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SCIENCE CENTER LIBRARY
7 •»
THE
0
AMERICAN EPHEMERIS
NAUTICAL ALMANAC
FOB THE YKAR
18 84
FIRST EDITION
published or oomplunom wm a joint resolution or ma roRrrstxta conormsb
WASHINGTON
BUREAU OP NAVIGATION
1681
MAY 8 1683
JOINT RESOLUTION
FOR PRINTING THE AMERICAN EPHEMERIS AND NAUTICAL ALMANAC.
Resolved by the Senate and House of Representatives of the United States of America in Congress assembled,
That there shall be printed annually at the Government Printing Office fifteen hundred copies of the American
Ephemeris and Nautical Almanac and of the papers supplementary thereto, of which one hundred shall be for the
use of the Senate, four hundred for the House of Representatives, and one thousand for the public service f to be
distributed by the Navy Department
Sec, 2. That additional copies of the Ephemeris and of the Nautical Almanac extracted therefrom may be
ordered by the Secretary of the Navy for sale: Provided, That all moneys received from such sale shall be
deposited in the Treasury to the credit of the appropriation for public printing.
Approved, February II, iSSo.
BPH 8t*»It
PREFACE.
The contents of the present volume of The American Ephemeris are, in
general, similar to those of the volume for the preceding year- Beginning
with the volume for the year 1882, the arrangement of the work is as
follows: —
Part I, Ephemeris for the Meridian of Greenwich, gives the positions of
the major planets, and other fundamental astronomical data for equidistant
intervals of Greenwich mean time.
Part II, Ephemeris for the Meridian of Washington, gives principally
ephemerides of the fixed stars, sun, moon, and major planets for transit over
the meridian of Washington. The mean places of the fixed stars and data
for their reduction are also included in this part. The list of mean places
of fixed stars has been greatly enlarged, for the convenience of field-as-
tronomers.
Part III, Phenomena^ contains predictions of phenomena to be observed,
with data for their computation. Washington mean time is used in this
part except in a few cases, notably that of eclipses, where Greenwich mean
time was judged more convenient The additions comprise more complete
data for eclipses of the sun, diagrams showing the configurations of the
satellites of Jupiter, data respecting the disks of Mercury and Venus for the
reduction of meridian and photometric observations, and diagrams, with
tables, for identifying any known satellites of other planets. .
SIMON NEWCOMB,
Professor U. S. JVoopy, Superintendent,
Washington, June 20, 1881.
EPH 84 — in
CONTENTS.
Corrections . . , vi
Chronological Eras and Cycles • • • . vii
Symbols and Abbreviations . viii
PART I-EPHEMERIS FOR THE MERIDIAN OF GREENWICH. . B^Jonth
Ephemeria of the Sun ...... ( . 1 — IH
Ephemeri8 of the Moon IV— XII
Phases of the Moon * . XII
Lunar Distances XIII— XVIII
Geocentric Ephemerides of the Planets Mercury, Venus, Mars, Jupiter, Saturn, Uranus, Neptune • 218
Heliocentric Ephemerides of the Planets Mercury, Venus, Mars, Jupiter, Saturn, Uranus, Neptune • 350
Sun's Co-ordinates 364
Moon's Longitude and Latitude .* . 272
Moon's Equator and Libration 276
Obliquity of the Ecliptic, Equation of Equinoxes,- Precession, etc . 278
PART II— EPHEMERIS FOR THE MERIDIAN OF WASHINGTON
Hkssu's Formula? for Star-Reductions • 280
Resselian Star-Numbers, A, B, C, D 281
Inde|>endent Star-Numbers, /, g, h, etc. 285
Mean Places of Standard Stars for 1884.0 293
Apparent Places of Four Circum polar Stars . . • . . . • • • 302
Apparent Places of Other Standard Stars 314
Ephemeris of the Sun • 365
Moon-Culminations .*.... 373
Transit-Ephemerides of the Planets Mercury, Venus, Mars, Jupiter, Saturn, Uranus, Neptune . 381
PART III— PHENOMENA.
Eclipses 400
Moon's Phases, Apogee, Perigee, and Greatest Libration 405
Elements for the Prediction of Occultations 406
Dowwes's Table for Facilitating the Prediction of Occultations ....... 430
Occultations Visible at Washington 432
Disk of Mercury 436
Disk of Venus . 437
Satellites and Disk of Mars 438
Satellites of Jupiter 439
Satellites of Saturn 462
Rings of Saturn 465
Satellites of Uranus 466
Satellite of Neptune 467
Phenomena, Planetary Constellations . 468
Positions of Observatories 470
On the Arrangement and Use of The American Ephemeria and Nautical Almanac . • • 473
APPENDIX.
On the Construction of The American Ephemeria and Nautical Almanac for 1884 ... 497
TABLES.
Table I. — Correction of Lunar Distances for Second Differences in Moon's Motion*
Table II. — Reduction of Sidereal to Mean Solar Time.
Table III. — Reduction of Mean £olar to Sidereal Time,
Table IV.— Latitude by Observation of the Altitude of Polaris.
EPH 84 — V
CORRECTIONS.
EPHEMERIS FOB 1882 (fiest and second editions).
. {Continued from page vr of the second edition of the Ephenteris for 1882.)
Page 479, the conjunctions and elongations of Japetus should read as follow: —
{East Elongation
Inferior Conjunction . .
West Elongation • . • •
Superior Conjunction .
January 1
January 21
February 10
March 3
June 11
July 1
July 23
August 12
August 31
September 20
October 10
October 30
November 18
December 8
December 27
512, fine ten,
512, line eleven,
for q+p
for Q — P
read 180°— Q — P
read 1800— q + P
. EPHEMERIS FOR 1883 (first edition).
(Continued from page vi of the first edition of the Ephemeris for 1883.)
Page 299, 6 Ane, 17b 20m, Declination,
301, 74 Cygni, 21* 32% Ann. Var. R. A.,
301, A Sculptoris, 23b 42", Declination,
380, December 32, R. A. of centre,
. 465, the conjunctions and elongations of Japetus should read as follow: —
M
65°
rtad
60°
for
7-.4010
rtad
2-.4010
M
58°
read
28°
M
42-.14
read
44*.14
( Superior Conjunction . .
JAPETUS^ East Elongation . . . .
j Inferior Conj unction . .
1 West Elongation ....
January 16
February 6
February '26
June 9
June 29
July 19
August 8
August 28
September 16
October 6
October 26
-November 15
December 4
December 23
474, line three, -
495, line nine from bottom,
498, line ten,
498, line eleven,
for 356*
for sin <p
for q + p
for Q-P
read 365*
read cos (p
read 180°— Q — P
read 180°— Q + P
EPH 84 — VI
CHRONOLOGICAL ERAS AND CYCLES.
CHRONOLOGICAL ERAS.
THE TEAR 1884, WHICH COMPRISES THE LATTER PART OP THE 106TH AND THE BEGINNING
OF THE lOOfH YEAR OF THE INDEPENDENCE OF THE UNITED STATES OF AMERICA,
CORRESPONDS TO—
Hie year 6597 of the Julian Period ; .
M 7393-93 of the Byzantine era, the year 7393 commencing on September 1st;
" 5644-45 of the Jewish era, the year 5645 commencing on September 20th, or, more
exactly, at sunset on September 19th;
" 2637 since the foundation of Rome, according to Varro;
" 2631 since the beginning of the era of Naboivassar, which has been assigned to
Wednesday, the 26th of February of the 3967th year of the Julian Period:
corresponding, in the notation of chronologists, to the 747th; and, iu the notation
of astronomers, to the 746th year before the birth of Christ;
" 2660 of the Olympiads, or the fourth year of the 665th Olympiad commencing in July,
1884, if we fa. the era of the Olympiads at 7754 years before Christ, or near
the beginning of July of the year 3938 of the Julian Period ;
" 2196 of the Grecian era, or the era of the Seleucide ;
" 1600 of the era of Diocletian.
The year 1302 of the Mohammedan era, or the era of the Hegira, begins on the 21st day of
October, 1884.
The first day of January of the year 1884 is the 2,409,177th day since the commencement of the
Julian Period.
CHRONOLOGICAL CYCLES.
Dominical Lettere F, E
Eprict 3
Lunar Cycle or Golden Number • . . 4
Solar Cycle . . ' i 17
Roman Indiction 12
Julian Period 6597
BPH 84— VII
SYMBOLS AND ABBREVIATIONS.
SIONS OF THE PLANETS, ETC.
0
C
9
e
The Sun.
The Moon.
Mercury.
Venus.
The Earth.
6*
h
Mars.
Jupiter.
Saturn.
Uranus.
Neptune.
Spring
Signs,
Summer
Signs. }
51
5.
SIGNS OF THE ZODIAC.
•f Aries,
y Taurus.
n Gemini.
So Cancer.
St Leo.
"195 Virgo.
Autumn ,
Signs.
Winter
Signs.
£b Libra.
*l Scorpius.
f Sagittarius.
\j Capricornus.
ZZ Aquarius.
X Pisces.
ASPECTS.
<J Conjunction, or having the same Longitude or Right Ascension.
D Quadrature, or differing 90° in Longitude or Right Ascension.
g Opposition, or differing 180° in Longitude or Right Ascension.
ABBREVIATIONS.
Q
Ascending Node.
o
Degrees.
8
Descending Node.
/
Minutes of Arc.
N.
North.
//
Seconds of Arc.
S.
South.
h
Hours.
E.
East
m
Minutes of Time.
W.
West.
■
Seconds of Time.
BPH 84— VIII
PA R T I
ASTRONOMICAL EPHEMEKIS
FOB TM
MERIDIAN OF GREENWICH
XPH 84—1—1
JANUARY, 1884.
AT GREENWICH APPARENT NOON.
I
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
W$d.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
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
THE SUN'S
Apparent
Right Ascension.
h m s
18 45 52.26
18 50 17.27
18 54 41.92
18 59 6.16
19 3 29.98
19 7 53.34
19 12 16.21
19 16 38.57
19 21 0.40
19 25 21.67
19 29 42.36
19 34 2.45
19 38 21.92
19 42 40.76
19 46 58.95
19 51 16.48
19 55 33.33
19 59 49.48
20 4 4.92
20 8 19.65
20 12 33.66
20 16 46.92
20 20 59.42
20 25 11.14
20 29 22.08
20 33 32.23
20 37 41.58
20 41
20 45
20 50
20 54
50.12
57.84
4.73
10.78
20 58 16.00
Diff. for
lHbux.
11.049
11.035
11.019
11.002
10.983
10.963
10.943
10.921
10.898
10.874
10.849
10.825
10.799
10.772
10.745
10.717
10.087
10.658
10.629
10.599
10.569
10.537
10.505
10.473
10.440
10.406
10.372
10.338
10.304
10.270
10.235
10.200
Apparent
Declination.
.23 1 58.4
22 56 54.1
22 51 22.3
22 45 23.4
22 38 57.4
22 32 4.5
22 24 44.9
22 16 58.9
22 8 46.7
22 0 8.4
21 51 4.4
21 41 34.9
21 31 40.2
21 21 20.5
21 10 36.2
20 59 27.5
20 47 54.5
20 35 57.8
20 23 37.7
20 10 54.5
19 57 48.5
19 44 20.2
19 30 29.9
19 16 17.8
19 1 44.4
18 46 50.1
18 31 .35.3
18 16
18 0
17 43 52.1
17 27 19.4
0.4
5.9
S. 17 10 28.2
Diff. for
1 Hour.
+12.10
13.25
14.39
+15.52
16.65
17.76
+18.87
19.97
21.06
+22.13
23.20
24.25
+25.29
26.33
27.35
+28.36
29.37
30.35
+31.32
32.27
33.21
+34.14
35.05
35.94
+36.82
37.69
38.53
+39.36
40.17
40.96
41.75
+42.50
Semi-
diameter.
16 18.37
16 18.37
16 18.37
16 18.37
16 18.36
16 18.34
16 18.32
16 18.30
16 18.27
16 18.23
16 18.19
16 18.14
16 18.08
16 18.02
16 17.96
16 17.88
16 17.80
16 17.72
16 17.62
16 17.52
16 17.42
16 17.32
16 17.21
16 17.10
16 16.98
16 16.86
16 16.74
Sidereal
Time of
Semi-
diameter
Passing
Meridian
16
16
16
16
16.61
16.48
16.35
16.21
16 16.07
71.09
71.05
71.00
70.95
70.89
70.83
70.76
70.69
70.62
70.54
70.47
70.40
70.31
70.22
70.13
70.04
69.94
69.84
69.73
69.63
69.53
69.42
69.31
69.20
69.09
68.98
68.87
68.76
68.65
68.53
68.41
68.30
Equation of
Time,
to be
Added to
Apparent
Time.
3 38.27
4 6.65
4 34.67
5 2.28
5 29.46
5 56.18
6 22.42
6 48.15
7 13.36
7 38.01
8 2.07
8 25.53
8 48.39
9 10.62
9 32.20
9 53.11
10 13.35
10 32.89
10 51.73
11 9.86
1127.26
1143.92
11 59.82
12 14.94
12 29.28
12 42.84
12 55.61
13 7.56
13 18.69
13 28.99
13 38.46
13 47.10
Diff. for
1 Hoar.
1.188
1.174
1.159
1.142
1.124
1.105
1.084
1.062
1.039
1.015
0.990
0.965
0.9J0
0.913 j
0.886 I
0.858
0.829
0.799
0.770
0.740
0.710
0.678
0.646
0.614
0.582
0.548
0.515
0.480
0.44C
0.412
0.377
0.343
Notk.— The mean time of semldiatneter passing may be found by subtracting 0s. 19 from tbo sidereal time.
The sign + prefixed to the hourly change of declination indicates that south declinations are decreasing.
II.
JANUARY, 1884.
AT GREE1TW1CH MEA2* KOOtf.
THE
SUN'S
1
1
p
1
o
Equation of
Time,
to be
Subtracted
from
Mean Time.
Diff for
1 Hour.
Sidereal
Time,
or
Right Ascension
of
Mean Son.
Apparent
Bight Ascension.
Diff for
IHaut.
Apparent
Declination.
Diff. for
lHoor.
Tues.
Wed.
Thur.
1
2
3
h m a
18 45 51.59
18 50 16.52
18 54 41.08
8
11.045
11.031
11016
S. 23 1 59.V
22 56 55.1
22 51 23.6
+ 12.09
13.24
14.38
m s
3 38.20
4 6.57
4 34.58
8
1.188
1.174
1.159
h m s
18 42 13.39
18 46 9.95
18 50 6.50
Frid.
Sat.
SUN.
4
5
6
18 59 5.24
19 3 28.98
19 7 52.25
10.999
10.980
10.960
22 45 24.8
22 38 59.0
22 32 6.3
+15.51
16.64
17.75
5 2.18
5 29.36
5 56.08
1.142
1.124
1.105
18 54 3.06
18 57 59.62
19 1 56.18
Mod.
Tues.
Wed.
7
8
9
19 12 15.05
19 16 37.33
19 20 59.08
10.940
10.918
10.895
22 24 47.0
22 17 1.2
22 8 49.2
+18.86
19.96
21.05
6 22.32
6 48.04
7 13.24
1.084
1.062
1.039
19 5 52.73
19 9 49.29
19 13 45.84
Thur.
Frid.
Sat.
10
11
12
19 25 20.28
19 29 40.90
19 34 0.92
10.871
10.846
10.822
22 0 11.2
21 51 7.5
21 41 38.3
+22.12
23.19
24.24
7 37.88
8 1.94
8 25.40
1.015
0.990
0.965
19 17 42.40
19 21 38.96
19 25 35.52
SUN
Mon.
Tues.
13
14
15
19 38 20.33
19 42 39.11
19 46 57.24
10.796
10.769
10.742
21 31 43.9
21 21 24.5
21 10 40.5
+25.29
26.33
27.35
8 48.26
9 10.48
9 32.06
0.940
0.913
0.886
19 29 32.07
19 33 28.63
19 37 25.18
Wed.
Thur.
Frid.
16
17
18
19 51 14.71
19 55 31.51
19 59 47.61
10.714
10.685
10.656
20 59 32.1
20 47 59.5
20 36 3.1
+28.36
29.36
30.34
9 52.97
10 13.21
10 32.75
0.858
0.829
0.799
19 41 21.74
19 45 18.30
19 49 14.86
Sat.
SUN
Mon.
19
20
21
20 4 3.00
20 8 17.68
20 12 31.64
10.627
10.597
10.567
20 23 43.3
20 11 0.4
19 57 54.8
+31.31
32.26
33.20
10 51.59
11 9.72
11 27.12
0.770
0.740
0.710
19 53 11.41
19 57 7.97
20 1 4.52
Tues.
Wed.
Thur.
22
23
24
20 16 44.86
20 20 57.32
20 25. 9 00
10.535
10.503
10.471
19 44 26.8
19 30 36.7
19 16 25.0
+34.13
35.04
35.93
11 43.78
11 59.68
12 14.81
0.678
0.646
0.614
20 5 1.08
20 8 57.63
20 12 54.19
Frid.
Sat.
SUN
25
26
27
20 29 19.91
20 33 30.03
20 37 39.35
10.438
10.405
10.371
19 1 51.9
18 46 58.0
18 31 43.6
+36.81
37.68
38.52
12 29.16
12 42.73
12 55.50
0.582
0.548
0.514
20 16 50.74
20 20 47.30
20 24 43.85
Mon.
Tues.
Wed.
Thur.
28
29
30
31
20 41 47.86
20 45 55.55
20 50 2.42
20 54 8.45
10.337
10.303
10.269
10.234
18 16 9.0
18 0 14.8
17 44 1.3
17 27 28.9
+39.35
40.16
40.95
41.73
13 7.45
13 18.59
13 28.90
13 38.38
0.480
0.446
0.412
0.377
20 28 40.41
20 32 36.96
20 36 33.52
20 40 30.07
Frid.
32
20 58 13.65
10.199
S. 17 10 38.0
+42.49
13 47.02
0.343
20 44 26.63
Note.— Th
Th
an
e semidiameter for i
e sign -f prefixed to
i decreasing.
neannoon
the hourl
may bo assumed the same as t
y change of declination indicate
hat for apparent
» that south doc
noon,
linatlona
Diff. for 1 Hour,
-f 9".8565
(Table ITX)
JANUARY, 1884.
III.
AT GREENWICH MEAN NOON.
i
1
THE SUN'S
1
1
Logarithm
of the
Badina Vector
of the
Earth.
DUE for
lHonr.
Mean Time
of
Sidereal Noon.
TRUE LONGITUDE.
Dift for
lHoor.
LATITUDE.
X
X1
1
2
3
1
2
3
28<k32 4&2
281 33 55.9
282 35 6.4
32 36.3
33 46.8
34 57.1
16&96*
152.94
153.93
+ 0.42
0.36
0.26
9.9926733
9.9926713
9.9926711
- 1.2
- 0.5
+ 0.3
h m a
5 16 54.54
5 12 58.63
5 9 2.72
4
5
6
4
5
6
283 36 16.7
284 37 26.5
285 38 35.8
36 7.2
37 16.9
38 26.1
159.93
152.90
152.88
+ 0.16
+ 0.05
-0.06
9.9926729
9.9926769
9.9926832
+ 1.2
2.1
3.1
5 5 6.81
5 1 10.90
4 57 14.99
7
8
9
7
8
9
286 3» 44.7
287 40 53.0
288 42 1.1
39 34.8
40 43.0
41 50.8
152.86
152.84
152.82
-0.19
0.32
0.43
9.9926919
9.9927030
9.9927167
+ 4.1
5.2
6.3
4 53 19.08
4 49 23.17
4 45 27.26
10
11
12
10
11
12
289 43 8.6
290 44 15.5
291 45 22.0
42 58.2
44 5.0
45 11.3
152.80
152.78
152.76
-0.53
0.58
0.62
9.9927332
9.9927523
9.9927742
+ 7.4
8.5.
9.7
4 41 31.35
4 37 35.44
4 33 39.53
13
14
15
13
14
15
292 46 28.0
293 47 33.7
294 48 39.0
46 17.1
47 22.6
48 27.8
152.74
152.72
152.71
-0.62
0.62
0.56
9.9927990
9.9928268
9.9928572
+ 10.9
12.1
13.2
4 29 43.62
4 25 47.71
4 21 51.80
16
17
18
16
17
18
295 49 44.0
296 50 48.6
297 51 53.0
49 32.7
50 37.2
51 41.3
162.70
152.68
152.66
-0.47
0.37
0.25
9.9928903
9.9929260
9.9929643
+ 14.3
15.4
16.5
4 17 55.89
4 13 59.98
4 10 4.07
19
20
21
19
20
21
298 52 56.9
299 54 0.3
300 55 3.4
52 45.1
53 48.5
54 51.4
152.65
152.64
152 62
-0.12
+ 0.02
0.15
9.9930049
9.9930480
9.9930931
+ 17.5
18.4
19.2
4 6 8.16
4 2 12.25
3 58 16.34
22
23
24
22
23
24
301 56 6.0
302 57 8.3
303 58 9.9
55 53.9
56 55.9
57 57.4
152.60
152.58
152.56
+ 0.28
0.39
0.49
9.9931402
9.9931891
9.9932397
+ 20.0
20.8
21.5
3 54 20.43
3 50 24 52
3 46 28.61
25
26
27
25
26
27
304 59 10.9
305 60 11.1
307 1 10.5
58 58.3
59 58.4
0 57.6
152.53
152.49
152.46
+ 0.55
0.59
0.60
9.9932920
9.9933457
9.9934010
+ 22.1
22.7
23.4
3 42 32.70
3 38 36.78
3 34 40.87
28
29
30
31
28
29
30
31
308 2 9.0
309 3 6.4
310 4 2.7
311 4 57.8
1 55.9
2 53.3
3 49.4
4 44.4
152.42
152.37
152.32
152.27
+ 0.57
0.52
0.43
0.34
9.9934576
9.9935158
9.9935753
9.9936362
+ 23.9
24.5
25.0
25.6
3 30 44.96
3 26 49.05
3 22 53.14
3 18 57.23
32
32
312 5 51.6
5 38.0
152.21
+ 0.22
9.9936986
+ 26.3
3 15 1.33
Nan
b.— The
the
numbers in oolumn
mean equinox of Jai
A correspond
unary 0*.0.
to the tru
e equinox of the date; in ooloi
nn A', to
Difll for 1 Hour,
— 9«.8296.
(Table IL)
IV.
JANUARY, 1884.
GREENWICH MEAN TIME.
i
THE
MOON'S
o
1
i
8EMIDIAMETBR.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGE.
Noon.
Midnight
Noon.
Diff. for
lHoor.
Midnight
Diff. for
1 Hoar.
Meridian of
Greenwich.
Diff. for
lHonr.
Noon.
l
2
3
15 30/7
15 38.6
15 46.6
15 34*6
15 42.6
15 50.5
56 48.7
57 17.9
57 47.1
u
+ 1.21
1.22
1.24
57 3^3
57 32.5
58 1.6
+ 1.22
1.22
1.21
h m
2 28.7
3 17.6
4 6.2
m
2.04
2.03
2.04
d
3.0
4.0
5.0
4
5
6
15 54.4
16 2.1
16 9.3
15 58.3
16 5.8
16 12.5
58 16.1
58 44.3
59 10.5
+ 1.20
1.14
1.02
58 30.3
58 57.7
59 22.3
+ 1.17
1.09
0.93
4 55.6
5 46.0
6 38.2
2.07
2.13
2.22
6.0
7.0
8.0
7
8
9
16 15.3
16 19.7
16 21.7
16 17.8
16 21.1
16 21.6
59 32.8
59 49 0
59 56.3
+ 0.81
0.51
+ 0.09
59 41.8
59 53.9
59 56.0
+ 0.67
+ 0.31
-0.15
7 32.9
8 30.1
9 29.2
2.33
2.43
2.49
9.0
10.0
11.0
10
11
12
16 20.7
16 16.5
16 9.0
16 19.0
16 13.1
16 4.2
59 52.7
59 37.1
59 9.6
-0.40
0.90
1.35
59 46.4
59 24.7
58 52.0
-0.65
1.15
1.65
10 29.2
11 28.4
12 25.4
2.49
2.43
2.31
12.0
13.0
14.0
13
14
15
15 58.8
15 46.8
15 34.0
15 53.0
15 40.5
15 27.6
58 32.2
57 48.1
57 1.0
-1.71
1.91
1.96
58 10.8
57 24.7
56 37.6
-1.83
1.95
1.92
13 19.3
14 10.0
14 57.9
2.16
2.05
1.94
15.0
16.0
17.0
16
17
18
15 21.4
15 10.1
15 0.6
15 15.6
15 5.1
14 56.8
56 14.9
55 33.1
54 58.5
-1.84
1.60
1.26
55 53.3
55 14.8
54 44.5
- 1.73
1.44
1.06
15 43.6
16 27.9
17 11.6
1.87
1.83
1.82
18.0
19.0
20.0
19
20
21
14 53.7
14 49.5
14 48.1
14 51.2
14 48.4
14 48.5
54 32.9
54 17.4
54 12.6
-0.86
0.42
-0.01
54 23.8
54 13.7
54 14.1
-0.65
-0.20
+ 0.22
17 55.3
18 39.8
19 25.5
1.83
1.88
1.94
21.0
22.0
23.0
' 22
23
24
14 49.6
14 53.7
15 0.0
14 51.4
14 56.6
15 3.8
54 18.1
54 33.0
54 56.0
+ 0.43
0.80
1.10
54 24.4
54 43.6
55 10.0
+ 0.62
0.97
1.22
20 12.6
21 1.1
21 50.9
1.99
2.06
2.10
24.0
25.0
26.0
25
26
27
15 7.9
15 17.1
15 26.6
15 12.4
15 21.8
15 31.4
55 25.3
55 58.8
56 33.9
+ 1.32
1.43
1.46
55 41.7
56 16.3
56 51.3
+ 1.39
1.47
1.43
22 41.4
23 32.2
6
2.12
2.11
27.0
28.0
29.0
28
29
30
31
15 36.0
15 44.7
15 52.2
15 58.4
15 40.5
15 48.6
15 55.5
16 1.0
57 8.3
57 40.2
58 7.9
58 30.7
+ 1.40
1.25
1.05
0.84
57 24.7
57 54.7
58 19.4
58 40.1
+ 1.32
1.16
0.95
0.73
0 22.9
1 13.2
2 3.2
2 53.2
2.10
2.09
2.08
2.09
0.2
1.2
2.2
3.2
32
16 3.2
16 5.1
58 48.2
+ 0.62
58 55.1
+ 0.53
3 43.8
2.13
4.2
JANUARY, 1884.
V.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Sour.
Bight Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
Hour.
Right Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
TO
ESDA
Y 1.
THURSDAY 3.
h m s
8
O / //
//
h m a
8
Q 1 II
//
0
21 6 2.49
3.1461
S.ll 34 20.8
8.711
0
22 48 26.08
2.1313
S. 3 36 12.0
10.898
1
21 8 11.23
2. J 459
1 1 25 36.2
8.775
1
22 50 33.97
2.1318
3 25 17.3
10.923
2
21 10 19.92
9.1443
11 16 47.8
8.638
2
22 52 41.90
2.1324
3 14 21.2
10.947
3
21 12 28.55
2.1435
1 1 7 55.7
8.900
3
22 54 49.86
2.1330
3 3 23.7
10.970
4
21 14 37.14
2.1427
10 58 59.8
8.962
4
22 56 57.86
2.1337
2 52 24.8
10.992
5
21 16 45.68
2.1419
10 50 0.2
9.023
5
22 59 5.90
2.1343
2 41 24.6
11.013
6
21 18 54.17
2.1412
10 40 57.0
9.084
6
23 1 13.98
2.]&r>l
2 30 23.2
11.033
7
21 21 2.62
2.1404
10 31 50.1
9.144
7
23 3 22.11
2.1359
2 19 20.6
11.053
8
21 23 11.02
2.1396
10 22 39.7
9.203
8
23 5 30.29
2.1367
2 8 16.8
11.071
9
21 25 19.37
2.1388
10 13 25.8
9.261
9
23 7 38.51
2.1375
1 57 12.0
11.088
10
21 27 27.68
2.1382
10 4 8.4
9.318
10
23 9 46.79
2.1385
1 46 6.2
11.105
11
21 29 35.95
2.1374
9 54 47.6
9.374
11
23 11 55.13
2.1394
1 34 59.4
11.121
12
21 31 44.17
2.1367
9 45 23.5
9.430
12
23 14 3.52
2.1403
1 23 51.6
11.136
13
21 33 52.35
2.1361
9 35 56.0
9.486
13
23 16 11.97
2.1414
1 12 43.0
11.149
14
21 36 0.50
2.1355
9 26 25.2
9.540
14
23 18 20.49
2.1426
1 1 33.7
11 162
15
21 38 8.61
2.1348
9 16 51.2
9.593
15
23 2,> 29.08
2.1437
0 50 23.6
11.174
16
21 40 16.68
2.1342
9 7 14.0
9.646
\6
23 22 37.74
2.1449
0 39 12.8
11.185
17
21 42 24.72
2.1337
8 57 33.6
9.698
17
23 24 46.47
2.1461
0 28 1.4
11.195
18
21 44 32.72
2.1331
8 47 50.2
9.749
18
23 26 55.27
2.1473
0 16 49.4
11.204
19
21 46 40.69
2.1326
8 38 3.7
9.800
19
23 29 4.15
2.1487
S. 0 5 36.9
11.212
20
21 48 48.(513
2.1322
8 28 14.2
9.849
20
23 31 13.1 1
2.1501
N. 0 5 3(5.0
11.219
21
21 50 56.55
2.1317
8 18 21.8
9.897
21
23 33 22.16
2.1515
0 16 49.4
11.226
22
21 53 4.44
2.1312
8 8 26.5
9.946
22
23 35 31.29
2.1529
0 28 3.1
11.230
23
21 55 12.30
WE]
2.1307
DNESI
S. 7 58 28.3
)AY 2.
9.994
23
23 37 40.51
P
2.1545
EIDA^
N. 0 39 17.0
r.4.
11.234
0
21 57 20.13
2.1303
8. 7 48 27.2
10.041
0
23 39 49.83
2.1561
N. 0 50 31.1
11.237
1
21 59 27.94
2.1300
7 38 23.4
10.086
1
23 41 59.24
2.1577
I 1 45.4
11.239
2
22 1 35.73
2.1297
7 28 16.9
10.130
2
23 44 8.75
2.1593
1 12 59.8
11.240
3
22 3 43.51
2.1295
7 18 7.8
10.174
3
23 46 18.36
2.1610
1 24 14.2
11.240
4
22 5 51.27
2.1292
7 7 56.1
10.217
4
23 48 28.07
2.1628
1 35 28.6
11.239
5
22 7 59.02
2.1290
6 57 41.8
10.259
5
23 50 37.89
2.1646
1 46 42.9
11.237
6
22 10 6.75
2.1288
6 47 25.0
10.301
6
23 52 47.82
2.1664
1 57 57.1
11.235
7
22 12 14.47
2.1286
6 37 5.7
10.342
7
23 54 57.86
2.1683
2 9 11.1
11.231
8
22 14 22.18
2.1284
6 26 44.0
10.381
8
23 57 8.02
2.1702
2 20 24.8
11.225
9
22 16 29.88
2.1283
6 16 20.0
10.419
9
23 59 18.29
2.1722
2 31 38.1
11.218
10
22 18 37.58
2.1283
6 5 53.7
10.457
10
0 1 28.68
2.1743
2 42 51.0
11.212
11
22 20 45.28
2.128-3
5 55 25.1
10.495
11
0 3 39.20
2.1764
2 54 3.5
11.204
12
22 22 52.97
2.1282
5 44 54.3
10.531
12
0 5 49.85
2.1786
3 5 15.5
11.195
13
22 25 0.67
2.1283
5 34 21.4
10.567
13
0 8 0.63
2.1807
3 \6 26.9
11.185
14
22 27 8.37
2.1283
5 23 46.3
10.602
14
0 10 11.54
2.1829
3 27 37.7
11.174
15
22 29 16.07
2.1284
5 13 9.2
10.635
15
0 12 22.58
2.1852
3 38 47.8
11.162
16
22 31 23.78
2.1286
5 2 30.1
10.667
16
0 14 33.76
2.1675
3 49 57.1
11.148
17
22 33 31.51
2.1289
4 51 49.1
10.699
17
0 \6 45.08
2.1899
4 1 5.6
11.133
18
22 35 39.25
2.1291
4 41 6.2
10.731
18
0 18 56.55
2.1923
4 12 13.1
11.118
19
22 37 47.00
2.1293
4 30 21.4
10.762
19
0 21 8.16
2.1947
4 23 19.7
11.102
20
22 39 54.77
2.1297
4 19 34.8
10.791
20
0 23 19.92
2.1973
4 34 25.3
11.084
21
22 42 2.56
2.1301
4 8 46.5
10.818
21
0 25 31.84
2.1999
4 45 29.8
11.065
22
22 44 10.38
2.1305
3 57 56.6
10.845
22
0 27 43.91
2.2025
4 56 33.1
11.045
i 23
22 46 18.22
2.1309
3 47 5.1
10.872
23
0 29 56.14
2.2051
5 7 35.2
11.025
|24
22 48 26.08
2.1313
S. 3 36 12.0
10.898
24
0 32 8.52
2.2078
N. 5 18 36.1
11.003
VI.
JANUARY,- 1884.
GREENWICH MEAN TIME,
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
Right Ascension.
Difffor
1 Minute.
Declination.
Dittfor
1 Minute.
Hour.
Bight Ascension.
DUE for
1 Minute.
Declination.
Din*, for
1 Minute.
SA
TUEDi
IT 5.
MONDAY 7.
h m 8
8
O 1 II
14
h m s
8
O 1 II
//
0
0 32 8.52
9.9078
N. 5 18 36.1
11.003
0
2 21 56.63
9*3789
N.13 19 54.6
8.601
1
0 34 21.07
9.9106
5 29 35.6
J0480
1
2 24 19.44
9*3899
13 28 28.3
6*592
2
0 36 33.79
9.9133
5 40 &3.7
10.956
2
2 26 42.50
9.3883
13 36 57*2
8.449
3
0 38 46.67
2.9161
5 51 30.3
10.930
3
2 29 5.80
9.3903
13 45 21.3
8.360
4
0 40 59.72
9.9 J 90
6 2 25.3
10.904
4
2 31 29.33
2*3943
13 53 40.4
8.977
5
0 43 12.95
9.9319
6 13 18.8
10.877
5
2 33 53.11
9.3963
14 1 54.5
8.193
6
0 45 26.35
9.9948
6 24 10.6
10.848
6
2 36 17.13
9.4093
14 10 3.6
8.108
7
0 47 39.93
9.9978
6 35 0.6
10.818
7
2 38 41.39
9.4063
14 18 7.5
8.029
8
0 49 53.69
9.9309
6 45 48.8
10.788
8
2 41 5.89
9.4103
14 26 6.2
7.935
9
0 52 7.64
. 9.3340
6 56 35.2
10.756
9
2 43 30.63
9.4149
14 33 59.7
7.847
10
0 54 21.77
9.9371
7 7 19.6
J0.733
10
2 45 55.60
9.4189
14 41 47.8
7.757
11
0 56 36.09
9.3403
7 18 2.0
10.689
11
2 48 20.81
2.4999
14 49 30.5
7.666
12
0 58 50.61
9.3436
7 28 42.3
J0.654
12
2 50 46.26
9.4981
14 57 7.7
7.574
13
1 1 5.32
9.9468
7 39 20.5
10.617
13
2 53 11.94
9*4300
15 4 39.3
7.481
14
1 3 20.22
9.3500
7 49 56.4
10.579
14
2 55 37.86
9.4339
15 12 5.4
7.387
15
1 5 35.32
9.9533
8 0 30.0
10.541
15
2 58 4.01
9.4378
15 19 25.8
7.999
16
1 7 5Q.(J2
3.3567
8 11 1.3
10^01
\6
3 0 30.40
9.4417
15 26 40.4
7.195
17
1 10 6.12
9.3600
8 21 30.2
10.460
17
3 2 57.01
9.4454
15 33 49.2
7.097
18
1 12 21.82
9.2634
8 31 56.5
10.418
18
3 5 23.85
9.4499
15 40 52.1
6.998
1!)
1 14 37.73
9.9669
' 8 42 20.3
10.375
19
3 7 50.92
9.4530
15 47 49.0
6.899
20
1 16 53.85
3.2705
8 52 41.5
10.330
20
3 10 18.21
9.4568
15 54 40.0
6.799
21
1 19 10.19
2.U741
9 2 59.9
10.284
21
3 12 45.73
9.4605
16 1 24.9
6.697
22
1 21 26.74
9.9776
9 13 15.5
10.937
22
3 15 13.47
9.4641
16 8 3.7
6*594
23
1 23 43 .50
81
9.3811
CTNDA
N. 9 23 28.3
Y 6.
10.J89
23
3 17 41.42
Tl
9.4677
JBSDA
N.16 14 36.2
T 8.
6.489
0
1 26 0.47
2.9847
N. 9 £3 38.2
10.140
0
3 20 9.59
9.4713
N.16 21 2.4
6*384
1
1 28 17.66
9.9884
9 43 45.1
10.090
1
3 22 37.98
2.4749
16 27 22.3
&9T9
2
1 30 35.08
9.3931
9 53 49.0
10.038
2
3 25 6.58
2.4783
16 33 35.9
6.172
3
1 32 52.72
3.9958
10 3 49.7
9.985
3
3 27 35.38
2.4818
16 39 43.0
6.064
4
1 35 10.58
9.9995
10 13 47.2
9.931
4
3 30 4.39
2.4859
16 45 43.6
5*955
5
1 37 28.66
9.3033
10 23 41.4
9.876
5
3 32 33.60
9.468G
16 51 37.6
fl.645
6
J 39 46.97
9.3071
10 33 32.3
9.89G
6
3 35 a02
2.4919
16 57 25.0
5.734
7
1 42 5.51
3.3109
10 43 19.8
9.769
7
3 37 32.63
9.4951
17 3 5.7
5.699
8
1 44 24.28
9.3147
10 53 3.8
9.703
8
3 40 2.43
2.4963
17 8 39.7
5.510
9
1 46 43.28
3.3186
11 2 44.2
9.643
9
3 42 32.43
2^016
17 14 6.9
5.397
10
1 49 2.51
3.33-J4
11 12 21.0
9.583
10
3 45 2.62
2J047
17 19 27.3
5.962
11
1 51 21.97
9^363
11 21 54.1
9.590
11
3 47 32.99
2^076
17 24 40.8
5.167
12
1 53 41.67
3.3303
11 31 23.4
9.456
12
3 50 3.53
2.5105
17 29 47.3
5.050
13
1 56 1.60
9.3343
11 40 48.8
9.399
13
3 52 34.25
2.5135
17 34 46.8
4.933
14
1 58 21.77
9.33*3
11 50 10.4
9.387
14
3 55 5.15
2-5164
17 39 39.3
4.816
15
2 0 42.18
9.34J3
1 1 59 28.0
9.959
15
3 57 36.22
2.5199
17 44 24.7
4.697
16
2 3 2.a3
3.3461
12 8 41.5
9.190
16
4 0 7.46
9.5919
17 49 2.9
4.577
17
2 5 23.71
3.3500
12 17 50.8
9.191
17
4 2 38.85
9.5945
17 53 a3.9
4.456
18
2 7 44.83
9.3540
12 26 5."U)
9.051
18
4 5 10.40
2£272
17 57 57.6
4.334
19
2 10 6.19
9.3580
12 &5 56.9
8.978
19
4 7 42.11
2.5997
18 2 14.0
4.913
20
2 12 27.79
3.3631
12 44 53.4
8.905
20
4 10 13.96
9.5320
. 18 6 23.1
4.091
21
2 14 49.<>4
3.3662
12 53 45.5
8.831
21
4 12 45.95
2.5343
18 10 24.9
3.967
22
2 17 11.73
9.3703
13 2 33.1
8.756
22
4 15 18.08
9.5366
18 14 19.2
3.843
1 '23
2 19 34.06
9.3743
13 11 16.2
8.679
23
4 17 50.35
9.5389
18 18 6.1
3.719
|24
2 21 56.63
9.3783
N.13 19 54.6
8.601
24
4 20 22.75
9.5411
N.18 21 45.5
3.593
8
JANUARY, 1884
VII.
GREE1*WI0H MEAN TIME,
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Sight
DUE for
1 Minute.
Declination-
Diff.for
1 Minute.
Hour.
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
22
23
24
WEDNESDAY 9.
N.18 21 45.5
18 25 17.3
18 28 41.6
18 31 58.3
18 35 7.3
18 38 8.6
18 41 2.3
18 43 48.3
18 46 26.5
18 48 56.9
18 51 19.4
18 53 34.1
18 55 41.0
18 57 40.0
18 59 31.1
■
■
22.75
94411
55.28
94431
27.92
94450
0.68
94489
33.55
94487
6.52
94504
39.59
94590
12.76
94535
46.01
94549
19.35
94563
52.77
94576
26.26
94587
59.81
94597
33.42
94607
7.09
94617
40.82
94695
14.59
94631
48.39
94637
22.23
94649
56.09
94645
29.97
94648
3.87
94651
37.78
94651
11.68
94650
19
19
19
19
19
19
19
19
1 14.3
2 49.6
4 17.0
5 36.4
6 47.8
7 51.3
8 46.8
9 34.3
N.19 10 13.8
THURSDAY 10.
21 45.58
24 19.47
26 53.34
29 27.20
32 1.03
34 34.62
37 8.57
39 42.28
42 15.93
44 49.52
47 23.05
49 56.51
52 29.89
55 3.19
57 36.40
0 9.51
2 42.52
5 15.43
7 48.23
10 20.91
12 53.46
15 25.88
17 58.17
20 30.32
23 2.32
3493
3.467
3.341
3.914
3.086
9.958
9.831
9.709
9479
9.441
9.310
9.180
9.049
14)17
1.786
1.654
1499
1490
1.957
1.194
0.993
0.658
0.795
0499
94649
N.19 10 45.3
0.458
94647
19 11 8.8
0495
94644
19 11 24.3
0.199
94641
19 11 31.8
4-0459
94635
19 11 31.4
-0473
94698
19 11 23.0
0407
94691
19 11 6.6
0440
94613
19 10 42.2
0.479
94603
19 10 9.9
0.605
94593
19 9 29.6
0.737
94589
19 8 41.4
0.870
94570
19 7 45.2
1.009
94557
19 6 41.1
1.133
94549
19 5 29.2
1464
94597
19 4 9.4
1496
94510
19 2 41.7
1497
94493
19 1 6.2
1457
94476
18 59 22.9
1.786
94457
18 57 31.9
1.915
94436
18 55 33.1
9.044
94414
18 53 26.6
9.173
94399
18 51 12.4
9401
94370
18 48 50.5
9.498
9.5346
18 46 21.0
9455
9.5391
N.18 43 43.9
9.681
Bight
Diftfl
1 Minute.
DeoUnaAian.
DUE for
1 Minute.
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
22
23
24
FRIDAY 11.
h m e
6 23 232
6 25 34.17
6 28 5.86
6 30 3739
6 33 8.76
6 35 39.96
6 38 10.98
6 40 41.81
6 43 12.46
6 45 42.92
6 48 13.18
6 50 43.24
6 53 13.09
6 55 42.73
58 12.15
0 41.36
3 10.35
5 39.11
8 7.63
10 35.92
13 3.97
15 31.78
17 59.35
20 26.66
6
7
7
7
7
7
7
7
7
7
94391
N.18 43 43.9
9481
94995
18 40 593
9406
94968
18 38 7.2
9431
94949
18 35 7.6
3456
94914
18 32 0.5
3.180
94185
18 28 46.0
3403
94154
18 25 24.1
3.498
94193
18 21 54.9
3447
94099
18 18 18.5
3467
94060
18 14 34.9
3.787
94097
18 10 44.1
3406
9.4999
18 6 46.2
4.094
9.4957
18 2 41.2
4.149
9.4999
17 58 29.2
4.958
9.4866
17 54 10.2
4474
9.4850
17 49 44.3
4.489
9.4819
17 45 11.5
4403
9.4773
17 40 31.9
4.716
9.4734
17 35 45.6
4.898
9.4695
17 30 52.6
4.939
9.4655
17 25 52.9
5.049
9.4615
17 20 46.7
5.158
9.4573
17 15 34.0
5466
9.4531
N.17 10 14.8
5473
SATURDAY 12.
7 22 53.72
9.4489
N.l
7 25 20.53
9.4446
14
7 27 47.07
9.4409
11
7 30 1335
9.4356
1(
7 32 3937
9.4314
1(
7 35 5.12
9.4969
1(
7 37 30.60
9.4993
n
7 39 55.80
9.4178
h
7 42 20.73
9.4139
14
7 44 4538
9.4085
14
7 47 9.75
9.4038
14
7 49 a3.84
94991
1
7 51 57.64
94943
j
7 54 21.15
94895
j
7 56 4438
94847
1
7 59 7.32
9.3798
■
8 1 29.96
94749
1
8 3 5231
94701
1
8 6 14.37
94659
1
8 8 36.13
94609
j.
8 10 57.59
94559
]<
8 13 18.75
9.3509
\i
8 15 39.62
94459
\t
8 18 018
94409
\i
8 20 20.44
94359
N.l'
7 4 49.2
6 59 173
6 53 39.1
6 47 54.7
6 42 4.1
6 36 7.5
6 30 4.9
6 23 563
6 17 41.9
6 11 21.7
6 4 55.8
58 24.1
51 46.8
45 4.0
38 15.7
31 22.1
24 23.2
17 19.0
10 9.6
2 55.1
55 35.6
48 11.1
40 41.7
33 7.5
25 28.5
5.479
5484
5488
5.799
5493
5.993
6403
6.199
6488
6484
6.480
6475
6.668
6.759
6.849
6.938
7496
7.113
7.199
7483
7467
7.449
7430
7.610
viil
JANUARY, 1884.
9
GEEENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hoar.
Bight Ascension.
Difll for
1 Minute.
Declination.
Diftfor
1 Minute.
Hour.
Bight Ascension.
Biff, for
1 Minute.
Declination.
Diftfor
1 Minute,
si
JNDA1
1 13.
TUESDAY 15.
h m 8
8
O 1 II
u
h m s
8
O 1 it
n
0
8 20 20.44
94359
N.14 25 28.5
7.688
0
10 6 43.38
9.1059
N. 7 8 48.6
10464
1
8 22 40.40
9.3»1
14 17 44.9
7.765
1
10 8 49.57
9.1011
6 58 44.1
10467
2
8 25 0.05
9.3950
14 9 56.7
7.849
2
10 10 55.51
9.0969
6 48 38.2
10.109
3
8 27 19.40
94900
14 2 3.9
7.917
3
10 13 1.20
94998
6 38 31.0
10.130
4
8 29 38.45
94149
13 54 6.7
7490
4
10 15 6.65
9.0899
6 28 22.6
10.149
5
8 31 57.19
9.9098
13 46 5.1
8.069
5
10 17 11.87
9.0850
6 18 13.1
10.167
6
8 34 15.63
9.3047
13 37 59.2
6.133
6
10 19 16.85
9.0811
6 8 2.5
10.185
7
8 36 33.76
9.9997
13 29 49.1
8.903
7
10 21 21.60
9.0779
5 57 50.9
10.909
8
8 38 51.59
94947
13 21 34.9
8479
8
10 23 26.12
9.0734
5 47 38.3
10418
9
8 41 9.12
9.9698
13 13 1&5
8.340
9
10 25 30.41
9.0697
5 37 24.7
10433
10
8 43 26.34
9.9844
13 4 54.1
8.406
10
10 27 134.48
94660
5 27 10.3
10447
11
8 45 43.25
9.9793
12 56 27.8
8.471
11
10 29 38.33
9.0693
5 16 55.1
10460
12
8 47 59.8(5
9.9743
12 47 57.6
8.535
12
10 31 41.95
9.0566
5 6 39.1
10479
13
8 50 16.17
9.9699
12 39 23.6
8497
13
10 33 45.36
94551
4 56 22.4
10483
14
8 52 32.17
9.9649
12 30 45.9
.8458
14
10 35 48.56
94516
4 46 5.1
10493
15
8 54 47.87
9.9599
12 22 4.6
8.718
15
10 37 51.55
9.0481
4 35 47.2
10403
16
8 57 3.27
9.9541
12 13 19.7
8.778
16
10 39 54.33
9.0446
4 25 28.7
10419
17
8 59 16.36
9.9490
12 4 31.2
8437
17
10 41 56.90
9.0419
4 15 9.7
10490
18
9 1 33.15
94440
11 55 39.3
8493
18
10 43 59.27
9.0378
4 4 50.3
104(17
19
9 3 47.64
94390
11 46 44.1
8448
19
10 46 1.44
94346
3 54 30.5
104J3
20
9 6 1.83
9.9341
11 37 45.6
9409
20
10 48 3.42
9.0313
3 44 10,3
10438
21
9 8 15.73
9.9999
11 28 43.8
0456
21
10 50 5.20
94981
3 33 49.9
1 10443
22
9 10 29.33
9.9949
11 19 38.9
9.108
22
10 52 6.79
9.0950
3 23 29.2
10.347
23
9 12 42.63
M<
9.9199
3NDA1
N.ll 10 30.9
r 14.
9.158
23
10 54 8.20
WEI
94919
)NESD
N. 3 13 8.3
►AY 16.
10449
0
9 14 55.63
9.9143
N.ll 1 19.9
9.907
0
10 56 9.42
94188
N. 3 2 47.3
10451
1
9 17 8.34
94094
10 52 6.0
9.956
1
10 58 10.46
94156
2 52 26.2
10459
2
9 19 20.76
94046
10 42 49.2
9403
2
11 0 11.32
94198
2 42 5.1
10453
3
9 21 32.89
9.1997
10 33 29.6
9450
3
11 2 12.00
94099
2 31 43.9
10453
4
9 23 44.73
9.1949
10 24 7.2
9405
4
11 4 12.51
94071
2 21 22.7
10459
5
9 25 56.28
9.1909
10 14 42.2
9.439
5
11 6 12.85
9.0043
2 11 1.7
10449
6
9 28 7.55
9.1854
10 5 14.6
9.489
6
11 8 13.03
94016
2 0 40.8
10446
7
9 30 18.53
9.1807
9 55 44.4
9493
7
11 10 13.04
1.9988
1 50 20.1
10443
8
9 32 29.23
9.1759
9 46 11.8
9463
8
11 12 12.89
1.9969
1 39 59.6
10439
9
9 34 39.64
9.1719
9 36 36.8
9409
9
11 14 12.58
1.9936
1 29 39.4
10434
10
9 36 49.77
9.1668
9 26 59.5
9.641
10
11 16 12.12
1.9910
1 19 19.5
10498
11
9 38 59.63
9.1690
9 17 19.9
9.678
II
11 18 11.50
I 9884
1 9 0.0
10499
12
9 41 9.21
9.1573
9 7 38.1
9.714
12
11 20 10.73
14860
0 58 40.9
10415
13
9 43 18.51
9.1597
8 57 54.2
9.749
13
11 22 9.82
14637
0 48 22.2
10407
14
9 45 27.54
9.1483
8 48 8.2
9.783
14
11 24 8.77
14813
0 38 4.0
10498
15
9 47 36.31
9.1439
8 38 20.2
9416
15
11 26 7.57
1.9789
0 27 46.4
10.989
16
9 49 44.81
9.1394
8 28 30.3
9.847
16
11 28 6.24
1.9767
0 17 29.3
10480
17
9 51 53.04
9.1349
8 18 38.5
9478
17
11 30 4.78
14746
N. 0 7 12.8
10469
18
9 54 1.00
9.1305
8 8 44.9
9.008
18
11 32 3.19
14794
S. 0 3 3.0
10458
19
9 56 8.70
9.1969
7 58 49.6
9437
19
11 34 1.47
14703
0 13 18.1
10446
20
9 58 16.15
9.1990
7 48 52.5
9.965
20
11 35 59.63
1.9689
0 23 32.5
10.933
21
10 0 23.34
9.1177
7 38 53.8
9.991
21
11 37 57.(56
14669
0 33 46.1
10490
22
10 2 30.27
9.1 134
7 28 53.6
, 10417
22
1 1 39 55.57
1.9649
0 43 58.9
10.906
23
10 4 36.95
9.1093
7 18 51.8
10.041
23
11 41 53.37
1.9694
0 54 10.8
10.191
24
10 6 43.38
9.1059
N. 7 8 48.6
1 10.064
24
11 43 51.06
14600
S. 1 4 21.8
10.176
10
JANUARY, 1884.
DL
GBEEffWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
floor.
Right Ascension
DUE for
1 Minute.
Declination.
Diff.for
1 Minute.
Hour.
Right Ascension*
DUE for
1 Minute.
Declination.
Diff.for
1 Minute.
TH1
JESD^
LT 17.
SATURDAY 19.
h m s
8
Of/'
it
h m *
•
O I II
//
0
11 43 51.06
1.9606
S. 1 4 21.8
10.178
0
13 16 46.32
1.9994
a 8 44 11.4
8.777
1
11 45 48.64
1.9588
1 14 31.9
10.160
1
13 18 42.10
1.9999
8 52 56.8
8.736
2
11 47 46.11
1.9570
1 24 41.0
10.144
2
13 20 37.91
1.9304
9 1 39.7
8.694
3
11 49 43.48
1.9553
1 34 49.2
10.137
3
13 22 33.75
1.9310
9 10 20.0
8.651
4
11 51 40.75
14)537
1 44 5(3.3
10.109
4
13 24 29.63
1.9316
9 18 57.8
8.607
5
11 53 37.92
1.9591
1 55 2.3
10.090
5
13 26 25.54
1.9333
9 27 32.9
&563
6
11 55 35.00
1.9506
2 5 7.1
10.071
6
13 28 21.49
1.9399
9 36 5.4
8.530
7
11 57 31.99
1.9491
2 15 10.8
10.059
7
13 30 17.49
1.9336
9 44 35.3
8.476
8
11 59 28.89
1.9476
2 25 13.3
10.039
8
13 32 13.53
1.9343
9 53 2.5
8.431
9
12 1 25.70
1.9463
2 35 14.6
10.011
9
13 34 9.61
1.9351
10 1 26.9
&384
10
12 3 22.43
1.9449
2 45 14.6
9.989
10
13 36 5.74
1.9359
10 9 48.6
8~T38
11
12 5 19.09
1.9436
2 55 13.3
9.967
11
13 38 1.92
1.9368
10 18 7.5
8.292
12
12 7 15.67
1.9423
3 5 10.7
9.945
12
13 39 58.16
1.9378
10 26 23.6
8.345
13
12 9 12.17
1.9419
3 15 6.7
9.933
13
13 41 54.46
1.9387
10 34 36.9
8.197
14
12 11 8.61
1.9401
3 25 1.3
9.898
14
13 43 50.81
1.9397
10 42 47.3
6.150
15
12 13 4.98
1.9389
3 34 54.5
9.874
15
13 45 47.22
1.9407
10 50 54.9
8.109
16
12 15 1.28
1.9378
3 44 46.2
9.849
16
13 47 43.69
1.9418
10 58 59.5
8.053 1
17
12 16 57.52
1.9369
3 54 36.4
9.834
17
13 49 40.23
1.9439
11 7 1.2
6.004
18
12 18 53.71
1.9360
4 4 25.1
9.798
18
13 51 36.84
1.9441
11 15 0.0
7.955
19
12 20 49.84
1.9350
4 14 12.2
9.773
19
13 53 33.52
1.9453
11 22 55.8
7.904
20
12 22 45.91
1.9341
4 23 57.7
9.745
20
13 55 30.27
1.9464
11 30 48.5
7.853
21
12 24 41.93
1.9333
4 33 41.6
9.717
21
13 57 27.09
1.9477
11 38 38.2
7.803
22
12 26 37.91
1.9386
4 43 23.8
9.689
22
13 59 23.99
1.9489
11 46 24.8
7.751
23
12 28 33.85
f:
1.9390
RIDA1
S. 4 53 4.3
r 18.
9.660
23
14 1 20.96
St
1.9503
JNDA1
ail 54 8.3
I 20.
7.699
0
12 30 29.75
1.9313
S. 5 2 43.0
9.631
0
14 3 18.01
1.9516
a 12 1 48.6
7.646
1
12 32 25.61
1.9307
5 12 20.0
9.603
1
14 5 15.15
1.9530
12 9 25.8
7.593
2
12 34 21.43
.1.9301
5 21 55.2
9.571
2
14 7 12.37
1.9543
12 16 59.8
7.540
3
12 36 17.22
1.9996
5 31 28.5
9.540
3
14 9 9.67
1.9557
12 24 30.6
7.486
4
12 38 12.98
1.9099
5 41 0.0
9.509
4
14 11 7.06
1.9573
12 31 58.1
7.431
5
12 40 8.72
1.9987
5 50 29.(5
9.477
5
14 13 4.54
1.9587
12 39 22.3
7.377
6
12 42 4.43
1.9983
5 59 57.2
9.444
6
14 15 2.11
1.9603
12 46 43.3
7.333
7
12 44 0.12
1.9980
6 9 22.9
9.413
7
14 16 59.78
1.9619
12 54 0.9
7.966
8
12 45 55.79
1.9977
6 18 46.6
9.378
8
14 18 57.54
1.9635
13 1 15.2
7.310
9
12 47 51.45
1.9275
6 28 8.3
9.344
9
14 20 55.40
1.9659
13 8 26.1
7.153
10
12 49 47.09
1.9373
6 37 27.9
9.310
10
14 22 53.36
1.9668
13 15 33.6
7.096
11
12 51 42.72
1.9973
6 46 45.5
9.376
11
14 24 51.42
1.9684
13 22 37.6
7.039
12
12 53 38.35
1.9371
6 56 1.0
9.340
12
14 26 49.57
1.9701
13 29 38.2
6.981
13
12 55 33.97
1.9370
7 5 14.3
9.304
13
14 28 47.&3
1.9719
13 36 35.3
6.933
14
12 57 29.59
1.9371
7 14 25.5
9.168
14
14 30 46.20
1.9737
13 43 28.9
6.863
15
12 59 25.22
1.9373
7 23 34.5
9.131
15
14 32 44.67
1.9754
13 50 18.9
6.803
16
13 1 20.85
1.9373
7 32 41.2
9.094
16
14 34 43.25
1.9773
13 57 5.3
6.743
17
13 3 16.48
1.9373
7 41 45.7
9.056
17
14 36 41.94
1.9799
14 3 48.1
6.683
18
13 5 12.12
1.9374
7 50 47.9
9.017
18
14 38 40.75
1.9811
14 10 27.3
6.633
19
13 7 7.77
1.9977
7 59 47.8
8.978
19
14 40 39.67
1.9839
14 17 2.9
6.561
20
13 9 3.44
1.9980
8 8 45.3
8.939
20
14 42 38.70
1.9848
14 23 34.7
6.499
21
13 10 59.13
1.9383
8 17 40.5
8.900
21
14 44 37.85
1.9868
14 30 2.8
6.437
22
13 12 54.84
1.9387
8 26 33.3
8.859
22
14 46 37.12
1.9887
14 36 27.1
6.374
23
13 14 50.57
1.9390
8 35 23.6
8.818
23
14 48 36.50
1.9907
14 42 47.7
6.311
24
13 16 46.32
1.9394
a 8 44 11.4
8.777
%-
14 50 36.00
1.9937
S.14 49 4.5
6.348
JANUARY, 1884.
11
GBEESWICH MEAff TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION,
Hoar.
Bight Ascension.
Biff, for
1 Minute.
Declination.
Dlff.for
1 Minute.
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
22
23
24
MONDAY 21.
h m
14 50
14 52
14 54
14 56
14 58
15 0
15
15
15
15
15 10
15 12
15 14
15 16
15 18
15 20
15 22
15 24
15 26
15 28
15 30
15 32
15 34
15 37
15
15
15
15
15
15
15
15
15
15
15
16
16
16
16
16
16
16
16
16
16
16
16
16
16
8
*
36.00
1.9097 S.l
35.62
1.9947
|i
35.37
1.9968
1
a-5.24
1.9988
|
35.23
9.0009
j
35.35
9.0031
1
35.60
9.0059
i
35.98
9.0074
I
36.49
9.0095
i
37.12
9.0116
I
37.88
9.0138
1
38.78
9.0161
i
39.81
9.0183
1
40.98
9.0906
14
42.28
9.0398
]<
43.71
9.0950
14
45.28
9.0973
11
46.99
9.0996
14
48.84
9.0319
14
50.82
9.0349
*14
52.94
9.0365
14
55.20
9.0388
14
57.60
9.0419
14
0.14
9.0435
S.1
49 4.5
55 17.5
1 26.6
7 31.8
13 &3.1
19 30.5
25 23.9
31 13.3
36 58.7
42 40.1
48 17.4
53 50.5
59 19.5
4 44.4
16 10 5.1
16 15 21.5
16 20 33.7
16 25 41.6
16 30 45.2
16 35 44.5
16 40 39.4
16 45 30.0
16 50 16.1
16 54 57.8
TUESDAY 22.
39 2.82
9.04S8
S.1
41 5.64
9.0489
43 8.60
9.0506
45 11.71
9.0530
47 14.96
9.0553
49 18.35
SMJ577
51 21.88
9.0000
53 25.55
9.0694
55 29.37
9.0648
57 33.33
9.0679
59 37.43
9.0696
1 41.68
9.0790
3 46.07
2.0743
5 50.60
9^767
7 55.27
9.0791
10 0.09
&0815
12 5.05
9.0838
1
14 10.15
9.0869
1
16 15.39
9.0885
1
18 20.77
9.0908
1
20 26.29
9.0939
1
22 31.96
9.0956
1
24 37.76
9.0979
1
26 43.70
9.1009
1
28 49.78
9.1035
S.l
6 59 35.1
7 4 7.9
8 36.1
12 59.8
17 18.9
21 33.4
25 43.4
29 48.7
33 49.3
37 45.2
41 36.4
45 22.8
49 4.4
52 41.2
56 13.2
59 40.4
3 2.7
6 20.0
9 32.4
12 39.8
15 42.3
18 39.8
8 21 32.2
8 24 19.6
8 27 1.9
6.948
6.184
6.119
6.054
5.989
5.993
5.857
5.790
5.793
5.656
5.587
5.518
5.449
5.380
5.309
5.938
5.167
5.096
5.634
4.959
4.879
4.806
4.739
4.658
4.584
4.508
4.439
4.356
4.980
4.904
4.137
4.049
3.971
3.899
3.813
3.733
3.653
3.573
3.493
3.419
3.947
3.165
3.000
9.916
9.839
9.747
2.062
Hour.
Right Ascension.
Diff.for
1 Minute.
Declination.
Diff. for
1 Minute.
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
22
23
24
WEDNESDAY 23.
h m s
16 28 49.78
16 30 56.00
16 a3 2.36
16 35 8.85
16 37 15.48
16 39 22.24
16 41 29.13
16 43 36.16
16 45 43.32
\6 47 50.61
16 49 58.03
16 52 5.58
16 54 13.27
16 56 21.08
16 58 29.02
17 0 37.08
2 45.26
4 53.57
7 2.00
9 10.55
17 11 19.22
17 13 28.01
17 15 3091
17 17 45.93
17
17
17
17
8
9.1095
9.1048
9.1071
9.1093
9.1116
9.1138
9.1160
9.1189
9.1904
9.1936
9.1348
9.1370
9.1999
9.1313
9.1333
9.1353
9.1374
9.1395
9.1415
9.1435
9.1455
9.1474
9.1493
9.1513
'S.18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
19
19
19
19
19
S.19
27 1.9
29 39.1
32 11.2
34 38.1
36 59.9
39 16.5
41 27.8
43 33.9
45 34.7
47 30.3
49 20.6
51 5.5
52 45.1
54 19.3
55 48.1
57 11.5
58 29.5
59 42.1
0 49.2
50.8
46.9
37.5
22.6
2.1
THUESDAY 24.
17 19
17 22
17 24
17 26
17 28
17 30
17 32
17 35
17 37
17 39
17 41
17 43
17 45
17 48
17 50
17 52
17 54
17 56
17 58
18
18
18
18
18
18 12
55.06
9.1539
S.l
4.31
9.1550
]
13.66
9.1568
]
23.12
9.1586
*l
32.69
9.1603
]
42.36
9.1691
j
52.14
9.1638
]
2.02
9.1655
]
12.00
9.1679
j
22.08
9.1688
]
32.26
9.1704
j
42.53
9.1790
i
52.90
9.1736
4 ]
3.36
9.1751
]
13.91
9.1765
j
24.54
9.1779
]
35.26
9.1794
j
46.07
9.1808
]
56.96
9.1899
1
7.93
9.1835
1
18.98
9.1847
]
30.10
9.1860
1
41.30
9.1873
1
52.57
9.1885
1
3.92
3.1897
S.l
5 36.1
6 4.5
6 27.3
6 44.4
6 55.9
7 1.8
7 2.0
6 56.5
6 45.4
6 28.6
6 6.1
5 37.9
5 3.9
4 24.2
3 38.8
2 47.6
1 50.6
0 47.8
8 59 39.2
8 58 24.8
8 57 4.7
8 55 38.8
8 54 7.1
8 52 29.5
8 50 46.1
9.669
9^77
9.499
9.406
9.390
9.333
9.145
9.057
1.970
1.883
1.793
1.704
1.615
1.535
1.435
1.345
1.955
1.164
1.079
0.981
0.869
0.797
0.705
0.619
0.530
0.497
0.333
0.339
0.145
- 0.051
+ 0.044
0.138
0.339
0.337
0.433
0.518
0.614
0.709
0.805
0.909
0.998
1.095
1.193
1.387
1.383
1.460
1.577
1.675
1.772
12
JANUARY, 1884.
XL
GBEEITWICH MEAN TIME,
THE MOON'S RIGHT ASCENSION AND DECLINATION,
Hour.
Right Ascension.
Diff.for
1 Minute.
Declination.
Diff.for
I Minute.
riour.
Right Ascension.
Difffor
1 Minute.
Declination.
Diff.for
1 Minute
Fl
RIDA1
: 25.
SUNDAY 27.
h m s
s
— >p j "
a
h m s
8
O 1 II
it
0
18 12 3.92
9.1897
S.18 50 46.1
1.779
0
19 57 53.26
9.2078
S.15 35 4.0
6408
1
18 14 15.33
9.1908
18 48 56.9
1.869
1
20 0 5.72
94075
15 28 42.9
6495
2
18 16 26.81
9.1919
18 47 1.9
1.966
2
20 2 18.16
9.9073
15 22 16.6
6.482
3
18 18 38.36
9.1930
18 45 1.0
2.063
3
20 4 30.59
94070
15 15 45.0
6469
4
18 20 49.97
2.1940
18 42 54.3
9.160
4
20 6 43.00
94066
15 9 8.3
6455
5
18 23 1.64
3.1949
18 40 41.8
9457
5
20 8 55.38
94069
15 2 26.4
6.741
6
18 25 13.36
9.1958
18 38 23.4
9.355
6
20 11 7.74
94058
14 55 39.4
6.886
7
18 27 25.14
9.1968
18 35 59.2
9.459
7
20 13 20.08
9.9054
14 48 47.3
6410
8
18 29 36.98
2.1978
18 33 29.2
9.549
8
20 15 32.39
94049
14 41 50.2
6493
9
18 31 48.88
9.1987
18 30 53.3
9.647
9
20 17 44.67
94044
14 34 48.1
7477
10
18 34 0.83
9.1995
18 28 11.6
2.744
10
20 19 56.92
94040
14 27 41.0
7.160
11
18 36 12.82
9.9009
18 25 24.0
9.649
11
20 22 9.15
9.9036
14 20 28.9
7.949
12
18 38 24.86
9*9010
18 22 30.6
9438
12
20 24 21.35
94031
14 13 11.9
7494
13
18 40 36.94
9.9017
18 19 31.4
3.035
13
20 26 33.52
9.9096
14 5 50.0
7.405
14
18 42 49.07
9.9095
18 16 26.4
3.132
14
20 28 45.66
9.9091
13 58 23.3
7.486
15
18 45 1.24
9.9039
18 13 15.6
3499
15
20 30 57.77
9.9016
13 50 51.7
7466
16
18 47 13.45
94038
18 9 59.0
3496
16
20 33 9.85
94010
13 43 15.4
7.645
17
18 49 25.69
9.9043
18 6 36.5
3.493
17
20 35 21.89
94004
13 35 34,3
7.794
18
18 51 37.97
9.9049
18 3 8.2
3.590
18
20 37 33.90
2.1999
13 27 48.5
7.809
19
18 53 50.28
9.9054
17 59 34.1
3.616
19
20 39 45.88
9.1993
13 19 58.0
7.880
20
18 56 2.62
9.9059
17 55 54.3
3.719
20
20 41 57.82
9.1988
13 12 2.9
7.956
21
18 58 14.99
9.9064
17 52 8.7
3.808
21
20 44 9.73
9.1983
13 4 3.3
8.039
22
19 0 27.39
9.9068
17 48 17.3
3404
22
20 46 21.61
9.1977
12 55 59.1
8.107
23
19 2 39.81
SAG
940?J
CUEDi
S. 17 44 20.2
LY26.
4.000
23
20 48 33.45
M(
9.1970
3NDA^
S.12 47 50.4
F 28.
8.189
0
19 4 52.26
84077
S.17 40 17.3
4496
0
20 50 45.25
9.1964
S.12 39 37.3
8456
1
19 7 4.73
9.9080
17 36 8.7
4.191
1
20 52 57.02
9.1958
12 31 19.7
8499
2
19 9 17.22
9.9089
17 31 54.4
4487
2
20 55 8.75
9.1959
12 22 57.8
8.409
3
19 11 29.72
94085
17 27 34.3
4489
3
20 57 20.44
9.1946
12 14 31.5
8.474
4
19 13 42.24
9.9087
17 23 8.5
4.477
4
20 59 32 10
9,1940
12 6 0.9
8445
5
19 15 54.77
9.9090
17 18 37.1
4.571
5
21 1 43.72
9.1934
11 57 26.1
8416
6
19 18 7.32
94099
17 14 0.0
4.665
6
21 3 55.31
9.1998
11 48 47.0
8487
7
19 20 19.88
9.9093
17 9 17.3
4.759
7
21 6 6.86
9.1999
11 40 3.7
8.755
8
19 22 32.44
9.9094
17 4 28.9
4.853
8
21 8 18.37
9.1916
11 31 16.4
8.893
9
19 24 45.01
9.9095
16 59 34.9
4.947
9
21 10 29.&>
9.1910
11 22 25.0
8490
10
19 26 57.58
9.9096
16 54 35.3
5.040
10
21 12 41.29
2.1903
11 13 29.6
8.957
11
19 29 10.16
9.9097
16 49 30.1
5.139
11
21 14 52.69
2.1897
11 4 30.2
9:099
12
19 31 22.74
9.9097
16 44 19.4
5.225
12
21 17 4.06
2.1899
10 55 26.9
9487
13
19 33 a5.32
94097
16 39 3.1
5417
13
•&1 19 15.39
9.1886
10 46 19.7
9.159
14
19 &5 47.90
9.9096
16 33 41.3
5.409
14
21 21 26.69
2.1880
10 37 8.7
9.915
15
19 38 0.47
9.9095
16 28 14.0
5.501
15
21 23 37.95
2.1874
10 27 53.9
9478
16
19 40 13.04
94094
16 22 41.2
5499
16
21 25 49.18
9.1868
10 18 35.3
9441
17
19 42 25.60
94093
16 17 2.9
5.683
17
21 28 0.37
2.1869
10 9 13.0
9.401
18
19 44 38.16
9.9099
16 11 19.2
5.773
18
21 30 11.53
9.1857
9 59 47.2
9.460
19
19 46 50.71
9.9091
16 5 30.1
5.863
19
21 32 22.66
9.1859
9 50 17.8
9490
20
19 49 3.25
9.2088
15 59 a5.6
5.953
20
21 34 a3.75
9.1846
9 40 44.8
9479
21
19 51 15.77
9.2086
15 53 35.7
6.042
21
21 36 44.81
9.1841
9 31 8.3
9.637
22
19 53 28.28
2.9084
15 47 30.5
6.139
22
21 38 55.84
9.1836
9 21 28.4
9.693
23
19 55 40.78
2.2082
15 41 19.9
6.221
23
21 41 6.84
9.1830
9 11 45.2
9.748
24
19 57 53.26
94078
S.15 35 4.0
6408
24
21 43 17.80
9.1895
S. 9 1 58.6
9.804
XII.
JANUARY, 1884
13
GEEBNWICH MEAT* TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
DUE for
1 Minute.
Declination.
Diftfor
1 Minute.
Hour.
Right Ascension.
DUE for
1 Minute.
Declination.
DUE for
1 Minute.
TD
ESDA
T29.
THUESDAT 31.
h m s
•
O i ll
u
h m s
■
O t It
//
0
21 43 17.80
9.1825
S. 9 1 58.6
9.804
0
23 27 52.31
9.1850
S. 0 26 1.5
11.308
1
21 45 28.74
9.1891
8 52 8.7
9.858
1
23 30 3.43
9.1858
0 14 42.8
11-314
2
21 47 39.65
9.1816
8 42 15.6
9.911
2
23 32 14.60
9.1868
S. 0 3 23.8
11.318
3
21 49 50.53
9.1819
8 32 19.4
9.964
3
23 34 25.82
9.1874
N. 0 7 55.4
11.329
4
21 52 1.39
9.1807
8 22 20.0
10.016
4
23 36 37.09
9.1683
0 19 14.8
11.395
5
21 54 12.22
9.1808
8 12 17.5
10.066
5
23 38 48.42
9.1899
0 30 34.4
11.397
6
21 56 23.02
9.1796
8 2 12.1
10.115
6
23 40 59.80
9.1909
0 41 54.1
11.397
7
21 58 33.80
9.1795
7 52 3.7
10.164
7
23 43 11.24
9.1919
0 53 13.7
11.397
8
22 0 44.56
9.1799
7 41 52.4
10.919
8
23 45 22.74
9.1093
1 4 33.3
11.396
9
22 2 55.30
9.1788
7 31 38.2
* 10.958
9
23 47 34.31
9.1934
1 15 52.8
11.393
10
22 5 6.01
9.1784
7 21 21.4
10.304
10
23 49 45.95
9.1945
1 27 12.1
11.319
11
22 7 16.71
9.1781
7 11 1.8
10.349
11
23 51 57.65
9.1956
1 38 31.1
11414
12
22 9 27.39
9.1778
7 0 39.5
10.393
12
23 54 9.42
9.1968
1 49 49.8
11408
13
22 11 38.05
9.1776
6 50 14.6
10.436
13
23 56 21.26
9.1980
2 1 8.1
11401
14
22 13 48.70
9.1773
6 39 47.1
10.478
14
23 58 33.18
9.1993
2 12 25.9
11.999
15
22 15 59.33
9.1771
6 29 17.2
10.519
15
0 0 45.18
9.9007
2 23 43.2
11483
16
22 18 9.95
9.1769
6 18 44.8
10 560
16
0 2 57.26
9.9090
2 34 59.9
11.973
17
22 20 20.56
9.1767
6 8 10.0
10.599
17
0 5 9.42
9.9033
2 46 16.0
11.969
18
22 22 31.15
9.1766
5 57 32.9
10.637
18
0 7 21.66
94047
2 57 31,3
11.949
19
22 24 41.74
9.1764
5 46 53.6
10.674
19
0 9 33.99
94069
3 8 45.8
11.935
20
22 26 52.32
9.1763
5 36 12.0
10.711
20
0 11 46.41
9.9077
3 19 59.5
11.991
21
22 29 2.89
9.1769
5 25 28.3
10.746
21
0 13 58.91
94099
3 31 12.3
11405
22
22 31 13.46
9.1769
5 14 42.5
10.780
22
0 16 11.51
94J07
3 42 24.1
11.187
23
22 33 24.03
9.1761
8. 5 3 54.7
10.813
23
0 18 24.20
9.9193
N. 3 53 34.8
11.168
WEI
XNESD
AY 30.
FBIDAS
r, FEB
EUAEY 1.
0
1
22 35 34.59
22 37 45.15
9.1760
9.1761
8. 4 53 4.9
4 42 13.2
10.846
10.877
0 J 020 36.991
94140
N. 4 4 44.3
11.148
2
22 39 55.72
9.1769
4 31 19.7
10.907
3*
22 42 6.29
9.1763
4 20 24.4
10.936
4
22 44 16.87
9.1763
4 9 27.4
10.964
5
22 46 27.45
9.1764
3 58 28.7
10.999
PHASES
OF T
HE MOON
6
7
22 48 38.04
22 50 48.64
9.1766
3 47 28.4
3 36 26.6
11.018
9.1766
11.043
8
22 52 59.25
9.1770
3 25 23.3
11.066
d h
m
9
10
22 55 9.88
22 57 20.53
9.1773
9.1776
3 14 18.6
3 3 12.6
11.069
11.119
J) First Quart
ter • .
. 5 9
35.1
11
22 59 31.19
9.1778
2 52 5.2
11.133
O Full Moon
• • «
• 12 3
27.1
12
23 1 41.87
9.1789
2 40 56.6
11.159
<C Last Quart
er. • ,
• 19 17
23.3
13
14
23 3 52.57
23 6 3.30
9.1786
9.1790
2 29 46.9
2 18 36.1
11.171
11.189
• New Moon
. . .
• 27 17
1.2
15
16
23 8 14.05
23 10 24.83
9.1794
9.1799
2 7 245
1 56 11.4
11.906
11.999
17
23 12 a5.64
9.1804
1 44 57.6
11.936
d h
18
23 14 46.48
9.1809
1 33 43.0
11.949
<C Perigee. .
. 9 4.7
19
23 16 57.35
9.1815
1 22 27.7
11.269
20
23 19 8.26
9.1899
1 11 11.6
11.973
C Apogee. .
■ . 20 23.3
21
23 21 19.21
9.1898
0 59 54.9
11.983
22
23 23 30.20
9.1635
0 48 37.6
11.999
23
23 25 41.23
9.1649
0 37 19.8
11.301
24
23 27 52.31
9.1850
S. 0 26 1.5
11.308
14
JANUARY, 1884.
xm.
GREENWICH MEAN TIME.
LUNAE DISTAKCE&
Name and Direction
Noon.
P.L.
of
Iflh.
P.L.
of
VI*.
P.L.
of
i».
P.L.
of
of Object.
Diff.
Diff.
Diff.
Diff.
1
Sun
W.
35 15 13
3096
o / //
36 44 54
3014
38 14 50
3009
O * ll
39 45 0
9991
a Arietis
E.
79 52 19
8706
78 15 47
9699
76 39 5
9699
75 2 14
9684
Aldebaran
E.
112 58 40
9634
111 20 31
9696
109 42 11
9617
108 3 39
9609
2
Sun
W.
47 19 13
9939
48 50 43
9999
50 22 25
9919
51 54 20
9909
Venus
W.
22 34 47
3190
24 1 8
3159
25 28 6
3132
26 55 37
3107
a Arietis
E.
66 55 43
9653
65 18 0
9647
63 40 9
9641
62 2 10
9636
Saturn
E.
95 32 38
954?
93 52 30
9538
92 12 10
9530
90 31 39
9592
Aldebaran
E.
99 48 11
9568
98 8 32
9560
96 28 42
9551
94 48 40
9543
3
Sun
W.
59 36 59
9669
61 10 7
8959
62 43 28
9849
64 17 1
9833
Venus
W.
34 19 50
3013
35 49 47
9997
37 20 3
9989
38 50 38
9968
a Arietis
E.
53 50 41
9616
52 12 8
9613
50 &3 31
9611
48 54 51
9610
Saturn
E.
82 6 18
9483
80 24 40
9474
78 42 50
9466
77 0 49
9458
Aldebaran
E.
86 25 41
9509
84 44 31
9494
83 3 10
9486
81 21 37
9478
4
Sun
W.
72 7 46
9786
73 42 32
9777
75 17 30
9769
76 52 39
9759
Venus
W.
46 27 50
9904
48 0 4
9899
49 32 33
9880
51 5 17
9869
a Arietis
E.
40 41 27
9617
39 2 55
9693
37 24 31
9632
35 46 19
9649
Saturn
E.
68 27 49
9417
66 44 38
9409
65 1 16
9400
63 17 42
9399
Aldebaran
E.
72 50 59
9436
71 8 16
2499
69 25 22
9420
67 42 16
9419
5
Sun
W.
84 51 27
9713
86 27 49
9705
88 4 22
9696
89 41 7
9687
Venus
W.
58 52 30
9814
60 26 39
9804
62 1 1
2795
63 35 36
9785
Fomalhaut
W.
42 58 52
3418
44 20 48
3345
45 44 7
3980
47 8 42
3220
Saturn
E.
54 36 54
9351
52 52 9
9344
51 7 13
9335
49 22 5
9327
Aldebaran
E.
59 3 50
9371
57 19 34
9363
55 35 6
9355
53 50 26
9347
6
Sun
W.
97 47 48
9645
99 25 42
9637
101 3 47
9629
102 42 3
9621
Vesus
W.
71 31 44
9730
73 7 36
9797
74 43 40
9719
76 19 55
9710
Fomalhaut
W.
54 27 31
9989
55 57 57
9953
57 29 9
9920
59 1 3
9889
a Pegasi
W.
36 15 6
9835
37 48 48
9786
39 23 34
2743
40 59 17
9704
Saturn
E.
40 33 30
9968
38 47 13
9281
37 0 45
9973
35 14 6
9966
Aldebaran
E.
45 4 19
9309
43 18 32
9309
41 32 35
9295
39 46 28
9287
Pollux
E.
88 8 39
9393
86 24 54
9386
84 40 59
9379
82 56 54
9372
Jupiter
E.
97 52 1
9984
96 5 38
9977
94 19 4
9269
92 32 19
9269
7
Sun
W.
110 55 57
9585
112 35 13
2578
114 14 38
9579
115 54 11
9566
Venus
W.
84 23 58
9670
86 1 18
9663
87 38 48
9656
89 16 27
. 9649
Fomalhaut
W.
66 49 26
9766
68 24 38
9747
70 0 15
9729
71 36 16
9713
a Pegasi
W.
49 9 20
9558
50 49 13
9536
52 29 36
9515
54 10 28
9497
Pollux
E.
74 14 12
9344
72 29 16
9339
70 44 13
9335
68 59 4
9331
Jo PITER
E.
83 25 T>2
9296
81 48 4
9920
80 0 7
9914
78 12 1
9208
Mars
E.
102 48 24
9933
101 0 46
9297
99 12 58
9919
97 24 59
9919
8
Fomalhaut
W.
79 41 9
9659
81 18 54
9643
82 56 51
9635
84 34 58
9639
a Pegasi
W.
62 40 34
9495
64 23 33
9414
66 6 48
9404
67 50 17
9395
Pollux
E.
60 12 22
9394
58 26 57
9324
56 41 32
9395
54 56 9
2328
Jupiter
E.
69 9 32
9184
67 20 41
9181
65 31 45
2178
63 42 45
2176
Mars
E.
88 22 45
9184
86 33 54
9180
84 44 57
9176
82 55 53
9172
Regulus
E.
96 18 27
9915
94 30 22
9211
92 42 11
9907
90 53 54
2203
9
a Arietis
W.
32 55 40
9496
34 38 38
9409
36 22 10
9389
38 6 11
9365
XIV.
JANUARY, 1884.
15
GREENWICH MEAN TIME.
LUNAB DISTANCES.
9
P.L.
P.L.
P.L.
P.L.
Name and Direction
Midnight.
of
xv*.
of
xvm*
of
XXI*
of
1*
of Object.
Diff.
Diff. ,
Diff.
Diff.
1
Sun
W.
41° 15 24
9981
42 46 1
9970
44 16 52
9959
45 47 56
9949
a Arietis
E.
73 25 13
9677
71 48 3
9679
70 10 45
9665
68 33 18
8659
Aldebaran
E.
106 24 56
9601
104 46 2
9599
103 6 56
9584
101 27 39
9576
2
Sun
W.
53 26 27
9699
54 58 47
9890
56 31 19
9880
58 4 3
9871
Venus
W.
28 23 38
3066
29 52 6
3065
31 20 58
3047
32 50 13
3099
a Arietis
E.
60 24 4
9639
58 45 52
9697
57 7 34
9693
55 29 10
9619
Saturn
E.
88 50 57
9514
87 10 4
9507
85 29 0
9499
83 47 45
9490
Aldebaran
E.
93 8 27
9535
91 28 3
9907
89 47 27
9519
88 6 40
9510
3
Sun
W.
65 50 46
9894
67 24 43
9814
68 58 52
9805
70 33 13
9796
Venus
W.
40 21 31
9954
41 52 41
9941
43 24 8
9998
44 55 51
9916
a Arietis
E.
47 16 9
9609
45 37 26
9610
43 58 44
9611
42 20 4
9613
Saturn
E.
75 18 36
9450
73 36 12
9441
71 53 36
9433
70 10 48
9495
Aldebaran
E.
79 39 53
9470
77 57 57
9461
76 15 49
9453
74 33 30
9445
4
Sun
W.
78 28 0
9750
80 3 33
9741
81 39 19
9731
83 15 17
9799
Venus
W.
52 38 15
9859
54 11 27
9847
55 44 54
9836
57 18 35
9895
a Arietis
E.
34 8 21
9655
32 30 41
9679
30 53 24
96S4
29 16 36
9791
Saturn
E.
61 33 56
9384
59 49 58
9375
58 5 48
9368
56 21 27
9359
Aldebaran
K
65 58 58
9403
64 15 28
9396
62 31 47
9387
60 47 54
9380
5
Sun
W.
91 18 4
9678
92 55 13
9670
94 32 33
9661
96 10 5
9653
Venus
W.
65 10 24
9775
66 45 25
9765
68 20 39
9756
69 56 5
9746
Fomalhaut
W.
48 34 27
3166
50 1 17
3116
51 29 7
3070
52 57 53
3098
Saturn
E.
47 36 45
9319
45 51 13
9311
44 5 30
9304
42 19 36
9996
Aldebaran
E.
52 535
9339
50 20 33
9339
48 35 20
9394
46 49 55
9316
6
Suw
W.
104 20 30
9613
105 59 7
9606
107 37 54
9599
109 16 51
9599
Venus
W.
77 56 21
9701
79 32 59
9693
81 9 48
9685
82 46 48
9677
Fomalhaut
W.
60 33 36
9861
62 6 45
9835
63 40 28
9811
65 14 42
9788
aPegasi
W.
42 35 51
9669
44 13 12
9637
45 51 16
9608
47 30 0
9589
Saturn
E.
33 27 17
9959
31 40 17
9959
29 53 7
9945
28 5 47
9939
Aldebaran
E.
38 0 10
9981
36 13 42
9975
34 27 5
9969
32 40 20
9964
Pollux
E.
81 12 39
9366
79 28 15
9360
77 43 42
9354
75 59 1
9348
Jupiter
E.
90 45 23
9954
88 58 16
9947
87 10 58
9940
85 23 30
9933
7
Sun
W.
117 33 52
9561
119 13 41
9566
120 53 37
9551
122 a3 39
9547
Venus
W.
90 54 16
9643
92 32 13
9636
94 10 19
9631
95 48 32
9696
Fomalhaut
W.
73 12 38
9698
74 49 20
9684
76 26 21
9679
78 3 38
9669
aPegasi
W.
55 51 45
9480
57 33 26
9465
59 15 29
9450
60 57 52
9437
Pollux
E.
a 13 50
9398
65 28 32
9396
63 43 11
9394
61 57 47
SJ394
Jupiter
E.
76 23 46
9903
74 35 23
9198
72 46 53
9194
70 58 16
9189
Mars
E.
95 36 50
9906
93 48 32
9900
92. 0 5
9194
90 11 29
9189
8
Fomalhaut
,w.
66 13 13
9694
87 51 36
9690
89 30 4
9617
91 8 36
9615
aPegasi
W.
69 33 59
9387
71 17 53
9380
73 1 57
9374
74 46 9
9369 ,
Pollux
E.
53 10 50
9331
51 25 36
9336
49 40 29
9349
47 55 31
9350
Jupiter
E.
61 53 41
9173
60 4 33
9171
58 15 22
9170
56 26 9
9169
Mars
E.
81 6 44
9169
79 17 30
9167
77 28 13
2165
75 liS 53
9163
Regulus
E.
89 5 31
9900
87 17 3
9197
85 28 31
9195
83 39 56
9193
9
a Arietis
W.
39 50 36
9351'
41 35 21
9340
43 20 22
9330
45 5 37
9399
16
JANUARY, 1884.
XV.
GREENWICH MEAN TIME.
LUNAR DISTANCES.
1*
© g
P.L.
P.L.
P.L.
P. L.
Xame and Direotton
Noon.
of
ITIh.
of
Vlh.
of
IX*.
of
Is
of Object.
DUt
DUT.
DUT.
DUX
9
Pollux
E.
46 10 44
8359
44 26 10
8370
42 41 52
8368
40° 57 52
8398
Jupiter
E.
54 36 54
9109
52 47 39
8169
50 58 25
8170
49 9 12
9178
Mars
E.
73 49 30
8168
72 0 5
8169
70 10 40
9163
68 21 16
8164
Regulus
E.
81 51 18
9191
80 237
8190
78 13 55
8190
76 25 12
8190
10
a Arietis
W.
46 51 4
9316
48 36 40
8311
50 22 23
8306
52 8 11
8305
Jupiter
E.
40 4 8
9191
38 15 27
8198
36 26 57
8906
34 38 39
8916
MaRS
E.
59 14 56
9177
57 25 54
8188
55 37 0
9189
53 48 16
9196
Regulus
E.
67 21 50
9197
65 33 18
8900
63 44 51
8904
61 56 29
9908
11
a Arietis
W.
60 57 33
9309
62 43 19
9313
64 29 0
9317
66 14 34
8399
Saturn
W.
31 50 4
9903
33 38 27
8909
35 26 41
. 8916
37 14 45
9994
Aldebaran
W.
27 12 8
9999
28 59 53
8933
30 47 31
8839
32 35 0
8945
Mars
E.
44 47 42
9946
43 0 23
8960
41 13 25
8976
39 26 50
8994
Regulus
Spica
E.
52 56 30
9938
51 8 59
8945
49 21 39
8954
47 34 32
8964
E.
106 30 56
9914
104 42 50
8991
102 54 54
8989
101 7 9
8836
12
a Arietis
W.
75 0 11
8359
76 44 44
8368
78 29 4
8378
80 13 10
8389
Saturn
W.
46 12 0
8968
47 58 46
8979
49 45 16
8990
51 31 30
8301
Aldebaran
W.
41 29 44
9987
43 16 2
8997
45 2 6
8307
46 47 55
8318
Regulus
• Spica
E.
38 42 43
8390
36 57 13
8335
35 12 4
8350
33 27 17
8365
E.
92 11 26
8981
90 24 59
8991
88 38 47
8308
86 52 51
8314
13
Saturn
W.
60 18 24
8363
62 2 52
8377
63 47 0
23(01
65 30 48
8405
Aldebaran
W.
55 32 48
8380
57 16 52
8393
59 037
9406
60 44 3
8480
Spica
E.
78 7 30
8376
76 23 21
9389
74 39 31
8403
72 56' 1
8418
14
Saturn
W.
74 4 40
8479
75 46 23
8494
77 27 44
8510
79 8 43
8585
Aldebaran
W.
69 16 8
8494
70 57 30
8509
72 38 31
8535
74 19 10
9540
Pollux
W.
26 27 51
8898
30 0 13
8874
31 33 5
9656
33 620
8643
Spica
E.
64 23 42
8499
62 42 18
8507
61 1 15
9583
59 20 34
8539
Aj) tares
E.
109 50 59
8535
108 10 34
8550
106 30 30
8564
104 50 46
8580
15
Aldebaran
W.
82 36 57
8690
84 15 25
8635
85 53 32
8658
87 31 17
8068
Pollux
W.
40 55 15
8697
42 29 8
8631
44 2 56
8835
45 36 38
8841
Jupiter
W.
31 20 28
9646
32 58 20
9655
34 36 0
8666
36 13 26
8677
Spica
E.
51 2 39
8619
49 24 10
9635
47 46 3
8659
46 8 18
8668
Antares
E.
96 37 22
8657
94 59 45
9673
93 22 29
9689
91 45 34
8706
16
Aldebaran
W.
95 34 41
8746
97 10 20
8761
96 45 39
8776
100 20 38
8791
Pollux
W.
53 22 52
9683
54 55 33
8899
56 28 2
8903
58 0 17
8913
Jupiter '
W.
44 16 39
8738
45 52 28
8759
47 27 59
8765
49 3 13
8777
Mars
W.
27 12 14
8868
28 44 48
9876
30 17 35
8871
31 50 31
8866
Spica
E.
38 4 57
8747
36 29 20
9763
34 54 3
9779
33 19 7
9794
Antares
E.
83 46 17
8784
82 11 28
8800
80 37 0
8815
79 2 52
8830
Sun
E.
131 36 21
3134
130 8 53
3150
128 41 44
8165
127 14 53
3181
17
Pollux
W.
65 38 10
8968
67 9 3
8978
68 39 43
9989
70 10 10
3000
Jupiter
W.
56 55 14
8841
58 28 49
8853
60 2 8
8865
61 35 12
8877
Mars
W.
39 35 30
8875
41 8 21
8880
42 41 5
8685
44 13 43
8891
Regulus
W.
26 39 5
9989
30 10 56
8930
31 42 37
8938
33 14 7
8947
Antares
E.
71 17 3
8905
69 44 50
9919
68 12 55
8939
66 41 17
8946
Sun
E.
120 5 7
3853
118 40 1
* 3868
117 15 12
3881
115 50 38
3994
XVI.
JANUARY, 1884.
17
GREENWICH MEAN TIME.
LUNAR DISTANCES.
e
3
Namo and Direction
of Object.
Midnight
P.L:
of
Diff.
X\H>
P.L.
of
Diff
xvni*
P. L.
of
Diff.
XXP».
P.L.
of
Diff
9
Pollux
E.
O / $1
39 14 15
• 9417
o / //
37 31 4
9438
35 48 24
9464
3l 620
9494
Jupiter
E.
47 20 2
9174
45 30 55
9177
43 41 53
9181
41 52 57
9186
Mars
E.
66 31 54
9166
64 42 34
9167
62 53 17
9170
61 4 4
9173
Regulus
E.
74 36 29
2190.;
72 47 46
9191
70 59 5
9199
69 10 26
9194
10
a Arietis
W.
53 54 3
9304
55 39 57
931)4
57 25 51
9305
59 11 43
9308
Jupiter
E.
32 50 35
9996
31 2 47
9939
29 15 18
9954
27 28 11
9979
Mars
E.
51 59 43
9904
50 11 22
9913
48 23 14
9993
46 35 20
9933
Regulus
E.
60 8 13
9913
56 20 5
9918
56 32 4
9994
54 44 12
9931
11
a Arietis
W.
68 0 1
9398
69 45 19
9335
71 30 27
9349
73 15 25
9350
Saturn
W.
39 2 37
9939
40 50 17
9940
42 37 45
9949
44 25 0
9959
Aldebaran
w,
34 22 20
9953
36 9 29
9960
37 56 27
9969
39 43 12
9978
Mars
E.
37 40 42
9313
35 55 2
9335
34 9 53
9359
32 25 19
9387
Regulus
E.
45 47 39
9974
44 1 1
9984
Al 14 38
9996
40 28 32
9307
Spica
E.
99 19 35
9944
97 32 13
9953
95 45 4
9969
93 58 8
9971
12
a Arietis
W.
81 57 1
9400
83 40 36
9419
85 23 54
9494
87 6 55
9436
Saturn
w.
53 17 28
9313
55 3 9
9395
56 48 32
9337
58 33 37
9350
Aldebaran
w.
48 33 28
9330
50 16 44
9341
52 3 43
9353
53 48 25
9366
Regulus
Spica
E.
31 42 52
9389
29 58 52
9401
28 15 19
9491
26 32 15
9444
E.
85 7 12
9396
83 21 50
9337
81 36 45
9350
79 51 58
9363
13
Saturn
W.
€7 14 16
9419
68 57 23
9433
70 40 10
9448
72 22 36
9464
Aldebaran
W.
62 27 9
9435
64 9 54
9449
65 52 19
9463
67 34 24
9478
Spica
E.
71 12 52
9439
69 30 3
9447
67 47 35
9469
66 528
9477
14
Saturn
W.
80 49 21
9541
82 29 37
9558
84 9 30
9574
85 49 1
9590
Aldebaran
W.
75 59 27
9556
77 39 2-2
9579
79 18 55
9587
80 58 7
9604
Pollux
W.
34 39 52
9834
36 13 36
9898
37 47 27
9898
39 21 21
9896
Spica
E.
57 40 15
9555
56 0 18
9571
54 20 43
9587
52 41 30
9803
Antares
E.
103 11 23
9595
101 32 21
9610
99 53 40
9696
98 15 20
9649
15
Aldebaran
W.
89 8 40
96S4
90 45 42
9700
92 22 22
9715
93 58 42
9731
Pollux
W.
47 10 13
9848
48 43 39
98b6
50 16 54
9864
51 49 59
9873
Jupiter
W.
37 50 37
9689
39 27 32
9701
41 4 11
9713
42 40 33
9795
Spica
E.
44 30 55
9684
42 53 54
9700
41 17 14
9716
39 40 55
9731
Antares
E.
90 9 0
9791
88 32 48
9737
86 56 57
9753
85 21 27
9768
16
Aldebaran
W.
101 55 17
9806
103 29 37
9891
105 3 38
9835
106 37 21
9848
Pollux
W.
59 32 19
9994
61 4 7
9935
62 35 42
9948
64 7 3
9957
Jupiter
W.
50 38 11
9790
52 12 52
9803
53 47 16
9816
55 21 23
9898
Mars
•w.
33 23 31
9866
34 56 33
9666
36 29&5
9869
38 234
9871
Spica
E.
31 44 31
9806
30 10 14
9894
28 36 17
9839
27 2 40
9854
Antares
E.
77 29 3
9845
75 55 34
9861
74 22 25
9876
72 49 35
9690
Sun
E.
125 48 21
3196
124 22 7
3910
122 56 10
3995
121 30 30
3939
17
Pollux
W.
71 40 23
3010
73 10 23
3090
74 40 11
3031
76 9 46
3041
Jupiter
W.
63 8 0
9888
64 40 34
9899
66 12 54
9910
67 45 0
9990
Mars
W.
45 46 13
9897
47 18 36
9903
48 50 51
9909
50 22 58
9916
Regulus
W.
34 45 26
9955
36 16 35
9964
37 47 33
9973
39 18 20
9981
Antares
E.
65 9 57
9960
63 38 54
9973
62 8 7
9985
60 37 36
9999
Sun
E.
114 26 20
3307
113 2 17
3319
111 38 28
3339
110 14 53
3344
18
JANUARY, 1884.
XVII.
GREENWICH MEAN TIME.
LUNAR DISTANCES.
•
51
Nome and Direction
Noon.
P.L.
of
np».
P.L.
of
Vlh.
P.L.
of
ra>-
P.L.
of
I1
of Objeot.
DMT.
Dlff.
Diff.
Diff.
18
Pollux
W.
7739 8
9080
O / U
79 8 19
3060
80 37 18
3069
O ' //
82 6 6
3078
JUPITER
W.
09 16 53
9931
70 48 33
9940
72 20 1
9950
73 51 17
9959
Mars
w.
51 54 57
8998
53 26 48
9999
54 58 30
9935
56 30 5
9941
Regulus
w.
40 48 56
8990
42 19 21
9996
43 49 36
3006
45 19 41
3014
Antares
E.
59 7 22
3019
57 37 24
3094
56 7 41
3035
54 38 12
3047
Sun
E.
108 51 32
3356
107 28 24
3366
106 5 29
3377
104 42 46
3386
19
Jupiter
W.
81 24 56
9997
82 55 12
3004
84 25 20
3010
85 55 20
3016
Mars
W.
64 6 8
9968
65 37 1
9973
67 7 48
9977
68 38 30
9981
Kegulus
W.
52 47 47
3049
54 16 59
3055
55 46 4
3060
57 15 3
3085
Antares
E.
47 14 20
3103
45 46 14
3114
44 18 22
3195
42 50 43
3135
Sun
E.
97 51 52
3431
96 30 10
3438
95 8 36
3444
93 47 9
3450
20
Jupiter
W.
93 23 47
3037
94 53 14
3039
96 22 38
3049
97 51 59
3044
Mars
W.
76 10 51
9996
77 41 9
9997
79 11 25
9998
80 41 40
9999
Regulus
W.
64 38 32
3084
66 7 1
3086
67 35 28
3067
69 3 53
3089
Antares
E.
35 35 42
3199
34 9 23
3905
32 43 20
3919
31 17 33
3934
Sun
E.
87 I 28
3474
85 4035
3477
84 19 45
3479
82 58 57
3481
21
Mars
W.
88 12 46
9998
89 43 1
9997
91 13 18
9996
92 43 37
9993
Regulus
Spica
W.
76 25 40
3090
77 54 2
3088
79 22 26
3086
80 50 53
3084
W.
22 42 24
3083
24 10 54
3089
25 39 26
3079
27 8 1
3076
Sun
E.
76 15 23
3483
74 54 40
3489
73 33 56
3481
72 13 11
3479
22
Regulus
Spica
W.
88 13 56
3067
89 42 46
3069
91 11 42
3056
92 40 45
3050
W.
34 32 0
3066
36 1 4
3051
37 30 14
3046
38 59 30
3040
Sun
E.
65 28 39
3469
64 7 32
3457
62 46 20
3459
61 25 2
3446
23
Regulus
Spica
W.
100 7 55
3018
101 37 46
3010
103 7 47
3001
104 37 58
9993
W.
46 27 50
3005
47 57 57
9997
49 28 14
9989
50 58 41
9980
Sun
E.
54 36 46
3413
53 14 44
3405
51 52 33
3396
50 30 12
3387
24
Regulus
Spica
W.
112 11 35
9948
113 42 53
9938
115 14 24
9998
116 46 7
9918
W.
58 33 48
9939
60 5 26
9999
61 37 17
9919
63 9 21
9901
Sun
E.
43 36 2
3344
42 12 42
3335
40 49 11
3396
39 25 29
3317
25
Spica
W.
70 53 9
9845
72 26 38
9834
74 0 22
9899
75 34 21
9811
Antares
W.
26 19 40
3048
27 48 53
3016
29 18 46
9987
30 49 15
9961
Sun
E.
32 24 24
3973
30 59 41
3986
29 34 50
3959
28 9 51
3953
29
Sun
W.
16 33 57
3018
18 3 47
9980
19 34 25
9948
21 5 43
9991
a Arietis
E.
70 33 39
9577
68 54 13
9579
67 14 39
9565
65 34 56
9560
Aldebaran
E.
103 28 22
9493
101 46 59
9481
100 5 24
9476
98 23 37
9467
90
Sun
W.
28 49 26
9898
30 23 17
9815
31 57 25
9803
33 31 49
9799
a Arietis
E.
57 14 41
9540
55 34 23
9538
53 54 2
9537
52 13 40
9536
Saturn
E.
84 40 59
9496
82 58 2
9419
81 14 55
9419
79 31 38
9406
Aldebaran
E.
89 51 53
9430
88 9 1
9494
86 26 0
9417
84 42 49
9410
31
Sun
W.
41 27 9
9747
43 2 47
9739
44 38 35
9739
46 14 33
9795
a Arietis
E.
43 52 7
9550
42 12 3
9557
40 32 9
9566
38 52 27
9576
Saturn
E.
70 53 7
9379
69 9 2
9373
67 24 49
9369
65 40 30
9365
Aldebaran
E.
76 4 47
9383
74 20 48
9378
72 36 41
9373
70 52 27
9368
XVIII.
JANUARY, 1884.
19
GREENWICH MEAN TIME.
LUNAR DISTANCES.
•
Name and Direction
of (jltfeot.
Midnight.
P.L.
of
DuT.
XVh.
P L.
of
Dlff.
xvhp»
P.L.
of
DuT.
XXlb
P.L.
Of
Dlff.
18
Pollux
W.
83° 34 43
3086
0 / li
85 3 10
3004
86 3l' 27
3101
8^59 35
3109
Jupiter
W.
75 22 21
9966
76 53 14
9976
78 23 57
9083
79 54 31
9990
Mars
w.
58 1 32
9946
59 32 52
9953
64 4 4
9958
62 35 9
9063
Regulue
w.
46 49 36
3099
48 19 22
3099
49 48 59
3036
51 18 27
3043
Antares
E.
53 8 57
3050
51 39 57
3070
50 11 11
3089
48 42 39
3009
Sun
£.
103 20 14
3396
101 57 53
3406
100 35 43
3415
99 13 43
3493
19
Jupiter
W.
87 25 13
3099
88 54 59
3086
90 24 40
3030
91 54 16
3034
Mars
W.
70 9 6
9965
71 39 38
9988
73 10 6
9991
74 40 30
9903
Regulus
W.
58 43 55
3070
60 12 41
3074
61 41 22
3078
63 9 59
3081
A ti tares
E.
41 23 16
3146
39 56 2
3157
38 29 2
3168
37 2 15
3180
Bun
E.
92 25 49
3456
91 4 35
3461
89 43 27
3466
88 22 25
3471
20
Jupiter
W.
99 21 17
3046
100 50 33
3047
102 19 48
3047
103 49 3
3047
Mars
W.
82 11 54
3000
83 42 7
3001
85 12 19
3000
86 42 32
9999
Regulus
W.
70 32 }6
3090
72 0 38
3091
73 28 59
3001
74 57 19
3001
Antares
E.
29 52 4
3951
28 26 55
3960
27 2 7
3960
25 37 43
3313
Sun
E.
81 38 12
3483
80 17 29
3484
78 56 47
3484
77 36 5
3484
21
Mars
W.
94 13 58
9990
95 44 23
9988
97 14 51
9965
98 45 23
9981
Regulus
W.
82 19 22
3089
83 47 54
3078
85 16 30
3074
86 45 11
3071
Spica
W.
28 36 40
3073
30 5 23
3060
31 34 10
3065
33 3 2
3061
Sun
E.
70 52 23
3476
69 31 32
3473
68 10 38
3471
66 49 41
3466
22
Regulus
W.
94 9 56
3044
95 39 14
3038
97 8 39
3031
98 38 13
3095
Spica
W.
40 28 53
3033
41 58 25
3096
43 28 5
3090
44 57 53
3013
Sun
E.
60 3 37
3430
58 42 5
3433
57 20 26
3497
55 58 40
3490
23
Repulus
W.
106 8 19
9085
107 38 51
9976
109 9 34
9966
110 40 29
9957
Spica
W.
52 29 19
9970
54 0 9
9961
55 31 10
9959
57 2 23
9049
Sun
E.
49 7 41
3379
47 45 1
3371
46 22 12
3369
44 59 12
3353
24
Regulus
W.
118 18 3
9906
119 50 12
9898
121 22 34
9867
122 55 9
9676
Spica
W.
64 41 38
9890
66 14 9
9879
67 46 55
9868
69 19 55
9857
Sun
E.
38 1 37
3308
36 37 35
3990
35 13 22
3989
33 48 58
3981
25
Spica
W.
77 8 35
9798
78 43 5
9787
80 17 50
9775
81 52 51
9763
Antnres
W.
32 20 17
9937
33 51 49
9914
35 23 50
9899
36 56 19
9879
Sun
E.
26 44 44
3948
25 19 31
3945
23 54 15
3944
22 28 58
3945
29
Sun
W.
22 37 35
9896
24 9 56
9878
25 42 43
9850
27 15 54
9843
a Arietis
E.
63 55 6
9655
62 15 9
9550
60 35 5
9545
58 54 55
9543
Aldebaran
E.
96 41 38
9460
94 59 28
9459
93 17 7
9444
91 34 35
9437
do
Sun
W.
35 6 27
9789
36 41 19
9779
38 16 24
9763
39 51 41
9754
a Arietis
E.
50 33 17
9537
48 52 55
9538
47 12 35
9540
45 32 18
2545
Saturn
E.
77 48 12
9400
76 4 37
9304
74 20 54
9369
72 37 4
9384
Aldebaran
E.
82 59 29
9406
81 l(S 1
9308
79 32 24
9393
77 48 39
9366
31
Sun
W.
47 50 40
9718
49 26 56
9713
51 3 19
9707
52 39 49
9709
a Arietis
E.
37 12 59
9549
35 33 49
9606
33 55 2
9695
32 16 41
S640
Saturn
E.
63 56 5
9361
62 11 34
9357
60 26 57
9353
58 42 14
8348
Aldebaran
E.
69 8 7
9364
67 23 41
9360
65 39 8
9356
63 54 30
9559
20
FEBRUARY, 1884.
I.
AT GREENWICH APPARENT NOON.
1
3
8
£
*
0
«
a
3
•8
•8
b
►>
&
£
Frid.
l
Sat.
2
SUN.
3
Mon.
4
Tues.
5
Wed.
6
Thur.
7
Frid.
8
Sat.
9
SUN.
10
Mon.
11
Tues.
12
Wed.
13
Thur.
14
Frid.
15
Sat.
16
SUN.
17
Mon.
18
Tues.
19
Wed.
20
Thur.
21
Frid.
22
Sat.
23
SUN.
24
Mon.
25
Tues.
26
Wed.
27
Thur.
28
Frid.
29
Sat.
30
THE SUN'S
Apparent
Bight Ascension.
20 58 16.00
21 2 20.37
21 6 23.90
21 10 26.59
21 14 28.44
21 18 29.45
21 22 29.64
21 26 29.01
21 30 27.57
21 34 25.33
21 38 22.29
21 42 18.49
21 46 13.93
21 50 8.62
21 54 2.58
21 57 55.82
22 1 48.35
22 5 40.19
22
22
22
9 31.37
13 21.89
17 11.75
22 21 0.99
22 24 49.60
22 28 37.60
22 32 25.01
22 36 11.83
22 39 58.08
22 43 43.79
22 47 28.96
22 51 13.59
Diff. for
lHonr.
10.200
10.IG5
10.130
10.094
10.059
10.025
9.990
9.957
9.924
9.891
9.859
9.827
9.796
9.765
9.733
9.703
9.674
9.646
9.619
9.592
9.565
9.538
9.513
9.488
9.463
9.439
9.416
9.394
9.372
9.350
Apparent
Declination.
Dill for
1 Hoar.
S. 17° 10 28J2
16 53 19.0
16 35 52.2
+42.50
43.25
43.97
16 18 8.2
16 0 7.4
15 41 50.2
+44.68
45.38
46.05
15 23 17.0
15 4 28.2
14 45 24.2
+46.71
47.36
47.98
14 26 5.4
14 6 32.2
13 46 45.0
+48.58
49.18
49.75
13 26 44.3
13 6 30.2
12 46 3.3
+50.31
50.85
51.37
12 25 24.1
12 4 33.0
11 43 30.3
+51.88
52.37
52.84
11 22 16.4
11 0 51.7
10 39 16.8
+53.30
53.74
54.16
10 17 32.0
9 55 37.6
9 33 34.2
+54.57
54.95
55.32
9 11 22.1
8 49 1.9
8 26 33.9
+55.68
56.02
56.33
8 3 58.4
7 41 15.9
S. 7 18 27.0
+56.63
56.91
+57.16
Semi-
diameter.
16 16.07
16 15.92
16 15.78
16 15.62
16 15.46
16 15.30
16 15.15
16 14.97
16 14.79
16 14.61
16 14.43
16 14.23
16 14.03
16 13.83
16 13.63
16 13.42
16 13.22
16 13.00
16 12.78
16 12.55
16 12.33
16 12.10
16 11.87
16 11.64
16 11.41
16 11.17
16 10.94
16 10.71
16 10.46
16 10.22
Sidereal
Time of
Semi-
diameter
Passing
Meridian.
68.30
68.18
68.07
67.95
67.84
67.72
67.61
67.49
67.38
67.27
67.16
67.05
66.94
66.83
66.73
66.63
66.52
66.42
66.32
66.23
66.13
66.04
65.95
65.86
65.77
65.69
65.61
65.53
65.45
65.37
Equation of
Time,
to be
Added to
Apparent
Time.
13 47.10
13 54.90
14 1.86
14 7.98
14 13.26
14 17.70
14 21.32
14 24.13
14 26.13
14 27.33
14 27.75
14 27.40
14 26.29
14 24.43
14 21.84
14 18.53
14 14.52
14 9.83
14 4.47
13 58.45
13 51.78
13 44.47
13 36.55
13 28.03
13 18.91
13 9.20
12 58.93
12 48.12
12 36.76
12 24.86
DUE for
1 Hoar.
0.343
0.307
0.272
0.237
0.203
0.168
0.132
0.101
0.068
0.035
0.003
0.029
0.061
0.091
0.122
0.153
0.182
0.210
0.237
0.264
0.291
0.318
0.343
0.368
0.393
0.417
0.440
0.462
0.484
0.506
Nom— The mean time of semidiameter passing may be found by subtracting 0M8 from the sidereal time.
The sign + prefixed to the hourly change of declination indicates that south declinations are decreasing.
n.
FEBRUARY, 1884.
21
AT GREENWICH MEAN NOON.
THE
SUN'S
1
1
1
Bqoation of
Time,
to be
Sidereal
Time,
or
5
Apparent
Bight Ascension.
DUT. for
1 Hoar.
Apparent
Declination.
DHL for
1 Hour.
Subtracted
from
Mean Time.
Dift for
1 Hoor.
Bight Aeceuirfon
of
Mean Siiii.
Frid.
1
h m ■
20 58 13.65
10.199
S. 17° 10 3&0
+42.49
ID S
13 47.02
0.343
h ni s
20 44 26.63
Sat.
2
21 2 18.01
10.164
16 53 29.1
43.24
13 54.83
0.307
20 48 23.18
SUN.
3
21 6 21.53
10.199
16 36 2.6
43.96
14 1.79
0.272
20 52 19.74
Mon.
4
21 10 24.21
10.094
16 18 18.8
+44.67
14 7.92
0.237
20 56 16.29
Tues.
5
21 14 26.06
10 059
16 0 18.2
45.37
14 13.21
0.203
21 0 12.85
Wed.
6
21 18 27.07
10.025
15 42 1.2
46.04
14 17.66
0.168
21 4 9.40
Thur.
7
21 22 27.25
9.991
15 23 28.2
+46.70
14 21.29
0.134
21 8 5.96
Frid.
8
21 26 26.62
9.957
15 4 39.6
47.35
14 24.11
0.101
21 12 2.51
Sat.
