.75
1.9979
S.19 54 28.9
10.640
24
16 39 53.03
9-9864
S.26 34 41.4
6408
27
210
DECEMBER, 1856.
XI.
GREENWICH MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Right AMMDskm.
Diff.
for 1 m.
Plff.
for 1 m.
Hour.
Right AMendon.
DIff.
forlm.
Dur.
forlm.
THURSDAY 25.
SATURDAY 27.
h. m. B.
••
O 1 n
H
h. m. 8.
8.
O 1 N
«
0
16 39 53.03
9.9M4
S.26 34 41.4
5J08
0
18 34 30.36
9.4489
S.28 13 12.7
1.701
1
16 42 10.37
9.3019
26 40 13,8
5Mi
1
18 36 57.80
S.4494
28 11 22.0
1.036
2
16 44 28.04
9.3974
26 45 37,1
6.399
2
18 30 24.27
9.4499
28 9 21.5
94)01
3
16 46 46.04
9.3098
26 50 52.8
6.193
3
18 41 51.27
9.4603
28 7 11.1
9.956
4
16 49 4.36
9.306a
26 56 0.4
bjm
4
18 44 18.29
9.4604
28 4 50.9
9499
5
16 51 23.00
9.318A
27 0 59.7
4.918
5
18 46 45.80
9.4608
28 2 20.6
9.588
6
16 53 41.95
9.3188
27 5 50.6
4.779
6
18 49 12.80
9.4609
97 59 40.4
9.754
7
16 56 1.21
9.3386
27 10 33.2
4.639
7
18 51 30.30
9.4600
27 56 50,3
9J)19
8
16 58 20.78
9.3386
27 15 7.4
4.409
8
18 54 6.25
9.4496
27 53 50.2
tM4
9
17 0 40.65
9.3340
27 19 33.2
4.356
9
18 56 33.20
94490
27 5a 40.8
3.940
10
17 3 0.83
9.8380
27 23 50.4
4.316
10
18 59 0.10
94489
27 47 20.5
84U
11
17 5 21.30
9.3437
27 27 69.0
44n9
11
19 1 26.96
94474
27 43 50.9
3.f70
12
17 7 42.05
9.3485
27 31 58.9
8>77
12
19 3 53.79
94465
27 40 11.2
3.744
13
17 10 3.08
941531
27 35 50.1
8.780
13
19 6 20.54
94456
27 36 21.7
3,908
14
17 12 24.39
94)578
27 39 32.5
3.633
14
19 8 47.23
27 32 22.3
4.679
15
17 14 45.98
9.3828
27 43 6.1
3.466
15
19 11 13.86
94439
27 28 13.1
4,936
16
17 17 7.84
9.3667
27 46 31.0
3.837
16
19 13 40.40
94418
27 23 54.2
4.308
17
17 19 29.96
9.3711
27 49 46.8
3.188
17
19 16 6.85
94409
27 19 25.4
4.5C9
18
17 21 52.34
9.3755
27 52 53.7
34»6
18
19 18 33.20
94386
27 14 46.8
4.796
19
17 24 14.97
9.3798
27 55 51.5
9.887
19
19 20 59.44
94368
27 9 58.4
4,889
20
17 26 37.85
9.3838
27 58 40.2
9.735
20
19 23 25.58
94368
27 5 0.4
6M0
21
17 29 0.97
9.88n
28 1 19.7
9.589
21
19 25 51.60
94399
26 59 52.6
6.910
22
17 31 24.33
9.3014
28 3 50.1
9.499
22
19 28 17.50
94308
26 54 35.2
6,370
23
17 33 47.91
FB
9.3980
.IDAY
S.28 6 11.2
26.
9.975
23
19 30 43.27
SU]
94987
WAY
S.26 49 8.3
28.
6.630
0
17 36 11.70
9.3966
S.28 8 23.1
9.191
0
19 33 8.92
9.4965
S.26 43 31,8
bjm
1
17 38 35.71
9.4031
28 10 25.7
1.966
1
19 35 34.43
9.4949
26 37 45.7
6,848
2
17 40 59.92
9.4055
28 12 19.0
1.811
2
19 37 59.79
9.4915
26 31 50,2
6,607
3
17 43 24.34
9.4087
28 14 2.9
1.654
3
19 40 24.99
9.4188
26 25 45.0
6.166
4
17 45 48.94
9.1I1S
28 15 37.3
1.496
4
19 42 50.03
9.4161
26 19 30.5
6A99
5
17 48 13.73
9.4148
28 17 2.3
1J37
5
19 45 14.91
9.4134
26 13 6.5
6,477
6
17 50 38.70
9.4178
28 18 17.6
1.177
6
19 47 39.65
9.4107
26 6 33.3
6,689
7
17 53 3.84
9.4907
28 19 23.4
1.017
7
19 50 4.20
9.4077
25 59 50.7
6,787
8
17 55 29.15
9.4934
28 20 19.7
0.857
8
19 52 28.56
9.4047
25 52 58.9
6,049
9
17 57 54.62
9.4960
28 21 6.2
0.696
9
19 54 52.73
9.4017
25 45 57,9
7.006
10
18 0 20.24
9.4984
28 21 43.2
0.534
10
19 57 16.70
9.3985
25 38 47.6
7310
11
18 2 46.00
9.4308
28 22 10.4
0.379
11
19 59 40.48
9.3951
25 31 28.2
7401
12
18 5 11.90
9.4330
28 22 27.9
^0.046
' 0.117
12
20 2 4.07
9.3916
25 23 59.7
7,669
13
18 7 37.93
9.4350
28 22 35.6
13
20 4 27.46
9.3881
25 16 22.2
7.709
14
18 10 4.07
9.4366
28 22 33.6
14
20 6 50.63
9.3845
25 8 35.7
7.861
15
18 12 30.32
9.4387
28 22 91.7
0.979
15
20 9 13.58
9.3810
25 0 40.2
BMO
16
18 14 56.68
9.4404
28 22 0.2
0.443
16
20 11 36.32
94074
24 52 35.9
8.147
17
18 i; 23.14
9.4491
. 28 21 28.8
0.605
17
20 13 58.84
94r786
24 44 22,7
8.904
18
18 19 49.68
9.4436
28 20 J17.6
0.765
18
20 16 21.14
9.3608
24 36 0.7
8440
19
18 22 16.30
9.4448
28 19 56.6
0.9S4
19
20 18 43.21
9.3660
24 27 30.1
B.586
20
18 24 43.00
9.4459
28 18 55.7
14)99
20
20 21 5.04
9.3693
24 18 50.8
6.798
21
18 27 9.77
9.4468
28 17 44.8
1-964
21
20 23 26.66
9.3584
24 10 3.0
8.889
22
18 29 36.59
9.4477
28 16 24.1
M»
22
20 25 48.02
9.3544
24 1 6.7
M\0
23
18 32 3.46
9.4483
28 14 53.4
1.606
23
20 28 9.13
9,3503
23 52 2.0
0.150
24
18 34 30.36
9.4489
S.28 13 12.7
1.761
24
20 30 29.99
9.3460
S.23 42 48.8
0.980
XII.
DECEMBER, 1856.
211
GREENWICH
MEAN TIME.
THE MOON'S RIGHT
ASCENSION AND DECLINATION.
!
Hoar.
Va^AMnOoa.
MIL
forlm.
VOL
forlm.
Hour.
KlghtAKwrfoii.
Diff.
for 1 m.
DeoUiiatton.
DIff.
forlm.
MO
NDAY
29.
WEDNESDAY 31.
h. m. ■.
•.
O 1 N
N
h. m. 0.
1.
O 1 u
•
0
20 30 39.99
3.3460
S.23 43 48.8
9.289
0
22 18 3.24
2.1406
S.13 59 33.6
14.690
1
20 33 50.63
2.3417
23 33 37.3
9.427
1
23 20 11.58
3.1870
13 45 0.5
14.606
3
30 35 10.98
2.3374
23 83 57.5
9.664
3
22 22 19.71
3.1336
13 30 33.7
14.679
3
30 37 31.09
2.3334
83 14 19.5
9.699
3
22 24 27.64
3.1302
13 15 40.5
14.746
4
30 39 50.94
2.3286
83 4 33.6
9.834
4
23 26 35.36
3.1268
13 0 53.9
14.818
5
30 43 10.54
2.8M4
32 54 39.5
9.968
5
22 28 42.88
3.1286
18 46 3.1
14.880
6
80 44 39.87
2.3200
32 44 37.4
10.101
6
22 30 50.31
2.1204
13 31 8.1
14.980
7
30 46 48.94
2.3167
32 34 37.4
10.233
7
33 32 57.35
3.1172
18 10 9.0
164W7
8
SO 49 7.74
2.3114
32 24 9.5
10.3&t
8
33 35 4.30
9.1140
13 1 5.8
164)98
9
20 51 26.30
2.3071
22 13 43.9
10.493
9
33 37 11.05
9.1110
11 45 58.6
16.166
10
80 53 44.58
2.8028
22 3 10.6
10.620
10
33 39 17.63
9.1080
11 30 47.6
16.992
11
30 56 3.59
2.2987
21 52 29.6
10.747
n
83 41 34.03
9.1060
11 15 33.8
16.286
13
30 58 30.33
2.2886
21 41 41.0
10.873
13
83 43 30.34
9.1022
11 0 14.3
16.847
13
31 0 37.80
2.2801
21 30 45.0
10.997
13
82 45 36.30
94)994
10 44 51.8
16.407
14
81 3 55.00
2.2846
21 19 41.5
11.120
14
33 47 42.20
94»66
10 89 36.0
16.466
15
31 5 11.94
2.2801
81 8 30.8
11.242
15
33 49 47.93
94041
10 13 56.7
16.698
16
31 7 28.61
2.2706
80 57 12.8
11.362
16
22 51 53.51
94)916
9 58 34.1
16.679
17
31 0 45.00
2.2710
20 45 47.6
11.481
17
33 53 58.94
941891
9 43 48.1
16.634
18
31 13 1.13
2.2664
20 34 15.2
11.609
18
83 56 4.31
94)867
9 37 8.6
16.687
19
31 14 16.96
2.2618
20 22 35.7
11.716
19
82 58 9.36
94)843
9 11 36.3
16.789
20
•31 16 33.53
2.2S78
20 10 49.3
11.832
20
23 0 14.37
941620
8 65 40.7
16.790
31
81 18 47.84
2.2ft29
19 58 55.9
11.946
21
23 3 19.23
941796
8 39 53.3
16.840
33
81 81 8.88
2.2484
19 46 55.9
12.060
22
23 4 23.97
94m6
8 34 0.7
16.888
33
81 33 17.64
2.2430
S.19 34 49.2
12.171
33
23 6 28.59
94n6e
S. 8 8 6 3
16.986
TUl
SSDAl
r 30.
THURSDA
Y, JA
N. 1, 1857.
0
1
31 35 33.14
31 87 46.37
948M
s.19 83 35.7
19 10 15.8
12.279
o\
33 8 33.101
9.07381
S. 7 53 9.3|
16.983
9.2849
12.388
3
81 30 0.33
3.2804
18 57 49.6
1^496
3
31 33 14.03
9.2259
18 45 17.0
12.602
4
31 34 37.45
2.2214
18 33 38.1
12.706
5
81 36 40.61
2.2171
18 19 53.9
12.910
6
81 38 53.53
3.2128
18 7 1.6
12.912
PHASES i
3F TI
IE MOON.
7
31 41 6.16
2.2084
17 54 4.3
134)12
8
9
31 43 18.55
81 45 30.68
3.9043
3.2000
17 41 0.8
17 87 51.4
18.119
18.210
10
81 47 43.55
9.10I6
17 14 36.1
18.807
Pay. h. m.
11
31 49 54.17
2.1914
17 1 15.1
18.403
3) First Qua
Iter,
4 15 36.
5
13
31 53 5.53
3.1872
16 47 48.3
18.497
O Fall Moo
n, .
. 11 8 13.
6
13
31 54 16.64
2.1880
16 34 16.0
18.689
C Last Quai
ter,.
. 18 18 43.
9
14
81 56 87.51
3.1791
16 20 38.3
18.681
0 New Moo
n, .
. 86 80 45.
3
15
16
31 58 38.13
33 0 48.51
3.1748
2.1709
16 6 54.8
15 53 6.3
18.771
18.860
17
33 8 58.65
3.1671
15 39 13.7
18.048
. . ^i' 83!
18
83 5 8.58
3.1682
15 35 13.1
14484
a Perigee,
, ,
1
19
83 7 18.35
3.1S04
15 11 8.8
14.118
C Apogee,
• .
. . 80 17.
7
30
33 9 37.70
3.1666
14 56 59.5
14.901
31
33 11 36.93
3.1617
14 43 45.3
14.283
S3
83 13 45.93
8.1480
14 38 86.1
14.364
33
33 15 54.69
3.1443
14 14 8.3
14.443
34
33 18 3.34
3.1406
S.13 59 33.6
14.620
______
212
DECEMBER, 1856.
XIII.
GREENMTICH MEAN
TIME.
n
LUNAR DISTANCES. 1
b
Star's NuM
P.L.
P.L.
P.L.
P.L.
Md
Noon.
of
!».
of
VP».
or
IXJ^
of
Podtton.
I>ifL
IMff.
Dift
Dlff.
O 1 II
O 1 II
O 1 II
O 1 «
1
Sun
W.
44 55 36
mm
46 25 16
8018
47 55 3
8000
49 25 6
9007
Fomalhaut
W.
39 50 34
nam
38 24 57
8900
36 59 50
8800
35 35 47
8340
a Pegasi
E.
61 20 55
was
59 52 6
8073
58 23 24
8070
56 64 49
8006
Jupiter
E.
65 4 13
906t
63 26 43
9666
61 49 2
9046
60 11 7
ion
a Arietis
E.
lOS 4 29
90DB
100 27 48
9680
98 50 54
9081
97 13 48
1879
9
SuH
W.
56 58 36
9MS
58 29 58
9096
60 1 33
9094
6! 33 91
9018
Venus
W.
22 59 1
ao«9
24 28 13
8084
25 57 44
8010
27 27 33
8086
aPegasi
E.
49 34 59
tli5
48 7 66
8176
46 41 18
8901
46 16 10
8998
Jupiter
E.
51 58 36
9W4
50 19 33
9665
48 40 16
9074
47 0 45
1601
a Arietis
E.
89 5 11
9096
87 26 50
9016
85 48 16
9007
84 0 30
loor
3
Svn
W.
69 15 47
9800
70 48 57
0848
72 22 22
9887
73 66 9
man
Yenos
W.
35 0 52
9M0
36 32 20
9097
38 4 4
9016
39 36 4
9008
Mars
W.
23 55 65
9814
25 30 5
9708
27 4 36
9709
28 39 28
9708
Jupiter
E.
38 39 48
SftlO
36 68 58
9600
35 17 53
9100
33 36 34
9188
a Arietis
E.
75 52 28
9561
74 12 26
9641
72 32 10
9533
70 5! 42
1898
Aldebaran
E.
106 28 43
9079
104 49 9
9561
103 9 20
9649
101 29 16
1680
4
Sow
W.
81 47 53
9TI1
83 22 59
9700
84 58 20
9748
86 33 66
9718
Venus
W.
47 19 55
9Sa
48 53 98
98S1
60 27 16
9618
62 1 20
9807
Mars
W.
36 38 20
9701
38 14 59
9880
39 51 54
9076
4! 29 7
900
a Arietis
E.
62 26 12
9480
60 44 30
9470
69 2 35
9404
67 20 29
1464
Aldebarao
E.
93 5 9
9186
91 23 35
9176
89 41 46
9106
87 69 43
1484
5
Sun
W.
94 35 35
9089
96 12 39
9879
97 49 67
9000
99 27 30
1860
Venus
W.
59 55 32
9747
61 31 9
37M
63 7 1
9796
64 43 8
9713
a Aquiln
W.
55 59 44
lOiO
57 17 24
8668
58 36 U
8639
69 66 0
8179
Mars
W.
49 39 15
9004
51 18 5
9693
52 57 11
9669
64 36 31
1070
a Arietis
E.
48 47 13
9410
47 4 5
9411
45 20 49
9107
43 37 94
1400
Aldebarao
E.
79 25 54
9106
77 42 26
9896
75 58 44
9887
74 14 60
»7i
6
Sun
W.
107 38 49
9B00
109 17 46
9568
110 66 57
9870
119 36 9!
IfM
Venus
W.
72 47 30
9098
74 25 6
9048
76 2 66
9888
77 41 0
1600
a Aquiln
W.
66 48 40
0966
68 13 33
8980
69 39 7
8108
71 6 18
31«
Mars
W.
62 57 4
9616
64 37 56
9606
66 19 2
9404
68 0 93
MOO
Fomalhaut
W.
35 51 44
9018
37 23 46
985S
38 57 5
9700
40 31 34
9701
Aldebarao
E.
65 32 13
9n7
63 47 7
98S0
62 I 51
98«
60 16 96
ion
Saturn
E.
100 27 43
9901
98 40 49
9963
96 53 41
9944
95 6 19
MM
7
Sun
W.
120 56 21
9090
122 36 54
9631
194 17 38
1614
195 68 32
MV
Venus
W.
85 54 29
9681
87 33 50
9074
89 IS 21
9600
90 53 3
1680
a Aquiln
W.
78 24 12
0064
79 63 18
8000
81 22 46
8099
89 69 32
8001
Mars
w.
76 30 15
9441
78 12 51
9183
79 56 38
M90
81 38 36
1419
Fomalhaut
w.
48 38 5
9679
50 17 39
9644
61 57 51
9690
63 38 37
1609
Jupiter
w.
17 5 48
9907
18 54 5
9100
20 42 34
9101
22 31 15
91S8
Aldebarao
E.
51 27 23
9900
49 41 18
9906
47 55 11
9tt4
46 0 3
9»4
Saturn
E.
86 6 13
9104
84 17 36
9186
82 28 48
9180
80 30 60
9ni
PoUttX
E.
94 35 54
9104
92 47 18
9187
90 58 31
9180
89 0 33
9119
8
Venus
W.
99 13 51
9097
100.54 26
969S
109 35 7
1190
104 15 53
16M
Mars
W.
90 15 48
9M0
91 59 39
9861
93 43 36
1380
95 27 39
MT
Fomalhaut
W.
62 9 24
9419
63 52 41
MOO
65 36 16
9388
67 90 8
»7i
a Pegasi
W.
42 39 37
9860
44 13 0
9001
45 47 27
9766
47 99 53
«1T
Jupiter
W.
31 36 49
9160
33 26 20
9164
35 15 67
9130
37 6 40
1147 1
XIV.
DECEMBER, 1856.
213
GREENWICH MEAN TIME.
LUNAR DISTANCES.
1
8tar*iKaiiM
P.L.
P.L.
P.L.
P.L.
and
PoaitloiL
Midnight.
of
Dlff.
XVh.
of
Dlff.
xvinb.
of
IMff.
XXIh.
or
Diff.
Son
W.
O 1 H
50 55 23
9987
O 1 u
53 35 51
9877
o f u
53 56 33
3066
O 1 M
55 37 88
3006
Fomalhant
W.
34 13 39
S401
33 50 14
8406
31 39 13
8649
30 9 34
8094
a Pegasi
E.
55 26 33
S097
53 58 0
8108
53 30 9
8191
51 3 35
8186
Jupiter
E.
58 33 3
9698
56 54 45
9618
*55 16 15
9607
53 37 30
3601
a Arietis
E.
95 36 30
9809
93 58 59
9668
93 31 16
9648
90 43 30
3684
3
Sun
W.
63 5 34
9008
64 37 38
9809
66 10 7
9881
67 43 50
3870
Venus
W.
38 57 40
9981
30 38 4
9078
31 58 44
9006
33 39 40
3068
a Pegasi
E.
43 49 35
8961
43 34 38
8800
41 0 36
8848
39 37 4
8801
Jupiter
E.
45 31 0
SS83
43 41 1
3B4A
43 0 50
9686
40 30 87
3696
a Arietis
E.
83 30 31
9088
80 51 30
3678
79 11 55
9609
77 33 18
3060
3
Sun
W.
75 39 56
981ft
77 4 4
9806
78 38 36
3704
80 13 8
9789
Venus
W.
41 8 19
9891
48 40 50
9870
44 13 36
9866
45 46 38
9866
Mars
W.
30 14 38
9788
31 60 7
9741
33 35 53
3796
35 1 58
3718
Jupiter
E.
31 55 0
9476
30 13 13
9466
38 31 13
9406
86 48 57
9440
a Arietis
E.
69 11 1
961ft
67 30 8
9B06
65 49 8
9490
64 7 43
9487
AldebarsQ
E.
99 48 56
9697
98 8 81
3617
96 37 33
9007
94 46 88
9406
4
Sun
W.
88 9 46
97«
89 45 51
9716
91 38 11
9704
98 58 46
3608
Venus
W.
53 35 39
9f796
55 10 14
3783
56 45 4
9771
58 30 10
3700
Mars
W.
43 6 36
9609
44 44 31
3680
46 33 33
9697
48 0 41
3616
a Arietis
E.
55 38 11
9446
53 55 43
3488
53 13 3
3481
50 30 13
3496
Aldebaran
E.
86 17 35
9444
84 34 53
3484
83 58 7
3434
81 9 7
3416
5
Sun
W.
101 5 17
9680
103 43 19
96-»
104 31 35
3618
106 0 5
3608
Venus
W.
66 19 30
9701
67 56 8
9600
69 33 1
3680
71 10 8
3660
a Aquiln
W.
61 16 48
84»
63 38 33
8S&I
64 1 7
8841
65 84 31
8809
Mars
W.
56 16 7
9569
57 55 59
9648
59 36 6
3037
61 16 38
9097
a Arietis
E.
41 53 54
MOI
40 10 30
9896
38 36 43
9807
36 43 3
9806
Aldebaran
E.
73 30 43
9868
70 46 33
9860
69 1 51
9809
67 17 7
3846
6
Sun
W.
114 15 57
9B61
115 55 46
30A8
117 35 46
3044
119 15 58
9686
Venus
W.
79 19 16
9610
80 57 45
9610
83 36 36
3600
84 15 31
9001
a Aquiln
W.
73 33 4
8149
73 69 33
8117
75 37 13
8004
76 55 39
8078
Mars
W.
69 41 57
9477
71 33 43
9468
73 5 41
3400
74 47 53
9400
Fomalhaut
W.
43 7 6
9707
43 43 36
3667
45 31 0
3689
46 50 11
9601
Aldebaran
E.
58 30 51
9819
56 45 9
3807
54 59 19
3808
63 13 34
9990
Saturn
E.
93 18 43
9997
91 30 55
3918
89 43 54
3900
87 54 40
3900
7
Sun
W.
127 39 35
9808
139 30 45
3406
131 8 1
9406
133 43 31
9404
Venus
w.
93 33 55
96A9
94 13 56
364ft
95 53 6
9040
97 33 34
9088
a Aquiln
W.
84 33 36
9906
85 53 54
986ft
87.33 84
9077
88 54 5
9069
Mars
W.
83 31 44
9419
85 5 3
3406
86 48 39
3100
88 33 4
3S04
Fomalhant
W.
55 19 53
9477
57 1 39
3460
58 43 50
9449
60 36 35
9490
Jupiter
W.
34 30 5
9180
36 9 3
3174
87 58 10
9166
39 47 36
9168
Aldebaran
E.
44 33 55
3906
43 36 50
3800
40 50 51
9806
39 4 59
9810
Saturn
E.
78 50 43
3167
77 1 34
3101
75 11 58
3106
73 38 34
9101
Pollux
E.
87 20 34
31W
85 31 6
3161
83 41 40
3106
81 53 5
9100
8
Venus
W.
105 56 44
3619
107 37 40
3610
109 18 40
3007
110 69 43
3600
Mars
W.
97 11 47
9878
98 56 0
3871
100 40 16
3860
103 34 35
3808
Fomalhaut
w.
69 4 14
9860
70 48 33
3869
73 33 3
3300
74 17 43
3800
a Pegasi
w.
48 59 10
9689
50 36 14
3669
53 13 59
9694
53 53 33
9000
Jupiter
w.
38 55 38
9148
40 45 31
3141
43 35 17
3140
44 85 15
9180
214
DECEMBER, 1850.
XV.
GREENWICH MEAN TIME.
I
LUNAR DISTANCES j
8
Star's NuM
P L.
P.L.
PL.
P.L. !
MKl
Noon.
of
Hit.
of
Vlh.
of
IX^
of
Portion.
Dur
I>ifL
Dur.
MC 1
Saturn
E.
O 1 N
71 33 42
9147
69 42 54
9149
o 1 n
67 53 0
9140
O 1 p
66 3 2
9197
Pollux
E.
80 3 22
S14&
78 12 32
9141
76 22 35
9187
74 32 "33
9194
0
Mars
W.
104 8 56
SM7
105 53 18
9987
107 37 40
9887
109 22 2
I
9888 !
Fomalhaut
W.
76 2 28
044
77 47 22
9949
79 32 21
9S39
81 17 23
9888
a Pegasi
W.
55 31 17
vn
57 10 43
99dO
58 50 34
9943
60 30 49
9998
Jupiter
W.
46 15 15
tias
48 6 16
9197
49 55 18
9187
51 45 20
9198
Saturn
E.
56 52 24
tifti
55 2 14
9194
53 12 6
9189
51 22 0
9187
Pollux
E.
05 21 18
tlM
63 30 56
9194
61 40 34
9194
59 50 12
9199
Regulua
E.
102 3 24
9199
100 IS 9
9190
98 22 53
9199
96 32 39
9199
10
Fomalhaut
W.
90 2 32
9»47
91 47 23
9991
93 32 8
9897
95 16 45
9984 !
a Pe^MBi
W.
68 56 3
948*
70 37 38
9481
72 19 17
9480
74 0 58
9179
Jupiter
W.
60 54 49
9151
62 44 30
9197
64 34 3
9181
66 23 29
9187
a Arietia
W.
25 22 35
9M3
27 7 4
9940
28 52 5
9893
30 37 31
9900
Saturn
E.
42 12 53
9161
40 23 30
9171
38 34 19
9160
36 45 22
9190
Pollux
E.
50 39 1
9180
48 49 1
9149
46 59 7
9148
45 9 21
9194
Regulua
E.
87 21 57
9141
86 32 1
9147
83 42 13
9191
81 62 31
9197
11
aPegaai
W.
82 29 6
9494
84 10 27
9fi6S
85 51 38
9900
87 32 37
9918
Jupiter
a Arietis
W.
75 28 14
rm
77 16 37
9919
79 4 46
9299
80 52 41
9989
W.
39 27 55
9988
41 14 12
9980
43 0 27
9994
44 46 36
9901
Saturn
E.
27 45 17
990Q
35 58 32
9989
24 12 22
9890
23 36 63
9999
Pollux
E.
36 2 58
9193
34 14 18
tm
32 25 52
9911
SO 37 40
1999
Regulua
E.
72 46 26
9199
70 57 48
9900
69 9 23
9911
67 31 12
9991
IB
aPegaai
W.
95 54 4
9979
97 33 28
9609
99 12 30
9810
100 61 11
mn
Jupiter
W.
89 48 19
fm
91 34 30
9909
93 20 93
9914
96 6 1
9899
a Arietis
W.
53 35 18
9m
55 20 27
9949
67 6 21
9999
68 60 0
9989
Aldebaran
W.
24 3 12
9949
25 41 10
9810
37 19 53
9M8
38 59 6
9998
Regulua
E.
58 24 19
9979
56 37 49
9901
54 61 39
9909
63 6 48
9990
18
Jupiter
W.
103 48 53
9404
105 32 23
9410
107 15 39
9499
106 58 14
1199
a Arietis
W.
67 28 50
9499
09 11 39
9448
70 64 8
9481
73 36 16
94n !
Aldebaran
W.
37 18 56
9948
38 59 3
9991
40 39 5
9998
43 19 0
9989 1
Regulua
E.
44 21 55
9996
42 38 15
94U
40 54 59
9490
S9 13 7
9447
Spica
E.
98 20 15
9994
96 36 18
940O
94 63 43
9418
93 9 31
90I
U
a Arietis
W.
81 1 26
9168
89 41 21
9979
84 30 53
9680
86 0 3
1987
Aldebaran
w.
50 35 33
9816
52 14 8
9997
63 53 36
96M
66 30 37
9994
Saturn
w.
16 8 47
tl«l
17 44 19
tm
19 30 36
9707
30 56 66
9998
Regulua
E.
30 44 1
9689
99 8 42
9990
37 33 60
9979
36 44 36
9889 -
Spica
E.
84 39 14
9914
89 58 21
1991
81 17 61
9919
79 37 45
9989 ,
16
a Arietta
W.
94 10 4
99n
96 46 65
9108
97 33 94
t?99
98 69 SO
9749
Aldebaran
W.
63 35 49
1799
06 11 66
9M8
66 47 43
9799
68 33 10
rm ,
Saturn
W.
29 0 33
9710
30 36 69
9719
33 IS 14
9790
33 49 15
9748 :
Pollux
W.
19 29 3
9994
21 6 31
9890
33 43 38
9909
94 30 25
9708
Spica
E.
71 93 5
9999
69 46 18
9997
68 7 54
9881
60 30 52
9701 1
Sun
E
132 55 12
9090
131 26 36
8047
129 56 22
9089
128 27 20
9080
10
Aldebaran
W.
76 16 35
9S49
77 49 6
9M
79 33 18
9879
80 66 13
1
1987 1
1987
Saturn
W.
41 45 41
9799
43 20 10
9911
44 54 33
9994
46 38 30
Pollux
W.
39 19 21
9789
33 54 8
9no
35 38 36
9914
37 8 46
sna
Spica
K.
68 31 10
9780
66 66 16
9709
66 31 43
9911
53 47 38
9898 j
XVI.
DECEMBER, 1856.
215
GREENWICH MEAN TIME.
LUNAK DISTANCES.
1^
8
Star*aNMM
Podtkm.
Midnight.
P L.
of
Dur
XV^'
P.L.
of
DHL
XA'im-
PL
of
DUL
XXPl
P.L.
of
IHfl.
Saturn
E.
O 1 N
64 12 69
3136
O » M
62 22 53
3184
O I H
60 39 45
9189
O 1 «
68 42 35
9189
PoUux
E.
72 42 25
S181
70 52 13
3198
69 1 57
9197
67 11 39
9195
0
Mars
W.
111 6 22
970
119 50 40
3873
114 34 55
9876
116 19 6
9870
Fomalhaut
W.
83 2 27
3S98
84 47 31
3880
86 39 34
1840
88 17 35
3848
a Pegasi
W.
62 11 23
9ft IS
63 52 14
9506
65 33 90
8497
67 14 37
3101
Jupiter
W.
53 35 21
3140
55 25 19
3ia
67 15 13
8146
69 5 3
3148
Saturn
E.
49 31 58
8141
47 42 1
3146
45 59 10
9150
44 2 27
3166
Pollux
E.
57 59 51
sisr?
56 9 33
3139
54 19 18
9139
52 29 7
9186
Regulus
E.
94 42 24
3113
92 52 13
3111
91 9 4
9184
89 11 67
3137
10
Fomalhaut
W.
97 1 11
3t79
98 45 26
3M0
100 99 99
9300
109 13 18
9400
a Pegasi
W.
75 42 41
9480
77 94 22
9481
79 6 9
94&1
80 47 37
3480
Jupiter
W.
68 12 46
317S
70 1 54
3100
71 50 52
9187
73 39 39
3106
a Arietis
W.
32 23 17
9M0
34 9 16
3904
35 55 94
3990
37 41 38
9986
Saturn
E.
34 56 40
39m
33 8 17
9910
31 90 13
9981
29 32 32
9940
Pollux
E.
43 19 44
3IS0
41 30 16
3167
39 40 58
9174
37 51 51
9188
Regulus
E.
80 2 58
3ISS
78 13 35
3170
76 94 91
9170
74 35 18
9184
11
a Pegasi
W.
89 13 27
9098
90 54 1
3640
99 34 19
9661
94 14 21
8666
Jupiter
W.
82 40 20
991S
84 27 44
3958
86 14 53
3964
88 1 46
99n
a Arietis
W.
46 32 40
Qsm
48 18 35
3800
50 4 91
9817
51 49 56
9896
Saturn
E.
20 42 10
3398
18 58 95
3149
17 15 50
9604
15 34 42
9564
Pollux
E.
28 49 45
9i33
27 9 6
9945
25 14 45
3956
23 27 43
3970
Regulus
E.
65 33 16
33S3
63 45 36
990
61 58 13
9966
60 11 7
8967
13
a Pegasi
W.
102 29 29
3846
104 7 21
9666
105 44 48
9686
107 21 48
9706
Jupiter
a Arietis
W.
96 51 19
3844
98 36 15
9860
100 90 49
9373
102 5 9
9880
W.
60 34 21
3878
62 18 27
9301
64 9 14
3406
65 45 42
9419
Aldebaran
W.
30 38 43
3566
39 18 36
8651
33 58 39
9647
35 38 47
8640
Regulus
E.
51 20 18
9886
49 35 10
8840
47 50 99
9805
46 5 57
9881
13
Jupiter
W.
110 40 34
3468
112 22 32
3485
114 4 6
9609
115 45 17
8619
a Arietis
W.
74 18 2
3499
75 59 27
3800
77 40 99
9694
79 21 9
8640
Aldebaran
W.
43 58 43
9673
45 38 17
3589
47 17 37
9509
48 56 43
9604
Regulus
E.
37 29 39
3406
35 47 36
3488
34 6 59
9501
32 24 47
9690
Spica
E.
91 26 41
3148
89 44 14
3465
88 9 11
9461
86 20 31
9497
14
a Arietis
W.
87 38 49
90tt
89 17 13
3640
90 55 13
9667
92 39 50
8676
Aldebaran
W.
67 8 9
3067
58 45 33
3609
60 92 37
9606
61 59 93
3710
Saturn
W.
22 33 39
3094
24 10 27
3606
95 47 14
9696
27 23 57
3700
Regius
E.
24 6 31
3093
99 97 6
9046
SO 49 12
9670
19 11 62
9086
Spica
E.
77 58 2
9688
76 18 43
9600
74 39 47
9610
73 1 14
3684
15
a Arietis
W.
100 35 14
3760
109 10 96
9776
103 45 36
9709
105 20 15
3606
Aldebaran
W.
69 58 18
3786
71 33 6
9790
73 7 35
9816
74 41 44
3696
Saturn
W.
35 25 2
3710
37 0 35
3709
38 35 53
3774
40 10 55
9786
Pollux
W.
25 56 53
3736
97 33 a
9741
29 8 46
2766
30 44 13
3760
Spica
E.
64 54 13
9716
63 17 55
9788
61 41 59
3749
60 6 24
9766
Sum
E.
126 58 57
1008
125 30 44
1114
124 9 59
1183
122 35 91
8148
16
Aldebaran
W.
82 27 48
3001
84 0 6
9016
85 39 6
3998
87 3 49
SMI
Saturn
W.
48 2 0
3849
49 35 94
9061
51 8 33
9B78
52 41 26
3684
Pollux
W.
38 36 36
3848
40 10 8
9687
41 43 99^
9870
43 16 19
3883
Spica
E.
52 13 33
3840
60 39 57
9064
49 6 39
9066
47 33 39
9880
216
DECEMBER, 1856.
XVII.
GREENWICH MEAN '
riME.
LUNAR DISTANCES. D
16
star's NuM
PodUon.
Noon.
PL.
of
DHL
nih.
P.L.
of
DIff.
Vpi.
P.L.
of
DIff.
no^
P.L.
of
DML
Sun
E.
O 1 u
121 8 10
tlM
O 1 «
119 41 17
SIM
O 1 <l
118 14 44
Bt07
O 1 M
116 48 31
MIS
17
AldeUnn
Saturn
Pollux
Spica
Sun
W.
W.
W.
E.
E.
88 35 16
54 14 5
44 49 1
46 0 55
109 41 53
IBM
9807
9807
9804
t9B5
90 6 27
55 46 28
46 21 24
44 28 29
108 17 24
99M
9000
9BM
9BM
99M
91 37 22
57 18 36
47 53 32
42 56 18
106 53 11
99M
9919
9090
90M
M19
93 8 0
58 50 31
49 25 25
41 24 24
105 29 13
SMI
9SM
9SM
BBM
18
Saturn
Pollux
Reffulus
Spica
Sun
W.
W.
W.
E.
E.
66 26 47
57 1 17
20 29 27
33 48 30
98 32 57
9079
9BB6
MM
9BB6
67 57 26
58 31 48
21 59 2
32 17 59
97 10 19
9BM
B0S4
99M
UK
69 27 54
60 2 9
23 28 32
30 47 40
95 47 53
BOO
BOM
BOO
B403
70 58 12
61 32 18
24 57 58
29 17 31
94 25 31
BOM
Mil
BOO
MIS
Mil
19
Saturn
Pollux
Regulut
Sun
W.
W.
W.
E.
78 27 28
69 0 44
32 23 45
87 36 49
80M
MIA
M66
M40
79 56 56
70 30 1
33 59 36
86 15 98
S0I9
BMl
BOM
SIM
81 26 17
71 59 11
35 91 26
84 54 13
SIM7
BOM
B071
BMl
89 55 32
73 98 15
36 50 11
83 33 5
BOriA
BMA
90
Saturn
Pollux
Regulus
Sun
W.
W.
W.
E.
90 20 45
80 52 26
44 13 2
76 48 34
lOriA
MM
un
91 49 38
82 91 6
45 41 30
75 27 51
BOM
BOTS
Boe?
BISI
93 18 99
83 49 45
47 9 56
74 7 9
B0S7
SOTS
B0e7
S4M
94 47 19
85 18 22
48 38 22
72 46 29
SOTS
BO07
BM7
91
Saturn
Pollux
Regulus
Sun
W.
W.
W.
E.
102 11 27
92 41 31
66 0 42
66 3 14
M79
M01
MM
103 40 90
94 10 13
57 29 15
64 42 32
BOM
B071
BOTS
BM9
105 9 16
95 38 58
58 57 51
63 21 48
BOM
BOM
ao7A
B4M
106 38 14
97 7 46
60 26 31
62 1 2
BO07
BOM 1
B07i
S47S 1
99
Regulus
Spica
Sun
W.
W.
E.
67 51 0
13 48 35
55 16 12
M«
MM
S4f7
69 20 19
15 17 37
53 55 0
BM4
BOM
B4M
70 49 30
16 46 48
52 33 43
BOM
BMl
B440
72 18 55
18 16 10
61 12 18
BO09
BOM
BMl
93
Regulus
Spica
Sun
W.
W.
E.
79 48 6
25 45 18
44 93 30
90M
9904
MM
81 18 24
97 15 38
43 1 34
90M
90M
BMi
82 48 52
28 46 8
41 39 19
90M
90n
BBM
84 19 30
30 16 60
40 16 57
90n
94
Regulus
Spica
Sum
W.
W.
E.
91 55 28
37 53 7
33 23 13
90M
9099
MM
93 27 15
39 94 58
39 0 5
MIS
MI9
BBM
94 59 14
40 57 9
30 36 50
IBM
BMl
BBM
96 31 25
42 29 19
99 13 99
asM
99
Sun
a Pegasi
Jupiter
aAnetis
W.
E.
E.
E.
96 26 92
52 25 3
57 13 57
92 19 97
90M
9M0
9M4
97 57 38
50 55 32
55 34 7
90 39 43
9Bn
BOI0
BAM
SAM
99 29 17
49 96 90
53 54 7
88 59 49
»n
BOM
SAM
SAM
31 1 14
47 57 32
69 13 68
87 19 43
9BM
SAM
80
Sun
a Pegasi
Jupiter
a Arietis
W.
W.
E.
E.
38 45 1
40 42 14
43 50 35
78 56 48
9017
Mrr4
9MB
40 18 98
39 17 32
42 9 96
77 15 46
9887
MM
SI07
SIM
41 59 9
37 53 53
40 28 8
75 34 36
SI0T
43 96 1
36 31 97
38 46 39
73 53 18
MIS
SMA
SMS
SMS 1
31
Sun
Jupiter
a Arietis
Aldebaran
W.
E.
E.
E.
51 18 6
30 17 16
65 24 52
96 8 10
9T1B
94M
SIM
SIM
59 53 2
28 35 0
63 42 51
94 26 28
9TH
9440
SIM
S474
54 28 8
26 52 35
62 0 44
92 44 38
91M
SI44
SIM
SIS7
66 3 91
95 10 9
60 18 32
91 9 30
sns 1
SOS .
SIM
SMt
XYIIL DECEMBER, 1856.
21T
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
^4
16
Sttr'iNuM
PorfttoiL
Midnight.
P.L.
of
DUt
XVh.
P.L.
of
DfC
XXP^-
P.L.
of
DUL
xvmii^
P.L.
of
Dift
Sair
E.
O 1 II
115 22 31
wn
O « II
113 56 59
8949
O 1 M
112 31 40
8987
O 1 M
111 6 38
srri
17
Aldebaran
Satarn
Pollax
Spica
Sun
W.
W.
W.
E.
E.
94 38 24
60 22 12
50 57 3
39 62 46
104 5 30
8009
mi
99U
9H3
SSS7
96 8 34
61 53 39
52 28 26
38 21 21
102 42 1
8014
9961
9964
9084
8860
97 38 SO
63 24 63
53 59 36
36 50 10
101 18 47
9096
9961
9985
9965
8861
99 8 11
64 55 55
55 30 32
35 19 14
99 55 46
8088
9960
9974
9975
8373
18
Satarn
Pollax
Re^alos
Spica
Sun
W.
W.
W.
E.
E.
72 28 20
63 2 17
26 27 18
27 47 34
93 3 35
soil
S019
a047
8091
8490
73 58 19
64 32 6
27 56 33
26 17 47
91 41 41
8018
8096
8059
80»
849f7
75 28 9
66 1 47
29 25 42
24 48 10
90 19 55
8094
808S
8056
S0S5
8436
76 57 52
67 31 19
30 54 46
23 18 41
88 58 18
8080
8089
8000
8049
8449
19
Saturn
Pollux
Regulus
Sun
W.
W.
W.
E.
84 24 43
74 57 13
38 18 51
82 12 2
8064
8004
8078
8470
85 53 49
76 26 7
39 47 28
80 51 4
80S7
8067
8081
8478
87 22 51
77 54 57
41 16 1
79 30 10
8060
8070
8069
S4n
88 51 49
79 23 43
42 44 32
78 9 20
8009
SOTS
8063
8480
90
Saturn
Pollux
Regains
Sun
W.
W.
W.
E.
96 16 8
86 46 59
50 6 48
71 25 50
8080
8078
8066
8488
97 44 56
88 15 36
51 35 15
70 5 12
8008
8078
8066
8486
99 13 45
89 44 13
53 3 42
68 44 34
8087
son
8065
8467
100 42 35
91 12 51
54 32 10
67 23 55
8066
8075
8089
S486
31
Saturn
Pollux
Regains
Sun
W.
W.
W.
E.
108 7 16
98 36 37
61 55 15
60 40 11
80ft5
8069
8060
SITS
109 36 21
100 5 33
63 24 3
59 19 17
8069
8060
8064
8471
111 5 30
101 34 33
64 52 57
57 58 20
8047
8054
8060
8466
112 34 45
103 3 39
60 21 55
56 37 18
8040
8049
8055
8463
32
Regulus
Spica
Sun
W.
W.
E.
73 48 28
19 45 40
49 50 48
8096
8096
8483
75 18 0
21 15 20
48 29 11
8016
8018
8499
76 47 59
22 45 10
47 7 26
8011
8010
8493
78 17 58
24 15 10
45 45 36
8004
8004
8417
33
Regulus
Spica
Sun
w.
E.
85 50 19
31 47 42
38 54 28
9909
9860
8389
87 21 19
33 18 46
37 31 51
9064
9960
sn5
88 52 30
34 50 1
36 9 5
9944
9941
8809
90 23 53
36 21 28
34 46 13
9936
9931
8889
24
Regulus
Spica
Sun
W.
W.
E.
98 3 50
44 1 48
27 50 3
9866
9861
8886
99 36 27
45 34 31
26 26 32
9675
9871
8889
101 9 18
47 7 27
25 2 58
9865
9600
8380
102 42 22
48 40 37
23 39 20
. 9656
9849
8397
29
Sun
a Pegasi
Jupiter
a Arietis
W.
E.
E.
E.
32 33 29
46 29 13
50 33 37
85 39 28
9801
8110
9S80
9685
34 5 59
45 1 26
48 53 6
83 59 2
9879
8160
9594
9597
35 38 46
43 34 17
47 12 26
82 18 27
9667
S166
9517
9591
37 11 47
42 7 51
45 31 35
80 37 43
9657
8997
9510
9518
30
Sun
a Pegasi
Jupiter
a Arietis
W.
W.
E.
E.
45 0 4
35 10 23
37 5 4
72 11 51
9610
8649
9478
9485
46 34 20
33 50 53
35 23 20
70 30 17
9809
8048
9«79
9480
48 8 45
32 33 10
33 41 27
68 48 36
9796
8763
9466
9476
49 43 20
31 17 29
31 59 25
67 6 48
9786
8899
9460
9470
31
Sun
Jupiter
a Arietis
Aldebaran
w.
E.
E.
E.
57 38 43
23 27 23
58 36 14
89 20 33
9759
9434
9459
9466
59 14 14
21 44 36
56 53 53
87 38 20
9745
9480
9446
9469
60 49 54
20 1 44
55 11 27
85 55 59
97S9
9495
9445
9448
63 25 42
18 18 45
53 28 57
84 13 32
9788
9491
94a
94IS
28
218
VENUS, 185«.
JANUARY.
FEBRUARY.
1
gheenwich mean time.
1
1
GREENWICH MEAN TIME.
^SSJ^t"*
Tar. of
H.A.
fori
hour.
Apparent
DocliiutUoii.
Var.of
fori
boar.
Noon.
Meridian
P«-«ge.
Apparent
Right
AaceuMiioa.
Tar. of
R-A.
fori
hoar.
Apparent
DwUnadon.
Var.of
Dee.
tori
hoar.
Noon.
II
7.33
MerMtaB
Paa»«a.
Noon.
Noon
o
-16
Noon.
Noon.
Noon.
Noon,
1
h. m. s.
15 32 9.97
11.292
1 »
8 89.9
42.14
Ii. m.
20 61.4
I
h. m. a.
18 2 42.92
1.
13.785
0 f H
-21 42 15.9
h. B.
21 20.3
2
15 36 41.90
.363
16 25 25.0
41.53
20 62.0
2
18 7 50.04
.807
21 44 51.6
6.76
21 21.5
3
15 41 15.33
.418
16 41 52.8
40.73
20 62.6
8
18 12 57.66
.836
21 46 51.4
4.93
21 22.6
4
15 45 60 OS
.477
16 58 1.7
39.99
20 68.8
4
18 18 6.71
.643
21 48 14.7
9.71
21 28.8
6
15 50 26.29
.MO
17 13 52.7
39.33
20 64.0
6
18 28 14.12
.658
21 49 1.6
-1.18
21 25.0
6
15 55 8.99
ll.flOl
17 29 25.0
38.43
20 54.7
6
18 28 22.88
13.870
21 49 11.6
+0.36
21 261
7
15 59 43.15
.663
17 44 37.6
37.59
20 55.4
7
. 18 33 31.90
.891
21 48 44.6
1.91
21 27.4
8
16 4 23.78
.729
17 59 29.9
36.73
20 56.1
8
18 38 41.13
.886
21 47 40.7
303
21 23.6
9
16 9 5.81
.760
18 14 0.9
35.83
20 56.9
9
18 43 60.50
.893
21 45 69.8
4.99
2129.8
10
16 13 49.25
.636
18 28 9.7
34.89
20 57.7
10
18 48 59.97
.896
21 48 41.5
6.54
21 81.0
11
16 18 34.05
11.A94
18 41 55.6
33.91
20 58.6
11
18 54 9JM)
13.896
21 40 45.9
80)9
2182.2
12
16 23 20.19
11.932
18 55 17.7
32.91
20 59.4
12
18 57 19.01
.894
21 37 18.1
9.64
21 88.4
13
16 28 7.70
13.007
19 8 15.5
31.88
21 0.2
13
19 4 28.44
.890
21 88 8.0
11.19
21 84.7
14
16 32 56.52
.061
19 20 48.1
30.82
21 1.1
14
19 9 37.76
.885
21 28 15.8
19.74
2185.9
15
16 87 46.61
.113
19 32 54.7
29.73
21 2.1
15
19 14 46.92
.877
21 22 51.4
14.98
2187.2
16
16 42 37.93
13.165
19 44 84.7
28.58
21 8.0
16
19 19 55.87
13.867
21 16 50.2
15.83
2188.4
17
16 47 30.50
.316
19 55 47.2
27.44
21 8.9
17
19 25 4.56
.856
21 10 12.0
17.36
2189.6
18
16 52 24.26
.965
20 6 31.8
26.26
21 4.9
18
19 30 12.96
.643
21 2 67.0
18.86
21 40.8 1
19
16 57 19.20
.313
20 16 47.6
25.04
21 5.9
19
19 35 21.02
.837
20 66 6.6
90.40
21 42.0
20
17 2 15.28
.360
20 26 84.1
23.81
21 6.9
20
19 40 28.69
.810
20 46 87.6
31.93
21 48.1
21
17 7 12.46
13.403
20 35 60.6
23.55
21 8.0
21
19 45 85.92
13.791
20 87 88.5
99.42
21 44.2
22
17 12 10.70
.448
20 44 36.5
31.96
21 9.0
22
19 60 42.68
.771
20 27 68.5
24.91
21 45.4 1
23
17 17 9.98
.491
20 52 51.3
19.96
21 10.1
23
19 65 48.93
.749
20 17 88.0
36.39
2146.6
24
17 22 10.27
.333
21 0 34.4
18.63
21 11.1
24
20 0 54.65
.796
20 6 47.1
97.85
21 47.8
25
17 27 11.51
.670
21 7 45.2
17.36
21 12.2
25
20 6 59.80
.700
19 55 21.2
39.30
2148a>
26
17 82 18.64
13.607
21 14 23.4
15.90
21 18.8
26
20 11 4.31
19.674
19 48 20.7
30.74
21 50.0
27
17 87 16.66
.642
21 20 28.1
14.49
21 14.5
27
20 16 8.16
.646
19 30 45.9
33.15
21 61.1
28
17 42 20.49
.673
21 25 59.0
13.07
21 16.6
28
20 21 11.83
.617
19 17 87.8
33.65
21 52.2
29
17 47 25.08
.706
21 30 55.6
11.64
21 16.7
29
20 26 18.80
.567
19 8 55.3
34.94
21 58.8
30
17 52 30.88
.735
21 85 17.6
10.16
21 17.9
80
20 31 15.51
.555
18 49 40.1
36.31
21 64.4 !
1
31
17 57 86.84
13.761
21 89 4.4
8.71
21 19.1
31
20 86 16.45
19.533
18 84 62.4
37.66
21 56.4
32
18 2 42.92
13.785
-21 42 16.9
7.33
2120.8
82
20 41 16.57
13.489|-18 19 82.6' 86.96
21 56.5 i
DV
otWmlh, U^
ech.
9.8
1
1th.
N
9.4
leth.
9.0
SIH.
II
8.7
M
^th.
aift
ItajorHMMoath, 8A.:
lOlh.
II
7.6
15th.
u
7.4
MCh.
II
7.2
M«h.
•
7.0
«.8i
Se
midiam. io.2
• 1 i«
B.4 8.1
SernidUuneter 7.9
Uor. Pat. lO.S
9.9
9.5
9.1
8.8
B.5| 8.2
Uor. PuraUmx 7.9
7.7
7.5
7.8
7.1
6.9
VENUS, 1856.
219
MARCH.
APRIL.
GREENWICH MEAN TIME.
Apparent
Right
Noon.
h. m. ■.
20 31 15.51
20 36 16.45
20 41 16.57
20 46 15.86
20 51 14.81
20 56 11.91
21 1 8.60
21 6 4.39
21 10 59.27
21 15 58.25
21 20 46.27
21 25 38.84
21 80 29.48
21 85 19.71
21 40 9.01
21 44 57.88
21 49 44.88
21 54 81.89
21 59 17.08
22 4 1.77
22 a 45.67
22 IS 28.74
28 18 10.97
22 22 52.88
28 27 82.99
22 82 12.84
22 86 51.92
28 41 80.26
22 46 7.91
22 50 44.89
22 55 21.19
22 59 56.85
Tar. of
R.A.
fori
hour.
Noon.
1.
13.M3
.523
.489
.453
.418
13.881
.843
.805
.308
.939
13.189
.150
.113
.074
13.034
11.994
.958
.931
.888
.847
11.813
.777
.744
.709
.076
11.^
.018
.583
.554
.538
11.499
11.473
Apparent
Declination.
Noon,
-18 49 40.1
18 84 52.4
18 19 82.6
18 8 41.4
17 47 19.1
17 80 26.4
17 18 8.8
16 55 11.9
16 86 51.2
16 18 2.4
15 58 46.0
15 89 2.7
15 18 53.1
14 58 17.7
14 87 17.3
14 15 62.4
18 54 3.7
18 81 51.8
13 9 17.4
12 46 21.1
12 28 8.6
11 59 25.4
11 85 27.2
11 11 9.8
10 46 83.6
10 21 89.4
9 56 26.0
9 80 59.9
9 5 16.0
8 89 16.8
8 18 2.9
- 7 46 35.1
Var.of
Deo
fori
hour.
Noon.
36.31
37.66
88.98
40.38
41.50
43.81
44.05
45.30
46.45
47.61
48.71
49.85
50.94
51.99
53.03
54.08
55.01
55.95
56.89
57.79
58.66
59.51
60.33
61.13
61.88
63.62
63.33
64.00
64.64
65.37
65.87
66.43
Meridian
Paaaaga.
h. m.
21 54.4
21 55.4
21 56.6
21 67.6
2168.5
21 59.6
22 0.6
22 1.5
22 2.4
22 8.8
22 4.2
22 6.2
22 6.1
22 7.0
22 7.8
22 8.7
22 9.6
22 10.8
22 11.1
22 11.9
22 12.7
22 18.5
22 14.2
22 14.9
22 15.8
22 16.6
22 17.2
22 17.8
22 18.5
22 19.2
22 19.8
22 20.5
GREENWICH MEAN TIME.
Ascension.
Var.of
R.A.
fori
hour.
Noon.
Noon.
h. m s.
s.
22 59 56.83
11.473
28 4 81.91
.449
23 9 6.40
.435
23 13 40.32
.403
23 18 13.71
.380
23 22 46.61
11.361
23 27 19.05
.343
28 31 51.05
.334
23 36 22.64
.307
28 40 58.86
.292
28 45 24.76
11.381
28 49 55.33
.360
28 54 25.67
.258
23 58 55.77
.250
0 8 25.70
.243
0 7 55.48
11.338
0 12 23.16
.333
0 16 54.76
.331
0 21 24.84
.331
0 25 53.91
.331
0 30 23.52
11.336
0 84 53.24
.343
0 89 23.10
.348
0 48 58.14
.356
0 48 23.89
.365
0 62 63.88
11.376
0 57 24.65
.388
1 1 55.78
.303
1 6 27.17
.318
1 10 59.01
.835
1 15 81.27
11.354
1 20 4.01
11.874
Apparent
Declination.
Var.of
Dec.
fori
hour.
Noon.
Noon.
o 1 a
-7 46 35.1
66.43
7 19 54.2
66.96
6 58 0.8
67.^1
6 25 55.7
67.94
6 58 89.6
68.39
6 81 18.0
68.81
5 8 86.8
69.30
4 85 51.6
69.55
4 7 68.2
69.88
8 89 57.2
70.19
3 11 49.3
70.46
2 48 85.2
70.70
2 15 15.6
70.92
1 46 61.0
71.11
1 18 22.2
71.37
0 49 49.9
71.40
-0 21 14.7
71.51
+0 7 22.7
71.59
0 86 1.6
71.64
1 4 41.4
71.66
1 88 21.4
71.66
2 2 1.0
71.63
2 80 89.5
71.57
2 59 16.2
71.48
8 27 60.4
71.36
8 66 21.5
71.32
4 24 48.8
71.04
4 58 11.5
70.83
5 21 28.9
70.60
6 49 40.8
70.34
6 17 46.2
70.05
+6 45 42.6
69.73
Meridian
Passage.
h. m.
22 20.5
22 21.1
22 21.7
22 22.8
22 22.9
22 28.5
22 24.1
22 24.7
22 25.8
22 25.9
22 26.4
22 27.0
22 27.5
22 28.1
22 28.7
22 29.2
22 29.8
22 80.3
22 80.9
22 81.4
22 32.0
22 82.5
22 38.1
22 38.7
22 84.2
22 84.8
22 35.4
22 85.9
22 86.5
22 87.1
22 87.7
22 88.8
Daj of tha Month, 6th.
Semidiameter 5.7
Hor. Parallax 6.7
11th.
6.5
6.6
16th.
6.4
6.4
aist.
6.3
6.8
S6th.
6.1
6.2
3l8t.
Daj of the Month, 6th.
6.0
6.1
Semidiameter
Hor. Parallax
6.9
5.9
10th.
5.8
5.8
16th.
6.7
6.7
20th.
6.6
6.7
ii5th.
5.5
6.G
30th.
5.5
5.5
220
VENUS, 1856.
MAY.
JUNE. 1
1
■n
GREENWICH MEAN TIME.
1
GREENWICH MEAN TIME. |
Vw.of
RJL
fori
hoar.
lisnsi
YTJOt
Dec.
fori
hoar.
Mtridka
Aacension.
Var.of
R.A.
fori
hour.
dJcSSShx.
JOTJOt
Dec.
fori
hour.
IMte
B
JVmw.
Noom.
Noon,
Noon,
s
Noon.
Noon,
Noon,
Noon,
h. m. •.
•.
0 1 «
H
h. m.
h. m. ■.
B.
0 1 u
h. m.
1 15 81.27
11.M4
+ 6 17 43.2
70.06
22 87.7
1
8 42 81.27
19.609
+18 48 28.2
46.96
23 3.0
120 4.01
.874
6 45 42.6
60.79
22 38.8
2
8 47 82.05
.880
19 6 89^2
U.04
23 4.1
1 24 87.26
.SM
7 13 81.9
60.87
22 89.0
8
8 52 88.95
.609
19 24 25.0
43.77
28 6.2
1 29 11.02
.418
7 41 12.5
88.90
22 89.6
4
8 57 86.95
.648
19 41 40.0
49.47
28 6.3
1 88 45.83
.449
8 8 48.6
68.80
22 40.2
5
4 2 41.05
.804
19 58 28.7
41.16
23 7.6
1 88 20.25
11.488
8 86 4.4
68.14
22 4a9
6
4 7 46.25
19.788
20 14 35.5
80.81
28 8.6
1 42 55.81
.486
9 8 14.2
87.87
22 41.6
7
4 12 52.48
.781
20 90 14.4
88.48
23 9.8
1 47 32.02
.698
9 90 12.8
67.16
22 42.2
8
4 17 69.73
.894
20 45 20.0
87.09
23 11.0
152 8.91
•889
9 56 58.1
66.68
22 42.9
9
4 28 8.08
.866
20 59 51.6
86.60
23 12.2
1 56 46.58
.888
10 23 80.7
66.07
22 48^6
10
4 28 17.84
.008
21 18 48.8
34.16
28 13.4
2 1 24.92
11.618
10 49 49.4
68.48
22 44.3
11
4 38 27.68
19.048
21 27 11.0
89.69
28 14.6
2 6 4.10
.848
11 15 58.8
64.87
22 44.9
12
4 88 88.86
19.987
21 89 57.5
81.18
23 16.9
2 10 44.10
.884
11 41 48.0
64.99
22 46.7
13
4 48 51.02
18.096
21 52 7.9
98.67
23 17.2
2 15 24.98
.710
12 7 16.2
68.88
22 46.5
14
4 49 4.08
.069
22 8 41.7
98.18
23 18.5 1
2 20 6.68
.788
12 82 82.6
89.89
22 47.2
15
4 54 18.01
.007
22 14 88.3
96.67
23 19.8
2 24 49.24
11.798
12 57 81.8
69.00
22 48.0
16
4 59 82.77
18.189
22 24 57.8
94.90
23 21.1
2 29 82.78
.8U
13 22 18.1
6148
22 48.8
17
6 4 48.82
.164
22 34 88.1
98.40
23 22.4 j
2 84 17.28
.878
18 46 85.5
60.89
22 49.6
18
5 10 4.63
• 104
22 48 40.8
91.78
23 23.7
19
2 89 2.76
•018
14 10 88.4
80.88
22 50.6
19
5 15 21.65
.998
22 52 8.6
90.16
23 25.1
20
2 43 49.28
11.888
14 84 21.2
88.88
22 51.3
20
5 20 89.88
•981
22 59 47.6
18.61
23 26.5
21
2 48 86.70
19.001
14 67 43.1
87.06
22 62.2
21
6 25 57.69
18.978
28 6 51.9
16.84
23 27.8
22
2 53 25.25
4M8
15 20 43.5
87.08
22 53.1
22
5 81 16.68
.801
28 13 16.1
18.17
23 29.2
28
2 58 14.89
•001
15 43 21.7
88.11
22 54.0
28
5 86 86.15
.890
28 19 0.0
18U8
28 80.6 1
24
3 3 5.60
•188
16 6 86.7
68.18
22 54*9
24
5 41 56.06
080
28 24 3.2
11.78
23 82U)
25
3 7 57.40
•180
16 27 27.8
84.18
22 56.8
25
i 47 16.44
.887
28 28 25.4
10.06
28 33.4
26
3 12 60.80
19.998
16 48 54.8
68.10
22 56.8
26
6 52 37.28
18.878
28 32 6.2
8.84
28 34.8
27
8 17 44.29
.974
17 9 56.8
694M
22 57.8
27
5 57 58.34
.888
23 36 5.7
6.81
28 36.2
28
3 22 89.44
•891
17 80 82.8
80.04
22 58.8
28
6 3 19.-72
.808
28 37 23.7
4.87
23 37.7
29
3 27 35.78
.868
17 50 42.1
40.89
22 59.8
29
6 8 41.38
•404
23 38 59.8
8.18
23 39.1
SO
8 32 83.12
.414
18 10 24.0
48.66
23 0.8
80
6 14 3.11
-409
23 89 54.0
1.88
23 40.6
31
8 37 31.62
19U81
18 29 37.9
47.48
23 1.9
81
6 19 24.98
18^419
28 40 6.3
0.88
23 42.0 {
32
3 42 81.27
19.808
^18 48 23.2
48.98
28 8.0
J2
6 24 46.88
18^419
+23 89 86.7
9.19
23 48.4
Dnjofltelloath, Mh.
lOMi.
tMh.
5.2
Ih.
w
^.2
Mlh.
DijonteMbnlh, 4lh.
9(
6.0
14«h.
6.0
u
6.0
mm^
8e
midUmeter 5.4
5.3
II
5.3
5.1
Sen
nidUuneter 5.1
5.0
9
4.9 1
Uc
NT. PwmlUx 5.4
6.4
5.8
5.2
(
».2
5.2
Hoi
r. PwmlUx 5.1
6.1
6.0
5.0
6.0
1
VENUS, 1856.
221
JULY.
AUGUST.
I
i
1
2
8
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
80
31
82
GREENWICH MEAN TIME.
^?s?*
Norn.
h. m. ■.
6 19 24.98
6 24 46.88
6 80 8.77
6 85 80.59
6 40 52.24
6 46 13.68
6 51 84.86
6 56 55.72
7 2 16.22
7 7 86.30
7 12 55.92
7 18 15.01
7 23 33.52
7 28 51.37
7 84 8.59
7 39 25.18
7 44 40.87
7 49 55.88
7 55 9.95
8 0 23.20
8 6 86.56
8 10 47.00
8 15 57.48
8 21 6.99
8 26 15.61
8 31 22.98
8 86 29.41
8 41 84.78
8 46 89.07
8 51 42.27
8 56 44.84
9 1 45.28
Yw.af
fori
hoar.
Noon,
13.419
.413
.410
.401
.897
lt.388
.810
•801
.848
•8t1
18.806
.388
.357
.980
.908
18.179
.140
.106
•070
18.088
19.<
•f
.016
.877
19.789
.746
.701
.6M
.010
19.M8
19.810
-^PJ
Noom.
-h28 40 6.3
28 89 86.7
23 88 24.7
28 86 80.5
28 88 54.4
28 80 86.6
28 26 86.7
28 21 55.0
28 16 81.8
28 10 27.1
28 8 41.8
22 56 14.5
22 48 7.8
22 89 19.6
22 29 51.9
22 19 44.6
22 8 57.8
21 57 82.0
21 45 27.9
21 82 45.8
21 19 26.1
21 6 29.2
20 50 55.7
20 85 46.0
20 20 0.8
20 8 40.5
19 46 45.8
19 29 17.2
19 11 15.4
18 52 41.1
18 88 84.7
+18 18 56.9
TnMt
Dee.
fori
boor.
iViMNI.
-0.88
9.19
8.88
8.88
7.87
9.19
10.87
19.60
14J8
18.08
17.78
91.14
99.89
34.48
98*18
97.78
99.87
84.10
87.16
88.84
40.11
41.88
49.98
44.80
48.75
47.09
48.49
49.71
PUMf*.
h. m.
28 42.9
28 48.4
28 44.8
28 46.2
28 47.6
28 49.1
28 50.5
28 51.9
28 58.3
28 54.6
28 56.0
28 67.4
28 58.7
0 0.1
0 1.4
0 2.7
0 4.0
0 5.8
0 6.6
0 7.8
0 9.1
0 10.8
0 11.5
0 12.7
0 18.9
0 15.0
0 16.2
0 17.8
0 18.4
0 19.5
0 20.6
GREENWICH MEAN TIME.
^"582?*
Tar. of
fori
hour.
Noou,
Noon,
h. m. a.
■• 1
9 1 45.28
13.518
9 6 45.10
.470
9 11 48.81
.433
9 16 41.87
.874
9 21 87.79
.337
9 26 88.07
13.380
9 31 27.23
.383
9 36 20.26
.188
9 41 12.18
.140
9 46 2.99
.094
9 50 52.71
19.049
9 56 41.86
19.008
10 0 28.96
11.969
10 6 16.58
•010
10 10 IM
.877
10 14 45.66
11.888
10 19 29.24
.797
10 24 11.91
.780
10 28 58.69
.799
10 88 84.58
.880
10 88 14.68
11.889
10 42 58.86
.818
10 47 82.30
.068
10 52 10.00
.888
10 56 46.99
.897
11 128.80
11.498
11 5 58.96
.478
11 10 84.00
.447
11 15 8.45
•AM
11 19 42^
.408
11 24 15.81
11.888
11 28 48.77
11.884
IkSSmSoa.
Tarxrf
Dee.
fori
hoar.
Noom,
If
40.71
Noon,
O 1 «
+18 18 56.9
17 58 48.5
50.98
17 88 10.1
53.31
17 12 2.3
53.40
16 50 25.9
54.80
16 28 21.6
55.74
16 5 50.2
58.84
15 42 52.2
57.95
15 19 28.5
59.01
14 55 39.7
60.04
14 81 26.6
81.01
14 6 49.8
63.01
18 41 50.1
89.05
18 16 28.2
68.86
12 50 44.8
64.74
12 24 40.8
88.88
11 58 16.8
86.41
11 81 88.8
87.90
11 4 81.1
87.96
10 87 11.1
68.69
10 9 84.0
69U0
9 41 40.4
70.06
9 18 81.1
70.70
8 45 6.7
71.31
8 16 28.0
71.99
7 47 85.8
79.44
7 18 80.8
79.96
6 49 13.7
73.46
6 19 45.4
73.91
6 50 6.8
74.38
6 20 17.8
74.73
+ 4 50 19.8
75.00
h. m.
0 20.7
0 21.8
0 22.8
0 28.9
0 24.9
0 25.9
0 26.8
0 27.7
0 28.6
0 29.6
0 80.4
0 81.3
0 82.1
0 88.0
0 83.8
0 84.6
0 85.8
0 36.0
0 86.8
0 87.6
0 88.8
0 89.1
0 89.7
0 40.4
0 41.1
0 41.8
0 42.4
0 43.1
0 43.7
0 44.3
0 44.9
0 45.5
DmrorttMMntti, 4kth.
Semidiameter 4.9
Hor. Parallax 5.0
4.9
5.0
14kth.
4.9
4.9
19th.
N
4.9
4.9
4.9
4.9
«9lh.
DUOfttMltaitb, Sd.
4.9
5.0
Semidiameter
Hor. Parallax
4.9
5.0
4.9
6.0
13th.
5.0
5.0
18th.
5.0
6.0
n
5.0
6.1
Mth.
5.1
5.1
222
VENUS, 1856.
SEPTEMBER.
OCTOBER. 1
1
GREENWICH MEAN TIME.
GREENWICH MEAN TIME.
XT"^
Var.of
R.A.
fori
boar.
DtdSMttoo.
Var^f
Deo
fori
bour.
Noon.
M«ridkn
1
Aaeeiuion.
Var.of
R.A.
fori
boor.
ilSSSSL
YTJOt
Dm.
fori
boar.
No0n.
Maridka
Noim.
iVpVA.
Noon,
Noon.
Noon.
Noon.
b. m. •.
•.
0 1 H
u
b. m.
b. m. •.
■.
0 1 •
h. m.
1
11 28 48.77
11.864
•(- 4 50 19.8
76.09
0 45.6
1
18 45 4.80
11.619
-10 18 89.6
71.80
1 8.4
2
11 88 81.29
.S47
4 20 12.9
78.49
0 46.1
2
18 49 48.39
.646
10 47 15.9
71.91
1 4.2
8
11 87 58.48
.SS9
8 49 59.0
78.79
0 46.7
8
18 54 28.38
.081
11 15 87.8
70.60
1 4.9
4
11 48 25.21
an
8 19 88.2
76.99
0 47.8
4
18 69 4.14
.790
11 48 44.5
69.94
1 6.6
6
11 46 56.68
a05
2 49 11.2
76.98
0 47.9
6
14 8 45.85
.787
12 11 84.8
69.94
1 6.4
6
11 61 27.86
11.994
2 18 88.9
76.44
0 48.6
6
14 8 28.49
11.797
12 89 8.0
66.81
1 7.2
7
11 55 58.82
.986
1 48 1.8
76.69
0 49J0
7
14 18 12.09
.887
13 6 28.8
67.78
1 7.9
8
12 0 29.60
.979
1 17 20.8
76.77
0 49.6
8
14 17 66.68
.879
18 83 20.0
66.96
1 8.7
9
12 5 0.21
.979
0 46 86.6
76.00
0 60.2
9
14 22 42.80
.998
18 69 67.4
66.14
1 9.6
10
12 9 80.71
•969
+ 0 15 50.0
76.98
0 60.7
10
14 27 28.97
11.967
14 26 14.6
68.80
1 10.4
11
12 14 1.14
11.968
- 0 14 68.8
77.08
0 61.8
11
14 82 16.70
19.011
14 62 10.8
64.80
1 11.8 ;
12
12 18 81.56
.968
a 46 47.6
77.06
0 51.9
12
14 87 6.52
.088
16 17 45.1
68.46
1 12.1 1
13
12 23 2.01
.970
1 16 87.8
77.66
0 52.4
18
14 41 65.48
.106
15 42 57.0
69.81
1 18.0
14
12 27 82.58
.974
1 47 26.7
77.08
0 68.0
14
14 46 46.59
.188
16 7 45.6
61.89
1 18.9 1
15
12 32 8.16
.980
2 18 14.9
76.97
0 68.6
15
14 61 88.88
.901
16 82 10.2
60.81
1 14.9 '
1
16
12 86 83.94
11.987
2 49 1.8
76.88
0 54.1
16
14 66 88.24
19.980
16 66 9.9
89.48
1
1 15.9
17
12 41 4.92
•996
8 19 45.1
76.76
0 54.7
17
10 1 26.85
.801
17 19 48.9
88.87
1 16.8
18
12 45 86.15
.807
8 60 25.7
76.60
0 55.8
18
16 6 22.67
.869
17 42 51.5
87.98
1 17.8
19
12 50 7.69
.891
4 21 2.2
76.48
0 55.9
19
16 11 19.76
.404
18 6 82.0
86.11
1 18.8
20
12 54 89.57
•886
4 61 84.0
76.91
0 66.6
20
16 16 18.07
.486
18 27 44.6
84.98
1 19.8 .
21
12 59 11.82
11.889
6 22 0.4
78.97
0 67.1
21
16 21 17.61
19.806
18 49 28.4
88.71
1 20.9
22
18 8 44.48
•871
5 62 20.5
78.70
0 67.7
22
16 26 18.87
.887
19 10 42.7
89.46
122.0 '
28
18 8 17.61
.891
6 22 88.8
78U0
0 58.8
28
16 81 20.40
.611
19 81 26.7
81.16
123.1
24
18 12 51.26
.414
6 62 89.5
78.06
0 58.9
24
16 86 28.70
.669
19 51 89.6
49.68
1 24.2 '
25
18 17 25.46
•487
7 22 86.7
74.69
0 69.5
26
16 41 28.28
.714
20 11 20.9
48.84
125.4
1
26
18 22 0.24
11.469
7 62 24.7
74.80
1 9.2
26
16 46 88.98
19.768
20 80 29.7
47.17
126.6
27
18 26 85.66
.490
8 22 2.7
78.86
I 9.8
27
16 51 40.96
.818
20 49 5.3
48.77
127.7'
28
18 81 11.75
.818
8 51 80.0
78U0
1 1.5
28
16 56 49.11
.868
21 7 6.9
44.84
128.9
29
18 35 48.52
.547
9 20 45.8
79.90
1 22
29
16 1 58.49
.918
21 24 83.5
49.87
180.1
80
18 40 26.02
.879
9 49 49.8
79.87
1 2.8
80
16 7 9.06
19.964
21 41 24.8
41.88
1 81.8
31
18 45 4.80
11.619
10 18 89.6
71.80
1 8.4
81
16 12 80.75
18.010
21 67 40.0
89.67
1 82.6 i
82
18 49 48.89
11.646
-10 47 15.9
71.91
1 4.2
82
16 17 83.63' 18.068
-22 18 18.4
86^9
I 88.81
Dijoritellbnlh, M.
f
M
5.1
H
5.2
inn.
5.2
M
5.8
mm.
DiqrontellMitb, M.
r
Ih.
5.5
IMk.
imi.
5.6
Mi.
•
6.7
•nk.
6.3
Sei
nidbuneter 5.4
«
6.5
•
5.8
Uor. PanUUx 5.I
5.2
5.2
5.8
6.3
6.4
U«
r. Panllax 6.4
5.5
6.6
5.6
6.7
6.8
VENUS, 1856.
223
NOVEMBER.
DECEMBEE.
GREENWICH MEAN TIME.
GREENWICH MEAN TIME.
1
1
1
AiceiiBioa.
Var. of
R.A.
fori
hour.
DedKaSon.
Tarof
Doc.
fori
hour.
Meridian
P«-«ge.
Aaoension.
Var. of
RJl.
fori
hour.
Apparent
DeclWlon.
Var.of
Deo.
fori
hour.
Noon.
II
Meridian
PasBage.
Noon.
Noon.
Noon,
Noon.
It
Noon.
Noon.
Noon.
h. m. •.
•.
0 1 B
h. m.
h. m. •.
1.
0 » M
h. m.
1
16 17 33.53
lt.OM
-22 13 18.4
38.83
183.8
1
18 58 46.58
13.435
-24 88 9.5
15.00
2 16.9
2
16 22 47.41
.100
22 28 19.3
30.74
185.2
2
19 4 8.67
.404
24 31 32.6
17.45
2 18.4
8
16 28 2.36
.145
22 42 42.1
35.14
136.6
8
19 9 80.01
.879
24 24 12.0
19.37
2 19.8
4
16 38 18.32
•IM
22 56 26.2
33.53
137.8
4
19 14 50.53
.337
24 16 7.8
91.00
2 21.1
5
16 38 85.25
.M5
23 9 31.0
31.87
139.1
6
19 20 10.18
.309
24 7 20.5
99.60
2 22.4
6
16 48 53.18
lt.90S
23 21 55.9
30.80
140.4
6
19 25 28.90
13.360
23 67 50.6
94.03
2 233
7
16 49 11.8St
.390
23 83 40.5
38.63
141.8
7
19 80 46.63
.317
23 47 38.5
90.87
2 25.1
8
16 54 31.52
.3Sft
23 44 44.0
30.78
148.2
8
19 36 8.81
.179
23 36 44.5
98.11
2 26.5
9
16 69 51.95
.307
23 55 6.1
35.05
144.6
9
19 41 18.89
.196
23 25 9.3
99.83
2 27.8
10
17 5 13.13
.897
24 4 46.3
38.30
146.0
10
19 46 88.31
.070
23 12 53.2
31.61
2 29.1
11
17 10 34.99
13.404
24 13 44.3
31.53
147.4
11
19 51 46.55
13.090
22 69 66.9
83.17
2 80.3
12
17 15 57.52
.461
24.2159.4
10.78
148.9
12
19 56 58.55
19.073
22 46 20.9
34.81
2 31.6
18
17 21 20.66
.474
24 29 31.4
17.98
150.8
13
20 2 9.28
.930
22 82 5.8
80U3
2 82.8
14
17 26 44.31
.405
24 36 20.0
10.11
151.8
14
20 7 18.70
.804
22 17 12.2
88.03
2 34.1
15
17 32 8.42
.513
24 42 24.9
14.38
158.2
15
20 12 26.79
.808
22 1 40.7
39.66
2 35.3
16
17 37 82.96
13.633
24 47 45.6
13.43
154.7
16
20 17 33.49
13.760
21 45 81.7
41.14
2 36.5
17
17 42 57.87
.544
24 62 21.9
10.58
1 56.3
17
20 22 38.79
.001
21 28 46.0
49.65
2 87.6
18
17 48 23.08
.556
24 56 13.7
8.73
1 57.8
18
20 27 42.66
.081
21 11 24.5
44.18
2 88.7
19
17 53 48.52
.608
24 59 20.8
0.80
159.3
19
20 32 45.09
.670
20 68 27.8
45.69
2 89.S
20
17 59 14.12
.509
25 1 42.9
4.98
2 0.7
20
20 37 46.05
.608
20 84 56.3
47.03
2 40.9
21
18 4 39.81
13.509
25 3 20.1
8.11
2 2.1
21
20 42 45.53
19.447
20 16 50.9
48.43
2 41.9
22
18 10 5.53
.671
25 4 12.1
-1.33
2 8.6
22
20 47 43.50
.883
19 66 12.2
49.78
2 42.9
23
18 15 81.21
.607
25 4 18.7
+0.00
2 5.1
23
20 52 39.96
.890
19 86 1.1
61.13
2 48.9
24
18 20 56.77
.601
25 8 40.1
9.66
2 6.6
24
20 57 34.88
.960
19 15 18.1
63.44
2 44.9
25
18 26 22.15
.663
25 2 16.4
4.48
2 8.1
25
21 2 28.27
.193
18 54 4.1
53.71
2 45.9
26
18 31 47.28
13.640
25 0 7.6
0.81
2 9.6
26
21 7 20.10
13.197
18 32 20.0
64.95
2 46.8
27
18 37 12.08
.636
24 57 13.6
8.18
2 11.0
27
21 12 10.38
19.009
18 10 6.5
60.10
2 47.6
28
18 42 36.48
.600
24 53 34.6
10.00
2 12.6
28
21 16 59.10
11.997
17 47 24.2
67.34
2 48.5
29
18 48 0.40
.4B6
24 49 10.7
11.93
2 13.9
29
21 21 46.25
.989
17 24 18.9
66.49
2 49.3
30
18 53 23.79
.403
24 44 2.2
18.77
2 15.4
30
21 26 31.85
.807
17 0 86.6
69.69
2 50.2
31
18 58 46.58
18.485
24 38 9.5
16.00
2 16.9
31
21 31 15.88
11.803
16 86 83.2
00.07
2 61.0
32
19 4 8.67
13.404
-24 81 32.6
17.45
2 18.4
32
21 86 58.84| .787
-16 12 4.4
00.73
2 51.9
BiKf of tlM Month, Itt.
6th.
11th.
16th.
M
6.2
S
6.3
seth.
DajofMbnth, lit.
ech. 1
Llth.
If
6.9
16(h.
iilfll.
Mtfa.
31ft
II
7.6
Semidtaraeter 5.9
•1
6.0
M
6 1
6.4
If
Semidiam. 6.6
N
6.7
fi
7.0
II
7.2
N
7.4
Hor. Parallax 5.9
6.0
6.1
6.2
6.3
6.5
Uor. Par. 6.6
6.8
6.9
7.1
7.3
7.5
7.7
224
MARS, 1856.
JANUARY.
FEBEUAUY. 1
GREENWICH MEAN TIME.
GREENWICH BfEAN TIME. |
i
1
Var.of
RJL
fori
hoar.
D^SSSSoBu
V«.of
Dee.
fori
hour.
Meridifta
PiMCe.
Ajcenakm.
Var.of
RJL.
fori
hoar.
Assi.
Tar.or
Dae.
fori
hoor.
Paaaaga.
S
Noon,
Nnm,
Noom.
Noon.
s
Noom.
Noom.
Noon.
a
h. m. 1.
•.
O 1 ff
u
L m.
h. m. a.
a.
o 1 a
h. m.
1
12 34 16.99
t.9U
-1 12 64.2
9S.10
17 61.2
I
18 18 87.01
9.9SS
-4 62 11.7
11.09
16 27.9
2
12 85 60.69
.•77
122 4.7
99.70
17 48.9
2
18 14 29.66
.154
4 66 87.6
10.00
16 24.8
12 37 23.12
.819
1 81 7.8
99.40
17 46.4
8
13 16 20.88
9.07S
6 0 61.4
lOOS
16 21.7
12 88 64.81
.800
140 2.8
99.17
17 44.0
4
18 16 9.12
1.901
6 4 68.1
0.09
16 18.6
12 40 25.66
.700
1 48 60.8
91.00
17 41.6
6
18 16 66.88
.007
6 8 42.7
9.00
16 16.4
12 41 66.81
8.710
1 67 81.1
91.00
17 89.0
6
18 17 40.64
1.099
6 12 19.8
0.70
16 12.2
12 48 24.07
.077
2 6 4.6
91.94
17 86.6
7
18 18 28.85
.785
6 16 44.4
9.95
16 8.9
12 44 61.79
.OSS
2 14 80.6
90.0S
17 84.0
8
18 19 8.96
.040
6 18 66.8
7.79
16 6.6
12 46 18.45
•aeo
2 22 49.8
90.01
17 81.6
9
18 19 42.48
.050
6 21 66.8
7.10
16 2.8
10
12 47 44.01
.049
2 81 0.0
90.97
17 29.0
10
18 20 18.72
.400
6 84 41.6
0.05
16 69.0
12 49 8.46
S.490
2 89 2.4
10.09
17 26.6
11
18 20 62.81
1.S70
6 27 14.7
0.U
16 66.6
12 60 81.78
U47
2 46 66.4
10.07
17 28.9
12
18 21 24.64
.970
6 29 84.9
0.50
16 62.2
12 61 68.92
.soo
2 64 41.7
10.91
17 21.8
18
18 21 64.18
.109
6 81 41.8
0.01
16 48.7
12 68 14.86
.S47
8 2 18.2
10.00
17 18.7
14
18 22 21.88
1.08S
6 88 86.8
4.45
16 46.2
12 64 84.58
.900
8 9 46.0
10.40
17 16.1
16
18 22 46.21
0.004
6 86 16.2
0.00
16 41.6
12 66 68.07
S.94S
8 17 6.0
10.10
17 18.6
16
18 28 8.64
0.080
6 86 41.4
0.01
16 88.0
12 67 10.28
.100
8 24 14.8
17.79
17 10.8
17
18 28 28.62
.790
6 87 68.8
9.7S
16 84.4
18
12 68 26.20
.ISO
8 81 16.4
17.S4
17 8.1
18
18 28 46.09
.075
6 88 62.2
9.14
16 80.8
19
12 69 40.82
,092
8 88 6.6
10.05
17 6.4
19
18 24 1.00
.500
6 89 86.4
1.05
16 27.1
20
18 0 64.11
S.09A
8 44 48.4
10.50
17 2.7
20
18 24 18.86
.450
6 40 6.4
0.05
16 28.8
21
18 2 6.01
9.000
8 61 21.0
10.10
16 69.9
21
18 24 28.10
0.S40
6 40 22.1
-0.04
16 19.6
22
18 8 16.60
.007
8 57 44.2
15.70
16 67.1
22
18 24 80.16
.987
6 40 22.8
-H».90
16 16.7
28
18 4 26.66
.840
4 8 67.6
15.05
16 64.8
28
18 24 84.51
.190
6 40 8.6
0.00
16 11.8
24
18 6 88.17
•787
4 10 1.1
14.94
16 61.6
24
18 24 86.10
•f.000
6 89 89.4
l.U
16 7.9
25
18 6 89.80
.794
4 16 64.6
14.59
16 48.7
26
18 84 84.89
-.100
6 88 66.2
9.10
16 8.9
26
18 7 48.91
9.000
4 21 87.9
14.00
16 46.8
26
18 24 80.89
0.995
6 87 65.8
9.70
14 69.9
27
18 8 46.97
.004
4 27 10.8
19.00
16 42.9
27
18 24 24.07
.044
6 86 41.1
1,49
14 66.8
28
18 9 48.48
.090
4 82 88.8
10.90
16 40.0
28
18 24 14.86
.400
6 86 11.1
4.07
14 61.7
29
18 10 48.21
.404
4 87 44.7
19.74
16 87.0
29
18 84 1.70
.000
6 88 26.7
4.71
14 47.6
80
18 11 46.26
.899
4 42 46.0
19.97
16 84.0
80
18 28 46.12
.710
6 81 26.0
0.S5
14 48.8
81
18 12 42.68
9.000
4 47 84.0
11.00
16 81.0
81
18 28 27.69
0.004
6 29 9.0
0*90
U99J0
82
18 18 87.01
9.«SS
-4 62 11.7
11.S9
16 27.9
82
18 28 6.09
0.000
-6 26 87.7
0.00
14 84.7
Jk^otWoalh^UL
OMi.
4.0
t
Ml
•
4.2
lOMi.
N
4.4
Slat
II
4.6
Mlh.
Slat
Diqr of llM Month,
8A.
lOMi.
1
Mh.
■
5.8
m
Olh.
6.0
M«h.
«
6.3
10.8
SemidUm. s.8
4.8
II
6.0
Semidiometer
a
6.2
a
6.5
Hor.P«r. 6.5
6.8
7.1
7.4
7.7
8.1
8.5
Hot. Parmllax
8.9
9.4
99
1
0.4
MAR8, ISfttt.
225
MABCH.
APRIL.
OBEBKWICH BfEAN TIME.
GREENWICH MEAN TIME. |
1
1
Tar. of
BJL
Ibrl
boor.
liSSSL
VM.Of
Dec
fori
hour.
MMdiu
Tar. or
RJk.
iMrl
boor.
liSSSL.
YmtMt
Dec.
fbrl
boor.
MeridlMi
PUMg*.
P.«f».
JVOM.
iWMII*
JVOM.
JVmw.
JVOM.
NSam.
Nom^
Noom.
h. m. •.
•.
O 1 N
fi
k. m.
h.m. ■.
a.
O 1 «
u
h.m.
1
18 28 46.12
0.710
-6 8125.0
0.06
14 48.8
1
12 68 42.46
8.009
-2 42 8.6
10.50
12 10.9
2
18 28 27.69
.tt4
6 29 9.0
0.90
14 89.0
2
12 62 14.99
.058
2 84 42.6
10.00
12 6.5
8
18 28 6.09
O.fM
6 86 87.7
0.00
14 84.7
8
12 60 47.11
.007
2 87 17.6
18.50
12 OJ
4
18 82 41.62
1.009
6 88 61.2
7.97
14 80.8
4
12 49 18.99
.074
2 19 64.6
10.40
11 64.7
6
18 22 14.1S
•900
6 80 49.2
T.01
14 26.9
6
12 47 60.80
.079
8 18 84.8
10.35
1149.8
6
18 21 48.76
i.too
6 17 81.9
0.04
14 21.6
6
12 46 82.72
0.005
8 6 18.4
10.04
1148.9
7
18 21 10.3G
.404
6 18 69.6
9.10
14 17.0
7
12 44 64.90
.049
168 8.8
17.70
1138.5
8
18 20 88.99
.070
6 10 12.2
0.77
14 12.4
8
12 48 27.66
.095
161 4.8
17.40
11 33.1
9
18 19 64.70
.007
6 6 10.1
10.07
14 7.8
9
12 42 0.87
.505
144 8.6
17.10
11 27.7
10
18 19 12.64
.017
6 168.6
10.07
14 8.1
10
18 40 84.97
.000
187 20.8
10.88
1122.4
11
18 18 87.62
1.08A
4 67 23.0
11.56
18 58.4
11
12 89 10.01
8.517
180 40.8
16.44
11 17.1
18
18 17 88^9
S.0M
4 62 88.7
19.18
18 58.6
12
12 37 46.16
.408
1 24 11.8
16.00
11 11.8
18
18 16 49.06
.107
4 47 41.1
19.66
18 48.8
18
12 86 28.53
.419
1 17 62.6
15.54
11 6.6
14
18 15 65.70
.980
4 42 80.8
10.91
18 44.0
14
12 86 2.38
.040
1 11 45.5
15.08
11 1.2
16
18 14 60.65
.too
4 87 6.9
10.78
18 89.1
16
12 38 42.80
.991
1 6 61.0
14.40
10 66.0
16
18 14 1.00
3.40T
4 81 81.8
14.98
18 34.2
16
12 82 24.90
0.908
1 0 9.8
18.98
10 60.8
17
18 12 60.79
.003
4 26 43.8
14.71
IS 29.2
17
12 81 8.78
.109
0 64 42.8
18.85
10 45.6
18
18 11 56.11
.704
4 19 46.0
15.17
18 24.2
18
12 29 64.55
0.051
0 49 28.6
19.76
10 40.5
19
18 10 60.06
iOOl
4 18 35.2
15.61
18 19.2
19
12 28 42.32
9.005
0 44 29.1
19.15
10 86.4
20
18 9 41.70
.000
4 7 16.0
16.08
18 14.1
20
12 27 32.21
.075
0 89 44.6
11.53
10 30.8
21
18 8 81.18
f.OOl
4 0 45.1
16.48
18 9.0
21
12 26 24.31
9.701
0 85 15.6
10.87
10 25.3
28
18 7 18.68
0.007
8 64 6.2
10.00
18 8.8
22
12 25 18.74
.009
0 81 8.1
10.90
10 20.3
2''
18 6 8.96
.140
8 47 19.1
17.14
12 58.6
28
12 24 15.61
.579
0 87 7.1
9.51
10 15.8
84
18 4 47.46
.910
8 40 24.6
17.45
12 68.4
24
12 28 14.99
.479
0 28 28.0
0.80
10 10.4
86
18 8 89.16
.900
8 88 22.9
17.79
12 48.2
26
12 22 16.98
.905
0 20 5.9
8.08
10 6.6
86
18 2 9.17
0.004
8 26 14.9
17.94
12 42.9
26
18 21 21.47
9.355
0 17 1.0
7.34
10 0.6
87
18 0 47.68
•494
8 19 2.0
10.18
12 87.6
27
12 20 28.66
.148
0 14 13.6
0.60
9 66.8
28
12 69 24.81
.470
8 11 44.9
10.99
12 82.8
28
12 19 38.68
9.098
0 11 43.9
5.85
9 51.1
29
12 68 0.69
•090
8 4 24.0
18.40
12 27.0
29
18 18 61.29
1.911
0 9 32.0
5.10
9 46.4
80
12 66 86.47
.570
2 67 0.8
10.50
12 21.6
80
12 18 6.84
.799
0 7 38.2
4.85
9 41.8
81
12 66 9.84
0.004
2 49 84.8
10.50
12 16.2
81
12 17 26.27
1.073
0 6 2.8
8.50
9 87.2
82
12 68 48.46
0.009
-2 42 8.6
16.09
12 10.9
82
12 16 46.59
1.551
-0 4 46.0
9.89
9 32.6
]tagr«nlal«^lfl.
eth.
1
Ith.
7.2
10th.
II
7.4
91ft
Mttu
tlft.
DV
OfllMllMltll,
Ml. 1
LOfeh.
ISMi.
1
8.0
H
7.9
m
Mh.
N
7.7
wmk.
SMiiauun. 6.6
6.9
7.7
N
7.9
II
8.0
Sei
Didbuneter
N
8.1
1
8.1
a
7.6
Hbr.Pir. ii.8
11.8
]
12.8
12.7
18.1
18.4
18.7
Ho
r.PwmlUx
18.8
13.7
18.6
18.4
1
8.1
12.8
29
226
MARS, 1856.
MAY.
JUNE. 1
GREENWICH MEAN TIME.
GREENWICH MEAN TIME. |
1
1
»
AjcensioQ.
Var.o
H.A.
for]
hoar
f
Apparent
Var.of
Dec
fori
liour.
Meridian
Ajcension.
Var.of
ILA.
fori
hour.
piTiKSEi.
Var.of
Dee.
fori
hoar.
Meridko
PMngs
B
No<m,
Noon
u Noon,
Noon,
1
Noon.
Noom,
NOOH*
Noom.
N
b. m. •.
B.
0 1 N
N
h.m.
h. m. 1.
•.
0 « •
h. m. -
1
12 17 25.27
1.01
9 -0 6 2.8
t.»9
9 87.2
1
12 19 26.68
1.81S
-1 89 7.5
17.10
7 87.9
2
12 16 46.59
.M
1 0 4 46.0
3.83
9 82.6
2
12 20 11.25
.905
1 46 8.9
17.01
7 84.7
8
12 16 10.88
US
t9 0 8 47.8
3.04
9 28.1
8
12 20 58.05
1.994
1 58 12.5
18.11
7 81.6
4
12 15 38.01
M
»0 0 3 8.8
1.37
9 28.7
4
12 21 46.98
9.083
2 0 88.0
18.00
7 28.4
6
12 15 8.14
.If
13 0 2 47.4
+0.*0
9 19.8
5
12 22 87.99
.109
S 8 5.1
19.08
7 25.8
6
12 14 41.28
IM
\8 0 8 44.7
-0.37
9 16.0
6
12 28 81.06
9.955
2 16 48.8
19.55
7 22.8
1 ^
12 14 17.82
0.M
IS 0 8 0.2
1.04
9 10.7
7
12 24 26.12
•S55
2 28 48.5
90.01
7 19.8
8
12 18 56.45
M
n 0 8 84.1
1.80
9 6.4
8
12 25 28.17
.410
8 81 49.0
30.40
7 16.8
9
12 18 88.61
M
» 0 4 26.4
9.55
9 2.1
9
12 26 22.15
.497
2 40 6.2
90.90
7 18.8
10
12 18 28.74
M
W 0 6 86.8
9.50
8 57.9
10
12 27 28.08
.578
2 48 81.7
31^3
7 10.4
11
12 18 11.81
0.4]
M 0 7 5.0
4.04
8 58.7
11
12 28 25.76
9.053
2 57 8.4
31.75
7 7.5
12
12 18 2.82
.8]
14 0 8 50.8
4.77
8 49.6
12
12 29 80.81
.730
8 5 55.1
33.15
7 4.7
13
12 12 56.75
.H
n 0 10 64.1
5.49
8 45.6
18
12 80 86.62
.799
8 14 51.1
33.53
7 1.9
14
12 12 58.56
-.O*
r4 0 18 14.4
0.30
8 41.7
14
12 81 44.67
.873
8 28 56.2
39.90
6 59.1
15
12 12 58.18
+.0^
u 0 15 51.6
0.90
8 37.8
15
12 82 54.4()
3.945
8 88 10.8
98.97
6 56.8
16
12 12 55.68
0.1(
K) 0 18 45.4
7.58
8 84.0
16
12 84 5.98
9.019
8 42 88.8
39.08
6 58.6
17
12 18 0.85
.91
r5 0 21 55.6
8.35
8 80.2
17
12 85 19.05
.060
8 52 4.7
39.96
6 60.9
18
12 18 8.81
.»
W 0 25 21.8
8.91
8 26.4
18
12 86 88.78
.147
4 1 44.4
34.53
6 48.2
19
12 18 19.47
M
W 0 29 8.9
9.50
8 22.6
19
12 87 50.11
.315
4 11 82.2
94.00
6 45Ji
20
12 18 32.78
•M
>0 0 88 1.8
10.30
8 18.9
20
12 89 8.00
.377
4 21 28.0
94.99
6 42.9
21
12 18 48.71
0.7
18 0 87 14.0
10.84
8 15.8
21
12 40 27.41
8.840
4 81 81.5
95.90
e40Ji
22
12 14 7.24
.K
to 0 4141.6
IIUO
8 11.7
22
12 41 48.82
.403
4 41 42.5
35.01
6 87.7
28
12 14 28.32
0.91
n 0 46 24.0
13.07
8 8.1
28
12 48 10.78
.404
4 62 0.6
95.91
6 85.1
24
12 14 51.91
l.m
Ift 0 51 20.8
13.87
8 4.6
24
12 44 84.60
.535
6 2 25.8
30.90
6 82.6
25
12 15 17.98
.u
17 0 56 81.8
15.30
8 1.1
25
12 45 59.98
.585
5 12 58.0
90.48
6 80.1
26
12 15 46.47
1.3]
17 1 156.8
15.83
7 57.7
26
12 47 86.69
8.044
5 28 87.0
M.78
6 27.6
27
12 16 17.35
.»
10 1 7 85.5
14.40
7 54.8
27
12 48 54.86
.79f
6 84 22.6
97.08
6 85.1
28
12 16 50.61
.4]
U 1 18 27.8
14.90
7 50.9
28
12 50 24.44
.709
6 45 14.7
37.39
6 22.7
29
12 17 26.21
•61
11 1 19 88.4
15.51
7 47.6
29
12 51 55.41
.819
6 56 12.9
37.55
6 20.8
80
12 18 4.10
.«
M 1 85 62.0
194^
7 44.8
80
12 58 27.78
.675
6 7 17.1
37.80
6 17.9
31
12 18 44.24
1.7
19 1 82 28.5
10.58
7 41.1
81
18 55 1.88
9.080
6 18 27.1
36.05
6 16J»'
82
12 19 26.68
1.8
It -1 89 7.5
17.10
7 87.9
82
12 56 86.86
9.985
-6 29 42.7
96.90
6 18.1
DiqroniMlliialh, »«h.
lOCh.
7.0
16lh.
6.8
Mlh.
•
6.5
M
If
6.8
aoth.
D^rcnh•lflm«^
4th.
9th.
N
5.7
14th.
19th.
N
5.8
Mth.
II
5.1
Mii.
SemidiAmeter 7.2
6.1
SemidUinetar
5.9
«
6.5
•
4.9
Hor.PwAlUx 12.4
12.0
11.5
11.1
1
0.7
10.8
Hor. PanOlmx
10.0
9.6
9.2
8.9
8.6
8.8 1
MARS, 1856.
227
JULY.
AUGUST.
-s
GREENWICH ICEAN TIME.
GREENWICH MEAN TIME.
AMeDaion.
Var.of
R.A.
fori
hour.
OedEuUoD.
V»r.of
Dec
fori
hour.
Meridian
PuMge.
1
Apparent
Aaceoaion.
Var.of
R.A.
fori
hour.
ApMuvnt
Declination.
Var.of
Dec.
fori
hour.
Meridian
PasMge
^
JVbOM.
No<m,
Noon,
NOOH,
s
Noon,
Noon.
Noon,
Noon,
h
h. m. 1.
f.
O 1 N
M
h. m.
h. m. 0.
B.
0 1 •
h. m.
1
12 65 1.38
8.M0
- 6 18 27.1
38.08
6 15.5
1
13 53 3.25
5.850
-12 36 44.4
81.59
6 11.6
2
12 66 86.36
8.985
6 29 42.7
38.36
6 13.1
2
13 65 12.37
.401
12 48 22.7
31.58
6 9.8
3
12 68 12.66
4.040
6 41 8.8
38.49
6 10.8
8
13 67 22.49
.448
13 1 0.7
81.57
6 8.0
4
12 69 60.26
.004
6 62 80.8
38.71
6 8.5
4
18 69 33.61
.484
13 18 38.3
81.55
6 6.8
5
13 1 29.14
, .147
7 4 1.9
38.93
6 6.2
6
14 146.71
.535
13 26 16.2
81.53
6 4.6
6
18 8 9.29
4.109
7 16 88.6
39.18
6 8.9
6
14 3 68.79
5.566
18 88 61.2
81.46
6 2.8
7
13 4 60.67
.380
7,27 19.9
39.88
6 1.7
7
14 6 12.84
.606
18 61 26.2
81.48
6 1.1
8
18 6 33.28
.800
7 89 6.9
39.63
6 69.6
8
14 8 27.86
.646
14 8 69.7
81.87
4 69.4
9
13 8 17.07
.849
7 60 66.2
39.70
6 67.8
9
14 10 48.83
.685
14 16 31.6
81.80
4 67.7
10
13 10 2.02
.897
8 2 60.7
39.86
6 66.1
10
14 13 0.74
.734
14 29 1.8
81.31
4 66.0
11
13 ir 48.11
4.4U
8 14 49.1
80.03
6 62.9
11
14 16 18.68
5.763
14 41 29.9
81.13
4 64.4
12
13 18 36.33
U91
8 26 61.4
80.18
6 60.8
12
14 17 37.34
.801
14 68 66.7
81.08
4 62.8
13
13 16 28.67
•887
8 88 67.6
80.88
6 48.7
18
14 19 67.03
.840
16 6 19.2
80.94
4 61.2
14
18 17 18.12
.588
8 61 7.0
80.47
6 46.6
14
14 22 17.66
.878
16 18 40.6
80.84
4 49.6
15
13 19 8.66
•638
9 8 19.9
80.60
6 44.6
16
14 24 89.19
.917
16 30 59.6
80.75
4 48.0
16
13 20 66.28
4.678
9 16 86.9
80.73
6 42.4
16
14 27 1.64
5.955
16 48 16.8
80.67
4 46.4
17
13 22 47.99
•718
9 27 64.8
80.83
6 40.8
17
14 29 26.01
5.998
16 66 81.9
80.58
4 44.9
18
18 24 41.78
.768
9 40 14.9
80.91
6 38.3
18
14 31 49.30
6.081
16 7 44.8
80.48
4 48.4
19
13 26 86.62
•807
9 62 87.8
80.99
6 36.8
19
14 34 14.61
.070
16 19 66.2
80.85
4 41.9
20
18 28 82.60
•881
10 6 1.6
81.06
6 34.3
20
14 36 40.64
.108
16 82 1.9
80.19
4 40.4
21
18 30 29.44
4.898
10 17 27.4
81.13
6 82.8
21
14 39 7.69
6.146
16 44 4.3
80.01
4 88.9
22
13 82 27.43
.988
10 29 66.1
81.19
6 80.3
22
14 41 36.66
.184
16 66 2.6
39.88
4 87.4
23
18 84 26.46
4.980
10 42 24.6
81.36
6 28.3
28
14 44 4.64
.333
17 7 66.4
39.65
4 36.0
24
13 86 26.49
8.038
10 64 66.7
81.83
6 26.4
24
14 46 84.84
.361
17 19 46.7
39.45
4 84.6
25
18 88 27.66
•866
11 7 28.4
81.88
6 24.6
26
14 49 6.07
.800
17 81 30.3
39.35
4 88.1
26
18 40 29.68
8.106
11 20 2.4
81.44
6 22.6
26
14 61 86.72
6.888
17 48 9.6
39.05
4 81.7
27
18 42 33.71
• 180
11 82 37.6
81.49
6 20.7
27
14 64 9.29
.876
17 64 48.7
38.64
4 80.3
28
18 44 36.81
•193
11 46 18.8
81.58
6 18.8
28
14 66 42.77
.414
18 6 13.0
38.63
4 28.9
29
18 46 41.91
•388
11 67 60.8
81.56
6 17.0
29
14 69 17.17
•463
18 17 87.3
38.40
4 27.6
80
18 48 48.02
.376
12 10 28.8
81.58
6 16.2
80
16 162.48
.490
18 28 66.2
38.17
4 26.1
31
13 60 66.18
6.817
12 28 6.2
81.59
6 13.4
81
16 4 28.71
6.897
18 40 9.6
37.94
4 24.8
82
18 68 3.26
6.889
-12 86 44.4
81.59
6 11.6
32
16 7 6.83
6.066
-18 61 17.3
37.70
4 28.6
Dtty of the Month,
4th.
•th.
14th.
19th.
r
4.4
94th.
S9th.
Daj
of the Month, 3d.
81
th.
4.0
13th.
18th.
»3d.
Mth.
Semidiameter
4.7
n
4.6
n
4.6
N
4.3
u
4.2
Sen
oidiameter 4.1
«
4.0
N
3.9
•
3.9
■
3.8
Hor. Parallax
8.0
7.8
7.7
7.6
7.3
7.1
Ho
r. Parallax 7.0
6.9
6.7
6.6
6.6
6.4
228
MARS, 1856.
SEPTEMBER.
OCTOBER.
1
2
8
4
5
6
7
8
9
10
11
12
18
14
16
16
17
18
19
to
tl
22
28
24
26
26
27
28
29
80
81
82
GREENWICH MEAN TDCE
^SBS?'
iVboii.
b. m. t.
16 7 6.88
16 9 48.84
16 12 22.76
16 16 2.64
16 17 48.28
16 20 24.82
16 28 7.28
16 26 60.64
16 28 84.87
16 81 19.98
16 84 6.97
16 86 62.84
16 89 40.66
16 42 29.11
16 46 18.62
16 48 8.78
16 60 69.86
16 68 61.76
16 66 44.47
16 69 88.01
16 2 82.^)
16 6 27.50
16 8 28.44
16 11 20.16
16 14 17U»
16 17 16.01
16 20 16.10
16 28 14.96
16 26 16.68
16 29 16.96
16 82 19.05
16 86 21.88
Tit. of
for 1
hoar.
JVboM.
.609
.677
.714
6.7*1
.786
.Ml
«.ft4
6.970
7.000
.0«9
.077
7.111
•140
.179
.fit
347
7.260
.010
.047
.000
UlS
7.440
.477
.010
.040
.070
7.000
7.000
Dee.
fori
hoar.
iV««.
^bM».
O 1 «
-18 61 17.8
«7.70
19 2 19.2
37.46
19 18 16.2
37.10
19 24 6.0
00.90
19 84 47.8
90.00
19 46 28.8
90.00
19 66 61.0
36U>4
20 6 11.0
30.71
20 16 28.4
30.07
20 26 28.2
90.00
20 86 24.8
34.09
20 46 18.8
34.00
20 66 68.6
34.01
21 6 26.6
30.00
21 14 49.1
30.00
2124 4.0
33.00
2188 9.6
93.04
21 42 6.6
33.14
21 60 62.0
31.70
2169 28.8
31.01
22 7 66.8
90.00
22 16 11.8
90.40
22 24 16.9
90U»1
22 82 11.9
19.00
22 89 66.9
10.10
22 47 28.8
10.00
22 64 60.2
10.10
28 2 0.0
17.09
28 8 68.6
17.90
28 16 46.6
10.73
28 22 21.2
10.94
-28 28 46.1
10.74
h. m.
4 23.5
4 22.2
4 20.9
4 19.6
4 18.8
4 17.1
4 16.9
4 14.7
4 18.6
4 12.8
4 11.1
4 10.0
4 8.9
4 7.8
4 6.7
4 6.6
4 4.6
4 8.4
4 2.8
4 1.2
4 0.2
8 69.2
8 68.2
8 67.2
8 66.2
8 66.2
8 64.8
8 68.8
8 62.4
8 61.6
8 60.6
8 49.7
GREENWICH MEAN TIME.
AMMlfliOD.
Tar. Of
RJL.
fori
boor.
JVoon.
N^.
h. m. 1.
f.
16 32 19.05
7.003
16 85 21.88
.000
16 38 26.48
.003
16 41 29.67
.090
16 44 84.68
.716
16 47 40.16
7.744
16 60 46.38
.ns
16 68 68.26
.790
16 67 0.78
.910
17 0 8.82
.000
17 8 17.68
7.074
17 6 26.88
.000
17 9 86.71
.934
17 12 47.16
.047
17 16 68.16
.970
17 19 9.71
7.003
17 22 21.77
0.010
17 26 84416
.000
17 28 47.40
.000
17 82 0.92
.073
17 86 14.89
0.091
17 88 29.29
.109
17 41 44.11
• 190
17 44 69.84
.140
17 48 14.96
.100
17 61 80.94
0.174
17 64 47.80
.100
17 68 4.02
•999
18 1 21.07
.917
18 4 88.44
.900
18 7 66.12
0.943
18 11 14.08
0.900
lilSCSL
TWTMt
Dm.
fori
hoar.
M
16.94
Norn.
O 1 •
-28 22 21.2
28 28 45.1
10.74
23 84 66.7
10.30
28 40 66U)
14.71
28 46 4;2.7
14.10
28 62 16.7
10.04
28 67 87.6
10U>9
24 2 46.2
13.00
24 7 89.4
11.97
24 12 20.0
UUO
24 16 46.8
10.00
24 20 69.6
10.30
24 24 68.4
9.00
24 28 48.0
0.00
24 82 18.8
0.40
24 88 29.1
7.00
24 88 80.4
7.34
24 41 17.0
0.00
24 48 48.9
0.03
24 49 6.9
0.40
24 48 8.0
4.70
24 49 66.1
4.10
24 61 26.9
0.09
24 62 48.8
3.99
24 68 44.2
9.90
24 64 29.7
1.07
24 64 69.4
0.99
24 66 18.3
-6.90
24 66 11.4
+6.41
24 64 68.7
1.67
24 64 20.0
1.74
-24 68 80.8
%Al
Z60S
8 49.7
8 48.8
8 47.9
8 47.0
8 46.2
8 46.4
8 44.6
848.8
8 48.0
8 42.2
8 41.4
8 40.6 <
8 88.8
8 89.0
8 88.8
8 87.6
8 86.8
8 86.1
886.4 i
8 84.7 I
8 84.0
888.8 I
8 82.6 i
8 81.9
8 81.2
880.6
8 29.9
8 29.2
8 28.6
I
8 27.9
8 27.3
Diij«rite
Seaidbaetsr
Hor. ParaiUz
8.7
6.8
Tlh.
8.7
6.2
1Mb.
8.6
6.2
ITIh.
8.6
6.1
8.6
9J0
Dojorite]
8.6
6.9
Semidiamotor
Hot. PWttllax
8.4
53
8.4
6.8
vm.
8.4
6.8
191k.
8.8
6.7
8.8
6.6
8.2
6^
]HARS, 1856.
229
NOVEMBER.
DECEMBER.
1
OBEBNWICH MEAN TIME.
GREENWICH MEAN TIME.
s:
Tar. of
R.A.
Ibr 1
hoar.
litSCSJ.,
Dm.
Ibrl
hour.
UOTldlaii
PMct.
1
;i6i^*
Tar. ol
RJk.
fori
hour.
' liiSKSKJ..
Tar.of
Dee.
tori
hour.
n
MerkUaa
PaMca.
Hmm.
Noom.
iVvOM.
Nom^
Norn,
Nwm
iVbon.
h. m. t.
B.
o 1 n
«
h. m.
k.m. 1.
a.
0 1 «
h. m.
1
18 11 14.08
8.S68
-24 68 80.8
9.41
8 27.8
1
19 60 40.78
8.91
8-22 24 8.4
99.80
8 8.6
2
18 14 82.28
•MS
24 62 24.6
8.06
8 26.6
2
19 68 67.88
.90
0 22 16 6.8
99.99
8 7.9
8
18 17 60.72
.§72
24 61 2.9
8.75
8 26.9
8
19 67 14.63
.19
4 22 6 48.4
98.54
8 7.2
4
18 21 9.86
.160
24 49 26.0
4.49
8 26.3
4
20 0 81.13
.16
1 21 66 16.8
94.15
8 6.5
6
18 24 28.16
.987
24 47 81.0
8.09
8 24.7
6
20 8 47.83
.10
6 21 46 29.6
94.75
8 6.8
6
18 27 47.18
•.S9S
24 46 20.9
8.70
8 24.1
6
20 7 8.21
8.16
4 2186 28.6
95.84
8 6.1
7
18 81 6.24
.«96
24 43 64.6
0.44
8 28.4
7
20 10 18.76
.14
0 2126 18.6
95.99
8 4.6
8
18 84 26.46
•S03
24 40 12.2
7.19
8 22.8
8
20 18 88.96
.19
0 21 16 44.6
90.50
8 8.8
9
18 87 44.76
.to«
24 87 18.4
7.60
8 22.2
9
20 16 48.88
.11
1 21 6 1.7
97.07
8 8.1
10
18 41 4.14
.809
24 88 68.4
8.47
8 21.6
10
20 20 3.83
.09
0 20 64 6.2
97.08
8 2.4
11
18 44 28.68
0.811
24 80 27.1
9.15
8 21.0
11
20 28 17.46
6.06
0 20 42 66.8
96.19
8 1.7
12
18 47 43.06
•819
24 26 89.6
9.68
8 20.4
12
20 26 81.19
.00
i4 20 81 82.1
96.74
8 1.0
13
18 61 2.65
•818
24 22 86.9
10.50
8 19.8
18
20 29 44.66
.04
6 20 19 66.8
99.39
8 0.8
14
18 64 22.06
•818
24 18 16.0
11.17
8 19.2
14
20 83 67.61
.08
9 20 8 6.8
99.88
2 69.6
15
18 57 41.67
•818
24 18 89.9
11.84
8 18.6
16
20 86 10.08
6.01
5 19 66 8.9
80.81
2 68.8
16
19 1 1.06
0.819
24 8 47.9
I9.51
8 18.0
16
20 89 22.26
7.99
6 19 48 48.7
80.90
2 68.0
17
19 4 20.61
•810
24 8 89.8
18.18
8 17.4
17
20 42 84.01
.96
1 19 81 20.9
81.48
2 57.8
18
19 7 89.92
•806
28 68 16.7
18.64
8 16.8
18
20 46 46.36
.90
4 19 18 40.6
81.95
2 56.6
19
19 10 69.27
•805
28 62 86.6
14.50
8 16.2
19
20 48 66.29
.94
7 19 6 47.7
89.48
2 66.8
20
19 14 18.68
•801
23 46 89*7
18.10
8 16.6
20
20 62 6.80
.99
» 18 62 42.8
89.90
2 66.0
21
19 17 87.69
6.907
28 40 27.9
18.69
8 14.9
21
20 66 16.90
7.91
1 18 89 26.8
88.40
2 64.2
22
19 20 66.76
•999
23 84 0.4
10.46
8 14.8
22
20 68 26.67
.61
4 18 26 67.0
88.95
2 68.4
28
19 24 16.69
•966
28 27 17.1
17.14
8 13.7
23
21 1 85.82
.61
6 18 1316.6
84.48
2 62.6
24
19 27 84.48
•980
23 20 18.1
17.79
8 18.1
24
21 4 44.64
.6fl
« 17 68 24.6
84.90
2 61.8
26
19 80 63.10
•973
28 18 8.8
16.44
812.4
26
21 7 63.08
.64
10 17 44 21.6
85.80
2 61.0
28
19 84 11.66
6^9«6
28 6 88.0
19.09
8 11.7
26
21 11 0.98
7.M
ta 17 80 7.4
85.81
2 50.2
27
19 87 29.88
•986
22 67 47.1
19.74
8 11.1
27
21 14 8.50
.6C
4 17 16 42.7
80.95
2 49.4
28
19 40 47.89
.940
22 49 46.6
90.89
8 10.6
28
21 17 16.59
.71
to 17 1 7.2
88.06
2 48.6
29
19 44 6.78
.989
22 41 28.5
91.08
8 9.9
29
21 20 22.26
.71
18 16 46 21.8
87.11
2 47.8
30
19 47 28.86
.999
22 82 66.0
91.07
8 9.2
80
21 28 28.48
.71
M) 16 81 26.6
87.68
■
2 47.0
31
19 60 40.78
6^918
22 24 8.4
99.80
8 8.6
81
21 26 84.28
7.71
19 16 16 19.9
87.98
2 46.1
82
19 68 67.88
6.906
-22 15 6.8
99.99
8 7,9
82
21 29 89.64| 7.71
8-16 1 4.9
88.89
2 46.8
DuofllMMtelh,
Ift
SOk.
11th.
u
8.1
16lh.
M
8.0
8.0
»«<h.
ntsfi^liatllk, Ist.
eih.
2.8
llih.
•
2.8
16th.
It
2.8
»lit.
II
2.8
%i
8th.
a
2.7
Slit
II
2.6
Semidiiueter
M
8.2
n
8.2
•
2.9
Semidiatn. 2.9
Hor. PmOlaz
5.4
6.4
6.8
6.2
6.1
6.0
Hor. Par. 5.O
4.9
4.8
4.7
4.6
^
4.6
4.4
230
JUPITER, 1856.
JANUARY.
FEBRUARY.
1
2
8
4
6
6
7
8.
9
10
11
12
13
14
15
16
17
18
19
20
21
22
28
24
29
26
27
28
29
80
31
32
GREENWICH MEAN TIME.
jbransioa.
Var.of
R.A.
fori
hoar.
Nwm.
iViMMI.
h. m. t.
t.
22 18 5.41
1.865
22 18 50.10
.860
22 14 85.18
.88S
22 15 20.48
.890
22 16 6.15
.909
22 16 52.18
1.939
22 17 88.42
.985
22 18 25.01
•948
22 19 11.90
.980
22 19 59.08
.973
22 20 46.58
1.98S
22 21 84.25
1.994
22 22 22.24
9.006
22 23 10.49
.0 1 :,
22 23 58.99
.096
22 24 47.73
9U»9
22 23 86.70
.046
22 26 25.90
•066
22 27 15.88
.084
22 28 4.98
.078
22 28 54.84
9.069
22 29 44.91
.091
22 80 85.18
•099
22 81 25.65
.107
22 82 16.81
.116
22 88 7.16
9.138
22 33 58.19
.180
22 84 49.89
•187
22 85 40.76
.144
22 86 82.29
.161
22 87 28.98
9.168
22 88 15.88
9.184
DtSESEL
V«rx>f
Dee
fori
hoar.
iVbon.
Nom.
O 1 tt
-12 8 88.9
a
10.67
12 4 19.2
.87
12 0 2.1
.77
11 55 42.7
.88
11 51 2|.l
10.96
11 46 57.8
11.04
11 42 81.8
•18
11 88 8.2
•99
11 88 82.9
.80
1129 0.6
.89
1124 26.2
11.48
11 19 49.8
•68
11 15 11.5
.84
11 10 81.2
.79
11 6 49.0
.80
11 1 5.0
11.88
10 56 19.2
11.96
10 51 81.6
1S.03
10 46 42.8
.10
10 41 51.2
.17
10 86 58.8
19.94
10 82 8.7
a\
10 27 7.5
.88
10 22 9.7
U6
10 17 10.8
.81
10 12 9.8
19.67
10 7 6.9
.88
10 2 8.0
.89
9 66 57.6
.76
9 61 50.7
.81
9 46 43.4
19.87
- 9 41 82.7
19.98
M«ridiaa
Fuaice.
h. m.
8 31.4
8 28.2
8 25.0
8 21.8
S 18.7
8 15.5
8 12.8
8 9.1
t 6.0
S 2.8
2 59.6
2 56.5
2 58.4
2 50.2
2 47.1
2 44.0
2 40.9
8 87.8
2 84.7
2 81.6
2 28.6
8 26.4
2 22.8
2 19.2
2 16.1
2 18.0
2 9.9
2 6.8
2 8.8
2 0.7
1 67.6
1 64.6
GREENWICH MEAN TIME.
Ajecnsion.
Var.of
R.A.
fori
hoar.
y.on.
Noon,
h. m. •
t.
22 88 15.88
9.184
22 89 7.88
.170
22 89 69.97
.178
22 40 62.25
.189
22 41 44.66
.187
22 42 87.20
3.199
22 48 80.86
.197
22 44 22.68
.901
22 46 15.60
.906
22 46 8.47
.909
22 47 1.64
3.318
22 47 54.70
.317
22 48 47.95
.331
22 49 41.28
.394
22 60 84.69
.1«7
22 51 28.16
9.980
22 62 21.70
.383
22 68 15.29
.384
22 64 8.94
.388
22 55 2.64
.388
22 66 66.89
t.340
22 66 60.18
.349
22 57 44.01
.344
22 68 87.87
346
22 69 81.77
.348
28 0 26.69
3.347
28 1 19.64
.348
28 2 18.60
.348
28 8 7.68
.849
28 4 1.66
.349
28 4 66.65
3349
28 6 49.64
3.349
DecliaaSn.
YVMt
Dm.
fori
boor.
Noon,
Nom,
O 1 •
-« 41 82.7
13.98
9 86 21.7
13.96
9 81 9.4
1838
9 26 66.8
36
9 20 41.0
•18
9 i6 24.9
18.18
9 10 7.6
38
9 4 49.2
38
8 69 29.7
38
8 64 9.2
37
8 48 47.7
UAl
8 48 26.2
38
8 88 1.7
39
8 83 87.8
.68
8 27 12a
37
8 21 46.0
18.81
8 16 19.1
•64
8 10 51.6
.87
8 6 28.2
.70
7 69 64.1
.78
7 64 24.8
18.78
7 48 68.9
.78
7 48 22.9
31
7 87 61.8
38
7 82 19.1
36
7 36 46.4
18.87
7 31 18.2
39
7 16 89.6
.91
7 10 6.6
.88
7 4 81.0
38
6 68 66.3
18.96
-6 68 21.0
18.87
km.
1 643
1 613
1 483
1 463
143.3
189.3
186.1
188.0
180.0
127.0
138.9
180.8
1 17.8
1 14.8
1 11.7
1 83
1 6.6
1 33
0 60.6
0 66.4
0 68.4
0 60.4
0 473
0 443
0 41.3
0 883
0 85.1
0 83.1
0 390)
0360)
033.9
0 19J
DHjOfilM
PoUr Semidiametar ie.7
HorisoaCftl pAnllsx 1.9
11*.
16.4
1.5
«lsi
16.1
1.6
Slit.
DuoTlte
16.9
1.6
PoUr Semidimmeter
Horisotttal ParaiUz
16.9
1.6
11th.
15.7
1.4
niM
16.6
1.4
163
13
JUPITER, 1856.
231
MARCH.
APRIT-.
1
1
GREENWICH MEAN TIME.
1
GREENWICH MEAN TMB.
Aaewulan.
Var.of
RJk.
fori
hoar.
Apparent
Declination.
Var.of
Dec.
fori
hoar.
Meridian
PaaMge.
Aacenskm.
Var.of
R.A.
fori
boor.
Apparent
Declination.
Varxrf
Dee.
fori
hoar.
Meridian
PaiMflB.
1
No<m,
Noon.
Noon,
Noon,
t
Noon,
Noon,
Noon,
Noon,
II
h. m. t.
1.
O 1 tt
ft
h. m.
h. m. f.
1.
O 1 II
h. m.
1
28 4 1.56
Q.349
-7 4 81.0
18.96
0 26.0
1
28 81 84.13
3.166
-4 11 47.4
18.68
22 48.6
2
23 4 55.56
.340
6 58 56.2
.96
0 22.9
2
28 82 26.08
.169
4 6 19.4
.66
22 45.5
8
28 5 49.54
.2M0
6 58 21.0
.97
0 19.9
8
28 88 17.78
.163
4 0 52.2
.63
22 42.5
4
28 6 43.58
.S49
6 47 45.5
.98
0 16.9
4
28 84 9.40
.147
8 55 25.8
.69
22 89.4
6
28 7 87.50
.349
6 42 9.8
13.99
0 18.9
5
28 85 0.87
.141
8 50 0.3
.65
22 36.3
6
28 8 81.46
3.348
6 86 88.9
14.00
0 10.8
6
28 86 52.19
3.186
8 44 85.7
18.61
22 38.2
7
28 9 25.40
.347
6 30 57.8
.00
0 7.8
7
28 86 48.36
.139
8 89 12.0
.47
22 30.1
8
23*10 19.31
.346
6 25 21.6
.01
0 4.8
8
28 87 84.37
.133
8 88 49.8
.48
22 27.0
9
23 11 13.19
.346
6 19 45.8
.0!
5 ^ ^'H
\n M.7}
9
28 88 25.21
.116
8 28 27.6
.89
22 28.9
10
23 12 7.04
.343
6 14 8.9
.01
23 55.7
10
28 89 15.88
.106
8 28 7.0
•84
22 20.8
11
23 13 0.85
3.341
6 8 82.5
14.01
28 52.7
11
28 40 6.88
S.101
8 17 47.5
18.99
22 17.7
12
28 13 54.61
.339
6 2 56.2
•01
23 49.6
12
28 40 56.70
.093
8 12 29.1
.34
22 14.6
13
23 14 48.32
.337
5 57 20.0
.01
28 46.6
13
28 41 46.84
.086
8 7 11.9
.19
22 11.5
14
23 15 41.97
.339
5 51 43.9
.00
28 48.5
14
28 42 86.79
.077
8 155.9
• 13
22 8.4
16
23 16 85.57
.333
5 46 7.9
14.00
28 40.5
15
28 48 26.55
.069
2 56 41.2
•08
22 5.3
16
23 17 29.11
3.339
5 40 82.0
18.99
28 37.4
16
28 44 16.12
3.061
2 51 27.7
18.03
22 2.2
17
23 18 22.58
.336
5 34 56.3
.98
28 84.4
17
28 45 5.49
.063
2 46 15.6
13.98
21 59.1
18
23 19 16.98
.333
5 29 20.9
.97
23 81.3
18
28 45 54.66
.044
2 41 4.7
•93
21 55.9
19
23 20 9.31
.330
5 28 46.7
.96
28 28.8
19
28 46 43.62
.086
2 85 55.2
.86
21 62.8
20
23 21 2.56
.317
5 18 10.8
.96
28 25.2
20
28 47 82.37
.037
2 80 47.1
.80
21 49.7
21
23 21 55.72
3.318
5 12 86.3
ia.93
23 2^.2
21
23 48 20.91
3.018
2 25 40.4
13.74
21 46.6
22
23 22 48.80
.310
5 7 2.1
.93
23 19.1
22
28 49 9.24
.009
2 20 85.2
.68
21 48.4
23
23 23 41.79
.306
6 128.8
.90
23 16.1
23
28 49 67.35
3.000
2 15 31.5
•63
21 40.3
24
23 24 34.69
.303
4 55 54.9
.88
28 13.0
24
23 50 46.28
1.091
2 10 29.8
•66
21 37.1
25
28 25 27.50
.198
4 50 22.0
.86
23 10.0
26
23 61 82.88
.981
2 5 28.6
•60
21 84.0
26
23 26 20.21
2.194
4 44 49.7
18.84
28 6.9
26
28 52 20.80
1.971
2 0 29.5
13.43
21 30.8
27
23 27 12.81
.190
4 89 17.9
.83
28 3.9
27
23 53 7.48
.961
1 55 82.1
.86
21 27.7
28
23 28 5.30
.186
4 88 46.6
.80
28 0.8
28
23 53 54.41
.961
1 50 36.4
.39
21 24.5
29
23 28 57.68
.180
4 28 15.8
.77
22 57.8
29
23 54 41.09
.940
1 45 42.4
.33
21 21.4
30
23 29 49.95
.176
4 22 45.6
.74
22 64.7
80
23 65 27.62
.939
140 50.2
•14
21 18.2
31
23 30 42.10
3.170
4 17 16.1
18.71
22 51.7
31
23 56 18.69
1.918
1 85 59.8
13.07
21 15.1
32
23 81 84.13
3.166
-4 11 47.4
13.68
22 48.6
32
23 56 59.59
1.907
-1 81 11.2
11.99
21 11.9
D^f of tiM Month,
lat
11th.
Alat
81st.
D^f of the Month,
lit
lltfa.
Silt
Slat
Polar Semidiam
eter
15.6
15.6
15.6
15.7
Polar Semidianx
Bter
15.7
15.9
16.1
16.4
Horizontal Para]
Llax
1.4
1.4
1.4
1.5
Horizontal Para]
lax
1.5
1.5
1.5
1.5
232
JUPITER, 1856.
MAT.
JUNE.
1
2
8
4
6
6
7
8
9
10
U
12
18
14
1ft
16
17
18
19
20
21
22
28
24
2ft
28
27
28
29
80
31
82
OBEBNWICH MEAN TIME.
AppAimt
Right
Tar. of
fori
hoar.
JV^M.
h. m. 1.
28 ft6 18.69
28ft6ft9J»
23 ft7 4ft.21
28ft8 80.ft6
28 ft9 15.68
0 0 0.40
0 0 44.88
0 1 29.06
0 2 12.94
0 2ft6JM
0 8 89.7ft
0 4 22.66
0 6 ft.29
0 6 47.ft7
0 6 29.ftl
0 7 11.12
0 7 92JI8
0 8 88.30
0 9 18.86
0 9ft4.07
0 10 88.91
0 11 18.89
0 11 ft2.ftO
0 12 81.28
0 18 9.ft8
0 18 47.88
0 14 2ft.08
0 1ft 2.28
0 Ift 88.97
0 16 lft.29
0 16 61.18
0 17 26.6ft
Ihm,
1.016
.907
••Tl
1.8i0
.899
•789
.788
.7*4
•740
1.798
.719
1.888
.888
•899
1^78
.889
.899
1.487
AppArent
Daclii^tkm.
Noom.
-1 85 ft9.8
1 81 11.2
1 26 24.5
1 21 89.7
1 16 ft6.9
1 12 16.1
1 7 87.4
1 8 0.7
0 68 26.1
0 68 68.7
0 49 28.6
0 44 66.7
0 40 80.1
0 86 6.8
0 8146.8
0 27 27.2
0 28 11.0
0 18 87.2
0 14 4ft.8
0 10 87.0
0 6 80.7
-0 2 27.0
40 184.1
0 6 82.6
0 9 28.4
0 18 21U
0 17 11.7
0 20 69.2
0 24 48.8
0 28 2ft.5
083 i
40 85 40.1
Tar^xf
Dee.
fori
hoar.
19.07
11.99
.91
.88
.78
11.88
.87
•48
.89
.80
11.90
.10
11.01
10.91
.81
10.71
.81
.81
•41
.81
18.91
10.10
9.99
.88
.77
.49
.18
Metidkn
h. iii«
21 15.1
21 11.9
21 8.7
21 ft.ft
21 2.8
20 89.1
20 6ft.9
30 62.7
30 49.ft
30 46.8
30 48.1
30 89.8
30 86.6
30 88.4
30 80.2
30 26.9
30 38.7
30 20.4
30 17.1
30 18.8
30 10.6
30 7.8
20 4.0
30 0.7
19 67.4
19 64.1
19ft0.8
19 47.ft
19 44.2
19 40.9
19S7.ft
19 84.1
GREENWICH MEAN TIME.
^ffiST*
Var.of
fori
hoor.
Noom,
h. m. •.
0 17 26.6ft
0 18 1.68
0 18 86.27
0 19 10.41
0 19 44.09
0 20 1730
0 20ft0.0ft
0 21 22.88
0 21 84.12
0 22 2ft.42
0 22ft6.24
0 28 26.66
0 28 66.88
0 24 26.69
0 24 64.49
0 2ft 22.77
0 2ft ftO.52
0 26 17.74
0 26 44.48
0 27 10.68
0 27 86.18
0 28^1.23
0 28 26.71
0 28 49.62
0 29 12.96
0 29 86.71
0 29 67.87
0 80 19.44
0 80 40.40
0 81 0.75
0 81 30.49
0 81 89.61
No0n.
1.480
.481
089
.418
.894
1.878
088
.886
.818
.998
1.974
388
.989
.911
.189
1.187
.148
.198
•101
.078
1.088
U>89
AppMvnt
TV'lliintHi
Dae.
fbrl
Noon,
Not
0.984
0.988
.911
.881
.63»
0.788
40 85 40.1
0 89 124^
0 42 42.6
0 46 9.1
0 49 92Ji
0 52 62.7
0 56 9.6
0 69 28.2
1 2 88.6
1 6 40.5
1 8 44.1
1 11 44.4
1 14 4141
1 17 84.7
120 24.6
128 104^
125 68.7
1 28 82.9
1 81 8.4
188 4041
186 8.5
188 82.9
1 40 58.5
1 48 10.8
145 28.8
1 47 82.4
1 49 87.5
1 61 88.6
1 68 85.7
166 28.7
1 67 17.6
41 69 2.4
8.98
.80
•87
.84
.41
8.96
.14
8.00
7.88
.79
.80
•18
7.01
•41
.98
8.10
8.84
.78
•69
8.80
8.14
4.97
h. B.
19 84.1
19 80.8
19 27.4
19 24.0
19 30.6
19 17.2
19 18.8
19 10.4
19 7.0 I
19 8.6 '
I
19 0.2
18 56.8 >
18 58.8
18 49.9'
18 46.4 .
18 42.9 I
18 89.4 '
18 86.0 !
18 82.6 !
18 29.0 '
18 2ft.ft !
18 324»,
18 18.ft
18 14.9 I
18 11.8 I
18 7.8
18 4.3
18 0.6
17 67.0
17 68.4
4.46 17 49.8
4.96 17 46.3
DnjoTlte
PoUr Semidbiiieter ]8.4
UoriiooCAl Pandlmz i^
11*.
16.7
1.6
«lsi
17.1
1.6
Slfl.
DVoTltelioath,
17.6
1.6
Polar Semidimmeter
UorisoDtal Parallax
17.6
1.6
11th.
18.1
1.7
nuL
18.6
1.7
Sin.
19.3
1.8
JUPITER^ 18ft6.
233
JULY.
AUGUST.
.
GREENWICH MEAN Tim<:.
GREENWICH MEAN TIME.
1
Var.of
RJk.
fori
hour.
SedCa^n.
V»r.of
Dec.
fori
hoar.
Meridian
PiMaffe.
1
y^'
Var.of
RJL.
fori
hour.
DeeUoaSon.
Var^of
Dee.
tori
hoar.
Noon.
Meridian
PaM«e.
Noon,
«^
^roofi.
iVww.
Norn,
Noon.
Uocn.
h. B. t.
t.
O 1 M
u
li. m.
h.m. 1.
s.
O 1 II
If
k.m.
1
0 31 20.49
0.809
-H 57 17.6
4.46
17 49.8
1
0 36 0.37
0.063
+2 17 27.2
1.31
16 62.8
2
0 31 39.61
.788
159 2.4
.98
17 46.2
2
0 85 68.03
.114
2 16 5841
.51
16 48.8
8
0 81 58.10
.741
2 0 43.0
4.10
17 42.5
8
0 86 64.9()
.144
2 16 14.8
•70
16 44.8
4
0 82 15.95
.731
2 2 19.4
8.93
17 88.9
4
0 86 61.16
.174
2 16 81.7
1.89
16 40.8
5
• 82 83.16
•704
2 8 51.6
.76
17 85.3
6
0 86 46.68
•905
2 14 44.0
9.06
16 86.3
6
0 82 49.73
0.677
2 5 19.5
8.66
17 31.6
6
0 86 41.87
0.985
2 18 61.7
9.97
16 82.8
7
• 88 5.64
.««•
2 6 43.1
.40
17 27.9
7
0 86 35.89
•965
2 12 64.9
.46
16 28.3
8
0 83 20.90
.69S
2 8 2.4
.99
17 24.2
8
0 86 28.68
.995
2 11 58.6
.65
15 24.2
9
• 83 35.50
.504
2 9 17.4
8.04
17 20.6
9
0 86 21.26
.895
2 10 47.8
9.84
16 20.2 1
10
• 83 49.4i
.M7
2 10 28.1
9.86
17 16.8
10
0 86 18.12
.855
2 9 87.6
8.09
16 16.1
11
0 84 2.71
O.M0
2 11 34.4
9.67
17 18.1
11
0 86 4.28
0.884
2 8 23.0
8.90
16 12.0
12
0 84 15.31
.en
2 12 86.3
.49
17 9.4
12
0 84 64.78
.418
2 7 4.0
.88
16 7.9
13
0 34 27.23
.48S
2 13 83.8
.81
17 6.7
18
0 34 44.48
•443
2 6 40.7
.56
15 8.8
14
0 34 38.48
.4Aft
2 14 26.9
9.19
17 1.9
i:
0 84 88.64
.471
2 4 13.1
•74
14 69.7
15
0 84 49.04
.436
2 15 15.6
1.03
16 66.1
16
0 84 21.91
.500
2 2 41.2
8.99
14 65.6
16
0 84 58.92
0.807
2 15 59.8
1.75
16 64.3
16
0 34 9.59
0.598
2 1 6.1
4.09
14 51.4
17
0 35 8.10
.866
2 16 89.5
.57
16 50.5
17
0 88 66.59
.556
1 59 24.9
.96
14 47.8
18
0 86 16.59
.830
2 17 14.7
.86
16 46.7
18
0 88 42.91
.584
1 67 40.6
.43
14 43.1
19
0 85 24.88
•810
2 17 45.5
.19
16 42.9
19
0 83 28.57
.619
1 56 52.2
.60
14 38.9
20
0 86 81.47
•981
2 18 11.7
1.00
16 89.1
20
0 88 13.57
.669
1 53 59.8
.77
14 34.7
21
0 85 37.85
0.961
2 18 33.4
0.81
16 85.3
21
0 82 67.91
0.666
1 52 8.6
4.08
14 30.5
22
0 85 43.52
.991
2 18 50.5
.69
16 81.4
22
0 32 41.61
.693
1 60 8.2
5.00
14 26.8
23
0 85 48.47
•191
2 19 3.0
.49
16 27.5
28
0 82 24.67
.719
I 47 69.0
.95
14 22.1
24
0 85 52.70
• 161
2 19 10.9
.93
16 28.6
24
0 82 7.10
.745
1 46 51.0
.41
14 17.8
25
0 86 56.21
•181
2 19 14.2
•••.•4
16 19.7
25
0 81 48.91
•771
1 43 89.8
•56
14 18.6
26
0 86 69.00
0.101
2 19 12.9
-.15
16 16.8
26
0 31 80.12
0-796
1 41 24.0
6.71
14 9.4
27
0 86 1.06
•071
2 19 7.0
.84
16 11.9
27
0 81 10.78
.890
189 5.1
5.86
14 6.1
28
0 86 2.89
.041
2 18 56.4
.58
16 8.0
28
0 80 50.75
•844
1 86 42.7
6.00
14 0.8
20
0 86 2.99
+.010
2 18 41.1
.79
16 4.1
29
0 80 30.20
.868
1 34 16.9
.14
18 66.6
30
0 86 235
-.091
2 18 21.1
0.99
16 0.2
80
0 80 9.09
•891
1 81 47.8
.98
18 62.2
31
0 86 1.98
0.059
2 17 56.6
1.11
16 66.2
81
0 29 47.44
0.918
1 29 16J^
6.41
18 47.9
82
0 86 0.87
0.068
+2 17 27.2
1.81
15 62.8
32
0 29 25.2(>
0>935
+1 26 40.1
6.54
18 48.6
9ij0fltellbiith,
M.
lllh.
aiit
81fl.
^
rofllMlCmfli,
lat
11th,
airt.
81«*.
Iter
i
19.2
19.9
20.6
21.2
Pol
ar Semidiamc
>ter
21.2
21.8
22.4
22.9
Horizonul Para]
lax
1.8
1.8
1.9
2.0
Ho
rizontal Pand
iax
2.0
2.0
2.1
2.1
30
234
JUPITER, 1856.
SEPTEMBER.
OCTOBER.
1
2
S
4
5
6
7
8
9
10
11
12
13
14
16
16
17
18
19
20
21
22
23
24
25
26
27
28
29
80
31
32
GREENWICH MEAN TIME.
AppArent
Asceufilon.
Noon.
0 29 25.26
0 29 2.56
0 28 39..S7
0 28 16.70
0 27 61.66
0 27 26.97
0 27 1.93
0 26 36.62
0 26 10.70
0 25 44.60
0 25 17.94
0 24 61.06
0 24 23.84
0 23 66.33
0 23 28.54
0 28 0.49
0 22 32.19
0 22 8.67
0 21 84.96
0 21 6.05
0 20 86.98
0 20 7.77
0 19 38.45
0 19 9.04
0 18 89.55
0 18 10.02
0 17 40.46
0 17 10.90
0 16 41.36
0 16 11.86
0 15 42.48
0 16 18.10
V&r. of
•K.A.
for 1
hour.
Noon,
0.985
.056
.978
0.99«
1.015
1.083
•OAl
.068
1.114
•m
.140
.169
.163
1.178
.168
• 103
.300
.307
1.314
.310
.938
.930
.930
1.380
.981
•981
.980
.998
1.995
1.991
Apparent
DecliiMtion.
Var.of
Dec
fori
hour.
Noon,
Noon,
O 1 N
+1 26 40.1
6.54
1 24 1.7
.66
1 21 20.4
.78
1 18 86.4
6.80
1 15 49.8
7.00
1 18 0.7
7.10
110 9.2
•90
1 7 15.4
.90
1 4 19.4
.88
1 121.8
.46
0 68 21.3
7.54
0 65 19.6
.61
0 62 16.3
.67
0 49 11.5
.78
0 46 5.8
.78
0 42 57.8
7.83
0 39 49.1
.88
0 86 89.4
.03
0 83 28.8
.06
0 80 17.6
7.00
0 27 5.6
8.01
0 28 53.2
.03
0 20 40.6
.08
0 17 27.9
.08
0 14 15.1
.08
0 11 2.5
8.03
0 7 60.2
8.00
0 4 38.3
7.08
+0 1 27.0
.05
-0 148.6
.91
0 4 68.0
7.37
-0 8 1.4
7.83
MeHdian
PaBttg«.
h. m.
18 48.6
13 39.3
13 86.0
13 30.7
18 26.8
18 22.0
13 17.6
18 18.2
13 8.8
18 4.5
18 0.1
12 56.7
12 61.3
12 46.9
12 42.6
12 88.1
12 88.7
12 29.3
12 24.9
12 20.5
12 16.1
12 11.7
12 7.8
12 2.9
11 68.5
11 64.1
11 49.7
11 45.8
11 40.8
11 36.4
11 82.0
11 27.6
GREENWICH MEAN TBiE.
AppftTBnt
Right
Aflcecuion.
Var.of
R.A.
for 1
hour.
Noon,
h. m. t.
0 16 42.43
0 16 18.10
0 14 48.89
0 14 14.82
0 18 46.91
0 13 17.19
0 12 48.68
0 12 20.40
0 11 62.37
0 11 24.61
0 10 57.64
0 10 29.98
0 10 8.16
0 9 86.67
0 9 10.66
8 44.82
8 19.50
7 54.60
7 80.14
7 6.14
0 6 42.61
0 6 19.57
0 5 67.04
0 6 86.08
0 5 18.67
0 4 62.66
0 4 82.88
0 4 12.58
0 8 63.44
0 8 84.92
Noon.
8 17.02
2 59.76
1.335
.331
.915
.906
.901
1.109
.183
.173
.169
.150
1.188
.135
.111
•006
.080
1U)63
.046
.038
1.009
0.990
0.970
.049
.938
.906
.883
0.859
.835
.810
•785
.759
0.788
0.706
AptMurvnt
DacUnatkm.
TvmT
Dee.
fori
hour.
Noon,
o I «
-0 4 53.0
0 8 1.4
0 11 8.6
0 14 14.4
0 17 18.7
0 20 21.8
0 28 22.1
0 26 20.9
0 29 17.6
0 82 12.0
0 86 4.0
0 37 68.6
0 40 40.7
0 48 25.1
0 46 6.6
0 48 45.2
0 61 20.7
0 68 68.1
0 66 22.8
0 68 48.1
1 1 10.4
1 8 29.1
1 5 44.1
1 7 65.8
1 10 2.6
1 18 6.0
1 14 6.8
1 16 0.5
1 17 51.6
1 19 88.1
1 21 20.8
-I 22 68.1
Noon,
7.87
.83
.77
.71
.64
.41
.39
.99
7.19
7.01
6.90
.79
•67
6.55
09
.39
.15
6.81
5.86
.71
.55
.39
.93
5.06
4
.79
.54
.36
4.17
8.98
MMdlm
h. m.
11 32.0
11 27.6
11 28.1
11 18.7
11 14.3
11 9.9
11 5.6
11 1.1
10 66.7
10 62.8
10 47.9
10 48.3
10 89.1
10 84,7
10 80.4
10 26.0 J
10 21.6
10 17.8
10 18.0
10 8.7
10 4.4
10 0.1
9 66.8
9 61.5
9 47.2
9 42.9
9 88.7
9S4.4
9 80.1
9 25.9
9 21.7
9 17.6
DnjoritelCoBth,
Polar S«midiainet«r 22.9
Horiiontal Parallax 2.1
llttL
28.4
2.2
«lfl
28.5
2.2
9twL
23.5
2.2
D^roTltelioath,
Polar Semidiameter
Horizontal Parallax
28.5
2.2
llttL
28.8
2.2
nuL
28.0
2.1
2.1
JUPITER, 1856.
235
NOVEMBER.
DECEMBER.
s
GREENWICH MEAN
TIME.
GREENWICH MEAN TIME. 1
1
1
laoeiuioB.
Var.of
RJk.
fori
hour.
Appuvnfe
DedLiAtioii.
V»r.of
Dec.
fori
hoar.
Meridian
Puuge.
1
Aflcension.
Var.of
R.A.
fori
hour.
Apparent
Declkation.
Var.of
Dec.
tori
hour.
Meridian
PaiaagB.
1
lwO0n»
Noon.
. Nwm,
Noon,
h
t
JVoon.
Noon,
Noon,
Noim,
fc. m. B.
f.
O 1 If
h. m.
h.
1.
O 1 M
II
h. m.
1
0 2 69.76
0.706
-1 22 68.1
8.08
9 17.5
1
23 59 54.62
0.313
-1 34 19.0
3.18
7 16.6
2
0 2 43.15
.•78
1 24 81.3
.70
9 13.3
2
0
0 0.11
.344
1 83 24.4
.88
7 12.8
8
0 2 27.21
.6M)
1 26 69.9
.00
9 9.1
3
0
0 6.36
.370
1 32 25.0
.69
7 8.9
4
0 2 11.94
.033
1 27 28.9
.40
9 4.9
4
0
0 18.86
.807
1 31 20.7
.79
7 5.1
5
0 1 67.85
.MS
128 48.2
.30
9 0.7
5
0
0 21.11
.886
1 80 11.5
9.99
7 1.8
6
0 1 48.46
0.M4
1 29 67.7
3.00
8 56.3
6
0
0 29.60
0.809
1 28 67.4
•3.19
6 67.6
7
0 1 80.26
.ftS5
181 7.4
3.80
8 62.4
7
0
0 88.88
.400
1 27 88.5
.89
6 53.7
8
0 1 17.75
.506
1 82 12.8
.00
8 48.3
8
0
0 48.80
.431
1 26 14.9
.69
6 49.9
9
0 1 6.96
.470
1 83 12.4
.40
8 44.2
9
0
0 59.50
.461
1 24 46.6
.78
6 46.2
10
0 0 54.88
.440
184 7.7
•30
8 40.1
10
0
1 10.92
.491
1 28 18.6
3.97
6 42.5
11
0 0 44.68
0.410
184 68.1
3.00
8 36.0
11
0
1 23.07
0.631
1 21 86.0
4.16
6 88.8
12
0 0 34.90
.880
186 43.6
1.70
8 31.9
12
0
1 86.92
.661
1 19 53.8
.36
6 35.1
13
0 0 26.00
.8ft6
1 86 24.2
.60
8 27.8
18
0
1 49.48
.680
1 18 7.0
.64
6 81.4
14
0 0 17.84
.834
1 86 59.9
.80
8 23.7
14
0
2 8.75
.009
1 16 16.7
.73
6 27.7
15
0 0 10.42
.398
1 87 80.6
1.18
8 19.7
15
0
2 18.72
.638
1 14 20.0
4.93
6 24.0
16
0 0 8.76
0.303
1 87 56.8
0.97
8 15.7
16
0
2 84.38
0.007
1 12 19.9
6.10
6 20.8
17
23 69 57.83
.331
1 88 17.0
.70
8 11.7
17
0
2 50.73
.096
1 10 15.4
.38
6 16.7
18
23 69 52.65
.300
1 88 82.7
.66
8 7.6
18
0
3 7.77
.733
1 8 6.5
.46
6 13.1
19
23 59 48.28
.106
188 43.4
.84
8 8.6
19
0
8 26.49
.761
1 5 58.3
•04
6 9.4
20
28 69 44.56
.130
1 88 49.0
-.18
7 59.6
20
0
8 43.88
.779
1 8 35.8
6.83
6 6.8
21
23 69 41.65
0.105
1 83 49.7
+.08
7 66.7
21
0
4 2.94
0.807
1 1 14.0
6.00
6 2.2
22
23 69 89.51
.074
1 88 45.3
.39
7 61.7
22
0
4 22.66
.836
0 68 47.9
•IT
6 58.6
23
23 59 38.13
.043
1 88 86.8
.60
7 47.8
23
0
4 43.04
.803
0 66 17.6
•34
6 56.0
24
23 69 37.61
-.010
1 88 21.3
.71
7 43.8
24
0
6 4.07
.689
0 68 48.2
.61
6 51.4
25
28 69 37.66
+.033
188 1.8
0.03
7 89.9
25
0
6 26.76
.910
0 61 4.8
.68
6 47.8
26
23 69 88.67
0.004
1 87 87.2
1.13
7 86.0
26
0
6 48.07
0.948
0 48 22.3
6.86
6 44.8
27
23 59 40.25
•080
187 7.6
.84
7 82.1
27
0
6 11.03
.969
0 46 85.8
7.03
6 40.7
28
23 59 42.70
.118
186 38.0
.66
7 28.2
28
0
6 84.61
0.996
0 42 45.3
.18
6 87.1
29
23 69 45.91
.160
1 86 68.4
.70
7 24.3
29
0
6 58.82
1.031
0 89 50.9
.34
6 38.6
30
28 59 49.88
.103
1 86 8.7
1.07
7 20.4
80
0
7 23.64
.047
0 36 62.7
.61
6 80.1
31
23 69 64.62
0.313
1 84 19.0
3.18
7 16.6
81
0
7 49.06
1.073
0 38 50.6
7.67
6 26.6
32
0 0 0.11
0.344
-1 33 24.4
3.88
7 12.8
82
0
8 15.09
1.097
-0 30 44.7
7.83
6 23.1
D^fof tlwlfbath,
lit.
11th.
%tM^
8l8t.
D»
f of the Month,
lit
lltb.
%taX.
Slat.
Polar Semidiam
Bter
22.4
21.8
21.2
20.5
Po
ar Semidiam
eter*
20.5
19.8
19.2
18.6
Horizontal Paral
lax
2.1
2.0
2.0
1.9
Ho
rizontal Para
llax
1.9
1.8
1.8
1.7
236
SATURN, 1856.
JANUARY.
FEBRUARY.
GBEENWICH MEAN TIME.
4
GREENWICH liIEAN
TIBfE.
1
1
^"SST*
Tar.of
RJL
fl>rl
hoar.
rtSKSJ,.
T»r.af
Dee.
fori
boar.
No9n,
Merhlfaii
P*«ege.
1
1
t
Appuent
Kighi
Aw^enaion.
Ver.of
RJk.
fori
hour.
^nsa..
Dee.
fori
boar.
+0.19
IferMlM
PeM0».
JVwm.
Noon,
No0m,
Ifoom,
iV^eoM.
iTeoM.
1
h. m. 1.
5 40 28.20
1.
-0.847
O 1 M
-1-22 11 16.7
ft
-0U>6
h. m.
10 57.1
1
b. m. ft.
5 32 4.82
1.
-0.436
O 1 JV
+22 11 48.5
b. B.
8 47.0
2
6 40 2.96
.640
22 11 15.8
.06
10 62.8
2
5 31 54.06
.418
22 11 53.8
•91
8 48.0
8
6 89 42.89
MM
22 11 14.0
.Oft
10 48.6
8
5 31 44.25
.900
22 11 58.5
.92
6 38.8
4
5 89 28.00
.M6
22 11 12.8
.06
10 44.8
4
6 31 84.89
.980
22 12 4.0
•34
6 84.7
ft
6 89 8.82
^U
22 11 11.7
•04
10 40.0
5
6 81 25.97
.969
22 12 9.9
.9ft
8 80.6
6
6 88 48.86
•.807
22 11 10.8
0.09
10 85.8
6
6 81 17.51
0.9U
22 12 16.1
0.96
%ms
7
6 88 24.62
.797
22 11 10.0
.0.
10 31.5
7
6 81 9.50
.994
22 12 22.6
.98
6 22.5
8
6 88 5.61
.7«
22 11 9.8
.09
10 27.8
8
5 81 1.96
.964
22 12 29.5
.99
8 18.5
9
6 87 46.84
.776
22 11 8.7
jn
10 2^.1
9
6 80 54.89
.986
22 18 86.7
.91
6 14.4
10
6 87 28.81
.7M
22 11 8.2
.09
10 18.8
10
6 80 48.29
.966
22 12 44.8
•39
8 10.4
11
6 87 10.09
e.7M
22 11 7.8
-0.01
10 14.6
11
6 80 42.16
9.946
22 12 52.2
0.39
8 6.4
IS
6 86 62.18
.7a
22 11 T.7
J0%
10 10.4
12
6 80 86.51
.996
22 18 0.4
.94
8 2.8
18
5 86 84.44
.Ttl
22 11 7.7
+OU»l
10 ^.1
18
6 80 81.84
.996
22 18 9.0
•36
7 58.8
14
6 86 17.07
.719
22 11 7.9
.01
10 1.9
14
6 80 26.65
.196
22 18 18.0
.96
7 54.4
15
6 86 0.09
.7M
82 11 8.2
.01
9 67.7
15
6 80 22.48
.199
22 18 27.4
.39
7 50.4
16
6 86 48.24
0.699
82 11 8.6
0U>9
9 58.5
16
6 80 16.70
0.146
22 18 87.1
0.41
7 46.8
17
6 86 26.78
.690
22 11 9.8
M
9 49.8
17
6 80 15.46
.»6
22 18 47.1
.49
7 42.8
18
6 86 10.65
.969
22 11 10.2
.04
9 45.1
18
6 80 12.70
.106
22 18 57.6
U4
7 86.4
19
6 84 64.88
•6il
22 11 11.8
.Oft
9 40.9
19
6 80 10.42
.096
22 14 8.8
.46
7 84.4
20
6 84 89.47
.996
82 11 12.6
.06
9 86.7
20
6 80 8.68
.996
22 14 19.4
U7
7 80.4
21
6 84 24.47
0.996
22 11 14.1
0.07
9 82.6
21
6 80 7.88
o.oa
22 14 80.9
0.48
7 26.6
22
5 84 9.77
.606
22 11 15.9
.09
9 28.4
22
5 80 6.52
.094
22 14 42.7
•60
7 22.6
28
5 88 56.48
.990
22 11 17.9
U>9
9 24.2
28
6 80 6.19
-0.904
22 14 64.9
•61
7 18.6
24
6 88 41.49
.•7»|
22 11 20.2
.19
9 20.1
24
5 80 6.34
+0.016
22 16 7.4
•69
7 14.8
25
5 88 27.96
007
22 1122.8
.11
9 15.9
25
6 80 6.98
.097
22 16 20.2
•M
7 16.8
26
5 88 14.77
0.641
22 11 25.6
0.19
9 11.8
26
6 80 8.11
0.067
22 16 88.4
0.66
7 6.9
l27
5 88 1.99
au
22 11 28.7
.19
9 7.6
27
5 80 9.74
.070
22 15 464^
.67
7 8i)
2S
5 82 49.61
.608
22 11 82.1
.Ift
9 8.5
28
5 80 11.85
.006
22 16 0.8
.60
6 69.1
1 29
5 32 87.66
.400
22 11 85.8
.16
8 59.8
29
6 80 14.44
.118
22 16 15.0
•60
6 65.2
80
5 82 26.14
.479
22 1189.8
.17
8 55.2
80
6 80 17.51
.196
22 16 29.6
.61
6 61.4
81
5 82 15.01
0.464
22 11 44.0
0.18
8 51.0
81
6 80 21.08
9.199
22 16 44.4
0.69
6 47.5
82
5 82 4.83
-0.496
+22 11 48.5
+0.10
8 47.0
82
6 80 25.14
+0.190
+22 16 69.6
+0.64
6 48.7
Di
VctUmMmm.
UL
nth.
Slat
SIM.
-dk
roftbelCoBlt,
Ift
ll«k.
91M.
Slsl. 1
Po
He
Ur Seroiduun
Mixootal Para]
eter
LUz
•
9.7
1.1
M
9.6
1.1
•
9.5
1.0
•
9.4
1.0
Pol
no
br Seinidiiun<
rixooUlPara]
iter
lax
•
9.4
1.0
•
9.2
1.0
■
9.1
1.0
•
1U>
_ _ i
SATURNT, 1856.
237
MAECH.
APRIL.
GBEENWICH MEAN TIMB.
GREENWICH HEAN TIME. |
1
1
1
II
^^ffisr*
Tar. of
JUL,
Ibrl
hour.
rtTXu
V»r.of
Dm.
fori
hoar.
Meridian
Paaaage.
Var.of
RJk.
fori
hour.
Apparent
DecUnatton.
Var.of
Deo.
fori
hour.
Meridian
Paaaage.
1
Nom,
*«.
N0om.
^bM».
i
Noom,
Noim,
JVben.
JVoon.
h. m. B.
•.
O 1 •
M
h. m.
h. m. i.
a.
o 1 a
It
h. m.
1
6 80 17.51
4^.188
+22 16 29.5
+0.61
6 51.4
1
5 85 48.74
+0.719
+22 26 5.5
+0.88
4 54.9
2
5 30 21.08
.169
22 16 44.4
.63
6 47.5
2
5 86 1.18
.78ft
22 26 26.6
.68
4 61.2
8
6 30 25.14
.180
22 16 59.6
.04
6 48.7
8
5 86 19.00
.7ftl
22 26 47.7
.88
4 47.6
4
5 30 29.68
.901
22 17 15.1
«6ft
6 89.7
4
5 86 87.20
.767
22 87 8.8
.88
4 44.0
5
6 30 84.70
.flO
22 17 80.9
.««
6 85.9
5
5 86 55.79
.768
22 87 29.9
.88
4 40.8
6
5 80 40.19
#.ttO
22 17 47.0
6J6a
6 82.0
6
5 87 14.76
0.708
22 87 50.9
0.88
4 86.7
7
5 30 46.17
.tA9
22 18 8.5
.69
6 28.2
7
5 87 84.12
.814
22 28 12.0
.68
4 88.1
8
5 80 52.64
.870
22 18 20.2
.70
624.4
8
5 87 53.88
.839
22 28 88.1
.68
4 29.5
9
5 80 59.58
.SM
22 18 87.2
.71
620.6
9
6 88 18.89
.844
22 28 54.1
.88
4 25.9
10
6 81 6.99
,U9
22 18 54.5
.72
«16.6
10
6 88 84.34
.800
22 29 15.1
.87
4 22.8
11
5 31 14.90
#.SM
22 19 12.0
6.74
«18.0
11
6 88 65.14
6.674
22 29 85.9
6.67
4 18.8
12
5 31 23.26
.SM
22 19 29.9
.7i
« 9.2
12
6 89 16.80
.888
22 29 56.7
.86
4 15.2
18
ft 31 82.09
.178
22 19 48.0
•76
« 5.4
18
6 89 87.79
.909
22 80 17.4
.86
4 11.6
14
5 31 41.37
.897
22 20 6.8
.77
« 1.6
14
6 89 59.61
.916
22 80 88.0
.86
4 8.0
15
ft 31 51.10
.416
22 90 24.8
.76
5 57^
15
6 40 21.77
.986
22 80 58.6
.8ft
4 lA
16
5 82 14»
0.48ft
22 90 48.5
6.78
5 54.1
16
6 40 44.26
0.944
22 81 19.0
0.8ft
4 0.9
17
ft 32 11.98
.404
22 21 2.4
.79
5 50.8
17
6 41 7.09
.988
22 81 89.8
.64
8 57.8
18
5 32^23.10
An
22 21 21.6
.80
5 46.6
18
6 41 80.28
.971
22 81 59.4
.84
8 58.8
19
5 32 84.65
.480
22 21 41.0
.61
542.8
19
6 41 58.68
.964
22 82 19.4
.88
8 50.8
20
5 82 46.68
.•00
22 22 0.6
.83
5 89.1
20
6 42 17.45
0.997
22 82 89.2
.63
8 46.7
21
5 82 59.06
o.aa7
22 22 20.8
6.83
5 86.4
21
5 42 41.52
1.010
22 82 58.9
0.83
8 48.2
22
6 83 11.98
.ft46
22 22 40.2
d8S
5 81.7
22
5 48 5.91
.093
22 88 18.4
.81
8 89.7
23
5 33 25.28
.ft«S
22 28 0.2
.88
5 28.0
28
5 48 80.58
.084
22 88 4)7.7
.80
8 86.1
24
ft 33 88.95
.ft80
22 88 20.8
.64
5 24.8
24
5 48 55.58
.047
22 88 56.8
.79
8 82.6
25
5 38 53.09
.ft97
22 28 40.6
.8ft
520.6
25
5 44 20.80
.089
22 84 15.6
.78
8 29.1
26
5 84 7.66
0.616
22 24 1.0
e.8ft
5 16.9
26
6 44 46.34
1.071
22 84 84.2
0.77
8 25.6
27
5 84 22.65
••M
22 24 21.5
.86
5 18.2
27
5 45 12.17
.083
22 84^2.7
.76
8 22.1
28
5 34 88.06
.690
22 24 42.1
.86
6 9^
28
5 45 88.26
.098
22 85 10.9
.7ft
8 18.6
29
6 34 53.87
.067
22 25 2.8
.86
6 5.8
29
5 46 4.61
.10ft
22 85 28.8
.74
8 15.1
30
5 35 10.08
.68ft
22 25 28.6
.87
5 2.2
80
5 46 81.27
.116
22 85 46.4
.78
8 11.6
31
5 85 26.71
0.703
22 25 44.5
0.87
4 58.5
81
6 46 58.17
1.137
22 86 8.7
0.73
8 8.1
32
5 35 43.74
+0.710
+22 26 5.5
+0.88
4 54.9
82
5 47 25.84
4-1.187
+22 86 20.8
+0.71
8 4.7
Itaj of tiM Month,
Ut
11th.
Alai.
SIM.
D^
f of tha Month,
lit.
11th.
Alat.
Slat.
Polar Semidiam
eter
•
8.9
N
8.8
•
8.6
u
8.5
Po
lar Semidiam
Bter
•
8.4
M
8.8
^
8.1
N
8.0
Horizontal Para
llax
1.0
1.0
0.9
0.9
Ho
rixontal Para]
[lax
0.9
0.9
0.9
0.9
238
SATURN, 1856.
MAY-
JUNE.
GBEENWICH MEAN
TIME.
GBEENWICH MEAN
TIME.
^
A
1
AMMtfkm.
Var.of
R.A.
fori
hoar.
li^nsL
V«r.of
Deo.
fori
hoar.
Noon,
Meridiaa
1
AMenaton.
Tar. of
R.A.
for 1
hour.
J>JSSSoa.
V»r.of
Dee.
fori
hoar.
Noon.
M
Ifaridkn
JViNN».
Noon,
Noon,
Noon,
Noon.
Noon.
h. m. 1.
1.
O 1 «
M
h. m.
h. m. 1.
B,
O 1 «
h. m.
1
6 46 58.17
+ 1.127
+22 36 3.7
+0.79
3 8.1
1
6 2 35.18
+ 1.861
+22 41 57.2
+0.16
1 21.8
2
5 47 25.84
.137
22 36 20.8
.71
3 4.7
2
6 3 7.89
.866
22 42 1.4
.16
1 18.4 1
3
6 47 52.75
.147
22 36 37.6
.70
3 1.2
3
6 3 40.69
.969
22 42 5.1
.16
1 i5ar
4
5 48 20.40
•lis
22 36 54.1
.66
2 57.7
4
6 4 13.60
.978
22 42 8.4
.18
1 11.6
5
6 48 48.82
.168
22 37 10.3
.67
2 54.2
5
6 4 46.61
.877
22 42 11.2
•10
1 8.2
6
5 49 16.47
1.176
22 37 26.2
0.66
2 50.9
6
6 6 19.72
1.981
22 42 13.4
OUM
1 4.9
7
6 49 44.86
.187
22 37 41.6
.64
2 47.3
7
6 5 52.90
.984
22 42 15.1
.06
1 1.5
8
5 50 13.40
.196
22 37 56.8
.69
2 43.9
8
6 6 26.16
.887
22 42 16.3
.08
0 58.1
9
5 50 42.27
.906
22 38 11.6
.61
2 40.4
9
6 6 59.48
.990
22 42 16.8
+0.01
0 64.7
10
6 51 11.31
.914
22 38 26.1
.60
2 37.0
10
6 7 82.88
.363
22 42 16.8
-0U»1
0 61.3
11
6 51 40.56
1.M8
22 38 40.3
0.66
2 33.6
11
6 8 6.35
1.888
22 43 16.8
0U»
0 48.1
12
5 52 10.02
.991
22 88 54.0
.66
2 80.1
12
6 8 39.87
.899
22 42 15.8
JOB
0 44.6
18
5 52 39.67
.990
22 39 7.3
.66
2 26.6
13
6 9 13.44
.401
22 42 13.8
.07
0 41.2
14
5 53 9.52
.947
22 39 20.2
.69
2 23.2
14
6 9 47.07
.409
22 42 11.9
.09
0 87.8
15
6 53 39.58
.966
22 89 32.6
ai
2 19.8
15
6 10 20.73
.406
22 42 9.4
.19
0 34.6
16
5 54 9.80
1.964
22 39 44.7
0.49
2 16.3
16
6 10 54.44
1.407
22 42 6.3
0.14
0 31.1
17
5 54 40.22
.971
22 39 56.3
.48
2 12.9
17
6 11 28.18
U09
22 42 2.7
•16
0 27.7
18
5 55 10.80
.976
22 40 7.5
U6
2 9.5
18
6 12 1.96
.411
22 41 58.6
•18
0 24.3
19
5 65 41.54
.966
22 40 18.3
•U
2 6.1
19
6 12 35.79
.418
22 41 54.1
.90
0 21.0
20
5 56 12.48
.999
22 40 28.7
•49
2 2.6
20
6 13 9.66
AU
22 41 48.9
ai
0 17.6
21
5 56 43.59
1.900
22 40 88.6
0.40
1 59.2
21
6 18 43.52
1.418
22 41 43.2
0.96
0 14.2
22
6 57 14.85
.906
22 40 48.0
.98
1 55.8
22
6 14 17.40
.419
22 41 37.0
.97
0 104)
28
5 57 46.25
.919
22 40 57.0
.87
1 52.4
23
6 14 51.28
.419
22 41 30.3
.98
0 7.6
24
6 58 17.81
.818
22 41 6.6
.96
1 49.0
24
6 15 25.17
.419
22 41 23.2
.81
0 4.1 1
25
5 58 49.52
.894
22 41 18.8
09
1 45.6
25
6 16 59.07
U19
22 41 15.4
.99
c e tj> ,
[ntrAl
26
5 59 21.36
1.990
22 41 21.5
0.91
142.2
26
6 16 32.98
1.419
22 41 7.1
0.96
23 64.0
27
5 59 53.36
.996
22 41 28.7
.99
1 88.8
27
6 17 6.87
.419
22 40 56.3
06
23 50.6 j
28
6 0 25.47
.941
22 41 35.4
.97
1 85.4
28
6 17 40.74
.411
22 40 49.0
09
23 47.3 :
29
6 0 57.69
.946
22 41 41.6
M
1 32.0
29
6 18 14.60
.411
22 40 39.3
.49
23 43.9 1
30
6 1 30.06
.961
22 41 47.3
•99
1 28.6
30
6 18 48.46
.411
22 40 29.0
•44
23 40.5 '
31
6 2 2.56
1.966
22 41 62.5
0.91
1 2&2
31
6 19 2230
1.410
22 40 18.2
0.46
23 37.2
8i
6 2 85.18
4-1.881
+22 41 57.2
+0.18
1 21.8
32
6 19 56.11
+1U06
+22 40 6.9
-0.46
23 33.8 1
t
D"J
r«rtbtMoBth,
IM.
llttL
Jllst
ZltL
D«a
r«rtlMlloDth,
Ui.
11th.
fiUL
9UL
1
Po
Ut Semidiain
«ter
8.0
•
8.0
7.9
7.8
Po
Ur Semiduun
eter
7.8
•
7.8
7.8
•
7.8
Ht
>rixonul P*nL
Uax
0.9
0.9
0.9
0.9
H<
>riiontal Paral
llax
0.9
0.9
0.9
0.9
SATURN, 1856.
239
JULY.
AUGUST.
GREENWICH MEAN
TIME.
4
GREENWICH MEAN
TIME.
1
1
Apparent
Right
AscenoioiL.
Var. of
R.A.
fori
hour.
Apparant
Declination.
Var.of
Dec.
fori
hoar.
Meridian
PaaBage.
1
1
Awenaion.
Var.of
RJk.
fori
hour.
Apparent
Declination.
Var.of
Dee.
fori
boar.
Noon.
11
Meridian
P«Mage.
^b<m.
Noon.
Noon.
Noon.
JVboii.
Noon.
Noon.
h. m. 1.
>.
o / »
It
h. m.
h. m. 1.
s.
O 1 •
h. m.
1
6 19 22.30
+1.410
+22 40 18.2
-0.46
23 87.2
1
6 86 12.70
+1.278
+22 31 1.4
-0.99
21 52.0
2
6 19 56.11
.408
22 40 6.9
.48
23 83.8
2
6 86 43.27
.270
22 80 37.6
0.99
21 48.5
S
6 20 29.86
.406
22 39 55.1
.51
28 30.4
8
6 37 18.66
.262
22 80 13.7
1.00
21 45.3
4
6 21 8.55
.404
22 39 42.7
.52
28 27.1
4
6 87 48.87
.254
22 29 49.5
.Oi
21 41.7
6
6 21 37.21
.403
22 89 29.9
.54
28 23.7
5
6 88 18.89
.246
22 29 25.0
.02
21 38.2
6
6 22 10.84
1.400
22 39 16.7
0.56
28 20.8
6
6 88 48.71
1.SS8
22 29 0.3
1.08
21 84.8
7
6 22 44.40
.898
22 39 3.0
.58
23 16.9
7
6 89 18.88
.280
22 28 85.4
.04
21 31.4
8
6 28 17.89
.805
22 38 48.8
.61
23 18.5
8
6 89 42.76
.222
22 28 10.2
.05
21 27.9
9
6 23 51.83
.8M
22 88 34.1
.62
28 10.2
9
6 40 11.99
.SI4
22 27 44.7
.06
21 24.5
10
6 24 24.70
.880
22 88 19.0
.65
28 6.8
10
6 40 41.01
•204
22 27 19.1
.07
21 21.0
11
6 24 58.01
1.386
22 88 8.3
0.66
28 8.4
11
6 41 9.80
1.194
22 26 53.4
ijon
21 17.6
12
6 25 31.28
.888
22 87 47.2
.68
23 0.0
12
6 41 88.86
.165
22 26 27.6
.07
21 14.1
13
6 26 4.36
.879
22 37 30.7
.69
22 56.6
18
6 42 6.71
.176
22 26 1.7
.08
21 10.6
14
6 26 37.41
.876
22 87 13.8
.71
22 63.2
14
6 42 84.88
.167
22 25 86.6
.00
21 7 1
15
6 27 10.38
.871
22 36 56.4
.74
22 49.9
15
6 48 2.78
.157
22 26 9.4
.00
21 8.7
16
6 27 43.25
1.867
22 36 88.5
0.75
22 46.5
16
6 48 80.88
1.147
22 24 48.1
IM
21 0.2
17
6 28 16.01
.868
22 36 20.2
.77
22 43.1
17
6 48 57.78
.187
22 24 16.7
•10
20 56.7
18
6 28 48.68
.359
22 86 1.5
•70
22 89.7
18
6 44 24.94
•127
22 88 50.4
•10
20 53.2
19
6 29 21.25
.864
22 35 42.8
•81
22 86.3
19
6 44 51.86
.116
22 28 24.1
.11
20 49.7
20
6 29 53.69
.840
22 35 22.7
.62
22 82.9
20
6 45 18.52
.105
22 22 57.7
.11
20 46.3
21
6 30 26.02
1.844
22 85 2.8
0.84
22 29.5
21
6 45 44.91
1.094
22 22 81.0
1.11
20 42.8
22
6 30 58.22
.839
22 84 42.5
.86
22 26.1
22
6 46 11.05
.088
22 22 4.2
.12
20 39.8
23
6 31 30.80
.884
22 34 21.8
.87
22 22.7
23
6 46 86.92
.072
22 21 87.8
.12
20 35.8
24
6 82 2.26
.898
22 84 0.8
.88
22 19.8
24
6 47 2.51
.061
22 21 10.5
•11
20 32.8
25
6 32 34.08
.822
22 33 39.5
.90
22 15.9
25
6 47 27.88
.049
22 20 43.8
.11
20 28.7
26
6 33 5.77
1.817
22 83 17.8
0.91
22 12.5
26
6 47 52.85
1.087
22 20 17.2
1.10
20 25.2
27
6 S3 37.80
.811
22 32 55.8
.92
22 0.1
27
6 48 17.57
.025
22 19 50.7
•10
20 21.7
28
6 34 8.69
.806
22 82 38.5
.98
22 5.6
28
6 48 42.02
.018
22 19 24.2
•10
20 18.2
29
6 34 39.93
.299
22 82 11.0
.95
22 2.2
29
6 49 6.18
.000
22 18 57.8
.10
20 14.6
30
6 33 11.02
.293
22 81 48.1
.96
21 58.8
80
6 49 80.08
0.987
22 18 81.4
.10
20 11.1
31
6 85 41.95
1.296
22 81 24.9
0.97
21 55.4
31
6 49 58.56
0.974
22 18 5.2
1.09
20 7.5
32
6 36 12.70
+1.278
+28 81 1.4
-0.99
21 52.0
32
6 50 16.77
+0.968
+22 17 89.2
-1.08
20 4.0
D^rof tiMlIdiitli,
lit
11th.
»lft
81«t.
©•J
roftlMlfbath,
UL
lltfa.
»l8t.
8l8t.
Polar Semidiam
eter
7.8
7.8
7.9
N
7.9
Pol
ar Semidiamc
iter
7.9
8.1
■
8.1
H
8.2
Horizontal Para)
Uax
0.9
0.9
0.9
0.9
Ho
rizontal Paral
lay
0.9
0.9
0.9
0.9
240
SATURN, 1856.
SEPTEMBER. ■
OCTOBER. 1
GREENWICH MEAN TIME.
GREENWICH MEAN TIBCB. ||
1
1
II
iMeSrioo.
Var.of
R.A.
fori
hoar.
fisnsL
Tw.of
Dm.
fori
hoar.
Noon,
u
H«ridiaa
AlOtfBiOO.
Var.of
R.A.
fori
hoar.
ri^nsL
Tar.of
Dm.
fori
hoar.
Noon.
u
isr
Noon.
Noon,
Noon,
Noon,
Noon.
Noon.
h. m. 1.
•.
O 1 •
h. m.
h. m. t.
B,
O 1
•
h. B.
1
6 50 16.77
+O.MI
•1-22 17 89.2
—1.08
20 4.0
1
6 59 6.56
-H).48ft
+22
8 51.1
-0.68
18 14.7
2
6 50 39.70
.948
22 17 18.3
.08
20 0.4
2
6 59 17.99
.467
22
8 86.8
.60
18 10.9
8
6 51 2.29
.M4
22 16 47.5
.07
19 56.9
8
6 59 28.98
.448
22
8 22.2
.68
18 7.2
4
6 51 24.55
.MO
22 16 21.9
.06
19 68.8
4
6 59 89.51
.499
22
8 8.6
.ft6
18 3.4
5
6 51 46.47
.906
22 15 56.5
.06
19 49.7
6
'6 69 49.59
.410
22
5 55.6
.68
17 69.6
6
6 52 8.05
0.893
22 16 81.8
1.06
19 46.1
6
6 59 59.22
0.891
22
M8.2
O.ftl
17 55.8
7
6 52 29.28
.878
22 15 6.4
.04
19 42.6
7
7 0 8.38
.878
22
5 81.8
.48
17 52.0
8
6 52 50.18
.884
22 14 41.8
.OS
19 89.0
8
7 0 17.10
.884
22
120.0
.46
17 48.2
9
6 58 10.78
.850
22 14 17.8
.09
19 85.4
9
7 0 25.86
.886
22
1 9.4
.48
17 44.5
10
6 58 80.92
.8M
22 18 53.1
1.0O
19 81.8
10
7 0 88.16
.816
22
4 59.5
.40
17 40.6
11
6 58 50.75
0.810
22 18 29.2
0.96
19 28.2
11
7 0 40.50
0.996
22 '
4 50.8
0.87
17 86.8
12
6 54 10.24
.80ft
22 18 5.7
.97
19 84.6
12
7 0 47.88
.977
22
141.8
.84
17 88.0
13
6 54 29.35
.789
22 12 42.5
.97
19 20.9
18
7 0 58.79
.967
22
188.9
.81
17 29.2
14
6 54 48.10
.778
22 12 19.5
.98
19 17.8
14
7 0 59.78
.988
22
126.7
.98
17 25.8
15
6 55 6.47
.788
22 11 56.9
.98
19 18.7
15
7 1 5.20
.918
22 *
A 20.2
•9ft
17 21.6
16
6 55 24.46
0.743
22 11 84.6
0.99
19 10.0
16
7 1 10.20
0.199
22 '
A 14.4
0.98
17 17.7
17
6 55 42.10
.7J7
22 11 12.6
.91
19 6.4
17
7 1 14.75
.179
22 '
A 9.2
.91
17 18.8
18
6 56 59.85
.711
22 10 51.0
.88
19 2.7
18
7 1 18.81
.160
22 *
A 4.7
.17
17 9.9
19
6 56 16.21
.897
22 10 29.S
.87
18 59.1
19
7 1 22.40
.141
22
A 1.0
.14
17 6.1
20
6 56 82.67
.678
22 10 9.0
.86
18 55.4
SO
7 125.50
.190
22 ]
158.0
.11
17 2.2
21
6 56 48.78
0.660
22 9 48.6
0.8S
18 61.7
21
7 128.12
0.100
22 :
155.7
9U>6
16 68.8
22
6 57 4.88
.644
22 9 28.8
.89
18 48.1
22
7 1 80.28
.060
22 1
154.2
.04
16 54.4
28
6 57 19.64
.697
22 9 9.4
.60
18 44.4
28
7 1 81.90
.089
22 1
158.5
-0.01
16 50.6
24
6 57 84.49
.610
22 8 50.4
.78
18 40.7
24
7 1 88.07
.089
22 1
B58.5
+0.01
16 46.6
25
6 57 48.92
.899
22 8 81.9
.76
18 87.0
25
7 1 88.76
+0.019
22 i
S54.2
.04
16 42.6
26
6 56 2.98
0.87ft
22 8 18.8
6.74
18 88.8
26
7 188.97
-0.001
22 ]
155.6
0.08
16 88.7
27
6 58 16.52
.8ft8
22 7 56.2
.79
18 29.6
27
7 1 88.66
.099
22 ]
157.8
.11
16 84.7
28
6 58 29.69
.840
22 7 89.1
.76
18 25.9
28
7 1 82.89
.049
22 ^
A 0.8
.14
16 80.6
29
6 58 42.42
.891
22 7 22.5
•68
18 22.1
29
7 1 81.68
.068
22 ^
A 4.6
.17
16 26.8
80
6 58 54.71
.809
22 7 6.5
.66
18 18.4
80
7 129.88
.068
22 *
A 9.1
.90
16 22.8
31
6 59 6.56
0.48ft
22 6 51.1
6.68
18 14.7
81
7 1 27.67
0.108
22 '
A 14.8
0.98
16 18.9
82
6 60 17.99
4-0.467
+22 6 86.8
-0.60
18 10.9
82
7 124.97
-0.199
+22 4 20.2|
+0.96
16 14.9 1
teyoTlteMtelk,
Ui.
llttL
«lfl
Mil
1^
«r«telfiMilh,
IM.
ll«lk.
91M.
«
9.1
PoUr Semidfaun
etar
u
8.2
8.4
8.5
•
8.6
Po
Ur Senidiam
eter
If
8.6
H
8.8
9.0
Horiiontal Parai
=
LUz
0.9
0.9
0.9
0.9
He
»riioiitalP«id
Uax
0.9
1.0
1.0
1.0 1
SATURN, 1856.
241
NOVEMBER.
DECEMBER.
GREENWICH MEAN
TIME.
GREENWICH MEAN
TIME.
^
^
1
:h:
Tar. of
ILA.
fori
hoar.
Dee£ation.
Var.of
Deo.
tori
hoar.
Heridiaa
PiMage.
Aaoenilon.
Var.of
KJL.
fori
hour.
,ii?.«n.
Yar.of
Dee.
fori
hour.
MetkUaa
Paaaage.
^
IfoOHt
Noon.
Noon,
Noon.
s
Noon.
Noon.
Noon.
Noon.
1
b. m. •.
7 1 24.97
O 1 »
+22 4 20.2
h
+0.96
h. m.
16 14.9
1
h. m. 1.
6 56 88.76
1.
-0.668
o 1 a
+22 12 86.8
+1.05
h. m.
14 12.0
2
7 1 21.79
.143
22 4 26.9
.30
16 10.9
2
6 56 17.79
.679
22 18 2.8
.07
14 7.8
8
7 1 18.12
.163
22 4 84.4
.33
16 6.9
3
6 56 1.48
.686
22 18 28.2
.00
14 8.6
4
7 1 18.98
.163
22 4 42.6
.86
16 2.9
4
6 55 44.88
.609
22 13 64.5
.10
18 69.4
6
7 1 9^7
.903
22 4 61.6
.38
16 68.9
6
6 65 27.99
.719
22 14 21.2
.19
18 66.2
6
7 1 4.26
0.939
22 6 1.1
0.41
16 64.9
6
6 55 10.76
0.796
22 14 48.8
1.14
18 60.0
7
7 0 68.70
.949
22 6 11.4
.46
15 60.8
7
6 64 63.23
.738
22 16 16.8
.16
13 46.7
8
7 0 62.66
.961
22 5 22.6
.48
16 46.8
8
6 54 85.40
.740
22 15 48.6
• 16
18 42.5
9
7 0 46.17
.980
22 6 84.3
.61
16 42.7
9
6 64 17.83
.760
22 16 11.7
• 18
18 88.2
10
7 0 89.23
.300
22 6 46.8
.64
16 88.7
10
6 63 58.99
.770
22 16 40.1
.18
IS 84.0
11
7 0 81.86
0.310
22 6 0.1
0.67
16 84.6
11
6 68 40.39
0.780
22 17 8.6
1.10
18 29.8
12
7 0 28.94
«338
22 6 14.1
.60
16 80.6
12
6 68 21.56
.700
22 17 87.4
.90
13 26.5
IS
7 0 16.62
.366
22 6 28.8
•63
16 26.6
13
6 68 2.47
.800
22 18 6.6
.91
18 21.8
14
7 0 6.86
.374
22 6 44.1
.66
15 22.4
14
6 62 48.16
.800
22 18 35.8
.99
18 17.0
16
6 69 67.66
.893
22 7 0.0
.68
16 18.3
15
6 52 23.65
.818
22 19 6.3
.93
13 12.8
16
6 69 48.02
0.411
22 7 16.6
0.70
15 14.2
16
6 52 8.98
0.896
22 19 35.1
1.94
18 8.6
17
6 59 87.94
.490
22 7 88.8
.73
16 10.1
17
6 61 44.03
.834
22 20 6.2
.95
18 4.2
18
6 69 27.42
,44,1
22 7 61.7
.76
15 6.0
18
6 51 23.93
.849
22 20 85.3
.96
13 0.0
19
6 69 16.47
.466
22 8 10.2
.78
15 1.9
19
6 61 8.66
.848
22 21 6.6
.96
12 65.7
20
6 69 6.10
.463
22 8 29.8
.81
14 67.8
20
6 50 48.24
.864
22 21 35.8
.96
12 61.4
21
6 68 68.30
0.600
22 8 49.1
0.84
14 58.6
21
6 60 22.67
0.860
22 22 6.2
1.97
12 47.2
22
6 68 41.09
.618
22 9 9.5
.86
14 49.6
22
6 60 1.96
.866
22 22 36.7
.98
12 42.9
28
6 68 28.47
.634
22 9 30.6
.88
14 45.4
23
6 49 41.11
.870
22 28 7.3
.38
12 88.6
24
6 68 16.46
.660
22 9 62.0
.01
14 41.2
24
6 49 20.18
.874
22 23 37.9
.98
12 34.3
25
6 68 2.07
.666
22 10 14.0
.08
14 87.0
25
6 48 69.16
.870
22 24 8.5
.98
12 30.0
26
6 67 48.28
0.669
22 10 36.6
0.95
14 82.9
26
6 48 38.02
0.883
22 24 89.1
1.98
12 26.8
27
6 5i 84.10
.698
22 10 69.5
0.07
14 28.7
27
6 48 16.80
.886
22 25 9.6
.98
12 21.5
28
6 67 19.68
.614
22 11 23.1
1.00
14 24.5
28
6 47 65.62
.888
22 26 40.1
.98
12 17.2
29
6 67 4.62
.699
22 11 47.8
.01
14 20.4
29
6 47 84.20
.889
22 26 10.7
.98
12 12.9
30
6 66 49.37
.6U
22 12 11.8
.03
14 16.2
80
6 47 12.85
.800
22 26 41.4
.98
12 8.6
31
6 66 38.76
0.668
22 12 86.8
l.OS
14 12.0
81
6 46 61.50
0.800
22 27 12.1
1.98
12 4.3
32
6 66 17.79
-0.679
+22 18 2.8
+1.07
14 7.8
32
6 46 80.12
-D.800
+22 27 42.8
+ 1.98
12 0.0
St
J of the Month,
1st.
11th.
9l8t.
31st.
D»:
r of the Month,
lit
11th.
9.6
%ut.
31st.
Po
lar Sefnidiam
eter
9.1
N
9.3
N
9.4
u
9.6
Pol
ar Semidiam<
5ter
0
9.6
9.7
9.7
He
rizontal Para
lUx
1.0
1.0
1.0
1.0
Ho
rizontal Pand
lax
1.0
1.1
1.1
1.1
ai
242 SUN'S COORDmATtSS^ 1856.
Greenwich
Meau Noua.
X.
Y.
z.
Greenwich
MoAa Nooo.
X.
r.
z.
Jan. 0
d.
0
-H.1591036
—.8900667
—.3862706 \
Mar. 1
4.
61
-h.9383434
—.2939670
—.1275814
1
1
.1763431
.8873308
.3850838 :
2
62
.9440514
.2789363
.1210586
S
2
.1935286
.8843181
.3837769
3
63
9494724
.2638195
.1144983
3
3
.2106534
.8810287
.3823501 1
4
64
.9546050
.2486221
.1079027
*
4
.2-J77179
.8774638
.3808037
5
65
.9594474
.2333486
.1012740
5
5
.2447101
.8736246
.3791380 ,
6
66
.9639979
.2180042
X)946I43
6
6
.2616269
.8095119
.3773535
7
67
.9682557
.2025932
.0879256
7
7
.2784619
.8651274
.3754509
8
68
.9722190
.1871204
X)81210i 1
8
8
.2952090
.8604726
.3734310
9
69
.9758871
.1715916
i)74470l
9
9
.3118640
.8555486
^712943 i
10
70
.9792597
.1560111
J0677078
10
10
.3284209
.8503570
.3690413 ,
11
71
.9823357
.1403852
i)609256
U
11
.3448737
.8449004
^666728
12
72
.9851146
.1247184
.0541257
12
12
.3612178
.8391802
J641899
13
73
.9875962
.1090147
i)473l01
13
13
J774477
.8331984
.3615936
14
74
.9897805
J093279S
.0404808
14
14
.3935588
3269580
.3588849
15
75
.9916680
J0775170
.0336401
15
15
.4095465
.8204610
.3560648
16
76
.9932577
X)617346
J0M7901
16
16
.4254050
.8137097
.3531343
17
77
.9945503
.0459338
X)l 99329
17
17
.4411302
.8067063
.3500944
18
78
.9955460
.0301206
X)130704
18
18
.4567175
.7994533
.3469463
19
79
.9962446
— X>142993
•^i»6aD45
19
19
^4721623
.7919535
.3436911
20
80
^966468
-hXX>152S3
+.0006628
90
20
4874602
.7842089
.3403299
21
81
.9967526
X)l 73486
J0075M
21
21
ik)26070
.7762222
;I368638
22
82
.9965623
XKS31676
X)143M9
22
22
JH 7.5980
.7679963
.8332938
23
83
.9960766
J0489775
.0212&43
23
23
.5324301
.7595334
.3296210
24
84
.9952952
.0647732
X)281087
94
24
.5470978
.7508357
.3258466 1
25
85
.9942186
.0805500
J0349651
29
25
J>615973
.7419055
JJ219717,
26
86
.9928471
X)963037
X)4]791i
96
26
.5759240
.7327456
.3179973
27
87
.9911811
.1120310
i>486168
27
27
.6900738
.7233586
.3139243
28
88
.9892207
.1277268
i>554276
28
28
.6040429
.7137474
.3097540
29
89
.9869662
.1433855
J0622232
29
29
.6178263
.7039149
.8054871 ,
30
90
.9844189
.1590030
J0690009
30
SO
.6314196
.6938640
.3011265
81
91
.9815792
.1745743
X)757.'V89
31
31
.6448183
.6835974
.2966716
Apr. 1
92
.9784477
.1900958
.0824952
Feb. 1
32
.6580189
.6731180
i2921244
2
93
.9750253
.2055617
i>892076
2
33
.6710163
.6624289
.2874862
3
94
.9713182
.2209672
J0959999
3
34
.6838067
.6515336
.2827583
4
95
.9673128
.2363080
a025620
4
35
.6963853
.6404357
.2779421 1
5
96
.9630256
. .2515789
.1091799
6
36
.7087485
.6291388
.2730394
6
97
.9584529
.2667744
.1157755
6
37
.7208915
.6176467
.2680520
7
98
.9535965
J2818911
.1223366
7
38
.7328112
.6059636
.2629815 !
8
99
.9484581
.2969240
.1288612
8
39
.7445038
.5940933
.2578297
9
100
.9430395
.3118677
.1353472
9
. 40
.7559655
Ji82a396
.2525982
10
101
.9373441
.3267180
.1417924
10
41
.7671928
.5698066
.2472887
11
102
.9313735
^14712
.1481964
11
42
.7781823
.5573986
.2419031
12
103
.9251298
.3561232
.1545543
12
43
.7889314
.5448199
.2364434
18
lOI
.9186156
J706692
.1608671
13
44
.7994369
.5320747
.2309116
14
105
.9118336
.3851057
.1671321
14
45
.8096959
J»19I672
.2253095
16
106
.9047858
.3994284
.1733476
15
46
.8197056
.5061019
.2196389
16
107
.8974746
4136340
.1795123
16
47
.8294634
4928828
.2139017
17
108
.8899032
4277185
.1856241
17
48
A389670
.4795140
.2080997
18
109
iJ820740
4416783
.1916817
18
49
.8482140
4660001
.2022348
19
110
.8739887
4555090
.1976835 1
19
50
.8572020
4523449
.1963087
20
HI
.8656505
4692086
.2036279
20
51
.8659285
4385519
.1903231
21
112
J»5706I7
4827720
.2095136
21
52
.8743919
4246255
.1842797
22
113
.8482247
4961955
.2153386 i
22
53
.8825899
4105699
.1781803
23
114
.8391419
.5094763
.2211016
23
54
.8905200
.3963891
.1720267
24
115
.8298159
.5226105
.2268013 1
24
55
.8981798
.3820869
.1658206
25
116
.8202494
.5355945
.2324360
25
56
.9055672
J)676675
.1595637
26
117
i»l04444
.5484252
.2380042 •
26
57
.91268a3
U1531357
.1532578
27
118
.8004IKS6
.6610985
.2435040 .
27
58
.9195163
A3H4956
.1469048
28
119
.7901301
3736100
.2489340 1
28
59
.9260733
J237513
.1405065
29
120
.7796270
.5859562
.2542924 ,
29
60
-f> .9323501
— J089069
^.1340647
30
121
H-.7688971
^-.5981337
-|-.259»7r7
SUN'S COORDINATES, 1856. 243
Greenwich
Greenwich
HeaaNooQ.
X.
Y.
z.
Mean Noon.
X.
Y.
z.
Maj 1
12^
-H.7579433
+.6101388
+.2647884
July 1
18^
—.1722775
+.9192894
+.3989573
2
123
.7467689
.6219679
.2699226
2
184
.1889324
.9165342
.3977619
8
124
.7353775
.6336178
.2749790
3
185
.2055333
.9135191
.3964535
4
125
.7237729
.6450835
.2799558
4
186
J2220763
.9102460
.3950329
5
126
.7119590
.6563634
.2848516
5
187
.2385561
.9067152
.3935005
6
127
.6999395
.6674526
.2896648
6
188
.2549671
.9029284
.3918568
7
128
.6877182
.6783485
.2943937
7
189
.2713049
.8988867
.3901024
8
129
.6752985
.6890477
.2990374
8
190
.2875646
.8945913
.3882378
9
130
.6626847
.6995475
.3035944
9
191
.3037421
.8900438
.3862636
10
131
.6498811
.7096455
.3080635
10
192
.3198322
3852460
.3841808
11
132
.6968921
.7199389
.8124438
11
193
.8358306
.8801995
.3819901
12
133
.6237218
.7298249
.3167339
12
194
.3517336
.8749057
.3796921
13
134
.6103739
.7395011
.3209326
13
195
.3675364
.8693661
.3772876
U
135
J(968533
.7489651
JJ250392
14
196
.3832345
.8635832
.3747775
1ft
136
.5831636
.7582144
.3290525
15
197
.3988239
8575587
.3721627
16
137
.6693085
.7672473
.8329718
16
198
4143002
.8512941
.3694438
17
138
.5552924
.7760615
.8367963
17
199
4296608
.8447908
.3666215
16
139
.5411192
.7846550
.3405249
18
200
4449012
.8380504
.3636964
19
140
.6267927
.7930254
.8441567
19
201
4600170
.8310746
.3606694
80
141
.5123172
.8011705
.3476910
20
202
4750043
.8238653
.3575412
21
142
4976958
.8090885
3511271
21
203
4898588
.8164244
.3543125
22
143
.4829328
.8167778
.3544640
82
204
.5046763
.8087534
.3509843
23
144
468a319
.8242362
.8577005
83
205
.5191527
.8008539
.3475568
24
145
4529971
.8314613
.3608360
24
206
.5335852
.7927278
.3440310
25
146
.4378324
.8884513
.8688697
85
207
.5478685
.7843771
.3404077
26
147
4225425
.8452040
.3668005
26
208
.5619982
.7758038
.3366879
27
148
4071311
.8517171
.8696275
27
209
.5759693
.7670099
.3328721
28
149
.3916024
.8579883
.3723497
28
210
J5897787
.7579977
.3289615
29
150
.3759610
.8640159
.8749662
29
211
.6034217
.7487696
.3249570
30
151
.3602112
.8697984
.8774763
80
212
.6168937
.7393284
.3208600
31
152
J3443578
.8753335
.8798792
81
213
.6301903
.7296771
.8166717
Janfi 1
153
.3284053
.8806197
.8821739
Aug. 1
214
.6433078
.7198181
.3123928
2
154
.3123585
.8856554
.8843598
2
215
.6562423
.7097536
.3080247
3
155
.2962223
.8904388
.8864361
8
216
.6689898
.6994865
.3035685
4
156
.2800023
.8949689
.8884025
4
217
.6815461
.6890211
4S990261
5
157
.2637029
.8992444
JI902581
5
218
.6939069
.6783599
.2943988
6
158
.2473292
.9032636
.8920024
6
219
.7060688
.6675058
.2896877
7
159
.2308863
.9070264
.8936353
7
220
.7180292
.6564634
.2848947
8
160
.2143794
.9105315
^951562
8
221
.7297839
.6452353
.2800214
9
161
.1978133
.9137782
.3965645
9
222
.7413304
.6338244
.2750688
10
162
.1811921
.9167658
J978607
10
223
.7526655
.6222342
.2700384
n
163
.1645215
.9194943
.3990442
11
224
.7637848
.6104685
.2649321
12
164
.1478059
.9219636
.4001151
12
225
.7746870
.5985307
.2597512
13
165
.1310501
.9241728
.4010732
13
226
.7853687
.5864240
J1544971
14
166
.1142587
.926121G
4019184
14
227
.7958271
.5741511
.2491710
15
167
.0974366
.9276105
4026508
16
228
.8060595
.5617163
.2437748
16
168
.0805884
.9292391
.4032702
16
229
.8160633
.5491229
.2383099
17
169
X)637180
.9304066
4037764
17
230
.8258357
..5363731
.2327772
18
170
.0468305
.9313135
.4041696
18
231
.8353730
.5234706
.2271785
19
171
.0299290
.9319590
4044496
19
232
.8446735
.5104179
.2215148
20
172
-f-X)130183
.9328431
4046163
20
233
.8587340
4972191
.2167873
21
173
—.0088966
.9324655
4046696
81
234
.8625522
4838776
.2099980
22
174
.0208116
.9323266
4046097
88
235
.8711241
4703968
.2041482
23
175
.0377224
.9319259
4044361
JW
236
.8794483
4567804
.1982395
24
176
.0546237
.9312634
.4041491
24
237
.8875213
.4430315
.1922731
25
177
.0715111
.9303382
.4087483
25
238
.8953395
4291544
.1862510
26
178
i)888802
.9291513
4032340
26
239
.9029009
4151524
.1801746
27
179
.1052260
.9277020
.4026058
27
240
.9102030
.4010296
.1740454
28
180
.1220435
.9259909
.4018636
28
241
.9172424
.3867903
.1678655
29
181
.1888278
.9240180
.4010083
29
242
.9240173
^724384
.1616368
80
182
—.1556742
+.9217842
+.4000395
30
243
—.9805252
+.8679781
+.1553609
244 SUN'S COORDINATES, 1856.
OnfQwich
BiMaNooQ.
X*
Y.
Z.
Greenwich
Mmo Noon.
X.
Y.
X. •
Aiur.31
d
844
— .9367632
-f-.3434147
-I-.1490399
Not. 1
(i.
306
—.7675641
—.5760844
—.8500150
Se7t. 1
245
.9427293
.3287517
.1426757
2
307
.7562628
.5881640
.2552574
246
.9484222
.3139937
.1362701
3
308
.7447317
.6000637
.2604816
8
247
.9538398
.2991454
.1298255
4
309
.7329752
.6117795
.2655058
4
848
.9589803
.2842119
.1233437
5
310
.7209968
.6233081
.2705087
5
249
.9638418
.2691967
.1168266
6
311
.7088003
.6346460
.2754888
6
250
.9684238
.2541039
.1102762
7
312
.6963891
.6457894
.2802643
7
251
.9727247
.2389392
.1036947
8
313
.6837670
.6567357
.2850141
8
252
.9767430
.2237076
.0970841
9
314
.6709381
.6674822
.2896770
9
253
.9804780
.2084122
4)904460
10
315
.6579062
.6780253
.2942516
10
254
.9839291
.1930580
4)837825
11
316
.6446750
.6883612
.8987367
U
255
.9870952
.1776490
.0770954
12
317
.6312484
4(984881
.3031309
13
256
.9899755
.1621892
4)703863
13
318
.6176295
.7084015
.3074387
13
257
.9925688
.1466832
.0636574
14
319
.6038220
.7180998
.3116411
14
258
.9948746
.1311349
4)569103
15
320
.5898299
.7276796
.3157548
15
259
.9968920
.1165486
4)501467
16
321
.5756576
.7368380
.3197787
16
260
.9986204
i)999282
4)433685
17
322
.5613082
.7458728
.3836934
17
261
1.0000591
.0842785
4)365775
18
323
.5467856
.7546788
.3375156
18
262
1X)012066
X)686040
4)297754
19
324
.5320938
.7632550
.3318376
19
263
1.0020627
X)529079
4)229640
20
325
.5172376
.7715976
.3348585
SO
264
1.0026265
X)371952
0161452
21
326
.5022215
.7797037
.3383769
SI
265
1.0028972
.0214703
4)093211
22
327
4870498
.7875697
.3417914
22
266
1.0028744
-»-XK)57378
+4)024936
83
328
4717261
.7951938
.3451007
S3
267
1XX)25571
— i)099982
—.0043356
24
329
4562555
.8025727
.3483035
S4
268
1X)019449
'i)257325
4)111642
85
330
4406426
.8097035
.3513987
S5
269
1.0010374
.0414603
4)179903
86
331
4248929
.8165837
.3543853
86
270
^998340
X)571768
4)248114
87
332
4090113
.8232111
.3578619
S7
271
.9983354
/)728774
4)316257
88
333
.3930032
.8295826
.8600874
88
973
.9965410
i)885572
4)384313
89
334
.3768730
.8356970
.3686810
89
873
.9944507
.1042107
4M52253
30
335
.3606265
.8415522
.3658880
30
874
.9920658
.1198398
4)520059
Dec 1
336
.3442688
.8471460
.3676497
Oct 1
875
.9893866
.1354190
4)587708
8
337
.3278052
.8524771
.3699689
8
276
J)864128
.1509653
4)655184
3
338
.3112419
A175428
.3721609
3
877
.9831464
.1664660
4)722459
4
339
.2945837
.8623424
.3749438
4
878
.9795884
.1819169
4)789516
5
340
.2778356
.8668744
.3768093
5
879
.9757390
.1973103
4)856328
6
341
.2610029
.8711379
.3780589
6
880
.9716004
.8126441
4)922877
7
342
.2440911
.8751320
JI7979U
7
281
.9671734
.2279139
4)989146
8
343
.2271055
.8788546
.3814064
8
282
.9624595
.8431149
.1055113
9
344
.2100508
.8823060
.3889035
9
283
.9574604
.8588488
.1120762
10
345
.1929315
.8854848
.3848884
10
284
.9521774
.8738914
.1186069
11
346
.1757533
.8883905
.3855488
11
285
.9466124
.8882585
.1251018
19
347
.1585213
.8910211
.3866848
18
286
.9407666
.3031395
.1315591
13
348
.1412407
.8933765
.3877064
13
287
41346411
.3179306
.1379775
14
349
.1239152
.8954562
.3886090
14
888
.9282384
.3326871
.1443549
15
350
.1065509
.8972598
.3893915
15
889
.9215597
.3478841
.1506892
16
351
.0891534
.8987841
.3900638
16
890
.9146067
.3617178
.1569787
17
352
4)717266
.9000309
.3905958
17
891
.9073805
.3761040
.1632218
18
353
4)542756
.9009983
.3910156
18
893
.8998829
.3903793
.1694166
19
354
.0368062
.9016865
.3913150
19
893
.8921159
^4045388
.1755614
90
355
4)193235
4)080942
.3914987
SO
894
.8840814
.418.5779
.1816540
81
356
—.0018333
.9022219
.3915485
81
895
.8757806
4384987
.1876929
88
357
-h4)l 56590
.9020673
.3914883
88
896
.8672156
4462791
.1936764
83
358
.0331474
.9016312
.3918937 "
83
897
.8583886
4599326
.1996023
84
359
.0506269
.9009138
.3909888
84
898
.8493014
4734484
.8054683
85
360
4)680907
.8999150
.3905497
SS
899
.8399563
4868221
J11S727I
86
361
4)85.5341
.8986347
.3899941
86
300
.8303564
.5000489
.2170135
27
362
.1029506
.8970729
.3893164
87
301
.8205045
.5131240
.2226887 1
88
363
.1203352
.8952307
.3885170
88
302
.8104030
.5260440
^82964'
89
364
.1376815
.8931084
.3875957
89
303
.8000546
.5388047
.9338348
30
365
.1549844
.8907071
.3865538
30
304
.7894633
.5514011
.8393020 1
31
366
.1722373
.8880277
.3853897
31
305
— .7786319
—.5638890
-.8446960
38
367
-4-.1894350
—.8850718
—.3841061
ASTRONOMICAL EPHEMERIS
rOB THS
MERIDIAN OF WASHINGTON,
246
OBLIQUITY OP THE ECLIPTIC, &c.
adaml
0^
ObS^y,
■loaliOB <f BialnoaH.
FiMwrfoaof
KqnlnoiM
In
LODgltOd..
TbaSan'i
HMD Longllate
of Moos'.
HoSi.
InLoDiltad..
IdB-A.
AInmtkm.
Uor.TtuOa.
1856.
»i%i
0
10
20
30
40
35".61
35.74
35.92
36.13
36.35
-8.06
7.50
7.05
6.74
6.59
-0.48
0.45
0.42
0.41
0.40
o'.oo
1.37
2.74
4.12
5.49
-20'.80
20.79
20.77
20.75
20.72
l^2
8.72
8.71
8.70
8.69
80° 11.1
29 39.4
29 7.7
28 86.0
28 4.8
50
60
70
80
90
36.56
36.73
36.85
36.90
36.89
6.59
6.73
6.97
7.26
7.54
0.40
0.41
0.42
0.44
0.45
6.86
8.23
9.60
10.98
12.35
20.67
20.62
20.57
20.51
20.45
8.67
8.65
8.63
8.61
8.58
27 82.6
27 1.0
26 29.3
25 57.6
25 25.9
100
110
120
130
140
36.82
36.70
36.55
36 39
36.23
7.78
7.92
7.94
7.82
7.56
0.47
0.48
0.48
0.47
0.45
13.72
15.09
16.47
17.84
19.21
20.40
20.34
20.29
20.24
20.19
8.56
8.53
8.51
8.49
8.47
24 54.2
24 22.5
23 50.8
23 19ii
22 47.5
150
160
170
180
190
36.11
36.02
35.99
36.02
36.11
7.19
6.72
6.19
5.66
5.15
0.43
0.40
0.87
0.34
0.31
20.59
21.95
23.38
24.70
26.07
20.16
20.13
20.12
20.11
20.11
8,46
8.45
8.44
8.44
8.44
22 15.8.
21 44.1
21 12.4
20 40.7
20 9.0
200
210
220
230
240
36.24
36.42
36.61
36.80
36.97
4.72
4.39
4.19
4.13
4.20
0.28
0.26
0.25
0.25
0.25
27.44
28.81
30.19
31.16
32.93
20.12
20.14
20.17
20.21
20.25
8.44
8.45
8.46
8.48
8.50
19 37.4
19 5.7
18 34.0
18 2.3 1
17 80.6 1
250
260
270
280
290
87.11
37.19
87.21
37.16
37.06
4.87
4.62
4.91
5.17
5.37
0.26
0.28
0.29
0.31
0.32
34.81
35.68
37.05
38.42
89.79
20.30
20.35
20.41
20.47
20.53
8.52
8.54
8.57
8.59
8.61
16 58.9 1
16 27il i
15 55.6 '
15 28.9 1
14 52J2
aoo
810
320
830
340
86.91
86.73
36.55
36.38
36J25
5.46
5.41
5.20
4.83
4.34
0.33
0.32
0.81
0.29
0.26
41.16
42.54
43.91
45.28
46.65
20.59
20.64
20.68
20.73
20.76
8.64
8.66
8.68
8.70
8.71
14 20.5 i
18 48.8 ,
13 17.1
12 45.4
13 18.8
350
360
370
86.17
86.16
86.22
3.75
3.12
-2.52
0J22
0.19
-0.15
48.02
49.40
50.77
20.78
20.79
-20.79
8.71
8.72
8.72
11 42.1
11 10.4
10 88.7
Mean
Preci
Log.
Obliquity,
lasion for 1(
Preceaaion
1856.0,
»6.5, .
in a Siden
• • •
• • • •
50.5
9.]
SI
»39
13789
ilG9
sal Day,
• • • •
Log.
Praeeanon
in a Solar
Day, .
9.]
13858
*'•/> •
FIXED STARS, 1856.
24T
II FOR WASfflNGTON MEAN MIDNIGHT.
LOGARITHMS FOR CORRECTING THE PLACES OF THE FIXED STARS.
Sftta.
A.
B.
O.
D.
SMe.
A.
B.
C.
D.
Jan. 1
—0^5582
-4-130246
—9.19703
—0.87000
Mar. 1
—1.26099
+0.80390
+830024
—0.93497
2
0^9362
1.30088
9.18614
037069
2
1.25340
0.78003
8.53110
0.93574
9
0.62805
1.29915
9.17502
0.87141
3
1.25567
0.75465
835967
0.93647
4
0.66023
1.29728
9.16369
0.87217
4
1.26779
0.72755
838625
0.93717
5
0.69000
1.29526
9.15207
0.87295
5
1.26977
0.69852
831 109
0.93784
6
—0.71758
-♦-1.29310
-9.14019
—0.87378
6
—1.26161
+0.66727
-1-8.63438
—0.93848
7
0.74339
1.29079
9.12804
0.87464
7
1.26330
0.63348
835639
0.93909
8
0.76763
1.28833
9.11561
0.87553
8
1J6487
0.59671
837724
0.93967
9
0.79049
1.28573
9.10288
037646
9
1.26629
0.55642
839705
034022
10
0.81199
1.28293
9.08980
037741
10
1.26757
031185
8.71592
0.94074
n
—0.83239
+1.28002
—9.07639
—037840
11
—1.26872
-4-0.46209
+8.73392
—0.94122
12
0.85174
1.27688
9.06266
037940
12
1.26973
0.40673
8.75113
0.94167
13
0.87013
1.27369
9.04856
0.88043
13
1.27062
034098
8.76760
0.94209
14
0.88764
1.27028
9.03407
0.88149
14
1.27137
036463
8.78340
0.94247
15
0.90434
1.26672
9.01920
0.88256
15
1.27198
0.17184
a79865
0.94282
16
+1.26298
—9.00389
— 0J8367
16
-1.27246
+0X)5361
-4-831331
-0.94314
17
0.93553
1.25907
8.98811
0.88479
17
1.27281
9.89060
832750
0.94342
18
0.95013
1.25499
8.97188
0.88594
18
1.27304
9.62656
834123
034367
19
0.96410
1.25074
8.95516
0.88709
19
1.27313
+8.84002
8.85455
0.94389
20
0.97752
1.24628
8.93792
0.88827
20
1.27309
—946333
8.86741
0.94407
21
—0.99019
+1.24167
—8.92007
—038946
21
-1.27292
—9.80498
+8.87990
—0.94422
22
ixmn
1.23686
8.90162
039061
22
1.27262
9.99626
8.89204
034434
23
1.01466
1.23186
8.88252
0.89188
23
1.27219
0.12843
8.90385
0.94442
24
1.02610
1.22666
8.86273
0.89312
24
1.27163
032945
831540
0.94448
25
1.03712
1.22127
834217
0.89435
25
137094
031127
832670
0.94450
26
—1.04772
+1.21568
—8.82072
—0.89561
26
—1.27012
—037987
+8.93772
—034450
27
1.05793
1.20987
8.79844
0.89688
27
1.269r7
0.43900
8.94851
0.94446
28
1.06774
1.20385
8.77517
0.89814
28
1.26810
0.49090
8.95909
034438
29
1.07726
1.19761
8.75082
0.89940
29
1.26688
0.53709
836946
0.94428
SO
1.08639
1.19112
8.72526
0.90067
SO
1.26554
0.57870
837959
0.94414
91
—1.09519
-M.18443
—8.69836
—0.90195
31
—136406
—031651
-4-838954
—0.94397
Fob. 1
1.10370
1.17748
8.66997
0.90323
Apr. 1
1.26245
0.65122
8.99930
0.94378
2
1.11190
1.17027
8.63998
0.90451
^ 2
1.26071
0.68320
9.00890
0.94355
3
1.11983
1.16283
8.60810
0.90577
9
1.25884
0.71284
931837
0.94329
4
1.12746
1.15514
8.57403
0.90703
4
135680
0.74045
9.02768
0.94300
5
-1.13485
+1.14712
—8.53744
—0.90830
5
—1.25466
—0.76624
+9.03683
—034269
6
1.14196
1.13884
8.49803
0.90955
6
135239
0.79047
9.04587
034235
7
1.14882
1.13026
8.45515
0.91079
7
1.24995
031329
9.05480
034198
8
1.15545
1.12139
8.40807
0.91203
8
1.24739
0.83485
9.06363
0.94159
9
1.16185
1.11218
835583
0.91326
9
134467
035525
9.07236
0.94117
10
—1.16799
+1.10264
—8.29710
—0.91448
10
—1.24183
—037460
+9.08099
—0.94072
11
1.17393
1.09275
8.22994
0.91570
11
1.23882
0.89299
9.08948
0.94025
12
1.17966
1.08249
8.15137
0.91688
12
1.23569
031051
9.09788
0.93975
13
1.18515
1.07185
8.05652
0.91807
13
1.23238
0.92722
9.10619
0.93924
14
1.19048
1.06082
7.93702
0.91923
14
132894
0.94318
9.11444
0.93870
15
—1.19559
+1.04935
—7.77379
—0.92037
15
—132535
—0.95844
+9.12261
-0.93815
16
1.20051
1.03746
731188
0.92151
16
1.22159
037305
9.13072
0.93757
17
1.20524
1.02508
—6.77085
0.92260
17
131767
038706
9.13874
0.93698
18
1.20973
1.01220
+730963
0.92370
18
131360
1.00050
9.14669
0.93637
19
1.21413
0.99881
7.66745
0.92477
19
1.20936
1.01341
9.15455
0.93573
20
—1.21831
-4-0.98485
H-7.85914
—0.92582
20
-130496
—1.02583
+9.16233
—0.93508
21
1.22231
0.97030
7.99034
0.92685
21
130039
1.03775
9.17006
0.93441
22
1.22616
0.95511
8.09026
0.92785
22
1.19565
1.04924
9.17774
0.93373
23
1.22982
0.93926
8.17056
0.92884
23
1.19073
1.06030
9.18537
0.93303
24
1.23331
0.92266
8.23754
0.92979
24
1.18563
1.07095
9.19293
0.93233
25
—1.23665
+0.90528
+8.29491
—0.93072
25
—1.18034
—1.08122
+930044
—0.93161
26
1.23983
038704
834518
0.93163
26
1.17487
1.09114
9.20790
0.93088
27
1.24288
0.86789
838987
0.93250
27
1.16921
1.10069
931529
0.93014
28
1.24571
0.84770
8.43008
0.93336
28
1.16334
1.10992
9.22264
0.92939
29
1.24843
0.82641
8.46672
0.93418
29
1.15728
1.11880
932994
032863
30
—1.25099
+0.80390
+8.50024
—0.93497
30
-1.15101
—1.12741
+933719
—032786
31
—1.25340
+0.78003
+8.53110
—0.93574
31
—1.14452
—1.13573
+9.24440
—032709
248
FIXED STARS, 1856.
1 i
FOR WASHINGTON MEAN MIDNIGHT.
LOGARITHMS FOR CORRECTING THE PLACES OF THE FIXED STARa
Date.
A.
B.
C.
D.
Date.
A.
B.
C.
D.
Mmj I
—1.14452
—1.13573
+9.24440
—0.92709
Jul/ 1
+0.53088
—1.30337
+9.59262
—0.90661
8
1.13780
1.14375
9.25154
0.92631
2
0.56841
1.30197
9.59678
0.90712
3
1.13087
1.15153
9.25864
0.92553
3
0.60286
1.30046
9.60087
0.90766
4
1.12371
1.15901
9.26569
0.92474
4
0.63462
1.29881
9.60493
0.90824
5
1.11628
1.16625
9.27270
0.92396
5
0.66413
1.99704
9.60893
0.90884
6
—1.10860
—1.17325
+9.27964
—0.92317
6
+0.69166
—1.29517
-4-9.61289
—0.90946
7
1.10067
1.18003
9.28655
0.92238
7
0.71744
1.29312
9.61679
0.91011
8
1X>9247
1.18656
9J»341
0.92160
8
0.74166
1.29096
9.62065
0.91078
9
1.08399
1.19288
9.30023
0.92082
9
0.76449
1.28866
9.62446
0.91 149
10
1.07521
1.19897
9.30700
0.92004
10
0.78607
1.28624
9.62821
0.91220
U
— li)6614
—1.20487
+9.31372
—0.91926
11
+0.80650
— 1J8368
+9.63192
— 0J1296
IS
1X)5674
1.21056
9.82040
0.91848
12
0.82590
1.28098
9.63557
0.91373
13
li)4702
1.21606
9.32703
0.91773
13
0.84436
1.27815
9.63918
0.91453
14
1X)3695
1.22136
9.33363
0.91697
14
0.86196
1.27518
9.64273
0.91535
15
1X>2652
1.22647
9.34017
0.91622
15
0.87875
1.27205
9.64624
0.91618
16
— 1X)1572
—1.23140
—0.91549
16
+0.89480
— 1J6880
+9.64969
—0.91704
17
1.00452
1.23616
9.35309
0.91477
17
0.91016
1.26540
9.65311
0.91792 1
18
0.99291
1.24073
9.3.^949
0.91406
18
0.92490
1.26184
9.65647
0.91882
19
0.98083
1.24514
9.36586
0.91336
19
0.93902
1.25813
9.65980
0.91974
90
0.96832
1.24938
9.37219
0.91268
20
0.95260
1.25428
9.66309
0.99067 !
SI
—0.95531
—1.25346
+9.37847
—0.91200
21
+0.96563
—1.25024
+9.66632
—0.92160 1
S8
0.94176
1.25737
9.38469
0.91135
22
0.97818
1.24606
9.66950
a92256|
23
0.92767
1.26112
9.39086
0.91071
23
0.99027
1.24173
9.67263
0.92353
S4
0.91299
1.26473
9.39697
0.91010
94
1XX)188
1.23721
9.67573
0.92452
25
0.89766
1.26819
940302
0.90949
25
1.01310
1.23254
9.67876
a92552
26
—0.88168
—1.27148
+940905
—0.90891
96
+1.02383
—1.22771
+9.68176
—0.92653
27
0.86495
1.27464
9.41504
0.90836
27
1.03434
1.22267
9.68473
0.92753
28
0.84742
1.27766
942096
0.90782
28
1.04443
1.21744
9.68766
0.92856
29
a82903
1.28053
942684
0.90730
29
1.05416
1.21206
9.69053
0.92959
30
0.80970
1JI8325
943266
0.90681
30
1.06351
1.20644
9.69337
0.93062 1
31
—0.78938
•—1.28583
+943845
—0.90635
31
+1.07265
-1.20068
+9.69616
—0.93167
June 1
0.76791
1.28830
944419
0.90590
Aug. 1
1.08144
1.19469
9.69892
0.93272 .
2
0.74523
1.29061
944986
0.90549
2
1.08993
1.18849
9.70163
0.93376 1
3
0.72118
1.29280
945550
0.90510
3
1.09816
1.18207
9.70430
0.93481
4
0.69559
1.29485
9.46109
0.90475
4
1.10610
1.17543
9.70693
0.93586 ,
5
-0.66828
—1.29677
+946663
—0.90442
5
+1.11378
—1.16856
+9.70952
—0.93691
6
0.63900
1.29857
94721 1
0.90411
6
1.12123
1.16146
9.71208
0.93796
7
0.60745
1.30023
947754
0.90383
7
1.12844
1.15410
9.71459
0.93900
8
0.57326
1.30177
948293
0.90359
8
1.13540
1.14650
9.71707
a94005 ,
9
0.53600
1.30319
948827
0.90337
9
1.14213
1.13864
9.71952
0.94108
10
—049523
— 1J0447
+949354
—0.90318
10
+1.14864
—1.13051
+9.72191
—0.94212
11
045009
1.30564
949877
0.90303
11
1.15494
1.12209
9.72429
0.94314 •
12
0.39960
1.30668
9.50394
0.90290
12
1.16103
1.11338
9.72661
0.94417
13
0.34234
1.30759
9.50907
0.90281
13
1.16692
1.10436
9.72891
0.94518 '
14
0.27626
1J0839
9.51414
0.90274
14
1.17262
1.09502
9.73118
0.94619
15
-0.19816
—1.30906
+9.51916
—0.90272
15
+1.17811
—1.08534
+9.73342
-0.94718 1
16
0.10272
1.30960
9.52414
0.90272
16
1.18342
1.07532
9.73562
0.94816 ,
17
9.98007
1.31003
9.52906
0.90274
17
1.18856
1.06493
9.73778
0.94914 ■
18
9.80840
1.31034
9.53392
0.90282
18
1.19350
1.05415
9.73991
0.95010
19
9.52013
1.31053
933875
19
1.19827
1.04297
9^74201
0S5105 1
20
—8.28298
—1.31060
+9.54352
—0.90306
20
+1.20287
—1.03137
+9.74408
—0.95198
21
+9.46680
1.31055
9.54824
0.90323
21
1.20731
1.01933
9.74613
0.95290 1
22
9.78170
1.31037
9.55291
0.90343
22
1.21157
1.00681
9.74815
0.95379
23
9.96224
1US1008
9.55753
0.90365
23
1.21568
0.99378
9.75014
0.95467 .
24
0.08933
1.30967
9.56209
0.90391
24
1.21963
0.98023
9.75211
0.95552
25
-H).18740
—1.30913
+9.56660
—0.90420
25
+r.2234l
-0.96610
+9.75403
—0.95637 .
26
0.26730
1.30847
9.57107
090453
26
1.22705
0.95135
9.75594
a95720
27
0.33460
1J0770
9.57548
0.90489
27
1J3054
0.93595
9.75783
0.95798
28
0J9278
1.30680
9.57984
0.90528
28
1.23399
0.91984
9.75969
a95878
29
0.44398
1.30578
9.58415
0.90569
29
1.23707
0.90298
9.76152
0.95956
SO
+048966
—1.30463
+9.58842
—0.90614
30
+1J4010
—0.88531
+9.76333
—0.96030
31
-M).53088
-lJiai37 H-9.592621 —0.90661 1
31
+1.24302
—0.86676 +9.76512
-0.96102
FIXED STARS, 1856.
249
FOR WASHINGTON
MEAN MIDNIGHT.
LOGARITHMS FOR CORRECTING THE PLACES OF THE FIXED STARS. 1
Date.
A.
B.
O.
D.
Date.
A.
B.
C.
D.
Septl
-4-1.24578
—0.84722
+9.76689
—0.96171
Nov. 1
+1.15739
+1.11869
+9.86263
—0.95255
2
1.24840
0.82633
9.76664
0.96238
2
1.15090
1.12758
9.86436
0.95172
3
1.25088
0.80486
9.77037
0.96302
3
1.14415
1.13618
9.86611
0.95088
4
1.25322
0.78180
9.77208
0.96364
4
1.13717
1.14448
9.86787
0.95003
6
1.25545
0.75730
9.77376
0.96424
5
1.12994
1.15250
9.86964
0.94918
6
-M .25753
—0.73120
+9.77543
—0.96481
6
+1.12244
+1.16025
-<-9.87l43
—0.94834
7
1.25947
0.70335
9.77708
0.96536
7
1.11469
1.16777
9.87322
0.94747
8
1.26128
0.67337
9.77871
0.96589
8
1.10665
1.17495
9.87502
0.94662
9
1.26297
0.64101
9.78034
0.96638
9
1.09830
1.18194
9.87684
0.94576
10
1.26451
0.60589
9.78195
0.96684
10
1.08967
1.18868
9.87867
0.94491
11
+1.26594
—0.56753
+9.78355
—0.96728
11
+1.08072
+1.19518
+9.88051
—0.94406
12
1.26723
0.52529
9.78513
0.96768
12
1.07143
1.20147
9.88236
0.94321
13
1.26839
0.47832
9.78670
0.96805
13
1.06180
1.20754
9.88422
0.94236
14
1.26942
0.42547
9.78826
0.96840
14
1.05182
1.21339
9.88609
0.94152
15
1.27033
0.36512
9.78981
0.96873
15
1.04145
1.21903
9.88796
0.94069
16
+1.27111
—0.29480
+9.79135
—0.96902
16
+1.03070
+1.22447
+9.88984
—0.93986
17
1.27176
0.21068
9.79288
0.96929
17
1.01950
1.22971
9.89174
0.93904
18
1.27229
0.10600
9.79441
0.96953
18
1.00790
1.23475
9.89364
0.93824
19
1.27269
9.96748
9.79592
0.96973
19
0.99582
1.23960
9.89555
0.93745
90
1.27296
9.76259
9.79742
0.96990
20
0.98326
1.24429
9.89747
0.93665
SI
+1.27311
—9.36071
+9.79892
—0.97004
21
+0.97018
+1A4877
+9.89939
—0.93589
22
1.27313
+9.08002
9.80041
0.97014
22
0.95655
1.25308
9.90131
0.93513
S3
1.27302
9.67218
9.80190
0.97022
23
0.94232
1.25721
9.90325
0.93441
24
1.27278
9.91387
9.80339
0.97027
24
0.92748
1.26119
9.90519
0.93368
25
1.27242
0.06818
9.80487
0.97028
25
0.91196
1.26498
9.90715
0.93299
26
+1.27192
+0.18179
+9.80636
—0.97028
26
+0.89572
+1.26865
+9.90911
—0.93230
27
1.27130
0.27167
9.80783
0.97024
27
0.87868
1.27207
9.91107
0.93164
28
1.27055
0.34611
9.80930
0.97018
28
0.86082
1.27536
9.91304
0.93102
29
1.26968
0.40952
9.81077
0.97008
29
0.84205
1.27852
9.91501
0.93040
30
1.26867
0.46474
9.81224
0.96995
30
0.82228
1.28151
9.91698
0.92981
31
+1.26753
+0.51366
+9.81372
—0.96978
31
+0.80139
+1.28435
+9.91895
—0.92925
Oct 1
1.26753
0Jil366
9.81372
0.96978
Dec. 1
0.80139
1.28435
9.91895
0.92925
2
1.26625
0.55751
9.81520
0.96959
2
0.77934
1.28702
9.92093
0.92870
3
1.26484
0.59724
9.81668
0.96938
3
0.75593
1.28956
9.92290
0.92819
4
1^26331
0.63355
9.81816
0.96913
4
0.73102
1.29193
9.92488
0.92771
5
+1.26162
+0.66695
+9.81965
—0.96885
6
+0.70441
+1.29417
+9.92686
-0.92726
6
1.25980
0.69795
9.82113
0.96855
6
0.67604
1.29626
9.92884
0.92684
7
1.25784
0.72671
9.82263
0.96821
7
0.64545
1.29819
9.93081
0.92644
8
1.25575
0.75358
9.82413
0.96786
8
0.61241
1.29999
9.93277
0.92607
9
1.25352
0.77879
9.82563
0.96746
9
0.57646
1.30164
9.93474
0.92573
10
+1.25114
+0.80250
+9.82713
-0.96706
10
+0.53713
+1.30316
+9.93672
—0.92544
11
1.24861
0.82488
9.82865
0.96662
11
0.49370
1.30452
9.93870
0.92517
12
1.24594
0.84603
9.83018
0.96615
12
0.44528
1.30576
9.94067
0.92493
13
1.24312
0.87607
9.83171
0.96565
13
0J9062
1.30685
9.94263
0.92472
14
1.24014
0.88511
9.83325
0.96514
14
0.32790
1.30780
9.94459
0.92456
15
+1.23702
+0.90324
+9.83479
—0.96461
15
+0.25438
+1J0861
+9.94653
—0.92442
16
1.23375
0.92051
9.83634
0.96405
16
0.16564
1.30928
9.94848
0.92433
17
1.23031
0.93701
9.83791
0.96346
17
0.05381
1.30981
9.95042
0.92427
18
1.22671
0.95280
9.83950
0.96285
18
9.99255
1.31021
9.95236
0.92425
19
1.22295
0.96791
9.84109
0.96223
19
9.66809
1.31047
9.95428
0.92426
20
+1.21901
+0.98239
+9.84268
—0.96159
20
+9.12126
+1J1059
+9.95621
—0.92430
21
1.21490
0.99629
9.84428
0.96093
21
—9.30386
1.31057
9.95812
0.92437
22
1.21063
1.00965
• 9.84588
0.96023
22
9.72823
1.31042
9.96003
0.92449
23
1.20618
1.02248
9.84750
0.9^953
23
9.93868
1.31013
9.96193
0.92463
24
1.20155
1.03482
9.84914
0.95881
24
0.07973
1.30971
9.96383
0.92483
25
+1.19673
+1.04670
+9.85078
—0.95807
25
—0.18594
+1.309U
+9.96570
—0.92504
26
1.19172
1.05813
9.85245
0.95732
26
0.27112
1.30843
9.96756
0.92529
27
1.18651
1.06916
9.85411
0.95656
27
0.34214
1.30760
9.96941
0.92559
28
1.18111
1.07978
9.85580
0.95578
28
0.40307
1.30661
9.97125
0.92591
29
1.17550
1X)9003
9.85749
0.95499
29
0.45638
1.30550
9.97308
0.92627
30
+1.16968
+1.09993
+9.85919
—0.95419
30
—0.50372
+1.30423
+9.97490
—0.92668
31
+1.16363
+1.10947
+9.86091
—0.95338
31
—0.54629
+1.30281
+9.97670
—0.92711
32
250
FIXED STARS, 1S56.
FOR WASHINGTON
MEAN MIDNIGHT
CONSTANTS FOR FACILITATINO THE REDUCTION OF THE FIXED STARS. 1
1856.
/
Log.^.
O.
Log. A.
H.
Log. t.
T.
January
1
- 7'25
0.9062
O 1
246 56
1.3093
349 50
—0.1733
OJOOO
6
6^6
0.9016
249 41
1.3079
345 7
03551
0X)14
11
5.49
0.8991
252 27
1.3061
240 22
0.4699
0.027
16
4.65
0.8984
255 11
1.3037
335 34
0.5578
0.041
21
3.83
0.8993
257 51
1.3010
330 43
0.6279
0X)55
26
— 3.05
0.9017
860 26
1.2981
325 49
—0.6852
0.068
31
2.30
0.9054
262 51
1.2949
320 51
0.7327
0i)82
FebnuuryS |
1.59
0.9099
265 7
1.2916
315 49
0.7723
0X)96
10
0.91
0.9150
267 14
1.2883
310 42
0.8055
0.110
15
— 0.27
0.9204
269 11
1.2851
305 32
0.8331
0.123
SO
+ 0.33
0.9259
270 59
1.2821
300 18
—0.8558
0.137
S5
0.91
0.9312
272 39
1.2794
295 0
0.8741
0.151
Haich
1
1.46
0.9362
' 274 13
1.2771
289 39
0.8885
0.164
6
1.99
0.9406
275 41
1.2752
284 17
0.8991
0.178
11
2.50
0.9445
277 6
1.2739
278 52
0.9062
0.199
16
+ 3j00
0.9479
278 28
1.2733
273 27
-0.9099
0.205
21
3.49
0.9506
279 49
1.2731
268 3
0.9104
0.219
86
3.99
0.9528
281 10
1.2737
262 40
0.9074
0.233
31
4.50
0.9545
282 34
1.2748
257 19
0.9015
0.246
April
6
5.02
0.9558
284 0
1.2765
252 0
0.8921
0.260
10
-f- 5.55
0.9568
285 29
1.2785
246 46
—0 8793
0.274
15
6.11
0.9577
887 3
1.2811
241 36
0.8628
0.287
20
6.70
0.9586
288 42
1.2839
236 30
0.8424
0.301
25
7.31
0.9598
290 26
1.2869
231 29
0.8178
0.315
30
7.96
0.9615
292 14
1.2901
226 33
0.7885
0.329
Maj
5
-h 8.63
0.9637
294 7
1.2932
221 43
—0.7538
0.349
10
9.34
0.9665
296 3
1.2963
216 57
0.7127
0.356
15
10.08
0.9704
298 2
1.2993
212 15
0.6640
0.370
20
10.86
0.9752
300 1
1.3020
207 38
0.6058
0.383
25
11.65
0.9811
302 0
1.3044
203 6
0.5351
0.397
30
+12.48
0.9880
303 57
1.3066
198 35
—04472
0411
Juno
4
13.32
0.9959
305 50
1.3084
194 7
0.3331
0424
9
1418
1.0047
307 38
1.3094
189 42
0.1735
0.438
*
14
15.05
li)143
309 20
1.3103
185 18
9.9137
0452
12
15.93
1.0247
310 56
1.3106
180 56
—9.1576
0465
24
+16.81
li)356
312 24
1.3104
176 33
+9.7268
0479
29
17.69
]X>468
313 44
1.3099
172 10
00815
0499
Joly
4
18.55
1.0582
314 56
1.3088
167 46
0.2721
0507
9
19.41
1.0697
316 0
1.3073
163 21
0.4020
O520
14
20.24
1.0812
316 57
1.3054
158 53
0.4994
0534
19
+21X)5
IJ092A
317 47
1.3031
154 23
+0.5765
0.548
24
21.84
1.1034
318 31
1.3005
149 49
0.6394
0561
29
22.60
1.1140
319 9
1.2977
145 12
0.6916
0.575
Angnit
3
23.32
1.1242
319 43
1.2947
140 30
0.7356
0589
8
um
1.1339
320 12
1.2915
135 44
0.7729
O609
13
+24.68
1.1429
320 38
1.2884
130 53
+08044
0.616
18
25.32
1.1515
321 1
1.2853
125 58
0.8310
0.690
23
25.92
1.1595
321 23
1.2825
120 58
0.8532
0643
28
26.50
1.1669
321 44
1.2799
115 53
0.8715
0657
Sept
2
27.05
1.1739
322 5
1.2775
110 44
0.8859
0.671
7
+27.58
1.1803
322 26
1.2757
105 32
+0.8969
0.684
19
28X)9
1.1862
322 48
1.2743
100 16
0.9047
0.690
17
2860
1.1917
323 11
1.2734
94 58
0.9092
0.712
22
29.10
1.1968
323 36
1.2731
89 38
0.9106
0726
27
29.60
1.2017
324 4
1.2735
84 17
0.9088
0.739
Octobai
2
+30.11
1.2063
324 34
1.2744
78 56
+0.9037
07S3
7
30.63
1.2109
325 7
1.2759
73 36
0.8953
0767
12
+31.17
1.2155
325 43
1.2779
68 17
+0J834
0.780
FIXED STARS, 1856.
251
FOR WASHINGTON MEAN MffiNIGHT
1
CONSTANTS FOB FACILITATINO THE BEDUCTION
OF THE FIXED STARS. 1
1856.
/
Log.^.
O.
Log. A.
H.
Log. i.
T,
October 17
22
27
Not. 1
6
-4-3l'.73
32.31
32.93
33.58
34.27
1.2199
1.2243
1.2292
1.2343
1.2395
326 21
327 1
327 44
328 29
329 14
1.2803
1.2831
1.2862
1.2894
1.2926
O 1
63 1
57 48
52 39
47 33
42 31
+0.8678
0.8481
0.8240
a7949
0.7599
0.794
0.808
0.821
0.835
a849
n
16
21
26
Dtc 1
■4-34.99
35.75
36.55
37.38
38J23
1.2452
1.2512
1.2577
1.2643
1.2715
330 0
330 46
331 31
332 15
332 57
1.2959
1.2991
1.3019
1.3044
1.3065
37 32
32 37
27 46
22 58
18 12
-4-0.7182
0.6682
0.6077
a5d32
0.4389
0.862
0.876
0.890
0.903
a917
' 6
11
16
21
26
-4-39.11
40.01
40.92
41.84
42.76
1.2783
1.2865
1.2943
1.3023
1.3103
833 36
334 12
334 45
335 14
335 40
1A083
1.3097
l.ai04
1.3106
1.3102
13 29
8 47
4 7
359 26
354 46
+03135
0.1312
+9.8031
—8.9413
9.9086
0.931
a945
0.958
0.972
0.986
31
+43.67
1.3181
836 1
1.8094
350 4
—0.1838
0.999
BESSEL'S FOKMULiE OF BE0ITCTIOK FOB THE FIXED STABS
WITH DB. PETEBS'S COEFPICIBNTS, AND THE NOTATIOW 01
f THB CATALOGUE OF liTABS ||
09 THB BBfftlSH ASSOCIATION.
A s — 20''4451 COS » 008 O.
B rai — 20''A451 sin 0*
C =• T — 0".3423a dn fl -♦- 0'^004la iin 2 ft — 9^'.0251> sin 3 G)-
-♦- 0".00294 sin (O + fflf* 34') — 0"i)0405 sin 2 <t + 0";00135 sin ( <
-n.
D sa — 9".2236 COS ft + 0".089« ooft 2 ft — 0^.5607 oos 2 Q — 0"XX)92 cos
^0.0885 COB 2 4.
(O + 280P220. 1
B a — 0".0481 sin ft -4- 0''.00U sin 2 ft — Qf'XiOSA sin » Q-
a s: COS a sec ^.
6»-sina8ec«.
e =a 46".0780 + 20".0S60 sin a tan ^.
cf =3 COS a tan 4.
d^atanovcos^— sinasin^.
ftf ^ cos a sin ^
c^«-20"X)560 008«
iP-i-sino.
|i a the annual pioper motion in rigbt asoenaion.
^ ss the annnal proper motion in declination.
V « the time from the beginning of tiie jear ia foactional parts of Ifat yeas.
O = the sun's longitude.
C = the moon*s longitudie*
ft » the longitude of th» maoxtv ananding node..
» s the obliquity of the ecliptic.
• » the star's mean right ascension for the beffinning of the year.
4 = the star's mean declination for the beginnmg of the year.
«/ =3 the star's apparent right ascension at the time t.
a^ » the star's apparent deelinatSon at tha time x.
oT— a ca Aa-t-B6+Cc-fD<f-t-B-t-Tf».
Tha-foUowing formnlaa may also ha used by pitting
/=a46".0780C. irsAtansi.
yoDaGa20".QMOC. AoosHasB.
ytinQ=.D. 4sinH«A.
«'— a =/^- T /► -h a sin (0 -»• «) tan a + A shi (H -+-«) sec a*
a^ — a-ico8d-^T^'-t-^oos((i-ha)-^Aeos(H-^«)sinA
252
FIXED STARS, 1856.
MEAN PLACES OF 100 PRINCIPAL FIXED
STABS, rOB
'
JANUARY I, 1856.
Ster'aNun*.
Magnitade.
Right Aaeendon.
An. Tttiation.
AB-Tniathm.;
a Andromeda
y Pegasi (Algenib)
^ Hydri .
a CaSSIOPEA
^Ceti
2
3.2
3
var.
2
h. m. a.
0 0 57.06
0 5 49.46
0 18 6.91
0 32 21.65
0 36 21.49
+
3.086
3.084
3.291
3.358
3.016
-1-28 17 43.2
-f.14 22 58.1
—78 3 57.9
4-55 44 49.1
—18 46 40.2
-»-19.93
20.04
20.24
19.83
19.86
a Urs. Min. (Polaris)
6' Ceil .
a Eridani (Achemar)
a Arietis
yCeti .
2
3
1
2
3.4
1 6 48.54
1 16 49.60
1 32 20.72
1 59 3.82
2 35 50.53
-1-18.336
3.000
2.238
3.365
3.102'
-1-88 32 30.6
— 8 55 39.9
—57 58 9.5
-1-22 46 45.8
-f- 2 37 35.1
-fl951
18.74
18.45
17.29
15.44
a Ceti .
a Persei .
fj Tauri
y* Eridani .
a Tauri (Aldeharan)
2.3
2
3
3
1
2 54 45.29
3 14 3.76
3 38 55.85
3 51 18.69
4 27 39.69
+
3.129
4.243
3.553
2.796
3.436
4- 3 31 19.2
4-49 20 40.3
-f.23 39 22.7
—13 55 16.7
-f.16 12 57.4
-f 14.40
13.25
11.54
10.58
7.72
a AuRiGJs (Capdla) .
^ Orionis (Rigel)
/3 Tauri
d Orionis
a Leporis
1
1
2
2
3
5 6 3.46
6 7 37.10
5 17 11.53
5 24 39.09
5 26 22.82
+
4.423
2.884
3.791
3.066
2.648
-f-45 50 45.7
— 8 22 17.7
-f28 28 51.9
— 0 24 34.6
—17 55 43.0
4-4.26
4.54
3.53
3.05
2.94
ff Orionis
a ColumbaB .
a Orionis
fl Geminorum
a Argus (Canopus) .
2
2
var.
3
1
5 28 54.45
5 34 26.21
5 47 22.60
6 14 14.91
6 20 45.46
+
3.044
2.177
3.249
3.636
1.330
— 1 17 51.6
—34 9 11.7
-f- 7 22 34.0
-1-22 34 58.6
—52 37 6.5
-f 2.71
2.23
-h 1.11
— 1.38
1.81
61 (Hev.) Cephei . -
a Canis Maj. (Sirius)
ff Canis Majoris
d Geminorum
a" Geminor. (Castor)
5
1
2.1
3.4
2.1
6 31 36.06
6 38 48.04
6 52 58.02
7 11 31.22
7 25 24.38
-f^.511
2.646
2.360
3.597
3.847
-f87 15 5.2
—16 31 19.0
—28 46 45.3
-1-22 14 35.7
-1-32 11 58.9
— 2.84
4.52
4.58
6.16
7.38
a Can.Min. (Procyon)
^ Geminor. (Pollux)
16 Argus .
ff HydrBB
i Ursse Majoris
1
1.2
3
3.4
3
7 81 45.67
7 36 29.91
8 1 24.72
8 39 8.87
8 49 19.63
+
3.145
3.681
2.558
3.189
4.143
-f. 5 85 27.1
-1-28 22 11.6
—23 53 30.7
-I- 6 56 39.5
4-48 36 12.9
— 8.79
8i»
10.06
12.86
13.78
i Argus
a Hydr^ .
$ UrssB Majoris
ff Leonis . ' .
a Leonis (Regulus)
2
2
3
3
1.2
9 13 14.12
9 20 30.61
9 23 12.00
9 37 40.23
10 0 41.93
+
1.602
2.951
4.045
3.424
3.205
—58 40 18.2
— 8 2 11.8
-1-52 19 50.1
4-24 26 6.3
-1-12 40 9.4
—14.89
15.36
16.14
16.34
17.40
ff Argus
a Ursje Majoris
d Leonis
d HydrBB et Crateris
2
2
2.3
3.4
10 39 29.05
10 54 48.33
11 6 26.68
11 12 8.59
+
+
2.305
3.779
3.208
2.997
—58 55 40.8
-4-62 31 38.1
4-21 18 43.1
—13 59 59.7
—18.78
19.34
19.65
—19.45
FIXED STARS, 1866.
253
MEAN PLACES OF 100 PRINCIPAL PIXED
STARS, FOB
JANUARY 1, 1SS«.
8«ftr*»N«int.
Magnitade.
Bight AmMlon.
AikTaiUion.
DwUnttlOD.
An-Tuliitlca.
/3 Lbonis .
2
h. m. •.
11 41 42.67
+ 3.066
4-15 5J2 ffr.l
+54 29 43.1
-2*0.09
y Urs-b Majoris .
2.3
11 46 14.19
3.200
20.04
0 Chamseleontis
5
12 9 59.37
3.314
—78 30 45.4
20.05
a* Crucis
I
12 18 87.06
3.253
—62 17 59.1
19.94
^Co^vi .
2.3
12 26 49.69
3.132
—22 35 59.5
19,99
12 Canum Venatjcorum
3
12 49 17.05
+ 2.822
+89 5 49.0
—19.56
a ViRGiNis (Spica)
1
13 17 36.66
3.152
—10 24 30.3
18.97
fl Ursje Majoris
2
13 41 51.70
2.371
+50 1 59.8
+19 7 16.6
18.14
fl Bootis
3
13 47 49.69
2.862
18.23
fi Centauri
1
13 53 42.06
4.147
—59 40 32.0
17.72
a Bootis (Arctunu)
1
14 9 5.63
+ 2.734
+19 56 2.5
—18.94
a' Centauri
1
14 29 51.90
4.023
—60 14 8.4
15.09
ff Boons
2.3
14 38 41.84
2.622
+27 41 0.3
15.44
a* LlBRJB .
3
14 42 55.10
+ 3.310
—15 26 26.4
15.27
fi Ursjb Minoris •
2
14 51 10.38
— 0.268
+74 44 37.7
14.78
fi LibrsB • • .
2
15 9 15.73
+ 3.220
— 8 50 54.7
—13.60
a CORONJS BOREALIS
2
15 28 35.48
2.539
+27 12 6.7
12.88
a SerpeNTIS
2.3
15 37 10.61
+ 2.953
-- 6 52 54.3
11.65
C Urs8B Minoris
4.5
15 49 17.74
— 2.304
--78 14 7.1
10.82
/3* Scorpii .
2
15 57 4.14
+ 3.479
—19 24 27.0
10.28
d Ophiuchi
3
16 6 48.10
+ 3.138
— 3 19 12.2
— 9.63
a Scorpii (Antares)
1.2
16 20 35.04
3.669
—26 6 29.5
8.46
fl Draconis
3.2
16 22 3.27
0.821
-f61 50 28.0
8.23
a Trianguli Australia
ff Ures Minoris .
2
16 33 27.71
+ 6.268
—68 45 20.8
7.48
4.5
17 0 51.86
— 6.504
+82 16 1.5
5.12
a HerCULIS .
var.
17 8 4.90
+ 2.734
+14 33 28.2
— 4.47
^ Draconis
3.2
17 27 10.83
1.353
--52 24 34.6-
2.85
a Ophiuchi .
2
17 28 15.01
2.781
-(-12 40 5.9
2.96
0- Octantis
6
17 40 51.85
108.772
—89 16 34.9
1.68
y Draconis .
2.3
17 53 15.79
1.394
+51 30 26.6
— 0.62
/*' Sagittarii
4
18 5 9.01
+ 8.587
—21 5 31.7
+ 0.47
d Ursjb Minoris .
4.5
18 18 47.75
—19.330
h86 36 0.5
1.66
a Lyrje ( Vega)
I
18 32 3.70
+ 2.032
-
-38 39 7.9
3.07
fi Ltrjs
yap.
18 44 45.76
2.215
-
-33 11 52.8
3.87
C Aqitil£
3
18 58 47.40
2.755
-
-18 39 10.2
5.03
a Aqitilje
3.4
19 18 14.19
4- 3.027
1- 2 49 52.2
+ 6.82
y Aquil-B
3
19 39 24.76
2.857
-10 15 55.9
8.44
a Aquiljs (AUair)
1.2
19 43 45.37
2.925
- 8 29 28.7
9.15
P AqjjiLM
4
19 48 14.33
+ 2.952
- 6 3 1.0
8.58
X Ursffi Minoris
5
20 7 35.54
—55.131
•88 52 42.6
10.64
tf Capricobni .
3.4
20 10 3.64
+ 3.338
—12 59 16.8
+10.81
a Pavonis
2
20 14 13.99
4.803
—57 11 28.9
11.05
oCtgni .
2.1
20 36 31.35
2.044
+44 46 8.5
4-38 2 86.9
12.65
61' Ctoni
5.6
21 0 26.53
2.676
+17.50
254
FIXBD STARS, 1856.
VBAH FLACBS OF 100 TVIHCIPAL FIXED STABS, FOE
JANUARY 1, 1856.
fCygni .
« Ckphbi
fi Aquaris
fi Cbphbi
• Aqvabh .
« Gniis
C Pegasi
m Pis. Aus.(fhmalkmi}
« Pegasi (JfoM) .
« Piseium
7 Cephet
8
8^
8
8
2^
8
2
8.4
2
4^
a4
21 6 48.48
21 15 8.32
21 28 5a46
21 26 47.06
21 37 6.78
21 58 28.11
21 59 8.22
22 34 16.70
22 49 41.01
22 57 85.39
28 82 82.70
28 83 28.27
-f 2.550
1.439
8.168
0.805
2.951
-f 8.085
3.821
2.990
8.334
2.985
t 8.088
2.396
4-29 38 fs.O
4-61 58 35.0
— 6 12 8.2
t69 55 44.4
9 13 0.5
— 1 1 3.7
—47 89 20.8
-f 10 4 51.6
—30 23 3.8
4-14 25 53.0
-f 4 50 46.5
4-76 49 43.8
-1-14.58
15.10
15.61
15.69
16.30
+17.30
17.15
18.69
ia97
19.38
t 19.47
20.09
FIXED STARS, 1856.
255
APPARENT PLACES OP
a UESiE MINORIS (Polaru), FOR THE
UPPER TRANSIT AT WASHINGTON-
JANUAET.
FKBBUAKT.
MABCB.
APBir.
"^i."
"X"
UM
Mmth.
Nostk.
BA.
I)M.K>rM.
SO.
DmuMvU.
1.1.
I>w.Jbra.
BJl.
DM-MrO.
Ii. m.
O 1
h. m.
O 1
h. B.
O 1
b. m.
a 1
1 6
88 32
I 5
88 32
I 6
86 32
1 6
88 32
1
33.37
49!^1
67.33
49*34
47.74
43^96
38.99
8^.11
1
2
32.54
49.88
66.53
49.23
47.24
43.71
38.96
34.81
2
3
31.70
49.94
66.74
49.11
46.75
43.46
38.94
84.51
3
4
30.86
50.00
64.96
48.98
46.27
43.20
38.96
34J31
4
5
30.02
50.05
64.19
48.85
46.81
42.94
38.98
8a91
5
6
29.17
50.09
63.42
48.71
46.36
42.68
39.01
33.61
6
7
28.32
50.13
62.66
48.57
44.93
42.41
39.07
33.31
7
8
27.47
50.17
61.91
48.42
44.51
42.14
39.14
33.01
8
9
26.62
60.20
61.17
48.27
44.10
41.86
39.22
32.72
9
10
25.77
50.23
60.43
48.12
43.70
41.69
89.32
32.43
10
11
24.92
50.26
59.70
47.96
43.33
41.31
39.44
32.14
11
12
24.07
50.28
58.97
47.79
42.97
41.03
39.67
31.85
12
13
23.21
50.30
58.25
47.62
42.62
40.76
39.72
31.56
13
14
22.35
60.30
57.54
47.44
42.29
40.47
89.88
31.27
14
15
21.50
50.30
66.84
47.26
41.97
40.18
40.06
30.99
16
16
20.65
50.30
66.15
47.07
41.67
39.89
40.26
30.71
16
17
19.80
50.29
65.48
46.88
41.38
39.60
40.47
30.42
17
18
18.95
50.27
54.81
46.68
41.11
39.31
40.70
30.13
18
19
18.10
50.24
54.15
46.47
40.86
39.02
40.96
39.85
19
20
17.25
60.21
63.50
46.26
40.63
88.73
4151
39.57
20
21
16.40
60.17
52.87
46.05
40.41
88.43
41.48
3959
21
22
15.56
50.12
52.26
45.83
40.20
88.13
41.77
39.01
33
23
14.72
50.07
61.65
45.61
40.01
37.83
42.07
38.74
83
24
13.88
60.01
61.06
46.39
39.83
87.53
42.38
28.47
34
25
13.05
49.95
60.48
46.16
39.67
87.22
42.71
28.21
35
26
12.22
49.88
49.91
44.93
09.53
86.92
43.05
27.95
36
27
11.39
49.80
49.35
44.69
39.40
86.62
43.41
37.70
37
28
10.57
49.72
48.80
44.45
89.28
86.32
43.78
27.45
38
29
9.75
49.63
48.26
44.21
39.18
36.02
44.17
27.20
39
30
a94
49.54
47.74
43.96
39.10
86.71
44.57
36.96
80
31
8.13
49.44
• •
« •
89.03
36.41
44.98
26.72
81
32
7.33
49.34
• •
• •
88.99
86.11
46.40
26.48
82
256
FIXED STARS, 1856.
APPABENT PLACES OF
a UaSJE M(NORIS {Polaris), FOR THE 1
UPPER TRANSIT .
AT WASHINGTON.
MAT.
JUNE.
JULT.
AUGUST.
t
Umirof
1 Houth.
Month.
KA.
t>te.Ktrth.
B.A.
D«e.Nort».
ILA.
I>K. NarA.
R.*.
Dm. JVMk.
b. ■.
0 l_
b. m.
O f
h. B.
a 1
h. m.
o •_
1 5
88 33
I 6
88 32
1 6
88 32
1 6
88 32
1
4.98
26^72
3.49
2l!l8
28.13
20*45
64.02
24*85
1
2
45.40
26.48
4.24
21.08
29.00
20.52
54.79
25.07
2
3
45.84
26.24
5.00
20.98
29.86
20.59
55.56
25.30
3
4
46.29
26.00
5.77
20.89
30.72
20.67
56.32
25.53
4
6
46.76
25.77
6.55
20.81
31.58
20.76
57.08
25.76
5 1
6
47.24
25.54
7.33
20.73
32.44
20.84
57.83
26.00
e!
7
47.73
25.31
8.11
20.66
33.30
20.93
58.57
26.24
7
8
48.23
25.09
8.90
20.59
34.16
21.02
59.31
26.48
8 !
9
48.75
24.88
9.70
20.52
35.02
21.12
60.04
26.73
9 1
10
49.28
24.67
10.50
20.46
35.88
21.22
60.76
26.99
10 '
11
49.82
24.46
11.30
20.41
36.74
21.33
61.47
27.25
"
12
50.37
24.26
12.11
20.36
37.59
21.45
62.18
27.51
12 !
13
50.93
24.06
12.92
20.31
38.44
21.57
62.88
27.78
13 ,
14
51.50
23.87
13.74
20.27
39.29
21.70
63.57
28.05
14
15
52.08
23.68
14.56
20.24
40.14
21.83
64.26
28.32
15
16
52.67
23.49
15.39
20.21
40.99
21.97
64.94
28.60
16
17
53.27
23.31
16.22
20.18
41.83
22.11
65.61
28.88
17
18
53.88
23.14
17.06
20.17
42.67
22.26
66.28
29.17
18
19
54.51
22.97
17.90
20.16
43.51
22.41
66.94
29.46
19 !
20
55.14
22.81
18.74
20.15
44.34
22.57
67.59
29.75
20 1
21
55.79
22.65
19.58
20.16
45.17
22.73
68.23
30.05
21 1
22
56.44
22.50
20.43
20.17
45.99
22.90
68.87
30.35
22 1
23
57.10
22.35
21.28
20.18
46.81
23.07
69.49
30.65
23
24
57.77
22.20
22.13
20.19
47.63
23.25
70.11
30.%
24 1
25
58.46
22.06
22.98
20.21
48.44
23.43
70.72
31.27
25 1
26
59.16
21.92
23.83
20.23
49.25
23.62
71.32
31.58
26
27
59.86
21.78
24.69
20.26
50.06
23.81
71.91
31.89
27
28
60.57
21.65
25.55
20.30
50.86
24.00
72.49
32.21
28 1
29
61.29
21.53
26.41
20.34
51.66
24.21
73.06
32.53
29 1
30
62.02
21.41
27J87
20.39
52.45
24.42
73.62
32.86
30
31
62.75
21.29
28.13
20.45
53.24
24.63
74.17
33.18
31
32
63.49
21.18
29.00
20.52
54.02
24.85
74.70
33.51
32
FIXED STARS, 1856.
26 T
APPARENT PLACES OF
a VBSJE MINORIS {Polarit), FOR THE
UPPER TRANSIT .
\T WASHINGTON.
SEPTEMBER.
OCTOBER.
NOVEMBER.
DECEMBER.
"X."
"r*
MoDtk.
*U9
Month.
KX
Dm. JVorM.
K.A.
D<tk North.
ft. A.
Dt. North.
R.A.
Dm. North.
h. m.
I 7
88 32
b. m.
1 7
88 h
h. m.
1 7
88 d2
h. m.
1 6
88 3'3
1
14.70
33!!51
25.84
u"A2
25.68
56!!22
73.60
6'83
1
2
16.22
83.84
26.03
44.80
25.46
56.59
72.01
6.09
2
3
16.74
34.18
26.21
45.19
25.23
56.95
72.41
6.35
3
4
16.25
34.52
26.37
45.57
24.98
57.31
71.80
6.60
4
5
16.75
34.86
26.53
45.96
24.72
57.66
71.18
6.85
6
6
17.24
35.20
26.67
46.35
24.45
58.01
70.55
7.09
6
7
17.72
35.55
26.79
46.74
24.17
68.36
69.90
7.33
7
8
18.19
35.90
26.90
47.13
23.87
68.71
69.25
7.57
8
9
18.65
36.25
27.01
47.52
23.56
59.06
68.59
7.80
9
10
19.10
36.60
27.10
47.91
23.24
69.41
67.93
8.01
10
11
19.54
36.96
27.17
48.29
22.90
59.75
67.25
8.22
11
12
19.96
37.31
27.23
48.68
22.55
60.09
66.56
8.42
12
13
20.37
37.67
27.28
49.06
22.19
60.43
65.86
8.62
13
14
20.78
38.03
27.31
49.45
21.82
60.76
66.15
8.81
14
15
21.17
38.40
27.34
49.83
21.44
61.09
64.43
9.00
15
16
21.55
38.77
27.36
50.21
21.05
61.41
63.70
9.18
16
17
21.92
39.14
27.35
60.59
20.64
61.73
62.97
9.36
17
18
22.28
39.51
27.33
50.96
20.22
62.05
62.23
9.54
18
19
22.63
39.88
27.31
61.33
19.78
62.36
61.48
9.71
19
20
22.97
40.25
27.26
61.70
19.33
62.67
60.73
9.88
20
21
23.29
40.62
27.20
52.07
18.87
62.98
59.97
10.04
21
22
23.60
40.99
27.13
52.45
18.40
63.28
59.20
10.20
22
23
23.90
41.37
27.04
52.82
17.91
63.58
58.42
10.35
23
24
24.19
41.75
26.94
53.20
17.41
63.87
57.64
10.50
24
25
24.46
42.13
26.83
63.58
16.90
64.16
56.-86
10.65
25
26
24.72
42.51
26.71
53.97
16.38
64.45
56.05
10.79
26
27
24.97
42.89
26.58
64.35
15.85
64.73
66.25
10.93
27
28
25.21
43.27
26.43
64.73
15.31
65.01
54.45
11.07
28
29
25.43
43.65
26.26
55.11
14.75
65.29
53.64
11.19
29
30
26.64
44.03
26.08
55.49
14.18
65.56
52.83
11.29
30
31
25.84
44.42
25.89
55.86
13.60
65.83
52.02
11.38
31
32
26.03
44.80
25.68
56.22
13.01
66.09
61.21
11.45
32
33
25«
FIXED STARS, 1856.
APPARENT
PLACES OF «
URSiE MINORIS
, FOR '
PHE
UPPER TRANSIT .
A.T WASHINGTON.
JANUARY.
FEBRUARY.
MABCH.
APRIL.
"^•^
"2."
MoDth.
Maaifc.
B.A
SM-JViira.
Ki.
The, North,
B.A.
Dm. Mm*.
B.A.
Dee.ir<ira.
h. m.
O f
h. m.
O 1
h. m.
O 1
h. m.