9
21 30 25.18
9.984
14 45 35.8
47.97
14 26.12
0.068
21 15 59.07
SUN.
10
21 34 22.95
9.891
14 26 17.2
+48.57
14 27.33
0.035
21 19 55.62
Mon.
11
21 38 19.92
9.859
14 6 44.1
49.17
14 27.75
0.003
21 23 52.18
Tues.
12
21 42 16.13
9.887
13 46 57.0
49.74
14 27.40
0.029
21 27 48.73
Wed.
13
21 46 11.58
9.796
13 26 56.5
+50.30
14 26.30
0.061
21 31 45.28
Thur.
14
21 50 6.28
9.765
13 6 42.4
50.84
14 24.45
0.091
21 35 41.83
Frid.
15
21 54 0.25
9.734
12 46 15.6
51.37
14 21.86
0.122
21 39 38.39
Sat
16
21 57 53.51
9.703
12 25 36.5
+51.88
14 18.56
0.153
21 43 34.94
SUN.
17
22 1 46.06
9.675
12 4 45.5
53.37
14 14.56
0.182
21 47 31.50
Mon.
18
22 5 37.92
9.647
11 43 42.8
52.84
14 9.87
0.210
21 51 28.05
Tues.
19
22 9 29.12
9.620
11 22 28.9
+53.30
14 4.52
0.237
21 55 24.60
Wed.
20
22 13 19.66
9.593
11 1 4.2
53.74
13 58.51
0.264
21 59 21.15
Thur.
21
22 17 9.54
9.566
10 39 29.3
54.16
13 51.84
0.291
22 3 17.71
Frid.
22
22 20 58.80
9.539
10 17 44.5
+54.57
13 44.54
0.318
22 7 14.26
Sat.
23
22 24 47.44
9.514
9 55 50.1
54.95
13 36.63
0.343
22 11 10.81
SUN.
24
22 28 35.47
9.489
9 33 46.6
55.32
13 28.11
0.368
22 15 7.86
Mon.
25
22 32 22.91
9.464
9 11 34.5
+55.68
13 18.99
0.393
22 19* 3.92
Tues.
26
22 36 9.76
9.440
8 49 14.2
56.02
13 9.29
0.417
22 23 0.47
Wed.
27
22 39 56.04
9.417
8 26 46.1
56.33
12 59.02
0.440
22 26 57.02
Thur.
26
22 43 41.78
9.395
8 4 10.5
+56.63
12 48.21
0.462
22 30 53.57
Frid.
29
22 47 26.98
9.373
7 41 27.9
56.91
12 36.85
0.484
22 34 50.13
Sat.
30
22 51 11.64
9.351
S. 7 18 38.8
+57.17
12 24.96
0.506
22 38 46.68
Bote.— Th
Th
Mf
e semidiameter for n
e sign + prefixed to
> decreasing.
neon noon
thehonrl
may be assumed the same as ti
j change of declination indicate
liat for apparent
* that south dec
noon,
llnationa
Diff. for 1 Hour,
+ 9«.8565.
(Table m.)
22
FEBRUARY, 1884.
in.
•
AT GREENWICH MEAN NOON.
•
THE SUN'S
i
3
1
2
i
1
Logarithm
of the
Radios Voetor
of the
Earth.
Dim for
1 Hour.
Mean Time
of
Sidereal Noon.
TBUB LONGITUDE.
Diff. for
1 Hour.
LATITUDE.
X
A'
1
2
3
32
33
34
312 5 5L6
313 6 44.1
314 7 35.2
5 38*0
6 30.4
7 21.4
152.21
152.16
152.10
+ 0!'22
+ 0.10
-0.02
9.9936986
9.9937627
9.9938284
+ 26.3
27.0
27.7
h m a
3 15 1.33
3 11 5.43
3 7 9.52
4
5
6
35
36
37
315 8 24.8
316 9 12 8
317 9 59.3
8 10.9
8 58.8
9 45.2
152.03
151.96
151.91
-0.16
0.27
0.37
9.9938959
9.9939654
9.9940367
+ 28.5
29.3
30.1
3 3 13.61
2 59 17.70
2 55 21.79
7
8
9
38
39
40
318 10 44.5
319 11 281
320 12 10.1
10 30.2
11 13.7
11 55.7
151.85
151.78
151.72
-0.44
0.49
0.51
9.9941100
9.9941856
9.9942636
+ 31.0
32.0
33.0
2 51 25.88
2 47 29.97
2 43 34.06
10
11
12
41
42
43
321 12 50.8
322 13 29.9
323 14 7.7
12 36.2
13 15.2
13 52.9
151.67
151.60
151.55
-0i49
0.44
0.36
9.9943438
9.9944264
9.9945111
+ 33.9
34.8
35.7
2 39 38.16
2 35 42.25
2 31 46.34
13
14
15
44
45
46
324 14 44.2
325 15 19.2
326 15 52.8
14 29.2
15 4.1
15 37.6
151.49
151.43
151.37
-0.26
0.16
- 0.03
9.9945980
9.9946872
9.9947783
+ 36.7
37.6
38.4
2 27 50.43
2 23 54.53
2 19 58.62
16
17
18
47
48
49
327 16 25.2
328 16 56.5
329 17 26.4
16 9.9
16 41.0
17 10.9
151.33
151.28
151.22
+ 0.11
0.24
0.37
9.9948715
9.9949666
9.9950632
+ 39.2
39.9
40.6
2 16 2.71
2 12 6.80
2 8 10.89
19
20
21
50
51
52
330 17 55.1
331 18 22.4
332 18 48.3
17 39.5
18 6.7
18 32.5
151.17
151.11
151.05
+ 0.50
0.60
0.66
9.9951614
9.9952609
9.9953617
+ 41.1
41.7
42.2
2 4 14.98
2 0 19.07
1 56 23.17
22
23
24
53
54
55
333 19 12.9
334 19 35.8
335 19 57.3
18 56.9
19 19.8
19 41.2
150.99
150.92
150.86
+ 0.70
0.71
0.68
9.9954635
9.9955662
9.9956698
+ 42.6
43.0
43.3
1 52 27.27
1 48 31.36
1 44 35.45
25
26
27
56
57
58
336 20 17.2
337 20 35.5
338 20 52.0
20 1.0
20 19.2
20 35.6
150.79
150.72
150.65
+ 0.62
0.56
0.46
9.9957740
9.9958790
9.9959845
+ 43.6
43.9
44.1
1 40 39.54
1 36 43.64
1 32 47.73
28
29
30
59
60
61
339 21 6.7
340 21 19.4
341 21 30.2
20 50.2
21 2.9
21 13.6
150.57
150.49
150.40
+ 0.36
0.23
+ 0.10
9.9960905
9.9961972
9.9963046
+ 44.3
44.6
+ 44.9
1 28 51.82
1 24 55.92
1 21 0.01
iron
I.— The
the
numbers in column
mean equinox of Jai
A correspond to the tin
nuary 0*.0.
ie equinox of the date; in colui
nn k\ to
Diff. for 1 Hour,
— 9«.8296.
(Table II.)
IV.
FEBRUARY, 1884.
23
GREENWICH MEAN TIME.
1
THE
MOON'S
1
1
1
SEMIDIAMETER.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGE.
Noon.
Midnight.
Noon.
Diff. for
1 Hour.
Midnight.
Diff. for
1 Hour.
Meridian of
Greenwich.
Diff. for
1 Hoar.
Noon.
1
2
3
16 3.2
16 6.6
16 8.8
/ //
16 5.1
16 7.9
16 9.5
58' 48.2
59 0.9
59 9.0
+ 0.62
0.43
0.25
56 55" 1
59 5.5
59 11.4
+ 0.53
0.34
+ 0.16
h m
3 43.8
4 35.6
5 29.0
m
2.13
2.19
2.26
d
4.2
5.2
6.2
4
5
6
16 9.8
16 9.7
16 8.2
16 9.9
16 9.1
16 6.9
59 12.7
59 12.1
59 6.6
+ 0.07
-0.12
0.34
59 13.0
59 10.0
59 1.8
-0.02
0.22
0.46
6 24.2
7 21.1
8 18.9
2.34
2.40
2.41
7.2
8.2
9.2
7
8
9
16 5.2
16 0.5
15 54.1
16 3.1
15 57.5
15 50.3
58 55.6
58 38.4
58 14.7
-0.59
0.84
1.10
58 47.8
58 27.3
58 0.7
-0.72
0.97
1.22
9 16.6
10 13.0
11 7.2
2.38
2.31
2.20
10.2
11.2
12.2
10
11
12
15 46.1
15 36.8
15 26.8
15 41.5
15 31.8
15 21.7
57 45.3
57 11.2
56 34.5
-1.33
J .48
1.54
57 28.7
56 53.0
56 15.9
-1.42
1.52
1.54
11 58.8
12 48.0
13 35.0
2.10
2.00
1.92
13.2
14.2
15.2
13
14
15
15 16.7
15 7.3
14 59.3
15 11.9
15 3.1
14 56.0
55 57.6
55 23.1
54 53.7
-1.50
1.34
1.09
55 39.9
55 7.6
54 41.5
-1.43
1.23
0.93
14 20.4
15 5.0
15 49.1
1.87
1.84
1.84
16.2
17.2
18.2
16
17
18
14 53.2
14 49.5
14 48.6
14 51.1
14 48.7
14 49.1
54 31.3
54 17.7
54 14.1
-0.76
-0.37
+ 0.07
54 23.3
54 14.6
54 16.2
-0.57
-0.15
+ 0.28
16 33.5
17 18.8
18 5.1
1.87
1.90
1.95
19.2
20.2
21.2
19
20
21
14 50.4
14 55.1
15 2.5
14 52.5
14 58.5
15 7.0
54 21.fr
54 38.3
55 5.2
+ 0.50
0.93
1.30
54 28.4
54 50.6
55 21.9
+ 0.72
1.12
1.47
18 52.5
19 41.1
20 30.8
2.00
2.05
2.09
22.2
23.2
24.2
22
23
24
15 12.1
15 23.3
15 35.4
15 17.5
15 29.3
15 41.5
55 40.4
56 21.7
57 6.2
+ 1.61
1.80
1.87
56 0.4
56 43.8
57 28.6
+ 1.72
1.85
1.84
21 21.2
22 11.9
23 2.8
2.11
2.12
2.12
25.2
26.2
27.2
25
26
27
15 47.4
15 58.4
16 7.5
15 53.1
16 3.3
16 11.1
57 50.4
58 30.8
59 4.1
+ 1.77
1.55
1.20
58 11.3
58 48.5
59 17.2
+ 1.67
1.39
0.99
23 53.8
6
0 45.1
2.13
2.15
28.2
29.2
0.7
28
29
30
16 14.0
16 17.5
16 18.2
16 16.1
16 18.2
16 17.5
59 27.8
59 40.8
59 43.3
+ 0.77
+ 0.32
-0.10
59 35.7
59 43.3
59 40.9
+ 0.54
+ 0.11
-0.28
1 37.0
2 30.0
3 24.3
2.18
2.23
2.29
1.7
2.7
3.7
24
FEBRUARY, 1884.
GREENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Difll for
1 Minute.
Declination.
Dili, for
1 Minute.
Hoar.
Bight Ascension.
Dm: for
1 Minute.
D*jelination.
Difll for
1 Minute.
F
RIDA'
r 1.
SIMDAY 3.
h m 8
8
o / //
//
h m 8
8
Or//
//
0
0 20 36.99
94140
N. 4 4 44.3
11.148
0
2 9 23.31
94984
NU2 16 26.8
8413
1
0 22 49.88
9.9157
4 15 52.6
11.198
1
2 11 43.10
94313
12 25 19.4
6440
2
0 25 2.87
94173
4 26 59.7
11.107
2
2 14 3.06
94349
12 34 7.6
8.766
3
0 27 15.96
9.9191
4 38 5.5
11.085
3
2 16 23.20
94379
12 42 51.3
8490
4
0 29 29.16
9.9909
4 49 9.9
11.069
4
2 18 43.52
94401
12 51 30.4
8.614 '
5
0 31 42.47
9.9996
5 0 12£
11.037
5
2 21 4.01
94499
13 0 5.0
8437
6
0 33 55.88
9.9944
5 11 14.3
11.010
6
2 23 24.67
94458
13 8 34.9
8.459
7
0 36 9.40
9.9963
5 22 14.1
10489
7
2 25 45.51
94467
13 17 0.1
8479
8
0 38 23.04
9.9983
5 33 12.2
10.954
8
2 28 6.52
94517
13 25 20.4
8.998
9
0 40 36.80
9.9303
5 44 8.6
10495
9
2 30 27.71
9.3546
13 33 35.8
8416
10
0 42 50.68
2.9333
5 55 3.2
10.895
10
2 32 49.07
9.3575
13 41 46.3
8.134
11
0 45 4.68
9.9343
6 5 56.0
10.863
11
2 35 10.61
94605
13 49 51.9
8.051
12
0 47 18.80
9.9363
6 16 46.8
10.830
12
2 37 32.33
94634
13 57 52.4
7.966
13
0 49 33.04
94384
6 27 35.6
10.797
13
2 39 54.22
94663
14 5 47.8
7.880 ;
14
0 51 47.41
9.9406
6 38 22.4
10.769
14
2 42 16.29
94699
14 13 38.0
7.793
15
0 54 1.91
9.9497
6 49 7.0
10.795
15
2 44 38.53
94791
14 21 23.0
7.707
16
0 56 16.54
9.9449
6 59 49.4
10.688
16
2 47 0.94
94749
14 29 2.8
7.619
17
0 58 31.30
9.9479
7 10 29.6
10.650
17
2 49 23.52
9.3778
14 36 37.3
7430
18
1 0 46.20
94494
7 21 7.4
10.610
18
2 51 46.28
9.3807
14 44 6.4
7.439
19
1 3 1.23
94517
7 31 42.8
10470
19
2 54 9.21
94836
14 51 30.0
7447
20
1 5 16.40
94540
7 42 15.8
10498
20
2 56 32.31
94864
14 58 48.1
7.955
21
1 7 31.71
94563
7 52 46.2
10.485
21
2 58 55.58
94893
15 6 0.6
7.169
22
1 9 47.16
94587
8 3 14.0
10.441
22
3 1 19.02
94991
15 13 7.5
7.068
23
1 12 2.75
SA'
9.9610
TURD,
N. 8 13 39.1
1Y 2.
10496
23
3 3 42.63
M
94948
ONDA
N.15 20 8.8
Y 4L
6473
0
1 14 18.48
94634
N. 8 24 1.5
10450
0
3 6 6.40
94976
N.15 27 4.3
6477
1
1 16 34.36
9.9659
8 34 21.1
10403
1
3 8 30.34
9.4004
15 33 54.0
6.780
2
1 18 50.39
9.9684
8 44 37.9
10455
2
3 10 54.45
9.4031
15 40 37.9
6.683
3
1 21 6.57
9.9709
8 54 51.7
10.905
3
3 13 18.72
9.4056
15 47 16.0
6485
4
1 23 22.90
94735
9 5 2.5
10.154
4
3 15 43.15
9.4085
15 53 48.1
6.485
5
1 25 39.39
94781
9 15 10.2
10.109
5
3 18 7.74
9.4119
16 0 14.2
6485
6
1 27 56.03
94786
9 25 14.8
10450
6
3 20 32.49
9.4138
16 6 34.3
6.984
7
1 30 12.82
94819
9 35 16.2
9496
7
3 22 57.40
9.4164
16 12 48.3
6.189
8
1 32 29.77
9.9838
9 45 14.3
9.941
6
3 25 22.46
9.4190
16 18 56.1
6.079
9
1 34 46.88
94865
9 55 9.1
9485
9
3 27 47.68
9.4916
16 24 57.8
5476
10
1 37 4.15
9.9899
10 5 0.5
9.898
10
3 30 13.05
9.4941
16 30 53.2
5.879
11
1 39 21.58
94918
10 14 48.5
9.770
11
3 32 38.57
9.4965
16 36 42.4
5.767
12
1 41 39.17
9.9946
10 24 32.9
9.710
J2
3 35 4.23
9.4989
16 42 25.3
5469
13
1 43 56.93
94973
10 34 13.7
9450
13
3 37 30.04
9.4314
16 48 1.8
5455
14
1 46 14.85
93)00
10 43 50.9
9488
14
3 39 56.00
9.4338
16 53 31.9
5v447
15
1 48 32.93
94098
10 53 24.3
9495
15
3 42 22.10
9.4369
16 58 55.5
5439
16
I 50 51.18
94056
11 2 53.9
9.469
16
3 44 48.34
9.4384
17 4 12.6
5430
17
1 53 9.60
9.3084
11 12 19.7
9498
17
3 47 14.71
9.4407
17 9 23.1
5.191
18
1 55 28.19
94119
11 21 41.6
9439
18
3 49 41.22
9.4499
17 14 27.1
5419
19
1 57 46.95
94141
11 30 59.5
9.964
19
3 52 7.86
9.4451
17 19 24.5
4401
20
2 0 5.88
94169
11 40 13.3
9.196
20
3 54 34.63
9.4479
17 24 15.2
4.788
21
2 2 24.98
94197
11 49 23.0
9.197
21
3 57 1.53
9.4493
17 28 59.1
4.676
22
2 4 44.25
94996
11 58 28.5
9.057
22
3 59 28.55
9.4513
17 &3 36.3
4463
23
2 7 3.69
94955
12 7 29.8
6.986
23
4 1 55.69
9.4539
17 38 6.7
4.450
24
2 9 23.31
94984
N.12 16 26.8
8413
24
4 4 22.94
9.4559
N.17 42 30.3
4436
VI.
FEBRUARY, 1884.
25
GBEESTWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hoar.
Bight Attention.
Dilt tor
1 Minute.
Declination.
Dffllfbi
1 Minute.
Hour.
Bight Aaoension.
Biff, for
1 Minute.
Declination.
INfffor
1 Minute.
Tt
mSDA
T 5.
THUESDAT 7.
h m •
8
O / n
h m s
•
— J9 - ' ~"
a
0
4 4 22.94
2.4569
N.17 42 30.3
4436
0
6 3 17.51
9.4797
N.18 51 53.0
1407
1
4 6 50.31
12,4571
17 46 47.0
4.291
1
6 5 45.83
2.4719
18 50 18.9
1.628
2
4 9 17.79
9.4589
17 50 56.8
4.106
2
6 8 14.06
2.4697
18 48 37.6
1.749
3
4 11 45..%
2.4607
17 54 59.7
3491
3
6 JO 42.20
9.4683
18 46 49.0
1.870
4
4 14 13.06
0.4695
17 58 55.7
3.875
4
6 13 ft.25
2.4666
18 44 53.2
1.990
5
4 16 40.88
2.4641
18 2 44.7
3.758
5
6 15 38.19
2.4649
18 42 50.2
9.111
6
4 19 8.77
2.4657
18 6 26.7
3.641
6
6 18 6.03
9.4631
18 40 39.9
2.231
7
4 21 36.76
2.4679
18 10 1.6
3423
7
6 20 33.76
9.4612
18 38 22.5
2449
8
4 24 4.84
2.4687
18 13 29.4
3.404
8
6 23 1.38
2.4594
18 35 58.0
9.468
9
4 26 33.01
2.4702
18 16 50.1
3.285
9
6 25 28.89
2.4575
18 33 26,3
9487
]0
4 29 1.27
9.47J6
18 20 3.6
3.166
10
6 27 56.28
9.4554
18 30 47.5
2.705
11
4 31 29.60
2.4729
18 23 10.0
3.047
11
6 30 23.54
9.4539
18 28 1.7
2.899
12
4 33 58.01
2.4742
18 26 9.2
2.927
12
6 32 50.67
2.4511
18 25 8.9
2438
13
4 36 26.50
2.4754
18 29 1.2
2.806
13
6 35 17.67
2.4489
18 22 9.1
3.055
14
4 38 55.06
2.4765
18 31 45.9
9.685
14
6 37 44.53
9.4465
18 19 2.3
3.171
15
4 41 23.68
2.4775
18 34 23.4
2464
15
6 40 11.25
9.4449
18 15 48.G
3.986
16
4 43 52.36
2.4785
18 36 53.6
2.449
16
6 42 37.83
2.4418
18 12 28.0
3.401
17
4 46 21.10
2.4794
18 39 16.5
9.321
17
6 45 4.27
2.4394
18 9 0.5
3.515
18
4 48 49.89
2.4803
18 41 32.1
9.199
18
6 47 30.56
2.4368
18 5 26.2
3.096
19
4 51 18.73
2.4811
18 43 40.4
9.076
19
6 49 56.69
2.4342
18 1 45.1
3.741
20
4 53 47.62
2.48J8
18 45 41.3
1.953
20
6 52 22.66
2.43)5
17 57 57.3
3.853
21
4 56 16.55
9.4895
18 47 34.8
1.830
21
6 54 48.47
9.4987
17 54 2.8
3464
22
4 58 45.52
9.4831
18 49 20.9
1.707
22
6 57 14.11
9.4959
17 50 1.6
4.075
23
5 1 14.52
WE]
9.4636
DNESI
N.18 50 59.7
)AY 6.
1.585
23
6 59 39.58
9.4931
BIDA^
N.17 45 53.8
sr 8.
4.185
0
5 3 43.55
9.4841
N.18 52 31.1
1.469
0
7 2 4.89
2.4203
N.17 41 39.4
4.295
I
5 6 12.61
9.4844
18 53 55.1
1.336
1
7 4 30.02
2.4173
17 37 18.4
4.403
2
5 8 41.68
9.4847
18 55 11.6
1413
2
7 6 54.97
2.4143
17 32 51.0
4410
3
5 11 10.77
2.4849
18 56 20.6
1.089
3
7 9 19.74
2.4112
17 28 17.2
4.617
4
5 13 39.87
2.4851
18 57 22.2
0.965
4
7 11 44.32
2.4081
17 23 37.0
4.723
5
5 16 8.98
2.4852
18 58 16.4
0.841
5
7 14 8.71
2.4050
17 18 50.4
4.899
6
5 18 38.10
2.4853
18 59 3.2
0.717
6
7 16 32.92
2.4018
17 13 57.5
4434
7
5 21 7.22
9.4859
18 59 42.5
0.599
7
7 18 56.93
24965
17 8 58.3
5.037
8
523 36.32
9.4849
19 0 14.3
0.468
8
7 21 20.74
24953
17 3 53.0
5.140
9
5 26 5.41
2.4847
19 0 38.7
0445
9
7 23 44.36
24920
16 58 41.5
5.242
10
5 28 34.48
2.4844
19 0 55.7
0.221
10
7 26 7.78
24886
16 53 23.9
5444
11
5 31 3.54
2.4841
19 1 5.2
+ 0.096
11
7 28 30.99
24852
16 48 0.2
5.445
12
5 33 32.58
2.4837
19 1 7.2
-0428
12
7 30 54.00
24818
16 42 30.5
5445
13
5 36 1.59
2.4*39
19 1 1.8
0.153
13
7 33 16.80
24783
16 36 54.8
5.643
14
5 38 30.56
2.4896
19 0 48.9
0477
14
7 35 39.39
24747
16 31 13.3
5.740
15
5 40 59.50
2.4820
19 0 28.6
0.400
15
7 38 1.76
24710
16 25 26.0
5.837
16
5 43 28.40
2.4819
19 0 0.9
0423
16
7 40 23.91
24674
16 19 32.9
5433
17
5 45 57.25
2.4803
18 59 25.8
0.647
17
7 42 45.85
24638
16 13 34.0
6428
18
5 48 26.04
2.4794
18 58 43.2
0.771
18
7 45 7.57
24601
16 7 29.5
6.129
19
5 50 54.78
2.4785
18 57 53.2
0.894
19
7 47 29.06
24564
16 1 19.4
6415
20
5 53 23.46
2.4775
18 56 55.9
1.017
20
7 49 50.33
24527
15 55 3.7
6407
21
5 55 52.08
9^764
18 55 51.2
1.139
21
7 52 11.38
24489
15 48 42.5
6498
22
5 58 20.63
9.4759
18 54 39.2
1.269
22
7 54 32.20
24451
15 42 15.9
6.488
23
6 0 49.11
2.4740
18 53 19.8
1.385
23
7 56 52.79
24412
15 35 43.9
6.578
24
6 3 17.51
2.4727
N.18 51 53.0
1.507
24
7 59 13.15
24374
N.15 29 6.5
6.667
26
FEBRUARY, 1884.
vn.
GBEBNWICH MEAN TIME.
-
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Bight Asoenakm.
BUT. for
1 Minute.
Declination.
BUT. for
1 Minute.
Hour.
Right Ascension.
DHL for
1 Minute.
Declination.
Dim for
1 Minnie.
SA'
ruiux
IT 9.
MONDAY 11.
h m s
8
O I il
a
h m 8
8
N. 8 47 26.8
0
7 59 13.15
94374
N.15 29 6.5
6467
0
9 46 46.57
9.1453
9457
1
8 1 33.28
94335
15 22 23.8
6.754
1
9 48 55.18
9.1416
8 37 46.3
9.699
2
8 3 53.J7
94996
15 15 36.0
6430
2
9 51 3.57
9.1379
8 28 3.7
0.797
3
8 6 12.83
9.3957
15 8 43.1
15 145.1
6494
3
9 53 11.73
9J349
8 18 19.0
9.769 ]
4
8 8 32.25
94917
7.000
4
9 55 19.67
9.1306
8 8 32.3
9.795 '
5
8 10 51.43
94177
14 54 42.0
7.099
5
9 57 27.40
9.1970
7 58 43.6
0497
6
8 13 10.38
94136
14 47 34.0
7.174
6
9 59 34.91
9.1934
7 48 53.1
0458
7
8 15 29.09
94008
14 40 21.1
7456
7
10 1 42.21
9.1108
7 39 0.7
9488
8
8 17 47.55
9.3058
14 33 3,3
7436
8
10 3 49.29
9.1169
7 29 6.5
9416
9
8 20 5.78
9.3018
14 25 40.8
7.414
9
10 5 56.16
9.1197
7 19 10.7
9444
10
8 22 23.77
8.9977
14 18 13.6
7.499
10
10 8 2.82
9.1099
7 9 13.2
9479
11
8 24 41.51
94937
14 10 41.8
7.569
11
10 10 9.27
9.1058
6 59 14.1
9498
12
8 26 59.01
9.9806
14 3 5.3
7446
12
10 12 15.52
9.1094
6 49 13.5
10483
13
8 29 16.26
94856
13 55 24.3
7.790
13
10 14 21.56
94990
6 39 11.4
10447
14
8 31 33.27
9.9815
13 47 38.9
7.793
14
10 16 27.40
94057
6 29 7.9
10.069
15
8 33 50.04
9.9774
13 39 49.1
7466
15
10 18 33.04
94093
6 19 3.1
10.091
16
8 36 6.56
94733
13 31 55.0
7437
16
10 20 38.48
9.0801
6 8 57.0
10.119
17
8 38 22.83
9.9009
13 23 56.6
8408
17
10 22 43.73
9.0858
5 58 49.fr
10.139
18
8 40 38.86
94651 .
13 15 54.0
8478
18
10 24 48.78
94696
5 48 41.1
10.151
19
8 42 54.64
9.9600
13 7 47.2
8.147
19
10 26 53.64
9.0704
5 38 31.5
10.169
20
8 45 10.17
9.9568
12 59 36.4
8.914
20
10 28 58.31
9.0769
5 28 20.8
10.187
21
8 47 25.46
94597
12 51 21.6
8480
21
10 31 2.79
9.0731
5 18 9.1
10.903
22
8 49 40.50
94487
12 43 2.8
8445
22
10 33 7.08
94600
5 7 56.5
10418
23
8 51 55.30
SI
9.9446
JNDA1
N.12 34 40.2
I 10.
8.409
23
10 35 11.18
TU
94668
ESDA
N. 4 57 42.9
Y 12.
10433
0
8 54 9.85
94405
N.12 26 13.8
8.479
0
10 37 15.10
94638
N. 4 47 28.5
10447
1
8 56 24.16
94364
12 17 43.6
8434
1
10 39 18.84
94600
4 37 13.3
10459
2
8 58 38.22
9.9393
12 9 9.7
8494
2
10 41 22.41
94560
4 26 57.4
10470
3
9 0 52.03
94389
12 0 32.3
8453
3
10 43 25.80
9.0551
4 16 40.9
10480
4
9 3 5.60
94941
11 51 51.3
8.719
4
10 45 29.02
94599
4 6 23.8
10.991
5
9 5 18.92
94900
11 43 6.8
8.770
5
10 47 32.07
9.0494
3 56 6.0
10401
6
9 7 32.00
94160
11 34 18.9
8.898
6
10 49 34.95
9.0466
3 45 47.7
10408
7
9 9 44.84
9.9119
11 25 27.7
8481
7
10 51 37.66
94438
3 35 29.0
10415
8
9 Ji 57.43
94078
11 16 33.2
8496
8
10 53 40.21
9.0411
3 25 9.9
10.391
9
9 14 9.78
9.9038
11 7 35.4
8.989
9
10 55 42.59
9.0384
3 14 50.5
10496
10
9 16 21.89
9.1006
10 58 34.5
0.041
10
10 57 44.82
94358
3 4 30.8
10431
11
9 18 33.76
9.1057
10 49 30.5
9.099
11
10 59 46.69
9.0339
2 54 10.8
10436
12
9 20 45,38
9.1017
10 40 23.5
9.141
12
11 1 48.80
94306
2 43 50.5
10430
13
9 22 56.77
9.1878
10 31 13.6
0.190
13
11 3 50.56
94981
2 33 30.1
10440
14
9 25 7.92
9.1838
10 22 0.7
0.938
14
11 5 52.17
94857
2 23 9.7
10441
15
9 27 18.83
9.1790
10 12 45.0
9485
15
11 7 53.63
94939
2 12 49.2
10449
16
9 29 29.51
9.1760
10 3 26.5
0431
16
11 9 54.95
9.0907
2 2 28.7
10441
17
9 31 39.95
9.1791
9 54 5.3
0475
17
11 11 56.12
9.0183
1 52 8.3
10430
18
9 33 50.16
9.1689
9 44 41.5
9.4)8
18
11 13 57.15
9.0160
1 41 46.0
10.337
19
9 36 0.14
9.1643
9 35 15.1
0.461
19
11 15 58.04
9.0137
1 31 27.8
10435
20
9 38 9.88
9.1604
9 25 46.2
0409
20
11 17 58.80
9.0115
1 21 7.8
10431
21
940 19.39
9.1567
9 16 14.9
9449
21
11 19 59.42
94093
1 10 48.1
10496
22
9 42 28.68
9.1590
9 6 41.2
9489
22
11 21 59.91
9.0071
1 0 28.7
10491
23
9 44 37.74
9.1491
8 57 5.1
0490
23
11 24 0.27
9.0050
0 50 9.6
10415
24
9 46 46.57
9.1453
N. 8 47 26.8
0.657
24
11 26 0.51
94099
N. 0 39 50.9
10408
vm.
FEBRUABY, 1884.
27
QBBElSrWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hoar.
Bight Ajcenskm.
DUE for
1 Minute.
Declination.
DHL for
1 Minute.
Hour.
Bight Asoenskm.
Diff.for
1 Minute.
Declination.
Diftfor
1 Minute.
WEI
>NESD
AY 13.
FRIDAY 15.
b m 8
•
© ' "
a
h m s
8. 7 13 35.1
0
11 26 0.51
94099
N. 0 39 50.9
10406
0
13 0 31,32
14506
9.171
]
11 28 0.62
94008
0 29 32.7
10400
1
13 2 28.35
14505
7 22 44.2
9.139
2
11 30 0.61
1 AQCU
0 19 14.9
10.999
2
13 4 25.38
1.9504
7 31 51.0
9.094
3
11 32 0.48
14900
N. 0 8 57.6
10483
3
13 6 22.40
1.9503
7 40 55.5
9.055
4
11 34 0.24
14950
8. 0 1 19.1
10473
4
13 8 19.42
14503
7 49 57.6
9.014
5
11 35 59.88
14931
0 11 35.1
10409
5
13 10 16.44
14504
7 58 57.2
8473
6
11 37 59.41
14913
0 21 50.5
10.951
6
13 12 13.47
14505
8 7 54.4
8439
7
11 39 58.83
14895
0 32 5.2
10438
7
13 14 10.50
14506
8 16 49.1
8491
8
11 41 58.15
14877
0 42 19.1
10495
8
13 16 7.54
14507
8 25 41.3
8.848
9
11 43 57.36
14880
0 52 32.2
10.919
9
13 18 4.58
1.9508
8 34 30.9
8.806
10
11 45 56.47
14843
1 2 44.5
10.197
10
13 20 1.63
14510
8 43 18.0
8.763
11
11 47 55.48
14897
1 12 55.9
10.189
11
13 21 58.70
1.9519
8 52 2.5
8.719
12
11 49 54.39
14811
1 23 6.4
10.167
12
13 23 55.78
14515
9 0 44.3
8475
13
11 51 53.21
14796
1 33 15.9
10.150
13
13 25 52.88
14518
9 9 23.5
8431
14
11 53 51.94
14781
1 43 24.4
10.133
14
13 27 50.00
14599
9 18 0.0
6485
15
11 55 50.58
1.9706
1 53 31.9
10.116
15
13 29 47.14
14598
9 26 33.7
8439
16
11 57 49.13
14751
2 3 38.3
10.097
16
13 31 44.3!
14530
9 35 4.7
6.493
17
11 59 47.59
14737
2 13 43.6
10.078
17
13 33 41.50
14534
9 43 32.9
8.446
18
12 1 45 97
14794
2 23 47.7
10.058
18
13 35 38.72
14539
9 51 58.2
8498
19
12 3 44.27
14711
2 33 50.6
10.037
19
13 37 35.97
14544
10 0 20.7
8451
20
12 5 42.50
14098
2 43 52.2
10.016
20
13 39 33.25
14550
10 8 40.3
8403
21
12 7 40.65
14686
2 53 52.5
9404
21
13 41 30.57
1.9556
10 16 57.0
8454
22
12 9 38.73
14674
3 3 51.5
9479
22
• 13 43 27.92
14569
10 25 10.8
8405
23
12 11 36.74
14063
8. 3 13 49.1
LY 14.
9448
23
13 45 25.31
SAT
14568
CUEDi
8.10 33 21.7
LY 16.
8.157
THI
UJttSDi
0
12 13 34.68
14658
8. 3 23 45.3
9494
0
13 47 22.74
14575
8.10 41 29.6
8.107
1
12 15 32.56
14641
3 33 40.0
9400
1
13 49 20.21
14589
10 49 34.5
8456
2
12 17 30.37
14630
3 43 33,3
9.876
2
13 51 17.72
14589
10 57 36.3
8404
3
12 19 28.12
14691
3 53 25.1
9450
3
13 53 15.28
1.9597
11 5 35.0
7453
4
12 21 25.82
14619
4 3 15.3
9493
4
13 55 12.88
14604
11 13 30.6
7401
5
12 23 23.46
1.9003
4 13 3.9
9.796
5
13 57 10.53
1.9613
11 21.23.1
7448
6
12 25 21.05
1 MA4
4 22 50.8
9.769
6
13 59 8.24
14099
11 29 12.4
7.796
7
12 27 18.59
14586
4 32 36.1
9.741
7
14 1 6.00
1.9631
11 36 58.6
7.743
8
12 29 16.08
14578
4 42 19.7
9.719
8
14 3 3.81
1.9640
11 44 41.6
7.689
9
12 31 13.52
14570
4 52 1.5
9.689
9
14 5 1.68
1.9649
11 52 21.3
7.634
10
12 33 10.92
1.9563
5 1 41.5
9.659
10
14 6 59.60
1.9658
11 59 57.7
7479
11
12 35 8.28
14557
5 11 19.7
9.699
11
14 8 57.58
14669
12 7 30.8
7494
12
12 37 5.61
1.955*
5 20 56.1
9491
12
14 10 55.63
14680
12 15 0.6
7.466
13
12 39 2.90
14545
5 30 30.6
9458
13
14 12 53.74
1.9690
12 22 27.0
7.413
14
12 41 0.15
14539
5 40 3.1
9496
14
14 14 51.91
1.9701
12 29 50.1
7457
15
12 42 57.37
1.9534
5 49 33.7
9.493
15
14 16 50.15
14719
12 37 9.8
7400
16
12 44 54.56
■ ncno
5 59 2.3
9.459
16
14 18 48.46
1.9793
12 44 26.1
7449
17
12 46 51.72
14595
6 8 28.8
9.495
17
14 20 46.83
14734
12 51 38.9
7.184
18
12 48 48.86
14599
6 17 53.3
9491
18
14 22 45.27
14747
12 58 48.2
7.198
19
12 50 45.98
14518
6 27 15.7
9456
19
14 24 43.79
1.9759
13 5 54.0
7487
20
12 52 43.08
14515
6 36 36.0
9490
20
14 26 42.38
1.9771
13 12 56.3
7408
21
12 54 40.16
1.9519
6 45 54.1
9483
21
14 28 41.04
14783
13 19 55.0
6.949
22
12 56 37.23
1.9510
6 55 10.0
9.947
22
14 30 39.78
1.9796
13 26 50.2
6.889
23
12 58 34.28
14508
7 4 23.7
9.909*
23
14 32 38.60
1.9810
13 33 41.7
6498
24
13 0 31.32
14506
S. 7 13 35.1
9.171
24
14 34 37.50
1.9893
8.13 40 29.6
6.767
28
FEBRUARY, 1884.
IX
GBEENWICH MEAST TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
DUE for
1 Minute.
Declination.
Din*, for
1 Minute.
Hoar.
Bight Aeeension.
DUE for
1 Minute.
Declination.
Diff.for
1 Minute.
81
TNDA1
1 17.
TUESDAY 19.
fa m 8
8
O 1 II
h m ft
8
O t li
//
0
14 34 37.50
1.9888
S.13 40 29.6
6.767
0
16 11 40.31
94669
S.17 47 20.2
3464
1
14 36 36.48
1.9837
13 47 13.8
6.706
1
16 13 44,34
94689
17 50 39.6
3463
2
14 38 35.54
1.9851
13 53 54.3
6.645
2
16 15 48.49
9.0709
17 53 54.2
3403
3
14 40 34.69
1.9665
14 0 31.2
6.563
3
16 17 52.76
84791
17 57 4.0
3.199
4
14 42 33.92
1.9879
14 7 4.3
6.580
4
16 19 57.14
84740
18 0 8.9
3441
5
14 44 33.24
1.9894
14 13 33.6
6.457
5
16 22 1.64
3.0760
18 3 8.9
9459
6
14 46 32.65
1.9908
14 19 59.1
6463
6
16 24 6.26
3.0780
18 6 4.0
9477
7
14 48 32.14
1.9963
14 26 20.8
6.399
7
16 26 11.00
3.0799
18 8 54.1
8.794
8
14 50 31.73
1.9939
14 32 38.6
6.985
8
16 28 15.85
8.0818
18 11 39.3
9.711
9
14 52 31.41
1.9954
14 38 52.6
6.901
9
16 30 20.82
84638
18 14 19.5
9498
10
14 54 31.18
1.9970
14 45 2.7
6.136
10
16 32 25.91
9.0656
18 16 54.7
3445
11
14 56 31.05
1.9986
14 51 8.9
6.070
11
\6 34 31.12
84677
18 19 24.9
3.469
12
14 58 31.01
9.0009
14 57 11.1
6.004
12
16 36 36.44
8.0897
18 21 50.1
3478
13
15 0 31.07
3.0017
15 3 9.4
5.938
13
16 38 41.88
9.0917
18 24 10.2
3.993
14
15 2 31.22
90033
15 9 3.7
5.871
14
16 40 47.44
9.0936
18 26 25.2
9406
15
15 4 31.47
9.0050
15 14 53.9
5.803
15
16 42 53.11
94954
18 28 35.2
3.194
16
15 6 31.82
9.0067
15 20 40.1
5.736
16
\G 44 58.89
94973
18 30 40.1
9.038
17
15 8 32.27
9.0064
15 26 22.2
5.668
17
16 47 4.79
9.0993
18 32 39.8
1.959
18
15 10 32.83
9.0109
15 32 0.3
5401
18
16 49 10.81
9.1019
18 34 34.3
1.865
19
15 12 33.49
9.0118
15 37 34.3
5.539
19
16 51 16.94
9.1039
18 36 23.G
1.779
20
15 14 34.25
9.0135
15 43 4.1
5.469
20
16 53 23.19
9.1051
18 38 7.8
1493
21
15 16 35.11
9.0159
15 48 29.7
5.399
21
16 55 29.55
3.1069
18 39 46.8
1.606
22
15 18 36.08
9.0170
15 53 51.1
■5499
22
16 57 36.02
9.1088
18 41 20.5
1419
23
15 20 37.15
M(
9.0168
JXDA1
S.15 59 8.3
Z 18.
5.953
23
16 59 42.60
WEI
9.1107
)NE8D
S.18 42 49.0
AY 20.
1.439
0
15 22 38.33
9,0906
S.16 4 21.3
5.181
0
17 1 49.30
9.1135
S.18 44 12.3
1444
1
15 24 39.62
9.0994
16 9 30.0
5.109
1
17 3 56.10
8.1143
18 45 30.3
1456
2
15 26 41.02
34849
16 14 34.4
5.037
2
17 6 3.02
3.1163
18 46 43:0
1.167
3
15 28 42.52
3.0959
16 19 34.5
4.966
3
17 8 10.05
9.1181
18 47 50.4
1478
4
15 30 44.13
9.0978
16 24 30.3
4494
4
17 10 17.19
8.1199
18 48 52.4
0469
5
15 32 45.86
8.0997
16 29 21.8
4.899
5
17 12 24.44
9.1917
18 49 49.1
0400
6
15 34 47.70
8.0316
16 34 8.9
4.748
6
17 14 31.79
9.1934
18 50 40.4
0.810
7
15 36 49.65
3.0334
16 38 515
4.674
7
17 16 39.25
9.1959
18 51 26.3
0.791
8
15 38 51.71
9.0353
16 43 29.7
4.600
8
17 18 46.82
9.1970
18 52 6.9
0439
9
15 40 53.89
9.0379
16 48 3.5
4496
9
17 20 54.49
8.1987
18 52 42.1
6449
10
15 42 56.18
9.0391
16 52 32.8
4.451
10
17 23 2.27
9.1305
18 53 11.9
0.451
11,
15 44 58.58
3.0409
16 56 57.6
4476
11
17 25 10.15
9.1399
18 53 36.2
0400
12
15 47 1.09
9.0498
17 1 17.9
4400
12
17 27 18.13
3.1338
18 53 55.1
0469
13
15 49 3.72
9.0447
17 5 33.6
4494
13
17 29 26.21
8.1356
18 54 8.5
0.178
14
15 51 6.46
3.0467
17 9 44.8
4.148
14
17 31 34.40
9.1373
18 54 16.4
-0487
15
15 53 9.32
8.0487
17 13 51.4
4.07J
15
17 33 42.69
9.1390
18 54 18.9
+ 0.004
16
15 55 12.30
84508
17 17 53.3
3494
16
17 35 51.08
9.1406
18 54 15.9
0.096
17
15 57 15.39
34595
17 21 50.6
3417
17
17 37 59.56
9.1499
18 54 7.4
0.188 !
18
15 59 18.60
3.0545
17 25 43.3
3439
18
17 40 8.14
9.1438
18 53 53.3
0481
19
16 1 21.93
8.0564
17 29 31.3
3.761
19
17 42 16.82
9.1454
18 53 33.7
0473
20
16 3 25.37
3.0583
17 33 14.6
3.689
20
17 44 25.59
9.1470
18 53 8.6
0.465
21
16 5 28.93
3.0603
17 36 53.1
3.609
21
17 46 34.46
9.1486
18 52 37.9
0458
22
16 7 32.61
8.0699
17 40 26.9
3493
22
17 48 43.42
9.1501
18 52 1.6
0.651
23
16 9 36.40
3.0649
17 43 55.9
3.444
*23
17 50 52.47
9.1516
18 51 19.8
0.744
24
16 11 40.31
8.0669
S.17 47 20.2
3464
24
17 53 1.61
9.1531
S.18 50 32.4
0437
FEBRUARY, 1884.
29
GREENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
DMT. for
1 Minnie.
Declination.
DUE for
1 Minute.
Hoar.
Right Ascension.
Diftfbr
1 Minute,
Declination.
Diftfbr
1 Minute.
TH1
CTBSDi
LY 21.
SATUBDAY 23.
h m 8
S
Oil!
a
h m s
s
O / li
u
0
17 53 1.61
9.1581
S.18 50 32.4
0.837
0
19 37 43.79
94016
S.16 21 38.1
5456
1
17 55 10.84
9.1546
18 49 39.4
0430
1
19 39 55.90
9.9091
16 16 14.0
5.447
2
17 57 20.16
9.1561
18 48 40.8
1.094
2
19 42 8.04
94096
16 10 44.5
5438
3
17 59 29.57
9.1575
18 47 36.5
1.118
3
19 44 20.21
9.9031
16 5 9.5
5499
4
18 1 39.G6
9.1589
18 46 26.6
1419
4
19 46 32.41
9.9036
15 59 29.0
5.790
5
18 3 48.64
9.1604
18 45 11. 1
1405
5
19 48 44.64
9.9040
15 53 43.1
5.810
6
18 5 58.31
9.1618
18 43 50.0
1499
6
19 50 56.89
94044
15 47 51.8
5.900
7
18 8 8.06
9.1639
18 42 23.2
1.493
7
19 53 9.17
94049
15 41 55.1
5.990
8
18 10 17.89
9.1645
18 40 50.8
1487
8
19 55 21.48
94053
15 35 53.0
6.079
9
13 12 27.80
9.1658
18 39 12.7
1.689
9
19 57 33.81
9.9057
15 29 45.6
6.168
10
18 14 37.79
9.1671
18 37 28.9
1.777
10
19 59 46.16
9.9080
15 23 32.8
6457
11
18 16 47.86
9.1684
18 35 39.5
1.871
11
20 1 58.53
94063
15 17 14.7
6445
12
18 18 58.00
9.1697
18 33 44.4
1466
12
20 4 10.92
94067
15 10 51.4
6.433
13
18 21 8.22
9.1710
18 31 43.6
9.061
13
20 6 23.33
94070
15 4 22.8
6491
14
18 23 16.52
9.1799
18 29 37.1
9.155
14
20 8 35.76
94074
14 57 48.9
6.606
15
18 25 28.89
9.1734
18 27 25.0
9.949
15
20 10 48.22
9.9078
14 51 9.8
6495
16
18 27 39.33
9.1746
18 25 7.2
9445
16
20 13 0.70
94081
14 44 25.5
6.781
17
18 29 49.84
9.1757
18 22 43.6
9.441
17
20 15 13.19
94084
14 37 36.1
6.867
18
18 32 0.42
9.1769
18 20 14.3
9436
18
20 17 25.70
94087
14 30 41.5
6.953
19
18 34 11.07
9.1780
18 17 39.3
9.631
19
20 19 38.23
94069
14 23 41.8
7.038
20
18 36 21.78
9.1791
18 14 58.6
9.795
20
20 21 50.77
9.9099
14 16 37.0
7.193
21
18 38 32.56
9.1809
18 12 12.3
9.619
21
20 24 3.33
94094
14 9 27.1
7.907
22
18 40 43.40
9.1819
18 9 20.3
9414
22
20 26 15.90
9.9097
14 2 12.2
7.990
23
18 42 54.31
P]
9.1893
E&IDA1
S.18 6 22.6
:22.
3.010
23
20 28 28.49
St
94099
TffDAl
S.13 54 52.3
r 24.
7473
0
18 45 5.28
9.1833
S.18 3 19.1
3.106
0
20 30 41.09
94101
S.13 47 27.4
7.456
1
18 47 16.31
9.1843
18 0 9.9
3400
1
20 32 53.70
94103
13 39 .57.6
7438
2
18 49 27.40
9.1853
17 56 55.1
3494
2
20 35 6,33
9.9108
13 32 22.9
7419
3
18 51 38.55
9.180*
17 53 34.6
3490
3
20 37 18.97
9.9107
13 24 43.3
7.701
4
18 53 49.75
9.1879
17 50 8.3
3.485
4
20 39 31.62
9.9109
13 16 58.8
7.788
5
18 56 1.01
9.1861
17 46 36.4
3479
5
20 41 44.28
9.9111
13 9 9.5
7481
6
18 58 1232
9.1889
17 42 58.8
3474
6
20 43 56.95
94113
13 1 15.5
7.940
7
19 0 23.68
9.1886
17 39 15.5
3.768
7
20 46 9.64
94116
12 53 16.7
8.019
8
19 2 35.10
9.1907
17 35 26.6
3.869
8
20 48 22.34
94118
12 45 13.2
8.097
9
19 4 46.57
9.1916
17 31 32.0
3457
9
20 50 35.05
94119
12 37 5.0
8.175
10
19 6 58.09
9.1993
17 27 31.7
4.059
10
20 52 47.77
94191
12 28 52.2
8.959
11
19 9 9.65
9.1931
17 23 25.8
4.146
11
20 55 0.50
9.9199
12 20 34.8
8498
12
19 11 21.26
9.1939
17 19 14.2
4440
12
20 57 13.24
94194
12 12 12.8
8.404
13
19 13 32.92
9.1946
. 17 14 57.0
4433
13
20 59 25.99
94198
12 3 46.3
8.479
14
19 15 44.62
9.1953
17 10 34.2
4.497
14
21 1 38.75
94197
11 55 1*3
8453
15
19 17 56.36
9.1980
17 6 5.7
4491
15
21 3 51.51
94199
11 46 39.9
8.697
16
19 20 8.14
9.1967
17 1 31.6
4.615
16
21 6 4.29
94131
11 38 0.1
8.700
17
19 22 19.96
91974
16 56 51.9
4.708
17
21 8 17.08
9.9139
11 29 15.9
8.779
18
19 24 31.83
9.1961
16 52 6.6
4409
18
21 10 29.88
94134
11 20 27.4
8.844
19
19 26 43.73
9.1987
16 47 15.7
4494*
19
21 12 42.69
9.9136
11 11 34.6
8.015
20
19 28 55.67
9.1993
16 42 19.3
4487
20
21 14 55.51
94137
11 2 37.6
6485
21
19 31 7.65
9.1999
16 37 17.3
5.079
21
21 17 8.34
94139
10 53 36.4
9.054
22
19 33 19.66
9.9005
16 32 9.8
5.179
22
21 19 21.18
9.9141
10 44 31.1
9.193
23
19 35 31.71
94011
16 26 56.7
5.964.
23
21 21 34.03
94149
10 35 21.7
9.191
24
19 37 43.79
9.9016
S.I6 21 38.1
5456
24
21 23 46.89
94144
S. 10 26 8.2
9458
30
FEBRUARY, 1884.
XL
1
GEBENWICH MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Difllfor
1 Minute.
Declination.
Diftfor
IMinnto.
Hour.
Bight Ascension.
Difllfor
1 Minute.
Declination.
Difllfor
1 Minute.
M<
;>otxa:
5T 25.
WEDNESDAY 27.
h m a
0
O 1 n
//
h m s
s
O / //
//
0
21 23 46.89
9.3144
S.10 26 8.2
9.958
0
23 10 2938
94378
S. 2 1 21.0
11487
1
21 25 59.76
94146
10 16 50.7
9.394
1
23 12 43.68
94368
1 49 57.2
11.405
2
21 28 12.64
9.9148
10 7 29.3
9490
2
23 14 58.04
94397
1 38 32.4
11.493
3
21 30 25.54
94151
9 58 3.9
9.456
3
23 17 12.45
94407
1 27 6.5
11.439
*t
21 32 38.45
94153
9 48 34.6
9.519
'4
23 19 26.93
94418
1 15 39.7
11.453
5
21 34 51.37
9.9155
9 39 1.6
9.589
5
23 21 41.47
94499
1 4 12.1
11.466
6
21 37 4.31
94157
9 29 24.8
9444
6
23 23 56.08
94440
0 52 43.8
11 .478
7
21 39 17.26
94159
9 19 44,3
9.706
7
23 26 10.75
94451
0 41 143
11.489
8
21 41 30.22
941(8
9 10 0.1
9.767
8
23 28 25.49
94469
0 29 45.1
11.499
9
21 43 43.20
94164
9 0 123
9.897
9
23 30 40.30
9.9474
0 18 14.9
11407
10
21 45 56.19
94167
8 50 20.9
9486
10
23 32 55.18
9.9486
S. 0 6 443
11414
11
21 48 9.20
9.9169
8 40 26.0
9443
11
23 35 10.13
94498
N. 0 4 46.7
11490
12
21 50 22.22
9.9179
8 30 27.7
10400
12
23 37 25.15
9.9510
0 16 18.1
11495
13
21 52 35.26
94175
8 20 26.0
10.057
13
23 39 40.25
94599
0 27 49.7
11498
14
21 54 48.32
94178
8 10 20.9
10.119
14
23 41 55.42
94535
0 39 21.5
11431
15
21 57 1.40
94189
8 0 12.5
10.167
15
23 44 10.67
9.9548
0 50 53.4
11439
16
21 59 14.50
94185
7 50 0.9
10490
16
23 46 26.00
94569
1 2 253
11431
17
22 1 27.62
94188
7 39 46.1
10479
17
23 48 41.41
94575
1 13 57.1
11499
18
22 3 40.75
9.9191
7 29 28.2
10434
18
23 50 56.90
94588
1 25 28.8
11497
19
22 5 53.91
9.9195
7 19 7.2
10475
19
23 53 12.47
94009
1 37 0.3
11493
20
22 8 7.09
94198
7 8 43.2
10.404
20
23 55 28.13
9.9617
1 48 31.5
11417
21
22 10 20/29
94909
6 58 16.3
10.473
21
23 57 4338
94639
2 0 2.4
11411
22
22 12 33.52
94907
6 47 46.5
10481
22
23 59 59.72
94647
2 11 32.8
11403
23
22 14 40.77
94911
ESDA1
S. 6 37 13.8
IT 26.
10.568
23
0 2 15.65
Tm
94609
N. 2 23 2.7
LY 28.
11.493
0
22 17 0.05
94916
S. 6 26 38.4
10413
0
0 4 31.66
94677
N. 2 34 32.0
11.489
1
22 19 13.36
94990
6 16 03
10458
1
0 6 47.77
94699
2 46 0.6
11.471
2
22 21 26.69
9.9994
6 5 19.5
10.709
2
0 9 3.97
94708
2 57 28.5
11.458
3
22 23 40.05
94999
5 54 36.1
10.744
3
0 11 20.27
94795
3 8 55.6
11.444
4
22 25 53.44
94934
5 43 50.2
10.786
4
0 13 36.67
94741
3 20 21.8
11.498
5
22 28 6.86
94340
5 ^3 1.8
10497
5
0 15 53.16
94757
3 31 47.0
11.419
6
22 30 20.32
94946
5 22 11.0
10.866
6
0 18 9.75
94773
3 43 11.2
11494
7
22 32 33.81
94951
5 11 17.9
10404
7
0 20 26.44
94791
3 54 343
11475
8
22 34 47.33
94957
5 0 22.5
10449
8
0 22 43.24
9.9808
4 5 56.2
11454
9
22 37 0.89
94963
4 49 24.9
10.978
9
0 25 0.14
94896
4 17 163
11439
10
22 39 14.49
94969
4 38 25.1
11.013
10
0 27 17.15
94843
4 28 36.0
11408
11
22 41 28.12
94975
4 27 23.3
11447
11
0 29 34.26
94861
4 39 53.7
11463
12
22 43 41.79
94989
4 16 19.5
11.080
12
0 31 51.48
94879
4 51 9.9
11458
13
22 45 55.50
94989
4 5 13.7
11.119
13
0 34 8.81
9.9898
5 2 24.6
11431
14
22 48 926
9.9906
3 54 6.0
11.149
14
0 36 26.25
94917
5 13 37.6
11409
15
22 50 23.06
9.9303
3 42 56.6
11.179
15
0 38 4331
94936
5 24 483
11J79
16
22 52 36.90
94311
3 31 45.4
11401
16
0 41 1.48
94954
5 35 58.2
11.149
17
22 54 50.79
94318
3 20 32.5
11498
17
0 43 19.26
94973
5 47 53
11.110
18
22 57 4.72
94396
3 9 18.0
11.955
18
0 45 37.15
94999
5 58 11.4
11.076
19
22 59 18.70
94334
2 58 1.9
11460
19
0 47 55.16
94019
6 9 14.9
11.041
20
23 1 32.73
94343
2 46 44.4
11403
20
0 50 13.29
94039
6 20 163
11.005
21
23 3 46.81
94359
2 35 25.5
11496
21
0 52 31.54
94059
6 31 15.5
10467
22
23 6 0.95
94361
2 24 5.2
11448
22
0 54 49.91
94079
6 42 12.4
10499
23
23 8 15.14
94399
2 12 43.7
11468
23
0 57 8.40
94099
6 53 7.0
10.889
24
23 10 29.38
94378
S. 2 1 21.0
11487
24
0 59 27.02
94113
N. 7 3 59.1
10.847
xn.
FEBRUARY, 1884.
31
QBEENWIOH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
Bight AaoouioiiL
Difll for
1 Minute.
Declination.
Diff.for
1 Minute.
FBIDAY 29.
h m s
8
0
0 59 27.02
8.3113
N. 7 3 59.1
10447
1
1 1 45.76
94133
7 14 48.7
10405
2
1 4 4.62
94154
7 25 35.7
10.789
3
1 6 23.61
94178
7 36 20.1
10.717
4
1 8 42.73
94197
7 47 1.7
10470
5
1 11 1.97
94918
7 57 40.5
10493
6
1 13 21.34
84839
8 8 16.5
10475
7
1 15 40.84
94981
8 18 49.5
10494
8
1 18 0.47
94909
8 29 19.4
10.479
9
1 20 20.23
94304
8 39 4&2
10.490
10
1 22 40.12
94396
8 50 9.8
10467
11
1 25 0.14
94348
9 0 30.2
10419
12
1 27 20.29
94370
9 10 47.3
10457
13
1 29 40.58
94399
9 21 1.0
10.190
14
15
1 32 1.00
1 34 21.55
94414
94437
9 31 11.2
9 41 17.8
10.140
10480
PHASES OF THE MOON.
16
17
1 36 42.24
1 39 3.06
94459
94489
9 51 20.8
10 1 20.1
10.019
9.958
_.
18
1 41 24.02
94504
10 11 15.7
9495
d h m
19
SO
1 43 45.11
1 46 6.34
94597
9.3549
10 21 7.5
10 30 55.3
9430
9.763
*' J) First Quarter • . .
3 17 57.2
21
1 48 27.70
94579
10 40 39.1
9.608
O Full Moon ....
10 16 47.9
22
1 50 49.20
94595
10 50 18.8
9498
C Last Quarter. . . .
18 15 12.6
23
1 53 10.84.
94817
lN.10 59 54.5
9480
• New Moon ....
26 6 35.1
oATUJRiAa.x, juaxHjn. l.
0
[ 1 55 32.61 1 94640 |N.ll 9 26.0
L ».480
C Perigee
d h
4 9.0
<C Apogee
17 20.3
•
<C Perigee
29 18.0
32
FEBRUARY, 1884.
XTTT.
GREENWICH MEAN TIME.
LUNAR DISTANCES.
° §
P.L.
P.L.
P.L.
P.L.
Name and Direction
Noon.
of
mh.
of
VFi.
of
1».
of
of Object.
Diff.
Diff.
Diff.
Diff.
1
Sun
W.
54 16 26
9607
O / II
55 53 10
9699
57 30 6
9688
59 6 56
9684
Fomalhaut
W.
40 25 43
3599
41 45 43
3440
43 7 14
3367
44 30 8
3301
Venus
w.
22 28 59
9845
24 2 28
9899
25 36 18
9815
27 10 26
9804
Saturn
E.
56 57 25
9345
55 12 31
9349
53 27 33
9339
51 42 30
9336
Aldebaran
E.
62 9 46
9348
<$0 24 57
9346
58 40 4
9349
56 55 6
9339
Jupiter
E.
111 30 44
9330
109 45 28
9396
108 0 6
9399
106 14 39
9318
2
Sim
W.
67 12 56
9866
68 50 22
9663
70 27 51
9660
72 5 24
9658
Fomalhaut
W.
51 41 32
3059
53 10 32
3093
54 40 16
9991
56 10 40
9961
Venus
W.
35 4 23
9769
36 39 41
9756
38 15 7
9750
39 50 40
9746
a Pegasi
W.
33 41 16
9054
35 12 26
9699
36 44 46
9859
38 18 7
9610
Saturn
E.
42 56 14
9393
41 10 48
9391
39 25 19
9390
37 39 48
9317
Aldebaran
E.
48 9 15
9396
46 23 54
9395
44 38 31
9393
42 53 5
9399
Pollux
E.
91 14 12
9413
89 30 56
9411
87 47 37
9409
86 4 15
9407
Jupiter
E.
97 26 12
9304
95 40 19
9309
93 54 22
9300
92 8 22
9998
3
Sun
W.
80 13 58
9647
81 51 49
9646
83 29 42
9644
85 7 37
9643
Fomalhaut
W.
63 50 53
9831
05 24 15
9834
66 57 59
9819
68 32 2
9805
Venus
W.
47 49 51
9796
49 25 56
9793
51 2 5
9791
52 38 17
9718
a Pegasi
Aldebaran
W.
46 16 40
9669
47 54 11
9640
49 32 11
9699
51 10 36
9606
E.
34 5 24
9316
32 19 48
9315
30 34 11
9316
28 48 33
9315
Pollux
E.
77 26 57
9403
75 43 27
9403
73 59 57
9404
72 16 28
9405
Jupiter
E.
83 17 42
9889
81 31 27
9989
79 45 11
9988
77 58 54
9987
Mars
E.
96 57 24
9944
95 10 2
9943
93 22 38
9941
91 35 12
9940
4
Sun
W.
93 17 37
9637
94 55 41
9637
96 a3 46
9637
98 11 51
9637
Fomalhaut
W.
76 26 10
9756
78 1 35
9750
79 37 8
9745
81 12 48
9740
Venus
W.
60 40 2
9709
62 16 30
9708
63 53 0
9707
65 29 31
9705
a Pegasi
W.
59 27 36
9545
61 7 47
9536
62 48 10
9598
64 28 44
9599
Pollux
E.
63 39 34
9415
61 56 21
9418
60 13 12
9499
58 30 9
9497
Jupiter
E.
69 7 15
9985
.67 20 54
9986
65 34 34
9986
63 48 14
9967
Mars
E.
82 37 43
9938
80 50 12
9939
79 2 42
9939
77 15 12
9939
ReguluB
E.
99 48 22
9313
98 2 42
9313
96 17 1
9313
94 31 20
9313
5
Sun
W.
106 22 16
9638
108 0 20
9839
109 38 22
9640
111 16 23
9641
Venus
W.
73 32 22
9703
75 8 58
9704
76 45 33
9704
78 22 8
9704
a Pegasi
W.
72 53 38
9497
74 34 55
9494
76 16 16
9499
77 57 40
9490
a Arietis
W.
29 24 59
9693
31 3 23
9591
32 42 30
9565
34 22 13
9543
Pollux
E.
49 56 51
9461
48 14 43
9470
46 32 48
9489
44 51 9
9494
Jupiter
E.
54 56 54
9993
53 10 44
9996
51 24 38
QOQfi
aHVO
49 38 35
9300
Mars
E.
68 18 7
9947
66 30 50
9950
64 43 37
9953
62 56 28
9956
Regulus
E.
85 42 52
9313
83 57 11
9313
82 11 31
9314
80 25 52
9315
6
Sun
W.
119 26 1
9649
121 3 49
9659
122 41 33
9655
124 19 13
9658
Venus
W.
86 24 46
9710
88 1 13
9719
89 37 37
9714
91 13 59
9716
a Arietis
W.
42 47 4
9474
44 28 54
9465
46 10 57
9457
47 53 10
9459
Pollux
E.
36 28 7
9567
34 48 55
9616
33 10 22
9648
31 32 32
9686
Jupiter
E.
40 49 34
9399
39 4 6
9397
37 18 46
9334
35 33 36
9349
Mars
E.
54 2 12
9981
52 15 44
9987
50 29 25
9994
48 43 17
9309
Regulus
E.
71 38 5
9393
69 52 39
9395
68 7 16
9398
66 21 57
9330
7
a Arietis
W.
56 25 47
9438
58 8 28
9437
59 51 10
9437
61 33 52
9438
Saturn
W.
27 39 44
9334
29 24 54
9337
31 10 0
9340
32 55 1
9344
XIV.
FEBRUARY, 1884.
33
GREENWICH MEAN TIME.
LUNAR DISTANCES.
•
1*
P.L.
P.L.
P.L.
P.L.
Bame «n4 Direotton
of Object.
Midnight
of
BUT.
xv*.
of
DuT.
xvm*
of
DuT.
XXI*.
of
Dlff.
1
Suit
W.
60 4^58
9880
6221 5
9876
Oil!
63 58 17
9679
65 35 34
9889
Fomnlhaut
W.
45 54 18
3949
47 19 37
3188
48 46 0
3140
50 13 20
3096
Venus
w.
28 44 49
9794
30 19 25
9784
31 54 14
9776
33 29 14
9789
Saturn
E.
49*57 23
93S3
48 12 11
9330
46 26 55
9398
44 41 36
9396
Aldebaran
E.
55 10 4
9337
53 24 58
9333
51 39 47
9331
49 54 33
9398
Jupiter
E.
104 29 6
9315
102 43 28
9319
100 57 46
9310
99 12 1
9307
2
Sun
W.
73 43 0
9655
75 20 40
9863
76 58 23
9861
78 36 9
9649
Fomnlhaut
W.
57 41 41
9935
59 13 16
9911
60 45 21
9889
62 17 54
9889
Venus
W.
41 26 19
9741
43 2 4
9737
44 37 55
9733
46 13 51
9730
aPegosi
W.
39 52 22
9779
41 27 26
9739
43 3 14
9710
44 39 40
9685
Saturn
E.
35 54 14
9316
34 8 38
9315
32 23 0
9913
30 37 20
9319
Aldebaran
E.
41 7 37
9390
39 22 6
9318
37 36 33
9317
35 50 59
9317
Pollux
E.
84 20 50
9405
82 37 23
9405
80 53 55
9404
79 10 26
9404
Jupiter
E.
90 32 19
9996
88 36 14
9994
86 50 6
9999
85 3 55
9991
3
Sun
W.
86 45 34
9841
88 23 33
9641
90 1 33
9640
91 39 34
9636
Foonalhaut
W.
70 6 23
9793
71 41 0
9789
73 15 51
9779
74 50 55
9764
Venus
W.
54 14 33
9716
55 50 52
9714
57 27 13
9713
59 3 36
9711
aPegasi
Aldebaran
W.
52 49 23
9591
54 28 31
9577
56 7 57
9566
57 47 39
9555
E.
27 2 56
9316
25 17 20
9317
23 31 45
9319
21 46 13
9399
Pollux
E.
70 33 1
9408
68 49 35
9408
67 6 12
9410
65 22 51
9419
Jupiter
E.
76 12 36
9967
74 26 17
9986
72 39 57
3985
70 53 36
9985
Mars
E.
89 47 44
9939
88 0 15
9939
86 12 45
9938
84 25 14
9936
4
Sun
W.
99 49 56
9637
101 28 1
9837
103 6 6
9837
104 44 11
9637
Fomalhaut
W.
82 48 35
9736
84 24 27
9734
86 0 22
9739
87 36 19
9731
Venus
W.
67 6 4
9704
68 42 38
9704
70 19 12
9704
71 55 47
9704
aPegasi
W.
66 9 27
9515
67 50 19
9510
69 31 19
9505
71 12 26
9501
Pollux
E.
56 47 13
9439
55 4 24
9438
53 21 43
9444
51 39 11
9453
Jupiter
E.
62 1 55
9988
60 15 38
9989
58 29 22
9989
56 43 7
9991
Mars
E.
75 27 43
9941
73 40 16
9949
71 52 51
9943
70 5 28
9945
Regulus
E.
92 45 39
9319
90 59 57
9319
89 14 15
9319
87 28 33
9313
5
Sun
W.
112 54 23
9849
114 32 21
9843
116 10 17
9646
117 48 10
9647
Venus
W.
79 58 42
9705
81 a5 15
9708
83 11 47
9707
84 48 17
9708
.
a Pepsi
a Arietis
W.
79 39 7
9489
•81 20 35
9489
83 2 4
9489
84 43 33
9489
W.
36 226
9595
37 43 5
9509
39 24 6
9495
41 5 27
9483
Pollux
E.
43 9 47
9508
41 28 45
9595
39 48 6
9543
38 7 52
9564
Jupiter
E.
47 52 36
9304
46 6 42
9307
44 20 53
9311
42 35 10
9316
Mars
E.
61 9 24
9980
59 22 26
9984
57 35 34
9969
55 48 49
9974
Regulus
E.
78 40 15
9316
76 54 39
9317
75 9 5
9319
73 23 34
9391
6
Sun
W.
125 56 49
9889
127 34 20
9666
129 11 46
9869
130 49 7
9874
Venus
W.
92 50 18
9719
94 26 33
9791
96 2 45
9793
97 38 54
9796
a Arietis
W.
49 $> 31
9448
51 17 58
9443
53 0 31
9440
54 43 8
9439
Pollux
E.
29 55 33
9730
28 19 33
9783
26 44 43
9847
25 11 16
9994
Jupiter
E.
33 48 37
9350
32 3 51
9361
30 19 20
9373
28 35 6
9386
Mars
E.
46 57 21
9311
45 11 38
9339
43 26 10
9333
41 40 59
9346
Regulus
E.
64 36 41
9333
62 51 30
9336
61 6 23
9340
59 21 21
9344
7
a Arietis
W.
63 16 33
9439
64 59 12
9441
66 41 48
9443
68 24 21
9446
Saturn
W.
34 39 57
9348
36 24 47
8383
38 9 30
9357
39 54 7
9369
34
FEBRUARY, 1884.
XV.
GREENWICH MEAN TIME.
"
LUNAR DISTANCES.
1"
P.L.
P.L.
P.L
P. L.
Name and Direction
Noon.
of
llPu
of
VP>
of
ED*-
of
of Oktfect.
Diir.
ma.
Diir.
IMA
7
Aldebaran
W.
O 1 II
22 32 12
9344
2ll7' f
9346
26 2 0
9346
27° 46 50
8150
Mars
E.
39 56 7
3361
38 11 36
9377
36 27 28
9395
34 43 46
9416
Regulus
E.
57 36 25
9348
55 51 35
9359
54 6 51
9357
52 22 14
9369
Spica
E.
111 11 11
9398
109 25 53
9333
107 40 41
9336
105 55 34
9340
8
a Arietis
W.
70 6 50
9449
71 49 15
9453
73 31 34
9456
75 13 46
9463
Saturzi
W.
41 38 36
9367
43 22 58
9373
45 7 12
9379
46 51 17
9384
Aldebaran
W.
36 29 54
9369
38 14 13
9375
39 58 24
9380
41 42 27
9386
Regulus
Spica
E.
43 41 13
9394
41 57 30
9409
40 13 58
9410
38 30 38
9419
E.
97 11 34
9364
95 27 7
9370
93 42 49
9375
91 58 39
9389
9
a Arietis
W.
83 42 52
9494
85 24 14
9509
87 525
9509
88 46 25
9517
Saturn
W.
55 29 24
9419
57 12 31
9498
58 55 26
9436
60 38 9
9445
Aldebaran
W.
50 20 32
9419
52 3 40
9497
53 46 36
9435
55 29 21
9443
Spica
E.
83 20 11
9417
81 37 0
9495
79 54 1
9433
78 11 13
9441
10
Saturn
W.
69 839
9490
70 50 6
9500
72 31 19
9511
74 12 17
9599
Aldebaran
W.
64 0 3
9489
65 41 32
9498
67 22 48
9509
69 3 49
9519
Pollux
W.
23 46 9
3083
25 14 41
3099
26 44 27
9973
28 15 14
9935
Jupiter
W.
16 32 47
9700
18 9 27
9669
19 46 49
9646
21 24 41
9639
Spica
E.
69 40 21
9487
67 58 50
9498
66 17 34
9508
64 36 32
9518
Antares
E.
115 4 32
9536
113 24 9
9545
111 43 58
9554
110 4 0
9564
11
Saturn
W.
82 33 21
9577
84 12 47
9589
&5 51 57
9601
87 30 51
9619
Aldebaran
W.
77 25 14
9574
79 4 45
9585
80 44 0
9597
82 22 59
9610
Pollux
W.
35 58 J7
9838
37 31 56
9830
39 5 45
9894
40 39 41
9899
Jupiter
W.
29 36 51
9619
31 15 20
9693
32 53 44
9698
34 32 1
9635
Spica
E.
56 15 6
9574
54 35 36
9586
52 56 22
9598
51 17 24
9610
Aiitares
E.
101 47 33
9615
100 8 59
9696
98 30 40
9638
96 52 37
9649
12
Aldebaran
W.
90 33 46
9671
92 11 5
9683
93 48 8
9695
95 24 54
9708
Pollux
W.
48 29 33
9830
50 3 22
9835
51 37 4
9841
53 10 38
9848
Jupiter
w.
42 40 54
9678
44 18 4
9687
45 55 1
9697
47 31 45
9707
MaRS
w.
32 14 18
9756
33 49 43
9759
35 25 14
9750
37 0 47
9750
Spica
E.
43 6 46
9679
41 29 29
9686
39 52 30
9698
38 15 48
9719
Autares
E.
88 46 20
9710
87 9 54
9793
85 33 45
9736
83 57 53
9750
13
Pollux
W.
60 56 8
9888
62 28 42
9898
64 1 4
9907
65 33 14
9916
Jupiter
W.
55 31 46
9763
57 7 2
9775
58 42 3
9787
60 16 48
9798
Mars
W.
44 58 0
9769
46 33 9
9775
48 8 9
9769
49 43 0
9790
Regulus
W.
23 54 59
9855
25 28 16
9857
27 1 30
9869
28 34 38
9868
An tares
E.
76 2 52
9814
74 28 43
9898
72 54 51
9841
71 21 17
9855
14
Pollux
W.
73 10 59
9966
74 41 54
9976
76 12 37
9966
77 43 7
9996
Jupiter
W.
68 6 52
9855
69 40 9
9866
71 13 12
9876
72 46 1
9687
Mars
W.
57 34 39
9831
59 8 26
9841
60 42 1
9850
62 15 24
9659
Regulus
W.
36 18 4
9907
37 50 14
9916
39 22 13
9994
40 54 1
9933
Autares
E.
63 37 41
9991
62 5 49
9934
60 34 13
9946
59 2 53
9960
15
Pollux
W.
85 12 33
3045
86 41 50
3054
88 10 56
3083
89 39 51
3079
Jupiter
W.
80 26 45
9938
81 58 16
9947
&S\ 29 35
9957
85 0 42
S965
Mars
W.
69 59 29
9903
71 31 44
9911
73 3 49
9990
74 35 43
9998
Regulus
W.
48 30 11
9977
50 0 52
9986
51 31 22
9994
53 1 U
3001
XVI.
FEBRUARY, 1884.
35
GREENWICH MEAN TIME.
LUNAB DISTANCES.
It
o §
Name and Direction
of Object.
Midnight
P.L.
of
Biff.
xv*.
P.L.
of
Dlff.
xvm«.
P.L.
of
Diff.
XXI*.
P.L.
of
Diff.
7
Aldebaran
W.
29 31 37
93.13
31° 16 19
9357
33 0 56
9360
34 45 28
9964
Mars
£.
33 0 34
9440
31 17 57
9469
29 36 0
9509
27 54 49
9540
Regulus
Spica
E.
50 37 45
9368
48 53 24
9373
47 9 11
9380
45 25 7
9387
E.
104 10 33
9345
102 25 39
9349
100 40 51
9353
98 56 9
9358
8
a Arietis
W.
76 55 51
9468
78 37 49
9474
80 19 39
9460
82 1 20
9487
Saturn
W.
48 35 14
9391
50 19 2
9398
52 2 40
9405
53 46 7
9419
Aldebaran
W.
43 26 22
9398
45 10 8
9398
46 53 46
9405
48 37 14
9419
Resulus
K.
36 47 30
9499
35 4 36
9440
33 ?1 58
9451
31 39 36
9464
Spica
E.
90 14 38
8389
88 30 47
9395
86 47 5
9409
85 333
9409
9
a Arietis
W.
90 27 14
9S96
92 7 51
9535
93 48 15
9545
95 28 25
9556
Saturn
W.
62 20 40
9454
64 2 58
9469
65 45 4
9471
67 26 58
9480
Aldebaran
w.
57 11 54
9459
58 54 15
9460
60 36 24
9470
62 18 20
9479
Spica
E.
76 28 37
9450
74 46 14
9460
73 4 4
9468
71 22 6
9477
10
Saturn
W.
75 53 0
9533
77 33 28
9543
79 13 41
9554
80 53 39
9566
Aldebaran
W.
70 44 36
9530
72 25 8
9540
74 5 25
9551
75 45 27
9569
Pollux
W.
29 46 49
9905
31 19 2
9881
32 51 45
9869
34 24 52
9848
Jupiter
W.
23 2 52
9093
24 41 15
96J8
26 19 45
9616
27 58 18
9816
Spica
E.
62 55 44
9599
61 15 11
9540
59 34 54
9551
57 54 52
9563
Antares
E.
108 24 15
9574
106 44 44
9563
105 5 26
9593
103 26 22
9604
11
Saturn
W.
89 9 29
9895
90 47 50
9638
92 25 54
9649
94 3 42
96ftl
Aldebaran
W.
84 1 4J
9691
85 40 7
9633
87 18 17
9646
88 56 10
9658
Pollux
W.
42 13 40
9691
43 47 41
9891
45 21 41
9893
46 55 39
9696
Jupiter
W.
36 10 9
9649
37 48 7
9649
39 25 55
9658
41 3 31.
9668
Spica
E.
49 38 43
9693
48 0 19
9635
46 22 11
9647
44 44 20
9660
Antares
E.
95 14 49
9661
93 37 17
9674
92 0 2
9686
90 23 3
9698
12
Aldebaran
W.
97 1 23
9791
98 37 35
9734
100 13 30
9747
101 49 8
9759
Pollux
W.
54 44 4
9655
56 17 20
9863
57 50 26
9871
59 23 22
9879
Jupiter
W.
49 8 15
9719
50 44 30
9730
52 20 30
9741
53 56 15
9759
Mars
W.
38 36 21
9751
40 11 53
9754
41 47 21
9758
43 22 44
9763
Spica
E.
36 39 24
9795
35 3 17
9738
a3 27 27
9751
31 51 55
9765
Antares
E.
82 22 19
9769
80 47 1
9775
79 12 1
9788
77 37 18
9801
13
Pollux
W.
67 5 12
9996
68 36 58
9936
70 8 31
9946
71 39 51
9956
Jupiter
W.
61 51 18
9810
63 25 33
9891
64 59 34
9839
66 33 20
9843
Mars
W.
51 17 41
9798
52 52 12
9806
54 26 32
9814
56 0 41
9893 '
Regulus
W.
30 7 38
9875
31 40 29
9889
33 13 11
9890
34 45 43
9698
Antares
E.
09 48 0
9868
68 15 0
9881
66 42 17
9894
65 9 51
9907
14
Pollux
W.
79 13 25
3006
80 43 30
30)6
82 13 23
3096
83 43 4
3035
Jupiter
W.
74 18 36
9698
75 50 57
9909
77 23 5
9918
78 55 1
9997
Mars
W.
63 48 36
9868
65 21 36
9676
66 54 25
9685
68 27 3
9894
Regulus
W.
42 25 38
9949
43 57 3
9951
45 28 17
9960
46 59 20
9969
Antares
E.
57 31 50
9973
56 1 3
9985
54 30 32
SAW
53 0 18
30 J 1
15
Pollux
W.
91 8 35
3060
92 37 9
3089
94 5 32
3097
95 33 45
3105
Jupiter
W.
86 31 39
9973
88 2 25
9981
89 33 1
9989
91 3 27
9997
Mars
W.
76 7 27
9935
77 39 1
9943
79 10 25
9950
80 41 40
995S
Regulus
W.
54 31 53
3009
56 1 54
3018
57 31 45
3094
59 1 28
3031
36
FEBRUARY, 1884.
XVIL
GREENWICH MEAN TIME.
LUNAR DISTANCES.
•
Name and Direotion
of Objwt.
Noon.
P.L.
of
DuT.
ma.
P.L.
of
Diff.
VI*-
P.L.
of
Diff:
DP**
P.L.
of
Diff.
15
Airfares
Sun
E.
E.
51° 30 19
129 32 19
9094
3351
O 1 II
50 036
128 9 6
3037
3300
O / II
48 31 9
126 46 4
3050
3369
47 1 58
125 23 12
3063
3378
16
Jupiter
Mars
Regulus
An tares
Sun
W.
W.
w.
E.
E.
92 33 43
82 12 45
60 31 2
39 40 2
118 31 17
3004
9965
3038
3199
3417
94 3 51
83 43 42
62 0 28
38 12 28
117 9 20
3011
9971
3043
3143
3494
95 33 50
&> 14 31
63 29 47
36 45 11
115 47 31
3018
9977
3049
3158
9431
97 3 41
86 45 13
64 58 59
35 18 12
114 25 49
3093
9983
3055
3174
9437
17
Mars
Regulus
a Aquilw
Sun
W.
W.
E.
E.
94 16 58
72 23 28
80 10 11
107 38 51
3007
3070
3474
3400
95 47 2
73 52 7
78 49 18
106 17 42
3011
3078
3481
3463
97 17 1
75 20 43
77 28 33
104 56 36
3015
3081
3469
3466
98 46 55
76 49 16
76 7 57
103 35 33
3018
3083
3497
3467
18
Regulus
Spica
a Aquilw
Sun
W.
W.
E.
E.
84 11 34
30 31 12
69 27 6
96 50 43
3067
3079
3537
3471
85 40 0
31 59 47
06 7 23
95 29 46
3086
3078
3546
3470
87 827
33 28 23
66 47 50
94 8 48
3084
3076
3556
3468
88 36 56
34 57 2
65 28 28
92 47 48
3069
3073
3566
3466
19
Spica
a Aquita
Sun
W.
E.
E.
42 21 8
58 54 33
86 2 4
3056
3696
3448
43 50 11
57 36 27
84 40 42
3059
3640
3443
45 19 20
56 18 36
83 19 14
3046
3656
3437
46 48 36
55 1 2
81 57 39
3040
3673
3431
20
Spica
a Aquita
Sun
W.
E.
E.
54 16 56
48 38 23
75 7 51
3004
3789
3393
55 47 4
47 23 9
73 45 26
9996
3819
3384
57 17 22
4G 8 26
72 22 51
9986
3854
3374
58 47 52
44 54 19
71 0 5
9977
3809
3364
21
Spica
Antares
Sun
W.
W.
E.
66 23 27
22 9 22
64 3 11
9994
3896
3307
67 55 15
23 35 0
62 39 8
9919
3179
3995
69 27 18
25 1 34
61 14 51
9901
3138
3989
70 59 36
26 28 57
59 50 19
9889
3101
3970
22
Spica
Antares
Sun
W.
W.
E.
78 45 9
33 55 57
52 43 42
9899
9957
3900
80 19 8
35 27 3
51 17 33
9809
9933
3165
81 53 24
36 58 40
49 51 6
9795
9910
3171
83 27 59
38 30 46
48 24 22
9781
9887
3156
23
Spica
Antares
Sun
W.
W.
E.
91 25 40
46 18 8
41 6 10
9707
9785
3080
93 2 11
47 52 55
39 37 36
9691
9766
3065
94 39 3
49 28 7
38 8 44
9676
9746
3051
96 16 15
51 3 43
36 39 34
9661
9730
3035
24
Spica
Antares
Sun
W.
W.
E.
104 27 23
59 7 47
29 9 14
9585
9641
9967
106 6 39
60 45 47
27 38 20
9570
9694
9955
107 46 15
62 24 9
26 7 11
9555
9607
£944
109 26 12
64 2 54
24 35 48
9640
9591
S934
28
Sun
Saturn
Aldebaran
Jupiter
W.
E.
E.
E.
22 47 37
61 48 31
66 26 16
113 4 58
9604
9948
9935
9938
24 26 26
60 1 15
64 38 40
111 17 27
9599
9944
9930
9933
26 5 32
58 13 53
62 50 57
109 29 48
9589
9940
9996
99S8
27 44 52
56 26 25
61 3 9
107 42 2
9674
9937
9993
9994
29
Sun
Saturn
Aldebaran
Pollux
Jupiter
W.
E.
E.
E.
E.
36 3 55
47 28 2
52 3 5
95 6 2
98 42 3
9546
9996
9919
9309
9919
37 44 4
45 40 13
50 14 55
93 20 6
96 53 53
9543
9996
9919
9309
9911
39 24 17
43 52 24
48 26 45
91 34 9
95 5 42
9549
9996
9919
9301
9911
41 4 32
42 4 &5
46 38 35
89 48 11
93 17 31
9540
9996
9919
9300
9911
xvni.
FEBRUARY, 1884.
37
GREENWICH MEAN TIME.
LUNAB DISTANCES.
Name And Direction
of Object
Midnight
P.L.
Of
Diff.
XV*.
P.L,
of
Diff.
xvm*.
P.L.
of
Diff.
xxi*.
P.L.
Of
Diff.
15
All tares
Sun
E.
E.
Q 1 II
45 33 3
124 0 30
9075
3386
44° 4' 23
122 37 58
3088
8395
42 35 59
121 15 36
3109
3409
O i 11
4] 7 52
119 53 22
3116
3410
16
Jupiter
Mars
Regulus
A n tares
Sun
W.
W.
W.
E.
£.
96 33 25
88 15 47
6628 4
33 51 32
113 4 14
3099
8989
3080
3J90
3449
100 3 2
89 46 14
67 57 3
32 25 11
111 42 45
3034
9993
3065
3908
3447
101 32 32
91 16 35
69 25 56
30 59 11
110 21 22
3039
9990
3069
3997
3459
103 1 56
92 46 49
70 54 44
29 33 34
109 0 4
3043
3003
3079
3948
3456
17
Mars
Regulus
ccAquito
Suit
W.
W.
E.
E.
100 16 45
78 17 46
74 47 29
102 14 32
3091
3085
3505
3469
101 46 32
79 46 14
73 27 10
100 53 33
3099
3086
3519
3471
103 16 17
81 14 41
72 6 59
99 32 36
3095
3086
3591
3471
104 45 59
82 43 8
70 46 58
96 11 39
3096
3087
3599
3471
18
Regulus
Spica
aAquifo
Sun
W.
W.
E.
E.
90 5 28
36 25 44
64 9 17
91 26 46
3080
3071
3576
3463
91 34 2
37 54 29
62 50 17
90 5 41
3078
3069
3587
3461
93 2 39
39 23 17
61 31 29
88 44 33
3074
3065
3599
3457
> 94 31 20
40 52 10
60 12 54
87 23 21
3070
3080
3619
3453
19
Spica
a Aquito
Sun
W.
E.
E.
48 17 59
53 43 46
80 35 58
3034
3699
3494
49 47 30
52 26 50
79 14 9
3096
3719
3417
51 17 10
51 10 16
77 52 12
3090
3735
3409
52 46 58
49 54 6
76 30 6
3019
3761
3401
20
Spica
aAquifo
Sun
W.
E.
E.
60 18 33
43 40 51
69 37 7
9967
3935
3353
61 49 27
42 28 7
68 13 57
9957
3963
3343
63 20 33
41 16 11
66 50 35
9946
4037
3339
64 51 53
40 5 8
65 27 0
9935
4099
3319
21
Spica
Antares
Sun
W.
W.
E.
72 32 9
27 57 5
58 25 32
9876
3068
3956
74 4 59
29 25 54
57 0 29
9863
3038
3949
75-38 5
30 55 20
55 35 10
9650
3009
3998
77 11 28
32 25 22
54 934
9836
9989
3914
22
Spica
Antares
Sun
W.
W.
E.
85 2 52
40 3 21
46 57 20
9766
9866
3141
86 38 5
41 36 23
45 30 0
9751
9845
3196
88 13 37
43 9 52
44 2 22
9736
9895
3110
89 49 29
44 43 47
42 34 25
9799
9805
3096
23
Spica
Antares
Sun
W.
W.
E.
97 53 47
52 39 43
35 10 5
9646
9711
3091
99 31 40
54 16 8
33 40 18
9630
9693
3007
101 9 54
55 52 57
32 10 14
9615
9675
9993
102 48 28
57 30 10
30 39 52
9600
9658
9980
24
Spica
An tares
Sun
W.
W.
E.
111 6 29
65 42 2
23 4 12
9596
9575
9995
112 47 6
67 21 32
21 32 25
9511
9559
9990
114 28 4
69 1 23
20 0 31
9497
9543
9916
116 9 22
70 41 36
18 28 32
9489
9598
9915
28
Sun
Saturn
Aidebaran
Jupiter
W.
E.
E.
E.
29 24 23
54 38 52
59 15 16
105 54 11
9568
9933
9990
9991
31 4 4
52 51 14
57 27 19
104 6 15
9560
9931
9916
9918
32 43 54
51 3 33
55 39 18
102 18 14
9555
9999
9915
9916
34 23 51
49 15 49
53 51 13
100 30 10
9550
9997
9913
9914
29
Sun
Saturn
Aidebaran
Pollux
Jupiter
W.
E.
E.
E.
E.
42 44 50
40 16 46
44 50 25
88 2 12
91 29 20
9538
9997
9919
9300
9911
44 25 10
38 28 58
43 2 16
86 16 13
89 41 9
9538
9997
9913
9309
9919
46 5 30
36 41 11
41 14 8
84 30 16
87 52 59
9538
9999
9914
9304
9919
47 45 50
34 53 27
39 26 2
82 44 22
86 4 50
9538
9931
9916
9307
9914
38
MARCH, 1884.
AT GREENWICH APPARENT NOON.
THE SUN'S
t
1
1
•
1
Sidereal
Time of
Semi-
diameter
Passing
Meridian.
Eq nation of
Time,
to be
Added to
Apparent
Time.
Dlff. for
lHonr.
Apparent
Right Ascension.
Dlff. for
lHonr.
Apparent
Declination.
Dlff. for
1 Hoar.
Semi*
diameter.
Sat.
SUN.
Mod.
1
2
3
h m s
22 51 13.59
22 54 57.70
22 58 41.32
9.350
9.328
9.306
S. 7 18 27*0
6 55 32.0
6 32 31.2
+57?16
57.41
57.65
16
16
16
10.22
9.98
9.74
65?37
65.30
65.24
m s
12 24.86
12 12.45
11 59.56
s
0.506
0.528
0.548
Tues.
Wed.
Thur.
4
5
6
23 2 24.46
23 6 7.13
23 9 49.37
9.289
9.271
9.252
6 9 25.1
5 46 14.0
5 22 58.3
+57.86
58.06
58.25
16
16
16
9.50
9.25
9.00
65.17
65.11
65.05
11 46.19
1132.35
11 18.07
0.567
0.585
0.603
Frid.
Sat.
SUN.
7
8
9
23 13 31.19
23 17 12.62
23 20 53.66
9.234
9.218
9.203
4 59 38.3
4 36 14.6
4 12 47.4
+58.41
58.56
58.69
16
16
16
8.74
8.50
8.24
65.00
64.94
64.89
11 3.38
10 48.29
10 32.83
0.621
0.637
0.652
ill
10
11
12
23 24 34.36
23 28 14.73
23 31 54.79
9.189
9.176
9.163
3 49 17.1
3 25 44.1
3 2 8.7
+58.82
58.93
59.02
16
16
16
7.98
7.71
7.45
64.84
64.79
64.75
10 17.02
10 0.88
9 44.44
0.G66
0.679
0.692
Thur.
Frid.
Sat.
13
14
15
23 35 34.57
23 39 14.09
23 42 53.38
9.152
9.142
9.133
2 38 31.2
2 14 52.0
1 51 11.5
+59.11
59.16
59.20
16
16
16
7.18
6.91
6.63
64.71
64.67
64.64
9 27.72
9 10.73
8 53.51
0.703
0.713
0.722
SUN.
Mon.
Tues.
16
17
18
23 46 32.47
23 50 11.37
23 53 50.12
9.124
9.117
9.111
1 27 30.0
1 3 48.0
0 40 5.7
+59.24
59.26
59.26
16
16
16
6.36
6.08
5.81
64.60
64.58
64.55
8 36.09
8 1850
8 0.74
0.731
0.738
0.744 I
|
Wed.
Thur.
Frid.
19
20
21
23 57 28.71
0 1 7.19
0 4 45.56
9.105
9.101
9.098
S. 0 16 123.5
N. 0 7 18.2
0 30 59.0
+59.26
59.23
59.18
16
16
16
5.53
5.25
4.97
64.53
64.51
64.50
7 42.83
7 24.79
7 6.66
0.750 '
0.754
0.757
Sat.
SUN.
Mon.
22
23
24
0 8 23.86
0 12 2.09
0 15 40.28
9.095
9.092
9.091
0 54 38.7
1 18 16.8
1 41 53.0
+59.13
59.05
58.96
16
16
16
4.69
4.41
4.13
64.48
64.47
64.46
6 48.46
6 30.20
6 11.88
0.760
0.763
0.764
Tues.
Wed.
Thur.
25
26
27
0 19 18.44
0 22 56.60
0 26 34.75
9.090
9.090
9.091
2 5 26.8
2 28 57.9
2 52 26.0
+58.86
58.74
58.60
16
16
16
3.85
3.57
3.29
64.46
64.46
64.47
5 53.53
5 35.18
5 16.84
0.765
0.765
0.764
Frid.
Sat.
SUN.
Mon.
28
29
30
31
0 30 12.92
0 33 51.13
0 37 29.39
0 41 7.73
9.092
9.093
9.096
9.100
3 15 50.7
3 39 11.4
4 2 28.0
4 25 40.1
+58.45
58.28
58.10
57.91
16
16
16
16
3.01
2.74
2.46
2.19
64.47
64.48
64.49
64.51
4 58.52
4 40.23
4 21.99
4 3.82
0.763
0.762
0.759
0.756
Tues.
32
0 44 46.15
9.103
N. 4 48 47.4
+57.70
16
1.92
64.52
3 45.74
0.752
Note.— The moan time of mb
The sign + prefixed
north declinations, in
ildiametei
to the hoc
creasing.
' passing may be found by si
irly change of declination ind
ibtraoting 0M8 from the
icates that south declina
> sidereal tim<
itions are deci
-easing;
H.
MAKCH, 1884.
39
AT GREENWICH MEAN NOON.
•
THE
SUN'S
1
1
•s
1
5
§
*
•
1
Equation of
Time,
to be
Subtracted
from
Mean Time.
Diffi for
lHour.
Sidereal
Time,
or
Bight Ascension
of
Mean Sun.
Apparent
Bight Ascension.
Did! for
lHonr.
Apparent
Declination.
Dlft for
1 Hour.
Sat.
SUN.
Mon.
1
2
3
h m 8
22 51 11.64
22 54 55.79
22 58 39.45
9.351
9.329
9.309
S. 7° 18 38.8
6 55 43.7
6 82 42.7
+57 J 7
57.42
57.66
m a
12 24.96
12 12.55
11 59.66
0.506
0.528
0.548
h m s
22 38 46.68
22 42 43.24
22 46 39.79
Tues.
Wed.
Thur.
4
5
6
23 2 22.63
23 6 5.34
23 9 47.62
9.990
9.872
9.254
6 9 36.4
5 46 25.1
5 23 9.2
+57.87
58.07
58.26
11 46.59
11 32.45
11 18.18
0.567
0.585
0.603
22 50 36.34
22 54 32.89
22 58 29.44
Frid.
Sat.
SUN.
7
8
9
23 13 29.48
23 17 10.95
23 20 52.04
9.236
9.220
9.205
4 59 49.0
4 36 25.1
•4 12 57.7
+58.42
58.57
58.70
11 3.49
10 48.40
10 32.94
0.621
0.637
0.652
23 2 25.99
23 6 22.55
23 10 19.10
Mon.
Tues.
Wed.
10
11
12
23 24 32.78
23 28 13.19
23 31 53.30
9.191
9.178
9 165
3 49 27.2
3 25 53.9
3 2 18.2
+58.83
58.94
59.03
10 17.13
10 0.99
9 44.55
0.666
0.679
0.692
23 14 15.65
23 18 12.20
23 22 8.75
1 Thur.
Frid.
Sat.
13
14
15
23 35 33.13
23 39 12.70
23 42 52.03
9.154
9.144
9.135
2 38 40.5
2 15 1.1
1 51 20.3
+59.11
59.17
59.21
9 27.83
9 10.84
8 53.62
0.703
0.713
0.722
23 26 5.80
23 30 1.86
23 33 58.41
SUN.
Mon.
Tues.
16
17
18
23 46 31.16
23 50 10.11
23 53 48.90
9.126
9.119
9.113
1 27 38.6
1 3 56.3
0 40 13.7
+59.25
59.27
59.27
8 36.20
8 18.60
8 0.84
0.731
0.738
0.744
23 37 54.96
23 41 51.51
23 45 48.06
Wed.
Thur.
Frid.
19
20
21
23 57 27.54
0 1 6.06
0 4 44.48
9.107
9.103
9.100
S. 0 16 31.2
N. 0 7 10.8
0 30 51.9
+59.27
59.24
59.19
7 42.93
7 24.89
7 6.76
0.750
0.754
0.757
23 49 44.61
23 53 41.17
23 57 37.72
Sat
SUN.
Mon.
22
23
24
0 8 22.82
0 12 1.10
0 15 39.34
9.097
9.094
9.093
0 54 31.9
1 18 10.3
1 41 46.8
+59.14
59.06
58.97
6 48.55
6 30.26
6 11.96
0.760
0.763
0.764
0 1 34.27
0 5 30.82
0 9 27.38
Tues.
Wed.
Thur.
25
26
27
0 19 17.54
0 22 55.74
0 26 33.94
9.092
9.092
9.093
2 5 21.0
2 28 52.4
2 52 20.8
+68.87
58.75
58.61
5 53.61
5 35.26
5 16.91
0.765
0.765
0.764
0 13 23.93
0 17 20.48
0 21 17.03
Frid.
Sat.
SUN.
Mon.
28
29
30
31
0 80 12.16
0 33 50.42
0 37 28.73
0 41 7.11
9.094
9.095
9.098
9.102
3 15 45.8
3 39 6.9
4 2 23.7
4 25 36.1
+58.46
58.29
58.11
67.92
4 58.58
4 40.29
4 22.05
4 3.88
0.763
0.762
0.759
0.756
0 25 13.58
0 29 10.13
0 33 6.68
0 37 3.23
Tues.
32
0 44 45.58
9.105
N. 4 48 43.7
+57.71
3 45.79
0.752
0 40 59.79
XOTB.— Th
Th
arc
» semidiameter for i
o sign + proilxod to
> decreasing; north
dean noon
the hourl.
ieclinatio]
may be assumed the same as t
j ohange of declination indicate
as, increasing.
tiat for apparent
« that south dec
noon,
linationa
Diff. for 1 Hour,
+ 9-.8565.
(Table ILL)
40
MARCH, 1884.
III.
AT GREENWICH MEAN NOON.
THE SUN'S
i
1
1
1
3
Logarithm
of the
Radius Vector
of the
Earth.
DHL for
1 Hoar.
Mean Time
of
Sidereal Noon.
TRUE LONGITUDE.
Difll for
lHoor.
LATITUDE.
X
V
1
2
3
61
62
63
341 21 30*2
342 21 38.9
343 21 45.4
2l' 13.6
21 22.2
21 28.6
I5CU0
150.32
150.24
+ 0A0
-0.03
0.14
9.9963046
9.9964126
9.9965214
+ 44.9
45.2
45.5
h m a
1 21 0.01
1 17 4.10
1 13 8.19
4
5
6
64
65
66
344 21 49.7
345 21 52.0
346 21 52.1
21 32.8
21 35.0
21 35.1
150.14
150.05
149.96
-0.25
0.32
0.37
9.9966310
9.9967415
9.9968530
+ 45.8
46.2
46.6
1 9 12.28
1 5 16.37
1 1 20.47
7
8
9
67
68
69
347 21 50.0
348 21 45.7
349 21 39.3
21 32.9
21 28.5
21 21.9
149.87
149.77
149.69
-0.39
0.38
0.35
9.9969655
U9970792
9.9971942
+ 47.1
47.6
48.2
0 57 24.56
0 53 28.66
0 49 32.76
10
11
12
70
71
72
350 21 30.7
351 21 20.1
352 21 7.6
21 13.3
21 2.7
20 50.1
149.60
149.52
149.44
-0.27
0.19
-0.07
9.9973107
9.9974584
9.9975473
+ 48.8
49.3
49.9
0 45 36.85
0 41 40.94
0 37 45.03
13
14
15
73
74
75
353 20 53.2
354 20 36.8
355 20 18.6
20 35.6
20 19.1
20 0.8
149.36
149.28
149.20
+ 0.05
0.19
0.33
9.9976676
9.9977892
9.9979118
+ 50.4
60.9
51.3
0 33 49.13
0 29 53.22
0 25 57.31
16
17
16
76
77
78
356 19 58.6
357 19 36.9
358 19 13.4
19 40.8
19 19.0
18 55.4
149.13
149.06
148.98
+ 0.48
0.59
0.68
9.9980354
9.9981598
9.9982848
+ 51.7
52.0
52.3
0 22 1.41
0 18 5.51
0 14 9.60
19
20
21
79
80
81
359 18 48.1
0 18 21.0
1 17 52.2
18 30.0
18 2.8
17 34.0
148.91
148.63
148.76
+ 0.75
0.80
0.82
9.9984106
9.9985369
9.9986633
+ 52.5
52.7
52.7
0 10 13.69
0 6 17.78
$ 0 2 21.89J
{23 58 25.98)
22
23
24
82
83
84
2 17 21.7
3 16 49.3
4 16 15.1
17 3.4
16 30.9
15 56.6
148.69
148.61
148.53
+ 0.82
0.77
0.69
9.9987897
9.9989163
9.9990426
+ 62.7
52.7
52.6
23 54 30.07
23 50 34.16
23 46 38.26
25
26
27
85
86
87
5 15 39.0
6 15 0.9
7 14 20.8
15 20.4
14 42.3
14 2.2
148.45
148.37
148.29
+ 0.61
0.49
0.36
9.9991684
9.9992939
9.9994190
+ 52.4
52.2
52.0
23 42 42.35
23 38 46.44
23 34 50.54
28
29
30
31
88
89
90
91
8 13 38.7
9 12 54.3
10 12 7.7
11 11 18.8
13 19.9
12 35.4
11 48.7
10 59.8
148.20
148.10
148.00
147.90
+ 0.24
+ 0.11
-0.02
0.13
9.9995436
9.9996676
9.9997912
9.9999145
+ 51.8
51.6
51.4
51.2
23 30 54.64
23 26 58.73
23 23 2.82
23 19 6.91
32
92
12 10 27.6
10 8.6
147.80
-0.21
0.0000371
+ 51.0
23 15 11.02
Kon
Bw— The
the
numbers in column
mean equinox of Jai
A correspond to the tru
iuary 0*.0.
e equinox of the date; in column A', to
Diit for 1 Hour,
— 9".8296.
(Table IL)
IV.
MARCH, 1884.
. 41
GREENWICH MEAN TIME.
1
i
THE
MOON'S
8EMIDIAMETER.
HORIZONTAL
PARALLAX
TIPPER TRANSIT.
AGE.
Noon.
Midnight.
Noon.
Diff. for
lHour.
Midnight.
Dim for
lHoor.
Meridian of
Greenwich.
Diff. for
lHoor.
Noon.
1
2
'3
16 18.2
16 16.3
16 12.5
16 17.5
16 14.6
16 10.0
5943!3
59 36.5
59 22.5
-0.10
0.44
0.70
59'40."9
59 30.3
59 13.4
//
-0.9&
0.58
0.79
h m
3 24.3
4 20.0
5 16.9
m
2.99
9.35
9.39
d
8.7
4.7
5.7
4
5
6
16 7.3
16 1.1
15 54.3
16 4.3
15 57.8
15 50.8
59 3.3
58 40.6
58 15.7
-0.87
0.09
1.07
58 52.3
58 26.4
58 2.7
-0.94
1.03
1.10
6 14.3
7 11.3
8 7.0
2.39
9.35
9.98
6.7
7.7
8.7
7
8
9
15 47.2
15 39.6
15 31.8
15 43.4
15 35.7
15 27.8
57 49.3
57 21.6
56 53.0
-1.18
1.17
1.91
57 35.6
57 7.4
56 38.4
-1.15
1.19
1.99
9 0.7
9 52.0
10 41.1
9.19
3.09
9.00
9.7
10.7
11.7
10
11
12
15 23.9
15 15.9
15 8.2
15 19.9
15 12.0
15 4.5
56 23.8
55 54.5
55 26.2
-1.98
1.91
1.13
56 9.1
55 40.1
55 12.8
-1.99
1.18
1.06
11 28.3
12 14.0
12 58.8
1.93
1.88
1.85
12.7
13.7
14.7
13
14
15
15 1.1
14 55.0
14 50.4
14 57.9
14 52.5
14 48.8
55 0.1
54 37.8
54 21.0
-1.01
0.89
0.56
54 48.4
54 28.6
54 15.1
-0.99
0.70
0.41
13 43.2
14 27.8
15 12.9
1.85
1.87
1.89
15.7
16.7
17.7
16
17
18
14 47.8
14 47.4
14 49.6
14 47.2
14 48.1
14 51.7
54 11.2
54 9.8
54 17.8
-0.94
+ 0.12
0.54
54 9.3
54 12.5
54 25.6
-0.07
+ 0.33
0.75
15 58.7
16 45.4
17 33.0
1.93
1.97
9.00
18.7
19.7
20.7
19
20
21
14 54.5
15 2.1
15 12.4
14 58.0
15 7.0
15 18.4
54 35.9
55 4.0
55 41.8
+ 0.96
1.38
1.75
54 48.7
55 21.8
56 3.8
+ 1.17
1.57
1.90
18 21.5
19 10.6
20 0.1
9.03
8.05
8.07
21.7
22.7
23.7
22
23
24
15 24.9
15 38.8
15 53.2
15 31.7
15 46.0
16 0.3
56 27.5
57 18.6
58 11.6
+ 2.09
2.18
2.18
56 52.5
57 45.1
58 37.5
+ 9.19
9.91
8.10
20 50.0
21 40.4
22 31.5
8.09
9.11
9.15
24.7
25.7
26.7
25
26
27
16 7.0
16 18.8
16 27.4
16 13.2
16 23.5
16 30.2
59 2.2
59 45.4
60 17.0
+ 1.98
J. 57
1.09
59 25.0
60 2.9
60 27.3
+ 1.80
1.31
0.70
23 23.6
6
0 17.2
9.90
9.97
27.7
28.7
0.3
28
29
30
31
16 31.9
16 32.2
16 28.4
16 21.4
16 32.6
16 30.7
16 25.2
16 16.9
60 33.7
60 34.6
60 20.8
59 55.0
+ 0.37
-0.97
0.84
1.97
60 36.1
60 29.4
60 9.2
59 38.7
+ 0.04
-0.57
1.07
1.49
1 12.5
2 9.6
3 8.2
4 7.4
9.35
9.49
9.46
9.46
1.3
2.3
3.3
4.3
32
16 12.1
16 6.9
59 20.8
-1.53
59 1.9
-1.61
5 6.0
9.41
5.3
42
MARCH, 1884.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i
Hoar.
Right Ascension.
Diill for
1 Minute.
Declination.
Diftfor
1 Minute.
Hour
Bight Afloension.
Diftfor
1 Minute.
Declination.
Diftfor
1 Minute.
SA
TURD.
AT 1.
MONDAY 3.
n m s
8
O I n
//
h m s
8
O 1 II
u
0
1 55 32.61
3.3640
N.I 1 9 26.0
9.489
0
3 51 24.57
9.4546
N.17 4 25.9
4.963
1
1 57 54.52
2.3663
11 18 53.2
9.418
1
3 53 51.88
2.4557
17 9 20.3
4.850
2
2 0 16.57
3.3686
11 28 16.1
9.346
2
3 56 19.25
2.4567
17 14 7.9
4.736
3
2 2 38.75
2.3708
11 37 34.7
9.279
3
3 58 46.68
9.4577
17 18 48.6
4.699
4
2 5 1.06
2.3730
11 46 48.8
9.J97
4
4 1 14.17
2.4586
17 23 22.5
4^08
5
2 7 23.51
9.3753
11 55 58.4
9.121
5
4 3 41.71
2.4595
17 27 49.5
4.393
6
2 9 46.10
8.3776
12 5 3.3
9.044
6
4 6 9.31
2.4004
17 32 9.6
4.977
7
2 12 8.82
9.3798
12 14 3.6
8.966
7
4 8 36.96
9.4619
17 36 22.7
4.160
8
2 14 31.68
2.3821
12 22 59.2
6.887
8
4 11 4.65
9.4618
17 40 28.8
4.044
9
2 16 54.67
SU843
12 31 50.0
8.806
9
4 13 32.38
9.4695
17 44 28.0
3.997
10
2 19 17.79
2.3865
12 40 35.9
8.724
10
4 16 0.15
9.4632
17 48 20.1
3.810
1J
2 21 41.05
9.3887
12 49 16.9
&649
11
v 4 18 27.96
2.4638
17 52 5.2
3.699
12
2 24 4.44
2.3909
12 57 53.0
8.560
12
4 20 55.81
9.4644
17 55 43.2
3.574
13
2 26 27.96
9.3931
13 6 24.1
8.475
13
4 23 23.69
9.4648
17 59 14.1
3.456
14
2 28 51.61
9.3953
13 14 50.0
8.389
14
4 25 51.59
9.4659
18 2 37.9
3.337
15
2 31 15.40
9^975
13 23 10.7
8.309
15
4 28 19.51
2.4655
18 5 54.6
3*218
16
2 33 39.31
2.3996
13 31 26.2
8.915
16
4 30 47.45
9.4658
18 9 4.1
3.099
17
2 36 3.35
9.4017
13 39 36.5
8.127
17
4 33 15.41
9.4661
18 12 6.5
9.981
18
2 38 27.52
9.4038
13 47 41.5
8.038
18
4 35 43.38
2.4662
18 15 1.8
9.862
19
2 40 51.81
9.4059
13 55 41.1
7.947
19
4 38 11.36
9.4663
18 17 49.9
9.741
20
2 43 16.23
2.4081
14 3 35.2
7.856
20
4 40 39.34
9.4664
18 20 30.7
9.690
21
2 45 40.78
9.4109
14 11 23.8
7.763
21
4 43 7.&*
9.4665
18 23 4.3
9^00
22
2 48 5.45
2.4129
14 19 6.8
7.670
22
4 45 35.32
9.4664
18 25 30.7
9.379
23
2 50 30.24
Si
9.4149
[JNDA
N.14 26 44.2
r 2.
7.576
23
4 48 3.30
Tl
9.4662
TESDA
N.18 27 49.8
T4,
2458
0
2 52 55.15
9.4169
N.14 34 15.9
7.480
0
4 50 31.27
2.4661
N.18 30 1.7
2.138
I
2 55 20.18
9.4189
14 41 41.8
7.384
1
4 52 59.23
9.4658
18 32 6.4
2.017
2
2 57 45.33
2.4201
14 49 2.0
7.288
2
4 55 27.17
2.4655
18 34 3.8
1.896
3
3 0 10.59
2.4230
14 56 16.4
7.191
3
4 57 55.09
2.4652
18 35 53.9
1.775
4
3 2 »5.97
2.4239
15 3 24.9
7.092
4
S 0 22.99
2.4648
18 37 36.8
1.654
5
3 5 1.46
2.4957
15 10 27.4
6.993
5
5 2 50.87
2.4644
18 39 12.4
1.539
6
3 7 27.06
9.4976
15 17 24.0
6.893
6
5 5 18.72
2.4638
18 40 40.7
J. 411
7
3 9 52.77
9.4994
15 24 14.6
6.791
7
5 7 46.53
2.4632
18 42 1.7
1.990
8
3 12 18.59
9.4319
15 30 59.0
6.689
8
5 10 14.30
9.4625
18 43 15.5
1.169
9
3 14 44.52
9.4330
15 37 37.3
6.587
9
5 12 42.03
2.4617
18 44 22.0
1.048
10
3 17 10.55
9.4347
15 44 9.4
6.483
10
5 15 9.71
2.4609
18 45 21.2
0.927
11
3 19 36.68
9.4363
15 50 35.3
6.379
11
5 17 37.34
9.4601
18 46 13.2
0.806
12
3 22 2.90
9.4379
15 56 54.9
6.274
12
5 20 4.92
9.4592
18 46 57.9
0.685
13
3 24 29.22
9.4395
16 3 8.2
6.168
13
5 22 32.44
9.4582
18 47 35.4
0.564
14
3 26 55.64
9.4419
16 9 15.1
6.069
14
5 24 59.90
2.4579
18 48 5.6
0.443
15
3 29 22.16
9.4427
16 15 15.7
5.956
15
5 27 27.30
9.4561
18 48 28.5
0.329
16
3 31 48.77
9.4449
16 21 9.8
5.648
16
5 29 54.63
9.4549
18 48 44.2
0.909
17
3 34 15.46
9.4456
16 26 57.4
5.739
17
5 32 21.89
9.4537
18 48 52.7
4-0.081
18
3 36 42.24
2.4471
16 32 38.5
5.630
18
5 34 49.08
9.4525
18 48 53.9
-0.040
19
3 39 9.11
9.4484
16 38 13.0
5.520
19
5 37 16.19
9.4511
18 48 47.9
0.159
20
3 41 36.05
2.4497
16 43 40.9
5.410
20
5 39 43.21
9.4497
18 48 34.8
0.278
21
3 44 3.07
9.4509
16 49 2.2
5.299
21
5 42 10.15
9.4483
18 48 14.5
0.398
22
3 46 30.16
9.4522
16 54 16.8
5.188
22
5 44 37.00
9.4467
18 47 47.0
0.517
23
3 48 57.33
2.4534
16 59 24.7
5.076
23
5 47 3.75
2.4450
18 47 12.4
0.637
24
3 51 24.57
9.4546
N.17 4 25.9
4.963
24
5 49 30.40
9.4433
N.18 46 30.6
0.756
YI.
MARCH, 1884.
43
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Aaeenalon.