O 1
18 18
86 35
18 18
86 35
18 18
86 35
18 18
86 35
1
27.35
5o!Vo
30.00
4d!58
37.67
34^23
48.38
32^
1
2
27.34
50.35
30.20
40.30
37.99
34.09
48.73
32.89
2
3
27.33
50.00
30.40
40.02
38.31
33.96
49.07
32.96
3
4
27.32
49.65
30.60
39.74
38.64
33.83
49.41
33.02
4
5
27.31
49.30
30.81
39.47
38.97
33.71
49.75
33.10
6
6
27.31
48.96
31.03
39.21
39.30
33.60
50.09
33.19
6
7
27.33
48.62
31.25
38.95
39.64
33.50
50.43
33.28
7
8
27.35
48.27
31.48
38.69
39.98
33.41
50.77
33.37
8
9
27.37
47.93
31.71
38.44
40.32
33.32
51.10
33.47
9
10
27.40
47.69
31.94
38.19
40.66
33.24
51.43
33.58
10
11
27.44
47.25
32.19
37.94
41.01
33.16
51.76
33.70
11
12
27.50
46.91
32.44
37.70
41.36
33.09
62.08
33.82
12
13
27.56
46.58
32.69
37.46
41.71
33.03
52.40
33.94
13
14
27.63
46.24
32.95
37.22
42.06
32.98
62.72
34.07
14
15
27.70
45.91
33.21
36.99
42.41
32.94
53.03
34.20
15
16
27.78
45.57
33.48
36.76
42.76
32.91
53.34
34.34
16
17
27.88
45.24
33.76
36.54
43.11
32.87
53.64
34.48
17
18
27.98
44.91
34.04
36.33
43.46
32.83
53.95
34.63
18
19
28.08
44.58
34.32
36.12
43.81
32.79
54.26
34.88
19
20
28.18
44.26
34.60
35.92
44.16
32.75
54.57
34.94
20
21
28.28
43.93
34.89
35.72
44.51
32.71
54.86
35.11
21
22
28.41
43.61
35.19
35.52
44.86
32.70
55.15
35.28
22
23
28.55
43.29
35.49
35.33
45.21
32.69
65.44
36.46
23
24
28.69
42.98
35.79
35.16
45.56
32.68
55.73
35.64
24 1
25
28.83
42.67
36.09
35.00
45.92
32.67
56.01
35.82
25
26
28.97
42.36
36.40
34.83
46.28
32.66
56.28
36.02
26
27
29.13
42.06
36.71
34.67
46.63
32.68
56.55
36.22
27
28
29.29
41.76
37.03
34.51
46.98
32.70
56.81
36.42
28
29
29.46
29.63
41.46
37.35
34.36
47.73
32.73
57.07
36.62
29
30
41.16
37.67
34.23
47.68
32.76
67.33
36.82
90
31
29.81
40.87
• •
• •
48.03
3279
57.58
37.04
31
32
30.00
40.58
• •
• •
48.38
32.83
• •
• •
32
FIXED STARS, 1856.
259
APPARENT
PLACES
! OF »
URS^ MINORIS
, FOR •
IHE
UPPER TRANSIT .
ST WASHINGTON.
MAY.
JUNE.
JULY.
AUGUST.
"r'
'^-
Mootb.
B.A.
Dtclfortk.
B.A.
Dm Max*.
ILA.
DM.JVorM.
B.A.
DM-JVort*.
b. m.
O f
h. m.
O 1
k. m.
O 1
h. m.
e 1
18 18
86 35
18 19
86 35
18 18
86 35
18 18
86 36
1
57.58
37!!04
2.75
45^36
62.18
54*89
55.80
3!76
1
2
57.82
37.26
2.82
46.67
62.06
55.20
55.52
4.00
2
3
68.06
37.48
2.89
46.98
61.93
66.52
66.24
4.25
3
4
58.30
37.70
2.96
46.29
61.80
55.84
54.94
4.49
4
5
58.54
37.93
3.01
46.60
61.66
56.15
64.64
4.72
6
6
58.76
38.17
3.06
46.91
61.51
56.46
64.34
4.95
6
7
58.98
38.41
3.10
47.23
61.36
56.77
54.04
5.18
7
8
59.20
38.65
3.13
47.55
61.20
67.08
63.74
5.41
8
9
59.41
38.89
3.14
47.87
61.04
67.38
53.43
5.63
9
10
69.62
39.13
3.16
48.18
60.87
57.68
53.11
5.84
10
11
59.82
39.38
3.16
48.50
60.70
57.98
52.78
6.05
11
12
60.02
39.63
3.17
48.82
60.53
58.28
62.46
6.26
12
13
60.21
39.89
3.18
49.14
60.35
68.58
52.11
6.46
13
14
60.40
40.15
3.18
49.46
60.17
68.88
51.76
6.66
14
15
60.59
40.41
3.17
49.78
59.98
59.17
51.41
6.86
16
16
60.76
40.68
3.16
60.10
59.78
59.46
51.06
7.06
16
17
60.92
40.96
3.14
50.42
59.58
59.75
60.71
7.26
17
18
61.08
41.24
3.12
60.74
59.38
60.03
50.35
7.46
18
19
61.24
41.52
3.10
61.07
59.18
60.31
49.98
7.64
19
20
61.40
41.80
3.07
51.39
58.96
60.58
49.61
7.82
20
21
61.55
42.09
3.03
51.71
58.73
60.86
49.24
7.99
21
22
61.69
42.38
2.97
52.03
68.49
61.14
48.87
8.16
22
23
61.82
42.67
2.90
52.36
68.26
61.42
48.50
8.33
23
24
61.95
42.96
2.82
62.67
58.00
61.70
48.12
8.49
24
25
62.08
43.25
2.74
52.89
67.74
61.97
47.73
8.64
25
26
62.20
43.54
2.66
53.21
67.47
62.23
47.34
. 8.80
26
27
62.31
43.84
2.57
63.63
57.20
62.49
46.94
8.96
27
28
62.41
44.14
2.48
63.85
56.93
62.75
46.54
9.12
28
29
62.51
44.44
2.39
54.27
66.66
63.00
46.14
9.27
29
30
62.60
44.74
2.29
64.68
56.38
63.25
46.74
9.32
30
81
62.68
45.05
2.18
64.89
56.09
63.50
45.34
9.47
31
32
62.75
46.36
• •
• •
55.30
63.75
44.95
9.62
32
ftXKD STARS, 1856.
V tAlitKNT PLACES OF » URSiE MINOEIS, FOR THE
UPPER TRANSIT AT WASHINGTON.
MKl'TEMBER.
OCTOBER.
NOVEMBER.
DECEMGEU.
"r'
MMith
KX
TftcN^tA.
II.A.
DM-JTirM.
BA.
I>M.Nffrtk,
H.A.
Dm.«mU.
b. a.
O 1
b. m.
O 1
h. B.
e 1
h. n.
0 t
18 18
86 36
18 18
86 36
18 18
86 36
18 18
86 35
1
4.95
9'.'62
32.:i5
ll"39
19.47
849
9.98
6l"48
1
2
44.56
9.79
31.93
11.38
19.09
8.31
9.74
61.19
1 3
3
44.16
9.94
31.50
11.35
18.71
8.13
9.51
60.89
3
4
43.76
10.fl8
31.07
11.32
18.33
7.95
9.29
60..59
4
5
4a35
10.21
30.64
11.39
17.96
7.77
9.07
60.29
5
6
42.94
10.33
30.20
11.26
17.59
7.59
8.86
59.99
6
7
42.53
10.44
29.76
11.21
17.23
7.39
8.66
59.68
7
8
42.12
10.54
29.3;J
11.15
16.87
7.1R
8.47
59.37
8
9
41.71
10.G4
28.90
11.09
16.51
6.97
8.28
59.06
9
10
41.31
10.74
28.47
11.03
16.16
6.76
8.09
68.75
10
11 !
4a90
10.84
28,04
10.97
15.81
6.55
7.91
58.44
11
1 i'2
40.48
10.92
27.61
10.91
15.47
6.34
7.74
58.12
12
13
40.06
10.99
27.18
10.84
15.13
6.13
7.58
57.80
13
14
39.r>4
11.05
26.75
10.77
14.80
5.91
7.42
87.48
14
IS
39.22
11.11
26.33
10.69
14.47
6.69
7.26
57.16;
15 1
16
38.80
11.17
25.91
10.60
14.14
5.47
7.10
56.83
16 '
17
38.:W
11.23
25.49
10.50
13.8:}
5.22
6.97
56.50
17
18
38.96
11.28
25.08
10.40
13.52
4.97
6.85
66.17
18
19
38.5.4
11.33
24.67
10.29
13.22
4.72
6.73
55.84
19
20
3,8.12
11.37
24.26
10.18
12.92
4.57
6.61
65.51
20 '
SI
37.70
11.39
23.a5
10.07
12.62
4.22
6.49
55.18
21
22
36.2S
11.40
23.44
9.96
I2.;w
3.96
6.38
54.85
22 1
23
35.86
11.40
23.03
9.83
12.0<i
3.70
6.28
&4.51
23 1
24
35,43
11.40
22.62
9.69
11. 7H
3.43;
6.19
54.17
24 1
25
35.00
11.40
22S;»
9.55
11.50
3.16
6.11
53J«
35
26
34.56
11.41'
21.82
9.41
11.23
2.89
6.04
53.49
36 i
27
ai.n
11.42
21.42
9.27
10.98
2.61
5.08
53.15
27
28
a3.{i0
11.42,
21. OH
9.12
10.73
2.33
6.93
52.81
28 ;
29
33.22
11.41
20.64
8.97
10.48
2.05
6.SS
52.47'
29
30
32.78
11.40
20.35
8.82
10.23
1.77
6.83
52.13
ao
31
32,35
11.39
19.86
8.66
9.98
1.48
5.78
51.79
31
32
t >
19.47
849
' *l
• •
6.73
41.45
32
FIXED STARS, 1856.
261
APPARENT PLACES OP THE PRINCIPAL FIXED STARS, FOR THE UPPER
TRANSIT AT WASHINGTON.
BldarMl
Dajof Um
MonCli.
Jan. 1
11
21
81
Feb. 10
20
March 1
11
21
31
Apnl 10
20
30
May 10
20
June 9
19
29
July 9
19
29
Aug. 8
18
28
Sept. 7
17
27
Oct. 7
17
27
Nov. 6
16
26
Dec. 6
16
26
a AKDBOMBDiB.
Right AMeiukm. I Dm. JVbrO.
h.
0
0
56.07 0.12
55.95 0.12
55.83 O.ll
55.72 0.08
55.64 0.07
55.57 0.04
55.53 0.00
55.53 0.05
55.58 0.09
55.67 0.18
55.80 0.18
55.98 0.22
56.20 0.26
56.46 0.29
56.75 0.82
57.07 0.84
57.41 0.85
57.76 0.85
58.11 0.84
58.45 0.82
58.77 0.80
59.07 0.27
59.34 0.24
59.58 0.19
59.77 0.15
59.92 0.12
60.04 0.08
60.12 0.03
60.15 0.01
60.14 0.02
60.12 0.05
60.07 0.08
59.99 0.10
59.89 0.11
59.78 0.12
59.66 0.18
59.53 0.12
59.41
28 17
II M
48.4 0.9
47.5 1.2
46.3 1.3
45.0 1.5
43.5 1.5
42.0 1.5
40.5 1.5
39.0 1.4
37.6 1.2
36.4 0.9
35.5 0.4
35.1 0.0
35.1 0.1
35.2 0.6
35.8 1.0
36.8 1.4
38.2 1.8
40.0 2.0
42.0 2.8
44.3 2.5
46.8 2.5
49.3 2.6
51.9 2.7
54.6 2.6
57.2 2.4
59.6 2.3
61.9 2.1
64.0 1.8
65.8 1.6
67.4 1.4
68.8 1.1
69.9 0.8
70.7 0.5
71.2 0.2
71.4 0.1
71.3 0.4
70.9 0.7
70.2
y Peoabi.
(Mgmtb )
Sight
h. m.
0 5
g. g.
48.66 0.10
48.56 0.10
48.46 0.08
48.38 0.07
48.31 0.06
48.25 0.08
48.22 0.00
48.22 0.05
48.27 0.08
48.35 0.12
48.47 0.17
48.64 0.21
48.85 0.25
49.10 0.28
49.38 0.80
49.68 0.82
50.00 0.88
50.33 0.88
50.66 0.82
50.98 0.81
51.29 0.29
51.58 0.25
51.83 0.22
52.05 0.19
52.24 0.15
52.39 0.11
52.50 0.07
52.57 0.03
52.60 0.00
52.60 0.02
52.58 0.08
52.55 0.06
52.49 0.07
52.42 0.09
52.33 0.10
52.23 0.11
52.12 0.10
52.02
Dm. iVbrU.
14 22
58.6 0.8
57.8 0.8
57.0 0.9
56.1 1.0
55.1 0.9
54.2 0.9
53.3 0.7
52.6 0.4
52i2 0.8
51.9 0.8
51.6 0.3
51.9 0.6
52.5 1.0
53.5 1.3
54.8 1.5
56.3 1.7
58.0 2.0
60.0 2.1
62.1 2.2
64.3 2.2
66.5 2.2
68.7 2.2
70.9 2.0
72.9 1.9
74.8 1.7
76.5 1.6
78.1 1.8
79.4 1.1
80.5 0.8
81.3 0.6
81.9 0.4
82.3 0.2
82.5 0.1
82.4 0.2
82.2 0.8
81.9 0.6
81.3 0.7
80.6
|J Hjdrs.
Right
h.
0
18
8.32 0.89
7.43 0.83
6.60 0.74
5.86 0.64
5.22 0.51
4.71 0.88
4.33 0.28
4.10 0.07
4.03 0.08
4.11 0.24
4.35 0.89
4.74 0.54
5.28 0.69
5.97 0.82
6.79 0.92
7.71
8.73
9.82
10.95
12.10
1.02
1.09
1.18
1.15
1.12
13.22 1.07
14.29 0.99
15.28 0.88
16.16 0.75
16.91 0.56
17.47 0.41
17.88 0.20
18.08 0.01
18.07 0.15
17.92 0.89
17.53 0.54
16.99 0.68
16.31 0.79
15.52 0.87
14.65 0.92
13.73 0.94
12.79 0.92
11.87
Dm. SomUi,
78 i
80.7 1.1
79.6 1.7
77.9 2.2
75.7 2.6
73.1 8.1
70.0 8.4
66.6 8.6
63.0 8.8
59.2 8.9
55.3 8.9
51.4 8.8
47.6 3.7
43.9 8.4
40.5 8.1
37.4 2.7
34.7 2.8
32.4 1.8
30.6 1.2
29.4 0.6
28.8 0.0
28.8 0.6
29.4 1.2
30.6 1.7
32.3 2.2
34.5 2.5
37.0 2.7
39.7 8.0
42.7 8.1
45.8 2.9
48.7 2.8
51.5 2.4
53.9 2.0
55.9 1.5
57.4 1.0
58.4 0.4
58.8 0.2
58.6 0.7
57.9
after the 22d of Blueh It beglni at the Sideiwl (Ml 6^er« the Meu Noon.
262
FIXED STARS, 1856.
APPABENT PLACES OP THE
PRINCIPAL FIXED STARS, FOR THE
UPPER
TRANSIT AT WASHINGTON.
aaami
a CABBIOPBiB.
/f Ceti.
6' Ceti II
Month.
Dtc. North,
Right AMenakm.
Dtc. South.
Bight AMenakm.
Dee. SomUL
h. m.
O 1
h. m.
O 1
h. m.
o t
0 32
55 44
0 36
18 46
1 16
8 55
Jan. 1
20.36 0.26
63.0 0.3
21.19 0.12
II M
50.1 0.4
49.44 0.10
45.0 0.6
11
20.10 0.27
62.7 0.8
21.07 0.11
50.5 0.1
49.34 0.12
45.6 0.4
21
19.83 0.24
61.9 1.8
20.96 0.10
50.6 0.1
49.22 0.11
46.0 0.2
31
19.59 0.22
60.6 1.9
20.86 0.09
50.5 0.4
49.11 0.11
46.2 0.2
Feb. 10
19.37 0.19
58.7 2.3
20.77 0.07
50.1 0.6
49.00 0.10
46.4 0.2 '
20
19.18 0.15
56.4 2.5
20.70 0.05
49.5 0.9
48.90 0.08
46.2 0.2
March 1
19.03 0.08
53.9 2.6
20.65 0.03
48.6 1.1
48.82 0.06
46.0 0.5 J
11
18.95 0.02
51.3 2.7
20.62 0.01
47.5 1.4
48.76 0.03
45.5 O.S
21
18.93 0.05
48.6 2.5
20.63 0.06
46.1 1.6
48.73 0.00
44.7 1.1
31
18.98 0.12
46.1 2.4
20.69 0.08
44.5 1.9
48.73 0.05
43.6 1.S
April 10
19.10 0.20
43.7 2.1
20.77 0.13
42.6 2.1
48.78 0.09
42.3 1.4
20
19.30 0.25
41.6 1.7
20.90 0.17
40.5 2.2
48.87 0.13
40.9 1.7
30
19.56 0.31
39.9 1.3
21.07 0.21
38.3 2.4
49.00 0.17
39.2 1.9
May 10
19.87 0.38
38.6 0.7
21.28 0.24
35.9 2.4
49.17 0.21
37.3 2.1
20
20.25 0.43
37.9 0.2
21.52 0.28
33.5 2.5
49.38 0.25
35.2 2.2
30
20.68 0.46
37.7 0.4
21.80 0.30
31.0 2.6
49.63 0.27
33.0 2.3
June 9
21.13 0.47
38.1 1.0
22.10 0.32
28.5 2.4
49.90 0.30
30.7 2.4
19
21.60 0.47
39.1 1.6
22.42 0.34
26.1 2.2
50.20 0.31
28.3 2.2
29
22.07 0.48
40.6 2.0
22.76 0.33
23.9 2.0
50.51 0.32
26.1 2.1
July 9
22.55 0.46
42.6 2.4
23.09 0.32
21.9 1.7
50.83 0.32
24.0 2.0
19
23.01 0.43
45.0 2.9
23.41 0.81
20.2 1.4
51.15 0.31
22.0 1.7
29
23.44 0.39
47.9 8.1
23.72 0.30
18.8 1.0
51.46 0.30
20.3 1.5
Aug. 8
23.83 0.36
51.0 8.2
24.02 0.26
17.8 0.7
51.76 0.27
18.8 1.2
18
24.18 0.29
54.2 3.5
24.28 0.23
17.1 0.8
52.03 0.25
17.6 0.8
28
24.47 0.25
57.7 8.7
24.51 0.19
16.8 0.1
52.28 0.21
16.8 0.5
Sept. 7
24.72 0.20
61.4 3.5
24.70 0.15
16.9 0.4
52.49 0.18
16.3 0.2
17
24.92 0.13
64.9 8.4
24.85 0.11
17.3 0.7
52.67 0.16
16.1 0.2
27
25.05 0.08
68.3 8.3
24.96 0.08
18.0 0.9
52.83 0.11
16.3 0.3
Oct. 7
25.13 0.02
71.6 8.1
25.04 0.03
18.9 1.1
52.94 0.08
16.6 0.5
17
25.15 0.02
74.7 2.9
25.07 0.00
20.0 1.2
53.02 0.05
17.1 0.8
27
25.13 0.06
77.6 2.6
25.07 0.03
21.2 1.3
53.07 0.01
17.9 0.9
Nov. 6
25.07 0.11
80.2 2.1
25.04 0.05
22.5 1.2
53.08 0.01
18.8 1.0
16
24.96 0.15
82.3.1.6
24.99 0.07
23.7 1.1
53.07 0.02
19.8 1.0
26
24.81 0.20
83.9 1.2
24.92 0.09
24.8 1.1
53.05 0.06
20.8 0.9
Dec. 6
24.61 0.23
85.1 0.7
24.83 0.10
25.9 0.9
52.99 0.07
21.7 0.9
16
24.38 0.24
85.8 0.8
24.73 0.10
26.8 0.7
52.92 0.09
22.6 0.8
26
• 24.14 0.25
86.1 0.3
24.63 0.11
27.5 0.5
52.83 0.10
23.4 0.7
36
23.89
85.8
24.52
28.0
52.73
24.1
Non.—
•Bd-OT«the22dori
Cuvh the SldeiM
1 day of the Month 1
l>egiiia at the Side
real Oh. <^^ the H
BftnNoon;
FIXED STARS, 1856.
263
APPARENT PLACES
OF THE
PRINCIPAL FIXED STARS, FOR THE UPPER
TRANSIT AT WASHINGTON.
BidMMl
a Eridani
{Achemar.)
a Abistis.
rCeti.
Dajrof tba
Month.
Right AMntfkm.
J)90. Sotltk,
, D9C. North,
Right AMMidon.
Dte. North,
h. m.
O 1
h. m.
O 1
h. m.
O 1
1 32
57 57
1 59
22 46
2 35
2 37
Jan. 1
21.71 0.81
87.2 0.3
3.63 0.11
52.8 0.2
50.71 0.10
36.7 0.7
11
21.40 0.32
87.5 0.8
3.52 0.12
52.6 0.4
50.61 0.11
36.0 0.5
21
21.08 0.32
87.2 0.8
3.40 0.13
52.2 0.6
50.50 0.12
35.5 0.5
31
20.76 0.30
86.4 1.4
8.27 0.15
51.6 0.7
50.38 0.18
35.0 0.4
Feb. 10
20.46 0.27
85.0 1.8
3.12 0.18
50.9 0.7
50.25 0.13
34.6 0.3
20
20.19 0.25
83.2 2.3
2.99 0.12
60.2 0.8
50.12 0.13
34.3 0.2
March 1
19.94 0.20
80.9 2.6
2.87 0.10
49.4 0.8
49.99 0.11
34.1 0.0
11
19.74 0.15
78.3 8.0
2.77 0.07
48.6 0.9
49.88 0.09
34.1 0.1
21
19.59 0.08
75.3 8.4
2.70 0.08
47.7 0.8
49.79 0.06
34.2 0.3
31
19.51 0.03
71.9 8.5
2.67 0.00
46.9 0.5
49.73 0.04
34.5 0.5
April 10
19.48 0.05
68.4 8.8
2.67 0.06
46.4 0.4
49.69 0.01
35.0 0.7
, 20
19.53 0.11
64.6 3.7
2.73 0.10
46.0 0.3
49.70 0.06
35.7 0.9
30
19.64 0.18
60.9 8.8
2.83 0 16
45.7 0.0
49.76 0.10
36.6 1.1
May 10
19.82 0.24
57.1 3.5
2.99 0.19
45.7 0.3
49.86 0.14
37.7 1.4
20
20.06 0.82
53.6 8.8
3.18 0.24
46.0 0.5
50.00 0.19
39.1 1.6
30
20.38 0.87
50.3 8.1
3.42 0.27
46.5 0.9
50.19 0.23
40.7 1.7
June 9
20.75 0.42
47.2 2.8
3.69 0.30
47.4 1.2
50.42 0.25
42.4 1.9
19
21.17 0.45
44.4 2.3
3.99 0.38
48.6 1.4
50.67 0.28
44.3 1.9
29
21.62 0.48
42.1 1.9
4.32 0.83
50.0 1.6
50.95 0.30
46.2 1.9
July 9
22.10 0.48
40.2 1.4
4.65 0.35
51.6 1.7
51.25 0.31
48.1 1.9
19
22.58 0.49
38.8 0.8
5.00 0.33
53.3 1.9
51.56 0.32
50.0 1.8
29
23.07 0.48
38.0 0.2
5.33 0.88
55.2 1.9
51.88 0.31
51.8 1.7
Aug. • 8
23.55 0.45
37.8 0.4
5.66 0.31
57.1 1.9
52.19 0.30
53.5 1.5
18
24.00 0.41
38.2 1.0
5.97 0.29
59.0 1.9
52.49 0.29
55.0 1.3
28
24.41 0.35
39.2 1.5
6.26 0.26
60.9 1.8
52.78 0.27
56.3 1.0
Sept 7
24.76 0.30
40.7 2.0
6.52 0.24
62.7 1.7
53.05 0.24
57.3 0.7
17
25.06 0.23
42.7 2.4
6.76 0.20
64.4 1.6
53.29 0.22
58.0 0.4
27
25.29 0.17
45.1 2.6
6.96 0.16
66.0 1.4
53.51 0.18
58.4 0.3
Oct. 7
25.46 0.09
47.7 2.8
7.12 0.13
67.4 1.2
53.69 0.16
58.7 0.1
17
25.55 0.01
50.5 2.9
7.25 0.10
68.6 1.1
53.85 0.14
58.6 0.2
27
25.56 0.04
53.4 2.8
7.35 0.08
69.7 0.9
53.99 0.10
58.4 0.4
Nov. 6
25.52 0.11
56.2 2.6
7.43 0.06
70.6 0.7
54.09 0.08
58.0 0.5
16
25.41 0.17
58.8 2.4
7.49 0.02
71.3 0.6
54.17 0.04
57.5 0.6
26
25.24 0.21
61.2 2.0
7.51 0.02
71.9 0.4
54.21 0.01
56.9 0.6
Dec. 6
25.03 0.26
63.2 1.6
7.49 0.04
72.3 0.1
54.22 0.01
56.3 0.7
16
24.77 0.29
64.8 1.1
7.45 0.07
72.4 0.1
54.21 0.04
55.6 0.7
26
24.48 0.30
65.9 0.6
7.38 0.09
72.5 0.1
54.17 0.07
54.9 0.7
36
24.18
66.5
7.29
72.4
54.10
54.2
after tha
23dor)Ianhlt
iMflna <^ tb* Sidoni
ilOh.6^oftthel
feftnNoon.
264
FIXED STARS, 1856.
APPARENT PLACES
OF THE
PRINCIPAL FIXED STARS, FOB THE UPPKR
TEANSrr AT WASHINGTON.
Sidenal
o Cbti.
a Persbi.
ri Tanri.
Day of the
Month.
Bight Aaeodoo.
DecJ^orO.
Dte. North.
Right AAoeuloD.
Bee. JVort4.
h. m.
O 1
h. m.
O 1
h. m.
o »
2 54
3 31
3 14
49 20
3 38
23 39
t. t.
M a
B. 1.
« N
•. ■.
a m
Jan. 1
45.54 0.07
21.6 0.6
4.03 0.13
54.8 1.0
56.22 0.05
31.3 0.1
11
45.47 0.10
21.0 0.6
3.90 0.17
55.8 0.7
56.17 O.ip
31.4 o.l
21
45.37 0.12
20.5 0.5
3.73 0.21
56.5 0.3
56.07 0.12
31.5 0.2
31
45.25 0.13
20.0 0.4
3.52 0.24
56.8 0.1
55.95 0.14
31.3 0.2
Feb. 10
45.12 0.14
19.6 0.3
8.28 0.24
56.9 0.4
55.81 0.15
81.1 0^
30
44.98 0.14
19.3 0.2
8.04 0.24
56.5 0.7
55.66 0.17
80.8 0^
March 1
44.84 0.13
19.1 0.1
2.80 0.23
55.8 1.0
55.49 0.16
30.5 0.4
11
44.71 0.11
19.0 0.1
2.57 0.20
54.8 1.3
55.33 0.14
30.1 0.5
31
44.60 0.09
19.1 0.2
2.37 0.16
53.5 1.5
55.19 0.12
29.6 0.5
31
44.51 0.05
19.3 0.4
2.21 0.10
52.0 1.7
55.07 0.08
29.1 0.6
April 10
44.46 0.01
19.7 0.6
2.11 0.05
50.3 1.7
54.99 0.04
28.5 0.5
30
44.47 0.05
20.3 0.9
2.06 0.04
48.6 1.7
54.95 0.00
28.0 0.S 1
30
44.52 0.08
21.2 1.1
2.10 0 09
46.9 1.6
54.95 0.05
27.7 0.2
May 10
44.60 0.12
22.3 1.2
2.19 0.15
45.3 1.6
55.00 0.10
27.5 0.1
20
44.72 0.18
23.5 1.4
2.34 0.23
43.7 1.3
55.10 0.16
27.4 o.l
30
44.90 0.22
24.9 1.7
2.57 0.28
42.4 0.9
55.26 0.19
27.5 0,8
June 9
45.12 0.24
26.6 1.8
2.85 0.83
41.5 0.6
55.45 0.24
27.8 0.5
19
45.36 0.27
28.4 1.8
3.18 0.37
40.9 0.4
55.69 0.27
28.3 0 8
39
45.63 0.29
30.2 1.9
3.55 0.42
40.5 0.1
55.96 0.29
29.1 0.9
July 9
45.92 0.81
32.1 1.8
3.97 0.43
40.6 0.4
56.25 0.82
30.0 1.1
19
46.23 0.81
33.9 1.8
4.40 0.44
41.0 0.7
56.57 0.83
31.1 1.1
39
46.54 0.82
35.7 1.6
4.84 0.46
41.7 1.0
56.90 0.34
32.2 1.2
Aug. 8
46.86 0.81
37.3 1.6
5.30 0.44
42.7 1.3
57.24 0.88
33.4 1.3
18
47.17 0.29
38.8 1.2
5.74 0.43
44.0 1.6
57.57 0.83
34.7 1.3
28
47.46 0.27
40.0 1.0
6.17 0.42
45.6 1.8
57.90 0.82
86.0 1.2
Sept. 7
47.73 0.26
41.0 0.8
6.59 0.40
47.4 1.9
58.22 0.80
37.2 1.2
17
47.99 0.23
41.8 0.5
6.99 0.86
49.3 2.0
58.52 0.29
38.4 1.0
37
48.22 0.21
42.3 0.2
7.85 0.32
51.3 2.2
58.81 0.27
39.4 1.0
Oct. 7
48.43 0.17
42.5 0.1
7.67 0.29
53.5 2.2
59.08 0.24
40.4 0.9
17
48.60 0.15
42.4 0.2
7.96 0.26
55.7 2.3
59.32 0.22
41.3 0.8
27
48.75 0.12
42.2 0.4
8.22 0.22
58.0 2.2
59.54 0.19
42.1 0.7
Nov. 6
48.87 0.10
41.8 0.5
8.44 0.16
60.2 2.1
59.73 0.16
42.8 0.5
16
48.97 0.07
41.3 0.6
8.60 0.10
62.3 2.0
59.89 0.18
43.3 0.5
26
49.04 0.03
40.7 0.6
8.70 0.07
64.3 1.9
60.02 0.08
43.8 0.5
Dec. 6
49.07 0.00
40.1 0.7
8.77 0.01
66.2 1.7
60.10 0.04
44.3 0.4
16
49.0* 0.03
39.4 0.7
8.78 0.05
67.9 1.5
60.14 0.01
44.7 0.2
36
49.04 0.05
38.7 0.6
8.73 0.09
69.4 1.3
60.15 0.02
44.9 0.1
36
48.99
38.1
8.64
70.7
60.13
45.0
Non.-
■BeforatheSMof]
iMohtheSidaid
Id^ or tlM Month
bacln>»(theBldi
ntlC^m/UrihbM
BuNoon;
FIXED STARS, 1856.
265
APPARENT PLACES
OF THE
PRINCIPAL FIXED STARS, FOR THE UPPER
TRANSIT AT WASHINGTON.
«l Vwi
J :
o Tauki.
a Auriga
ttdOTMl
Day Of the
Y Jbnuauu.
(Aldeixi
ran.)
(Capelia.)
MonUu
Right AMMufcrn.
Dee. fi#«C*.
Right AflMOikm.
DM.JVbrO.
Right AMeoskm.
Dee.JVbra.
h. m.
O 1
h. m.
O 1
h. m.
O 1
3 51
13 54
4 27
16 13
5 6
45 50
■. ■.
U II
■. 1.
N n
■. t.
* H
Jan. 1
19.36 0.06
76.7 1.4
40.28 0.01
4.6 0.1
4.44 0.01
56.8 1.4
11
19.30 0.09
78.1 1.1
40.27 0.06
4.5 0.2
4.45 0.05
58.2 1.2
21
19.21 0.11
79.2 0.8
40.21 0.09
4.3 0.2
4.40 0.10
59.4 1.0
SI
19.10 0.15
80.0 0.6
40.12 0.12
4.1 0.8
4.30 0.16
60.4 0.9
Feb. 10
18.95 0.17
80.6 0.8
40.00 0.14
3.8 0.2
4.14 0.20
61.3 0.6
20
18.78 0.17
80.9 0.1
39.86 0.15
3.6 0.2
3.94 0.22
61.9 0.4
Maich 1
18.61 0.16
81.0 0.2
39.71 0.17
3.4 0.2
3.72 0.23
62.3 0.0
11
18.45 0.16
80.8 0.6
39.54 0.16
3.2 0.1
3.49 0.24
62.3 0.8
21
18.30 0.13
80.2 0.8
39.38 0.14
3.1 0.2
3.25 0.28
62.0 0.6
31
18.17 0.10
79.4 1.1
39.24 0.11
2.9 0.1
3.02 0.20
61.4 0.8
April 10
18.07 0.06
78.3 1.8
39.13 0.08
2.8 0.0
2.82 0.16
60.6 1.0
20
18.01 0.04
77.0 1.7
39.05 0.05
2.8 0.0
2.66 0.10
59.6 1.2
30
17.97 0.02
75.3 1.9
39.00 0.00
2.8 0.1
2.56 0.05
58.4 1.8
May 10
17.99 0.06
73.4 2.0
39.00 0.06
2.9 0.8
2.51 0.02
57.1 1.4
20
18.05 0.11
71.4 2.2
39.06 0.09
3.2 0.5
2.53 0.07
55.7 1.4
30
18.16 0.15
69.2 2.4
39.15 0.13
3.7 0.6
2.60 0.18
54.3 1.8
June 9
18.31 0.19
66.8 2.5
39.28 0.19
4.3 0.7
2.73 0.20
53.0 1.2
19
18.50 0.23
64.3 2.4
39.47 0.28
5.0 0.8
2.93 0.25
51.8 1.1
29
18.73 0.25
61.9 2.8
39.70 0.25
5.8 0.9
3.18 0.29
50.7 0.9
July 9
18.98 0.28
59.6 2.8
39.95 0.28
6.7 1.1
3.47 0.34
49.8 0.5
19
19i26 0.29
57.3 2.0
40.23 0.29
7.8 1.1
3.81 0.86
49.3 0.4
29
19.55 0.80
55.3 1.7
40.52 0.31
8.9 1.1
4.17 0.89
48.9 0.8
Aug. 8
19.85 0.80
53.6 1.4
40.83 0.82
10.0 1.0
4.56 0.41
48.6 0.0
18
20.15 0.81
52.2 1.0
41.15 0.82
11.0 1.0
4.97 0.42
48.6 0.1
28
20.46 0.80
51.2 0.6
41.47 0.81
12.0 0.8
5.39 0.48
48.7 0.8
Sept 7
20.76 0.28
50.6 0.2
41.78 0.81
12.8 0.7
5.82 0.42
49.0 0.6
17
21.04 0.27
50.4 0.2
42.09 0.80
13.5 0.6
6.24 0.43
49.6 0.7
27
21.31 0.25
50.6 0.6
42.39 0.29
14.1 0.4
6.67 0.42
50.3 0.9
Oct 7
21.56 0.22
51.2 0.9
42.68 0.27
14.5 0.2
7.09 0.40
51.2 1.0
17
21.78 0.20
52.1 1.8
42.95 0.25
14.7 0.2
7.49 0.87
52.2 1.1
27
21.98 0.17
53.4 1.5
43.20 0.22
14.9 0.1
7.86 0.84
53.3 1.2
Nov. 6
22.15 0.14
54.9 1.6
43.42 0.20
15.0 0.1
8.20 0.82
54.5 1.8
16
22.29 0.10
56.5 1.7
43.62 0.17
14.9 0.1
8.52 0.28
55.8 1.4
26
22.39 0.07
58.2 1.7
43.79 0.18
14.8 0.2
8.80 0.22
57.2 1.5
Dec. 6
22.46 0.08
59.9 1.7
43.92 0.10
14.6 0.1
9.02 0.16
58.7 1.5
16
22.49 0.00
61.6 1.6
44.02 0.03
14.5 0.2
9.18 0.10
60.2 1.4
26
22.49 0.04
63.2 1.4
44.07 0.02
14.3 0.2
9.28 0.06
61.6 1.5
36
22.45
64.6
44.09
14.1
9.34
63.1
alter Um
>22doriIuohtt
iMglniAttbaSidara
al Oh. »e/of< the]
IfeukNoon.
34
266
FIXED STARS, 1856.
APPARENT PLACES OP THE .
PRINCIPAL FIXED STARS, FOR THE
UPPER
TRANSIT AT WASHINGTON.
Sidenal
/f Orioitis.
{Rigel.)
p Tauri.
i Obiohis.
Dayof th«
HoDth.
Bight AM«n8l<m.
J)9C. South.
lUght Aaoenikm.
Dee. iVbra.
Right AMOifloa.
Dm. Sotttk,
h. m.
O 1
h. m.
O 1
h. m.
O f
5 7
8 21
5 17
28 28
5 24
0 24
Jan. 1
37.93 0.00
73.7 1.6
t. 8.
12.33 0.03
60.6 0.5
39.90 0.02
25.2 l.t
11
37.93 0.03
75.3 1.2
12.36 0.01
61.1 0.4
39.92 0.01
30.4 1.0
21
37.90 0.08
76.5 1.0
12.35 0.07
61.5 0.4
39.91 0.07
31.4 0.8
31
37.82 0.12
77.5 0.8
12.28 0.11
61.9 0.8
39.84 0.09
32.2 0.7
Feb. 10
37.70 0.14
78.3 0.6
12.17 0.14
62.2 0.2
89.75 0.18
82.9 0.8
20
37.56 0.1,6
78.9 0.5
12.03 0.16
62.4 0.2
39.62 0.15
33.4 0.4
March 1
37.40 0.17
79.4 0.1
11.87 0.18
62.6 0.0
39.47 0.16
33.8 0.1
11
37.23 0.17
79.5 0.1
11.69 0.19
62.6 0.1
39.31 0.17
33.9 0.1
21
37.06 0.17
79.4 0.4
11.50 0.18
- 62.5 0.2
39.14 0.17
34.0 0.2
31
36.89 0.15
79.0 0.6
11.32 0.15
62.3 0.4
38.97 0.15
33.8 0.4
April 10
36.74 0.11
78.4 0.8
11.17 0.12
61.9 0.4
38.82 0.11
33.4 0.5
20
36.63 0.08
77.6 0.9
11.05 0.08
61.5 0.5
38.71 0.08
32.9 0.7
30
36.55 0.04
76.7 1.8
10.97 0.04
61.0 0.6
38.63 0.04
32.2 0.9
May 10
36.51 0.01
75.4 1.6
10.93 0.01
60.5 0.4
38.59 0.03
31.3 i.i
20
36.50 0.05
73.8 1.8
10.94 0.05
60.1 0.4
38.56 0.04
80.2 1.2
30
36.55 0.08
72.0 1.8
10.99 0.10
69.7 0.8
38.60 0.08
29.0 1.4
June 9
36.63 0.12
70.2 2.0
11.09 0.15
59.4 0.2
38.68 0.11
27.6 1.5 1
19
36.75 0.17
68.2 2.0
11.24 0.20
69.2 0.1
38.79 0.15
26.1 i.«
29
36.92 0.19
66.2 2.0
11.44 0.28
69.1 0.1
38.94 0.19
24.6 1.6 1
July 9
37.11 0.28
64.2 2.0
11.67 0.26
69.2 0.1
39.13 0.22
22.9 1.6
19
37.34 0.26
62.2 1.9
11.93 0.29
59.3 0.2
39.35 0.24
21.8 M
29
37.60 0.27
60.3 1.6
12.22 0.81
69.5 0.3
39.59 0.26
19.8 IJ
Aug. 8
37.87 0.28
58.7 1.4
12.53 0.88
59.8 0.4
39.85 0.28
18.6 1.1
18
38.15 0.29
57.3 1.1
12.86 0.85
60.2 0.5
40.13 0.29
17.4 0.9
28
38.44 0.30
56.2 0.7
13.21 0.84
60.7 0.4
40.42 0.80
16.6 0.6
Sept. 7
38.74 0.29
55.5 0.4
13.55 0.35
61.1 0.4
40.72 0.29
16.9 0.4
17
39.03 0.80
55.1 0.1
13.90 0.84
61.5 0.4
41.01 0.80
15.6 0.1
27
39.33 0.28
55.2 0.8
14.24 0.83
61.9 0.4
41.31 0.29
15.4 0.1
Oct. 7
39.61 0.27
55.5 0.7
14.57 0.88
62.3 0.4
41.60 0.29
16.6 0.4 1
17
39.88 0.26
56.2 1.1
14.90 0.82
62.7 0.3
41.89 0.27
15.9 0.S j
27
40.14 0.24
57.3 1.8
15.22 0.29
63.0 0.4
42.16 0.26
16.7 1.0 ,
Nov. 6
40.38 0.21
58.6 1.4
15.51 0.26
63.4 0.8
42.42 0.28
17.7 1.1
16
40.59 0,19
60.0 1.6
15.77 0.24
63.7 0.4
42.65 0.20
18.8 14
26
40.78 0.15
61.6 1.8
16.01 6.20
64.1 0.4
42.85 0.17
20.1 1.3
Dec. 6
40.93 0.11
63.4 1.7
16.21 0.16
64.6 0.4
43.02 0.14
21.4 IJ
16
41.04 0.07
65.1 1.6
16.37 0.11
64.9 0.4
43.16 0.10
22.7 IJ
26
41.11 0.03
66.7 1.6
16.48 0.05
65.3 0.3
43.26 0.05
24.0 M
36
41.14
68.2
16.53
66.6
43.31
1 26.2 1
Kon.-
-B«for»tb«22dof
adayorUMMoalh
ImiIih U tb. SUk
inal Oh. a/ttr the M
1
MoNoeo;
1
FIXED STARS, 1856.
267
APPARENT PLACES
OF THE
PRINCIPAL FIXED STARS, FOR THE UPPER
TRANSIT AT WASHINGTON.
8l<terad
aLeporifl.
• Obiohis.
a Colnmbs.
DayoftiM
Montli.
Right AMenakm.
Dm. AmlA.
Dm. South,
Right Afcension.
Hvo. South.
h. m.
5 26
O 1
17 55
h. m.
5 28
1 ih
h. m.
5 34
34 §
Jan. 1
23.78 0.02
39.4 2.0
55.27 0.02
II M
46.9 1.1
27.48 0.01
68.9 2.6
11
23.80 0.06
41.4 1.7
55.29 0.01
48.0 1.0
27.47 0.07
71.5 2.8
21
23.75 0.08
43.1 1.5
55.28 0.06
49.0 0.8
27.40 0.11
73.8 2.0
31
23.67 0.12
44.6 1.2
55.22 0.09
49.8 0.7
27.29 0.16
75.8 1.7
Feb. 10
23.55 0.15
45.8 0.9
55.13 0.13
50.5 0.5
27.13 0.20
77.5 1.8
20
23.40 0.17
46.7 0.6
55.00 0.16
51.0 0.2
26.93 0.22
78.8 0.8
March 1
23.23 0.18
47.3 0.8
54.85 0.16
51.2 0.1
26.71 0.28
79.6 0.4
11
23.05 0.19
47.6 0.0
54.69 0.17
51.3 0.0
26.48 0.28
80.0 0.0
21
22.86 0.18
47.6 0.4
54.52 0.16
51.3 0.8
26.25 0.28
80.0 0.4
31
22.68 0.17
47.2 0.7
54.36 0.16
51.0 0.6
26.02 0.21
79.6 0.9
April 10
22.51 0.14
46.5 1.0
54.21 0.12
50.4 0.7
25.81 0.19
78.7 1.4
20
22.37 0.10
45.5 1.4
54.09 0.09
49.7 0.8
25.62 0.16
77.3 1.7
30
22.27 0.07
44.1 1.6
54.00 0.05
48.9 1.0
25.47 0.12
75.6 2.0
May 10
22.20 0.04
42.5 1.9
53.95 0.02
47.9 1.2
25.35 o.ois
73.6 2.4
20
22.16 0.01
40.6 2.1
53.93 0.08
46.7 1.8
25.29 0.08
71.2 2.7
80
22.17 0.05
38.5 2.2
53.96 0.07
45.4 1.5
25.26 0.02
68.5 2.9
June 9
22.22 0.10
36.3 2.4
54.03 0.11
43.9 1.5
25.28 0.07
65.6 8.0
19
22.32 0.15
33.9 2.5
54.14 0.15
42.4 1.6
25.35 0.12
62.6 8.1
29
22.47 0.18
31.4 2.5
54.29 0.18
40.8 1.6
25.47 0.16
59.5 8.0
July 9
22.65 0.20
28.9 2.8
54.47 0.21
39.2 1.5
25.63 0.20
56.5 2.9
19
22.85 0.24
26.6 2.1
54.68 0.25
37.7 1.5
25.83 0.24
53.6 2.7
29
23.09 0.26
24.5 1.9
54.93 0.26
36.2 1.8
26.07 0.27
50.9 2.8
Aug. 6
23.35 0.28
22.6 1.6
55.19 0.28
34.9 1.1
26.34 0.29
48.6 1.9
18
23.63 0.29
21.0 1.3
55.47 0.29
33.8 0.8
26.63 0.31
46.7 1.5
28
23.92 0.29
19.7 0.8
55.76 0.29
33.0 0.5
26.94 0.32
45.2 1.0
Sept 7
24.21 0.30
18.9 0.4
56.05 0.29
32.5 0.8
27.26 0.82
44.2 0.4
17
24.51 0.80
18.5 0.1
56.34 0.29
32.2 0.1
27.58 0.88
43.8 0.1
27
24.81 0.29
18.6 0.6
56.63 0.29
32.3 0.3
27.91 0.82
43.9 0.8
Oct 7
25.10 0.29
19.2 1.0
56.92 0.29
32.6 0.6
28.23 0.82
44.7 1.8
17
25.39 0.27
20.2 1.8
57.21 0.28
33.2 1.0
28.55 0.29
46.0 1.7
27
25.66 0.25
21.5 1.6
57.49 0.26
34.2 1.1
28.84 0.27
47.7 2.1
Nov. 6
25.91 0.22
23.1 2.0
57.75 0.28
35.3 1.3
29.11 0.24
49.8 2.6
16
26.13 0.19
25.1 2.1
57.98 0.20
36.6 1.4
29.35 0.20
52.4 2.7
26
26.32 0.17
27.2 2.2
58.18 0.18
38.0 1.4
29.55 0.17
55.1 2.9
Dea 6
26.49 0.12
29.4 2.2
58.36 0.16
39.4 1.4
29.72 0.11
58.0 2.9
16
26.61 0.08
31.6 2.2
58.51 0.10
40.8 1.8
29.83 0.06
60.9 2.8
26
26.69 0.08
33.8 2.1
58.61 0.05
42.1 1.2
29.89 0.01
63.7 2.7
36
26.72
35.9
58.66
43.3
29.90
66.4
ftftOTtlM
22dofHuohU
tMfiniattheSideiK
il Oh. Ufan tha I
lean Noon.
268
FIXED STARS, 1856.
AFPABENT PLACES OF THE
PRINCIPAL FIXED STARS, FOR THE UPPER
TRANSIT AT WASHINGTON.
SMowl
a Obionis.
fi GemiDoram.
a Argus.
(Canojm.)
Month.
Right AjomuIoii.
DM.iVbnA.
Right AsoMidoii.
Dii. North.
Dm. AM*.
h. m.
6 47
7 2'2
h. m.
6 14
22 35
h. m.
6 20
52 36
Jan. 1
11
21
81
Feb. 10
23.42 0.05
28.47 0.01
28.48 0.05
23.43 0.08
23.35 0.11
40.4 0.8
39.6 0.7
38.9 0.6
38.3 0.4
37.9 0.8
15.81 0.09
15.90 0.04
15.94 0.02
15.92 0.06
15.86 0.09
fe.6 0.1
5.7 0.1
5.8 0.2
6.0 0.1
6.1 0.2
47.43 0.02
47.41 0.10
47.31 0.17
47.14 0.21
46.93 0.26
6b.8 8.3
64.1 t.l
67.2 1.8
70.0 2.4
72.4 2.0
20
March 1
1 11
21
81
23.24 0.14
23.10 0.16
22.94 0.16
22.78 0.16
22.62 0.16
37.6 0.2
37.4 0.1
37.3 0.1
37.2 0.1
37.3 0.1
15.77 0.14
15.63 0.17
15.46 0.17
15.29 0.17
15.12 0.17
6.3 0.2
6.5 0.2
6.7 0.2
6.9 0.1
7.0 0.0
46.67 0.82
46.35 0.88
46.02 0.85
45.67 a86
45.31 0.85
74.4 1.6
76.0 1.1
77.1 0.9
77.6 0.1
77.7 0.4
April 10
20
80
May 10
20
22.46 0.18
22.33 0.09
22.24 0.05
22.19 0.08
22.16 0.01
37.4 0.8
37.7 0.4
38.1 0.6
38.7 0.7
39.4 0.7
14.95 0.15
14.80 0.12
14.68 0.07
14.61 0.04
14.57 0.00
7.0 0.0
7.0 0.1
6.9 0.1
6.8 0.1
6.7 0.1
44.96 0.82
44.64 0.29
44.35 0.25
44.10 0.20
43.90 0.15
77.3 1.0
76.3 1.6
74.8 IS
72.9 2.8
70.6 2.7
80'
June 9
19
29
July 9
22.17 0.07
22.24 0.10
22.34 0.14
22.48 0.18
22.66 0.21
40.1 0.7
40.8 1.0
41.8 1.2
43.0 1.2
44.2 1.0
14.57 0.04
14.61 0.09
14.70 0.18
14.83 0.17
15.00 0.21
6.6 0.1
6.5 0.0
6.5 0.1
6.6 0.1
6.7 0.1
43.75 0.09
43.66 0.08
43.63 0.08
43.66 0.10
43.76 0.15
67.9 8.0
64.9 8.8 ,
61.6 8.8
A8.3 8.4
54.9 8J
19
29
Aug. 8
18
28
22.87 0.28
23.10 0.25
28.35 0.27
23.62 0.29
23.91 aso
45.2 1.0
46.2 1.0
47.2 0.9
48.1 0.7
48.8 0.5
15.21 0.28
15.44 0.26
15.70 0.28
15.98 0.81
16.29 0.81
6.8 0.2
7.0 0.1
7.1 0.1
7.2 0.2
7.4 0.1
43.91 0.20
44.11 0.26
44.37 0.80
44.67 0.84
45.01 0.87
51.6 8.2
48.4 2.8
45.5 2.5
43.0 2.0
41.0 1.4
Sept. 7
17
27
Oct. 7
17
24.21 0.81
24.52 0.80
24.82 0.80
25.12 0.80
25.42 0.29
49.3 0.8
49.6 0.0
49.6 0.1
49.5 0.4
49.1 0.6
16.60 0.82
16.92 0.88
17.25 0.88
17.58 0.88
17.91 0.88
7.5 0.1
7.4 0.1
7.3 0;2
7.1 0.2
6.9 0.8
45.38 0.89
45.77 0.41
46.18 0.42
46.60 0.41
47.01 0.89
89.6 0.8
38.7 0.2
38.5 0.8
39.0 1.1
40.1 1.8
27
Nov. 6
16
26
Dec. 6
25.71 0.28
25.99 0.26
26.25 0.28
26.48 0.20
26.68 0.16
48.5 0.7
47.8 0.9
46.9 0.9
46.0 0.9
45.1 1.0
18.24 0.81
18.55 0.81
18.86 0.28
19.14 0.25
19.39 0.20
6.6 0.8
6.3 0.8
6.0 0.8
5.7 0.2
5.5 0.2
47.40 0.87
47.77 0.84
48.11 0.27
48.38 0.28
48.61 0.16
41.7 2J
43.9 2.7
46.6 8.0
49.6 8a
52.8 8.4
16
26
86
26.84 0.12
26.96 0.09
27.05
44.1 0.9
43.2 0.8
42.4
19.59 0.17
19.76 0.12
19.88
5.3 0.1
5.2 0.0
5.2
48.77 0.10
48.87 0.02
48.89
56.2 8.8
59.7 8.4
63.1
Non.-
-BiforaUMadon
IC««hth»8Umi
ll day or th« Month
biffaiffttth»8klt
malOh.4^th»ll
wBMoott;
FIXED STARS, 1856.
269
APPARENT PLACES
OF THE
PRINCIPAL :
FIXED STARS, FOR THE UPPER
TRANSIT AT WASHINGTON.
SiderMl
51 (Hey.) CepheL
a Caitis Majobib.
• Canis Majoris.
D»7orth6
Month.
Right AMoukm.
Jit. North.
BiglitAmiidon.
Dee. &ml4.
Right ABoenston.
Dm. South.
h. m.
O 1
h. m.
O 1
h. m.
O 1
6 31
87 14
6 38
16 30
6 52
28 46
Jan. 1
60.99 0.35
73.3 8.8
49.01 0.07
72.6 2.2
59.13 0.08
37.9 2.8
11
61.34 0.48
76.6 8.2
49.08 0.02
74.7 2.1
59.21 0.02
40.7 2.6
21
60.86 1.34
79.8 8.0
49.10 0.03
76.8 1.9
59.23 0.08
43.3 2.4
81
59.52 2.15
82.8 2.7
49.07 0.08
78.7 1.6
59.20 0.07
45.7 2.2
Feb. 10
57.37 2.89
85.5 2.3
48.99 0.11
80.3 1.8
59.13 0.12
47.9 1.9
20
54.48 8.51
87.8 1.8
48.88 0.14
81.6 1.1
59.01 0.17
49.8 1.4
March 1
50.97 8.96
89.6 1.8
48.74 0.17
82.7 0.7
58.84 0.19
51.2 1.1
11
47.02 4.19
90.9 0.6
48.57 0.18
83.4 0.5
58.65 0.20
52.3 0.7
21
42.83 4.26
91.5 0.1
48.39 0.19
83.9 0.1
58.45 0.21
53.0 0.8
31
38.57 4.09
91.6 0.6
4a20 0.18
84.0 0.2
58.24 0.21
53.3 0.1
April 10
34.48 8.80
91.0 1.1
48.02 0.16
83.8 0.5
58.03 0.20
53.2 0.6
20
30.68 8.89
89.9 1.7
47.86 0.14
83.3 0.8
57.83 0.18
52.6 0.9
30
27.29 2.84
88.2 2.1
47.72 0.12
82.5 1.2
57.65 0.15
51.7 1.3
May 10
24.45 2.18
86.1 2.5
47.60 0.07
81.3 1.4
57.50 0.11
50.4 1.6
20
22.27 1.48
83.6 2.7
47.53 0.04
79.9 1.6
57.39 0.09
48.8 2.0
30
20.79 0.77
80.9 8.0
47.49 0.01
78.3 1.9
57.30 0.04
46.8 2.2
June 9
20.02 0.04
77.9 8.2
47.50 0.04
76.4 2.0
57.26 0.01
44.6 2.5
19
19.98 0.72
74.7 8.1
47.54 0.08
74.4 2.1
57.27 0.04
42.1 2.7
29
20.70 1.59
71.6 8.6
47.62 0.12
72.3 2.2
57.31 0.08
39.4 2.7
July 9
22.29 2.84
68.6 2.8
47.74 0.16
70.1 2.1
57.39 0.12
36.7 2.6
19
24.63 8.08
65.8 2.6
47.90 0.18
68.0 2.0
57.51 0.16
34.1 2.5
29
27.66 8.66
63.2 2.4
48.08 0.21
66.0 1.9
57.67 0.19
81.6 2.4
Aug. 8
31.32 4.18
60.8 2.2
48.29 0.28
64.1 1.6
57.86 0.28
29.2 2.1
18
35.50 4.64
58.6 1.8
48.52 0.25
62.5 1.8
58.09 0.25
27.1 1.7
28
40.14 5.02
56.8 1.4
48.77 0.28
61.2 0.9
58.34 0.27
25.4 1.8
Sept 7
45.16 5.28
55.4 1.0
49.05 0.29
60.3 0.6
58.61 0.29
24.1 0.8
17
50.44 5.50
54.4 0.4
49.34 0.29
59.7 0.0
58.90 0.81
23.3 0.2
27
55.94 5.58
54.0 0.1
49.63 0.80
59.7 0.4
59.21 0.82
23.1 0.2
Oct 7
61.52 5.47
53.9 0.5
49.93 0.81
60.1 0.8
59.53 0.32
23.3 0.8
17
66.99 5.29
54.4 1.0
50.24 0.80
60.9 1.8
59.85 0.82
24.1 1.8
27
72.28 5.05
55.4 1.5
50.54 0.29
62.2 1.6
60.17 0.81
25.4 1.7
Nov. 6
77.33 4.71
56.9 1.9
50.83 0.26
63.8 1.9
60.48 0.80
27.1 2.2
16
82.04 4.16
58.8 2.2
51.09 0.24
65.7 2.1
60.78 0.27
29.3 2.4
26
86.20 8.45
61.0 2.6
51.33 0.22
67.8 2.8
61.05 0.25
31.7 2.7
Dec. 6
89.65 2.62
63.6 8.0
51.55 0.19
70.1 2.4
61.30 0.20
34.4 2.9
16
92.27 1.86
66.6 8.1
51.74 0.14
72.5 2.8
61.50 0.16
37.3 2.9
26
94.13 0.99
69.7 8.2
51.88 0.09
' 74.8 2.4
61.66 0.11
40.2 2.8
36
95.12
72.9
51.97
77.2
61.77
43.0
•tlntbi
1 23d of Much It
becfaiatth»8ldm
AlOh.ft«/arffth»]
UmbNood.
270
FIXED STARS, 18561
APPARENT PLACES
OP THE
PRINCIPAL FIXED STARS, FOR THE UPPER
TRANSIT AT WASHINGTON.
Di^rortba
Month.
d Geminoram.
o* Gbmiitorum.
{Conor,)
a Can 18 Mivoeib.
(Proryon.)
Bight AMenakm.
Dm, North,
Right AflMockm.
Dm, North.
Dm. Mm*.
h m.
7 11
22 li
h. m.
7 25
32 11
7 3i
o . 1
5 35 1
Jan. 1
11
21
31
Feb. 10
32.16 0.15
32.31 0.09
32.40 0.05
32.45 0.00
32.45 0.07
4*1.3 0.2
41.1 0.0
41.1 0.2
41.3 0.2
41.5 0.3
25.45 0.17
25.62 0.12
25.74 0.06
25.80 0.00
25.80 0.05
63.5 0.4
63.9 0.6
64.5 0.7
65.2 0.7
65.9 0.8
46.51 0.14
46.65 0.10
46.75 0.06
46.81 0.00
46.81 0.05
33.3 "l.i
32.1 I.I
31.0 0.9
30.1 0.6
29.5 0.6
20
March 1
11
21
31
32.38 0.10
32.28 0.14
32.14 0.16
31.98 0.16
31.82 0.17
41.8 0.8
42.1 0.4
42.5 0.3
42.8 0.3
43.1 0.2
25.75 O.IO
25.65 0.14
25.51 0.16
25.35 0.18
25.17 0.19
66.7 0.8
67.5 0.7
68.2 0.6
68.8 0.5
69.3 0.4
46.76 0.09
46.67 0.12
46.55 0.14
46.41 0.15
46.26 0.16
28.9 0.5
28.4 0.3
28.1 0.1
28.0 0.0
28.0 0.1
April 10
20
30
May 10
20
31.65 0.16
31.49 0.14
31.35 0.11
31.24 0.08
31.16 0.05
43.3 0.2
43.5 0.1
43.6 0.1
43.7 0.0
43.7 0.0
24.98 0.18
24.80 0.15
24.65 0.18
24.52 0.10
24.42 0.07
69.7 0.2
69.9 0.0
69.9 0.2
69.7 0.3
69.4 0.4
46.10 0.15
45.95 0.13
45.82 0.12
45.70 0.09
45.61 0.06
28.1 0.8
28.3 0.4
28.7 0.6 1
29.2 0.5
29.7 0.6
30
, June 9
19
29
July 9
31.11 0.00
31.11 0.03
31.14 0.08
31.22 0.11
31.33 0.14
43.7 0.1
43.6 0.1
43.5 0.1
43.4 0.0
43.4 0.1
24.35 0.03
24.32 0.02
24.34 0.07
24.41 0.11
24.52 0.14
69.0 0.5
68.5 0.6
67.9 0.7
67.2 0.7
66.5 0.8
45.55 0.03
45.52 0.01
45.51 0.05
45.56 0.09
45.65 0.11
30.8 0.7
31.0 0.8 1
31.8 0.8 '
32.6 0.8
33.4 0.8 1
1
19
29
Aug. 8
18
28
31.47 0.18
31.65 0.2!
31.86 0.24
32.10 0.27
32.37 0.28
43.3 0.2
43.1 0.1
43.0 0.2
42.8 0.3
42.5 0.4
24.66 0 18
24.84 0 21
25.05 0.25
25.30 0.27
25.57 0.29
65.7 0.8
64.9 0.8
64.1 0.8
63.3 0.8
62.5 0.8
45.76 0.14
45.90 0.17
46.07 0.20
46.27 0.22
46.49 0.25
34.2 0.8
35.0 0.7
35.7 0.6
86.3 0.3
36.6 0.0 ,
Sept 7
17
27
Oct 7
17
32.65 0.30
32.95 0.31
33.26 0.83
33.59 0.83
33.92 0.84
42.1 0.4
41.7 0.5
41.2 0.6
40.6 0.7
39.9 0.7
25.86 0.83
26.19 0.84
26.53 0^5
26.88 0.35
27.23 0.87
61.7 0.8
60.9 0.8
60.1 0.8
59.3 0.8
58.5 0.7
46.74 0.26
47.00 0.28
47.28 0.30
47.58 0.31
47.89 0.81
36.6 0.0
36.6 0.3
36.3 0.6
35.7 0.8
34.9 1.0
27
Nov. 6
16
26
Dec. 6
34.26 0.84
31.60 0.84
34.94 0.82
35.26 0.30
35.56 0.26
39 2 0.7
38.5 0.8
37.7 0.7
37.0 0.6
36.4 0.5
27.60 0.38
27.98 0.88
28.36 0.35
28.71 0.88
29.04 0.80
57.8 0.6
57.2 0.5
56.7 0.4
56.3 0.2
56.1 0.1
48.20 0.82
48.52 0.81
48.83 0.80
49.13 0.28
49.41 0.26
33.9 1.2 ;
32.7 1.3 '
31.4 1.5 1
29.9 1.5
28.4 1.5
16
26
36
35.82 0.23
36.05 0.17
36.22
35.9 0.3
35.6 0.8
35.3
29.34 0.26
29.60 0.20
2r.80
56.0 0.2
56.2 0.2
56.4
49.67 0.22
49.89 0.17
50.06
26.9 1.4 i
25.5 ij 1
24.2
Hon.-
-Biftii«th«S3dori
iarch UM Sidow
ld>y or tiM Month
iMgfatt At th« aidi
nal Oh. ^n^ Um M
iuNoon;
FIXED STARS, 1856.
271
APPABENT PLACES
OP THE
PRINCIPAL FIXED STARS, FOR THE UPPER
TRANSIT AT WASHINGTON.
Sidereal
/f Oeminomm.
(PoUux.)
15 Argus.
• Hjdra. 1
Dayof tba
Month.
Right AMenrion.
1)90, North,
Sight AMeoflkm.
Dte, South,
J)oo, North.
h. m.
7 36
f& 22
h. m.
8 1
23 53
h. m.
8 39
6 66
Jan. 1
30.90 0.17
15.9 0.2
25.59 '0.16
2L0 2.8
9.58 0.21
44.6 1.4
11
31.07 0.14
16.1 0.8
25.75 0.10
23.8 2.7
9.79 0.16
43.2 1.2
21
31.21 0.09
16.4 0.8
25.85 0.05
26.5 2.5
9.95 0.12
42.0 1.0
31
31.30 0.03
16.7 0.7
25.90 0.01
29.0 2.3
10.07 0.07
41.0 0.8
Feb. 10
31.33 0.05
17.4 0.6
25.91 0.06
31.3 2.1
10.14 0.03
40.2 0.6
20
31.28 0.10
18.0 0.7
25.85 0.09
33.4 1.8
10.17 0.04
39.6 0.4
March 1
81.18 0.18
18.7 0.6
25.76 0.18
35.2 1.4
10.13 0.07
89.2 0.2
11
31.05 0.15
19.3 0.6
25.63 0.16
36.6 1.2
10.06 0.09
89.0 0.1
21
80.90 0.17
19.9 0.6
25.47 0.17
37.8 0.7
9.97 0.18
38.9 0.1
31
30.73 0.18
20.4 0.4
25.30 0.18
38.5 0.4
9.84 0.14
39.0 0.2
April 10
30.55 0.17
20.8 0.8
25.12 0.19
38.9 0.1
9.70 0.15
39.2 0.3
20
30.38 0.16
21.1 0.1
24.93 0.1S
39.0 0.4
9.55 0.18
39.5 0.8
80
30.23 0.14
21.2 0.1
24.75 0.16
38.6 0.6
9.42 0.13
39.8 0.5
May 10
30.09 0.11
21.1 0.1
24.59 0.18
38.0 1.1
9.29 0.11
40.3 0.5
20
29.98 0.07
21.0 0.2
24.46 0.11
36.9 1.3
9.18 0.09
40.8 0.5
30
29.91 0.08
20.8 0.8
24.35 0.08
85.6 1.6
9.09 0.06
41.3 0.6
June 9
29.88 0.01
20.5 0.4
24.27 0.05
84.0 1.9
9.03 0.04
41.9 0.6
19
29.89 0.06
20.1 0.5
24.22 0.01
32.1 2.1
8.99 0.01
42.5 0.6
29
29.95 0.09
19.6 0.5
24.21 0.08
30.0 2.2
8.98 0.02
43.1 0.6
July 9
80.04 0.13
19.1 0.6
24.24 0.06
27.8 2.2
9.00 0.04
43.7 0.6
19
30.17 0.16
18.5 0.4
24.30 0.09
25.6 2.8
9.04 0.08
44.3 0.5
29
30.33 0.19
18.1 0.8
24.39 0.12
23.3 2.1
9.12 0.12
44.8 0.4
Aug. 8
30.52 0.22
17.3 0.7
24.51 0.17
21.2 2.0
9.24 0.14
45.2 0.8
18
30.74 0.26
16.6 0.7
24.68 0.18
19.2 1.7
9.38 0.17
45.5 0.1
28
31.00 0.27
15.9 0.8
24.86 0.22
17.5 1.8
9.55 0.19
45.6 0.1
Sept 7
31.27 0.81
15.1 0.8
25.08 0.24
16.2 0.7
9.74 0.21
45.5 0.8
17
31.58 0.81
14.3 0.8
25.32 0.27
15.5 0.4
9.95 0.25
45.2 0.6
27
31.89 0.84
13.5 0.9
25.59 0.80
15.1 0.1
10.20 0.27
44.6 0.8
Oct. 7
32.23 0.85
12.6 0.9
25.89 0.82
15.2 0.6
10.47 0.29
43.8 1.0
17
32.58 0.36
11.7 0.8
26.21 0.82
15.8 1.0
10.76 0.81
42.8 1.2
27
32.94 0.86
10.9 0.8
26.53 0.82
16.8 1.5
11.07 0.88
41.6 1.5
Nov. 6
33.30 0.86
10.1 0.7
26.85 0.88
18.3 1.8
11.40 0.84
40.1 1.5
16
33.66 0.85
9.4 0.7
27.18 0.81
20.1 2.2
11.74 0.88
38.6 1.6
26
34.01 0.82
8.7 0.5
27.49 0.80
22.3 2.5
12.07 0.82
37.0 1.7
Dec. 6
34.33 0.29
8.2 0.8
27.79 0.27
24.8 2.6
12.39 0.80
35.3 1.6
16
34.62 0.27
7.9 0.1
28.06 0.28
27.4 2.7
12.69 0.28
83.7 1.6
26
34.89 0.20
7.8 0.0
28.29 0.18
30.1 2.7
12.97 0.28
32.1 1.5
36
35.09
7.8
28.47
32.8
13.20
30.6
1
an«r the 22d of Much It begins at the Sideml Oh. &e/of« the Mean Noon.
272
FIXED STARS, 1856.
AFPABENT PLACES OF THE
PRINCIPAL FIXED STARS, FOR THE
UPPER
TRANSIT AT WASHINGTON.
8Uln>«l
m/ofth*
MoiKh.
1 UrssD Miyorit.
« Ai^gos.
1
a Htdra j
Right AMMukio.
J)90. North.
Dm South,
Right Aioeiwlon.
Dm South. 1
h. n.
8 49
48 35
9 fs
58 40
h. m
9 20
0 • 1
8 2 '
Jan. 1
11
21
31
Feb. 10
21.06 0.31
21.37 0.25
21.62 0.18
21.80 0.10
21.90 0.05
7L2 0.9
72.1 1.2
73.8 1.4
74.7 1.6
76.3 1.7
15.29 0.27
15.56 0.20
15.76 0.11
15.87 0.05
15.92 0.05
"1.8 8.5
4.8 8.7
8.5 8.7
12.2 8.7
15.9 8.5
31.13 0.23
31.36 0.19
81.55 0.15
31.70 0.10
31.80 0.05
4.2 2.2 1
6.4 2.1
8.5 2.0 1
10.5 1.8 I
12.8 \^ !
20
March 1
11
21
81
21.95 0.04
21.91 0.10
21.81 0.15
21.66 0.19
21.47 0.21
78.0 1.8
79.8 1.7
81.5 1.6
83.1 1.4
84.5 1.2
15.87 0.12
15.75 0.19
15.56 0.25
15.31 0.29
15.02 0.88
19.4 8.3
22.7 8.0
25.7 2.7
28.4 2.3
30.7 1.9
31.85 0.01
31.86 0.04
31.82 0.08
31.74 0.11
31.68 0.12
13.8 1.3 1
15.1 1.1
16.2 0.8 ,
17.0 0.6
17.6 0.3 1
April 10
20
30
May 10
20
21.26 0.28
21.08 0.24
20.79 0.22
20.57 0.19
20.38 0.16
85.7 0.9
86.6 0.5
87.1 0.2
87.8 0.2
87.1 0.5
14.69 0.86
14.88 0.86
18.97 0.36
18.61 0.85
13.26 0.84
82.6 1.4
84.0 0.8
84.8 0.3
85.1 0.2
84.9 0.8
31.51 0.13
31.38 0.14
31.24 0.13
31.11 0.12
30.99 0.11
17.9 0.1
18.0 0.1
17.9 0.8
17.6 0.6
17.0 0.7
80
June 9
19
29
July 9
20.22 0.13
20.09 0.08
20.01 0.06
19.95 0.00
19.95 0.05
86.6 0.8
85.8 1.2
84.6 1.5
83.1 1.7
81.4 1.8
12.92 0.80
12.62 0.27
12.35 0.23
12.12 0.19
11.98 0.18
84.1 1.2
82.9 1.7
31.2 2.1
29.1 2.5
26.6 2.8
30.88 0.08
30.80 0.07
30.78 0.05
30.68 0.02
30.66 0.01
16.3 0.8
15.5 1.0
14.5 1.1
13.4 1.2
12.2 1.2 '
19
29
Aug. 8
18
28
20.00 0.10
20.10 0.14
20J24 0.18
20.42 0.28
20.65 0.26
79.6 1.9
77.7 2.0
75.7 2.2
73.5 2.2
71.8 S.2
11.80 0.07
11.73 0.00
11.78 0.06
11.79 0.12
11.91 0.19
23.8 8.0
20.8 8.1
17.7 8.0
14.7 2.9
11.8 2.6
80.67 0.03
30.70 0.06
30.76 0.08
30.84 0.12
30.96 0.16
11.0 1.3 1
9.7 1.1
a6 1.0 '
7.6 0.9
6.7 0.6 i
Sept 7
17
27
Oct. 7
17
20.91 0.81
21.22 0.36
21.58 0.87
21.95 0.41
22.86 0.44
69.1 2.1
67.0 2.0
65.0 2.0
68.0 1.8
61.2 1.5
12.10 0.27
12.37 0.82
12.69 0.88
18.07 0.44
18.51 0.46
9.2 2.2
7.0 1.8
5.2 1.3
8.9 0.7
8.2 0.1
31.12 0.18
81.80 0.21
31.51 0.24
81.75 0.27
32.02 0.29
6.1 0.4 ;
5.7 0.0 !
5.7 0.4 1
6.1 0.6 !
6.7 1.0 1
27
Nov. 6
16
i 26
1 Dec. 6
22.80 0.47
23.27 0.47
23.74 0.47
24.21 0.46
24.67 0.43
59.7 1.8
58.4 1.1
57.8 0.7
56.6 0.4
56J2 0.0
18.97 0.49
14.46 0.60
14.96 0.51
15.47 0.48
15.95 0.48
8.1 0.5
3.6 1.8
4.9 1.8
6.7 2.8
9.0 2.8
32.81 0.81
82.62 0.83
82.95 0.34
88.29 0.32
88.61 0.32
7.7 1.4 1
9.1 1.7 1
10.8 1.9 1
12.7 2.0 j
14.7 2.2 !
16
26
86
25.10 0.40
25.50 0.35
25.85
56.2 0.8
56.5 0.6
57.1
16.88 0.40
16.78 0.82
17.10
11.8 8.2
15.0 8.4
18.4
38.98 0.80
84.23 0.26
34.49
16.9 2.3
19.2 2.1 1
21.4
Noti.-
•]Mbi«tlM9dori
IwditteSidmi
i4^r«rtiMifooth
lM«lM at tlM 8ldi
fmX(»x.^/itrfhollb
■ttilfoao;
FIXED STARS, 1856.
273
APPARENT PLACES
OF THE
PRINCIPAL FIXED STARS, FOR THE UPPER
TRANSIT AT WASHINGTON.
BidexMl
& UruB Majoris.
• Leonis.
a Leonis.
{liegulus.)
Day of the
Month.
RIChtAjonuioa.
Dit.Nor«k.
Bight iMnuion.
Deo. North.
Rlfht AmohiIoii.
Dec. North.
k m.
O f
h. m.
O 1
h. m.
O 1
9 23
52 19
9 37
24 25
10 0
12 39
Jaa. 1
13.50 0^87
45.7 0.8
40.92 0.29
65.9 0.6
42.39 0.29
7L0 1.8
11
13.67 0.S2
46.5 1.1
41.21 0.24
65.3 0.4
42.68 0.24
69.7 1.2
21
14.19 0.2S
47.6 1.8
41.45 0.19
64.9 0.2
42.92 0.19
68.5 1.0
31
14.42 0.16
48.9 1.6
41.64 0.14
64.7 0.0
43.11 0.16
67.5 0,7
Feb. 10
14.58 0.07
50.5 1.9
41.78 0.08
64.7 0.8
43.27 0.11
66.8 0.4
20
14.65 0.01
52.4 2.2
41.86 0.04
65.0 0.6
43.38 0.05
66.4 0.2
Much 1
14.66 0.07
54.6 2.1
41.90 0.02
65.6 0.7
43.43 0.01
66.2 0.1
11
14.59 0.13
56.7 1.8
41.88 0.06
66.3 0.8
43.44 0.04
66.3 0.2
21
14.46 0.18
58.5 1.7
41.82 0.09
67.1 0.8
43.40 0.07
66.5 0.4
31
14.28 0.22
60.2 1.6
41.73 0.12
67.9 0.9
43.33 0.09
66.9 0.4
April 10
14.06 0.24
61.8 1.2
41.61 0.18
68.8 0.8
43.24 0.11
67.3 0.6
20
13.82 0.24
63.0 0.8
41.48 0.18
69.6 0.8
43.13 0.12
67.8 ao
30
13.58 0.26
63.8 0.4
41.85 0.15
70.4 0.6
43.01 0.12
68.4 0.6
May 10
13.33 0.23
64.2 0.2
41.20 0.18
71.0 0.5
42.89 0.12
69.0 0.6
20
13.10 0.22
64.4 0.8
41.07 0.12
71.5 0.8
42.77 0.11
69.6 0.5
30
12.88 0.18
64.1 0.8
40.95 0.09
71.8 0.2
42.66 0.09
70.1 0.5
June 9
12.70 0.13
63.3 1.1
40.86 0.08
72.0 0.0
42.57 0.08
70.6 0.4
19
12.57 0.09
62.2 1.4
40.78 0.05
72.0 0.1
42.49 0.07
71.0 0.4
29
12.48 0.06
60.8 1.7
40.73 0.04
71.9 0.2
42.42 0.04
71.4 0.8
July 9
12.42 0.01
59.1 1.9
40.69 0.02
71,7 0.5
42.38 0.01
71.7 O.l
19
12.41 0.04
67.2 2.2
40.71 0.08
71.2 0.7
42.37 0.01
71.8 0.0
29
12.45 0.09
55.0 2.8
40.74 0.06
70.5 0.8
42.38 0.08
71.8 0.1
Aug. 8
12.54 0.14
52.7 2.6
40.80 0.09
69.7 0.9
42.41 0.O7
71.7 0.8
18
12.68 0.19
50.2 2.6
40.89 0.12
68.8 1.1
42.48 0.09
71.4 0.5
28
12.87 0.22
47.6 2.6
41.01 0.16
67.7 1.8
42.57 0.12
70.9 0.6
Sept 7
13.09 0.28
45.0 2.5
41.17 0.19
66.4 1.4
42.69 0.15
70.3 0.8
, 17
13.37 0.82
42.5 2.5
41.36 0.21
65.0 1.5
42.84 0.18
69.5 1.0
27
13.69 0.36
40.0 2.4
41.57 0.25
63.5 1.6
43.02 0.21
68.5 1.2
Oct. 7
14.05 0.41
87.6 2.2
41.82 0.30
61.9 1.7
43.23 0.26
67.3 1.5
17
14.46 0.46
35.4 2.0
42.12 0.80
60.2 1.9
43.49 0.28
65.8 1.7
27
14.91 0.48
33.4 1.7
42.42 0.84
58.3 1.8
43.77 0.80
64.1 1.8
Nov. 6
15.39 0.49
31.7 1.4
42.76 0.86
56.5 1.7
44.07 0.84
62.3 1.8
16
15.88 0.50
30.3 1.1
43.12 0.86
54.8 1.6
44.41 0.84
60.5 1.9
26
16.38 0.49
29.2 0.7
43.48 0.86
53.2 1.6
44.75 0.84
58.6 1.9
Dec. 6
16.87 0.49
28.5 0.2
43.84 0.86
51.6 1.4
45.09 0.84
56.7 1.8
16
17.36 0.46
28.3 0.0
44.20 0.85
50.2 1.2
45.43 0.84
54.9 1.7
26
17.81 0.41
28.3 0.4
44.55 0.80
49.0 0.9
45.77 0.29
53.2 1.5
36
18.22
28.7
44.85
48.1
46.06
51.7
after th)
> 2ad of March It
beghuattheSldere
BlOh.6e/0reth6l
IfeanNoon.
35
274
FIXED STARS, 1856.
APPARENT PLACES OF THE
PRINCIPAL FIXED STARS, FOR THE
1
UPPER
TRANSIT AT WASHINGTON.
8id«rMl
1} At^qs.
a Vmx Majoris.
i Lcoms. 1
Dftjof Um
Mouth.
Rlghl AflCOQckm.
J>0ii. South,
Right Aflccnf km.
Dee. iVortA.
Right Amorion.
Dee. JVbrti.
h. m.
O 1
h. m.
O 1
h. n.
O 1
10 39
58 55
10 54
62 31
11 6
21 18
Jan. 1
29.21 0.42
20.3 8.0
49.91 0.58
2^.8 0.2
1. 1.
26.92 0.84
^.8 1.4
11
29.63 0.36
23.3 8.8
50.49 0.51
26.5 0.7
27.26 0.81
38.4 l.l
21
29.99 0.29
26.6 3.6
51.00 0.45
27.2 1.8
27.57 0.26
37.3 0.8
31
30.28 0.21
30.2 8.7
51.45 OM
28.5 1.7
27.83 0.22
36.5 0.4
Feb. 10
30.49 0.13
33.9 8.7
51.81 0.27
30.2 2.0
28.05 0.18
86.1 0.1
20
30.62 0.06
37.6 8.7
52.08 0.16
32.2 2.8
28.23 0.18
36.2 0.1
March 1
30.68 0.02
41.3 8.5
52.24 0.08
34.5 2.6
28.36 0.07
36.8 0.4
11
30.66 0.08
44.8 8.4
52.32 0.01
37.0 2.7
28.43 0.03
36.7 0.8
21
30.58 0.14
48.2 8.1
52.31 0.11
39.7 2.6
28.46 0.01
87.5 0.9
31
30.44 0.19
51.3 S.8
52.20 0.18
42.3 2.8
28.45 0.04
88.4 0.9
April 10
30.25 0.24
54.1 2.8
52.02 0.28
44.6 2.1
28.41 0.06
89.8 1.0
20
30.01 0.27
56.4 2.0
51.79 0.29
46.7 2.0
28.33 0.09
40.3 l.l
30
29.74 0.29
58.4 1.5
51.50 0.81
48.7 1.5
28.24 0.09
41.4 1.0
May 10
29.45 0.31
59.9 1.0
51.19 0.88
50.2 1.0
28.15 0.11
42.4 0.9
20
29.14 0.82
60.9 0.5
50.86 0.84
51.2 0.4
28.04 0.12
43.8 0.7
30
28.82 0.82
61.4 0.0
50.52 0.82
51.6 0.0
27.92 0.12
44.0 0.7
June 9
28.50 0.80
61.4 0.5
50.20 0.31
51.6 0.4
27.80 0.10
44.7 0.4
19
28.20 0.29
60.9 1.1
49.89 0.28
51.2 1.0
27.70 0.10
45.1 0,1
29
27.91 0.28
59.8 1.6
49.61 0.24
50.2 1.5
27.60 0.08
45,8 0,1
July 9
27.63 0.22
58.2 2.0
49.37 0.20
48,7 2.0
27.52 0.06
45.4 0,1
19
27.41 0.19
56.2 2.8
49.17 0.16
46.7 2.S
27.46 0.05
45J2 0,4
29
27.22 0.14
53.9 2.6
49.01 0.11
44.4 2.6
27.41 0.02
44.8 0.6
Aug. 8
27.08 0.08
51.3 2.8
48.90 0.03
41.8 2.8
27.39 0.00
44.3 0,8
18
27.00 0.02
48.5 2.9
48.87 0.01
39.0 8.1
27.39 0.02
48.4 l.l
28
26.98 0.04
45.6 2.8
48.88 0.08
35.9 8.8
27.41 0.04
42.8 1,1
Sept 7
27.02 0.11
42.8 2.6
48.96 0.16
32.6 8.4
27.45 0.09
41,1 1,5
17
27.13 0.19
40.2 2.4
49.12 0.21
29.2 3.4
27.54 0.18
89.6 1.7
27
27.32 0.28
37.8 2.1
49.33 0.28
25.8 8.8
27.67 0.16
37.9 13
Oct. 7
27.60 0.85
35.7 1.6
49.61 0.86
22.5 8.8
27.83 0.20
36.0 2.0
17
27.95 0.41
34.1 1.0
49.97 0.42
19.2 8.0
28.03 0.24
34.0 2.0
27
28.36 0.45
33.1 0.4
50.39 0.49
16.2 2.9
28.27 0.28
32.0 2.2 '
Nov. 6
28.81 0.50
32.7 0.0
50.88 0.54
13.3 2.5
28.55 0.82
29.8 2J
16
29.31 0.68
32.7 0.8
51.42 0.59
10.8 2.1
28.87 0.84
27.5 1,8
26
29.84 0.58
33.5 1.8
52.01 0.61
8.7 1.6
29.21 0.85
25.2 2.1
Dec. 6
30.37 0.52
34.8 1.8
52.62 0.62
7.1 l.l
29.56 0.86
23,1 2.0
16
30.89 0.50
36.6 2.4
53.24 0.62
6.0 0,7
29.92 0.87
21.1 1.8
26
31.39 0.46
39.0 2.8
53.86 0.60
5.8 0.1
30.29 0.85
19.8 13
36
31.85
41.8
54.46
5.2
30.64
17.8
Nora.-
- Bcfor* Um 2ad Of
Jd^ofthoMooth
lM(lll.MtlM8i<h
ttmX Oh. ^fitr the Ifi
mbHmb;
FIXED STARS, 1856.
275
APPARENT PLACES
OF THE
PRINCIPAL FIXED STARS, FOR THE UPPER
TRANSIT AT WASHINGTON.
BdeiMl
S Hydra et Crateris.
p Lbokis.
Y Ursje ALuj oris.
MoDth.
Dm. AwO.
Dec. North,
Right A«oenBkm.
Dee. North,
h m.
O 1
h. m.
O 1
h. m.
O 1
11 12
13 59
11 41
15 22
11 46
54 29
Jan. 1
8.50 0.82
N N
51.7 2.5
f. 1.
42.65 0.34
M M
34.2 1.7
14.89 0.51
29.7 0.6
11
8.82 0.29
54.2 2.4
42.99 0.82
32.5 1.5
15.40 0.47
29.1 0.1
21
9.11 0.24
56.6 2.8
43.31 0.28
31.0 1.2
15.87 0.42
29.0 0.6
81
9.35 0.21
58.9 2.8
43.59^ 0.24
29.8 0.8
16.29 0.86
29.5 0.9
Feb. 10
9.56 0.17
61.2 2.1
43.83 0.20
29.0 0.6
16.65 0.80
30.4 1.4
ao
9.73 0.12
63.3 1.8
44.03 0.16
28.4 0.4
16.95 0.23
31.8 1.7
March 1
9.85 0.07
65.1 1.6
44.19 0.10
28.0 0.2
17.18 0.15
38.5 2.1
11
9.92 0.02
66.7 1.4
44.29 0.06
28.2 0.5
17.33 0.08
85.6 2.4
21
9.94 0.00
68.1 1.1
44.35 0.04
28.7 0.6
17.41 0.02
88.0 2.S
81
9.94 0.04
69.2 0.8
44.39 0.01
29.3 0.7
17.43 0.06
40.5 2.4
April 10
9.90 0.07
70.0 0.6
44.38 0.04
80.0 0.9
17.37 0.11
42.9 2.4
20
9.83 0.08
70.6 0.5
44.34 0.06
30.9 0.9
17.26 0.15
45.3 2.2
80
9.75 0.08
71.1 0.8
44.28 0.08
31.8 1.0
17.11 0.19
47.5 1.9
Mar 10
9.67 0.10
71.4 0.1
44.20 0.09
32.8 0.9
16.92 0.22
49.4 1.6
20
9.57 o.n
71.5 0.8
44.11 0.10
33.7 0.9
16.70 0.23
51.0 1.8
80
9.46 0.11
71.2 0.5
44.01 0.10
* 34.6 0.7
16.47 0.24
52.8 0.6
June 9
9.35 0.10
70.7 0.6
43.91 0.10
35.3 0.6
16.23 0.25
52.9 0.8
19
9.25 0.10
70.1 0.8
43.81 0.10
35.9 0.5
15.98 0.23
53.2 0.8
29
9.15 0.09
69.3 1.0
43.71 0.09
36.4 0.3
15.75 0.23
52.9 0.7
July 9
9.06 0.07
68.3 1.2
43.62 0.09
36.7 0.1
15.52 0.21
52.2 1.2
19
8.99 0.06
67.1 1.2
43.53 0.07
36.8 0.1
15.31 0.17
51.0 1.6
29
8.93 0.05
65.9 1.1
43.46 0.06
36.7 0.2
15.14 0.14
49.4 2.0
Aug. 8
8.88 0.04
64.8 1.1
43.40 0.03
36.5 0.5
15.00 0.10
47.4 2.4
18
8.84 0.03
63.7 1.0
43.37 0.01
36.0 0.7
14.90 0.05
45.0 2.6
28
8.87 0.05
62.7 0.8
43.36 0.01
35.3 0.9
14.85 0.01
42.4 2.9
Sept 7
8.92 0.07
61.9 0.7
43.37 0.05
34.4 1.1
14.84 0.02
39.5 8.1
17
8.99 0.10
61.2 0.4
43.42 0.08
33.3 1.4
14.86 0.09
36.4 8.8
27
9.09 0.15
60.8 0.1
43.50 0.12
31.9 1.6
14.95 0.15
33.1 8.4
Oct 7
9.24 0.20
60.7 0.4
43.62 0.16
30.3 1.8
15.10 0.21
29.7 8.4
17
9.44 0.23
61.1 0.6
43.78 0.20
28.5 2.0
15.31 0.27
26.8 8.8
27
9.67 0.26
61.7 0.9
43.98 0.24
26.5 2.1
15.58 0.88
28.0 8.2
Nov. 6
9.93 0.31
62.6 1.4
44.22 0.28
24.4 2.3
15.91 0.38
19.8 3.1
16
10.24 0.82
64.0 1.6
44.50 0.31
22.1 2.8
16.29 0.44
16.7 2.7
26
10.56 0.84
65.6 1.9
44.81 0.34
19.8 2.2
16.73 0.48
14.0 2.4
Dec 6
10.90 0.86
67.5 2.1
45.15 0.85
17.6 2.2
17.21 0.50
11.6 2.1
16
11.26 0.86
69.6 2.8
45.50 0.86
15.4 2.1
17.71 0.51
9.5 1.8
26
11.62 0.82
71.9 2.8
45.86 0.35
13.3 1.9
18.22 0.51
8.2 0.9
86
11.94
74.2
46.21
11.4
18.73
7.8
after Um
>2adof Maiehlt
beghiB at the Sidm
alOh.6«/or«tbt]
Mean Noon.
276
FIXED STARS, 1856.
APFAEENT PLACES OF THE
PRINCIPAL FIXED STARS, FOR THE
UPPER
TBANSIT AT WASHINGTON.
BIdMMl
p Chamieleoiitis.
o> Cnicifl.
p Corvi
Dtjof tbt
Month.
Dm. Ami*.
Dm. SMilft.
Rlghl JkMtiMlon.
Dm. AmU.
b. m.
O 1
h. m.
O 1
b. m.
O 1
12 9
78 30
12 18
62 17
12 26
22 35
Jan. 1
57.23 r.l7
Ao iJB
35.85 0.57
40.3 2.1
49.06 0.35
50.7 Vs
11
58.40 1.09
24.8 2.8
36.42 0.55
42.4 2Ji
49.41 0.84
53.9 S3
21
59.49 0.97
27.1 2.7
36.97 0.50
44.9 2.9
49.75 0.82
55.2 su
81
60.46 0.83
29.8 8.1
37.47 0.42
47.8 8.1
50.07 0.27
57.6 2.6
Feb. 10
61.29 0.67
32.9 8.6
37.89 0.86
50.9 8.4
50.34 0.28
60.1 SJ
90
61.96 0.52
36.6 8.7
38.25 0.29
54.3 8.4
50.57 0.20
63.4 2.S
Match 1
62.48 0.86
40.2 8.7
38.54 0.21
57.7 ZJi
50.77 0.16
64.6 S.1
11
62.83 0.18
43.9 8.9
38.75 0.12
61.2 8.4
50.93 0.12
66.7 IS
31
63.01 0.02
47.8 8.9
38.87 0.05
64.6 8.4
51.05 0.07
68.6 1.6
81
63.03 0.15
51.7 8.7
38.92 0.02
68.0 8.1
51.12 0.08
70.3 IJ
April 10
62.88 0.80
55.4 8.6
38.94 0.06
71.1 2.9
51.15 0.02
71.7 IJ
20
62.58 0.42
59.0 8.8
38.88 0.12
74.0 2.6
51.17 0.02
73.0 1.0
80
62.16 0.55
62.3 2.9
38.76 0.17
76.6 2.8
51.15 0.05
74.0 0.7
May 10
61.61 0.68
65.2 2.6
38.59 0.22
78.9 1.9
51.10 0.06
74.7 0.6
20
60.93 a77
67.8 2.1
38.37 0.26
80.8 1.5
51.04 0.08
75.8 0.S
80
60.16 0.84
69.9 1.7
38.11 0.29
82.3 1.1
50.96 0.09
75.6 0.0
June 9
59.32 0.89
71.6 1.1
37.82 0.81
83.4 0.5
50.87 0.10
75.6 M
19
58.43 0.93
72.7 0.5
37.51 0.83
83.9 0.1
50.77 0.11
75.4 0.4
29
57.50 0.94
73.2 0.1
37.18 0.84
84.0 0.5
50.66 0.11
75.0 0.6
July 9
56.56 0.93
73.1 0.7
36.84 0.83
83.5 0.9
50.55 0.11
74.4 0.8
19
55.63 0.87
72.4 1.8
36.51 0.82
82.6 1.4
50.44 0.11
73.6 1.0
29
54.76 0.79
71,1 1.7
36.19 0.80
81.2 1.8
50.33 0.10
73.6 i.«
Aug. 8
53.97 0.70
69.4 2.8
35.89 0.25
79.4 2.1
50.23 0.09
71.4 u
18
53.27 0.55
67.1 2.5
35.64 0.21
77.3 2.8
50.14 0.07
70J2 1.1
28
52.72 0.89
64.6 2.7
35.43 0.14
75.0 2.5
50.07 0.08
69.1 1.1
Sept 7
52.83 0.19
61.9 2.9
35.29 0.06
72.5 2.6
50.04 0.00
68.0 1.1
17
52.14 0.01
59.0 8.1
35.23 0.02
69.9 2.5
50.04 0.02
66.9 OS
27
52.13 0.18
55.9 2.9
35.25 0.10
67.4 2.4
50.06 0.07
66.0 0.7
Oct 7
52.31 0.41
53.0 2.8
35.35 0.20
65.0 2.1
50.13 0.18
65.8 0.7
17
52.72 0.60
50J2 2.8
35.55 0.28
62.9 1.7
50.26 0.17
64.6 0.S
27
53.32 0.81
47.9 2.0
35.88 0.88
61.2 1.8
50.48 0.22
64.8 0.»
Nov. 6
54.13 0.94
45.9 1.4
36.21 0.45
59.9 0.8
50.65 0.26
64.8 1.0 1
16
55.07 1.09
44.5 1.0
36.66 0.50
59.1 0.8
50.91 0.80
65.8 1.0
26
56.16 1.18
43.5 0.8
37.16 0.58
58.8 0.8
51.21 0.84
66.8 IS
Dec. 6
57.34 1.22
43.2 0.8
37.74 0.61
59.1 0.8
51.55 0.86
68.1 1.7
16
58.56 1.26
43.5 0.9
38.35 0.60
59.9 1.4
51.91 0.87
69.8 2.0
26
59.82 1.20
44.4 1.4
38.95 0.60
61.3 1.9
52.28 0.86
71.8 S.1
86
61.02
45.8
39.55
63.2
52.64
78.9
Hon.—
• Btlbi«UM2Mi€]
iM«kttM8idM«
id^jroryMiiMtiii
b^iHatyMaidi
aMlOh.^l>rttMl&
■altaai
•
FIXED STARS, 1856.
277
APPARENT PLACES
OF THE
PRINCIPAL FIXED STARS, FOR THE UPPER
TRANSIT AT WASHINGTON.
Sldexwl
D»jof the
12 Canam Yenaticonim.
a YiROiiris.
{Spica.)
17 Uhsjb Majoru.
Right A«O0Dfkm.
D90. North.
Bight Ajoendon.
Dtc. South,
Right ABoenskm.
Deo. North,
h m.
12 49
O 1
39 5
h. m.
13 17
lb 24
h. m.
13 41
0 1
60 1
Jan. 1
11
21
31
Feb. 10
16.90 0.41
17.31 0.41
17.72 0.37
18.09 0.88
18.42 0.80
36.8 1.9
34.9 1.2
33.7 0.6
33.1 0.8
32.8 0.8
35.83 0.85
36.18 0.84
36.52 0.83
36.85 0.29
37.14 0.27
27.5 2.1
29.6 2.1
31.7 2.0
33.7 1.9
35.6 1.8
51.27 0.45
51.72 0.45
52.17 0.45
52.62 0.42
53.04 0.88
43.5 2.0
41.5 1.4
40.1 0.9
39.2 0.8
38.9 0.4
20
March 1
11
21
31
18.72 0.25
18.97 0.20
19.17 0.15
19.32 0.09
19.41 0.05
33.1 0.7
33.8 1.2
35.0 1.5
36.5 1.9
38.4 2.0
37.41 0.28
37.64 0.21
37.85 0.17
38.02 0.12
38.14 0.09
37.4 1.6
39.0 1.8
40.3 1.1
41.4 1.0
42.4 0.7
53.42 0.86
53.77 0.29
54.06 0.23
54.29 0.18
54.47 0.12
39.3 1.0
40.3 1.4
41.7 1.9
43.6 2.8
45.9 2.5
April 10
20
30
May 10
20
19.46 0.08
19.49 0.05
19.44 0.07
19.37 0.09
19.28 0.12
40.4 2.1
42.5 2.2
44.7 2.1
46.8 1.9
48.7 1.6
38.23 0.07
38.30 0.08
38.33 0.01
38.34 0.02
38.32 0.08
43.1 0.5
43.6 0.3
43.9 0.2
44.1 0.0
44.1 0.2
54.59 0.06
54.65 0.01
54.66 0.04
54.62 0.08
54.54 0.18
48.4 2.6
51.0 2.6
53.6 2.6
56.2 2.4
58.6 2.1
80
June 9
19
29
July 9
19.16 0.18
19.03 0.15
18.88 0.16
18.72 0.16
18.56 0.16
50.3 1.4
51.7 1.1
52.8 0.7
53.5 0.1
53.6 0.0
38.29 0.06
38.23 0.07
38.16 0.09
38.07 0.10
37.97 0.10
43.9 0.8
43.6 0.4
43.2 0.4
42.8 0.5
42.3 0.6
54.41 0.15
54.26 0.18
54.08 0.21
53.87 0.22
53.65 0.23
60.7 1.8
62.5 1.4
63.9 1.3
65.0 0.6
65.6 0.2
19
29
Aug. 8
18
28
18.40 0.15
18.25 0.14
18.11 0.18
17.98 0.11
17.87 0.07
53.6 0.6
53.0 0.9
52.1 1.8
50.8 1.8
49.0 2.1
37.87 0.11
37.76 0.11
37.65 0.10
37.55 0.09
37.46 0.08
41.7 0.6
41.1 0.7
40.4 0.6
39.8 0.5
39.3 0.5
53.42 0.25
53.17 0.23
52.94 0.22
52.72 0.21
52.51 0.19
65.8 0.4
65.4 0.8
64.6 1.3
63.3 1.7
61.6 2.1
Sept 7
17
27
Oct 7
17
17.80 0.04
17.76 0.01
17.75 0.02
17.77 0.09
17.86 0.15
46.9 2.2
44.7 2.6
42.1 2.8
39.3 8.0
36.3 8.1
37.38 0.04
37.34 0.01
37.33 0.02
37.35 0.06
37.41 0.11
38.8 0.3
38.5 0.1
38.4 0.0
38.4 0.2
38.6 0.6
52.32 0.14
52.18 0.11
52.07 0.07
52.00 0.01
52.01 0.06
59.5 2.5
57.0 2.9
54.1 8.1
51.0 8.8
47.7 8.5
27
Nov. 6
16
26
Dec. 6
18.01 0.20
18.21 0.23
18.44 0.29
18.73 0.33
19.06 0.38
33.2 8.2
30.0 8.2
26.8 8.0
23.8 2.9
20.9 2.7
37.52 0.16
37.68 0.21
37.89 0.26
38.15 0.80
38.45 0.82
39.2 0.8
40.0 1.0
41.0 1.4
42.4 1.6
44.0 1.8
52.07 0.12
52.19 0.18
52.37 0.24
52.61 0.32
52.93 0.88
44.2 8.6
40.6 8.6
37.0 8.5
33.5 3.8
30.2 8.0
16
26
36
19.44 0.41
19.85 0.40
20.25
18.2 2.3
15.9 1.9
14.0
38.77 0.84
39.11 0.84
39.45
45.8 1.9
47.7 2.0
49.7
53.31 0.41
53.72 0.44
54.16
27.2 2.7
24.5 2.8
22.2
aftwth«2adofHuohltb«gi]iiattlieSldm^0li.6e/(»«ttMMeulfooi^ 1
278
FIXED STARS, 1856.
APPARENT PLACES OF THE
1
PRINCIPAL FIXED STARS, FOR TH? UPPER
TBANSIT AT WASHINGTON.
1
I
Sidenal
lyBootU.
p Centaari.
1
a BooTis.
{Arcturut,) ,
D»7 of the
Month.
1
Right AMendon.
Dtc. North,
Right Aflcenf Son.
Dee. South,
Right AaeeMioii.
Dee. JVbrt4. ,
h. m.
O 1
h. m.
O 1
h. m.
0 1
13 47
19 6
13 53
59 40
14 9
19 55 1
Jan. 1
f. 1.
48.96 0.84
68.3 2.2
39.80 0.58
16.8 0.8
4.77 0.34
53.5 2.4 ,
11
49.30 0.35
66.1 1.9
40.38 0.59
17.6 1.8
5.11 0.85
51.1 2.1 1
21
49.65 0.84
64.2 1.6
40.97 0.56
18.9 1.7
5.46 0.85
49.0 1.7
31
49.99 0.82
62.6 1.2
41.53 0.58
20.6 2.1
5.81 0.82
47.3 1.8
Feb. 10
50.31 0.80
61.4 0.8
42.06 0.50
22.7 2.4
6.13 0.80
46.0 0.9
20
50.61 0.26
60.6 0.4
42.56 0.44
25.1 2.7
6.43 0.27
45.1 0.5
March 1
50.87 0.22
60.2 0.0
43.00 0.89
27.8 2.9
6.70 0.24
44.6 OJO 1
11
51.09 0.20
60.2 0.4
43.39 0.34
30.7 8.0
6.94 0.20
44.6 0.S 1
21
51.29 0.15
60.6 0.8
43.73 0.26
33.7 8.1
7.14 0.18
44.9 0.7 1
31
51.44 0.12
61.4 1.0
43.99 0.21
36.8 3.1
7.32 0.14
45.6 1.0 1
April 10
51.56 0.08
62.4 1.2
44.20 0.16
39.9 8.1
7.46 0.10
46.6 l.sr
20
51.64 0.05
63.6 1.4
44.36 0.08
43.0 8.0
7.56 0.06
47.9 1.8
30
51.69 0.02
65.0 1.5
44.44 0.04
46.0 2.8
7.62 0.04
49.4 1.6 ,
May 10
51.71 0.00
66.5 1.6
44.48 0.03
48.8 2.5
7.66 0.02
50.9 1.6 1
20
51.71 0.04
68.1 1.5
44.45 0.08
51.3 2.8
7.68 0.03
52.5 1.6
30
51.67 0.06
69.6 1.4
44.37 0.18
53.6 2.0
7.65 0.05
54.1 1.5 ■
June 9
51.62 0.08
71.0 1.2
44.24 0.17
55.6 1.6
7.60 0.06
55.6 ij
19
51.54 0.09
72.2 1.0
44.07 0.21
57.2 1.2
7.54 0.09
56.9 1.1 !
29
51.45 0.11
73.2 0.8
43.86 0.25
58.4 0.8
7.45 0.11
58.0 0.9
July 9
51.34 0.12
74.0 0.6
43.61 0.30
59.2 0.8
7.34 0.12
58.9 0.6 1
19
51.22 0.13
74.6 0.3
43.31 0.81
59.5 0.2
7.22 0.18
59.5 0.4 !
29
51.09 0.12
74.9 0.0
43.00 0.82
59.3 0.6
7.09 0.14
59.9 0.1
Aug. 8
50.97 0.12
74.9 0.8
42.68 0.29
58.7 1.1
6.95 0.14
59.8 0.2
18
50.85 0.12
74.6 0.6
42.39 0.28
57.6 1.6
6.81 0.14
59.6 0.5 I
28
50.73 0.10
74.0 0.9
42.11 0.26
56.0 1.8
6.67 0.12
59.1 0.8 '
Sept. 7
50.63 0.08
73.1 1.1
41.85 0.19
54.2 2.0
6.55 0.10
58.3 1.2 1
17
50.55 0.07
72.0 1.4
41.66 0.15
52.2 2.2
6.45 0.09
57.1 1.5
27
50.48 0.01
70.6 1.8
41.51 0.07
50.0 2.5
6.36 0.03
55.6 1.7
Oct. 7
50.47 0.01
68.8 2.0
41.44 0.02
47.5 2.4
6.33 0.00
53.9 2.0
17
50.48 0.08
66.8 2.2
41.46 0.11
45.1 2.2
6.33 0.04
51.9 2.8 1
27
50.56 0.12
64.6 2.4
41.57 0.20
42.9 2.0
6.37 0.10
49.6 2.5
Nov. 6
50.68 0.17
62.2 2.5
41.77 0.29
40.9 1.7
6.47 0.16
47.1 2.6
16
50.85 0.22
59.7 2.7
42.06 0.37
39.2 1.8
6.62 0.19
44.5 2.7
26
51.07 0.26
57.0 2.8
42.43 0.45
37.9 0.9
6.81 0.23
41.8 2.8
Dec. 6
51.33 0.30
54.2 2.6
42.88 0.51
37.0 0.4
7.04 0.28
39.0 2.7
16
51.63 0.32
51.6 2.4
43.39 0.55
36.6 0.0
7.32 0.32
36.3 2.6
26
51.95 0.84
49.3 2.8
43.94 0.58
36.6 0.6
7.64 0.33
33.7 2.5
36
52.29
46.9
44.52
37.2
7.97
31.2
Non.—
•Before the 22d of!
tf arch the SIdeni
1 day of the Month
begin! at the Side
rial Oh. t^Ur the U
■uiN«m;
FIXED STARS, 1856.
279
1 APPARENT PLACES
OF THE
PRINCIPAL FIXED STARS, FOR THE UPPER
TRANSIT AT WASHTNGTON.
autmi
o« Centaori.
• BOOTIS.
a* Libra
DajrartlM
MoDth.
Rifl^t Afloendon.
J>€C. South.
Right A«een>km.
Jhc. North,
V^. South,
h. m.
O 1
h. m.
O 1
h. m.
o t
14 29
60 13
14 38
27 40
14 42
15 26
Jan. I
49.21 0.58
II II
55.5 0.3
40.85 0.34
M H
48.6 2.5
53.74 0.34
25.6 '1.6
11
49.79 0.68
55.8 0.8
41.19 0.85
46.1 2.1
54.08 0.36
27.2 1.7
21
50.37 0.57
56.6 1.2
41.54 0.36
44.0 1.7
54.44 0.35
28.9 1.7
31
50.94 0.56
57.8 1.6
41.90 0.34
42.3 1.4
54.79 0.32
30.6 1.6
Feb. 10
51.50 0.53
59.4 1.9
42.24 0.32
40.9 0.8
55.11 0.31
32.2 1.6
20
52.03 0.50
61.3 2.2
42.56 0.80
40.1 0.8
55.42 0.80
33.8 1.5
March 1
52.53 0.45
63.5 2.5
42.86 0.29
39.8 0.2
55.72 0.27
35.3 1.8
11
52.98 0.88
66.0 2.7
43.15 0.24
40.0 0.6
55.99 0.24
36.6 1.2
21
53.36 0.84
68.7 2.8
43.39 0.20
40.6 1.1
56.23 0.21
37.8 1.0
31
53.70 0.27
71.5 2.9
43.59 0.18
41.7 1.4
56.44 0.19
38.8 0.8
April 10
53.97 0.22
. 74.4 2.9
43.77 0.13
43.1 1.7
56.63 0.16
39.6 0.6
20
54.19 0.16
77.3 2.9
43.90 0.09
44.8 1.9
56.79 0.12
40.2 0.5
30
54.35 0.10
80.2 2.7
43.99 0.06
46.7 2.1
56.91 0.09
40.7 0.8
May 10
51.45 0.03
82.9 2.6
44.05 0.03
48.8 2.1
57.00 0.06
41.0 0.2
20
54.48 0.03
85.5 2.5
44.08 0.00
50.9 2.0
57.06 0.04
41.2 0.1
30
54.45 0.08
88.0 2.8
44.08 0.03
52.9 2.0
57.10 0.01
41.3 0.0
June 9
54.37 0.13
90.3 1.9
44.05 0.06
54.9 1.7
57.11 0.02
41.3 0.1
19
54.24 0.20
92.2 1.5
43.99 0.09
56.6 1.5
57.09 0.05
41.2 0.2
29
54.04 0.24
93.7 1.1
43.90 0.12
58.1 1.2
57.04 0.07
41.0 0.8
July 9
53.80 0.28
94.8 0.6
43.78 0.13
59.3 0.7
56.97 0.09
40.7 0.3
19
53.52 0.31
95.4 0.4
43.65 0.15
60.0 0.8
56.88 0.11
40.4 0.4
29
53.21 0.33
95.8 0.4
43.50 0.15
60.8 0.2
56.77 0.14
40.0 0.4
Aug. 8
52,88 0.34
95.4 0.8
43.35 0.17
61.0 0.2
56.63 0.14
39.6 0.5
18
52.54 0.33
94.6 1.1
43.18 0.16
60.8 0.5
56.49 0.13
89.1 0.5
28
52.21 0.31
93.5 1.5
43.02 0.16
60.3 1.0
56.36 0.13
38.6 0.5
Sept. 7
51.90 0.26
92.0 1.8
42.86 0.14
59.3 1.2
56.23 0.11
38.1 0.5
17
51.64 0.21
90.2 2.1
42.72 0.12
58.1 1.6
56.12 0.09
37.6 0.4
27
51.43 0.14
88.1 2.8
42.60 0.08
56.5 2.0
56.03 0.06
37.2 0.2
Oct. 7
51.29 0.05
85.8 2.3
42.52 0.03
54.5 2.3
55.97 0.01
37.0 0.0
17
51.24 0.02
83.5 2.8
42.49 0.01
52.2 2.5
55.96 0.03
87.0 0.1
27
51.26 0.13
81.2 2.1
42.50 0.06
49.7 2.7
55.99 0.07
37.1 0.3
Not. 6
51.39 0.21
79.1 1.9
42.56 0.11
47.0 2.9
56.06 0.14
37.4 0.5
16
51.60 0.81
77.2 1.7
42.67 0.16
44.1 2.9
56.20 0.18
37.9 0.7
26
51.91 0.39
75.5 1.8
42.83 0.21
41.2 3.0
56.38 0.23
38.6 1.0
Dec. 6
52.30 0.46
74.2 0.9
43.04 0.26
38.2 2.9
56.61 0.28
39.6 1.2
16
52.76 0.51
73.3 0.4
43.30 0.30
35.3 2.9
56.89 0.31
40.8 1.4"
26
53.27 0.57
72.9 0.1
43.60 0.33
32.4 2.7
57.20 0.38
42.2 1.5
86
53.84
73.0
43.93
29.7
57.53
43.7
after tlM
i22dofMai«hlt
beglni at the Sidere
al Oh. 6«/or« the]
IfeanNoon.
280
FIXED STARS, 1856.
APPAEBNT PLACES OF THE
PRINCIPAL FIXED STARS, FOB THE
UPPER
^
TRANSIT AT WASHINGTON.
SUaml
/f Uk&s BCixoeis.
/> Libra.
a COROirJB BORSAUS.
D«7ortta.
Month.
Right AMendon.
D90. North,
Right AModoo.
J)9c8outk.
Ughl Amuloii.
Dee. JV«rt4.
h. m.
U 51
O 1
74 44
h. m.
15 9
0 '
8 50
h. m.
15 28
27 li
Jan. 1
11
21
31
Feb. 10
8.92 0.78
9.70 0.85
10.55 0.89
11.44 0.90
12.34 0.88
18.2 i'.4
15.8 1.9
13.0 l.S
12.6 0.6
12.1 0.2
14.32 0.82
14.64 0.88
14.97 0.84
15.31 0.88
15.64 0.88
56.9 1.7
58.6 1.7
60.3 1.7
62.0 1.6
63.6 1.4
34.20 0.31
34.51 0.32
34.83 0.84
35.17 0.34
35.51 0.34
54.6 «
52.0 2.8
49.7 2.0
47.7 i.«
46.1 l.i
March 1
11
21
31
13.22 0.84
14.06 0.75
14.81 0.66
15.47 0.58
16.00 0.40
12.3 0.9
13.2 1.4
14.6 2.1
16.7 2.8
19.0 2.7
15.97 0.80
16.27 0.27
16.54 0.26
16.79 0.28
17.02 0.20
65.0 1.2
66.2 1.1
67.3 0.9
68.2 0.6
68.8 0.8
35.85 0.32
36.17 0.30
36.47 0.28
36.75 0.24
36.99 0.22
45.0 0.6
44.4 0.0
44.4 0.4
44.8 0.9
45.7 1.2
April 10
20
30
May 10
20
16.40 0.26
16.66 0.12
16.78 0.03
16.75 0.16
16.59 0.31
21.7 8.0
24.7 S.2
27.9 8.1
31.0 2.9
33.9 2.7
17.22 0.18
17.40 0.14
17.54 0.11
17.65 0.09
17.74 0.06
69.1 0.1
69.2 0.0
69.2 0.1
69.1 0.3
68.8 0.3
37.21 0.19
87.40 0.14
37.54 0.11
37.65 0.08
37.73 0.04
46.9 1.6
48.5 1.9 ;
50.4 2.1
52.5 2J
54.8 2.2
30
June 9
19
29
July 9
16.28 0.40
15.88 0.51
15.37 0.60
14.77 0.69
14.08 0.78
36.6 2.6
39.2 2.1
41.3 1.6
42.9 1.2
44.1 0.7
17.80 0.08
17.83 0.00
17.83 0.08
17.80 0.06
17.74 0.08
68.5 0.4
68.1 0.5
67.6 0.5
67.1 0.5
66.6 0.4
37.77 0.02
37.79 0.02
37.77 0.06
37.71 0.09
37.62 0.11
57.0 2.2 '
59.2 2.0
61.2 1.9
63.1 1.6 '
64.7 1.8
19
29
Aug. 8
18
28
13.35 0.78
12.57 0.80
11.77 0.79
10.98 0.78
10.20 0.74
44.8 0.2
45.0 0.5
44.5 0.9
43.6 1.5
42.1 2.0
17.66 0.11
17.55 0.12
17.43 0.14
17.29 0.14
17.15 0.14
66.2 0.4
65.8 0.4
65.4 0.4
65.0 0.4
64.6 0.3
37.51 0.18
37.38 0.17
37.21 0.18
37.03 0.18
36.85 0.18
66.0 0.9
66.9 0.6
67.5 0.0 ;
67.5 0.0 I
67.5 0.5 '
Sept 7
17
27
Oct. 7
17
9.46 0.68
8.78 0.63
8.15 0.52
7.63 0.40
7.23 0.28
40.1 2.3
37.8 2.9
34.9 8.2
31.7 8.5
28.2 8.7
17.01 0.18
16.88 0.11
16.77 0.07
16.70 0.03
16.67 0.01
64.3 0.1
64.2 0.1
64.1 0.1
64.2 0.2
64.4 0.5
36.67 0.17
36.50 0.15
36.35 0.13
36.22 0.09
36.13 0.05
67.0 0.9
66.1 IJ
64.8 1.7
63.1 2.0
61.1 2.2 1
27
Nov. 6
16
26
Dec. 6
6.95 0.18
6.82 0.01
6.83 0.17
7.00 0.81
7.31 0.47
24.5 8.8
20.7 8.8
16.9 8.8
13.1 8.7
9.4 8.5
16.66 0.05
16.71 0.11
16.82 0.15
16.97 0.20
17.17 0.25
64.9 0.7
65.6 0.9
66.5 1.1
67.6 1.2
68.8 1.4
36.08 0.00
36.08 0.05
36.13 0.10
36.23 0.16
36.39 0.21
58.9 2.5 '
56.4 2J
53.6 2.9 1
50.7 2.9 1
47.8 8.0
16
26
36
7.78 0.60
8.38 0.78
9.11
5.9 8.1
2.8 2.7
0.1
17.42 0.28
17.70 0.80
18.00
70.2 1.6
71.8 1.6
73.4
36.60 0.26
36.86 0.29
37.15
44.8 2.9 >
41.9 iS .
39.1 1
Non.-
- Before ttM22d of]
lUichUMSidm
ildftyoCtlMMootii
begiu ai the Bide
mlOh.<0<rtbeM«
BUfrNoon;
FIXED STARS, 1856.
281
APPABENT PLACES
OF THE
PEINCIPAL FIXED STABS, FOE THE UPPER 1
TRANSIT AT WASHINGTON.
BUu-l
a Serpbrtis.
t Urwe Uinoris.
/f» ScorpiL
HoBth.
Dn.Ngr<*.
Dm. North.
Dm. Somtk^
h. Di.
O 1
h. m.
O J
h. m.
O 1
15 37
6 52
15 49
78 13
15 57
19 24
Jan. 1
9.21 0.80
47.0 li
14.45 0.77
48.9 2.9
2.40 0.31
28.8 1.1
11
9.51 0.31
44.9 2.1
15.22 0.98
46.0 2.4
2.71 0.34
29.9 1.1
21
9.82 0.»2
42.8 1.9
16.15 1.00
43.6 1.9
3.05 0.84
81.0 1.2
31
10.14 0.32
40.9 1.6
17.15 1.08
41.7 1.8
3.39 0.33
32.2 1.2
Feb. 10
10.46 0.31
39.4 1.2
18.23 1.11
40.4 0.6
3.72 0.34
33.4 1.2
20
10.77 0.81
38.2 0.9
19.34 1.11
39.8 0.1
4.06 0.33
34.6 1.1
March 1
11.06 0.29
37.3 0.6
20.45 1.05
39.9 0.8
4.39 0.32
35.7 1.0
11
11.37 a27
36.7 0.8
21.50 0.96
40.7 1.5
4.71 0.81
36.7 1.0
21
11.64 0.24
36.4 0.1
22.46 0.86
42.2 1.9
5.02 0.27
37.7 0.8
31
11.88 0.21
36.5 0.4
23.32 0.71
44.1 2.4
5.29 0.24
38.5 0.7
April 10
12.09 0.19
36.9 0.7
24.03 0.66
46.6 2.8
5.53 0.28
39.2 0.6
20
12.28 0.16
37.6 1.0
24.58 0.87
49.3 3.1
5.76 0.20
39.8 0.4
30
12.44 0.18
38.6 1.2
24.95 0.18
52.4 8.1
5.96 0.18
40.2 0.8
May 10
12.57 0.10
39.8 1.8
25.13 0.00
55.5 8.1
6.14 0.14
40.5 0.2
20
12.67 0.07
41.1 1.8
25.13 0.19
58.6 8.0
6.28 0.18
40.7 0.2
80
12.74 0.04
42.4 1.2
24.94 0.S6
61.6 2.9
6.89 0.07
40.9 0.1
June 9
12.78 0.01
43.6 1.3
24.59 0.62
64.5 2.6
6.46 0.04
41.0 0.1
19
12.79 0.02
44.9 1.2
24.07 0.66
67.1 2.2
6.50 0.01
41.1 0.0
29
12.77 0.0S
46.1 1.1
23.41 0.80
69.3 1.9
6.51 0.03
41.1 0.1
July 9
12.72 0.07
47.2 0.9
22.61 0.91
71.2 1.4
6.48 0.06
41.0 0.1
19
12.65 0.10
48.1 0.7
21.70 1.01
72.6 1.0
6.42 0.09
40.9 0.1
29
12.65 0.18
48.8 0.6
20.69 1.06
73.6 0.4
6.33 0.11
40.8 0.2
Aug. 8
12.42 0.16
49.4 0.4
19.63 1.10
74.0 0.1
6.22 0.14
40.6 0.2
18
18.27 0.1S
49.8 0.1
16.53 1.18
73.9 0.6
6.08 0.15
40.4 0.8
28
12.12 0.16
49.9 0.1
17.40 1.12
73.3 1.1
5.93 0.17
40.1 0.4
Sept 7
11.97 0.14
49.8 0.8
16.28 1.08
12SI 1.8
5.76 0.15
39.7 0.5
17
11.83 0.18
49.5 0.6
15.20 1.01
70.4 2.1
5.61 0.14
39.2 0.8
27
11.70 0.11
49.0 0.8
14.19 0.92
68.3 2.6
5.47 0.12
38.9 0.2
Oct 7
11.59 0.07
48.2 1.0
13.27 0.82
65.8 2.9
5.35 0.08
38.7 0.2
17
11.52 0.08
47.2 1.8
12.45 0.6«
62.9 8.3
5.27 0.03
38.5 0.2
27
11.49 0.01
45.9 1.6
11.79 0.61
59.6 8.5
5.24 0.02
38.3 0.1
Nov. 6
11.50 0.07
44.4 1.7
11.28 0.81
56.1 8.6
5.26 0.06
38.2 0.1
16
11.57 0.12
42.7 1.9
10.97 0.12
52.5 8.7
5.32 0.10
38.3 0.8
26
11.69 0.16
40.8 2.0
10.65 0.08
48.8 8.8
5.42 0.16
38.6 0.5
Deo. 6
11.85 0.20
38.8 2.1
10.93 0.28
45.0 8.6
5.58 0.21
39.1 0.6
16
12.05 0.26
36.7 2.2
11.21 0.49
41.4 8.4
5.79 0.26
39.7 0.8
26
12.30 0.27
34.5 2.1
11.70 0.66
38.0 8.1
6.05 0.31
40.5 1.0
36
12.57
32.4
12.35
34.9
6.36
41.5
'
•ftuthi
■ aUofUuohU
begiiu^ttlwSldsn
•1 Oh. btfort the ]
tfauiNoon.
282
FIXED STARS, 1856.
APPARENT PLACES OP THE
PRINCIPAL FIXED STARS, FOR THE
UPPER 1
/
TRANSIT AT WASHINGTON.
SMMMd
S Ophiuchi.
a ScORPii.
{AtUaret,)
9 Dracoois.
Vfottbft
Month.
1
Right AMendon.
Dtc. South.
Right Ajceniion.
Deo. Soittk,
Bight AMDdoO.
Dee. J\r«r«4.
h. m.
O 1
h. m.
26 ^
h. m.
1
0 1 •
16 6
3 19
16 20
16 22
61 49
■. 1.
• II
s. •.
0 a
t. •.
« a
Jan. 1
46.51 0.28
17.9 1.8
33.11 0.80
31.1 0.6
• 1.14 0.86
71.8 s.a
11
46.79 0.81
19.7 1.7
33.41 0.88
31.7 0.7
1.50 0.41
68.6 tJi
21
47.10 0.81
21.4 1.6
33.74 0.36
32.4 0.9
1.91 0.47
65.8 S.4
31
47.41 0.82
23.0 1.8
34.10 0.85
33.3 0.9
2.38 0.50
63.4 i.»
Feb. 10
47.73 0.82
24.3 1.2
34.45 0.86
34.2 0.9
2.88 0.52
61.5 IJ
20
48.05 0.81
25.5 1.1
34.81 0.85
35.1 0.9
3.40 0.68
60.2 o.«
March 1
48.36 0.80
26.6 0.8
35.16 0.84
36.0 1.0
3.93 0.52
59.6 0.1 j
11
48.66 0.28
27.4 0.4
35.50 0.82
37.0 0.9
4.45 0.49
59.7 0.7 I
21
48.94 0.27
27.8 0.1
35.82 0.81
37.9 0.8
4.94 0.44
60.4 M
31
49.21 0.24
27.9 0.0
36.13 0.28
38.7 0.8
5.38 0.S9
61.7 1.9
April 10
49.45 0.22
27.9 0.2
36.41 0.26
39.5 0.7
5.77 0.85
63.6 a.4
^ 20
49.67 0.19
27.7 0.4
36.67 0.24
40.2 0.7
6.12 0.27
66.0 S.8 '
30
49.86 0.17
27.3 0.6
36.91 0.20
40.9 0.6
6.39 0.19
68.8 S.0 1
May 10
50.03 0.13
26.7 0.7
37.11 0.17
41.5 0.5
6.58 0.18
71.8 8J '
20
50.16 0.11
26.0 0.8
37.28 0.14
42.0 0.5
6.71 0.05
75.1 ».8
30
50.27 0.07
25.2 0.9
37.42 0.10
42.5 0.5
6.76 0.02
78.4 S.I
June 9
50.34 0.05
24.3 0.9
37.52 0.07
43.0 0.4
6.74 0.10
81.5 S.1
19
50.39 0.01
23.4 0.8
37.59 0.08
43.4 0.4
6.64 0.18
84.6 s.8 :
29
50.40 0.08
22.6 0.8
37.62 O.Ql
43.8 0.8
6.46 0.28
87.4 J.6 1
July 9
50.37 0.05
21.8 0.7
37.61 0.04
44.1 0.2
6.23 0.80
89.9 t.1
19
50.32 0.09
21.1 0.6
37.57 0.09
44.3 0.2
5.93 0.85
92.0 \jt
29
50.23 0.11
20.5 0.5
37.48 0.11
44.5 0.0
5.58 0.88
93.6 1.S
Aug. 8
50.12 0.13
20.0 0.4
37.37 0.14
44.5 0.0
5.20 0.41
94.8 0.5
18
49.99 0.15
19.6 0.2
37.23 0.17
44.5 0.2
4.78 0.45
95.3 0J>
28
49.84 0.16
19.4 0.1
37.06 0.17
44.3 0.8
4.33 0.45
95.3 OJ
Sept. 7
49.68 0.15
19.3 0.1
36.89 0.17
44.0 0.4
3.88 0.45
94.8 1.0 j
17
49.53 0.18
19.2 0.2
36.72 0.15
43.6 0.4
3.43 0.44
93.8 1.5
27
49.40 0.12
19.4 0.8
36.57 0.14
43.2 0.5
2.99 0.40
92.3 8.0
Oct 7
49.28 0.09
19.7 0.5
36.43 0.11
42.7 0.5
2.59 0.85
90.3 8.4
17
49.19 0.06
20.2 0.6
36.32 0.06
42.2 0.6
2.24 0.29
87.9 J.7
1
27
49.13 0.01
20.8 0.8
36.26 0.01
41.7 0.4
1.95 0.28
85J2 8.1 '
Nov. 6
49.14 0.04
21.6 1.1
86.25 0.04
41.3 0.8
1.72 0.18
82.1 8.5
16
49.18 0.09
22.7 1.2
86.29 0.09
41.0 0.2
1.59 0.05
78.6 8.7 1
26
49.27 0.14
23.9 1.4
36.38 0.16
40.8 0.1
1.54 0.08
74.9 8.7
Dec. 6
49.41 0.19
25.3 1.6
36.54 0.20
40.7 0.2
1.57 0.18
715 8.7 1
16
49.60 0.28
26.9 1.6
36.74 0.25
40.9 0.8
1.70 0.23
67.5 8.8 !
26
49.83 0.26
28.5 1.7
36.99 0.29
41.2 0.5
1.93 0.80
63.9 8.6
36
50.09
30.2
37.28
41.7
2.23
60.4
KOTl.-
-B«ronith«2adon
If ueb tlM »Umrm
1 day of tb« Month
iMghM at th« »d«
raal Oh. 4^ tb» Ml
mbRmb;
FIXED STARS, 1856.
283
APPARENT PLACES
OF THE
^^^ „.. ... .H ^ ..» II
TRANSIT AT WASHINGTON.
*
Odsrad
aTrianguli
Australis.
• UrsA Minoris.
a Hebculis.
myof tbt
Month.
D90.S(mtk.
Deo. iVorO.
Bight Asoenaion.
Dm. North.
h m.
O 1
h. m.
O 1
h. m.
O 1
16 33
68 45
17 0
82 15
17 8
14 33
Jan. 1
23.03 0.62
16.7 'i.4
1. f.
44.62 0.63
46.6 8.2
3.20 0.22
18.2 2.4
11
23.65 0.70
15.3 1.2
45.25 0.91
43.4 8.0
3.42 0.26
15.8 2.2
21
24.35 0.75
14.1 0.8
46.16 1.17
40.4 2.6
3.68 0.27
13.6 1.9
31
25.10 0.77
18.3 0.3
47.33 1.86
37.8 2.0
3.95 0.30
11.7 1.8
Feb. 10
25.87 0.80
13.0 0.0
48.69 1.49
35.8 1.5
4.25 0.80
9.9 1.4
20
26.67 0.79
13.0 0.S
50.18 1.59
34.3 0.9
4.55 0.81
8.5 0.9
March 1
27.46 0.77
13.5 0.9
51.77 1.61
33.4 0.1
4.86 0.80
7.6 0.5
11
28.23 0.74
14.4 1.2
53.38 1.68
33.3 0.2
5.16 0.81
7.1 0.1
21
28.97 0.71
15.6 1.5
54.96 1.48
33.5 1.0
5.47 0.29
7.0 0.2
31
29.68 0.68
17.1 1.8
56.44 1.84
34.5 1.5
5.76 0.28
7.2 0.7
Apnl 10
30.36 0.61
18.9 2.1
57.78 1.15
36.0 2.1
6.04 0.25
7.9 1.0
20
30.97 0.52
21.0 2.4
58.93 0.94
38.1 2.6
6.29 0.28
8.9 1.4
30
31.49 0.46
23.4 2.6
59.87 0.68
40.7 2.9
6.52 0.21
10.3 1.6
May 10
31.95 0.37
26.0 2.6
60.55 0.89
43.6 8.1
6.73 0.17
11.9 1.8
20
32.32 0.29
28.6 2.7
60.94 0.16
46.7 8.2
6.90 0.15
18.7 1.9
80
32.61 0.19
31.3 2.7
61.10 0.18
49.9 8.8
7.05 0.18
15.6 1.9
June 9
32.80 0.10
34.0 2.7
60.92 0.44
53.2 8.1
7.18 0.07
17.5 1.9
19
32.90 0.01
36.7 2.6
60.48 0.69
56.3 2.9
7.25 0.05
19.4 1.9
29
32.89 0.10
39.3 2.4
59.79 0.96
59.2 2.7
7.30 0.00
21.3 1.7
July 9
32.79 0.20
41.7 2.1
58.83 1.16
61.9 2.4
7.30 0.03
23.0 1.6
1.9
32.59 0.29
43.8 1.9
57.67 1.86
64.3 2.0
7.27 0.07
24.6 1.4
29
32.30 0.36
45.7 1.6
56.31 1.54
66.3 1.5
7.20 0.10
26.0 1.1
Aug. 8
31.94 0.43
47.2 1.0
54.77 1.68
67.8 1.0
7.10 0.13
27.1 0.9
18
31.51 0.47
48.2 0.4
53.09 1.77
68.8 0.5
6.97 0.15
28.0 0.6
28
31.04 0.49
48.6 0.0
51.32 1.83
69.3 0.1
6.82 0.18
28.6 0.8
Sept 7
30.55 0.49
48.6 0.5
49.49 1.84
69.2 0.5
6.64 0.18
28.9 0.1
17
30.06 0.47
48.1 1.0
47.65 1.80
68.7 1.0
6.46 0.18
29.0 0.3
27
29.59 0.48
47.1 1,6
45.85 1.77
67.7 1.6
6.28 0.17
28.7 0.6
Oct 7
29.16 0.84
45.6 1.9
44.08 1.63
66.1 2.0
6.11 0.14
28.1 0.9
17
28.82 0.26
43.7 2.1
42.45 1.47
64.1 2.4
5.97 0.11
27.2 1.3
27
28.56 0.14
41.6 2.4
40.98 1.80
61.7 2.8
5.86 0.07
25.9 1.6
Nov. 6
28.42 0.01
39.2 2.6
39.68 1.05
58.9 8.1
5.79 0.04
24.4 1.8
16
28.41 0.10
36.7 2.6
38.63 0.81
55.8 3.3
5.75 0.03
22.6 2.0
26
28.51 0.22
34.2 2.6
37.82 0.47
52.5 8.5
5.78 0.06
20.6 2.2
Dec 6
28.73 0.87
31.7 2.4
37.35 0.16
49.0 8.5
5.84 0.12
18.4 2.3
16
29.10 0.47
29.3 2.1
37.19 0.11
45.5 3.5
5.96 0.16
16.1 2.4
26
29.57 0.57
27.2 1.8
37.30 0.45
42.0 8.4
6.12 0.20
13.7 2.4
36
30.14
25.4
37.75
38.6
6.32
11.3
after Uu
iSSdofHuchlt
b«gi]iiatih«aidflra
tlOh.b€/onHMl
tfeuiNoon.
284
FIXED STARS, 1856.
j APBASBMT PLACES 0? THE FRINUIPAL FIXED STABS, FOB THE
UPPER 1
TBANRIT AT WASHINOTON.
1
BUmml
f DBAOons.
a Ophiucbi.
•
Octtmtis. i|
Vfvttb*
Month.
!
Dm. MM*.
IUfhtA«MMlmi.
Dm MM*.
Bight AmnhB.
DM-OMtt. '
h. m.
17 27
6°2 2i
h. m.
17 28
1°2 39
h.
17
• 1
89 16 ;
Auk 1
11
21
81
Feb. 10
8.59 0.21
8.80 0.27
9.07 0.83
9.40 0.35
9.75 0.89
2"l.9 8.4
■ 18.5 S.2
15.3 2.8
12.5 2.4
10.1 1.9
t. a.
13.26 0.20
13.46 0.24
18.70 0.27
13.97 0.28
14.25 0.29
56.2 2'.2
54.0 2.1
51.9 1.9
50.0 1.7
48.3 1.4
dS 47.07
38 57.79
39 11.31
39 27.25
39 45.12
1.
10.72
13.52
15.94
17.87
19.87
87.0 2.8
34.2 2.6
81.7 2.S
29.5 1.8
27.7 1.0
20
Maidi 1
11
21
81
10.14 0.41
10.55 0.42
10.9T 0.41
11.38 0.40
11.78 0.88
8.2 1.4
6.8 0.8
6.0 0.«
6.0 0j6
6.6 1.8
14.54 0.81
14.85 0.80
15.15 0.81
15.46 0.29
15.75 0.28
46.9 1.1
45.8 0.7
45.1 0.S
44.9 0.8
45J2 0.6
40 4.49t».4i
40 24.90 26.90
40 45.80 21.00
41 6.80 20.71
41 27.51 W.75
26.4 0.9
25.5 0.4
26.1 0.1
26.2 0.6
25.7 1.1
April 10
20
SO
May 10
SO
12.16 0.S6
12.51 0.80
12.81 0.27
13.06 0.22
13.30 0.16
7.9 1.7
9.6 2.2
11.8 2.6
14.4 8.0
17.4 0.2
16.03 0.2T
16.80 0.24
16.54 0.22
16.76 0.20
16.96 B.lt
45.7 0.9
46.6 1.8
47.9 1.6
49.4 1.8
51J2 2.0
41 47.26
42 5.78
42 22.80
42 37.88
42 50.76
18.52
17.02
15.08
12.88
10.41
26.8 iJi
28.3 1.9
SOit 2.S !
32.6 2.6 ,
86.1 2.9
SO
Jum 9
19
29
July 9
13.46 an
13.57 a04
13.61 0.01
13.60 0.08
lass 0.18
20.6 0.8
23.9 8.8
27.2 0,2
80.4 0.0
88.4 3.8
17.13 0.14
17.27 0.W
17.87 0.00
17.43 0.08
17.46 0.02
58.2 2.0
55.2 1.9
57.1 1.9
59.0 1.7
60.7 1.6
43 1.17
43 8.82
43 18.62
43 15.40
43 14.21
7.65
4.80
1.78
1.19
4.16
88.0 8.1
41.1 8J
44.4 8J
47.7 8.2
50JS.0 j
19
29
Aug. 8
18
88
13.39 0.18
13.21 0.23
13.98 0.28
12.70 0.81
12.39 0.84
86.2 2.4
88.6 2.0
40.6 1.4
42.0 0.9
42.9 0.6
17.44 0.06
17.89 0.09
17.80 0.12
17.18 0.14
17.04 0.17
62.8 l.t
68.T 1.2
64.9 0.9
65.8 0.6
66.4 0.1
43 10.05
43 3.08
42 53.52
42 41.70
42 28.03
6.97
9.56
11.82
18.67
15.06
£8.9 2.8
56.7 2.6
69JI 2.0
61J2 1.4
62.6 1.0
Sept. 7
17
«7
Oct. 7
17
12.05 0.86
11.70 0.84
11.36 0.84
11.02 0.82
10.70 0.28
48.4 0.0
43.4 0.6
^.8 1.0
41.8 1.6
4a8s.0
16.87 0.17
16.70 0.18
16.52 0.16
16.36 0.16
16.21 0.1»
66.8 0.1
66.9 0.8
66.6 0.6
66.1 0.8
65.8 1.0
42 12.97
41 57.13
41 41.10
41 25.53
41 11.06
15.84
16.03
16.57
14.47
12.78
68.(B 0.8
63.9 OJ
63.6 1.0
62.6 1.4
61J2 IJ»
S7
Nor. 6
16
S6
Dm. 6
10.42 0.22
10.20 0.17
10.08 0.12
9.91 0.04
9.87 0.08
88.3 S.4
86.9 2.7
83.2 8.1
80.1 8.8
26.8 8.6
16.08 0.09
15.99 0.04
15.95 0.00
15.95 0.04
15.99 0.10
64.8 1.8
68.0 \A
61.4 1.8
69.6 U
57.6 2.1
40 58.33
40 47.84
40 40.13
40 85.54
40 34.30
10.49
7.71
4.59
1.24
2.16
B9.8 2.4
66.9 2.8
64.1 8.0
51.1 8.1
48.««.2
16
26
S6
9.90 0.10
, 10.00 0.17
10.17
28.8 83
19.8 8.4
16.4
16i>9 0.16
16.24 0.18
16.42
55.5 1.2
58.8 2.2
51.1
40 36.46
40 42.06
40 50.98
5.62
6.85
44.8 S.1
41.7 tJO
88.7
Hoti.-
-BMnUwai^f
— -—
mtt^ti^mim
hk«taal«tol
■iM«i«h.^kirlfatliH
■ Ra.Bt
FIXED STARS, 1856.
285
AFPABBNT PLACES OF THE PRINCIPAL FIXED 8TAR8, FOB THE
UPPER
TRANSIT AT WASHINGTON.
sidereal
Ihtyof the
Month.
y Draookis.
H^ SagitUrii.
a Ltrji.
(Veffo.)
J)K.JtartL
Right ikmnko.
D9cSoutk,
Vto^Nmik.
h. m.
17 53
51 29
h. m.
18 5
21 5
h. m,
18 32
38 38
Jan. 1
13.45 0.17
75.1 8.5
V.OO 0.21
39.5 0.2
1. 1.
1.60 o.u
58.6 8.1
11
13.62 0.23
71.6 8.1
7.21 0.24
39.7 0.3
1.71 0.17
55.5 8.0
21
13.85 0.28
68.5 2.9
7.45 0.27
40.0 0.3
1.88 0.22
52.5 2.8
31
14.13 0.82
65.6 8.6
7.72 0.29
40.3 0.8
2.10 0.26
49.7 2.5
Feb. 10
14.45 0.S6
63.0 8.1
8.01 0.81
40.6 0.8
2.86 0.28
47.2 2.1
20
14.81 0.89
60J9 1.6
8.32 0:88
40.9 0.2
2.64 0.S1
45.1 1.8
MaTCh 1
15.20 0.41
59.3 1.0
8.64 0.88
41.1 0.1
2.95 0.82
48.3 1.2
11
15.61 0.41
58.3 0.4
8.97 0.88
415 0.1
8.27 0.84
42.1 0.6
21
16.02 0.40
57.9 0.8
9.30 0.88
41.3 0.1
3.61 0.84
41.5 0.0
81
16.42 0.89
58J2 0.9
9.68 0.82
41.2 0.1
8.95 0.85
41.5 0.6
April 10
16.81 0.86
59.1 1.5
9.95 0.81
41.1 0.2
4.80 0.88
42.1 1.2
20
17.17 0.84
60.6 8.1
10.26 0.80
403 0.2
4.68 0.82
43.3 1.6
30
17.51 0.29
62.7 2.5
10.56 0.28
40.7 0.3
4.95 0.29
44.9 2.1
May 10
17.80 0.24
65.2 2.9
10.84 0.26
40.4 0.3
5.24 0.26
47.0 2.5
20
18.04 0.20
68.1 S.2
11.10 0.28
40.1 0.3
5.50 0.23
49.5 2.8
80
18.24 0.15
71J 8.8
11.38 0.20
89.8 0.2
5.78 0.20
52.3 3.1
June 9
18.39 0.09
74.6 8.8
11.53 0.17
39.6 0.2
5.93 0.15
55.4 8.1
19
18.48 0.02
77.9 8.3
11.70 0.18
39.4 0.1
6.06 0.10
58.5 3.2
29
18.50 0.03
81.2 8.1
11.83 0.09
39.3 0.1
6.18 0U)4
61.7 3.1
July 9
18.47 0^
84.3 1.9
11.92 0.04
39.2 0.0
6.22 0.01
64.8 2.9
19
18.88 0.16
87.18 2.6
11.96 0.00
39.2 0.1
6.21 0.05
67.7 2.7
29
18.23 0.21
89.8 2.2
11.96 ou)5
39.3 0.1
6.16 0.09
70.4 2.3
Aug. 8
18.02 0.25
92.0 1.8
11.91 0.08
39.4 0.1
6.07 0.16
72.7 2.0
18
17.77 0.29
93.8 1.4
11.88 0.18
39.5 0,2
5.91 0.18
74.7 1.7
28
17.48 0.31
95:2 0.9
11.70 0.15
39.7 0.1
5.73 0.21
76.4 1.8
Sept 7
17.17 0.32
96.1 0.4
11.55 0.16
39,8 0.1
5.52 0.23
77.7 0.7
17
16.85 0.35
96.5 0.2
11.39 0.17
89.9.0.0
5.29 0.25
78.4 0.1
27
16.50 0.35
96.3 0.5
11.28 0.17
89.9 0.0
5.04 0.26
78.5 0.0
Oct 7
16.15 0.33
95.8 M
11.05 0.15
89.9 0.0
4.78 0.25
78.5 OS
17
15.82 0.29
94.7 1.7
10.90 0.18
39.9 0.0
4.58 0.22
77.9 1.1
27
15.53 0.25
93i) 2.1
10.77 0.10
393 0.1
4.81 0.21
76.8 1.5
Nov. 6
15.28 0.20
90.9 2.5
10.67 0.06
39.8 0.1
4.10 0.16
75.3 1.9
16
15.08 0.13
S8A 2.9
10.61 0.00
39.7 0.0
3.94 0.11
73.4 2.2
26
14.95 0.08
85.5 8.2
10.61 0.03
89.7 0.0
8.83 0.07
71.2 2.6
Dec. 6
14.87 0.01
82.3 8.8
10.64 OM
89.7 0.1
3.76 0.01
68.6 2.8
16
14.86 0.06
79.0 8.5
10.73 0.14
89.8 0.1
8.75 0.04
65.8 8.0
26
14.92 0.12
75.5 8.5
. 10.87 0.18
39.9 0.^
3.79 0.09
62.8 3.0
36
15.04
72.0
11.05
40.1
3.88
59.8
■ItertlM
22iofllaishU
bt^mt/ttbm&amm
iiOh.H^ttMi
ImdMom.
286
FIXED STARS, 1856.
APPARENT PLACES OF THE
PRINCIPAL FIXED STARS, FOR THE
UPPER
TRANSIT AT WASHINGTON.
SUaml
pjjnM.
C Aquiljb.
1
i Aquiub. I
Moath.
1
1
Right Aaoeniioiu
J)9e. North.
Right AMOiskm.
Dee. JVbrl*.
Right AflMuloiu
DtcNmik. 1
h. m.
O 1
h. m.
O 1
h. m.
o * 1
18 44
33 11
18 58
13 38
19 18
2 49 1
Jan. I
43.72 0.11
4*3.9 2.8
45.54 0.11
6*1 .2 2.0
1*2.36 0.11
4^.9 1.4 !
11
43.83 0.16
41.1 2.8
45.65 0.16
59.2 2.0
12.47 0.15
41.5 1.8
21
43.99 0.20
38.3 2.7
45.81 0.19
57.2 1.8
12.62 0.18
40.2 1.8
81
44.19 0.23
35.6 2.4
46.00 0.22
55.4 1.7
12.80 0.20
38.9 1.2 ,
Feb. 10
44.42 0.27
33.2 2.1
46.22 0.24
53.7 1.5
13.00 0.28
87.7 1.0 1
20
44.69 0.29
31.1 1.7
46.46 0.25
52.2 1.1
13.23 0.25
86.7 0.7
March 1
44.98 0.80
29.4 1.2
46.71 0.28
51.1 0.8
13.48 0.27
36.0 0.4 1
11
45.28 0.82
28.2 0.6
46.99 0.80
50.3 0.4
13.75 0.28
85.6 0.2 '
21
45.60 0.82
27.6 0.0
47.29 0.29
49.9 0.1
14.03 0.29
35.4 0.1 1
31
45.92 0.38
27.6 0.4
47.58 0.80
50.0 0.4
14.32 0.80
35.6 0.5
1
April 10
46.25 0.82
28.0 1.0
47.88 0.80
50.4 0.8
14.62 0.80
86.1 0.8 ;
20
46.57 0.81
29.0 1.5
48.18 0.29
51.2 1.8
14.92 0.80
36.9 1.1 1
80
46.88 0.29
30.5 2.0
48.47 0.28
52.5 1.6
15.22 0.29
88.0 1^
May 10
47.17 0.27
32.5 2.4
48.75 0.27
54.1 1.9
15.51 0.28
89.3 1.6
20
47.44 0.24
34.9 2.7
49.02 0.24
56.0 2.0
15.79 0.27
40.9 1.7
30
47.68 0.19
37.6 2.9
49.26 0.21
58.0 2.2
16.06 0.28
42.6 1.8
June 9
47.87 0.16
40.5 2.9
49.47 0.18
60.2 2.2
16.29 0.20
44.4 1.8
19
48.03 0.13
43.4 8.0
49.65 0.15
62.4 2.3
16.49 0.18
46.2 1.7
29
48.16 0.07
46.4 8.0
49.80 0.11
64.7 2.2
16.67 0.14
47.9 1.6
July 9
48.23 0.02
49.4 2.8
49.91 0.06
66.9 2.1
16.81 0.08
49.5 1.5
19
48.25 0.02
52.2 2.6
49.97 0.02
69.0 1.8
16.89 0.05
51.0 1.4
29
48.23 0.07
54.8 2.8
49.99 0.02
70.8 1.6
16.94 0.00
52.4 1.1 ,
Aug. 8
48.16 0.18
57.1 2.0
49.97 0.07
72.4 1.4
16.94 0.04
53.6 1.0
18
48.03 0.15
59.1 1.6
49.90 0.10
73.8 1.2
16.90 0.07
54.6 0.6
28
47.88 0.18
60.7 1.8
49.80 0.18
75.0 0.9
16.83 0.11
55.4 0.6
Sept 7
47.70 0.21
62.0 08
49.67 0.16
75.9 0.5
16.72 0.18
56.0 0.8 <
17
47.49 0.28
62.8 0.8
49.51 0.17
76.4 0.2
16.59 0.16
56.3 0.1 ,
27
47.26 0.28
63.1 0.0
49.34 0.19
76.6 0.0
16.43 0.16
56.4 0.0
Oct 7
47.03 0.22
63.1 0.4
49.15 0.17
76.6 0.8
16.27 0.16
56.4 0.1
17
46.81 0.21
62.7 1.0
48.98 0.16
76.3 0.6
16.11 0.15
56.2 0.5 !
27
46.60 0.18
61.7 1.4
48.82 0.18
75.7 0.9
15.96 0.18
55.7 0.7
Not. 6
46.42 0.15
60.3 1.6
48.69 0.11
74.8 1.1
15.83 0.11
55.0 0.8
16
46.27 0.10
58.7 2.0
48.58 0.08
73.7 1.4
15.72 0.07
54.2 0.9
26
46.17 0.07
56.7 1.4
48.50 0.08
72.3 1.6
15.65 0.08
53.3 1.0 ^
Dec. 6
46.10 0.01
54.3 2.6
48.47 0.02
70.7 1.8
15.62 0.00
52.3 1.1 i
1
16
46.09 0.02
51.7 2.7
48.49 0.05
68.9 i;9
15.62 0.05
51.1 1.8
26
46.11 0.09
49.0 2.8
48.54 0.09
67.0 1.9
15.67 0.08
49.8 1.8
36
46.20
46.2
48.63
65.1
15.75
48.5 1
Hora.-
-BiftmUMSMor]
lUrehttMSIiterai
idmyctOmmomtk
lM«lM el the 8kli
rmX Otx.a/Uribmm
lealfoan;
FIXED STARS, 1856.
287
AFPABBNT PLACES 07 THE
PRINCIPAL FIXED STARS, FOR THE
UPPER
TRANSIT AT WASHINGTON.
SidMWl
•
y Aquiui.
a Aquiljb.
(AUmr,)
j9 Aquiub.
Month.
Right AflotDsloii.
D«s.JVbnA.
Dm. JVbrtA.
Dm. i^orO.
h. m.
19 39
o /
10 15
h. m.
19 43
8 29
h. m.
19 48
6 ^
Jan. 1
11
21
81
Feb. 10
1. •.
22.94 0.07
23.01 0.12
28.13 0.16
23.28 0.18
28.46 0.21
47.3 1.7
45.6 1.7
43.9 1.6
42.3 1.5
40.8 1.2
1. •.
43.56 0.07
. 43.68 0.12
43.75 0.16
43.91 0.17
44.08 0.21
20.0 i'.6
18.4 1.6
16.8 1.5
15.3 1.8
14.0 1.1
12.53 0.08
12.61 0.11
12.72 0.15
12.87 0.17
18.04 0.20
52.1 1.5
50.6 1.4
49.2 1.4
47.8 1.2
46.6 1.0
20
March 1
11
21
81
28.67 0.24
23.91 0.26
24.17 0.28
24.45 0.28
24.73 0.29
89.6 1.0
38.6 0.8
87.8 0.6
87.2 0.2
87.4 0.6
44.29 0.28
44.52 0.25
44.77 0.27
45.04 0.29
45.88 0.80
12.9 0.9
12.0 0.7
11.3 0.8
11.0 0.2
11.2 0.5
13.24 0.28
13.47 0.26
13.73 0.27
14.00 0.28
14.28 0.29
45.6 0.9
44.7 0.6
44.2 0.8
43.9 0.1
44.0 0.6
April 10
20
80
May 10
20
25.02 0.80
25.32 0.80
25.62 0.80
25.92 0.29
26.21 0.27
88.0 0.9
38.9 1.1
40.0 1.6
41.5 1.8
43.8 2.0
45.63 0.29
45.92 0.81
46.23 0.80
46.53 0.29
46.82 0.28
11.7 0.8
12.5 1.1
13.6 1.4
15.0 1.8
16.8 2.0
^ 14.57 0.29
14.86 0.82
15.18 0.29
15.47 0.29
15.76 0.28
44.5 0.9
45.4 1.1
46.5 1.4
47.9 1.6
49.5 1.9
80
June 9
19
29
July 9
26.48 0.26
26.73 0.21
26.94 0.19
27.13 0.15
27.28 0.11
45.8 2.1
47.4 2.1
49.5 2.2
51.7 2.1
53.8 2.0
47.10 0.25
47.35 0.22
47.57 0.19
47.76 0.16
47.91 0.11
18.8 2.0
20.8 2.1
22.9 2.2
25.1 2.1
27.2 1.9
16.04 0.26
16.30 0.22
16.52 0.19
16.71 0.17
16.88 0.11
51.4 2.0
53.4 2.0
55.4 1.9
57.3 1.9
59.2 1.8
19
29
Aug. 8
18
28
27.89 0.05
27.44 0.02
27.46 0.03
27.43 0.06
27.37 0.11
55.8 1.9
57.7 1.7
59.4 1.4
60.8 1.2
62.0 0.9
48.02 0.07
48.09 0.01
48.10 0.01
48.09 0.06
48.03 0.11
29.1 1.8
30.9 1.5
82.4 1.8
33.7 1.2
34.9 1.0
16.99 0.07
17.06 0.08
17.09 o.oi
17.08 0.07
17.01 0.09
61.0 1.7
62.7 1.4
64.1 1.2
65.3 1.0
66.3 0.8
Sept. 7
17
27
Oct 7
17
27.26 0.13
27.13 0.15
26.98 0.16
26.82 0.18
26.64 0.15
62.9 0.7
63.6 0.4
64.0 0.1
64.1 0.1
64.0 0.4
47.92 0.12
47.80 0.15
47.65 0.16
47.49 0.16
47.33 0.16
85.9 0.6
86.5 0.3
36.8 0.2
87.0 0.2
86.8 0.8
16.92 0.1 1
16.81 0.15
16.66 0.16
16.50 0.16
16.34 0.16
67.1 0.6
67.7 0.3
68.0 0.1
68.1 0.2
67.9 0.3
27
Nov. 6
16
26
Dec. 6
26.49 0.14
26.35 0.12
26.23 0.09
26.14 0.06
26.08 0.02
63.6 0.6
63.0 0.9
62.1 1.1
61.0 1.8
59.7 1.5
47.17 0.14
47.03 0.12
46.91 0.09
46.82 0.06
46.76 0.02
36.5 0.6
85.9 0.8
85.1 1.0
84.1 1.2
82.9 1.4
16.18 0.13
16.05 0.13
15.92 0.09
15.83 0.05
15.78 0.02
67.6 0.5
67.1 0.7
66.4 1.0
65.4 1.2
64iJ 1.3
16
26
36
26.06 0.02
26.08 0.06
26.14
58.2 1.5
56.7 1.6
55.1
46.74 0.08
46.77 0.05
46.82
81.5 1.4
80.1 1.5
28.6
15.76 0.01
15.77 0.06
15.83
62.9 1.8
61.6 1.4
60.2
•Act Om aid of Much Uttgiiii U tba Sltkcwl Oh. te/on Uw Btaa Noon.
1
288
FIXED STARS, 1856.
AFPABENT PLACES OF THB PRINCIPAL FIXED STAB8> FOB THE
UPPER !
TRANSIT AT WASHINQTON.
r
1
SidMWl
1 Vnm Minoris.
a* CAPRICORin.
a PftTonifl. 1
Day Of the
Montti.
1
BifMliSMiii
m.
D».Hmtk,
Eight Ainiiiw
DMl&Wlft.
RUhi 4i«.»»il-
Dm. Somik,
20
88 52
20 10
12 69
20 14
O 1
57 11
Jan. 1
"6 26.62
6.36
^.3 2.9
\jS^ 0.06
27J5 0.8
ri.35 0.08
44.7 ih
11
6 21.26
8.16
89.4 8.0
1.95 0.13
27.8 0.3
11.43 0.15
42.5 r»
21
6 18.10
0.92
86.4 8.1
2.07 0.14
28.1 0.2
11^ 0.22
40.2 S.S
81
6 17.18
l.SO
33.8 8.2
2i21 0.16
28.3 0.1
11.80 0.27
S7.9 S.4
Feb. 10
6 18.88
8.38
30.1 8.0
2.87 0.20
28.4 0.1
12.07 0.82
85.5 M
20
6 21.66
5.34
27.1 2.7
2.57 0.28
28.3 0.1
12.89 0.88
83.2 a.s
March 1
6 26.90
7.19
24.4 3.4
2.80 0.26
28.2 0.8
12.77 0.42
30.9 t.i
11
6 34.09
8.45
22.0 2.0
8.05 0.27
27.9 0.6
13.19 6.45
28.8 1.9
'21
6 42.54
9.60
20.0 1.6
8.82 0.28
27.3 0.7
13.64 0.48
26.9 1.7
81
6 52.04
10.16
18.5 0.8
3.60 0.80
26.6 0.9
14.12 0.62
25.2 1.5
April 10
7 2.20
10.42
17.7 0.2
8.90 0.81
25.7 1.0
14.64 0.58
23.7 1.8
20
7 12.62
10.19
17.5 0.4
4.21 OM
24.7 1.2
15.17 0.58
22.4 0^
80
7 22.81
9.70
17.9 1.0
4.53 0.81
23.5 1.8
15.70 0.58
21.5 0.*
May 10
7 82.51
8.85
18.9 1.6
4.84 0.81
22.2 1.8
16.23 0.58
20.9 0.S
20
7 41.36
7.69
20.5 2.1
5.15 0.82
20.9 1.8
16.76 0.49
20.6 0.S
80
7 49.05
6.30
22.6 2.6
5.47 0.38
19.6 1.8
17.25 0.47
20.8 0.4
June 9
7 55.35
4.71
25.1 2.9
5.75 0.36
18.3 1.2
17.72 0.48
21.2 as 1
19
8 0.06
3.99
2a0 8.2
6.01 0.28
17.1 1.1
18.15 0.88
22.0 1.S 1
29
8 8.05
1.18
31.2 8.4
6J24 0.20
16.0 1.0
18.53 0.81
23.2 1.6 1
July 9
8 4i23
0.68
34.6 8.6
6.44 0.16
15.0 0.8
18.84 0.25
24.7 1.7 1
26.4 t.0
19
8 3.60
3.46
88.1 8.6
6M 0.11
14.2 0.6
19.09 0.17
29
8 1.14
4.33
41.6 8.5
6.70 0.05
13.6 0.4
19.26 0.09
28.4 S.0
Aug. 8
7 56.91
6.95
45.1 8.8
6.75 0.01
13.2 0.8
19.35 0.00
30.4 M
18
7 50.96
7.50
48.4 8.0
6.76 0.02
12.9 0.1
19.35 ao7
32.5 1.0
28
7 48.46
8.92
51.4 2.8
6.74 0.07
12.8 0.0
19J28 0.13
34.5 1.8
Sept 7
7 34.54
10.19
54.2 2.4
6.67 0.10
12.8 0.1
19.15 0.20
36.8 1.7
17
7 24.35
11.27
56.6 2.0
6.57 0.12
12.9 0.2
18.95 0.24
38.0 1.4
27
7 13.08
12.08
58.6 1.6
6.45 0.15
13.1 0.8
18.71 0.29
39.4 1.0
Oct 7
7 1.00
12.66
60.2 1.1
6.30 0.16
13.4 0.8
18.42 0.82
40.4 OJt
17
6 48.34
18.00
61.8 0.6
6.14 0.16
13.7 0.4
18.10 0.31
41.0 OJ
27
6 35.34
18.08
61.9 0.0
5.99 0.18
14.1 0.4
17.79 0.29
41.3 0.1
Not. 6
6 22.31
12.76
61.9 0.4
5.86 0.12
14.5 0.8
17.50 0.26
41.1 0.6
16
6 9.55
12.12
61.5 0.9
5.74 0.10
14.8 0.4
17.24 0.22
40.5 1.0
26
5 57.43
11.19
60.6 1.6
5.64 0.06
15.2 0.3
17.02 0.16
39.5 1.4
Dec 6
5 46.24
9.96
59.1 1.9
5.58 0.02
15.5 0.4
16.86 0.10
38.1 l.«
16
5 36.28
8.88
57.2 3.4
5.56 0.01
15.9 0.8
16.76 0.08
36.5 1.9 1
26
6 27.90
6.56
54.8 2.7
5.57 0.05
16.2 0.8
16.73 0.03
34.6 1.1 ,
86
5 21.35
52.1
5.62
16.5
16.76
32.5 1
Wm.-
-BiiDnUMaiorifinl
fc Iht aiwil 4i
joTltelloalhbiC
iMallhtSidm
•10h.V^lhtll«
laSoiia; '
FIXED STARS, 1856.
289
APPABBNT PLACES
OF THE
PRINCIPAL FIXED STARS, FOR THE UPPER
TRANSIT AT WASHINGTON.
BkleiMl
a CiOHI.
61' Ctoki.
C CygnL
myof tha
Month.
W«ht AWWMlOQ.
D9o.Nmtk.
Bli^t AmmhIod.
DM.iVbrfA.
Deo.JVbnA.
h. m.
O 1
h. m.
38 i
h. m.
O 1
20 36
44 45
21 0
21 6
29 37
•. •.
W II
•. t.
H II
•. •.
« n
Jan. 1
29.05 0.04
61.6 2.6
24.48 0.08
35.5 2.8
46.63 0.02
75.3 2.1
11
29.01 0.01
59.0 2.7
24.45 0.01
33.2 2.4
46.61 0.01
73.2 2.2
21
29.02 0.05
56.3 2.9
24.44 0.06
30.8 2.5
46.60 0.05
71.0 2.8
31
29.07 0.11
53.4 2.9
24.50 0.09
28.3 2.5
46.65 0.08
68.7 2.2
Feb. 10
29.18 0.16
50.5 2.7
24.59 0.14
25.8 2.3
46.73 0.12
66.5 2.1
20
29.33 0.21
47.8 2.4
24.73 0.17
23.5 2.1
46.85 0.16
64.4 1.9
Maich 1
29.54 0.24
45.4 2.0
24.90 0.22
21.4 1.9
47.01 0.19
62.5 1.6
11
29.78 0.29
43.4 1.5
25.12 0.26
19.5 1.6
47.20 0.22
60.9 1.2
21
80.07 0.31
41.9 1.1
25.38 0.29
18.0 0.9
47.42 0.25
59.7 0.8
31
30.38 0.84
40.8 0.7
25.67 0.80
17.1 0.4
47.67 0.29
58.9 0.8
April 10
30.72 0.87
40.1 0.1
25.97 0.84
16.7 0.2
47.96 0.31
58.6 0.8
20
31.09 0.87
40.2 0.7
26.31 0.35
16.9 0.6
48.27 0.88
58.9 0.7
80
31.46 0.87
40.9 1.2
26.66 0.86
17.5 1.2
48.60 0.84
59.6 1.2
May 10
31.83 0.87
42.1 1.8
27.02 0.86
18.7 1.7
48.94 0.84
60.8 1.6
20
32.20 0.86
43.9 2.8
27.38 0.85
20.4 2.1
49.28 0.88
62.4 2.1
SO
32.56 0.88
46.2 2.7
27.73 0.88
22.5 2.7
49.61 0.80
64.5 2.4
June 9
32.89 0.28
48.9 8.0
28.06 0.81
25.2 2.9
49.91 0.28
66.9 2.7
19
33.17 0.25
51.9 8.8
28.37 0.27
28.1 8.2
50.19 0.25
69.6 2.9
29
33.42 0.20
55.2 8.4
28.64 0.28
31.3 8.8
50.44 0.22
72.5 3.0
July 9
33.62 0.15
58.6 8.5
28.87 0.18
34.6 8.4
50.66 0.19
75.5 3.0
19
33.77 0.08
62.1 8.4
29.05 0.18
38.0 3.8
50.85 0.18
78.5 8.0
29
33.85 0.08
65.5 8.8
29.18 0.09
41.3 8.8
50.98 0.09
81.5 2.9
Aug. 8
33.88 0.08
68.8 8.1
29.27 0.02
44.6 8.1
51.07 0.03
84.4 2.7
18
33.85 0.08
71.9 2.8
29.29 0.02
47.7 2.9
51.10 0.00
87.1 2.4
28
33.77 0.14
74.7 2.5
29.27 0.06
50.6 2.6
51.10 0.05
89.5 2.1
Sept 7
33.63 0.17
77.2 2.2
29.21 0.11
53.2 2.2
51.05 0.10
91.6 1.9
17
33.46 0.20
79.4 1.8
29.10 0.15
55.4 1.8
50.95 0.13
93.5 1.6
27
33.26 0.28
81.2 1.4
28.95 0.18
57.2 1.5
50.82 0.16
95.1 1.2
Oct. 7
33.03 0.25
82.6 0.9
28.77 0.19
58.7 1.1
50.66 0.17
96.3 0.8
17
32.78 0.27
83.5 0.8
28.58 0.20
59.8 0.6
50.49 0.18
97.1 0.8
27
32.51 0.26
83.8 0.1
28.38 0.22
60.4 0.1
50.31 0.18
97.4 0.0
Nov. 6
32.25 0.24
83.7 0.6
28.16 0.20
60.5 0.2
50.13 0.18
97.4 0.4
16
32.01 0.22
83.1 1.0
27.96 0.19
60.3 0.7
49.95 0.16
97.0 0.8
26
31.79 0.20
82.1 1.5
27.77 0.15
59.6 1.2
49.79 0.14
96.2 1.1
Dec. 6
31.59 0.16
80.6 1.9
27.62 0.18
58.4 1.5
49.65 0.11
95.1 1.4
16
31.43 0.11
78.7 2.2
27.49 0.09
56.9 1^
49.54 0.08
98.7 1.8
26
31.32 0.07
76.5 2.5
27.40 0.06
55.1 2.1
49.46 0.05
91.9 2.0
36
31.25
74.0
27.34
53.0
49.41
89.9
after the
» 22d of Manh It
begliitattbeSidere
al Oh. Ufo^ the I
OeanNoon.
37
290
FIXED STARS, 1856.
APPARENT PLACES OF THE PRINCIPAL FIXED STARS, FOR THE
1
UPPER
TRANSIT AT WASHINGTON.
SidMWl
a Cbphbi.
p Aquaui.
j9 CSPBSI. 1
my of the
Month.
1
1
Right IWMOllQO.
D». North,
DM.&Nrt4.
Bight iMMOllOB.
i>M.ir«rt4. '
h. m.
O 1
h. m.
O 1
h. m.
o -.*
21 15
61 58
21 23
6 11
21 26
69 55 1
Jan. 1
5.16 0.21
38.3 2.6
56.97 0.00
78.3 0.6
42.95 0.86
4^.6 U !
11
4.95 0.14
35.8 2.9
56.97 0.03
78.8 0.6
42.59 0.26
47.1 2.7 '
21
4.81 0.06
82.9 S.1
57.00 0.06
79.3 0.4
42.33 0.15
44.4 S^ 1
81
4.75 0.02
29.8 8.1
57.06 0.09
79.7 0.3
42.18 0.06
41.4 8.S '
Feb. 10
4.77 0.10
26.7 8.0
57.15 0.12
80.0 0.1
42.13 0.07
38J2S.I
20
4.87 0.19
23.7 8.0
57.27 0.16
80.1 0.0
42.20 0.18
35.1 S.I
March 1
5.06 0.25
20.7 2.7
57.42 0.17
80.1 0.2
42.38 0.30
82.0 tJ» 1
11
5.31 0.84
18.0 2.2
57.59 0.21
79.9 0.6
42.68 0.40
29.1 iJi
21
5.65 0.40
15.8 1.8
57.80 0.24
79.4 0.7
43.08 0.48
26.6 2.0
31
6.05 0.44
14.0 1.3
58.04 0.26
78.7 1.0
43.56 0.68
24.6 i.«
April 10
6.49 0.48
12.7 0.7
58.30 0.29
77.7 1.2
44.14 0.62
2S.0 1.0
20
6.97 0.62
12.0 0.0
58.59 0.29
76.5 1.4
44.76 0.66
22.0 0.4
80
7.49 0.62
12.0 0.6
58.88 0.80
75.1 1.6
45.41 0.68
21.6 0.S
May 10
8.01 0.51
12.6 1.2
59.18 0.82
73.6 1.7
46.09 0.67
21.9 1.0
20
8.52 0.61
13.8 1.9
59.50 0.32
71.9 1.8
46.76 0.66
22.9 l.«
80
9.03 0.46
15.7 2.4
59.82 0.31
70.1 1.9
47.^ 0.61
24.5 2.1 '
June 9
9.49 0.42
18.1 2.7
60.13 0.30
68.2 1.8
48.03 0.64
26.6 2.6
19
9.91 0.37
20.8 8.1
60.43 0.27
66.4 1.7
48.57 0.48
29.2 8.1 1
29
10.28 0.29
23.9 8.5
60.70 0.26
64.7 1.6
49.05 0.89
32.3 2.4
July 9
10.57 0.24
27.4 8.7
60.95 0.21
63.1 1.4
49.44 0.30
35.7 S^ 1
19
10.81 0.16
81.1 8.7
61.16 0.17
61.7 1.2
49.74 0.19
39.3 2.7 1
29
10.97 0.07
34.8 8.8
61.33 0.12
60.5 1.1
49.93 0.09
43.0 3.8 1
Aug. 8
11.04 0.01
88.6 8.6
61.45 0.08
59.4 0.8
60.02 0.02
46.8 8.8 :
18
11.03 0.09
42.2 8.6
61.53 0.03
58.6 0.6
50.00 0.12
50.6 S.7 1
28
10.94 0.18
45.7 8.2
61.56 0.00
58.1 0.4
49.88 0.22
54.3 2.5 .
Sept 7
10.76 0.23
48.9 8.0
61.56 0.06
57.7 0.2
49.66 0.82
57.8 8.2
17
10.53 0.80
51.9 2.7
61.51 0.08
57.5 0.0
49.34 0.41
61.0 2.9 ,
27
10.23 0.84
54.6 2,1
61.43 0.10
57.5 0.1
48.93 0.47
63.9 2.4 1
Oct 7
9.89 0.88
56.7 1.7
61.33 0.11
57.6 0.2
48 46 0.62
66.3 2.0 ,
17
9.51 0.41
58.4 1.8
61.22 0.13
57.8 0.4
47.94 0.67
68.3 1.5
27
9.10 0.42
59.7 0.7
61.09 0.14
58.2 0.4
47.37 0.60
69.8 1.0 1
Not. 6
8.68 0.43
60.4 0.1
60.95 0.13
58.6 0.6
46.77 0.62
70.8 0.6 '
16
8.25 0.42
60.5 0.4
60.82 0.11
59.1 0.6
46.15 0.61
71.4 0.1 ,
26
7.83 0.88
60.1 0.9
60.71 0.10
59.6 0.6
45.54 0.69
71.3 0.7
Dec 6
7.45 0.86
59.2 1.6
60.61 0.07
60.2 0.6
44.95 0.62
70.6 1.2 .
16
7.09 0.80
57.7 1.9
60.54 0X)4
60.8 0.6
44.43 0.47
69.4 1.7
67.7 2.2
26
6.79 0.24
55.8 2.8
60.50 0.02
61.3 0.6
43.96 0.41
86
6.55
53.5
60.48
61.9
43.55
65.5 '
NOTl.-
• B«rontb«23dcr]
kluvhUMSMam
Idiy or ttM Month
iMfffaM ftt th« 8kk
mlOh.i0«rth>M<
MnNooo;
FIXED STARS, 1856.
291
APPARKNT PLACES
OF THE
PRINCIPAL FIXED STABS, FOB THE BPPBB
TBAN81T AT WASHINGTON.
mOmml
• Pegad.
a Aquajui.
a Groit.
Bight iMtQikm.
D9C, North.
Dm. AmtA.
Right AMenakm.
Dm. South,
h. m.
21 37
O 1
9 12
h. m.
21 58
1 d
h. m.
21 59
47 39
Jan. 1
11
21
81
Feb. 10
5.27 0.03
5.24 0.01
5.25 0.0*
5.29 0.06
5.85 0.09
54.4 '1.2
53.2 1.2
52.0 1.2
50.8 1.2
49.6 1.1
21.75 0.04
21.71 0.01
21.72 0.02
21.74 0.05
21.79 0.08
7*1.9 0.7
72.6 0.7
73.3 0.7
74.0 0.5
74.5 0.4
6.79 0.07
6.72 0.02
6.70 0.02
6.72 0.06
6.78 t).i2
39.3 1.4
37.9 1.7
36.2 1.9
34.8 2.2
82.1 2.8
20
March 1
11
21
81
5.44 0.18
5.57 0.16
5.78 0.20
5.98 0.28
6.16 0.24
48.5 0.8
47.7 0.6
47.2 0.8
46.9 0.0
46.9 0.<
21.87 0.12
21.99 0.15
22.14 0.17
22.31 0.21
22.52 0.24
74.9 0.2
75.1 0.1
75.0 0.2
74.8 0.5
74.3 0.8
6.90 0.16
7.06 0.20
7.26 0.24
7.50 0.29
7.79 0.82
29.8 2.5
27.8 2.6
24.7 2.6
22.1 2.5
19.6 2.4
April 10
20
80
May 10
20
6.40 0.27
6.67 0.29
6.96 0.80
7.26 0.81
7.57 0.82
47.2 0.7
47.9 1.1
49.0 1.4
50.4 1.7
52.1 1.9
22.76 0.26
23.02 0.29
23.31 0.30
23.61 0.32
23.98 0.32
73.5 1.1
72.4 1.4
71.0 1.6
69.4 1.7
67.7 1.9
8.11 0.86
8.47 0.89
8.86 0.41
9.27 0.48
9.70 0.44
17.2 2.4
14.8 2.8
12.5 2.1
10.4 1.8
8.6 1.5
80
June 9
19
29
July 9
7.89 0.81
8.20 0.80
8.50 0.27
8.77 0.24
9.01 0.22
54.0 t.l
56.1 2.8
58.4 2.8
60.7 2.8
63.0 2.2
24.25 0.82
24.57 0.80
24.87 0.80
25.17 0.27
25.44 0.23
65.8 2.0
63.8 2.0
61.8 2.0
59.8 1.9
. 57.9 1.8
10.14 0.44
10.58 0.48
11.01 0.40
11.41 0.87
11.78 0.82
7.1 1.1
6.0 0.7
5.8 0.2
5.1 0.2
5.8 0.6
19
29
Aug. 8
18
28
9.23 0.17
9.40 0.18
9.58 0.09
9.62 0.08
9.65 0.01
65.2 2.1
67.3 1.9
69.2 1.7
70.9 1.6
72.4 1.8
25.67 0.19
25.86 0.15
26.01 0.11
26.12 0.06
26.18 0.01
56.1 1.6
54.5 1.4
53.1 1.2
51.9 1.0
50.9 0.7
12.10 0.28
12.38 0.22
12.60 0.15
12.75 0.10
12.85 0.08
5.8 0.9
6.7 1.8
8.0 1.6
9.5 1.7
11.2 1.8
Sept 7
17
27
Oct 7
17
9.66 0.04
9.62 0.08
9.54 0.10
9.44 0.12
9.32 0.18
73.7 1.0
74.7 0.8
75.5 0.6
76.0 0.8
76.3 0.0
26.19 0.02
26.17 0.07
26.10 0.08
26.02 0.10
25.92 0.12
50.2 0.4
49.8 0.8
49.5 0.1
49.4 0.0
49.4 0.2
12.88 0.02
12.86 0.09
12.77 0.14
12.63 0.18
12.45 0.19
13.0 2.0
15.0 1.9
16.9 1.7
18.6 1.5
20.1 1.8
27
Nov. 6
16
26
Dec. 6
9.19 0.18
9.06 0.13
8.93 0.12
8.81 0.10
a71 0.09
76.3 0.1
76.2 0.4
75.8 0.6
75.2 0.7
74.5 0.9
25.80 0.18
25.67 0.12
25.55 0.11
25.44 0.11
25.83 0.09
49.6 0.8
49.9 0.4
50.8 0.5
60.8 0.7
51.5 0.7
12.26 0.21
12.05 0.21
11.84 0.21
11.63 0.19
11.44 0.15
21.4 1.0
22.4 0.6
23.0 0.0
28.0 0.1
22.9 0.5
16
26
86
8.62 0.07
8.55 0.05
8.50
73.6 1.1
72.5 1.1
71.4
25.24 0.07
25.17 0.04
25.13
52.2 0.6
52.8 0.7
53.5
11.29 0.14
11.15 0.09
11.06
22.4 0.8
21.6 1.2
20.4
aflOTtiM
saUoribnhIt
btfflMfttthe0Men
•1 Oh. fte/of0 the 1
flMaNoon.
294
FIXED STARS, 1856.
„„™„_„»„„,.™..«. 1
FOB TBBM8 OF NUTATION INVOLVING S <[ .
i
7
51 Cephd.
oOctanis.
lUn.Min.
1
7
1
1
51 Cephei.
aOctanis.
lUre.MiiL
1 1
7 1
^
1
?
3
t
f\
R.A.
Dm.
R.A.
Dm.
R.A.
Deo.
f\
f\
BJL
Deo.
R.A.
Dee.
R.A.
Dee.
f\
0
•.
II
•.
u
8.
N
o
o
8.
II
8.
01
•.
M
0
0
-I-.018
-h.09
—.025
—.09
—.159
-.08
90
45
—.122; +.01
—.436
+.01
+.224
—.04
135
1
.014
.09
.040
.09
.151
.08
91
46
.123
.00
.435
.01
.229
.04
136
2
.009
.09
.055
.09
.143
.08
92
47
.124
.00
.433
m
.234
.04
137
3
.005
.09
.070
.09
.135
.08
98
48
.124
+.00
.431
.02
.239
.04
138
4
-h.001
.09
.085
.09
.127
.08
94
49
.124
—.01
.428
X)2
J44
XH
139
5
—.003
-h.09
—.100
—.09
—.118
—.08
95
50
—.124
—.01*
—425
+.02
+.249
—.03
140
6
.008
X)9
.115
JOS
.109
JOS
96
51
.123
J0\
421
m
.253
.03
141
7
J0\2
.09
.130
.08
.100
.08
97
52
.123
.02
417
xxs
.256
SSS
142
8
.017
.09
.144
.08
.091
.08
98
53
.122
J02
412
.03
.259
S3(2
143
9
.021
.09
.158
.08
.082
.08
99
54
.122
J02
407
XH
.252
m
144
10
—.025
-I-.09
—.172
—.08
-.073
—.09
100
55
-.121
— X)2
-401
+.04
+.255
—.02
146
11
J029
.09
.186
.08
.064
.09
101
56
.121
.03
.395
.04
.267
X)2
146
12
.033
.09
.200
.08
.055
.09
102
57
.120
.03
.389
.04
.269
X)l
147
13
.037
.08
.213
.08
J04$
J09
108
58
.119
JOS
.382
X)5
.271
m
148
14
.041
.08
.226
.08
.036
.09
104
59
.117
.04
.374
i)5
.273
—.01
U9
15
—.045
-h.08
—.239
—.08
—.026
—.09
105
60
-.115
—.04
—.365
+.05
+.274
+XK)
150 1
16
.049
.08
.251
.07
.017
J09
106
61
.114
.04
.356
.05
.275
.00
151 \
17
.053
.08
.263
.07
—.008
.09
107
62
.112
.04
.347
.06
.275
jOO
152 j
18
.056
JOS
.275
.07
-hX)02
J09
108
63
.110
.05
.338
.06
.275
X)l
153 !
19
.060
.08
.287
.07
.012
.09
109
64
.108
.05
.328
X)6
.275
m
154
20
—.065
-h.08
-*-.299
—.07
^J022
—.09
110
65
—.106
—.05
—.318
+.06
+.275
+X)1
155
21
.069
.07
.310
.07
.032
.09
111
66
.102
.06
.307
.07
.274
.02
156 ,
22
.073
.07
.320
X)6
J04\
J09
112
67
.100
.06
.296
.07
.272
.02
157
23
.076
X)7
.330
M
.050
JOS
118
68
.098
J06
.284
.07
.270
SA
158
24
X)79
X>7
.340
.06
.060
JOS
114
69
.095
JOS
.272
.07
.268
.02
159 ,
25
—.082
-hX)7
—.350
—.06
-I-.070
—.08
115
70
—.098
— X)6
-.261
+X)7
+.266
+.03
160
26
Mb
M
.359
.05
.079
.08
116
71
.090
.07
.249
SSS
.263
.03
161
27
.088
M
.368
.05
JOBS
.08
117
72
.087
.07
.237
.08
.260
X»
162
28
.091
M
.376
J05
.097
.08
118
73
.084
.07
.224
.08
.257
.04
163 '
29
X>94
.05
.383
.04
.106
.08
119
74
.080
.07
.211
X)8
.254
.04
164
SO
—.097
-»-.05
—.390
—.04
-I-.I15
—.08
120
75
—.077
—.07
—.197
+.08
+.250
+.04
lu'
31
.100
.05
.396
.04
.124
JOS
121
76
.074
.08
.183
X)9
.246
.04
166
32
.103
.05
.402
JOS
.133
.08
122
77
.070
.08
.169
.09
.242
4)5
167 I
33
.105
XH
.408
JOS
.142
.07
123
78
J06S
.08
.155
.09
.237
4)5
168
34
.107
J04
.413
.03
.150
.07
124
79
.062
.08
.141
.09
.232
SA
169 •
35
—.109
-h.04
—418
—.02
4-.158
—.07
125
80
— j059
—.08
—.126
+.09
+.227
+i)6
170 ,
36
.111
m
.423
.02
.165
.07
126
81
.055
.08
.111
.09
.221
m
171
37
.113
.03
.427
.02
.172
J06
127
82
.050
.08
.096
.09
.215
i)6
172
38
.115
.03
.430
—.01
.179
.06
128
83
J047
.09
.081
.09
.209
XM
173 .
89
.116
J03
.432
-hX)l
.186
.06
129
84
.043
.09
.066
.09
.203
X)6
174
40
-.117
-hX»
-^.434
+.01
+.193
—.06
130
85
-.039
-.09
—.051
+.09
+.196
+.07
175 '
41
.118
m
.435
JOO
.199
J05
181
86
.035
.09
.036
.09
.189
.07
176
42
.119 .02
.436
.00
.206
J05
132
87
J030
J09
.021
.09
.182
.07
177
43
.120| .01
.436
.00
.212
J05
133
88
.026
.09
-.006
.09
.175
.07
178
44
.121 j J0\
.436
.00
.218
.05
134
89
X)22
.09
+.009
.09
.167
.07
179
45
.1221 .01
.436
-h.01
+.224
—.04
135
90
—.0181— .09
+.0251 +.09
+.159
+X)8
180 ,
Non. — Wbn Um ArgnoMnt !• on the right-l
Mtttildeo
^ 1
SOLAR EPJSEMERIS, 1856. 295
AT
WASHINGTON MEAN AND APPARENT NOON. |
APPARENT
APPARENT
HOURLY
BIGHT 180SNSI0N.
DECLINATION.
MOnON.
Bmutiott
of TixiM
Semi.
SideTCBl
diameter
SSdmalTfan*
of Mew
Btto.
Ap-
Ap-
parant
Noon.
Right
for
at
Semid.
MmbNooh.
55S'
BfeuiNooii.
■km.
DeoU-
nation.
Apparent
Koon.
%^^'
CS*
Noon.
h. m. •.
8.
O 1 II
N
f.
II
m. i.
m. 8.
h. m. •.
Jan. 1
18 45 52.82
53.48
—23 2 25.5
24.9
11.045
12.11
-h 3 42.11
16 1842
1 11.10
18 42 10.83
2
18 50 17.86
18.63
22 57 21.3
20.5
11.032
13.23
4 10.53
1841
11.05
18 46 7.40
3
18 54 42.43
43.29
22 51 49.6
48.6
11.017
14.38
4 38.54
18.40
11.00
18 50 3.96
4
18 59 6.66
7.60
22 45 50.5
49.3
11.001
15.51
5 6.22
18.38
10.95
18 54 0.52
5
19 3 30.50
31.52
22 39 24.3
22.9
10.984
16.65
5 33.51
18.36
10.89
18 57 57.08
6
19 7 53.90
55.00
22 32 31.2
29.6
10.965
17.76
6 0.36
18.34
10.83
19 1 53.64
7
19 12 16.84
18.01
22 25 11.3
9.4
10.946
18.86
6 26.73
18.31
10.77
19 5 50.20
8
19 16 39.29
40.54
22 17 24.9
22.8
10.926
19.96
6 52.63
18.28
10.70
19 9 46.75
9
19 21 1.20
2.53
22 9 12.1
9.7
10.903
21.05
7 17.99
18.24
10.63
19 13 43.31
10
19 25 22.57
23.97
22 0 33.3
80.5
10.878
22.13
7 42.79
18.20
10.56
19 17 39.88
11
19 29 43.33
44.79
21 51 28.7
25.6
10.653
23.21
8 7.02
18.16
1047
19 21 36.43
12
19 84 3.50
5.02
21 41 58.7
55.3
10.828
24.26
8 30.63
18.11
10.39
19 25 32.99
13
19 38 23.05
24.64
21 31 63.4
:59.7
10.803
25.30
8 53.63
18.06
10.30
19 29 29.55
14
19 42 41.94
43.60
21 21 43.2
89.2
10.774
26.33
9 15.98
18.01
10.20
19 33 26.10
15
19 47 0.16
1.88
21 10 58.3
54.0
10.745
27.36
9 37.65
17.95
10.11
19 37 22.66
16
19 51 17.69
19.47
20 59 49.3
44.7
10.716
28.36
9 58.62
17.88
10.02
19 41 19.22
17
19 55 34.51
36.34
20 48 16.0
11.0
10687
29.36
10 18.88
17.81
9.92
19 45 15.78
18
19 59 50.59
52.47
20 36 19.3
14.0
10.657
30.32
10 38.40
17.73
9.83
19 49 12.34
19
20 4 5.94
7.87
20 23 59.2
53.5
10.626
31.29
10 57.18
17.64
9.73
19 53 8.89
20
20 8 20.54
22.52
20 11 163
10.3
10.595
32.23
11 15.20
17.55
9.63
19 57 5.46
21
20 12 34.38
36.40
19 58 10.7
4.4
10.562
33.18
11 32.50
17.45
9.53
20 1 2.01
22
20 16 47.46
49.52
19 44 42.8
36.1
10.530
34.09
11 49.02
17.36
9.43
20 4 58.57
23
20 20 59.77
:61.87
19 30 52.8
45.8
10.498
35.00
12 4.75
17.24
9.32
20 8 55.13
24
20 25 11.29
13.43
19 16 41.3
34.0
10.465
35.88
12 19.72
17.12
9.22
20 12 51.68
25
20 29 22.03
24.21
19 2 8.4
0.8
10^2
36.78
12 33.90
17.01
9.10
20 16 48.24
26
20 33 31.98
34.19
18 47 14.8
6.9
10.399
37.64
12 47.28
16.88
8.99
20 20 44.80
27
20 37 41.15
43.38
18 31 60.6
52.3
10.366
38.50
12 59.90
16.76
8.88
20 24 41.35
28
20 41 49.53
51.79
18 16 26.2
17.6
10.333
39.33
13 11.72
16.63
8.77
20 28 37.91
29
20 45 57.11
59.40
18 0 32.0
23.1
10.300
40.15
13 22.72
16.49
8.64
20 32 3447
80
20 50 3.89
6.20
17 44 18.6
9.4
10.267
40.94
13 32.94
16.34
8.53
20 36 31.02
31
20 54 9.87
12.19
17 27 46D
36.6
10.233
41.73
13 42.35
16.19
841
20 40 27.58
Feb. 1
20 58 15.04
17.38
17 10 54.8
45.1
10.200
4249
13 50.95
16.04
8.30
20 44 24.14
2
21 2 19.40
21.75
16 53 45.5
35.5
10.166
43.25
13 58.76
15.89
8.19
20 48 20.69
3
21 6 22.95
25.32
16 36 18.5
8.3
10.133
43.98
14 5.74
15.73
8.07
20 52 17.25
4
21 10 25.68
28.06
16 18 33.8
23.3
10.099
44.71
14 11.90
15.57
7.95
20 56 13.81
5
21 14 27.60
29.98
16 0 32.3
21.6
10X)65
45.39
14 17.27
15.42
7.84
21 0 10.36
6
21 18 28.71
31.09
15 42 14.3
3A
lOJOSO
46.08
14 21.82
15.24
7.72
21 4 6.92
7
21 22 29.01
31.39
15 28 40.2
29.1
9.997
46.74
14 25.56
15.07
7.61
21 8 3.47
8
21 26 28.49
30.88
15 4 50.3
39.0
9.963
47.39
14 2847
14.88
7.50
21 12 0.03
9
21 30 27.16
29.55
14 45 45.4
33.9
9.930
48.01
14 30.58
14.71
7.39
21 15 56.59
10
21 34 25.04
27.42
14 26 25.5
13.9
9.896
48.62
14 31.91
14.53
7.28
21 19 53.15
11
21 38 22.13
24.50
14 6 51.2
89.4
9.862
49.20
14 32.44
14.35
7.17
21 23 49.70
12
21 42 18.42
20.79
13 46 63.1
:51.2
9.828
49.77
14 32.16
14.16
7.06
21 27 46.26
13
21 46 13.91
16.27
13 26 61.5
:49.4
9.695
50.32
14 31.08
13.97
6.95
21 31 42.81
14
21 50 8.63
10.98
13 6 46.9
34.7
9.766
50.86
14 29.21
13.78
6.84
21 35 39.37
15
21 54 2.59
4.93
12 46 19.7
7.5
9.734
51.37
14 26.63
13.59
6.73
21 39 35.92
16
21 57 55.81
58.13
12 25 40.2
27.9
9.703
51.88
14 23.28
13.39
6.63
21 43 3248
17
22 1 48.30
50.60
12 4 49.1
36.7
9.671
52.36
14 19.21
13.19
6.53
21 47 29.03
18
22 5 40.06
42.34
11 43 463
34.0
9.642
52.83
14 14.40
12.98
644
21 51 25..59
19
22 9 31.13
33.39
11 22 33J0
20.4
9.614
53.26
14 8.92
12.77
6.34
21 55 22.14
20
22 fS 21.52
23.76
11 0 68.7
:56.l
9.587
63.71
14 2.75
12.55
6.24
91 59 18.70
21
22 17 11.25
18.45
10 39 34.3
21.8
9.559
54.12
18 55.93
12.34
6.14
2^ 3 15.25
22
22 21 0.33
2.51
10 17 50X)
37.5
9.532
54.52
13 4843
12.10
6.04
22 7 11.81
23
22 24 48.77
50.92
9 55 56.1
43.6
9.507
54.90
13 40.34
11.86
6.95
22 11 8.36
24
22 28 36.60
38.73
9 38 53A
40.9
9482
65.29
13 31.61
11.63
5.85
22 15 4.91
25
22 32 23.86
26.96
9 11 42.1
29.7
9457
55.64
13 22.30
11.40
5.76
22 19 147
26
22 36 10.55
12.62
8 49 224
10.1
9.433
55.99
13 1243
11.16
5.67
22 22 58.02
27
22 39 56.68
58.72
8 26 54.6
42.4
-9410
56.30
13 1.99
10.91
5.59
22 26 54.58
28
22 43 42.28
44.29
8 4 19.2
7.1
9.388
56.62
12 51X)4
10.67
5.52
22 30 51.13
29
22 47 27.37
29.34
7 41 36.8
24.8
9.368
66.89
12 39.58
10.43
5.45
22 34 47.68
SO
22 51 11.97
13.90
7 18 47.7
35.8
9.348
57.17
12 27.62
10.18
6.37
22 38 44.24
31
22 54 56.07
57.97
— 6 55 52.1
40.4
9.328
67.43
4-12 15.16
16 9.92
1 5.30
22 42 40.80
Non. — for JMmii Interral of 8emidluB«tw pMriDf ttM IfMdiM^ Mbtnet 0f.l8 ftmn tbe Odareal I^^
296 SOLAR EPHEMERIS, 1856.
AT WASHINGTON
MEAN AND .
/APPARENT NOON.
APPARENT
APPARENT
H0T7RLT
1
RIQHT A8GBNSI0N.
DECLINATION.
MOnON.
Equation
of Time
for
BtoA-
Sidaiaal
Dftto.
diametar
Time of
Semid.
BSSf
Noon. 1
BtanNoon.
Ap.^
IbuiNooii.
Ap.
parant
Noon.
Right
Afloen-
rion.
Decli-
nation.
h. m. •.
•.
— 7 18 4*7.7
ff
•.
57.17
m. •.
1 n
m. a.
h. m. a.
Mar. 1
22 51 11.97
13.90
35.8
9.348
4-12 27.62
16 10.18
1 5.87
22 38 44.S4
2
22 54 56.07
57.97
6 55 52.1
40.4
9.328
57.43
12 15.16
9.92
5.30
22 4S 40.80
3
22 58 39.71
41.57
6 32 50.6
39.1
9.308
57.69
12 2.26
9.66
5.23
22 46 37-35
4
23 2 22.90
24.72
6 9 43.5
32.2
9.290
57.89
11 48.90
9J39
5.16
22 50 33J0
5
23 6 5.65
7;43
5 46 31.2
20.0
9.272
58.10
11 35.09
9.14
5.10
22 54 9046
6
23 9 47.99
49.73
5 23 14.5
3.5
9.256
58.29
11 20.87
8.88
5.04
22 58 27i)I 1
7
23 13 29.91
31.62
4 59 53.2
42.4
9.240
58.48
11 6.24
8.62
4.98
23 2 2336'
8
23 17 11.47
13.13
4 36 28.1
17.5
9.224
58.63
10 51.22
8.36
4.93
23 6 2ai2
9
23 20 52.64
54.26
4 12 59.5
49.1
9.208
58.77
10 35.85
8.11
4.88
23 10 16.67 j
10
23 24 33.47
35.05
3 49 27.8
17.6
9.194
58.87
10 20.12
7.85
4.84
23 14 13^
11
23 28 13.96
15.50
3 25 534
43.4
9.181
58.97
10 4.07
7.59
4.79
23 18 9.78 1
12
23 31 54.12
55.61
3 2 16.9
7.2
9.168
59M
9 47.67
7.33
4.75
23 22 6^
IS
23 35 33.98
35.43
2 38 38.2
28.7
9.155
59.15
9 30.99
7.06
4.70
23 26 2.89;
14
23 39 13.59
15.00
2 14 58.2
49.0
9.144
59.18
9 14.05
6.79
4.66
23 29 5944 ,
15
23 42 52.93
54.29
1 51 17.1
8.2
9.134
59J3
8 56.82
6.53
4.63
23 33 56XM>;
16
23 46 32.03
33.35
1 27 35.2
26.6
9.124
59.25
8 39.37
6.26
4.59
23 37 5235
17
23 50 10.90
12.17
1 3 52.8
44.5
9.115
59.28
8 21.70
6.00
4.56
23 41 49.10 ,
18
23 53 49.60
50.83
— 0 40 10.4
24
9.107
59.27
8 3.84
6.73
4.53
23 45 45.65
19
23 57 28.13
29.32
+ 0 16 28.3
20.6
9.102
59.25
7 45.83
547
4.51
23 49 42^1
20
0 1 6.52
7.65
0 7 13.2
20.6
9.097
69.21
7 27.65
5.20
449
23 53 38.76 !
21
0 4 44.77
45.86
0 30 53.8
60.9
9.091
59.17
7 9.35
4.92
447
23 57 35.29 j
22
0 8 22.91
23.96
0 54 33.1
89.9
9.087
69.10
6 50.95
4.64
447
0 1 31.87
23
0 12 0.99
1.99
0 18 10.6
17.1
9.085
59.04
6 32.50
4.36
445
0 5 2842
24
0 15 39.03
39.98
0 41 46.3
52.5
9.084
58.95
6 13.99
4.08
446
0 9 24JS
25
0 19 17.05
17.95
2 5 19.6
35.5
9.084
58.84
5 5545
3.79
447
0 13 2133
26
0 22 55.06
55.92
2 28 50.3
55.9
9.084
58.71
5 36.92
3.51
447
0 17 18.08 !
27
0 26 33.08
33.89
2 52 18.1
23.3
9.085
58.58
5 18.39
3.23
447
0 21 14.64
28
0 30 11.15
11.92
3 15 42.6
47.5
9.087
5844
4 59.93
2.94
447
0 25 11.19
29
0 33 49.28
50.00
3 39 3.5
8.1
9.090
68.28
4 4149
2.65
4.47
0 29 7.74 '
SO
0 37 27.49
28.16
4 2 20.4
24.7
9X)94
58.11
4 23.13
2.37
447
0 38 4.30
31
0 41 6.80
6.42
4 25 33.2
37.2
9.098
57.93
4 4.89
2.09
4.48
0 37 085
Apr. 1
0 44 44.22
44.79
4 48 41.1
44.7
9.102
57.72
3 46.75
1.81
4.50
0 40 5741
2
0 48 22.78
23.29
5 11 44.1
47.4
9.108
57.51
3 28.75
1.53
4.53
0 44 53.96
3
0 52 1.48
1.96
5 34 41.6
44.6
9.116
57.27
3 10.91
1.25
4.55
0 48 50 52
4
0 55 40.34
40.77
5 57 33.4
36.1
9.123
57.02
2 53.22
0.98
4.57
0 52 47.07 ;
5
0 59 19.40
19.81
6 20 18.9
21.3
9.130
56.76
2 35.74
0.70
4.59
0 56 43.6i
6
r 2 58.64
59.01
6 42 58.0
60.1
9.138
6647
2 1842
042
4.63
1 0 40.18
7
1 6 38.09
38.40
7 5 30.1
31.9
9.146
56.18
2 1.32
16 0.15
4.67
1 4 36.79 1
8
1 10 17.76
18.02
7 27 54.9
b6.4
9.156
55.87
1 44.44
15 59.88
4.61
1 8 33.28
9
1 13 57.67
57.89
7 50 12J!
13.5
9.167
55.55
1 27.79
59.61
4.75
1 12 29.84
10
1 17 37.82
38.00
8 12 21.3
22.5
9.178
55.21
1 11.42
59.34
4.78
1 16 2639 '
11
1 21 18.23
18.37
8 34 22.0
22^
9.189
54.85
0 55.29
69.07
4.83
1 20 2235
12
1 24 58.92
59.02
8 36 14.2
14.8
9.201
5448
0 39.44
58.80
4.88
1 24 1930
13
1 28 39.92
39.99
9 17 57.2
67.5
9.214
54.10
0 23.90
58.54
4.92
1 28 16.05
14
1 32 21.24
21.26
9 39 80.9
31.0
9.228
53.70
4- 0 8.65
58.28
4.97
1 32 12.61
15
1 36 2.91
2.90
10 0 55.1
55.0
9.243
53.30
— 0 6.25
58.02
5.02
1 36 9.16
16
1 39 44.91
44.86
10 22 9.1
8.8
9.257
52.88
0 20.80
57.76
5.07
1 40 5.72
17
1 43 27.28
27.20
10 43 12.8
12.3
9.273
52.44
0 34.97
57.50
5.13
1 44 2^7 i
18
1 47 10.03
9.91
10 4 5.9
5.1
9.289
51.99
0 48.77
57.24
5.19
1 47 58.82 '
19
1 50 53.19
53.03
11 24 47.9
46.9
9.307
51.52
1 2.17
56.98
5J24
1 51 55.38
20
1 54 36.77
36.58
11 45 18.8
17.7
9.324
51.04
1 15.15
56.72
5.34
1 55 51.94
21
1 58 20.78
20.55
12 5 38.1
37.0
9.342
50.55
1 27.68
5646
5.37
1 59 48.49
22
2 2 5.24
4.98
12 25 45.6
44.5
9.360
50.06
1 39.79
56.20
544
2 3 45.05 1
23
2 5 60.17
49.88
12 45 41.0
39.9
9.380
49.56
1 6141
55.94
5.50
2 7 41.60
24
2 9 35.57
35.24
13 5 24.0
22.8
9.399
49.02
2 2.58
55.68
5.57
2 11 38J6
25
2 13 21.47
21.12
13 24 54.2
52.8
9.422
4849
2 13.23
5543
5.64
2 15 34.71
26
2 17 7.88
7.50
13 44 11.3
9.7
9.444
47.94
2 23.38
55.18
5.71
2 19 31.27 J
27
2 20 54.81
54.40
14 3 15.0
13.2
9.465
47.38
2 33.00
54.93
5.79
2 23 27.82
28
2 24 42.28
41.84
14 22 4.9
2.9
9.487
46.79
2 42.08
54.68
5.86
2 27 24.38
29
2 28 30.27
29.81
14 40 40.8
38.6
9.510
46.20
2 50.63
54.43
5.94
2 31 20.93
30
2 32 18.81
18.34
14 59 2.4
0.1
9.633
45.60
2 58.66
54.19
6.02
2 35 1749
31
2 36 7.90
^7.41
4-15 17 9.1
6.8
9.556
44.99
— 3 6.13
15 53.95
1 6.09
2 39 14,04
Nou. —For Uktm Intarfal of SamUiametar paMlog tha Meridian, aabtraot Oi.18 firam tha Sidanal IntorraL
SOLAR EPHEMERIS, 1856. 297
AT WASHINGTON MEAN AND APPARENT NOON.
APPARENT
BIGHT ASCENSION.
MmuNooil
2 36 7.90
2 39 57.55
2 43 47.74
2 47 38.51
2 51 29.84
2 55 21.73
2 59 14.16
3 3 7.16]
3 7 0.81
3 10 54.83
3 14 49.50
3 18 44.73
3 22 40.54
3 26 36.89
3 30 33.80
3 34 31.25
3 38 29.27
3 52 27.82
3 46 26.94
3 50 26.60
8 54 26.78
3 58 27.51
4 2 28.78
6 30.60
10 32.93
14 35.76
18 39.09
22 42.92
26 47J1
30 51.96
4 34 57.15
4 39 2.75
4 43 8.76
4 47 15.17
4 51 21.91
55 28.98
59 36.37
8 44.05
7 51.97
11 60.13
16 8.51
90 17.12
24 25.89
28 34.81
32 43M
4
4
6
5
5
5
5
5
5
5
6 36 53.04
5 41 2J)2
5 45 11.65
5 49 21.03
5 53 30.47
5 57 39.91
6 1 49.37
6 5 58.80
6 10 8.19
6 14 17.52
6 18 26.77
6 22 35.92
6 26 44.91
6 30 53.75
6 35 2.42
6 89 10.86
6 43 19.09
parent
Noon.
7.41
57.04
47.21
37.96
29.28
21.15
13.57
6.55
0.09
54.21
48.88
44.11
39.91
36.26
33.17
30.62
28.63
27.19
26.31
25.97
26.17
26.91
28.19
30.02
32.36
35.21
38.56
42.41
46.72
51.49
56.71
2.33
8.37
14.81
21.58
28.68
36.10
43.81
51.76
59.96
8.39
17.02
25.83
34.78
43.86
53.08
2.40
11.76
21.18
30.65
40.13
49.63
59.10
8.53
17.89
27.18
36.36
45.39
54.27
2.97
1U5
19.70
APPARENT
DECLINATION.
MmuNooo.
-hl5 17 9.1
15 34 60.9
15 52 37J3
16 9 57.8
16 27 2.4
16 43 50.7
17 0 22.1
17 16 36.4
17 32 33.3
17 48 12.6
18 3 33.9
18 18 37.0
18 33 21.8
18 47 47.7
19 1 54.4
19 15 41.8
19 29 9.6
19 42 17.7
19 55 5.8
20 7 33.5
20 19 40.7
20 31 27.0
20 42 52.4
20 53 56.6
21 4 39.4
21 14 60.6
21 24 59.8
21 34 36.9
21 43 51.7
21 52 43.8
22 1 13.2
22 9 19.8
22 17 3.0
22 24 22.9
22 31 19.4
22 37 52.3
22 44 1.3
22 49 46.3
22 55 7.2
23 0 3.9
23 4 36.4
23 8 44.5
23 12 28.1
23 15 47.2
23 18 41.6
23 21 11.6
23 23 16.9
23 24 57.6
23 26 13.4
23 27 4.4
23 27 30.6
23 27 32.2
23 27 9.1
23 26 21.2
23 25 8.5
23 23 31.1
23 21 29.Q
23 19 24
23 16 11.1
23 12 55.4
23
-4-23
9 15.1
6 10.5
Ap-
parent
Noon.
6.8
58.5
34.9
55.4
0.0
48.3
19.7
33.9
30.8
10.2
31.5
34.6
19.4
45.3
52.0
39.5
7.4
15.6
3.8
31.6
38.9
25.3
50.8
55.0
37.9
59.2
58.5
35.7
50.6
42.8
12.3
19.0
2.3
22.3
18.9
51.8
0.9
46.0
6.9
8.7
36.2
44.4
28.0
47.2
41.6
11.6
16.9
57.6
13.4
4.4
30.6
32.2
9.1
21.1
8.3
30.9
28.7
2.1
10.7
54.9
14.5
9.9
HOURLY
MOTION.
Right
Aeeen-
cion.
9.556
9.579
9.602
9.625
9.649
9.672
9.696
9.719
9.742
9.766
9.789
9.813
9.836
9.859
9.882
9.905
9.928
9.951
9.973
9.996
10.018
10.041
10.063
10.085
10.107
10.128
10.149
10.169
10.189
10.207
10.225
10.243
10.259
10275
10.289
10.303
10.315
10.325
10.335
10.345
10.354
10.363
10.369
10.374
10.380
10.385
10.389
10.390
10.392
10.393
10.394
10.394
10.392
10.390
10.388
10.382
10.378
10.372
10.364
10.356
10.348
10.338
BecU.
44.99
44.34
43.69
43.02
42.36
41.67
40.97
40.24
39.51
38.77
38.02
37.26
3648
35.69
34.89
34.08
33.26
32.43
31.60
80.74
29.88
29.01
28.14
27.24
26.35
25.44
24.52
23.60
22.66
21.72
20.77
19.80
18.83
17.85
16.88
15.88
14.88
13.88
12.88
11.87
10.86
9.84
8.82
7.78
6.75
5.73
4.71
3.68
2.64
1.62
0.59
0.44
1.48
2.50
3.52
4.55
5.58
6.61
7.64
8.65
9.67
10.68
EqoAtion
or Time
for
Apparent
Koon.
m. f.
- 8 6.13
3 13.04
3 19.41
3 25.19
8 30.42
3 35.08
3 39.21
3 42.76
3 45.77
8 48.22
8 50.11
3 51.44
8 52.19
8 52.40
8 52.04
8 51.15
8 49.69
8 47.69
8 45.14
8 42.04
8 38.42
8 84.24
8 29.52
8 24.27
8 18.48
8 12.22
8 5.45
2 58.17
2 50.44
2 42.25
2 33.62
2 24.58
2 15.13
2 5.28
1 55.08
1 44.58
I 33.75
1 22.63
1 11.28
0 59.66
0 47.83
0 35.77
0 23.56
- 0 11.20
h 0 1.29
0 13.90
0 26.62
0 39.42
0 52.25
1 5.12
1 18.00
1 30.1
1 43.78
1 56.62
2 9.39
2 22.09
2 34.68
2 47.11
2 59.38
8 11.47
3 23 35
h 3 35.03
Semi-
Sidexeal
diameter
Time of
at
Semid.
^K"'
tt*
1 If
m. •.
15 53.95
1 6.09
53.72
6.17
53.48
6.25
53.25
6.34
53.02
6.42
62.79
6.49
52.57
6.59
52.36
6.67
62.15
6.76
51.94
6.84
51.73
6.92
51.51
7.01
61.31
7.09
51.18
7.18
60.99
7.26
60.80
7.84
60.61
7.42
50.42
7.50
50.24
7.58
50.06
7.66
49.88
7.73
49.71
.7.81
49.54
7.88
49.37
7.94
49.20
SJOl
49.04
8.08
48.88
8.14
48.72
8.21
48.56
8.26
48.41
8.32
48.27
8.38
48.13
8.44
47.99
8.49
47.89
8.55
47.77
8.60
47.65
8.65
47.54
8.70
47.43
8.74
47.33
8.77
47.23
8.82
47.14
8.85
47.06
8.87
46.99
8.90
46.89
8.91
46.81
8.93
46.73
8.95
46.66
8.96
46.61
8.97
46.55
8.97
46.49
8.98
46.43
8.98
46.38
8.98
46.33
8.97
46.29
8.97
46.25
8.96
46.21
8.94
46.17
8.93
46.16
8.89
46.13
8.86
46.11
8.83
46.09
8.80
15 46.08
1 8.76
Sidereal Time
of Mean
Noon.
h. m. •.
2 89 14.04
2 43 10.60
2 47 7.16
2 51 8.71
2 65 0.27
2 58 56.82
8 2 53.38
8 6 49.93
8 10 4649
8 14 43.05
8 18 89.61
3 22 36.16
8 26 32.72
8 30 29J28
8 84 25.83
3 38 22.39
8 42 18.95
8 46 15.50
3 50 12.06
8 54 8.62
8 58 5.18
4 2 1.73
4 5 5829
4 9 54.85
4 18 51.40
4 17 47.96
4 21 44.5i2
4 25 41.07
4 29 37.63
4 33 34;19
4 37 30.75
4 41 27J31
4 45 23.87
4 49 20.43
4 53 16.97
4 57 13.54
5 1 10.10
5 5 6.66
5 9 3.22
5 12 59.78
5 16 56.34
5 20 52.89
5 24 4945
6 28 46.01
5 32 42.57
5 36 89.13
5 40 35.69
5 44 32.24
5 48 28.79
5 52 25.36
5 56 21.92
6 0 18.48
6 4 15.04
6 8 11.60
6 12 8.16
6 16 4.71
6 20 1.27
6 23 57.83
6 27 54.39
6 31 50.95
6 85 47.51
6 39 44.07
Nora. — ftor JCnm IhtamJ of Semldlametar
38
paarfng the Meildkn, aabtiMt 0i.l8 from (b» Sidereal InlirfBL
298 SOLAR EPHEMERIS, 1856.
AT WASfflNGTON MEAN AND APPARENT NOON.
July 1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
Aug. 1
2
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
SO
31
APPARENT
RIGHT ASCENSION.
MeaaNo<»L
h. m. 8.
6 43 19.09
6 47 27.03
6 51 84.70
6 55 42.07
6 59 49.12
7 3 65.78
7 8 2.05
7 12 7.91
7 16 13.37
7 20 18^9
24 22.96
28 27.07
32 30.70
36 33.83
40 36.45
44 38.55
48 40.13
52 41.19
56 41.71
0 41.70
7
7
7
7
7
7
7
7
7
8
8 4 41.15
8 8 40.03
8 12 88.35
8 16 36.12
8 20 33.33
8 24 29.97
8 28 26.02
8 32 21.50
8 36 16.38
8 40 10.66
8 44 4.35
8 47 57.44
8 51 49.93
8 55 41.82
8 59 33.09
9 3 23.75
9 7 13.80
9 11 3.24
9 14 52.06
9 18 40.30
9 22
9 26
9 30
9 33
9 37
9 41
9 45
9 48
9 52
9 56
27.94
15.00
1.50
47.42
32.80
17.64
1.95
45.75
29.05
11.90
9 59 54.28
10 3 36.19
10 7 17.65
10 10 58.69
10 14 39.33
10 18 19.57
10 21 59.43
10 25 38.94
10 29 18.08
10 32 56.89
10 36 35.37
10 40 13..53
parent
Noon.
19.70
27.68
35.39
42.79
49.85
56.54
2.84
8.75
14.21
19.26
23.83
27.96
31.61
34.75
37^9
39.50
41.10
42.17
42.70
42.70
42.16
41.05
39.36
37.15
34.35
30.99
27.03
22.51
17.38
11.65
5.33
58.40
50.88
42.75
34.01
24.65
14.68
4.11
52.91
41.12
28.74
15.76
2.23
48.12
33.47
18.28
2.56
46.33
29.60
12.40
54.75
36.62
18.04
59.04
39.64
19.84
59.66
39.12
18.22
56.98
35.42
13.53
APPARENT
HOURLY
DECLINATION.
MOTION.
MMnNoon.
Ap.
pax«nt
Noon.
Right
Aaoen-
Bion.
DeeU.
nation.
O 1 H
H-23 5 10.5
"9.9
10.338
10.68
23 0 41.6
40.9
10.327
11.69
22 55 48.7
47.9
10.314
12.68
22 60 31.8
30.9
10.301
13.68
22 44 51.0
50.0
10.286
14.67
22 38 46.3
45.2
10.271
15.67
22 32 18.2
17.0
10.255
16.66
22 25 26.8
25.5
10.238
17.62
22 18 12.1
10.7
10.220
18.58
22 10 34.4
32.9
10.202
19.53
22 2 33.7
32.0
10.183
20.49
21 54 10.4
8.6
10.163
21.42
21 45 24.5
22.6
10.142
22.36
21 36 16.6
14.6
10.120
23.28
21 26 46.7
44.6
10.099
24.20
21 16 55.0
52.8
10.078
25.10
21 6 41.4
39.1
10.056
25.99
20 56 6.6
4.1
10.034
26.87
20 45 10.5
7.9
10.011
27.76
20 33 53.5
50.7
9.989
28.63
20 22 15.7
12.8
9.966
29.50
20 10 17.5
14.5
9.944
30.33
19 57 58.8
55.7
9.920
31.18
19 45 20.2
17.0
9.897
32.01
19 32 21.8
18.6
9.873
32.84
19 19 3.9
0.6
9.850
33.64
19 5 26.6
23.2
9.826
34.44
18 51 30.5
27.0
9.800
3.5.21
18 37 15.4
11.9
9.775
36.00
18 22 41.9
38.3
9.750
36.75
18 7 50.3
46.7
9.725
37.51
17 52 40.9
37.2
9.700
38.24
17 37 13.9
10.1
9.675
38.98
17 21 29.8
26.0
9.649
39.68
17 5 28.6
24.8
9.624
40.39
16 49 10.7
6.8
9.598
41.07
16 32 36.6
32.7
9.573
41.75
16 15 46.7
42.8
9.548
42.39
15 58 41.0
37.2
9.522
43.04
15 41 20.0
16.2
9.497
43.67
15 23 44.0
40.3
9.474
4430
15 5 53.5
49.9
9A50
44.90
14 47 48.4
44.8
9.426
45.49
14 29 29.3
25.8
9.403
46.07
14 10 56.3
52.9
9.380
46.66
13 52 9.9
6.7
9.358
47.20
13 33 10.3
7.2
9.337
47.75
13 13 57.9
54.9
9.316
48.28
12 54 32.8
30.0
9.295
48.80
12 34 55.3
52.7
9.275
49.30
12 15 5.5
3.0
9.255
49.81
11 55 4.3
2.0
9.236
50.28
11 34 51.6
49.4
9.219
50.75
11 14 27.7
25.7
9.202
51.20
10 53 52.8
51.0
9.185
51.66
10 33 7.7
6.1
9.169
52.09
10 12 12.2
10.8
9.154
52.51
9 51 6.9
5.7
9.139
52.89
9 29 52.1
51.1
9.124
53.29
9 8 28.0
27.3
9.110
53.66
8 46 54.9
54.5
9.094
54.04
-h 8 25 13.7
13.8
9.083
54.38
Eooatlon
oxTinw
for
ADpartnt
Noon.
3 35.03
3 46.42
3 57.54
4 8.36
4 18.85
4 28.94
4 38.65
4 47.97
4 56.86
5 5.35
6 13.35
5 20.89
5 27.96
5 34.54
6 40.59
5 46.13
5 51.15
5 55.66
5 59.60
6 3.04
6 5.92
6 8.23
6 10.00
6 11.21
6 11.86
6 11.94
6 11.42
6 10.37
6 8.69
6 6.42
3.54
0.07
56.00
51.32
46.01
40.13
33.63
26.50
18.76
10.45
5 1.53
4 52.03
4 41.99
4 31.36
4 20.18
4 8.48
3 56.22
3 43.49
3 30.24
3 16.52
3 2.34
2 47.69
2 32.59
2 17.08
.2 1.17
1 44.87
1 28.17
1 11.13
0 53.72
0 35.98
0 17.90
0 0.49
Semi.
SIderad
diameter
Time of
at
Scanid.
^?Kr*
K5?
f a
m. •.
15 46.08
1 8.76
46.07
8.72
46.08
8.67
46.08
8.62
46.11
8.57
46.13
8.52
46.16
8.47
46.19
8.43
46.22
8.38
46.27
8.33
46.31
8.26
46.37
8.19
46.42
8.13
46.47
»M
46.53
7.99
46.60
7.92
46.68
7.84
46.76
7.77
46.82
7.68
46.90
7.61
46.99
7.53
47.05
7.45
47.15
7.87
47.23
7.29
47.33
7.20
47.42
7.12
47.52
7.03
47.63
6.93
47.74
6.84
47.85
6.75
47.97
6.67
48.11
6.58
48.24
6.49
46.37
6.40
48.51
6.32
48.67
6.24
48.83
6.15
48.99
6.07
49.15
6.99
49.32
5.90
49.50
5.82
49.68
5.74
49.85
5.66
50.02
5.58
50.19
5.50
50.37
5.43
50.57
5.35
50.75
5.28
50.93
5.21
51.11
5.13
51.33
5.06
51.53
4.99
51.74
4.92
51.94
4.86
52.13
4.80
52.36
4.74
52.56
4.68
52.77
4.63
52.98
4.59
53.20
4.53
53.43
4.49
15 53.65
1 4.44
ader«alTli
oritau
Noon.
h. Bu a.
6 39 44J0I7
6 43 40.63
6 47 37.18
6 51 33.74
6 55 30.30
6 59 26^
7 3 23.42
7 7 19S7
7 11 16^
7 15 13i>9
7 19 9.65
7 2S 6.21
7 27 2.77
7 30 59.32
7 34 55.88
7 38 52.44
7 42 49.00
7 46 45.55
7 50 42.12
7 54 38.67
7 58 35.23
8 2 31.79
8 6 8834
8 10 24.90
8 14 21.46
8 18 ISJOl
8 22 14.57
8 26 11.13
8 30 7.69
8 34 4.24
8 38 080
8 41 57.36
8 45 53.91
8 49 5047
8 53 47JM
8 57 43.58
9 1 40.14
9 5 36.70
9 9 33.25
9 13 29.81
9 17 26^7
9 21 2232
9 25 19.48
9 29 16X>3
9 33 12.59
9 37
9 41
9 45
9 48
9 52
9 56
10 0
10 4
10 8
10 12
9.14
5.70
2.25
58.81
55.37
51.92
48.47
45.03
41.58
38.14
10 16 34.69
10 20 31.25
10 24 27.80
10 28 2436
10 32 20.91
10 36 17.47
10 40 14iX2
NoTB. —For M^an Tnterral of SomidUmeter pMidnK the Meridian, subtnet 0s.l8 firom ib» Sidereal Interra^.
SOLAR EPHEMERIS, 1856. 299
AT
WASHINGTON
MEAN AND APPARENT NOON. |
APPARENT
APPARENT
HOURLY
RIGHT ASCENSION.
DECLINATION.
MOTION.
Equatloa
of Time
for
Semi-
Sidexeal
Bate.
diameter
Time of
Semid.
Sidereal Time
of Mean
Noon.
Mean Noon.
nSS.
BbanNoon.
%ora!
Righl
AMeii-
Bioa.
Doom
nadon.
1l m. I.
s.
O 1 N
If
f.
H
m. B.
1 II
m. a.
h. m. a.
Septl
10 43 51.39
51.34
-h 8 8 24.2
24.4
9.072
54.72
— 0 19.17
15 53.89
1 4.39
10 44 10.57
2
10 47 28.94
28.85
7 41 26.9
27.4
9X)59
55.03
0 38.18
64.12
4.35
10 48 7.13
3
10 51 6.21
6.07
7 19 22.0
22.8
9.047
55.35
0 57.45
54.36
4.31
10 52 3.68
4
10 54 43.20
43.01
6 57 10.3
11.4
9.036
65.63
1 17.02
64.62
4.28
10 56 0.24
5
10 58 19.95
19.71
6 34 51.7
53.1
9.027
55.91
1 36.80
54.87
4.24
10 59 66.79
6
11 1 56.50
56.21
6 12 26.7
28.4
9.018
56.15
1 56.80
55.12
4.22
11 3 53.34
7
11 5 32.82
32.48
5 49 55.6
57.4
9.009
56.41
2 17.04
55.37
4.19
11 7 49.90
8
11 9 8.93
8.53
5 27 19.0
21.1
9.001
56.64
2 3748
55.63
4.16
11 11 46.46
9
11 12 44.87
44.42
5 4 37.0
39.5
8.993
56.87
2 58.11
65.88
4.14
11 15 43.01
10
11 16 20.67
20.17
4 41 49.8
52.9
8.989
57J07
3 18.86
66.14
4.12
11 19 39.56
11
11 19 56.33
55.78
4 18 57.9
61.4
8.984
57.26
3 39.76
6641
4.11
11 23 36.12
12
11 23 31.86
31.26
3 56 1.6
6.5
8.979
67.43
4 0.76
66.67
4.09
11 27 32.67
13
11 27 7.32
6.67
3 33 1.1
5.3
8.975
57.61
4 21.83
66.93
4.08
11 31 29.22
U
11 30 42.71
42.01
3 9 56.7
61.2
8.972
57.75
4 42.99
57.19
4.07
11 85 25.78
15
11 34 18.08
17.31
2 46 48.8
53.6
8.972
57.89
6 4.18
6746
4.06
11 39 22.33
16
11 87 53.40
52.60
2 23 37.7
42.9
8.973
58.01
6 2540
67.71
4.06
11 43 18.88
17
11 41 28.74
27.89
2 0 23.6
29.1
8.973
58.14
6 46.62
67.97
4.06
11 47 15.44
18
11 45 4.10
3.19
1 37 7.1
12.9
8.974
58.24
6 7.82
68.23
4.06
11 51 11.99
19
11 48 39.50
38.54
1 13 48.1
54.2
8.977
58.34
6 28.96
6849
4.07
11 55 8.55
20
11 52 14.99
13.97
0 50 27 J2
33.7
. 8.981
58.40
6 60X)1
68.75
4.07
11 69 5.10
21
11 55 50.59
49.52
0 27 4.5
114
8.986
58.46
7 10.98
69.01
4.08
12 3 1.65
22
11 59 26.27
25.15
-h 0 3 40.7
47.9
8.990
68.51
7 31.85
69.28
4.09
12 6 68.21
23
13 3 2.09
0.91
— 0 19 44.4
36.8
8.995
58.55
7 b2A7
69.55
4.11
12 10 64.76
24
12 6 38.07
36.84
0 43 10.1
2.2
9.002
58.56
8 13.13
16 69.82
4.14
12 14 61.31
25
12 10 14.24
12.95
1 6 36.1
27.8
9.009
58.57
8 33.61
16 0.09
. 4.16
12 18 47.87
26
12 13 60.60
49.26
1 29 61.8
53.2
9.018
58.56
8 63.70
0.36
4.19
12 22 44.42
27
12 17 27.15
25.77
1 53 27.1
18.1
9.028
58.54
9 13.70
0.63
4.22
12 26 40.97
28
12 21 3.96
•2.52
2 16 51.6
42.3
9.037
58.49
9 3346
0.90
4.25
12 30 37.53
29
12 24 40.98
39.49
2 40 15.0
5.4
9.048
58.44
9 62.97
1.18
4.29
12 34 34.08
30
12 28 18.27
16.74
3 8 36.8
26.9
9.059
58.35
10 12.22
145
4.33
12 38 30.63
Oct. 1
12 31 55.86
54.27
3 26 56.6
46.4
9.070
68.27
10 31.20
1.73
4.39
12 42 27.19
2
12 35 33.71
32.09
3 50 13.9
3.5
9.085
58.17
10 49.88
2.01
4.43
12 46 23.74
3
12 39 11.90
10.22
4 13 28.6
18.0
9 098
58.06
11 8.24
2.30
■ 4.48
12 50 20.29
4
12 42 50.41
4&68
4 36 40.2
29.2
9.112
57.92
11 26.28
2.59
4.53
12 54 16.85
5
12 46 29.29
27.51
4 59 48.2
36,9
9.127
57.76
11 43.96
2.88
4.59
12 58 13.40
6
12 50 8.51
6.68
5 22 52.2
40.7
9.143
57.59
12 1.29
a.i6
4.65
13 2 9.95
7
12 53 48.13
46.26
5 45 52.0
40.3
9.159
57.40
12 18.24
344
4.71
13 6 6.61
8
12 57 28.16
26.24
6 8 47.4
354
9.176
57.20
12 34.77
3.72
4.77
13 10 3.06
9
IS 1 8.60
6.64
6 31 37.7
25.5
9.194
66.98
12 50.89
4.01
4.84
13 13 69.62
10
13 4 49.49
47.48
6 54 22.6
10.3
9.213
56.75
13 6.63
4.30
4.91
13 17 66.17
11
13 8 30.85
28.79
7 16 62.0
49.5
9.233
56.61
13 21.71
4.57
4.99
13 21 62.73
12
13 12 12.71
10.60
7 89 35.4
22.8
9.254
56.25
13 3642
4.86
5.07
13 25 49.28
13
13 15 55.09
52.94
8 1 62.2
49.5
9.275
55.98
13 50.69
6.11
6.15
13 29 46.83
14
18 19 38.00
35.82
8 24 22.3
9.3
9.297
55.69
14 4.24
642
6.23
13 33 42.39
15
18 23 21.47
19.24
8 46 35.4
22.2
9.321
55.39
14 17.33
6.69
6.31
13 37 38.94
16
IS 27 5.50
3.24
9 8 41.0
27.7
9.346
65.07
14 29.86
6.96
640
13 41 3549
17
13 30 50.14
47.83
9 30 39.0
25.6
9.372
54.74
14 41.80
6.23
648
13 45 32.05
18
13 34 35.39
33.05
9 52 28.8
15.4
9.397
54.39
14 5311
6.50
6.57
13 49 28.61
19
IS 38 21.27
18.90
10 13 69.8
56.3
9.424
54.03
15 3.79
6.76
, 5.66
13 53 25.16
20
13 42 7.82
5.41
10 36 42.0
28.4
9.452
63.64
15 13.80
7.02
5.75
13 67 21.72
21
13 45 55.04
52.61
10 57 4.8
51.1
9.481
53.24
16 23.16
7.26
' 5.85
14 1 18.27
22
13 49 42.96
40.50
11 18 17.9
4.2
9.511
52.83
15 31.78
7.52
5.95
14 5 14.82
23
13 53 31.56
29.08
11 39 21.2
7.5
9.540
52.41
15 39.75
7.78
6.04
14 9 11.38
24
13 57 20.89
18.38
12 0 13.9
0.2
9.570
51.95
16 46.97
8.04
6.14
14 13 7.93
25
14 1 10.97
8.42
12 20 55.6
41.9
9.601
51.49
15 5346
8.30
6.25
14 17 4.49
26
14 4 61.77
59.19
12 41 25.8
12.1
9.632
51.00
15 59.21
8.55
6.36
14 21 1.04
27
14 8 53.31
50.72
13 1 44.4
30.8
9.663
50.52
16 4.24
8.81
647
14 24 67.60
28
U 12 45.62
43.02
13 21 50.6
37.1
9.694
50.00
16 8.49
9.06
6.57
14 28 54.15
29
14 16 38.70
36.08
13 41 44.3
30.9
9.726
49.46
16 11.98
9.32
6.68
14 32 60.71
30
U 20 32.55
29.91
14 1 24.9
11.7
9.759
48.90
16 14.69
9.57
6.79
14 36 47.27
31
14 24 27.17
24.51
14 20 52.0
38.9
9.792
48.34
16 16.63
9.82
6.91
14 40 43.82
3i
14 28 22.59
19.92
—14 39 65.0
52.1
9.825
47.75
^16 17.77
16 10.07
1 7.02
14 44 40.38
NoTX. —For Mean Interna of Semldlameter pasdnc the Meridian, subtract 0b.18 from the Sidereal IntornO.
300 SOLAR EPHEBIERIS, 1856.
AT
WASHINGTON
MEAN AND
A.PPARENT NOON. ||
APPARENT
APPARENT
HOURLY
RIGHT ASCENSION.
DECLINATION.
MOTION.
Equfttion
ofTfan*
for
8«nl.
Sidenal
Date.
diametar
Tlmoof
Sonkl.
SMmmITIm
otUma
Moon.
MmuNooii.
p«rent
Noon.
MmaJHwa,
•Ap-^
NoS.
Right
ABoen-
■lon.
DeeU-
nation.
h. m. s.
s.
O 1 N
N
f.
It
m. f.
1 If
m. •.
h. B. ft. 1
Nor. 1
14 28 22.59
19.92
—14 39 65.0
52.1
9.825
47.75
-16 17.77
16 10.07
1 7J02
14 44 4038 ,
2
14 32 18.80
16.12
14 58 63.7
50.9
9.858
47.16
16 18.12
10.32
7.14
14 48 86.98 1
3
14 36 15.81
13.13
15 17 47.6
35.0
9.892
46.52
16 17.68
10.57
7.26
14 52 8849 \
4
14 40 13.61
10.92
15 36 16.3
3.9
9.925
45.89
16 1644
10.82
7.38
14 56 30.04
5
14 44 12.25
9.55
15 54 39.5
17.2
9.959
45.21
16 14.87
11X)7
7.51
15 0 86.60 1
6
14 48 11.71
9.02
16 12 26.6
14.5
9.993
44.54
16 11.49
11.31
7.68
15 4 83.16 '
7
14 52 11.96
9.27
16 29 67.3
65.5
10.027
43.85
16 7.79
11.55
7.75
15 8 19.71 ;
8
14 56 13.04
10.35
16 47 3U
19.6
10.062
43.15
16 3.27
11.79
7.87
15 18 16.27 '
9
15 0 14.95
12.26
17 4 37.9
26.5
10.097
4241
15 57.93
12.02
7.98
15 16 12.83 '
10
15 4 17.72
15.03
17 21 27.0
15.9
10.132
41.68
15 51.72
12.26
8.10
15 80 9.88
11
15 8 21.31
18.63
17 37 58.3
47.6
10.167
40.93
15 44.70
12.48
8.22
15 84 5.94
12
15 12 25.74
23.08
17 54 11.2
0.8
10.202
40.17
15 36.83
12.70
8.38
15 88 849
13
15 16 31.00
28.36
18 9 654
55.3
10.237
39.37
15 28.14
12.91
845
15 81 59.06
14
15 20 37.11
34^9
18 25 40.7
30.9
10.272
38.58
15 18.60
13.12
8.57
15 85 55.61
15
15 24 44.11
41.50
18 40 564
46.9
10.308
37.75
15 8.16
18.82
8.68
15 89 52.16
16
15 28 51.96
49.37
18 55 52.3
43.1
10.344
36.93
14 56.87
18.52
8.79
15 48 48.78 )
17
15 33 0.66
58.10
19 10 28.2
194
10.380
36.09
14 44.74
18.72
8.91
15 47 45.28 t
18
15 37 10.19
7.66
19 24 43.6
85.1
10416
35.24
14 81.78
13.92
9.02
15 51 41.84 ,
19
15 41 20.58
18.08
19 38 37.8
29.6
10.451
34.34
14 17.95
14.09
9.15
15 55 88.89 '
20
15 45 31.82
29.36
19 52 10.8
2.9
10485
8844
14 8.27
14.28
9.25
15 59 84 J5
21
15 49 43.86
4144
20 5 22.0
144
10.518
82.52
18 47.80
1446
9.86
16 8 81.51 '
22
15 53 56.69
54.32
20 18 11.3
4.1
10.552
31.60
18 81.52
14.64
947
16 7 88.06
23
15 58 10.33
8.00
20 30 38.1
31.2
10.586
80.64
18 14.44
14.82
9.57
16 11 24.62 ,
24
16 2 24.78
22.49
20 42 42.3
85.8
10.618
29.69
12 56.56
14.99
9.67
16 15 81.18
25
16 6 40.01
37.76
20 54 23.0
16.9
10.648
28.71
12 37.89
15.15
9.78
16 19 17.74
26
16 10 55.98
53.78
21 6 40.3
84.5
10.679
27.74
12 1848
15.82
9.88
16 83 14.30
27
16 15 12.65
10.50
21 16 33.9
28.5
10.709
26.74
11 58.38
15.49
9.98
16 27 10.86
28
16 19 30X)4
27.95
21 26 63.3
58.2
10.738
25.72
11 87.53
15.155
104)8
16 81 741 I
29
16 23 48.11
46.08
21 87 8.0
3.3
10.765
24.69
11 16.04
15.81
iai7
16 85 8.97
80
16 28 6.86
4.89
21 46 48.1
43.7
10.802
23.65
10 53.84
15.98
10.26
16 89 0.53 1
Dm. 1
16 ^2 26.23
24.32
21 56 63.1
59.0
10.819
22.59
10 81.03
16.13
10.85
16 48 57j09
2
16 36 46.20
44.37
22 4 62.6
48.9
10.845
21.52
10 7.61
16.29
1044
16 46 58.65 1
3
16 41 6.77
5.00
22 18 16.5
13.1
10 870
2045
9 43.59
16.43
10.52
16 50 50.21
4
16 45 27.90
26.20
22 21 144
11.3
10.893
19.37
9 19.01
16.58
10.60
16 54 46.76
5
16 49 49.58
47.95
22 28 46.3
43.5
10.914
18.28
8 53.90
16.69
10.69
16 58 48.32
6
16 54 11.75
lOJl
22 35 61.7
49.1
10.984
17.19
8 28.29
16.82
10.75
17 8 39J8 !
7
16 58 34.41
32.95
22 42 30.6
28.3
10.954
16.08
8 2.18
16.96
10.82
17 6 86.44 1
8
17 2 57.51
56.13
22 48 42.8
40.8
10.973
14.95
7 35.63
17.08
10.88
17 10 88XN)
9
17 7 21.04
19.74
22 54 27.9
26.2
10.991
13.81
7 8.65
17.19
10.93
17 14 8936
10
17 11 45XH)
43.78
22 69 45.9
444
11.008
12.67
. 6 41.25
17.30
10.98
17 18 8e.l8
11
17 16 9.35
6.23
28 4 86.6
35.3
11.022
11.54
6 18.45
1741
11.03
17 88 88.67
12
17 20 34.04
33.02
23 8 59.9
58.7
11.037
10.40
5 45.80
17.51
11.08
17 86 19J8
13
17 24 59.07
58.12
23 12 55.7
54.7
11.051
9.25
6 16.83
17.61
11.12
17 80 15.79
14
17 29 24.42
23.54
23 16 23.7
22.9
11.063
8.10
4 48.04
17.70
11.16
17 84 18.85
15
17 33 50.05
49.25
23 19 23.8
23.2
11.074
6.93
4 18.97
17.76
11.21
17 88 8J1
16
17 38 15.87
15.16
23 21 56.0
55.5
11.081
5.76
8 49.69
17.85
11.28
17 48 547
17
17 42 41.92
41.30
23 28 60.2
59.8
11.088
4.60
8 20.20
17.91
11.26
17 46 8j03
18
17 47 8.16
7.63
23 25 364
36.1
11.097
343
2 5051
17.98
11.28
17 49 58Ji9
19
17 51 34.53
34.09
23 26 44.3
44.1
11.101
2.24
2 20.68
18.04
11^
17 58 55.15 '
20
17 56 1.04
0.70
23 27 23.9
23.8
11.105
\J05
1 50.72
18.08
11.80
17 67 51.71
21
18 0 27.60
27.35
23 27 85.2
35.1
11.108
0.87
1 20.69
18.13
11.81
18 1 48.86
22
18 4 54.23
54.08
23 27 184
18.3
11.109
0.29
0 50.61
18.17
11.81
18 5 44.82
23
18 9 20.86
20.80
23 26 33.1
33.1
11.109
147
— 0 20.52
18.21
11.31
18 9 41.88
24
18 13 47.47
47.50
23 25 194
194 11.106
3.65
-h 0 9.54
18.24
11.29
18 18 87.94
25
16 18 14.01
14.13
23 23 37.5
37.5 1 11.103
4.82
0 89.50
18.27
11.28
18 17 84.50
26
18 22 40.45
40.66
23 21 27.3
27.2 11.098
6.00
1 9.36
18^
11.27
18 81 81.06
27
18 27 6.73
7.03
23 18 48.8
48.6 11.092
7.18
1 89.07
18.33
11.25
18 85 87.68
28
18 31 32.82
33.21
23 15 42.3
42.0 11.084
8.36
2 8.66
18.35
11.23
18 89 84.18
29
18 35 58.67
59.15
23 12 7.8
7.5 11.073
8.51
2 37.98
18.37
11.19
18 88 8a74
SO
18 40 24.29
24.86
28 8 5.3
4.8 11X)6I
10.67
8 7.05
18.38
11.16
18 87 17.80 1
31
18 44 49.58
50.24
28 3 35.0
344 11.048 11.82
8 35.79
18.38
11.12
18 41 18.85
32
18 59 14.54
15.28
—22 58 37.1
36.5 1ia3I« 1297
4- 4 4.19
16 18.38
1 11.07118 45 1041 \
HofB. — for Mmm Inl«rTftl or
pftftring Um UMldiftni lobtnotOi.lS firam Um Slduwl JaliamL
BIOON CULMINATIONS, 1856. 301
WASHINGTON MERIDIAN.
Logarithm
Tariatkmof
Sidereal
Time
of
Semi-
diameter
Meridian.
Logarithm
TiAtionof
Maui
SSdereal
Date.
Limb
Appamit
Moon'N
MooD*a
Solar
and
Bight Aaeeitfkm
Right Amea-
Date.
Tnnili.
in Time.
Bionfor
for
1 hoar of
Ihonrof
Longitad*.
Longitude.
<L
h. m. •.
f.
O 1 u
Jan. 1
1
n.L.
13 43 14.63
2.06145
63.19
—10 15 15.7
—2.92048
1
1
II. U.
14 6 39.17
2.07569
64.24
—12 59 29.4
—2.90741
2
2
n.L.
14 30 54.92
2.09243
65.48
—15 37 49.2
—2.88843
3
2
n.u.
14 56 11.18
2.11094
66.91
—18 8 6.7
—2.86172
3
3
ELl.
15 22 36.23
2.13082
68.47
—20 27 52.6
—2.82474
3
3
ELu.
15 50 16.62
2.15118
70.10
—22 34 16.7
—2.77339
4
4
ILL.
16 19 15.96
2.17106
71.76
—24 24 9.9
—2.70109
4
4
n.u.
16 49 33.96
2.18937
73.32
—25 54 11.2
—2.59627
5
6
Hl.
17 21 4.96
2.20502
74.68
—27 0 68.3
—2.43214
6
5
Hu.
17 68 37.55
2.21704
75.73
—27 41 25.1
—2.11986
6
6
ILL.
18 26 54.56
2.22443
76.41
—27 53 0.8
+1.23605
6
6
ILu.
19 0 34.51
2.22692
76.63
—27 34 10.6
+2.23427
7
7
Ll.
19 31 41.16
2.22449
76.42
—26 44 28J
+2.51180
8
7
Lu.
20 4 59.11
2.21752
75.79
—25 24 42.7
+2.67304
8
8
Ll.
20 87 36.37
2.20682
74.84
—23 36 524)
+2.78168
9
8
Lu.
21 9 19.70
2.19347
73.68
—21 23 49.6
+2.85883
9
9
Ll.
21 40 1.91
2.17859
72.42
—18 49 05.8
+2.91462
10
9
Lu.
22 9 41.42
2.16359
71.18
—15 56 29.8
+2.95477
10
10
Ll.
22 38 21.43
2.14931
70.02
—12 49 55.5
+2.98991
11
10
Lu.
23 6 848
2.13656
69.10
— 9 33 8.5
+3.00144
11
11
Ll.
23 33 11.28
2.12604
68.20
— 6 9 42.6
+3.01203
12
11
Lu.
23 59 40.00
2.11814
67.60
— 2 42 55.0
+3.01585
12
12
Ll.
0 25 45.41
2.11322
67.24
-h 0 44 124
+3 013.'54
13
a3
Lu.
0 51 38.34
2.11121
67.10
+ 48 52.0
+3.00547
13
13
Ll.
1 17 29.42
2.11216
67.18
+ 7 28 28.0
+2.99174
14
14
Lu.
1 43 28.63
2.11573
67.47
4-10 40 32.7
+2.97198
14
14
Ll.
2 9 45.12
2.12161
67.95
-hl3 42 44.4
+2.94567
15
15
Lu.
2 36 26.68
2.12933
68.57
H-16 32 45.2
+2.91162
15
15
Ll.
3 3 39.40
2.13829
69.29
-hl9 8 20.7
+2.86814
16
16
Lu.
3 31 27.21
2.14767
70.04
+21 27 19.7
+2.81284
16
16
Ll.
3 59 51.25
2.15679
70.77
H-23 27 37.4
+2.74157
17
17
Lu.
4 28 49.50
2.16482
71.42
+25 7 19.7
+2.64758
17
17
Ll.
4 58 16.59
2.17093
71.90
+26 24 48.6
+2.51785
18
18
Lu.
5 28 3.86
2.17458
72.18
+27 18 50.7
+2.32226
18
18
Ll.
5 57 59.96
2.17516
72.18
+27 48 40.9
+1.94571
19
19
Lu.
6 27 51.77
2.17246
71.90
+27 54 10.2
—1.51882
19
19
Ll.
6 57 25.82
2.16652
71.36
+27 35 44.1
—2.17758
SO
20
Lu.
7 26 29.58
2.15758
70.58
+26 54 24.2
—2.41751
20
20
Ll.
7 54 52.66
2.14615
69.59
+26 51 39.3
—2.56135
21
21
n.u.
8 24 44.45
2.13210
68.48
+24 29 21.4
—2.65996
22
21
n.L.
8 51 24.27
2.11746
67.31
+22 49 34.5
—2.73167
22
22
ILu.
9 17 10.05
2.10234
66.11
+20 54 29.1
—2.78528
23
22
ILL.
9 42 3.25
2.08752
64.98
+18 46 14.1
—2.82691
23
23
ILu.
10 6 7.34
2.07341
63.93
+16 27 41.2
—2.85802
24
23
n.L.
10 29 27.63
2.06085
63.04
+13 58 23.1
—2.88223
24
24
ILu.
10 52 9.93
2.04980
62.22
+11 22 29.3
—2.90054
25
24
ILL.
11 14 21.80
2.04116
61.60
+ 8 40 49.1
—2,91395
25
25
n.u.
11 36 10.70
2.03483
61.17
+ 5 54 504
—2.92341
26
25
ILL.
11 57 44.65
2.03116
60.94
+ 35 54.6
—2.92936
26
26
ILu.
12 19 11.92
2.03030
60.91
+ 0 15 17.8
—2.93210
302 MOON CULMINATIONS, 1856.
WASHINGTON MERIDIAN. j
Locuithm
Tariatkmof
SlderMl
Tlow
of
Semi-
diametar
Lofarithm .
TartadoDoT
Uma
SdnMl
Dat0.
Umb
Appamit
Moon'*
MooD'a 1
Solar
and
Bight AM«iiiioii
Bifht Aaoen.
DeeUnatioo ;
D»te.
Tramit.
in Time.
sloaff*r
«-s^
tor '
llioaror
llMMiror 1
Longitadft.
Loogitada.
d.
h. n. •.
a.
O 1 II
1
Jan. 27
27
ILL.
12 40 41.08
2X)3238
61.07
— 2 35 484
—2.93178
27
27
ILu.
13 2 20.88
2.03747
61.47
— 6 26 103
—2.92829 i
28
28
ILL.
13 24 20.31
2.04544
62.07
— 8 14 33.0
—2.92154
28
28
ILu.
13 46 48.63
2.05625
62.87
—10 59 363
—231094
29
29
ILL.
14 9 55.17
2.06967
63.88
—13 39 52X)
—239572
29
29
ILu.
14 33 49.29
2X)8540
65.08
—16 13 384
—237471
SO
30
ILL.
14 56 40X>6
2.10312
66.45
—18 38 59.6
—234632
30
30
ILu.
15 S4 35.79
2.12241
67.94
—20 53 42.1
—2.80797
31
31
ILL.
15 51 4341
2.14236
69.56
—22 55 12.9
—2.75565
Feb. 1
31
ILu.
16 20 748
2.16212
71.23
—24 40 414
—2.68304
1
32
ILL.
16 49 49.12
2.18079
72.81
-26 7 23
—2.57803
2
32
ILu.
17 20 44.97
2.19736
74.23
—27 11 5.0
—241371 :
2
33
ILL.
17 52 46.42
2.21077
75.40
-27 49 454
—2.09795 1
3
33
ILu.
18 25 89.20
2.22014
76.23
—26 0 24.8
+ 130710 i
3
34
ILL.
18 59 4.54
2.22495
76.64
—27 41 6.6
+2.23907
4
34
ILu.
19 32 40.83
2.22495
76.62
—26 50 563
+231642 :
4
35
ILL.
20 6 6.44
2.22042
76.19
—25 30 8.1
+2.68000
5
35
ILu.
20 39 2.22
2.21206
75.42
-23 40 93
+2.79148
5
36
ILL.
21 11 18.82
2.20099
74.41
-21 23 283
+2.87181
6
36
Lu.
21 40 5.60
2.18851
73.28
-18 43 273
+233049
6
37
Ll.
22 10 29.73
2.17502
75^14
—15 43 56J
+237285 1
7
37
Lu.
22 39 58.76
2.16208
71.06
—12 29 53
+330245
7
38
Ll.
23 8 37.71
2.15083
70i>9
— 9 3 53
+3.02158
8
38
Lu.
23 36 34.26
2.14054
69.31
— 5 30 13
+303196 1
8
39
Ll.
0 3 57.70
2.13309
68.75
— 1 53 483
+3.03460
9
40
Lu.
0 30 58.09
2.12827
68.41
.4- 1 41 583
+3.03024
9
40
Ll.
0 57 45.70
2.12620
68.30
-h 5 13 .')73
+3.01927 i
10
41
Lu.
1 24 3038
2.12675
68J8
^. 8 39 7-5
+3.00174 ,
10
41
Ll.
1 51 22X)l
2.12966
68 J5
-hU 54 38.-'
+237731 '
U
42
Lu.
2 18 28.23
2.13459
694)7
+14 57 563
+2.94545
U
42
Ll.
2 45 55.91
2.14101
69J2
4-17 46 383
+2.90493
12
43
Lu.
8 13 49.94
2.14826
70.25
+20 18 323
+2.85385 ,
12
43
Ll.
3 42 12.78
2.15567
70.88
+22 31 383
+2.78925 '
13
44
Lu.
4 11 3 96
2.16250
7144
+24 24 103
+2.70646
14
44
Ll.
4 40 20.17
2.16808
71.89
+25 54 363
+239671 1
14
45
Lu.
5 9 55.06
2.17161
72.18
+27 1 49.7
+2.44189
15
45
Ll.
5 39 39.59
2.17266
72.24
+27 45 43
+2.19173
15
46
Lu.
6 9 2282
2.17088
72.04
+28 4 8i)
+133877
16
46
Ll.
6 38 52.92
2.16619
7139
+27 59 143
—1.92117
16
47
Lu.
7 7 5840
2.15872
70^1
+27 31 113
—239300
1
17
47
Ll:
7 36 29.04
2.14876
704»
+26 41 113
—248043
17
48
Lu.
8 4 16.87
2.13682
684)9
+25 30 49.1
—2,60181
18
48
Ll.
8 31 16.57
2.12349
6736
+24 1 533
—2.68822
18
49
Lu.
8 67 25.57
2.10931
66.70
+22 16 244
—2.75243
19
49
Ll.
9 22 43.74
2.09496
6535
+20 16 223
—230142 ,
19
50
Lu.
9 47 13JW
2.08103
6446
+18 3 494
—233929
20
50
Ll.
10 10 57.74
2.06808
6347
+15 40 393
—2.86863 .
20
51
ILu.
10 36 7.69
2.05618
62.60
+13 8 453
—2.89120
21
51
ILL.
10 58 37.16
2.04680
6138
+10 29 484
—2,90821
..-."
52
ILu.
11 20 39.82
2.03862
6133
+ 7 45 253
-2.92054
MOON CULMINATIONS, 1856. 303
1 1
WASHINGTON MERIDIAN.
Locwithm
Tariatkmof
81dei«al
Thne
of
Semi-
diameter
r^
Meridian.
Logarithm
Meui
SIdMMl
Sate.
Limb
Appamit
Moon^ii
Hoo&'i
Solar
aod
Right Awouloii
Right Aaoen.
SeoliMtion.
Declination
Diite.
Tnmit.
in Time.
■tonfiir
for
IhooroT
1 hoar of
Longitade.
Longitude.
d.
h. m. f.
f.
4.4 5'7 Vl
Feb. 22
52
ILL.
11 42 22.77
2.03330
60.96
—2.92888
22
53
II. u.
12 3 53.43
2.03044
60.78
4-2 6 18.0
—2.93352
23
54
ILL.
12 26 19.47
2.03019
60.79
— 0 45 40.3
—2.93480
23
64
ILu.
12 46 48.76
2.03262
60.99
— 3 37 28.6
—2.93268
24
55
n.L.
13 8 29.32
2.03774
61.38
— 6 27 47,7
—2.92718
24
55
n.u.
IS SO 29.29
2.04552
61.98
— 9 15 16.8
—2.91799
25
56
ILL.
13 52 57.02
2.05580
62.78
—11 58 30.3
—2.90466
25
56
n.u.
14 16 0.89
2.06838
63.76
— U 35 56.7
—2.88647
26
57
ILL.
14 S9 49.10
208307
64.90
—17 5 55.6
—2.86225
26
57
ILu.
15 4 29.48
2.09948
66.20
—19 26 34^
—2.83027
27
68
ILL.
15 SO 9.17
2.11711
67.62
—21 35 48.8
—2.78811
27
58
ILu.
15 56 53.83
2.13529
69.11
—23 31 19.5
—2.73167
28
59
ILL.
16 24 47.05
2.15329
70.62
—25 10 354
—2.65437
28
59
ILu.
16 53 49.57
2.17032
72.07
—26 30 56^
—2.54372
29
60
ILL.
17 23 58.35
2.18557
73.39
—27 29 35 J
—2.37036
29
60
n.u.
17 55 6.08
2.19808
74.49
—28 3 57^
—2.02935
Miir. 1
61
ILL.
18 27 1.05
2.20720
75.29
—28 11 42.6
4-1.49136
1
61
ILu.
18 59 27.98
2.21243
75.76
—27 51 5.7
4-2.24551
2
62
ILL.
19 32 9.19
2.21357
75.83
—27 1 7.6
4-2.51014
2
62
ILu.
20 4 46.81
2.21088
75.55
-25 41 44.6
-I-2.67136
8
63
n.L.
20 37 4.70
2.20491
74.98
—28 53 51.6
-1-2.78383
8
63
ILu.
21 8 50.23
2.19640
74.19
—21 39 19.0
4-2.86641
4
64
ILL.
21 39 55.09
2.18631
73.28
—19 0 46.5
4-2.92809
4
64
ILu.
22 10 15.77
2.17569
72.34
—16 1 31.0
4-2.97405
5
65
U.L.
22 39 52.91
2.16545
71.44
—12 45 16.8
4-3.00736
6
65
n.u.
23 8 50.64
2.15634
70.66
— 9 16 3.7
4-3.03003
6
66
Ll.
33 84 55.44
2.14922
70.04
— 5 38 0.5
4-3.04356
7
67
Lu.
0 2 56.70
2.14398
69.62
— 1 55 14.3
4-3.04875
7
67
Ll.
0 30 42.26
2.14114
69.42
H- 1 48 12.2
4-3.04622
8
68
Lu.
0 58 21.62
2.14073
6943
+ 5 28 25.5
4-3.03619
8
68
Ll.
1 26 3.93
2.14267
69.64
4- 9 1 45.0
4-3.01853
9
69
Lu.
1 53 57.65
2.14659
70.01
+12 24 44.3
4-2.99286
9
69
Ll.
2 22 9.78
2.15214
70.51
4-15 34 13.4
4-2.95842
10
70
Lu.
2 50 45.64
2.15860
71.10
-1-18 27 19.6
4-2.91387
10
70
Ll.
3 19 48.16
2.16539
71.72
4-21 1 29.5
4-2.85709
11
71
Lu.
3 49 17.52
2.17176
72.30
4-23 14 29.9
4-2.78462
U
71
Ll.
4 19 10.75
2.17690
72.77
4-25 4 33.1
4-2.69055
12
72
Lu.
4 49 21.88
2.18021
73.06
4-26 30 18.2
4-2.56396
12
72
Ll.
5 19 42.02
2.18119
73.14
4-27 30 55.7
4-2.37949
IS
73
Lu.
6 50 0.27
2.17932
72.98
4-28 6 8.6
4-2.05269
13
73
Ll.
6 20 4.63
2.17450
72.55
-|.28 16 13.8
— li)4532
14
74
Lu.
6 49 43.35
2.16684
71.86
4-28 2 0.1
—2.11361
14
74
Ll.
7 18 45.93
2.15670
70.96
4-27 24 43.3
—2.38274
15
75
Lu.
7 47 3.94
2.14451
69.89
4-26 26 0.2
—2.53668
15
75
Ll.
8 14 32.10
2.13085
68.72
4-25 7 42.3
—2.64058
16
76
Lu.
8 41 7.88
2.11631
67.50
4-23 31 48.6
—2.71609
16
76
Ll.
9 6 49.51
2.10154
66.27
4-21 40 20.1
—2.77313
17
77
Lu.
9 31 40.63
2.08711
65.12
4-19 35 15.7
—2.81710
17
77
Ll.
9 55 44.33
2.07357
64.09
4-17 18 29.3
—2.85132
18
78
Lu.
10 19 5.94
2.06138
63.07
4-14 51 49.1
—2.87806
304 MOON CULMINATIONS, 1856.
WASHINGTON MERIDIAN. !
1
Lonrithm
Yariattonof
BkteiMl
Time
of
Semi-
dkmeter
Ta£doDof 1
Mmn
8oUr
Dat0.
BidnMl
Date.
Limb
aod
Tnoilt.
BifhlSjcradon
taWni..
Rigfal Awen-
■kmffv
1 hour of
Mooo^
Ibr
Ibouroi
LoDgiUide.
Bferidlaa.
Umg^U^
d.
h. m. •.
•.
o 1 a
Mar. 18
78
I.L.
10 41 51.05
2.05084
62.27
+12 16 57.2
—2.89883
19
79
I.U.
11 4 6.39
2.04622
61.62
4- 9 35 29.4
—2.91455
19
79
I.L.
11 25 68.87
2.03591
61.15
+ 6 48 55.9
—2.92593
20
80
I.U.
11 47 35.73
2.03193
60.85
4- 3 58 43.4
—2.93339
21
81
ILL.
. 12 11 5.76
2.03036
60.74
4-1 6 16.2
—2.93732 '
21
81
ILu.
12 32 33.65
2X»149
60.82
— 1 47 2.9
— 2J3777
22
82
n.L.
12 54 a68
2.03515
6IX)9
— 4 39 50.4
—2.93465
22
82
ILu.
13 15 58.45
2.04127
61.55
— 7 30 41.1
. —2.92783
23
83
ILL.
13 38 10.60
204980
62.20
—10 18 6.1
-2.91698
23
83
ILu.
14 0 52.76
2U)6055
63i)3
^13 0 31.8
— 2J0146
24
84
ILL.
14 24 12.33
2X)7328
64.02
—15 36 17.4
— 2J80S6
24
84
ILu.
14 48 16.38
2.08771
65.15
—18 3 34.1
-2.85248
25
85
ILL.
15 13 11.33
2.10336
66.40
—20 20 24.7
—2.81604
25
85
ILu.
15 39 2.48
2.11968
67.74
—22 24 42X>
—2.76819
26
86
ILL.
16 5 53.47
2.13609
69.11
—24 14 10.4
—2.70449
26
86
ILu.
16 33 45.72
2.15192
70.46
—25 46 27.2
—2.61742 '
27
87
ILL.
17 2 37.70
2.16643
71.73
—26 59 8.9
—2.49206
27
87
n.u.
17 32 24.54
2.17886
72.84
—27 49 55.4
—2.29092 1
28
88
ILL.
18 2 57.83
2.18862
73.72
—28 16 4ai
-1.84819 !
28
88
ILu.
18 34 5.95
2.19521
74.32
—28 17 38J
4-1.79099
29
89
n.L.
19 5 34.93
2.19833
74.60
—27 51 38.9
4-2.29798
29
89
ILu.
19 37 9.86
2.19802
74.56
—26 58 8.7
4-1^2673 '
30
90
ILL.
20 8 36.53
2.19460
74.24
—25 37 184
4-2.67330
80
90
n.u.
20 39 42.76
2.18862
73.70
-23 50 2.8
4-2.77808
31
91
U.L.
21 10 19.72
2.18093
73.01
—21 37 574
4-2.85679 ■
31
91
ILu.
21 40 22.23
2.17234
72.23
—19 3 11.6
4-2.91709
April 1
92
U.L.
22 9 48.94
2.16367
71.45
—16 8 25.8
4-2.96327
92
ILu.
22 38 41.83
2.15570
70.74
—12 56 42.7
4-2.99806
93
ILL.
23 7 5.72
2.14910
70.15
— 9 31 22.8
4-3X>2321
93
ILu.
23 35 7.47
2.14439
69.73
— 5 56 0.6
4-3X»973
1
94
n.L.
0 2 5543
2.14198
69.51
— 2 14 204
4-3J04SSS
95
n.u.
0 aO 38.66
2.14198
69.50
4- 1 29 46.2
4-3.04930
95
n.L.
0 58 26.52
2.14440
69.69
4- 5 12 25.0
4-3J04261
96
Lu.
1 24 7.92
2.14876
70.08
4- 8 49 41.8
4-3.02796
96
Ll.
I 52 30.20
2.15518
70.64
4-12 17 45.3
4^iK>475
97
Lu.
2 21 20.75
2.16295
7IJ2
4-15 32 52.9
4-2J7192
97
Ll.
2 50 44.11
2.17140
72.07
4-18 31 35/)
4-2.92788
98
Lu.
3 20 42X>7
2.17969
72.83
4-21 10 40.2
4-2.87017
98
Ll.
3 51 12.95
2.18704
73.51
4-23 27 22.2
4-2.79491
99
Lu.
4 22 11.37
2.19257
74.03
4-25 19 26.5
4-2^9531
99
Ll.
4 53 28.14
2.19548
74.32
4-96 45 16J
4-23584T ,
100
Lu.
5 24 51.09
2.19529
7434
4-27 43 58.4
4-2^257 '
100
Ll.
5 56 6.05
2.19173
74.06
4-28 15 25.1
4-1.95318
101
Lu.
6 26 58.43
2.18480
73.46
4-28 20 12.4
—1.61066
101
Ll.
6 57 14.77
2.17473
72.58
4-27 59 35.2
— 2J15I1
102
Lu.
7 26 43.94
2.16203
7M8
4-97 15 17.7
-2.44l7f '
102
Ll.
7 55 18.05
2.14734
70.23
4-26 9 25i)
-2.57933
103
Lu.
8 22 52.74
2.I3I46
68.90
4-24 44 12.0
—2.67265
103
Ll.
8 49 26.73
2.11511
67.55
4-23 1 55.3
—2.74060
104
Lu.
9 15 2.33
2J09S95
66.24
4-21 4 47.6
—2.79183
1
MOON CULMINATIONS, 1856. 305
WASHINGTON MERIDIAN.
LooriUun
Variation of
Sidereal
Thne
of
Semi.
diameter
paadng
the
Meridian.
Logarithm
Tariationof
Moaa
Solar
Sidereal
Date.
Limb
and
Apparent
Right Ascension
Moon'H
lUgfat Aiicen-
MooDf
Bate.
Traniit.
in Time.
eion for
fot.
1 hour of
1 hoar of
Longitude.
LoDgitode.
d.
h. m. B.
8.
O 1 II
April 13
104
I.L.
9 39 42.79
2.08361
65.01
H-18 54 53.6
-2.83129
U
105
I.U.
10 3 33.84
2.06963
63.90
+16 34 8.8
—2.86207
14
105
I.L.
10 26 41.99
2.05725
62.94
4-14 4 18.4
—2.88610
15
106
I.U.
10 49 14.50
2.04600
62.14
4-11 26 58.3
—2.90466
15
106
Ll.
11 11 18.89
2.03910
61.52
4- 8 43 37.8
—2,91871
16
107
I.U.
11 33 2.96
2X)3362
61.09
4- 5 55 40.9
—2.92891
16
107
I. L.
11 54 34.60
2.03072
60.85
4- 3 4 27.6
—2.93556
17
108
I.U.
12 16 1.67
2.03048
60.81
4- 0 11 17.0
—2.93882
17
109
I.L.
12 37 32.06
2.03298
60.97
— 2 42 30.8
—2.93867
18
109
I.U.
12 59 13.68
2.03802
61.32
— 5 35 33.4
-2.93495
18
110
I.L.
13 21 14^1
2.04556
61.86
— 8 26 23.9
—2.92742
19
110
I.U.
13 43 41.71
2.05538
62.59
—11 13 28.8
-2.91551
20
111
ILL.
14 8 50.36
2.06793
63.48
—13 55 6.7
—2.89845
20
111
11. u.
14 32 35.58
2.08167
64.53
—16 29 27.6
—2.87523
21
112
n. L.
14 57 9.01
2.09674
65.72
—18 54 32.2
—2.84429
21
112
n.u.
15 22 35.91
2.11257
67.00
—21 8 11.3
—2.80339
22
113
II. L.
15 49 0.15
2.12859
68.32
—23 8 7.4
—2.74927
22
113
II. U.
16 16 23.38
2.14420
69.63
—24 51 57.7
—2.67669
23
114
II. L.
16 44 44.43
2.15857
70.87
—26 17 18.0
-2.57576
23
114
II. U.
17 13 58.99
2.17099
71.98
—27 21 49.3
-2.42635
24
115
ILL.
17 43 59.24
2.18031
72.88
—28 3 26.3
—2.16967
24
115
ILu.
18 14 34.11
2.18752
73.50
—28 20 25.3
—1.32634
25
116
ILL.
18 45 30.26
2.19078
73.82
—28 11 34.4
4-2.04179
,25
116
n.u.
19 16 33.04
2.19061
73.85
—27 36 18.1
4-2.38489
26
117
U.L.
19 47 28.26
2.18729
73.60
—26 84 41.4
4-2i>7159
26
117
ILu.
20 18 3.56
2.18133
73.10
—25 7 28.5
4-2.69723
27
118
ILL.
20 48 9.53
2.17342
72.41
—23 15 59.1
4-2.78902
27
118
ILu.
21 17 40.46
2.16441
71.63
—21 2 1.7
4-2.85878
28
119
ILL.
21 46 34.30
2.15521
70.84
—18 27 46.9
4-2.91270
28
119
ILu.
22 14 52.42
2.14653
70.09
—15 35 42.0
4-2.95453
29
120
n.L.
22 42 39.07
2.13909
69.44
—12 28 26.8
4-2.98655
29
120
n.u.
23 10 0.73
2.13351
68.94
— 9 8 51.7
4-3.01021
30
121
n.L.
23 37 5.58
2.13017
68.63
— 5 39 55.2
4-3.02649
30
122
ILu.
0 4 2.82
2.12943
68.54
— 2 4 44.7
4-3.03587
Blay 1
122
ILL.
0 31 2.30
2.13139
68.67
4- 1 83 23.1
4-3.03838
I
123
n.u.
0 68 14.03
2.13599
69.02
4- 5 11 2.7
4-3.03391
2
123
ILL.
1 25 47.66
2.14292
69.57
4- 8 44 40.2
4-3.02197
2
124
n.u.
1 53 52.09
2.15186
70.29
4-12 10 35.3
4-3.00182
3
1?4
n.L.
2 22 34.63
2.16221
71.15
4-15 25 4.2
4-2.97202
3
125
Lu.
2 49 36.24
2.17278
72.09
4-18 24 25.0
4-2.93085
4
125
Ll.
3 19 45.28
2.18361
73.03
4-21 5 4.1
4-2.87558
5
126
Lu.
3 50 37.71
2.19324
73.89
4-23 23 46.0
4-2.80188
5
126
Ll.
4 22 7.30
2.20069
74.58
4-25 17 43.8
4-2.70252
6
127
Lu.
4 54 3.25
2.20515
75.01
4-26 44 50.6
4-2.56336
6
127
Ll.
5 26 11.01
2.20593
75.11
4-27 43 48.7
4-2.34928
7
128
Lu.
5 58 13.43
2.20268
74.85
+28 14 15.6
4-1.91116
7
128
Ll.
6 29 52.74
2.19543
74.24
4-28 16 43.7
—1.74507
8
129
Lu.
7 0 52.68
2.18458
73.31
4-27 52 35.9
—2.26505
8
129
Ll.
7 31 0.04
2.17067
72.13
4-27 3 49.7
—2.47929
9
130
Lu.
8 0 5.68
2.15451
70.77
4-25 52 51.0
—2.60863
39
306 MOON CULMINATIONS, 1856.
WASHINGTON MERIDIAN. i
Lonrithm
Taxation of
Bidareal
Thna
of
Semi-
diameter
Looritfam
"Maticmor
Blaui
SoUr
Skkrad
Dat0.
Lfanb
and
Apparent
Right AscensioQ
Mood'h
Right Aacen-
Mooa'a
Date.
Tmult
in lima.
Bionfor
Meridian.
U>t
1 hour of
IhooroT
Longitade.
Loogitiida. ,
d.
h. m. a.
a.
O 1 II
1
Mat 9
130
Ll.
8 28 4.83
2.13704
69.32
-«-24 22 15.9
—2.69679 I
^ 10
131
I.U.
8 54 56.64
2.11912
67.86
-«-22 34 40.1
—2.76057 1
10
131
Ll.
9 20 43.57
2.10147
6645
-«-20 32 33.2
—2.80821
11
132
I.U.
9 45 30i»6
2.08483
65.14
-«-18 18 12.3
-2.84442
11
132
Ll.
10 9 24.11
2.06982
63J)8
H-15 53 402
—2.87216
1
12
133
I.U.
10 32 31.95
2.05679
62.99
+13 20 46.1
—2.89354
12
133
Ll.
10 55 2.32
2.04614
62.18
+10 41 7.6
—2.90888
13
134
Lu.
11 17 3.80
2.03806
61.56
-«- 7 56 114
—2.92205
13
134
Ll.
11 38 45.03
. 2.03278
61.15
4-5 7 17.6
—2.93059
14
135
Lu.
12 0 14.71
2.03032
60.94
-«- 2 15 414
—2.93591
14
136
Ll.
12 21 41.45
2.03080
60.94
— 0 37 23.7
—2.93807
15
136
Lu.
12 43 13.87
2.03415
61.15
— 3 30 43.3
—2,93707
15
137
Ll.
13 5 0.51
2.0*022
61.57
— 6 22 594
-2.93268
16
137
Lu.
13 27 9.82
2.04906
62.18
— 9 12 47.5
—2.92443
16
138
Ll.
13 49 50.15
2i)6024
62J8
— U 58 354
—2.91174
17
138
Lu.
14 13 9i»2
2.07353
63.96
—14 38 40.1
—2.89371
17
139
Ll.
14 37 1540
2.08856
65.10
— IMl 64
—2.86900 '
18
139
Lu.
15 2 1449
2.10479
66.36
—19 33 47.1
—2.83582 1
18
140
Ll.
15 28 12.06
2.12169
67.69
—21 44 22.9
—2.79148 1
19
140
ILu.
15 57 2946
2.13915
69.05
—23 40 23^
—2-78183 ;
1
20
141
ILL.
16 25 33.68
2.15500
70.38
—25 19 14.5
—2.65011 '
20
141
ILu.
16 54 37.13
2.16909
71.60
—26 38 20.3
—2.53390 1
21
142
ILL.
17 24 32.92
2.18061
72.63
—27 35 16.7
—2.35353
21
142
ILu.
17 55 10^8
2.18890
7340
—28 7 59.6
—2.00087 1
22
143
ILL,
18 26 15.52
2.19351
73.86
—28 14 56.8
4-149693
22
143
ILu.
18 57 32.36
2.19432
73.98
—27 55 164
+2J1854
23
144
ILL.
19 28 44.53
2.19142
73.77
—27 8 51.8
4-2.47436 ,
23
144
ILu.
19 59 37.10
2.18532
73.28
—25 56 22.1
4-2.62910
24
145
n.L.
20 29 58.14
2.17661
72.57
—24 19 7.3
4-2.73656
24
145
ILu.
20 59 3940
2.16625
71.71
—22 18 59.3
4-2J1571
25
146
ILL.
21 28 37.04
2.15518
70.79
—19 58 14.1
4-2.875T6
25
146
ILu.
21 56 51.00
2.14429
69.89
—17 19 213
4-2.92184 ;
26
147
ILL.
22 24 24.56
2.13440
69.07
—14 24 59.5
4-2.95718 1
26
147
ILu.
22 51 23 68
2.12613
68.39
—11 17 49.7
4-2.98376 1
27
148
II. L.
23 17 56.27
2.12008
67 J9
— 8 0 34.8
+3.00308
27
148
n.u.
23 44 11.56
2.11667
67.60
— 4 35 68JJ
4-3.01569
28
149
ILL.
0 10 19.69
2.11611
67.53
— 1 6 46 J
4-3i)2230
28
150
ILu.
0 36 31.09
2.11856
67.69
-«- 2 24 10.2
4-3X>2296 1
29
150
ILL.
1 2 56^3
2.12385
68.08
-«- 5 53 56;9
4- 9 19 30.t>
4-3X)1741
29
151
ILu.
1 29 46.31
2.13171
68.69
4-3iN>5U
SO
151
ILL.
1 57 9.97
2.14179
6949
4-12 37 87J
+2.98520
30
152
ILu.
2 25 15.64
2.15354
70.44
4-15 44 59.1
+2.95626
81
152
ILL.
2 53 69.32
2.16610
71.47
4-18 38 ia9
+2.91685
31
153
ILu.
3 23 54.00
2.17854
72.52
4-21 13 48.1
+2.86249
Jime 1
153
ILL.
3 54 28.77
2.18994
73.60
4-28 28 85.0
+2.79007 ,
1
1
154
ILu.
4 25 48.07
t.19923
74.31
4-25 19 85.2
+2.69136
2
154
Ll.
4 55 11.64
2.20523
. 74.86
4-26 44 25.0
+2.55108 1
3
155
Lu.
5 27 23.51
2.20769
75.08
4-27 41 26.8
+2.38062
3
155
Ll.
5 59 37.06
2.20591
74.93
4-28 9 S5.7
+1.85246 ,
4
156
Lu.
6 31 38.04
2.19981
74.40
4-28 10 &1
— 1J8251
MOON CUU^NATIONS, 1856. 307
WASHINGTON MERIDIAN.
Leyailthm
Sidereal
Time
of
Semi-
dlametflr
YarUtionof
Mean
Max
Bideraal
Date.
Umb
and
Apparait
Right AMMOdOli
Moon'H
Right Awsen-
DeoUnation.
Moon'a
DecliMtkm
Date.
Tmult
in Time.
■ionfiir
IMMhlg
the
Meridian.
for
Ihourof
Ihoorof
LoDgitnde.
LoDgitade.
d.
h. m. 8.
a.
O 1 II
June 4
156
I.L.
7 2 53.27
2.18963
73.52
-«-27 43 14.3
—2.29929
5
157
I.U.
7 33 22.54
2.17600
72.36
H-26 51 10.7
—2.50406
5
157
I.L.
8 2 49.94
2.15981
71.01
H-25 36 24.9
—2.62951
6
158
I.U.
8 31 9.36
2.14201
69i»6
H-24 1 41.0
—2.71517
6
158
Ll.
8 58 19.08
2.12362
68.08
4-22 9 46.6
—2.77663
7
159
Lu.
9 24 21.08
2.10541
66.64
+20 3 23.6
—2.82204
7
159
I.L.
9 49 20.09
2.08803
65.31
4-17 45 0.6
—2.85612
8
160
Lu.
10 13 22.85
2.07218
64.12
4-15 16 51.1
—2.88184
8
160
I.L.
10 36 37.32
2.0^850
63.09
4-12 40 52.8
—2.90113
9
161
Lu.
10 59 12.07
2.04724
62.26
4- 9 58 48.7
—2.91540
9
161
Li.
11 21 16.14
2.03866
61.64
4- 7 12 9.0
—2.92557
10
162
Lu.
11 42 58.67
2.03302
61.23
4- 4 22 14.7
—2.93222
10
163
Ll.
12 4 28.80
2.03336
61.03
4- 1 30 19.8
—2.93576
11
163
Lu.
12 25 55.65
2.03080
61.04
— 1 22 24.3
—2.93636
11
164
Ll.
12 47 28.35
2.03431
61J8
— 4 14 47.8
—2.93399
12
164
Lu.
13 9 15.99
2.04076
61.73
— 7 5 37X)
—2.92840
12
165
Ll.
13 31 27.61
2.05007
62.39
— 9 53 32.9
—2.91913
IS
165
Lu.
13 54 12.20
2.06194
63.25
—12 37 8.3
—2.90547
13
166
Ll.
14 17 38.45
2.07609
64.28
->15 14 43.4
—2.88643
14
166
Lu.
14 41 54.55
2.09216
65.47
—17 44 25.6
—2.86052
14
167
Ll.
15 7 7.81
2.10948
66.80
—20 4 6.8
—2.82575
15
167
Lu.
15 33 24.09
2.12743
68.22
—22 11 24.7
—2.77902
15
168
Ll.
16 0 47.06
2.14526
69.66
—24 3 42.7
—2.71550
16
168
Lu.
16 29 17.27
2.16211
71.05
—25 38 15.6
—2.62706
16
169
Ll.
16 58 51.44
2.17705
72:31
—26 52 17.7
-3.49748
17
169
Lu.
17 29 21.88
2.18912
73.85
—27 43 13.2
—2.28533
18
170
ILL.
18 3 4.60
2.19789
74.10
—28 8 48.5
—1.79029
18
170
ILu.
18 34 48.10
2.20213
74.50
—28 7 28.2
4-1.87910
19
171
n.L.
19 6 40.83
2.20211
74.53
—27 38 23.9
4-2.33224
19
171
ILu.
19 38 24.42
2.19802
74.20
—26 41 41.2
4-2.54580
SO
172
n.L.
20 9 42.47
2.19050
73.57
—25 18 19.3
4-2.68205
20
172
ILu.
20 40 22.17
2.18027
72.73
—23 30 2.9
4-2.77808
21
173
ILL.
21 10 15.25
2.16838
71.75
—21 19 13.8
4-2.84880
21
173
ILu.
21 39 18.14
2.15579
70.72
—18 48 36.6
4-2.90184
22
174
n.L.
22 7 31.56
2.14351
69.73
—16 1 8.1
4-2.94171
22
174
n.u.
22 34 59.64
2.13236
68J3
—12 59 49.3
4-2.97132
23
175
ILL.
23 1 49 23
2.12307
68.08
— 9 47 39.4
4-2.99255
23
175
ILu.
23 28 9.00
2.11618
67.53
— 6 27 33.3
4-3.00668
24
176
ILL.
23 54 8.72
2.11203
67J1
— 3 2 20.7
4-3.01460
24
177
ILu.
0 19 58.97
2.11089
67.13
4- 0 25 13.6
4-3.01670
25
177
ILL.
0 45 50.55
2.11277
67.28
4- 3 52 26.6
4-3.01313
25
178
ILu.
I 11 54.21
2.11757
67.66
4- 7 16 35.1
4-8.00363
26
178
ILL.
1 38 20.32
2.12509
68.25
4-10 34 53.3
4-2.98776
26
179
ILu.
2 5 18.43
2.13488
69.02
4-13 44 31.6
4-2.96459
27
179
ILL.
2 32 56.64
2.14631
69.93
4-16 42 35^
4-2.98268
27
180
n.u.
3 1 21.31
2.15863
70.94
4-19 26 5.7
4-2.88997
28
180
ILL.
3 80 35.60
2.17106
71.97
4-21 52 3.8
4-2.83321
28
181
ILu.
4 0 39.17
2.18259
72.93
4-23 57 36.2
4-2.75747
29
181
ILL.
4 31 27.30
2.19218
73.73
4-25 40 3.8
4-2.65389
29
182
ILu.
6 2 50.55
2.19885
74.29
4-26 57 13.7
4-2.50474
308 MOON CULMINATIONS, 1856«
WASHINGTON MERIDIAN.
Solar
Jane 30
SO
July 1
S
S
8
8
9
9
10
10
11
11
12
IS
13
13
14
14
15
15
16
16
17
18
18
19
19
90
20
91
21
92
22
28
23
24
24
25
25
BidnMl
Date.
Limb
and
TTaarit.
d.
182
ILL.
183
II. U.
183
U.L.
184
I.U.
184
Ll.
185
I.U.
185
I.L.
186
I.U.
186
I.L.
187
I.U.
187
I.L.
188
I.U.
188
I.L.
189
I.U.
189
I.L.
190
I.U.
191
I.L.
191
I.U.
192
Ll.
192
Lu.
198
Ll.
193
Lu.
194
Ll.
194
Lu.
195
Ll.
195
Lu.
196
Ll.
196
Lu.
197
Ll.
197
Lu.
198
Ll.
198
Lu.
199
Ll.
199
ILu.
200
ILL.
200
n.u.
201
ILL.
201
ILu.
202
ILL.
202
ILu.
203
n. L.
204
n.u.
204
ILL.
205
ILu.
205
ILL.
206
ILu.
206
ILL.
207
n.u.
207
ILL.
208
ILu.
Bifhi
in
h. m. a.
5 34 35.16
6 6 24.14
6 37 59.07
7 6 35.96
7 36 54.42
8 6 15.21
8 34 31.54
9 1 40.77
9 27 44.12
9 52 45.63
10 16 51.41
10 40 8.98
11 2 46.50
11 24 53.78
11 46 36.71
12 8 7.36
12 29 33.84
12 51 5.24
13 12 50.73
13 34 5943
13 57 40.55
14 21 3.03
14 45 15.42
15 10 25.55
15 36 39.88
16 4 2.83
16 32 35.93
17 2 16.19
17 32 57.24
18 4 26.91
18 36 29.61
19 8 46.47
19 40 58.31
20 15 15.87
20 46 26.58
21 16 50.78
21 46 24.13
22 15 6.77
22 43 2.58
23 10 18.56
23 37 2.86
0 3 25.52
0 29 36.98
0 55 47.83
1 22 a64
1 48 49.22
2 15 5830
2 43 43.75
3 12 10.18
3 41 20.42
Lonrithm
Variation of
Sidenal
Time
of
Semi.
diaoMCMT
pajjtog
Moon'M
Bight A«oen-
■kmfiff
Iboorof
Longitude.
Iferidiaa.
2.20181
74.55
2.20071
74.43
2.19540
73.96
2.18653
73.14
2.17386
72.05
2.15866
70.75
2.14167
69.34
2.12379
67.90
2.10595
66.51
2.08888
65.21
207321
64.04
2.05949
63.04
2X>4809
63.22
2.03929
61.60
2.03334
61.20
2X»040
6\m
2.03056
61.05
2.03375
61.29
2.03993
61.74
2X>4902
62.41
2.06081
63.28
2.07493
64.34
2.09107
65i»7
2.10870
66.93
2.12707
68.37
2.14566
69.85
2.16319
71.30
2.17903
72.62
2.19209
73.72
2.20164
74.53
2J0707
74.99
2.20806
75.06
2.20485
74.76
2.19761
74.15
2.18766
73.30
2.17586
72.30
2.16328
71.25
2.15085
70J4
2.13953
69.34
2.12995
68.59
2.12267
68.02
2.11813
67.68
2.U654
67.58
2.U787
67.70
2.12199
68.04
2.12863
68.59
2.13729
69.32
2.14749
70.15
2.15845
71.05
2.16929
71J7
-«-27 47 31.4
H-28 10 9.9
-«-28 5 15.5
•+■27 33 47.8
H-26 37 31.1
H-25 18 43.8
H-23 40 4.2
-«-21 44 18.3
H-19 34 8.6
H-17 12 8.0
+14 40 36.3
^-12 1 37.1
+ 9 16 59.7
+ 6 28 20.7
+ 3 37 5.7
+ 0 44 32.5
— 2 8 8i)
^ 4 59 44.0
— 7 49 4.4
—10 34 54.2
—13 15 50.5
—15 50 19.5
—18 16 35^
—20 32 37.0
—22 36 6.1
—24 24 31.3
—25 55 8.1
—27 5 7.0
—27 51 46.5
—28 12 UJO
—28 6 9J
—27 31 6.4
—26 27 30.4
—24 56 17.7
—22 59 18.2
—90 39 5.1
—17 58 40.9
—15 1 25.5
—11 50 45.6
— 8 30 5.9
— 5 2 46 J
— 1 32 0.6
+ 1 59 11.2
-«- 5 27 52.3
-h 8 51 13.3
-«-12 6 27.6
H-15 10 52J
-his 1 43.5
-^20 36 21.4
-1-22 52 ia9
Mooa'a
for
IboaroT
H-2J6I50
H-1.64081
— 1.96487
—2.34410
—2.53100
—2.64916
—2.73102
—2.79017
—2.83403
— 2J6662
— 2J9085
-2.90670
—2.92140
—2.92988
—2.93474
— 2J3683
—2.93535
—2.93113
—2.92382
— 2J1281
— 2J9757
— 2J7707
—284971
— 2JI339
—2.76499
—2.69890
—2.60619
—2.46804
-2.23262
—1.57027
-^2X)1529
-1-2.39278
4-238904
-h2.7l794
+2.80982
+2.87747
+2.92787
+2.96503 I
+2.99170 I
+3J»975
-1-3.02026
-1-3^12419
+3.02207
+3i>1384
+2J9942
+2J78S4
+2.94956
+2.9U61
+2.86229
+2.79786
MOON CULMINATIONS, 1856. 309
WASHINGTON MERIDIAN.
Losarlthm
yariatkmof
Sidanal
Tima
of
Semi-
diameter
LogariOim
Tariatlonof
M«u
Sidaraal
Date.
Limb
Apparait
Moon'H
Moon'i
Solar
and
BifhtAaoanaioB
Rigfal Aaoen-
Daelination.
DecUnation
Date.
TXaoflU.
in Time.
akmfiir
Meridian.
for
1 hour of
1 hour of
Loofitada.
LoDgitiide.
d.
h. m. •.
a.
O 1 II
July 26
208
n.L.
4 11 I3i)5
2.17909
72.81
H-24 46 44.7
+2.71257
26
209
II. u.
4 41 42.94
2.18698
73.47
+26 17 53.8
+2.59555
27
209
II. L.
5 12 40.90
2.19215
73.88
4-27 23 54.1
+2.42312
27
210
II. U.
6 43 54.10
2.19410
74.00
+28 3 364
+2.11951
28
210
ILL.
6 15 7j02
2.19204
73.80
+28 16 33.3
—0.30049
28
211
Hu.
e 46 344
2.18632
73J6
+28 3 3.6
—2.12104
29
211
ILL.
7 16 27.80
2.17696
72.42
+27 24 94
—2.41455
29
212
n.u.
7 46 7.03
2.16465
71.33
+26 21 32.7
—2.56695
ao
212
ILL.
8 14 51.65
2.15002
70J0S
+24 57 214
—2.67279
31
213
ILu.
8 42 85.93
2.13389
68.73
+28 14 3.7
—2.74814
81
213
Ll.
9 7 3.22
2.11774
67.86
+21 14 14.6
—2.80346
Aug. 1
214
Lu.
9 32 46.88
2.10099
66.04
+19 0 284
—2.84487
1
214
Ll.
9 57 33.18
2.08504
64.81
+16 35 11.2
—2.87578
2
215
Lu.
10 21 27.71
2.07033
63.71
+14 0 39.8
—2.89881
2
215
Ll.
10 44 37.26
2X)5740
62.77
+11 18 58.2
—2.91554
3
216
Lu.
11 7 9.47
2iM669
62X)1
+ 8 31 58.2
—2.92707
3
216
Ll.
11 29 12.37
2.03842
61.44
+ 5 41 19.2
—2.93442
4
217
Lu.
11 50 54.35
2.03282
61.07
+ 2 48 32.2
—2.93789
4
218
Ll.
12 12 23.73
2.03007
60.91
» 0 5 04
-2.93827
5
218
Lu.
12 33 49.34
2.03019
' 60.96
— 2 58 1.8
—2.93537
5
219
Ll.
12 55 19.57
2.08318
61J1
— 5 49 18.2
—2.92935
6
219
Lu.
13 17 3.13
2J03914
61.67
— 8 37 34.9
—2.91995
6
220
Ll.
13 39 8.77
2.04782
62.33
—11 21 36.3
—2.90712
7
220
Lu.
14 1 45. 9
2X)5896
63.19
—14 0 0.8
—2.88956
7
221
Ll.
14 25 0.69
2.07251
64.23
—16 31 18.3
—2.86687
8
221
Lu.
14 49 3.75
2.08796
6543
—18 53 48.8
—2.83727
8
222
Ll.
15 14 1.86
2.10486
66.76
—21 5 39.5
—2.79862
9
222
Lu.
15 40 1.31
2.12271
68.19
—23 4 42.6
—2.74776
9
223
Ll.
16 7 6.73
2.14073
69.65
—24 48 S%JO
—2.67910
10
223
Lu.
16 35 19.77
2.15806
71.08
—26 14 53.3
—2.58287
10
224
Ll.
17 4 39. 8
2.17386
72.41
—27 20 51.0
—2.43876
11
224
Lu.
17 34 58.79
2.18724
73.55
—28 3 55.2
—2.18784
11
225
Ll.
18 6 8.98
2.19753
7441
—28 21 46.2
—1.35787
12
225
Lu.
18 37 55.61
2.20396
74.94
—28 12 30.3
+2.06582
12
226
Ll.
19 10 1.85
2.20642
75.11
—27 34 59.2
+2.41378
13
226
Lu.
19 42 9.79
2.20480
74.93
—26 28 49.7
+2.60389
18
227
Ll.
20 14 2.71
2.19962
74.44
—24 54 39.6
+2.73141
14
227
Lu.
20 45 26.55
2.19167
73.71
—22 53 59.1
+2-82353
14
228
Ll.
21 16 11.54
2.18139
72.82
—20 29 6.6
+2.89223 ,
15
228
Lu.
21 46 12.31
2.17079
71.88
—17 42 54.8
+2.94382
16
229
n. L.
22 17 49.98
2.15939
70.96
—14 38 47.8
+2.98198
16
229
ILu.
22 46 21.82
2.14937
70.13
—11 20 22.1
+3.00935
17
230
ILL.
23 14 17.55
2.14098
6945
— 7 51 21.2
+3.02740
17
230
ILu.
23 41 45.04
2.13513
68.96
— 4 15 30.3
+3.03751
18
231
ILL.
0 8 53.50
2.13098
68.68
— 0 36 294
+3.04027
18
232
n.u.
0 35 52.83
2.12979
68.62
+ 3 2 7J
+3.03589
19
232
ILL.
1 2 53.08
2.13139
68.78
+ 6 36 554
+3.02483
19
233
ILu.
1 30 4.08
2.13551
69.15
+10 4 38.6
+3.00671
20
233
n. L.
1 57 34.62
2.14170
69.70
+13 22 8.9
+2.98088
20
234
ILu.
2 25 32.40
2.14968
70.39
+16 26 28.1
+2.94639
SIO MOON CUL9IINATI0NS, 185««
WASHINGTON MERIDIAN.
Logarithm
YaXtkmof
SIderaal
Time
of
8eml-
diameter
pajjlng
Maildlaii.
Lofaifthm
Yariatfooof
Bfaui
Solar
Date.
Limb
and
TXaoflU.
Bichi^Aaoanrion
In Time.
Moon'H
Right Aaoen-
ikmfcc
Iboorof
MOOB^
for
Ibouroi
LoogUiMla.
hon^toOm. 1
(L
h. m. a.
a.
O 1 II
Aug. 21
21
234
n.L.
2 54 3.84
2.15872
71.17
H-19 14 493
+2.90162
235
n.u.
3 23 11.69
2.16794
71 M
H-21 44 31.7
+234365 '
22
235
II. L.
3 52 56.44
2.17667
72.74
-•-23 53 103
+2.76862 ,
22
238
II. u.
4 23 14.84
2.18410
73.38
-«-25 38 40.7
+2.66890
23
286
U.I.
4 53 59.84
2.18896
73J3
-1-26 59 203
+233034
23
237
ILu.
5 25 0.98
2.19142
74J82
+27 54 0.1
+2316U6 j
24
237
II. L.
6 56 4.93
2.19044
73J2
+28 22 5.1
+136862 1
24
238
II. u.
6 26 57.15
2.18597
7349
+28 23 433
—1.75509 1
25
238
n.L.
6 57 23.13
2.17811
72.77
+27 59 423
—236061
25
289
It IT.
7 27 10^
2.16735
71J0
+27 11 233
—247614 J
26
239
n.L.
7 56 7.99
2.15515
70.63
+26 0 393
-2.608n '
26
240
II. u.
'8 24 10.29
2.13966
69.84
+24 29 40.7
—2.70037
27
240
ILL.
8 51 13.48
2.12318
67.99
+22 40 48.7
—2.76711
27
241
II. u.
9 17 17.46
2.10697
66.66
+20 36 28.7
—231704
28
241
ILL.
9 42 24^
2X)9121
6540
+18 19 2.7
—2.85498 '
28
242
ILtj.
10 6 39.98
2/)7639
64.24
+15 50 454
—238359 1
29
242
ILL.
10 30 8.76
2.06315
63.22
+13 13 433
—2.90505
ao
243
Lu.
10 50 53.15
2.05223
62^
+10 29 543
—2,92062 ,
90
243
Ll.
11 13 11.34
2.04285
61.68
+ 7 41 53
—233136 ■
31
244
Lu.
11 35 4.46
2X)3579
61.18
+ 4 48 54.7
—2.93789 .
31
244
Ll.
11 56 40.27
2.03141
60.88
+ 1 54 533
—2.94062 '
Sept 1
245
Lu.
12 18 6.67
2.02946
60.78
— 0 59 313
—233997
^ 1
246
Ll.
12 39 31.63
2.03031
60.85
— 3 53 03
—2.93586 '
2
246
Lu.
13 1 3.00
2.03879
61.13
— 6 44 113
—2.92834
2
247
Ll.
13 22 48.69
2X)3989
61.62
— 9 31 463
—231719
3
247
Lu.
13 44 56.67
2.04840
62.29
*12 14 233
-2.902011
3
248
Ll.
14 7 34.70
2.05922
63.14
—14 50 393
—238218
4
248
Lu.
14 30 50.39
2,07207
64.17
—17 18 58.7
—235691
4
249
Ll.
14 54 50.94
2.08661
65.33
—19 37 443
—232504
5
249
Lu.
15 19 42.74
2.10219
6637
—21 45 8.1
—2.78519
5
250
Ll.
15 45 30.93
2.11863
67 J6
—23 39 9.7
—2.72705
e
250
Lu.
16 12 19.30
2.13526
69.18
—25 17 434
—2.65225
8
251
Ll.
16 40 8.91
2.15100
7031
—26 38 303
—235096
7
251
Lu.
17 8 57.63
2.16536
71.75
—27 39 143
—239707 1
7
252
Ll.
17 38 40.37
2.17771
72.78
—28 17 383
—2.12254
8
252
Lu.
18 9 8.37
2.18727
7337
—28 31 433
+031954 '
8
253
Ll.
18 40 9J»
2.19346
74.09
—28 19 493
+2.10243
9
253
Lu.
19 11 29.72
2.19629
74J9
—27 40 503
+242095
9
254
Ll.
19 42 54.19
2.19559
74.20
—26 34 203
+2.60260 1
10
254
Lu.
20 14 8.89
2.19193
7334
—25 0 474
+2.72770
10
255
Ll.
20 45 2.17
2.18561
73.27
—28 I 93
+232027 1
11
255
Lu.
21 15 25.62
2.17794
7237
-20 37 163
+2.89042
U
256
Ll.
21 45 14.83
2.16926
71.83
—17 51 344
+2.94394 ,
12
256
Lu.
22 14 28.88
2.16077
71.11
—14 46 563
+2.98448
12
257
Ll.
22 43 10.65
2.15314
70.46
—11 26 413
+331473
13
257
Lu.
23 11 25.25
2.14694
69.95
— 7 54 213
+333559 .
14
258
ILL.
23 41 39.17
2.14289
6932
— 4 13 453
-^^34821 j
14
259
ILu.
0 9 22.54
2.14114
69.49
— 0 28 433
+335289
15
259
n.L.
0 37 4.37
2.14208
69.60
+ 8 16 46.6
+&05003
15
260
ILu.
1 4 5446
2.14526
6932
+ 6 58 503
+838949 1
MOON CULMINATIONS, 1856. 311
WASHINGTON MERIDIAN.
LonriUim
Variation of
Sidaraal
Time
of
Semi-
diameter
pauring
tb«
Meridian.
B.
Logarithm
Variation of
Mmn
8oUr
8ld«nal
Limb
and
Apparant
Right Asceiuloa
Moou^ii
Riglit A«oen-
Mooo'a
DeelinatkMi
Date.
Tnuuit.
in Time.
■ionfiT
for
1 hour of
Ihoorof
LongUude.
LoDgitada.
d.
h. m. •.
O 1 II
Sept 16
860
n. L.
1 33 1.65
8.15083
70.43
H-10 33 35.8
4-3J03083
16
861
II. u.
8 1 44.86
3.15809
71.09
4-13 57 18.0
4-8.99335
17
861
II. L,
8 30 38.69
8.16661
71.89
-1-17 6 33.3
4-3.95578
17
868
n.u.
3 0 18.98
3.17543
73.71
4-19 57 31.9
4-3.90607
18
868
ILL.
3 30 36.17
8.18429
73.53
4-38 87 43.4
4-3.84136
18
863
Hu.
4- 1 37.80
8.19173
74.88
4-84 34 88.7
4-8.75641
19
863
ILL.
4 38 47.80
8.19733
74.71
4-86 15 84.5
4-3.64187
19
864
n. u.
5 4 34.14
8.19987
74.94
4-87 89 88.3
4-847838
80
864
n.L.
5 36 5.88
8.19984
74.89
4-88 15 38.8
4-8.80737
SO
865
ILu.
6 7 3548
8.19501
74JM
4-86 33 57i)
4-1^7840
SI
865
ILL.
6 88 39.59
8.18787
73.86
4-88 85 SIX)
—8.03503
SI
866
ILu.
7 9 3.88
8.17638
73.88
4-87 51 7.9
—8.36530
S3
866
ILL.
7 38 37.33
8.16886
71.69
4-86 53 13.0
—8.53807
S2
867
ILu.
8 7 18.57
8.14749
70.34
4-85 33 49.8
—8.64988
S3
867
ILL.
8 34 46/)l
8.13104
68.98
4-83 55 83.5
—8.78893
SS
868
ILu.
9 1 17.10
8.11481
67.50
4-88 0 804
—8.78738
S4
868
ILL.
9 86 48.14
8.09767
66.13
4-19 51 3.1
—8.83136
S4
869
ILu.
9 51 33.61
8i)83U
64.89
4-17 89 46.6
—3.86504
S5
869
n.L.
10 15 9.47
3.06800
63.79
4-14 58 36.8
—8.89059
Sft
870
n.u.
10 38 1347
84)5565
68J3
4-18 19 88.1
—8.90993
S6
870
ILL.
11 0 39.86
3.04544
68.01
4- 9 34 73
—8.93397
S6
871
U.V.
11 88 39.66
8.03763
61.39
4- 6 44 13.6
—3.93364
87
871
n.L.
11 44 19.34
8.03318
60.97
4- 3 51 18.5
—8.93937
87
878
ILu.
18 5 46.73
8.08938
60.74
4- 0 56 49.8
—8.94146
88
873
Ll.
18 85 8.15
8.08867
60.70
— 1 57 48.5
—3.94017
89
873
Lu.
13 46 33.71
8.03118
60.85
— 4 51 ISJ
—3.93536
89
874
Ll.
13 8 9.48
8.03579
61.30
— 7 43 0.8
—3.93686
30
874
Lu.
13 30 8.77
8.04889
61.75
—10 88 464
—8.91455
30
875
Ll.
13 53 31.07
8.05304
68.46
—13 10 8.8
—8.89757
Octl
875
Lu.
14 15 11.19
8X)6358
63.31
—15 44 l&Jd
—8.87558
1
876
Ll.
14 38 39.80
8.07598
64.30
—18 9 47Ji
—8.84708
8
876
Lu.
15 3 58.78
8.08908
65.43
—SO 84 54.1
—8.81050
8
877
Ll.
15 87 55.08
8.10483
66.63
—33 37 44.7
-3.76365
3
877
Lu.
15 53 50.17
8.11993
67.85
—34 16 31X)
—3.70836
3
878
Ll.
16 80 39.64
8.13457
69.05
—85 48 404
—3.68066
4
878
Lu.
16 48 88.57
8.14883
70.18
— S7 8 40.7
—8.50610
4
879
Ll.
17 16 55.48
8.16036
71.34
—87 56 80.8
—8.33088
6
879
Lu.
17 46 11.75
S.17009
78.13
-88 87 50.9
—1.99695
5
880
Ll.
18 16 3.59
8.17708
73.74
—88 35 37.3
4-1.35318
6
880
Lu.
18 46 15.39
8.18139
73X>9
—88 18 38.1
4-8.17464
6
881
Ll.
19 16 40.68
3.18330
73.18
-87 35 43.3
4-844389
7
881
Lu.
19 47 3.30
8.18054
73.03
—86 37 18.0
4-8.60891
7
888
Ll.
80 17 13.54
8.17653
73.64
—84 53 37.8
4-8.78436
8
883
Lu.
SO 47 3.83
8.17068
73.13
—S3 55 484
4-8.81144
8
883
Ll.
81 16 85.88
8.16376
71.58
—80 35 ^
4-8.87910
9
883
Lu.
81 45 80.41
S.15661
70.87
—17 63 37.7
4-8.93818
9
884
Ll.
88 13 47.47
8.14999
70.88
—14 53 45.6
4-8.97364
10
884
Lu.
83 41 51.05
8.14486
69.88
—11 38 7.7
4-3.00548
10
885
Ll.
33 9 36.33
8.14070
69.58
— 8 9 49.5
4-3.03890
11
885
Lu.
83 37 11.75
8.139f3
69.39
— 4 31 45.6
4-3.04448
312 MOON CULMINATIONS, 1856.
WASHINGTON MERIDIAJJ.
Lonrltlim
Variation of
Bideraal
Time
of
Semi-
diameter
pMring
the
Meridian.
v3Soal(
Bfaui
Solar
Bidanal
Date.
Limb
and
RighfAM^Ioii
MOOUH
Right Aaoon-
DeeUnatloii.
Moen^
Date.
Tnoilt.
in Time.
■ionfrt
tar
1 hoar of
Ibmref
Loofltade.
liongltnde.
d.
h. m. B.
a.
O 1 II
Oct 11
286
I.L.
0 4 46.00
2.14004
69.45
— 0 47 4SJS
4-8.05S69
12
287
I.U.
0 32 28.70
2.14349
69.73
4- 2 58 24.1
4-3j0535d
IS
287
Ll.
1 0 29.62
2.14934
70.24
H- 6 42 54.8
-hSXHW
13
288
I.U.
1 28 58.14
2.15749
70.94
H-IO 21 37.9
-h3.030l9
14
288
ILL.
8 0 26.27
2.16776
71.80
•+-13 50 22.9
4-3iXe05
14
289
ILu.
2 30 15.12
2.17858
72.80
H-17 4 59.7
4-2.96876
15
289
n.L.
3 0 49.94
2.18955
73.81
H-20 1 27.4
-1-2,91939
15
290
n.u.
3 32 10.48
2.19965
74.76
4-22 36 3.6
4-2.85291
16
290
n.L.
4 4 11.54
2.20820
15M
H-24 45 d3J>
4-2.76425
16
291
ILu.
4 36 48.98
2.21378
76.10
H-26 27 27jO
4-2.64078 j
17
291
n.L.
5 9 32.90
2.21560
76.33
-1-27 40 1.9
4-2458S4
17
292
ILu.
5 42 20.77
2.21355
76.15
4-28 22 36.4
4-2.14019 1
18
292
ILL.
6 14 49.12
2.20705
75.61
4-28 35 29.7
— OJ8649
18
293
ILu.
6 46 39.86
2.19687
74.69
4-28 19 55.0
—2.16406
19
293
ILL.
7 17 38.32
2.18307
73.52
4-27 37 50.1
—8.48537
19
294
n.u.
7 47 33.13
2.16673
72.09
4-26 31 46.7
—238591
SO
294
ILL.
8 16 18.56
2.14879
70.58
4-25 4 29.6
—2.68465
20
295
ILu.
8 43 52.61
2.13011
69.00
4-23 18 45.7
—2.75587
21
295
ILL.
9 10 17.09
2.11157
67.45
4-21 17 20.1
— 2J0767
SI
296
n.u.
9 35 36.61
2.09377
66.01
4-19 2 43.5
—8.84634
1
8S
296
n. L.
9 59 57.53
2.07748
64.71
4-16 37 13.8
—8.87581
22
297
ILu.
10 23 27.53
2.06300
63.57
4-14 2 53.4
—8.89796
23
297
^ ILL.
10 46 14.78
2.05081
62JS9
4-11 21 32.5
—8.91421
23
298
ILu.
11 8 27.92
2.04100
61.83
4- 8 84 49.7
—8.92655
24
298
n.L.
11 30 15.89
2.03395
61.25
4- 5 44 15.6
—8.93465
24
299
ILu.
11 51 45.75
2.02946
60.88
4- 2 51 13.6
—2.93897
25
300
ILL.
12 13 7.27
2.02796
60.73
— 0 2 56.1
— 29402J
25
300
ILu.
12 34 28.03
2.02906
60.78
— 2 56 54JJ
-2.93812
26
301
ILL.
12 55 56.00
2.03282
61.01
— 5 49 21.8
—2,93258
86
301
ILu.
13 17 38.96
2.03902
61.44
— 8 38 55.8
-2.92335
27
802
n.L.
13 39 44.36
2.04766
62.05
—11 24 10.0
—2.91004
27
302
ILu.
14 2 19.40
2.05809
62.83
—14 3 32.2
—2.89176
28
303
ILL.
14 25 30.65
2.07037
63.74
—16 35 22.9
-2J6no 1
29-
303
Lu.
14 47 14.66
2.08332
64.76
—18 57 56.4
— 2J3658 !
29
304
Ll.
15 11 53.23
2.09771
65.89
—21 9 18.7
—2.79623
80
304
Lu.
15 37 22.45
2.11244
67.07
—28 7 30.5
—2.74382
SO
305
Ll.
16 8 44.10
2.12688
68.23
—24 50 28.1
—2.67514
31
305
lu.
16 30 57.61
2.14041
69.37
—26 16 6.7
—2.58127
31
306
Ll.
16 58 59.81
2.15238
70.37
—27 22 24.8
—2.44716 ;
Not. 1
306
Lu.
17 27 44.48
2.16215
71.22
—28 7 35.1
-2.23147
807
Ll.
17 57 2.70
2.16918
71.88
—88 30 5.8
-1.72997 J
307
Lu.
18 26 43.48
2.17339
72.30
—88 88 45.8
4-1.82866
308
Ll.
18 56 34.76
2.17435
72.43
-88 a 57.7
4-258012
308
Lu.
19 26 24.05
2.17254
72.28
—87 12 33.1
4-249554
309
Ll.
19 56 0.44
2.16880
71.91
—25 57 55.6
H-2.63589
309
Lu.
20 25 15.07
8.16194
71.37
—24 19 57.8
-1-2.73719 ,
310
Ll.
20 54 1.91
2.15464
70.74
—22 19 57 J5
H.2.81465 1
310
Lu.
21 22 18.26
2.14660
70.08
—19 59 32.1
4-2.87506
311
Ll.
2i 50 4.56
2.13878
69.45
—17 20 35.6
4-2.92309
311
Lu.
22 17 23.75
2.13252
68.90
—14 25 12.7
4-2.96114
MOON CULMINATIONS, 1856. 313
WASHINGTON MERIDIAN.
Loarithm
Variation of
Bldenal
Time
of
Semi.
diameter
paMing
the
Meridian.
Logarithm
Variation of
Mmd
BIderMa
Date.
Limb
Apparent
Moon'ii
Moon's
SoUr
and
Bifht A«c«iidon
Right Aiioen-
Sato.
Tnuuit.
faiTima.
akmfrir
tor
1 hour of
Ihourof
Longltada.
Longitude.
d.
h. m. •.
B.
O 1 II
Nov. 6
312
I.L.
22 44 21.68
2.12740
68.47
—11 15 39.7
+2.99078
7
312
I.U.
23 11 5.08
2.12483
68.25
— 7 54 23.4
+3.01347
7
313
I.L.
23 37 43.21
2.12444
68.23
— 4 24 3.4
+3.02999
8
314
I.U.
0 4 25.69
2.12727
68.44
— 0 47 35.3
+3.04048
8
314
Ll.
0 31 23.30
il3239
68.87
+ 2 51 54.3
+3.04509
9
315
Lu.
0 58 45.94
2.14051
69.52
-«- 6 30 59.8
+3.03874
9
315
I.L.
1 26 44.61
2.15103
70.39
4-10 5 57.3
+3.02436
10
316
Lu.
1 55 28.73
2.16349
71.46
-1-13 32 48.2
+3.00296
10
316
I.L.
2 25 5.84
2.17702
72.63
H-16 47 22.6
+2.97128
U
317
Lu.
2 55 40.61
2.19103
73.86
-hl9 45 23.9
+2.92480
12
317
ILL.
3 29 44.26
2JK)47]
75.06
+22 22 39JS
+2.86207
IS
318
ILu.
4 2 13.96
2.21574
76.08
-f-24 35 19.7
+2.77510
IS
318
ILL.
4 35 26.74
2.22381
76.81
H-26 20 6.4
+2.65331
13
319
ILu.
5 9 6.47
2.22755
77.18
H-27 34 41.4
+2.47012
U
319
ILL.
5 42 52.11
2.22660
77.14
+28 17 50.9
+2.13609
14
320
n.u.
6 16 20.96
2.22053
76.63
+28 29 35.6
—1.25042
15
320
n.L.
6 49 10.87
2.20978
75.68
+28 11 10.0
—2.21511
15
321
ILu.
7 21 3.58
219507
74.39
+27 24 45.3
—2.47305
16
321
ILL.
7 51 45.67
2.17728
72.88
+26 13 14.8
—2.61794
16
322
ILu.
8 21 9.85
2.15761
71.24
+24 39 50.5
—2.71282
17
322
n.L.
8 49 14.11
2.13704
69.50
+22 47 48.2
—2.77931
17
323
ILu.
9 16 0.86
2.11671
67.85
+20 40 16.4
—2.82698
18
323
n.L.
9 41 35.85
209740
66.31
+18 20 6.5
—2.86189
18
324
, n. u.
10 6 6.72
2.07979
64.92
+15 49 46.9
—2.88835
19
324
ILL.
10 29 42.29
2.06408
63.72
+13 11 29.0
—2.90757
19
325
n.u.
10 52 31.79
2.05111
62.72
+10 27 7.6
—2.92117
20
325
ILL.
11 14 45.24
2.04092
61.93
+ 7 38 22.9
—2.93059
20
326
ILu.
11 36 2.05
2.03363
61.35
+ 4 46 39.9
—2.93641
21
326
ILL.
11 58 1.59
2.02938
60.99
+ 1 53 18.2
—2.93902
21
327
ILu.
12 19 23.03
2.02820
60J7
— 1 0 27.4
—2.93837
22
328
n.L.
12 40 45.16
2.02971
60.95
— 3 53 24.3
—2.93495
22
328
ILu.
13 2 16.55
2.03451
61.22
— 6 44 22.2
—2.92845
23
329
ILL.
13 24 5.93
2U)4155
61.70
— 9 32 1.6
—2.91808
23
329
n.u.
13 46 20.83
2.05123
62.37
— 12 14 58.2
—2.90352
24
330
ILL.
14 9 9.27
2.06292
63.20
—14 51 42.1
—2.88406
24
330
n.u.
14 32 38.32
2.07653
64.18
—17 20 33.6
—2.85848
25
331
II. L,
14 56 54.20
2.091 14
65.29
-19 39 42.1
—2.82504
25
331
ILu.
15 22 1.56
2.10660
66.49
-21 47 6.1
—2.78132
26
332
ILL.
15 48 3.74
2.12199
67.69
-23 40 38.7
—2.72370
26
332
n.u.
16 15 0.46
2.13678
68.90
-25 18 5.8
—2.64689
27
333
Ll.
16 40 32.69
2.14971
70.01
-26 3? 15.8
—2.53970
28
333
Lu.
17 9 10.05
2.16098
70.98
-27 36 1.3
-2UJ7967
28
334
Ll.
17 38 27.24
2.16979
71.75
- 2S 12 33.3
—2.09621
29
334
Lu.
18 8 13.10
2.17516
72.24
-28 25 26.5
—0.57978
29
335
Ll.
18 38 13.91
2.17696
72.43
—28 13 46.1
+2.07990
30
335
Lu.
19 8 15.90
, 2.17680
72.33
-27 37 17.8
+2.38899
30
336
Ll.
19 38 5.42
' 2.17131
71.99
—26 36 20.4
+2.56217
Dec 1
336
Lu.
20 7 31.36
2.16441
71.44
—25 11 45.9
+2.68115
1
337
Ll.
20 36 25.33
2.15552
70.73
—23 24 58.5
+2.76856
2
337
Lu.
21 4 42.41
2.14582
69.92
—21 17 43.1
+2.83525
40
314 MOON CULMINATIONS, 1856.
WASHINGTON MERIDIAN.
Lonrithm
Yariattonof
Sidenftl
Time
of
8anl-
diaaHfter
ySSSaii
Soter
BIdMWl
Date.
Limb
■od
BighrSMMloa
Moon'ii
Right Aioon-
IVwHmtinn.
Mood's
Dftto.
Tniutt.
la Hat.
■kmfic
BferidiMi.
te
1 hoar of
IhooroT
Longltade.
LooctaMlo.
d.
h. m. 1.
B.
O f M
Dtc 2
338
I.L.
21 32 21.57
2.13596
69.10
—18 52 0.1
4-238722
3
838
I.U.
21 59 24.64
2.12672
68.39
-16 9 583
4-2.92809
3
839
Lu
22 25 56.1 1
2.11886
67.79
—13 IS 53.4
4-2.96009
4
339
I.U.
22 52 2.79
2.11310
67J5
—10 6 13
4-2.98466
4
840
Ll.
23 17 53.08
2.10978
67.11
— 6 48 42.9
4-3J00273
5
840
Lu.
23 43 36.59
2.10934
67i)7
— 3 24 23i)
4-3.01515
5
34!
Ll.
0 9 23.75
2.11177
67.26
4-0 4 29.1
4-332189
6
342
Lu.
0 35 25.5.5
2.11730
67.70
-4- 3 35 143
4^il2288
6
342
Ll.
1 1 53.21
2.12581
68.39
4- 7 5 03
4^31779
7
843
Lu.
1 28 57.77
2.13678
69.30
4-10 30 403
4-330544 !
7
343
Ll.
1 56 49.60
2.15073
70.44
4-13 48 49.9
4-2.98511 ,
8
344
Lu.
2 25 37.75
2.16560
71.64
4-16 55 473
4-2.95463
8
844
Ll.
2 55 28.34
2.18130
72.97
4-19 47 453
4-231132 1
9
345
Lu.
3 26 24.24
2.19645
74.29
4-22 20 373
4-2 85150 '
9
345
Ll.
3 58 23.05
2.21029
75.50
4-24 30 36.1
4-2.76834 ■
•
10
346
Lu.
4 31 16.60
2.22084
76.45
4-26 14 103
4-2.65011
10
846
Ll.
5 4 49.49
2.22768
77.03
4-27 28 30.7
4-2.47026 t
11
347
II. u.
5 41 16.26
2.22930
77.16
4-28 11 48.2
4-2.13893
12
347
ILL.
6 15 3.59
2.22580
76.83
4-28 23 29.4
—138780
12
348
ILu.
6 48 21.53
2.21714
76.08
4-28 4 18.7
—233019
13
848
n.L.
7 20 48.12
2.20341
74.92
4-27 16 9.9
—238940 ,
13
849
ILu.
7 52 7.61
2.18639
73.41
4-26 1 493
—2.63498 .
14
849
ILL.
8 22 9.51
2.16688
71.79
4-24 24 363
—2.73006
14
350
n.u.
8 50 49.62
2.14607
70j06
4-22 27 5a5
—2.79630 1
15
850
ILL.
9 18 9J6
2.12535
68^9
4-20 15 26.1
—234354 ;
r
15
851
n.u.
9 44 13.49
2.10514
66.80
4-17 50 53
—237754
le
851
ILL.
10 9 9.31
2.08690
65.36
4-15 14 453
—230189
16
852
ILu.
10 33 5.92
2X)7015
64.10
4-12 31 523
—2.91908
17
852
ILL.
10 56 13.17
2.05618
63.10
4- 9 43 33.4
—2.93069
17
853
ILu.
U 18 40.88
2i>4505
62.24
4- 6 51 343
—233787
18
858
n.L.
11 40 39.24
2X)3711
61.67
4- 3 57 293
—2.94136
18
854
ILu.
12 2 18.14
2X)3218
61.30
4-1 2 39.4
—234171
19
855
ILL.
12 23 47.10
2.03044
61.13
— 1 51 423
—233907
19
855
ILu.
12 45 15.63
2.03177
61.18
— 4 44 243
—2.93344
20
856
ILL.
13 6 52.84
2X)3631
61.46
— 7 34 18.7
—2.92463
20
356
ILu.
13 28 47.85
2.04380
61.97
—10 20 113
—2.91254
21
857
ILL.
13 51 9J00
2.05331
62.66
—13 0 463
—2.89636
21
857
ILu.
14 14 4.75
2.06554
63.52
—15 34 38.6
-237518
22
858
ILL.
14 37 42.83
2.07929
64.55
—18 0 103
—2.84770
22
858
ILu.
15 2 lOJOO
2.09489
65.69
—20 15 363
—231211
28
859
ILL.
15 27 31.70
2.11076
66J1
—22 18 563
—2.76574
23
859
ILu.
15 53 51.56
2.12717
68.18
—24 8 13
—2.70432
24
860
ILL.
16 21 10.62
2.14304
69.42
—25 40 33.1
—232076
24
860
ILu.
16 49 26.95
2.15676
7037
—26 54 143
—2 50161 ;
25
861
ILL.
17 18 34i)l
2.16867
7135
—27 46 513
—231576
25
861
n.u.
17 48 23.14
2.17751
7231
—28 16 263
1
—1.94300
26
862
ILL.
18 18 41.27
2.18278
72.80
—28 21 273
4-138092 ;
27
868
Lu.
18 46 47.51
2.18447
72.95
-28 0 59.8
4-232167
27
864
Lu
19 17 18.35
2.18230
72.77
-27 14 50.8
4-2.46879
28
364
Lu.
19 47 33.20
2.17684
7230
-26 3 31.1
4-2.62097 '
MOON CULMINATIONS, 1856. 315
WASHINGTON MERIDIAN,
Meui
Solar
Date.
SidemI
Date.
Limb
and
Tnitfli.
d.
Dee. S8
365
Ll.
S9
865
Lu.
29
866
Ll.
80
866
Lu.
80
867
Ll.
81
867
Lu.
81
868
Ll.
Appamit
RighlAaoMMk
in Time.
li. m. •.
20 17 19.90
20 46 29.37
21 14 56.76
21 42 40.83
22 9 48 J5
12 86 11.12
S8 2 9.46
Logarithm
Variation of
Moon'M
Right Aaoon-
■ioD tn
Ihoorof
Longitude.
2.16879
2.15882
2.14774
2.18656
2.12613
2.11707
2.11008
Sideraal
Time
of
8eml-
Meridlan.
71.61
70.81
69.93
69X)7
68.27
6739
674)8
- 24 28 12.4
—22 80 40.4
—20 13 4.4
—17 87 54.0
—14 47 41.4
—11 45 83
— 8 82 85w4
Logarithm
Tariationor
Moon^i
Declination
for
Ihoorof
4-2.72722
4-2.80611
+2.86576
+2.91158
+2.94675
+2.97840
+2.99880
316 MOON-CULMINATING STARS.
Slderaal
Name and
Name and
Name and
Name and
Name and
Name and
1 i«»y
1
Date.
R.A.of8tar
RJL.or8tar.
B.A.ofStar.
B.A.ofStar.
RJL.ofStar.
RJL.orStar.
20 CetL
p*
35 Piscium.
d Pisciam.
44 Pisciam.
13CetL
a Piscium.
0«. 7M..
Qb. 13a..
oh. i8«.
oh. 27»'-
oh. 4iai.
0»^45«-
d
B.
a.
a.
a.
a.
a.
13
32.97
10.60
0.60
49J&5
12.20
38.42
— jOIO
40
32.75
10.38
0.38
49.31
11.93
3815
— i)07
68
32.67
10.29
0.28
49.19
11.79
38iK)
JOOO
95
32.86
10.46
0.44
49J33
11.87
38.07
+J010
123
33.36
10.94
0.90
49.76
12.26
38.47
jOIS
15a
34.09
11.67
1.61
50.46
12.96
39.12
.029
178
34.99
12.56
2.50
51.34
13.84
39.99
jm
305
35.83
13.40
3.34
52.20
14.70
40.85
xno
233
36.51
14.10
4.05
52.92
15.45
41.60
X>21
260
36.91
14.51
4.47
53.37
15.94
42.09
U)I2
288
37.05
14.65
4.62
53.55
16.15
42^
+jaH
315
36.98
14.58
4.56
53i»l
16.14
42.38
4)06
342
36.74
14.37
4.36
53.32
15.97
42.16
— %009
Dec
= 4- 7° 69'
-«-7<^23'
H-l°9'
— 4<^23'
-1-60 48'
— 10 66'
Mag
-.s 6
6.5
6
6.5
4.5
5.6
• Pisciam.
< PUdum.
C^Pisdmn.
40Ceti
p Pisciam.
q Pisdom.
0>»-55'^
lk.0-.
lh.6«.
lb.9m.
lh.22"
lh.23«-
•■
a.
a.
a.
a.
a.
14
27.79
56.69
12.08
36^
38.13
46.49
— J012
41
27.61
56.41
11.79
86.07
37.82
46.16
jOlO
69
27.33
66.21
11.59
35J7
37.59
45.91
—SXA
96
27.39
66.27
1162
35.89
37.58
45.90
+i)05
124
27.78
66.63
11.98
36.22
37.89
46.21
i)18
151
28.44
57.27
12.63
36.86
38.50
46^
J024
179
29.31
58.14
13.49
37.71
39.34
47.70
i)33
206
30.17
59X)0
14.36
38.57
40.21
48.59
X»2
234
30.93
59.76
15.13
39.35
41X)0
49.41
J026
261
3U1
60.28
16^7
39.88
41i»8
49.99
.015.
289
31.70
60.55
15^
40.18
41.91
50.33
+4»6
316
31.72
60.59
16.00
40.23
42.01
50.45
jOOO
343
31^7
60.44
15.88
40.11
41.92
50.36
— J007
Dec
= + 7<^7'
H-4<^53'
•+- 6© 49'
— 302'
-1-5024'
+ 14036'
Mag
.=» 4
6.5
5.4
6
5
4.3
TT Pisciiim.
9 PUdam.
0 Pifldnm.
1 Arietis.
|»CetL
6 Arietis.
lb. 29«-
jh. 33111.
lh.37111.
lh.49iD.
2»'.5'»-
2h. 10m.
•.
a.
a.
a.
a.
a.
14
27.76
56.05
47.28
29.10
22.00
7.10
—.012
41
27.45
55.74
46.96
28.76
21.67
6.74
.012
69
27.18
55.48
46.70
28.46
21.35
6.39
— jao»
96
27.16
55.47
46.65
28.37
21.24
6.26
+.002
124
27 45
55.73
46.92
28.63
21.43
6.46
.015
151
28.06
56.31
47.50
29.20
21.95
6.99
U)26
179
28.91
57.14
48.34
30.05
22.74
7.81
.032
206
29.78
68.00
49.21
30.94
23.61
8.71
J032
234
30.60
58.80
50.04
31.79
24.45
9.60
X)28
261
31.19
59.40
50.64
32.44
25.11
10.29
.021
289
31.54
59.76
50.01
32.88
25.57
10.78
i)10
316
31.66
59.89
51.15
33.05
25.78
11.02
+i)02
343
31.59
59.82
51.09
33.02
25.78
MM
—XK)5'
Dec.
= no 24'
+ 4° 45'
+ 80 26'
-H 170 V
+ 80 10'
+ 190 14'
1
Mag
.a 6
5.4
4
6
4.5
6.5
5«Ceti.
38 ArietU.
n Arietis.
^ Arietis.
f Arietis.
53 Arietis.
1
2II.20"-
ah. 37».
2»-4l-
^ah-^goi.
2b. 500..
2b. 59».
(
■.
a.
a.
a.
a.
a.
15
30.31
7.05
15.72
18.82
59.11
19.57
— X)ll
42
29.98
6.71
15.36
18.46
58.75
19.21
.016
70
29.64
6.34
14.98
18.07
58.34
18.81
mt
97
29.49
6.16
14.79
17.87
58.12
18.58
—.002
125
29.66
6.29
14.91
17.97
58.21
18.65
+i)lO
152
30.15
6.74
15.37
18.42
58.67
19.07
JOiZ
180
30.93
7.51
16.14
19.18
59.44
19.81
.030
207
31.79
8.37
17.02
20.05
60.12
20.67
X)29
235
32.64
9.25
17.92
20.96
61.25
, 21.58
i)28
262
33.12
9.96
18.65
21.71
62.01
22.34
sm
290
33.81
10.50
19.21
22.29
62.61
22.95
.017
317
34.06
10.80
19i»
22.64
62.97
23.32
+.007
844
34.09
10.87
19.62
22.75
63.09
2347
— jOOI
Dec.
= + 70 49'
4- 110 51'
H- 160 53/
+ 170 27'
+ 203 46'
+ 170 19'
Ma^
= 4
5
65
6
4.5
6
1
MOON-CULMINATING STARS. 319
SidMml
Name and
Name and
Name and
Name and
Name and
Name and
DaUy
Date.
R.A.ofStar.
RJL.orStar.
RJl.ofStar.
R.A.ofStar.
R.A.ofStar.
R.A.orStar.
Change.
$ Cancru
83 Cancri.
;i Leonia.
1 Leonis.
0 Leonis.
f Leonis.
go-ioi.
9h. iQw-
Qh. 23«ii.
9h. 24«..
Qh. 33m.
9h. 37B,.
4
8.
a.
8.
8.
a
s.
83
5.73
57.62
31.23
11.97
28.94
41.49
+X)18
50
5.98
57.88
31.53
12.26
29.24
41.85
+iK)4
77
5.86
57.79
3147
12.20
29.20
41.84
—.008
104
5.51
57.48
31.16
11.94
28.94
41.57
.013
131
5.12
57.10
30.78
11.66
28.60
41.20
.012
158
4.85
56.81
3049
11.29
28.33
40.89
—.007
185
4.78
56.73
30.36
11.17
28.19
40.71
.000
213
4.93
56.85
3046
11.26
28.26
40.75
+.007
240
5.31
67.19
30.77
11.55
28.52
41.00
.016
268
5.92
67.77
31.33
12.07
29X)1
41.51
mi
295
6.71
58.52
32.09
12.80
29.74
42.24
.030
323
7.68
59.46
33.05
13.69
30.62
43.19
.034
350
8.62
60.39
34.01
14.50
31.53
44.16
+.033
Dec.
= H-22°38'
+ 18° 19'
+ 23° 36'
+ no 56'
+ 10033'
+ 240 26'
Mag
.== 5
6
54
6
4.3
3
vLeonis.
1} Leonia.
a Leonia.
y> Leonis.
45 LeonU.
Q Leonis
9»»-50«-
gh-bV^
10»»-0<*
lOh-ia-
lOfc-20^
10^ 25"-
1.
a.
a
a.
a.
8.
23
29.58
29.64
42.96
2.67
3.34
14.57
+.021
51
29 J4
30.06
43.38
3.13
3.79
15.03
+i)07
78
29.94
30.08
4341
8.19
3.86
16.11
—.004
105
• 29.69
29.85
43.20
2.98
3.68
14.95
.011
132
29.36
29.52
42J8
2.65
8.38
14.68
.012
159
29i)8
29.23
42.59
2.35
3.10
14.38
.009
186
28.93
29.06
4240
2.16
2.92
14.18
—.003
214
28.96
29.07
42.39
2.14
2.87
14.13
+.002
241
29.19
29.28
42.57
2.32
3X)2
14.68
.010
269
29.65
29.72
42.98
2.74
3.39
14.62
.019
296
90Ja3
80.39
43.63
3.40
4.00
15.22
.029
324
31.22
81.27
UAl
4.30
4.86
16.07
.036
351
82.15
32.24
4543
5.26
5.79
17.00
+.034
Dec
=« + i3°r
+ 170 28'
+ 190 40'
+ 200 34'
+ 10° 30'
+ 1003'
Mig
.= 5
3.4
1.2
2
6
4
37 Seztantis.
/Leonia.
0 Leonia.
;rI«eonia.
ft Leonia.
0 Leonia.
l0«»-38»-
IQh. 4iai.
10»»-53«^
10»»-57">-
lib. gnu
11*». 13"-
a.
8.
a.
a.
a.
a.
24
86.72
41.98
17.69
86.05
20.54
43.37
+.022
52
87.19
42.47
18.90
36.58
21.15
43.92
+.011
79
87.80
42.59
18J4
86.73
21.85
44.13
.000
106
87.15
42.44
18.24
86.63
21.27
44.07
—.008
131
86.86
42.18
17.98
86.37
21.04
43.85
.010
160
86.57
41.89
17.71
86.13
20.76
43.59
.010
187
36.35
41.69
17.51
85.89
20.53
43.36
.006
211
36.28
41.61
17il9
35.78
20.39
43.22
—.001
242
36.39
41.71
17.47
85.82
2042
43.22
+.007
270
86.73
42X)3
17.74
86.09
20.67
4346
.014
297
37.32
42.68
18.28
86.62
21.18
43.95
.026
324
38.15
43.40
19.05
87JI9
21.95
44.70
.034
352
89.12
44.36
20.01
88.34
22.91
45.63
+.035
Dec.
= 4- 17o S'
+ Ifo 18'
-«- 60 52'
+ 80 7'
+ 14° 6'
+ 6° 49'
Mig
.s= 6
5
5
5
6
4
tLeonis.
r Leonia.
V Virginia.
(t Virgiaia.
n Virginia.
0 Virginia.
llh-lfiia.
llh.20"-
ll»»-38-
llh.43B.
lib. 63»-
lib. 57«.
a.
a.
■.
a.
a.
8.
25
25.47
82.57
28.23
12.30
80.22
53.02
+X)25
53
26X>4
83.13
28.85
12.92
30.87
63.69
.016
80
26J4
83.34
2911
13.20
81.18
53.99
+.004
107
26.18
33.30
29.11
18.21
81.21
54.04
— X)02
134
S5J5
33X)9
28.93
ism
81.06
53.90
.008
161
25.70
32.83
28.68
12.81
80.83
63.66
.010
188
2546
82.60
2843
12.59
30.58
5341
J007
216
25.32
8244
28.26
12.89
30.38
53.20
—.001
243
25.33
8240
28.21
12.34
30.30
53.12
+ 002
270
S5.55
82.65
28.37
1249
3042
53.21
.010
298
26.06
33.15
28.82
12.92
30.82
53.61
.022
325
26.82
33.89
29.55
13.64
31.51
64.28
.030
353
27.77
34.82
3048
UJ^
3244
55.21
+.034
Dee
=3 4- 11° 49'
+ 8° 39'
H-70 20'
+ 2035'
+ 7° 25'
+ 9° 32'
Mm?
.= 4
5
4.5
34
4.5
4
320 MOON-CULMINATING STARS.
8ld«IMl
Nuneaod
Name and
Name and
Name and
Name and
Name and
Daily
Date.
RJl.ofStar.
R.A.ofStar.
R.A.of8tar.
B.A.ofStar.
R. A. of Star.
KJL.of8tar.
y Virginia.
Ghanga
PirtZZi xii.
13 Virginia.
y Virjnnis.
c Virginia.
0 Vii^inia.
12'- 4'»-
12b. iim.
12h. i2w.
12h. 1301.
,2h. 26-
12h. 34di.
d
B.
e.
B.
a.
a.
B.
27
18.76
17.98
32.85
2.92
21J}8
22.32
•+-.029
54
19.38
18.61
33.48
3.55
22.24
22.96
.018
81
19.70
18.94
33.82
3.90
22.58
23.40
.007
108
19.75
19.02
33.90
3.93
22.68
23.58
—.001
136
19.61
18.90
33.78
3.85
22.65
28JS0
jooel
163
19U39
18.68
33.57
3.63
22.48
23.28
.0091
191
19.14
18.43
33.32
3.39
22.19
23.01
J009
S19
18.92
18.20
33.10
3.16
21.95
22.78
J007
246
18.84
18.11
32.99
3.06
21.76
22.58
.001
274
18.96
18.21
83.09
8.16
21.86
22.67
H-XKW
801
19.36
18.59
8347
8.54
22.21
28.99
.022
828
20.06
19.26
84.15
4.21
22.88
23.68
sao
855
2a94
20.17
85.03
5.07
23.77
24.49
H-AW
Dec
=»4- 4^51'
H-Ool'
4-00 8'
-h4o7'
— 80 89'
— 0040'
Mug
.= 6^
6
3.4
6
6
8.2
38 Virsriois.
y; Vii^ni*.
4 Virginls.
6 Virginia.
0 Virginia.
C Virginia.
12»»- 45--
Ijh. 46«.
12h. 48-
18>^2--
IS"^ 17-
18»»-27-
•.
•.
■.
a.
a.
a.
28
49.28
52.41
21.45
80.14
86.75
21.72
-hJOSO
55
49.98
63.11
22.15
80.86
87.50
22.50
j020
82
50.39
53.52
22.57
81^1
88.03
23.00
mo
109
50.55
53.69
22.72
81.46
88.29
23.27 •
.001
137
50.50
53.65
22.69
81.52
88.88
28.88
—.004
164
50.33
53.48
22.51
81.87
88.21
28.22
Ml
192
50.08
53.22
22.26
81.18
87.96
22.98
mo
220
49.82
52.95
22XK)
80.85
87.66
22.71
mo
247
49.65
52.78
21.81
80.68
37.41
22.44
iMM
275
49.66
52.78
21.82
80.64
87.34
22.36
+X»3
802
49.98
53.10
22.18
8a95
87.54
22.54
J017
829
50.59
53.78
22.78
81.37
88.10
23.08
JOM
856
52.46
54.60
28.59
8242
88.94
23.88
•hJOSO
Dec
= — 2° 47'
— 80 45'
+ 4° 11'
— 40 46'
— 10^25^
H-00 9'
Mm?
.= 6
5
8
4.5
1
8.4
m Vir^nU.
86 VirKinifl.
89 Virginia.
94yiigini..
M Viivinia.
a Vifvinia.
I3h.34«.
13»»- 38--
13h. 42-
I8»»^ 58-
14»»^5-
^4^ 11-
1.
■.
a.
a.
a.
a.
1
2.63
15.88
2.21
89.56
12.18
18.80
— U)ll
29
3.58
16.29
8.19
40.51
18.08
19.26
^xm
56
4.35
17.07
8.99
41.82
18.89
20.09
jm
83
4.88
17.61
4.55
41.90
14.50
20.78
mi
110
4.16
17.91
4.87
42.25
14.89
21.15
JOOB
138
5.24
18.00
4.97
42.89
15.02
21.80
JOOl
165
5.14
17.93
4.89
42.85
14.98
21.88
—.006
193
4.91
17.68
4.65
42.18
14.79
21.11
mo
221
4.61
17.37
4.27
41.88
14.47
20.80
JOII
248
4.35
17.11
4.04
41.58
14.18
2048
J009
276
4.25
17.00
8.94
41.87
14.00
20.28
-^JOOl
330
4.98
17.71
4.60
41.98
14.58
20.81
JOU
857
5.79
18.52
5.40
42.75
15.85
21.56
+.088
Dec.
= — 7o 58*
-110 42'
— 17© 25'
— 80 12'
— 9036'
— 120 42f
Mug
.= 6
6
5
6
4.5
5.4
fi Virpinii.
5 Libra.
ft Libra.
0 Libraa.
rLibraa.
20LibraB.
14»»- 35--
14*^ 88--
U*»- 41"-
14»»-42-
14*»- 48-
14^ 55-
8.
•.
a.
a.
a.
a.
2
27.41
0.45
24.62
58.87
56.80
87.59
+J080
80
28.84
1.89
25.58
54.83
57.22
88^
.034
57
29.17
2.24
2644
55.70
58.10
89.50
X>29
84
29.82
2.92
27.12
56.88
58.79
4a46
.021
111
30.26
8.88
27.58
56.86
59JSt7
40.20
i>14
139
80.49
8.68
27.84
57.18
59.50
41.76
.007
166
30.51
8.66
27.88
57.17
59.60
41.04
.001
194
30.34
8.50
27.72
57.01
59.45
41.05
—.008
222
30.03
8.18
27.40
56.69
59.14
40.70
.018
249
29.69
2.83
27.05
56.38
58.78
40.81
i>12
277
29.46
2.58
26J1
56XW
58.58
40.00
XK>4
831
29.88
8.03
27.22
56.50
58.90
40.88
-K021
358
30.59
8.75
27.95
67.22
59.59
41.11
+.081
Doc
= - 53 2'
— 14^ 51'
— 18=» 39f
— 15°26'
— 10^50'
-14048'
1 Mtg
.= 4
6
6
2.3
6
8.4
___
MOON-CULMINATING STARS. 321
Sidenal
Name and
Name and
Name and
Name and
Name and
Name and
DaUj
D»to.
BJk.ofSUr.
ILA.ofStar.
R.A.of8tar.
EJL.of8tar.
R.A. ofStar.
R.A. OfStar.
Change.
.» Libra.
C» Librae.
Y Librae.
jrLibffB.
>/ Librae.
X Librae.
•
I5h. 3..
15*>- 20'"-
Ijh. 27m.
I5h.33a..
Ib^' 35«"-
15h. 44«.
d
•.
••
■.
a.
a
a.
3
59.86
7.05
27.08
37.88
57.20
57.37
-♦-XW2
81
60.82
7.98
28.00
38.81
58 11
58.29
.035
58
61.72
8.87
28.88
39.72
59.00
59.20
JOS\
85
62.46
9.62
29.65
40.51
59.78
60.01
.028
112
62.99
10.19
30.22
41.12
60.37
60.65
.018
UO
63.31
10.56
30.60
41..52
60.77
61.08
-4-.010
167
63.40
10.68
30.74
41.69
60.94
61.28
.000
195
63.28
10.58
30.65
41.61
60.87
61.23
—.008
223
62.94
10.26
30.35
41.31
60.57
60.93
.014
250
62.36
9.89
2997
40.93
60.19
60.54
X)13
278
62.27
9.57
29.64
40.57
59.85
60.17
—.008
305
62.24
9.51
29.56
40.48
59.75
60.07
-hJOQS
332
62.61
9.82
29.85
40.75
60.01
60.30
+.018
Dec.
= — 19<^15'
— 163 13'
— 14° 19'
— 190 13'
— 150 13'
— 190 44'
Mag
.= 5.4
4
4.5
5
6
6
Q Scorpii.
a ScorpiL
/J* Scorpii.
0 ScorpiL
a ScorpiL
T Scorpii.
n^ 47'»-
15'»- 51--
IS**- 57«-
Igh. i2"-
I6h.20«».
leh. 26».
1.
1.
t.
a.
a.
a.
4
58.30
47.89
2.49
24.78
83.20
53.55
+.081
31
59.27
48.79
3.39
25.69
34.10
54.44
.036
59
60.29
49.77
4.32
26.69
35.09
55.46
.035
8«
61.14
50.58
5.16
27.54
85.98
56.35
J02S
lis
61.82
51.23
6.80
27.25
36.72
57.11
J021
141
62.29
51.69
6.27
28.79
37.28
57.70
.014
168
62JM
51.90
6.49
29.05
87.57
58X)1
+.005
196
62.43
51.85
6.45
29.03
37.59
58.45
—.008
224
62.10
51.54
6.17
28.76
37.82
57.76
JOU
251
61.66
51.14
5.76
28.84
36.89
57.34
J0\7
278
61.28
50.76
5.39
27.94
86.48
56.91
—.011
306
61.15
50.64
6.25
27.76
86i)5
56.68
+.001
333
61.41
50.88
5.45
27.94
86.41
56.84
+.016
Dec
= — 28° 47'
— 220 12^
— 19024'
— 250 14/
— 260 6'
— 270 55'
Mag
.= 5.4
2.8
2
3.4
1.2
3.4
24ScorpU.
20 Ophiuchi.
11 Ophiachi.
A Ophiachi
1 OphiachL
6 OphiachL
leh. 33"-
leb. 4i«.
17h. am.
17li.e«.
17"»- 12«-
17K 13«-
t.
t.
a.
a.
a.
a.
4
13.21
50.50
5.61
27.90
20.72
8.27
+.025
82
14.06
51.40
640
28.74
21.51
9.08
.033
60
15.00
52.30
7.81
29.69
22.44
10.03
.033
87
15J4
53.12
8.16
80.62
23.82
10.94
.031
114
16.56
53.84
8.92
31.44
24.12
11.76
.025
142
17.11
64.87
9.58
32.12
24.78
12.45
.018
169
17.40
54.67
9.90
32..'V3
25.18
12.87
+.009
197
17.43
54.72
9.99
32.64
25.31
13.01
—.002
224
17.20
54.49
9.80
32.44
25.13
12.83
J012
252
16.78
b4J09
9.41
32.04
24.73
12.42
.017
279
16.37
63.68
8.98
31.56
24i)8
11.96
.014
306
16.17
53.47
8.72
31.26
24.00
11.67
—.004
834
16.30
63.57
8.78
31.32
24XM
11.70
+X)10
Dec.
= — 170 28'
— 10° 31'
— 150 38'
— 26° 23'
— 20057'
— 24° 61'
Mag
.=» 6
5
2.3
5
5
3.4
b Ophiachi.
I7lt 17-.
c* Ophiuchi.
17K-22"-
0 Serpentis.
4Sagittarii
9SagittariL
rSagittariL
17h. 3301.
\1^ 50«-
n^ 55"-
17k- 56-.
•.
1.
a.
a.
a.
a.
5
82.73
36.18
17.58
58.18
0.85
81.85
+X)23
83
83.55
36.94
18.31
59.92
' 1.59
32.61
JOSO
60
84.46
37.84
19.14
59.79
2.45
88.52
.033
88
35.40
38.78
20.02
60.73
3.39
84.52
J0S2
115
36.23
39.61
20.71
61.59
4.26
85.43
.030
142
36.89
40.28
21.45
62.32
5.00
36.23
.022
170
37.33
40.74
21.90
62.85
5.55
36.80
+.013
198
37.47
40.89
22.06
63.08
5.79
37.06
JOOO
225
87.29
40.72
21.92
62.97
5.69
86.96
—.010
253
86.88
40.31
21.54
62.60
5.32
36.56
.017
280
86.41
39.85
21.10
62.13
4.84
36.06
X)17
807
36.12
89.55
20.80
61.78
4.49
35.68
—.007
335
86.15
39.53
20.79
61.74
4.44
35.62
+.005
Dec.
= — 240 2'
— 23=^51'
— 12° 48'
— 23048'
— 24022'
— 30O 25'
Mag
.== 5
5
5.4
5
5.4
3.4
41
322 MOON-CULMINATING STARS.
SkUma
Name and
NameMMl
Nam* and
Hum and
Name and
Nam* and
DaQy
OAto.
RJLofSUr.
BJk.orStMr.
BJLofStar.
RJLofStar.
BJLofSter.
EJLofStar.
Chaaga
M* SagitlariL
d Sagiltorii.
a SagittariL
Bradley 2333.
9 Sagittarii
29 Sagittarii.
IB^b^
IS*"- ll"*-
jgh. ,91^
\%h. 25«^
Igh. 3(01.
18**- 41"^ •
d
••
■.
t.
1.
■•
■.
34
7.81
45.18
3.68
43.84
88.19
5.91
+X>28
61
8.64
46.06
4.53
44.66
39.02
6.68
J)S4
88
9.56
46.91
545
45.56
39.94
7.55
JOM
116
10.41
47.97
6.37
4648
40.89
845
.032
143
11.15
48.83
7.17
47.27
41.75
9.25
J)26
170
11.69
49J17
7.76
47.87
42.36
9.87
JO\S
198
11.95
49.66
8j06
48.18
42.72
10.22
-hjooei
226
11.87
49.59
8X)1
48.14
42.71
10.22
— XX)8
253
11.52
49.23
8.67
47.82
4240
9.98
JOIB
281
11j05
48.71
7.18
47.34
41.92
947
i)17
308
10.70
48.32
6.80
46.96
41.51
9.06
—4)10
335
10.62
48.22
6.68
46.83
41.36
8.93
-1-4)01
362
10.89
48J^1
6.98
47J07
41.57
9.11
-1-4)16
Docs. =- — 21° 6^
— 290 53'
— 15° 30'
— 230 87'
— 27°8'
— i0°29'
Mag.» 4
34
3
6
4.3
6
v> SaffittariL
oSagittarii.
C SagittariL
T SagittariL
/SagittariL
ik* SagittariL
18'^ 46«-
18»»-46--
18b. 63-^
Ifih. 57...
19k- 16-^
19k- 27--
f.
■.
t.
0.
t.
a.
34
26.92
18.86
25.83
55.41
29X)4
54.91
H-4)25
62
27.73
19.69
26.17
56.22
29.76
55.70
4)32
89
28.61
20.59
27.10
57.11
80.63
5636
4)34
117
29JV3
21.54
MJOS
58X)8
81.57
57.50
4)33
144
30.36
22.39
28.97
58.96
8244
58.39
4)29
171
30.88
22.93
29.55
59.54
83X)4
59X)l
4)21
199
31.34
2340
30X)8
60.06
83.62
59.60
+4)07
227
81.33
2340
80X)7
60.10
83.67
59.72
—4)05
254
3\J0S
23i)9 *
29.77
59.81
8342
5949
4)15
281
30.58
22.63
29.29
59.35
82.99
594)7
4)17
309
30.16
22.20
28.84
58.91
82.55
58.63
4)13
336
30.02
22j05
28.67
58.73
82.85
5842
—4)01
363
80.21
22.24
28.83
58.86
8244
5847
-»-4)12
Dec =- — 22° 56'
— 260 28*
— 80^5'
— 27053'
— 24° 47'
— 250 12'
Mag.= 5
2.3
34
4.3
6
54
6*8agittariL
/Sagittarii.
6 SagittariL
A Sagittarii.
c SagittariL
Pianiiii.366J
19h.34«.
19''- 37--
19'»-50"-
19k- 53«-
19k. 55»-
■■
f.
■.
a.
a.
■
85
1543
56.17
4J3
8.93
46.36
10.03
-t-4)20
62
16.08
56.83
5.51
9.60
47.02
10.72
xm
90
16.90
57.67
6.37
1045
47.90
11.62
4)33
117
17.76
68.55
8.30
11.37
48.81
12.59
4)34
145
18.65
5945
8.26
12.32
49.77
13.60
4)32
172
19.33
60.17
9.05
13.11
50.57
1443
4)24
200
19.80
60.65
9.58
13.63
51.12
14.99
-1-4)13
227
19.90
60.76
9.73
13.80
51.30
15.18
—4)02
255
19.68
60.54
9.52
13.60
51.10
14.99
4)12
282
19.28
60.12
9.10
13.18
50.68
14.55
4)17
309
18.87
59.71
8.65
12.75
50.25
14.09
4)14
337
18.65
5947
8.88
1245
49.96
13,77
—4)03
364
18.71
59.52
&41
12.49
49.98
13.79
-1-4)06
Dec. a ^ 163 28'
— 20O6'
-27° 38/
— 26° 35'
— 28° 7'
— 82^ 27'
Mag.= 5
5
5
5
5
5
a* CwricomL
;r Caprioorni
eCapriconiL
vCaprieomL
90*-31»-
V^CapricomL
m Capricomi
20^10^
20^19--
20»»-20-
20»»-37--
20k- 43--
86
2.29
3XM
87.05
4945
3^24
n.69
+4)16
63
2.85
3.72 •
87.68
50.05
82.86
12.29
4)24
91
3.60
4.33
38.29
50.65
8347
12.90
Ml
118
iM
5.36
89.30
51.65
34.51
13.95
4)33
145
5.28
6.25
40.19
52.53
35.44
14J9
4)34 '■
173
6.06
7J04
41.00
53.36
36.32
15.79
4)27 1
201
6.59
7.53
41.50
53.91
86.88
16.86
4)15
228
6.76
7.81
41.77
54 JO
37.23
16.74
-4-4)02
256
6.62
7.73
41.70
54.14
37.16
16.71
— 007
283
6.27
7.33
41.29
53.77
86.79
16.83
4)16
310
5.87
6.91
40.88
5345
86.37
15.89
4)15
338
5.60
6.61
40.60
53.06
86.04
15.55
— 4»7
365
5J»9
6.59
40.56
53.00
85.96
15.46
-h4)03
Dec. = — 123 59f
— 18=^ 41'
— 18^ 17'
— 18^89'
-25^47'
— 27° 27'
Mai;. = 3.4
5
5
6.5
4.5
4 5
MOON-CULMINATING STARS. 323
SMmftl
NaoMMiA
KameMMl
NanMud
Mum and
Nam* and
NanMand
DaUy
Dttle.
R.A.orSter.
R.A.of8Ur.
K. A. of Star.
RJl.of8tar.
RJL.ofStar.
R. A. of Star.
d Capricorni.
Change.
y Aquarii.
t Capricorni.
C CapricornL
• Capricorni.
Y CapricornL
2l»»-l--
2l»»- U--
2ih. ,8«.
2ih. 28«..
2l"»- 32'».
21I.. 39u^
d
•.
f.
t.
a.
a
a.
87
43^5
11.99
25.00
59.45
5.16
3.96
-hJ0\2
64
43.77
12.39
25.41
59.83
5 52
4.80
.018
91
44.41
13.02
26.06
.60.43
6.10
4.86
m7
119
45.25
13.86
26.91
61.25
6.91
5.66
J0S2
US
46.11
14.76
27.83
62.15
7.80
6.54
.083
173
46.96
15.63
28.74
63.06
8.70
7.45
.029
201
47.57
16.28
29.43
68.75
9.39
8.15
J019
229
47.88
16.63
29.81
« 64.15
9.79
8.56
H-.008
256
47.85
16.64
29.83
64.20
9.84
8.64
—.006
284
47.55
16.37
29.55
68.95
9.60
8.41
.013
311
47.17
15.99
29.15
63.58
9.25
8.07
JOIA
338
46.87
15.67
28.81
68.24
8.92
7.74
X)09
366
46.77
15.53
28.66
68.07
8.75
7.66
—.001
Dec
= — 11057'
— 17o 27'
— 28^2'
— 200 6'
— 17° 19'
— 16° 47'
Mag
.= 4.5
4.5
4
5.4
4.8
3
M CapricornL
i AquariL
a AquariL
0 AquariL
63« Aquarii.
a Aqntrii.
21U. 45«.
Slh. 68--
^9^
22'»-12«-
22b. 18--
22'»-23»'
■.
1.
B.
a.
a.
a.
38
25.16
88.02
12.65
85.89
43.84
0.04
-I-.004
65
25.46
88.29
12.88
86.11
44.06
0.24
.011
92
26.04
38.82
13.37
86.59
44.53
0.69
.023
120
26.82
39.48
14.10
37.81
45.27
1.41
.080
147
27.69
40.45
14.94
88.15
46.13
2.24
j033
174
28.56
41.32
15.21
39.02
47.04
8.12
.081
202
29.29
42.06
16.57
89.77
47.83
3.90
.028
229
29.71
42.52
17J02
40.23
48.38
4.39
-•-.Oil
257
29.78
42.64
17.16
40.39
48.51
4.68
—.002
285
29.57
42.45
17.00
40.24
48.37
4.45
.009
812
29.22
42.12
16.70
89.94
48.06
4.16
X)12
339
28.91
41.80
16.39
39.62
47.74
8.86
JOIO
366
28.73
41.60
16.17
89.41
47.51
8.62
— XK)4
Dec
= — 14° 14'
— 14034^
- 8^ 30'
— 80 83'
— 17° 28'
— 110 25'
Mug
.= 5
4
4.5
5.6
6
5.4
X Aquarii.
T* Aquarii.
d Aquarii.
(p Aquarii.
V' AquariL
V^ Aquarii.
22*»-30"-
22'»- 41--
22h. 4g«.
23»^^6«-
23>»-8'»-
28\ 11--
f.
•■
•.
a.
a.
a.
38
16.49
56.62
58.95
50.66
19.37
26.97
H-.000
65
16.67
56.78
59.09
50.74
1945
27.03
.008
93
17.08
67.21
59.50
51.10
19.83
27.87
.018
120
17.78
57.84
60.13
51.66
20.87
27.94
.023
148
18.65
58.73
61.02
52.50
21.22
28.78
J0S3
175
19.51
59.62
61.92
63.87
22.10
29.66
J032
203
20.28
60.43
62.73
54.19
22.94
30.49
J025
230
20.77
60.96
63.30
64.76
23.51
31.07
j016
258
20.94
61.18
63.53
55X>4
28.80
31.37
+X)03
285
20.85
61.11
63.47
55J0S
23.81
81.87
—.006
313
20.56
60.83
63.20
54.82
23.59
31.16
.012
340
20.25
60.51
62.88
64i»
23.30
80.88
.011
367
20.02
60.27
62.62
54.28
23.04
80.61
—J007
Dec
ss— 40 58'
— 140 22'
— I60 36'
— 6'^50'
— 9° 53'
— 10° 24'
Mhk
.= 5
4
3
4.5
5.4
6
* Pisdam.
I Pisdum.
20 Pisdum.
27 Pisdum.
80PiBciam.
88 Pisdum.
«
23»»-19--
2311.3401.
23b. 4o«.
23h.5|ou
28h. 54«.
23h. 5701.
■.
f.
■.
a.
a.
a.
12
32.07
41.01
31.40
17.22
33.62
57.10
— X)08
3§
31.94
40.86
31.24
17.04
83.48
56.91
—.004
66
32.00
40.87
31.24
17.00
83.39
56.86
+.003
94
32.31
41.14
31.50
17.24
83.61
57X)8
.014
121
32.87
41.67
32.01
17.72
84.10
. 57.64
.023
149
33.70
42.46
32.79
18.49
84.85
58.82
X>29
176
34.56
43.33
33.66
19.36
35.72
69.17
.033
204
85.39
44.18
84.52
20.22
36.59
6OJ04
.029
231
35.97
44.78
85.14
20.89
87.26
60.70
.020
259
36.27
45.12
35.50
21.25
87.64
61.10
+J007
286
36.28
45.17
35 56
21.85
37.75
61.22
—.001
314
36.09
45.01
35.48
21.22
37.68
61.10
.008
341
35.81
44.75
85.17
20.98
37.39
60.88
—.010
1 Dec
= -+-0°28'
-t-0059'
- 30 84'
— 40 21'
— 6049'
— 6° 31'
|| Mag
.= 5.4
5
6
5.6
5
6
324
MOON, 1856.
FOR WASHINGTON MEAN
NOON
AND MTONIGHT.
JAKUARY.
FEBRUARY.
Sftto.
Semi-
Horisontal
Honrtj
UaridiMi
Honrty
Semi.
HoriaoDtel
Hourly
Meridian
Hooflj
dkmetar.
Pumllaz.
DUL
TniMll.
DIff.
dkmeter.
PaimUax.
Dit.
Tmuit.
Dfff.
d.
f rt
1 N
fi
h. m.
m.
1 11
1 w
II
h. m.
m.
1.0
15 1.2
55 0.9
-1-1.33
L. 6 58.8
1.75
15 36.0
57 8.5
H-2.28
I. 8 2.9
2.35
1.5
15 5.9
55 17.9
1.51
U. 19 20.2
1.82
15 43.6
57 364
2.35
U. 20 31.8
245
2.0
15 11.1
55 37.0
1.68
L. 7 42.4
1.89
15 51.3
58 4.9
2.37
L. 9 1.7
2.53
2^
15 16.8
55 58.0
1.82
U.20 5.6
, 1.98
15 59.0
58 334
2.36
U.21 32.5
238
3.0
15 22.9
56 20.5
1.93
L. 8 30.0
' 2.08
16 6.6
59 1.3
2.27
L.10 3.9
2.62
8.5
15 29.4
56 44.3
2.02
U.20 55.6
2.19
16 13.9
59 27.8
2.13
U.22 354
2.62
4.0
15 36.1
57 9.0
2.07
L. 9 22.5
2.29
16 20.6
59 52.2
1.94
ull 6J
2.60
4.5
15 43.0
57 34.2
2.08
U.21 50.7
2.40
16. 26.5
60 14.0
1.69
U.23 37.7
234
5.0
15 49.8
57 59.1
2.05
L. 10 20.2
2.50
16 31.5
60 32.5
1.39
5.5
15 56.4
58 23J3
1.98
U.22 50.7
2.57
16 354
60 47.2
1.05
L.12 7.8
248
6X)
16 2.7
58 46.4
1.86
L.11 21.9
2.62
16 38.3
60 57.7
0.69
U. 0 37.1
241
6.5
16 8.5
59 7.8
1.70
U.23 53.5
2.63
16 40.0
61 3.6
-H)31
L.13 5.5
2.38
7.0
16 13.7
59 26.9
1.48
16 404
61 5.0
— 0X)8
U. 1 82.9
2.25
7.5
16 18.1
59 43.3
1.24
L. 12 25.1
2.62
16 39.5
61 1.7
045
L. 13 594
2.18
9J0
16 21.8
59 56.7
0.98
U. 0 56.3
2.57
16 374
60 54.1
0.79
U. 2 25.3
2.14
8.5
16 24.5
60 6.8
0.68
L. 18 26.9
2.51
16 34.3
60 42.5
I.IO
L. 14 50.7
2.10
9.0
16 26.2
60 13.2
0.39
U. 1 56.5
243
16 30J)
60 27.5
1.37
U. 8 15.7
2.07
9.5
16 27.1
60 16.2
+0.11
L. 14 25.1
2.34
16 254
60 9.5
1.59
L. 15 404
2M
10.0
16 27.0
60 15.8
—0.17
U. 2 52.7
2.26
16 19.7
59 49.0
1.77
U. 4 5.1
2.07
10.5
16 26.0
60 12.1
0.43
L. 15 19.3
2.18
16 13.6
59 26.8
1.89
L. 16 29.9
2.08
11.0
16 24.2
60 5.5
0.66
U. 3 45.1
2.11
16 7.3
59 34
1.97
U. 4 55.0
2.10
11.5
16 21.6
59 56.2
0.87
L. 16 10.0
2.06
16 0.8
58 394
200
I. 17 204
2.13.
12.0
16 18.5
59 44.7
1.03
V. 4 34.5
2.02
15 54.3
58 15.3
2.00
U. 5 46.3
2.17
12.5
16 14.9
59 31.4
1.17
L. 16 58.5
2XH)
15 47.8
57 51.5
1.96
L. 18 12.6
2.21
13.0
16 10.9
59 16.7
1.27
U. 5 22.4
1.99
15 414
57 284
1.89
U. 6 394
2.25
13.5
16 66
59 1.0
1.33
L. 17 46.2
1.99
15 35.3
57 6.2
1.81
L. 19 6.7
2.28
14.0
16 2.2
58 44.7
1.37
U. 6 10.1
2.01
15 29.6
56 45.0
171
U. 7 34.2
230
14.5
15 57.7
58 28.0
MO
L. 18 34.4
2.04
15 24.2
56 25.1
1.61
L.20 1.9
231
15.0
15 53.1
58 11.2
1.40
U. 6 59.0
2.08
15 19.1
56 6.6
149
U. 8 29.6
230
15.5
15 48.5
57 54.4
1.39
L. 19 24.2
2.12
15 144
55 49.3
1.38
L. 20 57.1
2.28
\SJD
15 43.9
57 37.8
1.37
U. 7 50.0
2.17
15 lO.l
55 33.4
1.27
U. 9 24.1
2.23
16.5
15 39.4
57 21.5
1.35
L.20 16.4
2.22
15 6.2
55 18.9
1.17
L.21 50.5
2.17
17.0
15 35.1
57 5.5
1.32
U. 8 43.3
2.26
15 2.6
55 5.6
1.06
V, 10 16.3
2.11
17.5
15 30.9
56 49.8
1.29
L.21 10.7
2.30
14 59.3
54 53.5
0.95
L. 22 41.3
2.04
18.0
15 26.8
56 344
1.26
U. 9 38.5
2.32
14 56.3
54 42.7
0.85
U.ll 5.3
1.97
18^
15 22.7
56 19.4
1.23
L.22 64
2.32
1^53.7
54 33.1
0.75
L. 23 28.5
1.90
19.0
15 18.7
56 4.9
1.20
U. 10 34.2
2.30
14 514
54 24.7
0.65
U.ll 50.9
1.84
19.5
15 14.9
55 50.8
1.16
L.23 1.7
2.27
14 494
54 17.5
0.55
20.0
15 11.2
55 37.1
1.11
U.U 28.7
2.22
14 47.8
54 11.5
0.45
u 0 12.6
1.78
20.5
15 7.6
55 24.1
1X)7
L. 23 55.0
246
14 46.5
54 6.6
0.35
U.12 33.7
1.73
21.0
15 4.1
55 11.6
1.01
14 45.5
54 2.9
0.25
L. 0 54.2
1.69
21.5
15 0.9
54 59.9
0.95
n.l2 20.5
2J09
14 44.8
54 0.6
0.14
U.13 14.2
1.66
22.0
14 58.0
54 48.9
0J7
L. 0 45.2
2.02
14 44.5
53 59.6
—0.02
L. 1 33.9
1.63
22.5
14 55.3
54 38.9
0.79
n.l3 8.9
1.94
14 44.6
54 0.1
-H).I0
U. 13 534
1.62
23.0
14 52.8
54 29.9
0.70
L. 1 31.8
1.87
14 45.2
54 2.1
0.23
L. 2 12.8
1.62
23 JS
14 50.7
54 22.0
0.60
U. 13 53.8
1.81
14 46.2
54 5.8
0.37
U. 14 32.3
1.63
24.0
14 48.9
54 15.5
0.48
L. 2 15.2
1.75
14 47.7
54 11.1
0.52
L. 2 51.9
1.65
24.5
14 47.5
54 10.4
036
U. 14 35.9
1.71
14 49.6
54 18.3
0.68
U.15 11.9
1.68
25.0
14 46.6
54 7.0
0.22
L. 2 56.0
1.67
14 52.1
54 27.5
0.85
L. 3 32.3
1.73
25.5
14 46.2
54 5A
— 0X)5
U. 15 15.8
1.64
14 55.2
54 38.6
1X)2
U.15 53.3
1.78
26X)
14 46.2
54 5.6
-H).ll
L. 8 354
1.63
14 58.8
54 51.8
1.19
L. 4 15.1
1.85
26.5
14 46.8
54 8X)
0.29
U. 15 54.8
1.62
15 3.0
55 7.2
1.87
U. 16 37.7
1.93
27.0
14 48.0
54 12.6
047
h, 4 14.8
1.63
15 7.7
55 24.8
1.56
L. 5 1.3
2.01
27.5
14 49.9
54 19.6
0.67
U. 16 83.9
1.65
15 13.1
55 44.6
1.73
U.17 260
2.10
28.0
14 52.5
54 28.9
0J6B
U 4 53.9
1.68
15 19.1
56 6.5
1.91
L. 5 51.8
2.20
28.5
14 55.7
54 40.8
IJ09
V.17 144
1.72
15 25.6
56 30.3
2X)6
U. 18 18J
2.29
29.0
14 59.6
54 55.1
1.29
L. 5 354
1,78
15 32.6
56 55.9
2.20
L. 6 46 J
238
293
15 4.2
55 IIJ
IJSO
U. 17 57.2
1.86
15 40.0
57 23.2
2.32
U.19 15.9
247
SOX)
15 9.4
55 31.1
1.69
L. 6 20.0
1.94
15 47.7
57 51.5
2.38
L. 7 45.8
231
30.5
15 15.3
55 52.6
U7
U. 18 43.9
2.04
15 55.6
58 20.5
243
U.20 16.1
234
SIX)
15 21.8
56 16.8
2XH
L. 7 9X)
2.14
16 8.5
58 49.7
2.41
L. 8 46.7
235
31.5
15 28.7
56 41.6
H-2.17
U. 19 35.3
2JH
16 11.3
59 184
H-2.34
U.21 17.3
234
MOON, 1856.
325
FOR WASHINGTON MEAN
NOON
AND MTONIGHT.
1
MABCH.
APEIL.
Date.
Semi.
Horlaontal
Honrlr
Meridtan
Hourly
Semi-
Horinmtel
Hourly
Meridian
Hoorly
dkmeter.
Puallaz.
DUL
Tnuuit.
Dit.
dkmeter.
DUL
TrandA.
DUL
d.
1 It
f M
n
h. m.
m.
1 II
1 u
II
h. m.
m.
1.0
15 47.7
57 51.5
-1-2.38
L. 7 45.8
2.51
16 25.1
60 8.7
-fl.82
L. 9 26.1
2.26
1.5
15 55.6
58 20.5
2.43
U.20 16.1
2.54
16 30.7
60 29.3
1.59
U.21 52.9
2.22
2.0
16 3.5
58 49.7
2.41
L. 8 46.7
2.55
16 354
60 46.8
1.31
L. 10 19.3
2.18
2.5
16 11.3
59 18.4
2.34
U.21 17.3
2.54
16 39.2
61 0.7
0.99
U.22 45.3
2.16
3.0
16 18.8
59 45.8
2.21
L. 9 47.6
2.50
16 41.9
61 10.5
0.63
L.11 11.1
2.15
3.5
16 25.8
60 11.3
2X)2
U.22 17.3
245
16 434
61 16.9
-t-0^
U.23 36.8
2.14
4.0
16 32.0
60 34.2
1.76
L. 10 464
2J)9
16 43.5
61 16.5
—0.16
4.5
16 37.3
60 53.6
145
U.23 14.7
2.33
16 42.3
61 12.1
0.56
1.12 2.5
2.15
5.0
16 41.5
61 9.0
1.10
L. 11 42.3
2.27
16 39.8
61 3.0
0.95
U. 0 28.5
2.18
5.5
16 44.4
61 19.9
0.71
16 36.1
60 494
1.30
L.12 54.8
2^1
6.0
16 46.1
61 26X)
-H).30
U. 0 9.2
2.22
16 31.3
60 31.8
1.62
U. 1 21.6
2.26
6.5
16 46.4
61 27.0
—0.13
L. 12 35.6
2.18
16 25.6
60 10.6
1.89
L. 13 49.0
2.30
IJO
16 45.3
61 22.9
0.54
U. 1 1.6
2.15
16 19.1
59 46.5
2.10
U. 2 16.9
2.35
7.5
16 42.9
61 14.0
0.93
L. 13 27.3
2.14
16 11.9
59 20.3
2.25
L. 14 454
2.39
8.0
16 39.2
61 0.5
1.29
U. 1 52.9
2.14
16 4.3
58 52.5
2.35
U. 3 14.3
242
8.5
16 S4A
60 42.9
1.61
L. 14 18.6
2.15
15 56.5
58 23.8
240
L. 15 43.6
2.44
9.0
16 28.6
60 21.8
1.88
U. 2 44.4
2.17
15 48.6
57 64.9
2.39
U. 4 12.9
2.44
9.5
16 22.1
59 57.8
2.09
L. 15 10.6
2.20
15 40.9
57 26.5
2.34
L. 16 42.1
242
10.0
16 15.0
59 31.7
2.23
U. 3 37.1
2.23
15 334
56 58.9
2.25
U. 5 10.9
2.38
10.5
16 7.5
59 4.3
2.31
L.16 4.1
2.27
15 26.2
56 32.6
2.13
L. 17 39.1
2.32
11.0
15 59.9
58 36.2
2.35
U. 4 31.6
2.30
15 19.5
56 7.9
1.98
U. 6 6.5
2.25
11.5
15 52.2
58 7.9
2.34
L. 16 594
2.33
15 13.8
55 45.1
1.81
L. 18 33.0
2.17
12.0
15 44.6
57 40.0
2.29
U. 5 27.5
2.35
15 7.7
55 24.5
1.62
U. 6 58.6
2.09
12.5
15 37.2
57 13.0
2.20
L. 17 55.8
2.36
15 2.7
55 6.2
1.43
L. 19 23.1
2.00
13.0
15 30.2
56 47.3
2J0B
U. 6 24.1
2.35
14 58.3
54 502
1.24
U. 7 46.6
1.92
13.5
15 23.7
56 23.2
1.94
L. 18 52.1
2.32
14 54.6
54 36.5
1.05
L. 20 9.2
1.85
14.0
15 17.6
56 0.8
1.79
U. 7 19.7
2.28
14 51.5
54 25.1
0.86
U. 8 31.0
1.79
14.5
15 12.0
55 40.2
1.63
L. 19 46.7
2.22
14 49.0
54 16.0
0.67
L. 20 52.1
1.73
15.0
15 6.9
55 21.7
1.46
U. 8 13.0
2.15
14 47.1
54 9.1
048
U. 9 12.6
1.69
15.5
15 2.4
55 5.2
1.30
L. 20 384
2.08
14 45.8
54 44
0.31
L. 21 32.7
1.66
16X)
14 58.4
54 50.6
1.14
U. 9 2.9
2.00
14 45.1
54 1.7
—0.15
U. 9 524
1.63
16.5
14 55.0
54 37.9
0.98
L.21 26.5
1.93
14 44.9
54 0.9
-H).01
L.22 11.9
1.62
17.0
14 52.1
54 27.1
0.83
U. 9 49.3
1.87
14 45.2
54 1.9
0.15
U.IO 31.3
1.62
17.5
14 49.6
54 18.1
0.68
L.22 11.3
1.81
14 45.9
54 4.5
0.28
L. 22 50.8
1.63
18.0
14 47.6
54 10.9
0.53
U. 10 32.7
1.75
14 47.0
54 8.6
0.40
U.ll 104
1.65
l8Ji
14 46.1
54 5.3
0.40
L. 22 534
1.70
14 48.5
54 14.2
0.52
L. 23 304
1.69
19.0
14 45.0
54 1.3
0.27
n.ll 13.6
1.67
14 504
54 21.1
0.62
U.ll 50.9
1.73
19.5
14 44.3
53 58.8
0.15
L.23 33.4
1.64
14 52.6
54 29.2
0.72
20.0
14 44.0
53 57.7
—0.03
U.ll 53.0
1.63
14 55.1
54 384
0.81
L. 0 11.9
1.78
20.5
14 44.1
53 58.0
-t-0.08
14 57.9
54 48.7
0.90
U. 12 33.6
1.84
21.0
14 44.6
53 59.7
0.19
I. 0 12.5
1.62
15 1.0
54 59.9
0.98
L. 0 56.1
1.91
21.5
14 45.4
54 2.6
0.29
U.12 31.9
1.62
15 4.3
55 12.1
1.05
U.13 19.5
1.99
22.0
14 46.5
54 6.7
0.40
L. 0 514
1.64
15 7.8
55 25.1
112
L. 1 43.8
2.07
22.5
14 48.0
54 12.2
0.52
U.13 11.2
1.67
15 11.6
55 39.0
1.20
U.14 9.1
2.15
23.0
14 49.9
54 19.1
0.63
I.. 1 314
1.70
15 15.6
55 53.8
1.27
L. 2 354
2.23
23 J)
14 52.2
54 27.4
0.75
U. 13 52.1
1.75
15 19.9
56 94
1.33
U.15 2.6
2.30
24.0
14 54.8
54 37.1
0.87
L. 2 134
1.80
15 244
56 25.8
1.40
L. 3 30.6
2J35
24.6
14 57.8
54 48.2
0.99
U. 14 354
1.87
15 29.0
56 43.0
146
U.15 59.1
2.39
25.0
15 1.2
55 0.7
1.11
L. 2 58.2
1.94
15 33.9
57 1.0
1.52
L. 4 28.0
241
25.5
15 5.0
55 14.8
1.24
U.15 22.0
2.02
15 39.0
57 19.7
1.58
U. 16 57.0
241
26.0
15 9.3
55 30.5
1.37
L. 3 46.8
2.11
15 44.3
57 39.0
1.63
L. 5 25.8
2J39
26.5
15 14.0
55 47.8
1.51
n.l6 12.6
2.19
15 49.7
57 58.8
1.66
U.17 54.3
2.36
27.0
15 19.2
56 6.8
1.65
L. 4 394
2.27
15 55.1
58 18.9
1.68
L. 6 224
2.32
2705
15 24.8
56 27.3
1.78
U.17 7.1
2.34
16 0.6
58 39.1
1.68
U.18 49.9
2.27
28.0
15 30.8
56 49.3
1.90
L. 5 35.6
240
16 6.1
58 59.2
1.65
L. 7 16.8
2.22
28.5
15 37.2
57 12.8
2.01
U.18 4.7
2.44
16 114
59 18.7
1JJ8
U. 19 43.1
2.17
29.0
15 43.9
57 37.5
2.10
L. 6 34.1
2.46
16 16.4
59 37.1
147
L. 8 a8
2.13
29.5
15 50.9
58 3.1
2.15
U.19 3.7
2.46
16 21.0
59 54.0
1.32
U.20 34.1
2.10
30.0
15 58.0
58 29.2
2.17
L. 7 33.1
2.44
16 25.1
60 8.8
1.13
L. 8 59.2
2.08
30.5
16 5.1
58 55.3
2.16
U.20 2.1
240
16 28.5
60 21.2
0.91
U.21 24.1
2.08
31.0
16 12.1
59 21.0
2.10
L. 8 30.7
2.35
16 31.0
60 30.7
0.65
L. 9 49.1
2.09
31.5
16 18.8
59 45.7
-♦-1.99
U.20 58.7
2.31
16 32.7
60 36.8
-♦-0.35
u.22 14.2
2.11
326
MOON, 1856.
FOR WASHINGTON MEAN NOON AND MIDNIGHT. |
MAY.
JUNE.
Date.
Sanl-
Horboolftl
Hooriy
Iferldiaa
Hooriy
SmU.
HorliODtal
Hourly
Meridian
t
Boorlj 1
dfauDMer.
Panllu.
DHL
Tnull.
Die
dkiM«Mr..
Dit.
Transit.
"^ 1
d-
1 H
1 If
N
h. m.
m.
f N
1 M
h. m.
m.
IJO
16 31.0
60 30.7
-H).65
L. 9 49.1
2J09
16 12.8
59 23.9
—0.99
L.11 9.9
241 1
lA
16 32.7
60 36.8
0.35
U.22 14 2
2.11
16 9.2
59 10.7
1.20
U.23 39.2
2.46
2.0
16 33.4
60 39.2
H-0.04
L. 10 39.7
2.15
16 5.0
58 55.1
\J39
1
2.5
16 33.0
60 37.8
—0.28
U.23 5.7
2.20
16 0.2
58 37.3
1.55
L. 12 9.0
230 '
3.0
16 31.5
60 32.4
0.61
L. n 324
2.25
15 64.9
58 17.8
1.68
U. 0 39.2
232
3.5
16 28.9
60 23.0
0.93
U.23 59.8
2.31
15 49.2
57 56.9
1.78
L.13 94
2.50
4.0
16 25.4
60 9.9
1.23
15 43.2
67 35.0
1.85
U. 1 39.2
2.46
4.5
16 21i)
59 534
1.50
L. 12 27.9
2.37
15 37.1
57 12.6
1.87
Ul4 83
240
5.0
16 15.7
59 33.9
1.73
U. 0 56.7
242
15 31.0
56 50.2
1.85
U. 2 36.9
2.33 i
5.5
16 96
59 11.8
1.92
L. 13 26.1
247
15 25.0
56 28.1
1.81
L.15 4.3
2.24
e.o
16 3.0
58 47.7
2X)7
U. 1 56.0
2.50
15 19.2
56 6.8
1.73
U. 3 30.6
2.14 1
6.5
15 56.1
58 22.2
2.16
L. 14 26.1
2.50
15 13.7
55 46J(
1.63
L. 15 55.7
2J0i '
7.0
15 48.9
57 55.9
2.20
U. 2 56.1
248
15 8.6
55 27.7
1.50
U. 4 19.7
1.95
7.5
15 41.7
57 294
2.19
L. 15 25.7
2.44
15 3.9
55 10.6
1.34
L. 16 42.6
1.87 i
8.0
15 34.6
57 3.3
2.15
U. 3 54.6
2.38
14 59.8
54 55.5
1.17
U. 6 4.6
1.80 1
8.5
15 27.7
56 37.9
2X)7
L. 16 22.7
2.30
14 56.2
54 42.5
0.99
L. 17 25.8
1.74 1
».o
15 21.1
56 13.6
1.96
U. 4 49.7
2.20
14 53.3
54 31.8
0.79
U. 5 46.3
1.69
9.5
15 14.9
55 50.9
1.81
L. 17 15.6
2.11
14 51.1
54 23.6
0.58
L.18 6.3
1.65
10.0
15 9.2
55 30.1
1.65
V. 5 404
2.02
14 49.6
54 18.0
0.36
U. 6 26.0
1.63
10.5
15 4.1
55 114
146
L. 18 4.2
1.94
14 48.7
54 15.0
—0.14
L. 18 453
1.62
11.0
14 59.6
54 55.0
1.27
U. 6 26.9
1.86
14 48.6
54 14.5
-H).07
U. 7 4.9
1.62
11.5
14 55.8
54 41.0
IM
L. 18 48.7
1.79
14 49.2
54 16.6
0.27
L. 19 244
1.64
12.0
14 52.7
54 29.5
0.85
U. 7 9.8
1.73
14 504
54 21.1
047
U. 7 44.2
1.67
12.5
14 50.2
54 20.5
0.65
L. 19 30JI
1.69
14 52.3
54 28.0
0.67
L.20 44
1.70
13.0
14 48.4
S4 14.0
044
U. 7 50.3
4.65
14 54.8
54 37.2
0.85
U. 8 25.1
1.75
13.5
14 47.3
54 9.9
0.24
L.20 9.9
1.63
14 57.8
54 484
1.00
L. 90 463
1.82
14.0
14 46.9
54 8.3
—0.04
U. 8 294
1.62
15 1.3
55 1.3
1.14
U. 9 8.8
1.90
14.5
14 47.1
54 9.0
H-0.15
L.20 48.8
1.62
15 5.3
55 15.8
1.27
L.21 32.0
1.98
15.0
14 47.9
54 11.9
0.32
U. 9 8.3
1.64
15 9.6
55 31.7
1.37
U. 9 56.2
2j07
15.5
14 49.2
54 16.8
048
L.2I 28.1
1.66
15 14.2
55 48.6
1.44
V 22 21.6
2.16
16U>
14 51.0
54 23.5
0.62
U. 9 48.2
1.70
15 19.0
56 6.3
1.49
U. 10 48.1
2.25
18.5
14 53.3
54 31.8
0.75
L.22 8.9
1.75
15 24.0
56 244
132
L. 23 15.6
2.33
17X)
14 564)
54 41.6
0.87
U. 10 30.2
1.81
15 29.0
56 42.8
133
U.ll 44.1
2.40
17.5
14 59.0
54 62.7
0.97
1.22 52.3
1.88
15 34.0
57 l.l
1.51
IM
15 24
55 5.0
1.07
U.ll 15.2
1.95
15 38.9
57 19.0
146
L. 0 13.3
245
18.5
15 $J0
55 18.3
1.14
L. 23 39.2
2.04
15 43.6
57 36.2
1.40
U.12 434)
2.48
19.0
15 9.8
55 32J1
1.19
15 48X)
57 52.5
IJ3\
L. 1 12J
248
19.5
15 13.7
55 46.8
1.23
U.12 4.2
2.13
15 52.1
58 7.7
1.21
U. 13 42.5
2.46
SOU)
15 17.8
56 1.8
1.26
L. 0 30.2
2.21
15 55.9
58 21.6
1.10
L. 2 11.8
241
10.5
15 22X)
56 17.1
1.28
U. 12 57.2
2.29
^ 15 59.3
58 34J2
0.99
U. 14 404
2.35
21X)
15 26.2
56 82.5
1.29
L. 1 25.1
2.35
16 2.3
58 45.3
0.86
L. 3 8.2
2.28
21.5
15 304
56 4BJ0
1.29
U. 13 53.6
2.40
16 4.9
58 54.8
0.73
U.15 S5JSt
2.22
22.0
15 34.6
57 34
1.28
L. 2 22.6
242
16 7.1
59 2J
0.60
L. 4 14
2.15
22.5
15 38.7
57 18.6
1.26
U. 14 51.8
2.43
16 8.9
59 9.3
048
U. 16 26.9
2.10
23.0
15 42.8
57 33.6
1.24
L. 3 21.0
242
16 10.2
59 14.3
0.36
L. 4 51.7
IM
23 Jl
15 46.8
57 48.3
1.21
n. 15 49.8
2.38
16 11.2
59 17.9
0.25
U.17 16.0
202 1
24.0
15 50.8
58 2.7
1.18
L. 4 18.1
2.33
16 11.8
59 20.2
0.14
L. 5 40.0
1.99
24.5
15 54.6
58 16.7
1.15
n. 16 45.8
2.28
16 12.1
59 21.3
+0.04
U.18 3.8
1.98
25.0
15 58.2
58 30.2
Ml
L. 5 12.7
2.21
16 12.1
59 21.1
—0.07
L. 6 27.6
1.99
25.5
16 1.7
58 43.2
1X>6
U. 17 38.9
2.15
16 11.7
59 19.6
0.18
U.18 51.6
2.02 ,
28.0
16 5.1
58 55.6
1.00
L. 6 44
2.10
16 10.9
59 16.8
0.29
L. 7 16.0
2.05
26.5
16 8.3
59 7.3
0.93
U.18 294
2.06
16 9.8
59 12.7
040
U. 19 40.9
2.10
27X)
16 MJS
59 18.0
0.85
L. 6 53.9
2.03
16 8.3
59 7.3
031
L. 8 63
2.16 ,
27.5
16 13.9
59 27.6
0.74
U.19 18.1
2.01
16 6.5
59 0.5
0.63
U.20 32.8
2.23 1
28.0
16 16.1
59 35.8
0.62
L. 7 42.2
2X)1
16 4.2
58 52.2
0.76
L. 9 0.0
X30
28.5
16 17.9
59 424
048
U.20 64
2.03
16 1.5
58 42.3
0.89
U.21 284)
2.36
29.0
16 19.2
59 47.2
0.31
L. 8 30.8
2.05
15 584
58 30.9
\J0\
L. 9 56.7
242
29.5
16 19.9
59 49.9
-H).12
U.20 55.6
2.09
15 54.9
58 18.1
1.12
U.22 26j0
2.46
30.0
16 20.0
59 50.1
—0.09
L. 9 20 9
2.14
15 51.1
58 3.9
1.23
L. 10 55.7
2.48
30.5
16 19.3
59 47.7
0.32
U.21 47.0
2.20
15 46.9
57 48.6
1.32
U.23 25.6
248 1
31.0
16 17.9
69 42.5
0.55
L. 10 13.8
2.27
15 424
57 323
1J9
L.11 65.2
2.45
313
16 15.7
59 34.5
—0.77
U.22 414
2.34
15 37.7
57J5.3
—144
1
MOON, 1856.
327
FOR WASHINGTON MEAN .
NOON
AND MIDNIGHT.
1
JULY.
AUGUST.
Sftto.
Bcml-
Horinmtel
Hourly
Meridtaa
HoariT
Bcml-
HoriaoDtal
Hoorlj
MerkUaa
Hourly
dkoietar.
ParaUaz.
DUL
Tnnaii.
DUL
dkiM«Mr.
Pumlluc.
ma.
TnndA.
DUL
d.
1.0
15 42.5
5^ 32.3
-i'.40
h. m.
L. 11 55.2
m.
2.45
1& 5.0
5& lU
—1.13
h. m.
U. 0 513
m.
1.92
1.5
15 37.8
57 15.0
1.46
15 1.5
55 13
1.05
L. 13 143
1.86
2.0
15 32.9
56 57.2
1.50
U. 0 24.1
2.39
14 58.2
54 493
0.95
U. 1 364
1.79
2.5
15 27.9
56 39.0
1.52
L. 12 52.3
232
14 55.2
54 38.9
035
L. 13 573
1.73
3.0
15 23.0
56 20.7
1.51
U. 1 19.6
2.23
14 52.6
54 293
0.74
U. 2 18.0
1.68
3.5
15 18.1
56 2.7
1.48
L. 13 45.8
2.14
14 604
54 21.2
031
L. 14 38.0
1.64
4J0
15 13.3
55 45.2
1.43
U. 2 10.9
2.05
14 48.7
54 143
046
U. 2 573
1.62
4.5
15 8.8
55 28.5
1.35
L. 14 84.9
1.96
14 47.5
54 103
039
U 15 17.1
131
5.0
15 4.5
55 12.9
\J24,
U. 2 57.9
1.87
14 463
54 73
—0.11
U. 8 863
131
5.5
15 0.6
54 58.7
1.12
L. 15 19.9
1.79
14 46.7
54 7.5
-H).07
L. 15 56.0
1.62
6X)
14 57.2
54 46.1
0.98
U. 3 41.1
1.74
14 47.2
54 93
037
U. 4 15.7
1.65
6.5
14 54.3
54 35.3
0.82
L.16 1.7
1.69
14 484
54 13.9
048
L. 16 853
1.69
7.0
14 51.9
54 26.5
0.64
U. 4 21.8
1.65
14 503
54 20.9
0.69
U. 4 564
1.73
7.5
14 50.1
54 20.0
0.44
L. 16 41.5
1.63
14 52.9
54 304
0.90
U 17 173
1.79
8.0
14 49.0
54 15.9
0.24
U. 6 1.0
1.62
14 56.2
54 423
l.ll
U. 5 39.6
1.87
8.5
14 48.5
54 14.2
—om
L. 17 90.4
1.62
15 0.2
54 57 JO
131
L.18 23
1.96
9.0
14 48.7
54 15.0
-J-0.17
U. 5 39.9
1.63
15 43
55 13.9
1.50
U. 6 26.6
2.05
9.5
14 49.7
54 18.4
0.39
L. 17 59.6
1.65
15 10.0
55 83.0
1.68
L. 18 51.7
2.14
10.0
14 51.3
54 24.4
0.61
U. 6 19.7
1.69
15 153
55 543
134
U. 7 173
2.23
10.5
14 53.6
54 33.0
0.82
L. 18 40.4
1.75
15 22.0
56 173
1.98
L. 19 45.2
232
11.0
14 56.6
54 44.0
1.02
U. 7 1.8
1.81
15 28.7
56 41.7
2.09
U. 8 133
240
11.5
15 0.2
54 57.4
1.21
L. 19 24.0
1.89
15 85.7
57 74
2.18
L. 20 423
246
12X)
15 4.5
55 13.0
1.38
U. 7 47.2
1.97
15 42.9
57 33.9
232
n. 9 123
2.50
12.5
15 9.3
55 30.5
IJ>3
L.20 11.4
2.06
15 50.2
58 03
231
L.21 424
232
13.0
15 14.5
55 49.7
1.66
U. 8 36.8
2.16^
15 574
58 26.9
2.16
U. 10 123
231
13.5
15 20.1
56 10.3
1.76
L.21 3.3
2.26*
16 43
58 524
2.06
* L. 22 423
247
14.0
15 26.0
56 31.9
1.83
U. 9 30.9
235
16 103
59 164
131
U.ll 113
242
14.5
15 32.1
56 54.2
1.87
L. 21 59.5
2.43
16 163
59 383
1.72
L.23 403
236
15.0
15 38.2
57 16.8
1.88
U. 10 29.0
2.49
16 22.0
59 573
1.48
U.12 83
239
15J)
15 44.3
57 39.3
1.85
L. 22 59.0
2.52
16 264
60 133
1.20
16.0
15 50.3
58 1.2
1.78
U.ll 29.2
2.53
16 29.9
60 263
0.90
L. 0 35.5
233
16.5
15 56.0
58 22.1
1.68
L. 23 59.4
2.51
16 323
60 354
' 0.58
n.l3 2.0
2.18
17.0
16 1.3
58 41.6
1.55
U. 12 29JSt
246
16 33.7
60 404
-M).25
L. 1 273
2.13
17.5
16 6.1
58 59.3
1.38
16 34.0
60 414
—0.08
U. 13 533
2.10
18.0
16 10.3
59 14.7
1.18
L. 0 58.3
2.40
16 33.2
60 38.5
040
L. 2 184
2.08
18.5
16 13.9
59 27.7
0.97
U.13 26.7
233
16 814
60 313
0.70
U. 14 433
2.08
19.0
16 16.7
59 38.0
0.74
L. 1 54.2
2.26
16 283
60 213
036
L. 3 83
239
19.5
16 18.7
59 45.5
0.51
U. 14 20.9
2.19
16 25.1
60 8.9
1.17
n.l5 334
2.11
200
16 20.0
59 50.3
0.29
L. 2 46.8
2.12,
16 2iJ0
59 53.7
135
L. 3 58.9
2.14
20.5
16 20.6
59 52.4
H-0.06
n.l5 12.0
2.07
16 163
59 363
130
U. 16 243
2.18
21.0
16 20.5
59 51.8
—0.15
L. 3 36.7
2.04
16 113
59 173
1.60
L. 4 513
2.23
21.5
16 19.6
59 48.8
0.34
U.16 1.1
2X)2
16 5.9
58 58.2
1.66
U.17 183
238
22.0
16 18.2
59 43.6
0.51
L. 4 25.3
2.00
16 04
58 383
1.69
L. 5 46.0
233
22.5
16 16.3
59 36.6
0.65
U. 16 49.4
2.01
15 543
58 173
1.70
U. 18 143
237
23.0
16 13.9
69 27.9
0.78
L. 5 13.7
2.03
15 493
57 57.2
1.68
L. 6 43.0
2.40
23.5
16 11.2
59 17.8
0.88
U. 17 38.3
2.07
15 433
57 373
1.64
U.19 113
241
24.0
16 8.2
59 6.7
0.96
L. 6 3.4
2.11
15 38.5
57 1T3
1.59
L. 7 40.9
241
24.5
16 4.9
58 54.7
1.03
U. 18 29.1
2.17
15 333
56 583
1.54
U.20 93
239
25.0
16 1.4
58 42.0
1.09
L. 6 55.5
2.23
15 284
56 40.7
1.48
L. 8 38.2
234
25.5
15 57.8
58 28.6
1.14
U. 19 22.6
2.29
15 23.7
56 234
141
U.21 53
237
26.0
15 54.0
58 14.7
1.18
I. 7 50.4
235
15 19.2
56 63
135
L. 9 323
2.20
26.5
15 50.1
58 0.4
1.21
U.20 18.8
240
15 14.9
55 51.0
1.28
U.21 583
2.13
27.0
15 46.1
57 45.8
1.23
L. 8 47.7
2.43
15 103
55 36.1
130
L. 10 233
2.05
27.5
15 42.1
57 30.9
1.25
U.2I 16.9
2.44
15 7.0
55 22.1
1.13
U.22 48.0
1.97
28.0
15 37.9
57 15.7
1.28
L. 9 46.1
243
15 34
55 93
1.05
L.11 ll.l
139
28.5
15 33.7
57 0.2
1.30
tr.22 15.0
240
15 0.1
54 563
0.98
U.23 833
132
29.0
15 29.5
56 44.6
1.30
L. 10 43.4
2.34
14 57.1
54 453
0.90
L.11 543
1.76
29.5
15 25.2
56 29.0
1.29
U.23 11.0
2.27
14 543
54 353
031
30.0
15 21.0
56 13.6
1.27
L. 11 37.7
2.19
14 513
54 26.1
0.71
U. 0 153
1.71
30.5
15 16.9
55 58.4
1.25
14 493
54 18.1
031
L. 12 353
137
31.0
15 12.8
55 43.4
1.23
U. 0 3.4
2.10
14 473
54 114
0.50
U. 0 55.7
1.64
31.5
15 8.8
55 28.8
—1.19
L 12 28 1
2.01
14 463
54 6.0
—039
L. 13 153
1.63
328
MOON, 1856.
FOR WASHINGTON MEAN
NOON
AND MIDNIGHT.
SEPTEBiBER.
OCTOBER. 1
Dftte.
Sanl-
Horinmtal
Hourly
MeridiaD
Honriy
Saai-
Horiaontel
Hourly
Meridtan
Hooriy -
dtameter.
PaimUax.
DHL
Tnuuit.
Dfff.
dtameter.
PuftUaz.
PUT.
Treofit.
nff. 1
~d7~
f M
1 II
It
h. m.
m.
1 fi
1 u
II
h. m.
m.
1.0
14 45.4
54 2.9
—0.31
U. 1 34.7
1.61
14 454
54 2.8
-H).37
U. 1 33.5
1.76 1
1.5
14 44.7
54 0.1
0.16
L. 13 54.1
1.62
14 46.9
54 8.2
0.53
L. 13 55.0
1.82 '
2.0
14 44.4
53 59.1
—0.01
U. 2 13.6
1.62
14 48.9
54 15.5
0.68
U. 2 17.2
1.88 ;
2.5
14 44.6
53 59.9
H-0.I4
L.14 33.3
1.65
14 514
54 24.6
0.83
L. 14 40.2
1.95
3.0
14 45.4
54 2.6
0.30
U. 2 534
1.69
14 544
54 35.5
0.99
U. 3 4.1
2.03
3.5
14 46.7
54 7.8
047
L. 15 14.0
1.74
14 57.9
54 484
1.15
U 15 28.9
2.11
4.0
14 48.6
54 14.2
0.65
n. 3 35.3
1.80
15 1.9
55 3.2
1.32
U. 3 54.6
2.18 [
4.5
14 51.1
54 23.3
0S5
L. 15 57.3
1.87
15 6.5
55 20.0
1.48
L.16 21.1
2.24
5.0
14 54.3
54 34.7
14)5
U. 4 20.1
1.94
15 11.6
55 38.7
1.65
U. 4 48.3
2.31 1
5.5
14 58.0
54 48.5
1.25
L. 16 43.9
2.02
15 17.2
55 594
1.81
L.17 16.2
2.35
6.0
15 2.3
55 4.6
144
U. 5 8.7
2.11
15 234
56 22.0
1J7
U. 5 444
2U>6
6.5
15 7.3
55 234)
1.63
L.17 34.5
2.20
15 30.0
56 464
2.11
L. 18 12.7
2.36
7.0
15 12.9
55 43.6
1.82
U. 6 1.3
2.28
15 37.0
57 12.3
2.22
U. 6 41.0
2.36
7.5
15 19.1
56 6.4
2.00
L. 18 29.0
2.34
15 444
57 394
2.30
L.19 9.2
234
8.0
15 25.8
56 31.2
2.16
U. 6 574
240
15 52.1
58 74
2.37
U. 7 874)
231
8.5
15 33.0
56 57.7
2.28
L. 19 264
2.44
15 59J
58 35.9
241
L. 20 4.3
2.27
9.0
15 40.6
57 25.4
2.15
U. 7 55.7
246
16 7.5
59 44
2.36
U. 8 31.2
2.22
9.5
15 48.4
57 53.9
2.42
L.20 25.1
245
16 15.1
59 324)
2.25
L. 20 57.5
2.17
10.0
15 56.3
58 22.9
2.45
U. 8 54J)
242
16 22.3
59 58.1
2.13
U. 9 234
2.14
10.5
16 4.1
58 51.9
2.38
L. 21 23.1
2.38
16 28.9
60 22.3
1.90
L. 21 49.1
2.13
11.0
16 11.7
59 20.1
2.32
U. 9 514
2.34
16 34.7
60 43.7
1.63
U. 10 14.7
2.13
11.5
16 19.0
59 46.6
2.12
L. 22 19.2
2.29
16 394
61 14
1.35
L.22 40 J
2.13
12.0
16 25.6
60 10.7
IJl
U. 10 464
2.24
16 43.1
61 15.3
0.98
U.ll 6.0
2.14
12.5
16 31.4
60 32.0
1.69
L.23 13.0
2.20
16 45.5
61 24.5
0.57
L. 23 31.9
2.18
13.0
16 36.3
60 50.1
1.33
U.U 39.1
2.17
16 46.7
61 28.7
-M).15
U.ll 584
2.23
13.5
16 40.0
61 3.9
0.98
'
16 46.5
61 27.9
—0.30
UjO
16 42.5
61 13.3
0.59
L. 0 54)
2.15
16 44.9
61 21.9
0.71
L. 0 25.5
2.28
14.5
16 43.8
61 18.0
-M).18
U. 12 30.7
2.14
16 42.0
61 ll.l
1.11
U: 12 53.2
234
15.0
16 43.8
61 17.8
—0.22
L. 0 56.4
2.13
16 37.8
60 55.8
1.44
L. 1 21.7
240
15.5
16 42.4
61 12.9
0.62
U. 13 22.1
2.15
16 32.6
60 36.6
1.80
U. 13 50.9
2.46 ;
16.0
16 39.8
61 3.3
0.98
L. 1 48.1
2.18
16 264
60 13.6
206
L. 2 20.8
2.52 1
16.5
16 36.1
60 49.6
1.35
U. 14 14.6
2.22
16 194
59 47.9
2.26
U.U 51.2
236 1
17.0
16 31.4
60 324)
1.60
L. 2 41.7
2.27
16 11.9
59 20.3
2.37
L. 3 22.0
238 :
17.5
16 25.9
60 11.6
1.82
U. 15 9.3
2.32
16 4.1
58 51.7
2.42
U.15 52.8
237 1
18.0
16 19.7
59 48.9
1.97
L. 3 37.6
2.37
15 56.2
58 22.7
2.43
L. 4 23.3
233 1
18.5
16 13.0
59 24.6
2.11
U.16 64
242
15 48.3
57 53.8
2.40
U. 16 53.2
247 '
19X)
16 6X)
58 5^9
2.20
L. 4 35.6
246
15 40.6
57 254
2.32
L. 5 22.1
238
19.5
15 58.8
58 32.5
2^
U.17 5.2
248
15 33.2
56 57.9
2.22
U.17 50.0
238
20.0
15 51.6
58 6.1
2.17
U 5 34.8
248
15 26.2
56 32.1
2.09
L. 6 16.7
2.18
20.5
15 44^
57 40.4
2.12
U.18 4.3
245
15 19.6
56 8.0
1.94
U.18 42.3
24)8
21.0
15 37.8
57 15.5
24)4
L. 6 33.3
2.40
15 13.5
55 45.8
1.76
L. 7 6.7
1.98 1
21.5
15 31.4
56 51.7
1.94
U.19 1.6
2.34
15 8.0
55 25.7
1.58
U. 19 30.0
139
22.0
15 25.4
56 29.2
1.81
L. 7 29.2
2.26
15 3.2
55 7.7
1.40
L. 7 52.3
132
22.5
15 19.8
56 8.3
1.67
U. 19 55.8
2.17
14 58.9
54 524)
1.22
U.20 13.8
1.76
234)
15 14.4
55 49.1
1.53
L. 8 21.3
24)8
14 55.2
54 384
1.04
L. 8 34.6
1.70
23.5
15 9.5
55 3\£
140
V. 20 45.8
24)0
14 52.0
54 26.9
0.87
U.20 54.8
1.66
24.0
15 5.1
55 154
1.27
L. 9 9.3
1.92
14 494
54 174
0.70
L. 9 14.6
1.63 :
24.5
15 1.2
55 0.9
1.14
U.21 31.9
1.85
14 47.3
54 9.9
0.54
U.21 34.1
131
254)
14 57.7
54 47.9
14)1
L. 9 53.7
1.79
14 45.8
54 4.2
038
L. 9 534
1.60 ,
25.5
14 54.6
54 36.5
0.88
U.22 14.8
1.73
14 44.8
54 04
0.25
U.22 12.7
1.60 1
26X)
14 51.9
54 26.6
0.76
L.10 35.2
1.68
14 44.3
53 58.1
—0.12
L. 10 82.1
131
26.5
14 49.6
54 18.1
0.65
n.22 55.1
\M
14 44.1
53 574
-♦-0.00
U.22 51.8
1.64 ;
27.0
14 47.7
54 11.0
0.54
L.11 14.7
1.63
14 44.3
53 58.1
0.12
L.11 11.8
1.69
27.5
14 46.1
54 5.2
043
U.23 34.2
1.62
14 44.8
54 0.2
0JI4
U.23 324
1.74
28.0
14 44.9
54 0.7
0.33
L. 11 53.6
1.61
14 45.7
54 3.7
0.34
L.11 53.6
1.79
28.5
14 44.0
53 57.5
0.21
14 47.0
54 84
0.44
29.0
14 43JS
53 55.7
—0.09
U. 0 13.0
1.61
14 48.6
54 144
0.54
U. 0 154
135 1
29.5
14 43.3
53 55.3
-H)4)3
L. 12 32.5
1.64
14 50.6
54 21.5
0.64
L. 12 38-0
132 1
SOX)
14 43.6
53 56.4
0.15
U. 0 524
1.67
14 52.8
54 30 0
0.74
U. 1 1.5
2.00
80.5
14 44^
53 58.9
0.26
L. 13 12.7
1.71
14 554
54 39.7
0.85
L. 13 25.9
2.07
31.0
14 45.4
54 2.8
0.37
U. 1 33.5
1.76
14 584
54 505
0.96
u. 1 51.1
214 1
31.5
14 46.9
54 8.2
-H).53
L. 13 55.0
1.82
15 1.8
55 2.7
-1-1.07
L. 14 17.1
2.19
MOON, 1856.
329
FOR WASHINGTON MEAN
NOON
AND MIDNIGHT.
NOVEMBER.
DECEMBER.
Date.
Semi-
Horlaontal
Hourly
MorkUan
Hourly
Semi-
Horinmtel
Hourly
Hwidkn
Hourly
dkmeter.
Panllaz.
DUL
Timiudt.
DHL
dkmeter.
Puralluc
DUL
Tnodt.
Diff.
~d~
1 II
1 n
II
h. m.
m.
1 II
1 II
II
h. m.
m.
1.0
15 5.4
55 16.2
+ 1.18
U. 2 43.8
2.26
15 30.3
66 47.7
-4-1.33
U. 3 25.2
2^6
1.5
15 9.5
55 31.1
1.30
L. 16 11.1
2.29
15 34.6
67 3.8
1.36
L. 15 52.0
2.21
2.0
15 14.0
55 47.4
1.41
U. 3 38.7
2.32
16 39.1
67 20.2
1.38
U. 4 18.2
2.15
2^
15 18.8
56 5.0
1.52
L. 16 6.5
2.32
15 43.6
57 36.9
141
L. 16 43.8
2.10
3.0
15 23.9
56 23.9
1.63
U. 4 34.3
2.30
15 48.2
57 53.9
1.43
U. 6 8.8
2.06
3.5
15 29.3
56 44.1
1.74
L. 17 1.8
2.28
15 62.9
68 11.1
1.45
L. 17 33.3
2.02
4.0
15 35.0
57 6.5
1.83
U. 5 29.0
2.25
15 57.7
58 284
1.44
U. 5 574
1.99
4.5
15 41.1
57 27.9
1.91
L. 17 56.8
2.21
16 24
68 45.5
1.42
L. 18 21.2
1.97
5.0
15 47.5
57 51.2
1.98
u. 6 22.0
2.16
16 7.0
69 2.2
1.38
U. 6 44.9
1.96
6.5
15 54.1
58 15.2
2.03
L. 18 47.7
2.12
16 114
59 18.2
lUJl
L.19 8.6
1.98
6.0
16 0.8
58 39.6
2.07
U. 7 13.0
2.08
16 15.6
69 33.2
1.21
U. 7 32.6
2.01
6.5
16 7.4
59 4.1
2.05
L. 19 38.0
2.05
16 19.2
69 46.8
1.08
L. 19 67.1
2.05
7.0
16 13.9
59 28.0
1.97
V. 8 2.6
2.04
16 224
69 58.6
0.91
U. 8 22.1
2.11
7.5
16 20.0
59 50.6
1.83
L. 20 27.1
2.05
16 24.9
60 8.1
0.70
L. 20 47.9
2.19
8.0
16 25.7
60 11.3
1.64
U. 8 51.8
2.07
16 26.8
60 15.0
046
U. 9 14.7
2.27
8.5
I ft 30.7
60 29.5
1.41
L.21 16.8
2.10
16 27.8
60 18.8
-H).19
L. 21 42.6
2.36
9.0
16 34.9
60 44.7
1.14
U. 9 42.2
2.14
16 27.9
60 19.3
—0.11
U.IO 114
245
9.5
1« 38.1
60 564
0.82
L. 22 8.2
2.19
16 27.1
60 164
0.43
L. 22 414
2.63
10.0
16 401
61 4.1
0.47
U. 10 34.8
2.25
16 25J3
60 9.9
0.77
U.ll 12J2
2.60
10.5
16 41.0
61 74
-M).09
L.23 2.3
2.33
16 22.6
59 59.9
0.99
L.23 43.8
2.66
11.0
16 40.6
61 6.1
—0.30
U.ll 30.8
242
16 18.9
69 46.5
1.25
11.5
16 39.0
61 0.2
0.69
16 144
69 30.0
1.51
U. 12 15.6
2.66
12.0
16 36.2
60 49.7
1.06
L. 0 0.3
2M
16 9.3
59 10.7
1.73
L. 0 47.3
2.63
12.5
16 32.2
60 35.0
1.41
U. 12 80.8
2.58
16 3.5
68 49.1
1.89
n.l3 18.5
2.67
13.0
16 27.1
60 16.4
1.71
L. 1 2.0
2.63
15 57.1
68 25.8
2.02
L. 1 48.9
2.60
13.5
16 21.2
59 54.5
1.97
U. 13 33.6
2.66
15 60.3
58 1.1
2.11
n.l4 18.3
240
14.0
16 14.5
59 29.9
2.16
L. 2 5.3
2.64
15 434
57 35.9
2.11
L. 2 46.3
2.28
14.5
16 7.3
59 3.3
2.30
U. 14 36.7
2.60
15 36.5
57 10.7
2.11
U.15 12.9
2.16
15.0
15 59.6
68 35.3
2.39
L. 3 7.5
2.53
15 29.8
56 45.8
2.06
L. 3 38.2
2.05
15.5
15 51.8
58 6.6
2.42
U. 15 37.4
2.43
15 23.3
66 21.7
1.98
U. 16 2.3
1.95
16.0
15 44.0
67 37.9
2.41
L. 4 6.0
2.33
15 17.0
65 58.8
1.86
L. 4 25.2
1.87
16.5
15 36.4
67 9.6
2.32
U. 16 33.4
2.23
15 11.2
66 37.5
1.69
U.16 47.2
1.79
17.0
15 29.0
56 42.5
2.20
L. 4 69.5
2.12
15 6.0
55 18.2
1.53
L. 5 8.3
1.72
17.5
15 22.0
56 17.0
2.06
U.17 24.3
2.01
15 14
55 1.0
1.34
U.17 28.7
1.68
18.0
15 15.5
55 53.3
1.90
L. 5 47.8
1.91
14 574
64 46.1
1.15
L. 5 48.7
1.64
18.5
16 9.6
65 31.6
1.71
U.18 10.3
1.83
14 54.0
64 33.7
0.94
U.18 8.3
1.62
19.0
16 4.4
65 12.1
1.53
L. 6 31.9
1.76
14 51.3
64 24.0
0.71
L. 6 27.8
1.61
19.5
14 59.7
54 55.1
1J52
U. 18 52.7
1.70
14 49.3
64 16.9
048
U.18 47.2
1.62
20.0.
14 55.6
54 40.5
1.13
L. 7 12.9
1.66
14 48.1
64 124
0.26
L. 7 6.8
1.64
20.5
14 52.3
54 28.3
0.90
U. 19 32.7
1.63
14 47.5
64 10.5
—0.05
U.19 26.7
1.67
21.0
14 49.6
54 18.7
0.70
L. 7 62.2
1.61
14 47.6
64 11.0
-H).15
L. 7 47.0
1.71
21.5
14 47.7
54 11.5
0.50
U.20 11.5
1.60
14 48.6
64 13.8
0.35
u.20 7.9
1.77
22.0
14 46.4
54 6.6
0.31
L. 8 30.8
1.61
14 49.9
64 19.0
0.54
L. 8 29.5
1.83
22Ji
14 45.7
54 3.9
—0.13
U.20 50.3
1.63
14 51.9
64 264
0.71
U.20 51.9
1.90
23.0
14 45.6
54 3.3
-4-0.04
L. 9 10.1
1.67
14 544
54 36.8
0.86
L. 9 15.2
1.98
23.5
14 46.0
54 4.7
0.19
U.21 30.4
1.71
14 674
64 46.9
0.99
U.21 394
2.06
24.0
14 46.9
54 7.9
0.35
L. 9 51.2
1.75
15 0.8
64 594
1.09
L. 10 4.7
2.15
24.5
14 48.2
54 12.8
0.48
U.22 12.6
1.81
15 44
65 13.0
1.17
U. 22 30.9
2.23
25.0
14 49.9
54 19.2
0.60
L. 10 34.8
1.88
15 84
65 27.6
1.24
L. 10 58.0
2.29
25.5
14 52.0
54 27.0
0.70
U.22 67.8
1.96
15 12.6
65 43.1
1.30
U.23 25.7
2.34
• 26.0
14 54.4
54 35.9
0.80
L.11 21.8
2.04
15 17.1
55 59.1
1.85
L. 11 54X)
2.38
26.5
14 57.1
54 45.9
0.88
U. 23 46.7
2.12
15 21.6
56 154
1.38
27.0
15 0.1
54 56.8
0.94
15 26.0
56 31.8
1.37
U. 0 22.6
2.38
27J>
15 3.4
55 8.5
1.01
L. 12 12.5
2.19
15 304
66 48.0
1.34
L. 12 50.9
2.37
28.0
15 6.8
56 21.0
1.08
V, 0 39.1
2.25
15 34.7
57 3.8
1.30
U. 1 19.1
2.33
28.5
16 10.3
55 34.2
1.12
L. 13 6.4
2.30
15 38.8
57 19.1
1.25
L. 13 46.8
2.29
29.0
15 14.0
65 47.9
1.16
U. 1 34.1
2.33
15 42.8
57 33.7
1.19
U. 2 13.9
2.23
29.5
15 18.0
66 2.1
1.20
L.14 2.1
2.33
15 46.6
57 47.6
1.13
L.14 40.3
2.17
30.0
15 22.0
56 16.8
1.24
U. 2 30.0
2.33
15 60.2
58 0.7
1.05
U. 3 6.0
2.11
30J5
15 26.1
66 32.0
1.29
L. 14 57.8
2.31
15 53.5
58 12.9
0.98
L. 15 31.0
2.06
31.0
15 30.3
56 47.7
1.33
U. 3 25.2
2.26
15 .•)6.6
58 24 3
0.92
U. 3 654
2.01
31.5
15 34.6
57 3.8
+U6
L. 15 52.0
2.21
15 59.5
58 34.7
-4-0.87
L. 16 19.3
1.97
42
830
MOON, 18&6.
WASHINGTON MEAN TIME.
PHASES.
Mootii*
January
February
March
April
May
June
July
August
September
October
November
December
New Moon. Flnt Quarter.
d. b. m.
7 6 9.1
6 17 27.9
6 3 31.1
4 19 44.8
3 31 34.1
3 6 31.4
1 16 33.4
d. h. m.
13 33 34.5
13 9 3.5
13 31 38.2
11 11 43.9
3 87.0
30 43.0
14 14.0
7 14.0
22 48.7
12 29.6
0 14.6
10 18.3
11
9
9
8
6
6
5
4
FoUMoon.
d. h. m.
31 10 30.6
30 4 33.2
21 22 56.5
19 16 5.5
6 48.4
18 43.7
4 23.0
12 47.1
13 21 0.3
13 5 51.2
11 15 47.1
11 3 5.4
19
17
17
15
Last Quarter.
d. h. m.
29 15 26.6
28 8 33.3
28 21 23.5
27 6 18.4
26 12 25.7
24 17 9.3
23 21 53.9
22 3 59.6
20 12 40.4
20 0 58.5
18 17 26.0
18 13 35.7
Mew
d. h. tt
31 4 0.4
29 18 6.0
28 10 40.0
28 4 46.6
26 22 53.2
26 15 37.1
fteit Qnartv.
PERIQBE, APOGEE.
Mooth.
Perigee.
Apofee.
Pitjfee.
d. h.
d. h.
d. h.
January
9 16.9
25 15.9
February
6 21.5
22 1.9
Bfaioh
6 8.3
20 3.5
Apnl
3 19.5
16 11.6
May
2 1.5
14 2.6
29 18.9
June
10 20.3
24 16.0
July
8 13.8
20 15.5
August
5 7.5
17 9.1
September
1 22.5
14 14.7
September
29 6.1
October
13 1.4
26 9.5
November
10 12.0
22 18.3
December
8 18.0
20 12.6
GBKATKST UBRATION.
d. h. m.
3 21 16 B.C.
1 0 38 8.K.
7 30 60 H.w.
4 17 12 H.w.
1 23 33 H.w.
8 16 17 H.K.
6 23 0 H.K.
4 2 26 U.K.
1 13 10 M.S.
d. h. tt.
16 21 1 8.W.
13 6 47 8.W.
12 10 6 8.W.
9 16 60 8.W.
21 21 40 8.K.
17 8 17 8.K.
14 15 33 8.K.
17 12 15 8.K.
30 21 20 N.w.
19 1 49 N.w.
16 8 46 N.w.
14 12 23 N.w.
d. k «.
29 7 36 8.B.
28 12 3 8.B.
25 5 26 M.B.
28 9 978.W.
24 3 I8s.w.
27 16 39 N.B.
MOON'S EQUATOR.
The moon*8 iibration in latitude and longitude, at any time, may be fimnd by means of the fol-
lowing formulas and tables.
/ B the inclination of the moon's equator P 28^.8,
Q ^ mean longitude of moon's ascending node (see page 246),
C ^ the angle which the mean meridian of the moon's disc makes with the ciide of deeUnation
reckoned from north to west on the apparent disc
X, p, a'l and ^ the apparent longitude, latitude, right asoensioQ, and dscliaation of the noon
a^Bcted with pArallaz.
AX — 0*^7 am 2 (X — Q),
a » cos (Q — X) sin /,
taoB — 8in(Q— X)tanZ
In these fbrmnlas, the tables p. 9 of the Appendix may be substituted.
The librattoo in latitude — * — B — ^.
The Iibration in longitude ^/^X-4~AX-|-a&-*C*
cot ^ COS O
MOON, 1856.
sai
WASHINGTON MEAN TIME.
MOON'S EQUATOR.
8ld0raal
Oats
Oh.
i
Indiiiatioii to
theEvth^t
XqoAtor.
A
Amndlng Nod« on
Barth'i Bqoator
to AMsending Noda on
XeUpOe.
onEuth'f
Bqnitor.
Mbon^flfaMi
Longltado.
d.
0
10
30
30
40
& ll'.5
23 11.1
33 10.6
33 10.3
33 9.8
O 1
313 1.6
311 38.8
810 54.8
310 31.3
800 47.9
O 1
358 1.8
358 3.7
358 6.5
358 7.4
358 9.8
• 198 18.8
339 43.0
101 7.3
333 31.5
3 55.8
60
60
70
80
90
93 9.4
33 9.0
33 8.6
33 8.3
33 7.9
809 14.6
808 41.1
808 7.6
807 34.8
807 0.7
358 11.1
358 13.0
358 14.9
358 16.9
358 18.8
135 80.0
366 44.3
38 8.5
169 33.8
300 57.0
100
110
130
130
140
33 7.5
33 7.3
33 6.8
33 6.5
33 6.1
806 87.3
805 53.8
305 80.3
304 46.8
804 13.3
358 80.7
358 83.7
358 34.7
358 36.6
358 38.6
73 21.3
203 45.5
335 9.8
106 34.0
237 58.3
150
160
170
180
190
33 5.8
33 5.5
33 5.8
33 4.9
33 4.6
303 39.8
303 6.3
303 33.7
301 59.1
301 85.6
358 30.6
358 33.6
358 34.6
358 36.6
358 38.6
9 22.5
140 46.7
272 11.0
43 35.2
174 59.5
300
310
330
330
340
33 4.3
33 4.0
33 3.8
33 3.5
33 3.3
300 53 0
300 18.4
199 44.8
199 11.3
198 37.7
358 40.6
358 43.6
358 44.7
358 46.7
358 48.8
306 23.7
77 48.0
209 13.3
340 36.4
113 0.7
350
260
270
280
290
33 3.0
33 3.8
23 3.5
33 3.3
33 3.0
198 4.1
197 30.5
196 56.9
196 33.3
195 49.7
358 50.8
358 53.9
358 55.0
358 57.0
358 59.1
343 85.0
14 49.3
146 13.5
377 37.7
49 8.0
300
310
320
330
340
23 1.8
33 1.6
33 1.4
33 1.3
33 1.0
195 16.1
194 43.4
194 8.8
193 35.1
193 1.5
359 1.3
359 3.3
359 5.5
359 7.6
359 9.8
180 36.8
311 60.3
83 14.5
814 38.8
346 3.0
350
360
370
33 0.8
33 0.6
33 0.5
193 37.8
191 54.3
191 30.5
359 11.9
359 14.0
359 16.8
117 87.8
848 51.5
80 15.7
332
MERCURY, 1856.
FOR WASHINGTON MEAN NOON AND MERIDIAN TRANSIT. ]
D»7or
AppMMlt
Right AMODdoD.
Appwrat DeeUnatton.
Log. CoeOldent
off.
Log. CooOcieDt
of <a.
Mean Solar
Time of Me.
ml
Defer
Month.
At
M«ttaNoon.
h. m. ■.
At
Trandt.
At
IfaanNoon.
At
Tnadi.
In BJL
In Doe.
InRJL.
In Dee.
ridian TnaaU,
ef
Tiee-
d
m •
O 1 u
1 R
d.
h m.
i.
Jftn.1
18 48 29 10
48 30.97
-24 49 11.1
49 9.9
+9.47191
+9.2942
+3.32
+5.33
1
0 6.3
0
2
18 55 36.37
55 39.19
24 43 44.1
43 41.6
9.47277
9.4134
3.31
5.35
S
O 9^
1
3
19 2 44.49
2 48.27
24 36 46.2
36 42.1
9.47351
9.5082
3.18
5.34
3
0 12.7
2
4
19 9 53.22
9 57.96
24 28 17.1
28 11.0
9.47409
9.5867
3.09
5.35
4
0 15.9
3;
5
19 17 2.47
17 8.17
24 18 15.6
18 7.0
9.47451
9.6535
2.90
5.35
5
O 19.1
4
6
19 24 12.05
24 18.70
24 6 41.0
6 29.5
9.47473
9.7120
+2.42
5.35
6
0 22JI
5
7
19 31 21.75
31 29.36
23 53 32.7
53 17.9
9.47476
9.7641
-2.16
5.36
7
0 25.5
6i
8
19 38 3IJ19
38 39.95
23 38 49.9
38 31.4
9.47460
9.8106
2.78
5.36
8
0 2a7
7
9
19 45 40.78
45 50.29
23 22 32.2
22 9.5
9.47420
9.8528
3.12
5.36
9
0 31.9
8
10
19 52 49.64
53 0.09
23 4 39.5
4 12.1
9.47348
9.8912
3.33
5.36
10
0 36.2
9
11
19 59 57.62
60 8.99
22 45 11.6
44 39.2
9.47247
9.9267
3.43
5.36
11
0 38^
10
12
20 7 4.48
7 16.76
22 24 8.3
23 30.5
9.47124
9.9594
3.49
5.36
12
0 41.5
11
13
20 14 10.07
14 23.24
22 1 29.9
0 46.3
9.46971
9.9896
3.62
5.36
IS
0 44.7
IS
U
20 21 13.92
21 27.95
21 37 17.2
36 27.4
9.46772
0.0177
3.71
5.35
14
0 47.8
13
15
20 28 15.65
28 30.51
21 11 30.9
10 34.6
9.46530
0.0439
3.79
5.35
15
0 50.9
14
16
20 35 14.83
35 30.47
20 44 12.1
43 9.0
9.46239
0.0682
3.87
5.34
\^
0 53.9
15
17
20 42 10.95
42 27.32
20 15 22.2
14 12.1
9.45890
0.0907
3.94
5.33
17
0 56.9
16
18
20 49 3.45
49 20.51
19 45 4.0
43 46.6
9.45475
0.1115
4.01
5.31
18
0 59.9
i:
19
20 55 51.70
56 9.36
19 13 20.2
11 55.5
9.44983
0.1307
4.08
5.30
19
1 2.7
18
20
21 2 34.97
2 53.19
18 40 14.2
38 42.2
9.44401
0.1481
4.15
5.27
20
1 5.5
19
21
21 9 12.43
9 31.08
18 5 50.6
4 11.1
9.43715
0.1639
4.21
5.24
21
1 &2
20
22
21 15 43.16
16 2.15
17 30 14.8
28 28.2
9.42903
0.1779
4.28
5.20
22
1 10.7
21
23
21 22 6.06
22 25.28
16 53 33.3
51 40.0
9.41946
0.1900
4.34
5.14
23
1 13.3
n
24
21 28 19.94
28 39.25
16 15 54.1
13 54.5
9.40815
0.2002
4.40
5.08
24
1 15.5
23
25
21 34 23.40
34 42.64
15 37 26.5
35 21.2
9.39475
0.2082
4.46
4.95
25
1 17.6
24
26
21 40 14.90
40 33.90
14 58 21.5
56 11.4
9.37886
0.2140
4.52
4.77
26
1 19.5
25
27
21 45 52.72
46 11.29
14 18 51.9
16 38.0
9.36000
0.2172
4.58
+4.38
27
1 21.2
26
28
21 51 14.94
51 32.88
13 39 12.3
36 56.0
9JI3746
0.2175
4.63
-4.21
28
I 22 6
27
29
21 56 19.44
56 36.52
12 59 39.3
57 22.1
9.31048
0.2145
4.68
4.79
29
1 23.7
28
30
22 1 3.93
1 19.92
12 20 31.9
18 15.6
927795
0.2078
4.73
5.05
30
1 24.5
^
31
22 5 25.97
5 40.63
11 42 11.1
39 57.5
9.23848
0.1968
4.78
5.22
31
1 24.9
30;
Feb. 1
22 9 23.03
9 36.14
11 4 59.6
2 50.9
9.19009
0.1809
4.82
5.35
1
1 24.9
31
2
22 12 52.49
13 3.83
10 29 21.6
27 19.8
9.12980
0.1654
4.86
5.46
2
1 24.5
32
3
22 15 51.74
16 l.U
9 55 42.4
53 49.5
9.05298
0.1306
4.90
5.55
3
1 23.6
31
4
22 18 18.22
18 25.50
9 24 29.0
22 47.2
8.95136
0.0935
4.93
5.62
4
1 22.1
34
5
22 20 9.60
20 14.69
8 56 8.3
54 39.3
8.80872
0.0460
4.95
5.68
5
1 20.0
3j
6
22 21 24.02
21 26.91
8 31 4.9
29 50.3
8.58115
9.9848
4.97
5.73
6
1 17-3
36
7
22 21 59.77
22 0.53
8 9 44.4
8 45.1
+8.03961
9.9050
4.98
5.77
7
I 13.9
37
8
22 21 55.94
21 54.73
7 52 27.8
51 43.9
-8.21958
9.7980
4.98
5.80
8
I 9.9
3:J
9
22 21 12.37
21 9.46
7 39 33.2
39 4.4
8.64282
9.6448
4.97
5.82
9
1 5.3
39
10
22 19 49.72
19 45.46
7 31 13.8
30 59.0
8.84804
9.3943
4.96
5.83
10
0 59.9
40
11
22 17 49.65
17 44.47
7 27 36.3
27 33.5
8.98013
+8.7196
4.92
5.83
11
0 53.9
41
12
22 15 14.86
15 9.21
7 28 40.5
28 47.2
9.07311
-9.1513
4.87
5.82
12
0 47.5
42
13
22 12 9.06
12 3.45
7 34 21.1
34 34.3
9.14064
9.5156
4.80
5.80
13
0 40.4
43
14
22 8 36.90
8 31.79
7 44 21.2
44 37.7
9.18904
9.6990
4.70
5.76
14
0 33.0
44
15
22 4 44.13
4 39.92
7 58 19.5
58 86.0
9.22205
9.8164
4.55
5.70
15
0 25.2
45
16
22 0 36.77
0 33.77
8 15 47.0
16 0.6
9.24215
9.8968
-4J50
5.62
16
0 17.1
46
17
21 56 21.21
56 19.63
8 36 9.3
36 17.3
9.25035
9.9529
+3.53
5.52
17
0 8.9
47
18
21 52 4.22
52 4.11
8 58 50.3
58 50.9
9.24743
9.9912
4.07
5.38
18
0 0.6
48
19
21 47 52.06
47 53.35
9 23 10.5
23 2.7
9.23399
0.0151
4.41
5.17
18
23 52.5
49.
20
21 43 50.54
43 53.05
9 48 32.1
48 15.6
9.21005
0.0276
4.58
-4.78
19 23 453
50
21
21 40 4.81
40 8.28
10 14 19.0
13 54.2
9.17546
0.0301
4.68
+4.24
20 23 36.8
51
22
21 36 39.03
36 43.15
10 39 58.9
39 26.6
9.12963
0.0242
4.75
4.92
21
23 29.5
5i(
23
21 33 36.48
33 40.90
11 5 4.2
4 25.7
9.07075
0.0106
4.80
5.16
22
23 22.5
53
24
21 30 59.90
31 4.28
11 29 10.2
28 27.2
8.99657
9.9899
4.82
5.27
23
23 15.9
54
25
21 28 50.55
28 54.57
11 51 58.7
51 12.7
8.90297
9.9629
4.83
5.35
24
23 98
55
26
21 27 9.36
27 12.75
12 13 14.7
12 27.3
8.78074
9.9294
4.84
5.40
25
23 4.2
56 1
27
21 25 56.51
25 59.01
12 32 47.5
32 0.2
8.61003
9.8897
4.83
5.43
26 22 59.0
57;
28
21 25 11.83
25 13.27
12 50 29.3
49 43.6
8.33254
9.8432
4.82
5.45
27 22 54.4
58
29
21 24 54.37
24 54.61
13 6 15.2
5 32.2
-7.46919
9.7891
4.80
5.46
28 22 50.1
59
30
21 25 3.13
25 2.04
13 20 2.0
19 12.8
+8.17224
9.7259
4.78
5.46
29 22 46.3
60
31
21 25 37.08
25 34.65
-13 31 48.3
31 13.7
+8.50393
-9.6519
+4.76
+5.46
1
22 42.91
61 1
MERCURY, 1856.
333
FOR WASHINGTON MEAN NOON AND MERIDIAN TRANSIT. |
Apparent
Bight ABoendon.
Log. Coefflofent
off.
Log. Coefflotent
of <a.
Slde-
raal
Date
or
Tran-
sit
D»7 0f
Mean Solar
Time of Me-
MoatlL.
At
M«aaNoon.
At
Tniult.
At
Mean Noon.
At
Tmndt.
In B.A.
In Dae.
InR.A.
In Dae.
ridian Transit.
d.
h. m. 1.
m. ■.
O 1 11
1 H
d. h m.
d.
Mar. I
21 25 3.13
25 2.04
-13 20 2.0
19 12.8
+8.17224
-9.7259
+4.78
+5.46
0 22 46.3
60
2
21 25 37.08
25 34.65
13 31 48.3
31 13.7
8.50393
9.6519
4.76
5.46
1 22 42.9
61
3
21 26 34.82
26 31.01
13 41 34.6
41 5.4
8.68060
9.5626
4.73
5.46
2 22 39.9
62
4
21 27 54.90
27 49.73
13 49 21.4
48 58.0
8.79909
9.4518
4.70
5.46
3 22 37.4
63
5
21 29 35.95
29 29.44
13 55 10.2
54 53.1
8.88661
9.30i8
4.67
5.45
4 22 35.1
64
6
21 31 36.52
31 28.71
13 59 2.9
58 52.4
8.95539
9.0847
4.64
5.44
5 22 33.2
65
7
21 33 55.25
33 46.23
14 1 1.7
0 57.9
9.00970
-8.6375
4.61
5.43
6 22 31.5
66
8
21 36 30.84
36 20.66
14 1 9.0
1 12.0
9.05514
+8.5229
4.58
5.42
7 22 30.2
67
9
21 39 22.05
39 10.80
13 59 26.9
59 36.7
9.09330
9.0348
4.54
5.41
8 22 29.1
68
10
21 42 27.69
42 15.45
13 55 57.8
56 14.5
9.12.'i88
9.2599
4.51
5.40
9 22 28.2
69
U
21 45 46.73
45 33.58
13 50 44.2
51 7.6
9.15399
9.4039
4.47
5.39
10 22 27.6
70
12
21 49 18.11
49 4.13
13 43 48.8
44 18.9
9.17843
9.5100
4.44
5.38
11 22 27.2
71
13
21 53 0.90
52 46.17
13 35 12.9
35 49.5
9.19989
9.5941
4.41
5.37
12 22 27.0
72
14
21 56 54.29
56 38.89
13 24 59.3
25 42.1
9.21884
9.6625
4.37
5.36
13 22 26.9
73
15
22 0 57.45
0 41.45
13 13 9.3
13 58.1
9.23570
9.6907
4.34
5J)5
14 22 27.0
74
16
22 5 9.70
4 53.18
12 59 45.9
59 40.6
9.25080
9.7711
4.31
5.35
15 22 27.3
75
17
22 9 30.37
9 13.39
12 44 50.2
45 50.6
9.27234
9.8155
4.27
5.34
16 22 27.7
76
18
22 13 58.90
13 41.55
12 28 24.1
29 29.9
9.27658
9.8549
4.25
5.33
17 22 28.2
77
19
22 18 34.73
18 17.06
12 10 28.9
11 39.7
9.28774
9.8905
4.22
5.32
18 22 28.9
78
SO
22 23 17.42
22 59.48
11 51 6.7
52 22.4
9.2J793
9.9228
4.19
5.31
19 22 29.7
79
21
22 28 6.51
27 48.35
11 30 18.8
31 39.0
9.80727
9.9524
4.16
5.31
20 22 30.5
80
22
22 33 1.63
32 43.32
11 8 6.7
9 31.2
9.31591
9.9496
4.14
5.30
21 22 31.5
81
23
22 38 2.46
37.44.03
10 44 31.6
46 0.9
9.32391
0.0049
4.11
5.29
22 22 32.6
82
24
22 43 8.67
42 50.16
10 19 34.8
21 6.8
9.33135
0.0283
4.09
5.28
23 22 33.7
83
25
22 48 20.00
48 1.47
9 53 18.3
54 53.8
9.33837
0.0502
4.07
5.28
24 22 35.0
84
26
22 53 36.29
63 17.77
9 25 43.2
27 21.6
9.34501
0.0707
4.05
5.27
25 22 36.3
85
27
22 58 57.28
58 38.80
8 56 50.1
58 31.3
9.35128
0.0901
4.04
5.27
26 22 37.7
86
28
23 4 22.83
4 4.43
8 26 40.1
28 23.9
9.35729
.0.1085
4.03
5.26
27 22 39.2
87
29
23 9 52.81
9 34.52
7 55 14.5
57 0.5
9.36310
ai256
4.02
6.25
28 22 40.8
88
30
22 15 27.21
15 9.07
7 22 34.8
24 22.5
9.36867
0.1420
4.01
5.24
29 22 42.4
89
31
23 21 5.82
20 47.85
6 48 41.4
50 30.5
9.37411
0.1575
4.01
5.23
30 22 44.1
90
Apr. 1
23 26 48.67
26 80.90
6 13 36.9
14 27.2
9.37947
0.1722
4.01
5.23
0 22 45.9
91
2
23 32 35.73
32 18.19
5 37 21.6
39 12.6
9.38475
0.1861
4.01
5.22
1 22 47.7
92
S
23 38 27.02
38 9.74
4 59 56.8
61 48.2
9.38998
0.1995
4.01
5.22
2 22 49.6
93
4
23 44 22.54
44 5.55
4 21 23.7
23 15.1
9.39519
0.2121
4.02
5.21
3 22 51.6
94
5
23 50 22.36
50 5.68
3 41 43.1
43 34.3
9.40043
0.2243
4.02
6.20
4 22 53.6
95
6
23 56 26.57
56 10.22
3 0 57.5
2 48.0
940570
0.2358
4.03
5.19
5 22 55.8
96
7
0 2 35.22
2 19.24
2 19 7.7
20 57.2
9.41102
0.2469
4.05
5.18
6 22 58.0
98
8
0 8 48.48
8 32.90
1 36 13.7
38 1.8
9.41644
0.2574
4.46
5.17
7 23 0.3
99
9
0 15 6.45
14 51.29
0 52 18.9
54 5.1
9.42195
0.2673
4.07
5.13
8 23 2.6
100
10
0 21 29.27
21 14.56
- 0 7 24.4
9 8.4
9.42757
0.2768
4.09
5.14
9 23 5.1
101
11
0 27 57.17
27 42 95
+ 0 38 28.0
36 46.7
9.43333
0.2858
4.09
5.13
10 23 7.6
102
12
0 34 30.28
34 16.58
1 25 16.0
23 37.9
9.43919
0.2943
4.10
5.11
11 23 10.2
103
13
0 41 8.79
40 55.66
2 12 57.9
11 23.4
9.44521
0.3022
4.12
5.09
12 23 12.9
104
14
0 47 52.94
47 40.41
3 1 30.5
0 0.1
9.45139
0.3095
4.13
5.06
13 23 16.7
105
15
0 54 42.96
54 31.07
3 50 51.4
49 25.6
9.45768
0.3164
4.15
5.03
14 23 18.6
106
16
1 1 38.98
1 27.79
4 40 56.9
39 36.1
9.46408
0.3226
4.16
4.99
15 23 21.6
107
17
1 8 41.26
8 30.81
5 31 43.4
30 38.2
9.47060
03281
4.18
4.95
16 23 24.7
108
18
1 15 49.97
15 40.32
6 23 6.6
21 57.4
9.47719
0.3329
4.19
4 89
17 23 27.9
109
19
1 23 5.27
22 56.49
7 15 1.8
13 59.1
948387
0.3370
4.20
4.80
18 23 31.2
110
20
1 30 27.37
SO 19.51
8 7 23.4
6 27.8
9.49056
0.3402
4.22
4.68
19 23 34.6
111
21
1 37 56.29
37 49.42
8 60 5.0
59 16*9
9.49712
OJ5425
4.22
4.50
20 23 38.1
112
22
1 45 31.98
45 26.17
9 52 59.7
52 19.5
9.50357
0.3437
4.21
+4.10
21 23 41.8
113
23
1 53 14.43
53 9.76
10 45 59.6
45 27.7
9.51005
0.3438
4.21
-3.96
22 23 45.6
114
24
2 1 3.93
1 0.46
11 38 55.9
38 32.6
9.51628
0.3426
4.23
4.51
23 23 49A
115
25
2 8 59.84
8 57.65
12 31 38.9
31 24.5
9.52207
0.3401
4.19
4.75
24 23 53.4
116
26
2 17 2.05
17 1.21
13 23 58.4
23 53.0
9.52753
0.3360
4.18
4.93
25 23 57.5
117
27
2 25 10.11
25 10.69
14 15 42.6
15 39.0
9.53248
0.3303
4.15
5.05
27 0 1.7
118
28
2 33 23.44
33 25.50
15 6 40.2
6 27.6
9.53682
0.3227
4.11
5.15
28 0 6.0
119
29
2 41 41.39
41 44.98
15 56 38.7
56 17.4
9.54050
0.3131
4.05
5.24
29 0 10.3
120
30
2 50 3.18
50 8.34
16 45 25.1
44 55.5
9.54342
0.3016
3.96
5.31
30 0 14.8
121
31
2 58 27.90
58 34.65
+17 32 47.2
32 9.9
+9.54548
+9.2877
+3.85
-5.37
31 0 19.2
122
334
MERCURY, 1856.
FOR WASHINGTON MEAN NOON AND MERIDIAN TRANSIT. ||
D»7of
Rlfht^MMiAm.
Log.Oo«aotent
off.
Log. OotfBelMit
off*.
UmnMn
TInMorife.
8ld»-
FMl
DM»
of
il4.
Mimth
At
IfaanNooD.
At
Tnodi,
At
Mean Noon.
At
Tnndt.
bRJk.
In Dm.
InBJL
In Dm.
lUlMftTnMlt
d.
Maj 1
h. m. t.
2 58 27.90
m. 0.
58 34.65
+1? 32 4^.2
3i 9.9
t-9.54548
+0.2877
+3.65
-537
d. IL m.
1 0 193
d.
122
3 6 54.49
7 2.84
18 18 32.8
17 484
9.54660
0.2715
+3.26
542
2 0 23.7
123
3
3 15 21.85
15 31.79
19 2 304
1 39.8
9.54673
0.2528
-3.03
546
3 0 283
124
4
3 23 48.77
24 0.28
19 44 29.1
43 33.3
9.54581
0.2314
3.61
549
4 0 32.7
125
5
3 32 14X)2
32 27.05
20 24 19.6
23 19.6
9.54385
0.2078
3.84
532
5 0 373
126
6
3 40 36.39
40 50 J6
21 1 53.6
0 50.5
9.54080
0.1804
4J00
534
6 0 41.7
127
7
3 48 54.61
49 1045
21 37 4.7
35 59.6
9..5S666
0.1504
4.11
535
7 0 46.0
128
8
8 57 7.51
57 24.61
22 9 48X)
8 42.1
9.53147
0.1172
4.19
536
8 0 503
129
9
4 5 13.97
5 32.22
22 39 59.7
38 54.1
9.52520
0.0807
4.26
537
9 0 543
130
10
4 13 12.85
13 32.13
23 7 38.3
6 34.1
9.51787
0.0404
4.32
537
10 0 583
131
11
4 21 3.17
21 23.33
23 32 43.2
31 414
9.50952
9.9962
4.36
5.57
11 1 24
182
12
4 28 44.01
29 4.92
23 55 15.3
54 16.8
9.50016
9.9473
4.40
536
12 1 6.1
188
13
4 36 14.49
36 36.01
24 15 164
U 22.0
948980
9.8932
4.43
535
18 1 9.7
184
14
4 43 33.84
43 55.81
24 32 494
81 59.7
947842
9.8326
446
554
14 1 13.1
135'
15
4 50 41.33
51 3.62
24 47 57.9
47 13.5
946603
9.7649
448
533
15 1 163
186
16
4 57 36.29
57 58.75
25 0 46.9
0 84
9 45266
9.6871
4.50
531
16 1 193
187
17
5 4 18.26
4 40.73
25 11 20.5
10 48.2
9.43817
9.5956
4Ji2
530
17 1 22.0
188
18
5 10 4644
11 8.79
25 19 434
19 17.6
942263
94846
4.53
548
18 1 243
189
19
5 17 0.62
17 22.71
25 26 0.8
25 41.7
940596
93427
4.55
546
19 1 26.8
140
10
» 23 0.10
23 21.78
25 30 19.1
30 6.7
9.38792
9.1448
4.56
5.44
20 1 28.8
141
SI
5 28 4443
29 5.58
25 32 44.2
32 38.5
9.36858
+8.7988
4.57
541
21 1 303
142
8S
5 34 13.29
34 33.80
25 33 21.8
33 20.9
9.34781
-7.9878
4.59
539
22 1 323
143
23
5 39 26.18
39 45.92
25 32 174
32 10.1
9.32536
8.8947
4.60
537
23 1 333
144
24
5 44 22.70
44 41.56
25 29 364
29 22.9
9.30108
9.1566
4.61
534
24 1 343
145
25
5 49 247
49 20.35
25 25 24.9
25 5.5
9.27472
9.3107
4.62
531
25 1 353
146
26
5 53 25.06
53 41.86
25 19 48.2
19 23.2
9.24595
94180
4.63
538
26 1 363
147
27
5 57 30.07
57 45.75
25 12 §1.9
12 21.8
9.21537
94982
4.64
535
27 1 353
148
28
6 1 17.16
1 31.57
25 4 41.7
4 6.9
9.17972
9.5618
4.65
532
28 1 35.6
149
29
6 4 45.90
4 59.00
24 55 22.3
54 43.3
9.14113
9.6132
4.65
5.18
29 1 35.1
150
30
6 7 55.94
8 7.71
24 44 59.6
44 16.9
9.09796
9.6559
4.66
5.15
90 1 344
151
6 10 46.97
10 57.37
24 33 38.6
32 52.8
9.04923
9.6917
4.67
5.11
31 I 333
152
Jane 1
6 18 18.70
13 27.70
24 21 24.1
20 35.7
8.99382
9.7216
4.68
5.07
1 1 313
153
6 15 30.76
15 38.34
24 8 214
7 31.1
8.92794
9.7472
4.69
5.02
2 1 30.1
154
6 17 22.85
17 29.03
23 54 35.3
53 43.7
8.84999
9.7685
4.69
436
3 1 28.0
155
6 18 54.81
18 59.63
23 40 1 1.1
39 18.7
8.75439
9.7866
4.69
4.91
4 1 253
156
6 20 6.62
20 10.14
23 25 134
24 20.9
8.63134
9.8016
4.69
4.83
5 1 22.9
157
6 20 58.11
21 0.37
23 9 47.5
8 55.5
845847
9.8136
4.69
4.75
6 1 193
158
6 21 29.53
21 30.64
22 53 58.1
53 7.3
8.16883
9.8233
4.68
4.64
7 1 164
159
6 21 40.85
21 40.90
22 37 50.5
87 14
+6.99291
9.8302
4.68
430
8 1 12.6
160
9
6 21 32.51
21 31.63
22 21 29.8
20 43.0
-8.09711
9.8346
4.67
433
9 1 83
161
6 21 4.97
21 3.32
22 5 1.9
4 17.9
8.40729
9.8368
4.65
-336
10 1 4.1
162
6 20 \9J07
20 16J0
21 48 32.1
47 514
8.58055
9.8364
4.63
+3.90
11 0 594
163
6 19 15.45
19 12.73
21 82 5.5
31 284
8.69857
9.8335
4.60
437
12 0 544
164
6 17 55.30
17 52.30
21 15 48.7
15 15.6
8.78505
9.8277
4.56
439
13 0 49.1
165
6 16 19.98
16 16J8
20 59 48.1
59 19.3
8.85102
9.8189
4.52
4.74
14 0 48.6
166
6 14 31X>2
14 28.00
20 44 10.1
43 45.8
8.90215
9.8071
446
434
15 0 373
167
6 12 30.15
12 27.36
20 29 1.0
28 41.3
8.94164
9.7915
4.38
4.94
16 0 313
168
6 10 19.29
10 I6J8
20 14 27.9
14 12.7
8.97128
9.7718
4.28
hxa
17 0 253
169
6 8 0.62
7 58.70
20 0 37.8
0 26.9
8.99224
9.7474
4.12
5J0S
18 0 193
170
6 5 3643
5 35.10
19 47 374
47 30.5
9.00535
9.7179
3.88
5.14
19 0 133
171
6 3 9.07
3 8.37
19 35 33.7
35 30.5
9J01U2
8.6818
-3.26
5.18
20 0 63
172
6 0 40.96
0 40.92
19 24 334
24 33.2
9.00943
9.6379
+3.66
532
21 0 04
173
22
5 58 14.76
58 15.36
19 14 424
U 40.1
9.00041
9.5848
4.00
536
21 23 54.0
174
23
5 55 52.68
55 53.87
19 6 6.2
6 2.1
8.98393
95193
4JK)
539
22 23 47.7
175
24
5 53 37.18
53 38 J7
18 58 50.1
58 45i>
8.95905
9.4371
433
531
23 23 413
176
25
5 51 30.55
51 32.62
18 52 57.8
52 52.5
8.92490
9.3309
442
532
24 23 35.4
177
26
5 49 34.85
49 37.16
18 48 32.6
48 27.9
8.88000
9.1851
449
533
25 S3 293
178
27
5 47 52.02
47 5441
18 45 36.5
45 33.2
8.82157
-8.9573
4.55
534
96 23 233
179
28
5 46 23.79
46 26.10
18 44 10.9
44 9.9
8.74532
+8.4437
439
534
27 23 183
180
29
5 45 11.69
45 13.75
18 44 15.5
44 IS 9
a64270
8.5362
4.63
533
28 IS 134
181
30
5 44 17.17
44 18.80
18 45 49.6
45 44.7
849662
8.9815
4.65
532
29 IS 83
182
31
5 43 41.21
43 42.24
-Kl8 48 50.9
48 42.2
-8.25925
+9.1909
+4.67
+531
80 IS 43
188
MERCURY, 1856.
335
FOR WASHINGTON MEAN NOON AND MERIDIAN TRANSIT. |
S'^if
BighftAaoaoiioii.
Log. Ooeffldent
ofl.
Log. Ooeffldnkt
of l«.
MeuiBokr
Tlmeoflfe-
Sldo-
XMl
Dttto
Montli.
IfaanNooii.
At
Tnndt.
At
Mean Noon.
At
TnniU.
InB.A.
In Dm.
InBJl.
In Doe.
ridtanTnaatt.
of
Tmi-
■It.
(L
h. m. u.
m. f.
O 1 tt
1 H
4. h. m.
d.
Jnlj 1
5 43 41^1
43 49.24
-t-18 48 50.9
48 42.9
-8.25925
+9.1909
+4.67
+5.31
0 23 4.0
183
S
5 43 24.72
43 24.99
18 53 15.8
53 3.0
-7.63636
9.3602
4.69
5.29
1 22 59.7
184
3
5 48 28^9
43 27.96
18 59 l.l
58 44.0
f8X)0101
94254
4.70
5.26
2 22 55.9
185
4
5 43 53.43
43 51.77
19 6 24
5 40.9
8.39380
9.5011
4.71
5.23
3 29 52.3
186
5
5 44 39.73
44 364)3
19 14 13.3
13 47.6
8.59942
9.5601
4.72
5.18
4 29 49JSt
187
6
5 45 47.75
45 43 73
19 23 274
22 57.6
8.73968
9.6073
4.72
5.14
5 92 464
188
7
5 47 17.68
47 U3i
19 38 38.5
33 4.9
8.84657
9.6451
4.73
5.08
6 22 43.9
189
8
5 49 9.82
49 8.14
19 44 39.2
44 2.2
8.93887
9.6751
4.73
5.00
7 29 41.8
190
9
5 51 24.91
51 161^
19 56 21.5
55 41.6
9.00500
9.6984
4.73
4.90
8 29 40.1
191
10
5 54 0.93
53 5M9
20 8 36.5
7 54.3
9.06691
9.7150
4.73
4.76
9 22 38.8
192
11
5 56 59.93
53 49.10
90 91 15.2
20 81.5
9.12097
9.7263
4.73
4M
10 22 37.8
193
12
6 0 2U17
0 8.99
20 34 8.8
33 244
9.16900
9.7482
4.73
+4.15
11 22 37.3
194
18
6 4 4.67
3 51.18
20 47 7.6
46 93.2
9JI201
9.7482
4.72
-4.07
12 22 37J0
195
14
6 8 10.15
7 5543
90 60 1.7
59 17JS
9J5073
9.7259
4.72
4.59
13 29 37.2
196
15
6 18 37.39
12 21Jlil
91 19 394
11 56.8
9.98602
9.7185
4.72
4.81
14 92 37.7
197
16
6 17 26.98
17 9.35
81 94 504
24 10.1
9.81840
9.6941
4.71
4.96
15 22 38.6
198
17
6 29 36 58
22 18J2
91 36 23.5
35 46.3
9.34809
9.6664
4.71
5.08
16 22 39.8
199
18
6 28 7J0
27 49.26
21 47 6.5
46 33.1
9.37537
9.6284
4.70
5.17
17 22 414
200
19
6 38 59.79
33 47.52
21 56 47.9
56 18.9
940048
9.5772
4.69
5.25
18 22 43.3
201
90
6 40 11.79
39 59j06
22 5 15.5
4 51.5
942354
9.5086
4.67
5.32
19 22 45.6
202
SI
6 46 43.18
46 93J8
22 19 17.5
11 5a9
944460
94128
4.65
5.37
20 22 48.1
203
9S
6 58 33.10
53 isxa
99 17 41.5
17 98.7
9.46376
9.3166
4.63
542
21 22 51.0
204
98
7 0 40.65.
0 90.73
22 21 16.3
21 9.3
9.48114
9.0278
4.60
546
22 22 54.2
205
24
7 8 4.81
7 45.24
22 99 50.5
22 49.3
949676
+8iJ888
4.57
5.50
23 22 57.7
206
95
7 15 44.3P
15 115.31
22 22 14.2
22 9.9
9.51057
-8.8710
4.53
5.53
24 23 14
207
96
7 93 37.68
23 1947
29 19 18.4
19 8.9
9.52256
9.2396
447
5Ji5
25 23 5.3
208
97
7 31 43.30
31 96X)7
99 13 55.7
13 41.6
9.53272
94448
440
5.57
26 23 9.5
209
98
7 39 59.42
39 43.87
99 5 58.9
5 41.0
9.54110
9.5875
4.32
5.58
27 23 18.8
210
99
7 48 24.20
48 947
21 55 23.7
55 3.0
9.54778
9.6969
4.22
5.59
28 23 18.3
211
ao
7 56 55.83
56 42.57
21 42 8.5
41 45.9
9.55278
9.7844
4.08
5.59
29 23 22.9
212
81
8 5 32^
5 20.75
21 26 13.3
95 50.0
9.55617
9.8570
3.88
5.58
30 23 27.5
213
Ang.l
8 14 12.19
14 2.16
21 7 39.2
7 16.2
9.55803
9.9183
+3.50
5.58
0 23 32.3
214
9
8 22 53.27
22 44J5
90 46 29.3
46 7.8
9.55837
9.9707
-3.09
5.56
1 23 37.0
215
8
8 31 33.85
31 27.26
20 22 49.7
22 30.8
9.55723
0.0158
8.73
5.54
2 23 41.7
216
4
8 40 12.22
40 7^5
19 56 48.1
56 32.7
9.55482
0.0541
3.93
5.52
3 23 464
217
5
8 48 47.08
48 43.90
19 28 29.9
28 19.0
9.55142
0.0878
4.05
549
4 23 51.1
218
6
8 57 17.36
57 15.82
18 58 44
57 58.7
9.54705
0.1171
4.13
545
5 23 55.6
219
7
9 5 42.06
5 42.10
18 25 4L1
25 41.0
9.54186
0.1423
4.19
542
7 0 O.I
220
8
9 14 0.30
14 1.83
17 51 29.5
51 23X)
9.53590
0.1643
4.24
5.38
8 0 44
221
9
9 22 11.36
22 14.30
17 15 39.0
15 25.8
9.52930
0.1883
4.27
5.83
9 0 8.7
222
10
9 30 14.69
30 18.95
16 38 19.3
37 59.1
9Ji2223
0.1997
AJSt9
5.29
10 0 12.8
223
11
9 38 \0JOS
38 15.52
15 59 39 JO
59 11.5
9^^1478
0.2139
4.30
5.23
11 0 16.8
224
19
9 45 57.06
46 3.69
15 19 47.8
19 13.1
9.50698
0.2260
4.31
5.18
12 0 20.6
225
IS
9 53 35.64
53 43.31
14 38 53.5
38 11.6
949898
0.2364
4.31
5.12
13 0 24.3
226
14
10 1 5.77
1 1440
13 57 4.3
56 15.2
9 49082
0.2454
4.31
5.06
14 0 27.9
227
15
10 8 27.46
8 36.97
13 14 274
13 314
948259
0.2528
4.30
4.99
15 0 31.3
228
16
10 15 40.83
15 51.14
12 31 9.6
30 6.8
947430
0.2591
4.80
.4i»2
16 0 34.6
229
17
10 22 46.00
22 57.03
11 47 17.7
46 8.4
946604
0.2643
4.29
4.84
17 0 37.7
230
18
10 29 43.18
29 54.87
11 2 574
1 41.9
945783
0.2685
4.27
4.75
18 0 40.7
231
19
10 36 32.59
36 44.88
10 18 13.9
16 52.3
9.44969
0.2718
4StS
454
19 0 43.6
232
90
10 43 1443
43 97.25
9 83 12.2
31 45.0
944164
0.2744
4.25
4.53
20 0 464
233
91
10 49 48.94
50 2.24
8 47 57.2
46 24.7
943373
Oi)762
4.23
4.38
21 0 49.0
234
92
10 56 16.40
56 30.14
8 2 32.3
0 54.7
942597
0.2774
4.92
-4X)7
22 0 51.5
235
98
11 2 37.05
2 51.18
7 17 24
15 20.1
941832
0.2779
4.20
+3.56
23 0 53.9
236
94
U 8 51.12
9 5.59
6 31 31.0
29 444
941082
0.2779
4.18
3.61
24 0 56.2
237
95
U 14 58.85
15 13.63
5 46 1.2
44 10.6
940342
0.2774
4.16
4.05
25 0 584
238
96
11 21 0.48
21 15.54
4 60 35.9
58 41.6
9.39630
0.2765
4.15
4.26
26 1 0.5
239
97
11 26 56.25
27 11.66
4 15 18.0
13 20J)
9.38928
0.2750
4.13
440
27 1 2.5
240
98
11 32 46.37
33 1.89
3 30 10.5
28 9.9
9.38240
0 2732
4.12
4.49
28 1 44
241
99
11 38 31.04
38 46.75
2 45 15.8
43 12.4
9.37562
0.2709
4.11
4.56
29 1 6.2
242
30
11 44 10.49
44 26.30
1 60 36.1
58 30.2
9.36899
0JK682
4.09
4.63
30 1 7.9
243
31
11 49 44.71
50 0.72
+ 1 16 14.0
14 6.0
■1-9.36244
-0.2652
-4.08
+4.67
31 1 9.5
244
336
MERCURY, 1856.
FOR WASHINGTON MEAN NOON AND MERIDIAN TRANSIT. ||
Dftyof
Appuvnt
Right Asoenikm.
Log. Coefflofamt
off.
Log. Coeflleknt
ofl».
Mcui Solar
TtmeofMo-
Sbto-
iml
Tmn-
t
Month.
At
HcuiNoon.
At
Trmodt
At
Mean Noon.
At
Timniit
In B.A.
In Dm.
InR.A.
In Deo.
ridlaa Traarit.
d
h. m. s.
m. s.
O 1 II
1 H
d.
h. m.
d.
Sept I
11 65 14.02
55 30.15
+ 0 38 11.5
30 1.6
f9.35599
-0.2618
-4.07
+4.72
1 ll.l
945 ;
2
19 0 38.58
0 54.74
- 0 11 29.3
13 40.6
9.34963
0.2580
4.05
4.76
1 \2Jb
346 i
3
18 5 58.33
6 14.62
0 54 46.2
66 58.8
9.34333
0.2638
4.05
4.80
1 13.9
847 [
4
12 U 13.53
11 29.87
1 37 36.4
39 50.0
9.33702
0.2492
4J04
4.83
1 16.3
348 [
5
18 16 24.20
16 40.57
2 19 59.3
89 13.5
9.33074
0.2443
4.03
4.86
1 164
349 1
6
12 21 3041
21 46.79
3 1 52.3
4 6.9
9.32443
0.2391
4.03
4.88
1 17.6
850
7
18 26 32.18
26 48.55
8 43 13.7
46 98.3
9.31804
0.2333
4.03
4.91
1 18.7
851
8
12 31 29.51
31 45.85
4 24 1.4
96 15.9
9.31156
0.2271
4.03
4.94
I 19.7
859
9
12 36 22.41
36 38.69
6 4 13.0
6 97.0
9.30499
0.2204
4.03
4.97
1 80.6
953
10
12 41 10.88
41 27.08
6 43 46.1
46 69.3
9.29822
0.2132
4XM
4.99
1 81.6
954
11
12 45 54.80
46 10.90
6 22 38.7
94 60.9
9.29117
0.2054
4.06
$.08
1 88.3
955
12
12 50 34.04
50 50.00
7 0 48.4
9 69.1
9.88379
0.1970
4M
6.03
1 83.0
956
13
12 55 8.48
55 24.25
7 38 13.1
40 99.1
9.87588
0.1882
4.08
6.05
1 93.6
967
14
18 59 37.97
59 53.52
8 14 61.2
16 58.3
9.86794
0.1788
4.09
6.07
1 94.9
858
15
13 4 8.32
4 17.64
8 50 40.9
59 45.8
9.35841
0.1646
4.12
6.09
1 94.7
869
16
13 8 21.24
8 36.31
9 85 38.9
97 41.3
9.84906
0.1676
4.14
6.13
1 95.0
860
17
13 12 34.46
12 49.28
9 59 41.6
61 40.8
9.83986
0.1454
4.16
6.16
1 96.3
861
18
13 16 41.66
16 56.14
10 38 44.7
34 40.5
9.22884
0.1319
4.20
6.19
1 95.6
868
19
13 20 42.36
20 56.45
11 4 44J3
6 36.3
9.21662
0.1171
4.83
6.80
1 96.6
863
80
13 24 36.03
24 49.67
11 86 37.3
37 95.8
9.20310
0.1010
4.86
6.83
90
1 96.5
864
81
IS 28 22.20
28 35.34
18 5 19.8
7 3.8
9.18814
0.0833
4.89
6.85
81
1 96.3
865
88
13 32 0.32
32 12.92
12 33 47.9
36 86.4
9.17128
0.0637
4.33
6.39
99
1 96.0
966
83
13 35 29.59
35 41.57
13 0 55.7
8 88.7
9.15210
0.0414
4.36
6.33
98
1 94.6
967 *
84
13 38 49.24
39 0.54
13 26 37.3
88 4.4
9.13017
0.0163
4.40
6.35
94
1 94.0
968 ,
85
13 41 58.39
42 8.95
13 50 46.8
58 7.6
9.10488
9.9876
4.42
6JS8
96
1 93.8
969
86
13 44 56.06
45 5.81
14 13 17.3
14 31.3
9.07536
9.9544
4.48
6.41
96
1 99.9
970
87
13 47 41.14
47 5000
14 34 0.9
35 7.6
9.04055
9.9164
4.52
6.44
97
1 91.0
971 I
88
13 50 12.42
50 80.33
14 52 49.2
53 48.0
8.99892
9.8690
4.56
6.48
98
1 19.6
979 >
89
13 52 28.61
52 35.50
15 9 32.8
10 83.4
8.94820
9.8125
4.60
6.51
89
1 17.9
973
80
13 54 28.22
54 34X)1
15 24 1.1
84 43.0
8.88487
9.7415
4.64
5.55
80
1 \6J0
974
Oct I
13 56 9.75
56 14.40
15 36 8.6
36 35.4
8.80346
9.6485
4.68
6.58
1
I 13.7
975!
8
13 57 31.59
57 35.06
15 46 84.6
46 48.0
8.69300
9.5179
4.71
5.63
9
1 ll.l
976
3
13 .58 32.00
58 34.29
15 51 52.9
52 6.8
8.52947
9.3100
4.75
5.66
3
I 8J
977 1
4
13 59 9.27
59 10.36
15 55 14.5
56 19.0
+8.23551
-8 8351
4.78
5.69
4
1 4.9
978;
6
13 59 21.75
59 21.68
15 56 11.9
56 16.6
-6.78777
+8.8830
4.81
6.73
6
1 1.1
979
6
13 59 7.73
59 6.60
15 61 29.2
51 48.7
8.28945
9.3744
4.83
6.75
6
0 67 JO
980
7
13 58 2.V90
58 23.84
15 43 51.4
44 12.6
8.59279
9.6081
4.84
6.78
7
0 69.3
981
8
13 57 15.21
57 12J59
16 32 2.9
39 30.5
8.77395
9.7667
4.85
6.80
8
0 47.9
983
9
13 55 35.00
55 31.68
16 16 50.3
16 88.4
8.90250
9.8868
4.85
5.83
9
0 41.6
383 .
10
13 53 25.35
53 21.80
U 55 6.5
55 39.6
9.00023
9.9831
4.84
6.83
10
0 35.6
884
11
13 50 47 06
50 43.61
U 29 42.2
30 15.5
9.07668
0.0620
4.81
6.83
11
0 98.9
885
18
13 47 41 97
47 38.97
13 59 45.0
60 14.3
9.13638
0.1270
4.76
6.80
19
0 31.9
886
13
13 44 12 98
44 10.78
13 25 25.8
85 47.6
9.18195
0.1799
4.68
6.77
13
0 14.4
387
14
13 40 24.24
40 23.14
12 47 8.8
47 19.9
9.21457
0.2216
4.54
6.69
14
0 6.7
388 '
15
13 36 21.07
36 21.29
19 6 30.3
6 38.6
9.23481
0.2524
4.29
5.56
14
93 58.7
889.
16
13 32 9.76
32 IMl
U 91 90X)
81 87.7
9.24270
0.2726
-3.36
6.36
15 93 50.6
390
17
13 27 57.48
38 0.52
10 35 35.7
36 9J)
9.83778
0.2818
+4.20
+4.73
16
33 484
991
18
13 23 51.76
23 56.02
9 49 29.0
60 17.7
9.21924
0.2796
4.54
-4.99
17 33 34.4
993
19
13 20 0.27
20 5.39
9 4 12.6
6 14.1
9.18557
0.2655
4.71
6.48
18 83 86.6
3931
90
13 16 30.11
16 35.69
8 21 1.7
89 19J»
9.13441
OJU87
4.83
6.66
19 83 19.1
894
91
13 13 27.61
13 33.10
7 41 1.4
49 16.9
9.06171
0.1983
4.95
6.78
80 83 18.9
995
88
13 10 57.91
11 883
7 6 12.9
6 98.8
8.95969
0.1423
4.97
6.86
91
93 6.7
9961
93
13 9 4.87
9 8.75
6 34 22.5
35 38.8
8.81288
0.0677
4.99
6.91
98 99 69.9
997
84
13 7 SOM
7 53.27
6 9 4.9
10 6.7
8.57222
9.9692
4.98
6.93
93 99 54.7
998
85
13 7 16.99
7 17.59
6 49 96.9
50 84.8
-7.95558
9.8364
4.97
5.93
94 99 60.9
999
96
13 7 83.05
7 81.75
6 36 6.2
36 38.6
+8.25101
9.6430
4.95
6.93
95 99 46.4
300
97
13 8 7.94
8 4.58
6 28 98.2
88 43.5
8.64470
+9.2988
4.92
6.91
96 99 48 J
301
98
13 9 89.76
9 84.33
6 96 29.5
86 81.8
8.83833
-8.4700
4.88
6.89
97 99 40.6
303
99
13 11 86.00
11 18.56
5 99 49.9
30 9.6
8.96309
9.3845
4.84
5.85
98 99 38.6
303I
30
13 13 53.93
13 44.62
6 88 4.6
38 40.8
9.05227
9.6406
4.79
681
99 99 37.1
304
31
13 16 5035
16 39.53
6 50 46.3
51 37.7
9.11957
9.7876
4.74
5.76
30 99 36.1
305'
306
88
13 20 12.88
80 0 36
- 6 7 87.6
8 39.6
+9.17197
-9.8864
i +4.69
j-5.71
31
99 363
MERCURY, 1856.
337
FOR WASHINGTON MEAN NOON AND MERIDIAN TRANSIT. |
Dftyof
Appuoit
Bight AMaiukm.
Log. Ooeffldent
ofl.
Log. Coefficient
ofrt.
MeuBokr
Time of Me-
Bide-
nal
Date
Monftb.
At
MeuNooD.
At
Transit
At
MeuNoon.
At
Tmniit.
In RJL.
In Dm.
InB.A.
In Deo.
ridian Timniit.
of
Tian-
dt.
d.
h. m. ■.
m. ■
o 1 a
-67 27.6
1 N
d. h. m.
d.
Not. 1
13 20 12.88
20 0.36
. 8 32.6
+9.17197
-9.8864
+4.69
-5.71
0 22 35.5
306
2
13 23 5808
23 44.27
6 27 40.3
28 57.0
9.21343
9.9574
4.63
5.65
1 22 354
307
3
13 28 3.37
27 48.48
6 50 56.L
52 22.6
9.24689
0.0104
4.57
5.58
2 22 35.5
308
4
13 32 26.27
32 10.49
7 16 48.5
18 23.1
9.27413
0.0510
4.50
5.50
3 22 35.9
309
5
13 37 4^
36 48.02
7 44 53.5
46 34.4
9.29642
0.0828
445
6.43
4 22 36.6
310
6
13 41 55.95
41 38.93
8 14 50.8
16 36.6
9.31499
0.1074
4.38
6.35
5 22 37.6
311
7
13 46 59.09
46 41.69
8 46 20.3
48 9.1
9.33045
0.1264
4.32
6.24
6 22 38.7
312
8
13 52 12.11
51 54.46
9 19 2.3
20 53.2
9.34326
0.1407
4.26
6.14
7 22 39.9
313
9
13 57 33.70
57 15.93
9 52 41.2
54 32.8
9.35409
0.1515
4.19
5.01
8 22 414
314
10
14 8 2.78
2 44.98
10 27 2.8
28 54.1
9.36327
0.1592
4.13
4.87
9 22 42.9
315
U
14 8 38.29
8 20.56
11 1 55.0
3 45.2
9.37109
0.1643
4X)8
4.66
10 22 44.5
316
12
14 14 19.45
14 1.85
11 37 6.1
38 54.4
9.37783
0.1672
4.03
4.34
11 22 46.3
317
13
14 20 5.55
19 48.16
12 12 26.4
14 12.3
9.38368
0.1681
3.97
-2.98
12 22 48.1
318
14
14 25 56.05
25 38.92
12 47 47.1
49 30.1
9.38879
0.1677
3.92
+4.10
13 22 50.0
319
15
14 31 50.42
31 33.59
13 23 2.7
24 42.3
9.39328
0.1656
3.89
4M
14 22 52.0
320
16
14 37 48.25
37 31.77
13 58 3.8
69 39.7
9.39732
0.1621
3.85
4.66
15 22 54.0
321
17
14 43 49.27
43 33.17
U 32 46.0
34 17.8
9.40098
0.1675
3.81
4.79
16 22 56.1
322
18
14 49 53.19
49 37.51
15 7 2.5
8 30.2
9.40430
0.1517
3.79
4.84
17 22 58.2
323
19
14 55 59.79
55 44.55
15 40 50.6
42 13.8
9.40738
0.1451
8.76
4.91
18 23 04
324
20
15 2 8.91
1 54.14
16 14 5.2
16 23.9
9.41027
0.1374
3.73
4.96
19 23 2.6
325
21
15 8 20.43
8 6.15
16 46 42.8
47 67.1
9.41296
0.1288
3.73
4.99
20 23 4.8
326
22
15 14 34.17
14 20.40
17 18 39.7
19 49.4
9.41555
0.1193
3.71
5.02
21 23 7.1
327
23
15 20 50.14
20 36.90
17 49 53.4
50 58.4
9.41805
0.1088
3.69
5.04
22 23 94
328
24
15 27 8.24
26 55.55
18 20 20.7
21 21.1
9.42046
0.0975
3.70
6.07
23 23 11.8
329
25
15 33 28.38
33 16.25
18 49 59.5
50 55.2
9.42283
0.0853
3.70
5.09
24 23 14.2
330
26
15 39 50.63
39 39.08
19 18 46.8
19 38.1
9.42520
0.0722
3.69
5.11
25 23 16.6
331
27
15 46 14.96
46 4.01
19 46 41.4
47 28.2
9.42752
0.0581
3.68
5.12
26 23 19.1
332
28
15 52 41.29
52 30.95
20 13 39.7
14 22.2
9.42975
0.0429
3.69
5.13
27 23 21.6
333
29
15 59 9.62
58 59.91
20 39 41.6
40 19.8
9.43200
0.0272
3.68
5.15
28 23 24.1
334
30
16 5 39.97
5 30.91
21 4 46.4
5 20.5
9.43423
0.0100
3.68
6.17
29 23 26.7
335
Dec. 1
16 12 12.31
12 3.91
21 28 50.1
29 20.2
9.43643
9.9910
3.69
5.19
0 23 29.3
336
2
16 18 46.64
18 38.92
21 51 48.1
52 14.3
9.43863
9.9702
3.68
5.20
1 23 31.9
337
3
16 25 22.97
25 15.95
22 13 40.5
14 3.1
944082
9.9490
3.68
6.20
2 23 34.6
338
4
16 32 1.29
31 54.98
22 34 29.9
34 49.1
9.44299
9.9264
3.66
b^\
3 23 37.3
339
5
16 38 41.62
38 36.04
22 54 12.2
64 28.2
9.44510
9.9012
3.68
5.22
4 23 40.0
340
6
16 45 23.85
45 19.02
23 12 45.5
12 58.4
9.44720
9.8739
3.66
5.23
5 23 42.7
341
7
16 52 8.05
52 3.98
23 30 7.6
30 17.7
9.44927
9.8442
3.65
5.24
6 23 45.5
342
8
16 58 54.15
58 50.86
23 46 18.7
46 26.3
9.45130
9.8125
3.65
5.24
7 23 484
343
9
17 5 42.12
5 39.62
24 1 18.6
1 23.9
9.45328
9.7766
3.63
5.25
8 23 51.2
344
10
17 12 31.97
12 30.29
24 15 2.4
15 5.6
945522
9.7365
3.61
6.26
9 23 54.1
345
11
17 19 23 60
19 22.74
24 27 30.2
27 31.7
9.45707
9.6914
3.63
5.27
10 23 67.0
346
12
17 26 16.93
26 16.92
24 38 38.8
38 38.9
9.45888
9.6410
3.57
5.28
12 0 0.0
347
13
17 33 12.03
33 12.88
24 48 31.6
48 32.7
9.46061
9.5836
3.56
5.29
13 0 2.9
348
14
17 40 8.68
40 10.40
24 67 3.7
57 5.6
9.46220
9.5142
3.53
5.30
14 0 5.9
349
15
17 47 6.85
47 9.46
25 4 13.6
4 16.0
9.46372
94305
3.50
5.31
15 0 9.0
350
16
17 54 641
54 9.91
25 10 0.5
10 3.0
946511
9.3252
3.45
5.31
16 0 12.0
351
17
18 1 7.28
1 11.70
25 14 23.3
14 25.6
946639
9.1831
3.40
5.32
17 0 15.1
352
18
18 8 9.31
8 14 65
25 17 20.5
17 22.2
946752
8.9655
3.34
5.32
18 0 18.2
353
19
18 15 12.39
15 18.65
25 18 51.1
18 51.8
946851
-8.5091
3.24
5.33
19 0 21.3
354
20
18 22 16.37
22 23.56
25 18 54.9
18 55.6
946935
+84649
3.14
5.34
20 0 244
355
21
18 29 21.07
29 29.19
25 17 28.5
17 31.0
946984
8.9655
3.04
5.36
21 0 27.5
356
22
18 36 26.04
36 35.10
25 14 30.4
14 35.1
947019
9.1909
3.08
5.34
22 0 30.7
357
23
18 43 31.42
43 41.41
25 10 2.4
10 9.8
947040
9.3393
3.11
5.35
23 0 33.8
358
24
18 50 36.82
50 47.74
25 4 2.5
4 12.9
947028
9.4512
3.08
5.35
24 0 37.0
359
25
18 57 41.96
57 53.80
24 56 29.4
56 43.3
946982
9.5410
3.25
5.35
25 0 40.1
360
26
19 4 46.47
4 59.21
24 47 22 8
47 40.6
9.46913
9.6158
3.51
5.36
26 0 43.2
361
27
19 11 50.25
12 3.88
24 36 42.1
37 4.3
946807
9.6795
3.60
5.36
27 0 464
362
28
19 18 52.72
18 7.20
24 24 27.2
24 54.1
946653
9.7354
3.71
5.36
28 0 49.5
363
29
19 25 53.52
26 8.84
24 10 37.6
11 9.6
946457
9.7849
3.81
5.36
29 0 52.5
364
SO
19 32 52.20
33 8.31
23 55 13.8
55 51.2
946210
9.8282
3.89
5.34
30 0 55.6
365
31
19 39 48.23
40 5.13
23 38 19.5
39 2.3
946006
9.8643
4.02
5.34
31 0 58.6
366
32
19 46 41.03
46 58.65
-23 19 57.9
20 46.9
+9.45713
+9.901.2
+4.13
+5.34
32 1 1.5
367
43
338
VENUS, 1856.
FOR WASHINGTON MEAN NOON AND MERIDIAN TRANSIT
. i
Apparant
Right Amseiuioii.
AppuvDt Beelioatton.
hog.WmAott,
Log. f Mior O.
MeuiSotar
ml
Date
D»yof
'I\m€ of Me-
<^
Month
At
MeanNooQ.
At
Tnuidt.
At
Mom Noon.
At
TxMi«U.
In R.A.
In Dee.
InlLA.
In Dee.
ridiMk TnuMit.
Ok.
h. m. s.
m. s
O 1 II
1 II
<L h
m.
4-
Jan. \
15 33 8.58
32 32.98
-16 12 20.8
10 8.6
+9.27491
-9.8446
+3.57
+439
0 20
60.9
0
15 37 40.54
37 4.85
16 28 59.4
26 49.5
9.27739
9.8377
8.56
4.61
1 20 51^
1
15 42 14.04
41 38.25
16 45 21.7
43 14.4
9.27983
9.8303
8.56
4.64
2 80
58.1
2
15 46 49.07
46 13.21
17 1 26.8
59 22.3
9.28222
9.8224
8.56
4.66
3 20 52.7
3
15 51 25.60
50 49.67
17 17 13.8
15 12.1
9.28456
9.8139
3.55
4.67
4 20 63^
4
15 56 3.61
55 27.63
17 32 42X)
80 48.2
9.28687
9.8048
3.55
4.69
5 20
64.1
6
16 0 43.09
60 7.06
17 47 50.4
45 54.7
9.28912
9.7951
3.53
4.71
6 80
64.8
€ ',
16 5 24.01
4 47.94
18 2 38.1
0 45.7
9.29133
9.7849
3.53
4.73
7 20
65 J»
7 i
16 10 6.36
9 30.25
18 17 4.4
15 15.2
9.29351
9.7738
3^2
4.74
8 20
66.3
8!
10
16 14 50.09
14 18.97
18 81 8.4
29 22.4
9.29562
9.7622
3M
4.76
9 20
67.1
9
n
16 19 35.18
18 59.06
18 44 49.3
43 6.7
9.29766
9.7498
3.61
4.77
10 80 57^
10
12
16 24 21.62
23 45.50
18 58 6.3
56 27.3
9.29973
9.7365
3J>0
4.78
11 20
68.7
11
IS
16 29 9.41
28 33.28
19 10 58.7
9 28.3
9.30172
9.7225
3.49
4.80
12 20
69.6
12
14
16 33 58.50
33 22.37
19 23 25.8
21 54.0
9.30365
9.7076
3.48
4.81
13 21
0.4
13
15
16 38 48.86
38 12.76
19 85 26.8
33 58.7
9.80552
9.6916
8.47
4.82
14 21
1^
14
16
16 43 40.46
43 4.41
19 47 0.9
45 36.7
9.30736
9.6747
3.46
4.83
15 21
8^
15 i
17
16 48 33.28
47 57.26
19 58 7.5
56 47.2
9.30914
9.6565
3.45
4.84
16 21
3.8
16
18
16 53 27.29
52 51.31
20 8 46.0
7 29.6
9.31089
9.6372
8.44
4.85
17 21
4.1
17 ,
19
16 58 22.47
57 46J>5
20 18 55.8
17 43.3
9.31260
9.6164
3.42
4.86
18 21
6.1
18
20
17 8 18.79
62 42.95
20 28 36.0
27 27.6
9.31422
9.5939
8.41
4.87
19 21
6.1
19
21
17 8 16.20
7 40.45
20 37 45.9
36 41.5
9 31579
9.5697
3.40
4.87
20 21
7.1
20
22
17 13 14.67
12 39.01
20 46 25.0
45 24.7
9.31732
9.5439
3.38
4.88
21 21
8.2
21
23
17 18 14.17
17 38.59
20 54 33.0
53 36.7
9.31878
9.5161
8.36
4.89
22 81
9.8
22
24
17 23 14.66
22 39.19
21 2 9.4
1 17.1
9.32019
9.4856
3.33
4.90
23 21
10.3
23
25
17 28 16.10
27 40.75
21 9 13.4
8 25.3
9.32153
9.4519
3.32
4.91
24 21
11^
84
26
17 33 18.44
32 43.21
21 15 44.3
15 0.5
9.32275
9.4149
3.29
4.91
25 21
18.4
26
27
17 38 21.62
37 46.53
21 21 41.7
21 2.1
9.32398
9.3741
3.26
4.92
26 21
13.6
86
28
17 43 25.61
42 50.68
21 27 5.3
26 29.8
9.32509
9.3284
3.23
4.92
27 21
14.7
27
29
17 48 30.37
47 55.59
21 31 54.6
31 23.3
9.32610
9.2764
3.20
4.93
28 81
15.8
88 ,
30
17 53 35.81
53 1.20
21 36 9.1
35 42.0
9.32707
9.2164
8.17
4.93
29 21
16.9
29 i
31
17 58 41.91
58 7.47
21 39 48.4
39 25.5
9.32795
9.1466
3.13
4.93
30 21
18.1
sol
Feb. 1
18 3 4^60
3 14.34
21 42 52.3
42 33.5
9.32878
9.0623
8.07
4.94
31 81
19.3
31 1
2
18 8 55.84
8 21.78
21 45 20.4
45 6.7
9.32951
8.9559
3.01
4.94
32 21
20.6
32
S
18 14 3.56
13 29.71
21 47 12.3
47 1.8
9.33011
8.8136
2.94
4.94
33 21
21.7
33
4
18 19 11.69
18 38.05
21 48 27.8
48 21.4
9.33067
8.6006
2.90
4.95
34 21
22.8
34 1
5
18 24 20.19
23 46.75
21 49 6.8
49 4.3
9.33115
-8.1576
2.41
4.95
35 21
24.0
«I
6
18 29 29.00
28 55.79
21 49 9.0
49 10.5
9.38157
+8.0525
2.70
4.95
36 21
26.2
36l
7
18 34 38.07
34 5.09
21 48 34.2
48 39.7
9.33187
8.5688
2.53
4.96
37 21
26.4
37
8
18 39 47.33
.39 14.60
21 47 22.3
47 31.7
9.33210
8.7978
2.38
4.95
38 21
27.7
38
9
18 44 56.74
44 24.26
21 45 3l3
45 46.5
9.33226
8.9472
+2.16
4.95
39 21
28.9
39
10
18 50 6.23
49 34.00
21 43 7.1
43 24.1
9.33236
9.0591
-1.68
4.95
40 21
30.1
40
11
18 55 15.75
54 43.79
21 40 3.5
40 24.2
9.33236
9.1474
2.29
4.96
41 21
S\J3
41
12
19 0 25.24
59 53.55
21 36 22.7
36 47.0
9.33227
9.2208
2.38
4.96
42 21
32.6
42
13
19 5 34.66
5 3.24
21 32 4.7
32 32.6
9.33213
9.2837
2.59
4.95
43 21
3.3.7
43
14
19 10 43.95
10 12.81
21 27 9.5
27 40.9
9.33190
9.3382
2.70
4.95
44 21
35.0
44
15
19 15 53.06
15 22.20
21 21 37.3
22 12.1
9.33164
9.3866
2.80
4.96
45 21
36.2
^1
16
19 21 1.96
20 31.38
21 15 28.1
16 6.3
933129
9.4301
2.85
4.95
46 21
37.4
*^
17
19 26 10.59
25 40.30
21 8 42.0
9 23.5
9.33090
9.4697
2.91
4.94
47 21
38.6
47!
18
19 31 18.92
30 48.91
21 1 19.1
2 3.8
9 33047
9.5055
2.97
4.94
48 21
39.8
48
19
19 36 26.91
85 57.19
20 53 19.8
54 7.6
9.32992
9.5384
3.03
4.94
49 21
41.0
49 1
20
19 41 34.49
41 5.07
20 44 44.2
45 35.1
9.32930
9.5691
3.05
4.94
60 21
42.2
50
21
19 46 41.62
46 12.49
20 35 32.4
36 26.4
932864
9.5975
3.09
4.93
51 21
43.2
51
22
19 51 48.27
51 19.42
20 25 44.7
26 41.6
9.32794
9.6239
3.11
4.93
52 21
44.4
52
23
19 56 54.41
56 25.86
20 15 21.5
16 21.1
9J32721
9.6486
3.15
4.93
63 21
45.6
53
24
20 2 0.01
1 81.77
20 4 23.2
5 25.4
9J32640
9.6717
3.18
4.92
64 21
46.8
^\
25
20 7 5.02
6 3709
19 52 49.8
53 54.8
9.32553
9.6934
3.21
4.92
66 21
48.0
55 1
26
20 12 9.40
11 41.76
19 40 41.9
41 49.5
9.32459
9.7139
3.22
4.91
56 21
49.1
56
27
20 17 1.3.11
16 45.76
19 27 59.9
29 10.0
9.32363
9.7333
3.23
4.91
67 21
60S
57
28
20 22 16.14
21 49.08
19 14 44.1
15 56.6
9.32262
9.7515
3.26
4.90
68 21
51.3
58
29
20 27 18.44
26 51.68
19 0 55.0
2 9.8
9.32167
9.7689
3.27
4.90
69 21
62.4
59
Mar. I
20 32 19.99
31 53.53
18 46 32.9
47 49.9
9.32045
9.78.55
327
4.89
60 21
633
60
2
20 37 20.74
36 54.59
-18 31 38.2
32 57.4
+^9.31927
+9.8011
-3.31
44.88
61 21
94.6
— '
Non —The Traoaits precede the Noon oppodte which thaj are giTen.
VENUS, 1856.
339
(
FOR WASHINGTON MEAN NOON AND MERIDIAN TRANSIT.
D«yof
Apparent
Right Ascension.
Apparent OeoUsAtioo
Loff. Factor t.
Log. FMtor IS.
BfeanSokr
Time of Me-
Side-
real
Date
of
Tran-
sit.
Uonfch.
At
Mean Noon.
h. m a.
At
Trmndt.
At
Mom Noon.
At
Txajuit.
In R.A.
In Dee.
InB.A.
In Dee.
ridian Transit.
d
m. ■
O 1 II
1 H
d. h. m.
d.
Mar. 1
20 32 19.99
31 53.53
-18 46 32.9
47 49.9
+9.32045
+9.7855
-«.27
+4.89
60 21 53.5
60
8
20 37 20.74
36 54.59
18 31 38.2
32 57.4
9.31927
9.801 1
3.31
4.88
61 21 54.6
61
3
20 42 20.69
41 54.82
18 16 11.6
17 32.9
9.31808
9.8160
3.31
4.87
62 21 55.6
62
4
20 47 19.81
46 54.22
18 0 13.6
1 36.9
9.31688
9.8300
3.32
4.87
63 21 .^6.7
63
5
20 52 18.08
51 52.77
17 43 44.9
45 10.0
9.31565
9.8435
3.34
4.86
64 21 57.7
64
6
20 57 15.48
56 50.46
17 26 45.8
28 12.8
9.31435
9.8563
3.34
4 85
65 21 58.7
65
7
21 2 11.98
1 47.26
17 9 16.8
10 45.7
9.31302
9.8684
3.34
4.84
66 21 59.7
66
8
21 7 7.58
6 43.14
16 51 18.7
52 49.2
9.31167
9.8802
3.34
4.83
67 22 0.7
67
9
21 12 2.27
11 38.10
16 32 51.9
34 23.9
9.31032
9.8912
3.36
4.82
68 22 1.7
68
10
21 16 56.03
16 32.13
16 13 57.2
15 30.6
9.30895
9.9019
3.36
4.81
69 22 2.6
69
11
21 21 48.86
21 25.21
15 54 35.0
56 10.0
9.30755
9.9120
3.36
4.80
70 22 3.5
70
12
21 26 40.74
26 17.85
15 34 46.0
36 22.5
9.30615
9.9217
3.35
4.79
71 22 4.4
71
13
21 31 31.69
31 8.56
15 14 30.8
16 8.6
9.30476
9.9309
3.35
4.78
72 22 5.4
72
U
21 36 21.71
35 58.84
14 53 50.1
55 29.0
9.30338
9.9398
3.35
4.77
73 22 6.3
73
15
21 41 10.81
40 48.19
14 32 44.4
34 24.5
9.30198
9.9482
3.35
4.76
74 22 7.2
74
16
21 45 58.98
45 36.61
14 U 14.3
12 55.6
9.30060
9.9564
3.84
4.75
75 22 8.0
75
17
21 50 46.24
50 24.11
13 49 20.5
51 2.9
9.29922
9.9644
3.34
4.73
76 22 8.9
76
18
21 55 32.59
55 10.69
13 27 3.7
28 47.0
9.29784
9.9714
3.34
4.72
77 22 9.7
77
19
22 0 18.04
59 56.37
13 4 24.6
6 8.7
9.29647
9.9785
3.32
4.71
78 22 10.5
78
20
22 5 2.61
4 41.16
12 41 23.7
43 8.7
9.29515
9.9852
3.30
4.70
79 22 11.3
79
21
22 9 46.32
9 25.09
12 18 1.7
19 47.5
9.29387
9.9916
3.30
4.68
80 22 12.1
80
22
22 14 29.20
14 8.19
11 54 19.3
56 5.8
9.29260
9.9978
3.30
4.67
81 22 12.9
81
23
22 19 11.26
18 50.47
11 30 17.0
32 4.2
9 29133
0.0037
3.29
4.65
82 22 13.7
82
24
22 23 52.51
23 31.92
11 5 55.4
7 43.3
9.29010
0.0093
3.26
4.64
83 22 14.4
83
25
22 28 32.96
23 12.56
10 41 15.3
43 3.7
9.28886
0.0146
3.25
4.62
84 22 15.1
84
26
22 33 12.63
32 52.43
10 16 17.4
- 18 6.3
9.28766
0.0198
3.25
4.60
85 22 15.9
85
27
22 37 51.55
37 31.55
9 51 2.3
52 51.7
9.28652
0.0246
3.22
4.58
86 22 16.6
86
28
22 42 29.74
42 9.92
9 25 30.7
27 20.5
9.28544
0.0291
3.21
4.56
87 22 17.3
87
29
22 47 7.25
46 47.59
8 59 43.4
61 33.6
9.28438
0.0334
3.21
4.55
88 22 17.9
88
30
22 51 44.08
51 24.60
8 33 41.1
35 31.6
9.28332
0.0375
3.19
4.53
89 22 18.6
89
31
22 56 20.25
56 0.96
8 7 24.2
9 15.0
9.28230
0.0415
3.16
4.50
90 22 19.3
90
Apr. 1
23 0 55.78
0 36.67
7 40 53.5
42 44.5
9.28131
0.0451
3.14
448
91 22 19.9
91
2
23 5 80.71
5 11.75
7 14 9.9
16 1.0
9.28039
0.0485
3.14
4.45
92 22 20.6
92
3
23 10 5.07
9 46.26
6 47 13.9
49 5.2
9.27950
0.0517
3.11
4.42
93 22 21.2
93
4
23 14 38.88
14 20.22
6 20 6.4
21 57.8
9.27864
0.0547
3.07
4.40
94 22 21.8
94
5
23 19 12.16
18 53.65
5 52 48.0
54 39.4
9.27785
0.0575
8.05
4.37
95 22 22.4
95
6
23 23 44.96
23 26.60
5 25 19.4
27 10.8
9.27709
0.0601
3.03
4.34
96 22 23.0
96
7
23 28 17.30
27 59.08
4 57 41.2
59 32.6
9.27638
0.0625
8.00
4.30
97 22 23.6
97
8
23 32 49.21
32 31.13
4 29 54.2
31 45.4
9.27571
0.0648
2.95
4.26
98 22 24.2
98
9
23 37 20.72
37 2.78
4 1 59.0
3 50.0
9.27511
0.0667
2.89
4.22
99 22 24.8
99
10
23 41 51.87
41 34.06
3 33 56.5
35 47.2
9.27458
0.0686
2.87
4.17
100 22 254
100
11
23 46 22.70
46 5.02
S 5 47.2
7 37.7
9.27406
0.0702
2.81
4.11
101 22 26.0
101
12
23 50 53.23
50 35.67
2 S7 31.9
39 22.2
9.27359
0.0717
2.72
4.08
102 22 26.5
102
IS
23 55 23.49
55 6.06
2 9 11.1
11 1.1
9.27321
0.0730
2.61
4.01
103 22 27.1
103
14
23 59 53.55
59 36.23
1 40 45.6
42 35.2
9.27292
0.0741
2.56
3.91
104 22 27.6
104
15
0 4 23.45
4 6.24
1 12 16.0
14 5.1
9.27269
0.0750
2.38
3.84
105 22 28.2
106
16
0 8 53.2!
8 36.12
0 43 43.0
45 31.6
9.27250
0.0758
2.23
3.72
106 22 28.8
107
17
0 13 22.86
13 5.90
- 0 15 7.3
16 55.4
9.27238
0.0764
1.68
3.53
107 22 29.3
108
18
0 17 52.46
17 35.60
+ 0 18 30.5
11 43.0
9.27231
0.0769
-1.38
3.34
108 22 29.9
109
19
0 22 22.04
22 5.27
0 42 9.7
40 22.8
9.27228
0.0771
+1.98
+2.68
109 22 30.4
no
20
0 26 51.62
26 84.95
1 10 49.6
9 3.3
9 27233
0.0772
2.34
-2.98
110 22 31.0
111
21
0 31 21.25
31 4 68
1 39 29.5
37 43.8
9.27246
0.0772
2.53
3.42
111 22 31.5
112
22
0 35 50.98
35 34.51
2 8 8.9
6 23.8
9.27269
0.0769
2.64
3.64
112 22 32.1
113
23
0 40 20.87
40 4.49
2 36 47.1
35 2.8
9.27296
0.0765
2.68
3.7«
113 22 32.6
114
24
0 44 50.96
44 34.67
3 5 23.3
3 39.9
9.27329
0.0760
2.76
3.86
114 22 33.2
115
25
0 49 21.26
49 5.07
8 33 56.9
32 14.4
9.27366
0.0753
2.83
3.96
115 22 33.8
116
26
0 53 51.81
53 35.71
4 2 27.3
0 45.6
9.27408
0.0743
2.87
4.04
116 22 34.3
117
27
0 58 22.64
58 6.63
4 30 53.7
29 12.9
9.27456
0.0732
2.94
4.10
117 22 34.9
118
28
1 2 53.79
2 87.87
4 59 15.3
57 35.5
9.27512
0.0719
2.98
4.16
118 22 35.5
119
29
1 7 25.31
7 9.47
5 27 3M
25 52.6
9.27576
0.0704
3.03
4.19
119 22 36.0
120
SO
1 11 57.24
11 4M8
5 65 41.5
54 3.8
9.27643
0.0688
3.05
4.25
120 22 36.6
121
31
1 16 29.60
16 13.93
+ 6 23 44.9
22 8.3
+9.27717
+0.0669
+3.09
-4.29
121 22 37.2
122
Noxx — The TraoaitB pivoede the No(m opposite which ihej are giren.
340
VENUS, 1856.
FOR WASHINGTON MEAN NOON AND MERIDIAN TRANSIT. |
Appuoit
Right Aflcenskm.
AppuvntDeeUnfttion.
Log.Vtetort.
MemSotar
9de-
D»yof
Time orBi»-
or
a.
Month.
At
BleuiNoQii.
At
Tnosit
At
MeuNoon.
At
Trusit.
In BJk.
In Dee.
InBJk.
In Dee.
Tidten TtaMil
d
h. m. •.
m. ■.
O 1 II
n
d. iL m.
May 1
1 16 29.60
16 13.93
+ 6 23 44.9
22 8.3
+9.27717
+0.0669
+3.09
-4.29
121 22 37.2
125
2
1 21 02.45
20 46.86
6 51 40.7
50 6.3
9.27796
0.0649
3.09
4.32
122 22 37.8
123
3
1 25 35.81
25 20.31
7 19 28.2
17 54.1
9.27876
0.0626
8.12
4.36
123 22 38.4
124
4
1 30 9.69
29 54.29
7 47 6.7
45 33.9
9.27961
0.0602
3.17
4.40
124 22 39.1
125^
5
1 34 44.13
34 28.81
8 14 36.6
13 4.0
9.28052
0.0576
3.19
442
125 22 39.7
126 ,
6
1 89 19.17
39 3.93
8 41 64.2
40 23.8
9.28153
0.0647
3.20
445
126 22 40.3
127
7
1 43 64.87
43 39.71
9 9 1.6
7 32.6
9.28259
0.0516
3.22
448
127 22 41.0
12S
8
1 48 31.23
48 16.17
9 35 57.1
34 29.6
9.28366
0.0483
3.25
4.50
128 22 41.7
129;
9
1 53 8.27
52 53.33
10 2 40.0
1 14.0
9.28476
0.0448
3.27
4.62
129 22 42.3
130 1
10
1 57 46.05
57 31.20
10 29 9.7
27 45.1
9.28591
0.0412
3.28
4.54
130 22 43J0
131
11
2 2 24.60
2 9.82
10 65 25.5
64 2.4
9.28715
0.0372
8.30
4.56
131 22 43.7
132
12
2 7 3.96
6 49.25
11 21 26.7
20 6.1
9.28843
0.0330
3.30
4.59
132 22 44.4
133 .
13
2 11 44.14
11 29.53
11 47 12.5
45 52.5
9.28973
0.0286
3.30
4.60
133 22 46.1
134)
14
2 16 25.15
16 10.67
12 12 42.2
11 23.9
9.29103
0.0239
3.34
4.62
134 22 45.9
135
15
2 21 7.04
20 52.68
12 37 55.1
36 38.5
9.29241
0.0190
3.35
4.64
135 22 46.7
136
16
2 25 49.85
25 35.58
13 2 50.5
1 36.6
9.29383
0.0139
3.37
4.66
136 22 47.4
137
17
2 30 33.59
30 19.42
13 27 27.7
26 14.5
9.29528
0.0084
3.37
4.67
137 22 48.2
138 1
18
2 35 18.29
35 4.24
13 51 46.0
60 34.5
9.29677
0.0027
3.38
4.68
138 22 49.0
139;
19
2 40 3.98
39 50.04
14 15 44.7
14 36.0
9.29828
9.9966
3.39
4.70
139 22 49.8
140
20
2 44 50.67
44 36.85
14 89 23.0
38 15.3
9Jt9982
9.9903
343
4.71
140 22 50.7
141 1
21
2 49 38.39
49 24.69
15 2 40.4
I 34.5
9.30141
9.9837
3.44
4.73
141 22 51.5
142 j
22
2 54 27.17
54 13.59
15 26 36.1
24 32.0
9.30300
9.9767
3.41
4.76
142 22 52.4
143!
23
2 59 17.02
59 3.57
15 48 9.3
47 7.1
9.30462
9.9693
3.42
4.76
143 22 53.3
144 I
24
3 4 7.96
3 54.64
16 10 19.2
9 18.9
9.30625
9.9617
3.40
4.77
144 22 54.2
145 i
25
8 9 0.00
8 46.81
16 32 6.3
31 6.9
9.30788
9.9536
3.42
4.78
146 22 55.1
146 '
26
3 13 53.13
13 40.08
16 53 26.9
62 30.4
9.30953
9.9453
3.43
4.79
146 22 56.0
147 I
27
3 18 47.38
18 34.48
17 14 23.3
13 28.8
9.31120
9.9364
3.44
4.81
147 22 57J0
148
28
3 23 42.76
23 30.02
17 34 53.8
34 1.3
9 31286
9.9271
3.43
4.82
148 22 58.0
149
29
3 28 39.27
28 26.69
17 54 57.5
54 7.0
9.31460
9.9172
3.43
4.83
149 22 59X)
150 :
30
3 33 36.90
33 24.48
18 14 33.5
13 45.1
9.31615
9.9069
3.44
4.84
160 23 0.0
151
31
3 38 35.66
38 23.41
18 33 41.2
32 64.8
9JJ1779
9.8962
3.44
4.85
151 23 1.0
15S
June 1
3 43 35.55
43 23.47
18 52 20.2
61 35.7
9.31943
9.8849
3.43
4.86
152 23 2.1
153 ,
2
3 48 36.57
48 24.67
19 10 29.8
9 47.3
9.32106
9.8730
3.42
4.87
153 23 3-2
154 J
3
3 53 38.71
53 27.00
19 28 9.1
27 28.7
9.32265
9.8604
3.42
4.88
154 23 4J3
155;
4
3 58 41.95
58 30.43
19 46 17.5
44 39.1
9.32421
9.8472
3.42
4.89
155 23 5.4
156
5
4 3 46.28
3 34.96
20 1 64.4
1 17.9
9.32577
9.8334
3.40
4.90
156 23 6.5
157
6
4 8 51.69
8 40.57
20 17 59.2
17 24.6
9.32729
9.8189
3.39
4.91
157 23 7.7
158
7
4 13 58.15
13 47.23
20 33 31.1
32 58.5
9.32875
9.8033
3.40
4.91
168 23 8.8
159
8
4 19 5.64
18 54.94
20 48 29.5
47 58.9
9.33020
9.7869
3.39
4.92
159 23 10.0
160
9
4 24 14.15
24 3.68
21 2 53.9
2 25.2
9.33164
9.7697
3.37
4.93
160 23 11.2
161
10
4 29 23.67
29 13.42
21 16 43.6
16 16.8
9.33303
9.7514
3.36
4.93
161 23 12.4
162
11
4 34 34.17
34 24.16
21 29 58.1
29 33.1
9.33436
9.7320
3.35
4.94
162 23 13.6
163 1
12
4 89 45.60
39 35.83
21 42 36.9
42 13.7
9.33566
9.7114
3.34
4.95
163 23 14.9
164 ,
13
4 44 57.95
44 48.43
21 54 39.5
54 18.0
9.33693
9.6896
8.35
4.95
164 23 16.2
165
14
4 50 11.20
50 1.94
22 6 5.4
5 45.6
9.33815
9.6661
3.30
4.96
165 23 17.5
166
15
4 55 25.31
55 16.31
22 16 54.0
16 35.9
9.33932
9.6411
3.28
4.96
166 23 18.8
167
16
5 0 40.24
0 31.61
22 27 4.8
26 48.4
9.34043
9.6140
3.26
4.97
167 23 20.1
168
17
5 5 55.96
5 47.49
22 36 37.4
36 22.6
9.34147
9.5847
323
4.97
168 23 214
169
18
5 11 12.42
U 4.21
22 45 31.3
45 18.0
9.34248
9.5531
3.22
4.98
169 23 22.7
170
19
5 16 29.60
16 21.66
22 53 46.2
53 34.3
9.34343
9.5187
3.22
4.98
170 23 24.0
171
20
5 21 4745
21 39.80
23 1 21.8
1 11.3
9.34434
9.4809
3.15
4.99
171 23 254
172
21
5 27 5.94
26 58.58
23 8 17.6
8 8.5
9.34518
9.4392
3.10
4.99
172 23 26.8
173
22
5 32 25.01
32 17.94
23 14 33.2
14 25.4
9.34592
9.3925
3.05
4.99
173 23 28.1
174
23
5 37 44.59
37 37.82
23 20 8.3
20 1.7
9.34655
9.3396
3.02
4.99
174 23 29.5
175
24
5 43 4.62
42 58.15
23 25 2.6
24 67.1
9.34714
9.2795
2.98
5.00
175 23 30.9
176
25
5 48 26.07
48 18.90
'23 29 16.0
29 11.5
934770
9.2087
2.91
5.00
176 23 32.3
177
26
5 53 45.92
53 40.05
23 32 48.1
32 44.6
9 34821
9.1236
2.81
6.00
177 23 33.7
178
27
5 .59 7.10
59 1.54
23 35 38.7
35 36.1
9.34860
9.0176
2.74
6.00
178 23 36.1
179
28
6 4 28.55
4 23.30
23 37 47.7
87 45.9
9.34893
8.8751
2.59
5.00
179 23 36.6
180
29
6 9 50.20
9 45.28
23 39 14.8
39 13.8
9.34917
8.6628
2.33
5.00
180 23 38.0
181
30
6 15 12.00
15 7.40
23 40 0.1
39 59.8
9.34932
+8.2290
1.68
5.00
181 23 394
182
183
31
6 20 33.88
20 29.59
+23 40 3.5
40 3.7
+9.34938
-8.0822
+1.68
-5.00
182 23 40.8
Non —The TnnaitB precede the Noon opposite which thqr wb ghrea.
VENUS, 1856.
341
FOR WASHINGTON MEAN NOON AND MERIDIAN TRANSIT. |
Siyof
Appuent
Right AaoMiBion.
Log. Factor f .
Log. Vutar K.
Mean Solar
Time of Me-
Side-
real
Date
of
Tran-
Bit.
MonUi.
At
MeuiNoon.
At
Tniuit.
At
MeuNoon.
At
Timoiit
In RJL.
In Deo.
InBJk.
In Dee.
ridian Transit.
d
h. m. •.
m. •.
O 1 u
1 N
d.
h m.
d.
July 1
6 20 33^
20 29U»9
+23 40 8A
40 8.7
+9.34938
-8.0822
+1.68
-5.00
182
23 40.8
188
2
6 25 55.78
25 51.80
23 39 24.9
39 25.6
9.34939
8.6191
-2.28
5.01
183 23 42.2
184
3
6 31 17.66
31 13.99
23 38 4.0
38 5.2
9.34931
8.8511
2.56
5.01
184
23 43.6
185
4
6 36 39.45
36 36.11
23 36 0.9
36 2.4
9.34913
9.0012
2.70
5.00
185 23 45.1
186
5
6 42 1.07
41 58.06
23 33 15.6
33 17.4
9.34886
9.1114
2.80
5.00
186
23 46.5
187
6
6 47 22.46
47 19.77
23 29 48.5
29 50.4
934851
9.1996
2.89
5.00
187
23 47.9
188
7
6 52 43.57
52 41.20
23 25 39.7
25 41.7
9.34809
9.2724
2.94
5.00
188 23 49.4
189
8
6 58 4.35
58 2.30
23 20 49.3
20 51.3
9.34763
9.3348
3.01
5.00
189
23 50.8
190
9
7 3 24.76
63 23.03
23 15 17.3
15 19.2
9.34710
9.3893
3.05
5.00
190 23 52.2
191
10
7 8 44.75
8 43.32
23 9 3.8
9 5.6
9.34649
9.4375
3.11
4.99
191
23 53.5
192
U
7 14 4.26
14 3.13
28 2 9.1
2 10.6
9.34580
9.4804
3.15
4.99
192 23 54.9
193
IS
7 19 23.23
19 22.41
22 54 33.6
54 34.8
9.34501
9.5192
3.18
4.99
193 23 563
194
IS
7 24 41.60
24 41.09
22 46 17.6
46 18.4
9.34415
9.5545
3.20
4.99
194 23 57.7
195
14
7 29 59.33
29 59.12
22 37 21.4
37 21.8
9.34326
9.5868
3.23
4.98
195 23 59.0
196
15
7 35 16.39
35 16.46
22 27 45.2
27 45J2
9.34232
9.6170
3.25
4.98
197
0 J0.S
197
16
7 40 32.74
40 33.10
22 17 29.4
17 28.7
9.34133
9.6449
3.27
4.98
198
0 1.7
198
17
7 45 48.34
45 49.00
22 6 34.3
6 32.9
9.34024
9.6709
3.31
4.97
199
0 3.0
199
18
7 51 3.13
51 4.08
21 55 0.3
54 58.2
9.33909
9.6949
3.32
4.97
200
0 4.3
200
19
7 66 17.07
56 18.29
21 42 48.0
42 45.1
9.33789
9.7175
3.33
496
201
0 5.6
201
20
8 1 30.13
1 31.62
21 29 57.8
29 54.1
9.33666
9.7388
3.35
4.96
202
0 6.8
202
21
8 6 42.29
6 44.05
21 16 30.1
16 25.5
9.33540
9.7589
3.36
4.95
203
0 8.1
203
22
8 U 53.53
11 55.54
21 2 25.3
2 19.7
9.33408
9.7778
3.37
4.94
204
0 9.3
204
23
8 17 3.81
17 6.09
20 47 44.0
47 37.4
9.33272
9.7957
3.38
4.93
205
0 10.6
205
24
8 22 13.1 1
22 15.65
20 32 26.7
32 19.0
9.33132
9.8125
3.39
4.93
206
0 11.8
206
25
8 27 21.40
27 24.18
20 16 34.0
16 25.2
9.32988
9.8285
3.40
4.92
207
0 13.0
207
26
8 32 28.66
32 31.67
19 60 6.3
59 56.5
9.32841
9.8438
3.41
4.91
208
0 14.1
208
27
8 37 34.87
37 38.12
19 43 4.2
42 53.2
9.32691
9.8584
3.42
4.90
209
0 15.3
209
28
8 42 40.01
42 43.49
19 25 28.4
25 16.1
9 32537
9.8721
3.42
4.90
210
0 16.4
210
29
8 47 44.06
47 47.78
19 7 19.5
7 6J0
9.32381
9.8852
3.44
4.89
211
0 17.6
211
30
8 52 47.01
52 50.95
18 48 38.2
48 23.5
9.32223
9.8976
3.44
4.88
212
0 18.7
212
81
8 57 48.84
67 52.99
18 29 25.2
29 9.2
9.32060
9.9094
3.43
4.87
213
0 19.8
213
Aac 1
9 2 49.54
2 53.89
18 9 41.0
9 23.6
9.31896
9.9208
3.43
4.86
214
0 20.9
214
2
9 7 49.12
7 53.67
17 49 26.1
49 7.4
9.31734
9.9316
3.44
4.85
215
0 21.9
215
3
9 12 47.58
12 !>2.32
17 28 41.2
28 21.2
9.31571
9.9419
3.44
4.84
216
0 22.9
216
4
9 17 44.91
17 49.84
17 7 27.2
7 6.7
9.31405
9.9518
3.44
4.83
217
0 24.0
217
5
9 22 41.10
22 46.23
16 45 44.7
45 21.8
9.31236
9.9611
3.44
4.81
218
0 25.0
218
6
9 27 36.14
27 4M7
16 23 34.6
23 10.3
9.31068
9.9700
3.44
4.81
219
0 26.0
219
7
9 32 30.05
32 35.54
16 0 57.5
0 31.9
9.30900
9.9785
3.43
4.80
220*
0 26.9
220
8
9 37 22.83
37 28.47
15 37 54.0
37 27.1
9.30736
9.9868
3.43
4.78
221
0 27.8
221
9
9 42 14.51
42 20.31
15 14 24.8
13 56.5
9.30571
9.9945
3.42
4.77
222
0 28.7
222
10
9 47 5.09
47 11.06
14 50 30.7
50 0.9
9.30407
0.0020
3.41
4.76
223
0 29.7
223
11
9 51 54.58
52 0.71
14 26 12.4
25 41.2
9.30245
0.0091
3.40
4.74
224
0 30.5
224
12
9 56 43.00
56 49.28
14 1 30.7
0 58.1
9.30087
0.0158
3.40
4.73
225
0 31.4
225
13
10 1 30.38
1 36.80
13 36 26.2
35 52.3
9.29929
0.0223
3.39
4.71
226
0 32.2
226
14
10 6 16.73
6 23.30
13 10 59.6
10 24.3
9.29772
0.0285
3.38
4.70
227
0 33.1
227
15
10 11 2.08
11 8.78
12 45 11.7
44 35.0
9.29619
0.0343
3.37
4.68
228
0 33.9
228
16
10 15 46.43
15 53.26
12 19 3.3
18 25.3
9.29471
0.0399
3.35
4.67
229
0 84.7
229
17
10 20 29.82
20 36.77
11 52 35.0
51 55.7
9.29330
0.0453
3.33
4.65
230
0 35.4
230
18
10 25 12.29
25 19.36
11 25 47.5
25 7.0
9.29193
0.0504
3.33
4.64
231
0 36.1
231
19
10 29 53.88
30 1.08
10 58 41.5
57 59.7
9.29056
0.0552
3.31
4.61
232
0 36.9
232
20
10 34 34.59
34 41.93
10 31 17.8
30 346
9.28922
0.0598
3.30
4.60
233
0 37.7
233
21
10 39 14.46
39 21.92
10 3 37.1
2 52.6
9.28794
0.0642
8.28
4.58
234
0 38.4
234
22
10 43 53 52
44 1.09
9 35 40.1
34 54.3
9.2867U
0.0683
3.25
4.56
235
0 39.2
235
23
10 48 31.80
48 39.48
9 7 27.5
6 40.5
9.28551
0.0722
8.23
4.53
236
0 39.8
236
24
10 53 9.34
53 17.14
8 39 0.0
38 11.8
9.28439
0.0759
3.22
4.51
237
0 40.5
237
25
10 57 46.18
57 54.10
8 10 18.3
9 28.^
9.28332
0.0794
3.20
4.49
238
0 41.2
238
26
11 2 22.35
2 30.38
7 41 23.3
40 32.6
928228
0.0826
3.18
4.47
239
0 41.9
239
27
11 6 57.88
7 6.01
7 12 15.7
11 23.8
9.28130
0.0857
3.15
4.44
240
0 42.5
240
28
11 11 32.80
11 41.04
6 42 56.1
42 3.1
9.28034
0.0885
3.11
4.41
241
0 43.2
241
29
11 16 7.14
16 15.48
6 13 25.4
12 31.3
9.27946
0.0912
8.08
4.38
242
0 43.8
242
30
11 20 40.95
20 49.38
5 43 44.2
42 49.1
9.27864
0.0937
8.05
4.35
243
0 44.4
248
31
11 25 14.27
25 22.80
+ 5 13 53.2
12 57.1
+9.27790
-0.0959
-3.03
-4.30
244
0 45.0
244
Non —The Tnuuita praoede the Noon oppodte which they ace giren until Jnlj 14th, inclosire.
342
VENUS, 1856.
FOR WASHINGTON MEAN NOON AND MERIDIAN TRANSIT. |
IXayof
App&mit
Right Aflc«niikm.
Log.lKtort.
Log. Vaotor |3.
McuSokr
Time of M«.
Sid*-
rml
of
wit.
Mooth.
At
Mean Noon.
h. m. •.
At
Tniuit
At
MMnNooQ.
At
Tnoiit.
In R.A.
In Dm.
InR.A.
In Dm.
ridian Tnarit.
d
m. s
O 1 II
1 H
d.
h m.
d.
Scptl
11 29 47.13
29 55.76
+ 4 43 53.3
42 56.1
f9.27720
-0.0980
-2.96
-4.26
245
0 45.6
245
S
11 34 19.56
34 28.29
4 13 45.2
12 47.0
9.27656
0X)998
2.91
4.22
246
0 46.2
246
3
11 38 51.61
39 0.45
3 43 29.8
42 30.6
9.27600
0.1015
2J7
4.17
247
0 46.8
247
4
11 43 23.33
43 32.27
3 13 7.6
12 7.5
9.27547
0.1031
2.85
4.11
248
0 474
248
5
11 47 54.74
48 3.78
2 42 39.4
41 38.4
9.27501
0.1044
2.73
4.05
249
0 ABJO
249
6
11 52 25.88
52 35.02
2 12 6.0
11 4.0
9.27463
0.1056
2.64
3.98
250
0 48.6
250
7
11 56 56.80
57 6.03
1 41 28.0
40 25.2
9.27429
0.1065
2.61
3.89
251
0 49.1
251
8
12 I 27.53
1 36.87
1 10 46.3
9 42.6
9.27402
0.1073
2.50
3.76
252
0 49.7
252
9
12 5 58.11
6 7.56
0 40 1.5
38 57.0
9.27381
0.1079
2.16
3.61
253
0 50.3
2.53
10
12 10 28.59
10 88.14
+ 09 14.5
8 9.2
9.27369
0.1084
-1.68
3.98
254
0 50.8
254
11
12 14 59.02
15 8.67
. 0 21 34.1
22 40.1
9.27366
0.1066
+2.16
-2.98
255
0 514
255
12
12 19 29.45
19 39.21
0 52 23.5
53 30.3
9.27369
0.1088
2.23
+2.88
256
0 52i)
256
19
12 23 59.91
24 9.78
1 23 13.2
24 20.6
9.27377
0.1088
2.42
942
257
0 52.5
257
14
12 28 30.44
28 40.42
1 54 2.4
55 10.5
9.27394
0.1086
2.56
3.66
258
0 53.1
258
15
12 33 1.10
33 11.19
2 24 50.4
25 59.2
9.27416
0.1082
2.68
3.80
259
0 59.7
259
16
12 37 31 92
37 42.12
2 55 36.3
56 45.8
9.27445
0.1076
2.78
3.89
260
0 54.2
260
17
12 42 2.95
42 13.26
9 26 19.5
27 29.6
9.27482
0.1069
2.89
3.98
261
0 54.8
261
18
12 46 34.24
46 44.68
9 56 59.2
58 9.9
9.27529
0.1060
2.91
4.05
262
0 554
262
19
12 51 5.85
51 16.42
4 27 34.7
28 46.0
9.27584
0.1049
2.95
412
263
0 56X)
263
80
12 55 37.81
55 48.51
4 58 5.4
59 17.2
9.27640
0.1036
9.00
4.17
264
0 56.6
264
21
13 0 10.14
0 20.97
6 28 30.4
29 42.8
9.27702
0.1023
9.05
4.22
265
0 5lJSt
265
22
13 4 42.89
4 53.85
5 58 49.2
60 2.1
9.27774
0.1007
9.10
4.26
266
0 57.8
266
23
13 9 16.13
9 27.22
6 29 1.0
30 14.3
9.27856
0.0989
9.12
4.31
267
0 584
267
24
18 13 49.90
14 1.13
6 59 4.9
60 18.6
9.27942
0.0969
9.15
4.35
268
0 59X)
268
25
13 18 24.22
18 85.59
7 29 0.2
30 14.3
9.28033
0.0947
9.19
4.38
269
0 59.6
269
26
18 22 59.13
23 10.66
7 58 46.1
60 0.7
9.28130
0.0924
9.21
441
270
1 0.3
270
27
18 27 34.69
27 46.36
8 28 21.9
29 36.9
9.28236
Oi)898
3.22
443
271
1 0.9
271
26
13 32 10.92
32 22.75
8 57 46.8
59 2.1
9 28345
0.0871
3.25
447
272
1 1.6
272
29
18 36 47.84
36 59.85
9 27 0.1
28 15.6
9.28457
0.0840
3.27
4.50
273
1 23
273
30
13 41 25.51
41 87.67
9 56 0.9
57 16.7
9.28575
0.0808
9.29
4.53
274
1 2.9
274
Oct. 1
13 46 3.96
46 16.28
10 24 46.9
26 4.4
9.28700
0.0773
9.31
4.54
275
1 9.6
275
2
13 50 43.23
50 55.73
10 59 21.5
54 37.8
9.28831
0.0737
9.32
4.56
276
1 44
276
*8
13 55 23.36
55 36.04
11 21 40JO
22 56.4
9.28965
0.0699
9.94
4.59
277
1 6.1
277
4
14 0 4.36
0 17.22
11 49 49.2
50 59.7
9.29101
0.0656
9.35
4.62
278
1 5.8
278
6
14 4 46.26
4 69.32
12 17 30.1
18 46.8
9.29244
0.0613
9.37
4.63
279
1 6.6
279
6
14 9 29.10
9 42.36
12 44 59.7
46 16J^
9.29390
0.0567
938
4.65
280
1 74
280
7
14 14 12.91
14 26.36
18 12 11.1
13 27.9
9.29540
Oj0518
3.40
4.67
281
1 8.1
281
8
14 f8 67.72
19 1M7
19 99 3.6
40 20.4
9.29696
0.0466
9.40
4.69
282
1 8.9
282
9
14 23 43.57
23 57.43
14 5 36.7
6 53.4
9.29855
0XM12
9.41
4.70
283
I 9.8
283 1
10
14 28 30.46
28 44.55
14 31 49.5
33 6.1
9.30014
0.0355
9.42
4.72
284
1 10.6
284 1
11
14 33 1842
33 82.75
14 57 41.1
58 57.6
9.30178
0.0294
944
4.74
285
1 11.5
285
12
14 38 7.49
38 22.04
15 23 10.7
24 27.0
9J0348
0.0231
9.44
4.75
286
1 123
286 '
19
14 42 ^7.69
43 12.47
15 48 17.6
49 33.6
9.30519
0.0164
9.44
4.76
287
1 13.2
287 1
14
14 47 49.03
48 4.05
16 13 1.1
14 16.8
9.30690
0.0095
9.45
4.78
288
1 14.1
288 '
15
14 52 41.52
52 56.80
16 37 20.5
38 35.9
9.30861
0.0022
9.47
4.79
289
1 15.1
289
16
14 57 35.19
57 60.74
17 1 14.8
2 29.9
9.31037
9.9945
9.46
4.80
290
1 16.1
290!
17
15 2 3006
2 45.87
17 24 43.2
25 57.9
9i)1215
9.9863
9.49
4.82
291
1 17.0
291 1
18
15 7 26.15
7 42.22
17 47 45.0
48 59.2
9.31397
9.9779
9.47
4.ai
292
1 18.0
292 '
19
15 12 23.48
12 39.82
18 10 19.6
11 33.2
9.91.'>80
9.9691
3.47
4.84
293
1 19.0
293
20
15 17 22.06
17 38.68
18 82 26.1
99 99.0
9J1760
9.9597
3.47
4.85
294
1 20.0
294
21
15 22 21.88
22 38.80
18 54 9.7
55 15.9
9.3193^
9.9499
949
4.86
295
1 21.1
295
22
15 27 22.93
27 40.15
19 15 11.6
16 23.1
9.32117
9.9396
949
4.87
296
1 22.2
296
23
15 32 25.22
32 42.74
19 35 49.0
36 59.7
9.32297
9.9288
947
4.88
297
1 233
297
24
15 37 28.76
37 46.59
19 55 55.3
57 5.0
9.32477
9.9174
347
4.89
296
1 244
298
25
15 42 33.55
42 51.70
20 15 29.6
16 38.4
9.32654
9.9055
347
4.90
299
1 25.6
299
26
15 47 39.57
47 58.04
20 94 31.3
35 90X)
9 32826
9.8929
346
4.92
300
1 26.7
300
27
15 52 46.80
53 5.59
20 52 59.6
54 6.2
9.32996
9.8797
347
4.92, 301
1 27.9
301
28
15 57 55.23
58 14;i5
21 10 53.8
11 59.2
9J3167
9.8657
346
4.93
302
1 29.1
302 ,
29
16 8 4.86
3 24.32
21 28 13.0
29 17.1
9A3334
9.8510
3.43
4.94
303
1 303
303
30
16 8 15.66
8 95.47
21 44 56.6
45 59J3
9.33493
9.8355
942
4.95
304
1 31.6
904
31
16 13 27..W
13 47.74
22 1 4.0
t 5.1
9A1650
9.8190
342
4.96 305
1 32.8
305
32
16 18 40.63
19 1.12
-22 16 34.4
17 34.0
f 9.33800
-9.8019
4341
4 4.96' 306
1 34.1 306^I|
Wwm — Tha TiMilU ywiih tht Koom oypoitti wMah th^y wn glwa untU JiOy 14as IneUMtv^
VENUS, 1856.
343
FOR WASHINGTON MEAN NOON AND MERIDIAN TRANSIT. |
Dftyof
Appuoift
Log. fkctor f .
Log. Factor H.
Man Solar
Time of BI*.
8ld«-
rad
Date
of
Two-
lit
Month.
At
MeuiNoon.
h. m. ■.
At
Tnoslt
At
MeuiNoon.
At
Trunit.
In B.A.
In Dm.
InR.A.
In Dm.
rkUu Tnuuit.
d.
m. f.
O 1 u
1 M
d.
h. m.
d.
NOT.l
16 18 40.63
19 U2
-22 16 34.4
17 34.0
4-9.33800
-9.8019
+3.41
+4.96
306
1 34.1
306
S
16 23 54.74
24 15.59
22 31 27.2
32 25.1
9.33948
9.7831
339
4.97
307
1 35.5
307
3
16 29 9.90
29 31.12
22 45 41.7
46 37.8
9.34090
9.7635
337
4.98
308
1 363
308
4
16 34 26.07
84 47.65
22 59 17.4
60 11.6
9.34226
9.7428
336
4.98
309
1 38.1
309
5
16 39 43.21
40 5.14
23 12 13.8
13 6.9
9.34356
9.7205
833
4.99
310
1 39.4
310
6
16 45 1.28
45 23.56
-93 24 30.1
26 20.1
9.34479
9.6967
332
4.99
311
1 40.7
311
7
16 50 20.23
50 42.88
23 36 5.9
36 53.7
9.34598
9.6712
8.29
530
312
1 42.1
312
8
16 55 40.03
56 3.05
23 47 0.7
47 46.2
9.34709
9.6488
3.26
6.00
313
1 43.5
313
9
17 1 0.62
I 24.01
23 67 18.9
67 56.9
9.34813
9.6143
8.22
6.01
314
1 44.9
314
10
17 6 21.95
6 45.70
24 6 45.0
7 25.5
9.34909
9.5822
8.21
6.01
315
1 463
315
n
17 11 43.97
12 8.08
24 15 33.8
16 11.7
9.34999
9.5472
8.17
6.02
316
1 47.7
316
12
17 17 6.63
17 31.11
24 23 39.8
24 14.9
9.35083
9.5086
8.09
6.02
317
1 49.2
317
13
17 22 29.88
22 54.73
24 31 2.5
31 34.7
9.35157
9.4660
3.05
5.02
318
1 603
318
14
17 27 53.64
28 18.86
24 37 41.7
38 10.9
9.35221
9.4185
2.98
6.03
319
1 52.1
319
15
i7 33 17.85
33 43.43
24 43 37.2
44 3.3
935279
93648
2.95
bJ03
320
1 633
320
' 16
17 38 42.47
39 8.41
24 48 48.5
49 11.5
9.35329
930S8
236
6.03
321
1 65.0
321
17
17 44 7.44
44 33.76
24 53 15.3
53 35.0
9.35374
9.2300
2.76
5.03
322
1 563
322
18
17 49 32.71
49 59.40
24 56 57.5
67 13.7
9.35408
9.1427
233
6.03
323
1 68.1
323
19
17 54 58.20
55 25.24
24 59 55.0
60 7.6
9.35432
9.0318
+2.29
6.04
324
1 59.6
324
20
18 0 23.83
0 51.20
25 2 7.5
2 16.5
9.35446
8.8846
-136
6.03
325
2 1.0
325
21
18 5 49.53
6 17.22
25 3 34.9
3 40.2
935450
8.6609
1.98
6.03
326
2 2.4
326
22
18 11 15.24
11 43.25
25 4 17.1
4 18.7
935448
-8.1372
2.46
6.04
327
2 3.9
327
23
18 16 40.90
17 9.24
25 4 14.2
4 11.8
935436
+8.2499
2.64
6.04
328
2 5.4
328
24
18 22 6.43
22 35.11
25 3 26.0
3 19.6
935414
8.6920
2.76
5.04
329
2 6.9
329
25
18 27 31.76
28 0.76
25 1 52.6
1 42.1
935384
8.9059
2.89
5.04
330
2 8.4
830
26
18 32 56.83
33 26.12
24 59 34.1
59 19.4
935343
9.0487
2.99
6.04
331
2 93
331
27
18 38 21.55
38 51.14
24 56 30.5
56 11.5
935291
9.1558
3.06
5.03
332
2 113
332
28
18 43 45.85
44 15.74
24 52 41.9
52 18.6
935231
9.2418
3.10
6.03
333
2 123
333
29
18 49 9.67
49 39.84
24 48 8.4
47 40.7
935161
93128
8.16
5.03
334
2 14.2
334
30
18 54 32.93
55 3.38
24 42 50.4
42 18.2
935083
93734
8.22
6.03
336
2 153
335
Dec. 1
18 59 55.57
0 26.28
24 36 48.2
36 11.4
934993
9.4263
3.26
6.03
336
2 17.2
336
2
19 5 17.51
5 48.47
24 30 2.0
29 20.5
934893
9.4733
3.30
5.02
337
2 18.7
.337
3
19 10 38.68
11 9.89
24 22 32.0
21 45.9
934785
9.5154
332
5.02
338
2 20.1
338
4
19 15 59.02
16 30.46
24 14 18.6
13 27.8
934669
9.5535
335
5.01
339
2 21.4
339
5
19 21 18.48
21 50.11
24 5 22.1
4 26.6
934543
9.5882
337
5.00
340
2 22.7
340
6
19 26 36.99
27 8.81
23 55 43.1
54 42.8
934411
9.6200
3.40
5.00
341
2 24.1
341
7
19 31 54.50
32 26.51
23 45 22.0
44 16.9
934270
9.6493
3.42
5.00
342
2 25.4
342
8
19 37 10.95
37 43.15
23 34 19.2
33 9.3
934121
9.6764
8.44
4.99
343
2 263
343
9
19 42 26.29
42 58.66
23 22 35.2
21 20.5
933963
9.7016
3.46
4.99
344
2 28.1
344
10
19 47 40.46
48 12.99
23 10 10.5
8 50.9
933800
9.7253
3.47
4.98
345
2 294
345
11
19 52 53.43
53 26.10
22 57 6.6
55 41.1
933631
9.7474
3.48
4.97
346
2 30.6
346
12
19 58 5.16
58 37.97
22 43 21.1
41 51.8
933456
9.7681
330
4.97
347
2 31.9
347
13
20 3 15.61
3 48.55
22 28 57.7
27 23.6
933274
9.7876
331
4.96
348
2 33.1
348
14
20 8 24.75
8 57.80
22 13 55.9
12 17.0
933087
9.8058
3.48
4.96
349
2 343
349
15
20 13 32.54
14 5.70
21 58 16.4
66 32.6
932894
9.8232
3.53
4.95
350
2 353
350
16
20 18 38.95
19 12.21
21 41 59.6
40 11.0
932696
9.8397
834
4.94
351
2 36.7
351
17
20 23 43.95
24 17.29
21 25 6.1
23 12.8
932493
9.8562
834
4.93
352
2 373
352
18
20 28 47.51
29 20.92
21 7 36.8
5 38.9
932287
9.8697
835
4.92
353
2 38.9
3.'^
19
20 33 49.63
34 23.10
20 49 32.5
47 29.9
932077
9.8837
3.55
4.91
354
2 40.0
354
20
20 38 50.27
39 23.81
20 30 53.9
28 46.6
931863
9.8970
836
4.90
355
2 41.1
355
21
20 43 49.43
44 23.01
20 11 41.4
9 29.5
931645
9.9097
336
4.89
356
2 42.1
356
22
20 48 47.08
49 20.70
19 51 55.7
49 39.3
931424
9.9216
336
4.88
357
2 43.1
357
23
20 53 43.21
54 16.86
19 31 37.6
29 16.8
931201
9.9330
336
4.87
358
2 44.1
358
24
20 58 37.81
59 11.49
19 10 48.0
8 22.7
930973
9.9439
338
4.86
359
2 45.1
359
25
21 3 30.86
4 4.56
18 49 27.6
46 57.9
930743
9.9542
337
4.85
360
2 46.1
360
26
21 8 22.36
8 56.06
18 27 37.1
25 3.2
930512
9.9640
3.58
4.84
361
2 47.0
361
27
21 13 12.31
13 45.99
18 5 17.3
2 89.3
930279
9.9734
8.58
4.83
362
2 473
362
28
21 18 0.70
18 34.37
17 42 28.9
39 46.8
930044
9.9824
838
431
363
2 48.7
363
29
21 22 47.52
23 21.18
17 19 12.8
16 26.6
9.29806
9.9908
837
4.80
364
2 493
364
30
21 27 32.75
28 6.40
16 55 29.9
52 39.7
9.29562
9.9989
837
4.78
365
2 60.4
365
31
21 32 16.36
32 50.02
-16 31 20.9
28 29.2
+9.29320
+0.0068
-n337
+4.77
366
2 51.2
366
Non —The Tnuttt prroede the Noon oppodte whleh thej u« gtren nntU Jolj Uth, tneloilte.