Difffor
1 Minute.
Declination.
DiiT for
IMinnte.
Hoar.
Eight Asoeneion.
Diftfor
1 Minute.
Declination.
DuT.for
1 Minute.
WE]
DNESI
>AT5.
FEIDAY 7.
h m s
8
O / »
it
fc m b
s
O i II
n
0
5 49 30.40
9.4433
N.18 46 30.6
0.756
0
7 43 56.35
94091
N.16 2 17.4
5.848
1
5 51 56.95
8.4417
18 45 41.7
0.874
1
7 46 14.79
9.3055
15 56 23.8
5437
2
5 54 23.40
2.4400
18 44 45.7
0.999
2
7 48 33.01
94019
15 50 25.0
6.094
3
5 56 49.75
9.4389
18 43 42.7
1.109
3
7 50 51.02
9.9983
15 44 20.9
6.119
4
5 59 15.99
9.4363
18 42 32.6
1.997
4
7 53 8.81
9.9947
15 38 11.6
6.196
5
6 1 42.11
2.4343
18 41 15.4
1445
5
7 55 26.38
94911
15 31 57.2
6.283
6
6 4 8.11
9.4393
18 39 51.2
1.469
6
7 57 43.74
9.9875
15 25 37.7
6.368
7
6 6 33.99
9.4303
18 38 20.0
1478
7
8 0 0.88
2.9838
15 19 13.1
6.451
8
6 8 59.75
9.4983
18 36 41.9
1493
8
8 2 17.79
9.9800
15 12 43.6
6433
9
6 11 25.38
9.4961
18 34 56.8
1.809
9
8 4 34.48
94763
15 6 9.2
6.614
10
6 13 50.88
9.4938
18 33 4.8
1.994
10
8 6 50.95
9.9796
14 59 29.9
6.696
11
6 16 16.24
9.4916
18 31 5.9
9.039
11
8 9 7.20
9.9689
14 52 45.7
6.776
12
6 18 41.47
9.4193
18 29 0.1
9.153
12
8 11 23.22
9.9659
14 45 56.8
6.854
13
6 21 6.56
9.4169
18 26 47.5
9.967
13
8 13 39.02
9.9615
14 39 3.2
6439
14
6 23 31.50
9.4145
18 24 28.1
9480
14
8 15 54.60
94578
14 32 4.9
7410
15
6 25 56.30
9.4191
18 22 1.9
9.499
15
8 18 9.96
94549
14 25 2.0
7.066
16
6 28 20.95
9.4096
18 19 29.0
2.604
16
8 20 25.10
94504
14 17 54.6
7.169
17
6 30 45.45
9.4071
18 16 49.4
9.7 J 6
17
8 22 40.01
24467
14 10 42.6
7437
18
6 33 9.80
9.4045
18 14 3.1
9.627
18
8 24 54.70
9.9430
14 3 26.2
7410
19
6 35 33.99
9.4016
18 11 10.1
9438
19
8 27 9.17
94399
13 56 5.4
74*2
20
6 37 58.02
94991
18 8 10.5
3447
20
8 29 23.41
9.9355
13 48 40.3
7.454
21
6 40 21.88
9.3063
18 5 4.4
3.157
21
8 31 37.43
9.2318
13 41 10.9
7425
22
6 42 45.58
9.3936
18 1 51.7
3.966
22
8 33 51.23
24981
13 33 37.3
7.594
23
6 45 9.11
TH
94909
UR&Dj
N.17 58 32.5
IT 6.
3474
23
8 36 4.81
SA'
24944
TUKDj
N.13 25 59.6
IT 8.
7.663
0
6 47 32.48
94861
N.17 55 6.8
3.489
0
8 38 18.16
24907
N.13 18 17.8
7.731
1
6 49 55.68
94851
17 51 34.7
3488
1
8 40 31.29
94170
13 10 31.9
7.798
2
6 52 18.69
94690
17 47 56.2
3.694
2
8 42 44.20
24133
13 2 42.0
7464
3
6 54 41.52
94790
17 44 11.4
3.800
3
8 44 56.89
94097
12 54 48.2
7.929-
4
6 57 4.17
94760
17 40 20.2
3405
4
8 47 9.36
94060
12 46 50.5
7493
5
6 59 26.64
94730
17 36 22.8
4.009
5
8 49 21.61
9.2023
12 38 49.0
8.056
6
7 1 48.93
94699
17 32 19.1
4.113
6
8 51 a3.64
9.1987
12 30 43.8
8.118
7
7 4 11.03
94667
17 28 9.2
4.916
7
8 53 45.45
2.1950
12 22 34.8
8.180
8
7 6 32.94
9.3636
17 23 53.2
4416
8
8 55 57.Q4
9.1914
12 14 22.2
8440
9
7 8 54.66
94604
17 19 31.1
4.419
9
8 58 8.42
9.1 H78
12 6 6.0
8400
10
7 11 16.19
94579
17 15 2.9
4490
10
9 0 19.58
9.1849
11 57 46.2
8456
11
7 13 37.52
94539
17 10 28.7
4490
11
9 2 30.52
2.1806
11 49 23.0
6.415
12
7 15 58.65
94506
17 5 48.5
4.719
12
9 4 41.25
2.1770
11 40 56.4
8.479
13
7 18 19.59
94473
17 1 2.4
4.817
13
9 6 51.76
9.1734
11 32 26.4
8497
14
7 20 40.33
94439
16 56 10.4
4415
14
9 9 2.06
9.1699
11 23 53.1
8.582
15
7 23 0.86
94405
16 51 12.6
5.019
15
9 11 12.15
2.1664
11 15 16.6
8.635
16
7 25 21.19
94379
16 46 9.0
5.108
16
9 13 22.03
9.1629
11 6 36.9
8.668
17
7 27 41.32
9.3338
16 40 59.7
5403
17
9 15 31.70
9.1594
10 57 54.0
8.741
18
7 30 1.24
94303
16 35 44.6
5498
18
9 17 41.16
9.1559
10 49 8.0
6.792
19
7 32 20.95
94968
16 30 23.9
5.399
19
9 19 50.41
9.1525
10 40 19.0
8.841
20
7 34 40.45
94933
16 24 57.6
5.484
20
9 21 59.46
2.1491
10 31 27.1
8.889
21
7 36 59.75
94198
16 19 25.8
5476
21
9 24 8.30
2.1457
10 22 32.3
8.937
22
7 39 18.83
94169
16 13 48.4
5.668
22
9 26 16.94
2.1429
10 13 34.7
8484
23
7 41 37.70
94197
16 8 5.6
5.758
23
9 28 25.37
9.1388
10 4 34.2
9.031
24
7 43 56.35
94091
N.16 2 17.4
5.848
24
9 30 33.60
2.1355
N. 9 55 31.0
9.076
u
MARCH, 1884.
VII.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Ascension.
Diff.for
1 Minute.
Declination.
Diff.for
1 Minute.
Door.
Bight Ascension.
Dill, for
1 Minute.
Declination.
DUfJbr
1 Minute.
Si
UNDA
19.
TUESDAY 11.
h m e
8
O 1 il
a
h m 8
8
O 1 II
a
0
9 30 a3.60
9.1395
N, 9 55 31.0
9.076
0
11 9 43.77
9.0086
N. 2 5 24.3
10.179
1
9 32 41.63
9.1399
9 46 25.1
9.190
1
11 11 44.23
9.0067
1 55 13.9
10.173
2
9 34 49.46
9.1989
9 37 16.6
9.163
2
11 13 44.58
9.0049
1 45 3.5
10.174
3
9 36 57.10
9.1956
9 28 5.5
9.906
3
11 15 44.82
9.0039
1 34 53.0
10.175
4
9 39 4.54
9.1993
9 18 51.9
90)47
4
11 17 44.96
9.0015
1 24 42.5
10.174
5
9 41 11.78
9.1191
9 9 35.9
9.987
5
11 19 45.00
1 OOOfl
J.WVO
1 14 32.1
10.173
6
9 43 18.83
9.1159
9 0 17.5
9.396
6
11 21 44.93
1.9981
1 4 21.8
10.171
7
9 45 25.69
9.1197
8 50 56.8
9.364
7
11 23 44.77
1.9965
0 54 11.6
10.168
8
9 47 32.36
9.1096
8 41 33.8
9.409
8
11 25 44.51
1.9948
0 44 1.6
10.164
9
9 49 38.84
9.1064
8 32 8.5
9.440
9
11 27 44.15
10)939
0 .33 51.9
10.159
10
9 51 45.13
9.1033
8 22 41.0
9.476
10
11 29 43.70
1.9917
0 23 42.5
10.153
11
9 53 51.24
9.1003
8 13 11.4
9.510
11
11 31 43.16
1.9903
0 13 33.5
10.147
12
9 55 57.17
9.0979
8 3 39.8
9.544
12
1 1 33 42.54
1.9889
N. 0 3 24.9
10.140
13
9 58 2.91
9.0949
7 54 6.2
9.577
13
11 35 41.83
1.9875
S. 0 6 43.3
10.133
14
10 0 8.47
9.0919
7 44 30.6
9.609
14
11 37 41.04
1.9861
0 16 51.0
10.195
15
10 2 13.86
9.0683
7 34 53.1
9.640
15
11 39 40.16
1.9648
0 26 58.3
10.117
16
10 4 19.07
9.0854
7 25 148
9.670
16
11 41 39.21
1.9835
0 37 5.0
10.107
17
10 6 24.11
9.0895
7 15 32.7
9.699
17
11 43 38.18
10)899
0 47 11.1
100)96
18
10 8 28.97
9.0798
7 5 49.9
9.797
18
11 45 37.07
1.9809
0 57 16.5
10.084
19
10 10 33.66
9.0767
6 56 5.4
9.755
19
11 47 35.89
10)798
1 7 21.2
10.071
20
10 12 38.18
9.0739
6 46 19.3
9.789
20
11 49 34.64
1.9787
1 17 25.1
10.058
21
10 14 42.53
90)719
6 36 31.6
9.807
21
11 51 33.33
10)776
1 27 28.2
10.045
22
10 16 46.72
9.0684
6 26 42.4
9.839
22
11 53 31.95
1.9764
1 37 30.5
10.039
23
10 18 50.74
M<
9.0657
3NDA!
N. 6 16 51.7
r io.
9.656
23
11 55 30.50
WEI
1.9753
)NESD
8. 1 47 32.0
AY 12.
10.017
0
10 20 54.60
9.0630
N. 6 6 59.7
9.879
0
11 57 28.99
10*743
S. 1 57 32.6
10.001
1
10 22 58.30
9.0603
5 57 6.3
9.901
1
11 59 27.42
10)733
2 7 32.2
90)84
2
10 25 1.84
9.0577
5 47 11.6
9.999
2
12 1 25.79
10)794
2 17 30.7
90)67
3
10 27 5.23
9.0559
5 37 15.6
9.943
3
12 3 24.11
1.9715
2 27 28.2
9.949
4
10 29 8.46
9.0596
5 27 18.5
90)09
4
12 5 22.37
10)706
2 37 24.6
9.931
5
10 31 11.54
9.0501
5 17 20.2
90*81
5
12 7 20.58
10)697
2 47 1909
90)19
6
10 33 14.47
9.0476
5 7 20.8
9.999
6
12 9 18.74
1.9689
2 57 14.0
9.899
7
10 35 17.25
9.0451
4 57 20.3
10.016
7
12 11 16.85
10)689
3 7 6.9
90571
8
10 37 19.88
9.0497
4 47 18.9
100)31
8
12 13 14.92
10)674
3 16 58.5
9.850
9
10 39 22.37
9.0409
4 37 16.6
10.048
9
12 15 12094
10)667
3 26 48.9
9.898
10
10 41 24.71
9.0379
4 27 13.4
10.061
10
12 17 10.92
10*60
3 36 37.9
90305
11
10 43 26.92
9.0357
4 17 9.3
10.074
11
12 19 8.86
10)654
3 46 25.5
9.789
12
10 45 28.99
9.0334
4 7 4.5
10.086
12
12 21 6.77
10*48
3 56 11.7
9.758
13
10 47 30.93
9.0311
3 56 59.0
10.098
13
12 23 4.64
1.9649
4 5 56.5
9.733
14
10 49 32.73
9.0988
3 46 52.8
10.109
14
12 25 2.47
10)636
4 15 39.7
9.706
15
10 51 34.39
9.0966
3 36 45.9
10.190
15
12 27 0.27
1.9631
4 25 21.4
9.689
16
10 53 35.92
9.0945
3 26 38.4
10.198
16
12 28 58.04
10)697
4 35 1.5
9.655
17
10 55 37.33
9.0994
3 16 30.5
10.136
17
12 30 55.79
10)699
4 44 40.0
9.698
18
10 57 38.61
94)903
3 6 22.1
10.143
18
12 32 53.51
1.9618
4 54 16.9
9.600
19
10 59 39.77
90)183
2 56 13.3
10.150
19
12 34 51.21
1.9614
5 3 52.0
90>71
20
11 1 40.81
9.0169
2 46 4.1
10.157
20
12 36 48.88
10)610
5 13 25.4
90*49
21
11 3 41.72
9.0149
2 35 5403
10.169
21
12 38 46.53
10*07
5 22 57.1
90S13
22
11 5 42.52
9.0103*
2 25 44.7
10.166
22
12 40 44.17
10)605
5 32 27.0
9.483
23
11 7 43.20
90)104
2 15 34.6
10170
23
12 42 41.79
1.9609
5 41 55.0
9.451
24
11 9 43.77
90)086
N. 2 5 24.3
10.179
24
12 44 39.39
1.9599
S. 5 51 21.1
9.419 1
VIII.
MARCH, 1884.
45
GBEEffWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
Bight Aftcenskm.
Diftfor
1 Minute.
Declination.
IMftfar
1 Minute.
Hour.
Bight Atoeaston.
Diftfor
1 Minute.
Declination.
Biff, for
1 Minute.
TH1
JBSD1
LY 13.
SATURDAY 15.
h m 8
■
O i II
n
h m 8
»"
O I il
0
12 44 39.39
13699
S. 5 51 21.1
9.4)9
0
14 19 1.08
13815
8.12 35 513
7337
1
12 46 36.96
1.959?
6 0 45.3
9387
1
14 21 0.00
13895
12 43 3.2
7.169
2
12 48 34.56
1.9590
6 10 7.5
9353
2
14 22 58.98
13835
12 50 11.6
7.111 .
3
12 50 32.13
13694
6 19 27.7
9390
3
14 24 58.02
13846
12 57 16.5
7.058
4
12 52 29.69
1.9903
6 28 45.9
9.966
4
14 26 57.13
13857
13 4 173
6.999
5
12 54 27.25
1.9693
6 38 2.0
9351
5
14 28 5630
1.9667
13 11 15.6
6.939
6
12 56 24.81
J .9509
6 47 16.0
9315
6
14 30 55.53
13678
13 18 9.7
6.871
7
12 58 22,%
1.9599
6 56 27.8
9.179
7
14 32 54.83
1.9889
13 25 0.1
6.810
8
13 0 19.92
1.9693
7 5 37.5
9.143
8
14 34 54.20
13901
13 31 46.9
6.740
9
13 2 17.48
1.9693
7 14 45.0
9.106
9
14 36 53.64
13919
13 38 30.0
6.687
10
13 4 15.04
1.9594
7 23 50.3
9.066
10
14 38 53.15
13994
13 45 94
6.685
11
13 6 12.61
1.9695
7 32 53.2
9.089
11
14 40 52.73
13935
13 51 45.0
6368
12
13 8 10.18
13596
7 41 53.8
8390
12
14 42 5237
1.9947
13 58 163
6.498
13
13 10 7.76
13598
7 50 52.0
8351
13
14 44 52.09
13959
14 4 443
6.435
14
13 12 5,35
13600
7 59 47.9
8318
14
14 46 5138
13979
14 11 9.0
6378
15
13 14 2.96
13609
8 8 41.4
8.871
15
14 48 51.75
13984
14 17 29.4
6308
16
13 16 0.58
13005
8 17 32.4
8.889
16
14 50 51.69
13996
14 23 45.9
6.848
17
13 17 58.22
13007
8 26 20.9
6.787
17
14 52 51.70
93008
14 29 58.4
6.176
18
13 19 55.87
1.9610
835 63
6.745
18
14 54 51.79
93081
14 36 7.0
6.110
19
13 21 53.54
13613
8 43 50.3
8.709
19
14 56 51.96
9.6034
14 42 11.6
6344
20
13 23 51.23
13617
8 52 31.1
8359
20
14 58 52.20
93047
14 48 123
5378
21
13 25 48.95
13689
9 1 9,3
83)5
21
15 0 52.52
93060
14 54 9.0
6318
22
13 27 46.69
13086
9 9 44.9
8370
22
15 2 52.92
93073
15 0 1.7
5344
23
13 29 44.46
13630
EUDAI
S. 9 18 17.7
: 14.
8394
23
15 4 53.40
SI
8.0087
JNDA1
S.15 5 503
f 16.
5.776
0
13 31 42£5
13634
S. 9 26 47.8
8.478
0
15 6 53.96
9.0100
18.15 11 34.8
5.707
1
13 33 40.07
1.9639
9 35 15.1
8.439
1
15 8 54.60
93113
15 17 15.2
5.639
2
13 35 37.92
1.9644
9 43 39.6
8386
2
15 10 5532
83197
15 22 51.5
5370
3
13 37 £530
13649
9 52 1.4
8339
3
15 12 56.12
93140
15 28 23.6
5301
4
13 39 33.71
13055
10 0 20.3
6391
4
15 14 57.00
93164
15 33 51.6
5.439
5
13 41 31.66
13669
10 8 363
8.949
5
15 16 57.97
93168
15 39 15.4
5361
6
13 43 29.65
13668
10 16 49.4
8.193
6
15 18 59.02
93189
15 44 34.9
5390
7
13 45 27.68
1.9674
10 24 59.5
8.144
7
15 21 0.15
93196
15 49 50.2
5.919
8
13 47 25.74
1.96*0
10 33 6.7
6.095
8
15 23 137
93810
15 55 1.2
5.148
9
13 49 23.84
13687
10 41 10.9
8344
9
15 25 2.67
93884
16 0 8.0
5.077
10
13 51 21.98
13694
10 49 12.0
7399
10
15 27 4.06
9.0338
16 5 10.5
5.005
11
13 53 20.17
13709
10 57 10.0
7341
11
15 29 5.53
93859
16 10 8.6
4339
12
13 55 18.40
1.9709
11 5 4.9
7.889
12
15 31 7.08
9.0866
16 15 2.4
4360
13
13 57 1&68
1.9717
11 12 56.7
7.837
13
15 33 8.72
83981
16 19 513
4.787
14
13 59 15.00
1.9794
11 20 45,3
7.784
14
15 35 10.45
93395
16 24 363
4.713
15
14 1 13,37
1.9739
11 28 30.8
7.731
15
15 37 12.26
9.0309
16 29 17.4
4.639
16
> 14 3 11.79
13741
11 36 13.0
7.677
16
15 39 14.16
9.0394
16 33 53.5
4365
17
14 5 10.26
13750
11 43 52.0
7.689
17
15 41 16.15
9.0338
16 38 25.2
4.491
18
14 7 8.79
13759
11 51 27.7
7367
18
15 43 18.22
9.0359
16 42 52.4
4.416
' 19
14 9 7.37
13767
11 59 0.1
7319
19
15 45 2038
93367
16 47 15.1
4.341
20
14 11 6.00
1.9776
12 6 29.1
7.456
20
15 47 22.63
93389
16 51 333
4365
21
14 13 4.68
1.9785
12 13 54.8
7.400
21
15 49 24.97
8.0397
16 55 46.9
4.189
22
14 15 3.42
13795
12 21 17.1
7343
22
15 51 2739
9.0411
16 59 56.0
4.113
23
14 17 2.22
13805
12 28 35.9
7385
23
15 53 29.90
9.0486
17 4 0.5
4.037.
24
14 19 1.08
13615
S.12 35 513
7387
24
15 55 32.50
9.0441
S.17 8 0.4
3.960
46
MARCH, 1884.
IX.
GREENWICH MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
How.
BigntAtoearion.
Dtftfrr
1 Minute
Diff.for
1 Minute.
DUE for
Dill for
1 Minute.
0
1
2
3
4
5
6
7
8
9
10
n
12
13
14
15
16
17
18
19
20
21
22
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
MONDAY 17.
h m
15 55
15 57
15 59
16 1
16 3
16 5
16 7
16 9
16 11
16 13
16 16
16 18
16 20
16 22
16 24
16 26
16 28
16 30
16 32
16 34
16 36
16 36
16 40
16 42
16
16
16
16
16
16
16
16
17
17
17
17
17
17
17
17
17
17
17
17
17
17
17
17
17
s
8
32.50
£0441
35.19
24456
37.97
9.0470
40.83
94484
43.78
94490
4&82
94514
49.95
94690
53.17
94643
56.47
94667
59.86
94679
&34
94587
6.91
94809
10.56
9.0616
14.30
94631
18.13
94646
22.05
94660
26.05
94674
30.14
94680
34.32
94703
38.58
94717
42.93
94739
47.37
94747
51.89
94761
56.50
94779
5.17 8 0.4
17 11 55.7
17 15 46.3
17 19 32.3
17 23 13.6
17 26 50.2
17 30 22.0
17 33 49.1
17 37 11.5
17 40 29.1
17 43 41.9
17 46 49.9
17 49 53.0
17 52 51.3
17 55 44.7
17 58 33.3
18 1 17.0
16 3 55.8
18 6 29.6
18 8 58.5
18 11 22.4
18 13 41.4
18 15 55.4
5.18 18 4.4
TUESDAY 18.
45 1.19
9.0780
47 5.97
9.0803
49 10.83
9.0617
51 15.77
9.0830
53 20.79
9.0844
55 25.90
94658
57 31.09
94879
59 36.36
9.0886
1 41.71
94800
3 47.15
94019
5 52.66
9.0995
7 5835
94938
10 3.92
9,0089
12 9.67
94985
14 15.50
9,0978
16 21.40
94900
18 27.38
9.1003
20 33.44
9.1017
22 39.58
9.1090
24 45.79
9.1041
26 52.07
9.1063
28 58.43
9.1066
31 4.86
9.1078
33 11,37
9.1000
35 17.94
9.1101
S.18 20 8.3
18 22 7.2
18 24 1.1
18 25 49.9
18 27 33.6
18 29 12.2
18 30 45.7
18 32 14.1
18 33 37.4
16 34 55.5
18 36 8.4
18 37 ld2
18 38 18.8
16 39 16.2
18 40 8.4
18 40 55.3
18 41 37.0
18 42 13.5
18 42 44.8
18 43 10.8
18 43 31.5
18 43 46.9
18 43 57.0
18 44 1.8
18 44 1.3
3489
3.727
3449
3470
3.491
3.419
9463
3.173
3.099
3.019
9431
9.850
9.760
9487
9.606
9w440
9467
9475
9.109
9.108
1440
1.866
1.771
1.686
1.601
1416
1.431
1445
1.968
1.179
I486
0413
0.896
0.739
0469
0466
0.477
0480
0401
0.919
0.194
-0.038
+ 0.053
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
WEDNESDAY 19.
h m n
17 35 17.94
17 37 24.58
17 39 31.30
17 41 38.09
17 43 44.95
17 45 51.88
17 47 58.87
17 50 5.93
17 52 13.06
17 54 20.25
17 56 27.51
17 58 34.83
18 0 42.22
2 49.67
4 57.18
7 4.76
9 12.40
18 II 20.09
18 13 27.85
18 15 35.67
18 17 43.54
18 19 51.47
16 21 59.46
18 24 7.51
18
18
18
18
9.1101
S.18 44 1.3
+ 0.053
9.1113
18 43 55.5
0.149
9.1196
18 43 44.3
0431
9.1138
18 43 27.8
0419
9.1149
18 43 ao
0.408
9.1160
18 42 38.8
0.497
9.1171
18 42 6.2
0487
9.1189
18 41 28.4
0.677
9.1193
18 40 45.1
0.767
9.1904
18 39 56.4
0457
9.1915
18 39 2.3
0446
9.1996
18 38 2.9
1435
9.1237
18 36 58.1
1.125
9.1947
18 35 47,9
1416
9.1968
18 34 32.2
1407
9.1268
18 33 11.1
1497
9.1278
18 31 44.6
1.487
2.1988
18 30 12.7
1477
9.1998
18 28 35.3
1468
9.1307
18 26 52.5
1.768
9.1317
18 25 4.3
1449
2.1397
18 23 10.6
1440
9.1337
18 21 11.5
9.031
9.1948
S.18 19 6J9
9.129
THUBSDAY 20.
18 26
18 28
18 30
18 32
18 34
16 36
18 39
18 41
18 43
18 45
18 47
18 49
18 51
18 54
18 56
18 58
19 0
19
19
19
19
19 11
19 13
19 15
19 17
15.61
9.1355
23.77
9.1364
31.98
2.1379
40.24
2.1381
48.55
9.1390
56.92
2.1399
5,34
2.1407
13.81
9.1416
22.33
9.1494
30.90
2.1439
39.52
9.1441
48.19
2.1449
56.91
9.1457
5.67
9.1464
14.48
2.1472
23.34
2.1480
32.24
9.1487
41.19
9.1495
50.18
9.1509
59.22
9.1510
8.30
9.1517
17.42
2.1623
26.58
9.1531
35.79
2.1538
45.04
2.1645
S.18 16 5&9
18 14 41.4
18 12 20.5
18 9 54.2
18 7 22.4
18 4 45.2
18 2 2.5
17 59 14.3
17 56 20.7
17 53 21.7
17 50 17.2
17 47 7.3
17 43 52.0
17 40 31.2
17 37 5.0
17 33 33.4
17 29 56.3
17 26 13.8
17 22 25.9
17 18 32.5
17 14 33.8
17 10 29.7
17 6 20.2
17 2 5.3
S.16 57 45.0
2419
9403
9.393
9.484
2475
2468
2.757
2.848
2438
3.099
3.190
3410
3401
3499
3.489
3479
3.663
3.753
3444
3.934
4.093
4.113
4.903
4493
4483
X.
MARCH, 1884.
47
OEBENWIOH MEAN TIME.
*
1
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
DMT. for
1 Minute.
Declination.
Diftfor
1 Minute.
Hoar.
Bight Ascension.
Diftfor
1 Minute.
Declination.
Dtff. foi
1 Minute
F]
aiDAi
r 21.
SUNDAY 23.
0
h m s
19 17 45.04
s
9.1545
8.16 57' 45*0
it
4.383
0
h m s
21 1 53.a3
s
9.1853
8.11° 48 2U
it
8484
1
19 19 54.33
9.1558
16 53 19.3
4.479
1
21 4 4.97
9.1861
11 39 56.1
8.458
2
19 22 1106
9.1556
16 48 48.3
4.569
2
21 6 16.16
9.1868
11 31 26.4
8431
3
19 24 13.03
9.1565
16 44 11.9
4.651
3
21 8 27.39
9.1876
11 22 52.4
8.603
4
19 26 22.44
9.1579
16 39 303
4.740
4
21 10 38.67
9.1884
11 14 14.0
8.676
5
19 28 31.89
9.1578
16 34 43.1
4.899
5
21 12 50.00
9.1899
11 5 31.3
8.747
6
19 30 41.38
9.1685
16 29 50.7
4.917
6
21 15 1.38
9.1900
10 56 44.4
8.817
7
19 32 50.91
9.1591
16 24 53.0
5.006
7
21 17 12.80
9.1908
10 47 53.3
8.887
8
19 35 0.47
9.1598
16 19 50.0
6.004
8
21 19 24.27
9.1917
10 38 58.0
8457
9
19 37 10.08
9.1605
16 14 41.7
6.183
9
21 21 35.80
9.1996
10 29 '58.5
9.096
10
19 39 19.73
9.1611
16 9 28.1
6.970
10
21 23 47.38
9.1934
10 20 54.9
9.093
11
19 41 29.41
9.1617
16 4 9,3
6.357
11
21 25 59.01
9.1943
10 11 47-3
9.161
12
19 43 39.13
9.1693
15 58 45.2
5.445
12
21 28 10.69
9.1969
10 2 ,35.6
9.998
13
19 45 48.89
9.1699
15 53 15.9
5.539
13
21 30 22.43
9.1961
9 53 19.9
9.994
14
19 47 58.68
9.1635
.15 47 41.3
5.690
14
21 32 34.22
9.1969
9 44 0.3
9.360
15
19 50 8.51
9.1649
15 42 1.5
5.707
15
21 34 46.06
9.1976
9 34 36.7
9.495
16
19 52 18.38
91648
15 36 16.5
5.793
16
21 36 57.96
9.1988
9 25 9.3
9.469
17
19 54 28.29
9.1654
15 30 26.3
5.880
17
21 39 9.92
9.1998
9 15 38.0
9.553
18
19 56 38.23
9.1660
15 24 30.9
5.966
18
21 41 21.94
9.9008
9 6 2.9
9.616
19
19 58 48.21
9.1666
15 18 30.4
6.059
19
21 43 34.02
9.9018
8 56 24.1
9.677
20
20 0 58.22
9.1679
15 12 24.7
6.137
20
21 45 46.16
9.9098
8 46 41.6
9.738
21
20 3 8.27
9.1678
15 6 13.9
6.999
21
21 47 58.36
9.9039
8 36 55.5
9.798
22
20 5 18.36
9.1684
14 59 58.0
6407
22
21 50 10.63
9.9050
8 27 5.8
9.858
23
20 7 28.48
SAG
9.1690
tUEDA
8.14 53 37.0
LY22.
6.399
23
21 52 22.96
M(
9.9060
MtDAl
8. 8 17 12£
I 24.
9418
0
20 9 38.64
9.1697
8.14 47 10.9
6.477
0
21 54 35.35
9.9071
8. 8 7 15.6
9.976
1
20 11 48.84
9.1703
14 40 39.8
6.561
1
21 56 47.81
9.9089
7 57 15.3
10.033
2
20 13 59.07
9.1709
14 34 3.6
6.645
2
21 59 0.34
9.9093
7 47 11.6
10.090
3
20 16 9.34
8.1716
14 27 22.4
6.798
3
22 1 12.93
94105
7 37 4.5
10.146
4
20 18 19.65
9.1791
14 20 36.3
6.810
4
22 3 25.60
94117
7 26 54.1
10.900
5
20 20 29.99
9.1797
14 13 45.2
6.893
5
22 5 38.34
94189
7 16 40.5
10.954
6
20 22 40.37
9.1733
14 6 49.1
6.976
6
22 7 51.15
94141
7 6 23.6
10408
7
20 24 50.79
9.1739
13 59 48.1
7.058
7
22 10 4.03
94153
6 56 &5
10.360
8
20 27 1.24
9.1745
13 52 42.2
7.139
8
22 12 ld99
94166
6 45 40.4
10.411
9
20 29 11.73
9.1759
13 45 31.4
7.990
9
22 14 30.03
94179
6 a5 14.2
10.469
10
20 31 22.26
9.1758
13 38 15.8
7.301
10
22 16 43.14
94199
6 24 45.0
10.511
11
20 33 32.83
9.1764
13 30 55.3
7.389
11
22 18 56,33
94906
6 14 12.9
10.559
12
20 35 43.43
9.1770
13 23 30.0
7.469
12
22 21 9.61
9.9990
6 3 37.9
10.607
13
20 37 54.07
9.1777
13 15 59.9
7.541
13
22 23 22.97
9.9933
5 53 0.0
10.055
14
20 40 4.75
9.1784
13 8 25.1
7.690
14
22 25 36.41
94947
5 42 19.3
10.700
15
20 42 15.48
9.1791
13 0 45.5
7.698
15
22 27 49.94
94981
5 31 36.0
10.744
16
20 44 26.25
9.1797
12 53 1.3
7.776
16
22 30 3.55
94975
5 20 50.0
10.788
17
20 46 37.05
9.1803
12 45 12.4
7.854
17
22 32 17.24
94389
5 10 1.4
10.639
18
20 48 47.89
9.1810
12 37 18.8
7.939
18
22 34 31.02
94305
4 59 10.2
10.874
19
20 50 58.77
9.1817
12 29 20.6
8.008
19
22 36 44.90
9.9391
4 48 16.5
10.915
20
20 53 9.70
9.1895
12 21 17.8
8.084
20
22 38 58.87
94336
4 37 20.4
10454
21
20 55 20.67
9.1839
12 13 10.5
8.160
21
22 41 12.93
94369
4 26 22.0
10.993
22
20 57 31.68
9.1838
12 4 58.6
8.936
22
22 43 27.09
94367
4 15 2t3
11.031
23
20 59 42.73
9.1846
11 56 42.2
8410
23
22 45 41.34
94383
4 4 18.3
11.068
[24
21 1 53.83
9.1853
8.11 48 21.4
8.384
24
22.47 55.69
94400
8. 3 53 13.2
11.103
48
MARCH, 1884.
XL
♦
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Burnt,
Bight Ascension.
Diff.for
1 Minute.
Declination.
Diff.for
1 Minute.
Hour.
Bight Ascension.
Dfftfor
1 Minute.
Deolination.
DUtfor
1 Minute.
tit
ESDA^
I 25.
THURSDAY 27.
h m •
•
O 1 H
n
h m s
s
Of//
tf
0
22 47 55.69
94400
8. 3 53 13.2
11.103
0
0 37 49.21
94478
N. 5 18 11.1
11439
1
22 50 10.14
84417
3 42 &0
11.138
1
0 40 10.16
84508
5 29 32.6
11444
2
22 52 24.69
8.9434
3 30 56.7
11.179
2
0 42 31.28
84534
5 40 52.4
11415
3
22 54 39.35
84459
3 19 45.4
11.904
3
0 44 52.57
84568
5 52 10.4
11.984
4
22 56 54.11
8.9409
3 8 32.2
11435
4
0 47 14.02
84569
6 3 26.5
11468
5
22 59 8.97
84488
2 57 17.2
11465
5
0 49&S.64
94617
6 14 40.6
11418
6
23 1 M3M
84504
2 46 0.4
11.994
6
0 51 57.43
94646
6 25 52.7
11.184
7
23 3 39.02
8.9599
2 34 41.9
11.399
7
0 54 19.39
9.3674
6 37 2.7
11.147
8
23 5 54.21
8.9541
2 23 21.7
11449
8
0 56 41.52
84709
6 48 10.4
11.109
9
23 8 9.51
8.9559
2 12 0.0
11474
9
0 59 3.82
94731
6 59 15.8
11470
10
23 10 24.92
9.9576
2 0 36.8
11490
10
1 1 26.29
84759
7 10 18.8
11499
11
23 12 40.45
8.9597
1 49 12.1
11.499
11
1 3 48.93
84787
7 21 19.3
10487
12
23 14 56.09
8.9617
4 37 46.1
11.444
12
1 6 11.74
84816
7 32 17.2
10443
13
23 17 11.85
8.9637
1 26 18.8
11.465
13
1 8 34.72
84845
7 43 12.4
10498
14
23 19 27.78
94657
1 14 50.3
11.485
14
1 10 57.88
84674
7 54 4.9
10458
15
23 21 43.74
94678
1 3 20.6
11403
15
1 13 21.21
84903
8 4 54.6
10404
16
23 23 59.87
8.9698
0 51 49.9
11490
16
1 15 44.71
84939
8 15 41.4
10.754
17
23 26 16.12
94718
0 40 18.2
11436
17
1 18 8.39
94961
8 26 25.1
10.708
18
23 28 32.49
84739
0 28 45.6
11451
18
1 20 32.24
94969
8 37 5.7
10450
19
23 30 48.99
8.9761
0 17 12.1
11465
19
1 22 56.26
9.4018
8 47 43.1
10497
20
23 33 5.62
8.9789
S. 0 5 37.8
11477
20
1 25 20.46
9.4047
8 58 17,3
10448
21
23 35 22.38
9.9804
N. 0 5 57.2
11468
21
1 27 44.83
9.4076
9 8 48.1
10.484
22
23 37 39.27
9.9897
0 17 32.8
11497
23
1 30 9.37
9.4104
9 19 15.4
10.486
23
23 39 56.30
WEI
84849
)NBSD
N. 0 29 8.9
AY 26.
11408
23
1 32 34.08
p:
9.4133
EffDAl
N. 9 29 39.2
r 28.
10467
0
23 42 13.46
84879
N. 0 40 45.5
11413
0
1 34 58.97
9.4169
N. 9 39 59.4
10406
1
23 44 30.76
84894
0 52 22.5
11419
1
1 37 24.03
8.4191
9 50 15.9
10443
2
23 46 48.19
84917
1 3 59.8
11.693
2
1 39 49.26
8.4919
10 0 28.6
10.179
3
23 49 5.76
84940
1 15 37.3
11.698
•3
1 42 14.66
9.4947
10 10 37.4
10.114
4
23 51 23.47
94964
1 27 14.9
11497
4
1 44 40.23
9.4976
10 20 42.3
10.048
5
23 53 41.33
94988
1 38 52.6
11.698
5
1 47 5.97
9.4303
10 30 43.2
9480
6
23 55 59.33
84019
1 50 30.3
11.697
6
1 49 31.87
9.4331
10 40 39.9
9410
7
23 58 17.47
94036
2 2 7.9
11.695
7
1 51 57.94
8.4360
10 50 32.4
9439
8
0 0 35.76
94080
2 13 45.3
11.691
8
1 54 24.19
8.4388
11 0 20.6
9.767
9
0 2 54.19
84084
2 25 22.4
11416
9
1 56 50.61
8.4416
11 10 4.5
9495
10
0 5 12.77
84109
2 36 59.2
11.610
10
1 59 17.18
8.4443
11 19 44.0
9490
11
0 7 31.50
84135
2 48 35.6
11409
11
2 1 43.92
8.4470
11 29 18.9
9443
12
0 9 5039
84161
3 0 11.4
11499
12
2 4 10.82
3.4498
11 38 49.2
9.466
13
0 12 9.43
84168
3 11 46.6
11.589
13
2 6 37.89
9.4595
11 48 14.8
9487
14
0 14 28.62
84911
3 23 21.2
11471
14
2 9 5.12
9.4551
11 57 35.7
9407
15
0 16 47.96
84937
3 34 55.1
11457
15
2 11 32.50
9.4577
12 6 51.7
9496
16
0 19 7.46
84963
3 46 28.1
11449
16
2 14 0.04
9.4603
12 16 2.8
9.143
17
0 21 27.12
94289
3 58 0.1
11495
17
2 16 27.74
9.4699
12 25 8.9
9.069
18
0 23 46.93
94315
4 9 31.1
11407
18
2 18 55.59
9.4655
12 34 9.9
8474
19
0 26 6.90
9.3349
4 21 1.0
11.488
19
2 21 23.60
9.4681
12 43 5.8
8.888
20
0 28 27.04
94370
4 32 29.7
1J.468
20
2 23 51.76
9.4706
12 51 56.5
8400
21
0 30 47.34
94397
4 43 57.2
11.447
21
2 26 20.07
&4731
13 0 41.8
8.710
22
0 33 7.80
84493
4 55 23.3
11.493
22
2 28 48.53
9.4755
13 9 21.7
8490
23
0 35 28.42
94451
5 6 48.0
11498
23
2 31 17.13
2.4778
13 17 56.2
8430
24
0 37 49.21
S.3478
N. 5 18 11.1
11479
24
2 33 45.87
9.4809
N.13 26 25.3
8.438
XII.
MARCH, 1884.
49
GREENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
Bight Aaoenstan.
DifT.for
1 Minute.
Declination.
Biff, for
1 Minute.
Hour.
Bight Ascension,
Biff, for
1 Minute.
Declination.
DUT.for
1 Minute.
SA1
PURDJ
lY 29.
MONDAY 31.
0
h m s
2 33 45.87
8
9.4608
N.13 26 25J3
8.438
0
h m s
4 34 38.22
•
94388
N.18° 6 53:4
//
9*978
1
2 36 14.7G
8.4896
13 34 48.8
8444
1
4 37 10.16
84390
18 9 48.3
8.858
2
2 38 43.79
8.4849
13 43 6.6
8449
2
4 39 42.06
94313
18 12 35.6
8.785
3
2 41 12.95
8.4879
13 51 18.7
8.153
3
4 42 13.92
94306
18 15 15.3
8498
4
2 43 42.25
9.4894
13 59 25.0
8.057
4
4 44 45.74
94898
18 17 47.4
8.478
5
2 46 11.68
9.4917
14 7 25.5
7.958
5
4 47 17.50
84889
18 20 11.9
8445
6
2 48 41.05
9.4938
14 15 20.0
7456
6
4 49 49.21
84880
18 22 28.8
8418
7
2 51 10.94
8.4959
14 23 8.5
7.758
7
.4 52 20.86
84970
18 24 38.1
8491
8
2 53 40.76
8.4980
14 30 51.0
7.658
8
4 54 52.45
84859
18 26 39.7
1463
9
2 56 10.70
2.5000
14 38 27.5
7457
9
4 57 23.97
84947
18 28 33.7
1437
10
2 58 40.76
9.5090
14 45 57.8
7.453
10.
4 59 55.42
84835
18 30 20.1
1.710
11
3 1 10.94
96039
14 53 21.9
7448
11
5 2 26.79
84899
18 31 58.9
1488
12
3 3 41.23
84057
15 0 39.6
7.943
12
5 4 58.08
84907
18 33 30.0
1.455
13
3 6 11.63
84076
15 7 51.0
7.137
13
5 7 29.28
94199
18 34 53.5
1499
14
3 8 42.14
84094
15 14 56.0
7.099
14
5 10 0.39
94177
18 36 9.5
1.903
15
3 11 12.76
84118
15 21 54.5
6.991
15
5 12 31.41
94169
18 37 17.9
1.077
16
3 13 43.48
84198
15 28 40.5
6.819
16
5 15 2.33
94144
18 38 18.7
0450
17
3 16 14,30
3 18 4531
84144
15 35 32.0
6.703
17
5 17 33.14
84196
18 39 11.9
0493
18
84159
15 42 10.9
6499
18
5 20 3.84
84107
18 39 57.5
0497
19
3 21 16.21
84174
15 48 43.1
6.481
19
5 22 34.43
84089
18 40 35.6
0479
20
3 23 47.30
84189
15 55 8.6
6468
20
5 25 4.91
84070
18 41 6.2
0.447
21
3 26 18.48
94903
16 1 27.3
6.955
21
5 27 35.27
94049
18 41 29.2
0491
22
3 28 49.74
84917
16 7 39.2
6.141
22
5 30 5.50
94098
18 41 44.7
0.197
23
3 31 21.08
84999
N.16 13 44.2
6.097
23
5 32 35.60
94006
N.18 41 52.8
4-0.079
SI
JNDA1
Z 30.
TUESI
)AY, 1
LPEIL 1.
0
1
3 33 52.49
3 36 23.98
94941
94953
N.16 19 42.4
16 25 33.6
5.919
5.795
o
5 35 5.57 |
9.4983 |
N.18 41 53.4
-0.059
2
3 38 55.53
94963
16 31 17.8
5.678
. 3
3 41 27.14
94973
16 36 55.0
5461
4
3 43 58.81
94983
16 42 25.1
5.449
5
3 46 30.53
84999
16 47 48.1
6493
PHASES
OF T
HE MOON
6
7
3 49 2.31
3 51 34.14
94301
16 53 3.9
16 58 12.6
5.904
94308
5.064
8
3 54 6.00
94314
17 3 14.0
4.963
d h
9
10
3 56 37.90
3 59 9.84
94390
94396
17 8 8.2
17 12 55.1
4.849
4.791
}> First Quart
er . .
.411
33.1
II
4 1 41.81
94331
17 17 34.7
4499
O Full Moon
• • •
. ii 7 ;
39.9
12
4 4 13.81
94335
17 22 7.0
4.476
C Last Quart*
)r. . .
. 19 11
13.0
13
14
4 6 45.83
4 9 17.87
94338
94341
17 26 31.9
17 30 49 4
4453
4.230
• New Moon
. . .
. 26 17 i
17.5
15
16
4 11 49.92
4 14 21.98
94349
94343
17 34 59.5
17 39 2.2
4.107
3.989
17
4 16 54.04
94343
17 42 57.4
3.857
d h
18
19
4 19 26.10
4 21 58.15
94349
94349
17 46 45.1
17 50 25.3
3.739
.3.607
C Apogee. .
. 16 16.4
20
4 24 30.20
94341
17 53 58.0
3.489
<C Perigee. .
• 28 13.4
21
4 27 2.24
94338
17 57 23.2
3457
22
4 29 34.26
95334
18 0 40.8
3.931
23
4 32 6.25
94330
18 3 50.9
3.105
24
4 34 38.22
94396
N.18 6 53.4
9.976
5a
MARCH, 1884.
X1IL
GREENWICH MEAN TIME.
LUNAB DISTANCES.
I1
P.L.
P.L.
P.L.
i
P.L. !
Name and Direction
Noon.
of
ma.
of
VP*.
of
IX*.
of
of Objeofe.
Diff.
Diff.
Diff
Diff.
1
Sun
W.
O I II
49 26 10
8539
O 1 //
51 6 29
9541
o / //
52 46 45
9543
54 26 58
9545
Saturn
E.
33 5 46
9934
31 18 9
9937
29 30 36
9939
27 43 7
9943
Aldebanm
E.
37 37 58
2218
35 49 58
9991
34 2 1
9994
32 14 9
9997
Pollux
E.
80 58 32
9309
79 12 45
9311
77 27 2
9315
75 41 25
9390
Jupiter
E.
84 16 44
9910
82 28 41
9919
80 40 42
9999
78 52 47
9995
Mara
E.
92 31 25
9993
90 43 32
9990
88 55 43
9999
87 7 59
9933
2
Sun
W.
62 47 10
9561
64 26 58
9500
66 6 40
9570
67 46 16
2575
Venus
W.
24 49 11
9010
26 27 52
9015
28 627
9090
29 44 55
2694
Pollux
E.
66 55 12
9349
65 10 24
9357
63 25 47
9305
61 41 22
9374
Jupiter
E.
69 54 28
9945
68 7 7
9950
66 19 54
9955
64 32 49
9961
Mars
E.
78 10 42
9954
76 23 35
9960
74 36 36
9908
72 49 46
9979
3
Sun
W.
76 2 30
9009
77 41 22
9006
79 20 6
9814
80 58 42
9691
. Venus
W.
37 55 30
9053
39 33 13
9659
41 10 48
9068
42 48 14
9679
a Arietta
W.
26 37 30
9067
28 14 27
9048
29 52 17
9017
31 30 49
2599
Pollux
E.
53 2 49
9499
51 19 56
9443
49 37 22
9457
47 55 8
9472
Jupiter
E.
55 39 37
9994
53 53 28
9301
52 7 30
9309
50 21 44
9317
Mars
E.
63 58 6
9309
62 12 19
9317
60 26 44
9396
58 41 22
9335
Regulus
E.
88 52 27
9991
87 6 15
9998
85 20 12
9304
83 34 18
9309
4
Sun
W.
89 927
9054
90 47 9
9001
92 24 41
9068
94 2 4
2675
Venus
W.
50 53 13
9700
52 29 45
9713
54 6 8
9790
55 42 21
9798
aArietis
W.
39 50 16
9599
41 30 59
9515
43 11 52
9510
44 52 51
9507
Pollux
E.
39 30 9
9575
37 50 39
9001
36 11 46
9039
34 33 35
9666
Jupiter
E.
41 35 59
9303
39 51 31
9374
38 7 19
9385
36 23 23
9396
Mars
E.
49 58 6
9388
48 14 14
9400
46 30 39
9413
44 47 23
9496
Regulus
E.
74 47 4
9349
73 2 6
9349
71 17 18
9350
69 32 40
2363
5
Sun
W.
102 6 31
9719
103 42 55
9719
105 19 9
9797
106 55 13
2795
Venus
W.
63 41 0
9705
65 16 14
9779
66 51 19
9780
68 26 13
2788
a Arietis
W.
53 18 27
9505
54 59 34
9507
56 40 38
9509
58 21 39
9519
Saturn
W.
23 34 42
9410
25 18 3
9415
27 1 16
9491
28 44 21
9426
Aldebanm
W.
19 16 38
9400
21 0 13
9404
22 43 42
9408
24 27 5
9413
Mars
E.
36 16 24
9513
34 as 29
9535
32 55 4
9500
31 15 14
9587
Regulus
E.
60 52 7
9401
59 8 33
9408
57 25 10
9410
55 41 58
2494
6
Sun
W.
114 52 59
9774
116 28 1
9789
118 2 53
97C0
119 37 34
2796
Venus
W.
76 18 13
9890
77 52 7
9835
79 25 50
9849
80 59 23
9850
a Arietis
W.
66 45 29
9539
68 25 58
9538
70 6 19
9543
71 46 33
9548
Saturn
W.
37 17 30
9401
38 59 38
9407
40 41 37
9475
42 23 26
9489
Aldebanm
W.
33 1 56
9445
34 44 27
9451
36 26 49
9458
38 9 1
9405
Regulus
Spica
E.
47 8 51
9400
45 26 50
247*
43 45 2
9484
42 3 26
2494
E.
100 39 9
9440
98 56 31
9447
97 14 3
9455
95 31 46
2462
7
Venus
W.
88 44 34
9890
90 17 5
9898
91 49 26
9907
93 21 36
9915
a Arietis
W.
80 5 40
9580
81 45 3
9586
83 24 17
9593
85 3 21
9600
Saturn
W.
50 49 59
9518
52 30 47
9596
54 11 24
9533
55 51 51
9541
Aldebanm
W.
46 37 36
9500
48 18 49
9507
49 59 52
95J5
51 40 44
9529
Regulus
Spica
E.
33 38 57
9540
31 58 48
* 9560
30 18 58
9574
28 39 27
9588
E.
87 2 54
9499
85 21 39
9500
83 40 34
9514
81 59 40
9529
8
Saturn
W.
64 11 26
9580
65 50 49
9588
67 30 1
9596
69 9 2
9604
XIV.
MARCH, 1884.
51
GREENWICH MEAN TIME.
LUNAB DISTANCED
P.L.
P.L.
P.L.
.
P.L.
Name and Direction
of Otyeot.
Midnight
of
Diff.
xv*.
of
Biff.
xvm*
of
Diff.
XXI*
of
Diff.
1
Sun
W.
56 7 8
8648
O / //
57 47 14
9551
O l II
59 27 17
9553
61° 7 16
9557
Saturn
E.
25 55 43
9947
24 8 26
9953
22 21 17
9956
20 34 16
9964
Aldebaran
E.
30 26 22
8931
28 38 41
9936
26 51 7
9941
25 3 40
9946
Pollux
E.
73 55 55
9395
72 10 32
9331
70 25 17
9336
68 40 10
9349
Jupiter
E.
77 4 56
9998
75 17 10
9939
73 29 30
9936
71 41 56
9940
MAR8
E.
85 20 20
9937
83 32 47
9940
81 45 19
9944
79 57 57
9949
2
Sun
W.
69 25 45
9580
71 5 7
9585
72 44 22
9590
74 23 30
9596
Venus
W.
31 23 17
9699
33 1 32
9635
34 39 39
9641
36 17 39
9647
Pollux
E.
59 57 10
9384
58 13 12
9394
56 29 28
9405
54 46 0
9417
Jupiter
E.
62 45 52
9967
60 59 4
9973
59 12 25
9980
57 25 56
9987
Mars
E.
71 3 6
9978
69 16 35
9985
67 30 14
9993
65 44 4
9301
3
Sun
W.
8237 9
9697
84 15 27
9634
85 53 36
9641
87 31 36
9647
Venus
W.
44 25 32
9678
46 2 41
9685
47 39 41
9689
49 16 32
9699
a Arietis
W.
33 9 55
9571
34 49 30
9554
36 29 28
9540
38 9 45
9530
Pollux
E.
46 13 16
9489
44 31 48
9508
42 50 46
9598
41 10 12
9551
Jupiter
E.
48 36 10
9396
46 50 48
9335
45 5 39
9343
43 20 42
9353
Mars
E.
56 56 14
9345
55 11 20
9355
53 26 40
9365
51 42 15
9376
Regulus
E.
81 48 32
9315
80 2 55
9399
78 17 28
9399
76 32 11
9336
4
Sun
W.
95 39 17
9683
97 16 20
9600
98 53 13
9697
100 29 57
9704
Venus
W.
57 18 24
9735
58 54 18
9749
60 30 2
9750
62 5 36
9757
a Arietis
W.
46 33 55
9505
48 15 2
9504
49 56 10
9503
51 37 19
9504
Pollux
E.
32 56 10
9704
31 19 3G
9748
29 44 0
9799/
28 9 31
9856
Jupiter
E.
34 39 45
9410
32 56 25
9494
31 13 25
9440
29 30 47
9456
MAR8
E.
43 4 26
9441
41 21 50
9457
39 39 36
9474
37 57 47
9493
Regulus
E.
67 48 12
9371
66 3 55
9378
64 19 48
9385
62 35 52
9393
5
Sun
W.
108 31 6
9749
110 6 50
9750
111 42 23
9756
113 17 46
9706
Vehus
W.
70 0 57
9795
71 35 31
9803
73 9 55
9811
74 44 9
9818
a Arietis
W.
60 235
9516
61 43 26
9590
63 24 12
9593
65 4 53
9597
Saturn
W.
30 27 18
9433
32 10 6
9440
33 52 44
9447
35 35 12
9454
Aldebaran
W.
26 10 21
9419
27 53 29
9496
29 36 27
9439
31 19 16
9438
Mars
E.
29 36 2
9618
27 57 32
9654
26 19 51
9697
24 43 7
9747
Regulus
E.
53 58 57
9439
52 16 8
9440
50 33 30
9448
48 51 4
9458
6
Sun
AV.
121 12 5
9606
122 46 25
9814
124 20 35
9891
125 54 35
9830
Venus
W.
82 32 46
9858
84 5 59
9666
85 39 1
9874
87 11 53
9883
a Arietis
W.
73 26 39
9554
75 6 37
9560
76 46 27
9566
78 26 8
9573
Saturn
W.
44 5 5
9480
45 46 34
9496
47 27 53
9504
49 9 1
3511
Aldebaran
W.
39 51 4
9479
41 32 57
9479
43 14 40
9486
44 56 13
9493
Regulus
E.
40 22 4
9504
38 40 56
9514
37 0 2
9594
35 19 22
9535
Spica
E.
93 49 39
9460
92 7 42
9477
90 25 56
9484
88 44 20
9491
7
Venus
W.
94 53 36
9993
96 25 25
9931
97 57 4
9940
99 28 32
9949
a Arietis
W.
86 42 16
9607
88 21 1
9615
89 59 35
9093
91 37 58
9631
Saturn
W.
57 32 7
9548
59 12 13
9556
60 52 8
9564
62 31 52
9573
Aldebaran
W.
53 21 26
9530
55 1 58
9537
56 42 19
9545
58 JJ2 29
9553
Regulus
Spica
E.
27 0 16.
9604
25 21 26
9691
23 43 0
9649
22 5 2
9666
E.
80 18 57
9599
78 38 24
9537
76 58 2
9545
75 17 51
9553
8
Saturn
W.
70 47 52
9619
72 26 31
9691
74 4 58
9699
75 43 14
9637
52
MARCH, 1884.
XV.
GREENWICH MEAN TIME.
LUNAR DISTANCES.
U
•
P.L.
P.L.
P.L.
P. L.
Name and Direction
Noon.
of
nih.
of
VI*.
of
DO-
of
of Object.
Diff.
Biff.
Diff.
Diff.
8
Aldebaran
W.
60 2 29
9561
61° 42 18
> 9568
O I //
63 21 57
S576
O / H
65 1 25
9585
Spica
E.
73 37 51
8561
71 58 2
9568
70 18 23
9576
68 38 55
9585
9
SaTURZC
W.
77 21 19
9645
78 59 13
9654
80 36 55
9663
82 14 25
9671
Aldebaran
W.
73 15 57
9695
74 54 18
9634
76 32 27
9649
78 10 25
9650
Pollux
W.
32 7 13
9959
33 38 17
9940
35 9 45
9994
36 41 33
9919
Jupiter
W.
27 33 10
9719
29 9 34
9710
30 46 0
9711
32 22 25
9713
Spica
£.
60 24 26
9696
58 46 6
9635
57 7 58
9643
55 30 2
9659
An tares
E.
105 54 9
9670
104 16 49
9678
102 39 40
9686
101 2 42
9694
10
Aldebaran
W.
86 17 23
9694
87 54 11
9703
89 30 47
9719
91 7 11
9791
Pollux
W.
44 23 31
9883
45 56 12
9881
47 28 55
9889
49 1 37
9683
Jupiter
W.
40 23 37
9733
41 59 33
9739
43 35 21
9745
45 11 1
9758
Mars
W.
33 8 54
9855
34 42 10
9859
36 15 31
9849
37 48 55
9848
Spica
E.
47 23 17
9696
45 46 32
9706
44 10 0
9715
42 33 40
9795
Antares
E.
93 0 35
9737
91 24 44
9745
89 49 4
9754
88 13 36
9763
11
Aldebaran
W.
99 6 11
9766
100 41 23
9776
102 16 22
9785
103 51 9
9796
Pollux
W.
56 44 32
9898
58 16 54
3903
59 49 9
.9908
61 21 18
9913
Jupiter
W.
53 7 1
9789
54 41 43
9798
56 16 14
9805
57 50 35
9814
Mars
W.
45 35 41
9861
47 8 50
9865
48 41 54
9870
50 14 51
9876
Regulus
Spica
W.
19 42 16
9889
21 14 49
9881
22 47 32
9877
24 20 20
9676
E.
34 35 9
9779
33 0 5
9783
31 25 15
9793
29 50 38
9803
Aji tares
E.
80 19 20
9811
78 45 7
9891
77 11 6
9831
75 37 18
9841
12
Pollux
W.
69 0 7
9946
70 31 27
9954
72 238
9961
73 33 40
9968
Jupiter
W.
65 39 34
9857
67 12 48
9866
68 45 50
9874
70 18 42
9883
Mars
W.
57 57 37
9909
59 29 44
9917
61 1 41
9994
62 33 29
9939
Regulus
W.
32 4 6
9890
33 36 38
9895
35 9 3
9901
36 41 21
9906
Antares
E.
67 51 33
9899
66 19 4
9909
64 46 48
9919
63 14 45
9993
13
Pollux
W.
81 6 27
3007
82 36 31
3015
84 625
3093
85 36 9
3031
Jupiter
W.
78 0 14
9997
79 31 59
9935
81 3 33
9943
82 34 57
9959
Mars
W.
70 9 59
9979
71 40 47
9980
73 11 25
9989
74 41 52
9997
Regulus
W.
44 20 49
9941
45 52 16
9947
47 23 35
9954
48 54 45
9969
Antares
E.
55 37 58
9978
54 7 18
9990
52 36 53
3001
51 6 42
3013
14
Jupiter
W.
90 9 20
9999
91 39 43
9999
93 9 57
3006
94 40 2
3014
Mars
W.
82 11 40
3035
83 41 9
3043
85 10 28
3051
86 39 38
3058
Regulus
W.
56 28 17
9997
57 58 33
3004
59 28 41
3010
60 58 41
3017
Antares
E.
43 39 27
3074
42 10 46
3087
40 42 21
3101
39 14 13
3116
15
Regulus
W.
68 26 47
3045
69 56 4
3051
71 25 14
3056
72 54 18
3060
Antares
E.
31 58 14
3901
30 32 6
3398
29 6 24
3947
27 41 10
3979
a Aquiln
E.
83 42 7
3430
82 20 25
3439
80 58 53
3448
79 37 31
k 3456
16
Regulus
Spica
W.
80 18 22
3078
81 46 58
3081
83 15 31
3089
84 44 2
3085
W.
26 39 8
3075
28 7 48
3077
29 36 26
3078
31 5 3
3078
ct Aquite
E.
72 53 9
3504
71 32 49
3514
70 12 40
3595
68 52 43
3536
Sun
E.
127 44 59
3449
126 23 38
3459
125 2 20
3454
123 41 4
3455
17
Regulus
W.
92 6 9
3086
93 34 33
3088
95 2 57
3087
96 31 22
3086
Spica
W.
38 27 56
3080
39 56 30
3078
41 25 6
3078
42 53 43
3076
XVL
MARCH, 1884.
53
GREENWICH MEAN TIME.
LUKAB DISTANCES.
Name and Direction
of Object.
Midnight.
P.L.
of
Diff.
XV*
P.L.
of
Diff
xvnp>.
P.L.
of
Diff.
XXP*.
P.L.
of
Diff.
8
Aldebaran
W.
66 40 41
9583
68 19 46
9600
69 58 41
9608
O I /'
71 37 25
9617
Spica
£.
66 59 39
9583
65 20 34
9601
63 41 40
9609
62 2 57
9618
9
Saturn
W.
83 51 44
9680
85 28 51
9688
87 5 47
9697
88 42 31
9707
Aldebaran
W.
79 48 12
9659
81 25 47
9667
83 3 11
9676
84 40 23
9685
Pollux
W.
38 13 37
9901
39 45 54
9894
41 18 20
9689
42 50 53
9865
Jupiter
W.
33 58 48
9715
35 35 8
9718
37 11 24
9799
38 47 34
9798
Spica
£.
53 52 17
9660
52 14 44
9669
50 37 23
9678
49 0 14
9687
Antares
E.
99 25 54
9709
97 49 17
971]
96 12 52
9719
94 36 38
9798
10
Aldebaran
W.
92 43 23
9730
94 19 23
9739
95 55 11
9748
97 30 47
9757
Pollux
W.
50 34 18
9884
52 6 57
9887
53 39 33
9890
55 12 5
9894
Jupiter
W.
46 46 32
9759
48 21 53
9766
49 57 5
9773
51 32 8
9781
Mars
W.
39 22 20
9649
40 55 45
9850
42 29 8
9653
44 2 27
9857
Spica
E.
40 57 33
9734
39 21 38
9744
37 45 56
9753
36 10 26
9763
Antares
E.
86 38 20
9779
85 3 16
9789
83 28 25
9791
81 53 46
9601
11
Aldebaran
W.
105 25 44
9604
107 0 7
9814
108 34 17
9893
110 8 15
9839
Pollux
W.
62 53 20
9990
64 25 14
9996
65 57 0
9939
67 28 38
9939
Jupiter
W.
59 24 45
9899
60 58 44
9831
62 32 32
9639
64 6 9
9648
Mars
W.
51 47 41
9889
53 20 23
9689
54 52 56
9895
56 25 21
9909
Regulus
Spica
W.
25 53 9
9876
27 25 58
9678
28 58 45
9681
30 31 28
9885
E.
28 16 14
9814
26 42 4
9694
25 8 7
9835
23 34 24
9646
Antares
E.
74 3 43
9851
72 30 21
9861
70 57 12
9871
69 24 16
9681
12
Pollux
W.
75 4 33
9976
76 35 16
9984
78 5 49
9991
79 36 13
9999
Jupiter
W.
71 51 23
9891
73 23 53
9901
74 56 11
9909
76 28 18
9918
•
Mars
W.
64 5 7
9940
65 36 35
9948
67 7 53
9956
6839 1
9964
Regulus
W.
38 13 32
9913
39 45 34
9990
41 17 28
9997
42 49 13
9934
Antares
E.
61 42 56
9935
60 11 21
9946
58 40 0
9956
57 8 52
9967
13
Pollux
W.
87 5 43
3039
88 35 7
3047
90 4 21
3055
91 33 26
3063
Jupiter
W.
84 6 10
9960
85 37 13
9969
87 8' 5
9977
88 38 47
9984
Mars
W.
76 12 9
3005
77 42 16
3019
79 12 14
3090
80 42 2
3096
Regulus
W.
50 25 45
9969
51 56 36
9977
53 27 18
9983
54 57 52
9990
Antares
E.
49 36 45
3095
48 7 3
3037
46 37 36
3049
45 8 24
3061
14
Jupiter
W.
96 9 57
3099
97 39 43
3098
99 9 21
3034
100 38 52
3040
Mars
W.
88 8 39
3065
89 37 32
3079
91 6 16
3078
92 34 52
3085
Regulus
W.
62 26 33
3093
63 58 17
3099
65 27 54
3034
66 57 24
3040
Ad tares
E.
37 46 23
3131
36 18 51
3147
34 51 38
3163
33 24 45
3189
15
Regulus
W.
74 23 16
3065
75 52 9
3068
77 20 58
9079
78 49 42
3075
Antares
E.
26 16 26
3309
24 52 17
3337
23 28 48
9377
22 6 5
3494
aAquiln
E.
78 16 18
3465
76 55 15
3474
75 34 22
3484
74 13 40
3494
16
Regulus
Spica
W.
86 12 30
3087
87 40 56
3067
89 9 21
3088
90 37 45
3088
W.
32 33 40
3078
34 2 16
3080
35 30 50
3081
36 59 23
3081
a Aquito
E.
67 32 59
3547
66 13 27
3560
64 54 9
3573
63 35 5
3596
Sun
E.
122 19 50
3457
120 58 38
3458
119 37 27
3458
118 16 16
3459
17
Repulus
Spica
W.
97 59 49
3084
99J28 18
45*51 4
3089
100 56 50
3079
102 25 25
9076
W.
44 22 22
3073
3071
47 19 49
3068
48 48 38
3065
54
MARCH, 1884.
XVH
1
GREENWICH MEAN TIME.
LUNAE DISTANCES.
•
1"
Name and Direction
of Object.
Noon.
P.L.
Of
Diff.
in*.
P.L.
Of
Diff.
%
m
P.L.
of
Diff.
a>.
P.L.
Of
Diff.
17
a Aquile
Sun
E.
£.
62 16 15
116 55 6
3600
3459
O I II
60 57 41
115 33 56
3614
3458
O l II
59 39 22
114 12 45
3630
3456
58 21 20
112 51 32
3647
3455
18
Spica
a Aquike
Sun
W.
E.
E.
50 17 31
51 56 4
106 4 47
3060
3750
3438
51 46 29
50 40 10
104 43 14
3056
3776
3434
53 15 32
49 24 43
103 21 36
30S9
3805
3499
54 44 41
48 9 46
101 59 52
3047
3836
3493
19
Spica
aAquiln
Sun
W.
E.
E.
62 12 14
42 4 4
95 9 25
3013
4046
3386
63 42 11
40 53 10
93 46 53
3005
4104
3378
65 12 17
39 43 12
92 24 12
9997
4169
3369
66 42 34
38 34 17
91 1 20
2968
4941
3359
20
Spica
Aji tares
Sun
W.
W.
E.
74 16 59
29 39 48
84 4 0
9996
3115
3303
75 48 32
31 7 39
82 39 52
9994
3089
3990
77 20 20
32 36 2
81 15 29
9913
3064
3977
78 52 23
34 4 56
79 50 51
3901
3039
3964
21
Spica
Antare8
Sun
W.
W.
E.
86 36 44
41 36 34
72 43 33
9838
9931
3190
88 10 30
43 8 14
71 17 12
9818
9910
3174
89 44 35
44 40 20
69 50 32
9803
9890
3158
91 18 59
46 12 51
68 23 32
9788
9870
3141
22
Spica
Ail tares
Sun
W.
W.
E.
99 16 8
54 1 49
61 3 25
9707
9779
3054
100 52 39
55 36 53
59 34 19
9690
9753
3035
102 29 32
57 12 22
58 4 50
9674
9734
3017
104 6 47
58 48 17
56 34 58
9656
9715
23
Spica
Airfares
Sun
W.
W.
E.
112 18 56
66 54 16
48 59 50
9569
9619
9905
113 58 34
68 32 45
47 27 37
9551
9600
9885
115 38 36
70 11 40
45 54 59
9534
9581
9866
117 19 2
71 51 1
44 21 57
9516
9569
9847
24
An tares
a Aquile
Sun
W.
W.
E.
80 14 9
36 18 29
36 30 37
9479
3768
9753
81 56 2
37 34 5
34 55 8
9454
3649
9735
83 38 20
38 51 47
33 19 15
9437
3541
9717
85 21 2
40 11 26
31 42 58
9419
3444
9700
28
Sun
Aldebaran
Pollux
Jupiter
Mars
W
E.
E.
E.
E.
17 18 39
42 53 29
86 8 36
89 3 41
98 23 22
9389
9081
9179
9107
9174
19 2 29
41 2 1
84 19 27
87 12 53
96 34 16
9385
9080
9179
9106
9179
20 46 26
39 10 31
82 30 17
85 22 3
94 45 7
9389
9080
9179
9105
9171
22 30 27
37 19 1
80 41 7
83 31 12
92 55 56
9380
9080
9173
9106
9170
29
Sun
Pollux
Jupiter
Mars
W.
E.
E.
E.
31 10 41
71 36 4
74 17 23
83 50 21
9385
9190
9116
9189
32 54 37
69 47 22
72 26 49
82 1 26
9388
9196
9190
9186
34 38 29
67 58 49
70 36 21
80 12 37
9399
9909
9195
9190
36 22 15
66 10 25
68 46 0
78 23 55
9396
9910
9131
9198
30
Sun
Pollux
Jupiter
Mars
Itegulus
W.
E.
E.
E.
E.
44 59 13
57 11 51
59 36 38
69 22 48
93 7 51
9498
9364
9166
9933
9140
46 42 8
55 24 58
57 47 20
67 35 10
91 17 53
9436
9978
9175
9949
9148
48 24 52
53 38 26
55 58 15
65 47 45
89 28 7
9444
9994
9184
9951
9156
50 724
51 52 17
54 924
64 034
87 38 33
9453
9310
9195
9909
9164
31
Sun
Pollux
Jupiter
Mars
Regulus
W.
E.
E.
E.
E.
58 36 47
43 8 4
45 9 17
55 8 48
78 34 3
9503
9413
9955
9399
9919
60 17 56
41 24 48
43 22 11
53 23 21
76 45 53
9514
9430
9968
9337
9993
61 58 50
39 42 9
41 35 25
51 38 15
74 57 59
9595
9468
9983
9351
9934
63 39 29
38 0 11
39 49 0
49 53 30
73 10 22
9537
9500
9998
9366
9945
xvm.
MARCH, 1884.
55
GREENWICH MEAN TIME.
LUNAR DISTANCES.
17
Name and Direction
of Object.
Midnight
P.L.
of
Diff.
XV*.
P.L.
of
Diff.
xvmb.
P.L.
of
Diff.
XXlfc
P.L.
Of
Diff.
a Aquito
Sun
E.
E.
5? 3 36
111 30 17
3064
3453
O I //
55 46 11
110 9 0
3683
3450
5! 29 6
106 47 40
3704
3446
53 12 23
107 26 16
3797
3449
18
Spica
a Aquito
Sun
W.
E.
E.
56 13 56
46 55 21
100 38 2
3040
3870
3417
57 43 19
45 41 31
99 16 5
3034
3908
3410
59 12 49
44 28 19
97 54 0
3098
3949
3403
60 42 27
43 15 49
96 31 47
3091
3095
3395
19
Spica
a Aquito
Sun
W.
E.
E.
68 13 2
37 26 30
89 38 17
9978
4399
3349
69 43 42
36 19 58
88 15 2
9968
4416
S338
71 14 35
35 14 51
86 51 34
9958
4590
3397
72 45 40
34 11 17
85 27 54
9947
4639
3315
20
Spica
Aji tares
Sun
W.
W.
E.
80 24 41
35 34 20
78 25 57
9687
3016
3950
81 57 16
37 4 13
77 0 47
9874
9994
3936
8330 8
38 34 33
75 35 20
9861
9973
3990
85 3 17
40 5 20
74 9 35
9847
- 9951
3906
21
Spica
Antares
Sun
W.
W.
E.
92 53 43
47 45 48
66 56 12
9779
9851
3194
94 28 47
49 19 10
65 28 32
9756
9831
3107
96 4 12
50 52 58
64 0 31
9740
9811
3090
97 39 59
52 27 11
62 32 9
9793
9799
3079
22
Spica
Aii tares
Sun
W.
W.
E.
105 44 26
60 24 37
55 4 44
9639
9695
9980
107 22 28
62 1 23
53 34 6
9691
9676
9961
109 0 54
63 38 35
52 3 4
9604
9657
9949
110 39 43
65 16 13
50 31 39
9587
9638
9993
23
Spica
Antares
Sun
W.
W.
E.
118 59 53
73 30 48
42 48 30
9499
9544
9888
120 41 8
75 11 0
41 14 38
9481
9595
9809
122 22 48
76 51 38
39 40 22
9463
9507
9791
124 4 53
78 32 41
38 5 42
9446
9489
9779
24
Antares
a Aquito
Sun
W.
W.
E.
87 4 9
41 32 53
30 6 18
9403
3356
9639
88 47 40
42 56 0
28 29 14
9387
3976
9666
90 31 34
44 20 40
26 51 48
9371
3903
9649
92 15 50
45 46 46
25 14 0
9355
3135
9633
28
Sun
Aldebaran
Pollux
Jupiter
Mars
W.
E.
E.
E.
E.
24 14 30
a5 27 31
78 51 59
81 40 22
91 6 44
9380
9081
9174
9107
9171
25 58 34
33 36 2
77 2 53
79 49 33
89 17 33
9380
9083
9177
9108
9173
27 42 38
31 44 36
75 13 51
77 58 46
87 28 25
9380
9085
9180
9110
9176
29 26 41
29 53 14
73 24 54
76 8 2
85 39 21
9389
9088
9185
9113
9179
29
Sun
Pollux
Jupiter
Mars
W.
E.
E.
E.
38 5 55
64 22 13
66 55 48
76 35 22
9401
9919
9137
9909
39 49 28
62 34 14
65 5 45
74 46 58
9407
9999
9143
9908
41 32 52
60 46 30
63 15 52
72 58 43
9414
9940
9150
9916
43 16 7
58 59 2
61 26 9
71 10 39
9490
9951
9158
9994
30
Sun
Pollux
Jupiter
Mars
Regulus
W.
E.
E.
E.
E.
51 49 44
50 632
52 20 49
62 13 39
85 49 11
9469
9397
9906
9973
9173
53 31 51
48 21 12
50 32 30
60 27 0
84 0 3
9479
9346
9917
9985
9189
55 13 44
46 36 19
48 44 28
58 40 38
82 11 8
9489
9366
9997
9199
56 55 23
44 51 55
46 56 43
56 54 34
80 22 28
9499
9389
9941
9309
9909
31
Sun
Pollux
Jupiter
Mars
Regulus
W.
E.
E.
E.
E.
65 19 51
36 18 58
38 2 57
48 9 6
71 23 1
9549
9535
9314
9389
9956
66 59 56
34 38 34
36 17 18
46 25 5
69 35 57
9561
9575
9331
9398
9968
68 39 45
32 59 5
34 32 4
44 41 28
67 49 11
9579
9690
9350
9416
9980
70 19 18
31 20 37
32 47 17
42 58 16
66 2 42
9585
9660
9369
9434
9999
56
APRIL, 1884.
AT GREENWICH APPARENT NOON.
1
3
8
*
*
3
•
5
%
*
fe
b
&
&
i
Tues.
Wed.
2
Thur.
3
Frid.
4
Sat.
5
SUN.
6
Mon.
7
Tues.
8
Wed.
9
Thur.
10
Frid.
11
Sat.
12
SUN.
13
Mon.
14
Tues.
15
Wed.
16
Thur.
17
Frid.
18
Sat.
19
SUN.
20
Mon.
21
Tues.
22
Wed.
23
Thur.
24
Frid.
25
Sat.
26
SUN.
27
Mon.
28
Tues.
29
Wed.
30
Thur.
31
THE SUN'S
Apparent
Bight Ascension.
Diff. for
lHonr.
h m •
0 44 46.15
0 48 24.68
0 52 3.33
9.103
9.108
9.114
0 55 42.12
0 59 21.07
1 3 0.20
9.120
9.126
9.134
1 6 39.52
1 10 19.06
1 13 58.86
9.143
9.153
9.164
1 17 38.93
1 21 19.27
1 24 59.90
9.175
9.186
9.199
1 28 40.85
1 32 22.16
1 36 3.84
9.213
9.228
9.244
1 39 45.89
1 43 28.33
1 47 11.19
9.260
9.277
9.295
1 50 54.47
1 54 38.20
1 58 22.38
9.313
9.332
9.351
2 2 7.01
2 5 52.11
2 9 37.69
9.370
9.390
9.410
2 13 23.76
2 17 10.32
2 20 57.37
9.430
9.451
9.472
2 24 44.93
2 28 33.00
2 32 21.59
9.493
9.514
9.535
2 36 10.69
9.556
Apparent
Declination.
Diff, for
lHour.
N. 4° 48' 47.4
5 11 49.4
5 34 45.9
+57.70
57.47
57.23
5 57 36.5
6 20 20.9
6 42 58.6
+56.98
56.72
56.43
7 5 29.3
7 27 52.7
7 50 8.6
+56.14
55.83
55.50
8 12 16.6
8 34 16.4
8 56 7.8
+55.16
54.82
54.46
9 17 50.3
9 39 23.6
10 0 47.4
+54.08
53.69
53.28
10 22 1.4
10 43 5.2
11 3 58.4
+52.86
52.43
51.99
11 24 40.8
11 45 12.1
12 5 31.9
+51.53
51.06
50.58
12 25 39.8
12 45 35.6
13 5 18.8
+50.07
49.55
49.03
13 24 49.2
13 44 6.3
14 3 9.9
+48.48
47.92
47.36
14 21 59.7
14 40 35.4
14 58 56.4
+46.78
46.18
45.57
N.15 17 2.6
+44.95
Semi-
diameter.
16 1.92
16 1.65
16 1.38
16 1.11
16 0.84
16 0.57
16 0.29
16 0.02
15 59.75
15 59.48
15 59.21
15 58.94
15 58.67
15 58.40
15 58.13
15 57.86
15 57.59
15 57.32
15 57.05
15 56.79
15 56.53
15 56.27
15 56.00
15 55.75
15 55.50
15 55.25
15 55.01
15 54.77
15 54.53
15 54.30
15 54.07
Sidereal
Time of
Semi
diameter
Passing
Meridian,
64.52
64.54
64.57
64.60
64.62
64.64
64.67
64.71
64.75
64.79
64.83
64.88
64.93
64.98
65.03
65.09
65.15
65.21
65.27
65.34
65.40
65.47
65.53
65.60
65.67
65.74
65.81
65.88
65.95
66.03
66.11
Equation of
Time,
to be
Added to
Subtracted
from
Apparent
Time.
m a
3 45.74
3 27.76
3 9.90
2 52.19
2 34.64
2 17.27
2 0.09
1 43.13
126.42
1 9.98
0 53.81
0 37.94
0 22.38
0 7.18
0 7.65
0 22.12
0 36.20
0 49.86
1 3.09
1 15.88
128.22
1 40.11
151.53
2 2.48
2 12.94
2 22.90
2 32.36
2 41.33
2 49.79
2 57.74
3 5.17
DUtlbr
lHonr.
0.752
0.747
0.741
0.735
0.728
0.721
0.712
0.702
0.691
0.680
0.669
0.656
0.642
0.627
0.611
0.595
0.579
0.561
0.543
0.524
0.505
0.486
0.466
0.446
0.426
0.405
0.384
0.3G3
0.342
0.321
*0.300
Nom— The mean time of aemidiameter passing may be found by subtracting 0M8 from the sidereal time.
The sign + prefixed to the hourly change of declination indicates that north declinations are increasing.
n.
APRIL, 1884.
57
AT GREENWICH MEAN NOON.
1
1
1
•
1
THE
SUN'S
Equation of
Time,
to be
Subtracted
from
Diff. for
1 Honr.
Sidereal
Time,
or
Right Ascension
of
Mean San.
Apparent
Bight Ascension.
Dift". for
1 Hoar.
Apparent
Declination.
Diff. for
lHonr.
Added to
Mean Time.
Tues.
Wed.
Thur.
1
2
3
h m b
0 44 45.58
0 48 24.15
0 52 2.84
9.105
9.110
9.116
N. 4° 48 43/7
5 11 46.0
5 34 42.8
+57.71
57.48
57.24
m s
3 45.79
3 27.81
3 9.94
0.752
0.747
0.741
h m s
0 40 59.79
0 44 56.34
0 48 52.90
Frid.
Sat.
SUN.
4
5
6
0 55 41.68
0 59 20.68
1 2 59.85
9.182
9.128
9.136
5 57 33.7
6 20 18.4
6 42 56.4
-r57.00
56.73
56.44
2 52.23
2 34.68
2 17.30
0.735
0.728
0.721
0 52 49.45
0 56 46.00
1 0 42.55
Mon.
Tues.
Wed.
7
8
9
1 6 39.21
1 10 18.80
1 13 58.65
9.145
9.155
9.166
7 5 27.4
7 27 5U
7 50 7.3
+56.15
55.84
55.51
2 0.11
1 43.15
1 26.44
0.712
0.702
0.691
1 4 39.10
1 8 35.65
1 12 32.21
Thur.
Frid.
Sat.
10
11
12
1 17 38.75
1 21 19.13
1 24 59.80
9.177
9.188
9.201
8 12 15.6
8 34 15.7
8 56 7.3
+55.17
54.83
54.47
1 9.99
0 53.82
0 37.94
0.680
0.669
0.656
1 16 28.76
1 20 25.31
1 24 21.86
SUN.
Mon.
Tues.
13
14
15
1 28 40.79
1 32 22.14
1 36 3.86
9.215
9.830
9.346
9 17 50.0
9 39 23.5
10 0 47.6
+54.09
53.70
53.29
0 22.38
0 7.18
0.642
0.627
0.611
1 28 18.41
1 32 14.96
1 36 11.51
0 7.65
Wed.
Thur.
Frid.
16
17
16
1 39 45.95
1 43 28.43
1 47 11.32
9.262
9.278
9.296
10 22 1.8
10 43 5.8
11 3 59.2
+52.87
52.44
52.00
0 22.12
0 36.20
0 49.86
0.595
0.579
0.561
1 40 8.07
1 44 4.63
1 48 1.18
Sat.
SUN.
Mon.
19
20
21
1 50 54.64
1 54 38.40
1 58 22.61
9.314
9.333
9.352
11 24 41.8
11 45 13.2
12 5 33.2
+51.54
61.07
50.59
1 3.10
1 15.89
1 28.23
0.543
0.524
0.505
1 51 57.74
1 55 54.29
1 59 50.84
Tues.
Wed.
Thur.
22
23
24
2 2 7.27
2 5 52.40
2 9 38.01
9.371
9.391
9.411
12 25 41.3
12 45 37.2
13 5 20.5
+50.08
49.56
49.04
1 40.12
1 51.55
2 2.49
0.486
0.466
0.446
2 3 47.39
2 7 43.95
2 11 40.50
Frid.
Sat.
SUN.
25
26
27
2 13 24.11
2 17 10.70
2 20 57.78
9.431
9.452
9.473
13 24 51.0
13 44 8.3
14 3 12.0
+48.49
47.93
47.37
2 12.95
2 22.91
2 32.38
0.426
0.405
0.384
2 15 37.06
2 19 33.61
2 23 30.16
Mon.
Tues.
Wed.
28
29
30
2 24 45.36
2 28 33.46
2 32 22.07
9.494
9.515
9.536
14 22 1.8
14 40 37.5
14 58 58.6
+46.78
46.18
45.57
2 41.35
2 49.81
2 57.76
0.363
0.342
0.321
2 27 26.71
£ 31 23.27
2 35 19.82
Thur.
31
2 36 11.19
9.557
N. 15 17 4.8
+44.95
3 5.19
0.300
2 39 16.38
NOTK.— Tta
Th
at*
e semldlameter for x
e sign + prefixed to
> increasing.
aean noon
the hoarl
may be assumed the same as t
y change of declination indicate
hat for apparent
» that north doc
noon,
linations
Diff. for 1 Honr,
+ 9«.8565.
(Table in.)
58
APRIL, 1884.
IIL
AT GREENWICH MEAN NOON.
3
J
£
a
&
1
1
*
i
l
92
2
93
3
94
4
95
5
96
6
97
7
98
8
99
9
100
10
101
11
102
12
103
13
104
14
105
15
106
16
107
17
108
18
109
19
110
20
111
21
112
22
113
23
114
24
115
25
116
26
117
27
118
28
119
29
120
30
121
31
122
THE SUN'S
TBUK LONGITUDE.
V
Diff. for
1 Honr.
LATITUDE.
Logarithm
of the
Radius Vootor
of the
Earth.
DUE for
1 Hoar.
Mean Time
of
Sidereal Noon.
12 10 27.6
13 9 34.1
14 8 38.4
15 7 40.4
16 6 39.9
17 5 37.2
18 4 32.3
19 3 25.2
20 2 15.9
21 1 4.6
21 59 51.4
22 58 36.1
23 57 19.0
24 56 0.0
25 54 39.3
26 53 16.9
27 51 52.8
28 50 27.1
29 48 59.8
30 47 30.8
31 46 0.1
32 44 27.9
33 42 53.9
34 41 18.2
35 39 40.7
36 38 1.4
37 36 20.1
38 34 37.0
39 32 51.9
40 31 4.9
41 29 15.8
10 8.6
9 15.0
8 19.1
7 21.0
6 20.5
5 17.7
4 12.7
3 5.5
1 56.1
0 44.7
59 31.3
58 16.0
56 58.8
55 39.7
54 18.9
52 56.4
51 32.2
50 6.4
48 39.0
47 9.9
45 39.1
44 6.7
42 32.7
40 56.9
39 19.3
37 39.9
35 58.6
34 15.3
32 30.1
30 42.9
28 53.7
47.80
47.71
47.62
47.53
47.44
47.34
47.25
47.16
47.07
46.99
46.91
46.83
46.75
46.67
46.60
46.53
46.46
46.40
46.33
46.26
46.19
46.12
46.05
45.97
45.90
45.82
45.74
45.66
45.58
45.50
145.42
-0.21
0.27
0.29
-0.28
0.24
0.19
-0.11
0.00
+ 0.13
+ 0.26
0.39
0.52
+ 0.65
0.76
0.83
+ 0.89
0.89
0.90
+ 0.87
0.80
0.71
+ 0.61
0.48
0.35
+ 0.22
+ 0.09
-0.02
-0.12
0.17
0.21
-0.22
0.0000371
0.0001595
0.0002816
0.0004036
0.0005257
0.0006478
0.0007700
0.0008924
0.0010150
0.0011379
0.0012609
0.0013840
0.0015072
0.0016304
0.0017534
0.0018761
0.0019985
0.0021203
0.0022414
0.0023617
0.0024808
0.0025987
0.0027152
0.0028303
0.0029440
0.0030562
0.0031669
0.0032760
0.0033837
0.0034899
0.0035947
+ 51.0
50.9
50.9
+ 50.9
50.9
50.9
+ 51.0
51.0
51.1
+ 51.2
51.3
51.3
+ 51.3
51.3
51.2
+ 51.1
50.9
50.6
+ 50.3
49.9
49.4
+ 48.8
48.3
47.7
+ 47.0
46.4
45.8
+ 45.2
44.6
44.0
+ 43.4
23 15 11.02
23 11 15.11
23 7 19.20
23 3 23.29
22 59 27.40
22 55 31.49
22 51 35.58
22 47 39.68
22 43 43.77
22 39 47.86
22 35 51.95
22 31 56.05
22 28 0.15
22 24 4.24
22 20 8.33
22 16 12.42
22 12 16.52
22 8 20.61
22 4 24.70
22 0 28.79
21 56 32.89
21 52 36.98
21 48 41.07
21 44 45.16
21 40 49.26
21 36 53.35
21 32 57.44
21 29
21 25
21 21
1.53
5.63
9.72
21 17 13.81
Note.— The numbers in column A correspond to the true equinox of the date; in column A', to
the mean equinox of January 0*.0.
Diff. for 1 Hour,
— 9".8296.
(Table II.)
IV.
APRIL, 1884.
59
GREENWICH MEAN TIME.
i
THE
MOON'S
i
i
*
SEMIDIAMBTER.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGS.
Hoon.
Midnight.
Noon.
Dtff. for
lHoor.
Midnight.
DMT. for
lHoor.
Meridian of
Greenwich.
Diff. for
lHoor.
Noon.
i
2
3
16 12.1
16 1.6
15 50.7
16 6.9
15 56.1
15 45.4
59 20.8
58 42.3
58 2.4
it
-1.53
1.65
1.65
/ //
59 1.9
58 22.3
57 42.7
-1.61
1.67
1.62
h m
5 6.0
6 2.9
6 57.4
m
2.41
2.32
2.21
d
5.3
6.3
7.3
4
5
6
15 40.1
15 30.2
15 21.1
15 35.1
15 25.5
15 16.9
57 23.5
56 47.0
56 13.6
-1.57
1.46
1.33
57 4.9
56 29.9
55 58.1
-1.52
1.39
1.25
7 49.2
8 38.5
9 25.3
2.10
2.00
1.92
8.3
9.3
10.3
7
8
9
15 12.9
15 5.7
14 59.3
IS 9.2
15 2.4
14 56.5
55 43.5
55 16.9
54 53.6
-1.18
1.04
0.89
55 29.8
55 4.8
54 43.3
-1.11
0.97
0.82
10 10.7
10 55.2
11 39.3
1.87
1.84
1.84
11.3
12.3
13.3
10
11
12
14 53.9
14 49.7
14 46.8
14 51.7
14 48.1
14 45.9
54 33.9
54 18.3
54 7.6
-0.74
0.56
0.34
54 25.6
54 12.3
54 4.3
-0.65
0.45
-0.22
12 23.6
13 8.4
13 54.0
1.85
1.68
1.92
14.3
15.3
16.3
13
14
15
14 45.4
14 45.9
14 48.4
14 45.4
14 46.9
14 50.6
54 2.5
54 4.2
54 13.7
-0.07
+ 0.2*2
0.57
54 2.4
54 7.9
54 21.7
+ 0.07
0.39
0.76
14 40.4
15 27.6
16 15.4
1.95
1.98
2.00
17.3
18.3
19.3
16
17
18
14 53.4
15 0.9
15 10.9
14 56.6
15 5.6
15 16.8
54 31.9
54 59.3
55 36.1
+ 0.95
1.34
1.72
54 44.4
55 16.6
55 57.8
+ 1.14
1.53
1.89
17 3.5
17 51.8
18 40.2
2.01
2.01
2.02
20.3
21.3
22.3
19
20
21
15 23.2
15 37.5
15 52.9
15 30.2
15 45.1
16 0.7
56 21.5
57 13.9
58 10.5
-1-2.05
2.28
2.38
56 47.0
57 41.9
58 39.1
+ 2.18
2.35
2.37
19 28.9
20 18.3
21 8.8
2.04
2.08
2.13
23.3
24.3
25.3
22
23
24
16 8.4
16 22.4
16 33.6
16 15.7
16 28.5
16 37.7
59 7.2
59 58.8
60 39.9
+ 2.29
1.97
1.42
59 34.0
60 21.0
60 55.0
+ 2.16
1.72
1.07
22 0.9
22 55.2
23 52.1
2.22
2.32
2.43
26.3
27.3
28.3
25
26
27
16 40.6
16 42.5
16 39.3
16 42.2
16 41.5
16 35.9
61 5.6
61 12.7
61 0.8
+ 0.70
-0.10
0.87
61 11.6
61 9.0
60 48.3
+ 0.29
-0.49
1.20
6
0 51.5
1 52.5
2.52
2.56
29.3
0.9
1.9
28
29
30
16 31.5
16 20.2
16 7.0
16 26.2
16 13.8
16 0.0
60 32.1
59 50.8
59 2.1
-1.48
1.90
2.11
60 12.7
59 27.1
58 36.5
-1.72
2.02
2.13
2 53.8
3 53.8
4 51.1
2.54
2.45
2.32
2.9
3.9
4.9
31
15 53.0
15 46.1
58 10.8
-2.12
57 45.4
-2.09
5 45.1
2.18
5.9
60
APRIL, 1984.
GEEESTWICH MEAN TIME,
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Dlfffor
1 Minute.
Declination.
Diff.for
1 Minute.
Hour.
Bight Ascension.
Diftfor
1 Minute.
Declination.
Diftfor
1 Minute.
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
I
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
24
TUESDAY 1.
634
6 36
639
6 41
6 43
6 46
6 48
6 51
6 53
6 55
6 58
7 0
7 3
m s
s
35 5.57
2.4983
37 35.40
9.4960
40 5.09
9.4836
42 34.63
9.4911
45 4.02
2.4888
47 33.26
9.4860
50 2.34
9.4833
52 31.26
9.4806
55 0.01
9.4776
57 28.60
9.4751
59 57.02
9.4799
2 25.26
9.4699
4 53.32
9.4669
7 21.20
9.4631
9 48.89
9.4599
12 16.39
9.4567
14 43.70
9.4535
17 10.81
9.4509
19 37.72
9.4468
22 4.43
9.4435
24 30.94
9.4401
26 57.24
9.4366
29 23.33
9.4331
31 49.21
9.4995
N.18 41 53.4
18 41 46.6
18 41 32.4
18 41 10.7
18 40 41.7
18 40 5.3
18 39 21.6
18 38 30.6
18 37 32.3
18 36 26.8
18 35 14.1
18 33 54.2
18 32 27.2
18 30 53.1
18 29 11.9
18 27 23.6
18 25 28.3
18 23 26.0
18 21 16.8
18 19 0.7
18 16 37.7
18 14 7.9
18 11 31.3
IN.18 8 48.0
WEDNESDAY 2.
7 31
14.87
9.4958
40.31
9.4999
5.53
2.4185
30.53
9.4147
55.30
9.4109
19.84
9.4079
44.16
9.4033
8.24
94994
32.09
94955
55.70
9.3915
19.07
24875
42.20
9.3835
5.09
94794
27.73
9.3753
50.13
9.3719
12.28
94671
34.18
94630
55.84
9.3589
17.25
94547
38.40
94504
59.30
94469
19.95
94490
40.34
94377
0.47
94334
20.35
94999
N.18 5 57.9
18 3 1.2
17 59 57.9
17 56 48.0
17 53 31.6
17 50 8.7
17 46 39.3
17 43 3.6
17 39 21.5
17 35 33.1
17 31 38.5
17 27 37.7
17 23 30.7
17 19 17.6
17 14 58.5
17 10 33.4
17 6 2.3
17 1 25.3
16 56 42.4
16 51 53.7
16 46 59.3
16 41 59.2
16 36 53.5
16 31 42.1
N.16 26 25.2
-0.059
0.175
0.299
0.499
0445
0.667
0.789
0.911
1.039
1.159
1.979
1491
1409
1498
1.746
1463
1.980
9.096
9411
9496
9.440
9453
9.666
9.778
9490
3400
3.1 JO
3419
3.436
3449
3.648
3.754
3458
3.909
4465
4.167
4.968
4468
4.468
4467
4.666
4.763
4.850
4.954
5.048
5.142
5.236
5497 |
THUESDAY 3.
h m s
7 31 20.35
7 &3 39.97
7 35 59.33
7 38 18.43
40 37.28
42 55.86
45 14.18
47 32.24
49 50.04
52 7.58
54 24.86
56 41.88
58 58.64
1 15.14
3 31.38
5 47.35
8 3.06
8 10 18.51
8 12 33.71
8 14 48.65
8 17 3.32
8 19 17.74
8 21 31.90
8 23 45.81
9.3948
94905
94169
94H9
94075
94039
94988
9.9945
94909 «
94858
9.9815
94779
94798
9.9684
94640
94597
9.2554
94511
9.2467
9.9494
94389
9.9339
N.16 26 25.2
16 21 2.9
16 15 35.1
16 10 1.9
16 4 23.4
15 58 39.6
15 52 50.6
15 46 56.5
15 40 57.3
15 34 53.0
15 28 43.7
15 22 29.4
15 16 10.2
15 9 46.2
15 3 17.5
14 56 44.1
14 50 6.0
14 43 23.3
14 36 36.0
14 29 44.2
14 22 48.0
14 15 47.4
14 8 42.5
N.14 1 33.3
PEIDAY 4.
8 25 59.46
8 28 12.85
8 30 25.99
8 32 38.88
8 34 51.52
8 37 3.90
8 39 16.03
8 41 27.91
8 43 39.54
8 45 50.93
8 48 2.07
8 50 12.97
8 52 23.63
8 54 34.04
8 56 44.22
8 58 54.16
9
9
9
9
9
3.86
13.33
22.56
31.56
40.33
9 11 48.87
9 13 57.18
9 16 5.27
9 18 13.13
94953
94911
94160
9.9197
94065
9.9043
2.9001
9.1959
9.1918
9.1877
2.1837
9.1797
2.1756
2.1716
9.1677
9.1637
8.1597
9.1558
9.1519
9.1481
9.1449
9.1404
9.1367
9.1329
9.1992
N.13 54 19.9
13 47 2.3
13 39 40.6
13 32 14.9
13 24 45.2
13 17 11.6
13 9 34.1
13 1 52.8
12 54 7.7
12 46 18.9
12 38 26.4
12 30 30.3
12 22 30.7
12 14 27.6
12 6 21.0
58 11.1
49 57.9
41 41.4
33 21.6
24 58.7
16 32.7
8 3.6
10 59 31.5
10 50 56.4
N.10 42 18.5
11
11
11
11
11
11
11
5497
5.418
5408
5497
.5486
5.773
5459
5444
6429
6.113
6.197
6479
6460
6.439
6418
6496
6.673
6.750
6498
6400
6473
7.046
7.117
7.188
7458
7497
7495
7.469
7497
7499
7.657
7.790
7.789
7444
7405
7.964
8.093
8481
8.138
8.193
8447
8409
8456
8.408
8.458
8410
8460
8.608
8465
VI
APRIL, 1884.
61
GREENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hoar
Bight Ascension.
Dint tor
1 Minute.
Declination.
Diff.for
1 Minute.
Hour
Right Ascension.
BUT. for
1 Minute.
Declination.
DUE for
1 Minute.
SA
TUED.
AT 5.
MONDAY 7.
0
h m b
9 18 13.13
8
2.1099
N.10 42 18.5
8.655
0
h m a
10 56 48.81
s
1.9936
N. 3 8 4.3
9.956
1
9 20 20.77
8.1255
10 a3 37.8
8.708
1
10 58 48.37
1.9917
2 58 6.7
9.963
2
9 22 28.19
9.1819
10 24 54.2
8.749
2
11 0 47.82
1.9899
2 48 8.8
9.969
3
9 24 ,35.40
9.1183
10 16 7.9
8.794
3
11 2 47.16
1.9681
2 38 10.5
9.975
4
9 26 42.39
9.1147
10 7 18.9
&838
4
11 4 46.39
1.9663
2 28 11.8
9.981
5
9 28 49.17
9.1119
9 58 27.3
8.881
5
11 6 45.51
1.9845
2 18 12.8
9.985
6
9 30 55.73
2.1076
9 49 33.2
8.983
6
11 8 44.53
1.9639
2 8 13.6
9.989
7
9 33 2.08
9.1049
9 40 36.5
8.965
7
11 10 43.46
1.9613
1 58 14.1
9.999
8
9 35 8.23
9.1007
9 31 37.4
9.006
8
11 12 42.29
1.9797
1 48 14.5
9.994
9
9 37 14.17
9.0073
9 22 35J&
9.047
9
11 14 41.02
1.9781
1 38 14.8
9.996
10
9 39 19.91
9.0030
9 13 31.8
9.086
10
1 1 16 39.66
1.9766
1 28 15.0
9.997
11
9 41 25.44
9.0005
9 4 25.5
9.183
11
11 18 38.22
1.9759
1 18 15.2
9.997
12
9 43 30.77
9.0879
8 55 17.0
9.160
12
11 20 36.69
1.9738
1 8 15.4
9.997
13
9 45 35.91
9.0840
8 46 6.3
9.197
13
11 22 35.08
1.9794
0 58 15.6
9.998
14
9 47 40.85
9.0807
8 36 53.4
9.333
14
11 24 33.38
1.9710
0 48 15.9
9.993
15-
9 49 45.59
9.0774
8 27 38.3
9.368
15
11 26 31.60
1.9697
0 38 16.4
9.990
16
9 51 50.14
9.0743
8 18 21.2
9.301
16
11 28 29.74
1.9684
0 28 17.1
9.987
17
9 53 54.51
9.0719
8 9 2.2
9.334
17
11 30 27.81
1.9679
0 18 18.0
9.983
18
9 55 58.69
9.0688
7 59 41.2
9.366
18
11 32 25.81
1.9661
N. 0 8 19.2
9.977
19
9 58 2.69
2.0651
7 50 18.3
9.397
19
11 34 23.74
1.9849
S. 0 1 39.3
9.979
20
10 0 6.50
9.0690
7 40 53.5
9.498
20
11 36 21.60
1.9638
0 11 37.4
9.966
21
10 2 10.13
8.0591
7 31 26.9
9.45a
21
11 38 19.40
1.9687
0 21 35.2
9.959
22
10 4 13.59
9.0569
7 21 58.5
9.487
22
11 40 17.13
1.9616
0 31 32.5
9.951
23
10 6 16J87
SI
9.0533
UNDA"
N. 7 12 28.4
Y 6.
9.515
23
11 42 14.79
1.9605
JESDA
S. 0 41 29.3
18,
9.942
0
10 9 19.98
8.0504
N. 7 2 56.7
9.543
0
11 44 12.39
1.9596
S. 0 51 25.6
9.933
1
10 10 22.92
8.0476
6 53 23.4
9.568
1
11 46 9.94
1.9687
1 1 21.3
9.993
2
10 12 25.69
8.0447
6 43 48.5
9.594
2
11 48 7.44
1.9578
1 11 16.4
9.913
3
10 14 28.29
8.0419
6 34 12.1
9.619
3
11 50 4.88
1.9569
1 21 10.9
9.909
4
10 16 30.72
9.0399
6 24 34.2
9.643
4
11 52 2.27
1.9569
1 31 4.7
9.891
5
10 18 33.00
8.0366
6 14 55.0
9.665
5
11 53 59.62
1.9555
1 40 57.8
9.878
6
10 20 35.12
8.0340
6 5 14.4
9.688
6
11 55 56.93
1.9547
1 50 50.1
9.865
7
10 22 37.08
8.0314
5 55 32.4
9.710
7
11 57 54.19
1.9540
2 0 41.6
9.851
8
10 24 38.89
8.0989
5 45 49.2
9.730
8
11 59 51.41
1.9533
2 10 32.2
9.837
9
10 26 40.55
3.0964
5 36 4.8
9.750
9
12 1 48.59
1.9587
2 20 22.0
9.839
10
10 28 42.06
9.0939
5 26 19.2
9.769
10
12 3 45.73
1.9531
2 30 10.8
9.805
11
10 30 43.42
8.0914
5 16 32.5
9.787
11
12 5 42.84
1.9516
2 39 58.6
9.788
12'
10 32 44.63
3.0190
5 6 44.7
9.805
12
12 7 39.92
1.9511
2 49 45.4
9.771
13
10 34 45.70
8.0167
4 56 55.9
9.899
13
12 9 36.97
1.9506
2 59 31.2
9.754
14
10 36 46.63
8.0144
4 47 6.1
9.838
14
12 11 33.99
1.9501
3 9 15.9
9.735
15
10 38 -47.43
3.0189
4 37 15.4
9.853
15
12 13 30.98
1.9497
3 18 59.4
9.715
16
10 40 48.09
2.0099
4 27 23.8
9.868
16
12 15 27.95
1.9493
3 28 41.7
9.695
17
10 42 48.62
3.0077
4 17 31.3
9.883
17
12 17 24.90
1 9489
3 38 22.8
9.675
18
10 44 49.02
3.0056
4 7 38.0
9.894
18
12 19 21.82
1.9485
3 48 2.7
9.654
19
10 46 49.29
9.0035
3 57 44.0
9.906
19
12 21 18.72
1.9483
3 57 41.3
9.639
20
10 48 49.44
8.0014
3 47 49.3
9.917
20
12 23 15.61
1.9481
4 7 18.5
9.600
21
10 50 49.46
1.9993
3 37 53.9
9.998
21
12 25 12.49
1.9479
4 16 54.4
9.586
22
10 52 49.36
1.9973
3 27 57.9
9.938
22
12 27 9.36
1.9477
4 26 28.9
9.569
23
10 54 49.14
1.9954
3 18 1.4
9.947
23
12 29 6.22
1.9476
4 36 1.9
9.538
24
10 56 48.81
1.9936
N. 3 8 4.3
9.956
24
12 31 3.07
1.9474
S. 4 45 33.5
9.514
62
APRIL, 1884.
vn.
GBEENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hoar.
Eight Ascension.
Difffor
1 Minute.
Declination.
Din*, for
1 Minute.
Hour.
Bight Ascension.
DHL for
IMinate.
Declination.
DHL for
1 Minute.
WE]
DNESI
)AY9.
FEIDAT 11.
0
h m 8
12 31 3.07
B
1.9474
S. 4 45 33:5
9.514
0
h m s
14 4 56.25
s
14740
S.ll^l's&l
11
7496
1
12 32 59.91
1.9473
4 55 3.6
9.488
1
14 6 54.72
14750
11 49 10.4
7444
2
12 34 56.75
1.9473
5 4 32.1
9.461
2
14 8 53.25
1.9761
11 56 41.4
7.489
3
12 36 53.59
1.9479
5 13 58.9
9.434
3
14 10 51.85
14779
12 4 9.1
7.434
4
12 38 50.42
1.9479
5 23 24.1
9.406
4
14 12 50.51
1.9783
12 11 33.5
7479
5
12 40 47.26
J .9473
5 32 47.6
9.377
5
14 14 49.24
1.9794
12 18 54.6
7494
6
12 42 44.10
1.9474
5 42 9.4
9.348
6
14 16 48.04
1.9806
12 26 12.4
7468
7
12 44 40.95
1.9475
5 51 29.4
9.318
7
14 18 46.91
14817
12 33 26.8
7411
8
12 46 37.80
1.9476
6 0 47.6
9.988
8
14 20 45.85
14899
12 40 37.7
7.154
9
12 48 34.66
1.9478
6 10 4.0
9.968
9
14 22 44.86
14841
12 47 45.2
7498
10
12 50 31.53
1.9400
6 19 18.6
9.997
10
14 24 43.94
14853
12 54 49.2
7.037
11
12 52 28.42
1.9489
6 28 31.3
9.196
11
14 26 43.09
14865
13 I 49.7
6478
12
12 54 25.32
1.9485
6 37 42.1
9.163
12
14 28 42.32
1.9877
13 8 46.6
6 919
13
12 56 22.24
1.9487
6 46 50.9
9.199
13
14 30 41.62
1.9869
13 15 40.0
6460
14
12 58 19.17
1.9490
6 55 57.6
9.095
14
14 32 40.99
14909
13 22 29.8
6.799
15
13 0 16.12
1.9493
7 5 2.3
9.061
15
14 34 40.44
14914
13 29 15.9
6.738
16
13 2 13.09
J .9497
7 14 4.9
9.098
16
14 36 39.96
1.9997
13 85 58.4
6477
17
13 4 10.09
1.9509
7 23 5.4
8.990
17
14 38 39,56
1.9939
13 42 37.2
6416
18
13 6 7.11
1.9506
7 32 3.7
8453
18
14 40 39.23
14969
13 49 12.3
6454
19
13 8 4.16
1.9510
7 40 59.8
8.917
19
14 42 38.98
1.9965
13 55 43.6
6.491
20
13 10 1.23
1.9514
7 49 53.7
8.880
20
14 44 38.81
14977
14 2 11.2
6.498
21
13 11 58.33
1.9519
7 58 45.4
8449
21
14 46 38.71
1.9990
14 8 35.0
6464
22
13 13 55.46
1.9595
8 7 34.7
8.803
22
14 48 38.69
9.0003
14 14 54.9
6400
23
13 15 52.63
TH1
1.9531
JESDi
S. 8 16 21.7
LT 10.
8.763
23
14 50 38.75
SA1
94017
S.14 21 11.0
LT 12.
6498
0
13 17 49.83
1.9536
s. 8 25 as
8.793
0
14 52 38.89
940J0
S.14 27 23.2
6.171
1
13 19 47.06
1.9549
8 33 48.5
8483
1
14 54 39.11
9.0043
14 33 31.5
6.106
2
13 21 44.33
1.9548
8 42 28.3
8.649
2
14 56 39.41
9.0056
14 39 35.9
6.040
3
13 23 41.64
1.9555
8 51 5.6
8.601
3
14 58 39.78
9.0069
14 45 36.3
5473
4
13 25 38.99
1.9569
8 59 40.4
8458
4
15 0 40.23
9.0083
14 51 32.7
5407
5
13 27 36.38
1.9568
9 8 12.6
8415
5
15 2 40.77
9.0097
14 57 25.1
5440
0
13 29 33.81
1.9575
9 16 42.2
8.479
6
15 4 41.39
9.0110
15 3 13.5
5.779
7
13 31 31.28
1.9583
9 25 9.2
8.498
7
15 6 42.09
9.0193
15 8 57.8
5.704
8
13 33 28.80
1.9591
9 33 33.6
8484
8
15 8 42.87
9.0137
15 14 38.0
5436
9
13 35 26.37
1.9599
9 41 55.3
8439
9
15 10 43.73
9.0150
15 20 14.1
5467
10
13 37 23.99
1.9607
9 50 14.3
8.993
10
15 12 44.67
9.0163
15 25 46.0
5.497
11
13 39 21.65
1.9614
9 58 30.5
8.947
11
15 14 45.69
9.0177
15 31 13.8
5,498
12
13 41 19.36
1.9893
10 6 44.0
8.901
12
15 16 46.79
9.0190
15 36 37.4
5458
13
13 43 17.12
1.9639
10 14 54.6
8.154
13
15 18 47.97
94903
15 41 56.8
5,987
14
13 45 14.94
1.9641
10 23 2.4
8.106
14
15 20 49.23
94917
15 47 11.9
5417
15
13 47 12.81
1.9650
10 31 7.3
8.057
15
15 22 50.58
94931
15 52 22.8
5.146
16
13 49 10.74
1.9659
10 39 9.3
8.008
16
15 24 52.01
9.0945
15 57 29.4
5.074
17
13 51 8.72
1.9668
10 47 8.3
7.958
17
15 26 53.52
9.0958
16 2 31.7
5.009
18
13 53 6.76
1.9678
10 55 4.3
7.908
18
15 28 55.10
9.0970
16 7 29.6
4499
19
13 55 4.86
1.9686
11 2 57.3
7.858
19
15 30 56.76
94984
16 12 23.2
4.857
20
13 57 &02
1.9697
11 10 47.3
7406
20
15 32 58.51
94998
16 17 12.4
4.783
21
13 59 1.23
1.9707
11 18 34.2
7.756
21
15 35 0.34
94319
16 21 57.2
4.710
22
14 0 59.50
1.9718
11 16 18.0
7.703
22
15 37 2.25
94395
16 26 37.6
4437
23
14 2 57.84
1.9799
11 33 58.6
7451
23
15 39 4.24
9.0338
16 31 13.6
4463
24
14 4 56.25
1.9740
S.ll 41 36.1
7.598
24
15 41 6.30
9.0351
S.16 35 45.1
4.488
VHL
APRIL, 1884.
63
GEEENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Boot.
Right Ascension.
DM! for
1 Minute.
Declination.
Diff. for
1 Minute.
Hour.
Right Ascension.
Diff. for
1 Minute,
Declination.
DUE for
1 Minute.
sr
JKDA1
r is.
TUESDAY 15.
h m s
8
O 1 II
a
h m s
s
O 1 tl
#/
0
15 41 &30
9.0951
S.16 35 45.1
4.488
0
17 20 9.72
90)879
S.18 39 31.6
0.577
I
15 43 8.45
2.0965
16 40 12.1
4.413
1
17 22 15.02
90)687
18 40 3.6
0.490
2
15 45 10.68
9.0378
16 44 34.6
40)38
2
17 24 20.37
9.0896
18 40 30.4
0.404
3
15 47 1&98
8.0390
16 48 52.6
40169
3
17 26 25.77
903903
18 40 52.1
00316
4
15 49 15.36
9.0403
16 53 6.0
4.185
4
17 28 31.21
9.0910
18 41 8.6
0.931
5
15 51 17.82
9.0417
16 57 14.8
4.109
5
17 30 36.69
90)917
18 41 19.8
0.143
6
15 53 20.36
9.0430
17 1 19.1
4.033
6
17 32 42.22
90)995
18 41 25.8
-00)57
7
15 55 22.98
9.0449
17 5 18.8
30)56
7
17 34 47.79
9.0939
18 41 26.6
4-00)30
8
15 57 25.67
9.0455
17 9 13.8
3.878
8
17 36 53.40
90)939
18 41 22.2
0.117
9
15 59 28.44
9.0467
17 13 4.2
3.801
9
17 38 59.05
90)946
18 41 12.5
0.906
10
16 1 31.28
9.0480
17 16 49.9
3.793
10
17 41 4.75
90)969
18 40 57.6
00)99
11
16 3 34.20
9.0493
17 20 30.9
30345
11
17 43 10.48
903956
18 40 37.5
00378
12
16 5 37.20
9.0506
17 24 7.3
3.567
12
17 45 16.25
9.0965
18 40 12.2
0.466
13
16 7 40.27
9.0518
17 27 39.0
3.488
13
17 47 22.06
9.0971
18 39 41.6
0.553
14
16 9 43.42
9.0531
17 31 5.9
3.408
14
17 49 27.90
90)977
18 39 5.8
0.641
15
16 11 46.64
9.0543
17 34 28.0
30)98
15
17 51 33.78
90)983
18 38 24.7
0.798
16
16 13 49.93
9.0554
17 37 45.3
3.949
16
17 53 39.70
9.0989
18 37 38.4
00316
17
16 15 53.29
9.0567
17 40 57.9
3.170
17
17 55 45.65
90)994
18 36 46.8
0.904
18
16 17 56.73
9.0579
17 44 5.7
3.089
18
17 57 51.63
9.0999
18 35 49.9
00*8
19
16 20 0.24
90)591
17 47 8.6
3.008
19
17 59 57.64
9.1005
18 34 47.8
1.079
20
16 22 3.82
90)609
17 50 6.7
90)98
20
18 2 3.69
9.1011
18 33 40.4
1.167
21
16 24 7.47
9.0613
17 53 0.0
90*47
21
18 4 9.77
9.1016
18 32 27.7
1.955
22
16 26 11.18
90)694
17 55 48.4
9.766
22
18 6 15.88
9.1090
18 31 9.8
10349
23
16 28 14.96
9.0636
3NDA!
S.17 58 3L9
r 14.
90383
23
18 8 22.01
WEI
9.1094
)NESD
S.18 29 46.6
AY 16.
1.430
0
16 30 18.81
9.0647
S.18 1 10.4
9.601
0
18 10 28.17
9.1099
S.18 28 18.2
10318
1
16 32 22.73
9.0659
18 3 44.0
90*19
1
18 12 34.36
9.1034
18 26 44.5
10306
2
16 34 26.72
9.0670
18 6 12.7
9.437
2
18 14 40058
9.1038
18 25 5.5
10393
3
16 36 30.77
9.0681
18 8 36.5
90355
3
18 16 46.82
9.1043
18 23 21.3
1.781
4
16 38 34.89
9.0609
18 10 55.3
9.979
4
18 18 53.09
9.1048
18 21 31.8
1.866
5
16 40 39.07
90)709
18 13 91
9.189
5
18 20 59.39
9.1059
18 19 37.1
10)66
6
16 42 43.31
9.0719
18 15 18.0
9.106
6
18 23 5.71
9.1055
18 17 37.1
9.044
7
16 44 47.62
9.0793
18 17 21.9
9.099
7
18 25 12.05
9.1059
18 15 31.8
9.139
8
16 46 51.99
90)733
18 19 20.7
10)33
8
18 27 18.42
9.1063
18 13 21.3
9.919
9
16 48 56.42
9.0743
18 21 14.5
10355
9
18 29 24.81
9.1067
18 11 5.5
90307
10
16 51 0.91
9.0753
18 23 3.3
1.771
10
18 31 31.22
9.1070
18 8 44.5
90394
11
16 53 5.46
9.0764
18 24 47.0
1.687
11
18 33 37.65
9.1073
18 6 18.2
9.489
12
16 55 10.08
9.0774
18 26 25.7
10309
12
18 35 44.10
8.1077
18 3 46.7
90369
13
16 57 14.75
9.0783
18 27 59.3
10>17
13
18 37 50.57
9.1080
18 1 9.9
9.657
14
16 59 19.48
9.0799
18 29 27.8
1.433
14
18 39 57.06
9.1083
17 58 27.9
9.743
15
17 1 24.26
9.0809
18 30 51.3
10349
15
18 42 3.57
9.1086
17 55 40.7
80*30
16
17 3 29.10
90)811
18 32 9.7
1.964
16
18 44 10.10
9.1089
17 52 48.3
90)17
17
17 5 33.99
9.0890
18 33 22.9
1.178
17
18 46 16.64
9.1009
17 49 50.6
3.005
18
17 7 38.94
9.0899
18 34 31.0
1.093
18
18 48 23.20
9.1095
17 46 47.7
3.099
19
17 9 43.94
9.0838
18 35 34.0
1.007
19
18 50 29.78
9.1097
17 43 39.6
3.178
20
17 11 48.99
90)847
18 36 31.8
00)91
20
18 52 36.37
9.1100
17 40 26.3
30W6
21
17 13 54.10
9.0856
18 37 24.5
0.835
21
18 54 42.98
9.1109
17 37 7.8
30359
22
17 15 59.26
90)864
18 38 12.0
0.749
22
18 56 49.60
9.1105
17 33 44.1
3.438
23
17 18 4.47
9.0879
18 38 54.4
0.663
23
18 58 56.24
9.1106
17 30 15.2
SOW
24
17 20 9.72
9.0879
S. 18 39 31.6
0.577
24
19 I 2.90
9.1111
S.17 26 41.1
3.611
64
APRIL, 1884.
IX.
GREENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hoar.
Bight Ascension.
Biff, for
1 Minute.
Declination.
Diff.for
IMinnte.
Soar.
Bight Ascension.
DiUl far
1 Minute.
Declination.
DMtfor
IMinnte.
TH1
JESD^
LY 17.
SATURDAY 19.
h m s
s
S.17 26 41.1
a
h m a
s
o / //
n
0
19 1 2.90
2.1111
3.611
0
20 42 39.10
9.1944
S.12 57 32.5
7.505
1
19 3 9.57
9.1113
17 23 1.9
3.697
1
20 44 46.58
9.1950
12 50 0.0
7.578
2
19 5 )6.25
9.1115
17 19 17.5
3.783
2
20 46 54.10
9.1956
12 42 23.1
7.659
3
19 7 22.95
9.1117
17 15 27.9
3.869
3
20 49 1.65
9.1969
12 34 41.8
7.795
4
19 9 29.66
8.1119
17 11 33.2
3.955
4
20 51 9.24
9.1967
12 26 56.1
7.797
5
19 11 36.38
9.1199
17 7 33.3
4.041
5
20 53 16.86
9.1979
12 19 6.1
7.869
6
19 13 43.12
9.1194
17 3 28.3
4.196
6
20 55 24.51
9.1978
12 11 11.8
7.941
7
19 15 49.87
9.1196
16 59 18.2
4.911
7
20 57 32.20
9.1985
12 3 13.2
8419
8
19 17 56.63
9.1198
16 55 3.0
4.997
8
20 59 39.93
9.1991
11 55 10.4
6.083
9
19 20 3.41
9.1131
16 50 42.6
4.389
9
21 1 47.69
9.1998
11 47 3.3
8.153
10
19 22 10.20
9.1133
16 46 17.1
4.466
10
21 3 55.50
9.1305
11 38 52.0
8.999
]]
19 24 17.00
9.1134
16 41 46.6
4.550
11
21 6 3.35
9.1319
11 30 36.6
8.999
12
19 26 23.81
9.1136
16 37 11.1
4.634
12
21 8 11.24
9.1319
11 22 17.0
8461
13
19 28 30.63
9.1138
16 32 30.5
4.719
13
21 10 19.18
9.1397
11 13 53.3
8.499
14
19 30 37.47
9.1141
16 27 44.8
4.804
14
21 12 27.16
9.1334
11 5 25.5
8.497
15
19 32 44.32
9.1143
16 22 54.0
4.888
15
21 14 35.19
9.1349
10 56 53.6
8465
16
19 34 51.18
9.1144
16 17 58.2
4.971
16
21 16 43.27
9.1351
10 48 17.7
8431
17
19 36 58.05
9.1147
16 12 57.5
5.053
17
21 18 51.40
9.1359
10 39 37.8
8.697
18
19 39 4.94
9.1149
16 7 51.8
5.137
18
21 20 59.58
9.1368
10 30 54.0
8.763
19
19 41 11.84
9.1151
16 2 41.1
5.990
19
21 23 7.81
9.1377
10 22 6.2
8.899
20
19 43 18.75
9.1153
15 57 25.4
5.303
20
21 25 16.10
9.1386
10 13 14.5
8.893
21
19 45 25.68
9.1156
15 52 4.7
5.386
21
21 27 24.44
9.1395
10 4 19.0
8457
22
19 47 32.62
9.1158
15 46 39.1
5.468
22
21 29 32.84
9.1405
9 55 19.6
9.091
23
19 49 39.57
9.1160
S.15 41 8.6
5450
23
21 31 41.30
9.1416
S. 9 46 16.4
9.084
P]
RIDA1
r 18.
St
JNDA7
r 20.
•
0
19 51 46.54
9.1109
S.15 35 33.1
5.639
0
21 33 49.83
9.1497
S. 9 37 9.5
9.147
1
19 53 53.52
9.1165
15 29 52.7
5.713
1
21 35 58.42
9.1487
9 27 58.8
9.909
2
19 56 0.52
9.1167
15 24 7.5
5.794
2
21 38 7.07
9.1447
9 18 44.4
9.970
3
19 58 7.53
9.1169
15 18 17.4
5.875
3
21 40 15.78
9.1456
9 9 26.4
9.331
4
20 0 14.55
9.1179
15 12 22.5
5.956
4
21 42 24.56
9.1469
9 0 4.7
9.399
5
20 2 21.59
9.J175
15 6 22.7
6.037
5
21 44 33.41
9.1489
8 50 39.4
9.451
6
20 4 28.65
9.1177
15 0 18.1
6.117
6
21 46 42.34
9.1494
8 41 10.6
9.509
7
20 6 35.72
9 J 180
14 54 8.7
6.197
7
21 48 51.34
9.1506
8 31 38.3
9.568
8
20 8 42.81
9.1183
14 47 54.5
6.977
8
21 51 0.41
9.1519
8 22 2.5
9.696
9
20 10 49.92
9.1187
14 41 35.5
6.356
9
21 53 9.56
9.1539
8 12 23.2
9483
10
20 12 57.05
9.1189
14 35 11.8
6.434
10
21 55 16.79
9.1545
8 2 40.5
9.739
11
20 15 4.19
9.1199
14 28 43.4
6.519
11
21 57 28.10
9.1559
7 52 54.5
9.794
12
20 17 11.35
9.1195
14 22 10.3
6.591
12
21 59 37.50
9.1573
7 43 5.2
9449
13
20 19 18.53
9.1198
14 15 32.5
6.689
13
22 1 46.98
9.1587
7 33 12.6
9.904
14
20 21 25.73
9.1909
14 8 50.0
6.747
14
22 3 56.55
9.1609
7 23 16.7
9458
15
20 23 32.96
9.1906
14 2 2.8
6.895
15
22 6 6.20
9.1616
7 13 17.6
10.011
16
20 25 40.21
9.1910
13 55 11.0
6.909
16
22 8 15.94
9.1639
7 3 15.4
10463
17
20 27 47.48
9.1914
13 48 14.6
6.978
17
22 10 25.78
9.1647
6 53 10.1
10.114
18
20 29 54.78
9.1918
13 41 13.6
7.055
18
22 12 35.71
9.1663
6 43 1.7
10.166
19
20 32 2.10
9.1999
13 34 8.0
7.131
19
22 14 45.74
9.1680
6 32 50.3
10415
20
20 34 9.45
9.1997
13 26 57.9
7.906
20
22 16 55.87
9.1696
6 22 35.9
10464
21
20 36 16.82
9.1931
13 19 43.3
7.981
21
22 19 6.09
9.1713
6 12 18.6
10419
22
20 38 24.22
9.1936
13 12 24.2
7.356
22
22 21 16.42
9.1731
6 1 58.4
10460
23
20 40 31.65
9.1940
13 5 0.6
7.43}
23
22 23 26.86
9.1748
5 51 35.4
10.407
24
20 42 39.10
9.1944
S.12 57 32.5
7.505
24
22 25 37.40
9.1766
S. 5 41 9.6
10.453
APRIL, 1884.
65
GBEEKWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Boar.
Sight Ascension.
Biff, for
1 Minute.
Declination.
Biff, for
1 Minute.
Sour.
Bight Ascension.
Biff, for
1 Minute.
Declination.
Biff, for
1 Minute.
M(
>NDA1
T 21.
WEDNESDAY 23.
h m s
s
O 1 II
a
h m s
8
o t n
a
0
22 25 37.40
9.1706
S. 5 41 9.6
10.453
0
0 12 52.66
94064
N. 3 15 47.5
11409
1
22 27 48.05
8.1784
5 30 41.1
10.498
1
0 15 11.15
94100
3 27 17.4
11.495
2
22 29 58.81
9.1803
5 20 9.8
10.543
2
0 17 29.86
94136
3 38 46.9
11.487
3
22 32 9.69
9.1889
5 9 35.9
10.587
3
0. 19 48.78
94179
3 50 15.9
11.478
4
22 34 20.68
9.1849
4 58 59.4
10499
4
0 22 7.92
94908
4 1 44.3
11.467
5
22 36 31.79
9.1868
4 48 20i4
10.671
5
0 24 27.28
94944
4 13 1L9
11.453
6
22 38 43.02
9.1889
4 37 38.9
10.719
6
0 26 46.85
94981
4 24 38.7
11.439
7
22 40 54.37
9.1908
4 26 55.0
10.758
7
0 29 6.65
94319
4 36 4.6
11.494
8
22 43 5.85
9.1993
4 16 8.7
10.799
8
0 31 26.68
94357
4 47 29.6
11.407
9
22 45 17.45
9.1944
4 5 20.0
10.631
9
0 33 46.93
94394
4 58 53.5
11489
10
22. 47 29.18
9.1986
3 54 29.0
10466
10
0 36 7.41
94438
5 10 16.3
11469
11
22 49 41.04
9.1968
3 43 35.8
10.904
11
0 38 28.12
94471
5 21 37.8
11447
12
22 51 53.04
9.9011
3 32 40.5
10439
12
0 40 49.06
84509
5 32 58.0
11485
13
22 54 5.17
9.9033
3 21 43.1
10.974
13
0 43 10.23
84548
5 44 16.8
11401
14
. 22 56 17.44
9.9057
3 10 43.6
11.008
14
0 45 31.64
94587
5 55 34.1
11.976
15
22 58 29.85
9.9080
2 59 42.1
11.041
15
0 47 53.28
84697
6 6 49.9
11449
16
23 0 42.40
9.9104
2 48 38.7
11.073
16
0 50 15.16
84666
6 18 4.0
11490
17
23 2 55.10
9.9198
2 37 33.4
11.104
17
0 52 37.27
84705
6 29 16.3
11.190
18
23 5 7.94
94158
2 26 26.2
11.134
18
0 54 59.62
8^745
6 40 26.8
11.159
19
23 7 20.93
94177
2 15 17.3
11.169
19
0 57 22.21
94785
6 51 35.4
11.196
20
23 9 34.07
• 94903
2 4 &7
11.190
20
0 59 45.04
84884
7 2 41.9
11490
21
23 11 47.37
94989
1 52 54.5
11417
21
1 2 8.10
84863
7 13 46.2
11.053
22
23 14 0.82
94955
1 41 40.7
11.949
22
1 4 31.40
84904
7 24 48.3
11.016
23
23 16 14.43
TH
94989
ESDA1
S. 1 30 25.4
ST 22.
11467
23
1 6 54.95
TH1
94945
JESDJ
N. 7 35 48.2
LY 24.
10.978
0
23 18 28.21
94310
S. 1 19 8.7
11490
0
1 9 18.74
94965
N. 7 46 45.7
10437
1
23 20 42.15
94337
1 7 50.6
11419
1
1 11 42.77
9.4095
7 57 40.7
10495
2
23 22 56.25
9.9364
0 56 31.2
11434
2
1 14 7.04
9.4066
8 8 33.1
10.851
3
23 25 10.52
94399
0 45 10.5
11455
3
1 16 31.56
9.4107
8 19 22.8
10406
4
23 27 24.96
94491
0 33 48.6
11474
4
1 18 56.32
9.4147
8 30 9.8
10.759
5
23 29 39.57
9.9449
0 22 25.6
11499
5
1 21 21.32
9.4187
8 40 53.9
10.710
6
23 31 54.35
9.9478
9. 0 11 1.6
11.408
6
1 23 46.57
9.4998
8 51 35.0
10.660
7
23 34 9.31
94508
N. 0 0 23.4
11.494
7
1 26 12.06
9.4969
9 2 13.1
10.609
8
23 36 24.45
94538
0 11 49.3
11.439
8
1 28 37.80
9.4310
9 12 48.1
10456
9
23 38 39.77
94568
0 23 16.1
11.459
9
1 31 3.78
9.4350
9 23 19.8
10401
10
23 40 55.27
94590
0 34 43.6
11.464
10
1 33 30.00
9.4391
9 33 48.2
10.445
11
23 43 10.96
94630
0 46 11.8
11.475
11
1 35 56.47
9.4439
9 44 13.2
10487
12
23 45 26.83
94661
0 57 40.6
11.485
12
1 38 23.18
8.4479
9 54 34.6
10497
13
23 47 42.89
94693
1 9 10.0
11.493
13
1 40 50.14
8.4513
10 4 52.4
10467
14
23 49 59.15
9.9796
1 20 39.8
11400
14
1 43 17.34
8.4553
10 15 6,6
10.905
15
23 52 15.60
94758
1 32 10.0
11407
15
1 45 44.78
8.4593
10 25 17.0
10.141
16
23 54 32.24
9.9790
1 43 40.6
11419
16
1 48 12.46
9.4633
10 35 23.5
10.075
17
23 56 49.08
94893
1 55 11.4
11415
17
1 50 40.38
9.4674
10 45 26.0
10.007
18
23 59 6.12
94857
2 6 42.4
11417
18
1 53 8.55
9.4715
10 55 24.4
9.939
19
0 1 23.36
94801
2 18 13.5
11418
19
1 55 36.96
2.4754
11 5 18.7
9.869
20
0 3 40.81
9.9995
2 29 44.6
11417
20
1 58 5.60
9.4793
11 15 8.7
9.798
21
0 5 58.46
94959
2 41 15.6
11416
21
2 0 34.48
8.4839
11 24 54.4
9.795
22
0 8 16.32
94994
2 52 46.5
11413
22
2 3 3.59
8.4878
11 34 35.7
9.650
23
0 10 34.39
94099
3 4 17,2
11408
23
2 5 32.94
9.4919
11 44 12.4
9.573
.-*-
0 12 52.66
94064
N. 3 15 47.5
11409
24
2 8 2.53
9.4951
N.U 53 44.5
9.496
66
APRIL, 1884.
XL
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Diftfor
1 Minute.
Declination.
Biff, for
I Minute.
Hour.
Bight Aaoenakm.
Diftfor
1 Minute.
Declination.
DUC for
IMinnte.
Fl
BIDA1
r 25.
SUNDAY 27.
h m a
B
O $ u
a
h m s
B
Oil/
tf
0
2 8 2.53
2.4951
N.11 53 44.5
9.496
0
4 11 22.58
94183
N.17 34 31.3
4.973
1
2 10 32.35
3.4969
12 3 11.9
9.417
1
4 13 59.69
2.6188
17 38 43.8
4.143
2
2 13 2.39
2.5096
12 12 34-5
9437
2
4 16 36.83
24193
17 42 48.3
4.009
3
2 15 32.66
34064
12 21 52.3
9.255
3
4 19 14.00
24198
17 46 44.9
3.876
4
2 18 3.16
2.5109
12 31 5.1
9.171
4
4 21 51.20
2.6301
17 50 33.5
3.743
5
2 20 33.88
2.5139
12 40 12.8
9.065
5
4 24 28.41
24303
17 54 14.1
3.610
6
2 23 4^3
24177
12 49 15.3
8.998
6
4 27 5.62
3.6303
17 57 46.7
3.477
7
2 25 36.00
24213
12 58 12.6
8.911
7
4 29 42.84
3.6303
18 1 11.3
3443
8
2 28 7.39
24249
13 7 4.6
8.833
8
4 32 20.06
34303
18 4 27.8
3408
9
2 30 38.99
24284
13 15 51.2
8.731
9
4 34 57.27
2.6300
18 7 36.2
3.073
10
2 33 10.80
24319
13 24 323
8.638
10
4 37 34.46
2.6198
18 10 36.5
3438
11
2 35 42.82
24354
13 33 7.8
8444
11
4 40 11.64
2.6194
18 13 28.7
2403
12
2 38 15.05
24389
13 41 37.6
8.449
12
4 42 48.79
2.6188
18 16 12.9
2.668
13
2 40 47.49
24423
13 50 1.7
8453
13
4 45 25.90
2.6183
18 18 48.9
2.533 1
14
2 43 20.13
24457
13 58 20.0
8.356
14
4 48 2.97
3.6175
18 21 16.8
9497 !
15
2 45 52.97
24489
14 6 32.4
6.157
15
4 50 40.00
24167
18 23 36.5
2.960 |
16
2 48 26.00
24521
14 14 38.8
8457
16
4 53 16.98
2.6158
18 25 48.0
2.124
17
2 50 59.22
24552
14 22 39.2
7.955
17
4 55 53.90
2.6148
18 27 51.4
1489
18
2 53 32.63
24584
9 14 30 33.4
7.852
18
4 58 30.76
2.6137
18 29 46.7
1453
19
2 56 6.23
24615
14 38 21.4
7.747
19
5 1 7.55
24135
18 31 33.8
1.717
20
2 58 40.01
24645
14 46 3.1
7.642
20
5 3 44.26
3.6111
18 33 12.8
1489
21
3 1 13.517
24675
14 53 38.5
7436
21
5 6 20.88
3.6096
18 34 43.6
1.446
22
3 3 48.11
24704
15 1 7.4
7.428
22
5 8 57.41
2.6081
18 36 6.3
1410
23
3 6 22.42
SA1
24733
N.15 8 29.8
LY 26.
7418
23
5 11 33.85
24065
N.18 37 20.8
ST 28.
1.174
0
3 8 56.90
24760
N.15 15 45.6
7.208
0
5 14 10.19
34047
N.18 38 27.2
1439
1
3 11 31.54
24787
15 22 54.7
7.097
I
5 16 46.42
3.6039
18 39 25.5
0.904
2
3 14 6.34
24819
15 29 57.2
6.985
2
5 19 22.54
34009
18 40 15.7
0.768
3
3 16 41.29
24837
15 36 52.9
6.871
3
5 21 58.53
3.5986
18 40 57.7
0433
4
3 19 16.39
24862
15 43 41.7
6.756
4
5 24 34.40
24967
18 41 31.7
0.499
5
3 21 51.64
24887
15 50 23.6
6.611
5
5 27 10.14
24946
18 41 57.6
0465
6
3 24 27.03
24910
15 56 58.6
6.524
6
5 29 45.75
24923
18 42 15.5
0.331
7
3 27 2^6
24932
16 3 26.5
6.406
7
5 32 21.21
94698
18 42 25.3
+ 0.098
8
3 29 38.22
2.5953
16 9 47.3
6.287
8
5 34 56.52
2.5673
18 42 27.2
-0.035
9
3 32 14.00
S4974
16 16 0.9
6.167
9
5 37 31.68
2.5847
18 42 21.1
0.167
10
3 34 49.91
24995
16 22 7.3
6.047
10
5 40 6.68
24820
18 42 7.1
0400
11
3 37 25.94
2.6014
16 28 6.5
5.935
11
5 42 41.52
24792
18 41 45.1
0.439
12
3 40 2.08
2.6033
16 33 58.3
5.809
12
5 45 16.18
24763
18 41 15.2
0464
13
3 42 38.32
2.6049
16 39 42.7
5.678
13
5 47 50.67
24733
18 40 37.4
0.695
14
3 45 14.67
2.6066
16 45 19.7
5454
14
5 50 24.98
24709
18 39 51.8
0.835
15
3 47 51.12
2.6083
16 50 49.2
5.428
15
5 52 59.10
24671
18 38 58.4
0.955
16
3 50 27.66
2.6097
16 56 11.2
5403
16
5 55 33.03
24638
18 37 57.2
1.084
17
3 53 4.28
2.6110
17 1 25.6
5.178
17
5 58 6.76
24605
18 36 48.3
1.913
18
3 55 40.98
2.6123
17 6 32.5
5451
18
6 0 40.29
2.5571
18 35 31.7
1.341
19
3 58 17.76
24136
17 11 31.7
4.933
19
6 3 13.61
24536
18 34 7.4
1.469
20
4 0 54.61
24147
17 16 23.2
4.793
20
6 5 46.72
2.5501
18 32 35.4
1497
21
4 3 31.52
2.6157
17 21 6.9
4.663
21
6 8 19.62
24465
18 30 55.8
1.733
22
4 6 8.49
24166
17 25 42.9
4434
22
6 10 52.30
24437
18 29 8.7
1448
23
4 8 45.51
2.6174
17 30 11.0
4.403
23
6 13 24.75
343$
18 27 14.1
1.972
24
4 11 22.58
3.6182
N.17 34 31.3
4.273
24
6 15 5(5.97
24350
N.18 25 12.1
3.0P5
—
■ ~~
_ — _..._.
_ __ —
_ —
XII.
APRIL, 1884.
67
GEEENWICH MEAN MME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
Hour.
Right Ascension.
Diff.for
1 Minute.
Declination.
Difllfor
1 Minute.
Hoar.
Bight Ascension.
Diff.for
1 Minute.
Declination.
DifT. for
1 Minute.
TUESDAY 29.
THURSDAY, MAY 1.
0
1
2
h m •
6 15 56.97
6 18 28.95
6 21 0.70
0
9.5350
N.18 25 12.1
18 23 2.7
18 20 45.9
\ 9495
0 1 8 12 13*01 1 urn |n.14° 38 52!b 1 £m
9.53] I
9.5972
9.918
9441
3
6 23 32.21
94931
18 18 21.7
9.463
4
6 26 3.47
9.5189
18 15 50.3
9484
5
6 28 34.48
•9.5147
18 13 11.6
9.705
6
6 31 5.24
9.5105
18 10 25.7
8.894
7
6 33 35.74
9.5063
18 7 32.7
9449
8
6 36 5.98
9.5017
18 4 32.6
3.060
9
6 38 a5.95
9.4979
18 1 25.5
3.176
10
6 41 5.65
9.4997
17 58 11.5
3499
11
6 43 35.08
9.4889
17 54 50.5
3.408
12
6 46 4.24
9.4837
17 51 22.6
3499
13
6 48 33.12
9.4790
17 47 47.9
3.634
14
6 51 1.72
9.4743
17 44 a5
3.746
15
6 53 30.03
9.4695
17 40 18.4
3.857
16
6 55 58.06
9.4047
17 36 23.6
3.967
17
6 58 25.80
9.4598
17 32 22.3
4.076
PHASES OF THE MOON.
18
7 0 53.24
9.4549
17 28 14.5
4.184
19
7 3 20.39
9.4500
17 24 0.2
4499
20
7 5 47.24
9.4451
17 19 39.4
4499
d h m
21
22
7 8 13.80
7 10 40.06
9.4409
9.4351
17 15 12.3
17 10 38.9
4404
4.608
J> First Quarter ...29 16.9
23
7 13 6.01
9.4300
N.17 5 59.3
4.711
O Full Moon .... 9 23 44.1
<C Last Quarter. ... 18 3 54.7
WEI
)NESDAT 30.
• New Moon .... 25 2 57.6
0
1
7 15 31.66
7 17 57.00
9.4949
9.4198
N.17 1 13.6
16 56 21.8
4.813
4.914
2
7 20 22.04
9.4147
16 51 23.9
5.015
d h
3
7 22 46.77
9.4096
16 46 20.0
5.114
<C Apogee .13 &6
4
7 25 11.19
9.4043
16 41 10.2
5.919
C Perigee 25 20.8
5
7 27 a5.29
9.3991
16 35 54.6
5408
6
7
7 29 59.08
7 32 22.55
94938
94888
16 30 33.2
16 25 6.1
5.404
5.499
8
7 34 45.71
9.3834
16 19 33.3
5494
9
7 37 8.56
94789
16 13 54.9
5*686
10
7 39 31.09
94799
16 8 11.0
5.777
11
7 41 53.30
94676
16 2 21.6
5.868
12
7 44 15.20
94693
15 56 26.8
5.957
13
7 46 36.78
94570
15 50 26.7
6.046
14
7 48 58.04
94516
15 44 21.3
6.133
15
7 51 18.97
94469
15 38 10.7
6419
16
7 53 39.58
94409
15 31 55.0
6.304
17
7 55 59.88
94357
15 25 34.2
6488
18
7 58 19.86
94303
15 19 8.4
6.471
19
8 0 39.51
94949
15 12 37.7
6453
20
8 2 58.85
94196
15 6 2.1
6.634
21
8 5 17.87
94143
14 59 21.6
6.714
22
8 7 36.57
94090
14 52 36.4
6.799
23
8 9 54.95
94037
14 45 46.5
6470
24
8 12 13.01
94983
N.14 38 52.0
6.946
68
APRIL, 1884.
XIII.
GREENWICH MEAN TIME.
LUNAR DISTANCES.
u
1*
P.L.
P.L.
P.L.
P.L.
Name and Direction
Noon.
of
ma-
of
Via.
of
IX*.
of
of Object.
Diff.
Dlff.
Dlff.
Diff.
1
Sun
W.
O / //
71 58 34
2598
O 1 II
73 37 32
9611
75 16 12
9694
76 54' 35
9637
Venus
W.
29 30 2
9696
31 15 49
9703
32 52 25
9719
34 28 49
9791
Saturn
w.
18 11 17
9340
19 56 18
9348
21 41 7
9357
23 25 43
9367
Aldebaran
w.
15 52 27
9310
17 38 12
9317
19 23 47
9396
21 9 9
9336
Mars
E.
41 15 30
9453
39 33 11
9473
37 51 20
9494
36 9 59
9517
Regulus
E.
64 16 31
9304
62 30 38
9317
60 45 3
9330
58 59 47
9343
2
Sun
W.
85 2 3
9703
86 38 39
9716
88 14 58
9799
89 50 59
9743
Venus
W.
42 27 23
9777
44 2 21
9789
45 37 3
9601
47 11 30
9613
Saturn
W.
32 4 58
9499
33 48 1
9434
35 30 47
9446
37 13 16
9458
Aldebaran
W.
29 52 9
9391
31 35 57
9403
33 19 28
9415
35 2 42
9496
Regulus
E.
50 18 13
9410
48 34 52
9494
46 51 51
9438
45 9 10
9459
Spica
E.
103 48 43
9386
102 4 48
9398
100 21 11
9411
98 37 52
9493
3
Sun
W.
97 46 42
9808
99 20 59
9891
100 55 0
9834
102 28 44
9847
Venus
w.
54 59 44
9875
56 32 35
9887
58 5 10
9900
59 37 29
9913
Saturn
W.
45 41 29
9518
47 22 17
9530
49 2 49
9541
50 43 5
9553
Aldebaran
W.
43 34 39
9486
45 16 12
9497
46 57 29
9509
48 38 30
9591
Regulus
E.
36 40 50
9596
35 0 13
9543
33 19 59
9559
31 40 8
9576
Spica
E.
90 5 38
9484
88 24 3
9496
86 42 44
9508
85 1 42
9590
4
Sun
W.
110 13 20
9909
111 45 28
9990
113 17 21
9939
114 48 59
9944
Vesus
W.
67 15 10
9973
68 45 57
9985
70 16 29
9997
71 40 46
3008
Saturn
W.
59 0 21
9610
60 39 2
9699
62 17 27
9633
63 55 37
9643
Aldebaran
W.
56 59 31
9578
58 38 56
9589
60 18 6
9600
61 57 1
9610
Spica
E.
76 40 38
9577
75 1 12
9589
73 22 2
9600
71 43 7
9611
5
Sun
W.
122 23 30
3001
123 53 42
3011
125 23 41
3099
126 53 27
3033
Venus
W.
79 J4 38
3065
80 43 31
3076
82 12 10
3087
83 40 36
3097
Saturn
W.
72 2 51
9696
73 39 36
9707
75 16 7
9717
76 52 25
9796
Aldebaran
W.
70 8 1
9663
71 45 31
9679
73 22 48
9683
74 59 51
9693
Pollux
W.
29 17 12
3069
30 45 59
3043
32 15 19
3091
33 45 6
3009
Jupiter
W.
24 18 31
9809
25 52 47
9805
27 27 9
9803
29 1 33
9803
Spica
E.
63 32 12
9664
61 54 44
9674
60 17 29
9683
58 40 27
9694
Antares
E.
108 59 32
9711
107 23 7
9790
105 46 54
9799
104 10 53
9738
6
Venus
W.
90 59 34
3149
92 26 44
3159
93 53 42
3169
95 20 28
3178
Saturn
W.
84 50 41
9774
86 25 43
9783
88 0 133
9799
89 35 1 1
9801
Aldebaran
W.
83 1 55
9740
84 37 42
9748
86 13 18
9757
87 48 42
9766
Pollux
W.
41 18 19
9956
42 49 27
9959
44 20 40
9950
45 51 56
9949
Jupiter
W.
36 53 5
9818
38 27 10
9693
40 1 8
9898
41 34 59
9834
Mars
W.
26 36 14
3031
28 5 48
3090
29 35 36
3019
31 5 34
3006
Spica
E.
50 38 35
9741
49 2 50
9750
47 27 17
9760
45 51 57
9769
Antares
E.
96 13 48
9783
94 38 58
9799
93 4 20
9801
91 29 53
9810
7
Aldebaran
W.
95 42 54
9808
97 17 11
9816
98 51 18
9894
100 25 15
9889
Pollux
W.
53 28 21
9953
54 59 33
9955
56 30 42
9958
58 1 47
9961
Jupiter
W.
49 22 19
9865
50 55 23
9879
52 28 18
9878
54 1 5
9684
Mars
W.
38 36 23
3009
40 6 33
3005
41 36 40
3007
43 6 44
3010
Spica
E.
37 58 12
9813
36 24 1
9891
34 50 1
9830
33 16 12
9839
Antares
E.
83 40 28
9859
82 7 8
9861
80 33 59
9869
79 1 1
9878
8
Pollux
W.
65 36 3
9989
67 6 38
9987
68 37 7
9999
70 7 30
9997
XIV.
APRIL, 1884.
69
GBEENWICH MEAN TIME.
LUNAR DISTANCES.
JQ .
P.L.
P.L.
P.L.
P.L.
"38
1*
Name and Direotion
of Otyeot.
Midnight.
of
Diff.
xv*.
of
Diff.
xvm*.
Of
Diff.
xxi*.
of
Diff
1
Sun
W.
O / //
78 32 40
9650
80 10 27
9663
81° 47 57
9676
83 25 9
9680
VeNUS
W.
36 5 1
8739
37 40 59
9743
39 16 42
9754
40 52 10
9766
Saturn
w.
25 10 5
9378
26 54 12
9389
28 38 3
9399
30 21 39
9411
Aldebaran
w.
22 54 16
9346
24 39 8
9357
26 23 45
S366
28 8 5
9380
Mars
E.
34 29 10
9549
32 48 55
9569
31 9 17
9598
29 30 19
9099
Regulus
E.
57 14 50
9356
55 30 12
9369
53 45 53
9389
52 1 53
9396
2
Sun
W.
91 26 42
9756
93 2 8
9769
94 37 17
9789
96 12 8
9705
VENU8
W.
48 45 41
9695
50 19 36
9638
51 53 15
9850
53 26 38
9863
Saturn
W.
38 55 28
9470
40 37 23
9489
42 19 2
9494
44 0 24
9506
Aldebamn
W.
36 45 39
9438
38 28 19
9450
40 10 42
9469
41 52 49
9474
Regulus
E.
43 26 49
9467
4J 44 49
9481
40 3 9
9495
36 21 49
9510
Spica
E.
96 54 50
9436
95 12 6
9448
93 29 39
9460
91 47 30
9479
a
Svn
W.
104 2 11
9850
105 &5 22
9879
107 8 17
9884
108 40 56
9896
Venus
W.
61 9 32
9995
62 41 19
9937
64 12 51
9949
65 44 8
9961
Saturn
W.
52 23 4
9565
54 2 47
9577
55 42 14
9588
57 21 25
9599
Aldebaran
W.
50 19 14
9533
51 59 42
9544
53 39 54
9556
55 19 50
9567
He^ulus
Spica
E.
30 0 40
9593
28 21 36
9619
26 42 58
9633
25 4 48
9656
E.
83 20 57
9539
81 40 28
9544
80 0 16
9555
78 20 19
9566
4
Sun
W.
116 20 22
S956
117 51 30
9967
119 22 24
9978
120 53 4
9989
Venus
W.
73 16 49
3019
74 46 38
3031
76 16 12
3043
77 45 32
3054
Saturn
W.
65 33 33
9654
67 11 14
9666
68 48 40
9676
70 25 52
9686
Aldebaran
W.
63 35 42
9691
65 14 9
9639
66 52 21
9643
68 30 18
9653
Spica
E.
70 4 27
9699
68 26 2
9639
66 41 51
9643
65 9 54
9654
5
Sun
W.
128 22 59
3043
129 52 18
3053
131 21 25
3063
132 50 20
3073
Venus
W.
85 8 49
3108
86 36 49
3118
88 4 37
3198
89 32 12
3139
Saturn
W.
78 28 30
9736
80 4 22
9746
81 40 1
9756
83 15 27
9765
Aldebaran
W.
76 36 41
9709
78 13 19
9711
79 49 44
9791
81 25 56
S731
Pollux
W.
35 15 16
9988
36 45 44
9977
38 16 26
9969
39 47 18
9969
Jupiter
W.
30 35 57
9804
32 10 20
9806
33 44 40
9810
35 18 55
9814
Spica
E.
57 3 39
9704
55 27 4
9713
53 50 42
9799
52 J4 32
9739
Airfares
E.
102 35 4
9747
100 59 27
9756
99 24 2
9766
97 48 49
2775
6
Venus
W.
96 47 3
3188
98 13 26
3198
99 39 38
3908
101 5 38
S917
Saturn
W.
91 9 37
9810
92 43 52
9818
94 17 56
9897
95 51 49
9835
Aldebaran
W.
89 23 55
9774
90 58 57
9783
92 33 47
9799
94 8 26
9800
Pollux
W.
47 23 13
9948
48 54 31
9948
50 25 49
9949
51 57 6
9950
Jupiter
W.
43 8 43
9840
44 42 19
9646
46 15 47
9859
47 49 7
9859
Mars
W.
32 35 39
3003
34 5 48
3009
35 35 59
3001
37 6 11
3001
Spica
E.
44 16 49
9778
42 41 53
9787
41 7 8
9795
39 32 34
9804
Aiitares
E.
89 55 38
98J8
88 21 34
9897
86 47 41
9835
85 13 59
9844
7
Aldebaran
W.
101 59 1
9840
103 32 37
9848
105 6 3
9855
106 39 19
9809
Pollux
W.
59 32 48
9965
61 3 45
9969
62 34 37
9973
64 523
9978
Jupiter
W.
55 33 44
9891
57 6 14
9898
58 38 35
9905
60 10 47
9919
Mars
W.
44 36 45
3013
46 6 41
3017
47 36 32
3099
49 6 18
3096
Spica
E.
31 42 35
9848
30 9 9
9856
28 35 54
9865
27 2 50
9873
Aiitares
E.
77 28 14
9886
75 55 37
9894
74 23 11
9903
72 50 56
9911
8
Pollux
W.
71 37 46
3009
73 756
3007
74 38 0
3013
76 7 57
3018
70
APRIL, 1884.
XV.
GEEENWIOH MEAN TIME.
LUNAR DISTANCES.
1*
P.L.
P.L.
P.L
P. L.
Name and Direction
Noon.
Of
DP**
of
vp>.
of
EX>-
of
of Object
Diff.
Diff.
Diff.
Diff.
8
Jupiter
W.
O t ft
61 42 51
9919
63 14 46
9995
64 46 33
9931
O ; it
66 18 12
9938
Mars
W.
50 35 58
3031
52 5 32
3036
53 35 0
3041
55 4 22
3046
Regulus
w.
28 37 26
2931
90 9 5
9933
31 40 42
9936
33 12 15
9939
An tares
E.
71 18 51
2990
69 46 57
9998
68 15 13
9936
66 43 40
9945
9
Pollux
W.
77 37 48
3033
79 7 32
3030
80 37 8
3035
82 6 37
3040
Jupiter
W.
73 54 20
9971
75 25 9
9977
76 55 50
9984
78 26 23
9990
Mars
W.
62 29 32
3074
63 58 13
3079
65 26 48
3085
ee 55 16
3091
Regulus
W.
40 48 56
9959
42 20 0
9963
43 50 59
9968
45 21 52
9973
An tares
E.
59 8 35
9987
57 38 6
9996
56 7 48
3005
54 37 41
3014
10
Jupite*
W.
85 57 12
3090
87 27 0
3096
88 56 40
3033
90 26 12
3036
Mars
W.
74 15 48
3119
75 43 34
3195
77 11 13
3130
78 38 46
3136
Regulus
W.
52 54 45
9997
54 25 1
3009
55 55 11
3007
57 25 15
3019
Antares
E.
47 9 59
3061
45 41 2
3079
44 12 18
3083
42 43*48
3095
11
Jupiter
W.
97 52 12
3065
99 21 5
3070
100 49 51
3075
102 18 31
3080
Mars
W.
85 54 52
3169
87 21 47
3167
88 48 35
3179
90 15 17
3177
Regulus
W.
64 54 7
3034
66 23 37
3039
67 53 1
3043
69 22 20
3047
Antares
E.
35 24 57
3160
33 58 0
3177
32 31 23
3195
31 5 8
3915
a Aquilffi
E.
86 56 30
3413
85 34 28
3419
84 12 33
3496
82 50 46
3439
12
Mars
W.
97 27 28
3198
98 53 39
3903
100 19 45
3906
101 45 47
3310
Regulus
Spica
W.
76 47 43
3066
78 16 34
3069
79 45 22
3079
81 14 6
3074
W.
23 836
3065
24 37 28
3067
26 6 18
3069
27 35 6
3070
a Aquilffi
E.
76 3 57
3474
74 43 4
3463
73 22 21
3499
72 1 48
3503
13
Regulus
W.
88 37 2
3085
90 5 30
3087
91 33 56
3087
93 2 21
3088
Spica
W.
34 58 37
3077
36 27 15
3078
37 55 52
3079
39 24 27
3080
a Aquilffi
E.
65 22 10
3563
64 2 55
3576
62 43 55
3599
61 25 12
3608
Fomalhaut
E.
96 3 47
3507
94 43 31
3507
93 23 15
3507
92 2 59
3507
14
Regulus
Spica
W.
100 24 15
3069
101 52 38
3088
103 21 2
3087
104 49 28
3085
W.
46 47 21
3078
48 15 58
3077
49 44 36
3075
51 13 16
3073
a Aquilffi
E.
54 56 13
3703
53 39 29
3797
52 23 10
3759
51 7 18
3779
Fomalhaut
E.
85 21 45
3511
84 1 33
3513
82 41 23
3514
81 21 14
3515
15
Spica
W.
58 37 20
3059
60 6 20
3055
61 35 25
3050
63 4 36
3046
a Aquilffi
E.
44 55 55
3958
43 43 34
4005
42 31 59
4056
41 21 15
4114
Fomalhaut
E.
74 41 6
3599
73 21 14
3533
72 1 26
3536
70 41 42
3540
aPegasi
E.
89 46 6
3941
88 20 45
3936
86 55 19
3933
85 29 49
3999
Sun
E.
125 14 31
3497
123 52 45
3499
122 30 54
3417
121 8 57
3419
16
Spica
W.
70 32 6
3016
72 1 59
3009
73 32 1
3001
75 2 13
9993
Antares
W.
26 6 19
3947
27 31 32
3918
28 57 20
3191
30 23 40
3166
Fomalhaut
E.
64 4 24
3571
62 45 18
3578
61 26 20
3587
60 7 32
3598
aPegasi
E.
78 21 5
3907
76 55 4
3903
75 28 58
3198
74 2 46
3193
Sun
E.
114 17 36
3380
1J2 54 57
3379
111 32 9
3365
110 9 12
•3356
17
Spica
W.
82 35 51
9947
84 7 10
9936
85 38 43
9995
87 10 30
9914
Aji tares
W.
37 42 6
3064
39 10 59
3046
40 40 15
3099
42 9 52
3011
Fomalhaut
E.
53 36 47
3670
52 19 28
3691
51 2 31
3713
49 45 58
3738
aPegasi
E.
66 50 18
3167
65 23 30
3169
63 56 36
3157
62 29 36
3159
XVI.
APRIL, 1884.
71
GBEENWICH MEAN TIME.
LUNAK DISTANCES.
u
Name and Direction
Midnight.
P.I,,
of
XV*.
P.L.
of
xvm*
P. L.
Of
XXI*.
P.L.
Of
S"
of Qbject.
Dlff.
Diff.
Diff.
Diff.
8
Jupiter
W.
O / It
67 49 42
2945
o . / II
69 21 4
9951
O 1 II
70 52 18
8958
72 23 23
9965
Mars
W.
56 33 38
3051
58 2 47
3057
59 31 49
3063
61 0 44
3069
Regulus
w.
34 43 44
2948
36 15 9
9946
37 46 30
89V
39 17 46
8954
Airfares
E.
65 12 18
8953
63 41 6
9961
62 10 5
8970
60 39 15
9978
9
Pollux
W.
83 36 0
3046
85 5 16
3058
86 34 25
3058
88 3 26
3004
Jupiter
W.
79 56 48
2997
81 27 5
3009
82 57 15
3009
84 27 17
3014
Mars
W.
68 23 36
3097
69 51 49
3103
71 19 55
3108
72 47 55
3114
Regulus
W.
46 52 39
8977
48 23 20
8989
49 53 55
8988
51 24 23
8993
A u tares
E.
53 7 46
3083
51 38 2
3038
50 8 29
9043
48 39 8
3051
10
Jupiter
W.
91 55 37
3043
93 24 56
3049
94 54 8
3055
96 23 13
3060
Mars
VV.
80 6 12
3148
81 33 31
3147
83 0 44
3153
84 27 51
8757
Regulus
W.
58 55 13
3017
60 25 5
3083
61 54 51
3036
63 24 32
3030
As tares
E.
41 15 32
3106
39 47 30
3119
38 19 43
3133
36 52 12
3145
11
Jupiter
W.
103 47 5
3085
105 15 as
3089
106 43 56
3094
108 12 13
9098
Mars
W.
91 41 54
318S
93 8 25
3186
94 34 51
3190
96 1 12
3194
Regulus
W.
70 51 34
3051
72 20 43
3055
73 49 48
3059
75 18 48
3063
Antares
E.
29 39 17
3837
28 13 52
3861
26 48 55
3389
25 24 31
3331
aAquito
E.
81 29 6
3440
80 7 35
3448
78 46 13
3456
77 25 0
3465
12
Mars
W.
103 11 44
3814
104 37 37
3316
106 3 27
.9919
107 29 13
3289
Regulus
W.
82 42 47
3077
84 11 25
3079
85 40 0
3083
87 8 32
3083
Spica
W.
29 3 52
4072
30 32 36
9073
32 1 18
9075
33 29 58
9076
a Aquilro
E.
70 41 27
3514
69 21 18
3585
68 1 22
3537
66 41 39
3550
13
Regulus
Spica
W.
94 30 45
3089
95 59 8
3090
97 27 30
3090
98 55 52
3089
W.
40 53 1
3080
42 21 35
3079
43 50 10
3079
45 18 45
3078
a AquiUe
E.
60 6 46
3684
58 48 38
3649
57 30 49
9661
56 13 20
3651
Fomalhaut
E.
90 42 43
3507
89 22 27
3508
88 2 12
3509
86 41 58
3510
14
Regulus
VV.
106 17 56
3083
107 46 26
3088
109 14 58
3079
110 43 33
3076
Spica
W.
52 41 59
3071
54 10 44
3069
55 39 32
3065
57 8 24
3068
a Aquilee
E.
49 51 54
3809
48 37 1
3843
47 22 42
2877
46 8 59
9916
Fomalhaut
E.
80 1 7
3518
78 41 3
3580
77 21 1
3533
76 1 2
3585
15
Spica
W.
64 33 52
3040
66 3 15
3035
67 32 44
3089
69 2 21
3033
aAquilse
E.
40 11 27
4178
39 2 40
4949
37 55 0
4338
36 48 33
4418
Fomalhaut
E.
69 22 2
3545
68 2 28
3551
66 43 0
3556
65 23 38
3564
a Pcgasi
E.
84 4 14
3385
82 38 35
3890
81 12 50
3316
79 47 0
3313
Sun
E.
119 46 54
3407
118 24 45
3401
117 2 30
3394
115 40 7
3387
16
Spica
W.
7G 32 34
9985
78 3 6
3976
79 33 49
8966
81 4 44
8957
Antares
W.
31 50 30
3143
33 17 47
3133
34 45 29
3103
36 13 36
3083
Fomalhaut
E.
58 48 55
36J0
57 30 31
3639
56 12 20
3636
54 54 25
3659
a Pegasi
E.
72 36 29
3188
71 10 6
3183
69 43 36
3177
68 17 0
3179
Sun
E.
108 46 5
3346
107 22 47
3337
105 59 18
3337
104 35 38
3317
17
Spica
W,
88 42 31
8909
90 14 47
9890
91 47 19
8877
93 20 7
8865
Autares
W.
43 39 51
8994
45 10 11
8977
46 40 53
3960
48 11 56
8943
Fomalhaut
E.
48 29 51
3767
47 14 14
3799
45 59 11
3836
44 44 46
3878
a Pcgasi
E.
61 2 30
3148
59 35 19
3144
58 8 3
3140
56 40 42
3138
72
APBIL, 1884.
XVIL
GBEENWICH MEAN TIME.
LUNAR DISTANCES,
•
P.L.
P.L.
P.L.
P.L.
Name and Direotion
Noon.
of
npi.
Of
VP»-
of
DP**
of
of Object.
Dur.
Diff.
Diff.
DHL
17
Sun
E.
l()d 11 46
3306
O / //
101 47 41
3994
100 23 22
OOfiO
tHRflf
98 58 50
3970
18
Spica
W.
94 53 11
2859
96 26 32
8838
98 0 11
8883
99 34 9
9809
Antares
W.
49 43 21
2996
51 15 7
8909
52 47 14
8899
54 19 43
9874
Fomalhaut
E.
43 31 4
3924
42 18 9
3977
41 6 7
4038
39 55 5
4108
a Pegasi
E.
55 13 18
3134
53 45 50
3139
52 18 19
3131
50 50 47
3131
Sun
E.
91 52 21
3909
90 26 14
3187
88 59 49
3171
87 33 5
3156
19
Antares
W.
62 7 47
9786
63 42 33
8769
65 17 42
9750
66 53 15
9731
a Pegasi
JE.
43 33 34
3151
42 6 26
3169
40 39 31
3175
39 12 52
3193
Sun
E.
80 14 36
3073
78 45 52
3054'
77 16 46
3035
75 47 17
3017
20
Antares
W.
74 57 11
9638
76 35 14
9619
78 13 43
9601
79 52 37
9589
a Aquil®
W.
33 35 49
4351
33 41 55
4183
34 50 37
4034
36 1 43
3900
Sun
E.
68 14 4
8999
66 42 13
8909
65 9 57
9888
63 37 15
9863
21
Antares
W.
88 13 41
9487
89 55 13
9468
91 37 11
9449
93 19 36
9431
a Aquil®
W.
42 27 48
3393
43 50 12
3317
45 14 4
3847
46 39 18
3181
Sun
E.
55 47 18
9761
54 11 59
9741
52 36 14
9791
51 0 2
9701
22
Antares
W.
101 58 9
9341
103 43 8
9395
105 28 31
9309
107 14 18
9993
a Aquil®
W.
54 3 31
9915
55 35 31
9871
57 8 27
9830
58 42 16
9799
Sun
E.
42 52 27
9604
41 13 37
9585
39 34 22
9567
37 54 42
9548
23
Antares
W.
116 8 52
9920
117 56 50
8907
119 45 7
9196
121 33 41
9184
a Aquil®
W.
66 42 55
9639
68 21 6
9606
69 59 53
9581
71 39 14
9558
Sun
E.
29 30 13
9465
27 48 11
9450
26 5 47
9435
24 23 2
9491
27
Sun
W.
26 46 0
9317
28 31 35
9394
30 16 59
9333
32 2 11
9341
Pollux
E.
48 27 16
9909
46 38 51
9991
44 50 55
9949
43 3 30
9966
Jupiter
E.
52 38 57
9093
50 47 47
8103
48 56 52
9113
47 6 13
9195
Mars
E.
68 35 55
9174
66 46 48
9183
64 57 55
9193
63 9 17
9903
Regulus
E.
84 626
9039
82 13 53
8047
80 21 32
9055
78 29 23
9064
28
Sun
W.
40 44 34
9397
42 28 13
8410
44 11 33
9493
45 54 35
9437
Pollux
E.
34 16 30
9439
32 33 41
8479
30 51 59
9533
29 11 32
9596
Jupiter
E.
37 57 52
2198
36 9 21
8916
34 21 17
8935
32 33 42
9956
Mars
E.
54 10 22
9967
52 23 34
9989
50 37 8
8998
48 51 5
9315
Regulus
E.
69 12 29
9118
67 21 58
9131
65 31 46
9145
63 41 55
9158
29
Sun
W.
54 24 38
9519
56 5 34
8598
57 46 8
8545
59 26 19
9561
Aldebaran
W.
25 31 28
9919
27 19 27
8933
29 7 6
9947
30 54 23
9969
Saturn
W.
24 51 47
9964
26 38 40
9877
28 25 13
9991
30 11 26
9304
Mars
E.
40 7 17
9410
38 23 56
8431
36 41 6
9455
34 58 49
9480
Regulus
Spica
E.
54 37 57
9933
52 50 18
8949
51 3 3
9965
49 16 12
9389
E.
108 9 58
9919
106 21 48
8997
104 34 1
9943
102 46 36
9957
90
Sun
W.
67 41 28
9647
69 19 19
8864
70 56 47
9689
72 33 51
9699
Aldebaran
W.
39 45 13
9339
41 30 15
8355
43 14 54
9379
44 59 9
9386
Saturn
W.
38 57 12
9381
40 41 14
8397
42 24 53
9419
44 8 10
9499
Venus
W.
23 43 42
9906
25 15 53
8895
26 48 18
9889
28 20 51
2886
Regulus
Spica
E.
40 28 20
8379
38 44 5
8391
37 0 18
•9411
35 16 59
9431
E.
93 55 20
9337
92 10 15
9354
90 25 34
9371
88 41 17
9387
XVHI.
APRIL, 1884.
73
GREENWICH MEAN TIME.
LUNAR DISTANCES.
I*
P.L.
P.L.
P.L.
P.L.
11
Name and Dlreotion
Midnight.
of
xv*.
of
xvm*
Of
XXI*.
Of
of Object.
Diff.
Diff.
Diff.
Diff.
17
Sun
E.
97 34 3
3957
Of/'
96 9 1
3944
gin
94 43 44
3930
O t it
93 18 11
3916
18
Spica
Antares
W.
101 8 25
2795
102 43 0
9779
104 17 55
9763
105 53 11
9747
W.
55 52 a5
9657
57 25 49
9840
58 59 25
9899
60 33 24
9604
Fomalhaut
E.
38 45 11
4187
37 36 33
4977
36 29 19
4380
35 23 40
4500
a Pegasi
Sun
E.
49 23 15
3139
47 55 44
3134
46 28 15
3138
45 0 51
3143
E.
86 6 3
3140
84 38 42
3194
83 11 1
3106
81 42 59
3089
19
Antares
W.
68 29 13
8713
70 5 35
9695
71 42 22
9676
73 19 34
9857
a Pegasi
Sun
E.
37 46 34
3314
36 20 42
3941
34 55 22
3976
33 30 42
3316
E.
74 17 26
9999
72 7 12
9980
71 16 34
9960
69 45 31
9941
20
Antares
W.
81 31 57
9563
83 11 43
9543
84 51 56
9595
86 32 35
9505
a Aquile
Sun
W.
37 15 3
3778
38 30 28
3668
39 47 49
3568
41 6 58
3477
E.
62 4 8
9849
60 30 35
9693
58 56 36
9801
57 22 10
9789
21
Antares
W.
95 2 27
9419
96 45 44
9394
98 29 27
9377
100 13 35
9359
aAquifo
Sun
W.
48 5 50
3190
49 33 35
3064
51 2 29
3010
52 32 29
9961
E.
49 23 24
9681
47 46 19
9669
46 8 48
9643
44 30 51
9693
22
Antares
W.
109 0 28
9977
110 47 1
9969
112 33 57
9947
114 21 14
9933
aAquile
Sun
W.
60 16 54
9756
61 52 19
9799
63 28 29
9690
65 5 22
9660
E.
36 14 36^
9531
34 34 6
9513
32 53 11
9497
31 11 53
9481
23
Antares
W.
123 28 32
9174
125 11 39
9165
127 1 0
9157
128 50 33
9149
a Aquila
Sun
W.
73 19 6
9537
74 59 28
9517
76 40 18
9499
78 21 33
9489
E.
22 39 57
9408
20 56 34
9396
19 12 53
9385
17 28 56
9375
27
Sun
W.
33 47 10
9351
35 31 55
9369
37 16 24
9373
39 0 37
9384
Pollux
E.
41 16 40
9399
39 30 28
3391
37 44 59
9354
36 0 18
9391
Jupiter
E.
45 15 52
9137
43 25 50
9151
41 36 8
9165
39 46 48
9181
Mars
E.
61 20 54
9914
59 32 48
9996
57 45 0
9939
55 57 31
9953
Regulus
E.
76 37 28
9074
74 45 49
9084
-72 54 26
9095
71 3 19
9106
28
Sun
W.
47 37 17
9451
49 19 39
9466
51 1 40
9481
52 43 20
9497
Pollux
E.
27 32 32
9669
25 55 11
9756
24 19 45
9860
22 46 35
9985
Jupiter
E.
30 46 38
9980
29 0 9
9305
27 14 17
9333
25 29 5
9364
Mars
E.
47 5 27
9339
45 20 14
9350
43 35 27
9369
41 51 8
9389
Regulus
E.
61 52 24
9179
60 3 14
9186
58 14 26
9901
56 26 0
9916
29
Sun
W.
61 6 7
9578
62 45 32
9595
64 24 34
9619
66 3 13
9699
Aldebaran
W.
32 41 18
9977
34 27 51
9993
36 14 1
9309
37 59 48
9394
Saturn
W.
31 57 19
9319
33 42 51
9334
35 28 1
9350
37 12 48
9366
Mars
E.
33 17 7
9506
31 36 2
9534
29 55 36
8564
28 15 52
9596
Regulus
Spica
E.
47 29 46
9300
45 43 46
9317
43 58 11
2335
42 13 2
9353
E.
100 59 34
9973
99 12 55
9989
97 26 40
9305
95 40 48
9399
30
Sun
W.
74 10 32
9717
75 46 49
9734
77 22 43
9753
78 58 13
9770
Aldebaran
W.
46 43 1
9404
48 26 30
9490
60 9 36
9437
51 52 18
9453
Saturn
W.
45 51 4
9445
47 33 35
9461
49 15 43
9477
50 57 28
9494
Venus
W.
29 53 28
9887
31 26 4
9890
32 58 36
S895
34 31 1
9909
Regulus
Spica
E.
33 34 9
9453
31 51 49
9474
30 9 59
9497
28 28 41
9591
E.
66 57 23
9403
85 13 52
9419
83 30 45
9436
81 48 1
9453
74
MAY, 1884.
AT GREENWICH APPARENT NOON.
i
1
o
*
5
1
«
o
1
THE SUN'S
Sidereal
Time of
Semi-
diameter
Passing
Meridian.
Aquation of
Time,
to be
Subtracted
from
Apparent
Time.
DHL for
lHonr.
Apparent
Right Ascension.
Diff. for
lHonr.
Apparent
Declination.
DUE for
lHonr.
Semi-
diameter.
Thur.
Frid.
Sat.
1
2
3
h m s
2 36 10.69
2 40 0.31
2 43 50.47
9.55G
9.578
9.600
N.15° 17 #6
15 34 53.5
15 52 29.0
+44^5
44.31
43.65
15 54^07
15 53.85
15 53.62
66*11
66.19
66.27
m s
3 5.17
3 12.08
3 18.46
B
0.300
0.278
0.256
SUN.
Mon.
Tues.
4
5
6
2 47 41.17
2 51 32.41
2 55 24.21
9.623
9.646
9.669
16 9 48.6
16 26 52.2
16 43 39.4
+42.98
42.31
41.62
15 53.40
15 53.18
15 52.96
66.35
66.43
66.51
3 24.31
3 29.61
3 34.36
0.233
0.210
0.187
Wed.
Tliur.
Frid.
7
8
9
2 59 16.56
3 3 9.47
3 7 2.94
9.693
9.717
9.741
17 0 9.9
17 16 23.5
17 32 19.7
+40.92
40.20
39.49
15 52.73
15 52.52
15 52.31
66.59
66.68
66.76
3 38.55
3 42.19
3 45.26
0.164
0.140
0.116
Sat.
SUN
Mon.
10
11
12
3 10 56.98
3 14 51.61
3 18 46.83
9.765
9.789
9.813
17 47 58.4
18 3 19.2
18 18 22.0
+38.74
37.98
37.22
15 52.10
15 51.89
15 51.68
66.84
66.92
67.01
3 47.76
3 49.68
3 51.02
0.092
0.068
0.044
Tues.
Wed.
Tliur.
13
14
15
3 22 42.63
3 26 39.01
3 30 35.98
9.837
0.862
9.88(5
18 33 6.3
18 47 31.9
19 1 38.6
+36.46
35.67
34.87
15 51.47
15 51.27
^15 51.07
67.09
67.17
67.25
3 51.78
3 51.95
3 51.54
0.020
0.005
0.029
Frid.
Sat.
SUN
16
17
18
3 34 33.53
3 38 31.67
3 42 30.39
9.911
9.935
9.959
19 15 26.0
19 28 53.9
19 42 2.0
+34.06
33.25
92.42
15 50.87
15 50.68
15 50.49
67.33
67.41
67.49
3 50.54
3 48.96
3 46.80
0.054
0.078
0.102
*2 W T5
19
20
21
3 46 29.68
3 50 29.54
3 54 29.96
9.982
10.005
10.028
19 54 50.1
20 7 17.9
20 19 25.1
+31.57
30.72
29.86
15 50.30
15 50.11
15 49.93
67.57
67.64
67.72
3 44.07
3 40.78
3 36.92
0.125
0.148
0.171
Tliur.
Frid.
Sat.
22
23
24
3 58 30.93
4 2 32.43
4 6 34.45
10.051
10.073
10.095
20 31 11.6
20 42 37.1
20 53 41.2
+28.99
28.10
27.21
15 49.76
15 49.59
15 49.41
67.79
67.88
67.95
3 32.52
3 27.59
3 22.14
0.193
0.215
0.237
SUN
Mon.
Tues.
25
26
27
4 10 36.96
4 14 39.96
4 18 43.44
10.116
10.136
10.155
21 4 23.7
21 14 44.6
21 24 43.4
+26.31
25.41
24.49
15 49.25
15 49.09
15 48.94
68.02
68.08
68.15
3 16.20
3 9.77
3 2.86
0.258
0.278
0.297
Wed.
Thur.
Frid.
Sat.
28
29
30
31
4 22 47.39
4 26 51.77
4 30 56.57
4 35 L77
10.173
10.191
10.208
10.225
21 34 20.1
21 43 34.3
21 52 26.0
22 0 54.8
+23.56
22.62
21. 08
20.72
15 48.79
15 48.65
15 48.52
15 48.39
68.21
68.27
68.33
68.39
2 55.49
2 47.69
2 39.47
2 30.85
0.315
0.333
0.350
0.367
SUN
32
4 39 7.37
10.241
N.22 9 0.6
+19.76
15 48.26
68.45
2 21.84
0.383
Notb.— Th
Th
o moan time of ser
o sign + prefixed
nidiamete
to tho hoi
r passing may be found by s
uly change of declination ind
ubtracting 0*.l
icates that no
8 from th
rthdoclim
o sidereal tim
itions axe inci
e.
[easing.
H.
MAY, 1884.
75
AT GREENWICH MEAN NOON.
THE
SUN'S
1
1
*
5
§
*
3
Equation of
Time,
to be
Added to
Mean Time.
Dift for
1 Hour.
8idereal
Time*
or
Right Ascension
of
Mean8un.
Apparent
Bight Ascension.
DHE for
lHonr.
Apparent
Declination.
Diff. for
1 Hour.
Thur.
1
h m s
2 36 11.19
8
9.557
N. 15° 17 4.8
+44*95
in s
3 5.19
0.300
h m s
2 39 16.38
Frid.
2
2 40 0.83
9.579
15 34 55.8
44.31
3 12.10
0.278
2 43 12.93
Sat.
3
2 43 51.01
9.601
15 52 31.4
43.65
3 18.48
0.256
2 47 9.49
SUN.
4
2 47 41.72
9.G24
16 9 51.0
+42.98
3*24.32
0.233
2 51 6.04
Mon.
5
2 51 32.98
9.647
16 26 54.6
42.31
3 29.62
0.210
2 55 2.60
Tues.
6
2 55 24.79
9.670
16 43 41.9
41.62
. 3 34.37
0.187
2 58 59.15
Wed.
7
2 59 17.15
9.693
17 0 12.5
+40.92
3 38.56
0.164
3 2 55.71
Thur.
8
3 3 10.07
9.751
17 16 26.0
40.20
3 42.20
0.140
3 6 52.26
Frid.
9
3 7 3.55
9.74J
17 32 22.2
39.48
3 45.27
0.116
3 10 48.82
Sat.
10
3 10 57.60
9.765
17 48 0.9
+38.74
3 47.77
0.092
3 14 45.37
SUN.
11
3 14 52.24
9.789
18 3 21.7
37.99
3 49.69
0.068
3 18 41.93
Mon.
12
3 18 47.46
9.813
18 18 24.4
37.23
3 51.02
0.044
3 22 38.48
Tues.
13
3 22 43.26
9.837
18 33 8.7
+36.46
3 51.78
0.020
3 26 35.04
Wed.
14
3 26 39.64
9.862
18 47 34.2
35.67
3 51.95
0.005
3 30 31.59
Thur.
15
3 30 36.61
9.886
19 1 40.8
34.87
3 51.54
0.029
3 34 28.15
Frid.
16
3 34 34.16
9.911
19 15 28.1
+34.06
3 50.54
0.054
3 38 24.70
Sat.
17
3 38 32.30
9.935
19 28 55.9
33.25
3 48.96
0.078
3 42 21.26
SUN.
18
3 42 31.02
9.959
19 42 4.0
32.42
3 46.80
0.102
3 46 17.81
Mon.
19
3 46 30.30
9.982
19 54 52.0
+31.58
3 44.07
0.125
3 50 14.37
Tues.
20
3 50 30.15
1.0.005
20 7 19.7
30.73
3 40.77
0.148
3 54 10.92
Wed.
21
3 54 30.56
10.028
20 19 26.9
29.86
3 36.91
0.171
3 58 7.48
Thur.
22
3 58 31.52
10.050
20 31 13.3
+28.99
3 32.51
0.193
4 2 4.03
Frid.
23
4 2 33.01
10.072
20 42 38.7
28.10
3 27.58
0.215
4 6 0.59
Sat.
24
4 6 35.01
10.094
20 53 42.7
27.21
3 22.13
0.237
4 9 57.14
SUN.
25
4 10 37.51
10.115
21 4 25.1
+26.31
3 16.19
0.258
4 13 53.70
Mon.
26
4 14 40.49
10.135
21 14 45.8
25.41
3 9.76
0.278
4 17 50.25
Tues.
27
4 18 43.95
10.154
21 24 44.6
24.49
3 2.85
0.297
4 21 46.81
Wed.
28
4 22 47.88
10.172
21 34 21.2
+23.56
2 55.48
0.315
4 25 43.36
Thur.
29
4 26 52.24
10.190
21 43 35.3
22.62
2 47.68
0.333
4 29 39.92
Frid.
30
4 30 57.02
10.207
21 52 26.9
21.68
2 39.46
0.350
4 33 36.48
Sat
31
4 35 2.20
10.224
22 0 55.6
20.72
2 30.84
0.367
4 37 33.04
SUN.
32
4 39 7.77
10.240
N.22 9 1.3
+19.76
2 21.83
0.383
4 41 29.59
Kotb.— Th
Th
arc
o scmidiameter for i
e sign + prefixed to
> increasing.
dean noon
the hotirl:
may be assumed the same as t
f change of declination indicate
hat for apparent
« that north dec
noon,
linations
Diff. for 1 Hour,
-f 9».8565.
(TabloIIL)
76
MAY, 1884.
m.
AT GREENWICH MEAN NOON.
I
o
1
THE SUN'S
j
«
o
Logarithm
of the
Radius Vector
of the
Earth.
Dim for
1 Hour.
Mean Time
of
Sidereal Noon.
TRUE LONGITUDE.
Difll for
lHour.
LATITUDE.
X
V
1
2
3
122
123
124
41° 29 15*8
42 27 24.8
43 25 31.7
28 53.7
27 2.6
25 9.5
145*42
145.34
145/25
-0?22
0.19
0.15
0.0035947
0.0036982
0.0036007
+ 43.4
42.9
42.4
h m s
21 17 13.81
21 13 17.90
21 9 21.99
4
5
6
125
126
127
44 23 36.8
45 21 39.9
46 19 41.2
23 14.4
21 17.4
19 18.5
145.17
145.09
145.01
- 0.08
+ 0.04
0.16
0.0039020
0.0040024
0.0041019
+ 42.0
41.7
41.3
21 5 26.08
21 1 30.17
20 57 34.26
7
8
9
128
129
130
47 17 40.6
48 15 38.3
49 13 34.3
17 17.8
15 15.4
13 11.3
144.94
144.67
144.60
+ 0.30
0.44
0.57
0.0042007
0.0042986
0.0043960
+ 41.0
40.7
40.4
20 53 38.35
20 49 42.44
20 45 46.53
10
11
12
131
132
133
50 11 28.7
51 9 21.6
52 7 13.1
11 5.5
8 58.3
6 49.7
144.73
144.67
144.61
+ 0.70
0.81
0.88
0.0044926
0 0045883
0.0046833
+ 40.1
39.7
39.4
20 41 50.62
20 37 54.72
20 33 58.81
13
14
15
134
135
136
53 5 3.2
54 2 52.1
55 0 39.7
4 39.7
2 28.4
0 15.8
144.56
144.51
144.46
+ 0.94
0.96
0.96
0.0047774
0.0048706
0.0049627
+ 39.0
38.6
36.1
20 30 2.90
20 26 6.99
20 22 11.08
16
17
18
137
138
139
55 58 26.1
56 56 11.5
57 53 55.7
58 2.1
55 47.3
53 31.5
144.41
144.36
144.32
+ 0.92
0.86
0.78
0.0050536
0.0051432
0.0062313
+ 37.6
37.0
36.4
20 16 15.17
20 14 19.26
20 10 23.35
19
20
21
140
141
142
58 51 38.9
59 49 21.0
60 47 2.0
51 14.5
48 56.4
46 37.3
144.26
144.23
144.19
+ 0.66
0.54
0.41
0.0053177
0.0054022
0.0054849
+ 35.6
34.8
34.0
20 6 27.45
20 2 31.54
19 58 35.63
22
23
24
143
144
145
61 44 42.0
62 42 20.8
63 39 58.5
44 17.2
41 55.9
39 33.4
144.14
144.10
144.05
+ 0.28
0.14
+ 0.03
0.0055656
0.0056439
0.0057202
+ 33.1
32.2
31.3
19 54 39.72
19 50 43.81
19 46 47.90
25
26
27
146
147
148
64 37 35.1
65 35 10.3
66 32 44.3
37 9.8
34 44.9
32 18.8
144.00
143.94
i 43.88
-0.07
0.13
0.17
0.0057942
0.0058660
0.0059354
+ 30.4
29.4
28.4
19 42 51.99
19 38 56.08
19 35 0.17
28
29
30
31
149
150
151
152
67 30 17.2
68 27 48.8
69 25 19.1
70 22 48.0
29 51.5
27 22.9
24 53.0
22 21.9
143.62
143.76
143.71
143.66
-0.19
0.17
0.12
-0.05
0.0060025
0.0060675
0.0061304
0.0061912
+ 27.5
26.6
25.7
24.9
19 31 4.26
19 27 8.35
19 23 12.44
19 19 16.53
32
153
71 20 15.9
19 49.5
143.62
+ 0.04
0.0062501
+ 24.2
19 15 20.61
Not
B.— The
.the
numbers in column
moan equinox of Jai
A correspond
unary 0*.0.
to the tru
e equinox of the date; in colui
nn A', to
Diff. for 1 Hour,
— 9«.8296.
(TabloH.)
IV.
MAY, 1884.
77
GREENWICH MEAN TIME.
1
1
THE
MOON'S
8EMIDIAMETBR.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGE.
Noon.
Midnight
Noon.
Din*, for
lHonr.
Midnight.
Din*, for
lHoor.
Meridian of
Greenwiob.
Din*, for
lHoor.
Noon.
1
2
3
15' 53.0
15 39.4
15 26.8
15 46.1
15 32.9
15 21.1
58' 10!#8
57 20.7
56 34.7
-2.12
2.02
1.81
57' 45^4
56 57.1
56 13.7
-2.09
1.92
1.69
h m
5 45.1
6 35.9
7 23.8
m
2.18
2.05
1.94
d
5.9
6.9
7.9
4
5
6
15 15.8
15 6.5
14 59.0
15 10.9
15 2.5
14 55.8
55 54.2
55 20.1
54 52.3
-1.56
1.28
1.02
55 36.3
55 5.4
54 40.8
-1.42
1.15
0.90
8 9.5
8 53 9
9 37.7
1.87
1.83
1.82
8.9
9.9
10.9
7.
8
9
14 53.1
14 48.7
14 45.8
14 50.7
14 47.1
14 44.9
54 30.7
54 14.7
54 4.1
-0.78
0.55
0.33
54 22.0
54 8.8
54 0.7
-0.67
0.44
0.22
10 21.5
11 5.8
11 51.0
1.83
1.86
1.90
11.9
12.9
13.9
10
11
12
14 44.4
14 44.3
14 45.8
14 44.2
14 44.9
14 47.2
53 58.7
53 58.6
54 4.1
-0.12
+ 0.11
0.36
53 58.0
54 0.6
54 9.1
-0.01
+ 0.23
0.49
12 37.1
13 24.1
14 11.7
1.94
1.97
1.99
14 9
15.9
16.9
13
14
15
14 49.0
14 54.1
15 1.1
14 51.3
14 57.4
15 5.5
54 15.7
54 34.3
55 0.3
+ 0.62
0 92
1.24
54 24.1
54 46.4
55 16.2
+ 0.76
1.08
1.41
14 59.7
15 47.6
16 35.3
1.99
1.99
1.98
17.9
18 9
19.9
16
17
18
15 10.3
15 21.7
15 34.8
15 15.8
15 28.0
15 42.0
55 34.1
56 15.7
57 4.1
+ 1.57
1.88
2.14
55 54.0
56 39.1
57 30.4
+ 1.73
2.02
2.24
17 22.9
18 10.6
18 58.9
1.98
2.00
2.03
20.9
21.9
22.9
19
20
21
15 49.4
16 4.6
16 19.2
15 57.0
16 12.1
16 25.8
57 57.7
58 53.5
59 46.9
+ 2.30
2.29
2.10
58 25.4
59 20.8
60 11.2
+ 2.32
2.22
1.92
19 48.4
20 40.0
21 34.2
2.10
2.20
2.33
23.9
24.9
25.9
22
23
24
16 31.7
16 40.7
16 45.0
16 36.7
16 43.5
16 45.0
60 32.9
61 6.0
61 21.6
+ 1.G8
1.02
+ 0.24
60 51.4
61 16.2
61 21.9
+ 1.38
+ 0.63
-0.18
22 31.6
23 32.0
6
2.46
2.57
26.9
279
28.9
25
26
27
16 43.8
16 37.3
16 26.5
16 41.1
16 32.4
16 19.9
61 17.2
60 53.6
60 14.0
-0.59
1.34
1.91
61 7.6
60 35.5
59 49.7
-0.98
1.65
2.11
0 34.3
1 36.7
2 37.5
2.61
2.58
2.47
0.6
1.6
2.6
28
29
30
31
16 12.7
15 57.5
15 42.1
15 27.8
16 5.2
15 49.7
15 34.8
15 21.2
59 23.3
58 27.2
57 30.9
56 38.1
-2.26
2.37
2.29
2.08
58 55.6
57 58.8
57 3.8
56 14.0
-2.34
2.35
2.20
1.93
3 35.1
4 29.1
5 19.5
6 6.9
2.32
2.17
2.03
1.92
3.6
4.6
5.6
6.6
32
15 15.1
15 9.6
55 51.7
-1.77
55 31.4
-1.60
6 52.3
1.86
7.6
78
MAY, 1884.
GREEISTWICH MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
Hoar.
Bight Ascension.
Biff, for
1 Minute.
Declination.
Diftfor
1 Minute.
Boor.
Blgbt Aaeenskm.
DUE for
1 Minute.
Declination.
Diftfor
1 Minute,
TH
UBSD.
LY 1.
SATUEDAY 3.
h m s
8
O 1 M
ti
h m a
8
O 1 If
m
0
8 12 13.01
94963
N.14 38 52.0
. 6446
0
9 56 52.11
94751
N. 7 57 5.9
9.418
I
8 14 30.75
34901
14 31 53.0
7429
1
9 58 56.50
9.0714
7 47 39.9
9.446
2
8 16 48.16
94878
14 24 49.4
7497
2
10 1 0.68
9.0678
7 38 12.3
9.473
3
8 19 5.29
2.2835
14 17 41.4
7.169
3
10 3 4.64
9.0642
7 28 43.1
9400
4
8 21 22.08
24773
14 10 29.1
7.241
4
10 5 8.38
2.0606
7 19 12.3
9497
5
8 23 38.56
94721
14 3 12.5
7.312
5
10 7 11.91
9.0571
7 9 39.9
9453
6
8 25 54.73
94669
13 55 51.6
7.382
6
10 9 15.23
9.0537
7 0 6.0
9477
7
8 28 10.59
2-2617
13 48 26.6
7.451
7
10 11 18.35
8.0503
6 50 30.7
9400
8
8 30 26.13
9.2564
13 40 57.5
7.519
8
10 13 21.26
9.0468
6 40 54.0
9433
9
8 32 41.36
2.2519
13 33 24.3
7.587
9
10 15 23.97
9.0436
6 31 16.0
9444
10
8 34 56.28
94461
13 25 47.1
7453
10
10 17 26.49
9.0403
6 21 36.7
9.666
11
8 37 10.89
94410
13 18 6.0
7.717
11
10 19 28.81
9.0371
6 11 56.1
9.687
12
8 39 25.20
94360
13 10 21.1
7.780
12
10 21 30.94
9.0339
6 2 14.3
9.706
13
8 41 39.21
9.2300
13 2 32.4
7.843
13
10 23 32.88
9.0308
5 52 31.4
9.794
14
8 43 52.91
94256
12 54 39.9
7405
14
10 25 34.64
9.0277
5 42 47.4
9.749
15
8 46 6.30
9.9907
12 46 43.8
7.965
15
10 27 36.21
9.0247
5 33 2.3
9.760
16
8 48 19.39
24157
12 38 44.1
8.094
16
10 29 37.61
9.0918
5 23 163
9.777
17
8 50 32.19
24108
12 30 40.9
8.082
17
10 31 38.83
9.0188
5 13 29.1
9.799
18
8 52 44.69
94059
12 22 34.2
8.140
18
10 33 39.87
9.0159
5 3 41.1
9407
19
8 54 56.90
94010
12 14 24.1
8.197
19
10 a5 40.74
9.0131
4 53 52.3
9431
20
8 57 8.81
9.1961
12 6 10.6
8.252
20
10 37 41.45
94104
4 44 2.6
9.635
21
8 59 20.43
9.1919
11 57 53.8
8407
21
10 39 41.99
9.0077
4 34 12.1
9447
22
9 1 31.76
9.1864
11 49 33.8
8.360
22
10 41 42.37
94050
4 24 20.9
9459
23
9 3 42.80
9.1817
RIDA^
N.ll 41 10.6
r 2.
8.413
23
10 43 42.59
SI
9.0024
DTSTDA*
N. 4 14 29.0
r 4.
9.871
0
9 5 53.56
9.1769
N.ll 32 44.2
8.465
0
10 45 42.66
i oooa
N. 4 4 36.4
9489
1
9 8 4.03
9.1793
11 24 14.8
8415
1
10 47 42.57
14973
3 54 43.2
9.891
2
9 10 14.22
9.1676
11 15 42.4
8.564
2
10 49 42.34
.1.9949
3 44 49.5
9499
3
9 12 24.14
9.1630
11 7 7.1
8.619
3
10 51 41.96
1.9924
3 34 55.3
9.908
4
9 14 33.78
9.1583
10 58 28.9
8.660
4
10 53 41.43
1.9900
3 25 0.6
9416
5
9 16 43.14
2.1537
10 49 47.9
8.707
5
10 55 40.76
1.9877
3 15 5.4
9493
6
9 18 52.23
9.1499
10 41 4.1
8.752
6
10 57 39.96
1.9855
3 5 9.8
9499
7
9 21 1.05
9.1447
10 32 17.6
8.797
7
10 59 39.02
14633
2 55 13.9
9434
8
9 23 9.60
9.1402
10 23 28.4
8.841
8
11 1 37.95
14811
2 45 17.7
9439
9
9 25 17.89
9.1359
10 14 36.7
8.884
9
11 3 36.75
1.9789
2 35 21.2
9.943
10
9 27 25.91
9.1316
10 5 42.4
8426
10
11 5 35.42
14768
2 25 24.5.
9.946
11
9 29 33.68
9.1273
9 56 45.6
6.967
11
11 7 33.97
1.9748
2 15 27.7
9448
12
9 31 41.19
9.1230
9 47 46.4
9.007
12
11 9 32.40
1.9798
2 5 30.7
9.951
13
9 33 48.44
2.1188
9 38 44.8
9.046
13
11 11 30.71
1.9709
1 55 33.6
9459
14
9 35 55.44
9.1146
9 29 40.9
9.084
14
11 13 28.91
1.9691
1 45 36.5
9453
15
9 38 2.19
9.1104
9 20 34.7
9.193
15
11*15 27.00
1.9679
1 35 39.3
9453
16
9 40 8.69
9,1063
9 11 26.3
9.158
16
11 17 24.98
1.9654
1 25 42.1
9459
17
9 42 14.95
9.1023
9 2 15.7
9.193
17
11 19 22.85
1.9637
1 15 45.0
9451
18
9 44 20.96
2.0982
8 53 3.1
9228
18
11 21 20.62
1.9620
1 5 48.0
9449
19
9 46 26.73
2.0943
8 43 48.4
9463
19
11 23 18.29
14603
0 55 51.1
9447
20
9 48 32.27
2.0904
8 34 31.7
9.905
20
11 25 15.86
1.9587
0 45 54.4
9.943
21
. 9 50 37.58
2.0865
8 25 13.0
9.327
21
11 27 13.34
1.9573
0 35 58.0
9.938
22
9 52 42.65
2.0826
8 15 52.5
9458
22
11 29 10.73
1.9557
0 26 1.8
9434
23
9 54 47.49
2.0788
8 6 30.1
9488
23
11 31 8.03
1.9543
0 16 5.9
9438
24
9 56 52.1 1
2.0751
N. 7 57 5.9
9.418
24
11 33 5.25
1.9529
N. 0 6 10.4
9493
VL
MAY, 1884.
79
GREENWICH MEAN TIME,
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Dlfllfor
1 Minute.
Declination.
Dlff.for
1 Minute.
Hour.
Right Ascension.
Diff.for
1 Minute.
Declination.
Biff, for
1 Minute.
M
ONDA
Y 5.
WEDNESDAY 7.
has
O 1 II
a
h m s
8
0
11 33 5.25
1.9599
N. 0 6 10.4
9.999
0
13 6 2.44
1.9356
S. 7° 31 ' 20.3
&909
1
11 35 2.38
1.9515
S. 0 3 44.8
9.916
1
13 7 58.59
1.9369
7 40 13.8
8.879
2
1 1 36 59.43
1.9509
0 13 39.5
9.909
2
13 9 54.78
1.9367
7 49 5.1
8.837
3
11 38 56.41
1.9490
0 23 33.8
9.901
3
13 11 51.00
1.9373
7 57 54.3
8.801
4
11 40 53.31
1.9477
0 33 27.6
9.899
4
13 13 47.26
1.9380
8 6 41.2
8.764
5
11 42 50.14
1.9465
0 43 20.9
9.883
5
13 15 43.56
14087
8 15 25.9
8.796
6
11 44 46£9
1.9453
0 53 13.6
9.873
6
13 17 39.90
1.9393
8 24 8.3
8.687
7
11 46 43.58
J .9443
1 3 5.7
9.869
7
13 19 36.28
1.9401
8 32 4Q.4
8.6-J6
8
11 48 40.21
1.9433
1 12 57.1
9.851
8
13 21 32.71
1.9409
8 41 26.1
8.008
9
11 50 36.78
1.9433
1 22 47.8
9.839
9
13 23 29.19
1.9416
8 50 1.4
8.566
10
11 52 33.29
1.9414
1 32 37.8
9.897
10
13 25 25.71
1.9494
8 58 34.3
8.598
11
11 54 29.75
1.9405
1 42 27.1
9.815
11
13 27 22.28
1 4)433
9 7 4.8
8.467
12
11 56 26.15
1.9396,
1 52 15.6
9.801
12
13 29 18.91
1.9449
9 15 32.8
8.446
13
11 58 22.50
1.9367
2 2 3.2
9.786
13
13 31 15.59
1.9451
9 23 58.3
8.403
14
12 0 18.80
1.9380
2 11 49.9
9.779
14
13 33 12.32
1.9460
9 32 21.2
0.360
15
12 2 15.06
1.9373
2 21 35.8
9.757
15
13 35 9.11
1.9470
9 40 41.5
8.317
16
12 4 11.28
1.9367
2 31 20.7
9.740
16
13 37 5.96
1.9479
9 48 59.2
8.979
17
12 6 7.46
1.9360
2 41 4.6
9.793
17
13 39 2.86
1.9486
9 57 14.2
8.997
18
12 8 3.60
1.9354
2 50 47.5
9.706
18
13 40 59.82
1.9499
10 5 26.5
8.189
19
12 9 59.71
1.9348
3 0 29.3
9.688
19
13 42 56.85
1.9510
10 13 36.1
8.137
20
12 11 55.78
1.9343
3 10 10.0
9.669
20
13 44 53.94
1.9590
10 21 43.0
8.099
21
12 13 51.82
1.9338
3 19 49.6
9.650
21
13 46 51.09
1.9531
10 29 47.1
8.045
22
12 15 47.84
1.9334
3 29 28.0
9.630
22
13 48 48.31
1.9549
10 37 48.4
7.997
23
12 17 43.83
Tt
1.9330
TESDA
S. 3 39 5.2
16.
9.610
23
13 50 45.60
TH
1.9553
UKSD.
S. 10 45 46.8
LY 8.
7.940
0
12 19 39.80
1.9387
S. 3 48 41.2
9.589
0
13 52 42.95
1.9564
S.10 53 42.3
7.901
1
12 21 35.75
1.9394
3 58 15.9
9.567
1
13 54 40.37
14)576
11 1 34.9
7.859
2
12 23 31.68
1.9391
4 7 49.3
9.545
2
13 56 37.87
1.9589
11 9 24.5
7.808
3
12 25 27.60
1.9318
4 17 21.3
9.599
3
13 58 35.44
1.9601
11 17 11.2
7.753
4
12 27 23.50
1.9317
4 26 51.9
9.498
4
14 0 33.08
1.9613
11 24 54.9
7.703
5
12 29 19.40
1.9316
4 36 21.1
9.475
5
14 2 30.80
1.9696
11 32 35.5
7.659
6
12 31 15,29
1.9314
4 45 48.9
9.451
6
14 4 28.59
1.9638
11 40 13.1
7.601
7
12 33 11.17
1.9313
4 55 15.2
9.496
7
14 6 26.46
14)651
11 47 47.6
7.548
8
12 35 7.05
1.9319
5 4 40.0
9.400
8
14 8 24.41
1.9664
11 55 18.9
7.495
9
12 37 2^2
1.9319
5 14 3.2
9.373
9
14 10 22.43
1.9677
12 2 47.0
7.449
10
12 38 58.80
1.9313
5 23 24.8
9.347
10
14 12 20.53
1.9690
12 10 11.9
7.388
11
12 40 54.68
1.9314
5 32 44.8
9.319
11
14 14 18.71
1.9704
12 17 33.6
7.335
12
12 42 50.57
1.9315
5 42 3.1
9.991
12
14 16 16.98
1.9718
12 24 52.1
7.981
13
12 44 46.46
1.9316
5 51 19.7
9.969
13
14 18 15.33
1.9739
12 32 7.3
7.995
14
12 46 42.36
1.9318
6 0 34.6
9.933
14
14 20 13.76
1.9746
12 39 19.1
7.169
15
12 48 38.28
1.9391
6 9 47.7
9.903
15
14 22 12.28
14)760
12 46 27.6
7.113
16
12 50 34.22
1.9394
6 18 59.0
9.173
16
14 24 10.88
1.9774
12 53 32.7
7.056
17
12 52 30.17
1.9397
6 28 8.5
9.149
17
14 26 9.57
1.9788
13 0 34.3
6.998
18
12 54 26.14
1.9330
6 37 16.1
9.111
18
14 28 8.34
1.9809
13 7 32.5
6.941
19
12 56 22.13
1.9333
6 46 21.8
9.079
19
14 30 7.20
1.98 J 7
13 14 27.2
6.883
20
12 58 18.14
1.9337
6 55 25.5
9.046
20
14 32 6.15
1.9839
13 21 18.4
6.824
21
13 0 14.17
1.9341
7 4 27.3
9.019
21
14 34 5.18
1.9846
13 28 6.1
6.765
22
13 2 10.23
1.9346
7 13 27.0
8.978
22
14 36 4.30
1.9861
13 34 50.2
6.705
23
13 4 6.32
1.9351
7 22 24.7
8.944
23
14 38 3.51
1.9877
13 41 30.7
6.644
24
13 6 2.44
1.9356
S. 7 31 20.3
8.909
24
14 40 2.82
1.9899
S.13 48 7.5
6.553
80
MAY, 1884.
VII.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION,
Hour.
Bight
DifLfor
1 Minute.
Declination.
Diftfor
1 Minute.
Hour.
Bight Aaoenslon.
Diff.for
1 Minute,
Declination.
Dint for
1 Minute,
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
22
23
24
h m
14 40
14 42
14 44
14 46
14 48
14 50
14 52
14 54
14 56
14 58
15 0
15
15
15
15
15 10
15 12
15 14
15 16
15 18
15 20
15 22
15 24
15 26
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
16
16
16
16
16
16
16
16
16
FEIDAY 9.
8
8
2.82
1.9803
S.1
2.22
1.9907
1.70
1.9991
1
1.27
10)936
J
0.93
1.9952
J
0.69
1.9967
Ji
0.54
1.9983
J
0.48
1.9997
]i
0.51
9.0013
J
0.64
3.0099
]i
0.86
3.0044
1
1.17
3.0060
J
1.58
2.0076
1
2.08
3.0091
1
2.67
2.0107
1
3.36
9.0199
1
4.14
9.0137
1
5.01
9.0159
t
5.97
9.0168
1
7.03
3.0184
1
8.18
8.0199
1
9.42
3.0914
1
0.75
9.0930
J
2.18
3.0946
S.1
48 7.5
54 40.7
1 10.2
7 36.0
13 58.0
20 16.2
26 30.7
32 41.3
38 48,0
44 50.9
50 49.9
56 44.9
2 35.9
8 22.9
14 5.9
19 44.8
25 19.7
30 50.4
36 17.0
41 39.4
46 57.6
52 11.6
57 21.4
2 27.0
SATURDAY 10.
28 13.7J)
3.0961
S.l4
30 15.31
9.0976
1<
32 17.01
9.0999
1<
34 18.81
9.0307
14
36 20.69
9.0391
14
38 22.66
9.0337
14
40 24.73
9.0359
]<
42 26.89
9.0367
14
44 29.13
3.0381
14
46 31.46
2*0396
14
48 33.88
3.0410
14
50 36.38
9.0494
14
52 38.97
9.0438
54 41.64
3.0453
56 44.40
3.0467
58 47.25
9.0489
ii
0 50.18
9.0405
2 53.19
9.0500
4 56.29
3.0593
6 59.47
8.0537
9 2.73
3.0549
11 6.06
9.0563
13 9.47
3.0575
15 12.96
8.0588
17 16.53
8.0601
S.1
16 7 28.3
16 12 25.2
16 17 17.8
16 22 6.1
16 26 50.0
16 31 29.4
16 36 4.4
16 40 34.9
16 45 1.0
16 49 22.6
16 53 39.7
16 57 52.2
17 2 0.2
6 3.6
10 2.3
13 56.4
17 45.8
21 30.6
25 10.7
28 46.1
32 16.8
35 42.7
39 3.8
42 20.1
45 31.7
6.583
6498
6.461
6.398
6.335
6.373
6.144
6.080
6.016
5.950
5.883
5.817
5.750
5.683
5.615
5.647
5.478
5.408
5.338
5.968
5.198
5.138
5.057
4.965
4.913
4.841
4.768
4.694
4.690
4.546
4.479
4.397
4.399
4.947
4.171
4.095
4.018
3.940
3.785
3.707
3.551
3.479
3.399
3.319
3.159
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
22
23
24
SUNDAY 11.
h m
16 17
16 19
16 21
16 23
16 25
16 27
16 29
16 31
16 33
16 35
16 37
16 40
16 42
16 44
16 46
16 48
16 50
16 52
16 54
16 56
16 58
17 0
17 2
17 4
17 7
17 9
17 11
17 13
17 15
17 17
17 19
17 21
17 23
17 25
17 27
17 30
17 32
17 34
17 36
17 38
17 40
17 42
17 44
17 46
17 48
17 50
17 53
1755
17 57
8
8
16.53
3.0601
20.17
3.0613
23.89
3.0896
27.68
3.0638
31.54
3.0850
35.48
3.0669
39.49
3.0674
43.57
8.0685
47.71
3.0896
51.92
8.0707
56.20
8.0716
0.54
3.0799
4.95
8.0740
9.42
3.0750
13.95
3.0760
ia54
3.0770
23.19
8.0779
27.89
8.0788
32.65
3.0798
37.47
8.0807
42,34
8.0816
47.26
3.0895
52.24
8.0834
57.27
8.0649
5.17 45 31.7
17 48 38.4
17 51 40.3
17 54 37.3
17 57 29.4
18 0 16.6
18 2 59.0
18 5 36.4
18 8 8.9
18 10 36.4
18 12 59.0
18 15 16.6
18 17 29.2
18 19 36.8
18 21 39.4
18 23 36.9
18 25 29.4
18 27 16.8
18 28 59.1
18 30 36.4
18 32 8.6
18 33 35.6
18 34 57.5
5.18 36 14,3
MONDAY 12.
2,34
7.46
12.63
17.84
23.09
28,39
33.73
39.11
44.52
49.97
55.45
0.97
6.52
12.10
17.71
23.35
29.01
34.70
40.42
46.16
51.92
57.70
3.50
9.32
15.15
2.0849
8.0857
8.0865
3.0873
2.0879
34)887
3.0893
3.0699
3.0905
3.0911
3.0917
3.0997
9.0939
9.0937
9.0949
9.0946
3.0951
3.0955
3.0958
8.0969
8.0965
9.0968
9.0971
9.0973
S.18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
18
S.18
37 26.0
36 32.5
39 33.9
40 30.1
41 21.2
42 7.1
42 47.8
43 23.3
43 53.6
44 18.8
44 38.7
44 53.4
45 2.8
45 7.0
45 6.0
44 59.8
44 48.4
44 31.7
44 9.8
43 42.7
43 10.3
42 32.7
41 49.8
41 1.7
40 8.3
3.153
3479
8491
8409
3496
3.747
3465
8489
9400
2.417
3435
8458
8.168
3485
8.001
1.917
1.833
1.748
1463
1479
1.493
1.407
1439
1437
1.153
1.066
0480
0.894
0.808
0.799
0.635
0449
0.463
0476
0488
0401
0.113
-0.037
+ 0460
0.147
0434
0491
0.408
0.496
0483
0.671
0.758
0446
0433
vin.
MAY, 1884.
81
GBEENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Difllfor
1 Minute.
Declination.
Difllfor
1 Minute.
Hour.
Bight Ascension.
Difllfor
1 Minute.
Declination.
Difllfor
1 Minute.
TU
ESDA
r is.
THTJESDAY 15.
h m s
8
O 1 tl
it
h m 8
8
Q t tl
a
0
17 57 15.15
8.0073
S.18 40 8.3
0433
0
19 37 53.24
9.0906
S.16 16 9.4
6408
1
17 59 2K00
84976
18 39 9.7
1491
1
19 39 58.68
9.0905
16 11 6.5
5468
2
18 1 26.86
84979
18 38 5.8
1.108
2
19 42 4.10
8.0901
16 5 58.8
5.168
3
18 3 32.73
84960
18 36 56.7
1.195
3
19 44 9.50
8.0897
16 0 46.3
5447
4
18 5 38.62
8.0988
18 35 42.4
1.889
4
19 46 14.87
9.0893
15 55 29.1
5487
5
18 7 44.52
8.0983
18 34 22.8
J .370
5
19 48 20.22
34690
15 50 7.1
5.408
6
18 9 50.42
9.0984
18 32 58.0
1.457
6
19 50 25.55
8.0887
15 44 40.4
6.484
7
18 11 56.33
84986
18 31 28.0
1444
7
19 52 30.86
84893
15 39 9.0
5463
8
18 14 2.25
8.0987
18 29 52.7
1.631
8
19 54 36.15
84880
15 33 32.9
5.641
9
18 16 8.18
8.0988
18 28 12.2
1.718
9
19 56 41.42
3.0877
15 27 52.1
5.718
10
18 18 14.11
8.0988
18 26 26.5
1.806
10
19 58 46.67
84873
15 22 6.7
5.795
11
18 20 20.04
8.0988
18 24 35.5
1.893
11
20 0 51.90
8.0870
15 16 ia7
5473
12
18 22 25.07
84989
18 22 39.3
1.980
12
20 2 57.11
8.0867
15 10 22.0
5460
13
18 24 31.91
84989
18 20 37.9
8.067
13
20 5 2.30
8.0863
15 4 22.7
6.096
14
18 26 37.84
84988
18 18 31.3
8.153
14
20 7 7.47
3.0860
14 58 18.9
6.109
15
18 28 43.77
84988
18 16 19.5
8.940
15
20 9 12.62
8.0857
14 52 10.5
6.178
16
18 30 49.70
9.0987
18 14 2.5
3496
16
20 11 17.76
8.0655
14 45 57.6
6453
17
18 32 55.62
84987
18 11 40.3
8.418
17
20 13 22.88
8.0853
14 39 40.2
6498
18
18 35 1.54
84987
18 9 iao
8.498
18
20 15 27.98
8.0849
14 33 18,3
6.403
19
18 37 7.46
84966
18 6 40.5
8485
19
20 17 33.07
9.0847
14 26 51.9
6.477
20
18 39 13.37
84984
18 4 2.8
8.678
20
20 19 38.14
9.0843
14 20 21.1
6450
21
18 41 19.27
8.0983
18 1 19.9
8.758
21
20 21 43.19
94841
14 13 45.9
6493
22
18 43 25.17
949S1
17 58 31.9
8.843
22
20 23 48.23
3.0838
14 7 6.3
6497
23
18 45 31.05
84979
S.17 55 38.8
8488
23
20 25 53.25
8.0637
S.14 0 223
6.770
WEI
)NESD
AY 14.
F]
RID AS
: 16.
0
18 47 36.92
9.0977
S.17 52 40.5
9414
0
20 27 58.27
8.0836
S.13 53 33.9
6449
1
18 49 42.78
8.0976
17 49 37.1
3.099
1
20 30 3.28
8.0833
13 46 41.2
. 6414
2
18 51 48.63
84974
17 46 28.6
3.185
2
20 32 8.27
3.0831
13 39 44.2
6486
3
18 53 54.47
9.0978
17 43 14.9
3.970
3
20 34 13.25
8.0899
13 32 42.9
7457
4
18 56 0.30
84970
17 39 56.2
3454
4
20 36 18.22
8.0898
13 25 37.3
7.188
5
18 58 an
8.0967
17 36 32.4
3.439
5
20 38 23.18
3.0897
13 18 27.5
7.198
6
19 0 11.91
9.0965
17 33 3.5
3483
6
20 40 28.14
94837
13 11 13.5
7.968
7
19 2 17.69
84969
17 29 29.6
3408
7
20 42 33.09
9.0895
13 3 55.3
7438
8
19 4 23.46
84960
17 25 50.6
3493
8
20 44 38.04
9.0894
12 56 32.9
7.408
9
19 6 29.21
84957
17 22 d5
3.777
9
20 46 42.98
34693
12 49 6.4
7.477
10
19 8 34.95
9.0955
17 18 17.4
3480
10
20 48 47.92
9.0893
12 41 35.7
7445
11
19 10 40.67
94959
17 14 23.3
3.943
11
20 50 52.86
9.0694
12 34 1.0
7419
12
19 12 46.37
34948
17 10 24.2
4.097
12
20 52 57.81
9.0894
12 26 22.2
7480
13
19 14 52.05
8.0945
17 6 20.1
4.110
13
20 55 2.75
94894
12 18 39.4
7.747
14
19 16 57.71
8.0949
17 2 11.0
4.199
14
20 57 7.70
9.0895
12 10 52.6
7414
15
19 1<J 3.36
9.0940
16 57 57.0
4.975
15
20 59 12.65
8.0895
12 3 1.7
7.881
16
19 21 8.99
94936
16 53 38.0
4457
16
21 1 17.60
9.0896
11 55 6.9
7446
17
19 23 14.59
8.0939
16 49 14.1
4.440
17
21 3 22.56
8.0837
11 47 8.2
8.011
18
19 25 20.17
94998
16 44 45.2
4499
18
21 5 27.53
84698
11 39 5.6
8476
19
19 27 25.73
84935
16 40 11.4
4.604
19
21 7 32.50
8.0830
11 30 59.1
8.140
20
19 29 31.27
9.0999
16 35 32.7
4.685
20
21 9 37.49
3.0632
11 22 48.8
8.903
21
19 31 36.80
9.09J9
16 30 49.2
4.766
21
21 11 42.49
8.0835
11 14 34.7
8.967
22
19 33 42.30
8.0915
16 26 0.8
4447
22
21 13 47.51
3.0837
11 6 16,8
8.330
23
19 35 47.78
8.0913
16 21 7.5
4.998
23
21 15 52.54
8.0640
10 57 55,1
6*39?
24
19 37 53.24
94908
S.16 16 9.4
5408
24
21 17 57.59
84843
S,10 49 29 J
8.454
32
MAT, 1884.
IX.
GREENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hoar.
Right Ascension.
Difffor
1 Minute.
Declination.
Diff.for
1 Minute.
Hour.
Right Ascension.
Dtftfor
1 Minute.
Declination.
Diff.for
1 Minute.
SATUBDAY 17.
MONDAY 19.
h m 8
s
Q 1 II
//
h ra a
s
Q 1 II
u
0
21 17 57.59
9.0843
S.10 49 29.7
8.454
0
22 59 0.38
9.1411
S. 3 3 4.7
10.733
1
21 20 2.66
9.0847
10 41 0.6
&516
1
23 1 8.92
9.1434
2 52 19.8
10.763
2
21 22 7.75
9.0650
10 32 27.8
8^77
2
23 3 17.59
9.1457
2 41 33.1
10.799
3
21 24 12.86
9.0854
10 23 51.4
8.637
3
23 5 26.40
9.1480
2 30 44.7
10.891
4
21 26 18.00
9.0858
10 15 11.4
8.697
4
23 7 35.35
9.1504
2 19 54.6
10.849
5
21 28 23.16
9.0809
10 6 27.8
8.757
5
23 9 44.45
9.1598
2 9 2.8
10476
6
21 30 28.35
9.0867
9 57 40.6
8.816
6
23 11 53.09
9.1559
1 58 9.5
10401
7
21 32 33.57
90)679
9 48 49.9
8.874
7
23 14 3.08
9.1577
1 47 14.7
10496
8
21 34 38.82
9.0877
9 39 55.8
8.931
8
23 16 12.62
9.1603
1 36 18.4
10.961
9
21 36 44.10
9.0883
9 30 58.2
8.968
9
23 18 22.32
9.1630
1 25 20.6
10.975
10
21 38 49.42
9.0600
9 21 57.2
9.045
10
23 20 32.18
9.1657
1 14 21.4
10497
11
21 40 54.78
9.0807
9 12 52.8
9.101
11
23 22 42.20
9.1683
1 3 21.0
11.018
12
21 43 0.18
90)903
9 3 45.1
9.156
12
23 24 52.38
9.1711
0 52 19,3
11.038
13
21 45 5.62
9.0910
8 54 34.0
9.919
13
23 27 2.73
9.1739
0 41 16.4
11.058
14
21 47 11.10
3.0918
8 45 19.7
9.966
14
23 29 13.25
9.1768
0 30 12.3
11.076
15
21 49 16.63
9.0996
8 36 2.1
9.390
15
23 31 23.94
9.1797
0 19 7.2
11.093
16
21 51 22.21
9.0934
8 26 41.3
9.373
16
23 33 34.81
9.1897
S. 0 8 1.1
11.110
17
21 53 27.84
90)943
8 17 17.3
9.496
17
23 35 45.86
9.1856
N. 0 3 6.0
11.197
18
21 55 33.52
9.0959
8 7 50.1
9.479
18
23 37 57.08
9.1686
0 14 14.1
11.149
19
21 57 39.26
9.0961
7 58 19.8
9.530
19
23 40 8.49
9.1917
0 25 23.0
11.155
20
21 59 45.05
9.0970
7 48 46.5
9.581
20
23 42 20.09
9.1949
0 36 32.7
11.167
21
22 1 50.M
9.0980
7 39 10.1
9.639
21
23 44 31.88
9.1981
0 47 43.1
11.179.
22
22 3 56.81
9.0991
7 29 30.7
9.681
22
23 46 43.86
9.9013
0 58 54.2
11.190
23
22 6 2.79
SI
9.1009
JNDA1
S. 7 19 48.4
Z 18.
9.730
23
23 48 56.04
TIT
94047
ESDA^!
N. 1 10 5.9
r 20.
11.199
0
22 8 8.84
9.1014
S. 7 10 3.1
9.779
0
23 51 8.42
9.9080
N. 1 21 18.1
11407
1
22 10 14.96
9.1096
7 0 14.9
9.897
1
23 53 21.00
94113
1 32 30.8
11415
2
22 12 21.15
9.1037
6 50 23.9
9.674
2
23 55 33.78
9.9147
1 43 43.9
11.991
3
22 14 27.41
9.1049
6 40 30.1
9.990
3
23 57 46.77
9.9189
1 54 57.3
11496
4
22 16 33.74
9.1069
6 30 33.5
9.966
4
23 59 59.97
94917
2 6 11.0
11430
5
22 18 40.15
9.1075
6 20 34.2
10.010
5
0 2 13,38
94953
2 17 24.9
11.933
6
22 20 46.64
9.1089
6 10 32.3
10.054
6
0 4 27.01
94989
2 28 39.0
11.936
7
22 22 53.22
9.1103
6 0 27.7
10.096
7
0 6 40.85
94395
2 39 53.2
11.937
8
22 24 59.88
9. I 117
5 50 20.5
10.149
8
0 8 54.91
9.9363
2 51 7.4
11.935
9
22 27 6.63
9.1139
5 40 10.6
10.185
9
0 11 9.20
9.9401
3 2 21.4
11433
10
22 29 13.47
9.1148
5 29 58.2
10.997
10
0 13 23.72
9.9439
3 13 35.3
11431
11
22 31 20.41
9.1165
5 19 43.4
10.968
11
0 15 38.47
94477
3 24 49.1
11.998
12
22 33 27.45
9.1181
5 9 26.1
10.308
12
0 17 53.45
94516
3 36 2.6
11.993
13
22 35 34.58
9.1197
4 59 6.4
10.347
13
0 20 8.66
9.9555
3 47 15.8
11416
14
22 37 41.82
9.1915
4 48 44.4
10.386
14
0 22 24.11
9.9595
3 58 28.5
11408
15
22 39 49.16
9.1339
4 38 20.1
10.494
15
0 24 39.80
94635
4 9 40.7
11.199
16
22 41 56.60
9.1950
4 27 53.5
10.469
16
0 26 55.73
9.9675
4 20 52.4
11.189
17
22 44 4.16
9.1969
4 17 24.7
10.498
17
0 29 11.90
9.9716
4 32 3.4
11.177
18
22 46 11.83
9.1988
4 6 53.7
10.534
18
0 31 28.32
94757
4 43 13.7
11.165
19
22 48 19.62
9.1308
3 56 20.6
10.569
19
0 33 44.99
94799
4 54 23.2
11.151
20
22 50 27.53
9.1398
3 45 45.4
10.603
20
0 36 1.91
94849
5 5 31.8
11.136
21
22 52 35.56
9.1348
3 35 8.2
10.637
21
0 38 19.09
94884
5 16 39.5
11.190
22
22 54 43.71
9.1368
3 24 29.0
10.670
22
0 40 36.52
9.9997
5 27 46.2
11.103
23
22 56 51.98
9.1389
3 13 47.8
10.709
23
0 42 54.21
94970
5 38 51.8
11.083
24
i 22 59 0.38
9.1411
S. 3 3 4.7
10.733
24
0 45 12.16
9-3014
N. 5 49 56.1
11.069
X.
MAY, 1884.
83
GKEENWICH MEAff TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
Right Ascension.
Difffor
1 Minute.
Declination.
Diff.for
1 Minute.
Hour.
Right Ascension.
Difll for
1 Minute.
Declination.
DifT.for
1 Minute.
WEI
)NESD
>AY 21.
FEIDAY 23.
h m s
a
O 9 It
a
h m s
8
o / //
a
0
0 45 12.16
9.3014
N. 5 49 56.1
11.069
0
2 41 7.45
84307
N.13 50 16.0
8477
1
0 47 30,38
84058
6 0 59.2
11.041
1
2 43 39.43
8.5359
13 58 35.9
8485
2
0 49 48.86
84103
6 12 1.0
11.016
2
2 46 11.68
84397
14 6 50.2
8.191
3
0 52 7.60
8.3146
623 U
10.993
3
2 48 44.20
9*5442
14 14 58.8
8.095
4
0 54 26.61
34199
6 34 0.1
10.968
4
2 51 16.99
84487
14 23 1.6
7.996
5
0 56 45.90
9.3937
6 44 57.4
10.941
5
2 53 50.04
8.5531
14 30 58.6
7.900
6
0 59 5.46
9.3989
6 55 53.0
10.919
6
2 56 23.36
8.5574
14 38 49.6
7.600
7
1 1 25.29
9.3398
7 6 46.8
10.889
7
2 58 56.93
9-5617
14 46 34.6
7.699
8
1 3 45.40
9.3375
7 17 38.8
10.851
8
3 1 30.76
84659
14 54 13.5
7497
9
1 6 5.79
2.3429
7 28 28.9
10.818
9
3 4 4.84
94701
15 1 46.2
7.493
10
1 8 26.46
84468
7 39 16.9
10.783
10
3 6 39.17
8.5743
15 9 12.6
7487
11
1 10 47.41
9.3515
7 50 2.8
10.748
11
3 9 13.74
8.5789
15 16 32.6
7.980
12
1 13 8.64
84563
8 0 46.6
10.711
12
3 11 48.55
84833
15 23 46.2
7.179
13
1 15 30.16
9*3610
8 11 28.1
10.679
13
3 14 23.60
84861
15 30 53.3
7.063
14
1 17 51.96
9.3658
8 22 7.3
10.639
14
3 16 58.88
84899
15 37 53.8
6.953
15
1 20 14.05
9-3706
8 32 44.0
10.591
15
3 19 34.39
84938
15 44 47.6
6441
16
1 22 36.43
9.3754
8 43 18.2
10.548
16
3 22 10.13
84976
15 51 34.7
6.787
17
1 24 59.10
84809
8 53 49.8
10.503
17
3 24 46.10
84013
15 58 14.9
6418
18
1 27 22.05
9.3850
9 4 18.6
10.457
18
3 27 22.28
8.6047
16 4 48.2
6.497
19
1 29 45.30
9.3899
9 14 44.6
10.4 H)
19
3 29 58.67
8.6084
16 11 14.6
6481
20
1 32 8.84
94948
9 25 7.8
10.369
20
3 32 35.26
8.6116
16 17 33.9
6463
21
1 34 32.68
8.3997
9 35 28.0
10.311
21
3 35 12.06
8.6150
16 23 46.1
6.144
2*
1 36 56.81
9.4046
9 45 45.1
10.959
22
3 37 49.06
8.6189
16 29 51.2
6.094
23
1 39 21.23
TH1
9.4095
JESDJ
N. 9 55 59.1
IlY 22.
10.807
23
3 40 26.24
SAT
3.6913
N.16 35 49.0
lY 24.
5409
0
1 41 45.95
9.4144
N.10 6 9.9
10.159
<>1
3 43 3.61
3.6343
N.16 41 39.4
6.779
1
1 44 10.1)6
9.4193
10 16 17.3
10.095
1
3 45 41.16
8.6973
16 47 22.4
5.656
2
1 46 36.27
9.4943
10 26 21.3
10.037
2
3 48 18.89
8.6309
16 52 58.1
5438
3
1 49 1.88
9.4999
10 36 21.8
9.978
3
3 50 56.79
8.6330
16 58 26.3
5.407
4
1 51 27.78
3.4349
10 46 18.7
9.917
4
3 53 34.85
8.6358
17 3 46.9
5.880
5
1 53 53.98
9.4399
10 56 11.8
9.853
5
3 56 13.08
8.6384
17 8 59.9
5.153
6
I 56 20.48
9.4441
11 6 1.1
9.789
6
3 58 51.46
9.6408
17 14 5.2
5.034
7
1 58 47.27
8.4490
1 1 15 46.5
9.794
7
4 1 29.98
8.6433
17 19 2.8
4495
8
2 1 14.36
8.4540
11 25 28.0
9.657
8
4 4 8.65
9.6456
17 23 52.6
4.765
9
2 3 41.75
8.4589
11 35 5.4
9.588
9
4 6 47.45
8.6478
17 28 34.6
4434
10
2 6 9.43
8.4638
11 44 38.6
9 518
10
4 9 26.38
8.6498
17 33 8.7
4409
11
2 8 37.40
8.4687
11 54 7.6
9.447
11
4 12 5.43
9.6518
17 37 34.9
4470
12
2 11 5.67
9.4736
12 3 32.3
9.374
12
4 14 44.60
8.6537
17 41 53.1
4.337
13
2 13 34.23
8.4784
12 12 52.5
9.999
13
4 17 23.88
8.6555
17 46 3.3
4.103
14
2 16 3.08
8.4833
12 22 8.2
9.899
14
4 20 3.26
8.0571
17 50 5.4
3.968
15
2 18 32.22
9.4889
12 31 19.2
9.144
15
4 22 42.73
86586
17 53 59.5
3.833
16
2 21 1.67
9.4931
12 40 25.5
9.066
16
4 25 22.29
8.6601
17 57 45.4
3.697
17
2 23 31.40
8.4978
12 49 27.1
8.986
17
4 28 1.94
84614
18 1 23.1
3460
18
2 26 1.41
8.5086
12 58 23.8
8.903
18
4 30 41.66
8.6696
18 4 52.6
3.493
ro
2 28 31.71
9.5074
13 7 15.5
8.819
19
4 33 21.45
3.6637
18 8 13.9
3466
1 so
2 31 2,30
34133
13 16 2.1
8.733
20
4 36 1.30
9.6646
18 11 26.9
3.148
21
2 33 33.17
8.5166
13 24 43.5
8.647
21
4 38 41.20
3.66M
18 14 31.6
3.009
22
2 36 4.32
84315
13 33 19.7
8459
22
4 41 21.15
3.6663
18 17 28.0
9.870
23
2 38 35.75
84361
13 41 50.6
8.469
23
4 44 1.14
3.6668
18 20 16.0
9.730
24
2 41 7.45
8.5307
N.13 50 16.0
8.377
24
4 46 41.17
3.6673
N.18 22 55.6
8490
84
MAT, 1884.