344
MARS, 1856.
FOR WASHINGTON SIDEREAL NOON
AND
MERIDIAN TRANSIT. j]
Meu Solar Tim*
of
Side,
rati
Bi^tJiSmAm,
Apparenft DeeUmtkm.
Loff.GoeiBdeDtoft
In aUerad BOnotM.
Los.OodkkBft
MttidUii Tnnait
Date.
▲ft
▲t
Txmnalt.
At
SSdanMlOh.
At
Tisnsit.
InR-A.
In Dm.
InB.A.
i»p».|
d.
h. m.
h. m. t.
m. •.
O f II
1 «
1
Jan. 0
17 53.0
0
12 33 23.78
34 13.14
- 1 7 41.5
12 31.5
-•-8.81698
-93867
-339
+4.28 1
1
17 50.6
1
12 84 67.76
35 46.62
1 16 53.7
21 40.6
8.81213
93809
339
4.28'
2
17 48.3
2
12 36 30.63
37 19.05
1 25 58.7
30 42.4
8.80717
9.5751
836
4.27
3
17 45.9
3
12 38 2^9
38 50.42
1 34 56.5
39 36.9
8.80249
93692
337
4.23
4
17 43.5
4
12 39 33.38
40 21.05
1 43 47.0
48 24.2
8.79814
93634
338
4.24
5 17 41.1
5
12 41 3.44
41 50.72
1 52 30.4
57 4.4
• 8.79396
93575
838
4.24
6
17 38.6
6
12 42 32.54
43 19.38
2 1 6.6
5 37.2
8.78910
93514
339
4.25
7 17 36.1
7
12 44 0.63
44 47X)1
2 9 35.4
14 2.7
8.78393
9.5452
340
436
8 17 33.6
8
12 45 27.70
46 13.57
2 17 56.9
22 20.9
8.77871
9.5388
341
438 ;
9
17 31.1
9
12 46 53.67
47 39.04
2 26 11.0
30 31.1
8.77316
9.5319
342
439
10
17 28.6
10
12 48 18.54
49 3.41
2 34 17.0
38 33.2
8.76755
93244
343
431
11
17 26.0
11
12 49 4230
50 26.65
2 42 14.7
46 26.8
8.76171
93168
3.44
432
12
17 23.4
12
12 51 4.92
51 48.72
2 50 3.9
54 11.8
8.75558
93088
345
432
13
17 20.8
13
12 52 26.36
53 9Ji9
2 57 44.5
61 48.1
8.74919
93006
346
433
14
17 18.2
14
12 53 46.59
54 29.25
3 5 16.3
9 15.7
8.74266
9.4923
347
433
15
17 15.6
15
12 55 5.60
55 47.67
3 12 39.4
16 34.5
8.73592
9.4838
848
434
16
17 13.0
16
12 56 23.38
57 4.82
3 19 53.7
23 44.1
8.72884
9.4746
349
434
17
17 10.3
17
12 .57 39.87
58 20.68
3 26 58.8
30 44.6
8.72154
9.4653
330
434
18
17 7.6
18
12 58 55.07
69 35.25
3 33 54.7
37 35.7
8.71407
94555
331
435
19
17 4.9
19
13 0 8.97
0 48.50
3 40 41.2
44 174
8.70637
9.4456
332
436
20
17 2.2
20
13 1 21.54
2 0.37
3 47 18.3
50 50.0
8.69813
9.4356
833
436
21
16 59.4
21
13 2 32.72
3 10.84
3 53 46.2
57 13.3
8.68961
94252
334
436
22
16 56.6
22
13 3 42.49
4 19.88
4 0 4.7
3 26.8
8.68079
94141
335
437
23
16 53.8
23
13 4 50.82
5 27.48
4 6 13.4
9 30.4
8.67167
94025
336
438
24
16 51.0
24
13 5 57.70
6 83.60
4 12 12.2
15 24X)
8.66202
93905
3.57
439
25
16 48.1
25
13 7 3.09
7 38.19
4 18 1.0
21 7.5
8.65208
93778
838
440
26
16 45.2
26
13 8 6.95
8 41JU
4 23 39.6
26 40.6
8.64164
93647
339
441
27
16 42.3
27
13 9 9.25
9 42.71
4 29 7.8
32 3.3
8.63058
93505
3.60
4.42!
28
16 39.3
28
13 10 9.95
10 42.51
4 34 25.5
37 15.0
8.61874
93359
3.61
442 '
29
16 36.3
29
13 11 8.96
11 40.59
4 39 32.1
42 15.6
8.60603
93204
3.62
4.43
80 16 33.3
30
13 12 6.22
12 36.92
4 44 27.6
47 5.1
8.59287
93039
3.63
443
•81
16 30.3
31
13 13 1.71
13 31.45
4 49 11.8
51 43.5
8.57890
9.2868
8.64
444
Feb. 1
16 27.3
32
13 13 65.40
14 24.15
4 53 44.7
66 10.0
8..56414
9.2681
3.65
445
2
16 24.2
33
13 14 47.23
15 14.95
4 58 15.7
60 24.5
834827
9.2481
3.66
446 '
3
16 21.1
34
13 15 37.12
16 3.79
5 2 14.6
4 26.9
8.53126
9.2271
3.67
4.46
4
16 18.0
35
13 16 25.06
16 50.65
5 6 11.4
8 17.3
831337
9.2061
3.68
447
5
16 14.8
36
13 17 11.03
17 35.54
5 9 56.2
11 55.8
8.49442
9.1810
8.69
448 1
6
16 11.6
37
13 17 54.98
18 18.40
5 13 28.5
15 20.8
8.47441
9.1555
3.70
448
7
16 8.3
38
13 18 36.88
18 59.17
5 16 48.3
18 33.7
8.45280
9.1284
3.71
448
8
16 5.0
39
13 19 16.68
19 37.81
5 19 55.5
21 33.8
8.42972
9.0983
3.71
4.49!
9
16 1.7
40
13 19 64J)3
20 14.29
5 22 49.8
24 21.1
8.40475
9.0667
3.72
4.49
10
15 58.4
41
13 20 29.80
20 48.58
5 25 31.3
26 55.6
837813
9.0319
3.73
4.49 j
11
15 55.0
42
13 21 3.08
21 20.62
5 27 59.9
29 17.1
834884
8.9942
3.74
430 1
12
15 51.5
43
13 21 34.10
21 50.38
5 30 15.5
31 253
831698
8.9517
3.75
430 '
13
15 48.0
44
13 22 2.83
22 17.81
5 32 17.8
33 20J2
8.28198
8.9041
8.75
431
14
15 44.5
45
13 22 29.21
22 42.88
5 34 6.6
35 1.6
8.24322
8.8507
3.76
431
15
15 41.0
46
13 22 53.22
23 5.57
5 35 42.1
36 293
8.20009
8.7883
3.77
432
16
15 37.4
47
13 23 14.83
23 25.83
5 37 8.8
37 43.4
8.15113
8.7149
3.78
433
17
15 33.7
48
13 23 33.99
23 43.60
5 38 11.8
38 43.6
8.09450
8.6257
3.78
433
18
15 30.0
49
13 23 50.65
23 58.83
5 39 5.8
39 29.7
8.02824
83106
3.79
434
19
15 26.3
50
13 24 4.75
24 11.50
5 39 45.6
40 1.7
7.94901
83649
3.79
434
20
15 22.6
51
13 24 16J7
24 21.59
6 40 11.2
40 193
7.86116
8.1052
330
435
21
15 18.8
52
13 24 25.20
24 29.05
5 40 22.4
40 223
7.72125
-73845
S.81
4.65
22
15 14.9
53
13 24 31.48
24 33.80
5 40 18.8
40 103
7.53152
+7.9011
331
435 ,
23
15 11.0
54
18 24 35.03
24 35.80
5 40 0.2
39 43.6
•)-7.17489
83587
332
436
24
15 7.1
55
13 24 35.82
24 36.03
6 39 26.9
39 1.9
-6.63283
8.4564
332
436 ;
25
15 3.1
56
13 24 33.82
24 3149
6 38 88.6
38 5.1
737064
83917
3.83
436,
26
14 59.1
67
13 24 29X)3
24 25.15
5 37 35.1
36 53.1
7.63283
8.6953
3.83
436'
27
14 55X)
56
13 24 21.43
24 15.93
6 36 16.4
35 25.9
7.79853
8.7789
3.84
436
28
14 50.8
59
13 24 10.94
24 3.80
6 34 42.5
33 43.4
7.91962
8.8499
334
436
29
14 46.6
60
13 23 57.52
23 48.76
5 32 53.2
31 45.7
8.01392
8.9101
3.85
' 436'
30
U_42.4_
61
13 23 41.18
23 30.80
- 5 30 48.7
29 32.8
-8.09208
+8.96^9
-3.S5
' +436 :
MARS, 1856.
345
FOR WASHINGTON SmEREAL NOON
AND
MERIDIAN TRANSIT. |
Bight Ajranaimi.
Log. Coefflclentoff
in Sidereal Minutes.
Log. Coeffldent
MeuiBokrliiiM
of
Side-
nid
MeridteaTiUMit.
Date.
At
At
Tniult
At
BidmmlOh.
At
Tnuult.
InB.A.
In Deo.
InB.A.
In Dee.
h. m.
h. m. s.
m. s.
O 1 II
1 h
Mftr. i
14 42.4
61
13 23 41.18
23 30.80
- 5 SO 48.7
29 32.8
-8.09208
+8.9629
-3.85
+4.56
14 38.2
62
13 23 21.91
23 9.88
5 28 29.0
27 4.7
8.15871
9.0101
3.85
4.56
14 33.9
63
13 22 59.68
22 46.01
5 25 54.2
24 21.4
8.21629
9.0523
3.85
4.56
14 29.5
64
13 22 34.50
22 19.19
5 23 4.1
21 22.7
8.26728
9.0918
3.85
4.55
14 25.1
65
13 22 6.37
21 49.42
5 19 58.6
18 a.7
8.31290
9.1273
3.85
4.55
14 20.6
66
13 21 35.28
21 16.69
5 16 37.9
14 39.7
8.35432
9.1597
3.85
4.55
14 16.0
67
la 21 1.23
13 20 24.23
20 41.00
5 13 2.2
10 53.9
8.39213
9.1897
3.85
4.54
14 11.4
68
20 2.40
5 9 11.8
6 57.4
8.42646
9.2175
3.84
4.53
14 6.7
69
13 19 44.33
19 20.92
5 5 6.8
2 44.6
8.45765
9.2432
3.84
4.53
10
14 2.0
70
13 19 1.58
18 36.63
4 60 47.6
58 17.8
8.48675
9.2668
3.83
4.52
13 57.3
71
13 18 15.99
17 49.53
4 56 14.4
53 37.2
8.51346
9.2885
3.83
4.51
13 52.6
72
13 17 27.62
16 59.64
4 51 27.6
48 43.4
8.53863
9.3088
3.82
4.50
13 47.8
73
13 16 36.48
16 7.03
4 46 27.7
43 36.4
8.56184
9.3280
3.81
448
13 43.0
74
13 15 42.64
15 11.75
4 41 14.8
38 16.8
8.58348
9.3456
8.80
447
13 38.1
75
13 14 46.14
14 13.87
4 35 49.5
32 44.9
8.60349
9.3619
3.79
446
13 33.1
76
13 13 47.06
13 13.44
4 30 12.1
27 1.1
8.62234
9.3773
3.78
4.44
13 28.1
77
13 12 45.46
12 10.53
4 24 22.9
21 6.0
8.63985
9.3916
8.76
441
13 23.1
78
13 11 41.42
11 5.23
4 18 22.6
14 59.9
8.65608
9.4050
3.75
4.38
13 18.0
79
13 10 35.03
9 57.63
4 12 11.5
8 43.4
8.67116
9.4173
3.73
4.35
20
13 12.9
80
13 9 26.38
8 47.87
4 5 50.2
2 17.3
8.68504
9.4286
3.71
4.32
21
13 7.8
81
13 8 15.60
7 36.02
3 59 19.4
55 42.1
8.69789
9.4388
3.69
4.29
22
13 2.7
82
13 7 2.77
6 22.15
3 52 39.8
48 58.5
8.70994
9.4479
3.66
4.26
23
12 57.5
83
13 5 47.96
5 6.37
3 45 52.2
42 7.3
8.72108
9.4559
3.63
4.23
24
12 52.3
84
13 4 31.28
3 48.80
3 38 57.4
35 8.8
8.73142
9.4638
3.60
4.19
25
12 47.1
85
13 3 12.85
2 29.53
3 31 55.6
28 3.7
8.74081
9.4704
3.56
4.10
26
12 41.8
86
13 1 52.77
1 8.72
3 24 47.6
20 53.6
8.74914
9.4756
3.53
4.01
27
12 36.5
87
12 60 31.21
59 46.50
3 17 35.0
13 39.2
8.75674
9.4800
348
3.97
28
12 31.2
88
12 59 8.31
58 23.00
3 10 18.4
6 20.9
8.76348
9.4840
343
3.86
29
12 25.9
89
12 57 44.20
56 58.37
2 62 58.2
58 59.5
8.76940
9.4869
3.38
3.68
30
12 20.5
90
12 56 19.03
55 32.82
2 55 35.3
51 36.2
8.77420
9.4889
3i>9
+3.38
31
12 15.1
91
12 54 53.00
54 6.48
2 48 10.8
44 11.9
8.77826
9.4898
8.17
-2.86
Apr. 1
12 9.7
92
12 53 26.25
52 39.48
2 40 45.7
36 47.5
8.78145
9.4898
3.01
3.38
2
12 4.3
93
12 51 58.94
51 12.03
2 33 21.1
29 23.8
8.78374
9.4891
2.80
3.61
3
11 58.9
94
12 50 31.25
49 44.29
2 25 57.7
22 1.7
8.78522
9.4876
-2.38
8.78
4
11 53.5
95
12 49 3.35
48 16.44
2 18 36.4
14 42.0
8.78581
9.4852
+2.38
3.99
5
11 48.2
96
12 47 3541
46 48.64
2 11 18.0
7 26.5
8.78551
94812
2.76
4.11
6
11 42.8
97
12 46 7.61
45 21.04
2 4 4.2
0 16.3
8.78453
9.4758
3.04
4.20
7
11 37.4
98
12 44 40.09
43 53.87
1 56 56.2
53 12.5
8.78240
94692
3.18
4.23
8
11 32.0
99
12 43 13.08
42 27.30
1 49 55.1
46 15.4
8.77946
94620
3.27
4.27
9
11 26.6
100
12 41 46.75
41 1.47
1 43 1.3
39 25.9
8.77575
94540
3.34
4.31
10 U 21^
101
12 40 21.24
39 36.52
1 36 15.6
32 43.1
8.77129
9.4450
3.38
4.37
11
11 16.0
102
12 38 56.68
38 12.61
1 29 38.9
26 13.9
8.76591
94345
346
441
12
11 10.7
103
12 37 33J24
36 49.88
1 23 12.2
19 53.1
8.75978
94227
3.54
4.44
13
11 5.4
104
12 36 11.06
35 28.55
1 16 56.3
13 43.3
8.75229
9.4098
3.57
447
14
11 0.1
105
12 34 50.36
34 8.74
1 10 51.9
7 45.9
8.74418
9.3951
3.60
4.50
15 10 54.9
106
12 33 31.25
32 50.55
1 5 0.1
2 11.7
8.73525
9.3792
3.63
4.51
16
10 49.7
107
12 32 13.82
31 34.10
0 59 21.8
56 40.9
8.72552
9.3619
3.65
4.52
17
10 44JS
108
12 30 58.18
30 19.49
0 53 57.2
51 23.6
8.71498
9.3438
3.67
4.54
18
10 39.4
109
12 29 44.43
29 6.82
0 48 46.4
46 20.3
8.70346
9.3244
3.70
4.55
19
10 34.3
no
12 28 32.68
27 56.22
0 43 49.7
41 21.4
8.69096
9.3028
3.72
4.57
20
10 29.2
111
12 27 23.05
26 47.78
0 39 8.0
36 47.8
8.67746
9.2793
3.74
4.58
21
10 24.2
112
12 26 15.63
25 41.62
0 34 41.8
32 30.5
8.66274
9.2527
3.76
4.60
22
10 19.2
113
12 25 10.54
24 37.85
0 30 32.1
28 29.4
8.64669
9.2244
3.77
4.61
23
10 14.2
114
12 24 7.89
23 36.54
0 26 38.8
24 45.0
8.62960
9.1936
3.78
4.61
24
10 9.3
115
12 23 7.75
22 37.75
0 23 2.4
21 17.5
8.61137
9.1599
3.79
4.62
25
10 4.4
116
12 22 10.18
21 41.51
0 19 43.0
18 6.9
8.59210
9.1230
3.80
4.62
26
9 59.6
117
12 21 15.18
20 47.89
0 16 40.7
15 13.6
8.57146
9.1817
3.81
4.63
27
9 54.8
118
12 20 22.83
19 56.96
0 13 55.8
12 37.8
8.54903
9.0355
3.82
4.64
28
9 50.1
119
12 19 33.20
19 8.79
0 11 28.5
10 19.6
8.52493
8.9831
3.83
4.64
29
9 45.4
120
12 18 46.35
18 23.41
0 9 18.9
8 19.4
8.49883
8.9228
3.83
4.65
30
9 40.8
121
12 18 2.32
17 40.89
0 7 27.4
6 37.4
8.47077
8.8516
3.84
4.65
31
9 36.2
122
12 17 21.16
17 1.23
-05 54.2
5 13.8
-8.44054
+8.7647
+3.84
-4.65 f
44
346
MAICS, 1856«
FOR WASHINGTON SIDEREAL NOON
AND
^fERIDIAN TRANSIT. ||
MeuiBokrTliiM
of
real
Blght^A^
mt
uidoa.
ApjMWit Ducllnattnm
in SidmJ MinntM.
Log. Cnrfiriit i
oc. il
1
Ibridlaa Tmnait
Dikto.
At
BldwwlOh.
AI
Timiiait.
At
fOiumXOh.
At
Tnofltt.
InlLA.
In Dm.
InB.A.
In Dm. i
d. h. m.
h. m. s.
m. s.
O 1 H
1 N
i
Uaj I 9 36^
122
12 17 21.16
17 1.23
-05 54.2
5 13.8
-8.44054
+8.7647
+3.84
-4jk'
2 9 31.6
123
12 16 42.88
16 24.45
0 4 39.5
4 8.6
8.40770
8.6573
3J5
4.65 !
3 9 27.1
124
12 16 7.50
15 50.58
0 3 43 J)
3 22.0
8.37192
8.6116
3J«
4.64
4 9 22.7
125
12 15 35.05
15 19.68
0 3 5.7
2 53.8
8.33222
8.2922
3.86
4.64
5 9 18.4
126
12 15 5.54
14 51.61
0 2 46.6
2 43.7
8.28961
+7.8490
3.86
4.64
6 9 U.l
127
12 14 38.98
14 26.57
0 2 45.6
2 51.7
8.24063
-7.7435
3.86
4.64
7 9 9.8
128
12 14 15.40
14 4.55
0 3 2.6
8 18.0
8.18464
8.2636
3J6
4.64
8 9 5.6
129
12 13 54.84
13 45.55
0 8 37.9
4 2.7
8.12079
8.4926
3.85
4.63
9 9 1.4
130
12 13 37.30
13 29.50
0 4 31.5
5 5.5
8.04727
8.6404
3.85
4.63 i
10 8 57.2
131
12 13 22.71
13 16J»
0 5 43.1
6 26.2
7.9.5970
8.7489
3.85
4.63 1
11 8 53.1
132
12 13 11.04
13 6.20
O 7 12.4
8 4.5
7.84947
8.8343
3.84
4.62 ;
12 8 49.1
133
12 13 2.29
12 58.94
0 8 59.2
10 0.3
7.70317
8.9052
3.84
4.61
13 8 45.1
134
12 12 56.44
12 54.55
0 11 3.4
12 13.1
7.48488
8.9649
3.83
4.61 1
14 8 41.1
135
12 12 53.45
12 52.99
0 13 24.5
14 42.9
-7.03910
9X)168
383
430 1
15 8 37.1
136
12 12 53.27
12 54.25
O 16 2.5
17 29.3
+6.93386
9J0623
3J2
439
16 8 33.2
137
12 12 55.89
12 58.28
0 18 56.9
20 32.1
7.44467
9.1031
3.82
438
17 8 29.3
138
12 13 1.26
13 5.06
0 22 7.6
23 50.9
7.67039
9.1397
3.81
437 1
18 8 25.5
139
12 13 9.36
13 14.53
0 25 34.2
27 25.5
7.81679
9.1730
3Jl
437
19 8 21.8
140
12 13 20.14
13 26.65
0 29 16.5
31 15.6
7.92394
9.2031
8J0
436 ,
20 8 18.2
141
12 13 33.55
13 41.39
0 38 14.1
35 21.0
8.00923
9.2310
3.80
435'
• 21 8 14.6
142
12 13 49.56
13 58.74
0 37 26.8
39 41.4
8.07999
9.2567
3.79
434
22 8 11.0
143
12 14 8.16
14 18.65
0 41 54.4
44 16.6
8.13995
9.2808
3.79
434 ,
23 8 7.4
144
12 14 29.30
14 41.06
0 46 36.7
49 6.3
8.19166
9.3030
3.78
433 1
24 8 3.9
145
12 14 52.93
15 5.96
0 51 33;)
54 10.2
8.23751
9.3238
3.78
433
25 8 0.4
146
12 15 19.03
15 33.28
0 56 44.0
59 28.1
8.27787
9.3435
3.77
432,
26 7 57.0
147
12 15 47.53
16 3.00
1 2 8.6
4 59.8
8.31436
9.3619
3.76
431
27 7 53.6
148
12 16 18.40
16 35.10
I 7 46.8
10 45.2
8.34776
9.3795
3.75
430 :
28 7 50.2
149
12 16 51.64
17 9.56
1 13 38.6
16 43.9
8.37838
9.8959
3.75
430 1
29 7 46.9
150
12 17 27.21
17 46.31
1 19 43.6
22 55.6
8.40629
9.4114
3.74
4.49
30 7 43.6
151
12 18 5.05
18 25.32
1 26 1.5
29 20.2
8.43217
9.4263
3.73
448
ai 7 40.4
152
12 18 46.14
19 6J^8
1 32 32.2
35 57.4
8.45660
94403
3.72
447
June 1 7 37.2
153
12 19 27.46
19 50.08
1 39 15J)
42 47.2
8.47953
9.4537
3.71
446
2 7 34.0
154
12 20 12.00
20 85.77
1 46 10.8
49 49.3
8.50093
9.4664
3.71
446 1
3 7 80.9
155
12 20 58.71
21 23.60
1 53 18.4
57 3.4
8.52076
9.4786
3.70
445
4 7 27.8
156
12 21 47.53
22 13.51
2 0 37.9
4 29.1
8.53932
94901
3.69
4.44
5 7 24.7
157
12 22 38.42
23 548
2 8 8.9
12 6.4
8.55686
9.5014
3.68
4.43
« 7 21.7
158
12 23 31.35
23 59.48
2 15 51.4
19 54.7
8.57340
9.6118
3.67
442 1
7 7 18.7
159
12 24 26.28
24 55.47
2 23 44.8
27 53.9
8.58917
9.5217
3.67
441 !
8 7 15.7
160
12 25 23.18
25 53.39
2 31 49X)
36 3.9
8.60394
9.5314
3.66
440 '
9 7 12.7
161
12 26 21.99
26 53.23
2 40 3.8
44 24.4
8.61806
93406
3.65
439
10 7 9.8
162
12 27 22.69
27 54.93
2 48 28.9
52 55.1
8.63150
9.5493
3.64
438
11 7 6.9
163
12 28 25.23
28 58.47
2 57 4.1
61 36.0
8.64417
9.5578
3.63
437 ;
12 7 4.0
164
12 29 29.59
30 3.79
3 5 49J)
10 26.3
8.65635
9.5659
3.63
435'
13 7 1.2
165
12 80 35.70
31 10.86
8 14 43.7
19 25.9
8.66774
9.5734
3.62
434
14 6 58.4
166
12 31 43.54
32 19.67
3 23 47.2
28 34.5
8.67872
9.5806
3.61
433
15 6 55.7
167
12 32 53.11
33 30.17
8 32 59.6
87 52.2
8.68937
9.5875
3.60
432
16 6 53.0
168
12 34 4.35
34 42.33
3 42 20.9
47 18.3
8.69946
9.5942
3.59
431
17 6 50.3
169
12 85 17.23
85 56.11
3 51 20.5
56 52.8
8.70908
9.6005
3.59
4J9
18 6 47.6
170
12 36 31.71
87 11.51
4 I 28.4
6 35.5
8.71833
9.6067
3.58
4.29
19 6 45.0
171
12 37 47.79
38 28.47
4 11 14.4
16 26J
8.72727
9.6125
337
4.27
20 6 42.4
172
12 39 5.42
39 46.96
4 21 8.3
26 24.7
8.73592
9.6183
336
4.26;
21 6 39.8
173
12 40 24^6
41 6.97
4 31 9.9
36 30.8
8.74413
9.6237
336
4J5 1
22 6 37.2
174
12 41 45.20
42 28.49
4 41 18.9
46 44.2
8.75213
9.6289
335
4.93 1
23 6 34.6
175
12 48 7J)3
43 51.48
4 51 35.1
57 4.7
8.75994
9.6338
335
432'
24 6 32.0
176
12 44 30.91
45 15.92
5 1 58.3
7 32.3
8.76745
9.6386
334
431
25 6 29.5
177
12 45 55.94
46 41.78
5 12 28.5
18 6.7
8.77484
9.6434
333
430
26 6 27.0
178
12 47 22.40
48 9.07
5 23 5.4
98 47.8
8.78190
9.6479
333
4.18
27 6 24.5
179
12 48 50.26
49 37.78
5 33 48.9
39 35.5
8.78880
9.6522
332
4.17
28 6 22.1
180
12 50 19.52
61 7.88
5 44 38.9
50 29.5
8.79555
9.6565
332
4.15
29 6 19.7
181
12 51 50.16
62 39.33
5 55 35.0
61 29.4
8.80215
9.6605
331
4.14
30 6 17.3
182
12 53 22.14
54 12.13
6 6 37.0
12 35.2
8.80851
9.6645
330
4.1s
31 6 15.0
183
12 54 55.45
55 46.27
- 6 17 44.8
23 46.7
+8.81470
-9.6683
+330
-lill 1
MARS, 1856.
347
FOR WASHINGTON SIDEREAL NOON
AND MERIDIAN TRANSIT. |
MMnSokrTlme
of
Side-
Right A806iul(m.
Appax«at Declination.
Log. OoefllcientofI
in SidenaX Minutes.
Log. Coeffldoxt 1
ofrt. 1
Ii0ridian TiMMit.
Date.
At
SidOMlOh.
At
Transit
At
BidBnalOh.
At
Transit.
InlLA.
In Deo.
InB.A.
In Dee.
d h m.
h. m. s.
m. ■
O l_ II
- 6 17 44.8
1 N
July 1 6. 15.0
183
12 54 55.45
55 46.27
23 46.7
+8.81470
-9.6683
+3.50
-4.11
2 6 12.7
184
12 56 30.09
57 21.73
6 28 58.2
35 3.8
8.82073
9.6719
3.49
4.09
3 6 10.3
185
12 58 6.04
58 58.50
6 40 17.1
46 263
8.82661
9.6753
3.49
4.08
4 6 8.0
186
12 59 43.29
0 36.55
6 51 41.4
57 54.4
8.83233
9.6784
3.48
4.06
5 6 5.7
187
13 1 21.81
2 15.87
7 3 10.8
9 27.3
8.83790
9.6814
3.47
4.04
6 6 3.5
188
13 3 1.59
3 5643
7 14 45.1
21 5.1
8.84332
9.6845
3.47
4.02
7 6 1.3
189
13 4 42.60
5 38.22
7 26 24.2
32 47.6
8.84859
9.6874
8.46
4.01
8 5 59.1
190
13 6 24.83
7 21.21
7 38 7.9
44 343
8.85371
9.6902
3.46
8.99
9 5 56.9
191
13 8 8.24
9 5.38
7 49 55.9
56 25.6
8.85868
9.6929
3.45
3.97
10 5 54.7
192
13 9 52.81
10 50.70
8 1 48.1
8 20.8
8.86351
9.6955
3.44
3.95
U 5 52.5
193
13 11 38.51
12 37.16
8 13 44.2
20 20.0
8.86820
9.6979
3.44
3.93
12 5 50.4
194
13 13 25.34
14 24.75
8 25 44.2
32 23.1
8.87275
9.7002
3.43
3.91
13 5 48.3
195
13 15 13.28
16 13.44
8 87 48.0
44 29.7
8.87716
9.7023
3.43
3.89
U 5 46.2
196
13 17 2.33
18 3.22
8 49 55.2
56 39.9
8.88144
9.7042
3.42
3.86
15 5 44.1
197
13 18 52.46
19 54.09
9 2 5.8
8 53.3
8.88567
9.7059
3.42
3.80
16 & 42.0
198
13 20 43.67
21 46.05
9 14 19.5
21 9.2
8.88985
9.7075
3.41
3.74
17 5 39.9
199
13 22 35.96
23 39.09
9 26 35.6
33 27.4
8.89398
9.7090
3.41
3.68
18 5 37.9
200
13 24 29.32
25 33.18
9 38 53.9
45 47.6
8.89806
9.7104
3.40
336
19 5 35.9
201
13 26 23.73
27 28.32
9 51 14.1
58 9.6
8.90208
9.7116
3.40
3.64
20 5 33.9
202
13 28 19.18
29 2431
10 3 36.0
10 33.4
8.90602
9.7127
3.40
3.64
21 5 31.9
203
13 30 15.68
31 21.76
10 15 59.7
22 59.1
8.90990
9.7137
SAO
3.62*
22 5 29.9
204
13 32 13.22
33 20.05
10 28 25.1
35 26.7
8.91371
9.7147
3.39
3.60
23 5 27.9
205
13 34 11.79
35 19.36
10 40 52.3
47 56.1
8.91746
9.7156
3.39
3..56
24 5 26.0
206
13 36 11.38
37 19.68
10 53 21.3
0 27.0
8.92115
9.7164
3.39
330
25 5 24.1
207
13 38 11.98
39 21.02
11 5 51.8
12 59.3
8.92479
9.7173
3.39
3.44
26 5 22.2
206
13 40 13.59
41 23.38
11 18 23.6
25 32.9
8.92839
9.7181
3.39
338
27 5 20.3
209
13 42 16.20
43 26.75
11 30 56.6
38 7.6
8.93195
9.7187
3.38
3.28
28 5 18.4
210
13 44 19.82
45 31.13
11 43 30.6
50 43.1
8.93548
9.7192
3.38
3.08
29 5* 16.6
211
13 46 24.44
47 36.51
11 56 5.4
3 19.2
8.93897
9.7196
3.38
2.88
30 S 14.8
212
13 48 30.06
49 42.90
12 8 40.7
15 55.9
8.94243
9.7199
3.38
2.68
31 5 13.0
213
13 50 36.68
51 50.29
12 21 \S^
28 33.0
8.94586
9.7201
3.38
-238
Aug. 1 5 11.2
214
13 52 44.31
53 58.68
12 33 52.5
41 10.2
8.94925
9.7202
3.37
+238
2 5 9.4
215
13 54 52.93
56 8.07
12 46 28.6
53 473
8.95261
9.7201
8.37
2.98
3 5 7.7
216
13 57 2.55
58 18.47
12 59 4.6
6 24.6
8.95594
9.7200
3.37
3.23
4 5 5.9
217
13 59 iai7
0 20.85
13 11 40.4
19 1.0
8.95923
9.7198
337
333
5 5 4.2
218
14 1 24.76
2 42.20
13 24 15.4
31 36.6
8.96247
9.7194
3.37
342
6 5 2.5
219
14 3 37.32
4 55.52
13 36 49J^
44 11.4
8.96566
9.7188
336
830
7 5 0.8
220
14 5 50.84
7 9.82
13 49 22.6
56 44.9
8.96880
9.7181
336
338
8 4 69.1
221
14 8 5.33
9 25.08
14 1 54.3
9 16.9
8.97189
9.7172
336
3.64
9 4 57.4
222
14 10 20.77
11 41.28
14 14 24.5
21 47.2
8.97492
9.7164
336
3.70
10 4 55.7
223
14 12 37.14
13 58.41
14 26 53.0
34 153
8.97790
9.7154
836
3.73
11 4 54.1
224
14 14 54.44
16 16.47
14 39 19.4
46 41.6
8.98083
9.7142
335
3.74
12 4 52.5
225
14 17 12.66
18 35.47
14 51 43.5
59 53
8.98371
9.7128
335
8.74
13 4 50.9
226
14 19 31.81
20 55.40
15 4 5.3
11 27.2
8.98653
9.7114
335
8.74
14 4 49.3
227
14 21 51.88
23 16.25
15 16 24.9
23 46.9
8.98934
9.7101
335
3.75
15 4 47.7
228
14 24 12.86
25 9sm
15 28 42.4
36 4.6
8.99214
9.7088
835
3.79
16 4 46.1
2^
14 26 34.75
28 0.70
15 40 57.9
48 20.4
8.99493
9.7075
334
3.84
17 4 44.5
230
14 28 57.56
30 24.31
15 53 llA
0 34.2
8.99772
9.7062
334
338
18 4 43.0
231
14 31 21.29
32 48.84
16 5 22.7
12 45.7
9.00050
9.7048
334
3.92
19 4 4\A
232
14 33 45.93
35 14.28
16 17 313
24 53.7
9.00325
9.7031
334
3.95
20 4 40.0
238
14 36 11.48
37 40.66
16 29 37.0
36 57.6
9X)0598
9.7011
834
3.98
21 4 38.5
234
14 38 37.95
40 7.92
16 41 38.4
48 57.3
9.00869
9.6988
334
4J00
22 4 37.0
235
14 41 5.33
42 36.11
16 53 353
0 53X)
9X)1138
9.6962
334
4m
23 4 35.6
236
14 43 S3J62
45 6.22
17 5 28.4
12 44.3
9X)1405
9.6933
334
4X>5
24 4 34.2
237
14 46 2.82
47 35.25
17 17 16.8
24 30.9
9X)1671
9.6903
334
4.06
25 4 32.8
238
U 48 32.94
50 6^
17 29 0.4
36 123
9J0\9B5
9.6873
834
4J07
26 4 31.4
239
14 51 3.98
52 38.06
17 40 38.9
47 49.1
9J02\98
9.6842
833
4J0S
27 4 SOJO
240
14 53 35.93
55 10.84
17 52 12.3
59 20.9
9.02460
9.6811
333
4.09
28 4 28.6
241
14 54 &79
57 44.54
18 3 40.8
10 47.7
9i)272l
9.6779
333
4.10
29 4 27.2
242
14 58 42.56
0 19.16
18 15 4J3
22 9.2
9/)2979
9.6747
333
4.11
30 4 25.9
243
15 1 17.24
2 54.70
18 26 223
83 25-3
9j03234
9.6713
833
4.12
31 4 24.6
244
15 3 52.84
5 31.14
-18 37 35.3
44 35.8
+9Xm85
-9M77
+332
+4.13
346
MARS, 185««
FOR WASHINGTON SIDEREAL NOON
AND
MERIDIAN TRANSIT. l|
MMn Solar Tinw
of
Sido-
real
Blght'fiS
mt
nuloii.
Log. CoemdaDtoft
in sidmJ BOnntM.
'-'2?r-*!|
Ibridlaa Tmnait
Date.
At
SlderaalOli.
Al
Timiiait.
At
BSimalOh.
At
Tnofltt
InB.A.
In Dm.
InR.A.
In Dm.
(L h. m.
h. m. 8.
m. s.
O 1 11
1 «
1
May I 9 36j2
122
12 17 21.16
17 1.23
- 0 5 54.2
5 13.8
-8.440.^4
+8.7647
+3.84
-4JS5 ;
2 9 31.6
123
12 16 42.88
16 24.45
0 4 39.5
4 8.6
8.40770
8.6573
3.85
4:66 1
3 9 27.1
124
12 16 7.50
15 50.58
0 3 43.3
3 22.0
8.37192
8.5116
3.85
4.64
4 9 22.7
125
12 15 35.05
15 19.63
0 3 5.7
2 53.8
8J)3222
8.2922
3.86
4.64 ,
5 9 18.4
126
12 15 5.54
14 51.61
0 2 46.6
2 43.7
8.28961
+7.8490
3.86
4.64
6 9 14.1
127
12 14 38.98
14 26.57
0 2 45.6
2 51.7
8.24063
-7.7435
3.86
4.64 ,
7 9 9.8
128
12 14 15.40
14 4.55
« 3 2.6
3 18.0
8.18464
8.2636
3.86
4.64 1
8 9 5.6
129
12 13 54.84
13 45.55
0 3 37.9
4 2.7
8.12079
84926
3.85
4.63 !
9 9 1.4
130
12 13 37.30
13 29JK)
0 4 31.5
6 bJb
8.04727
8.6404
3.85
4.63
10 8 57.2
131
12 13 22.71
13 16J8
0 6 43.1
6 26.2
7.95970
8.7489
3.85
4.63
11 8 53.1
132
12 13 11.04
13 6.20
O 7 12.4
8 4.5
7.84947
8.8343
3.84
439
12 8 49.1
133
12 13 2.29
12 58.94
0 8 59.2
10 0.3
7.70317
8.9052
3.84
431
13 8 45.1
134
12 12 56.44
12 54.55
0 U 3.4
12 13.1
748488
8.9649
3J3
431
14 8 41.1
135
12 12 53.45
12 52.99
0 13 24.5
14 42.9
-7.03910
9.0168
3.83
4.60
15 8 37.1
136
12 12 53.27
12 54.25
O 16 2.5
17 29.3
+6.93386
9.0623
3J2
439 ,
16 8 33.2
137
12 12 55.89
12 58.28
0 18 56.9
20 32.1
7.44467
9.1031
3.82
438
17 8 29.3
138
12 13 1.26
13 5.06
0 22 7.6
23 50.9
7.67039
9.1397
3.81
437
18 8 25.5
139
12 13 9J36
13 14.53
0 25 34J2
27 25.5
7.81679
9.1730
3.81
437 !
19 8 21.8
140
12 13 20.14
13 26.65
0 29 16.5
31 15.6
7.92394
9.2031
3.80
436
20 8 18.2
141
12 13 33.55
13 4i;l9
0 33 14.1
35 21.0
8.00923
9.2310
3.80
435
• 21 8 14.6
142
12 13 49.56
13 68.74
0 37 26.8
39 41.4
8.07999
9.2567
3.79
434
22 8 11.0
143
12 14 8.16
14 18.65
0 41 54.4
44 16.6
8.13995
9.2808
3.79
434
23 8 7.4
144
12 14 29.30
14 41.06
0 46 36.7
49 6.3
8.19166
9.3030
3.78
433
24 8 3.9
145
12 14 52.93
15 5.96
0 51 33.3
54 10.2
8.23751
9.3238
3.78
433
25 8 0^
146
12 15 19.03
15 83.28
0 56 44.0
59 28.1
8.27787
9.3435
3.77
432
26 7 67.0
147
12 15 47.53
16 3.00
1 2 8.6
4 59.8
8.31436
9.3619
3.76
431
27 7 53.6
148
12 16 18.40
16 35.10
1 7 46.8
10 45.2
8.34776
9.3795
3.75
430
28 7 50.2
149
12 16 51.64
17 9.56
1 13 38.6
16 43.9
8.37838
9.3959
3.75
430
29 7 46.9
150
12 17 27.21
17 46.31
1 19 43.6
22 55.6
840629
94114
3.74
449
30 7 43.6
151
12 18 5.05
18 25.32
1 26 1.5
29 20.2
8.43217
94263
3.73
448 ,
31 7 40.4
152
12 18 45.14
19 6.58
1 32 32.2
35 674
8.45660
94403
3.72
447'
June 1 7 37.2
153
19 19 27.46
19 50.08
1 39 15.3
42 47.2
847953
94537
3.71
446
3 7 34.0
154
12 20 12.00
20 35.77
1 46 10.8
49 49.3
8.50093
94664
3.71
446
3 7 80.9
155
12 20 58.71
21 23.60
1 53 18.4
57 3.4
8.52078
94786
3.70
445
4 7 27.8
156
12 21 47.53
22 13.51
2 0 37.9
4 29.1
8.53932
94901
3.69
444 1
5 7 24.7
157
12 22 38.42
23 548
2 8 8.9
12 6.4
8.55686
9.5014
3.68
4.43 !
6 7 21.7
158
12 23 31.35
23 59.48
2 15 51.4
19 54.7
8.57340
9.5118
3.67
442
7 7 18.7
159
12 24 26.28
24 55.47
9 23 44.8
27 63.9
8.58917
9.5217
3.67
441
8 7 15.7
160
12 25 23.18
25 53.39
9 31 49.0
36 3.9
8.60394
9.6314
3.66
440
9 7 12.7
161
12 26 21.99
26 53.23
9 40 3.8
44 24.4
8.61808
9.6406
3.65
439 ,
10 7 9.8
162
12 27 22.69
27 54.93
2 48 28.9
52 55.1
8.63150
9.6493
3.64
438 i
11 7 6.9
163
12 28 25JW
28 68.47
2 57 4.1
61 36.0
8.64417
9.5578
3.63
437
12 7 4.0
164
12 29 29.59
30 3.79
3 6 49.3
10 26.3
8.65635
9.5659
3.63
435
13 7 1.2
165
12 80 35.70
31 10.86
8 14 43.7
19 25.9
8.66774
9.5734
3.62
434
14 6 58.4
166
12 81 43.54
32 19.67
3 23 47J2
28 34.5
8.67872
9.5806
3.61
433
15 6 55.7
167
12 32 53.11
33 30.17
3 32 59.6
37 62.2
8.68937
9.5875
3.60
432
16 6 53.0
168
12 34 4.35
34 42.33
8 49 20.9
47 18.3
8.69946
9.5942
3.59
431
17 6 50.3
169
12 35 17.23
85 56.11
8 61 20.5
66 62.8
8.70908
9.6005
3.59
4.29
18 6 47.6
170
12 36 31.71
37 11.51
4 1 28.4
6 35.5
8.71833
9.6067
3.58
4.2s
19 6 45.0
171
12 37 47.79
38 28.47
4 U 14.4
16 26.2
8.72727
9.6125
3.67
4.27
20 6 42.4
172
12 39 5.42
39 46.96
4 21 8.3
26 24.7
8.73592
9.6183
336
4.26 1
21 6 39.8
173
12 40 2436
41 6.97
4 31 9.9
36 30.8
8.74413
9.6237
336
4JH&!
22 6 37.2
174
12 41 45.20
42 28.49
4 41 18.9
46 44.2
8.75213
9.6289
365
4,23
23 6 34.6
175
12 48 7.33
43 61.48
4 61 35.1
57 4.7
8.75994
9.6338
335
4.22
24 6 32.0
176
12 44 30.91
46 15.92
6 1 58.3
7 32.3
8.76745
9.6386
334
431
25 6 29.5
177
12 45 55.94
46 41.78
6 19 28.5
18 6.7
8.77484
9.6434
333
430
26 6 27.0
178
12 47 22.40
48 9.07
6 23 6.4
98 47.8
8.78190
9.6479
333
4.18'
27 6 24.5
179
12 48 50.26
49 37.78
6 33 48.9
89 35.5
8.78880
9.6522
339
4.17
28 6 22.1
180
12 50 19.^2
61 7.88
6 44 38.9
60 99.5
8.79555
9.6565
3.59
4.15
29 6 19.7
181
12 51 50.16
62 39.33
6 65 35.0
61 994
8.80215
9.66()5
331
4.14
30 6 17.3
18S
12 53 22.14
64 12.13
6 6 37.0
13 35.2
8.80851
9.6645
330
4.12!
31 6 15.0
lai
12 54 55.45
55 46.27
- 6 17 44.8
23 46.7
+8.8I470
-9.6683
+3.50
-4.11
MARS, 1856.
347
FOR WASHINGTON SIDEREAL NOON
AND ]
MERIDIAN TRANSIT. |
Mtui Sotar Time
of
Side-
iwl
Bight^Ijcrarfon.
Log. Goefflclentofi
in&denMlHlnatot.
Log. Coeffldent
OfH.
Meridifta Tnnait.
Date.
At
At
At
At
OdarMlOli.
Tmuit.
StdareiaOli.
Timiiait
InlLA.
In Deo.
InB.A.
In Deo.
d h m.
h. m. •.
m. s
O 1 II
1 u
July 1 6. 15.0
183
12 54 55.45
55 46.27
- 6 17 44.8
23 46.7
+8.81470
-9.6683
+3.50
-4.11
2 6 12.7
184
12 56 30.09
57 21.73
6 28 58.2
35 3.8
8.82073
9.6719
3.49
4.09
3 6 10.3
185
12 58 6.04
58 58.50
6 40 17.1
46 26.5
8.82661
9.6753
3.49
4.08
4 6 8.0
186
12 59 43.29
0 36.55
6 51 41.4
67 54.4
8.83233
9.6784
3.48
4.06
5 6 5.7
187
13 1 21.81
2 15.87
7 3 10.8
9 27.3
8.83790
9.6814
3.47
4.04
6 6 3.5
188
13 3 1.59
3 56.43
7 14 45.1
21 5.1
8.84332
9.6845
3.47
4.02
7 6 1.3
189
13 4 42.60
5 38.22
7 26 24.2
32 47.6
8.84859
9.6874
8.46
4.01
8 5 59.1
190
13 6 24.83
7 21.21
7 38 7.9
44 34.5
8.85371
9.6902
3.46
8.99
9 6 56.9
191
13 8 8.24
9 5.38
7 49 55.9
66 25.6
8.85868
9.6929
8.45
3.97
10 5 54.7
192
13 9 52.81
10 50.70
8 1 48.1
8 20.8
8.86351
9.6955
3.44
3.95
11 5 52.5
193
13 11 38.51
12 37.16
8 13 44.2
20 20.0
8.86820
9.6979
3.44
3.93
12 5 50.4
194
13 13 25.34
14 24.75
8 25 44.2
32 23.1
8.87275
9.7002
3.43
3.91
13 5 48.3
195
13 15 13.28
16 13.44
8 37 48.0
44 29.7
8.87716
9.7023
3.43
3.89
14 5 46.2
19G
13 17 2.33
18 3.22
8 49 55.2
66 39.9
8.88144
9.7042
3.42
3.86
15 S 44.1
197
13 18 52.46
19 54.09
9 2 5.8
8 63.3
8.88567
9.7059
3.42
8.80
16 S 42.0
198
13 20 43.67
21 46.05
9 14 19.5
21 9.2
8.88985
9.7075
3.41
3.74
17 5 39.9
199
13 22 35.96
23 39.09
9 26 35.6
33 27.4
8.89398
9.7090
3.41
3.68
18 5 37.9
200
13 24 29.32
25 33.18
9 38 53.9
45 47.6
8.89806
9.7104
3.40
3.66
19 5 35.9
201
13 26 23.73
27 28.32
9 51 14.1
58 9.6
8.90208
9.7116
8.40
3.64
20 5 33.9
202
13 28 19.18
29 24.51
10 3 36.0
10 33.4
8.90602
9.7127
3.40
3.64
21 5 31.9
203
13 80 15.68
31 21.76
10 15 69.7
22 59.1
8.90990
9.7137
3.40
3.62*
22 5 29.9
204
13 32 13.22
83 20.05
10 28 25.1
35 26.7
8.91371
9.7147
3.39
3.60
23 5 27.9
205
13 34 11.79
35 19.36
10 40 52.3
47 56.1
8.91746
9.7156
3.39
3.56
24 5 26.0
206
13 36 11.38
87 19.68
10 53 21.3
0 27.0
8.92115
9.7164
3.39
3.50
25 5 24.1
207
13 38 11.98
39 21.02
11 5 61.8
12 59.3
8.92479
9.7173
3.39
3.44
26 5 22.2
206
13 40 13.59
41 23.38
11 18 23.6
25 32.9
8.92839
9.7181
3.39
8.38
27 5 20.3
209
13 42 16.20
43 26.75
11 30 56.6
88 7.6
8.93195
9.7187
3.38
3.28
28 5 18.4
210
13 44 19.82
45 31.13
11 43 30.6
50 43.1
8.93548
9.7192
8.38
3.08
29 5* 16.6
211
13 46 24.44
47 36.51
11 56 5.4
3 19.2
8.93897
9.7196
3.38
2.88
30 5^ 14.8
212
13 48 30.06
49 42.90
12 8 40.7
16 65.9
8.94243
9.7199
3.38
2.68
31 5 13.0
213
13 50 36.68
51 50.29
12 21 16.5
28 83.0
8.94586
9.7201
3.38
-2.38
Allg.1 5 11.2
214
13 52 44^1
53 58.68
12 33 52.5
41 10.2
8.94925
9.7202
3.37
+2.68
2 5 9.4
215
13 54 52.93
56 8.07
12 46 28.6
53 47.5
8.95261
9.7201
8.37
2.98
3 5 7.7
216
13 57 2.55
58 18.47
12 59 4.6
6 24.6
8.95594
9.7200
3.37
3.23
4 5 5.9
217
13 59 13.17
0 29.85
13 11 40.4
19 1.0
8.95923
9.7198
3.37
3.33
5 6 4.2
218
14 1 24.76
2 42.20
13 24 15.4
81 86.6
8.96247
9.7194
8.37
3.42
6 5 2.5
219
14 3 37.32
4 55.52
13 36 49.5
44 11.4
8.96566
9.7188
8.36
3.50
7 5 0.8
220
14 5 50.84
7 9.82
13 49 22.6
66 44.9
8.96880
9.7181
8.36
3.58
8 4 59.1
221
14 8 5.33
9 25.08
14 1 54.3
9 16.9
8.97189
9.7172
3.36
3.64
9 4 57.4
222
14 10 20.77
11 41.28
14 14 24.5
21 47.2
8.97492
9.7164
3.36
3.70
10 4 55.7
223
14 12 37.14
13 58.41
14 26 53.0
34 15.5
8.97790
9.7154
8.36
3.73
11 4 54.1
224
14 14 54.44
16 16.47
14 39 19.4
46 41.6
8.98083
9.7142
8.85
3.74
12 4 52.5
225
14 17 12.66
18 35.47
14 51 43.5
59 5.5
8.98371
9.7128
3.35
3.74
13 4 50.9
226
14 19 31.81
20 55.40
15 4 53
11 27.2
8.98653
9.7114
3.35
8.74
14 4 49.3
227
14 21 51.88
23 16.25
15 16 24.9
23 46.9
8.98934
9.7101
8.35
8.75
15 4 47.7
228
14 24 12.86
25 38.01
15 28 42.4
86 4.6
8.99214
9.7088
3.35
8.79
16 4 46.1
2?9
14 26 34.75
28 0.70
15 40 57.9
48 20.4
8.99493
9.7075
3.34
3.84
17 4 44.5
230
14 28 57.56
30 24.31
15 53 11.4
0 34.2
8.99772
9.7062
3.34
3.88
18 4 43.0
231
14 31 21.29
32 48.84
16 5 22.7
12 46.7
9.00060
9.7048
3.34
3.92
19 4 41.5
232
14 33 45.93
35 14.28
16 17 81.5
24 53.7
9.00325
9.7031
8.34
3.95
20 4 40.0
233
14 36 11.48
37 40.66
16 29 87.0
36 57.6
9.00598
9.7011
8.34
3.98
21 4 38.5
234
14 38 37.95
40 7.92
16 41 38.4
48 57.3
9.00869
9.6988
3.34
4.00
22 4 37.0
235
14 41 5.33
42 36.11
16 53 35.5
0 53.0
9.01138
9.6962
8.34
4.03
23 4 35.6
236
14 43 33.62
45 6.22
17 5 28.4
12 44.3
9.01405
9.6933
3.34
4.05
24 4 34.2
237
14 46 2.82
47 35.25
17 17 16.8
24 30.9
9.01671
9.6903
3.34
4.06
25 4 32.8
238
14 48 32.94
50 6.20
17 29 0.4
36 12.5
9.01985
9.6873
8.34
4.07
26 4 31.4
239
14 51 3.98
62 38.06
17 40 38.9
47 49.1
9.02198
9.6842
8.33
4.08
27 4 30.0
240
14 53 35.93
55 10.84
17 62 12.3
59 20.9
9.02460
9.6811
8.33
4.09
28 4 28.6
241
14 56 8.79
57 44.54
18 3 40.8
10 47.7
9.02721
9.6779
8.33
4.10
29 4 27.2
242
14 58 42.56
0 19.16
18 15 4.3
22 9.2
9.02979
9.6747
3.33
4.11
30 4 25.9
243
15 1 17.24
2 54.70
18 26 22.5
S3 25.3
9.03234
9.6713
3.33
4.12
31 4 24.6
244
15 3 52.84
5 31.14
-18 37 85.3
44 35.8
+9.03485
-9.6677
+3.32
+4.13
346
MAICS, 185««
FOR WASHINGTON SIDEREAL NOON
AND
^fERIDIAN TRANSIT. |
MMn Solar Time
of
Side-
real
Apparent
Bight Aaoeniion.
ApjMent Decllnattnm
Loff.CoefBdentoff
in Sidexeal Minntea.
Le8.CoiaeleDt 1
or^. 1
Ibridlaa TmoMt
Dikto.
At
Sidereal Oh.
At
Timoiit
At
BSderMdOh.
At
Tranatt.
InB-A.
In Dee.
InR.A.
In Dee.
j
d. h. m.
h. m. s.
m. e.
O 1 N
1 N
1
Uaj 1 9 36^
122
12 17 21.16
17 1.23
- 0 5 54.2
5 13.8
-8.44054
+8.7647
+334
-4jS& I
S 9 31.6
123
12 16 42.88
16 24.45
0 4 39.5
4 8.6
8.40770
83573
335
435 1
3 9 27.1
124
12 16 7.50
15 50.58
0 3 43 J)
3 22.0
837192
83116
336
434
4 9 22.7
125
12 15 35.05
15 19.63
0 3 5.7
2 53.8
833222
8.2922
336
4.64 1
5 9 18.4
126
12 15 5.54
14 51.61
0 2 46.6
2 43.7
8.28961
+73490
3.86
434
6 9 14.1
127
12 14 38.98
14 26.57
0 2 45.6
2 61.7
8.24063
-7.7435
336
434
7 9 9.8
128
12 14 15.40
14 4.55
0 3 2.6
3 18.0
8.18464
8.2636
3.86
4.64
8 9 5.6
129
12 13 54.84
13 45.55
0 3 37.9
4 2.7
8.12079
8.4926
335
4.63
9 9 1.4
130
12 13 37.30
13 29.50
0 4 31.6
6 5.5
8.04727
8.6404
335
4.63
10 8 57.2
131
12 13 22.71
13 16J»
0 6 43.1
6 26.2
7.95970
8.7489
335
433
11 8 53.1
132
12 13 11.04
13 6.20
«0 7 12.4
8 4.5
7.84947
8.8343
3.84
432
12 8 49.1
133
12 13 2.29
12 58.94
0 8 59.2
10 0.3
7.70317
8.9052
334
431
13 8 45.1
134
12 12 56.44
12 54.55
0 11 3A
12 13.1
7.48488
8.9649
3.83
431 1
14 8 41.1
135
12 12 53.45
12 52.99
0 13 24.5
14 42.9
-7.03910
9X)168
383
430 '
15 8 37.1
136
12 12 53.27
12 64.25
O 16 2.5
17 29.3
+6.93386
9J0623
332
439
16 8 33.2
137
12 12 55.89
12 68.28
0 18 56.9
20 32.1
7.44467
9.1031
332
438
17 8 29.3
138
12 13 1.26
13 5.06
0 22 7.6
23 50.9
737039
9.1397
331
437 1
18 8 25.5
139
12 13 9.36
13 14.53
0 25 34.2
27 253
7.81679
9.1730
331
437
19 8 21.8
140
12 13 20.14
13 26.65
0 29 16.5
31 15.6
7.92394
9.2031
330
436
20 8 18.2
141
12 13 33.55
13 4i;i9
0 33 14.1
35 21.0
8.00923
9.2310
330
436
• 21 8 14.6
142
12 13 49.56
13 58.74
0 37 26.8
39 41.4
8.07999
9.2567
3.79
434
22 8 11.0
143
12 14 8.16
14 18.65
0 41 54.4
44 16.6
8.13995
9.2808
3.79
434
23 8 7.4
144
12 14 29.30
14 41.06
0 46 36.7
49 6.3
8.19166
93030
3.78
433
24 8 3.9
145
12 U 52.93
15 5.96
0 51 33.3
64 10.2
8.23751
93238
3.78
433
25 8 0.4
146
12 15 19.03
15 33.28
0 56 44.0
59 28.1
8.27787
93435
3.77
432
26 7 57.0
147
12 15 47.53
16 3.00
1 2 8.6
4 59.8
831436
93619
3.76
431
27 7 53.6
148
12 16 18.40
16 35.10
I 7 46.8
10 45.2
834776
93795
3.75
430 ,
28 7 50.2
149
12 16 51.64
17 9.56
1 13 38.6
16 43.9
837838
93959
3.75
430 '
29 7 46.9
150
12 17 27.21
17 46.31
1 19 43.6
22 65.6
8.40629
94114
3.74
449
30 7 43.6
151
12 18 5.05
18 25.32
1 26 1.5
29 20.2
8.43217
94263
3.73
448 1
31 7 40.4
152
12 18 45.14
19 6.58
1 32 32.2
35 57.4
8.45660
94403
3.72
447
June 1 7 37.2
153
12 19 27.46
19 50.08
1 39 15.3
42 47.2
8.47953
94537
3.71
446
2 7 34.0
154
12 20 12.00
20 35.77
1 46 10.8
49 49.3
8.50093
94664
3.71
446
9 7 80.9
155
12 20 58.71
21 23.60
1 53 18.4
57 3.4
8.52076
94786
3.70
445
4 7 27.8
156
12 21 47.53
22 1331
2 0 37.9
4 29.1
833932
94901
3.69
444
5 7 24.7
167
12 22 38.42
23 6.48
2 8 8.9
12 6.4
835686
9.5014
3.68
4.43
6 7 21.7
158
12 23 31.35
23 59.48
2 15 51.4
19 64.7
8.57340
93118
337
442
7 7 18.7
159
12 24 26.28
24 65.47
2 23 44.8
27 63.9
8.58917
93217
337
441
8 7 15.7
160
12 25 23.18
25 63.39
fi 31 49X)
36 3.9
8.60394
93314
3.66
440 1
9 7 12.7
161
12 26 21.99
26 63.23
2 40 3.8
44 24.4
831808
93406
8.65
439 1
10 7 9.8
162
12 27 22.69
27 64.93
2 48 28.9
62 55.1
8.63150
9.6493
3.64
438
11 7 6.9
163
12 28 25.23
28 68.47
2 57 4.1
61 86.0
8.64417
9.5578
8.63
437
12 7 4.0
164
12 29 29.59
30 3.79
3 6 49J)
10 26.3
8.65635
9.5659
3.63
435
13 7 1.2
165
12 80 35.70
81 10.86
8 14 43.7
19 25.9
8.66774
93734
3.62
434)
14 6 58.4
166
12 31 43.54
32 19.67
3 23 47.2
28 343
8.67872
93806
3.61
433
15 6 55.7
167
12 32 53.11
33 30.17
3 32 69.6
87 52.2
8.68937
9.6675
8.60
432
16 6 53.0
168
12 34 4.35
34 42.33
3 42 20.9
47 18.3
8.69946
9.5942
3.59
431
17 6 50.3
169
12 85 17.23
85 66.11
8 51 20.5
66 62.8
8.70908
9.6005
339
4.29
18 6 47.6
170
12 36 31.71
37 11.51
4 1 28.4
6 35.5
8.71833
9.6067
3.58
438
19 6 45.0
171
12 37 47.79
88 28.47
4 11 144
16 26.2
8.72727
93125
337
437 1
20 6 42.4
172
12 39 542
39 46.96
4 21 8.3
26 24.7
8.73592
93183
836
4.26 '
21 6 39.8
173
12 40 24.56
41 6.97
4 31 9.9
36 30.8
8.74413
9.6237
336
4.25
22 6 37.2
174
12 41 45.20
42 28.49
4 41 18.9
46 44.2
8.75213
9.6289
355
4.23
23 6 34.6
175
12 48 7J)3
43 61.48
4 61 35.1
67 4.7
8.75994
9.6338
935
432 1
24 6 32.0
176
12 44 30.91
45 15.92
6 1 58.3
7 32-3
8.76745
9.6386
3.64
431
25 6 29.5
177
12 45 55.94
46 41.78
5 It 28.6
18 6.7
8.77484
9.6434
939
430
26 6 27.0
178
12 47 22.40
48 9.07
5 23 6.4
98 47.8
8.78190
9.6479
933
4.18 ,
27 6 24.5
179
12 48 50.26
49 37.78
6 33 48.9
89 353
8.78880
9.6622
932
4.17
28 6 22.1
180
12 50 19.52
51 7.88
6 44 38.9
60 293
8.79555
9.6665
3.52
4.15 ,
29 6 19.7
181
12 51 50.16
62 39.33
6 55 36.0
61 29.4
8.80216
9.6605
931
4.14!
30 6 17.3
182
12 53 22.14
64 12.13
6 6 37.0
12 35.2
8.80861
9.6645
930
4.12
31 6 15.0
183
12 54 55.45
55 46.27
- 6 17 44.8
23 46.7
+8.81470
-9.6683
+3.60
-4.11
MARS, 1856.
347
FOR WASHINGTON SIDEREAL NOON
AND ]
\fERIDIAN TRANSIT. |
Mwn Solar Time
of
Side-
real
Appanmt
Bigiit Awenakm.
Appavent Declination.
Loe. Coefficient of 1
in gideraal Minutes.
Log.Ooeffldent
ofrt.
AleridiaaTiuult.
Date.
At
SidenalOfa.
At
Tnoait.
At
Sidereal Oh.
At
Tiandt.
InB.A.
In Deo.
InR.A.
In Dec.
d h m.
h. m. f.
m. f
O 1 II
1 H
Jttlr 1 6 15.0
183
12 54 55.45
55 46.27
- 6 17 44.8
23 46.7
+8.81470
-9.6683
+3.50
-4.11
2 6 12.7
184
12 56 30.09
57 21.73
6 28 58.2
35 3.8
8.82073
9.6719
3.49
4.09
3 6 10^
185
12 58 6.04
58 58.50
6 40 17.1
46 26.5
8.82661
9.6753
3.49
4.08
4 6 8.0
186
12 59 43.29
0 36.55
6 51 41.4
57 54.4
8.83233
9.6784
3.48
4.06
5 6 5.7
187
13 1 21.81
2 15.87
7 3 10.8
9 27.3
8.83790
9.6814
3.47
4.04
6 6 3.5
188
13 3 1JS9
3 56.43
7 14 45.1
21 5.1
8.84332
9.6845
3.47
4.02
7 6 1.3
189
13 4 42.60
5 38.22
7 26 24.2
32 47.6
8.84859
9.6874
8.46
4.01
8 5 59.1
190
13 6 24.83
7 21.21
7 38 7.9
44 34.5
8.85371
9.6902
3.46
8.99
9 6 56.9
191
13 8 8.24
9 5.38
7 49 55.9
56 25.6
8.85868
9.6929
3.45
3.97
10 5 54.7
192
13 9 52.81
10 50.70
8 1 48.1
8 20.8
8.86351
9.6955
3.44
3.95
11 5 52.5
193
13 11 38.51
12 37.16
8 13 44.2
20 20.0
8.86820
9.6979
3.44
3.93
12 5 50.4
194
13 13 25.34
14 24.75
8 25 44.2
32 23.1
8.87275
9.7002
3.43
3.91
13 5 48.3
195
13 15 13.28
16 13.44
8 37 48.0
44 29.7
8.87716
9.7023
3.43
3.89
14 5 46.2
196
13 17 2J33
18 3.22
8 49 55.2
56 39.9
8.88144
9.7042
3.42
3.86
15 5 44.1
1S7
13 13 52.46
19 54.09
9 2 5.8
8 53.3
8.88567
9.7059
3.42
3.80
16 S42.0
198
13 20 43.67
21 46.05
9 14 19.5
21 9.2
8.88985
9.7075
3.41
3.74
17 5 39.9
199
13 22 35.96
23 39.09
9 26 35.6
33 27.4
8.89398
9.7090
3.41
3.68
18 5 37.9
200
13 24 29.32
25 33.18
9 38 53.9
45 47.6
8.89806
9.7104
3.40
3.66
19 5 35.9
201
13 26 23.73
27 28.32
9 51 14.1
58 9.6
8.90208
9.7116
3.40
3.64
20 5 33.9
202
13 28 19.18
29 24.51
10 3 36.0
10 33.4
8.90602
9.7127
3.40
3.64
21 5 31.9
203
13 30 15.68
31 21.76
10 15 59.7
22 59.1
8.90990
9.7137
3.40
3.62*
22 5 29.9
204
13 32 13.22
33 20.05
10 28 25.1
35 26.7
8.91371
9.7147
3.39
3.60
23 5 27.9
205
13 34 11.79
35 19.36
10 40 52.3
47 56.1
8.91746
9.7156
3.39
3.56
24 5 26.0
206
13 36 11.38
37 19.68
10 53 21.3
0 27.0
8.92115
9.7164
3.39
3.50
25 5 24.1
207
13 38 11.98
39 21.02
11 5 51.8
12 59.3
8.92479
9.7173
3.39
3.44
26 5 22.2
208
13 40 13.59
41 23.38
11 18 23.6
25 32.9
8.92839
9.7181
3.39
3.38
27 5 20.3
209
13 42 16.20
43 26.75
11 30 56.6
38 7.6
8.93195
9.7187
3.38
3.28
28 5 18.4
210
13 44 19.82
46 31.13
11 43 30.6
50 43.1
8.93548
9.7192
3.38
3.08
29 5^ 16.6
211
13 46 24w44
47 36.51
11 56 5.4
3 19.2
8.93897
9.7196
3.38
2.88
30 5^ 14.8
212
13 48 30.06
49 42.90
12 8 40.7
15 55.9
8.94243
9.7199
3U38
2.68
31 5 13.0
213
13 50 38.68
51 60.29
12 21 16.5
28 33.0
8.94586
9.7201
3.38
-2.38
Avg.1 5 11.2
214
13 52 44^1
53 58.68
12 33 52.5
41 10.2
8.94925
9.7202
3.37
+2.68
2 5 9.4
215
13 54 52.93
56 8.07
12 46 28.6
53 47.5
8.95261
9.7201
8.37
2.98
3 5 7.7
216
13 57 2.55
58 18.47
12 59 4.6
6 24.6
8.95594
9.7200
3.37
3.23
4 5 5.9
217
13 59 13.17
0 29.85
13 11 40.4
19 1.0
8.95923
9.7198
3.37
3.33
5 6 4.2
218
14 1 24.76
2 42.20
13 24 15.4
31 36.6
8.96247
9.7194
3.37
3.42
6 5 2.5
219
14 3 37.32
4 55.52
13 36 49.5
44 11.4
8.96566
9.7188
3.36
3.50
7 5 0.8
220
14 5 50.84
7 9.82
13 49 22.6
56 44.9
8.96880
9.7181
3.36
3.58
8 4 59.1
221
14 8 5.33
9 25.08
14 1 54.3
9 16.9
8.97189
9.7172
3.36
3.64
9 4 57.4
222
14 10 20.77
11 41.28
14 14 24.5
21 47.2
8.97492
9.7164
3.36
3.70
10 4 55.7
223
14 12 37.14
13 58.41
14 26 53.0
34 15.5
8.97790
9.7154
3.36
3.73
11 4 54.1
224
14 14 54.44
16 16.47
14 39 19.4
46 41.6
8.98083
9.7142
3.35
3.74
12 4 52.5
225
14 17 12.66
18 35.47
14 51 43.5
59 5.5
8.98371
9.7128
3.35
3.74
13 4 50.9
226
14 19 31.81
20 55.40
15 4 5.3
11 27.2
8.98653
9.7114
3.35
3.74
14 4 49.3
227
14 21 51.88
23 16.25
15 16 24.9
23 46.9
8.98934
9.7101
3.35
3.75
15 4 47.7
228
14 24 12.86
25 38.01
15 28 42.4
36 4.6
8.99214
9.7088
3.35
3.79
16 4 46.1
2^9
14 26 34.75
28 0.70
15 40 57.9
48 20.4
8.99493
9.7075
3.34
3.84
17 4 44.5
230
14 28 57.56
30 24.31
15 53 11.4
0 34.2
8.99772
9.7062
3.34
3.88
18 4 43.0
231
14 31 21.29
32 48.84
16 5 22.7
12 45.7
9.00050
9.7048
3.34
3.92
19 4 41.5
232
14 33 45.93
36 14.28
16 17 31.5
24 53.7
9.00325
9.7031
3M
3.95
20 4 40.0
238
14 36 11.48
37 40.66
16 29 87.0
36 57.6
9.00598
9.7011
3.34
3.98
21 4 38.5
234
14 38 37.95
40 7.92
16 41 38.4
48 57.3
9.00869
9.6988
3.34
4.00
22 4 37.0
235
14 41 5.33
42 36.11
16 53 35.5
0 53.0
9.01138
9.6962
3.34
4.03
23 4 35.6
236
14 43 33.62
45 6.22
17 5 28.4
12 44.3
9.01405
9.6933
3.34
4.05
24 4 34.2
237
14 46 2.82
47 35.25
17 17 16.8
24 30.9
9.01671
9.6903
3.34
4.06
25 4 32.8
238
14 48 32.94
50 6.20
17 29 0.4
36 12.5
9.01935
9.6873
3.34
4.07
26 4 31.4
239
14 51 3.98
52 38.06
17 40 38.9
47 49.1
9.02198
9.6842
3.33
4.08
27 4 30.0
240
14 53 35.93
55 10.84
17 52 12.3
59 20.9
9.02460
9.6811
3.33
4.09
28 4 28.6
241
14 56 a79
57 44.54
18 3 40.8
10 47.7
9.02721
9.6779
3.33
4.10
29 4 27.2
242
14 58 42.56
0 19.16
18 15 4.3
22 9.2
9.02979
9.6747
3.33
4.11
30 4 25.9
243
15 1 17.24
2 54.70
18 26 22.5
33 25.3
9.03234
9.6713
3.a3
4.12
31 4 24.6
244
15 3 52.84
5 31.14
-18 37 35.3
44 35.8
+9.03485
-9.6677
+3.32
+4.13
31^0
JUPITER, 18>&6.
FOR WASHINGTON SIDEREAL NOCW
AND MERIDIAN TRANSIT. 1
Apparant
Uglit Ajoanaioii.
Appaxe&t DecUoatfcm.
in Sdenal Minatee.
^i?2*-II
Mwn Solar Time
of
Side-
raal
t
Meridian Timndt.
Date.
At
Sidereal Oh.
At
Traoilt.
At
Sidereal Oh.
At
Tiaiiait.
InB.A.
In Dae.
InR^A.
laBeeLj
d
h. m.
h. m. f.
m. s.
O 1 N
1 M
1
Jan. 0
3 33.8
0
22 12 40.42
12 37.12
-12 10 56.3
11 15.5
+8.4869
+9.2423
+2.92
,f3J».
1
3 30.7
1
22 13 24.79
13 21.49
12 6 43.6
7 2.7
8.4903
9.2463
2.91
3,74
2
3 27.6
2
22 14 9.50
14 6.20
12 2 28.5
2 47.5
8.4936
9.2502
S.90
3.74.
3
3 24.4
3
22 14 54.53
14 51.23
11 58 11.1
58 30.1
8.4968
9.2540
2.89
3.73 1
4
3 21.2
4
22 15 39.89
15 36.59
11 53 51.5
54 10^
8.4999
94577
2.88
3.73
5
3 18.0
5
22 16 25.57
16 22.27
11 49 29.7
49 48.6
8.5029
9.2614
2.87
3.73 I
6
3 14.8
6
22 17 11.56
17 8.26
11 45 5.7
45 24.6
8.5058
9.2650
2.86
3.72:
7
3 11.6
7
22 17 57.85
17 54.55
11 40 39.6
40 58.5
8.5086
9.2686
2.85
3.71
8
3 8.4
8
22 18 44.44
18 41.14
11 36 11.3
36 30.2
8.5113
9.2720
2.84
3.70
9
3 5.3
9
22 19 31.32
19 26.03
11 31 40.9
31 59.8
8.5140
9.2754
2.83
3X9 1
10
3 2.1
10
22 20 18.48
20 15.20
11 27 8.3
27 27.3
8.5166
9.2786
2.82
3.68
11
2 58.9
11
22 21 5.91
21 2.65
11 22 34.0
22 52.9
8.5191
9.2817
2.81
3,67 1
12
2 55.8
12
22 21 53.61
21 50.36
11 17 57.6
18 16.5
8.5215
9.2847
2.80
3.66*
13
2 52.7
13
22 22 41.58
22 38.33
11 13 19.2
13 38.1
8.5838
9.2877
2.78
3.65 ,
14
2 49.5
14
22 23 29.80
23 26.56
11 8 38.9
8 57.8
8.5260
9.2906
2.77
3,64
15
2 46.4
15
22 24 18.26
24 15.04
11 3 56.8
4 15.6
8.5282
9.2935
2.76
363
16
2 43.3
16
22 25 6.96
25 3.75
10 59 12.8
59 31.6
8.5303
9.2963
2.75
3.63 1
17
2 40.2
17
22 25 55.89
25 52.69
10 54 27X)
54 45.8
8.5323
9.2990
2.74
3.62 '
18
2 37.1
18
22 26 45.05
26 41.86
10 49 39.5
49 58.2
8.5343
9.3017
2.73
3.61 '
19
2 34.0
19
22 27 34.43
27 31.25
10 44 50.2
45 8.9
8.5362
9.3043
2.72
3.60 ^
20
2 30.9
20
22 28 24.02
28 20.86
10 39 59.2
40 17.8
8.5881
9.3069
2.71
3,59 1
21
2 27.8
21
22 29 13.82
29 10.68
10 35 6.5
36 25.0
8.5399
9.3094
2.69
339 '
22
2 24.7
22
22 30 3.83
30 0.71
10 30 12.1
30 30.6
8.5417
9.3118
2.68
338
23
2 21.6
23
22 30 54.04
30 50.93
10 25 16.1
25 34.5
8.5434
9.3142
2.67
338
24
2 18.5
24
22 31 44.44
31 41.35
10 20 18.5
20 36.8
8.5450
9.3165
2.66
337 1
25
2 15.4
25
22 32 35.03
32 31.96
10 15 19.4
15 37.6
8.5466
9.3187
2.65
337
26
2 12.3
26
22 33 25.80
33 22.75
10 10 18.8
10 36.8
8.5481
9.3208
2.63
336 1
27
2 9.2
27
22 34 16.75
34 13.72
10 5 16.6
5 34.6
8.5496
9.3229
2.62
336!
28
2 6.1
28
22 35 7.88
35 4.86
10 0 13.0
0 30.9
8.5510
9.3250
2.61
335
29
2 3.1
29
22 35 59.17
35 56.17
9 55 7.9
55 25.7
8.5524
9.3270
2.59
3341
30
2 0.0
30
22 36 50.62
36 47.65
9 50 1.4
50 19.1
8.5537
9^290
2.58
333
31
1 56.9
31
22 37 42.23
37 39.28
9 44 53.5
45 li.l
8.5550
9.3310
2.56
332 <
Feb. 1
1 53.8
32
22 38 33.99
38 31.06
9 39 44.2
40 1.7
8.5662
9.3329
235
331 1
2
1 50.8
33
22 39 25.90
39 22.99
9 34 33.6
34 51.0
8.5674
9.3348
2.53
330
3
1 47.7
34
22 40 17.95
40 15.06
9 29 21.7
29 38.9
8.5585
9.3366
2.51
3.48
4
1 44.6
35
22 41 10.13
41 7.27
9 24 8.5
24 25.6
8.5596
9.3384
2.49
3,47 1
5
1 41.5
36
22 42 2.44
41 59.60
9 18 54.0
19 11.0
8.5607
9.3401
2.47
3.45
6
1 38.5
37
22 42 54.87
42 52.06
9 13 38.4
13 55.3
8Ji617
9.3417
2.45
3.43 ,
7
1 35.4
38
22 43 47.42
43 44.64
9 8 21.6
8 38.4
8.5627
9.3432
2.43
3.42
8
1 32.3
39
22 44 40.08
44 37.33
9 3 3.7
3 20.4
8.5636
9.3447
2.41
3.40
9
1 29J}
40
22 45 32.85
45 30.12
8 57 44.8
68 1.3
8^^644
9.3461
2.38
339
10
1 26.3
41
22 46 25.72
46 23.01
8 52 24.8
52 41.2
8.5652
9.3475
2.35
338
11
1 23.2
42
22 47 18.68
47 15.99
8 47 3.8
47 20.1
8.5659
9.3489
2.32
336
12
1 20.2
43
22 48 11.73
48 9.06
8 41 41.9
41 58.0
8.5666
9.3502
2.29
335
13
I 17.1
44
22 49 4.86
49 2.22
8 36 19.0
36 35.0
8.5672
9.3514
2.26
333
14
1 14.1
45
22 49 58.06
49 5546
8 30 55.3
31 11.1
8.5678
9.3526
2.23
331 1
15
1 11.0
46
22 50 51.33
50 48.77
8 25 30.7
25 46.3
8.5684
9.3536
2.20
330
16
I 8.0
47
22 51 44.67
51 42.15
8 20 5.3
20 20.7
8.5689
9.3546
2.17
338
17
I 4.9
48
22 52 38.07
52 35.59
8 14 39.1
14 54.3
8.5694
9^556
2.14
3.S7 1
18
I 1.9
49
22 53 31.53
63 29.08
8 9 12.1
9 27.2
8.5699
9^565
2.11
3.25 ,
19
0 58.8
50
22 54 25.05
54 22.63
8 3 44.4
3 59.3
8.5703
9.3575
2.08
3,23 1
20
0 55.8
51
22 55 18.62
55 16.22
7 58 16.0
58 30.8
8.5707
9.3584
2.05
331
21
0 52.7
52
22 56 12.24
56 9.86
7 52 47.0
53 1.6
85711
9.3593
2m
3.19
22
0 49.7
53
22 57 5.90
57 3.55
7 47 17.3
47 31.7
8.5714
9.3602
1.98
3.16 '
23
0 46.7
54
22 57 59.60
57 57.27
7 41 47.0
42 1.2
8.5717
9.3610
1.93
3.14 ,
24
0 43.6
55
22 58 53.33
58 51.03
7 36 16.1
36 30.2
8.5720
9.3617
1.87
3.12
25
0 40.6
56
22 59 47.09
59 44.82
7 30 44.7
30 58.6
8^722
9.3624
1.80
3.10
26
0 37.6
57
23 0 40.87
0 38.64
7 25 12.8
25 26.5
8.5724
9.3630
+1.71
3.07
27
0 34.5
58
23 1 34.67
1 32.48
7 19 40.4
19 53.9
8.5725
9.3636
3.05
28
0 31.5
59
23 2 28.49
2 26.33
7 14 7.6
14 20.9
8.5726
9-3642
3X» !
29
0 28.4
60
23 3 22.32
3 20.20
7 8 34.3
8 47.4
8.5727
9.3647
3.00 i
30
0 25.4
61
23 4 16.16
4 14.07
- 7 3 0.6
3 13.5
+8.5727
+9.3652
+2,96 1
HODL-
TlMTn
iDilto,toUajr4,(
MourupontI
MSIdnealD^j
pieoedingth
« one for wl
liehth^ai
• fif«i.
JUPITER, 1856.
351
FOR WASEIINGTON SIDEREAL NOON
AND
MERIDIAN TRANSIT. |
MMn Solar Time
of
Side-
raal
Apparent
AppnentDeeUnation.
Log. Coefficient of 1
in ttidenal Minutes.
Log. Coefficient 1
of^. 1
Date.
At
SideraalOh.
At
Transit.
At
Sidereal Oh.
At
Tnuuit.
InlLA.
In Dec.
InR.A.
In Deo.
d. h. m.
h. m. f.
m. s.
O 1 H
1 II
Mar. I 0 25.4
61
23 4 16.16
4 14.07
- 7 8 0.6
8 13.5
+8.5727
+9.3652
+2.96
2 0 22.4
62
23 5 10.00
5 7.95
6 57 26.5
57 39.2
8.5727
9.3657
2.89
3 0 19^3
63
28 6 3.84
6 1.82
6 51 52.2
52 4.7
8.5727
9.3661
2.80
4 0 16.3
64
23 6 57.67
6 55.69
€ 46 17^
46 29.9
8.5726
9.3665
2.69
5 0 13.3
65
23 7 51.49
7 49.55
6 40 42J
40 54.8
8.5725
9.3668
-1.67
+236
6 0 10.3
66
23 8 45.30
8 43JS9
6 36 7.6
85 19.5
«.5724
9.8670
1.75
7 0 7.2
67
23 9 39.09
9 37.21
6 29 32.3
29 44.1
8.5722
9.3671
133
8 0 4.2
68
23 10 32.85
10 31.00
« 23 57.0
84 8.5
8.5720
9.3672
1.90
9 0 1.2
69
23 11 26.58
11 24.76
6 18 21.6
18 32.9
8.5717
9.8672
1.96
9 23 58.1
70
23 12 20.27
12 18.48
6 IS 4BJi
12 57.2
8.5714
9.3672
2m
10 23 55.1
71
23 13 13.92
13 12.16
6 7 10^
7 21.6
8.6710
9.3672
2.06
11 23 52.0
72
23 14 7.52
14 5.80
6 1 35.4
1 46.11
8.5706
9.3671
2.10
12 23 49.0
78
23 15 1X)7
14 59.3»
5 56 0.1
S6 10.6
8.5702
9.8670
2.14
13 23 45-9
74
23 15 54.57
15 52.93
5 50 24.9
50 35.1
8.5698
9.3670
2.17
14 23 42.9
75
23 16 48.01
16 46.41
5 44 49.8
44 59.8:
«.$693
9.3669
2.19
15 23 39.8
76
23 17 41.39
17 89.82
5 39 14.9
89 24.7
B.5688
9.3668
2.22
16 23 36.8
77
23 18 34.70
18 33.16
5 33 40.2
33 49.8
8.5682
9J)667
2.24
-2.73
17 23 33.7
78
23 19 27.94
19 26.43
5 28 5.8
28 15.2
8.5676
9.3664
2.26
2.80
18 23 30.6
79
23 20 21.10
20 19.62
5 22 31.6
22 40.8
8.5670
9.3661
2.28
2.86
19 23 27.6
80
23 21 14.18
21 12.74
5 16 57.7
17 6.8
8.5668
9.3656
230
2.92
20 23 24.5
81
23 22 7.18
22 5.78
5 11 242
11 33.1
6.5656
9.3651
232
2.97
21 23 21.5
82
23 23 0.10
22 58.73
5 5 51.0
5 59.7
8.5649
9.3645
233
3.01
22 23 18.4
83
23 23 52.93
23 51.59
5 0 18.3
0 26.7
8.5642
9.3638
2 35
3.04
23 23 15.4
84
23 24 45.66
24 44.36
4 54 46X)
54 54.1
8.5634
9.3631
236
3.06
24 23 12.3
85
23 25 38.30
25 37.04
4 49 14.1
49 22.0
6.5626
9.8624
237
3.08
25 23 93
86
23 26 30.84
26 29.62
4 48 42.7
43 504
8.5617
9.8617
239
3.10
26 23 6.2
87
23 27 23.28
27 22.10
4 38 11.8
38 19.3
8.5608
9.3610
240
3.13
27 23 3.2
88
23 28 15.61
28 1447
4 32 41Ji
32 48.7
8.5599
9.3602
242
3.15
28 23 0.1
69
23 29 7.83
29 6.73
4 27 11.8
27 18.8
6.5590
9.3594
244
3.18
29 22 57.1
90
23 29 59.94
29 58.§6
4 21 42.7
21 49J5
8.5580
9.3585
246
3.21
30 22 54.0
91
23 30 51.93
30 60.87
4 16 14.3
16 20.9
8.5570
9.3576
2.48
3.24
31 22 50.9
92
23 31 43.79
31 42.7«
4 10 46.6
10 53.0
8.5559
9.3567
2.50
337
Apr. 1 22 47.9
93
23 32 35.51
32 34.52
4 5 19.&
5 25.8
8.5548
9.3557
232
3.29
2 22 44.8
94
23 33 27.10
33 26J5
8 59 53.4
59 594
6.5537
9.3547
234
332
3 22 41.8
95
23 34 18.55
34 17.64
3 54 28.0
54 83.8
8.5525
9.3536
235
334
4 22 38.7
96
23 35 9.86
35 8.98
3 49 3.5
49 9.1
6.5513
9.3524
257
336
5 22 35.6
97
23 36 1.02
36 0.17
3 43 39.9
43 45.3
6.5500
9.3511
238
338
6 22 32.5
98
23 36 52.02
36 51.20
3 38 17.2
38 224
8.5486
9.3498
2.59
339
7 22 29.4
99
23 37 42.86
37 42X)7
3 32 55.5
33 0.5
8.5471
9.3484
2.60
3.40
8 22 26.3
100
23 38 33.53
38 32.78
3 27 34.9
27 39.7
8.5456
93469
2.61
341
9 22 23.2
101
23 39 24.04
39 23.32
3 22 154
22 19.9
6.5441
93454
2.62
342
10 22 20.1
102
23 40 14.37
40 13.68
3 16 57.0
17 1.3
8.5426
93438
2.63
3.43
11 22 17.0
103
23 41 4.53
41 3.87
3 11 39.7
il 43.8
8.5411
93423
2.64
345
12 22 13.9
104
23 41 54.50
41 53.87
3 6 23.6
6 27.5
8.5395
93407
2.65
346
13 22 10.8
105
23 42 44.28
42 43.69
3^1 8.7
1 124
8.5379
9.3390
2.66
347
14 22 7.7
106
23 43 33.88
43 33.31
2 55 55X)
55 58.5
8.5363
93373
2.66
348
15 22 4.6
107
23 44 23.28
44 22.74
2 50 42.6
50 45.8
8.5346
93355
2.67
349
16 22 1.5
108
23 45 12.49
45 11.98
2 45 314
45 34.5
8.5328
9.3336
2.68
3.50
17 21 58.4
109
23 46 1.50
46 1j02
2 40 21.6
40 24.5
8.5310
93317
2.69
331
18 21 55.2
110
23 46 50.30
46 49j85
2 35 13.1
35 15.9
8.5292
93298
2.70
3.52
19 21 52.1
HI
23 47 38.90
47 3847
2 30 6.0
30 8.7
8.5273
93278
2.71
3.53
20 21 49.0
112
23 48 27.28
48 26.88
2 25 04
25 2.9
8.5254
93257
2.72
3.54
21 21 4.5.9
113
23 49 15.45
49 15X)a
2 19 56.2
19 58.5
8.5234
93236
2.73
335
22 21 42.7
114
23 50 3.39
50 3j06
2 14 53.5
14 55.6
8.5214
93215
2.73
336
23 21 39.6
115
23 50 51.11
50 50.81
2 9 52.3
9 54.2.
6.5193
93193
2.74
338
24 21 36.4
116
23 51 38.60
51 38-33
2 4 52J
4 544
8.5172
93171
2.75
339
25 21 33.3
117
23 52 25.86
52 25j61'
I 59 54.6
59 56.2
8.5150
93U8
2.76
3.60
26 21 30.1
118
23 53 12.88
53 12^
1 54 58.2
54 59.6
6.5128
93124
2.77
331
27 21 27.0
119
23 53 59.66
53 5945
1 50 34
50 4.7
8.5105
93099
2.78
3.63
28 21 23.8
120
23 54 46.18
54 46.00
1 45 104
45 11.5
6.5082
93073
2.79
3.64
29 21 20.7
121
23 55 32.45
55 32.30
1 40 19.2
40 20.1
6.5058
93046
230
335
30 21 17.5
122
23 56 18.46
56 18.34
- 1 35 29.7
35 30.5
+8.5M3
+9..3019
-231
-3.66
Mflaa.~TheTniidta,t>M>j4,QQe«iipoa.tt»flMimlJlvia»wdiiytM<i^
352
JUPITER, 1856.
FOR WASHINGTON SIDEREAL NOON
AND
MERIDIAN TRANSIT. jj
Blgfat^Soraikm.
Apparent DeoUnadon.
in &leieal BUnatee.
Log. CoeOdeot 11
Mean Solar Time
of
Side-
raU
1
Meridian Traiuit.
Date.
At
Sidereal Oh.
At
Txaiuit.
At
Sidereal Oh.
At
Transit.
InR.A.
In DM).
InR.A.
InSte.
d. h. m.
h. m. f.
m. f.
o 1 n
u
May 1 21 14.4
123
23 57 4.21
57 4.11
- 1 30 42.0
30 42.7
+8.5008
+9.2990
-2.82
-3.6C
2 21 11.2
124
23 57 49.68
57 49.61
1 25 56.3
25 56.8
84982
9.2960
2.83
3.67 ,
3 21 8.0
125
23 58 34.88
58 34.83
1 21 12.5
21 12.8
84955
9.2930
2.84
3.68 '
4 21 4.8
126
23 59 19.79
59 19.77
1 16 30.7
16 30.8
84927
9.2899
2.85
3.68 ;
5 21 1.6
127
0 0 4.42
0 4.42
1 11 50.9
11 50.8
84898
9.2868
2.86
3.69
6 20 58.4
128
0 0 48.75
0 48.78
1 7 13.2
7 12.9
84869
9.2836
2.86
8.70
7 20 55.2
129
0 1 32.79
1 32.84
1 2 37.5
2 37.1
84839
9.2803
2.87
3.70
8 20 52.0
130
0 2 16.52
2 16.59
0 58 3.9
58 34
84808
9.2770
2.87
8.71
9 20 48.8
131
0 2 59.94
3 0.03
0 53 32.5
53 31.9
84777
9.2736
2.88
3.72
10 20 45.6
132
0 3 43.05
3 43.16
0 49 3.2
49 2.5
84745
9.2701
2.88
9.72
11 20 42.4
133
0 4 25.84
4 25.97
0 44 36.2
44 35.3
84713
9.2664
2.89
9.73
12 20 39.1
134
0 6 8.30
5 8.45
0 40 114
40 104
8.4680
9.2627
2.89
9.74
13 20 35.9
135
0 5 5044
5 50.61
0 35 48.9
35 47.8
84646
9.2588
2.90
9.74
14 20 32.7
136
0 6 32.25
6 32.43
0 31 28.8
31 27.5
84612
9.2548
8.91
9.75
15 20 29.5
137
0 7 13.72
7 13.92
0 27 11.0
27 9.6
84576
9.2507
2.91
9.75
16 20 26.2
138
0 7 54.85
7 55.07
0 22 65.6
22 54.2
84540
9.2466
2.92
9.76
17 20 23.0
139
0 8 35.63
8 85.87
0 18 42.7
18 41.2
84503
9.2424
2.93
9.76
18 20 19.7
140
0 9 16.07
9 16.32
0 14 32.2
14 30.7
8.4466
9.2381
2.93
9.77
19 20 16.4
141
0 9 56.15
9 56.42
0 10 24.2
10 22.6
8.4427
9.2337
2.94
9.77
20 20 13.1
142
0 10 85.87
10 36.15
0 6 18.7
6 17.0
8.4387
9.2293
2.94
9.78
21 20 9.9
143
0 11 15.22
11 15.52
-02 15.8
2 13.9
8.4346
9.2247
2.95
9.79
22 20 6.6
144
0 11 54.20
11 54.52
+ 0 I 44.5
1 46.5
8.4305
9.2201
2.95
9.80
23 20 3J
145
0 12 32.81
12 33.14
0 5 42.2
5 44.3
84262
9.2153
2.96
9.81
24 20 0.0
146
0 13 UJ03
13 11.38
0 9 37.3
9 39.5
84218
9.2104
2,97
9.82
25 19 56.7
147
0 13 48.86
13 49.23
0 13 29.7
13 31.9
84173
9.2053
2.98
9.89
26 19 53.4
148
0 14 26.30
14 26.68
0 17 19.3
17 21.6
84127
9.2001
2.98
9.84
27 19 50.1
149
0 15 3.34
15 3.73
0 21 6.1
21 8.5
84080
9.1947
2.99
9.84
28 19 46.8
150
0 15 39.97
15 40.37
0 24 50.0
24 52.5
8.4031
9.1891
3.00
9.85
29 19 43.5
151
0 16 16.18
16 16.60
0 28 31.1
28 33.6
8.3981
9.1833
9i)l
9.8«
30 19 40.2
152
0 16 51.97
16 52.40
0 32 9.2
32 11.8
8.3930
9.1774
9X)1
9.86
31 19 36.8
153
0 17 27.33
17 27.77
0 35 44.3
35 47J0
8.3877
9.1713
9.02
9.87
Jane 1 19 33.4
154
0 18 2.26
18 2.70
0 39 164
39 19.1
8.3822
9.1651
3.03
9,87
2 19 30.1
155
0 18 36.74
18 37.19
0 42 454
42 48.2
8.3766
9.1586
303
9.88
3 19 26.7
156
0 19 10.77
19 11.23
0 46 11.3
46 14.1
8.3708
9.1520
8.04
9.88
4 19 23.3
157
0 19 44.35
19 44.82
0 49 34.1
49 36.9
8.3648
9.1452
3.04
3.89 1
5 19 19.9
158
0 20 17.47
20 17.95
0 52 53.7
52 56.5
8.3587
9.1383
34)5
i^9
6 19 16.5
159
0 20 50.13
20 50.61
0 56 10.1
56 12.9
8.3524
9.1312
3.06
3.90
7 19 13.1
160
0 21 22.32
21 22.80
0 59 23.2
59 26.1
8.3460
9.1239
3.06
3.90
8 19 9.7
161
0 21 54.03
21 54.51
1 2 33.0
2 36.0
8.3394
9.1164
3.07
3.91
9 19 6.3
162
0 22 25.25
22 25.74
1 6 39.6
6 42.6
8.3327
9.1086
8.07
9,91
10 19 2.9
163
0 22 55.99
22 5648
1 8 42.9
8 45.8
8.3257
9.1006
3.07
9.91
U 18 59.5
164
0 23 26.23
23 26.73
1 11 42.7
11 45.6
8.3186
9.0923
3.08
9.92
12 18 56.1
165
0 23 55.97
23 56.47
1 14 39.1
14 42.0
8J113
9.0838
3.08
9.92
13 18 52.6
166
0 24 25.21
24 25.71
1 17 32.0
17 34.9
8.3038
9.0751
3.09
3.92
14 18 49.2
167
0 24 53.94
24 5443
1 20 21.5
20 24.3
8.2961
9.0661
3.09
9.93
15 18 45.7
168
0 25 22.15
25 22.64
1 28 74
23 10.2
8.2881
9.0569
310
9.99
16 18 42.2
169
0 25 49.84
25 50.33
1 25 49.8
25 52.6
8.2799
9.0474
3.10
3.94
17 18 38.7
170
0 26 17.01
26 17.50
1 28 28.6
28 314
8.2715
9.0376
3.11
9.94
18 18 35.2
171
0 26 43.64
26 44.13
1 31 3.8
31 6.6
8.2628
9.0275
3.11
9,95
19 18 31.7
172
0 27 9.73
27 10.22
1 33 35.3
33 38.1
8.2538
9.0170
3.12
9.95
20 18 28.2
173
0 27 35.28
27 35.77
1 36 3.2
36 5.9
8.2445
9.0062
3.12
9.96
21 18 24.7
174
0 28 0.28
28 0.76
1 38 274
38 30.1
8.2348
8.9949
3.13
9.96
22 18 21.2
175
0 28 24.72
28 2.M9
1 40 47.9
40 50.5
8.2247
8.9832
9.13
9.97
23 18 17.7
176
0 28 48.59
28 49M
1 43 4.5
43 7.1
8.2143
8.9710
3.14
9.97
24 18 14.1
177
0 29 11.89
29 12.36
1 45 17.2
45 19.8
8.2036
8.9584
3.14
9.98
25 18 10.5
178
0 29 34.61
29 S5J07
I 47 26.1
47 28.7
8.1924
8.9453
9.15
9.98
26 18 7.0
179
0 29 56.74
29 57.20
1 49 Sl.l
49 33.6
8.1808
8.9316
9.16
9.99
27 18 3.4
180
0 30 18.28
30 18.73
1 61 32.1
51 34.6
8,1688
8.9173
9.16
9.99 ,
28 17 59.8
181
0 30 39.22
90 39.66
1 53 29.1
53 31.6
8.1564
8.9024
9.16
4.00 1
29 17 56.2
182
0 30 59.55
30 59.98
1 55 22.0
55 24.5
8.1434
8.8868
3.17
4M '
30 17 52.6
183
0 31 19.27
31 19.79
1 57 10.9
57 13.3
8.1298
8.8704
9,17
4,00
31 17 49.0
184
0 31 38.38
31 38.78
+ 1 58 55.7
58 58i)
+8.1157
+8.8532
-318
-4U)I '
Von. — Tbe Tnnrili, Id Mu 4, OMW vpott Iba
Dij fnoadlBt ttM MM ftar whkii Ibi7 ■!• fifw.
JUPITER, 1856.
353
FOR WASHINGTON SIDEREAL NOON
AND
MERIDIAN TRANSIT. ]
Bight^£c^aloii.
An^arent DeoUiuttion.
Lew. Coefficient of 1
in Sidenal MinutM.
Log. Ooettdent
otn. \
M«ui Bolftr TtnM
of
Side-
real
HaiidiaaTniiiU.
Dkte.
At
SkleiwlOh.
At
Tniuit.
At
SidenalOh.
At
Tnnait.
InR.A.
In Dm.
InB.A.
In Deo.
d h m.
h. m. 0.
m. f
O 1 f<
1 II
July 1 17 49.0
184
0 31 38.38
31 38.78
+ 1 58 55.7
58 58.0
+8.1157
+8.8532
-3.18
-4X)I
2 17 45.4
185
0 31 56.86
31 57.25
2 0 36.3
0 38.5
8.1010
8.8353
3.18
4.01
3 17 41.7
186
0 32 14.70
32 15.09
2 2 12.7
2 14.8
8.0855
8.8164
3.19
4.01
4 17 38.1
187
0 32 31.91
32 32.29
2 3 44.9
3 46.9
8.0693
8.7964
3.19
4.01
5 17 340^
188
0 32 48.48
32 48.8.')
2 5 12.9
5 14.8
8.0523
8.7754
3.19
4.01
6 17 30.8
189
0 33 4.40
33 4.76
2 6 36.6
6 38.4
8.0347
8.7532
3.20
4.01
7 17 27.1
190
0 33 19.67
33 20.02
2 7 56.1
7 57.8
8.0161
8.7299
3.20
4.01
8 17 23.4
191
0 33 34.28
33 34.63
2 9 11.3
9 12.8
7.9965
8.7052
3.20
4.01
9 17 19.7
192
0 33 48.24
33 48.57
2 10 22.1
10 23.6
7.9760
8.6785
3.20
4.01
10 17 16.0
193
0 34 1.53
34 1.85
2 11 28.6
11 30.0
7.9542
8.6498
3.21
4J02
11 17 18.3
194
0 34 14.16
34 14.46
2 12 30.7
12 32.1
7.9313
8.6195
3.21
4.02
12 17 8.6
195
0 34 26.12
34 26.40
2 13 2SA
13 29.8
7.9068
8.5866
3J21
4.02
13 17 4.9
196
0 34 37.40
34 37.66
2 14 21.9
14 23.1
7.8808
8.5509
3.21
4.02
14 17 1.1
197
0 34 48.00
34 48.24
2 15 10.8
15 12.0
7.8528
8.5116
3.22
4.03
15 16 57.3
198
0 34 57.92
34 58.14
2 15 55U3
15 56.4
7.8228
8.4686
3.22
4.03
16 16 53.5
199
0 35 7.15
35 7.36
2 16 35.4
16 36.4
7.7903
8.4203
3.22
4.03
17 16 49.7
200
0 35 15.69
35 15.89
2 17 ll.l
17 11.9
7.7549
8.3658
3.22
4.04
18 16 45.9
201
0 35 23.54
35 23.72
2 17 42.3
17 42.9
7.7163
8.3029
3.23
4.04
19 16 42.1
202
0 35 30.69
35 30.85
2 18 9.0
18 9.5
7.6737
8.2290
3.23
4.04
20 16 38.3
203
0 35 37.13
35 37.28
2 16 31.1
18 31.5
7.6263
8.1389
3.23
4.04
21 16 34.5
204
0 35 42.87
35 43.00
2 18 48.7
18 49.0
7.5726
8.0249
3.24
4.05
22 16 30.6
205
0 35 47.90
35 48.01
2 19 1.7
19 1.9
7.5121
7.8700
3.24
4X)5
23 16 26.7
206
0 35 52.21
35 52.31
2 19 10.2
19 10.3
7.4394
7.6270
3.24
4.05
24 16 22.8
207
0 35 55.81
35 55.89
2 19 14.1
19 14.0
7.3516
+7.0249
3.24
4.05
25 16 18.9
208
0 35 58.68
35 58.75
2 19 13U5
19 13.2
7.2413
-7.3260
3.24
4.05
26 16 15.0
209
0 36 0.83
36 0.88
2 19 7.9
19 7.8
7.0927
7.7239
3.25
4.05
27 16 11.1
210
0 36 2.25
36 2.29
2 18 58.0
18 57.7
6.8639
7.9289
3.25
4.05
28 16 7.2
211
0 36 2.94
36 2.97
2 18 43.4
18 43.0
+6.3569
8.0689
3.25
4.05
29 16 3.3
212
0 36 2.91
36 2.91
2 18 24.2
18 23.7
-6.4410
8.1746
3J25
4.05
30 15 59.3
213
0 36 2.14
36 2.12
2 18 0.4
17 59.7
6.8918
8.2595
3.25
4.05
31 15 55.3
214
0 36 0.65
36 0.61
2 17 31.9
17 31.1
7.1082
8.3302
3.25
4.05
Aug. 1 15 51.4
215
0 35 58.43
35 58.37
2 16 58.8
16 57.9
7.2536
8.3906
3.25
4.05
2 15 47.4
216
0 35 55.48
35 55.40
2 16 21.1
16 20.1
7.3633
8.4435
3.25
4.04
3 15 43.4
217
0 35 51.80
35 51.70
2 15 38.8
16 37.7
7.4485
8.4905
3.24
4.04
4 15 39.4
218
0 35 47.40
35 47.28
2 14 51.9
14 50.7
7.5202
8.5328
3.24
4.04
5 15 35.4
219
0 35 42.27
35 42.14
2 14 0.5
13 59St
7.5816
8.5714
3.24
4.04
6 15 31.4
220
0 35 36,42
35 36.27
2 13 4.6
13 3.1
7.6350
8.6068
3.24
4.03
7 15 27.4
221
0 35 29.85
35 29.68
2 12 4.2
12 2.6
7.6824
8.6391
3.23
4.03
8 15 23.3
222
0 35 22.57
35 22.38
2 10 59.3
10 57.6
7.7248
8.6687
3.23
4.03
9 15 19.3
223
0 35 14.58
35 14.37
2 9 50.0
9 48.2
7.7632
8.6960
3.23
4.03
10 15 15.2
224
0 35 5.88
35 5.65
2 8 36.3
8 34.4
7.7983
8.7216
3.23
4.02
11 15 11.1
225
0 34 56.48
34 56.23
2 7 18.3
7 16.3
7.8306
8.7455
3.22
4.02
12 15 7.0
226
0 34 46.39
34 46.12
2 5 56.0
5 53.9
7.8606
8.7682
3.22
4.02
13 15 2.9
227
0 34 35.60
34 35.32
2 4 29.4
4 27.3
7.8885
8.7897
3.22
4.01
14 14 58.8
228
0 34 24.13
34 23.84
2 2 58.6
2 56.4
7.9145
8.8099
3.22
4.01
15 14 54.7
229
0 34 11.97
34 11.67
2 1 23.6
1 21.3
7.9388
8.8290
3.21
4.01
16 14 50.5
230
0 33 59.13
33 58.82
1 59 44.5
59 42.1
7.9616
8.8471
3.21
4.00
17 14 46.4
231
0 33 45.62
33 45.30
1 58 1.2
57 58.8
7.9831
8.8641
3.21
4.00
18 14 42.2
232
0 33 31.44
33 31.11
1 56 13.9
56 11.4
8.0033
8.8804
3.21
3.99
19 14 38.0
233
0 33 16.61
33 16 26
1 54 22.6
54 20.0
8.0224
8.8958
3.20
3.99
20 14 33.8
234
0 33 1.13
33 0.77
1 52 27.3
52 24.7
8.0405
8.9105
3.20
3.98
21 14 29.6
235
0 32 45.01
32 44.63
1 50 28.1
50 25.5
8 0577
8.9247
3.19
3.98
22 14 25.4
236
0 32 28.25
32 27.86
1 48 25.1
48 22.4
8.0741
8.9383
3.19
3.97
23 14 21.2
237
0 32 10.86
32 10.46
1 46 18.3
46 15.5
8.0897
8.9514
3.18
3.96
24 14 16.9
238
0 31 52.85
31 52.44
1 44 7.7
44 4.9
8.1045
8.9637
3.17
3.95
25 14 12.7
239
0 31 34.23
31 33.82
1 41 53.5
41 50.6
8.1183
8.9754
3.17
3.94
26 14 8.5
240
0 31 15.02
31 14.60
1 89 35.7
39 32.7
8.1316
8.9864
3.16
3.93
27 14 4.2
241
0 30 55.23
30 54.79
1 37 14.4
37 11.4
8.1443
8.9967
3.15
3.92
28 13 59.9
242
0 30 34.86
30 34.42
1 34 49.8
34 46.7
8.1564
9.0067
3.14
3.91
29 13 55.6
243
0 30 13.94
30 13.50
1 32 21.9
32 18.7
8.1679
9.0163
3.13
3.90
30 13 51.3
244
0 29 52.47
29 52.02
1 29 50.8
29 47.5
8.1789
9.0255
3.12
3.88
31 13 47.0
245
0 29 30.47
29 30.01
+ 1 27 16.5
27 13.2
-8.1893
-9.0342
-3.10
-3.86
45
354
JUPITER, 1856.
FOR WASHINGTON SIDEREAL NOON
AND ]
\fERIDIAN TRANSIT. j
Mflui SoUr Time
of
Side-
Appennt
Bi^tAieeiuloa.
Log.Coefflckntori
MeiidiMiXniuU.
Date.
At
SkleraalOh.
At
Traodt.
At
SidenelOh.
At
Traodt.
InK.A.
In Dm.
Jiin.JL
. ImSK.
(L
h. m.
h. m. t.
m. f.
O 1 11
1 It
Septl
13 42.7
246
0 29 7.95
29 7.49
+ 1 24 39.2
24 35.9
-8.1990
-9.0424
-3.0«
-3J4
2
13 38.4
247
0 28 44.93
28 44.48
1 21 59.0
21 55.7
8.2083
9.0500
3j07
3J2
3
13 34.1
248
0 28 21.43
28 20.98
1 19 16.1
19 12.8
8.2170
9.0573
3j06
3J0
4
13 29.8
249
0 27 57.46
27 57.02
1 16 30.5
16 27.3
8.2253
9.0644
3XH
3.78
5
13 25.4
250
0 27 33.05
27 32.60
1 13 42.4
13 39.2
8.2331
9.0705
3.0S
8.76
6
13 21.1
251
0 27 8.21
27 7.75
1 10 51.9
10 48.7
8.2404
9.0764
3.0G
3.74 1
7
13 16.7
252
0 26 42.95
26 42.48
1 7 59.1
7 55.9
8.2474
9.0820
2.98
8.72'
1 8
13 12.3
253
0 26 17.29
26 16.82
1 5 4.1
5 1.0
8.2540
9.0872
2.96
3w70
1 9
13 7.9
254
0 25 51.25
25 50.79
1 2 7.1
2 4.0
8.2602
9X>921
2J94r
SJSTl
10
13 3.6
255
0 25 24.86
25 24.40
0 59 8.2
59 5.1
8.2659
9X)966
2J92
364:
11
12 59.2
256
0 24 58.13
24 57.67
0 56 7.5
56 4.4
8.2713
9.1007
2.90
SJl
13
12 54.8
257
0 24 31.08
24 30.62
0 53 5.1
53 2.0
8.2763
9.1045
2.87
3.58
13 12 50.4
258
0 24 3.72
24 3.26
0 50 1.1
49 58.0
8.2810
9.1080
S.84
3.55 1
14 12 46.0
259
0 23 36.08
23 35.62
0 46 55.7
46 52.6
8.2853
9.1113
2.61
3.51
15
12 41.6
260
0 23 8.17
23 7.72
0 43 49.0
43 45.9
8.2893
9.1142
2.78
3.46
16 12 37.2
261
0 22 40.01
22 39.57
0 40 41.2
40 38.1
8.2930
9.1168
2.76
340
17
12 32.8
262
0 22 11.63
22 11.19
0 37 32.3
37 29.3
8.2963
9.1190
2.71
334
18
12 28.4
263
0 21 43.05
21 42.61
0 34 22.5
34 19.6
8.2993
9.1209
2.66
3.25
19
12 24.0
264
0 21 14.28
21 13.84
0 31 11.9
31 9.1
8.3019
9.1225
2.61
3.13
20
12 19.6
265
0 to 45.34
20 44.91
0 28 0.7
27 57.9
8.3042
9.1237
2.56
2S9'
21
12 15.2
266
0 20 16.25
90 15.83
0 24 49.0
24 46.3
8J062
9.1246
2.49
-*83
22
12 10.8
267
0 19 47.04
19 46.63
0 21 37.0
21 34.3
8.3080
9.1252
2.39
23
12 6^
268
0 19 17.73
19 17.33
0 18 24.8
18 22.2
8.3095
9.1255
2.25
24
12 2.0
269
0 18 48.34
18 47.96
0 15 12.6
15 10.0
8.3106
9.1254
2J07
25
11 57.6
270
0 18 18.90
18 18.53
0 12 a4
11 57.9
BMIS
9.1250
-1.86
+2.78
26
11 53.2
271
0 17 49.43
17 49.06
0 8 48.5
8 46.1
8.3116
9.1242
2.96
27
11 48.8
272
0 17 19.94
17 19.58
0 5 37J0
5 34.7
8.3115
9.1231
312
28
11 44.4
273
0 16 50.47
16 50.12
•1. 0 2 26.1
2 23.8
8.3110
9.1217
3.25
29 11 39.9
274
0 16 21.04
16 20.70
-00 44.1
0 46.3
8.3102
9.1199
+2.22
335
30
11 35.5
275
0 15 51.67
15 51.34
0 S 53JS
3 55.6
8.3090
9.U78
2.34
342
Oct 1
11 31.1
276
0 15 22.39
15 22.07
0 7 1.8
7 8.8
8.3076
9.1154
2.44
348
2
11 26.7
277
0 14 53.22
14 52.91
0 10 8.9
10 10.9
8.3057
9.1125
2.52
3.53 .
3
11 22.2
278
0 14 24.18
14 23.88
0 13 14.7
13 16.6
8.3085
9.1092
2.59
357
4
11 17.8
279
0 13 55.30
13 55.01
0 16 19.0
16 20.8
6.3010
9.1054
2.65
3.60
5
11 13.4
280
0 13 26.60
13 26.32
0 19 21.7
19 23.4
8.2981
9.1012
2.70
363
6
11 9.0
281
0 12 58.09
12 57.83
0 22 22.6
22 24.2
8.2949
9X)968
2.74
3.66
7
11 4.6
282
0 12 29.80
12 29.56
0 25 21.5
25 23.1
8.2914
9.0919
2.78
3.69
8
11 0.2
283
0 12 1.75
12 1.53
0 28 18.4
28 20.0
8.2876
9.0868
2.81
3.72!
9
10 55.8
284
0 11 33.97
11 33.76
0 31 13.1
31 14.6
8.2834
9.0813
2.84
3.75
10
10 51.4
285
0 11 6.47
11 6.27
0 34 5.5
34 6.9
8.2789
9.0755
2.87
3.77
11
10 47.0
286
0 10 39.27
10 39.08
0 36 55.6
36 56.8
8.2737
9.0692
2.89
3.79'
12
10 42.6
287
0 10 12.40
10 12.22
0 39 43.1
39 44.3
8.2682
9.0626
2.92
3.81
13
10 38.2
288
0 9 45.87
9 45.70
0 42 28.0
42 29.1
8.2624
9X)555
2.94
3J3;
14
10 33.8
289
0 9 19.70
9 19.54
0 45 10.1
45 11.1
8.2562
9J0479
2^6
385
15
10 29.5
290
0 8 53.91
8 53.76
0 47 49.3
47 50.2
8.2496
9.0399
2.98
3.86
16
10 25.1
291
0 8 28.51
8 28.38
0 50 25.5
50 26.4
8.2426
9.0814
3.00
3.88
17
10 20.7
292
0 8 3.53
8 3.41
0 52 58.6
52 59.5
8.2352
9.0224
8i>2
3.90
18
10 16.4
293
0 7 38.98
7 38.86
0 55 28.5
55 29.4
8.2274
9.0129
3.04
391
19
10 12.1
294
0 7 14.87
7 14.75
0 57 55.1
57 55.9
8.2192
9.0028
3J06
3.92,
20
10 7.8
295
0 6 51.22
6 51.11
1 0 18.8
0 19.0
8.2106
8.9920
3J0S
3.94
21
10 3.5
296
0 6 28.06
6 27.96
1 2 38.0
2 38.6
8.2014
8.9808
3.09
3.95
22
9 59.2
297
0 6 5.40
6 6.31
1 4 54.1
4 54.6
ai917
8.9691
3.10
336
23
9 54.9
298
0 5 43.26
5 43.17
1 7 6.4
7 6.9
8.1815
8.9568
3.11
3.97
24
9 50.6
299
0 5 21.65
6 21.57
1 9 14.9
9 15.4
8.1707
8.9438
3.13
398
25
9 46.3
300
0 5 0.59
5 0.52
1 11 19A
11 19.9
8.1593
8.9300
3.14
339
26
9 42.0
301
0 4 40.09
4 40.08
I 13 19.9
13 20.4
8.1474
8.0156
8.15
4.00
27
9 37.8
302
0 4 20.17
4 20.11
1 15 16.4
15 16.8
8.1346
8.9002
3.16
4m
28
9 33.5
303
0 4 0.84
4 0.79
1 17 8.7
17 9.0
8.1211
8.8834
3.17
AJ02
29
9 29.2
304
0 3 42J2
3 42.07
1 18 56.7
18 57.0
8.1068
8.8659
8.18
4.03
30
9 25.0
305
0 3 24.02
3 23.97
1 20 40.4
20 40.7
8.0919
8.8481
3.19
4M^
31
9 20.8
306
0 3 6.55
3 6.51
1 22 19.7
22 19.9
8.0760
8.8287
3.20
4M\
32
9 16.6
307
0 2 49.73
2 49.69
- 1 23 54.5
23 54.7
-8.0591
-8.8074
+3JW
44.05
JUPITER, 1856.
355
FOR WASHINGTON SIDEREAL NOON
AND
MERIDIAN TRANSIT. |
HMD Solar Tfana
of
Side-
Ml
Btght'Soraakm.
Apparaot DeeUiiatkMi.
Loff.CoefflciMitofl
in &knal Mlnates.
Log. CoeBdent 1
ofn.
Meridiaa Tnoilt
Date.
At
mderealOi.
At
TnoBit.
At
auHMioh.
At
TniMit.
InB.A.
In Dee.
InB.A.
In Dee.
d.
h. m.
h. m. •.
m. f.
O 1 H
1 w
Not. 1
9 16.6
307
0 2 49.73
2 49.69
- 1 23 54.5
23 54.7
-8.0591
-8.8074
+3.20
+4i)5
2
9 12.4
308
0 2 83.56
2 33.53
1 25 24.7
25 24.9
8.0413
8.7851
3.21
4.05
3
9 8.2
309
0 2 18.06
2 18.03
1 26 50.3
26 50.5
8.0226
8.7617
3.21
4.06
4
9 4.0
310
0 2 3.23
2 3.20
1 28 11.3
28 11.4
8.0027
8.7371
3.22
4.06
5
8 59.8
311
0 1 49.08
1 49.06
1 29 27.6
29 27.6
7.9815
8.7103
3.22
4.06
6
8 55.6
312
0 1 85.63
1 35.61
1 30 39.1
30 89.1
7.9590
8.6816
3.22
4.06
7
8 51.5
313
0 1 22.87
1 22.85
1 31 45.9
31 45.9
7.9352
a6505
3.23
4.06
8
8 47.4
314
0 1 10.82
1 10.80
1 32 47.9
32 47.9
7.9097
8.6171
3.23
4.07
9
8 43.3
315
0 0 59.48
0 59.46
1 33 45.1
83 45.1
7.8826
8.5802
3.24
4.07
10
8 39.2
ai6
0 0 48.85
0 ASM
1 34 37.5
84 87.4
7.8533
8.5401
3.24
4.07
11
8 35.1
317
0 0 88.94
0 88.94
1 35 25.0
85 24.9
7.8218
8.4954
3.24
4.07
12
8 31.0
818
0 0 29.75
0 29.75
1 36 7.6
36 7.5
7.7874
8.4450
3J25
4.07
13
8 26.9
819
0 0 21.29
0 21.29
1 36 45.2
36 45.2
7.7496
8.3878
8.25
4.07
14
8 223
320
0 e 13.57
0 13.57
1 37 17.9
37 17.9
7.7079
8.3216
3.25
4.08
15
8 18.8
821
Q 0 6.59
0 6.59
1 37 45.7
87 45.7
7.6617
8.2439
3.25
4.08
16
8 14.8
822
0 0 0.35
0 0.35
1 38 8.5
88 8.5
7.6097
U1492
3.26
4.08
17
8 10.8
828
28 59 54.86
59 54.86
1 38 26.3
88 26.3
7.5505
8.0278
3.26
4.08
18
8 6.8
824
28 59 50.12
59 50.12
1 38 39.2
38 89.2
7.4818
7.8576
3M
4.08
19
8 2.8
825
23 59 46.13
59 46.13
1 38 47.1
88 47.1
7.4001
7.5741
8.26
4J09
20
7 68.8
826
23 59 42.89
59 42.89
1 38 50.0
38 50X)
7.2988
-6.4487
8.26
4.09
21
7 54.8
327
23 59 40.40
59 40.40
1 38 47.9
38 47.9
7.1649
+7.5044
3.26
4.09
22
7 50.8
328
23 59 38.67
59 38.67
1 38 40.8
38 40.8
6.9704
7.8239
3.27
4j09
23
7 46.9
329
23 59 37.70
59 37.70
1 38 28.7
88 28.7
-6.6088
8.0060
3.27
4.09
24
7 43.0
330
23 59 87.49
59 87.49
1 38 11.6
38 11.5
+6.0847
8.1345
3.27
4.09
25
7 39.1
.331
23 59 38.04
59 38.04
1 37 49.4
87 49.3
6.8125
8.2335
3.27
4.09
2«
7 85.2
T12
23 59 89.36
59 39.36
1 37 22.2
37 22.1
7.0708
8.3141
8.27
4.09
27
7 31.3
;W3
23 59 41.44
59 41.44
1 36 60JQ
86 49.9
7.2317
8.8818
8.27
4.08
28
7 27.4
334
23 59 44.28
59 44.28
1 36 12.8
36 12.8
7.3489
8.4403
3.27
4.08
29
7 23.6
335
23 59 47.88
59 47.88
1 35 30.6
35 80.7
7.4410
8.4915
3.27
4.08
30
7 19.6
836
23 59 52.24
59 52.24
1 34 43.5
34 43.6
7.5170
8.5372
3.27
4.08
Dec. 1
7 15.8
837
23 59 57.35
59 57.36
1 33 51.5
33 61.5
7.5814
8.5781
3.26
4.07
2
7 12.0
888
0 0 3.22
0 3.23
1 32 54.5
32 54.6
7.6372
8.6154
8.26
4.07
3
7 8.1
839
0 0 9.84
0 9.85
1 31 52.6
31 52.8
7.6868
8.6496
8.26
4.07
4
7 4.3
840
0 0 17.20
0 17.21
1 30 45.9
30 46.1
7.7302
a6812
3.25
4.07
5
7 0.5
341
0 0 25.31
0 25.31
1 29 34.4
29 84.6
7.7698
a7104
3.25
4.06
6
6 56.7
842
0 0 84.16
0 34.15
1 28 18.2
28 18.3
7.8059
a7375
3.26
4.06
7
6 52.9
848
0 0 43.74
0 43.73
1 26 57.2
26 57.2
7.8898
8.7626
3.24
4.06
8
6 49.1
844
0 0 54i)4
0 54.04
1 25 31.5
25 3\^
7.8699
8.7862
3.24
4.05
9
6 45.4
845
0 1 5.07
1 5.07
1 24 1.1
24 l.l
7.8984
8.8085
3.24
4.05
10
6 41.7
346
0 1 16.82
1 16.82
1 22 26.1
22 26.1
7.9248
a8296
3.23
4.04
11
6 38.0
847
0 1 29.28
1 29.28
1 20 46.5
20 46.5
7.9493
8.8495
3.23
4.04
12
6 34.3
348
0 1 42.45
1 4245
1 19 2.4
19 2.3
7.9723
&8686
3.23
4.04
13
6 30.6
849
0 1 56.32
1 56.82
1 17 13.8
17 13.6
7.9942
8.8865
3.23
4.08
14
6 26.9
350
0 2 10.89
2 10.89
1 15 20.7
15 20.5
8.0150
8.9036
3.22
4J03
15
6 23.2
851
0 2 26.15
2 26.15
1 13 23.1
13 23.0
8.0346
a9199
3.22
4.03
16
6 19.5
852
0 2 42.09
2 42.10
I 11 21.2
11 21.0
8.0634
8.9355
3.22
4.02
17
6 15.9
353
0 2 58.72
2 58.74
1 9 14.9
9 14.7
8.0713
8.9504
3.21
4.02
18
6 12.3
354
0 8 16.08
3 16.06
1 7 4.3
7 4.0
8.0884
8.9647
8.21
4.02
19
6 8.6
355
0 3 34.02
3 34 05
1 4 49.4
4 49.0
8.1047
8.9784
3.21
4.01
20
6 5.0
856
0 3 52.67
3 52.71
1 2 80.8
2 29.8
8.1202
a9916
3.20
4.01
21
6 1.4
857
0 4 11.98
4 12.08
1 0 6.9
0 6.4
8.1350
9.0043
3.20
4.00
22
9 57.8
858
0 4 31.95
4 32.01
0 57 39.3
67 38.8
8.1493
9.0166
8.20
4.00
23
6 54.2
859
0 4 52.57
4 52.64
0 55 7.6
55 7.0
8.1629
9X)284
8.19
8.99
24
5 50.6
860
0 5 13.84
5 18.92
0 52 31.8
52 31.2
8.1760
9.0898
8.19
3.99
25
5 47.0
861
0 5 85.75
5 85.84
0 49 524)
49 51.3
8.1885
9.0608
8.19
3.98
26
5 43.5
362
0 5 58.29
5 58.39
0 47 8.1
47 7.4
8.2006
9.0614
8.18
3.98
27
5 39.9
868
0 6 21.46
6 21.57
0 44 20.2
44 19.5
8.2123
9.0716
3.18
3.97
28
5 36.4
864
0 6 45.26
6 45.38
0 41 28.5
41 27.7
8.2236
9.0815
3.18
3.97
29
5 32.9
365
0 7 9.68
7 9.81
0 88 32.9
38 32.0
8.2346
9.0910
3.17
3.96
80
5 29.4
866
0 7 34.70
7 84.85
0 35 33.5
36 32.5
8.2453
9.1001
3.17
3.96
31
9 25.9
367
0 8 0.38
8 0.49
0 32 30.3
32 29 2
8.2554
9.1090
3.17
3.96
82
9 22.4
368
0 8 26.55
8 26.72
- 0 29 23.3
29 22.2
+8.2649
+9.1179
+8.16
+3.95
Non-'Ibe Tnnaitf, from Nor. 17 to Dee. 1, ooear upon the Slderaal Daj pieeeding the one for which they are giTea.
366
SATURX, 1856.
FOR WASHINGTON SIDEREAL NOON
AND ]
MERIDIAN TRANSIT.
Bight Ajcwnaton.
Lof. Ooeffldentofl
Log.Oniarlint
oTlt.
Bf0Ui Solar Time
of
Sid*.
Meridian Tnitfit.
Date.
At
Sidereal Oh.
At
Tnndt.
At
OdenalOh.
At
Tnoait.
In R.A.
In Dae.
InRJl.
In Dae
d.
h. m.
h. m. a.
m. a.
O 1 H
1 If
Jan. 1
10 56.2
1
5 40 14.43
40 9.66
+22 11 16.1
11 15.8
-8.1469
- 6.987
+2.61
+2J8
2
10 51.9
2
5 89 54.33
39 49.61
22 U 14.7
11 UA
8.1431
6.954
2.63
2.44 ,
8 10 47.7
3
5 89 34.40
39 29.73
22 11 13.5
11 13.2
8.1391
6.920
2.66
2.50 1
4
10 43.4
4
5 39 14.65
39 10.03
22 11 12.3
11 12.1
8.1347
6.840
2.68
2.56
5
10 39.1
5
5 38 55.11
38 50^
22 11 11.3
11 11.1
8.1290
6.795
2.70
2.62
6
10 34.9
6
5 38 35.79
38 31.28
22 11 10.4
11 10.2
8.1251
6.744
2.72
2.68
7
10 30.6
7
5 38 16.70
38 12.25
22 11 9.7
11 9.5
8.1199
6.685
2.74
2.74
8
10 26.4
8
5 37 57.84
37 5346
22 11 9.0
11 8.9
8.1144
6.581
2.75
2.79
9 10 22.2
9
5 87 39.22
37 34.90
22 11 8.5
11 8.4
8.1088
6443
2.77
2J3
10 10 17.9
10
5 87 20.87
37 16.60
22 11 8.0
11 8.0
8.1018
6.288
2.78
2.85
11
10 13.7
11
5 37 2.79
86 58.60
22 11 7.7
11 7.7
8.0952
- 6.840
2.80
2.86
12
10 9.5
12
5 36 44.99
36 40.87
22 11 7.7
11 7.7
8.0884
+ 6.840
2.82
2.86
13
10 5.2
13
5 36 27.49
36 23.43
22 11 73
11 7.9
8.0811
6.288
2.84
2.86
14
10 1.0
14
6 36 10.29
36 6.30
22 11 8j0
11 8.1
8.0736
6443
2.85
2.86
15
9 56.8
15
5 35 53.39
35 49.48
22 11 8.4
11 8.6
9M57
6.581
2.87
2.86
16
9 52.6
16
5 35 36.78
35 32.96
22 11 8.9
11 9.1
8.0576
6.685
2.89
2.86
17
9 48.4
17
5 35 20.49
85 16.76
22 11 9.7
11 9.9
8X>488
6.795
2J0
2.86
18
9 44.2
18
5 35 4.54
35 0.90
22 11 10.7
11 11.0
8.0397
6.901
2.91
2.86
19
9 40.0
19
5 34 48.96
34 4.5.40
22 11 11.8
11 12.2
8.0299
6.987
2.92
2.86
20
9 35.8
20
5 34 83.75
34 30.27
22 11 13.2
11 13.6
8.0197
1XH5
2.98
2.86 ;
21
9 31.7
21
5 34 18.89
34 15.50
22 11 14.8
11 15.2
a0089
7.101
2.94
2.86
22
9 27.5
22
5 34 4.38
34 1.07
22 11 16.7
11 17.2
7.9979
7.152
2.95
2.86
23
9 23.3
23
5 33 50.22
33 47.00
22 11 18.8
11 19.3
7.9862
7.202
2.96
2.86 .
24
9 19.2
24
5 33 36.46
33 33.33
22 11 21.1
11 21.7
7.9742
7.245
2.96
2.86 :
25
9 15.0
25
5 33 23.09
33 20.05
22 11 23.8
11 24.4
7.9616
7.288
2.97
2.86
26
9 10.9
26
5 33 10.11
33 7.16
22 11 26.7
11 27.4
7.9486
7.332
2.98
2.86
27
9 6.7
27
5 32 57.52
32 54.67
22 11 29.9
11 30.7
7.9348
7.372
2.99
2.86
28
9 2.6
28
5 32 45.32
32 42.57
22 11 33.4
11 34.2
7.9203
7.407
SJOO
2.86
29
8 58.4
29
5 32 33..55
32 30.89
22 11 37.2
11 38.1
7.9049
7.437
3.00
2.86
SO
8 54.3
30
5 32 22.20
32 19.63
22 11 41.3
11 42.2
7.8890
7465
3.01
2.86
81
8 50.2
81
5 32 11.26
32 8.80
22 11 45.6
11 46.6
7.8729
7.494
sm
%M
Feb. 1
8 46.1
32
5 82 0.75
31 58.39
22 11 50.2
11 51.3
7.8540
7.522
84)9
2.86
2
8 42.0
33
5 81 50.67
31 48.42
22 11 .55.1
11 56.3
7.8352
7.551
3.03
2.86 >
8
8 37.9
34
5 31 41.04
31 38.89
22 12 0.4
12 1.6
7.8154
7.581
SM
2.86
4
8 33.8
35
5 81 31.86
31 29.81
22 12 6.0
12 7.3
7.7942
7.611
SX>4
2.86
5
8 29.7
86
5 81 23.12
31 21.16
22 12 12.0
12 13.4
7.7713
7.6S3
Sj04
2.86
6
8 25.7
87
5 31 14.83
31 12.99
22 12 18.3
12 19.8
7.7478
7.655
9JH
SJ6
7
8 21.6
38
5 31 6.99
31 5.26
22 12 24.9
12 26.5
7.7218
7.677
SiM
2.86 •
8
8 17.6
39
5 30 59.62
30 57.99
22 12 31.9
12 33.5
7.6947
7.698
3.05
2.86'
9
8 13.5
40
5 30 52.72
30 51.20
22 12 39.2
12 40.9
7.6652
7.718
3.05
2.86
10
8 9.5
41
5 30 46.29
30 44.88
22 12 46.9
12 48.7
7.6335
7.738
9M
2.86
U
8 5.5
42
5 80 40.33
80 39.03
22 12 54.9
12 56.8
7.5993
7.757
8j05
SJ7
12
8 1.4
43
§30 34.85
30 33.66
22 13 3.2
13 5.2
7.5614
7.775
SM
2.88
13
7 57.4
44
5 30 29.85
30 28.76
22 13 11.8
13 13.8
7.5198
7.792
SiM
2J0
14
7 53.4
45
5 30 25.32
30 24.34
22 13 20.9
IS 23.0
7.4739
7.809
34)7
2.91
15
7 49.4
46
5 30 21.26
30 20.39
22 13 30.4
13 32.6
7.4225
7.825
3.07
t.93
16
7 45.4
47
5 30 17.69
30 16.93
22 13 40.2
13 42.5
7.3641
7.840
84)7
2.94
17
7 41.4
48
5 30 14.61
30 13.96
22 13 50.3
13 52.7
7.2968
7.856
3.07
2.95
18
7 37.5
49
5 30 12.00
30 11.47
22 14 0.7
14 3.2
7.2170
7.871
3.07
2.96
19
7 33.5
50
5 30 9.87
30 9.45
22 14 11.6
14 14.1
. 7.1169
7.886
S4)7
1.97
20
7 29.5
51
5 30 8.23
30 7.92
22 14 22.8
14 25.4
6.9865
7.898
Si)7
IM
21
7 25.6
52
5 30 7.08
30 6.88
22 14 34.4
14 37.1
6.8042
7.910
3.07
2.98
22
7 21.7
53
5 30 6.41
30 6JS2
22 14 46.2
14 49.0
-6.4839
7.922
Si)7
1.98
23
7 17.8
54
5 30 6.22
30 6.24
22 14 58.5
15 1.3
-1-5.5394
7.934
8.07
2.98
24
7 13.9
55
5 30 6.51
30 6.65
22 15 11.0
15 13.9
6.5728
7.946
34)7
1J8
25
7 10.0
56
5 30 7.29
30 7.54
22 15 23.9
15 26.9
6.8532
7.958
3,07
tM
26
7 6.1
57
5 30 8.56
30 8.92
22 15 37.2
15 40il
7.0222
7.969
8.07
tM
27
7 2.2
58
5 30 10.31
SO 10.78
22 15 50.7
15 53.9
7.1436
7.980
M7
1.98
28
6 58.3
59
5 30 12.55
30 13.13
22 16 4.7
16 7.9
7.2383
7.991
84)8
1.98
29
6 54.4
60
5 30 15.27
30 15.96
22 16 8.9
16 22J
7.3146
8.000
84)8
US
30
6 50.6
61
5 30 18.47
30 19.27
22 16 33.5
16 36.9
7.3795
8.011
3.08
1.98
81
6 46.7
62
5 80 22.16
SO 23.07
+22 16 48.4
16 51.9
+7.4359
+ 8.020
+3.08
+2.98
SATURX, 1856.
357
FOR WASHINGTON SmEREAL NOON
AND
MERIDIAN TRANSIT. ||
HMD Solar Him
of
Sid*.
Lof.Ck»ffld«ntofl
inffidoMlMinatM.
Log. OoeOdent
ofn. 1
MflridiuiTiBitflt.
Date.
At
SIdemlOh.
At
Tmnait.
At
adowioh.
At
Tmnait.
In R.A.
In Dee.
InKJL.
In Dm.
<L
h. m.
h. m. ■.
m. •.
o 1 n
1 h
Mar. 1
6 50.6
. 61
5 30 1847
30 19.27
+22 16 33.5
16 36.9
+7.3795
+ 8.011
+3.08
+2.98
2
6 46.7
68
5 30 22.16
30 23.07
22 16 484
16 51.9
7.4359
8.020
SJOS
2.98
3
6 42.9
63
5 30 26.33
30 27.35
22 17 3.7
17 7.3
74858
8.029
3.08
2.98
4
6 39.0
64
5 30 30.98
30 32.11
22 17 19.2
17 22.8
7.5306
8.038
3.07
2.98
6
6 35.1
65
5 30 36.11
30 37.35
22 17 35.1
17 38.8
7.5712
8.047
3.07
2.98
6
6 31.2
66
5 30 41.71
30 43.06
22 17 51.2
17 55.0
7.6083
8.055
3J07
2.98
7
6 87.4
67
5 30 47.79
30 49.25
22 18 7.7
18 11.6
7.6425
8.062
3.06
2.97
8
6 83.6
68
5 30 54.36
30 55.93
22 18 244
18 28.3
7.6742
8.069
3.06
2.96
9
6 19.8
69
5 31 1.40
31 3.08
22 18 41.5
18 45.5
7.7037
8.076
3.05
2.95
10
6 16.0
70
5 31 8.91
31 10.71
22 18. 58.8
19 2.8
7.7308
6.083
3.05
2.94
11
6 18.8
71
5 31 16.90
31 18.81
22 19 16.3
19 204
7.7563
8.089
3.04
2.93
12
6 8.4
78
5 31 25.36
31 27.37
22 19 34.2
19 38.3
7.7804
6.095
3.04
2.92
IS
6 4.6
73
5 31 34.28
31 36.39
22 19 52.3
19 56.5
7.8028
8.100
3.03
2.90
14
6 0.8
74
5 31 43.64
31 45.86
22 20 10.6
20 14.8
7.8240
8.105
3.03
2.89
15
5 57.0
75
5 31 53.45
31 55.79
22 20 29.1
20 334
7.8443
8.110
3.02
2.87
16
5 53.3
76
5 32 3.73
32 6.18
22 20 47.8
20 52.1
7.8633
8.115
3.02
2.86
17
5 49.5
77
5 32 14.48
32 17.01
22 21 6.7
21 11.1
7.8814
8.120
3.02
2.84
18
5 45.8
78
5 32 25.67
32 28.29
22 21 25.9
21 30.3
7.8988
8.124
3.02
2.81
19
5 42.0
79
5 32 37.28
32 40.02
22 21 45.3
21 49.8
7.9151
8.128
3.01
2.79
80
5 38.3
80
5 32 49.33
32 52.18
22 22 4.9
22 94
7.9310
8.132
SJOl
2.76
81
5 34.6
81
5 33 1.82
33 4.77
22 22 24.6
22 29.2
7.9459
8.136
3.01
2.74
88
5 30.9
82
5 33 14.74
33 17.79
22 22 44.5
22 49.1
7.9604
8.140
3.01
2.71
83
5 27.2
83
5 33 28.09
33 31.24
22 23 4.5
23 9.1
7.9742
8.143
3.01
2.68
84
5 23.5
84
5 33 41.86
33 45.11
22 23 24.5
23 29.2
7.9874
8.146
3.00
2.64
85
5 19.8
85
5 33 56.05
33 59.40
22 23 44.8
23 49.5
8.0003
8.149
3.00
2.61
86
5 16.1
86
5 34 10.67
34 14.12
22 24 5.2
24 9.9
8.0125
8.152
3.00
2.58
27
5 12.4
87
5 34 25.70
34 29.26
22 24 25.7
24 304
8.0243
8.155
3.00
2.54
88
5 8.7
88
5 34 41.15
34 44.80
22 24 46.2
24 51.0
8.0357
8.157
2.99
2.50
89
5 5.0
89
5 34 57.00
35 0.74
22 25 6.9
25 11.7
8.0469
8.159
2.99
246
30
5 1.4
90
5 35 13.25
35 17.09
22 25 27.6
25 32.5
8.0579
8.161
2.98
2.42
31
4 57.7
91
5 35 29.90
35 33.84
22 25 48.5
- 25 534
8.0683
8.163
2.98
+2.38
Apr. 1
4 54.1
92
5 35 46.96
35 51.00
22 26 9.5
26 144
8.0784
8.162
2.98
8
4 50.4
93
5 36 4.42
36 8.56
22 26 30.5
26 354
8.0882
8.162
2.97
3
4 46.8
94
5 36 22.26
36 26.50
22 26 51.5
26 56.4
8.0977
8.162
2.97
4
4 43.2
95
5 36 40.48
36 44.82
22 27 12.6
27 17.5
8.1069
8.162
2.96
5
4 39.5
96
5 36 59.09
37 3.51
22 27 33.6
27 36.5
8.1158
8.162
8.96
6
4 35.9
97
5 37 18.08
37 22.58
22 27 54.6
27 69.5
8.1244
8.162
8.95
7
4 32.3
98
5 37 37.44
37 42.03
22 28 15.6
28 20.5
8.1327
8.161
8.94
8
4 28.7
99
5 37 57.16
38 1.84
22 28 36.6
28 41.5
8.1407
8.160
2.94
9
4 25.1
100
5 38 17.24
38 22.01
22 28 57.6
29 2.5
8.1485
8.159
2.93
10
4 2\Ji
101
5 38 37.68
38 42.54
22 89 18.5
29 234
8.1560
8.158
2.92
«2.38
11
4 18.0
102
5 38 5848
39 343
88 89 39.2
29 44.1
8.1632
8.157
2.92
241
18
4 14.4
103
5 39 19.62
39 24.66
22 29 59.9
30 4.8
8.1702
8.156
2.91
2.44
13
4 10.8
104
5 39 41.10
39 46.22
22 30 20.6
30 254
8.1770
8.155
2.91
247
14
4 7.8
105
5 40 2.92
40 8.12
22 30 41.1
30 45.9
8.1836
- 8.154
2.90
2.50
15
4 3.7
106
6 40 25.07
40 30.35
22 31 1.6
31 64
8.1900
8.152
2.90
2.53
16
4 0.1
107
5 40 47.55
40 52.92
22 31 21.9
31 26.7
8.1962
8.150
2.89
2.55
17
3 56.6
108
5 41 10.36
41 15.81
22 31 42.1
31 46.9
8.2023
8.147
2.88
2.57
18
8 53.1
109
5 41 33.48
41 39.01
22 32 2.2
32 6.9
8.2083
8.144
2.88
2.59
19
3 49.6
110
5 41 56.91
42 852
22 32 22.1
32 26.8
8.2142
8.141
2.87
2.61
80
3 46.0
111
5 42 20.65
42 26.34
22 32 41.8
32 46JS
8.2199
8.137
2.86
2.63
81
3 48.5
112
5 42 44.70
42 5047
22 33 14
33 6.1
8.2255
8.133
2.85
2.64
88
3 39.0
113
5 43 9.05
43 14.91
22 33 20.8
38 2!S.5
8.2309
8.128
2.84
2.65
83
3 35.4
114
5 43 33.70
43 39.63
22 33 40.1
33 44.7
8.2361
8.123
2.83
2.66
84
3 31.9
115
5 43 58.63
44 4.64
22 33 59.1
34 3.6
8.2411
8.118
2.82
2.67
85
3 884
116
5 44 23.85
44 29.94
22 34 17.8
34 22.3
8.2459
8.112
2.81
2.68
86
3 84.9
117
5 44 49J)6
44 55.52
22 34 36.3
34 40.8
8.2507
8.106
2.80
2.70
87
3 81.4
118
5 45 15.15
45 21.38
22 34 54.7
34 59.1
8.2553
8.100
2.80
2.72
88
3 17.9
119
5 45 41.20
45 47.51
22 35 12.9
35 17.2
8.2598
8.094
2.79
2.74
89
3 UA
120
5 46 7.52
46 13.91
22 35 30.8
35 35.0
8.2642
8.088
2.79
2.76
80
3 10.9
121
5 46 34.12
46 40.57
22 35 48.3
35 52.5
8.2685
8.081
2.78
2.78
31
3 7.4
122
5 47 0.98
47 7.50
+22 36 5.5
36 9.7
+8.2727
+ 8.074
+2.77
-2.79
358
SATURjy, 1856.
FOR WASHINGTON SmEREAL NOON
AND MERIDIAN TRANSIT, !|
MgffSMMion.
Lof.OoeffldmtofI
Log. CnrfHriif 1
Hean Botar Tlma
of
MMiOiMaTnoAi.
a<i».
real
DMi.
At
SkkmlOh.
At
TSMMlt.
At
At
Tnuit
JntLA.
In Dee.
JnKJL.
1
d. h. m.
h. m. •.
m. f.
O 1 1$
1 II
Umj 1 3 7.4
122
r 5 47 0.98
47 7.50
+22 36 5.5
36 9.7
+83727
+ 8374
+2.77
-t.7« ;
2 3 4X)
123
5 47 28.09
47 34.68
22 36 22.5
36 26.6
8.2768
8.067
2.76
230l
3 3 0.5
124
5 47 55.45
48 2.11
22 36 39.3
36 433
8.2807
8360
2.76
231 t
4 a 57.0
125
5 48 23.06
48 29.79
22 36 55.7
36 59.7
8.2845
8352
2.75
232
5 S 53.5
126
5 48 50.92
48 67.72
22 37 11.8
37 16.7
8.2882
8.044
2.74
233
6 2 50.1
127
5 49 19.02
49 25.88
22 37 27.6
37 314
83918
a035
2.73
234
7 2 46.6
128
5 49 4735
49 54.27
22 37 43X>
37 463
83953
8.026
2.72
234
8 2 43.8
129
5 50 15.89
50 22.88
22 37 58.1
38 13
8.2987
8316
2.72
235
9 2 39.7
130
5 50 44.65
50 61.70
22 38 12.8
38 164
83020
8306
2.71
2.85
10 2 36.3
131
5 51 13.62
51 20.73
22 38 27.2
38 80.7
83052
7.995
2.70
236
11 2 32.8
132
5 51 42.81
51 49.98
22 38 41.3
38 44.7
83083
7384
239
237
12 2 29.4
133
5 52 12.21
52 1943
22 38 55.0
38 583
83113
7372
238
2.88
13 2 25.9
134
5 52 41.80
62 49.08
22 39 8.2
39 114
83143
7359
238
238
14 2 22.5
135
5 53 11.58
53 18.92
22 39 21 X)
39 24.1
83172
7.945
237
239
15 2 19.1
136
5 53 41.55
53 48.96
22 39 334
39 364
83200
7.930
236
2.90
16 2 15.6
137
5 54 11.71
54 19.18
22 39 454
39 483
83227
7315
235
232
17 2 12.2
138
5 54 42.06
54 49.58
22 39 57.0
39 593
83253
7398
234
233
18 2 8.8
139
5 55 12.57
65 20.14
22 40 8.1
40 103
83278
7381
233
235
19 2 5.4
140
5 65 43.24
55 50.86
22 40 18.9
40 213
83302
7361
232
2.96
20 2 1.9
141
5 56 14.08
56 21.76
22 40 29.2
40 31.7
83326
7342
231
238
21 1 58.5
142
5 66 45.10
56 52.84
22 40 39.1
40 414
83349
7322
230
2.99
22 1 55.1
14a
5 57 16.29
57 24.08
22 40 48.5
40 50.7
83371
7.801
239
330 1
23 1 51.7
144
5 57 47.63
57 55.46
22 40 574
40 593
83392
7.780
238
331 .
24 1 48.3
145
5 58 19.11
58 26.98
22 41 5.9
41 73
83411
7.759
237
3.02 !
25 1 44.9
146
5 58 50.74
58 58.65
22 41 14.1
41 16.0
83429
7.732
236
333 1
26 1 41.5
147
6 59 22.51
59 30.47
22 41 21.8
41 233
83447
7.703
235
334
27 1 38.1
148
5 59 54.42
60 2.43
22 41 28.9
41 303
83464
7374
233
3.05
28 1 34.7
149
6 0 26.45
0 34.50
22 41 35.6
41 37.1
83481
7.645
232
3.06
29 1 31.3
150
6 0 58.60
1 6.69
22 41 41.7
41 43.1
83498
7311
230
3.07
30 1 27.9
151
6 1 30.88
1 3901
22 41 474
41 48.7
83514
7372
2.49
838
31 1 24.5
152
6 2 3.29
2 11.46
22 41 52.6
41 533
83530
7.530
2.47
338
jQOe 1 1 21.1
153
6 2 35.81
2 44.02
22 41 57.3
41 583
83545
7484
245
839
2 1 17.7
154
6 3 8.43
3 16.68
22 42 14
42 23
83559
7.431
24S
339 1
3 1 14.3
155
6 3 41.14
3 49.43
22 42 5.1
42 53
83572
7372
2.40
3.10 j
4 1 10.9
156
6 4 13.96
4 22.28
22 42 84
42 9.1
83584
7302
238
3.10
5 1 7.5
157
6 4 46.88
4 55.24
22 42 11.2
42 113
83596
7320
236
3.10
6 1 4.2
158
6 6 19.90
5 28.29
22 42 134
42 133
83607
7.119
233
3.11 1
7 1 0.8
159
6 5 52.99
6 1.41
22 42 15.1
42 154
83618
6.964
231
8.11
8 0 57.4
160
6 6 26.15
6 34.61
22 42 16.3
42 164
83628
6.743
228
3.12
9 0 54X)
161
6 6 59.39
7 7.88
22 42 16 J
42 163
83637
+ 6317
236
3.12
10 0 50.6
162
6 7 32.70
7 41.22
22 42 16.8
42 163
83646
-6.141
2.22
3.13 '
11 0 47.3
163
6 8 6.06
8 14.63
22 42 16.3
42 16.1
83654
6.685
2.19
3.14
12 0 43.9
164
6 8 39.51
8 48.09
22 42 153
42 143
83661
6.919
215
3.14
13 0 40.5
165
6 9 12.90
9 21.60
22 42 13.8
42 133
83667
7.070
+2.12
3.15
14 0 37.1
166
6 9 46.51
9 55.15
22 42 11.9
42 \l^
83673
7.182
3.16
15 0 33.8
167
6 10 20.06
10 28.73
22 42 94
42 8.7
83679
7.271
3.17
16 0 30.4
168
6 10 53.69
11 2.36
22 42 63
42 5.5
83684
7350
3.17
17 0 27.0
169
6 11 27.34
11 86X)3
22 42 2.8
42 13
83689
7420
3.18 ,
18 0 23.6
170
6 12 ijoa
12 9.75
22 41 58.7
41 573
83693
7.474
318
19 0 20.3
171
6 U 34.76
12 43.50
22 41 54.2
41 523
83696
7321
8.19
20 0 16.9
172
6 13 8.58
13 17.28
22 41 49.0
41 47.7
83699
7364
330
21 0 13.5
173
6 13 42.31
13 51.08
22 41 434
41 413
83702
7.606
3.20
22 0 10.2
174
6 14 16.10
14 24.88
22 41 373
41 353
83704
7.646
331
23 0 6.8
175
6 14 49.89
14 58.69
22 41 30.6
41 283
83705
7379
331
24 0 3.4
176
6 15 23.69
15 32.50
22 41 23.5
41 213
83705
7.709
332
25 0 0.1
177
6 15 57.50
16 6.32
22 41 153
41 133
83705
7.738
332 1
25 23 56.7
178
6 16 31.31
16 40.15
22 41 73
41 54
83705
7.767
332
26 23 53.3
179
6 17 5.11
17 13.96
22 40 583
40 563
8..1704
7.794
3.22
27 23 49.9
180
6 17 38.89
17 47.75
22 40 493
40 47.1
83703
7318
332
28 28 46.6
181
6 18 12.66
18 21.53
22 40 393
40 373
83701
7.840
83i
29 28 43.2
182
6 18 46.43
18 55.31
22 40 293
40 263
83699
7.860
8.22'
80 23 39.8
183
6 19 20.18
19 29.06
+22 40 18 9
40 153
+83695
-7.881
-2.U
-331
SATURN, 1856.
359
FOR WASHINGTON SIDEREAL NOON
AND
MERIDIAN TRANSIT. |
Eit^YSSSLa.
Loff. Coefflctant ofl
inSldimal MlntttM.
Log. Coeffident 1
MflUiSotarTtnM
of
Sid«-
raa
Sfnldiaa Timndt.
D»te.
At
SldenttlOh.
At
Tnnsli.
At
BkkmlOb.
At
Tnnslt.
In BJL
In Dm.
InKJl.
In Dee.
d. h. m.
h. m. 1.
m. a.
+22 40 f .6
1 II
July 1 S3 36.5
184
6 19 53.90
20 2.79
40 4.5
+8.3690
- 7.901
-2.16
-3.19
2 83 33.1
185
6 20 27.56
20 36.45
22 39 55.9
39 62.7
8.3685
7.920
2.17
3.17
3 23 29.7
186
6 21 1.16
21 10.(»
22 39 43.5
39 403
8.3680
7337
2.19
3.14
4 23 26.4
187
6 21 34.73
21 43.62
22 39 30.8
39 274
8.3674
7.952
2.20
3.12
5 23 23.0
188
6 22 8^7
22 17.16
22 39 17.7
39 14.2
8.3667
7J»66
2.22
3.09
6 23 19.6
189
6 22 41.74
22 60.63
22 39 4.0
39 04
8.3659
7.980
2.24
3.07
7 23 16.2
190
6 23 15.14
23 24.03
22 38 49.9
38 46.2
8.3651
7.994
2.25
3.05
8 23 12.8
191
6 23 48.49
23 67.38
22 38 35.3
38 314
8.3642
8.007
2.27
3.04
9 23 9.5
192
6 24 21.78
24 30.66
22 38 204
38 16.3
8.3633
8.019
2.28
8.02
10 23 6.1
193
6 24 55.01
25 3.88
22 38 4.7
38 0.5
8.3624
8.031
2.30
3.01
11 23 2.7
194
6 25 28.14
25 37.00
28 37 48.7
37 444
8.3614
8.043
8.32
3.00
12 22 59.3
195
6 26 1.19
26 10.04
22 37 32.3
87 27.9
8.3604
8U)55
2.33
2.99
13 22 55.9
196
6 26 34.16
26 42.99
22 37 15.5
37 10.9
8.3593
8X)66
8.35
2.98
14 22 52.5
197
6 27 7.05
27 15.87
22 36 58.2
86 53.5
8.3581
8.078
2.37
2.97
15 22 49.2
198
6 27 39.84
27 48.64
22 36 404
36 85.5
8.3567
8.089
8.38
2.96
16 22 45.8
199
6 28 12.52
28 21.31
22 36 22.2
86 17JI
8.3553
8.100
240
2.95
17 22 42.4
200
6 28 45.11
28 53.89
22 36 3.6
85 58.5
8.3539
8.111
242
2.95
18 22 39.0
201
6 29 17.60
29 26.36
22 35 44.5
35 39Ji
8.3524
8.122
2.43
2.95
19 22 35.6
202
6 29 49.97
29 58.71
22 35 25.0
35 19.6
8.3509
8.133
245
2.95
20 22 32.2
203
6 SO 22.23
80 30.94
28 35 5.8
34 59.7
8.3492
8.143
247
2.94
21 22 28.8
204
6 30 54.35
81 3J05
as 34 45X)
34 894
8.3475
8.152
248
2.94
22 22 25.4
205
6 31 26.36
31 35J>4
22 34 244
34 18.7
8.3458
8.160
2.50
2.94
23 22 22.0
206
6 31 58.25
32 6.90
22 34 3.5
33 57.7
8.3440
8.167
2.52
2.93
24 22 18.6
207
6 32 30.00
32 38.63
22 33 42.3
33 364
8.3421
8.173
2.53
2.93
25 22 15.2
208
6 33 \M
33 10.22
22 33 20.7
33 14.7
8.3408
8.179
2.55
2.92
26 22 11.8
209
6 33 33.08
33 41.65
28 32 58.8
32 52.7
8.3382
8.185
2JS6
2.92
27 22 8.4
210
6 34 4.40
34 12.95
22 32 36.6
32 304
8.3362
8.191
2.58
2.91
28 22 4.9
211
6 34 35J(8
34 UJ09
22 32 14.2
82 7.9
8.3340
8.197
2.59
2.90
29 22 1.5
212
6 35 6.61
35 lbJ09
22 31 514
31 45.1
8.3320
8.203
2.61
2.89
30 21 58.1
213
6 35 37.48
35 45.92
22 31 28.3
31 21.9
8.3299
8.208
2.62
2.87
31 21 54.7
214
6 36 8.17
36 16.57
28 31 4.9
30 584
8.3275
8.213
2.63
2.86
Aog. 1 21 51.3
215
6 36 38.68
36 47.04
88 30 41.8
30 34.6
8.3250
8.218
2.65
2.84
2 21 47.8
216
6 37 9.02
37 17.38
22 30 174
30 10.7
8.3224
8.223
2.66
2.82
8 21 44.4
217
6 37 39.18
37 4746
22 29 53.3
29 46.6
8.3196
8.227
2.67
2.79
4 21 41.0
218
6 38 9.15
88 17.38
22 29 28.9
29 22.1
8.3168
8.231
2.68
2.76
5 21 37.5
219
6 88 38.92
38 47.11
28 89 4.3
28 574
8.3140
8.235
2.69
2.73
6 21 34.1
220
6 39 8.49
89 16.63
22 28 39.5
28 32.5
8.3111
8.239
2.70
2.70
7 21 30.7
221
6 39 37.87
39 45.97
28 28 144
28 74
8.3081
8.243
2.71
2.66
8 21 27.2
222
6 40 7.05
40 15.11
28 27 49.0
27 41.9
8.3050
8.246
2.72
2.62
9 21 23.8
223
6 40 36.03
40 44X>4
22 27 23.5
27 164
8.3019
8.249
2.78
2.57
10 21 20.3
224
6 41 4.78
41 12.74
22 26 57.9
26 50.7
8.2987
8.251
2.74
2.53
11 21 16.9
225
6 41 83.30
41 41.21
22 26 32.2
26 25.0
8.2954
8.253
2.74
248
12 21 18.4
226
6 42 1.61
42 9.47
22 26 64
25 59.1
8.2920
8.255
2.75
2.44
13 21 9.9
227
6 48 29.70
42 37.50
22 25 4a4
25 33.1
8.2884
8.257
2.76
240
14 21 6.4
228
6 48 57.57
43 5.31
22 85 14.3
*25 IJO
8.2847
8.259
2.77
2.36
15 21 3.0
229
6 43 25.19
43 32.87
22 24 48.1
24 40.7
8.2810
8.261
2.78
-2.33
16 20 59.5
230
6 43 52.56
44 0.18
28 24 21.8
24 14.3
8.2772
8.263
2.78
17 20 56.0
231
6 44 19.69
44 27.^
28 28 55.6
23 48.1
8.2732
8.265
2.79
18 80 52.5
232
6 44 46.58
44 54.09
22 23 294
23 21B
8J691
8.266
2.80
19 80 49.0
233
6 45 13.22
45 20.67
22 23 3X)
88 55.6
8.2649
a267
2.81
20 20 45.6
234
6 45 39.60
45 46.97
28 28 36.4
82 28.9
8J607
8.267
8.82
21 80 42.1
835
6 46 5.73
46 13.03
38 88 9.7
22 2.2
8.2564
8.266
8.82
22 20 38.6
236
6 46 31.59
46 38.82
88 81 48.8
81 354
8.2519
8.266
2.83
23 20 35.1
237
6 46 57.16
47 4.38
88 31 16.1
81 8.6
8.2472
8JI65
2.84
24 20 31.6
838
6 47 2246
47 29.57
88 80 49.5
80 42.0
8.2423
8w265
8^
. 25 20 28.0
239
6 47 47.48
47 54.50
88 SO 22.9
20 154
8.2374
8.264
2.86
4 2.38
26 20 24.5
240
6 48 12.19
48 19.14
22 19 56.4
19 49.0
8.2324
8.263
2.86
242
27 20 21.0
241
6 48 36.64
48 43.51
22 19 30.0
19 22.5
8.2272
8.262
8.87
246
28 80 17.5
242
6 49 0.79
49 7.59
28 19 3.6
18 56.2
8.2218
8.261
2.88
2.50
29 80 13.9
843
6 49 24.64
49 31.36
22 IS 37.3
18 29.9
8J162
8.259
2.89
2.54
SO 80 10.4
844
6 49 48.18
49 54.82
28 18 11.1
18 3.7
8.2106
8.257
2.89
2.58
31 80 6.8
845
6 50 11.40
50 17^6
+22 17 45.2
17 37.8
+8.2048
- 8.255
-2.89
+2.61
360
SATURN, 1856.
FOR WASHINGTON SIDEREAL NOON
AND
MERIDIAN TRANSIT.
Bi^t^Sjomskm.
Loff.OMOdnitori
Log.Oo«adMt
ofK.
HMD Solar Tfana
of
8td»-
■|
MMidtoa Tnadt.
Date.
At
BkkmlOh.
At
Tniialt
At
BidMwlOh.
At
Tnndt.
In RJL
In Dm.
In RJL
mn^!
d. h. m.
h. m. •.
m. s.
o
1^ 19.3
1 n
Septl 20 3.3
246
6 50 34.34
50 40.82
+22
17 113
+8.1988
- 8353
-2.90
+2.^ j
2 19 59.7
247
6 50 56.94
51 3.38
22 16 53 6
16 463
8.1926
8350
2.91
237 '
3 19 56.2
248
6 51 19.21
51 25.57
22
16 28.0
16 20.6
8.1863
8347
231
2.70
4 19 52.6
249
6 51 41.15
51 47.38
22
16 2.6
15 553
8.1796
8344
2.92
2.74 .
5 19 49.0
250
6 52 2.75
52 8.89
22 15 37.4
15 303
8.1727
8.241
232
2.77
6 19 45.4
251
6 52 24.01
52 30.06
22
15 12.5
15 5.4
8.1656
8.237
2.92
230
7 19 41.9
252
6 52 44.94
52 50.90
22
14 48.0
14 403
8.1585
8333
233
232 ;
8 19 38^
253
6 53 5.52
53 11.39
22 14 23.5
14 16.4
8.1513
8.228
2.93
2.M ,
9 19 34.7
254
6 53 25.75
53 31.52
22
13 59.3
13 523
8.1438
8.223
2.94
236|
10 19 31.1
255
6 53 45.62
53 51.29
22
13 35.3
13 283
8.1361
8318
2.94
238
11 19 27.5
256
6 54 5.15
54 10.72
22
13 11.8
13 5.1
8.1280
8312
234
2.90
12 19 23.9
257
6 54 24.30
54 29.77
22 12 48.6
12 42X)
8.1197
8306
2.95
2.99
13 19 20.2
258
6 54 43.10
54 48.46
22 12 25.6
12 19.1
8.1113
8300
2.95
2.94
14 19 16.6
259
6 55 1.52
55 6.76
22 12 2.9
11 563
8.1027
8.193
236
236
15 19 13.0
260
6 55 19.56
55 24.72
22
11 40.6
11 343
8.0939
8.186
2.96
236
16 19 9.3
261
6 55 37.25
55 42.31
22 11 18.6
11 123
8.0847
8.179
2.97
3.00 '
17 19 5.7
262
6 55 54.56
55 59.51
22 10 56.9
10 503
8.0752
8.172
237
33S !
18 19 2.0
263
6 56 11.48
56 16.32
22
10 35.7
10 29.7
8.0647
8.165
238
333
19 18 58.4
264
6 56 28.01
56 32.74
22 10 14.9
10 83
8.0542
8.157
2.98
334 I
20 18 54.7
265
6 56 44.14
56 48.76
22
9 54.4
9 483
8.0435
8.148
2.98
336
21 18 51.0
266
6 56 59.86
57 4.37
22
9 34.5
9 28.7
8.0324
8.138
2.99
3.07
22 18 47v4
267
6 57 15.19
57 19.59
22
9 15.1
9 9.4
8.0211
8.128
239
3.06 1
23 18 43.7
268
6 57 30.11
57 34.41
22
8 56.0
8 50.5
8.0098
8.117
3.00
3.09 ;
24 18 40.0
269
6 57 44.63
57 48.81
22
8 37.4
8 32.0
7.9972
8.106
3.00
3.10
25 18 36.3
270
6 57 58.73
58 2.79
22
8 19.2
8 133
73844
8394
330
3.10
26 18 32.6
271
6 58 12.41
58 16.35
22
8 1.5
7 56.4
7.9710
8382
331
3.11
27 18 28.9
272
6 58 25.67
58 29.49
22
7 44.3
7 393
7.9572
8370
331
3.12
28 18 25.2
273
6 58 38.49
58 42.20
22
7 27.6
7 223
7.9432
8.058
332
3.13
29 18 21.4
274
6 58 50.88
58 54.46
22
7 11.5
7 63
73282
8.044
332
3.14
30 18 17.7
275
6 59 2.84
59 6.29
22
6 56.0
6 51.4
73120
8328
332
3.14 !
Oct 1 18 14^
276
6 59 14.38
59 17.70
22
6 41.1
6 363
7.8914
8311
332
3.15
2 18 10.2
277
6 59 25.48
59 28.67
22
6 26 J
6 223
73782
7.992
3.02
3.16
3 18 6.5
278
6 59 36.12
59 39.19
22
6 ISO
6 93
7.8599
7.971
3.02
3.17
4 18 2.7
279
6 59 46.32
59 49.26
22
5 59.8
5 56.0
7.8408
7.951
332
3.18 ;
ft 17 58.9
280
6 59 56.07
59 58.89
22
5 47J
5 433
7.8209
7.930
332
3.18
6 17 55.1
281
7 0 5.35
0 8.05
22
5 35.1
5 31.7
7.7994
7.909
3.02
3.19
7 17 51.3
282
7 0 14.20
0 16.76
22
5 23.6
5 20.4
7.7769
7.886
3.02
3.20
8 17 47.5
283
7 0 224J9
0 25.02
22
6 12.9
5 93
7.7532
7362
332
3.20
9 17 43.8
284
7 0 30.53
0 32.82
22
5 2.8
4 59.9
7.7280
7.836
3.02
331
10 17 39.9
285
7 0 38.01
0 40.16
22
4 53.4
4 50.7
7.7013
7.804
332
331
11 17 36.1
286
7 0 45.03
0 47X)5
22
4 44.7
4 423
73723
7.770
332
3.22
12 17 32.3
287
7 0 51.58
0 53.47
22
4 36.6
4 343
7.6418
7.733
832
3.22
13 17 283
288
7 0 57.66
0 59.42
22
4 29.2
4 27.0
7.6083
7.692
332
833
14 17 24.6
289
7 1 3.28
1 4.90
22
4 22.5
4 203
73720
7.647
332
338
15 17 20.8
290
7 1 8.43
1 9.92
22
4 16.5
4 14.7
73324
7396
332
338
16 17 17.0
291
7 1 1343
1 14.49
22
4 11.0
4 9.5
7.4898
7.539
332
338
17 17 13.1
292
7 1 17.35
1 18.57
22
4 6.3
4 43
74403
7.474
332
3.28
18 17 9.2
293
7 1 21.10
1 22.19
22
4 2.3
4 13
73857
7397
332
333
19 17 5.4
294
7 1 24.37
1 25J1
22
3 59.1
3 583
73218
7303
332
833
20 17 1.5
295
7 1 27.16
I 27.97
22
8 56.6
8 553
73469
7.183
332
331
21 16 57.6
296
7 I 2944
1 30.12
22
3 54.8
3 543
7.1564
7317
8.02
333
22 16 53.7
297
7 1 81.28
1 31J3
22
3 53.8
3 53.5
7.0418
6.744
332
3.23
23 16 49J
298
7 I 32.62
1 38X13
22
8 533
3 53.4
6.8857
- ft.840
332
3.23
24 16 45J
299
7 1 83.49
1 38.75
22
3 54.0
3 54.1
6.6397
+ 6.686
332
333
25 16 41.9
300
7 1 83.88
1 34.01
22
3 55.1
8 55.4
+5.9865
7316
3.02
338
26 16 38X)
801
7 1 33.76
1 33.75
22
8 57X)
3 573
-63845
7302
332
333
27 16 34.0
302
7 1 33.18
1 d3j03
22
3 59.7
4 0.4
6.7695
7332
3.02
333
28 16 30.1
303
7 1 32.11
1 81.82
22
4 3.1
4 4.1
6.9610
7420
8.02
333
29 16 26.1
304
7 1 80.55
1 30.11
22
4 73
4 8.6
73957
7494
332
333
30 16 22.1
305
7 1 28.54
1 27J6
22
4 123
4 13.7
7.1983
7364
332
333
81 16 18.2
306
7 1 26.04
1 25.32
22
4 173
4 193
7.2829
7319
332
S3S
32 16 14.9
307
7 1 23.06
1 22.20
+22
4 24.1
4 26.1
-73523
+ 7 673
-3.02
.+3.2J|
SATURN, 1856.
361
FOR WASHINGTON SIDEREAL NOON
AND
\fERIDIAN TRANSIT. ]
HMD Sotar Tfana
of
8i<i»-
Appareot
Bight Aflcenflon.
Lof. Coeffldentoft
in SUrml Minatas.
Loe. Coeffldent
off*.
muMiMtxTnatit.
Date.
At
SidanalOh.
At
Tmnait.
At
SidMMlOh.
At
Tnuit.
In R.A.
In Deo.
InRJL.
In Dee.
d. h. m.
h. m. s.
m. f.
o 1 n
1 M
Not. 1 16 14.2
307
7 1 23.06
1 22.20
+22 4 24.1
4 26.1
-7.3523
+ 7.673
-8.02
48.23
2 16 10.2
308
7 1 19.59
1 18.59
22 4 31.3
4 33.5
7.4121
7.721
3.02
8.23
3 16 6.2
309
7 1 \5.e^
1 14.52
22 4 39.2
4 41.6
7.4636
7.759
8.02
3.23
4 16 2.2
310
7 1 11.24
1 9.98
22 4 47.8
4 60.4
7.5097
7.795
8.02
3.23
5 15 58.2
311
7 1 6.34
1 4.94
22 4 57.1
4 59.9
7.5514
7.829
3.02
3.23
6 19 54.2
312
7 1 0.99
0 59.45
22 5 7.0
5 10.1
7.5894
7.861
3.02
8.23
7 15 50.1
313
7 0 55.16
0 53.48
22 5 17.8
5 21.1
7.6243
7.890
3.02
3.23
8 15 46.1
314
7 0 48.88
0 47.07
22 6 29.3
5 82.7
7.6560
7.916
3.02
8.23
9 15 42.0
315
7 0 42.15
0 40.21
22 5 41.5
6 45.1
7.6855
7.940
8.02
3.23
10 15 S8.0
316
7 0 34.94
0 32.87
22 5 54.5
6 68.2
7.7126
7.963
3.02
3.22
11 15 83.9
317
7 0 27.28
0 25.08
22 6 8.2
6 12.1
7.7380
7.985
3.02
3.22
12 15 29.9
318
7 0 19.18
0 16.85
22 6 22.6
6 26.7
7.7621
8.008
3.02
3.21
13 15 25.8
319
7 0 10.63
0 8.18
22 6 37.5
6 41.8
7.7844
8.028
3.02
8.21
14 15 21.7
320
7 0 1.65
59 59.07
22 6 63.0
6 57.5
7.8056
8.047
3.02
8.20
15 15 17.6
321
6 59 52.23
59 49 52
22 7 9.3
7 14.0
7.8256
8.065
8.02
8.19
16 15 13.5
322
6 59 42.37
69 39.53
22 7 26.2
7 81.0
7.8451
8.083
8.01
8.18
17 15 9.4
323
6 59 32.07
69 29.11
22 7 43.7
7 48.8
7.8633
8.100
3.01
3.17
18 15 5.3
324
6 59 21.34
69 18.26
22 8 1.9
8 7.2
7.8807
8.114
3.01
3.16
19 15 1.2
325
6 59 10.19
59 6.99
22 8 20.6
8 26.1
7.8969
8.127
SXK)
8.14
20 14 57.1
326
6 58 58.61
58 55.29
22 8 40.1
8 45.8
7.9127
8.139
2.99
8.18
21 14 52.9
327
6 58 46.62
58 43.18
22 9 0.2
9 6.0
7.9278
8.161
2.98
3.12
22 14 48.8
328
6 58 34.23
58 30.67
22 9 20.9
9 26.8
7.9426
8.163
2.97
3.11
23 14 44.7
329
6 58 21.44
68 17.77
22 9 42.1
9 48.2
7.9568
8.173
2.97
8.09
24 14 40.5
330
6 58 8.27
58 4.48
22 10 3.8
10 10.0
7.9695
8.183
2.96
3.07
25 14 36.3
331
6 57 54.70
57 50.79
22 10 26.0
10 32.4
7.9816
8.193
2.95
3.06
26 14 32.2
332
6 57 40.74
57 36.72
22 10 48.7
10 65.2
7.9932
8.203
2.94
8.05
27 14 28.0
333
6 57 26J38
57 22.26
22 11 12.0
11 18.6
8.0042
8.213
2.93
8.03
28 14 23.8
334
6 57 11.68
57 7.46
22 11 35.9
11 42.7
8.0148
8.222
2.91
3.02
29 14 19.7
335
6 56 56.64
66 52.32
22 12 0.1
12 7.0
8.0249
8.230
2.89
8.00
30 14 15.5
336
6 56 41.24
56 36.82
22 12 24.8
12 31.9
8.0345
8.238
2.88
2.98
Dec 1 14 U.3
337
6 56 25.48
56 20.96
22 12 50.1
12 57.2
8.0437
8.246
2.86
2.97
2 14 7.1
338
6 56 9.38
56 4.76
22 13 15.7
13 22.9
8.0531
8.254
2.85
2.95
3 14 2.9
339
6 55 52.98
55 48.28
22 13 41.7
13 49.1
8.0615
8.261
2.84
2.94
4 13 58.7
340
6 55 36.29
65 31.50
22 14 8.1
14 15.6
8.0694
8.267
2.82
2.93
5 13 54.5
341
6 55 19.26
55 14.38
22 14 34.9
14 42.6
8.0769
8.273
2.80
2.91
6 13 50.2
342
6 55 1.92
64 66.96
22 15 2.2
16 9.9
8.0840
8.279
2.79
2.89
7 13 46.0
343
6 54 44.28
54 39.24
22 15 29.8
15 37.6
8.0918
8.284
2.77
2.87
8 13 41.8
344
6 54 26.39
64 21.28
22 15 57.6
16 5 6
8.0981
8.288
2.76
2.86
9 13 37.5
345
6 54 8.23
64 3.05
22 16 25.8
16 38.9
8.1041
8.292
2.74
2.83
10 13 33.3
346
6 53 49.81
53 44.56
22 16 54.1
17 2.2
8.1098
8.296
2.78
2.80
11 13 29.1
347
6 53 31.15
63 25.83
22 17 22.7
17 30.9
8.1152
8.300
2.71
2.76
12 13 24.8
348
6 53 12.24
53 6.87
22 17 51.6
17 59.8
8.1210
8J304
2.69
2.72
13 13 20.6
349
6 52 53.09
62 47.65
22 18 20.7
18 29.0
8.1260
8.307
2.68
2.68
14 13 16.3
350
6 52 33.74
62 28.24
22 18 600
18 58.4
8.1307
8.310
2.66
2.63
15 13 12.1
351
6 52 14.18
62 8.62
22 19 19.6
19 28.1
8.1351
8.313
2.64
2.68
16 13 7.8
3.^2
6 51 54.44
51 48.82
22 19 49.5
19 58.0
8.1392
8.316
2.62
2.52
17 13 3.5
3.13
6 51 34.50
61 28.82
22 20 19.5
20 28.0
8.1436
8.319
2.60
2.45
18 12 59.3
354
6 51 14.38
61 8.66
22 20 49.6
20 58.1
8.1472
8.321
2.58
+2.38
19 12 55 0
355
6 50 54.10
50 48.34
22 21 19.8
21 28.3
8.1505
8.322
2.65
20 12 50.7
356
6 50 33.67
50 27.86
22 21 60.1
21 58.6
8.1535
8.324
2.51
21 12 46.5
357
6 50 13.08
50 7.23
22 22 20.4
22 29.0
8.1663
8.325
2.47
22 12 42.2
358
6 49 52.37
49 46.48
22 22 60.8
22 69.5
8.1593
8.326
2.43
23 12 37.9
359
6 49 31.56
49 26.64
22 23 21.3
23 30.0
8.1615
8.326
2.38
24 12 33.6
360
6 49 10.65
49 4.70
22 23 61.8
24 0.5
8.1635
8.326
2.33
25 12 29.3
361
6 48 49.63
48 43.66
22 24 22.3
24 31.0
8.1653
8.326
2.28
26 12 2.5.1
362
6 48 28.52
48 22.52
22 24 52.7
25 1.4
8.1669
8.325
2.22
27 12 20.8
363
6 48 7.35
48 1.32
22 25 23.1
25 31.8
8.1683
8.325
2.15
28 12 16.5
364
6 47 46.13
47 40.08
22 25 53.7
26 2.3
8.1696
8.325
-2.08
29 12 12.2
365
6 47 24.86
47 18.80
22 26 24.3
26 32.9
8.1706
8.325
30 12 7.9
366
6 47 3.56
46 57.51
22 26 54.9
27 3.5
8.1714
8.324
31 12 3.6
867
6 46 42.26
46 36.21
22 27 25.5
27 34.2
8.1721
8.324
32 11 59.3
368
6 46 20.96
46 14.90
+22 27 56.1
28 6.0
-8.1728
+ 8.323
46
362
URANUS, 1856.
FOR WASHINGTON SIDEREAL NOON
AND ]
MERIDIAN TRANSIT.
Right A«Mn«km.
Apparent I>ecUnatkm.
Lof. Coefficient of 1
In Sidereal Minutes.
Log.CoeOcfaBt
of a.
HMD Solar Tim*
of
S1<U-
raU
Bteidkii TiMialt.
Date.
At
BklenalOh.
At
TniiBlt.
At
SidexealOh.
At
TXMMlt.
IbR.A.
In Dee.
InB.A.
In Dee.
d h m.
h. m. a.
m. i.
O 1 H
1 M
Jan. 0 8 19.1
0
2 58 50.98
58 50J7
+16 38 34.8
38 324
-7.5344
- 8.140
+2.65
44.16
1 8 15.2
1
2 58 46.13
58 45.54
16 38 15.5
38 13.3
7.5180
8.117
2^6
3.16
2 8 11.2
2
2 58 41.47
58 40.91
16 37 57.1
37 55.0
7.5000
8i)95
2.66
3.18
S 8 7.2
3
2 58 37.01
58 36.48
16 37 39.6
37 37.6
7.4799
8.073
2M
3.19
4 8 S.2
4
2 58 32.75
58 32.24
16 37 23.0
37 21.1
74605
8.050
2.66
3.20
5 7 59.2
5
2 58 28.68
58 28.19
16 37 7.3
37 5i)
7.4403
sm7
2.66
3.22
6 7 55.3
6
2 58 24.80
58 24.33
16 36 52.5
36 50.8
7.4190
SJ004
2.66
3.23
7 7 51.3
7
2 58 21.11
58 20.66
16 36 38.4
86 36.8
7.3967
7.978
2.66
3.24
8 7 47 Jl
8
2 58 17.61
58 17.19
16 36 25.1
36 23.6
7.3732
7.951
2.67
3.25
9 7 43.3
9
2 58 14.30
58 13.91
16 36 12.6
36 11.2
7.3483
7J23
2X8
3.26
10 7 39.3
10
2 58 11.18
58 10.82
16 36 0.9
35 59.6
7.8204
7J93
2.68
3.27
11 7 35.3
11
2 58 8.26
58 7.92
16 35 50.0
35 48.8
7.2902
7.859
2.69
3.28
12 7 31.3
12
2 58 5.54
58 5.23
16 35 40.0
35 38.9
7.2570
7.822
2.70
3.29
13 7 27.4
13
2 58 3.04
58 2.75
16 35 30.8
35 29.8
7.2206
7.780
2.70
3.30
14 7 23.4
14
2 58 0.75
58 0.48
16 35 22.5
35 21.6
7.1808
7.732
2.70
3.31
15 7 19.4
15
2 57 58.66
57 58.42
16 35 15.1
35 14.3
7.1371
7.679
2.70
3.32
16 7 15.5
16
2 57 56.78
57 56.56
16 35 8.6
85 7.9
7.0908
7.618
2.70
3.33
17 7 11.5
17
2 57 55.10
57 54.91
16 35 3.0
85 2.4
7.0391
7.548
2.70
3^
18 7 7.6
18
2 67 53.62
57 53.46
16 34 58.3
34 57.8
6.9771
7.463
2.70
3^
19 7 3.6
19
2 57 52U55
57 52.21
16 34 54.5
34 54.1
6.9049
7.359
2.70
3.33
20 6 59.6
20
2 57 51.29
57 51.17
16 34 51.6
34 51.3
6.8181
7.238
2.70
3.33
21 6 55.7
21
2 57 50.44
67 •60.35
16 34 49.5
34 49.4
6.7096
7.044
2.70
3.33
22 6 51.8
22
2 57 49.80
57 49.74
16 34 48.3
84 48.3
6.5728
6.685
2.70
333
23 6 47.8
23
2 57 49.36
57 49.33
16 34 484)
34 48.1
6.3589
- 6.141
2.70
3.33
24 6 43.9
24
2 57 49.13
57 49.12
16 34 48.6
34 48.8
-5.9196
4 6.881
2.70
3.33
25 6 39.9
25
2 57 49.11
67 49.12
16 34 50.2
34 50.5
+5.7946
7.M1
2.70
3^
26 6 36.0
^
2 57 49.30
57 49.34
16 34 52.7
34 53.1
6.3175
7.302
2.70
3.33
27 6 32.1
27
2 57 49.70
67 49.75
16 34 56.1
34 56.6
6.5480
7.420
2.70
3.33
28 6 28.1
28
2 57 50.31
57 50.40
16 35 0.4
35 \X>
6.6977
7.512
2.70
3^
29 6 24.2
29
2 57 61.13
57 51.24
16 35 5.6
35 6.3
6.8042
7.588
2J0
3.33
30 6 20.3
30
2 57 52.16
57 52.30
16 35 11.7
35 12.5
6.8973
7Ab3
2.70
3.33
31 6 16.4
31
2 57 53.41
67 53.57
16 35 18.7
35 19.7
6.9707
7.709
2.70
3.33
Feb. 1 6 12.5
32
2 57 64.87
57 55.06
16 35 26.6
35 27.7
7.0335
7.759
2.70
3.S3
2 6 8.6
33
2 67 56.54
57 56.76
16 35 35.3
35 36.5
7.0884
7.804
2.70
3.33
3 6 4.7
34
2 57 58.42
57 58.66
16 35 44.9
35 46.2
7.1371
7.844
2.70
3.33
4 6 0.8
35
2 58 0.51
58 0.78
16 35 55.4
35 56.8
7.1828
7.881
2.70
3.33
5 5 57.0
36
2 58 2.82
58 3.11
16 36 6.8
36 8.3
7J224
7.913
2.70
3.33
6 5 53.1
37
2 58 5.33
58 5.65
16 36 19.0
36 20.6
7.2570
7.944
2.70
3.33
7 5 49.2
38
2 58 8.04
58 8.39
16 36 32.1
36 33.8
7.2891
7.974
2.70
3.33
8 5 45.3
39
2 58 10.95
58 11.32
16 36 46.1
36 47.9
7.3190
8.001
2.70
3.33
9 6 41.4
40
2 58 14.06
58 14.46
16 37 0.9
87 2.9
7.3483
a025
2.70
3.33 1
10 5 37.5
41
2 58 17.38
68 17.81
16 37 16.6
37 18.7
7JI757
8.047
2.70
3JI3
11 5 33.7
42
2 58 20.91
58 21.37
16 37 33.1
37 35.3
7.4015
8.070
2.69
3.32 1
12 5 29.8
43
2 58 24.65
58 25.13
16 37 50.5
37 52.8
74259
8.093
2.69
3.32 1
13 5 26.0
44
2 58 28.60
58 29.10
16 38 8.8
38 \IJ2
7.4479
8.114
2j69
3.31 1
14 5 22.1
45
2 58 32.75
58 33.27
16 38 28.0
38 30.5
7.4688
ai32
2.68
3.31
15 5 18.2
46
2 58 37.10
68 37.65
16 38 48X)
38 50.6
7.4883
ai50
2.68
3.30
16 5 14.4
47
2 58 41.64
58 42.23
16 39 8.8
39 11.5
7.5069
ai66
2.68
3J0
17 5 10.5
48
2 58 46.38
58 46.99
16 39 30.4
39 83.2
7.5252
ai82
2.67
3.29
18 ft 6.7
49
2 58 51.32
58 51.95
16 39 52.8
39 65.7
7.5428
8.199
2.67
3.29 1
19 6 2.8
50
2 58 56.46
58 57.11
16 40 16.0
40 19.0
7.5589
a215
2.67
SSB
20 4 59.0
51
2 59 1.79
59 2.47
16 40 40.1
40 43.2
7.5747
8.229
2.66
3.28
21 4 55.2
52
2 59 7J2
59 8.02
16 41 5.0
41 8.2
7.5901
8.243
2.66
3.27
22 4 51.3
53
2 59 13.04
59 13.76
16 41 30.7
41 34X)
7.6046
8.257
246
3.27 1
23 4 47.5
54
2 59 18.95
59 19.70
16 41 57.2
42 0.6
7.6188
8.270
245
3.26 j
24 4 43.6
55
2 59 25.06
59 25.83
16 42 24.5
42 28.0
7.6328
8.283
2.65
3J6
25 4 39.8
56
2 59 31.36
59 32.15
16 42 52.6
42 56.2
7.6459
8.295
2.64
3.25
26 4 36.0
57
2 59 37.84
59 38.65
16 43 21.5
43 25.2
7.6580
8-106
2.64
S.25 '
27 4 32.1
58
9 59 44..%0
59 45.34
16 43 51.1
43 54.9
7.6701
8.316
2.63
3.24
28 4 28.3
59
2 59 51.34
59 52.21
16 44 21.4
44 25.3
7.6818
8.326
2.62
3.24
29 4 24.5
60
2 59 56JS7
59 59.26
16 44 52.4
44 56.4
7.6929
8.336
2.62
3.23-
30 4 90.7
61
3 0 5.58
0 6.49
+ 16 45 24.1
45 28.2
47.7037
+ 8.346
42.61
+3.23
URANUS, 1856.
363
FOR WASHINGTON STOEREAL NOON AND MERIDIAN TRANSIT.
Mean Solar TtnM
of
Muidiaa Tkanait.
d.
Mar. 1
2
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
80
31
Apr.
h
4 20.7
4 16.9
4 13.1
4 9.3
4 5.5
4 1.7
3 57.9
3 54.1
3 50.3
3 46.5
3 42,7
3 38.9
3 35.2
3 31.4
3 27.6
3 23.9
3 20.1
3 16.4
3 12.6
3 8.8
3 5.0
3 13
2 57.5
2 5a8
2 50.0
2 46.3
2 42.6
2 38.8
2 35.1
2 31.3
2 27.6
2 23.9
2 20.1
2 16.4
2 12.6
2 8.9
2 5.2
2 1.4
1 57.7
1 54.0
1 50.3
1 46.6
1 42.8
1 39.1
1 35.4
1 31.7
1 2ao
1 24.2
1 20.5
1 16.8
1 13.1
1 9.4
1 5.7
1 2.0
0 58.3
0 54.6
0 50.9
0 47.2
0 43.5
0 39.8
0 36.1
0 32.4
Si(i»-
raU
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
Apparent
Bighfe/
At
SldemlOh.
h.
3
3
3
3
8
m. s.
0 5.58
0 12.97
0 20.53
0 28.26
0 36.17
3 0 44.25
3 0 52.50
3 1 0.91
3 1 9.48
3 1 18.22
1 27.12
1 36.17
1 45.38
1 54.75
2 4.27
2 13.95
2 23.77
2 33.73
2 43.83
2 54.07
3 3 4.44
3 3 14.96
3 3 25.62
3 3 36.41
3 8 47.34
58.40
9.57
20.86
32.27
43.79
55.43
7.18
19.04
31.01
43.10
3
3
8
3
3
3
,3
3
3
3
8
8
3
3
3
3
3
8
3
3
3 8 2.17
3 8 15.30
3 8 28.50
3 8 41.77
3 8 55.11
3 9 8.52
3 9 21.98
3 9 35.49
3 9 49.05
3 10 2.65
3 10 16.30
3 10 30.00
8 10 43.75
3 10 57.53
3 11 11.35
3 11 25.21
3 11 39.10
3
4
4
4
4
4
5
5
5
5
5 55.30
6 7.59
6 19.97
6 32.45
6 45.02
6 57.68
7 10.42
7 23.24
7 36.14
7 49.12
At
Transit.
m. s.
0 6.49
0 13.90
0 21.48
0 29.24
0 37.17
45.27
53.54
1.97
10.57
19.33
28.25
1 37.32
1 46.55
1 55.94
2 5.48
15.18
25.02
35.00
45.12
55.38
5.77
16.30
3 26.98
3 37.79
3 48.74
3 69.82
4 11.01
4 22.31
4 33.73
4 45.27
4 56.93
5 8.70
5 20.57
5 32.56
5 44.67
5 56.88
6 9.18
6 21.58
6 34.07
6 46.66
6 59.33
7 12.08
7 24.92
7 37.83
7 50.82
8 3.88
8 17.02
8 30.23
8 43.51
8 56.86
9 10.28
9 23.75
9 87.27
9 50.84
10 4.45
10 18.11
10 31.82
10 45.57
10 59.36
11 13.19
11 27.05
11 40.95
Apparent DeoUaatioii.
At
BidoMlOh.
+16 45 24.1
16 45 56.6
16 46 29.8
16 47 3.7
16 47 38.3
16 48 13.7
16 48 49.7
16 49 26.4
16 50 3.7
16 50 41.6
16 51 20.1
16 51 59.3
16 52 39.1
16 53 19.5
11 54 0.5
16 54 42.1
16 55 24.3
16 56 7.0
16 56 50.2
16 57 33.9
16 58 18.1
16 59 2.9
16 59 48.2
17 0 34.0
17 1 20.3
17 2 7.1
17 2 54.3
17 3 42.0
17 4 30.1
17 5 18.6
17
17
17
17
17
6 7.5
6 56.8
7 46.5
8 36.6
9 27.1
17 10 17.9
17 11 9.0
17 12 0.4
17 12 52.2
17 13 44.3
17 14 36.7
17 15 29.4
17 16 22.3
17 17 15.4
17 18 8.7
17 19 2.2
17 19 56.0
17 20 50.0
17 21 44.2
17 22 38.6
17 28 33.1
17 24 27.7
17 25 22.5
17 26 17.5
17 27 12.6
17 28 7.9
17 29 3.3
17 29 58.7
17 30 54.2
17 31 49.8
17 32 45.5
■^.17 33 41.2
At
Transit.
45 28.2
46 0.7
46 34.0
47 8.0
47 42.7
48 18.2
48 54.3
49 31.0
50 8.4
50 46.4
51 25.0
52 4.2
52 44.1
53 24.6
54 5.7
54 47.4
55 29.6
56 12.4
56 55.7
57 89.5
58 23.8
59 8.6
69 53.9
0 39.8
1 26.2
2 13.0
3 0.3
3 48.0
4 36.2
> 5 24.8
6 13.8
7 3.2
7 52.9
8 43.0
9 33.5
10 24.4
11 15.6
12 7.1
12 58.9
13 51.0
14 43.5
15 36.3
16 29.3
17 22.4
18 15.7
19 9.2
20 3.0
20 57.1
21 51.4
22 45.8
23 40.3
24 35.0
25 29.8
26 24.8
27 19.9
28 15.2
29 10.6
30 6.1
31 1.6
81 57.2
32 52.9
33 48.6
Log. Ooefflcient of I
in Sdml MintttM.
InR.A.
+7.7037
7.7137
7.7235
7.7333
7.7429
7.7521
7.7610
7.7696
7.7779
7.7859
7.7934
7.8009
7.8084
7.8157
7.8227
7.8294
7.8356
7.8418
7.8478
7.8537
7.8595
7.8653
7.8710
7.8763
7.8814
7.8861
7.8907
7.8953
7.8998
7.9041
7.9082
7.9123
7.9165
7.9206
7.9246
7.9282
7.9316
7.9348
7.9380
7.9411
7.9442
7.9469
7.9496
7.9523
7.9549
7.9573
7.9597
7.9620
7.9643
7.9665
7.9685
7.9701
7.9717
7.9733
7.9749
7.9765
7.9779
7.9791
7.9803
7.9815
7.9825
+7.9836
In Dee.
+ 8.346
8.356
8.365
8.374
8.384
8.393
8.401
8.408
8.415
8.422
8.430
8.437
8.443
a450
8.456
8.462
8.467
8.473
8.478
8.483
8.488
8.493
8.498
8.503
8.508
8.512
8.517
8.520
8.524
8.528
8.531
8.535
8.538
8.542
8.545
8.547
8.550
8.553
8.555
8.558
8.561
8.563
8.564
8.566
8.568
8.569
8.572
8.573
8.575
8,576
8.576
8.578
8.580
8.580
8.582
8.584
8.584
8.584
8.585
8.586
8.586
+ 8.586
Log. CoeOdfent
off.
InR.A.
+2.61
2.61
2.6U
2.59
2.59
2.58
2.58
2.57
2.57
2.56
2.56
2.55
2.55
2.54
2J&4
2.53
2.53
2.52
2.51
2.50
2.49
2.48
2.48
2.47
2.47
2.46
2.45
2.44
2.44
243
2.42
2.41
240
2.40
2.39
2.38
2.37
2.36
2.35
2.34
2.33
2.31
2.29
3J7
2.25
2.23
2.20
2.17
2.14
2.11
2X)8
2.06
2.04
2.02
+2.00
In Dee.
+3.23
3.22
3.21
3.21
3.20
3.19
3.18
3.17
3.17
3.16
3.15
3.14
3.13
3.13
3.12
3.12
3.11
3.10
3.10
3.09
3.08
3.07
3.06
3.05
3.04
3.03
3.02
3.01
3.00
2.99
2.98
2.97
2.96
2.94
2.93
2.92
2.91
2.90
2.88
2.87
2.86
2.84
2.82
2.81
2.79
2.77
2.75
2.73
2.72
2.70
2.68
+2.66
364
URANUS, 1856.
FOR WASHINGTON SIDEREAL NOON
AND ]
WERIDIAN TRANSIT. ||
Mmq Solar Time
of
xml
Appuwt
Apptnot DecUiMtioa.
Los. GoeOelMU 1
MoridluiTnuiiit.
Date.
At
Sidereal Oh.
h. m. >.
At
Tianalt.
At
Sidereal Oh.
At
Tianalt.
InR-A.
In Dee.
InR.A.
In Dee
<L h. m.
m. >.
O 1 II
1 II
May 1 0 32.4
122
3 41 39.10
11 40.95
+17 33 41.2
33 48.6
+7.9835
+ 8.586
2 0 28.7
123
3 11 53.02
11 54.87
17 34 36.9
34 444
7.9844
8.587
3 0 25.0
124
3 12 6.96
12 8.82
17 35 32.7
35 40.2
7.9853
8.587
4 0 21.3
125
3 12 20.93
12 22.80
17 36 28 Ji
36 36X)
7.9862
8.587
5 0 17.6
126
3 12 34.93
12 36.80
17 37 24.3
37 31.8
7.9868
8.587
6 0 13.9
127
3 12 48.95
12 50 J2
17 38 20.1
88 27.6
7.9872
8.587
7 0 10.2
128
3 13 2.98
13 4.86
17 39 15.9
39 234
7.9875
8.586
8 0 6.5
129
3 13 17.02
13 18.91
17 40 11.6
40 19.1
7.9878
8.586
9 0 2.8
130
3 13 31.07
13 32.96
17 41 7J3
41 14.8
7.9881
8J^85
9 23 59.1
131
3 13 45.13
13 47.02
17 42 2.9
42 104
7.9884
8.585
ID 23 55.4
132
3 13 59.20
14 1.09
17 42 58.5
43 6.0
7.9887
8.585
11 23 51.7
133
3 14 13.27
14 15.17
17 43 54.0
44 1.5
7.9887
8.584
12 23 48.0
134
3 14 27.34
14 29.24
17 44 494
44 56.9
7.9885
8.588
13 23 44.3
135
3 14 41.40
14 43.30
17 45 44.6
45 52.1
7.9884
8.582
14 23 40.6
136
3 14 55.46
14 57.36
17 46 39.7
46 47.2
7.9881
8.581
15 23 36.9
137
3 15 9.51
15 11.41
17 47 34.7
47 42.2
7.9878
8380
16 23 33.2
138
3 15 23.55
15 25.45
17 48 29.6
48 37JO
7.9875
8.579
17 23 29.5
139
3 15 37.57
15 39.47
17 49 24.3
49 31.7
7.9872
8.578
18 23 25.8
140
3 15 51.58
15 5348
17 50 18.9
60 26.3
7.9868
8.577
-2.66
19 23 22.1
141
3 16 5.58
16 748
17 51 134
51 20.8
7.9862
8.676
2.68
20 23 184
142
3 16 19.56
16 21.46
17 62 7.7
52 15.1
7.9858
8.574
2.69
21 23 14.7
143
3 16 33.51
16 3541
17 53 1.8
53 9.1
7.9844
8.572
2.70
22 23 11.0
144
3 16 47.43
16 49.33
17 58 55.7
54 3J0
7.9834
8.571
2.72 1
23 23 7.3
145
3 17 1.32
17 3.22
17 54 494
54 56.7
7.9825
8.569
2.73
24 23 3.6
146
8 17 15.18
17 17.08
17 55 42.9
55 60J
7.9816
8.568
t
2.74
25 22 59.9
147
3 17 29X)l
17 30.90
17 56 36.2
56 4SJi
7.9806
8.666
-2jOO
2.76
26 22 56.2
148
3 17 42.80
17 44.68
17 57 29.3
57 36.6
7.9793
8.564
2X)2
2.76
27 22 52.5
149
3 17 56.55
17 58.43
17 58 22J
58 294
7.9781
8362
2.04
2.78
28 22 48.8
150
3 18 10.26
18 12.14
17 59 14.8
59 22.0
7.9768
8360
2i)6
2.79
29 22 45.1
151
3 18 23.93
18 25.80
18 0 7.2
0 144
7.9752
8.558
2.08
2.80
30 22 4\A
152
3 18 37.55
18 39.42
18 0 59.3
1 6.5
7.9736
8.566
2.09
2.81
31 22 37.7
153
3 18 51.11
18 52.98
18 1 51.1
1 58.2
7.9717
. 8.558
2.11
2.82
Jane 1 22 34.0
154
3 19 4.61
19 6.48
18 2 42.6
2 49.7
7.9698
8350
2.12
2.83
2 22 30^
155
3 19 18.05
19 19.91
18 8 33.8
8 40.9
7.9678
8.648
S.14
2.84
8 22 26.5
156
3 19 81.43
19 83.28
18 4 24.6
4 31.7
7.9659
8.546
2.16
2.86
4 22 22.8
157
3 19 44.75
19 46.59
18 5 15.1
5 22.1
7.9689
8342
2.17
2J6
5 22 19.1
158
8 19 58.01
19 59.85
18 6 5.3
6 12.3
7.9620
8341
2.18
237
6 22 15.4
159
3 20 11.23
20 13.05
18 6 55.3
7 2.2
7.9600
8388
2.20
238
7 22 11.7
160
3 20 24.37
20 26.19
18 7 45.0
7 51.9
7.9577
8.586
2.21
239
8 22 8.0
161
3 20 37.44
20 39.25
18 8 844
8 41.3
7.9553
8382
2.28
2.90
9 22 4.3
162
3 20 50.43
20 52.23
18 9 234
9 30.3
7.9527
8328
2.26
2.91
10 22 0.5
163
3 21 3.34
21 5.13
18 10 12.0
10 18.8
7.9498
8324
2.27
2.92
11 21 56.8
164
3 21 16.16
21 17.95
18 11 0.1
U 6.9
7.9469
8321
2.29
2.92
12 21 53.1
165
8 21 28.90
21 80.68
18 11 47.9
11 64.6
7.9442
8318
2.81
2^3
13 21 49.4
166
3 21 41.56
21 43.38
18 12 85.3
12 42.0
7.9415
8316
2.38
2.94 1
14 21 45.7
167
3 21 54.14
21 55.90
18 13 224
18 29.0
7.9384
8311
2.34
2.95
15 21 41.9
168
3 22 6.63
22 8U)8
18 14 9.1
14 15.6
7.9352
8.607
2.85
2.96
16 21 38.2
169
3 22 19.03
22 90.76
18 14 55.3
15 1.8
7.9320
8308
2.36
2.96
17 21 34.5
170
3 22 31.33
22 88.05
18 15 41.1
15 47.5
. 7.9285
8.499
2.37
2J7
18 21 30.8
171
8 22 43.54
22 45.24
18 16 26.5
16 82.8
7.9250
8494
2.38
2.98
19 21 27.0
172
8 22 55.64
22 57.33
18 17 114
17 17.7
7.9214
8490
289
2.99
20 21 23.3
173
3 23 7.64
28 9J)2
18 17 55.9
18 2.1
7.9178
8.486
240
9M
21 '21 19.5
174
3 23 19.54
23 21.21
18 18 39.9
18 46.1
7.9141
8482
240
8.01
22 21 15.8
175
3 23 31.34
28 88.00
18 19 23.5
19 29.6
7.9104
8478
241
9M
23 21 12.1
176
3 28 43.04
28 44.68
18 20 6.7
20 12.7
7.9064
8473
242
SM
24 21 8.1
177
8 23 54.63
28 56.25
18 20 494
20 554
7.9022
8.467
2.48
8.04
25 21 4.6
178
8 24 6.10
24 7.71
18 21 81.6
21 37.6
7.8977
8462
244
8.05
26 21 0.8
179
8 24 17.45
24 19.04
18 22 13.3
22 19.2
7.8931
8.467
244
8.06
27 20 57.1
180
3 24 28.67
24 80.25
18 22 54^
28 0.3
7.8881
8462
246
8.07
28 20 53.3
181
3 24 89.77
24 41.33
18 28 85.2
28 40.9
7.8830
8.446
246
ZM
29 20 49.6
182
3 24 50.74
24 52.29
18 24 154
24 21.0
7.8782
8441
247
Sj09
SO 20 45.8
183
3 25 1.59
25 3.13
-KlS 24 56.1
25 0.7
4 7.8734
+ 8.436
-247
-8.10
URANUS, 1856.
365
FOR WASHINGTON SIDEREAL NOON
AND
MERIDIAN TRANSIT. |
Mean Solar Time
of
Slde-
x«al
Appanot
Right Aacenskm.
ApiMrmt Deelinatkm.
Loe.Ooeffldentoft
in&leraalMiniitee.
Los. CoeOdent 1
ofH. 1
MeridlanTnitflt.
Date.
At
Sidereal Ob.
At
Tnaalt
At
SkteiealOb.
At
Traniit.
InB.A.
In Dee.
InR.A.
In Dee.
d. h. m.
h. m. >.
m. >.
O 1 u
1 fi
July I 20 42.1
184
3 25 12.32
25 13.84
-t-18 25 34.3
25 39.8
-t-7.8686
+ 8.430
-2.48
-3.10
2 20 38.3
185
3 25 22.93
25 24.43
18 26 12.9
26 18.4
7.8634
8.424
2.48
3.11
3 20 34.5
186
3 25 33.41
25 34.89
18 26 51.0
26 56.4
7.8578
8.418
2.49
3.12
4 20 30.8
187
3 25 43.75
25 45.21
18 27 28.5
27 33.9
7.8520
8.412
2.50
3.12
5 20 27.0
188
3 25 53.95
25 55.39
18 28 5.5
28 10.8
7.8461
8.406
2.51
3.13
6 20 23.3
189
3 26 4.01
26 5.43
18 28 42.0
28 47.2
7.8400
8.400
2.51
3.13
7 20 19.5
190
3 26 13.93
26 15.34
18 29 18.0
29 23.1
7.8338
8.393
2.52
8.14
8 20 15.7
191
3 26 23.71
26 25.10
18 29 53.4
29 58.4
7.8272
8.385
2.53
3.15
9 20 11.9
192
3 26 33.34
26 34.71
18 30 28.2
30 33.2
7.8204
8.379
2.54
3.16
10 20 8.2
193
3 26 42.82
26 44.17
18 31 2.5
31 7.4
7.8135
8.372
2.55
3.16
11 20 4.4
194
3 26 52.15
26 53.48
18 31 36.2
31 41.0
7.8065
8.364
2.55
3.17
12 20 0.6
195
3 27 1.33
27 2.64
18 32 9JI
32 14.0
7.7994
8.356
2.56
3.17
13 19 56.8
196
3 27 10.35
27 11.64
18 32 41.8
32 46.4
7.7919
8.348
2.57
3.18
14 19 53.0
197
3 27 19.21
27 2048
18 33 13.7
33 18.2
7.7844
8.340
2.58
3.18
15 19 49.3
198
3 27 27.92
27 29.16
18 33 45.0
S3 49.5
7.7769
8.331
2.59
3.18
16 19 45.5
199
3 27 36.48
27 37.70
18 34 15.7
34 20.1
7.7693
8.323
2.59
3.19
17 19 41.7
200
3 27 44.89
27 46.09
18 34 45.8
34 50.1
7.7610
8.314
2.60
3.19
18 19 37.9
201
3 27 53.14
27 54.31
18 35 15.3
35 \9Ji
7.7521
8.304
2.61
3.20
19 19 34.1
202
3 28 1.22
28 2.36
18 35 44.1
35 48^
7.7429
8.295
2.62
3.20
20 19 30.3
203
3 28 9.12
28 10.24
18 36 12.a
36 16.4
7.7336
8.286
2.62
3.20
21 19 26.5
204
3 28 16.85
28 17.95
18 36 39.9
36 43.9
77237
8.276
2.63
3.21
22 19 22.7
205
3 28 24.40
28 25.48
18 37 6.9
37 10.8
7.7137
8.265
2.63
3.21
23 19 18.8
206
3 28 31.78
28 32.84
18 37 33.2
37 37.0
7.7037
8.255
2.64
3.22
24 19 15.0
207
3 28 39.00
28 40.03
18 37 58.9
38 2.6
7.6936
8.243
2.64
3.22
25 19 11.2
208
3 28 46.05
28 47.05
18 38 23.9
38 27.5
7.6830
8.233
2.65
3.22
26 19 7.4
209
3 28 52.92
28 63.90
18 38 48.3
38 51.8
7.6723
8.220
2.65
3.22
27 19 3.6
210
3 28 59.62
29 0.58
18 39 12.0
39 15.4
7.6608
8.207
2.66
3.23
28 18 59.8
211
3 29 6.15
29 7.08
18 39 35.0
39 38.3
7.6486
8.194
2.66
3.23
29 18 56.0
212
3 29 12.49
29 13.40
18 39 57.3
40 0.5
7.6359
8.180
2.66
3.23
30 18 52.1
213
3 29 18.64
29 19.52
18 40 18.9
40 22.0
7.6224
8.166
2.66
3.23
31 18 48.3
214
3 29 24.60
29 25.45
18 40 39.8
40 42.8
7.6083
8.152
2.66
3.23
Ang. 1 18 44.4
215
3 29 30.37
29 31.19
18 41 0.0
41 2.9
7.5940
8.137
2.66
3.23
2 18 40.6
216
3 29 35.96
29 36.75
18 41 19.5
41 22-3
7.5798
8.121
2.66
3.23
3 18 36.8
217
3 29 41.36
29 42.13
18 41 38.3
41 41.0
7.5655
8.105
2.66
3.23
4 18 32.9
218
3 29 46.58
29 47^
18 41 56.4
41 59.0
7.5505
8.088
2.67
3.23
5 18 29.1
219
3 29 51.62
29 52.34
18 42 13.8
42 16.3
7.5348
8.073
2.67
3.23
6 18 25.3
220
8 29 56.47
29 57.16
18 42 30.6
42 33.0
7.5189
8.055
2.67
3.23
7 18 21.4
221
3 30 1.14
30 1.80
18 42 46.7
42 49.0
7.5003
8.036
2.68
3.23
8 18 17.5
222
3 30 5.61
30 6.25
18 43 2.1
43 4.3
7.4809
8.016
2.68
3.23
9 18 13.7
223
3 30 9.88
30 10.49
18 43 16.7
43 18.8
7.4595
7.995
2.68
3.23
10 18 9.8
224
3 30 13.94
30 14.52
18 43 30.6
43 32.6
7.4381
7.974
2.68
3.23
11 18 6.0
225
3 30 17.80
30 18.35
18 43 43.8
43 45.7
. 7.4156
7.951
2.68
3.23
12 18 2.1
226
3 30 21.46
30 21.98
18 43 56.3
43 58.1
7.3931
7.926
2.68
3.23
13 17 58.2
227
3 30 24.93
30 25.42
18 44 8.1
44 9.8
7.3680
7.901
2.69
3.23
14 17 54.4
228
3 30 28.20
30 28.66
18 44 19.2
44 20.8
7^401
7.873
2.69
3.23
15 17 50.5
229
3 30 31.26
30 31.69
18 44 29.6
44 31.1
7.3117
7.844
2.69
3.23
16 17 46.6
230
3 30 34.12
30 34.52
18 44 39.3
44 40.7
7.2797
7.813
2.69
3.23
17 17 42.7
231
3 30 36.77
30 37.14
18 44 48.3
44 49.6
7.2452
7.777
2.70
3.23
18 17 38.8
232
3 30 39.21
30 39.55
18 44 56.6
44 57.7
7.2086
7.738
2.70
3.23
19 17 34.9
233
3 30 41.45
30 41.76
18 45 4.1
45 5.1
7.1688
7.697
2.70
3.23
20 17 31.0
234
3 30 43.48
30 43.76
18 45 10.9
45 11.8
7.1260
7.653
2.70
3.23
21 17 27.1
235
3 30 45.31
30 45.56
18 45 17.0
45 17.8
7.0784
7.603
2.70
3.23
22 17 23.1
236
3 30 46.94
30 47.16
18 45 22.4
45 23.1
7.0222
7.548
2.70
3.23
23 17 19.2
237
3 30 48J36
30 48.55
18 45 27.1
45 27.7
6.9610
7.484
2.70
3.23
24 17 15.3
238
3 30 49.58
30 49.74
18 45 31.1
45 31.6
6.8896
7.408
2.70
3.23
25 17 11.4
239
3 30 50.60
30 50.73
18 45 34.4
45 34.8
6.7994
7.317
2.70
3.23
26 17 7.5
240
3 30 51.41
30 51.51
18 45 37.0
45 37.3
6.6917
7.202
2.70
3.23
27 17 3.6
241
3 30 52.02
30 52.09
18 45 38.9
45 39.1
6.5394
7.016
2.70
3.23
28 16 59.6
242
3 30 52.42
30 52.46
18 45 40.0
45 40.1
6.3028
6.743
2.70
3.23
29 16 55.7
243
3 30 52.61
30 52.62
18 45 40.4
45 40.4
+5.7435
+ 5.840
2.70
3.23
30 16 51.7
244
3 30 52.59
30 62.57
18 45 40.0
45 39.9
-5.9196
- 6.685
2.70
3.23
31 16 47.8
245
3 30 52.37
30 52.32
+18 45 38.9
45 38.7
-6.3589
- 6.986
-2.70
-8.23
306
URANUS, 1856.
FOR WASHINGTON SIDEREAL NOON
AND ]
MERIDIAN TRANSIT. ||
BlghtAMkn.
Loc. Coefficient oft
in &dml Minates.
Log.CniffinliBt H
MflMi Solar Tlma
of
Side,
raal
1
MoridluTniialt.
Dttte.
At
SidexmiOli.
At
Traniit
At
BktomlOh.
At
TlMMit
InR.A.
In Dee.
InR.A.
In Dm.
d. h. m.
h. m. >.
m. >.
O 1 M
1 II
Sept 1 16 43.9
246
3 30 51.94
30 51.86
+18 45 37.1
45 36.8
-6.5728
- 7.162
-2.70
-^M '
S 16 39.9
247
3 30 51.30
30 51.19
18 45 34.6
45 34.2
6.7096
7.287
2.69
3.23 ,
3 16 36.0
248
3 30 50.46
30 50.32
18 45 31.4
45 30.9
6.8135
7.384
2.69
3.83 1
4 16 32.0
249
3 30 49.42
30 49.25
18 45 87.5
45 26.9
6.9011
7.463
2.69
3.23 ;
5 16 28.1
250
3 30 48.17
30 47.97
18 45 23.9
45 22.2
6.9707
7.530
2.69
3.23 i
6 16 24.1
251
3 30 46.72
30 46.49
18 45 17.6
45 16.8
7.0307
7.596
2.68
3.23
7 16 20.1
252
3 30 45.07
30 44.81
18 45 11.5
45 10.6
7.0834
7.646
* 2.68
3^
8 16 16.2
253
3 30 43.22
30 42.93
18 45 4.7
45 3.7
7.1327
7.693
2.68
3.23
9 16 12.2
254
8 30 41.16
30 40.84
18 44 57.8
44 56.1
7.1749
7.738
8.68
3.23 I
10 16 8.3
255
3 30 38.90
30 38.55
18 44 48.9
44 47.7
7.2133
7.775
2.68
3.23
11 16 4.3
256
3 30 36.44
80 86.06
18 44 39.9
44 38.6
7.2486
7.807
2.68
3.23
12 16 0.3
257
3 30 83.78
30 33.39
18 44 30J
44 28.8
7.2797
7.836
2.67
3.28
13 15 56.4
258
3 80 30.93
30 30.50
18 44 19.9
44 18.4
7.3087
7.865
2.67
3.82
14 15 52.4
259
3 80 27.89
30 27.43
18 44 8.9
44 7.3
7.3359
7.893
2.67
3.21 1
15 15 48.4
260
8 30 24.66
30 84.17
18 43 57.8
43 55.5
7.3628
7.919
246
3.21
16 15 44.4
261
3 30 21.23
80 80.71
18 43 44.8
43 43.0
7.3879
7.944
246
3.20
17 15 40.4
262
3 30 17.61
SO 17.06
18 43 31.7
43 29.8
7.4109
7.967
2.66
3.20
18 15 36.4
263
3 30 13.79
30 13.22
18 43 17.9
43 15.9
7.4326
7J990
2.65
3.19
19 15 32.4
264
3 30 9.78
30 9.18
18 43 3.4
43 1.3
7.4532
smo
2.65
3.19 .
20 15 28.4
265
3 30 &JiS
30 4.95
18 48 48.3
42 46.1
7.4729
sxao
2.65
3.18!
21 15 24.4
266
3 30 1.19
80 0.53
18 48 32.5
42 30.2
7.4917
8.047
2.64
3.18 ;
22 15 20.4
267
3 29 56.61
29 55.93
18 48 16.1
42 13.7
7.5096
8.064
2.64
3.18
23 15 16.4
268
3 29 51.84
29 51.14
18 41 59.0
41 56.5
7.5261
8.081
2.63
3.17
24 15 12.4
269
3 29 46.90
29 46.17
18 41 41.3
41 38.7
7.5420
8.098
2.62
3.17
25 15 8.4
270
3 29 41.78
29 41.02
18 41 22.9
41 20.2
7.5572
8.114
2.62
3.16
26 15 4.4
271
8 29 36.48
29 35.69
18 41 3.9
41 1.1
7.5720
8.128
2 61
3.15
27 15 0.4
272
9 29 31.00
29 30.19
18 40 44.2
40 41.3
7.5855
8.141
2.61
3.14
28 14 56.3
273
3 29 25.35
29 24.52
18 40 23.9
40 20.9
7.5986
8.154
2.60
3.13 1
29 14 52.3
274
3 29 19.53
29 18.67
18 40 3.0
39 59.9
7.6116
8.166
239
3.13
80 14 48.3
275
3 29 13.53
29 12.65
18 39 41.5
39 38.3
7.6243
8.179
2.59
3.18
Oct 1 14 44.2
276
3 29 7.36
29 6.46
18 39 19.4
39 16.1
7.6363
8.190
2.58
3.18 1
2 14 40.2
277
3 29 1.03
29 0.11
18 38 56.7
38 53.3
7.6473
8.200
237
3.11 f
3 14 36.1
278
3 28 54.54
28 53.60
18 38 33.4
38 30.0
7.6573
8.210
236
3.10 ,
4 14 82.1
279
3 28 47.90
28 46.93
18 38 9.6
38 6.1
7.6671
8.221
236
3.10
5 U 28.1
280
3 28 41.11
88 40.12
18 37 45.2
87 41.6
7.6769
8.232
835
3.09,
6 14 24.0
281
3 28 34.17
28 33.16
18 37 20.2
37 16.5
7.6867
8.243
834
3M
7 14 20.0
282
3 28 27.07
28 26XM
18 36 54.6
36 50.9
7.6959
8.252
833
3.07
8 14 15.9
283
3 28 19.82
28 18.76
18 36 28.5
36 24.7
7.7049
8.260
832
3.06
9 14 11.9
284
8 28 12.42
28 11.34
18 36 1.9
35 58.0
7.7137
8.268
231
3X)5
10 14 7.8
285
3 28 4.87
28 3.77
18 35 34.8
35 30.8
7.7224
8J176
230
3.04
11 14 3.7
286
3 27 57.17
27 56.05
18 35 7.2
35 3.1
7.7308
8.284
249
3.03
12 13 59.7
287
3 27 49.33
27 48.20
18 34 39.1
34 35.0
7.7380
8.292
2.48
3.02
13 13 55.6
288
3 27 41.37
27 40.22
18 34 10.6
34 6.4
7.7445
8.299
248
3.01
14 18 51.6
289
3 27 33.30
27 32.13
18 33 41.6
33 37.3
7.7509
8J07
2.47
3.00
15 13 47.5
290
3 27 25.11
27 83.92
18 33 12.1
33 7.8
7.7573
8.314
2.47
299
16 13 43.4
291
3 27 16.80
27 15.59
18 32 42.1
32 37.8
7.7636
8.380
2.46
8.98
17 13 39.3
292
8 27 8.36
27 7.1 4
18 32 11.7
32 7.3
7.7698
8.127
244
297
18 13 35.3
293
3 26 59.80
26 58.57
18 31 40.8
31 36.3
7.7759
8.333
2.43
296
19 13 31.2
294
3 26 51.12
26 49.87
18 31 9.5
31 4.9
7.7819
8.338
2.41
8.94
20 13 27.1
295
3 M 42.33
26 4\J0e
18 30 37.8
30 33.2
7.7869
8.344
2.40
8J3
21 13 23.0
296
3 H 33.44
26 82.16
18 30 5.7
30 1.1
7.7917
8.348
238
292
22 13 18.9
297
3 26 24.46
26 83.17
18 29 33.3
29 28.6
7.7965
8.353
235
8.91
23 13 14.9
298
3 26 15.38
86 14.08
18 29 0.5
28 55.7
7.8009
8.359
232
290
24 13 10.8
299
3 26 6.20
86 4.89
18 28 27.3
28 22.5
7.8054
8.364
2.29
8.88,
25 13 6.7
300
3 25 56.93
85 55.60
18 27 53.7
27 49.0
7.8098
8.368
8^
8.87'
26 13 2.6
301
3 25 47.56
85 46J12
18 27 19.8
27 15.1
7.8140
8.372
8.83
836
27 12 58.5
302
3 25 38.11
85 36.76
18 26 45.6
26 40.8
7.8177
8JJ75
8.20
834
28 12 54.4
303
3 25 28.59
85 87.83
18 26 11.1
26 6.3
7.8209
8.380
8.17
832
29 12 50.3
304
3 25 19.00
85 17.63
18 25 36.1
25 31.4
7.8236
8.383
8.14
831
30 12 46JS
305
3 25 9.35
85 7.97
18 25 l^
24 56.3
7.8267
8.387
8.11
8.79
31 12 42.2
306
3 24 59.63
84 58.84
18 24 26.0
24 21.0
7.8298
8.390
8.08
277
32 12 38.1
307
3 24 49.84
84 48.45
-»-18J3_50.4
23 45.4
_^7.8324
- 8.393
_-2X)5
-I?i'l'
URANUS, 1856.
367
FOR WASHINGTON SIDEREAL NOON
AND MERIDIAN TRANSIT. |
Apparent
Right AjKenaion.
Loc. Coefficient of 1
in Admal Mlnatea.
Log. Coeffldent 1
ofn. 1
Mean Solar Time
of
Side-
nal
Meridian Tm»l(.
Date.
At
Sidereal Ob.
At
Tnnait.
At
SIdenalOb.
At
Trandt.
InB.A.
In Bee.
InR.A.
In Dae.
d
h m.
h. m. ■.
m. >.
O 1 II
1 II
Not. 1
12 38.1
307
3 24 49.84
24 48.45
+18 23 50.4
23 45.4
-73324
- 8393
-2.05
-2.76
2
12 34.0
308
3 24 40.00
24 38.60
18 23 14.6
23 93
7.8347
8395
2.02
2.73
3
12 29.9
309
3 24 30.10
24 28.69
18 22 38.6
22 33.5
73369
8396
-2.00
2.72
4
12 25.8
310
3 24 20.15
24 18.74
18 22 2.5
21 57.4
7.8391
8399
2.70
5
12 21.7
311
3 24 10.16
24 8.75
18 21 26.2
21 21.1
73408
8.400
2.68
6 1« 17.6
312
3 24 0.13
23 58.72
18 20 49.8
20 44.7
7.8421
8.402
-2.66
7
12 13.5
313
3 23 50.07
23 48.65
18 20 13.2
20 8.0
7.8434
8.405
8
12 9.4
314
3 23 89.98
23 38.55
18 19 36.4
19 31.2
7.8447
8.407
9
12 5.3
315
3 23 29.86
23 28.43
18 18 59.4
18 64.2
7.8469
8.409
10 18 O
316
8 23 19.72
23 18.29
18 18 22.3
18 17.1
7.8468
8.409
11
11 57.1
317
3 23 9^6
23 8.13
18 17 45.2
17 40.0
73472
8.411
12
11 58.0
318
3 22 59.39
22 57.96
18 17 8i)
17 2.8
7.8476
8.411
13
11 48.9
319
3 22 49.21
22 47.78
18 16 30.8
16 26.6
7.8481
8.411
14
11 44.8
320
3 22 39.02
22 37.60
18 15 53.6
16 48.4
7.8486
8.412
15
11 40.7
321
3 22 28.84
22 27.42
18 15 16.3
15 11.1
7.8482
8.412
16 11 36.6
322
3 22 18.67
22 17.25
18 14 39.0
14 33.8
7.8476
8.412
17
11 32.5
323
3 22 8.51
22 7.09
18 14 1.7
13 563
73472
8.411
18
11 28.4
324
3 21 58.36
21 56.94
18 13 24.5
13 193
7.8468
8.411
19
11 24.3
325
3 21 48.22
21 46.80
18 12 47.3
12 42.1
7.8459
8.411
20
11 20.2
326
8 21 38.10
21 36.68
18 12 10.1
12 4.9
73447
8.409
21
11 16.1
327
3 21 28.01
21 26.60
18 11 33.0
11 27.8
78433
8.408
+2.00
22
11 12.0
328
3 21 17.96
21 16.56
18 10 56.0
10 60.9
7.8417
8.407
2.04
23
11 7.9
329
3 21 7.95
21 6.56
18 10 19.2
10 14.1
7.8400
8.406
2.08
24
11 3.8
330
3 20 57.98
20 56.59
18 9 423
9 37.4
7.8383
8.405
2.11
+2.66
25
10 59.7
331
3 20 48.04
20 46.66
18 9 5.9
9 0.8
7.8366
8.402
2.15
2.68
26
10 55.6
332
8 20 38.15
20 36.78
18 8 29.5
8 24.4
7.8343
8.400
2.18
2.70
27
10 51.6
333
3 20 28.32
20 26.96
18 7 53.3
7 483
7.8316
8398
2.20
2.72
28
10 47.4
334
3 20 18.55
20 17.20
18 7 17.3
7 123
7.8287
8395
2.23
2.74
29
10 43.3
335
3 20 8.85
20 7.51
18 6 41.5
6 363
7.8258
8391
2.25
2.76
30
10 39.2
336
3 19 59.21
19 57.88
18 6 6.0
6 1.0
7.8229
8388
2.28
2.78
Dec. 1
10 35.1
337
3 19 49.63
19 48.32
18 5 30:8
6 25.8
73199
8385
230
2.80
10 31.0
338
3 19 40.13
19 38.83
18 4 55.8
4 50.9
73163
8382
232
2.82
3 10 26.9
339
3 19 30.71
19 29.42
18 4 21.0
4 16.2
73126
8379
234
2.84
10 22.8
340
3 19 21.37
19 20X)9
18 3 46.5
3 41.7
7.8089
8377
236
2.86
10 18.7
341
3 19 12.11
19 10.84
18 3 12J
3 73
7.8046
8374
238
2.88
10 14.6
342
3 19 2.94
19 1.69
18 2 38.3
2 33.7
7.7999
8368
239
2.90
10 10.6
343
3 18 53.88
18 52.64
18 2 4.8
2 03
7.7946
8362
2.40
2.92
10 6.5
344
3 18 44.93
18 43.70
18 1 31.7
1 27.2
7.7893
8357
2.40
2.94
10 2.4
345
3 18 36.09
18 34.88
18 0 59.0
0 643
7.7839
8351
2.41
2.96
10
9 58.4
346
3 18 27.36
18 26.17
18 0 26.8
0 22.4
7.7786
8.345
2.42
2.98
11
9 54.3
347
3 18 18.73
18 17.56
17 59 55X)
69 603
7.7733
8341
2.44
3.00
12
9 50.3
348
3 18 10.21
18 9.05
17 59 23.6
69 ISJSt
7.7679
8336
2.45
3.02
13
9 46.2
349
3 18 1.81
18 0.66
17 58 62.4
68 48.2
7.7621
8329
2.47
3.04
14
9 42.1
350
3 17 53.52
17 52.39
17 58 21.8
68 173
7.7558
8323
248
3.06
15
9 38.0
351
3 17 45.35
17 44.24
17 57 51.6
67 473
7.7489
8314
2.49
3.08
16
9 34.0
352
3 17 37.32
17 36.23
17 57 22i)
67 17.9
7.7413
8307
230
3.09
17
9 29.9
353
3 17 29.43
17 28.36
17 56 62.9
66 48.9
7.7336
8.299
232
3.10
18
9 25.9
354
3 17 21.68
17 20.63
17 56 24.3
66 20.4
7.7258
8.292
233
3.11
19
9 21.8
355
3 17 14.07
17 13.04
17 55 56.2
65 62.4
7.7178
8.285
235
3.11
20
9 17.7
356
8 17 6.60
17 5.59
17 66 28.6
66 24.9
7.7096
8.278
2.56
3.12
21
9 13.7
357
3 16 59.27
16 58.28
17 66 13
54 67.9
7.7007
8.268
236
3.12
22
9 9.6
358
3 16 52.09
16 51.13
17 64 35i)
64 313
7.6917
8.257
237
3.13
23
9 5.6
359
3 16 45.07
16 44.13
17 64 9.2
54 5.7
7.6824
8.247
237
3.13
24
9 1.5
360
3 16 38.20
16 37.28
17 63 44.0
53 40.6
73723
8.236
238
3.14
25
8 57.5
361
3 16 31.49
16 30.59
17 53 19.4
63 16.1
7.6615
8.224
238
3.16
26
8 53.4
362
3 16 24.95
16 24.07
17 52 553
62 62.2
7.6506
8.213
2.69
3.16
27
8 49.4
363
3 16 18.57
16 17.72
17 52 32.2
62 29.0
7.6397
8.202
239
3.17
28
8 45.3
364
3 16 12.35
16 11.52
17 62 93
52 6.4
7.6282
8.190
2.60
3.17
29
8 41.3
365
3 16 6.30
16 5.49
17 51 47.4
61 44.4
73164
8.178
2.60
3.18
80
8 37.3
366
3 16 0.41
15 59.62
17 51 25.9
61 23.0
7.6046
6.166
231
8.19
31
8 83.3
367
3 15 54.68
15 53.91
+17 61 6X)
61 2.2
-73924
- 8.164
+2.61
+330
368
NEPTUNE, 1856.
FOR WASHINGTON SIDEREAL NOON
AND
MERIDIAN TRANSIT. |
M«ui Solar TlnM or
MeridUD Trmncit,
Sld«-
Right AaoeiMloa.
AppMvot DwliBatton.
Log. Coefficient of 1
InSideTCalBlinatea.
•"' 1
rml
which preowles
Sid. Oh.
Date.
At
8idM«al0h.
At
Traniit.
At
BktomlOh.
At
Tnnalt.
InR.A.
In Dee.
InR.A.
IbDw
d.
h. m.
h.
m. f.
m. >.
O f II
1 M
Jan. 0
4 30.2
0
23
9 12.58
9 12.43
- 6 36 23.6
36 24.6
+7.4713
+ 8.293
+244
+3SS
1
4 26.3
1
23
9 16.90
9 16.75
6 35 55.0
35 56.0
7.4829
8.303
243
3.21
2
4 22.5
2
23
9 21.30
9 21.15
6 35 24.9
35 26.0
74940
8.314
2.43
3.21
3
4 18.6
3
23
9 25.85
9 25.69
6 34 54.8
34 55.9
7.5042
8.325
243
3.21
4
4 14.7
4
23
9 30.50
9 30.34
6 34 24.0
34 25.2
7.5145
8.335
242
3.20
5
4 10.9
5
23
9 35.27
9 35.10
6 33 52.6
33 53.8
7.5244
8.344
2.42
3.20 1
6
4 7X)
6
23
9 40.14
9 39.97
6 33 20.5
33 21.7
7.5341
8.353
241
3.19
7
4 3iJ
7
23
9 45.12
9 44.95
6 32 47.7
32 48.9
7.5435
8.362
241
3.19
8
3 59.3
8
23
9 50.20
9 5a03
6 32 14.3
32 15.5
7.5527
8J70
240
3.18
9
3 55.5
9
23
9 55.39
9 55.22
6 31 40.3
31 41.5
7J^615
8.378
2.40
3.18 !
10
3 51.7
10
23
10 0.69
10 0.51
6 31 5.6
31 6.8
7.5700
8.386
239
3.17 1
U
3 47.8
11
23
10 6.09
10 5.90
6 30 30.3
30 31.6
7.5780
8.393
239
3.17
12
3 44.0
12
23
10 11.59
10 11.39
6 29 544
29 55.7
7Ji858
8400
238
3.16 ,
13
3 40.1
13
23
10 17.18
10 16.98
6 29 17.9
29 19.2
7.5933
8.407
237
3.16 1
14
3 36.3
14
23
10 22.87
10 22.67
6 28 40.8
28 42.1
7.6006
8414
236
3.15 i
15
3 32.4
15
23
10 28.65
10 28.45
6 28 3.1
28 44
7.6076
8421
236
3.14
16
3 28.6
16
23
10 34.53
10 34.33
6 27 24.8
27 26.2
7.6144
8427
235
3.13 .
17
3 24.8
17
23
10 40.50
10 40.30
6 26 46.0
26 474
7.6208
8.433
234
3.12
18
3 21.0
18
23
10 46.56
10 46.35
6 26 6.7
26 8.1
7.6272
8439
233
3.11
19
3 17.1
19
23
10 52.71
10 5249
6 25 26.8
25 28.3
7.6335
8445
233
3.11
20
3 13.3
20
23
10 58.94
10 58.72
6 24 464
24 47.9
7.6396
8450
232
3.10
21
3 9.5
21
23
11 5.26
11 5.04
6 24 5.5
24 7X)
7.6457
8456
231
SJ09
22
3 5.6
22
23
11 11.67
11 11.45
6 23 24.1
23 25.5
7.6515
8461
230
3.09
23
3 1.8
23
23
11 18,16
11 17.95
6 22 42.1
22 43.5
7.6569
8.466
230
3X)8 ;
24
2 58.0
24
23
11 24.74
11 24.52
6 21 59.7
22 1.1
7.6622
8471
2.29
M7
25
2 54.2
25
23
11 31.40
11 31.17
6 21 16.8
21 18.2
7.6672
8476
2.28
3J0$ '
26
2 50.4
26
23
11 38.13
11 37.90
6 20 334
20 34.8
7.6721
8481
2.27
3.05 ,
27
2 46.5
27
23
11 44.94
11 44.71
6 19 49.5
19 50.9
7.6769
8486
2.27
3.04
28
2 42.7
28
23
11 51.82
11 51.59
6 19 5.2
19 6.6
7.6817
8490
2.26
3.03 '
29
2 38.9
29
23
11 58.78
11 58.55
6 18 20.5
18 21.9
7.6864
8495
2.25
3j02 '
30
2 35.1
30
23
12 5.81
12 5.58
6 17 35.3
17 36.7
7.6909
8499
2.24
3U>1 ,
31
2 31.3
31
23
12 12.91
12 12.68
6 16 49.7
16 51.2
7.6952
8.503
2.23
330 1
Feb. 1
2 27.5
32
23
12 20.08
12 19.85
6 16 3.7
16 5.2
7.6993
8.507
2.22
239
2
2 23.7
33
23
12 27.32
12 27J09
6 15 17<3
15 18.8
7.7033
8.511
231
2.98
3
2 19.9
34
23
12 34.63
12 34.39
6 14 30.5
14 32.0
7.7072
8.514
2.19
2.96
4
2 16.1
35
23
12 42.00
12 41.75
6 13 43.3
13 44.8
7.7108
6.517
2.18
235 '
5
2 12.3
36
23
12 49.43
12 49.18
6 12 55.8
12 57.3
7.7143
8320
2.17
2.94 i
6
2 8.5
37
23
12 56.92
12 56.67
6 12 7.9
12 94
7.7177
8.523
2.16
2.92
7
2 4.7
38
23
13 4.47
13 4.22
6 11 19.6
11 21.1
7.7210
8.526
2.14
230
8
2 0.9
39
23
13 12.08
13 11.82
6 10 SIX)
10 32.5
7.7243
8.529
2.13
238
9
1 57.1
40
23
13 19.74
13 19.48
6 9 42.1
9 43.6
7.7275
8.532
2.11
236
10
I 53.3
41
23
13 27.45
13 27.19
6 8 52.9
8 54.4
7.7306
8.535
210
234 1
11
1 49.5
42
23
13 35.21
13 34.96
6 8 34
8 5.0
7.7334
8.537
2.08
2.82 1
12
1 45.7
43
23
13 43.03
13 42.78
6 7 13.6
7 15.3
7.7359
8.540
2.06
230
13
1 41.9
44
23
13 50.89
13 50.64
6 6 23.6
6 25.3
7.7384
8.542
204
2.78
14
I 38.1
45
23
13 58.80
IS 58.54
6 5 33.3
5 35.0
7.7407
8.544
%m
2.76
15
1 34.3
46
23
14 6.74
14 649
6 4 42.8
4 44.5
7.7430
8.546
2.00
2.74
16
1 30.5
47
23
14 14.73
14 1448
6 S 52.1
3 53.8
7.7451
8.548
138
2.72'
17
1 26.7
48
23
14 22.76
14 22.50
6 3 1.1
3 2.8
7.7472
8350
136
2.70
18
1 22.9
49
23
14 30.82
14 30.57
6 2 9J
2 11.6
7.7492
8.552
134
2.68
19
1 19.1
50
23
14 38.92
14 38.67
6 1 18.5
1 20.2
7.7510
8353
131
235;
20
1 15.3
51
23
14 47.06
14 46.80
6 0 26.9
0 28.6
7.7627
8.555
139
232
21
1 11.5
52
23
14 55.22
14 54.97
5 59 35.1
59 36.9
7.7543
8356
1.86
239
22
I 7.7
53
23
15 8.42
15 3.17
5 58 43.2
58 45.0
7.7558
8357
133
236'
23
1 3.9
54
23
15 11.64
15 11.39
5 57 51.2
57 52.9
7.7573
8358
130
233
24
1 0.1
55
23
15 19.89
15 19.64
5 56 59.1
57 0.7
7.7687
8.559
1.77
230
25
0 56.3
56
23
15 28.16
15 27.91
5 56 6.8
56 84
7.7600
8.560
1.74
2.46
26
0 52.5
57
23 15 36.46
15 36J0
5 55 14.3
55 15.9
7.7612
8361
1.71
2.42
27
0 48.7
58
23 15 44.78
15 44.52
5 54 21.8
54 234
7.7623
8362
1.67
+238!
28
0 44.9
59
23 15 53.12
15 52.86
5 53 29.2
53 30.7
7.7632
8363
1.62
29
0 41.1
60
23 16 \4B
16 1.21
5 52 36.5
52 38.0
7.7640
8.564
137
30
0 37.3
61
23
16 9J5
16 9.58
- 5 51 43.7
51 45.2
+7.7647
+ 8365
+ 1.51
NEPTUNE, 1856.
369
FOR WASHINGTON SIDEREAL NOON
AND
MERIDIAN TRANSIT. ]
Mean Solar Time of
Slde-
Apparent
Apparent DeeUaatioii.
Loc. Coefficient oft
in^ideml Minates.
Log.Coefflaent
Of|4.
x«al
whkhpnoedM
Bid. Oh.
Date.
At
Sidereal Ob.
h. m a.
At
Tnaalt.
At
SIdMealOh.
At
Txmnait.
InR.A.
In Bee.
InB.A.
In Tim.
d. h. m.
m. >
O 1 u
1 K
Mar. 1 0 37.3
61
23 16 9.85
16 9.58
- 5 51 43.7
51 45.2
+7.7647
+ 8.565
+1.51
8 0 33.5
62
23 16 18.23
16 17.97
5 50 50.8
50 52.4
7.7654
8.565
+1.43
3 0 29.7
63
23 16 26.63
16 26.37
5 49 57.9
49 59.5
7.7659
8.566
4 0 25.9
64
23 16 35.03
16 34.77
5 49 5.0
49 6.6
7.7663
8.566
5 0 22.1
65
23 16 43.44
16 43.19
5 48 12.0
48 13.6
7.7667
8.566
6 0 18.4
66
23 16 61.86
16 51.61
5 47 19.1
47 20.7
7.7669
8.566
7 0 14.6
67
23 17 0.29
17 0.04
5 46 26.1
46 27.7
7.7670
8.566
6 0 10.8
68
23 17 8.71
17 8.47
5 45 33.2
45 34.8
7.7670
8.566
9 0 7.0
69
23 17 17.13
17 16.90
5 44 40.3
44 41.9
7.7669
8.566
10 0 3.2
70
23 17 25.55
17 25.32
5 43 47.5
43 49.1
7.7668
8.565
10 23 59.4
71
23 17 33.97
17 33.73
5 42 54.7
42 56.3
7.7665
8.565
11 23 55.6
72
23 17 42.38
17 42.13
5 42 2.0
42 3.6
7.7662
8.564
12 23 51.8
73
23 17 50.78
17 50.53
5 41 9.4
41 11.0
7.7657
8.563
13 23 48.0
74
23 17 59.17
17 58.92
5 40 16.8
40 18.5
7.7652
8.562
14 23 44.2
75
23 18 7.55
18 7.30
5 39 24.4
39 26.0
7.7645
8.561
-Ml
-241
15 23 40.4
76
23 18 15.92
18 15.67
5 38 32.1
38 33.6
7.7638
8.560
149
245
16 23 36.7
77
23 18 24.27
18 24.02
5 37 39.9
37 41.4
7.7629
8.559
1.66
249
17 23 32.9
78
23 18 32.60
18 32.35
5 36 47.8
36 49.3
7.7620
8.558
1.62
2.52
18 23 29.1
79
23 18 40.91
18 40.67
5 35 55.8
35 57.4
7.7610
8.557
1.67
2.55
19 23 25.3
80
23 18 49.20
18 48.97
5 35 4.0
35 5.7
7.7598
8.556
1.71
2.58
20 23 21.5
81
23 18 57.47
18 57.24
5 34 12.4
34 14.1
7.7585
8.554
1.75
2.61
21 23 17.7
82
23 19 5.71
19 5.48
5 33 21.1
33 22.7
7.7572
8.552
1.79
2.64
22 23 13.9
83
23 19 13.93
19 13.70
5 38 30.0
32 31.5
7.7558
8.550
1.82
2.67
23 23 10.1
84
23 19 22.12
19 21.89
5 31 39.1
31 40.5
7.7541
8.548
1.85
2.70
24 23 6.3
85
23 19 30.28
19 30.05
5 30 48.4
30 49.7
7.7524
8.546
1.88
2.73
25 23 2.5
86
23 19 38.41
19 38.18
5 29 57.9
29 59.2
7.7507
8.544
1.90
2.75
26 22 58.7
87
23 19 46.51
19 46.28
5 29 7.6
29 8.9
7.7489
8.542
1.92
2.77
27 22 54.9
88
23 19 54.57
19 54.34
5 28 17.6
28 18.9
7.7472
8.540
1.94
2.79
28 22 51.1
89
23 20 2.60
20 2.37
5 27 27.8
27 29.1
7.7454
8.538
1.96
2.81
29 22 47.3
90
23 20 10.59
20 10.36
5 26 38.3
26 39.6
7.7435
8.536
1.98
2J3
30 22 43.5
91
23 20 18.54
20 18.32
5 25 49.0
25 50.3
7.7414
8.533
2.00
2.85
31 22 39.7*
92
23 20 26.46
20 26.24
5 25 0.0
25 1.3
7.7390
8.530
2.03
2.87
Apr. 1 22 35.9
93
23 20 34.33
20 34.11
5 24 11.4
24 12.7
7.7364
8.527
2.05
2.89
2 22 32.1
94
23 20 42.15
20 41.93
5 23 23.1
23 24.4
7.7337
8.524
2.07
2.91
3 22 28^
95
23 20 49.92
20 49.71
5 22 35.1
22 36.4
7.7309
8.521
2.09
2.92
4 22 24.5
96
23 80 57.64
20 57.44
5 21 47.5
21 48.8
7.7279
8.518
2.10
2.94
5 22 20.7
97
23 21 5.31
21 5.11
5 21 0.2
21 1.5
7.7249
8.515
2.11
2.95
6 22 16.9
98
23 21 12.93
21 12.73
5 20 13.3
20 14.5
7.7219
8.512
2.12
2.96
7 22 13.1
99
23 21 20.49
21 20.29
5 19 26.7
19 27.9
7.7188
8.508
2.13
2.97
8 22 9.3
100
23 21 27.99
21 27.79
5 18 40.5
18 41.7
7.7156
8.504
2.14
2.98
9 22 5.5
101
23 21 35.44
21 35.24
5 17 54.7
17 55.9
7.7122
8.500
2.15
2.99
10 22 1.7
102
23 21 42.83
21 42.63
5 17 9.3
17 10.5
7.7087
8.496
2.16
3.00
11 21 57.9
103
23 21 50.16
21 49.96
5 16 24.4
16 25.5
7.7051
8.492
2.17
3X>1
12 21 54.1
104
23 21 57.43
21 57.23
5 15 39.8
15 41.0
7.7014
8.488
2.18
3.02
13 21 50^
105
23 22 4.63
22 4.43
5 14 55.7
14 56.9
7.6975
8.484
2.19
3.03
14 21 46.5
106
23 22 11.77
22 11.57
5 14 12.1
14 13.2
7.6936
8.480
8.475
2.20
8.04
15 21 42.6
107
23 22 18.84
22 18.65
5 13 28.9
13 30.0
7.6895
2.21
3.05
16 21 38.8
108
23 22 25.84
22 25.66
5 18 46.2
12 47.3
7.6854
8.470
2.22
3.06
17 21 35.0
109
23 22 32.77
22 32.60
5 18 4.0
12 5.0
7.6812
8.465
2.23
3.07
18 21 31.1
110
23 22 39.64
22 39.47
5 11 82.2
11 23.2
7.6767
8.460
2.24
3.08
19 21 27.3
111
23 22 46.44
22 46.26
5 10 40.9
10 41.9
7.6721
8.455
2.24
3i)8
20 21 23.5
112
23 22 53.16
22 52.98
5 10 0.1
10 1.1
7.6672
8.450
2.25
3.09
21 21 19.7
113
23 22 59.80
22 59.63
5 9 19.8
9 20.7
7.6621
8.445
2.26
3.10
22 21 15.9
114
23 23 6.37
23 6.20
5 8 39.9
8 40.9
7.6568
8440
2iJ7
3.11
83 21 12.0
115
23 23 12.86
23 12.69
5 8 0.6
8 1.6
7.6514
8.434
2.28
3.12
24 21 8.2
116
23 23 19.27
23 19.11
5 7 21.8
7 28.8
7.6459
8.428
8.29
3.13
25 21 4.4
117
23 23 25.60
23 25.44
5 6 43.5
6 44.5
7.6403
8.422
2.30
3.13
26 21 0.6
118
23 23 31.85
23 31.69
5 6 5.8
6 6.8
7.6345
8.416
2.31
3.14
27 20 56.7
119
23 23 38.01
23 37.86
5 5 28.7
5 29.7
7.6286
8.409
2.31
3.14
28 20 52.9
120
23 23 44.09
23 43.94
5 4 52.2
4 53.2
7.6225
8.402
2.32
3.15
29 20 49.1
121
23 23 50.09
23 49.94
5 4 16.2
4 17.2
7.6163
8.395
8.33
3.15
30 20 45.3
122
23 23 55.99
23 55.85
- 5 8 40.8
3 41.8
+7.6099
+ 8.388
-2JW
-3.16J
47
«70
NEPTUNE, 1856.
FOR WASHINGTON SIDEREAL NOON
AND
MERIDIAN TRANSIT. i
'Meui Solar Time of
Mertaian Transit,
which preceOas
aid. Oh.
aide-
Apparent
Right Ascenalon.
Loe.CoeOctentort
LocOoefleinft i
real
Date.
At
Sidereal Oh.
At
Tiutflt.
At
SIdenalOh.
At
TnuMlt.
InR-A.
In Dae.
InB.A.
IbDw
d. h. m.
h. m. 8.
m. 0.
O 1 M
1 It
Mat 1 20 41.4
123
23 24 1.81
24 1.67
- 5 8 6.0
3 6.9
+7.6032
+ 8.380
-2.34
-8.17
2 20 37.6
124
23 24 7.54
24 7.40
5 2 81.8
2 32.6
7.5963
8.372
2.35
3.17 '
3 20 33.8
125
23 24 13.18
24 13.04
5 1 58.1
1 59X)
7.5892
8.364
2.35
8.18
4 20 29.9
126
23 24 18.72
24 18JS9
5 1 25.1
1 26X>
7.5819
8.356
2UI6
3.18 1
5 20 26.1
127
23 24 24.17
24 24iM
5 0 52.8
0 58.6
7.5743
8.848
2.86
8.19
6 20 22.2
128
23 24 29.52
24 29.40
5 0 21.1
0 21.9
7.5666
8.339
2.87
3.19!
7 20 18.4
129
23 24 34.78
24 84.66
4 59 50X)
59 50.8
7.5586
8.330
2.87
3.19 1
8 20 14.6
130
23 24 39.94
24 89.83
4 59 19.6
59 20.3
7.6504
8.321
2^8
8.20
9 20 10.7
131
23 24 45.01
24 44.90
4 58 49.8
58 50.5
7.5419
8.311
288
8J0'
10 20 6.9
132
23 24 49.97
24 49.87
4 58 20.7
58 2M
7.5838
8.801
239
8.20 1
11 20 3.0
183
23 24 54.84
24 54.74
4 57 52.2
57 52.9
7.6244
8.291
239
3.21
12 19 59.2
134
23 24 59.61
24 59.51
4 57 24.4
67 25.1
7.6161
8.281
2.40
8J1
13 19 55.3
135
23 25 4.27
25 4.17
4 56 57.2
56 57.9
lAOM
8.270
2.40
8.21
14 19 51^
136
23 25 8.83
25 8.78
4 56 80.7
56 81.4
7.4957
8.269
240
8.21
15 19 47.7
137
23 25 13.29
25 18.19
4 56 4.9
56 5.6
74864
8.247
141
8.22
16 19 43.8
188
23 25 17.64
25 17.54
4 55 89.8
55 40.6
7.4748
8.285
241
8.22
17 19 39.9
139
23 25 21.88
25 21.79
4 55 15.4
55 16.0
7.4639
8.223
241
8.22
18 19 36.1
140
23 25 26.02
25 25.98
4 54 51.7
54 52.2
7.4527
8.210
241
8.28
19 19 32.2
141
23 25 30.05
25 29.96
4 54 28.7
54 29.2
7.4411
8.197
242
8.23
20 19 28.3
142
23 25 33.97
25 83.89
4 54 6.3
64 6.9
74291
8.183
242
833
21 19 24.5
143
23 25 37.79
25 37.70
4 58 44.7
68 45.2
74168
8.169
242
833
22 19 20.6
144
23 25 41.49
25 41.41
4 58 23.8
53 24.2
7.4041
8.155
2.42
834
23 19 16.7
145
23 25 45.09
25 45.01
4 58 3.6
58 4.0
7.3911
8.140
248
834
24 19 12.8
146
23 25 48.57
25 48.50
4 52 44.1
62 44.5
7.8776
8.124
248
834
25 19 8.9
147
23 25 51.96
25 51.88
4 52 25.8
52 25.7
7U)638
8.107
248
836
26 19 5.1
148
28 25 55.23
25 55.15
4 52 7.8
62 7.6
7.8481
8.089
248
836
27 19 1.2
149
23 25 58.38
25 58.30
4 51 50.0
61 60.3
7.8330
8.071
244
836
28 18 57.3
150
23 26 1.42
26 1.34
4 51 33A
61 83.7
7.8158
%M2
244
836
29 18 53.4
151
23 26 4.34
26 4.27
4 51 17.6
51 17.9
7.2980
8.031
244
8.26
SO 18 49^
152
23 26 7.14
26 7.08
4 51 2.5
61 2.8
7.2809
8.009
244
836
81 18 45.6
153
23 26 9.83
26 9.77
4 50 48.2
60 48.5
7.2616
7.986
246
836 1
Jaael 18 41.7
154
28 26 12.40
26 12J}5
4 50 84.7
50 85.0
7.2420
7.961
2.46
336
2 18 37.8
155
23 26 14.86
26 14.81
4 50 21.9
50 22.2
7.2219
7.936
246
837 ,
3 18 33.9
156
23 26 17.20
26 17.16
4 50 9.9
50 10.2
7.1995
7.907
246
337 1
4 18 30.0
157
23 26 19.42
26 19.39
4 49 58.6
49 58.9
7.1761
7.876
246
837 ;
5 18 26.1
158
23 26 21J52
26 21.50
4 49 48.1
49 48.4
7.1524
7.848
246
337]
6 18 22.2
159
23 26 23.51
26 23.48
4 49 88.4
49 38.7
7.1261
7.808
246
837 1
7 18 18.3
160
23 26 25.38
26 25.34
4 49 29.5
49 29.7
7.0989
7.770
2.46
337 ,
8 18 14.4
161
23 26 27.12
26 27.09
4 49 21.8
49 21.5
7.0695
7.729
246
837
9 18 10.5
162
23 26 28.75
26 28.73
4 49 13.9
49 14.1
7i)875
7.685
246
337
10 18 6.6
163
23 26 30.26
2^80.24
4 49 7.2
49 7.4
7.0038
7.688
246
837
11 18 2.7
164
23 26 31.65
26 81.63
4 49 1.3
49 lA
6.9655
7382
246
337
12 17 58.8
165
23 26 32.92
26 82.90
4 48 56.2
48 56.4
6.9280
7314
246
337 ,
13 17 54.9
166
23 26 34.08
26 84.05
4 48 51.9
48 52.0
6.8790
7444
2.46
837
14 17 51.0
167
23 26 35.11
26 85.09
4 48 48.8
48 48.4
6.8284
7.347
246
337
15 17 47.1
168
23 26 86.02
26 86.00
4 48 45.5
48 45.5
6.7710
7.239
246
337 1
16 17 43.2
169
23 26 36.81
26 86.80
4 48 484
48 43.4
6.7049
7.072
246
337 1
17 17 39.3
170
23 26 87.48
26 3747
4 48 42.1
48 42.1
6.6340
6.842
246
337
18 17 35.3
171
23 26 38.04
26 38.03
4 48 41.5
48 41.5
6.6385
+ 6.194
246
337
19 17 31.4
172
23 26 38.48
26 38.47
4 48 41.7
48 41.7
64214
- 6.620
246
336
20 17 27.5
173
23 26 88.80
26 38.79
4 48 42.7
48 42.6
6.2566
6.966
2.46
836
21 17 23.5
174
23 26 89.00
26 38.99
4 48 44.4
48 44.8
6.9555
7.164
246
336 1
22 17 19.6
175
23 26 39X)7
26 39.07
4 48 46.9
48 46.8
•f4.9386
7.304
246
836
23 17 15.6
176
23 26 89.02
26 39.03
4 48 50.2
48 50.1
-5.8416
7.398
246
3.26
24 17 11.7
177
23 26 38.86
26 38.87
4 48 54.2
48 54.1
6.1840
7485
2.46
3.26 1
25 17 7.8
178
23 26 88.58
26 38.59
4 48 59.0
48 68.9
6.3731
7349
246
336
26 17 3.8
179
23 26 38.18
26 3S.19
4 49 4.5
49 4.4
6.5044
7.612
2.46
3.26
27 16 59.9
180
23 26 37.66
26 37.67
4 49 10.8
49 10.7
6.5975
7.661
2.46
3.25
28 16 55.9
181
23 26 37.03
26 37 04
4 49 17.8
49 17.8
6.6804
7.707
246
3.25
29 16 52.0
182
23 26 36.28
26 36.29
4 49 25.6
49 25.6
6.7554
7.749
246
835 1
30 16 48.0
183
23 26 35.40
26 35.42
4 49 34.2
49 34.1
6.8113
7.788
245
835
31 16 44 1
_184
23 26 .14.41
26 34.43
- 4 49 4.'53
49 43JJ
-6.8628
- 7.8?4
-2.45
-3.24
NEPTUNE, 1856.
371
FOR WASHINGTON SIDEREAL NOON
AND MERIDIAN TRANSIT* ||
MflMi Bolw TiuM of
Meridtan Tmiuit,
Side-
Blghtlje^ikm.
Appawnt Beolinatloii.
Loff. Coeffidentofl
inSidenal MlDutes.
Log. Coemdent
ofl«.
xeal
wbich precedes
Sid. Ok.
Date.
At
SidecMlOh.
At
Tnodt.
At
81den«10h.
At
Tzmasit.
InB.A.
In Dec.
I11R.A.
In Dee.
d h m.
h. m. >.
m. B.
O 1 II
1 It
Jialv 1 16 44.1
184
23 26 34.41
26 34.43
- 4 49 43.5
49 43.3
-6.8628
- 7.824
-2.45
-3.24
' 2 16 40.1
185
23 26 33.30
26 33.32
4 49 53.5
49 53.3
6.9098
7.857
2.45
3.24
3 16 36.2
186
23 26 32.07
26 32.10
4 50 4.3
50 4.0
6.9528
7.887
2.45
3.24
4 16 32.2
187
23 26 30.73
26 30.76
4 50 15.8
50 15.5
6.9906
7.915
2.44
3.23
5 16 28.3
188
23 26 29.27
26 29.31
4 50 28.0
50 27.7
7.0238
7.939
2.44
3.23
6 16 S4.3
189
23 26 27.70
26 27.75
4 50 40.9
50 iOJS
7X>541
7.962
2.44
3.23
7 16 20.4
190
23 26 26.01
26 26.07
4 50 54.6
60 54.1
7.0826
7.984
2.44
3.22
8 16 16.4
191
23 26 24.22
26 24.27
4 51 8.9
51 8.4
7.1094
8.006
2.43
3.22
9 16 12.5
192
23 26 22.32
26 22.36
4 51 23.9
51 23.4
7.1345
8.026
2.43
3.22
10 16 8.5
193
23 26 20.30
26 20.34
4 51 39.6
51 39.1
7.1583
8.046
2.43
3.21
11 16 4.5
194
23 26 18.17
26 18.21
4 51 56.0
'51 55.5
7.1807
8.064
2.42
3.21
12 16 0.5
195
23 26 15.93
26 15.98
4 52 13.1
52 12.6
7.2020
8.082
2.42
3.21
IS 15 56.6
196
23 26 13.58
26 13.64
4 52 30.9
52 30.4
7.2220
8.099
2.42
3.20
14 15 52.6
197
23 26 11.13
26 11.20
4 52 49.3
52 48.9
7.2411
8.115
2.41
3.20
15 15 48.6
198
23 26 8.57
26 8.65
4 53 8.4
53 8.0
7.2592
8.130
2.41
3.19
16 15 44.7
199
23 26 5.91
26 5.99
4 53 28.1
53 27.7
7.276?
8.145
2.40
3.19
17 15 40.7
200
23 26 3.14
26 3.22
4 53 48.5
53 48.0
7.2925
8.159
2.40
3.18
18 15 36.7
201
23 26 0.27
26 0.35
4 54 9.5
54 9.0
7.3079
8.172
2.39
3.18
19 15 32.7
202
23 25 57.30
25 57.38
4 54 31.2
54 30.7
7.3227
8.185
2.39
3.17
20 15 28.7
203
23 25 54.23
25 54.31
4 54 53.5
54 53.0
7.3369
8.197
2.38
3.17
21 15 24.7
204
23 25 51.06
25 51.14
4 55 16.5
55 15.9
7.3505
8.208
2.38
3.16
22 15 20.7
205
23 25 47.80
25 47.87
4 55 40.0
55 39.5
7.3635
8.219
2.37
3.16
23 15 16.8
206
23 25 44.43
25 44.50
4 56 4.2
56 3.7
7.3760
8.229
2.37
3.15
24 15 12.8
207
23 25 40.96
25 41.03
4 56 28.9
56 28.4
7J5881
8.239
2.36
3.14
25 15 8.8
208
23 25 37.39
25 37.47
4 56 54.2
56 53.7
7.3997
8.249
2.36
3.14
26 15 4.8
209
23 25 33.73
25 33.81
4 57 20.1
57 19.6
7.4109
8.258
2.35
3.13
27 15 0.8
210
23 25 29.97
25 30.06
4 57 46.5
57 46.0
7.4217
8.267
2.35
3.12
28 14 56.8
211
23 25 26.12
25 26.21
4 58 13.5
58 12.9
7.4321
8.276
2.34
3.11
29 14 52.8
212
23 25 22.18
25 22.27
4 58 41.0
58 40.4
7.4421
8.285
2.34
3.10
30 14 4&8
213
23 25 18.15
25 18.24
4 59 9.0
59 8.4
7.4517
8.294
2.33
3.09
31 14 44.8
214
23 25 14.03
25 14.13
4 59 37.6
59 37.0
7.4610
8.302
2.32
8.08
Aag. 1 14 40.8
215
23 25 9.83
25 9.93
5 0 6.7
0 6.0
7.4699
8.310
2J51
3.07
2 14 36.8
216
23 25 5.54
25 5.65
5 0 36.3
0 35.6
7.4784
8.318
2.30
3.06
3 14 32,8
217
23 25 1.17
25 1.28
5 1 6.4
1 5.7
7.4866
8.325
2.29
3.05
4 14 28.8
218
23 24 56.72
24 56.83
5 1 37.0
1 36.3
7.4945
8.332
2.28
3.04
5 14 24.8
219
23 24 52.19
24 52.30
5 2 8.1
2 7.4
7.5020
8.338
2.27
3.03
6 14 20.8
220
23 24 47.58
24 47.69
5 2 39.7
2 39.0
7.5092
8.344
2.26
3.02
7 14 16.8
221
23 24 42.90
24 43.01
5 3 11.8
3 11.0
7.5161
8.350
2.25
3.01
8 14 12.7
222
23 24 38.15
24 38.25
5 3 44.3
3 43.4
7.5227
8.356
2.24
3.00
9 14 8.7
223
23 24 33.32
24 33.43
5 4 17.2
4 16.3
7.5290
8.361
2.23
2.98
10 14 4.7
224
23 24 28.42
24 28.53
5 4 50.5
4 49.6
•7.5350
8.366
2.22
2.99
11 14 0.7
225
23 24 23.45
24 23.56
3 « 24.2
5 23.3
7.5407
8.371
2.21
2.98
12 13 56.7
226
23 24 18.42
24 18.53
5 5 5&2
5 57.3
7.5462
8.376
2.20
2.97
13 13 52.7
227
23 24 13.32
24 13.44
5 6 32.6
6 31.7
7.5516
8.381
2.18
2.95
14 19 48.7
228
23 24 8.16
24 8.28
5 7 7.4
7 6.5
7.5569
8.385
2.17
2.93
15 13 44.6
229
23 24 2.94
24 3.06
5 7 42.6
7 41.6
7.5619
8.389
2.16
2.91
16 13 40.6
230
23 23 57.66
23 57.78
5 8 18.1
8 17.1
7.6667
8.393
2.15
2.89
17 13 36.6
231
23 23 52.32
23 52.45
5 8 53.8
8 52.9
7.5714
8.397
2.13
2.87
18 13 32.6
232
23 23 46.92
23 47.06
5 9 29.9
9 29.0
7.5759
8.401
2.12
2.85
19 13 2&6
233
23 23 41.47
23 41.61
5 10 6.3
10 5.4
7.5802
8.404
2.10
2.83
20 13 24.5
234
23 23 35.97
23 36.11
5 10 43.0
10 42.1
7.5842
6.408
2.08
2.81
21 13 20.5
235
23 23 30.42
23 30.56
5 11 19.9
11 19.0
7.5881
8.411
2.06
2.79
22 13 16.5
236
23 23 24.82
23 24.96
5 11 67.1
11 56.2
7.5917
8.414
2.04
2.77
23 13 12.5
237
23 23 19.17
23 19.32
5 12 34.6
12 33.6
7.5952
8.417
2.02
2.74
24 13 8.4
238
23 23 13.48
23 13.63
5 13 12.3
13 11.3
7.5984
8.420
2.00
2.71
25 13 4,4
239
23 23 7.75
23 7.90
5 13 50.2
13 49.2
7.6015
6.422
1.98
2.68
26 13 0.4
240
23 23 1.98
23 2.13
5 14 28.3
14 27.3
7.6044
8.424
1.95
2.65
27 12 56.4
241
23 22 56.17
22 56.33
5 15 6.6
15 5.6
7.6071
8.426
1.92
2.62
28 12 52.3
242
23 22 50.32
22 50.49
5 15 45.1
15 44.1
7.6096
8.428
1.89
2.59
29 12 48.3
243
23 22 44.44
22 44.61
5 16 23.7
16 22.7
7 6120
8.430
1.86
-2.56
90 12 44.3
244
23 22 38.53
22 38.70
5 17 2.5
17 1.5
7.6142
8.432
1.82
31 12 40.3
245
23 22 32.60
22 32.77
- 5 17 41.4
17 40.4
-7.6162
- 8.433
-1.78
372
NEPTUNE, 1856.