XL
GBEENWICH MEAN TIME.
-
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Asoenaion.
DiflLibr
1 Minute.
DMliaatUm.
Biff, for
1 Minute.
Hour.
Bight Ascension.
Diff.for
1 Minute.
Declination.
Difffor
1 Minute.
si
J2TDA1
f 25.
TUESDAY 27.
/
h m a
8
O 1 it
//
h m a
8
O t II
*/
0
4 46 41.17
84973
N.18 22 55.6
9490
0
6 52 59.62
84639
N.17 47 22.9
3403
1
4 49 21.22
84677
18 25 26.8
9.450
I
6 55 32.67
34485
17 43 25.1
4431
2
4 52 1.29
8.6078
18 27 49.6
3410
2
6 58 5.44
84437
17 39 20.3
4.128
3
4 54 41,36
8.6679
18 30 4.0
8.170
3
7 0 37-92
84388
17 35 8.5
4455
4
4 57 21.44
84680
18 32 10.0
8.089
4
7 3 10.10
84338
17 30 49.7
4478
5
5 0 1.52
8.6678
18 34 7.5
1.887
5
7 5 41.98
84888
17 26 23.9
4.487
6
5 2 41.58
8.6675
18 35 56.5
1.746
6
7 8 13.56
84837
17 21 51.3
4400
7
5 5 21.62
84678
18 37 37.0
1.605
7
7 10 44.83
34186
17 17 11.9
4.713
8
5 8 1.64
84607
18 39 9.1
1.464
8
7 13 15.79
84134
17 12 25.8
4434
9
5 10 41.63
8.6661
18 40 32.7
1483
9
7 15 46.43
94081
17 7 33.0
4434
10
5 13 21.57
2.6653
18 41 47.8
1.189
10
7 18 16.76
94037
17 2 33.7
5443
11
5 16 1.47
8.6646
18 42 54.5
1440
11
7 20 46.76
8.4973
16 57 27.9
5.151
12
5 18 41.31
8.6634
18 43 52.6
0498
12
7 23 16.44
8.4919
16 52 15.6
5457
13
5 21 21.08
3.6683
18 44 42.2
0.757
13
7 25 45.79
8.4865
16 46 57.0
5463
14
5 24 0.79
8.6618
18 45 23.4
0416
14
7 28 14.82
8.4811
16 41 32.1
5.468
15
5 26 40.42
3.6598
18 45 56.1
0.474
15
7 30 43.52
8.4756
16 36 0.9
5.571
16
5 29 19.96
3.6583
18 46 20,3
0433
16
7 33 11.89
8.4700
16 30 23.6
5473
17
5 31 59.41
8.6567
18 46 36.1
0.199
17
7 35 39.92
3.4643
16 24 40.2
5.773
18
5 34 38.76
3.6549
18 46 43.4
+ 0.058
18
7 38 7.61
8.4587
16 18 50.8
5473
19
5 37 18.00
8.6531
18 46 42.3
-0488
19
7 40 34.96
8.4530
16 12 55.5
5471
20
5 39 57.13
8.6513
18 46 32.8
0437
20
7 43 1.97
8.4473
16 6 54.3
6468
21
5 42 36.14
8.6491
18 46 15.0
0467
21
7 45 28.64
8.4417
16 0 47.4
6.163
22
5 45 15.02
8.6468
18 45 48.8
0407
22
7 47 54.97
9.4359
15 54 34.8
6458
23
5 47 53.76
84445
MTDA!
N.18 45 14.2
r 26.
0446
23
7 50 20.95
WEI
9.4301
)NESD
N.15 48 16.5
AT 28.
0453
0
5 50 32.36
94431
N.18 44 31.3
0.784
0
7 52 46.58
84848
N.15 41 52.6
6.443
1
5 53 10.81
8.6396
18 43 40.1
0433
1
7 55 11.86
9.4185
15 35 23.3
6433
2
5 55 49.11
84969
18 42 40.7
1.059
2
7 57 36.80
9.4197
15 28 48.6
6433
3
5 58 27.24
9.6341
18 41 33.0
1.196
3
8 0 1.39
3.4069
15 22 8.5
6.719
4
6 1 5.20
84318
18 40 17.1
1439
4
8 2 25.63
9.4010
15 15 23.2
6.798
5
6 3 42.99
3.6383
18 38 53.1
1.467
5
8 4 49.51
94951
15 8 32.7
6484
6
6 6 20.60
84358
18 37 21.0
1.603
6
8 7 13.04
94899
15 1 37.1
6468
7
6 8 58.02
84331
18 35 40.8
1.737
7
8 9 36.22
94834
14 54 36.5
7459
8
6 11 35.25
34188
18 33 52.5
1.873
8
8 11 59.05
84775
14 47 39.9
7.133
9
6 14 12.27
84153
18 31 56.2
3405
9
8 14 21.52
84716
14 40 20.5
7.913
10
6 16 49.09
34118
18 29 51.9
8.137
10
8 16 43.64
84657
14 33 5.3
7493
11
6 19 25.69
3.6083
18 27 39.7
8468
11
8 19 5.41
84599
14 25 45.3
7479
12
6 22 2.07
84045
18 25 19.7
8499
12
8 21 26.83
84540
14 18 20.6
7.449
13
6 24 38.23
8.6007
18 22 51.8
8430
13
8 23 47.89
84481
14 10 51.4
7424
14
6 27 14.16
84968
18 20 16.1
8459
14
8 26 8.60
84433
14 3 17.7
7498
15
6 29 49.85
84938
18 17 3*7
8.787
15
8 28 28.96
84364
13 55 39.6
7.679
16
6 32 25.30
34888
18 14 41.6
8415
16
8 30 48.97
8.3306
13 47 57.1
7.744
17
6 .35 0.51
34847
18 11 42.9
3.048
17
8 33 8.63
94347
13 40 10.3
7.814
18
6 37 35.46
34804
18 8 36.6
3.168
18
8 35 27.93
84188
13 32 19.4
74(0
19
6 40 10. 16
34761
18 5 22.8
3.393
19
8 37 46.88
84130
13 24 24.4
7459
20
6 42 44.59
3.5717
18 2 1.5
3.417
20
8 40 5.49
84079
13 16 25.2
6.030
21
6 45 18.76
34678
17 58 32.8
3439
21
8 42 23.75
34014
13 8 22.0
8.086
22
6 47 52.66
84637
17 54 56.8
3461
22
8 44 41.66
8.3957
13 0 14.9
8.150
23
6 50 26.28
34580
17 51 13.5
3.783
23
8 46 59.23
3.3900
12 52 4.0
6.813
24
6 52 59.62
84533
N.17 47 22.9
3403
24
8 49 16.46
94843
N.12 43 49.4
8.374
XII.
MAY, 1884.
85
GEEENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Huor.
Bight Aaoeosion.
Difffor
1 Minute.
Declination.
DiCfor
1 Minute.
Hoar.
Bight Ascension.
Diff.tor
1 Minute.
Declination.
Diff.for
1 Minute.
TH1
TRSDA
lY 29.
SATURDAY 31.
h m s
8
o / u
n
h m s
8
O / f*
n
0
8 49 1&46
94843
N.12 43 49.4
6474
0
10 32 59.16
94549
N. 5 16 a2
9489
1
8 51 33.35
94786
12 35 31.1
6436
1
10 35 2^0
94506
5 6 8.5
10401
2
8 53 49.89
9.9796
12 27 9.1
8496
2
10 37 5.23
94470
4 56 ai
10419
3
8 56 6.09
94679
12 18 43.6
8.454
3
10 39 7.94
94434
4 46 7.0
10494
4
8 58 21.95
94616
12 10 14.6
6419
4
10 41 10.44
94400
4 36 5.2
10.035
5
9 0 37.48
94560
12 1 42.2
6468
5
10 43 12.74
94967
4 26 2.8
10.044
6
9 2 52.67
94504
11 53 6.4
64S3
6
10 45 14.84
94333
4 15 59.9
10469
7
9 5 7.52
94446
11 44 27.4
8477
7
10 47 16.74
94301
4 5 56.5
10460
8
9 7 22.05
94394
11 35 45.2
6.730
8
10 49 ia45
94969
3 55 52.7
10467
9
9 9 36.25
94339
11 26 59.8
8.789
9
10 51 19.97
94937
345 48^
10473
10
9 11 50.12
94985
11 18 11.4
8.839
10
10 53 21.30
94906
3 35 43.9
10479
11
9 14 3.67
94931
11 9 20.0
8489
11
10 55 22.44
94175
3 25 39.0
10.063
12
9 16 16.89
94177
11 0 25.6
8430
12
10 57 23.40
9.0145
3 15 33.9
10.067
13
9 18 29.79
94J93
10 51 28.4
8477
13
10 59 24.18
94116
3 5 28J>
10491
14
9 20 4237
94071
10 42 28.4
9493
14
11 1 24.79
94067
2 55 23.0
10493
15
9 22 54.64
94018
10 33 25.7
9468
15
11 3 25.23
9.0059
2 45 17.4
10494
16
9 25 6.59
9.1966
10 24 20.3
9.119
16
11 5 25.50
94039
2 35 11.7
10.096
17
9 27 18.23
9.1914
10 15 12.3
9.154
17
11 7 25.61
9.0004
2 25 5.9
10497
18
9 29 29.56
9.1803
10 6 1.8"
9.196
18
11 9 25.55
14978
2 15 0.1
10.096
19
9 31 40.58
9.1819
9 56 48.8
9437
19
11 11 25.34
14059
2 4 54.4
10494
20
9 33 51,30
' 9.1769
9 47 33.4
9.976
20
11 13 24.97
14696
1 54 4a8
10.093
21
9 36 1.72
9.1719
9 38 15.7
9414
21
11 15 24.45
14901
1 44 4&2
10491
22
9 38 11.84
9.1669
9 28 55.7
9459
22
11 17 23.78
14877
1 34 37.8
10466
23
9 40 21.66
9.1619
N. 9 19 33.4
9489
23
11 19 22.97
14693
N. 1 24 32.6
10464
¥1
EtIDAI
: 30,
sum
)AT, J
UNE 1.
0
1
9 42 31.18
9 44 40.41
9.1563
9.1515
N. 9 10 9.0,
9 0 42.5
9.494
9.458
0 | 11 21 22.02
| 14830
N. 1 14 27.7
| 10479
2
9 46 49.36
9.1467
8 51 14.0
9.409
3
9 48 58.02
9.1490
8 41 43.5
9494
4
9 51 6.40
9.1373
8 32 11.1
9456
5
9 53 14.50
9.1396
8 22 36.8
9466
PHASES
OF T
HE MOON
6
7
9 55 22.32
9 57 29.86
3.1980
8 13 0.8
8 3 23.0
9.615
9.1935
9444
8
9 59 37.14
9.1191
7 53 43.5
9.679
d h
9
10
10 1 44.15
10 3 50.89
9.1146
9.1109
7 44 2.4
7 34 19.7
9498
9.794
J> First Quart
er . .
. 1 18
7.5
11
10 5 57.37
9.1058
7 24 35.5
9.746
O Full Moon
• • •
. 9 16
7.6
12
10 8 3.59
9.1015
7 14 49.9
9.779
<C Last Quart*
wr. . .
. 17 16
54.7
13
14
10 10 9.55
10 12 15.26
9.0979
94931
7 5 2.9
6 55 14.5
9.795
9417
# New Moon
• • •
. 24 10
36.5
15
10 14 20.72
9.0890
6 45 24.8
9439
J> First Quart
er • .
. 31 4
56.5
16
10 16 25.94
94849
6 35 33.8
9459
17
18
10 18 30.91
10 20 35.64
94808
9.0768
6 25 41.7
6 15 48.5
9.876
9.896
19
10 22 40.13
9.0799
6 5 54.2
9414
d h
20
10 24 44 39
94691
5 55 58.8
9.931
(C Anome . .
• 10 12£
21
22
10 26 48.42
10 28 52.22
9.0653
94615
5 46 2.5
5 36 5.3
9446
9.961
<C Perigee • •
• 24 6.7
23
10 30 55.80
9.0578
5 26 7.2
9476
24
10 32 59.16
94549
N. 5 1Q 8.2
9.986
86
MAY, 1884.
XIII.
GREENWICH MEAN TIME.
LUNAE DISTANCES.
Name and Direction
Noon.
P.L.
of
ma.
P.L.
of
VPu
P.L.
of
IX*.
P.L.
of
I*
of Object.
Diff.
Diff.
Diff.
Diff.
1
Sun
W.
O / //
80 33 20
9788
O / //
82 8 4
9805
83 42 26
88B9
85 16 25
3640
Aldebaran
W.
53 34 38
3469
55 16 35
9484
56 58 10
9501
58 39 22
3517
Saturn
W.
52 38 50
8510
54 19 50
9536
56 0 27
9549
57 40 42
3558
Venus
W.
33 3 17
2910
37 35 23
3930
39 7 17
3930
40 38 58
9940
Spica
E.
80 5 41
9469
78 23 44'
84F4
76 42 9
9501
75 0 57
3517
2
Sun
W.
93 0 50
2923
94 32 39
3939
96 4 8
3955
97 15 17
3971
Aldebaran
W.
66 59 56
SS93
68 39 0
3609
70 17 43
9634
71 56 6
9638
Saturn
W.
65 56 30
2035
67 34 37
3651
69 12 23
3666
70 49 49
3680
Venus
W.
48 13 51
3000
49 44 4
3013
51 14 1
3036
52 43 42
3039
Pollux
W.
26 27 57
3091
27 56 18
3054
29 25 24
3035
30 55 6
3003
Spica
E.
m 40 26
3595
65 1 24
9610
63 22 42
3684
61 44 20
3639
Antnres
E.
112 5 56
9644
110 28 1
9657
108 50 24
3673
107 13 6
9686
3
Sun
W.
105 6 11
3047
106 35 26
3061
108 4 24
3074
109 33 5
3068
Aldebaran
W.
80 3 13
8707
81 39 44
3730
83 15 57
3733
84 51 53
3746
Saturn
W.
78 52 13
2750
80 27 47
3763
82 3 3
3776
83 38 2
37(>8
Venus
W.
60 8 11
3101
61 36 19
3114
63 4 11
3137
64 31 48
3138
Pollux
W.
38 28 41
3951
39 59 55
9948
41 31 13
3947
43 2 32
8947
Jupiter
W.
31 32 49
9838
33 6 41
9835
34 40 24
3849
36 13 57
8650
Spica
E.
53 37 23
9709
52 0 55
2729
50 24 45
3735
48 48 52
3748
Aiitares
E.
99 11 8
9753
97 35 37
8764
96 0 22
8777
94 25 24
9789
4
Sun
W.
116 52 25
3159
118 19 31
3164
119 46 23
3176
121 13 1
3186
Aldebaran
W.
1*2 47 31
3804
94 21 53
3815
95 56 1
3896
97 29 55
3837
Venus
W.
71 46 21
3196
73 12 35
3907
74 38 36
3918
76 4 24
3339
Pollux
W.
50 38 44
9961
52 9 46
3965
53 40 43
9969
55 11 34
8974
Jupiter
W.
43 59 5
3899
45 31 34
9901
47 3 52
3910
48 35 58
9919
Mars
W.
26 31 53
3103
27 59 59
3100
29 28 9
3096
30 56 21
3098
Spica
E.
40 53 35
9808
39 19 18
3890
37 45 16
3831
36 11 29
3849
Antares
E.
86 34 30
9848
85 1 5
8859
83 27 54
3870
81 54 57
9881
5
Venus
W.
83 10 24
3977
84 35 2
3386
85 59 30
3394
87 23 48
3304
Pollux
W.
62 44 11
3009
64 14 21
3008
65 44 24
3013
67 14 21
3018
Jupiter
W.
56 13 47
9961
57 44 49
8969
59 15 41
3976
60 46 24
9983
Mars
W.
38 16 55
3119
39 44 50
3117
41 12 39
3191
42 40 23
3136
Regulus
W.
25 43 50
9959
27 14 54
8960
28 45 57
8963
30 16 57
9965
Antares
E.
74 13 35
9939
72 41 57
9949
71 10 31
8951
69 39 17
8960
6
Venus
W.
94 22 51
3343
95 46 13
3351
97 9 26
3358
98 32 31
3365
Pollux
W.
74 42 18
3047
76 11 32
3053
77 40 40
3058
79 9 41
3064
Jupiter
W.
68 17 42
3018
69 47 32
3035
71 17 14
3031
72 46 48
3038
Mars
W.
49 57 33
3151
51 24 41
3157
52 51 42
3163
54 18 37
3166
Regulus
W.
37 50 54
9985
39 21 26
3989
40 51 53
3993
42 22 14
8997
Antnres
E.
62 5 57
3005
60 35 50
3013
59 5 54
9039
57 36 9
3030
7
Pollux
W.
86 33 9
3089
88 1 32
3094
89 29 49
3099
90 58 0
3103
Jupiter
W.
80 12 49
3065
81 41 41
3070
83 10 27
3075
84 39 7
3080
Mars
W.
61 31 48
3189
62 58 10
3194
64 24 26
3198
65 50 37
3308
Regulus
W.
49 52 39
3019
51 22 28
3033
52 52 12
3097
54 21 51
3030
Antares
E.
50 9 58
3073
48 41 16
3089
47 12 44
3091
45 44 23
3100
8
Jupiter
W.
92 1 4
3101
93 29 12
3105
94 57 16
3108
96 25 16
3113
XIV.
MAY, 1884.
87
GREENWICH MEAN TIME,
-
LUNAR DISTANCES.
5d
P.L.
P.L.
P.L.
P.L.
"Sg
Name and Direction
Midnight.
of
XVh.
of
xvina
of
xxi*.
of
£*
of Object.
dut.
DHL
Dlff.
Dlff.
1
Sun
W.
o / //
86 50 1
8867
88 23 15
9673
O I H
89 56 8
9880
91° 28' 40
9907
Aldebaran
W.
60 20 12
9533
62 0 40
9548
63 40 47
9564
65 20 32
9579
Saturn
w.
59 20 35
9574
61 0 6
9580
62 39 15
9605
64 18 3
9691
VEKUS
w.
42 10 26
9851
43 41 40
9963
45 12 39
9975
46 43 23
9988
Spica
E.
73 20 7
9533
71 39 39
9548
69 59 33
9564
68 19 49
9560
2
Sun
W.
99 6 6
9965
100 36 36
3009
102 6 46
3017
103 36 38
3039
Aldebarau
W.
73 34 9
9*53
75 11 52
9666
76 49 17
9680
78 26 24
9683
Saturn
W.
72 26 56
9605
74 3 43
9709
75 40 11
9793
77 16 21
9736
Vekus
w.
54 13 7
3059
55 42 16
3064
57 11 10
3077
58 39 48
3069
Pollux
w.
32 25 15
9865
33 55 46
9979
35 26 34
9963
36 57 33
9856
Spica
£.
60 6 18
9654
58 28 36
9668
56 51 13
9669
55 14 9
9698
Aiitares
£.
105 36 7
9689
103 59 26
9719
102 23 2
9725
100 46 56
9739
3
Sun
W.
111 1 29
3101
112 29 37
3115
113 57 28
3196
115 25 4
3140
Aldebaran
W.
86 27 32
9756
88 2 55
9770
8938 2
9789
91 12 54
9793
Saturn
W.
85 12 45
9801
86 47 11
9614
88 21 21
9695
89 55 16
9637
Venus
W.
65 59 11
3150
67 26 20
3169
68 53 14
3174
70 19 54
3185
Pollux
\V.
44 33 51
9948
46 5 9
9950
47 36 25
9953
49 7 37
9957
Jupiter
W.
37 47 20
9658
39 20 32
9666
40 53 34
9675
42 26 25
9683
Spica
E.
47 13 16
9761
45 37 57
9773
44 2 54
9765
42 28 7
9797
Aiitares
E.
92 50 42
9801
91 16 16
9613
89 42 5
9895
88 8 10
9837
4
Sun
W.
122 39 25
3189
124 5 36
3910
125 31 33
3990
126 57 18
3930
Aldebaran
W.
99 3&5
9847
100 37 2
9856
102 10 17
9666
103 43 19
9678
Venus
W.
77 29 59
3339
78 55 22
3948
80 20 34
3958
81 45 35
3968
Pollux
W.
56 42 19
9960
58 12 57
9985
59 43 29
9990
61 13 54
9897
Jupiter
W.
50 7 53
9897
51 39 37
9835
53 11 11
9944
54 42 34
9959
Mars
W.
32 24 33
3100
33 52 43
3101
35 20 51
3105
36 48 55
3108
Spica
E.
34 37 56
9653
33 4 37
9663
31 31 31
9674
29 58 39
9684
Antares
E.
80 22 14
9899
78 49 45
9909
77 17 29
9919
75 45 26
9899
5
Vekus
W.
88 47 55
3319
90 11 52
3390
91 35 40
3397
92 59 20
3335
Pollux
W.
66 44 11
3094
70 13 54
3030
71 43 29
3036
73 12 57
3049
Jupiter
W.
62 16 58
9881
63 47 22
9998
65 17 37
3005
66 47 44
3019
Mars
W.
44 8 1
3131
45 35 33
3136
47 2 59
3141
48 30 19
3146
liegtilus
W.
31 47 53
9969
33 18 45
9979
34 49 33
9976
36 20 16
9960
Antares
E.
68 8 14
9968
66 37 23
9878
65 6 43
9968
63 36 15
9996
6
Vekus
W.
99 55 28
3371
101 18 17
3378
102 40 59
3384
104 3 34
3380
Pollux
W.
80 38 35
3068
82 7 23
3074
83 36 5
3079
85 4 40
3084
Jupiter
W.
74 16 14
3043
75 45 33
3049
77 14 45
3055
78 43 50
3000
Mars
W.
55 45 27
3171
57 12 11
3176
58 38 49
3181
60 5 21
3185
Regulus
W.
43 52 30
3009
45 22 40
3006
46 52 45
3010
48 22 45
3015
Antares
E.
56 634
3038
54 37 9
3047
53 7 55
3056
51 38 51
3064
—
4
Pollux
W.
92 26 6
3108
93 54 6
3113
95 22 0
3118
96 49 48
3199
Jupiter
W.
86 7 41
3084
87 36 10
3088
89 4 33
3003
90 32 51
3087
Mars
W.
67 16 43
3906
68 42 45
3910
70 8 42
3914
71 34 35
3918
Regulus
W.
55 51 26
3034
57 20 56
3038
58 50 22
3049
60 19 43
3045
Antares
E.
44 16 14
3108
42 48 16
3110
41 20 30
3130
39 52 57
3141
8
I
Jupiter
W.
97 53 11
3115
99 21 2
3118
100 48 49
3199
102 16 32
3194
88
MAY, 1884.
XV.
GBEENWICH MEAN TIME.
LUNAR DISTANCES.
Name and Direction
of Object.
Noon.
P.L.
of
Din:
mb.
P.L.
of
DMT.
Vlh.
P.L.
of
Diff.
EX>*
P.L.
of
via.
8
Mars
Regulus
Antares
a Aquilffi
W.
W.
E.
E.
73 o'aS
61 49 0
38 25 37
89 46 40
3991
3048
3159
3495
74 26 7
63 18 13
36 58 31
88 24 52
3995
3051
8165
3430
o / //
75 51 47
64 47 22
35 31 40
87 3 9
3998
3054
3178
3434
7^17 23
66 16 28
34 5 5
85 41 31
3931
3057
3193
3439
9
Mars
Regulus
Spica
a Aquilffi
W.
W.
W.
E.
84 24 34
73 41 8
20 1 52
78 54 51
3944
3069
3073
3468
85 49 51
75 9 56
21 30 34
77 33 51
3947
3071
3073
3476
87 15 5
76 38 41
22 59 17
76 13 0
3948
9073
3073
3483
88 40 17
78 7 23
24 27 59
74 52 17
3951
3075
3073
3491
10
Regulus
Spica
a Aquilffi
W.
W.
E.
85 30 27
31 51 24
68 11 6
3081
3075
3539
86 58 59
33 20 4
66 51 25
3081
3076
3550
88 27 31
34 48 43
65 31 56
3089
3076
3563
89 56 2
36 17 22
64 12 41
3083
3075
3576
11
Regulus
Spica
a Aquiln
Fomalhaut
W.
W.
E.
E.
97 18 28
43 40 42
57 40 23
88 950
3084
3074
3658
3501
98 46 57
45 9 23
56 22 51
86 49 27
3083
3073
3677
3509
100 15 27
46 38 5
55 5 40
85 29 5
3083
3073
3699
3503
101 43 58
48 6 48
53 48 52
84 8 44
3089
3071
3793
3504
12
Spica
a Aquilffi
Fomalhaut
aPegasi
W.
E.
E.
E.
55 30 51
47 31 49
77 27 29
92 45 55
3069
3876
3516
3946
56 59 47
46 18 5
76 7 23
91 20 40
3060
3916
3590
3343
58 28 45
45 5 1
74 47 21
89 55 22
9058
3058
3595
3941
59 57 46
43 52 40
73 27 24
8830 1
3059
4006
3599
3938
13
Spica
Antares
Fomalhaut
aPegasi
W.
W.
E.
E.
67 23 49
23 8 9
66 49 6
81 22 34
9038
3397
3560
3996
68 53 15
24 31 49
65 29 48
79 56 56
3033
3999
3569
3994
70 22 47
25 56 10
64 10 40
78 31 15
3099
3961
3578
3991
71 52 24
27 21 7
62 51 42
77 5 31
3094
3933
3588
3919
14
Spica
Antares
Fomalhaut
aPegasi
Sun
W.
W.
E.
E.
E.
79 22 7
34 32 59
56 20 1
69 56 12
132 27 58
9996
3131
3658
3908
3363
80 52 25
36 0 31
55 2 29
68 30 12
131 4 58
9989
3115
3876
3906
3354
82 22 52
37 28 22
53 45 16
67 4 10
129 41 49
9989
3100
3696
3904
3346
83 53 27
38 56 32
52 28 25
65 38 6
128 18 31
9975
3085
3719
3909
3338
15
Spica
Aiitares
Fomalhaut
aPegasi
a Arietis
Sun
W.
W.
E.
E.
E.
E.
91 28 47
46 21 44
46 11 1
58 27 18
101 20 44
121 19 35
9934
3017
3875
3198
3017
3994
93 023
47 51 36
44 57 16
57 1 6
99 50 52
119 55 16
9994
9003
3919
3198
3007
3983
94 32 11
49 21 45
43 44 15
55 34 54
98 20 48
118 30 45
9915
9990
3967
3198
9997
3979
96 4 11
50 52 10
42 32 3
54 8 43
96 50 31
117 6 1
9905
9977
4099
3199
9985
3961
16
Antares
aPegaei
a Arietis
Sun
W.
E.
E.
E.
58 28 27
46 58 33
89 15 43
109 59 4
9909
9991
9931
3903
60 034
45 32 49
87 44 3
106 32 58
9896
9930
9919
3189
61 32 58
44 7 16
86 12 8
107 6 36
9889
3941
9907
3176
63 5 40
42 41 56
84 39 58
105 39 58
9866
9954
9894
3169
17
Antares
a Aquilo
a Arietis
Suw
W.
W.
E.
E.
70 53 51
30 8 47
76 55 8
98 22 34
9794
4993
9631
3089
72 28 27
31 5 48
75 21 20
96 54 11
9778
4771
9616
9073
74 3 23
32 5 48
73 47 15
95 25 29
9763
4577
9805
3057
75 38 40
33 8 33
72 12 53
93 56 27
9747
4405
9791
9040
18
Antares
W.
83 40 26
9665
85 17 53
9648
86 55 43
9631
88 33 56
9614
XVI.
MAY, 1884.
89
GREENWICH MEAN TIME.
LUNAB DISTANCES.
Name and Direction
of Object.
Midnight.
P.L.
Of
Biff.
xv*.
P.L.
of
due:
xvm*.
P.L.
Of
Diff.
XXP>.
P.L.
of
Diff.
8
Mars
W.
0 i H
78 42 56
3834
O ' it
80 8 25
3837
O I It
81 33 51
3930
82 59 14
3941
Regulus
W.
67 45 30
306©
69 14 29
3069
70 43 25
3064
72 12 18
3067
An tares
E.
32 38 47
3909
31 12 48
3987
29 47 11
3947
28 21 57
3960
a Aquilte
E.
84 19 59
3445
82 58 33
3450
81 37 13
3455
80 15 59
3461
9
Mars
W.
90 5 26
3963
91 30 33
3854
92 55 38
3956
94 20 41
3958
Regulus
W.
79 36 3
3076
81 4 42
3078
82 33 19
3079
84 1 54
3081
Spica
W.
25 56 41
3074
27 25 22
3074
28 54 3
3074
30 22 44
3075
aAquilte
E.
73 31 43
3400
72 11 18
3506
70 51 3
3518
69 30 59
3598
10
Regulus
Spica
W.
91 24 32
3084
92 53 1
3064
94 21 30
3084
' 95 49 59
3084
^
W.
37 46 2
3076
39 14 41
3075
40 43 21
3075
42 12 1
3074
a Aquite
E.
62 53 41
3500
61 34 56
3605
60 16 27
3691
58 58 15
3639
11
Regulus
W.
103 12 30
3061
104 41 3
3080
106 9 37
3070
107 38 12
3078
Spica
W.
49 35 33
3060
51 4 20
3060
52 33 8
3067
54 1 58
3064
a Aquilee
E.
52 32 29
3748
51 16 33
3776
50 1 6
3806
48 46 10
3840
Fomalhaut
E.
82 48 24
3506
81 28 6
3508
80 7 51
3510
78 47 38
3514
12
Spica
W.
61 26 51
3068
62 55 59
3049
64 25 11
' 3045
65 54 28
3049
a Aqtiilte
E.
42 41 6
4060
41 30 25
4118
40 20 41
4163
39 11 59
4955
Fomalhaut
E.
72 7 32
3534
70 47 45
3540
69 28 5
3546
68 8 32
3563
aPegasi
E.
87 437
3836
85 39 10
3934
84 13 41
3931
82 48 9
3290
13
Spica
W.
73 22 7
3018
74 51 SSf
3013
76 21 54
3008
77 51 57
3009
Antares
W.
28 46 37
3900
30 12 36
3188
31 39 0
3167
33 5 48
3148
Fomalhaut
E.
61 32 55
3500
60 14 20
3611
58 55 58
3695
57 37 51
3641
aPegasi
E.
75 39 45
3917
74 13 56
3914
72 48 4
3919
71 22 9
3910
14
Spica
W.
85 24 11
9968
86 55 4
9050
88 26 8
9051
89 57 22
8049
Antares
W.
40 25 0
3071
41 53 45
3056
43 22 48
3043
44 52 8
3030
Fomalhaut
E.
51 11 58
3744
49 55 57
3771
48 40 25
3809
47 25 25
3837
a Pegasi
E.
64 11 59
3900
62 45 50
3100
61 19 40
3198
59 53 29
3108
SUM
E.
126 55 4
3330
125 31 27
3391
124 7 40
3319
122 43 43
3303
15
Spica
W.
97 36 23
9605
99 8 48
9884
100 41 27
9874
102 14 19
9863
Antares
W.
52 22 52
9963
53 53 51
9850
55 25 6
9037
56 56 38
9993
Fomalhaut
E.
41 20 45
4089
40 10 26
4151
39 1 13
4990
37 53 14
4317
a Pegasi
E.
52 42 33
3909
51 16 26
3905
49 50 23
3900
48 24 25
3914
a A net is
E.
95 20 0
9075
93 49 16
9965
92 18 19
9054
90 47 8
9043
Sun
E.
115 41 4
3950
114 15 54
3830
112 50 31
3998
111 24 55
3215
16
Antares
W.
64 38 40
9853
66 11 59
98E8
67 45 37
8894
69 19 34
9808
a Pegasi
a Anetis
E.
41 16 51
3970
39 52 4
3886
38 27 39
3319
37 3 41
3330
E.
83 732
9883
81 34 51
9870
80 1 53
8857
78 28 39
9844
Sun
E.
104 13 4
3148
102 45 53
3134
101 18 25
3119
99 50 39
3104
17
Antares
W.
77 14 18
9731
78 50 17
9714
80 26 38
9608
82 3 21
9681
aAquita
W.
34 13 50
4950
35 21 29
4111
36 31 20
8087
37 43 12
3875
a Arietis
E.
70 38 13
9777
69 3 15
9763
67 27 59
8750
65 52 25
9737
Saic
E.
9227 4
3094
90 57 21
3007
89 27 17
8980
87 56 52
8973
18
Antares
W.
90 12 32
9506
91 51 32
8580
93 30 55
8569
95 10 42
9544
90
MAY, 1884.
XVIT.
GREENWICH MEAN TIME.
LUNAR DISTANCES.
0
u
° 8
Name and Direction
Noon.
P.L.
Of
mh.
P.L.
of
VPu
p.l
of
I».
P.L.
of
of Object,
Diff.
Diff.
Diff.
Diff.
18
a Aquike
W.
38 56 57
3773
O 1 o
40 12 27
3679
41° 29 36
3595
o i a
42 48 16
3515
a Arietis
E.
64 16 34
9793
62 40 25
9709
61 3 57
9896
59 27 11
9683
Sun
E.
86 26 5
9956
84 54 56
9937
83 23 24
9090
81 51 30
9901
19
Antares
W.
96 50 54
9597
98 31 30
9509
100 12 30
9499
101 53 54
9474
aAquilee
W.
49 41 37
3199
51 7 47
3148
52 34 58
3100
54 3 8
3053
a Arietis
E.
51 19 4
9091
49 40 38
9611
48 1 58
9601
46 23 4
9599
Sun
E.
74 6 3
9606
72 31 45
9769
70 57 2
9769
69 21 54
9750
20
a Aquilse
W.
61 37 14
9858
63 10 27
9894
64 44 23
9799
66 19 1
9769
a Arietis
E.
38 6 10
9570
36 26 34
9573
34 47 2
9579
33 7 38
9589
Sun
E.
61 19 53
9665
59 42 13
9637
58 4 8
9618
56 25 37
9600
21
a Aquilee
W.
74 21 40
9099
75 59 55
9607
77 38 40
9585
79 17 55
9565
Fomalhaut
W.
45 13 39
3199
46 41 13
3059
48 10 13
9994
49 40 33
9936
Sun
E.
48 6 58
9513
46 26 3
9497
44 44 45
9489
43 3 6
9466
22
a AquilfB
W.
87 40 34
9483
89 22 11
9470
91 4 6
9460
92 46 16
9450
Fomulhaut
W.
57 29 4
9704
59 5 38
9668
60 43 1
9635
62 21 9
9604
Sun
E.
• 34 29 44
9400
32 46 9
9389
31 2 19
9380
29 18 15
9371
26
Sun
W.
22 38 19
9379
24 22 24
9384
26 6 22
9391
27 50 9
9400
Mars
E.
57 50 18
9917
56 2 16
9930
54 14 33
9943
52 27 9
9957
Regulus
E.
60 37 24
9080
58 45 24
9073
56 53 43
9085
55 2 21
9098
Spica
E.
114 11 38
9045
112 19 14
9056
110 27 7
9068
108 35 18
9079
27
Sun
W.
36 25 20
9461
38 728
9475
39 49 16
9491
41 30 42
9507
Mars
E.
43 35 47
9340
41 50 46
9359
40 6 12
9379
38 22 7
9399
Regulus
E.
45 50 51
9174
44 1 44
9190
42 13 2
9906
40 24 47
9996
Spica
E.
99 21 5
9147
97 31 18
9163
95 41 54
9178
93 52 54
9195
28
Sun
W.
49 52 4
9593
51 31 8
9619
53 9 47
9631
54 48 0
9849
Regulus
E.
31 30 44
9331
29 45 30
9355
28 0 51
9380
26 16 48
9407
Spica
E.
84 54 4
9979
83 7 34
9996
81 21 29
9315
79 35 51
9333
29
Sun
W.
62 52 41
9746
64 28 20
9766
66 3 33
9785
67 38 20
9805
Pollux
W.
22 43 37
3091
24 11 58
3096
25 41 39
9976
27 12 22
9938
Venus
W.
22 12 31
9930
23 44 12
9919
25 16 16
9900
26 48 35
9893
Spica
E.
70 54 15
9494
69 11 15
9449
67 28 41
9463
65 46 34
9480
30
Sun
W.
75 25 55
9901
76 58 12
9990
78 30 5
9939
80 1 34
9058
Pollux
W.
34 54 42
9853
36 28 1
9849
38 1 25
9848
39 34 51
9849
Venus
W.
34 30 46
9907
36 2 56
9915
37 34 55
9994
39 6 43
9934
Jupiter
W.
23 5) 26
9750
25 28 59
9753
27 4 28
9759
28 39 49
9768
Spica
E.
57 22 23
9570
55 42*7
9588
54 3 36
9007
52 24 50
9694
Aii tares
E.
102 54 55
9614
101 16 19
9639
99 38 7
9649
96 0 18
9665
31
Sun
W
87 33 13
3047
89 227
3064
90 31 20
9081
91 59 53
3098
Pollux
W.
47 21 5
9873
48 53 58
9880
50 26 42
9839
51 59 15
9898
Venus
W.
46 42 27
9969
48 12 53
3001
49 43 4
3013
51 13 1
3095
Jupiter
W.
36 33 32
9890
38 7 34
9839
39 41 20
9845
41 14 50
9857
Spicu
E.
44 16 47
9708
42 40 18
9794
41 4 10
9740
39 28 23
9756
Au tares
•
E.
89 56 47
9747
88 21 10
3763
86 45 53
9778
85 10 57
9795
XVIII.
MAY, 1884.
91
GREENWICH MEAN TIME.
LUNAR DISTANCES.
«
u
Name and Direction
of Object.
Midnight.
P.L.
of
DifT.
xv*.
P L.
of
dht.
xvmb
P.L.
of
Biff.
XXI*.
P.L.
of
Diff.
18
a Aquilee
aArietis
Sun
W.
E.
E.
44° 8 23
57 50 8
80 19 12
3443
9670
9883
O 1 II
45 29 51
56 12 48
78 46 31
3376
9657
9864
46 52 35
54 35 10
77 13 26
3313
9644
9845
48 16 32
52 57 15
75 39 57
3954
9632
9896
19
Antares
a Aquilee
a Arietta
Sun
W
W.
E.
E.
103 35 43
55 32 15
44 43 58
67 46 20
9457
3010
9585
9731
105 17 56
57 2 15
43 4 42
66 10 21
9440
9969
9578
9719
107 0 33
58 33 6
41 25 17
64 33 57
9494
9931
9573
9693
J08 43 34
60 4 46
39 45 45
62 57 8
9406
9893
9571
9674
20
aAquito
aArietis
Sun
W.
E.
E.
67 54 19
31 28 28
54 46 42
9733
9604
9583
69 30 15
29 49 38
53 7 22
9705
9696
9564
71 6 48
28 11 18
51 27 38
9678
9655
9547
72 43 57
26 33 38
49 47 30
9653
9605
9530
21
a Aquilee
Fomalhaut
Sun
W.
W.
E.
80 57 38
51 12 6
41 21 5
9546
9889
9451
82 37 47
52 44 48
39 38 43
9599
9831
9438
84 18 20
54 18 35
37 56 2
9519
9785
9494
85 59 16
55 53 22
36 13 2
9497
9744
9419
22
a Aquifoe
Fomalhaut
Sun
W.
W.
E.
94 28 40
63 59 58
27 ;« 51)
9441
9576
9364
96 11 16
65 39 26
25 49 33
9433
9551
9359
97 54 3
67 19 29
24 4 59
9498
9597
9356
99 36 58
69 0 5
22 20 21
9494
9505
9355
26
Sun
Mars
Regulus
Spica
W.
E.
E.
E.
29 33 43
50 40 6
53 11 19
106 43 47
9410
9979
9119
9099
31 17 3
48 53 25
51 20 38
104 52 35
9499
9988
9196
9105
33 0 6
47 7 8
49 30 19
103 1 44
9434
9304
9141
9119
34 42 52
45 21 15
47 40 23
101 11 14
9447
9399
9157
9133
27
Sun
Mars
Regulus
Spica
W.
E.
E.
E.
43 11 45
36 38 31
38 36 59
92 4 19
9594
9491
9946
9911
44 52 25
34 55 26
36 49 40
90 16 8
9540
9444
9966
9997
46 32 42
33 12 54
35 2 50
88 28 21
9558
9468
9987
9945
48 12 35
31 30 56
33 16 31
86 41 0
8D75
9494
9309
9969
28
Sun
Regulus
Spica
W.
E.
E.
56 25 48
24 33 24
77 50 39
9669
9437
9351
58 3 10
22 50 42
76 5 53
9668
9469
9369
59 40 6
21 8 45
74 21 34
9707
9504
9387
61 16 36
19 27 38
72 37 41
9796
9546
9406
29
Sun
Pollux
Venus
Spica
W.
W.
W.
E.
69 12 41
28 43 53
28 21 3
64 4 53
9894
9909
9890
9499
70 46 37
30 16 1
29 53 34
62 23 38
9844
9887
9899
9517
72 20 8
31 48 37
31 26 3
60 42 48
9863
9879
9895
9535
73 53 14
&3 21 32
32 58 28
59 2 23
9883
9860
9901
9553
90
Sun
Pollux
Venus
Jupiter
Spica
Aji tares
W.
W.
W.
W.
E.
E.
81 32 39
41 8 15
40 38 19
30 14 59
50 46 28
96 22 51
9977
9859
9944
9777
9641
9689
83 3 21
42 41 36
42 9 42
31 49 57
49 8 29
94 45 47
9994
9855
9955
9786
9658
9898
84 33 41
44 14 53
43 40 51
&3 24 43
47 30 52
93 9 5
3013
9860
9966
9797
9675
9715
86 338
45 48 3
45 11 46
34 59 15
45 53 38
91 32 45
3030
9866
9977
9808
9693
9731
31
Sun
Pollux
Venus
Jupiter
Spica
Airfares
W.
W.
W.
W.
E.
E.
93 28 5
53 31 37
52 42 43
42 48 4
37 52 57
83 36 22
3114
9906
3036
9869
9771
9810
94 55 58
55 3 48
54 12 11
44 21 2
36 17 51
82 2 7
3130
9915
3048
9881
9785
9894
96 23 31
56 35 47
55 41 24
45 53 45
34 43 4
80 28 11
3145
9994
3060
2894
9801
9838
97 50 46
58 7 35
57 10 23
47 26 12
33 8 37
78 54 33
3160
9934
3070
9905
9815
S859
92
JUNE, 1884.
AT GREENWICH APPARENT NOON.
i
1
5
g
1
1
1
THE SUN'S
Sidereal
Time of
Semi-
diameter
Passing
Meridian.
Equation of
Time,
to be
Subtracted
from
Dilt for
lHonr.
Apparent
Bight Ascension.
Diftfor
lHonr.
Apparent
Declination.
Diftfor
lHoar.
Semi,
diameter.
Added to
Apparent
Time.
SUN.
h m s
4 39 7.37
10.241
N.22 9 0l6
+19.76
15 48.26
68B45
m s
2 21.84
s
0.383
Mon.
2
4 43 13.33
10.256
22 16 43.3
18.79
15 48.13
68.51
2 12.45
0.398
Tues.
3
4 47 19.65
10.270
22 24 2.8
17.81
15 48.01
68.56
2 2.70
0.412
Wed.
4
4 51 26.32
10.284
22 30 58.6
+16.83
15 47.88
68.61
1 52.62
0.426
Thur.
5
4 55 33.31
10.297
22 37 30.8
15.84
15 47.77
68.65
142.22
0.439
Frid.
6
4 59 40.60
10.309
22 43 39.2
14.85
15 47.66
68.69
131.52
0.451
Sut.
7
5 3 48.18
10.321
22 49 23.6
+13.85
15 47.55
68.73
120.53
0.463
SUN.
8
5 7 56.04
10.332
22 54 44.0
12.84
15 47.45
68.77
1 9.26
0.475
Mon.
9
5 12 4.16
10.343
22 59 40.4
11.84
15 47.34
68.80
0 57.72
0.485
Tues.
10
5 16 12.53
10.352
23 4 12.6
+10.82
15 47.24
68.83
0 45.94
0.494
Wed.
11
5 20 21.12
10.361
23 8 20.4
9.80
15 47.14
68.87
0 33.95
0.503
Thur.
12
5 24 29.91
10.369
23 12 3.6
8.77
15 47.05
68.89
0 21.75
0.511
Frid.
Sat.
13
14
5 28 38.89
5 32 48.04
10.377
10.384
23 15 22.3
23 18 16.5
+ 7.74
6.70
15 46.96
15 46.87
68.91
68.93
0 9.35
0.519
0.626
0 3.21
SUN.
15
5 36 57.34
10.390
23 20 46.0
5.68
15 46.79
68.95
0 15.91
0.532
Mon.
16
5 41 6.76
10.394
23 22 50.8
+ 4.G5
15 46.70
68.96
0 28.74
0.636
Tues.
17
5 45 16.29
10.398
23 24 30.9
3.63
15 46.63
68.97
0 41.68
0.541
Wed.
16
5 49 25.89
10.401
23 25 46.2
2.60
15 46.56
68.98
0 54.69
0.543
Thur.
19
5 53 35.53
10.402
23 26 36.7
+ 1.58
15 46.50
68.98
1 7.74
0.544
Frid.
20
5 57 45.20
10.402
23 27 2.4
+ 0.56
15 46.44
68.98
120.81
0.544
Sat.
21
6 1 54.87
10.401
23 27 3.3
- 0.47
15 46.39
68.97
133.88
0.543
SUN.
22
6 6 4.51
10.400
23 26 39.4
- 1.51
15 46.35
68.96
146.92
0.542
Mon.
23
6 10 14.09
10.397
23 25 50.7
2.54
15 46.31
68.95
1 59.91
0.539
Tues.
24
6 14 23.59
10.392
23 24 37.2
3.57
15 46.27
68.94
2 12.82
0.534
Wed.
25
6 18 32.98
10.387
23 22 59.1
- 4.60
15 46.23
68.92
2 25.62
0.529
Thur.
26
6 22 42.22
10.381
23 20 56.4
5.64
15 46.21
68.90
2 38.27
0.523
Frid.
27
6 26 51.29
10.374
23 18 29.0
6.66
15 46.19
68.88
2 50.75
0.516
Sat.
28
6 31 0.18
10.365
23 15 37.0
- 7.68
15 46.17
68.86
3 3.04
0.507
SUN.
29
6 35 8.85
10.355
23 12 20.5
8.69
15 46.16
68.83
3 15.12
' 0.497
Mon.
30
6 39 17 27
10.345
23 8 39.7
9.70
15 46.16
68.80
3 26.96
0.487
Tues.
31
6 43 25.41
10.334
N.23 4 34.7
-10.71
15 46.16
68.76
3 38.51
0.476
Nora— Th
Th
the
e mean time of semidiometei
e sign + prefixed to the hoi
sign — indicates that nortl
> passing may be found by si
irly change of declination in<3
i declinations are decreasing.
ibtractlng (Kit
ioates that noi
> from the
rth decliiu
sidereal time.
Oions are moreasfng;
n.
JUNE, 1884.
93
AT GREENWICH MEAN NOON.
THE
SUN'S
Bqvation of
t
1
1
1
Time,
to be
Added to
Diff. fur
1 Honr.
Sidereal
Time,
or
Xigbt Ascension
of
Mean Sun.
Apparent
Sight Ascension.
Biff, for
lHoar.
Apparent
Declination.
DUE for
lHoor.
Subtracted
from
Mean Time.
SUN.
1
h m s
4 39 7.77
10.240
N.22° 9 L3
+1&76
m s
2 21.83
0.383
h m s
4 41 29.59
Mon.
2
• 4 43 13.71
10.255
22 16 44.0
18.79
2 12.44
0.398
4 45 26.15
Tues.
3
4 47 20.01
10.969
22 24 3.4
17.81
2 2.69
* 0.412
4 49 22.70
Wed.
4
4 51 26.65
10.283
22 30 59.1
-1-16.83
1 52.62
0.426
4 53 19.26
Thur.
5
4 55 33.61
10.296
22 37 31.2
15.84
I 42.21
0.439
4 57 15.82
Frid.
6
4 59 40.87
10.308
22 43 39.5
14.85
1 31.51
0.451
5 1 12.38
Sat.
7
5 3 48.42
10.320
22 49 23.9
-1-13.85
1 20.52
0.463
5 5 8.93
SUN.
8
5 7 56.24
10 332
22 54 44.3
12.84
1 9.25
0.475
5 9 5.49
Mon.
9
5 12 4.33
10.342
22 59 40.6
11.83
0 57.71
0.485
513 2.04
Tues.
10
5 16 12.67
10.351
23 4 12.7
+10.81
0 45.93
0.494
5 16 58.60
Wed.
11
5 20 21.22
10.360
23 8 20.4
9.80
0 33.94
0.503
5 20 55.16
Thur.
12
5 24 29.97
10.368
23 12 3.6
8.77
0 21.75
0.511
5 24 51.72
Frid.
Sat
13
14
5 28 38.92
5 32 48.04
10.376
10.383
23 15 22.3
23 18 16.5
+ 7.74
6.70
0 9.35
0.519
0.526
5 28 48.27
5 32 44.83
0 3.21
SUN.
15
5 36 57.30
10.389
28 20 46.0
5.68
0 15.91
•0.532
5 36 41.39
Mon.
16
5 41 6.68
10.394
23 22 50.8
+ 4.65
0 28.73
0.536
5.40 37.95
Tues.
17
5 45 16.17
10.398
23 24 30.9
3.63
0 41.67
0.541
5 44 34.50
Wed.
18
5 49 25.73
10.400
23 25 46.2
2.60
0 54.67
0.543
5 48 31.06
Thur.
19
5 53 35.34
10.401
23 26 36.7
+ 1.68
1 7.73
0.544
5 52 27.61
Frid.
20
5 57 44.97
10.401
23 27 2.4
-f 0.56
1 20.80
0.544
5 56 24.17
Sat
21
6 1 54.60
10.400
23 27 3.3
-0.47
1 33.87
0.543
6 0 20.73
SUN.
22
6 6 4.20
10.399
23 26 39.4
- 1.51
1 46.91
0.542
6 4 17.29
Mon.
23
6 10 13.75
10.396
23 25 50.7
2.54
1 59.91
0.539
6 8 13.84
Tues.
24
6 14 23.21
10.39)
23 24 37.3
3.57
2 12.81
0.534
6 12 10.40
Wed.
25
6 18 32.56
10.386
28 22 59.3
-4.60
2 25.60
0.529
6 16 6.96
Thur.
26
6 22 41.76
10.380
23 20 56.6
6.64
2 38.24
0.523
6 20 3.52
Frid.
27
6 26 50.80
10.373
23 18 29.2
6.66
2 50.73
0.616
6 24 0.07
Sat
28
6 30 59.65
10.364
23 15 37.3
-7.08
3 3.02
0.507
6 27 56.63
SUN.
29
6 35 8.29
10.354
23 12 21.0
8.69
3 15.11
0.497
6 31 53.18
Mon.
30
6 39 16.67
10.343
23 8 40.3
9.70
3 26.93
0.487
6 35 49.74
Tues.
31
6 43 24.78
10.333
N.28 4 35.4
-10.71
3 38.48
0.476
6 39 46.30
Nora.— Tb
Tta
an
e semldiameter for mean noon
a sign + prefixed to the hourl
> increasing; the sign —indict
may be assumed the same as tl
y ohange of declination indicate
ites that north declinations are
iiat for apparent
» that north dec
decreasing.
noon.
HnfltiflTm
Biff, for 1 Hoar,
+ 9-.8565.
(Table HL)
94
JUNE, 1884.
m.
AT GREENWICH MEAN NOON.
.
THE SUN'S
1
1
1
1
1
*
Logarithm
of the
Badius Veotor
of the
Earth.
Dili: for
lHour.
Mean Time
of
Sidereal Noon,
TBUB LONGITUDE.
Diff. for
lHour.
LATITUDE.
X
V
1
2
3
153
154
155
O / it
71 20 15.9
72 17 42.3
73 15 *7.5
19 49.5
17 15.8
14 40.8
143.62
143.53
143.53
+ 0.04
0.16
0.28
0.0062501
0.0063073
0.0063629
4-24.2
23.5
22.8
h m s
19 15 20.61
19 11 24.70
19 7 28.79
4
5
6
156
157
158
74 12 31.6
75 9 54.7
76 7 16.7
12 4.7
9.27.7
6 49.6
143.48
143.44
143.40
+ 0.41
0.53
0.66
0.0064169
0.0064694
0.0065206
+ 22.1
21.6
21.0
19 3 32.88
18 59 36.97
18 55 41.06
7
8
9
159
160
161
77 4 37.8
78 1 58.0
78 59 17.5
4 10.5
1 30.5
58 49.8
143.36
143.33
143/29
+ 0.76
0.86
0.92
0.0065704
0.0066190
0.0066663
+ 20.5
20.0
19.4
18 51 45.15
18 47 49.24
18 43 53.32
10
11
12
162
163
164
79 56 36.3
80 53 54.5
81 51 12.1
56 8.5
53 26.6
50 44.0
143.27
143.34
143.32
+ 0.94
0.93
0.89
0.0067122
0.0067567
0.0067998
+ 18.8
18.3
17.7
18 39 57.41
18 36 1.50
18 32 5.60
13
14
15
165
166
167
82 48 29.3
83 45 46.2
84 43 2.7
48 1.0
45 17.7
42 34.1
143.21
143.20
143.19
+ 0.83
0.75
0.65
0.0068412
0.0068818
0.0069196
+ 17.0
16.3
15.5
18 28 9.68
18 24 13.77
18 20 17.86
16
17
18
168
169
170
85 40 18.9
86 37 35.0
87 34 509
39 50.2
37 6.1
34 21.8
143.19
143.18
143.17
+ 0.62
0.39
0.25
0.0069559
0.0069902
0.0070223
+ 14.7
13.8
12.9
18 16 21.95
18 12 26.03
18 8 30.12
19
20
21
171
172
173
88 32 6.5
89 29 21.9
90 26 37.1
31 37.3
28 52.6
26 7.6
143.15
143.14
143.13
+ 0.12
-0.01
0.12
0.0070520
0.0070793
0.0071042
+ 11.9
10.9
9.8
18 4 34.21
18 0 38.31
17 56 42.39
22
23
24
174
175
176
91 23 52.0
92 21 6.7
93 18 21.2
23 22.3
20 36.8
17 51.1
143.12
143.10
143.10
-0.19
0.25
0.27
0.0071265
0.0071461
0.0071630
+ 8.7
7.6
6.5
17 52 46.48
17 48 50.57
17 44 54.66
25
26
27
177
178
179
94 15 35.2
95 12 49.0
96 10 2.3
15 5.0
12 18.6
9 31.8
143.08
143.06
143.05
-0.26
0.21
0.15
0.0071774
0.0071892
0.0071984
+ 5.5
4.4
3.4
17 40 58.74
17 37 2.83
17 33 6.92
28
29
30
180
181
182
97 7 15.4
98 4 27.9
99 1 40.2
6 44.7
3 57.2
1 9.2
143 03
143.02
143.00
-0.05
+ 0.05
0.17
0.0072053
0.0072099
0.0072122
+ 2.4
1.4
+ 0.5
17 29 11.02
17 25 15.10
17 21 19.19
31
183
99 58 52.0
58 20.9
143.98
+ 0.29
0.0072124
- 0.3
17 17 23.28
Not*.— Tbe
the
numbers In column
mean equinox of Jai
A correspond
unary 0*.0.
to the tn
ie equinox of the date; in colui
inn A', to
DUK for 1 Hour,
— 9-. 8296.
(Table IL)
IV.
JUNE, 1884.
95
GREENWICH MEAN TIME.
i
THE MOON'S
1
*
8EMIDIAMETER.
HOBIZONTAL PARALLAX.
UPPEB TRANSIT.
AGE.
Noon.
Midnight.
Noon,
Diff. for
lHour.
Midnight.
Diff. for
lHour.
Meridian of
Greenwich.
Diff for
1 Hour.
Noon.
1
2
3
/ u
15 15.1
15 4.6
14 56.4
/ //
15 9.6
15 0.2
14 53.2
55 5L7
55 13.2
54 43.0
//
-1.77
1.43
1.09
55 S\ A
54 57.0
54 31.0
i/
-1.60
1.26
0.92
h tn
6 52.3
7 36.5
8 20.2
m
1.86
1.82
1.82
7.6
8.6
9.6
4
5
6
14 50.4
14 46.6
14 44.7
14 48.3
14 45.4
14 44.4
54 21.0
54 6.9
53 59.8
-0.75
0.44
-0.16
54 13.0
54 2.5
53 58.7
-0.69
0.30
-0.03
9 4.2
9 48.8
10 34.5
1.84
1.86
1.93
10.6
11.6
12.6
7
8
9
14 44.4
14 45.8
14 48.5
14 44.9
14 47.0
14 50.4
53 59.0
54 3.9
54 14.0
-1-0.08
0.31
0.52
54 0.8
54 8.3
54 20.9
+ 0.20
0 42
0.62
11 21.2
12 8.8
12 57.0
1.97
2.00
2.01
13.6
14.6
15.6
10
11
12
14 52.6
14 58.1
15 4.9
14 55.2
15 1.3
15 9.0
54 29.0
54 49.1
55 14.3
+ 0.78
0.94
1.17
54 38.4
55 1.0
55 29.0
+ 0.64
1.05
1.28
13 45.2
14 33.1
15 20.6
2.00
1.99
1.97
16.6
17.6
18.6
13
14
15
15 13.3
15 23.2
15 34.4
15 18.0
15 28.6
15 40.5
55 45.0
56 21.2
57 26
+ 1.39
1.62
1.81
56 2.4
56 41.3
57 24.9
+ 1.51
1.72
1.90
16 7.8
16 54.9
17 42.7
1.96
1.97
2.01
19.6
20.6
21.6
16
17
18
15 46.8
15 59.9
16 12.8
15 53.3
16 6.4
16 18.8
57 48.1
58 36.1
59 23.4
+ 1.96
2.00
1.90
58 12.0
59 0.1
59 45.6
+ 2.00
1.97
1.78
18 31.7
19 22.8
20 16.8
2.08
2.19
2.32
22.6
23.6
24.6
19
20
21
16 24.4
16 33.5
16 38.9
16 29.3
lfr 36.7
16 39.8
60 6.1
60 39.5
60 59.2
+ 1.61
1.12
+ 0.48
60 24.2
60 51.3
61 2.8
+ 1.39
0.82
+ 0.12
21 14.0
22 14.1
23 16.2
2.45
2.56
2.60
25.6
26.6
27.6
22
23
24
16 39.6
16 35.4
16 26.6
16 38.1
16 31.5
16 20.8
61 1.9
60 46.4
60 14.3
-0.27
1.00
1.63
60 56.4
60 32.2
59 53.0
-0.64
1.33
1.88
6
0 18.3
1 18.7
2.56
2.45
28.6
0.3
1.3
25
26
27
16 14.3
15 59.8
15 44.6
16 7.3
15 52.2
15 37.1
59 29.1
58 35.9
57 39.9
-2.07
2.30
2.32
59 3.2
58 7.9
57 12.4
-2.21
2.33
2.26
2 16.0
3 9.7
3 59.9
2.31
2.16
2.03
2.3
3.3
4.3
28
29
30
15 29.8
15 16.5
15 5.4
15 22.9
15 10.7
15 0.7
56 45.7
55 56.9
55 15.8
-2.16
1.88
1.52
56 20.4
55 35.3
54 58.7
-2.03
1.71
1.32
4 47.4
5 33.0
6 17.5
1.93
1.87
1.84
5.3
6.3
7.3
I 31
14 56.7
14 53.3
54 43.9
-1.13
54 31.5
-0.93
7 1.7
1.64
8.3
i
96
JUNE, 1884.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Aeccnaton.
DuT for
1 Minute.
Declination.
DuT. for
1 Minute.
Dour.
Bight Ascension.
DuYfbr
1 Minute.
Declination.
DUEL for
1 Minute.
81
OtfDA
r i.
TUESDAY a.
h m s
■
O 1 w
it
h m ■
■
O t n
u
0
11 21 22.02
14*830
N. 1 14 27.7
10.079
0
12 54 51.30
14313
S. 6 32 24.6
9.151
1
11 23 20*93
J .9807
1 4 23.1
100174
1
12 56 47.18
14314
6 41 32.7
9.116
2
11 25 19.70
1.0784
0 54 16.8
10.069
2
12 58 43.07
14315
6 50 38.8
9464
3
11 27 18.34
1.0769
0 44 14.8
10.009
3
13 0 38.96
14316
6 59 42.8
9449
4
11 29 16.85
1.9749
0 34 11.3
10.055
4
13 2 34.86
14318
7 8 44.7
9414
5
11 31 1534
1.9799
0 24 8.2
10.047
5
13 4 30.77
14390
7 17 44.5
8479
6
1 1 33 13.51
1.9709
0 14 5.6
10.030
6
13 6 26.70
14393
7 26 42.2
6444
7
11 35 11.66
1.9689
N. 0 4 3J5
10.030
7
13 8 22.65
14396
7 35 37.8
6408
8
11 37 9.69
1.9063
S. 0 5 58.0
10.090
8
13 10 18.61
14398
7 44 31.2
6471
9
11 39 7.61
1.9644
0 15 58.9
10.000
9
13 12 14.59
14339
7 53 22.3
8.833
10
11 41 5.42
1.9637
0 25 59.1
9.906
10
13 14 10.60
14337
8 2 11.2
8.796
11
11 43 3.13
1.9609
0 35 58.7
90)87
11
13 16 6.64
14349
8 10 57.8
8.758
12
11 45 0.73
1.9599
0 45 57.6
9.975
12
13 18 2.71
1.9347
8 19 42.2
6.790
13
11 46 58.23
1.9576
0 55 55.7
90)69
13
13 19 58.81
14359
8 28 24.2
8480
14
11 48 55.64
1.9560
1 5 53.0
9449
14
13 21 54.94
14357
8 37 as
6.640
15
11 50 52.95
1.9544
1 15 49.6
90)36
15
13 23 51.10
14363
8 45 41.0
8499
16
11 52 50.17
101599
1 25 45.3
0.991
16
13 25 47.30
10)370
8 54 15.7
8456
17
U 54 47.30
1.9515
1 35 40.1
9.905
17
13 27 43.54
14377
9 2 48.0
8417
18
11 56 44.35
1.9509
1 45 33.9
9.889
18
13 29 39.62
1.9383
9 11 17.8
8.476
19
11 58 41.32
1.9488
1 55 26.8
9.873
19
13 31 36.14
14391
9 19 45.1
8.433
20
12 0 38.21
1.9475
2 5 18.7
9.856
20
13 33 32.51
14396
9 28 9.8
8490
21
12 2 35.02
1.9409
2 15 9.5
9.838
21
13 &5 28.92
14406
9 36 31.9
8446
22
12 4 31.76
1.9451
2 24 59.3
9490
22
13 37 25.38
14415
9 44 51.4
8409
23
12 6 28.43
M
14440
ONDA
S. 2 34 47.9
T 2.
9.801
23
13 39 21.90
WEI
14494
MJESI
S. 9 53 8.2
)AY4.
6458
0
12 8 25.04
14499
S. 2 44 35.4
9.788
0
13 41 18.47
14433
a 10 1 22.4
6414
1
12 10 21.58
1.9416
2 54 21.7
9.769
1
13 43 15.09
14449
10 9 33.9
8.168
2
12 12 18.06
1.9409
3 4 6.8
9.749
2
13 45 11.77
14459
10 17 42.6
8.199
3
12 14 14.49
1.9400
3 13 50.7
9.791
3
13 47 8.50
14461
10 25 48.5
8.075
4
12 16 10.86
1.9391
3 23 33.3
9.699
4
13 49 5.30
14471
10 33 51.6
8.099
5
12 18 7.16
14383
3 33 14.6
9.676
5
13 51 2.16
1 QJflfil
10 41 51.9
7489
6
12 20 3.46
1.9376
3 42 54.5
9.653
6
13 52 59.08
14499
10 49 49.4
7434
7
12 21 59.69
1.9968
3 52 33.0
9j630
7
13 54 56.07
14503
10 57 44.0
7485
8
12 23 55.88
1.9369
4 2 10.1
9.607
8
13 56 53.12
1.9514
11 5 35.6
7435
9
12 25 52.03
14355
4 11 45.8
9489
9
13 58 50.24
14696
11 13 24.2
7.786
10
12 27 48.14
14348
4 21 20.0
9.557
10
14 0 47.43
14538
11 21 9.9
7.737
11
12 29 44.21
10043
4 30 52.7
9439
11
14 2 44.69
1.9550
11 28 52.6
7486
12
12 31 40.25
1.9338
4 40 23.8
9406
12
14 4 42.03
1.9569
11 36 32.2
7435
13
12 33 36.27
14334
4 49 53.4
9.479
13
14 6 39.44
14575
11 44 8.8
7483
14
12 35 32.26
10)399
4 59 21.3
9.459
14
14 8 36.93
14567
11 51 42.2
7431
15
12 37 38.22
I0B95
5 8 47.6
9.494
15
14 10 34.49
1.9600
11 59 12.5
7.478
16
12 39 24.16
I 9399
5 18 12.2
9498
16
14 12 32.13
14613
12 6 39.6
7.496
17
12 41 20.09
1.9390
5 27 35.1
9467
17
14 14 29.85
14697
12 14 3.6
7473
18
12 43 16.00
1.9317
5 36 56.2
9438
18
14 16 27.65
1.9840
12 21 24.4
7419
19
12 45 11.90
14316
5 46 15.6
9408
19
14 18 25.53
14654
12 28 41.9
7464
20
12 47 7.79
1.9314
5 55 33.2
9.977
20
14 20 23.50
1.9868
12 &T56.I
7409
21
12 49 3.67
1.9313
6 4 48.9
9.946
21
14 22 21.55
14689
12 43 7.0
7.153
22
12 50 59.55
1.9313
6 14 2.7
9.914
22
14 24 19.69
14697
12 50 14.5
7498
23
12 52 55.43
1.9313
6 23 14.6
9.183
23
14 26 17.92
10)719
12 57 18.7
7449
|j24
12 54 51.30
14313
S. 6 32 24.6
9.151
24
14 28 16.23
1.9796
S.13 4 19.5
6485
VI.
JUNE, 1884.
97
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Diff.for
1 Minute.
Declination.
Diff.for
1 Minute.
Hour.
Bight Ascension.
Diff.for
1 Minute.
Declination.
Diff.for
1 Minute.
TH
UR8D.
A.Y 5.
SATURDAY 7.
0
h m 0
14 28 16.23
s
1.9796
a 13 4ia5
6465
0
h m 0
16 4 50.64
8
9.0591
8.17 25 10.1
//
3.716
1
14 30 14.63
J.9741
13 11 16.9
6.997
1
16 6 53.81
94536
17 28 50.7
3437
2
14 32 13.12
1.9756
13 18 10.8
6.809
2
16 8 57.07
9.0559
17 32 26.6
3456
3
14 34 11.70
1.977*
13 25 1.2
6.811
3
16 11 0.43
94567
17 35 57.7
3.479
4
14 36 10.38
1.9787
13 31 48.1
6.759
4
16 13 3.88
9.0589
17 39 24.1
3.401
5
14 38 9.15
1.9809
13 38 31.4
6.693
5
16 15 7.42
9.0596
17 42 45.8
3499
6
14 40 8.01
J .9818
13 45 11.2
6.633
6
16 17 11.06
9,0614
17 46 2.7
3449
7
14 42 6.97
1.9634
13 51 47.4
6479
7
16 19 14.79
9.0696
17 49 14.8
3.169
8
14 44 6.02
1.9850
13 58 19.9
6419
8
16 21 18.60
9.0649
17 52 22.1
3.081
9
14 46 5.17
1.9867
14 4 48.8
6.451
9
16 23 22.50
9.0657
17 55 24.5
9499
10
14 48 4.42
1.9683
14 11 14.0
6489
10
16 25 26.49
9.0679
17 58 22.0
9,918
J]
14 50 3.76
1.9698
14 17 35.5
6497
11
16 27 30.56
9.0886
18 1 14.7
9437
12
14 52 3.20
1.9915
14 23 53.3
6.965
12
16 29 34.72
9.0700
18 4 2.5
9,756
13
14 54 2.74
1.9939
14 30 7.3
6.909
13
16 31 38.96
9.0714
18 6 45.4
9,673
14
14 56 2.38
1.9948
14 36 17.5
6.138
14
16 33 43.29
9.0798
18 9 23.3
9491
15
14 58 2.11
1.9964
14 42 23.8
6.073
15
16 35 47.70
9.0749
18 11 56.3
9408
16
15 0 1.95
1.9981
14 48 26.2
6.008
16
16 37 52.19
94754
18 14 24.3
9.495
17
15 2 1.89
1.9996
14 54 24.8
5.944
17
16 39 56.75
9.0767
18 16 47.3
9443
18
15 4 1.93
9.0015
15 0 19.5
5.876
18
16 42 1.39
9.0780
18 19 5.4
9460
19
15 6 2.07
9.0038
15 6 10.2
5.819
19
16 44 6.11
9.0799
18 21 18.5
9,176
20
15 8 2.31
2.0049
15 11 56.9
5.746
20
16 46 10.90
9.0805
18 23 26.5
9.091
21
15 10 2.66
9.0066
15 17 39.7
5.680
21
16 48 15.77
9.0817
18 25 29.4
9407
22
15 12 3.11
9.0083
15 23 18.5
5.619
22
16 50 20.71
9.0899
18 27 27.3
1499
23
15 14 3.66
F
9.0101
RIDA1
8.15 28 53.2
r 6.
5444
23
16 52 25.72
SI
9.0841
[JNDA^
8.18 29 20.1
5T8.
1.838
0
15 16 4.32
94118
8.15 34 23.8
5.476
0
16 54 30.80
9.0859
8.18 31 7.9
1.754
1
15 18 5.08
9.0135
15 39 50.3
5.407
1
16 56 35.95
9,0863
18 32 50.6
1.669
2
15 20 5.94
9*0159
15 45 12.7
5439
2
16 58 41.16
9.0874
18 34 28.1
1483
3
15 22 6.90
9.0109
15 50 31.0
5.970
3
17 0 46.44
9.0866
18 36 0.5
1.498
4
15 24 7.97
9.0187
15 55 45.1
5.199
4
17 2 51.78
9,0696
18 37 27.8
1.419
5
15 26 9.14
9.0904
16 0 54.9
5.198
5
17 4 57.19
9.0907
18 38 49.9
1495
6
15 28 10.41
9.0991
16 6 0.5
5.057
6
17 7 2.66
9.0917*
18 40 6.8
1439
7
15 30 11.79
9.0938
16 11 1.8
4487
7
17 9 8.19
94996
18 41 18.6
1.153
8
15 32 13.27
9.0955
16 15 58.9
4416
8
17 11 13.77
9.0935
18 42 25.2
1.067
9
15 34 14.85
9.0979
16 20 51.7
4.844
9
17 13 19.41
9.0944
18 43 26.6
0481
10
15 36 16.53
9.0988
16 25 40.2
4.771
10
17 15 25.10
9,0953
18 44 22.9
0.894
11
15 38 18.31
9.0306
16 30 24.3
4.696
11
17 17 30.85
9.0969
J8 45 13.9
0.807
12
15 40 20.20
9.0393
16 &5 4.0
4.695
12
17 19 36.65
9.0971
18 45 59.7
0.790
13
15 42 22.19
9.0340
16 39 39.3
4459
13
17 21 42.50
9,0978
18 46 40.3
0439
14
15 44 24.28
9.0357
16 44 10.2
4.478
14
17 23 48.39
9.0986
18 47 15.6
0445
15
15 46 26.47
9.0373
16 48 36.6
4.403
15
17 25 54.33
9.0994
18 47 45.7
0.457
16
15 48 28.76
9.0390
16 52 58.6
4.3S8
16
17 28 0.32
9.1009
18 48 10.5
0470
17
15 50 31.15
9.0407
16 57 16.0
4459
17
17 30 6.35
9,1008
18 48 30.1
0.989
18
15 52 33.64
94493
17 1 28.9
4.178
18
17 32 12.42
9.1015
18 48 44.4
0.194
19
15 54 36.23
9.0440
17 5 37.3
4.109
19
17 34 18.53
9,1099
18 48 53.4
0.107
20
15 56 38.92
9.0456
17 9 41.1
4.095
20
17 36 24.68
9.1098
18 48 57.2
- 0.019
21
15 58 41.70
9.0479
17 13 40.3
3.948
21
17 38 30.87
9.1034
18 48 55.7
+ 0.069
22
16 0 44.58
9.0488
17 17 34.9
3.871
22
17 40 37.09
9.1039
18 48 48.9
0.157
23
16 2 47.56
9.0505
17 21 24.8
3.793
23
17 42 43.34
9.1045
18 48 36.8
0.945
24
16 4 50.64
9.0591
8. 17 25 10.1
3.716
24
17 44 49.63
9.J050
8.18 48 19.5
0433
98
JUNE, 1884.
VII.
GREENWICH MEAN TIME.
-
-
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Bight A sponsion.
Din4, for
1 Minute.
Declination.
Diff.for
1 Minute.
Hoar.
Right Ascension.
DHL for
1 Minute.
Declination.
Difllfor
1 Minute.
MONDAY 9.
WEDNESDAY 11.
h m s
s
S.1^48 19.5
t*
b m s
s
O 1 II
w
0
17 44 49.63
2.1050
0.333
0
19 25 56.74
9.0903
S.16 51 28.8
4.485
1
17 46 55.94
9.1064
18 47 56.9
0.499
1
19 28 2.68
9.0087
16 46 57.2
4.567
2
17 49 2.28
9.1060
18 47 28.9
0.511
2
19 30 8.58
9.0081
16 42 20.8
4.648
3
17 51 8.65
9.1063
18 46 55.6
0.500
3
19 32 14.45
9.0075
16 37 39.5
4.798
4
17 53 15.04
9.1088
18 46 17.0
0.686
4
19 34 20.28
9.0068
16 32 53.4
4.800
5
17 55 21.46
9.1079
18 45 33.2
0.774
5
19 36 26.07
9.0061
16 28 2.4
4.891
6
17 57 27.90
9.1075
18 44 44.1
0.863
6
19 38 31.81
9.0054
16 23 6.5
4.079
7
17 59 34.36
9.1077
18 43 49.7
0.059
7
19 40 37.51
9.0048
16 18 5.8
5.051
8
18 1 40.83
9.1080
18 42 49.9
1.041
8
19 42 43.18
9.0049
16 13 0.4
5.130
9
18 3 47.32
9.1089
18 41 44.8
1.190
9
19 44 46.81
9.0035
16 7 50.2
5.900
10
18 5 53.62
9.1085
18 40 34.4
1.917
10
19 46 54.40
9.0098
16 2 35.3
5.988
11
18 8 0.34
9.1087
18 39 18.8
1.304
11
19 48 59.95
9.0091
15 57 15.6
5.367
12
18 10 6.87
9.1080
18 37 57.9
1.363
12
19 51 5.45
9.0013
15 51 51.2
5.445
13
18 12 13.41
9.1090
18 36 31.6
1.481
13
19 53 10.91
9.0006
15 46 22.2
5.593
14
18 14 19.95
9.1001
18 35 0.1
1.560
14
19 55 16.33
9.0690
15 40 48.5
5.601
15
J 8 16 26.50
9.1009
18 33 23.3
1.657
15
19 57 21.70
9.0809
15 35 10.1
5.678
16
18 18 33.06
9.1003
18 31 41.2
1.748
16
19 59 27.03
9.0865
15 29 27.1
5.754
17
18 20 39.62
9.1003
18 29 53.8
1.834
17
20 1 32.32
9.0878
15 23 39.6
5.830
18
18 22 46.18
9.1003
18 28 1.1
1.989
18
20 3 37.57
9.0871
15 17 47.5
5.906
19
18 24 52.74
9.1003
18 26 3.2
9.000
19
20 5 42.77
9.0863
15 11 50.9
5.089
20
18 26 59.30
9.1003
18 24 0.0
9.007
20
20 7 47.93
9.0656
15 5 49.7
6.058
21
18 29 5.86
9.1009
18 21 51.5
9.185
21
20 9 53.04
9.0848
14 59 44.0
6.133
22
18 31 12.41
9.1009
18 19 37.8
9.979
22
20 11 58.11
9.0849
14 53 33.8
6.907
23
18 33 18.96
TU
9.1001
ESDA
S.18 17 18.8
Y 10.
9.360
23
20 14 3.14
THI
9.0835
JESDJ
S. 14 47 19.2
LY 12.
6.980
0
18 35 25.50
9.1080
S.16 14 54.6
9.447
0
20 16 8.13
2.0837
S.14 41 0.2
6.353
1
18 37 32.03
9.1087
18 12 25.2
9.534
1
20 18 13.07
9.0890
14 34 36.8
6.497
2
18 39 38.55
9.1066
18 9 50.5
9.699
2
20 20 17.97
9.0813
14 28 9.0
6.500
3
18 41 45.06
9.1084
18 7 10.6
9.708
3
20 22 22.83
9.0806
14 21 36.8
6.579
4
18 43 51.56
9.1089
18 4 25.5
9.795
4
20 24 27.65
9.0799
14 15 0.3
6.643
5
18 45 58.04
9.1078
18 I 35.2
9.881
5
20 26 32.42
9.0709
14 8 19.6
6.714
6
18 48 4.50
9.1075
17 58 39.8
9.067
6
20 28 37.15
9.0785
14 1 34.6
6.786
7
18 50 10.94
9.1079
17 55 39.2
3.053
7
20 30 41.84
9.0778
13 54 45.3
6.857
8
18 52 17.37
9.1070
17 52 33.4
3.140
8
20 32 46.49
9.0779
13 47 51.8
6.997
9
18 54 23.78
9.1067
17 49 22.4
3.998
9
20 34 51.10
9.0765
13 40 54.1
6.906
10
18 56 30.17
9.1063
17 46 6.3
3.311
10
20 36 55.67
9.0758
13 33 52.3
7.064
11
18 58 36.54
9.1050
17 42 45.1
3.306
11
20 39 0.20
9.0759
13 26 46.4
7.139
12
19 0 42.88
9.1055
17 39 18.8
3.489
12
20 41 4.69
9.0745
13 19 36.4
7.901
13
19 2 49.20
9.1051
17 35 47.3
3.567
13
20 43 9.14
9.0739
13 12 22.3
7.969
14
19 4 55.49
9.1046
17 32 10.8
3.651
14
20 45 13.56
9.0733
13 5 4.2
7.336
15
19 7 1.75
9.1041
17 28 29.2
3.736
15
20 47 17.94
9.0797
12 57 42.0
7.403
16
19 9 7.98
9.1037
17 24 42.5
3.890
16
20 49 22.28
9.0791
12 50 15.8
7.469
17
19 11 14.19
9.1039
17 20 50.8
3.003
17
20 51 26.59
9.0716
12 42 45.7
7.534
18
19 13 20.37
9.1097
17 16 54.1
3.987
16
20 53 30.87
9.0711
12 35 11.7
7.590
19
19 15 26.53
9.1099
17 12 52.3
4.071
19
20 55 35.12
9.0705
12 27 33.8
7.664
20
19 17 32.64
9.1016
17 8 45.5
4.154
20
20 57 39.33
9.0690
12 19 52.0
7.799
21
19 19 38.71
9.1010
17 4 33.8
4.937
21
20 59 43.51
9.0604
12 12 6.3
7.709
22
19 21 44.75
9.1004
17 0 17.1
4.330
22
21 1 47.66
9.0689
12 4 16.9
7.855
23
19 23 50.76
9.0000
16 55 55.4
4.409
23
21 3 51.78
9.0685
11 56 23.7
7.918
24
19 25 56.74
94003
S.16 51 28.8
4.485
24
21 5 55.88
2.0681
S.ll 48 26.7
7.981
vm.
JUNE, 1884.
99
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Bight Attention.
Diff.for
1 Minute.
Declination.
DUEL for
1 Minute,
Hour.
Right Ascension.
Diff.for
1 Minute.
Declination.
Diff-for
1 Minute.
FJ
MDA!
' is.
SUNDAY 15.
h m 8
•
O t It
a
h m s
s
S. 1 24 36.9
0
21 5 55.88
9.0681
S.11 48 26.7
7461
0
22 4* 11.51
94609
10476
1
21 7 59.95
8.0678
11 40 26.0
8449
1
22 47 16.40
94891
4 14 19.4
10408
2
21 10 3.99
9.0679
11 32 21.7
8.109
2
22 49 21.36
9.0633
4 4 0.0
10439
3
21 12 8.01
9.0668
11 24 13.7
8.163
3
22 51 26.40
9.0647
3 53 38.7
10469
4
21 14 12.01
9.0665
11 16 2.1
8.993
4
22 53 31.52
94660
3 43 15.7
10498
5
21 16 1539
9.0661
11 7 46.9
8483
5
22 55 3672
94874
3 32 50.9
10.497
6
21 18 19.94
9.0658
10 59 28.1
8449
6
22 57 42.01
9.0888
3 22 24.4
10.456
7
21 20 23.88
94655
10 51 5.8
8.400
7
22 59 47.38
9.0903
3 11 56.2
10.483
8
21 22 27.80
9.0659
10 42 40.1
8.457
8
23 1 52.85
9.0919
3 1 26.4
10410
9
21 24 31.70
9.0648
10 34 10.9
8415
9
23 3 58.41
9.0934
2 50 55.0
10436
10
21 26 35.59
9.0647
10 25 38.3
8479
10
23 6 4.06
9.0950
2 40 22.1
10461
11
21 28 39.47
9.0645
10 17 2.3
8498
11
23 8 9.81
94067
2 29 47.7
10485
12
21 30 43.33
9.0643
10 8 22£
8.684
12
23 10 15.67
94985
2 19 11.9
10408
13
21 32 47.19
9.0649
9 59 40.2
8.738
13
23 22 21.63
9.1009
2 8 34.7
10431
14
21 34 51.04
94641
9 50 54.3
8,799
14
23 14 27.70
9.1091
1 57 56.2
10453
15
21 36 54.88
9.0640
9 42 5.1
8.846
15
23 16 33.88
9.1040
1 47 16.3
10475
16
21 38 58.72
94640
9 33 127
8400
16
23 18 40.18
9.1059
1 36 35.2
10494
17
21 41 256
9.0630
9 24 17.1
8.953
17
23 20 46.59
9.1078
1 25 53.0
10.713
18
21 43 6.39
94638
9 15 18.3
9.006
18
23 22 53.12
9.1099
1 15 9.6
10.739
19
21 45 10.22
94639
9 6 16.4
9457
19
23 24 59.78
9.1190
1 4 25.1
10.750
20
21 47 14.06
94641
8 57 11.5
9.106
20
23 27 6.56
9.1141
0 53 39.6
10.767
21
21 49 17.91
9.0649
8 48 3.5
9.158
21
23 29 13.47
9.1163
0 42 53.0
10.784
22
21 51 21.77
9.0643
8 38 52.5
9406
22
23 31 20.51
9.1185
0 32 5.5
10.799
23
21 53 25.63
9.0644
S. 8 29 38.6
9457
23
23 33 27.69
9J907
S. 0 21 17.1
10413
SAG
DURDJ
LY 14. .
M<
31TOA"
ST 16.
0
21 55 29.50
9.0646
S. 8 20 21.7
9406
0
23 35 35.00
9.1931
8. 0 10 27.9
10.897
1
21 57 33.38
9.0648
8 11 1.9
9453
1
23 37 42.46
9.1955
N. 0 0 22.1
10439
2
21 59 37.28
9.0659
8 1 39.3
9.400
2
23 39 50.06
9.1979
0 11 12.8
10.8M
3
22 1 41.20
9.0655
7 52 13.9
9.447
3
23 41 57.81
9.1304
0 22 4.2
10.86V
4
22 3 45.14
9.0656
7 42 45.7
9.493
4
23 44 5.71
9.1399
0 32 56.2
10.879
5
22 5 49.10
9.0669
7 33 14.7
9439
5
23 46 13.76
9.1355
0 43 48.8
10.889
6
22 7 53.08
9.0666
7 23 41.0
9463
6
23 48 21.97
9.1389
0 54 42.0
10490
7
22 9 57.09
9.0671
7 14 4.7
9497
7
23 50 30.34
9.1408
1 5 35.6
10.897
8
22 12 1.13
94676
7 4 25.7
9.671
8
23 52 38.87
9.1436
1 JC 29.6
10403
9
22 14 5.20
9.0681
6 54 44.1
9.714
9
23 54 47.57
9.1464
1 /} 24-0
10.909
10
22 16 9.30
9.0686
6 45 0.0
9.756
10
23 56 56.44
9.1493
1 38 18.7
10.913
11
22 18 13.43
94699
6 35 13.4
9.798
11
23 59 5.48
9.1599
1 49 13.6
10416
12
22 20 17.60
9.0699
6 25 24.2
9.640
12
0 1 14.70
9.1551
2 0 8.6
10.919
13
22 22 21.81
9.0706
6 15 32.6
9.879
13
0 3 24.09
9.1581
2 11 3.8
10.991
14
22 24 26.07
94713
6 5 38.7
9418
14
0 5 33.67
9.1619
2 21 59.1
10491
15
22 26 30.37
9.0790
5 55 42.4
9457
15
0 7 43.43
9.1643
2 32 54.3
10.990
16
22 28 34.71
9.0798
5 45 43.8
9495
16
0 9 53.38
9.1674
2 43 49.5
10419
17
22 30 39.11
9.0737
5 35 43.0
10.033
17
0 12 3.52
9 1706
2 54 44.6
10.917
18
22 32 43.56
94747
5 25 39.9
10.070
18
0 14 J3.85
9.1738
3 5 39.6
10414
19
22 34 48.07
9.0756
5 15 34.6
10.106
19
0 16 24.38
9.1779
3 16 34.3
10409
20
22 36 52.63
9.0765
5 5 27.2
10.141
20
0 18 35.11
9.1805
3 27 28.7
10.904
21
22 38 57.25
9.0776
4 55 17.7
10.176
21
0 20 46.04
9.1839
3 38 22.8
10.897
22
22 41 1.94
9.0787
4 45 6.1
10.910
22
0 22 57.18
9.1874
3 49 16.4
10.889
23
22 43 6.69
9.0798
4 34 52.5
10443
23
0 25 8.53
9.1909
4 0 9.5
10481
24
22 45 11.51
9.0809
S. 4 24 36.9
10.976
24
0 27 20.09
9.1945
N. 4 11 2.1
10479
J
100
JUNE, 1884.
IX.
GBEENWICH MEAN TIME.
*
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Right Ascension.
Diftfor
1 Minute.
Declination.
Diff.for
lMlnute.
Hour.
Bight Ascension.
Difffbr
1 Minute.
Declination.
Diff.for
1 Minute
TH
ESDAJ
Z 17.
THUESDAY 19.
h m 8
8
O 1 H
//
h m n
8
O / //
n
0
0 27 20.09
9.1945
N. 4 1 1 2.1
10.879
0
2 17 34.45
9.4113
N.12 19 38.5
9409
1
0 29 31.87
9.1981
4 21 54.1
10.861
1
2 19 59.28
9.4164
12 28 36.5
8431
2
0 31 43.86
9.9017
4 32 45.4
10.849
2
2 22 24.42
9.4915
12 37 30.2
8.858
3
0 33 56.07
9.9054
4 43 36.0
10.837
3
2 24 49.86
9.4966
12 46 19.5
8.784
4
0 36 8.51
9.9099
4 54 25.8
10.893
4
2 27 15.61
9.4317
12 55 4.3
8.708
5
0 38 21.17
9.9199
5 5 14.7
10.808
5
2 29 41.66
9.4367
13 3 44.5
8.639
J 6
0 40 34.06
9.9168
5 16 2.7
10.799
6
2 32 8.02
9.4418
13 12 20.1
8453
7
0 42 47.18
9.9907
5 26 49.7
10.774
7
2 34 34.68
9.4468
13 20 50.9
8.474
8
0 45 0.54
9.9947
5 37 35.6
10.756
8
2 37 1.64
9.4519
13 29 17.0
8494
9
0 47 14.14
9.9397
5 48 20.4
10.737
9
2 39 28.91
9.4570
13 37 38.2
8419
10
0 49 27.98
9.9397
5 59 4.0
10.716
10
2 41 56.48
9.4690
13 45 54.4
8498
11
0 51 42.06
9.9368
6 9 46.3
10.693
11
2 44 24.35
9.4669
13 54 5.6
8.143
12
0 53 56.39
9.9409
6 20 27.2
10.670
12
2 46 52.51
9.4718
14 2 11.5
8456
13
0 56 10.97
9.9451
6 31 6.7
10.647
13
2 49 20.97
9.4768
14 10 12.3
7.968
14
0 58 25.80
94493
6 41 44.8
10491
14
2 51 49.73
9,4818
14 18 7.8
7480
15
1 0 40.88
94535
6 52 21.3
10.594
15
2 54 18.79
9.4867
14 25 57.9
7.790
16
1 2 56.22
9.9577
7 2 56.1
10.567
16
2 56 48.14
9.4916
14 33 42.6
7.698
17
1 5 11.81
9.9690
7 13 29.3
10.538
17
2 59 17.78
9.4965
14 41 21.7
7404
18
1 7 27.66
9.9664
7 24 0.7
10.508
18
3 1 47.72
94014
14 48 55.1
7409
19
1 9 43.78
94709
7 34 30.3
10.477
19
3 4 17.95
9.5069
14 56 22.8
7.414
20
1 12 0.17
9.9753
7 44 57.9
10.443
20
3 6 48.46
94109
15 3 44.8
7.317
21
1 14 16.82
9.9797
7 55 23.5
10.409
21
3 9 19.25
94156
15 11 0.9
7419
22
1 16 33.74
94849
8 5 47.0
10474
22
3 11 50.$*
94909
15 18 11.1
7.119
23
1 18 50.93
WEI
94888
)NE8D
N. 8 16 8.4
AY 18.
10438
23
3 14 21.68
94948
EHDA1
N.15 25 15.2
r 20.
7.018
0
1 21 8.40
94934
N. 8 26 27.6
16401
0
3 16 53.31
94994
N.15 32 13.2
6416
1
1 23 26.14
94980
8 36 44.5
10469
1
3 19 25.21
94340
15 39 5.1
6419
2
1 25 44.16
9.3097
8 46 59.0
10499
2
3 21 57.39
94386
15 45 50.7
6.707
3
1 28 2.47
9.3075
8 57 11.1
10.180
3
3 24 29.84
94430
15 52 29,9
6.600
4
1 30 21.06
94199
9 7 20.6
10.137
4
3 27 2.55
9.5473
15 59 2.7
6.493
5
1 32 39.93
2.3169
9 17 27.5
10.093
5
3 29 35.52
94517
16 5 29.1
6485
6
1 34 59.09
9.3917
9 27 31.8
10448
6
3 32 8.76
94561
16 11 48.9
6.975
7
1 37 18.54
9.3266
9 37 33.3
10.009
7
3 34 42.25
9.5609
16 18 2.1
6.164
8
1 39 38.28
2.3314
9 47 32.0
9.953
8
3 37 15.99
94643
16 24 8.6
6.059
9
1 41 58.30
9.3369
9 57 27.7
9.903
9
3 39 49.97
94684
16 30 8.3
5438
10
1 44 18.62
9.3411
10 7 20.4
9.853
10
3 42 24.20
94795
16 36 1.2
5.894
11
1 46 39.23
9.3460
10 17 10.1
9.809
11
3 44 58.67
94765
16 41 47.2
5.706
12
1 49 0.14
9.3510
10 26 56.6
9748
12
3 47 33.38
94804
16 47 26.2
5491
13
1 51 21.35
9.3559
10 36 39.9
9493
13
3 50 8.32
94849
16 52 58.1
5.474
14
1 53 42.85
9.3608
10 46 19.8
9437
14
3 52 43.48
94878
16 58 23.0
5455
15
1 56 4.65
9.3658
10 55 56.3
9.580
15
3 55 18.86
9.5915
17 3 40.7
5.9:15
16
1 58 26.75
9.3708
11 5 29.4
9499
16
3 57 54.46
94959
17 8 51.2
5.114
17
2 0 49.15
9.3758
11 14 58.9
9.461
17
4 0 30.28
94987
17 13 54.4
4.999
18
2 3 11.85
9.3809
11 24 24.7
9499
18
4 3 6.31
9.6099
17 18 50.2
4.868
19
2 5 34.86
94860
11 33 46.8
9437
19
4 5 4%54
9.6055
17 23 38.6
4.745
20
2 7 58.17
94910
11 43 5.1
9479
20
4 8 18.97
94087
17 28 19.6
4491
21
2 10 21.78
94961
11 52 19.5
9.907
21
4 10 55.58
9.6118
17 32 53.1
4.495
22
2 12 45.70
9.4019
12 1 29.9
9.140
22
4 13 32.38
9.6148
17 37 19.0
4467
23
2 15 9.92
9.4069
12 10 36.3
9.079
23
4 16 9.36
9.6178
17 41 37.2
4.218
24
2 17 34.45
9.4113
N.12 19 38.5
9409
24
4 18 46.52
9.6907
N.17 45 47.6
4.109
JUNE, 1884.
101
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Sight Ascension.
Difllfor
IMinute.
Declination.
Difllfor
1 Minute.
Boor.
Right Aeoension.
Difllfor
IMinute.
Declination.
Difllfor
IMinute.
SAG
WBD1
LT 21.
MONDAY 23.
li m 8
*
O 1 It
it
h m s
•
Oil/
a
0
4 18 46.52
3.6207
N.17 45 47.6
4.109
0
6 25 46.31
94951
N.18 25 48.6
9.489
1
4 21 23.85
9.6935
17 49 50.3
3.981
1
6 28 23.73
8.6903
18 23 15.7
9.614
2
4 24 1.34
9.6909
17 53 45.3
3.859
2
6 31 0.98
94194
18 20 34.9
9.746
3
4 26 38.99
9.6987
17 57 32.5
3.791
3
6 33 38.06
9.6166
18 17 46.2
9477
4
4 29 16.79
9.6319
18 1 11.8
3.589
4
6 36 14.96
94134
18 14 49.6
3.009
5
4 31 54.74
9.607
18 4 43.2
3.456
5
6 38 51.67
94109
18 11 45.1
3.140
6
4 34 32.83
9.6359
18 8 6.6
3.393
6
6 41 28.18
94068
18 8 32.8
3.969
7
4 37 11.05
9.6391
18 11 22.0
3.190
7
6 44 4.49
9.6094
18 5 12.8
3497
8
4 39 49.40
9.6401
18 14 29.4
3.056
8
6 46 40.59
94999
18 1 45.1
3495
9
4 42 27.86
9.6490
18 17 28.7
9.991
9
6 49 16.48
94963
17 58 9.8
3459
10
4 45 6.44
9.6439
18 20 19.9
9.785
10
6 51 52.15
94997
17 54 26.9
3.777
11
4 47 45.13
9.6457
18 23 2.9
9.648
11
6 54 27.60
94888
17 50 36.5
3409
12
4 50 23.92
9.6479
18 25 37.7
9419
12
6 57 2.81
94849
17 46 38.6
4.097
13
4 53 2.80
2.6487
18 28 4.3
9475
13
6 59 37.79
94810
17 42 33.3
4.150
14
4 55 41.77
9.6509
18 30 22.7
9.937
14
7 2 12.53
9.5769
17 38 20.6
4.979
15
4 58 20.82
9.6514
18 32 32.8
9.099
15
7 4 47.02
94798
17 34 0.6
4493
16
5 0 59.94
9.6595
18 34 34.6
1461
16
7 7 21.26
94686
17 29 33.4
4413
17
5 3 39.12
9.6535
18 36 28.1
1.899
17
7 9 55.25
94643
17 24 59.0
4439
18
5 6 18.36
9.6544
18 38 13.3
1.683
18
7 12 28.98
94600
17 20 17.5
4.750
19
5 8 57.65
9.6559
18 39 50.1
1443
19
7 15 2.45
94555
17 15 29.0
4.868
20
5 11 36.99
94559
18 41 18.5
1.404
20
7 17 35.64
94509
17 10 33.4
4484
21
5 14 16.36
9.6564
18 42 38.6
1464
21
7 20 8.56
94463
17 5 30.9
5498
22
5 16 55.76
9.6568
16 43 50.2
1.193
22
7 22 41.20
94417
17 0 21.6
5419
23
5 19 35.18
St
9.6579
JNDA1
N.18 44 53.4
I 22.
0.983
28
7 25 13.56
TD
94370
ESDA
N.16 55 5.5
Y 24.
5495
0
5 22 14.62
94573
NJ8 45 48.2
0.843
0
7 27 45.64
94399
N.16 49 42.6
5.437
1
5 24 54.06
94573
18 46 34.6
0.709
1
7 30 17.43
94973
16 44 13.1
5446
2
5 27 33.50
9.6573
18 47 12.5
0469
2
7 32 48.92
94994
16 38 37.1
5.655
3
5 30 12.94
9.6579
18 47 42.0
0.499
3
7 &5 20.12
94175
16 32 54.5
5.763
4
5 32 52.36
9.6568
18 48 3.1
0.981
4
7 37 51.00
94194
16 27 5.5
5469
5
5 35 31.76
9.6564
18 48 15.7
+ C.140
5
7 40 21.61
94073
16 21 10.2
5.974
6
5 38 11.13
9.6558
18 48 19.9
0.000
6
7 42 51.90
94099
16 15 8.6
6.078
7
5 40 50.46
9.0559
18 48 15.7
- 0.141
7
7 45 21.68
9.4971
16 9 0.8
6.189
8
5 43 29.75
9.6543
18 48 3.0
0.989
8
7 47 51.55
9.4918
16 2 46.8
6.983
9
5 46 8.98
9.6533
18 47 41.9
0.499
9
7 50 20.90
9.4865
15 56 26.8
6483
10
5 48 48.15
9.65S3
18 47 12.4
0.561
10
7 52 49.93
9.4819
15 50 0.8
6.489
11
5 51 27.26
9.6519
18 46 34.6
0.700
11
7 55 18.64
9.4759
J5 43 28.9
6460
12
5 54 6.29
9.6498
18 45 48.4
0.840
12
7 57 47.04
9.4706
15 36 51.2
6477
13
5 56 45.24
9.6484
18 44 53.8
0.979
13
8 0 15.11
9.4651
15 30 7.7
6.779
14
5 59 24.10
9.6469
18 43 50.9
1.117
14
8 2 42.85
9.4597
15 23 18.5
6.866
15
6 2 2.87
9.6453
18 42 39.7
1456
15
8 5 10.27
9.4549
15 16 23.8
6458
16
6 4 41.54
94436
16 41 20.2
1494
16
8 7 37.35
9.4486
15 9 23.6
7.049
17
6 7 20.10
9.6416
18 39 52.4
1439
17
8 10 4.10
9.4431
15 2 17.9
7.130
18
6 9 58.53
9.6395
18 38 16.3
1.670
18
8 12 30.52
9.4375
14 55 6.9
7.997
19
6 12 36.84
9.6374
18 36 32.0
1.806
19
8 14 56.60
9.4319
14 47 50.6
7415
20
6 15 15.02
9.6359
18 34 39.6
1.949
20
8 17 22.35
9.4963
14 40 29.1
7.401
21
6 17 53.07
94399
18 32 39.0
9.078
21
8 19 47.76
9.4907
14 33 2.5
7.486
22
6 20 30.97
94304
18 30 30.3
9.913
22
8 22 12.83
9.4150
14 25 30.9
7466
23
6 23 8.72
9.6978
16 28 13.5
9448
23
8 24 37.56
9.4093
14 17 54.3
7451
24
6 25 46.31
94951
N.18 25 48.6
9.489
24
8 27 1.95
9.4037
N.14 10 12.8
7.739
102
JUNE, 1884.
XL
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Eight Ascension.
Diff.for
1 Minute.
Declination.
Diff.for
1 Minute.
Hour.
Bight Ascension.
Diff.for
1 Minute.
Declination.
DiflL tot
1 Minute.
WEI
)NESD
AY 25.
FEIDAT 27.
h m s
8
N.14° 10' 12JB
n
h m s
8
O 1 ii
0
8 27 1.95
2.4037
7.739
0
10 16 1.19
9.1471
N. 6 51 4.5
10496
1
8 29 26.00
9.3980
14 2 26.5
7411
1
10 18 9.88
9.1496
6 40 58.1
10.116
2
8 31 49.71
9.3933
13 54 35.5
7.888
2
10 20 18.30
9.1381
6 30 50.6
10.134
3
8 34 13.07
9*3865
13 46 39.9
7465
3
10 22 26.45
9.1337
6 20 42.0
10.153
4
8 36 36.09
9*3808
13 38 39.7
8.040
4
10 24 34.34
9.1993
6 10 323
10.171
5
8 38 58.77
9-3759
13 30 35.1
8.113
5
10 26 41.97
9.1950
6 0 21.5
10.187
6
8 41 21.11
94694
13 22 26.1
8.186
6
10 28 49.34
9.1907
5 50 9.8
10.909
7
8 43 43.10
9J637
13 14 12.8
8457
7
10 30 56.46
9.1165
5 39 57.2
10.917
8
8 46 4.75
9.3580
13 5 55.2
8497
8
10 33 3.32
9.1193
5 29 43.7
10439
9
8 48 26.06
94593
12 57 .33.5
8496
9
10 35 9.93
9.1062
5 19 29.3
10.946
10
8 50 47.03
94466
12 49 7.7
8.463
10
10 37 16.30
9.1041
5 9 14.2
10457
11
8 53 7.65
94408
12 40 37.9
8499
11
10 39 22.42
9.1000
4 58 58.4
10 968
12
8 55 27.93
94359
12 32 4.2
8493
12
10 41 28.30
9.0961
4 48 42.0
10478
13
8 57 47.87
94995
12 23 26.7
8.657
13
10 43 33.95
94999
4 38 25.0
10487
14
9 0 7.47
9*3938
12 14 45.4
8.719
14
10 45 39.37
9.0663
4 28 7.5
10498
15
9 2 26.73
94189
12 6 0.4
6.780
15
10 47 44.55
94845
4 17 49.5
10403
16
9 4 45.65
94195
11 57 11.8
8.839
16
10 49 49.51
9.0807
4 7 31.2
10409
17
9 7 4.23
94069
11 48 19.7
8.896
17
10 51 54.24
94770
3 57 12.4
10416
18
9 9 22.48
94013
11 39 24.3
8459
18
10 53 58.75
9.0733
3 46 53.3
10491
19
9 11 40.39
9.9957
11 30 25.5
9408
19
10 56 &04
94697
3 36 33.9
10495
20
9 13 57.97
9.9909
11 21 23.3
9.063
20
10 58 7.12
9.0669
3 26 14.3
10497
21
9 16 15.21
9.9846
11 12 17.9
9.117
21
11 0 10.99
9.0697
3 15 54.6
10499
22
9 18 32.12
94791
11 3 9.3
9.168
22
11 2 14.65
9.0593
3 5 34.8
10431
23
9 20 48.70
TH1
941735
JBSD^
N.10 53 57.7
-T 26.
9417
23
11 4 18.11
SAT
94559
DURDi
N. 2 55 14.9
LY 28.
10439
0
9 23 4.94
94680
N.10 44 43.2
9466
0
It 6 21.36
9.0596
N. 2 44 55.0
10439
1
9 25 20.86
9.9096
10 35 25.8
9414
1
11 8 24.42
9.0493
2 34 35.1
10431
2
9 27 36.45
94579
10 26 5.5
9469
2
11 10 27.28
9.0461
2 24 15.3
10499
3
9 29 51.72
94516
10 16 42.4
9.408
3
11 12 29.95
9.0499
2 13 55.6
10497
4
9 32 6.67
94465
10 7 16.6
9.459
4
11 14 32.43
9.0398
2 3 36.1
10493
5
9 34 21.30
94419
9 57 48.2
9.494
5
11 16 34.73
9.0367
1 53 16.9
10418
6
9 36 35.61
9.9359
9 46 17.3
9436
6
11 18 36.84
9.0337
1 42 58.0
10413
7
9 38 49.61
94308
9 38 43.9
9477
7
11 20 38.77
94307
1 32 39.4
10408
8
9 41 3.29
94953
9 29 8.1
9416
8
11 22 40.53
94979
1 22 21.1
10409
9
9 43 16.65
94901
9 19 30.0
9454
9
11 24 42.12
94951
1 12 3.2
10.995
10
9 45 29.70
94150
9 9 49.6
9499
10
11 26 43.54
94933
1 I 45.7
10487
11
9 47 42.45
94099
9 0 7.0
9.798
11
11 28 44.79
94195
0 51 28.8
10.978
12
9 49 54.89
94048
8 50 22.3
9.769
12
11 30 45.88
9.0168
0 41 12.4
10.968
13
9 52 7.03
9.1998
8 40 35.6
9796
13
11 32 46.81
9.0149
0 30 56.6
10.958
14
9 54 18.87
9.1948
8 30.46.8
9499
14
11 34 47.59
9.0117
0 20 41.4
10.948
15
9 56 30.41
9.1896
8 20 56.1
9461
15
11 36 48.21
9.0091
0 10 26.8
10.936
16
9 58 41.65
9.1848
8 11 3.5
9491
16
11 38 48.68
9.0067
N. 0 0 13.0
10494
17
10 0 52.59
9.1799
8 1 9.2
9.919
17
11 40 49.01
9.0043
8. 0 10 0.1
10411
18
10 3 3.24
9.1759
7 51 1&2
9447
18
11 42 49.20
94090
0 20 12.4
10.197
19
10 5 13.61
9.1704
7 41 15.6
9.974
19
11 44 49.25
14997
0 30 23.8
10.183
20
10 7 23.69
9.1656
7 31 16.3
10.001
20
11 46 49.16
14973
0 40 34.4
10.169
21
10 9 33.48
9.1608
7 21 15.5
10.095
21
11 48 48 93
1.9951
0 50 44.1
10.153
22
10 11 42.99
9.1569
7 11 13.3
10.049
22
11 50 48.57
1.9930
1 0 52.8
10.137
23
10 13 52.23
9.1517
7 1 9.6
10.073
23
11 52 48.09
1.9910
1 11 0.5
10.191
24
10 16 1.19
9.1471
N. 6 51 4.5
10496
24
11 54 47.49
1.9890
S. 1 21 7.3
10.104
xn.
JUNE, 1884.
103
GREENWICH MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
Boar.
Bight Asoengion.
Difffor
1 Minnie.
Declination.
Diftfor
1 Minute.
Hour.
Bight Aaeenslon.
DUE for
1 Minute.
Declination.
Din*, for
1 Minute.
SUNI>AY 29.
TUESDAY, JULY 1.
0
1
2
h m e
11 54 47.49
11 56 46.77
11 58 45.93
8
1.9690
S. l°2l' A
J 31 13.0
1 41 17.6
10.104
o| 13h 28 53*25 i!ww S. 8 54 56^ | 8401
1.9870
1.9850
10.086
104)67
3
12 0 44.97
1.9639
1 51 21.0
10.047
4
12 2 43.91
1.9814
2 1 23.2
10.097
5
12 4 42.74
J .9796
2 11 24.2
10.007
6
12 6 41.46
1.9778
2 21 24.0
94)86
7
12 8 40.06
1.9789
2 31 22.5
9.963
8
12 10 38.61
1.9747
2 41 19.6
9.941
.9
12 12 37.04
1.9731
2 51 15.4
9.918
10
12 14 35.38
1.9716
3 1 9.8
9.895
11
12 16 33.63
1.9701
3 11 2.8
9.871
12
12 18 31.79
1.9687
3 20 54.3
9.846
13
12 20 29.87
1.9673
3 30 44.3
9.891
14
12 22 27.87
1.986]
3 40 32.8
9.795
15
12 24 25.80
1.9846
3 50 19.7
9.768
16
12 26 23.65
1.9636
4 0 5.0
9.741
17
12 28 21.43
1.9895
4 9 48.6
9.713
PHASES OP THE MOON.
18
12 30 19.15
12 32 16.80
1.9814
4 19 30.6
4 29 10.9
94186
19
1.9603
9.657
20
12 34 14.39
1.9593
4 38 49.4
94N7
d h m
O Full Moon .... 8 7 49.2
21
22
12 36 11.92
12 38 9.39
1.9583
1.9574
4 48 26.2
4 58 1.2
\598
9.568
23
12 40 6.61
1.9566
S. 5 7 34.4
9.537
C Last Quarter. . . . 16 2 34.4
• New Moon .... 22 17 33.1
M(
>NDAY 30.
J> Pint Quarter • . . 29 J8 14.7
0
1
12 42 4.18
12 44 1-50
1.9556
1.9550
8. 5 17 5.7
5 26 35.1
9.506
9.474
2
12 45 58.78
1.9543
5 36 2.6
9.449
d h
3
12 47 56.02
1.9537.
5 45 28.1
9.406
C Apogee 6 15.4
4
5
12 49 53.22
12 51 50.39
1.9531
1.9595
5 54 51.6
6 4 13.1
94)75
9.341
<C Perigee 21 15.6
6
12 53 47 52
1.9519
6 13 32 5
9.307
7
12 55 44.62
1.9514
6 22 49.9
9.979
*
8
12 57 41.69
14)510
6 32 5.1
9.936
9
12 59 38.74
14)506
6 41 18.2
9.900
.
10
13 1 35.76
14)509
6 50 29.1
9.163
11
13 3 32.77
14)500
6 59 37.8
9.196
12
13 5 29.76
14M96
7 8 44.3
94)89
13
13 7 26.74
1.9496
7 17 48.5
9.051
14
13 9 23.71
1.9493
7 26 50.4
9.019
15
13 11 20.66
14M99
7 35 50.0
8J73
16
13 13 17.61
14)491
7 44 47.2
8.933
17
13 15 14.55
1.9490
7 53 42.0
8494
18
13 17 11.49
1.9490
6 2 34.5
8454
19
13 19 8.43
1.9491
8 11 24.5
8413
20
13 21 5.38
14)499
8 20 12.0
8.771
21
13 23 2.33
14)493
8 28 57.0
8.799
22
13 24 5939
14)494
8 37 39.5
8487
23
13 26 56.26
14)497
8 46 19.4
8444
24
13 28 53.25
1.9499
8. 8 54 56.8
8401
104
JUNE, 1884.
XHL
GREENWICH MEAN TIME.
LUNAR DISTANCES.
•
P.L.
P.L.
P.L.
P.L.
Name and Direction
Noon.
of
HP*.
of
VP».
of
1».
of
of Objtofc
Dlff.
Diff.
Dlff.
DUT.
1
Sun
W.
99 17 43
3175
100 44 22
3169
102 10 44
3903
103 36 50
3917
Pollux
W.
59 39 11
9943
61 10 35
9953
62 41 47
9969
64 12 47
9971
Venus
w.
58 3i) 9
3089
60 7 41
3093
61 35 59
3104
63 4 4
3114
Jupiter
w.
46 58 24
S917
50 30 21
9999
52 2 3
9941
53 33 30
9969
Regultis
w.
22 37 40
9909
24 9 47
9919
25 41 50
9917
27 13 47
9993
Mars
w.
22 41 45
3139
24 9 16
3131
25 36 48
3139
27 4 19
3134
Spica
E.
31 34 29
9830
30 0 40
9844
28 27 9
9858
26 53 56
9879
An tares
E.
77 21 13
9866
75 48 11
9880
74 15 27
9894
72 43 1
9908
2
Sun
W.
110 43 23
3979
112 7 59
3391
113 32 21
3309
114 56 30
3319
Pollux
W.
71 44 55
3017
73 14 47
3095
74 44 29
3034
76 14 0
3049
Venus
W.
70 21 27
3169
71 48 22
3171
73 15 6
3179
74 41 40
3187
Jupiter
W.
61 7 18
3005
62 37 25
3014
64 7 20
3094
65 37 3
3034
Regulus
W.
34 51 39
9956
36 22 47
9983
37 53 46
9970
39 24 36
9977
Mars
w.
34 20 43
3160
35 47 40
3167
37 14 29
3173
38 41 10
3179
An tares
E.
65 4 56
9970
63 34 6
9981
62 330
9993
60 33 8
3005
3
Sun
W.
121 54 20
3360
123 17 22
3368
124 40 15
3377
126 2 58
3385
Pollux
W.
83 39 10
3079
85 7 45
3086
86 36 12
3099
88 4 31
3099
Venus
w.
81 52 17
3999
83 18 0
3998
84 43 36
3933
86 9 6
3939
Jupiter
w.
73 2 59
3073
74 31 42
3080
76 0 16
3QB7
77 28 41
3094
Regulus
w.
46 56 35
3011
48 26 34
3017
49 56 26
3099
51 26 11
3099
Mars
w.
45 52 41
3911
47 18 37 <
> 3917
46 44 26
3993
50 10 8
3999
An tares
E*
53 4 45
3058
51 35 44
3068
50 6 55
3078
48 38 19
3089
aAquito
E.
103 21 1
3407
101 58 52
3409
100 36 46
3413
99 14 44
3416
4
Sun
W.
132 54 27
3419
134 16 22
3495
135 38 10
3431
136 59 52
3437
Pollux
W.
95 24 13
3198
96 51 49
3133
98 19 19
3138
99 46 43
3143
Venus
W.
93 15 6
3961
94 40 3
3964
96 4 56
3967
97 29 46
3970
Jupiter
W.
84 48 57
3191
86 16 41
3196
87 44 19
3130
89 11 52
3134
Regulus
W.
58 53 15
3059
60 22 23
3056
61 51 26
3060
63 20 24
3064
Mars
W.
57 17 7
3959
58 42 15
3956
60 7 18
3959
61 32 17
3963
Antares
E.
41 18 30
3149
39 51 11
3153
38 24 6
3165
36 57 15
3178
a Aquike
E,
92 25 32
3434
91 3 54
3438
89 42 21
3443
88 20 53
3447
5
Venus
W.
104 33 9
3960
105 57 44
3981
107 22 17
3963
108 46 48
3984
Jupiter
w.
96 28 33
3150
97 55 42
3159
99 22 49
3154
100 49 53
3157
Regulus
w.
70 44 19
3077
72 12 57
3079
73 41 32
3061
75 10 5
3089
Mars
w.
68 36 17
3976
70 0 57
3977
71 25 35
3980
72 50 10
3981
Spica
w.
17 6 5
3091
18 34 25
3069
20 2 48
3088
21 31 12
3087
a A quite
E.
81 34 54
3473
80 14 0
3479
78 53 13
3485
77 32 32
3499
6
Regulus
W.
82 32 31
3086
84 058
3086
85 29 25
3086
86 57 52
3086
Mars
W.
79 52 45
3985
81 17 14
3985
82 41 43
3985
84 6 12
3964
Spica
W.
28 53 29
3083
30 21 59
3089
31 50 30
3089
33 19 2
3081
a AquilfB
E.
70 51 8
3531
69 31 18
3540
68 11 38
3550
66 52 9
3561
Fomalhaut
E.
101 34 34
3515
100 14 27
3511
98 54 16
3508
9734 1
3505
7
Regulus
W.
94 20 16
3081
95 48 49
3060
97 17 23
3076
98 45 59
3077
Mars
W.
91 8 49
3980
92 33 24
3979
93 58 0
3977
95 22 38
3975
•
Spica
W.
40 42 3
3074
42 10 44
3079
43 39 28
3070
45 8 14
3069
a Aquil®
E.
60 17 54
3695
58 59 47
3649
57 41 58
3660
56 24 28
3679
Fomalhaut
E.
90 51 58
3493
89 31 27
3499
88 10 53
3491
86 50 19
3490
XIV.
JUNE, 1884.
105
GREENWICH MEAN TIME.
LUNAR DISTANCED
0
Name and Direction
of Object.
Midnight
P.L.
of
Biff.
xv*.
P.L.
of
Dlff.
xvm»
P.L.
of
Dlff.
XX1*»
P.L.
of
Diff.
1
Sun
W.
105 2 39
3830
O 1 II
106 28 12
3943
107 5330
3955
109 18 34
3968
Pollux
W.
65 43 36
9981
67 14 13
9990
68 44 38
9999
70 14 52
3008
Venus
w.
64 31 57
3194
65 59 38
3134
67 27 6
3144
68 54 22
3153
Jupiter
w.
55 4 43
9963
56 35 42
9974
58 6 27
9985
59 36 59
9995
Regulus
w.
28 45 37
9998
30 17 20
9935
31 48 55
9949
33 20 21
9948
Mars
w.
28 31 47
3138
29 59 10
3143
31 26 28
3148
32 53 39
3154
Spica
E.
25 21 1
9886
23 48 24
9899
22 16 4
9913
20 44 2
9998
An tares
E.
71 10 52
9990
69 38 59
9933
68 7 22
9946
6636 1
9958
2
Sun
W.
116 20 27
3393
117 44 12
3333
119 7 45
3349
120 31 8
335*1
Pollux
W.
77 43 21
3049
79 12 33
3057
80 41 35
3065
82 10 27
3073
Venus
W.
76 8 5
3194
77 34 21
3909
79 0 28
3909
80 26 27
3916
Jupiter
W.
67 634
3049
68 35 55
3050
70 5 6
3068
71 34 7
3065
Regulus
W.
40 55 17
9985
42 25 49
9991
43 56 13
9998
45 26 28
3005
Mars
W.
40 7 44
3186
41 34 10
3J93
43 0 28
3199
44 26 38
3905
Antares
E.
59 3 1
3015
57 33 7
3096
56 3 26
3037
54 33 59
3047
3
Sun
W.
127 25 32
3399
128 47 58
3400
130 10 15
3406
131 32 25
3413
Pollux
W.
89 32 42
3105
91 0 45
3111
92 28 41
3117
93 56 30
3199
Venus
W.
87 34 29
3944
88 59 46
3948
90 24 58
3953
91 50 4
3957
Jupiter
W.
78 56 56
3100
80 25 8
3105
81 53 11
3111
83 21 7
3116
Regulus
W.
52 55 48
3034
54 25 18
3039
55 54 42
3043
57 24 1
3047
Mars
W.
51 35 43
3934
53 1 12
3938
54 26 36
3943
55 51 54
3947
Antares
E.
47 9 56
3099
45 41 45
3109
44 13 47
3190
42 46 2
3131
a Aqiiihe
E.
97 52 46
3419
96 30 51
3499
95 9 0
3497
93 47 14
3430
4
Sun
W.
138 21 27
3449
139 42 56
3447
141 4 19
3453
142 25 36
3457
Pollux
W.
101 14 1
3147
102 41 14
3159
104 8 21
3156
105 35 23
3160
Venus
W.
98 54 32
3973
100 19 15
3976
101 43 55
3977
103 8 33
3979
Jupiter
W.
90 39 21
3138
92 6 45
3141
93 34 5
3144
95 1 21
3148
Regulus
W.
64 49 18
3067
66 18 8
3069
67 46 55
3079
69 15 39
3075
Mars
W.
62 57 12
3966
64 22 3
3969
65 46 51
3979
67 11 35
3974
Antares
E.
35 30 40
3199
34 4 21
3906
32 38 19
3999
31 12 36
3940
a Aquilw
E.
86 59 30
3459
85 38 12
3457
84 17 0
3469
82 55 54
3468
5
Venus
W.
110 11 18
3984
111 35 48
3985
113 0 17
3985
114 24 46
3985
Jupiter
W.
102 16 54
3158
103 43 53
3160
105 10 50
3161
106 37 46
3169
Regulus
W.
76 38 37
3063
78 7 7
3084
79 35 36
3085
81 4 4
3086
Mars
W.
74 14 43
3989
75 39 15
3983
77 3 46
3984
78 28 16
3985
Spica
W.
22 59 38
3086
24 28 5
3086
25 56 32
3085
27 25 0
3084
a AquilsB
E.
76 11 59
3499
74 51 34
3506
73 31 17
3514
72 11 8
3599
6
•Regulus
W.
88 26 19
3085
89 54 47
3085
91 23 15
3083
92 31 45
3089
Mars
W.
85 30 42
3984
86 55 12
3983
88 19 43
3989
89 44 15
3981
Spica
W.
34 47 35
3079
36 16 10
3078
37 44 46
3077
39 13 24
3076
lAqiiil®
E.
65 32 52
3579
64 13 47
3584
62 54 55
3597
61 36 17
3610
FomaLhaut
E.
96 13 42
3509
94 53 20
3499
93 32 55
3497
92 12 28
3495
7
Regulus
W.
100 14 37
3074
101 43 18
3073
103 12 1
3071
104 40 46
3069
Mars
W.
96 47 19
3973
98 12 2
3971
99 36 47
3989
101 1 35
3966
Spica
W.
46 37 2
3066
48 5 53
3064
49 34 47
3061
51 3 45
3058
a Aquilw
E.
55 7 19
3700
53 50 32
, 3793
52 34 9
3747
51 18 12
3774
Fomalhaut
E.
85 29 44
3490
84 9 9
* 3490
82 48 34
3490
81 27 59
3491
106
JUNE, 1884.
XV.
GREENWICH MEAN TIME.
LUNAR DISTANCES.
Name and Direction
of Object
Noon.
P.L.
of
Dlff.
in*.
P.L
of
Diff.
VI*
P.L.
of
Diff.
DP*-
P. L.
of
Dlff.
7
a Pegasi
E.
106 57 14
3974
105 32 32
3970
lo! 7 45
3965
O / it
102 42 53
3969
8
Spica
GtAquilae
Fomalhaut
a Pegasi
W.
E.
E.
E.
52 32 46
50 2 43
80 7 25
95 37 25
3065
3804
3499
3949
54 1 51
48 47 45
78 46 52
94 12 6
3068
3837
3494
3939
55 30 59
47 33 21
77 26 21
92 46 43
• 3050
3879
3497
3936
57 0 10
46 19 33
76 5 53
91 21 16
3047
3919
3500
3939
9
Spica
Antares
Fomalhaut
a Pegasi
w.
E.
E.
64 27 11
20 23 32
69 24 30
84 13 4
'3096
3400
3591
3917
65 56 49
21 45 49
68 4 29
82 47 15
3093
3350
3597
3914
67 26 33
23 9 3
66 44 35
81 21 23
3019
3307
3535
3919
68 56 22
24 33 6
65 24 49
79 55 28
3014
3971
3543
9909
10
Spica
Aatares
Fomalhaut
a Pegasi
a Anctis
W.
W.
E.
E.
E.
76 26 53
31 42 16
58 48 37
72 45 11
116 5 24
9900
3148
3600
3199
3090
77 57 18
33 9 27
57 30 3
71 19 1
114 37 2
9985
3130
3616
3198
3089
79 27 50
34 37 0
56 11 46
69 52 49
113 8 31
9979
3114
3633
3196
3074
80 58 29
36 4 52
54 53 47
68 26 35
111 39 50
9973
3099
3651
3185
3067
11
Spica
Antares
Fomalhaut
a Pegasi
a Arietis
w.
E.
E.
E.
88 33 33
43 28 34L
48 29 48"
61 15 17
104*14 6
9943
3034
3785
3196
3099
90 4 57
44 58 4
47 14 30
59 49 3
102 44 29
9936
3099
3831
3197
3091
91 36 30
46 27 49
45 59 50
58 22 50
101 14 42
9999
3010
3861
3198
3013
93 8 12
47 57 49
44 45 51
56 56 39
99 44 45
9999
9999
3906
3909
3005
12
Spica
Ajitares
Fomalhaut
a Pegasi
a Arietis
Sun
W.
W.
E.
E.
E.
E.
100 49 2
55 31 10
38 49 6
49 46 52
92 12 33
138 41 2
9884
9946
4998
3998
9965
3958
102 21 41
57 2 30
37 41 6
48 21 16
90 41 36
137 16 1
9878
9935
4319
3937
9957
3947
103 54 31
58 34 4
36 34 31
46 55 50
89 10 29
135 50 48
9866
9995
4499
3947
9948
3937
105 27 33
60 5 51
35 29 30
45 30 37
87 39 11
134 25 23
9858
9915
4539
3959
9939
3996
13
Antares
a Aquike
a Arietis
Sun
W.
W.
E.
E.
67 48 9
28 36 6
79 59 55
127 15 5
9861
5570
9895
3173
69 21 18
29 26 1
78 27 30
125 48 22
9849
5990
9887
3160
70 54 42
30 19 16
76 54 54
124 21 25
9838
5045
9877
3148
72 28 21
31 15 36
75 22 6
122 54 14
9897
4830
9868
3136
14
Antares
a Aquilae
a Arietis
Sun
W.
W.
E.
E.
80 20 19
36.35 56
67 35 6
115 34 36
9768
4073
9891
3074
81 55 29
37 46 24
66 1 6
114 5 54
9755
3965
9819
3061
83 30 56
38 58 38
64 26 54
112 36 56
9743
3867
9809
3047
85 6 39
40 12 31
62 52 29
111 7 41
9730
3778
9793
3034
15
Antares
a Aquihe
a Arietis
Sun
W.
W.
E.
E.
93 9 2!)
46 42 52
54 57 27
103 37 10
9666
3433
9749
9969
94 46 55
48 4 31
53 21 52
102 6 10
9659
3378
9741
9948
96 24 40
49 27 13
51 46 7
100 34 52
9638
3397
9734
9933
96 2 43
50 50 53
50 10 13
99 3 15
9695
3979
9798
9917
16
a Aquil®
a Arietis
Sun
W.
E.
E.
58 2 18
42 8 42
91 20 16
3078
9704
9840
59 30 55
40 32 8
89 46 40
3043
9704
9894
61 0 14
38 55 34
88 12 43
3010
9706
9806
62 30 14
37 19 2
86 38 25
9979
9709
9799
17
a Aquil©
Fomalhaut
a Pegasi
W.
W.
W.
70 9 32
41 22 38
24 6 21
9841
3476
3819
71 43 6
42 43 29
25 21 4
9817
3391
3629
73 17 12
44 5 56
26 39 7
9794
3313
3469
74 51 48
45 29 52
28 0 6
9779
3941
3331
XVI.
JUNE, 1884.
107
GREENWICH MEAN TIME.
LUNAB DISTANCES.
7*
Name sad Direction
of Object
Midnight.
P.L.
of
Diff.
XV*-
P.L.
of
DHL
xvnik.
P. L.
of
Diir.
XXP».
P.L.
of
Diir.
10
II
12
13
14
15
16
17
a Pegasi
Spica
a Aqnilee
Fomalhaut
a Pegasi
Spica
Antares
Fomalhaut
a Pegasi
a Anetis
Spica
Antares
Fomalhaut
a Pegnsi
a Anetis
Antares
aAquihe
a Arietis
Sun
Antares
a Aquito
a Arietis
Sun
W.
E.
E.
E.
101
17 SS
Spica W.
Antares W.
Fomalhaut E .
a Pegasi E .
W.
W.
E.
E.
E.
W.
W.
E.
E.
U.
Spica W.
Antares W.
Fomalhaut E .
a Pegaxi E .
a Arietis E .
Sun E.
W.
W.
E.
E.
W.
W.
E.
E.
Antares W.
ctAquike W.
a Arietis E .
Sun E.
a Aquito W.
a Arietis E .
Sun E.
a Aquilee W.
Fomalhaut W.
o Pegasi W.
58 29 25
45 6 25
74 45 29
89 55 45
70 26 17
25 57 51
64 5 12
78 29 90
82 21) 15
37 33 3
53 36 8
67 0 20
110 11 0
94 40 3
49 28 3
43 32 37
55 30 32
•98 14 39
107 0 46
61 37 51
34 26 12
44 5 38
86 7 42
132 59 45
74 2 14
32 14 48
73 49 6
121 26 48
86 42 39
41 27 56
61 17 52
109 38 10
99 41 4
52 15 29
48 34 10
97 31 18
64 0 53
35 42 34
85 3 47
76 26 53
46 55 12
29 23 41
9858
3043
3965
3010
3941
3559
3tt07
3064
3673
3104
3000
9015
9960
3056
3905
9007
9004
4679
3974
9931
3915
9816
3194
9717
9784
9811
3934
9791
9850
9715
9776
9750
3176
3914
99 52 56
59 58 45
43 54 1
73 25 8
88 30 10
71 56 17
27 23 12
62 45 45
77 3 29
84 0 8
39 1 32
52 18 52
65 34 4
108 42 1
96 12 3
50 58 30
42 20 14
54 4 29
96 44 23
108 34 10
63 10 5
33 24 49
42 40 56
84 36 2
131 33 54
75 36 22
&3 16 38
72 15 54
119 59 8
88 18 56
42 44 46
59 43 3
106 8 22
101 19 44
53 40 58
46 57 58
95 59 2
65 32 9
34 6 14
83 28 48
78 2 26
48 21 50
30 49 34
3953
3030
4003
3506
3005
3913
3563
9961
3071
3607
3194
3051
9007
9078
4013
3900
9080
3901
9099
3905
9803
4474
9840
3119
9704
3693
9775
3006
9508
3199
9716
9887
9795
9760
9799
3115
3111
96 27 50
61 28 9
42 42 24
72 4 51
87 432
73 26 23
28 49 6
61 26 30
75 37 25
85 31 9
40 30 17
51 2 2
64 7 48
107 12 52
97 44 13
52 29 10
41 8 47
52 38 30
95 13 57
110 7 46
64 42 33
32 25 34
41 16 34
63 4 11
130 7 51
77 10 46
34 20 53
70 42 30
118 31 13
89 55 30
44 2 55
58 8 3
106 38 16
102 58 42
55 7 17
45 21 39
94 26 27
67 4 2
32 30 7
81 53 27
79 38 27
49 49 41
32 17 30
3950
3035
4055
3510
3001
3180
3574
3056
3794
3194
3044
9800
9968
4076
3914
9981
9831
9883
5003
3311
9013
3104
9791
4396
9840
3000
3564
9766
9991
9584
3151
9711
£879
9893
9730
9744
9710
3060
3093
97 2 40
62 57 38
41 31 39
70 44 38
85 38 50
74 56 35
30 15 28
60 7 27
74 11 19
87 2 17
41 59 18
49 45 40
62 41 32
105 43 34
99 16 33
54 0 3
39 58 22
51 12 37
93 43 20
111 41 34
66 15 14
31 28 41
39 52 35
81 32 9
128 41 35
78 45 25
35 27 22
69 8 54
117 3 2
91 32 21
45 22 19
56 32 51
105 7 52
104 37 59
56 34 25
43 45 13
92 53 32
68 36 30
30 54 19
80 17 45
81 14 54
51 18 40
33 47 \6
4115
3515
3910
3167
3586
3901
9950
3046
3759
3105
3036
9957
4147
9973
9879
3183
9780
4109
9831
3087
9679
3499
9757
9077
9570
3114
9707
9750
9798
9691
3007
9949
108
JUNE, 1884.
XVII.
GItEENWICH MEAN TIME.
LUNAE DISTANCES.
9
P.L.
P.L.
P.L.
P.L.
Name aad Direction
Noon.
of
mh.
of
VP>.
of
DP».
of
of Object.
Biff.
Diff.
Diff.
Diff.
17
Sun
E.
78 41 42
9711
77 5 17
9695
O 1 II
75 28 31
9679
O 1 II
73 51 23
9663
18
a Aquike
W.
82 51 46
9673
84 29 2
9657
86 6 40
9641
87 44 39
9696
Fomalliaut
W.
52 48 44
9958
54 19 48
9915
55 51 48
9873
57 24 42
9833
a Pegasi
W.
So 18 42
9871
36 51 38
9608
38 25 55
9753
40 1 25
9709
Sun
£.
65 40 22
9585
64 1 7
9570
62 21 31
9556
60 41 35
9549
19
a Aquite
W.
95 59 17
9566
97 38 59
9557
99 18 53
9550
100 58 57
9544
Fomulhaut
W.
65 20 55
9673
66 58 11
9646
68 36 3
9699
70 14 28
9599
a Pegasi
W.
48 14 18
9505
49 55 20
9474
51 37 9
9446
53 19 38
9490
Sun
E.
52 17 9
9476
50 35 22
9464
48 53 18
9453
47 10 58
9441
20
Fomalliaut
W.
78 33 34
9510
80 14 33
9497
81 55 51
9484
83 37 26
2474
a Pegasi
W.
62 0 29
9317
63 46 4
9300
65 32 3
9985
67 18 24
9979
Sun
E.
38 35 51
9400
36 52 16
9394
35 833
9390
33 24 44
9387 ,
24
Sun
W.
18 25 5
9571
20 4 40
9563
21 44 26
9560
23 24 16
9569
Regulus
E.
37 32 28
9170
35 43 16
2187
33 54 29
9904
32 6 7
9999
Mars
E.
49 46 46
9390
48 1 16
9335
46 16 7
9350
44 31 20
9366
Spica
E.
91 0 29
9137
89 10 27
9150
87 20 44
9163
85 31 21
9178
25
Sun
W.
31 41 40
9604
33 20 29
9618
34 59 0
9639
36 37 11
9647
Mars
E.
35 53 24
9455
34 11 7
9474
32 29 18
9495
30 47 58
9517
Spica
E.
76 29 57
2954
74 42 50
9970
72 56 7
9987
71 9 48
9304
Antares
E.
121 50 35
9313
120 4 54
9397
118 19 34
9349
116 34 36
9357
26
Sun
W.
44 42 48
9731
46 18 47
9748
47 54 23
9767
49 29 34
9785
Spica
E.
62 24 38
9393
60 40 54
9419
58 57 36
9430
57 14 44
9449
Ail tares
E.
107 55 25
9439
106 12 46
9457
104 30 32
9474
102 48 43
9499
27
Sun
W.
57 19 24
9880
58 52 9
9899
60 24 29
9919
61 56 24
9938
Jupiter
W.
27 0 52
9695
28 37 39
9705
30 14 13
9716
31 50 32
9797
*
Spica
E.
48 47 1
9543
47 6 47
9561
45 26 58
9580
43 47 35
9598
Antares
E.
94 25 51
9589
92 46 32
960!
91 7 38
9618
89 29 8
9637
28
Sun
W.
69 30 5
3031
70 59 40
3048
72 28 53
3066
73 57 44
3083
Jupiter
W.
39 47 56
9795
41 22 30
9810
42 56 45
9894
44 30 42
9838
Regulus
Spica
W.
18 38 41
9799
20 13 10
9796
21 47 40
9801
23 22 6
9807
E.
&5 36 56
9689
34 0 2
9707
32 23 32
9795
30 47 25
9743
Aula res
E.
81 22 46
9796
79 46 41
9744
78 10 59
9761
76 35 40
9778
29
Sun
W.
81 16 44
3168
62 43 32
3183
84 10 2
3198
85 36 13
3914
Jupiter
W.
52 15 45
9910
53 47 51
9993
55 19 40
9937
56 51 12
9950
Regulus
W.
31 11 49
9854
32 45 7
9864
34 18 12
9875
35 51 3
9887
Antares
E.
68 44 37
9869
67 11 29
9677
65 38 41
9899
64 6 12
9907
30
Sun
W.
92 42 52
3969
94 7 24
3994
95 31 42
3307
96 55 45
3319
Jupiter
W.
64 24 53
3011
65 54 52
3099
67 24 38
3033
68 54 10
3043
Regulus
W.
43 31 47
9939
45 3 16
9950
46 34 32
9960
48 5 35
9969
Mars
W.
27 54 1
3169
29 20 55
3171
30 47 39
3179
32 14 13
3187
Antares
E.
56 28 34
9981
54 57 58
9995
53 27 39
3009
51 57 38
3099
a Aquilfe
E.
106 20 44
3359
104 57 33
3358
103 34 28
3363
102 11 29
3369
XVIII.
JUNE, 1884.
109
GREENWICH MEAN TIME.
•
LUNAR DISTANCES.
Nome and Dirtotion
of Otyeot.
Midnight.
P.L.
of
Ditt
xv*.
P.L.
of
Dlff.
xvnD»
P.L.
Of
Dlff.
XXIk
P.L.
of
Dlff.
17
Sun
E.
72 13 53
9647
o / II
70 36 2
9639
o / //
68 57 50
9616
O i n
67 19 17
9600
18
a Aquilee
Fomalhant
aPegasi
Sun
W.
W.
w.
E.
89 22 59
58 58 27
41 38 2
59 1 20
9611
9797
9655
9598
91 1 39
60 32 59
43 15 42
57 20 45
9590
9763
9619
9514
92 40 36
62 8 16
44 54 20
55 39 51
9587
9730
9573
9501
94 19 49
63 44 16
46 33 52
53 58 39
9576
9701
9538
9488
19
or AquiliB
Fomalhaut
aPegasi
Sun
Wj
W.
W.
£.
102 39 9
71 53 24
55 2 44
45 28 22
9539
9678
9396
9431
104 19 28
73 32 49
56 46 25
43 45 32
9535
9559
9373
9493
105 59 52
75 12 40
58 30 38
42 2 30
9634
9541
S353
9415
107 40 18
76 52 56
60 15 20
40 19 16
9534
9565
9335
9407
20
Fomalhaut
aPegasi
Sun
W.
W.
E.
85 19 15
69 5 4
31 40 51
9465
9960
S98G
87 1 17
70 52 2
29 56 56
9457
9949
9386
88 43 30
72 39 17
28 13 1
9458
9939
9388
90 25 51
74 26 47
26 29 9
9447
9931
9399
24
Sun
Regulus
Mars
Spica
W.
E.
E.
E.
25 4 3
30 18 13
42 46 56
83 42 20
9567
9243
9389
9199
26 43 43
£8 30 49
41 2 55
81 53 41
9574
9964
9399
9906
28 23 14
26 43 57
39 19 19
80 5 23
9589
9987
9417
9999
30 2 34
24 57 39
37 36 8
78 17 28
9599
9313
9436
9338
25
Sun
Mars
Spica
Antares
W.
E.
E.
E.
38 15 2
29 7 9
69 23 55
114 50 0
9663
9540
9399
2873
39 52 32
27 26 51
67 38 27
113 5 46
9679
9564
9339
9369
41 29 40
25 47 6
65 53 25
111 21 55
9696
9589
9357
9405
43 6 25
24 7 56
64 8 48
109 38 28
9713
9615
9375
9499
26
Sun
Spica
Antares
W.
E.
E.
51 4 21
55 32 19
101 7 18
9804
9467
9506
52 38 44
53 50 20
99 26 18
9833
9486
9598
54 12 42
52 8 47
97 45 44
9849
9505
9546
55 46 15
50 27 41
96 535
9861
9594
9564
27
Sun
Jupiter
Spica
Antares
W.
W.
E.
E.
63 27 55
33 26 36
42 8 3;
87 51 3
9956
9740
9617
2655
64 59 3
35 2 23
40 30 5
86 13 22
9975
9753
9635
9673
66 29 47
36 37 52
38 51 58
84 36 6
9993
9767
9653
9691
68 0 8
38 13 3
37 14 15
82 59 14
3013
9781
9671
9709
28
Sun
JUPITSR
Regulus
Spica
Aii tares
W.
W.
W.
E.
E.
75 26 14
46 4 20
24 56 25
29 11 42
75 0 44
3101
9853
9814
9761
9795
76 54 22
47 37 39
26 30 34
27 36 23
73 26 10
3118
9868
9893
9778
9811
78 22 10
49 10 39
28 4 32
26 1 27
71 51 57
3135
9889
9833
9796
9898
79 49 37
50 43 21
29 38 17
24 26 53
70 18 6
3159
9896
9843
9813
9845
29
Sun
Jupiter
Regulus
Antares
W.
W.
W.
E.
87 2 6
58 22 28
37 23 39
6234 2
3998
9969
9898
9993
88 27 42
59 53 28
38 56 1
61 2 12
3949
9975
9908
9938
89 53 1
61 24 12
40 28 10
59 30 41
3956
9988
9919
9959
91 18 4
62 54 40
42 0 5
57 59 28
3969
3000
9999
9967
30
Sun
Jupiter
Regulus
Mars
Antares
a Aquiiee
W.
W.
W.
W.
E.
E.
98 19 35
70 23 29
49 36 26
33 40 38
50 27 53
100 48 37
3330
3053
9978
3195
3036
3374
99 43 12
71 52 36
51 7 6
35 6 53
48 58 25
99 25 51
3340
3063
9988
3903
3050
8380
101 6 37
73 21 31
52 37 34
36 32 58
47 29 14
98 3 12
3351
3073
9996
3911
3064
3387
102 29 50
74 50 14
54 7 52
37 58 54
46 0 20
96 40 41
3361
3081
3004
3919
3077
3394
no
JULY, 1884.
AT GREENWICH APPARENT NOON.
THE SUN'S
•
1
1
1
*
8idereal
Time of
Semi-
diameter
Passing
Meridian.
Equation*/
Timo,
to be
Added to
Apparent
Time.
Diff for
1 Honr.
Apparent
Right Ascension.
Diff. for
1 Honr.
Apparent
Declination.
Diff. for
1 Honr.
Semi-
diameter.
Tues.
Wed.
Thur.
1
2
3
h m •
6 43 25.41
6 47 33.27
6 51 40.84
10.334
10.331
10.308
N.23 4 34.7
23 0 5.6
22 55 12.4
-10.71
11.71
13.71
15 46.16
15 46.16
15 46.17
68/76
68.72
68.68
m h
3 38.51
3 49.78
4 0.76
0.476
0.403
0.450
Frid.
Sat. '
SUN.
4
5
6
6 55 48.08
6 59 54.98
7 4 1.52
10.394
10.379
10.364
22 49 55.2
22 44 14.2
22 38 9.4
-13.71
14.70
15.68
15 46.18
15 46.20
15 46.22
68.64
68.59
68.54
4 11.42
4 21.74
4 31.69
0.436
0.431
0.406
7
8
9
7 8 7.68
7 12 13.45
7 16 18.82
10.248
10.333
10.21$
22 31 41.1
22 24 49.5
22 17 34.7
-16.66
17.63
18.59
15 46.24
15 46.25
15 46.28
68.49
68.43
68.37
4 41.26
4 50.44
4 59.23
0.390
0.376
0.358
Thur.
Frid.
Sat.
10
11
12
7 20 23.78
7 24 28.31
7 28 32.40
10.198
10.180
10.161
22 9 56.8
22 1 55.9
21 53 32.3
-19.56
20.51
21.45
15 46.31
15 46.35
15 46.39
68.31
68.25
68.19
5 7.62
5 15.59
5 23.10
0.340
0.333
0.303
SUN.
Mon.
Tues.
13
14
15
7 32 36.04
7 36 39.21
7 40 41.90
10.143
10.133
10.103
21 44 46.2
21 35 37.8
21 26 7.1
-33.38
33.31
34.33
15 46.43
15 46.48
15 46.53
68.12
68.05
67.98
5 30.15
5 36.74
5 42.86
0.384
0.364
0.344
Wed.
Thur.
Frid.
16
17
18
7 44 44.11
7 48 45.81
7 52 47.00
10.083
10.061
10.039
21 16 14.5
21 6 0.2
20 55 24.5
-35.14
36.04
36.93
15 46.58
15 46.64
15 46.70
67.92
67.84
67.76
5 48.50
5 53.64
5 58.27
0.334
0.303
0.181
Sat.
SUN.
Mon.
19
20
21
7 56 47.67
8 0 47.80
8 4 47.37
10.016
9.993
9.970
20 44 27.6
20 33 9.7
20 21 31.0
-37.80
38.68
39.54
15 46.76
15 46.84
15 46.92
67.68
67.60
67.52
6 2.36
6 5.92
6 8.93
0.159
0.136
0.113
Tues.
Wed.
Thur.
22
23
24
8 8 46.38
8 12 44.81
8 16 42.66
9.946
9.933
9.897
20 9 31.8
19 57 12.4
19 44 33.1
-30.38
31.33
33.05
15 47.01
15 47.10
15 47.20
67.44
67.36
67.28
6 11.37
6 13.24
6 14.54
0.089
0.065
0.040
Frid.
Sat.
SUN.
25
26
27
8 20 39.92
8 24 36.58
8 28 32.62
9.873
9.846
9.831
19 31 34.1
19 18 15.7
19 4 38.1
-33.86
33.66
34.45
15 47.30
15 47.41
15 47.51
67.19
67.11
67.02
6 15.25
6 15.35
6 14.83
0.015
0.011
0.036
Mon.
Tues.
Wed.
Thur.
28
29
30
31
8 32 28.04
8 36 22.84
8 40 17.02
8 44 10.58
9.795
9.770
9.744
9.719
18 50 41.8
18 36 27.0
18 21 53.8
18 7 2.5
-35.34
36.01
36.76
37.50
15 47.63
15 47.75
15 47.87
15 48.00
66.94
66.85
66.77
66.68
6 13.70
6 11.96
6 9.59
6 6.60
0.063
0.087
0.113
0.138
Frid.
32
8 48 3.51
9.693
N.17 51 53.6
-38.34
15 48.14
66.60
6 299
0.164
Note.— Th
Th
o mean time of semidiamete
e sign — prefixed to the hoi
r passing may be found by si
lrly change of declination ind
lbtracting 0>.l
icates that noi
D from th<
-th declini
b sidereal tin*
ttions are deci
a.
reaaing.
H.
JULY, 1884.
Ill
AT GREENWICH MEAN NOON.
THE
SUN'S
1
©
*
*
1
Equation of
Time,
to be
Subtracted
from
Mean Time.
Difll for
1 Hour.
8idereal
Time,
or
Bight Ascension
of
Mean 8nn.
Apparent
Bight Ascension.
Diff. for
lHoor.
Apparent
Declination.
Diff. for
lHonr.
Tues.
Wed.
Thur.
1
2
3
h m a
6 43 24.78
6 47 32.61
6 51 40.15
10.333
10.320
10.307
N. 23° 4 35.4
23 0 6.4
22 55 13.3
—10.71
11.71
12.71
m s
3 38.48
3 49.75
4 0.73
0.476
0.463
0.450
b m h
6 39 46.30
6 43 42.86
6 47 39.41
Frid.
Sat.
SUN.
4
5
6
6 55 47.36
6 59 54.23
7 4 0.74
10.293
10.278
10.203
22 49 56.2
22 44 15.3
22 38 10.6
-13.71
14.70
15.68
4 11.39
4 21.71
4 31.66
0.436
0.421
0.406
6 51 35.97
6 55 32.52
6 59 29.08
Mon.
Tues.
Wed.
7
8
9
7 8 6.87
7 12 12.61
7 16 17.96
10.247
10.232
10.215
22 31 42.4
22 24 50.9
22 17 36.2
-16.66
17.63
18.59
4 41.23
4 50.41
4 59.20
0.390
0.375
0.358
7 3 25.64
7 7 22.20
7 11 18.75
Thur.
Frid.
Sat.
10
11
12
7 20 22.90
7 24 27.41
7 28 31.48
10.197
10.179
10.160
22 9 58.4
22 1 57.7
21 53 34.2
-19.55
20.51
21.45
5 7.59
5 15.56
5 23.07
0.340
0.322
0.303
7 15 15.31
7 19 11.86
7 23 8.42
SUN.
Mon.
Tues.
13
14
15
7 32 35.10
7 36 38.25
7 40 40.93
10.141
10.121
10.101
21 44 48.2
21 35 39.9
21 26 9.4
-22.38
23.31
24.23
5 30.12
5 36.71
5 42.84
0.284
0.264
0.244
7 27 4.96
7 31 1.54
7 34 58.09
Wed.
Thur.
Frid.
16
17
18
7 44 43.13
7 48 44.82
7 52 46.00
10.081
10.060
10.038
21 16 16.9
21 6 2.7
20 55 27.2
-25.14
26.04
26.92
5 48.48
5 53.62
5 58.25
0.224
0.203
0.181
7 38 54.65
7 42 51.20
7 46 47.76
Sat.
SUN.
Mon.
19
20
21
7 56 46.66
8 0 46.78
8 4 46.35
10.016
9.993
9.970
20 44 30.4
20 33 12.6
20 21 34.0
-27.80
28.68
29.54
6 2.35
6 5.91
6 8.92
0.159
0.136
0.113
7 50 44.31
7 54 40.87
7 58 37.43
Tues.
Wed.
Thur.
22
23
24
8 8 45.35
8 12 43.78
8 16 41.63
9.946
9.922
9.897
20 9 34.9
19 57 15.7
19 44 36.6
-30.38
31.22
32.05
6 11.36
6 13.23
6 14.53
0.089
0.065
0.040
8 2 33.99
8 6 30.54
8 10 27.10
Frid.
Sat.
SUN.
25
26
27
8 20 38.89
8 24 35.54
8 28 31.59
9.872
9.846
9.821
19 31 37.6
19 18 19.2
19 4 41.7
-32.86
33.66
34.45
6 15.24
6 15.34
6 14.83
0.015
0.011
0.036
8 14 23.65
8 18 20.21
8 22 16.76
Mon.
Tues.
Wed.
Thur.
28
29
30
31
8 32 27.02
8 36 21.83
8 40 16.02
8 44 9.59
9.795
9.770
9.744
9.719
18 50 45.4
18 36 30.6
18 21 57.5
18 7 6.3
-35.24
36.01
36.76
37.50
6 13.70
6 11.96
6 9.59
6 6.61
0.062
0.087
0.113
0.138
8 26 13.32
8 30 9.87
8 34 6.43
8 38 2.98
Frid.
32
8 48 2.54
9.693
N. 17 51 57.4
-38.24
6 3.00
0.164
8 41 59.54
KOTK.— Tfa
Th
an
e eemidiameter for mean noon
e sign — prefixed to the honrl
> decreasing.
may be assumed the same as t
y change of declination indicate
hat for apparent
a that north dec
noon,
linations
Diffi for 1 Hour,
+ 9«.85G5
(Table IIL)
112
JULY, 1884.
in.
AT GREENWICH MEAN NOON.
1
1
1
THE SUN'S
2
Logarithm
of the
Radius Vector
of the
Earth.
Diftfor
1 Hour.
Mean Time
of
Sidereal Noon.
TRUE LONGITUDE.
DUL for
lHour.
LATITUDE.
X
V
1
2
3
183
184
185
99 58 52.0
100 56 3.6
101 53 14.9
58 20.9
55 32.3
52 43.4
143.98
142.96
142.96
+ 0.29
0.41
0.53
0.0072124
0.0072107
0.0072071
- 0.3
1.1
1,9
h m a
17 17 23.28
17 13 27.37
17 9 31.46
4
5
6
186
187
188
102 50 26.0
103 47 37.0
104 44 48.0
49 54.3
47 5.2
44 16.1
149.96
142.96
142.96
+ 0.65
0.75
0.80
0.0072018
0.0071948
0.0071864
- 2.6
3.2
3.8
17 5 35.55
17 1 39.64
16 57 43.73
7
8
9
189
190
191
105 41 59.0
106 39 10.2
107 36 21.4
41 27.0
38 37.9
35 48.9
149.96
142.96
142.97
+ 0.84
0.84
0.81
0.0071763
0.0071650
0.0071522
- 4.4
5.0
5.6
16 53 47.82
16 49 51.91
16 45 56.00
10
11
12
192
193
194
108 33 32.8
109 30 44.8
110 27 57.3
33 0.1
30 11.9
27 24.3
142.98
143.01
143.03
+ 0.75
0.66
0.57
0.0071380
0.0071223
0.0071049
- 6.2
6.9
7.6
16 42 0.09
16 38 4.18
16 34 8.27
13
14
15
195
196
197
HI 25 10.3
112 22 24.0
113 19 38.3
24 37.2
21 50.7
19 4.8
143.06
143.08
143.11
+ 0.45
0.32
0.18
0.0070860
0.0070653
0.0070426
- 8.3
9.0
9.8
~ 16 30 12.36
16 26 16.45
16 22 20.54
16
17
18
198
199
200
114 16 53.3
115 14 9.0
116 11 25.4
16 19.6
13 35.2
10 51.5
143.14
143.17
143.20
+ 0.05
-0.08
0.19
0.0070179
0.0069912
0.0069623
-10.7
11.6
12.6
*16 18 24.63
16 14 28.72
16 10 32.81
19
20
21
201
202
203
117 8 42.6
118 6 0.5
119 3 19.1
8 8.6
5 26.3
2 44.7
143.23
143.20
143.29
-0.28
0.33
0.37
0.0069308
0.0068970
0.0068609
-13.6
14.6
15.6
16 6 36.89
16 2 40.98
15 58 45.07
22
23
24
204
205
206
120 0 38.4
120 57 58.4
121 55 18.9
0 3.9
57 23.7
54 44.2
143.32
143.34
143.36
-0.37
0.34
0.28
0.0068222
0.0067808
0.0067368
-16.7
17.8
18.8
15 54 49.16
15 50 53.25
15 46 57.34
25
26
27
207
208
209
122 52 40.1
123 50 2.0
124 47 24.5
52 5.3
49 27.0
46 49.3
143.39
143.42
143.44
-0.19
-0.09
+ 0.03
0.0066904
0.0066416
0.0065905
-19.8
20.8
21.8
15 43 1.43
15 39 5.53
15 35 9.62
28
29
30
31
210
211
212
213
125 44 47.4
126 42 10.9
127 39 34.9
128 36 59.5
44 12.1
41 35.4
38 59.3
36 23.8
143.46
143.49
143.52
143.54
+ 0.16
0.29
0.41
0.53
0.0065371
0.0064816
0.0064241
0.0063648
-22.7
23.5
24.3
25.0
15 31 13.71
15 27 17.80
15 23 21.89
15 19 25.98
32
214
129 34 24.8
33 48.9
143.57
+ 0.62
0.0063038
-25.7
15 15 30.07
Note.— The
the
numbers in column
mean equinox of Jw
A correspond
unary 0*.0.
to the tru
e equinox of the date; in coloi
nn A, to
DifL for 1 Hour,
— 9-.8206.
(Table n.)
IV.
JULY, 1884.
113
GREENWICH MEAN TIME.
1
1
1
THE
MOON'S
8RMIDIAMETEB.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGE.
Noon.
Midnight
Noon.
Dlft for
lHoar.
Midnight.
Diff. tor
lHoox.
Meridian of
Greenwich.
Diff. for
1 Hoar.
Noon.
1
2
3
/ //
14 56.7
14 50.6
14 47.0
14 53!3
14 48.5
14 46.2
5443!'9
54 21.5
54 8.5
n
-1.13
0.73
0.36
54' 31.5
54 13.9
54 5.3
-0.93
0.54
- 0.19
h id
7 1.7
7 46.2
8 31.4
m
1.84
1.87
1.91
d
8.3
9.3
10.3
4
5
6
14 45.9
14 46.8
14 49.6
14 46.1
14 48.0
14 51.5
54 4.2
54 7.7
54 17.8
-0.02
+ 0.99
0.54
54 5.0
54 12.0
54 25.0
+ 0.14
0.42
0.65
9 17.7
10 5.1
10 53.2
1.95
1.99
2.02
11.3
12.3
13.3
7
8
9
14 53.8
14 59.3
15 5.7
14 56.4
15 2.4
15 9.3
54 33.4
54 53.5
55 17.2
+ 0.74
0.91
J. 05
54 42.9
55 4.9
55 30.1
+ 0.83
0.98
1.11
11 41.7
12 30.3
13 18.5
2.03
2.02
2.00
14.3
15.3
16.3
10
11
12
15 13.0
15 20.9
15 29.5
15 16.9
15 25.2
15 34.0
55 43.8
56 13.0
56 44.6
+ 1.17
1.87
1.36
55 58.1
56 28.5
57 1.1
+ 1.22
1.32
1.39
14 6.2
14 53.6
15 41.1
1.98
1.97
v 1.98
17.3
18.3
19.3
13
14
15
15 38.6
15 48.2
15 58.0
15 43.4
15 53.1
16 2.8
57 18.1
57 53.3
58 29.2
+ 1.43
1.48
1.48
57 35.6
58 11.2
58 46.9
+ 1.46
1.49
1.45
16 29.1
17 18.4
18 9.8
2.02
2.09
2.20
20.3
21.3
22.3
16
17
18
16 7.5
16 16.1
16 23.1
16 12.0
16 19.9
16 25.6
59 4.1
59 35.8
60 1.3
+ 1.40
1.21
0.89
59 20.5
59 49.5
60 10.7
+ 1.32
1.07
0.67
19 3.9
20 0.7
21 0.0
2.31
2.43
2.51
23.3
24.3
25.3
19
20
21
16 27.4
16 28.5
16 25.7
16 28.4
16 27.6
16 22.8
60 17.3
60 21.1
60 10.9
+ 0.42
-0.12
0.72
60 20.9
60 17.8
60 0.4
+ 0.16
-0.42
1.01
22 0.7
23 1.1
23 59.8
2.54
2.49
2.39
26.3
27.3
28.3
22
23
24
16 19.1
16 9.2
15 56.9
16 14.5
16 3.2
15 50.2
59 46.6
59 10.2
58 25.0
-1.28
1.72
1.99
59 29.8
58 48.4
58 0.4
-1.52
1.68
2.06
6
0 55.7
1 48.5
2.26
2.13
29 3
1.0
2.0
25
26
27
15 43.3
15 29.7
15 17.0
15 36.5
15 23.2
15 11.3
57 35.2
56 45.2
55 58.6
-2.10
2.03
1.82
57 10.0
56 21.3
55 37.6
-2.09
1.94
1.67
2 38.3
3 25.8
4 11.8
2.02
1.94
1.89
3.0
4.0
5.0
28
29
30
31
15 6.1
14 57.5
14 51.6
14 48.4
15 1.5
14 54.2
14 49.7
14 47.8
55 18.6
54 47.1
54 25.3
54 13.6
-1.50
1.12
0.69
-0 27
55 1.7
54 34.9
54 18.2
54 11.5
-1.32
0.91
0.48
-0.07
4 56.8
6 41.7
6 26.9
7 12.9
1.87
1.87
1.90
1.93
6.0
7.0
8.0
9.0
32
14 480
14 48.7
54 11.9
+ 0.12
54 14.5
+ 0.31
7 59.7
1.97
10.0
114
JDLY, 1884.
V.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Bight Ascension.
Diftfor
1 Minute.
Declination.
Ditt for
1 Minute.
Hoar.
Right A scension.
Biff, for
1 Minute.
Declination.
Dili: for
1 Minute.
Tt
JESD4
Y 1.
THURSDAY 3.
h m s
O i li
u
h m s
s
Q I n
//
0
13 28 53.25
1 9499
S. 8 54 56.8
84501
0
15 3 23.81
1.9984
S. 14 49 3.0
54)61
]
13 30 50.25
1.9509
9 3 31.6
&557
1
15 5 23.76
3.0000
14 54 59.9
5.915
2
13 32 47.27
1.9505
9 12 3.7
8.519
2
15 7 23£l
2.0016
15 0 52.8
5.848
3
13 34 44.31
1.9506
9 20 33.1
6.467
3
15 9 23.95
9.0039
15 6 41.8
5.763
4
13 36 41.37
1.9519
9 28 59.8
8.499
4
15 11 24.19
9.0048
• 15 12 2643
5.717
5
13 38 38.46
1.9517
9 37 23.8
&3T7
5
15 13 24.53
94)064
15 18 743
5.650
6
13 40 35.58
1.9599
9 45 45.0
84)31
6
15 15 24.96
9.0060
15 23 44.8
54*9
7
13 42 32.72
1.9597
9 54 3.5
8.984
7
15 17 25.49
9.0097
15 25) 17.7
64>14
8
13 44 29.90
1.9539
10 2 19.1
8.937
8
15 19 26.12
9.0113
15 34 46.5
5.446
9
13 46 27.11
1.9537
10 10 31.9
8.189
9
15 21 26.85
9.0130
15 40 11.2
5.377
10
13 48 24.35
1.9543
10 18 41.8
8.141
10
15 23 27.68
9.0147
15 45 31.7
54)07
11
13 50 21.63
1.9550
10 26 48.8
8.099
11
15 25 28.61
9.0163
15 50 48.1
5.938
12
13 52 18.95
1.9557
10 34 52.9
8.043
12
15 27 29.63
9.0179
15 56 0.3
5.168
13
13 54 16.31
1.9564
10 42 54.0
7.994
13
15 29 30.76
9.0196
16 1 8.3
5.097
14
13 56 13.72
1.9579
10 50 52.2
7.945
14
15 31 31.99
9.0913
16 6 12.0
5.097
15
13 58 11.17
1.9579
10 58 47.4
7.894
15
15 33 33.32
9.0930
16 11 11.5
4.956
16
14 0 8.67
1.9597
11 6 39.5
7.843
16
15 35 34.75
9.0947
16 16 6.7
4.864
17
14 2 6.22
1.9596
11 14 28.5
7.799
17
15 37 36.Q8
9.0964
16 20 57.6
44319
18
14 4 3.82
1.9604
11 22 14.5
7.741
18
15 39 37.92
9.0989
16 25 44.2
4.740
19
14 6 1.47
1.9613
11 29 57.4
7.688
19
15 41 39.66
9.0998
16 30 26.4
44W7
20
14 7 59.18
1.9623
11 37 37.1
7.635
20
15 43 41.50
9.0315
16 35 4.2
44*3
21
14 9 56.95
1.9639
11 45 13.6
7.589
21
15 45 43.44
9.0339
16 39 37.6
44B0
22
14 11 54.77
1.9649
11 52 46.9
74fc»
22
15 47 45.48
9.0349
16 44 6.6
4.446
23
14 13 52.66
WEI
1.9653
MSTESI
S.12 0 17.0
)AY2.
7.475
23
15 49 47.63
9.0366
RIDA^
S.16 48 31.1
ST 4.
44)79
0
14 15 50.61
1.9663
S.12 7 43.9
7.491
0
15 51 49.88
9.0383
S.16 52 51.2
4.996
1
14 17 48.62
1.9674
12 15 7.5
7.366
1
15 53 52.23
94)400
16 57 6.8
4.993
2
14 19 46.70
1.9685
12 22 27.8
7.310
2
15 55 54.68
9.0417
17 1 17.9
4.147
3
14 21 44.84
1.9696
12 29 44.7
7.954
3
15 57 57.24
9.0435
17 5 24.4
4.070
4
14 23 43.05
1.9706
12 36 58.3
7.198
4
15 59 59.90
94M59
17 9 26.3
3.994
5
14 25 41.33
1.9720
12 44 8.5
7.141
5
16 2 2.66
94)468
17 13 23.7
34)18
6
14 27 39.69
1.9739
12 51 15.2
7.063
6
16 4 5.52
9.0485
17 17 16.5
3.849
7
14 29 38.12
1.9744
12 58 18.5
7.096
7
16 6 8.48
9.0509
17 21 4.7
3.764
8
14 31 36.62
1.9757
13 5 18.3
6.969
8
16 8 11.54
9.0518
17 24 48.2
34386
9
14 33 35.20
1.9770
13 12 14.7
6.911
9
16 10 14.70
9.0535
17 28 27.0
3.607
10
14 35 33.86
1.9789
13 19 7.6
6.859
10
16 12 17.96
9.0559
17 32 1.1
3599
11
14 37 32.59
1.9795
13 25 56.9
6.799
11
16 14 21.32
94)568
17 35 30.5
3.451
12
14 39 31.40
1.9808
13 32 42.6
6.739
12
16 16 24.78
94)565
17 38 55.2
34)79
13
14 41 30.29
1.9893
13 39 24.7
6.679
13
16 18 28.34
9.0601
17 42 15.1
3.999
14
14 43 29.27
1.9837
13 46 3.2
6.611
14
16 20 31.99
9.0617
17 45 30.3
3.913
15
14 45 28.33
1.9850
13 52 38.0
6.550
15
16 22 35.74
9.0633
17 48 40.7
3.133
1G
14 47 27.47
10)864
13 59 9.2
6.469
16
16 24 39.59
9.0649
17 51 46.3
3.059
17
14 49 26.70
J .9879
14 5 36.7
6.497
17
16 26 43.53
9.0665
17 54 47.0
9.979
18
14 51 26.02
1.9894
14 12 0.4
6.364
18
16 28 47.57
9.C681
17 57 42.9
9.891
19
14 53 25.43
1.9909
14 18 20.4
6.301
19
16 30 51.70
9.0697
18 0 33.9
9.809
20
14 55 24.93
1.9933
14 24 36.6
6.336
20
16 32 55.93
9.0719
18 3 20.0
9.799
21
14 57 24.51
1.9938
14 30 49.0
6.174
21
10 35 0.25
9.0797
18 6 1.2
9.646
22
14 59 24.18
1.9953
14 36 57.5
6.110
22
16 37 4.66
9.0749
18 8 37.5
94)64 1
23
15 1 23.95
1.9969
14 43 2.2
6.046
23
16 39 9.16
9.0757
18 11 8.9
9.489
24
15 3 23.81
1.9984
S.14 49 3.0
5.981
24
16 41 13.75
9.0779
S.18 13 35.3
94)99 J
VL
JULY, 1884.
115
GREENWICH MEAN TIME,
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Bight Ascension.
DUE for
1 Minute.
Definition.
Biff, for
1 Minute.
Hoar.
Bight Ascension.
DilC for
1 Minute.
Declination.
Biff, for
1 Minute.
SA
TUEDj
IT 5.
MONDAY 7.
h m 8
s
O $ II
«
h m b
8
o • / //
0
16 41 13.75
9.0779
s.i8 13 aw
2499
0
18 22 15.00
9.1999
S.18 29 18.6
1.794
1
16 43 18.43
2.0787
18 15 56.7
2415
1
18 24 22.34
9.1295
18 27 28,3
1483
2
16 45 23.20
84009
18 18 13.1
2.232
2
18 26 29.70
9.1298
18 25 32.6
1479
3
16 47 28.05
2.0616
18 20 24.6
2.149
3
18 28 37.08
9.1931
18 23 31.6
9461
4
16 49 32.JJ9
2.0830
18 22 31.0
9.065
4
18 30 44.47
9.1233
18 21 25.3
2.150
5
16 51 38.01
9.0844
18 24 32.4
1.961
5
18 32 51.87
9.1934
18 19 13.6
2.239
6
16 53 43.12
2.0858
18 26 28.7
1.896
6
18 34 59.28
9.1236
18 16 56.6
2427
7
16 55 48.31
9.0679
18 28 19.9
1.811
7
18 37 6.70
9.1237
18 14 34.3
2.416
8
16 57 53.58
9.0686
18 30 6.0
1.797
8
18 39 14.12
9.1937
18 12 6.7
2405
9
16 59 58.94
94)899
18 31 47.1
1.649
9
18 41 21.55
9.1938
18 9 33.7
2493
10
17 2 4.37
9.0919
18 33 23.0
1.506
10
18 43 28.98
9.1238
18 6 55.5
2 661
11
17 4 9.88
9.0994
18 34 53.8
1.471
11
18 45 36.41
9.1239
18 4 12.0
'2.769
12
17 6 15.46
9.0937
18 36 19.5
1.385
12
18 47 43.85
9.1939
18 1 23.2
2.657
13
17 8 21.12
9.0949
18 37 40.0
1.998
13
18 49 51.28
2.1238
17 58 29.1
2.945
14
17 10 215.85
9.0969
18 38 55.3
1.212
14
18 51 58.70
2.1237
17 55 29.8
3.093
15
17 12 32.66
94974
18 40 5.5
1.197
15
18 54 6.12
2.1236
17 52 25.2
3.121
10
17 14 38.54
2.09P6
18 41 10.5
1.040
16
18 56 13.53
2.1235
17 49 15.3
3.908
17
17 16 44.49
2.0997
18 42 10.3
0.969
17
18 58 20.94
2.1234
17 46 0.2
3.995
18
17 18 50.50
2.1006
18 43 4.8
0465
18
19 0 28.34
2.1239
17 42 39.9
3489
19
17 20 56.58
2.1019
18 43 54.1
0.778
19
19 2 35.73
2.1230
17 39 14.4 j
3.460
20
17 23 2.73
9.1030
18 44 38.2
0.691
20
19 4 43.10
2.1927
17 a5 43.7
3456
21
17 25 8.94
9.1040
18 45 17.1
0.604
21
19 6 50.46
2.1225
17 32 7.7
3.649
22
17 27 15.21
9.1061
18 45 50.7
0416
22
19 8 57.80
2.1299
17 28 26.6
3.796
23
17 29 21.55
81
9.1069
[JNDA
S.18 46 19.0
Y 6.
0.428
23
19 11 5.13
Tt
9.1990
TESDA
S.17 24 40.3
18.
3.814
0
17 31 27.95
9.1071
S.18 46 42.1
0441
0
19 13 12.44
9.1917
S.17 20 48.9
3496
1
17 33 34.40
9.1060
18 46 59.9
0.252
1
19 15 19.73
2.1913
17 16 52.4
3465
2
17 35 40.91
9.1069
18 47 12.4
0.164
2
19 17 27.00
2.1210
17 12 50.7
4.071
3
17 37 47.47
9.1006
18 47 19.6
-0.076
3
19 19 34.25
2.1206
17 8 43.9
4.155
4
17 39 54.08
9.1107
18 47 21.5
+ 0.013
4
19 21 41.47
2.1202
17 4 32.1
4489
5
17 42 0.75
9.1116
18 47 18.0
0.101
5
19 23 48.67
2.1197
17 0 15.2
4494
6
17 44 7.47
9.1194
18 47 9.3
0.189
6
19 25 55.84
9.1199
16 55 53.2
4.408
7
17 46 14.24
2.1139
18 46 55.3
0.978
7
19 28 2.98
9.1188
16 51 26.2
4.492
8
17 48 21.05
2.1139
18 46 35.9
0467
8
19 30 10.10
9.1184
16 46 54.2
4476
9
17 50 27.91
2.1146
18 46 11.2
0.457
9
19 32 17.19
2.1179
16 42 17.1
4459
10
17 52 34.81
2.1153
18 45 41.1
0446
10
19 34 24.25
2.1174
16 37 35.1
4.749
11
17 54 41.75
2.1160
18 45 5.7
0434
11
19 36 31.28
2.1168
16 32 48.1
4.895
12
17 56 48.73
9.1167
18 44 25.0
0.793
12
19 38 38.27
2.1162
16 27 56.1
4.907
13
17 58 55.75
2.1173
18 43 38.9
0.819
13
19 40 45.23
2.1157
16 22 59.2
4.969
14
18 1 2.81
2.1179
18 42 47.5
0402
14
19 42 52.16
2.1152
16 17 57.4
5.070
15
18 3 9.90
2.1184
18 41 50.7
0491
15
19 44 59.05
2.1146
16 12 50.8
5.151
16
18 5 17.02
2.1189
18 40 48.6
1.080
16
19 47 5.91
2.1140
16 7 39.3
6439
17
18 7 24.17
2.1195
18 39 41.1
1.170
17
19 49 12.73
2.1133
16 2 23.0
5413
18
18 9 31.36
2.1900
18 38 28.2
1459.
18
19 51 19.51
2.1127
15 57 1.8
5493
19
18 11 38.57
9.1904
18 37 10.0
1448
19
19 53 26.25
2.1120
15 51 35.8
6.472
20
18 13 45.81
9.1909
18 35 46.4
1.437
20
19 55 32.95
2.1114
15 46 5.1
5.552
21
18 15 53.08
2.1913
18 34 17.5
1497
21
19 57 39.62
2.1108
.15 40 29.6
5.632
22
18 18 0.37
9.1917
18 32 43.2
1416
22
19 59 46.25
2.1101
15 34 49.3
5.710
23
18 20 7.68
2.1219
18 31 3.6
1.705
23
20 1 52.83
2.1093
15 29 4.4
5.787
24
18 22 15.00
9.1992
S.18 29 18.6
1.794
24
20 3 59.37
2.1067
S.15 23 14.8
5465
116
JULY, 1884.
vn.
GREENWICH MEAN TIME.
THE MOON'S BIGHT A8CEN8ION AND DECLINATION.
Hour.
Right Ascension.
Biff, for
1 Minute.
Deolimatlim.
Diff.for
1 Minute.
Hour.
Bight Ascension.
Biff, for
1 Minute.
Declination.
DUE for
1 Minute.
WEI
DNESI
)AY9.
FRIDAY 11.
h m s
8
Of//
/#
h m s
8
O I it
//
0
20 3 59.37
8.1087
8. 15 23 14.8
60)65
0
21 44 22.10
90)765
8. 9 21 24.0
&99V
1
20 6 5.87
8.1079
15 17 20.«
6.942
1
21 46 26.68
9.0761
9 12 22.5
90H9
2
20 8 12.32
9.1079
15 11 21.7
6.090
2
21 48 31.23
90)757
9 3 18.1
9.096
3
20 10 18.73
9.1005
15 5 18.2
60)97
3
21 50 35.76
90)754
8 54 10.7
9.148
4
20 12 25.10
9.1057
14 59 10.1
6.179
4
21 52 40.28
90)751
8 45 0.3
9.197
5
20 14 31.42
9.1060
14 52 57.5
6.947
5
21 54 44.78
9.0748
8 35 47.1
9.944
6
20 16 37.70
2.1049
14 46 40.4
6.399
6
21 56 49.26
90)746
8 26 31.0
9.991
7
20 18 43.93
9.1035
14 40 18.8
6.397
7
21 58 53.73
9.0744
8 17 12.1
9.338
8
20 20 50.12
9.1097
14 33 52.7
6.479
8
22 0 58.19
9.0749
8 7 50.4
9.385
9
20 22 56.27
9.1090
14 27 22.1
6446
9
22 3 2.63
90)740
7 58 25.9
9.4J0
10
20 25 2.36
9.1019
14 20 47.2
6.619
10
22 5 7.07
9.0739
7 48 58.8
9.474
Jl
20 27 8.41
9.1005
14 14 7.9
6099
11
22 7 11.50
90)738
7 39 29.0
9.516
12
20 29 14.42
90)097
14 7 24.2
6.764
12
22 9 15.92
9.0737
7 29 56.6
9.569
13
20 31 20.38
9.0989
14 0 36.2
6.836
13
22 11 20.34
9.0737
7 20 21.6
9.004
14
20 33 26.29
9.0989
13 53 43.9
6407
14
22 13 24.76
9.0737
7 10 44.1
9.646
15
20 35 32.16
901074
13 46 47,3
60)78
15
22 15 29.18
9.0737
7 1 4.1
9.687
16
20 37 37.98
901906
13 39 46.5
7.048
10
22 17 33.60
90)737
6 51 21.7
9.797
17
20 39 43.75
90)958
13 32 41.5
7.116
17
22 19 38.02
9.0737
6 41 36.9
9.767
18
20 41 49.48
9.0951
13 25 32.3
7.188
18
22 21 42.45
9.0738
6 31 49.7
9.806
19
20 43 55.16
9.0943
13 18 18.9
7.957
19
22 23 46.88
90)740
6 22 0.2
9.843
20
20 46 0,80
90)936
13 11 1.4
7.3*5
20
22 25 51.33
9.0749
6 12 8.5
9.680
21
20 48 6.39
90)998
13 3 39.9
7.399
21
22 27 55.79
9.0744
6 2 14.6
90)17
22
20 50 11.94
9.0991
12 56 14.4
7.458
22
22 30 0.26
90)747
5 52 18.5
9.953
23
20 52 17.44
TH1
9.0913
1BJSDA
8.12 48 44.9
LT 10.
7.595
23
22 32 4.75
SAG
9.0750
PURDJ
S. 5 42 20.2
LT 12.
90)69
0
20 54 22.89
9.0905
B. 12 41 11.4
7.599
0
22 34 9.26
9.0753
8. 5 32 19.8
100)93
1
20 56 28.30
9.0898
12 33 33.9
7.858
1
22 36 ia79
9.0757
5 22 17.4
10.056
2
20 58 33.67
9.0891
12 25 52.5
7.793
2
22 38 18.34
9.0760
5 12 13.0
10.089
3
21 0 38.99
9.0883
12 18 7.2
7.787
3
22 40 22.91
9.0764
5 2 6.7
10.199
4
21 2 44.27
90)877
12 10 18.1
7.850
4
22 42 27.51
90)768
4 51 58.4
10.153
5
21 4 49.51
9.0870
12 2 25.2
7.914
5
22 44 32.13
90779
4 41 48.3
10.183
6
21 6 54.71
90)863
11 54 28.5
70)77
6
22 46 36.78
9.0778
4 31 36.4
10.913
7
21 8 59.87
90)856
11 46 28.0
80)39
7
22 48 41.47
9.0785
4 21 22.7
10.949
8
21 11 4.99
9.0849
11 38 23.8
8.100
8
22 50 46.20
9.0791
4 11 7.3
10.971
9
21 13 10.06
90)849
11 30 16.0
8.160
9
22 52 50..%
9.0797
4 0 50.2
10.998
10
21 15 15.10
90*37
11 22 4.6
8.990
10
22 54 55.76
9.0604
3 50 31.5
10.395
11
21 17 20.10
9.0631
11 13 49.6
8.980
U
22 57 0.61
9.0819
3 40 11.2
10.351
12
21 19 25.07
9.0895
11 5 31.0
&340
12
22 59 5.50
90)819
3 29 49.4
10.376
13
21 21 30.00
90)818
10 57 8.8
&398
13
23 1 10.44
9.0697
3 19 26.1
10.400
14
21 23 34.89
90)619
10 48 43.2
8.455
14
23 3 15.43
90)636
3 9 1.4
10.494
15
21 25 39.75
9.0807
10 40 14.2
8*519
15
23 5 20.47
9.0845
2 58 35.2
10.447
1G
21 27 44.58
901809
10 31 41.8
8£68
16
23 7 25.57
90)854
2 48 7.7
10.469
17
21 29 49.37
90)796
10 23 6.0
8.695
17
23 9 30.72
9.0863
2 37 38.9
10.490
18
21 31 54.13
90)791
10 14 26.8
8.681
18
23 11 &5.93
9.0874
2 27 8.9
10.510
19
21 33 58.86
9.0786
10 5 44.3
8.735
19
23 13 41.21
90)885
2 16 37.7
10.530
20
21 36 3.56
9.0781
9 56 58.6
8.788
20
23 15 46.55
9.0896
2 6 5.3
10.548
21
21 38 8.2!)
9.0777
9 48 9.7
8.841
21
23 17 51.96
9.0907
1 55 31.9
10.565
22
21 40 12.88
90)779
9 39 17.6
6.894
22
23 J9 57.44
9.0919
1 44 57.4
10.583
23
21 42 17.50
9.0766
9 30 22.4
8.947
2!)
23 22 2.99
9.0939
1 34 21.9
10.600
24
21 44 22.10
90)765
8. 9 21 24.0
80)99
24
23 24 8.62
9.0944
S. 1 23 45.4
10.616
VIII.
JULY, 1884.
117
_ . 4
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Door.
Bight Aeowiakm.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
Hoar.
Bight Aaoenakm.
Diftfor
1 Minute.
DeeUaatkn.
Diff. for
1 Minute.
SI
JNDA1
r is.
TUESDAY 15.
h m a
a
o t u
//
h m a
•
O * it
M
0
23 24 8.62
94944
8. 1 23 45.4
10416
0
1 7 1.65
9.9101
N. 7 6 32.0
10489
1
23 26 14.32
9.0057
1 13 8.0
10.630
1
1 9 14.36
9.9136
7 16 48.0
10451
2
23 28 20.11
84)979
1 2 29.8
10.643
2
1 11 27.29
9.9179
7 27 2.1
10418
3
23 30 25.96
94986
0 51 50.9
10 655
3
1 13 40.43
9.9908
7 37 14.2
10.184
4
23 32 31.94
9.1001
0 41 11.2
10.668
4
1 15 53.79
9.9945 '
7 47 24.2
10.149
5
23 34 37.99
9.1015
0 30 30.7
10.680
5
1 18 7.37
94989
7 57 32.1
10.114
6
23 36 44.12
9.1030
0 19 49.6
10.690
6
1 20 21.17
94318
8 7 37.9
10.078
7
23 38 50.35
9.1046
8. 0 9 7.9
10499
7
1 22 35.19
94356
8 17 41.5
10.041
8
23 40 56.68
9.1063
N. 0 1 34.3
10.706
8
1 24 49.44
94394
8 27 42.8
10.009
9
23 43 3.11
9.1060
0 12 17.0
10.716
9
1 27 3.92
94439
8 37 41.7
9.961
10
23 45 9.64
9.1097
0 23 0.2
10.799
10
1 29 18.63
94471
8 47 38.1
9.990
11
23 47 16.28
9.1115
0 33 43.7
10.797
11
1 31 33.57
94609
8 57 32.1
9478
12
23 49 23.02
9.1133
0 44 27.5
10.739
12
1 33 48.74
94548
9 7 23.5
9.834
18
23 51 29.87
9.1159
0 55 11.6
10.737
13
1 36 4.15
9.9588
9 17 12.2
9.790
14
23 53 36.84
9.1179
1 5 56.0
10.741
14
1 38 19.80
94998
9 26 58.3
9.745
15
23 55 43.93
9.1199
1 16 40.5
10.743
15
1 40 35.69
9,9868
9 36 41.6
9.697
16
23 57 51.14
9.1919
1 27 25.1
10.744
16
1 42 51.82
94709
9 46 22.0
9449
17
23 59 58.47
9.1939
1 38 9.6
10.744
17
1 45 8.20
94751
9 55 59.5
9401
18
0 2 5.92
9.1953
1 48 54.4
10.743
18
1 47 24.83
9.9799
10 5 34.1
9451
19
0 4 1&50
9.1974
1 59 39.0
10.749
19
1 49 41.70
94633
10 15 5.6
9.499
90
0 6 21.21
9.1997
2 10 23.5
10.741
20
1 51 58.82
94875
10 24 34.0
9.447
21
0 8 29.06
9.1319
2 21 7.9
10.738
21
1 54 1&20
94917
10 33 59.2
9493
22
0 10 37.04
9.1349
2 31 52.1
10.733
22
1 56 33.83
94959
10 43 21.2
9438
23
0 12 45.16
M<
9.1365
MTOA!
N. 2 42 35.9
r 14.
10.798
23
1 58 51.71
WEI
94001
>NESD
N.10 52 39.8
AT 16.
9.989
0
0 14 53.42
9.1389
N. 2 53 19.4
10.799
0
2 1 9.84
94043
N.U 1 55.0
9495
1
0 17 1.83
9.1414
3 4 2.5
10.715
1
2 3 28.23
94087
11 11 08
9.167
. 2
0 19 10.39
9.1439
3 14 45.2
10.707
2
2 5 46.88
94130
11 20 15.0
9.107
3
0 21 19.10
9.1464
3 25 27.4
10498
3
2 8 5.79
94173
11 29 19.6
9.047
4
0 23 27.96
9.1489
3 36 9.0
10488
4
2 10 24.96
94917
11 38 20.6
8485
5
0 25 3&97
9.1515
3 46 50.0
10.677
5
2 12 44.39
94961
11 47 17.8
8.999
6
0 27 4(114
9.1549
3 57 30.3
10466
6
2 15 4.09
94305
11 56 11.2
8.857
7
0 29 55.48
9.J570
4 8 9.9
10453
7
2 17 24.05
94346
12 5 0.7
8.799
8
0 32 4.98
9.1598
4 18 48.7
10439
8
2 19 44.27
94399
12 13 46.3
8.796
9
0 34 14.65
9.1696
4 29 26.6
10494
9
2 22 4.76
94437
12 22 27.8
8.658
10
0 36 24.49
9.1655
4 40 3.6
10.609
10
2 24 25.52
94489
12 31 5.2
8489
11
0 38 34.51
9.1684
4 50 39.7
10499
11
2 26 46.54
94586
12 39 38.5
8419
12
0 40 44.70
9.1713
5 1 14.7
10474
12
2 29 7.83
94570
12 48 7.5
8.447
13
0 42 55.07
9.1743
5 11 48.6
10456
13
2 31 29.38
94614
12 56 323
8475
14
0 45 5.62
9.1773
5 22 21.4
10437
14
2 33 51.20
94680
13 4 52.5
8409
15
0 47 16.35
9.1804
5 32 53.0
10416
15
2 36 13.30
94706
13 13 8.4
8497
16
0 49 27.27
9.1836
5 43 23.3
10.493
16
2 38 35.67
94750
13 21 19.7
8.150
17
0 51 38.38
9.1868
5 53 52.2
10.470
17
2 40 58.30
94794
13 29 26.4
8.073
18
0 53 49.68
9.1900
6 4 19.7
10.447
18
2 43 21.20
94839
13 37 28.5
7496
19
0 56 1.18
9.1939
6 14 45.8
10.499
19
2 45 44.37
94884
13 45 25.8
7.915
20
0 58 12.87
9.1965
6 25 10.4
10496
20
2 48 7.81
94999
13 53 18.3
7.834
21
1 0 24.76
9.1996
6 35 33.3
10469
21
2 50 31.52
94974
14 I 5.9
7.759
22
1 2 36.85
9.9033
6 45 54.6
10441
22
2 52 55.50
9.4018
14 8 48.6
7470
23
1 4 49.15
9.9067
6 56 14.2
10.319
23
2 55 19.74
9.4069
14 16 26.3
7486
24
1 7 1.65
94101
N. 7 6 32.0
10489
24
2 57 44.25
9.4107
N.14 23 58i>
7400
118
JULY, 1884.
IX.
GREENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Din*, for
1 Minute.
Declination.
Biff, for
1 Minute.
Hour.
Bight Ascension.
Difffor
1 Minute.
Declination.
Diff.for
1 Minute.
TH1
TRSD1
LT 17.
SATUEDAY 19.
h m s
s
O 1 II
a
h m a
s
O 1 II
//
0
2 57 44.25
9.4107
N.14 23 58.9
7.500
0
4 57 58.86
9.5787
N.I 8 25 10.6
9.196
1
' 3 0 9.03
9.4159
14 31 26.3
7.4J3
1
5 0 33.64
9.5809
18 27 18.5
9.0C7
2
3 2 34.07
9.4196
14 38 48.5
7.396
2
5 3 8.53
9.5893
18 29 18.6
1336
3
3 4 59,38
9.4940
14 46 5.4
7.937
3
5 5 43.52
94840
18 31 10.8
1.805
4
3 7 24.95
9.4964
14 53 16.9
7.147
4
5 8 18.61
94856
18 32 55.2
1.674
5
3 9 50.79
9.4398
15 0 23.0
7.055
51
5 10 53.79
94870
18 34 31.7
1.549
6
3 12 16.89
9.4379
15 7 23.5
6.969
6
5 13 29.05
9.5883
18 36 0.3
1.411
7
3 14 43.25
9.4415
15 14 18.4
6.809
7
5 \6 4.39
9.5896
18 37 21.0
1.979
8
3 17 9.87
9.4458
15 21 7.7
6.775
6
5 18 39.80
9.5907
18 38 33.8
1.146
9
3 19 36.75
9.4501
15 27 51.4
6.680
9
5 21 15.28
9.5918
18 39 3*.6
1.013
10
3 22 3.88
9.4544
15 34 29.3
6489
10
5 23 50.82
9.5998
18 40 .35.4
0.881
11
3 24 31.27
9.4587
15 41 1.3
6.484
11
5 26 26.42
9.5937
18 41 24;)
0.748
12
3 26 58.92
9.4093
15 47 27.4
6.385
12
5 29 2.06
94343
18 42 5.2
0.615
13
3 29 26.82
9.4670
15 53 47.5
6.985
13
5 31 37.74
9.5950
18 42 38.1
0.461
14
3 31 54.96
9.4711
16 0 1.6
6.184
14
5 34 13.46
9.5956
18 43 3.0
0447
15
3 34 23.35
9.4759
16 6 9.6
6.089
15
5 36 49.21
9.5961
18 43 19.8
0.913
16
3 36 51.99
9.4793
16 12 11.4
5.978
16
5 39 24.99
9.5965
18 43 28.6
4-0.060
17
3 39 20.87
9.4833
16 18 7.0
5.873
17
5 42 0.79
94967
18 43 29.4
-0.053
18
3 41 49.99
9.4873
16 23 56.2
5.766
18
5 44 36.60
9.5968
18 43 22.2
0.187
19
3 44 19.35
9.4919
16 29 39.1
5.669
19
5 47 12.41
9.5968
18 43 6.9
0491
20
3 46 48.94
9.4951
16 35 15.6
5.554
20
5 49 48.22
94968
18 42 43.6
0.455
21
3 49 18.76
9.4989
16 40 45.6
5.446
21
5 52 24.03
34967
18 42 12.3
0.588
22
3 51 48.81
9.5098
16 46 9.1
5.337
22
5 54 59.82
9.5963
18 41 33.0
0.799
23
3 54 19.09
9.5066
RIDA1
N.16 51 26.0
: is.
5.996
23
5 57 35.59
SI
9.5959
JKDA1
N.18 40 45.7
{ 20.
0.856
0
3 56 49.60
9.5103
N.16 56 36.2
5.114
0
6 0 11.33
94954
N.18 39 50.3
0390
1
3 59 20.33
94139
17 1 39.7
5.009
1
6 2 47.04
9.5948
18 38 46.9
1.193
2
4 1 51.27
9.5176
17 6 36.5
4.889
2
6 5 22.71
9.5949
18 37 35.6
1.955
3
4 4 22.43
94811
17 11 26.4
4.774
3
6 7 58.34
9.5334
18 36 16.3
1.388
4
4 6 53.80
9.5945
17 16 9.4
4.659
4
6 10 33.92
94995
18 34 49.0
1.591
5
4 9 25.37
9.5978
17 20 45.5
4.544
5
6 13 9.44
9.5914
18 33 13.8
1.653
6
4 11 57.14
9.5319
17 25 14.7
4.497
6
6 15 44.89
9.5909
18 31 30.7
1.784
7
4 14 29.11
94345
17 29 36.8
4.309
7
6 18 20.27
9.5691
18 29 39.7
1316
8
4 17 1.28
9.5377
17 33 51.8
4.191
8
6 20 55.58
9.5878
18 27 40.8
9.047
9
4 19 33.64
9.5409
17 37 59.7
4.079
9
6 23 30.81
2.5864
18 25 34.0
9.178
10
4 22 619
9.5440
17 42 0.4
3.951
10
6 26 5.95
9.5849
18 23 19.4
9.308
11
4 24 38.92
9.5469
17 45 53.8
3.899
11
6 28 41.00
9.5639
18 20 57.0
9.438
12
4 27 11.82
9.5498
17 49 39.9
3.707
12
6 31 15.94
9.5814
18 18 26.8
9.568
13
4 29 44.90
9.5597
17 53 18.7
3485
13
6 33 50.77
9.5797
18 15 48.8
9497
14
4 32 18.15
9.5555
17 56 50.1
3.469
14
6 36 25.50
94778
18 13 ai
9495
15
4 34 51.56
9.5589
18 0 14.2
3.339
15
6 39 0.11
947S8
18 10 9.8
9359
16
4 37 25.13
9.5606
18 3 30.8
3.914
16
6 41 34.60
9.5737
18 7 8.8
3380
17
4 39 58.86
9.5634
18 6 39.9
3.069
17
6 44 8.96
9.5715
18 4 0.2
3307
18
4 42 32.74
9.5658
18 9 41.5
9363
18
6 46 43.18
9.5699
18 0 44.0
3433
19
4 45 6.76
94689
18 12 35.5
9.839
19
6 49 17.26
94668
17 57 20.2
3.456
20
4 47 40.92
94705
18 15 21.9
9.709
20
6 51 51.20
9.5644
17 53 49.0
3483
21
4 50 15.22
9.5797
18 18 0.6
9.589
21
6 54 24.99
9.5618
17 50 10.3
3.707
22
4 52 49.65
9.5748
18 20 31.7
9.453
22
6 56 58.62
9.5599
17 46 24.2
3.830
23
4 55 24.20
9.5768
18 22 55.0
9.394
23
6 59 32.09
9.5564
17 42 30.7
3353
24
4 57 58.86
94787
N.18 25 10.6
9.196
24
7 2 5.39
94536
N.17 38 29.8
4375
X.
JULY, 1884.
119
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Bight Ascension.
Diff.for
1 Minute.
Declination.
Diff.for
1 Minute.
Hour.
Bight Ascension.
Difffor
1 Minute.
Declination.
Diff.for
1 Minute.
M<
M^DA^!
ST 21.
WEDNESDAY 23.
h m s
s
O f //
//
h m s
s
O t It
0
7 2 5.39
94536
N.17 38 29.8
4.075
0
9 0 10.58
94499
N.12 21 41.9
8478
1
7 4 38.52
9.5507
17 34 21.7
4.196
1
9 2 31.43
9.3450
12 12 59.2
8.745
2
7 7 11.47
94477
17 30 6.3
4.316
2
9 4 51.98
9.3400
12 4 12.5
8410
3
7 9 44.24
9.5447
17 25 43.8
4.434
3
9 7 12.23
9*3351
11 55 22.0
8479
4
7 12 16.83
94415
17 21 14.2
4.553
4
9 9 32.19
94309
11 46 27.8
8434
5
7 14 49.22
94389
17 16 37.5
4.671
5
9 11 51.85
94959
11 37 29.9
8495
6
7 17 21.42
9.5350
17 11 53.7
4.788
6
9 14 11.21
94909
11 28 28.4
9454
7
7 19 53.42
94316
17 7 3.0
4.903
7
9 16 30.28
94153
11 19 23.4
9.119
8
7 22 25.21
9.5288
17 2 5.4
5.018
8
9 18 49.05
9.3103
1 1 10 14.9
9.169
9
7 24 56.80
9.5947
16 57 0.9
5.139
9
9 21 7.52
94054
11 1 3.1
9494
10
7 27 28.17
9.5210
16 51 49.6
5.944
10
9 23 25.70
94005
10 51 48.0
9478
11
7 29 59.32
9.5173
16 46 31.6
5.356
11
9 25 43.58
9.9956
10 42 29.7
9439
12
7 32 30.25
94136
16 41 6.8
6.468
12
9 28 1.17
9.9907
10 33 8.2
9483
13
7 &5 0.96
94099
16 35 35.4
5.578
13
9 30 18.47
94859
10 23 43,7
9.433
14
7 37 31.44
94080
16 29 57.5
5.686
14
9 32 35.48
9.9810
10 14 16.2
9.489
15
7 40 1.68
9.5000
16 24 13.1
5.793
15
9 34 52.19
94761
10 4 45.8
9430
16
7 42 31.68
9.4980
16 18 22.3
5.900
16
9 37 8.61
9.9713
9 55 12.6
9.577
17
7 45 1.44
9,4940
16 12 25.1
6.006
17
9 39 24.75
9.9866
9 45 36.6
9499
18
7 47 30.96
9.4900
16 6 21.6
6.110
18
9 41 40.60
94618
9 35 57.9
9467
19
7 50 0.24
9.4858
16 0 11.9
6.913
19
9 43 56.16
94570
9 26 16.6
9.709
30
7 52 29.26
9.4816
15 53 56.0
6.316
20
9 46 11.44
9.9599
9 16 32.8
9.750
21
7 54 58.03
9.4773
15 47 34.0
6.417
21
9 48 26.43
9.9475
9 6 46.6
9.790
22
7 57 26.54
9.4730
15 41 6.0
6417
22
9 50 41.14
9.9498
8 56 58.0
9.830
23
7 59 54.79
TU
9.4667
BSDA
N.15 34 32.0
r 22.
6-615
23
9 52 55.57
TH1
9.9389
[JESD^
N. 8 47 7.0
LY 24.
9.868
0
8 2 22.78
9.4643
N.15 27 52.2
6.719
0
9 55 9.72
94335
N. 8 37 13.8
9.904
1
8 4 50.50
9.4508
15 21 6.6
6.808
1
9 57 23.59
9.9989
8 27 18.5
9940
2
8 7 17.96
9.4554
15 14 15.2
6.904
2
9 59 37.19
94943
S 17 21.0
9475
3
8 9 45.15
9.4509
15 7 18.1
6.998
3
10 1 50.51
94197
8 7 21.5
10407
4
8 12 12.07
9.4463
15 0 15.4
7.091
4
10 4 3.56
94159
7 57 20.1
10.039
5
8 14 38.71
9.4418
14 53 7.2
7.189
5
10 6 16.34
9.9107
7 47 KJ.8
10470
6
8 17 5.08
9.4379
14 45 53.5
. 7.973
6
10 8 28.84
94069
7 37 11.7
10.100
7
8 19 31 17
9.4395
14 38 34.4
7.369
7
10 10 41.08
94018
7 27 4^
10.198
8
8 21 56.98
9.4977
14 31 10.0
7.449
8
10 12 53.06
9.1974
7 16 563
10.155
9
8 24 22.50
9.4230
14 23 40.5
7.535
9
10 15 4.77
9.1930
7 6 46.2
10.189
10
8 26 47.74
9.4189
14 16 5.8
7.691
10
10 17 16.22
9.1887
6 56 34.5
10407
11
8 29 12.69
2.4135
14 8 26.0
7.705
11
10 19 27.41
9.1844
6 46 213
10431
12
8 31 37.36
9.4087
14 0 41.2
7.787
12
10 21 38.35
9.1809
6 36 6.8
10454
13
8 34 1.74
9.4039
13 52 51.5
7.869
13
10 23 49.03
9.1759
6 25 50.9
10476
14
8 36 25.83
94991
13 44 56.9
7.949
14
10 25 59.46
9.1717
6 15 33.7
10.997
15
8 38 49.63
94949
13 36 57.6
8.097
15
10 28 9.63
9.1675
6 5 153
10416
16
8 41 13.14
94893
13 28 53.6
8.105
16
10 30 19.56
9.1634
5 54 55.8
10433
17
8 43 36.35
9.3844
13 20 45.0
8.189
17
10 32 29.24
9.1593
5 44 35.3
10450
18
8 45 59.27
94798
13 12 31.8
8457
18
10 34 38.68
9.1553
5 34 13.8
10467
19
8 48 21.90
94747
13 4 14.2
8430
19
10 36 47.88
9.1513
5 23 51.3
10489
20
8 50 44.23
9.3697
19 55 52.2
8.409
20
10 38 56.84
9.1474
5 13 27.9
10497
21
8 53 6.26
94647
12 47 25.9
8.474
21
10 41 5.57
9.1435
5 3 3.7
10.410
22
8 55 28.00
94598
12 38 55.3
8444
22
10 43 14.06
9.1395
4 52 38.7
10.499
23
8 57 49.44
9.3548
12 30 20.6
8419
23
10 45 22.31
9.1356
4 42 13.0
10.439
24
9 0 10.58
9,3499
N.12 21 41.9
8478
24
10 47 30.33
9.1318
N. 4 31 46.7
10.443
120
JULY, 1884.
XL
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Difffor
1 Minute.
Declination.
Biff, for
1 Minute.
Hour.
Bight Ascension.
Diftfor
1 Minute.
Declination.
Diffifor
1 Minute.
m
&IDAH
:25.
SUNDAY 27.
h m 8
a
O / H
a
h m 8
8
O I II
//
0
10 47 30.33
2.1318
N. 4 31 46.7
10.443
0
12 26 19.32
9.0035
S. 3 44 4.9
94)19
1
10 49 38.13
9.1381
4 21 19.8
10.459
1
12 28 19.48
9.0090
3 53 58.8
9.883
2
10 51 45.71
9.1944
4 10 52.4
10.460
2
12 30 19.56
9.0006
4 3 50.9
94)53
3
10 53 53.06
9.1908
4 0 24.6
J0.467
3
12 32 19.55
1.9991
4 13 41.2
9.893
4
10 56 0.20
9.1J79
3 49 56.3
10.474
4
12 34 19.45
10)977
4 23 29.7
9.793
5
10 58 7.12
9.1135
3 39 27.7
10.479
5
12 36 19.27
1.9963
4 33 16.3
9.769
6
11 0 13.82
3.1099
3 28 58.8
10.483
6
12 38 19.01
1.9951
4 43 1.1
9.730
7
1 1 2 20.31
9.1065
3 18 29.7
10.487
7
12 40 18.68
1.9938
4 52 43.9
9.697
8
11 4 26.60
9.1031
3 8 0.4
10.489
8
12 42 18.27
1.9998
5 2 24.7
9.663
9
11 6 32.68
9.0997
2 57 31.0
10.491
9
12 44 17.79
10)914
5 12 3.5
9.630
10
11 8 38.56
9.0003
2 47 1.5
10.491
10
12 46 17.24
1.9903
5 21 40.3
94>96
11
11 10 44.24
9.0930
2 36 32.1
10.490
11
12 48 16.63
1.9893
5 31 15.0
9.561
12
11 12 49.72
9.0897
2 26 2.7
10.489
12
12 50 15.96
10)883
5 40 47.6
9.595
13
11 14 55.01
9.0865
2 15 33.4
10.487
13
12 52 15.23
10)673
5 50 18.0
9.489
14
11 17 0.10
90)633
2 5 4.3
10.483
14
12 54 14.44
1.9863
5 59 46.3
9.453
15
II 19 5.00
9.0809
1 54 35.4
J0.479
15
12 56 13.59
10)654
6 9 12.4
9.416
16
11 21 9.72
9.0779
1 44 6.8
10.475
16
12 58 12.69
10)846
6 18 36.2
94)78
17
11 23 14.26
90)741
1 33 38.4
10.470
17
13 0 11.74
1.9838
6 27 57.7
9.340
18
11 25 18.61
90)711
1 2!) 10.4
10.463
18
13 2 10.74
10)630
6 37 17.0
9.309
19
11 27 22.79
9.0689
1 12 42.9
10.455
19
13 4 9.70
10)893
6 46 34.0
9.969
20
11 29 26.79
9.0653
1 2 15.8
10.447
20
13 6 6.6*2
1.9817
6 55 4845
94199
21
11 31 30.62
9.0694
0 51 49,2
10.438
21
13 8 7.50
1.9610
7 5 0.6
9.189
22
11 33 34.28
9.0596
0 41 23.2
10.498
22
13 10 6.34
10)803
7 14 10.3
9.149
23
11 35 37.77
SAG
90)568
FUUDA
N. 0 30 57.8
LT 26.
10.418
23
13 12 5.14
M(
10)797
)NDA5
S. 7 23 17.6
Z 28.
9.101
0
11 37 41.10
90)649
N. 0 20 33.0
10.407
0
13 14 3.91
10)799
S. 7 32 22.4
9.069
1
11 39 44.27
9.0515
N. 0 10 9.0
10.394
1
13 16 2.65
10)788
7 41 24.7
9.016
2
11 41 47.28
9.0489
8. 0 0 14.2
10 380
2
13 18 1.37
10)784
7 50 24.4
84)73
3
11 43 50.14
9.0463
0 10 36.6
10.367
3
13 20 0.06
10)780
7 59 21.5
8.930
4
11 45 52.84
9.0437
0 20 58.2
10.353
4
13 21 58.73
1.9777
8 8 16.0
84386
5
11 47 55.39
9.0413
0 31 19.0
10.338
5
13 23 57.38
10)773
8 17 7.8
84)49
6
11 49 57.80
9.0389
0 41 38.8
10.391
6
.13 25 56.01
14)771
8 25 57.0
8.797
7
11 52 0.06
9.0365
0 51 57.6
10.304
7
13 27 54.63
10)769
8 34 43.5
8.759
8
11 54 2.18
9.0349
1 2 15.3
10.967
8
13 29 53.24
1.9767
8 43 27.2
8.706
9
11 56 4.16
9.0319
1 12 32.0
10.969
9
13 31 51.83
14)765
8 52 8.2
84)60
10
11 58 6.01
9.0997
1 22 47.6
10.950
10
13 33 50.42
1.9764
9 0 46.4
84)13
11
12 0 7.73
9.0976
1 33 2.0
10.930
11
13 35 49.00
1.9763
9 9 21.8
84*6
12
12 2 9.32
9.0954
1 43 15.2
10.910
12
13 37 47.57
10)769
9 17 54.3
84>16
13
12 4 10.78
90)933
1 53 27,2
10.188
13
13 39 46.14
1.9769
9 26 24.0
8.471
14
12 6 12.12
9.0913
2 3 37.8
10.166
14
13 41 44.72
14)763
9 34 50.8
8.499
15
12 8 13.34
9.0193
2 13 47.1
10.143
15
13 43 43.30
14)763
9 43 14.6
84)79
16
12 10 14.44
9.0J73
2 23 55.0
10.191
16
13 45 41.88
14)764
9 51 35.5
84)93
17
12 12 15.42
9.0154
2 34 1.6
10.098
17
13 47 40.47
14)766
9 59 53.4
8.973
18
12 14 16.29
9.0136
2 44 6.8
10.074
18
13 49 39.07
14)767
10 8 8-3
84)93
19
12 16 17.05
9.01)8
2 54 10.5
10.048
19
13 51 37.68
14)769
10 16 20.2
6.179
20
12 18 17.71
9.0101
3 4 12.6
10.099
20
13 53 36.30
14)779
10 24 29.0
8.191
21
12 20 18.26
9.0084
3 14 13.1
9.995
21
13 55 34.94
14)774
10 32 34.7
8.089
22
12 22 18.71
9.0067
3 24 12.0
9.968
22
13 57 33.59
1.9777
10 40 37.3
8.017
23
12 24 19.06
9.0051
3 34 9,3
9.941
23
13 59 32.27
1.9781
10 48 36.7
7.964
24
12 26 19.32
9.0035
S. 3 44 4.9
9.919
24
14 1 30.97
14)785
S.10 56 33.0
74)19
XII.
JULY, 1884.
121
GREEiNWICH MEAN TIME.
THE MOONS RIGHT ASCENSION AND DECLINATION.
Hoar.
Bight Ascension.
Difcfor
1 Minute.
Declination.
Diff.for
1 Minute.
Hour.
Right Ascension.
Diff.for
1 Minute.
Declination.
IMff.for
1 Minute.
TD
ESDA
Y29.
THURSDAY 31.
h m 8
•
O I //
a
h m s
s 1 O / //
a
0
14 1 30.97
1.9785
S.10 56 33.0
7.919
0
15 37 26.15
9.0964 S.16 7 19.5
4.887
1
14 3 29.69
1.9789
11 4 26.1
7.858
1
15 39 27.78
94979
16 12 10.5
4.814
2
14 5 28.44
1.9793
11 12 16.0
7.804
2
15 41 29.50
9.0993
16 16 57.2
4.741
3
14 7 27.21
1.9797
11 20 2.6
7.750
3,
15 43 31.30
9.0307
16 21 39.5
4.668
4
14 9 26.01
1.9809
11 27 46.0
7495
4
15 45 33.19
9.0399
16 26 17.4
4495
5
14 11 24.84
1.9808
11 .35 26.0
7.639
5
15 47 35.16
9.0336
16 30 50.9
4.591
6
14 13 23.71
1.9814
11 43 2.7
7483
6
15 49 37.22
9.0351
16 35 19.9
4.447
7
14 15 22.61
1.9890
1 1 50 36.0
7498
7
15 51 39.37
9.0366
16 39 44.5
4479
8
14 17 21.55
1.9897
11 58 6.0
7.473
8
15 53 41.61
9.0380
16 44 4.6
4.996
9
14 19 20.53
1.9833
12 5 32.6
7.415
9
15 55 43.93
94394
\6 48 20.3
4.933
10
14 21 19.54
1.9839
12 12 55.8
7.357
10
15 57 46.34
94409
16 52 31.4
4.147
11
14 23 18.60
1.9847
12 20 15.5
7.999
11
15 59 48.84
9.0495
16 56 38.0
4.072
12
14 25 17.70
1.9854
12 27 31.7
7.941
12
16 1 51.44
9.0441
17 0 40.0
3496
13
14 27 16.85
1.9883
12 34 44.4
7.189
13
16 3 54.13
9.0455
17 4 37.5
3490
14
14 29 16.04
1.9869
12 41 53.6
7.194
14
16 5 56.90
9.0469
17 8 30.4
3.843
15
14 31 15.28
1.9877
12 48 59.3
7.065
15
16 7 59.76
94484
17 12 18.6
3.765
16
14 33 14.57
1.9886
12 56 1.4
7405
16
16 10 2.71
94499
17 16 2.2
3.687
17
14 35 13.91
1.9895
13 2 59.9
6445
17
16 12 5.75
9.0514
17 19 41.1
3410
18
14 37 13.31
1.9904
13 9 54.8
6.884
18
16 14 8.88
90599
17 23 15.4
3439
10
14 39 12.76
1.9913
13 16 46.0
6.893
19
16 16 12.10
94544
17 26 45.0
3.454
20
14 41 12.27
1.3999
13 23 33.5
6.769
20
16 18 15.41
9.0559
17 30 9.9
3475
21
14 43 11.83
1.9999
13 30 17.4
6.700
21
16 20 18.81
9.0574
17 33 30.0
3.996
22
14 45 11.45
1.9949
13 36 57.5
6.638
22
16 22 22.30
9.0588
17 36 45.4
3.917
23
14 47 11.13
1.9059
S.13 43 33.9
6476
23
16 24 25.87
94603 S. 17 39 56.0
3.137
WEI
XNESE
>AY 30.
FRIDJ
lY, AUGUST 1.
0
1
14 49 10.88
14 51 10.69
1.9983
1.9973
S.13 50 6S
13 56 35.5
6413
6.449
0 | 16 26 29.53
9.0618 S.17 43 1.8
[ 3457
2
14 53 10.56
1.9984
14 3 0.5
6485
3
14 55 10.50
1.9995
14 9 21.7
6491
4
14 57 10.50
9.0006
14 15 39.0
6.956
PHASES
OF THE MOPN
.
5
14 59 10.57
9.0017
14 21 52.4
6.199
6
15 1 10.71
9.0099
14 28 2.0
6.197
7
15 3 10.92
9.0041
14 31 7.6
6.060
d h
m
8
9
15 5 11.20
15 7 J 1.55
9.0053
9.0065
14 40 9.2
14 46 6.9.
5494
5498
O Full Moon
• • • • / **
10.3
10
15 9 11.98
9.0077
14 52 0.6
5.861
<C Last Quart
Br. ... 15 9
38.8
11
15 11 12.48
9.0090
14 57 50.2
5.793
• New Moou
.... 22 0
54.1
12
•13
15 13 13.06
15 15 13.71
90)109
9.0115
15 3 35.8
15 9 17.3
5.798
5458
J> First Quart
Bt ... 29 10
1.3
14
15
15 17 14.44
15 19 15.25
9.0198
9.0141
15 14 54.7
15 20 28.0
5489
5491
16
15 21 16.13
9.0153
15 25 57.2
5.459
d h
17
15 23 17.09
94167
15 31 22.3
5483
<C Apogee. •
.... 4 1.0
18
15 25 18.14
9.0181
15 36 43.2
6413
19
15 27 19.27
9.0195
15 41 59.9
5.949
<C Perigee. .
. . . . 19 ia7
20
15 29 20.48
2.0908
15 47 12.3
5.179
<f Apogee. •
.... 31 16.1
21
15 31 21.77
9.0993
•15 52 20.5
6.101
22
15 33 23.15
9.0937
15 57 24.4
5.090
23
15 35 24.61
9.0950
16 2 24.1
4.369
24
15 37 26.15
94984
S.16 7 19.5
4467
122
JULY, 1884.
XIII.
GREENWICH MEAN TIME.
LUNAR DISTANCES.
•
U
P. L.
P.L.
P.L.
P.L.
Name and Direction
Noon*
of
npu
of
VP>.
of
1».
of
of Otyeck
Dlff.
Dlff.
Dlff.
Diff.
1
Sun
W.
103 52 51
3371
O '/ //
105 15 41
3379
106 38' 21
3387
O i tt
108 0 52
3395
Regulus
W.
55 38 0
3019
57 7 58
3019
58 37 47
3096
60 7 28
3033
Mars
w.
39 24 41
3996
40 50 19
3933
42 15 49
3941
43 41 10
3947
Antares
E.
44 31 42
3001
43 3 21
3104
41 35 16
3118
40 7 28
3133
a Aquil«
£.
95 18 18
3400
93 56 2
3407
92 33 53
3414
91 11 52
3490
2
Sun
W.
114 51 17
3430
116 13 0
3436
117 34 36
3440
118 56 7
3445
Regulus
W.
67 33 56
3060
69 2 54
3065
70 31 47
3069
72 0 35
3079
Mark
W.
50 46 13
3973
52 10 56
3977
53<*5 34
3969
55 0 7
3985
Antares
E.
$S 52 59
3913
31 27 5
3939
30 I 34
3953
28 36 27
3976
a AquiliB
E.
84 23 40
3454
83 2 25
3463
81 41 19
3470
80 20 21
3478
3
Sew
W.
125 42 32
3463
127 3 37
3465
128 24 40
3467
129 45 41
3469
Regulus
W.
79 23 41
3084
80 52 10
3066
82 20 37
3086
83 49 4
3087
Mars
W.
62 2 0
3907
63 26 15
3996
64 50 29
3999
66 14 42
3999
Spica
W.
25 46 9
3088
27 14 33
3088
28 42 57
3067
30 11 22
3087
a Aquilse
E.
73 37 41
3518
72 17 37
3596
70 57 42
3535
69 37 57
3545
Fomalhaut
E.
104 28 54
3519
103 8 51
3515
101 48 43
3511
100 28 31
3507
4
Regulus
W.
91 11 13
3084
92 39 42
3083
94 8 12
3069
95 36 43
3081
Mars
W.
73 15 47
3996
74 40 3
3995
76 4 20
3994
77 28 39
3991
Spica
W.
37 33 42
3089
39 2 14
3080
40 30 48
3077
41 59 26
3074
a Aquilse
E.
63 2 5
3603
61 43 34
3616
60 25 17
3631
59 7 16
3648
Fomalhaut
E.
93 46 36
3499
92 26 3
3490
91 5 28
3488
89|4 51
3487
5
Regulus
W.
103 0 1
3067
104 28 51
3063
105 57 46
3060
107 26 45
3056
Mars
W.
84 31 1
3976
85 55 40
3979
87 20 24
3968
88 45 13
3964
Spica
W.
49 23.24
3059
50 52 24
3056
52 21 28
3068
53 50 37
3047
a Aquilffi
E.
52 41 56
3748
51 26 0
3774
50 10 31
3809
48 55 31
3834
- Fomalhaut
E.
83 I 19
3481
81 40 34
3480
80 19 48
3480
78 59 1
3480
a Pegasi
E.
98 37 53
3953
97 12 46
3947
95 47 33
3949
94 22 14
3937
6
Mars
W.
95 50 36
3939
97 15 59
3934
98 41 28
3998
100 7 4
3893
Spica^
W.
61 17 46
3093
62 47 30
30 J 8
64 17 21
3919
65 47 19
3606
Antares
W.
17 34 16
3544
18 53 52
3463
20 14 57
3398
21 37 16
3343
a Aquilffi
E.
42 49 45
4047
41 38 52
4105
40 28 55
4160
39 20 0
4943
Fomalhaut
E.
72 15 21
3488
70 54 44
3491
69 34 10
3496
68 13 41
3500
a Pegasi
E.
87 14 16
3915
85 48 25
3910
84 22 28
3906
82 56 26
3901
7
Spica
W.
73 18 58
9976
74 49 41
9969
76 20 33
9969
77 51 33
9956
Antares
W
28 41 44
3170
30 8 29
3146
31 35 43
3194
33 323
3105
Fomalhaut
E.
61 32 51
3536
60 13 7
3548
58 53 36
3560
57 34 18
3575
a Pegasi
E.
75 45 0
3183
74 18 30
3179
72 51 56
3176
71 25 18
3173-
8
Spica
W.
85 28 41
9990
87 0 34
9913
88 32 36
9905
90 4 48
9898
Antares
W.
40 27 9
3096
41 56 50
3019
43 26 48
9998
44 57 3
9965
Fomalhaut
E.
51 2 17
3674
49 45 2
3709
48 28 17
3733
47 12 5
3768
a Pegasi
a Anetis
E.
64 11 27
3165
62 44 36
3164
61 17 44
3165
59 50 53
3166
E.
107 16 9
3011
105 46 10
3003
104 16 1
3904
102 45 41
9985
9
Spica
W.
97 48 10
9860
99 21 20
9859
100 54 40
9845
102 28 10
9836
Antares
W.
52 32 3
9999
54 3 45
9918
55 35 41
9908
57 7 50
9896
Fomalhaut
E.
41 1 44
4090
39 50 24
4091
38 40 14
4173
37 31 22
4964
XIV.
JULY, 1884
123
GREENWICH MEAN TIME.
LUNAR DI8TANCE8.
*4
•si
Name and Direction
of Otyeot.
Midnight.
P.L.
of
BUT.
XVft.
P.L.
of
Dlff.
xviif*
P.L.
of
Diflf.
XXlh-
P.L.
of
Diff.
1
Sun
W.
109 23 14
3403
110 45 27
3411
112 i 91
3417
113 29 28
3494
Regulus
W.
61 37 0
3039
63 6 25
3045
64 35 42
3051
66 4 52
3056
Mars
W.
45 6 24
3953
46 31 31
3959
47 56 31
3964
49 21 25
3969
Antnres
E.
38 39 58
3147
37 12 45
3169
35 45 50
3178
34 19 14
3195
a Aquihe
£.
89 49 58
3197
88 28 12
3434
87 634
3440
85 45 3
3447
2
Sun
W.
120 17 33
3449
121 33 54
3454
123 0 10
3456
124 21 23
3460
Regulus
W.
73 29 19
3075
74 57 59
3078
76 26 36
3080
77 55 10
3088
Mars
W.
56 24 36
3986
57 49 1
3991
59 13 23
3993
60 37 43
3995
Antares
£.
27 11 48
3303
25 47 40
'3333
24 24 7
3369
23 1 15
3410
aAquito
£.
78 59 32
3485
* 77 38 51
3403
76 18 19
3500
74 57 55
3509
3
Sun
W.
131 6 40
3471
132 27 37
3479
133 48 32
3473
1&5 9 26
3474
Regulus
W.
85 17 30
3087
86 45 55
3087
88 14 20
•3087
89 42 46
3066
Mars
W.
67 38 55
3300
69 3 7
3300
70 27 19
3999
71 51 32
3997
Spica
W.
31 39 48
3086
33 8 15
3085
34 36 43
3084
36 5 12
3083
a Aquila*
E.
68 18 23
3555
66 59 0
3566
a5 39 49
3577
64 20 50
3590
Fomalhaut
E.
99 8 15
1505
97 47 56
3501
96 27 33
3497
95 7 6
3495
4
Regulus
W.
97 5 16
3078
98 33 52
3075
100 2 32
3073
101 .31 15
3070
Mars
W.
78 53 1
3888
80 17 26
3986
81 41 54
3989
83 6 26
3380
Spica
W.
4328 T
8079
44 56 51
3069
46 25 38
3066
47 54 29
3063
a Aquito
E.
57 49 33
3064
56 32 8
3689
55 15 2
3709
53 58 17
. 3735
Fomalhaut
E.
88 24 12
3485
87 3 31
3483
85 42 48
3489
84 22 4
3481
5
Regulus
W.
108 55 49
3059
110 24 57
3047
111 54 11
3043
113 23 30
3039
Mars
W.
90 10 7
3958
91 35 6
3*265
93 0 10
3950
94 25 20
3945
Spica
W.
55 19 51
3043
56 49 11
3039
58 18 36
3033
59 48 8
3098
a AquilflB
£.
47 41 4
3868
46 27 12
3907
45 13 59
3949
44 1 29
3996
Fomalhaut
E.
77 38 14
3460
76 17 27
3481
74 56 42
3484
73 36 0
3487
aPegasi
E.
92 56 49
3933
91 31 19
3998
90 5 43
3994
88 40 2
3990
6
Mars
W.
101 32 46
3917
102 58 35
3910
•104 24 32
3904
105 50 36
3198
Spica
W.
67 17 24
3001
68 47 36
9994
70 17 56
9989
71 48 23
99*9
Aiitares
W.
23 038
3907
24 24 53
3959
25 49 53
3996
27 15 31
3197
a Aquito
E.
38 12 14
4383
37 5 43
4415
36 035
4518
34 56 59
4635
Fomalhaut
E.
66 53 17
3506
65 32 59
3519
64 12 48
3519
62 52 45
3C87
aPegasi
E.
81 30 18
3197
80 4 5
3193
78 37 48
3189
77 11 26
3186
7
Spica
W.
79 22 41
9949
80 53 58
9949
82 25 23
9935
83 56 57
9997
Antares
W.
34 31 26
3087
35 59 52
3069
37 28 39
3054
38 57 45
3039
Fomalhaut
E.
56 15 16
3590
54 56 31
3607
53 38 4
3697
52 19 59
3649
aPegasi
E.
69 58 37
3171
68 31 53
3168
67 5 6
3167
65 38 17
3166
8
Spica
W.
91 37 9
9891
93 9 40
9683
94 42 20
8876
96 15 10
9868
Antares
W.
46 27 34
9073
47 58 20
9969
49 29 21
9951
51 0 &5
9940
Fomalhaut
E.
45 56 29
3807
44 41 34
3859
43 27 25
3901
42 14 6
3957
aPegasi
E.
58 24 3
3168
56 57 15
3170
55 30 30
3173
54 3 49
3176
a Anetis
E.
101 15 10
9977
99 44 28
9909
98 13 36
9961
96 42 34
9959
9
Spica
W.
104 1 51
9898
105 35 42
9990
107 9 44
9619
108 43 56
8804
Antares
W.
58 40 12
9887
60 12 47
9877
61 45 35
9867
63 18 36
S857
Fomalhaut
E.
36 23 56
4368
35 18 6
4486
34 14 2
4699
33 11 56
4778
124
JULY, 1884.
XV.
GREENWICH MEAN TIME.
LUKAE DISTANCES.
•
P.L.
P.L.
P.L
P.L.
Hame and Direction
Noon.
of
mh.
of
ypi.
of
DP*-
of
of Object
Diff.
Diff.
Diff.
Diff.
9
a Pepasi
a Anetis
E.
52 37' 13
3183
Oil'
51 10 44
3190
49 44 23
3198
Oil*
48 18 12
3996
£.
95 11 21
9944
93 39 58
9986
92 825
9997
90 96W1
9990
10
Antares
W.
64 51 50
9648
66 25 16
9838
67 58 55
9896
69 32 46
9818
a Pepasi
a Anetis
E.
41 10 59
3991
39 46 37
3318
38 22 46
3348
36 59 30
3383
E.
82 55 30
9880
81 22 45
9873
79 49 51
9866
78 16 48
9859
AJdebaran
E.
115 59 56
9793
114 25 19
9785
112 50 32
9777
HI 15 34
9768
11
Antares
W.
77 25 8
9779
79 0 13
9769
80&5 31
9753
82 11 1
9743
a Aquile*
a Anetis
W.
34 40 3
4984
a5 47 10
4157
36 56 17
4049
38 7 15
3939
E.
70 29 11
9899
68 55 12
9816
67 21 5
9809
65 46 49
9809
Aldebaran
E.
103 17 51
9794
101 41 43
9716
100 5 24
9707
98 28 53
9098
12
Antares
W,
90 11 39
9906
91 48 24
9687
93 25 21
9878
05 2 31
9868
a Aquita
a Anetis
W.
44 25 11
3599
45 44 38
3494
47 5 9
3439
48 26 41
3390
E.
57 53 31
877ft
56 18 30
9771
54 43 24
9766
53 8 12
9763
Aldebaran
E.
90 23 13
9851
88 45 27
9649
87 7 29
9639
85 29 18
9693
Saturn
E.
100 25 36
9885
98 48 49
9685
97 11 49
9675
95 34 36
9665
Sun
E.
132 17 1
3010
130 47 1
9999
129 16 47
9988
127 46 19
9976
13
Antares
W.
103 11 32
9991
104 49 58
9619
106 28 37
9603
106 7 28
9593
aAquite
W.
55 27 24
3187
56 53 49
3154
58 20 53
3193
59 48 35
3094
a Arietis
E.
45 11 15
9156
43 35 49
9756
42 0 24
9759
40 25 2
9763
Aldebaran
E.
77 15 2
9573
75 35 30
9568
73 55 44
9553
72 15 45
9543
Saturn
E.
87 25 10
9616
85 46 37
9805
84 7 49
9595
82 28 47
9586
Sun
E.
120 10 20
9018
118 36 24
9907
117 6 14
9895
115 33 49
9884
14
a Aquito
W.
67 15 27
9968
68 46 20
9946
70 17 40
9995
71 49 27
9906
Fomalhaut
W.
38 40 11
3797
39 56 29
3631
41 14 30
3545
4234 5
8465
a Pegasi
Aldebaran
W.
22 3 47
4414
23 8 56
4147
24 18 12
3997
25 31 4
3744
E.
63 52 11
9490
62 10 44
9480
60 29 2
9470
58 47 6
9459
Saturn
E.
74 10 3
9539
72 29 34
9599
70 48 51
9511
69 7 53
9500
Sun
E.
107 48 2
9895
106 14 7
9814
104 39 57
9809
103 5 32
9790
15
a Aquike
W.
79 34 13
9890
81 8 15
9806
82 42 36
9799
84 17 15
9779
Fomalhaut
W.
49 31 54
3199
50 58 49
3114
52 26 42
3070
53 55 26
3030
aPegasi
Aldebaran
W.
32 15 55
3154
33 42 59
3078
35 11 35
3010
36 41 35
9950
E.
50 13 38
9405
48 30 11
9994
46 46 26
9384
45 230
9373
Saturn
E.
60 39 17
9447
58 56 49
9436
57 14 5
9495
55 31 6
9415
Sun
E.
95 933
9731
93 33 34
9719
91 57 20
9767
90 20 50
9906
16
Fomalhaut
W.
61 30 55
9899
63 4 2
9836
64 37 44
9809
66 12 0
9786
aPegasi
Aldebaran
W.
44 28 21
9795
46 4 27
9699
47 41 18
9660
49 18 52
9631
E.
36 18 49
9391
34 33 20
9311
32 47 36
9301
31 1 38
9991
Saturn
E.
46 52 27
9363
45 7 59
9353
43 23 17
9344
41 38 21
9334
Sun
E.
82 14 30
9899
80 36 28
9997
78 58 10
9617
77 19 38
9866
17
Fomalhaut
W.
74 10 37
9685
75 47 37
9860
77 24 59
9664
79 2 41
9640
aPegafti
W.
57 35 44
9519
59 16 41
9493
60 58 4
9475
62 39 53
9458
Saturn
E.
32 50 23
9999
31 4 12
9985
29 17 50
9979
27 31 19
9973
Sun
E.
69 3 21
9555
67 23 24
9545
65 43 14
9536
64 2 51
9697
18
Fomalhaut
W.
87 15 29
9585
88 54 44
9678
9034 9
9579
92 13 42
9566
XVL
JULY, 1884.
125
-,. 1 !
GREENWICH MEAN TIME.
LUHAB DISTANCES. ,
Is
Name and Direction
of Object
Midnight
P.L.
of
BUT.
XV*.
F.L.
of
Dun
XVEP>
P. L.
of
Diir.
xxp*.
P.L.
of
Dlff.
9
a Pegasi
a Arietis
£.
46 52 }&
3990
4*26 26
3984
44° 057
3960
42 35 47
3909
£.
89 4 47
9918
97 32 43
9604
86 029
9800
84 28 5
9887
10
Antares
W.
71 6 50
9609
72 41 6
9890
74 15 34
9790
75 50 15
9781
a Pegasi
E.
35 96 54
9494
34 15 5
9473
32 54 11
3530
31 34 20
3597
aArietis
E.
76 43 86
9661
75 10 14
9843
73 36 42
9838
72 3 1
9899
Aldebaran
E.
109 40 24
9760
108 5 3
9751
106 29 31
9749
104 53 47
9733
11
Antares
W.
83 46 44
9734
85 22 39
9794
86 58 47
9715
88 35 7
9706
a Aquiln
W.
39 19 55
3847
40 34 9
3709
41 49 51
3085
43 6 54
3610
oArietifl
E.
64 12 25
9797
62 37 53
9791
61 3 13
9785
59 28 25
9780
Aldebaran
E.
96 52 10
9088
95 15 14
9079
93 38 6
9070
92 0 46
9660
12
Antares
W.
96 39 54
9668
98 17 30
9049
99 55 18
9040
101 33 19
9031
a Aquiln
W.
49 49 9
9644
51 12 30
saoo
52 36 42
3959
54 1 41
3999
aArietis
E.
51 32 55
9760
49 57 34
9757
48 22 9
9755
46 46 42
9755
Aldebaran
E.
83 50 54
9019
82 12 16
9603
80 33 25
9593
78 54 20
9583
Satukn
E.
93 57 9
9666
92 19 29
9048
90 41 36
9630
89 3 30
9090
Sun
E.
126 15 36
9965
124 44 39
9903
123 13 27
9949
121 42 1
9930
13
Antares
W.