FOR WASHINGTON SmEREAL NOON
AND
MERIDIAN TRANSIT. |
'itaa Bolw Time of
MeridlMi Trmiuii,
Side-
Blght'Srarioa.
Loe.Ooeaeleiitori
Log. OoeUeat I
xeal
Dftte.
which praoodet
Sid. Oh.
At
SkkmlOh.
At
Tnarft.
At
BUetwlOb.
At
Truuit.
InB-A.
bDee.
IBR.A.
bDw.'
d.
h. m.
h. m. >.
m. t.
O 1 M
1 M
Septl
IS 36.S
S46
23 22 26.65
88 86.81
- 5 18 SOJi
18 19.5
-7.6180
- 8434
-1.74
2
IS 32.S
S47
23 22 20.67
88 80.83
5 18 69.6
18 58.6
7.6195
8.435
1.70
3
IS S8.S
S48
23 22 14.67
88 14.83
5 19 38.8
19 37.8
7.6207
8436
1.65
4
IS S4.1
S49
23 SS 8.65
88 8.81
5 SO 18.1
20 17.1
7.6218
8436
139
5
IS 80.1
S50
S3 SS S.61
88 8.77
5 SO 574
20 564
7.6228
8.437
132
6 IS 16.1
S51
S3 SI 56.56
81 56.78
5 81 36.8
21 35.8
7.6236
8.437
-1.43
7
IS 1S.1
S5S
S3 SI 50.50
81 50.66
5 88 16.2
88 15.2
7.6242
8437
8
IS 8.0
S53
S3 SI 4443
81 UA9
5 88 55.6
88 54.6
7.6247
8437
9
IS 4.0
S54
S3 SI 38.35
81 38.51
5 83 35X)
23 34.0
7.6251
8.436
10
IS 0.0
S55
S3 SI 3S.S7
81 38.43
5 84 144
84 134
7.6253
8.436
11
II 55.9
S56
S3 SI S6.18
81 86.34
5 84 53.7
84 58.7
7.6254
8.436
IS
11 51.9
S57
S3 SI S0.09
81 80.86
5 85 33X)
85 38.0
7.6253
8.435
13 11 47.9
S58
S3 SI 14.01
81 14.17
5 86 12.2
86 11.2
7.6251
8.435
14
11 43.8
S59
S3 SI 7.93
81 8.09
5 86 514
86 504
7.6248
8434
15
11 39.8
S60
S3 SI 1.86
81 8.01
5 87 30.5
87 89.5
7.6244
8.433
16 11 35.8
S61
S3 20 55.80
80 55.95
5 88 94
98 84
7.6238
8432
17
11 31.7
S6S
S3 20 49.75
SO 49.90
5 88 48.8
88 47.8
7.6230
8.431
+147
18
11 S7.7
S63
S3 SO 43.71
80 43.86
5 89 86.9
89 95.9
7.6221
8429
136
+2.56
19
11 S3.7
S64
S3 SO 37.69
80 37.84
5 30 54
. 30 44
7.6209
8427
1.63
230
SO
11 19.6
S65
S3 SO 31.68
SO 31.84
5 30 43.8
30 43.8
7.6195
8425
1.69
234
SI
11 15.6
S66
S3 20 S5.69
SO 85.85
5 31 SSX)
31 81.0
7.6179
8423
1.74
2.67 '
SS
11 11.5
S67
S3 20 19.73
20 19.89
5 38 0X>
31 59.0
7.6162
8421
1.79
2.70 1
S3
11 7.5
S68
S3 SO 13.79
SO 13.95
5 38 37.8
39 36.8
7.6143
8419
1.83
2.73 1
S4
11 3.5
S69
23 20 7.88
20 %XH
5 33 154
33 144
7.6122
8416
137
2.76 1
S5
10 594
S70
23 20 2U)0
SO 8.16
5 33 58.7
33 51.7
7.6099
8413
130
2.79
S6 10 55vi
S71
23 19 56.16
19 56.38
5 34 89.8
34 88.8
7.6075
8410
1.93
232
S7
10 51.4
S7S
23 19 50.35
19 50.51
5 35 6.6
35 5.6
7.6049
8.407
1.96
234 '
S8
10 47.3
S73
23 19 44.58
19 44.74
5 35 43.1
35 48.1
7.6020
8.403
1.99
2.86
S9
10 43J
S74
23 19 38.84
19 39.01
5 36 19.3
36 18.3
7.5989
8399
2.01
238 ,
30
10 39.3
275
23 19 33.15
19 33.38
5 36 55 J
36 54J1
7.5956
8395
2.03
2.90
Oct I
10 35.3
S76
23 19 27.50
19 87.67
5 37 30.8
37 89.8
7.5920
8391
2.06
232 ,
S
10 31.S
S77
23 19 21.90
19 88i)7
5 38 6.0
38 5.1
7.5882
8386
2.08
234
3 10 S7.S
S78
23 19 16.35
19 16.58
5 38 40.8
38 40.0
7.5841
8382
2.10
2.96
4
10 S3.S
279
23 19 10.85
19 11.08
5 39 15.3
39 144
7.5799
8377
2.12
2.98
5
10 19.S
S80
23 19 541
19 5.57
5 39 494
39 484
7.5755
8372
2.14
2.99
6
10 15.1
S81
23 19 0.02
19 0.18
5 40 93.0
40 88.1
7A708
8366
2.16
330
7
10 ll.l
S8S
23 18 54.69
18 54.85
5 40 56.3
40 55;s
7.5659
8361
2.17
331
8
10 7.1
283
23 18 4942
18 49.58
5 41 89.1
41 88.8
7.5608
8355
2.18
332
9
10 3.1
284
23 18 44.22
18 44.37
5 49 1.5
48' 0.6
7.5555
8349
2.19
333 ;
10
9 59.1
285
23 18 39X)7
18 39J3
5 48 334
4S 38.5
73499
8343
230
334 1
11
9 55.1
286
23 18 S8J9
16 34.15
5 43 4J
43 4.0
73441
8337
231
335
IS
9 51.1
287
23 18 28.99
18 89.14
5 43 35J
43 35.0
73381
8330
232
336 1
13
9 47.1
288
23 18 24.06
18 84.19
5 44 6.5
44 5.6
7.5320
8323
2.23
337 I
14
9 43.1
289
23 18 19.19
18 19.39
5 44 36.5
44 35.6
73257
8316
234
338
15
9 39.0
290
23 18 14.39
18 1431
5 45 6X)
45 5.1
73191
8308
235
339
16
9 35X)
291
23 18 9.67
18 9.80
5 45 35j0
45 34.1
73123
8300
236
3.10
17
9 31.0
292
23 18 5.02
18 5.15
5 46 34
46 8.6
7.5050
8.292
2.28
8.11
18
9 S7.0
293
23 18 0.46
18 0.58
5 46 31.3
46 30.5
74974
8.284
239
3.12
19
9 S3.0
294
23 17 55.97
17 56.09
5 46 58.7
46 57J
74894
8.275
230
3.13
SO
9 19.0
295
23 17 51.57
17 51.69
5 47 S5.5
47 24.7
74811
8366
231
3.14
SI
9 15.0
296
23 17 47.S5
17 47.37
5 47 51.7
47 50.9
74725
8356
232
3.15 1
SS
9 11.0
297
23 17 43.02
17 43.14
5 48 174
48 16.6
74635
8346
233
8.16 ;
S3
9 7.0
298
S3 17 38.88
17 39.00
5 48 48.5
48 41.7
7.4541
8336
234
3.17
S4
9 3.0
299
S3 17 34.83
17 34.95
5 49 6J
49 6.2
74442
8325
235
3.18
S5
8 59.0
300
23 17 30.87
17 30.99
5 49 30.7
49 30.1
7.4339
8313
236
3.19
S6
8 55.0
301
23 17 27X)1
17 87.18
5 49 53.9
49 53.3
74232
8301
237
3.19,
S7
8 51.0
302
23 17 23.24
17 83.35
5 50 16.5
50 15.9
74120
8.188
23S
330
S8
8 47.0
303
23 17 19.57
17 19.68
5 50 384
50 37.8
7.4004
8.175
238
330'
S9
8 43.0
304
23 17 16.00
17 16.10
5 50 59.6
50 59.1
7.3883
8.162
239
331
80
8 39.0
305
23 17 12.53
17 19.63
5 51 80.2
51 19.7
73756
8.148
239
332
31
8 35.0
306
S3 17 9.16
17 9.86
5 51 40.1
51 39.6
73624
8.133
240
332 ,
33
8 31.0
307
83 17 5.90
17 6.00
- 5 51 59.3
51 58.8
-73485
- 8.118
+2 40
-►333
NEPTUNE, 1856.
373
FOR WASHINGTON SIDEREAL NOON
AND
[MERIDIAN TRANSIT. . |
Mean Botor Tlma of
Meridiui Trmiwlt,
Side-
Apparait
Bight Ammrioa.
Apptnot DeeliiMtioii.
in muml MinntM.
Log. CoeOeient 1
Date.
which preowles
Sid. Oh.
At
SidanalOh.
At
Tnarft.
At
BklwMlOh.
At
Tnuuit.
InR.A.
In Deo.
InR.A.
In Deo.
d.
h. m.
h. m. >.
m. >.
O 1 II
1
Not. 1
8 31.0
307
23 17 5.90
17 6.00
- 5 51 59.3
51 58.8
-7J4S5
- 8.118
+2.40
+3.23
S
8 27.0
308
23 17 2.74
17 2.84
5 52 17.8
52 17.3
7.3340
8.102
2.41
3.23
3
8 23.1
809
23 16 59.69
16 59.79
5 52 35.6
52 35.1
7.3187
8.084
• 2.42
3.24
4
8 19.1
310
23 16 56.75
16 56.84
5 52 52.7
52 52.2
7.3026
8.066
2.42
3.24
5
8 15.1
311
23 16 53.91
16 54.00
5 53 9.1
53 8.6
7.2857
8.046
2.43
3.25
6
8 11.1
312
23 16 51.18
16 51.27
5 53 24.7
53 24.3
7.2679
8.025
2.43
3.25
7
8 7.2
313
23 16 48.57
16 48.65
5 53 39.6
53 39.2
7.2491
8.003
2.43
3.25
8
8 3.2
314
23 16 46.07
16 43.16
5 53 53.8
53 53.4
7.2294
7.980
2.44
3.25
9
7 59.2
315
23 16 43.69
16 43.76
5 54 7.2
54 6.8
7.2085
7.956
2.44
3.26
10
7 55.3
316
23 16 41.42
16 41.49
5 54 19.8
54 19.5
7.1864
7.930
2.44
3.26
11
7 51.3
317
23 16 39.26
16 39.33
5 54 31.7
54 31.4
7.1629
7.902
2.45
3.26
IS
7 47.3
318
23 16 37.22
16 37.29
5 54 42.9
54 42.6
7.1380
7.872
2.45
3.26
13
7 43.4
319
23 16 35.30
16 35.36
5 54 53.3
54 53.0
7.1118
7.840
2.45
3.26
U
7 39.4
320
23 16 33.49
16 33.55
5 55 2.9
55 2.7
7.0846
7.805
2.45
3.27
15
7 35.4
321
23 16 31.80
16 31.85
5 55 11.8
55 11.6
7.0538
7.768
2.46
3.27
16
7 31.5
322
23 16 30.23
16 30.27
5 55 19.9
55 19.7
7.0206
7.728
2.46
3.27
17
7 27.5
328
23 16 28.78
16 28.82
5 55 27.8
55 27.1
6.9847
7.685
2.46
3.27
18
7 23.5
324
23 16 27.44
16 27.48
5 55 33.8
55 33.7
6.9454
7.634
2.47
3.27
19
7 19.6
325
23 16 26.23
16 26.27
5 55 39.6
55 39.5
6.9023
7.574
2.47
3.27
20
7 15.6
326
23 16 25.14
16 25.18
5 55 44.6
55 44.5
6.8544
7.505
2.47
3.28
21
7 11.7
327
23 16 24.18
16 24.21
5 55 48.8
55 48.7
6.7935
7.421
2.48
3.28
22
7 7.7
328
23 16 23.35
16 23.37
5 55 52.2
55 52.1
6.7281
7.319
2.48
3.28
23
7 3.8
329
23 16 22.64
16 22.66
5 55 54.8
55 54.7
6.6478
7.184
2.48
3.28
24
6 59.8
330
23 16 22.06
16 22.07
5 55 56.6
55 56.5
6.5576
6.988
2.48
3.28
25
6 55.9
331
23 16 21.60
16 21.61
5 55 57.5
55 57.5
6.4383
- 6.592
2.48
3.28
26
6 51.9
332
23 16 21.27
16 21.28
5 55 67.7
55 57.7
6.2730
+ 6.312
2.49
3.28
27
6 48.0
333
23 16 21.06
16 21.07
5 55 57.0
55 57.0
5.9877
6.883
2.49
3.29
28
6 44.0
334
23 16 20.99
16 20.99
5 55 55.5
55 55.5
-4.8416
7.120
249
3.29
29
6 40.1
335
23 16 21.04
16 21.04
5 55 53.2
55 53.3
+5.9024
7.273
2.49
3.29
30
6 36.2
836
23 16 21.22
16 21.22
5 55 50.1
55 50.2
6.2395
7.386
2.49
3.29
Dec 1
6 323
337
23 16 21.53
16 21.52
5 55 46.1
55 46.3
6.4214
7.475
2.49
3.29
2
6 28.4
338
23 16 21.97
16 21.95
5 55 41.4
55 41.6
6.5406
7.558
2.49
3.29
3
6 24.5
339
23 16 22.53
16 22.51
5 55 35.8
55 36.0
6.6427
7.619
2.49
3.29
4
6 20.5
340
23 16 23.23
16 23.20
5 55 29.4
55 29.7
6.7224
7.670
2.49
3.29
5
6 16.6
341
23 16 24.05
16 24.01
5 55 22.2
55 22.5
6.7910
7.717
2.49
3.29
6
6 12.7
342
23 16 25.00
16 24.95
5 55 14.2
55 14.5
6.8459
7.761
2.49
3.29
7
6 8.8
343
23 16 26.07
16 26.02
5 55 5.4
55 5.7
6.8967
7.801
2.49
3.29
8
6 4.9
344
23 16 27.27
16 27.22
5 54 55.7
54 56.1
6.9454
7.838
2.49
3.29
9
6 1.0
345
23 16 28.60
16 28.55
5 54 45.3
54 45.7
6.9846
7.873
2.49
3.29
10
5 57.1
346
23 16 30.05
16 30.00
5 54 34.1
54 34.5
7.0234
7.905
2.49
3.29
11
5 53.2
347
23 16 31.63
16 31.58
5 54 22.1
54 22.5
7.0578
7.935
2.48
3.29
12
5 49.3
348
23 16 33.34
16 33.28
5 54 9.3
54 9.7
7.0896
7.963
2.48
3.29
13
6 45.4
349
23 16 35.17
16 35.11
5 53 55.7
53 56.1
7.1204
7.989
248
3.28
14
5 41.5
350
23 16 37.13
16 37.07
5 53 41.3
53 41.7
7.1491
8.013
348
3.28
15
5 37.6
351
23 16 39.22
16 39.15
5 53 26.1
53 26.5
7.1746
8.036
248
3.28
16
5 33.7
352
23 16 41.43
16 41.36
5 53 10.1
53 10.5
7.1995
8.057
248
3.28
17
5 29.8
353
23 16 43.77
16 43.70
5 52 53.3
52 53.8
7.2218
8.077
248
3.28
18
5 25.9
854
23 16 46.23
16 46.16
5 52 35.7
52 36.2
7.2447
8.096
248
3.28
19
5 22.0
355
23 16 48.82
16 48.75
5 52 17.4
52 17.9
7.2655
8.114
248
3.28
20
5 18.1
856
23 16 51.53
16 51.46
5 51 58.3
51 58.8
7.2856
8.131
248
3.27
21
5 14.2
357
23 16 54.37
16 54.29
5 51 38.5
51 38.9
7.3040
8.148
247
3.27
22
5 10.3
358
23 16 57.33
16 57.24
5 51 17.8
51 18.3
7.3216
8.164
247
3.27
23
5 6.4
359
23 17 041
17 0.32
5 50 56.4
50 56.9
7.3389
8.179
247
3.27
24
5 2.5
360
23 17 3.61
17 3.52
5 50 34.2
50 34.7
7.3561
8.194
2.47
3.26
25
4 58.6
361
23 17 6.94
17 6.84
5 50 11.3
50 11.8
7.3718
8.208
246
3.26
26
4 54.8
362
23 17 10.39
17 10.28
5 49 47.6
49 48.2
7.3867
8.222
246
3.26
27
4 51.0
363
23 17 13.95
17 13.84
5 49 23.1
49 23.8
7.4010
8.236
246
3.25
28
4 47.1
364
23 17 17.64
17 17.52
5 48 57.9
48 58.7
7.4145
8.249
245
3.25
29
4 43.2
365
23 17 21.44
17 21.31
5 48 32.0
48 32.8
7.4281
8.262
245
3.25
30
4 39.4
366
23 17 25.35
17 25.22
5 48 5.4
48 6.2
7.4414
8.274
2.44
3.24
31
4 35.6
367
23 17 29.38
17 29.25
5 47 38.0
47 38.9
7.4529
8.286
2.43
3.24
32
4 31.8
368
23 17 33.53
17 33.39
- 5 47 9.9
47 10.9
+7.4638
+ 8.297
+242
+3.24 1
d74
PLANETS, 1856.
•
HORIZONTAL PARALLAXES AND SEMIDLAIIETERS.
0*-
HORIZONTAL PARAf.T.ATlM
TKRTIOAL CTJfTDTAMlCTBB-
SID. Tim OF 8EMIDIAMETBR
PAS8IN0 TBI MmroiAlf.
«
9
i
«
?
<?
5
9
^
d.
N
«
»
H
M
M
M.
i.
1.
I
5.98
10.28
6.55
2^2
1030
337
0.18
a68
036
«
6.05
9.84
6.82
2^
9.76
4.02
0.17
a66
036
U
6.25
943
7.10
243
935
4.19
0.17
0.64
038
16
6.54
9J07
741
2.54
9.00
437
0.18
a6i
039
SI
6.98
8.75
7.74
2.71
837
436
0.18
0.60
030
26
7.63
844
8.09
2.98
837
4.78
030
038
033
31
8.63
8.16
847
3^
8.10
630
032
036
034
36
10.01
7.91
8.88
8J9
735
534
035
035
035
41
11.69
7.67
9.31
4.54
731
549
039
032
036
46
13X)5
745
9.77
5J0S
739
5.76
033
030
038
51
13.47
7.25
10.25
5M
7.19
635
035
049
040
56
12J0
7M
10.78
5M
730
634
033
047
041
61
11.90
6.88
11.26
4.63
632
634
030
046
043
66
10.84
6.72
11.76
4.22
6.67
6.98
038
045
046
71
9.90
6.57
12J5
3.85
632
732
035
043
047
76
9.13
642
12.70
336
637
749
0.23
043
049
81
8.48
6.29
13J09
SJ30
634
7.78
031
042
030
86
7.95
6.16
1340
3.10
6.11
731
0.19
041
031
91
7.51
6.05
13.61
2.93
630
8.04
0.18
039
033
96
7.14
5.94
13.73
2.78
539
839
0.17
039
033
101
6J5
5.84
13.72
2.66
5.79
839
0.17
038
033
106
6.62
5.74
13.60
237
5.69
833
0.17
037
033
111
646
5.65
13.39
2.52
5.60
7.90
0.17
037
032
116
6.45
5.57
13.10
231
532
7.72
0.18
037
031
121
6.58
549
12.75
236
545
732
0.18
036
049
126
6J9
543
12.35
2.68
539
738
0.18
035
048
131
7.42
5J6
11.92
2.89
532
733
030
035
047
136
8.14
5.30
11.51
3.18
5.26
6.78
0.23
035
045
141
9.06
5.24
11.08
3.53
530
633
036
035
a43
146
10.16
5.19
\0M
3.96
5.15
639
039
035
041
151
1140
5.15
10.26
444
5.11
6.05
032
034
040
156
12.73
5.11
9J8
4.95
537
532
•036
034
038
161
UJOl
5J0B
9.52
546
534
531
038
034
037
166
15.00
5.04
9.18
5.84
530
541
041
034
036
171
15.44
5X>2
8.87
6X)1
4.98
533
040
035
035
176
15.12
4.99
8.56
5.88
435
537
039
035
034
181
14.13
4.98
8.29
530
434
439
036
035
033
186
12.73
4.96
8.03
4.96
432
4.73
033
035
030
191
11.26
4.95
7.79
438
431
439
0.28
035
030
196
9.87
4J5
7.56
8.84
431
446
035
034
039
201
8.68
4.95
7.35
338
431
433
032
034
039
206
7.73
4.95
7.16
3.02
431
432
030
034
038
211
7.05
4.95
6J7
2.75
431
4.11
0.18
034
038
216
6.62
4.97
6.80
237
432
431
0.18
034
0.27
221
6.39
4.98
6.64
246
4.94
331
0.17
033
037
226
6.31
54)0
6.49
245
4.96
332
0.17
033
037
231
6.34
5M
6^
246
438
3.74
0.16
033
036
236
644
&M
6.21
231
531
3.66
0.17
033
036
241
6.62
5.08
6.09
237
534
339
0.16
033
036 1
246
6.85
5.12
5.98
2.67
538
3.52
0.17
033
035 1
251
7.16
5.16
5^
2.79
5.12
345
0.18
033
034
256
1M
5^
5.76
2.94
5.16
339
0.19
034
034
261
8.03
5.25
5.66
3.14
531
333
031
034
034
266
8.64
5.30
5.56
336
536
338
033
034
033
271
9.41
5.36
547
3.66
532
3,23
036
035
033
276
10.37
542
5.39
4.05
538
3.18
037
036
033
•
281
11.51
549
5.30
448
545
3.12
031
037
033
286
1234
5.56
5.23
4.88
531
3.08
033
038
a23
291
12J6
5.64
5.15
bJOO
939
833
032
038
032
296
\tJOO
5.72
5.08
4.67
537
2.99
030
039
0.22
PLANETS, 1856.
376
HORIZONTAL PARALLAXES AND SEMIDLOIETERS.
HOBIZOirTAL PAKALLAXIBH.
YXBTIOAL SnODTAMSTBR.
SID. TIMB OF SEMIDTAMmrBB
PASSIMO THS MSaiDlAM.
Date.
«
9
i
5
9
<f
8
9
<?
d.
M
M
M
M
n
M
>.
>.
I.
SOI
10.42
531
531
4.06
5.76
2.95
035
040
0.22
306
8.96
5.90
4.94
349
5.85
231
032
041
031
311
7.85
6.00
4.88
337
535
237
0.19
042
031
316
7.20
6.10
431
2.80
6.05
2.84
0.18
044
031
321
6.67
6.21
4.76
2.60
6.16
230
0.18
045
030
326
634
633
4.70
8.46
638
2.77
0.17
0.45
0.20
331
6.13
6.47
4.64
238
642
2.73
0.16
046
030
336
5.99
631
438
233
636
2.70
0.17
047
0.20
341
5.93
6.75
433
231
6.70
237
0.16
048
0.20
346
5.92
6.91
4.48
230
635
2.64
0.16
049
0.19
351
5.97
7.07
4.43
232
731
231
0.17
049
0.19
356
6.08
736
438
237
7.20
2.58
0.17
049
0.19
361
6.27
6v45
433
2.44
739
235
0.17
031
0.19
366
6.57
7.65
438
235
739
232
0.18
032
0.18
Ok-
BIdanal
Site.
]l
h
d
V
h
d
V
h
&
<L
H
M
N
«
a
•
u.
■.
1.
1
1.54
1.06
045
16.93
9.71
1.77
132
0.73
0.13
11
1.52
136
045
16.59
9.63
1.76
1.20
0.72
0.12
21
1.49
1.05
044
1631
933
1.74
1.17
0.71
0.12
31
1.47
133
0.44
1639
9.40
1.72
1.16
0.70
0.12
41
M5
1.02
0.44
15.93
936
1.71
1.14
0.69
0.12
51
1.44
130
043
15.82
9.10
139
1.13
0.68
0.12
61
1.44
0.98
0.48
15.76
8.93
1.68
1.12
037
0.12
71
1.44
036
0.43
15.76
8.76
1.67
1.12
0.66
0.12
81
1.44
034
042
15.83
8.60
1.66
1.12
0.64
0.11
91
1.45
0.93
042
15.94
846
1.64
1.13
0.64
0.11
101
M7
031
042
16.10
832
134
1.14
0.63
0.11
111
1.49
0.90
042
1632
830
1.63
1.16
0.63
0.11
121
1.51
039
042
1639
839
1.63
1.17
0.62
O.U
131
\M
0.88
042
16.92
7.99
1.63
130
031
0.11
141
1.58
037
042
1730
732
1.63
132
031
O.U
151
1.62
036
042
17.75
736
133
135
031
O.U
161
1.66
0.86
042
1835
732
1.64
139
0.60
0.11
171
1.71
036
042
18.80
730
134
133
0.60
O.U
181
1.77
0.86
042
1939
7.80
135
138
0.60
0.11
191
132
036
0.43
2032
732
1.66
142
0.60
0.11
201
138
0.86
0.43
2038
7.86
138
146
0.60
0.12
211
1.94
0.87
0.43
2135
7.90
1.69
131
0.60
0.12
231
2J0\
037
0.44
22.00
737
1.70
135
0.60
0.12
. 231
2.06
0.88
0.44
2238 '
837
1.72
1.60
031
0.12
241
2.11
0.89
0.44
2338
8,17
1.73
1.64
032
0.12
251
2.14
031
045
23.49
839
1.75
1.66
0.62
0.12
261
2.16
032
045
23.74
8.43
1.76
1.68
0.63
0.13
271
2.17
0.94
0.45
23.82
837
1.77
1.68
0.64
0.13
281
2.16
036
045
23.70
8.73
1.78
137
.0.66
0.13
291
2.13
0.98
0.46
23.42
8.89
130
135
0.66
0.13
301
2.09
039
046
2238
9.05
1.80
1.62
0.68
0.13
311
2.04
131
046
2234
931
130
1.58
0.69
0.13
321
1.99
1.03
046
21.70
937
130
134
0.70
0.13
331
1.92
1.04
046
21.12
9.50
130
149
0.71
0.13
841
136
135
046
2044
931
13P
144
0.72
0.13
351
1.80
136
046
19.76
9.68
•l.T9
139
0.73
0.13
361
1.74
1.07
046
19.12
9.72
1.78
135
0.73
0.13
371
1.68
1.08
046
1832
9.76
1.77
131
0.73
0.13
He
«. —Tor N«ptiiiM ftU He
u a 4
dmililFni
4 4(
llu . 0"J8 (biftm 1464. tad aflir 84M.)
- 0"39 (iMtiTMO 146d. Md M6d.)
==
376 SUN'S COORDINATES, 1856.
Date.
1856.
BBOTANaULAB SQUATOIUAL.
POLAR ECLIPTIO. J
X.
IP.
T.
T'.
B.
V.
TnMLoc«ltad».
if
TifltllTiih
I
Loc.E«d.
Jail IJQ
-h.l800258
0659
—3867099
7179
—3848141
7792
O 1 u
280 99 03
M
9.1
+039
93 1
926661
1.5
.1886198
6592
3852084
2158
3841629
1279
281 9 96.4
44.2
+032
26672;
2.0
.1971994
2980
3896977
6449
3894816
4467
281 94 113
193
—035
26692!
2.5
.2057640
8019
3819981
KK)50
3827709
7954
282 4 463
64.4
0.12
86618
ZJO
.2149128
9500
3802892
2969
3820291
:9942
282 95 22.4
29.9
0.18
96648,
9.5
-h^228452
8817
—37851 18
6189
—3812581
2299
289 5 67.7
65.1
—034
926689
4.0
.2313605
9962
3766655
6718
3804572
4224
289 96 993
403
030
26729 1
4.5
.2398581
8991
3747508
7568
3796264
5916
284 7 8.7
15.9
036
26766
5.0
.2483373
9714
.8727676
7794
3787660
7912
284 97 44.4
513
0.41
26814,
6.6
.2567973
8307
3707161
7217
3778768
8411
286 8 19.9
263
0^
26866'
6.0
-h.2652371
2698
—.8685966
6021
—3769562
9215
286 98 65.4
623
—0/49
926929 1
6.5
.2736561
6881
3664092
4146
3760069
:9729
286 9 90.8
973
031
26984 >
7.0
.2820536
0848
.8641641
1599
3760284
:9999
286 40 6.1
123
039
27049'
7.5
.2904290
4594
.8618914
8965
3740206
:9861
287 10 41.4
48.1
034
27129 1
8.0
.2987817
8115
3694415
4466
3729896
9491
287 41 163
29.1
036
27192
8.5
-h^71H0
1401
-3569842
9891
-3719172
8828
288 11 51.7
58.1
—036
9272701
9.0
.3154162
4447
.8544601
4648
3708218
7876
288 42 263
99.1
037
27952
9.5
.3236967
7244
.8518691
8797
3696975
6692
289 19 1.7
7.9
035
27498 1
10.0
.3319516
9786
.8492117
2162
3685440
6099
289 49 96.7
42.8
032
27529!
10.5
.3401800
2065
3464880
4924
3679619
9277
290 14 11.4
17.4
0.48
27624 i
11.0
+.3483814
4075
—.8496986
7028
—3661509
1167
290 44 46.0
519
—0.44
927723 1
U.5
.3565553
5810
.8408491
8472
3649115
8774
291 15 20.4
263
0.40
27826
12.0
3647012
7265
.8979221
9261
3636437
6096
291 45 543
0.4
035
27994
12.5
3728183
8432
.8949959
9998
3623476
9195
292 16 28.7
94.4
031
28046!
13.0
3809060
9304
.8918849
8887
3610299
9899
292 47 23
83
0.26
28166
13.5
+3889639
9879
—3287692
7729
—3596710
6970
293 17 963
41.9
-030
928288
14.0
3969912
.•0148
.8255894
5990
3582907
2568
293 48 9.8
153
ai4
28417 1
14.5
.4049873
H)I05
.8229454
9489
3568826
8487
294 18 43.1
48.5
0.08
28551
15.0
.4129514
9743
3190977
0411
35.54468
4129
294 49 163
213
—0.01
28691
153
V4208832
9056
3156665
6698
3599895
9497
295 19 49.2
64.4
+036
28856
16/)
+.4287819
8038
—.8122922
2965
—3524928
4591
295 50 21.9
27.0
+0.12
928988
16.5
.4366470
6684
.8087949
7982
3509748
9412
296 20 64.4
59.4
0.18
29146;
17.0
.4444779
4988
3051751
1784
3494296
9961
296 51 26.8
91.7
034
299081
17.5
.4522742
2947
.8015590
5569
3478576
8241
297 21 58.9
63.7
030
29477
18.0
•4600351
0651
.7978691
8724
3462586
2261
297 52 30.8
95.5
036
29652:
18.5
+4677601
7796
—.7941295
1268
5995
298 23 2.4
7.0
+0.40
929894'
19.0
.4754488
4679
.7909167
9200
3429806
9479
298 53 99 9
983
0.44
90OS9 •
19.5
.4831006
1192
.7864487
4520
3419019
2688
299 24 5.1
93
0.47
90218
20.0
.4907148
7330
.7825202
5295
3995968
5697
299 54 96.2
40.6
0.49
90421
20.5
V4982909
3088
.7786911
6944
3978667
8927
900 25 7.1
113
031
90629
21.0
+.5058285
8459
-.7744821
4864
— 9961089
0766
900 55 97.8
42.1
+032
990844.
21.5
3133270
9440
.7709791
9766
3949252
2925
901 26 83
12.4
034
91067!
22.0
.5207859
8025
.7662048
2081
3925162
4897
901 56 98.4
42.^
036
91296 1
22.5
3282048
2211
.7619776
9809
3906818
6495
902 27 8.4
12.4
038
91592
23.0
3355831
5989
.7676920
6969
3288217
7895
902 57 983
42.2
a60
91776
23.5
+3429200
9954
—.7599479
9607
—3269969
9049
909 28 8.0
11.8
+038
992026
24.0
3502152
2902
.7489442
9475
3260267
:9999
909 58 973
41.4
034
92289
24.5
3574682
4828
.7444892
4865
3290901
0584
904 29 6.9
10.6
a49
92546
i5X)
3646781
6929
.7999646
9679
3211294
0979
904 59 96.1
99.7
a43
92815 1
25.5
.5718446
8589
.7959886
9921
3191440
im
906 90 6.1
83
037
99090 '
26X)
+3789671
9804
—.7907559
7599
—3171998
1026
906 0 94.0
97.4
+030
999971
26.5
3860454
0582
.7260669
0700
3160990
0680
906 91 23
53
033
99657
27.0
.5930787
0911
.7219206
9242
3190998
0090
9U7 1 91.1
943
0.16
99950
27.5
.6000667
0787
.7166191
5228
3109666
9259
907 91 59.4
62.5
038
94248:
28.0
.6070085
0200
.7116619
6666
3088489
8184
908 2 273
9a6
+030
28.5
+.6139097
9148
—.7067496
7694
-3067175
6872
908 92 553
68.4
-037
994862.
29.0
.6207516
7629
.7017826
7864
3045622
6921
909 9 233
26.1
ai4
95178'
29.5
.6275517
5620
.6967608
7648
3029899
9694
309 39 60.8
593
031
96496
9OJ0
.6949094
9199
3916850
6890
3001808
1611
910 4 18.2
203
a27
96824
903
.6410065
0160
3866564
6596
J979650
9256
910 94 453
473
039
96154
91.0
+.6476602
6699
-.6819728
9771
-3957060
6768
911 5 123
143
—0.99
996488,
Hon. — TlM MotBltd teltatB oomapood to lbs I
•qolBoxi
r«r JaaoMyC
SUN'S COORDINATES, 1856. 377
Bate.
1856.
RECTANGULAR EQUATORIAL.
POLAR ECLIPTIC.
X.
X'.
T.
Y'.
Z.
Z'.
Tme LoDgitade.
X'
Latitude.
Log.Rad.
Vect. s= p
Jan. 31.5
+.6542640
2727
—.6761368
1412
—.2934340
4051
3U 35 39.1
41.5
—0.44
9.9
936826
Feb. \J0
.6608175
8258
.6708482
8527
.2911392
1105
312 6 5.7
8.0
0.49
37169
1.5
.6673201
3281
.6655074
5120
.2888218
7934
312 36 32 0
34.3
0.54
37515
2.0
.6737711
7787
.6601147
1194
.2864817
4535
313 6 58.2
60.4
0.58
37865
2Ji
.6801700
1772
.6546706
6754
.2841194
0915
313 37 24.1
26U3
0.61
38217
8.0
-h.6865164
5232
—.6491756
1805
—.2817348
7072
314 7 49.8
51.9
—0.63
938574
3.5
.6928098
8163
.6436301
6351
.2793282
3009
314 38 15.3
17.3
0.65
38933
4.0
.6990494
0556
.6380348
0399
.2768999
8729
315 8 40.4
42.3
0.66
39297
4.5
.7052350
2409
.6323899
3951
.2744502
4235
315 39 5.3
7.1
0.66
39663
5.0
.7113658
3714
.6266959
7012
.2719790
9526
316 9 29.9
31.6
0.66
40033
5.5
-h.71744l3
4466
—.6209533
9588
-.2694867
4606
316 39 54.1
55.8
—0.65
940404
6.0
.7234613
4663
.6151626
1682
.2669736
9478
317 10 18.0
19.6
0.63
40780
6.5
.7294253
4300
.6093242
3299
.2644398
4143
317 40 41.6
43.1
0.60
41158
7.0
.7353326
3370
.6034390
4448
.2618856
8604
318 11 4.8
6.2
0.56
41540
7.5
.7411830
1871
.5975071
5131
.2593111
2862
318 41 27.7
29.0
0.52
41924
SJO
-h.7469761
9799
— J>915292
5353
—.2567166
6920
319 11 50.2
514
—0.48
942312
8.5
.7527112
7147
.5855055
5117
.2541022
0779
319 42 12.4
13.6
0.43
42702
9.0
.7583879
3912
.5794368
4431
.2514682
4442
320 12 34.2
35.3
0.38
43097
9.5
.7640059
0089
.5733234
3297
.2488147
7910
320 42 55.6
56.6
0.32
43493
10.0
.7695645
5673
.6671660
1726
.2461422
1188
321 13 16.7
17.6
0.25
43894
10.5
+.7750636
0661
-.5609650
9717
—.2434508
•4277
321 43 37.3
38.1
—0.19
944297
11.0
.7805028
5051
.5547211
7280
.2407407
7179
322 13 57.5
58.2
0.12
44704
11.5
.7858817
8838
.5484347
4418
.2380120
:9896
322 44 17.2
17.9
—0.06
45114
12.0
.7912000
2018
.5421064
1137
.2352653
2432
323 14 36.6
37.2
+0.01
45529
12.5
.7964574
4590
.5357367
7441
.2325008
4791
323 44 55.5
56.0
0.07
45947
13.0
-h.8016533
6547
—.5293260
3337
—.2297184
6970
324 15 14.0
14.5
+0.14
946369
13.5
.8067873
7885
.5228751
8829
.2269185
8975
324 45 32.0
32.4
0.20
46795
14.0
.8118590
8600
.5163845
3925
.2241014
0808!
325 15 49.7
50.1
0.26
47226
14.5
.8168682
8690
.5098545
8626
.2212674
2471
325 46 06.8
7.1
0.29
47661
15.0
.8218148
8154
.5032858
2941
.2184165
3965
326 16 23.6
23.8
0.33
48100
15.5
+.8266982
6985
—.4966789
6874
—.2155490
5293
326 46 39.8
40.0
+0.36
948544
16.0
.8315183
5185
.4900344
0430
.2126652
6458
327 16 55.6
55.7
0.40
48992
16.5
.8362747
2748
.4833527
3614
.2097653
7462
327 47 10.9
10.9
0.41
49445
17.0
.8409672
9671
.4766342
6431
.2068495
8307
328 17 25.9
25.9
0.43
49902
17.5
.8455954
5951
.4698798
8888
.2039182
8997
328 47 40.3
40.2
0.44
60365
18.0
+.8501591
1586
—.4630897
0989
—.2009714
9532
329 17 54.3
54.2
+0.46
950832
18.5
.8546577
6570
.4562645
2738
.1980095
:9916
329 48 7.8
7.6
0.45
51305
19.0
.8590911
0902
.4494046
4141
.1950325
0150
330 18 21.0
20.7
0.43
51783
19.5
.8634591
4580
.4425105
5201
.1920407
0235
330 48 33.7
33.3
0.41
52266
20.0
.8677614
7602
.4355828
5926
.1890343
0174
331 18 46.1
45.7
0.38
52754
20.5
+.8719979
9966
—.4286220
6319
— 1860136
:997l
331 48 58.0
57.5
+0.34
953247
21.0
.8761682
1668
.4216284
6384
.1829788
9626
332 19 9.5
8.9
0.29
53744
21.5
.8802721
2706
V4146027
6128
.1799301
9143
332 49 20.6
19.5
0.25
54247
22.0
.8843092
3075
.4075456
5558
.1768677
8523
333 19 314
30.8
0.20
64754
22.5
.8882791
2772
.4004572
4676
.1737918
7768
333 49 41.7
41.0
0.15
65266
23.0
+.8921816
1796
—.3933384
S489
—.1707027
6881
334 19 51.7
51.0
+0.09
955783
23.5
.8960164
0143
.3861893
1999
.1676005
5862
334 50 1.3
0.5
+0.02
56304
24.0
.8997832
7810
.3790107
0215
.1644855
4716
335 20 10.5
9.6
—0.05
56829
24.5
.9034819
4797
.3718034
8141
.1613580
3445
335 50 19.3
18.3
0.12
57358
25.0
.9071122
1100
.3645669
5779
.1582181
2049
336 20 27.8
26.8
0.19
57892
25.5
+.9106737
6715
—.3573028
3140
—.15.50659
0531
336 50 35.8
34.7
—0.26
958429
26.0
.9141662
1640
.3500117
0230
.1519019
8895
337 20 43.4
42.3
0.33
58970
26.5
.9175893
5871
.3426933
7047
.1487260
7141
337 50 50.6
49.4
0.39
59515
27.0
.9209428
9406
.3353489
3604
.1455391
5274
338 20 57.5
66.3
0.45
60062
27.5
.9242265
2243
.3279785
9902
.1423407
3293
338 51 4.1
2.8
0.51
60613
28.0
+.9274400
4378
—.3205828
5946
-.1391313
1202
339 21 10J3
9.0
— a56
961166
28.5
.9305830
5808
.3131625
1745
.1359111
9004
339 51 16.1
14.7
0.61
61723
29.0
.9336555
6532
.3057175
7296
.1326804
6701
340 21 21.6
20.1
0.65
62283
29.5
.9366573
6550
.2982490
2612
.1294395
4296
340 51 26.7
25.2
0.68
62844
Mar. 1.0
.9395879
5857
.2907576
7699
.1261885
1790
341 21 31.4
29.8
0.71
63408
1.5
+.9424473
4451
—.2832437
2561
—.1229277
9186
341 51 35.6
34.0
—0.73
963972
48
B78 SUN'S COORDINATES, 1856.
Date.
1856.
RSOTANGULAR EQUATORIAL.
POLAR ECLIPTIC.
1
X.
ap.
Y.
Y'.
Z.
Z'.
a =©'8
Tra« Longitade.
If
Latitude.
Lok.RmL
Vect.-^
d.9 !
O t II
It
II
Mar. 2.0
-f.9452351
2329
—.2757082
7207
—.1196575
6487
842 21 393
373
—0.75
964539
2.5
.9479508
9486
.2681513
1639
.1163779
3695
342 51 42.9
41.2
0.76
65107
3.0
.9505945
5923
.2605740
5866
.1130895
0815
343 21 46.0
44.2
0.76
6.1677 ,
3.5
.9.531660
1638
.2529764
9892
.1097923
7847
343 51 48.6
46.8
0.75
66248
4.0
.9556652
6630
.2453596
3726
.1064866
4794
344 21 50.8
48.9
0.72
66821
4.5
-h.9580917
0894
—.2377241
7372
—.1031728
1659
344 51 52.5
50.6
—0.70
967395 '
5.0
.9604451
4428
.2300705
0837
.0998511
8446
345 21 53.8
513
0.67
67971
5.5
.9627259
7236
.2223994
4127
.0965216
5155
345 51 54.6
523
0.63
68545
6.0
.9649333
9310
.2147114
7249
.0931849
1792
346 21 54.8
523
0.59
69122 >
6.5
.9670675
0652
.2070071
0207
.0898411
8358
846 61 54.7
52.5
035
6969S
7.0
-h.9691281
1258
—.1992870
8008
—.0864903
48.^
347 21 54.0
51.7
—030
970276 1
73
.9711150
1127
.1915518
5657
.0831330
1286
347 51 53.0
50.7
0.44
70853
8.0
.9730282
0259
.1838019
8159
.0797695
7656
348 21 51.4
19.0
038
71433
8.5
.9748675
8652
.1760381
0524
.0763998
3964
348 51 493
46.9
032
72011
9.0
.9766331
6308
.1682613
2756
X)730245
0216
349 21 46.7
44.2
0.25
78591 1
9.5
-h.9783246
3223
—.1604721
4866
-.0696436
6412
949 51 48.6
41.0
—0.19
973171 1
10.0
.9799424
9401
.1526706
6855
.0662577
2559
350 21 40.0
37.4
0.12
73753
10.5
.9814859
4837
.1448584
8731
.0628668
8655
350 51 35.7
33.0
—0.06
74334 1
11.0
.9829548
9527
.1370356
0504
.0594715
4707
351 21 30.9
28.2
0.00
74917
11.5
.9843495
3475
.1292027
2176
.0560719
0716
351 51 25.5
22.7
+0.06
75500
12.0
-h.9856700
6681
— .12136ai
3^54
—.0526682
6680
352 21 19.5
16.7
+0.12
976086
12.5
.9869160
9142
.ILI.^Om.
.V241
.0492605
2612
352 51 13.0
10.1
0.17
76672
13.0
.9880879
0862
.1056494
6646
.04.W494
8506
353 21 6.0
3.1
0.23
77260
13.5
.9891854
1838
.0977823
7976
.0424350
4368
353 50 58.4
55.4
0.26
77848
14.0
.9902088
2073
.0899082
9236
X)390175
0198
354 20 503
473
030
78438
14.5
-h.9911578
1564
—.0820278
0433
—.0355973
6001
354 50 413
38.4
+032
979030
15.0
.9920324
0311
.0741416
1572
.0321746
1779
855 20 32.2
29.1
034
79624 !
15.5
.9928326
8315
.0662502
2659
.0287499
7535
355 50 223
19.2
035
80220,
16.0
.9935586
5576
.0583541
3699
X)253229
3271
856 20 113
83
036
80818 1
16.5
.9942102
2093
.0504539
4699
X>218944
8991
356 49 608
573
035
81418
17.0
+.9947876
7869
—.0425503
5664
—.0184644
4695
357 19 493
46.0
+0.34
982020 '
17.5
.9952907
2901
.0346438
6600
X)l 50332
0388
357 49 87.1
33.7
032
82624
18.0
.9957196
7191
.0267350
7513
.0116010
6071
358 19 244
21.0
0.30
83231 '
18.5
.9960742
0738
.0188245
8410
.0081681
1746
358 49 11.2
7.7
0.26
63839,
19.0
.9963548
3545
.0109127
9293
i)047347
7417
359 18 57.4
53.9
0^
B4450
19.5
-h.9965611
5609
-.0030005
0172
—.0013010
3035
359 48 43.0
39.4
+0.19
985063
20.0
.9966935
6935
+.0049121
8953
+.0021327
1247
0 18 28.1
24.4
0.15
85679
20.5
.9967516
7518
.0128240
8070
.0055660
5576
0 48 123
8.9
0.09
66297-
21.0
.9967359
7363
.0207349
7180
.0089990
9902
1 17 563
52.8
+0.02
86918'
21.5
.9966461
6467
.0286446
6277
X)124312
4220
I 47 40.2
36.4
—035
87540
22.0
-h.9964825
4833
+.0365524
5354
+ 0158627
8531
9 17 23.2
193
—0.12
968165
22.5
.9962449
2459
.0444576
4405
i)l92930
2830
8 47 05.9
2.0
0.19
68793
23.0
.99.'i9334
9346
.0523596
3425
X)227220
7116
3 16 48.0
44.0
0.26
69424
23.5
.9955480
5494
.0602579
2407
X)261493
1385
3 46 29.7
25.7
032
90055
24.0
.9950888
0904
.0681516
1344
J0295748
5636
4 16 103
6.7
038
90689
UA
-h.9945558
5576
+.0760401
0228
+X)329982
9866
4 45 51.4
473
—044
991323'
25.0
.9939491
9511
.0839229
9055
.0364193
4073
5 15 313
27.4
031
91960
25.5
.9932686
2708
.0918007
7832
.039^377
8253
5 45 113
7.1
0.57
92597
26.0
.9925145
5169
.0996722
6546
X)432.'>.n
2405
6 14 503
463
0.63
93837
86.5
.9916867
6893
.1075365
5188
/M66659
6527
6 44 29.4
25.1
0.67
93878
1
27.0
+.9907853
7881
+.11.W933
3755
+.0500754
0618
•7 14 7.9
83
— a72
994519
27.5
.9898104
8135
.1232418
2239
.0534814
4674
7 43 45.9
41.4
0.75
95160
28.0
.9887619
7652
.1310815
0633
.0568836
8692
8 13 233
19.1
0.78
95802
28.5
.9876400
6435
.1389116
8935
X>602817
2668
8 42 603
56.0
0.80
96443,
29.0
.9864448
4486
.1467318
7136
X)636755
6602
9 12 373
32.7
0.88
97065'
1
29.5
+ 9851763
1803
+.1545413
5230
+X)670647
0490
9 42 13.4
8.7
-a83
997726
80.0
.9838348
8391
.1623399
3214
.0704491
4330
10 11 49.2
44.4
0.84
98367 1
80.5
.9824201
4247
.170126.'>
1080
.0738286
8121
10 41 24.4
193
0.83
99007
31.0
.9809325
9374
.1779010
8834
.0772027
1857
11 10 593
544
0.82
99647 <
813
.9793720
3771
.1856628
6441
.0805712
5538
1 1 40 33.7
28.8
0.80
QOOSfS .
Apr. 1.0
+.9777387
7440
+.1934110
3922 +.0839340
9162
12 10 7.7
2.7
—0.76
000983;
B Tlw 6nt flfoni of Ihlt MMl th« fbUowfog lo(. m« 00.
SUN'S COORDINATES, 1856. 379
DAte.
1856,
UCTANQULAR EQUATORIAL.
POLAR ECLIPTIC. 1
X.
X*.
T.
Y'.
1261
S.
S'.
Troe Longitade.
I'
Latitude.
Log.R«d.
Vect.«p
Apr. IJ5
-4-.9760326
0382
+.2011450
+/)872907
2724
O 1 II
12 39 41.1
36.0
11
—0.72
0.0
001568
2.0
.9742541
2600
.2088643
8453
.0906411
6223
13 9 14.2
9.1
0.68
02194
2.5
.9724034
4095
.2165682
6491
/)939848
9656
13 38 46.7
41.5
0.64
02826
3.0
.9704802
4866
.2242564
2872
.0973216
3020
14 8 18.9
13.7
0.59
03459
3.5
.9684851
4918
.2819281
9088
.1006511
6310
14 37 60.5
45.2
0.53
04087
4.0
-4-.9664183
4252
+.2395827
6633
+.1039733
9527
16 7 21.6
16.2
^0.47
004715
4.5
.9642798
2872
.2472194
2000
.1072878
2669
16 36 52.3
46.9
0.41
05341
6.0
.9620700
0776
.2548376
6181
.1105944
6731
16 6 22.4
16.9
0.34
06966
6.5
.9597887
7967
.2624369
4174
.1138927
8710
16 35 61.9
46.4
0.28
06587
6.0
.9574364
4446
.2700169
:9973
.1171827
1607
17 6 20.9
15.3
0.21
07207
6.5
+.9550131
0215
+.2775768
6672
+.1204639
4416
17 34 49.6
43.8
—0.15
007824
7.0
.9525195
5283
.2861161
0964
.1237362
7135
18 4 17.5
11.8
0.08
08440
7.5
.9499556
9647
.2926342
6144
.1269993
9762
18 33 44.9
39.1
—0.02
090.53
ao
.9473211
3305
.3001304
1106
.1302528
2293
19 3 11.8
6.0
+0.04
09665
8.6
.9446166
6263
.3076041
6842
.1334965
4726
19 32 38.2
32.3
0.09
10274
9.0
+.9418429
8530
-f-.31 60543
0344
+.1367302
7060
20 1 64.0
68.0
+0.15
010882
9A
.9390003
0106
.3224811
4612
.1399536
9291
20 31 29.2
23.2
0.18
11486
10.0
.9360885
0992
.3298841
8641
.1431666
1417
21 00 53.8
47.7
0.22
12088
10.5
.9331081
1191
.3372623
2422
.1463689
3437
21 30 17.8
11.7
0.25
12689
11.0
.9300593
0707
.3446158
6958
.1496603
6347
21 59 41.3
35.1
0.27
1^288
llJi
+.9269422
9540
+.3619439
9239
+.1527405
7145
22 28 64.2
57.8
+0.29
013886
12.0
.9237574
7695
.3692457
2256
.1559094
8831
22 58 26.6
20.3
0.30
14485
12J>
.9205050
5175
.3665210
6009
.1690667
0402
23 27 48.4
43.0
0.30
15081
18.0
.9171855
1984
.3737686
7485
.1622122
1854
23 57 9.6
3.2
0.31
15677
13.5
.9137992
8125
.3809886
9684
.1663455
3184
24 26 30.2
23.7
0.29
16270
14.0
+.9103466
3603
+.3881 8'^2
1600
+.1684666
4392
24 56 60.3
43.7
+0.27
016864
U.5
.9068276
8416
.3953437
3235
.1715753
6476
26 25 9.9
3.2
0.24
17456
15.0
.9032424
2569
.4024784
4581
.1746714
6433
26 54 28.9
22.2
0.20
18049
15.5
.8995917
6066
.4095833
5630
.1777548
7263
26 23 47.4
40.6
0.16
18639
16.0
.8958755
8909
.4166590
6383
.1808250
7961
26 52 65.3
58.5
0.12
19230
16.5
+.8920948
1099
+.4287036
6832
+.1838819
8527
27 22 22.7
15.8
+0.07
019820
17J0
.8882483
2646
.4307174
6969
.1869253
8958
27 51 39.6
32.6
+0.01
20411
17.5
.8843382
3549
.4376995
6790
.1899.'i50
9251
28 20 55.9
48.9
—0.05
21001
18.0
.8803641
3813
.4446499
6293
.1929710
9408
28 50 11.7
4.6
0.11
21591
18.5
.8763261
3438
.4615676
5470
.1059729
9423
29 19 27.0
19.9
0.18
22180
19.0
+.8722245
2426
+.4684529
4323
+.1989607
9297
29 48 41.8
34.6
—0.25
022770
19.5
.8680598
0783
.4653051
2846
.2019340
9027
30 17 56.3
49.1
0.32
23357
20.0
.8638525
8515
.4721235
1030
.2048927
8612
30 47 10.2
2.9
0.39
23945
20.5
.8595427
5621
.4789075
8871
.2078366
8048
31 16 23.7
16.4
0.45
24532
21.0
.8551904
2102
.4856572
6369
2107655
7334
31 45 36.8
29.4
0.52
25120
21.5
+.8507763
7965
+.4923715
3512
+.2136791
6467
32 14 49.3
41.8
—0.57
025706
22.0
.8463005
3212
.4990506
0304
.2165773
6446
32 43 61.4
53.9
0.63
26292
22.5
.8417634
7845
.5056935
6734
.2194600
4271
33 13 13.0
5.4
0.69
26876
23.0
.8371654
1869
.5123003
2803
.2223270
2938
33 42 24.2
16.6
0.74
27461
23.5
.8325067
6286
.5188699
8500
.2261780
1445
34 U 35.0
27.3
0.77
28043
24.0
+.8277867
8100
+.5254027
3828
+.2280129
9791
34 40 45.4
37.6
—0.79
028626
24.5
.8230086
0313
.5318975
8776
.2308315
7974
36 9 65.4
47.6
0.81
29206
25.0
.8181699
1930
.5383543
3345
.2336335
6992
35 38 65.1
57.2
0.83
29786
25.5
.8132718
2954
.5447725
7527
.2364188
3842
36 8 14.4
6.5
0.84
30363
26.0
.8083145
3386
.5511517
1319
.2391872
1624
36 37 ^3.3
15.3
0.85
30939
26.5
+.8032985
3231
+.5574911
4713
+.2419384
9035
37 6 31.8
23.7
—0.84
031512
27.0
.7982238
2488
.5637906
7705
.2446722
6369
37 35 40.0
31.9
0.83
32083
27.5
.7930910
1165
.5700491
0293
*. 2473885
3529
38 4 47.8
39.6
0.82
32650
28.0
.7879007
9267
.5762669
2471
.2500870
0511
38 33 55.2
46.9
0.78
33216
28.5
.7826531
6796
.5824430
4232
.2527675
7313
39 2 62.2
53.8
0.74
33778
29.0
+.7773487
3757
+.5885773
5575
+.2554299
3934
39 32 8.8
0.3
-0.70
034338
29.5
.7719879
:0154
.5946690
6492
.2580739
0372
40 1 15.0
6.5
0.66
34892
30.0
.7665708
5987
.6007183
6987
.2606993
6623
40 30 20.8
12.2
0.61
35444
30.5
.7610978
1262
.6067240
7044
.2633060
2687
40 59 26.3
17.6
0.55
35992
May 1.0
.7555694
5983
.6126861
6665
.2658938
8562
41 28 31.5
22.7
0.49
36537
1.5
+.7499860
:0154
+.6186038
5843
+.2684623
4245
41 57 36J3
27.4
—0.43
037077
380 SUN'S COORDINATES, 1856.
1856.
BIOTANOULAR EQUATORTAT<.
POLAR BCUPTIO. 1
X.
X*.
Y.
Y'.
Z.
V.
TriM LoDgitadtt.
If
Utltode.
Lof.Rad.
Maj 2.0
-4-.7443483
3781
+.6244770
4575
+J710115
:9785
O 1 M
42 26 40.7
3i'.7
-036
OX)
037613
2.5
.7386566
6869
.6303050
2856
.2735411
5028
42 55 44.7
35.7
0.29
38145
3.0
.7829112
9420
.6360874
0680
.2760510
0125
43 24 483
39.2
0.22
38674
3.5
.7271127
1440
.6418239
8046
.2785408
5020
43 53 514
42.2
0.16
39197
4.0
.7212616
2934
.6475142
4949
.2810105
:9714
44 22 54.2
44.9
0J09
39717
4.5
•4-.7153581
3905
+.6531576
1384
+.2834600
4207
44 51 56.5
47.2
—0.03
040232
5.0
.7094030
4360
.6587.^35
7344
.2858889
8494
45 20 58.5
49.1
+0.03
40744
5.5
.7033969
4305
.6643018
2828
.2882970
2573
45 49 60 0
50.5
0.09
41250
6.0
.6973402
3744
.6698017
7829
.2906841
6442
46 18 61.1
51.5
0.14
41753
6.5
.6912332
2681
.6752532
2344
.2930501
0100
46 47 61.6
51.9
0.18
42250
7.0
-4-.6850760
1116
+.6806557
6370
+.2953949
3546
47 16 61.8
52.0
+0.22
042743
7.5
.6788695
9057
.6860090
:9904
.2977183
6778
47 45 61.5
51.6
0.24
43230
8.0
. .6726143
6511
.6913125
2940
3000201
9794
48 14 60.8
50.8
0.26
43714
8.5
.6663108
3482
.6965662
5478
3023001
2592
48 43 59.6
49.5
0.28
44192
9.0
.6599596
9977
.7017692
7509
3045584
5173
49 12 58.0
47.9
030
44665
9.5
+.6535611
5998
+.7069219
9038
+3067945
7533
49 41 56.0
45.8
+030
045135
10.0
.6471160
1553
.7120237
0057
3090086
9673
50 10 53.6
433
031
45602
10.5
.6406247
6646
.7170741
0563
3112004
1590
50 39 50.6
403
030
46065
11.0
.6340877
1281
.7220731
0554
3133697
3282
51 8 473
36.9
0.29
46525
11.5
.6275058
5466
.7270199
0024
3155162
4746
51 37 434
42.9
0.26
46981
12.0
+■6208793
9207
+.7319143
8967
+3176402
5985
52 6 89.2
28.7
+0.23
047434
12.5
.6142085
2505
.7367562
7890
3197414
6996
52 35 344
233
0.19
47882
13.0
.6074941
5366
.7415452
5282
3218193
7774
53 4 293
18.6
0.14
48328
13.5
.6007367
7797
.7462811
2642
3238744
8324
53 33 23.6
22.8
0.09
48770
14.0
.5939370
9807
.7509634
9467
3259061
8640
54 2 17.6
6.7
+0.04
49211
14.5
+.5870949
1391
+.7555921
5756
+3279145
8724
54 31 11.1
0.2
—0.02
049647
15.0
.5802118
2560
.7601666
1504
3298994
8572
54 59 643
533
0.09
50082
15.5
.5732867
3320
.7646870
6710
3318606
8184
55 28 57.0
45.9
0.15
50513
16.0
.5663216
3675
.7691529
1372
3337984
7561
55 57 494
38.2
0.22
50943
16.5
.5593164
3629
.7735639
5484
3357123
6699
56 26 413
3OJ0
0.28
51371
' 17.0
+.5522715
3186
+.7779200
9047
+3876024
5600
56 55 32.9
21.6
—035
051794
17.5
.5451875
2351
.7822208
2057
3394685
4260
57 24 24.1
12.7
041
52215
18.0
.5380652
1133
.7864660
4511
.3413104
2679
57 53 14.9
84
048
52634
18.5
.5309047
9534
.7906552
6405
3431281
0855
58 21 654
53.8
0.53
53050
19J0
.5237067
7560
.7947883
7739
3449214
8787
58 50 55.5
43.8
0.59
53465
19.5
+.5164715
5214
+.7988649
8508
+3466902
6475
59 19 453
33.6
—0.64
053876
20.0
.5091996
2501
.8028849
8710
3484347
3919
59 48 34.7
229
0.69
54285
20.5
.5018914
9425
.8068480
8344
3501546
1118
60 17 23.9
12.0
0.73
54691
21.0
.4945476
5993
.8107542
7408
3518498
8069
60 46 12.8
0.8
0.77
55096
21.5
.4871686
2210
.8146030
5899
3535200
4771
61 14 61.5
59.4
0.79
55497
22.0
+4797550
8080
+.8183943
3815
+3551652
1222
61 43 49.8
37.6
—031
055896
22.5
.4723072
3608
.8221277
1151
3567852
7421
62 12 37.8
25.5
0.82
56293
23.0
.4648255
8798
.8258029
7906
3583802
3371
62 41 25.6
13.2
0.83
56686
23.5
.4573102
3651
.8294197
4076
3599498
9067
63 10 13.2
0.7
0.82
57076 1
24.0
.4497620
8176
.8329779
9661
3614940
4509
63 38 60.6
48.0
031
57462
24.5
+4421819
2381
+.8364772
4657
+3630126
:9694
64 7 47.7
35.1
—0.79
057845!
25.0
4345701
6268
.8399173
9062
•3645057
4625
64 36 34.7
22.0
0.76
58224
25.5
.4269273
9845
.8432980
2872
3659729
9296
65 5 214
8.6
0.73
58599
26.0
4192538
3116
.8466189
6084
3674144
3710
65 33 67.9
55.0
0.69
58971
26.5
4115502
6086
.8498798
8697
3688298
7864
66 2 54.1
41.1
0.66
59338
27.0
+4038170
87.W
+.8530802
0705
+3702190
1755
66 31 40.2
27.2
—032
059701
27.5
.3960547
1142
.85622a3
2109
3715820
5385
67 0 26.0
12.9
036
60d59:
28.0
.3882639
3239
.8592996
2906
3729186
8750
67 28 71.6
584
049
60413;
28.5
.3804451
5057
.8623178
3091
3742287
1850
67 57 57.0
43.7
0.43
66760 1
29X)
.3725989
6601
.8652748
2664
3755124
4686
68 26 42.2
28.8
036
61104!
99A
+3647258
7876
+.8681707
1625
+3767694
7258
68 55 27.2
13,8
.—0.29
061442 '
30.0
.3568265
8889
.8710044
:9968
3779997
9563
69 23 72.1
58.6
0.22
61775 ;
30.5
.3489015
9645
.8737764
7692
3792031
1599
69 52 56.7
43.1
0,15
62102
31X)
.3409515
:0I51
.8764864
4796
3803795
3365
70 21 41.1
274
0.08
62493:
31.5
.3329769
:0411
.8791341
1278
3815288
4859
70 50 253
11.5
—0.02
62739 1
June 1.0
+.3249785
K>432
+ 8817192
7133'+JS8265|0
6t»83
71 18 694
55.5
+O.04
063049 1
SUN'S COORDINATES, 1856. 381
Date.
1856.
RKOTANGULAR EQUATORTAT.
POLAR SCLIPTIO. 1
X.
X*.
Y.
T'.
Z.
Z'.
a =©'8
TriM Longitade.
If
lAtitudA.
Log.Rad.
Vect. ^f
Jane 1.5
-4-.31 69566
K)220
+.8842418
2363
+.3837459
7034
O 1 II
71 47 53.2
II
39.2
+0.10
~~QJO
063352
2.0
.3089120
9780
.8867010
6959
.3848134
7711
72 16 36.8
22.7
0.16
63650
2.5
.3008456
9122
.8890973
0926
JI858535
8114
72 45 20.1
5.9
0.21
63942
3.0
.2927576
8248
.8914303
4260
.3868663
8243
73 13 63.3
49.0
0.25
64228
3.5
.2846491
7169
.8936999
6961
.3878516
8097
73 42 46.1
31.7
0.28
64508
4.0
+^765202
5886
+.8959060
9027
+.3888091
7673
74 11 28.8
14.3
+0.30
064782
4.5
JI683719
4410
.8980483
0455
.3897388
6972
74 39 71.2
56.6
0.32
65049
5.0
.2602045
2743
.9001266
1242
.3906408
5994
75 8 53.4
38.7
0.34
65311
5.5
.2520188
0893
.9021409
1390
.3915149
4736
75 37 35.2
20.4
0.35
65566
6.0
.2438155
8866
.9040911
0897
.3923613
3201
76 6 16.9
2.0
0.36
65816
6.5
-4-^55954
6672
+.9059771
9762
+.3931797
1386
76 34 38.2
43.2
+0.35
066060
7.0
.2273588
4313
.9077988
7984
.3939702
9293
77 3 39.4
24.3
0.34
66298
7.5
.2191063
1794
.9095559
5559
.3947326
6918
77 32 20.2
5.0
0.32
66530
8.0
.2108387
9124
.9112487
2492
.3954670
4263
78 0 60.9
45.6
0.30
66756
8.5
.2025565
6307
.9128767
8777
.3961732
1327
78 29 41.2
25.9
0.28
66977
9.0
+.1942602
3350
+.9144393
4408
+.3968514
8111
78 58 21.4
6.0
+0.24
067193
9.5
.1859506
:0259
.9159378
9398
.3975015
4615
79 26 61.3
45.8
0.19
67403
10.0
.1776282
7041
.9173721
3746
.3981235
0837
79 55 41.0
25.4
0.12
67609
10.5
.1692938
3703
.9187409
7439
.3987173
6777
80 24 20.4
4.7
+0.05
67809
11.0
.1609476
0246
.9200450
0485
.3992829
2435
80 52 59.7
43.9
—0.02
68005
11.5
-4-.1525904
6679
+.9212841
2881
+.3998204
7812
81 21 38.6
22.7
—0.09
068196
12.0
.1442230
3011
.9224586
4631
.4003297
2907
81 50 17.4
1.4
0.16
68384
12.5
.1358456
9243
.9235679
5729
.4008107
7719
82 18 55.9
89.8
0.22
68567
13.0
.1274591
5384
.9246125
6180
.4012636
2250
82 47 34.2
18.0
0.29
68746
13.5
.1190638
1436
.9255918
6979
.4016882
6498
83 15 72.3
56.0
0.35
68921
14.0
+.1106607
7410
+.9265060
5127
+.4020847
0465
83 44 50.3
33.9
—0.42
069092
14.5
.1022502
3310
.9273552
3628
.4024528
4148
84 13 28.0
11.5
0.47
69259 ,
15.0
.0938328
9141
.9281388
1467
.4027928
7550
84 41 65.5
48.9
0.52
69423
15.5
.0854090
4909
.9288577
8662
.4031046
0670
85 10 42.8
26.1
0.57
69583
16.0
.0769794
:0618
.9295112
5203
.4033881
3507
85 39 19.9
3.1
0.62
69740
16.5
+.0685445
6274
+.9300996
1093
+.4036432
6060
86 7 56.9
40.0
—0.66
069893
17.0
.0601050
1885
.9306232
6335
.4038701
8331
86 36 33.8
168
0.70
70043
17.5
.0516614
7454
.9310814
0923
.4040686
0319
87 4 70.6
53.5
0.73
70189
18.0
.0432141
2987
.9314741
4856
.4042390
2025
87 33 47.1
29.9
0.77
70332
18.5
.0347634
8485
.9318114
8135
4043811
3449
88 2 23.6
6.3
0.78
70471
19.0
+.0263102
3956
+.9320636
0764
+.4044948
4589
88 30 60.2
42.8
—0.79
070606
19.5
.0178549
9408
.9322603
2737
.4045803
5446
88 59 36.6
19.1
0.79
70737
20.0
+.00939a3
4847
.9323917
4057
.4046372
6018
89 27 73.0
55.4
0.80
70864
20.5
—.0009409
:0277
.9324577
4723
.4046660
6508
89 56 49.3
31.6
0.78
70988
21.0
.0075170
4296
.9324583
4736
4046664
6315
90 25 25.6
7.8
0.75
71108
21.5
—.0159749
8871
+.9323935
4095
+.4046385
6039
90 53 61.8
43.9
—0.72
071224
22.0
.0244319
3436
.9322633
2800
.4045821
5478
91 22 38.0
20.0
0.68
71336
22.5
.0328874
7987
.9320677
0849
.4044974
4634
91 50 74.1
56.0
0.64
71443
23.0
.0413407
2515
.9318066
8245
.4043843
3505
92 19 50.3
32.1
0.59
71547
23.5
.0497916
7020
.9314800
4986
.4042428
2093
92 48 26.4
8.1
0.54
71645
24.0
—.0582393
1492
+.9310879
1073
+.4040729
0397
93 16 62.6
44.2
—0.48
071740
24.5
.0666835
5931
.9306300
6501
.4038746
8418
93 45 38.7
20.2
0.41
71828
25.0
.0751233
0324
.9301067
1275
.4036479
6154
94 13 74.9
56.3
0.35
71913
25.5
.0835583
4670
.9295179
5396
.40.33927
3606
94 42 51.1
32.4
0.21
71992
26.0
.0919887
8961
.9288636
8860
.4031091
0773
95 11 27.4
8.6
0.18
72065
26 JS
— ,1004112
3191
+.9281438
1669
+.4027970
7656
95 39 63.6
44.7
—0.13
072133
27.0
.1088279
7354
.9273583
3821
.4024564
4254
96 8 39.8
20.8
—0.06
72196
27.5
.1172372
1443
.9265074
5320
4020873
0567
96 36 76.1
57.0
0.00
72252
28.0
.1256385
5451
.9255909
6162
.4016900
6598
97 5 525
33.3
+0.06
72303
28.5
.1340316
:9377
.9246092
6352
4012644
2346
97 34 28.8
9.6
0.12
72347
29.0
—.1424154
3215
+.9235622
5890
+.4008104
7810
98 2 65.2
45.9
+0.19
072386
29.5
.1507895
6951
.9224500
4776
.4003281
2990
98 31 41.6
22.2
0.24
72418
30.0
.1591531
0584
.9212725
3009
.3998174
7887
98 59 78.0
58.5
0.29
72444
30.5
.16750.57
4107
.9200298
0590
.3992783
2499
99 28 54.5
34.9
0.32
72463
July 1.0
.1758464
7510
.9187220
7520
.3987109
6829
99 57 31.0
11.3
0.35
72477
1.5
—.1841748
0790
+.9173490
3798
+.3981153
0877
100 25 67.5
47.7
+0.37
072482
382 SUN'S COORimiVATES, 185^.
Dftto.
1856.
BaOTANOULAR EQUATORIAL.
POLAR BGLIFnC.
^""""^
X.
X*.
Y.
Y',
»•
W-
TriM Longitade.
1'
LAtltadft.
July 2.0
~.l 924901
3939
-4-.9159111
9427
+J974913
4641
O 1 u
100 54 44.0
24.1
u
+0.40
03 t
072482J
2.5
.2007918
6953
.9144081
4405
.3968391
8123
101 23 20.4
0.4
0.41
72474
3.0
.2090791
:9823
.9128407
8739
.3961588
1323
101 51 56.9
363
0.42
72460'
3.5
.2173518
2548
.9112088
2428
J954506
4245
102 20 33.4
133
0.41
72440 1
4.0
J2256090
5118
.9095123
5472
3947143
6886
102 48 69.9
49.7
0.40
724131
4.5
—.2338502
7528
+.9077514
7871
+3939501
9248
103 17 463
26X)
+038
07tS^]
5.0
.2420745
:9769
.9059266
9631
3931580
1331
103 46 22.8
2.4
036
72341 i
5.5
.2.502814
1836
.9040377
0751
3923381
3136
104 14 593
88.8
033
72294
6.0
.2584702
3722
.9020851
1233
3914906
4665
104 43 35.8
15.2
0.29
72240 1
6.5
.2666405
5423
.9000689
1079
3906153
5916
105 11 72.2
51J»
0.24
72i»;
7.0
—.2747916
6932
-f..8979890
:0289
+3897125
6892
105 40 48.6
273
+0.19
072117j
7.5
.2829231
8245
.8958458
8865
3887823
7594
106 9 25.0
4.1
0.14
72047
8.0
.2910343
:9354
.8936394
6810
3878244
8019
106 37 613
403
0.09
71970 '
8.5
.2991246
0256
.8713701
4125
3868394
8174
107 6 37.6
16.5
+0.03
71888
9.0
.3071934
0943
.8890382
0815
3858269
8054
107 34 74J0
52.8
—0.04
71800
9.5
—.3152402
1410
-h.8866437
6879
+3847873
7663
108 3 503
29i)
—0.11
O71707
10.0
.3232642
1649
.8841870
2321
3837209
7003
108 32 26.6
6.2
0.18
71609'
10.5
.3312652
1658
.8816683
7143
3826276
6074
109 0 62.9
41.4
0.24
71506
11.0
.3392425
1430
.8790875
1344
.3815073
4876
109 29 39.2
17.6
030
71399 1
11.5
.3471958
0962
.8764449
4926
3803603
3410
109 57 75.5
53.9
036
71287
12.0
—.3551244
0247
-K8737409
7895
+3791864
1675
110 26 51.9
30.2
—0.42
O71170
12.5
.3630278
-.9278
.8709756
:0251
3779861
9676
110 53 283
6.5
0.47
71049
18.0
U5709053
8053
.8681491
1995
3767592
7412
HI 23 64.8
42.9
0.53
70923
13.5
J5787564
6563
.8652621
3133
3755060
4885
111 52 41.2
19.2
0.57
70794 ,
14.0
.3865805
4804
.8623144
3665
3742266
2096
112 20 77.6
55.5
0.61
70660
14.5
—.3943772
2770
+.8593064
3593
+3729212
9047
112 49 54.1
32.0
—0.63
070524
15.0
.4021459
0456
.8562383
2920
3715895
5736
113 18 30.7
8.5
0.66
70383
15.5
.4098863
7859
.8531103
1649
.3702318
2164
113 46 673
45.0
0.67
70239 1
16.0
.4175979
4974
.8499225
9780
3688483
8334
114 15 43.9
21.5
0.69
70091
16.5
.4252804
1799
.8466751
7314
3674391
4248
114 43 8a9
5S.4
0.69
69940
17.0
—.4329331
8325
-h.8433683
4255
+3660040
:9903
115 12 57.7
35.1
—0.69
069785!
17.5
.4405556
4549
.8400024
0604
364.5432
5301
115 41 34.9
12.2
0.67
69627
18.0
.4481471
0463
.8365774
6362
3630570
0445
116 9 72.0
49.2
0.65
69464
18.5
.4557074
6066
.8330935
1533
3615454
5334
116 38 49 J>
266
0.61
69299 1
19.0
.4632358
1351
.8295513
6120
3600084
:9969
117 7 27.1
4.1
037
69129
19.5
—.4707319
6312
-K.8259509
:0125
-K3584460
4350
117 35 643
41.7
—0.54
068957
20.0
.4781950
0944
.8222924
3550
3568586
8481
118 4 42.7
19.5
030
68781 ;
20.5
.4856247
5241
.8^85760
6396
.3552460
2360
118 32 803
57.5
0.45
68602
21.0
.4930205
:9199
.8148020
8665
3536086
5991
119 I 59.1
353
0.40
68418 i
21.5
.5003818
2813
.8109706
:0361
3519462
9372
119 30 37.5
14.1
033
68231
22.0
—.5077081
6076
•4-.8070820
1484
+3502590
2506
119 58 76.2
52.7
—0.26
068040
22.5
.5149990
8986
.8031362
2a36
3485471
5392
120 27 55.1
31.5
0.20
67844 1
23.0
.5222541
1537
.7991338
2021
3468104
8031
120 56 343
10.6
0.13
67643
23.5
.5294730
3728
.7950748
1440
3450492
0424
121 24 733
50.0
—0.07
67438
24.0
.5366550
5550
.7909595
-.0295
3432636
2573
121 53 53.5
29.6
0.00
67229:
24.5
—.5437995
6998
-K.7867882
8590
+3414539
4482
122 22 33.5
93
+0.06
067016
25.0
.5509058
8064
.7825610
6327
3396200
6148
122 50 73.7
49.6
0.13
66797'
25.5
.5579734
8742
.7782783
3509
3377616
7570
122 19 54.2
30.0
0.19
66574
26.0
.5650019
:9029
.7739403
:0137
3358792
8751
123 48 34.9
10.7
0.26
66345!
26.5
.5719907
8919
.7695472
6215
3339730
9695
124 16 75.9
51.6
031
66111 j
27.0
—.5789391
8406
-H.7650594
1746
+3320430
0401
124 45 57.1
32.7
+036
065871
27.5
.5858467
7484
.7605971
6732
.3300894
0870
125 14 38.7
14.2
0.40
65625,
28.0
.5927131
6151
.7560407
1177
3281122
1104
125 42 80.5
55.9
0.44
65373'
28.5
.5995379
4400
.7514303
5082
3261116
1104
126 11 62.5
373
0.49
65116
29.0
.6063199
2225
.7467667
8455
3240878
0871
126 40 443
20.0
0.50
64853
29.5
—.6130591
:9620
+.7420498
1295
+3220410
0408
127 9 27.4
2.6
+0.51
064585
30.0
.6197547
6579
.7372803
3609
3199712
9716
127 37 70.2
453
0.52
64311 1
30J>
.6264062
3097
.7324584
5399
3178787
8797
128 6 53.2
28.2
0.52
64031 :
31.0
.6330132
:9170
.7275844
6668
3157634
7650
128 35 36.4
113
0.51
63745
31.5
.6395757
4798
.7226585
7418
3136256
6277
129 3 79.9
54.8
0.50
63453
Aug. 1.0
—.6460925
:9970 -f-.7l76882
7654 +.3114653
4680
129 32 63.6
38.4
+0.48
063154
SUN'S COORDINATES, 1856. 383
Dftto.
185€.
RBGTANOULAB EQUATORIAL.
POLAR ECLIPTIC. 1
X.
X*.
T.
Y'.
fe.
2'.
Tmo Longitode.
xf
Utitadef
Log. Bad.
Vect. « p
Aog. IJS
—.6525629
4677
-f-.7 126524
7375
+.3092829
2862
130 I 4^.6
22.3
+0.44
0.0
062850
2.0
.6589867
8918
.7075728
6588
.3070783
0822
130 30 31.8
'6.4
0.40
62539
2.5
.6653639
2694
.7024429
5298
J3048517
8562
130 58 76.3
50.8
0.36
62223
. 3.0
.6716936
5995
.6972631
3508
.3026034
6086
131 27 61.6
36.0
0.31
61900
3.5
.6779753
8817
.6920338
1224
.3003338
3396
131 56 46.5
20.9
0.26
61573
4.0
-.6842085
1155
-4-.6867555
8450
+.2980429
0493
132 25 31.0
5.3
+0.21
061239
4.5
.6903924
2997
.6864282
5186
.2957306
7376
132 53 76.4
60.6
0.15
60900
5.0
.6965269
4347
.6760526
1439
^33974
4051
133 22 62.0
36.1
0.08
60554
6.5
.7026116
5199
.6706289
7211
.2910434
0517
138 51 47.7
21.8
+0.02
60198
6.0
.7086461
5548
.6651580
2511
.2886687
6776
134 20 33.6
7.6
—0.04
59847
6.5
—.7146299
5391
+.6596401
7341
+.2862737
2832
134 48 79.7
63.6
—0.10
059487
7.0
.7205626
4722
.6540757
1706
.2838584
8685
135 17 66.1
39.9
0.17
59121
7.5
.7264438
3540
.6484650
5607
.2814229
4336
135 46 52.6
26.4
0.23
58752
8.0
.7322731
1839
.6428082
9047
.2789679
9791
136 15 39.3
13.0
0.29
5a378
8.5
.7380503
:9617
.6371059
2032
.2764931
5049
186 43 86.2
69.8
0.34
58000
9.0
—.7437748
6868
-f-.6313585
4566
+.2739986
:0110
137 13 13.6
47.1
—0.39
057617
9.5
.7494461
3587
.6255665
6654
.2714847
4977
137 41 61.4
34.8
0.43
57230
10.0
.7550638
:9770
.6197305
8301
.2689518
9653
138 10 49.7
23 1
0.47
56840
10.5
.7606275
5413
.6138507
9511
.2664001
4142
138 39 37.5
10.8
0.50
66446
11.0
.7661370
0514
.6079277
0282
.2638295
8442
139 7 85.8
69.0
0.53
66050
11.5
—.7715920
5070
+.6019618
:0638
+.2612404
2557
139 36 73.6
46.7
—0.55
065650
12.0
.7769920
9076
.5959535
K>563
.2586328
6487
140 5 61.9
35.0
0.57
65247
12.5
.7823361
2530
.5899030
:0065
.2560070
0235
140 34 50.7
23.7
0.58
54841
13.0
.7876262
5428
.5838109
91.52
J2533631
3801
141 3 40.0
13.0
0.59
54432
13.5
.7928595
7767
.5776773
7823
.2507013
7189
141 32 29.4
2.3
0.61
64020
14.0
—.7980367
:9544
+.5715030
6088
-4-.2480219
0400
142 0 79.3
52.1
—0.60
053605
14.5
.8031571
0754
.5652886
3952
.2453251
3438
142 29 69.3
42.0
0.56
53189
15.0
.8082203
1392
.5590342
1415
.2426109
6302
142 58 69.7
32.4
0.51
52770
15.5
.8132265
1460
.5527402
8483
.2398796
8996
143 27 50.3
22.9
0.47
62350
16.0
.8181749
0950
.5464069
5158
.2371313
1519
143 56 41.4
13.9
0.42
61927
16.5
—.8230654
:9861
+.5400350
1447
+.2343662
3874
144 25 32.7
6.1
—0.37
051502
17.0
.8278973
8187
.5336244
7349
.2315844
6062
144 53 84.5
56.9
0.31
61074
17.5
.8326703
5925
.5271756
2868
.2287863
8086
145 22 76.6
49.0
0.25
6064.1
18.0
.8373842
3072
.5206891
8010
.2259717
9946
145 51 69.1
41.4
0.18
60210
18.5
.8420388
:9626
.5141655
2781
.2231409
1643
146 20 62.0
34.2
0.12
49774
19.0
—.8466.335
5581
+.5076051
7184
+.2202941
S181
146 49 55.3
27.5
—0.05
049336
19.5
.8511682
0936
.5010082
1221
.2174315
4560
147 18 49.0
21.1
+0.02
48895
20.0
.8556424
5688
.4943755
4901
.21465.33
5784
147 47 43.2
15.3
0.09
48452
20.5
.8600559
:9833
.4877072
8224
.2116598
6854
148 16 37.8
9.8
0.15
48006
21J0
.8644080
3364
.4810038
1197
2087510
7771
148 45 82.8
4.7
0.21
47557
21.5
—.8686986
6279
+.4742659
8825
+.2058272
8539
149 14 28.2
0.0
-hO.27
047105
22.0
.8729274
8576
.4674938
6111
.2028885
9157
149 42 84.1
55.9
0.34
46651
22.5
.8770939
0251
.4606878
8058
.1999351
9629
150 11 80.4
52.2
0.39
46194
23.0
.8811979
1301
.4538485
9671
.1969672
9957
150 40 77.1
48.8
0.44
45733
23.5
.8852390
1722
.4469763
K)955
.1939850
:0141
151 9 74.3
45.9
0.48
45269
24.0
—.8892166
1509
+.4400719
1917
+.1909888
:0185
151 88 72.0
43.5
+0.63
044801
24.5
.8931305
0657
.4331356
2560
.1879788
H)091
152 7 70.1
41.6
0.56
44329
25.0
.8969802
9165
.4261678
2888
.1849549
9859
152 36 68.7
40.1
0.58
43853
25.5
.9007657
7030
.4191688
2904
.1819177
9493
153 5 67.8
39.1
0.60
43374
26.0
.9044864
4247
.4121395
2617
.1788671
8993
153 34 67.3
38.6
0.61
42890
26.5
—.9081420
0813
-♦-.4050803
2031
+.1758034
8362
164 3 67.3
38.5
H-0.61
042402
27.0
.9117323
6725
.3979916
:1150
.1727268
7603
154 32 67.7
38.9
0.62
41908
27.5
.9152568
1979
.3908738
9978
.1696378
6719
156 1 68.5
39.7
0.60
41412
28.0
.9187154
6574
.3837277
8522
.1665364
6711
155 30 69.8
40.9
0.59
40911
28.5
.9221077
0506
.3765536
6787
.1634228
4581
155 59 71.6
42.6
0.55
40406
5».0
—.9254334
3772
+^693528
4778
+.1602974
3333
156 28 78.8
44.7
+0.51
039896
29.5
.9286921
6369
.3621239
2500
.1571602
1967
156 57 76.4
47.3
0.47
39382
30.0
.9318837
8294
.3548696
9963
.1540116
0488
157 26 79.5
50.3
0.43
38864
30.5
.9350075
:9541
.3475895
7167
.1508.520
8898
157 55 83.0
53.7
0.38
38341
31.0
.9380636
0111
.3402844
4121
.1476813
7198
158 24 86.9
57.6
0.38
37813
31.5
—.9410515
:9999
+.3329545
K)827
+.1444999
6390
158 54 31.2
1.8
+0.27
037281
384 SUN'S COORDINATES, 1856.
1856.
RBCIANOULAR EQUATOEIAL.
POLAR ECLIPTIC. ||
X.
V.
Y.
Y*.
S.
as*.
TriM Lonsitiule.
If
Lfttitade.
Lo».R«d.
|V«ct -^
Sept 1.0
—.9439713
9207
-f-^256007
7294
+.1413080
3476
O 1 If
159 23 35.9
u
63
+0.21
1 0^ 1
036744 !
1.5
.9468228
7732
.3182232
3525
.1381059
1461
159 52 41.0
113
0.15
36204
2.0
.9496055
5570
.3108230
9528
.1348939
9346
160 21 46.6
17.0
0.08
35660,
2.5
.9523193
2719
.3034002
5305
.1316723
7136
160 50 52.4
22.8
+0.01
35112
3.0
.9549640
9177
.2959559
K)867
.1284412
4831
161 19 58.7
29.0
—0.06
34560
3.5
-.9575393
4941
-I-.2884905
6218
+.1252010
2434
161 48 65.3
35.6
—0.13
034005*
4.0
.9600449
0007
.2810045
1363
.1219517
9946
162 17 72.4
42.6
0.19
33446
4.5
.9624807
4375
.2734981
6304
.1186937
7372
162 46 79.8
50.0
0.24
32883'
5.0
.9648467
8046
.2659722
:1050
.1154272
4713
163 15 87.6
57.7
0.29
32317
5.5
.9671428
1018
.2584271
5604
.1121525
1972
163 45 35.9
5.9
0.34
31748 1
6.0
—.9693687
3288
-h.2508640
9978
+.1088700
9153
164 14 44.6
143
—0.40
031176;
6.5
.9715241
4853
.2432831
4173
.1055798
6256
164 43 53.6
233
0.43
30602|
7.0
.9736091
5715
.2356846
8194
.1022821
3284
165 13 3.0
32.8
0.45
30026<
7.5
.9756233
5868
.2280699
20-17
.0989773
9241
165 42 12.7
423
0.47
29448
8.0
.9775669
5316
.2204390
5741
.0956655
7128
166 11 22.8
523
049
28867,
8.5
—.9794394
4053
-*-.2227924
9278
+.0923469
3947
166 40 33.2
2.9
—0.50
028285 '
9.0
.9812412
2083
.2051307
2665
.0890218
0702
167 9 44.0
13.6
031
27700 1
9.5
.9829717
9399
.1974547
5908
X)856905
7394
167 38 55.2
24 8
031
27115
10.0
.9846313
6006
.1897645
9009
.0823532
4026
168 7 66.8
36.3
0.49
26529'
10.5
.9862196
1900
.1820608
1975
i)790100
0599
168 36 78.8
48.3
0.47
25941
11.0
—.9877364
7080
-4-.1 743440
4810
+.0756612
7116
169 6 31.2
0.6
—0.44
025353!
11.5
.9891816
1544
.1666151
7524
.0723069
8577
169 35 44.1
133
0.40
24764
12.0
.9905553
5293
.1588741
:0n6
.0689476
9989
170 4 573
26.8
0.35
24174
12.5
.9918571
8323
.1511219
2598
.0655835
63.53
170 33 71.3
40.6
030
23584
13.0
.9930872
0637
.1433587
4969
X)622147
2670
171 2 853
54.7
0J5
22993
13.5
—.9942452
2230
+.1355854
7238
+.0588414
8942
171 32 40.2
9J
—0.20
029402
HJO
.9953313
3104
.1278020
9406
.0554639
5171
172 1 55.3
24.4
0.14
21810
14.5
.9963453
3256
.1200094
1483
.0520824
1361
172 30 70.9
39.9
—0.07
21218
15.0
.9972869
2684
.1122080
3472
XM86971
7513
172 59 87.1
56.1
0.00
20626
15.5
.9981564
1392
.1043982
5377
.0453083
3630
173 29 43.7
12.6
+0.07
90034
16i)
—.9989534
9375
+.0965809
7206
+.0419161
9713
173 58 60.9
29.7
+0.14
019442
16.5
.9996780
6633
.0887566
8964
.0385207
5763
174 27 783
47.3
0.20
18849
17 JO
1.0003298
3164
.0809257
K)657
.0351225
1786
174 57 36 7
54
0.26
18256
17.5
1.0009089
8967
i)730887
2288
X)317216
7782
175 26 .55.3
24.0
032
17662
18.0
1.0014150
4041
X)652461
3863
X>283182
3754
175 55 74.6
43.2
038
17068
183
-1.0018485
8388
4-X)573983
5387
+.0249126
9704
176 25 34.3
2.9
+0.44
016474
19.0
1.0022087
2003
XM9.5460
6865
.0215050
5633
176 54 54.6
23.1
031
15879
19Ji
1.0024959
4887
.0416895
8304
X)l 80957
1546
177 23 753
44.0
0.55
15284
20.0
IJ002709S
7038
X>338d03
9711
X)I46849
7443
177 53 37.0
5.4
039
14689
903
1.0028506
8459
X)259681
:1090
0112729
3329
178 22 59.0
27.3
0.62
14091
JIX)
-1X)029I78
9144
+X)181036
2447
+.0078599
9204
178 51 81.6
49.9
+0.65
013494
213
1.0029117
9096
.0102374
8786
.0044463
5073
179 21 44.7
12.9
0.67
12895
22.0
1.0028320
8313
4-0023700
5112
+.0010320
0934
179 50 68.4
36.6
0.68
12296 1
22.5
1.0026787
6793
—.0054984
3572
—.0023826
3208
180 20 32.7
0.8
0.69
11694 1
23.0
1.0024516
4536
.0133659
2246
X)057972
7350
180 49 57.6
25.7
0.70
11092'
233
-1.0021509
1543
—.0212332
0918
— X)092117
1490
181 18 83.0
51.0
+0.69
010489!
24.0
1.0017763
7810
.0290993
:9579
X)l 26256
5624
181 48 49.1
17.1
0.67
09883
243
1.0013278
3339
.0369632
8217
i)l 60388
:9752
182 17 75.6
433
0.64
09276
25.0
1.000rt054
8129
.0448249
6833
.0194.508
3868
182 47 42.8
10.7
0.61
08666'
253
1.0002091
2180
.0526837
5420
X)228615
7970
188 16 70.4
38.2
037
08056
26.0
—.9995391
5492
— X)605389
3970
-X)262707
2057
183 46 38.7
6.4
+032
007443
26.5
.9987951
8068
X)683895
2477
X)296780
6127
184 15 67.4
35.1
0.48
06828'
27.0
.9979769
9899
.0762354
0937
X»330833
0177
184 45 36.7
43
0.43
06211 ,
273
^970950
0993
X)844>757
:9341
JK)64863
4204
185 14 66.6
34.2
037
05592 1
28.0
.9961191
1348
X)919099
7684
4)398865
8203
185 44 37.1
4.6
030
04971
283
— 9950793
0963
— X)997373
5958
—.0432837
2172
186 13 67.9
354
+0J4
004348!
29.0
.9939658
9841
.1075572
4158
.0466778
6110
186 43 39.3
6.7
0.17
03723
29.5
.9927786
7983
.1153687
2274
.0500684
0013
187 12 71.1
383
0,11
030961
30.0
.9915180
5391
.1231718
0306
.0534553
3879
187 42 436
10.9
+0j04
09467 1
303
.9901836
2060
.1309657
8246
.0568380
7703
188 11 76.4
43.7
—0.02
01837,
Oct IX)
—.9887759
7996 i -.1387499
6090
— X)602167
1487
188 41 49.9
17.1
—0.08
001904
SUN'S COORDINATES, 1856. 385
DAte.
1856.
RaCTANOULAB EQUATORTAT..
POLAB ECLIPTIO. 1
X.
X*.
Y.
T'.
Z.
as*.
True LoDgitade.
a'
Latitode.
Log.Rad.
Vect. — f
Oct 1.5
—.9872941
8192
—.1465239
3831
—.0635909
5226
O 1 M
189 10 83.7
50.9
-i.u
000571
2.0
.9857393
7658
.1542870
1464
.0669602
8915
189 40 58.2
25.3
0.21
099936
S.5
.9841112
1391
.1620381
8976
.0703244
2554
190 20 33X)
57.1
0.26
999300
8.0
.9824102
4396
.1697771
6367
.0736832
6138
190 39 68.4
35.4
0.31
98662
8.5
.9806364
6672
.1775029
3626
X)770364
9666
191 9 43.0
10.0
0.35
98024
4.0
—.9787899
8222
—.1852154
0753
—.0803837
3136
191 38 80.3
47.2
—0.39
997383
4.5
.9768703
9040
.1929138
7739
.08.37248
6543
192 8 56.8
23.7
041
96744
5.0
.9748784
9136
.2005974
4577
.0870595
:9886
192 38 34.0
0.8
043
96102
5.5
.9728142
8508
.2082654
1257
.0903874
3161
193 7 71.4
38.2
0.44
92^162
6.0
.9706779
7159
.2159178
7783
.0937085
6368
193 37 49.4
16.1
045
94820
6.5
—.9684695
5089
—.2235539
4146
—.0970225
:9506
194 6 87.7
54.3
—0.44
994181
7X)
.9661894
2303
.2311732
0342
.1003292
2570
194 36 66.6
33.2
0.43
93539
7Ji
.9638375
8798
J8387749
6362
.1036281
5557
195 6 45.9
12.4
041
92901
SJO
.9614138
4576
.2463587
2202
.1069193
8467
195 35 85.7
52.2
0.38
92260
6JS
^589191
9644
.2539287
7854
.1102023
1295
196 5 65.7
32.1
0.34
91624
9.0
—.9563537
4005
—.2614696
3316
—.11347.70
4040
196 35 46.4
12.7
—0.30
990985
9A
.9537177
7659
.2689957
8580
.1167430
6697
197 4 87.4
53.7
0.26
90352
10.0
.9510108
0605
.2765017
3643
.1200002
:9266
197 34 68.9
35.1
0.22
89717
10.5
.9482332
2843
.2839866
8495
.1232482
1744
198 4 50.9
17.1
0.16
89087
11.0
.9453855
4381
.2914506
3138
.1264871
4131
198 33 93.3
594
0.10
88455
UJi
—.9424675
5215
—.2988928
7564
—.1297164
6423
199 3 76.2
42J
—0.04
987828
12J0
.9394798
5352
.3063129
1769
.1329362
8619
199 33 59.5
25.5
H-O.OS
87200
12.5
.9364221
4789
.3137101
5744
.1361461
0716
200 3 43.5
94
0.09
86576
13.0
.9332948
3530
.3210841
:9484
.1393460
2713
200 32 87.9
53.8
0.16
85953
13.5
.9300983
1579
.3284340
2990
.1425356
4607
201 2 72.9
38.7
0.23
85334
14.0
—.9268328
8938
—.3357595
6248
—.1457145
6395
201 82 58.4
24.1
4-0.30
984717
14.5
.9234985
5610
.3430599
-.9256
.1488823
8071
202 2 44.3
10.0
0.36
84103
15.0
.9200954
1593
.3503349
2010
.1520392
:9638
202 31 90.8
564
042
83491
15.5
.9166237
6890
.3575835
4500
.1551849
1093
203 1 77.7
43.2
047
82882
UJO
.9130838
1505
.3648057
6726
.1583190
2432
203 31 65.2
31.7
0.53
82275
16.5
—.9094759
5441
—.3720009
:8682
—.1614414
3655
204 I 53.2
18.6
-M).58
981671
17.0
.9057994
8689
.3791687
0365
.1645519
4759
204 31 41.8
7.2
0.62
81068
17 Ji
.9020553
1262
.3863084
1767
.1676500
5739
205 0 90.9
56.2
0.66
80468
18.0
.8982440
3163
.3934195
2883
.1707359
6597
205 30 80.6
46.9
0.68
79870
18.5
.8943654
4393
.4005015
3708
T .1738094
7331
206 0 70.8
36.0
0.70
79275
19.0
—^904194
4947
—.4075537
4235
—.1768699
7934
206 30 61.7
27.8
H-0.72
978681
l9Ji
.8864067
4835
.4145754
4457
.1799172
8406
207 0 53.0
18.1
0.72
78090
20.0
.8823276
4058
4215665
4373
.1829512
8745
207 30 44.9
9.9
0.73
77501
20.5
.8781820
2616
.4285261
3974
.1859716
8948
' 208 0 37.3
2.2
0.73
76914
21X)
.8739700
K>511
.4354541
3260
.1889783
9014
208 29 90.4
55.2
0.72
76328
21.5
—.8696924
7750
—.4423496
2220
—.1919712
8943
208 59 84.0
48.8
-M).70
975744
22.0
.8653491
4331
.4492124
0853
1949497
8727
209 29 78.2
42.9
0.67
75162
22.5
.8609403
K)257
4560417
:9152
.1979137
8366
209 59 73.0
37.7
0.63
74582
23.0
.8564661
5529
.4628370
7111
.2008630
7858
209 29 68.5
33.1
0.59
74001
23.5
.8519269
.•0151
4695975
4721
.2037970
7198
210 59 64.3
28.8
0.54
73423
24.0
—.8473231
4128
—.4763228
1980
—.2067159
6386
210 29 60.8
25.3
-M)49
972844
UJi
.8426553
7465
.4830123
8880
.2096193
5419
211 59 57.8
22.2
044
72268
25.0
.8379236
:0162
.4896655
5418
.2125069
4294
212 29 55.4
19.7
0.38
71691
25.5
.8331286
2226
.4962814
1583
.2153784
3009
212 59 53.4
17.7
0.31
71116
26.0
.8282697
3651
.5028599
7374
.2182338
1562
213 29 52.1
16.3
0.24
70541
26.5
—.8233481
4449
—.5094003
2784
-.2210725
:9949
213 59 51.1
15.2
-H).17
969967
27.0
.8183642
4624
.5159023
7810
.2238947
8171
214 29 50.7
14.8
0.10
69393
27.5
.8133179
4175
.5223652
2445
.2266999
6222
214 59 50.7
14.7
-H).04
68821
28.0
.8082095
3105
.5287886
6685
.2294880
4102
215 29 51.4
15.3
—0.02
68249
28.5
.8030393
1417
.5351717
0523
.2322583
1805
215 59 52.5
16.3
0.07
67679
29.0
—.7978086
9124
—.5415143
3955
— JI35011I
-.9332
216 29 54.1
17.9
—0.13
967108
29.5
.7925173
6225
.5478156
6975
.23774.59
6680
216 59 56.1
19.8
0.18
66540
30.0
.7871658
2724
.5540751
-.9577
.2404628
3848
217 29 58.6
22.3
0.24
65971
30.5
.7817544
8624
.5602921
1754
.2431611
0831
217 59 61.5
25.1
0.27
65405
3\X)
.7762835
3929
.5664665
3505
.2458408
7627
218 29 61.9
254
0.31
64839
aiji
—.7707536
8645
—.5725974
4822
—.2485017
4237
218 59 65.5
28.9
—0.34
964275
O Hw <nt agam cf thta and tha liUevfaig loguithmi •!• M.
49
386 SUN'S COORDINAI'ES, 1856.
Date.
BBCTANGULAR BQUATORIAL.
POLAR SCUFna 1
1856.
X.
X'.
Y.
T'.
Z.
Z*.
TriM LoDgitade.
1'
Ulitoda.
Tad-,
Nov. 1.0
—.7651654
2777
— Ji786846
5702
—.2511436
0657
O 1 M
219 29 72.6
86i)
—0.36
9^ .
963710!
1.5
.7595190
6327
.5847277
6141
.2537662
6884
219 59 77.1
40.4
0.8S
63149;
2.0
.7538146
9297
.5907260
6132
.2563694
2917
220 29 82.1
454
0.39
62589
2.5
.7480531
1697
.5966792
5673
.2589529
8753
220 59 874
50.6
0JS9
3.0
.7422350
3531
.6025867
4756
.2615166
4391
220 29 93.2
56.3
0.39
61473 '
3.5
—.7363606
4802
—.6084480
3377
—.2640602
:9828
222 0 39.3
2.3
—0.37
960919
4.0
.7304306
5516
.6142627
1532
.2665836
5063
222 30 45.9
8.9
0.35
60368;
4.5
.7244454
5678
.6200304
:9217
.2690865
0093
223 0 52.8
15.7
0.32
59821
5.0
.7184053
5292
.6257508
6430
.2715688
4917
223 30 60.2
23.0
0J8
59274
5.5
.7123108
4360
.6314231
3162
.2740303
9533
224 0 67.8
80.5
0.24
58731!
6.0
—.7061625
2889
—.6870472
:9412
-.2764709
3941
224 80 75.8
38.5
—0.19
958191]
6.5
.6999606
:0883
.6426224
5173
.2788900
8134
225 0 84.1
46.7
0.14
57655!
7.0
.6937058
8347
.6481487
0445
.2812882
2117
225 30 92.9
55.5
0.09
57123.
7.5
.6873985
5286
.6536254
5221
.2836646
5883
226 1 41.9
44
— 0X>3
56594
8.0
.6810391
1705
.6590525
:9501
.2860195
:9435
226 31 514
13.8
-fO.03
56069i
8.5
—.6746281
7607
—.6644295
3281
—.2883525
2769
227 1 60.2
22.6
-H).l0
955549-
9.0
.6681661
2999
.6697559
6554
.2906636
5883
227 31 714
33.7
0.17
550331
9.5
.6616537
7888
.6750310
:9315
.2929524
8775
228 1 82.0
44.2
0.24
54522
10.0
.6550915
2278
6170
.6802548
1563
.9952191
1446
228 31 93.0
55.1
0.31
54015
10.5
.6484793
.6854267
8291
.2974633
3890
229 2 44.3
6.3
0.87
53515
ll.O
—.6418182
9572
—.6905464
4498
—.2996850
6110
229 32 56.1
18.1
+0.43
953017.
11.5
.6351083
2486
.6956135
5179
.3018837
8100
230 2 68.2
30.1
0.49
52527,
12.0
.6283502
4918
.7006276
5330
.3040595
:9860
230 32 80.7
42.5
0.56
52038;
12.5
.6215440
6869
.7055882
4947
.3062120
1388
231 2 93.5
55.2
0.60
51556
13.0
.6146905
8347
.7104953
4028
.3083414
2684
231 33 46.8
84
0.64
51078
13.5
—.6077900
9355
—.7153483
2567
—.3104473
3746
232 3 60.5
22.1
-M).67
950606!
14.0
.6008427
9900
.7201470
0565
U31 25297
4574
232 33 74.7
36.2
0.70
50137
14.5
.5938503
9984
.7248909
8014
.3145882
5161
233 3 89.3
50.7
0.73
49675;
15.0
.5868121
9615
.7295797
4912
.3166230
5510
233 34 444
5.7
0.75
49218
15.5
.5797285
8797
.7342126
1252
.3186336
5620
234 4 59.8
21.0
0.75
48767
16.0
—.5726015
7535
—.7387900
7037
—.3206201
5488
234 34 75.7
36.9
-M).76
948320
16.5
.5654298
5830
.7433115
2263
.3225822
5112
235 4 92.1
53.2
0.75
47879
17.0
.5582147
3691
.7477762
6921
.3245198
4490
235 35 48.9
9.9
0.74
47441 1
17.5
.5509564
:1121
.7521835
1005
.3264326
3621
236 5 66.2
27.1
0.73
47009
46580'
18.0
.5436556
8126
.7565337
4518
.3283206
2503
236 35 83.9
44.7
0.70
18.5
—.5363125
4708
—.7608259
7451
—.3301835
1135
237 6 42.1
2.8
-M).67
946156
19.0
.5289281
-.0877
.7650591
:9804
.3320212
:9515
237 36 60.7
213
0.62
45736
19.5
.5215031
6639
.7692358
1572
.3338334
7641
238 6 79.7
40.2
0.58
45321
20.0
.5140376
1996
.7733525
2751
.3356202
5511
238 36 99.2
59.6
0.53
44910
20.5
.5065324
6956
.7774096
3334
.3373812
3125
239 7 59.0
19J
0.48
44503
21.0
—.4989879
:1523
—.7814072
3322
—.3391165
0482
239 37 79.2
39.5
-f-0.42
944100
21.5
.4914047
5703
.7853446
2708
3408257
7578
240 8 39.8
0.0
0U36
43701
22.0
4837832
9499
.7892219
1493
.3425087
4411
240 38 60.9
21.0
o.»
43306
22.5
.4761239
2917
.7930383
:9670
.3441652
0980
241 8 82.3
42.3
0.22
42913
23.0
.4684276
5966
.7967937
7236
.3457953
7285
241 39 44.2
4.1
0.25
42525^
23.5
—.4606947
8648
—.8004876
4188
—.3473986
3322
242 9 66.5
26.3
-h0.09
942138;
24.0
.4529259
:0972
.8041197
0521
.3489752
9092
242 39 89.2
48.9
+0.02
41755
24.5
.4451220
2945
.8076894
6230
.3505247
4591
243 10 52.2
11.8
—0.04
41375
25.0
4372834
4571
.8111970
1319
.3520472
9820
243 40 75.6
35.1
0.10
40998!
25.5
.4294107
5855
.8146419
6780
.8535424
4776
244 10 99.2
58.6
0.15
40624'
26.0
—4215048
6807
—.8180234
-.9609
-4J550103
9459
244 41 63.3
22.7
—0.20
940254,
26:5
4135664
7434
.8213417
2805
.8564506
3866
245 11 87.6
46.9
0.25
39886
27.0
.4055960
7740
.8245962
5363
.8578632
7996
245 42 52.3
11.5
0.29
39521
27.5
.3975941
7731
.8277866
7281
JI592479
1847
246 12 77.1
36.2
0.32
39159
28.0
.3895613
7414
.8309128
8556
.8606048
5420
246 43 424
14
0.35
88801
28.5
—.3814983
6795
—.8339748
9190
—.3619335
8711
247 13 67.8
26.7
—0.37
9S8445;
29.0
.3734058
5881
.8369720
9176
U3632343
1723
247 43 93.7
52.5
0.39
88093;
29.5
.3652844
4678
.8399042
8512
.3645068
4452
248 14 59.7
184
0.39
37744
30.0
.3571350
3195
.8427713
7197
.3657512
6901
248 44 86.2
44.8
0.40
37399
SOJi
.3489580
:1435
.8455730
5228
.3669671
9065
249 15 52.8
11.3
0.39
37058
Dec. IX)
—.3407542
9407
—.8483091
2603
—.3681545
0944
249 45 79.6
38.0
—0.37
936790
SUN'S COORDINATES, 1856. 387
Date.
1856.
KBUTANGULAB EQUATORIAL.
POLAR BCLIPTIO. 1
X.
Xf.
T.
T'.
Z.
7Bf.
a =0*8
TriMLoQgitiuk.
X'
a = 0*8
Latitade.
Log.Rad.
Tact. - f
Dec IJi
—.3325243
7118
—.8509793
9320
—.3693130
2534
O 1
250 16
46.6
U
-5.34
936387
2.0
.3242687
4572
.8535834
5375
.3704430
3839
250 46
73.8
32.0
0.31
36058
2.5
.3159887
:1782
.8561210
0766
.3715442
4857
251 16
101.2
59.3
0.27
35733
3.0
.3076847
8752
.8585923
5492
.8726164
5584
251 47
68.8
26.8
0.23
35411
3.5
JI993569
5484
.8609968
9552
.3736596
6021
252 17
96.5
54.4
0.18
35094
4.0
—.2910066
1991
—.8633348
2947
—.3746738
6169
252 48
64.5
22.3
—0.13
934782
4.5
.2826341
8276
.8656056
5669
JI756590
6026
253 18
92.6
50.6
0.08
34474
5.0
.2742402
4347
.8678096
7723
.3766151
5593
253 49
60.9
18.5
—0.00
34173
5.5
.2658251
-.0205
.8699462
9104
.3775419
4868
254 19
89.4
46.9
4-0.06
33876
6.0
.2573899
5862
.8720156
:9814
.3784396
3851
254 50
58.1
15.5
0.13
33585
6.5
—.2489353
:1325
—.8740172
:9844
—.3793080
2542
255 20
86.8
44.1
-1-0.19
933300
7.0
.2404618
6599
.8759515
9202
.3801470
0938
255 51
55.8
13.0
0.26
33020
7.5
.2319703
:1694
.8778182
7885
.3809566
9041
256 21
84.9
42.0
0.32
32746
8.0
.2234612
6612
.8796167
5886
.3817368
6850
256 52
54.2
12.2
0.38
32477
8.5
.2149348
:1358
.8813471
3206
.3824875
4364
257 22
83.6
41.6
0.44
32216
9.0
—.2063922
5940
—.8830093
:9844
—.3832086
1582
257 53
53.2
11.0
-f-0.50
931961
9A
.1978335
:0362
.8846036
5802
.3839002
8505
258 23
83.0
40.7
0.55
31713
10.0
.1892598
4633
.8861298
1080
.3845622
5131
258 54
53.0
10.6
0.60
31471
10.5
.1806716
8760
.8875874
5672
.3851945
1460
259 24
83.2
S9.7
0.64
31237
11.0
.1720696
2748
.8889766
9580
JI857971
7492
259 55
53.6
10.0
0.68
31008
11.5
—.1634546
6605
—.8902968
2799
—.3863699
3226
260 25
84.1
40.4
■H).70
930786
12.0
.1548270
K)336
.8915484
6331
.3869130
8663
260 56
54.8
11.0
0.78
30570
12.5
.1461873
3946
.8927309
7173
.3874263
3802
261 26
85.6
41.7
0.74
30363
13.0
.1375362
7442
.8938448
8329
.3879096
8641
261 57
56.6
12.6
0.75
30161
13.5
.1288745
:0833
.8948894
8791
.3883630
3181
262 27
87.8
43.7
0.75
29967
14.0
—.1202023
4119
—.8958654
8568
—.3887865
7422
262 58
59.3
15.1
-M).74
929777
14.5
.1115204
7307
.8967718
7649
.3891801
1364
263 28
91.0
46.7
0.72
29499
15.0
.1028300
:0410
.8976091
6037
.3895435
5005
263 59
62.9
18.5
0.70
29424
15.5
.0941317
3433
.8983766
3728
.3898766
8345
264 29
94.9
50.4
0.66
29256
16.0
.0854258
6379
.8990746
0725
.3901799
1383
265 0
67.1
22.6
0.61
29094
16.5
—.0767128
9254
—.8997030
7026
—.3904526
4118
265 30
99.5
54.9
-M).57
928937
17.0
.0679933
-.2064
.9002616
2630
.3906952
6551
266 1
72.1
27.4
0.52
28786
17.5
.0592681
4816
.9007503
7534
.3909075
8682
266 32
45.0
0.2
0.47
28644
18.0
.050.^379
7.520
.9011693
1741
.3910897
0511
267 2
78.1
33.2
0.42
28508
18.5
.0418034
:0180
.9015183
5249
.3912415
2037
267 33
51.4
6.4
036
28377
19.0
— X>330652
2803
—.9017974
8058
—.3913631
3260
268 3
84.9
39.8
+0.29
928250
19.5
.0243241
5397
.9020063
0165
.3914540
4177
268 34
58.6
13.4
0.23
28130
20.0
.0155806
7967
.9021451
1571
.3915146
4791
269 4
32.5
47.2
0.16
28015
20.5
—.0068354
-.0520
.9022138
2275
J5915447
5099
269 35
66.5
21.1
0.10
27906
21.0
-I-.0019107
6936
.9022121
2276
.3915443
5104
270 5
100.7
55.2
-t-0.03
27800
21.5
-h.0106568
4393
—.9021401
1574
—.3915134
4802
270 36
75.0
29.4
—0.03
927702
22.0
.0194025
1846
.9019977
0168
3914519
4195
271 7
49.6
3.9
0.09
27607
22.5
.0281470
:9286
.9017848
8057
• .3913599
3283
271 37
84.2
38.4
0.15
27517
23.0
.0368895
6706
.9015014
5240
.3912372
2064
272 8
59.0
13.1
0.21
27431
23.5
.0456295
4102
.9011478
1722
.3910840
0540
272 38
93.9
47.9
0.25
27350
24.0
-4-0543661
1463
—.9007238
7500
—.3909001
8709
273 9
69.0
22.9
—0.30
927273
24.5
.0630986
:8783
.9002294
2574
.3906858
6574
273 39
104.0
57.8
0.33
27201
25.0
.0718262
6055
.8996648
6947
.3904408
4132
274 10
69.3
33.0
0.37
27133
25.5
.0805482
3272
.8990297
0613
.3901653
1385
274 41
54.5
8.1
0.39
27069
26.0
.0892640
0428
.8983242
3576
.3898591
8332
275 11
89.9
43.4
0.41
27009
26.5
-♦-.0979729
7514
—.8975483
5835
—.3895224
4974
275 42
65.2
18.6
—0.42
926953
27.0
.1066742
4525
.8967024
7394
.3891553
1312
276 12
100.7
54.0
0.43
26901
27.5
.1153673
1453
.8957864
8252
.3887579
7347
276 43
76.1
29.3
0.42
26854
28.0
.1240513
:8290
.8948004
8411
.3883298
8075
277 14
51.7
4.8
0.41
26810
28.5
.1327254
5029
.8937444
7870
.3878713
8499
277 44
87.1
40.1
0.39
26772
29.0
-h.l413890
1663
—.8926185
6629
—.3878826
3621
278 15
62.8
15.7
—0.37
926737
29.5
.1500412
:8182
.8914229
4692
.3868635
8438
278 45
98.2
51.0
0.33
26707
30.0
.1586814
4581
.8901572
2054
.3863142
2954
279 16
73.8
26.5
0.28
26681
90JS
J678089
0853
.8888224
8716
.3857346
7166
279 47
49.0
1.6
0.24
26659
31X)
.1759230
6991
.8874184
4678
.3851250
1079
280 17
SAJi
37.0
0.19
26642
3iJi
.1845230
2987
.8859449
9940
.3844853
4690
280 48
59.6
12.0
0.13
26632
32.0
-I-.1931082
:8837
—.8844026
4502
—.3838157
8003
281 18
95.0
47.3
—0.07
926625
388 HELIOCEBTTRIC COORDINATES.
MERCURY.
VENUS
•
1
D^nflr.
ofJuliaa
Psnod.
Log. of
Long!.
Log. of
u^ !
X.
T.
z.
RmL
YMt.
tadeln
QrMt.
X.
Y.
z.
Bad.
y«ot.
OrMt. 1
289
8950
4-0.0939
—0.3871
—0.2173
9.6570
282 12.0
—0.6586
4-0.2448
4-0.1521
9.8567
i§e^'
8955
0.1982
0.3348
0.2001
9.6410
297 16.5
0.6926
0.1567
0.1144
9.8569
164 42.8
8960
0.2849
0.2531
0.1650
9.6183
313 45J3
0.7128
4-0.0656
0.0745
9.8572
178 48.6
8965
0.3421
0.1457
0.1129
9.5894
332 204
07190
—0.0269
4-Oj0331
9.8575
180 53.7
8970
0.3560
—0.0204
—0.0470
9.5559
353 47.3
0.7109
0.1189
—0.0091
9.8578
188 58.1 1
8976
+0.3140
4-0.1072
4-0.0259
9.5221
18 54.7
—0.6887
—0.2085
-Oi)518
9.8582
197 1.8*
8980
0.2105
0.2128
0.0932
9.4962
47 50.2
0.6531
0.2940
0.0925
9.8586
S05 43
8985
-H)X)585
0.2684
0.1385
9.4880
79 12.6
0.6046
0.3738
0.1318
9.8590
213 64,
8990
—0.1080
0.2580
0.1497
9.5014
no 11.7
0.5443
04462
0.1674
9J594
821 74
8995
0.2510
0.1892
0.1272
9.5303
138 13X)
04733
04^099
0.2006
9.8598
229 73 1
9000
—0.3479
4-0.0844
4-0X)806
9.5647
102 21.8
—0.3932
—0.5637
—0.2300
9.8602
237 6.7,
9005
0.8936
—0.0336
4-0.0217
9^973
183 liJ
0.3054
0.6066
0.2549
9.8606
245 4.9
9010
0.3924
0.1482
—0.0401
9.6247
200 59.3
0.2118
0.6377
OJStUS
9.8609
858 24
9015
0.3525
0.2484
* 0.0980
9.6456
217 3.3
0.1140
0.6566
0.2895
9.8613
260 59.1
9020
0.2824
0.3276
0.1477
9.6599
231 52.0
—0.0140
0.6628
0.2986
9.8616
268 55.2
9025
-0.1903
—0.3814
—0.1860
9.6676
245 56.9
4-0.0862
—0.6562
—0-8019
9.8618
276 50.6
9030
—0.0844
0.4074
0.2107
9.6687
259 44.9
0.1848
0.6370
0.2995
9.8620
284 45.6
9035
-H).0278
0.4037
0.2200
9.6633
273 41.1
0.2798
0.6057
0.2913
9.8622
292 40.2
9040
0.1377
0.3694
0.2127
9.6513
288 11.6
0.3695
0.5627
0.2775
9.8622
800 34.6
9045
0.2359
0.3049
0.1880
9.6326
303 45.9
04521
0.5090
0.2585
9.8623
808 28.7
9050
4-0.3125
—0.2122
—0.1457
9.6073
321 0.3
4-0.5261
—0.4456
—0.2345
9.8623
816 22.9
9055
0.3537
—0.0962
0.0875
9.5762
340 38.8
0.5900
0.3736
0.2060
9.8622
324 17.2'
9060
0.3463
4-0.0323
—0.0176
9.5419
3 31.3
0.6426
0.2945
0.1735
9.8621
382 11.7
9065
0.2791
0.1544
4-0.0549
93101
30 14.3
0.6829
0.2097
0.1378
9.8619
340 6.6
9070
0.1530
0.2428
0.1152
94903
60 25.5
0.7101
0.1209
0.0994
9.8616
348 IS
9075
4-0.0097
4-0.2722
4-0.1475
94910
92 1.1
4-0.7237
—0.0298
—0.0590
9J614
355 57.8
9080
—0.1706
0.2360
0.1442
9.5119
122 1.5
0.7233
4-0.0618
—0.0176
9.8610
8 543
9085
0.2966
0.1496
0.1104
9.5441
148 29.3
0.7090
0.1523
4-0.0242
9.8607
11 513
9090
0.3725
4-0.0369
4-0.0575
9.5784
171 7.9
0.6810
0.2399
0.0655
9.8603
19 49X ,
9095
0.3981
—0.0823
—0.0041
9.6091
190 35.7
0.6398
0.3228
0.1056
9.8599
27 483
9100
—0.3804
—0.1011
—0.0644
9.6340
207 42.3
4-0.5861
4-0.3994
4-0.1436
9.8595
85 483
9105
0.3272
0.2834
0.1194
9.6522
223 11.5
0.5210
04682
0.1788
9.8591
48 49J0
9110
0.2472
0.3527
0.1648
9.6638
237 89.1
0.4458
0.5279
0.2105
9.8587
51 503
9115
0.1486
0.3955
0.1 d78
9.6688
251 34.0
0.3618
0.5772
0.2380
9.8583
59 58.1
9120
—0.0391
0.4095
0.2164
9.6673
265 22.3
0.2706
0.6152
0.2609
9.8579
67 563
9125
4-0.8732
-0.3934
—0.2191
9.6592
279 29.2
4-0.1742
4-0.6411
4-0.2787
9.8576
76 a7
9130
0.1797
0.3468
0.2048
9.6445
294 21.7
-H).0743
0.6543
0.2909
9.8573
84 5.6
9135
0.2706
0.2705
0.1729
9.6231
310 31.8
—0.0271
0.6545
0.2974
9.8570
92 11.2
9140
0.3342
0.1675
0.1239
9.5953
328 38.9
0.1279
0.6417
0.2980
9.8568
100 173
9145
0.3573
—0.0447
—0.0601
9.5624
349 30.4
0ii262
0.6162
0.2927
9.8566
108 23^
9150
4-0.3266
4-0X)841
4-0.0122
9.5282
13 54.3
1-0.3200
4-0.5785
4-0.2815
9.8564
116 803
9155
0.2343
0.1960
0.0818
9.5000
42 9.6
0.4074
0.5292
0.2648
9.8564
124 38.0
9160
4-0.0893
0.2628
0.1324
9.4879
73 15.6
04867
04693
0.2427
9.8564
132 453 .
9165
—0.0776
0.2650
0.1504
9.4975
104 33.6
0.5563
04002
0.2159
9.8564
140 523
9170
0.2273
0.2056
0.1336
9.5242
133 15.3
, 0.6148
0.3231
0.1847
9.8565
148 593 ,
9175
—0.3337
4-0.1057
4-0.0906
9.5582
158 74
—0.6611
4-0.2396
4-0.1499
9.8567
157 63 j
9180
0.3888
4-0.0114
4-0.0332
9.5915
179 22.6
0.6942
0.1512
0.1120
9.8569
165 123
9185
0.3959
—0.1275
—0.0286
9.6200
197 47.3
0.7136
4-0.0599
0.0720
9.8572
173 18^
9190
0.3626
0.2310
0.0877
9.6422
214 9J)
0.7189
—0.0326
4-0.0305
9.8575
181 233
9195
0.2975
0.3146
0.1392
9.6578
220 9.8
0.7099
0.1245
—0.0115
9.8578
189 274
9200
—0.2089
—0.3734
—0.1798
9.6667
243 20.7
—0.6869
—0.2139
—0.0534
98582
197 313
9205
—0.1049
0.4043
0.2072
9.6690
257 9.9
0.6505
0.2991
Oi)942
9.8586
205 340
9210
4-0.0067
0.4067
0.2195
9.6648
271 2.8
0.6012
0.3784
0.1331
9.8590
218 853
9215
0.1177
0.3782
0.2154
9.6540
285 24.7
0.5402
04504
0.1695
9.8594
221 86.7
9220
0.2191
0.3193
0.1939
9.6366
300 44.5
04687
0.5135
0.2025
9.8598
229 86.7
9225
4-0.3005
—0.2316
-0.1549
9.6125
317 36.9
—0.3881
—0.5667
—0.2316
9.8602
287 853
9230
0.3493
—0.1194
0.0995
9.5824
336 44.7
0.2999
0.6089
0.2562
9.8606
245 84.1
9235
OJ3520
4-0.0080
—00313
9.5484
358 57.2
0.2059
0.6393
. 0.2759
9.8610
853 813
9240
0.2965
0.1332
4-0X)417
9.5155
24 56.0
0.1079
0.6578
0.2902
9.8613
261 883
9245
4-0.1805
.4-0.2301
4-0.1056
94926
54 314
—0.0079
—0.6627
—0.2990
9.8616
869 843
d
HELIOCENTRIC COORDINATES. 389
MERCUBY.
VENUS.
Dajtfr.
PBnod.
^."^
Loofl.
Log. of
Longl.
X.
Y.
z.
lUd.
Yeot.
tadeln
OrMt.
X.
T.
z.
1^.
Tact
tad* in
OrUt.
2»»
9250
+0.0219
H-0.2719
+0.1441
9.4842
o L
86 7.8
+0.0983
—0.6554
—03020
9.8618
277 19.6
9255
0.1424
0.2473
0.1474
94^068
116 58.3
0.1907
0.6355
0.2992
9.8620
285 14.6
9260
0.2766
0.1685
0.1186
9.5377
143 49.9
0.8855
0.6034
0.2906
9.8622
293 9 2
9265
0.3623
+0.0590
0.0683
9.5721
167 9.5
0.3748
0.5598
0.2765
9.8622
301 33
9270
0.3971
—0.0595
+0.0081
9.6038
187 9.3
0.4569
0.5054
0.2571
9.8623
308 57.7
9275
-H)J5867
—0.1716
—0.0533
9.6298
204 38.9
+0.5303
—0.4414
—0.2328
93623
316 513
9280
0.3394
0.2677
0.1097
9.6493
220 23.3
0.5935
0.3690
0.2041
93622
324 46 1
9285
0.2638
0.3416
0.1571
9.6622
234 59.9
0.6454
0.2895
0.1714
93620
338 40.7
9290
-H).168l
0.3896
0.1926
9.6684
248 59.0
0.6849
0.2044
0.1855
9 8619
340 35.6
9295
—0.0600
0.4091
0.2141
9.6680
262 46.7
0.7113
0.1154
0.0969
9.8616
348 30.9
9300
-H)X)524
—0.8988
—0^198
9.6612
276 48.1
+0.7840
—0.0242
—0.0565
9.8613
356 86.8
9305
0.1607
0.3579
0.2088
9.6478
291 29.8
0.7228
+0.0674
—0.0150
93610
4 834
9310
0.2553
0.2870
0.1802
9.6276
307 22.6
0.7077
0.1578
+0.0267
9.8607
18 80.7
9315
+0.3250
—0.1886
—0.1343
9.6010
325 4.3
+0.6785
-H).8451
+0.0680
9.8603
80 183
MA
RS.
JUPITER.
Dayifr.
ofJoJUn
X.
T.
Z.
IS:^
Lon^
tadelD
X.
T.
z.
"S/
Loogl-
tadein
Period
T«et.
Orbit.
Yecl.
OrUt.
81150
—1.4786
+0.6891
+0.3564
0.2216
O 1
158 16.0
+4.67498
—1.55319
—0.78259
0.69793
O 1 li
339 38 0
8960
1.5283
0.5854
0.3097
0.2215
156 87.7
4.69998
1.48440
0.75364 '0.69776
340 38 13
8970
1.5729
0.4768
0.2610
0.2211
160 59.9
4.72385
1.41528
0.72452 0.69760
341 86 28
8980
1.6076
0.3655
0.2108
0.2206
165 28.8
4.74659
1.34583
0.69523
0.69744
342 20 45
8990
1.6318
0.2515
0.1591
0.8198
169 46.8
4.76818
1.87606
0.66578
069729
343 15 5
9000
—1.6457
+0.1362
+0.1063
0.2187
174 11.1
+4.78863
—1.80598
—0.63617
0.69714
344 9 28
9010
1.6486
+0.0199
+0.0529
0.2173
178 87.3
4.80793
1.13562
0.60640
0.69699
345 3 52
9020
1.6408
—0.0966
—0.0008
0.2158
183 6.5
4.82608
1.06499
0.57649
0.69685
345 58 18
9030
1.6221
0.2124
0.0545
0.2140
187 35.7
4.84306
0.99410
0.54644
0.69672
346 58 47
9040
14^921
0.3269
0.1079
0.2119
192 8.3
4.85888
0.92297
0.51626
0.69659
347 47 18
9050
—1.5516
—0.4388
—0.1604
0.2096
196 43.6
+4.87352
—0.85161
-0.48596
0.69646
348 41 51
9060
1.5001
0.5480
0.2120
0.2071
201 88.6
4.88699
0.78005
0.45554
0.69634
349 36 26
9070
1.4380
0.6533
0.2620
0.2044
806 3.9
4.89927
0.70830
0.42500
0.69622
350 31 2
9080
1.3656
0.7541
0.3101
0.2015
210 49.3
4.91037
0.63637
039436
0.69610
351 25 40
9090
1.2832
0.8486
0.3559
0.1984
215 88.7
4.92088
0.56429
036362
0.69599
352 20 20
9100
—1.1910
—0.9373
—0.8992
0.1962
220 32.4
+4.92901
—0.49207
—033279
0.69589
353 15 1
9110
1.0898
1.0186
0.4393
0.1918
225 30.5
4.93654
0.41973
030188
0.69579
354 9 44
9120
0.9800
1.0920
0.4759
0.1883
230 33.7
4.94288
0.34728
0.27091
0.69570
355 4 28
9130
0.8623
1.1566
0.5087
0.1847
23b 41 7
4.94801
0.27475
0.23987
0.69561
355 59 14
9140
0.7375
1.2116
0.5373
0.1810
240. 55.3
4.95194
0.20215
0.20877
0.69552
356 54 1
9150
—0.6064
—1.2563
—0.5618
0.1772
246 13.7
+4.95467
—0.12950
—0.17761
0.69544
357 48 49
9160
0.4700
1.2901
0.5805
0.1734
252 38.0
. 4.95619
—0.05683
0.14641
0.69537
358 43 39
9170
0.3295
13122
0.5946
0.1697
257 7.8
4.95651
+0.01585
0.11518
0.69530
359 38 30
9180
0.1859
1.3224
0.6031
0.1660
262 48.7
4.95562
0.08853
0.08392
0.69523
0 33 22
9190
—0.0406
1.3202
0.6059
0.1624
868 84.9
4.95353
0.16119
0.05264
0.69517
1 28 14
9200
-I-0.I051
—1.3054
—0.6019
0.1590
274 11.9
+4.95024
+0.23380
—0.02136
0.69511
a 83 8
9210
0.2497
1.2775
0.5940
0.1556
280 4.2
4.94574
0.30635
+0.00993
0.69506
3 18 2
9220
0.3919
1.2370
0.5791
0.1526
286 1.8
4.94004
037883
0.04122
0.69502
4 12 57
9230
0.5300
1.1834
0.5581
0.1498
898 4.8
4.93313
0.45181
0.07250 10.69498
6 7 53
9240
0.6624
1.1176
0.5314
0.1473
898 11.1
4.92502
0.58349
0.10377 10.69494
6 8 49
9250
+0.7877
—1.0398
—0^989
0.1451
304 81.8
+4.91570
+0.59564
+0.13501
0.69491
6 57 46
9260
0.9046
0.9508
0.4611
0.1433
310 35.4
4.90518
0.66765
0.16622
0.69488
7 58 43
9270
1.0116
0.8512
0^182
0.1420
316 53.0
4.89347
0.73950
0.19739 10.69486
8 47 41
9280
1.1072
0.7421
0.3706
0.1410
883 18.0
4.88056
0.81118
0.22850 0.69485
9 48 39
9290
1.1906
0.6249
0.3189
0.1405
389 33.1
4.86646
0.88266
0.25956 0 69484
10 87 37
9300
1.2606
0.5006
0.2637
0.1404
335 58.9
4.85118
0.95393
0.29056 0.69483
11 38 35
9310
1.3167
— OJ707
—0^55
0.1408
348 13.6
4.83471
+4.81705
1.02496
+1.09575
032150 0.69483
+035236 0.69484
18 87 33
13 88 38
390 HELIOCENTRIC COORDINATES.
SATUBN.
Dayifr.
begin*g
oCJaUu
Period.
8980
9000
9020
9040
9060
9080
9100
91S0
9140
9160
9180
9200
9220
9240
9260
9280
9300
9320
9340
X.
-H).28403
0.16623
+0.04842
-0.06940
0.18721
-^.30502
0.42281
0.54056
0.65823
0.77578
-0.89318
1.01041
1.12747
1.24438
1.36111
-1.47765
1.59396
1.71003
-1.82586
-1-8.32533
8.32610
8.32552
8.32359
8.32032
8.30973
8.30242
8.29376
8.28373
+8.27236
8.25966
8.24563
8.23026
8.21357
+8.19553
8.17617
8.15547
+8.13343
"1^
V«ct.
-h3.43758 0.95480
3.44304 0.95479
3.44793 p.95479
3.45229,0.95479
3.4560710.95479
+8.315701+3.45928
3.46191
3.46399
3.46552
3.46651
0.95480
,0.95482
0.95484
0.95486
0.95488
-hS46693 ,0.95491
3.46678
3.46608
3.46479
3.46295
0.95494
0.95498
0.95502
0.95506
-M.46053 0.95511
3.45754 0.95516
3.45397 0.95522
+3.44982 0.95529
tadeln
Orbit.
88 10 25
86 55 24
89 40 24
90 25 23
91 10 23
91 55 22
92 40 21
93 25 21
94 10 20
94 55 20
95 40 19
96 25 17
97 10 16
97 55 14
98 40 12
99 25 9
100 10 6
100 55 2
101 39 8
NEPTUNE.
Daytfr.
iMgin'g
Period.
'2BB
8960
9000
9040
9080
9120
9160
9200
9240
9280
9320
+29.2122
29.2384
29.2640
29.2891
29.3137
+29.3377
29.3611
29.3840
29.4064
1+29.4283
Y.
-5.6962
&Ji907
54652
5.3496
5.2336
-5.1175
5.0016!
4.88571
4.7695
-1.6530,
--3.0879
3.0411
2.9944
2.9476
2.9006
—2.8536
2.8066'
2.7596 j
2.7125
—2.66521
Log. of
lUd.
Vect.
1.47599
147598
1.47596
1.47.595
1.47593
1.47592
1.47590
147589
1.47587
147586
LOBgl.
tudelo
Orbit.
O I
347 33.2
347 47.9
348 2.5
348 17.2
348 31.7
348 46.4
349 IX)
349 1.V6
349 30.3
349 44.9
URANUS.
+12.67544
12.61435
12.55309
12.49164
1242997
+12.36806
12.30591
12.24353
12.18096
12.11822
+12.05531
11.99225
11.92900
11.86556
11.80191
+11.73804
11.67393
11.60949
+11.54472
+13.76135
13.80445
13.84731
13.88999
13.93242
+13.97466
14.01674
14.05858
14.10022
14.14189
+14.18273
14.22361
14.26426
14.30468
14.34491
+14.38491
1442473
1446432
+14.50476
+5 85754
5.87739
5.89713
6.91674
5.93624
+5.95565
5.97508
5.99423
6.01340
6X)3249
+6.05149
6.07037
6.08913
6.10779
6.12632
+6.14476
6.16315
6.18147
+6.19972
Log. of
hMd.
Teet.
Oriiit.
49
1.29237
1.2923049
1.29223150
43 51
56 S8l
10 111
1 J9216'50 S3 451
1.99209*50 37 18!
I I
50 52|
4 S8
1.29202
1.29195
1.29181
50
51
1.2918851 18 1
51
1.99174151
31 3'
45 12
1.29166151 58 47
1.29159:52 12 93
1.2915252 25 59
1.29145 52 39 36
1.99137 52 53 13
1.2913053 6 50
1.29123 53 20 27
1.29116^53 34 5
1.2910953 47 43
INCLINATI0K8 AND NODES.
For Jalum Date 2399000.
Plail-
Mercaiy
Veoof
Mars
Japiter
Satarn
Uranuf
Neptane
tfton.
InoTCMe in
100 d^n.
7 1 8.6 -H).01947
3 31 21.8, -M)X)1 232
1 51 2.2—0.00611
1 18 40.1
2 29 281
0 46 29.7
1 46 59.0
Loofltode
of Aeceod
lac Node.
iDcr
la 100
Oajs.
14 37 25,11.469
75 24 3, 9.004
48 26 25 7.600
—0.05632 98 59 53| 9.990
—0.03768 112 25 23| 8.566
+0^)0634 73 16 5 4.898
Il30 II 40
LOGABITHMS OF MASSES.
Sim*t *- 1.
Mercury,
Venus,
93.3129
944089
The Earth,
Mart,
94.44812
93 57176
Jupiter,
Saturn,
96 979689
9645573
Uranus,
Neptune,
95.60371
95.72670
ECLIPSES, 1856.
391
ECLIPSES IN 1856.
In the year 1856 there will be four Eclipses ; two of the Sun and two of the Moon ;
VIZ.:
I. A Total Eclipse of the Sun, April 4, 1856, invisible at Washington, with the fol-
lowing elements.
d. h. m. ■.
Washington Mean Time of <{ in Bight Ascension, April 4 12 8 55.5.
Sun^s and Moon^s R.A.
h. m t.
0 57 31iM)
Houriy Motions
9.13 and 134.59
Sun^s Declination
+ 6 6 5.5
Houriy Motion
+ 6 5(S.9
Moon^s Declination
+ 5 14 18.8
Hourly Motion
+17 44.7
Moon's Longitude
15 15 46.3
Hourly Motion
37 45.8
Moon's Latitude
— 0 50 33.0
Houriy Motion
+ 3 26.8
Sun's Equa. Hor. Par.
8.6
True Semidiameter
16 0.8
Moon's Equa. Hor. Par.
61 10.0
True Semidiameter
16 39.2
From these elements may be deduced the following results : —
Eclipse begins on the Earth, April 4^* 10**- 37.2**, Washington mean time, in longi-
tude 238' 25^ West of Washington, and latitude 58* 56' South.
Central Eclipse begins, 11^* 5aO"', in longitude 233** 37' West of Washington, and
latitude 78* 57' South.
Central Eclipse at noon, 12''- a9"-, in longitude 181* S3' West of Washington, and
latitude 58* 5' South.
Central Eclipse ends, 13^ 56.0"*, in longitude 121* 4' West of Washmgton, and
latitude 24* 0' South.
Eclipse ends on the Earth, 15^ 8.7"*, in longitude 136* 48^ West of Washington, and
latitude 2* 45' South.
392
ECLIPSES, 1856.
DATA FOB COMPUTING
THE ECLIPSE FOR ANY PLACE, FOR
PENUBfBRA.
M.Tiiii«.
A.
B.
O.
logB.
9.997
logf.
logG.
logH.
^ 1
h. m.
9.997
9.00
9.04
O IX
10 35
—0.80082
—0.79307
—1.86193
727
292
9198
6989
158 8 80.1 I
10 40
0.75819
0.77015
1.83903
727
291
9291
7074
159 18 81.4 ;
10 45
0.71557
0.74724
1.81613
726
290
9384
7160
160 83 82.6 1
10 50
0.67294
0.72433
1.79324
725
289
9478
7245
161 48 83.9
10 55
0.63031
0.70141
1.77034
724
288
9571
7330
163 8 35.2 ,
11 0
0.58768
0.67850
1.74744
723
286
9664
7416
164 18 86.5
11 5
0.54505
0.65559
1.72454
722
285
9757
7501
165 83 87.8 ,
11 10
0.50242
0.63267
1.70164
721
284
9850
7586
166 48 39.0 1
11 15
0.45979
0.60976
1.67874
720
283
9943
7672
168 8 40.3 1
11 20
0.41716
0.58685
1.65584
719
282
•036
7757
169 18 41.6
11 25
0.37453
0.56393
1.63294
718
281
0130
7842
170 88 42.9
11 30
0.33189
0.54102
1.61004
717
280
0223
7927
171 48 44.2
11 35
0.28926
0.51811
1.58714
716
279
0316
8013
178 8 45.4
11 40
0.24663
0.49519
1.56424
715
278
0409
8098
174 18 46.7
11 45
0.20400
0.47228
1.54134
714
277
0502
8188
175 88 48.0
11 50
0.16137
0.44937
1.51844
713
276
0594
8268
176 48 49.3
11 55
0.11873
0.42645
1.49553
712
275
0687
8353
178 8 50.6
12 0
0.07610
0.40354
1.47263
711
274
0780
8438
179 18 51.8
12 5
—0.03347
0.38063
1.44973
710
273
0873
8523
180 83 53.1
12 10
4-0.00917
0.35771
1.42683
709
271
0966
8608
181 48 54.4
12 15
0.05180
0.33480
1.40392
708
270
1059
8693
188 3 55.7
12 20
0.09443
0.31189
1.38102
707
269
1152
8778
184 18 56.9
12 25
0.13707
0.28897
1.35811
706
268
1244
8863
185 83 58.2
12 30
0.17970
0.26606
1.33521
705
267
1337
8948
186 48 59.5
12 35
0.22233
0.24315
1.31231
704
266
1430
9033
188 4 0.8
12 40
0.26496
0.22024
1.28940
703
265
1522
9118
189 19 2.1
12 45
0.30760
0.19732
1.26650
702
264
1615
9203
190 34 8.3
12 50
0.35023
0.17441
1.24359
701
263
1708
9288
191 49 4.6
12 55
0.39286
0.15150
1.22069
700
262
1800
9373
193 4 5.9
13 0
0.43549
0.12859
1.19778
699
261
1893
9458
194 19 7.2
13 5
0.47813
0 10568
1.17488
698
260
1986
9542
195 84 8.4
13 10
0.52076
0.08276
1.15197
697
259
2078
9627
196 49 9.7
13 15
0.56339
0.05985
1.12906
696
257
2171
9712
198 4 11.0
13 20
0.60602
0.03694
1.10616
695
256
2263
9797
199 19 12.3
13 25
0.64865
—0.01403
1.08325
694
255
2356
9881
200 34 13.6
13 30
0.69128
-H).00888
1.06034
693
254
2448
9966
201 49 14.8
13 35
0.73392
0.03179
1.03744
692
253
2540
•051
203 4 16.1
13 40
0.77655
0.05471
1.01453
691
252
2633
0136
204 19 17.4
13 45
0.81917
0.07762
0.99162
690
251
2725
0220
205 84 18.7
13 50
0.86180
0.10053
0.96872
689
250
2818
0305
206 49 20.0
13 55
0.90443
0.12344
0.94581
688
249
2910
0389
208 4 21.2
14 0
0.94706
0.14635
0.92290
687
248
3002
0474
209 19 22.5
14 5
0.98969
0.16926
0.89999
686
247
3095
0559
210 84 23.8
14 10
1.03232
0.19216
0.87709
685
246
8187
0643
211 49 25.1 !
14 15
1.07495
0.21507
0.85418
684
244
'3279
0728
218 4 26.4
14 20
1.11757
0.23798
0.83127
683
243
8371
0812
214 19 27.6
14 25
1.16020
0.26089
0.80836
682
242
8463
0897
215 34 28.9
14 30
1.20282
0.28380
0.78546
681
241
8556
0981
216 49 80.2
14 85
1.24545
0.30671
0.76255
680
240
8648
1065
218 4 31.5
14 40
1.28807
0.32961
0.73964
679
239
8740
1150
219 19 32.7 ,
14 45
1.33070
0.35252
0.71673
678
238
8832
1234
220 84 34.0 i
14 50
1.37332
0.37543
0.69383
677
237
8924
1319
221 49 35.3
14 55
1.41594
0.39a33
0.67092
676
286
4016
1403
228 4 86.6 ,
15 0
1.45856
0.42124
0.64801
675
235
4108
1487
224 19 37.9 '
15 5
1.50119
0.44415
0.62510
674
234
4200
1572
225 34 89.1
15 10
-hl.54381
-H).46705
—0.60219
673
233
4292
1656
226 49 40.4 |
ECLIPSES, 1856.
393
FOR SHADOW.
WMhinctoB
MMnTLiM.
B.
o.
Washington
Bleuillme.
B.
G.
h. m
11 45
—1.01809
—0.99552
h m.
12 55
—0.69731
—0.67487
11 50
0.99518
0.97262
13 0
0.67440
0.65197
11 55
0.97227
0.94972
13 5
0.65149
0.62906
12 0
0.94935
0.92682
13 10
0.62858
0.60616
12 5
0.92644
0.90391
13 15
0.60567
0.58325
12 10
0.90353
0.88101
13 20
0.58275
0.56034
12 15
0.88061
0.85811
13 25
0.55984
0.53749 1
12 20
0.85770
0.83520
13 30
0.53693
0.51453
12 25
0.83479
0.81230
13 35
0.51402
0.49162
12 30
0.81187
0.78940
13 40
0.49111
0.46872
12 35
0.78896
0.76649
13 45
0.46820
0.44581
12 40
0.76605
0.74359
13 50
0.44529
0.42290
12 45
0.74314
0.72068
13 55
0.42238
0.39999
12 50
—0.72022
—0.69778
14 0
—0.39947
—0.37709
A, fly log £ and log F are given in the Table for Penumbra, and the values of log G
and log H are obtained from corresponding values for Penumbra by increasing log G
by 0.000095, and decreasing log H by 0.000089.
CHANGES OF THE QUANTITIES IN THE TABLES OF DATA.
VoroottMinato.
Vor one Second. 1
MMannM.
A.
B.
c.
A'.
B'.
c.
h. m.
10 35
+8525.6
-4-4582.6
-h4579.2
-4-142.09
-h76.38
+76.32
10 50
8525.8
4582.6
4579.6
142.10
76.38
76.33
11 5
8526.0
4582.6
4579.8
142.10
76.38
76.33
11 20
8526.2
4582.6
4580.0
142.10
76.38
76.33
11 35
8526.4
4582.6
4580.2
142.11
76.38
76.34
11 50
8526.5
4582.6
4580.4
142.11
76.38
76.34
12 5
8526.6
4582.6
4580.6
142.11
76.38
76.34
12 20
8526.6
4582.6
4580.8
142.11
76.38
76.35
12 35
8526.5
4582.6
4581.0
142.11
76.38
76.35
12 50
8526.4
4582.4
4581.0
142.11
76.37
76.35
13 5
8526.4
4582.4
4581.2
142.11
76.37
76.35
13 20
8526.2
4582.2
4581.4
142.10
76.37
76.36
13 35
8526.0
4582.2
4581.4
142.10
76.37
76.36
13 50
8525.8
4582.0
4581.5
142.10
76.37
76.36
14 5
8525.6
4581.8
4581.5
142.09
76.36
76.36
14 20
8525.2
4581.6
4581.6
142.09
76.36
76.36
14 35
8524.8
4581.4
4581.6
142.08
76.36
76.36
14 50
8524.4
4581.2
4581.6
142.07
76.35
76.36
15 5
-h8524.0
•4-4581.0
4-4581.6
-hl42.07
-4-76.35
-h76.36
n. A Partial Eclipse of the Moon, April 19, 1856, with the following elera
lents : —
d. h. m.
Washington Mean Time of g in Right Ascension, April 19 16 33 3
3.8.
Sun^s Right Ascension 1 53 27.41 Hourly Motion
9.32
Moon's Right Ascension 13 53 27.41 " "
111.65
50
394 ECLIPSES, 1856.
HO
ISO 120 no 100 to 1
0
\ / yi\ y\ \ ^^^Sl Jr^"^^^ \
X X /v ^. \ j5k\ \
/\y X\\K^%. \
10
XX / \ \ /^ \ vU-- — "li
190
/ / X Vi.X \ ^>A^ Y^ \
20
1 /\ai3&^^^P)S^^^
SO
1 / /^^^yfS^ /wX^v \\ JroTi —
40
ISO
">^ / /^ /6v\ /nV V^rw^l
r"^ /T^XfcCWi-
iO
^0>rr%C^^'^?vwT
•0
no
\ ^i^^^^ m ml ^^J^^SB^^t^ 1^^ /^^*^«^^^CvN^ aM\
ro
to 1
Kfi«f MUA. ^^rfl^^^*l
BO
4^^ \JK>
^^TH^X^rt^^^M
to
BO
\\^^JO^m
70
^
\ \ ^-V"^ \^S<: X /Xi/ ATI"
\ V-'^^'^^X V^'^^v^xcX/ ^S^-ife »
n
M
A^clipseV^ \x \/ /^=s^
\ "^ ^""^ \ y\ xV / / if —
\ APRIL «^SC \ x^ X / ^sC^^ A^^
41
SI
^^^^\ xx X^^^^%^
H
220 220 tiO 2S0 260 i:
0
ECLIPSES, 1856.
395
Sun^s Declination
Moon^s Declination
Moon^s Lfongitude
Moon's Latitude
Sun's Equa. Hor. Par.
Moon's Equa. Hor. Par.
+n B8 58.5
—12 15 54.8
210 41 38.8
— 0 34 33.9
8.5
54 33.7
Hourly Motion
True Semidiameter
+ 6 5L1
—13 9.5
30 8.5
— 2 46.4
15 56.8
14 51.1
From these elements may be deduced the following results : —
13
Moon enters Penumbra
Moon enters Shadow
Greatest Eclipse
Moon leares Shadow
Moon leaves Penumbra
7.0 Washington Mean Tune.
14 25.8 " **
15 58.4 " "
17 31.0 " "
18 49.8 " **
First contact of Shadow with Moon's limb 79** from north pomt towards the East
Last contact of Shadow with Moon's limb 25** from north point towards the West
Magnitude of Eclipse = 0.712 (Moon's diameter == 1).
Eclipse visible throughout North and South America and Australia, and in the eastern
part of Asia.
Whole Eclipse visible in Kamtschatka, in the western part of South America, and
diroughout North America except the northeastern extremity.
in. An Annular Eclipse of the Sun, September 28, 1856, mvisible at Washington,
wiA the following elements : —
d. k. m. t.
Washington Mean Time of ^ in Uight Ascension, September 28 9 48 58.6
Sun's and Moon's R.A.
Sun's Declination
Moon's Declination
Moon's Longitude
Moon's Latitude
Sun's Equa. Hor. Par.
Moon's Equa. Hor. Par.
12 22 32.69
— S 26 &.8
—1 28 25.9
185 45 26.3
-f 0 53 15.4
8.6
53 57.9
Hourly Motions
Hourly Motion
True Semidiameter
u u
9.04 and 104.09
— 6 58.5
—14 9.3
29 29.8
— 2 41.4
16 0.9
14 41.6
From these elements may be deduced the following results : —
Eclipse begins on the Earth, September 28*** 8^ 22.3*^, mean time at Washington, in
longitude 212° 34' West of Washington, and latitude 66** 0' North.
Central Eclipse begins, 10^* 12.5"*, in longitude 79** 11' West of Washington, and
latitude 79** 47' North.
Central Eclipse ends, IV- 30.4""', in longitude 8T* 13^ West of Washington, and
latitude 4V 48' North.
Eclipse ends on the Eardi, IZ^ 20.3" , in longitude 112*" 52^ West of Washington,
and latitude 7'' 55' North.
396
ECLIPSES, 1856.
DATA FOR COMPUTING
THE ECLIPSE FOR ANY PLACE, FOR
PENUMBRA.
Wash.
▲•
B.
c
logl.
logF.
logG.
lofH.
/*
h. m.
9.9995
9.9996
-8.6
—8.5
O IS
8 20
—0.65446
+2.01031
+0.87075
27
98
7107
7465
127 26 0.1
8 25
0.61769
1.98992
0.85035
26
98
7128
7491
128 40 1.4
8 30
0.58091
1.96953
0.82995
26
98
7150
7517
129 55 2.8
8 35
0.54413
1.94915
0.80955
25
97
7171
7544
131 10 4.1
8 40
0.50736
1.92876
0.78916
25
97
7192
7570
132 25 5.4
8 45
0.47058
1.90837
0.76876
24
96
7213
7596
133 40 6.8
8 50
0.43381
1.88798
0.74836
24
96
7234
7622
134 55 8.1
8 55
0.39703
1.86759
0.72796
24
96
7255
7649
136 10 9.4
9 0
0.36025
1.84720
0.70756
23
95
7276
7675
137 25 10.8
9 5
0.32348
1.82681
0.68716
23
95
7297
7701
138 40 12.1
9 10
0.28670
1.80642
0.66676
22
95
7318
7727
139 55 13.4
9 15
0.24992
1.78603
0.64636
22
94
7339
7753
141 10 14.8
9 20
0.21314
1.76564
0.62596
21
94
7360
7780
142 25 16.1
9 25
0.17636
1.74524
0.60556
21
93
7381
7806
143 40 17.4
9 30
0.13959
1.72485
0.58515
20
93
7401
7832
144 55 18.8
9 35
0.10281
1.70445
0.56475
20
93
7422
7858
146 10 20.1
9 40
0.06603
1.68406
0.54435
19
92
7443
7884
147 25 21.4
9 45
—0.02925
1.66366
0.52395
19
92
7464
7910
148 40 22.8
9 50
4-0.00753
1.64327
0.50354
18
92
7485
7936
149 55 24.1
9 55
0.04431
1.62287
0.48314
18
91
7506
7962
151 10 25.4
10 0
0.08109
1.60247
0.46274
17
91
7527
7988
152 25 26.8
10 5
0.11787
1.58207
0.44233
17
90
7548
8014
153 40 28.1
10 10
0.15465
1.56167
0.42193
17
90
7569
8040
154 55 29.4
10 15
0.19143
1.54128
0.40152
16
90
7589
8066
156 10 30.8
10 20
0.22820
1.52088
0.38112
16
89
7610
8092
157 25 32.1
10 25
0.26498
1.50048
0.36071
15
89
7631
8118
158 40 33.4
10 30
0.30176
1.48007
0.34031
15
89
7652
8144
159 55 34.8
10 35
0.33854
1.45967
0.31990
14
88
7673
8170
161 10 36.1
10 40
0.37532
1.43927
0.29950
14
88
7694
8196
162 25 37.4
10 45
0.41210
1.41887
0.27909
13
87
7714
8222
163 40 38.8
10 50
0.44888
1.39847
0.25868
13
87
7735
8248
164 55 40.1
10 55
0.48566
1.37806
0.23828
12
87
7756
8273
166 10 41.4
11 0
0.52244
1.35766
0.21787
12
86
7777
8299
167 25 42.8
11 5
0.55922
1.33726
0.19746
11
86
7797
8325
168 40 44.1
11 10
0.59599
1.31685
0.17706
11
86
7818
8351
169 55 45.4
11 15
0.63277
1.29645
0.15665
10
85
7839
8377
171 10 46.8
11 20
0.66955
1.27604
0.13624
10
85
7860
8402
172 25 48.1
11 25
0.70633
1.25564
0.11584
10
84
7880
8428
173 40 49.4
11 30
0.74311
1.23523
0.09543
09
84
7901
8454
174 55 50.8
11 35
0.77988
1.21482
0.07502
09
84
7922
8480
176 10 52.1
11 40
0.81666
1.19442
0.05461
08
83
7942
8505
177 25 53.4
11 45
0.85344
1.17401
0.03421
08
83
7963
8531
178 40 54.8
11 50
0.89022
1.15360
+0.01380
07
83
7984
8557
179 55 56.1
11 55
0.92699
1.13319
—0.00661
07
82
8004
8582
181 10 57.4
12 0
0.96377
1.11279
0.02702
06
82
8025
JB608
182 25 58.8
12 5
1.00054
1.09238
0.04743
06
81
8046
8634
183 41 0.1
12 10
1.03732
1.07197
0.06783
05
81
8066
8659
184 56 1.4
12 15
1.07409
1.05156
0.08824
05
81
8087
8685
186 11 2.8
12 20
1.11087
1.03115
0.10865
04
80
8107
8710
187 26 4.1
12 25
1.14764
1.01074
0.12906
04
80
8128
8736
188 41 5.4
12 30
1.18442
0.99033
0.14947
03
79
8149
8762
189 56 6.7
12 35
1.22119
0.96992
0.16987
03
79
8169
8787
191 11 8.1
12 40
1.25796
0.94951
0.19028
02
79
8190
8813
192 26 9.4
12 45
1.29473
0.92910
0.21069
02
78
8210
8838
193 41 10.7
12 50
1.33151
0.90869
0.23110
01
78
8231
8864
194 56 12.1
12 55
-M.36828
4-0.88828
—0.25151
01
78
8251
8889
196 11 13.4
ECLIPSES, 1856.
397
DATA :
FOR COMPUTING THE ECLIPSE FOR ANY PLACE, FOR PENUMBRA.
Wash.
M.Time.
h. m.
A.
B.
c.
logK 1 log P.
9.9995|9.9996
logo.
logH.
" 1
—8.6
—8.5
.
13 0
4-1.40505
-4-0.86787
—0.27191
00
77
8272
8915
197 2b 14.7
13 5
1.44182
0.84746
0,29232
00
77
8292
8940
198 41 16.1
13 10
1.47859
0.82704
0.31273
•0
76
8313
8965
199 56 17.4
13 15
1.51536
0.80663
0.33314
99
76
8333
8991
201 11 18.7
13 20
1.55213
0.78622
0.35355
99
76
8354
9016
202 26 20.1
13 25
-4-1.58889
-1-0.76581
—0.37395
98
75
8374
9042
203 41 21.4
FOR SHADOW.
1
1
Washingtoa
Mean lime.
B.
c.
WashiofftOD
Mean Time.
B.
.. 1
h. m.
h. m.
10 0
-+- 1.05649
-4-1.00872
10 50
-4-0.85248
4-0.80467
10 5
1.03609
0.98832
10 55
0.83208
0.78426
10 10
1.01569
0.96791
11 0
0.81168
0.76386
10 15
0.99529
0.94751
11 5
0.79127
0.74345
10 20
0.97489
0.92710
11 10
0.77087
0.72304
10 26
0.95449
0.90670
11 15
0.75046
0.70263
10 30
0.93409
0.88629
11 20
0.73006
0.68223
10 35
0.91369
0.86589
11 25
0.70965
• 0.66182
10 40
0.89329
0.84548
11 30
0.68925
0.64141
10 45
0.87288
0.82507
11 35
0.66884
0.62101
10 50
-hO.85248
-^0.80467
11 40
-hO.64843
H-0.60060
A, /i, log
; E and log F are given in the Table for Penumbra, and the values of log G 1
and log H for Shadow are obtained from corresponding values for Penumbra by de- |
1 creasing lo
g G by 0.00021, and increasing log H by 0.00026.
CHANGES OF THE QUANTITIES IN THE TABLES OF DATA.
For one Minate.
For one Second. 1
Mean lime.
A.
B.
c.
A'.
B.
c.
h. m.
8 20
-t-7355.0
—4077.0
—4079.4
-4-122.58
—67.95
—67.99
8 35
7355.2
4077.6
4079.6
122.59
67.96
67.99
8 50
7355.4
4077.8
4079.8
122.59
67.96
68.00
9 5
7355.4
4078.4
4080.2
122.59
67.97
68.00
9 20
7355.6
4078.6
4080.4
122.59
67.98
68.01
9 35
7355.8
4079.0
4080.6
122.60
67.98
68.01
9 50
7355.8
4079.4
4080.8
122.60
67.99
68.01
10 5
7355.8
4079,8
4081.0
122.60
68.00
68.02
10 20
7356.0
4080.0
4081.0
122.60
68.00
68.02
10 35
7355.8
4080.4
4081.2
122.60
68.01
68.02
10 50
7355.8
4080.6
4081.2
122.60
68.01
68.02
11 5
7355.6
4081.0
4081.4
122,59
68.02
68.02
11 20
7355.6
4081.0
4081.4
122.59
68.02
68.02
11 35
7355.4
4081.4
4081.4
122,59
68.02
68.02
11 50
7355.2
4081.6
4081.6
122.59
68.03
68.03
12 5
7355.0
4081.8
4081.6
122.58
68.03
68.03
12 20
7354.8
4082.0
4081.6
122.58
68.03
68,03
12 35
7354.6
4082.0
4081.6
122.58
68.03
68.03
12 50
7354.2
4082.2
4081.6
122.57
68.04
68.03
13 5
7354.0
4082.4
4081.6
122.57
68.04
68.03
13 20
-1-7353.6
—4082.4
—4081.6
-hl22.56
—68.04
—68.03
398
ECLIPSES, 1856.
•0 M
MO UO 120
— ,
^
i
%
^
/
\
^
^
/
/ — i
i
w '
fi
Vi
ft
«
\*»
*0
j«0
^\^A-^r^
m
0
1
l#
IM
I
4
nV JUkT^
VV^
^^f^" £CLIPSb\
v/\ y SEPT. £8.1866. ^y.
^
-
/
^ V'^tdS Jg N. /
\
«»
290 210 270 200
m 240 m CM
__
ECLIPSES, 1856.
399
IV. A Partial Eclipse of the Moon, Oct. 13, 1856, with the following elements: —
d. h. m. 1.
Washington Mean Time of ; in Right Ascension, Oct 13 6 12 16.6.
Hourly Motion
Sun^s Right Ascension
Moon^s Right Ascension
Sun^s Declination
Moon^s Declination
Moon^s Longitude^
Moon^s Latitude
Sun^s Equa. Hor. Pkir.
Moon's Equa. Hor. Par.
h. m. 1.
13 16 52.66
1 16 52.66
o L •
— 8 7 49.2
+ 8 41 13.4
21 1 2.2
+ 0 30 56.3
8.6
61 26.2
Hourly Motion
44 CC
True Semidiameter
ftC u
9.28
187.45
— 0 55.9
+17 34.4
38 5.2
+ 3 30.7
16 5.0
16 44.3
From these elements may be deduced the following results : —
h m
Moon enters Penumbra 3 15.8 Washington Mean Time.
Moon enters Shadow 4 12.9 '' *^
Greatest Eclipse 5 46.2 " **
Moon leaves Shadow 7 19.5 " "
Moon leaves Penumbra 8 16.6 '' *^
First contact of Shadow with Moon's limb 9V from north point towards the East
Last contact of Shadow with Moon's limb 145° from north point towards the West.
Magnitude of Eclipse = 0.998 (Moon's diameter = 1).
Eclipse visible throughout Europe, Africa, and the greater part of Asia, on the western
coast of Australia, throughout South and Central America, in the eastern part of Mexico,
most of the United States, and the Canadas.
Whole Eclipse visible throughout Europe and Africa, in the western part of Asia,
and on the eastern coast of South America.
400
OCCULTATIONS, 1856.
ELEMENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS OF
PLANETS Aim STARS BY THE MOON, FOR THE YEAR 1856. 1
1
LfmitiDg
PusUeli.
Wadi-
Time<rf
6'
At Waahlnftom Umn Tfaae of Ooqjimeliaa. |
D»to.
Star'! Name.
1
North-
cm.
Soath-
•m.
H
Y
P"
q"
^%
JS'^
Jan. 0
A Virjpnis
6
o
4-81
o
4-40
h. m.
21 52.1
h. m. •.
4- 3 8 36
4-1.3446
0.4925
—.2490
—9.2140
9J9941
1
m Virginis
B.A.C. 4591
6
—23
—90
2 35.4
4- 7 43 57
—1.1574
.4976
—.2471
—9.1422
.9958
1
3
0
—90
5 35.3
4-10 88 49
—0.7955
.4989
—.2456
—9.1935
il946
I
;i YlmniB
B A.C. 4896
—15
—90
22 17.9
4- 2 52 24
—1.0016
.5111
—.2330
-9.3422
.9892
2
6
4-58
—23
14 29.1
— 5 25 53
-H)^965
.5216
—.2160
—9.4706
-9802
3
(1 Libra
4
4-51
—28
0 21.1
4- 4 7 14
4-0.3045
.5309
—.2028
—9.5179
S750
3
t« Libra
6
4-37
—41
0 52.4
4-4 37 30
4-0.0447
.5331
—.2014
—93148
.9754
3
aScorpu
2
0
—83
22 6.4
4- 1 8 16
—0.5776
.5568
—.1644
—9.5774
J9666
4
BA.C. 5335
6
4-42
—31
0 35.4
4- 3 32 2
-H).2378
.5554
—.1602
—9.5957
.9633
4
B.A.C. 5354
6
4-37
-35
1 43.3
4- 4 37 28
-H).1510
.5565
—.1580
—93973
.9631
4
19 Scorpu
a Scorpii
3
4-23
—49
6 47 A
4- 9 80 33
— Oi>937
.5624
—.1472
—96062
^613
4
4-65
4-37
6 58.6
4- 9 41 23
4-1^21
.5582
—.1450
—9.6299
.9564
4
Q Ophiochi
5
—54
—90
8 68.7
4-n 32 13
—1.2809
.5709
—.1405
-93939
3636 '
4
22 Scorpii
5
4-46
—24
10 47.3
—10 38 23
4-0.3516
.5646
—.1380
—9.6226
.9580
4
25 Scorpii
6
4-22
-47
17 38.9
— 4 2 14
.5732
—.1209
—9.6303
3563
4
18 Ophinchi
BJlC. 5709
6
—39
—90
18 50.7
— 2 53 9
—1.1200
.5786
—.1183
—9.6158
.9594
4
6
—48
—90
22 57.8
4- 1 4 28
—1.2023
.5843
—.1052
—9.6239
3577
5
A Ophiuchi
5
4-11
—57
5 5.2
4- 6 57 30
—0.2196
.5848
— X)884
—9.6477
.9523
5
43 Ophiuchi
BA.C.5909
6
4-62
4-38
8 9.5
4- 9 54 34
4-1.2020
.5799
—.0800
—9.6716
3459
5
H
—27
—90
11 27.6
—10 55 15
-0.8857
.5929
—.0712
—9.6444
3530
5
3 Sagittarii
5
4-39
—23
17 32.7
— 6 4 57
4-0.3727
.5905
—.0530
—9.6684
3469
9
» Capricor.
H
4-44
—82
9 22.3
4- 7 8 34
4-0.2123
.5736
4-.2088
—93364
3727
9
X Capricor.
5
4-39
—38
11 39.8
4- 9 20 52
4-0.1096
.5727
-h.2129
—93240
.9743
9
29 Aqaarii
6
4^0
—39
19 67.4
4- 9 15 58
4-0.0845
.5645
4-.2295
—9 4819
3791
10
50 Aqaarii
6
—43
—90
5 23.0
4- 2 24 49
—1.3119
.6607
4-.2439
—9.3915
3864
10
B.A.C. 7835
^
—45
—90
7 48.0
4- 4 44 37
—1.3262
• .5598
4-.2468
—93730
3876
10
56 Aqaarii
6
4-72
—12
7 64.1
4- 4 61 32
4-0.6095
.5539
4-.2476
—9 4221
.9S43I
10
70 Aqaarii
6
—46
—90
15 55.9
—11 24 44
—1.3539
.5629
4-.2582
—9.2928
3915 f
10
74 Aqoarii
6
4-55
—29
18 8.1
— 9 17 7
4-0.2797
.5480
4-.2602
—93313
3898!
11
V* Aqoarii
H
4-67
—21
4 13.4
4- 0 27 20
-H).4484
.5415
4-.2695
—9.2342
3935
ii
/ Aqaarii
.1
—16
—90
4 41.7
-^ 0 54 41
—1.0541
.5437
4-.2696
—9.1703
3952
11
1//* Aqaarii
4-70
— 2
5 10.1
4- 1 22 6
4-0.7994
.5403
-^.2701
—9.2384
.9934
11
V^ Aqoarii
5
-H80
4-42
5 36.6
4- 1 47 43
4-1^571
.5396
4-.2702
—9.2565
3928
11
24 Pisciom
H
4- 4
—90
21 23.3
— 6 57 10
—0.7625
.5346
4-.2780
—83387
3990
12
27 Pisciom
5
4-66
—24
0 5.0
— 4 20 41
4-0.3966
.5322
4-.2796
—8.8806
.9987
12
29 Pisciom
H
4-59
—29
1 34.4
— 2 54 12
4-0.2805
.5325
4-.2798
—8-8248
93990
12
10 Celi
6
4-79
—14
13 19.5
4- 8 28 3
4-0.5764
.5289
4-.2804
—8.1704
0.0000
13
73 Pisciom
H
4-37
—50
7 36.3
-^ 2 9 40
—0.1293
.5267
4-.2752
4-8.9300
93984
13
77 Pisciom jir.
7
4-90
— 4
8 3.9
4- 2 36 21
4-0.7501
.6276
4-.2747
4-83584
.9989
13
e Pisciom
H
4-63
—26
9 18.1
4- 3 48 13
4-0.3320
.5272
4-.2742
4-8.9304
3984
13
C Pisciom
6
— 6
—83
11 49.5
4- 6 14 42
—0.9361
.5258
4-^731
4-9.0742
3969
13
88 Pisciom
H
4^
—55
12 18.6
4- 6 42 51
—0.2151
.5270
4-.2725
4-9.0357
3974
14
54Ceti
6
4-54
—32
5 30.9
— 0 37 56
-H).1863
.5298
4-.2588
-1-9.2536
.9929
15
29 Arietis
H
4-90
4- 8
1 10.2
— 6 37 15
4-0.8766
^s^9
4-.2348
4-93956
.9862.
15
40ArieU8
6^
— 4
—72
8 16.6
4- 1 14 53
—0.8794
.5360
4-^2243
-4-9.4825
.9790'
1
16
n Arietis
H
4^7
—34
8 40.5
4- 1 38 6
4-0.0511
5386
4-.2244
-^9.4626
.9809
15
(I* Arietis
6
4^
—47
11 38.3
4- 4 29 51
—0.2070
.5390
4-.2196
4-9.4840
3788
15
^Arieris
6
4-52
—28
11 54.5
4- 4 45 30
4-0.1464
.5409
4-.2179
4-9.4772
3795
15
54 ArietU
Jt
4-75
—10
17 19.0
4- 9 69 1
4-0.4987
.5440
4-.2094
4-9.4956
.9776
15
aArietU
4-35
—44
18 46.0
4-11 22 12
—0.1752
.6423
4-.2077
4-93166
3752
15
C Arietis
^i
—36
—70
20 13 7
—11 12 10
—1.2563
.5398
4-.2041
4-9.5445
3715
15
B.A.C. 1032
4
4-34
—43
22 54Ji
— 8 36 55
—0.1725
.5449
4-.1990
4-9.5338
.9730
15
T> Arietis
5
0
—69
23 3.4
— 8 27 18
—0.8081
.5428
4-J990
4-93469
.9712 ;
15
T» Arietis
6
4-30
—47
23 45.3
— 7 47 49
—0.2524
.5441
4-.1985
4-9.5387
3723
16
65 Arietis
6
4-341—42
0 49.6
— 6 45 0
—0.1755
0.5444
4-.1967
4-9.5401
93722 '
OCCULTATIONS, 1866.
401
ELEMENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STARS BY THE MOON, FOR '
FHE YEAR 1856.
i
}
Limiting
Pumllels.
Wanh-
TtiMOi
IMe.
Star's Name.
North-
em.
Soath-
«m
H
Y
P'
q'
i£^
JS?X,
JaB.16
19 Pleiadum
8
o
—48
o
—67
h. m.
10 34.1
h. m. s.
+ 2 38 25
—1.3286
0.5455
+.1768
+9..'5952
9.9634
25 Pleiadnm
H
-39
—67
10 41.3
+ 2 45 18
— 1.2785
.5457
+.1760
+9.5947
.9635
26 Pleiadum
9
—29
—67
10 43.9
+ 2 47 54
—1.2001
.5459
+.1758
+9.5936
.9637
28 Pleiadum
7
—14
—67
11 0.5
+ 3 3 53
—1.0062
.5473
+.1746
+9.5912
.9641
34 Pleiadum
n
—35
—67
11 36.8
+ 3 38 53
—1.2269
.5463
+.1745
+9.5967
.9632
B.AC. 1189
7
-1-64
-14
11 44.0
+ 3 45 50
+0.3280
.5521
+ 1743
+9.5699
.9678
32 Tanri
6
-4-83
— 1
14 42.7
+ 6 38 11
+0.5759
.5543
+.1682
+9.5747
.9670
33 Tauri
6
H-36
—37
14 50.1
+ 6 45 24
—0.1384
.5516
+.1682
+9.5875
.9648
36 Tanri
3
-MO
—63
17 59.0
+ 9 47 32
—0.6215
.5521
+.1593
+9.6044
.9617
jT Tanri
-84
—65
1 58.0
— 6 40 19
—1.1023
.6627
+.1432
+9.6306
.9563
il Tanri
6
+90
+55
16 55.8
+ 7 53 54
+1.2573
US692
+.1034
+9 6231
.9579
136 Tanri
5
-+^7
—16
15 54.2
+ 6 1 41
+0.0419
.5680
+.0412
+9.6655
.9477
•19
49 AnrigflB
H
4-80
—38
9 21.0
— 1 10 27
—0.4150
.5653
—.0061
+9.6735
.9454
54 AurieflB
47 Qemmor.
6
-M4
—46
11 10.1
+ 0 34 34
—0.5273
.5635
—.0117
+9.6771
.9444
ao
6
-1-75
+ 6
0 39.9
—10 25 22
-H).4688
.5648
—.0470
+9.6584
.9496
20
53 Geminor.
6
— 1
—62
2 35.0
— 8 34 27
—0.7654
J1578
—.0525
+9.6736
.9453
80
1 Geminor.
4
—13
—62
6 47.5
— 4 31 8
—0.9432
.5555
—.0616
+9.6728
.9456
SO
6« Geminor.
H
—38
—62
8 32.6
— 2 49 49
—1.1992
.5534
—.0679
H-9.6746
.9451
80
BAG. 2472
6
—42
—62
8 54.5
— 2 28 39
—1.2263
.5525
-.0704
+9.6746
.9451
80
V Geminor.
5
+26
—38
11 13.0
— 0 15 9
—0.3123
.5559
—.0756
+9.6602
.9490
20
e Geminor.
6
+85
+ 8
14 48.9
+ 3 13 4
+0.5801
.5588
—.0832
+9.6438
.9532
20
if Geminor.
5
—10
—64
18 54.4
+ 7 9 54
—0.9202
JM91
—.0954
+9.6590
.9494
20
oi^ Cancri
6
+60
—11
22 13.8
+10 22 20
+0.2583
.5524
—.1026
+9.6385
.9545
20
w'Cancri
3
+82
+ 4
22 35.8
+10 43 31
+0.5492
.5538
—.1026
+9.6337
.9555
21
V^> Cancri
+ 4
—64
2 120
— 9 48 5
—0.7076
.5461
—.1118
+9.6460
.9527
21
V« Cancri
4
+23
—44
2 29.0
— 9 31 22
—0.3687
.5473
—.1118
+9.6410
.9538
21
A Cancri
6
+90
+10
6 53.9
— 5 15 53
+0.6940
.5482
—.1230
+9.6173
.9591
21
i;* Cancri
6
+41
—29
12 4.5
— 0 15 28
-^.0444
.5419
—.1339
+9.6188
.9588
22
1 Cancri
5
+10
—64
5 54.3
— 7 0 54
—0.6212
.5268
—.1688
+9.5852
.9652
22
79 Cancri
6
+ 8
—65
6 22.8
— 6 33 19
-^.6504
.5272
—.1688
+9.5843
.9654
22
BA.C. 3138
6
+36
—39
7 57.7
— 5 1 25
—0.1507
.5274
—.1723
+9.5712
.9676
23
ijLeonii
H
+17
—64
11 0.6
— 2 48 11
—0.5037
.6077
—.2116
+9.4772
.9795
23
42LeoniB
6^
+32
—49
18 41.4
+ 4 39 15
—0.2154
i>046
—.2196
+9.4323
.9835
23
BA,C. 3579
6
+26
—57
22 21.9
+ 8 13 25
—0.3417
.5041
—.2239
+9.4151
.9848
24
t Leonifl
6
+17
—68
0 10.5
+ 9 58 52
— OJi236
.5012
—.2258
+9.4094
.9852
24
IJjtoniB
5
+90
+38
9 26.2
— 512
+1.2942
.5008
—.2339
+9.2923
.9915
25
B.A.C. 3996
6
—12
—84
19 1.3
+ 3 39 26
—1.0342
.4833
—.2528
+9/)187
.9976
26
6 VirginiB
6
+ 3
—75
1 47.3
+10 15 47
—0.7927
.4825
—.2545
+8.8903
.9987
26
10 Virginia
6
+24
-66
6 48.0
— 8 52 27
—0.3831
^22
—.2555
+8.6738
9.9995
26
13 Virginia
6
+90
-1-31
11 57.8
— 3 50 50
+1.2823
.4821
—.2561
+6.2985
0.0000
26
ti Virginia
ii
+90
+ 7
12 40.5
— 3 9 12
+0.9654
.4821
—.2562
+7.8632
0.0000
27
Y Virginia
—41
—90
1 12.7
+ 9 3 11
—1.3677
.4828
—.2560
—8.0609
0.0000
27
38 Virginia
k Virginia
6
-♦- 7
—90
7 45.3
— 8 34 36
— O.7058
.4835
—.2551
—8.6843
9.9995
27
6
—39
—90
11 25.0
— 5 0 39
—1.3465
.4849
—.2543
—8.7238
.9994
27
6 Virginia
H
— 4
—90
17 14.1
+ 0 39 9
—0.9032
.4864
—.2527
—8.9200
.9985
28
k Vireinia
B.A.C. 4591
6
+81
+10
6 4.0
—10 51 49
+1.0090
.4890
—.2474
—9.2141
.9941
28
.1
—51
—90
13 53.7
— 3 15 0
—1.3912
.4961
—.2429
—9.1936
.9946
29
I Vireinia
B.A.C. 4896
—46
—90
6 53.6
—10 44 0
—1.3421
.5069
—.2297
—9.3424
.9892
89
6
+30
—52
23 24.8
+ 5 17 40
-^.1361
.4994
—.2126
—9.4707
.9802
80
t* Libra
H
+35
—44
9 28.1
— 8 57 50
+0.0080
.5244
—.1992
—9.5180
.9750
80
I'Librte
^i
+21
—59
10 0.5
— 8 26 28
—0.2540
.5266
—.1978
—9.5148
.9754
31
B.A.C. 5254
6
+67
+18
4 48.4
+ 9 44 17
+1.0505
.5383
—.1677
—9.6015
.9622
31
d Scorpii
H
—15
—90
7 42.5
—11 27 36
—0.8453
JM84
—.1610
—9.5775
.9665
31
B.A.C. 5335
d
+20
—54
10 15.0
— 9 0 24
—0.1792
.5492
—.1564
—9.5957
.96Sa
31
B.A.C. 5354
4
+16
—60
11 24.1
— 7 53 41
-0.2618
0.5507
—.1544
—9 5973
9.9631
51
402
OCCULTATIONS, 1856.
ELEMENTS FOR FACILITATING THE CALCULATION
OF 0CCULTATI0N8
OF
PLANETS AND STABS BY THE MOON, FOB THE YEAB 1856.
1
LimitSng
ParmUels.
Wanh-
ington
Date.
Star'! Name.
Time of
6'
North-
cm.
South-
ern.
H
Y
P"
q'
J^
i-.j
J«.81
19 Scorpii
a Scorpii
8
0
-♦- 3
0
—76
h. m.
16 34.8
h. m. s.
— 3 53 68
—0.4896
0.6681
—.1486
—9.6063
9.9613 !
31
+65
4-U
16 46.3
— 3 43 63
4-0.9906
.6499
—.1481
—9.6396
.9564 i
31
22ScorpU
5
+25
—45
20 39.8
4- 0 68 16
— 0X)313
^582
—.1843
—9.6336
.9580
I*^ 1
25 Scorpii
6
-♦- 4
—70
3 39.9
4- 7 43 68
—0.4049
^67
—.1175
-9.6308
.9663
1
B.A.C. 6800
6i
4-24
—41
14 49.9
4- 0 37 30
4-0i)461
^745
—.0889
—9.6643
350« {
1
1
A Ophinchi
5
0
—71
15 19.3
— 6 4 11
—0.4173
A784
—.0862
—9.6478
3533
1
38 Ophiachi
H
0
—70
16 13.6
— 4 13 1
—0.4100
J1790
—.0834
-9.6490
3619
1
43 Ophiochi
B.A.C. 6909
6
4-62
4-17
18 26.9
— 3 8 63
4-lX)000
A737
—.0778
—9.6716
3459
1
^
—46
—90
21 46.3
4- 1 11 S3
—1.1450
.5862
— X)693
—9.6444
3530
2
3SagUtarii
5
4-26
—35
3 59.0
4- 7 9 30
4-0a646
.6860
—.0486
—93684
3469
3
B.A.C. 6024
6
—17
—90
5 5.3
4- 8 13 9
—0.6816
J»905
— i)455
—93673
.9498
2
B.A.C. 6063
6
4-32
—28
7 31.0
4-10 83 69
4-0.3733
.6871
—.0394
-93733
3458
2
B.A.C. 6072
6
4-61
4-14
8 14.9
4-11 15 4
4-0.9598
.6839
—.0363
—9.6819
3439
2
B AC. 6120
6
4-51
—10
11 23X)
— 9 44 38
4-0.6864
.6876
—.0370
—93788
3440
2
B.A.C. 6127
5
4-50
—11
11 61.8
— 9 If 60
4-0.6715
.6886
— i)339
—93783
3440
2
B.A.C. 6190
6
4-61
— 1
15 25,7
— 6 61 43
4-0.7333
.5891
— i)144
—9.6814
3431
2
B.A.C. 6191
6
4-35
—24
15 25.9
— 6 61 38
4-0.8573
.6912
—mu
—8.6763
3446
2
B.A.C.-6194
5
—33
—90
15 43.5
— 6 84 36
-^.9107
.5973
—.0143
—9.6584
3495
2
B.A.C. 6220
6
4-44
—15
17 11.1
— 4 60 34
-H)3064
.6914
— XKWO
—93786
.9439
3
y Sagittarii
3
—28
—90
3 9.0
4-4 34 58
—0.8856
.6024
4-i)313
—93591
3496
3
r Sagittarii
H
4-29
—33
10 6.6
—11 67 32
4-0.1983
.6984
4-i)476
—9.6698
3464
3
B.A.C. 6628
6
4-62
4- 5
16 39.8
— 6 40 40
-4-0.8381
.6954
-^.0676
—93736
3454
3
BJV.C. 6666
6
H-32
-38
18 41^
— 8 44 24
4-0.1134
.6994
4-.0738
—9.6611
3488
4
« Sagittarii
H
4-45
—22
4 34.8
-^ 6 84 47
4-0.3960
.6968
4-.1060
—93533
3611
4
A Sagittarii
5
4-48
—22
5 35.8
4- 8 42 60
-H)^175
J966
-^.1436
—9.6508
3616
7
74 Aqnarii
6
4-62
—23
3 35.7
4- 1 48 49
4^4000
.6671
4-.3666
—93318
3898
7
tf/^ Aqaarii
4
4-78
—11
13 30.7
4-11 33 86
4-0.6302
.6508
4-.3765
—9.3349
.9935
7
/ Aqaarii
5
4- 1
—90
13 47.9
4-11 48 63
— OJ250
.6630
H-.3765
—9.1708
3963
7
y/* Aquarii
4
4-80
4- 8
14 15.5
—11 44 38
4-0.9779
.6498
4-^778
—9.3384
3984
8
24Pisciam
6
4-17
—76
5 66.1
4- 8 34 83
—0.6214
.6441
4-.3861
—83387
3990
8
27 Piscium
5
4-82
—13
8 31.8
4- 6 68 68
4-0.6229
.6426
4-.386«
—83806
3987
8
29 Piscinm
H
4-74
—18
9 58.5
4- 7 17 44
4-0.5125
.6420
-^.3870
—83347
3990
9
44 Piscium
6
4-89
H-10
30 45.6
— 6 16 69
-M.0148
.5390
4-.3874
-83000
93999
9
lOCcti
6
— 18
—89
31 19.9
— 6 44 39
—1.1207
.5388
4-.3874
4-8.1706
OjOOOO
9
BJI.C. 274
«i
—35
—84
13 38.4
4- 9 14 1
— 1J216
.6849
4-.3834
4-8.9078
93978
9
73 Pisciam
«i
4-52
—35
14 58.9
-f-11 18 56
4-0.1560
.6360
4-.3806
4-8.9800
3984
9
77Pi8ciaiii/>r.
7
4.90
4-12
15 25.4
4-U 49 32
4-1.0219
3368
4-.3806
4-83583
3989
9
e Pisciam
*i
4-83
—12
16 37.2
—11 5 1
4-0.6105
.6363
4-.3803
-^8.9304
3984
9
C Pi«-iam
6
4-12
—81
19 3.6
— 8 43 32
—0.6331
.6351
4-^780
4-9.0743
3969
9
88 Pisciam
H
4-48
—39
19 81.7
— 8 16 30
4-0.0770
.6859
4-.3780
-f-93867
3974
.9939
10
54Ceti
6
4-73' —16
13 13.8
4- 7 61 80
4-04848
J676
4-.3635
4-93635
11
29 Arietif
^
4-90 4-28
7 31.9
4- 3 31 64
4-1.1695
JM39
4-.3374
4-93966
3861
11
40 Arietis
6
4-U —68
14 31.4
^ f 7 10 — 0.5713
.6415
4- 3961 14-9.4836
3790
11
n Arietii
H
4-65
-19
14 43.0
4- 9 37 68 4-0.8501
.5440
4-.3361 14-94636
.9809
11
(>'Arietii
•
4^9
—31
17 37.1
-11 48 66' 4-0.0933
1
.6427
4-.3361 14-94841
1
3788 j
11
e»Arictit
6
4-71
—13
17 53.0
-11 38 33' 4-0.4436
6444
4-.3193: 4-94773
3795
11
54 Arietis
6
4-90
4- 6
33 13.0
— 6 30 33 -4-0.7893
.6487 4-.210ll-^9.495«
3776!
13
a Arietis
4;
4-50
—39
0 37.6
— 4 57 63 4-0.1909
.5480; 4-.2084 4-9J167
3768
12
C ArietU
4
— 9
—69
3 3.9
— 8 84 85
-0.9539
6441 4-.3045 14-9.5445
.9715
12
BA.C. 1032
6
4-51
—34
4 43.1
— 1 1 66
4-0.1199
3481
4-.3006 -f-93SS8
3730
12
T> Arietis
5
4-17
—61
4 509
— 0 53 35
-4).5109
3459
4-J006' 4-93468
3719
12
T* Arietis
6
4-46; —31
6 83^
— 0 13 33' -<-0.0397
3483 4-.1987 4-93387
3733-
12
65 Arietis
6
4-51 1 —27
6 168
4- 0 98 63 -<-0.ll57
3490; 4-.1966 4-93401
3738
12
B.A.C. 1155
7
4-10 —66
16 84.4
4- 9 37 36 —0.6409
.5494 4-.I953; 4-93864
3650
1 12
14 Pleiadom
9
-29! -65
16 8.1
4- 9 69 61 —1.1817
0.6478 4-.1 806 14-96976
9.9630
OCCULTATIONS, 1866.
403
ELEMENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STARS BY THE MOON, FOR '
IHE YEAR 1856.
1
Limiting
PanlleU.
Waah-
ington
At Washington Mean Time of Conjunction.
Date.
Star's Name.
Time of
6^
North-
em.
Soath.
em.
H
•Y
P'
q'
J£%
oosD
Feb. 12
16 Pleiadnm
H
o
—34
o
—65
h. m.
16 11.2
h. m. s.
+10 2 50
—1.2263
0.5475
+.1794
+9.5985
9.9628
12
17 Pleiadmn
8
—24
—65
16 11.7
+ 10 3 24
—1.1298
.5460
+.1791
+9.5968
.9631
12
19 Pleiadmn
8
—16
—66
16 13.0
+10 4 38
—1.0837
.5484
+.1788
+9.5952
.9634
12
22 Pleiadnm
8
—50
—65
16 14.3
+ 10 5 54
—1.3216
J5474
+.1788
+9.6002
.9625
12
28 Pleiadam
8*
—19
—65
16 15.7
+10 7 16
—1.0695
.5484
+.1780
+9.5960
.9633
12
25 Pleiadnm
H
—13
—65
16 20.7
+10 12 4
—0.9863
MSB
+.1768
+9.5948
.9635
12
26 Pleiadnm
9
— 8
—65
16 22.7
+ 10 13 58
—0.9101
.5492
+.1755
+9.5937
.9637
12
28 Pleiadnm
7
-H 4
-67
16 39.1
+10 29 49
—0.7199
.5499
+.1748
+9.5912
.9641
12
8 Pleiadnm
8
—26
—65
16 54.5
+ 10 44 36
—1.1484
.5484
+J746
+9.5992
.9627
12
30 Pleiadam
—27
—65
17 1.2
+10 51 5
—1.1604
.5483
+.1743
+9.5997
.9626
12
34 Pleiadnm
n
—10
—65
17 15.0
+ 7 4 24
—0.9401
.5492
+.1739
+9.5967
.9632
12
38 Pleiadnm
8
—19
—65
17 21.1
+11 10 18
—1.0656
.5485
+.1736
+9.5991
.9627
12
B.A.C. 1189
7
-1-85
0
17 22.1
+11 11 15
+0.6059
JJ550
+.1734
+9.5699
.9678
12
40 Pleiadnm
7J
—24
—67
17 44.5
+11 33 53
—1.1212
.5482
+.1727
+9.6012
.9623
12
32Tanri
6
-1-90
+15
20 21.8
— 9 55 29
+0.8486
.5569
+.1667
+9.5747
.9670
12
33Tanri
6
-1-50
—24
20 26.2
— 9 51 9
-0.1520
.5542
+.1667
+9.5875
.9648
12
36 Tanri
H
-H25
—47
23 33.9
— 6 50 11
—0.3447
.5534
+.1563
+9.6044
.9617
13
/Tanri
5
— 3
—65
7 19.8
+ 0 38 55
—0.8322
.5540
+.1409
+9.6306
.9563
U
B.A.C. 1648
6
— 2
—62
7 55.3
+ 0 20 20
—0.7989
.5592
+i)763
+9.6689
.9467
14
B.A.C. 1746
6|
H-38
—25
14 11.3
+ 6 22 22
—0.1109
.5634
+i)600
+9.6654
.9477
14
136 Tanri
5
-1-59
— 5
21 28.0
—10 37 7
+0.2478
.5653
+X)408
+9.6655
.9476
14
B.A.C. 1882
6^
—29
—61
22 46.9
— 9 21 8
—1.1311
.5585
+.0383
+9.6844
.9422
15
B.A.C. 2097
H
H-30
—27
13 0.2
+ 4 20 38
—0.2368
i>649
—.0034
+9.6760
.9447
15
49 Anrign
5i
+41
-18
15 3.1
+ 6 19 2
—0.0590
M\5
—.0085
+9.6735
.9454
15
53 Anrigs
«J
—29
—61
16 22.2
+ 7 35 13
—1.1220
J55S3
— i)116
+9.6870
.9414
15
54 Anrip^ffi
28 Geminor.
6
+24
—35
16^.2
+ 854
—0.3564
.5596
—.0143
+9.6771
.9444
15
6
—35
—61
19 4.4
+10 11 29
—1.1744
.5551
—.0197
+9.6872
.9413
16
47 Geminor.
6
+89
—13
6 31.2
— 2 46 37
+0.6162
.5603
—.0489
+9.6584
.9495
16
53 Geminor.
8
+ 8
—56
8 27.7
— 0 54 23
—0.6259
.5537
—.0543
+9.6736
.9453
16
59 Geminor.
+10
—64
12 11.9
+ 2 41 49
—0.5970
.5522
—.0645
+9.6704
.9463
16
1 Geminor.
4
— 4
—62
12 42.8
+ 8 11 40
—0.8130
.5514
—.0646
+9.6728
.9456
16
6* Geminor.
H
—23
—62
14 29.1
+ 4 54 9
—1.0735
.5492
—.0697
+9.6746
.9451
16
B.A.C. 2472
6
—26
—62
14 51.1
+ 5 15 21
—1.1008
.6493
—.0697
+9.6746
.9451
16
V Geminor.
5
+33
—81
17 11.3
+ 7 30 39
—0.1890
.5517
— i)772
+9.6602
.9490
16
e Geminor.
6
+90
+14
20 49.7
+11 1 17
+0.6992
.5545
— i)846
+9.6438
.9532
17
9 Geminor.
5
— 1
—63
0 58.0
— 8 59 5
—0.7773
.5451
—.0967
+9.6590
.9494
17
w* Cancri
6
+67
— 6
4 19.6
— 5 44 24
+0.3599
.5485
—.1038
+9.6685
.9545
17
w* Cancri
H
+90
+ 9
4 41.8
— 5 22 58
+0.6486
.5498
—.1068
+9.6337
.9555
17
V« Cancri
4
+ 9
—59
7 30.4
— 2 42 24
—0.6194
.5421
—.1129
+9.6460
.9527
17
V/« Cancri
4
+28
-39
8 37.6
— 1 35 17
—0.2788
.5435
—.1129
+9.6410
.9538
17
a Cancri
+90
+15
13 15.4
+ 2 53 4
+0.7775
.5446
—.1240
+9.6173
.9591
17
t7* Cancri
+35
—35
16 4.8
+ 5 35 52
—0.1582
.5390
—.1305
+9.6260
.9573
17
V* Cancri
6i
+52
—20
16 58.4
+ 6 28 37
+0.1435
.5395
—.1326
+9.6197
.9586
17
B.A.C. 2840
+36
—34
17 27.5
+ 6 56 44
—0.1407
.5388
—.1326
+9.6230
.9579
17
V* Cancri
+55
-26
18 19.3
+ 7 46 46
+0.0251
.5385
—.1347
+9.6188
.9588
17
32 Cancri
+40
—81
19 1.7
+ 8 27 52
—0.0775
.5374
—.1368
+9.6189
.9588
18
I Cancri
+12
—63
12 19.5
+ 1 11 52
— 0Ji957
.5246
—.1694
+9.5851
.9652
18
79 Cancri
6
+14
—60
12 48.5
+ 1 39 53
—0.5462
.5249
—.1695
+9.5843
.9654
18
B.A.C. 3138
6
+37
—38
14 25.2
+ 3 13 35
—0.1285
.5252
—.1730
+9.5712
.9676
19
i}Leoni8
H
+15
-67
17 38.4
+ 5 37 11
—0.5492
.5069
—^128
+9.4772
.9795
20
42 Leonis
6
-1^0
—52
1 19.2
—10 55 24
-0.2699
.5030
—.2220
+9.4323
.9835
20
B.A.C. 3579
6
+22
—61
5 3.2
— 7 17 47
—0.4156
.5006
—.2263
+9.4151
.9848
SO
i Leonis
6
+13
—72
6 52.8
— 5 31 18
—0.6046
.4990
—.2283
+9.4094
.9852
20
/ Leonis
5
+90
-28
16 9.5
+ 3 29 46' +1.1984
.4980
—.2364 +9.2923
.9915
22
B.A.C. 3996
6
—24' —84
1 47.3
-11 46 551-1.2139
0.4843
—.25511 +9 0186
9.9976
404
OCCULTATIONS, 1866.
KLKMENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STABS BY THE MOON, FOB THE YEAR 1856.
1
UmiMnf
Waah.
Time<rf
6'
Dftte.
Star's Name.
North-
ern.
Soath-
em.
H
r
P'
q'
i^
r«b. 22
b VireinU
10 Virginia
6
o
—15
o
—86
h. m.
7 59.3
h. m. 1.
— 5 44 44
—1.0917
0.4833
—.2568
4-8.8902
1
9.9987
22
6
+14
—80
13 34.7
— 0 18 14
—0.5843
.4878
—.2578
4-8.6736
9.9995
22
13 VirginU
•7 Virginis
6
-H90
4-14
18 44.2
4- 4 43 11
4-1.0757
.4831
—.2583
4-6.2538
0.0000
22
H
4-90
— 5
19 27.3
4- 5 25 5
4-0.7566
.4827
—.2583
4-7J577
OJOOOO
23
38Viigimg
6
— 6
—90
14 33.8
4- 0 1 29
—0.9513
.4843
—.2568
—8.6846
9J995
24
6 Virginia
4
—22
—90
0 3.7
4- 9 16 17
—1.1612
.4866
— V2540
—8.9201
^985
24
h Virginis
B.A.C. 4896
6^
4-79
— 5
12 56.5
— 2 11 42
4-0.7466
.4888
—.2481
—9.2142
.9941
26
6
4-15
-69
6 42.0
— 9 37 30
—0.4196
JH27
—.2116
—9.4707
.9802
26
i> Libra
3
4-20
-60
16 56.5
4- 0 18 21
—0.2766
.5213
—.1968
—9.5180
.9750 1
26
i*Libr»
4- 7
—79
17 29.2
4- 0 49 54
—0.5405
.5217
—.1967
—9.5148
.9754
27
B.A.C. 5254
6
4-66
— 1
12 45.1
— 4 31 24
4-0.7755
.5327
—.1650
—9 6015
.9622'
27
aScorpii
2
—34
—90
15 38.7
— I 43 40
—1.1282
.5425
—.1593
—9.5775
J665 ,
27
B.A.C. 5335
6
4- 6
—73
18 14.6
4- 0 46 58
-0.4519
.5430
—.1535
—9.5957
.9633
27
B.A.C. 5854
6
-H 2
—80
19 25.7
4- 1 55 38
—0.5353
.5442
—.1514
-9.5973
.9631
28
19 Scorpii
5
—12
—90
0 44.2
4- 7 8 12
—0.7598
.5492
—.1409
—9.6062
.9613
28
0 Scorpii
n
4-64
— 8
0 56.0
4- 7 14 34
4-0.7364
.5448
—.1389
—9.6299
.9564
28
aScorpU
4-64
4-30
4 32.3
4-10 43 20
4-1.1687
.5446
—.1322
—9.6436
J532
28
22 ScorpU
6
4-12
—61
4 55.5
4-11 5 45
—0.2835
.5514
— wl309
—9.6226
.9580
28
25 Scorpu
6
—10
—90
12 6.9
— 5 58 19
—0.6650
.5601
—.1137
—9.6303
.9563 ,
28
B^.C. 5800
6*
4-13
—55
23 35.9
4- 5 5 24
—0.1770
.5666
—.0859
—9.6442
.9506
29
A Ophiachi
5
—13
—90
0 6.5
4- 5 34 49
—0.6645
.5702
—.0833
—9.6478
.9522
29
38 Ophiachi
^
—12
—90
1 1.5
4- 8 27 47
—0.6552
.5709
— X)806
—9.6490
.9519 '
29
43 Opbiochi
6
4-62
4- 1
3 19.5
4- 8 40 33
4-0.7764
.5652
—.0752
—9.6716
.9459
29
3 Sagiuarii
B.A.C. 6024
5
4-15
—48
18 8.7
— 5 52 51
—OM79
.5768
— A471
—9.6684
.9469
29
«*
—31
—90
14 \7J0
— 4 47 11
—0.9147
Ji8\3
— X>442
—9.6574
.9498
29
B.A.C. 6063
6
4-20
—41
16 47.3
— 2 22 47
4-0.0565
.5778
— /)368
—9.6722
.9458
29
B.A.C. 6072
6
4-61
0
17 32JI
— 1 39 31
4-0.7540
.5746
—.0353
—9.6819
.9429 i
29
B.A.C. 6120
6
4-38
—23
20 46.1
4- 1 26 37
4-0.3799
.5780
—.0264
—9.6783
.9440 '
29
B.A.C, 6127
5
4-36
—23
21 16.8
4- 1 56 7
4-0.3663
^788
—.0234
-9.6782
.9440
ICMehl
BJLC. 6190
6*
4-46
—14
0 56.2
4- 5 26 47
4-0.5340
.5804
—.0113
—9.6814
•»«',
B.A C. 6191
6
4-23
—35
0 56.4
4- 5 27 1
4-0.1536
JiSU
— wOllS
—9.6763
.9446
B.A.C. 6194
5
—49
—90
1 14.5
4- 5 44 24
—1.1319
.5888
—.0113
—9.6584
.9495
B.A.C. 6220
6
4-32
—27
2 44.8
4-716
4-0.3075
.5815
— X)082
-9.6786
.9439
9 Sagiuarii
3
—40
—90
11 58.6
— 7 57 19
—1.0254
.5929
4-.0230
—9.6590
.9494
r Sagiuarii
»
4-19
—43
20 10.1
— 0. 5 49
4-0.0228
.5891
4-.0483
—9.6698
.9464
B.A.C. 6628
4-60
— 5
2 54.0
4- e 22 86
4-0.6817
.5865
4-.0704
-9.6736
.9454
B.A.C. 6666
4-18
—47
4 58.5
4- 8 21 6
—0.0458
.5907
4- .0768
-9.6611
.9488
mSagitUurii
H
4-37
—30
14 56.9
— 6 5 0
4-0.2549
.5884
4-.1078
—9.6522
.9511]
6 Sagiuarii
4-63
4-33
15 22.0
— 5 40 55
-hl.l781
.5837
4-.1079
—9.6651
.9477'
A Sagiuarii
4-39
—28
16 9.5
— 4 55 17
4-0.2894
.5883
4-.1I09
—9.6508
J515
B.A.C. 7077
4-65! 4- 3
5 18.1
4- 7 41 20
4-0.8343
.5826
-^.1493
— 9JS329
.9557
B.A.C. 7197
4-11
—66
11 24.1
—10 27 22
—0.3567
.5864
4-.1661
—9.5965
.9632'
B.A.C. 7237
4-66
-hl3
13 12.1
— 8 43 38
4-0.9902
.5796
4-1716' —9.6148
.9597
BA.C. 7335
4- 9
—72
19 23.6
— 2 46 55
—0.4377
.6836' 4-.1873;— 9.5693
.9679
27 Capricor.
—23
—90
19 47.3
— 2 24 5
-0.9968
.5860^ -h.l872| -9.5570
.9698
9 Capricor.
4-11
—70
22 12.9
— 0 4 13
-0.4177
.5818
4-.1948, —9.5592
M94
33 Capricor.
4-58
— 19
1 37.4
4- 8 12 14
4-0.4713
.5772' 4-.202I —9.5633
.9688 1
35 Capricor.
4-68
-M8
2 51.5
4- 4 23 29
4-1.0649
.5744 4-JW44 —9.5699
J678
37 Capricor.
4-68
—10
5 56.5
4- 7 21 19
4-0.6386
5736, 4-.2I36 —9.5489
J709,
t Capricor.
H
4-46
—32
6 51.1
4- 8 IS 46
4-0.2245
.5744 4-2137 -9.5363
3727-
1
K Capricor.
4-41
—37
9 66
4-10 24 4
4-0.1347
.5740
4-J202' —9.5940
J743
B.A.C. 7550
4-70
4- 7
9 20.0
4-10 36 56
4-0.9133
.5711 4-.2202,— 93398
J722
B.A.C. 274
6 ■
6r
-19 -84
22 39.8
— 3 6 25
—1.1513
.5440 4-.2889| 4-8.9974
.9978
73 Piscium
4-611 -28
0 55.9
— 0 55 3
4-0.3099
.5453 4-.2872I 4-8.9300
J984|
1 8
77 Pitciampr.
_r
4-90' 4-21
1 21.8
— 0 29 60 4-1.1636
0.5460 4-287 ll 4-8.8585
9.9989 1
OCCULTATIONS, 1856.
405
ELEMENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STARS BY THE MOON, FOB THE YEAR 1856.
«
TJmlring '
PanllelB.
Waah-
■SfiS'
Time of
6-
At Washington Mean Time of ConJonotSoD.
Data.
Star's Name.
North-
am.
South-
em.
H
Y
P"
q'
rin^
ooa D
Manh8
e Piscinm
o
-♦■90
o
— 4
h. m.
2 31.1
h. m. s.
+ 0 36 57
+0.7619
0.5458
+.2866
+8.9304
9.9984
8
t Pisciom
6
+21
—70
4 52.8
+ 2 53 45
—0.4603
.5449
+.2846
+9.0742
.9969
8
88 Pisciam
6*
-H57
—81
5 20.0
+ 3 20 0
+0.2402
.5456
+.2845
+9.0357
.9974
8
54Ceti
6
+87
— 8
21 26.8
— 5 6 36
+0.6645
.5483
+.2692
+9.2536
.9929
9
40Arieds
6
-1-26
—55
22 88.6
— 4 47 51
—0.3488
J55\7
+.2316
+9.4825
.9790
9
TT Ariedfl
H
-♦-80
— 8
22 59.3
— 4 27 54
-H).5567
.5548
+.2297
+9.4626
.9809
10
9* Arieds
6
4-62
—21
1 47.3
— 1 63 53
+0.3059
.5549
+.2261
+9.4841
.9788
10
^Arieds
6
-^89
— 3
2 2.7
— 1 89 5
-H).6500
.5563
+.2241
+9.4772
.9795
10
54 Arietta
3
-^90
+19
7 lO.l
+ 8 17 20
+0.9936
.5591
+.2144
+9.4956
.9776
10
aArietis
+64
—18
8 82.8
+ 4 45 0
+0.3367
.6574
+.2125
+9.5166
.9752
10
t Arietis
ti
+ 6
—70
9 55.9
+ 658
—0.7196
.5545
+.2083
+9.5445
.9715
10
B.A.C. 1032
-*-64
—17
12 28.7
+ 8 82 27
+0.3375
^586
+.2041
+9.5338
.9730
10
T« Arictia
5
+29
—48
12 87.3
+ 8 40 39
—0.2828
.5563
+.2041
+9.5469
.9712
10
T* AriedB
6
+59
—20
13 17.1
+ 9 19 5
+0.2590
.5585
+.2019
+9.5387
.9723
10
65 Arietis
6
+64
—16
18 59.5
+ 9 59 51
-H>.3337
.5595
+.1998
+9.5401
.9722
10
9Tanri
6
—24
—67
19 15.1
— 8 56 69
—1.1295
.5555
+.1888
+9.5871
.9649
10
7 Pleiadnm
8
—49
-66
22 58.7
— 5 20 86
—1.3164
.5558
+.1796
+9.6022
.9621
10
B AC. 1155
7
+22
—52
22 58.9
— 5 20 24
—0.4035
.5595
+.1796
+9.5864
.9650
10
d Pleiadnm
5
-.31
—67
23 10.6
— 597
—1.1976
.5563
+.1796
+9.6007
.9624
10
11 Pleiadnm
H
—56
—66
23 18.7
— 5 1 21
—1.3332
.5556
+.1796
+9.6034
.9619
10
13 Pleiadnm
H
—29
—67
23 29.3
— 4 61 8
—1.1841
.5560
+.1796
+9.6015
.9622
10
14 Pleiadnm
9
— 9
—67
23 31.8
— 4 48 42
—0.9425
.5572
+.1796
+9.5975
.9630
10
15 Pleiadnm
3
—46
—66
23 34.3
— 4 46 17
—1.3062
.5556
+.1796
+9.6038
.9618
10
16 Pleiadnm
—18
—67
23 34.8
— 4 45 49
—0.9895
.5569
+.1796
+9.5985
.9628
10
17 Pleiadnm
8
— 6
—67
23 35^
— 4 46 15
—0.8912
.5573
+.1795
+9.5968
.9631
10
18 Pleiadnm
8
—48
—66
23 35.5
— 4 46 9
—1.3140
.5555
+.1795
+9.6041
.9617
10
p Pleiadnm
7*
—48
—67
23 36.3
— 4 44 25
—1.2885
.5558
+.1794
+9.6036
.9618
10
19 Pleiadnm
8
0
—67
23 36.7
— 4 44 3
—0.7965
.5578
+.1794
+9.5952
.9634
10
22 Pleiadnm
8
—20
—67
23 38.0
— 4 42 48
—1.0802
.5568
+.1792
+9.6002
.9625
10
23 Pleiadnm
H
—12
—67
23 39.3
— 4 41 29
— 0J314
.5578
+.1792
+9.5960
.9633
10
ijTanri
S
—39
—67
23 39.7
— 4 41 10
—1.2671
0^559
+.1791
+9.6035
.9618
10
25 Pleiadnm
H
+ 3
—66
23 43.5
— 4 37 27
—0.7494
.5581
+.1790
+9.5948
.9635
10
26 Pleiadnm
9
+ 7
—66
23 46.1
— 4 34 59
—0.6736
.5585
+.1789
+9.5937
.9637
11
28 Pleiadnm
7
+17
—58
0 2.0
- 4 19 41
—0.5041
.5592
+.1782
+9.5915
.9641
u
a Pleiadnm
H
— 7
—67
0 16.8
— 4 5 22
—0.9087
.5574
+.1778
+9.5992
.9627
11
/Pleiadnm
H
—21
-67
0 22.2
— 4 0 11
—1.0937
.5567
+.1773
+9.6026
.9620
11
h Pleiadnm
5
—29
—66
0 22.6
— 3 59 50
—1.1781
.5564
+.1773
+9.6041
.9617
11
30 Pleiadnm
8
— 8
—67
0 23.3
— 3 59 5
—0.9202
Ji576
+.1773
+9.5997
.9626
11
33 Pleiadnm
8
—41
—66
0 28.6
— 3 53 59
—1.2750
.5562
+.1770
+9.6060
.9614
11
34 Pleiadnm
7-
+ 5
—67
0 36.7
— 3 46 11
—0.7039
.5586
+.1770
+9.5967
.9632
11
35 Pleiadnm
9
—37
—66
0 37.1
— 3 45 53
—1.2474
aJ560
+.1773
+9.6060
.9614
11
36 Pleiadnm
9
—32
—66
0 40.8
— 3 42 14
—1.2086
.5562
+.1773
+9.6055
.9615
11
38 Pleiadnm
8
— 2
—67
0 42.6
— 8 40 34
—0 8268
.5577
+1773
+9.5991
.9627
11
B.AC. 1189
7
+90
+12
0 43.5
— 3 39 40
+0.8190
.5643
+.1773
+9.5699
.9678
11
40 Pleiadnm
n
— 5
—67
1 5.1
— 3 18 49
—0.8790
.5580
+.1773
+9.6011
.9623
11
32 Tanri
6
+90
+29
3 37.7
— 0 51 52
+1.0593
.5661
+.1701
+9.5947
.9670
11
SSTanri
6
+66
—12
3 42.0
+ 0 12 13
+0.3592
.5634
+.1701
+9.5875
.9648
11
36 Tanri
6
+88
—35
6 43.6
+ 277
—0.1182
JiBl9
+.1627
+9.6044
.9617
11
/Tanri
5
+11
—60
14 15.8
+ 9 22 29
—0.5987
5623
+.1426
+9.6306
.9563
12
B.A.C. 1648
6
+12
—54
14 14.8
+ 8 27 16
—0.5758
.5652
+.0775
+9.6689
.9467
12
/? Tanri
B.AC. 1746
2
—28
—62
16 24.0
+10 31 39
—1.1249
.5623
+.0718
+9.6784
.9440
12
H
+50
—14
20 23.2
— 9 38 16
+0.1020
.5685
+.0605
+9.6654
.9477
13
136 Tanri
5
+75
+ 6
3 32.5
— 2 45 10
+0.4536
.5695
+.0406
-1-9.6655
.9476
13
BA.C. 1882
1
—11
—61
4 50.1
— 1 30 27
—0.9172
.5630
+.0201
+9.6844
.9422
13
B.A.C. 2097
+42
—16
18 52.2
—11 59 591—00371
0.5635
—.0046
+9.6760
9.9447
406
OCCULTATIONS, 1856.
ELEMENTS FOR FACIUTATINO THE CALCULATION OF OCCULTATIONS OF j
PLANETS AND STARS BY THE MOON, FOR THE YEAR 1856.
J
'4
PanUels.
Wadi-
■sgr
Time of
6*
At WashbgtOB MeanTlBW of OoKUaiietkm.
Date.
Star'! Name.
North-
em.
Soath-
em.
H
r
P"
q'
^n^
i?i>
Mitf.13
49 Anrign
o
+52
o
— 8
k. m.
20 53.7
h. m. e.
—10 2 66
+0.1359
0.5635
— i)102
+9.6735
9S454
13
53 Aurigs
—11
—61
22 12.0
— 8 47 80
—0.9194
.5578
— X)129
+9.6870
S414
13
54 Aori^s
28 Geminor.
6
+35
—24
22 42.7
— 8 17 58
—0.1592
.5618
—.0130
+9.6771
^444
14
6
—15
—61
0 52.8
— 6 12 45
—0.9739
.5565
—.0212
+9.6872
341S ,
U
47 GemiDor.
6
+90
+23
12 14.8
+ 4 44 19
+0.7982
.5609
— i)508
+9.6584
.^95
14
53 GemiDor.
6
+19
—44
14 10.6
+ 6 85 57
—0-4410
.5539
— i)560
+9.6737
.9453
14
59 Greminor.
1
+21
—43
17 53.9
+10 11 12
—0.4154
.5518
— i)662
+9.6704
.9463 .
14
( Geminor.
+ 8
—57
18 24.7
+10 40 58
—0.6314
.5509
— J0663
+9.6728
^456
14
b^ Geminor.
H
—25
-62
19 57.9
—11 49 13
— li)962
.5474
— X)714
+9.6775
.9442
14
6* Geminor.
4
— 9
—62
20 10.3
-11 87 18
-0.8927
.5487
— i)715
+9.6746
^451
14
B.A.C. 2472
6
—11
-62
20 32.9
— U 15 30
—0.9209
.5487
-1)716
+9.6746
3451
14
V Geminor.
5
+43
—22
^22 52.5
— 9 0 48
—0.0139
3518
—.0790
+9.6577
.9497
15
c Geminor.
6
+90
+15
2 30.5
— 5 80 82
+0.8674
3533
—.0864
+9.6438
.9532
15
if Geminor.
5
+10
—57
6 38.5
— 1 31 8
-0.6090
3444
— X)960
+9.6590
.9494
15
01* Cancri
6
+80
+ 3
10 0.2
+ I 43 33
+0.5224
3468
—.1051
+9.6385
.9545
15
to* Cancri
II
+90
+19
10 22.4
+ 261
+0.8126
3481
— 1054
+9.6837
3555
15
V* Cancri
+19
—50
14 11.2
+ 5 45 57
—0.4588
3401
—.1145
+9.6460
3527 1
15
i^' Cancri
4
+37
—31
14 18.4
+ 5 52 55
—0.1206
3415
-.1146
+9.6412
3538
15
X Cancri
6
+90
+24
18 56.7
+10 21 48
+0.9294
.5423
—.1255
+9.6173
3591
15
i;» Cancri
7
+44
—27
21 44^
—10 56 1
— 0i)088
3379* —.1298
+9^260
3573
15
V* Cancri
6J
+62
—12
22 40^
—10 2 6
+0.2918
.5383
—.1319
+9 6197
3586
15
B.A.C. 2840
7
+45
—27
23 9.5
— 9 33 53
+0.0071
.5363
—.1340
+9.6230
3579
16
V* Cancri
6
+54
—19
0 1.4
- 8 43 41
+0.1718
3362
—.1361
+9.6188
3588
16
32 Cancri
7
+48
—24
0 43.1
— 8 3 27
+0.0683
.5363
—.1361
+9.6189
35S8 1
16
S Cancri
5
+19
—56
18 6.3
+ 8 46 6
—0.4723
3218
—.1704
+93852
3652 1
16
79 Cancri
6
+17
—58
18 35^
+ 9 14 17
—0.5034
3220
—.1704
+93843
3654
16
B.A.C. 3138
6
+44
—32
20 12.7
+10 48 29
—0.0083
3188
—.1738
+9.5712
.9676 i
17
ri Leonis
H
+19
—62
23 36.4
-10 37 24
—0.4729
3046
—.2135
+9.4772
3795
18
42 Leonis
6
+33
—49
7 19.7
— 3 7 29
—0.2046
3097
—.2227
+94323
3835 1
18
B.A.C. 3579
6
+26
—58
11 4.9
+ 0 31 22
—0.3569
^984
— J248
+94152
3848
18
i Leonis
6
+16
—69
12 54.0
+ 2 17 23
—0.5444
^968
—.2289
+9.4093
3852 '
18
/Leonis
6
+90
+31
22 14.5
+11 22 15
+1.2399
.4961
—.2372
+9.2923
3915
20
B A.C. 3996
6
—26
—84
7 57.8
— 8 48 58
—1.2291
.4834
—.2567
+9.0186
.9976
20
b Virgiiiis
6
—17
—86
14 10.1
+ 2 13 30
—1.1192
.4833
—.2586
+8.8902
.9987
20
10 Virginii
6
+13
—83
19 45.3
+ 7 39 54
—0.6200
.4834
—.2595
+8.6736
.9995 1
21
13 Vir^nis
tj Virgmii
6
+90
+11
0 54.9
—11 18 39
+1.0318
4836
—.2603
+6.2654
.0000
21
3i
+90
— 8
1 37.9
-10 36 45
+0.7114
.4835
—.2603
+7.3586
.0000'
21
38 Virginii
6
—11
—90
20 42.4
+ 7 57 32
—1.0252
.4849
—.2590
—6.6846
3995
22
d Virginii
^
—29
—90
6 11.1
— 6 48 49
—1.2491
.4880
—.2561
—8.9201
3985 j
22
h Virginii
6
+79
—11
19 1.9
+ 5 41 12
+0.6439
.4903
—.2601
—9.2142
3941
23
86 Virginii
6
+78
+48
1 9.4
+11 36 59
+1.3951
4919
—.2459
— 9J073
.9909 1
24
B.A.C. 4896
6
+ 8
—80
12 44.8
— 1 47 13
-0.5608
3136
—.2126
—94707
.9802
24
.» Libra
4:-
+13
—70
23 1.1
+ 8 10 18
—0.4225
.5214
—.1975!— 93180
.9750
24
«* Libr«
6
+ 1
—90
23 33.8
+ 8 41 58
—0.6883
3219 —.1975—93148
3754 >
25
B.A.C. 5253
6
+66
+37
18 50.5
+ 3 21 40
+lii503
3292
—.1834—9.6111
1
.9604
25
B.A.C. 5254
6
+64
— 9
18 52.4
+ 3 23 26
+0.6424
3330
-.1635
—9.6015
.9622
25
B.A.C. 5286
6
+66
+38
21 0.3
+ 5 27 6
+1.2448
.5321,— .1596
—9.6164
.9593
25
d Scorpii
2
—52
—90
21 52.2
+ 6 17 17
—1.2877
.5302| —.1577
—93775
.9665
26
B.AC. 5335
6
— 2
—87
0 29.6
+ 8 49 27
—0.6070
3287
—.1536—9.5957
3633
26
BA..C. 5354
4
— 8
—90
1 41.5
+ 9 58 52
—0.6923
3421
—.1448 —9.5973
3631
26
19 Scorpu
51
—22
—90
7 3.6
— 8 49 54
—0.9181
3476
—.1394 —9.6063
3613 -
26
<f Scorpii
3|
+59
—12
7 16.2
— 8 37 47
+03892
3419
—.1391
—9.6297
3564 1
26
a Scorpii
's
+64
+17
10 54.8
— 6 6 43
+1.0266
3415
—.1307
—9.6436
3532
26
22 Scorpii
5
+ 4
-72
11 18.4
— 4 43 57
—0.4383
3487
—.1303
—96226
3580
26
25 Scorpii
6
—191 —90
18 35.5
+ 2 17 49' —0.8222
0.5556!— .1141 i— 9.6303
93563
OCCULTATIONS, 1866.
407
ELEMENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STARS BY THE MOON, FOR THE TEAR 1856.
Dftto.
Ster'iNuM.
I'
6
5
limitliig
Parallels.
Wanh-
Time of
6'
At WMhiogton Mean Time of Coqjimetion.
North-
ern.
Soath-
•m.
-6?
-90
—90
— 9
—57
H
r
y
q'
J£%
ooe D
Miir.27
27
27
27
27
B.A.C. 5800
A Ophinchi
38 Ophinchi
43 Ophinchi
3 Sagittarii
o
4- 5
—22
-21
H-56
-H 7
h. m.
6 17.3
6 48.5
7 44.5
10 5.4
20 7.8
h. m. 8.
—10 25 40
— 9 55 40
— 9 1 41
— 6 45 58
4- 2 63 54
—0.8298
—0.8211
—0.8128
4-0.6212
—0.2161
0.6609
.5656
.6656
.5601
.5703
—.0843
—.0828
—.0817
—.0738
—.0463
—9.6542
—9.6478
—9.6490
—9.6716
—9.6684
9.9506
.9522
.9519
.9459
.9469
27
27
28
28
28
B.A.C. 6024
B.A.C. 6063
B.A.C. 6072
BA.C. 6120
B.A.C. 6127
6
6
&
6
5
—42
4-13
4-54
4-29
4-28
—90
-50
— 9
—31
—31
21 17.9
23 51.9
0 38.3
3 57.0
4 28.6
4- 4 1 17
4- 6 29 29
4- 7 14 6
4-10 25 12
4-10 65 33
—1.0735
—0.0887
4-0.6183
4-0.2404
4-0.2266
.6746
.6713
.6679
.5712
.5713
—.0436
—.0727
—.0341
—.0262
—.0234
—9.6572
—9.6722
—9.6819
-9.6783
—9.6782
.9498
.9458
.9429
.9440
.9440
28
28
28
28
29
B.AC. 6190
B.A.C. 6191
B.A.C. 6220
(p Sagittarii
T Sagittarii
6
6
6
3
3
-f^7
4-16
4-24
—52
4-13
—22
—44
—35
—90
—61
8 13.8
8 14.1
10 5.5
19 35.6
4 2.5
—19 2r 53
— 9 27 39
— 7 40 32
-♦- 1 27 21
4-11 34 18
4-0.3985
4-0.0130
4-0.1698
—1.1790
-0.1116
.5724
.6743
.5742
.6836
.5798
—.0117
—.0117
—.0068
4-.0211
4-.0483
—9.6814
—9.6763
—9.6786
—9.6591
—93698
.9431
.9446
.9439
.9494
.9464
29
29
29
29
SO
B.A.C. 6628
B.A.C. 6666
a Sagittarii
6 Sagittarii
A Sagittarii
6
6
I'
5
4-52
4-12
4-30
4-63
4-33
—12
—55
—37
4-22
—85
10 59.6
13 8.4
23 27.4
23 53.4
0 42.6
— 7 44 57
— 5 41 15
4- 4 13 21
4- 4 38 19
4- 5 25 38
4-0.5621
-0.1758
4-0.1363
4-1.0742
4-0.1717
ii766
i^805
.6780
.67^1
.5780
4-0694
4-.0764
4-.1050
4-.1067
4-.1091
-93736
—9.6611
—9.6522
—93651
—9.6608
.9464
.9488
.9511
.9477
4516
30
30
30
31
31
B.A.C. 7077
B.A.C. 7197
B.A C. 7237
B.A.C. 7335
27 Capricor.
6
6
6
6
6
4-64
4- 4
4-66
4- 3
—31
— 3
—76
4- 7
—80
-90
14 19.0
20 37.7
22 29.8
4 54.1
5 18.8
— 6 29 48
4- 0 34 13
4- 2 22 0
4- 8 31 38
4- 8 55 22
4-0.7707
—0.4839
•4-0.9005
—0.6441
—1.1116
.5720
.5758
.5691
^729
.5746
4-.1473
4-.163S
4-.1684
4-.1838
4-.1859
—9.6329
—9.5965
—93147
—9.5693
—9.5670
.9657
.9632
.9597
4679
.9698
31
31
31
31
31
<p Capricor.
33 Capricor.
35 Capricor.
37 Capricor.
» Capricor.
6
6
6
6
4- 5
4-53
4-68
4-64
4-41
—78
—24
4-13
—14
—37
7 49.2
11 20.5
12 37.1
15 48.0
16 44.2
4-11 20 5
— 9 16 36
— 8 2 54
— 4 69 6
— 451
—0.6209
4-0.3847
4-0.9984
4-0.5583
4-0.1899
3716
.6651
.5636
.5642
.5666
4-1906
4-.1999
4-.2022
-h.2089
4- Jill
—93592
—9.5633
—9.5701
—9.5488
—9.5363
.9696
4688
.9677
4709
4727
31
31
April 1
X Capricor.
B.A.C. 7550
29 Aquarii
50 Aquarii
B.A.C. 7835
5
6
6
6
6*
4-37
4-70
4-43
-16
—15
—41
4- 3
—40
—90
—90
19 4.3
19 18.0
3 27.2
13 54.2
15 18.6
— 1 60 12
— I 36 55
4- 6 14 12
— 7 39 28
— 6 20 17
4-0.0510
4-0.8576
4-0.0821
—1.0088
—1.0080
.5642
i»613
.5626
.6594
3687
4-^160
4-^160
4-^341
4-.2508
4-^539
—9.5240
—9.5898
—9.4819
—93915
—93730
.9743
4722
.9790
4864
.9876
56 Aqnarii
70 Aqnarii
74 Aqnarii
V'* Aqnarii
X Aqnarii
6
6
6
St
4-75
—30
4-64
4-75
4-13
— 9
—90
—23
—15
—80
15 24.8
23 21.3
1 31.7
11 27.5
11 50.6
— 6 14 17
4- 1 25 10
4- 3 26 56
—10 58 3
—10 36 56
4-0.6766
—1.2193
4-0.4129
4-0.6586
—0.5700
3545
3669
3623
.6487
3507
4-^639
4-4657
4-^42
^2786
4-^91
—9.4220
—94928
—93255
—94340
—9.1703
4843
.9916
.9901
4935
.9952
t^* Aqnarii
40 ArieUs
TT Arietis
Q* Arietia
V» Arietis
H
6
6
4-80
-^30
4-86
4-67
4-90
4- 9
—51
— 5
—17
0
12 18.1
8 58.9
19 19.0
12 2.7
12 17.3
—10 9 24
4- 7 20 33
4- 7 39 55
4-10 17 26
4-10 31 40
4-0.9920
—0.2754
4-0.6200
4-0.3822
4-0.6933
3480
.5613
3638
3644
3662
4-4802
4-4348
4-4347
4-4289
4-.2289
—9.2384
H-9.4826
4-9.4625
4-9.4838
4-9.4772
4934
4790
.9809
4789
4795
54 Arietis
9 Arietis
C Arietis
B.A.C. 1032
T» Arietis
4
4
6
5
4-90
-h.69
4-10
4-69
4-33
4-23
—14
—68
-13
—44
17 16.0
18 36.3
19 569
22 253
22 33.5
— 8 40 38
— 7 23 23
— 6 6 46
— 3 42 58
— 3 35 0
4-10561'
-M).4066
—0.6350
4-0.4094
—0.2037
3688
3669
.5642
3686
3662
4-4189
4-2168
4-4124
4-4081
4-4081
4-9.4955
4-93166
4-9.5445
4-9.5338
4-9.5469
4776
4752
.9715
4730
.9712
T« Arietis
65 Arietis
66 Arietis
9Tauri
1 Pletadom
6
6
8
4-64
4-69
—36
—17
—13
-68
—67
—67
23 12.2
23 53.4
1 30.0
4 59.2
8 25.4
— 2 57 46
— 2 18 8
— 0 45 10
4- 2 36 8
4- 5 64 29
4-0.3316
4-0.4064
—1.2909
-1.0318
—1.2448
3686
3696
3630
3656
03656
4-.2058
4-.2036
•+.4013
4-.1919
4-.1848
4-9.5387
4-9.5401
-♦-93793
4-9.5871
4-9.6021
4723
4722
4662
4649
9.9621
408
OCCULTATIONS, 1866.
ELEMENTS FOR FACILITATING THE CALCULATION
OF 0CCULTATI0N8
OF 1
PLANETS AND STARS BY THE MOON, FOR THE YEAR 1856.
'
1
LImitinff
PanOleb.
Wadi-
Time<tf
6'
Date.
Star's Num.
North-
Soath.
em.
H
r
P"
q'
iri
JS'dI
April 7
3 Pleiadam
9
o
—42
o
—67
h. m.
8 29.1
h. m. 1.
+ 5 58 7
—1.2823
0.5656
+.1848
+9.6030
9.9680
7 Pleiadam
8
—33
—67
8 35 7
+ 6 4 26
—1.2187
.5656
+.1848
+9.6022
.9681
B.A.C. 1155
7
+27
—48
8 35.9
+ 6 4 37
-OJI175
.5694
+.1848
+9.5864
^650
(I Pleiadam
5
—21
—67
8 47.3
+ 6 15 32
— 1X)922
.5665
+.1836
+9.6007
.9684
U Pleiadum
H
—34
—67
8 55.1
+ 6 23 3
—1.2260
.5655
+.1835
+9.6034
J616
13 Pleiadam
H
—20
—67
9 5.3
+ 6 32 55
—1.0872
.5662
+.1834
+9.6015
.9688
14 Pleiadam
?
— 3
—67
9 7.7
+ 6 35 14
—0^86
.5674
+.1833
+93975
J630
15 Pleiadom
3
—32
—66
9 10.2
-h 6 37 34
—1.2073
M58
+.1832
+9.6038
.9618
16 Pleiadam
— 6
—67
9 10.6
+ 6 38 1
—0.8921
^671
+.1832
+9.5985
.9688
17 Pleiadam
8
0
—67
9 11.2
+ 6 38 83
—0.7982
M75
+.1831
+93968
J631
16 Pleiadam
8
—33
-66
9 11.3
+ 6 38 39
— 1J148
.5658
+.1831
+9.6040
J618
p Pleiadam
H
—30
—66
9 12.0
+ 6 39 19
-1.1899
3660 +.1830
+9.6036
.9618 '
19 Pleiadam
s"
+ 6
—67
9 12.4
+ 6 39 42
—0.7049
.5681 +.1829
+93952
.9634
22 Pleiadam
8
—12
—67
9 13.6
+ 6 40 54
—0.9842
3669 +.1829
+9.6002
.9685 1
83 Pleiadam
H
-^ 4
-66
9 14.9
+ 6 42 9
—0.7393
.5679 +.1827
+93960
.9633 !
ijTaari
3
—28
-67
9 15.8
+ 6 42 29
-1.1690
36621+1826
+9.6034
.9619
25 Pleiadam
H
+ 8
—66
9 20.0
+ 6 47 1
—0.6559
.5685 +.1825
+9.5947
.9635
26 Pleiadam
9
+13
—62
9 21.4
+ 6 48 25
—0.5838
3687
+.1823
+93936
.9637 :
27 Pleiadam
H
-56
—66
9 33.1
+ 6 59 36
—1.3323
3652
+.1818
+93071
.9618
28 Pleiadam
7
+22
—38
9 36.8
+ 7 3 13
—0.4160
.5690
+.1816
+93915
.9641 1
1
f Pleiadam
7
— 1
—67
9 51.8
+ 7 17 3
—0.8150
3679
+.1810
+93992
.9687 ,
/Pleiadam
4
—13
—67
9 56.3
+ 7 21 56
—0.9975
3670
+.1809
+9.6026
.9680
A Pleiadum
^
—20
—66
9 56.7
+ 7 22 24
—1.0802
3666
+.1808
+9.6041
.9617 1
30 Pleiadom
8
—13
—67
9 57.5
+ 7 23 6
-0.9943
3679
+.1808
+93997
.9686 .
32 Pleiadam
8
—26
-66
10 0.7
+ 7 26 12
—1.1474
3658
+.1807
+9.6083
J610
33 Pleiadom
H
—29
—66
10 2.6
+ 7 28 1
-1.1754
3664
+.1806
+9.6060
.9614
34 Pleiadam
4
+11
—52
10 10.4
+ 7 35 33
-0.6123
.5690
+.1803
+93967
.9632 1
35 Pleiadum
9
—26
—66
10 10.8
+ 7 35 54
— 1.1482
3692
+.1803
+9.6060
.9614
36 Pleiadam
9
—22
—66
10 14.4
+ 7 39 22
—1.1107
3668
+.1801
+9.6055
3615
37 Pleiadam
8
—36
—66
10 14.9
+ 7 39 53
—1.2425
3661
+.1801
+9.6078
3610,
38 Pleiadam
8
+ 4
—63
10 16.2
+ 7 41 5
—0.7338
3683
+.1801
+93991
3697*
B.A.C. 1189
7
+90
+32
10 17.1
+ 7 41 59
+0.8890
3752
+.1800
+9.5699
3678
40 Pleiadam
H
+ 1
—67
10 38.2
+ 8 2 13
—07845
3681
+.1792
+9.6011
3623
32Taari
6
+90
+34
13 6.2
+10 24 38
+1.1275
3774
+.1723
+93447
3670;
33Taari .
6
+72
— 8
13 9.9
+10 28 12
+0.4369
3744
+.1723
+93875
3648
36Taari
6
+43
—31
16 5.7
—10 42 50
—0.0312
3731
+.1645
+9.6043
3617'
/Tauri
S
+17
—54
23 23.0
- 3 42 19
—0.5034
3728
+.1458
+9.6306
3563
B.A.C. 1648
6
+18
—49
22 35.0
— 5 24 38
—0.4814
3752
+.0971
+9.6689
3467 1
5 Tauri
BJI.C. 1746
2
—18
—62
0 40.2
— 3 24 22
—1.0177
3721
+.0739
+9.6784
3440
«i
+56
—10
4 31.9
+ 0 18 14
+0.1916
3782
+.0620
+93654
3477!
136 Tauri
5
+82
+10
11 28.2
+ 6 58 18
+0.5389
3788
+.0410
+96655
.9476
BJ1.C. 1882
6
— 3
-61
12 435
+ 8 10 38
—0.8130
.57171 +.0381
+9.6844
3482 >
10
B.A.C. 2097
6
+48
—11
2 22.0
— 2 42 29 +0.0544
3712
— X>334
+9.6760
3447
10
49 AorigflB
6
+58
— 3
4 20.4
— 0 48 37
+0.2253
.5719
— X)091
+9.6735
3454
10
53 AurigA
6
— 4
—61
5 36.7
+ 0 24 45
—0.8173
3661
—.0121
+93870
3414
10
54 AuriMB
28 Gemmor.
6
+40
—19
6 6.6
+ 0 63 32, — Oi)665
3692
— X)152
+9.6771
3444'
10
6
+ 6
—61
8 13.3
+ 2 55 27—0.8718
3640:— .0206; +9.6872
3413
10
47 Gemioor.
6
+90
+28
19 19.4
—10 23 301 +0.8782
3669 —i)5l3; +9.6584
3495 1
10
53 Geminor.
6
+26
-37
21 12.7
— 8 34 20
—0.3471
3544
—X)568. +9.6875
3419
11
59 Geminor.
H
+26
-43
0 6i;s
— 6 3 45
—0.3228
3586
— X)647
+9.6704
3463
11
< Geminor.
4
+14
—50
1 81.6
— 4 34 37
—0.5370
3564
— J0674
+9.6788
3456'
11
6* Geminor.
3
-16
—62
2 52.9
— 3 6 38
—0.9972
.5526 —X)726; +9.6773
3443
11
6» Geminor.
— 2
—62
3 4.6
— 2 55 21
—0.7954
3536 — i)726 -h9.6746
3451 '
11
B.A.C. 2472
6
— 4
-62
3 273
- 2 33 28! -OJ247
3537,— w0786 +9.6746
3451 1
11
V Geminor.
5
+49
—17
5 44.2
— 0 21 43! -f-0.0730
03568 —.07771+9.6603
9.9490'
OCCULTATIONS, 1866.
409
BLEBfENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
0.
PLANETS AND STARS BY THE MOON FOR THE YEAR 1856.
6
LimitiDg
PanllelB.
Waah-
ington
▲t WaihlngtOQ Mmb Time of Ooqjaiietlon.
Bate.
Star'! Nam*.
Time of
6-
North-
em.
o
-1-90
Soath-
«m.
H
Y
P'
q'
sin^
eoi D
Aprilil
c Geminor.
o
4-29
h. m.
9 18.2
h. m. a.
4- 3 4 44
4-0.9464
0.6578
—.0878
4-9.6438
99632
11
(p Qeminor.
5
-1-15
—52
13 22.0
4- 6 69 64
—0.5181
.6485
—.0977
4-9.6591
.9494
11
ei>* Cancri
6
-1-88
4- 7
16 40.4
4-10 11 20
4-0.6023
.6526
—.1048
4-9.6385
.9545
11
w« Cancri
Jt
-1-90
4-23
17 2.3
4-10 32 27
4-0.8900
.6613
—.1071
4-9.6337
.9555
11
ip^ Cancri
-M4
—26
20 47.7
— 9 60 1
—0.0112
^69
—.1141
4-9.6408
.9639
11
V^ Cancri
4
-M2
—27
20 54.9
— 9 43 6
—0.0354
.5441
—.1163
4-9.6410
.9638
12
2 Cancri
6
-1-90
4-28
I 29.4
— 5 18 0
4-1.0106
JM59
—.1253
4-9.6173
.9591
12
r* Cancri
7
4-49
—23
4 16.1
— 2 36 66
4-0.0731
.6396
—.1317
4-9.6260
.9573
12
»• Cancri
^i
-1-67
— 8
5 10.3
— 1 44 39
4-0.3719
.6400
—.1318
4-9.6197
.9586
12
B.A.C. 2840
7
-M9
—22
6 39.1
— 1 16 48
4-0.0882
.5393
—.1318
4-9.6230
.9579
12
w* Cancri
6
4-60
—14
6 80.4
— 0 27 11
4-0.2517
.6389
—.1360
4-9.6188
.9688
12
32 Cancri
7
4-53
—20
7 11.6
+ 0 12 36
-H).1487
.6375
—.1380
4-9.6189
.9688
13
1 Cancri
5
4-23
—52
0 25.8
— 7 6 67
—0.3945
.6225
—.1704
4-9.5852
.9652
13
79 Cancri
6
4-21
—54
0 64.6
— 6 39 6
—0.4255
.6217
-.1722
4-9.5843
.9654
13
B.A.C. 3138
6
4-59
—20
2 31.3
— 6 6 28
4-0.2403
.6230
—.1739
4-9.5713
.9675
13
B.A.C. 3292
3
—33
—69
15 6.6
4- 7 6 26
—1.2374
.5093
—.1945
4-9.6532
.9703
14
i/Leonis
4-23
—59
5 49.4
— 2 36 68
—0.4068
JM)36
—.2132
4-9.4772
.9796
14
42 Leonig
6
4-37
—46
13 32.5
4- 4 52 61
—0.1444
.4996
—.2224
-+-9.4323
.9835
14
B.A.C. 3579
6
4-35
—48
16 46.7
4- 7 69 34
—0.1762
^981
—.2255
4-9.4151
.9848
14
c LeonU
6
4-19
—66
19 7.7
4-10 18 34
—0.4885
.4954
—.2285
4-9.4094
.9852
15
/Leonis
5
4-90
4-37
4 29.0
— 4 86 47
4-1.2888
.4950
—.2369
4-9.2923
.9915
15
B.A.C. 3837
^i
4-89
— 8
18 18.5
4- 8 51 4
4-0.6701
.4882
—.2469
4-9.1869
.9948
16
B.A.C. 3996
6*
—23
—84
14 16.0
4- 4 16 41
-M956
.4826
—.2567
4-9.0186
.9976
16
6 Virgin is
6
—15
-86
20 28.8
4-10 19 37
—1.0887
.4824
—.2585
4-8.8905
.9987
17
10 Virginia
6
4-14
—81
2 4.9
— 8 13 1
—0.5961
.4780
—.2598
-+-8.6737
9.9995
17
13 Virginia
6
4-90
4-12
7 13.6
— 3 12 31
4-1.0563
.4785
— .2606
-+-6.2654
0.0000
17
n Virginia
H
4-90
— 7
7 67.0
— 2 30 16
4-0.7338
.4851
—.2605
-+-7.3586
0.0000
17
MaH8
4- 2
—90
17 55.4
4- 7 12 25
—0.8061
.5001
—.2659
—8.1605
0.0000
18
38 Virginia
6
—10
—90
3 0.2
— 7 67 10
—1.0095
.4861
—.2596
—8.6846
9.9995
18
6 Virginia
^i
—27
—90
12 27.4
4- 1 14 65
—1.2371
.4842
-.2571
—8.9201
.9985
19
h Virginia
6
4-80
—11
I 14.6
—10 18 47
4-0.6606
.4917
—.2.508
—9.2142
.9941
19
86 Virginia
6
4-78
-M8
8 20.3
— 3 24 42
4-1^954
.4936
—.2473
—9.3073
.9909
20
B.A.C. 4896
6
4- 8
—81
18 41.0
4- 6 66 27
—0.5653
.5166
—.2140
—9.4507
.9801
21
r» Libre
4^
4-13
—71
4 52.6
— 8 10 47
—0.4290
.5249
—.1986
—9.5180
.9750
22
B.A.C. 5251
6'
4-64
—10
0 35.4
4-10 63 49
4-0.6340
.5349
—.1658
—9.6015
.9622
22
d Scorpii
H
—53
—90
3 34.1
-10 13 25
—1.2957
.5445
-.1600
—9.5775
.9665
22
19 Scorpii
a Scorpii
s
—22
—90
12 42.7
— I 23 28
—0.9270
.5498
—.1411
—9.6063
.9613
22
3
4-59
—12
12 55.2
— 1 11 26
4-0.5808
.5451
—.1390
—9.6299
.9564
22
a Scorpii
4
4-64
4-16
16 32.6
-H 2 18 40
4-1.0186
.5445
—.1322
—9.6436
.9532
22
22Scorpu
5
4- 4
—73
16 66.2
4- 2 41 16
—0.4468
J^521
-.1300
—9.6227
.9580
23
25 Scorpii
6
—19
—90
0 12.7
4- 9 42 22
—0.8322
.5583
—.1136
-9.6303
.9563
23
A Ophinchi
6
—22
—90
12 24.3
— 2 32 32
—0.8307
.6660
—.0833
-9.6478
.9522
23
43 Ophinchi
6
4-57
— 9
15 41.6
-f- 0 37 28
4-0.6302
.6604
—.0754
-9.6716
.9459
24
3 Sagittarii
B.A.C. 6063
5
4- 8
—58
1 45^
+10 18 63
—0.2219
.6695
—.0666
-9.6684
.9469
24
H
4-12
—50
5 30.7
—10 4 23
— Oi)963
.6704
—.0366
-9.6722
.9458
24
B.A.C. 6072
^
4-53
— 9
6 17.2
— 9 19 42
4-0.6149
.5673
—.0333
—9.6819
.9429
24
B.A.C. 6120
4-30
—29
9 37.3
— 6 7 14
4-0.2622
.5703
—.0252
—9.6783
.9440
24
B.A.C. 6127
5
4-28
—82
10 8.9
— 6 36 44
4-0.2219
.5707
—.0223
—9.6782
.9440
24
B.A.C. 6190
3
4-37
—22
13 56.0
— 1 68 24
4-0.3950
.5711
—.0107
—9.6814
.9431
24
B.A.C. 6191
4-15
—44
13 66.2
— 1 68 10
4-0.0072
.6731
—.0107
—9.6763
.9446
24
B.A.C. 6220
H
4-23
—35
15 48.6
— 0 10 6
4-0.1652
^723
—.0078
—9.6786
.9439
25
^SagiUarii
3
—53
—90
1 24.6
4- 9 3 44
—1.1915
.5810
4-.0217
—9.6590
.9494
25
r Sagittarii
3}
4-12
—61
9 58.3
— 6 42 25
—0.1167
.5761
4-.0483
—9.6698
.9464
25
B.A.C. 6628
6
4-52
—12
17 2.5
4- 0 6 20
4-0.6663
.5720
4-.0688
—9.6736
.9454
^^
6
—15
-90
19 13.6
4- 2 10 22
—0.7009
0.5757
4-.0747
—9.6611
9.9488
52
410
OCCULTATIONS, 1866.
ELEMENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STARS BY THE MOON, FOR THE YEAR 1856.
H
LImitiDg
* ParmU«lt.
Wuh-
1
Dftle.
Star's Nam*.
Time of
6'
North-
ern.
Soath-
em.
H
r
P"
^
^
i:*/,
April26
oiSagittarii
o
-♦-30
-3?
h. m.
5 45.1
h. m. s.
-11 41 26
4-0.1358
0.5721
4-.1032
—9.6522
9.9&11
26
b Sagittarii
5
4-63
4-23
6 U^
—11 16 4
4-1^864
.5671
4-.1060
—9.6651
.9477 1
26
A Sagittarii
B.A.C. 7077
5
4-33
—35
7 1.8
— 10 27 40
4-0.1733
.5717
4-.1088
—9.6508
.9515 !
26
6
-1-63
— 2
20 58.5
4- 2 57 12
4-0.7469
.5640
4-.1464
—9.6328
.9557 ,
27
B.A.C. 7197
6
-h 4
—76
3 26.9
4- 9 10 59
—0.4900
.5673
4-.1614
—93965
.9632
27
B.A.C. 7237
6
4-66
4- 8
5 22.6
4-n 2 85
4-0.9154
.5608
4-.1664
—9.6147
^597
27
B.A.C. 7335
6
4- 3
—81
11 58.9
— 6 35 56
—0.5484
.5631
4-.1828
—93693
.9679
27
27 Capricor.
6
—32
—90
12 24.4
— 6 U 25
—1.1231
.5655
4-.1828
—93569
.9698
27
tp Capricor.
6
4- 5
—78
14 59.5
— 3 49 0
—0.5249
.5618
4-.1897
—9.5591
3694
27
33 Capricor.
6
4-54
—23
18 37.5
— 0 11 59
4-0.3950
.5572
4-.1962
— 956n3
3688
27
35 Capricor.
6
4-68
4-14
19 66.6
4- 1 4 18
4-1.0184
.5537
4-.2005
—93701
3677
27
37 Capricor.
6
4-64
—14
23 13.9
4- 4 14 29
4-0.5723
.5541
4-.2066
-93488
.9710
28
• Capricor.
H
4-12
—36
0 12.0
4- 5 10 25
-f-01472
.5551
4-.2086
-93363
3727
28
H Capricor.
5
4-37
—41
2 36.7
4- 7 29 66
4-0.0574
.5546
4-.2126
—93240
3743 '
28
B.A.C. 1750
6
4-70
-4- 4
2 50.9
4- 7 43 39
4-0.8768
.5519
4-.2126
-93398
3722
28
29 Capricor.
6
-Ml
—40
11 16.9
— 8 8 24
4-0.0863
.5505
4-.2295
—9^18
3791
88
50 Aquarii
B.A.C. 7835
6
-16
—90
21 3.9
4- 1 18 1
—1.0177
M93
4-.2460
-93914
3864
28
6i
—15
—90
23 33.4
4- 3 42 18
— 1.0123
.5487
4-2489
—93729
.9876
28
56 Aqoarii
6
4-75
— 7
23 44.1
4- 3 52 51
4-0.7139
.5444
4-.2490
—9.4220
3843
29
70 Aquarii
6
—30
—90
7 54.5
4-11 46 14
—1.2291
5453
4-.2612
—9.2927
3915
29
74 Aqoarii
6
4-64
—22
10 8.1
—10 4 48
4-0.4297
.5441
4-.2650
—9.3312
3898
29
\p^ Aqoarii
4
-4-80' — 10|
20 20.0
— 0 13 41
-4-0.6591
.5389
4-.2743
—9.2341
3935
29
X Aquarii
5
4-13
—79
20 49 3
4- 0 14 39
—0.5666
.5410
4-.2743
—9.1702
3952
29
V* Aqoarii
4
4-80
4-10
21 16.8
-f- 0 41 14
4-1.0151
.5381
4-.2751
—9.2883
3934
30
24 Piaciom
6
4-21
—70
13 24.2
— 7 43 52
—0.4415
.5381
4-.2863
—8.8886
3990
30
27 Pisciom
5
4-85
— 7
16 3.0
— 6 10 14
-M>.7178
.5370
4-.2877
—8.8804
3987
30
29 PiKciom
5i
4-82
—13
17 30.0
— 3 46 15
-H).6138
JMI74
4-.2880
—8.8248
3990
30
JUPITBB
—-39
-90
18 19.0
— 2 58 47
—1.3643
.5305
4-.2852
—8.4463
3998 i
MV 1
44 Piscium
6
—15
—89
4 22.1
-f- 6 44 0
—1.0907
.5384
4-.2904
4-8.2994
93999
1
lOCeti
6
4- 7
—87
4 55.1
4- 7 15 68
—0.7205
.5386
4-.2905
4-8.1698
OOOOO
1
B.A.C. 274
H
-18
-84
20 6.0
— 2 3 62
—1.1298
.5406
4-.2877
4-8.9974
9M78
1
73 Piscium
4
4-64
—26
22 23.6
4-095
-H).3430
^25
4-.2869
4-8.9300
3984
1
77Pi8cium/>r.
7
4-90
4-31
22 40.1
4- 0 25 0
4-1.1561
.5431
4-.2869
4-8.8585
3989
1
« Piscium
H
4-90
4- 2
23 59.3
4- 1 41 33
4-0.7966
.5436
4-.2861
4-89304
3984
2
t Pisciom
6
4-22
-68
2 22.1
+ 3 59 29
—0.4297
.5430
4-^2849
4-9j0742
3969
2
88 Pisciom
H
4-59
—29
2 49.5
4- 4 25 54
4-02735
3436
4-.2849
4-9.a»7
J9974
6
^B.A.C. 1648
4
4-16
—49
8 24.5
4- 6 12 54
—0.5068
.5830
4-.0800
4-9.6689
3467
6
/» Taori
B.A.C. 1746
2
—20
-62
10 26.8
4- 8 10 20
—1.0428
.5804
4-0739
4-9 6784
3440
6
H
4-55
—12
14 12.8
4-U 47 14
4-0.1543
.5863
4-.06I5
4-9.6654
3477 i
6
136 Tauri
5
4-78
4- 8
20 59.5
— 5 42 20
4-0^960
.5871
4-.0397
4-9.6655
3476
6
B.A.C. 1882
6
-5-6l|
22 12.6
— 4 32 11
—0.8435
.6798
4-.0367
4-9.6844
3422
7
B.A.C. 2097
6
4-45
—14
11 30.9
4- 8 14 25
4-0X)107
.5801
—.0033
4-9.6760
3447
7
49 AorigJB
5
4-55
— 6
13 26.5
4-10 6 29
4-ai788
.5802
— i)093
4-9 6735
3454
7
53 Auriga
6
— 6
-61
14 40.9
-Ml 16 55
—0.8525
.5742
—.0123
4-9.6870
3414
7
54 Aoriga
6
4-38
—21
15 10X>
4-11 44 55
—0.1104
.5777
—4)153
4-9.6771
3444
7
28 Geminor.
6
—10
—61
17 13.5
—10 16 23
—0.9078
.5724
—.0212
4-9.6872
3418
8
47 Geminor.
6
4^90
4-24
4 3.2
-t- 0 8 15
4-a8200
.5745
— X)532
4-9.6584
3495
8
63 Geminor.
6
4-21
—42
5 53.8
4- I 54 36
—0.4100
.5669
— X)587
4-9.6787
3453
8
59 Geminor.
H
4-23
—40
9 27.1
4- 5 19 61
—0.3709
.5655
-.0670, 4-9.6704
3463
8
1 Geminor.
4
4-11
—54
9 56.5
4- 5 48 14
—0.5824
.5634
— J0697
4-9.6728
3456
8
6* Geminor.
H
—16
—62
11 25.7
4- 7 14 3
—1.0387
3607
—.0724
4-9.6775
3442
8
6* Geminor.
4
—25
—62
14 68.3
4-10 38 43
—1.1008
3586 — J0830
4-9.6746
3451 ,
8
B.A.C. 2472
6
— 7
—69
11 59.1
4- 7 46 15
—0.8674
.5607 —.0751
4-9.6746
.9451
8
V Geminor.
5
4-45
—20
14 12.9
-^ 9 65 1
4-a0193
3634 —.0804
4-9.6603
3490
8
c Geminor.
6
4-90
4-25
17 41.9
—10 43 35
4-0.8812
a5656 —.0882
4-9.6488
93532
OCCULTATIONS, 1866.
411
BLEBiENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STARS BY THE MOON FOR '
rHE YEAR 1856.
'
^
limiting
Parallels.
Wadi-
Time of
▲t Waahington Mean Tine of Oonjonotion.
DM*.
Stw'iiraiiM.
1
North-
em.
o
South-
em.
R
Y
Tf
<i'
8to5>
ooaD
o
h. m.
h. m. a
M»J 8
9 Geminor.
6
-his
—55
21 40.1
— 6 54 20
—0.5679
0.5556
— X)984
+9.6591
99494
9
01* Cancri
6
-1-81
+ 3
0 53.9
— 8 47 21
+0.5400
.5568
—.1081
+9.6385
.9545
9
«• Cancri
!t
4-90
+19
1 15.5
— 3 36 33
-+-0.8239
.5582
—.1081
+9.6337
. .9555
9
If/* Cancri
+90
+ 8
4 55.6
+ 0 5 39
+0.6454
.5537
—.1177
+9.6303
.9563
9
V^ Cancri
4
+39
—30
5 3X)
+ 0 12 47
—0.0899
.6507
—.1177
+9.6410
.9538
9
a Cancri
6
+90
H-24
9 80.9
+ 4 81 15
+0.9376
.5521
—.1269
+9.6173
.9591
9
r* Cancri
7
+45
—26
12 14.2
+ 7 8 55
+0.0144
.5454
—.1335
+9.6260
.9573
9
t;* Cancri
ei
+63
—11
13 7.2
+ 805
+0.3090
.5455
— .13.'i6
+9.6197
.9586
9
B.A.C. 2840
7
+46
—26
13 35.5
+ 8 27 22
+0.0293
.5447
—.1356
+9.6280
.9579
9
\^ Cancri
6
+56
—18
14 25^
+ 9 15 58
+0.1904
.5444
—.1378
+9.6191
.9587
9
32 Cancri
7
+50
—23
15 S.5
+ 9 47 16
+0.0967
JM30
—.1398
+9.6189
.9588
10
€ Cancri
6
+20
—56
8 2.8
+ 2 17 47
-0.4565
.5262
—.1727
+9.5862
.9652
10
79 Cancri
6
+18
—57
8 31.3
+ 2 45 20
—0.4875
.5265
—.1727
+9.5843
.9654
10
B.A C. 3138
6
+44
—31
10 6.5
+ 4 18 27
— 0X)003
.5260
—.1761
+9.5713
.9675
10
B A.C. 3292
6i
—40
—69
22 Z\S.
— 7 41 11
-1.2963
.5129
—.1963
+9.5532
.9703
11
fjLeonis
8*
+19
—63
13 4.6
+ 6 26 54
—0.4744
.5044
—.2146
+9.4772
.9795
11
42 Leonis
6
+33
—49
20 44.0
—10 8 4
—0.2135
JMIl
—.2227
+9.4323
.9832
12
B.A.C. 3579
6
+25
—59
0 27.9
— 6 30 35
— OJI677
.4982
—.2268
+9.4151
.9848
12
1 Leonis
6
+15
—70
1 16.9
— 5 44 38
—0.5565
.4966
—.2288
+9.4094
.9852
12
/Leonis
5
+90
+29
11 35.3
+ 4 18 3
+1.B128
.4983
—.2369
+9.2923
.9915
13
B.A.C. 3887
•i
+82
—12
1 21.4
— 6 18 26
-+-0.6019
.4881
—.2465
+9.1870
.9948
13
B.A.C. 3996
6
—28
—84
21 18.0
—10 53 41
—1.2560
.4817
—.2559
+9.0187
.9976
14
6 Virginia
6
—29
—86
3 80.8
— 4 50 46
—1.1468
.4814
—.2575
+8.8903
.9987
14
10 Virginia
6
+11
—85
9 6.3
+ 0 35 57
—0.6495
.4815
—.2587
+8.6738
9.9995
14
13 Virginia
6
+90
+ 9
14 16J
+ 5 37 38
+0.9970
.4819
—.2594
+6.2654
OXXXK)
14
n Virginia
Si
+89
—10
14 59.2
+ 6 18 35
+0.6778
.4821
—.2595
+7.3591
0.0000
14
Mars
+90
+14
15 100
+ 6 29 58
+1.0661
.4836
—.2603
—7.6563
0.0000
15
38 Virginia
6
—13
—90
10 2.6
+ 0 52 49
—1.0515
.4852
—.2584
—8.6846
9.9995
15
A Virginia
^\
—31
—90
19 29.7
+ 10 4 45
—1.2717
.4876
—.2559
—8.9201
.9985
16
k Virginia
6
+78
—13
8 16.1
— 1 29 37
+0.6180
.4918
-.2507
—9.2142
.9941
U
8« Virginia
6
+79
+43
15 20.2
+ 5 21 50
+1.3687
.4940
-.2466
—9.3073
.9909
18
B.A.C. 4896
6
+ 6
—84
1 29.6
— 9 27 24
—0.5572
.5195
—.2139
—9.4707
.9802
18
i»LihnB
^\
+14
-69
11 35.8
+ 0 19 57
— 0.4114
.5269
—.1999
—9.5180
.9750
19
B.A.C. 5253
^
+66
+40
7 4.1
— 4 49 54
+1.2633
.5375
—.1651
—9.6111
.9604
19
B.A.C. 5254
6
+65
— 8
7 5.9
— 4 48 7
+a6645
.5396
—.1651
—9.6016
.9622
19
^ Scorpii
S
_47
— fO
10 2.5
— 1 57 33
—1.2531
.5514
—.1592
-9.5775
.9665
19
19 Scorpii
a Scorpii
5
—19
—90
19 4.3
+ 6 45 34
—0.8782
.5551
—.1399
—9.6063
.9613
19
3
+61
—10
19 16.6
+ 6 57 29
+0.6227
.5489
—.1399
—9.6299
.9564
19
a Scorpii
1
+64
+20
22 51.5
+10 24 49
+ 1.0615
.5487
—.1331
-9.6486
.9532
19
22 Scorpii
5
+ 6
—69
23 14.6
+10 47 5
—03960
.5563
—.1308
—9.6227
.9580
SO
28 Scorpii
6
—16
—90
6 25.4
— 8 17 31
—0.7736
.5629
—.1141
-9.6303
.9563
80
A OpWncbi
5
—18
—90
18 27.3
+ 5 17 55
—0.7619
.5707
—.0832
—9.6478
.9522
SO
43 Ophiuchi
6
+53
—12
21 41.9
+ 8 25 19
+0.5750
.5627
—.0748
—9.6716
.9459
21
3 Sagtttarii
5
+11
-53
7 38.3
— 6 0 61
—0.1466
.6742
—.0472
-9.6684
.9469
SI
BJLC. 6024
«i
—37
—90
8 47.9
— 4 53 56
— 1X)032
.5786
— J0443
—9.6672
.9498
SI
B. AC. 6063
6
+16
—45
11 SOJ
— 2 26*54
—0.0156
.6753
—.0356
—9.6752
.9458
21
B.A.C. 607S
6
+59
— 4
12 6.8
— 1 42 42
+0.6923
.5720
—.0327
—9.6819
.9429
21
BA.C. 6120
6
+33
—26
15 24.5
+ 1 27 27
+0.3177
.5748
—.0243
—9,6783
.9440
21
B.A.C. 6127
5
+32
-27
15 56.0
+ 1 56 42; +0.3038
.5753
—.0210
—9.6782
.9440
SI
B.A.O.6190
6i
+42
—17
19 40.4
+ 5 33 25
+a4797
.5750
—.0121
—9.6814
.9481
31
B.A.C. 6191
^
+20
—39
19 40.6
+ 5 33 39
4-0.0932
Ji770
—.0121
—9.6763
.9446
SI
B.A.C. 6194
5
—56
—90
19 59.2
+ 6 51 80
—1.2134
.5840
—.0092
—9.6584
.9495
SI
B.A.C. 6220
6
+28
—30
21 31.8
+ 7 20 31
+0.2523
.5765
—.0062
—9.6786
.9439
ss
(pSagfttarii
3
—45
—90
7 2.3
— 7 31 13
—1.0942
.5847
+.0238
—9.6590
.9494
1 22
T SagtttarB
3
+18
—45
15 31.9
+ 0 38 34
— OX)147
0.5789
+.0476
—9.6698
9.9464
412
OCCULTATIONS, 1866.
BLEBiENTS FOR FACILITATING THE CALCULATION
OP OCCULTATIONS
OF
PLANETS AND STABS BY THE MOON FOB THE TEAB 1856.
J
LimitiDg
PanU«U.
WMh-
Ijgon
Time or
DMt.
Sttt^iNuM.
North-
am.
0
4-59
Soiith-
•rn.
o
— 6
H
Y
P'
q'
^
Log.
eoo3 1
MV22
B.A.C. 6628
h. m.
22 33.4
h. m. 1.