109 46 32
9684
111 25 49
9575
113 5 18
9566
114 45 *0
9557
aAquiln
W.
61 16 52
9066
62 45 43
3039
64 15 7
3014
65 45 2
9990
aArietis
E.
38 49 46
9770
37 14 39
9779
35 39 44
9791
34 5 4
9805
Aldebaran
E.
70 35 31
9593
68 55 3
9599
67 14 20
9519
65 33 23
9501
Saturn
E.
80 49 31
9574
79 10 1
9504
77 30 16
9553
75 50 17
9543
Sun
E.
114 1 10
9873
112 28 16
9800
110 55 6
9849
109 21 42
9837
14
aAquiln
W.
73 21 38
9887
74 54 13
9869
76 27 11
9859
78 0 31
9835
Fomalhaut
W.
43 55 8
3393
45 17 32
3398
46 41 11
3968
48 6 0
3913
a Pegasi
Aldeoaran
W.
26 47 5
3587
28 5 53
3454
2927 9
3340
30 50 34
3941
E.
57 4 55
9448
55 22 29
9437
53 39 47
9490
51 56 50
9410
Satubn
E.
67 26 40
9480
65 45 12
9479
64 329
9408
62 21 31
9457
Sun
E.
101 30 51
9778
99 55 55
9700
98 20 43
9755
96 45 16
9743
15
a Aquiln
W.
85 52 11
9796
87 27 24
9753
89 2 53
9743
90 38 36
9739
Fomalhaut
W.
55 25 4
9999
56 55 27
9950
58 26 35
9093
59 58 25
9891
a Pegasi
Aldebaran
W.
38 12 50
9800
39 45 14
9848
41 18 40
9603
42 53 4
9703
E.
43 18 16
9809
41 33 47
9359
39 49 3
9349
38 4 4
9331
Saturn
E.
53 47 52
9404
52 4 23
9894
50 20 39
9383
48 36 40
9373
Sun
E.
88 44 5
9084
87 7 4
9073
85 29 48
9089
83 52 17
9650
16
Fomalhaut
W.
67 46 47
9763
69 22 4
9741
70 57 49
9791
7234 1
9703
aPensi
Aldebaran
W.
50 57 5
9004
52 35 55
9579
54 15 19
9555
55 55 16
9533
E.
29 15 26
9989
27 29 0
9973
25 42 21
9964
23 55 29
9958
Saturn
E.
39 53 11
9885
38 7 48
9818
36 22 12
9307
34 36 23
2300
Sun
E.
75 40 51
9695
74 1 50
9685
72 22 34
9574
70 43 4
9565
17
Fomalhaut
W.
80 40 42
9090
82 19 1
9015
83 57 36
9604
85 36 26
9594
a Pegasi
W.
64 22 5
9443
66 439
9497
67 47 35
9413
69 30 51
9400
Saturn
E.
25 44 40
9968
23 57 54
9966
22 11 4
9905
20 24 13
9966
Sun
E.
62 22 16
9519
60 41 29
9611
59 0 31
SS04
57 19 23
9406
18
Fomalhaut
W.
93 53 23
9568
95 33 10
9580
97 13 0
9559
98 52 52
9559
126
JULY, 1884.
XVII.
GEEENWICH MEAN TIME.
LUNAR DISTANCES.
P.L.
P.L.
P.L.
•
P.L.
Koine and Direction
Noon.
of
HP*-
of
VP».
of
DP>.
of
r
of Otyeot.
Diff.
Diff.
Diff.
Diff.
18
a Pegasi
a Arietis
W.
71 14 2g
9388
72 58 18
9376
74° 42 25
9367
76 26 47
9357
W.
27 53 37
8579
29 33 1
9599
31 13 34
9486
32 55 7
9449
Sun
E.
55 38 4
9489
53 56 35
9483
52 14 58
9477
50 33 13
9479
19
a Pegasi
a Arietis
W.
85 11 37
9994
86 57 2
9390
88 42 33
9317
90 28 8
9314
W.
41 33 59
9394
43 19 24
9307
45 5 13
9999
46 51 24
9980
Sun
E.
42 2 52
9455
40 20 35
9454
38 38 17
9454
36 55 59
9455
20
a Pegaei
a Arietis
W.
99 16 30
9316
101 2 6
9390
102 47 37
9394
104 33 2
9330
W.
55 46 9
9939
57 33 38
9935
59 21 13
9939
61 8 53
9999
Sun
E.
28 25 21
9479
26 43 39
9489
25 2 11
9509
23 21 1
9519
24
Sun
W.
26 16 50
9793
27 51 27
9809
29 25 52
9819
31 0 4
9894
Spica
E.
54 14 31
9406
52 31 8
9494
50 48 8
9441
49 5 32
9458
Antares
E.
99 51 17
9450
98 8 54
9466
96 26 53
9489
94 45 15
9498
25
Sun
W.
38 46 48
9698
40 19 12
9919
41 51 16
9997
43 23 0
9944
Spica
E.
40 38 29
9544
38 58 17
9561
37 18 29
9579
35 39 5
9597
Au tares
E.
86 22 46
9589
84 43 26
9599
83 4 29
9616
81 25 56
9634
26
Sun
W.
50 56 28
3097
52 26 7
3043
53 55 26
3060
55 24 24
3078
Regulus
W.
26 37 24
9795
28 13 31
9735
29 49 24
9747
31 25 1
9760
Spica
E.
27 28 17
9689
25 51 22
9708
24 14 53
9798
22 38 50
9747
Aji tares
E.
73 19 4
9790
71 42 51
9738
70 7 2
9756
68 31 36
9773
27
Sun
W.
62 44 13
3158
64 11 13
3173
65 37 55
3168
67 4 18
3903
Regulus
W.
39 19 1
9893
40 52 59
9839
42 26 40
9849
44 0 4
9669
Au tares
E.
60 40 5
9859
59 6 53
9676
57 34 3
9699
56 1 34
9909
28
Sun
W.
74 12 0
3979
75 36 44
3965
77 1 13
3997
78 25 28
3309
Regulus
W.
51 43 6
9999
53 14 57
9933
54 46 34
9944
56 17 57
9954
Mars
W.
19 35 17
3144
21 2 33
3154
22 29 37
3163
23 56 30
3173
Antares
E.
48 24 26
9999
46 54 3
3008
45 24 0
3095
43 54 18
3049
-
a Aqtiilce
E.
98 45 22
3317
97 21 30
3396
95 57 49
3336
94 34 19
3345
29
Sun
W.
85 23 25
3369
86 46 25
3371
88 9 15
3380
89 31 54
3388
Regulus
W.
63 51 42
3001
65 21 53
3010
66 51 53
3018
68 21 44
3095
Mars
W.
31 7 58
3991
32 33 42
3999
33 59 17
3936
35 24 43
3944
Antares
E.
36 31 5
3131
35 3 33
3151
33 36 25
3179
32 9 42
3193
a Aquilee
E.
87 39 30
3393
86 17 6
3403
84 54 53
3413
83 32 51
3493
30
Sun
W.
96 23 0
3493
97 44 51
3498
99 6 36
3439
100 28 16
3437
Regulus
W.
75 48 52
3056
77 17 56
3060
78 46 55
3065
80 15 48
3068
Mars
W.
42 29 47
3976
43 54 27
3981
45 19 1
3985
46 43 30
3988
Spica
W.
22 14 28
3070
23 43 14
3079
25 11 58
3073
26 40 40
3076
a Aquilee
E.
76 45 36
3475
75 24 44
3486
74 4 4
3497
72 43 37
3508
31
Sun
W.
107 15 33
3451
108 36 52
3453
109 58 9
3454
111 19 25
3455
Regulus
W.
87 39 17
3080
89 7 51
3089
90 36 23
3089
92 4 54
3089
Mars
W.
53 44 57
3301
55 9 7
3309
56 33 16
3303
57 57 24
3304
Spica
W.
34 339
3089
35 32 11
3089
37 0 43
3081
38 29 16
3080
a Aquilee
E.
66 4 31
3569
64 45 23
3589
63 26 29
3597
62 7 51
3611
Fomalhaut
E.
97 4 11
3488
95 43 34
3487
94 22 55
3486
93 2 15
3466
XVHI.
JULY, 1884.
127
GREENWICH MEAN TIME.
LUKAB DISTANCES.
I"
18
19
20
24
25
26
27
28
29
30
31
Name and Direction
of Object.
Midnight.
P.L.
of
Diff.
XV*.
P.L.
of
Diff.
xvmh.
P.L.
of
Diff.
xxi*.
P.L.
of
Diff.
a repast
a Anetis
Sun
a Pegnsi
a Anetis
Sun
Sun
Spica
Aiitares
Sun
Spica
Antares
W.
W.
E.
a Pegasi W.
a Anetis W.
Sun £.
W.
W.
E.
W.
E.
E.
W.
E.
E.
Sun W.
Regulus W.
Spica E .
Antare8 E .
Sun W.
Regulus W.
Antares E .
Sun
W.
Regulus
W.
Mars
W.
Antares
E.
a Aquilte
E.
Sun
W.
Regulus
W.
Mars
W.
Aatares
E.
aAquiln
E.
Sun
W
Regulus
W.
Maes
W.
Spica
W.
ccAquito
E.
Sun
W.
Regulus
W.
Mars
W.
Spica
W.
a Aquilte
E.
Fomalfaaut
E.
78° 11' 23
34 37 32
48 51 20
92 13 47
48 37 53
35 13 42
106 18 18
62 56 37
21 40 14
3234 0
47 23 20
93 3 59
44 54 23
34 0 6
79 47 47
56 53 1
33 022
21 3 13
66 56 33
68 30 24
45 33 12
54 29 26
79 49 29
57 49 7
25 23 11
42 24 57
93 10 59
90 54 24
69 51 26
36 50 0
30 43 25
82 11 1
101 49 51
81 44 37
48 7 55
28 9 19
71 23 22
112 40 40
93 33 25
59 21 31
39 57 50
60 49 29
91 41 35
9349
9417
9467
9313
9900
9457
9337
9999
9540
9475
9515
9961
9615
9851
3094
9779
9768
9791
3917
9874
3391
9965
3183
3059
3354
3396
3031
3959
3917
3433
3441
3071
3993
3078
3519
3455
3068
3303
3079
3697
79 56 11
36 20 43
47 9 21
93 59 f>8
50 24 38
33 31 28
108 3 24
64 44 22
19 59 56
34 7 39
45 41 31
91 23- 6
46 25 25
32 21 32
78 10 1
58 21 18
34 35 27
19 28 3
65 21 53
09 56 13
47 6 4
52 57 39
81 13 16
59 20 4
26 49 40
40 55 57
91 47 50
92 16 45
71 21 0
38 15 8
29 17 96
80 49 22
103 11 21
83 13 22
49 32 15
29 37 56
70 3 19
114 1 55
95 1 56
60 45 39
41 26 25
59 31 24
90 20 54
9463
9319
9960
9460
9344
9851
9499
9531
9977
9633
9669
3110
9785
9790
9808
3931
98b7
9949
9975
3193
3076
3364
3403
3039
3959
3943
3444
3444
3074
3996
3078
3531
3454
3089
3309
3078
3644
3484
81 41 10
38 4 35
45 27 16
95 45 10
52 11 37
31 49 18
109 48 19
66 32 8
18 20 14
35 41 1
44 0 6
89 42 36
47 56 7
30 43 22
76 32 39
59 49 16
36 10 15
17 53 22
63 47 35
71 21 45
48 38 40
51 26 14
82 36 51
60 50 48
28 15 57
39 27 18
90 24 52
93 38 58
72 50 25
39 40 8
27 52 18
79 27 55
104 32 48
84 42 3
50 56 31
31 6 32
68 43 29
115 23 11
96 30 28
02 9 48
42 55 1
58 13 37
89 0 12
9335
9364
9460
9313
9951
9465
9353
9509
9548
9993
9659
3196
9798
9813
3945
9898
9959
3349
9985
3903
3003
3373
3410
3045
3965
3973
3454
3447
3077
3998
3080
3544
3453
3080
3301
3078
3669
3489
83 26 19
39 49 2
43 45 6
97 30 51
53 58 48
30 7 15
111 33 2
68 19 53
16 41 19
37 14 4
42 19 5
88 229
49 26 28
29 5 37
74 55 40
61 16 54
37 44 46
16 19 11
62 13 39
72 47 1
50 11 1
49 55 10
84 0 14
62 21 20
29 42 3
37 59 0
89 2 5
95 1 3
74 19 42
41 5 1
26 27 35
78 6 40
105 54 12
86 10 41
52 20 45
32 35 6
67 23 53
116 44 28
97 59 2
63 &3 58
44 23 38
56 56 9
87 39 28
9343
9457
9314
9945
9471
9369
9931
9646
9597
9565
3010
9670
2703
3149
9810
9839
9849
3959
9911
9975
9993
3919
3119
3417
3051
3970
3306
3464
3449
3078
3300
3081
3556
3451
3078
3300
3076
3680
3481
128
AUGUST, 1884.
AT GREENWICH APPARENT NOON.
1
i
1
THE SUITS
8ldereal
Time of
Semi-
Equation of
Time,
to be
Added to
. Subtracted
4
diameter
from
1
1
Apparent
Bight Ascension.
Diftfor
lHour.
Apparent
Declination.
Dint for
lHour.
Semi-
diameter.
Pawing
Meridian.
Apparent
Time.
Difllfor
lHour.
Frid.
h m 8
8 48 3.51
9.693
N.17 5l' 53?6
-38?24
15 48.14
66.60
m a
6 2.99
0.164
Sat.
2
8 51 55.81
9.667
17 36 27.2
38.96
15 48.28
66.51
5 58.75
0.190
SUN.
3
8 55 47.49
9.641
17 20 43.7
39.66
15 48.42
66.42
5 53.89
0.216
Mon.
4
8 59 38.57
9.616
17 4 43.2
-40.36
15 48.56
66.33
5 48.42
0.241
Tues.
5
9 3 29.04
9.591
16 48 26.2
41.05
15 48.71
66.24
5 42.35
0.266
Wed.
6
9 7 18.91
9.566
16 31 53.0
41.72
15 48.86
66.16
5 35.69
0.291
Thur.
7
9 11 8.19
9.541
16 15 3.7
-42.38
15 49.01
66.07
5 28.43
0,315
Frid.
8
9 14 56.88
9.51?
15 57 58.7
43.03
15 49.16
65.98
5 20.58
0.339
Sat.
9
9 18 45.00
9.493
15 40 38.3
43.67
15 49.31
65.90
5 12.16
0.363
SUN.
10
9 22 32.55
9 470
15 23 2.8
-44.30
15 49.47
65.82
5 3.18
0.386
Mon.
11
9 26 19.51
9.447
15 5 12.4
44.92
15 49.63
65.74
4 53.65
0.409
Tues.
12
9 30 5.99
9.495
14 47 7.3
45.52
15 49.78
65.66
4 43.57
0.431
Wed.
13
9 33 51.90
9.403
14 28 48.1
-46.10
15 49.95
65.58
4 32.96
0.463
Thur.
14
9 37 37.29
9.381
14 10 15.0
46.67
15 50.12
65.50
4 21.83
0.475
Frid.
15
9 41 22.17
9.359
13 51 28.3
47.23
15 50.29
65.42
4 10.18
0.497
Sat.
16
9 45 6.54
9.338
13 32 28.4
-47.78
15 50.47
65.34
3 58.03
0.518
SUN.
17
9 48 50.41
9.318
13 13 15.5
48.30
15 50.65
65.26
3 45.38
0.538
Mon.
18
9 52 33.79
9.298
12 53 49.9
48.82
15 50.84
65.19
3 32.25
0.558
Tues.
19
9 56 16.70
9.278
12 34 11.9
-49.33
15 51.03
65.13
3 18.64
0.578
Wed.
20
9 59 59.13
9.259
12 14 22.0
49.82
15 51.23
65.05
3 4.56
0.597
Thur.
21
10 3 41.10
9.240
11 54 20.6
50.30
15 51.43
64.98
2 50.01
0.616
Frid.
22
10 7 22.61
9.221
11 34 7.8
-50.76
15 51.64
64.92
2 35.00
0.635
Sat.
23
10 11 3.67
9.202
11 13 44.0
51.22
15 51.85
64.85
2 19.55
0.653
SUN.
24
10 14 44.30
9.184
10 53 9.5
51.65
15 52.05
64.79
2 3.67
0.671
Mon.
25
10 18 24.51
9.167
10 32 24.7
-52.07
15 52.27
64.73
147.37
0.688
Tues.
26
10 22 4.30
9.150
10 11 30.0
52.49
15 52.49
64.68
130.66
0.705
Wed.
27
10 25 43.69
9.133
9 50 25.6
52.88
15 52.71
64.62
1 13.55
0.722
Thur.
28
10 29 22.70
9.117
9 29 11.9
-53.26
15 52.94
64.57
0 56.06
0.738
Frid.
29
10 33 1.35
9.102
9 7 49.2
53 63
15 53.17
64.52
0 38.20
0.753
Sat.
30
10 36 39.64
9.088
8 46 17.7
53.99
15 53.40
64.48
0 20.00
0.767
SUN.
Mon.
31
32
10 40 17.59
10 43 55.22
9.075
9.062
8 24 37.9
N. 8 2 50.0
64.33
-54.66
15 53.63
15 53.87
64.43
64.39
0 1.45
0.780
0.793
0 17.43
NoTfe— The mean time of sen
The sign — prefixed
nidiametei
to the hoi
r passing may be found by at
irly change of declination ind
ibtraeting <K1*
tcatco that noi
J from the sidereal time.
tth declination* are decreasing.
1
n.
AUGUST, 1884.
129
AT GREENWICH MEAN NOON.
i
•s
1
i
*
*
THE
SUN'S
Equation of
Time,
to be
Subtracted
from
Diff. for
lHour.
Sidereal
Time,
or
Right Ascension
of
Mean 8 tin.
Apparent
Bight Ascension.
Diff. for
lHour.
Apparent
Declination.
Dlfll for
I Hoar.
Added to
Mean Time.
Frid.
Sat.
SUN.
1
2
3
h m s
8 48 2.54
8 51 54.85
8 55 46.55
0.693
9.667
9.641
N. 17° 5l' 57.4
17 36 31.0
17 20 47.5
-38.24
38.96
39.66
m s
6 3.00
5 58.76
5 53.90
0.164
0.190
0.216
h m s
8 41 59.54
8 45 56.09
8 49 52.65
tit
4
5
6
8 59 37.64
9 3 28.13
9 7 18.02
9.616
9.591
9.566
17 4 47.1
16 48 30.1
16 31 56.9
-40.36
41.05
41.72
5 48.44
5 42.37
5 35.71
0.241
0.266
0.291
8 53 49.20
8 57 45.76
9 1 42.31
Thur.
Frid.
Sat.
7
8
9
9 11 7.32
9 14 56.03
9 18 44.17
9.543
9.518
9.494
16 15 7.6
15 58 2.5
15 40 42.0
-42.38
43.03
43.67
5 28.45
5 20.60
5 12.19
0.315
0.339
0.363
9 5 38.87
9 9 35.42
9 13 31.98
SUN.
Mon.
Tues.
10
11
12
9 22 31.74
9 26 18.76
9 30 5.24
9.471
9.448
9.426
15 23 6.5
15 5 16.1
14 47 10.9
-44.30
44.92
45.52
5 3.21
4 53.68
4 43.60
0.386
0.409
0.431
9 17 28.53
9 21 25.08
9 25 21.63
Wed.
Thur.
Frid.
13
14
15
9 33 51.18
9 37 36.60
9 41 21.51
9.404
9.382
9.360
14 28 51.6
14 10 18.4
13 51 31.6
-46.10
46.67
47.23
4 32.99
4 21.86
4 10.21
0.453
0.475
0.497
9 29 18.19
9 33 14.74
9 37 11.30
Sat.
SUN.
Mon.
16
17
18
9 45 5.91
9 48 49.82
9 52 33.24
9.339
9.319
9.299
13 32 31.5
13 13 18.5
12 53 52.7
-47.78
48.31
48.83
3 58.06
3 45.41
3 32.28
0.518
0.538
0.558
9 41 7.85
9 45 4.41
9 49 0.96
Tues.
Wed.
Thur.
19
20
21
9 56 16.18
9 59 58.65
10 3 40.66
9.279
9.260
9.241
12 34 14.6
12 14 24.5
11 54 22.9
-49.34
49.83
50.31
3 18.67
3 4.59
2 50.04
0.578
0.597
0.616
9 52 57.51
9 56 54.06
10 0 50.62
Frid.
Sat.
SUN.
22
23
24
10 7 22.21
10 11 3.31
10 14 43.98
9.222
9.204
9.186
11 34 9.9
11 13 45.9
10 53 11.2
-50.77
51.22
51.66
2 35.03
2 19.58
2 3.70
0.635
0.653
0.671
10 4 47.17
10 8 43.73
10 12 40.28
Mon.
Tues.
Wed.
25
26
27
10 18 24.23
10 22 4.06
10 25 43.50
9.169
9.152
9.135
10 32 26.2
10 11 31.3
9 50 26.7
-52.08
52.49
52.89
1 47.39
1 30.68
1 13.57
0.688
0.705
0.722
10 16 36.84
10 20 33.38
10 24 29.94
Thur.
Frid.
Sat
SUN.
Mon.
28
29
30
31
32
10 29 22.57
10 33 1.25
10 36 39.59
10 40 17.59
10 43 55.26
9.119
9.104
9.090
9.077
9.064
9 29 12.7
9 7 49.7
8 46 18.0
8 24 37.9
N. 8 2 49.8
-53.27
53.64
54.00
54.34
-54.67
0 56.08
0 38.21
0 20.00
0 1.45
0.738
0.753
0.767
0.780
0.793
10 28 26.49
10 32 23.05
10 36 19.59
10 40 16.14
10 44 12.69
0 17.43
Koto.— Th
Th
e semidiameter for i
e sign — prefixed to
> decreasing.
aeon noon
the hoar!
may be assumed the same as t
y change of declination indicate
bat for apparent
)s that north dec
noon,
linations
Diff. for 1 Hour,
+ 9".8565.
(Table m.)
130
AUGUST, 1884.
in.
AT GREENWICH MEAN NOON.
THE SUN'S
•
I
1
t
1
Logarithm
.of the
Radius Vector
of the
Earth.
DUE for
1 Hour.
Mean Time
of
Sidereal Noon.
TBUB LONGITUDE.
Difll for
lHour.
LATITUDE.
X
V
1
2
3
214
215
216
129 34' 24.8
130 31 50.8
131 29 17.6
33 48.9
31 14.8
28 41.4
143.57
143.60
143.63
+ 0.62
0.69
0.74
0.0063038
0.0062413
0.0061775
-25.7
26.3
26.9
h m s
15 15 30.07
15 11 34.16
15 7 38.25
4
5
6
217
218
219
132 26 45.1
133 24 13.6
134 21 43.1
26 8.8
23 37.2
21 6.6
143.67
143.71
143.75
+ 0.75
0.71
0.67
0.0061123
0.0060458
0.0059781
-27.4
27.9
28.4
15 3 42.34
14 59 46.43
14 55 50.52
7
8
9
220
221
222
135 19 13.6
136 16 45.3
137 14 18.2
18 37.0
16 8.5
13 41.3
143.79
143.84
143.89
+ 0.59
0.50
0.38
0.0059093
0.0058394
0.0057684
-28.9
29.3
29.8
14 51 54.62
14 47 58.71
14 44 2.80
10
11
12
223
224
225
138 11 52.4
139 9 28.0
140 7 5.1
11 15.4
8 50.9
6 27.9
143.95
144.02
144.07
+ 0.25
+ 0.12
-0.02
0.0056963
0.0056230
0.0055483
-30.3
30.8
31.4
14 40 6.89
14 36 10.99
14 32 15.08
13
14
15
226
227
228
141 4 43.7
142 2 23.8
142 60 5.6
4 6.4
1 46.4
59 28.0
144.14
144.21
144.27
-0.15
0.26
0.35
0.0054721
0.0053945
0.0053151
-32.0
32.7
33.4
14 28 19.17
14 24 23.26
14 20 27.36
16
17
18
229
230
231
143 57 48.8
144 55 33.7
145 53 20.1
57 11.2
54.56.0
52 42.3
144.33
144.40
144.47
-0.42
0.44
0.45
0.0052341
0.0051512
0.0050663
-34.2
35.0
35.8
14 16 31.45
14 12 35.54
14 8 39.64
19
20
21
232
233
234
146 51 8.1
147 48 57.6
148 46 48.8
50 30.2
48 19.7
46 10.7
144.53
144.60
144.66
-0.41
0.37
0.28
0.0049794
0.0048906
0.0047997
-36.6
37.4
38.3
14 4 43.73
14 0 47.82
13 56 51.91
22
23
24
235
236
237
149 44 41.3
150 42 35.1
151 40 30.6
44 3.1
41 56.9
39 52.2
144.72
144.78
144.83
-0.19
-0.07
+ 0.06
0.0047068
0.0046119
0.0045151
-39.1
40.0
40.8
13 52 56.00
13 49 0.09
13 45 4.18
25
26
27
238
239
240
152 38 27.3
153 36 25.4
154 34 24.9
37 48.8
35 46.8
33 46.2
144.89
144.95
145.00
+ 0.20
0.33
0.44
0.0044165
0.0043163
0.0042145
-41.5
42.1
42.7
13 41 8.27
13 37 12.37
13 33 16.47
28
29
30
31
241
242
243
244
155 32 25.6
156 30 27.6
157 28 31.0
158 26 35.8
31 46.8
29 48.7
27 52.0
25 56.7
145.05
145.11
145.17
145.23
+ 0.54
0.60
0.65
0.67
0.0041112
0.0040066,
0.0039009
0.0037943
-43.3
43.8
44.2
44.6
13 29 20.56
13 25 24.65
13 21 28.75
13 17 32.85
32
245
159 24 42.1
24 2.9
145.29
+ 0.66
0.0036869
-44.9
13 13 36.94
Nom— The
the
numbers in column
mean equinox of Jai
X correspond to the tn
luary 0*.0.
ie equinox of the date; in oolui
onV, to
Difll for 1 Hour,
— 9".8296.
(Table IL)
IV.
AUGUST, 1884.
131
• -
GREENWICH MEAN TIME.
i
THE
MOON'S
i
SBMIDIAMETBR.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGS.
Noon.
Midnight.
Noon.
DifT. for
lHoar.
Midnight.
Diff. for
1 Hoar.
Meridian of
Greenwich.
Diff. for
lHour.
Noon.
1
2
3
14 4&0
14 50.0
14 54.2
/ //
14 48.7
14 51.9
14 57.0
54 11.9
54 19.3
54 34.9
+ 0.12
0.48
0.80
54 14.5
54 26.2
54 45.2
+ 0.31
0.65
0.92
h m
7 59.7
8 47.5
9 35.9
m
1.97
2.01
2.03
d
10.0
11.0
12.0
4
5
6
15 0.2
15 7.5
15 15.7
15 3.7
15 11.5
15 19.9
54 57.0
55 23.8
55 53.7
+ 1.02
1.19
1.28
55' 9.9
55 38.5
56 9.3
+ 1.11
1.25
1.30
10 24.7
11 13.5
12 2.1
2.03
2.03
2.02
13.0
14.0
15.0
7
8
9
15 242
15 32.7
15 40.8
15 28.5
15 36.8
15 44.7
56 25.0
56 56.2
57 26.1
+ 1.31
1.28
1.20
56 40.7
57 11.4
57 40.3
+ 1.30
1.25
1.16
12 50.4
13 38.6
14 27.1
2.01
2.01
2.04
16.0
17.0
18.0
10
11
12
15 48.4
15 55.3
16 1.5
15 51.9
15 58.5
16 4.3
57 53.9
58 19.3
58 42.0
+ 1.11
1.00
0.88
58 6.9
58 31.0
58 52.2
+ 1.06
0.94
0.81
15 16.5
16 7.3
16 59.9
2.08
2.15
2.24
19.0
20.0
21.0
13
14
15
16 6.8
16 11.1
16 14.1
16 9.1
16 12.8
16 15.0
59 1.&
59 17.3
59 28.3
+ 0.73
0.56
0.33
59 9.9
59 23.5
59 31.6
+ 0.65
0.46
+ 0.20
17 54.7
18 51.6
19 50.0
2.33
2.41
2.45
22.0
23.0
24.0
16
17
18
16 15.4
16 14.7
16 11.5
16 15.3
16 13.4
16 9.0
59 33.1
59 30.4
59 18.8
+ 0.06
-0.20
0.67
59 32.8
59 25.7
59 9.6
-0.10
0.48
0.87
20 48.8
21 46.7
22 42.8
2.44
2.38
2.28
25.0
26.0
27.0
19
20
21
16 5.9
15 57.9
15 48.0
16 2.2
15 53.1
15 42.5
58 58.1
58 28.7
57 52.4
-1.05
1.37
1.62
58 44.4
58 11.3
57 32.4
-1.22
1.51
1.70
23 36.3
6
0 27.4
2.18
2.08
28.0
29.0
0.6
22
23
24
15 36.9
15 25.4
15 14.5
15 31.1
15 19.8
15 9.4
57 11.6
56 29.5
55 49.2
-1.74
1.73
1.59
56 50.5
56 8.9
55 30.7
-1.76
1.68
1.48
1 16.3
2 3.5
2 49.6
2.00
1.94
1.90
1.6
2.6
3.6
25
26
27
15 4.8
14 57.0
14 51.7
15 0.6
14 54.0
14 50.0
55 13.7
54 45.2
54 25.5
-1.35
1.01
0.62
54 58.4
54 34.2
54 19.3
-1.19
0.82
-0.41
3 35.2
4 20.7
5 6.6
1.90
1.90
1.93
4.6
5.6
6.6
28
29
30
31
14 49.0
14 49.2
14 52.1
14 57.6
14 48.7*
14 50.3
14 54.6
15 1.2
54 15.7
54 16.3
54 27.2
54 47.4
-0.19
+ 0.23
0.65
1.02
54 14.7
54 20.5
54 36.2
55 0.7
+ 0.02
0.45
0.84
1.18
5 53.1
6 40.4
7 28.3
8 16.8
1.95
1.98
2.01
2.02
7.6
8.6
9.6
10.6
32
15 5.4
15 9.9
55 15.8
+ 1.32
55 32.5
+ 1.44
9 5.2
2.02
11.6
132
AUGUST, 1884.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Ascension.
DhTfor
1 Minute.
Declination.
Difllfor
1 Minute.
Hour.
Bight Ascension*
Diff.fbr
1 Minute.
Declination.
Din*, for
1 Minute.
FRIDAY 1.
SUNDAY 3.
h m 8
8
Q i It
»
h m s
8
O 1 il
$i
.0
16 26 29.53
2.0618
S.17 43 1.8
3.057
0
18 6 58.57
9.1199
S.18 33 5.0
1.044
1
16 28 33.29
2.0633
17 46 2j3
2.977
1
18 9 5.75
2.1200
18 31 59.7
I.I33
2
16 30 37.13
2.0647
17 48 59.0
2.897
2
18 11 12.97
2.1207
18 30 49.0
1.222
3
16 32 41.06
2.0662
17 51 50.4
2.816
3
18 13 20.23
2.1214
18 29 33.0
1412
4
16 34 45.08
2.0677
17 54 36.9
2.735
4
18 15 27.54
2.1222
18 28 11.6
1.401
5
16 36 49.18
2.0691
17 57 18.6
2,654
5
18 17 34.89
2.1228
18 26 44.9
1.489
6
16 38 53.37
2.0706
17 59 55.4
9473
6
18 19 42.28
2.1235
18 25 12.9
1476
7
16 40 57.65
2.0720
18 2 27.3
2.491
7
18 21 49.71
2.1241
18 23 35.5
1.668
8
16 43 2.01
2.0734
18 4 54.3
2.408
8
18 23 57.17
2.1247
18 21 52.7
1.757
9
16 45 6.46
2.0740
18 7 16.3
2496
9
18 26 4.67
2.1252
18 20 4.6
1446
10
16 47 11.00
2.0763
18 9 33.4
2443
10
18 28 12.20
2.1957
18 18 11.2
1.935
11
16 49 15.62
2.0777
18 11 45.5
2.160
11
18 30 19.76
2.1263
18 16 12.4
9424
12
16 51 20.32
2.0791
18 13 52.6
2.077
12
18 32 27.36
2.1269
18 14 8.3
2.113
13
16 53 25.11
2.0805
18 15 54.7
1.993
13
18 34 34.99
2.1273
18 11 58.8
9.209
14
16 55 29.98
2.0618
18 17 51.8
1410
14
18 36 42.64
2.1278
18 9 44.0
9491
15
16 57 34.93
2.0832
18 19 43.9
1.827
15
18 38 50.32
2.1283
18 7 23.9
9480
16
16 59 39.96
2.0845
18 21 31.0
1.743
16
18 40 58.03
2.1287
18 4 58.4
2.469
17
17 1 45.07
2.0859
18 23 13.0
J .658
17
18 43 5.76
2.1291
18 2 27.6
9457
18
17 3 50.27
2.0873
18 24 49.9
1.573
18
18 45 13.52
2.1295
17 59 51.5
9.646
19
17 5 55.55
2.0886
18 26 21.7
1.488
19
18 47 21.30
9.1298
17 57 10.1
9.734
20
17 8 0.90
2.0898
18 27 48.4
1.403
20
18 49 29.10
2,1301
17 54 23.4
9.893
21
17 10 6.33
2.09J1
18 29 10.1
1419
21
18 51 36.91
2,1303
17 51 31.3
9419
22
17 12 11.83
24)923
18 30 26.7
1433
22
18 53 44.74
2.1306
17 48 33.9
3.001
23
17 14 17.41
SA
24)936
S.18 31 38.1
IT 2.
1.147
23
18 55 52.59
M
2.1309
(MSTDA
S.17 45 31.2
T 4.
3489
0
17 16 23.07
2.0949
S.18 32 44.3
1.061
0
18 58 0.45
2,1312
S.17 42 23.3
3.176
1
17 18 28.80
24)961
18 33 45.4
0475
1
19 0 8.33
2.1314
17 39 10.1
3464
2
17 20 34.60
2.0973
18 34 41.3
0.888
2
19 2 16.22
2,1316
17 35 51.6
3459
3
17 22 40.48
2.0986
18 35 32.0
0.802
3
19 4 24.12
2.1317
17 32 27.8
3.440
4
17 24 46.43
2.0997
18 36 17.5
0.716
4
19 6 32.03
9.1319
17 28 58.8
3497
5
17 26 52.44
9.1008
18 36 57.9
0430
5
19 8 39.95
2.1391
17 25 24.6
3414
6
17 28 58.52
2.1019
18 37 33.1
0443
6
19 10 47.88
2.1322
17 21 45.1
3.701
7
17 31 4.67
2.1031
18 38 3.0
0.455
7
19 12 55.81
2.1323
17 18 0.4
3.788
8
17 33 10.89
2.1042
18 38 27.7
0.368
8
19 15 3.75
2.1323
17 14 10.5
3.875
9
17 35 17.18
2.1053
18 38 47.2
0481
9
19 17 11.69
9,1393
17 10 15.4
3469
10
17 37 23.53
2.1063
18 39 1.4
0.193
10
19 19 19.63
9,1393
17 6 15.1
4.048
11
17 39 29.94
2.1074
18 39 10.3
0.105
11
19 21 27.57
9.1394
17 2 9.6
4.134
12
17 41 36.42
2.1085
18 39 14.0
- 0.017
12
19 23 35.52
9.1394
16 57 59.0
4490
13
17 43 42.96
2.1096
18 39 12.4
+ 0.071
13
19 25 43.46
9,1393
16 53 43.2
4406
14
17 45 49.56
2.1104
18 39 5.5
0.159
14
19 27 51.40
2,1393
16 49 22.3
4491
15
17 47 56.21
2.1113
18 38 53.3
0.247
15
19 29 59.34
2.1399
16 44 56.3
4.477
16
17 50 2.92
2.1123
18 38 35.8
0435
16
19 32 7.27
2.1329
16 40 25.1
4469
17
17 52 9.69
2.1133
18 38 13.1
0.423
17
19 34 15.20
2.1321
16 35 48.9
4.646
18
17 54 16.52
2.1142
18 37 45.1
0412
18
19 36 23.12
2,1319
16 31 7.6
4.730
19
17 56 23.40
2.1151
18 37 11.7
0401
19
19 38 31.03
19 40 38.93
2.1318
16 26 21.3
4414
20
17 58 30.33
2.1160
18 36 33.0
0.689
20
2.1317
16 21 29.9
4.899
21
18 0 37.32
2.1169
18 35 49.0
0.778
21
19 42 46.83
2.1315
16 16 33.4
448J
22
18 2 44.36
2.1177
18 34 59.7
0467
22
19 44 54.71
9.1313
16 11 31.9
5.066
23
18 4 51.44
2.1184
18 34 5.0
0.956
23
19 47 2.58
9,1311
16 6 25.5
5.148
24
18 6 58.57
2.1192
S.18 33 5.0
1444
24
19 49 10.44
9.1308
S.16 1 14.1
5431
VI.
AUGUST, 1884.
133
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Sight Ascension.
Din*, for
1 Minute.
Declination.
Dlff.for
1 Minute.
Hour.
Bight Ascension.
Diff.for
1 Minute.
Declination.
Diftfor
1 Minute.
TI
FESDA
Y5.
THURSDAY 7.
h m b
s
O / //
h m s
8
O / ll
a »
0
19 49 10.44
9.1308
S.16 1 14.1
5.931
0
21 31 1.75
9.1190
S.10 22 55.8
8.667
1
19 51 18.28
9.1306
15 55 57.8
5.314
1
21 33 8.46
9.1117
10 14 14.0
8.795
2
19 5:* 26.fl
9.1304
15 50 36.5
5.396
2
21 &5 15.16
9.1115
10 5 28.8
8.789
3
19 55 33.93
9.1309
15 45 10.3
5.477
3
21 37 21.84
9.1119
9 56 40.1
8.839
4
19 57 41.73
9.1999
15 39 39.3
5.558
4
21 39 28.50
9.1108
9 47 48.1
8.894
5
19 59 49.51
9.1996
15 34 34
5.639
5
21 41 35.14
9.1105
9 38 52.8
8.949
6
20 1 57.28
9.1993
15 28 22.6
5.790
6
21 43 41.76
9.1109
9 29 54.2
9.003
7
20 4 5.03
9.1990
15 22 37.0
5.800
7
21 45 48.36
9.1099
9 20 52.4
9.057
8
20 6 12.76
9.1986
15 16 46.6
5.880
8
21 47 54.95
9.1097
9 11 47.4
9.109
9
20 8 20.47
9.1289
15 10 51.4
6.959
9
21 50 1.53
9.1096
9 2 39.3
9.161
10
.20 10 28.15
9.1278
15 4 51.5
6.037
10
21 52 8.10
9.1094
8 53 28.1
9.219
11
20 12 35.81
9.1975
14 58 46.9
6.116
11
21 54 14.65
9.1091
8 44 13.8
9.963
12
20 14 43.45
9.1979
14 52 37.6
6.194
12
21 56 21.19
9.1089
8 34 56.5
9.313
13
20 16 51.07
9.1968
14 46 23.6
6.979
13
21 58 27.72
9.1088
8 25 36.2
9.369
14
20 18 58.67
9.1964
14 40 4.9
6.350
14
22 0 34.24
9.1087
8 16 13.1
9.411
15
20 21 6.24
9.1960
14 33 41.6
6.427
15
22 2 40.76
9.1086
8 6 47.0
9.458
16
20 23 13.79
9.1936
14 27 13.7
6.503
16
22 4 47.27
9.1084
7 57 18.1
9.505
17
20 25 21.32
9.1959
14 20 41.3
6.578
17
22 6 53.77
9.1089
7 47 46.4
9.551
18
20 27 28.82
9.1948
14 14 4.3
6.654
18
22 9 0.26
9.1089
7 38 12.0
9.596
19
20 29 36.30
9.1244
14 7 22.8
6.799
19
22 11 6.75
9.1089
7 28 34.9
9.640
20
20 31 43.75
9.1940
14 0 36.8
6.804
20
22 13 13.24
9.1089
7 18 55.2
9.683
21
20 33 51.18
9.1936
13 53 46.3
6.878
21
22 15 19.73
9.1089
7 9 12.9
9.796
22
20 35 58.58
9.1931
13 46 51.4
6.959
22
22 17 26.22
9.1089
6 59 28.0
9.769
23
20 .38 5.95
WE]
9.1997
DNESI
S.13 39 52.1
)AY6.
7.095
23
22 19 32.71
9.1089
RIDA^
S. 6 49 40.6
IT 8.
9.811
0
20 40 13.30
9.1999
S.13 32 48.4
7.098
0
22 21 39.20
9.1089
S. 6 39 50.7
9.859
1
20 42 20.62
9.1217
13 25 40.3
7.171
1
22 23 45.70
9.1083
6 29 58.4
9.891
2
20 44 27.91
9.1913
13 18 27.9
7.949
2
22 25 52.20
9.1084
6 20 3.8
9.999
3
20 46 35.18
9.1909
13 11 11.3
7.319
3
22 27 58.71
9.1086
6 10 6.9
9.967
4
20 48 42.42
9.1904
13 3 50.5
7.389
4
22 30 5.23
9.1087
6 0 7.8
10.004
5
20 50 49.63
9.1200
12 56 25.5
7.459
5
22 32 11.76
9.1090
5 50 6.4
10.041
6
20 52 56.82
9.1196
12 48 56.3
7.529
6
22 34 18.31
9.1099
5 40 2.8
10.077
7
20 55 3.98
9.1191
12 41 22.9
7.591
7
22 36 24.87
9.1094
5 29 57.1
10.119
8
20 57 11.11
9.1187
12 33 45.4
7.659
8
22 38 31.44
9.1096
5 19 49.4
10.145
9
20 59 18.22
9.1189
12 26 3.9
7.796
9
22 40 38.03
9.1099
5 9 39.7
10.178
10
21 1 25.30
9.1177
12 18 18.3
7.799
10
22 42 44.63
9.1103
4 59 28.1
104110
11
21 3 32.35
9.1173
12 10 28.7
7.860
11
22 44N51.26
9.1107
4 49 14.5
10.949
12
21 5 39.38
9.1169
12 2 &5.1
7.996
12
22 46 57.91
9.1111
4 38 59.0
10.973
13
21 7 46.38
9.1164
11 54 37.6
7.991
13
22 49 4.59
9.1115
4 28 41.7
10.309
14
21 9 53.35
9.1160
11 46 36.2
8.056
14
22 51 11.29
9.1118
4 18 22.7
10.331
15
21 12 0.30
9.1156
11 38 30.9
8.190
15
22 53 18.01
9.1193
4 8 2.0
10.359
16
21 14 7.22
9.1159
11 30 21.8
8.183
16
22 55 24.76
9.1196
3 57 39.7
10.386
17
21 16 14.12
9.1148
11 22 8.9
&946
17
22 57 31.55
9.1134
3 47 15.7
10.419
18
21 18 21.00
9.1144
11 13 52.3
&308
18
22 59 38.37
9.1139
3 36 50.2
10.438
19
21 20 27.85
9.1140
11 5 31.9
&370
19
23 r 45.22
9.1145
3 26 23.2
10.463
20
21 22 34.68
9.1136
10 57 7.9
6.431
20
23 3 52.11
9.1159
3 15 54.7
10.487
21
21 24 41.48
9.1139
10 48 40.2
8.499
21
23 5 59.04
9.1158
3 5 24.8
10.509
22
21 26 48.26
9.1198
10 40 8.9
8.551
22
23 8 6.01
9.1165
2 54 53.6
10.530
23
21 28 55.02
9.1194
10 31 34.1
8.609
23
23 10 13.02
9.1179
2 44 21.2
10.550
24
21 31 1.75
9.1190
S.10 22 55.8
8.667
24
23 12 20.07
9.1179
S. 2 33 47.6
10.570
134
AUGUST, 1884.
VIL
GREENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Diftfor
1 Minute.
Declination.
Diftfor
1 Minute.
Hour.
Bight Ascension.
Diff.for
1 Minute.
Declination.
Diff. for
1 Minute.
SA
TUBIX
A.T 9.
MONDAY 11.
h m 8
8
O / //
a
h m s
8
N. 5 58 38.0
a
0
23 12 20.07
2.1179
S. 2 33 47.6
10.570
0
0 55 31.99
9.1961
10.409
1
23 14 27.17
9.1187
2 23 12.8
10.590
1
0 57 43.83
2.1986
6 9 1.3
10474
2
23 16 34.32
9.1196
2 12 36.8
10.008
2
0 59 55.82
9V9019
6 19 22.9
10445
3
23 18 41.52
9.1904
2 1 59.8
10.695
3
1 2 7.97
94038
6 29 42.7
10414
4
23 20 48.77
9.1913
1 51 21.8
10.649
4
1 4 20.28
94064
6 40 0.6
10483
5
23 22 56.07
9.1999
1 40 42.8
10.657
5
1 6 32.74
94090
6 50 16.6
10451
6
23 25 3.43
9.1939
1 30 3.0
10.671
6
1 8 45.36
9J9117
7 0 30.7
10418
7
23 27 10.85
9.1949
1 19 22.3
10.685
7
1 10 58.14
9J9144
7 10 42.8
10.163
8
23 29 18.33
9.1959
1 8 40.8
10.697
8
1 13 11.09
94179
7 20 52.7
10.147
9
23 31 25.87
9.1909
0 57 58.6
10.709
9
1 15 24.21
94900
7 31 0.4
10.110
10
23 33 33.48
9.1973
0 47 15.7
10.790
10
1 17 37.49
94998
7 41 5.9
10.073
11
23 35 41.15
9.1964
0 36 32.2
10.730
11
1 19 50.95
94257
7 51 9.2
"10435
12
23 37 48.89
9.1996
0 25 48.1
10.739
12
1 22 4.58
94986
8 1 10.1
9495
13
23 39 56.70
9.1308
0 15 3.5
10.747
13
1 24 18.38
94315
8 11 8.6
94M
14
23 42 4.59
9.1391
S. 0 4 18.5
10.753
14
1 26 32.36
94344
8 21 4.6
9419
15
23 44 12.55
9.1333
N. 0 6 26.9
10.759
15
1 28 46.51
94373
8 30 58.0
9469
16
23 46 20.59
9.1346
0 17 12.6
10.764
16
1 31 0.84
9.9403
8 40 48.8
9.895
17
23 48 28.71
9.1359
0 27 58.6
10.769
17
1 33 15.35
94433
8 50 37.0
9.780
18
23 50 36.90
2.1373
0 38 44.9
10.779
18
1 35 30.04
94464
9 0 22.4
9.733
19
23 52 45.18
2.1387
0 49 31.3
10.774
19
1 37 44.92
94495
9 10 5.0
9486
20
23 54 53.55
2J409
1 0 17.8
10.775
20
I 39 59.98
94596
9 19 44.8
9438
21
23 57 2.01
9.1417
1 11 4.3
10.775
21
1 42 15.23
94557
9 29 21.6
9468
22
23 59 10.56
9.1439
1 21 50.8
10.774
22
1 44 30.67
94589
9 38 55.4
9438
23
0 1 19.20
SI
9.1447
JNDA1
N. 1 32 37.2
Z 10.
10.779
23
1 46 46.30
TO
94690
:esda
N. 9 48 26.2
Y 12.
9*487
0
0 3 27.33
9.1463
N. 1 43 23.5
10.770
0
1 49 2.11
94659
N. 9 57 53.9
9.435
1
0 5 36.76
9.1480
1 54 9.6
10.767
1
1 51 18.12
94884
10 7 18.4
9481
2
0 7 45.69
9.1497
2 4 55.5
10.769
2
1 53 34.32
94717
10 16 39.6
9498
3
0 9 54.73
9.1515
2 15 41.0
10.755
3
1 55 50.72
94750
10 25 57.5
9470
4
0 12 3.87
9.1539
2 26 26.1
10.748
4
1 58 7.32
94789
10 .35 12.0
9413
5
0 14 13.12
9.1550
2 37 10.8
10.741
5
2 0 24.11
24815
10 44 23.1
9.155
6
0 16 22.47
9.1568
2 47 55.1
10.733
6
2 2 41.10
94848
10 53 30.6
9.096
7
0 18 31.93
9.1587
2 58 38.8
10.793
7
2 4 58.29
94889
11 2 34.6
9.037
8
0 20 41.51
9.1607
3 9 21.9
10.719
8
2 7 15.68
94916
11 11 35.0
6475
9
0 22 51.2F
9.1698
3 20 4.3
10.700
9
2 9 33.28
24950
11 20 31.6
6413
10
0 25 1.02
9.1645
3 30 45.9
10.687
10
2 11 51.06
94963
11 29 24.5
8450
11
0 27 10.95
9.1666
3 41 26.8
10.674
11
2 14 9.06
94017
11 38 13.6
8.786
12
0 29 21.01
9.1687
3 52 6.8
10.659
12
2 16 27.29
94059
11 46 58.8
8.720
13
0 31 31.19
9.1707
4 2 45.9
10.643
13
2 18 45.70
94086
11 55 40.0
8.653
14
0 33 41.50
9.1798
4 13 24.0
10.697
14
2 21 4.32
94191
12 4 17.2
8486
15
0 35 51.93
9.1749
4 24 1.1
10.609
15
2 23 23.15
94155
12 12 50.3
8417
16
0 38 2.49
9.1779
4 34 37.1
10.590
16
2 25 42.18
94189
12 21 19.3
8.448
17
0 40 13.19
9.1795
4 45 11.9
10.570
17
2 28 1.42
94994
12 29 44.1
6477
18
0 42 24.03
9.1817
4 55 45J5
10449
18
2 30 20.87
94959
12 38 4.6
6408
19
0 44 35.00
9.1840
5 6 17.8
10.597
19
2 32 40.53
94904
12 46 20.8
8433
20
0 46 46.11
9.1863
5 16 48.8
10.505
20
2 35 0.40
94398
12 54 32.6
8.159
21
0 48 57.36
9.1887
5 27 18.4
10.481
21
2 37 20.47
94369
13 2 39.9
8.084
22
0 51 8.76
9.1919
5 37 46.5
10.456
22
2 39 40.75
94398
13 10 42.7
8.006
23
0 53 20.30
9.1936
5 48 13.1
10.499
23
2 42 1.25
24434
13 18 40.9
7.932
24
0 55 31.99
9.1961
N. 5 58 38.0
10.409
24
2 44 21.96
24469
NJ3 26 34.5
7.854
VIII.
AUGUST, 1884.
135
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Diff.for
1 Minute.
Declination.
Diftfor fIm
IMinute. llom'
Bight Ascension.
Difltfor
1 Minute.
Declination.
Diff.for
1 Minute.
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
J7
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
22
23
24
WEDNESDAY 13.
44 21.96
46 42.88
49 4.00
51 25.33
53 46.87
56 8.62
58 30.58
0 52.75
3 15.13
5 37.71
8 0.50
10 23.50
3 12 46.70
3 15 10.11
3 17 33.72
3 19 57.53
3 22 21.54
3 24 45.76
3 27 10.18
3 29 34.79
3 31 59.60
3 34 24.61
3 36 49.81
3 39 15.20
8
94409
9.3503
94537
34579
9.3607
94649
94877
94719
94747
94781
94816
94850
94884
94916
94959
9.3985
9.4019
9.4053
9.4086
9.4118
9.4151
9.4184
9.4916
9.4947
N.13 26 34.5
13 34 23.4
13 42 7.5
13 49 46.8
13 57 21.2
14 4 50.6
14 12 15.0
14 19 34.4
14 26 48.6
14 33 57.6
14 41 1.3
14 47 59.8
14 54 52.9
15 1 40.6
15 8 22.8
15 14 59.5
15 21 30.6
15 27 56.0
15 34 15.7
15 40 29.6
15 46 37.7
15 52 40.0
15 58 36.4
N.16 4 26.8
THUESDAY 14.
3 41 40.77
9.4978
3 44 6.53
9.4999
3 46 32.48
9.4341
3 48 58.62
9.4379
3 51 24.94
9.4401
3 53 51.43
9.4430
3 56 18.10
9.4459
3 58 44.94
9.4488
4 1 11.96
9.4517
4 3 39.15
9.4546
4 6 6.51
9.4573
4 8 34.03
9.4601
4 11 1.72
9.4698
4 13 29.57
9.4654
4 15 57.57
9.4680
4 18 25.73
9.4706
4 20 54.04
9.4730
4 23 22.49
9.4754
4 25 51.09
9.4778
4 28 19.83
9.4809
4 30 48.71
9.4894
4 33 17.72
9.4846
4 35 46.86
9.4867
4 38 16.13
9.4889
4 40 45.53
9.4910
N.16 10 11.2
16 15 49.5
16 21 21.7
16 26 47.7
16 32 7.4
16 37 20.9
16 42 28.1
16 47 28.9
16 52 23.3
16 57 11.2
17 1 52.6
17 6 27.4
17 10 55.7
17 15 17.3
17 19 32.2
17 23 40.4
17 27 41.8
17 31 36.4
17 35 24.2
17 39 5.1
17 42 39.1
17 46 6.1
17 49 26.1
17 52 39.1
N.17 55 45.1
7454
7.775
7495
7414
7439
7.449
7465
7.980
7.193
7.106
7.018
6430
6.840
6.749
6457
6465
6.471
6476
6480
6.184
6487
5489
5.890
5.790
5.689
5.587
5.485
6481
5.977
5.179
5467
4460
4.859
4.744
4.635
4496
4.416
4404
4.199
4480
3467
3.739
3.694
3408
3.399
3475
3.158
3.041
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
FRIDAY 15.
h
4
4
4
4
4
4
4
4
5
5
5
5
5
5
5
5
5
m a
40 45.53
43 15.05
45 44.68
48 14.43
50 44.29
53 14.25
55 44.30
58 14.45
0 44.70
3 15.04
5 45.47
8 15.97
10 46.55
13 17.20
15 47.92
18 18.70
20 49.54
5 23 20.43
5 25 51.38
28 22.37
30 53.40
33 24.46
35 55.55
38 26.67
5
5
5
5
5
8
9.4910
N.lf
9.4999
17
9.4048
18
9.4067
18
9.4965
18
94001
18
94017
18
94033
18
94049
18
94064
18
94077
18
94090
18
94109
18
94114
18
9.5195
18
94135
18
94144
18
94153
18
94161
18
94168
18
94174
18
94179
18
94184
18
94189
N.18
'55 45:i
58 44.0
1 35.7
4 20.3
6 57.7
9 27.9
11 50.9
14 6.6
16 15.0
18 16.2
20 10.0
21 56.5
23 35.6
25 7.3
26 31.6
27 48.5
! 28 58.0
! 30 0.0
i 30 54.6
I 31 41.7
32 21.3
32 53.4
33 18.1
33 35.2
SATURDAY 16.
5 40 57.82
94199
N.l
5 43 28.98
94194
]
5 46 0.15
94196
1
5 48 31.33
94197
1
5 51 2.51
94197
1
5 53 33.69
94196
1
5 56 4.86
94194
1
5 58 36.02
94199
I
6 1 7.17
94190
1
6 3 38.30
94186
1
6 6 9.40
94181
1
6 8 40.47
94175
1
6 11 11.50
94168
1
6 13 42.49
94161
1
6 16 13.44
94154
1
6 18 44.34
94146
1
6 21 15.19
94136
1
6 23 45.97
94195
]
6 26 16.69
94114
1
6 28 47.34
94109
1
6 31 17.92
94090
1
6 33 48.42
94077
1
6 36 18.84
94063
]
6 38 49.17
94048
1
6 41 19.42
94033
N.l
18 33 44.8
18 33 46.9
18 33 41.5
18 33 28.6
18 33 8.2
18 32 40.3
18 32 4.8
18 31 21.8
]8 30 31.4
18 29 33.5
18 28 28.1
18 27 15.2
18 25 54.8
18 24 27.0
18 22 51.8
18 21 9.1
18 19 19.0
18 17 21.6
18 15 16.8
18 13 4.7
18 10 45.2
18 8 18.4
18 5 44.3
18 3 3.0
18 0 14.5
3.041
9999
9409
9.683
9463
9.443
9401
9.080
1458
1436
1.713
1490
1.467
1443
1490
1.096
0.979
0447
0.799
0497
0.473
0448
0499
■f 0.097
-0.097
0.159
0477
0.403
0489
0.654
0.778
0403
1.098
1.153
1478
1.409
1495
1.649
1.773
1498
9418
9.141
9463
9486
9408
9.748
9468
136
AUGUST, 1884.
IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Aaoenaion.
Diff.for
1 Minute.
Declination.
Difll for
1 Minute.
Hoar.
Bight AacensioiL
Diff.for
1 Minute.
Declination.
Diff.for
1 Minute.
si
JNDA1
Z 17.
TUESDAY 19.
h m 8
8
O « n
u
h m 8
B
o / //
0
6 41 19.42
94033
N.18 0 14.5
9.868
0
8 38 30.72
94611
N.I3 36 50.0
7.779
1
6 43 49.57
94017
17 57 18.8
3488
1
8 40 52.27
94579
13 29 1.3
7450
2
6 46 19.62
94000
17 54 15.9
3.108
2
8 43 13.58
94539
13 21 8.0
7497
3
6 48 49.57
9.4989
17 51 5.8
3.997
3
8 45 34.66
94493
13 13 10.1
6403
4
6 51 19.41
9.4963
17 47 48.6
3446
4
8 47 55.50
9.3453
13 5 7.6
6478
5
6 53 49.13
9.4944
17 44 24.3
3.463
5
8 50 16.10
94414
12 57 0.7
6.159
6
6 56 18.74
9.4995
17 40 53.0
3460
6
8 52 36.47
94375
12 48 49.4
8494
7
6 58 48.23
9.4904
17 37 14.7
3407
7
8 54 56.60
94335
12 40 33.8
6.996
8
7 1 17.59
9.4863
17 33 29.4
3413
8
8 57 16.49
94995
12 32 13.9
6.367
9
7 3 46.82
9.4861
17 29 37a
3.999
9
8 59 36.14
94955
12 23 49.8
6.436
10
7 6 15.92
9.4638
17 25 37.9
4.043
10
9 1 55.55
94915
12 15 21.6
8403
11
7 8 44.88
9.4816
17 21 31.9
4.157
11
9 4 14.72
94176
12 6 49.4
8469
12
7 11 13.71
9.4793
17 17 19.0
4.971
12
9 6 33.66
94137
11 58 13.3
8434
13
7 13 42.39
9.4766
17 12 59.4
4484
13
9 8 52.36
94096
11 49 33.3
8499
14
7 16 10.92
9.4743
17 8 33.0
4.496
14
9 11 10.81
94055
11 40 49.4
8.763
15
7 18 39.30
9.4717
17 3 59.9
4407
15
9 13 29.02
94015
11 32 1.7
8496
16
7 21 7.52
9.4690
16 59 20.2
4.717
16
9 15 46.99
9.9975
11 23 10.3
6487
17
7 23 35.58
9.4684
16 54 33.9
4497
17
9 18 4.72
9.9936
11 14 15.3
8.946
18
7 26 3.49
9.4637
16 49 41.0
4436
18
9 20 22.22
94896
11 5 16.8
9404
19
7 28 31.23
9.4609
16 44 41.6
5.044
19
9 22 39.47
94655
10 56 14.8
9469
20
7 30 58.80
2.4580
16 39 35.7
5.159
20
9 24 56.48
94616
10 47 9.4
9.118
21
7 33 26.19
9.4561
16 34 23.4
5456
21
9 27 1336
9.9777
10 38 0.7
9.173
22
7 35 53.41
9.4599
16 29 4.8
5463
22
9 29 29.80
9.9737
10 28 48.7
9497
23
7 38 20.45
9.4491
N.16 23 39.9
5.468
23
9 31 46.10
94697
N.10 19 33£
9479
■
M(
)NDA^
I 18.
WEI
>NESD
AY 20.
0
7 40 47.30
9.4460
N.16 18 8.7
5479
0
9 34 2.16
94657
N.10 10 15.2
9431
1
7 43 13.97
9.4499
16 12 31.3
5475
1
9 36 17.98
94617
10 0 53.8
9461
2
7 45 40.45
9.4397
16 6 47.7
5.777
2
9 38 33.57
94576
9 51 29.5
9.499
3
7 48 6.74
9.4366
16 0 58.0
5478
3
9 40 48.92
94539
9 42 2.3
9.477
4
7 50 32.84
14334
15 55 2.3
5478
4
9 43 4.04
94500
9 32 32.2
9495
5
7 52 58.75
9.4309
15 49 0.6
6.077
5
9 45 18.92
94461
9 22 59.3
9471
6
7 55 24.46
9.4966
15 42 53.0
6.176
6
9 47 33.57
9.9499
9 13 23.7
9415
7
7 57 49.96
9.4934
15 36 39.5
6473
7
9 49 47.99
94383
9 3 45.5
9457
8
8 0 15.26
9.4906
15 30 20.2
6470
8
9 52 2.17
9.9344
8 54 4.8
9499
9
8 2 40.36
9.4166
15 23 55.1
6.466
9
9 54 16.12
94308
8 44 21.6
9.741
10
8 5 5.25
9.4131
15 17 24.3
6460
10
9 56 29.64
94966
8 34 35.9
9.789
11
8 7 29.93
&4095
15 10 47.9
6453
11
9 58 43.33
94930
8 24 47.8
9490
12
8 9 54.39
9.4059
15 4 5.9
6.746
12
10 0 56.60
94199
8 14 57.5
9457
13
8 12 18.63
9.4093
14 57 18.4
6437
13
10 3 9.64
9.9155
8 5 5.0
9493
14
8 14 42.66
94988
14 50 25.5
6497
14
10 5 22.46
9.9117
7 55 10.3
9498
15
8 17 6.48
94959
14 43 27.2
7417
15
10 7 35.05
94000
7 45 13.6
9469
16
8 19 30.06
94914
14 36 23.5
7.106
16
10 9 47.42
94043
7 35 14.9
9.995
17
8 21 53.45
94877
14 29 14.5
7.193
17
10 11 59.57
94006
7 25 14.2
10497
18
8 24 16.60
94839
14 22 0.3
7479
18
10 14 11.49
9.1989
7 15 11.7
10457
19
8 26 39.52
94808
14 14 41.0
7464
19
10 16 23.20
9.1933
7 5 7.4
10467
20
8 29 2.22
94764
14 7 16.6
7.447
20
10 18 34.69
9.1897
6 55 1.3
10.115
21
8 31 24.69
94796
13 59 47.3
7430
21
10 20 45.96
9.1861
6 44 53.6
10.149
22
8 33 4d93
94687
13 52 13.0
7419
22
10 22 57.02
9.1896
6 34 44.3
10.166
23
8 36 8.94
94649
13 44 33.9
7499
23
10 25 7.87
9.1791
6 24 33.4
10.194
24
8 38 30.72
9.3611
N.13 36 50.0
7.779
24
10 27 18.51
9.1756
N. 6 14 21.0
10.9n
AUGDST, 1884.
137
GEEENWIOH MEAN TIME.
•
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Din*, for
1 Minute.
Declination,
Din*, for
1 Minute.
Hour.
Right Ascension.
Difffor
1 Minute.
Declination.
Dittfor
1 Minute.
JRSD^
lY 21.
SATURDAY 23.
h m ft
a
O 1 II
//
h m s
s
O I il
a
0
10 27 18.51
8.1756
N. 6 14 21.0
10.917
0
12 8 18.99
94468
S. 2 4 19.5
10403
1
10 29 28.94
9.1791
6 4 7.3
10.940
1
12 10 21.74
9.0450
2 14 31.0
10.180
2
10 31 39.16
9.1688
5 53 52.2
10.969
2
12 12 24.39
9.0439
2 24 41.1
10.156
3
10 33 49.17
9.1659
5 43 35.8
10.963
3
12 14 26.93
9.0415
2 34 49.9
10.135
4
10 35 58.98
9.1618
5 33 18.2
10.309
4
12 16 29.37
9.0399
2 44 57.3
10.111
5
10 38 8.59
9.1585
5 22 59.5
10.391
5
12 18 31.72
9.0383
2 55 3.2
10.086
6
10 40 18.00
9.1559
5 12 39.7
10.338
6
12 20 33.97
9.0367
3 5 7.6
10.061
7
10 42 27.21
9.1519
5 2 18.9
10.355
7
12 22 36.13
9.0359
3 15 10.5
10.005
8
10 44 36.22
9.1486
4 51 57.1
10.371
8
12 24 38.19
9.0336
3 25 11.8
10.007
9
10 46 45.04
9.1454
4 41 34.4
10.385
9
12 26 40.16
9.0391
3 35 11.4
9479
10
10 48 53.67
9.1499
4 31 10.9
10.397
10
12 28 42.04
94907
3 45 9.3
9.951
11
10 51 2.11
9.1390
4 20 46.7
10.409
11
12 30 43.84
9.0993
3 55 5.5
9.999
12
10 53 10.35
9.1358
4 10 21.8
10.491
12
12 32 45.56
9.0979
4 5 0.0
9493
13
10 55 18.41
9.1397
3 59 56.2
10.439
13
12 34 47.19
9.0966
4 14 52.7
9469
14
10 57 26.28
9.1997
3 49 30.0
10.441
14
12 36 48.75
9.0953
4 24 43.5
9.831
15
10 59 33.97
9.1967
3 39 3.3
10.449
15
12 38 50.23
94941
4 34 32.4
9.799
16
11 1 41.48
9.1937
3 28 36.2
10.456
16
12 40 51.64
9.0989
4 44 19.4
9.767
17
11 3 48.81
9.1907
3 18 8.6
10.463
17
12 42 52.98
9.0917
4 54 4.5
9.735
18
11 5 55.96
9.1178
3 7 40.7
10.466
18
12 44 54.24
9.0905
5 3 47.6
9.701
19
11 8 2.94
9.1149
2 57 12.5
10.471
19
12 46 55.44
94194
5 13 28.6
9.666
20
11 10 9.75
9.1190
2 46 44.1
10.474
20
12 48 56.57
9.0183
5 23 7.5
9439
21
11 12 16.38
9.1091
2 36 15.6
10.477
21
12 50 57.64
9.0173
5 32 44.4
9497
22
11 14 22.84
9.1083
2 25 46.9
10.479
22
12 52 58.65
94163
5 42 19.1
9460
23
11 16 29.14
P]
9.1036
RTDA1
N. 2 15 18.1
: 22.
10.479
23
12 54 59.60
ST
94158
TNDA1
S. 5 51 51.6
I 24.
9499
0
11 18 35.28
9.1009
N. 2 4 49.4
10.478
0
12 57 0.49
9.0144
S. 6 1 21.8
9.485
1
11 20 41.25
9.0989
1 54 20.7
10.477
1
12 59 1.33
94136
6 10 49.8
9.447
2
11 22 47.06
9.0956
1 43 52.1
10.475
2
13 1 2.12
94197
6 20 15.5
9.408
3
11 24 52.72
9.0930
1 33 23.7
10.479
3
13 3 2.85
9.0119
6 29 38.8
9469
4
11 26 58.22
9.0904
1 22 55.5
10.467
4
13 5 3.54
9.0111
6 38 59.8
9430
5
11 29 3.57
9.0878
1 12 27.6
10.469
5
13 7 4.18
9.0103
6 48 18.4
9.989
6
11 31 8.76
9.0853
1 2 0.1
10.456
6
13 9 4.77
9.0095
6 57 34.5
9448
7
11 33 13.81
9.0899
0 51 324)
10.449
7
13 11 5.32
94089
7 6 48.2
9406
8
11 35 18.71
9.0804
0 41 6.2
10.441
8
13 13 5.84
9.0063
7 15 59.3
9.164
9
11 37 23.46
9.0780
0 30 40.0
10.439
9
13 15 6.32
9.0077
7 25 7.9
9.199
10
11 39 28.07
9.0757
0 20 14.3
10.493
10
13 17 6.76
9.0071
7 34 13.9
9.078
11
11 41 32.54
9.0734
N. 0 9 493
10.419
11
13 19 7.17
9.0085
7 43 17.3
9.034
12
11 43 36.88
9.0719
S. 0 0 35.2
10.401
12
13 21 7.54
94059
7 52 18.0
8.990
13
11 45 41.08
9.0089
0 10 58.9
10.389
13
13 23 7.88
9.0055
8 1 16.1
8.945
14
11 47 45.15
9.0667
0 21 21.9
10.377
14
13 25 8.20
9.0051
8 10 11.4
8.899
15
11 49 49.09
9.0646
0 31 44.1
10.363
15
13 27 8.49
. 94047
8 19 4.0
8.853
16
11 51 52.90
9.0694
0 42 5.4
10.346
16
13 29 8.76
94043
8 27 53.8
8407
17
11 53 56.58
9.0603
0 52 25.8
10.333
17
13 31 9.01
94099
8 36 40.8
8.760
18
11 56 0.13
9.0589
1 2 45.3
10.317
18
13 33 9.23
9.0036
8 45 25.0
8.719
19
11 58 3.56
9.0569
1 13 3.8
10.999
19
13 35 9.44
9.0033
8 54 6,3
8.664
20
12 0 6.88
9.0543
1 23 21.2
10.981
20
13 37 9.63
9.0030
9 2 44.7
8416
21
12 2 10.08
9.0593
1 33 37.5
10.969
21
13 39 9.80
9.0098
9 11 20.2
8.567
22
12 4 13.16
9.0504
1 43 52.7
10.943
22
13 41 9.96
9.0096
9 19 52.7
8417
23
12 6 16.13
9.0486
1 54 &7
10.993
23
13 43 10.11
9.0094
9 28 22.2
8.467
24
12 8 18.99
9.0468
8. 2 4 19.5
10.909
24
13 45 10.25
9.0023
S. 9 36 48.7
8.416
138
AUGUST,. 1884.
XL
GBBBNWIOH MEAN TIME.
THE MOON'S BIGHT A8CEN8ION AND DECLINATION.
Hour.
Bight Ascension.
Diff.for
1 Minute.
Declination.
Diff.for
} Minute.
Hour.
Bight Ascension.
Diff.for
1 Minute.
Declination.
Difffor
1 Minute.
M<
)NDA1
I 25.
WEDNESDAY 27.
h m ft
8
O f it
a
h m s
a
O 1 il
»»
0
13 45 10.25
9.0093
8. 9 36 48.7
8.416
0
15 21 36.95
94946
8. 15 13 57.8
5.477
]
13 47 10.38
9.0099
9 45 12.1
8464
1
15 23 38.45
9.0955
15 19 24.3
5.406
2
13 49 10.51
9.0091
9 53 32.4
8419
2
15 25 40.01
9.0965
15 24 46.5
5435
3
13 51 10.63
9.0090
10 1 49.6
8.961
3
15 27 41.63
9.0975
15 30 4.5
5484
4
13 53 10.75
9.0090
10 10 3.7
8409
4
15 29 43.31
9.0984
15 35 18.2
5.199
5
13 55 10.87
9.0091
10 18 14.7
8.157
5
15 31 45.04
9.0993
15 40 27.6
5.191
6
13 57 11.00
9.0091
10 26 22.5
8.103
6
15 33 46.83
94303
15 45 32.7
5.049
7
13 59 11.12
9.0091
10 34 27.0
8.048
7
15 35 48.68
9.0313
15 50 33.5
4476
8
14 1 11.25
9.0099
10 42 28.2
7.993
8
15 37 50.59
9.0393
15 55 29.9
4403
9
14 3 11.39
9.0094
10 50 263
7.939
9
15 39 52.56
94333
16 0 214)
4.830
10
14 5 11.54
9.0096
10 58 20.9
7.883
10
15 41 54.59
9.0343
16 5 9.5
4.757
11
14 7 11.70
94097
11 6 123
7498
11
15 43 56.68
9.0953
16 9 52.7
4.683
12
14 9 11.86
9.0096
11 14 0.2
7.779
12
15 45 58.83
94363
16 14 31.5
4.610
13
14 11 12.04
9.0031
11 21 44.8
7.714
13
15 48 1.04
9.0374
16 19 5.9
4436
14
14 13 12.23
9.0033
11 29 25.9
7.657
14
15 50 3.32
94385
16 23 35.8
4.461
15
14 15 12.44
9.0030
11 37 3.6
7499
15
15 52 5.66
9.0396
16 28 13
4485
16
14 17 12.67
9.0039
11 44 37.8
7449
16
15 54 8.07
9.0407
16 32 22.0
4409
17
14 19 12.91
9.0049
11 52 8.6
7.484
17
15 56 10.54
9.0417
16 36 38.3
4.934
18
14.21 13.17
9.0046
11 59 35.9
7.425
18
15 58 13.07
9.0497
16 40 50.1
4.158
19
14 23 13.46
9.0050
12 6 59.6
7465
19
16 0 15.67
9.0438
16 44 57.3
4.083
20
14 25 13.77
9.0053
12 14 19.7
7406
20
16 2 18.33
9.0449
16 49 0.0
4.007
21
14 27 14.10
9.0057
12 21 36.3
7446
21
16 4 21.06
9.0460
16 52 58.1
3.930
22
14 29 14.46
9.0069
12 28 49.2
7.185
22
16 6 23.85
9.0471
16 56 51.6
3.853
23
14 31 14.85
TU
94067
ESDA
S.12 35 58.5
Y 26.
7.194
23
16 8 26.71
TH1
9.0489
UBSD1
8.17 0 40.5
LY 28.
3.776
0
14 33 15.26
94071
8.12 43 4.1
7469
0
16 10 29.64
94493
8.17 4 24.7
3498
1
14 35 15.70
9.0077
12 50 6.0
7401
1
16 12 32.63
94504
17 8 4.3
3491
2
14 37 16.18
9.0089
12 57 4.2
6439
2
16 14 35.69
94515
17 11 39.2
3443
3
14 39 16.69
9.0087
13 3 58.7
6.876
3
16 16 38.81
94596
17 15 9.4
3.464
4
14 41 17.23
9.0093
13 10 49.4
6413
4
16 18 42.00
9.0537
17 18 34.9
3486
5
14 43 17.81
9.0100
13 17 36.3
6.750
5
16 20 45.26
9.0548
17 21 55.7
3407
6
14 45 18.43
9.0106
13 24 19.4
6487
6
16 22 48.58
94559
17 25 11.7
3497
7
14 47 19.08
9 0119
13 30 58.7
6.699
7
16 24 51.97
9.0571
17 28 23.0
3.148
8
14 49 19.77
9.0118
13 37 34.1
6457
8
16 26 55.43
9.0589
17 31 29.5
3469
9
14 51 20.50
9.0195
13 44 5.6
6.499
9
16 28 58.95
9.0593
17 34 31.3
9490
10
14 53 21.27
9.0139
13 50 333
6.497
10
16 31 2.54
9.0604
17 37 28.3
9409
11
14 55 22.08
9.0139
13 56 56.9
6469
11
16 33 6.20
9.0616
17 40 20.4
9498
12
14 57 22.94
94147
14 3 16.6
6496
12
16 35 9.93
9.0697
17 43 7.7
9.748
13
14 59 23.84
94154
14 9 32.4
6430
13
16 37 13.72
9.0638
17 45 50.2
9467
14
15 1 24.79
9.0169
14 15 44.2
6.163
14
16 39 17.58
9.0649
17 48 27.8
9487
15
15 3 25.78
9.0169
14 21 51.9
6.095
15
16 41 21.51
9.0660
17 51 0.6
9406
16
15 5 26.82
94177
14 27 55.6
6498
16
16 43 25.50
94671
17 53 28.5
9.494
17
15 7 27.91
9.0186
14 33 55.3
5461
17
16 45 29.56
9.0699
17 55 51.5
9443
18
15 9 29.05
9.0194
14 39 50.9
5.893
18
16 47 33.68
94693
17 58 9.6
9461
19
15 11 30.23
9.0909
14 45 42.4
5.894
19
16 49 37.87
9.0704
18 0 22.8
9.178
20
15 13 31.47
9.0911
14 51 29.8
5.756
20
16 51 42.13
9.0715
18 2 31.0
9496
21
15 15 32.76
94919
14 57 13.1
6.687
21
16 53 46.45
9.0796
18 4 34.3
9413
22
15 17 34.10
94998
15 2 523
5.617
22
16 55 50.84
9.0737
18 6 32.6
1.931
23
15 19 35.50
9.0937
15 8 27.1
5.547
23
16 57 55.29
9.0747
18 8 26.0
1.848
24
15 21 36.95
9.0946
8.15 13 57.8
5.477
24
16 59 59.80
94757 .
S.18 10 14.4
1.765
XIL
AUGUST, 1884.
139
GEEBNWIOH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hoar.
Bight Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
Hour.
Right Ascension.
Diff for
1 Minute.
Declination.
Diill for
1 Minute.
Fl
SLDA1
:29.
SUNDAY 31.
h m s
8
^ -.P * ",
M
h m 8
8
S. V? 56 27.7
//
0
16 59 59.80
90)757
S. 18 10 14.4
1.765
0
18 40 41.54
9.1156
SU79
1
17 2 4.38
8.0768
18 11 57.8
1.689
1
18 42 48.49
9.1161
17 54 2.7
9.460
2
17 4 9.02
2.0778
18 13 36.2
1.598
2
18 44 55.47
2.1166
17 51 32^
9^47
3
17 6 13.72
8.0780
18 15 9.6
1.515
3
18 47 2.48
9.1171
17 48 57.0
9.635
4
17 8 18.49
80800
18 16 38.0
1.431
4
18 49 9.52
9.1176
17 46 16.3
9.799
5
17 10 23.32
9.0810
18 18 1.3
1.347
5
18 51 16.59
9.1181
17 43 30.4
2.809
6
17 12 28.21
9.0890
18 19 19.6
J .289
6
18 53 23.69
9.1185
17 40 39.2
9.808
7
17 14 33.16
9.0830
18 20 32.8
1.177
7
18 55 30.81
9.1180
17 37 42.8
9.983
8
17 16 38.17
9.0841
18 21 40.9
1.003
8
18 57 37.96
9.1194
17 34 41.2
3.070
9
17 18 43.25
9.0851
18 22 44.0
1.009
9
18 59 45.14
9.1198
17 31 34.4
3.157
10
17 20 48.38
2.0860
18 23 42.0
0.994
10
19 1 52.34
9.1903
17 28 22.4
3.243
11
17 22 53.57
90)870
18 24 34.9
0.838
11
19 3 59.57
9.1907
17 25 5.2
3.330
12
17 24 58.82
9.0880
18 25 22.7
0.754
12
19 6 6.82
9.1910
17 21 42.8
3.417
13
17 27 4.13
90)800
18 26 5.4
0668
13
19 8 14.09
9.1913
17 18 15.2
3.503
14
17 29 9.50
90)800
18 26 42.9
0.589
14
19 10 21.38
9.1917
17 14 42.4
3.589
15
17 31 14.92
9.0908
18 27 15.3
0.497
15
19 12 28.70
9.1991
17 11 4.5
3.675
16
17 33 20.40
9.0018
18 27 42.6
0.419
16
19 14 36.04
9.1995
17 7 21.4
3.761
17
17 35 25.94
9.0997
18 28 4.7
0.398
17
19 16 43.40
9.1998
17 3 33.1
3.847
18
17 37 31.53
90)037
18 28 21.7
0.940
18
19 18 50.77
9.1990
16 59 89.7
3.939
19
17 39 37.18
90)046
18 28 33.5
0.153
19
19 20 58.16
9.1933
16 55 41.2
4.018
20
17 41 42.88
9.0054
18 28 40.1
-00)67
20
19 23 5.57
9.1937
16 51 37.5
4.104
21
17 43 48.63
9.0063
18 28 41.6
+ 0.018
21
19 25 13.00
9.1940
16 47 28.7
4.189
22
17 45 54.44
9.0979
18 26 37.9
0.105
22
19 27 20.45
9.1949
16 43 14.8
4.974
23
17 48 0.30
90)081
8.18 28 29.0
0.199
23
19 29 27.91
9.1945
S.16 38 55.8
4^59
SAG
CUED^
LT 30.
MONDA1
r, SEP
TEMBEB 1
0
1
2
17 50 6.21
17 52 12.17
17 54 18.18
9.0980
8.18 28 14.9
18 27 55.6
18 27 31.1
0.978
0 | 19 31 35.39
9.1948
S.16 34 31.7
4.443
9.0907
9.1006
0.365
0.459
3
17 56 24.24
9.1014
18 27 1.4
0.539
4
17 58 30.35
9.1099
18 26 26.5
0.626
5
6
18 0 36.51
18 2 42.71
9.1030
2.1038
18 25 46.3
18 25 0.9
0.713
0.800
PHASES
OP T.
BE MOON
i
7
8
18 4 48.96
18 6 55.26
9.1046
9.1053
18 24 10.3
18 23 14.4
0.887
0.975
9
18 9 1.60
9.1080
18 22 13.3
10)69
d h
m
10
18 11 7.98
9.1067
18 21 7.0
1.149
O Full Moon
• • •
. 6 11
6.6
11
18 13 14.41
9.1075
18 19 55.4
1.937
<C Ioist Quarto
jr. . .
. 13 15
8.1
12
18 15 20.88
9.1089
18 18 38.6
1.394
13
18 17 27.39
9.1080
18 17 16.5
1.411
• New Moon
. . .
. 20 9 .
54.0
14
18 19 33.94
9.1008
18 15 49.2
1.498
J) First Quart
er • .
. 28 3
11.9
15
18 21 40.54
9.1109
18 14 16.7
1.586
16
17
18 23 47.17
18 25 53.84
9.1106
9.1115
18 12 38.9
18 10 55.9
1.673
1.761
18
18 28 0.55
9.1 191
18 9 7.6
1.849
d h
19
18 30 7.29
9.1197
18 7 14.0
1.937
<C Perigee. .
. 16 4.1
20
18 32 14.07
9.1133
18 5 15.2
9.094
<C Apogee. •
• 28 10.6
21
18 34 20.89
9.1139
18 3 11.2
8.111
22
18 36 27.74
9.1144
18 1 1.9
9.198
23
18 38 34.62
9.1150
17 58 47.4
2J285
24
18 40 41.54
2.1156
8.17 56 27.7
9.372
140
AUGUST, 1884.
XIIL
GREENWICH MEAN TIME.
LUNAB DISTANCES.
P. L.
P.L.
P.L.
P.L.
Name and Direction
Noon.
of
m*.
of
in*.
of
IX".
of
*s
of Objoot.
Biff.
Diff.
Diff.
Diff.
1
Sun
W.
O 1 II
118 5 47
3449
119 27' 8
3447
120 48 3i'
3446
122 9 56
3443
Mars
W.
64 58 10
3398
66 22 24
3995
a 46 41
3999
69 11 2
3988
Spica
w.
45 52 17
3073
47 20 59
3070
48 49 45
3067
50 18 35
3063
a Aquilte
E.
55 39 1
3701
54 22 15
3799
53 5 51
3746
51 49 52
3771
Fomalhaut
E.
86 18 43
3481
84 57 58
3481
83 37 13
3480
82 16 27
3480
a Pegasi
E.
101 57 12
3979
100 32 28
3968
99 739
3964
97 42 45
3959
2
Mars
W.
76 13 54
3906
77 38 45
3961
79 3 42
3954
80 28 47
3948
Spica
W.
57 43 58
3041
59 13 20
3036
60 42 48
3030
62 12 24
3094
Fomalhaut
E.
75 32 39
3489
74 11 55
3484
72 51 13
3486
71 30 33
3488
a Pegasi
E.
90 36 52
3935
89 11 24
3930
87 45 50
3995
86 20 10
3990
3
Mars
W.
87 36 8
3919
89 2 3
3904
90 28 7
3197
91 54 20
3188
Spica
W.
69 42 23
9989
71 12 50
9981
72 43 26
9973
74 14 12
9965
Antares
W.
25 18 22
3947
26 43 35
3914
28 9 28
3183
29 35 57
3156
Fomalhaut
E.
64 47 59
3506
63 27 42
3514
62 7 33
v 3591
60 47 32
3599
a Pegasi
E.
79 10 16
3193
77 43 58
3188
76 17 34
3183
74 51 4
3178
4
Spica
W.
81 50 42
9991
83 22 34
9919
84 54 37
9903
86 26 52
9894
Antares
W.
36 55 44
3048
38 24 57
3030
39 54 32
3014
41 24 27
9998
Fomalhaut
E.
54 10 16
3594
52 51 35
3613
51 33 15
3635
50 15 18
3658
a Pegasi
E.
67 37 8
3156
66 10 6
3153
64 43 0
3149
63 15 50
3147
5
Spica
W.
94 11 13
9844
95 44 44
9835
97 18 27
9895
98 52 23
9815
Aiitares
W.
48 58 56
9994
50 30 45
9910
52 2 51
9897
53 35 14
9883
a Pegasi
a Arietis
E.
55 59 29
3143
54 32 12
3146
53 4 58
3149
51 37 48
3154
E.
98 44 13
9939
97 12 35
9999
95 40 44
9911
94 8 39
9901
6
Antares
W.
61 21 17
9891
61 55 18
9809
64 29 34
9798
66 4 5
9786
a Pegasi
a Arietis
E.
44 24 0
3904
42 57 55
3990
41 32 10
3949
40 6 50
3965
E.
86 24 58
9850
84 51 35
9841
83 18 0
9831
81 44 12
9891
7
Antares
W.
74 0 24
9731
75 36 23
9790
77 12 36
9710
78 49 3
9700
a Arietis
E.
73 52 16
9778
72 17 19
9770
70 42 12
9763
69 6 55
9755
Aldebaran
E.
106 44 15
9680
105 7 8
9670
103 29 48
9660
101 52 15
9651
8
Antares
W.
86 54 36
9659
88 32 21
9649
90 10 19
9633
91 48 29
9695
a Aquilee
W.
41 51 56
3617
43 10 12
3547
44 29 44
3483
45 50 27
3495
a Arietis
E.
61 8 13
9794
59 32 5
9719
57 55 51
9715
56 19 31
9719
Aldebaran
E.
93 41 16
9604
92 226
3595
90 23 24
9586
88 44 10
9577
Saturn
E.
106 35 7
9641
104 57 8
9639
103 18 56
9699
101 40 31
9619
9
Antares
W.
100 2 9
9584
101 41 26
9577
103 20 53
9569
105 0 30
9569
a AquilsB
W.
52 48 55
3197
54 15 8
3169
55 42 3
3199
57 9 38
3097
a Arietis
E.
48 16 58
9704
46 40 24
9707
45 3 53
9709
43 27 25
9713
Aldebaran
E.
80 25 0
9535
78 44 35
9596
77 3 58
9518
75 23 10
9511
Saturn
E.
93 25 24
9570
91 45 48
9569
90 6 1
9553
88 26 2
9545
Venus
E.
114 41 9
9614
113 2 33
9607
111 23 48
9601
109 44 54
9590
10
a Aquihe
W.
64 36 12
9973
66 6 59
9959
67 38 12
9933
69 9 49
9915
Fomalhaut
W.
36 17 29
3890
37 30 59
3775
38 46 27
3673
40 3 43
3589
Aldebaran
E.
66 56 31
9473
65 14 40
9465
63 32 38
9458
61 50 26
9459
Saturn
E.
80 3 25
9507
78 22 22
9500
76 41 9
9493
74 59 46
9487
XIV.
AUGUST, 1884.
141
GREENWICH MEAN TIME.
LUNAR DISTANCES.
*4
Name and Direction
of Object.
Midnight.
P.L.
of
Diff.
XV*.
P.L.
of
DIff.
xvm*
P.L.
of
DIff.
xxi*.
P.L.
of
Diff.
1
Sun
W.
O 1 II
123 31 24
3439
124 52 56
3435
126 14 33
3431
127 36 14
3497
Mars
W.
70 35 27
3985
71 59 56
3961
73 24 30
3976
74 49 9
3971
Spica
W.
51 47 30
3060
53 16 29
3056
54 45 33
3051
56 14 43
3047
a Aquilte
E.
50 34 20
3800
49 19 18
3830
48 4 47
3869
46 50 49
3899
Fomalhaut
E.
80 55 41
3480
79 34 55
3480
78 14 9
3481
76 53 24
3481
a Pegasi
E.
96 17 46
3954
94 52 41
3949
93 27 30
3945
92 2 14
3940
2
Mars
W.
81 53 59
3949
83 19 19
3935
84 44 47
3998
86 10 23
3990
Spica
W.
63 42 7
3018
65 11 58
3010
66 41 58
3004
68 12 6
9997
Fomalhaut
E.
70 9 55
3490
68 49 20
3494
67 28 49
3497
66 8 22
3501
a Pegasi
E.
84 54 24
3914
83 28 32
3909
83 233
3904
80 36 28
3198
3
Mars
W.
93 20 43
3179
94 47 17
3170
96 14 2
3161
97 40 58
3151
Spicit
W.
75 45 8
31 2 59
9957
77 16 15
9948
78 47 33
9939
80 19 2
9931
An tares
W.
3131
32 30 31
3109
33 58 30
3087
35 26 55
3068
Fomalhaut
E.
59 27 40
3539
58 7 59
3550
56 48 30
3563
55 29 15
3577
a Pegasi
E.
73 24 28
3173
71 57 46
3168
70 30 58
3163
69 4 5
3160
4
Spica
W.
87 59 19
9864
89 31 58
9874
91 4 50
9864
92 37 55
9854
Antare8
W.
42 54 42
9989
44 25 17
9966
45 56 12
9959
47 27 25
9938
Fomalhaut
E.
48 57 46
3686
47 40 44
3717
46 24 15
3759
45 8 23
3799
a Pegasi
E.
61 48 37
3145
60 21 22
3143
58 54 5
3143
57 26 47
3143
5
Spica
W.
100 26 32
9805
102 0 54
9794
103 35 30
9784
105 10 19
9774
Antares
W.
55 7 54
9871
56 40 50
9858
58 14 3
9845
59 47 32
9833
a Pepsi
a Arietis
E.
50 10 44
3160
48 43 47
3168
47 16 59
3177
45 50 22
3169
E.
92 36 21
9890
91 3 49
9880
89 31 5
9670
87 58 8
9860
6
Antares
W.
67 38 51
9775
69 13 52
9763
70 49 8
9759
72 24 39
9741
a Pegasi
a Arietis
E.
38 41 58
3994
37 17 40
3399
35 54 2
3370
34 31 11
3417
E.
80 10 12
9819
78 36 0
9804
77 1 37
9795
75 27 2
9786
7
Antares
W.
80 25 43
9689
82 2 37
9680
83 39 44
9670
85 17 4
9661
a Arietis
E.
67 31 28
9748
65 55 52
9741
64 20 7
9735
62 44 14
9799
Aldebaran
E.
100 14 29
9641
98 36 30
9639
96 58 18
9699
95 19 53
9613
8
Antares
W.
93 26 50
9617
95 5 22
9808
96 44 6
9599
98 23 2
9591
a Aquilae
W.
47 12 15
3379
48 35 4
3399
49 58 50
3977
51 23 28
3936
a Arietis
E.
54 43 7
S709
53 6 39
9706
51 30 7
9704
49 53 33
9704
Aldebaran
E.
87 4 44
9569
85 25 6
9560
83 45 16
9551
82 5 14
9543
Saturn
E.
100 1 53
9604
98 23 3
9596
96 44 2
9587
95 4 49
9578
9
Antares
W.
106 40 17
9556
108 20 13
9549
110 0 18
9543
111 40 32
9536
ceAquita
W.
58 37 51
3069
60 6 39
3049
61 36 0
3017
63 5 52
9994
a Arietis
E.
41 51 3
9719
40 14 49
9798
38 38 46
9738
37 2 57
9751
Aldebaran
E.
73 42 12
9503
72 1 3
9495
70 19 43
9467
68 38 12
9480
Saturn
E.
86 45 52
9538
85 5 31
9530
83 25 0
9599
81 44 18
9515
Venus
E.
108 5 50
9587
106 26 37
9560
104 47 15
9574
103 7 44
9567
10
a Aquike
W.
70 41 49
9898
72 14 10
9883
73 46 51
9866
75 19 51
9855
Fomnlhaut
W.
41 22 37
3500
42 43 1
3496
44 4 48
3360
45 27 50
3300
Aldebaran
E.
60 8 5
9445
58 25 34
9438
56 42 53
943]
55 0 3
9494
Saturn
E.
73 18 14
9480
71 36 32
S479
69 54 40
9465
68 12 38
9459
142
AUGUST, 1884.
XV.
GREENWICH MEAN TIME.
-
LUNAR DISTANCES.
1*
Name and Direction
Noon.
P.L.
of
mh.
P.L.
of
VP».
P.L.
of
EX*
P.L.
of
of Otyeot
Diff.
Diff.
Diff.
Diff.
10
Venus
E.
10128 4
S561
O t f>
99 48 16
9556
0/1/
98 8 19
9549
O / /'
96 28 14
9543
Sun
E.
136 41 51
9816
135 7 44
9807
133 33 25
9798
131 58 55
9790
11
a Aquilce
W.
76 53 8
9949
78 26 41
9831
80 029
9819
81 34 32
9609
Fomalhaut
W.
46 52 2
9946
48 17 17
3195
49 43 32
3149
51 10 42
3108
Aldebaran
E.
53 17 3
9418
51 33 54
9419
49 50 36
9405
48 7 9
9399
Saturn
E.
66 30 27
9453
64 48 7
9446
63 5 38
9440
61 23 0
9434
Venus
E.
88 5 49
9515
86 24 57
9510
84 43 57
9504
83 2 49
9499
Pollux
E.
96 28 47
9510
94 47 47
9509
93 637
9495
91 25 17
9489
Sun
E.
124 3 36
9749
122 28 1
9741
120 52 15
9733
119 16 19
9796
12
Fomalhaut
W.
58 37 59
9944
60 922
9918
61 41 18
9894
63 13 44
9673
cc Pegasi
W.
41 43 30
9834
43 17 14
9799
44 51 43
9767
46 26 54
9738
Aldebaran
E.
39 27 44
9370
37 43 26
9364
35 59 .0
9359
34 14 26
9353
Saturn
E.
52 47 47
9405
51 4 20
9401
49 20 46
9395
47 37 4
9390
VENU8
E.
74 35 23
9474
72 53 33
9470
71 11 37
9465
69 29 34
9460
Pollux
E.
82 56 29
9460
81 14 20
9455
79 32 4
9451
77 49 42
9447
Sun
E.
111 14 19
9091
109 37 27
9685
108 0 27
9678
106 23 18
9679
13
Fomalhaut
W.
71 2 17
9785
7237 5
9771
74 12 11
9758
75 47 34
9746
a Pegasi
W.
54 31 23
9696
56 9 42
9610
57 48 24
9593
59 27 29
9578
Saturn
E.
38 56 53
9388
37 12 33
9365
35 28 8
9369
33 43 38
9358
Venus
E.
60 57 43
9438
59 15 2
9434
57 32 16
9430
55 49 24
9496
Pollux
E.
69 16 28
9499
67 33 35
9497
65 50 39
9496
64 7 41
9494
Sun
E.
96 15 29
9649
96 37 31
9637
94 59 26
9639
93 21 14
9696
14
Fomalhaut
W.
83 47 58
9701
85 24 36
9695
87 1 22
9690
88 38 15
9685
a Pegasi
a Arietis
W.
67 47 32
9518
69 28 20
9509
71 9 21
9500
72 50 34
9499
W.
24 41 30
9835
26 15 12
9766
27 50 25
9707
29 26 56
9657
Venus
E.
47 13 45
9409
45 30 23
9405
43 46 56
9403
42 3 25
9399
Pollux
E.
55 32 32
9495
53 49 33
9497
52 6 37
9431
50 23 46
9435
Sun
E.
85 8 25
9601
83 29 32
9597
81 50 33
9583
80 11 28
9586
15
Fomalhaut
W.
96 43 50
9676
98 21 2
9677
99 58 13
9680
101 35 20
9683
a Pegasi
o Arietis
W.
81 19 13
9461
83 1 21
9456
84 43 36
9453
86 25 56
9450
W.
37 43 10
9500
39 24 23
9480
41 6 5
9461
42 48 13
9445
Venus
E.
33 24 49
9387
31 40 56
9386
29 57 1
9384
28 13 3
9389
Pollux
E.
41 51 36
9477
40 9 50
9490
38 28 23
9507
36 47 20
9597
Sun
E.
71 54 42
9571
70 15 7
9568
68 35 28
9566
66 55 46
S563
16
a Arietis
W.
51 23 49
9388
53 7 41
9380
54 51-44
9373
56 35 57
9368
Aldebaran
W.
17 14 19
9953
19 1 28
9950
20 4* 41
9947
22 35 58
9945
Sun
E.
58 36 32
9566
56 56 36
9555
55 16 39
9555
53 36 42
9555
17
a Arietis
W.
65 18 44
9350
67 3 31
9349
68 48 19
9348
70 33 8
9348
Aldebaran
W.
31 32 46
9945
33 20 7
9946
35 726
9947
36 54 43
9949
Sun
E.
45 17 12
9569
43 37 25
9565
41 57 42
9568
40 18 3
9579
18
a Arietis
W.
79 16 56
9357
81 1 32
9361
82 46 3
9365
84 30 28
9370
Aldebaran
W.
45 50 15
9985
47 37 6
9970
49 23 50
9974
51 10 28
9979
Sun
E.
32 1 29
9609
30 22 37
'9610
28 43 56
9619
27 527
9899
22
Sun
W.
20 2 40
. 9961
21 33 16
9986
23 3 46
9903
2434 7
3003
XVL
AUGUST, 1884.
143
GREENWICH MEAN TIME.
LUNAR DISTANCES.
51
Name and Direction
Midnight
P.L.
of
XV*.
P.L.
Of
xvm*.
P.L.
of
XXP>
P.L.
of
t*
oi UDjeot.
Diff.
Diff.
Diff.
Diff.
10
VENUS
E.
fl! 48 1
2538
O / //
93 7 40
9539
O II*
91 27 11
9596
O / /«
89 46 34
9590
Suit
E.
130 24 14
9781
128 49 21
9779
127 14 16
9764
125 39 1
9756
11
a Aquilee
W.
83 8 48
9800
84 43 16
9799
86 17 54
9785
87 52 42
9777
Fomalhaut
W.
52 38 42
9060
54 7 29
3034
55 37 0
3001
57 7 11
9979
Aldebaran
E.
46 23 33
9393
44 39 48
9387
42 55 55
9389
41 11 54
9375
Saturn
E.
59 40 14
9499
57 57 20
9499
56 14 17
9417
54 31 6
9411
Venus
E.
81 21 34
9493
79 40 11
9489
77 58 42
9484
76 17 6
9479
Pollux
E.
89 43 48
9483
88 2 11
9477
86 20 25
9471
84 38 31
9465
Sun
E.
117-40 14
9719
116 3 59
9719
114 27 35
9705
112 51 2
9698
12
Fomalhaut
W.
64 46 37
9899
G6 19 57
9834
67 53 41
9810
69 27 48
9799
aPegasi
Aldebaran
W.
48 2 43
3719
49 39 7
9688
51 16 3
9866
52 53 29
9645
E.
32 29 44
9348
30 44 55
' 9344
28 59 59
9339
27 14 56
9335
Saturn
E.
45 53 15
9385
44 9 19
9381
42 25 17
9376
40 41 8
9379
Venus
E.
67 47 24
9455
66 5 8
9451
64 22 46
9447
62 40 18
9449
Pollux
E.
76 7 14
9443
74 24 40
9439
72 42 1
9436
70 59 17
9439
Sun
E.
104 46 1
9866
103 8 35
9660
101 31 1
9654
99 53 19
•
9648
13
Fomalhaut
W.
77 23 13
9735
78 59 6
9795
80 35 12
9716
82 11 30
9709
aPegasi
W.
61 6 54
9564
62 46 38
9551
64 26 40
9540
66 6 58
9598
Saturn
E.
31 59 3
S356
30 14 25
9355
28 29 45
9353
26 45 3
9353
Venus
E.
54 627
9499
52 23 24
9419
50 40 16
9415
48 57 3
9419
Pollux
E.
62 24 41
9493
60 41 39
9493
58 58 36
9493
57 15 33
9494
Sun
E.
91 42 54
9691
90 4 27
9815
88 25 53
9610
86 47 12
9606
14
Fomalhaut
W.
90 15 15
9681
91 52 20
9679
93 29 28
9678
95 6 38
9876
a Pegasi
W.
74 31 59
9485
76 13 34
9477
77 55 19
9479
79 37 12
9466
a Anetis
W.
31 4 33
9616
32 43 6
9581
34 22 27
9551
36 2 30
9594
Venus
E.
40 19 49
9396
38 36 9
9394
36 52 26
9391
35 8 39
9389
Pollux
E.
48 41 1
9441
46 58 24
9447
45 15 56
9455
43 33 39
9465
Sun
E.
78 32 17
9584
76 53 0
9580
75 13 38
9577
73 34 12
9574
15
Fomalhaut
W.
103 12 23
9687
104 49 20
9609
106 26 10
9898
108 2 52
9706
a Pegasi
W.
88 8 20
9447
89 50 48
9445
91 33 19
9443
93 15 52
9443
a Anetis
W.
44 30 44
9431
46 13 35
9418
47 56 44
9407
49 40 9
9396
Venus
E..
26 29 3
9389
24 45 2
9380
23 0 59
9380
21 16 55
9380
Pollux
E.
35 6 45
9551
33 26 43
9580
31 47 20
9613
30 8 43
9655
Sun
E.
65 16 0
9561
63 36 11
9559
61 56 20
9558
60 16 27
9556
16
a Arietia
W.
58 20 18
9363
60 4 46
9359
61 49 20
9355
6334 0
9359
Aldebaran
W.
24 23 18
9944
26 10 40
9944
27 58 2
9944
29 45 24
9944
Sun
E.
51 56 45
9556
50 16 49
9567
48 36 55
9558
46 57 2
9560
17
a Arietia
W.
72 17 57
9349
74 2 45
9350
75 47 32
9359
77 32 16
9355
Aldebaran
W.
38 41 58
9951
40 29 9
9954
42 16 16
9958
44 3 18
9961
Sun
E.
38 38 30
9577
36 59 3
9589
35 19 43
9588
33 40 31
9595
18
a Arietis
W.
86 14 46
9375
87 58 57
9331
89 42 59
9387
91 26 52
9394
Aldebaran
W.
52 56 58
9985
54 43 20
9991
56 29 33
9997
58 15 37
9303
Sun
E.
25 27 12
9649
23 49 14
9656
22 11 35
9679
20 34 18
9699
22
Sun
W.
26 4 16
3014
27 34 12
3094
29 3 55
3035
30 33 24
3048
144
AUGUST, 1884.
XVH.
r
GREENWICH MEAN TIME.
LUNAR DISTANCES.
•
1*
P.L.
P.L.
P.L.
P.L.
Name and Direction
Noon.
of
ill*-
of
VI*.
of
IX*.
of
of Object.
Biff.
Biff.
Diff.
Diff.
32
Spica
E.
O / //
32 32 19
8596
30 53 18
S6I9
29 14 39
9698
27 36 22
9645
Autares
E.
78 21 13
9630
76 42 59
9646
75 5 6
9660
73 27 33
9676
23
Sun
W.
32 2 37
3061
33 31 34
3073
35 0 16
3087
36 28 42
3101
Aotares
E.
65 24 58
9753
63 49 29
2769
62 14 21
2786
60 39 35
2802,
a Aquilae
E.
114 15 0
3189
112 48 29
3164
111 22 1
3168
109 55 38
3193
24
Sun
W.
43 46 42
3168
45 13 29
3189
46 40 0
3195
48 6 15
3209
Autares
E.
52 51 3
9885
51 18 25
9901
49 46 8
9919
48 14 13
29CI7
a Aquilae
E.
102 45 24
3927
101 19 47
3936
99 54 21
3945
98 29 5
3954
25
Sun
W.
55 13 38
3971
56 38 23
3983
58 2 54
3295
59 27 11
3306
Antares
E.
40 40 17
3098
39 10 39
3047
37 41 25
3069
36 12 37
3091
a Aquilce
E.
91 25 41
3307
90 I 38
3319
88 37 48
3330
87 14 11
3341
26
Sun
W.
66 25 31
3357
67 48 37
3365
69 11 33
3374
70 34 19
3382
Mars
W.
21 30 52
3293
22 56 34
3232
24 22 5
3241
25 47 26
3249
Spica
W.
18 16 43
3031
19 46 17
3034
21 15 48
3036
22 45 16
3039
Antares *
E.
28 55 40
3220
27 29 55
3953
26 4 49
3299
24 40 28
3334
a Aquilae
E.
80 19 31
3403
78 57 18
3415
77 35 19
3429
76 13 35
3441
27
Sun
W.
77 26 1
3415
78 48 0
3421
80 9 53
3496
81 31 40
3431
Mars
W.
32 51 57
3282
34 16 29
3288
35 40 55
3293
37 5 15
3297
Spica
W.
30 11 26
3000
31 40 25
3063
33 920
3065
34 38 12
3068
a Aquilae
E.
69 28 39
3511
68 8 27
3525
66 48 31
3541
65 28 52
3557
Fomalhaut
E.
100 42 3
3467
99 21 2
3469
98 0 3
3470
96 39 5
3471
28
Sun
w.
88 19 36
3444
89 41 3
3445
91 2 29
3445
92 23 55
3446
Mars
W.
44 5 52
3311
45 29 51
3312
46 53 49
3313
48 17 46
3313
Spica
W.
42 1 46
3078
43 30 23
3078
44 59 0
3078
46 27 36
3078
a Aquilae
E.
58 55 11
3646
57 37 26
• 3666
56 20 3
3688
55 3 3
3711
Fomalhaut
E.
89 54 43
3480
88 33 56
3481
87 13 11
3483
85 52 28
3484
29
Sun
W.
99 11 11
3438
100 32 44
3435
101 54 21
3431
103 16 2
3497
Mars
W.
55 17 37
3306
56 41 41
3303
58 5 49
3300
59 30 0
3296
Spica
W.
53 50 55
3069
55 19 42
3066
56 48 33
3063
58 17 28
3059
a Aquilae
E.
48 44 42
79 9 19
3854
47 30 35
3869
46 17 4
• 3928
45 4 13
3971
Fomalhaut
E.
3493
77 48 47
3496
76 28 18
3497
75 7 51
3500
cePegasi
E.
94 17 8
3265
92 52 15
3261
91 27 18
3258
90 2 17
3254
30
SlTN
W.
110 5 46
3400
111 28 2
3393
112 50 26
3386
114 12 59
3379
Mars
W.
66 32 16
3270
67 57 3
3264
69 21 57
3256
70 47 0
3248
Spica
W.
65 43 26
3033
67 12 58
3026
68 42 38
3019
70 12 27
3012
Antares
W.
21 40 10
3409
23 2 24
3352
24 25 35
3310
25 49 35
3279
Fomalhaut
E.
68 26 24
3516
67 6 18
3521
65 46 17
3526
64 26 22
3532
a Pegasi
E.
82 56 3
3933
81 30 33
3228"
80 4 57
3223
78 39 15
3218
31
Sun
W.
121 8 4
3334
122 31 36
3324
123 55 20
3313
125 19 17
3301
Mars
W.
77 54 38
3905
79 20 41
3195
80 46 56
3184
82 13 24
3173
Spica
W.
77 43 56
9970
79 14 46
9961
80 45 48
2950
82 17 3
2940
Ail tares
W.
32 59 13
3133
34 26 42
3111
35 54 38
3091
37 22 59
3070
Fomalhaut
E.
57 48 41
3575
56 29 39
3587
55 10 51
3601
53 52 18
3618
a Pegasi
E.
71 29 16
3193
70 2 58
3188
68 36 34
3183
67 10 4
3178
XVIII.
AUGUST, 1884.
145
*
GREENWICH MEAN TIME.
LUNAR DISTANCES.
h
O g
P.L.
P.L.
P.L.
P.L.
Name and Direction
Midnight.
of
XV*.
Of
xvma.
of
xxi*.
of
22
of Object.
Diff.
Diff.
Diff.
Diff.
Spica
£.
O / //
25 58 28
S089
24 20 57
9680
22 43 50
9698
O 1 II
21 7 8
9719
Antares
E.
71 50 21
2691
70 13 29
9707
68 36 58
9799
67 0 48
3738
23
Sun
W.
37 56 51
3114
39 24 43
3198
40 52 19
3141
42 19 39
3155
Antares
E.
59 5 10
8616
57 31 6
9835
55 57 24
9852
54 24 3
9868
a Aquihe
E.
108 29 20
3198
107 3 9
3904
105 37 5
3919
104 11 10
3990
24
Sun
W.
49 32 14
3391
50 57 58
3935
52 23 26
3947
53 48 39
3959
Antares
E.
46 42 41
8964
45 11 31
9979
43 40 43
9990
42 10 18
3009
a Aquihe
E.
97 4 0
3965
95 39 7
3975
94 14 26
3965
92 49 57
3996
25
Sun
W.
60 51 15
3317
62 15 7
3396
63 38 46
3338
65 2 14
3347
Antares
E.
34 44 16
3113
33 16 22
3136
31 48 56
3169
30 22 1
3190
a Aquilee
E.
85 50 47
3353
84 27 37
3365
83 4 41
3378
81 41 59
3390
26
Sun
W.
71 56 56
3390
73 19 24
3397
74 41 44
3404
76 3 56
3410
Mars
W.
27 12 37
3357
28 37 39
3964
30 2 33
3970
31 27 19
3976
Spica
W.
24 14 40
3043
25 43 59
3047
27 13 13
3059
28 42 22
3056
Antares
E.
23 16 56
3384
21 54 21
3441
20 32 51
3510
19 12 38
3594
a Aquike
E.
74 52 5
3454
73 30 50
3469
72 9 51
3489
70 49 7
3497
27
Sun
W.
82 53 22
3434
84 15 0
3437
85 36 35
3439
86 58 7
3449
Mars
W.
38 29 30
3301
39 53 40
3304
41 17 47
3306
42 41 51
3309
Spica
a Aquilee
W.
36 7 1
3071
37 35 46
3073
39 4 28
3075
40 33 8
3077
E.
64 9 31
3574
62 50 28
3590
61 31 43
3608
60 13 17
3696
Fomalhaut
E.
95 18 9
3473
93 57 15
3475
92 36 23
3476
91 15 32
3478
28
Sun
W.
93 45 20
3445
95 6 46
3444
96 28 13
3443
97 49 41
3441
Mars
W.
49 41 42
3313
51 5 39
3319
52 29 37
3311
53 53 36
3309
Spica
aAquita
Fomalhaut
W.
47 56 13
3077
49 24 51
3076
50 53 30
3074
52 22 11
3079
E.
53 46 28
3735
52 30 18
3769
51 14 36
3790
49 59 23
3890
E.
84 31 46
3487
83 11 7
3488
81 50 29
3489
80 29 53
3491
29
Sun
W.
104 37 48
3493
105 59 39
3418
107 21 35
3413
108 43 37
3407
Mars
W.
60 54 16
3999
62 18 37
3987
63 43 4
3989
65 7 37
3876
Spica
a Aquilse
W.
59 46 28
3055
61 15 33
3050
62 44 44
3045
64 14 1
3039
E.
43 52 5
4019
42 40 44
4071
41 30 14
4199
40 20 40
4193
Fomalhaut
E.
73 47 27
3503
72 27 6
3506
71 6 48
3509
69 46 34
3513
aPegasi
E.
88 37 12
3950
87 12 2
3947
85 46 48
3949
84 21 28
3837
30
Sun
W.
115 35 40
3370
116 58 31
3361
118 21 32
3358
119 44 43
3344
Mars
W.
72 12 12
3941
73 37 a3
3939
75 3 4
3923
76 28 46
3814
Spica
Antares
W.
71 42 25
3005
73 12 32
9997
74 42 49
9988
76 13 17
8979
W.
27 14 19
3939
28 39 42
3909
30 5 41
3189
31 32 12
3157
Fomalhaut
E.
63 6 33
3539
61 46 52
3546
60 27 19
3555
59 7 55
3564
aPegasi
E.
77 13 27
3914
75 47 34
3908
74 21 34
3903
72 55 28
3198
31
Sun
W.
126 43 27
3991
128 7 49
3980
129 32 24
3968
130 57 13
3957
Mars
W.
83 40 5
3163
85 6 59
3159
86 34 6
3140
88 1 27
3129
Spica
Antares
W.
83 48 31
9930
85 20 12
9920
86 52 6
9909
88 24 14
2897
W.
38 51 45
3059
40 20 54
3033
41 50 26
3015
43 20 20
9998
Fomalhaut
E.
52 34 3
3635
51 16 7
3656
49 58 33
3678
48 41 23
3706
a Pegasi
E.
65 43 29
3173
64 16 48
3169
62 50 2
3166
61 23 12
3169
10
146
SEPTEMBER, 1884.
AT GREENWICH APPARENT NOON.
I
I
THE SUN'S
Apparent
Right Ascension.
Diff. for
lHour.
h m s
10 43 55.22
10 47 32.55
10 51 9.60
s
9.062
9.050
9.038
10 54 46.39
10 58 22.95
11 1 59.29
9.028
9.019
9.011
11 5 35.44
11 9 11.42
11 12 47.25
9.003
8.996
8.990
11 16 22.96
11 19 58.57
11 23 34.09
8.986
8.982
8.979
11 27 9.54
11 30 44.95
11 34 20.33
8.976
8.975
8.974
11 37 55.71
11 41 31.09
11 45 6.50
8.974
8.975
8.976
11 48 41.96
11 52 17.48
11 55 53.06
8.978
8.981
8.965
11 59 28.74
12 3 4.53
12 6 40.45
8.989
8.994
9.000
12 10 16.51
12 13 52.74
12 17 29.15
9.006
9.013
9.02J
12 21 5.76
12 24 42.59
12 28 19.68
9.030
9.040
9.050
12 31 57.04
9.062
Apparent
Declination.
Dlff. for
1 Hour.
Semi-
diameter.
Sidereal
Time of
Semi-
diameter
Passing
Meridian.
Equation of
Time,
to be
Subtracted
from
Apparent
Time.
Dlff. for
1 Hoar.
Mod.
Tues.
Wed.
Thur.
Frid.
Sat. „
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
srav.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
N.