4- 7 23 36
4-0.6700
03748
4-3684
—93736
99454 1
Sd
B.A C. 6666
4-17
—48
0 43.9
4- 9 28 58
-OX)718
.5778
4-3741
—93611
3488
23
at Saipttarii
^i
H-37
—30
11 13.4
— 4 25 49
4-0.2523
3729
4-.1056
—9.6522
.9511 ;
23
ftSftgittarii
4-63
-♦-36
11 39.9
— 4 0 19
4-1^17
3683
4-.I055
—9.6651
3477 '
23
ASagittarii
4-39
—28
12 30.2
— 3 11 58
4-0.2891
3725
4-.1083
—93508
3515
24
B.A.C. 7077
4-65
4- 6
2 27.7
4-10 13 45
4-0.8730
3639
4-.1455
—93328
3557 '
24
B.A.C. 7197
4-11
—67
8 58.6
— 7 29 59
—03621
3651
4-.1629
—93965
3632 ;
24
B.A.C. 7237
4-66
4-18
10 54.6
— 5 38 14
4-1.0474
3586
4-.1676
—93147
3597 >
24
B.A.C. 7335
4-10
—70
17 33.5
.«- 0 45 58
—0.4195
.5616
4-.] 813
—9.5692
.9679
24
27 Caprioor.
—23
—90
17 59.1
4- 1 11 40
—0.9945
3630
4-.1836
—93670
3698
24
if Capricor.
4-12
—68
90 35.7
4- 3 41 32
—03947
3598
4-.1879
-93591
3694
25
33 Capricor.
4-61
—16
0 ISJO
4- 7 13 54
4-0.5316
3539
4-.1963
—93683
3688
25
35 Capricor.
4-68
4-26
1 36.4
4- 8 31 24
4-1.1601
3511
4-.1984
—93701
3677
25
37 Capricor.
6
4-69
— 6
4 55.6
4-11 43 32
4-0.7117
3517
4-3065
—93488
3710 1
25
• Capricor.
♦*
4-49
—29
5 54.4
—11 19 46
-H).2844
3513
4-3084
— 933U
3727 1
25
« Capricor.
B.A.C. 7650
5
4-45
—34
8 21.6
— 8 57 49
4-0.1949
3508
4-3121
—93240
3743 1
25
6
4-70
4-14
8 35.6
— 8 44 21
4-1.0202
3480
4-3121
-93398
3722'
25
29 Aqnarii
6
4-48
—32
17 9.3
— 0 28 36
4-0.2264
3459
4-3280
—94818
3791 ,
26
50 Aquarii
B.A.O. 7835
6
— 5
—90
3 7.1
4- 9 8 41
—03874
3435
4-3434
—93914
3864 I
26
e*
— 8
—90
5 89.7
4-11 86 3
—03973
3441
4-3468
—93729
3876
26
56 Aquarii
6
4-65
0
5 46.1
4-11 42 14
4-0.8424
3388
4-.2462
-94219
3843 1
26
70 Aqaarii
6
—20
—90
14 10.6
— 4 10 10
—1.1036
3390
4-3575
—9.2927
3915
26
74 Aquarii
6
4-65
—15
16 28.6
- 1 56 47
4-03715
3351
4-3598
—93312
3899 1
27
^» Aqoarii
4^
4-70
— 2
2 56.0
4- 8 9 52
4-0.8032
3311
4-3704
—93340
3935 '
27
/ Aqaarii
H
4-20
—70
8 24.3
4- 8 37 11
—0.4454
3332
4-3705
—9.1702
3952
27
^ Aqnarii
t\
4-80
4-21
3 54;i
4- 9 6 18
-1-1.1636
3305
-•-3713
—93382
3934 1
27
24 Fisciam
4-27
—62
20 28.6
4-188
—03218
3300
4-3813
—83385
3990
28
27 Pisciara
5
4-86
0
23 12.3
4- 2 46 31
4-03545
3292
4-3825
—83804
9987
28
29 PiMiom
H
4-83
— 6
0 42.2
4- 5 13 30
4-0.7447
3290
4-3828
-83238
93990
28
JUPITBE
4-10
—88
10 39.6
—10 8 23
—0.6677
3236
4-3823
4-73S49
03000
28
44 Pisdom
6
—14
—89
11 533
— 7 56 54
—1.0760
3299
4-3849
4-83000
93999
28
lOCeii
6
4-13
—83
12 28X)
— 7 23 29
—03151
3299
4-3849
4-8.1706
03000 1
29
B.A.C. 274
3
—17
—84
4 6.2
4- 7 44 4
—1.0967
3321
4-3821
4-83974
93978
29
73 PuKTiam
4-70
—21
6 28.0
4-10 1 17
4-0.4430
3341
4-3814
4-8.9301
3984
29
77Pisciuinpr.
7
4-90
4-35
6 54.7
4-10 27 3
4-13131
3353
4-3809
4-83586
3969 1
29
e Pifcinm
H
4-90
4- 4
8 6.9
4-11 86 52
4^9026
3352
4-3805
4-83305
3984
29
C Pincium
6
4-27
—62
10 33.9
—10 0 59
—03432
3346
4^3795
4-93742
3969i
29
88 Pisdom
H
4-65
—24
11 1.9
— 9 33 50
4-03688
3357
4-3789
4-93858
3974
30
54Ceti
6
4-90
1
3 34.9
4- 6 25 54
4-0.7866
3437
4-3665
4-93535
3929 ,
31
40 Arietif
6
4-31
—50
4 52^
4- 6 50 51
—0.2565
3571
4-3310
4-948S5
3789!
TT Arietit
H
4-89
— 3
5 13.5
4- 7 10 85
4-03474
3598
4-3810
4-94615
3809)
Q* Arietii
6
4-70
—14
7 59.6
4- 9 50 44
-M)3932
3613
4-3257
4-94840
3788'
(i»Arietit
6
4-90
4- 2
8 14.8
4-10 5 19
-M).?358
3623
4-3257
4-94772
3795
54 Arietii
.1
4-90
4-20
IS 174
— 983
-hi 3698
3665
4-3162
4-94956
3776
4 Arietii
4-70
—18
14 383
— 7 45 1
-M>.4179
3649
4-3143
4-93166
3752
: Arietii
:t
4-10
-67
15 59.9
— 6 26 37
—0.6335
3626
4-3101
4-93445
3715
B A.C. 1032
4-70
-13
18 295
— 4 2 29
4-0.4155
3678
4-3061
4-93337
3730
T» ArietU
5
4-33
—44
18 37.8
— 8 54 34
-03040
3654
4-3056
4-93469
3712]
31
T« Arietii
6
4-64
—16
19 16.7
— 8 17 6
4-03332
3684
4-3040
4-93387
3721 1
'■" 4
54 Aarigs
6
4-32
—27
0 44.3
— 0 52 45 —0.2111
3824
-3153
4-9.6771
3444.
28 Geminor.
6
—18
—61
S 463
-*- 1 4 39 —14)088
3772
—3211
4-93871
3418'
47 Geminor.
6
4-90
4-17
13 28JI
4-11 21 21 1 -M>.6970
3798
—3536
4-9.6584
3495}
53 Geminor.
6
4-15
—48
15 17.4
—10 53 43i —0.5129
3723
—3594
4-93737
345S
59 Geminor.
^
4-16
—48
18 47.9
— 7 31 211—0.4946
3709
—3678
4-93704
3463 1
^^^^
1 Geminor.
4
4- 4
—61
19 15.9
— 7 4 25 —0.7069
03687
-3706
4-93728
93456
OCCULTATIONS, 1856.
413
ELEMENTS FOR I'ACILITATINO THE CALCULATION OP OCCULTATIONS OE ||
PLANETS AND STARS BY THE MOON, FOR
THE YEAR 1856.
§B
LlmitiDg
Pu«UeU.
WaiOi-
Tliaeof
6.
At WaihlngtOQ M«ui Tlnu of Co^jonetton.
Date.
Ster'iKune.
North-
0m.
South-
ern.
H
r
P'
q'
in^
cot D
Jum 4
6> Geminor.
i
0
—32
0
—62
b. m.
20 44.8
h. m. ■.
— 5 38 50
—1.1617
0.5661
—.0734
4-9.6775
9.9442
4
6* Geminor.
—14
—62
20 56.9
— 5 27 13
-0.9640
.5658
-.0761
4-9.6746
.9451
4
B.A.C. 2472
6
—14
—62
21 17.8
— 5 7 6
-0.9924
.5660
—.0761
4-9.6746
.9451
4
V Oeminor.
5
-4-38
—27
23 29.9
— 2 59 58
-0.1132
.5691
—.0816
-t-9.6602
.9490
5
c Geminor.
6
4-90
4-16
2 55.6
4- 0 17 67
-H).7413
.5696
—.0922
4-9.6438
.9532
5
tp Geminor.
5
-h 4
—63
6 50.3
4-4 4 1
—0.7055
.6609
—.1000
4-9.6591
.9494
5
ai» Cancri
6
4-69
— 4
10 1.4
4-786
4-0.3915
.5622
—.1100
4-9.6385
.9544
5
CO* Cancri
H
^
+90
4-11
10 22.4
4- 7 28 21
4-0.6742
.5638
—.1101
4-9.6337
.9555
5
tff^ Cancri
H-12
—59
13 59.6
4-10 57 39
—0.5729
.5544
—.1198
-f-9.6460
.9526
5
V/« Cancri
4
H-31
—38
U 63
4-11 4 16
—0.2423
.5560
—.1198
4-9.6410
.9539
5
X Cancri
6
4-90
4-14
18 31.1
— 8 40 33
4-0.7749
.5572
—.1291
4-9.6173
.9591
5
w' Cancri
7
4-36
-34
21 11.9
— 6 5 26
—0.1459
.5502
—.1358
4-9.6260
.9572
5
»• Cancri
H
4-53
—20
22 4.1
— 5 15 7
4-0.1463
.5503
—.1380
4-9.6197
.9586
5
B.A.C. 2840
7
4-37
—34
22 32.0
— 4 48 14
—0.1326
.5495
—.1381
4-9.6230
.9579
5
i^ Cancri
6
4-46
—26
23 21.5
- 4 0 24
4-0.0264
.5493
—.1403
4-9.6188
.9588
6
32 Cancri
7
4-40
—31
0 1.3
— 3 22 5
—0.0757
.5479
—.1424
4-9.6190
.9588
6
$ Cancri
5
4-10
—65
16 41.5
—11 15 39
—0.6328
.5316
—.1740
4-9.5852
.9652
6
79 Cancri
6
-f- 8
-67
17 9.6
—10 48 30
—0.6643
.5301
— 1756
4-9.5843
.9654
6
B.A.C. 3138
6
4-84
18 43.4
— 9 17 48
—0.1817
.5316
—.1774
4-9.5712
.9675
7
i^Leonis
H
4- 8
-72
21 19.6
— 7 31 17
—0.6744
.5079
—.2164
4-9.4773
.9795
8
42 Leonis
6
4-22
—61
4 53.9
— 0 11 23
—0.4198
.5026
—.2251
4-9.4323
.9835
8
B.A.C. 3579
6
4-14
—70
8 35.4
4- 3 24 46
—0.5733
.15007
—.2281
4-9.4151
.9848
8
i Leonis
6
4- 4
-73
10 23.4
4- 5 9 39
—0.7637
.4990
—.2300
4-9.4094
.9852
8
/Leonis
5
4-90
4-13
19 36.7
— 9 52 46
4-0.9945
.4970
—.2378
4-9.2923
.9915
9
BJi.C. 3837
H
4-66
—23
9 17.1
4- 3 25 7
4-0.3841
.4889
—.2471
4-9.1869
.9948
10
b VirginU
6
—39
—86
11 21.1
4- 4 47 19
—1.3555
.4809
—.2569
4-8.8906
.9987
10
10 Virginis
6
0
—88
16 56.3
4-10 13 41
—0.8569
.4809
-.2579
4-8.6735
9 9995
10
13 Virginis
6
4-90
— 3
22 6.0
— 8 44 46
4-0 7902
.4812
—.2584
-4-6.2984
0.0000
10
17 Virginis
3*
-f-72
—20
22 49.0
— 8 2 52
4-0.4718
.4812
—.2584
4-7.3604
0.0000
11
38 Virginis
6
—27
—90
17 53.6
4-10 31 35
—1.2457
.4773
—.2568
— «.6837
9.9935
12
h Virginis
6
4-68
—20
16 9.9
4- 8 11 59
4-0.4534
.4905
—.2486
—9.2140
.9941
12
86 Virginis
6
4-79
4-25
23 14.4
— 8 55 15
4-1.2153
.4917
—.2445
—9.3072
.9909
14
B.A.C. 4896
6
4- 3
—90
9 25.6
4- 0 16 18
—0.6569
.5192
—.2119
—9.4707
.9802
14
t» Libra
^
-f- 9
—75
19 30.6
4-10 2 27
—04929
.5273
—.1981
—9.5180
.9751
14
.• Libra
4
— 5
—90
20 2.7
4-10 33 33
—0.7551
.5292
—.1965
—9.5148
.9754
15
B.A C. 5253
6
4^66
4-31
14 53.5
4- 4 47 17
4-1.2173
.5393
—.1813
—9.6110
.9604
15
B.A.C. 5254
6
4-63
—10
14 55.4
4- 4 49 5
4-0.6156
.5415
—.1635
—9.6015
.9622
15
d Soorpii
H
—52
—90
17 50.9
4- 7 38 38
—1.2900
.5502
—.1582
—9 5775
.9665
16
l9Scorpu
5
—20
-90
2 48.2
— 7 42 48
—0.8986
.5565
—.1395
-9.6062
.9613
16
a Soorpii
8}
4-60
—12
3 0.6
— 7 30 45
4-0.5968
.5516
—.1381
—9.6299
.9564
16
a Scorpii
U
4-64
4-18
6 33.6
— 4 5 23
4-1.0406
.5518
—.1315
—9.6436
.9533
16
22 Scorpii
5'
4- 5
—70
6 56.5
— 3 43 16
—0.4105
.5595
—.1289
—9.6227
.9580
16
25 Scorpii
6
—16
—90
14 2.9
4- 3 7 45 —0.7727
.5668
—.1120
—9 6303
.9563
17
A Ophiuchi
5
—17
—90
I 56.2
— 9 25 27
—0 7382
.5754
—.0806
—9.6478
.9522
17
43 Ophiachi
6
4-62
— 3
5 8.4
— 6 20 32
4-0.7161
.5699
—.0723
—9.6716
.9459
17
3 Sagittarii
B.A.C. 6127
5
4-13
-60
14 56.2
4- 8 4 38
—0.1024
.5796
—.0436
—9.6684
.9469
17
5
4-36
—24
23 6.0
4-10 55 18
4-0.3600
.5802
—.0198
—9.6782
.9440
18
B.A.C.6194
H
—50
—90
3 5.3
— 9 14 47
—1.1384
.5892
—.0077
—9.6584
.9496
18
<p Sagittarii
4
-87
—90
13 57.0
4- 1 11 7
—0.9917
.5905
4-.0261
—9.6590
.9494
18
r Sagittarii
4
4-24
—39
22 17.7
4- 9 11 50
4-0.0856
5851
4-0507
—9.6698
J465
19
B.A.C. 6628
6
4-62
4- 1
6 11.5
— 8 10 46
4-0.7791
.6804
4-.0720
-9.6736
.9454
19
B»A.C. 6666
6
4-24
—36
7 24.0
— 6 3 23
4-0.0499
.5837
4-.0779
—9.6611
.9488
19
0 Sagitarii
5i
4-44
—23
17 38.8
4- 3 47 5
-f-0.3832
.5793 4-.1073
-9.6522
.9512
19
A Sagitarii
B.A.C. 7077
5
4-47
—21
18 53.3
4- 4 58 37
4-0.4216
.5772:4-.! 130
—9.6445
.9530
20
6
4-65
4-17
8 36.5
— 5 50 5 4-1.0268
0.57091 4-.1486
—9.6328
9.9558
414
OCCULTATIONS, 1866.
ELEMENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
ow
PLANETS AND STARS BY THE MOON FOR '
IHB YEAR 1856.
Date.
Bter's Kama.
j
Lhnitlng
Panlleli.
Wash-
Time of
At Washington Mean Time of Coi^aiiettott.
North-
ern.
o
4-20
South-
em.
H
Y
P'
q'
■toi
^n'^
JUM20
B.A.C. 7197
6
o
—66
h. m.
15 1.1
h. m. a.
4- 0 19 56
—0.1913
a5706
4-.1659
—9.5964
99682
20
B.A.C. 7239
6
-H66
4-33
16 55.3
4- 2 9 62
4-1.2117
.5633
4-.1706
—9.6147
S597
20
B.A.C. 7335
6
-1-20
—58
23 28.3
4- 8 28 13
—0.2354
^658
4-.1845
—9.5692
.9679
20
27 Capricor.
6
—11
—90
23 53.6
-h 8 52 34
—0.8089
.5671
4-.I867
—9.5568
^698
21
ip Capricor.
6
•4- 4
—79
2 28.0
4-11 21 17
— 0J>465
.5640
4-.1867
—9.5591
3695
21
33 Capricor.
6
4-69
— 6
6 5.5
— 9 9 15
4-0.7194
.5576
4-.1995
—9.5632
3688
21
37 Capricor.
6
4-70
4- 6
8 41.7
— 6 43 20
4-0.9061
.5550
4-.2048
—9.5488
3710
21
• Capricor.
^i
4-60
—19
11 39J
— 8 47 3
4-0.4808
.5543
4-.2114
—9.5362
.9727
21
M Capricor.
5
4-57
—22
14 4.§
— 1 27 11
4-0^959
.5538
4-2153
—9.5239
.9743
21
BJLC. 7550
6
4-70
4-30
14 19.1
— 1 13 26
4-1^176
.5511
4-.2153
—9.5397
9722
21
29 Aqoarii
6
4-59
—21
22 47.9
4- 6 57 21
-f-0.4374
.5492
4-.2293
—9.4817
.9791
22
50 Aquarii
B.A.C. 7835
6
4- 5
—89
8 41.4
— 7 29 41
—0.6631
.5458
4-.2443
—9.3919
.9864
22
^
4- 5
—88
11 13.1
— 5 8 9
—0.6556
.5439
4-.2484
—9.3729
.9876
22
5€ Aquarii
6
4-75
4-15
11 19^
— 4 57 0
4-1.0649
.5398
4-.2484
—9.4219
3843
22
70 Aquarii
6
— 5
—90
19 42.5
-h 3 9 0
—0.8712
i>401
-h.2580
—9.2925
3915
22
74 Aquarii
6
4-67
— 2
22 0.0
4- 5 21 57
4-0.8039
.5349
4-.2612
—9.3311
3898
23
fp^ Aquarii
!!
4-80
4-12
8 27.6
— 8 31 12
4-10428
.5309
4-.2705
—9.2340
.9935
23
/ Aquarii
4-32
—55
8 56.5
— 8 3 14
—0.2046
.5323
4-.27I0
—9.1701
3952
23
*p* Aquarii
*i
4-80
-f-49
9 26.2
— 7 34 29
4-1.4048
.5301
4-.2709
—9.2382
3934
23
20 Piscium
6
—35
—90
23 42.5
4- 6 14 1
-1.0275
.5290
4-.2790
—8.7720
3992
24
24 Piscium
H
4-40
—49
2 5.5
4- 8 32 25
—0.0806
.5287
4-.2801
—8.8381
.9990
24
27 Piscium
5
4-86
4-16
5 50.4
—11 48 1
4-1.0998
.5271
4-.2809
-s-8.8801
.9987
24
29 Piscium
3
4-86
4- 8
6 21.4
-11 19 57
4-0.9899
.5264
4-.2812
—8.8232
3990
24
B.A.C. 8365
—18
—90
7 64.4
— 9 49 51
—1.1272
.5271
4-.2817
—8.3558
9.9999
24
lOCeti
6
4-89
+33
18 10.3
4- 0 6 19
4-lX)273
.5264
4-2825
—8.1773
OjOOOO
25
JUPITBR
4-47
-41
23 3.4
-h 4 60 0
4-0.0559
.5211
-•-.2798
-Ha4880
9.9998
25
B.A.C. 221
6
—23
—86
4 86.3
4-10 12 18
—1.1970
.5255
4-.2808
4-8.8986
3986
25
B.A.C. 274
H
4- 1
—85
10 7.4
— 8 27 14
—0.8298
.5275
4-.2786
4-8.9977
3978
25
73 Piscium
6i
4-88
— 9
12 31.6
— 6 7 40
4-0.6707
.5290
4-.2778
4-8.9301
3984
25
e Piscium
5}
4-90
4-19
14 12.5
— 4 30 4
4-1.1329
.5301
4-.2768
4-8.9306
3984
25
C Piscium
6
4-38
—60
16 41.3
— 267
—0.1253
.5294
4-.2758
-f-9.0740
.9969
25
88 Piscium
6*
4-81
—13
17 9.9
— 1 38 22
4-0.5879
.5299
4- .2757
4-9.0358
.9974
26
54Ceti
6
4-90
4-12
10 4.8
— 9 17 19
4-0.9927
.5381
4-2615
4-9.2537
.9929
27
27 Arietis
6
—36
—73
4 10.7
4- 8 12 24
—1.2909
.5420
4-.2390
4-9,4676
3804
27
40 Arieds
6
4-38
—42
11 57.2
— 8 17 17
—0.1062
.5503
4-.2263
4-9.4825
3790
27
7r Arietis
H
4-90
4- 6
12 18.2
— 7 67 7
4-0.8069
.5527
4-.2263
4-9.4626
3809
27
(»« Arietis
6
4-79
— 8
15 8.2
— 5 13 4
4-0.5439
.5541
4-.2212
4-9.4841
3788
27
a* Arietis
6
4-90
4-11
15 23.6
— 4 58 U
4-0.8900
.5525
4-.2212
-f-9.4772
.9775
27
54 Arietis
8
4-90
4-37
20 33.8
4-011
4*1.2190
.5594
4-.2I20
4-9.4956
.9776
27
d Arietis
4-80
— 6
21 56.4
4- 1 20 36
4-0.5518
.5590
4-.2083
4-9.5166
3752
27
t Arietis
^k
4-16
—62
23 19.8
4- 2 40 59
-0.5138
.5558
4-.2060
-h9.5445
.9716
28
B A.C. 1032
4
4-79
— 6
1 52.8
-f- 5 8 29
4-0.5386
.5590
4-.2002
4-9.5838
.9730
28
T* Arietis
5
4-40
-37
2 1.4
H- 5 16 41
—0.8468
.5494
4-.2002
4-9.5469
3713
28
T« Arietis
6
4-73
— 10
2 41.7
4- 5 55 29
4-0.4583
.5609
4-.2002
4-9.5387
3724
^
65 Arietis
6
4-79
— 6
3 23.6
-f. 6 36 55
4-0.5294
.6619
4-.1981
4-9.5400
3722
28
66 Arietis
H
—SO
—68
5 2.9
4- 8 11 38
—1.2017
.5571
4-.1939
4-9.5793
3662
28
9 Tauri
6
—10
—68
8 87.7
-f-11 38 30
—0.9517
.5594
4-.1875
4-9.5871
.9649
28
6 Pleiadnm
5J
—45
—67
11 54.6
— 9 11 55
—1.2984
.5607
4-.1784
-f-9.6034
.9619
28
1 Pleiadum
8
—29
—67
12 8.6
— 8 58 21
-1.1787
.5612
4-.1779
4-9.6« 21
3621
28
3 Pleiadum
9
—33
—67
12 12^
— 8 54 38
—1.2167
.5612
4-.1777
4-9.6030
.9620
28
7 Pleiadum
8
—26
—67
12 19J
— 8 49 11
—1.1524
.5614
4-.1775
4-9.6022
.9621
28
B.A.C. 1155
7
4-31
—43
12 19.4
— 8 48 1
—0.2404
.5652
4-.1775
-|-9Ji864
3650
28
9 Pleiadum
H
—41
—66
12 29.1
— 8 38 38
—1.2753
.5610
4-.1771
-f.9.6048
3616
28
d Pleiadnm
5
—16
—67
12 31.0
— 8 36 52
—1.0259
.5621
4-.1771
4-9.6007
.9624
28
10 Pleiadum
8
—57
—66
12 33.7
— 8 34 14
—1.3317
03609
4-.1769
4-9.6060
9.9614
OCCULTATIONS, 1856.
415
1
ELEMENTS FOR FACILITATING THE (
CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STARS BY THE MOON, FOR
1
THE YEAR 1856.
}
Limiting
Panllels.
Waah-
ingtoa
▲t Waahlngton Mean Time of Conjunction.
Data.
Star's Nune.
McHn
Time of
6'
North-
am.
South-
ern.
H
Y
P'
?'
sini)
cosD
June 28
11 Pleiadura
'4
0
—27
0
—67
h. m.
12 38.9
_
h. m. 8.
8 29 11
—1.1614
0.5617
4-.1768
4-9.6033
9.9619
28
13 Pleiadum
—15
—67
12 49.4
—
8 19 6
—1.0214
.5622
4-.1764
H-9.6016
.9622
28
14 Pleiadum
9
-t- 1
—67
12 51.9
—
8 16 43
—0.7802
.5634
4-1762
4-9.5975
.9630
28
1 5 Pleiadam
3
—26
-67
12 54.4
—
8 14 19
—1.1434
.5618
4-.1761
-h9.6039
.9618
28
16 Pleiadam
— 2
—67
12 54.8
—
8 13 52
—0^241
.5631
4-.1761
H-9.5984
.9628
28
17 Pleiadam
8
•4-^
—67
12 55.4
_
8 13 19
—0.7291
.6643
4-.1761
4-9.5968
.9632
28
18 Pleiadam
8
—26
—67
19 55.5
—
8 13 14
—1.1511
^619
4-.1761
H-9.6040
.9618
28
p Pleiadum
n
—24
—67
12 56.2
—
8 12 31
— 1.1256
^619
4-1760
4-9.6036
.9618
28
19 Pleiadum
8
+ 9
—65
12 56.6
—
8 12 9
—0.6346
^640
4-.17€0
4-9.5952
.9634
28
22 Pleiadam
8
— 8
—67
12 57.9
—
8 10 56
—0.9177
.5629
4-.1760
4-9.6001
.9625
28
2S Pleiadom
H
-4- 7
—51
12 59.2
8 9 89
—0.6694
.5639
4-.1759
4-9.5960
.9633
28
24 Pleiadom
8
—45
—66
12 59.5
—
8 9 23
-1.2921
.5613
4-.1759
4-9.6066
.9613
28
17 Tauri
3
—22
—67
12 56.6
—
8 9 18
—1.1048
.5621
4-1759
4-9.6034
.9619
28
25 Pleiadom
8i
+12
—62
13 3.4
—
8 5 40
—0 5880
.5648
4-.1759
4-9.5947
.9635
28
26 Pleiadam
9
4-16
—58
13 5.9
—
8 3 14
—0.5125
^645
4-.1758
+9.5936
.9637
28
27 Pleiadum
H
—41
—66
13 18.1
_.
7 51 25
—1.2706
.5614
4-.1756
+9.6071
.9612
28
28 Pleiadam
7
4-25
—49
13 21.6
—
7 48 8
—0.3687
.5652
4-.1755
+9.5913
.9641
28
29 Pleiadam
8
—42
—66
13 24.6
—
7 45 15
—1.2803
i»614
4-1755
+9.6076
.9611
28
s Pleiadam
•+■ 3
—65
13 36.3
—
7 33 59
-0.7489
.5636
4-.1752
+9.5992
.9627
28
/Pleiadam
— 9
—67
13 41.5
—
7 29 0
-0.9341
^629
4-.1750
+9.6026
.9621
28
A Pleiadam
8}
—15
—67
13 41.9
__
7 28 82
—1.0179
.5623
4-.1750
+9.6041
.9617
28
30 Pleiadam
4- 2
—63
13 42.7
.»
7 27 49
—0.7608
.5636
4-.1750
+9.5997
.9626
28
31 Pleiadom
8
—45
-66
13 43.9
7 26 38
—1.2948
.5613
4-.1750
+9.6088
.9608
28
32 Pleiadam
8
—39
—66
13 46.0
7 24 39
—1.2569
.5558
4-.1750
+9.6083
.9610
28
33 Pleiadum
H
—23
-66
13 47.9
7 22 46
—1.1146
.5621
-+-.1750
+9.6060
.9614
28
34 Pleiadam
H
4-15
—60
13 55.9
__
7 15 4
—0.5450
.5645
4-.1748
+9.5967
.9632
28
35 Pleiadam
9
—21
—66
13 56.3
7 13 44
—1.0874
.5622
4-.1747
+9.6059
.9614
28
36 Pleiadam
9
—18
—66
13 59.9
—
7 11 12
—1.0495
.5625
4-.1746
+9.6055
.9615
28
37 Pleiadam
8
—30
—66
14 0.5
—
7 10 41
-1.1830
.5619
4-.1744
+9.6077
.9611
28
38 Pleiadam
8
4- 8
-66
14 1.8
—
7 9 27
—0.6685
.5640
4-.1743
+9.5991
.9627
28
B.A.C. 1189
7
4-90
4-22
14 2.7
__
7 10 32
4-0.9716
.5708
4-. 1742
+9.5699
.9678
28
39 Pleiadam
8
—46
—66
14 13.3
—
6 58 18
—1.2969
.5616
4-.1741
+96103
.9606
28
40 Pleiadum
H
— 7
—67
14 24.1
—
6 47 55
—0.8956
^639
H-.1739
+9.6011
.9623
28
32 Tauri
6
4-90
4-42
16 54.6
—
4 23 2
4-1.2028
^740
4-.1667
+9.5747
.9670
28
33 Tauri
6
4-15
—58
16 58.8
—
4 19 2
—0.5187
.5713
4-.1670
+9.5875
.9648
28
36 Tauri
64
4-46
-28
19 57.4
_
1 27 12
4-0.0236
.5709
4-.1594
+9.6043
.9617
29
/Tauri
5
4-17
—53
3 20.0
-1- 5 88 85
—04884
.6721
4-.1414
+9.6306
.9563
30
B.A.C. 1648
6
4-13
—52
2 31.0
4- 8 55 17
—0.5491
.5801
4-.0764
+96688
.9467
SO
/* Tauri
2
—25
—63
4 34.9
4- 5 54 15
—1.0935
.5780
4-.0704
+9.6784
.9440
SO
kA.C. 1746
6i
4-50
—14
8 24.0
4- 9 84 20
•4-0.0959
.5847
4-.0583
+9.6654
.9477
SO
136 Tauri
5
4.71
4- 4
15 13.2
...
7 52 44
4-0.4173
.5861
4'.0370
+9.6655
.9476
July 4
SCancri
5
— 1
—68
1 22.5
—
0 46 48
—0.8128
.6336
—.1771
+9.5851
.9652
4
79Cancri
6
— S
—68
1 50.3
—
0 19 51
—0.8451
.6339
—.1771
+9.5844
.9654
B.A.C. 3138
6
4-25
—51
3 23.6
4-
1 10 19
—0.3661
.5333
—.1806
+9.5713
.9675
tfLeoms
3*
-6
—73
5 49.2
4-
2 46 13
—0.9068
.6023
—.2185
+9.4773
.9795
37 LeoniB
6
4-90
4-42
10 40.5
4- 7 28 47
4-1.3083
.6124
—.2242
+9.3970
.9860
42 Leonis
6
4- 9
—74
3 20.3
4-10 8 55
—0.6639
.5055
—.2273
+9.4323
.9835
B.A.C. 3579
6
4- 1
—75
17 0.3
—
10 22 31
—0.8102
.5022
—.2311
+9.4151
.9848
1 Leonis
6
—17
—75
18 47.5
8 38 28
—1.0909
.5016
—.2321
+9.4095
.9852
/Leoois
5
4-90
— 3
3 57.1
4- 0 15 83
4-0.7268
.4984
—.2405
+9.2923
.9915
B.A.C. 8837
^
4-50
-87
17 83.5
10 30 47
4-0.0996
.4907
—.2488
+9.1871
.9948
0 Leonis
4'
4-90
440
21 31.9
—
6 38 46
4-1.3431
.4903
— .2.'M)7
+9.0744
.9969
10 Virginia
6
—20
—87
I 6.1
—
3 48 41
—1.1590
.4813
—.2583
+8.6739
9.9995
13 Virginia
1^ Virginia
6
4-73
—19
6 14.5
4-
1 11 37
4-0.4912
.4812
—.2585
+6.3139
0.0000
JL
4-53
—86
6 58.8
Jh
1 54 41
4-0.1678
0.4811
—.258514-7.3610
0.0000
416
OCCULTATIONS, 1866.
1 ELEMENTS FOR FACIUTATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STABS BY THE MOON FOB THE YEAB 1856.
.
UmltiDg
WMh-
Time Of
6'
At Washington MMn TtaM or GoiOimettoii.
Date.
Sterol Num.
1
North-
em.
0
-^69
Sooth-
•rn.
H
r
P'
q'
^
008 D '
Julj 9
Mabs
0
— 2
h. m.
15 41.5
h. m. s.
4- 9 45 33
4-0.8060
0.4658
—.2429
—9.1448
9 9957
10
k Virf^inis
6
4-52
—36
0 26.1
— 5 44 1
4-0.1694
-4751
—.2471
—9.2140
.9941
10
86 Virginis
6
-»-79
4- 6
7 34.4
4- 1 12 82
4-0.9360
.4907
—.2429
—93072
.9909
11
B.A.C. 4896
6
—11
—90
17 59.8
4-10 38 22
—0.8900
3172
—.2087
—9.4707
.9802
12
.» Libre
4J
— 8
—90
4 9.1
— 8 31 6
—0.7086
3254
—.1949
—93180
3750
12
t* Libre
3
—18
—90
4 41.5
— 2 59 47
—0.9706
3258
—.1948
—93148
3754
12
42 Libre
-1-67
4-43
17 24.0
4- 9 18 10
4-1.2823
3299
—.1734
—9.5981
3629
12
B.AC 5253
6^
-1-66
4-17
23 39.3
— 8 89 1
4-1.0438
3358
—.1623
—9.6110
.9604
12
B.A C. 5254
6
4-53
—20
23 41.2
— 8 87 15
4-0.4408
3380
— wl623
—9.6016
.9622
18
B A.C. 5335
H
—12
—90
5 11.7
— 8 17 67
—0.7724
3485
-.1508
—93957
3633
13
B.A.C. 5354
H
—16
—90
6 22.1
— 2 10 0
—0.8502
3499
—.1482
—93973
3631
13
19 Scorpii
a Seorpii
5r
—39
-90
11 37.2
4- 2 54 8
—1.0659
3550
—.1874
-9.6063
.9613
13
3
-4^51
—19
11 49.5
4-862
4-0.4464
3507
—.1353
—9.6300
3564
13
a Scorpii
1
4-64
4- 8
15 23.0
4- 6 81 59
4-0.8978
3507
—.1284
—9.6486
.9582
IS
22 Scorpii
5
— 2
—43
15 46.0
4- 6 54 11
—03524
3567
—.1283
—93227
3580
13
25 Scorpii
6
—23
—90
22 53.3
—10 18 58
-0.8982
3528
—.1092
—9.6808
3568
14
A Ophiuchi
5
—23
—90
10 46.6
4- 1 12 52
—0.8366
3740
—.0806
—9.6478
3522
14
43 Ophiuchi
6
4-56
— 9
13 58.4
4- 4 17 20
4-0.6230
3704
—.0696
—9.6716
3459
14
3 Saptiarii
5
4- 9
—55
23 44.3
—10 19 19
—0.1720
3794
—.0488
—9.6684
.9469
15
B.A.C. 6127
5
4-32
—27
7 51.5
— 2 81 18
4-0.3071
3812
— J0199
—93782
3440
15
B.A.C. 6194
5
3;
—53
—90
11 49.2
4- 1 16 56
—1.1760
3907
— i)076
—93584
3496
15
<f> Sagittarii
—39
—90
22 35.0
4-11 36 58
—1.0104
3983
4-X)288
-93590
.9494
16
r Sa^ittarii
3
4-23
—29
6 50X)
— 4 28 2
4-0.0880
3883
4-X)517
—9.6698
.9464
16
B.A.C. 6628
6
4-62
4- 2
13 38.3
4- 2 3 50
4-0.7911
3847
4-X)734
—9.6786
.9454
16
6
4-25
—40
15 44.6
4-451
4-0.0684
3880
4-.0796
—93611
.9488
17
cuSagittarii
*i
4^7
—20
1 52.9
—10 11 0
4-0.4289
3834
4-.1128
—93522
3511
17
A Sagittarii
B.A.C. 7077
5
4-50
—18
3 7.1
— 8 69 47
-h0.4707
3830
4-.H58
—93508
.9515
17
6
4-65
4-23
16 35.0
4- 8 56 18
4-M051
3777
4-1580
—93228
3557
17
B.A.C. 7197
6
4-25
—49
22 51.8
4- 9 58 21
—0.0889
3777
4-.1681
—93965
.9632
18
B.A.C. 7335
6
4-26
—51
7 8.2
— 6 4 18
—0.1123
3720
4-.1899
-93692
3679
18
27 Capricor.
6
— 3
—90
7 33.0
— 5 40 24
—0.6787
.5745
4-.1899
—93569
.9698
18
6
4-29
-49
10 4.0
— 8 15 3
-0.0766
3673
4-1967
-9.5591
.9694
18
33 Capricor.
6
4-69
4- 3
13 36.6
4- 0 9 31
4-0.8472
3652
4-.2032
—93632
.9688
18
37 Capricor.
6
4-70
4-15
18 6.5
-f- 4 29 27
4-1.0421
3622
4-.2137
—93488
.9710
18
• Capricor.
♦i
4-68
—11
19 3.3
4- 5 24 10
4-0.6247
3616
4-.2157
-93862
3727 I
18
M Capricor.
5
4-64
—15
21 25.0
4- 7 40 89
4-0.5458
3612
4-.2197
-93239
3743
19
29 Aqaarii
6
4-70
—12
5 56.0
— 8 6 56
+0.6061
3548
4-2858
—9.4817
3791
19
50 Aquarii
6
4-16
-72
15 36.2
4- 1 12 42
—0.4591
3523
4'.2496
—93918
3864
19
56 Aqoarii
6
4-75
4-31
18 10.3
-h 3 41 22
4-1.2534
3461
-f..2539
—94219
.9843
20
70 Aquarii
6
4- 7
—87
2 21.6
4-11 85 40
—0.6468
3461
4-.2684
—9.2926
.9915
20
74 Aquarii
6
4-78
4-11
4 36.4
—10 14 10
4-1.0158
3417
4-.2655
—93816
3898
20
If/* Aquarii
SI
4-80
4-30
14 50.5
— 0 20 50
4-1.2703
3372
4-.2745
—9.2839
.9985
20
/ Aquarii
20Pisciuiii
4-44
—42
15 19.1
-^ 0 6 50
4-0X)376
3385
4-.2755
—9.1699
.9952
21
6
—12
—90
5 47.7
— 9 53 20
—1.0426
3341
4-.2828
—8.7718
.9992
21
27 Piscinm
5
4-86
4-39
10 50.3
— 5 0 44
4-1.3536
3313
4-.2841
—8.8800
3987
SI
29 Pincium
H
4-86
4-27
12 19.7
— 8 84 6
4-1.2480
3308
4-2849
—83242
.9990
21
44 Piscinm
6
-hl6
—83
28 2a6
— 7 12 57
—03640
3300
-»-.2853
4-83012
3999
22
JUPITBR
4-87
-11
7 51.8
— 8 40 5
4-0.6492
3296
4-.2884
4-8.6066
.9996
22
B.A.C. 221
6
— 3
—86
10 17.2
— 6 19 28
—0.9105
3289
4-.2824
4-8.8988
3986
22
B.A.C. 274
•i
4-17
—76
15 45.2
— 12 8
—03451
.5295
4-.2808
4-83976
3978
22
73 Piidum
n
4-90
4- 7
18 8.3
4- 1 16 22
4-0.9497
3314
.4-^87
4-8.9802
.9984
22
« PiKium
4-90
4-50
19 48.4
4- 2 58 15
4-1.4106
.5319
4-.2781
4-8.9307
3984
22
t Piwnum
6
4-53
—35
22 17.2
4- 5 17 9
4-0.1555
.5312
4-.2762
4-9.0744
3969
22
88 Piscinm
^
4-90
— 2
22 45.7
4- 5 44 42
4-0.8718
.5319
4-J762
4-9.0359
.9974
28
54Ced
6
4-90
4-54
15 85.7
— 1 58 80
4-1.2677
0.5378
4-2615
4-9.2538
9.9929
OCCULTATIONS, 1866.
417
ELEMENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STARS BY THE MOON, FOR THE YEAR 1856.
j
LimitiDg
PuBlleli.
Ugon
Time Of
6-
Date.
8ter*i Name.
North-
em.
South-
em.
H
Y
P"
q'
^
cot D
Jiilj24
27 Arietis
6
o
—13
o
—73
h. m.
9 44.2
h. m. 8.
— 8 26 47
-1.0366
0.5400
4-.2381
4-9.4676
9.9804
24
40 Ari«tifl
6
4-53
—24
17 34.0
— 0 53 8
-4-0.1596
.5460
4-2245
4-9.4821
.9790
24
71 Arietis
H
-4-90
4-22
17 55.1
— 0 32 46
-M0600
.5511
4-.2234
4-94626
.9809
24
e* Arietis
6
-1-90
4- 5
20 46.5
4- 2 12 36
4-0.7923
.5512
4-.2199
4-9.4841
.9789
24
^ArietU
6
-4-90
4-29
21 2.1
4- 2 22 40
4-1.1392
.5528
4-.218I
4-9.4769
.9796
25
4 Arietis
4j
4-90
-4- 7
3 38.5
4- 8 50 4
4-0.7909
.5549
4-.2069
4-9.5167
.9752
25
C Arietis
\\
-1-29
—48
6 2.8
4-10 11 20
—0.2815
.5528
4-.2030
4-9.5445
.9716
25
B.A.C. 1032
6|
4-90
-4- 6
7 37.9
-11 19 4
-4-0.7567
.5572
4-.1990
4-9.5338
.9730
25
T* Arietis
5
4-53
—26
7 46.1
—11 11 14
4-0.1454
.5551
4-.1989
4-9.5468
.9713
25
T« Arietis
6
4-90
•4- 2
8 26J3
—10 32 24
-4-0.6889
.5577
•4-.1968
4-9.5387
.9724
25
65 Arietis
6
4-90
-4- 7
8 9.1
—10 51 12
-4-0.7653
.5586
4-.1948
4-9.5400
.9722
25
66 Arietis
^
—11
—68
10 49.8
— 8 14 9
—0.9815
.5525
4-.1927
4-9.5793
.9662
25
9Taari
6
H- 4
—67
14 27.1
— 4 44 44
—0.7391
.5556
4-.1841
4-9.5871
.9649
25
g Pleiadnm
h Pleiadam
SI
—66
17 44.4
— 1 34 34
—1.2788
.5549
4-.1775
4-9.6065
.9613
25
—21
—67
17 46.5
— 1 32 36
—1.0917
.5556
4-.1775
4-9.6035
.9619
25
1 Pleiadum
8
—11
—67
18 0.8
— 1 18 43
—0.9712
.5571
4-.1751
4-9.6021
.9621
25
3 Pleiadnm
9
—14
—67
18 4.7
— 1 15 3
—1.0097
.5564
4-1763
4-9.6030
.9620
25
4 Pleiadam
8
—40
—66
18 5.7
— 1 14 6
—1.2665
.5553
4-.1764
4-9.6073
.9611
25
6 Pleiadam
9
—40
—66
18 6.9
— 1 12 57
—1.1978
.5555
4-.1761
4-9.6065
.9613
25
e Pleiadam
5
—43
—66
18 10.2
— 1 9 46
—1.2868
.5553
4-.1759
4-9.6079
.9610
25
7 Pleiadam
8
—10
—67
18 11.5
— 1 8 30
—0.9443
.5567
4-.1759
4-9.6022
.9621
25
B.A.C. U55
7
4-13
—32
18 11.7
— 1 8 20
—0.0280
.5604
4-1758
4-9.5864
.9650
25
9 Pleiadam
8i
—19
-66
18 21.6
— 0 58 47
—1.0720
.5563
4-.1753
4-9.6048
.9616
25
d Pleiadam
5
— 1
—67
18 23.4
— 0 57 1
—0.8181
.5573
4-.1751
4-9.6007
.9624
25
10 Pleiadam
8
—24
—66
18 26.2
— 0 54 20
—1.1262
.5562
4-.1760
4-9.6060
.9614
25
11 Pleiadam
3
—10
—67
18 31.5
— 0 49 13
—0.9552
.5569
4-.1748
4-9.6034
.9619
25
13 Pleiadum
— 1
—67
18 421
— 0 39 0
—0.8147
.5577
-H.1743
4-9.6016
.9622
25
14 PleUdam
9
4-13
—61
18 44.6
— 0 36 36
—0.5718
.5587
4-.1743
4-9.5975
.9630
25
15 Pleiadam
3
— 9
—67
18 47.1
— 0 34 11
—0.9378
.5572
4-.1742
-4-9.6039
.9618
25
16 Pleiadam
4-11
—64
18 47.6
— 0 33 43
—0.6162
.5586
4-.1742
4-9.5984
.9628
25
17 Pleiadam
8
4-16
—58
18 48.2
— 0 33 10
—0.5207
.5590
4-.1741
4-9.5968
.9631
25
18 Pleiadam
8
—10
—67
18 48.3
— 0 33 5
—0.9452
.5593
4-.1740
4-9.6041
.9618
25
p Pleiadam
^
— 8
—67
18 49.0
— 0 32 22
—0.9196
.5573
4-.1740
4-9.6036
.9618
25
19 Pleiadam
%
4-21
—53
18 49.4
— 0 32 0
—0.4256
.5594
4-.1740
4-9.5952
.9634
25
22 Pleiadam
8
-4-5
—67
18 50.7
— 0 30 45
—0.7107
.5582
4-.1740
4-9.6001
.9625
25
23 Pleiadom
^\
-4-19
—55
18 52.0
— 0 29 27
—04610
.5593
4-.1740
4-9.5960
.9633
25
24 Pleiadam
8
—21
-66
18 52.3
— 0 29 11
—1.0874
.5578
4-.1740
-4-9.6067
.9612
25
H Taari
3
— 7
-67
18 524
— 0 29 6
—0.8989
.5573
4-.1740
4-9.6035
.9618
25
25 Pleiadom
^
4-24
—50
18 56.2
— 0 25 25
-OJI790
.6597
4-.1739
4-9.5948
.9635
25
26 Pleiadam
9
4-30
—45
18 58.8
— 0 22 57
—0.3034
.5599
4-.1738
4-9.5937
.9637
25
27 Pleiadam
H
—19
—66
19 10.8
— 0 11 24
—1.0676
.5568
4-.1734
4-9.6071
.9612
25
28 Pleiadum
7
-4-37
—37
19 15.0
— 0 7 17
—0.1335
.5606
4-.1732
4-9.5915
.9641
25
29 Pleiadom
8
—20
—66
19 17.7
— 0 4 43
—1.0765
.5568
4-.1732
4-9.6076
.9611
25
« Pleiadom
J!
4-15
—59
19 29.6
4- 0 6 42
—0.5423
.5591
4-.1729
4-9.5992
.9627
25
/Pleiadum
4- 4
—66
19 34.8
4- 0 11 46
—0.7288
.5684
4-.1728
4-9.6026
.9620
95
h Pleiadam
n
— 1
—67
19 35.3
4- 0 12 14
—0.8128
.5580
4-.1728
4-9.6041
.9617
25
30 Pleiadam
4-14
—60
19 36.1
4- 0 12 58
—0.5545
.5591
4-.1728
4-9.5995
.9626
25
31 Pleiadom
8
—20
—66
19 37.3
4- 0 14 9
—1.0745
.5571
4-.1727
4-9.6086
.9609
25
32 Pleiadam
8
—18
—66
19 39.4
4- 0 16 10
—1.0534
.5571
4-.1727
4-9.6083
.9610
25
33 Pleiadum
H
— 7
—66
19 41.3
4- 0 18 4
—0.9107
.5577
4-.1726
4-9.6060
.9614
25
34 Pleiadam
H
4-26
-48
19 49.5
4- 0 25 52
—0.3374
.5603
4-.1723
4-9.5967
.9632
25
35 Pleiadom
9
— 6
—66
19 49.8
4- 0 26 12
—0.8835
.5580
4-.1723
4-9.6060
.9614
25
36 Pleiadam
9
— 3
—66
19 53.5
4- 0 29 48
—0.8455
.5581
4-1722
4-9.6055
.9615
25
37 Pleiadum
8
—12
—66
19 54.1
4- 0 30 19
—0.9826
.5576
4-.1720
4-9.6078
.9611
«
38 Pleiadum
8
4-19
—55
19 55.4
4- 0 31 34
—0.4620
0.5598 4-.1716
-^9.5991
9.9627
53
4t8
OCCULTATIONS, 1866.
ELEMENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
0, I
PLANETS AND STABS BY THE MOON FOR '
IHE YEAR 1856.
1
1
Dftte.
Ster's N«me.
7
8
I'
6i
Limiting
PuallelB.
WMh-
Ington
Mean
Time of
6-
▲tWMhiDgtonMMnTlnMorCoiUanetlon. '
1
North-
ern.
-f-90
—26
4-16
-h90
4-57
South-
em.
r
440
—66
—58
4- 7
—18
H
Y
P'
q'
^
9 9678 I
.9606 '
.9623
.9648
3617
July 25
25
25
25
26
B.A.C. 1189
39 Pleiadum
40 Pleiadum
33 Tauri
36Taari
h. m.
19 56 J)
20 7.0
20 18.0
22 53.5
1 55.9
h. m. i.
4- 0 32 30
4< 0 42 47
4- 0 53 22
4- 3 23 6
4- 6 18 47
4-1.1910
—1.0950
—0.5194
4-0.7106
4-0.2179
0.5665
.5574
3598
3665
3661
4-1710
+.1708
+.1705
+.1634
+.1561
+93699
+9.6103
+9.6012
+93875
+93044
26
. 27
27
27
27
r Tanri
B.A.C. 1648
|»Tauri
B.A C. 1746
136 Taari
4-28
4-21
—14
4-58
4-81
-43
—43
—62
— 7
4-10
9 25.3
9 0.1
11 6.1
14 58.9
21 65.8
—10 28 42
—11 48 9
— 9 47 1
— 6 3 16
4- 0 37 20
—0.3040
—0.4128
—0.9692
-1-0.2249
-hO.5297
3670
3745
3721
3790
3797
+.1386
+.0720
+.0662
H-.0544
+9.6306
+9.6689
+9.6784
+9.6654
+9.6665
.9563
.9467
3440
.9477
.9477
27
28
28
28
28
B.A.C. 1882
B.A.C. 2097
49 Anngm
53 Aarigs
54 Aorigs
e
e
5
— 5
4-41
4-51
—12
4-34
—61
—17
— 9
-61
—26
23 10.9
12 44.5
14 41.6
15 56.9
16 26.6
4^ 1 49 36
— 9 8 33
— 7 16 58
— 6 3 30
— 4 35 6
—0.8824
— 0X)501
4-0.1141
—0.9333
— ai875
3738
3769
3772
3709
3750
+X»06
— i)082
—.0112
—.0201
—.0201
+9.6844
+9.6759
+9.6735
+9.6869
+9.6770
.9422
.9447
3464
.9414
.9444
28
29
29
▲at. 2
3
28 Geminor.
47 Geminor.
53 Geminor.
/ Leonis
B.A.C. 3837
6J
—17
4-90
4-13
4-77
4-38
—61
4-16
—51
—14
—48
18 31.6
6 26.8
7 18.0
11 4^8
1 22.6
— 8 34 49
4- 6 55 22
4- 8 42 20
4- 9 54 54
— 0 53 63
— 1U)028
4-0.6736
—0.5655
4-0.5333
-0.1160
3700
3745
3677
3003
4917
— X)260
—.0577
—.0633
—.2423
—.2481
+9.6871
+9.6584
+9.6736
+9.2923
+9.1870
.9413
.9496 :
3464
.9915
.9948
3
4
4
4
5
0 Leonis
10 Virginig
13 Viririnis
n Virginit
B.A-C. 4255
it
4-90
—52
4-56
4-39
4-86
4-18
—87
— «4
—50
4-23
6 22.2
8 64.9
14 4.4
14 47.5
1 35.7
4- 2 59 11
4- 6 47 49
4-10 49 11
4-11 31 7
— 2 67 41
4-1.1153
—1.4319
4-0.2092
—0.1104
4-1.2023
4912
4818
4817
.4818
.4812
—.2531
— it599
—.2600
—.2600
—.2588
+9.0744
+8.6736
4-63290
+73668
—8.7957
.9969
9.9995 1
04)000
0.0000
93992
6
6
7
8
8
h Virginis
86 Virgtnii
Mars
B.A.C. 4896
1* Libra
**
4-35
4-77
4- 9
—32
—19
—52
—12
—83
—90
—90
8 22.6
16 32.9
7 23.9
2 18.8
12 34.2
4-409
4-10 68 48
4- 2 23 19
— 8 14 49
4- 6 41 60
—0.1369
-M).6353
—0.6008
—1.1839
—0.9842
4875
4891
4756
3137
3209
—.2467
—.2420
—.2190
—.2072
—.1932
-9.2216
^93072
—93828
—94706
—93180
3939!
.9909
.9870
.9802
3760 1
8
9
9
9
9
1* Libras
42 Libra
B.A.C. 5253
B.A C. 5254
B.A.C. 5286
^
U
—41
4-67
4-66
4-39
4-66
—90
4-16
0
—34
0
13 8.9
2 2.4
8 23.2
8 25.1
10 32^
4- 7 16 29
— 4 15 33
4- 1 62 42
4- 1 64 28
4- 3 57 44
—1.2508
4-1.0290
4-0.7962
4-0.1899
+0.8043
3229
3264
3317
3339
3333
-.1918
—.1703
—.1591
—.1591
-.1553
—93148
—93981
—9.6110
—9.6016
—9.6164
.9754
3629
3604
3622 i
3593
9
9
9
9
10
BA.C.5335
B.A.C. 5354
l9Scorpii
a Scorpii
a Scorpii
6
—27
—34
—56
4-38
4-63
—90
—90
—90
—33
— 7
14 0.8
15 12.2
20 32.2
20 44.7
0 213
4- 7 19 4
4- 8 28 0
—10 22 59
—10 10 55
— 6 41 37
—1.0238
—1.0998
—1.2915
-M).2138
4-0.6735
.5403
3454
3497
.5441
34^59
—.1473
—.1453
—.1346
—.1346
—.1258
-93957
—93973
-9.6090
-9.6300
—9.6436
3633<
.9631
3608
3564
3532 1
10
10
10
10
10
22ScoriHi
25 Scorpii
B.A.C. 5800
A OphiocU
38 Ophiochi
5*
— W
—40
— 7
-90
—35
—90
—90
—83
—36
—90
0 44.9
7 586
19 314
20 2.3
20 57.6
— 6 19 4
-f- 0 39 15
4-11 46 47
— 11 43 33
—10 60 14
-0.7854
—1.1218
—0.6512
—1.0382
-1.0231
3618
3609
3669
3704
3712
—.1257
—.1070
-4)790
—.0764
—4)736
—9.6227
-9.6303
—93542
—93478
—9.6490
3680 1
3563
3506
3522 ,
3519;
10
11
11
11
11
43 Ophiachi
3 Sagittarii
B.iLC.6063
B.A.C. 6072
B.A.C. 6120
e
6
4-44
4- 2
4- 7
4-46
4-24
—20
— «7
—65
-15
—35
23 16.7
9 10.2
12 50.8
13 36.3
16 &2J0
— 8 36 22
4- 0 64 35
4- 4 26 40
4- 6 10 24
4- 6 18 25
4-04344
— 0JI457
—0.1849
-M>.5144
44X1612
3652
3757
3765
3735
3778
-X>682
-.0635
— X)313
— J0284
-4)164
-9.6716
—9.6684
-9.6722
-9.6819
—93783
.9459
3469 ,
3458 1
3429
3440
11
11
11
11
12
B.A.C.6127
B.A.C. 6190
B.A.C. 6191
B.A.C. 6220
^Sagiuarii
6
4-23
4-33
4-12
4-21
—48
-36
-26
—45
-^7
—90
17 23.0
21 4.6
21 4.8
22 583
8 14.6
4- 6 48 11
—11 38 66
—11 38 42
— 9 49 39
— 0 55 28
+ai612
4-03478
—0.0354
t +0.1330
—1.1408
.5777
3787
3808
3808
a5901
—4)164
—4)043
—.0022
+.0004
+.0295
—93782
-93814
— 9.f763
- 93785
—93590
3440
3431
3446
3440
9 9494
OCCULTATIONS, 1866,
419
BLEMENT8 FOB FACILITATING THE CALCULATION OF OCCULTATIONS OF
PLANETS AND STARS BY THE MOON FOR THE YEAR 1856.
i
limiting
Panllels.
Wwh-
Time of
6-
At WuhingtoQ MMn Tfane of OoiOaiwtkm.
Date.
Ster'f Nam*.
North-
em.
South-
era.
o
H
Y
P'
q'
J^
eoe D
h. m.
h. m. s.
Aug. 12
r Saf^ttarii
H
4-18
—46
16 88.6
4- 7 a 38
—0.0819
0.5859
4-.0544
—9.6698
9.9465
12
B.A.C. 66S8
6
4-61
— 5
83 82.5
—10 83 58
4-0.6952
.5825
4-.0762
—9.6736
.9454
13
B.A.C. 6666
6
4-20
—46
1 29.2
— 8 88 80
—0.0227
.5863
-H.0824
—9.6611
.9488
IS
lu Sagittarii
H
H-43
-84
U 38.1
4- 1 88 11
4-0.3596
.5836
4-.1127
—9.6522
.9512
13
6Sagittaru
5
4-68
4-55
12 3.3
4- 1 46 S3
—1.2930
.5784
4%1158
—9.6651
.9477
13
A Sagittarii
B A.C. 7077
5
-1-48
—86
12 52.2
4- 8 33 80
4-0.4034
.5826
4-.1187
—9.6508
.9515
14
6
4-65
4-19
2 17.2
— 8 33 36
4-1.0605
.5756
4-.1557
—9.6228
.9557
14
B.A.C. 7197
6
4-84
—51
8 31.4
— 8 34 8
—0.1075
.5789
4-.1717
—9.5964
.9632
14
B.A.C. 7887
6
4-66
4-39
10 22.2
— 0 47 89
-1-1.2820
.5715
4-.1769
—9.6147
.9597
14
aA.C. 7335
6
4-26
-51
16 43.1
4- 5 18 40
—0.1110
.5753
4-.1917
—9.5692
.9679
14
87 Caprioor.
6
— a
—90
17 7.5
-H 5 48 13
—0.6723
.6765
4-.1942
-9.5569
.9698
14
tp Capricor.
6
4-89
—48
19 36.8
4- 8 5 47
—0.0682
.5735
4-.19d7
-9.5591
.9694
14
33 Capricor.
6
4-69
4- 3
23 6.8
4-11 87 43
4-0.8580
.5675
-f-.2081
—9.5632
.9688
15
37 Capricor.
6
4-70
4-16
3 33.0
— 8 16 4
-M.0610
.5649
4-.2166
—9.5487
.9710
15
• Capricor.
4*
4^9
— 9
4 14.7
— 7 36 33
4-0.6500
.5658
4-.2188
-9.5362
.9727
15
« Capricor.
5
4-66
—14
6 48.5
— 5 7 64
-4-0.5766
.5653
4-2229
—9.5939
J743
15
89 Aqaarii
6
4-78
—10
15 10.8
4- S 55 48
4-0.6582
.5600
4-.2400
-9.4817
.9791
15
45 Aqaarii
6
—30
—90
22 18.4
4- 9 47 51
—1.2014
.5613
4-.25I6
-9.3842
^869
16
50 Aquarii
6
4-80
—66
0 39.0
—11 56 34
—0.3745
.5585
4-2547
—9.3913
.9864
16
56 Aqaarii
6
4-75
4-39
8 10.2
— 9 30 46
4-1.3268
.5519
4-.2590
-9.4219
.9843
16
70 Aqaarii
6
-1-14
—77
11 10.6
— 1 47 86
—0.5289
.5526
4-.2692
-9.2925
.9915
16
74 Aqaarii
6
4-78
4-18
13 21.8
4- 0 19 18
-M.1163
.5484
4-.27I5
—9.3811
.9898
16
A* Aquarii
6
—39
—90
18 d4.a
4- 5 20 41
—1.3277
.5507
4-.2768
—9.1679
.9952
16
1^* Aqaarii
n
H-80
4-46
23 20.4
4- 9 56 53
4-1UJ900
.5464
4-.2809
—9.2339
.9955
16
/ Aqoarii
H-58
—35
23 48.9
4-10 23 48
4-0.1744
.5460
4-.2809
-9.1699
.9952
17
20 Piscium
6
— I
—90
13 52.9
— 0 0 84
—0.8604
.5417
4-^894
—8.7716
.9992
17
89 PiKciam
H
4-86
4-47
20 13.7
4- 6 7 37
4-M106
.5390
-f-.2909
—8.8238
.9990
18
44 Piscium
6
4-86
—64
7 3.0
— 7 24 55
—0.3565
.5381
4-.29U
-♦-8.3016
.9999
18
JUPITBR
H-90
4- 3
14 9.4
— 0 38 49
4-0.9282
.5408
-H.2908
-4-8.5290
.9998
18
B.A.C. 221
6
4-62
—89
17 32.8
-1- 8 43 46
4-0.3090
.537^
4-.2882
-t-8.8990
.9986
19
a Piedam
4
--33
—83
0 16.9
4- 9 24 80
—1.3107
.5367
4-.2846
4-9.0931
.9966
19
t; Piscium
6
4-66
—84
5 12.5
—10 0 0
4-0.3825
.5389
4-.2811
-f-9.0744
.9969
19
7c Pisciura
5
—89
—79
15 49.6
4- 0 15 39
—1.2566
.5383
4-2725
4-9.2962
.9913
20
87 Arietta
6
4- 3
—68
15 47.7
— 0 35 59
—0.7813
.5456
-H.2407
4-9.4676
.9804
SO
40 Arietis
6
4-69
—as
23 S9.1
-H 6 49 81
4-0.4052
.5528
4-.2269
4-9.4826
.9790
SO
;rArietU
H
4-90
-4-48
83 49.9
4- 7 9 82
-fl.2912
.5542
-f-.2269
4-9.4626
.9809
SI
^* Arietis
6
4-90
4-19
8 38.3
-f- 9 61 48
4-1.0186
.5547
-f-.22l4
-f-9.4841
.9788
81
47 Arietis
6
—28
—70
3 33.7
4-10 45 11
—1.1384
.5495
-H.2195
4-9.5359
.9728
SI
^Arietis
4i
H-90
4-88
9 83.9
— 7 37 11
4-1.0292
.5603
-H.2075
4-9.5167
.9752
SI
C Arietis
4
4-43
—36
10 46.9
— 6 16 11
—0.0362
.5551
-H.2055
4-9.5446
.9715
SI
B.A.C. 103S
H
4-90
4-sa
13 19.5
— a 60 9
4-1.0093
.5614
4-.1991
-4-9.5338
.9730
SI
T» Arietis
5
4-68
—14
13 88.0
^ 3 41 69
4-0.3864
.5591
4-.1991
4-9.5469
.9712
SI
T* Arietis
6
H-90
4-16
14 7.7
— 3 3 39
4-0.9255
M\7
4-.1968
4-9.5388
.9723
SI
65 ArieUs
6
4-90
4-21
14 50.1
— 2 22 62
-1-0.9977
.5618
•I-.1968
4-9.5401
.9722
SI
66 Arietis
^
4- 4
—68
16 89.8
— 0 48 13
—0.7355
.5563
-K.1925
-t-9.5794
.9662
SI
• Taari
6
4-18
—58
80 4.2
4- 2 39 43
—0.4970
.5591
4-.l8.35
4-9.5871
.9649
SI
9 Pleladora
H
—16
—66
83 19.5
4- 5 46 50
—1.0363
.5580
-f-.1766
4-9.6065
.9613
SI
b Pleiadum
4
— 3
—67
83 81.5
-H 5 49 47
—0.8505
.5587
-4-.1766
-4-9.6035
.9618
SI
aTauri
5
—30
—66
83 89.3
-<- 5 57 18
— 1.1901
.5573
4-.1766
4-9.6096
.9607
SI
1 Pleiadom
8
4- 4
-66
83 35.6
•4- 6 3 23
—0.7303
.5591
4-.1766
4-9.6021
.9621
SI
a Pleiadam
^
—87
—66
83 38.6
4-669
—1.1604
.5574
4-.1765
4-9.6095
.9607
SI
3 Pleiadam
9
4- a
—67
83 39.5
4-676
-0.7688
.5591
-f-.1765
4-9.6030
.9620
SI
4 Piaiadam
8
-15
—66
83 40.1
4- 6 7 39
—1.0254
.5580 4-.1763I
-1-9.6073
.9611
SI
5 Pleiadom
9
—52
—66
83 40.4
H- 6 7 57
— 1.32^2, .55671 -1-.1 763 1
4-9.6123
.9601
SI
6 Pleiadam
9
—11
—66
83 41.6
4-6 9 10 —0.97301 0.5588! -<-.l 7631
4-9.6066
9.9613
420
OCCULTATIONS, 1856.
' ELEMENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STARS BY THE MOON, FOR THE YEAR 1856.
i
Limiting
Panllelt.
WMh-
Time of
6.
Date.
8«tt>iNuM.
North-
em.
Soath-
am.
H
Y
P"
q'
^
eoe/>
Aug. 21
c Pleiadnm
5
-1?
o
—66
h. m.
23 44.9
h. m. s.
4- 6 12 20
—1.0440
0.5580
4-.1760
4-9.6079
9.9610!
21
7 Pleiadam
8
+ 6
—67
23 46.2
4- 6 13 36
—0.7045
.5594
4-.1760
4-9.6022
.9621 1
21
B.A.C. 1155
7
-+-57
—20
23 46.5
4- 6 13 54
4-02089
.5631
4-.1759
4-9.5865
^650
21
k Pleiadum
n
—35
.i-66
23 46.7
4- 6 14 5
—1.2306
.6572
4-.1759
4-9.6111
.9604
21
/ Pleiadam
7
—30
—66
23 50.2
4- 6 17 27
—1.1932
.5573
4-.1758
4-9.6106
.9604
21
9 Pleiadum
H
— 2
—67
23 56.2
4- 6 23 13
—0.8306
^590
4-.1754
4-9.6048
i>616,
22
d Pleiadum
5
-4-13
-62
23 58.1
4- 6 25 0
—0.5785
.5600
4-.1753
4-9.6007
^694
22
10 Pleiadam
8
— 5
—66
0 1.1
4- 6 27 58
—0.8841
.5587
4-.1750
4-9.6060
.9614
22
11 Pleiadam
8J
-h 5
—67
0 6.4
4- 6 32 I
—0.7140
.5596
4-.1746
4-9.6034
.9619
22
12 Pleiadum
n
—23
—66
0 14.2
4- 6 40 29
—1.1189
.5581
-4-.1742
4-9.6105
.96(^
22
13 Pleiadnm
H
-h 3
—66
0 16.6
4- 6 42 50
—0.7456
.5602
4-.1742
4-9.6019
^622
22
14 Pleiadnm
9
4-26
—48
0 19.1
4- 6 55 14
—0.3337
.5613
4-.1742
4-9.5975
.96301
22
15 Pleiadnm
^
4- 6
—66
0 21.6
4- 6 47 38
—0.6973
.5598
4-.1742
4-9.6039
.9618
22
16 Pleiadam
-4-24
—50
0 22.0
4- 6 48 6
—03777
.5610
4-.1742
4-9J^984
.9628
22
17 Pleiadam
8
H.29
—45
0 22.6
4- 6 48 37
—0.2828
.5616
4-.1742
4-9.5966
J9632
22
18 Pleiadam
8
-4- 6
—66
0 22.7
4- 6 48 43
—0.7050
.5596
4-.1742
4-9.6041
3617;
22
p Pleiadam
n
-4- 7
—66
0 23.4
4- 6 49 20
—0.6797
.5598
4-1742
4-9.6036
.9618
22
19 Pleiadum
8
-4-34
—40
0 23.8
4- 6 49 47
-0.1879
.5618
4-.1742
4-9.5952
.9634
22
20 Pleiadum
8
—27
—66
0 24.0
4- 6 50 1
—1.1617
.5577
4-.1742
4-9.61 18
.9602-
22
21 Pleiadum
8i
—35
-66
0 25.1
4- 6 51 0
—1.2286
.5574
4-.1742
4-9.6129
.9600
22
22 Pleiadnm
8
4-19
—55
0 25.1
4- 6 51 1
—0.4716
.5607
4-.1742
4-9.6002
.9625
22
23 Pleiadum
8i
4-32
—42
0 26.5
4- 6 52 20
—0.2235
.5617
4-.1742
4-9.5960
3633'
22
24 Pleiadam
8
— 3
—66
0 26.7
4- 6 52 35
—0.8470
.5590
4-.1742
4-9.6067
3612
22
1] Tauri
3
4- 8
—65
0 26.8
4- 6 52 39
—0.6587
.5598
4-.1742
4-9.6035
3618
22
25 Pleiadam
H
4-37
—38
0 30.6
4- 6 66 17
—0.1419
.5627
4-.1742
4-9.5948
3635
22
26 Pleiadam
9
4-41
—34
0 33.1
4- 6 58 45
-0.0662
.5626
4-.1742
4-93937
3637
22
27 Pleiadam
H
— 2
—66
0 45J0
4- 7 10 14
—0.8270
.5596
4-.1740
4-9.6071
3612 1
22
28 Pleiadam
7
4-50
—25
0 48.9
4* 7 13 56
4-01021
.5635
4-.1740
4-9.5915
3641
22
29 Pleiadam
8
— 2
—66
0 51.9
4- 7 16 50
—0.8356
.5596
4-.1740
4-9.6076
3611
22
8 Pleiadum
n
4-28
—46
1 3.6
4- 7 28 8
—0.3042
.5618
4-.1735
4-9.5992
3627
22
/Pleiadum
^
4-18
—66
1 8.8
4- 7 33 8
-04897
.5610
4-.1730
4-9.6026
3620
22
/« Pleiadum
4
4-13
—61
1 9.3
4- 7 33 37
—0.5736
.5607
4-.1730
4-9.6041
3617
22
30 Pleiadum
4
4-27
—47
1 10.1
-4- 7 34 20
—0.3162
.5618
4-.1728
4-9.5997
3626
22
31 Pleiadum
8
— 2
—66
1 11.3
4- 7 35 31
—0.8339
.5596
4-.1727
4-9.6086
3609|
22
•
32 Pleiadnm
8
— 1
—66
1 13.4
4- 7 37 31
—0.8128
J^599
4-.1725
4-9.6083
3610
22
33 Pleiadnm
^
4- 8
—66
1 15.3
4- 7 89 23
—0.6713
.5604
4-.1719
4-9.6060
3614
22
34 Pleiadnm
7j
4-39
—35
1 23.4
4- 7 47 7
—0.1007
.5629
4-.1718
4-9.5967
3632
22
35 Pleiadum
9
4- 9
-64
1 23.7
4- 7 47 26
—0.6443
.5605
4-.1718
4-9.6060
3614
22
36 Pleiadnm
9
4-11
—63
1 27.4
4- 7 51 0
—0.6062
.5608
4-.1718
4-9.6055
3615
22
37 Pleiadum
8
4- 2
—64
I 27.9
4- 7 51 31
—0.7572
.5601
4-.1718
4-9.6078
3610
22
38 Pleiadnm
8
4-82
—42
1 29.2
4- 7 62 46
—0.2247
.5625
4-.1718
4-9.5991
.9627
22
39 Pleiadnm
8
— 4
—66
1 40.8
4- 8 3 52
—0.8545
.5599
4-.1718
4-9.6103
3606
22
40 Pleiadnm
8
4-29
—45
1 51.8
4- 8 14 21
—0.2783
.5619
4-.1718
4-9.6011
.9623
22
33 Tanri
6
4-90
4-21
4 27.1
4-10 43 59
4-0.9432
.5683
4-.1645
-4-9.5875
.9648
22
36 Tauri
6*
4-73
— 6
7 26.9
—10 22 54
4-0.4482
.5677
4-.157I
4-9.6043
.9617
22
/Tauri
St
4-40
—31
14 53.7
— 3 12 56
—0.0804
.5678
4-.1364
4-9.6306
3563
23
B.A.C. 1648
4-32
—31
14 27.3
— 4 33 86
—0.2207
.5733 4-.0720
4-9.6690
.9467;
23
|J Tauri
2
0
—62
16 33.7
— 2 32 5
—0.7713
.57071 4-.0661
4-9.6784
3440
23
B.A.C. 1746
H
4-71
4- 1
20 27.4
4- 1 12 25
4-0.4185
.5770' 4-.0543
4-9.6654
.9477
23
B.A.C. 1772
6
-^1
—61
21 46.0
4- 2 28 6
—1.1482
.6690
4-.0514
4-9.6873
3413
24
136 Taari
5
4-90
4-20
3 26.5
4- 7 55 22
4-0.7166
.6786
4-X)3S6
4-9.6655
3477
24
B.A.C. 1882
H
4- 5
—58
4 42.1
4-983
—0.6860
.5712
4-X)306
4-9.6849
3420
24
X AurigfB
4
—36
—61
12 16.0
— 7 35 34
—1.1790
.5675
4-0072
4-9.6930
3395
24
B.A.C. 2097
1
4-52
— 9
18 21.5
- 1 44 5
4-0.1200
.5731
—.0108
4-9.6759
3447
24
49 Aurigo
4-621 — 2
20 20.2
4-0 9 5914-0.2763
0.5733
—.0166
4-9.6735
93454
OCCULTATIONS, 1856.
421
BLEBiBNTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STARS BY THE MOON FOR
THE YEAR 1856.
H
Umiting
ParaUdS.
Wash-
Time of
<5.
▲t WaahlngtOQ Mean Tfane of Coqjiuietion
Data.
Ster's Name.
North-
em.
South-
em.
0
—61
H
r
P'
q'
■inS>
coe D
Alig.24
53 AarigiB
0
— I
h. m.
21 36.2
h. m. s.
4- 1 23 10
-0.7773
0.5677
— 0196
+9.6870
99414
24
54 AnrigflB
6
+•43
—18
22 6.1
4- 1 51 50
—0.0285
.5709
—.0224
+9.6770
.9444
25
28 Genii nor.
6
— 5
—61
0 12.4
4- 3 53 21
—0.8461
.5662
—.0282
+9.6870
.9414
25
47 Geniinor.
6
-^90
4-23
11 14.8
— 9 29 15
4-0.8164
.5696
—.0593
+9.6584
.9496
25
53 Gcminor.
6
•4-21
—43
18 7.2
— 7 41 0
—0.4199
.5630
—.0648
+9.6736
.9454
25
59 Geminor.
«*
4-21
—43
16 43.9
— 4 12 21
—0.4228
.5618
—.0729
+9.6703
.9463
25
1 Geminor.
4
-+- 8
—58
17 14.3
— 8 43 4
—0.6398
.5598
—.0774
+9.6728
.9456
25
6* Geminor.
51
—27
-62
18 44.2
— 2 16 28
—1.1099
.5572
—.0789
+9.6774
.9442
25
b* Geminor.
5*
— 9
—62
18 56.6
— 2 4 32
—0.9109
.5573
—.0809
+9.6746
.9451
25
BJLC. 2472
6
—12
—62
19 18.2
— 1 43 49
—0.9421
.5576
—.0809
+9.6746
.9451
25
V Geminor.
5
4-42
—25
21 33.7
4- 0 26 44
—0.0647
.5605
—.0863
+9.6602
.9490
26
c Geminor.
6
4-90
4-17
1 5.2
4- 3 50 30
4-0.7771
.5617
—.0966
+9.6438
.9532
26
if Geminor.
5
4- 4
—63
5 5.9
4- 7 42 85
—0.7099
.5525
—.1066
+9.6590
.9494
26
CO* Cancri
6
4-68
— 6
8 21.7
4-10 51 21
4-0.3792
.5555
—.1142
+9.6385
.9545
26
ai« Cancri
6i
4-90
4- 9
8 43.2
4-11 12 7
4-0.6627
.5569
—.1143
+9.6337
.9555
26
xfA Cancri
H
4-10
—60
12 25.4
— 9 13 37
—0.6200
.5485
—.1235
+9.6460
.9527
26
V^ Cancri
4
4-29
—41
12 32.3
— 9 6 53
-0.2868
.5500
—.1235
+9.6410
.9.538
26
X Cancri
6
4-90
4-10
17 2.5
— 4 46 8
-1-0.7129
.5546
—.1350
+9.6173
.9591
26
»' Cancri
7
4-31
—39
19 46.6
— 2 7 43
—0.2334
.5456
—.1394
+9.6259
.9573
26
»• Cancri
6*
4-48
—25
20 39.8
— 1 16 21
-f-0.0554
.5460
—.1417
+9.6197
.9586
26
B.A.C. 2840
f
4-35
—40
21 8.2
— 0 48 59
—0.2288
.5436
—.1437
+9.6230
.9579
26
\^ Cancri
6
4-41
—32
21 58.6
— 0 0 16
—0.0731
.5435
—.1459
+9.6188
.9588
26
32 Cancri
7
4-34
—37
22 39.1
-f- 0 38 48
—0.1806
.5436
—.1460
+9.6189
.9588
27
1 Cancri
5
— 3
—68
15 34.4
— 6 59 42
—0.8467
.5287
—.1794
+9.5851
.9652
27
79 Cancri
6
— 5
—68
16 2.7
— 6 32 17
—0.8806
.5272
—.1810
+9.5843
.9654
27
B.A.C. 3138
6
4-23
—54
17 37.5
— 5 0 34
—0.4051
.5288
—.1829
+9.5712
9.9676
31
13 Virginia
6
4-48
—42
21 4.6
— 4 23 2
4-0X)629
.4825
—.2650
+6.3190
0.0000
31
17 Virginis
B.A.C. 4255
9
4-32
—59
21 47.6
— 3 41 5
—0.2581
.4825
—.2650
+7.3632
00000
Sept. 1
4-87
4-12
8 36.4
4- 6 50 37
4-1.0409
.4828
—.2605
—8.7956
9.9992
2
A Vfipginia
6
4-25
—64
15 26X)
—11 8 43
—0.3359
.4879
—.2477
—9.2140
.9941
2
86 Virginia
6
4-65
—22
22 37.8
— 4 8 87
+0.4334
.4892
—.2429
—9.3072
.9909
3
B.A.C. 4679
%
4-76
4- 2
8 45.5
4- 5 42 18
+0.8716
.4920
—.2346
—9.3720
.9864
4
f* LibrfB
—37
—90
20 2.2
— 8 2 34
—1.2162
.5192
—.1914
—9.5179
.9750
4
B A.C. 5023
6
H-68
4-39
22 2.7
— 6 5 46
+1.2835
.5129
—.1883
—9.5711
.9676
5
42Libne
5i
4-67
4- I
9 39.6
4- 5 9 22
.4-0.8226
.5217
—.1730
-9.5981
.9629
5
B.A C. 5253
6
-1-66
— 1
16 6.7
4-11 23 57
+0.7716
.5282
—.1571
—9.6110
.9604
5
B.A.C. 5254
6
-4-29
—46
16 8.6
-4-11 26 46
—0.0211
.5304
—.1571
—9.6016
.9622
5
3 Scorpii
6
4-66
4-52
16 27.0
4-11 43 39
+ 1.3173
.5250
—.1571
—9.6230
.9579
5
B.A.C. 5286
St
4-61
—12
18 18.1
—10 28 58
+0.5991
.5294
—.1536
—9.6164
.9593
6
0 Scorpii
4-27
—44
4 41.4
— 0 26 26
+0.0076
.5412
—.1334
—9.6299
.9564
6
a Scorpii
u
4-51
—18
8 22.5
4-8 7 7
4-0.4740
.5405
—.1241
—9.6436
.9532
6
22 Scorpii
5
—28
—90
8 46.3
-f. 3 30 7
—0.9993
.5464
—.1241
—9.6227
.9580
7
B.A.C. 5800
^
—18
-90
3 57.3
— 1 59 32
—0.7515
.5610
—.0759
—9.6542
.9506
7
A Ophinchi
5
—55
—90
4 28.8
— 1 29 12
—1.2419
.5629
—.0759
-9.6478
.9522
7
38 Ophiachi
6i
—53
—90
5 25.4
— 0 34 35
—1.2266
.5635
—.0733
—9.6490
.9519
7
43 Ophiachi
6
4-33
—^1
7 47.8
4- 1 42 32
4-0.2488
.5576
—.0681
—9.6716
.9459
7
3 Sagittarii
5
—10
—82
17 55.5
4-11 27 44
—0.5314
.5688
—.0381
—9.6684
.9469
7
B.A.C. 6063
3
— 2
—68
21 41.5
— 8 54 45
—0.3732
.5691
—.0296
—9.6722
.9458
7
B.A.C. 6072
4-35
—25
22 28.1
— 8 9 56
+0.3434
.5662
—.0268
—9.6819
.9429
8
y' Sagittarii
4
4-61
4-35
1 3.4
— 5 40 30
+ 1.1811
.5632
—.0182
—9.6935
.9393
8
B A.C. 6120
^
4-15
—45
1 48.6
— 4 57 5
—0.0112
.5692
—.0182
—9.6782
.9440
8
B.A.C. 6127
6
4-14
—46
2 20.3
— 4 26 34
—0.0209
.5699
—.0153
—9.6782
.9440
8
B.A.C. 6190
H
4-34
—24
6 7.3
— 0 48 2
+0.3569
.5707
—.0036
—9.6814
.9431
8
B.A.C. 6191
6
4- 4
—57
6 7.6
— 0 47 56
—0.2065
.5727
—.0036
—9.6763
.9446
8
B.A.C. 6220
&
4-12
-47
7 59.9
4-102
—0.0351
0.5725
—.0023
—9.6787
9.9439
422
OCCULTATIONS, 1866.
ELEMENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STARR BY THE MOON, FOR THE YEAR 1856.
1
Limiting
Panllels.
WMh-
Time of
6^
Date.
Star's Num.
North-
em.
Soath-
em.
H
r
P'
q'
i^
c^l
Sept. 9
r Sapttarii
H
o
4-10
o
—55
h. m.
2 3.9
h. m. 8.
^ 6 38 I
—0.1713
0.5781
+i)562
—9.6698
9.9464'
9
B.A.C. 6628
4-52
—13
9 3.5
4-155
-H).561l
.5749
+.0773
—9.6736
.9454 :
9
B.A.C. 6666
4-13
—54
11 13.0
4- 8 9 81
—0.1604
.5786
+.0832
—9.661 1
^488|
9
Of Saf^itcarii
H
-♦•28
—41
21 85.0
—10 62 49
4-0.0670
.6748
+.1127
—9.6528
.9511 I
9
6Sagittarii
-K3
4-82
22 1.1
—10 27 41
4-1.1814
.5712
+.1157
—9.6651
.9477 i
9
A Sagittarii
B.A^. 7077
-h89
—29
22 50.6
— 9 40 7
4-0.2888
.5760
+.115S
—9.6508
.9515 1
10
-f.65
4-12
12 30.7
4- 8 28 2
-H).9636
.5738
+.1549
—9.6328
.9558 ;
10
B.A.C. 7197
4-20
—56
18 50.6
4- 9 83 21
—0.2032
.6737
+.1707
—9.5964
^€32
10
B.A.C. 7237
+66
4-31
20 43.2
4-U 21 88
4-1.1965
.5669
+.1758
—9.6147
.9597
11
B.A.C. 7335
4-22
—56
3 8.9
— 6 27 22
—0.1928
.5699
+.1932
—9.5692
.9679
11
27 Capricor.
— 7
—90
3 83.7
— 6 3 81
—0.7560
.6728
+.1932
— 9J5569
.9698
11
tp Capricor.
4-25
—53
6 4.6
— 8 88 16
—0.1455
MBS
+.2003
—93591
.9695
11
33 Capricor.
4-69
— 1
9 86.7
— 0 14 12
40.7893
.5642
+.2071
—9.5632
.9688
11
37 Capricor.
4-70
4-12
14 5.2
4- 4 4 16
4-0 9993
.5612
+.2180
—9.5487
3710
11
• Capricor.
U
4-66
—13
15 1.6
4* 4 68 86
4-0.5889
.5623
+.2202
—9.5362
.9727
11
» Capricor.
4-63
—17
17 22.1
4- 7 13 53
4-0.5199
.6621
+.2244
—9.5239
.9743
12
29 Aqaarii
4-70
—12
1 46.7
— 8 40 7
4-0.6178
.6587
+.2399
—9.4817
.9791
12
45 Aqaarii
—33
—90
8 54.7
— 1 47 36
—1.2300
.5604
+.2539
—9.3843
.9869,
12
50 Aquarii
4-19
—68
11 15.3
4- 0 27 56
-0.3995
.5576
+.2569
—9.3918
.9864 t
12
56 Aqaarii
4-75
4-85
13 46.3
4- 2 63 26
4-1.3020
.5525
+.2598
—9.4219
.9843
12
70 Aqaarii
4-14
—77
21 44.6
4-10 84 42
—0.6340
.5540
+.2709
—9.2924
.9915
12
74 Aquarii
4-78
4-17
23 54.9
—11 19 32
4-1.1089
.5494
+.2746
—9.3310
.9898
13
h} Aqaarii
—36
—90
5 4.8
— 6 20 86
—1.3116
.5522
+.2800
—9.1680
.9952 1
13
/ A(|uarii
20 PiBcium
H
4-53
—35
10 15.5
— 1 20 45
4-0.1910
.5484
+.2847
—9.1699
.9952
14
6
4- 2
—90
0 7.7
—11 67 27
—03091
.5464
+.2936
—8.7717
.9992
14
44 Pigcium
6
4-Sl
—69
16 56.2
4- 4 16 23
—0.2690
.5447
+.2968
+8.2975
9.9999
14
JUPITBR
4-90
— 8
19 21.1
4- 6 86 12
-H).8110
.5603
+.2984
+8.1293
00000
IS
B.A.C. 221
6
4-16
—79
3 9.8
— 9 51 10
—0.5746
.5447
+.3004
+8.8979
9.9986 :
15
• Pisciam
4
—23
—83
9 42.1
— 3 82 29
—1.1940
3437
+.2908
+9.0932
.9966
15
C Piscium
6
4-73
—19
14 29.8
4- I 4 49
-♦-0.4799
.5468
+.2867
+9.0744
.9969
16
n Pisciom
5
—18
-79
0 46.6
4-11 0 84
—1.1205
.5603
+.2783
+9.2962
.9918 '
16
27 Arietis
6
4-11
—71
23 56 6
4- 9 20 53
—0.6310
.5565
+.2442
+9.4676
.9804 ,
17
40 Arietis
6
4-78
—10
7 22.5
— 7 29 32
-H).5248
.5631
+.2314
+9.4826
.9790
17
a* Arietis
6
4-90
4-30
10 25.4
— 4 83 25
4-1.1598
.5664
+.2254
+9.4841
.9788
17
47 ArietU
6
—10
—70
U 18.9
— 8 41 51
-0.9763
.5598
+.2234
+9.5360
.9728
17
S Arietia
J!
4-90
4-32
16 57.6
4- 1 44 13
4-1.1612
.5703
+.2106
+93167
.9752 !
17
t Arietis
4-51
—28
18 17.9
4- 8 1 28
4-0.1115
.5665
+.2084
+9.5445
.9715
17
T» Arietis
5
4-79
— 6
20 58.8
4- 5 81 28
4-0Ji289
.5696
+.2015
+9.5469
.9713
17
T* Arietis
6
4-90
4-25
21 32.2
4- 6 8 30
4-1.0602
.5711
+.2016
+9.5387
.9723
17
65 Arietis
6
4-90
4-31
22 13.2
4- 6 47 55
4-1.1314
.5725
+.1993
+93401
.9722:
17
66 Arietis
H
4-14
—63
23 49.8
4- 8 20 24
—0.5750
.5657
+.1969
+93794
.9662
18
9 Tauri
6
4-26
—49
8 17.4
4-11 40 34
—0.3394
.5682 4-.1872
+9.5871
.9649
18
g Pleiadam
H
— 4
—66
6 26.1
— 9 17 58
—0.8726
.5673
+.1799
+9.6065
.9613
18
6 Pleiadum
5
4- 7
—66
6 28.6
— 9 15 29
—0.6873
.5679
+.1799
+9.6035
.9618 '
18
tTaari
5
—15
—66
6 86.2
— 9 8 13
—1.0221
.5666
+.1799
+9.6096
.9607
18
1 Pleiadam
8
4-14
—61
6 42.6
— 9 2 8
—0.5694
.6688! 4-.1787
+9.6021
.9621
18
2 Pleiadam
H
—13
—66
6 45.0
— 8 59 41
—0.9933
Ji666 4-.1786 4-9.6096
.9607
18
3 Pleiadum
9
4-11
—61
6 46.0
— 8 58 44
—0.6071
.5683 +.1786
+9 6030
.9620
18
4 Pleiadam
8
— 4
-66
6 46.6
— 8 58 12
—0.8606
.5671 +.1786
+9.6073
.9611
18
5 Pleiadam
9
—26
—65
6 47.2
— 8 57 40
—1.1529
.5658 +.1786
+9.6123
.9601
18
6 Pleiadam
9
0
—66
6 48.1
— 8 56 43
-0.8081
.5674 +.1785! +9.6066
.9613
18
c Pleiadam
5
— 5
—66
6 51.8
— 8 53 39
—0.8786
.5670 +.17841+9 6079
.9610
18
7 Pleiadam
8
4-15
—60
6 52.6
— 8 52 26
—0.6437
.5692 +.1784
+9.6022
.9621
18
B.A.C. 1155
7
4-66
—13
6 62.8
— 8 52 16
H-0.8563
.5731 +.1784
+93865
.9650,
18
k Pleiadum
Ji
—18
—66
6 53.1
— 8 51 59
-1.0624
0.5670. +.1784
+9.6111
9.9604 i
OCCITLTATIONS, ,1866.
423
ELEMENTS FOB FACILITATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STARS BY THE MOON FOR
THE TEAR 1856.
1
LImttliig
Panllels.
Waah-
Ingon
Time of
6-
▲t WMUngton MMn Tfane of CoQJonotioii.
Dftte.
Sterol Name.
North-
ern.
c
South-
ern.
H
Y
I^
q'
■^
006 D
o
h. m.
h. m. f.
Sept. 18
/ Pleiadum
7
—15
—65
6 56.5
— 8 48 41
—1.0254
05671
+.1783
+9.6106
9 9604
18
9 Pleiadum
8J
-+- 8
—66
7 2.3
— 8 43 7
—0.6683
.5687
+.1780
+9.6048
.9616
18
f/ Pleiadum
5
-4-22
—53
7 4.1
— 8 41 24
—0.4194
.5698
+.1780
+9.6007
.9624
18
10 Pleiadum
8
H- 5
—66
7 6.7
— 8 38 50
—0.7216
.5685
+.1778
+9.6060
.9614
.18
11 Pleiadum
H
4-14
—60
7 11.8
— 8 83 56
—0.5642
.5691
+.1776
+9.6034
.9619
18
12 Pleiadum
3
—10
—66
7 19.4
— 8 26 40
—0.9630
.5687
+.1774
+9.6105
.9605
18
13 Pleiadum
+22
—52
7 22.0
— 8 24 9
—0.4161
.6696
+.1774
+9.6016
.9622
18
U Pleiadum
9
+35
-n39
7 24.4
— 8 21 49
—0.1779
.5707
+.1773
+9.5975
.9630
18
15 Pleiadum
SJ
-hl5
—69
7 26.8
— 8 19 30
—0.6380
.5691
+.1772
+9.6a39
.9618
18
16 Pleiadum
+32
—42
7 27.8
— 8 19 3
—0.2214
.6704
+.1772
+9.5985
.9628
18
17 Pleiadum
8
+38
-37
7 27.9
— 8 18 31
—0.1275
.6708
+.1772
+9.5969
.9631
18
18 Pleiadum
8
+15
—59
7 27.9
— 8 18 26
—0.5442
.5690
+.1772
+9.604 1
.9617
18
p Pleiadum
7J
+16
—58
7 28.7
— 8 17 44
—0.6189
Ji691
+.1772
+9.6037
.9618
18
19 Pleiadum
8
+43
—32
7 29.0
— 8 17 23
—0.0342
.6712
+.1772
+9.5952
.9634
18
20 Pleiadum
8
—13
—66
7 29.3
— 8 17 11
—0.9933
.6670
+.1772
+9.6118
.9602
18
21 Pleiadum
H
—18
—66
7 30.2
— 8 16 14
—1.0697
iS668
+.1771
+9.6129
.9600
18
22 Pleiadum
8
+28
—47
7 30.3
— 8 16 12
—0.3138
.6700
+.1771
+9.6002
.9625
18
23 Pleiadum
H
+41
—34
7 31.6
— 8 14 57
—0.0692
.6711
+.1771
+9.5960
.9633
18
24 Pleiadum
8
+ 7
—66
7 32.0
— 8 14 31
—0.6834
.5683
+.1771
+9.6067
.9612
18
ij Tauri
3
+17
—57
7 31.9
— 8 14 37
—0.4985
.6691
+.1771
+9.6035
.9618
18
2.5 Pleiadum
8i
+45
—30
7 35.6
— 8 11 5
+0X)115
.6713
+.1770
+9.5948
.9635
18
26 Pleiadum
9
+50
—26
7 38.1
— 8 8 42
+0.0857
.6716
+.1769
+9.5937
.9637
18
27 Pleiadum
^
+ 8
—65
7 49.6
— 7 67 36
—0.6637
.5682
+.1760
+9.6071
.9612
18
28 Pleiadum
7
+60
—18
7 53.3
— 7 64 1
+0.2528
.5727
+.1758
+9.5915
.9641
18
29 Pleiadum
8
+ 8
-65
7 56.3
— 7 51 13
—0.6692
.6688
+.1757
+9.6076
.9611
18
8 Pleiadum
7J
+37
—38
8 7.6
— 7 40 16
—0.1460
.5712
+.1751
+9.5992
.9627
18
/Pleiadum
4
+25
—47
8 12.7
— 7 35 25
—0.3317
.5704
+.1749
+9.6026
.9620
18
A Pleiadum
5
+22
—52
8 13.2
— 7 34 58
—0.4158
.5700
+.1749
+9.6042
.9617
18
30 Pleiadum
H
+36
-38
8 13.9
— 7 36 16
—0.1605
.6712
+.1748
+9.5998
.9626
18
31 Pleiadum
8
+ 8
—65
8 15.1
— 7 33 8
—0.6707
.6690
+.1748
+9.6086
.9609
18
32 Pleiadum
8
+ 9
—65
8 17.1
— 7 31 12
—0.6600
.5699
+.1747
+9.6084
.9610
18
33 Pleiadum
7}
+ 17
—57
8 18.9
— 7 29 24
-0.5101
J5694
+.1746
+9.6061
.9613
18
34 Pleiadum
+48
—28
8 26.7
— 7 21 64
-f0.0518
.6721
+.1742
+9.5967
.9632
18
35 Pleiadum
9
+ 18
-56
8 26.7
— 7 21 54
—0.4844
^698
+.1742
+9.6060
.9614
18
36 Pleiadum
9
+20
-54
8 30.6
- 7 18 8
—0.4463
.5700
+.1740
+9.6055
.9615
18
37 Pleiadum
8
+13
—61
8 31.2
— 7 17 39
—0.5788
.5694
+.1740
+9.6078
.9610
18
38 Pleiadum
8
+41
—34
8 32.4
— 7 16 26
—0.0703
.5716
+.1740
+9.5991
.9627
18
39 Pleiadum
8
+ 7
—66
8 43.5
— 7 5 46
—0.6907
.5691
+.1735
+9.6103
.9606
18
40 Pleiadum
n
+38
—^6
8 54.2
— 6 56 32
—0.1834
.5716
+.1722
+9.6012
.9623
18
33 Tauri
6
+90
+31
11 25.0
— 4 26 32
+1.0814
JJ773
+.1672
+9.5875
.9648
18
36 Tauri
H
+86
+ 2
14 19.5
— 1 42 44
+0.5937
.5766
+.1698
+9.6044
.9617
18
/Tauri
5
+49
-23
21 33.8
+ 6 14 43
+0.0758
.5764
+.1401
+9.6306
.9563
19
B A.C. 1648
6
+41
-24
80 34.2
+ 3 20 47
—0.0608
.6792
+.0727
+9.6689
.9467
19
j* Tauri
2
+10
—55
22 38.2
+ 5 19 52
—0.6149
.6762
+.0667
+9.6784
.9440
19
B.A.C. 1709
«i
—29
—61
23 67.1
+ 6 35 38
—1.1374
.5732
+.0605
+9.6865
.9415
20
B.A.C. 1746
6^
+85
+10
a 87.5
+ 907
+0.5624
.5821
+.0544
+9.6654
.9477
80
B. AC. 1772
6
—16
-61
3 44.7
+10 14 15
—0.9904
.6736
+.0514
+9.6874
.9413
20
136 Tauri
5
+90
+28
9 19.6
— 8 24 6
+0.8549
.6826
+.0301
+9.6656
.9477
20
B.A.C. 1882
^
+16
—45
10 34.1
— 7 12 38
—0.4997
.5750
+.0300
+9.6844
.9422
20
X Auriga
4
—19
—61
18 1.7
— 0 8 27
—1.0271
.5704
+.0067
+9.6930
.9395
21
B.A.C. 2097
H
+61
— 2
0 3.4
+ 6 46 10
+0.2600
.6763
—.0123
+9.6759
.9447
21
49 Auriga
4
+72
+ 5
8 0.4
+ 7 37 37
+0.4148
.6753
— X)182
+9.6736
.9464
21
23 Auriga
4
+ 8
—54
3 15.8
+ 8 60 4
—0.6324
.5696
—.0211
+9.6869
.9414
21
54 AuricrsB
6
+51
—10
8 45.3
+ 9 18 27
+0.1108
.6736
—.0212
+9.6770
.9444
2l|28Gemrnor.
6
+ 4
—60
5 60.5
+11 18 60
—0.7063
0.5685
—.0270
+9.6871
9.9414
424
OCCULTATIONS, )1856.
ELEMENTS FOR FACIUTATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STARS BT THE MOON, FOR THE TEAR 1856.
i
Lfanltbig
PanlMs.
WMh-
'Sir
Time of
6.
DAte.
Star's Num.
North,
•m.
Soath.
em.
0
-1-32
H
Y
P'
q'
i^
i?x>j
Sept 21
47 G«ininor.
6
0
-h90
h. m.
16 48.3
h. m. s.
— 2 8 20
-4-0.9464
0.6715
—.0585
-1-9.6584
9.9496,
21
53 Gem i nor.
6
-1-28
-^5
18 40.2
— 0 20 87
—0.2870
.6639
—.0640
-1-9.6737
^453
21
59 Geminor.
H
-h28
—36
22 16.1
-»- 3 7 10
—0.2922
.5612
—.0748
-h9.6704
S463
21
1 Geminor.
4
-1-17
—49
22 45.9
-1- 3 35 52
—0.5086
.5553
—.0750
-4-9.6867
^415
22
6> Geminor.
H
—14
—62
0 16.1
-h 5 2 41
—0.9779
.6563
—.0802
-1-9.6774
.9443
22
6* Geminor.
H
-4- 1
—62
0 27.9
-1- 5 14 3
—0.7802
.6577
—.0802
-h9.6746
^451
22
B.A.C. 2472
6
— 3
—62
0 49.9
-h 5 35 15
—0.8110
.6580
—.0802
-4-9.6746
^451
22
V Geminor.
5
H-48
— 19
3 5.1
-h 7 45 31
-4-0.0621
.5595
—.0881
-4-9.6602
.9490
22
c Geminor.
6
-4-90
-4-25
6 36.2
H-ll 8 55
-1-0 9003
.6618
—.0957
-1-9.6438
.9532
22
ff Geminor.
5
-1-12
—56
10 36.9
— 8 69 6
—0.6868
.6521
—.1059
-1-9.6590
^94
22
cdi Cancri
6
-1-78
0
IS 52.7
— 5 50 18
-H).4990
.6535
—.1155
-1-9.6385
^545
22
«• Cancri
6r
H-90
-1-16
14 14.3
— 5 29 29
-M).7801
.6549
—.1156
-4-9.6337
.9555
22
\p^ Cancri
6r
-4-17
—53
17 56.7
— 1 64 56
—0.5023
.5463
—.1249
-1-9.6460
.9527
22
!//• Cancri
4
-1-35
—35
18 3.7
— 1 48 10
—0.1696
.6478
— wl250
-1-9.6409
.9539
S59I 1
22
I Cancri
6
-1-90
-4-17
22 3S.8
-h 2 31 33
-4-0.8292
.6490
-.1341
-h9.6173
23
i;» Cancri
7
-1-38
—34
1 19.1
4- 5 12 7
-0.1224
.5430
—.1407
-h9.6259
.9573
23
V* Cancri
H
-1-55
—19
2 10.7
-+- 6 1 54
-4-0.1700
.6432
—.1429
-1-9.6197
.9586
23
B.A.C. 2850
7
-1-38
--34
2 39.1
-1- 6 29 21
—0.1144
.6425
—.1429
-h9.6230
.9579
23
V* Cancri
6
-4-47
—26
3 31.5
-1- 7 20 0
-M)0360
.5422
—.1451
+9.6187
.9588
23
32 Cancri
7
-Ml
—32
4 12.1
4- 7 69 IS
—0.0721
.6407
-.1471
-1-9.6188
.9588
23
S Cancri
5
-h 3
—66
21 12.8
-f. 0 26 4
-0.7530
.5249
—.1799
+9.5851
3652
23
79 Cancri
6
-h 1
-68
21 4lJi
-1- 0 53 51
—0.7879
J5253
—.1799
+93843
.9654
23
B.A.C. 3138
6
-+-58
—21
23 16.6
-1- 2 25 56
-4-0.2300
.6270
—.1834
+9.5616
3690
25
17 Leonis
3i
—11
—73
2 15.6
-4- 4 35 15
—1.0002
.6048
—.2221
+9.4772
.9795
25
37LeonU
6
-1-90
-4-30
7 11.7
-h 9 22 45
-4-1.2028
.6068
—.2278
+9.3969
3861
25
42 Leonis
6
-h 2
—65
9 54.1
—11 59 36
—0.7968
.6005
—.2310
+9.4328
3835
25
B.A.C. 3579
6
— 9
-75
13 37.4
— 8 22 40
—09763
.4988
—.2338
+9.4I5I
.9848
25
1 Leonis
6
—23
—75
15 26.2
— 6 37 1
—1.1795
.4973
—.2358
+9.4094
3852
26
/ Leonis
5
-1-77
—15
0 42.8
-f. 2 24 0
-4-0.5236
.4961
—.2435
+9.2923
3915
30
B.A.C. 4679
«*
-1-78
— 2
15 0.3
—10 15 21
-4-0.8143
.4943
—.2352
—9.3922
3864
Oct 2
*' Libra
^i
—47
—90
2 19.3
-f- 0 2 0
—1.2963
.5190
—.1923
—9.5180
3750;
2
B A.C. 5023
6
-1-68
-4-30
4 20.1
4- 1 59 12
-1-1.2137
^127
—.1891
—9 57 II
3676
42 Libra
H
-1-66
— 5
16 0.7
—10 42 2
-1-0.7456
^223
—.1874
—9.5981
3629'
B.A.C. 5197
6
-f-66
-+-48
18 39.3
— 8 8 31
-hl.3125
.5211
—.1653
—9.6138
3598
B.A C. 5253
6
-1-67
—16
22 30.5
— 4 24 45
-1-0.5146
i»272
—.1579
—9.6110
3605
B.A C. 5254
6
-f-25
—34
22 32.4
— 4 22 56
—0.1020
.5293
—.1579
—9.6016
3622
3 Scorpii
6
-1-65
-h37
28 51.0
— 4 4 62
-HI. 2465
.5243
—.1570
—9.6230
3579
B.A.C. 5286
6
-1-66
-4- 6
0 42.9
— 2 16 14
-H0.8900
.5270
—.1541
—9.6164
3593
n Scorpii
3
-1-23
—49
11 12.3
-H 7 52 6
—0.0738
^301
—.1301
—9.6299
.9564
0 Scorpii
H
-4-47
—23
14 56.1
-4-11 28 16
-1-0.3977
.5276
—.1239
—9.6436
3532
22 Scorpii
5
—35
—90
15 20.1
-f-ll 51 31
—1.0932
.5470
—.1232
—9.6227
.9580
B.A.C. 5800
H
—23
-90
10 48.6
-4- 6 39 23
—0.8395
.6556
—.0774
-9.6542
3506!
43 Ophiuchi
6
4-29
—35
14 43.3
-4-10 25 42
-4-0.1713
.6531
—.0672
—9.6716
3459 1
3 Safrittarii
5
—14
—90
1 3.7
— 3 36 26
—0.6078
i»554
—.0375
—9.6684
.9469
B.A.C. 6063
6J
— 7
—75
5 3.1
-1- 0 14 29
—0.4548
.6559
—.0261
—9.6722
3458 1
B.A C. 6072
«J
-1-30
—30
6 50.7
-4- 1 0 25
+0.2616
.5532
—.0266
—9.6819
.9429
y* Sagittarii
B.A.C. «1 20
5
-1-61
-h27
8 21.5
-h 3 25 17
-1-1.1036
.5489
—.01841-9.6935
3393'
H
-4-11
—50
9 7.8
-h 4 9 49
—0.0881
Ji63l
—.01661—9.6783
3440!
B.A.C. 6127
5
-hlO
—51
9 40.3
-h 4 41 6
—0.0981
.5634
—.0158
—9.6783
.9440
B.A.C. 6190
H
-»-20
—38
13 33.0
-1- 8 25 10
-M).1069
5634
—.0046
—9.6814
3431
B.A.C. 6191
H
— 1
—62
13 33.3
-h 8 25 25
—0.2857
.6653
—.0046
—9.6762
3446
B.A.C. 6220
H
-4- 8
—51
15 28.5
-1-10 16 18
—0.1110
.5653
-4-.0010
—9.6786
.9439;
T Saffittarii
H
-h 7
—60
10 3.0
-4- 4 8 49
—0.2447
.5690
-H.0556
—9.6698
.9464
B.A.C. 6628
6
-4-49
—17
17 15.4
-hU 4 51
-4-0.4999
.5656
-4-.0757
—9.6736
3454 •
B.A.C. 6666
6
-hlO
—59
19 29.0
—10 46 38
—0.2320
0.5692 -hX)815
—9.6611
93488
OCCULTATIONS, 1866.
425
BLEMENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STARS BY THE MOON FOR THE YEAR 1856.
. Site.
Ster'ilrame.
H
Limiting
P«nUelfl.
Waah-
TInieof
6-
At Waahington Mean Thne of Goi^imotion.
North-
ern.
o
H-33
SoaCh-
em.
o
—35
H
Y
P'
0.5668
q'
rin5>
ooa D
Oct 7
D> Sapttarii
h. m.
6 11.1
h. m. a.
— 0 28 51
+0.1769
+.1123
—9.6522
9.9511
7
b Sagittani
5
-h63
4-28
6 38.1
— 0 2 50
-H1.1361
.5622
+.1123
—9.6651
.9477
7
A Sagittani
B.AC. 7077
5
4-34
—32
7 29.3
H- 0 46 22
4-0.2242
.5661
+.1150
—9.6508
.9515
7
6
4-65
H- 9
21 36^
— 9 38 20
+0.9194
.5598
+.1464
—9.6328
.9557
8
B.A.C. 7197
6
-4-17
—60
4 9.0
— 3 20 14
—0.2628
.5647
+.1704
—9.5964
.9632
8
B.A.C. 7237
6
4-66
-4-27
6 5.3
— 1 28 17
-hl.1628
.5582
+.1753
—9.6147
.9597
8
B.A.C. 7335
6
4-19
—59
12 43.5
-H 4 55 20
-0.2479
.6603
+.1888
—9.5692
.9679
8
27 Capricor.
6
—11
—90
13 9.1
+ 5 20 0
—0.8183
.6621
+.1911
—9.5569
.9698
8
f> Capricor.
6
4-23
—56
15 44.9
4- 7 50 5
—0.1983
.5591
+.1956
—9.5591
.9694
9
33 Capricor.
6
4-67
— 4
19 23.7
-Ml 20 52
+0.7509
^568
+.2045
—9.5632
.9688
9
37 Capricor.
6
-1-70
4- 9
0 0.5
— 8 12 19
+0.9654
.5523
+.2150
-9.5488
.9710
9
t Capricor.
4J
4-64
—16
0 58.5
— 7 16 20
+0.5496
.5527
+.2168
—9.5363
.0727
9
X Capricor.
5
4-61
—19
3 23.3
— 4 56 50
+0.4801
.5512
+.2205
—9.5239
.9743
9
B.A.C. 7550
6 .
4-70
-4-39
3 37.5
— 4 43 7
+1.29.-^7
.5483
+.2205
—9.5396
.9722
9
29 Aqaaru
6
4-68
—14
12 2.3
4- 3 23 37
+0.5812
J»495
+.2381
-9.4817
.9791
10
45 Aquarii
6
—37
-90
19 21.7
4-10 27 34
—1.2782
.5523
+.2500
—9.3843
.9869
10
50 Aquarii
6
-4-17
—71
21 45.6
—11 13 38
—0.4386
.5494
+.2531
—9.3913
.9864
10
56 Aqaarii
6
H-75
4-33
0 20.3
— 8 44 20
+1.2803
.6442
+.2574
—9.4219
.9843
10
70 Aquarii
6
-4-12
—80
8 29.1
— 0 52 31
—0.5671
.5469
+.2687
—9.2925
.9915
10
74 Aquarii
6
4-78
-1-15
10 41.4
4- 1 15 10
+1X)867
M15
+.2708
—9.3311
.9898
10
A* Aqaarii
6
-^
—90
15 57.7
-4- 6 20 31
—1.3434
.5461
+.2777
—9.1680
.9952
11
i^> Aqaarii
^^
4-80
4-43
20 45.3
4-10 58 23
+1.3823
.5419
+.2818
—9.2339
.9935
11
/ A<|uarii
20 Piscium
4
H-52
—36
21 13.6
4-11 25 35
+0.1718
.5434
+.2828
-9.1700
.9952
11
6
4- 3
—90
11 16.4
4- 0 59 36
—0.8187
.5190
+.2886
—8.7718
.9992
11
29 Pisciam
5i
4-86
-h56
17 31.5
-H 7 1 46
+1.4441
.5427
+.2951
—8.8240
9.9990
12
JUPITBR
-h7l
—22
0 40.7
—10 3 43
4-0.4467
.5508
+.2996
—8.0492
0.0000
19
44 Pisciam
6
-H30
—60
4 7.9
— 6 43 38
—0.2830
.5445
+.2968
+8.3019
9.9999
IS
B.A.C. 221
6
4-15
—79
14 19.6
4- 3 6 58
—0.5824
.5465
+.2949
+8.8991
.9986
12
ff Pisciam
4
—21
—83
20 49.5
+ 9 23 14
—1.1849
.5475
+.2926
+9.0932
.9966
IS
C Piscium
6
4-73
—19
1 33.4
—10 2 49
+0.4856
.5513
+.2896
+9.0746
.9969
18
TT Piscium
5
—16
—79
11 42.2
— 0 15 40
—1.1008
.5522
+.2808
+9.2963
.9913
U
27 ArietU
6
4-13
—70
10 22.7
— 2 23 52
—0.6061
.5517
+.2489
+9.4677
.9804
14
40 Arietis
6
-h79
— 9
17 36.7
+ 4 32 46
+0.5380
.5591
+.2357
+9.4826
.9790
14
(>* Arietis
6
4-90
4-30
20 34.4
-h 7 23 41
+1.1652
JS756
+.2296
+9.4841
.9788
14
47 Arietif
6
— 8
—70
21 26.4
4- 8 13 43
—0.9432
.5688
+.2275
+9.5360
.9727
15
a Arietis
Jt
4-90
4-33
2 54.9
—10 30 24
+1.1655
.5800
+.2141
+9JJ167
.9752
15
V Arietis
-4-52
—27
4 12.7
— 9 15 39
4-0.1311
.5765
+.2118
+9.5446
.9715
15
t' Arietis
5
4-80
— 6
6 43.7
— 6 50 32
4-0.5428
.5792
+.2073
+9..M70
.9712
15
t' Arietis
6
4-90
-h26
7 20.9
— 6 14 44
+1.0678
.5818
+.2049
+9.5388
.6723
15
65 Arietis
6
4-90
-1-31
8 0.6
— 5 36 36
+1.1374
.5829
+.2024
+9.5401
.9722
15
9Taari
6
4-28
—48
12 55.0
— 0 53 47
-0.3122
.5796
+.1900
+9.5871
.9649
15
g Pleiadum
H
— 2
—66
15 58.1
-1-2 2 3
—0.8352
.5781
+.1832
+9.6066
.9613
15
b Pleiadum
4
4- 9
—65
16 0.0
4- 2 3 54
—0.6548
.5789
+.1832
+9.6035
.9619
15
«Tauri
5
—12
—66
16 7.3
4- 2 10 54
—0.9854
.5776
+.1828
+9.6096
.9607
15
c Pleiadum
5
— 3
—66
16 21.9
4- 2 24 67
—0.8435
.5782
+.1821
+9.6079
.9610
15
d Pleiadum
5
4-23
—51
16 34.3
4- 2 36 47
—0.3908
.5807
+.1816
+9.6007
.9624
15
ijTauri
3
4-19
—55
17 1.2
4- 3 2 39
—0.4685
.5800
+.1802
+9.6035
.9618
15
28 Pleiadum
7
4-61
—17
17 21.9
-f. 3 22 31
+0.2700
.5834
+.1794
+9.5915
.9641
15
/Pleiadum
^i
4-28
—46
17 40.6
4- 3 40 29
—0.3041
.5809
+.1785
+9.6027
.9620
15
A Pleiadum
5|
4-24
—50
17 41.1
4- 3 40 56
—0.3858
^805
+.1784
+9.6042
.9617
15
40 Pleiadum
H
4-40
—35
18 20.8
4- 4 19 3
-0.0^94
.5821
+.1767
+9.6012
.9623
15
33Tauri
B
4-90
4^1
20 46.5
4- 6 38 57
+1.0879
.5883
+.1714
+9.5876
9648
15
36 Tauri
H
4-87
4- 2
23 35.0
4- 9 20 43
+0.6073
.5875
+.1630
+9.6044
.9617
16
/Tauri
&
4-50
— 8
6 34.5
— 7 56 40
+0.0968
.5878
+.1429
+9.6306
.9563
17
B.A.C. 1648
6
4-42
—22
4 47.4
—10 38 15
—0.0378
0.5899
+.0747
+9.6689
9.9467
54
426
OCCULTATIONS, 1856.
ELEMENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STARS BY THE MOON, FOR THE YEAR 1866.
2
Lfaniting
Panllels.
Wash-
's?r
Time of
^.
h. m.
6 47.3
At Washington Mean Time oC OopjonetioB.
1
1
Sate.
Star's Name.
1
North,
em.
Soath-
ern.
o
—53
H
Y
P'
q'
^
^i>
Oct. 17
I^Tauri
B.A.C. 1746
o
H-11
h. m. B.
— 8 44 18
—0.5830
0.5831
4-.0683
4-9.6784
9.^440 1
17
6^
+86 4-10
10 29.1
— 5 10 38
4-0.5748
.5910
4-.0552
4-9.6654
.9477 ,
17
B.A.C. 1772
6^
—13! —61
11 43.7
— 3 59 3
—0.95.3
.6830
4-i)521
4-96873
.9413
17
136Tauri .
5
-h90 -4-29
17 7.4
4- 1 11 24
4-0 8648
.6926
4-.0329
4-9.6655
^477;
17
B.A.C. 1882
H
-1-18
—43
18 19.8
4- 2 20 55
—0.4715
i»765
4-X)2a7
4-9.6444
.9422
18
X AorigsB
4
—16
—61
1 33.7
4- 9 17 12
—0.9924
.5802
4-.0073
4-9.6930
.9395,
18
B.A.C. 2097
6
H-62
— 1
7 24.9
— 9 5 44
4-0.2751
.6841
—.0116
4-9.6759
.9447
18
49 Auriga
5
-h73
4- 6
9 18.5
— 7 16 40
4-0.4271
.6838
—.0178
4-9.6735
iM54!
18
53 Auriga
6
-hlO
—52
10 35.7
— 6 2 24
-0.6073
.6789
—.0209
4-9.6869
.9414
18
54 AurigiB
6
-»-52
—10
11 4.4
— 6 34 60
4-0.1270
i»818
—.0239
4-9.6770
.9444 j
18
28 Geininor.
6
-h 5
—58
13 2.3
— 3 41 49
—0.6787
.6757
—.0300
4-9 6871
.9413
18
47 Geminor.
6
4-90
4-32
23 43.2
4- 6 34 5
4-0 9513
.6782
—.0596
4-9.6584
.9496;
19
53 Geminor.
6
4-30
—34
1 32.5
4- 8 19 8
—0.2666
.6704
—.0652
4-9.67S6
.9454
19
59 Geminor.
H
—12
—62
5 3.3
4-11 41 55
—0.7971
.6671
—0764
4-9.6703
.9463 1
19
* Geminor.
4
-1-17
-48
5 82.3
—11 50 10
-0.4860
.6665
—.0764
4-9.6728
3456
19
6> Geminor.
H
—12
—62
7 0.5
—10 25 22
—0.9501
.5621
—.0818
4-9.6774
.9442
19
6* Geminor.
4
-h I
—62
7 13.0
—10 13 19
—0.7553
.6634
—.0818
4-9.6746
.9451 r
19
B A.C. 2472
6
— 1
—62
7 33.5
— 9 53 32
—0.7852
.6635
—.0819
4-9.6746
.9451 1
19
V Geminor.
5
4-49
—18
9 45.8
— 7 46 12
4-0.0776
.6661
—.0874
4-9.6602
.9490
19
c Geminor.
6
4-90
4-24
13 12.7
— 4 26 5
4-0.9038
.6666
—.1050
4-9.6438
.9632
19
ip Geminor.
5
4-13
—55
17 8.7
— 0 39 47
—0.5656
.6562
—.1081
4-9.6590
.9494
19
oi» Cancri
6
4-79
4- 1
20 20.9
4- 2 25 27
4-0.5083
.6589
—.1155
4-9.6385
3545 :
19
CD* Cancri
'4
4-90
4-16
20 42.1
4- 2 45 51 4-0.7879
.5601
—.1155
4-9.6337
.9555
20
1//* Cancri
4-18
—52
0 20.8
4- 6 16 38
—0.4838
.6507
—.1251
4-9.6460
3527 ;
20
V* Cancri
4
4-36
—34
0 27.6
4- 6 23 16
—0.1542
.6522
—.1251
4-9.6409
3539 1
20
X Cancri
6
4-90
4-16
4 54.3
4-10 40 27
4-0.8314
.5516
—.1367
+9.6172
.9591
20
u* Cancri
7
4-38
—33
7 36.4
-10 43 5
—0.1085
.6463
—.1410
4-9.6259
.9573
20
V* Cancri
H
4-55
—19
8 28.6
— 9 52 44
4-0.1780
.6468
—.1438
4-9.6197
.9586
20
B A.C. 2840
7
4-39
—33
8 57.1
— 9 25 15
—0.1051
.6440
—.1453
4-96230
.9579 1
20
i/* Cancri
6
4-47
—25
9 47.0
— 3 37 2
-H).0484
.6455
—.1454
4-9.6187
.9588 1
20
32 Cancri
7
4-41
—31
10 27.1
— 7 58 21
—0 0591
.5440
—.1475
4-9.6188
.9588 1
21
£ Cancri
5
4- 5
-67
3 12.1
4- 8 12 51
—0.7251
.6263
—.1804
4-9.5851
3652 I
21
79 Cancri
6
4- 2
—68
3 45.1
4- 8 44 56
—0.7741
.5266
—.1804
4-9.5843
.9654
21
B.A.C. 3138
6
4-28
—48
5 19.8
4-10 16 32
-0.3007
.5230
—.1827
4-9.5711
3676 j
22
i^Leonis
H
— 9
—73
8 11.8
—11 41 7
—0.9913
.4900
—.2220
4-94771
3775
22
37 Leonis
6
4-90
4-29
13 7.7
— 6 53 52
4-1.1918
.5052
—.2274
4-9.3968
.9860 1
22
42 Leonis
6
4- 3
—68
15 50.0
— 4 16 13
—0.7900
.5003
—.2296
4-9.4323
3835
22
B.A.C. 3579
6
— 8
—75
19 33.4
— 0 39 15
-0.9700
.4973
—.2334
4-94151
3848 1
23
/ Leonis
5
4-76
—15
6 39.8
4-10 8 25
4-0.5141
.4943
—.2429
4-9.2923
3915,
23
B.A.C. 3837
H
4-36
—52
20 25.8
— 0 28 16
—0.1716
.4874
—.2528
4-9.1867
3948
24
a Leonis
4
4-9o| 4-14
0 27.3
4- 3 26 45
4-1.0549
.4869
—.2540
4-9.0744
3969
24
(i Virginis
H
4-90 1 4-55
17 14.4
— 4 12 53
4-1.4378
.4827
—.2601
4-8.6519
9.9996
25
13 Virginis
rj Virgmis
B.A.C. 5253
6
4-47
—42
9 25.7
4-11 38 8
4-0.0540
4809
— 2619
4-6.2876
0.0000
25
H
4-31
—59
10 8.5
—11 45 16
—0.2664
4809
—.2620
4-7.3604
0.0000
30
6
—59
4-14
4 16.7
4- 3 8 53
•4-0.5621
.6289
—.1577
—8.6410
93604,
30
B.A.C. 5254
6
—48
4-26
4 18.6
4- 3 10 43
—0.0641
.5317
—.1577
—9.6016
.9622
30
3 Scorpii
6
4-65
4-43
4 37.1
4- 3 28 38
4-1.2850
.6265
—.1577
—9.6030
3579 1
30
B.A.C. 5286
6
4-59
—13
6 28.5
4- 5 16 25
4-0.5614
.5305;— .1507
—9.6164
.9593 1
30
a Scorpii
3
4-25
—46
16 5.5.7
— 8 37 9
—0.0301
.5405
—.1310
—9.6299
.9564
30
a Scorpii
1
4-50
—19
20 38.9
— 5 1 82
-1-0.4417
5396
—.1243
—9.6436
3532
30
22 Scorpii
5
—32
—90
21 2.9
— 4 38 19
—1.0450
.5470
—.1221
—9.6227
.9580
31
B.A C. 5800
H
—20
—90
16 31.2
— 9 50 86
—0.7893
.5565
—.0765
—9.6542
3506
31
43 Ophiuchi
6
4-32
—32
20 26 5
— 6 3 41
4-0.2259
.6539
—.0661
—9.6716
.9459
Not. 1
3 Sagittarii
B.A.C. 6063
5
—11
—85
6 49.7
4- 3 56 57
—0.5610
.5617
— i)396
—9.6684
.9469
1
H
— 4
—71
10 42.2
4- 7 40 58
—0.3991
0.5622 —.02881 — 9.6722 1
93458
OCCULTATIONS, 1866.
427
ELEMENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STABS BY THE MOON, FOB THE YEAR 1856.
1
LimitlDg
PaxmUeU.
WMh-
ington
Date.
Ster'sName.
TlnMor
North-
Sooth-
em.
o
—26
H
Y
P'
q'
£*^
oot D
Not. 1
B.A.C. 6072
«i
o
4-34
h. m.
11 30.4
h. m. s.
+ 8 27 26
4-0.3305
0.5587
—.0260
—9.6819
9.9429
1
Y^ Sagittarit
B.A.C. 6120
4
-h61
-1-36
14 10.6
-hU 1 46
4-1.1863
.5555
—.0178
—9.6935
.9393
1
^
-hl4
—46
14 57.2
-hU 46 41
—0.0279
.5619
—.0150
—9.6782
.9440
1
B.A.C. 6127
5
-hl4
-^7
15 80.0
— U 41 45
—0.0374
.5618
—.0150
—9.6782
.9440
1
B.A.C. 6190
6i
-1-23
—35
19 24.9
— 7 55 33
4-0.1704
.5617
—.0039
—9.6814
.9431
1
B.A.C. 6191
H
-h 3
—58.
19 25.1
— 7 55 19
—0.2243
.5636
—.0039
—9.6763
.9446
1
B.A.C. 6220
6
-f-12
—47
21 21.5
— 6 3 15
—00478
.5631
4-.0017
—9.6786
.9439
8
T Sa^ttarii
3l
-hio
—55
16 11.4
—11 55 19
—0.1778
.5649
H-.0551
—9.6698
.9464
2
B.A.C. 6628
6
4-52
—13
23 19.3
— 5 3 19
-M).5615
.5607
-H.0745
—9.6736
.9454
3
6
4-14
—54
1 52.3
— 2 35 50
—0.1507
.5636
-I-.0828
—9.6611
.9488
S
Di Sagittaru
H
-h37
—30
12 44.5
4- 7 52 8
4-0.2536
.5548
-I-.I096
—9.6522
.9512
3
b Sagittarit
5
4-63
4-38
13 12.2
4- 8 18 45 4-1.2229
.5546
-H.1123
—9.6651
.9477.
3
A SagitUrit
B.A.C. 7077
5
4-40
—28
14 4.6
-h 9 9 16 4-0.3018
.5589
4-1150
—9.6908
.9515
4
6
4-65
4-15
4 34.7
— 0 52 23 4-1.0097
.5532
4-. 1503
—9.6328
.9557
A
B.A.C. 7197
6
4-20
-55
11 19.3
4- 5 37 38 —0.1869
.5542
-HI 669
—9.5965
.9632
4
B.A.C. 7335
6
4-23
—55
20 10.4
— 9 50 5
—0.1721
.5504
4-.1869
—9.5692
.9679
4
27 Capricor.
6
— 7
—90
20 36.9
— 9 24 33
—0.7516
.5527
4-.1869
—9.5570
.9698
4
(f Capricor.
6
4-27
—51
23 18.0
— 6 49 8
—0.1212
.5490
4-. 1933
—9.5591
.9694
5
33 Capricor.
6
4-69
4- 2
3 4.3
— 3 10 46
-H0.8433
.5442
-H.2016
—9.5633
.9688
5
37 Capricor.
6
4-70
-hl6
7 50.9
4- I 25 50
4-1.0622
.5422
-H.2093
—9.5488
.9710
5
• Capricor.
4i
4-68
—10
8 51.0
4- 2 23 53
-4-0 6397
.5435
4-.2113
—9.5363
.9727
5
« Capricor.
5
4-66
—14
11 10.9
-4- 4 38 38
4-0.5694
.5424
-h.21 70 1—9.5239
.9743
5
29 Aqoarii
6
4-72
— 9
20 19.1
—10 31 43
4-0.6702
.5391
-I-.2328
—9.4817
.9791
6
45 Aquarii
6
—31
—90
3 55.0
— 3 11 15
—1.2232
.5414
-h.2456
—9.3842
.9869
6
50 Aquarii
6
-h21
—66
6 24.5
— 0 46 50
—0.3687
.5384
4-.2482
—9.3913
.9864
6
B.A.C. 7835
^i
4-23
—64
8 58.5
4- 1 41 56
-0.3441
.5379
4-.2527
—9.3728
.9876
6
56 Aqaarii
6
4-75
4-47
9 4.9
+ 1 48 U
4-1.3801
.5338
4-.2527
—9.4219
.9843
6
'0 Aquarii
6
4-16
—75
17 32.2
-4- 9 48 31
—0.5029
.5364
4-.2629
—9.2125
.9915
6
74 Aquarii
6
H-78
-h22
19 50.2
—11 48 5
4-1.1814
.5327
-I-.2651
—9 3311
.9898
7
A» Aquarii
6
—35
—90
1 17.5
— 6 31 42
—1.2963
.5360
>
-H.2716
—9.1679
.9952
7
A« Aquarii
—27
—90
1 22.1
— 6 27 23
—1.2148
.5360
-I-.2716
—9.1710
.9952
7
h* Aquarii
— 8
—90
1 37.8
— 6 12 5
-0.9594
.5357
4-.2716
—9.1801
.9950
7
h* Aquarii
71
—13
—90
2 14.9
— 5 36 9
—1.0363
.5354
4-.2727
—9.1679
.9953
7
/ Aquarii
20Pi8cium
4
4-56
—32
6 44.7
— 1 15 17
4-0.2417
^333
-I-.2765
—9.1700
.9952
7
4- 4
—72
21 15.6
—11 13 11
—0.7756
.5343
•f-.2869
—8.7720
.9992
7
24 Piscinra
61
4-70
—22
23 35.0
— 8 58 20
4-0.4501
.5338
-I-.2878
—8.8381
.9990
8
B.A.C. 8365
6; •
4-16
—58
5 13.9
— 3 30 42
—0.5539
.5352
-H.2902
—8.3554
.9999
8
JUPITBR
4-53
—37
6 50.1
— 1 57 43
4-0.1562
.5354
-I-.2902
—8.4308
.9998
8
B A.C. 57
H
— 9
-89
11 7.3
4- 2 10 54
—1.0125
.5362
4-.2916
H-8.1884
.9999
8
44 Piscinm
-1-33
—58
14 38.5
4- 5 35 3
—0.2370
.5368
4-.2917
4-8.2983
.9999
9
B.A.C. 221
4-17 —77
1 5.3
— 8 19 10
—0.5478
.5401
-I-.2907
-H8.8980
.9986
9
ff Piscium
—20 —83
7 43.5
— 1 54 36
— 1.1641
.5419 -I-.2885
4-9.0932
.9966
9
C Piscium
4-76 —17
12 32 6
4- 2 44 38
4-0.5201
.6475 4-.2865
-4-9.0744
.9969
9
;r Piscium
—15! —79
22 50.4
—11 18 7
—1.0917
.5489 -f-.2783 4-9.2962
.9913
10
27 Ajietis
4-67
-20
21 39.7
-4-10 40 28
-H).3656
.5644 -I-.2484 4-9.4677
.9804
11
40 Arietis
4-77
—10
4 53.2
— 6 22 26
4-0.5200
.5740 4-.2336 -4-9.4826
.9790
11
Q* Arietis
4-90
-h28
7 50.2
— 3 32 12
-f.1.1434
.5773 4-.2299 4-9.4841
.9788
11
47Ajieti8
— 9
—70
8 41.9
— 2 41 25
—0.9632
.5706 -I-.2278 1-1-9.5360
.9727
11
4 Arietta
It
4-90
4-30
14 8.4
4- 2 31 23
-4-1.1353
.5830 4-.2145
-4-9.5167
.9752
11
C Arietis
.h50
—28
15 25.5
4- 3 45 28
-h0.1015
.5794
H-.2124
-h9.5447
.9715
U
T* Arietis
4-77
— 7
17 55.2
4- 6 9 13
4-0 5094
.5838
4-.2055
4-9.5470
.9712
11
T* Arietis
4-90
-h23
18 32.1
4- 6 44 42
+1.0309
.5853 4-.2055
-4-9.5387
.9728
11
65 Arietis
4-90' -4-29
19 11.4
-H 7 22 25
H-1.0995
.6865, -+-.2032
-4-9.5401
.9722
12
9Tanri
4-26 1 -50
0 2.4
—11 58 5 —0.3493
.5840 -l-.l 906 4-9.5872
.9649
12
^Pleiadum
Jl
— 51—66
3 3.1
— 9 4 39 —0.8724
0.58331 4-1828 4-9.6066
9.9613
428
OCCULTATIONS, 1866.
ELEMENTS FOR FACILITATING THE CALCULATION OF OCCULTATIONS OF
PLANETS AND STABS BY THE MOON FOB THE YEAB 1856.
Not.
6
6
6
6
7
7
7
8
8
8
9
9
9
SO
SO
SI
SI
SI
SI
SS
SS
S3
S4
Sterns Naina.
6 Pleiadam
Tauri
c Pleiadam
(/ Pleiadam
17 Taari
/Pleiadam
h Pleiadam
33 Tauri
/Taari
/* Tauri
BAG. 1778
136 Tauri
X Auricle
49 Aungas
54 AarigiB
28 Geminor.
47 Geminor.
53 Geminor.
59 Geminor.
( Geminor.
6^ Geminor.
6* Geminor.
B A.C. S47S
t; Geminor.
c Geminor.
9 Geminor.
I* Cancri
J* Cancri
V/* Cancri
1^ Cancri
a Cancri
p' Cancri
»• Cancri
B A.C. S840
v* Cancri
3S Cancri
I Cancri
79 Cancri
B.A.C. 3138
tj Leonif
37 Leonit
42 Leonif
B.A.C 3579
i Leonif
/Leonif
BAG. 3837
o Leonif
(I VirKinif
B.A.C. 4043
13 Virginif
H Virginif
B.A.C. 4255
h Viripnif
86 Virginif
B.A.C. 4679
1
Umitbig
WMh-
PanOleU.
Time of
North,
em.
South-
om.
c
0
h. m.
*♦
-h 6
—66
3 5.0
—15
—66
3 12.2
— 5
—66
3 26.6
-1-21
—53
3 38.8
4-17
—58
4 5.3
'4
4-26
-48
4 44.2
-4-21
—53
4 44.6
4-90
4-28
7 47.3
5*
4-47
—25
17 24.9
4- 7
—57
17 3.7
—19
—61
21 5S.1
H-90
4-23
3 7.0
—24
—61
11 18.3
Si
4-65
-4- I
18 49.1
4-46
—15
20 28.0
0
—61
22 26.1
4-90
-h24
8 47.7
4-23
-40
10 33.6
6i
4-21
^44
13 58.1
4-11
—55
14 26.4
5; r
—SI
—62
15 51.9
5: '
— 6
—62
16 3.7
— 8
—62
16 24.1
4-42
—24
18 32.5
4-90
4-17
21 53.S
4- 6
—62
1 4S.3
4-68
— 6
4 49.1
*l
4-90
-1-8
5 9.7
4
4-11
—59
8 42.2
4-29
—40
8 48.9
4-90
4- 7
13 8.5
4-31
—40
15 46.1
64
4-47
—26
16 37.3
4-SI
—40
17 4.6
4-36
—36
18 19.4
H-S4
—38
18 32.3
— 5
—68
10 57.8
— 7
—68
11 25.5
4-20
—56
12 58.0
»i
—20
-73
15 21.1
4-90
4-18
20 12.9
— 6
-75
22 53.1
—18
—75
2 33.9
—37
—75
4 21.5
4-66
—22
IS 33.5
«t
4-28
-60
3 13.5
4
H-90
4- 4
7 13.7
3
-H90
4-32
23 57.3
+90
447
4 49.5
6
4-41
—48
16 7.3
?t
-4-25
—68
16 50.5
H-87
-4- 3
3 40.9
6
4-20
—71
10 29.1
6
+61
—28
17 38.9
6i
4-72
— 4
3 42.8
At WMhlngton Mmb Tlmt oC Ooqjiuwtfoii.
H
h. m. ■.
4-10 57 9
— 8 55 56
— 8 42 6
— 8 30 25
— 8 4 67
— 7 27 89
— 7 27 13
— 4 32 0
4- 4 41 53
4- 3 21 13
4- 7 67 S6
—11 0 54
— 3 10 13
4- 4 1 67
4- 5 36 47
4- 7 30 3
— 6 33 32
— 4 51 47
— 1 34 22
— 1 8 10
4- 0 13 59
4- 0 25 16
-f- 0 44 51
4- S 48 16
4- 6 1 15
4- 9 41 42
—11 18 35
—10 58 45
— 7 34 6
— 7 27 40
— 3 17 36
— 0 45 37
4- 0 3 45
-4- 0 30 5
4- 1 43 10
+ 1 54 35
— 6 13 47
— 5 47
— 4 17 32
— S 44 12
4- 1 58 56
-h 4 34 28
-4- 8 8 49
-I- 9 53 21
— 5 10 20
-4-8 7 4
—11 59 14
4- 4 17 33
4- 9 S 5
— 3^7 48
— 3 15 45
-4- 7 17 40
—10 43 11
— 3 45 2
4- 6 S 6
—0.6924
—1.0207
—0.8806
— O.4308
—0.6066
—0.3457
—0.4265
4-1.0356
-4-0.0397
—0.6588
—1.0257
4-0.7660
—1.0752
+0^206
+0.0233
—0.7743
+0.8262
—0.3769
—0.4217
—0.5964
—1.0566
—0.8628
—0.8930
—0.0438
4-0.7713
—0.6832
+0.3744
+0.6498
—0.6071
—0.2816
+0.6880
—0.2407
+0.0404
—0.2383
—0.1525
—0.1936
—0.8742
—0.9086
—0.4490
— 1.18S7
+1.0402
—0.9353
— 1.1148
—1.3167
+0.3724
—0.3174
+0.9051
+1.2975
+ 1.4109
—0.0682
—0.3890
4-0.9109
—0.4484
+0.3260
+0.7754
0.5837
.5821
.5829
.5849
.5892
.5860
.5856
.5940
.5947
.5961
.5936
.6026
.5898
.5944
.5916
3860
3882
3801
3764
3758
.5712
3724
3752
3750
3748
3661
3682
3678
.5596
.5612
3598
.5542
3544
3517
.5513
3389
3439
.5442
3311
3064
.5065
3013
.4996
4977
4954
4875
4870
.4819
.4814
4799
4799
4802
4889
4907
0.4951
?'
+.1847
+.1827
+.1828
+.1827
+.1814
+.1791
+.1791
+.17S4
+.1431
+.0661
+XM9d
+.0324
+.0577
—.0172
— X)S36
—.0300
-.0611
—.0670
—.0787
—.0787
—.0843
—.0843
—.0843
—.0902
—.1009
—.1090
—.1168
—.1192
—.1268
—.1268
—.1379
—.1432
—.1454
—.1477
—.1498
—.1498
—.1831
—.1832
—.1867
—.2228
—.2878
—.2314
— .S344
— .S362
— .S433
— J519
— .S536
— .S590
— J598
— J605
— .S605
— .S595
— .S476
— .S4S9
— .S348
ito^
+9.6035
+93096
+9.6079
+9300:
+93858
+9.6027
+9304S
+93876
+9.6306
+93784
+93874
+93655
+93930
+9.6735
+93770
+93871
+9.6584
+93736
+93703
+937S7
+9.6774
+93746
+93746
+93602
+93438
+93590
+9.6385
+9.6336
+9.6459
+93409
+93172
+93S59
+93179
+9.6S30
+93187
+93188
+93851
+93843
+93713
+94771
+93968
+9.4323
+94149
+9.4093
+9.2922
+9.1868
+9X)743
+8.6590
+83651
+6.SS94
+7.SS84
— «.7959
— 9.SI4S
—93073
— 939SS
OM D
93618
3607
3610
3624
.9651
3690
3617
3648
3563
3440
3413
3477
3395
3454
3444
.9413
.9496
3454
3463
3457
3443
3451
3451
3490
353S
3494
3545
3555
3527
3539
.9591
3573
3586
3579
3588
3588
.9659
.9654
3675
3795
3835
3848
3859
3915
3948
3969
3996
9.9999
03000
03000
9399S
.9941
3909
9.9864
OCCULTATIONS, 1856.
429
ELEMENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
1
OF
PLANETS AND STARS BY THE MOON, FOR THE YEAR 1856.
^
Limiting
Pumllalfl.
WMh-
Time of
Sftte.
Star's Nmm.
3
%
North,
em.
South-
ern.
H
Y
P'
?'
£^
ooe D
Not. 28
B.A.C. 6120
^
o
-h25
o
—40
h. m.
20 40.6
h. m. s.
— 4 42 33
+0.0792
0.5653
—.0168
—9.6782
9.9440
28
B.A C. 6127
5
-H19
—40
21 13.2
— 4 11 9
+0.0702
.5657
—.0180 —9.6782
.9440
29
B.A.C. 6190
6^
-h30
—28
1 5.8
— 0 27 15
+0.2825
.5657
—.0017
—9.6814
.9431
29
B.A.C. 6191
6
-h 8
—51
1 6.1
— 0 27 0
—0.1140
.5677
—.0017
—9.6762
.9446
29
B.A.C. 6220
6
4-18
3 1.4
+ 1 24 1
+0 0677
.5670
+.0040
—9.6789
.9439
29
if Sa^ttarii
H
—56
—90
12 53.6
+10 64 4
—1.2241
.5757
+.0326
—9.6690
.9494
29
T Sagittarii
4
-1-17
—47
21 43.4
— 4 35 58
—0.0391
.6675
+.0551
—9.6699
.9464
30
B.A.C. 6628
6
H-62
— 3
5 1.9
+ 2 26 12
+0.7247
.6625
+.0775
—9 6736
.9454
30
B.A.C. 6666
6
H-21
—45
7 17.7
+ 4 36 59
—0.0118
.5656
+.0829
—9.6612
.9488
30
aiSagittarii
H
-M7
—21
18 13.5
— 8 61 31
+0.4166
.6600
+.1124
—9.6522
.9511
30
A Sagittarii
B.A.C. 7077
5
-H50
—18
19 32.6
— 7 34 24
-H).4667
.5587
+.1148
—9.6508
.9515
Deo. 1
6
4-65
+32
10 6.6
+ 6 26 53
+1.1926
.5502
+.1623
—9.6328
.9557
B.A.C. 7197
6
4-30
—45
16 54.1
—11 0 8
—0.0023
.5518
+.1683
—9.5965
.9632
B.A.C. 7335
6
4-33
—43
1 50.8
— 2 22 22
-H).02O6
.5481
+.1855
—9.5692
.9679
27 Capricor.
6
— 3
—82
2 17.5
— 1 66 34
—0.5632
.5505
+.1856
—9.5569
.9698
(f Capricor.
6
4-37
—41
5 0.6
+ 0 20 51
+0.0745
.5458
+.1937
—9.5591
.9694
33 Capricor.
6
-4-69
+16
8 50.0
+ 4 22 20
+1.0491
.5410
+.1996
—95633
.9688
2
37 Capricor.
6
4-70
+37
13 41.1
+ 9 3 24
+1.2747
.5381
+.2089
—9.5488
.9710
2
• Capricor.
4i
4-70
+ 2
14 42.2
-HlO 2 29
+0.8496
.6389
+.2107
—9.5363
.9727
2
X Capricor.
b
4-70
— 2
17 14.7
—11 30 12
+0.7805
.5375
+.2161
—9.5239
.9743
3
29 Aquarii
6
4-73
+ 4
2 23.3
— 2 40 1
+0.8886
.5335
+.2308
—9.4818
.9791
3
45 Aquarii
6
—18
—90
10 9.6
+ 4 50 48
-1.0228
.5351
+.2425
—9.3843
.9869
3
50 Aquarii
B.A.C. 7835
6
-h31
—53
12 42.7
+ 7 18 53
—0 1584
.5322
+.2452
—9.3913
.9864
3
I*
4-34
—52
15 20.6
+9 51 33
—0.1329
.6190
+.2492
—9.8728
.9876
4
70 Aquarii
4-26
—61
0 8.2
- 5 37 55
—0.2929
.6284
+.2597
—9.2926
.9915
4
74 Aquarii
6
-4-78
+54
2 30.2
— 3 20 32
+1.4148
.6249
+.2618
—9.3311
.9898
4
A* Aquarii
6
—18
—90
8 7.2
+ 2 5 40
—1.0998
.6276
+.2676
—9.1679
.9952
4
A* Aquarii
A^ Aquarii
7
—12
—90
8 11.9
+ 2 10 14
—1.0174
.5276
+.2675
—9.1710
.9952
4
7
4- 3
—90
8 28.2
+ 2 25 56
-0.7584
.5272
+.2675
—9.1801
.9950
4
A* Aquarii
n
—90
9 6.5
+ 333
—0.8362
.6268
+.2684
—9.1678
.9952
4
/ Aquarii
22 P scium
'^
4-69
—21
13 44.8
+ 7 32 24
+0.4593
.6247
+.2717
—9.1699
.9952
5
4-13
—81
4 45.0
— 1 56 6
-0.5828
.5248
+.2810
—8.7718
.9992
5
24 Piscium
6i
-4-84
—11
7 9.4
+ 0 23 42
+0.6612
.5231
+.2823
—8.8379
.9980
5
B.A.C. 8365
4-26
—65
13 0.3
+ 6 3 28
—0.3648
^252
+.2841
—8.3547
.9999
5
JUPITBB
4-56
—34
14 19.0
+ 7 19 36
+0.2002
.5172
+.2798
—8.4139
.9999
5
BA.C.57
«i
4- 1
—89
19 6.5
+11 57 56
—0.8375
.5261
+.2861
4-8.1929
.9999
5
44 Piscium
-h42
—47
22 45.5
— 8 30 9
—0.0531
.5268
+.2852
+8.3019
.9999
6
Bji.C. 221
4-25
—66
9 35.2
+ I 58 34
—0.3831
.5313
+.2841
+8.8991
.9996
6
B.A C. 274
«i
-f44
—42
15 0.8
+ 7 13 29
—0.0136
.6328
+.2821
+8.9979
.9978
6
« PUcium
—10
—83
16 27.7
+ 8 37 30
—1.0167
.6320
+.2816
+9.0932
.9966
, 6
K Piflcium
4-90
— 8
21 27.1
—10 32 57
+0.6844
.5364
+.2792
+9.0746
.9969
7
n Piscium
— 7
—79
8 6.1
— 0 15 26
—0.9681
^407
+.2712
+9.2963
.9913
8
27 Arietis
4-17
—66
7 36.9
— 1 34 16
-0.5284
.6571
+.2430
+9.4677
.9804
8
40 Arietis
-4-85
— 5
15 1.3
+ 6 33 51
+0.6070
.6675
+.2293
+9.4826
.9790
8
«« Arietis
-+-90
+37
18 2.5
+ 8 28 15
+liW06
.5720
+.2236
+9.4841
.9788
8
47 Arietis
— 5
—70
18 55.5
+ 9 19 15
—0.9026
.5643
+.2216
+9.5360
.9727
9
a Arietis
jt
+90
-4-36
0 29.0
— 9 19 52
+1.2073
.5769
+.2113
+9.5167
.9752
9
C Arietis
4-54
—25
1 47.7
— 8 4 13
+0.1597
.5731
+.2091
+9.5447
.9715
9
T* Arietis
-f-82
— 4
4 20.2
— 5 37 35
-4-0.5653
.5767
+.2025
+9.5470
.9712
9
t* Arietis
4-90
+28
4 57.8
— 5 1 25
+1.0912
.6789
+.2002
+9.5388
.9723
9
65 Arietis
4-90
4-34
5 37.8
— 4 22 67
+1.1.^88
JS806
+.2002
+9.6401
.9722
9
9Tauri
-f-27
—48
10 33.8
+ 0 21 30
—0.3149
.5794
+.1884
+95872
.9649
9
0 Pleiadum
6 Pleiadum
\
— 3
—66
13 37.3
+ 3 17 43 —0.8484
.5791
+.1808
+9.6066
.9613
9
-H 8
—66
13 39.2
+ 3 19 34 —0.6677
.5798
+.1809
+9.6035
.9618
9
• Tauri
—13
—66
13 46.5
+ 3 26 35 —0.9986
0.5785
+.1806
+9.6096
9.9607
430
OCCULTATIONS, 1856.
ELEMENTS FOR FACILITATING THE CALCULATION
OF OCCULTATIONS
OF
PLANETS AND STARS BY THE MOON, FOB THE YEAR 1856.
1
Limltiiiff
PanlleU.
Wuh-
togwi
Thueof
6'
At Washington Mean Time of Coqjiiiketioo.
Sftto.
Sterns Name.
North-
em.
South-
em.
H
Y
P'
q'
^
eoe D 1
Deo. 9
9
9
9
9
c Pleiadam
B.A.C. 1155
k Pleiudum
/ Fleiadum
d Pleiadam
5
7
J*
5
0
— 4
-1-67
—17
—14
-1-22
0
—66
-12
-66
—66
—52
h. m.
14 1.2
14 2.6
14 2.9
14 6.2
14 13.5
h. m. s.
4- 3 40 39
4- 3 41 59
4- 3 42 16
-h 3 45 27
+ 3 52 29
—0.8578
4-0JJ616
—1.0392
—1.0030
—0.4050
0.5793
.5847
.5785
.5786
.5817
4-.1 793 -4-9 6079
4-.1 793 4-9.5865
+.1793+9.6111
+.1787+9 6107
+.1783 +9.6007
9.9610
.9650 ^
.9604 '
.9604
.9624 1
9
9
9
9
9
12 Pleiadam
p Pleiadam
lyTauri
28 Pleiadam
t Pleiadam
7
t-
8
7
n
— 9
-hl7
H-18
4-60
-h37
—66
—67
—56
—17
—37
14 28.3
14 37.3
14 40Ji
15 1.1
15 14.9
4- 4 6 42
4- 4 15 17
4- 4 18 21
4- 4 38 13
4- 4 51 26
—0.9322
—0.5046
—0.4841
+0.2551
—0.1408
.5792
.5813
.5813
.58.^3
.5833
+.1783 +9.6106
+.1778 +9.6037
+.1778, +9 6035
+.1768+9.5916
+.1760] +9.5992
.9604
.9618
.9618 <
.9641
.9627
9
9
9
9
9
/Pleiadam
h Pleiadam
34 Pleiadam
40 Pleiadam
3dTaari
4
5
7 '
7
6
-1-27
-1-23
-M8
-1-38
-f.90
-47
—51
—27
—36
4-30
15 19.8
15 20.2
15 33.5
16 0.0
18 25.4
4- 4 56 10
4- 4 56 33
4- 5 9 14
4- 5 3t 43
4- 7 64 18
—0.3218
-0.4034
-H0.0564
-0.1179
-4-1.0622
.5825
^821
.5844
.5847
.5909
+.1755
+.1755
+.1750
+.1732
+.1682
+9.6027
+9.6042
+9.5968
+9.6012
+9.5876
.9620
.9617
.9631 i
.9623 '
.9648
10
11
11
U
11
/Taari
/<Taari
B AC. 1772
136 Taari
X Aorign
6
5
4
-1-47
-h 4
—24
-1-90
—33
—24
—61
—61
4-19
—61
4 9.1
3 51.9
8 394
13 52.6
21 59.9
— 6 45 43
— 8 2 20
— 3 27 3
4- 1 32 53
4- 9 19 40
-4-0.0391
-0.7074
—1.0859
4-0.6920
—1.1620
.5931
.5972
Ji95l
.6053
.5935
+.1396
+ 0634
+.0500
+.0298
— 0000
+9.6306
+9 6784
+9 6874
+9.6655
+9.6930
.9563 1
.9440 '
.9413
.9476
.9395
12
12
12
12
12
49 Aariga
54 Aurign
28 Geminor.
47 Qeminor.
53 Geminor.
I'
6
6
6
-4-58
-MO
— 8
-+-90
-1-16
— 5
-21
—61
4-16
—49
5 25.9
7 3.6
9 0.2
19 12.6
20 56.8
— 7 33 2
— 5 69 25
— 4 7 43
4r 5 39 34
-4- 7 19 33
4-0.2138
—0.0849
—0.8822
4-0.6879
—0.5101
.5990
.5962
5906
.5932
.5852
—.0206
—.0271
—.0336
— 06.V3
—.0715
+9.6735
+9.6771
+9.6871
+9.6584
+9.6736
.9454
.9444
.9413
.9496
J»453 '
13
13
IS
13
13
( Geminor.
b^ Geminor.
A« Geminor.
B.A.C. 2472
i; Geminor.
4
5r
5
6
5
-h 2
—36
—16
—19
-1-33
—62
—62
—62
—62
—33
0 45.6
2 9.7
2 21.2
2 41.2
4 47.2
-hlO 59 10
—11 40 10
—11 29 5
-11 9 54
— 9 8 51
—0.7355
—1.1943
— 1X)035
—1.0340
-0.1947
.5822
.5777
.5790
.5793
.5820
—.0805
—.0863
—.0863
—.0865
—.0923
+9.6728
+9.6774
+9 6746
+9 6746
+9.6602
.9456 .
.9442
.9451
.9451
.9490
13
13
13
13
13
c Geminor.
tp Geminor.
o»* Cancri
^/•Cancri
il Cancri
6
5
6
4
6
4-88
— 4
-♦-56
-4-19
-f-76
4- 8
—63
—15
—61
— 3
8 4.2
11 48.9
14 51.9
18 46.8
23 0.7
— 5 59 39
— 2 23 39
-4- 0 32 20
-4- 4 18 18
+ 8 22 43
4-0.6078
—0.8424
4-0.2005
—0.4574
44).4787
.5818
.5728
.5741
.5681
.5664
—.1035
—.1118
—.1211
—.1301
—.1423
+9.6438
+9 6590
+9.6385
+9.6409
+9.6172
.9532
.9494
.9545
.9539
.9591 ,
14
14
14
14
16
V* Cancri
5* Cancri
79 Cancri
B.A.C. 3138
17 Leonin
6
5
6
6
H
-h29
—20
—24
-^ 8
—56
—43
—68
-68
—68
—73
3 39.6
20 21.3
20 48.3
22 18.8
0 7.5
—11 8 42
-h 4 57 42
-4- 5 23 48
-4- 6 51 14
4- 7 50 6
—0.2808
—1.0884
—1.1228
—0 6645
—1.3852
.5598
.5389
.5434
.5405
.5156
—.1517
—.1863
—.1863
—.1898
—.2269
+9.6187
+9.6851
+9 5641
+9.5607
+94462
.9588
.9652 '
.9687
.9692
.9824 '
16
16
16
16
17
87 Leonis
42 Leonif
B.AC 3597
/ Leonis
/Leonis
6
6
6
5
5
-4-90
—26
—49
-M9
4-90
0
—75
-75
—37
-4-58
4 53.5
7 30.6
11 7.1
21 55.0
6 28.6
—11 32 37* -H).7667
— 9 0 12 —1.1967
— 6 30 8 —1.3782
4- 4 58 58 i 4-0.0871
—10 41 57 4-1.4243
.5112
.5104
.5068
.4988
.4964
—.2322
—.2342
—.2378
—.2464
-.2511
+9.4174
+9.3988
+9.3791
+9.2957
+9.1494
.9846 '
.9859
.9872 ,
.9913 '
.9956
17
17
18
18
19
B.A C. 3837
n Leonis
(i Virginis
B.A.C. 4043
13 Virginia
3
6
6
-f-13
-1-83
4-90
4-90
4-26
-78
—12
4- 9
-4-16
—65
11 22.3
15 19.3
7 51.4
12 41.0
23 53.9
— 5 56 21
— 2 5 55
—10 0 33
— 5 18 39
-4- 5 36 29
—0.6047
-H).6074
4-0.9965
-4-1.1112
—0.3566
.4917: -.2537
.4895 —.2554
.4836 —.2596
.4826' —.2604
.4807 —.2604
+9.1529
+9.1143
+8 7826
+8.6021
+7.7278
.9956
.9963
.9992 1
9.9997
0X)000|
19
19
20
20
21
17 Virginis
B.A.C. 4255
B.A.C. 4394
k Virtcinis
86 VirginU
3
6
5
6
6
4-10
4-83
-4-82
+ 7
-4-47
—89
-13
-4-48
—90
—39
0 36.8
11 24.1
4 24.1
18 8.8
1 18.5
4- 6 18 17
— 7 11 31
-4- 9 21 38
— 1 15 46
-4- 5 42 15
—0.6751
4-0.6259
-4-1 3993
—0.6921
-4-0.1107
.4808 —.2604
4807! —.2588
.4832, —.2500
.4877 —.2454
0.4907! —.2406
+7J755
—8.7365
1 —9 0896
—9.2392
' -9.3073
OOOOOl
9.9994
.9967 *.
.99341
9.9909
OCCULTATIONS, 1856.
431
ELEMENTS FOR FACILITATING THE CALCULATION OF OCCULTATIONS OF
PLANETS AND STARS BY THE MOON FOR THE YEAR 1856.
D»to.
Dec. 21
21
23
23
23
23
23
23
23
24
24
24
28
28
29
29
29
29
29
29
30
30
30
30
31
31
31
31
31
31
31
Starts Nftme.
B.A.C. 4679
B.A C. 4700
B.A.C. 5023
42 Libra*
B.A.C. 5197
B.A.C. 5253
B.A.C. 5254
3 Scorpii
B.A.C. 5286
a Scorpii
a Scorpii
22 Scorpii
17 Capricor.
BA.C. 7197
BJLC. 7335
27 Capricor.
y Capricor.
33 Capricor.
« Capricor.
« Capricor.
S Capricor.
29 Aqaarii
50 Aquarii
B.A.C. 7835
70 Aqaarii
A* Aqaarii
/i* Aquarii
h^ Aquarii
h* Aqaarii
1^ Aquarii
/ Aquarii
Limiting
PandlelB.
North- South-
ern, em.
-4-70
-1-75
-1-68
-4-66
+66
-1-55
+23
+65
+55
+24
H
+49
5
—32
6
—36
6
-MO
6
-M4
6
+15
6
+48
6
+69
^
+70
5
+71
4i
—55
6
+73
6
+45
H
+47
6
+41
6
+ 1
7
+ 5
7
+ 19
n
+ 15
5
—33
5J
+78
—15
+31
+20
— 7
+38
—18
—52
+33
—17
—47
—20
—90
—90
—34
—32
—65
—29
+37
+18
+13
—90
+21
—38
—37
—45
—90
—90
—72
—77
—90
— 5
Wash-
ington
Time of
h. m.
11 22.7
14 47.4
0 20.6
11 50.6
14 26.5
18 13.7
18 15.5
18 33.8
20 23.7
6 41.4
10 20.9
10 44.5
22 0.6
22 55.1
7 44.0
8 10.4
10 51.3
14 37.8
20 25.8
22 56.7
0 57.7
8 0.3
18 1.5.7
20 52.9
5 39.3
13 38.6
13 43.5
13 59.7
14 38.1
18 3.8
At Waflhington Mean Time of Goi^onctton.
H
b. m. 0.
— 8 30 22
— 5 11 25
+ 8 22 15
— 9 29 37
— 6 58 47
— 3 18 59
— 3 17 11
— 2 59 32
— 1 13 16
+ 8 43 42
—11 44 24
—11 21 35
— 4 4 44
— 3 11 42
+ 5 18 18
+ 5 43 45
+ 8 18 56
+11 57 29
— 6 26 32
— 4 0 52
— 240
+ 4 44 18
— 9 20 47
— 6 18 45
+ 1 40 31
+ 9 24 22
+ 9 29 5
+ 9 44 48
+10 21 59
—10 18 54
19 15.91— 9 9 6
Y
P'
+0.5587
04945
+1.2569
.4944
+1.0990
.5171
-1-0.6837
.5264
+1.2563
.5270
+0.4787
.5330
—0.1332
.5353
+1.2081
.5300
-4-0.4975
.5346
—0.0520
.5444
+0.4302
.5456
—1.0445
.5516
—1.2428
.5630
+0.1898
.5567
+0.2311
.5527
-0.3484
.5551
+0.2909
.6508
+ 1.2685
.5450
+1.0822
.5420
+1.0167
.5405
—1.4595
.5465
+ 1.1413
.5357
+0.1137
.5337
+0.1430
.5321
—0.0060
.5295
—0.8050
.5277
—0.7219
.5277
—0.4624
.5268
-0.5396
.5269
—1.2880
.5265
+0.7616
0.5236
q'
—.2323
—.2295
—.1866
—.1680
—.1625
—.1548
—.1548
—.1548
—.1509
—.1300
—.1210
—.1210
+.1696
+.1719
+.1893
+.1919
+.1954
+.2033
+.2145
+.2197
+.2392
+.2342
+.2482
+.2519
+.2606
+.2680
+.2680
+.2687
+.2687
+.2717
+.2726
ifi
sin
—9.3922
—9.4303
—9.5711
—9.5981
—9.6138
—9.6110
—9.6016
—9.6230
—9.6163
—9.6299
—9.6436
—9.6227
—9.5742
—9.5964
—9.5692
—9.5568
—9.5.591
—9.5633
—9.5363
—9.5239
—9.4603
—9.4817
—9.3914
—9.3729
—9.2926
—9.1680
—9.1710
—9.1800
—9.1680
—9.0747
—9.1797
cos D
9 9864
.9837
.9676
.9629
.9598
.9604
.9622
.9579
.9593
.9564
.9533
.9580
.9671
.9632
.9679
.9698
.9694
.9688
.9727
.9743
.9811
.9791
.9864
.9876
.9915
.9952
.9952
.9950
.9952
.9969
9.9950
Nora. — B. A. 0., British Association OatalogiM.
432
OCCULTATIONS, 1866.
OCCULTATIONS OF PLANETS
AND
STARS BY THE MOON. VISIBLE
AT
WASHINGTON, D.
C DURING THE '
rEAR 1856.
IHHBBSION.
BMBB8I0N.
1
^1 '
Date.
Ster'iNHna.
1
Waahiiigtoii
Angli
fttm
Washington
Ansk
fhNn
Sideraal
Mean
North
Veiw
tez.
Blderaa
Meftn
North
Ver-
II !
Time.
Time.
Point
Time.
Time.
Pdnt.
tex.
1
h. m.
h. m.
o
o
h. m.
h. m.
o
o
h. m !
Jan.
11
1^* Aqaarii
^i
23 23
4 18
350
S58
0 19
5 14
88
110
0 56
11
V^* Ac^uarii
« Pisciam
4}
0 35
5 13
255
276
1 18
5 55
, 181
210
0 42
13
5; •
6 44
10 12
274
325
6 38
11 6
141
192
0 54
15
n Arietis
5; '
4 51
9 12
310
356
5 56
10 17
103
155
1 5 1
15
e* Arietis
8 40
13 1
317
10
9 29
13 49
74
124
0 48 :
16
l).A.C. 1189
8 18
12 35
270
327
9 20
13 37
112
156
1 2
16
32 Tanri^
11 16
15 32
265
312
12 4
16 20
lis
156
0 48
20
c Geminor.
11 36
15 36
242
302
12 33
16 34
79
137
0 57
21
a Cancri
1 21
5 19
204
154
1 46
5 44
148
97
0 26 ;
21
u* Cancri
7 25
11 23
318
282
7 59
11 56
2
344
0 34
Feb.
1
43 Ophiuchi
14 10
17 27
183
148
14 37
17 53
140
109
0 26
12
65 Arietis
3 36
6 7
327
340
4 49
7 20
89
130
1 13 .
16
47 Geminor.
3 14
5 29
164
104
StarO'.8
south of
C'8
limb.
17
X Cancri
12 6
14 16
203
261
12 56
15 6
109
166
0 50
20
/ Leonis
15 41
17 39
182
234
16 15
18 13
115
168
0 34 1
29
B.A.C. 6072
14 41
16 3
270
235
15 56
17 19
64
41
1 16 1
Mar.
8
88 Piscium
6 '
5 17
6 10
293
842
6 17
7 9
125
176
1 0 ,
10
6 Arietis
8 44
9 28
277
331
9 39
10 23
HI
162
0 55
U
47 Geminor.
12 51
13 19
221
277
13 37
14 5
HI
162
0 46
15
«» Cancri
,
10 2
10 26
222
278
11 13
11 37
93
153
1 11 !
31
B.AC. 7550
18 36
17 56
318
284
19 44
19 4
89
66
1 8
April
9
136 Tauri»
13 31
12 17
302
346
14 10
12 56
61
92
0 39
10
54 Aarig^
7 48
6 SO
.3.^3
45
StarO'.l
north of
c*»
limb.
12
u* Cancri
6 56
5 31
li-i-l
195
8 27
7 1
78
81
1 31
12
32 Cancri
7 56
6 SO
iio.<
248
9 19
7 53
44
79
1 83
22
o Scorpii
H
13 36
11 31
281
251
14 41
12 35
26
7
1 4 1
22
a Scorpii
H
19 13
17 6
241
274
20 25
18 18
102
145
1 12
23
43 Ophiuchi
18 5
15 55
352
363
Star 1 '.5
north of
C's
Umb.
May
9
X Cancri
13 55
10 42
207
262
14 36
^1 23
111
163
0 41
12
/Leonis
16 27
13 2
192
244
17 5
13 40
110
160
0 38 1
14
13 VirKinis»
18 54
15 21
250
301
19 47
16 14
59
108
0 54
16
h Virfrinis
10 36
6 56
208
171
11 46
8 7
73
49
1 11 '
21
B.A.C. 6072
«l
14 37
10 37
283
247
15 47
11 47
52
27
1 10 i
June 21
B.A.C. 7550
19 2
13 0
241
210
19 48
13 45
171
148
0 46
25
e Pisciumt
H
18 82
12 14
280
229
19 23
13 5
139
87
0 51
25
88 Piscium
^
22 24
16 5
347
305
23 18
16 59
89
^%
0 54
27
?» Arietis
20 2
IS 86
304
254
20 53
14 26
109
56
0 51
July
10
86 Virginis
14 56
7 39
236
254
16 21
9 4
54
88
1 25
16
B.A.C. 6628
20 40
IS 58
278
306
21 49
15 8
118
157
1 9
18
33 Capricor.
20 52
13 3
300
295
22 10
14 21
120
132
1 19
21
29 Piscium
^k
18 22
10 21
258
207
19 6
11 6
161
112
0 45
Aug.
9
B.A.C. 5253
17 59
8 44
291
318
19 5
9 50
89
77
1 7
9
B.A.C. 5286*
^
20 42
11 27
270
318
21 46
12 30
74
124
I 4
13
A SugitUrii
23 19
13 47
343
21
0 1
14 29
62
106
0 42
1
15
29 Aquarii
1 31
15 52
251
292
2 9
16 29
173
218
0 37
18
JlJPITBR
22 56
13 5
269
240
23 50
13 59
173
159
0 54
21
B.A.C. 1032
^k
21 90
11 28
255
201
22 14
12 9
159
104
0 41
21
T» Arietis
22 22
12 19
257
202
23 7
13 4
161
105
0 45
24
B.A.C. 2097
H
3 9
16 53
291
229
4 19
18 3
55
357
1 10
26
X Cancri
S 4
15 41
175
122
8Hir2'.5
south of
C'»
Kmb.
Sept
9
B.A.C. 6628
20 69
941
%
27
21 U
9 57
27
5t
0 IS
11
S3 Caprieor.
t PistJiim
20 24
s m
att
W7
21 3fl
10 13
100
104
1 15
t 8
15
2 4
14 m
ttf
aof
a 12
15 30
US
184
OCCULTATIONS, 1866.
439
OCCULTATIONS
OF PLANETS
AND
STARS BY THE MOON. VISIBLE
AT
WASHINGTON, D.
C DURING THE YEAR 1856.
Date.
Star's Name.
i
IMMERSION.
EMSBSION
o§
Washington
Sider««il Mean
Angk
North
from
Ver-
Washington
Sidereal Mean
Angle from
North Ver-
li
Time.
~h. m
nme.
Pdnt
tex.
Time.
Time.
Point.
tex.
h. m.
o
o
h. m.
h. m.
o
o
h. m
Sept 17
e* Arietis
6
20 27
8 38
239
187
20 54
9 5
175
122
0 27
^ 18
33 Tauri
6
21 47
9 54
203
150
Star0'.4
south of
C'8
limb.
18
36 Tauri
6i
0 43
12 50
271
213
1 47
13 53
143
90
1 3
22
o»* Cancri t
6
0 15
12 6
270
225
1 8
12 59
85
34
0 53
22
cu« Cancri
6i
1 3
12 54
177
127
Starl'.5
south of
<C'»
limb.
Oct 2
B.A C 5023
6
17 59
5 12
199
233
18 51
6 3
122
163
0 52
7
b Sagittani
5
19 5
5 58
237
228
20 I
6 54
157
160
0 56
8
B.A.C. 7237
6
17 51
4 40
247
213
18 51
5 40
150
126
1 0
9
29 AurigflB
6
2 6
12 50
256
300
2 46
13 30
167
215
0 40
14
40 Arietis
6
8 22
18 45
212
266
8 36
18 59
182
235
0 15
U
T« Arietis »
6
19 20
5 42
267
223
20 2
6 23
188
90
0 41
15
65 Arietis t
6
19 58
6 19
244
197
20 29
6 50
163
113
0 81
15
28 Pleiadam
7
7 46
18 5
276
334
8 48
19 7
107
163
1 2
17
B.A.C. 1746
n
22 36
8 49
304
254
23 24
9 37
83
29
0 48
18
49 Aurig®*
22 6
8 16
5
323
Star2'.6
north of
C'8
limb.
Nor. 5
» Capricor.
H
0 24
9 22
277
312
1 23
10 21
147
190
0 59
U
(/• Arietis
6
21 42
6 17
209
155
Star 0^.6
south of
C's
limb.
11
C Arietis
4
7 49
16 22
315
10
8 20
17 13
75
129
0 51
12
33 Tauri
6
21 34
6 5
238
185
22 3
6 34
169
114
0 29
15
47 Gcminor.t
6
22 59
7 28
229
187
23 35
8 3
135
89
0 35
16
i;» Cancri
H
7 43
15 56
293
267
8 44
16 57
22
39
1 1
19
/ Leonist
5
3 36
11 38
228
179
4 29
12 31
91
39
0 53
21
13 Virginist
6
6 5
14 0
301
250
6 36
14 30
0
309
0 30
23
86 Virginist
6
7 53
15 39
226
175
8 53
16 39
70
22
1 0
30
B.A.C. 6628
6
22 13
5 83
281
315
23 21
6 41
117
161
1 8
Dec. 5
24 Piscium
H
23 41
6 42
303
302
0 57
7 57
140
160
1 15
8
40 Arietis'
6
10 6
15 53
243
290
10 42
16 29
146
188
0 36
9
B.A.C. 1155
7
8 8
14 51
260
317
9 5
15 48
122
177
0 57
9
28 Pleiadum
7
9 13
15 56
297
351
10 6
16 49
82
134
0 52
13
c Geminor.
6
23 55
6 24
254
209
0 44
7 13
103
53
0 49
13
o.« Cancri
6
7 59
14 26
263
268
9 18
15 46
56
105
1 20
23
B.A.C. 52.53t
6
10 33
16 20
240
191
11 36
17 23
66
22
1 3
23
B.A.C. 6286
^
13 12
18 59
295
264
14 1
19 48
9
346
0 49
1
^OTE
S.
• Whole occultation
f Immersion below
1 Emersion below tli
belo
the I
eho
►w the horizon of ^
lorizon of Washing
rizon of Washingto
''ashing!
ton.
n.
ton.
The Angles of Posit
'on, i
or the points of cc
mtact, a
re for <
lirect vision, and a
re reckoned fr
om the
Moon's North Point an
dfro
m its Vertex towarc
UtheY
(Test I
•'or inverted image^ i
iddl80»tothe
angles
given.
55
434 JUPITER'S SATELLITES, 1856.
WASHINGTON
MEAN TIBIE.
1
JANUARY. 1
d. h. m. s.
d. h. m. •.
in. Transit
Ingress W.
1 6 68
in.
Transit
Egress
8 16 2
in. Transit
Egress
1 10 37
in.
Shadow
Ingress
8 15 13
in. Shadow
Ingress
1 11 11
ra.
Shadow
Egress
8 18 44
in. Shadow
Egress
1 14 43
I.
Transit
Ingress
8 19 37
I. Transit
Ingress
1 17 36
I.
Shadow
Ingress
8 30 33
I. Shadow
Ingress
1 18 38
I.
Transit
Egress
8 31 66
I. Transit
Egress
1 19 66
I.
Shadow
Egress
8 33 61
I. Shadow
Egress
1 30 67
n.
Transit
Ingress W.
9 7 18
n. Transit
Ingress
9 4 30
n.
Shadow
Ingress
9 9 11
n. Shadow
Ingress W.
3 6 33
n.
Transit
Egress
9 10 14
n. Transit
Egress W.
S 7 25
n.
Shadow
Egress
9 13 6
n. Shadow
Egress
3 9 38
I.
Occult.
Disapp.
9 16 67
I. Occalt.
Disapp.
3 14 67
I.
Eclipse
Reapp.
9 30 9 38.3
I. EcUpse
Reapp.
3 18 14 83.0
I.
Transit
Ingress
10 14 7
I. Transit
Ingress
3 13 6
I.
Shadow
Ingress
10 16 1
Ingress
3 13 6
I.
Transit
Egress
10 16 36
I. Transit
Egress
3 14 36
I.
Shadow
Egress
10 17 SO
I. Shadow
Egress
3 16 36
n.
Occult.
Disapp.
11 1 31
IV. Occult.
Disapp.
3 16 38
n.
EcUpse
Reapp. W.
11 6 13 8.4
rV. Occult.
Rei^p.
3 31 13
I.
Occult.
Disapp.
11 11 37
n. Occult.
Disapp.
3 33 43
I.
Eclipse
Reapp.
11 14 38 34.4
rV. Eclipse
Disapp.
4 3 10 36.7
ra.
Occult.
Disapp.
13 1 39
n. Eclipse
Reapp.
4 3 34 36.7
IV.
Transit
Ingress
13 4 33
rV. Eclipse
Reapp. W.
4 6 17 63.9
ra.
Occult.
Reapp.
13 6 8
I. Occult.
Disapp.
4 9 37
ra.
Eclipse
Disapp.
13 6 11 53.3
I. Eclipse
Reapp.
4 13 43 10.1
ra.
Eclipse
Reapp.
13 8 33 56.3
in. Occult.
Disapp.
4 31 4
I.
Transit
Ingress
13 8 38
m. Occult.
Reapp.
6 0 43
IV.
Transit
Egress
IS 9 14
in. Eclipse
Disapp.
6 1 10 17.1
I.
Shadow
Ingress
IS 9 30
m. Eclipse
Reapp.
6 4 33 68.3
I.
Transit
Egress
13 10 67
I. Transit
Ingress W.
6 6 36
I.
Shadow
Egress
13 11 49
I. Shadow
Ingress W.
6 7 34
IV.
Shadow
Ingress
13 13 1
L Transit
Egress
6 8 66
IV.
Shadow
Egress
18 17 19
I. Shadow
Egress
6 9 63
n.
Transit
Ingress
13 SO 43
n. Transit
Ingress
6 17 64
n.
Shadow
Ingress
13 33 30
n. Shadow
Ingress
6 19 63
n.
Transit
Egress
13 33 39
n. Transit
Egress
6 30 60
n.
Shadow
Egress
13 1 35
n. Shadow
Egress
6 33 47
I.
Occult.
Disapp. W.
18 6 68
L Occult.
Disapp.
6 3 67
I.
Eclipse
Reapp.
13 9 7 13.7
L EcUpse
Reapp. W.
6 7 13 0.1
I.
Transit
Ingress
14 3 8
I. Transit
Ingress
7 1 6
I.
Shadow
Ingress
14 3 69
I. Shadow
Ingress
7 3 3
I.
Transit
Egress -
14 6 87
L Transit
Egress
7 3 36
I.
Shadow
Egress W.
14 6 18
I. Shadow
Egress
7 4 33
n.
Occult.
Disapp.
14 14 66
n. Occult.
Disapp.
7 13 0
n.
EcUpse
Reapp.
14 19 30 41.6
IL Eclipse
Reapp.
7 16 3 69.7
I.
Occult.
Disapp.
16 0 38
I. Occult.
Disapp.
7 33 37
I.
Eclipse
Reapp.
16 3 36 68.3
I. Eclipse
Reapp.
8 1 40 47.1
ra.
Transit
Ingress
16 15 49
in. Transit
Ingress
8 11 33
ra.
Shadow
Ingress
16 19 14
JUPITER'S SATELLITES, 1856. 435
WASHINGTON
MEAN TIME.
JANUARY.
d. h. m. 1.
d. h. m. 1.
m. Transit
Egress
15 19 28
I.
Transit
Egress
23 1 59
I. Transit
Ingress
15 31 38
I.
Shadow
Egress
23 2 42
L Shadow
Ingress
15 22 27
m.
Shadow
Egress
23 2 48
III. Shadow
Egress
15 22 46
U.
Transit
Ingress
23 12 57
L Transit
Egress
15 23 57
n.
Shadow
Ingress
23 14 24
I. Shadow
Egress
16 0 46
n.
Transit
Egress
23 15 53
IT. Transit
Ingress
16 10 7
n.
Shadow
Egress
23 17 18
IT. Shadow
Ingress
16 11 48
I.
Occult.
Disapp.
23 21 1
n. Transit
Egress
16 13 3
I.
Eclipse
Reapp.
23 23 59 51.5
n. Shadow
Egress
16 14 42
I.
Transit
Ingress
24 18 11
I. Occult.
Disapp.
16 18 59
I.
Shadow'
Ingress
24 18 52
I. Eclipse
Reapp.
16 22 3 48.0
I.
Transit
Egress
24 20 30
I. Transit
Ingress
17 16 9
I.
Shadow
Egress
24 21 11
I. Shadow
Ingress
17 16 56
n.
Occult.
Disapp.
25 7 12
I. Transit
Egress
17 18 28
n.
Eclipse
Reapp.
25 11 27 44.4
I. Shadow
Egress
17 19 15
I.
Occult.
Disapp.
25 15 31
n. Occult.
Disapp.
18 4 21
I.
Eclipse
Reapp.
25 18 28 34.8
n. Eclipse
Reapp.
18 8 49 54.4
ra.
Occult.
Disapp.
26 10 25
I. Occult.
Disapp.
18 13 29
I.
Transit
Ingress
26 12 41
I. Eclipse
Reapp.
18 16 33 32.6
I.
Shadow
Ingress
26 13 20
III. Occult.
Disapp. W.
19 5 56
I.
Transit
Egress
26 15 0
I. Transit
Ingress
19 10 39
I.
Shadow
Egress
26 15 39
I. Shadow
Ingress
19 11 25
in.
Eclipse
Reapp.
26 16 35 56.2
m. Eclipse
Reapp.
19 12 34 55.2
u.
Transit
Ingress
27 2 22
I. Transit
Egress
19 12 58
n.
Shadow
Ingress
27 3 42
I. Shadow
Egress
19 13 44
u.
Transit
Egress
27 6 18
II. Transit
Ingress
19 23 32
n.
Shadow
Egress W.
27 6 36
II. Shadow
Ingress
20 I 6
L
Occult.
Disapp.
27 10 2
n. Transit
Egress
20 2 28
I.
Eclipse
Reapp.
27 12 57 19.9
II. Shadow
Egress
20 4 0
I.
Transit
Ingress
28 7 12
I. Occult.
Disapp.
20 8 0
I.
Shadow
Ingress
28 7 49
I. Eclipse
Reapp.
20 11 2 19.3
I.
Transit
Egress
28 9 31
IV. Occult.
Disapp.
20 12 59
I.
Shadow
Egress
28 10 8
IV. Occult.
Reapp,
20 17 40
n.
Occult.
Disapp.
28 20 38
IV. Eclipse
Disapp.
20 20 28 22.4
n.
Eclipse
Reapp.
29 0 46 17.6
IV. EcUpse
Reapp.
21 0 29 53.8
IV.
Transit
Ingress
29 1 13
I. Transit
Ingress
21 5 10
I.
Occult.
Disapp.
29 4 32
I. Shadow
Ingress W.
21 5 54
IV.
Transit
Egress
29 5 50
I. Transit
Egress
21 7 29
IV.
Shadow
Ingress
29 7 18
I. Shadow
Egress
21 8 13
I.
Eclipse
Reapp.
29 7 26 2.4
n. Occult.
Disapp.
21 17 46
IV.
Shadow
Egress
29 11 31
n. Eclipse
Reapp.
21 22 8 27.6
in.
Transit
Ingress
30 0 48
I. Occult.'
Disapp.
22 2 30
I.
Transit
Ingress
30 1 42
I. Eclipse
Reapp.
22 5 31 3.4
L
Shadow
Ingress
30 2 18
m. Transit
In^es3
22 20 18
in.
Shadow
Ingress
30 3 18
HI. Shadow
Ingress
22 23 16
h
Tran&it
Egress
30 4 1
L Traj]flit
Ingress
22 23 10
m.
Transit
Egress
30 4 25
1 in. Tranmt
Egress
23 23 56
L
Shadow
Egress
30 4 37
I I. Shadow
Ingresi
33 0 23
ni.
Shadow
Egress
30 6 49
436 JUPITER'S SATELLITES, 1856.
WASHINGTON MEAN TIME.
JANUARY.
'
n. Transit
II. Shadow
n. Transit
U. Shadow
I. Occult.
Ingress
Ingress
Egress
Egress
Disapp.
d. h. m. 1.
30 15 47
30 17 0
30 18 49
30 19 55
30 93 3
I. Eclipse Reapp.
I. Transit Ingress
I. Shadow Ingress
I. Transit Egress
I. Shadow Egress
d h. m. s 1
31 1 64 48.9 .
31 20 13
31 20 47 t
31 22 32
31 23 6
Phaui of the Edipiet of the SateUites for in IflTerttng Teleteope.
I.
O
)i
O
r
•
^
V^
n.
o
1 ;
n r ^
d r
• •
^7
^
The Satellites are
FEBRUARY,
not visible this month, Jupiter being too near the Sun.
The Satellites are
MARCH,
not vbible this month, Jupiter being too near the Sun.
APRIL.
I. Shadow
I. Transit
I. Shadow
I. Transit
n. Eclipse
I. Eclipse
I. Occult.
n. Occult.
I. Shadow
I. Transit
I. Shadow
I. Transit
Ingress
Ingress
Egress
Egress
Disapp.
Disapp.
Reapp.
Reapp.
Ingress
Ingress
Egress
Egress
d. h. m. 1.
1 1 5
1 1 87
1 393
1 3 55
1 91 38 13.8
1 99 93 40.9
9 1 6
9 1 30
9 19 34
9 90 0
9 91 59
9 92 94
III. Shadow Ingress
n. Shadow Ingress
I. Eclipse Disapp.
n. Transit Ingress
III. Transit Ingress
III. Shadow Egress
II. Shadow Egress
I. Occult. Reapp.
n. Transit Egress
in. Transit F^gress
I. Shadow Ingress
I. Transit Ingress
d. h. B. •.
3 15 33
3 16 19
3 16 69 11.7
3 17 93
3 17 37
3 18 68
3 19 19
3 19 37
3 20 15
3 91 9 1
4 14 3
4 14 35 1
JUPITER'S SATELLITES, 1866. 437
WASHINGTON
MEAN TIME.
1
APRIL.
d. h m. i.
d. h. m. 1.
I. Shadow
Egress
4 16 21
IL
Eclipse
Disapp.
12 13 35 37.5
I. Transit
Egress
4 16 53
I.
Occult.
Reapp.
12 16 10
IV. Shadow
Ingress
5 8 27
n.
Occult.
Reapp.
12 17 48
n. Eclipse
Disapp.
5 10 57 45.4
I.
Shadow
Ingress
13 10 27
I. Eclipse
Disapp.
5 11 20 49.2
I.
Transit
Ingress
13 11 9
IV. Shadow
Egress
5 12 12
I.
Shadow
Egress
13 12 45
IV. Transit
Ingress
5 13 35
I.
Transit
Egress
13 13 27
I. Occult.
Reapp.
5 14 8
IV.
Eclipse
Disapp.
13 15 54 15.5
II. Occult.
Reapp.
5 14 56
IV.
Eclipse
Reapp.
13 19 19 16.5
IV. Transit
Egress
5 17 22
IV.
Occult.
Disapp.
13 22 17
I. Shadow
Ingress
6 8 32
IV.
Occult.
Reapp.
14 1 54
I. Transit
Ingress
6 9 6
I.
Eclipse
Disapp.
14 7 43 20.9
I. Shadow
Egress
6 10 50
n.
Shadow
Ingress
14 8 11
I. Transit
Egress
6 11 24
III.
Eclipse
Disapp.
14 9 30 35.4
III. Eclipse
Disapp.
7 5 29 51.7
u.
Transit
Ingress
14 9 36
n. Shadow
Ingress
7 5 36
I.
Occult.
Reapp.
14 10 40
L Eclipse.
Disapp. '
7 5 49 16.3
n.
Shadow
Egress
14 11 4
II. Transit
Ingress
7 6 47
n.
Transit
Egress
14 12 28
II. Shadow
Egress
7 8 29
ID;
Occult.
Reapp.
14 15 37
I. Occult.
Reapp.
7 8 39
I.
Shadow
Ingress
15 4 56
n. Transit
Egress
7 9 40
I.
Transit
Ingress
15 5 39
III. Occult.
Reapp.
7 11 9
I.
Shadow
Egress
15 7 14
I. Shadow
Ingress
8 3 1
I.
Transit
Egress
15 7 57
I. Transit
Ingress
8 3 36
I.
Eclipse
Disapp.
16 2 11 50.9
I. Shadow
Egress
8 5 19
n.
Eclipse
Disapp.
16 2 53 58.2
I. Transit
Egress
8 5 54
I.
Occult.
Reapp.
16 5 10
II. Eclipse
Disapp.
0 0 16 8.2
II.
Occult.
Reapp.
16 7 13
I. Eclipse
Disapp.
9 0 17 47.2
I.
Shadow
Ingress
16 23 24
I. Occult.
Reapp.
9 3 10
I.
Transit
Ingress
17 0 9
n. Occult.
Reapp.
9 4 23
I.
Shadow
Egress
17 1 42
I. Shadow
Ingress
9 21 30
I.
Transit
Egress
17 2 27
I. Transit
Ingress
9 22 7
I.
Eclipse
Disapp.
17 20 40 20.7
I. Shadow
Egress
9 23 48
II.
Shadow
Ingress
17 21 29
I. Transit
Egress
10 0 25
II.
Transit
Ingress
17 23 0
I. Eclipse
Disapp.
10 18 46 19.2
III.
Shadow
Ingress
17 23 36
n. Shadow
Ingress
10 18 54
I.
Occult.
Reapp.
17 23 40
m. Shadow
Ingress
• 10 19 34
n.
Shadow
Egress
18 0 21
II. Transit
Ingress
10 20 12
II.
Transit
Egress
18 1 52
I. Occult.
Reapp.
10 21 40
III.
Transit
Ingress
18 2 39
n. Shadow
Egress
10 21 46
III.
Shadow
Egress
18 2 59
m. Transit
Ingress
10 22 9
m.
Transit
Egress
18 6 0
III. Shadow
Egress
10 22 58
I.
Shadow
Ingress
18 17 53
n. Transit
Egress
10 23 4
I.
Transit
Ingress
18 18 39
III. Transit
Egress
11 1 32
I.
Shadow
Egress
18 20 11
I. Shadow
Ingress
11 15 58
I.
Transit
Egress
18 20 57
I. Transit
Ingress
11 16 38
I.
Eclipse
Disapp.
19 15 8 52.8
I. Shadow
Egress
11 18 16
n.
Eclipse
Disapp.
19 16 13 24.7
I. Transit
Egress
11 18 56
I.
Occult.
Reapp.
19 18 10
I. Eclipse
Disapp.
12 13 14 51.0
II.
Occult.
Reapp.
19 20 39
438 JUPITER'S SATELLITES, 1856.
WASHINGTON MEAN TIME.
APRIL.
d. h. m. s.
d. h. B.
I.
Shadow
Ingren
20 12 22
in.
Transit
Ingress
25 7 7
I.
Transit
Ingress
20 13 10
m.
Transit
Egress
25 10 26
I.
Shadow
Egress
20 14 40
Shadow
Ingress
25 19 48
I.
Tranait
Egress
20 15 28
Transit
Ingress
25 20 40
I.
Eclipse
Disapp.
21 9 37 21.7
Shadow
Egress
25 22 6
n.
Shadow
Ingress
21 10 46
Transit
Egress
25 22 58
n.
Transit
Ingress
21 12 24
Eclipse
Disapp.
26 17 2
I.
Occult.
Reapp.
21 12 40
II.
Eclipse
Disapp.
26 18 51
m.
Eclipse
Disapp.
21 13 31 9.8
Occult.
Reapp.
26 20 10
n.
Shadow
Egress
21 13 38
II.
Occult.
Reapp.
26 23 30
n.
Transit
Egress
21 15 16
Shadow
Ingress
27 14 16
in.
Occult.
Reapp.
21 20 3
Transit
Ingress
27 15 10
IV.
Shadow
Ingress
22 2 43
Shadow
Egress
27 16 34
IV.
Shadow
Egress
22 6 20
Transit
Egress
27 17 28
I.
Shadow
Ingress
22 6 50
I.
Eclipse
Disapp.
28 11 31
I.
Transit
Ingress
22 7 40
n.
Shadow
Ingress
28 13 20
I.
Shadow
Egress
22 9 8
I.
Occult.
Reapp.
28 14 40
I.
Transit
Egress
22 9 58
n.
Transit
Ingress
28 15 12
IV.
Transit
Ingress
22 10 29 .
n.
Shadow
Egress W.
28 16 13
IV.
Transit
Egress
22 13 56
m.
Eclipse
Disapp.
28 17 31
I.
Eclipse
Disapp.
23 4 5 50.8
n.
Transit
Egress
28 18 3
n.
Eclipse
Disapp.
23 5 31 43.0
in.
Eclipse
Reapp.
28 20 42
I.
Occult.
Reapp.
23 7 10
m.
Occult.
Disapp.
28 21 9
n.
Occult.
Reapp.
23 10 4
m.
Occult.
Reapp.
29 027
I.
Shadow
Ingress
24 1 19
I.
Shadow
Ingress
29 8 45
I.
Transit
Ingress
24 2 10
I.
Transit
Ingress
29 9 40
I.
Shadow
Egress
24 3 37
I.
Shadow
Egress
29 11 9
I.
Transit
Egress
24 4 28
I.
Transit
Egress
29 11 57
I.
Eclipse
Disapp.
24 22 34 20.3
I.
Eclipse
Disapp.
30 5 59
n.
Shadow
Ingress
25 0 3
IL
Eclipse
Disapp.
30 8 9
I.
Occult.
Reapp.
25 1 40
I.
Occult.
Reapp.
30 9 10
II.
Transit
Ingress
25 1 48
IV.
Eclipse
Disapp.
30 10 11
11.
Shadow
Egress
25 2 56
n.
Oanilt.
Reapp.
30 12 54
in.
Shadow
Ingress
25 3 37
IV.
Eclipse
Reapp.
30 13 27
n.
Tranait
Egre»
85 4 40
nr.
OocuH.
Disapp,
30 19 5
lU,
Shadow
Egim
95 7 0
IV.
Oocult.
Reapp.
30 23 19
50.7
5.8
18.6
52.0
33.4
47.0
21.8
58.0
49.8
JUPITER'S SATELLITES, 1856. 439
1 Washington mean time.
APRIL.
Phatts of (he Eelipifg of (he 8ateUites for an Inyerang Telescope.
I.
^ L
^
m.
d E
^
n.
^
IV,
d r F
• • \
-^
MAY. 1
d. h. m. •.
d. h. m. g.
I. Shadow
Ingress
1 3 14
n.
Shadow
Egress
6 18 47
I. Transit
Ingress
1 4 10
n.
Transit
Egress
5 20 49
I. Shadow
Egress
1 5 31
m.
Eclipse
Disapp.
5 21 32 37.6
I. Transit
Egress
1 6 27
III.
Eclipse
Reapp.
6 0 42 27.0
I. Eclipse
Disapp.
3 0 28 15.6
m.
Occult.
Disapp.
6 I 34
n. Shadow
Ingress
2 2 37
m.
Occult.
Reapp.
6 4 50
I. Occult.
Reappi
2 3 40
I.
Shadow
Ingress
6 10 40
n. Transit
Ingress
2 4 35
I.
Transit
Ingress
6 11 40
II. Shadow
Egress
2 5 30
I.
Shadow
Egress
6 12 57
n. Transit
Egress
2 7 26 '
I.
Transit
Egress
6 13 67
in. Shadow
Ingress
2 7 39
I.
Eclipse
Disapp.
7 7 53 40,4
III. Shadow
Egress
2 11 0
n.
Eclipse
Disapp.
7 10 46 53.8
III. Transit
Ingress
2 11 34
I.
Occult.
Reapp.
7 11 10
m. Transit
Egress
2 14 51
n.
Occult.
Reapp. W.
7 15 42
I. Shadow
Ingress
2 21 42
I.
Shadow
Ingress
8 5 8
I. Transit
Ingress
2 22 40
I.
Transit
Ingress
8 6 10
I. Shadow
Egress
2 1^ 59
I.
Shadow
Egress
8 726
I. Transit
Egress
3 0 57
I.
Transit
Egress
8 8 27
I. Eclipse
Disapp.
3 18 56 45.4
IV.
Shadow
Ingress
8 21 0
II. Eclipse
Disapp.
3 21 28 40.3
IV.
Shadow
Egress
9 0 28
I. Occult.
Reapp.
3 22 10
I.
Eclipse
Disapp.
9 2 22 8.0
II. Occult.
Reapp.
4 2 19
u.
Shadow
Ingress
9 6 13
I. Shadow
Ingress W.
4 16 U
1.
Occult.
Reapp.
9 6 39
I. Transit
Ingress
4 17 10
IV.
Transit
Ingress
9 7 6
I. Shadow
Egress
4 18 28
II.
Transit
Ingress
9 7 21
I. Transit
Egress
4 19 27
n.
Shadow
Egress
9 8 4
I. Eclipse
Disapp.
5 13 25 12.6
IV.
Transit
Egress
9 10 6
n. Shadow
Ingress W.
5 15 55
n.
Transit
Egress
9 10.12
I. Occult.
Reapp.
5 16 40
m.
Shadow
Ingress
9 11 40.
n. Transit
Ingress
5 18 9
m.
Shadow
Egress
9 15 I
440 JUPITER'S SATELLITES, 1856.
WASHINGTON
MEAN TIME.
MAY. 1
<L h. m. B.
d. h. m. a.
m. Transit
Ingress W.
9 15 58
IV.
Eclipse
Disapp.
17 4 29 18.0
m. Transit
Egress
9 19 13
I.
Transit
Egress
17 4 57
I. Shadow
Ingress
9 23 37
IV.
Eclipse
Reapp.
17 7 35 10.4
I. Transit
Ingress
10 0 40
IV.
Occult.
Disapp. W.
17 15 32
I. Shadow
Egress
10 1 54
IV.
Occult.
Reapp.
17 18 15 1
I. Transit
Egress
10 2 57
I.
Eclipse
Disapp.
17 22 44 27.5 :
I. Eclipse
Disapp.
10 20 50 37.6
I.
Occult.
Reapp.
18 2 8
11. Eclipse
Disapp.
11 0 6 7.7
II.
Eclipse
Disapp.
18 2 43 27.0
I. Occult.
Reapp.
II 0 9
11.
Occult.
Reapp.
18 7 64
n. Occult.
Heapp.
11 5 7
I.
Shadow
Ingress
18 19 59
I. Shadow
Ingress
11 18 5
I.
Transit
Ingress
18 21 10
I. Transit
Ingress
U 19 10
I.
Shadow
Egress
18 22 16
I. Shadow
Egress
11 20 22
I.
Transit
Egress
18 23 27
L Transit
Egress
11 21 27
I.
Eclipse
Disapp.
19 17 12 63.1
L Eclipse
Disapp.
12 15 19 4.1
I.
Occult.
Reapp.
19 20 37
n. Shadow
Ingress
12 18 30
n.
Shadow
Ingress
19 21 4
I. Occult.
Reapp.
12 18 39
II.
Transit
Ingress
19 23 28
II. Transit
Ingress
12 20 44
II.
Shadow
Egress
19 23 56
II. Shadow
Egress
12 21 21
II.
Transit
Egress
20 2 18
n. Transit
Egress
12 23 34
in.
Eclipse
Disapp.
20 6 34 50.0
m. Eclipse
Disapp.
13 1 33 59.5
m.
Eclipse
Reapp.
20 8 43 62 8
III. Eclipse
Reapp.
13 4 42 56.1
m.
Occult.
Disapp.
20 10 19
III. Occult.
Disapp.
13 5 58
IIL
Occult.
Reapp.
20 13 30 1
m. Occult.
Reapp.
13 9 11
I.
Shadow
Ingress
20 14 28
I. Shadow
Ingress
13 12 34
I.
Transit
Ingress W.
20 15 39
I. Transit
Ingress
13 13 40
I.
Shadow
Egress
20 16 46
I. Shadow
Egress
13 14 51
I.
Transit
Egress
20 17 56
I. Transit
Egress W.
13 15 57
I.
Eclipse
Disapp.
21 11 41 20.3
I. Eclipse
Disapp.
14 9 47 31.6
I.
Occult.
Reapp.
21 15 7
I. Occult.
Reapp.
14 13 8
II.
Eclipse
Disapp. W.
21 16 1 34.6
n. Eclipse
Disapp.
14 13 24 18.3
n.
Occult.
Reapp.
21 21 17
n. Occult.
Reapp.
14 18 30
I.
Shadow
Ingress
22 8 57
I. Shadow
Ingress
15 7 2
I.
Transit
Ingress
22 10 9
I. Transit
15 8 10
I.
Shadow
Egress
22 11 14
I. Shadow
Egress
15 9 19
I.
Transit
Egress
22 12 26
I. Transit
Egress
15 10 27
L
Eclipse
Disapp.
23 6 9 46.5
I. Eclipse
Disapp.
16 4 15 58.2
I.
Occult.
Reapp.
23 9 36
I. Occult.
Reapp.
16 7 38
II.
Shadow
Ingress
23 10 22
n. Shadow
Ingress
16 7 47
II.
Transit
Ingress
23 12 50
II. Transit
Ingress
16 10 6
II.
Shadow
Egress
23 13 13
n. Shadow
Egress
16 10 38
II.
Transit
Egress W.
23 15 39
n. Transit
Egress
16 12 56
m.
Shadow
Ingress
23 19 41
in. Shadow
Ingress W.
16 15 40
m.
Shadow
Egress
23 23 0
III. Shadow
Egress
16 19 1
m.
Transit
Ingress
24 0 40
III. Transit
Ingress
16 20 20
I.
Shadow
Ingress
24 3 26
III. Transit
Egress
16 23 32
m.
Transit
Egress
24 3 60
I. Shadow
Ingress
17 1 31
I.
Transit
Ingress
24 4 39
I. Transit
Ingress
17 2 40
I.
Shadow
Egress
24 6 42
I. Shadow
Egress
17 3 48
I.
Transit
Egress
24 6 66
JUPITER'S SATELLITES, 1856. 441
WASHINGTON MEAN TIME.
MAY.
d. h. m. 8.
d. h. m. 8.
I. Eclipse
Disapp.
25 0 38 15.4
I.
Shadow
Egress
27 18 40
I. Occult.
Reapp.
25 4 6
I.
Transit
Egress
27 19 55
II. Eclipse
Disapp.
25 5 20 38.7
I.
Eclipse
Disapp.
28 13 35 7.3
n. Occult.
Reapp.
25 10 39
I.
Occult.
Reapp.
28 17 5
IV. Shadow
Ingress W.
25 15 18
n.
Eclipse
Disapp.
28 18 38 42.4
IV. Shadow
Egress
25 18 36
II.
Occult.
Reapp.
29 0 0
I. Shadow
Ingress
25 21 54
I.
Shadow
Ingress
29 10 51
I. Transit
Ingress
25 23 9
I.
Transit
Ingress
29 12 8
I. Shadow
Egress
26 0 11
I.
Shadow
Egress
29 13 8
I. Transit
Egress
26 1 26
I.
Transit
Egress W.
29 14 25
IV. Transit
Ingress
26 3 19
I.
Eclipse
Disapp.
30 8 3 33.5
IV. Transit
Egress
26 5 45
I.
Occult.
Reapp.
30 11 34
I. Eclipse
Disapp.
26 19 6 40.9
II.
Shadow
Ingress
30 12 56
I. Occult.
Reapp.
26 22 35
11.
Transit
Ingress W.
30 15 33
n. Shadow
Ingress
26 23 39
II.
Shadow
Egress W.
30 15 48
n. Transit
Ingress
27 2 12
II.
Transit
Egress
30 18 21
n. Shadow
Egress
27 2 31
m.
Shadow
Ingress
30 23 42
n. Transit
Egress
27 5 1
m.
Shadow
Egress
31 3 0
m. Eclipse
Disapp
27 9 35 51.2
III.
Transit
Ingress
31 4 57
m. Eclipse
Reapp.
27 12 42 59.4
I.
Shadow
Ingress
31 5 20
m. Occult.
Disapp. W.
27 14 37
I.
Transit
Ingress
31 6 37
I. Shadow
Ingress
27 16 23
I.
Shadow
Egress
31 7 37
I. Transit
Ingress
27 17 38
m.
Transit
Egress
31 8 4
m. Occult.
Reapp.
27 17 48
I.
Transit
Egress
31 8 53
Phases Of the EeUpifs Of the Sati
illites for an Inyerting Teleseope.
I.
• zz
^
m.
d r E
• • \
^
n.
^
IV.
d
•
r
•
w
JUNE.
d. h. m. 1.
d. h. m. 1.
I. Eclipse
Disapp.
1 2 32 2.3
I.
Shadow
Ingress
1 23 48
I. Occult.
Reapp.
1 6 4
I.
Transit
Ingress
2 1 7
n. Eclipse
Disapp.
1 7 57 39.5
1.
Shadow
Egress
2 2 5
n. Occult.
Reapp.
1 13^23
I.
Transit
Egreas
2 3 23
56
442 JUPITER'S SATELLITES, 1856.
WASHINGTON
MEAN TIME.
JUNE.
<L h. m. ■.
<L h. m. 1.
I. Eclipse
Disapp.
3 21 0 27.5
I.
Occult.
Reapp.
10 2 29
rV. Eclipse
Disapp.
2 22 46 51.6
n.
Shadow
Ingress
10 4 48
I. Occult.
Reapp.
3 0 33
II.
Transit
Ingress
10 7 34
IV. Eclipse
Reapp.
3 1 42 7.4
II.
Shadow
Egress
10 7 40
II. Shadow
Ingress
8 2 13
II.
Transit
Egress
10 10 21
II. Transit
Ingress
3 4 54
in.
Eclipse
Disapp.
10 17 36 44.6
U. Shadow
Egr»»
3 5 5
I.
Shadow
Ingress
10 20 11
II. Transit
Egress
3 7 42
m.
Eclipse
Reapp.
10 20 42 1.6
IV. Occult.
Disapp.
3 11 31
I.
Transit
Ingress
10 21 33
ni. Eclipse
Disapp.
3 13 36 20.5
I.
Shadow
Egress
10 22 28
IV. Occult.
Reapp.
3 13 36
m.
Occult.
Disapp.
10 23 4
m. Eclipse
Reapp.
3 16 42 33.5
I.
Transit
Egress
10 23 48
I. Shadow
Ingress
3 18 17
m.
Occult.
Reapp.
11 2 8
m. Occult.
Disapp.
3 18 52
IV.
Shadow
Ingress
11 9 34
I. Transit
Ingress
3 19 37
IV.
Shadow
Egress
11 12 43
I. Shadow
Egress
3 20 34
I.
Eclipse
Disapp.
11 17 22 41.0
I. Transit
Egress
3 21 53
I.
Occult.
Reapp.
11 20 58
m. Occult.
Reapp.
3 21 59
IV.
Transit
Ingress
11 23 2
I. Eclipse
Disapp. W.
4 15 28 54.4
n.
Eclipse
Disapp.
11 23 52 31.5
I. Occult.
Reapp.
4 19 2
IV.
Transit
Egress
12 0 43
n. Eclipse
Disapp.
4 21 15 41.5
n.
Occult.
Reapp.
12 5 25
n. Occult.
Reapp.
5 2 43
I.
Shadow
Ingress W.
12 14 39
I. Shadow
Ingress
5 12 45
I.
Transit
Ingress
12 16 2
I. Transit
Ingress W.
5 14 6
I.
Shadow
Egress
12 16 56 1
I. Shadow
Egress W.
5 15 2
I.
Transit
Egress
12 18 18 ;
I. Transit
Egress
5 16 22
I.
Eclipse
Disapp.
13 11 51 6.3
I. Eclipse
Disapp.
6 9 57 19.7
I.
Occuk.
Reapp. W.
13 15 27
I. Occult.
Reapp.
6 13 31
n.
Shadow
Ingress
13 18 6
n. Shadow
Ingress W
6 15 31
n.
Transit
Ingress
13 20 54
II. Transit
Ingress
6 18 14 '
n.
Shadow
Egress
13 20 57
n. Shadow
Egress
6 18 22
n.
Transit
Egress
13 23 41
n. Transit
Egress
6 21 2
in.
Shadow
Ingress
14 7 45
m. Shadow
Ingress
7 3 43
I.
Shadow
Ingress
14 9 8
m. Shadow
Egress
7 7 1
I.
Transit
Ingress
14 10 31
I. Shadow
Ingress
7 7 14
m.
Shadow
Egress
14 11 1
I. Transit
Ingress
7 8 35
I.
Shadow
Eigress
14 11 25
m. Transit
Ingress
7 9 11
I.
Transit
Egress
14 12 46
I. Shadow
Egress
7 9 31
m.
Ingress
14 13 23
I. Transit
Egress
7 10 50
in.
Transit
Egress
14 16 95
m. Transit
Egress
7 12 16
I.
Eclipse
Disapp.
15 6 19 35.8 J
I. EcUpse
Disapp
8 4 25 48.8
I.
Occult.
Reapp.
15 9 56
I. Occult.
Reapp.
8 8 0
n.
Eclipse
Disapp.
15 13 11 15.9
n. Eclipse
Disapp.
8 10 34 32.3
n.
Occult.
Reapp.
15 18 46
n. Occult.
Reapp.
8 16 5
I.
Shadow
Ingress
16 3 36
I. Shadow
Ingress
9 1 42
I.
Transit
Ingress
16 5 0
I. Transit
Ingreas
9 3 4
I.
Shadow
Egress
16 5 53
I. Shadow
Egress
9 3 59
I.
Transit
Egress
16 7 16
I. TransU
Egress
9 5 20
I.
Eclipse
Disapp.
17 0 48 0.8
I. Eclipse
Disapp.
9 22 54 13.9
I.
Occult.
Reapp.
"'" 1
JUPITER'S SATELLITES, 1856. 443
WASHINGTON MEAN TIME,
JUNE.
d. h. m. ■.
d. h. m. ■.
n. Shadow
Ingress
17 7 24
I.
Eclipse
Disapp.
24 2 41 48.4
II. Transit
Ingress
17 10 13
I.
Occult.
Reapp.
24 6 20
n. Shadow
Egress
17 10 U
n.
Shadow
Ingress
24 9 59
II. Transit
Egress
17 13 0
u.
Shadow
Egress W.
24 12 49
m. Eclipse
Disapp.
17 21 37 21.9
u.
Transit
Ingress W.
24 12 50
I. Shadow
Ingress
17 22 5
n.
Transit
Egress W.
24 15 36
I. Transit
Ingress
17 23 29
I.
Shadow
Ingress
24 23 59
I. Shadow
Egress
18 0 22
I.
Transit
Ingress
25 1 24
III. Eclipse
Reapp.
18 0 41 42.1
m.
Eclipse
Disapp.
25 1 38 5.2
I. Transit
Egress
18 I 44
I.
Shadow
Egress
25 2 16
m. Occult.
Disapp.
18 3 IS
I.
Transit
Egress
25 3 39
m. Occult.
Reapp.
18 6 15
in.
EcUpee
Reapp.
25 4 41 28.0
I. Eclipse
Disapp.
18 19 16 28.3
m.
Occult.
Disapp.
25 7 19
I. Occult.
Reapp.
18 22 54
ni.
Occult.
Reapp.
25 10 17
n. Eclipse
Disapp.
19 2 29 12.3
I.
Eclipse
Disapp.
25 21 10 16.2
n. Eclipse
Reapp.
19 5 15 22.5
I.
Occult.
Reapp.
26 0 48
n. Occult.
Disapp.
19 5 17
n.
Eclipse
Disapp.
26 5 5 43.7
n. Occult.
Reapp.
19 8 4
n.
Eclipse
Reapp.
26 7 51 31.7
I. Shadow
Ingress
19 16 33
n.
Occult.
Disapp.
26 7 55
IV. Eclipse
Disapp.
19 17 5 20.2
n.
Occult.
Reapp.
26 IC 41
I. Transit
Ingress
19 17 58
I.
Shadow
Ingress
26 18 27
I. Shadow
Egress.
19 18 50
I.
Transit
Ingress
26 19 53
IV. Eclipse
Reapp.
19 19 48 56.0
I.
Shadow
Egress
26 20 44
I. Transit
Egress '
19 20 14
I.
Transit
Egress
26 22 8
IV. Occult.
Disapp.
20 7 1
I.
Eclipse
Disapp W.
27 15 38 41.5
IV. Occult.
Reapp.
20 8 10
I.
Occult.
Reapp.
27 19 17
I. Eclipse
Disapp. W.
20 13 44 53.2
n.
Shadow
Ingress
27 23 16
I. Occult.
Reapp.
20 17 22
u.
Shadow
Egress
28 2 7
II. Shadow
Ingress
20 20 41
n.
Transit
Ingress
28 2 8
II. Transit
Ingress
20 23 31
IV..
Shadow
Ingress
28 3 52
II. Shadow
Egress
20 23 32
n.
Transit
Egress
28 4 54
II. Transit
Egress
21 2 18
rv.
Shadow
Egress
28 6 49
I. Shadow
Ingress
21 11 2
I.
Shadow
Ingress W.
28 12 56
m. Shadow
Ingress
21 11 46
I.
Transit
Ingress W.
28 14 21
I. Transit
Ingress
21 12 26
I.
Shadow
Egress W.
28 15 13
I. Shadow
Egress W.
21 13 19
in.
Shadow
Ingress W.
28 15 46
I. Transit
Egress W.
21 14 42
I.
Transit
Egress
28 16 36
in. Shadow
Egress W,
21 15 I
m.
Shadow
Egress
28 19 1
III. Transit
Ingress
21 17 31
ni.
Transit
Ingress
28 21 34
m. Transit
Egress
21' 20 31
in.
Transit
Egress
29 0 31
I. Eclipse
Disapp.
22 8 13 23.0
I.
Eclipse
Disapp.
29 10 7 10.6
I. Occult.
Reapp.
22 11 51
I.
Occult.
Reapp. W,
29 13 45
U. Eclipse
Disapp. W.
22 15 47 49.9
n.
Eclipse *
Disapp.
29 18 24 14.6
n. Eclipse
Reapp.
22 18 33 49.1
H.
Eclipse
Reapp.
29 21 9 51.4
; n. Occult.
Disapp.
22 18 37
n.
Occult.
Disapp,
29 21 14
II. Occult.
Reapp.
22 21 23
n.
Occult.
Reapp.
30 0 0
I. Shadow
Ingress
23 5 30
I.
Shadow
Ingress
30 7 24
I. Transit
Ingress
23 6 55
I.
Transit
Ingress
30 8 50
I. Shadow
Egress
23 7 47
I.
Shadow
Egress
30 9 41
I. Transit
Egress
23 9 10 I.
Transit
Egress
30 11 5
444 JUPITER'S SATELLITES, 1866.
WASHINGTON MEAN TIME.
JUNE.
Phases of the Eelipses of the Satelliles for an inverting Telescope.
I.
d p
^
III.
d r
• •
^'^
• \~
^
t^
n.
■■ i
^
IV.
d r
• •
w
JULY.
d. h. m. •.
d. h. m. «.
I. Eclipse
Disapp.
1 4 35 37.3
I.
Shadow
Egress
5 17 7
1. Occult.
Reapp.
1 8 13
I.
Transit
Egress
5 18 30
II. Shadow
Ingress W.
1 12 33
III.
Shadow
Ingress
5 19 47
II. Shadow
Egress W.
1 15 24
III.
Shadow
Ingress
5 23 1
II. Transit
Ingress W.
1 15 25
III.
Transit
Egress
6 1 33
11. Transit
Egress
1 18 10
III.
Transit
Egress
6 4 28
I. Shadow
Ingress
2 1 53
IV.
Eclipse
Disapp.
6 11 23 59.3
I. Transit
Ingress
2 3 18
I.
Fxjlipse
Disapp.
6 12 1 2.3
I. Shadow
Egress
2 4 10
IV.
Eclipse
Reapp. W.
6 13 54 47.7
I. Transit
Egress
2 5 33
I.
Occult.
Reapp. W.
6 15 38 1
III. Eclipse
Disapp.
2 5 39 28.5
II.
Eclipse
Disapp.'
6 21 0 30.5 1
III. Eclipse
Reapp.
2 8 41 53.3
II.
Eclipse
Reapp.
6 23 45 44.5 '
III. Occult.
Disapp.
2 11 21
II.
Occult.
Disapp.
6 23 48
III. Occult.
Reapp. W.
2 14 17
II.
Occult.
Reapp.
7 2 34
I. Eclipse
Disapp.
2 23 4 5.7
I.
Shadow
Ingress
7 9 18 1
I. Occult.
Reapp.
3 2 42
I.
Transit
Ingress
7 10 43
II. Eclipse
Disapp.
3 7 42 5.9
I.
Shadow
Egress
7 11 35 '
II. Eclipse
Reapp.
3 10 27 31.3
I.
Transit
Egress W.
7 12 58
II. Occult.
Disapp.
3 10 31
I.
Eclipse
Disapp.
8 6 29 28.5 '
II. Occult.
Reapp. W.
3 13 17
I.
Occult.
Reapp.
8 10 6
I. Shadow
Ingress
3 20 21
II.
Shadow
Ingress W.
8 15 0 1
I. Transit
Ingress
3 21 47
II.
Transit
Ingress
8 17 58
I. Shadow
F^gress
3 22 38
II.
Shadow
Egress
8 17 59
I. Transit
Egress
4 0 2
II.
Transit
Egress
8 20 43
I. Eclipse
Disapp.
4 17 32 31.4
I.
Shadow
Ingress
9 3 47
I. Occult.
Reapp.
4 21 10
I.
Transit
Ingress
9 5 11
II. Shadow
Ingress
5 1 51
I.
Shadow
Egress
9 6 4 '
II. Shadow
Egress
5 4 42
I.
Transit
F^ress
9 7 26
II. Transit
Ingress
5 4 42
III.
Fxslipse
Disapp.
9 9 40 22.6 '
II. Transit
Egress
5 7 27
III.
Eclipse
Reapp. W.
9 12 41 48.6
I. Shadow
Ingress W.
5 14 50
III.
Occult.
Disapp. W.
9 15 18
I. Transit
Ingress
5 16 15
IIL
Occult.
Reapp.
9 18 12
JUPITER'S SATELLITES, 1866. 446
WASHINGTON
MEAN TIME.
JULY.
d. h. m. ■.
d. h. m. 8.
I. Eclipse
Disapp.
10 0 67 67.9
II.
Eclipse
Disapp. W.
17 12 64 24.6
I. Occult.
Reapp.
10 4 34
n.
Occult.
Reapp.
17 18 20
n. Eclipse
Disapp.
10 10 18 19.6
I.
Shadow
Ingress
18 0 10
n. Eclipse
Reapp.
10 13 3 21.9
I.
Transit
Ingress
18 1 31
II. Occult.
Disapp.
10 13 6
I.
Shadow
Egress
18 2 27
n. Occult.
Reapp. W.
10 16 60
I.
Transit
Egress
18 3 46
I. Shadow
Ingress
10 22 16
I.
Eclipse
Disapp.
18 21 20 20.0
I. Transit
Ingress
10 23 39
I.
Occult.
Reapp.
19 0 64
I. Shadow
Egress
11 0 32
n.
Shadow
Ingress
19 7 3
I. Transit
Egress
11 1 64
II.
Transit
Ingress
19 9 46
L Eclipse
Disapp.
11 19 26 23.8
II.
Shadow
Egress
19 9 62
I. Occult.
Reapp.
11 23 2
II.
Transit
Egress W.
19 12 29
U. Shadow
Ingress
12 4 27
I.
Shadow
Ingress
19 18 38
II. Transit
Ingress
12 7 14
I.
Transit
Ingress
19 19 69
n. Shadow
Egress
12 7 17
I.
Shadow
Egress
19 20 64
II. Transit
Egress
12 9 69
I.
Transit
Egress
19 22 14
, I. Shadow
Ingress
12 16 44
in.
Shadow
Ingress
20 3 48
I. Transit
Ingress
12 18 7
m.
Shadow
Egress
20 7 0
I. Shadow
Egress
12 19 1
III.
Transit
Ingress
20 9 18
I, Transit
Egress
12 20 22
m.
Transit
Ingress W.
20 12 9
m. Shadow
Ingress
12 23 48
I.
Eclipse
Disapp. W.
20 16 48 63.0
III. Shadow
Egress
13 3 1
I.
Occult.
Reapp.
20 19 21
III. Transit
Ingress
13 6 28
11.
Eclipse
Disapp.
21 2 12 36.6
ni. Transit
Egress
13 8 20
II.
Occult.
Reapp.
21 7 36
I. Eclipse
Disapp. W.
13 13 64 65.9
I.
Shadow
Ingress W.
21 13 7
I. Occult.
Reapp.
13 17 30
I.
Transit
Ingress W.
21 14 27
n. Eclipse
Disapp.
13 23 36 37.6
I.
Shadow
Egress W.
21 15 23
II. Occult.
Reapp.
14 6 6
I.
Transit
Egress
21 16 42
I. Shadow
Ingress
14 11 12
I.
Eclipse
Disapp.
22 10 17 20.9
I. Transit
Ingress W.
14 12 36
I.
Occult.
Reapp. W.
22 13 48
I. Shadow
. Egress W.
14 13 29
u.
Shadow
Ingress
22 20 20
I. Transit
Egress W.
14 14 60
II.
Transit
Ingress
22 22 69
IV. Shadow
Ingress
14 22 10
n.
Shadow
Egress
22 23 10
IV. Shadow
Eigress
16 0 56
n.
Transit
Egress
23 1 43 .
I. Eclipse
Disapp.
16 8 23 20.8
IV.
Eclipse
Disapp.
23 6 43 32.0
I. Occult.
Reapp. W.
16 11 68
I.
Shadow
Ingress
23 7 36
n. Shadow
Ingress
16 17 46
IV.
Eclipse
Reapp.
23 8 0 7.8
II. Transit
Ingress
16 20 30
I.
Transit
Ingress
23 8 64
n. Shadow
Egress
16 20 34
I.
Shadow
Egress
23 9 62
n. Transit
Egress
15 23 14
I.
Transit
Egress W,
23 11 9
I. Shadow
Ingress
10 6 41
m.
Eclipse
Disapp.
23 17 42 10.6
I. Transit
Ingress
16 7 3
m.
Eclipse
Reapp.
23 20 41 37.7
I. Shadow
Egress
16 7 68
m.
Occult.
Disapp.
23 22 69
I. Transit
Egress
16 9 18
m.
Occult.
Reapp.
24 1 49
m. Eclipse
Disapp. W.
16 13 41 S9.7
I.
Eclipse
Disapp.
24 4 46 62.3
III. Eclipse
Reapp.
16 16 41 66.7
I.
Occult.
Reapp.
24 8 16
m. Occult.
Disapp.
16 19 11
n.
Eclipse
Disapp. W.
24 16 30 22.0
m. Occult.
Reapp.
16 22 3
II.
Occult.
Reapp.
24 20 49
I. Eclipse
Disapp.
17 2 61 63.3
I.
Shadow
Ingress
26 2 4
I. Occult.
Reapp.
17 6 26
I.
Transit
Ingress
26 3 22
446 JUPITER'S SATELLITES, 1856,
WASHINGTON MEAN TIME.
JULY. 1
d. h. ra. 8.
d. h. m. s.
I. Shadow
Egress
25 4 20
I.
Shadow
Egress
28 17 17
I. Transit
Egress
25 5 37
I.
Transit
Egress
28 18 32
I. Eclipse
Disapp.
25 23 14 20.1
I.
Eclipse
Disapp. W.
29 12 11 23^
L Occult.
Reapp.
26 2 44
I.
Occult.
Reapp. W.
29 15 39
n. Shadow
Ingress
26 9 38
n.
Shadow
Ingress
29 29 56
n. Transit
Ingress W.
26 12 13
n.
Transit
Ingress
30 1 26
n. Shadow
Egress W.
26 12 28
n.
Shadow
Egress
30 i 46
n. Transit
Egress W.
26 14 57
n.
Transit
Egress
30 4 9
L Shadow
Ingress
26 20 33
I.
Shadow
Ingress
30 9 SO
I. Transit
Ingress
26 21 50
I.
Transit
Ingress W.
39 10 44
I. Shadow
Egress
26 22 49
I.
Shadow
Egress W.
30 11 46
I. Transit
Egress
27 0 5
I.
Transit
Egress W.
30 19 59
m. ShadoS¥
Ingress
27 7 50
m.
Eclipse
Disapp.
30 21 42 51.4
m. Shadow
Egress W.
27 11 1
m.
Eclipse
Reapp.
31 0 41 18.2
m. Transit
Ingress W.
27 13 4
m.
Occult.
Disapp.
31 2 42
m. Transit
Egress W.
27 15 53
in.
Occult.
Reapp.
31 5 30
I. Eclipse
Disapp.
27 17 42 54.1
I.
Eclipse
Disapp.
31 6 39 56.2
L Occult.
Reapp.
27 21 12
I.
Occult.
Reapp.
31 10 6
n. Eclipse
Disapp.
28 4 48 28.2
IV.
Shadow
Ingress
31 16 29
IT. Occult.
Reapp.
28 10 2
n.
Eclipse
Disapp.
31 18 6 19.1
I. Shadow
Ingress W.
28 15 1
IV.
Shadow
Egress
31 19 1
I. Transit
Ingress
28 16 17
n.
Occult.
Reapp.
31 23 15
Phases Of (he Eelipws Of the Sail
flutes for an Inyerttng Teleseope.
I.
^
m.
d
r r
• >
^
n.
^
IV.
d r
• •
w
AUGUST. 1
d. h. m. ■.
d. h. m. •.
I. Shadow
Ingress
1 3 58
n.
Transit
Ingress W.
2 14 40
I. Transit
Ingress
1 5 11
n.
Shadow
Egress W.
2 15 3
I. Shadow
Egress
1 6 14
11.
Transit
Egress
2 17 22
I. Transit
Egress
I 7 26
Shadow
Ingress
2 22 27
L Eclipse
Disapp.
2 18 25.2
Transit
Ingress
2 23 38
I. Occult.
Reapp.
2 4 33
Shadow
Egress
3 0 43
n. Shadow
Ingress W.
2 12 14
Transit
Egress
3 1 53
JUPITER'S SATELLITES, 1866. 44T
WASHINGTON
MEAN TBfE.
AUGUST.
<L h. m. 1.
d. h. m. ■.
m. Shadow
Ingress W.
3 11 51
I. Eclipse
Disapp.
10 21 31 12.5
m. Shadow
Egress W.
3 15 1
in. Transit
Egress
10 23 7
in. Transit
Ingress
3 16 45
I. Occult.
Reapp.
11 0 48
III. Transit
Egress
3 19 32
n.* Eclipse
Disapp. W.
11 9 59 52.3
I. Eclipse
Disapp.
3 19 37 0.5
n. Occult.
Reapp. W.
11 14 49
I. Occult.
Reapp.
3 23 0
I. Shadow
Ingress
11 18 49
n. Eclipse
Disapp.
4 7 24 13.0
1. Transit
Ingress
11 19 53
n. Occnlt.
Reapp. W.
4 12 27
I. Shadow
Egress
11 21 5
I. Shadow
Ingress
4 16 55
I. Transit
Egress
11 22 7
I. Transit
Ingress
4 18 5
I. Eclipse
Disapp. W.
12 15 59 44.6
I. Shadow
Egress
4 19 11
I. Occult.
Reapp.
12 19 15
I. Transit
Egress
4 20 20
n. Shadow
Ingress
13 4 8
I. Eclipse
Disapp. W.
5 14 5 21.1
II. Transit
Ingress
13 6 13
I. Occult.
Reapp.
5 17 27
n. Shadow
Egress
13 6 57
n. Shadow
Ingress
6 1 32
II. Transit
Egress
13 8 56
n. Transit
Ingress
6 3 51
I. Shadow
Ingress W.
13 13 18
n. Shadow
Egress
6 4 21
I. Transit
Ingress W.
13 14 20
n. Transit
Egress
6 6 34
I. Shadow
Egress W.
13 15 34
I. Shadow
Ingress W.
6 11 24
I. Transit
Egress
13 16 34
I. Transit
Ingress W.
6 12 32
in. Eclipse
Disapp.
14 5 45 2.9
I. Shadow
Egress W.
6 13 40
III. Eclipse
Reapp.
14 8 41 27.5
I. Transit
Egress W.
6 14 47
in. Occult.
Disapp. W.
14 9 54
m. Eclipse
Disapp.
7 1 43 52.1
I. Eclipse
Disapp. W.
14 10 28 20.8
in. Eclipse
Reapp.
7 4 41 18.1
m. Occult.
Reapp. W.
14 12 39
in. Occult.
Disapp.
7 6 20
I. Occult.
Reapp. W.
14 13 42
I. Eclipse
Disapp.
7 8 34 5.4
II. Eclipse
Disapp.
14 23 17 34.4
m. Occult.
Reapp.
7 9 7
n. Occult.
Reapp. *"
15 4 0
I. Occult.
Reapp. W.
7 11 54
I. Shadow
Ingress
15 7 46
II. Eclipse
Disapp.
7 20 41 55.9
I. Transit
Ingress
15 8 47
n. Occult.
Reapp.
8 1 38
I. Shadow
Egress W.
15 10 2
I. Shadow
Ingress
8 5 52
I. Transit
Egress W.
15 11 1
I. Transit
Ingress
8 6 50
I. Eclipse
Disapp.
16 4 66 52.4
I. Shadow
Egress
8 8 8
I. Occult.
Reapp.
16 8 9
I. Transit
Egress
8 9 14
n. Shadow
Ingress
16 17 27
IV. Eclipse
Disapp.
9 0 4 46.1
II. Transit
Ingress
16 19 25
IV. Eclipse
Reapp.
9 2 5 10.9
n. Shadow
Egress
16 20 16 .
I. Eclipse
Disapp.
9 3 2 35.6
n. Transit
Egress
16 22 7
I. Occult.
Reapp.
9 6 21
I. Shadow
Ingress
17 2 15
n. Shadow
Ingress W.
9 14 49
I. Transit
Ingress
17 3 14
II. Transit
Ingress
9 17 3
L Shadow
Egress
17 4 31
n. Shadow
Egress
9 17 38
I. Transit
Egress
17 5 28
II. Transit
Egress
9 19 46
IV. Shadow
Ingress W.
17 10 48
I. Shadow
Ingress
10 0 21
IV. Shadow
Egress W.
17 13 7
I. Transit
Ingress
10 1 26
in. Shadow
Ingress
17 19 53
I. Shadow
Egress
10 2 37
III. Shadow
Egress
17 23 1
I. Transit
Egress
10 3 40
I. Eclipse
Disapp.
17 23 25 31.1
m. Shadow
Ingress W.
10 15 52
m. Transit
Ingress
17 23 52
in. Shadow
Egress
10 19 1
I. Occult.
Reapp.
18 2 36
m. Transit
Ingress
10 20 21
in. Transit
Egress
18 2 37
448 JUPITER'S SATELLITES, 1856.
WASHINGTON MEAN TIME.
AUGUST.
d. h. m.
«.
d. h. m. 0.
n.
Eclipse
Disapp.
W.
18 12 35 26.0
I.
Occult.
Reapp.
25 4 21
II.
Occult.
Reapp.
18 17 9
lU.
Transit
Egress
25 6 2
I.
Shadow
Ingress
18 20 43
II.
Eclipse
Disapp. W.
25 15 10 58.0
I.
Transit
Ingress
18 21 41
IV.
Eclipse
Disapp.
25 18 27 26.8
I.
Shadow
Egress
18 22 59
II.
Occult.
Reapp.
25 19 28
I.
Transit
Egress
18 23 55
IV.
Eclipse
Reapp.
25 20 8 58.2
I.
Eclipse
Disapp.
19 17 54
4.8
I.
Shadow
Ingress
25 22 37
I.
Occult.
Reapp.
19 21 3
I.
Transit
Ingress
25 23-26
n.
Shadow
Ingress
20 6 45
I.
Shadow
Egress
26 0 53
n.
Transit
Ingress
20 8 34
I.
Transit
Egress
96 1 40
n.
Shadow
Egress
W.
20 9 34
I.
Eclipse
Disapp.
26 19 48 32.4
n.
Transit
Egress
W.
20 11 17
I.
Occult.
Reapp.
96 22 48
I.
Shadow
Ingress
W.
20 15 12
n.
Shadow
Ingress W.
27 9 22
I.
Transit
Ingress
W.
20 16 7
u.
Transit
Ingress W.
27 10 53
I.
Shadow
Egress
20 17 28
II.
Shadow
Egress W.
27 12 10
I.
Transit
Egress
20 18 21
II.
Transit
Egress W.
97 13 36
m.
Eclipse
Disapp.
W.
21 9 46 58.4
I.
Shadow
Ingress
97 17 6
I.
Eclipse
Disapp.
W.
21 12 22 43.0
I.
Transit
Ingress
97 17 59
m.
Eclipse
Reapp.
W.
21 12 42 21.0
I.
Shadow
Egress
97 19 22
m.
Occult.
Disapp.
W.
21 13 24
I.
Transit
Egress
27 20 6
I.
Occult.
Reapp.'
W.
21 15 28
m.
Eclipse
Disapp. W.
98 13 48 98.8
in.
Occult.
Reapp.
W.
21 16 8
I.
Eclipse
Disapp. W.
98 14 17 19.7
II.
Eclipse
Disapp.
22 1 53
8.6
III.
Eclipse
Reapp. W.
98 16 49 48.8
n.
Occult.
Reapp.
22 6 19
m.
Occult.
Disapp.
28 16 48
I.
Shadow
Ingress
W.
22 9 40
I.
Occult.
Reapp.
28 17 14
I.
Transit
Ingress
W.
22 10 33
m.
Occult.
Reapp.
28 19 39
I.
Shadow
Egress
W.
22 11 56
n.
Eclipse
Disapp.
99 4 98 39.7
I.
Transit
Egress^
w.
22 12 47
II.
Occult.
Reapp. W.
99 8 35
I.
Eclipse
Disapp.
23 6 51
16.3
I.
Shadow
Ingress W.
99 11 34
I.
Occult.
Reapp.
w.
23 9 54
I.
Transit
Ingress W.
29 12 18
n.
Shadow
Ingress
23 20 3
I.
Shadow
Egress W.
29 13 50
n.
Transit
Ingress
23 21 45
I.
Transit
F^gressW.
29 14 32
II.
Shadow
Egress
93 82 52
I.
Eclipse
Disapp. W.
30 8 45 47.8
II.
Transit
Egress
24 0 28
I.
Occult.
Reapp. W.
30 11 40
I.
Shadow
Ingress
24 4 9
n.
Shadow
Ingress
30 99 41
1/
Transit
Ingress
24 4 59
II.
Transit
Ingress
31 0 9
I.
Shadow
Egress
24 6 25
u.
Shadow
Egress
31 1 99
I.
Transit
24 7 13
n.
Transit
Egress
31 9 45
ra.
Shadow
Ingress
24 23 54
I.
Shadow
Ingress
31 6 3
I.
Eclipse
Disapp.
25 1 19 56.1 1
I.
Transit
Ingress
31 6 44
m.
Shadow
Egress
25 3 i
I.
Shadow
Egress
31 8 19
m.
Transit
Ingress
25 3 18
I.
Trmnsit
ElgresB W.
31 8 58
JUPITER'S SATELLITES, 1856. 449
1 1
WASHINGTON MEAN TIME.
AUGUST
•
Phases of the Eelipifs of the Sate
llites for an Inyerting Teleseope.
I.
^
in.
/
d r F
^
n.
=^
IV.
d
•
r
•
w
SEPTEMBER.
d. h. m. 0.
d. h. m. •.
I. Eclipse
Disapp.
1 3 U 30.5
Shadow
Ingress W.
5 13 28
m. Shadow
Ingress
1 3 55
Transit
Ingress W.
5 14 2
I. Occult.
Reapp.
1 6 6
Shadow
Egress W.
5 15 44
m. Transit
Ingress
1 6 41
Transit
Egress W.
5 16 16
m. Shadow
Egress
1 7 1
Eclipse
Disapp. W.
6 10 40 27.5
III. Transit
Egress W.
1 9 24
Occult.
Reapp. W.
6 13 24
II. Eclipse
Disapp.
I 17 46 26.3
Shadow
Ingress
7 1 17
n. Occult.
Reapp.
1 21 44
Transit
Ingress
7 2 19
I. Shadow
Ingress
2 0 31
Shadow
Egress
7 4 6
I. Transit
Ingress
2 1 10
Transit
Egress
7 5 2
I. Shadow
Egress
2 2 47
Shadow
Ingress W.
7 7 57
I. Transit
Egress
2 3 24
Transit
Ingress W.
7 8 28
I. Eclipse
Disapp.
2 21 43 8.1
Shadow
Egress W.
7 10 13
I. Occult.
Reapp.
3 0 32
Transit
Egress W.
7 10 42
IV. Shadow
Ingress
3 5 9
Eclipse
Disapp.
8 5 9 12.3
IV. Shadow
Egress
3 7 12
Occult.
Reapp.
8 7 50
n. Shadow
Ingress W.
3 11 59
in.
Shadow
Ingress W.
8 7 56
n. Transit
Ingress W.
3 13 11
in.
Transit
Ingress W.
8 9 59
II. Shadow
Egress W.
3 14 47
ni.
Shadow
Egress W.
8 11 1
n. Transit
Egress W.
3 15 54
in.
Transit
Egress W.
8 12 44
I. Shadow
Ingress
3 19 0
Eclipse
Disapp.
8 20 21 53.4
I. Transit
Ingress
3 19 36
Occult.
Reapp.
8 23 58
I. Shadow
Egress
3 21 16
Shadow
Ingress
9 2 26
I. Transit
Egress
3 21 50
Transit
Ingress
9 2 54
I. Eclipse
Disapp. W.
4 16 11 50.6
Shadow
Egress
9 4 42
m. Eclipse
Disapp.
4 17 50 15.4
Transit
Egress
9 5 8
I. Occult.
Reapp.
4 18 58
Eclipse
Disapp.
9 23 37 52.0
in. Occult.
Reapp. W.
4 22 51
Occult.
Rpapp.
10 2 16
n. Eclipee
Disapp.
5 7 4 8.3
Shadow
Ingress W.
10 14 36
n. Occult.
Reapp. W.
5 10 51
n.
Transit
Ingress W.
10 15 27
67
450 JUPITER'S SATELLITES, 1856.
WASHINGTON
MEAN TIME.
SEPTEMBER. D
d. h m. ■.
d. h. m. I.
n. Shadow
Egress
10 17 24
I.
Transit
Egress
18 1 18
n. Transit
Egress
10 18 10
I.
Eclipse
Disapp.
18 20 1 31.6
I. Shadow
Ingress
10 20 54
I.
Occult.
Reapp.
18 22 26
I. Transit
Ingress
10 21 20
in.
Eclipse
Disapp.
19 1 53 13.8
I. Shadow
Egress
10 23 10
in.
Occult.
Reapp.
19 5 28
I. Transit
Egress
10 23 34
n.
Eclipse
Disapp. W.
19 12 15 3.9
IV. Eclipse
Disapp. W,
11 12 53 9.6
,n.
Occult.
Reapp. W.
19 15 19
IV. Eclipse
Rcapp. W.
11 14 11 11.8
I.
Shadow
Ingress
19 17 18
I. Eclipse
Disapp.
11 18 6 36.6
I.
Transit
Ingress
19 17 30
I. Occult.
Reapp.
11 20 42
I.
Shadow
Egress
19 19 34
m. Eclipse
Disapp.
11 21 51 42.1
I.
Transit
Egress ^
19 19 44
in. Occult.
Reapp.
12 2 12
IV.
Shadow
Ingress
19 23 32
n. Eclipse
Disapp. W.
12 9 30 36.0
IV.
Shadow
Egress
20 1 15
n. Occult.
Reapp. W*
12 13 0
I.
Eclipse
Disapp. W.
20 14 30 12.7
I. Shadow
Ingress W.
12 15 23
I.
Occult.
Reapp. W.
20 16 52
I. Transit
Ingress W.
12 15 46
n.
Shadow
Ingress
21 6 33
I. Shadow
Egress
12 17 39
n.
Transit
Ingress
21 6 51
I. Transit
Egress
12 18 0
n.
Shadow
Egress W.
21 9 20
I. Eclipse
Disapp. W.
13 12 35 15.8
n.
Transit
Egress W.
21 9 34
1. Occult.
Reapp. W.
13 15 8
I.
Shadow
Ingress W.
21 11 46
n. Shadow
Ingress
14 3 56
I.
Transit
Ingress W.
21 11 66
IL Transit
Ingress
14 4 36
I.
Shadow
Egress W.
21 14 2
II. Shadow
Egress
14 6 43
I.
Transit
Egress W.
21 14 10
II. Transit
Egress
14 7 19
I.
Eclipse
Disapp. W.
22 8 59 9.0
I. Shadow
Ingress W.
14 9 52
I.
Occult.
Reapp. W.
22 11 18
I. Transit
Ingress W.
14 10 12
in.
Shadow
Ingress W.
22 16 0
I. Shadow
Egress W.
14 12 8
m.
Transit
Ingress W.
22 16 32
I. Transit
Egress W.
14 12 26
ni.
Shadow
Egress
22 19 3
I. Eclipse
Disapp.
15 7 4 1.8
in.
Transit
Egress
22 19 19
I. Occult.
Reapp. W.
15 9 34
n.
Eclipse
Disapp.
23 1 32 47.9
m. Shadow
Ingress W.
15 11 58
n.
Occult.
Reapp.
23 4 26
III. TransU
Ingress W.
15 13 17
I.
Shadow
Ingress
23 6 15
in. Shadow
Egress W.
15 15 2
I.
Transit
Ingress
23 6 22
m. Transit
Egress W.
15 16 2
I.
Shadow
Egress W.
23 8 31
11. Eclipse
Disapp.
15 22 57 90.5
I.
Transit
Egress W.
23 8 36
II. Occult.
Reapp.
16 2 12
I.
Eclipse
Disapp.
24 3 27 45.9
I. Shadow
Ingress
16 4 20
I.
Occult.
Reapp.
24 5 44
I. Transit
Ingress
16 4 38
n.
Shadow
Ingress
94 19 51
I. Shadow
Egress
16 6 36
n.
TraMtt
Ingress
24 19 58
I. Transit
Egress
16 6 52
n.
Shadow
Egress
94 22 38
I. Eclipse
Disapp.
17 1 32 44.5
n.
Transit
Egress
24 22 41
I. Occult.
Reapp.
17 4 0
I.
Shadow
Ingress
95 0 44
n. Shadow
Ingress
17 17 14
I.
Transit
Ingress
25 0 47
n. Transit
Ingreaa
17 17 43
I.
Shadow
Egress
95 3 0
II. Shadow
Egress
17 20 1
I.
Transit
Egress
95 3 1
II. Timosit
Egress
17 20 26
I.
Eclipse
Disapp.
95 21 66 35.4
I. Shadow
Ingress
17 22 49
I.
OcculL
Reapp.
26 0 10
I. Transit
Ingress
17 23 4
m.
Eclipse
Disapp.
26 6 55 IL3
I. Shadow
Egn-
18 1 5
m.
Oocalt.
Reapp. W.
26 8 46
JUPITER'S SATEHLLITES, 1856. 451
WASHINGTON MEAN TIME.
SEPTEMBER.
d. h. m. 0.
d. h. m. ■.
n. Occult.
Disapp. W.
26 U 49
I.
Shadow
Ingress W.
28 13 41
II. Occult.
Reapp.
26 17 39
I.
Transit
Egress W.
28 15 53
I. Transit
Ingress
26 19 13
I.
Shadow
Egress W.
28 15 57
I. Shadow
Ingress
26 19 13
I.
Occult.
Disapp. W.
29 10 48
I. Transit
Egress
26 21 26
I.
Eclipse
Reapp. W.
29 13 5 32.6
I. Shadow
Egress
26 21 29
ni.
Transit
Ingress
29 19 46
I. Occult.
Disapp. W.
27 16 22
in.
Shadow
Ingress
29 20 2
I. Eclipse
Reapp.
27 18 36 42.0
III.
Transit
Egress
29 22 34
IV. Eclipse
Disapp. W.
28 7 25 35.3
m.
Shadow
Egress
29 23 4
IV. Eclipse
Reapp. W.
28 8 8 43.9
II.
Occult.
Disapp.
30 3 57
II. Transit
Ingress W.
28 9 7
II.
Eclipse
Reapp. W,
30 6 48 59.6
n. Shadow
Ingress W.
28 9 11
I.
Transit
Ingress W.
30 8 4
II. Transit
Egress W.
28 11 50
I.
Shadow
Ingress W.
30 8 10
II. Shadow
Egress W.
28 11 58
I.
Transit
Egress W.
30 10 18
I. Transit
Ingress W.
28 13 38
I.
Shadow
Egress W.
30 10 27
Phatts of till Eelipwi of the SateUites for ai Inrerting Teteicope.
1
I.
«
^
in.
L
::^
J
v_y
n.
:^
^
IV.
dx
• •
w
OCTOBER.
d. h. m. 1.
d. h. m. ■.
I. OccuH.
Disapp.
1 5 14
III.
Eclipse
Reapp. W.
3 12 46 19.9
I. Eclipse
Reapp. W.
1 7 34 17.7
II.
Occult.
Disapp.
3 17 1
II. Transit
Ingress
1 22 14
n.
Eclipse
Reapp.
3 20 6 35,7
II. Shadow
Ingress
1 22 30
I.
Transit
Ingress
3 20 56
II. Transit
Egress
2 0 57
I.
Shadow
Ingress
3 21 7
n. Shadow
Egress
2 1 17
I.
Transit
Egress
3 23 10
I. Transit
Ingress
3 2 30
I.
Shadow
Egress
3 23 23
I. Shadow
Ingress
2 2 39
I.
Occult.
Disapp.
4 18 •
I. Transit
Egress
2 4 44
I.
Eclipse
Reapp.
4 20 31 52.8
I. Shadow
Egress
2 4 55
n.
Transit
Ingress W.
5 11 23
I. Occult.
Disapp.
2 23 40
n.
Shadow
Ingress W.
5 11 49
I. IBclipse
Reapp.
3 2-3 8.6
n.
Transit
Egress W.
5 14 6
1 m. Occult.
Disapp. W.
3 0 12
n.
Shadow
Egress W.
5 14 36
452 JUPITER'S SATELLITES, 1856.
WASHINGTON
MEAN TIME.
OCTOBER.
d. h m. ■
d. h. m. m.
I. Transit
Ingress W.
5 15 32
I.
Eclipse
Reapp.
13 16 56 6.2
I. Shadow
Ingress W.
5 15 36
m.
Transit
Ingress
14 2 17
I. Transit
F^ress
6 17 37
m.
Shadow
Ingress
14 4 5
I. Shadow
Egress
5 17 51
III.
Transit
Egress
14 5 8
I. Occult.
Disapp. W.
6 12 32
m.
Shadow
Egress W.
14 7 5
I. Eclipse
Reapp. W.
6 15 0 45.4
n.
Occult.
Disapp. W.
14 8 22
IV. Shadow
Ingress
6 17 59
I.
Transit
Ingress ^n »
14 11 32
IV. Shadow
Egress
6 19 16
I.
Shadow
Ingress W.
14 11 59
III. Transit
Ingress
6 23 1
n.
Eclipse
Reapp. W.
14 11 59 26.9
m. Shadow
Ingress
7 0 3
I.
Transit
Egress W.
14 13 47
m. Transit
Egress
7 1 50
I.
Shadow
Egress W.
14 14 15
m. Shadow
Egress
7 3 4
I.
Occult.
Disapp. W.
15 8 42
n. Occult.
Disapp. W.
7 6 8
I.
Eclipse
Reapp. W.
15 11 24 55.3
n. Eclipse
Reapp. W.
7 9 24 11.3
n.
Transit
Ingress
16 0 46
I. Transit
Ingress W.
7 9 48
n.
Shadow
Ingress
16 2 46
I. Shadow
Ingress W.
7 10 5
I.
Transit
Ingress
16 5 58
I. Transit
Egress W.
7 12 3
n.
Transit
Egress W.
16 5 31
I. Shadow
Egress W.
7 12 21
I.
Shadow
Ingress W.
16 6 28
I. Occult.
Disapp. W.
8 6 58
II.
Shadow
Egress W.
16 6 33
I. Eclipse
Reapp. W.
8 9 29 32.6
I.
Transit
Egress W.
16 8 13
11. Transit
Ingress
9 0 29
I.
Shadow
Egress W.
16 8 44
II. Shadow
Ingress
9 1 7
I.
Occult.
Disapp.
17 3 8
II. Transit
Egress
9 3 13
I.
Eclipse
Reapp.
17 5 53 50.2
II. Shadow
Egress
9 3 54
m.
Occult.
Disapp.
17 15 46
I. Transit
Ingress
9 4 14
III.
Eclipse
Reapp.
17 20 49 35.6
I. Shadow
Ingress
9 4 33
II.
Occult.
Disapp.
17 21 29
I. Transit
Egress W.
9 6 29
I.
Transit
Ingress
18 0 24
I. Shadow
Egress W.
9 6 49
I.
Shadow
Ingress
18 0 57
I. Occult.
Disapp.
10 1 24
II.
Eclipse
Reapp.
18 1 17 7.1
I. Eclipse'
Reapp.
10 3 58 25.6
I.
Transit
Egress
18 2 39
m. Occult.
Disapp. W.
10 12 28
I.
Shadow
Egress
18 3 12
m. Eclipse
Reapp.
10 16 48 10.5
I.
Occult.
Disapp.
18 21 34
n. Occult.
Disapp.
10 19 15
I.
Eclipse
Reapp.
19 0 22 38.3
I. Transit
Ingress
10 22 40
II.
Transit
Ingress
19 15 56
II. Eclipse
Reapp.
10 22 41 49.2
II.
Shadow
Ingress
19 17 6
I. Shadow
Ingress
10 23 2
II.
Transit
Egress
19 18 41
I. Transit
Egress
11 0 55
I.
Transit
Ingress
19 18 50
I. Shadow
Egress
11 1 18
I.
Shadow
Ingress
19 19 26
I. Occult.
Disapp.
11 19 50
n.
Shadow
Egress
19 19 52
I. Eclipse
Reapp.
11 22 27 11.6
I.
Transit
Egress
19 21 5
n. Transit
Ingress W.
12 13 38
I.
Shadow
Egress
19 21 42
II. Shadow
Ingress W.
12 14 27
I.
Occult.
Disapp.
20 16 0
n. Transit
Egress
12 16 23
I.
Eclipse
Reapp.
20 18 51 34.6
I. Transit
Ingress
12 17 6
in.
Transit
Ingress
21 5 36
n. Shadow
Egress
12 17 14
III.
Shadow
Ingress W.
21 8 7
I. Shadow
Ingress
12 17 31
m.
Transit
Egress W.
21 8 30
I. Transit
Egress
12 19 21
II.
Occult.
Disapp. W.
21 10 37
I. Shadow
Egress
12 19 47
m.
Shadow
Egress W.
21 11 6
I. Occult.
Disapp. W.
13 14 16
I.
Transit
Ingress W.
21 13 16
JUPITER'S SATELLITES, 1856. 453
WASHINGTON MEAN TIME.
OCTOBER.
d. iL m. ■.
d. h. m. 1.
I. Shadow
Ingress W.
21 13 55
I.
Transit
Ingress
26 20 36
II. Eclipse
Reapp. W.
21 14 34 46.9
II.
Transit
Egress
26 20 57
I. Transit
E^ess
21 15 31
I,
Shadow
Ingress
26 21 21
I. Shadow
Egress
21 16 10
II.
Shadow
Egress
26 22 27
I. Occult.
Disapp. W.
22 10 27
I,
Transit
Egress
26 22 51
I. Eclipse
Reapp. W.
22 13 20 25.7
Shadow
Egress
26 23 36
n. Transit
Ingress
23 5 1
I,
Occult.
Disapp.
27 17 48
II. Shadow
Ingress W.
23 6 20
I.
Eclipse
Reapp.
27 20 47 10.4
I. Transit
Ingress W.
23 7 42
m.
Transit
Ingress W.
28 8 58
n. Transit
Egress W.
23 7 46
m.
Transit
Egress W.
28 11 55
I. Shadow
Ingress W.
23 8 23
m.
Shadow
Ingress W.
28 12 9
n. Shadow
Egress W
23 9 7
n.
Occult.
Disapp. W.
28 12 54
I. Transit
Egress W.
23 9 57
I.
Transit
Ingress
28 15 2
I. Shadow
Egress W.
23 10 39
m.
Shadow
"Egreaa
28 15 7
IV. Shadow
Ingress W.
23 12 31
I.
Shadow
Ingress
28 15 50
IV. Shadow
Egress W.
23 13 16
n.
Eclipse
Reapp.
28 17 10 12.0
I. Occult.
Disapp.
24 4 54
I.
Transit
Egress
28 17 17
I. Eclipse
Reapp. W.
24 7 49 22.6
I.
Shadow
Egress
28 18 6
m. Occult.
Disapp.
24 19 8
I.
Occult.
Disapp. W.
29 12 14
m. Occult.
Reapp.
24 22 3
I.
Eclipse
Reapp.
29 15 16 3.1
m. Eclipse
Disapp.
24 22 5 31.9
n.
Transit
Ingress W.
30 7 26
II. Occult.
Disapp.
24 23 45
n.
Shadow
Ingress W.
30 9 3
m. Eclipse
Reapp.
25 0 51 14.3
I.
Transit
Ingress W.
30 9 28
I. Transit
'Ingress
25 2 9
n.
Transit
Egress W.
30 10 11
I. Shadow
Ingress
25 2 52
I.
Shadow
Ingress W.
30 10 19
II. Eclipse
Reapp.
25 3 52 29.5
I.
Transit
Egress W.
30 11 43
I. Transit
Egress
25 4 24
II.
Shadow
Egress W.
30 11 49
I. Shadow
Egress
25 5 7
I.
Shadow
Egress W.
30 12 34
I. Occult.
Disapp.
25 23 21
I.
Occult.
Disapp. W.
31 6 41
I. Eclipse
Reapp.
26 2 18 12.3
I.
Eclipse
Reapp. W.
31 9 45 1.7
II. Transit
Ingress
26 18 12
m.
Occult.
Disapp.
31 22 32
U. Shadow
Ingress
26 19 39
Phatts Of the EeUpsei of the 8ali
Uites for an Inferting Telescope.
L
w
r
•
m.
1 —
r
•
n.
O)
r
•
IV.
Not Eclipsed.
w
ftO
/
WASf^
" ^^^MBEK.
g^
4i. iL m. s.
1 'iSO
I.
Transit
Egress W.
• 8 768 !
A. ^'^•
I « *
in.
Eclipse
Reapp. W.
8 86S5U'
If ^'
^ Dia^PP-
J 8 7 66.7
I.
Shadow
Egress W.
8 858
, Vis'PP'
Ingr^
ReupP'
Egnm w.
Beapp. W.
1 3 55
11.
Eclipse
Reapp. W.
8 9 SS9.5
1 4 48
1 4 53 33.7
IV.
IV.
Transit
Transit
Ingress
Egress
8 81 U 1
8 83 10 1
1 6 10
1 6 87 56.8
I.
I.
Occult.
Eclipse
Disapp.
Reapp. W.
9 8 56
9 6 938.7
Y Shadow
K^wss W.
1 7 3
n.
Transit
Ingress
9 83 1
Dkapp.
3 1 8
I.
Transit
Ingress
10 0 10
Reapp.
3 4 13 53.7
n.
Shadow
Ingress
10 1 8
Ingress
3 20 37
I.
Shadow
Ingress
10 1 a
Ingress
3 33^
n.
Transit
Egress
10 1 47 i
Ingress
3 33 33
I.
Transit
Egress
10 8 85
Ingress
3 83 16
I.
Shadow
Egress
10 3 86
ll! Transit
X. Transit
Egress
3 83 33
n.
Shadow
Egress
10 3 48
Egress
3 0 37
I.
Occult.
Disapp.
10 81 83
^. Shadow
Egress
3 1 e
L
Eclipse
Reapp.
11 0 38 39.3
I. Shadow
I. Occult.
Egrew
3 1 31
III.
Transit
Ingress
11 15 67
Disapp.
3 19 35
n.
Occult.
Disapp.
11 17 36
1 I. Eclipse
Reapp.
3 33 48 53.8
I.
Transit
Ingress
11 18 37
V in. Transit
Ingress W,
4 18 86
m.
Transit
Egress
11 18 58
1 n. Occult.
Disapp.
4 15 13
L
Shadow
Ingress
11 19 40
m. Transit
Egress
4 15 84
m.
Shadow
Ingress
11 80 14
in. Shadow
Ingress
4 16 11
I.
Transit
Egress
11 80 68
I. Transit
Ingress
4 16 49
I.
Shadow
Egress
11 81 65
I. Shadow
Ingress
4 17 45
n.
Eclipse
Reapp.
11 88 81 18.3
I. Transit
Egress
4 19 4
m.
Shadow
Egress
11 83 19
m. Shadow
Egress
4 19 9
I.
Occult.
Disapp.
13 16 60
n. Eclipse
Reapp.
4 19 45 43.4
I,
Eclipse
Reapp.
18 19 7 34.5
I. I^adow
Egress
4 30 0
n.
Transit
Ingress W.
13 18 13
I. Occult.
Disapp. W.
5 14 3
I.
Transit
Ingress W.
13 13 4
I. Eclipse
Reapp.
5 17 11 46.3
L
Shadow
Ingress
13 14 9 ,
n. Transit
Ingress W.
6 9 48
n.
Shadow
Ingress
13 14 31
I. Transit
Ingress W,
6 U 16
H.
Tranatt
Egress
13 15 0
U. Shadow
Ingress W,
6 11 43
I.
Transit
Egress
13 15 19 '
I. Shadow
Ingress W.
6 13 14
I.
Shadow
Egress
13 16 34
n. Transit
Egress W.
6 13 34
n.
Shadow
Egress
13 17 6
I. Transit
Egress W.
6 13 31
I.
Occult.
Disapp. W.
14 10 17
n. Shadow
Egress
6 14 38
I.
Eclipse
Reapp.
14 13 36 35.8
I. Shadow
Egress
6 14 39
in.
Occult.
Disapp. W.
15 5 36
I. Occult.
Disapp. W.
7 8 39
n.
Occult.
Disapp. W,
15 6 46
I. Eclipse
Reapp. W.
7 11 40 46.3
I.
Transit
Ingress vv •
15 7 31
m. Occult.
Disapp.
8 3 3
I.
Shadow
Ingress W.
15 8 37 [
n. Occult.
Disapp.
8 4 34
m.
Occult
Reapp. W.
15 8 37
m. Occult.
Reapp.
8 S 1
I.
Transit
Egress W.
15 9 46
I. Transit
Ingress W.
8 5 43
m.
Eclipse
Disapp. W.
15 10 13 17.0
ni. Eclipse
Disapp. W.
8 6 10 34.9
I.
Shadow
Egress W.
15 10 53
I. Shadow
Ingress W.
8 6 43
n.
Eclipse
Reapp. W.
15 11 39 8.8
JUPITER'S SATELLITES, 1856. 455
WASHINGTON
MEAN TIME.
NOVEMBER.
d. h. m. 1.
d. h. m. 0.
m.
Eclipse
Reapp. W.
15 18 55 39.4
I.
Eclipse
Reapp. W.
23 10 1 23.6
I.
Occult.
Disapp.
16 4 45
n.
Transit
Ingress
24 3 55
L
Eclipse
Reapp. W.
16 8 5 29.2
L
Transit
Ingress
24 3 48
11.
Transit
Ingress
17 1 27
I.
Shadow
Ingress
24 5 1
L
Transit
Ingress
17 1 59
I.
Transit
Egress W.
24 6 4
L
Shadow
Ingress
17 3 6
n.
Shadow
Ingress W.
24 6 20
IV.
Occult.
Disapp.
17 3 9
n.
Transit
Egress W.
24 6 42
n.
Shadow
Ingress
17 3 41
I.
Shadow
Egress W.
24 7 16
II.
Transit
Egress
17 4 14
u.
Shadow
Egress W.
24 9 5
L
Transit
Egress
17 4 14
I.
Occult.
Disapp.
25 1 4
IV.
Occult.
Reapp.
17 4 33
I.
Eclipse
Reapp.
25 4 30 25.9
I.
Shadow
Egress
17 5 21
IV.
Transit
Ingress
25 13 0
II.
Shadow
Egress W.
17 6 26
IV.
Transit
Egress
25 14 44
I.
Occult.
Disapp.
17 23 12
I.
Transit
Ingress
25 22 16
t
Eclipse
Reapp.
18 2 34 30.8
n.
Occult.
Disapp.
25 22 23
m.
Transit
Ingress
18 19 34
in.
Transit
Ingress
25 23 15
II.
Occult.
Disapp.
18 19 58
I.
Shadow
Ingress
25 23 30
I.
Transit
Ingress
18 20 26
L
Transit
Egress
26 0 32
I.
Shadow
Ingress
18 21 35
I.
Shadow
Egress
26 1 45
III.
Transit
Egress
18 22 36
in.
Transit
Egress
26 2 18
I.
Transit
Egress
18 22 41
n.
Eclipse
Reapp.
26 3 32 47.6
I.
Shadow
Egress
18 23 50
in.
Shadow
Ingress
26 4 18
in.
Shadow
Ingress
19 0 16
in.
Shadow
Egress W.
26 7 12
n.
Eclipse
Reapp.
19 0 56 59.9
I.
Occult.
Disapp.
26 19 32
III.
Shadow
Egress
19 3 11
I.
Eclipse
Reapp.
26 22 59 29.8
I.
Occult.
Disapp.
19 17 40
I.
Transit
Ingress
27 16 44
I.
Eclipse
Reapp.
19 21 3 24.0
n.
Transit
Ingress
27 17 10
II.
Transit
Ingress
20 14 40
I.
Shadow
Ingress
27 17 69
I.
Transit
Ingress
20 14 53
I.
Transit
Egress
27 19 0
I.
Shadow
Ingress
20 16 4
n.
Shadow
Ingress
27 19 39
n.
Shadow
Ingress
20 17 0
H.
Transit
Egress
27 19 57
I.
Transit
Egress
20 17 8
I.
Shadow
Egress
27 20 14
n.
Shadow
Egress
20 17 28
n.
Shadow
Egress
27 22 24
I.
Transit
Egress
20 18 19
I.
Occult.
Disapp.
28 14 0
II.
Shadow
Egress
20 19 45
I.
Eclipse
Reapp.
28 17 28 25.6
I.
Occult.
Disapp. W.
21 12 8
I.
Transit
Ingress W.
29 11 12
I.
Eclipse
Reapp.
21 15 32 29.1
n.
Occult.
Disapp. W.
29 11 38
n.
Occult.
Disapp. W.
22 9 11
I.
Shadow
Ingress W.
29 12 27
III.
Occult.
Disapp. W.
22 9 15
m.
Occult.
Disapp.
29 13 1
L
Transit
Ingress W.
22 9 20
I.
Transit
Egress
29 13 28
I.
Shadow
Ingress W.
22 10 33
I.
Shadow
Egress
29 14 42
I.
Transit
Egress W.
22 11 36
in.
Occult.
Reapp.
29 16 5
in.
Occult.
Reapp. W.
22 12 18
n.
Eclipse
Reapp.
29 16 50 42.8
L
Shadow
Egress W.
22 12 48
in.
Eclipse
Disapp.
29 18 19 52.9
n.
Eclipse
Reapp.
22 14 14 52.4
in.
Eclipse
Reapp.
29 21 0 0.9
in.
Eclipse
Disapp.
22 14 16 14.7
I.
Occult.
Disapp. W.
30 8 28
in.
Eclipse
Reapp.
22 16 57 29.9
I.
Eclipse
Reapp. W.
30 11 57 20.8
I.
Occult.
Disapp. W.
23 6 36
456 JUPITER'S SATELLITES, 1856.
WASHINGTON MEAN TIME.
NOVEMBER.
Pbases of the Eclipses Of the Slit
Bllites for an InTerting Telescope.
1
L
XL
r
•
r
•
ffl. d
V y *
IV. Not Eclipsed.
r
•
DECE]
MBER.
d. h m. 1.
d. b. BL f.
I. Transit
Ingress W.
1 5 40
II. Transit
Egress
4 22 30
II. Transit
Ingress W.
1 6 27
n. Shadow
Egress
5 13 I
I. Shadow
Ingress W.
1 6 56
I. Occult.
Disapp.
5 15 52 1
I. Transit
Egress W.
1 7 66
I. Eclipse
Reapp.
5 19 24 23.7
n. Shadow
Ingress W.
1 9 0
I. Transit
Ingress
6 13 4 1
I. Shadow
Egress W.
1 9 11
II. Occult.
Disapp.
6 14 0 1
II. Transit
Egress W.
1 9 14
I. Shadow
Ingress
6 14 23
U. Shadow
Egress W.
1 11 44
I. Transit
Egress
6 15 20 i
I. Occalt.
Disapp.
2 3 56
I. Shadow
Egress
6 16 38
I. Eclipse
Reapp. W.
2 6 26 23.1
m. Occult.
Disapp.
6 16 51 1
I. Transit
Ingress
3 0 8
II. Eclipse
Reapp.
6 19 26 30.4
n. Occult.
Disapp.
3 0 53
ni. Occult.
Reapp.
6 19 56 1
I. Shadow
Ingress
3 1 25
m. Eclipse
Disapp.
6 22 22 58.3
I. Transit
Egress
3 2 24
in. Eclipse
Reapp.
7 1 1 58.9 ,
m. Transit
Ingress
3 3 2
I. Occult.
Disapp. W.
7 10 21
I. Shadow
Egress
3 3 40
I. Eclipse
Reapp.
7 13 53 19.3
in. Transit
Egress W.
3 6 6
I. Transit
Ingress W.
8 7 33 1
II. Eclipse
Reapp. W.
3 6 8 41.2
I. Shadow
Ingress W.
8 8 59 1
in. Shadow
Ingress W.
3 8 21
II. Transit
Ingress W.
8 9 0
m. Shadow
Egress W.
3 11 14
I. Transit
Egress W.
8 9 49
IV. Occult.
Disapp.
3 19 35
I. Shadow
Egress W.
8 11 7
I. Occult.
Disapp.
3 21 24
n. Shadow
Ingress W.
8 11 39
IV. Occult
Reapp.
3 21 30
II. Transit
Egress W.
8 11 48 1
I. Eclipse
Reapp.
4 0 55 20.6
IL Shadow
Egress
8 14 23
I. Transit
Ingress
4 18 36
I. Occult.
Disapp.
9 4 49
II. Transit
Ingress
4 19 43
I. Eclipse
Reapp. W.
9 8 21 21.9 '
I. Shadow
Ingress
4 19 54
I. Transit
Ingress
10 2 1 1
I. Transit
Egress
4 20 52
I. Shadow
Ingren
10 3 21
I. Shadow
Egress
4 22 9
n. Occult.
Disapp.
10 3 34 1
n. Shadow
Ingress
4 22 18
I. Transit
Egress
10 4 17
1
JUPITER'S SATELLITES, 1856. 457
WASHINGTON
MEAN TIME.
1
DECEMBER.
d. h. m. 0.
d. h. m. ■.
I. Shadow
Egress W.
10 5 36
m.
Transit
Egress
17 13 57
ni. Transit
Ingress W.
10 6 54
III.
Shadow
Ingress
17 16 26
II. Eclipse
Reapp. W.
10 8 44 40.8
III.
Shadow
Egress
17 19 17
III. Transit
Egress W.
10 9 59
I.
Occult.
Disapp.
18 1 13
III. Shadow
Ingress
10 12 23
I.
Eclipse
Reapp.
18 4 47 18.1
III. Shadow
Egress
10 15 15
I.
Transit
Ingress
18 22 24
I. Occult.
Disapp.
10 23 17
I.
Shadow
Ingress
18 23 46
I. Eclipse
Reapp.
11 2 51 19.3
I.
Transit
Egress
19 0 40
I. Transit
Ingress
11 20 29
II.
Transit
Ingress
19 0 54
I. Shadow
Ingress
11 21 50
I.
Shadow
Egress
19 2 1
II. Transit
Ingress
11 22 17
II.
Shadow
Ingress
19 3 36
I. Transit
Egress
11 22 45
II.
Transit
Egress
19 3 42
I. Shadow
Egress
12 0 5
IL
Shadow
Egress W.
19 6 21
II. Shadow
Ingress
12 0 57
I.
Occult.
Disapp.
19 19 42
n. Transit
Egress
12 1 5
I.
Eclipse
Reapp.
19 23 16 21.4
n. Shadow
Egress
12 3 42
IV.
Occult.
Disapp.
20 13 15
IV. Transit
Ingress W.
12 6 4
IV.
Occult.
Reapp.
20 15 21
IV. Transit
Egress W.
12 8 5
I.
Transit
Ingress
20 16 53
I. Occult.
Disapp.
12 17 46
I.
Shadow
Egress
20 18 14
I. Eclipse
Reapp.
12 21 20 22.7
I.
Transit
Egress
20 19 9
I. Transit
Ingress
13 14 57
II.
Occult.
Disapp.
20 19 16
I. Shadow
Ingress
13 16 19
I.
Shadow
Egress
20 20 29
n. Occult.
Disapp.
13 16 41
n.
Eclipse
Reapp.
21 0 38 50.8,
I. Transit
Egress
13 17 13
III.
Occult.
Disapp.
21 0 45
I. Shadow
Egress
13 18 34
III.
Occult.
Reapp.
21 3 52
m. Occult.
Disapp.
13 20 45
III.
Eclipse
Disapp. W.
21 6 28 54.3
n. Eclipse
Reapp.
13 22 2 42.1
III.
Eclipse
Reapp. W.
21 9 5 40.1
III. Occult.
Reapp.
13 23 51
I.
Occult.
Disapp.
21 14 11
m. Eclipse
Disapp.
14 2 26 9.2
I.
Eclipse
Reapp.
21 17 45 16.7
III. Eclipse
Reapp.
14 5 4 2.4
I.
Transit
Ingress
22 11 22
I. Occult.
Disapp.
14 12 15
I.
Shadow
Ingress
22 12 43
I. Eclipse
Reapp.
14 15 49 18.1
I.
Transit
22 13 38
I. Transit
Ingress W.
15 9 26
II.
Transit
Ingress
22 14 14
I. Shadow
Ingress W.
15 10 48
I.
Shadow
Egress
22 14 58
n. Transit
Ingress W.
15 11 36
n.
Shadow
Ingress
22 16 56
I. Transit
Egress W.
15 11 42
II.
Transit
Egress
22 17 2
I. Shadow
Egress
15 13 3
II.
Shadow
Egress
22 19 40
II. Shadow
Ingress
15 14 18
I.
Occult.
Disapp. W.
23 8 40
II. Transit
Egress
15 14 24
I.
Eclipse
Reapp.
23 12 14 19.1
II. Shadow
Egress
15 17 2
I.
Transit
Ingress W.
24 5 51
I. Occult.
Disapp. W.
16 6 44
I.
Shadow
Ingress W.
24 7 12
I. Eclipse
Reapp. W.
16 10 18 20.8
I.
Transit
Egress W.
24 8 7
I. Transit
Ingress
17 3 55
n.
Occult.
Disapp. W.
24 8 34
I. Shadow
Ingress
17 5 17
I.
Shadow
Egress W.
24 9 27
n. Occult.
Disapp. W.
17 5 58
n.
Eclipse
Reapp.
24 13 56 58.2
I. Transit
Egress W.
17 6 11
m.
Transit
Ingress
24 14 54
I. Shadow
Egress W.
17 7 32
III.
Transit
Egress
24 18 1
m. Transit
Ingress W.
17 10 50
in:
Shadow
Ingress
24 20 29
n. Eclipse
Reapp. W.
17 11 20 46.4
ni.
Shadow
Egress
24 23 19
58
458 JUPITER'S SATELLITES, 1856-
WASHINGTON MEAN TIME.
DECEMBER.
I. Occult.
I. Eclipse
I. Transit
I. Shadow
I. Transit
II. Transit
I. Shadow
II. Shadow
n. Transit
II. Shadow
I. Occult.
I. Eclipse
I. Transit
I. Shadow
I. Transit
n. Occult.
I. Shadow
II. Eclipso
III. Occult,
III. Occult.
III. Eclipse
m. Eclipse
Disapp.
Reapp. W.
Ingress
Ingress
Egress
Ingress
Egress
Ingress W.
Egress W.
Egress W.
Disapp.
Reapp.
Ingress
Ingress
Egress
Disapp.
Egress
Reapp.
Disapp.
Reapp. W.
Disapp. W.
Reapp.
d.
25
25
26
26
26
26
26
26 21
27 1
27 18
27 20
27 21
27 21
27 22
28 3
28 4
28 7
28 10
28 13
0
43 16.0
20
41
36
33
56
15
21
59
38
12 18.9
49
10
5
53
25
15 6.1
49
56
31 36.9
7 15.3
I.
I.
IV.
IV.
I.
I.
I.
U.
i.
n.
n.
n.
I.
I.
I.
I.
I.
II.
I.
II.
III.
m.
Occult.
Eclipse
Transit
Transit
Transit
Shadow
Transit
Transit
Shadow
Shadow
Transit
Shadow
Occult.
Eclipso
Transit
Shadow
Transit
Occult.
Shadow
Elclipse
Transit
Transit
Disapp.
Reapp.
Ingress
Egress
Ingress
Ingress
Egress
Ingress
Egress
Ingress
Egress
Egress
Disapp. W.
Reapp.
Ingress W.
Ingress W.
Egress W.
Disapp.
Egress
Reapp.
Ingress
Egress
d. h.
28 16
28 19
29 0
29 2
29 13
29 14
29 15
29 16
29 16
29 19
29 19
29 22
30 10
30 14
13.9
31
31
31 10
31 11
31 11
31 16
31 18
31 22
7
41
12
21
18
39
34
54
54
35
42
19
36
10
47
7
3
19
22
33 16.1
59
6
15.3
PhaiM of the Eelipiei of the Satellites for an iBTertiBg Telescope.
n.
in.
IV. Not Edipted.
JUPITER'S SATELLITES, 1856. 459
WASHINGTON MEAN TTMK OF GEOCENTRIC
SUPERIOR
CONJUNCTION.
SATELLITE
I.
h. m.
h. m.
h. m.
h. m.
Jan. 2
16 6.7
Maj 18
0 59.4
Aug. 2
3 25.5
Oct 17
4 16.1
4
10 36.9
19
19 29.0
3
21 52.6
18
22 42.5
6
5 7.1
21
13 58.6
5
16 19.7
20
17 8.9
7
23 37.3
23
8 28.1
7
10 46.7
22
U 35.4
9
18 7.6
25
2 57.6
9
5 13.7
24
6 1.9
11
12 37.9
26
21 27.0
10
23 40.6
26
0 28.4
13
7 8.2
28
15 56.4
12
18 7.4
27
18 55.1
15
1 38.5
30
10 25.7
14
12 34.1
29
13 21.8
16
20 a9
Jane 1
4 55.0
16
7 0.8
31
7 48.6
18
14 39.3
2
23 24.3
18
1 27.4
I^OT. 2
2 15.5
20
9 9.7
4
17 53.5
19
19 54.0
3
20 42.4
22
3 40.1
6
12 22.7
21
14 20.5
5
15 9.4
23
22 10.5
8
6 51.8
23
8 47.0
7
9 36.5
25
16 41.0
10
1 20.8
25
3 13.4
9
4 3.7
27
11 11.5
11
19 49.8
26
21 39.7
10
22 31.0
29
5 42.0
13
14 18.7
28
16 6.0
12
16 58.3
31
0 12.5
15
8 47.6
30
10-32.3
14
11 25.7
April 1
23 58.9
17
3 16.5
Sept 1
4 58.6
16
5 53.1
3
18 29.4
18
21 45.3
2
23 24.8
18
0 20.7
5
12 59.8
20
16 14.0
4
17 61.0
19
18 48.3
7
7 30.1
22
10 42.7
6
12 17.1
21
13 16.0
9
2 0.4
24
5 11.3
8
6 43.2
23
7 43.8
10
. 20 30.7
25
23 39.9
10
1 9.2
25
2 11.7
12
15 1.0
27
18 8.4
11
19 35.3
26
20 39.6
14
9 31.2
29
12 36.9
13
14 1.3
28
16 7.7
16
4 1.4
July 1
7 5.3
15
8 27.3
30
9 35.8
17
22 31.5
3
1 33.7
17
2 53.2
Dec. 2
4 4.0
19
17 1.6
4
20 2.0
18
21 19.2
3
22 32.3
21
11 31.7
6
14 30.2
20
15 45.2
6
17 0.6
23
6 1.8
8
8 58.4
22
10 11.2
7
11 29.0
25
0 31.8
10
3 26.5
24
4 37.1
9
5 57.5
26
19 1.8
11
21 54.5
25
23 3.0
11
0 26.0
28
13 31.8
13
16 22.4
27
17 28.8
12
18 54.6
30
8 1.7
15
10 50.3
29
11 54.7
14
13 23.3
May 2
2 31.6
17
5 18.1
Oct 1
6 20.7
16
7 52.1
3
21 1.5
18
23 45.8
3
0 46.7
18
2 21.0
5
15 31.3
20
18 13.5
4
19 12.7
1?
20 49.9
7
10 1.1
22
12 41.1
6
IS 38.8
21
15 18.9
9
4 30.9
24
7 8.7
8
8 4.9
23
9 47.9
10
23 0.7
26
1 36.2
10
2 31.1
25
4 17.0
12
17 30.4
27
20 3.6
11
20 67.3
26
22 46.2
14
12 0.1
29
14 31.0
13
15 23.5
28
17 15.5
16
6 29.8
31
8 58.3
15
9 49.8
30
11 44.9
SATELLITE
II.
h. m.
h. m.
h. m.
h m.
Jan. 4
0 9.4
Jan. 21
19 13.6
April 5
13 29.5
April 23
8 37.5
7
13 33.3
25
8 39.6
9
2 55.1
26
22 3.2
11
2 58.4
28
22 4.9
12
16 21.5
30
11 27.5
14
16 22.9
32
11 31.4
16
5 46.7
May 4
0 52.7
18
5 48.3
April 2
0 2.7
19
19 12.8
7
14 16.4
460 JUPITER'S SATELLITES, 1856.
WASHTNGTON MEAN TIME OF GEOCENTRIC SUPERIOR CONJUNCTION. '
1
SATELLITE II. |
h. m
h. m.
h. m.
h. B.
Maj 11
3 41.0
July 10
14 26.9
Sept 8
22 36.2
Not. 8
5 46.6
14
17 4.3
14
3 43.0
12
11 43.8
11
18 57.7
18
6 28.0
17
16 57.7
16
0 50.5
15
8 9.2 ,
21
19 50.5
21
6 12.6
19
13 57.2
18
21 21.5 ,
25
9 13.7
24
19 26.5
23
3 3.6
22
10 34.4 1
28
22 35.6
28
8 40.0
26
16 10.1
25
23 46.7 '
Jane 1
11 58.0
31
21 52.7
30
5 18.2
29
13 20 '
5
1 19.0
Ang. 4
11 4.9
Oct 3
18 23.0
Dec 3
2 16.8 1
8
14 40.3
* 8
0 16.3
7
7 30.0
6
15 32.3 1
12
4 0.7
11
13 27.3
10
20 36.6
10
4 48.1
15
17 21.0
15
2 37.7
14
9 44.1
13
18 4X
19
6 40.2
18
15 47.6
17
22 51.6
17
7 21.8 I
22
19 59.5
22
4 56.9
21
11 59.6
20
20 39 7 '
26
9 17.9
25
18 6.7
25
1 7.7
24
9 59J0 ,
29
22 36.4
29
7 12.9
28
14 16.8
27
23 17.1
July 3
11 53.5
Sept 1
20 22.0
Not. 1
3 26.4
31
12 36.2 !
7
I 10.7
5
9 29.6
4
16 36.1
1
SATELLITE III.
h. m.
h. m.
h. m.
h. B.
Jan. 4
22 53.5
May 20
11 54.2
Aug. 7
7 43.5
Oct 24
20 35.4
12
3 18.4
27
16 11.6
14
11 16.6
Nov. I
0 IjO
19
7 45.3
June 3
20 25JS
21
14 45.7
8
3 31.*!
26
12 14.0
11
0 36.4
28
18 10.3
15
7 6-3
33
16 44.2
18
4 41.1
Sept 4
21 31.3
22
10 46.7
April 7
9 26.9
25
8 48.2
12
0 49.3
29
14 82.7 }
14
13 55.2
July 2
12 49.0
19
4 5.5
Dec 6
18 23.5
21
18 22.2
9
16 45.2
26
7 20.8
13
22 18.2
28
22 48.0
16
20 37.2
Oct 3
10 36.3
21
2 18.7 i
May 6
3-11.9
24
0 24.1
10
13 53.8
28
6 22^
13
7 34.4
31
4 6.1
17
17 13.0
1
SATELLITE IV. '
1
h. m.
h. m.
h. B.
h B.
Jan. 3
18 50.3
May 17
16 53.4
Aug. 9
11 22.2
Oct 31
12 12.7 '
20
15 19.5
June 3
12 33.8
^ 26
2 40.8
Not. 17
3 &\J0 '
March 28
3 13.3
SO
7 35.2
Sept 11
17 11.8
Dec 3
20 32.6 ,
April 14
0 5.8
July 7
1 4ao
28
7 18.2
20
14 17.7 !
30
20 41.6
23
19 5.1
Oct 14
21 28.7
1
Factors
\ by which x' and y in the foUowmg Table must be m
1
ultiplied to obtain the
coordinate
B8 X and y for any time.
p = th
circle of
e inclination of the northern Semiminor Axis of the a
Declination ; 4- East, — W.
pparent ellipse to the
X and 3
f at the time of the visible phase of every fourth eclips
R for the I*, of every ,
second ec
lipse for the \l\ and of every eclipse for the lir and IV^
' Satellites.
JUPITER'S SATELLITES, 1856. 461
SATELLITE I.
1
AT GEOCENTRIC SUPERIOR
AT TIME OF
AT GEOCENTRIC SUPERIOR]
AT TIME OF
Date, 1
CONJUNCTION.
ECLIPSS.
Date,
CONJUNCTION.
ECLIPSE.
1 fi i(
a
1
1866
1
1 O 9 u.
Factor
Factor
1 .
Factor
Factor
forx'.
fory*.
P-
X,
y-
forz'.
fory'.
P-
X.
9'
O 1
u
II
0 1
II
II
Jan.
2
0.933
-H).226
—22 59.1
-+-31
4-1
Aug.
3
1.201
4-0.916
—24 57.8
—42
4-6
9
0.920
0.235
23 16.9
30
1
10
1.226
0.943
24 58.9
41
6
16
0.908
0.245
23 32.5
28
2
18
1.249
0.968
25 0.8
40
6
23
0.898
0.256
23 47.3
26
2
25
1.270
0.987
25 3.2
38
6
31
0.890
0.268
24 1.4
4-24
2
Sept
1
1.288
1.002
25 6.2
36
6
March 29
0.880
4-0.404
—25 18.8
—22
4-3
8
1.301
4-1.010
—25 9.3
—33
4-6
April
5
0.886
0.423
25 22.5
23
3
15
1.310
1.012
25 12.6
29
6
12
0.893
0.444
25 25.0
25
3
22
1.315
1.007
25 15.6
—25
7
19
0.902
0.467
25 26.4
27
3
29
1.315
0.995
25 18.4
4-25
7
26
0.912
0.491
25 26.8
29
3
Oct
6
1.310
0.978
25 20.8
29
6
May
3
0.924
4-0.516
—25 26.2
—31
4-3
13
1.299
4-0.954
—25 22.7
4-32
4-6
10
0.938
0.541
25 24.6
32
3
20
1.285
0.928
25 24.1
35
6
18
0.953
0.568
25 22.6
34
3
27
1.267
0.898
25 25.1
38
6
25
0.970
0.597
25 20.0
36
4
Not.
3
1.246
0.867
25 25.8
40
6
June
1
0.988
0.626
25 17.1
37
4
10
1.221
0.836
25 26.2
41
5
8
1.007
4-0.657
—25 13.5
—39
4-4
18
1.196
4-0.806
—25 26.4
4-42
4-5
15
1.028
0.688
25 lO.l
40
4
25
1.170
0.776
25 26.4
43
5
22
1.050
0.720
25 6.7
41
4
Dec
2
1.143
0.747
25 26.2
43
5
29
1.074
0.753
25 3.8
42
6
9
1.116
0.722
25 25 9
43
4
July
6
1.099
0.787
25 1.2
43
5
16
1.090
0.700
25 25.4
42
4
13
1.124
4-0.820
—24 59.3
—44
4-5
23
1.065
4-0.681
—25 24.5
4-41
4-4
20
1.150
0.853
24 58.0
44
5
30
1.041
4-0.664
—25 23.3
4-40
4-4
27
1.176
4-0.885
—24 57.5
—43
4-5
SAT]
ELI
.IT]
E II.
AT OS
OCBNTRIO SUPERIOR
AT Tl
ME OF
AT GEOCENTRIC SUPERIOR
AT TIME OF
Date,
CONJUNCTION.
EOL
IPSE.
Date
CONJUNCTION.
ECLIP8B.
1 fi>( ft
1 fi (\ f!
low
V •
Factor
Factor
1 5 o r
* •
Factor
Factor
for*'.
fory.
P'
Xm
V-
for X'.
fory*.
P'
X.
f-
Jan.
4
0.930
4-0.090
O 1
—22 53.4
II
4-40
II
4-1
July
31
1.191
4-0.643
0 1
—25 8.5
—58
+7
11
0.917
0.098
23 9.7
38
1
Aug.
8
1.216
0.665
25 9.3
56
8
18
0.906
0.107
23 25.7
35
1
15
1.240
0.685
25 10.9
53
8
25
0.896
0.117
23 41.3
32
1
22
1.262
0.701
25 12.9
50
8
32
0.888
0.128
23 56.3
4-29
1
29
1.281
0.713
25 15.5
46
8
April
2
0.883
4-0.246
—25 21.2
—27
4-3
Sept
5
1.296
4-0.720
—25 18.3
—41
4-8
9
0.890
0.264
25 25.3
30
3
12
1.307
0.723
25 21.3
36
8
16
0.898
0.283
25 28.2
33
3
19
1.314
0.720
25 24.1
30
8
23
0.907
0.303
25 29.9
36
4
26
1.315
0.711
25 26.6
—24
8
30
0.918
0.323
25 30.7
39
4
Oct
3
1.312
0.697
25 28.8
4-30
8
May
7
0.931
4-0.344
—25 30.4
—42
4-4
10
1.303
4-0.679
—25 30.5
4-36
4-8
14
0.946
0.365
25 29.5
45
4
17
1.291
0.658
25 31.9
41
8
21
0.962
0.388
25 27.8
47
4
25
1.274
0.634
25 32.9
46
7
28
0.979
0.411
25 25.6
60
5
Not.
1
1.254
0.610
25 33.5
49
7
Jane
5
0.998
0.436
25 22.9
52
6
8
1.231
0.585
25 33.8
52
7
12
1.018
4-0.461
—25 20.2
—54
4-6
15
1.206
4-0.561
—25 34.0
4-54
4-7
19
1.040
0.487
25 17.3
56
5
22
1.180
0.538
25 34.1
56
6
26
1.063
0.513
25 14.7
57
6
29
1.153
0.517
25 34.2
67
6
July
3
1.088
0.540
25 12.4
58
6
Dec
6
1.126
0.498
25 34.3
57
6
10
1.113
0.567
25 10.5
59
7
13
I.IOO
0.482
25 34.1
56
6
17
1.139
4-0.593
—25 9.1
—69
4-7
20
1.075
4-0.469! —25 33.7
4-55
4-6
.
24
1.165
1 4-0.619! —25 8.4
—59
4-7
27
1.050
4-0.458 —25 33.1
-+•54
4-5
462 JUPITER'S SATELLITES, 1 856,
SATELLITE III.
AT GEOCENTRIO SUPEBIOB CONJUNCTION.
AT TIME OF ICLIPSS. 1
Bail
»
1
1856.
Factor for vf.
BflappeannM. 1
Victor ft»r y'.
V'
1
X.
f-
X,
y-
1
O f
u
«
»
1
Jan.
4
0.928
-H).176
+23 0.1
+21
+ 3
+53
+ 3
12
0.916
0.184
23 15.9
+17
3
48
3
19
0.904
0.194
23 31.5
. .
44
3
26
0.895
0.204
23 46.6
, .
39
3
33
0.887
0.216
24 0.9
+35
4
April
7
0.888
-H).362
+25 20.8
—35
+ 6
14
0.896
0.382
25 23.5
40
7
, ,
. ,
21
0.905
0.404
26 24.9
44
7
—15
+ 7
28
0.916
0.427
25 25.2
49
7
19
7
Maj
6
0.928
0.451
25 24.8
53
8
23
8
13
0.942
-H).475
+25 23.4
—57
+ 8
—27
+ 8
20
0.958
0.501
25 21.3
61
8
31
9
27
0.975
0.528
25 18.7
65
9
34
9
June
3
0.994
0.556
25 15.7
69
9
87
10
11
1.015
0.585
25 12.5
72
10
40
10
18
1.037
+0.615
+25 9.3
—74
+10
—42
+11
25
1.061
0.646
25 6.2
76
11
44
11
Julj
2
1.085
0.677
25 3.5
78
11
45
12
9
1.110
0.708
25 1.2
79
12
46
12
16
1.136
0.739
24 59.6
79
13
45
13
24
1.162
H-0.769
+24 58.7
—78
+13
-43*
+13
SI
1.188
0.798
24 58.6
76
14
41
14
Ang.
7
1.213
0.826
24 59.2
73
14
37
14
14
1.237
0.850
25 0.7
69
15
32
15
21
1.260
0.870
25 2.9
63
15
26
15
28
1.279
-H).885
+25 5.5
—56
+15
—19
+15
Sept
4
1.295
0.895
25 8.4
48
15
. .
. .
12
1.307
0.899
25 \\A
39
16
• .
• •
19
1.314
0.897
25 14.5
29
16
, .
• •
26
1.316
0.889
26 17.2
—19
15
+19
15
Oct
3
1.313
-H).874
+25 19.6
+29
+15
10
1.305
0.854
25 21.5
. .
, .
38
15
17
1.292
0.829
25 22.9
. ,
, ,
47
14
24
1.275
0.803
25 24.0
+19
+14
55
14
Not.
1
1.254
0.775
25 24.6
27
13
61
13
8
1.231
+0.746
+25 25.1
+33
+13
+66
+13
15
1.206
0.717
25 25.2
38
12
70
12 '
22
1.180
0.689
25 25.3
42
12
73
12 :
29
1.153
0.663
25 25.3
44
11
74
11
Dec
6
1.126
0.639
25 25.1
46
1^
75
11
13
1.100
+0.618
+25 24.7
+46
+11
+74
+10
21
1.074
0.599
25 24.1
45
10
73
10
28
1.048
+0.583
+25 23.2
+44
+10
+71
+10 1
JUPITER'S SATELLITES, 1856. 463
I
SATELLITE IV.
•
AT GEOCENTRIC SUPERIOR CONJUNCTION.
AT TIME OV
ECLIPSE.
Date,
1
1856.
Factor for yf.
Factor for y.
P-
X.
1 ^'
4-5
X.
y.
Jan. 3
0.931
-+-0.132
O 1
4-22 50.4
4- 52
4- 81
4- 5
20
0.898
0.150
23 27.6
4- 35
5
4- 63
5
March 28
0.879
0.267
25 10.1
— 38
9
— 14
9
April 14
0.895
0.307
25 18.9
56
10
32
10
SO
0.919
0.351
25 21.4
73
12
51
12
May 17
0.952
H-0.400
4-25 18.7
— 89
4-14
— 67
4-14
June 3
0.994
0.454
25 12.8
104
15
82
16
20
1.043
0.512
25 5.7
114
17
93
17
Julj 7
1.101
0.574
24 59.5
120
19
100
19
23
1.161
0.635
24 56.3
117
22
97
22
Ang. 9
1.221
+0.690
4-24 57.2
—104
4-24
— 86
4-24
26
1.273
0.729
25 1.8
79
25
63
25
Sept 11
1.306
0.746
25 8.4
— 43
4-26
— 30
4-26
28
1.315
0.734
25 14.6
• •
• •
• •
• •
Oct 14
1.297
0.696
25 18.8
• *
* *
• •
• •
31
1.256
H-0.642
4-25 20.8
. .
. .
• .
, .
Nor. 17
1.199
0.584
25 21.3
• .
• •
D6C 3
1.137
0.533
25 21.2
• •
, ,
• •
20
1.075
H-0.493
-+-25 20 3
"
"
* '
SATELLIT
CE I.
'
coOri
)INATES ra
f THE MEAN APPARENT
ELLIPSE
:, DESCRE
BED BY
THE
SATELLIT
E, AND FOR THE MEAN
DISTANi
CE OF JUPITER
FROM
THE SUN, FOR THE TI
CENTRIC SUPERIOR C<
ME (0 ^
ONJUNCT
lFTER QE
ION.
0-
(
7^
y'
(
xf
y'
i
*'
y
d. h. m.
11
II
d. h. m.
^
II
d. h. m.
II
n
0 0 0
4- 0.0
-
4- 6.6
0 5 20
-+- 77.5
4-4.7
0 10 40
4-109.1
— 0.1
0 0 20
5.4
6.6
0 5 40
81.2
4.4
0 11 0
109.0
0.4
0 0 40
10.8
6.6
0 6 0
84.7
4.2
0 11 20
108.6
0.7
0 1 0
16.1
6.6
0 6 20
88.0
3.9
0 11 40
107.9
1.0
0 1 20
21.4
6.5
0 6 40
91.1
3.7
0 12 0
106.9
1.3
0 1 40
4- 26.6
.
4- 6.4
0 7 0
4- 94.0
4-3.4
0 12 20
4-105.7
— 1.7
0 2 0
31.8
6^
0 7 20
96.6
3.1
0 12 40
104.2
2.0
0 3 30
36.9
6/2
0 7 40
99.0
2.8
0 13 0
102.5
2.3
0 2 40
42.0
6.1
0 a 0
101.1
2.5
0 13 20
100.5
26
0 a 0
46,9
6.0
0 8 20
103.0
2.2
0 13 40
98.3
2.9
0 3 20
+ 51.7,
4-5,^
0 S 40
4-104.7
-H 1.9
0 14 0
4- 95.8
— 3.2
^) 3 40
56.4
5J
0 9 0
106.1
1.6
0 14 20
93.1
3.5
0 4 (V
60.9
5.5
0 9 20
107.3
1.3
0 14 40
90.2
3.7
0 4 20
65.5
SJJ
0 9 40
108.1
0.9
0 15 0
87.1
4.0
0 4 40
Ba.5
5.1
0 10 0
108.7
0.6
0 15 20
83.7
4.3
U 1 0
-f 73.6
,
Hh 4.9
0 10 20
4-109.1
4- 0.3
0 15 40
4- 80.1
— 4.5
464 JUPITER'S SATELLITES, 1856.
COORDINATES IN THE
MEAN APPARENT ELLIPSE.
1
SATELLITE I.
t
xf
y'
t
x'
y'
t
x'
1
1
± h. m.
II
II
d h. ID.
II
H
d. h. m.
u
*
0 16 0
4- 76.4
— 4.7
1 1 40
— 66.6
— 5.2
1 11 0
— 97.6
+ 3.0 !
0 16 20
72.5
5.0
1 S 0
70.8
5.0
1 11 20
95.1
3.3 :
0 16 40
68.4
5.2
I 2 20
74.8
4.8
1 11 40
92.3
3.5 1
0 17 0
64.1
5.4
1 2 40
78.6
4.6
1 12 0
89.3
3.8 ;
0 17 20
69.6
6.5
1 3 0
82.2
4.4
1 12 20
86.1
4.1
0 17 40
H- 55.0
— 6.7
1 3 20
— 85.6
— 4.1
1 12 40
— 82.7
+ 4.3
0 18 0
50.3
5.9
1 3 40
88.9
S.8
1 13 0
79.1
4.6 '
0 18 20
45.5
6.0
1 4 0
91.9
3.6
1 13 20
7.'iJJ
4.8 i
0 18 40
40.5
' 6.1
1 4 20
94.7
3.3
1 13 40
71JJ
6X» 1
0 19 0
35.5
6.3
1 4 40
97.3
3.0
1 14 0
67.1
5.2 1
0 19 20
-+- 30.4
— 6.4
1 5 0
— 99.6
— 2.7
1 14 20
— 62.8
+ 5.4 1
0 19 40
25.2
6.4
1 5 20
101.7
2.4
1 14 40
58.3
6.6 1
0 20 0
19.9
6.5
1 5 40
103.5
2.1
1 15 0
53.7
5.8 .
0 20 20
14.6
6.6
1 6 0
'105.1
1.8
1 15 20
49X)
5.9
0 20 40
9.2
6.6
1 6 20
106.4
1.5
1 15 40
44.1
6.1 .
0 21 0
4- 3.8
— 6.6
1 6 40
—107.5
— 1.2
1 16 0
, -39.1
+ 6.2
0 21 20
— 1.5
6.6
1 7 0
108.3
0.8
1 16 20
34X>
6.3 ,
0 21 40
6.9
6.6
1 7 20
108.8
0.5
1 16 40
28.9
6.4
0 22 0
12.3
6.6
1 7 40
109.1
— 0.2
1 17 0
23.7
6.5
0 22 20
17.6
6.5
1 8 0
109.1
+ 0.1
1 17 20
18.4
6.6
0 22 40
— 22.9
— 6.5
1 8 20
—108.9
+ 0.5
1 17 40
— 13.0
+ 6.6 j
0 23 0
28.1
6.4
1 8 40
108.4
0.8
1 18 0
7.7
6.6 '
0 23 20
33.3
6.3
1 9 0
107.6
1.1
1 18 20
— 2.3
6.6 I
0 23 40
38.4
6.2
1 9 20
106.6
M
1 18 40
+ 3.1
6.6
1 0 0
43.4
6.1
1 9 40
105.3
1.8
1 19 0
8.5
6.6
1 ^0 20
— 48.3
— 5.9
1 10 0
—103.8
4- 2.1
1 19 20
+ 13.8
+ 6.6 1
1 0 40
53.1
5.8
I 10 20
102.0
2.4
1 19 40
19.1
65 ;
1 1 0
57.7
6.6
1 10 40
— 99.9
+ 2.7
1 20 0
+ 244
+ 6.5
1 I 20
— 62.2
— 54
I
S
ATEI
.LITE II
•
t
X*
f
t
**
y
t
**
y 1
d. h. m.
II
u
d. h. m.
w
N
d. h. m.
M
0
0 0 0
-H 0.0
+12.2
0 10 40
+122.9
+ 8.6
0 21 20
+173.8
— 0.0
0 0 40
8.5
12.2
0 11 20
128.8
8.2
0 22 0
173.6
0.6
0 1 20
17.0
12.1
0 12 0
134.4
7.7
0 22 40
172,9
1.2
0 2 0
25.5
12.1
0 12 40
139.6
7.3
0 23 20
171.8
1.8
0 2 40
33.9
12.0
0 13 SO
144.5
6.8
1 0 0
1704
2.4
0 3 20
+ 42.2
+11.8
0 14 0
+149.0
+ 6.3
1 0 40
+168.5
— 3.0 ,
0 4 0
50.5
11.7
0 14 40
153.2
6.7
1 1 20
166.2
3.5
0 4 40
58.6
11.5
0 15 20
157.0
5.2
1 2 0
163.5
4.1
0 5 20
66.5
11.3
0 16 0
160.5
4.7
1 2 40
160.4
4.7
0 6 0
74.3
11.0
0 16 40
163.6
4.1
1 3 20
157/)
5.2
0 6 40
-4- 81.9
' +10.8
0 17 20
+166.3
+ 8.5
1 4 0
+163.2
— 5.8
0 7 20
89.4
10.5
0 18 0
168.6
8.0
1 4 40
149.0
6.3
0 8 0
96.6
10.1
0 18 40
170.5
S.4
1 6 20
144.4
6.8
0 8 40
10.3.6
1 9.8
0 19 20
171.9
1.8
1 6 0
139.5
7JI
0 9 20
110.3
1 9.4
0 20 0
172.9
1.2
1 6 40
134.2
7.7
0 10 0
+116.7
1 + 9.0
0 20 40
+173.6
+ 0.6
1 7 20
+128.6
— 8.2 1
JUPITER'S SATELLITES, 1856. 465
COORDINATES IN THE
. MEAN APPARENT ELLIPSE.
SATELLITE II
•
t
x*
y'
t
xi
y'
t
x'
y'
d. h. m.
^
II
d h. m.
u
II
d. h. m.
11
N
1 8 0
4-122.7
— 8.6
2 3 20
—103.7
— 9.8
2 22 0
—156.9
4- 5.2
1 8 40
116.5
9.0
2 4 0
110.4
9.4
2 22 40
153.0
5.8
1 9 20
UO.l
9.4
2 4 40
116.8
9.0
2 23 20
148.8
6.3
1 10 0
103.4
9.8
2 5 20
123.0
8.6
3 0 0
144.2
6.8
1 10 40
96.4
lO.l
2 6 0
128.9
8.2
3 0 40
139.3
7.3
1 11 20
H- 89.2
—10.5
2 6 40
—134.5
— 7.7
3 1 20
—134.1
4- 7.8
1 12 0
81.7
10.8
2 7 20
139.7
7.2
3 2 0
128.5
8.2
1 12 40
74.1
11.0
2 8 0
144.6
6.7
3 2 40
122.6
8.6
1 13 20
66.3
11.3
2 8 40
149.1
6.2
3 3 20
116.4
9.0
1 14 0
58.3
11.5
2 9 20
153.3
5.7
3 4 0
109.9
9.4
1 14 40
-t- 50.2
—11.7
2 10 0
—157.1
— 6.2
3 4 40
—103.1
4-9.8
I Ih 20
42.0
11.8
2 10 40
160.6
4.6
3 5 20
96.1
10.1
1 16 0
33.7
12.0
2 11 20
163.7
4.1
3 6 0
88.9
10.5
1 16 40
25.3
• 12.1
2 12 0
166.4
3.5
3 6 40
81.5
10.8
1 17 20
16.8
12.1
2 12 40
168.6
2.9
3 7 20
73.9
11.0
I 18 0
+ •.3
—12.2
2 13 20
—170.4
— 2.3
3 8 0
— 66.1
4-11.3
I 18 40
— 0.2
12.2
2 14 0
171.9
1.8
3 8 40
58.1
11.5
1 19 20
8.8
12.2
2 14 40
173.0
1.2
3 9 20
60.0
11.7
1 20 0
17.3
12.1
2 15 20
173.6
— 0.6
3 10 0
41.8
11.8
1 20 40
25.7
12.1
2 16 0
173.8
4-0.0
3 10 40
33.5
12.0
1 21 20
— 34.1
—12.0
2 16 40
—173.6
4- 0.6
3 11 20
— 2.M
4-12.1
1 22 0
42.4
11.8
2 17 20
172.9
1.2
3 12 0
16.6
12.1
1 22 40
50.6
11.7
2 18 0
171.8
1.8
3 12 40
— 8.1
12.2
1 23 20
68.7
11.5
2 18 40
170.3
2.4
3 13 20
4- 0.4
12.2
2 0 0
66.7
11.3
2 19 20
168.4
3.0
3 a4 0
9.0
12.2
2 0 40
— 74.5
—11.0
2 20 0
—166.2
4- 3.5
3 14 40
4- 17.5
4-12.1
2 1 20
82.1
10.7
2 20 40
163.5
4.1
3 15 20
26.0
12.1
2 2 0
89.5
10.4
2 21 20
—160.4
4- 4.7
3 16 0
4- 34.4
4-12.0
2 2 40
— 96.7
—10.1
S.
ATEL
LIT]
E II
I.
(
xf
y
t
x'
y'
t
x'
y
d. h. m.
II
II
d- h. m.
V
II
d. h. m.
II
n
0 0 0
-t- 0.0
4-17.4
0 21 20
4-194.7
4-12.4
1 18 40
4-277.2
4- 0.2
0 I 20
13.5
17.4
0 22 40
204.1
11.8
1 20 0
277.0
— 0.6
0 2 40
26.9
17.3
1 0 0
213.0
11.1
1 21 20
276.2
1.5
0 4 0
40.3
17.2
1 1 20
221.4
10.5
1 22 40
274.7
2.3
0 5 20
63.6
17.1
1 2 40
229.3
9.8
2 0 0
272.6
3.2
0 6 40
-4- 66.8
4-16.9
1 4 0
4-236.6
4- 9.1
2 1 20
4-269.8
— 4.0
0 8 0
79.8
16.7
1 5 20
243.3
8.3
2 2 40
266.4
4.8
0 9 20
92.7
16.4
1 6 40
249.5
7.6
2 4 0
262.3
5.6
0 10 40
105.3
16.1
1 8 0
255.1
6.8
2 5 20
257.6
6.4
0 12 0
117.6
15.8
1 9 20
260.0
6.0
2 6 40
252.3
7.2
0 13 20
4-129.7
4-15.4
1 10 40
4-264.3
4-. 5.2
2 8 0
4-246.4
— 8.0
0 14 40
141.5
15.0
1 12 0
268.0
4.4
2 9 20
240.0
8.7
0 16 0
153.0
14.5
1 13 20
271.1
8.6
2 10 40
233.0
9.4
0 17 20
164.1
14.0
1 14 40
273.6
2.7
2 12 0
225.4
10.1
0 18 40
174.7
13.5
1 16 0
275.5
1.9
2 13 20
217.3
10.8
0 20 0
4-184.9
4-13.0
1 17 20
4-276.7
4- 1.1
2 14 40
4-208.6
—11.5
59
466 JUPITER'S SATELLITES, 1856.
COORDINATES IN THE
MEAN APPARENT ELLIPSE.
SATELLITE III.
t
xf
y'
t
x*
y
(
x*
1
d. h. m.
M
If
d h. m.
N
N
d. h. m.
N
«
S 16 0
-4-199.5
—12.1
4 6 40
—158.4
—14.3
5 20 0
—255.1
+ 6.8
2 17 20
189.9
12.7
4 8 0
169.3
13.8
5 21 20
249.5
7.6 1
2 18 40
179.9
13.3
4 9 20
179.8
13.3
5 22 40
243.3
8.3 1
2 20 0
169.4
13.8
4 10 40
189.9
12.7
6 0 0
236.6
9.1 1
2 21 20
158.5
14.3
4 12 0
199.5
12.1
6 1 20
229.3
9.8
2 22 40
-M47.2
—14.8
4 13 20
—208.6
—11.5
6 2 40
—221.4
+10.5 1
3 0 0
135.6
15.2
4 14 40
217.3
10.8
6 4 0
213.0
11.1 1
3 1 20
123.7
15.6
4 16 0
225.5
10.1
6 5 20
204.1
11.8 :
3 2 40
111.5
16.0
4 17 20
233.1
9.4
6 6 40
194.7
12.4
3 4 0
99.0
16.3
4 18 40
240.1
8.7
6 8 0
184.9
13J0
3 5 20
-H 86.3
-16.6
4 20 0
—246.5
— 8.0
6 9 20
—174.7
+13.5 1
3 6 40
73.3
16.8
4 21 20
252.3
7.2
6 10 40
164.1
UJO
3 8 0
60.2
17.0
4 22 40
257.6
6.4
6 12 0
1.V3.0
14.5
3 9 20
47.0
17.2
5 0 0
262.3
5.6
6 13 20
141.5
15jO
3 10 40
33.6
17.3
5 1 20
266.4
4.8
6 14 40
129.7
154
3 12 0
-+- 20,2
—17.4
5 2 40
—269.8
— 4.0
6 16 0.
—117.6
+15.8
3 13 20
-+- 6.7
17.4
5 4 0
272.6
3.2
6 17 20
105J
16.1
3 14 40
— 6.8
17.4
5 5 20
274.7
2.3
6 18 40
92.6
164
3 16 0
20.3
17.4
5 6 40
276.2
1.5
6 20 0
79.8
16.7
3 17 20
33.7
17.3
5 8 0
277.0
— 0.6
6 21 20
66.8
16J»
3 18 40
— 47.1
-17.2
5 9 20
—277.2
+ 0.2
6 22 40
— 53.6
+17.1
3 20 0
60.3
17.0
5 10 40
276.7
1.1
7 0 0
40.3
17.2 1
3 21 20
73.4
16.8
5 12 0
275.5
1.9
7 I 20
26.9
17.3^ I
3 22 40
86.3
16.6
5 13 20
273.7
2.7
7 2 40
— 13.4
174
4 0 0
99.0
16.3
5 14 40
271.2
3.6
7 4 0
+ 0.1
174 1
4 1 20
-111.5
—16.0
5 16 0
—268.1
+ 4.4
7 5 20
+ 13.6
+174
4 2 40
123.7
15.6
5 17 20
2644
5.2
7 6 40
27J0
17J .
4 4 0
135.7
15.2
5 18 40
—260.1
+ 6/)
7 8 0
+ 404
+17.2
4 5 20
—147.2
—14.8
S
ATEI
.LIT
E I\
r
•
1
t
x'
y
t
xf
y
t
x*
y
d. h.
i»
»
d. h.
M
N
d. h.
w
•
0 0
4- 0.0
-+-34.8
2 0
+332.3
+25.5
4 0
+496J
+ 23
0 3
22.8
34.8
2 3
348.6
24.3
4 3
487.3
+ 0.8
0 6
45.6
34.7
2 6
364.1
23.1
4 6
487J
— 0.8
0 9
68.3
34.5
2 9
378.9
21.9
4 9
486.3
2.4
0 12
90.9
34.2
2 12
392.9
20.6
4 12
484J
4.1
0 15
+113.2
-h33.9
2 15
+406X)
+19.3
4 15
+480^
— 5.7
0 18
135.3
33.5
2 18
418.2
17.9
4 18
476.6
7-3
0 21
157.1
33.0
2 21
429.5
16.5
4 21
471.3
8.9
1 0
179.5
32.4
3 0
439.8
15.0
5 0
465.0
104
1 3
199.6
31.8
3 3
449.1
13.5
5 3
457.7
12.0
1 6
-4-220il
-+-31.1
3 6
+457.5
+12.0
5 6
+449.3
—133
1 9
240.4
30.3
3 9
464.9
10.5
5 9
4.39.9
Mja
1 12
260i)
20.5
3 12
471^1
8.9
5 12
429.6
164
1 15
279i)
28.6
3 15
476.6
7JJ
5 15
418.4
17.9 ,
1 18
2974
27.6
3 18
480.8
5.7
5 18
406J
19.3
1 21
+315.2
+26.6
3 21
+484.0
+ 4.1
5 21
+393.1
— «o.«
JUPITER'S SATELLITES, 1856. 467
COORDINATES IN
THE
MEAN APPARENT ELLIPSE.
SATELLITE IV.
t
x'
y'
t
x'
y'
t
x'
y
d.
h.
II
M
d
h.
«
II
d.
h.
n
N
6
0
-1-379.2
—21.9
9
18
—240.1
—30.3
13
12
—457.6
+12.0
6
3
•364.4
23.1
9
21
259.7
29.5
13
15
449.3
13.5
6
6
348.8
24.3
10
0
278.7
28.6
13
18
440.0
15.0
6
9
332.5
25.5
10
3
297.2
27.6
13
21
429.7
16.4
6
12
315.4
26.6
10
6
315.0
26.6
14
0
418.5
17.8
6
15
+297.6
—27.6
10
9
—332.1
—25.5
14
3
—406.3
-hl9.2
6
18
279.2
28.5
10
12
348.4
24.4
14
6
393.2
20.6
6
21
260.2
29.4
10
15
363.9
23.2
14
9
379.3
21.9
7
0
240.6
30.3
10
18
378.7
21.9
14
12
364.6
23.1
7
3
220.5
31.1
10
21
392.7
20.6
14
15
349.1
24.3
7
6
-f-199.9
—31.8
11
0
—405.8
—19.3
14
18
—332.8
+25.4
7
9
178.8
32.4
11
3
418.0
17.9
14
21
315.7
26.5
7
12
157.4
33.0
11
6
429.3
16.5
15
0
298.0
27.5
7
15
135.6
33.5
U
9
439.6
15.0
15
3
279.6
28.5
7.
18
113.5
33.9
11
12
449.0
13.5
15
6
260.5
29.4
7
21
-t- 91.2
—34.2
11
15
—457.4
—12.0
15
9
—240.9
+80.3
8
0
68.7
34.5
11
18
464.8
10.5
15
12
220.8
31.1
8
3
46.0
84.7
11
21
471.2
8.9
15
15
200.2
31.8
8
6
23.2
34.8
12
0
476.5
7.3
15
18
179.2
82.4
8
9
-t- 0.3
34.8
12
S
480.8
5.7
15
21
157.7
33.0
8
12
— 22J&
—34.8
12
6
—484.0
— 4.1
16
0
—135.9
+33.5
8
15
45.3
34.7
12
9
486.2
2.5
16
3
113.8
33.9
8
18
68.0
34.5
12
12
487.3
— 0.8
16
6
91.5
34.2
8
21
90.5
34.2
12
15
487.3
H- 0.8
16
9
69.0
34.5
9
0
112.9
33.9
12
18
486.3
2.4
16
12
46.3
34.7
' 9
3
— 135.0
—33.5
12
21
—484.2
-t- 4.0
16
15
— 23.5
+34.8
9
6
156.8
33.0
13
0
480.9 ! 5.7
16
18
— 0.6
34.8
9
9
178.2
32.4
13
S
476.6 1 7.3
16
21
-+- 22.2
34.8
9
12
199.3
31.8
13
6
471.3 i 8.9
17
0
H- 45.0
+34.7
9
15
—220.0
—31.1
13
9
—465.0 H-10.5
!i^-»
468
SATURN'S RING, 1856.
THE APPARENT ELEMENTS OF SATURN'S RING.
i
■.
P
loclination of
I
V
u
u' i
a
h
Northern
The Heration
TheEIeTation
Euth's Longitude from Satoni |
Sid«real
Outer
Outer
of the Earth
of the Sun
counted on
Plane of Ring |l
Date.
}&»iat
Minor
Ajd« to Circle
above the
aborethe
from the IUng*s A*> 1
Oh.
Ajdi.
Axis.
of Declination
Plane of the
Plane of the
oending Node oo ■ |
frcm North
King.
Ring.
1
to Eut.
Equator.
EoUptk.
0
46.57
20.92
O 1
—6 5.6
O 1
—26 41.5
O 1
—26 4 1 8
O 1
142 14.3
O 1 1
98 49.6 '
20
45.78
20.67
5 58.1
26 50.1
26 39.5
140 38.9
97 15.2
40
44.49
20.16
5 53.9
26 57.0
26 36.9
139 44.2
96 20.7 ,
60
43.01
19.55
5 53.1
27 2.6
26 34.0
139 32.9
96 94 1
80
41.37
18.82
5 56.0
27 3.6
26 30.9
140 15.0
96 41.6
100
39.96
18.17
6 3.5
27 2.4
26 27.4
141 40.3
98 16.9 1
120
38.82
17.60
6 13.8
26 57.2
26 23.7
143 42.2
100 19.9 '
140
38.00
17.13
6 25.5
26 47.1
26 19.6
146 12.5
102 49.3
160
37.53
16.77
6 37.7
26 32.5
26 15.3
148 55.6
105 32.5
180
37.41
16.50 .
6 49.3
26 10.7
26 10.7
151 47.3
106 24.2
200
37.64
16.40
6 59.3
25 49.8
26 5.8
154 36.6
HI 13.6
220
38.23
16.40
7 7.6
25 24.5
26 0.6
157 13.8
113 50.9
240
39.14
16.54
7 13.9
25 0.2
25 55.2
159 30.3
116 75
260
40.37
16.84
7 17.9
24 39.8
25 49.5
161 16.4
117 53.6 ;
280
41.83
17.30
7 20.8
24 25.6
25 43.5
162 25.9
119 2.2
300
43.40
17.90
7 21.6
24 21.7
25 37.2
162 47.7
119 24.1
320
44.89
18 57
7 20.9
24 26.6
25 30.7
162 27.3
119 4.8
340
46.05
19.22
7 17.8
24 40.2
25 23.9
161 25.6
118 3.1 1
360
46.63
19.74
7 14.6
25 2.5
25 16.8
159 44.6
116 22.9
365
46.75
19.86
—7 13.8
—25 8.6
—25 15.0
159 16.8
115 54.4
I
^actor which is to be multiplied by a and 6 to obtain the axes of
1
1
The inner ellipse of the outer Ring = 0.8801 log. Fa
ictor » 9.9442
\
The outer ellipse of the inner Ring » 0.8599 <*
^ 9.934^
I
The inner ellipse of the inner Ring = 0.6650 **
»9.822C
\
The inner eUipse of Bond's dusky Ring = 0.5486 **
— 9.7395
1
rthem or toathen
1
1
THE APPARENT DISCS OF VENUS AN
D MARS.
1
The Vf ned 8iii6S of their lUnmimted PorUons, dirided by their
Ipparent Diametm. \
1
856.
nary 15
Tenoi.
Man.
1866.
ly 15
Tenoa.
1.000
Mara.
Jan
0.656
0.907
Ju
0.870 '
Fei;
ruary 15
0 759
0.935
August 15
0.992
0.879
Mai
•ch 15
0.838
0.985
September 15
0.964
0884 ;
Apr
il 15
0.903
0.991
October 15
0029
0.900
Ma^
f 15
09.52
0.933
November 15
0.864
0.919
Jun
e 15
0.986
0.886
December 15
0.792
0.938
PHENOMENA, 1856.
469
WASHINGTON MEAN TIME.
PLANETARY CONSTELLATIONS.
d.
h. m
Jao. 3
14 15
3
19 33
6
10 29
7
13 18
10
8 67
11
5 1
11
19 9
15
16 18
18
12 2
24
18 42
27 21 25
30
19 8
Feb. 1
11 4
2
17 4
4
8 51
5
19 0
6
17 21
7
2 40
7
9 41
7
15 27
11
22 23
14
15 39
14
16 58
16 23 8
22 23 1
23 20 37
24
12 29
29
3 60
March 2
11 24
3
15 26
4
6 35
5
1 30
6
0 37
6
4 10
7
4 30
10
7 40
12 22 18
13
1 58
U
12 31
16
19 0
17
7 0
19-
8 28
19
16 41
22
8 29
30
9 28
April 1
8 U
2
0 5
2
11 4
2
16 52
2 22 31
(J in Aphelion. ^ ,
(59C 9 + 5 22
9 greatest Hel. Lat. N.
<JSC 84-254
6 ^<L :j^4-3 30
6 WC . . . . . W-f-2 42
$ greatest Hel. Lat. S.
(5VC ^— 158
6h<L >z — 6 15
9 siationary.
6 S<L ^-f-S 0
g inQ
$ greateat elong. E. 18 17
<J 9 <C 9 -h 6 13
^ in Perihelion.
□ ¥ O
<J5(C g-h6 24
6 21<L :!^4-3 2
^ stationary.
<5 y;(C t|;+226
(59C 9 — 2 13
6 h<L b-5 19
$ greatest Hel. Lat. N.
<J g O Inf.
1^ stationary.
(J stationary.
(5cJ<C.....<J-4-3 0
g stationary.
9 in S
<J9<C 94-6 10
6 ^ € 54-6 6
621Q
6 4(L 2^-h2 33
6^<L W"*- 2 ^^
5 in 8
(J^C 9 — 2 29
6>2C >2— 5 26
D h O
a preat. elong. W. 27 39
62i\ii :y4-o 2
1^ in Perihelion.
g in Aphelion.
O entera^f*, spring begins.
($5^ 5-1 28
6 ^ 21 5-1??
<59C 9-4-2 17
<ju;c u;4-2i6
6 2t€ JH-h^ 0
April
May
June
d.
h.
m
3
0 51
4
5
16
15
6
19
49
8
18 25
9
8
12
9
9
8
17
16 56
19
26
2 27
27 18 24
28
7 54
30
3 25
30
18
19
2
8
7
2
9 54
2
14
34
4
9
0
4
15 54
6 23
9
10
18
12
12
16
14
14
10
2
14
15
10
26
10 24
26
18
12
27
11
13
27
18 21
28
10 40
31
21
6
1
7 56
3
14
26
3 20
7
6
3 45
8
1
44
11
8
16
12
12
17
14
16 45
15
7 43
16
12 48
20
13 30
20
19
50
23
9
0
23
14
37
23
17
5
24
9
1
24 23
4
25
10
8
28
6 58
28
17 22
<J5C 5-1-0 20
O Eclip. invis. at Wash'n.
9 in Aphelion.
6 ^ € M — 2 40
5 greatest Hel. Lat. S.
6 9 21 9-0 27
6 h € h — 6 31
6 S <C <j4-0 43
C Kclip. vis. at Waah'ton.
(5 5© Sup.
5ina
9 greatest Hel. Lat S.
6W(L U?-+- 2 12
6 21<C 5-hl22
5 in Perihelion.
(59<r 9 — 129
<J5¥ 54-1 11
6 V € V — 2 46
<55C 5 — 135
6 h€ >z — 5 30
<J ¥ O
5 greatest Hel. Lat. N.
3 stationary.
6 S € <J-0 58
5 greatest elong. £. 22 57
<59¥ 9 — 0 47
6 t^C y;-l- 1 58
<5 5>z 5-h2 25
6 Jnc: :j^-i-0 40
6 ^ € .....¥ — 2 64
6 9 € 9-3 58
6 h€ h — 5 29
<J5<C 5 — 4 31
5 in^
5 stationary.
6 i€ (J - 1 23
D y;©
5 in Aphelion.
<55>Z 5-2 21
© enters 25, sum'r begins.
6 5 ©
IJJ stationary.
9 in a
6^€ W-+- ^ *3-
6 hO
62l(L 2^-0 3
(559 5-t^2
<5«[C ¥-3 7
470
PHENOMENA, 1856.
WASHINGTON MEAN TIMfi.
PLANETARY CONSTELLATIONS.
d. h. m
June 30 15 3
30 18 3R
July 1 6 7
1 6 2
1 17 31
Aug.
2 7 24
5 17 41
9 15 42
11 15 18
13 11 44
18 3 31
19 11 30
20 22 48
22 7 62
24 17 40
25
27
28
29
29
14 33
0 52
18 7
2 20
7 21
Sept.
30 6 7
31 8 25
7 7 24
8 15 31
8 16 33
16 1 0
17 2 18
17 6 18
18 2 30
18 14 10
21 21 0
25 5 7
29 16 56
30 18 9
31 10 1
1 3 2
5 3 17
11 6 58
13 15 29
14 18 21
18 4 0
21 14 33
21 23 29
22 3 45
26 U 18
g (C
9 h
h(C
9 C
O in Apogee.
g — 9 11
9-1-10
>^ — 5 31
9 — 4 31
g stationary.
§ greatest Hel. Lat. S.
6 S (L <J-0 44
D (f O
g great, elong. W. 20 27
(J 8 h . . .
(5 9© Sup.
S inQ
g — 0 47
jti
6 V € V — 3 24
9 in Perihelion.
6 hd h-^ 38
21 stationary,
g in Perihelion.
<5 8 (C . .
<5 9 <C . .
g frreatestHel
6 5© Sup.
g — 4 6
9 — 3 33
<J-h 0 33
.Xat. N.
0 11
<5 8 9
D ¥ ©
6^(L W-h 1 18
9 frreatest Hel. Lat N.
6 Jll€ :j^— 0 56
J? € ....
h(C
9 stationary.
9 €
g (C
9 — 3 40
>2 — 6 49
9 — 1 13
g — 1 43
8 in 8
6 i (C ^-t-l 56
§ in Aphelion.
6^€ U^-4-l 19
6 J!t€ JJf — 0 60
9 (C 9 _ 3 49
l2 (C . . . . i^ — 5 57
g greatest eloug. E. 26 4
enters ^, autumn begina
0 enU
^©
28 - - O I'^'Clip. invis. at Wash'n
30 7 25 (5 9 (C 9 4- I 50
30 14 221 ^ 5 C 8 — 2 7
Oct. I 16 57| g greatest Hel. Lat. S.
3 18 47j <J § 9 g — 4 11
Oct.
Nov.
Deo.
d. h. m
4 0 40 <J ^ C . . . .
4 23 19, § stationary.
(J-*-3 3
6
11
12
6 25
1 21
0 41
13 - -
15 12 27
16 21 5
18 23 16 3 h C
20 16 65 8 in Q
25
25
6 37
8 20
25 16 40
26 17 55
30 16 39
1 14 45
1 22 14
4 14 43
7 10 11
8 6 50
11 21 63
14 10 0
15 7 46
16 7 67
17 7 0
18 9 33
24 2 11
26 9 11
27 10 0
28 2 15
29 19 65
31 19 49
4 17 6
5 14 19
8 6 15
0 4
6 35
D h ©
<J y;(C •.tj?^- 1 25
6 2l€ J/-0 27
C Eclip. partly vis. at W.
6 ^ (L V — 3 47
6 8 © Inf.
- - >^ — 6 68
^ in Perihelion.
^ stationary.
I2 stationary.
(58<C 8-H8 8
6 9 € 9 — 3 18
$ greatest clong.W. 18 42
i€ ^ -I- 3 40
greatest Hel. Lat. N.
C W-^ 1 35
€ Ji^-hO 9
6 J»(L V — 3 41
* ¥ ©
6 h(L Iz- 660
9 in Aphelion.
21 greatest Hel. Lat. 8.
greatest Hel. Lat. S.
stationary.
8 C g -t- 3 62
W stationary. ,
8 inS
9 €
$(C
9 -H 3 16
>-h3 42
W-h I 14
jf — 0 12
,9 11 27
11
12
2 5
4 15
6
6
6
^ in Aphelion.
9 greatest Hel. Lat. S.
(5 V (C V — 338
<$ 8 © Sup.
D UJ©
^ in Perihelioo.
12 15 36 <J >z <C Ij — 5 40
20 21 31 Q enters 'V5,winier begins.
21 7 0; 7^ in Perihelioa
21 11 14 D 5 ©
27 11 29 <J 9(C 84-850
27 22 48 <J
28 16 12
29 17 53 i
29 19 21 i
31 10 38 f I2 O
9 S 9 - 0 45
^ greatest Hel. Let. S.
<JC <J-h3 3
9 c 9 -h a n
LATITUDES AND LONGITUDES OF THE PRINCIPAL
OBSERVATORIES.
COMPILED BY DR. B. A. GOULD.
Having been requested by Lieutenant Davis to arrange for the Astronomical
Ephemeris a Table of Latitudes and Longitudes of the principal Observatories, I
have devoted some time and attention to the critical preparation of this catalogue.
But since the values decided upon difier considerably in many cases from those in the
other published catalogues, and in some few instances from the values which appear
to be made use of at the Observatories themselves, I feel some hesitation in publish-
ing them without asking the attention of astronomers to the catalogue, that such inac-
curacies as it may contain may be corrected as speedily as possible. The sources
of information are given in each case, and when possible the probable error also is
given with the determination. One important change consists in the adoption of the
differences of longitude between Altona and Pulkowa, and Greenwich and Altona, as
determined by S truve in his chronometric expeditions of 1843 and 1844. The adop-
tion of these values necessarily implies a corresponding change for the longitude of
those Observatories whose position has been fixed by their diiference of longitude
from Altona or Pulkowa, or from other Observatories dependent upon these. The
differences of longitude of the American Observatories are deduced from the tele-
graphic determinations of the United States Coast-Survey, — and have been commu-
nicated by Professor Bache, by authority of the Honorable Secretary of the Treasury.
I have endeavored to include in the list all Observatories now in a state of astro-
nomical activity, or which have been so within the last quarter of a century. Any
corrections or additions with which astronomers may favor me will be gratefully
acknowledged.
Abo. . . . N. Lat. 60° 26' 56".8 ± O".!!. Abgelandeb, Ohs. Astron., I p. xxi.
Long. E. from Paris, !"• 19" 47*-.3. Astr. Nachr.y IX. 264.
This Observatory was abandoned, and the instruments transferred,
together with the University of Finland, to Helsingfors, in conse-
quence of the great fire of 1827, by which the University buildings,
library, d^c. were destroyed.
Altona. . . N. Lat. 53** 32' 45".27. Gauss, Besiimmung des Breiten-Unler-
schiedes zwiscfien den Stemwarlen von Gottingen und Altona^ p. 71.
In the edition of Schumacher^s Hulfstafeln^ published by Warn-
STORFF, Altona, 1845, the latitude of Altona is given p. 114, as
+53° 32' 45 '.7.
472 THE PRINCIPAL OBSERVATORIES-
Long. E. from Greenwich, 0^- 89'»- 46^.151 ±0^.042. Strttvb, Eg-
pldition Chronomelrique execuUe in 1844, entre Altona ti Greenr
wich, p. 206.
Atlum . . N. Lat Sr 58' 20" dz 1". Boubis, Astr. Nachr., XXXIH. 197.
Long. E. from Paris, 1*" 26" 34' .23 ± l*-. Ergdnzungs-Hefi xu den
Astr. iViacAr., 1849, p. 151. This longitude was obtained from
moon-culminating stars observed on ten nights at Athens and Ham-
burg. The result of a series observed at Athens and Copenhagen
gave the longitude of Athens 6' .84 farther East, but this series was
rejected. Ibid.^ pp. 150, 151, 158. Diminishing the E. longitude of
Hamburg in conformity with Struve's chronometric determination,
we have for the longitude of the meridian-circle l**- 25"* 33* .73
The centre of the Observatory is 0''.19 W. from the meridian-
circle, Erg.'Hefi z. d. Astr. JVacAr., p. 152.
Berlin. . . N. Lat 52*» 30' 16".68 ±0".2. Encke, Astr. Nackr.,XKm. 3^2.
For the Longitude of the centre of the Observatory, we have
h. m. •.
Berlin E. from Altona, 0 13 48.78 ±0.03 Berl Astr. Jahrb.^
Altona E. from Greenwich, 0 39 46.15 [1839, p. 275.
Berlin " " 0 53 34.93
The old Observatory was situated 0' 56".72 North (Berl. Astr.
Jahrh,, 1839, p. 242 ; Astr. Nachr., XXIH. 370), and 0^.39 Wert
(Ibid.^ pp. 261, 265), of the new one. Hence we have for the old
Berlin Observatory,
N. Lat., 52* 31' 13".4.
Long. E. from Greenwich, 0*"- 53"- 34*^.54*
Bilk. . . . N. Lat bV 12' 25". Astr. Nachr., XXVH. 300.
Long. W. from Berlin, O*"- 26" 80* .0. Ibid.
Bono. . . . N. Lat 50** 43' 45".0. ) Orally communicated by Prof.
Long. E. from Paris, 0*** 19"^ 8*'.0. i Aroelandbr to the compiler.
The provisional Observatory on the ** Alter Zoll,^^ in which were
made the observations published in Vol. I. of the Bonn series, was
situated in
N. Lat. 50** 44' 9".
Long. E. from Paris, 0*" Id'^ 5^5. Bonn Astr. Beobb,, L p. i.
Bietlin. . . N. Lat. bV 6' 56".0. (MS. communication from Professor Bogu-
8LAW8KI to Professor Enckb.) JBcr/. -4^/r. JoArft., 1852, p. 289. The
value given in the Berl. Jakrb, previously to 1851, was 51^ 6' SO^'.O.
The Longitude given in the table is derived from a mean of four de-
terminations of the longitude E. from Paris, viz. : —
THE PRINCIPAL OBSERVATORIES.
473
Brnssels. . . .
Cambridge (Eng.).
Cambridge (Ian.).
Cape of Good Hope.
Christiania.
CineiiuiatL .
Triangulation in 1805 (fire-signals), Astr, Nachr,^ h. m •.
XVI. 371, 0 58'48J5
Steczkowski (6 star-immersions), Ihid,^ 48.17
Hansen (occultations), Astr Nachr., XVII. 170. 48.74
Erman and Petersen (meteors), Astr. Nachr.^
XIX. 27, 48.67
Mean, Breslau E. from Paris, 0 58 48.54
Annales de VOhs. de Bruxelles^ 1837,
QuETELET, M6m» de
N. Lat. 50** 51' 10'^7
p. 264.
Long. W. from Greenwich, 0^- 17"- 27'-.6.
VAcad. R. de Bruxelles, XVI. 18.
N. Lat. 52^ 12' 51".76. Camh, Phil Trans.,Y, 279.
Long. E. from Greenwich, 0^- 0"- 23^54. Ilnd., III. 168.
N. Lat. 42* 22' 48".60. Peirce, Mem. Amer. Acad., N. S., H. 203.
Long, by the telegraphic determination^ of the U. S. Coast-Survey,
Cambridge E. from Stuyvesant Garden, N. Y., y^, m
By 34 sets of clock-signals, 0 1126.10
" 10 " " star-signals (Western), 26.18
" 24 " " " (exchanged E. and W.), 25.96
" 17 " «' " (Eastern), 26.18
Mean, 0 11 26.09
Geodetic reduction to dome of Cambridge Observa-
tory, —0.02
Stuyvesant Garden E. of Jersey City (geodetic), 0 11.93
Cambridge E. from C. S. Station, Jersey City, 0 11 38.00
Jersey City E. from Washington (see Philadelphia), 0 12 3.54
Cambridge (dome) E. from Washington, 0 23 41.54
S. Lat 33** 56' 3". Henderson, Mem. R, Astr. Soc, VI. 130.
Long. E. from Greenwich, h. m. s
By Greenwich Observations, 1 13 56.1 Ibid.y p. 126.
" Cambridge
** Abo
** Edinburgh
Mean,
N. Lat 59* 54' 43".7.
Long. E. from Paris, 0^- SS"- 33'-.
N. Lat 39* 5' 54". Astr. Nachr., XXIII. 313.
Long. W. from Washington, tf*- 29"- 46' .85. (U. S. Coast-Sur-
vey.) Proc. Amer. Assoc, for Adv. Science^ Cincinnati, I85I5
p. 118.
60
55.04
li
p. 127.
58.56
11
p. 128.
54.2
ii
p. 129.
1 13 56.0
IAstron. Joum.. II. 178.
474 THE PRINCIPAL OBSERVATORIES.
CopenlUffll* By Copenhagen Observatory is usually understood the " Round Tower **
of the University. The new instruments are, however, mounted in a
temporary wooden building known as '^ Hoikens Bastion.*' (See AMtr.
iVacAr.,XIX. 119).
N. Lat of the Round Tower, 55** 40' 53".0. AUr. Nachr., V. 366.
For the Longitude,
Hoikens Bastion E. from Altona, h. m. •.
Hansen {Astr. JVocAr., VIII. 281), 0 10 32!585 139.88
Schumacher {Astr. JVacAr.,.lX. 463), 82.565 19.42
Mean, 10 32.583
Altona E. from Greenwich, 39 46.151
Hoikens Bastion E. from Greenwich, 50 18.734
Round Tower E. from Hoikens Bastion
( WuEM, Astr. Nachr., UI. 438 ; V. 337), 0.57
Round Tower E. from Greenwich, 0 50 19.30
Cfieow . N. Lat. 50** 3' 50".0±0.09. WEi88E,il*<r.iVacAr.,VIIL 175; XVL
256.
Longitude E. from Paris,
Meanof 18ob8.byWuBM(-45(r.iViicAr.,VIII. ^ ^ ^
459), <6 of the 25 being rejected), 1 10 28.986 ±0.461
Mean of 25 obs. by Steczkowski (Astr.
Nackr., XVI. 352), 20J221 ±0.301
Mean of 4 obs. by Steczkowski (Astr. Nachr.^
XVUI.332), 29.760 ±0.0i6
Mean of 16 obs. of three occultations (Stecz-
kowski, Astr. Nackr., X. 232), 30.95 ±0.253
Assigning to each of these determinations a
weight proportional to the number of obser-
vations from which it was derived, we obtain
the mean,
Cracow E. from Paris, T 10 29.78
BnpiL . . N. Lat. 58^ 22' 4r'.05. Stbuve, Observ. Astron., VI. p. Ix.
Long. E. from Paris, 1 3f'32/70. Wurm, Astr. Nackr., III. 437.
33.5 Bessbl, " m. 46.
Mean, 1 87 33.1
Mill. . • N. Lat 53^ 23^ 13''.
Long. W. from Greenwich, 0^ 25'^ 22^. Astr. Nackr., X. 274.
• N. Lat 54^ 46' 6".4.
Long. W. from Greenwich, 0^ 6-- 18^.0. Asir. Nackr., XXVL 216.
THE PRINCIPAL OBSERVATORIES.
475
BdinbOI^ . N. Lat. 55*» 57' 23"iJ.
Long. W. from Greenwich, (f^ 12"- 43^.0. Edinh. Observ.^ X. p, r.
Florence. . N. Lat. 43^ 46' 40".8. Zach, Corresp, Astron.^ L 15.
Long. E. from Paris, C^- 35'»- 40^.2. Ibid,, p. 14.
O t If m
Geneyo. . . N. Lat by observations of pole-star, 46 11 58.72 ±0.1
" " " nadir-point, 58.97 db 0.1
Mean, 46 11 58.84 Plantamour, JIfim.
dt la Soc. dt Physique et d'^Hist. NaL de Geneve, XI. 15.
Long. E. from Paris, tf*- 15- 16*^.22. Astr. Nackr., XX. 7.
GeorptoWB. N. Lat. 38** 54' 26". 1. Astron. Joum., I. 69.
Long. W. from Washington, C^- O"- 6^.20. Astron. Joum., 1. 70.
GottinpOt • Gauss found, Best. d. BreiU-TJntersch,, p. 71, for the N. Latitude of the
meridian-circle, 51** 31' 47".85, with the weight 60.9.
The Longitude of the same Gauss found (Ibid.) by his trigonometrical
survey to be West of the meridian-circle in Altona by 7.211 Paris
Toises. Usmg Bessel^s data we find 1** = 148.33 Toises, whence we
have,
Gottingen West of Altona,
Altona East of Greenwich,
Gottingen East of Greenwich, 0 39 46.102
For the old Observatory,
Lat = +5r 31' 55".6. Monatl. Corr., XXVII. 483.
Long. E. of Paris, tf*- 30- 25'^.2. Astr. Nackr., U. 407, 408.
GothiL . . (Seeberg.)
N. Lat 50** 56' 5". 19. Gauss, Best. d. Breit. -Untersch., p. 80.
For the Longitude E. from Paris,
WuRM found by 11 occultations (Astr. Nachr., .
h. m. 8.
0 0 0.049
0 39 46.151
II. 405),
0 33 34.8 d= 0.18
ITERS found (Astr.
iVacAr.,V. 68]
),
nrsighu
Seeberg East from AUona,
3
10.2
2
i( 11
Gottingen,
3
8.9
15
West "
Konigsberg,
39
5.6
18
East «
Paris,
33 34.3
24
West "
Vienna,
22 38.0
17
Whence, using the present data,
we find.
Seebei^ E, from Paris,
0 33 33.66
Mean, 0 33 34.2
For the Observatory attached to Professor Hansen's house,
Long. E. from Paris, 0^- 33"* 30''.046. ScuukacbeRj Astr. Naekr.^
XXm. 263.
4T6
THE PRINCIPAL OBSERVATORIES.
Greenwich.
Hamburg.
Hndioi.
Kasan. . .
lonipberg. .
IraDflnnnster.
N. Lat. 5r 28' 38".2. Aiey, Mem, Astr. Soc, XVIL p. 49.
Long. W. from Paris, 0" 9" 2 1'. 46 db 15. Henderson, Phil.
Trans., 1827, p. 286. See also Washington.
N. Lat. 53® 33' 7", by geodetical connection with Altona. Preface
to RuMKER^s Catalogue,
The Longitude given in the table is derived thus :
Hamburg E. from Altona (Hansen, Astr. Naehr.y h. m. ■.
VIII. 277), 0 0 7.41
Altona E. from Greenwich (Struve, Exp, Chron.
de 1844), 0 39 46.15
Whence Hamburg E. from Greenwich, 0 39 53.56
N. Lat. 4V 14' 42".6. Loomis, Trans, Am, Pkil Sac, N. S., X. 61,
Long. W. from Philadelphia (U. S. CJoast-Survey),
h. ra. •.
By 3 sets Eastern clock-signals, 0 25 5.72
" 2 " Western " 5.68
Philadelphia E. from Washington,
Hudson W. from Washington,
0 25 5.70
7 33.64
0 17 32.06
Professor Loomis deduced from moon*culminations,
Hudson W. from Greenwich, 5'' 25™* 41'*.3. Astr. Jowm.^ L
67.
N. Lat. 55® 47' 23".l. Astr. Nachr,, XXVIII. 47.
Long. E. from Berlin, 2^ 22™ 57' .0. Berl, Astr. Jahrh., 1854, p. 293.
N. Lat. 54® 42' 50."4. Bessel, Astr, Nachr., I. 248.
Long. E. from Paris, 1 12 38.8 Wurm, Astr. Nachr,, HI. 437.
38.93 Bessel, " III. 46.
Mean, 1 12 38.9
N. Lat. 48® 3' 23 ".81 ±0".03. Asfr. Nachr, XXXVII. 271.
Long. E. from Paris, 0** 47™ 11' .96. Schumacher, Astr. Nackr.^
XXIII. 263.
leipsie. . . (Pleissenburg.)
N. Lat. D'Arrest, Astr, Nachr,, Wri-hu
XXVIII. 148, 51 20 20'!7 ±0.36 26.37
D'Arrest, Astr, Nachr,, XXVIH. 160, 20.4
Long. E. from Greenwich, O*' 49™ 28'-.5.
kyden. . . N. Lat. 52® 9' 28'M6 db0".15 ) Kaiser, il«/r. iVocAr.,
Long. E. from Paris, O*' 8™- 35\97 rt0'.19 > XVII. 100.
UTIipooL • N. Lat. + 53® 24' 4r'.72. M, Notices Astr. Sac. XIII., 247.
Long. W. from Greenwich, 0^ 12™ 0^.11 NauLAlm., 1852, p. 59a
THE PRINCIPAL OBSERVATORIES.
477
londoilf • (Mr. Bishop^s Observatory.)
N, Lat bV 31' 29".8. Astr. Obs. at the Observatory South Villa,
p. xix.
Long. W. from Greenwich, (f^ 0"- 37^.1.
Nadrai. . N. Lat 13** 4' 9".2.
Long. E. from Greenwich, 5^ 20"- 57^. Taylor, Madras General
Catal., 1844, Pref. p. ii.
Mamdieim. N. Lat. 49^ 29' 12".9. Astr. Nachr., XH. 129.
Long. E. from Paris, as determined
By WuRM, from occultations {Astr. Nachr.y VIII. 458), 0 24 29.92
" connection with Strasburg {Astr. Nachr., XV. 280), 29.87
" " " Vienna {Astr. Nachr., XV. 279;
XXra. 263), 30.28
By connection with Dunkirk (Muffling, Astr. Naehr.,
XV. 279), 30.05
By Olufsen from Solar Eclipse {Astr. Naehr., XXII. 234), 80.10
Mean, 0 24 30.04
Markrec. . N. Lat. 54** W 31".72. Astr. Joum., II. 12.
Long. W. from Greenwich, 0** 33»- 48' .4. Naut. Aim., 1852, p. 598.
MaPSCillcs. N. Lat. 43* 17' 49". Monatl. Corresp., XIII. 139.
Long. E. from Paris, according to
LiNDENAU {Monatl. Corr., XIX. 421),
WuRM {Monatl Corr., XXVI. 185),
" {Astr.Nachr.^lY.^),
Innes {Astr. Nachr.j VIII. 435),
Mean,
Milan. . (Brera.)
N. Lat 45* 28' 0".7. Corresp. Astron., V. 300 ; Effem. Astr. di Mi-
lano, 1846, App., pp. 73-86.
Long. E. from Paris,
Daussy found from 31 6ccultations {Conn. d. Temps, h ,„ s.
1836,^44., p. 131), ^ ^ 0 27 2^91
LiTTROW found Milan W. from Vienna {Ibid.), 28 45.63
56 11.07
0 27 25.44
Mean, 0 27 25.18
Modena. . N. Lat 44*^ 38' 52".75. Biaucbi, Astr. Nachr., XVI. 221 ; Atti del R.
Osserv, di Modena, I. 336 (1834).
Long. E. from Milan, O"* 6- 55^ .99. Id., p. 337.
Hence E. from Paris,
No. Obi.
4
h. m. a.
0 12 7.7
19
7.6
12
7.5
4
7.05
0 12 7.53
478 THE PRINCIPAL OBSERVATORIES.
h. m. ■.
By comparison with Milan, 0 34 20.45
WuRM from occultatioDs, 23.5 Astr.Nachr.^l. 504.
" " " 24.5 ** IIL222.
Steczkowski from occultations, 21.81 " XVI. 299, 302.
Olufsen from solar oclipse, 22.32 " XXIL 234.
Mean, 0 34 22.51
lOMOW. . N. Lat 55'' 45^ 19".6. Scbweizer, Astr. Nachr., XXVIL 215.
h. m. 8.
Long. Moscow E. from Pulkowa, 0 28 58.2 Astr. JVodbr., XXIV. 90.
Pulkowa E. from Greenwich, 2 1 19.09
Moscow ** " " 2 30 17.29
InnieL (Bogenhausen.)
N. Lat. 48^ 8' 45". Soldner, Astr. Nachr., IX. 422.
Long. E. from Paris, (^ 37-^ 4*^ .98. Astr. Nachr., YUL 148.
Hapkk . N. Lat 40*^ 51' 46".63. Brioschi, Astr. Nachr., V. 294.
The Longitude adopted is that by which Peters has apparently made his
reductions, Astr. Nackr., XXIII. 302, 303, according to which we have,
Naples E. from Berlin, 0^ 3-- 26^.0.
For determinations from solar eclipses by Brioschi and Saktini, see
Astr. Nackr., VI. 413.
Oxibld. . N. Lat. bV 4& 36".0 ) ^^ ^^^ 1^ ^^
Long. W. from Greenwich, 0^- 6-- 2^.6 i » ' r
Psdmu . N. Lat 45*^ 24' 2".5. Santini, Astr. Nachr., VL 411 ; XVII. 346.
Long. E. from Paris, b m. «.
WuRM (il«(r. iVacAr., IV. 347), 0 38 7r7
Padua E. from Milan by powder signals h. m. •
(Fallon, Astr. Nachr., IV. 115), 0 10 43^7
Milan E. from Paris, 27 24.18
0 38 7.45
Mean, Padua E. from Paris, 0 38 7.57
PiknBO. . N. Lat 38"" 6' 44". Cacciatorb, Del Real Osservatorio di Palermo
Libri VII., VIII., K., p. 2 ; Staria Celeste del R. Osserv. di Palermo^
in Ann. d. WienerJ^emwarte^ XXIV. 6.
Long. E. from Paris, 0^ 44°'' 4*'.0. Dausst, Add. Canm. d. Tsw^^
1835, p. 8.
BiANCHi, Astr. Nachr.^ XVII. 350, calls the latitude of the Palermo
Observatory, +38*^ 6' 25".50.
PuamtUU S. Lat. 33^ 48^ 49".79. Rumker, PAt7. TVont ., 1829, Part m. p. 16.
Long. E. from Greenwich, 10^- 4'*- 6*^.25. Ibid., p. 29.
THE PRINCIPAL OBSERVATOfllES. 479
Paril. . • N. Lat. 48* W 13".2. Conn. d. Temps, 1835, p. 356.
Long, as above under Greenwich.
SL FetenbUg. (Academy.)
N. Lat. 59* 56' 29".67.
Long. W. from Pulkowa, 0"- 5M94. Struye, Description deVObs.
de Poulkova, p. 292.
Philadelphia* N. Lat. 39* 57' 7".5. MS. communication from Professor Kendall.
Long. E. from Washington (U. S. CJoast Survey),
in. 8.
By 5 sets Eastern clock-signals, 7 33.66
" " Western " 33.60
Mean, 7 33.63
Long. Jersey City Station E. from Washington,
m. ■.
By 2 sets Eastern clock-signals, 12 3.58
« " Western " 3.52
Mean,
12 3.56
Long. W.
from Jersey City 1
Station,
By 8 sets Eastern clock
-signals,
4 29.91
ii
44 44 44
u
29.84
Mean,
4 29.88
Hence we
may use.
h. m. ■.
Jersey City Station E. from Philadelphia, 0 4 29.89
** " " Washmgton, 0 12 3.53
Philadelphia, " ** 0 7 33.64
PragOA. . . N. Lat 50* & 18".5. David, Astr. Nachr., VIIL 198.
Long. E. from Paris,
Mean of 6 occultations (il«/r. JViic^., XVL 299, j^ ^ ^
302), 0 48 21.66 ± 4.15
Hansen from occultations {Astr. Nachr.<^ XVII.
170), 19.59 db 3.67
Mean, Prague E. from Paris, 0 48 20.50
PdUqiwb. . N. Lat 59* 46' 18".70. Stbuve, Descr. de V Ohs. de Povlkava, p. 290.
Long. E. from Altona {Exp. Chron. de 1843, ^ ^ ^
p. 144), 1 21 32.523 ± 0.039
Altona E. from Greenwich {Exp. Chron.
de 1844, p. 206), 0 89 46.151 ± 0.042
Pulkowa E. from Greenwich {Exp. Chron.
de 1844, p. ix.), 2 1 18.674 ± 0.057
(CoUegio Romano.)
N. Lat 41* 53' 54". Conn. d. Temps, 1840, p. 354.
Long. E. from Greenwich, 0^ 49"- 54'-.7. Astr. Naehr., VIII. 88.
480
THE PRINCIPAL OBSERVATORIES.
San Fernando. N. Lat. 36** 27' 45". Corresp. Astron., XIV. 240.
Long. W. from Paris, 0^- 34"- Ky-.G zfcO-.Sl. il*(r. JViic^.,IX.a5a
Santiago.
Senftenberg.
Vienna. .
Washington.
Wilna.
(Observatory of the U. S. Astronomical Expedition.)
S. Lat 32* 26' 24".8. Gilliss, Astron. Joum.^ III. 55.
Long. W. from Greenwich, 4^ 42"- IS* .9. Gilub8^ Astron. Joum^j
U. 118.
N. Lat. 50° 5' 10".l. { . , j^ , vwt i^a ooi
^ ^ « ,. ^K ,^ ,^ > il5/r. iVacAr., XXXI. 174, 331.
Long. E. from Berlin, 0^ 12™ 15' . )
N. Lat. 48* 12' 35".5. Berl. Astr. Jahrh., 1852, p. 290.
Long. E. from Paris, 0"- 56"* ll*-.07. ScnuaiACHEB, ilrtr. iVodkr.,
XXIII. 263.
N. Lat. 38* 53' 39".25. Astron, Joum., III. 12.
Long. W. from Greenwich, as derived from data of the U. S. C!oast
Survey, up to 1852, 5*' 8"*- 1^.2.
Lieutenant Maury uses 5^- 8'"' 10^.17. Astron. Jbi«ni.,III. 12.
The situation of the first, or provisional, Naval Observatory, in which
were made the observations published by Lieutenant Gilliss was,
N. Lat 38* 53' 32".8. Gilliss, Astr. Obs., p. viil
Long. W. from Greenwich, 5*^ 8"* 4'-.6. iW(i., p. x.
h. m. a
1 81 50.4
. N. Lat. 54* 40' 59". 1. Astr. Naehr., IV. 562.
Long. E. from Paris,
WuRM from 22 occultations {Astr. Nachr.^ VIII. 96),
Steczkowski from 1 occultation {Astr. iVacAr.,XVI. 302), 48.3
Mean, 1 31 50.31
These results are arranged in the following Table for reference.
ADDENDUM.
Olmntx.
N. Lat 49* 35' 40".
Long. E. from Greenwich
. . ,K ^ ^, \Astr.Nackr.,XKXWn.n.
ich, l*" 9- O'.l. i
THE PRINCIPAL OBSERVATORIES.
481
POSITIONS OF THE PRINCIPAL OBSERVATORIES.
{North Latitudes and West Longitudes are considered as positive.)
Longliudo
Longitiid.
from Washington
LonxlUid.
Place.
Latitude.
from Washington
fiDiQ Oraenwich Ilk
In Time.
ia Are.
Arc
Abo,
^
-60 26 56.8
_^
h. m. 8.
6 37 20.0
260° 40' 0*6
337° 42' 48*6
Altona,
-
-53 32 45.3
—
5 47 57.4
273 0 39.8
350 3 27.8
Athens,
-
-37 58 20
6 43 6.4
259 13 24.2
336 16 12.2
Berlin,
-
-52 30 16.7
6 1 46.1
269 33 28.1
346 36 16.1
Bilk,
.
-51 12 25
—
5 35 16.1
276 10 58.1
353 13 46.1
Bonn,
.
-50 43 45.0
__
5 36 35.7
275 51 5.1
352 53 53.1
Breslau,
.
-51 6 56.0
6 16 21.2
265 54 42.0
342 57 30.0
Brussels,
-
-50 51 10.7
5 25 38.8
278 35 18.0
355 38 6.0
Cambridge (Eng.),
-
-52 12 51.8
—
5 8 34.7
282 51 18.9
359 54 6.9
Cambridge (Mass.),
-
-42 22 48.6
—
0 23 41.5
354 4 36.9
71 7 24.9
Cape of Good Hope,
—33 56 3
6 22 7.2
264 28 12.3
341 31 0.3
Christiania,
-
-59 54 43.7
5 51 6.0
272 13 30.6
349 16 18.6
Cincinnati,
-
-39 5 54
+
0 29 46.9
7 26 42.8
84 29 30.8
Copenhagen,
-
-55 40 53.0
5 58 30.5
270 22 22.5
347 25 10.5
Cracow,
.
-50 3 50.0
—
6 28 2.4
262 59 23.4
340 2 11.4
Dorpat,
-
-58 22 47.1
6 55 5.8
256 13 33.6
333 16 21.6
Dublin,
-
-53 23 13
—
4 42 49.2
289 17 42.0
6 20 30.0
Durham,
.
-54 46 6.4
—
5 1 53.2
284 31 42.0
1 34 30.0
Edinburgh,
.
-55 57 23.2
4 55 28.2
286 7 57.0
3 10 45.0
Florence,
.
-43 46 40.8
—
5 53 12.9
271 41 47.1
348 44 35.1
Greneva,
.
-46 11 58.8
—
5 32 48.9
276 47 46.8
353 50 34.8
Georgetown,
-
-38 54 26.1
+
0 0 6.2
0 1 33.0
77 4 21.0
Gottingen,
-
-51 31 47.9
5 47 57.3
273 0 40.5
350 3 28.5
Gotha,
-
-50 56 5.2
5 51 6.9
272 13 17.1
349 16 5.1
Greenwich,
.
-51 28 38.2
5 8 11.2
282 57 12.0
0 0 0
Hamburg,
-
-53 33 7
—
5 48 4.8
272 58 48.6
350 1 36.6
Hudson,
.
-41 14 42.6
+
0 17 32.1
4 23 0.9
81 25 48.9
Kasan,
.
1-55 47 23.1
8 24 43.1
233 49 13.1
310 52 1.1
Konigsberg,
.
-54 42 50.4
^
6 30 11.6
262 27 6.6
339 29 54.6
Kremsmtinster,
.
-48 3 23-8
.— .
6 4 44.6
268 48 50.7
345 51 38.7
Leipsic,
-
-51 20 20.7
—
5 57 39.7
270 35 4.5
347 37 52.5
Leyden,
-
-52 9 28.2
—
5 26 8.6
278 27 50.6
355 30 38.6
Liverpool,
-
-53 24 47.7
—
4 56 ILl
285 57 13.7
3 0 1.7
London,
.
-51 31 29.8
—»
5 7 34.1
283 6 28.5
0 9 16.5
Madras,
-
-13 4 9.2
-^
10 29 8.2
202 42 57.0
279 45 45.0
Mannheim,
.
-49 29 12.9
^
5 42 2.7
274 29 19.5
351 32 7.5
Markree,
-
-54 10 31.7
—
4 34 22.8
291 24 18.0
8 27 6.0
Marseilles,
.
-43 17 49
—
5 29 40.2
277 34 57.2
354 37 45.2
Milan, *
.
-45 28 0.7
5 44 57.8
273 45 32.4
350 48 20.4
Modena,
«
-44 38 52.8
._
5 51 55.2
272 1 12.5
349 4 0.5
Moscow,
.
-55 45 19.8
._
7 38 28.5
245 22 52.7
322 25 40.7
Munich,
.
-48 8 45
5 54 37.6
271 20 35.4
348 23 23.4
Naples,
.
-40 51 46.6
—
6 5 12.1
268 41 58.1
345 44 46.1
Oxford,
.
-51 45 36.0
_
5 3 8.6
284 12 51.0
1 15 39.0
Padua,
.
-45 24 2.5
._
5 55 40.2
271 4 56.6
348 7 44.6
Palermo,
-
-38 6 44
6 1 36.7
269 35 50.1
346 38 38.1
61
482
THE PRINCIPAL OBSERVATORIES.
Place.
Latitude.
Lofij^tude
from WaDhinfUm
In Time
Loii^iude
from ^ttshingion
in Arc.
Loitgitude
from Greenwich
in Arc
I
Paramatta,
Paris,
St Petersburg,
Philadelphia,
Prague,
Pulkowa,
Rome,
San Fernando,
Santiago,
Senftenberg,
Vienna,
Washington,
Wilna,
o
—33
--48
--59
--39
--50
--59
--41
--36
—33
-1-50
--48
--38
-.54
48 49.8
50 13.2
56 29.7
57 7.5
5 18.5
46 18.7
53 54
27 45
26 24.8
5 10.1
12 35.5
53 39.3
40 59.1
h.
-f-8 47 42.6
17 32.7
9 24.7
7 33.6
5 53.2
9 29.9
58 5.9
43 22.1
—0 25 52.3
14 1.1
13 43.7
0 0
49 23.0
—5
—7
— 0
—6
—7
—5
—6
—6
— 0
—6
131 55 38.3
280 36 50.1
252 38 49.8
358 6 35.4
268 31 42.6
252 37 31.9
270 28 31.5
289 9 29.1
353 31 55.5
266 29 43.1
266 34 4.1
0 0 0
257 39 15.5
208 58
357 39
329 41
75 9
345 34
329 40
347 31
6 12
70 34
343 32
343 36
77 2
334 42
26.3
38.1
37.8
23.4
30.6
19.9
19.5
17.1
43.5
31.1
52.1
48.0
8.5
ADDENDUM.
h. m.
Olmatz, 4-49"" 35 40'.0 —6 17 11.3 265 42 1(^.5 342 44 58*5
ON THE AilRANGEMENT AND USE OF THE TABLES IN
THIS EPHEMEMS.
This Ephemeris is divided into two distinct parts. One part is designed for the special
use of Navigators, and is adapted to the Meridian of Greenwich.
The other part is suited to the convenience of Astsonomebs, on this continent particur
larly, and is adapted to the Meridian of Washington.
THE NAUTICAL PART.
This part contains the Ephemeris of the Sun and Moon ; the Distances of the Moon from
the centres of the Sun and the four most conspicuous Planets, and from certain Fixed Stars ;
the Ephemeris of the Planets Venus, Mars, Jupiter, and Saturn ; and also an improved meth-
od of finding the error and rate of a chronometer by equal altitudes, which is given in an
Appendix.
Time. — Astronomers make use of three kinds of time. Sidereal Time, Mean Time, and
True or Apparent Time. As there is frequent occasion to pass from one to another of these
modes of reckoning time, the explanation of their nature, and of the manner of doing this,
properly precedes an explanation of the uses of the Ephemeris.
Sidereal Time is measured by the successive returns of the mean place of a star to the
meridian. These returns are precisely equal, and the mean daily motion of the star is uni-
form ; or, in other words, the diurnal rotation of the earth on its axis is strictly uniform.
The sidereal hours are counted from 0 to 24, commencing with the instant of the passage
of the vernal equinox over the superior meridian, and terminating with its return to the same
point. The daily change, therefore, in the right ascension of the vernal equinox caused by
the motion of precession in right ascension, produces a difference between the length of the
sidereal day thus adopted, and the true sidereal or star day. But this change is annually
about 50", or 3^.3 in time, so that the daily change is less than C-.Ol, and is wholly msen-
sible.
True or Apparent Time is measured by the successive returns of the sun to the meridian
of the place of observation. The interval between these returns is called a Solar Day, and
the hour angle of the sun, or its distance from the meridian, is called Solar Time. This is
the most natural and direct measure of time. But the intervals between the successive re-
turns of the sun to the meridian are not exactly equal, but depend upon the variable motion
of the sun in right ascension.
The want of uniformity in the sun's motion in right ascension arises from two different
causes : one, that the sun does not move in the equator, but in the ecliptic ; the other, that
the sun's motion in the ecliptic is not uniform.
To avoid the irregularity in time caused by the want of uniformity in the sun's motion, a
fictitious sun, called a Mean <Smi, is supposed to move in the equator with a uniform velocity.
484 USE OF THE TABLES.
Mean Time^ which b perfectly equable in its increase, is denoted by the motion of this
mean sun ; the latter at certain periods agrees with the real sun, then again is in advance of
it, and at other times is behind it.
The difference between the true and mean time is called the Equation of TimCy which is
always expressed in mean time. By means of it we pass from true to mean time, or the re*
verse. Thus, if the true time be given, the mean time corresponding to it will be obtained
by adding or subtracting the equation of time, according to the precept at the head of the
column in which it is found. If the mean time be given, the true time is obtained by apply-
ing the equation of time in the sense opposite to that directed by this precept. These trans*
formations are algebraically expressed as follows : —
mean time =?: true time -4- equation of time ;
true time = mean time — equation of time.
Day, — According to the customs of society, the hours are counted from 0 to 12 from
noon to midnight, af\er which they are again reckoned from 0 to 12 from midnight to noon.
The dvil day consists of twenty-four hours, but is divided in this manner into two periods,
commencing at midnight. In this respect it differs from the astronomical day^ which com*
mences at noon. The civil day comprises twenty-four hours, from one midnight to the next
following. The first period of twelve hours b marked A. M., the last period of twelve houra
b marked P. M. The astronomical day also comprises twenty-four hours, but they are
counted from 0 to 24, and from the noon of one day to that of the next following.
Thb civil day begins twelve hours before the astronomical day ; therefore the first part of
the civil day answers to the last part of the preceding astronomiccU day^ and the last part of
the civil day to the first part of the same astronomical day. Thus, January 10th, 2^* A. M.,
civU day^ b January 9th, H***, astronomical day ; and January 9th, 2*'- P. M., civil day^ is
also January 9th, 2***, astronomiccU day. The rule, then, for the transformation of the civil
time into astronomical time b thb: if the civil time b marked A. M., take one from the
date, and add twelve to the hours, and the result b the astronomical time wanted ; if the civil
time is marked P. M., take away the designation P. M., and the astronomical time b had
without further change.
The Nautical part of the Calendar b divided into twelve months, and to each month are
assigned eighteen pages, of which the contents are as follows : —
Pages I., II., in. are devoted to the Ephemerb of the Sun. Page I. contains, first, the
Apparent Right Ascension and Declination of the sun at Greenwich apparent noon.
The former of these quantities is used for finding the error of a clock regulated to sidereal
time. The difference between the time by the clock of the meridian passage of the sun,
and the sun^s right ascension reduced to mean noon, b the error of the clock from sidereal
time. It is also employed in determining the time by the transit of a fixed star over the
meridian, as b explained in page 223 of Bowditch^s American Practical Navigator, The
use of the sun^s declination in finding the magnetic amplitude and azimuth, the latitude by
altitudes of the sun in and out of the meridian, the time, dec., is also so cleariy defined in this
standard work, which b in the hands of all American seamen, that any further explanatioQ
in thb place b unnecessary. Adjoining the columns of Right Ascension and Declinatum
are the differences of these quantities for one hour (at noon), by means of which they may
be calculated for any time out of the meridian, by multiplying thb difference by the hours
and parts of hours from noon, and adding the amount to, or subtracting it from, the quantity
at noon, according as it b mcreasing or decreasing. If, for example, the declination of the
sun were required at 3^ 40* P. M., of Friday, January 18th, 1856, the declination of the i
would be taken out first for
USE OF THE TABLES. 485
f «
January 18th, at noon, 20 38 50.0 S.
From which subtract the diff. for 1 hour, 30". 13, multiplied by 3, 1 30.4
20 37 19^
And the proportional part for 40 minutes, 20.1
The result is the sun's declination oathe 18th, at 3*"* 40"* P. M., 20 36 59.5
The difference for one hour is not the same for every hour in the twenty-four ; but being
given in the pages of this ephemeris for the first hour of the day, it is sufficiently accurate for
the purposes of the navigator.
The column of the Sun's Semidiameter requires no explanation.
The column headed Sidereal Time of the Semidiameter passing the Meridian^ is employed
in obtaining the passage of the sun's centre over the wires of a transit-instrument, when the
passage of one limb only has been observed. If the western limb has been observed, the
quantity found in this column is to be added to the time of transit over the middle wire, or
the mean of the times of transit over all the wires ; but if the eastern limb has been observed,
the quantities in this column are to be subtracted.
The next column contains the Equation of Time^ which, as has been before explained, is
the number of minutes and seconds to be added to or subtracted from the apparent time^ or
the time given by an observation of the sun, to obtain the mean time^ or the time shown by a
clock. The heading of the column directs the manner in which the equation is to be applied,
and where there is a change in the course of the month 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 corresponding line below points out the date at which the change takes place.
The difference for one hour is given in an adjoining column, by means of which the equation
for any time from noon is easily obtained. If; for example, the equation of time for January
16th, at 3'*- 20™- P. M., were required, we should have
m. ■.
Equation for January 16, at noon, 9 54.20
Correction for S^' 20* (additive), 2.88
Equation, January 16, at 3^ 20'"- P. M., 9 57.08
Which, according to the rule at the head of the column, is to he added to apparent time to
obtain mean time.
Page n. contains the Apparent Right Ascension and Declination of the Sun, and the Equa-
tion of Time for Greenwich Mean Noon ; to these is added a column containing the Sidereal
Time of Mean Noon.
Page III. contams the Longitude and Latitude of the Sun, and the Logarithm of the Dis-
tance of the Earth, at Greenwich Mean Noon of each day. The Longitude is given in two
columns headed X and X' ; the one, X, is the Sun's longitude counted from the true equinox
of the date ; the other, X', is the same coordinate counted from the mean equinox of the begin-
ning of the year. A column of hourly differences enables the computer to obtain the Sun's
longitude for any hour from noon. The hourly differences of the logarithm of the Radius
Vector are likewise given. The longitudes of the Sun are the true longitudes, not affected by
aberration. The last column on this page contains the Mean Time of Sidereal Noon.
Page IV. of the Nautical part contains the Moon's Semidiameter and Horizontal Parallax
for every rfoon and midnight. The former may be corrected for any time between the dates
for which it is given in the Ephemeris, by means of Table XI. of Bowditch's Navigator^ or
simply by computing the proportional part.
This is readily done by considering that the semidiameter is given for every twelve hours,
that the difference, therefore, between any two successive semidiameters corresponds to
486 USE OF THE TABLES.
twelve hours, and that the difierence required (or correction) is that difference which corre-
sponds to a time less than twelve hours. If, for example, the semidiameter of the nKX)n is to
be taken out for 9 oMock, P. M. of the 3d of January, then we say that as twelve hours is
to 6'^3, the whole difference between the semidiameters at noon and midnight of the 3d, so is
nine hours to 4''.7, the correction to be added to the semidiameter at noon, because it is in-
creasing ; the moon^s semidiameter, then, ibr Jan. 3^* 9f^ is 15' 24".^ Adjoining the cohiinns
containing the Moon's Horizontal Parallax for noon and midnight, are columns giving the
change which these quantities undergo in one hour. The sign plus or minus (-K or — ) is
prefixed to these differences, showing whether they are additive or subtractive, or, in other
words, whether the horizontal parallax is increasing or decreasing. In order to reduce the
parallax to any time intermediate between those dates for which it is given in the Ephemeris,
the mode of proceeding is that which has been already explained in the case of the equation
of time. The Moon's Meridian Passeige^ which is given on this page to minutes and tenths
of minutes, is also accompanied with a column of differences for one hour, by means of
which, having the longitude turned into time, the time of the moon's meridian passage at any
other place may be computed. Or it may be more quickly derived from Bowditch's Table
XVIII., by simple inspection. The last column of this page contains the Age of the Moon,
to tenths of days, or the time elapsed since the preceding new moon. It requires no ex-
planation.
The pages from V. to XII. inclusive are taken up with the Moon's Right Ascension and
Declination^ which are given for every hour of every day in the month, and are accompanied
with columns of differences for every minute of each hour. The right ascension and declina-
tion of the moon change so rapidly, that, if they were not given at frequent intervals, the
moon would cease to be useful to the practical navigator as a means of determining the lati-
tude and time. These quantities are wanted for Greenwich mean time, which is either taken
directly from the face of a well-regulated chronometer, or is obtained by applying the longi-
tude, turned into time, to the local time of the computer. They have only to be corrected
for the minutes and seconds of the time at Greenwich. Thus, if the right ascension and
declination of the moon were required for Tuesday, January !**• 8** 10™', we have only to add
to the right ascension at 8**- as given in the Ephemeris, viz. to IS** 34'"- 33'-.06, the product of
the difference for one minute in the adjoining column multiplied by 10, the product, that is,
of 1'.8467 by 10, or 18' .47; the result is the moon's right ascension at the required time,
equal to IS*"- 34'"' 51'-.53. If we were to take out the declination for the same date, the cor-
rection for the ten minutes above the hour would also be additive, because the declifMttioo»
like the right ascension, is increasing ; thus, —
Moon's declination for January 1**- 8^- 9 19 30".7 S.
Correction for 10" is 135".9, or 2 15.9
Moon's declination for January 1^ 8" 10™- 9 21 46.6
The last page of the right ascensions and declinations contains the Phases of the Moon, and
the dates of the Moon's Perigee and Apogee^ or least and greatest distance from the earth.
The remaining six pages of the month are occupied by the Lunar Distances. They are
given in the same manner as in the British Nautical Almanac^ in order to conform to the
rules of Bowditch's Navigator. These tables contain the geocentric distances of the centre
of the moon from the sun, the larger planets, and certain fixed stars, at intcrvak of three
hours, beginning with the noon of each day. All the distances that can be observed on the
same day are grouped together under that date, and the letters E. and W. are afiixed to the
name of the star or planet, to indicate whether they are on the east or west side of the moon.
The columns are read from the leA to the right, across both pages of the same opening. The
TTSE OF THE TABLES. '487
principle of determining the longitude by means of lunar distances consists in this : that they
furnish the navigator with the means of comparing his own time, on board ship, with the time
at the Greenwich Observatory. At the moment of observing a distance he notes the time by
his own watch or chronometer, and by looking into the Ephemeris he discovers what o'clock
it is at Greenwich when the moon and star are in the relative position with regard to each
other which he has measured with his sextant. But it will very rarely occur that the naviga-
tor's true distance^ that is, his observed distance cleared from the effects of refraction and
lunar parallax, will be found in the Ephemeris. It will prove in most cases to be a quantity
lying between two given distances. He is obliged, therefore, to take the difference between
his own true distance and the one nearest to it in the pages of the Ephemeris, and to apply
to the time standing over the latter a correction proportioned to this difference. This is a
case of the simple rule of three. Owing, however, to the various denominations of space and
time that enter into the question, it has been found convenient to lessen the labor of the
operation by putting between every two successive distances given in the Ephemeris the pro-
portional logarithm of their difference. This proportional logarithm is obtained by subtract-
ing the logarithm of the difference of the two distances from the logarithm of three hours
(both quantities being reduced to seconds), because three hours is the interval of time be-
tween two successive distances.
On the Ist of March, at midnight, of Greenwich mean time, the distance of the moon's
centre from the planet Mars, west of her, is 74® 9' 21", and at fifteen hours of the same date
it is 75® 52' 11" ; the difference between the two distances is V 42' 50", or, reduced to sec-
onds, is 6170", the logarithm of which subtracted from the logarithm of three hours, or 10800,
gives for the proportional logarithm of the difference between the two distances, 2431, as it is
in the column headed P. L, of Biff, If the calculated true distance of the navigator lie be-
tween the two given distances above mentioned, as, for instance, if it should be 75® 10' 25",
the corresponding correction of the time would be found as follows : —
Distance in the Ephemeris at Midnight,
Calculated True Distance^
Difference,
Prop. log. in Ephemeris,
Prop. log. of Difference, 1® 1' 4",
Prop. log. of P 46"- 52' 2264 ;
and this time is to be added to the time at the head of the column from which the distance
of the Ephemeris was taken, which would make the time at Greenwich corresponding to the
Navigator's True Distance P* 46™* 52'- on the morning of the 2d of March.
This method of getting the Greenwich time between two given times in the Ephemeris
rests upon the supposition, that the variation between one distance and the next following is
uniform and regular. But owing to the inequalities in the moon's motion, this is not the
case ; and it is, in consequence of this, necessary to apply to the Greenwich time obtained by
the preceding method a small correction.
This correction, due to the second differences in the moon's motion, is given in the Table
on page 11 of the Appendix, and is taken out and applied as follows.
The top of the Table is entered with the difference between that proportional logarithm of
the Ephemeris which has already been used and the one next following, and the side of the
Table is entered with the time which has been added to that at the head of the colunm of the
Ephemeris, that is, the time given by the difference of the proportional logarithms at the
close of the preceding paragraph ; under the former, and opposite the latter, will be found
o
74
9'2f
75
10 25
1
1 4
2431
4695
488
USE OF THE TABLES.
the correction, in seconds of time, to be added to the time at Greenwich if the proportional
logarithms are decreasing, but subtracted if they are increasing.
The calendar pages extend to 217, and the remainder of the Nautical Part, from page 218
to page 241, contains the Ephemeris of the four Planets, Venus, Mars, Jupiter, and Saturn,
employed either in lunar distances or in the determination of the latitude or the time. The
Ephemeris of the Planets consists of the apparent right ascension at Greenwich mean noon
and its variation for one hour, the apparent declination at the same date and its variation for
one hour, and the mean time of their meridian passage ; and at the bottom of the page will
be found the seraidiameter and horizontal parallax for every fifth day of the month. The
hourly variations belong to noon of the day on which they are given. The mode of cor-
recting by means of the hourly variation for any time from noon has already been explained.
The Solar Coordinates for Greenwich mean noon, which form the basis of the SoUur
Ephemeris for that date, are added.
USE OF THE TABLES. 489
THE ASTRONOMICAL PART.
This part is adapted to the meridian of Washington.
Obliquity of the Ecliptic^ dec., p. 246. — On this page are given the apparent obliquity,
the equation of equinoxes in longitude and right ascension, the precession of equinoxes in
longitude, and the sun's aberration and horizontal parallax, for every ten days of the year ;
at the bottom of the page will be found the mean obliquity for the beginning of^the year, the
precession for the middle of the year, the logarithm of the precession in a sidereal day, and
the logarithm of the precession in a solar day. On the same page, the mean longitude of the
moon's ascending node is also given for every ten days, and at the bottom of the page its
daily motion.
Fixed Stars. — The Logarithms A^ 5, C, D, for correcting the places of the Fixed Stars,
are given for the mean midnight of every day of the year, and the constants of reduction for
every five days. To these tables are added Bessel's formulas of reduction, with Peters'
coefficients, and the notation of the catalogue of stars of the British Association.
The mean places of 100 principal. Fixed Stars on January 1, 1856 ; the apparent places of
a and d UrsoB Minoris, at the time of the upper transit at Washington, for every day of the
year ; and the apparent places of the remaining principal stars for every ten days ; together
with a table giving the correction of 51 Cephei, a- Octantis, and X Ursae Minoris, for terms of
nutation involving 2 C i — complete the subject of the Fixed Stars.
Solar Ephemeris. — In the Solar Ephemeris, given for Washington mean and apparent
noon, the hourly motions in right ascension and declination are the motions at the instant of
noon. Only the seconds of right ascension and declination are given for apparent noon, the
degrees and minutes being usually the same as for mean noon. Where the change of a
minute occurs, it is indicated by a colon (:).
The Moon Culminations and Moon-culminating Stars are given in two distinct lists.
The list of Moon Culminations contains both the solar and sidereal dates of transit ; the ap-
parent right ascension is the right ascension of the limb, and the declination is the declination
of the centre, at their respective periods of culmination. The form of the lists of moon-
culminating stars has been somewhat changed. In the first volume of the Ephemeris, refer-
ence to the stars to be used in connection with tlie Moon was inade by a figure, and the stars
themselves were entered successively in the order of numbers. In the present volume these
figures are dispensed with, and the proper star to be observed in connection with the transit
of the moon's limb is determined by means of the sidereal dates, common to both lists. Each
star occupies a separate column containing its right ascension to hundredths of seconds for
every sidereal date throughout the year for which it is available, and also its declination and
magnitude. The first column of each page contains the sidereal date, and the last the daily
change in right ascension of the corresponding stars. It is hoped that the standard observa-
lorjt s will Jutcrtnijie tliu place uf caoh one of these stars once at least in the course of the
yt^nr. The wliok' li^t has been tnkon from tbi? Twelve-Year Catalogue.
The Ephemeris of the Moon^ i/^hich fallows, and the Moon*s Phases^ require no special
obscjfvntion. In the moon^ opliemcrb, as in that of the sun, the hourly motions belong to the
instjirvt for whi^^h they are given.
Thit cphi^mtTis of the two interior planets is given for mean noon and the time of transit ;
ami thnt of tlic5 cxk^rior planets is given for sidtroal noon and the time of transit. The place
of It platit^t for any tii^rtiber of minutes ^, from the nearest noon for which it is given, t being
oa^tive when the lime precedes iho noon, may be computed by the form^ula.
Planet's R. A. (or Dec.) === ^ -|- J5 < -|- C ^',
m
490 USE OF THE TABLES.
in which il = R. A. (or Dec.) for the noon,
B =— the motion of R. A. (or Dec.) for 1 minute,
or, more exactly, ■- the factor of t, as given in the Ephemeris ;
C :?= the factor of f — factor for second differences.
The Solar Coordinates are given for each mean noon and midnight, referred to the appar*
ent equinox and equator, and also to the mean equinox and equator, at the beginning of the
year. In the case of the rectangular coordinates, only the last four decimals are given for
the mean equinox and equator, and the first three places are to be taken from the apparent
equinox and equator. When a change ot, a unit is to be made in the third place^ it is indi-
cated by a corresponding colon (:).
The Planetary Coordinates are given for days of the Julian Period, in order that they may
be a part of a connected series, and therefore more convenient for the continued computation
of perturbations.
Eclipses, — The Tables of Data of the Solar Eclipses are adapted to very accurate com*
putation by the following formulas.
Let <^ s=r the latitude of the place,
X »= its western longitiide from Washington,
loge«» 8.9110835,
log (1 — c') = 9.9971066,
sin <^' Bs e sin <^,
' h = sec <^' cos <f)y
A: = (1 — c*) sec <^' sin ^,
a = A — A sin (/i — X),
h^^B— Ek-^Gh cos (/i — X),
e =. — C + P ifc — H A cos (/I — X),
m =» y/ be.
If the instant for computation were correctly chosen at the time of beginning or end of the
eclipse, m would be exactly equal to a. If m is not equal to a, the instant for a new compu-
tation, which will be an approximation to the actual time of beginning or end, may be
foimd by adding to the preceding time of computation an interval /, which may be obtained
in seconds by the formulas,
log /i'=- 1.86167,
a' "= il' — /i' A cos (/I — X),
h'^ B' — ^' Gh sin (/i — X),
1000000 (m — a)^
a' -f- 6* cot V '
^ must be taken of the same sign with d, and is a sufficiently near approximation to the
angle of contact from the north towards the east. For the shadow of a total eclipse, ^ roust
be taken with a sign opposite that of a.
The magnitude of the eclipse is found by taking the difference (with regard to the signs)
of ^ at the beginning and end of the eclipse, and if this difference is denoted by 2 tf, the
magnitude of the eclipse is
24.5 sin' i ^ or 24.5 cos* J $,
accordingly as ^ is acute or obtuse.
The value of 3 may also be obta'med by the formulas,
tan X - -,,
USB OF THE TABLES. 491
(in which x hw the sign of i') ; itnd the expression of t may be changed to
a' sm o
The following is an example of the computation of the beginning of the Eclipse of April
4, for the Observatory at Paramatta.
For Paramatta, <^ — —33 48 60 X «=- 131 55 38
log sin <^ » 9.745463n log cos <^ -= 9.919522
log sin <^ «- 8.656546n
log sec <^' »» 0.000447 0.000447
log k = 9.743017n log h = 9.919969
If we assume for the time of beginning 12**' 31"-, Washington mean time, we find from the
table (p. 392), by interpolating the tabular values for this time,
A « 0.18823 log E =- 9.997705
B — —0.26148 log F = 9.997267
C » —1.33063 log G =. 9.011356
A — 142.11 log H = 9.048965
B' =. 76.38 ^ « 18r 4' 0"
Hence
^ — X = 55" 8' 22"
log cos (ft — X) 9.757078 log sin (^ — X) 9.914103
log A cos (/i — X) 9.677047 log A sin (/* — X) 9.834078
log 6 A cos (/i — X) 8.688403 log H h cos (^ — X) 8.726012
log E it 9.740722fi logP* 9.740284fi
6Acos(/i — X) 0.04880 HAcos(;i — X) 0.05321
E k —0.55045 F k —0.5499 1
B— 0.26148 C— 1.33063
h 0.33777 c 0.72751
logb 9.528621 i8in(/4— X) 0.68245
logc 9.861839 A 0.18823
logm 9.695230n a— 0.49422
log tan J f 10.166609j> m— 0.49571
ijr 1 1 r 28' m — a —0.00149
log /i' A cos (/i — X) 1.53872 log G,i'h sin (/i — X) 0.70710
/i' A cos (V — X) 34.57 G/sf hsmfji — X) 5.09
a' 107.54 b' 71.29
a' + J/ cot f 135.57 log 5' 1.85303
log 10« (m — a) 3.17319n log cot f 9.59452
log (a' + 5' cot V^) 2.13216 ^ cot ^ 28.03
log t 1.04103fi
Assumed time 12 3 1 0.0
t — 11.0
Washington mean time of beginning 12 30 49.0
Difierence of longitude in time • • • 8 47 42.5
Paramatta mean time of beginning 3 43 6.5
The corrected values of the assumed time will always be used in making the successive ap-
proximations, as long as any shall be thought necessary.
492
USE OF THE TABLES.
OcctUtations. — The pages 400 to 431 mclusive are taken up with Elements for FaeUilal"
ing the Caladaiicfn of OcctUtations of Planets and Stars by the Moon, These elements are
given for all the stars, to the sixth magnitude inclusive, contained in the British Association
Catalogue, which can be occulted by the moon during the year 1856.
The several columns of these pages contain, — 1. the date ; 2. the starts name ; 3. the
starts magnitude; 4. the limiting parallels of visibility; 5. Washington mean time of the
moon^s true conjunction with the star in right ascension ; 6. Washington hour angle, in time,
of the star at the time of true conjunction ; 7. coordinate q at the time of true conjunction ;
8. hourly variation j/ of coordinate p ; 9. hourly variation q' of coordinate q ; 10. logarithmic
sine of the star's declination ; 11. logarithmic cosine of the star's declination.
Designating the time of true conjunction by the usual symbol, ^ , we have, at this time,
T=>^,A^i7,;7saO, and ^ = Y. For any other time during the occultation, we shall
have T =. <J + (<), A =- H + sidereal equivalent of (t), p = (t) y, and ^ — Y + {t) qf.
The other elements are considered as constant for the occultation.
In the prediction of an occultation for a particular place, the principal objects of determina-
tion are, the instant ^f immersion^ or of the star's disappearance behind the moon's limb ; of
emersion^ or of the star's reappearance ; and the points on the moon's border where .these
appearances take place.
The calculations are made according to the method of Bessel, whose original paper on the
subject may be found in Schumacher's Astronomische Nachrichten^ Vol. VII. p. 1 ; also in
the Berliner Astronomisches Jahrbuch for 1831, p. 257. The letters and numerals prefixed
to the stars belonging to the group of the Pleiades, and the magnitudes of these stars, axe
taken from No. V. of Bessel's Astronomische Untersuchungen.
The process of computation is shown by the following equations : —
d — Longitude for Washington, of the place, -f- West, — East
<l> «- Geographical North Latitude of the place.
^' a» Geocentric North Latitude of the place.
r «- Earth's radius at the place, or the distance of the observer's position from the earths
centre.
It is unnecessary to calculate 4/ and r separately, as we have
., (1 — e*) sin cp ., cos q»
^ y(l — e« 8m« (f) ^ y(l — «» sin" f )
In which e denotes the eccentricity of the earth's meridians.
The logarithms of ^^^ J;;.^, ^^ - log A, and of ^^^— ^^-^^^^ - log 5, derived from
e «. .081697, according to the latest determination of Bessel, may be taken from the follow-
ing table, where the geographiccd latitude of the place is the argument
9
0
Log.ul
Log. B
9.9971
0.0000
10
9.9971
0.0000
20
9.9973
0.0002
30
9.9975
0.0004
40
9.9977
0.0006
50
9.9979
0.0009
60
9.9982
0.0011
70
9.9984
0.0013
r sin ^' ^i A siii ^
r cos <f>' w^ B cos <p
USE OF THE TABLES. 493
a = r cos ^' sin {h — d)
3 «» r cos ^' cos (A — d)
u
a. a
log X « 9.4192
u'«
h\
V
— r sin ^'
cos
D — J sm D
r'«
aX
sin
D
m sin
Jtf =
*p
— tt n sin
iV =
.y-
-vf
mcos
i
'?
— 1> ncos
log k » 9.4350
Q-90^ — iVqzV'
-^C08(Jif-JV)q=i
fi
.g'-
-u'
Ul4>er signs for Immersion ; under signs for Emersion. •
c sin C = 11 + < tt'
c cos C =5 v 4" ^ ^'
Mean solar time of the starts apparent contact with the moon^s limb
— T—d + t
Angle from North Point ■■ Q
Angle from Vertex = V
The angle ^ is to be taken oqt positive and less than 180®. If log m sin (AT — iV) be
greater than log A;, cos ^ will evidently be greater than 1, or impossible, and there will be no
occultation, except in some rare instances where the moon's limb passes very close to the
star, when log cos ^ will result very near 0. In these cases, a recalculation should be made
according to the method which follows, using
< = — ^C08(itf— JV),
which may give log m sin (ilf — N) less than log A:, when the star will be occulted. On the
other hand, it may happen that, in these cases of very near approach, a first determination
may give a cos ^ less than 1, which a recalculation will show to be impossible. The angle
^ is then to be considered = 0" when m sin (M — N) is positive, and we shall have Q «.
90® — N. When m sin (M — iV) is negative, ^ = 180% or Q = 90® — iV + 180®, —
270® — N. We shall also have, at the time of nearest approach,
star's distance from moon's limb — ir(msin(-M — N) — .2723) >
in which ir is the moon's horizontal parallax.
By Angle from North Point is to be understood the arc included between the star when in
contact, and the point where the limb is intersected by an arc of a great circle passing from
the moon's centre to the North Pole ; and by Angle from Vertex^ the arc between the star at
contact, and the pomt where the limb is intersected by an arc of a great circle passing from
the moon's centre to the zenith. These angles are reckoned from the north point and from
the vertex towards the West round the circumference of the moon's disc. For the image as
seen in an inverting telescope, add to them 180®.
494t USE OF THE TABLES.
The results obtained by the abor^ equations are only approximate, yet the computed times
of immersion and emersion will usually be within one or two minutes of the truth. The
error generally increases with the star's distance from the apparent path of the moon's centre,
and may, in some cases, amount to several minutes. For an immersion, this error is not of
much consequence ; but for an emersion, especially of a small star, the time should be de-
termined with greater precision. For thb purpose u' and v' must be computed with
A' — d — A — (f + J/i,
/i being the symbol by which we express the sidereal equivalent of t in these equations.
u' ^^ r cos 4>' X cos (A' — d)
o' SB r cos ^' X sin (h! — d) sin D.
Then with these values of vf and r', recompute JV, n, ^, and i, by means of
n sin iV =- y — u'
n cos N ^^ q' — v*
• cos ^ =s w sin (Af — N)
k
< «= COS \M — iV) =F
using the M. and m obtained by the first computation, and we shall have the time of coDtact
T — ^ + ^ generally within a few seconds of the truth.
As a check on the accuracy of the work, we might compute
tt =« r cos ^' sin (A — d -|- /*)
© = r cos <^ cos D — r cos ^' cos (A — <^ -f" m)
and we should have
(;> + 1 1/ — u)» + (^ + < ^' — »)• — iP — 0.0741.
But if m sin ilf, m cos Jlf, log n sin iV, and log n cos iV, have been corrrectly computed, we
shall have the following shorter and more convenient check on the subsequent calculatioM
for the time of contact :
(m sin Jlf H- i n sin JV)« + (m cos Jif + i n cos iV)« — It' — 0.0741.
The elements of computation, H, Y, etc., are given for the instant of the moon's true con-
junction with the star in right ascension. It is desirable, however, in computing an occulta-
tion for a particular place, to assume a time for the calculation near to the time of the nearest
approach of the moon's centre to the star, as seen at that place, and to reduce the elements
to this assumed time. This time, for which the nearest tenth of an hour will be sufficiently
accurate, will not differ greatly from the time of apparent conjunction, as affected by parallax,
which may be determmed approximately by the following equations. Let T — d he the
time of apparent conjunction ; then
^^ p' gee f — [9^27] cosTB— d)
T-^d- i-d+{t).
The elements corresponding to the time T — d may then be obtained as follows :
P - (0 P'
USE OF THE TABLES. 496
Where occultations are to be generally observed, as at astronomical stations, either tempo-
rary or permanent, the observer will find an advantage in looking over the list and selecting,
beforehand, all those which may be visible at his station, by observing if his latitude be in-
cluded between the limiting parallels for any given occultation, if the time ( T — d) be
favorable as regards the absence of daylight, and if the starts hour-angle (A — d) be not
greater them its semidiurnal arc for the given latitude.
For obtaining the time
T^d^i-d + {t),
it will be well to tabulate the values of
/,\ ^ sin (H—d)
^ ' ™ p' sec tp — [9.4027] cos H'—d
for every half-hour of (H — <f ) as far as the greatest semidiurnal arc computed for the lati-
tude of the station with a declination of 30® ; and for all values of p', using two decimal
figures, from 0.50 to 0.60.
It will also be found advantageous to have tabulated values of
u ^r cos <f)' sin (h — d)
ttf ^=n r cos <p' X cos {h — d)
which should be given for every minute (in time) of (h — d), from O**- to 6^\ If (A — d)
exceeds G** , the argument will be 12*'- — (h — d), instead of (A — d). It will be seen by
the equations that u will have the same sign as sin (A — d), and that u' will have the same
sign as cos (A — d).
In the equation
t> = r sin <^' cos D — ^ sin D
the term r sin ^' cos D may be tabulated for every tenth minute of declination, from 0®
to30^
For a practical application of the preceding formulas, we will make the calculations for an
occultation of the star d Arietis, March 10th, 1856, as it will appear at San Francisco, Cali-
fornia, in north latitude, S?** 47'.6 = <^, and west longitude from Washington, 3''- 1" 34* = d.
The data for the computation are given on page 405, and, with the latitude and longitude of
the place, are as follows : —
March 10. d Arietis, 4^.
o I h. m. 1.
9 H-37 47.6 JJ -»-4 45 0 p* 0.5574
h. m. d -4-3 1 34 qf -1-0.2125
d -^ B l'^ B^d -hi iS 26 log sin Z) -»-9.5166
\ ® ^2-® Y + 0.3367 log cos D -1-9.95^2
6 ^d 5 81.2 *
Calculation of the time, T — d^ and reduction of the elements of computation.
logp' -1-9.746 (0 -4-0.9
log sec 9 +0.102 h. m. •.
log p' sec 9 « log (1) +9.848 (Kedaced to hours and minutes) (f) +0 54
log constant 9.403 (ji) +0 54 9
log cos (J7— d) +9.954 /7— </ +1 43 26
log [9 403] cos (H—rf; =» log (2) +9.357 JH^— rf + 0«)«= A — rf +2 37 36
(2) + .228 ^ — d 5 31.2
(1) + .705 I —d-h (0 = r— d 6 25.2
(1 ) — (2) — (3) + .477 (0 p' = 0.9 X 0.5574 = p + .5017
log (3) 9.679 0.9 X 0.2125 = (0 ^ -»- 19X2
log sin (H — d) +9.640 T + .3367
log (0+9.961 • y+W9'^ 9-^ ^279
496
USE OF THE TABLES.
Calculation of the times of Immersion and Emersion^ etc.
(Table, page 492, Ai^. 9) log A 9.9977 r sin y ' coe /> -4- .5498
log sin ip -1-9.7873 bnaD -h J2009
log ii sin 9 «s log r sin y' -f-9.7850 r Bin <p* cos D — b sin D ^ v + J3489
log cos D -4-9.9552 g -4- ^279
log r sin y' cos Z> -»-9.7402 y — r= » COS If -4- .1 790
(Table, page 492, Arg. tp) log B 0.0006 p -h .5017
log cos (p -1-9.8977 H -f- .5022
logrcos tp' -f.9.8983 p — m=» «iinJf— iWOS
log sin (A — d) 4-9.8026 g* -h .fl^
log r cos 9' sin (A — rf) = log u = logo -4-9.7009 v* -h .0433
log cos (A — rf) -4-9.8880 (f — v*^ n cos ^ -4- .1692
log r cos 9' cos (A — </) « log 6 4-9.7863 p* -k .5574
logl 9.4192 u* 4- .1605
log a X 4-9.1201 pf _ „/ « w sin iV^ 4- -3969
log sin D -4-9.5166
logdsinZ) -+-9.3029 ,- •rS it«
log a A sin D - log t/ 4-8.6367 fl ^f^ f'
log6l- log «' 4-9.2055 A/ J 2S W
log m cos 3/ -4-9.2529
X:^5;:;JS ^orE™er.ion.(.)-H(2)- , + ^07
logsmiNr-h9.9638 lo?«U9.20S5
^*^^+^-^^ logT I' -9.0275
— log ^ —9 6180 log r' 4-8.6367
log COS (3/ — iV) 4-9.5904 log ^ «^ — M587
- log^ cos (Jf - iV) = log (1) -9.2084 . .., • '* !^ ~ ^^^^
» *^' »4-/, r*— ecosC4- ^201
logl: 9.4350 U^ — .1065
log P 4-9.8179 II 4- /i m' = c sin C 4- ^957
log sin (3/ -iV) -9.9643 log c .in C 4-9Ji974
. m , ^ log c cos C 4-9.5052
log j-sin (Jf— iV) = log cos V —9.7822 log tan C -H)i>922
log sin V 4-9.9008
log h sin ^ 4-9.3358 h m.
, Aatoi^ 7*— rf 6 25J
^ » '^^ ^^' 4-9.7009 (Reduced to honni and miontes) Ij - 0 39.8
Immbrsiok : i^n/Vancijco A/«m rtW, T^d-^t^ 5 45.4
C 5f i
Immenion Angle from North Point = , q 255 49
Immersion Angle from Verier = Q^ C = V 306 51
h. m,
r, 4- 0 20.4
BMMKSioix: SanFVancueo 3fean Time, T^d-^t^ 6 45.8
USE OF THE TABLES.
497
Calculation of a more accurate time, etc., of Emersion.
The emersion will take place on the moon^s bright limb, and therefore be useless. The
recalculation of this phase is merely for the purpose of illustration.
log cog (A' — </) H-9.87U h. m. i.
log r cos y' -f-9.8983 A — rf +2 37 35
log I 9.4192 Sid. eqmy. for ^ ^ » J ^ 4-0 10 15
logrcoe9'lco8(A'— rf) = log «' +9.1889 A — J4-Jm= A' — </ -»-2 47 50
log sin (A' — rf) -1-9.8252 9' + -2125
log rcOBtp' X -f-9.3175 ^ "+- 0^56
log sin Z) -h9.5166 ^ — »'=. » cos iV^ -t- .1669
logrc089'l8m(A'— </)8mZ)= log i/ -1-8.6593 P' -5574
log » sin iV +9.6052 «' + -^545
log n cos iST +9.2224 p'— u'= n sin iV + .4029
log tan N +0.3828 log ' "»- 5-531 1
log sin N +9.9656 log n sin iV^ + 9.6052
log n +9.6396 log ntsinN -h 9.1363
log m +9.2529 log n cos iV^ + 9.2224
-log*? -9.6133 ^"^"r^^i'n^
* « n t cos iV + .0567
log COS (3£ — iV) +9.5798 From first determination, m cos if + .1790
log sin (M"- N) —9.9661 « cos if + n < cos N=^ (3) .2357
From first determination, log j +9.8179 ntsinN -h .1369
^ Prom first determination, m sin Jf — .0005
logjsin(lf— iV)= log cos V— 9.7840 msinlf + ii<sini^=» (4) .1364
log sin V +9.8998 (*)* .0186
logib 9.4350 (3)* .0556
log k sin xp +9.3348 (*)* + W* = ** = 0.0741, Check .0742
log *^ =. log (2) +9.6952 , 1«^ «; ^ ^f »^
* * * ^ ' log < u' + 8.7200
— log 2 cos (if — iV) = log (1 ) —9.1931 log v' + 8.6593
(1) - .1560 log < w' + 8.1904
(2) +.4957 ^'^•+" -^^^^
n)+(2)== < + .3397 From first determination, r+ .3489
- v-htv^ = CC08C+ .3644
o , t «' + .0525
From first determination, if 359 50 From first determination, ti + .5022
i\r 67 30 ' u + <ii' =. csin C + .5547
M^ N 292 20 log c sin C + 9.7441
90<^ — iV 22 30 log c cos C + 9.5616
V' 127 27 log tan C + 0.1825
Por Emersion, 90<» — iV^ + 1/; = Q 149 57
h. m.
r— rf 6 25.2
(Bednced to hours and minutes), t + 0 20.4
^uxaBiom : Scan Francisco Mean TitMj T — d-ht 6 45.6
^ o '
C 56 42
Emersion Angle from North Point = . Q 149 57
Emersion Angle from Vertex == Q + C = F 206 39
The last two pages of the Occultations contain a list of such Occultations as will be visible
at Washington, during the year 1856.
The Tables of Jupiter^ s Satellites embrace, —
A list of the occultations, eclipses, transits, and transits of shadows, in the order of the time
of the occurrence of the phenomena for the satellites taken promiscuously. They are given
for every month, accompanied with a diagram, constructed for the eclipse which occurs
nearest the middle of the month, showing the phases of the eclipses for an inverting telescope.
A table containing the mean time of the geocentric superior conjunction, and the rectangu-
498 USE OF THE TABLES.
lar coordinates of the satellites correspondiiig to the time from the next preceding superior
conjunction, at intervals of twenty minutes for the first satellite, of forty minutes for the
second, of one hour and twenty minutes for the third, and of three hours for the fourth satel-
lite. They are also given for the time of eclipse for the first, second, and third satellites at
intervals of seven days, and for the fourth for every eclipse. They enable the astronomer to
obtain the configurations at all times. They are given in seconds of arc.
The coordinates have their origin in the centre of the primary, and are referred to the
major and minor axes of the apparent ellipse described by the path of the satellite.
The major axis of this ellipse is constant, for the earth's mean place ; but the minor axis
takes all values from the positive and negative maxima to zero, owing to the changes in the
earth's elevation above the plane of the satellite's orbit
The values in the table correspond to the maximum value of the conjugate axis, as seea
from the sun or that of the mean maximum for the earth (which is a constant value). Fac-
tors are given in an adjoining column, at intervals of seven days for the first, second, and
third satellites, and seventeen days for the fourth, to reduce the above values to those cor-
responding to the axis for the time being ; also for the same intervals, the angle of inclinatioa
of the northern semi-minor axis to the circle of declination.
X is positive after superior conjunction, or on the east side of the planet, negative before
superior conjunction, or on the west side, y will be positive north, negative south. The
eclipses, occultations, ^. of the satellites, visible at Washington, that is, those which occur
when the sun is 8° below and Jupiter 8** above the horizon, are distinguished by a W. placed
after the name of the phase.
The Appendix contains an article on the construction of this work, similar to that of the
preceding year. It will be seen that the elements of the orbit of Saturn have been* somewhat
modified by Peirce ; that Peters' formula for the ephemeris of Sirius, embracing its oscilla-
tions in Right Ascension, has been adopted ; and that a table of corrections is given to be
applied to the Moon's Horizontal Parallax to make it conform to Adams' tables.
It also contains tables of reduction from the equator to the ecliptic, and the reverse ; a
general table for the Libration of the Moon, constructed by means of the formulas on page
330, and furnishing the values to be employed in the computation of the moon's libration in
latitude and longitude (see page 330) ; a table showing the moon's mean motion in longitude
for sidereal intervals of time, carried out to tenths of minutes ; the table showing the correction
required on occount of second difierences in the moon's motion, the use of which is explained
in the preceding part of this article, page 487 ; a convenient table of logarithms of small arcs
in space or time, and a table for converting mean solar into sidereal time, and the reverse.
An improved method of finding the error and rate of a chronometer by equal altitudes,
prepared by Professor Chauvbket, and the Ephemeris of Neptune for the year 1854, are
also given in the Appendix.
APPENDIX.
CONSTRUCTION OF THE ASTRONOMICAL AND
NAUTICAL EPHEMERIDES FOR 1856.
Thb Precession of the Equinoxes adopted in this volume is taken from Strutb
and Peters ; ♦ it is,
Precession = 50".2411 4- 0".0002268 1,
in which t is the number of years afler 1800.
The Mean Obliquity of the Ecliptic is also taken from Stbuve and Peters, and its
value is, f
Obliquity = 23** 27' 54".22 — 0".4645 1 — 0".0000014 i».
The constant of aberration is that of Stettve, and is, f
Aberration = 20".4451 ± 0".0111.
The Nutation of the Apparent Obliquity and the Equation of the Equinoxes are
computed from Peters' formulas given in his Numerus Corutans NutationU.^
These formulas are reprinted in the volume of this ephemeris for 1855.
The Mean Places of the Fixed Stars are taken from the list of stars in the English
Nautical Almanac for 1855, combined with that given in the Astronomical Observa-
tions made during the Year 1846 at the National Observatory^ Washington,
The Apparent Places of the Fixed Stars have been obtained by means of a set of
tables constructed and printed in the office of this work, from the transformation of
Peters' formulas, || which are given in the Construction of the Almanac for 1855.
The place of Sirius is corrected by the following formula, given by Peters, for
the variability of its motion in right ascension compared with those of /3 Ononis,
a Ononis, and Procyon.
Variation of right ascension = 0^.101 -h 0^.00072 i H- 0^.170 sin. (iiH- 92*" 18') ;
in which
* Pbtsbb' Ntimenu Omutana NutationiM, p. 71.
t Ibid., pp. 66 and 71.
I Stbutb'b Constant de PAbemUum^ p. 47.
f Pbtbbs' iVtifii€n» Ctmttana Nutationiaj pp. 46 -48.
I Ibid., pp. 73, 74.
1
APPENDIX.
tf := the eccentric anomaly from the inferior apsis. It is found from the elements.
Mean annual motion of Sinus in its orbit = T*.31(>4 ± 0®.2162
Period of its revolution = 49y-.245 ± l'-.456
Passage through the inferior apsis = 1792.819 d: 2^.039
Eccentricity = 0.5647 ifc 0.0827.
The List of Moon-culminating Stars is enlai^d, and so arranged in a more sjrste-
matic form as to permit the observer a greater range for selection.
The Ephemeris of the Sun is constructed from Carlini's tables with Bessbl's
unprovements. In the computation of the Sun*s Geocentric Ck>drdinates, regard has
been had to the sun^s latitude ; the computation has been made by means of the for-
mulas given in the Construction of the Almanac for 1855.
Encke's discussion of the Transits of Venus in 1761 and 1769, in his Der Vemu^
durchgang von 1769, 6cc., has furnished the standard
Equatorial Horizontal Parallax at the Earth's Mean Distance :;= 8".5776.
The Sun's Semidiameter at the Earth's Mean Distanoe has been taken equal to
16' 2".
For reducing observations of different observers, the following corrections may be
added: —
For Greenwich Mural Circle,
H.
+ 6.21
cc
cc
cc
cc
H. B.
— 0.43
u
cc
u
cc
P.
— 0.86
u
cc
u
cc
£.
-t-0.17
cc
cc
cc
cc
R.
— 0.57
cc
cc
cc
u
G.
— 0.18
cc
cc
<c
cc
I. H.
— 0.87
tc
cc
cc
cc
D.
— 0.61
cc
cc
cc
cc
W. R.
-1-0.49
(C
cc
cc
cc
P.
— 1.28
Konigsberg
Meridian Circle,
Bessel
— 1.10
Dorpat
cc
cc
W. Strove
— 1.36
Washington
Mural Circle,
Prof. Coffin
■+■ 1.00
cc
cc
cc
Lieut.
Page
-1-1.00
Washington Meridian Circle, Prof. Hubbard — 0.41
The Ephemeris of the Moon has been constructed from The TaNe$ sf ike ifboa
constructed and printed for the use of the Nautical Almanac.
The Parallax of the Moon given by Adams* Tables is more reliable than that
which is given in the Moon Tables, and will probably be adopted in the next Tolome
of this Ephemeris. A table is given in the Appendix, by which the parallaxes for the
years 1855 and 1856 may be referred to Adabcs' Tables.
The Semidiameter of the Moon at the Earth's Mean Distance is taken to be i^ part
greater than that given by Burckhardt, although that given by Bihickhardt is prob*
ably better adapted to the computation of eclipses and occultations.
2
CONSTRUCTION OF THE ALMANAC.
The Ephemeris of Mercury has heen constructed from the theory of Le Vereiek,
published in the Additions to the Connaissance des Temps for 1848, without any
alteration. Manuscript Tables have been computed from Le Verrier's formulas for
this purpose, by Professor Winlock.
The Ephemeris of Venus has been derived from manuscript Tables, constructed
from Lindenau^s Tables, in a form similar to that adopted for the Lunar Tables ;
applying Airt^s Long Equation and the corrections proceeding from the discussion,
by the method of Least Squares, of Mr. Hugh Breen^s results contained in his paper
on the Corrections o/" Linden au's Elements of the Orbit of Venus^ &c., published in
the Memoirs of the Royal Astronomical Society^ Vol. XVIII. ; and adoptmg the sec-
ular variations of the elements from Le Verrier's Memoir on the Determination of
the Secular Inequalities of the Planets^ which appeared in the Connaissance des
Temps for the year 1844.
The following are the correspondmg corrections of the elements for 1856 : —
corr. mean long, for Jan. 1, 1856 = — 1".4
corr. mean motion = — 0".052
corr. eccentricity = 4-0.00003774
corr. long, of per. = -1-413.2
corr. long, of node = -1-73.7
corr. inclination = -|-2".3.
The Ephemeris of Mars is derived from manuscript Tables constructed from
Lindenau's Tables in the same manner as the Tables of Veyus. Mr. Hugh Breen^s
results contained in his paper On the Corrections o/* Lindenau's Elements of Mars ^
published in the Memoirs of the Royal Astronomical Society, Vol. XX., have also
been discussed and applied ; and Lb Verrier's secular variations of the elements are
likewise adopted.
The following are the corresponding corrections of the elements for 1856 : —
corr. mean distance = —0.000004531
corr. mean motion = -|-0".04795
corr. mean long, for Jan. 1, 1856 = -h4".88
corr. eccentricity = 4-0.000005700
corr. long, of per. = -|-6".99
corr. long, of node = -|-204".5
corr. inclination = — 4".0.
The Ephemeris of Jupiter is derived from manuscript Tables constructed from
Bouvard's Tables, with such changes as were required to make them correspond
more nearly to the formulas.
The Ephemeris of Saturn is also derived from manuscript Tables constructed from
the Tables of Bouvard, with changes having the same object. The mass of Jupiter
given by Bessel has been adopted and used.
™^ "^^ = 1047.87J± 0.235 ^^ ^^ """^'^ '^^•
The following corrections of the elements have also been introduced for 1856 : —
3
APPENDIX.
corr. mean long, for Jan. 1, 1856 = -f4".9
corr. long, of node = — 14d".4
corr. inclination := — 5".7.
The Ephemeris of Uranus is derived frofn the elliptical portion of BomrARD^s
TahleSf with Lb Verrier^s corrections and perturbations caused by Jupiter and
Saturn, contained in his Recherches sur Its Mouvements de la FlanHe Herschel {diie
Uranus) J published in the Connats^ance des Temps for 1849, and also Peiecb's cor*
rections and perturbations arising from the influence of Neptune.
The combined corrections of the elements deduced by Peiece for January 1, 1800,
are as follows : —
corr. mean distance = -H).000942
corr. mean motion = — 1.^^13560
corr. eccentricity = —0.0003626
corr. long, of per. = -f-8252".4
corr. long, of epoch = -»-2675."4.
The Ephemeris of Neptune is derived from Feiece's theory and Walkee^s orbit
The eclipses and elongations of Jupiter's Satellites are computed from Damoiseau's
Tables.
The vertical semidiameters of the Planets are computed from the following
values : —
T«rtloil BwnMtonwttr. Log. Dbft. AnthmAty
Mercury 3.34 -^ 0.00 Lb Vebriee, T^ory of Ifercury.
Venus 8.546 d: 0.086 0.00 ]
Mars 2.842 d= 0.057 0.25
Jupiter 18.78 ±0.067 0.70
Saturn 8.77 ±0.039 0.95
Uranus 1.68 ±0.3 1.30
Peiece, from the Washington Ob-
servations of 1845 and 1846,
made with the mural circle.
To correspond to the apparent semidiameters observed with the Washingtcm moral
circle, all the semidiameters, except those of Mercury, computed from these values,
must be increased by a constaut quantity = 0'^57.
The apparent elements of Satum^s Rings are computed from Bessel's data, except
those for Bond's dusky ring.
The elements of the eclipse are adapted to the neat and simple modification of
Bessel's formulas, suggested by T. Henry Saffoed, Jr.
The elements adapted to Bessel's formulas are given for all occultations of stars
greater than those of the sixth magnitude.
The Heliocentric Ck>drdinates of the Planets are given for the computation of per-
turbations, and the following are the values of the masses, that of the Sun being
unity: —
Mercury i^c?!? Encke, A. iV., No. 443.
4865751
1
390000
Venus Qonnnn ^* Vereier, ThloT. de Merc,^ p. 1 15.
4
CONSTRUCTION OF THE ALMANAC.
The Earth
Mars
Jupiter
Saturn
Uranus
Neptune
354936
1
2680637
1
1047.879 ± 0.235
1
3501.6
1
24905
1
18780
Le Vebeibb, TUor. de Merc.^ p. 26.
BxTBCKHABDT, CoTin. dcs Ttmps^ 1816, p. 343.
Bbssel, Ber Masse des Jupiter^ p. 64.
Bessel, Comptes Rendus^ 1841.
Lamont, Mem. Ast. Soc,^ Vol. XL p. 54.
Peibce, Am. Ac, Proc, Vol. I. p. 333.
The intervals of original computation have in all cases heen made sufficiently
small to authorize the use of the differences as a check of the accuracy of the work.
The results have also been tested, in various portions, by means of duplicate com-
putations. The proofs from the stereotype plates have been thoroughly examined by
an independent series of differences. And it is believed that, in every respect, that
system has been adopted in which accuracy was most likely to be secured.
The principal computations of the Ephemeris have been distributed in the follow-
ing manner.
The Sun has been computed by Professor Winlock. The Moon, with the Culmi-
nations and Lunar Distances, has been divided between Mr. Runkle, Professor Van
Vleck, Professor Hedrick, Mr. Kerb, and Mr. Wright. Mercury has been com-
puted by Professor Winlock, Venus by Miss Mitchell, Mars by Mr. Bradford,
Jupiter by Professor Kendall, Saturn by Mr. Runkle, Uranus by Professor Peirce,
and Neptune by Professor Kendall. The Fixed Stars have been computed by Mr.
Sprague, the General Constants for Reduction by Professor Peirce, and the Occul-
tations by Mr. Downes. The eclipses have been computed by Mr. Wright and
Mr. Kerr. The Table of Geographical Positions of the Principal Observatories has
been prepared by Dr. B. A. Gould. The Table of General Geographical Positions
has been prepared by Mr. Oliver.
64
CORRECTIONS
To be applied to Hoon'e Horiiontal Pandlax to make itoonform to Adami' TUilea.
■
GREENWICH :
MEAN NOON.
18S$.
Day of
Month.
d.
Jan.
Feb.
March.
April.
May.
Jane.
July.
Aug.
Sept.
Oct.
Nor.
Dee.
«
M
11
»»
II
n
N
»
w
N
u
«r
1
—1.5
—3.1
—2.2
—0.6
+0.8
+1.6
+ 1.4
—0.2
—2.3
—2.6
—3.3
—1-8
2
1.7
3.4
2.2
0.6
0.8
1.2
0.9
1.1
2.9
2.9
3.3
0.9
3
2.4
3.4
2.2
0.8
0.4
0.8
+0.2
1.9
3.6
3.2
8.1
—0.5
4
2.9
3.9
2.6
1.0
0.2
0.3
—0.5
2.6
3.9
3.7
2.4
+0.1
5
3.3
4.0
2.8
1.6
+0.0
+0.1
1.0
3.0
4.1
3.5
1.7
0.5
6
3.5
3.8
2.7
l.l
—0.2
—O.l
1.6
3.6
4.0
3.3
1.1
0.7
7
3.6
3.3
2.5
0.8
+0.2
0.2
1.8
3.8
3.8
2.8
—0.4
1.4
8
3.3
2.6
2.2
-0.2
0.5
0.4
2.1
3.8
3.3
2.0
+0.5
2.1
9
3JJ
2.0
1.8
+0 5
0.8
06
2.4
3.8
2.8
1.2
1.0
2.2
10
3.0
1.5
1.1
1.1
0.8
0.7
2.5
3.4
2.3
—0.4
1.5
2.2
11
2.5
1.2
—0.4
1.3
0.7
0.9
2.5
3.1
1.8
+0.4
1.6
1.5
13
2.2
0.8
+0.0
1.3
0.6
1.2
2.5
3.0
1.2
0.7
1.4
+0.6
13
1.8
—0.2
0.4
1.4
0.5
1.5
2.6
2.7
0.6
0.8
0.8
—0.5
14
1.2
+0.4
0.8
1.2
+0.3
2.0
2.9
2.4
—0.2
0.9
+0.3
OS
15
—0.4
1.1
1.2
1.2
—0.0
2.4
2.9
2.0
+0.1
0.9
—0.2
1.1
16
H-0.5
1.7
1.3
0.8
0.6
2.7
3.0
1.7
0.3
0.8
0.6
1.7
17
1.1
1.8
1.6
+0.4
1.2
3.0
2.9
1.3
0.5
0.7
0.9
2.1
18
1.3
1.2
1.6
—0.3
1.9
3.0
2.6
0.8
0.5
0.4
1.4
2.3
19
1.2
+0.5
+0.9
—0.5
1.0
2.5
3.0
2.0
0.4
0.4
+0.1
1.7
2.6
20
0.7
—0.4
1.9
2.8
2.7
1.8
0.4
0.1
—0.5
2.2
M
21
+0.\
1.2
0.4
2.4
2.8
2A
1.5
0.0
+0.1
1.0
2.4
3.1
22
-0.4
1.9
1.2
2.7
2.7
2.1
0.9
-0.1
—0.2
1.4
2.3
2.5
23
1.0
2.4
IJ6
2.7
2.3
1.5
0.4
+0.3
0.1
1.3
2.2
2i)
24
1.3
2.8
1.9
2.5
2.0
1.0
—0.1
0.6
0.0
1.3
1.7
1.5
25
1.5
2.8
2.1
2.2
1.6
—0.2
+0.4
0.9
0.0
1.0
1.3
1.4
26
1.7
2.7
2.5
1.8
1.1
+0.6
11
1.3
0.1
1.1
0.8
1.2
27
1.8
2.5
2.5
1.2
—0.3
1.0
1.8
1.3
0.5
1.3
0,9
0.6
28
2.2
2.5
2.1
0.7
+0.5
1.9
1.9
0.7
0.9
1.5
1.3
0.9
29
2.3
2.2
1.7
—0.1
1.5
2.4
2.1
+0.0
1.4
1.7
12
0.5
30
2.6
2.2
1.4
+0.4
1.9
2.1
1.6
—0.7
1.9
2.4
1.4
-OX)
31
—2.8
—2.2
—1.1
+0.8
+1.9
+1.4
+0.7
—1.6
—2.6
—2.7
—1.3
+0.8
GRE
ENW]
[CH ]
MEAJ
;r N0(
—1.9
ON.
+0.0
\m.
-2.1 1
1
+0.3
+1.1
+0.4
-1.3'
—2.4
—2.5
+1.1
+0.9
~+d:6
2
0.8
1.1
+0.1
1.6
2.3
2.1
1.3
0.5
1.2
0.7
1.4
3.0
3
1.3
1.1
— O.l
1.5
2.3
1.7
0.7
0.7
1.1
+0.2
2.0
3.3 1
4
1.8
0.9
0.4
1.8
2.3
1.4
0.3
0.9
0.8
—0.4
2.7
3.8 1
5
2.1
+0.6
0.6
2.1
2.3
1.3
—0.2
1.0
0.4
1.0
2.9
4.0
6
2.1
—0.1
l.l
2.5
2.4
1.2
+0.1
l.l
+0.0
1.6
3.5
^ * 1
7
1.7
1.1
2.7
3.1
2.4
1.1
0.4
1.0
—0.4
2.3
4.1
4.1 1
8
l.l
2.2
3.7
3.5
2.5
0.8
0.7
0.7
0.9
3.0
4.4
3.6
9
4-0.1
3.2
4.2
3.6
2.4
-0.3
0.9
0.4
1.2
3.2
4.0
3.0 ,
10
—0.9
3.9
4.6
3.6
2.0
+0.2
l.l
0.2
1.4
3.4
3.4
2.1 '
11
1.9
4.2
4.6
3.3
1.5
0.7
l.l
0.2
1.7
3.2
2.7
1.0
12
2.6
4.3
4.2
2.7
0.7
1.2
l.l
0.2
1.8
2.9
2.0
-OJ ,
13
2.9
4.1
3.7
2.2
—0.1
1.4
1.1
O.l
1.8
2.5
1.5
+0.4
14
3.2
4.0
8.2
1.5
+0.6
1.7
1.2
+0.0
1.9
2.5
1.1
1.0 ;
15
3.6
8.7
2.7
0.8
l.l
2.0
1.3
—0.4
2.3
2.5
0.8
1.0
16
3.7
3.4
2.0
—0.1
1.4
2.1
1.3
0.9
3.0
2.5
0.4
1.U
17
3.8
8.0
1.4
+0.5
1.9
1.9
0.7
1.7
3.2
2.1
0.1
1.1
18
3.7
2.5
0.8
0.8
2.1
1.4
+0.0
2.5
3.5
1.9
O.l
0.9
19
3.1
2.0
0.5
1.1
2.0
+0.7
—1.0
3.1
3.9
1.8
O.l
0.9
20
2.6
1.8
0.4
1.2
1.7
-0.2
1.8
3.6
8.3
1.6
0.1
0.9
21
2.3
1.4
0.1
1.0
0.9
1.3
2.6
3.9
3.1
1.5
0.0
0.8
22
2.0
♦ 1.2
0.0
0.8
+0.1
2.2
3.2
4.0
2.6
13
0.1
0.8
23
1.7
1.1
0.2
+0.2
-0.8
2.6
3.6
4.0
2.3
1.1
0.2
a7
24
1.7
0.8
0.3
—0.4
1.4
3.0
3.9
3.8
2.0
0.8
0.3
0.5
25
1.4
0.6
0.3
0.7
2.0
3.4
4.0
3.5
1.3
0.5
0.4
0,4 1
26
1.1
0.3
0.3
1.1
2.2
8.7
4.1
2.9
0.9
-O.l
0.4
+0.2
27
0.7
—0.0
0.3
1.3
2.6
3.8
3.9
2.1
—0.3
+0.2
+0.3
— OJJ .
28
—0.4
+0.3
0.3
1.6
2.8
8.7
3.4
1.2
+0.3
0.5
—0.2
1.1 i
29
H-0.4
0.4
0.5
2.0
3.0
3.4
2.5
—0.3
0.8
0.5
0.7
21 :
30
0.8
0.4
0.7
2.2
3.2
2.7
1.5
+0.4
0.9
0.5
1.4
3,0 :'
31
+1.1
+0.4
—l.l
—2.4
—3.0
—1.9
—0.7
+0.9
+0.9
+0.6
—2.1
-^•_J
EaUATOR TO ECLIPTIC.
i
TABLE FOB CHANGINQ LATITUDE AND LONGITUDE TO BIGHT ASCEN-
SION AND DECLINATION, OB THE BEVEBSE.
1
1
h
h
A
a
Diff.
Log. a
Diff.
b
Log.6
B
Diff.
k
k
o
0
h. m.
0 0
0 OJO
0.3981
1
9.6000
1
0.9173
9.9625
O 1
0 0.0
26.0
h. ro.
12 0
0 1
180
1
0 4
0 5.4
0.3980
2
9.5999
2
0.9174
9.9626
0 26.0
26.1
11 56
179 1
2
0 8
0 10.8
0.3978
3
9.5997
3
0.9175
9.9626
0 52.1
26.0
11 52
178
3
0 12
0 16.2
0.3975
4
9.5994
5
0.9176
9.9627
1 18.1
25.9
11 48
177 1
4
0 16
0 21.5
0.3971
5
9.5989
6
0.9178
9.9627
1 44.0
25.9
11 44
176
5
0 20
0 26.9
0.3966
7
9.5983
7
0.9180
9.9628
2 9.9
25.9
11 40
175
6
0 24
0 32.2
0.3959
8
9JJ976
9
0.9183
9.9630
2 35.8
25.8
11 36
174
7
0 28
0 37.4
03951
9
9.5967
10
0.9186
9.9631
3 1.6
25.8
11 32
173
8
0 32
0 42.6
0.3942
10
9.5957
11
0.9190
9.9633
3 27.4
25.6
11 28
172
9
0 36
0 47.7
0.3932
13
9.5946
13
0.9195
9.9635
3 53.0
25.6
11 24
171
10
0 40
0 52.8
0^920
13
9J^933
14
0.9200
9.9638
4 18.6
25.4
11 20
170
11
0 44
0 57.8
0.3907
13
9^919
15
0.9205
9.9640
4 44.0
25.3
11 16
169
18
0 48
1 2.7
0^894
15
9.5904
17
0.9211
9.9643
5 9.3
25.2
11 12
168
13
0 52
1 7.5
0.3879
16
9.5887
18
0.9217
9.9646
5 54.5
25.1
11 8
167
14
0 56
1 12.8
0.3863
17
9.5869
20
0.9224
9.9649
5 59.6
24.9
11 4
166
15
1 0
1 17.0
0.3846
19
9JS849
21
0.9231
9.9652
6 24.5
24.8
11 0
165
16
1 4
1 21.5
0.3827
20
9.5828
22
0.9239
9.9656
6 49.3
24.6
10 56
164
17
1 8
• 1 25.9
0.3807
21
9.5806
24
0.9247
9.9660
7 13.9
24.4
10 52
163
18
1 12
1 30.2
0.3786
22
9.5782
25
0.9856
9.9664
7 88.3
24.2
10 48
162
19
1 16
1 34.4
0.3764
23
9.5757
27
0.9265
9.9668
8 2.5
24.0
10 44
161
80
1 20
1 38.5
0.3741
24
9.5730
29
0.9274
9.9673
8 26.5
23.9
10 40
160
21
1 24
1 42.4
0.3717
26
9.5701
30
0.9284
9.9677
8 504
23.6
10 36
159
22
1 28
1 46.2
0.3691
27
9.5671
31
0.9294
9.9682
9 140
23.4
10 32
158
23
1 32
1 49.9
0.3664
27
9.5640
33
0.9304
9.9687
9 37.4
23.2
10 28
157
24
1 36
1 53.4
0.3637
29
9.5607
35
0.9315
9.9692
10 0.6
22.9
10 24
156
25
1 40
1 56.7
0.3608
30
9.5572
36
0.9326
9.9697
10 23.5
22.7
10 20
155
26
1 44
1 59.9
0.3578
31
9J^536
38
0.9338
9.9703
10 46.2
22.5
10 16
154
27
1 48
2 2.9
0.3547
32
9.5498
39
0.9350
9.9708
11 8.7
22.2
10 12
153
28
1 52
2 5.8
0^515
33
9.5459
41
0.9362
9.9714
11 30.9
21.9
10 8
152
29
1 56
2 8.5
0.3482
34
9.5418
43
0.9374
9.9719
11 52.8
21.7
10 4
151
30
2 0
2 11.1
0.3448
35
9.5375
45
0.9387
9.9725
12 14.5
21.4
10 0
150
31
2 4
2 13.5
0.3413
37
9.5330
46
0.9400
9.9731
12 35.9
21.1
9 56
149
32
2 8
2 15.7
0.3376
38
9.5284
48
0.9413
9.9737
12 57.0
20.8
9 52
148
33
2 12
2 17.7
0.3338
38
9.5236
51
0.9426
9.9743
9.9750
13 17.8
20.6
9 48
147
34
2 16
2 19.6
0^00
39
9.5185
52
0.9440
13 38.4
20.2
9 44
146
35
2 20
2 21.3
0.3261
40
9.5133
54
0.9453
9.9756
13 58.6
20.0
9 40
145
36
2 24
2 22.8
0.3221
41
9.5079
56
0.9467
9.9762
14 18.6
19.6
9 36
144
37
2 28
2 24.1
0.3180
43
9.5023
58
0.9481
9.9768
14 38.2
19.3
9 32
143
38
2 32
2 25.2
0.3137
44
9.4965
60
0.9495
9.9775
14 57.5
19.0
9 28
142
39
2 36
2 26.2
0.3093
44
9.4905
63
0.9509
9.9781
15 16.5
18.6
9 29
141
40
2 40
2 27.0
0.3049
45
9.4842
65
0.9524
9.9788
15 35.1
18.4
9 20
140
41
2 44
2 27.6
0.3004
46
9.4777
67
0.9538
9.9794
15 53.5
18.0
9 16
139
42
2 48
2 28X)
0.2958
47
9.4710
69
0.9552
9.9801
16 11.5
17.7
9 12
138 1
43
2 52
2 28.2
0.2911
47
9.4641
72
0.9566
9.9807
16 29.2
17.3
9 8
137 1
44
2 56
2 28.2
0.2864
49
9.4569
74
0.9581
9.9814
16 46.5
17.0
9 4
136 ;
45
3 0
2 28.1
0.2815
50
9.4495
78
0.9595
9.9820
17 3.5
16.7
9 0
135 !
46
3 4
2 27.8
0.2765
50
9.4417
80
0.9610
9.9827
17 20.2
16.3
8 56
134
47
3 8
2 27.3
0.2715
51
9.4337
82
0.9625
9.9834
17 36.5
15.9
8 52
133
48
3 12
2 26.6
0.2664
52
9.4255
86
0.9639
9.9840
17 52.4
15.6
8 48
132
49
3 16
2 25.8
0.2612
53
9.4169
89
0.9653
9.9847
18 8.0
15.3
8 44
131 j
50
3 20
2 24.8
0.2559
54
9.4080
92
0.9667
9.9853
18 233
14.9
8 40
130 i
51
3 24
2 23.6
0.2505
54
9.3988
95
0.9681
9.9859
18 38.2
145
8 36
129
52
3 28
2 22.2
0.2451
55
9J3893
99
0.9695
9.9865
18 52.7
14.2
8 32
128
53
3 32
2 20.7
0.2396
56
^.3794
102
0.9709
9.9872
19 6.9
13.8
8 28
127
54
3 36
2 19.0
0.2340
57
9.3692
106
0.9722
9.9878
19 20.7
13.4
8 24
126
55
3 40
2 17.1
0.2283
57
9.3586
HI
0.9736
9.9884
19 34.1
13.1
8 20
125
EQUATOR TO ECLIPTIC.
TABLB FOB CHANGINQ LATITUDE AND LONGITUDE TO RIGHT ASCBN- |
SION AND DECLINATION, OR THE REVERSE.
k
h
A
a
Dlff
LDf.«
DiflT.
6
Log. 6
B
Dl£
k
k
o
Yl m.
O 1
iSaU
h. m.
0
56
3 44
2 15.1
0.2226
58
9.3475
114
0.9749
9.9890
12.7
8 16
124
67
3 48
2 13.0
0.2168
59
9.3361
119
0.9762
9.9895
19 59.9
12.3
8 11
123
58
3 52
2 10.7
0.2109
59
9;3242
124
0.9775
9.9901
20 12.2
12.0
8 8
122
59
3 56
2 8.2
0.2050
60
9.3118
129
0.9788
9.9907
20 24.2
11.6
8 4
121
60
4 0
2 5.6
0.1990
60
9.2989
134
0.9800
9.9912
20 35.8
11J2
8 0
120
61
4 4
2 2.8
0.1930
61
9.2855
139
0.9812
9.9918
20 47.0
10.9
7 56
119
62
4 8
1 59.9
0.1896
62
9.2716
146
0.9824
9.9923
20 57.9
10.4
7 52
118
63
4 12
1 56.9
0.1807
62
9.2570
152
0.9836
9.9928
21 8.3
10.1
7 48
117
64
4 16
1 53.7
0.1745
63
9.2418
159
0.9847
9.9933
21 18.4
9.7
7 44
116
65
4 20
1 50.4
0.1682
63
9.2259
166
0.9858
9.9938
21 28.1
9.4
7 40
115
66
4 24
1 47.0
0.1619
64
9.2093
175
0.9868
9.9942
21 37.5
8.9
7 36
114
67
4 28
1 43.5
0.1555
64
9.1918
183
0.9878
9.9947
21 46.4
8.6
7 32
113
68
4 32
1 39.8
0.1491
64
9.1735
192
0.9888
9.9951
21 55.0
8JJ
7 28
112
69
4 36
1 36.1
0.1427
65
9.1543
203
0.9898
9.9955
22 3.2
7.9
7 24
111
70
4 40
1 32.2
0.1362
66
9.1340
214
0.9907
9.9959
22 11.1
7.4
7 20
110
71
4 44
1 28.2
0.1296
66
9.1126
227
0.9916
9.9963
22 18.5
7.1
7 16
109
72
4 48
1 24.2
0.1230
66
9.0899
240
0.9924
9.9967
22 25.6
6.7
7 12
108
73
4 52
1 20.0
0.1164
67
9.0659
256
0.9932
9.9970
22 32il
6.3
7 8
107
74
4 56
1 15.7
0.1097
67
9XH03
273
0.9940
9.9974
22 38.6
5.9
7 4
106
75
5 0
1 IM
0.1030
67
9i)130
294
0.9947
9.9977
22 44.5
5.6
7 0
105
76
5 4
1 IXi
0.0963
67
8.9836
315
0.9954
9.9980
22 50.1
5.1
6 56
104
77
5 8
1 2.5
0.0896
68
8.9521
342
0.9960
99982
22 55.2
4.8
6 52
103
78
5 12
0 58.0
0.0828
68
8.9179
373
0.9966
9.9985
23 0.0
4.4
6 48
102
79
5 16
U 53.4
0i)760
69
8.8806
410
0.9971
9.9987
23 4.4
4.0
6 41
101
80
5 20
0 48.7
0.0696
68
8.8396
453
0.9976
9.9990
23 8.4
3.6
6 40
100
81
5 24
0 44.0
0.0623
69
8.7943
508
0.9981
9.9992
23 120
3.3
6 36
99
82
5 28
0 39 2
0i)554
69
8.7435
576
0.9985
9.9993
23 15.3
2.8
6 32
98
83
5 32
0 34.4
0.0485
69
8.6859
667
0.9988
9.9995
23 18.1
2.5
6 28
97
84
5 36
0 29.6
0.0416
69
8.6192
789
0.9991
9.9996
23 20.6
2.1
6 24
96
1 85
5 40
0 24.7
0.0347
69
8.5403
967
0.9994
9.9997
23 22.7
1.7
6 20
95
86
5 44
0 19.8
0.0278
69
8.4436
1248
0.9996
9.9998
23 24.4
1.3
6 16
94
87
5 48
0 14.9
0i)209
70
8.3188
1760
0.9998
23 25.7
1.0
-6 12
93
88
5 52
0 9.9
0.0139
69
8.1428
3010
0.9999
0.0000
23 26.7
0.6
6 8
92
89
5 56
0 5.0
0.0070
70
7.8418
1.0000
0.0000
23 27.3
0.2
6 4
91
90
6 0
0 0.0
0.0000
1.0000
0.0000
23 27.5
6 0
90
Thistabl
eis comp
»'atcd for
an obliquity of 23^27' 30.
1
or
th<
Theai^g;!!
,2h.
Rif^ht as<
s formnlf
iment k i
tension (i
B
8 either t
i) and de
he longitade or the right a«
clination (9) are conrerted ii
Mnsion, 0
ito longit
>r thefare:
nde (1) m
Koess
ndlatj
abore 180^ ^
1
itode09)b7 1
Jfc =
aor =s
» — 12»»- in whi<
:h the gig
n of a if
thatc
jfcoi. a j
tan.p^
a tan. {i
-^>
thesig
nofBif
that(
>f sin. a
Uui./» =
6tan. (<l
— B)co
«. p
thesig
nofau
thatc
»ftan. a '
X s=
a + Ah
HP
1
foi
Longitud
idqIb
e (a) and
ladtade
(jf) are conrerted into righ
t ascenii<
m and d
eclina
tionbj dbe '
ib = a»
-c2-
- 180-» in whi
chthesif
^ of a if
that<
»f coe.2 1
tan.^ =
a tan. (/t
"*-^
thesif
niofaii
that
of tin. 1 1
UUL^ =
6tan.(/»
-hB)oc
^9
thesij
^of.^ii
thot
Dftan.l
o =
i4-o-
'9
The foUo
wingapi
iroximau
) fonnnis can be be nted wh
l = o-»-.<l4-o(* — B]
en/fifle
|iec/f
ttthanK
\fi.
an
d the fact
tor tec /f
can ben
eglcc
(edwhen
/fifh
MS than
40.
MOON'S LIBRATION, 1855.
TABLE FOR
THE LIBRATION OF THE. MOON.
a-x
AX
a
B
8-x
8-x
AX
a
B
8-x
o
0
0.0
39
O 1
0 0.0
o
180
o
46
0'.6
56
f i9
o
134
1
0.0
39
0 1.6 179
47
0.6
57
1 4.9
133
2
0.0
39
0 3.1 178
48
0.6
58
1 6.0
132
3
0.1
39
0 4.7
177
49
0.6
59
1 7.0
131
4
0.1
39
0 6.2
176
50
0.6
60
1 8.0
130
5
0.1
39
0 7.7
175
51
0.6
62
1 9.0
129
6
0.2
39
0 9.3
174
52
0.6
63
1 10.0
128
7
0.2
39
0 10.8
173
53
0.5
64
1 10.9
127
8
0.2
39
0 12.4
172
54
0.5
66
1 11.8
126
9
0.2
39
0 13.9
171
55
0.5
67
1 12.7
125
10
0.2
39
0 15.4
170
56
0.5
69
1 13.6
124
11
0.3
39
0 16.9
169
57
0.5
71
1 14.5
123
13
0.3
40
0 18.5
168
58
0.5
73
1 153
122
13
0.3
40
0 20.0
167
69
0.5
75
1 16.1
121
14
0.3
40
0 21.5
166
60
0.5
77
1 16.9
120
15
0.8
40
0 23.0
165
61
0.5
80
1 17.6
119
16
0.3
40
0 24.5
164
62
0.5
83
1 18.4
118
17
03
40
0 26.0
163
63
0.5
86
1 19.1
117
18
03
41
0 27.4
162
64
0.5
89
1 19.8
116
19
OA
41
0 28.9
161
65
0.4
92
1 20.4
115
20
0.4
41
0 304
160
66
0.4
95
1 21.1
114
21
0.4
41
0 31.8
159
67
0.4
99
1 21.7
113
22
0.4
42
0 33.2
158
68
0.4
103
1 22.3
112
23
0.4
42
0 34.7
157
69
0.4
108
1 22.9
111
24
0.4
42
0 36.1
156
70
04
113
1 23.4
110
25
OA
43
0 37.5
155
71
0.4
119
1 23.9
109
26
0.5
43
0 38.9
154
72
0.4
125
I 24.4
108
27
OA
43
0 40.3
153
73
0.4
132
1 24.9
107
28
0.5
44
0 41.7
152
74
0.3
141
1 25.3
106
29
0.5
44
0 43.1
151
75
0.3
150
1 25.7
105
30
0.5
45
0 44.4
150
76
0.3
160
1 26.1
104
31
OJi
45
0 45.7
149
77
0.3
172
1 26.5
103
32
0.5
46
0 47.0
148
78
0.2
186
1 26.8
102
33
0.5
46
0 48.4
147
79
0.2
202
1 27.1
101
34
0.5
47
0 49.7
146
80
0.2
222
1 27.4
100
35
0.5
47
0 51.0
145
81
0.2
247
1 27.7
99
36
0.5
48
0 52.2
144
82
0J2
278
1 27.9
98
37
0.5
48
0 53.4
143
83
0.1
318
1 28.1
97
38
0.6
49
0 54.7
142
84
0.1
370
1 28.3
96
39
0.6
50
0 55.9
141
85
0.1
440
1 28.5
95
40
0.6
50
0 57.1
140
86
0.1
555
1 28.6
94
41
0.6
51
0 58.3
139
87
0.1
740
1 28.7
93
42
0.6
52
0 59.4
138
88
0.0
1110
1 28.7
92
43
0.6
53
1 0.6
137
89
0.0
2220
1 28.8
91
44
0.6
54
1 1.7
136
90
0.0
00
1 28.8
90
45
0.6
55
1 2.8
135
^Ihas the sign of tan. (ft — I)
a has the sign of cos. (ft — 1)
Bhas th^ sign of sin. (ft — X)
Whc
«fl-^
exceeds
180° the table is to be entered with (ft
-Jl)-!
BOO as ^^
) aiga-
ment I
Q the cola
mnfl —
a.
MOON'S MEAN MOTION, 1855.
MOON^S MEAN MOTION IN LONGITUDE FOR SIDEREAL ||
INTERVALS.
1
Dty.
C*s Moiloa In
Longitada.
Minutes.
C's Motion in
Longitude.
Minutes.
C'»Motiooto
LoQfltude.
o /
1
30
16!4
1
13 8.4
1
0.5
31
17X)
2
26 16.9
2
1.1
32
17.5
3
39 25J3
3
1.6
33
18.1
4
52 33.7
4
2.2
34
18.6
5
65 42.1
5
2.7
35
19.2
6
78 50.6
6
3.3
36
19.7
7
91 59.0
7
3.8
37
20.3
8
105 7.4
8
4.4
38
20.8
9
118 15.8
9
4.9
39
21.4
10
131 24^
10
5.5
40
21.9
Hour.
11
6.0
41
224
12
6.6
42
23X)
1
0 32.9
13
7.1
43
235
a
1 5.7
14
7.7
44
24.1
8
1 38.6
15
8.2
45
24J
4
2 11.3
16
8.8
46
25J
5
2 44.3
17
9.3
47
25.7
6
8 17.1
18
9.9
48
26.3
7
3 50.0
19
10.4
49
26.8
8
4 22.8
20
UJO
50
274
9
4 55.7
21
11.5
51
27.9
10
5 28.5
22
12.0
52
28.5
11
6 1.4
23
12.5
53
29.0
12
6 34.2
24
13.1
54
29J
13
7 7.1
25
13.6
55
30.1
14
7 39.9
26
14.2
56
30.7
15
8 12.8
27
14.7
57
31.2
16
8 45.6
28
15.3
58
31.8
17
9 18.5
29
15.9
59
32.3
18
9 51.3
30
16.4
60
Secoodt.
32J
1
19
10 24J
10
ai
20
10 57.0
20
0.2
21
11 29.9
30
0.3
22
12 2.7
40
04
23
12 85.6
50
OS
M
18 8i4
60
OS
10
TABLE I.
TABLE, SHOWING THE CORRECTION REQUIRED, ON ACCOUNT OF
SECOND DIFFERENCES OF THE MOON'S MOTION, IN FINDING
THE GREENWICH TIME CORRESPONDING TO A i
CORRECTED LUNAR DISTANCE. i
1
Approximata
Diffcmnee of tke Proportional logariilims in the Spbemeris. j
1
InteryoL
8 k
6
8 1
0 1!
14 1
6 18
20
112
8. e
0
I
3
(26
a.
3 0
2 2
3 3
281
8. 1
0
2
3
0S2
) 6
2 2
4 4
34 16 S8
8. 8. 8.
0 0 0
2 2 2
4 4 5
4042
44
8.
0
3
5
46
8.
0
3
6
48 §0 §2
8. 8. 8.
0 0 0
3 3 3
6 6 6
h.in.
0 0
0 10
0 20
h.in.
3 0
2 50
2 40
e. 1
0
0
0
. s.
a 0
a 0
1 1
S. 1
0
1
1
1. s.
0 0
1 1
1 2
8.
0
1
2
0 0
1 1
2 2
8.
0
1
2
8.
0
3
5
8.
0
3
5
0 30
0 40
0 50
2 30
2 20
2 10
0
0
1
1 1
1 1
1 2
2
2
2
2 2
2 3
3 3
2
3
4
3 3
3 4
4 5
3
4
5
4
5
5
4 5
5 6
6 6
5
6
7
5 6
6 7
7 8
6
7
8
6 7
8 8
9 9
7
9
10
7
9
10
8
10
11
8
10
12
8 9 9
10 11 11
12 13 13
1 0
1 10
1 20
1 30
2 0
1 50
1 40
1 30
1
1
1
1
1 2
1 2
I 2
1 2
2
2
3
3
3 3
3 4
3 4
3 4
4
4
4
4
4 5
5 5
5 6
5 6
6
6
6
6
6
6
7
7
7 7
7 8
7 8
8 8
8
8
9
9
8 9 9 10 10
9 9 10 11 11
9 10 10 11 12
9 10 11 11 12
11
12
12
12
12
12
13
13
12
13
14
14
13
14
14
14
13 14 14
14 15 15
15 15 16
15 16 16
Difference of the Proportional logarithms in the Ephemeris.
Hi
6 $8
60 6
2 64
66 6
8 70
71
74 7
6 78 80 8
2 84
868
«90
92
94
96
98
100
102
h. m.
0 0
0 10
0 20
h. m.
3 0
2 50
2 40
s.
0
4
7
8. 8.
0 0
4 4
7 7
s.
0
4
7
B. 8.
0 0
4 4
8 8
8.
0
4
8
8. 8.
0 0
4 5
8 9
a.
0
5
9
8.
0
5
9
s. a.
0 0
5 5
9 10
a.
0
5
10 1
B. a.
0 0
5 6
0 10
a.
0
6
11 1
a. a
0 0
6 6
1 11
•a.
0
6
11
a.
0
6
12
a.
0
6
12
a.
0
6
12
a.
0
7
12
a.
0
7
13
0 80
0 40
0 50
2 30
2 20
2 10
9 I
12 1
14 1
0 10
2 13
4 15
10 1
13 1
15 1
1 11
3 14
6 16
12 1
14 1
16 1
2 12
5 15
7 17
13
16
|18
13 1
16 1
19 1
3 \a\a 1
6 17 17 1
9 20 20 2
4 14
8 18
1 21
15 1
19,1
222
5 16
9 19
2 22
16
20
23
16
20
23
17
21
24
17
21
24
17
22
25
18
22
26
1 0
1 10
1 20
1 30
h. m.
0 0
0 10
0 20
2 0
1 50
1 40
1 30
h. m
3 0
2 50
2 40
15 1
16 I
17 1
17 1
6 16
7 17
7 18
8 18
17 1
18 1
19 1
19 1
7 18
8 19
9 20
9 20
18 1
19 2
20 2
21 2
9 19*20 21 2
0 21 21 22 2
1 2l|22 23 2
1 22 23 23 2
1 22 22 2
2 23 24 2
^ 24 25 2
4 24 25 2
3 23
425
5 26
5 26
24 2
25 2
26 S
27 2
4 25
627
7 28
7,28
25
27
28
29
26
28
29
29
27
28
29
30
27
29
30
31
28
30
31
31
28
30
31
32
Difference of the Proportional Logarithms in the Ephemeris.
104
a
0
7
13
106
a.
0
7
IS
108
a.
0
7
13
110
a
0
7
14
113
8.
0
7
14
114
s.
0
7
14
116
8
0
8
14
118
8.
0
8
15
120^122
124
a.
0
8
15
126
a.
0
8
15
128
a.
0
8
16
ISO
a.
0
8
16
112
a.
0
9
16
134
8.
0
9
16
1S6
U8
8.
0
8
15
a.
0
8
15
8.
0
9
17
8.
0
9
17
0 30
0 40
0 50
2 30
2 20
2 10
18
22
26
18
23
26
19
23
27
19
24
27
19
24
28
20
25
29
20
25
29
20
25
29
21
26
30
21
26
30
21
27
31
22
27
31
22
28
32
22
28
32
23
28
33
23
29
33
24
29
34
24
30
34
1 0
1 10
1 20
1 30
2 0
1 50
1 40
,130
29
31
32
32
29
31
33
33
30
32
33
34
30
32
34
34
31
33
34
35
31
34
35
35
32
34
35
36
33
35
36
36
33
35
37
37
34
36
38
38
34
37
38
39
35
37
39
39
35
38
39
40
36
38
40
40
37
39
41
41
37
40
41
42
38
40
42
42
38
41
42
43
The Comctkm la to be added to the approzimato Greenwich Time when the Propoitiooal Logarithma in the
Ephemeria are decreaaing, and aubtraeted when they are inercaaing.
11
TABLE II.
y,
1
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Arc
0
i
i
3
II
4
•
6
M
6
7
M
8
9
0.0000
0.3010
0.4771
0.6021
0.6990
0.7782
08451
0.9031
0.9542
0
10
1.0000
1.0414
1.0792
1.1139
1.1461
1.1761
1.2041
1.2304
1.2553
1.2788
0
20
i;3010
1U3222
1.3424
1.3617
1.3802
1.3979
MISO
1.4314
1.4472
1.4624
0
SO
1.4771
1.4914
1.5051
1.5185
1.5315
1.5441
1.5563
1.5682
1.5798
1.5911
0
40
1.6021
1.6128
1.6232
1.6335
1.6435
1.6532
1.6628
1.6721
1.6812
1.6902
0
50
1.6990
1.7076
1.7160
1.7243
1.7324
1.7404
1.7482
1.7559
1.7634
1.7709
0 1
0
1.7782
1.7853
1.7924
1.7993
1.8062
1.8129
1.8195
1.8261
1.8325
1.8388
10
1.8451
1.8513
1.8573
1.8633
1.8692
1.8751
1.8808
1.8865
1.8921
1.8976 !
20
1.9031
1.9085
1.9138
1.9191
1.9243
1.9294
1.9345
1.9395
1.9445
1.9494
30
1.9542
1.9589
1.9638
1.9685
1.9731
1.9777
1.9823
1.9868
1.9912
1.9956
40
2.0000
2.0043
2.0086
2.01 28
2.0170
8.0212
2.0253
2.0294
2.0334
2.0374
50
2.0414
2.0453
2.0492
2.0531
2.0569
2.0607
2.0645
2.0682
2.0719
2X)755
0 2
0
2.0792
2.0828
2.0864
2.0899
2.0934
2.0969
2.1004
2.1038
2.1072
2.1106
2
10
2.1139
2.1173
2.1206
2.1239
2.1271
2.1303
2.1335
2.1367
2.1399
2.1430
2
20
2.1461
2.1492
2.1523
2.1553
2.1584
2.1614
2.1644
2.1673
2.1703
2.1732
2
30
2.1761
2.1790
2.1818
2.1847
2.1875
2.1903
2.1931
2.1959
2.1987
2.2014
2
40
2.2041
2.2068
2iK)95
2.2122
2.2148
2.2175
2.2201
2.2227
2.2253
2.2279
2
50
2.2304
2.2330
2.2355
2.2380
2.2405
2.2430
2.2455
2.2480
2.2504
2.2529
0 3
0
2.2553
2.2577
2.2601
2.2625
2.2648
2.2672
2.2695
2.2718
2.2742
2.2765
3
10
2.2788
2.2810
2.2833
2.2856
2.2878
2.2900
2.2923
2.2945
2.2967
2.2989
3
20
2.3010
2.3032
2.3054
2.3075
2.3096
2.3118
2.3139
2.3160
2.3181
2.3201
3
30
2.3222
2U3243
2.3263
2.3284
2.3304
2J3324
2.3345
2-3365
2.3385
2.3404 '
3
40
2.34S24
2JJ444
2.3464
2.3483
2.3,502
2.3522
2.3541
2.3560
2.3579
2JJ598 1
3
50
23617
2.3636
2.3655
2.3674
2.3692
2.3711
2.3729
2.3747
2J3766
2.3784 1
0 4
0
2J3802
2J3820
2.3838
2.3856
2.3874
2.3892
2.3909
2.3927
2.3945
2J3962
4
10
2.3979
2.3997
2.4014
2.4031
2.4048
2.4065
2.4082
2.4099
2.4116
24133
4
20
2.4150
2.4166
2.4183
2.4200
2.4216
2.4232
2.4249
2.4265
2.4281
2.4298 '
4
30
2.4314
2.4330
2.4346
2.4362
2.4378
2.4393
2.4409
2.4425
2.4440
2.4456
4
40
2.4472
2.4487
2.4502
2.4518
2.4533
2.4548
2.4564
2.4579
2.4594
2.4609 1
4
50
2.4624
2.4639
24654
2.4669
2.4683
2.4698
2.4713
2.4728
2.4742
2.4757 1
0 5
0
2.4771
2.4786
2.4800
2.4814
2.4829
2.4843
2.4857
2.4871
2.4886
2.4900 'I
5
10
2.4914
2.4928
2.4942
2.4965
2.4969
2.4983
2.4997
2.5011
2.5024
2.5038
5
20
2.5051
2.5065
2.5079
2.5092
2.5105
2.5119
2.5132
2.5145
2.5159
2.5172
5
30
2 5185
2.5198
2.5211
2.5224
2.5237
2.5250
2.5263
2.5276
2.5289
2.5302 ;
5
40
2.5315
2.5328
2.5340
2i>353
2..5366
2JW78
2.5391
2 5403
2Ji4l6
2.5428
5
50
2.5441 2.5453
2.5465
2.5478
2.5490
2.5502
2.5514
2.5527
2.5539
2.5551 !
0 6
0
2.5563' 2.5575
2.5587
2.5599
2.5611
2.5623
2.5635
25647
2.5658
2.5670
6
10
2.5682 2.5694
2.5705
2.5717
2.5729
2.5740
2.5752
2.5763
2.5775
2.5786 1
6
20
2.5798' 2.5809
2.5821
2.5832
2.5843
2.5855
2.5866
2.5877
2.5888
2.5899
6
30
2.5911 2.5922
2.5933
2.5944
2.5955
2.5966
2.5977
2.5988
2.5999
2.6010
6
40
2.6021' 2.6031
2.6042
2.6053
2.6064
2.6075
2.6085
2.6096
2.6107
2.6117 .
6
50
2.6128 2.6138
2.6149
2.6160
2.6170
2.6180
2.6191
2.6201
2.6212
2.6222 I
0 7
0
2.62321 2.6243
2.6253
2.6263
2.6274
2.6284
2.6294
2.6304
S.6314
2.6325
7
10
2.6335 2.6345
2.6355
2.6365
2.6375
2.6385
2.6395
2.6405
2.6415
2.6425
7
20
2.6435 2.6444
2.6454
2.6464
2.6474
2.6484
2.6493
2.6503
2.6513
2.6522 ;
7
30
2.6532 2.6542
2.6551
2.6561
2.6571
2.6580
2.6590
2.6599
2.6609
2.6618 1
7
40
2.6628, 2.6637
2.6646
2.6656
2.6665
2.6675
2.6684
2.6693
2.6702
2.6712
7
50
2.67211 2.6730
2.6739
2.6749
2.6758
2.6767
2.6776
2.6785
2.6794
2.6803
0 8
0
2.6812 2.6821
2.6830
2.6839
2.6848
2.6857
2.6866
2.6875
2.6884
2.6893 1
8
10
2.6902 2.6911
2.6920
2.6928
2.6937
2.6946
2.6955
2.6964
2.6972
2.6981 1
8
20
2.6990 2.6998
2.7007
2.7016
2.7024
2.7033
2.7042
2.7050
2.7059
2.7061
8
30
2.7076' 2.7084
2.7093
2.7101
2.7110
2.7118
2.7126
2.7135
2.7143
2.7152
8
40
2.7160 2.7168
2.7177
2.7185
2.7193
2.7202
2.7210
2.7218
2.7226
2.7235 1
8
50
2.7243 2.7251
2.7259
2.7267
2.7275
2.7284
2.7292
2.7300
2.7308
2.7316 '
0 9
0
2.7324 2.7332
2.7340
2.7348
2.7356
2.7364
2.7372
2.7380
2.7388
2.7396
9
10
2.7404 2.7412
2.7419
2.7427
2.7435
2.7443
2.7451
2.7459
2.7466
2.7474 '
9
20
2.7482 2.7490
2.7497
2.7505
2.7513
2.7520
2.7528
2.7536
2.7543
2.7551
9
30
2.7559 2.7566
2.7574
2.7582
2.7589
2.7597
2.7604
2.7612
2.7619
2.7627
9
40
2.7634 2.7642
2.7649
2.7657
2.7664
2.7672
2.7679
2.7686
2.7694
2.7701 1
9
50
2.7709 2.7716
J
2.7723
2.7731
2.7738
27745
2.7752
2.7760
2.7767
2.7774 !
12
TABLE II.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME. |
Arc
0
i
5
3
4
6
^
7
8
9
2.7782
2.7789
2.7796
2.7803
2.7810
2.7818
2.7825
2.7832
2.7839
2.7846
10
10
2.7853
2.7860
2.7868
2.7875
2.7882
2.7889
^7896
2.7903
2.7910
2.7917
10
20
2.7924
2.7931
2.7938
2.7945
2.7952
2.7959
2.7966
2.7973
2.7980
2.7987
10
30
2.7993
2.8000
2.8007
2.8014
2.8021
2.8028
2.8035
2.8041
2.8048
2.8055
10
40
2.8062
2.8069
2.8075
2.8082
2.8089
2.8096
2.8102
2.8109
2.8116
2.8122
10
50
2.8129
2.8136
2.8142
2.8149
2.8156
2.8162
2.8169
2.8176
2.8182
2.8189
0 11
0
2.8195
2.8202
2.8209
2.8215
2.8222
2.8228
2.8235
2.8241
2.8248
2.8254
11
10
2.8261
2.8267
2.8274
2.8280
2.8287
2.8293
2.8299
2.8306
2.8312
2.8319
11
20
2.8325
2.8331
2.8338
2.8344
2.8351
2.8357
2.8363
2.8370
2.8376
2.8382
11
30
2.8388
2.8395
2.8401
2.8407
2.8414
2.8420
2.8426
2.8432
2.8439
2.8445
11
40
2.8451
2.8457
2.8463
2.8470
2.8476
2.8482
2.8488
2.8494
2.8500
2.8506
11
50
2.8513
2.8519
2.8525
2.8531
2.8537
2.8543
2.8649
2.8555
2.8561
2.8567
0 12
0
2.8573
2.8579
2.8585
2.8591
2.8597
2.8603
2.8609
2.8615
2.8621
2.8627
12
10
2.8633
2.8639
2.8645
2.8651
2.8657
2.8663
2.8669
2.8675
2.8681
2.8686
12
20
2.8692
2.8698
2.8704
2.8710
2.8716
2.8722
2.8727
2.8733
2.8739
2.8745
12
30
2.8751
2.8756
2.8762
2.8768
2.8774
2.8779
2.8785
2.8791
2.8797
2.8802
12
40
2.8808
2.8814
2.8820
2.8825
2.8831
2.8837
2.8842
2.8848
2.8854
2.8859
12
50
2.8865
2.8871
2.8876
2.8882
2.8887
2.8893
2.8899
2.8904
2.8910
2.8915
0 13
0
2.8921
2.8927
2.8932
2.8938
•2.8943
2.8949
2.8954
2.8960
2.8965
2.8971
13
10
2.8976
2.8982
2.8987
2.8993
2.8998
2.9004
2.9009
2.9015
2.9020
2.9025
13
20
2.9031
2.9036
2.9042
2.9047
2.9053
2.9058
2.9063
2.9069
2.9074
2.9079
13
30
2.9085
2.9090
2.9096
2.9101
2.9106
2.9112
2.9117
2.9122
2.9128
2.9133
13
40
2.9138
2.9143
2.9149
2.9154
2.9159
2.9165
2.9170
2.9175
2.9180
2.9186
13
50
2.9191
2.9196
2.9201
2.9206
2.9212
2.9217
2.9222
2.9227
2.9232
2.9238
0 U
0
2.9243
2.9248
2.9253
2.9258
2.9263
2.9269
2.9274
2.9279
2.9284
2.9289
14
10
2.9294
2.9299
2.9304
2.9309
2.9315
2.9320
2.9325
2.9330
2.9335
2.9340
14
20
2.9345
2.9350
2.9355
2.9360
2.9365
2.9370
2.9375
2.9380
2.9385
2.9390
14
30
2.9395
2.9400
2.9405
2.9410
2.9415
2.9420
2.9425
2.9430
2.9435
2.9440
14
40
2.9445
2.9450
2.9455
2.9460
2.9465
2.9469
2.9474
2.9479
2.9484
2.9489
14
50
2.9494
2.9499
2.9504
2.9509
2.9513
2.9518
2.9523
2.9528
2.9533
2.9538
0 15
0
2.9542
2.9547
2.9552
2.9557
2.9562
2.9566
2.9571
2.9576
2.9581
2.9586
15
10
2.9590
2.9595
2.9600
2.9605
2.9609
2.9614
2.9619
2.9624
2.9628
2.9633
15
20
2.9638
2.9643
2.9647
2.9652
2.9657
2.9661
2.9666
2.9671
2.9675
2.9680
15
30
2.9685
2.9689
2.9694
2.9699
2.9703
2.9708
2.9713
2.9717
2.9722
2.9727
15
40
2.9731
2.9736
2.9741
2.9745
2.9750
2.9754
2.9759
2.9763
2.9768
2.9773
15
50
2.9777
2.9782
2.9786
2.9791
2.9795
2.9800
2.9805
2.9809
2.9814
2.9818
0 16
0
2.9823
2.9827
2.9832
2.9836
2.9841
2.9845
2.9850
2.9854
2.9859
2.9863
16
10
2.9868
2.9872
29877
2.9881
2.9886
2.9890
2.9894
2.9899
2.9903
2.9908
16
20
2.9912
2.9917
2.9921
2.9926
2.9930
2.9934
2.9939
2.9943
2.9948
2.9952
16
30
2.9956
2.9961
2.9965
2.9969
2.9974
2.9978
2.9983
2.9987
2.9991
2.9996
16
40
3.0000
3.0004
3.0009
3.0013
3.0017
3.0022
3.0026
3.0030
3.0035
3.0039
16
50
3.0043
3.0048
3.0052
3.0056
3.0060
3.0065
3.0069
3.0073
3.0077
3.0082
0 17
0
3.0086
3.0090
3.0095
3.0099
3.0103
3.0107
3.0111
3.0116
3.0120
3.0124
17
10
3.0128
3.0133
3.0137
3.0141
3.0145
3.0149
3.0154
3.0158
3.0162
3.0166
17
20
3.0170
3.0175
3.0179
3.0183
3.0187
3.0191
8.0195
3.0199
3.0204
2.0208
17
30
3.0212
3.0216
3.0220
3.0224
3.0228
3.Q233
3.0237
3.0241
3.0245
3.0249
17
40
3.0253
3.0257
3.0261
3.0265
3.0269
3.0273
3.0278
3.0282
3.0286
3.0290
17
50
3.0294
3.0298
3.0302
3.0306
3.0310
3.0314
3.0318
3.0322
3.0326
3.0330
0 18
0
3.0334
3.0338
3.0342
3.0346
3.0350
3.0354
3.0358
3.0362
3.0366
3.0370
18
10
3.0374
3.0378
3.0382
3.0386
3.0390
3X)394
30398
3.0402
3.0406
3.0410
18
20
3.0414
3.0418
3/)422
3.0426
3.0430
3X)434
3.0438
3.0441
3.0445
3.0449
18
30
3.0453
3.0457
3.0461
3.0465
3.0469
8.0473
3.0477
3.0481
3.0484
3.0488
18
40
3.0492
3.0496
3.0500
3.0504
3.0508
3.0512
3.0515
3.0519
3.0523
3.0527
18
50
3.0531
3.0535
3.0538
3.0542
3.0546
3.0550
3.0554
30558
3.0561
3.0565
0 19
0
3.0569
3.0573
3.0577
3.0580
3.0584
3.0588
3.0592
3.0596
3.0599
3.0603
19
10
3.0607
3.0611
3.0615
3.0618
3.0622
3.0626
3.0630
3.0633
3.0637
3.0641
19
20
3.0645
3.0648
3.0652
3.0656
3.0660
3.0663
3.0667
3.0671
3.0674
3.0678
19
30
3.0682
3.0686
3.0689
3.0693
3.0697
3.0700
3.0704
8.0708
3.0711
3.0715
19
40
3.0719
3.0722
3.0726
3.0730
3.0734
3.0737
3.0741
3.0745
3.0748
3.0752
. 19
50
3X)755
3.0759
3.0763
3.0766
3.0770
3.0774
3.0777
3.0781
3.0785
3.0788
65
13
TABLE II.
LOGARITHMS OF SMALL AKCS IN SPACE OR TIME.
Are.
II
0
H
1
2
N
3
i
5
6
N
7
8
i
O. 1 II
3.0792
3.0795
3.0799
3.0803
3.0806
3.0810
3.0813
30817
3.0821
3i)824
20
10
3.0828
3.0831
3.0835
3.0839
3.0842
3.0846
3.0849
3.0853
3.0856! 3j0860 ||
20
20
3.0864
3.0867
3.0871
3.0874
3.0878
3.0881
3.0885
3.0888
3.0892
3.0896
20
30
3.0899
3.0903
3/)906
3.0910
3.0913
3.0917
3.0920
3.0924
3.0927
34)931
20
40
3i)934
3/)938
3.0941
3/)945
3.0948
3.0952
3.0955
3.0959
3J0962
3.0966
20
50
3.0969
3.0973
3.0976
3.0980
3.0983
3.0986
3.099t)
3.0993
3.0997
3.1000
0 21
0
3.1004
3.1007
3.1011
3.1014
3.1017
3.1021
3.1024
3.1028
8.1031
3.1035
21
10
3.1038
3.1041
3.1045
3.1048
3.1052
3.1055
3.1059
3.1062
3.1065
3.1069
21
20
3.1072
3.1075
3.1079
3.1082
3.1086
3.1089
3.1092
3.1096
3.1099
3.1103
21
30
3.1106
3.1109
3.1113
3.1116
3.1119
3.1123
3.1126
3.1129
3.1133
3.1136
21
40
3.1139
3.1143
3.1146
3.1149
3.1153
3.1156
3.1159
3.1163
3.1166
3.1169
21
50
3.1173
3.1176
3.1179
31183
3.1186
3.1189
3.1193
3.1196
3.1199
3.1202
0 22
0
3.1206
3.1209
3.1212
3.1216
3.1219
3.1222
3.1225
3.1229
3.1232
3.1235
22
10
3.1239
3.1242
3.1245
3.1248
3.1252
3.1255
3.1258
3.1261
3.1265
3.1268
22
20
3.1271
3.1274
3.1278
3.1281
3.1284
3.1287
3.1290
3.1294
3.1297
3.1300
22
30
3.1303
3.1307
3.1310
3.1313
3.1316
3.1319
3.1323
3.1326
3.1329
3.1332
22
40
3.1335
3.1339
3.1342
3.1345
3.1348
3.1351
3.1355
3.1358
3.1361
3.1364
22
50
3.1367
3.1370
3.1374
3.1377
3.1380
3.1383
3.1386
8.1389
3.1392
3.1396
0 23
0
3.1399
3.1402
3.1405
3.1408
3.lfll
3.1414
3.1418
31421
3.1424
3.1427
23
10
3.1430
3.1433
3.1436
3.1440
3.1443
3.1446
3.1449
3.1452
3.1455
3.1458
23
20
3.1461
3.1464
3.1467
3.1471
3.1474
3.1477
3.1480
3.1483
3.1486
3.1489
23
30
3.1492
3.1495
3.1498
3.1501
3.1504
3.1508
3.1511
3.1514
3.1517
3.1520
23
40
3.1523
3.1526
3.1529
3.1532
ai535
3.1538
3.1541
3.1544
3.1547
3.1550
23
50
3.1553
3.1556
3.1559
3.1562
3.1565
3.1569
3.1572
3.1575
3.1578
3.1581
0 24
0
3.1584
3.1587
3.1690
3.1593
3.1596
3.1599
3.1602
3.1605
3.1608
3.1611
24
10
3.1614
3.1617
3.1620
3.1623
3.1626
3.1629
3.1632
3.1635
8.1638
3.164:
24
20
3.1644
3.1647
3.1649
3,1652
3.1655
3.1658
3.1661
8.1664
3.1667
3.1670
24
30
3.1673
3.1676
3.1679
3.1682
3.1685
3.1688
3.1691
3.1694
3.1697
3.1700
24
40
3.1703
3.1706
3.1708
3.1711
3.1714
31717
3.1720
3.1723
8.1726
3.1729
84
50
3.1732
3.1735
3.1738
3.1741
3.1744
3.1746
3.1749
3.1752
3.1755
8.1758
0 95
0
3.1761
3.1764
3.1767
3.1770
3.1772
3.1775
3.1778
3.1781
3.1784
3.1787
25
10
3.1790
3.1793
3.1796
3.1798
3.1801
3.1804
3.1807
3.1810
3.1813
3.1816
25
20
3.1818
3.1821
3.1824
3.1827
3.1830
3.1833
3.1836
3.1838
3.1841
3.1844
25
30
3.1847
3.1850
3.1853
3.1855
3.1858
3.1861
3.1864
3.1867
3.1870
3.1872
25
40
3.1875
3.1878
3.1881
3.1884
3.1886
3.1889
3.1892
3.1895
3.1898
3.1901
95
50
3.1903
3.1906
3.1909
3.1912
3.1915
3.1917
3.1920
3.1923
8.1926
3.1928
0 26
0
3.1931
3.1934
8.1937
3.1940
3.1942
3.1945
3.1948
3.1951
3.1953
3.1956
26
10
3.1959
3.1962
3.1965
3.1967
3.1970
3.1973
3.1976
3.1978
3.1981
3.1984
26
20
3.1987
3.1989
3.1992
3.1995
3.1998
3.2000
3.2003
3.2006
3.2009
3.2011
26
30
3.2014
3.2017
3.2019
3.2022
3.2025
3.2028
3.2030
3.2033
3.2036
3.2038
26
40
3.2041
3.2044
3.2047
3.2049
3.2052
3.2055
3.2057
3.2060
3.2063
3.2066
26
50
3.2068
3.2071
3.2074
3.2076
3.2079
3.2082
3.2084
3.2087
3.2090
3.2092
0 27
0
3.2095
3.2098
3.2101
3.2103
3.2106
3.2109
3.2111
3.2114
3.2117
3.2119
27
10
3.2122
3.2125
3.2127
3.2130
3.2133
3.2135
3.2138
3.2140
3.2143
3.2146
27
20
3.2148
3.2151
3.2154
3.2156
3.2159
3.2162
3.2164
3.2167
3.2170
3.2172
27
30
3.2175
3.2177
3^180
3.2183
3.2185
33188
3.2191
3.2193
3.2196
3J198
27
40
3.2201
3.2204
3.2206
3.2209
3.2212
3.2214
3.2217
3.2219
3.2222
3.2225
27
50
3.2227
3.2230
3.2232
3.2235
3.2238
3.2240
3.2243
3.2245
3.2248
3.2250
0 28
0
3.2253
3.2256
3.2258
3.2261
3.2263
3.2266
3.2269
3.2271
3.2274
3.2276
28
10
3.2279
3.2281
3.2284
3.2287
3.2289
3.2292
3.2294
3.2297
3.2299
3.2302
28
20
3.2304
3.2307
3.2310
3.2312
3.2315
3.2317
3.2320
3.2322
3.2325
3.2327
28
30
3.2330
3.2333
3.2335
3.2338
3.2340
3.2343
3.2^5
3.2370
3.2348
3.2350
3.2353
28
40
3.2355
3.2358
3.2360
3.2363
3.2365
3.2368
3.2373
3.2375
3.2378
28
50
3.2380
3.2383
3.2385
3.2388
3.2390
3.2393
3.2395
3.2398
3.2400
3.24M
0 29
0
3.2405
3.2408
3.2410
3.2413
3.2415
3.2418
3.2420
3.2423
3.2425
3.S428
29
10
3.2430
3.2433
3.2435
3.2438
3.2440
3.2443
3.2445
3.2448
3.2450
3.2453
29
20
3.2455
3.2458
3.2460
3.2463
3.2465
3.2467
3.2470
3.2472
3.2475
3.2477
29
30
3.2480
3.2482
8.2485
3.2487
3.2490
3.2492
3J494
3J497
3.2499
^.2502
29
40
3.2504
3.2507
3.2509
3.2512
3.2514
3.2516
3.2519
3.2521
3.2524
3.2526
29
50
3.2529
3.2531
3.2533
3.2536
3.2538
3.2541
3.2543
3.2.^45
3.2548
3.2550 ,
14
TABLE II.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME. |
Arc.
0
N
1
5
3
0
4
5
H
6
7
^
9
O. 1 II
0»»-30«- 0^
8.2553
3.2555
3.2558
3.2560
3.2562
3.2565
3.2567
SJ2570
3.2572
3.2574
30
10
8.2577
3.2579
8.2582
3.2584
3.2586
3.2589
3.2591
3.2594
3.2596
3.2598
30
20
3.2601
3.2603
3.2605
3.2608
3.2610
3.2613
3.2615
3 2617
3.2620
3.2622
30
30
3.2625
3.2627
3.2629
3.2632
3.2634
3.2636
a2639
3.2641
3.2643
3.2646
30
40
8.2648
3.2651
3.2653
3.2655
3.2658
3.2660
3.2662
3.2665
3.2667
3.2669
30
50
3.2672
3.2674
3.2676
3.2679
3.2681
3.2683
3.2686
3.2688
3.2690
3.2693
0 31
0
3.2695
3.2697
32700
3.2702
3.2704
32707
3.2709
3.2711
3.2714
3.2716
31
10
8.2718
8.2721
3.2723
3.2725
3.2728
3.2730
3.2732
3.2735
3.2737
3.2739
31
20
3.2742
3.2744
3.2746
3.2749
3.2751
3.2753
3.9755
3.2758
3.2760
3.2762
31
30
3.2765
3.2767
3.2769
3.2772
3.2774
3.2776
3.2778
3.2781
3.2783
3.2785
31
40
8.2788
3.2790
3.2792
3.2794
3.2797
3.2799
3.2801
3.2804
3.2806
3.2808
31
60
8.2810
3.2813
3.2815
3.2817
3.2819
3.2822
3.2824
3.2826
3.2828
3.2831
0 32
0
3.2833
3.2835
3.2838
* 3.2840
3.2842
3.2844
3.2847
3.2849
3.2851
3.2853
82
10
3.2856
3.2858
3.2860
3.2862
3.2865
3.2867
3.2869
3.2871
3.2874
3.2876
32
20
3J878
3.2880
3.2882
3.2885
3.2887
3.2889
3.2891
3.2894
3.2896
3.2898
32
30
3.2900
3.2903
3.2905
3.2907
3.2909
3.2911
3.2914
3.2916
3.2918
3.2920
32
40
3.2923
3.2925
3.2927
3.2929
3.2931
3.2934
32936
3.2938
3.2940
3.2942
32
50
8.2945
3.2947
3.2949
3.2951
3.2953
8.2956
3.2958
3iJ960
3.2962
3.2964
0 33
0
3.2967
3.2969
3.2971
3.2973
3.2975
3.2978
3.2980
3.2982
3.2984
3.2986
33
10
3.2989
8.2991
3.2993
3.2995
3.2997
3.2999
3.3002
3.3004
3.3006
3.3008
33
20
3.3010
3.3012
3.3015
3.3017
3.3019
3.3021
3.3023
3.3025
3.3028
3.3030
33
30
8.3032
3.3034
3.3036
3.3038
3.3041
3.3043
3.3045
3.3047
3.3049
3.3051
3?
40'
3.3054
3.3056
3.3058
3.3060
3^062
3.3064
3.3066
3.3069
3.3071
3.3073
33
50
3.3075
3 3077
3.3079
3.3031
3.3084
3.3086
3.3088
3.3090
3.3092
3.3094
0 34
0
3.3096
3.3098
3.3101
3.3103
3.3105
3.3107
3.3109
3.3111
3.3113
3.3115
34
10
3^118
3.3120
3.3122
3.3124
3.3126
3.3128
3.3130
3.3132
3.3134
3.3137
34
20
3.3139
3-3U1
3.3143
3.3145
3.3147
3.3149
3.3151
3.3153
3.3156
33158
34
30
3.3160
3.3162
3.3164
3.3166
3.3168
3.3170
3.3172
3.3174
3.3176
3.3179
34
40
3.3181
3.3183
3.3185
3.3187
3.3189
3.3191
3.3193
3.3195
3.3197
3.3199
34
50
3.3201
3.3204
3.3206
3.3208
3.3210
3.3212
3.3214
3.3216
3.3218
3.8220
0 35
0
3.3222
3.3224
3.3226
3.3228
3.3230
3.3233
3.3235
3.3237
3.3239
3.3241
35
10
3.3243
3.3245
3.3247
3.3249
3.3251
3.3253
3.3255
3.3257
3.8259
3.3261
35
20
3.3263
3.3265
3.3267
3.3269
3.3272
3.3274
3.3276
3.3278
3.3280
3.3282
35
30
3.3284
3.3286
3.3288
3.3290
3.3292
3.3294
3.3296
3.3298
3.3300
3.3302
35
40
3.3304
9.3306
3.3308
3.3310
3.3312
3.3314
3.3316
3.3318
3.3320
3.3322
35
50
3.3324
3.3326
3.3328
3.3330
3.3332
3.3334
3.3336
3.3339
33341
33843
0 86
0
3.3345
3.3347
3.3349
3.3351
3.3353
3.3355
3.3357
3.3359
3.*5361
3.3363
3«
10
3.3365
3.3367
3.3369
3.3371
3.3373
3.3375
3.3377
3.3379
3.3381
3.3383
36
20
3.3385
3.3387
3.3389
3.3391
3.3393
3.3395
3.3397
3.3398
3.3400
33402'
36
30
3.3404
3.3406
3.3408
3.3410
3.3412
3.3414
3.3416
3.3418
3.3420
33422
36
40
3.3424
3.3426
3.3428
3.3430
3.3432
3.3434
3.3436
3.3438
3.3440
33442
36
50
3.3444
3.3446
3.3448
3.3450
3.3452
3.3454
3.3456
3.3458
3.3460
33462
0 37
0
3.3464
3i>465
3.3467
3.3469
3.3471
3.3473
3.3475
3.3477
3.3479
3.3481
37
10
3.3483
3.3485
3.3487
3.3489
3.3491
3.3493
3.3495
3.3497
3.3499
33501
37
20
3.3502
3.3504
3.3506
3.3508
3.3510
3.3512
3.3514
3.3516
3.3518
33520
37
30
3.3522
3.3524
3.3526
3.3528
3.3530
33531
3.3533
3.3535
3.3537
33539
37
40
3.3541
3.3543
3.3545
3.3547
3.3549
3.3551
3.3553
3.3555
3.3556
33558
37
50
3.3560
3 3562
3.3564
3.3566
3.3568
3.3570
3.3572
3.3574
3.3576
33577
0 38
0
3.3579
3.3581
3.3583
3.3585
3.3587
3.3589
3.3591
3.3593
3.3595
33596
38
10
3.3598
3.3600
3.3602
3.3604
3.3606
3.3608
3U)610
3.3612
3.3614
33615
38
20
8.3617
3.3619
3.3621
3.3623
3.3625
3.3627
3.3629
3.3630
3.3632
33634
38
30
3.3636
3.3638
3.3640
3.3642
3.3644
3.3646
3.3647
3.3649
3.3651
33653
38
40
3.3655
3.3657
> 3.3659
3.3660
3.3662
3.3664
3.3666
3.3668
3.3670
33672
38
50
3.3674
3.3675
33677
3.3679
3.3681
3.3683
3U)685
3.3687
3.3688
33690
0 39
0
3.3692
3.3694
3.3696
3.3698
3.3700
3.3701
3.3703
3.3705
3.3707
33709
39
10
3.3711
3.3713
3.3714
3.3716
3.3718
3.3720
3J)722
3.3724
3.3725
33727
39
20
3.3729
3.3731
3.3783
3.3735
3.3736
3J5738
3.3740
3.3742
3.3744
33746
39
30
33747
8.3749
3.3751
3.3753
3.3755
3.3757
3.3758
3.3760
3.3762
33764
39
40
3.3766
3.3768
3.3769
3.3771
3.3773
3.3775
3.3777
3.3779
3.3780
33782
89
50
3.3784
3.3786
3.3788
3.3789
3.3791
3.3793
3.3795
3.3797
3.3798
33800
15
TABLE II.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Arc
0
i
2
3
If
4
5
n
6
N
7
^
•
9
'• 0 •
3^802
3.3804
3.3806
3.3808
3.3809
3.3811
3.3813
33815
3.3817
3J}818
40
10
3^820
3^822
3.3824
3J3826
3.3827
3.3829
3.3831
3.3833
3.3835
3.3836 1
40
20
3^838
3.3840
3.3842
3JI844
3.3845
3.3847
3.3849
3.3851
3.3852
3.3854 '<
40
30
3^856
3.3858
3.3860
3.3861
3.3863
3J3865
3.3867
3.3869
3.3870
3^72 t
40
40
3^874
3.3876
3.3877
3.3879
3.3881
3.3883
3.3885
3.3886
3.3888
3.3890
40
50
3^892
3.3893
3.3895
3.3897
3;3899
3.3901
3.3902
3U3904
3.3906
3.3908 ;
0 41
0
3.3909
3.3911
3.3913
3.3915
3.3916
3.3918
3.3920
3.3922
3.3923
3.3925
41
10
3^927
3.3929
3.3930
3.3932
3.3934
3.3936
3.3938
3.3939
3.3941
3.3943
41
20
3.3945
3.3946
3.3948
3.39.50
33952
3.3953
3.3955
3.3957
3.3959
3.3960
41
30
3.3962
3.3964
3.3965
3.3967
3.3969
3.3971
3.3972
3.3974
3.3976
3.3978
41
40
33979
3.3981
3.3983
3.3985
3.3986
3.3988
3.3990
3.3992
3.3993
3.3995
41
50
3^997
3.3998
34000
34002
3.4004
34005
3.4007
a4009
3.4011
34012
0 42
0
3.4014
3.4016
3.4017
34019
34021
34023
34024
3.4026
34028
3.4029
42
10
8.4031
3.4033
34035
3.4036
3.4038
34040
3.4041
3.4043
34045
3.4047
42
20
3.4048
3.4050
3.4052
34053
34055
3.4057
3.4059
3.4060
3.4062
34064
42
30
3.4065
3.4067
34069
3.4071
3.4072
3.4074
3.4076
34077
3.4079
3.4081
42
40
3.4082
3.4084
34086
3.4087
34089
3.4091
34093
3.4094
34096
34098
42
50
3.4099
34101
34103
34104
34106
34108
34109
34111
34113
34115
0 43
0
3.4116
34118
34120
34121
34123
34125
34126
34128
34130
34191
43
10
3.4133
34135
34136
34138
34140
34141
34143
34145
34146
34148
43
20
3.4150
34151
341.53
34155
34156
34158
34160
34161
34163
94165
43
30
3.4166
34168
34170
34171
34173
34175
34176
34178
34180
34181
43
40
34183
34185
34186
34188
34190
34191
34193
34195
34196
34198
43
50
3.4200
34201
34203
34205
34206
34208
3.4209
34211
34213
34214
0 44
0
3.4216
3.4218
34219
34221
34223
34224
34226
34228
34229
34231
44
10
3.4232
34234
34236
34237
3.4239
34241
34242
34244
34246
34247
44
20
3.4249
34250
34252
34254
3.4255
34257
34259
34260
34262
34263
44
30
3.4265
34267
34268
34270
34272
34273
34275
34276
34278
34280
44
40
3.4281
34283
34285
34286
34288
34289
34291
34293
34294
94296
44
50
3.4298
34299
3.4301
3.4302
3.4304
3.4306
3.4307
3.4309
34310
34312
0 45
0
3.4314
3.4315
3.4317
3.4318
34320
34322
34323
3.4325
3.4326
34128
45
10
3.4330
3.4331
34333
34334
3.4336
34338
3.4339
3.4341
34342
34144
45
20
3.4346
3.4347
3.4349
34350
3.4352
34354
3.4355
3.4357
34358
9.4360
45
30
3.4362
3.4363
34365
3.4366
34368
3.4370
3.4371
34373
34374
3.4376
45
40
3.4378
34379
3.4381
8.4382
34384
3.4385
3.4387
34389
3.4390
34392
45
50
3.4393
3.4395
3.4396
34398
3.4400
3.4401
34403
34404
3.4406
34408
0 46
0
3.4409
34411
3.4412
3.4414
3.4415
3.4417
34419
3.4420
34422
34423
46
10
3.4425
3.4426
34428
34429
3.4431
34433
34434
3.4436
34437
3.4439
46
20
3.4440
3.4442
34444
34445
34447
3.4448
3.4450
34451
3.4453
34454
46
30
3.4456
34458
34459
34461
3.4462
3.4464
3.4465
3.4467
3.4468
34470
46
40
3.4472
3.4473
3.4475
34476
34478
3.4479
34481
34482
34484
3.4486
46
50
3.4487
34489
3.4490
34492
3.4493
3.4495
34496
3.4498
34499
94501
0 47
0
34502
3.4504
34506
34507
34509
3.4510
3.4512
84513
34515
34516
47
10
3.4518
3.4519
34521
34522
34524
34526
3.4527
34529
34530
3.4592
47
20
34533
34535
3.4536
34538
34539
34541
34542
3.4544
34545
34547
47
30
34548
34550
34551
34553
34555
34556
3.4558
34559
3.4561
94562
47
40
3.4564
34565
34567
3.4568
3.4570
34571
34573
34574
3.4576
34577
47
50
3.4579
34580
34582
34583
34585
34586
3.4588
34589
3.4591
34592
0 48
0
3.4594
34595
34597
34598
34600
34601
34603
34604
34606
3.4607
48
10
34609
34610
3.4612
34613
34615
34616
3.4618
3.4619
34621
3.4622
48
20
34624
34625
34627
34628
34630
34631
34633
34634
34636
34697
48
30
34639
34640
34642
34643
34645
34646
3.4648
34649
3.4651
3.4652 '
48
40
34654
34655
34657
a4658
34660
34661
3.4«63
34664
34666
3 4667
48
50
34669
34670
34672
34673
34675
34676
34678
34679
34681
3.4682
0 49
0
34683
3.4685
94686
34688
34689
3.4691
34692
34694
34695
3.4697
49
10
3.4698
34700
34701
34703
34704
34706
3.4707
34709
34610
9.4711
49
20
3.4713
34714
34716
3.4717
34719
3.4720
34722
34723
34725
94726
49
30
84728
34729
34730
34732
34733
34735
3.4736
34738
34739
94741
49
40
34742
34744! 34745
34747
34748
34749
34751
34752
34754
9.4755
49
50
34757
3.4758 34760
34761
34763
3 4764
34765
34767
34768
94770 [
16
TABLE II.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Are.
u
0
u
1
5
3
1
4
M
5
a
6
»
7
8
9
0»»-50«- O*.
3.4771
3.4773
3.4774
3.4776
3.4777
3.4778
3.4780
34781
3.4783
34784
50
10
3.4786
3.4787
3.4789
3.4790
3.4791
3.4793
3.4794
3.4796
34797
34799
50
20
3.4800
3.4802
3.4803
3.4804
3^806
3.4807
3.4809
3.4810
3.4812
34813
50
30
3.4814
3.4816
3.4817
3.4819
3.4820
3.4822
3.4823
3.4824
34826
34827
50
40
3.4829
3.4830
3.4832
3.4833
3.4834
3.4836
3.4837
3.4839
34840
34842
50
50
3.4843
3.4844
3.4846
3.4847
8^849
3.4850
3.4852
3.4863
34854
34856
0 51
0
3.4857
3.4859
3.4860
3.4861
3.4863
3.4864
3.4866
3.4867
34869
34870
51
10
3^871
3.4873
3.4874
3.4876
3.4877
3.4878
3.4880
3.4881
34883
34884
51
20
3.4886
3.4887
3.4888
3.4890
3.4891
3.4893
3.4894
3.4895
34897
34898
51
30
3.4900
3.4901
3.4902
3.4904
3.4905
3.4907
3.4908
3.4909
3.4911
3.4912
51
40
3.4914
3.4915
3.4916
3.4918
3.4919
3.4921
3.4922
3.4923
34925
34926
51
50
3.4928
3.4929
3.4930
3.4932
3.4933
3.4935
3.4936
3.4937
34939
34940
0 52
0
3.4942
3.4943
3.4944
3.4946
3.4947
3.4949
3.49.50
3.4951
34953
34954
52
10
3.4955
3.4957
3.4968
3.4960
3.4961
3.4962
3.4964
3.4965
34967
34968
52
20
3.4969
3.4971
3.4972
3.4973
8.4976
3.4976
3.4978
34979
34980
34982
52
30
3.4983
3.4984
3.4986
3.4987
3.4989
3.4990
3.4991
3.4993
34994
34995
52
40
3.4997
3.4998
3.6000
3.6001
3.5002
3.5004
3.5006
3.5006
3.6008
3.5009
52
50
3.5011
3.5012
3.5013
3.5015
3.5016
3.6017
3.6019
3.5020
3.5022
3.6023
0 53
0
3JS024
3.5026
3.5027
3.5028
8.5030
3:6031
3.5032
3.5034
3.5035
3JS037
53
10
3.5038
3.5039
3.5041
3.5042
3.5043
3.6045
3.5046
3Ji047
3.6049
3.5060
53
20
3.5051
3.5063
3.5064
3.6056
3.5067
3.5068
3.5060
3.6061
3.5062
3.5064
53
30
3.5065
3.5066
3.5068
3.6069
3.6070
3.5072
3.5073
3.6075
3.5076
3.5077
53
40
3.5079
3.5080
3.5081
3.6083
3.6084
3.6085
3.6087
3Ji088
3.6089
36091
53
50
3.5092
3.5093
3.5095
3.6096
3.6097
3.6099
3.6100
3.6101
3.5103
3 5104
0 54
0
3.5105
3.5107
3.5108
3.5109
3.6111
3.5112
3.6113
3.6115
3.5116
3.5117
54
10
3.5119
3.5120
3.5122
3.5123
3.6124
3.6126
3.6127
3.6128
3J)130
3.6131
54
20
3.5132
3.5134
3.5135
3.5136
3.5138
3.6139
3Jil40
3.5141
3.5143
3.5144
54
30
3.5145
3.5147
3.5148
3.6149
3JS161
3.6152
3.5153
3.6156
3.5156
3.6167
54
40
3.5159
3.5160
3.5161
3.5163
3.5164
3.6165
3.5167
3.5168
3J)169
3.6171
54
50
3.5172
3.5173
3.6176
3.5176
3.5177
3.5179
3.5180
3JS181
3.5183
3.5184
0 55
0
3.5185
3.5186
3.5188
3.5189
3.5190
3.5192
3.6193
3.5194
3.5196
3.5197
55
10
3.5198
3.5200
3.5201
3.6202
3.5204
3.6206
3.5206
3.5207
3.5209
3.5210
55
20
3.5211
3.5213
3.5214
3.6215
3.6217
3.5218
3.5219
3.5221
3.5222
3.5223
55
30
3.5224
3.5226
3.6227
3.5228
3.5230
3.5231
3.6232
3.6234
3.5236
3.5236
55
40
3.5237
3.5239
3.5240
3.5241
3.5243
3 5244
3Ji245
3.5247
3.5248
3.5249
55
50
3.5250
3.6252
3.5253
3.5264
3.5256
3.5267
3.5258
3JS260
3^)261
3.6262
0 56
0
3.5263
3.5265
3.5266
3.5267
3.5269
3.5270
3.5271
3.5272
3.5274
3.5275
56
10
3.5276
3.5278
35279
3.5280
3.5281
3.5283
3.5284
3Ji286
3.5287
3.6288
56
20
35289
3.5290
3.5292
3.5293
3.5294
3.5296
3.5297
3.6298
3.5299
3.5301
56
30
3.5302
3.5303
3.6305
3.6306
3.5307
35308
3.5310
3.5311
3.5312
3.5314
56
40
3.5315
3.5316
3.5317
3JS319
3.5320
3.5321
3.5322
3.5324
3.6326
3.5326
66
50
3.5328
3.5329
3.5330
3.5331
3.5333
8.5334
3.6335
3.6336
3.5338
3.6339
0 57
0
3.5340
3.5342
3.5343
3.5344
3.5345
3.5347
3.5348
3.6349
3.5350
3.6352
57
10
3.5353
3.5354
3.5355
3.5367
3.5368
3.5359
3.5361
3.6362
3.6363
3.5364
57
20
3.5366
3.5367
3.5368
3.5369
3.5371
3.5372
3 5373
3.5374
3.6376
3.5377
57
30
3.5378
3.5379
3.5381
3.5382
3.5383
3.5384
3.6386
3.5387
3.5388
3.5390
57
40
3.5391
3.5392
3.5393
3.5395
3.5396
3.6397
3.5398
3.6400
3.5401
3.5402
57
50
3.5403
3.5405
3.5406
3.5407
3.5408
3.5410
3.5411
3.5412
3.6413
3.6416
0 58
0
3.5416
3.5417
3.5418
3.6420
3.5421
3.5422
3.6423
3.6425
3.6426
3.6427
58
10
3.5428
3.5429
3.5431
3.6432
3.5433
3.5434
3 6436
3.5437
3.6438
3.6439
58
20
3.5441
3.6442
3.5443
3.5444
3.5446
3J5447
3.5448
3.5449
3.5451
3.6452
58
30
3.5453
3.5464
3.5466
3.5467
3.5458
3.6459
3.5460
3.5462
3.5463
3.5464
58
40
3.5465
3.5467
•3.5468
3.5469
3.5470
3.5472
3.6473
3.6474
3.5475
3.6477
58
50
3.5478
3.5479
3.5480
3.5481
3.5483
3.6484
3.5486
3 5486
3.6488
3.5489
0 59
0
3.5490
8.5491
3.5492
3.5494
3.5495
3.5496
3.5497
3.6499
3.5500
3.5501
59
10
8.5502
3.5604
3.5605
3.5506
3.5507
3.5508
3.5510
3.5511
3.5612
3.6513
59
20
3.5514
3.5616
3.6517
3.5518
3.6619
3.5521
3.5522
3.5523
3.5624
3.5525
59
30
3.5527
3Ji628
3.5529
a55dO
3.5532
3.5633
3.5534
3.5535
3.5536
3.5538
59
40
3.5539
3.5540
3.5641
3.5642
3.5544
3.5645
3.5546
3.5547
3.5549
3.5550
59
50
3.5551
3.5552
3.6563
3^655
3.5556
3.5567
3.5558
3.5659
3.5561
3.5662
17
TABLE II.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME. ||
Arc.
d
i
2
i
4
5
d
i
8"
9
^(i-&J
3.5563
3.5564
3.5565
3.5567
3.5568
3.5569
3.5570
35571
3.5573
3.5574
0
10
3.5575
3.5576
3.5577
3.5579
3.5580
3.5581
3.5582
3.5583
3.5585
3.5586
0
20
3.5587
3.5588
3.5589
3.5591
3.5592
3.5593
3.5594
3.5595
3.5597
3.5598
0
30
3Ji599
3.5600
3.5601
3.5603
3.5604
3.5605
3.5606
3.5607
3.5609
3Ji610
0
40
3.5611
3.5612
3.6613
3.5615
3.5616
3.5617
3.5618
3.5619
3.5621
3.5622
0
50
3.5623
3.5624
3.5625
3J(626
3.5628
3.5629
^3JS630
3J)631
3.5632
3.5634
1 I
0
3.5635
3.5636
3.5637
3.5638
3.5640
3Ji641
'3JJ642
3.5643
3.5644
3 5645
10
3.5647
3.5648
3.5649
3.5650
3.5651
3.5653
3.5654
3.5655
3.5656
3.5657
20
3.5658
3J)660
3.5661
3.5662
3.5663
3.5664
3.5666
3.5667
3.5668
3.5669
30
3.5670
3.5671
3.5673
3.5674
3.5675
3.5676
3Ji677
3.5678
3.5680
3.5681
40
3.5682
3.5683
3.5684
3.5686
3.5687
3.5688
a5689
3J)690
3J^691
3.5693
50
3.5694
3J)695
3.5696
3 5697
3.5698
3.5700
3.5701
3.5702
3.5703
3.5704 1
1 2
0
3.5705
3.5707
3-5708
3J>709
8.5710
3.5711
3.5712
3.5714
3.5715
3JS716
2
10
3Ji7l7
3.5718
3.5719
3.5721
3.5722
3JS723
3.5724
3.5725
3.5726
3 5728
2
20
3,5729
3.5730
3.5731
3.5732
3.5733
3Ji735
3.5736
3.5737
3.5738
3.5739
2
30
3.5740
3.5741
3.5742
3.5744
3.5745
3.5746
3.5747
3JJ748
3.5750
3.5751
2
40
3.5752
3.5753
3.5754
3.5755
3.5756
3.5758
3.5759
3.5760
3J^761
3.5762
2
50
3.5763
3.5765
3.5766
3.5767
3.5768
3.5769
3.5770
3.5771
3.5773
3.5774
1 3
0
3.5775
3.5776
3.5777
3.5778
8.5780
3.5781
3.5782
3 5783
3.5784
3.5785
3
10
3.5786
3.5788
3.5789
3.579«
3 5791
3.5792
3.5793
3.5794
3.5796
3.5797
3
20
3.5798
3.5799
3.5800
3.5801
3.5802
3.5804
3.5805
3.5806
3J>807
3.5608
3
30
3.5809
3.5810
3.5812
3.5813
3.5814
3.5815
3.5816
3.5817
3.5818
3.5819
3
40
3.5821
3.5822
3.5823
3.5824
3.5825
3.5826
3.5827
3.5829
3.5830
3J»831
3
50
3.5832
3.5833
3.5834
3.5835
3.5837
3.5838
3.5839
3.5840
3.5841
3.5842
1 4
0
3.5843
3.5844
3.5846
3.5847
3.5848
3.5849
3.5850
3.5851
3.5852
3.5853,
4
10
3.5855
3Ji856
3.5857
3.5858
3.5859
3.5860
3.5861
3.5862
3.5864
3.5865
4
20
3.5866
3.5867
3.5868
3.5869
3.5870
3.5871
3.5873
3.5874
3.5875
3.5876
4
30
3.5877
3.5878
3.5879
3.5880
3.5882
3.5883
3.5884
3.5885
3.5886
3^887 !
4
40
3.5888
3.5889
3.5891
3.5892
3.5893
35894
3.5895
3.5896
3.5897
3.5898
4
50
3.5899
3.5901
3.5902
3.5903
3.5904
3.5905
3.5906
3.5907
3.5908
3.5910
1 5
0
3.5911
3.5912
3.5913
3.5914
8.5915
3.5916
3.5917
3JS918
3.5920
3.5921
5
10
3.5922
3.5923
3.5924
3.5925
3.5926
3.5927
3.5928
3.5930
3.5931
3.5932
5
20
3.5833
3.5934
3.5935
3.5936
3.5937
3.5938
3.5940
3.5941
3.5942
3.5943
5
30
3.5944
8.5945
3.5946
3.5947
3.5948
3.5949
3.5951
3.5952
3.5953
3.5954 !
5
40
3.5955
8.5956
3.5957
3.5958
3.5959
3.5960
3.5962
3.5963
3.5964
33965
5
50
3.5966
3.5967
3.5968
3.5969
3.5970
3.5971
3.5973
3.5974
3.5975
3.5976
1 6
0
3.5977
3.5978
3.5979
3J(980
3.5981
3.5982
3.5984
3.5985
3.5986
3.5987 !
6
10
3.5988
3.5989
3.5990
3.5991
3.5992
3.5993
3.5994
3.5996
3.5997
3.5998 j
«
20
3.5999
3.6000
3.6001
3.6002
3.6003
3.6004
3.6005
3.6006
3.6008
3.6009
«
30
3.6010
3.6011
3.6012
3.6013
3.6014
3.6015
3.6016
3.6017
3.6018
3.6020!
«
40
3,6021
8.6022
3.6023
3.6024
3.6025
3.6026
3.6027
3.6028
3.6029
3j6030
6
50
3.6031
3.6033
3.6034
3.6035
3.6036
3.6037
3.6038
3.6039
8.6040
SJ041 '
1 7
0
3.6042
3.6043
3.6044
3.6046
8.6047
3.6048
8.6049
3.6050
3.6051
3.6052
7
10
8.6053
3.6054
3.6055
8.6056
3.6057
3.6058
8.6060
3.6061
3.6062
3.6063'!
7
20
3.6064
3.6065
3.6066
3.6067
3.6068
3.6069
8.6070
3.6071
3.6072
3.6073 )
7
30
8.6075
3.6076
3.6077
3.6078
3.6079
3.6080
8.6081
3.6082
3.6063
3.6084 t
7
40
3.6085
3.6086
3.6087
3.6088
3.6090
3.6091
3.6092
3.6093
3.6094
3.6095 |.
7
50
3.6096
3.6097
3.6098
3.6099
3.6100
3.6101
8.6102
3.6103
8.6104
3.6106 ^
1 8
0
3.6107
3.6108
8.6109
3.6110
3.6111
8.6112
3.6113
3.6114
3.6115
34116 !
8
10
3.6117
3.6118
3.6119
3.6120
3.6121
3.6123
3.6124
3.6125
S.6126
3.6127 1
8
20
3.6128
3.6129
3.6130
3.6131
3.6132
3.6133
8.6134
3.6135
3.6136
3.6137 .
8
30
3.6138
3.6139
3.6141
3.6142
3.6143
3.6144
3.6145
3.6146
3.6147
3.6148 ,
8
40
3.6149
3.6150
3.6151
3.6152
3.6153
8.6154
3.6155
8.6156
8.6157
3.6158,
8
50
3.6160
3.6161
3.6162
3.6163
3.6164
3.6165
3.6166
8.6167
8.6168
3.6169,
1 9
0
3.6170
3.6171
3.6172
3.6173
3.6174
8.6175
3.6176
8.6177
3.6178
3.6179
9
10
3.6180
3.6182
3.6183
3.6184
3.6185
3.6186
3.6187
3.6188
3.6189
36190 1
9
20
3.6191
3.6192
3.6193
3.6194
3.6195
3.6196
8.6197
3.6198
8.6199
3.6200 !
9
30
8.6201
3.6202
3.6203
3.6204
3.6206
3.6207
3.6208
3.6209
8.6210
SA211
9
40
36212
3.6213
3.6214
3.6215
3.6216
8.6217
8 6218
3.6219
3.6220
3.6221 ,
9
50
3.6222
3.6223
3.6224
3.6225
3.6226
3.6227
3.6228
8.6229
3.6230
3.6231 !
18
TABLE n.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Arc.
0
1
5
3
1
5
6
7
^
9
^kJ™. 'H
3.6232
3.6234
3.6235
3.6236
3.6237
3.6238
3.6239
3.6240
3.6241
3.6242
10
10
3.6243
3.6244
3.6245
3.6246
3.6247
3.6248
3.6249
3.6250
3.6261
3.6252
10
20
3.6253
3.6254
3.6255
3.6256
3.6257
3 6258
3.6259
36260
3.6261
3.6262
10
30
3.6263
3.6264
3.6265
3.6266
3.6268
3.6269
3.6270
3.6271
3.6272
3.6273
10
40
3.6274
3.6275
3.6276
3.6277
3.6278
3.6279
3.6280
3.6281
3.6282
3.6283
10
50
8.6284
3.6285
3.6286
3.6287
3.6288
3.6289
3.6290
3.6291
3.6292
3.6293
1 u
0
3.6294
3.6295
3.6296
3.6297
3.6298
3.6299
3.6300
3.6301
3.6302
3.6303
11
10
3.6304
3.6306
3.6306
3.6307
3.6308
3.6309
3.6310
3.6311
36312
3.6313
11
20
3.6314
3.6315
3.6316
3.6317
3.6318
3.6320
8.6321
3.6322
3.6323
3.6324
11
30
3.6325
3.6326
3.6327
3.6328
3.6329
3.6330
3.6331
3.6332
3.6333
3.6334
11
40
3.6335
3.6336
3.6337
3.6338
3.6339
3.6340
3.6341
3.6342
3.6343
3.6344
11
50
3.6345
3.6346
3.6347
3.6348
3.6349
3.6350
3.6351
3.6352
3.6353
3.6354
I 12
0
3.6355
3.6356
3.6357
3.6358
3.6359
3.6360
3.6361
3.6362
3.6363
3.6364
13
10
3.6365
3.6366
3.6367
3.6368
3.6369
3.6370
3.6371
3.6372
3.6373
3.6374
12
20
3.6375
3.6376
3.6377
3.6378
8.6379
3.6380
3.6381
3.6382
3.6383
3.6384
12
30
3.6385
3.6386
3.6387
3.6388
36389
3.6390
3.6391
3.6392
3.6393
3.6394
12
40
3.6395
3.6396
3.6397
3.6398
3.6399
3.6400
3.6401
3.6402
3.6403
36404
12
50
3.6405
8.6406
3.6407
3.6408
3.6409
3.6410
3.6411
3.6412
3.6413
3.6414
1 13
0
3.6415
3.6416
3.6417
3.6418
3.6419
3.64^0
3.6421
3.6422
3.6423
3.6424
13
10
3.6425
3.6426
3.6427
3.6428
3.6429
3.6430
3.6431
3.6432
3.6433
3.6434
13
20
3.6435
3.6436
3.6437
3.6437
3.6438
3.6439
3.6440
3.6441
3.6442
3.6443
13
30
3.6444
3.6445
3.6446
3.6447
3.6448
3.6449
3.6450
3.6451
3.6452
3.6453
13
40
3.6454
3.6455
3.6456
3.6457
3.6458
3.6459
3.6460
3.6461
. 3.6462
3.6463
13
50
3.6464
36465
3.6466
3.6467
3.6468
3.6469
3.6470
3.6471
3.6472
3.6473
1 14
0
3.6474
3.6475
3.6476
3.6477
3.6478
3.6479
3.6480
3.6481
3.6482
3.6483
14
10
3.6484
3.6485
3.6486
3.6487
3.6488
3.6488
3.64S9
3.6490
3.6491
3.6492
14
20
3.6493
3.6494
3.6495
3.6496
3.6497
3.6498
3.6499
3.6500
3.6501
3.6502
14
30
3.6503
3.6504
3.6505
3.6506
3.6507
3.6508
3.6509
3.6510
3.6511
3.6512
14
40
3.6513
3.6514
3.6515
3.6516
3.6517
3.6518
3.6519
3.6520
3.6.521
3.6521
14
50
3.6522
3.6523
3.6524
3.6525
3.6526
3.6527
3.6528
3.6529
3.6530
3.6531
1 15
0
3.6532
3.6533
3.6534
3.6535
3.6536
3.6537
3.6.538
3.6539
3.6540
3.6541
15
10
3.6542
3.6543
3.6544
3.6545
3.6546
3.6547
3.6548
3.6649
3.6549
3.6550
15
20
3.6551
3.6552
3.6553
3.6554
3.6555
3.6556
3.6557
3.6558
3.6559
3.6560
15
30
3.6561
3.6562
3.6563
3.6564
3.6565
3.6566
3.6567
3.6568
3.6569
3.6570
15
40
3.6571
3.6572
3.6572
3.6573
3.6574
3.6575
3.6576
3.6577
3.6578
3.6579
15
50
3.6580
3.6581
3.6582
3.6583
3.6584
3.6585
3.6586
3.6587
3 6588
3.6589
1 16
0
3.6590
3.6591
3.6592
3.6593
3.6593
3.6594
3.6595
3.6596
3.6597
3.6598
16
-10
3.6599
3.6600
3,6601
3.6602
3.6603
3.6604
3.6605
3.6606
3.6607
3.6608
16
20
3.6609
3.6610
3.6611
3.6611
3.6612
3.6613
3.6614
3.6615
3.6616
3.6617
16
30
3.6618
3.6619
3.6620
3.6621
3.6622
3.6623
3.6624
3.6625
3.6626
3.6627
16
40
3.6628
3.6629
3.6629
3.6630
3.6631
3.6632
3.6633
3.6634
3.6635
3.6636
16
50
3.6637
3.6638
3.6639
3.6640
3.6641
3.6642
3.6643
3.6644
3.6645
3.6645
I 17
0
3.6646
3.6647
3.6648
3.6649
3.6650
3.6651
3.6652
3.6653
3.6654
3.6655
17
10
3.6656
3.6657
3.6658
3.6659
3.6660
3.6660
3.6661
3.6662
3.6663
3.6664
17
20
3.6665
3.6666
3.6667
3.6668
3.6669
3.6670
3.6671
3.6672
3.6673
3.6674
17
30
3.6675
3 6675
3.6676
8.6677
3.6678
3.6679
3.6680
3.6681
3.6682
3.6683
17
40
3.6684
3.6685
3.6686
3.6687
3.6688
3.6689
3.6689
3.6690
3.6691
3.6692
17
50
3.6693
3.6694
3.6695
3.6696
3.6697
3.6698
3.6699
3.6700
3.6701
3.6702
1 18
0
3.6702
3.6703
3.6704
3.6705
3.6706
3.6707
3.6708
3.6809
3.6710
3.6711
18
10
3.6712
3.6713
3.6714
3.6715
3.6715
3.6716
3.6717
3.6718
3.6719
3.6720
18
20
3.6721
3.6722
3.6723
3.6724
3.6725
3.6726
3.6727
3.6727
3.6728
3.6729
18
30
3.6730
3.6731
8.6732
3.6733
3.6734
3.6735
3.6736
3.6737
3.6738
3.6738
18
40
a6739
3.6740
3.6741
3.6742
3.6743
3.6744
3.6745
3.6746
3.6747
3.6748
18
50
3.6749
3.6750
3 6750
3.6751
3.6752
3.6753
3.6754
3.6755
3.6756
3.6757
1 19
0
3.67.'58
3.6759
3.6760
3.6761
3.6761
3.6762
3.6763
3.6764
3.6765
3.6766
19
10
3.6767
3.6768
3.6769
8.6770
3.6771
3.6772
3.6772
3.6773
3.6774
3.6775
19
20
3.6776
3.6777
3.6778
8.6779
3.6780
3.6781
3.6782
3.6782
3.6783
3.6784
19
30
3.6785
3.6786
36787
3.6788
3.6789
3.6790
3.6791
3.6792
3.6792
3.6793
19
40
3.6794
3.6795
3 6796
3.6797
3.6798
3.6799
3.6800
3.6801
3.6802
3.6802
19
50
3.6803
3.6804
3.6805
3.6806
3.6807
3.6808
3.6809
8.6810
3.6811
3.6812
19
TABLE II.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Arc.
0
i
§
i
4
5
6
7
^
4
i»-2d-.(5H
3.6812
3.6813
3.6814
3.6815
3.6816
3.6817
8.6818
3.6819
3.6820
3.6821
so
10
3.6821
3.6822
3.6823
3.6824
3.6825
8.6826
3.6827
8.6828
3.6829
8.6830
20
20
3.6830
3.6831
3.6832
3.6833
3.6834
8.6835
8.6836
8.6837
3.6838
3.6839
20
30
3.6839
3.6840
3.6841
3.6842
3.6843
8.6844
3.6845
3.6846
3.6847
3.6848
20
40
3.6848
3.6849
3.6850
3.6851
3.6852
8.6853
3.6854
3.6855
3.6856
8.6857
20
50
3.6857
3.6858
3.6859
3.6860
8.6861
3.6862
8.6863
3.6864
8.6865
I 21
0
3.6866
3.6867
3.6868
3.6869
8.6870
3.6871
3.6872
3.6873
8.6874
3.6874
21
10
3.6875
3.6876
3.6877
3.6878
3.6879
3.6880
3.6881
3.6882
8.6882
3.6883
21
20
3.6884
3.6885
.''.6886
3.6887
3.6888
3.6889
8.6890
3.6890
3.6891
3.6892
21
30
3.6893
3.6894
3.6895
3.6896
3.6897
3.6898
3.6898
3.6899
8.6900
3.6901
21
40
3.6902
3.6903
3.6904
3.6905
3.6906
8.6906
3.6907
3.6908
8.6909
a6910
21
50
3.6911
3.6912
3.6913
3.6913
3.6914
3.6915
3.6916
3.6917
8.6918
3.6919
1 22
0
3.6920
3.6921
3.6921
8.6922
3.6923
8.6924
3.6925
3.6926
8.6927
3.6928
22
10
3.6928
3.6929
3.6930
3.6931
3.6932
3.6933
3.6934
8.6985
3.6936
3.6936
22
20
3.6937
3.6938
3.6939
3.6940
8.6941
8.6942
8.6943
8.6943
3.6944
3.6945
22
30
3.6946
3.3947
8.6948
3.6949
3.6950
8.6950
8.6951
8.6952
8.6953
3.6954
22
40
3.6955
3.6956
3.6957
8.6957
3.6958
8.6959
8.6960
3.6961
3.6962
3.6963
22
50
3.6964
3.6964
8.6965
8.6966
8.6967
3.6968
8.6969
8.6970
8.6971
8.6971
1 23
0
3.6972
3.6973
3.6974
3.6975
3.6976
8.6977
3.6978
3.6978
8.6979
3.6980
23
10
3.6981
3.6982
3.6983
3.6984
3.6984
3.6985
8.6986
8.6987
3.6988
3.6989 i
23
20
3.6990
3.6991
8.6991
8.6992
3.6993
3.6994
36995
3.6996
3.6997
3.6998
23
30
3.6998
8.6999
3.7000
3.7001
3.7002
3.7003
3.7004
3.7004
8.7005
3.7006
23
40
3.7007
3.7008
3.7009
3.7010
3.7010
3.7011
3.7012
3.7013
3.7014
3.7015
23
50
3.7016
3.7017
8.7017
8.7018
3.7019
3.7020
8.7021
3.7022
8.7023
3.7023 1
1 24
0
3.7024
3.7025
8.7026
3.7027
3.7028
3.7029
8.7029
3.7030
8.7031
3.7032
24
10
3.7033
3.7034
3.7035
8.7035
8 7036
8.7037
8.7038
3.7039
3.7040
3.7041
24
20
3.7042
3.7042
3.7043
3.7044
3.7045
8.7046
8.7047
8.7048
87048
3.7049
24
30
3.7050
3.7051
8.7052
3.7053
3.7054
3.7054
8.7055
8.7056
8.7057
3.7058
24
40
3.7059
3.7060
8.7060
3.7061
3.7062
3.7063
8.7064
3.7065
3.7065
3.7066
24
50
3.7067
3.7068
3.7069
3.7070
3.7071
8.7071
3.7072
8.7073
3.7074
3.7075 1
1 25
0
3.7076
3.7077
,8.7077
3.7078
8.7079
8.7080
3.7081
8.7082
8.7083
8.7083 !
25
10
3.7084
3.7085
3.7086
3.7087
3.7088
8.7088
3.7089
3.7090
8.7091
3.7092 ,
25
20
3.7093
3.7094
3.7094
3.7095
8.7096
3.7097
3.7098
8.7099
a7099
8.7100
25
30
3.7101
3.7102
3.7103
3.7104
3.7105
8.7105
3.7106
3.7107
8.7108
3.7109 ,
25
40
3.7110
3.7110
3.7111
3.7112
8.7113
8.7 114
8.7115
3.7116
3.7116
3.7117 1
25
50
3.7118
3.7119
3.7120
3.7121
3.7121
8.7122
8.7123
8.7124
3.7125
3.7126 1
1 26
0
3.7126
3.7127
3.7128
3.7129
3.7130
3.7181
8.7132
3.7132
3.7133
3.7184 ,1
26
10
3.7135
3.7136
37137
3.7137
3.7138
3.7139
8.7140
3.7141
8.7142
8.7142 1
26
20
3.7143
3.7144
8.7145
8.7146
3.7147
3.7147
3.7148
3.7149
3.7150
8.7151 >
26
30
3.7152
3.7153
3.7153
3.7154
3.7155
8.7156
3.7157
3.7158
3.7159
3.7169 il
3.7168 '
26
40
3.7160
3.7161
3.7162
3.7163
3.7163
8.7164
3.7165
3.7166
3.7167
26
50
8.7168
3.7169
8.7170
8.7171
8.7172
3.7173
3.7173
3.7174
3.7175
8.7176
1 27
0
3.7177
3.7178
3.7178
3.7179
3.7180
3.7181
8.7182
3.7183
3.7183
3.71S4 '
27
10
3.7185
3.7186
3.7187
3.7188
3.7188
3.7189
3.7190
3.7191
3.7192
3.7192
27
20
3.7193
3.7194
3.7195
3.7196
3.7197
8.7197
3 7198
3.7199
3.7200
3.7201 1
27
30
3.7202
3.7202
3.7203
3.721U
3.7205
3.7206
3.7207
3.7207
3.7206
8.7209
27
40
3.7210
3.7211
3.7212
3.7212
3.7213
3.7214
8.7215
3.7216
3.7216
8.7217
27
50
3.7218
3.7219
3.7220
3.7221
3.7221
3.7222
3.7223
3.7224
3.7225
8.7226 1
1 28
0
3.7226
3.7227
3.7228
8.7229
3.7230
3.7230
3.7231
3.7232
3.7240
3.7233
3.7134 <
28
10
3.7235
3.7235
3.7236
3.7237
3.7238
3.7239
3 7289
3.7241
3.7242 ,
28
20
3.7243
3.7244
3.7244
3.7245
3.7246
3.7247
3.7248
3.7248
3.7249
8.7250
28
30
3.7251
3.7252
3.7253
3.7253
3.7254
3.7255
8.7256
8.7257
3.7257
3.7258
28
40
3.7259
3.7260
3.7261
3.7262
3.7262
8.7263
3.7264
3.7265
3.7266
8.7266 ,
; 28
50
3.7267
3.7268
8.7269
3.7270
3.7271
3.7271
3.7272
3 7273
3.7274
3.7275
1 29
0
3.7275
3.7276
3.7277
8.7278
8.7279
8.7279
3.7280
3.7281
8.7282
8.7283 ;'
29
10
3.7284
3.7284
3.7285
3.7286
3.7287
8.7288
3.7288
3.7289
3.7290
8.7291 1
29
20
3.7292
3.7292
3.7293
3.7294
8.7295
8.7296
3.7297
3.7297
3.7296
3.7299
29
30
3.7300
3.7301
3.7301
a7302
8.7303
8.7304
3.7305
3.7305
8.7306
8.7307 1
29
40
3.7308
3.7309
3.7309
8.7310
3.7311
3.7312
3.7313
3.7313
3.7314
8.7315 !
29
50
3.7316
3.7317
3.7317
3.7318
3.7319
3.7320
3.7321
3.7322
3.7322
8.7323
20
TABLE II.
1
LOGAEITHMS OF SMALL ARCS IN SPACE OR TIME.
Arc
0
1
i
3
i
N
5
6
H
7
i
9'
1^36^ &\
3.7324
3.7325
3.7326
3.7326
3.7327
3.7328
3.7829
8.7330
3.7330
3.7331
30
10
3.7332
3.7333
3.7334
3.7334
3.7335
3.7336
3.7387
3.7338
3.7338
3.7339
SO
20
8.7340
3.7341
3.7342
3.7342
3.7348
3.7344
3.7345
3.7346
3.7346
3.7347
80
30
3.7348
3.7349
3.7850
3.7350
3.7351
3.7352
3.73.53
3.7354
3.7354
3.7355
SO
40
3.7356
3.7357
3.7358
3.7358
3.7359
3.7360
3.7361
3.7362
3.7362
a7363
30
50
3.7364
3.7365
3.7366
8.7366
3.7367
3.7368
3.7369
8.7370
3.7370
3.7871
1 81
0
3.7372
3.7378
3.7374
3.7374
3.7375
8.7376
3.7377
3.7377
3.7378
3.7379
10
3.7380
3.7381
a7381
8.7382
3.7388
3.7384
3.7385
3.7385
3.7386
3.7387
20
3.7388
3.7389
3.7389
8.7390
8.7391
3.7392
3.7393
3.73f8
3.7894
3.7895
30
3.7396
3.7397
(1.7397
3.7398
3.7399
3.7400
3.7400
3.7401
3.7402
3.7403
40
3.7404
3.7404
3.7406
3.7406
3.7407
3.7408
3.7408
3.7409
.3.7410
3.7411
50
3.7412
3.7412
3.7418
3.7414
3.7415
3.7418
3.7416
3.7417
3.7418
3.7419
1 32
0
3.7419
3.7420
3.7421
3.7422
3.7423
3.7423
3.7424
3.7425
3.7426
3.7426
82
10
3.7427
3.7428
3.7429
3.7430
3.7430
3.7431
3.7432
3.7433
3.7434
3.7434
8S
20
3.7435
8.7436
3.7437
3.7437
3.7438
3.7489
3.7440
3.7441
3.7441
3.7442
82
30
3.7443
8.7444
3.7444
3.7445
3.7446
3.7447
8.7448
3.7448
3.7449
3.7450
82
40
3.7451
3.7452
3.7452
3.7453
3.7454
8.7455
3.7455
3.7456
8.7457
3.7458
82
50
3.7459
3.7459
3.7460
3.7461
3.7462
3.7462
8.7468
3.7464
3.7465
3.7466
1 83
0
3.7466
3.7467
3 7468
3.7469
3.7469
3.7470
3.7471
3.7472
3.7473
3.7473
S3
10
3.7474
3.7475
3.7476
3.7476
8.7477
3.7478
3.7479
3.7480
3.7480
3.7481
83
20
8.7482
3.7483
3.7483
3.7484
3.7485
3.7486
3.7487
3.7487
8.7488
3.7489
83
30
3.7490
3.7490
3.7491
3.7492
3.7498
3.7493
3.7494
3.7495
3.7496
3.7497
83
40
3.7497
8.7498
8.7499
3.7500
3.7500
3.7501
3.7502
3.7503
3.7504
3.7504
83
50
3.7505
3.7506
3.7507
3.7507
3.7508
3.7509
3.7510
3.7510
8.7511
3.7512
1 84
0
3.7518
3.7514
3.7514
3.7515
3.7516
3.7517
3.7517
3.7518
3.7619
3.7520
84
10
3.7520
3.7521
3.7522
3.7528
3.7524
3.7524
3.7526
3.7526
3.7527
8.7527
84
20
3.7528
3.7529
3.7530
3.7530
3.7531
3.7532
3.7588
3.7534
3.7534
3.7535
84
30
3.7536
3.7537
3.7537
8.7538
3.7539
3.7540
8.7540
3.7541
3.7542
3.7543
84
40
3.7543
3.7544
3.7545
3.7546
3.7547
3.7547
3.7548
3.7549
3.7550
3.7550
84
50
3.7551
8.7552
3.7558
3.7558
3.7554
8.7555
3.7556
3.7556
3.7557
3.7558
1 85
0
3.7559
3.7560
3.7560
8.7561
3.7562
3.7563
3.7568
3.7564
3.7565
3.7566
86
10
3.7566
3.7567
3.7568
3.7569
3.7569
3.7570
3.7571
8.7572
3.7572
3.7578
85
20
3.7574
3.7575
3.7575
3.7576
3.7577
3.7578
8.7579
3.7579
8.7580
3.7581
35
30
3.7582
3.7582
3.7583
3.7584
3.7585
3.7585
3.7586
3.7587
3.7588
8.7588
85
40
3.7589
3.7590
3.7591
3.7591
3.7592
3.7593
3.7594
3.7594
3.7595
3.7596
35
50
3.7597
3.7597
3.7598
3.7599
3.7600
3.7600
3.7601
3.7602
3.7603
3.7603
1 36
0
3.7604
3.7605
3.7606
3.7606
3.7607
3.7608
3.7609
3.7609
3.7610
3.7611
36
10
3.7612
3.7613
3.7613
3.7614
8.7615
3.7616
3.7616
3.7617
3.7618
3.7619
36
20
3.7619
3.7620
3.7621
3.7622
3.7622
3.7623
3.7624
3.7625
8.7625
3.7626
36
30
3.7627
3.7628
3.7628
3.7629
3.7630
3.7631
3.7631
3.7632
3.7633
8.7634
36
40
3.7634
3.7635
3.7636
3.7637
3.7637
3.7638
3.7639
3.7640
3.7640
3.7641
86
50
3.7642
3.7643
3.7643
3.7644
3.7645
3.7645
3.7646
3.7647
3.7648
8.7648
1 37
0
3.7649
3.7650
3.7651
3.7651
3.7652
3.7653
3.7654
3.7654
3.7655
3.7656
37
10
3.7657
3.7657
3.7658
3.7659
3.7660
3.7660
3.7661
3.7662
3.7663
3.7663
87
20
8.7664
3.7665
3.7666
3.7666
3.7667
3.7668
3.7669
3.7669
3.7670
3.7671
37
30
3.7672
3.7672
3.7673
3.7674
3.7675
3.7675
3.7676
3.7677
3.7677
3.7678
37
40
3.7679
3.7680
8.7681
3.7681
8.7682
8.7683
3.7683
3.7684
3.7685
3.7686
37
50
3.7686
3.7687
3.7688
3.7689
8.7689
3.7690
3.7691
3.7692
3.7692
3.7693
1 38
0
3.7694
3.7695
3.7695
3.7696
8.7697
3.7697
3.7698
3.7699
8.7700
3.7700
36
10
3.7701
3.7702
3.7703
3.7703
8.7704
3.7705
3.7706
3.7706
3.7707
3.7708
38
20
3.7709
3.7709
3.7710
3.7711
8.7711
3.7712
3.7718
3.7714
3.7714
8.7715
38
30
3.7716
3.7717
3.7717
3.7718
8.7719
3.7720
3.7720
3.7721
3.7722
3.7722
38
40
3.7723
3.7724
3.7725
3.7725
. 8.7726
3.7727
3.7728
a7728
3.7729
3.7730
88
50
3.7781
3.7731
3.7732
3.7733
3.7733
3.7784
3.778i
3.7786
3.7786
3.7737
1 39
0
3.7788
3.7739
3.7789
3.7740
8.7741
3.7742
3.7742
3.7743
3.7744
3.7744
99
10
3.7745
3.7746
3.7747
3.7747
8.7748
3.7749
3.7750
3.7750
3.7751
3.7752
39
20
3.7752
3.7753
3.7754
a7755
8.7755
3.7756
3.7767
3.7758
3.7758
3.7759
39
30
3.7760
3.7760
3.7761
3.7762
8.7768
3.7763
3.7764
3.7765
3.7766
3.7766
39
40
3.7767
3.7768
3.7768
3.7769
8.7770
3.7771
3.7771
3.7772
3.7773
3.7774
39
50
3.7774
3.7775
3.7776
3.7776
8.7777
3.7778
3.7779
3.7779
3.7780
3.7781
66
31
TABLE II.
?===
LOGARITHMS OF SMATJ. ARCS IN SPACE OR TIME.
Arc
N
0
i
i
i
i
5
d
n
7
8
9
fh. tjm. Qi.
3.7782
3.7782
3.7788
3.7784
3.7784
3.7785
3.7786
3.7787
a7787
3.7788
1 ^
to
3.7789
3.7789
3.7790
3.7791
3.7792
a7792
3.7793
3.7794
a7795
3.7795
40
20
3.7796
3.7797
3.7797
3.7798
3.7799
3.7800
3.7800
3.7801
a7802
3.7802
40
30
3.7803
3.7804
3.7805
3.7805
3.7806
3.7807
3.7807
3.7808
a7809
3.7810
40
40
3.7810
3.78U
3.7812
3.7813
3.7813
3.7814
3.7815
3.7815
3.7816
a78l7
40
50
3.7818
3.7818
3.7819
3.7820
3.7820
3.7821
3.7822
3.7823
a7823
3.7824
1 41
0
3.7825
3.7825
3.7826
3.7827
3.7828
3.7828
3.7829
3.7830
a7830
3.7831
41
10
3.7832
3.7833
3.7833
3.7834
3.7835
3.7835
8.7836
3.7837
3.7838
3.7838
41
20
3.7839
3.7840
3.7840
3.7841
3.7842
3.7843
3.7843
3.7844
a7845
3.7845
41
30
3.7846
3.7847
3.7848
3.7848
3.7849
3.7850
3.7850
3.7851
a7852
3.7853
41
40
3.7853
3.7854
3.7855
3.7855
3.7856
3.7857
3.7858
3.7858
3.7859
3.7860
41
50
3.7860
3.7861
3.7862
37863
3.7863
3.7864
3.7865
3.7865
3.7866
3.7867
1 48
0
3.7868
3.7868
3.7869
3.7870
3.7870
3.7871
3.7872
3.7872
3.7873
3.7874
42
10
3.7875
3.7875
3.7876
3.7877
3.7877
3.7878
3.7879
3.7880
3.7880
3.7881
43
SO
3.7882
3.7882
3.7883
3.7884
3.7885
3.7885
3.7886
3.7887
a7887
3.7888
42
30
8.7889
3.7889
3.7890
3.7891
3.7892
3.7892
3.7893
3.7894
a7894
3.7895
42
40
3.7896
3.7897
3.7897
3.7898
3.7899
3.7899
3.7900
3.7901
a7901
3.7902
42
50
3.7903
a7904
3.7904
3.7905
3.7906
3.7906
3.7907
3.7908
a790S
3.7909
1 43
0
3.7910
3.79U
3.7911
3.7912
3.7913
3.7913
3.7914
3 7915
a7916
3.7916
43
10
3.7917
3.7918
3.7918
3.7919
3.7920
3.7920
3.7921
3.7922
a7923
3.7928
43
20
3.7924
3.7925
3.7925
3.7926
3.7927
3.7927
3.7928
3.7929
a7980
3.7930
43
30
3.7981
3.7982
3.7932
3.7933
3.7934
3.7934
3.7985
3.7936
a7937
3.7937
43
40
3.7938
3.7939
3.7939
3.7940
3.7941
3.7941
a7942
3.7943
a7943
rf.7944
43
50
3.7945
3.7946
a7946
3.7947
3.7948
3.7948
3.7949
a7950
a7950
3.7951
1 44
0
3.7952
3.7953
3.7953
3.7954
3.7955
3.7955
3.7956
a7957
a7967
3.7958
44
10
3.7959
3.7959
3.7960
3.7961
3.7962
3.7962
3.7963
a7964
a7964
a7965
44
20
3.7966
3.7966
3.7967
3.7968
3.7969
3.7969
3.7970
a797l
a7971
3.7972
44
30
3.7973
3.7973
3.7974
3.7975
3.7975
3.7976
3.7977
a7978
a7978
a7979
44
40
3.7980
3.7980
3.7981
3.7982
3.7982
3 7983
3.7984
a7984
a7985
3.7986
44
50
3.7987
3.7987
3.7988
3.7989
3.7989
3.7990
a7991
3.7991
a7992
a7993
1 45
0
3.7993
3.7994
3.7995
3.7995
3.7996
3/7997
3.7998
a7998
3.7999
3.8000
45
10
3.8000
3.8001
3.8002
3.8002
8.8003
3.8004
3.8004
a8005
a8006
3.8006
45
20
3.8007
3.8008
3.8009
3.8009
3.8010
3.8011
3.8011
3.8012
a8013
3.8013
45
30
3.8014
3.8015
3.8015
3.8016
3.8017
3.8017
3.8018
a80l9
3.8020
3.8020
45
40
3.8021
3.8022
3.8022
3.8023
3.8024
3.8024
3.8025
a8026
a8026
3.8027
45
50
3.8028
3.8028
3.8029
3.8030
3.8080
3.8031
3.8032
3.8033
3.8033
3.8034
1 46
0
3.8035
3.8035
3.8036
3.8036
3J037
3.8038
3.8039
3.8039
3.8040
3.8041
46
10
3.8041
3.8042
3.8043
3.8043
3.8044
3.8045
3.8045
3.8046
3.8047
3.8048
46
20
3.8048
3.8049
3.8050
3.8050
3.8051
3.8052
3.8052
3.8053
3.8054
3.8054
46
30
3.8055
3.8056
3.8056
3.8057
3.8058
3.8058
3.8059
3.8060
a8060
3.8061 '
46
40
3.8062
3.8062
3.8063
3»064
3.8065
3.8065
3.8066
3.8067
3.8067
3.80681
46
50
3.8069
3.8069
3.8070
3.8071
3.8071
3.8072
3.8073
3.8073
3.8074
3J075 1
1 47
0
3.8075
3.8076
3.8077
3.8077
3.8078
3.8079
3.8079
3.8080
a8081
a808l
47
10
3.8082
3.8083
3.8083
3.8084
3.8085
3.8085
3.8086
3.8087
3.8088
3.8088
47
20
3.8089
3.8090
3.8090
3.8091
3.8092
3.8092
3.8093
a8094
a8094
3.8095 ,
47
30
3.8096
3.8096
3.8097
3.8098
3.8098
8.8099
3.8099
a8ioo
3.8101
3.8102
47
40
3.8102
3.8103
3.8104
3.8104
3.8105
3.8106
3.8106
3.8107
3.8108
a8l08
47
50
3.8109
3.8110
3.8110
3.8111
3.8112
3.8112
3.8113
3.8114
3.8114
3.8116 *
1 48
0
3.8116
3.8116
3.8117
3.8118
3.8118
3.8119
3.8120
a8120
a8121
3.8122
48
10
3.8122
3.8123
3.8124
3.8124
3.8125
3.8126
3.8126
3.8127
a8l28
3.8128
48
20
3.8129
3.8130
3.8130
3.8131
3.8132
3.8132
8.8133
a8134
3.8134
aai35
48
30
3.8136
3.8136
3.8137
3.8138
3.8138
3.8139
3.8140
3.8140
3.8141
3.8142
48
40
3.8142
3.8143
3.8144
3.8144
3.8145
3.8146
3.8146
3.8147
3.8148
a8148
48
50
3.8149
3.8150
3.8150
3.8151
3.8152
3.8152
3.8153
3.8154
3.8154
3.8155
1 49
0
3.8156
3.8156
3.8157
3.8158
3.8158
3.8159
3.8160
3.8160
3.8161
a8162
49
10
3.8162
3.8163
3.8164
3.8164
3.8165
3.8166
3.8166
3.8167
3.8168
38168
49
20
^8169
3.8170
3.8170
3.8171
3.8172
3.8172
3.8173
3.8174
3.8174
3J175
49
30
3.8176
3.8176
8.8177
3.8178
3.8178
3.8179
3.8180
3.8180
a8l81
3J182 1
49
40
3.8182
3.8183
3.8184
3.8184
3.8185
3.8185
3^186
3.8187
3.8188
3.8188 '
49
50
3.8189
3.8190
3.8190
3.8191
3.8191
3.8192
3.8193
3.8193
3.8194
3.8195
22
TABLE II.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Aic
0
1
^
^
i
5
6
1
^
9
o. 1 a
3.8195
3.8196
3.8197
3.8197
3.8198
3.8199
3.8199
3.8200
3.8201
3.8201
50
10
3.8202
3.8203
3.8203
3.8204
3.8205
3.8205
3.8206
3.8207
3.8207
8.8208
50
20
3.8209
3.8209
3.8210
3.8211
3.821 1
38212
3.8213
38213
3.8214
3.8214
50
30
3.8215
3.8216
3.8216
3.8217
3.8218
3.8218
3.8219
3.8220
3.8220
3.8221
50
40
3.8222
3.8222
3.8223
3.8224
3.8224
3.8225
3.8226
3.8226
3.8227
3.8228
50
50
3.8228
3.8229
3.8230
3.8230
3.8231
3.8231
8.8232
3.8233
3.8233
3.8234
1 51
0
3.8235
3.8235
3.8236
3.8237
3.8237
3.8238
3.8239
3.8239
3 8240
3.8241
51
10
3.8241
3.8242
3.8243
3.8243
3.8244
3.8245
3.8246
3.8246
3.8246
3.8247
51
20
3.8248
3.8248
3.8249
3.8250
3.8250
3.8251
8.8252
3.8252
3.8253
3.8254
51
30
3.8254
3.8255
3.8256
3.8256
3.8257
3.8258
3.8258
3.8259
3.8259
3.8260
51
40
8.8261
3.8261
3.8262
3.8263
3.8263
3.8264
3.8265
3.8265
3.8266
3.8267
51
60
3.8267
3.8268
3.8269
3.8269
3.8270
8.8270
3.8271
3.8272
3.8272
3.8273
I 52
0
3.8274
3.8274
3.8275
3.8276
3.8276
3.8277
3.8278
3.8278
3.8279
3.8280
52
10
3.8280
3.8281
3.8281
3.8282
3.8283
3.8283
3.8284
3.8285
3.8285
3.8286
52
20
3.8287
3.8287
3.8288
3.8289
3.8289
3.8290
3.8290
3.8291
3.8292
3.8292
52
30
3.8293
3.8294
3.8294
3.8295
3.8296
3.8296
3.8297
3.8298
3.8298
3.8299
52
40
3.8299
3.8300
3.8301
3.830f
3.8302
3.8303
3.8303
3.8304
3.8305
3.8306
52
60
3.8306
3.8307
3.8307
3.8308
3.8308
3.8309
3.8310
3.8310
3.8311
3.8312
1 53
0
3.8312
3.8313
3.8314
3.8314
8.8315
3.8315
3.8316
3.8317
3.8317
3.8318
53
10
3.8319
3.8319
3.8320
3.8321
3.8321
3.8322
3.8323
3.8323
3.8324
3.8324
53
20
3.8325
3.8326
3 8326
3.8327
3.8328
3.8328
3.8329
3.8330
3.8330
3.8331
53
30
8.8331
3.8332
3.8333
3.8333
3.8334
3.8335
3.8335
3.8336
3.8337
3.8337
53
40
3.8338
3.8338
3.8339
3.8340
3.8340
3.8341
3.8342
3.8342
3.8343
3.8344
53
50
3.8344
38345
3.8345
3.8346
3.8347
3.8347
3.8348
3.8349
3.8349
3.8350
1 54
0
3.8351
3.8351
3.8352
3.8352
3.8353
3.8354
3.8354
3.8356
3.8356
3.8356
54
10
3.8357
3.8358
3.8358
3.8359
3.8359
3.8360
3.8361
3.8361
3.8362
3.8363
54
20
3.8363
3.8864
3.8365
3.8365
3.8366
3.8366
8.8367
3.8368
3.8368
3.8369
54
30
8.8370
3.8370
3.8371
3.8371
3.8372
3.8373
3.8373
3.8374
3.8375
3.8376
54
40
3.8376
3.8377
3.8377
3.8378
3.8378
3.8379
3.8380
3.8380
3.8381
3.8382
54
50
3.8382
3.8383
3.8383
3.8384
3.8385
3.8385
3.8386
3.8387
. 3.8387
3.8388
1 55
0
3.8388
3.8389
3.8390
3.8390
3.8391
3;8392
3.8392
3.8393
3.8394
3.8394
55
10
3.8395
3.8395
3.8396
3.8397
8.8397
3.8398
3.8399
3.8399
3.8400
3.8400
55
20
3.8401
3.84Q2
3.8402
3.8403
3.8404
3.8404
3.8405
3.8405
3.8406
3.8407
55
30
3.8407
3.8408
3.8409
3.8409
3.8410
3.8410
3.8411
3.8412
3.8412
3.8413
55
40
3.8414
3.8414
3.8415
3.8415
3.8416
3.8417
3.8417
3.8418
38419
3.8419
65
50
3.8420
3.8420
3.8421
3.8422
3.8422
3.8423
3.8424
3.8424
3.8425
3.8425
1 56
0
3.8426
3.8427
3.8427
3.8428
3.8429
3.8429
3.8430
3.8430
3.8431
3.8432
56
10
3.8432
3.8433
3.8434
3.8434
3.8435
3.8435
3.8436
3.8437
3.8437
3.8438
56
20
3.8439
3.8439
3.8440
8.8440
3.8441
3.8442
3.8442
3.8443
3.8444
3.8444
56
30
3.8445
3.8445
3.8446
3.8447
3.8447
3.8448
3.8448
3.8449
3.8450
3.8450
56
40
3.8451
3.8452
3.8452
3.8453
3.8453
3.8454
3.8455
3.8455
3.8456
3.8457
56
50
3.8457
3.8458
3.8458
3.8459
3.8460
3.8460
3.8461
3.8462
3.8462
3.8463
1 57
0
3.8463
3.8464
8.8466
3.8465
3.8466
3.8466
3.8467
3.8468
3.8468
3.8469
67
10
3.8470
3.8470
3.8471
3.8471
3.8472
3.8473
3.8473
3.8474
3.8474
3.8475
57
20
3.8476
3.8476
3.8477
3.8478
3.8478
3.8479
3.8479
3.8480
3.8481
3.8481
57
30
3.8482
3.8483
8.8483
3.8484
3.8484
3.8485
3.8486
.3.8486
3.8487
3.8487
67
40
3.8488
3.8489
8.8489
3.8490
3.8491
3.8491
3.8492
3.8492
3.8493
3.8494
57
60
3.8494
8 8495
3.8496
3.8496
3.8497
3.8497
3.8498
3.8499
i3.8499
3.8500
1 68
0
3.8500
3.8501
3.8502
3.8502
3.8503
3.8503
8.8504
3.8505
3.8505
3.8506
68
10
3.8506
3.8607
3.8508
8.8508
3.8509
3.8510
3.8510
3.8511
3.8611
3.8512
58
20
3.8513
3.8613
3.8514
3.8614
3.8515
3.8516
3.8516
3.8517
3.8517
3.8518
68
30
3.8519
3.8519
3.8620
3.8521
3.8521
3.8522
3.8522
3.8523
3.8524
3.8524
68
40
3.8525
3.8525
3.8526
3.8527
3.8527
3.8528
3.8528
3.8529
3.8530
3.8530
68
50
3.8531
3.8532
3.8532
3.8633
3.8533
3.8534
3.8535
3.8535
3.8536
3.8536
1 69
0
3.8537
3.8538
3.8638
3.8539
3.8539
3.8540
3.8541
3.8541
3.8542
3.8542
69
10
3.8543
3.8544
3.8644
3.8545
3.8.')45
3.8546
3.8547
3.8547
3.8548
3.8549
69
20
3.8549
3.8550
3.8650
3.8551
3.8552
8.8552
3.8553
3.8553
3.8554
3.8556
69
30
3.8555
3.8556
3.8556
3.8557
3.8558
3.8558
3.8559
3.8559
3.8560
3.8561
69
40
3 8561
3.8562
3 8562
3.8563
3.8564
3.8564
3.8565
3.8565
3.8566
3.8567
69
50
3.8567
3.8568
3.8568
3.8569
3.8570
3.8570
3.8571
3.8572
3.8572
3.8573
23
TABLE II.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Aic
6
i
S
i
4
5
M
6
7
^
§
|b.(^-.S-
3.8573
3.8574
8.8575
3.8575
3.8576
3.8576
3.8577
3.8578
3.8578
33579
0
10
3.8579
8.8580
3.8581
3.8581
3.8582
3.8582
3.8583
3.8584
3.8584
3.8585
0
20
3.8585
3.85S6
8.8587
3.8587
3 8588
3.8588
3.8589
3.8590
3.8590
3.8591
0
SO
3.8591
3.8592
8.8593
3.8593
3.8594
38594
3.8595
3.8596
3.8596
3.8597
0
40
3.8597
3.8598
3.8599
3.8599
3.8600
3.8600
3.8601
3.8602
3.8602
3.8603
0
50
3.8603
3.8604
3.8605
3.8605
3.8606
3.8606
3.8607
3.8608
3.8608
3.8609
3 1
0
3.8609
3.8610
3.8611
3.8611
3.8612
3.8612
3.8613
3.8614
3 8614
3.8615
10
3.8615
3.8616
3.8617
3.8617
3.8618
38618
3.8619
3.8620
3.8620
8.8621
20
3.8621
3.8622
3.8623
3.8623
3.8624
3.8624
3.8625
3.8625
8.8626
3.8627
30
3.8627
3.8628
3.8628
3.8629
3.8630
3.8630
3.8631
3.8631
3.8682
8.8633
40
3.8633
3.8634
3.8634
3.8635
3.8636
.3.8636
8.8637
3:8637
3.8688
3.8639
50
3.8639
3.8640
3.8640
3.8641
3.8642
3.8642
3.8643
3.8643
3.8644
3.8645
8 2
0
3.8645
3.8646
3.8646
3.8647
3.8647
3.8648
3.8649
3.8649
3.8650
3J650
10
3.8651
3.8652
3.8652
3.8653
3.8653
8.8654
3.8655
3.8655
3.8656
3.8656
20
3.8657
3.8658
3.8658
3.S659
3.8659
3.8660
3.8661
3.8661
3.8662
3.8662
30
3.8663
3.8663
3.8664
3.8665
3.8665
3.8666
3.8666
3.8667
3.8668
3J668
40
3.8669
3.8669
3.8670
3.8671
3.8671
3.8672
3.8672
3.8673
3.8673
3.8674
50
3.8675
3.8675
3.8676
3.8676
3.8677
8.8678
3.8678
3.8679
3.8679
3.8680
2 8
0
3.8681
3.8681
3.8682
3.8682
3.8683
3.8684
3.8684
8.8685
3.8685
3.8686
10
3.8686
3.8687
3.8688
3.8688
3.8689
3.8689
3.8690
3.8691
8.8691
3.8692
20
3.8692
3.8693
3.8693
3.8694
3.8695
3.8695
3.8696
3.8696
3.8697
3.8698
30
3.8698
3.8699
3.8699
3.8700
3.8701
3.8701
3.8702
3.8702
3.8703
3.8703
40
3.8704
3.8705
3.8705
3.8706
3.8706
3.8707
3.8708
3.8708
3.8709
3.8709
50
3.8710
3 8710
3.8711
3.8712
3.8712
3.8713
3.8713
3.8714
3.8715
3.8715
2 4
0
3.8716
3.8716
3.8717
3.8717
3.8718
3.8719
3.8719
3.8720
3.8720
3.8721
10
3.8722
3.8722
3.8723
3.8723
3.8724
3.8724
3.8725
3.8726
3.8786
3.8727
20
3.8727
3.8728
3.8729
3.8729
3.8730
3.8730
3.8731
3.8731
3.8732
3.8733
30
3.8733
3.8734
3.8734
3.8735
3.8736
3.8736
3.8737
3.8737
3.8738
3.8738
40
3.8739
3.8740
3^740
3.8741
3.8741
3.8742
3.8742
3.8743
3.8744
3.8744 J
50
3.8745
3.8745
3.8746
3.8747
3.8747
3.8748
3.8748
3.8749
3.8749
3.8750
2 5
0
3.8751
3^751
3.8752
3.8752
3.8753
3.8754
3.8754
3.8755
3.8755
3.8756 j
10
3.8756
3.8757
3.8758
3.8758
3.8759
3.8759
3.8760
3.8760
3.8761
3.8762
1 5
20
3.8762
3.8763
3^763
3.8764
3.8764
3.8765
3.8766
3.8766
3.8767
3.8767
30
3.8768
3.8769
3.8769
3.8770
3.8770
3.8771
3.8771
3.8772
3.8773
3.8773
40
3.8774
3.8774
3.8775
3.8775
3.8776
3.8777
3.8777
3.8778
3 8778
3.8779 1
50
3.8779
3.8780
3.8781
3.8781
3.8782
3.8782
3.8783
3.8783
3.8784
3.8785 !
2 8
0
3.8785
3.8786
3.8786
3.8787
3.8788
3.8788
3.8789
3.8789
3.8790
3.8790'
10
3.8791
3.8792
3.8792
3.8793
3.8793
3.8794
3.8794
3.8795
3.8796
3.8796
20
3.8797
3.8797
3.8798
3.8798
3.8799
3.8800
3.8800
3.8801
3.8801
3.8802
30
3.8802
3.8803
3.8804
3.8804
3.8805
3.8805
3.8806
3.8806
3.8807
3.8808
40
3.8808
3.8809
3.8809
3.8810
3.8810
3.8811
3.8812
3.8812
3.8813
3.8818
50
3.8814
3.8814
3.8815
3.8816
3.8816
3.8817
3.8817
3.8818
3.8818
3.8819
2 7
0
3.8820
3.8820
3.8821
3.8821
3.8822
a8822
3.8823
3.8824
3.8824
3.8825
10
3.8825
3.8826
3.8826
3.8827
3.8828
3.8828
3.8829
3.8829
3.8830
3.8830
20
3.8831
3.8832
3.8832
3.8833
3.8833
3.8834
3.8834
3.8835
3.8835
3.8836 1
30
3.8837
3.8837
3.8838
3.8838
3.8839
3.8839
3.8840
3.8841
8.8841
3.8842
40
3.8842
3.8843
38843
3.8844
3.8845
3.8845
3^846
3.8848
3.8847
3.8847
50
3.8848
3 8849
3.8849
3.8850
3.8850
3.8851
3.8851
3.8852
3.8852
3J853
8 8
0
3.8854
3.8854
3.8855
3.8855
3.8856
3.8856
3.8857
3.8858
3.8858
3.8859
10
3.8859
3.8860
3.8860
3.8861
3.8862
3.8862
3.8863
3.8863
3.8864
3.8864 .
8
20
3.8865
3.8865
3.8866
3.8867
3.8867
3.8868
3.8868
3.8869
3.8869
3.8870
1 8
30
3.8871
3.8871
3.8872
3.8872
3.8873
3.8873
3.8874
3.8874
3.8875
3.8876
1 ^
40
3.8876
3^877
3.8877
3.8878
3.8878
3.8879
3.8880
3.8880
3.8881
3.8881
U 8
50
3.8882
3.8882
3.8883
3.8883
3.8884
3.8885
3.8885
3.8886
3JWW6
3J887
2 8
0
38887
3.8888
3.8889
3.8889
3.8890
3.8890
3.8891
3.8891
3.8892
3.8892
10
3.8893
3.8894
8.8894
8.8895
3.8895
3.8896
3.8896
3.8897
3.8897
3.8898
20
3.8899
3.8899
3.8900
3.8900
3.8901
3.8901
3.8902
3.8903
3.89an
3.8904
30
3.8904
3.8905
8.8905
3.8906
3.8906
3.8907
3.8908
3.8908
3.8909
3.8909
40
3.8910
3.8910
38911
3.8911
3.8912
3.8912 3.8913
3.8914
3.8914
3.8915
50
3.8915
8.8916
3.8916
3.8917
3.8918
3.8918 3.8919
3.8919
3.8920
8i920
21
TABLE II.
LOGARITHMS OF SMAU4 ABQS IN SPACE OR TIME.
Arc
d
N
1
^
i
i
5
1
M
6
3.8924
7
8
9
jb-KJiB. 0^
3.8921
8.8922
3.8922
3.8923
3J923
3.8924
3.8925
3.8925
3.8926
10
10
8.8927
3.8927
3.8928
3.8928
3.8929
3.8929
3.8930
3.8930
8.8931
3.8932
10
20
3.8932
3.8933
3.8933
3.8934
3.8934
3.8935
3.8935
3.8936
3.8937
3.8937
10
30
3.893S
3.8938
3.8939
3.8939
3.8940
3.8940
3.8941
3.8941
3.8942
3.8943
10
40
3^943
3.8944
3.8944
3.8945
3.8945
3.8946
3.8946
3.8947
3.8948
3.8948
10
50
3.8949
3.8949
3.8950
3.8950
3.8951
3.8951
3.8952
3.8953
3.8953
3.8954
2 11
0
3.8954
3.8955
3.8955
3.8956
3.8956
3.8957
3.8958
3.8958
3.8959
3.8959
11
10
3.8960
3.8960
3.8961
3.8961
3.8962
3.8963
3.8963
3.8964
3.8964
3.8965
11
20
3.8965
3.8966
3.8966
3.8967
3.8967
3.8968
3.8969
3.8969
8.8970
3.8970
11
30
3.8971
3.8971
3.8972
3.8972
3.8973
3.8974
3.8974
3.8975
3.8975
3.8976
11
40
3.8976
3.8977
3.8977
3.8978
3.8978
3.8979
3.8980
3.8980
3.8981
3.8981
11
50
8.8982
3.8982
3.8983
3.8983
3.8984
3.8985
3.8985
3.8986
3.8986
3.8987
2 IS
0
3.8987
3.8988
3.8988
3.8989
3.8989
3.8990
3.8991
3.8991
3.8992
3.8992
13
10
3.8993
3.8993
3.8994
3.8994
8.8995
3.8995
3.8996
3.8997
3.8997
3.8998
12
20
3.8998
3.8999
3.8999
3.9000
3.9000
3.9001
3.9001
3.9002
3.9003
3.9003
12
30
8.9004
3.9004
3.9005
3.9005
3.9006
3.9006
3.9007
3.9007
3.9008
3.9009
12
40
3.9009
3.9010
3.9010
3.901 1
3.9011
3.9012
3.9012
3.9013
3.9013
3.9014
12
50
3.9015
3.9015
3.9016
3.9016
3.9017
3.9017
3.9018
3.9018
3.9019
3.9019
2 18
0
3.9020
3.9021
3.9021
3.9022
3.9022
3.9023
3.9023
3.9024
3.9024
3.9025
13
10
3.9025
3.9026
3.9027
3.9027
3.9028
8.9028
3.9029
3.9029
3.9030
8.9030
13
20
3.9031
3.9031
3.9032
3.9033
3.9033
3.9034
3.9034
3.9035
3.9035
3.9036
13
30
3.9036
3.9037
3.9037
3.9038
3.9038
3.9039
3.9040
3 9040
3.9041
3.9041
13
40
3.9042
3.9042
3.9048
3.9043
3.9044
3.9044
3.9045
3.9046
3.9046
3.9047
13
50
3.9047
3.9048
3.9048
3.9049
3.9049
3.9050
3.9050
3.9051
8.9051
3.9052
2 14
0
3.9053
3.9053
3.9054
3.9054
3.9055
3.9055
3.9056
3.9056
3.9057
3.9057
U
10
3.9058
3.9058
3.9059
3.9060
3.9060
3.9061
3.9061
3.9062
3.9062
3.9063
14
20
3.9063
3.9064
3.9064
3.9065
3.9066
3.9066
3.9067
3.9067
3.9068
3.9068
U
30
3.9069
3.9069
3.9070
3.9070
3.9071
3.9071
3.9072
3.9073
3.9073
3.9074
14
40
3.9074
3.9075
3.9075
3.9076
3.9076
3.9077
3.9077
3.9078
3.9078
3.9079
14
50
3.9079
3.9080
3.9081
3.9081
3.9082
39082
3.9083
3.9083
3.9084
3.9084
2 15
0
3.9085
3.9085
3.9086
3.9086
3.9087
3.9088
3.9088
3.9089
3.9089
3.9090
15
10
3.9090
3.9091
3.9091
3.9092
3.9092
' 3.9093
3.9003
3.9094
3.9094
3.9095
15
30
3.9096
3.9096
3.9097
3.9097
3.9098
3.9098
3.9099
3.9099
3.9100
3.9100
15
80
3.9101
3.9101
3.9102
3.9103
3.9103
3.9104
3.9104
3.9105
3.9105
3.9106
15
40
3.9106
3.9107
3.9107
3.9108
3.9108
3.9109
3.9109
3.9110
3.9111
3.9111
15
50
3.9112
3.9112
3.9113
3.9113
3.9114
3.9114
3.9115
3.9115
3.9116
3.9116
2 16
0
3.9117
3.9117
3.9118
3.9118
3.9119
3.9120
3.9120
3.9121
3.9121
3.9122
16
10
3.9122
3.9123
3.9123
3.9124
3.9124
3.9125
3.9125
3.9126
3.9126
3.9127
16
20
3.9128
3.9128
3.9129
3.9129
3.9130
3.9130
3.9131
3.9131
3.9132
3.9132
16
30
3.9133
3.9133
3.9134
3.9134
3.9135
3.9135
3.9136
3.9137
3.9137
3.9138
16
40
3.9138
3.9139
3.9139
3.9140
3.9140
3.9141
3.9141
3.9142
3.9142
3.9143
16
50
3.9143
3.9144
3.9144
3.9145
3.9146
3.9146
3.9147
3.9147
3.9148
3.9148
a \7
0
3.9149
3.9149
3.9150
3.9150
3.9151
3.9151
3.9152
3.9152
3.9153
3.9153
17
10
3.9154
3.9155
3.9155
3.9156
3.9156
3.9157
3.9157
3.9158
3.9158
3.9159
17
20
3.9159
3.9160
3.9160
3.9161
3.9161
3.9162
3.9162
3.9163
3.9163
3.9164
17
80
3.9165
3.9165
3.9166
3.9166
3.9167
3.9167
3.9168
3.9168
3.9169
3.9169
17
40
3.9170
3.9170
3.9171
3.9171
3.9172
3.9172
3.9173
3.9173
3.9174
3.9175
V
50
3.9175
3.9176
3.9176
3.9177
3.9177
3.9178
3.9178i
3.9179
3.9179
3.9180
2 18
0
3.9180
3.9181
3.91S1
3.9182
8.9182
3.9183
8.9183
3.9184
3.9184
3.9185
18
10
3.9186
3.9186
3.9187
3.9187
3.9188
3.9188
3.9iaSi
3.9189
3.9190
3.9190
18
20
3.9191
3.9191
3.9192
3.9192
3.9193
3.9193
3.9194
3.9194
3.9195
3.9195
IS
30
3.9196
a9197
3.9197
3.9198
3.9198
8.9199
3.91S19
3.9200
3.9200
3.9201
IS
40
3.9201
3.9202
3.9202
3.9203
3.9203
3.9204
3.9204
3.9205
3.9205
3.9206
IS
50
3.9206
3.9207
3.9207
3.9208
3.9209
8.9209
3.9210
3.9210
3.9211
3.9211
2 19
0
3.9212
3.9212
3.9213
3.9213
3.9214
8.9214
3.9215
8.9215
3.9216
3.9216
Id
10
3.9217
3,9217
3.9218
3.9218
3.9219
3.9219
3.9220
3.9221
3.9221
3.9222
19
20
3.9222
3.9223
3.9223
3.9224
3.9224
3.9225
8.9225
3.9226
3.9226
3.9227
19
30
3.9227
3.9228
3.9228
3.9229
3.9229
3.9230
3.9230
3.9231
3.9231
3.9232
g 19
40
3.9232
3.9233
3.9233
3.9234
3.9235
3.9235
3.9236
3.9236
3.9237
3.9237
1 19
50
3.9238
a9238
3.9239
3.9239
8.9240
3.9240
3.9241
3.9241
3.9242
3.9242
35
TABLE II.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME. |
Arc.
d
N
1
2
d
4
5
6
7
8"
9
2'»-20'»* O*-
3.9243
3.9243
3.9244
3.9244
3.9245
3.9245
3.9246
3.9246
3.9247
3.9247
20
10
3.9248
3.9248
3.9249
3.9250
3.9250
3.9251
3.9251
3.9252
3.9252
3.9253
20
20
3.9253
3.9254
3.9254
3.9255
3.9255
3.9256
3.9256
3.9257
3.9257
3.9258
20
30
3.9258
3.9259
3.9259
3.9260
3.9260
3.9261
3.9261
3.9262
3.9262
3.9263
20
40
3.9263
3.9264
3.9264
3.9265
3.9265
3.9266
3.9267
3.9267
3.9268
3.9268
20
50
3.9269
3.9269
3.9270
3.9270
3.9271
3.9271
3.9272
3.9272
3.9273
3.9273
2 21
0
3.9274
3.9274
3.9275
3.9275
3.9276
3.9276
3.9277
3.9277
3.9278
3.9278
21
10
3.9279
3.9279
3.9280
3.9280
3.9281
3.9281
3.9282
3.9282
3.9263
3.9283
21
20
3.9284
3.9284
3.9285
3.9285
3.9286
3.9287
3.9287
3.9288
3.9288
3.9289
21
30
3.9289
3.9290
3.9290
3.9291
3.9291
3.9292
3.9292
3.9293
3.9293
3.9294
21
40
3.9294
3.9295
3.9295
3.9296
3.9296
3.9297
3.9297
3.9298
3.9298
3.9299
21
50
3.9299
3.9300
3.9300
3.9301
3.9301
3.9302
3.9302
3.9303
3.9303
3.9304
2 22
0
3.9304
3.9305
3.9305
3.9306
3.9306
3.9307
3.9307
3.9308
3.9308
3.9309
22
10
3.9309
3.9310
3.9311
3.9311
3.9312
3.9312
3.9313
3.9313
3.9314
3.9314
22
20
3.9315
3.9315
3.9316
3.9316
3.9317
3.9317
3.9318
3.9318
3.9319
3.9319
22
30
3.9320
3.9320
3.9321
3.9321
3.9322
3.9322
3.9323
3.9323
3.9324
3.9324
22
40
3.9325
3.9325
3.9326
3.9326
3.9327
3,9327
3.9328
3.9328
3.9329
3.9329
22
50
3.9330
3.9330
3.9331
3.9331
3.9332
3.9332
3.9333
3.9333
3.9334
3.9334
2 23
0
3.9335
3.9335
3.9336
3.9336
3.9337
3.9337
3.9338
3.9338
3.9339
3.9339
23
10
3.9340
3.9340
3.9341
3.9341
3.9342
3.9342
3.9343
3.9343
3.9344
3.9344
23
20
3.9345
3.9345
3.9346
3.9346
3.9347
3.9348
3.9348
3.9349
3.9349
3.9350
23
30
3.9350
3.9351
3.9351
3.9352
3.9852
3.9353
3.9353
3 9354
3.9354
3.9355
23
40
3.9355
3.9356
3.9356
3.9357
3.9357
3.9358
3.9358
3.9359
3.9359
3.9360
23
50
3.9360
3.9361
3.9361
3.9362
3.9362
3.9363
3.9363
3.9364
3.9364
3.9365
2 24
0
3.9365
3.9366
3.9366
3.9367
3.9367
3.9368
3.9368
3.9369
3.9369
3.9370
24
10
3.9370
3.9371
3.9871
3.9372
8.9372
3.9373
3.9373
3.9374
a9374
3.9375 1
24
20
3.9375
3.9376
3.9376
3.9377
3.9377
8.9378
3.9378
3.9379
3.9379
3.9380
24
30
3.9380
3.9381
3.9381
3.9382
3.9382
3.9383
3.9383
3.9384
3.9384
3.9385
24
40
3.9385
3.9386
3.9386
3.9387
3.9387
a9388
3.9388
3.9389
8.9389
3.9390
24
50
3.9390
3.9391
3.9391
3.9392
3.9392
3 9393
3.9393
3.9394
3.9394
3.9395
2 25
0
3.9395
3.9396
3.9396
8.9897
3.9402
3.9397
3.9398
3.9398
3.9399
3.9399
3.9400
25
10
3.9400
3.9401
3.9401
3.9402
3.9403
3.9403
3.9404
3.9404
3.9405
25
20
a9405
3.9406
3.9406
3.9407
3.9407
3.9408
3.9408
3.9409
3.9409
3.9410
25
30
3.9410
3.9411
3.9411
3.9412
3.9412
3.9413
3.9413
3.9414
3.9414
3.9415
25
40
3.9415
3.9416
3.9416
3.9417
3.9417
3.9418
3.9418
3.9419
3.9419
3.9420
25
50
3.9420
8.9421
3.9421
3.9422
3.9422
3.9423
3.9423
3.9424
3.9424
3.9425
2 26
0
3.9425
3.9426
3.9426
3.9427
3.9427
3.9428
3.9428
8.9429
3.9429
3.9430
26
10
3.9430
3.9430
3.9431
3.9431
3.9432
3.9432
3.9433
3.9433
3.9434
3.9434
26
20
3.9435
3.9435
3.9436
3.9436
3.9437
3.9437
3.9438
3.9438
3.9439
3.9439
26
30
3.9440
3.9440
3.9441
3.9441
3.9442
3.9442
3.9443
3.9443
3.9444
3.9444
26
40
3.9445
3.9445
3.9446
3.9446
3.9447
3.9i47
3.9448
3.9448
8.9449
3.9449
26
50
3.9450
3.9450
3.9451
3.9451
3.9452
3.9452
3.9453
3.9453
8.9454
3.9454
2 27
0
3.9455
3.9455
3.9456
3.9456
3.9457
3.9457
3.9458
3.9458
3.9459
3.9459
27
10
3.9460
3.9460
3.9461
3.9461
3.9462
8.9462
3.9463
3.9463
3.9464
3.9464
27
20
3.9465
3.9465
3.9466
3.9466
3.9466
3.9467
3.9467
3.9468
3.9468
3.9469
27
30
3.9469
3.9470
3.9470
3.9471
3.9471
3.9472
3.9472
3.9473
3^473
3.9474
27
40
3.9474
3.9475
3.9475
3.9476
3.9476
8.9477
3.9477
3.9478
3.9478
3.9479
27
50
3.9479
3.9480
3.9480
3.9481
3.9481
3.9482
3.9482
3.9483
3.9483
3.9484
2 28
0
3.9484
3.9485
3.9485
3.9486
3.9486
3.9487
3.9487
3.9488
3.9488
3.9489
28
10
3.9489
3.9490
3.9490
3.9490
3.9491
3.9491
3.9492
3.9492
3.9493
3.9493
28
20
3.9494
3.9494
3.9495
3.9495
3.9496
3.9496
3.9497
3.9497
3.9498
3.9498
28
30
3.9499
8.9499
3.9500
3.9500
3.9501
3.9501
3.9502
3.9502
3.9503
3.9503
28
40
3.9504
3.9504
3.9505
3.9505
3.9506
3.9506
3.9507
3.9507
3.9508
3.9506
28
50
3.9509
3.9509
3.9509
3.9510
3.9510
3.9511
3.9511
3.9512
8.9512
3.9513
2 29
0
3.9513
3.9514
3.9514
3.9515
8.9515
8.9516
3.9516
3^517
3.9517
3.9518
29
10
3.9518
3.9519
3.9519
3.9520
3.9520
3.9521
3.9521
3.9522
3.9522
3.9523
29
20
3.9523
3.9524
3.9524
3.9525
3.9525
3.9526
3.9526
3.9526
8.9527
3.9527
3.9531 1
29
30
3.9528
3.9528
3.9529
3.9529
3.9530
3.9530
3.9531
3.9531
3.9532
H 29
40
3.9533
3.9533
3.9534
3.9534
3.9535
3.9535
8.9536
3.9536
3.9537
39537 1
50
3.9538
3.9538
3.9539
3.9539
3.9540
3.9540
3.9540
3.9541
3.9541
3J541
96
TABLE II.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Arc.
d
1
§
d
4
^
^
7
i
§
|h.3(;«
1. 0..
3.9542
3.9543
3.9543
3.9544
8.9544
3.9545
3.9545
3.9546
8.9546
3.9547
30
10
3.9547
3.9548
3.9548
3.9549
3.9549
3.9550
3.9550
3.9551
3.9551
3.9552
30
20
3.9552
3.9553
3.9553
3.9554
39554
3.9554
3.9555
39555
3.9556
3.9556
30
30
3.9557
3.9557
3.9558
3.9558
3.9559
3.9559
3.9560
3.9560
3.9561
3.9561
SO
40
3.9562
3.9562
3.9563
3.9563
3.9564
3.9564
3.9565
3.9565
3.9566
3.9566
30
50
8.9566
3.9567
3.9567
3.9568
3.9568
3.9569
3.9569
3.9570
3.9570
3.9571
2 31
0
3.9571
3.9572
3.9572
3.9573
3.9573
3.9574
3.9574
3.9575
3.9575
3.9576
31
10
3.9576
3.9577
3.9577
3.9578
3.9578
8.9578
3.9579
3.9579
3.9580
3.9580
31
20
3.9581
3.9581
3.9582
3.9582
3.9583
3.9583
3.9584
3.9584
3 9585
3.9585
31
30
3.9586
3.9586
3.9587
3.9587
3.9588
3.9588
3.9589
3.9689
3.9589
3.9590
31
40
3.9590
3.9591
3.9591
3.9592
3.9592
3.9593
3.9593
3.9594
3.9594
3.9595
31
50
3.9595
3.9596
3.9596
3.9697
3.9597
3.9598
3.9598
3.9599
3.9599
3.9599
2 32
0
3.9600
3.9600
3.9601
3.9601
3.9602
3.9602
3.9603
3.9603
3.9604
3.9604
32
10
3.9605
3.9605
3.9606
3.9606
3.9607
3.9607
3.9608
3.9608
3.9609
3.9609
32
20
3.9609
3.9610
3.9610
3.9611
3.9611
3.9612
3.9612
3.9613
3.9613
3.9614
32
30
3.9614
3.9615
3.9615
3.9616
3.9616
3.9617
3.9617
3.9618
3.9618
3.9618
32
40
3.9619
3.9619
3.9620
3.9620
3.9621
3.9621
3.9622
3.962i
3.9623
3 9623
32
50
3.9624
3.9624
3.9625
3.9625
3.9626
3.9626
3.9627
3.9627
3.9627
3.9628
2 33
0
3.9628
3.9629
3.9629
3.9630
3.9630
8.9631
3.9631
3.9632
3.9632
3.9633
33
10
3.9633
3.9634
3.9634
3.9634
3.9635
3.9635
3.9636
3.9636
3.9637
3.fl637
3.9642
33
20
3.9638
3.9638
3.9639
3.9639
3.9640
3.9640
3.9641
3.9641
3.9642
33
30
3.9642
3.9643
3.9643
3.9644
3.9644
3.9645
3.9645
3.9646
3.9646
3.9647
33
40
3.9647
3.9648
3.9648
3.9649
3.9649
3.9650
3.9650
3.9651
3.9651
3.9652
33
50
3.9652
3.9653
3.9653
3.9653
3.9654
3.9654
3.9655
3.9655
3.9656
3.9656
2 34
0
3.9657
3.9657
3.9658
3.9658
3.9658
3.9659
3.9659
3.9660
3.9660
3.9661
34
10
3.9661
3.9662
3.9662
3.9663
3.9663
8.9664
3.9664
3.9665
3.9665
3.9665
34
20
3.9666
3.9666
3.9667
3.9667
3.9668
3.9668
3.9669
3.9669
3.9670
3.9670
34
30
3.9671
3.9671
3.9672
3.9672
3.9672
8.9673
3.9673
3.9674
3.9674
3.9675
34
40
3.9675
3.9676
3.9676
3.9677
8.9677
3.9678
3.9678
3.9679
3.9679
3.9680
34
50
3.9680
3.9681
3.9681
3.9682
3.9682
3.9682
3.9683
3.9683
3.9684
3.9684
2 35
0
3.9685
3.9685
3.9686
3.9686
3.9687
3.9687
3.9688
3.9688
3.9689
3.9689
35
10
3.9689
3.9690
3.9690
3.9691
3.9691
3.9692
3.9692
3.9693
3.9693
3.9694
35
20
3.9694
3.9695
3.9695
3.9696
3.9696
3.9696
3.9697
3.9697
3.9698
3.9698
35
30
3.9699
3.9699
3.9700
3.9700
8.9701
3.9701
3.9702
3.9702
3.9703
3.9703
35
40
8.9703
3.9704
3.9704
3.9705
3.9705
3.9706
3.9706
8.9707
3.9707
3.9708
35
50
3.9708
3.9709
3.9709
3.9710
3.9710
3.9710
3.9711
3.9711
3.9712
3.9712
2 36
0
3.9713
3.9713
3.9714
3.9714
3.9715
3.9715
8.9716
3.9716
3.9716
3.9717
36
10
3.9717
3.9718
3.9718
3.9719
3.9719
3.9720
3.9720
3.9721
3.9721
3.9722
36
20
3.9722
3.9722
3.9723
3.9723
3.9724
3.9724
3.9725
3.9725
3.9726
3.9726
36
30
3.9727
3.9727
3.9728
3.9728
3.9729
3.9729
3.9729
3.9730
3.9730
3.9731
36
40
3.9731
39732
3.9732
3.9733
3.9733
3.9734
3.9734
3.9735
3.9735
3.9735
36
50
3.9736
3.9736
3.9737
3.9737
3.9738
3.9738
3.9739
3.9739
3.9740
3.9740
2 37
0
3.9741
3.9741
3.9741
3.9742
3.9742
3.9743
3.9743
3.9744
3.9744
3.9745
37
10
3.9745
3.9746
3 9746
3.9746
.3.9747
3.9747
3.9748
3.9748
3.9749
3.9749
37
20
3.9750
3.9750
3.9751
3.9751
3.9752
3.9752
3.9752
3.9753
3.9753
3.9754
37
30
3.9754
3.9755
3.9755
3.9756
3.9756
3.9757
3.9757
8.9758
3.9758
3.9758
37
40
3.9759
3.9759
3.9760
3.9760
3.9761
3.9761
3.9762
3.9762
3.9763
3.9763
37
50
3.9763
3 9764
3.9764
3.9765
3.9765
3.9766
3.9766
3.9767
3.9767
3.9768
2 38
0
3.9768
3.9769
3.9769
3.9769
3.9770
8.9770
3.9771
3.9771
8.9772
3.9772
38
10
3.9773
3.9773
3.9774
3.9774
3.9774
3.9775
3.9775
3.9776
3.9776
3.9777
38
20
3.9777
3.9778
3.9778
3.9779
3.9779
3.9779
3.9780
8.9780
3.9781
3.9781
38
30
3.9782
3.9782
3.9783
3.9783
3.9784
3.9784
3.9785
3.9785
3.9785
3.9786
38
40
3.9786
3.9787
3.9787
3.9788
3.9788
3.9789
3.9889
3.9790
8.9790
3.9790
38
50
3.9791
3.9791
3.9792
3.9792
8.9793
3.9793
3.9794
3.9794
3.9795
3.9795
2 39
0
3 9795
3.9796
3.9796
3.9797
3.9797
3.9798
3.9798
3.9799
3.9799
3.9800
39
10
3.9800
3.9800
3.9801
3.9801
3.9802
8.9802
3.9803
3.9803
3.9804
3.9804
39
20
3.9805
S.9805
3.9805
3^806
3.9806
3.9807
3.9807
3.9808
3.9808
8.9809
89
30
3.9809
3.9810
3.9810
319810
3.9811
3.9811
3.9812
3.9812
8.9813
3.9813
39
40
3.9814
3.9814
3.9815
3.9815
3.9815
3.9816
3.9816
3.9817
3.9817
3.9818
39
50
3.9818
3.9819
3.9819
3.9819
3.9820
3.9820
3.9821
3.9821
8.9822
3.9822
27
TABLE II.
LOGARITHMS OP SMALL ARCS IN SPACE OR TIME. |
Arc
0
N
1
2
i
•
4
5
6
7
i
i
O. 1 u
3.9823
3.9823
3.9824
3.9824
3.9825
3.9825
3.9825
3.9826
3.9826
3.9827
40
10
3.9827
3.9828
3.9828
3.9829
3.9829
3.9829
3.9830
3.9830
3.9831
33831
40
20
3.9832
3.9832
3.9833
3.9833
3.9834
3.9834
3.9834
3.9835
3.9835
3.9836
40
30
3.9836
3.9837
3.9837
3.9838
3.9838
3.9839
3^839
3.9839
3.9840
3.9840
40
40
3.9841
3.9841
3.9842
3.9842
3.9843
3.9843
3.9843
3.9844
3.9844
3.9845
40
50
3.9845
3.9846
3.9846
3.9847
3.9847
3.9848
3.9848
3.9848
3.9849
3.9849
2 41
0
3.9850
3.9850
3.9851
3.9851
3.9852
3.9852
3.9852
3.9853
3.9853
3J854
41
10
3.9854
3.9855
3.9855
3.9856
3.9856
3.9857
8.9857
3.9857
3.9858
3.9858
41
20
3.9859
3.9859
3.9860
3.9860
3.9861
3.9861
3.9861
3.9862
3.9862
3.9863
41
30
3.9863
3.9864
3.9864
3.9865
3.9865
3.9865
3.9866
3.9866
3.9867
3.9867
41
40
3.9868
3.9868
3.9869
3.9869
3.9870
3.9870
3.9870
3.9871
3.9871
3.9872
41
50
3.9872
3.9873
3.9873
3.9874
3.9874
3.9874
3.9875
8.9875
3.9876
3.9876
2 42
0
3.9877
3.9877
3.9878
3.9878
8.9878
3.9879
3.9879
3.9880
3.9880
3.9881
42
10
3.9881
3.9882
3.9882
3.9882
3.9883
3.9883
3.9884
3.9884
3.9885
3.9885
42
20
3.9886
3.9886
3.9886
3.9887
3.9887
3.9888
3.9888
3.9889
3.9889
3.9890
42
30
3.9890
3.9890
3.9891
3.9891
3.9892
3.9892
3.9893
3.9893
3.9894
3.9894
42
40
3.9894
3.9895
3.9895
3.9896
8.9896
3.9897
3.9897
8.9898
8.9898
8.9898
42
50
3.9899
3.9899
3.9900
3.9900
3.9901
8.9901
3.9902
8.9902
3.9903
3.9903
2 43
0
3.9908
3.9904
3.9904
3.9905
3.9905
3.9906
3.9906
3.9906
3.9907
3.9907
43
10
3.9908
8.9908
3.9909
3.9909
3.9910
8.9910
3.9910
8.9911
3.9911
3.9912
43
20
3.9912
3.9913
3.9913
3.9914
3.9914
3.9914
3.9915
3.9915
3.9916
3.9916
43
30
3.9917
3.9917
3.9918
3.9918
3.9918
3.9919
3.9919
3 9920
3.9920
3.9921
43
40
3.9921
3.9922
3.9922
3.9922
3.9923
3.9923
3.9924
3.9924
3.9925
3.9925
43
50
3.9926
3.9926
3.9926
3.9927
3.9927
3.9928
3.9928
3.9929
3.9929
3.9930
2 44
0
3.9930
3.9930
3.9931
3.9931
3.9932
3.9932
3.9933
3.9933
3.9933
3.9934
44
10
3.9934
3.9935
3.9935
3.9936
3.9936
3.9937
3.9937
3.9937
3.9938
3.9938
44
20
3.9939
3.9939
3.9940
3.9940
3.9941
3.9941
3.9941
3.9942
3.9942
3.9943
44
30
3.9943
3.9944
3.9944
3.9944
3.9945
3.9945
3.9946
3.9946
3.9947
3.9947
44
40
3.9948
3.9948
3.9948
3.9949
3.9949
3.9950
3.9950
3.9951
3.9951
3.9952
44
50
3.9952
3.9952
3.9953
3.9953
3.9954
3 9954
3.9955
3.9955
3.9955
3.9956
2 45
0
3.9956
8.9957
3.9957
3.9958
3.9958
3.9959
3.9959
3.9959
3.9960
3.9960
45
10
3.9961
3.9961
3.9962
3.9962
3.9962
3.9963
3.9963
3.9964
3.9964
3.9965
45
20
3.9965
3.9966
3.9966
3.9966
3.9967
3.9967
3.9968
3.9968
3.9969
3.9969
45
80
3.9969
3.9970
3.9970
3.9971
3.9971
3.9972
3.9972
3.9973
3.9973
3.9973
45
40
3.9974
3.9974
3.9975
8.9975
3.9976
3.9976
3.9976
3.9977
3.9977
3.9978
45
50
3.9978
3.9979
3.9979
8.9980
3.9980
3.9980
8.9981
3.9981
3.9982
3.9982
2 46
0
3.9983
3.9983
3.9983
3.9984
3.9984
3.9985
3.9985
3.9986
3.9986
3.9987
46
10
39987
3.9987
3.9988
3.9988
3.9989
3.9989
3.9990
3.9990
3.9990
3.9991 1
46
20
3.9991
3.9992
3.9992
3.9993
3.9993
3.9993
3.9994
3.9994
3.9995
3.9995
46
30
3.9996
3.9996
3.9997
3.9997
3.9997
3.9998
3.9998
3.9999
3.9999
4J0000
46
40
4.0000
4X)000
4.0001
4.0001
4.0002
4J0O02
4.0003
4.0003
40003
4M04
46
50
4.0004
4.0005
4X)005
4.0006
4.0006
4.0007
4.0007
4.0007
4.0008
4.0008
2 47
0
4.0009
4.0009
4.0010
4X)010
4.0010
4 0011
4.0011
4.0012
4.0012
4.0013
47
10
4.0013
4.0013
4.0014
4.0014
4JOO\5
4.0015
4.0016
4J00\B
4.0016
4.0017
47
20
4.0017
4.0018
4.0018
4.0019
4.0019
4.0019
4.0020
4J0020
4.0021
44)021
47
30
4.0022
4.0022
4.0023
4.0023
4.0023
4.0024
4.0024
4.0025
4i)025
4.0026
47
40
4.0026
4.0026
4.0027
4.0027
4.0028
4.0028
4.0029
4.0029
4X)029
4.0030
47
50
4.0030
4.0031
4.0031
4.0032
4J0O32
4J0O32
4.0033
4.0033
4X)034
44)034
2 48
0
4.0035
4.0035
4.0035
4.0036
4.0036
4.0037
4.0037
4.0038
4.0038
4^038
48
10
4.0039
4.0039
4.0040
4X)040
4.0041
4.0041
4.0041
4.0042
4.0042
44)043
48
20
4.0043
4.0044
4.0044
4X)045
4.0045
4X)045
4.0046
4.0046
4.0047
44)047
48
30
4.0048
4.0048
4X)048
4.0049
4.0049
4.0050
4.0050
4.0051
4X)051
44)051
43
40
4.0052
4.0052
4X)053
4X)053
4J0054
4.0054
4.0054
4.0055
4.0055
4.0056
48
50
4.0056
4J0057
4.0057
4X)057
4.0058
4.0058
4.0059
4.0059
4.0060
44)060
2 49
0
4.0060
4XX)61
4xm\
4.0062
4.0062
4.0063
4.0063
4UX>63
4XX)64
44)064
49
10
4.00CS
4.0065
4.0066
4.0066
4X>066
4.0067
4.0067
4.0068
4.0068
4.0069
49
20
4.0069
4.0069
4.0070
4.0070
4j0071
4.0071
4X)072
4.0072
4.0072
4.0073
49
30
4.0073
4.0074
4.0074
4.0074
4.0075
4.0075
4.0076
4.0076
4.0077
40077
49
40
4.0077
4.0078
4.0078
4.0079
4j0079
4.0080
4X)080
4J0O9O
4.0061
44)061
49
50
4.0082
AXm2
4.0083
4.0083
4.0083
4X)084
4.0084
4.0085
4i)085
44)086
TABLE II.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Are.
d
i
S
d
4
5
6
N
7
^
9
^5({«-. &..
4.0086
4.0086
4.0087
4.0087
4.0088
4.0088
44)089
4.0089
4.0089
4.0090
50 10
4.0090
4.0091
4.0091
4.0092
4.0092
4.0092
4.0093
4X)093
4.0094
4.0094
60 20
4.0095
4.0095
4.0095
4.0096
4.0096
4.0097
4.0097
4.0097
4.0098
4.0098
50 30
4.0099
4.0099
4.0100
4.0100
4.0100
4.0101
4.0101
4.0102
4.0102
4.0103
50 40
4.0103
4.0103
4.0104
4.0104
4.0105
4.0105
4.0106
4.0106
4.0106
4.0107
50 50
4.0107
4.0108
4.0108
4.0109
4.0109
4.0109
4.0110
4.0110
4.0111
4.0111
2 51 0
4.0111
4.0112
4.0112
4.0113
4.0113
4.0114
4.0114
4.0114
4.0115
4.0115 I
51 10
4.0116
4.0116
4.0117
4.0117
4.0117
4.0118
4.0118
4.0119
4 0119
4.0120
51 20
4.0120
4.0120
4.0121
4.0121
4.0122
4U)122
4.0122
4.0123
4.0123
4.0124
51 SO
4.0124
4.0125
4.0125
4.0125
4.0126
4.0126
4.0127
4.0127
4.0128
4.0128
51 40
4.0128
4.0129
4.0129
4.0130
4.0130
4.0130
4.0131
4.0131
4.0132
4.0132
51 50
4.0133
4.0133
4.0133
4.0134
4.0184
4.0135
4.0135
4.0136
4.0136
4.0136
2 52 0
4.0137
4.0137
4.0138
4.0138
4.0138
4.0139
4.0139
4.0140
4.0140
4.0141
52 10
4.0141
4.0141
4.0142
4.0142
4.0143
4.0143
4.0144
4.0144
4.0144
4.0145
52 20
4.0145
4.0146
4.0146
4.0146
4.0147
4.0147
4.0148
4.0148
4.0149
4.0149
52 SO
4.0149
4.0150
4.0150
4.0151
4.0151
4.0152
4.0152
4.0153
4.0153
4.0153
52 40
4.0154
4.0154
4.0154
4.0155
4.0155
4.0156
4.0156
4.0157
4.0157
4.0157
52 50
4.0158
4.0158
4.0159
4.0159
4.0159
4.0160
4.0160
4.0161
4.0161
4.0162
2 53 0
4.0162
4.0162
4.0163
4.0163
4.0164
4.0164
4.0164
4.0165
4.0165
4.0166
53 10
4.0166
4.0167
4.0167
4.0167
4.0168
4.0168
4.0169
4.0169
4.0169
4.0170
53 20
4.0170
4.0171
4.0171
4.0172
4.0172
4.0172
4.0173
4.0173
4.0174
4.0174
53 30
4.0175
4.0175
4.0175
4.0176
4.0176
4.0177
4.0177
4.0177
4.0178
4.0178
53 40
4.0179
4.0179
4.0180
4.0180
4.0180
4.0181
4.0181
4.0182
4.0182
4.0182
53 50
4.0183
4.0183
4.0184
4.0184
4.0185
4.0185
4.0185
4.0186
4.0186
4.0187
2 54 0
4.0187
4.0187
4.0188
4.0188
4.0189
4.0189
4.0190
4.0190
4.0190
4.0191
54 10
4.0191
4.0192
4.0192
4.0192
4.0193
4.0193
4.0194
4.0194
4.0194
4.0195
54 20
4.0195
4.0196
4.0196
4.0197
4.0197
4.0197
4.0198
4.0198
4.0199
4.0199
54 30
4.0199
4.0200
4.0200
4.0201
4.0201
4.0202
4.0202
4.0202
4.0203
4.0203
54 40
4.0204
4.0204
4.0204
4.0205
4.0205
4.0206
4.0206
4.0207
4.0207
4.0207
54 50
4.0208
4.0208
4.0209
4.0209
4.0209
4.0210
4.0210
4.0211
4.0211
4.0211
2 55 0
4.0212
4.0212
4.0213
4.0213
4.0214
4.0214
4.0214
4.0215
4.0215
4.0216
55 10
4.0216
4.0216
4.0217
4.0217
4.0218
4.0218
4.0219
4.0219
4.0219
4.0220
55 20
4,0220
4.0221
4.0221
4.0221
4.0222
4.0222
4.0223
4.0223
4.0223
4.0224
55 30
4.0224
40225
4.0225
4.0225
4.0226
4.0226
4.0227
4.0227
4.0228
4.0228
65 40
4.0228
4.0229
4.0229
4.0230
4.0230
4.0230
4.0231
4.0231
4.0232
4.0232
55 50
4.0233
4.0233
4.0233
4.0234
4.0234
4.0235
4.0235
4.0235
4.0236
4.0236
2 56 0
4.0237
4.0237
4.0237
4.0238
4.0238
4.0239
4.0239
4.0240
4.0240
4.0240
56 10
4.0241
4.0241
4.0242
4.0242
4.0242
4.0243
4.0243
4.0244
4.0244
4.0244
56 20
4.0245
4.0245
4.0246
4.0246
4.0246
4.0247
4.0247
4.0248
4.0248
4.0249
56 30
4.0249
4.0249
4.0250
4.0250
4.0251
4.0251
4.0251
4.0252
4.0252
4.0253
56 40
4.0253
4.0253
4.0254
4.0254
4.0255
4.0255
4.0256
4.0256
4.0256
4.0257
56 50
4.0257
4.0258
40258
4.0258
4.0259
4.0259
4.0260
4.0260
4.0260
4.0261
2 57 0
4.0261
4.0262
4.0262
4.0262
4.0263
4.0263
4.0264
4.0264
4.0265
4.0265
57 10
4.0265
4.0266
4.0266
4.0267
4X)267
4.0267
4.0268
4.0268
4.0269
4.0269
57 20
4.0269
4.0270
4.0270
4.0271
4.0271
4.0271
4.0272
4.0272
4.0273
4.0273
57 30
4.0273
4.0274
4.0274
4.0275
4.0275
4.0276
4.0276
4.0276
4.0277
4.0277
57 40
4.0278
4.0278
4.0278
4.0279
4.0279
4.0280
4.0280
4.0280
4.0281
4.0281
57 50
4.0282
4.0282
4.0282
4.0283
4.0283
4.0284
4.0284
4.0284
4.0285
4.0285
2 58 0
4.0286
4.0286
4 0287
4.0287
4.0287
4.0288
4.0288
4.0289
4.0289
4.0289
58 10
4.0290
4.0290
4.0291
4.0291
4.0291
4.0292
4.0292
4.0293
4.0293
4,0293
58 20
4.0294
4.0294
4.0295
4.0295
4.0295
4.0296
4.0296
4.0297
4.0297
4.0297
58 30
4.0298
4.0298
4.0299
4.0299
4.0300
4.0300
4.0300
4.0301
4.0301
4.0302
58 40
4.0302
4.0302
4.0303
4.0303
4.0304
4.0304
4.0304
4.0305
4.0305
4.0306
58 50
4.0306
4.0306
4.0307
4.0307
4.0308
4.0308
4.0308
4.0309
4.0309
4.0310
2 59 0
4.0310
4.0310
4.0311
4.0311
4.0312
4.0312
4.0312
4.0313
4.0313
4.0314
69 10
4.0314
4J03U
4.0315
4.0315
4.0316
4.0316
4.0317
4.0317
4.0317
4.0318
59 20
4.0318
4i)3l9
4.0319
4.0319
4.0320
4.0320
4.0321
4.0321
4.0321
4.0322
59 30
4.0322
4.0323
4.0323
4.0323
4.0324
4.0324
4.0325
4.0325
4.0325
4.0326
59 40
4.0326
4.0327
4.0327
4.0327
4.0328
4.0328
4.0329
4.0329
4.0329
4.0330
59 50
4.0330
4.0331
4.0331
4.0331
4.0332
4.0332
4.0333
4.0333
4.0333
4.0334 j
67
29
TABLE III. CBiUTEHET'S lETHOD.
LOG.
N FOR DISTANCES FROM THE
SUN.
n
1856.
r
0.90
0.90
a89
l^
0.89
IS*"
0.88
18»"
0.88
8^
0.88
1856.
r
0.60
6^
0.64
r
0.67
11"
0.69
If'
0.72
18^
0.75
IP
0.77
Jan. 1
—0.91
>I«r^
-4-037
2
0.86
.85
.84
.83
.82
.81
.79
.79
31
0.79
.81
.83
.85
.87
.88 0.90J0.91
3
0.76
.75
.73
.71
.69
.66
.64
.61
Apr. 1
0.93
0.94
0.96
0.97
0.98
0.99|lX)0'l.Ol
4
0.57
.54
.50
45
.39
.32
.25
.18
2
-hi. 02
1.03
1.04
1.04
1.05
1.06' 1.061 1X>7
9
0.09
.25
.38
.47
.54
.58
.64
.69
7
—0.88
0.86
0.85
0.83
0.81
o:79
0.78
0J5
10
—0.72
.74
.77
.79
.81
.83
M
.86
8
—0.73
.70
.68
.65
.62
.59
.55
.51
11
0.88
.90
.90
.91
.91
.92
.93
0.94
9
-0.47
42
.87
.30
.24
.12
M
9M
12
0.94
0.94
.95
.95
.95
.95
.96
IXK)
11
-4-0.26
.32
.88
42
46
.50
M
.57
IS
1.06
1.01
.95
.95
.95
.95
.94
0.94
12
0.60
.62
.65
.67
.69
.71
.73
.75
14
0.93
0.93
.92
.91
.91
.90
.89
.88
18
0.76
.79
.80
.81
.82
.88
.85
M
15
-0.87
.86
.86
.83
.81
.80
.79
.78
14
-4-0.87
.88
.89
.90
.91
.91
0.92
0.93
16
0.76
.74
.72
.69
.67
.64
.61
.58
24
—043
.37
.33
.25
.18
XH
9.97
9.74
17
0.55
.51
M
.39
.85
.30
.20
.11
26
-hO.33
.39
44
49
.53
.56
0.600.6311
26
0.88
.88
.89
.89
.90
.90
.90
.91
27
0.66
.68
.71
.74
.77
.78
JO
Si
27
0.91
.91
.91
.91
.91
.91
.91
.91
28
0.83
.85
.86
.87
.89
.90
.91
S2
28
—0.91
.91
.91
.90
.90
.90
.89
.89
29
-4-0.93
0.94
0.95
0.96
0.97
0.98
0.98
a99
29
0.88
.87
.87
.86
.86
.85
.84
.82
30
1.00
1.00
1.01
1.01
1.01
1.01
1.02
1.02
30
0.81
.80
.79
.78
.76
.75
.74
.72
li«J 1
-H>m
\m
1.02
1.01
1.01
IJOI
IJ0\
\m
31
0.70
.68
.66
.64
.61
.58
.55
0.52
6
—0.77
0.74
0.70
0.66
0.63
0.59 0.551049 ||
Feb. 1
—0.48
A3
.38
.33
.26
.19
.07
9.89
7
044
.38
.32
.22
.14
JOl 9.88
9M
3
-4-0.41
.47
.53
.59
.64
.69
.72
0.77
9
-1-0^8
42
46
.51
A&
.57 0.60
0.63
8
—0.85
.87
.89
.90
.91
.92
.93
.95
10
0.65
.67
.69
.71
.73
.75
.76
.78
9
0.97
.95
.94
.94
.95
.95
.95
.94
11
0.79
.81
.82
.83
.84
.85
M
Al
10
0.94
.94
.94
.93
.93
.92
.92
.91
12
0.88
.88
.89
.90
.90
.91
M
.92
11
0.90
.89
.88
.87
.86
.85
.84
.83
13
0.93
.93
.93
.94
.94
.94
.95
.95
12
-0^1
.79
.77
.76
.75
.73
.71
.68
14
-4-0.95
.95
.95
.96
.96
.96
.95
.95
13
0.66
.63
.60
.57
.54
0.50
0.46
0.42
23
9.52
9.77
.01
.13
.23
.81
.37
•*^i
14
—0.36
0.31
0.24
0.16
.06
9.96
9.73
9.30
24
0.48
.52
.56
.60
.63
.66
.68
.71
15
-4-8.88
9.41
9.84
9.99
.12
0.20
0.29
0.37
25
0.73
.75
.77
.79
.81
J2
M
J5!
25
-0.89
0.88
0.88
0.87
.87
.86
.86
.85
26
0.87
.88
.89
.90
.91
.92
.93
•^,
26
-0.84
.84
.83
.82
.81
.80
.79
.78
27
-4-0.94
.95
.96
.96
.97
.97
.98
J8,
27
0.76
.75
.74
.72
.71
.68
.64
.64
28
0.98
.98
.98
.98
.99
.99
.98
.98
28
0.62
.60
.57
.55
0.51
0.47
0.43
0.38
29
0.97
.97
.97
.97
.97
.96
.95
.95
29
—0.33
0.27
0.20
.12
9.99
9.79
9.58
9.36
30
0.94
.93
.92
.91
.90
.88
.87
J6i
Mtt. 1
-4-9.40
9.57
9.77
m
0^
0.28
0.81
0.41
JIIM6
041
46
.50
.54
.57
.60
.63
.66,
2
-H).47
0.52
0.56
.60
.64
.68
.71
.74
7
-4-0.68
.70
.72
.73
.75
.77
.78
M
3
0.77
.79
.82
0.85
0.87
0.89
0.91
0.93
8
0.81
.82
.83
.84
.85
.86
.87
M
4
-M).95
.96
.98
1.00
1.02
1.04
1.06
1.08
9
0.88
.89
.89
.90
.91
.91
.91
M
8
—0.90
.91
.92
0.94
0.95
0.94
0.94
0.94
10
0.92
.92
.93
.93
.93
J3
.93
SS\
9
0.94
.93
.92
.92
.91
.90
.90
.89
11
0.94
.94
.94
.94
.93
.93
.93
JS
10
-0.88
.86
.85
.84
JBS
Jl
.80
.78
12
-4-0.93
.92
.92
.92
.91
.91
.90
JO
11
0.76
.74
.72
.70
.67
.65
.62
.59
13
0.89
.88
.88
.87
.87
.85
M^ M\
12
-0.56
.52
.48
A4
.39
.33
.27
.19
22
0.78
.80
.82
.84
.85
.86
JU J9.
14
-»-0.02
.12
.21
.27
.34
.39
.44
.49
23
0.90
.91
.92
.92
.93
.94
.94
.95
15
0.53
.56
.58
.61
.64
.66
.69
.71
24
0.95
.96
.96
.96
.97
.97
J7
.7.
16
-H).73
.75
.77
.78
JO
.81
.82
.83
25
-4-0.97
.97
.97
.96
.96
.96
.95 JSI
25
—0.82
.81
.80
.79
.78
.76
.75
.73
26
0.95
.94
.93
.93
.92
.91
.90 J9
26
0.72
.70
.68
.66
.64
.61
.59
.56
27
0.88
.87
.85
.84
.83
.81
.79 .77
27
—0.53
A9
.46
.42
.39
.32
.25
.17
28
0.75
.72
.70
.67
.64
.60
.56 .51
29
-4-0.07
0.17
0.25
0.82
0.88
0.44
0.48
0.53
J«iy 4
-4-0^
0.37
0.44
0.50
0.54
0.58
0.61
0.64J
30
TABLE III. CHIUTIRST'8 lETHOD.
LOG.
N FOE DISTANCES FEOM THE
SUN.
ISA).
0^
0.70
6^-
0.72
9^
0.74
1^
0.76
1^
0.77
IS"-
0.79
0.80
18i6.
r
0.85
6^
0.84
9"
0.82
0.81
0.80
IS"*-
IV''
JiOj 5
-H).67
Oct. 2
+0.86
0.79
0.77
6
0.82
.83
.84
.85
.86
.87
.87
.88
3
0.76
.74
.72
.70
.68
.66
.64
.62
7
0.88
39
.90
.90
.90
.91
.91
.91
4
0.59
.56
.53
.50
046
042 0.37
0.32
8
0.92
.92
.92
.92
.92
.92
.92
.92
5
+0.26
0.19
.10
.03
9.85
949 9.14
941
9
0.92
.92
.92
.92
.92
.91
.91
.91
6
—9.65
9.86
.01
.12
0.21
0.28
0.35
0.40
10
-H).90
30
S9
.89
S%
.88
.87
.86
7
—045
049
.53
.57
.60
.63
.66
.69
U
0.85
.85
.84
.83
.82
.81
.79
.78
8
0.71
.74
.76
.78
.79
.81
.84
.85
IS
0.77
.75
.74
.72
.70
.68
X5
.63
9
-0.87
.88
.90
.91
.92
.94
.95
M
13
0.61
.58
.54
.51
.47
.42
.36
.81
17
+0.61
.56
.53
48
43
.39
.34
.29
21
0.92
.93
.93
.94
.94
.95
.95
.96
19
—0.09
.19
.27
.33
.89
44
48
.52
29
-H).96
.96
.96
.96
.96
.96
.96
.95
20
-0.55
.58
.61
.64
.66
.68
.71
.72
23
0.95
.95
.94
.94
.93
.93
.92
.91
21
0.74
.76
.78
.79
.80
.82
.83
.84
24
0.90
.90
.89
.88
.87
.85
.84
.83
22
0.85
.86
.87
.88
.89
.90
.91
.91
25
0.81
.79
.78
.76
.74
.72
.69
.67
23
0.92
.92
.93
.94
.94
.94
.95
.95
2«
+0.64
.61
.58
.54
.50
Ab
.40
.84
24
0.95
.96
.96
.96
.96
.97
0.97
0.97
28
— 0X)2
.14
.26
.34
.42
.49
.55
.61
25
—0.97
.97
.97
.97
.98
.99
1.00
1.04
Aug. 8
+0.80
.81
.83
.84
.85
.86
.87
.87
Nor. 1
+0.55
.50
47
42
.37
.29
0.24
0.18
4
0.88
.89
.89
.90
.90
.90
.91
.91
3
—0.04
.14
.23
.30
.36
41
46
JW
ft
0.91
.91
.91
.92
SS
.92
.91
.91
4
0.54
.57
.61
.64
.66
.69
.71
.73
6
0.91
.91
.91
.90
.90
.89
.89
.89
5
0.75
.77
.79
.81
.82
.84
.85
J6
7
+0.88
.87
.87
.86
.85
.85
.84
.83
6
-0.88
.89
.90
.91
.92
.93
.94
.95
8
0.82
.81
.80
.79
.77
.75
.76
.74
7
0.95
.96
.97
.97
.98
.98
.98
.99
9
0.71
.70
.68
.65
.63
.61
.58
.55
8
0.99
.99
.99
.99
.99
.99
.99
.99
10
0.52
.49
.45
.40
.36
.29
.23
.16
16
0.29
.33
.38
43
48
.52
.55
.59
19
0.96
.96
.96
.96
.96
.95
.95
.94
17
0.62
.64
.67
.69
.71
.73
.75
.76
20
+0.94
.93
.92
.92
.91
.90
.89
.88
18
—0.78
.79
.80
.82
.83
.84
.86
.86
H SI
0.87
.85
.84
.82
.80
.79
.77
.76
19
0.87
.88
.88
.89
.90
.90
.91
.91
29
0.74
.71
.69
.66
.64
.61
.58
OM
20
0<92
.92
.93
.93
.93
.93
.94
.94
28
+0.50
46
.41
.86
.29
.20
.12
9.98
21
0.94
.94
.94
.94
.94
.94
.94
.94
25
-0.27
.34
.40
.45
JiO
M
.58
0.61
£2
0.94
.94
.93
.93
.93
.92
.92
.92
26
—0.65
.68
.70
.73
.75
.78
.80
.82
23
-0.91
.91
.90
.89
.88
.87
.87
.86
27
—0.84
.86
.88
.90
.91
.93
.95
.96
24
0.85
.83
.82
.81
.80
.77
.74
.71
B^t. 9
+0.91
.91
.91
.91
.91
.91
.91
.90
Deo. 1
0.29
.85
.40
46
.50
.54
.58
.61
8
0.90
.90
.89
.89
.89
.88
.87
.87
2
0.64
.67
.70
.72
.74
.76
.78
.79
4
0.86
.85
.85
.84
.83
.82
.81
.80
3
0.81
.83
.85
.86
S7
.88
.89
.90
5
+0.78
.77
.76
.74
.73
.71
.69
.67
4
—0.91
.92
.93
.98
.94
.95
.95
.96
6
0.65
.63
.61
.58
.55
.52
0.49
0.45
5
0.96
.96
.97
.97
.97
.97
.98
.98
7
+0.41
.35
.31
.25
.18
.08
9.98
9.77
6
0.98
.97
.97
.97
.97
.97
.96
.96
9
—0.32
.38
>44
.49
.53
.57
0.61
0.64
7
0.95
.95
.94
93
.92
.91
.90
.89
10
-0.67
.70
.73
.76
.78
.81
.83
.85
15
0.64
.67
.69
.71
.73
.75
.77
.78
17
+0.93
.92
.91
.90
.89
.87
.86
.85
16
-0.80
.81
.82
.83
.85
.85
.86
.87
18
0.83
.81
.80
.78
.76
.74
.71
.69
17
0.88
.89
.89
.90
.90
.91
.91
.92
19
0.66
.63
.60
.56
0.53
0.48
0.44
0.39
18
0.92
.92
.93
.93
.93
.93
.93
.93
20
+0.82
0.25
.17
.09
9.98
9.65
9.37
9.45
19
0.93
.98
.93
.98
.93
.93
.93
.92
21
—9.59
9.82
XN)
Til
0.20
0Ji8
0.34
040
20
0.92
.92
.91
.91
.91
.90
.89
.89
22
-^.44
0.49
.52
.56
JS9
.61
.64
.67
21
—0.88
.87
.87
.86
.85
.84
.83
.82
28
0.70
.72
.74
.76
.78
.79
.81
.82
22
0.81
.80
.78
.77
.75
.74
.72
.70
24
a84
.85
.86
.88
.89
.90
.91
.92
23
0.68
.65
.63
.60
.57
.53
49
.44
25
—0.93
.94
.95
.95
.96
.97
.98
.98
30
0.69
.71
.74
.76
.79
.80
.82
.84
Oot. 1
+0.92
0.91
0.90
0.90
0.89
a88
0.87
0.86
31
—0.85
0.86
0.88
0.89
0.90
0.91
0.92
0.92
31
TABLE III.
ForfliMttngthtTthieof 3rforcorwcUngluMrdirtaiMatforth*eoinpiiMto
TABLE m. A. giring 1st Part of N, 1
TABLE m
B,
giTing 2d Part of i^.
App.
Din.
3>'8 Declinatioa. |
App.
Diau
*'
B DediMtkMi.
(f
%_
l_
i
II
II
If
ji
!l
f?
&
o
0
I
N
1
N
ll
W
«
ll
2?
•
o
n
K
N
II
If
N
N
o
11
if
«
II
20
— 0
3
6
10
13
16
19
22
25
28
31
20
-M)
3
10
20
24
30
33
23
0
3
6
12
14
17
20
23
25
28
22
0
3
9
16
19
22
25
27
30
24
0
3
5
11
13
16
18
21
23
25
24
0
3
9
14
17
20
23
25
28
26
0
2
5
10
12
14
17
19
21
23
26
0
3
8
13
16
21
23
26
28
0
2
4
11
13
15
17
19
21
28
0
3
8
12
15
20 22
24
30
-0
2
4
10
12
14
16
18
20
30
-M)
2
12
14
18 21
23
32
0
2
4
9
11
13
15
16
18
32
0
2
11
13
17 19
21
34
0
2
4
9
10
12
14
15
17
34
0
2
11
13
16 18
20
36
0
2
3
8
10
11
13
14
16
36
0
2
10
12
16 17
19
38
0
2
8
8
9
10
12
13
14
38
0
2
10
11
15 17
18
40
-0
3
7
8
10
11
12
13
40
H-0
2
11
14 16
18
42
0
3
7
8
9
10
11
13
42
0
2
10
14 15
17
44
0
2
6
7
8
10
11
12
44
0
2
8 10 1
15 15
16
46
0
2
3
6
7
8
9
10
11
46
0
2
10
13' 14
16
48
0
2
3
5
6
7
8
9
10
48
0
9
12; 14
15
50
— 0
2
3
5
6
7
8
9
10
50
-M)
12 13
15
52
0
2
3
5
5
6
7
8
9
62
0
12 13
14
54
0
2
3
4
5
6
7
7
54
0
111 13
14
56
0
2
2
3
4
5
5
6
7
56
0
11 12
14
68
0
1
2
3
4
4
5
6
6
58
0
11
12
13
60
-0
2
3
3
4
5
5
6
60
+0
11
12
13
62
0
2
3
3
4
4
5
5
62
0
10 12
13
64
0
2
3
3
4
4
5
64
0
10 U
13
66
0
3
3
4
4
5
66
0
10 11
12
68
0
0
2
3
3
4
4
68
0
10 11
12
70
— 0
0
2
3
3
3
4
70
H-0
10 11
12
72
0
0
2
2
3
3
3
72
0
10| 11
12
74
0
0
2
2
2
3
3
74
0
10 11
12
76
0
0
1
2
2
2
3
76
0
9
11
12
78
0
0
0
1
1
2
2
2
78
0
9
11
12
80
-0
0
0
1
1
1
1
2
2
80
-M)
9
10
11
82
0
0
0
0
1
1
1
1
1
82
0
9
10
11
84
0
0
0
0
0
1
1
1
1
1
84
0
9
10
11
86
0
0
0
0
0
0
0
1
1
1
86
0
9
10
11
88
0
0
0
0
0
0
0
0
0
0
0
88
0
9
10
11
90
— 0
0
0
0
0
0
0
0
0
0
0
90
H-0
9
10
11
92
-H)
0
0
0
0
0
0
0
0
0
0
92
0
9
10
11
94
0
0
0
0
0
0
0
1
1
94
0
9
10
11
96
0
0
0
0
0
1
1
1
1
96
0
9
10
11
98
0
0
0
0
1
1
1
1
98
0
9
10
11
100
-M)
0
0
1
1
1
1
2
100
+0
9
10
11
102
0
0
0
1
1
1
2
2
102
0
9
11
12
104
0
0
1
1
2
2
3
104
0
9
11
12
106
0
0
1
2
a
2
3
106
0
10
11
12
108
0
0
1
2
2
2
3
3
108
0
10
11
12
110
-H)
0
1
2
2
3
3
4
110
H^
10
11
12
112
0
0
1
2
2
3
3
4
112
0
10
11
12
114
0
2
2
3
3
4
5
114
0
10
11
12
116
0
2
2
3
3
4
5
116
0
10
11
13
118
0
2
3
3
4
4
5
118
0
10
12 13
120
-H)
2
3
3
4
5
6
1 190
H-0
1
u
12 13
122
0
2
3
4
4
5
6
122
0
1
11
12 13,
124
0
2
3
4
6
5
7
124
0
]
11
12'l4|
126
0
3
3
4
5
6
7
126
€
1
11
13
14
128
0
3
4
5
5
6
8
9
128
0
s
8
12
13
14
180
-H)
3
4
6
6
7
9
10
ISO
H-C
s
8
12; 13
16
Th» •Ignti io tiM (P column applT t
Nftk. ^hen the decUMtlonii &»i
A all Um Dumbtn li
1 the MOM 11
De, tndu
»to
teDMdwlMnUMtellMilMto 11
MCA, cbanc* Um dp
i + U> — tn
«:.»+
32
IMPROVED METHOD
OF FINDING THE
ERROR AND RATE OF A CHRONOMETER
BY EQUAL ALTITUDES.
Bv W. CHAUVENET,
PIIOFK880B OF MATHK1CATI08 JS TBS UNITSD STATES KATAL AOADXMT.
METHOD
or movKQ Twm
ERROR AND RATE OF A CHRONOMETER BY EQUAL ALTITUDES.
To regulate a chronometer to Greenwich time, we must determine its error and
rate at a place whose longitude is well known. The most accurate method of doing
this is hy observing the transit of the sun or a star over the meridian. For the nav-
igator, the most simple and accurate substitute for the meridian observation is that of
equal altitudes of the same object on each side of the meridian. In the case of a
star, the mean of the two chronometer times corresponding to the equal altitudes Ls
the chronometer time of transit ; but in the case of the sun, the mean of these times
difiers somewhat from the time of transit, since, in consequence of the change of the
sun^s declination between the observations, the equal altitudes do not occur at equal
intervals before and af^er the transit.
The small correction necessary, when the sun is observed, to reduce the mean of
the times to the time of transit, is called the Equation of Equal Altitudes.
The method of computing this equation given below is based upon that first given
by Gauss {Moruitliche Correspondent^ Vol. XXIII.). We do not, however, follow
him in using the double daily change of declination, or difierence between the sun^s
declination on the noon preceding and the noon following that of the observation ; but
prefer to use the hourly difierence, because this may be obtained directly from the
American Ephemeris, and is at the same time even more accurate. We also extend
our table so as to meet the case where one altitude is taken in the af\emoon and the
corresponding equal altitude on the following morning ; in which case, the equation is
computed for apparent midnight*
* It shoaM be observed, m a caation to n«T%alors, that the role for compittiDg the eqaatson for mid-
nigfat is soDietimes inaccarately, or incompletely, stated in works on navigation or astronomy. The
rule in Lient Raper's Practice of Navigation is wholly erroneous. Galbraith's mle (Mathematical
and Attfonomical Tables) is incomplete, in not noticing the case where the elapsed time is less than 12***.
His mle for computing the equation for noon is similarly defecdve, in not noticing the case where the
elapsed time is greater than 12^. In Professor Inman's mle there is a slight inaccuracy introduced,
by taking the equation of time for mean, instead of apparent noon or midnight; and in all the books,
35
EQUAL ALTITUDES.
L EQUAL ALTITUDES OF THE SUN, MORNING AND EVENING.
The Obsbrvation.
On shore, at a place whose longitude is accwratdy known, and whose latitude is
approximately known, observe with an artificial horizon the same altitude both in the
morning and in the aAemoon, as near the prime vertical as convenient after the alti«
tude is more than l(y, noting the times by the chronometer. In low hititudes, bow«
ever, the method of equal altitudes will often give very accurate results, even when
the observations are quite near to the meridian. In general, a sufficiently accurate
result may be obtained if the observations are taken when the sun's change of altitude
is not less than W in 0*-.5, or when the change in the double altitude taken with the
artificial horizon is not less than W in 0*-.5.
It is most convenient, as well as conducive to accuracy, to take the observation in
the following manner. In the morning, bring the lower limb of the sun, reflected
from the sextant-mirrors, and the upper limb of that reflected from the mercury, into
approximate contact ; move the 0 of the vernier forward (say from W to 20^), and
set it on a division of the limb ; the images will be overlapped and will be teparaiing ;
wait for the instant of contact ; note it by chronometer, and immediately set the ver^
nier on the next division of the limb, that is, W in advance ; note the instant of con-
tact agab, and proceed in the same manner for as many observations as are thought
necessary. If the sun rises too rapidly, let the intervals on the limb be 20^. Find
(roughly) the time when the sun will be at the same altitude in the afternoon, and
just before that time set the vernier on the last altitude noted in the morning (of
course using the same sextant) ; the images of the sun will be separated^ but will be
approaching ; wait for the instant of contact ; note it by chronometer ; set the vernier
back to the next divisi6n of the Ihnb ( 10' or 20^, as the case may be) ; note the con«
tact again, and so proceed till all the A. M. altitudes have been again noted as P. M.
altitudes.
Th£ Comptttation.
Take the mean of the A. M. times and call it the A, M. Chronometer Time, The
mean of the P. M. times call the P. M. Chronometer Time, If, instead of noting the
times by the chronometer, a watch is used (compared with the chronometer both
before and after each observation), it will generally be found necessary to make an
allowance for its gain or loss on the chronometer, so as to obtain the exact difllerence
between the watch and chronometer at the instant of observation. This difference
being applied to the mean of the watch times, we have the mean chronometer time
the same as would have been found by employing the chronometer directly.
the methods giren of taking oat the siin'f change of dedinatbn, whedier for 4S^ or Ibr S4\ are Bd
af aocuratc as they should be.
A perfectly accorate nile, with a special table, for the midnight correction, Is giren in SovuMACinni*k
Hwffliafiin (Ed. bj WABirsTOftrr). It requires, however, one logarithm more than oar method in the
text» and is otherwise not so simple.
86
EQUAL ALTITUDES.
The half sum of the A. M. and P. M. Chronometer Times is the Middle Chronom-
tier Time^ their difference is the Elapsed Time; ohserving that when the A. M.
time is before 12''- by chronometer, while the P. M. time is after 12''-, the latter must
be supposed to be increased by 12''' in finding this half sum and difference.
Take from the Nautical Almanac the sun^s declination, the hourly difference of
declination, and the equation of time, reducing each to the instant of local apparent
noon by applying the chcmges for the longitude.
Mark north latitude and north declination -I-
^^ south latitude and south declination —
*' hourly diff. of decl. when towards north -l-
** hourly diff. of decl. when towards south — .
Enter Table I. with the elapsed time, and take out log. A and log. B, prefixing to
each its proper sign given in the table at the head of the page.
To log. A add the log. of the hourly diff., Table 11., and the log. tangent of the
latitude (Bowditch, Table XXVII.). Prefix to each log. the sign of the quantity it
represents and to their sum the sign which results from the algebraic combination of
the three signs.* This sum is the log. (Table 11.) of the number of seconds of time
in the first part of equation of equal attitudes, to be marked H- or — like its log.
To log. B. add the log. of the hourly diff. and the log. tangent of the declination,
marking the signs as before. The sum is the log. of the second part of the equation
of equal altitudes, to be marked -f- or — like its log.
Apply the two peurts of the equation, according to their signs, to the Middle Chro-
nometer Time ; the result is the Chronometer Time of Apparent Noon.
To this apply the equation of time (adding, when the equation of time is additiye
to mean time, otherwise subtracting) ; the result is the Chronometer Time of Mean
Noon^ which, if the chronometer is regulated to local time, will be 12''' O'*' 0** when
the chronometer is right ; more than 12''' when fast, less than* 12''* when slow.
If the chronometer is regulated to Greenwich time, apply the longitude (in time) to
the chronometer time of mean noon (subtracting in west, adding in east) ; the result
will be more or less than 12**', according as the chronometer is fast or slow.
Bepeat this process on a subsequent day. The difference between the chronome-
ter errors on the two days, divided by the number of days in the interval, is the daily
rate of the chronometer, gaining or losing according as the chronometer goes too
fast or too slow.
Example 1.
May dd, 1856. At the United States Naval Academy, Lat 36^ 59^ N., Long.
5**' 5"*' 55*. 1 W., suppose the following observations of equal altitudes to be taken with
an artificial horizon. Required the error of the chronometer on Greenwich time at
noon of that day ?
* The algebraic mle being, that, when there is an odd number of &cton with the lign minns,
the resalt mnst have the sign minus, otherwise the sign plos. In the present application of this
mle, when there is either one or three of the' logs, marked -^ their sum mnst be nuurked ^;
otherwise -4-.
68 87
EQUAL ALTITUDES.
Chronom.
Watch
Diff.
A.BL
^mpansons.
h. m. •.
12 52 0.0
7 45 8.0
5 6 52X)
Chronom.
^atch
Diff.
1 20 0.0
8 13 9.5
5 6 50.5
Watch A. M.
h. m. 8.
8 2 9.
8 2 35.5
8 3 0.5
Mean 8 2 35.0
Compariwm 5 6 51.1
A. M. Chro. Time 1 9 26.1
P. M. Chro. Time 8 58 11.7
2)10 7 37.8
Middle Chro. T. 5 3 48.9
EquaL of Eq. Alts. —8.8
Chro.T.App.N.
EqnatofTime
Chro.T.MeanN. 5 6 59.5
Longimde 5 5 55.1 W.
Ghra/iK 1 4A
5 3 40.1
-4-3 19.4
A. M., watch gains l*-.5 In 28**
Interval to ohe. 17^J»
2QB. : 17«^.5 = l«-.6 : €hS
P. M., watch guns 2^.2 in 34"*-
Interral to obs. 21"*
34'»- ; 21"- »= 2^.2 : l*'^
SO Art Hot.
o I
65 50
66 0
66 10
(Eq. T.) .
Eq.T.
18.11
1.32
19.43
0.258
S.l
1.32
(D.) +15 48 50.6
3 42.8
D. +15 52 33.3
P.BL
h. m. ■.
Chronom. 8 37 OjO
Watdi 3 30 31.3
DMT.
5 6 28.7
Chronom.
Watch
9 11 0X>
4 4 33.5
Diff.
5 6 26J^
WatehP.BC
h. m. 1.
3 52 10.7
3 51 44X)
3 51 18.5
Mean
Comparison
P. M. Chro. Time
A. M. Chro. Time
3 51 44.4
5 6 27.3
8 58 llj
1 9 26.1
Elapsed Time
7 48 45.6
h.
Decrease in 24i> a
8.66
—0.14 Decrease in 5.1b 0.14
H.D.
+43.68
5.1
222.8
logA.Tab.L ^9.4846
H.D.-M3''.68 log. Tab. H. +1.6403
Lat + 3SP 59' log. tan. +9.9081
Ist Pt Eq. —10^.79 log. —1 .0330
log. B. Tab. L +9.9011
....... +1.6403
D. + 15» hS' log. tan. +9^542
2dPtEq.+l**.98 log. +0.2956
Bj sunilar observations on May 15th, suppose the chronometer is found to be last
12^.5; we have
Maj8d,iSut
Maj 15th, fast
Loses in 12 days
DaUjrate
. s.
4A
12.5
51.9
4.33 losing.
n. EQUAL ALTITUDES OF THE SUN, EVENING AND MORNINa
Thb Obsbevation.
Take a set of altitudes, in the manner already explained, in the aAemoon of one
day, and the same altitudes in reverse order on the morning of the next, noting the
times by the chronometer, or by a watch compared with it
Thb Computation.
The half sum of the P. M. and A. M. Chronometer Times b the Middle Cknmom'
eter Time ; their difibrence is the Elapsed Time ; observing that when the P. M.
time b before 12'*' by chronometer, while the A. M. time is aAer 12^*, the latter must
he supposed to be increased by 12^' in finding thb half sum and thb difference.
Take from the Nautical Almanac the sun^s declination, the hourly difierenoe of
declination, and the equation of time, reducing them each to the instant of local ap^
parent midnight.
EQUAI* ALTITUDES.
Mark the sign of each quantity as before, and compute the two parts of the equa-
tion of equal altitudes precisely as in the preceding case, observing to mark the signs
of log. A and log. B as given in the table for midnight
Apply the two parts of the equation to the middle chronometer time, according to
their signs; the result is the Chronometer Time of Apparent Midnight.
To this apply the equation of time (adding, when the equation of time is additive
to mean time, otherwise subtracting) ; the result is the Chronometer Time of Mean
Midnight^ which, if the chronometer is regulated to local time, will be 12''- O"- O**
when the chronometer is right ; more than 12^ when fast ; less than 12'" when slow.
If the chronometer is regulated to Greenwich time, apply the longitude, in time, to
the chronometer time of mean midnight (subtracting in west, adding in east) ; the re-
sult will be more or less than 12^- (or 24'*) according as the chronometer is fast or slow.
A repetition of this process at a subsequent day will give another error, whence the
rate will be found as before. Or the rate may be found by comparing the results of
an A. M. — P. M., and a P. M. — A. M. observation, remembering that the interval
elapsed between two such observations is equal to the diflbrence between the two
dates plus or minus half a day.
Example 2.
May .3d, 1856, Lat. 43** 21' S., Long. 9^- 50"* S*- E., suppose the altitude of the
sun to be observed in the afternoon and the same altitude again on the* morning of
the 4th, as below. Required the error of the chronometer on Greenwich time at mid-
night of the 3d ?
Chronom., P. M. 3 QArt Hor. Chronom., A. M.
gh. 54in. io«\3 "38° 0' 9*»- S"- 17^.5
The A. M. time must be called 21*'- 9" 17^.5. The Greenwich time of midnight,
for which the declination, &c. must be found, is May 3^- 2*- 9"* 52'- (= 3*- 2" .16.).
h. m. a.
6 54 10.3
21 9 17.5
2)28 3 27.8
14
1 43.9
—38.4
P. M. Chro. T.
A. M. Chro. T.
Middle Chro. T.
Eq. of Eq. Alts.
Chro.T.App.Mid]L 14 1 5.5
Eq. of Time -4-3 18.7
Cbro.T.M'nMidn. 14 4 24.2
Longitude 9 50 8.0 E.
23 54 32.2
24 0 0.0
5 27.8
Chronom. dow
(Eq. T.) —3 18.11
0.56
Eq.T. —3 18.67
0.258
2.15
0.56
A. M. Chro. T.
P. M. Chro. T. _^^^
Elapsed T. 14 15 7.2
h. m. 8.
21 9 17.5
6 54 10.3
(D.) 4-15 48 50J5
1 34.1
D. -his 50 24.6 H. D
(H. D.) +43.82 Decrease in 24.0 = 0.66
— 0.06 Decrease in 2.16 = 0.06
+43.76
2.15
94.1
log.A.Tab.I. +9.6958
H.D.+43".76 log. Tab. XL +1.6411
Lat —43° 21 ' log. tan* —9.9750
Ist Pt Eq. — 20»-.51 log. —1.3119
log.B. Tab. L —9.1586
+1.6411
D + 15° 50* log. tan. +9.4527
2dPtEq. — 1 7«*.88 log. —0.2524
By an A. M. — P. M'. observation on May 20th, suppose this chronometer is found
to be slow S"- 14'*.6 ; we have
d. h. m. B.
May 3 12 slow 5 27.8
May 20 0 slow 8 14.6
Loses in 16^-.5 2 46.8
Daily rata
39
10.11 losing.
EQUAL ALTITUDES.
ffl. EQUAL ALTITUDES OF A FIXED STAR.
ThB OBSERVATIOIf.
In selecting stars for this observation, it is to be observed that the nearer the zenith
the star passes, the less may the elapsed time be ; and when the star passes exactly
through the zenith, the two altitudes may be taken within a few minutes of each
other. But with the ordinary sextants, altitudes near 90^ cannot be taken with the
artificial horizon, as the double altitude is then nearly 180^. The prismatic sextants,
or still better, the prismatic circles of Pistor and Martin, are adapted for measuring
angles of all magnitudes up to 180^, abd are therefore especially suitable for this ob-
servation.
Set the sextant and wait for the coincidences of the two images of the star, as in
the case of«the sun^s limb, noting the times by chronometer or watch.
The Computation.
Take the mean of the times before the meridian passage as the A. M, ChronomC'
ier Time^ and the mean of those after the meridian passage as the P. i(f . Chranome'
ter Time,
The mean of the A. M. and P. M. Chronometer Times is the Chronometer Time of
Starts TransiL This time, if the chronometer is right, will agree with the true mean
time of starts transit, which is to be computed as follows.
To the right ascension of the star apply the longitude of the place of observation
(adding in west, subtracting in east) ; the result is the Greenwich Sidereal Time of
Starts Transit^ from which subtract the sidereal time at the preceding mean noon
Greenwich (Nautical Almanac, page 11. of the month) ; the remainder is the Sidereal
Interval since mean noon. From Table IV. with the argument Sidereal Interval^ take
out the correction, which subtract from the sidereal interval ; the remainder is the
Greenwich Mean Time of the Star's Transit The chronometer time will be mora
or less than this according as the chronometer is fast or slow.
If the chronometer is regulated to local time, apply the longitude to the Greenwich
mean time of star's transit (subtracting in west, adding in east) ; the result is the
Local Mean Time of Starts TVoiutV, and the chronometer is fast or slow according as
it shows more or less than this time.
EXAMPLB 3.
July 15th, 1856, at the Cape of Good Hope, Lat 88" 56^ S., Long. 1^ 18-* 66^ E.,
observed equal altitudes of Antaree as follows : —
40
EQUAL ALTITUDES.
Chronom. A. M.
h. m. a.
5 32 10.5
5 32 35.0
5 32 59.3
A. M. Chro. T. 5 32 34.9
P. M. Chro. T. 9 33 56.1
2 Alt Antares. ' Chronom. P. M
o 1 h. m. a.
125 30 9 34 20.3
40 9 33 56.0
50 9 33 32.0
P. M. Chro. T. 9 33 56.1"
Chro. T. i^ Transit
Gr. T. :|c Transit
Chro. fast
2)15 6 31.0
7 33 15.5
7 31 22.1
1 53.4
Antares B. A. 16 20 37.58
Longitude l 13 56.00 E.
Gr. Sid. T. 15 6 41.58
July 1 5, Gr. Sid. T. Mean Noon 7 34 5.25
Sid. Interval 7 32 36.33
Correction, Table IV. —I 14.15
Gr. M. T. 3|C Transit 7 31 22.18
rV. TO CORRECT FOR SMALL INEQUALITIES IN THE ALTITUDES.
Although the sextant readings are the same at the A. M. and P. M. ohservations, it
may happen that neither the true nor even the apparent altitudes are the same.
1st Supposing the sextant to remain unchanged, the atmospheric refraction may be
difierent at the two observations in consequence of changes in the density and tem-
perature of the air as shown by the barometer and thermometer. In this case, the
apparent altitudes are equal, but the true altitudes are not so. 2d. The sextant may
be afiected by changes of temperature, particularly in day observations in the sun, so
as to make the sextant readings the same for apparent altitudes slightly difierent. I
do not think these changes in the sextant are to be eliminated by determining the
index error at each observation, as has been supposed by some, since it is quite pos-
sible that the expansion and contraction of the various parts might leave the index
correction unchanged while it affected the readings of the altitudes, or the reverse.
The only course appears to be to guard the instrument as much as possible from
changes of temperature, exposing it to the sun's rays only during the few minutes re-
quired for each observation.
But the correction for changes of refraction may be satisfactorily made as follows.
Note the barometer and thermometer both A. M. and P. M. ; take out the correspond-
ing refractions for each observation from Tables III., m. A., and m. B., and find the
difference of these refractions. Also take the difference between any two sextant
readings and the difference between the two corresponding chronometer times. Then
the correction of either noon or midnight will be found by the following proportion.
The difference. of the sextant readings is to the difference of the refractions as the dif-
ference of the chronometer times is to the required correction.
Apply this correction to the Chronometer Time of Noon or Midnight (obtained by
the preceding rules) as follows : add it when the A. M. refraction is the greater ;
subtract it when the P. M. refraction is the greater. The result is the true Chronom-
eter Time of Noon or Midnight
Example. — Suppose, in Example 1, we have in the morning, Barometer 30 inches.
Thermometer 55** ; in the afternoon. Barometer 29.5 inches, Thermometer 85**. The
apparent altitude of sun's lower limb 93** (^ ; the apparent altitude of sun's centre
33** 16'. We have
41
log.
0.778
log. COS.
9.922
log. sec
0.109
log. sec
0.017
log. cosec*
0.069
const log.
8.523
log.
9418
EQUAL ALTITUDES.
A.BL P.M.
Mean refraction 1 19 Mean refraction 1 &
Barom. 30 in. 0 Barom. 29.5 in. — 1
Therm. 55® —I Therm. 85P —6
Tme refraction 1 28 Tme refraction 1 22
Then the difference of the sextant readings is W (=600'') and the corresponding
difT. of chronometer times is about 26" ; whence
600 : 6 s 26 : 0.26
iLm. s.
The (approximate) Chronometer Time of Mean Noon was fonnd to be 5 6 59.5
Correction for change of refraction -H>.3
Tnie Chronometer Time of Mean Noon 5 6 59.8
NoTB. — This correction may he fonnd b j the following rale, which we shonld hare to resort to
when bat one altitade was taken at eadi obserration. Add together the log. of the diif. of refractiooa
(Tab. IL), log. cosine of the altitude, log. secant of the latitnde, log. secant of the declination, log.
cosecant of half elapsed time (or if the elapsed time is greater than 12^, half its sapplemeot to 24^),
and the constant log. 8.523; the snm is the log. (Table IL) of the reqnired correction* Thm in tba
preceding example we hare
Diff.iefiu 6"
Alt © 83* 16'
Lat 38P 59'
Dec 15® 53'
El. T. y*"- 49"»-
Correction 0^.26
Deoeeb of Dependence.
An error of 5' in the latitude would not affect the corresponding part of the equa-
tion of equal altitudes by more than one hundredth of its amount in the most unfayor-
able case, and in general would have no sensible effect It is one of the advantages
of the equal altitude method, therefore, that it does not require an accurate knowledge
of the latitude. It is also plain that errors in the longitude affecting the declination
and its hourly difference produce but small proportionate effects upon the computed
equation. The absolute error of the chronometer on Greenwich will be affected by
the whole error in the longitude, but the rate will still be correct Hence we con*
elude that by this method the chronometer may be accurately rated at a place whose
latitude and longitude are both imperfectly known.
The chief source of error is in the obsenration itself. The most practised observers
with the sextant cannot depend on the noted time of a single contact within 0* .5, and
hence the intervals between the successive chronometer times (which, if observations
could be perfectly taken would be sensibly equal) may differ 2**. But the greatest
probable error of the chronometer time of sun's or star's transit, firom the mean of six
such observations on each side of the meridian, is found to be not more than 0^.2,
provided the rate of the chronometer between the observations is uniform.
Errors resulting from changes in the refraction may be almost wholly removed by
computation as above.
* Enter Bowditch's Table JULVUU, s^nmn P. li, wi^ tfas «Ms elapsed tame and tiks oife Iks
corresponding cosecant
4a
EXPLANATION OF THE TABLES.
Table L — LogarUJms of A and J?, for computing the Equation of Equal Altu
tudesy are calculated by the fonnulas
A ^ . _ B E
1800 Bin il E * "" 1800 tan 1 E *
where £ = elapsed time in minutes, and E in the denominator is the elapsed time
expressed in arc.
If we put
^ = latitude of the place of observation, + north, — south,
d = declination of the sun, + north, — south,
A = hourly change of decimation, -4- north, — south,
X = correction to reduce the middle chronometer time to chronometer time of ap-
parent noon, algebraically additive,
x' = the same for midnight,
we have
X = — AAtan^H-BAtand
x! = AAtan^H-BAtand.
Table n. — Logarithms of Numbers to four decimal places. The first two fig-
ures of the number are found in the left-hand column, the third at the top, and the
corresponding logarithm opposite and under these respectively. The proportional
part for the fourth figure is found on the side in the same line with the logarithm taken
out The proper characteristic of the logarithm is to be supplied by the usual rule.
Table m. — Mean Refraction^ reduced from Bbssel^s Tables, to barometer 30
inches, and thermometer 50°.
Tables HI. A. and HI. B. — Corrections of the Mean Refraction for the Height
of the Barometer and Thermometer^ also deduced from Bessel^s Tables. These are
the same as Tables IV. A. and IV. B., given in the Appendix to the Nautical Alma-
nac for 1855, where they are used for finding the corrections of the Mean Reduced
Refraction for Lunars. It is for the purpose of having the same table for correct-
ing both these mean refraction tables, that the argument in Tables m. A. and III. B.
is the mean refraction instead of the apparent altitude.
Table IV. — For converting Sidereal into Mean Solar Time. This table gives
the correction required to reduce a sidereal interval to its equivalent solar interval.
43
TABLE I. LOG. A. AND LOG. B.
Wot Oompntiiig Um looMkm of Equal Aldtodet.
w« S5SihtrA+ } ARGUMENT
'= ELAPSED TIME.
(For Nooo or
iiUdiilcht,B<h
m
0
O*"
jh.
!^-
r-
4
h.
«^
Log. A.
9.4059
LOC.B.
Log. A.
Lof.B.
Log. A.
Log.B.
Log. A.
Log. B.
Log. A.
LogB.
Log. A.
Log.B,
9.4059
94072
94034
94109
9.3959
94172
9.3828
94260
9.3635
9.4374
9-3369
.4059
.4059
.4072
4034
4110
.3957
4173
.3825
4261
.3631
4376
-3364
2
.4059
.4059
4073
4033
4111
.3955
4174
.3822
4263
.3627
4378
.3358
3
.4059
.4059
4073
4032
4112
.3953
4175
.3820
4265
.3624
4380
.3353
4
.4059
.4059
4074
4031
4113
.3952
4177
.3817
4266
.3620
4383
.3348
5
9.4059
9.4059
9.4074
94030
94113
9.3950
94178
9.3814
94268
9.3616
94385
9.3343
6
.4060
4059
.4074
4029
4114
.3948
4179
.3811
4270
.3612
4387
-3337
7
.4060
.4059
.4075
4028
4115
.3946
4181
.3809
4272
.3608
4389
-8332
8
.4060
.4059
.4075
.4027
4116
.3944
4182
.3806
4273
.3604
4391
.3327
9
.4060
4059
.4076
4026
4117
.3943
4183
.3803
4275
.3600
4393
.3321
10
9.4060
94059
9.4076
94025
94118
9.3941
94184
9.3800
94277
9.3596
94396
9.3316
11
.4060
.4059
4077
4024
4119
.3939
4186
.3797
4279
.3592
4398
-3311
12
.4060
4058
4077
.4023
4120
.3937
4187
.3794
4280
.3588
4400
-3305
13
.4060
4058
.4078
4022
4121
.3935
4188
.3792
4282
.3584
4402
.3300
14
.4060
.4058
4078
4021
4121
.3933
4190
.3789
4284
.3580
4405
-3294
15
9.4060
9.4058
94079
94020
94122
9.3931
94191
9.3786
94286
9.3576
94407
9.3289
16
.4060
4058
4079
4019
4123
.3929
4193
.3783
4288
.3572
4409
JS283
17
.4060
4057
4080
.4018
4124
.3927
4194
.3780
4289
.3568
4411
JS278
18
.4061
4057
4080
.4017
4125
.3925
4195
.3777
4291
.3564
4414
.3272
19
.4061
4057
4081
4016
4126
.3923
4197
.8774
4293
.3569
4416
.3266
20
9.4061
94057
94081
9.4015
94127
9.3921
94198
9.3771-
94295
9.3555
94418
9.3261
21
.4061
4056
4082
.4014
4128
.3919
4199
.3768
4297
JJ551
4420
.3255
22
.4061
.4056
4083
.4013
4129
.3917
4201
.3765
4299
J5547
U423
.3249
23
4061
4056
4083
.4012
4130
.3915
4202
.3762
4300
JS542
.4425
.3244
24
.4061
4055
.4084
.4010
4131
.3913
4204
.3759
.4302
.3538
4427
.3238
25
9.4062
9.4055
9.4084
94009
94132
9.3911
94205
9.3756
9.4304
9.3534
9.4430
9-3232
26
.4062
4055
4085
4006
4133
.3909
4207
.3752
4306
.3530
4432
.3226
27
.4062
4054
4086
.4007
4134
.3907
4208
.3749
.4308
.3525
4434
.3220
28
.4062
4054
4086
.4006
4135
.3905
4209
.3746
.4310
.3521
.4437
-3214
29
.4062
4054
.4087
.4004
4136
.3903
4211
.3743
.4312
.3516
4439
.3208
30
9.4062
94053
94087
94003
94137
9.3900
9.4212
9.3740
9.4314
9.3512
9.4441
9.3203
31
.4063
4053
4088
4002
4138
.3898
4214
.3737
.4315
.3508
4444
-3197
32
.4063
4052
4089
.4001
4139
.3896
4215
.3733
.4317
.3503
4446! .3191 1
33
.4063
4052
4089
.3999
4140
.3894
4217
.3730
4319
.3499
.4448' .3185 '
34
.4063
4051
.4090
.3998
4141
.3892
4218
.3727
.4321
U)494
4451 1 .3178'
35
9.4064
94051
9.4091
9.3997
94142
9.3889
94220
9.3723
94323
9.3490
9.4453; 9.3172 '
36
.4064
.40.50
4091
.3995
4144
.3887
4221
.3720
.4325
UM85
.4456 .3166
37
.4064
4050
4092
.3994
4145
.3885
4223
.3717
.4327
.3480
.4458 JJ160 1
38
.4064
4049
.4093
.3993
4146
.3882
4224
.8713
.4329
.3476
4460; .3154 .
39
.4065
.4049
4093
.3991
4147
.3880
4226
.3710
.4331
.3471
4463' .3148
40
9.4065
94048
94094
9.3990
94148
9.3878
94227
9.3707
9.4333
9.3467
9.4465 9J142 1
41
.4065
4048
.4095
.3988
4149
.3875
4229
.8703
4335
.3462
4468 .3135
42
.4065
4047
4095
.3987
4150
.3873
4231
.3700
.4337
-3457
.4470 .3129 1
43
.4066
4047
4096
.3985
4151
.3871
4232
.3696
.4339
.3453
.4473, wSlS3
44
.4066
4046
.4097
.3984
4152
.3868
4234
.3693
.4341
.3448
.4475 J116
45
9.4066
94045
9.4097
9.3982
94154
9.3866
94235
9J690
9.4343
9iM43
94477 9.3110'
46
.4067
4045
.4098
.3981
4155
.3863
4237
.3686
4345
.3438
4480 -3103 '
47
.4067
4044
.4099
.8979
4156
.3861
4238
.3683
4347
.3433
4482 .3097
48
.4067
.4043
.4100
.3978
4157
.3859
4240
.3679
.4349
.3429
.4485 J09I '
49
.4068
4043
4100
.3976
4158
.3856
4242
.3675
.4351
JS424
.4487' JS0S4
50
9.40681 9.4042
94101
9.3975
94159
9.3854
94243
9.3672
9.4353
9.3419
94490. 9.3078 •
51
.4068 .4041
4102
.3973
4161
.3851
4245
.3668
4355
.3414
.4492. .3071
i 52
.4069' 4041
4103
.3972
4162
.3849
4246 .3665
.4357
-3409
.4494 > .3064
|53
.4069' .4040
4103
.3970
4163
.3846
4248 .3661
4359
.3404
4497 J05a
54
.4069 .4039
4104
.3969
4164
.3843
42.50 .3657
.4361
JJ399
4500 -3051
55
9.4070 9.4038
94105
9.3967
94165
9.3841
94251' 9.3654
9.4363
9.3394
9.4503 9J044 ■
56
.4070, .4038
4106
.3965
4167
.3838
4253, .3650
.4366
.3389
.4505 .3038
57
.4071 .4037
4107
.3964
4168
.3836
4255 .3646
4368
.3384
4506 -9031
56
.4071 .4036
4107
.3962
4169
.3833
4256 .3643
.4370
JM79
.4510 .3024
59
4071' 4035
4108
.3960
4170
.3830
4258 UJ639
4372
JS374
.4513 .3017
60
9.40721 9 4034
941091 9.3959
94172
9.3828
94260 9.3635
94374
9.3369
9.4515 9.3010 .
44
TABLE I. LOG. A. AND LOG. B.
Wm Gan^attnc tlM SqnuloD of Equal Altttadit.
i!JSS3^rA+} ARGUMENT = ELAPSED TIME. {5id«Sh"B+
II
6^-
7..
s**-
gh.
ir
11^-
Log. A.
LOC.B.
Log. A.
Log.B.
Log. A.
Log.B.
Log. A.
Log.B.
Log. A.
Log.B.
Log. A.
Log.B.
m
0
9.4515
9.3010
9.4685
9.2530
94884
9.1874
9J^115
9X)943
9 5379
8.9509
9.5680
8.6837
1
^18
.3003
.4688
.2520
4888
.1861
.5119
X)925
.5384
.9478
.5685
.6770
9
.4521
.2996
.4691
.2511
4892
.1848
.5123
X>906
.5389
.9447
.5691
.6701
d
.4523
.2989
.4694
.2502
4895
.1835
.5127
.0887
.5393
.9416
.5696
.6632
4
.4526
.2982
.4697
.2492
4899
.1822
.51S2
.0867
.5398
.9384
.5701
.6560
6
9.4528
9.2975
9.4701
9.2483
94902
9.1809
9.5136
9.0848
9.5403
8.9352
9.5707
8.6488
6
.4531
.2968
.4704
.2473
4906
.1796
.5140
i)828
.5408
.9320
.5712
.6414
7
.4534
.2961
.4707
.2463
4910
.1782
.5144
.0809
JM12
.9287
.5718
.6339
8
.4536
.2954
.4710
.2454
4913
.1769
.5148
.0789
.5417
.9254
.5723
.6262
9
.4539
.2947
.4713
.2444
4917
.1756
.5153
i)769
.5422
.9221
.5728
.6183
10
9.4542
9.2940
9.4716
9.2434
9.4921
9.1742
9.5157
9.0749
9.5427
8.9187
9.5734
8.6103
11
.4544
.2932
.4719
.2425
4924
.1728
.5161
.0729
.5432
.9153
.5739
.6021
IS
.4547
.2925
.4723
.2415
4928
.1715
.5165
.0708
.5436
.9118
.5745
.5937
IS
.4550
.2918
.4726
.2405
4932
.1701
.5169
J0688
MAX
.9083
.5750
.5852
14
.4552
.2911
.4729
.2395
4935
.1687
.5174
.0667
.5446
.9048
.5756
.5764
15
9.4555
9.2903
9.4732
9.2385
94939
9.1673
9.5178
9.0646
9.5451
8.9013
9.5761
8.5674
16
.4558
.2896
4735
.2375
4943
.1659
.5182
.0625
.5456
.8977
.5767
.5583
17
.4561
.2888
4738
.2365
4946
.1645
.5186
.0604
.5461
.8940
.5772
i^88
18
.4563
.2881
4742
.2355
4950
.1630
.5191
.0583
JM66
.8903
.5778
.5392
19
.4566
.2873
4745
.2344
4954
.1616
.5195
.0561
.5470
.8866
.5783
.5293
20
9.4569
9.2866
94748
9.2334
94958
9.1602
9JS199
9.0540
9.5475
8.8829
9.5789
8.5192
ai
.4572
.2858
4751
.2324
4961
.1587
.5204
.0518
.5480
.8791
.5794
.5088
ss
.4574
.2850
4755
.2313
4965
.1573
JS208
.0496
.5485
.8752
.5800
.4981
S3
.4577
.2843
4758
.2303
4969
.1558
.5212
.0474
JM90
.8713
.5806
4871
34
.4580
.2835
4761
.2292
4973
.1543
.5217
.0452
.5495
.8674
.5811
4758
25
9.4583
9.2827
94764
9.2282
94977
9.1528
9.5221
9.0429
9.5500
8.8634
9.5817
8.4641
26
.4585
.2819
4768
.2271
4980
.1513
.5225
.0406
.5505
.8594
.5822
.4521
27
.4588
.2812
4771
.2261
.4984
.1498
.5230
.0383
.5510
.8553
.5828
.4397
28
.4591
.2804
4774
.2250
4988
.1483
.5234
.0360
.5515
.8512
.5834
4270
29
.4594
.2796
4778
.2239
4992
.1468
.5238
.0337
.5520
.8470
.5839
4138
90
9.4597
9.2788
94781
9.2228
94996
9.1453
9.5243
9.0314
9.5525
8.8427
9.5845
8.4001
31
.4600
.2780
4784
.2217
.5000
.1437
.5247
.0290
.5530
J384
.5851
.3860
32
.4602
.2772
4788
J2206
.5003
.1422
.5252
.0266
.5535
.8341
.5856
.3713
33
.4605
.2764
4791
J195
.5007
.1406
JS256
.0242
.5540
.8297
.5862
.3561
34
.4608
.2756
4794
.2184
iW)ll
.1390
JS261
.0218
.5545
.8253
.5868
.3403
35
9.4611
9.2747
94798
9.2173
9.5015
9.1375
9.5265
9.0194
9.5550
8.8208
9.5874
8.3239
36
.4614
.2739
.4801
.2162
.5019
.1359
.5269
.0169
.5555
.8162
.5879
.3067
37
.4617
.2731
4804
J15]
.5023
.1343
.5274
.0144
.5560
.8115
.5885
.2888
38
.4620
.2723
4808
.2140
.5027
.1327
.5278
.0119
.5565
.8068
.5891
.2701
39
.4622
.2714
.4811
.2128
.5031
.1310
.5283
.0094
.5570
.8020
.5897
.2505
40
9.4625
9.2706
94815
9.2117
9.5035
9.1294
9.5287
9.0069
9.5576
8.7972
9.5902
8.2299
41
.4628
.2698
.4818
.2105
.5038
.1278
.5292
.0043
.5581
.7923
.5908
.2082
42
.4631
.2689
4821
.2094
.5042
.1261
Ji296
.0017
.52^86
.7873
.5914
.1853
43
.4634
.2681
4825
.2082
J^046
.1244
.5301
8.9991
.5.591
.7823
.5920
.1611
44
.4637
.2672
4828
.2070
.5050
.1228
.5305
.9965
.5596
.7772
.5926
.1354
45
9.4640
9.2664
94832
9.2059
9.5054
9.1211
9.5310
8.9938
9.5601
8.7720
9.5931
8.1080
46
/I643
J2655
4835
.2047
.5058
.1194
.5315
.9911
.5606
.7668
.5937
.0786
47
4646
.2646
.4839
.2035
.5062
.1177
.5319
.9884
.5612
.7614
.5943
.0470
48
.4649
.2638
4842
.2023
.5066
.1159
.5324
.9857
.5617
.7560
.5949
.0128
49
.4652
.2629
4846
.2011
.5070
.1142
4i328
.9830
.5622
.7505
.5955
7.9756
50
9.4655
9.2620
94849
9.1999
9.5074
9.1125
9.5333
8.9802
9.5627
8.7449
9.5961
7.9348
51
.4658
.2611
4853
.1987
.5078
.1107
.5337
.9774
.5632
.7392
.5967
.8897
52
.4661
.2602
4856
.1974
.5082
.1089
.5342
.9745
.5638
.7335
.5973
.8391
53
.4664
.2593
4860
.1962
.5086
.1072
.5347
.9717
.5643
.7276
.5979
.7817
54
.4667
.2584
4863
.1950
.5091
.1054
.5351
.9688
.5648
.7217
.5985
.7154
55
9.4670
9.2575
94867
9.1937
9.5095
9.1036
9^^356
8.9659
9.5654
8.7156
9.5991
7.6368
56
.4673
.2566
4870
.1925
.5099
.1017
.5361
.9630
.5659
.7094
.5997
.5405
57
.4676
.2557
4874
.1912
.5103
.0999
.5365
.9600
.5664
.7032
.6003
4162
58
.4679
.2548
4877
.1900
.5107
.0981
.5370
.9570
.5669
.6968
.6009
.2407
59
.4662
.2539
.4881
.1887
.5111
.0962
.5375' .9540
.5675
.6903
.6015
•S'
60
9.4685
9 2530
94884
9.1874
9.5115' 9.094s
9.5379 8.9509
9.5680
8.6837
9.6021
45
TABLE I. LOG. A. AND LOG. B.
Vor OoBpotlaff tlM IqmtioB tt Mqiml AMtndM.
;"S5S^rA+} ARGUMENT = ELAPSED TIME. {Mdo£?B-
m
0
{¥"'
l,h.
14h.
1§^
16^
17»"
Log. A.
9.6021
Log. B.
Log. A.
Log.B
Log. A.
Log.B.
Log. A.
Log.B.
Log. A.
Log.B.
Log A.; Log.B.
Inf.
9.6406
8.7563
96841
9.0971
9.7833
9.3162
9.7895
94884
9.8539' 9.6383
1
.6027
6.9603
.6412
.7641
' .6848
.1014
.7342
.3194
.7905
4911
.8550
.6407
2
.6033
7.2431
.6419
.7718
.6856
.1057
.7361
.3225
.7915 4937
.8562
.6431
3
.6039
.4198
.6426
.7794
.6864
.1099
.7360
.3256
.7925 4963
.8573
.6455
4
.6045
.5453
.6433
.7868
.6872
.1141
.7369
J287
.7935 4990
.8585
3478
ft
9.6051
7.6428
9.6440
8.7942
9.6879
9.1183
i.7378
9.3319
9.7945' 9.5016
9.8597
93502
6
.6057
.7226
.6447
.8015
.6887
.1224
.7386
.3350
.7955
.5042
.8608
.6526
7
.6063
.7902
.6454
.8087
.6895
.1265
.7395
.3380
.7965
JK)68
.8620
.6560
8
.6069
.8486
.6461
.8158
.6903
.1306
.7404
.3411
.7975
.5094
.8632
3573
9
.6075
.9005
.6467
.8227
.6911
.1347
.7413
.3442
.7986
.5120
.8644
3597
10
9.6082
7.9469
9.6474
8.8296
9.6919
9.1387
9.7422
0.3472
9.7996
9.5146
93655
9.6621
U
.6088
.9889
.6481
.8364
.6926
.1428
.7431
.3503
.8006
.5171
3667
.6644
12
.6094
8.0273
.6488
.8432
.6934
.1468
.7440
.3533
.8016
.5197
.8679
.6668
13
.6100
.0627
.6495
.8498
.6942
.1507
.7449
.3563
.8027
.5223
.8691
.6691
14
.6106
.0955
.6502
.8564
.6950
.1547
.7458
.3593
.8037
.5248
.8703
.6715
Ift
9.6112
8.1260
9.6509
8.8628
9.6956
9.1586
9.7467
9.3623
9.8047
9.5274
9.8715
9.6738
16
.6119
.1547
.6516
.8692
.6966
.1625
.7476
.3653
.8058 1 .MOO
.8727
3762
17
.6125
.1816
.6523
.8756
.6974
.1664
.7485
.3683
.80681 ..'^25
.8739
3766
18
.6131
.2071
.6530
.8818
.6982
.1703
.7494
.3713
.8078' .5351
.8751
.6809
19
.6137
.2312
.6538
.8880
.6990
.1741
.7503
.3742
.8089
JS376
.8763
.6832
20
9.6144
8.2541
9.6545
8.8941
9.6998
9.1779
9.7512
9.3772
9.8099
9.5401
93775
9.6856
21
.6150
.2759
.6552
.9002
.7006
.1817
.7522
.3801
.8110
.5427
.8787
.6879
22
.6156
.2967
.6559
.9062
.7014
.1855
.7531
.3831
.8120
3452
3799
3903
23
.6163
.3166
.6566
.9121
.7022
.1893
.7540
.3860
.8131
.5477
.8812
.6926
24
.6169
.3357
.6573
.9180
.7030
.1930
.7549
JJ889
.8141
3502
.8824
3949
25
9.6175
8.3540
9.6580
8.9238
9.7038
9.1967
9.7558
9.3918
9.8152
93528
98836
9.6973
26
.6182
.3717
.6588
.9295
.7047
.2004
.7568
.3947
.8162
3553
3848
.6996
27
.6188
.3887
.6595
.9352
.7055
.2041
.7577
.3976
.8173
3578
.8861
.7019
28
.6194
.4051
.6602
.9408
.7063
.2078
.7586
.4005
.8184
.5603
.8873
.7043
29
.6201
4210
.6609
.9464
.7071
.2114
.7595
.4033
.8194
3628
3885
.7066
30
9.6207
8.4363
9.6616
8.9519
9.7079
9.2150
9.7605
9.4062
9.8205
9.5653
9.8898
9.7089
81
.6214
4512
.6624
.9573
.7088
.2186
.7614
4090
.8216
3677
.8910
.7112
32
.6220
.4657
.6631
.9627
.7096
.2222
.7624
.4119
.8227
3702
3923
.7186
33
.6226
.4796
.6638
.9681
.7104
.2258
.7633
4147
.8237
3727
3935
.7159
34
.6233
.4932
.6645
.9734
.7112
.2293
.7642
4175
.8248
3752
.8948
.7182
35
9.6239
8.5064
9.6653
8.9787
9.7121
9.2329
9.7652
94204
9.8259
9 5777
93961
9.7905
36
.6246
.5192
.6660
.9839
.7129
.2364
.7661
4232
.8270
3801
3973
.7228
37
.9252
.5318
.6667
.9891
.7137
.2399
.7671
4260
.8281
3826
.8986
.7251
38
.6259
.5440
.6675
.9942
.7146
.2434
.7680
4288
.8292
3850
3999
.7275
39
.6265
.5559
.6682
.9993
.7154
J468
.7690
.4316
.8303
3875
.9011
.7298
40
9.6272
8.5675
9.6690
9.0043
9.7162
9.2503
9.7699
9.4343
9.8314
93900
9.9084
9.7321
41
.6279
.5788
.6697
.0093
.7171
.2537
.7709
4371
.8325
3924
.9037
.7344
42
.6285
.5899
.6704
.0142
.7179
.2571
.7718
4399
.8336
3948
.9050
.7367
43
.6292
.6008
.6712
.0191
.7187
.2605
.7728
4426
.8347
3973
.9063
.7390
44
.6298
.6114
.6719
.0240
.7196
.2639
.7738
4454
.8358
3997
.9075
.7413
45
9.6305
8.6218
9.6727
9.0288
9.7204
9.2673
9.7747
94481
9.8369
9.6022
93088
9.7436
46
.6311
.6320
.6734
.0336
.7213
.2706
.7757
4509
.8380
.6046
.9101
.7459
47
.6318
.6419
.6742
.0384
.7221
.2740
.7767
4536
.8391
.6070
.9114
.7482
48
.6325
.6517
.6749
.0431
.7230
.2773
.7776
.4563
.8402
.6094
3127
.7505
49
.6331
.6613
.6757
.0478
.7238
.2806
.7786
4590
.8414
.6119
.9140
.7529
50
9.6338
a6707
9.6764
9i)524
9.7247 9.2839
9.7796
94617
9.8425
9.6143
9.9154
9.7552 '
51
.6345
.6799
.6772
.0570
.72561 .2872
.7806
4644
.8436
.6167
.9167
.7575 ,
52
.6351
.6890
.6779
.0616
.7264 .2905
.7815
4671
.8447
.6191
3180 .7598 ,
53
.6358
.6979
.6787
.0662
.7273 .2937
.7825
4698
.8459
.6215
.9193; .7621 1
54
.6365
.7067
.6795
.0707
.7281' .2970
.7835
4725
.8470
.6239
3206 1 .7644
55
9.6372
8.7153
9.6802
9i)752
9.7290 9.3002
9.7845
94752
9.8481
9.6263
93220 9.7667 ,
56
.6378
.7237
.6810
.0796
.7299 ( .3034
.7855
4778
.8493
.6287
.9233 .7690 .
57
.6385
.7321
.6818
.0840
.7307 .3066
.7865
4805
.8504
.6311
.9246. .7713
58
.6392
.7402
.6825
.0884
.7316 .3098
.7875
4831
.8516
.6335
.9260 .7736 ,
59
.6399
.7483
.6833
.0928
.7324 .3130
.7885
.4858
.8527
3359
3273 .n59 !
60
9.6406
8 7563
9.6841' 9.0971
9.7333 9.3162
9.7895
94884
9.8539 9.6383
93287
.^l'1^^\
46
TABLE I. LOG. A. AND LOG. B.
For Canpattnc tlM SquaUon of Equal Altttndct.
'S£ilSUrA+} ARGUMENT
'= ELAPSED TIME. {SUS^b-
1^
m
0
IS"*-
ir
Jl»».
2|h.
n''
Log. A.
9.9287
LogB.
Lof.A.
Log.B
9.9167
Log. A.
Log.B.
Log. A.
Log.B.
Log. A.
Log.B.
0.4372
Log. A.
Log.B.
9.7782
0.0172
0.1249
0.0625
0.2623
0.2279
04523
0.7689
0.7652
1
.9300
.7804
.0188
.9190
.1269
.0650
.2649
.2309
4562
4414
.7765
.7729
2
.9314
.7827
.0204
.9213
.1290
.0676
.2676
.2339
4601
4455
.7842
.7807
3
.9327
.7850
.0221
.9237
.1310
.0701
.2702
.2370
.4640
4497
.7920
.7886
4
.9341
.7873
.0237
.9260
.1330
.0727
.2729
.2401
4680
4540
.8000
.7967
5
9.9355
9.7896
0.0253
9.9284
0.1351
0.0753
0.2756
0.2431
04720
04582
0.8081
0.8049
6
.9368
.7919
.0270
.9307
.1371
.0779
.2783
.2462
4761
4625
.8163
.8133
7
.9382
.7942
.0286
.9331
.1392
.0805
.2810
.2493
4801
4668
.8247
.8218
8
.9396
.7965
.0303
.9355
.1412
.0830
.2838
.2524
4842
.4711
.8333
.8305
9
.9410
.7988
.0319
.9378
.1433
.0856
.2865
.2556
4884
4755
.8420
.8393
10
9.9424
9.8011
0.0336
9.9402
0.1454
0.0882
0.2893
0.2587
04926
04799
0.8508
0.8483
11
.9437
.8034
.0353
.9426
.1475
.0909
.2921
.2619
4968
4844
.8599
.8574
12
.9451
.8057
.0370
.9449
.1496
.0935
.2949
.2650
.5010
4889
.8691
.8667
13
.9465
.8080
.0386
.9473
.1517
.0961
.2977
.2682
.5053
4934
.8786
.8763
14
.9479
.8103
.0403
.9497
.1538
.0987
.3005
.2714
.5097
4980
.8882
.8860
15
9.9493
9.8126
0.0420
9.9520
0.1559
0.1013
0.3034
0.2746
0.5140
0.5026
0.8980
0.8959
16
.9508
.8149
.0437
.9544
.1581
.1040
.3063
.2778
.5184
.5072
.9080
.9060
17
.9522
.8172
.0454
.9568
.1602
.1066
.3091
.2811
.5229
.5118
.9183
.9164
18
.9.W6
.8195
.0472
.9592
.1623
.1093
.3120
.2843
.5274
.5165
.9288
.9270
19
.9550
.8218
.0489
.9616
.1645
.1119
.3150
.2876
.5319
.5213
.9396
.9378
20
9.9564
9.8241
0.0506
9.9640
0.1667
0.1146
0.3179
0.2909
0.5365
0..'i261
0.9506
0.9489
21
.9579
.8264
.0523
.9664
.1689
.1173
.3208
.2942
.5411
.5309
.9618
.9603
22
.9593
.8287
.0541
.9687
.1711
.1200
.3238
.2975
.5458
.5358
.9734
.9719
23
.9607
.8310
.0558
.9711
.1733
.1226
.3268
.3008
.5.'>05
.5407
.9853
.9839
24
.9622
.8333
.0576
.9735
.1755
.1253
.3298
.3041
.5553
.5457
.9975
.9961
25
9.9636
9.8356
0.0593
9.9760
0.1777
0.1280
0.3328
0.3075
0.5601
0.5507
1.0100
1XX)87
26
.9651
SS79
.0611
.9784
.1799
.1308
.3359
.3109
.5649
.5557
.0228
.0216
27
.9665
.8402
.0628
.9808
.1821
.1335
JI389
.3143
.5698
.5608
.0361
.0350
28
.9680
.8425
.0646
.9832
.1844
.1362
.3420
.3177
.5748
.5660
.0497
.0487
29
.9695
.8448
.0664
.9856
.1867
.1389
.3451
.3211
.5798
.5712
.0638
.0628
80
9.9709
9.8471
0.0682
9.9880
0.1889
0.1417
0.3482
0.3245
0.5848
0.5764
1.0783
1.0774
31
.9724
.8494
.0700
.9904
.1912
.1444
.3514
.3280
.5899
.5817
.0934
.0925
32
.9739
.8517
.0718
.9929
.1935
.1472
.3545
.3315
.5951
.5871
.1089
.1081
33
.9754
.8540
.0736
.9953
.1958
.1499
.3577
.3350
.6003
.5925
.1250
.1242
34
.9769
.8563
.0754
.9977
.1981
.1527
.3609
.3385
.6056
.5979
.1416
.1409
35
9.9784
9.8586
0.0772
0.0002
0.2004
0.1655
0.3641
0.3420
0.6110
0.6034
1.1590
1.1583
36
.9798
.8609
J079O
.0026
.2028
.1582
.3674
.3456
.6164
.6090
.1770
.1764
37
.9813
.8632
.0809
.0051
.2051
.1610
.3706
.3491
.6218
.6147
.1958
.1952
38
.9829
.8655
.0827
.0075
.2075
.1638
.3739
.3527
.6273
.6204
.2154
.2149
39
.9844
.8678
.0845
.0100
.2098
.1667
.3772
.3563
.6329
.6261
.2359
.2354
40
9.9859
9.8701
0.0864
0.0124
0.2122
0.1695
0.3805
0.3599
0.6386
0.6319
1.2573
1.2569
41
.9874
.8724
.0883
.0149
.2146
.1723
.3839
.3636
.6443
.6378
.2799
.2795
42
.9889
.8748
.0901
.0173
.2170
.1751
.3873
.3673
.6501
.6438
s3037
.3033
43
.9904
.8771
.0920
.0198
.2194
.1780
.3907
.3710
.6560
.6498
.3288
.3285
44
.9920
.6794
.0939
.0223
.2218
.1808
.3941
.3747
.6619
.6559
.3554
.3552
45
9.9935
9.8817
0.0958
0X)248
0.2243
0.1837
0.3975
0.3784
0.6679
0.6621
1.3837
1.3835
46
.9951
.8840
.0976
.0272
.2267
.1866
.4010
.3822
.6740
.6684
4140
4138
47
.9966
.8863
.0995
.0297
.2292
.1895
.4045
.3859
.6802
.6747
.4465
.4463
48
.9982
.8887
.1015
.0322
.2316
.1924
4080
.3897
.6865
.6811
4815
4814
49
.9998
.8910
.1034
.0347
.2341
.1953
4115
.3936
.6928
.6876
.5196
.5195
50
0.0013
9.8933
0.1053
0J0372
0.2366
0.1982
04151
0.3974
0.6993
0.6942
1.5613
1.5612
51
.0029
.8956
.1072
.0397
.2391
.2011
4187
4013
.7058
.7008
.6074
.6073
52
.0044
.8980
.1092
.0422
.2416
.2040
4223
4052
.7124
.7076
.6588
.6587
53
.0060
.9003
.1111
.0447
.2442
.2070
4260
4091
.7191
.7144
.7171
.7171
54
.0076
.9026
.1131
.0473
.2467
.2099
4297
4130
.7259
.7214
.7844
.7843
55
0.0092
9.9050
0.1150
0.0498
0.2493
0.2129
04334
04170
0.7328
0.7284
1.8638
1.8638
56
.0108
.9073
.1170
.0523
.2518
.2159
4371
4210
.7398
.7355
.9610
.9610
57
.0124
.9096
.1190
.0548
.2544
.2189
.4408
4250
.7469
.7428
2.0863
2.0863
58
.0140
.9120
.1209
.0574
.2570
.2219
4446
4291
.7541
.7501
.2627
.2627
59
.0156
.9143
.1229
.0599
.2596
.2249
.4485
.4331
.7615
.7576
2.5640 2.5640
60
0.0172
9 9167
0.1249' 0.0625
0.2623
0.2279
04523 0.4372
0.7689
0.7652
Inf. 1 In/,
47
TABLE II.
LOGARITHMS OF NUMBERS.
in
I
10
11
12
18
14
15
16
17
18
19
20
21
22
23
24
26
26
27
80
81
82
88
84
85
86
87
88
89
40
41
42
48
44
45
46
47
48
49
50
52
58
54
0
0000
0414
0792
1189
1461
1761
2041
2304
2558
2788
8010
8222
3424
8617
8802
8979
4150
4314
4472
4624
4771
4914
5051
5185
5315
5441
5568
5682
5798
5911
6021
6128
6282
6885
6485
6582
6628
6721
6812
6902
6990
5117076
7160
7213
7824
0043
0453
0828
1178
1492
1790
2068
2380
2577
2810
3082
3243
3444
3636
3820
3997
4166
4880
4487
4689
4786
4928
5065
5198
5328
5453
5575
5694
5809
5922
6081
6188
6243
6845
6444
6542
6687
6730
6821
6911
7084
7168
7251
7882
0086
0492
0864
1206
1523
1818
2095
2355
2601
2883
3054
8464
3655
8838
4014
4183
4346
4502
4654
4800
4942
5079
5211
5840
5465
5587
5705
5821
5938
6042
6149
6258
6855
6454
6551
6646
6739
6880
6920
7007
7098
7177
7259
7840
0128
0581
0899
1239
1558
1847
2122
2380
2625
2856
3075
8284
8483
3674
8856
4031
4200
4862
4518
4669
4814
4955
5092
5224
5358
5478
5599
5717
5832
5944
6053
6160
6865
6464
6561
6656
6749
7016
7101
7185
7267
7848
0170
0569
0934
1271
1584
1875
2148
2405
264S
2878
3096
3804
8502
8874
4048
4216
4378
4588
4688
4829
4969
5105
5287
5866
5490
5611
5729
5848
5955
6064
6170
6274
6875
6474
6571
6665
6758
6848
6987
7024
7110
7198
7275
7856
0212
0607
0969
1308
1614
1903
2175
2480
2672
2900
8118
8324
8522
8711
8892
4065
4282
4393
4548
4848
4983
5119
5250
5378
5502
5628
5740
5855
5966
6075
6180
6284
6885
6484
6580
6675
6767
6857
6946
7083
7118
7202
7284
7864
0253
0645
1004
1335
1644
1981
2201
2455
2695
2923
3139
8345
3541
8729
8909
4082
4249
4409
4564
4713
4857
4997
5132
5263
5891
5514
5635
6752
6866
6977
6085
6191
6294
6895
6493
6590
6684
6776
6866
6965
7042
7126
7210
7292
7372
0294
0682
1038
1367
1673
1959
2227
2480
2718
2945
8160
8365
8560
3747
8927
4099
4265
4425
4579
4728
4871
5011
5145
5276
6403
5527
5647
5763
6877
6988
6201
6304
6405
6503
6599
6693
6785
6875
6964
7060
7135
7218
7800
7380
8
0834
0719
1072
1899
1708
1987
2253
2504
2742
2967
8181
8385
3579
8766
3945
4116
4281
4440
4594
4742
4886
5024
5159
5289
5416
6589
5668
5775
5999
6107
6212
6814
6415
6513
6702
6794
6884
6972
7059
7143
7226
7808
7888
0374
0755
1106
1430
1732
2014
2279
2529
2765
8201
8104
8598
8784
8962
4133
4298
4456
4609
4757
4900
5038
5172
5802
6428
6651
6670
5786
6899
6010
6117
6222
6826
6426
6622
6618
6712
6808
6981
7067
7152
7286
7316
7396
Proporttontl Purb.
1 S I 4 6 6 7 8 9
8
8
2
2I 2
:i
26
28
21
19
18
17
16
15
14
18
18
12
12
11
11
10
10
9
9
9
9
8
8
8
8
7
7
7
7
7
6
6
6
6
6
6
6
6
6
6
6
6
6
6
29
26
24
28
21
20
18
17
16
16
15
14
14
18
12
12
11
11
11
10
10
10
9
9
9
9
8
8
8
8
8
7
7
7
7
7
7
6
6
6
6
6
6
6
9i 87
80; 84
28! 81
29
27
26
24
22
21
20
17 19
16 18
15 17
17
16
16
16
14
14
12 18
111 18
11 12
11 12
10I12
lOlll
10 11
10 11
f 6
10
10
10
10
9
9
9
9
9
8
8
8
8
8
8
T
7
7
48
TABLE II.
LOGARITHMS OF NUMBERS
•
ll
0
1
7412
2
3
4
5
6
7
8
9
ProportioBal Farts.
1
1
1
4
6
6
7
8
9
55
7404
7419
7427
7435
7443
7451
7459
7466
7474
2
2
8
6
56
7482
7490
7497
7505
7513
7520
7528
7536
7543
7551
2
2
8
6
7
57
7559
7566
7574
7582
7589
7597
7604
7612
7619
7627
2
2
8
6
68
7634
7642
7649
7657
7664
7672
7679
7686
7694
7701
2
8
6
59
7709
7716
7723
7781
7738
7745
7752
7760
7767
7774
2
8
6
60
7782
7789
7796
7803
7810
7818
7825
7832
7839
7846
2
3
61
7853
7860
7868
7875
7882
7839
7896
7903
7910
7917
2
3
62
7924
7931
7938
7945
7952
7959
7966
7973
7980
7987
3
63
7993
8000
8007
8014
8021
8028
8035
8041
8048
8055
8
64
8062
8069
8075
8082
8089
8096
8102
8109
8116
8122
8
65
8129
8136
8142
8149
8156
8162
8169
8176
8182
8189
8
66
8195
8202
8209
8215
8222
8228
8235
8241
5248
8254
8
67
8261
8267
8274
8280
8287
8293
8299
8306
8312
8319
8
68
8325
8331
8338
8344
8351
8357
8363
8370
8376
8882
8
69
8388
8395
8401
8407
8414
8420
8426
8432
8489
8445
2
u
70
8451
8457
8463
8470
8476
8482
8488
8494
8500
8506
2
71
8513
8519
8525
8531
8537
8543
8549
8555
8561
8567
2
5
72
8573
8579
8585
8591
8597
8603
8609
8616
8621
8627
2
6
73
8633
8689
8645
8651
8657
8663
8669
8676
8681
8686
2
5
74
8692
8698
8704
8710
8716
8722
8727
8738
8739
8745
2
*
75
8751
8756
8762
8768
8774
8779
8785
8791
8797
8802
2
5
76
8808
8814
8820
8825
8831
8837
8842
8848
8854
8859
2
77
8865
8871
8876
8882
8887
8893
8899
8904
8910
8915
2
78
8921
8927
8932
8938
8943
8949
8954
8960
8965
8971
2
79
8976
8982
8987
8993
8998
9004
9009
9016
9020
9025
2
80
9031
9086
9042
9047
9053
9058
9063
9069
9074
9079
2
5
81
9085
9090
9096
9101
9106
9112
9117
9122
9128
9138
2
82
9138
9143
9149
9154
9159
9165
9170
9176
9180
9186
2
J
83
9191
9196
9201
9206
9212
9217
9222
9227
9232
9238
2
84
9243
9248
9253
9258
9263
9269
9274
9279
9284
9289
2
85
9294
9299
9304
9309
9315
9320
9325
9330
9335
9340
2
86
9345
9350
9355
9360
9365
9370
9375
9380
9385
9390
2
87
9395
9400
9405
9410
9415
9420
9425
9430
9435
9440
0
2
88
9446
9450
9455
9460
9465
9469
9474
9479
9484
9489
0
2
89
9494
9499
9504
9509
9513
9518
9523
9528
9533
9688
0
2
4
90
9542
9547
9552
9557
9562
9566
9571
9576
9581
9586
0
2
91
9590
9595
9600
9605
9609
9614
9619
9624
9628
9683
0
2
92
9638
9643
9647
9652
9657
9661
9d6o
9671
9675
9680
0
2
98
9685
9689
9694
9699
9708
9708
9713
9717
9722
9727
0
2
94
9731
9736
9741
9745
9750
9754
9759
9763
9768
9773
0
2
^
95
9777
9782
9786
9791
9795
9800
9805
9809
9814
9818
0
2
4
96
9823
9827
9832
9836
9841
9845
9850
9854
9859
9863
0
2
4
97
9868
9872
9877
9881
9886
9890
9894
9899
9903
9908
0
2
4
98
9912
9917
9921
9926
9930
9934
9939
9943
9948
9952
0
2
99
9956
9961
9965
9969
9974
9978
9983
9987
9991
9996
0
2
2
49
TABLE III. MEAN BE7RACTI0N.
ButtnttaraOln
nuoMlv
MO.
ARStoiS.
1
Mean
Befnction.
AlUtad*.
Hmo
BaftMtioo.
ilSSS.
Men
tRKSS*
O 1
Meui
lUftactloii.
iKSr
Itaa
Bcteetfoo.
O 1
/ H
O 1
1 H
f II
o
1
f M
O 1
f ft
9 30
5 35.1
15 0
3 34.1
25 0
2 4.4
42
0
1 4.7
0 0
36 29.4
35
5 32.4
10
3 31.7
10
2 3.4
20
1 3.9
1 0
24 53.6
40
5 29.6
20
3 294
20
2 2.5
40
1 8.2
2 0
18 25.5
45
5 27.0
30
3 27.1
30
2 1.6
43
0
1 24
3 0
14 25.1
50
5 24.3
40
3 24.8
40
2 0.7
20
1 1.7
4 0
11 44.4
55
5 21.7
50
3 22.6
50
1 59.8
40
1 IJO
5 0
9 52.0
10 0
5 19.2
16 0
3 20.5
26 0
1 58.9
44
0
1 0.3
5
9 44.0
5
5 16.7
10
3 18.4
10
1 58.1
20
0 59.6
10
9 36.2
10
5 14.2
20
3 16.3
20
1 57.2
40
0 58.9
15
9 28.6
15
5 11.7
30
3 14.2
30
1 56.4
45
0
0 58.2
80
9 21.2
20
5 9.3
40
3 12.2
40
1 55.5
20
0 57.6
25
9 14.0
25
5 6.9
50
3 10.3
50
1 54.7
40
0 56.9
5 30
9 7.0
10 30
5 4.6
17 0
3 8.3
27 0
1 53.9
46
0
0 56.2
35
9 0.1
35
5 2.3
10
3 6.4
10
1 53.1
20
0 55.6
40
8 53.4
40
5 0.0
20
3 4.6
20
1 52.3
40
0 55.0
45
8 46.8
45
4 57.8
30
3 2.8
30
1 51.5
47
0
0 54.3 1
50
8 40.4
50
4 55.6
40
3 IJO
40
1 50.7
20
0 53.7 1
55
8 34.2
55
4 53.4
50
2 59.2
50
1 50.0
40
0 53.1
6 0
8 28.0
11 0
4 51.2
18 0
2 57.5
28 0
1 49.2
48
0
0 52.5
5
8 22.1
5
4 49.1
10
2 55.8
20
1 47.7
49
0
0 50.6
10
8 16.2
10
4 47 JO
20
2 54.1
40
1 46.2
50
0
0 48.9
15
8 10.5
15
4 44.9
30
2 52.4
29 0
1 44.8
51
0
0 47.2
20
8 4.8
20
4 42.9
40
2 50.8
20
1 43.4
52
0
0 45.5
25
7 59.3
25
4 40.9
50
2 49.2
40
1 42.0
53
0
0 43^
e SO
7 53.9
11 30
4 38.9
19 0
2 47.7
SO 0
1 40.6
54
0
0 42.3
35
7 48.7
35
4 36.9
10
2 46.1
20
1 39.3
55
0
0 40.8
40
7 43.5
40
4 35.0
20
2 44.6
40
1 38.0
56
0
0 39wS
45
7 38.4
45
4 33.1
30
2 43.1
31 0
1 36.7
57
0
0 37.8
50
7 33.5
50
4 31.2
40
2 41.6
20
1 85.5
58
0
0 364
55
7 28.6
55
4 29.4
50
2 40.2
40
1 34.2
59
0
0 35U)
7 0
7 23.8
12 0
4 27.5
20 0
2 38.8
32 0
1 33.0
60
0
0 33.6
5
7 19.2
5
4 25.7
10
2 37.4
20
1 31.8
61
0
0 32.3
10
7 14.6
10
4 23.9
20
2 36J)
40
1 30.7
62
0
0 3IjO
15
7 10.1
15
4 22.2
30
2 34.6
33 0
1 29.5
63
0
0 29.7
20
7 5.7
20
4 20.4
40
2 33.3
20
1 28.4
64
0
0 284
25
7 1.4
25
4 18.7
50
2 32.0
40
1 27.3
65
0
0 27.2
7 80
6 57.1
12 80
4 17X>
21 0
2 80.7
84 0
1 26.2
66
0
0 25.9
35
6 63J)
35
4 15.3
10
2 29.4
20
1 25.1
67
0
0 24.7
40
6 48.9
40
4 13.6
20
2 28.1
40
1 24.1
68
0
0 23.6
45
6 44.9
45
4 12.0
SO
2 26.9
85 0
1 23.1
69
0
0 224 ;
50
6 41J)
50
4 10.4
40
2 25.7
20
1 22.0
70
0
0 21.2
55
6 37.1
55
4 8.8
50
2 UJS
40
1 2\J0
71
0
0 20.1
8 0
e 33.3
13 0
4 7S
28 0
2 23.3
86 0
1 20.1
72
0
0 18.9
5
6 29.6
5
4 6.6
10
2 22.1
20
1 19.1
73
0
0 17.8
10
6 25 J
10
4 4.1
20
2 20.9
40
1 18.2
74
0
0 167
15
6 22.3
15
4 2.6
30
2 19.8
87 0
1 17.2
75
0
0 15.6
20
6 18.8
20
4 IJO
40
2 18.7
20
1 16.3
76
0
0 14.5
25
6 15.3
25
3 59.6
50
2 l7Ji
40
1 15.4
77
0
0 13.5
8 30
6 \IJ9
13 SO
3 5&1
23 0
2 16.4
88 0
1 14.5
78
0
0 12.4 '
35
6 8.5
35
3 56.6
10
2 15.4
20
1 13.6
79
0
0 11^
40
6 5.2
40
3 55.2
20
2 14.3
40
1 12.7
80
0
0 lOJ
45
6 2J)
45
8 53.7
30
2 13.3
39 0
1 11.9
81
0
0 9J
50
5 58.8
50
3 52.3
40
2 12.2
20
1 11.0
82
0
0 8.2
55
5 55.7
55
3 50.9
50
2 11.2
40
1 10.2
83
0
0 7.2
9 0
5 52.6
14 0
3 49.5
24 0
2 10.2
40 0
1 9.4
84
0
0 6.1
5
5 49.6
10
3 46.8
10
2 9.2
20
1 8.6
85
0
0 5.1
10
5 46.6
20
8 44.2
20
2 8.2
40
1 7.8
86
0
0 4.1
15
5 43.6
30
3 41.6
30
2 7.2
41 0
1 7.0
87
0
0 3.1
20
5 40.7
40
3 39.0
40
2 6.2
20
1 6.2
88
0
0 2.0
25
5 37J
50
8 36.5
50
2 5.3
40
1 54
89
0
0 IjO
• 30
5 35.1
15 0
3 34.1
25 0
2 4.4
42 0
1 4.7
90
0
0 OjO
50
TABLE IIL A.
Gometkn of the M«n B«rncUoD for thft Height of ihaBMoroeter.
BftroiiMter.
Subuacu
MEAN REFRACTION.
Barometer.
Add.
O'
_!'
%'
a'
4'
5'
6'
a
i
ft
V
8'^
9'
lO'
&
3ft
&
3*
&_
3A
±±
1?*
ft 3ft
_« 3ft
^
]ft
3ft
ftpl
ft
27.50
H
0
2
i
f
10
n
12
l4' 17'
H
20
23
25
»
(1
30
33"
35 38
40
M
43
n II
45 48
5i'
27.55
0
2
5
10
12
15 17
20 22
25 27
30|32
35 37
40
42
45|47
50
27.60
0
2
5
10
12
14117
19 22
24 27
29,31
34 36
39
41
44^46
49
27.65
0
2
9
12
U 16
19 21
24 126
28i31
33 36
38
40
43 45
48
27.70
0
2
9
U
14 16
18J21
2.1
25
28 30
32 35
37
39
42 44
47
27.75
0
2
9
11
13 16
18 20
23
25
27 '29
32 34
36
39
41 43
46
27.80
0
2
9
11
13 15
18 20
22
24
27
29
31 33
35 38
40 42
45
27.85
0
2
9
11
13 15
1719
22
24
26
28
30 32
35
37
39141
44
27.90
0
2
8
10
13 15
17
19
21
23
25
27
30 32
34
36
38
40
43
27.95
0
8
10
12
14
16
18
21
23
25
27
29 31
1
33
35
37
39
42
28.00
0
8
10
12
14
16
18
20
22
24
26
28 30
32
34
36|38
41
28.05
0
A
8
10
12
14
16
18
20
22
24
25
27 29
31
33
35 '37
39
28.10
0
2
8
9
11
13
15
17
19
21
23
25
27 29
31
33
34
36
38
28.15
0
9
11
13
15
17
19
20
22
24
26 28
30
32
34
36
37
28.20
0
9
11
13
14
16
18
20
22
24
25 27
29
31
33
35
36
28.25
0
3
9
10
12
14
16
18
19
21
23
25 26
28
30
32
34
35
28.30
0
3
8
10
12
14
15
17
19
21
22
24 26
27
29
31
33
34
28.35
0
3
8
10
12
13
15
17
18
20
22
23 25
27
28
30
32
33
28.40
0
3
8
10
11
13
14
16
18
19
21
23,24
26 27
29
31
32
28.45
0
3
•
8
9
11
12
14
16
17
19
20
2223
1
25
27
28
30
31
28.50
0
3
7
9
10
12
14
15
17
18
20
21I23
24
26
27
29
30
81^
28.55
0
3
7
9
10
12
13
15
16
17
19
20 22
23
25
26
28
29
31.45
28.60
0
3
7
8
10
11
13
14
15
17
18
20 21
23
24
25
27
28
31.40
28.65
0
3
7
8
9
11
12
14
15
16
18
19,20
22
23
25
26
27
31.35
28.70
0
3
6
8
9
10
12
13
14
16
17
18 20
21
22
64
25
26
31.30
28.75
0
2
6
7
9
10
11
13
14
15
16
18 19
20
21
23
24
25
31.25
28.80
0
2
6
7
8
10
11
12
13
14
16
17 18
19
21
22
23
24
31.20
28 85
0
2
6
7
8
9
10
12
13
14
15
16 17
19
20
21
22
23
31.15
28.90
0
5
7
8
9
10
11
12
13
14
16 17
18
19
20 21
22
31.10
28.95
0
3
5
6
7
8
9
11
12
13
14
15 16
17
18
19
20
21
31.05
29.00
0
3
5
6
7
8
10
11
12
13
14 15
16
17
18
19
20
31.00
29.05
0
3
5
6
7
8
10
11
11
12
13 14
15
16
17
18
19
30.95
29.10
0
3
4
5
6
7
9
10
11
12
13 14
15
15
16
17
18
30.90
29.15
0
3
3
4
5
6
7
9
9
10
11
12 13
14 151
15
16
17
30.85
29.20
0
2
8
4
5
6
6
8
9
10
10
11 12
13
14
15
15
16
30.80
29.25
0
2
3
4
4
5
6
8
8
9
10
11 11
12
13
14
14
15
30.75
29.30
0
2
3
3
4
5
6
7
8
8
9
10 11
11
12
13
13
14
30.70
29.35
0
2
3
3
4
5
5
7
7
8
9
9;10
10
11
12
13
13
30.65
29.40
0
2
2
3
4
4
5
6
7
7
8
8 9
10
10
11
12
12
30.60
29.45
0
2
2
3
3
4
4
6
6
7
7
8
8
9
9
10
11
11
30.55
29.50
0
0
2
2
3
3
4
5
6
6
7
7
8
8
9
9
10
10
30.50
29.55
0
0
2
2
3
3
4
5
5
5
6
6
7
7
8
8
9
9
30.45
29.60
0
0
2
2
3
3
4
4
5
5
6
6
6
7
m
8
8
30.40
29.65
0
0
2
2
2
3
4
4
4
5
5
5
6
6
6
7
7
30.35
29.70
0
0
1
2
2
2
3
8
4
4
4
5
5
5
5
6
6
30.30
29.75
0
0
0
I
1
2
2
3
3
3 3
4
4
4
4
5
5
5
30.25
29.80
0
0
0
1
1
I
2
2
2
2! 3
3
3
3
3
4
4
4
30.20
29.85
0
0
0
0
]
I
1
I
2
2
2 2
2
2
2
3
3
3
3
30.15
29.90
0
0
0
0
0
0
I
1
1
1
1
H I
1
2
2
2
2
2
2
30.10
29.95
0
0
0
0
0
0
0
0
0
0
1
1
1 1
1
1
1
1
1
I
I
80i)5
30.00
0
0
0
6
0
0
0
0
0
00
0
0
0
0 0
0
0
0
0
0
0
0
30.00
Subincu
Buometar.
«
2&
&
aft
A
^
«
aft
ft
3ft
':•»
ft
aft
ft
3ft
ft
3ft
ft
Add.
Dnromelef
^
V
a'
8'
4'
S'
6'
T'
6'
9'|
lO'
B
lEA
(7 R
EPRACTION.
51
TABLE ni. B.
Oicraeika oTtlM Mmo BafincUoo fiw dM B^fflit oTUmI
Add.
MBAN REFRACTION.
Add.
0^
1^
•'
8'
4'
ft'
^
_r_
S'
•»
10*
£
a6
1]
3«
£
3«
J^
a^
±
3ft
t^
36
»
H
aft
ft
aft
±
3&
^aft
ft
o
n
M
n
»
ft
ft
N
H
«f
II
N
II
M
a
ft
H
.
«
0
1 — 1<>
0
8
16
20
24
28
33
37
41
46
50
55
60
65
70
75
80;85
90
—10
— 8
0
8
23
27
31
36
40
44
46
53
58
62
67
72
77
82
87
— 8
— 6
0
7
22
26
30
84
38
42
47
51
55
60
M
69
74
79
84
— 6
- 4
0
7
22
25
29
33
37
41
45
49
53
57
62
66
71
76
80
— 4
-»
0
7
21
24
28
31
35
39
43
47
51
55
59
64
68
72
77
— S
0
0
3
7
SO
23
27
30
34
37
41
45
49
53
57
61
65
69
74
0
S
0
8
6
19
22
25
29
32
36
39
43
47
50
54
58
62
66
70
s
4
0
3
6
16
24
28
31
34
37
41
44
48
52
55
59
63
67
4
6
0
6
17
23
26
29
32
36
39
42
46
49
53
56
60
64
6
8
0
5
16
22
25
28
31
34
37
40
43
47
50
54
57
61
8
10
0
5
15
21
24
26
29
32
35
38
41
44
48
51
54
58
10
11
0
5
15
20
23
26
28
31
34
37
40
43
46
49
53
56
11
IS
0
5
15
20
22
25
28
30
33
36
39
42
45
48
51
54
IS
13
0
5
14
19
22
24
27
30
32
35
38
41
44
47
50
58
18
14
0
5
14
19
21
24
26
29
31
34
37
40
42
45
48
51
14
15
0
4
13
18
20
23
25
28
30
33
36
38
41
44
47
50
15
16
0
4
13
18
20
22
25
27
29
32
35
37
40
43
45
48
16
17
0
4
18
17
19
21
24
26
29
31
33
36
39
41
44
47
1' u
18
0
4
12
16
19
21
23
25
28
30
32
35
37
40
43
45
18
19
0
4
12
16
18
20
22
24
27
29
31
34
36
39
41
44
19
SO
0
4
11
15
17
19
22
24
26
28
30
33
35
87
40
4S
SO
SI
0
4
11
15
17
19
21
23
25
27
29
31
34
36
38
41
SI
S8
0
8
11
U
16
18
20
22
24
26
28
30
32
35
37
39
SS
SS
0
8
10
U
15
17
19
21
23
25
27
29
31
33
36
38
S8
S4
0
3
10
13
15
17
18
20
22
24
26
28
30
32
34
36
S4
S5
0
8
9
13
14
16
18
19
21
23
25
27
29
31
33
35
SS
Sft
0
3
9
12
14
15
17
19
20
22
24
26
28
29
31
33
S6
S7
0
3
9
12
13
15
16
18
19
21
23
25
26
38
30
3S
S7
S8
0
3
8
11
12
14
15
17
19
20
22
23
25
27
29
30
S8
29
0
3
5
8
11
12
13
15
16
18
19
21
22
24
26
27
29
S9 H
80
0
S
5
7
10
11
13
14
15
17
18
20
21
23
24
26
28
80
31
0
S
5
7
9
11
12
13
15
16
17
19
20
22
23
25
26
31
8S
0
S
4
7
9
10
11
13
14
15
16
18
19
20
22
23
25
as
88
0
S
4
6
8
10
11
12
13
14
15
17
18
21
22
S8
83
84
0
2
4
6
8
9
10
11
12
13
14
16
17
19
21
22
84
85
0
S
4
6
7
8
9
10
11
13
14
15
16
18
19
20
85
36
0
2
3
5
7
8
9
10
11
12
13
14
15
17
18
19
86
37
0
2
3
5
6
7
8
9
10
U
12
18
14
16
17
18
87
88
0
1
3
4
6
7
7
8
9
10
11
12
13
14
15
16
88
89
0
I
8
4
5
6
7
8
8
9
10
11
11
13
14
15
89
40
0
1
2
4
5
6
6
7
8
8
9
10
10
12
13
13
40
41
0
1
2
3
4
5
6
6
7
7
8
9
9
11
11
12
41
4S
0
0
1
1
2
3
4
4
5
5
6
7
7
8
8
9
10
11
4S
48
0
0
1
2
3
8
4
4
5
5
6
6
7
7
8
9
9
48
44
0
0
1
1
2
3
3
4
4
4
5
5
6
6
7
8
8
44
45
0
0
1
1
2
2
3
8
3
4
4
4
5
5
6
6
T
45
46
0
0
0
1
1
2
2
2
2
3
8
4
4
4
5
5
5
46
47
0
0
0
1
1
1
2
2
2
2
2
3
3
3
3
4
4
4
47
48
0
0
0
0
0
I
1
1
1
1
1
2
2
2
2
2
2
2
8
48
49
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1 1
1
1
1
49
50
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0 0
0
0
0
80
Add.
i
26
i
3«
i
aft
i
3«
i
36
A
26
'
aft
ft
aft
7>
8'
ft
aft
ft
Aid.
0^
r\
%'
S'l
4'
ft'
•^
r
9
^ i^*!
h
[BAN RBVR.
AC
JTION. 1
1 1
"rd
fi2
TABLE HI. B.
Oomction of the Mean RefncUon for Um Helfht of UMThermoinater.
1 —
Subliwt
MEAN BBFBACTION. |
Thennom.
Subtract.
•lI
_l^l
•'
8'
_*^l
•^
6'
T'
H'
•'1
10'
^
■
3«
±
3&
i_
3«
«
aft
^
3«
±
aft
_*
3&
i
8«
6
36
^
8«
i
.*?
f
H
M
H
«
«
M
II
«
n
u
u
II
If
II
N
a
N
II
M
II
0
50
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
50
51
0
0
0
0
0
0
0
0
0
1
1
I
1
1
1
1
1
1
1
1
51
52
0
0
0
0
1
1
1
1
1
1
1
2
2
2
2
2
2
3
52
53
0
0
1
1
1
2
2
2
2
2
2
3
3
3
4
4
53
54
0
1
«
2
2
2
3
3
3
3
4
4
5
5
5
54
55
0
1
2
2
3
3
3
4
4
4
5
5
6
6
6
55
56
0
2
2
3
3
4
4
4
5
5
6
»
7
7
8
56
57
0
2
3
3
4
4
5
5
6
6
7
8
8
8
9
57
58
0
2
3
3
4
4
5
5
6
6
7
8
9
9
10
10
58
59
0
_
3
3
4
4
5
5
6
6
7
8
9
10
10
11
12
59
60
0
3
3
4
5
5
6
7
7
8
9
10
n
11
12
13
60
6t
0
3
4
4
5
6
7
7
8
9
9
11
12
12
13
14
61
6S
0
3
4
5
6
6
7
8
9
9
10
12
13
14
15
15
62
63
0
4
5
5
6
7
8
8
9
10
11
13
14
15
16
17
63
64
0
2
4
5
6
7
7
8
9
10
U
12
14
15
16
17
18
64
65
0
4
5
6
7
8
9
10
U
12
13
15
16
17
18
19
65
66
0
5
6
6
7
8
9
10
11
12
14
16
17
18
19
20
66
67
0
5
6
7
8
9
10
U
12
13
14
17
18
19
20
22
67
68
0
5
6
7
8
9
11
11
13
14
15
18
19
20
22
23
68
69
0
5
7
8
9
10
11
12
13
15
16
19
20
21
23
24
69
70
0
6
7
8
9
10
12
12
14
16
17
20
21
22
24
25
70
71
0
6
7
8
10
11
12
13
15
16
18
20
22
23
25
27
71
72
0
6
8
9
10
11
13
14
16
17
18
21
23
25
26
28
72
73
0
7
8
9
11
12
13
14
16
18
19
22
24
26
27
29
73
74
0
3
7
8
10
U
12
14
15
17
18
20
22
23
25
27
28
30
74
75
0
3
7
8
10
11
13
14
16
18
19
21
22
24
26
28
29
31
75
76
0
3
7
9
10
12
13
15
16
18
20
22
23
25
27
29
31
32
76
77
0
3
8
9
11
12
14
16
17
19
21
22
24
26
28
30
32
34
77
78
0
3
8
9
11
13
14
16
18
20
21
23
25
27
29
31
33
35
78
79
0
3
8
10
11
13
15
17
18
20
22
24
26
28
30
32
34
36
79
80
0
3
w
8
10
12
H
15
17
19
21
23
25
27
29
31
S3
35
37
80
81
0
9
10
12
14
16
18
20
21
24
26
28
30
32
34
36
38
81
82
0
9
11
13
14
16
18
20
22
24
26
28
31
33
35
37
40
82
83
0
9
11
13
15
17
19
21
23
25
27
29
31
34.
36
38
41
83
84
0
8
9
11
13
15
17
19
21
23
26
28
30
32
35
37
39
42
84
85
0
8
10
12
14
16
18
20
22
24
26
29
31
33
36
38
40
43
85
86
0
8
10
12
14
16
18
20
23
25
27
29
32
34
37
39
42
44
86
87
0
8
10
12
14
17
19
21
23
25
28
30
32
35
38
40
43
45
87
88
0
8
10
13
15
17
19
21
24
26
28
31
33
36
38
41
44
46
88
89
0
9
11
13
15
17
20
22
24
27
29
32
34
37
39
42
45
48
89
90
0
9
11
13
16
18
20
23
25
27
30
32
35
38
40
43
46
49
90
91
0
9
11
14
16
18
21
23
25
28
31
33
36
39
41
44
47
50
91
92
0
9
11
14
16
19
21
24
26
29
31
34
37
39
42
45
48
51
92
93
0
9
12
14
17
19
22
24
27
29
32
35
37
40
43
46
49
52
93
94
0
10
12
14
17
19
22
25
27
30
33
35
38
41
44
47
50
53
94
95
0
10
12
15
17
20
22
25
28
30 '33
36
39
42
45
48
51
54
95
96
0
10
12
15
18
20
23
26
28
3l|34
37
40
43
46
49
52
55
96
97
0
8
10
13
15
18
21
23
26
29
32 35
38
41
44
47
50
53
56
97
98
0
8
10
13
16
18
21
24
27
29
32 35
38
41
44
48
51
54
58
98
99
0
8
11
13
16
19
21
24
27
30
33 '36
39
42
45
49
52
55
59
99
100
0
3
8
11
13
16
19
22
25
28
31
34 37
40
43
46
50
53
56
60
100
Subcnet.
Thennom.
—
6
a«
i
2&
&
36
Tirf
&
8«
&
3&
11&
A
3«
A
8«
«
36
6
Subtnct.
Thennom
"•^
r
V
S'
4'
ft'
•»
r
W
V
IIK
MEAN REFRACTION.
70
53
TABLE IV. SIDEREAL INTO MEAN SOLAR TIME.
Sidft.
roal
Qh.
Ih.
2h.
S^
4h.
6»-
6^
7h.
F«r
m.
0
0 00.000
0*09.830
0*19.659
0*29489
039J518
0*49.148
0 58.977
T' 08.807
a.
•.
1
0 00.164
0 09.993
0 19.823
0 29.653
0 39.482
0 49.312
0 59.141
1 08.971
1
0J0O3
2
0 00.328
0 10.157
0 19.987
0 29.816
0 39.646
0 49.475
0 59.305
1 09.135
2
i)05
3
0 00.491
0 10.321
0 20.151
0 29.980
0 39.810
0 49.639
0 59.469
1 09.298
3
.008
4
0 00^55
0 10.485
0 20.314
0 30.144
0 39.974
0 49.803
0 59.633
1 09462
4
mi
5
0 00.819
0 10.649
0 20.478
0 30.308
0 40.137
0 49.967
0 59.796
1 09.626
5
X)14
6
0 00.983
0 10.813
0 20.642
0 30.472
0 40-301
0 50.131
0 59.960
1 09.790
6
.016
7
0 01.147
0 10.976
0 20.806
0 30.635
0 40465
0 50.295
1 00.124
1 09.954
7
J019
8
0 01.311
0 11.140
0 20.970
0 30.799
0 40.629
0 50.458
1 00.288
1 10.118
8
.022
9
0 0M74
0 llJiAA
0 21.134
0 30.963
0 40.793
0 50.622
1 00.452
1 10.281
9
.025
10
0 01.638
0 11.468
0 21.297
0 31.127
0 40.956
0 50.786
1 00.616
1 10445
10
J027
11
0 01.802
0 11.632
0 21.461
0 31.291
0 41.120
0 50.950
1 00.779
1 10.609
11
S)30
12
0 01.966
0 11.795
0 21.625
0 31.455
0 41.284
0 51.114
1 00.943
1 10.773
12
.033
13
0 02.130
0 11.959
0 21.789
0 31.618
0 41.448
0 51.278
1 01.107
1 10.937
13
.035
14
0 02.294
0 12.123
0 21.953
0 31.782
0 41.612
0 51441
1 01.271
1 11.100
14
i)38
15
0 02.457
0 12.287
0 22.117
0 31.946
0 41.776
0 51.605
1 01435
1 11.264
15
.041
16
0 02.621
0 12.451
0 22.280
0 32.110
0 41.939
0 51.769
1 01.599
1 11428
16
.044
17
0 02.785
0 12.615
0 22.444
0 32.274
0 42.103
0 51.933
1 01.762
1 11.592
17
J046
18
0 02.949
0 12.778
0 22.608
0 32.438
0 42.267
0 52.097
1 01.926
1 11.756
18
S^O
19
0 03.113
0 12.942
0 22.772
0 32.601
0 42431
0 52J260
1 02i)90
1 11.920
19
X^2
20
0 03.277
0 13.106
0 22.936
0 32.765
0 42.595
0 52424
1 02.254
1 12.063
20
.055
21
0 03^140
0 13.270
0 23.099
0 32.929
0 42.759
0 52.588
1 02418
1 12.247
21
X^7
22
0 03.604
0 13.434
0 23.263
0 33.093
0 42.922
0 52.752
1 02.582
1 12411
22
.060
23
0 03.768
0 13.598
0 23.427
0 33.257
0 43.086
0 52.916
1 02.745
1 12.575
23
.063
24
0 03.932
0 13.761
0 23.591
0 33.420
0 4SJ250
0 53.080
1 02.909
1 12.739
24
X)66
25
0 04.096
0 13.925
0 23.755
0 33.584
0 43.414
0 53iS43
1 03.073
1 12.903
25
X>68
26
0 04.259
0 14.089
0 23.919
0 33.748
0 43.578
0 53.407
1 03.237
1 13.066
26
J)7I
27
0 04.423
0 14.253
0 24.082
0 33.912
0 43.742
0 53.571
1 03401
1 13.230
27
jy74
28
0 04.587
0 14.417
0 24.246
0 34.076
0 43.905
0 53.735
1 03.564
1 13.394
28
X)76
29
0 04.751
0 14.581
0 24.410
0 34.240
0 44.069
0 53.899
1 03.728
1 13.558
29
.079
30
0 04.915
0 14.744
0 24.574
0 34.403
0 44.233
0 54.063
1 03.892
1 13.722
30
.082
31
0 05.079
0 14.908
0 24.738
0 34.567
0 44.397
0 54.226
1 04X)56
1 13.886
31
.085
32
0 05.242
0 15.072
0 24.902
0 34.731
0 44.561
0 54.390
1 04.220
1 14.049
32
XiS7
33
0 05.406
0 15.236
0 25.065
0 34.895
0 44.724
0 54.554
1 04.384
1 14.213
33
.090
34
0 05.570
0 15.400
0 25.229
0 35.059
0 44.888
0 54.718
1 04.547
1 14.377
34
X)93
35
0 -05.734
0 15.563
0 25.393
0 35.223
0 45.052
0 54.882
1 04.711
1 14.541
35
.096
36
0 05.898
0 15.727
0 25.557
0 35.386
0 45.216
0 55.046
1 04.875
1 14.705
36
X>98
37
0 06.062
0 15.891
0 25.721
0 35.550
0 45.380
0 55.209
1 05.039
1 14.868
37
.101
38
0 06.225
0 16.055
0 25.885
0 35.714
0 45.544
0 55.373
1 05.203
1 15.032
38
.104
39
0 06.389
0 16.219
0 26X)48
0 35.878
0 45.707
0 55.537
1 05.367
1 15.196
39
.106
40
0 06.553
0 16.38?
0 26.212
0 36.042
0 45.871
0 55.701
1 05.530
1 15.360
40
.109
41
0 06.717
0 16.546
0 26.376
0 36.206
0 46i)35
0 55.865
1 05.694
1 15.524
41
.US
42
0 06.881
0 16.710
0 26.540
0 36.369
0 46.199
0 56.028
1 05.858
1 15.688
42
.115
43
0 07.045
0 16.874
0 26.704
0 36.533
0 46.363
0 56.192
1 06.022
1 15.851
43
.117
44
0 07.208
0 17.038
0 26.867
0 36.697
0 46.527
0 56.356
1 06.186
1 16.015
44
.120
45
0 07.372
0 17.202
0 27.031
0 36.861
0 46.690
0 56.520
1 06.350
1 16.179
45
.123
46
0 07.536
0 17.366
0 27.195
0 37i)25
0 46.854
0 56.684
1 06.513
1 16.343
46
.126
47
0 07.700
0 17.529
0 27.359
0 37.188
0 47.018
0 56.848
1 06.677
1 16.507
47
.128
48
0 07.864
0 17.693
0 27.523
0 37.352
0 47.182
0 57.011
1 06.841
1 16.671
48
.131
49
0 08.027
0 17.857
0 27.687
0 37.516
0 47.346
0 57.175
1 07.005
1 16.834
49
.134
50
0 08.191
0 18.021
0 27.850
0 37.680
0 47.510
0 57.339
1 07.169
1 16.998
50
.137
51
0 08.355
0 18.185
0 28.014
0 37.844
0 47.673
0 57.503
1 07.332
1 17.162
51
.139
52
0 08.519
0 18.349
0 28.178
0 38.008
0-47.837
0 57.667
1 07496
1 17.326
52
.142
53
0 08.683
0 18.512
0 28.342
0 38.171
0 48.001
0 57.831
1 07.660
1 17.490
53
.145
54
0 08.847
0 18.676
0 28.506
0 38.335
0 48.165
0 57.994
1 07.824
1 17.654
54
.147
55
0 09.010
0 18.840
0 28.670
0 38.499
0 48.329
0 58.158
1 07.938
1 17.817
55
.150
56
0 09.174
0 19.004
0 28.833
0 38.663
0 48.492
0 58.322
1 08.152
1 17.981
56
.153 1
57
0 09JJ38
0 19.168
0 28.997
0 38.827
0 48.656
0 58486
1 08.315
1 18.145
57
.156
58
0 09.502
0 19.331
0 29.161
0 38.991
0 48.820
0 58.650
1 08479
1 18.309
58
158
59
0 09.666
0 19.495 0 29.325
0 39.154
0 48.984
0 58.814
1 08.643
1 18473
59
.161
54
TABLE IV. SIDEREAL INTO MEAN SOLAR TIME.
ade-
8^
gh.
10*^
IP
W
W
14 h.
15*^
For
Secoada.
n.
0
f' 18.636
r* 28.466
r 88.296
1 48.125
"57.955
2 07.784
2 17.614
2 27443
•.
•.
1
1 18.800
1 28.630
1 38459
1 48.289
1 58.119
2 07.948
2 17.778
2 27.607
1
0.003
2
1 18.964
1 28.794
1 38.623
1 48.453
1 68.282
2 08.112
2 17.941
2 27.771
2
.005
3
1 19.128
1 28.958
1 38.787
1 48.617
1 58446
2 08.276
2 18.105
2 27.935
3
.008
4
1 19.292
1 29.121
1 38.951
1 48.780
1 58.610
2 08.440
2 18.269
2 28.099
4
.Oil
b
1 19.456
1 29.285
1 39.115
• 1 48.944
1 58.774
2 08.603
2 18.433
2 28.263
6
.014
6
1 19.619
1 29.449
1 39.279
1 49.108
1 58.938
2 08.767
2 18.597
2 28426
6
.016
7
1 19.783
1 29.613
1 39.442
1 49.272
1 59.101
2 08.931
2 18.761
2 28.590
7
.019
8
1 19.947
1 29.777
1 39.606
1 49.436
1 59.265
2 09.095
2 18.924
2 28.754
8
.022
9
1 20.111
1 29.940
1 39.770
1 49.600
1 59429
2 09.259
2 19.08«
2 28.918
9
.025
10
1 20.275
1 30.104
1 39.934
1 49.763
1 59.593
2 09423
2 19.252
2 29.082
10
.027
11
1 20.439
1 30.268
1 40.098
1 49.927
1 69.757
2 09.586
2 19416
2 29.245
11
.030
12
1 20.602
1 30.432
1 40.261
1 50.091
1 59.921
2 09.750
2 19.580
2 29.409
12
.033
13
1 20.766
1 30.596
1 40.425
1 50.255
2 00.084
2 09.914
2 19.744
2 29.573
13
.035
14
1 20.930
1 30.760
1 40.589
1 50.419
2 00.248
2 10.078
2 19.907
2 29.737
14
.038
15
1 21.094
1 30.923
1 40.753
1 50.583
2 00412
2 10.242
2 20.071
2 29.901
15
.041
16
1 21.258
1 31.087
1 40.917
1 50.746
2 00.676
2 10.405
2 20.235
2 30.065
16
.044
17
1 21.422
1 31.251
1 41.081
1 50.910
2 00.740
2 10.569
2 20.399
2 30.228
17
.046
18
1 21.585
1 31.415
1 41.244
1 51.074
2 00.904
2 10.733
2 20.563
2 30.392
18
.049
19
1 21.749
1 31.579
1 41.408
1 51.238
2 01i)67
2 10.897
2 20.727
2 30.556
19
.062
20
1 21.913
1 31.743
1 41.572
1 51.402
2 01.231
2 11.061
2 20.890
2 30.720
20
J)55
21
1 22.077
1 31.906
1 41.736
1 51.565
2 01.896
2 11.225
2 21.054
2 30.884
21
.057
22
1 22.241
1 32.070
1 41.900
1 51.729
2 01.659
2 11.388
2 21.218
2 31.048
22
.060
23
1 22.404
1 32.234
1 42.064
1 51.893
2 01.723
2 11.552
2 21.382
2 31.211
23
.063
24
1 22JJ68
1 32.398
1 42.227
1 52.057
2 01.887
2 11.716
2 21.546
2 31.375
24
.066
25
1 22.732
1 32.562
1 42.391
1 52.221
2 02.050
2 11.880
2 21.709
2 31.539
25
MS
26
1 22.896
1 32.726
1 42.555
1 52.385
2 02.214
2 12.044
2 21.873
2 31.703
26
.071
27
1 23.060
1 32.889
1 42.719
1 52.548
2 02.378
2 12.208
2 22.037
2 31.867
27
.074
28
I 23.224
1 33.053
1 42.883
1 62.712
2 02.642
2 12.371
2 22.201
2 32.031
28
.076
29
1 23.387
1 33.217
1 43.047
1 52.876
2 02.706
2 12.535
2 22.366
2 32.194
29
.079
SO
1 23.551
1 33.381
1 43.210
1 63.040
2 02.869
2 12.699
2 22.529
2 32.368
30
J0S2
31
1 23.715
1 33.545
1 43.374
1 53.204
2 03.033
2 12.863
2 22.692
2 32.522
31
.085
32
1 23.879
1 33.708
1 43.538
1 53.368
2 03.197
2 13.027
2 22.856
2 32.686
32
.087
33
1 24.043
1 33.872
1 43.702
1 53.531
2 03.361
2 13.191
2 23.020
2 32.850
33
.090
34
I 24.207
1 34.036
1 43.866
1 53.695
2 03i»25
2 13.364
2 23.184
2 33.013
34
.093
35
1 24.370
1 34.200
1 44.029
1 53.859
2 03.689
2 13.518
2 23.348
2 33.177
36
xm
36
1 24.534
1 34.364
1 44.193
1 54.023
2 03.862
2 13.682
2 23.512
2 33.341
36
.098
87
1 24.698
1 34.528
1 44.357
1 54.187
2 04.016
2 13.846
2 23.675
2 33.606
37
.101
38
1 24.862
1 34.691
1 44.521
1 54.351
2 04.180
2 14.010
2 23.839
2 33.669
38
.104
39
1 25.026
1 34.855
1 44.685
1 64.514
2 04.344
2 14.173
2 24.003
2 33.833
39
.106
40
1 25.190
1 35.019
1 44.849
1 54.678
2 04.608
2 14.337
2 24.167
2 33.996
40
.109
41
1 25.353
1 35.183
1 45.012
1 64.842
2 04.672
2 14.501
2 24.331
2 34.160
41
.112
42
1 25.517
1 35.347
1 45.176
1 55.006
2 04.836
2 14.665
2 24495
2 34.324
42
.115
43
1 25.681
1 35.511
1 45.340
1 55.170
2 04.999
2 14.829
2 24.658
2 34488
43
.117
44
1 25.845
1 35.674
1 45.504
1 55.333
2 05.163
2 14.993
2 24.822
2 34.652
44
.120
45
1 26.009
1 35.838
1 45.668
1 55.497
2 05.327
2 15.156
2 24.986
2 34.816
45
.123
46
1 26.172
1 36.002
1 45.832
1 55.661
2 05491
2 15.320
2 25.150
2 34.979
46
.126
47
1 26.336
1 36.166
1 45.995
1 55.825
2 05.655
2 15.484
2 25.314
2 35.143
47
.128
48
1 26.500
1 36.330
I 46.159
1 55.989
2 05.818
2 15.648
2 25477
2 35.307
48
.131
49
1 26.664
1 36.493
1 46.323
1 66.153
2 05.982
2 15.812
2 25.641
2 35.471
49
.134
50
1 26.828
1 36.657
1 46.487
1 56.316
2 06.146
2 15.976
2 25.806
2 35.635
60
.137
51
1 26 992
1 36.821
1 46.651
1 56.480
2 06.310
2 16.139
2 25.969
2 35.798
51
.139
52
1 27.155
1 36.985
1 46.815
1 56.644
2 06474
2 16J503
2 26.133
2 35.962
52
.142
53
1 27.319
1 37.149
1.46.978
1 56.808
2 06.637
2 16.467
2 26.297
2 36.126
53
.145
64
1 27.483
1 37.313
1 47.142
1 56.972
2 06.801
2 16.631
2 26.460
2 36.290
54
.147
55
1 27.647
1 37.476
1 47.306
1 57.136
2 06.965
2 16.795
2 26.624
2 36454
65
.150
56
1 27.811
1 37.640
1 47.470
1 57.299
2 07.129
2 16.959
2 26.788
2 36.618
66
.153
57
1 27.975
1 37.804
1 47.634
1 57.463
2 07.293
2 17.122
2 26.952
2 36.781
57
.156
58
1 28.138
I 37.968
1 47.797
1 57.627
2 07457
2 17.286
2 27.116
2 36.945
68
.168
59
1 28.302
1 38.132
1 47.961
1 57.791
2 07.620
2 17450
2 27.280
2 37.109
59
.161
55
TABLE IV. SIDEREAL EJTO MEM SOLAR TIME.
Side-
real.
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
16'
m. a.
2 37.273
2 37.437
2 37.601
2 37.764
2 37.928
2 38.092
2 38.256
2 38.420
2 38.584
2 38.747
2 38.911
2 39.075
2 39.239
2 39.403
2 39.566
2 39.730
2 39.894
2 40.058
2 40.222
2 40.386
2 40.549
2 40.713
2 40.877
2 41X)41
2 41.205
2 41.369
2 41.532
2 41.696
2 41.860
2 42.024
2 42.188
2 42.352
2 42.515
2 42.679
2 42.843
2 43.007
2-43.171
2 43.334
2 43.498
2 43.662
2 43.826
2 43.990
2 44.154
2 44.'517
2 44.481
2 44.645
2 44.809
2 44.973
2 45.137
2 45.300
2 45.464
2 45.638
2 45.792
2 45.956
2 46.120
2 46.2^3
2 46.447
2 46.611
2 46.775
2 46.939
17h.
2 47.102
2 47.266
2 47.430
2 47.594
2 47.758
2 47.922
2 48.085
2 48.249
2 48.413
2 48.577
2 48.741
2 48.905
2 49.068
2 49.232
2 49.396
2 49.560
2 49.724
2 49.888
2 50.051
2 50.215
2 50.379
2 50.543
2 50.707
2 50.870
2 51.034
51.198
51.362
51.526
51.690
51.853
52.017
52.181
52.345
52.509
52.673
2 52J36
2 53.000
2 53.164
2 53.328
2 53^92
2 53.656
2 53.819
2 53.983
2 54.147
2 54.311
2 54.475
2 54.638
2 54.802
2 54.966
2 55.130
2 55.294
2 55.458
2 55 621
2 55.785
2 55.949
2 56.113
2 56.277
2 56.441
2 56.604
IS*"
2 56.932
2 57.096
2 57.260
2 57.424
2 57.587
2 57.751
2 57.915
2 58.079
2 58.243
2 58.406
2 58.570
2 58.734
2 58.898
2 59.062
2 59.226
2 59.389
2 59.553
2 59.717
2 59.881
3 00X>45
8 00.209
8 00.372
3 OOJK36
3 00.700
3 00.864
3 01.028
3 01.192
3 01.355
3 01.519
3 01.683
3 01.847
3 02.011
3 02.174
3 02.338
3 02.502
3 02.666
3 02.830
3 02.994
3 03.157
3 03.321
3 03.485
3 03.649
3 03.813
3 03.977
3 04.140
3 0AJ3O4
3 04.468
3 04.632
3 04.796
3 04.960
3 05.123
3 05.287
3 05.451
3 05.615
3 05.779
3 05.942
3 06.106
3 06.270
3 06.434
2 56.768 3 06^(98
19'
3 06.762
3 06.925
3 07X)89
3 07.253
3 07.417
3 07.581
3 07.745
3 07.908
3 08.072
3 08.236
3 08.400
3 08.564
8 08.728
3 08.891
3 09.055
3 09.219
3 09.383
3 09M7
3 09.710
3 09.874
3 10.038
3 10.202
3 10.366
3 10.530
3 10.693
3 10.857
3 11.021
3 11.185
3 11.349
3 11.513
11.676
11.840
12.004
12.168
12.332
3 12.496
3 12.659
3 12.823
3 12.987
3 13.151
3 13.315
3 13478
3 13.642
3 13.806
3 13.970
3 14.134
3 14.298
3 14.461
3 14.625
3 14.789
3 14.953
3 15.117
3 15.281
3 15.444
3 15.608
3 15.772
3 15.936
3 16.100
3 16.264
3 16427
20*
3 16.591
3 16.755
3 16.919
3 171)83
3 17.246
3 17410
3 17.574
3 17.738
3 17.902
3 18X>66
3 18.229
3 18.393
3 18.557
3 18.721
3 18.885
3 19.049
3 19.212
3 19.376
3 19.540
3 19.704
3 19.868
3 20.032
3 20.195
3 20.359
3 20.523
3 20.687
3 20.851
3 21.014
3 21.178
3 21UI42
3 21.506
3 21.670
3 21.834
3 21J97
3 22.161
3 22.325
3 22489
3 22.653
3 22.817
3 22.980
3 23.144
3 23.308
3 23472
3 23.636
3 23.800
3 23.963
3 24.127
3 24.291
3 24455
3 24.619
3 24.782
3 24.946
3 25.110
3 25.274
3 25438
3 25.602
3 25.765
3 25.929
3 26J093
3 26.257
2V
3 26.421
3 26.585
3 26.748
3 26.912
3 27.076
3 27.240
3 27.404
3 27 J^
3 27.731
3 27.895
3 28X)59
3 28.223
3 28.387
3 28J(50
3 28.714
3 28.878
3 29XM2
3 29.206
3 29.370
3 29.533
3 29.697
3 29.861
3 30.025
3 30.189
3 30.353
3 30.516
3 30.680
3 30.844
3 SlJOOS
3 31.172
3 31.336
3 31499
3 31.663
3 31.827
3 31.991
3 32.155
3 32.318
3 32482
3 32.646
3 32.810
3 32.974
3 33.138
3 33.301
3 33465
3 33.629
3 33 793
3 33.957
3 34.121
3 34.284
3 34.448
3 34.612
3 34.776
3 34.940
3 35.104
3 35.267
3 35431
8 35.595
3 35.759
22 •^
3 36.250
3 36414
3 36.578
3 36.742
3 36.906
3 37/)69
3 37.233
3 37.397
3 37.561
3 37.725
3 37.889
3 38i)52
3 38.216
3 38.380
3 38.544
3 38.708
3 38.871
3 39X)35
3 39.199
3 39.363
3 39.527
3 39.691
3 39.854
3 40X)18
3 40.182
3 40.346
3 40.510
3 40.674
3 40.837
3 41J001
3 41.165
3 41.329
3 41493
3 41.657
3 41.820
3 41.984
3 42.148
3 42.312
3 42476
3 42.639
3 42.803
3 42.967
3 43.131
3 43.295
3 43459
43.622
43.786
43.950
44.114
44.278
3 44442
3 44.605
3 44.769
3 44.933
3 45J)97
3 45.261
3 45425
3 45.588
3 35.923 3 45.752
3 36.086 3 45.916
23'
3 46j08O
3 46.244
3 46407
3 46.571
3 46.735
3 46.899
3 47X)63
3 47.227
3 47.390
3 47.554
3 47.718
3 47.882
3 48XM6
3 48.210
3 48.373
3 48.537
3 48.701
3 48.865
3 49.029
3 49.193
3 49.356
3 49.520
3 49.684
3 49.848
3 50J)12
3 50.175
3 50.339
3 50.503
3 50.667
3 50.831
3 50.995
3 51.158
3 51JS22
3 51.486
3 51.650
51.814
51.978
52.141
52.305
52469
3 52.633
3 52.797
3 52.961
3 53.124
3 53.288
3 53452
3 53.616
3 53.780
3 53.943
3 54.107
3 54.271
3 54435
3 54.599
3 54.763
3 54.926
3 55.090
3 55.254
8 55418
3 55.582
3 55.746
Tot
OJ003
J005
MS
mi
MS
J)19
J02S
ml
j030
joas
J035
J038
i>41
XM4
i>46
iM9
J05S
X»5
X)57
j060
.063
J066
JOSS
J071
m4
J07S
X>79
.082
.085
J087
J090
J099
sm
J09S
.101
.104
.106
.109
.112
.115 >
.117
.120
.123
.126
.128
.131
.134
.137
.139
.142
.143
.147
.150
.153
.156
.158
.161
56
TABLE IV. MEAN SOLAR UNTO SIDEREAL TIME.
Maan
Solar.
Qh.
Ih.
2h.
3^
4>-
6»»-
6^
7h.
For
Seconds.
n.
0
0*00.000
O' 09.856
O" 19.713
0 29i^69
0*39426
O' 49.282
0*59.139
l' 08.995
•.
a.
1
0 00.164
0 10.021
0 19.877
0 29.734
0 39.590
0 49.447
0 59.303
1 09.160
1
oxm
2
0 00.329
0 10.185
0 20J041
0 29.898
0 39.754
0 49.611
0 59.467
1 09.324
2
J005
3
0 00.493
0 10UM9
0 20^806
0 S0M2
0 39.919
0 49.775
0 59.632
1 09488
3
.008
4
0 00.657
0 10.514
0 20.370
0 30.227
0 40.083
0 49.939
0 59.796
1 09.652
4
JOll
5
0 00.821
0 10.678
0 20.534
0 30.391
0 40.247
0 50.104
0 59.960
1 09.817
5
.014
6
0 00.986
0 10.842
0 20.699
0 30.555
0 40412
0 50.268
1 00.124
1 09.981
6
.016
7
0 01.150
0 11.006
0 20.863
0 30.719
0 40.576
0 50432
1 00.289
1 10.145
7
J019
8
0 01.314
0 11.171
0 21.027
0 30.884
0 40.740
0 50.597
1 00453
1 10.310
8
.022
9
0 01.478
0 11.335
0 21.191
0 31.048
0 40.904
0 50.761
1 00.617
1 10474
9
J025
10
0 01.643
0 11.499
0 21.356
0 31.212
0 41J069
0 50.925
1 00.782
1 10.638
10
mi
U
0 01.807
0 11.663
0 21.520
0 31.376
0 41.233
0 51.089
1 00.946
1 10.802
11
X)30
12
0 01.971
0 11.828
0 21.684
0 31M\
0 41.397
0 51.254
1 01.110
1 10.967
12
.033
13
0 02.136
0 11.992
0 21.849
0 31.705
0 41.561
0 51418
1 01.274
1 11.131
13
J03B
14
0 02.300
0 12.156
0 22.013
0 31.869
0 41.726
0 51.582
1 01439
1 11.295
14
.038
15
0 02.464
0 12.321
0 22.177
0 32.034
0 41.890
0 51.746
1 01.603
1 11459
15
.041
16
0 02.628
0 12.485
0 22.341
0 32.198
0 42U)54
0 51.911
1 01.767
1 11.624
16
J044
17
0 02.793
0 12.649
0 22.506
0 32.362
0 42.219
0 52.075
1 01.932
1 11.788
17
.047
18
0 02.957
0 12.813
0 22.670
0 32.526
0 42.383
0 52.239
1 02.096
1 11.952
18
XH9
19
0 03.121
0 12.978
0 22.834
0 32.691
0 42.547
0 52.404
1 02.260
1 12.117
19
.052
20
0 03.285
0 13.142
0 22.998
0 32.855
0 42.711
0 52Ji68
1 02424
1 12.281
20
.055
21
0 03.450
0 13.306
0 23.163
0 33.019
0 42.876
0 52.732
1 02.589
1 12445
21
.057
22
0 03.614
0 13.471
0 23.327
0 33.183
0 43.040
0 52.896
1 02.753
1 12.609
22
.060
23
0 03.778
0 13.635
0 23491
0 33348
0 43.204
0 53.061
1 02.917
1 12.774
23
.063
24
0 03.943
0 13.799
0 23.656
0 33.512
0 43.368
0 53.225
1 03.081
1 12.938
24
.066
25
0 04.107
0 13.963
0 23.820
0 33.676
0 43.533
0 53.389
1 03.246
1 13.102
25
.068
26
0 04.271
0 14.128
0 23.984
0 33.841
0 43.697
0 53.554
I 03410
1 13.266
26
.071
27
0 04.435
0 14.292
0 24.148
0 34.005
0 43.861
0 53.718
1 03.574
1 13431
27
J074
28
0 04.600
0 14.456
0 24.313
0 34.169
0 44.026
0 53.882
1 03.739
1 13.595
28
.077
29
0 04.764
0 14.620
0 24477
0 34.333
0 44.190
0 54.046
1 03.903
1 13.759
29
.079
30
0 04.928
0 14.785
0 24.641
0 34498
0 44.354
0 54.211
1 04X)67
1 13.924
30
.082
31
0 05.093
0 14.949
0 24.805
0 34.662
0 44.518
0 54.375
1 04.231
1 14.088
31
.085
32
0 05.257
0 15.113
0 24.970
0 34.826
0 44.683
0 54.539
1 04.396
1 14.252
32
.088
33
0 05.421
0 15.278
0 25.134
0 34.990
0 44.847
0 54.703
1 04.560
1 14416
33
.090
34
0 05.585
0 15.442
0 25.298
0 35.155
0 45.011
0 54.868
1 04.724
1 14.581
34
.093
35
0 05.750
0 15.606
0 25463
0 35.319
0 45.176
0 55.032
1 04.888
1 14.745
35
.096
36
0 05.914
0 15.770
0 25.627
0 35483
0 45.340
0 55.196
1 05X)53
1 14.909
36
.099
37
0 06.078
0 15.935
0 25.791
0 35.648
0 45.504
0 55.361
1 05.217
1 15.073
37
.101
38
0 06.242
0 16.099
0 25.955
0 35.812
0 45.668
0 55.525
1 05.381
1 15.238
38
.104
39
0 06.407
0 16.263
0 26.120
0 35.976
0 45.833
0 55.689
1 05.546
1 15402
39
.107
40
0 06.571
0 16.427
0 26.284
0 36.140
0 45.997
0 55.853
1 05.710
1 15.566
40
.110
41
0 06.735
0 16.592
0 26448
0 86.305
0 46.161
0 56X)18
1 05.874
1 15.731
41
.112
42
0 06.900
0 16.756
0 26.612
0 36469
0 46.325
0 56.182
1 06.038
1 15.895
42
.115
43
0 07.064
0 16.920
0 26.777
0 36.633
0 46.490
0 56.346
1 06.203
1 16.059
43
.118
44
0 07^828
0 17.085
0 26.941
0 36.798
0 46.654
0 56.510
1 06.367
1 16.223
44
.120
45
0 07.392
0 17.249
0 27.105
0 36.962
0 46.818
0 56.675
1 06.531
1 16.388
45
.123
46
0 07.557
0 17413
0 27.270
0 37.126
0 46.983
0 56.839
1 06.695
1 16.552
46
.126
47
0 07.721
0 17.577
0 27434
0 37.290
0 47.147
0 57.003
1 06.860
1 16.716
47
.129
48
0 07.885
0 17.742
0 27.598
0 37.465
0 47.311
0 57.168
1 07.024
1 16.881
48
.131
49
0 08X)49
0 17.906
0 27.762
0 37.619
0 47.475
0 57.332
1 07.188
1 17.045
49
.134
50
0 08.214
0 18.070
0 27.927
0 37.783
0 47.640
0 57.496
1 07.353
1 17.209
50
.137
51
0 08.378
0 18.234
0 28.091
0 37.947
0 47.804
0 57.660
1 07.517
1 17.373
51
.140
52
0 08.542
0 18.399
0 28.255
0 38.112
0 47.968
0 57.825
1 07.681
1 17.538
52
.142
53
0 08.707
0 18.563
0 28420
0 38.276
0 48.132
0 57.989
1 07.845
1 17.702
53
.145
54
0 08.871
0 18.727
0 28.584
0 38.440
0 48.297
0 58.153
1 08.010
1 17.866
54
.148
55
0 09.035
0 18.892
0 28.748
0 38.605
0 48461
0 58.317
1 08.174
1 18.030
55
.151
56
0 09.199
0 19.056
0 28.912
0 38.769
0 48.625
0 58482
1 08.338
1 18.195
56
.153
57
0 09.364
0 19.220
0 29.077
0 38.933
0 48.790
0 58.646
1 08.502
1 18.359
57
.156
58
0 09.528
0 19.384
0 29.241
0 39.097
0 48.954
0 58.810
1 08.667
1 18.523
58
159
II 'i
0 09.692
0 19M9
0 29405
0 39.262
0 49.118
0 58.975
1 08.831
1 18.688
59
.162
67
TABLE IV. MEM SOLAR INTO SIDEREAL TIME.
Mean
Solar.
8»^
9"^
10 »^
11*^
12»^
13 "^
14 h.
15 »^
,. 1
SaeoiKk.
o'
m. •.
1 18.852
m. a.
1 28.708
1 38^65
7*48.421
l" 58.278
2 08.134
2 17.991
2 27.847
•.
..
1
1 19.016
1 28.873
1 88.729
t 48^85
1 58.442
3 08.298
2 18.155
2 28.011
1
0X)03
2
1 19.180
1 29.037
1 38.893
1 48.750
1 58.606
2 08.463
2 18.319
2 28.176
2
.005
3
1 19.345
1 29.201
1 39.058
t 48.914
1 68.771
2 08.627
2 18.483
2 28J)40
3
X»S
4
I 19.509
1 29^65
1 89JJ22
1 49.078
1 58.935
2 08.791
2 18.648
2 28.504
4
JOll
5
1 19.673
I 29.530
1 39.386
1 49.243
1 59.099
2 08.956
2 18.812
2 28.668
5
.014
6
1 19.837
1 29.694
1 39.550
I 49.407
1 59.263
2 09.120
2 18.976
2 28.833
6
me
7
1 20.002
1 29.858
1 39.715
1 49.571
I 59.428
2 09.284
2 19.141
2 28.997
7
X)19
8
1 20.166
1 30.022
1 39.879
1 49.735
I 59.592
2 09.448
2 19U)05
2 29.161
8
.022
9
1 20.330
1 30.187
1 40.043
I 49.900
1 59.756
2 09.613
2 19469
2 29.326
9
.025
10
1 20.495
I 30.351
1 40.207
1 50.064
1 59.920
2 09.777
2 19.633
2 29490
10
X«7
11
1 20659
I 30J515
I 40.372
1 50.228
2 00.085
2 09.941
2 19.798
2 29.654
11
J090
12
1 20.823
1 30.680
1 40.536
1 50.393
2 00.249
2 10.105
2 19.962
2 29.818
12
J033
13
1 20.987
1 30.844
I 40.700
1 50.557
2 00.413
2 10.270
2 20.126
2 29.983
13
X>36
14
1 21.152
1 31.008
I 40.865
1 50.721
2 00 578
2 10.434
2 20.290
2 30.147
14
J03S
15
I 21.316
1 31.172
1 41.029
1 50.885
2 00.742
2 10.598
2 20455
2 30.311
15
XHl
16
1 21.480
1 31.337
1 41.193
1 51.050
2 00.906
2 10.763
2 20.619
2 30476
16
XH4
17
I 21.644
1 31.501
1 41.357
1 51.214
2 01.070
2 10.927
2 20.783
2 30.640
17
XH7
18
I 21.809
1 31.665
I 41.522
1 51.378
2 01.235
2 11.091
2 20.948
2 30.804
18
XH9
19
1 21.973
1 31.829
1 41.686
1 51.542
2 01.399
2 11.255
2 21.112
2 80.968
19
J052
20
I 22.137
1 31.994
1 41.850
1 51.707
2 01.563
2 11.420
2 21.276
2 31.133
20
.05ft
21
1 22.302
1 32.158
1 42.015
1 51 871
2 01.727
2 11.584
2 21.440
2 31.297
21
J057
22
1 22 466
1 32.322
I 42.179
I 52.035
2 01.892
2 11748
2 21.605
2 31461
22
xm
23
1 22.6.30
1 32.487
1 42J343
1 52.200
2 02.056
2 11.912
2 21.769
2 31.625
23
joes
24
1 22.794
1 32.651
1 42.507
1 52.364
2 02.220
2 12.077
2 21.933
2 31.790
24
j066
25
1 22.959
1 32.815
1 42.672
1 52.528
2 02.385
2 12.241
2 22.098
2 31.954
25
.068
26
1 23.123
1 32.979
1 42.836
1 52.692
2 02.549
2 12405
2 22.262
2 32.118
26
i)71
27
1 23.287
1 33.144
1 43000
1 52.857
2 02.713
2 12.570
2 22426
2 32.283
27
JOlA
28
1 23.451
1 33J508
1 43.164
1 53.021
2 02.877
2 12.734
2 22.590
2 32.447
28
J077
29
1 23.616
1 33.472
1 43.329
1 53.185
2 03.042
2 12.898
2 22.755
2 32.611
29
J079
30
1 23.780
1 33.637
1 43.493
I 53.349
2 03JM)6
8 13.062
2 22.919
2 32.775
30
.082
31
1 23.944
1 33.801
1 43.657
1 53.514
2 03.370
2 13.227
2 23.083
2 32.940
31
JDSb
32
1 24.109
1 33.965
1 43.822
1 53.678
2 03.534
2 13.391
8 23.247
2 33.104
32
.088
33
1 24.273
1 34.129
1 43.986
1 53.842
2 03.699
2 13.555
2 23412
2 33.268
33
J090
34
1 24.437
1 34.294
I 44.150
1 54.007
2 03.863
2 13.720
2 23.576
2 83.432
34
Xi93
35
1 24.601
I 34.458
1 44.314
1 54.171
2 04.027
8 13.884
2 23.740
2 33Ji97
35
.096
36
1 24.766
1 34.622
1 44.479
1 54.335
2 04.192
2 14.048
8 23.905
8 33.761
36
.099
37
1 24.930
1 34.786
1 44.643
1 54.499
2 04.356
2 14.212
2 24.069
2 83.925
37
.101
38
1 25.094
1 34.951
I 44.807
1 54.664
2 04J520
2 14.377
8 24.233
2 34.090
38
.104
39
1 25.259
I 35.115
1 44.971
1 54.828
2 04.684
2 14.541
2 24.397
2 34.254
39
.107
40
1 25.423
1 35.279
1 45.136
1 54.992
2 04.849
2 14.705
2 24.562
2 34418
40
.110
41
1 25.587
1 35444
1 45.300
1 55.156
2 05.013
2 14.869
2 24.726
2 34.582
41
.112
42
1 25.751
1 35.608
1 45.464
1 55.321
2 05.177
2 15.034
2 24.890
2 34.747
42
.115
43
1 25.916
1 35.772
1 45.629
I 55.485
2 05.342
2 15.198
2 25.054
2 34.911
43
.118
44
1 26.080
1 35.936
1 45.798
1 55.649
2 05J>06
2 15.362
2 25.219
8 S5X)75
44
.120
45
1 26.244
1 36.101
1 45.957
1 55.814
2 05.670
2 15.527
8 25.3^3
2 35.239
45
.133
46
1 26.408
1 36.265
1 46.121
I 55 978
2 05.834
2 15.691
8 25.547
2 35404
46
.196
47
1 26.573
I 36.429
1 46.286
I 56.142
2 05.999
2 15.855
8 25.712
2 35.568
47
.199
48
1 26.737
1 36.593
1 46.450
I 56.306
2 06.163
2 16.019
2 25.876
2 35.732
48
.131
49
1 26.901
1 36.758
1 46.614
1 56.471
2 06 327
2 16.184
2 26.040
2 35.897
49
.134
50
1 27.066
1 36.922
1 46.778
1 56.635
2 06.491
2 16.348
2 26.204
2 36.061
50
.137
51
1 27.230
1 37.086
1 46.943
1 56.799
2 06.656 2 16.512' 2 26JJ69; 2 36.2251
51
.140
52
1 27-394
1 37.251
1 47.107
1 56.964
2 06.820! 2 16.676
2 26Ji33 2 36iJ89
52
.149
53
I 27.558
1 37415
1 47.271
I 57.128
2 06.984
2 16.841
2 26.697; 2 36.554
53
.145
54
I 27.723
1 37.579
1 47436
1 57.292
2 07.149
2 17.005
2 26.861 2 36.718
54
.148
55
1 27.887
1 37.743
1 47.600
I 57456
2 07.313
3 17.169
2 27.026
2 36.882
55
.151
56
I 28.051
1 37.908
I 47.764
1 57.621
2 07.477
9 17J)34
8 87.190
2 37.047
56
.153
57
1 28 215
I 38.072
1 47.928
1 57.785
2 07.641
2 17.498
2 27.354
2 37.211
57
.156
58
1-28-380
I 38.236
I 48.093
1 57.949
2 07.806
2 17.662
2 27JS19
2 37.375
58
.159
59
I 28.544
1 38.400
1 48.257
1 58.113
2 07.970
S 17.826
2 27.683
3 37.539
59
....
58
TABLE IV. MEAN SOLAR INTO SIDEREAL TIME.
Mea»
Solar.
16^
l^h.
18»>-
19*^
20 '^
2V
22»^
23*'
For
Seconda.
in. •.
m. a.
m ■
m. ■.
m. >■
m. ■.
m. «.
a. ■.
0
2 37.704
2 47.560
2 87417
3 07.273
8 17.129
3 26.986
3 36.842
3 46.699
■.
•.
1
2 37.868
2 47.724
2 57.581
3 07437
3 17.294
3 27.150
3 37.007
8 46.863
1
0J0O3
2
2 38.032
2 47.889
2 57.745
3 07.602
3 17.458
3 27.315
3 37.171
3 47.027
2
.005
3
2 38.196
2 48.053
2 57.909
3 07.766
3 17.622
3 27479
3 37.335
3 47.192
3
.008
4
2 38.361
2 48.217
2 58.074
3 07.930
3 17.787
3 27.643
3 37.500
3 47.356
4
.011
5
2 38.525
2 48.381
2 58.238
3 08.094
3 17.951
3 27.807
3 37.664
3 47.520
5
.014
6
2 38.689
2 48.546
2 58.402
3 08.259
3 18.115
3 27.972
3 37.828
3 47.685
6
.016
7
2 38.854
2 48.710
2 58.566
3 08423
3 18.279
3 28.136
3 37.992
3 47.849
7
.019
8
2 39.018
2 48.874
2 58.731
3 08.587
3 18.444
3 28.300
3 38.157
3 48.013
8
.022
9
2 39.182
2 49.039
2 58.895
3 08.751
3 18.608
8 28464
3 38.321
3 48.177
9
.025
10
2 39.346
2 49.203
2 59.059
3 08.916
3 18.772
3 28.629
3 38485
3 48.342
10
.027
11
2 39.511
2 49.367
2 59J224
3 09.080
3 18.937
3 28.793
3 38.649
3 48.506
11
.030
12
2 39.675
2 49.531
2 59.388
3 09.244
3 19.101
3 28.957
3 38.814
3 48.670
12
.033
13
2 39.839
2 49.696
2 59.552
3 09.409
3 19.265
3 29.122
3 38.978
3 48.834
13
.036
14
2 40.003
2 49.860
2 59.716
8 09.573
3 19.429
3 29.286
3 39.142
3 48.999
14
.038
15
2 40.168
2 50.024
2 59.881
3 09.737
3 19.594
3 29450
3 39.307
3 49.163
15
.041
16
2 40.332
2 50.188
3 00.045
3 09.901
3 19.758
3 29.614
3 39471
3 49.327
16
.044
17
2 40.496
2 50.353
3 00.209
3 10.066
3 19.922
3 29.779
3 39.635
3 49492
17
.047
18
2 40.661
2 50.517
3 00-373
3 10.230
3 20.086
3 29.943
3 39.799
3 49.656
18
.049
19
2 40.825
2 50.681
3 00.538
3 10.394
3 20.251
3 30.107
3 39:964
3 49.820
19
.052
20
2 40.989
2 50.846
3 00.702
3 10.559
3 20415
3 30.271
3 40.128
3 49.984
20
.055
21
2 41.153
2 51.010
3 00.866
3 10.723
3 20.579
3 30.436
3 40.292
3 50.149
21
.057
22
2 41.318
2 51.174
3 01.031
3 10.887
3 20.744
8 30.600
3 40.456
3 50.313
22
.060
23
2 41482
2 51.338
3 01.195
3 11.051
3 20.908
3 30.764
3 40.621
3 50477
23
.063
24
2 41.646
2 51.503
3 01.359
3 11J216
3 21.072
3 30.929
3 40.785
3 50.642
24
.066
25
2 41.810
2 51.667
3 01.523
3 11J380
3 21.236
3 31.093
3 40.949
3 50.806
25
.068
26
2 41.975
2 51.831
3 01.688
3 11.544
3 21401
3 31.257
3 41.114
3 50.970
26
.071
27
2 42.139
2 51.995
3 01.852
3 11.708
3 21.565
3 31.421
3 41J278
3 51.134
27
.074
28
2 42.303
2 52.160
3 02.016
3 11.873
3 21.729
3 31.586
3 41442
3 51.299
28
.077
29
2 42.468
2 52J324
3 02.181
3 12.037
3 21.893
3 31.750
3 41.606
3 51463
29
.079
30
2 42.632
2 52.488
3 02.345
3 12.201
3 22.058
3 31.914
3 41.771
3 51.627
30
.082
31
2 42.796
2 52.653
3 02.509
3 12.366
3 22.222
3 32.078
3 41.935
3 51.791
31
.085
32
2 42.960
2 52.817
3 02.673
3 12.530
3 22.386
3 32.243
3 42.099
3 51.956
32
.088
33
2 43.125
2 52.981
3 02.838
3 12.694
3 22.551
3 32.407
3 42.264
3 52.120
33
.090
34
2 43.289
2 53.145
3 03.002
3 12.858
3 22.715
3 32.571
3 42428
8 52.284
34
.093
35
2 43453
2 53.310
3 03.166
3 13.023
3 22.879
3 32.736
3 42.592
3 52.449
35
.096
36
2 43.617
2 53.474
3 03J330
3 13.187
3 23X)43
3 32.900
3 42.756
3 52.613
86
.099
37
2 43.782
2 53.638
3 03.495
3 13.351
3 23.208
3 33.064
3 42.921
3 52.777
37
.101
38
2 43.946
2 53.803
3 03.659
3 13.515
3 23.372
3 33.228
3 43.085
3 52.941
38
.104
39
2 44.110
2 53.967
3 03.823
3 13.680
3 23.536
3 33.393
3 43.249
3 53.106
39
.107
40
2 44.275
2 54.131
3 03.988
3 13.844
3 23.700
3 33.557
3 43413
3 53.270
40
.110
41
2 44.439
2 54.295
3 04.152
3 14.008
3 23.865
3 33.721
3 43.578
3 53434
41
.112
42
2 44.603
2 54.460
3 04.316
3 14.173
3 24.029
3 33.886
3 43.742
3 53.598
42
.115
43
2 44.767
2 54.624
3 04.480
3 14.337
3 24.193
3 34.050
3 43.906
3 53.763
43
.118
44
2 44.932
2 54.788
3 04.645
3 14.501
3 24.358
3 34J214
3 44.071
3 53.927
44
.120
45
2 45.096
2 54.952
3 04.809
3 14.665
3 24J^22
3 34 378
3 44.235
3 54.091
45
.123
46
2 45.260
2 55.117
3 04.973
3 14.830
3 24.686
3 34.543
3 44.399
3 54.256
46
.126
47
2 45.425
2 55.281
3 05.137
3 14.994
3 24.850
3 34.707
3 44.563
3 54420
47
.129
48
2 45.589
2 55.445
3 05.302
3 15.158
3 25.015
3 34.871
3 44.728
3 54.584
48
.131
49
2 45.753
2 55.610
3 05.466
3 15.322
3 '25.179
3 35.035
3 44.892
3 54.748
49
.134
50
2 45,917
2 55.774
3 05.630
3 15.487
3 25.343
3 35.200
3 45.056
3 54.913
50
.137
51
2 46.082
2 55.938
3 05.795
3 15.651
3 25.508
3 35.364
3 45J220
3 55.077
51
.140
52
2 46.246
2 56.102
3 05.959
3 15.815
3 25.672
3 35.528
3 45.385
3 55.241
52
.142
53
2 46.410
2 56.267
3 06.123
3 15.980
3 25.836
3 35.693
3 45.549
3 55405
53
.145
54
2 46.574
2 56.431
8 06.287
3 16.144
3 26i)00
3 35.857
3 45.713
3 55.570
54
.148
55
2 46.739
2 56.595
3 06452
3 16J308
3 26.165
3 36X)21
3 45.878
3 55.734
55
.151
56
2 46.903
2 56.759
3 06.616
3 16472
3 26.329
3 36.185
3 46.042
3 55.898
56
.153
57
2 47.067
2 56.924
3 06.780
3 16.637
3 26493
3 36.350
3 46.206
3 56.063
57
.156
58
2 47.232
2 57.088
3 06.944
3 16.801
3 26.657
8 36.514
3 46.370
3 56 227
5g
159
59
2 47.396
2 57^252' 3 07.109
3 16.965
3 26.822
3 36.678
8 46.535
3 56.391
59
.162
59
EPHEMERIS OF NEPTUNE
FOR
18 5 4
71 61
NEPTUNE 1854.
Vor WMhiagton 8id«raAl Noon Md MarldisB Tmri*.
Ifwn Solar Time
of
Marldian Tnaitt.
nde-
Date.
Appttrenl Right Aaoendon.
AppttrentDeeliiiAtioii.
Log. of Motion in
ft SUJeraal Minute.
Log of Factor
'h.m.
At Sid. Oh.
AtTnne.
AtSicLOh.
AtTruis.
InRJL.
In Deo.
InB.A.
In Deo.
d.
h. m. ■.
m. 8.
O 1 N
1 ti
Jan. 1
4 8.0
1
22 52 50.36
52 50.14
- 810384
10 34.8
+7.537
+8.341
2
4 4.2
2
22 52 55.37
52 55.14
810 1.5
10 2.9
7.546
8.350
3
4 0.3
3
22 53 0.49
53 0.26
8 9 28.9
9 304
7.555
8.359
4
3 56.5
4
22 53 5.72
53 548
8 8 55.7
8 57.2
7 564
8367
5
3 52.6
5
22 5311X)4
53 10.80
8 821.8
8 234
7.673
8.375
6
3 48.7
6
22 53 16.47
5316.23
8 7 47.4
749.0
7 681
8.383
7
3 44.9
7
22 53 22.00
53 21.76
8 712.4
714.0
7.589
8^90
8
3 41.0
8
22 53 27.63
53 27.38
8 6 36.8
638.5
7.596
8.397
9
3 37.2
9
22 53 33.36
53 33.10
8 6 0.6
6 24
7.603
8404
i
10
3 33.4
10
22 53 39.18
53 38.91
8 5 23.9
5 25.7
7.610
8410
H
U
3 29.6
11
22 53 45.10
53 44.82
8 446.6
4484
7.617
8416
11
12
3 25.8
12
22 53 51.11
53 50.82
8 4 8.8
410.6
7.623
8422
13
3 21.9
13
22 53 57.21
53 56.92
8 3 30.5
832.3
7.630
8428
14
318.1
14
22 54 3.39
54 3.10
8 2 51.6
2 534
7.637
8434
15
314.2
15
22 54 9.66
54 9.37
8 212.2
214.0
7.643
8440
16
310.4
16
22 54 16.02
54 15.73
8 132.2
134.0
7.649
8446
17
3 6.6
17
22 54 22.47
54 22.18
8 0 51.7
0 53.5
7.655
8452
18
3 2.8
18
22 54 29.01
54 28.71
8 010.7
012.5
7.660
8457
19
2 59.0
19
22 54 35.63
54 35J32
7 59 29.2
59 31.1
7665
8462
20
2 55.2
20
22 54 42.33
54 42.02
7 58 47.3
58 49.2
7.670
8467
21
2 51.3
21
22 54 49.11
54 48.80
7 58 4.9
58 6.8
7.675
8472
22
2 47.5
22
22 54 55.96
54 55.65
7 57 22.0
57 23.9
7.680
8477
23
2 43.7
23
22 55 2.89
55 2.58
7 56 38.7
56 40.6
7.685
8.481
24
2 39.9
24
22 55 9.90
55 9.59
7 55 54.9
55 56.8
7.689
8485
25
2 36.1
25
22 5516.99
5516.67
7 55 10.7
55 12.6
7.694
8489
26
2 32.3
26
22 55 24.14
55 23.82
7 54 26.1
54 28.0
7.699
8493
27
2 28.5
27
22.55 31.36
55 31.04
7 53 41.1
53 43.0
7.703
8497
28
2 24.7
28
22 55 38.65
55 38.33
7 52 55.7
52 57.6
7.707
8.501
29
2 20.9
29
22 55 46.01
5545.69
7 52.9.9
52 11.8
7.711
8.505
30
2 17.1
30
22 55 53.43
55 53.11
7 51 23.7
51 25.7
7.715
8.508
31
213.3
31
22 56 0.92
56 0.59
7 5037.1
50 39.2
7.718
8.511
Feb. 1
2 9.5
32
22 56 8.46
56 8.13
7 49 50.1
49 52.3
7.721
8.514
2
2 5.7
33
22 5616.06
5615.73
7 49 2.8
49 5.1
7.724
8.517
3
2 1.9
34
22 56 23.72
56 23.38
7 4815.2
4817.5
7.727
8.520
4
158.1
35
22 56 31.43
56 31.09
7 47 27.3
47 29.6
7.730
8.523
5
154.3
36
22 56 39.19
56 38.85
7 46 39.2
46 414
7.733
8.526
6
150.5
37
22 5647.01
5646.66
745 50.8
45 53.0
7.736
8.529
7
146.7
38
22.56 54.87
56 54.52
745 2.1
45 4.3
7.739
8.531
8
142.9
39
22 57 2.78
57 2.43
74413.1
4415.3
7.741
8 533
9
139.1
40
22 57 10.73
57 10J3S
743 23.8
43 26.0
7.743
8.535
10
135.3
41
22 57 18.73
57 18.38
74234.3
42 36.5
7.746
8.537
11
131.5
42
22 57 26.77
57 26.42
7 41 44.6
41 46.8
7.748
8.539
12
127.7
43
22 57 34.85
57 34.50
7 40 54.6
40 56.8
7.750
8.541
13
123.9
44
22 57 42.97
57 42.61
740 4.4
40 6.6
7.752
8.543
14
120.1
45
22 57 51.13
57 50.76
7 3914.0
39 16.2
7.754
8.545
15
1 16.3
46
22 57 59.32
57 58.95
7 38 23.4
38 25.6
7 756
8.547
16
1 12.5
47
22 58 7.54
58 7.17
7 37 32.6
37 34.8
7.758
8.548
17
1 8.7
48
22 5815.79
5815.42
73641.7
36 43.9
7.759
8.549
18
1 4.9
49
22 58 24.07
58 23.70
7 35 50.6
35 52.8
7.761
8 550
19
1 l.l
50
22 5832.38
5832.01
7 34 59.4
35 1.6
7.762
8.551
1 20
0 57.3
51
22 58 40.71
5840.35
7 34 8.0
34 10.3
7.763
8.552
21
0.53.5
52
22 5849.06
5848.71
7 3316.5
33 18.8
7.764
8.553
22
0 49.7
53
22.58 57.44
58 57.08
7 32 25.0
32 27.2
7.765
8.554
23
0 4.5.9
54
22 59 5.83
59 5.47
7 31 33.4
31 35.5
7.766
8.555
24
0 42.1
55
22 5914.24
5913.88
7 30 41.6
30 43.7
7.767
8..556
25
0383
56
22 59 22.67
59 22.31
7 29 49.8
29 51.9
7 768
8.556
26
0 34.5
57
22 5931.11
59 30.75
7 28 57.9
29 0.0
7.768
8 556
27
0 30.7
58
22 59 39.56
59 39.20
7 28 5.9
28 8.1
7.768
8J156
28
0 26.9
59
22 59 48^2
59 47.66
7 27 13.9
27 16.1
7.769
8 557
Mar. 1
0 23.2
60
22 59 56.49
59 56.14
7 26 21.9
26 24.1
7.769
8.557
2
0 19.4
61
23 0 4.96
0 4.63
- 7 25 29.9
25 32.1
+7769
+8.557
Note. — I he Transits occur on the Sidereal Day preceding tlie cue for which thpy are glTen.
63
NEPTUNE 1854.
Wot WMhinstam Stdaml Noon and IfaMlMi TtsiMlL
IfwnftHarTlmo
of
MoidiuiTniult.
fflde-
nftl
Date.
ApponniBlglK
.AK«-.«.
Loff.onfottoiilB
ftBldmollllmito.
hm ctWmBtar
forSMond !»•■.
At Bid. Oh.
AtTzmiu.
At Sid. Oh.
AtTlBM.
InRJL.
IbDoo.
IbEJL
In Dm.
d. h. m.
h.
m. s.
m. ■.
-?2'4 3-7.9
1 N
Htf. 3 015.6
62
23
013.44
013.11
24 40.1
+7.770
+8.558
4 011.8
63
23
0 21.92
0 21.59
7 2345.9
23 48.1
7.770
8.558
5 0 8.0
64
23
030.39
030.06
7 22 53.9
22 56.1
7.770
8.558
6 0 4.3
65
23
0 38.86
038.53
7 22 1.9
22 4.2
7 770
8 557
7 0 0.5
66
23
047.33
046.99
7 21 10.0
2112.3
7.769
8.657
7 23 56.7
67
23
0 55.79
0 55.45
7 2018.1
20 20.4
7.769
8.556
8 23 52.9
68
23
1 4.25
1 3.90
719 26.4
19 28.6
7.768
8.555
9 23 49.1
69
23
I 12.70
112.34
71834.7
18 36.9
7.768
8.554
10 23 45.3
70
23
1 21.14
120.77
717 43.2
17 45.3
7.767
8.553
II
U 23 41.5
71
23
l29Ji6
129.19
716 51.7
16 53.9
7.767
8.552
1
12 23 37.7
72
23
1 37.96
1 37.59
716 0.4
16 2.6
7.766
8.551
II
13 23 33.9
73
23
146.34
1 45.98
715 9.2
1511.4
7.765
8.550
14 23 30.1
74
23
1 54.70
1 54.35
7 14 18.2
14 20.3
7.764
8.549
15 23 26.3
75
23
2 3.04
2 2.70
718 27.3
13 29.4
7.763
8.548
16 23 22.5
76
23
211.36
211.02
7 12 36.6
1238.7
7.761
8.546
17 2318.7
77
23
2 19.65
219.32
71146.1
1148.1
7.760
8.545
18 23 14.9
78
23
2 27.92
2 27.59
710 55.8
10 67.8
7.759
8.543
19 2311.1
79
23
2 36.16
235.84
710 5.6
10 7.6
7.758
8.541
20 23 7.3
80
23
2 44J37
244.06
7 9 15.6
9 17.6
7757
8539
21 23 3.5
81
23
2 52.55
2 52 24
7 8 25.8
8 27.8
7.755
8.538
22 22 59.7
82
23
3 0.70
3 0.39
7 7 36.3
7 38.2
7.753
8.536
23 22 55.9
83
23
3 8.81
3 8.51
7 6 47.0
6 48.9
7.751
8534
1
24 22 52.1
84
23
3 16.89
316.59
7 5 57.9
5 59.8
7.749
8.532
25 2248.3
85
23
3 24.93
3 24.63
7 6 9.1
5 11.0
7.746
8.529
26 2244.5
86
23
3 32.93
3 32.63
7 4 20.6
4 22.5
7.744
8.527
27 22 40.7
87
23
3 40.89
340.59
7 3 32.4
3 34.2
7.742
8.524
28 2236.9
88
23
3 48.80
3 48.50
7 244.5
2 46.2
7.739
8.521
29 2233.1
89
23
3 56.67
3 56.37
7 156.9
158.6
7.736
8.518
30 22 29.3
90
23
4 4.49
4 4.18
-7- 1 9.6
1 11.3
7.733
8.515
31 22 25.5
91
23
412.25
4 11.95
7 0 22.7
0 24.4
7.730
8.512
Apr. 1 22 21.7
92
23
419.96
4 19.66
6 59 36.1
59 37.8
7.727
8509
•
2 22 17.9
93
23
4 27.61
4 27.32
6 58 49.9
58 51.6
7.723
8.505
3 22 14.1
94
23
4 35.20
4 34.92
6 58 4.0
58 5.8
7.720
8.502
4 22 10.3
95
23
4 42.74
4 42.47
6 57 18.5
57 20.3
7717
8.498
5 22 6.5
96
23
4 50.22
4 49.96
6 56 33.4
56 35.2
7.714
8.494
6 22 2.7
97
23
4 57.64
4 57.39
6 55 48.7
55 50.5
7.711
8.490
7 21 58.9
98
23
5 5.01
5 4.76
6 55 4.4
55 6.2
7.707
8.486
8 21 55.1
99
23
5 12.31
5 12.06
6 54 20.5
54 22.3
7.703
8.482
9 21 51.3
100
23
5 19.55
519.30
6 53 37.0
53 38.8
7.699
8.478
10 21 47.5
101
23
5 26.73
5 26.48
6 52 54.0
52 55.7
7.695
8.473
11 2143.7
102
23
533.84
5 33.59
6 52 11.4
52 13.1
7.691
8.469
12 21 39.9
103
23
5 40.88
5 40.63
6 51 29.2
51 30.9
7.687
8.464
13 21 36.1
104
23
5 47.85
5 47.60
6 5047.5
50 49.2
7.683
8.459
14 21 32.2
105
23
5 54.75
5 54^0
6 50 6.3
50 7.9
7.678
8.454
15 21 28.4
106
23
6 1.58
6 1.33
649 25.6
49 27.1
7.673
8.449
16 21 24.6
107
23
6 8.33
6 8.08
6 48 45.3
48 46.8
7 668
8.444
17 2120.8
108
23
615.00
6 14.76
6 48 5.5
48 7.0
7.663
8.439
18 21 16.9
109
23
6 21.60
621.36
647 26.2
47 27.7
7 658
8.433
19 21 13.1
110
23
6 28.12
6 27.88
6 4647.4
46 48.9
7.653
8.427
20 21 9.3
111
23
634.56
634.32
6 46 9.1
46 10.6
7.648
8.421
21 21 5.5
112
23
640.92
640.68
6 45 31.4
45 32.9
7.642
8.415
T2 21 1.7
113
23
647.19
6 46.96
6 44 54.2
44 55.7
7.636
8.408
23 20 57.8
114
23
6 53J38
6 53.15
644 17.6
44 19.0
7.630
8.402
24 20 54.0
115
23
6 59.48
6 59.26
64341.5
43 42.9
7.624
8.396
25 20 50.2
116
23
7 5.50
7 5.28
6 43 6.0
43 7.4
7.618
8.389
26 2046.3
117
23
711.43
711.22
644131.1
42 32.4
7 612
8.382
27 20425
118
23
7 17.27
7 17.07
6 4156.7
41 58.0
7.605
8374
28 2038.7
119
23
7 23.02
7 22.82
6 4122.9
41 24.2
7.598
8.366
29 20 34.8
120
23
7 28.68
7 28.48
6 40 49.7
40 51.0
7.591
8 358
M 20 31.0
121
23
734.24
7 34.05
6 4017.1
40 18.4
7 583
8.350
U^ 1 20 27.1
122
23
7 39.71
739.52
- 6 39 45.2
39 46.4
+7 575
+ 8J41
Non. — TtM TniMltfl occur on the Sidtnal D«y pnoeding th« one for whkb they to
NEPTUNE, 1854.
Vor Washington Bidmeal Noon and Meridian Transit.
of
MMdiaa Tkmnalt.
Side-
x«al
Appareat Right AMenston.
ApparaitDedination.
Log. of Motion in
a Sidereal Minute.
Log of rhetor
Date.
.. ._
At Sid. Ob.
At Trans.
At Sid. Oh.
At Trans.
InR^
In Dec.
InR^
In Dec.
d. h. m.
h.
m. 8.
m. 8.
O 1 u
1 M
MV 2 2028^
123
23
7 45.08
744.89
- 6 39 13.9
39 15.1
+7.567
+8332
3 2019Ji
124
23
7 50.35
7 60.16
638 43.2
38 44.4
7.559
8.323
4 20 15.6
125
23
7 55.52
7 55.34
6 3813.2
38 14.3
7.551
8.314
5 2011.8
126
23
8 0.59
8 0.41
6 37 43.8
37 44.9
7.543
8.305
6 20 7.9
127
23
8 5.56
8 5.39
63715.0
37 16.1
7.534
8.296
7 20 4.1
128
23
810^
8 10.26
636 46.9
36 47.9
7.525
8.286
8 20 0.2
129
23
815.21
815.04
63619.4
36 20.4
7.516
8.276
9 19 56.4
130
23
8 19.88
8 19.72
635 52.6
35 53.6
7.507
8.265
10 19 52.5
131
23
8 24.45
8 24.29
6 85 26.4
35 27.4
7.497
8.254
11 19 48.6
132
23
8 28.92
8 28.76
6 35 0.9
35 1.8
7.487
8.243
12 19 44.7
133
23
833.28
833.12
634 36.1
34 36.9
7.476
8.231
13 19 40.9
134
23
837.53
837.38
63411.9
34 12.6
7^465
8.219
14 1937.0
135
23
841.68
841.53
6 33 48.4
33 49.0
7454
8.206
15 19 33.2
136
23
845.72
845.58
633 25.6
33 26.2
7.442
8.193
16 19 29.3
187
23
849.65
849.51
633 3.5
33 4.1
7.430
8.179
17 19 25.5
138
23
853.47
8 53.34
63242.1
32 42.7
7.418
8.165
18 19 21.6
139
23
8 57.18
857.05
632 21.4
32 22.0
7.405
8.150
19 19 17.7
140
23
9 0.78
9 0.66
6 32 1.4
32 2.0
7.392
8.134
20 19 13.8
141
23
9 4.27
9 4.15
63142.1
31 42.8
7.378
8.118
21 1910.0
142
23
9 7.65
9 7.53
63123.6
3124.3
7.363
8.101
22 19 6.1
143
23
9 10.91
9 10.79
6 31 5.8
31 6.5
7.347
8.084
23 19 2.3
144
23
9 14.06
9 13.94
6 3048.7
3049.5
7.331
8.065
24 18 58.4
145
23
917.09
916.98
63032.4
30 33.2
7.314
8.046
25 18 54.5
146
23
9 20.00
919.90
63016.8
30 17.6
7.297
8.026
26 18 50.6
147
23
9 22.80
9 22.70
630 1.9
30 2.7
7.280
8.004
27 1846.7
148
23
9 25.48
9 25.39
6 29 47.8
20 48.5
7.262
7.981
28 18 42.8
149
23
9 28.05
9 27.96
6 29 34.4
29 3.'5.1
7.242
7.956
29 18 38.9
150
23
9 30.50
9 30.41
6 29 21.8
29 22.4
7.221
7.930
SO 18 35.0
151
23
9 32.83
9 32.75
6 29 9.9
29 10.5
7.198
7.902
31 1831.1
152
23
935.05
934.97
6 28 58.8
28 59.3
7.175
7.873
Jnn» 1 18 27.2
153
23
9 37.14
9 87.07
6 28 48.4
28 48.9
7.150
7.842
2 18 23J3
154
23
9 39.11
9 39.04
6 2838.8
28 39.2
7.123
7.807
3 1819.4
155
23
9 40.96
9 40.90
6 28 29.9
28 30.3
7.095
7.770
4 18 15.5
156
23
9 42.70
9 42.64
6 28 21.8
28 22.1
7.064
7.730
5 1811.6
157
23
9 44.31
9 44.26
6 2814.4
28 14.7
7.032
7.685
6 18 7.7
158
23
9 45.80
945.75
6 28 7.8
28 8.1
6.998
7.636
7 18 3.8
159
23
9 47.17
947.13
6 28 2.0
28 2.2
6.960
7.580
8 17 59.9
160
23
9 48.42
9 48.39
6 27 56.9
27 57.1
6.919
7.516
9 17 56.0
161
23
9 49.56
949.53
6 27 52.5
27 52.7
6.874
7441
10 17 62.0
162
23
9 50.57
9 50.55
6 27 48.9
27 49.1
6.822
7.850
11 17 48.1
163
23
9 51.47
9 51.45
6 27 46.0
27 46.2
6.762
7.235
12 17 44.2
164
23
9 52.25
9 52.23
6 27 43.9
27 44.1
6.693
7.078
13 17 40.2
165
23
9 52.90
9 62.89
6 27 42.6
27 42.7
6.613
6.831
14 17 36.3
166
23
9 53.43
9 53.48
6 27 42.0
27 42.1
6.514
+6.194
15 17 32.4
167
23
9 53.84
9 53.85
6 27 42.2
27 42.2
6.386
-6.582
16 17 28.5
168
23
9 54.13
9 54.14
6 27 43.1
27 43.1
6.203
6.964
17 17 24.5
169
23
9 54.31
9 54.32
6 27 44.8
27 44.8
+5.893
7.164
18 17 20.6
170
23
9 54.36
9 54.38
6 27 47.3
27 47.2
-4.717
7.296
19 17 16.7
171
23
9 54.30
9 54.32
6 27 50.5
27 50.3
5.947
7.398
20 17 12.8
172
23
9 54.11
9 54.13
6 27 54.4
27 54.2
6.235
7.480
21 17 8.8
173
23
9 53.81
9 53.83
6 27 59.1
27 58.9
6.404
7.549
22 17 4.9
174
23
9 53.38
9 53.41
6 28 4.5
28 4.3
6.527
7.609
23 17 1.0
175
23
9 52.84
9 52.87
6 2810.7
28 10.5
6.622
7.660
24 16 57.0
176
28
9 52.18
9 52.21
6 28 17.6
2817.4
6.699
7.706
25 16 53.1
177
23
9 51.40
9 51.43
6 28 25.2
28 2.'5.0
6.765
7.747
26 16 49.2
178
23
9 50.50
9 50.53
6 28 33.6
28 33.3
6.823
7.785
27 16 45.2
179
23
9 49.48
9 49.52
6 28 42.7
28 42.4
6.874
7.819
28 1641.3
180
23
9 48.35
9 48.39
6 28 52.6
28 52.2
6.919
7.851
29 16 37.3
181
23
9 47.10
9 47.14
6 29 3.2
29 2.8
6.960
7 881
30 16 33.4
182
23
9 45.73
9 45.78
6 2914.5
29 14.1
6.995
7.908
July 1 16 29.4' 183
23
9 44.25
9 44.30
- 6 29 26.5
29 26.1
-7.028
-7.933
NoTB. — The Transits occur on the Sidereal Day precedhig the cme for whteh they aie gtren.
65
NEPTUNE, 1854.
For Wuhlngton SMcxMl Noon and Ifaridkn TnuMU.
Man Soli
of
Mflridian
a Tlste
Tnodt.
h. m.
Slde-
Date.
Apparent Right Asoenikm.
Log.ofUotkmln
LofforiMor
At Sid. Oh.
AtTnmB.
At Sid. Oh.
AtXxans.
InRJL.
In Dm.
InRJL
In Dm.
d.
h. m. s.
m. f.
O f II
1 II
July 2
16 25.5 184
23 9 42.65
942.71
- 6 29 39.2
29 38.8
-7.059
-7.957
3
1621.5' 185
23 9 40.94
941.01
6 29 52.6
29 52.2
7.088
7.980
4
161 7.6 1 186
23 939.12
9 39.19
6 30 6.7
30 6.2
7.115
BJOOl
5
16 13.6 187
23 937.18
9 37.26
6 30 21.5
30 20.9
7.140
8.021
6
16 9.6 188
23 9 35.14
9 35.22
630 36.9
3036.3
7.165
8.040
7
16 5.6, 189
23 9 32.98
9 33.07
6 30 53.0
30 52.4
7.187
8.058
8
16 1.6
190
23 9 30.71
9 30.81
631 9.8
31 9.2
7.209
8.075
9
15 57.7
191
23 9 28.33
9 28.44
68127.2
31 26.7
7.230
8.091
10
15 53.7
192
23 9 25.85
9 25.96
63145.3
3144.8
7.247
8.107
11
15 49.7
193
23 9 23.26
9 23.38
632 4.1
32 3.5
7.264
8.122
12
15 45.7
194
23 9 20.57
9 20.69
6 32 23.5
32 22.9
7.280
8.136
13
1541.7
195
23 917.77
917.89
632 43.5
32 42.9
7.295
8.150
14
15 37.8
196
23 914.87
9 14.99
633 4.2
33 3.5
7.310
8.163
15
15 33.8
197
23 911.87
911.99
6 33 25.5
33 24.8
74J25
8.176
16
15 29.8
198
23 9 8.77
9 8.89
6 33 47.4
33 46.7
7.340
8.188
17
15 25.8
199
23 9 5.57
9 5.68
634 9.9
34 9.2
7.354
8.200
18
15 21.8
200
23 9 2.27
9 2.37
6 34 33.1
34 32.3
7 367
8.211
19
15 17.8
201
23 8 58.86
8 58.97
6 34 56.8
34 56.0
7.380
8.222
20 15 13.8
202
23 8 55.35
8 55.47
6 35 21.1
35 20.3
7.392
8.232
21
15 9.8
203
23 8 51.75
8 51.87
635 46.0
35 45.2
7 404
8.24S
22
15 5.8
204
23 8 48.05
848.18
6 3611.5
36 10.6
7.415
8.252
23
15 1.8
205
23 844.26
844.39
6 36 37.5
36 36.6
7.426
8.261
24
14 57.8
206
23 8 40.37
8 40.51
6 37 4.1
37 3.2
7.436
8.270
25
14 53.8 207
23 8 36.39
836.54
6 37 31.2
37 30.3
7.446
8.279
1
26
14 49.8 208
23 8 32.33
8 52.48
6 37 58.8
37 57.9
7.455
8 287
1
27
14 45.8 209
23 8 28.18
8 28.34
6 38 27.0
38 26.1
7.464
8.295
28
1441.8 210
23 8 23.95
8 24.11
6 38 55.7
38 54.8
7.473
8.303
29
14 37.8' 211
23 819.63
819.80
6 39 24.9
39 23.9
7.481
8.310
30
14 33.8 212
23 8 15.23
8 15.40
6 39 54.6
39 53.5
7.489
8J17
31
14 29.8,213
23 810.75
810.92
6 40 24.7
40 23.6
7.497
8.324
Aug. I
14 25.8 214
23 8 6.19
8 6.36
6 40 55.3
40 54.2
7.505
8-330
2
14 21.8 215
23 8 1.56
8 1.72
6 4126.4
41 25.2
7.512
8.336
3
14 17.8 216
23 7 5C.85
7 57.01
6 4157.9
41 56.6
7.519
8.342
4
14 13.8 217
23 7 52.06
7 52.23
6 42 29.8
42 28.5
7.525
8.348
5
14 9.7,218
23 7 47.20
7 47.38
6 43 2.1
43 0.8
7.531
8.354
1
6
14 5.7,219
23 7 42.27
7 42.45
6 43 34.8
43 33.5
7.537
8J359
1
14 1.7 1 220
23 7 37.28
7 37.46
6 44 7.9
44 6.6
7.543
8.364
8
18 57.7 221
23 7 32.22
7 32.40
64441.4
44 40.1
7.548
8369
9
13 53.7 222
23 7 27.10
7 27.28
6 45 15.2
45 14.0
7.554
8JJ74
10
13 49.7 223
23 7 21.91
7 22.09
6 45 49.4
45 48.2
7.560
8.378
11
13 45.7 224
23 7 16.66
716.84
6 46 23.9
46 22.7
7.565
8.383
12
13 41.6 225
23 7 11.35
7 11.53
6 46 58.8
46 57.6
7.570
8.387
13
13 37.6 226
23 7 5.97
7 6.16
647 34.0
47 32.8
7.575
8.391
14
13 33.6 1 227
23 7 0.54
7 0.74
6 48 9.5
48 8.3
7.579
8.394
15
13 29.6 228
23 6 55.0G
6 55.26
6 48 45.3
48 44.1
7.583
8.398
16
13 25.6 229
23 6 49..'i3
6 49.73
6 49 21.4
49 20.2
7.587
8401
17
13 21.6 230
23 6 43.95
6 44.15
6 49 57.8
49 56.5
7.591
8.404
18
13 17.5 231
23 6 38.32
6 38.52
6 50 34.5
50 33.1
7.594
8.407
19
13 13.5 232
23 6 32.64
6 32.85
651 11.4
51 10.0
7.598
8.410
20
13 9.5 233
23 6 26.92
6 27.13
6 5148.5
51 47.1
7.601
8.412
21
13 5.5 234
23 6 21.16
6 21.37
6 52 2.'i.8
52 24.4
7.604
8.415
22
13 1.5 235
23 6 15.36
615.57
6 53 3.3
53 1.9
7.607
8.417
23
12 57.4 236
23 6 9.52
6 9.74
6 53 41.0
53 39.6
7.610
8.419
24
12 53.4 237
23 6 3.64
6 3.87
6 54 18.9
54 17.5
7.612
8.421
•
25
12 49.41 238
23 5.57.73
5 57.96
6 54 57.0
54 55.5
7.614
8.423
■
26
12 45.3 239
23 5 51.80
5 52.03
6 55 35.2
55 33.7
7.616
8.424
27
1241.3 240
23 5 45.84
5 46.07
6 56 13.5
5612.0
7.618
8.425*
28
12 37.3 241
23 5 39.85
5 40.09
6 56 51.9
56 50.4
7.620
8.426 1
29
12 33.2 242
23 5.33.84
5 34.08
6 57 30.4
57 28.9
7.622
8 427i
30
12 29,2 243
23 5 27.81
5 28.05
6 58 9.0
58 7.5
7.624
8.42S' I
31
12 25 2 244
23 5 21.76
5 22.01
- 6 58 47.6
58 46.1
-7.625
-8.429'
I
—
-1^— ^~_j
Note - - J In- Trnii-ltt occur on the Sidertal I)aj prpreding the on© X(ft whkU Ihej are
66
NEPTUNE, 1854.
UMnflttkr Time
of
Bfaridian Tkmnalt.
Side-
nel
Date.
Appaient Bighl
Log. of Motion in
A Sidereal Minute.
Log of Factor
for Second mit%
AiStd.Oh.
AtTnae.
At Sid. Oh.
AtTimns.
InBJL.
In Deo.
InB.A.
InJhc.
<L h. m.
h.
m. f.
m. B.
O 1 II
/ H
8«^t. 1 12 21.1
245
23
515.70
5 15.95
-6 59 26.3
59 24.8
-7.626
-8.429
2 1217.1
246
23
5 9.63
6 9.87
7 0 5.0
0 3.5
7.626
8.430
3 1213.1
247
23
5 3.55
5 3.79
7 043.8
0 42.2
7.626
8.430
4 12 9.0
248
23
4 57.46
4 57.70
7 122.6
121.0
7.627
8.430
5 12 5.0
249
23
4 51.36
4 61.60
7 2 1.3
159.8
7.627
8.430
6 12 1.0
250
23
4 45.26
445.50
7 2 40.1
2 38.6
7.627
8.430
7 1156.9
251
23
4 39.15
4 39J39
7 318.8
317.3
7.627
8.429
8 11 52.9
252
23
4 33.04
4 33.28
7 3 57.5
3 56.0
7.627
8.429
9 1148.8
253
23
4 26.93
4 27.17
7 4 36.1
4 34.6
7.627
8.428
10 1144.8
254
23
4 20.83
4 21X>7
7 514.7
513.2
7.627
8.427
11 1140.8
255
23
414.73
4 14.97
7 5 53.1
5 51.7
7.626
8.426
12 1136.7
256
23
4 8.64
4 8.88
7 6 31.5
630.0
7.626
8.425
13 1132.7
257
23
4 2.56
4 2.81
7 7 9.7
7 8.2
7.625
8.423
14 1128.7
258
23
3 56i>0
3 56.75
7 7 47.8
746.3
7.624
8.422
15 1124.6
259
23
3 50.45
3 50.70
7 8 25.8
8 24.3
7.623
8.420
16 11 20.6
260
23
344.42
344.67
7 9 3.6
9 2.1
7.622
8.418
17 11 16.6
261
23
338.41
3 38.66
7 9 41.2
9 39.7
7.620
8.416
18 11 12.5
262
23
3 32.43
3 32.67
71018.6
10 17.2
7.618
8.414
19 11 8.5
263
23
3 26.47
3 26.71
710 55.8
10 54.4
7.616
8.411
20 11 4.5
264
23
3 20.54
3 20.78
7 11 32.8
11 31:4
7.614
8.408
21 11 0.4
265
23
3 14.65
314.88
712 9.6
12 8.2
7.611
8.405
22 10 56.4
266
23
3 8.79
3 9.01
712 46.1
12 44.7
7.609
8.402
1
23 10 52.4
267
23
3 2.96
3 3.18
713 22.3
13 21.0
7.606
8.399
1
24 1048.3
268
23
2 57.17
2 57.39
7 13 58.3
13 57.0
7.603
8.396
1
25 1044.3
269
23
2 51.42
2 51.64
714 34.0
14 32.5
7.600
8.392
1
26 1040.3
270
23
245.71
245.93
715 9.4
15 7.9
7J&97
8.388
1
1
27 1036.3
271
23
2 40.05
240.27
715 44.4
15 42.9
7.593
8.384
1
28 1032.3
272
23
234.43
2 34.66
716 19.1
16 17.6
7.589
8.380
29 10 28.2
273
23
2 28.87
2 29.09
716 53.5
16 52.0
7.585
8.376
30 10 24.2
274
23
2 23.36
2 23.57
717 27.5
17 26.0
7.581
8.371
Cot 1 10 20.2
275
23
217.90
2 18.11
718 1.1
17 59.7
7.577
8.366
2 1016.2
276
23
2 12.49
2 12.71
718 34.3
1832.9
7.572
8.360
3 1012.2
277
23
2 7.15
2 7.36
719 7.1
19 5.7
7.567
8.354
4 10 8.2
278
23
2 1.87
2 2.07
719 39.5
19 38.1
7iJ62
8.348
5 10 4.1
279
23
1 56.65
156.85
7 2011.4
20 10.0
7ii57
8.342
6 10 0.1
280
23
15M9
151.69
7 20 42.9
2041.5
7J152
8.336
7 9 66.1
281
23
146.39
146.59
7 21 13.9
21 12.6
7.546
8.330
8 9 52.1
282
23
141.36
141.55
7 21 44.5
21 43.2
7.540
8.324
9 9 48.1
283
23
136.40
136.59
7 22 14.6
2213.3
7.533
8.317
10 944.1
284
23
1 31.51
1 31.70
7 22 44.2
22 42.9
7.527
8.310
U 940.1
285
23
1 26.70
1 26.89
7 23 13.4
2312.1
7.520
8.303
12 9 36.1
286
23
1 21.97
122.15
7 23 42.1
23 40.8
7.513
8.295
13 9 32.1
287
23
117.31
1 17.49
7 24 10.2
24 9.0
7.505
8.287
14 9 28.1
288
23
1 12.73
1 12.91
7 24 37.8
24 36.6
7.498
8.278
15 9 24.0
289
23
1 8.23
I 8.41
7 25 4.8
25 3.7
7.490
8.269
1
16 9 20.0
290
23
1 3.82
I 3.99
7 25 31.3
25 30.2
7.482
8.260
17 916.0
291
23
0 59.49
0 59.66
7 25 57.2
25 56.1
7.474
a250
18 912.0
292
23
0 55.25
0 55.42
7 26 22.5
26 21.4
7.465
8.240
19 9 8.0
293
23
051.09
0 51.26
7 26 47.2
26 46.2
7.456
a229
20 9 4.0
294
23
047.02
047.19
7 2711.3
27 10.4
7.446
8.219
21 9 0.0
295
23
043.05
043.22
7 27 84.8
27 34.0
7.436
8.208
22 8 56.0
296
23
039.17
039.34
7 27 57.7
27 56.9
7.425
8.196
23 8 52.0
297
23
0 35.40
035.56
7 28 20.0
2819.2
. 7.414
8.184
24 8 48.0
298
23
031.73
031.88
7 28 41.7
2840.9
7.401
ai7i
25 844.0
299
23
0 28.15
0 28.30
7 29 2.7
29 1.9
7.388
ai67
26 840.0
300
23
0 24.68
0 24.82
7 29 23.0
29 22.2
7.375
8.142
27 836.0
301
23
0 21.31
0 21.44
7 29 42.7
29 41.9
7.361
ai27
28 832.1
302
23
018.04
018.17
7 30 1.7
30 0.9
7.348
8.112
29 8 28.1
303
23
0 14.88
015.00
7 30 20.0
3019.2
7.834
8096
30 824.1
304
23
011.83
011.94
7 30 37.6
3036.9
7.319
ao78
31 8 20.1
305
23
0 8.88
0 8.99
- 730 54.5
30 53.9
-7.304
-8.060
Non. — The TraositB occur OD the Sidtnai Dey preceding the one fi>r which Vtmy are giftn.
67
NEPTUNE, 1854.
Vor WMhlDgton Sidaml Noon and IteMtaa TraoMlt.
Man Solar Tlm«
of
MMkUaa fbmiult.
Sid*-
nal
Date.
▲ppwrnil Bight AfleaMton.
Log. of Motion in
aSidorMlUinnttt.
Loff.oriM«ar
ftrSMondDW^.
h. m.
At Bid. Ob.
AtTmiw.
AtSkLOh.
AITranf.
InBJL
In Dm.
InEJL
In Dm.
d.
li.m. s.
m. t^
O 1 M
1 H
Nor. 1
816.1
306
23 0 6.03
0 6.15
- 7 31 10.8
31 10.2
-7.288
-8X)41
2
812.2
307
23 0 3.30
0 3.41
7 3126.4
3125.8
7J870
8.021
.
,_
3
8 8.2
308
23 0 0.68
0 0.79
7 3141.3
31 40.7
7.251
8.000
4
8 4.2
309
22 59 58.17
59 58.27
7 3155.4
3154.8
7.231
7.978
5
8 0.2
310
2259 55.78
59 55.86
7 32 8.8
32 8.2
7.211
7.955
6
7 56.8
311
22 59 53.50
59 53.57
7 3221.4
32 20.9
7.189
7.930
7
7 52.3
312
22 59 51.33
59 51.40
7 32 33.3
32 32.9
7.166
7.904
8
7 48.3
313
22 5949.28
59 49.35
7 3244.5
32 44.1
7.141
7.877
9
7 44.4
314
22 5947.35
59 4742
7 3255.0
32 54.6
7.115
7.846
10
7 40.4
315
22 59 45.54
59 45.60
733 4.7
33 4.3
7J087
7.811
11
7 36.4
316
22 5943.84
59 43.90
7 3313.6
33 13.3
7.056
7.775
12
7 32.5
317
22 59 42.26
59 42.33
7 33 21.8
33 21.5
7.023
7.734
13
7 28J(
318
22 5940.80
59 40.88
7 33 29.2
33 28.9
6.985
7.688
14
724.6
319
22 5939.47
5939.55
7 33 35.8
33 35.6
6.945
7.637
15
7 20.6
320
22 5938.26
5938.34
7 33 41.7
3341.5
6900
7.580
16
716.7
321
22 5937.18
5937.25
733 46.8
33 46.6
6 849
7.514
17
712.7
322
22 5936.22
59 36.28
7 33 51.1
33 50.9
6.792
7435
18
7 8.8
323
22 5935.39
59 35.44
7 33 54.6
33 54.4
6.727
7.336
19
7 4.8
324
22 5934.69
5934.73
733 57.3
33 57.2
6.649
7.208
20
7 0.9
325
22 5934.11
5934.14
7 33 59.2
33 59.2
6.556
7.025
21
6 56.9
326
22 5933.66
5933.68
7 34 0.4
34 0.4
6.433
-6.717
22
6 53.0
327
225933.33
5933.35
734 0.8
34 0.8
6.261
+5.541
23
649.0
328
22 59 33.13
5933.14
734 0.3
34 0.4
5.972
6.771
24
645.1
329
22 5933.06
59 33.06
7 33 59.1
33 59.2
-4.717
7.059
25
641.1
330
22 5933.12
5933.11
733 57.1
33 57.2
+5.921
7.231
26
637.2
331
22 5933.30
5933.29
733 54.3
33 54.4
6.240
7.353
27
633.3
332
22 59 33.62
59 33.60
733 50.7
33 50.8
6421
7449
28
629.4
333
22 59 34.06
5934.04
7 33 46.3
3346.4
6.547
7.527
29
6 25.4
334
22 5934.63
59 34.60
733 41.0
33 41.2
6.646
7.594
30
6 21.5
335
22 59 35.33
5935.29
73334.9
33 35.2
6.725
7.649
Dm. 1
617.6
336
22 5936.16
5936.11
7 33 28.1
33 28.4
6.793
7.700
2
613.7
337
22 59 37.11
59 37.06
733 20.5
33 20.8
6.851
7.745
3
6 9.8
338
22 59 38.19
5938.14
7 3312.1
3312.4
6.902
7.786
4
6 5.9
339
22 5939.40
5939.34
733 2.9
33 3.2
6.948
7.823
5
6 2.0
340
22 59 40.74
5940.67
7 32 52.9
32 53.3
6.989
7.858
6
5 58.1
341
22 59 42.20
59 42.13
732 42.1
32 42.6
7.027
7.889
7
5 54.2
342
22 59 43.80
59 43.72
73230.6
32 31.1
7.061
7.918
8
5 50.3
343
22 5945.52
59 45.44
73218.3
32 18.8
7X)93
7.946
9
5 46.4
344
22 5947.37
59 47Ji8
732 5.2
32 5.7
7.122
7.972
10
5 42.5
345
22 59 49.34
5949.25
73151.3
31 51.9
7.149
7.997
11
538.6
346
22 59 5144
59 51.35
73136.6
3137.3
7.175
SJ090
12
5 34.7
347
22 59 53.66
59 53.57
73121.1
31 21.9
7.200
8.042
13
530.8
348
22 59 56.01
59 55.92
731 4.9
31 5.7
7.223
a063
14
5 26.9
349
22 59 58.49
59 58.39
73047.9
3048.7
7.246
8X)82
15
5 23.0
350
23 0 1.10
0 0.99
7 3030.1
3030.9
7.268
8.100
16
519.1
351
23 0 3.83
0 3.72
73011.6
80124
7.288
8.118
17
515.2
352
23 0 6.68
0 6.57
7 29 52.3
29 53.1
7.307
8.135
»
18
511.4
353
23 0 9.66
0 9.54
729 32.2
2933.1
7.325
8.152
19
5 7A
854
23 012.76
012.63
7 29114
2912J)
7Ai2
8.168
20
5 3.6
355
23 015.98
015.85
72849.8
28 50.8
7.358
8.188
21
4 59.7
356
23 019.33
019.19
728 27.5
28 28.5
7.374
8.197
22
4 55.9
357
23 0 22.80
0 22.65
7 28 4.5
28 5.5
7.389
8.211
23
4 52.0
358
23 026.39
0 26.23
7 27 40.7
27 41.8
7.403
8.224
24
448.1
359
23 030.09
0 29.93
7 27 16.2
27174
7417
8.237
25
444.2
360
23 033.91
033.75
7 26 51.0
26 52.2
7430
8.249
26
4 40.4
361
23 037.85
087.68
7 26 25.1
26 26.3
7443
8.261
27
4 36.5
362
23 041.90
041.73
7 25 58Ji
25 59.7
7455
8.272
28
432.6
363
23 0 46.07
0 45.90
7 25 31.2' 25 32.4
7467
a283
29
4 28.7
364
23 0 50.35
0 50.18
7 25 3.2 25 4.4
7479
8.293
80
424.9
365
23 0 54.75
0 54.57
7 24 34.6 1 24 35.8
7490
8.303
31
4 21.1
366
23 0 59.26
0 59.07
- 7 24 5.3 24 6.5
+7.501
+8.313
Non — Tbe Tnuialta occur on the Sidfrtal Day prMvding Um one for wbirh tbtj art gWoi.
68