8 2 50.0
7 40 54.5
7 18 51.6
6 56 41.5
6 34 24.6
6 12 1.1
5 49 31.4
5 26 56.0
5 4 15.1
4 41 28.8
4 18 37.6
3 55 41.6
3 32 41.5
3 9 37.3
2 46 29.6
2 23 18.6
2 0 4.8
1 36 48.4
1 13 29.7
0 50 9.1
0 26 47.0
0 3 23.8
0 20 0.1
0 43 24.6
1 6 49.1
1 30 13.4
1 53 37.1
2 16 59.8
2 40 21.2
3 3 40.9
S. 3 26 58.7
-54.66
54.98
55.28
-55.57
55.84
56.11
-56.36
56.60
56.83
-57.04
57.22
57.40
-57.58
57.74
57.88
-58.02
58.13
58.23
-58.32
58.39
58.44
-58.49
58.51
58.52
-58.51
58.50
58.46
-58.41
58.35
58.27
-58.19
15 53.87
15 54 11
15 54.35
15 54.59
15 54.83
15 55.07
15 55.31
15 55.55
15 55.80
15 56.05
15 56.30
15 56.55
15 56.80
15 57.04
15 57.30
15 57.56
15 57.82
15 58.08
15 58.35
15 58.62
15 58.89
15 59.16
15 59.44
15 59.71
15 59.99
16 0.27
16 0.55
16 0.83
16 1.11
16 1.39
16 1.67
64.39
64.35
64.31
64.27
64.24
64.21
64.18
64.14
64.12
64.10
64.09
64.07
64.06
64.05
64.05
64.05
64.05
64.05
64.06
64.07
64.09
64.11
64.13
64.15
64.17
64.20
64.23
64.26
64.30
64.34
64.39
m s
0 17.43
0 36.61
0 56.06
1 15.77
1^5.70
1 55.86
2 16.21
2 36.73
2 57.39
3 18.18
3 39.07
4 0.04
4 21.08
4 42.17
5 3.28
5 24.40
5 45.51
6 6.59
6 27.62
6 48.60
7 9.51
7 30.33
7 51.04
8 11.62
8 32.05
8 52.31
9 12.40
9 32.29
9 51.95
10 11.36
10 30.51
0.793
0.805
0.817
0.827
0.836
0.844
0.852
0.859
0.8G5
0.869
0.873
0.876
0.879
0.880 i
0.881
0.881
0.880
0.878
0.877
0.874
0.870
0.866
0.861
0.855
0.649
0.842
0.834
0.825
0.815
0.805
0.793
Nora. — The mean time of semidiameter passing may be found by subtracting 0*.18 from tho sidereal timo.
The sign — prefixed to the hourly change of declination indicates that north declinations are decreasing;
south declinations, increasing.
n.
SEPTEMBER, 1884.
147
AT GEBENWICH MEAN FOON.
THE SUN'S
1
0
o
1
4
I
•
i
Equation of
Time,
to be
Added to
Mean Time.
Dint for
lHonr.
Sidereal
Time,
or
Bight Ascension
of
Mean San.
Apparent
Bight Ascension.
Diff. for
1 Honr.
Apparent
Declination.
Ditt for
lHonr.
Mon.
Tues.
Wed.
l
2
3
h m s
10 43 55.26
10 47 32.64
10 51 9.74
8
9.064
9.052
9.040
N. 8° 2 49.8
7 40 54.0
7 18 50.8
-54.67
54.99
55.29
m s
0 17.43
0 36.61
0 56.06
8
0.793
0.805
0.817
h m s
10 44 12.69
10 48 9.25
10 52 5.80
Thur.
Frid.
Sat.
4
5
6
10 54 46.58
10 58 23.19
11 1 59.58
9.030
9.021
9.0J3
6 56 40.4
6 34 23.2
6 11 59.4
-59:58
55.85
56.12
1 15.78
1 35.72
1 55.88
0.827
0.836
0.844
10 56 2.36
10 59 58.91
11 3 55.46
SUN.
Mon.
Tues.
7
8
9
11 5 35.78
11 9 11.81
11 12 47.69
9.005
8.998
8.992
5 49 29.4
5 26 53.6
5 4 12.3
-56.37
56.61
56.84
2 16.23
2 36.76
2 57.43
0.852
0.859
0.865
11 7 52.01
11 11 48.57
11 15 45.12
Wed.
Thur.
Frid.
10
11
12
11 16 23.45
11 19 59.11
11 23 34.68
8.988
8.984
8.981
4 41 25.7
4 18 34.1
3 55 37.8
-57.05
57.24
57.42
3 18.22
3 39.11
4 0.09
0.869
0.873
0.876
11 19 41.67
11 23 38.22
11 27 34.77
Sat.
SUN.
Mon.
13
14
15
11 27 10.18
11 30 45.64
11 34 21.08
8.978
8.977
8.976
3 32 37.3
3 9 32.8
2 46 24.7
-57.60
57.76
57.90
4 21.14
4 42.23
5 3.35
0.879
0.880
0.881
11 31 31.32
11 35 27.88
11 39 24.43
Tues.
Wed.
Thur.
16
17
18
11 37 56.51
11 41 31.95
11 45 7.41
8.976
8.977
8.979
2 23 13.4
1 59 59.2
1 36 42.4
-58.03
58.15
58.25
5 24.47
5 45.58
6 6.67
0.881
0.880
0.878
11 43 20.98
11 47 17.53
11 51 14.08
Frid.
Sat.
SUN.
19
20
21
11 48 42.92
11 52 18.49
11 55 54.13
8.980
8.983
8.987
1 13 23.4
0 50 2.5
0 26 40.0
-58.34
58.41
58.46
6 27.71
6 48.70
7 9.61
0.877
0.874
0.870
11 55 10.63
11 59 7.19
12 3 3.74
Mon.
Tues.
Wed.
22
23
24
11 59 29.86
12 3 5.70
12 6 41.67
8.991
8.996
9.002
N. 0 3 16.5
S. 0 20 7.8
0 43 32.6
-58.51
58.53
58.54
7 30.43
7 51.14
8 11.73
0.866
0.861
0.855
12 7 0.29
12 10 56.84
12 14 53.40
Thur.
Frid.
Sat.
25
26
27
12 10 17.79
12 13 54.07
12 17 30.53
9.008
9.015
9023
1 6 57.5
1 30 22.1
1 53 46.1
-58.53
58.52
58.48
8 32.16
8 52.43
9 12.52
0.849
0.842
0.834
12 18 49.95
12 22 46.50
12 26 43.05
SUN.
Mon.
Tues.
28
29
30
12 21 7.19
12 24 44.08
12 28 21.22
9.032
9.042
9.052
2 17 9.1
2 40 30.8
3 3 50.8
-58.43
58.37
58.29
9 32.41
9 52.07
10 11.49
0.825
0.815
0.805
12 30 39.60
12 34 36.15
12 38 32.71
Wed.
31
12 31 58.63
9.064
S. %3 27 8.9
-58.20
10 30.64
0.793
12 42 29.26
Mora.— Th
Th
arc
e semidiameter for i
e sign — prefixed to
» decreasing; south
oean noon
the hourl
deolinatio
may be assumed the same as t
f change of declination indicate
as, increasing.
hat for apparent
58 that north dec
noon,
linations
Diff. for 1 Hour,
+ 9«.8565.
(Table HL)
148
SEPTEMBER, 1884.
m.
AT GREENWICH MEAN NOON.
THE SUN'S
I
1
i
e <
1
Logarithm '
of the
Radius Vector
of the
Earth.
Diff. for
1 Hour.
Mean Time
of
Sidereal Noon.
TRUE LONGITUDE.
Diff. for
1 Honr.
LATITUDE.
A
V
1
2
3
245
246
247
159 24 42.1
160 22 49.9
161 20 59.3
24 2.9
22 10.6
20 19.9
145.29
145.35
145.42
+ 0^66
0.61
0.54
0.0036869
0.0035787
0.0034699
-44.9
45.2
45.4
h m a
13 13 36.94
13 9 41.03
13 5 45.12
4
5
6
248
249
250
162 19 10.3
163 17 23.0
164 15 37.4
18 30.8
16 43.4
14 57.7
445.49
145.56
145.64
+ 0.44
0.34
0.21
0.0033608
0.0032512
0.0031411
-45.6
45.8
46.0
13 1 49.22
12 57 53.31
12 53 57.40
7
8
9
251
252
253
165 13 53.7
166 12 11.8
167 10 32.1
13 13.9
11 32.0
9 52.2
145.72
145.80
145.89
+ 0.08
-0.05
0.17
0 0030306
0.0029198
0.0028086
-46.1
46.3
46.5
12 50 1.50
12 46 5.59
12 42 9.69
10
11
12
254
255
256
168 8 54.4
169 7 18.7
170 5 45.3
8 14.4
6 38.7
5 5.2
145.97
146.06
146.15
-0.30
0.40
0.47
0.0026967
0.0025843
0.0024711
-46.7
47.0
47.3
12 38 13.78
12 34 17.88
12 30 21.97
13
14
15
257
258
259
171 4 14.0
172 2 44.9
173 1 17.9
3 33.8
2 4.6
0 37.6
146.24
146.33
146.42
-0.51
0.52
0.49
0.0023573
0.0022426
0.0021269
-47.6
48.0
48.4
12 26 26.06
12 22 30.15
12 18 34.24
16
17
18
260
261
262
173 59 53.2
174 58 30.5
175 57 9.9
59 12.7
57 50.0
56 29.3
146.51
146.60
146.69
-0.45
0.37
0.27
0.0020101
0.0018923
0.0017734
-48.9
49.3
49.8
12 14 38.34
12 10 42.43
12 6 46.52
19
20
21
263
264
265
176 55 51.4
177 54 34.8
178 53 20.1
55 10.7
53 54.0
52 39.3
146.76
146.84
146.93
-0.15
-0.02
+ 0.11
0.0016532
0.0015320
0.0014096
-50.3
50.8
51.2
12 2 50.62
11 58 54.72
11 54 58.81
22
23
24
266
267
268
179 52 7.4
180 50 56.5
181 49 47.3
51 26.5
50 15.5
49 6.3
147.01
147.08
147.15
+ 0.25
0.36
0.46
0.0012862
0.0011618
0.0010366
-51.6
52.0
52.3
11 51 2.90
11 47 6.99
11 43 11.09
25
26
27
269
270
271
182 48 40.0
183 47 34.4
184 46 30.5
47 58.8
46 53.1
45 49.2
147.23
147.30
147.37
+ 0.53
0.59
0.60
0.0009107
0.0007842
0.0006573
-52.6
52.8
52.9
11 39 15.18
11 35 19.27
11 31 23.36
28
29
30
272
273
274
185 45 28.4
186 44 28.1
187 43 29.5
44 47.0
43 46.6
42 47.9
147.45
147.52
147.59
+ 0.59
0.56
0.48
0.0005301
0.0004027
0.0002755
-53.0
53.0
52.9
11 27 27.46
11 23 31.56
11 19 35.65
31
275
188 42 32.7
41 51.0
147.67
. + 0.40
0.0001486
-52.8
11 15 39.74
Nora^-The
the
numbers in column
mean equinox of Jw
A correspond
unary (P.O.
to the trc
ie equinox of the date; in cola
am A', to
Diff. for 1 Hour,
— 9-.82D6.
(Table H.)
IV.
SEPTEMBER, 1884.
149
GREENWICH MEAN TIME.
i
*
THE MOON'S
SEMIDIAMETEJt.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGE.
Noon.
Midnight
Noon.
DUE. for
IHonr.
Midnight
Diff. for
IHonr.
Meridian of
Greenwich.
Diff. for
IHonr.
Noon.
1
2
3
/ //
15 5.4
15 14.8
15 25.2
15 9.9
15 19.9
15 30.6
55' 15.8
55 50.4
56 28.7
+ 1.32
1.53
1.63
55'32!'5
56 9.2
56 48.4
+ 1.44
1.59
1.64
h m
9 5.2
9 53.9
10 42.7
m
2.02
2.03
2.03
d
11.6
12.6
13.6
4
5
6
15 35.9
15 46.1
15 55.2
15 41.1
15 50.9
15 59.1
57 8.0
57 45.6
58 18.8
+ 1.62
1.49
1.26
57 27.2
58 2.9
58 33.1
+ 1.57
1.39
1.12
11 31.7
12 21.1
13 11.3
2.05
2.07
2.11
14.6
15.6
16)6
7
8
9
16 2.5
16 7.8
16 11.0
16 5.4
16 9.7
16 11.9
58 45.7
59 5.1
59 17.0
+ 0.97
0.65
0.34
58 56.4
59 12.0
59 20.2
+ 0.81
0.50
+ 0.20
14 2.8
14 55.9
15 50.8
2.18
2.25
2.33
17.6
18.6
19.6
10
11
12
16 12.3
16 12.0
16 10.1
16 12.3
16 11.2
16 8.7
59 21.8
59 20.4
59 13.6
+ 0.07
-0.18
0.37
59 21.8
59 17.6
59 8.6
-0.06
0.28
0.47
16 47.3
17 44.9
18 42.7
2.39
2.41
2.40
20.6
21.6
22.6
13
14
15
16 -7.1
16 2.8
15 57.6
16 5.1
16 0.3
15 54.5
59 2.5
58 46.9
58 27.5
-0.56
0.72
0.89
58 55.3
58 37.7
58 16.2
-0.64
0.81
0.97
19 39.7
20 35.0
21 28.1
2.34
2.26
2.16
23.6
24.6
25.6
16
17
18
15 51.1
15 43.7
15 35.3
15 47.5
15 39.6
15 30.9
58 3.9
57 36.6
57 5.9
-1.05
1.21
1.33
57 50.7
57 21.6
56 49.6
-1.13
1.27
1.37
22 19.0
23 8.0
23 55.5
2.08
2.00
1.95
26.6
27.6
28.6
19
20
21
15 26.4
15 17.2
15 8.5
15 21.8
15 12.8
15 4.4
56 33.0
55 59.4
55 27.2
-1.39
1.39
1.28
56 16.2
55 43.0
55 12.2
- - 1.40
1.35
1.20
6
0 42.0
1 27.9
1.92
1.91
0.1
1.1
2.1
22
23
24
15 0.6
14 54.2
14 49.8
14 57.2
14- 51.7
14 48.5
54 58.3
54 34.9
54 18.8
-1.10
0.83
0.49
54 45.8
54 25.8
54 14.0
-0.97
0.67
-0.30
2 13.8
2 59.9
3 46.3
1.91
1.93
1.95
3.1
4.1
5.1
25
26
27
14 47.8
14 48.5
14 52.0
14 47.8
14 49.9
14 54.9
54 11.5
54 14.0
54 26.9
-0.10
+ 0.32
0.76
54 11.5
54 19.1
54 37.3
+ 0.11
0.54
0.97
4 33.2
5 20.6
6 8.3
1.97
1.98
1.99
6.1
7.1
8.1
28
29
30
14 58.4
15 7.3
15 18.3
15 2.5
15 12.6
15 24.5
54 50.1
55 22.8
56 3.5
+ 1.17
1.54
1.82
55 5.3
55 42.3
56 26.2
+ 1.37
1.69
1.93
6 56.1
7 44.1
8 32.2
1.99
2.00
2.01
9.1
10.1
11.1
31
15 31.0
15 37.6
56 49.9
+ 2.00
57 14.2
+ 2.03
9 20.7
2.03
12.1
150
SEPTEMBER, 1884.
GBEEffWJCH MEAK TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Right Ascension.
Diff. for
1 Minute.
Declination.
Diff for
1 Minute.
Hour.
Right Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
M
(MSTDA
Y 1.
WEDNESDAY 8.
h m 8
- 8
O i it
//
h m 8
8
1 O / //
tl
0
19 31 35.39
2.1 248
S.16 34 31.7
4.443
0
21 13 44.28
2.1306
'S.ll 29 12.6
8.131
1
19 ^3 42.89
2.1251
16 30 2.6
4.528
1
21 15 52.12
2.1307
11 21 2.8
8.196
2
19 35 50.40
2.1253
16 25 28.4
4.613
2
21 17 59.97
2.1308
11 12 49.1
8.261
3
19 37 57.92
2.125-1
16 20 49.1
4.697
3
21 20 7.82
2.1309
11 4 31.5
8.326
4
19 40 5.45
2.1256
16 16 4.8
4.780
4
21 22 15.68
2.1312
10 56 10.0
8.391
5
19 42 12.99
2.1258
16 11 15.5
4.863
5
21 24 23.56
2.1314
10 47 44.6
8.455
6
19 44 20.54
2.1359
16 6 21.2
4.947
6
21 26 31.45
2.1316
10 39 15.4
8.517
7
19 46 28.10
2.1261
16 1 21.9
5.030
7
21 28 39.35
2.1318
10 30 42.5
8.579
8
19 48 35.67
2.1263
15 56 17.6
5.112
8
21 30 47.26
2.1320
10 22 5.9
8.640
9
19 50 43.26
2.1266
15 51 8.4
5.195
9
21 32 55.19
2.1322
10 13 25.7
8.700
10
19 52 50.86
2.1268
15 45 54.2
5.277
10
21 35 3.13
2.1324
10 4 41.9
8.761
11
19 54 58.47
2.1269
15 40 35.1
5.359
11
21 37 11.08
2.1327
9 55 54.4
8.822
12
19 5T 6.09
2.1271
15 35 11.1
5.441
12
21 39 19.05
2.1329
9 47 3.3
8.881
13
19 59 13.72
2.1272
15 29 42.2
5.522
13
21 41 27.03
2.1332
9 38 8.7
8.939
14
20 1 21.&5
2.1273
15 24 8.4
5.604
14
21 43 35.03
2.1335
9 29 10.7
8.996
15
20 3 28.99
2.1274
15 18 29.7
5.685
15
21 45 43.05
2.1338
9 20 9.2
9.053
16
20 5 36.64
" 2.1275
15 12 46.2
5.765
16
21 47 51.09
2.1341
9 11 4.3
9.109
17
20 7 44.29
2.1VJ76
15 6 57.9
5.846
17
21 49 59.14
2.1343
9 1 56.1
9.165
18
20 9 51.95
2.1277
15 1 4.7
5.926
18
21 52 7.21
2.1347
8 52 44.5
9.221
19
20 11 59.62
2.1278
14 55 6.8
6.005
19
21 54 15.30
2.1351
8 43 29.6
9.274
20
20 14 7.29
2.1279
14 49 4.1
6.084
20
21 56 23.42
2.1355
8 34 11.6
9.327
21
20 16 14.97
2.1280
14 42 56.7
6.163
21
21 58 31.56
2.1358
8 24 50.4
9.379
22
20 18 22.65
2.1261
14 36 44.5
6.241
22
22 0 39.72
2.1362
8 15 26.1
9.431
23
20 20 30.34
TI
2.1282
IESDA
S.14 30 27.7
Y 2.
&319
23
22 2 47.91
TH
2.1367
UESD,
S. 8 5 58.7
1Y 4.
9.482
0
20 22 38.04
2.1283
S.14 24 6.2
6.397
0
22 4 56.12
2.1371
S. 7 56 28.2
9.533
1
20 24 45.74
2.1284
14 17 40.0
6.475
1
22 7 4.36
2.1376
7 46 54.7
9.583
2
20 26 53.45
2.1285
14 11 9.2
6.552
2
22 9 12.63
2.1380
7 37 18.3
9.632
3
20 29 1.16
2.1285
14 4 33.8
6.628
3
22 11 20.92
2.1384
7 27 38.9
9.680
4
20 31 8.87
2.1286
13 57 53.8
6.705
4
22 13 29.24
2.1389
# 7 17 56.7
9.727
5
20 33 16.59
2.1287
13 51 9.2
6.781
5
22 15 37.59
2.1395
7 8 11.7
9.773
6
20 35 24.32
2.1288
13 44 20.1
6.856
6
22 17 45.98
2.1401
6 58 23.9
9.819
7
20 37 32.05
2.1289
13 37 26.5
6.931
7
22 19 54.40
2.1406
6 48 33.4
9.864
8
20 39 39.79
2.1290
13 30 28.4
7.005
8
22 22 2.85
2.1412
6 38 40.2
9.908
9
20 41 47.53
2.1290
13 23 25.9
7.079
9
22 24 11.34
2.1418
6 28 44.4
9.951
10
20 43 55.27
2.1291
13 16 18.9
7.153
10
22 26 19.87
2.1424
6 18 46.1
9.993
11
20 46 3.02
2.1292
13 9 7.5
7.226
11
22 28 28.43
2.1430
6 8 45.3
10.034
12
20 48 10.78
2.1293
13 1 51.8
7.299
12
22 30 37.03
2.1437
5 58 42.0
10.075
1 J3
20 50 18.54
2.1294
12 54 31.7
7.371
13
22 32 45.67
2.1444
5 48 36.3
10.115
! 14
20 52 2<5.31
2.1295
12 47 7.3
7.442
14
22 34 54.35
2.1451
5 38 28.2
10.154
15
20 54 34.08
2.1295
12 39 '38.6
7.513
15
22 37 3.08
2.1458
5 28 17:8
10.192
1G
20 56 41.85
2.1296
12 32 5.7
7.584
16
22 39 11.85
2.1466
5 18 5.1
10.230
17
20 58 49.63
2.1297
12 24 28.5
7.655
17
22 41 20.67
2.1474
5 7 50.2
10.266
18
21 0 57.42
2.1298
12 16 47.1
7.724
18
22 43 29.54
2.1482
4 57 33.2
10.301
19
21 3 5.21
2.1299
12 9 1.6
7.793
19
22 45 38.45
2.1489
4 47 14.1
10.336
20
21 5 13.01
2.1301
12 1 11.9
7.662
20
22 47 47.41
2.1498
4 36 52.9
10.370
21
21 7 20.82
2.1302
11 53 18.1
7.930
21
22 49 56.43
2.1507
4 26 29.7
10.402
22
21 9 28.63
2.1303
11 45 20.3
7.997
22
22 52 5.50
2.1516
4 16 4.6
10.434
i 23
21 11 36.45
2.1304
11 37 18.5
8.064
23
22 54 14.62
2.1525
4 5 37.6
10.464
1 24
21 13 44.28
2.1306
S.ll 29 12.6
8.131
24
22 56 23.80
2.1535
S. 3 55 8.9
10.493
VI.
SEPTEMBER, 1884.
151
GREENWICH MEAK TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
Hour.
Right Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
F
BIDA1
ST 5.
SUNDAY 7.
h m s
8
O / //
a
"h m s
8
O 1 II
a
0
22 56 23.80
9.1535
S. 3 55 8.9
10.493
0
0 41 21.16
9.9303
N. 4 43 57.6
10.724
1
22 58 33.04
9.1544
3 44 38.4
10.523
1
0 43 35.05
9.9396
4 54 40.4
10.709
2
23 0 42.33
9.1553
3 34 6.1
10.552
2
0 45 49.08
24349
5 5 21.8
10.678
3
23 2 51.68
2.1564
3 23 32.2
10.577
3
0 48 3.24
94379
5 16 1.8
10.654
4
23 5 1.10
9.1575
3 12 56.7
10.605
4
0 5fr 17.54
94395
5 26 40.3
10.698
5
23 7 10.58
9.1585
3 2 19.6
10.631
5
0 52 31.98
94419
5 37 17.1
10.600
6
23 9 20.12
9.1596
2 51 41.0
10.655
6
0 54 46.57
9.9443
5 47 52.3
10.579
7
23 11 29.73
9.1607
2 41 1.0
10.678
7
0 57 1.30
2.2467
5 58 25.8
10.543
8
23 13 39.41
9.1619
2 30 19.(5
10.701
8
0 59 16.18
9.9499
6 8 57.5
10.513
9
23 15 49.16
9.1631
2 19 36.9
10.722
9
1 1 31.20
9.9516
6 19 27.4
10.481
10
23 17 58.98
9.1649
2 8 53.0
10.741
10
1 3 46.37
9.9541
6 29 55.3
10.448
1]
23 20 8.87
9.1654
1 58 8.0
10.759
11
1 6 1.69
9.9565
6 40 21.2
J0.415
12
23 22 18.83
9.1667
1 47 21.9
10.778
12
1 8 17.15
9,9590
6 50 45.1
10.380
13
23 24 28.87
9.1680
1 36 34.7
10.796
13
1 10 32.77
94616
7 1 6.8
10.344
14
23 26 38.99
9.1693
1 25 46.4
10.812
14
1 12 48.54
94649
7 11 26.3
10.307
15
23 28 49.19
9.1707
1 14 57.2
10.897
15
1 15 4.47
94667
7 21 43.6
10.968
10
23 30 59.47
9.1790
1 4 7.1
10.849
16
1 17 20.55
9.9693
7 31 58.5
10.928
17
23 33 9.83
9.1733
0 53 16.2
10.855
17
1 19 36.79
94719
7 42 11.0
10.187
18
23 a5 20.27
9.1747
0 42 24.5
10.867
18
1 21 53.18
94745
7 52 20.9
10.144
19
23 37 30.80
9.1769
0 31 32.2
10.878
19
1 24 9.73
94779
8 2 28.3
10.101
20
23 39 41.41
9.1777
0 20 39.2
10.888
20
1 26 26.44
9.9799
8 12 33.1
10.057
21
23 41 52.13
9.1799
S. 0 9 45.6
10.897
21
1 28 43.32
94896
8 22 35.2
10.012
22
23 44 2.93
9.1807
N. 0 1 8.5
10.905
22
1 31 0.36
9.9853
8 32 34.5
9.965
23
23 46 13.82
SA
9.1893
IUED.
N. 0 12 3.0
A.Y 6.
10.919
23
1 33 17.56
24880
)NDA^!
N. 8 42 31.0
ST 8.
9417
0
23 48 24.81
9.1839
N. 0 22 57.9
10.917
0
1 35 34.92
94907
N. 8 52 24.6
9.868
1
23 50 35.89
9.1855
0 33 53.1
10.922
1
1 37 52.45
9.9935
9 2 15.2
9.818
2
23 52 47.07
9.1879
0 44 48.5
10.926
2
1 40 10.14
94969
9 12 2.8
9.767
3
23 54 58.35
9.1888
0 55 44.2
10.999
3
1 42 27.99
9.9989
9 21 47.3
9.715
4
23 57 9.73
9.1905
1 6 40.0
10.930
4
1 44 46.01
9.3017
9 31 28.6
9.661
5
23 59 21.21
9.1993
1 17 35.8
10.930
5
1 47 4.20
9.3046
9 41 6.6
9.608
6'
0 1 32.80
9.1941
1 28 31.6
10.929
6
1 49 22.56
9*3074
9 50 41,3
9.550
7
0 3 44.50
9.1958
1 39 27.3
10.997
7
1 51 41.09
2.3109
10 0 12.6
9.493
8
0 5 56.30
9.1976
1 50 22.9
10.995
8
1 53 59.79
9.3131
10 9 40.5
9.435
9
0 8 8.21
9.1994
2 1 18.3
10.991
9
1 56 18.66
9.3)58
10 19 4.8
9.375
10
0 10 20.23
9.9013
2 12 13.4
10.915
10
1 58 37.69
9*3186
10 28 25.5
9j315
11
0 12 32.37
9.9039
2 23 8.1
10.909
11
2 0 56.89
2.3214
10 37 42.6
9454
12
0 14 44.62
9.9059
2 34 2.4
10.902
12
2 3 16.26
9.3943
10 46 56.0
9.191
13
0 16 56.99
9.9071
2 44 56.3
10.893
13
2 5 35.80
9.3272
10 56 5.5
9.197
14
0 19 9.47
9.9090
2 55 49.6
10.883
14
2 7 55.52
9.3301
11 5 11.2
9.063
15
0 21 22.07
2.2111
3 6 42.3
10.873
15
2 10 15.41
9.3329
11 14 13.0
8.997
16
0 23 34.80
9.9139
3 17 34.3
10.861
16
2 12 35.47
2.3357
11 23 10.8
8.999
17
0 25 47.62
9.9159
3 28 25.6
10.848
17
2 14 55.70
9.3388
11 32 4.5
8.861
18
0 28 0.62
9.9173
3 39 16.0
10.833
18
2 17 16.10
9.3414
11 40 54.1
8.793
19
0 30 13.72
9.2194
3 50 5.5
10.818
19
2 19 36.67
2.3443
1 1 49 39.5
8.799
20
0 32 26.95
2.2215
4 0 54.1
10.802
20
2 21 57.41
2.3471
11 58 20.7
8.650
21
0 34 40.30
2.2937
4 11 41.7
10.784
21
2 24 18.32
9.3500.
12 6 57.5
8^77
22
0 36 53.79
2.2259
4 22 28.2
10.765
22
2 26 39.41
2.3529
12 15 29.9
8^03
23
0 39 7.41
2.2281
4 33 13.5
10.745
23
2 29 0.67
2.3557
12 23 57.9
8.429
24
0 41 21.16
2.2303
N. 4 43 57.6
10.724
24
2 31 22.10
2.3586
N.12 32 21.4
8.353
152
SEPTEMBER, 1884.
vn.
GBEESWICH MEA3T TIME.
I
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i
floor.
Bight Ateoukn.
Dim for
1 Minute.
1
Declination.
1
Dfff for
lMmute.
Hoar.
1
1
Right ABcaukm.
Difllfor
1 Minute.
Dedxnation.
DhTJnr
1 Minute.
!
TUESDAY 9.
THUBSDAY 11.
h m •
•
O i II
„
h m b
•
O 1 II
« !
0
2 31 22.10
2X586
N.12 32 21.4
8X53
0
4 27 30.05
9.4683
N.17 28 4.7
3X56
1
2 33 43.70
9X6J4
12 40 40.3
8X76
1
4 29 58.19
9.4696
17 31 40.8
3X43
2
2 36 5.47
2-3643
12 48 54.5
8.198
2
4 32 26.40
9.4706
17 35 9.9
3.427
3
2 38 27.41
£3671
12 57 4.0
8.119
3
4 34 54.69
9.4791
17 38 32.1
3-312
4
2 40 49.52
2X698
13 5 8.8
8X40
4
4 37 23.05
9.4739
17 41 47.3
3.196
5
2 43 11.79
3X726
13 13 8.8
7.959
5
4 39 51.47
2.4743
17 44 55.6
3.080
6
2 45 34.23
3.3754
13 21 3.9
7.876
6
4 42 1996
2.4753
17 47 56.9
2X63
7
2 47 5G.84
2.3782
13 28 54.0
7.793
7
4 44 48.51
2.4762
17 50 51.1
9X45 1
8
2 50 19.GI
3Xfc09
13 36 39.1
7.710
8
4 47 17.11
2.4772
17 53 38.3
2.727 .
9
2 52 42.55
3X837
13 44 19.2
7.636
9
4 49 45.77
2.4781
17 56 18.4
2X09
10
2 55 5.G5
3X864
13 51 54.2
7.539
10
4 52 14.48
2.4788
17 58 51.4
2.491
11
2 57 28.92
3X892
13 59 23.9
7.459
11
4 54 43.23
2.4796
18 1 17.3
2X72 '
12
2 59 52.35
3X918
14 6 48.4
7.364
12
4 57 12.03
2.4803
18 3 36.0
2*252
J3
3 2 15.94
3.3945
14 14 7.6
7.275
13
4 59 40.86
2.4809
18 5 47.6
2.134
14
3 4 39.69
3.3973
14 21 21.4
7.185
14
5 2 9.73
2.4814
18 7 52.1
2X15
15
3 7 3.G0
2-3998
14 28 29.8
7.095
15
5 4 38.63
2.4818
18 9 49.4
1.895
10
3 9 27.67
3*4094
14 35 32.8
7.004
16
5 7 7.55
2.4829
18 11 39.5
1.775 \
17
3 11 51.89
3.4050
U 42 30.3
6.919
17
5 9 36.50
2.4896
18 13 22.4
1X55 |
18
3 14 16.27
3.4076
14 49 22.2
6.818
18
5 12 5.47
2.4630
18 14 58.1
1.535 |
19
3 16 40.80
3.4101 ,
14 56 8.4
6.793
19
5 14 34.46
9.4832
18 16 26.6
1.414 !
20
3 19 5.48
3.4137
15 2 49.0
6X28
20
5 17 3.46
9.4833
18 17 47.8
1.293
21
3 21 30.32
3.4153
15 9 23.8
6X31
21
5 19 32.46
2.4834
18 19 1.8
1.173
22
3 23 55.30
3.4176
15 15 52.8
6.435
22
5 22 1.47
2.4835
18 20 8.6
1.052
23
3 26 20.43
WEI
3.4301
)NESD
N.15 22 10.0
AY 10.
6.337
23
5 24 30.48
F]
9.4834
RIDAH
N.18 21 8.1
: 12.
0X32
0
3 28 45.71
3.4395
N.15 28 33.3
6.939
0
5 26 59.48
9.4833
N 18 22 0.4
0X11
1
3 31 11.13
3.4948
15 34 44.7
6J40
1
5 29 28.48
9.4831
18 22 45.4
0.690
2
3 33 36.69
3.4973
15 40 50.1
6.039
2
5 31 57.46
9.4699
18 23 23.2
0X69
3
3 36 2.39
9.4995
15 46 49.4
5.937
3
5 34 26.43
9.4827
18 23 53.7
0.448
4
3 38 28.23
9.4317
15 52 42.6
5.836
4
5 36 55.38
9.4893
18 24 17.0
0X97
5
3 40 54.20
9.4339
15 58 29.7
5.734
5
5 39 24.31
2.4819
18 24 33.0
0X07
6
3 43 20.30
9.4369
16 4 10.7
5.639
6
5 41 53.21
3.4814
18 24 41.8
+ 0.086
7
3 45 46.54
9.4383
16 9 45.5
5.528
7
5 44 22.08
3.4808
18 24 43.3
-0.035
8
3 48 12.90
9.4404
16 15 14.0
5.499
8
5 46 50.91
3.4809
18 24 37.6
0.156
9
3 50 39.39
3.4435
16 20 36.1
5.316
9
5 49 19.70
9.4795
18 24 24.6
0X77
10
3 53 6.00
9.4445
16 25 51.9
5.910
10
5 51 48.45
9.4788
18 24 4.4
0X97
11
3 55 32.73
9.4465
16 31 1.3
5.103
11
5 54 17.16
2.4781
18 23 37.0
0X17
12
3 57 59.58
9.4485
16 36 4.3
4.996
12
5 56 45.82
9.4779
18 23 2.4
0.637
13
4 0 26.55
9.4504
16 41 0.8
4.887
13
5 59 14.43
9.4763
18 22 20.6
0.757
14
4 2 53.(>3
9.4593
16 45 50.8
4.778
14
6 1 42.98
9.4759
18 21 31.6
0.677
15
4 5 20.82
9.4541
16 50 34.2
4.669
15
6 4 11.46
9.4741
18 20 35.4
0X97
1G
4 7 48:12
9.4556
16 55 11.1
4.559
16
6 6 39.87
9.4799
18 19 32.0
1.116
17
4 10 15.52
9.4576
16 59 41.3
4.448
17
6 9 8.21
9.4718
18 18 21.5
1.234
18
4 12 43.03
9.4593
17 4 4.9
4.337
18
6 11 36.48
9.4706
18 17 3.9
1X53
19
4 15 10.64
9.4609
17 8 21.8
4.996
19
6 14 4.68
3.4693
18 15 39.1
1.471
20
4 17 38.34
9.4695
17 12 32.0
4.113
20
6 16 32.79
3.4678
18 14 7.3
1X69
21
4 20 6.14
9.4640
17 16 35.4
4.000
21
6 19 0.82
9.4664
18 12 28.4
1.707
22
4 22 34.02
9.4654
17 20 32.0
3.866
22
6 21 28.76
2.4649
18 10 42.4
1.895
23
4 25 1.99
9.4669
17 24 21.8
3.779
23
6 23 56.61
2.4633
18 8 49.4
1X43
24
4 27 30.05
9.4683
N.17 28 4.7
3.658
24
6 26 24.36
2.4617
N.18 6 49.3
2.059
VIII.
SEPTEMBER, 1884.
153
GEEENWICH MEAtf TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Diftfor
1 Minute.
Declination.
Difllfor
1 Minute.
Hour.
Bight Ascension.
Biff, for
1 Minute.
Declination.
Diff. for
1 Minute.
SAG
FUKD^
lY 13.
MONDAY 15.
h m s
s
N.ll 6 4<X3
//
h m 8
8
O 1 II
n
0
6 26 24.36
2.4617
2.059
0
8 21 46.33
2.3307
N.14 24 5.6
6.944
1
6 28 52.01
9.4600
18 4 42.3
2.175
1
8 24 6.07
2.3272
14 17 6.5
7.027
2
6 31 19.56
9.4583
18 2 28.3
2.299
2
8 26 25.60
2.3938
14 10 2.4
7.106
3
6 £3 47.01
9.4566
18 0 7.3
9.407
3
8 28 44.93
2.3204
14 2 53.5
7.186
4
6 36 14.35
9.4547
17 57 39.4
9.529
4
8 31 4.05
3.3169
13 55 39.8
7.367
5
6 38 41.58
9.4598
17 55 4.6
2.637
5
8 33 22.96
9.3134
13 48 21.4
7.346
6
6 41 8.69
9.4508
17 52 23.0
2.751
6
8 35 41.66
9.3099
13 40 58.3
7.493
7
6 43 35.68
3.4488
17 49 34.5
9.865
7
8 38 0.15
2.3064
13 33 30.6
7.499
8
6 46 2.55
9.4468
17 46 39.2
2.078
8
8 40 18.43
2.3029
13 25 58.4
7.574
9
6 48 29.29
9.4447
17 43 37.2
3.090
9
8 42 36.50
9.9994
13 18 21.7
7.649
10
6 50 55.91
9.4495
17 40 28.4
3.203
10
8 44 54.36
9.2959
13 10 40.5
7.733
11
6 53 22.39
9.4409
17 37 12.9
3.315
11
8 47 12.01
9.2925
13 2 55.0
7.794
J2
6 55 48.74
9.4380
17 33 50.6
3.497
12
8 49 29.46
9.2891
12 55 5.2
7.866
13
6 58 14.95
9.4357
17 30 21.7
3.537
13
8 51 46.70
2.2855
12 47 11.1
7.937 ;
14
7 0 41.02
9.4333
17 26 46.2
3.646
14
8 54 3.72
2.28J8
12 39 12.8
8.005 i
15
7 3 6.94
9.4306
17 23 4.2
3.754
15
8 56 20.52
2.2782
12 31 10.5
8.072 l
16
7 5 32.72
9.4284
17 19 15.7
3.863
16
8 58 37.11
2.2748
12 23 4.1
8.140
17
7 7 58.35
9.4956
17 15 20.6
3.979
17
9 0 53.50
2.2714
12 14 53.7
8.207
18
7 10 23.82
9.4939
17 11 19.0
4.080
18
9 3 9.68
2.2679
12 6 39.3
8.273
19
7 12 49.14
2.4907
17 MI.O
4.187
19
9 5 25.65
9.9644
11 58 21.0
8^37
20
7 15 14.30
2.4181
17 2 56.6
4.293
20
9 7 41.41
2.2609
11 49 58.9
8.399
21
7 17 39.31
9.4154
16 58 35.9
4.398
21
9 9 56.96
2.2574
11 41 3!).]
8.461
22
7 20 4.15
9.4197
16 54 8.9
4.503
22
9 12 12.30
2.2539
11 33 3.6
8.523
23
7 22 28.83
SI
2.4099
JNDA1
N.16 49 35.6
I 14.
4.607
23
9 14 27.43
2.2505
ESDA
N.ll 24 30.4
Y 16.
&583
0
7 24 53.34
9.4071
N.16 44 56.1
4.709
0
9 16 42.36
2.2471
N.ll 15 $3.6
&642
1
7 27 17.68
9.4049
16 40 10.5
4.812
1
9 18 57.08
9.9436
11 7 13.3
8.700
2
7 29 41.85
9.4013
16 35 18.7
4.914
2
9 21 11.59
9.2401
10 58 29.6
8.757
3
7 32 5.84
2J39M
16 30 20.8
5.015
3
9 23 25.89
2.2367
10 49 42.5
8.813
4
7 34 29.66
2.3955
16 25 16.9
5.115
4
9 25 39.99
2.2333
10 40 52.1
8.868
5
7 36 53.30
23995
16 20 7.0
5.215
5
9 27 53.89
2.2299
10 31 58.4
8.922
6
7 39 16.76
9.3895
16 14 51.1
5.314
6
9 30 7.58
2.2965
10 23 1.5
8.974
7
7 41 40.04
2.3664
16 9 29.3
5.412
7
9 32 21.07
2.2231
10 14 1.5
9.026
8
7 44 3.13
9.3833
16 4 1.7
5.500
8
9 34 34.36
9.2197
10 4 58.4
9.077
9
7 46 26.04
2.3809
15 58 28.3
5.605
9
9 36 47.44
2.2163
9 55 52.2
9.127
10
7 48 48.76
2.3771
15 52 49.1
5.701
10
9 39 0.32
2.2130
9 46 43.1
9,176
11
7 51 11.29
2.3739
15 47 4.2
5.795
11
9 41 13.00
2.2097
9 37 31.1
9.223
12
7 53 33.63
2.3707
15 41 13.7
5.689
12
9 43 25.49
2.2065
9 28 16.3
9.269
13
" 7 55 55.78
2.3675
15 35 17.6
5.962
13
9 45 37.78
3.2033
9 18 58.8
9 .3 15
14
7 58 17.73
2.3642
15 29 15.9
6.074
14
9 47 49.87
3.1999
9 9 38.5
9.360
15
8 0 39.49
2.3610
15 23 8.7
6.165
15
9 50 1.77
2.1967
9 0 15.6
9.403
16
8 3 1.05
2,3577
15 16 56.1
6.255
16
9 52 13.48
2.1935
8 50 50.1
9.446
17
8 5 22.41
2^544
15 10 38.1
6.345
17
9 54 24.99
2.1903
8 41 22.1
9.487
18
8 7 43.58
2J3511
15 4 14.7
6.434
18
9 56 36.31
2.1671
8 31 51.6
9.596
19
8 10 4.55
2.3477
14 57 46.0
6.522
19
9 58 47.44
2.1639
8 22 18.7
9.567
20
8 12 25.31
2.3443
14 51 12.1
6.608
20
10 0 58.38
3.1808
8 12 43.5
9.605
21
8 14 45.87
2.3410
14 44 33.1
6.693
21
10 3 9.13
2.1777
8 3 6.1
9.642
22
8 17 6.23
2.3376
14 37 49.0
6.778
22
10 5 19.70
2.1716
7 53 26.4
9.679
23
8 19 26.38
2.3342
14 30 59.8
6.861
23
10 7 30.08
2.1715
7 43 44.6
9.714
24
8 21 46.33
2.3307
N.14 24 5.6
6.944
24
10 9 40.28
3.1684
N. 7 34 0.7
9.748
154
SEPTEMBER, 1884.
IX.
GREENWICH MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
Hour.
Right Ascension.
Diff. for
1 Minute,
Declination.
Diff. for
1 Minute.
Hour.
Bight Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
WEI
)NESD
AY 17.
FRIDAY 19.
h m s
8
O * it
u
h m s
8
O 1 It
//
0
10 9 40.28
9.1684
N. 7 34 0.7
9.748
0
11 50 47.08
9.0564
S. 0 34 37.5
10.949
1
10 11 50.29
9.1654
7 24 14.8
9.789
1
11 52 50.42
9.0549
0 44 52.1
10.937
2
10 14 0.13
9.1695
7 14 26.9
9.814
2
11 54 53.67
9.0533
0 55 5.9
10.994
3
10 16 9.79
9.1595
7 4 37.1
9.845
3
11 56 56.82
9.0517
1 5 18.9
10.910
4
10 18 19.27
9.1565
6 54 45.5
9.875
4
1 1 58 59.88
9.0503
1 15 31.1
10.197
5
10 20 28.57
9.1536
6 44 52.1
9.905
5
12 1 2.86
9.0490
1 25 42.5
10.183
6
10 22 37.70
9.1507
6 34 56.9
9.933
6
12 3 5.76
9.0477
1 35 53.0
10.167
7
10 24 46.66
9.1479
6 25 0.1
9.960
7
12 5 8.58
9.0463
1 46 2.5
10.149
8
10 26 55.45
9.1450
6 15 1.7
9.966
8
12 7 11.31
9.0449
1 56 10.9
10.131
9
10 29 4.06
9.1499
6 5 1.8
J0.011
9
12 9 13.96
9.0436
2 6 18.2
10.119
10
10 31 12.51
9.1394
5 55 0.4
10.035
10
12 11 16.54
9.0493
2 16 24.4
10.094
11
10 33 20.79
9.1367
5 44 57.6
10.058
11
12 13 19.04
9.0411
2 26 29.5
10.075
12
10 35 28.91
9.1340
5 34 53.4
10.081
12
12 15 21.47
9.0399
2 36 a3.4
10.054
13
10 37 36.87
9.1313
5 24 47.9
10.109
13
12 17 23.83
9.0387
2 46 36.0
10.039
14
10 39 44.67
9.1986
5 14 41.2
10.139
14
12 19 26.12
9.0376
2 56 37.2
10.009
J5
10 41 52.30
9.1959
5 4 33.3
10.149
15
12 21 28.34
9.0364
3 6 37.1
9.986
16
10 43 59.78
9.1933
4 54 24.2
10.160
16
12 23 30.49
9.0353
3 16 35.6
9.963
17
10 46 7.10
9.1907
4 44 14.1
10.177
17
12 25 32.58
9.0343
3 26 32.7
9.939
18
10 48 14.27
9.1189
4 34 3.0
10.193
18
12 27 34.61
9.0333
3 36 28.3
9.914
19
10 50 21.29
9.1157
4 23 50.9
10.909
19
12 29 36.58
9.0393
3 46 22.4
9.888
20
10 52 28.16
9.1139
4 13 37.9
10.993
20
12 31 38.49
9.0314
3 56 14.9
9.861
21
10 54 34.88
9.1107
4 3 24.1
10.936
21
12 33 40.35
9.0305
4 6 5.7
9.833
22
10 56 41.45
9.1089
3 53 9.6
10.948
22
12 35 42.15
9.0996
4 15 54.9
9.805
23
10 58 47.87
TH1
9.1058
JRSD^
N. 3 42 54.4
LY 18.
10.959
23
12 37 43.90
SAG
9.0987
S. 4 25 42.3
LY 20.
9.776
0
11 0 54.15
9.1035
N. 3 32 38.5
10.970
0
12 39 45.59
9.0978
S. 4 35 28.0
9.747
1
11 3 0.29
9.1019
3 22 22.0
10.980
1
12 41 47.24
9.0971
4 45 11.9
9.716
2
11 5 6.29
9.0989
3 12 4.9
10.988
2
12 43 48.84
9.0963
4 54 53.9
9.685
3
11 7 12.16
9.0967
3 1 47.4
10.996
3
12 45 50.39
9.0955
5 4 34.1
9.653
4
11 9 17.89
9.0944
2 51 29.4
10.303
4
12 47 51.90
9.0948
5 14 12.3
9.691
5
11 11 23.49
9.0999
2 41 11.0
10.309
5
12 49 53.37
9.0949
5 23 48.6
9.588
6
11 13 28.96
9.0901
2 30 52.3
10.314
6
12 51 54.80
9.0935
5 33 22.9
9.555
7
11 15 34.30
9.0879
2 20 33.3
10.318
7
12 53 56.19
9.0998
5 42 55.2
9.590
8
11 17 39.51
9.0858
2 10 14.1
10.391
8
12 55 57.54
9.0999
5 52 25.3
9.484
9
11 19 44.60
9.0837
1 59 54.8
10.393
9
12 57 58.86
9.0917
6 . 1 53.3
9.448
10
11 21 49.56
9.0816
1 49 35.4
10.394
10
13 0 0.15
9.0919
6 11 19.1
9.419
11
11 23 54.39
9.0795
I 39 15.9
10.395
11
13 2 1.40
9.0906
6 20 42.7
9.375
12
11 25 59.10
9.0776
1 28 56.4
10.394
12
13 4 2.62
9.0901
6 30 4.1
9.337
13
11 28 3.70
9.0757
1 18 37.0
10.399
13
13 6 3.81
9.0197
6 39 23.2
9.998
14
11 30 8.18
9.0738
1 8 17.7
10.390
14
13 8 4.98
9.0199
6 48 39.9
9.959
15
11 32 12.55
9.0719
0 57 58.6
10.317
15
13 10 6.12
9.0188
6 57 54.3
9.990
16
11 34 16.81
9.0701
0 47 39.7
10.313
16
13 12 7.24
9.0185
7 7 6.3
9.179
17
11 36 20.96
9.0689
0 37 21.0
10.308
17
13 14 8.34
9.0161
7 16 15.8
9.138
18
11 38 25.00
9.0664
0 27 2.7
10.309
18
13 16 9.41
9.0177
7 25 22.9
9.097
19
11 40 28.93
9.0647
0 16 44.8
10.995
19
13 18 10.46
9.0174
7 34 27.5
9.055
20
11 42 32.76
9.0630
N. 0 6 27.3
10.988
20
13 20 11.50
9.0179
7 43 29.5
9.01 1
21
1 1 44 36.49
9.0613
S. 0 3 49.8
10.980
21
13 22 12.52
9.0169
7 52 28.8
8^67
22
11 46 40.12
9.0597
0 14 6.3
10.970
22
13 24 13.53
9.0167
8 1 25.5
8.993
23
11 48 43.65
9.0580
0 24 22.2
10.960
23
13 26 14.52
9.0164
8 10 19.6
8.879
24
11 50 47.08
9.0564
S. 0 34 37.5
10.949
24
13 28 15.50
9.0169
S. 8 19 11.0
8.833
X.
SEPTEMBER, 1884.
155
GEEENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
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
22
23
24
SUNDAY 21.
h
.13
13
13
13
13
13
13
13
13
13
13
13
13
13
13
13
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
15
15
15
m b
8
28 15.50
2.0162
30 16.47
S.016J
32 17.43
9.0160
34 18.39
9.0159
36 19.34
9.0158
38 20.28
9.0157
40 21.22
9.0157
42 22.16
9.0157
44 23.10
9.0157
46 24.04
9.0157
48 24.98
9.0157
50 25.92
9.0157
52 26.87
9.0158
54 27.82
9.0159
56 28.78
9.0161
58 29.75
9.0163
0 30.73
9 0164
2 31.72
9.0166
4 32.72
9.0168
6 33.73
9.0170
8 34.76
9.0179
10 35.80
9.0175
12 36.86
9.0178
14 37.94
9 0181
S. 8
8
8
8
8
9
9
9
9
9
9
9
10
10
•10
10
10
10
10
10
11
11
11
S.ll
19 11.0
27 59.6
36 45.5
45 28.6
54 8.8
2 46.1
J J 20.6
19 52.1
28 20.6
36 46.1
4") 8.6
53 28.0
1 44.3
9 57.4
18 7.4
26 14.2
34 17.7
42 18.0
50 15.0
58 8.7
5 59.0
13 45.9
21 29.4
29 9.5
MONDAY 22.
16 39.03
18 40.14
20 41.27
22 42.42
24 43.60
26 44.80
28 46.02
30 47.27
32 48.54
34 49.84
36 51.17
38 52.52
40 53.90
42 55.31
44 56.75
46 58.22
48 59.73
51 1.27
2.84
4.44
6.08
7.75
9.46
11.20
12.98
9.0183
9.0187
9.0190
9.0194
9.0198
9.0909
9.0906
9.0910
9.0914
9.0919
9.0993
9.0997
9.0939
9.0937
9.0949
9.0948
9.0954
9.0959
9.0964
9.0970
9.0976
9.0989
9.0987
9.0993
9.0300
S.ll 36 46.1
11 44 19.2
1 1 51 48.7
11 59 14.7
12 6 37.1
12 13 55.9
12 21 11.1
12 28 22.6
12 35 30.4
12 42 34.5
12 49 34.8
12 56 31.4
13 3 24.2
13 10 13.2
13 16 58.3
13 23 39.5
13 30 16.8
13 36 50.2
13 43 19.7
13 49 45.2
13 56 6.7
14 2 24.2
14 8 37.6
14 14 47.0
S.14 20 52.3
8.833
8.787
8.741
8.694
8.646
8.598
&550
8.500
8.450
8.400
8.349
8.997
8.945
8.193
8.140
6.086
8.039
7.977
7.999
7.867
7.810
7.753
7.696
7.639
. 7.581
7.599
7.469
7.403
7.343
7.983
7.282
7.161
7.099
7.037
6.974
6.911
6.848
6.784
6.719
6.654
6.589
6.594
6.458
6.399
6.395
6.957
6.190
6.199
6.054
Hour.
Bight Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
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
22
23
24
TUESDAY 23.
h
15
15
15
15
15
15 15
15 17
15 19
15 21
15 23
15 25
15 27
15 29
15 31
15 33
15 35
15 37
15 39
15 41
15 43
15 45
15 47
15 50
15 52
8
8
12.98
9.0300
14.80
9.0307
KUi6
9.0313
18.55
9.0319
20.48
9.0395
22.45
9.0339
24.46
9.0338
26.51
9.0345
28.60
9.0359
30.73
9.0358
32.90
9.0365
35.11
9.0379
37.36
9.0379
39.65
9.0386
41.99
9.0393
44.37
9.0400
46.79
9.0407
49.25
9.0414
51.76
9.0491
54.31
9.0498
56.90
9.0436
59.54
9.0443
2.22
9.0451
4.95
9.0458
S.14 20 5&3
14 26 53.5
14 32 50.6
14 38 43.5
14 44 32.2
14 50 16.7
14 55 57.1
15 1 a3.2
15 7 5.0
15 12 32.6
15 17 55.9
15 23 14.9
15 28 29.5
15 33 39.8
15 38 45.7
15 43 47.2
15 48 44.3
15 53 37.0
15 58 25.2
16 3 9.0
16 7 48.3
16 12 23.1
16 16 53.4
S.16 21 19.1
WEDNESDAY 24.
15 54
15 56
15 58
16 0
16
16
16
16
16 10
16 12
16 14
16 16
16 18
16 20
16 22
16 24
16 26
16 29
16 31
16 33
16 35
16 37
16 39
16 41
16 43
7.72
9.0465
S.l
10.53
9.0479
1
13.39
9.0480
1
16.29
9.0487
ll
19.23
9.0494
1
22.22
9.0509
1
25.25
9.0509
1
28.33
9.0517
14
31.45
9.0594
1
34.61
9.0531
37.82
9.0538
41.07
9.0545
44.36
9.0559
47.70
9.0560
51.08
9.0567
54.50
9.0574
57.96
9.0581
1.47
9.0588
5.02
9.0595
8.61
9.0609
12.24
9.0609
15.92
9.0616
19.64
9.0693
23.40
9.0699
27.19
9.0636
S.l
6 25 40.3
6 29 56.9
6 34 9.0
6 38 16.5
6 42 19.4
6 46 17.6
6 50 11.2
6 54 0.1
6 57 44.4
7 1 24.0
4 58.9
8 29.0
11 54.4
15 15.1
18 31.0
21 42.1
24 48.5
27 50.1
30 46.9
a? 38.9
36 26.0
39 8.3
41 45.8
44 18.4
46 46.1
6.054
5.966
5.917
5.847
5.777
5.707
5.637
5.566
5.495
5.494
5.359
5.980
5.907
5.135
5.069
4.988
4.915
4.841
4.767
4.699
4.617
4.549
4.467
4.391
4.315
4.939
4.163
4.066
4.009
3.939
3.854
3.777
3.699
3.691
3.549
3.463
3.384
3.305
3.995
3.146
3.067
9.987
9.907
9.896
9.745
9.665
9.584
9.503
9.499
156
SEPTEMBER, 1884
XL
GREENWICH MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
Hoar.
Bight Ascension.
Diflf. for
1 Minute.
Declination.
Diflf. for
I Minute.
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
22
23
24
THURSDAY 25.
h m
16 43
16 45
16 47
16 49
16 51
16 53
16 55
16 57
16 59
17 2
17 4
17 6
17 8
17 10
17 12
17 14
17 16
17 18
17 20
17 22
17 24
17 26
17 29
17 31
17
17
17
17
17
17
17
17
17
17
17
17
17
18
18
18
18
18
18
18
18
18
18
18
18
8
B
27.19
3.0636
s.r
31.03
3.0643
34.91
3.0650
38.83
3.0657
42.79
3.0663
46.78
3.0669
50.81
3.0675
54.88
3.0683
11
58.99
3.0668
11
3.14
3.0695
11
7.33
3.0703
1
11.56
3.0708
1
15.82
3.0713
11
20.12
3.0719
11
24.45
3.0735
11
28.82
3.0731
1
33.22
3.0737
11
37.66
3.0743
11
42.13
3.0748
11
46.64
8.0754
11
51.18
3.0759
1!
55.75
8.0764
11
0.35
3.0770
li
4.99
3.0776
S.1
46 46.1
49 9.0
51 27.0
53 40.0
55 48.1
57 51.3
59 49.6
1 42.9
3 31.3
5 14.7
6 53.2
8 26.7
9 55.2
8 11 18.7
8 12 37.2
8 13 50.7
8 14 59.2
8 16 2.7
8 17 1.2
8 17 54.6
8 18 43.0
8 19 26.4
8 20 4.7
8 20 37.9
FRIDAY 26.
33 9.66
3.0781
S.1
35 14.36
3.0786
1
37 19.09
3.0791
1
39 23.85
3.0796
1
41 28.64
3.0801
1
43 33.46
3.0805
1
45 38.30
3.0809
1
47 43.17
3.0814
1
49 48.07
3.0819
1
51 53.00
3.0834
1
53 57.96
3.0838
1
56 2.94
3.0833
1
58 7.95
3.0837
1
0 12.98
3.0841
1
2 18.04
3.0845
1
4 23.12
3.0848
1
6 28.22
3.0653
1
8 33.&5
3.0856
1
10 38.50
3.0860
1
12 43.67
3.0864
1
14 48.87
3.0866
1
16 54.09
3.0873
1
18 59.33
3.0875
1
21 4.59
3.0878
1
23 9.86
3.0881
S.1
8 21 6.1
8 21 29.2
8 21 47.2
8 22 0.2
8 22 8.1
8 22 10.9
8 22 8.7
8 22 1.4
8 21 48.9
8 21 31.3
8 21 8.7
8 20 41.0
8 20 8.1
8 19 30.1
8 18 47.1
8 17 59.0
8 17 5.8
8 16 7.4
8 15 3.9
8 13 55.3
8 12 41.6
8 11 22.8
8 9 58.9
8 8 29.9
8 6 55.8
3.433
3.341
3.359
3.176
3.094
3.013
1.930
1.847
1.765
1.683
1.600
1.517
1.433
1.350
1.367
1.163
1.100
1.016
0.939
0.848
0.765
0.661
0.596
0.513
0.437
0.343
0.358
0.174
0.089
-0.005
+ 0.079
0.165
0.351
0.335
0.419
0.505
0.591
0.675
0.759
0.844
0.930
1.016
1.101
1.186
1.371
1.356
1.441
1.538
1.611
Hoar.
Bight
Diflf. for
1 Minute.
Declination.
Diftfor
1 Minute.
SATURDAY 27.
h m 8
B
18 23 9.86
3.0881
18 25 15.16
3.0685
18 27 20.48
3.0888
18 29 25.81
3.0890
18 31 31.16
3.0893
18 33 36.53
3.0897
18 35 41.92
3.0900
18 37 47.33
8.0909
18 39 52.75
3.0905
18 41 58.19
3.0908
18 44 3.65
8.0911
18 46 9.12
2.0913
18 48 14.61
3.0916
18 50 20.11
3.0918
18 52 25.63
•3.0931
18 54 31.16
3.0994
18 56 36.71
3.0938
18 58 42.27
3.0938
19 0 47.84
3.0930
19 2 53.43
9.0939
19 4 59.03
30)934
19 7 4.64
3.0937
19 9 10.27
9.0939
19 11 15.91
9.0941 S.
6 55.8
5 16.6
3 32.3
1 42.8
59 48,3
57 48.7
55 44.0
53 34.2
51 19.3
17 48 59.3
17 46 34.2
7 44 4.1
7 41 28.9
7 38 48.6
7 36 3.3
17 33 12.9
7 30 17.5
27 17.0
24 11.4
21 0.8
17 45.2
14 24.6
10 58.9
7 28.2
SUNDAY 28.
19 13
19 15
19 17
19 19
19 21
19 23
19 25
19 28
19 30
19 32
19 34
19 36
19 38
19 40
19 42
19 44
19 46
19 48
19 51
19 58
19 55
19 57
19 59
20 1
20 3
21.56
3.0943
S.1
27.22
30)945
32.90
90)947
14
38.59
9.0949
14
44.29
3.0951
14
50.00
9.0953
14
55.72
3.0954
1
1.45
3.0957
14
7.20
3.0959
14
12.96
3.0961
14
18.74
3.0963
14
24.52
30)964
14
30.31
3.0966
14
36.11
30)968
14
41.93
9.0971
14
47.76
3.0973
14
53.60
3.0974
1
59.45
3.0977
1
5.32
3.0979
1
11.20
9.0981
1
17.09
8.0963
•t
22.99
8.0984
j
28.90
3.0987
i
34.83
3.0989
1
40.77
3.0991
S.1
3 52.5
0 11.8
6 56 26.1
6 52 35.5
6 48 39.9
6 44 39.4
6 40 33.9
6 36 23.5
6 32 8.1
6 27 47.8
6 23 22.6
6 18 52.5
6 14 17.5
6 9 37.6
4
0
55
50
45
52.9
3.3
8.9
9.6
5.5
39 56.6
34 43.0
29 24.6
24 1.4
18 33.5
13 0.8
4.611
10196
1.789
1.867
1J)51
9.036
3.131
3.306
9.291
3.376
3.460
SO>44
3.639
3.713
3.797
3.966
3.051
3.135
3.318
30103
3.386
3.470
3.637
3.730
30309
3.885
3.967
4.050
4.139
4.315
4£97
40)79
4.461
4.543
4.634
4.705
4.786
4.667
40)47
5.038
5.108
5.187
5.367
50*47
5.436
50>05
5.584
XII.
SEPTEMBER, 1884.
157
GBEENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
0
1
2
3
4
5
6
7
S
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
22
23
24
Diff.for
1 Minute.
Declination.
Diff.for
1 Minute.
Hour.
MONDAY 29.
h m
20 3
20 5
20 7
20 9
20 12
20 14
20 16
20 18
20 20
20 22
20 24
20 26
20 28
20 30
20 33
20 &5
20 37
20 39
20 41
20 43
20 45
20 47
20 49
20 52
20 54
20 56
20 58
21 0
s
8
40.77
2.0991
46.72
8.0993
52.69
9.0996
58.67
9.0998
4.67
9.1001
10.68
9.1003
16.71
3.1006
22.75
9.1008
28.81
9.1011
34.88
9.1013
40.97
9.1017
47.08
8.1090
53.21
9.1093
59.36
9.1096
5.52
8.1089
11.70
9.1039
17.90
9.1035
24.12
9.1039
30.37
9.1043
36.64
9.1047
42.93
9.1050
49.24
9.1054
55.58
9.1058
1.94
8.1069
S.15 13 0.8
15 7 23.4
15 1 41,3
14 55 54.6
14 50 3.2
14 44 7.1
14 38 6.4
14 32 1.1
14 25 51.2
14 19 36.7
14 13 17.7
14 6 54.1
14 0 26.0
13 53 53.4
13 47 16.3
13 40 34.8
13 33 48.9
13 26 58.5
13 20 3.7
13 13 4.5
13 6 1.0
12 58 53.2
12 51.41.1
S.12 44 24.7
TXJESpAY 30.
21
21
21
21
21 11
21 13
21 15
21 17
21 19
21 21
21 23
21 25
21 27
21 30
21 32
21 34
21 36
21 38
21 40
21 42
21 44
8.32
14.73
21.17
27.64
34.14
40.67
47.22
53.81
0.43
7.08
13.77
20.49
27.25
34.05
40.89
47.76
54.67
1.63
8.63
15.67
22.76
29.90
37.09
44.32
51.60
9.1066
9.1071
9.1076
3.1081
9.1086
3.1090
3.1095
3.1101
9.1106
3.1119
9.1117
3.1133
3.1130
9.1137
3.1143
9.1149
9.1156
3.1163
3.1170
3.1178
3.1186
9.1194
9.1309
9.1909
8.1917
S.12 37 4.0
12 29 39.1
12 22 10.0
12 14 36.7
12 6 59.3
11 59 17.7
11 51 32.1
11 43 42.4
11 35 48.6
11 27 50.8
11 19 49.0
11 11 43.2
11 3 33.5
10 55 19.9
10 47 2.4
10 38 41.1
10 30 16.0
10 21 47.1
10 13 14.5
10 4 38.2
9 55 58.2
9 47 14.5
9 38 27.2
9 29 36.4
S. 9 20 42.0
5.584.
5.740
6.818
5.806
5.973
6X50
6.197
6.803
6.979
6.355
6.431
8.506
6.581
6.655
6.798
6.808
6.876
6X50
7.098
7X94
7.166
7X37
7X09
7X80
7.450
7.590
7X89
7.658
7.786
7.794
7.863
7.930
7.997
8.063
8.139
8.194
8.359
8X93
8X87
8.450
8X19
8X74
8.636
6.698
8.758
8.817
8.877
8.936
Bight Ascension.
Biff for
1 Minute.
Declination.
Diff.for
1 Minute.
WEDNESDAY, OCTOBEE 1.
h m s
21 44 51.60
9J917 ,8. 9 20 42.0
8X36
PHASES OF THE MOON.
O Full Moon .
<£ Last Quarter.
# New Moon .
3> First Quarter
d h m
4 22 55.8
11 20 16.4
18 21 37.0
26 22 20.8
a h
<C Perigee 10 6.0
<£ Apogee 25 6.0
158
SEPTEMBER, 1884.
XIII.
GREENWICH MEAN TIME.
•
LUNAR DISTANCES.
c
P.L.
P.L.
P.L.
P.L.
Name and Direction
Noon.
of
IHh.
of
VPu
of
IXfc.
of
1*
of Object
Diff.
Diff.
Diff.
Diff.
1
Spica
Mars
W.
89 56 37
9885
o / //
91 29 14
9873
O 1 It
93 2 7
9869
94° 35' 15
9850
W.
89 29 2
3116
90 56 52
3104
92 24 57
3091
93 53 17
3078
An tares
w.
44 50 35
9981
46 21 12
9964
47 52 10
9947
49 23 29
9931
Fomolhaut
E.
47 24 42
3736
46 8 33
3769
44 52 59
3808
43 38 5
3853
a Pegasi
a Arietis
E.
59 56* 17
3158
58 29 19
3157
57 2 18
3155
55 35 15
3154
E.
102 52 45
9978
101 22 5
9965
99 51 9
9953
98 19 57
9939
2
Spica
W.
102 24 53
9787
103 59 38
9773
105 34 41
9760
107 10 1
9747
Antares
W.
57 5 8
9859
58 38 28
9837
60 12 8
9891
61 46 8
9806
Fomalhaut
E.
37 37 4
4164
36 28 23
4983
35 21 15
4396
34 15 50
4596
a Pegasi
a Arietis
E.
48 20 12
3168
46 53 24
3175
45 26 45
3165
44 0 18
3198
E.
90 39 49
9875
89 6 58
9869
87 33 50
9848
86 0 25
9836
3
Antares
W.
69 41 2
9739
71 16 59
9718
72 53 15
9704
74 29 50
9689
a Arietis
E.
78 9 15
9773
76 34 12
9769
74 58 54
9750
73 23 20
9738
Aldebaran
E.
111 7 33
9677
109 30 22
9663
107 52 53
9649
106 15 5
9636
4
Antares
W.
82 37 24
9699
84 15 49
9609
85 54 32
9596
87 33 32
9564
a AquilflB
W.
38 32 0
3770
39 47 33
3677
41 4 45
3591
42 23 29
3514
a Arietis
E.
65 21 50
9686
63 44 51
9677
62 7 40
9668
60 30 17
9660
Aldebaran
E.
98 1 39
9579
96 22 5
9559
94 42 14
9547
93 2 6
9534
5
Antares
W.
95 52 39
9597
97 33 15
9516
99 14 6
9506
100 55 11
9496
a Aquilffi
W.
49 16 32
3914
50 42 25
3168
52 9 12
3195
53 36 51
3086
a Arietis
E.
52 20 56
9630
50 42 42
9696
49 4 23
9635
47 26 2
9694
Aldebaran
E.
84 37 13
9476
82 55 26
9465
81 13 24
9455
79 31 7
9444
Saturn
E.
99 36 27
9500
97 55 14
9489
96 13 45
9478
94 32 1
9468
6
a Aquilee
W.
61 6 5
9997
62 37 49
9903
64 10 4
*9880
65 42 49
9858
Aldebaran
E.
70 56 7
9396
69 12 27
9388
67 28 35
9380
65 44 31
9371
Saturn
E.
85 59 49
9419
84 16 42
9411
82 33 23
9103
80 49 52
9394
7
a Aquilee
W.
73 32 56
9779
75 8 0
9759
76 43 22
9747
78 19 0
9736
Fomalhaut
W.
43 46 6
3977
45 10 44
3915
46 36 35
3159
48 3 33
3109
a Pegasi
W.
27 2 4
3488
28 22 41
3357
29 45 47
3946
31 11 2
3151
Aldebaran
E.
57 1 26
9337
55 16 20
9331
53 31 5
9394
51 45 41
9319
Saturn
E.
72 9 32
9359
70 24 59
9353
68 40 17
9348
66 55 27
9343
Venus
E.
108 34 32
9608
106 55 48
9609
105 16 56
9596
103 37 56
9591
8
Fomalhaut
W.
55 32 1
9919
57 3 56
9891
58 36 26
9866
60 9 29
9849
a Pegasi
W.
38 41 26
9835
40 15 8
9794
41 49 44
9756
43 25 9
9794
Aldebaran
E.
42 56 55
9998
41 10 52
9994
39 24 44
9991
37 38 31
9988
Saturn
E.
58 9 33
9399
56 24 5
9318
54 38 32
9315
52 52 55
9313
Pollux
E.
86 23 14
9390
84 39 25
9387
82 55 31
9384
81 11 33
9389
Venus
E.
95 21 16
9570
93 41 42
9566
92 2 1
9564
90 22 16
9561
9
Fomalhaut
W.
68 1 21
9756
69 36 46
9744
71 12 28
9733
72 48 24
9794
a Pegasi
W.
51 31 38
9607
53 10 23
9591
54 49 31
9576
56 28 59
9563
Saturn
E.
44 4 8
9307
42 18 18
9306
40 32 27
9307
38 46 37
9307
Pollux
E.
72 31 15
9380
70 47 11
9380
09 3 8
9383
67 19 7
9384
Venus
E.
82 2 46
9559
80 22 45
9551
78 42 43
9551
77 2 41
9551
Jupiter
E.
103 8 29
9355
101 23 49
9353
99 39 7
9353
97 54 24
9359
Sun
E.
127 37 16
9588
125 58 5
9587
124 18 52
9585
122 39 37
9584
XIV.
SEPTEMBER, 1884.
159
GREENWICH MEAN TIME.
LUNlE DISTANCES.
*4
1*
P.L.
P.L.
P.L.
P.L.
Name and Direction
of Object.
Midnight.
of
Diff.
XV*.
of
Diff.
xvnr*.
Of
Diff.
xxi*.
of
Diff.
1
Spica
Mars
W.
96 8 38
9838
97 42 17
9895
99 16 13
9819
100 50 25
9800
w.
95 21 53
9066
96 50 44
3059
98 19 52
3039
99 49 16
3096
Ad tares
w.
50 55 8
2915
52 27 8
9899
53 59 28
9883
55 32 8
9868
Fomnlhaut
E.
42 23 57
3903
41 10 40
3960
39 58 21
4095
38 47 6
4100
a Pegasi
E.
54 8 11
3154
52 41 7
3156
51 14 5
3158
49 47 6
3163
a Arietis
E.
96 48 28
3997
95 16 43
9914
93 44 42
9901
92 12 24
9887
2
Spica
W.
108 45 38
9734
110 21 33
9791
111 57 45
9708
113 34 14
9695
Antares
W.
63 20 28
9799
64 55 7
9776
66 30 6
9769
68 5 24
9747
Fomalhaut
E.
33 12 21
4677
32 11 2
4859
31 12 8
5054
30 15 55
5999
a Pegasi
E.
42 34 6
3913
41 8 12
3931
39 42 40
3954
38 17 35
3982
a Arietis
E.
84 26 44
9693
82 52 46
9811
81 18 32
9798
79 44 2
9785
3
Antares
W.
76 6 44
9675
77 43 57
9069
79 21 28
9649
80 59 17
9635
a Arietis
E.
71 47 31
9797
70 11 27
9716
68 35 9
9705
66 58 36
9695
Aldebaran
E.
104 36 59
9693
102 58 35
9610
101 19 54
9597
99 40 55
9585
4
Antares
W.
89 12 49
9579
90 52 22
9560
92 32 12
9548
94 12 18
9538
otAquil®
W.
43 43 38
3443
45 5 6
3378
46 27 48
3319
47 51 38
3264
a Arietis
E.
58 52 43
9659
57 14 59
9646
55 37 6
9640
53 59 5
9634
Aldebaran
E.
91 21 40
9599
89 40 58
9511
87 59 59
9499
86 18 44
9487
5
Antares
W.
102 36 30
2487
104 18 2
9478
105 59 46
9469
107 41 43
9461
a Aquilie
a Arietis
W.
55 5 18
3050
56 34 29
3016
58 4 22
9984
59 34 55
9954
E.
45 47 40
9695
44 9 19
9697
42 31 1
9639
40 52 49
9638
Aldebaran
E.
77 48 35
9434
76 5 49
9494
74 22 48
9415
72 39 34
9405
N,
Saturn
E.
92 50 3
9458
91 7 50
9448
89 25 23
9438
87 42 43
9499
6
aAquilad
W.
67 16 2
9837
68 49 42
9818
70 23 46
9809
71 58 11
9787
Aldebaran
E.
64 0 15
9364
62 15 48
9357
60 31 1 i
9349
58 46 23
9343
Saturn
E.
79 6 9
9387
77 22 15
9380
75 38 11
9379
73 53 56
9366
7
aAquils
W.
79 54 52
9796
81 30 57
9717
83 7 14
9710
84 43 41
9704
Fomalhaut
W.
49 31 32
3063
51 0 27
3099
52 30 13
9984
54 0 46
9950
a Pegasi
W.
32 38 10
3069
34 6 57
9998
35 37 12
9936
37 8 45
9883
Aldebaran
E.
50 0 9
9314
48 14 30
9310
46 28 45
9305
44 42 53
9301
Saturn
E.
65 10 30
9337
63 25 25
9333
61 40 14
9398
59 54 56
2325
Venus
E.
101 58 49
9586
100 19 35
9589
96 40 15
9577
97 0 49
9574
8
Fomalhaut
W.
61 43 2
9891
63 17 2
9809
64 51 27
9785
66 26 14
9770
a Pegasi
W.
45 1 17
9695
46 38 4
9669
48 15 25
9646
49 53 18
9626
Aldebaran
E.
35 52 14
9365
34 5 53
9983
32 19 29
9969
30 33 3
9281
Saturn
E.
51 7 15
9311
49 21 31
9309
47 35 45
9308
45 49 57
9307
Pollux
E.
79 27 32
9380
77 43 29
9380
75 59 25
9379
74 15 20
9379
Venus
E.
88 42 28
9559
87 2 37
9557
85 22 43
9555
83 42 46
9553
9
Fomalhaut
W.
74 24 32
9716
76 0 51
9708
77 37 20
9701
79 13 58
9696
a Pegasi
W.
58 8 45
9551
59 48 47
9540
61 29 4
9539
63 9 a3
* 9524
Saturn
E.
37 0 48
9309
35 15 1
9310
a3 29 16
9319
31 43 34
9315
Pollux
E.
£5 35 9
9387
63 51 15
9389
62 7 25
9394
60 23 41
9398
Venus
E.
75 22 39
9551
73 42 36
9551
72 2 a?
9551
70 22 31
9551
Jupiter
E.
96 9 40
9350
94 24 54
9350
92 40 7
9350
90 55 20
9350
Sun
E.
121 0 20
9583
119 21 2
9583
117 41 44
9583
116 2 25
9589
160
SEPTEMBER, .1884.
XV.
GREENWICH MEAN TIME.
LUNAB DISTANCES.
C
53
P.L.
P.L.
P.L.
P.L.
*I
Name and Direction
Noon.
Of
nih.
of
VPi.
of
EX*.
of
I1
of Object.
Diff.
Diff.
Diff.
Diff.
10
Fomalhaut
W.
80 50 43
9693
82 27 33
9600
Q t It
84 4 26
9688
85° 41 22
9687
crPegasi
W.
64 50 13
9517
66 31 3
9511
68 12 1
9505
69 53 7
9501
Pollux
E.
58 40 3
2403
56 56 32
9409
55 13 10
9416
53 29 58
9494
Venus
E.
68 42 30
9553
67 2 30
9554
65 22 32
9555
63 42 35
9556
Jupiter
E.
89 10 34
9350
87 25 48
9350
85 41 2
9351
83 56 17
9359
Regulus
E.
94 31 40
9983
92 45 16
9983
90 58 52
9983
89 12 28
9984
Sun
E.
114 23 5
9583
112 43 45
9563
HI 4 26
9583
109 25 8
9584
11
Fomalliaut
W.
93 46 0
9695
95 22 47
9698
96 59 29
9704
98 36 4
9710
aPegasi
a Arietis
W.
78 19 49
9489
80 1 18
9489
81 42 47
9489
83 24 16
9489
W.
34 46 58
9569
36 26 a5
9548
38 6 42
9599
39 47 15
9513
Pollux
E.
44 57 9
9478
43 15 25
9494
41 34 3
9511
39 53 5
9530
Venus
E.
55 23 26
9567
53 43 46
9569
52 4 9
9579
50 24 36
9575
Jupiter
E.
75 12 58
9359
73 28 25
9369
71 43 55
9364
69 59 29
9367
Regulus
E.
80 20 54
9999
78 34 43
9994
76 48 34
9996
75 2 28
9998
Sun
E.
101 8 59
9591
99 29 51
9599
97 50 45
9594
96 11 42
9597
12
Fomalhaut
W.
106 36 30
9755
108 11 57
9768
109 47 7
9781
111 22 0
9795
aPegasi
a Arietis
W.
91 51 13
9500
93 32 26
9504
95 13 34
9507
96 54 37
9519
W.
48 14 27
9465
49 56 30
9459
51 38 41
9455
53 20 58
9450
Venus
E.
42 7 57
9593
40 28 52
9596
38 49 52
9601
37 10 58
9606
Jupiter
E.
61 18 16
9381
59 34 14
9385
57 50 18
9389
56 6 27
9393
Regulus
E.
66 12 54
9311
64 27 11
9315
62 41 33
9319
60 56 1
9393
Sun
E.
87 57 19
9610
86 18 37
9619
84 39 59
9615
83 1 25
9619
13
a Arietis
W.
61 53 23
9443
63 35 56
9443
65 18 29
9443
€7 1 2
9444
Aldebaran
W.
27 59 45
9397
29 45 5
9331
31 30 19
9335
33 15 28
9338
Venus
E.
28 58 9
9639
27 19 57
9638
25 41 54
9646
24 4 1
9653
Jupiter
E.
47 28 44
9416
45 45 32
9491
44 2 27
9497
42 19 31
9433
Regulus
E.
52 9 44
9343
50 24 47
9348
48 39 57
9353
4G 55 14
9357
Sun
E.
74 49 48
9638
73 11 44
9641
71 33 45
9646
69 55 52
9649
14
a Arietis
W.
75 33 13
9456
77 15 28
9459
78 57 39
9463
80 39 44
9467
Aldebaran
W.
41 59 51
9359
43 44 25
9363
45 28 53
9368
47 13 14
9373
Jupiter
E.
33 47 15
9479
32 5 22
9489
30 23 43
9499
28 42 19
9504
Regulus
E.
38 13 39
9389
36 29 48
9396
34 46 8
9404
33 2 39
9413
Sun
E.
61 47 55
9679
60 10 38
9678
58 33 28
9684
56 56 26
9689
15
a Arietis
W.
89 8 38
9499
90 50 3
9497
92 31 20
9504
94 12 28
9511
Aldebaran
W.
55 53 11
9399
57 36 47
9405
59 20 15
9411
61 3 34
9417
Sun
E.
48 53 9
9718
47 16 53
9795
45 40 46
9739
44 4 48
9738
16
or Arietis
W.
102 35 39
9548
104 15 45
„ 9557
105 55 39
9566
107 35 20
9576
Aldebaran
W.
69 37 54
9450
71 20 18
9458
73 2 31
9465
74 44 34
9479
Sun
E.
36 7 18
9775
34 32 18
9784
32 57 29
9799
31 22 50
9601
20
Sun
W.
13 2 5
3131
14 29 37
3138
15 57 1
3146
17 24 15
3156
•Antares
E.
57 18 24
9831
55 44 36
9845
54 11 6
9859
52 37 55
9874
a Aquila
E.
106 49 31
3194
105 23 15
3198
103 57 4
3904
102 30 59
3910
21
Sun
W.
24 37 24
3906
26 3 24
3919
27 29 11
3930
28 54 45
3940
Antares
E.
44 56 50
9953
43 25 38
9970
41 54 48
9988
40 24 20
3006
a Aquila?
E.
95 22 38
3948
93 57 26
3958
92 32 25
3968
91 7 36
3978
XVI.
SEPTEMBER, 1884.
161
GREENWICH MEAN TIME.
LUNAR DISTANCES.
O
sr
Name and Direction
of Object.
Midnight
P.L.
of
Diff.
XVn.
P.L.
of
Diff.
xvm*.
P.L.
of
Diff.
XXI*.
P.L.
of
Diff.
10
Fomalhaut
W.
87 18 li'i
9687
O I II
88 55 17
9687
90 32 14
9689
92 9 9
9699
or Pega.si
w.
71 34 19
9497
73 15 36
9494
74 56 57
9493
76 38 22
9490
Pollux
E.
51 46 57
9433
50 4 8
9441
48 21 32
9453
46 39 12
9465
Venus
E.
62 2 40
9556
60 22 47
9560
58 42 57
9563
57 3 10
9564
Jupiter
E.
82 11 33
9353
80 26 51
9355
78 42 11
93^6
9988
76 57 .33
9358
Regulus
E.
87 26 5
9985
85 39 44
9387
83 53 25
82 7 8
9990
Sun
E.
107 45 51
9585
106 6 35
9586
104 27 21
9588
102 48 9
9589
11
Fomalhaut
W.
100 12 30
9717
101 48 47
9735
103 24 53
9734
105 0 48
9744
a Pegasi
a Anetis
W.
85 5 44
9400
86 47 11
9493
88 28 35
9494
90 9 56
9497
W.
41 28 10
9500
43 9 23
9489
44 50 52
9480
46 32 34
9473
Pollux
E.
38 12 34
9553
36 32 34
9578
34 53 9
9607
33 14 24
9640
Venus
E.
48 45 7
9578
47 5 42
9583
45 26 22
9585
43 47 7
9589 '
Jupiter
E.
68 15 7
9369
66 30 48
9373
64 46 33
9375
63 2 22
9378
Regulus
E.
73 16 26
9300
71 30 27
9303
69 44 32
9306
67 58 41
9309
Sun
E.
94 32 43
9599
92 53 47
9601
91 14 54
9604
89 36 5
9607
12
Fomalhaut
W.
112 56 34
9811
114 30 47
9839
116 4 37
9848
117 38 2
9869
a Pegasi
W.
98 35 33
9517
100 16 22
9533
101 57 3
9539
103 37 36
9536
a Arietis
W.
55 3 21
9448
56 45 48
9445
58 28 18
9444
60 10 50
9443
Venus
E.
35 32 11
9610
33 53 30
9615
32 14 56
9631
30 36 29
9636
Jupiter
E.
54 22 42
9397
52 39 3
9401
50 55 30
3406
49 12 4
9410
Regulus
E.
59 10 35
9396
57 25 14
9330
55 39 58
9334
53 54 48
9338
Sun
E.
81 22 56
9693
79 44 32
9636
78 6 12
9699
76 27 57
9634
13
a Arietis
W.
68 43 34
9445
70 26 4
9448
72 8 31
9450
73 50 54
9453
Aldebaran
W.
35 0 32
9343
36 45 30
9346
38 30 23
9350
40 15 10
9354
Venus
E.
22 26 18
9661
20 48 46
9670
. 19 11 26
9681
17 34 21
9694
Jupiter
E.
40 36 44
9440
38 54 6
9447
37 11 38
9455
35 29 21
9463
Regulus
E.
45 10 38
9363
43 26 10
9369
41 41 51
9375
39 57 40
9389
Sun
E.
68 18 4
9654
66 40 22
9659
65 2 47
9663
63 25 18
9668
14
a Arietis
W.
82 21 44
9471
84 3 38
9476
85 45 25
9481
87 27 5
9486
Aldebaran
W.
48 57 28
9378
50 41 35
9383
52 25 35
9388
54 9 27
9394
Jupiter
E.
27 1 11
9518
25 20 23
9534
23 39 57
9559
21 59 56
9574
Regulus
E.
31 19 23
• 3433
29 36 20
9433
27 53 32
9445
26 11 1
9458
Sun
E.
55 19 32
9695
53 42 45
9700
52 6 5
9706
50 29 33
9713
15
a Arietis
W.
95 53 26
9517
97 34 15
3535
99 14 54
9533
100 55 22
9540
Aldobaran
W.
62 46 44
9494
64 29 45
9430
66 12 37
9436
67 55 20
3443
Sun
E.
42 28 59
9746
40 53 20
9753
39 17 50
9760
37 42 29
9767
16
a Arietis
W.
109 14 48
9586
110 54 2
9596
112 33 2
9607
114 11 48
9618
Aldebaran
W.
76 26 26
9480
78 8 8
9487
79 49 39
9496
81 30 58
9504
Sun
E.
29 48 23
9810
28 14 8
9819
26 40 5
9898
25 6 14
9837
20
Sun
W.
18 51 17
3166
20 18 7
3176
21 44 45
3186
23 11 11
3197
Antares
E.
51 5 3
9889
49 32 30
9904
48 0 16
9930
46 28 23
9936
a Aquito
E.
101 5 2
3317
99 39 13
3334
98 13 32
3331
96 48 0
3340
21
Sun
W.
30 20 7
3351
31 45 16
3369
33 10 12
3373
34 34 56
3383
Antares
E.
38 54 15
3036
37 24 34
3046
35 55 18
3068
34 26 29
3091
aAquito
E.
89 42 59
3388
88 18 34
3999
86 54 21
3311
85 30 22
3399
11
162
SEPTEMBER, 1884.
XVIL
GEEENWICH MEAN TIME.
LUNAR DISTANCES.
Name and Direction
Noon.
P.L.
of
HTh.
P.L.
of
VPi.
P.L.
of
DP».
P.L.
of
f
of Objeot.
Diff.
Diff.
Diff.
Diff.
22
Sun
W.
35 59 27
3294
37° 23 46
3303
38° 47 54
3313
O / //
40 11 51
3393
Antares
E.
32 58 8
3115
31 30 17
3149
30 2 58
3171
28 36 14
3304
a A qui he
E.
84 6 36
3334
82 43 4
3346
81 19 46
3359
79 56 43
3379
23
Sun
W.
47 8 49
3367
48 31 43
3376
49 54 27
3383
51 17 3
3391
Spica
W.
26 9 47
3093
27 39 32
3038
29 9 10
3033
30 38 42
3039
a Aquilee
E.
73 5 18
3443
71 43 50
3458
70 22 39
3473
69 1 45
3489
24
Sun
W
58 8 4
3422
59 29 56
3437
60 51 42
3431
62 13 23
3435
Spica
Mars
W.
38 4 50
3061
39 33 47
3065
41 2 40
3068
42 31 29
3071
W.
22 19 42
3396
23 43 23
3399
25 7 1
3339
26 30 36
3333
a Aquilffi
E.
62 21 58
3579
61 3 1
3599
59 44 26
3091
58 26 14
3643
Fomalhaut
E.
93 34 0
3469
92 12 53
3466
90 51 51
3470
89 30 53
3473
25
Sun '
W.
69 0 52
3448
70 22 14
3450
71 43 34
3451
73 4 53
3451
Spica
Mars
W.
49 54 43
3083
51 23 15
3063
52 51 46
3083
54 20 17
3089
W.
33 27 56
3343
34 51 18
3343
36 14 40
3343
37 38 2
3343
a Aquilae
E.
52 1 34
3773
50 46 4
3805
49 31 7
3838
48 16 44
3875
Fomalhaut
E.
82 47 10
3495
81 26 40
3499
80 6 15
3504
78 45 55
3508
26
Sun
W.
79 51 37
3444
81 13 4
3441
82 34 34
3438
83 56 7
3435
Spica
W.
61 43 2
3076
63 11 41
3073
64 40 24
3069
66 9 11
3065
Mars
W.
44 35 6
3335
45 58 37
3339
47 22 12
3398
48 45 51
3334 1
Fomalhaut
E.
72 5 35
3534
70 45 48
3540
69 26 8
3546
68 6 35
3553
a Pegasi
E.
86 44 14
3973
85 19 30
3970
83 54 44
3968
82 29 55
3266
27
Sun
W.
90 45 13
3407
92 7 22
3400
93 29 39
3399
94 52 5
3384
Spica
Mars
W.
73 34 26
3039
75 3 50
3033
76 33 22
3036
78 3 2
3019
W.
55 45 27
3996
57 9 43
3989
58 34 7
3989
59 58 39
3375
Antares
W.
29 2 14
3353
30 27 21
3938
31 52 57
3904
33 19 1
3183
Fomalhaut
E.
61 30 47
3594
60 12 6
3604
58 53 36
3616
57 35 19
3968
a Pegasi
E.
75 25 9
3353
74 0 1
3949
72 34 50
3346
71 9 35
3949
28
Sun
W.
101 46 46
3336
103 10 16
3335
104 33 59
3313
105 57 56
3300
Spica
Mars
W.
85 33 54
3974
87 4 39
3965
88 35 36
9954
90 6 47
9949
W.
67 3 51
3937
68 29 28
3317
69 55 17
3905
71 21 20
3194
Antares
W.
40 35 22
3090
42 3 44
3073
43 32 27
3056
45 1 30
3039
Fomalhaut
E.
51 7 47
3715
49 51 16
3740
48 35 11
3768
47 19 35
3798
a Pegasi
E.
64 2 20
3325
62 36 41
3939
61 10 58
3930
59 45 12
3917
a Arietis
E.
107 9 2
3079
105 40 18
3060
104 11 20
3048
102 42 7
3036
29
Sun
W.
113 1 18
3935
114 26 46
3930
115 52 31
3305
117 18 34
3191
Spica
Mars
W.
97 46 21
9883
99 19 3
3809
100 52 2
9855
102 25 19
9849
W.
78 35 12
3139
80 2 46
3116
81 30 36
3101
82 58 44
3087
Antares
W.
52 31 54
9958
54 3 0
9949
55 34 26
9995
57 6 13
9908
Fomalhaut
E.
41 10 50
4090
39 59 30
4083
38 49 12
4156
37 40 4
4339
a Pegasi
E.
52 35 50
3913
51 9 56
3315
49 44 5
3318
48 18 17
3933
a Arietis
E.
95 12 9
9979
93 41 21
9958
92 10 15
9944
90 38 52
9931
30
Sun
W.
124 33 23
3110
126 1 20
3094
127 29 37
3078
128 58 14
3060
Mars
W.
90 23 59
3009
91 54 0
9993
93 24 21
9977
94 55 3
9960
Antares
W.
64 50 29
2835
66 24 24
9808
67 58 41
9791
69 a3 21
9773
a Arietis
E.
82 57 29
9859
81 24 17
9844
79 50 46
9839
78 16 56
9815
XVIII.
SEPTEMBER, 1884.
163
GREENWICH MEAN TIME
LUNAK DISTANCES.
C
° 1
P.L.
P.L.
\
P.L.
P.L.
Name and Direction
Midnight.
of
XV*.
. of
xvmb
of
XXlb.
of
%%
Q
of Object.
Diff.
Diff.
Diff.
Diff.
22
Sun
W.
41° 35 36
333S
O 1 II
42 59 10
3343
Al 22 2&
3351
4£ 45 46
3359
An tarns
E.
27 10 9
3939
25 44 46
3979
24 20 10
3335
22 56 28
3379
a Aquilee
E.
78 33 55
3386
77 11 22
3400
75 49. 5
3414
74 27 3
3438
23
Sun
W.
52 39 30
3398
54 1 49
3404
55 24 1
3410
56 46 6
3416
Spica
W.
32 8 7
3043
33 37 26
3047
35 6 40
3053
36 35 48
3057
a Aquilre
E.
67 41 9
3506
66 20 52
3534
65 0 54
3543
63 41 16
3560
24
Sun
W.
63 35 0
3438
64 5<?33
3443
66 18 2
3445
67 39 28
3446
Spica
W.
44 0 14
3074
45 28 55
3077
46 57 33
3078
48 26 9
3080
Mars
W.
27 54 9
3335
29 17 40
3338
30 41 8
3340
32 4 33
3343
•
a Aquiloe
E.
57 8 26
3666
55 51 3
3690
54 34 5
3716
53 17 35
3744
Fomalhaut
E.
88 9 59
3478
86 49 10
3481
85 28 25
3486
84 7 45
3490
25
Sun
W.
74 26 12
345 1
75 47 31
3450
77 8 51
3449
78 30 13
3446
Spica
Mars
W.
55 48 48
3083
57 17 20
3083
58 45 52
3080
60 14 26
3078
W.
39 1 24
3349
40 24 47
3341
41 48 11
3339
43 11 37
3337
a Aquilse
E.
47 2 59
3915
45 49 54
3957
44 37 32
4004
43 25 56
4054
Fomalhaut
E.
77 25 40
3513
76 5 30
3518
74 45 26
3534
73 25 28
3538
26
Sun
W.
85 17 44
3430
86 39 27
3434
88 1 16
3419
89 23 11
3413
Spica
Mars
W.
67 38 3
3061
69 7 0
3057
70 36 2
3053
72 5 10
3046
W.
50 9 35
3319
51 33 24
3315
52 57 18
3309
54 21 19
3303
Fomalhaut
E.
m 47 9
3559
65 27 50
3567
64* 8 40
3576
62 49 39
3584
a Pegasi
E.
81 5 4
3964
79 40 10
3361
78 15 13
3259
76 50 13
3355
27
Sun
W.
96 14 40
3375
97 37 25
3365
99 0 21
3356
100 23 28
3346
Spica
Mars
W.
79 32 51
3011
81 2 50
3003
82 33 0
3993
84 3 21
8984
W.
61 23 20
3366
62 48 11
3357
64 13 13
3347
65 38 26
3337
Ad tares
W.
34 45 31
3163
36 12 25
'3143
37 39 42
3135
39 7 21
3107
Fomalhaut
E.
56 17 15
3643
54 59 26
3658
53 41 54
3675
52 24 40
3694
a Pegasi
E.
69 44 16
3339
68 18 53
3336
GG 53 26
3333
65 27 55
3339
28
Sun
W.
107 22 7
3388
108 46 32
3376
110 11 12
3363
111 36 7
3349
Spica
Mars
W.
91 38 12
3931
93 9 51
3930
94 41 45
3907
96 13 55
3894
W.
72 47 3G
3183
74 14 6
3169
75 40 52
3156
77 7 54
3143
Antores
W.
46 30 54
3033
48 0 38
3006
49 30 43
3990
51 1 8
2973
Fomalhaut
E.
46 4 31
3833
44 50 2
3870
43 36 12
3914
42 23 6
3963
a Pegasi
a Arietis
E.
58 19 23
3915
56 53 32
3314
55 27 39
3313
54 1 45
3313
E.
101 12 39
3033
99 42 55
3010
98 12 55
3998
96 42 40
3985
29
Sun
W.
118 44 54
3176
120 11 32
3160
121 38 29
3143
123 5 46
3137
Spica
W.
103 58 53
2897
105 32 46
9813
107 6 57
3798
108 41 27
2783
Mars
W.
84 27 10
3073
85 55 54
3057
87 24 56
3041
88 54 18
3036
Antares
W.
58 38 22
3891
60 10 52
3875
61 43 43
3859
63 16 55
8843
Fomalhaut
E.
36 32 15
4335
35 25 55
4445
34 21 14
4570
33 18 23
4715
a Pegasi
a Arietis
E.
46 52 34
3999
45 26 59
3337
44 1 33
3347
42 36 19
3960
E.
89 7 12
3916
87 35 14
3901
86 2 57
2887
84 30 22
9873
30
Sun
W.
130 27 12
3043
131 56 32
3036
1&3 26 13
3008
134 56 16
3991
Mars
W.
96 26 6
3943
97 57 30
3997
99 29 15
3909
101 • 1 22
3893
Antares
W.
71 8 24
9756
72 43 49
3740
74 19 36
8739
75 55 46
3705
a Arietis
E.
76 42 47
3800
75 8 19
3785
73 33 32
3771
71 58 26
2756
164
OCTOBER, 1884.
AT GREENWICH APPARENT NOON.
THE SUN'S
i
4
1
J5
Sidereal
Time of
Semi-
Equation of
Time,
to be
Subtracted
3
•*
diameter
from
•3
1
Apparent
Bight Ascension.
Diff. for
lHour.
Apparent
Declination.
Dift for
lHour.
Semi-
diameter.
Passing
Meridian.
Apparent
Time.
Diff. for
IHonr.
Wed.
1
h m s
12 31 57.04
s
9.062
S. 3° 26 58/7
-58M9
16
1.67
64^39
10 30*51
s
0.793
Thur.
2
12 35 34.67
0.075
3 50 14.1
58.09
16
1.95
64.44
10 49.37
0.780
Frid.
3
12 39 12.63
9.089
4 13 26.8
57.97
16
2.23
64.49
11 7.90
0.766
Sat.
4
12 42 50.93
9.104
4 36 36.4
-57.83
16
2.51
64.54
11 26.10
0.751
SUN.
5
12 46 29.59
9.119
4 59 42.7
57.68
16
2.79
64.60
11 43.94
0.736
Mon.
6
12 50 8.64
9.136
5 22 45.2
57.52
16
3.07
64.66
12 1.40
0.719
Tues.
7
12 53 48.10
9.153
5 45 43.7
-57.34
16
3.34
64.72
12 18.45
0.702
Wed.
8
12 57 27.98
9.172
6 8 37.8
57.15
16
3.61
64.78
12 35.07
0.683
Thur.
9
13 1 8.34
9.193
6 31 27.1
56.95
16
3.88
64.85
12 51.22
0.663
Frid.
10
13 4 49.18
9.212
6 54 11.3
-56.73
16
4.15
64.92
13 6.90
0.643
Sat.
11
13 8 30.51
9.232
7 16 49.9
56.49
16
4.42
64.98
13 22.08
0.622
SUN.
12
13 12 12.35
9.254
7 39 22.7
56.23
I?
4.69
65.05
13 36.75
0.601
Mon.
13
13 15 54.74
9.277
8 1 49.3
-55.96
16
4.96
65.13
13 50.87
0.578
Tues.
14
13 19 37.68
9.301
8 24 9.1
55.67
16
5.23
65.21
14 4.44
0.554
Wed.
15
13 23 21.19
9.325
8 46 22.1
55.38
16
5.49
65.29
14 17.45
0.530
Thur.
16
13 27 5.29
9.350
9 8 27.7
-55.06
16
5.76
65.38
14 29.87
0.505
Frid.
17
13 30 49.98
9.375
9 30 25.4
54.74
16
6.03
65.47
14 41.70
0.480
Sat.
18
13 34 35.29
9.401
9 52 14.9
54.39
16
6.30
65.56
14 52.91
0.455
SUN.
19
13 38 21.24
9.427
10 13 55.7
-54.02
16
6.57
65.65
15 3.49
0.428
Mon.
20
13 42 7.83
9.454
10 35 27.5
53.64
16
6.84
65.74
15 13.42
0.401
Tues.
21
13 45 55.08
9.482
10 56 49.9
53.23
16
7.11
65.84
15 22.70
0.373
Wed.
22
13 49 42.99
9.510
11 18 2.5
-52.81
16
7.38
65.94
15 31.33
0.345
Thur.
23
13 53 31.56
9.539
11 39 4.8
52.38
16
7.65
66.04
15 39.29
0.317
Frid.
24
13 57 20.82
9.508
11 59 56.5
51.92
16
7.92
66.14
15 46.55
0.288
Sat.
25
14 1 10.78
9.597
12 20 37.1
-51.45
16
8.19
66.25
15 53.12
0.259
SUN
26
14 5 1.46
9.627
12 41 6.2
50.97
16
8.46
66.36
15 58.98
0.229
Mon.
27
14 8 52.87
9.658
13 1 23.5
50.46
16
8.72
66.47
16 4.12
0.198
Tues.
28
14 12 45.01
9.689
13 21 28.6
-49.94
16
8.98
66.58
16 8.52
0.167
Wed.
29
14 16 37.89
9.720
13 41 20.9
49.41
16
9.24
66.69
16 12.18
0.136
Thur.
30
14 20 31.54
9.751
14 1 0.1
48.85
16
9.51
66.80
16 15.08
0.105
Frid.
31
14 24 25.96
9.784
14 20 25.7
48.29
16
9.76
66.92
16 17.21
0.072
Sat.
32
14 28 21.17
9.817
S. 14 39 37.5
-47.70
16
10.01
67.03
16 18.55
0.039
Nom— Th
Th
e mean time of sen
e sign — prefixed
ildiametei
to the hoi
• passing may be found by st
irly change of declination in<J
ibtract
lea tea
ing OMfi
that soi
from the sidereal time,
ith declinations are increasing.
H.
OCTOBER, 1884.
165
AT GREENWICH MEAN NOON.
THE
SUN'S
1
C
5
1
c
*
*
Equation of
Time,
to be
Added to
Mean Time.
Diff. for
lHour.
8idereal
Time,
or
Eight Ascension
of
Moan Son.
Apparent
Sight Ascension.
Diff. for
1 Hoar.
Apparent
Deolination.
Diff for
lHour.
Wed.
Thur.
Frid.
1
2
3
h m b
12 31 58.63
12 35 36.31
12 39 14.32
9.064
9.077
9.091
S. 3° 27 8.9
3 50 24.6
4 13 37.5
-58.20
58.10
57.98
m s
10 30.64
10 49.50
11 8.04
0.793
0.780
0.766
h m 8
12 42 29.26
12 46 25.81
12 50 22.36
Sat.
SUN.
Mon.
4
5
6
12 42 52.67
12 46 31.38
12 50 10.48
9.106
9.121
9.138
4 36 47.4
4 59 54.0
5 22 56.8
-57.84
57.69
57.53
11 26.24
11 44.08
12 1.54
0.751
0.736
0.719
12 54 18.91
12 58 15.46
13 2 12.02
III
7
8
9
12 53 49.98
12 57 29.91
13 1 10.31
9.155
9.174
9.194
5 45 55.5
6 8 49.8
6 31 39.3
-57.35
57.16
56.96
12 18.59
12 35.21
12 51.36
0.702
0.683
0.663
13 6 8.57
13 10 5.12
13 14 1.67
Frid.
Sat.
SUN.
10
11
12
13 4 51.19
13 8 32.56
13 12 14.44
9.214
9.834
9.256
6 54 23.7
7 17 2.5
7 39 35.5
-56.73
56.50
56.24
13 7.04
13 22.22
13 36.89
0.643
0.622
0.601
13 17 58.23
13 21 54.78
13 25 51.33
Mon.
Tues.
Wed.
13
14
15
13 15 56.87
13 19 39.85
13 23 23.40
9.279
9.303
9.327
8 2 2.2
8 24 22.2
8 46 35.3
-55.97
55.68
55.38
13 51.01
14 4.58
14 17.58
0.578
0.554
0.530
13 29 47.88
13 33 44.43
13 37 40.98
Thur.
Frid.
Sat.
16
17
18
13 27 7.54
13 30 52.27
13 34 37.62
9.352
9.377
9.402
9 8 41.0
9 30 38.8
9 52 28.4
-55.07
54.74
54.39
14 30.00
14 41.82
14 53.03
0.505
0.480
0.455
13 41 37 54
13 45 34.09
13 49 30.65
SUN.
Mon.
Tues.
19
20
21
13 38 23.60
13 42 10.22
13 45 57.50
9.429
9.456
9.484
10 14 9.3
10 35 41.2
10 57 3.6
-54.02
53.64
53.23
15 3.60
15 13.53
15 22.80
0.428
0.401
0.373
13 53 27.20
13 57 23.75
14 1 20.30
Wed.
Thur.
Frid.
22
23
24
13 49 45.44
13 53 34.04
13 57 23.33
9.512
9.540
9.569
11 18 16.2
11 39 18.5
12 0 10.2
-52.81
52.38
51.92
15 31.42
15 39.37
15 46.63
0.345
0.317
0.288
14 5 1686
14 9 13.41
14 13 9.96
Sat.
SUN.
Mon.
25
26
27
14 1 13.32
14 5 4.02
14 8 55.45
9.598
9.628
9.659
12 20 50.7
12 41 19.8
13 1 37.0
-51.45
50.97
50.46
15 53.19
15 59.04
16 4.17
0.259
0.229
0.198
14 17 6.51
14 21 3.07
14 24 59.62
Tues.
Wed.
Thur.
Frid.
28
29
30
31
14 12 47.61
14 16 40.51
14 20 34.17
14 24 28.61
9.690
9.721
9.752
9.785
13 21 42.0
13 41 34.2
14 1 13.3
14 20 38.8
-49.94
49.41
48.86
48.29
16 8.57
16 12.22
16 15.11
16 17.22
0.167
0.136
0.105
0.072
14 28 56.18
14 32 52.73
14 36 49.28
14 40 45.83
Sat.
32
14 28 23.83
9.818
S. 14 39 50.5
-47.70
16 18.56
0.039
14 44 42.39
ITotb.— Th
Th
an
e semidiamoter for i
o sign — prefixed to
> increasing.
ciean noon
the hourl
may be assumed the same as t
y change of declination indicate
hat for apparent
js that south dec
noon,
linationa
Diff. for 1 Hour,
+ 9-.85G5.
(Table in.)
166
OCTOBER, 1884.
III.
AT GREENWICH MEAN NOON.
5
1
1
1
THE SUN'S
1
1
's
1
Logarithm
of the
Radius Veotor
of the
Earth.
Diff. for
1 Hour.
Mean Time
of
Sidereal Noon.
TBUE LONGITUDE.
Diff. for
lHonr.
LATITUDE.
X
A'
1
2
3
275
276
277
188 42 32.7
189 41 37.8
190 40 44.9
41 5l'.b
40 56.1
40 3.1
1 47.67
147.75
147.84
+ 0A0
0.28
0.16
0.0001486
0.0000221
9.9998960
-52.8
52.6
52.4
h m b
1 1 15 39.74
11 11 43.85
11 7 47.94
4
5
6
278
279
280
191 39 53.8
192 39 4.7
193 38 17.8
39 11.9
38 22.7
37 35.7
147.92
148.00
148.09
+ 0.03
-0.10
0.23
9.9997704
9.9996455
9.9995211
-52.2
51.9
51.7
11 3 52.03
10 59 56.12
10 56 0.22
7
8
9
281
282
283
194 37 33.1
195 36 50.6
196 36 10.3
36 50.9
36 8.3
35 28.0
148.18
148.28
148.37
-0.36
0.46
0.53
9.9993974
9.9992743
9.9991517
-51.4
51.2
51.0
10 52 4.31
10 48 8.40
10 44 12.49
10
11
12
284
285
286
197 35 32.3
198 34 56.6
199 34 23.2
34 49.9
34 14.1
33 40.7
148.46
148.56
148.66
-0.58
0.59
0.58
9.9990296
9.9989079
9.9987865
-50.8
50.7
50.5
10 40 16.59
10 36 20.68
10 32 24.77
13
14
15
287
288
289
200 33 52.2
201 33 23.5
202 32 57.1
33 9.6
32 40.8
32 14.3
148.76
148.85
148.94
-0.54
0.46
0.36
9.9986655
9.9985447
9.9984239
-50.4
50.3
50.3
10 28 28.87
10 24 32.97
10 20 37.07
16
17
18
290
291
292
203 32 32.9
204 32 10.8
205 31 51.0
31 50.0
31 27.9
31 7.9
149.03
149.12
149.21
-0.26
0.14
-0.01
9.9983031
9.9981821
9.9980611
-50.4
50.4
50.4
10 16 41.16
10 12 45.25
10 8 49.34
19
20
21
293
294
295
206 31 33.3
207 31 17.5
208 31 3.6
30 50.0
30 34.1
30 20.2
149.30
149.38
149.47
+ 0.12
0.23
0.33
9.9979400
9.9978188
9.9976976
-50.5
50.5
50.5
10 4 53.43
10 0 57.52
9 57 1.61
22
23
24
296
297
298
209 30 51.6
210 30 41.4
211 30 33.0
30 8.1
29 57.8
29 49.3
149.54
149.61
149.68
+ 0.42
0.47
0.51
9.9975765
9.9974557
9.9973352
-50.4
50.3
50.1
9 53 5.71
9 49 9.80
9 45 13.89
25
26
27
299
300
301
212 30 26.2
213 30 21.1
214 30 17.6
29 42.4
29 37.2
29 33.6
149.74
149.82
149.89
+ 0.51
0.46
0.41
9.9972151
9.9970955
9.9969767
-49.9
49.7
49.3
9 41 17.98
9 37 22.09
9 33 26.18
28
29
30
31
302
303
304
305
215 30 15.8
216%30 15.6
217 30 17. L
218 30 20.1
29 31.7
29 31.4
29 32.7
29 35.7
149.96
150.03
150.10
150.16
+ 0.32
0.22
+ 0.09
-0.04
9.9968589
9.9967423
9.9966268
9.9965126
-48.8
48.3
47.9
47.3
9 29 30.27
9 25 34.36
9 21 38.46
9 17 42.55
32
306
219 30 24.8
29 40.4
150.23
-0.17
9.9964001
-46.6
9 13 46.64
Note.— Tho
the
numbers in oolomn
mean equinox of Jai
a correspond
unary 0*.0.
to the tru
to equinox of the date; in colui
nnA', to
Diff. for 1 Hour,
— 9«.8296.
(Table II.)
IV.
OCTOBER, 1884.
167
GREENWICH MEAN TIME.
f
THE
MOON'S
5
1
SEMLDIAMETER.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGE.
Noon.
Midnight.
Noon.
Diff. for
1 Hour.
Midnight.
Diff. for
1 Hoar.
Meridian of
Greenwich.
Dift for
1 Hoar.
Noon.
1
2
3
15 3L0
15 44.3
15 57.1
15 3T6
15 50.8
16 3.1
56 49*9
57 38.7
58 26.0
+ 2.00
2.02
1.87
57 U.2
58 2.8
58 47.9
+ 2.03
1.97
1.74
h m
9 20.7
10 9.9
11 0.2
m
2.03
2.07
2.13
d
12.1
13.1
14.1
4
5
6
16 8.6
16 17.4
16 23.0
16 13.3
16 20.6
16 24.4
59 7.9
59 40.4
60 0.8
+ 1.57
1.12
0.58
59 25.5
59 52.2
60 6.2
+ 1.36
0.85
+ 0.31
11 52.1
12 45.9
13 41.9
2.20
2.29
2.38
15.1
16.1
17.1
7
8
9
16 25.0
16 23.6
16 19.3
16 24.7
16 21.8
16 16.3
60 8.3
60 3.2
59 47.5
+ 0.04
-0.45
0.83
60 7.2
59 56.5
59 36.5
-0.22
0.66
0.98
14 39.7
15 38.6
16 37.6
2.44
2.46
2.44
18.1
19.1
20.1
10
11
12
16 12.9
16 5.1
15 56.7
16 9.2
16 1.0
15 52.3
59 24.0
58 55.4
58 24.2
- 1.10
1.26
1.32
59 10.2
58 40.0
58 8.2
-1.19
1.30
1.33
17 35.4
18 31.2
19 24.4
2.37
2.27
2.16
21.1
22.1
23.1
13
14
15
15 47.9
15 39.3
15 30.8
* 15 43.6
15 35.0
15 26.6
57 52.2
57 20.3
56 49.1
- 1.33
1.32
1.28
57 36.2
57 4.6
56 33.9
- 1.33
1.30
1.26
20 15.1
21 3.7
21 50.8
2.06
1.99
1.93
24.1
25.1
26.1
16
17
18
15 22.6
15 14.7
15 7.3
15 18.6
15 10.9
15 3.8
56 19.0
55 50.1
55 22.9
- 1.23
1.17
1.10
56 4.4
55 36.3
55 10.0
-1.21
1.13
1.04
22 36.8
23 22.4
6
1.90
1.90
27.1
28.1
29.1
19
20
21
15 0.5
14 54.6
14 49.9
14 57.4
14 52.0
14 48.1
54 57.9
54 36.2
54 18.9
-0.97
0.82
0.61
54 46.4
54 26.9
54 12.3
-0.90
0.72
0.48
0 8.0
0 54.0
1 40.4
L91
1.92
1/94
0.5
1.5
2.5
22
23
24
14 46.7
14 45.6
14 46.7
14 45.9
14 45.8
14 48.2
54 7.4
54 3.1
54 7.2
-0.33
-0.02
+ 0.36
54 4.3
54 4.0
54 12.7
-0.18
+ 0.16
0.56
2 27.3
3 14.5
4 1.8
1.96
1.97
1.97
3.5
4.5
5.5
25
26
27
14 50.3
14 56.7
15 5.8
14 53.2
15 0.9
15 11.4
54 20.6
54 44.1
55 17.6
+ 0.77
1.18
1.59
54 31.1
54 59.6
55 37.9
+ 0.98
1.39
1.78
4 49.0
5 36.1
6 23.1
1.96
1.96
1.96
6.5
7.5
8.5
28
29
30
31
15 17.5
15 31.2
15 46.3
16 1.7
15 24.1
15 38.7
15 54.0
16 9.0
56 0.4
56 50.9
57 46.3
58 42.6
+ 1.95
2.22
2.35
2.29
56 24.8
57 18.2
58 14.6
59 9.6
+ 2.10
2.31
2.35
2.18
7 10.1
7 57.8
8 46.6
9 37.1
1.97
2.01
2.07
2.15
9.5
10.5
11.5
12.5
32
16 15.9
16 22.2
59 34.9
+ 2.02
59 57.9
+ 1.80
10 29.9
2.26
13.5
-
168
OCTOBER, 1884.
GREENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hoar.
Bight Ascension.
Difllfor
1 Minute.
Declination.
Difllfor
1 Minute.
Hour.
Bight Ascension.
Diff.for
1 Minute.
Declination.
Diff. for
1 Minute.
WE]
DNESI
)AY 1.
FBIDAY 3.
h m 8
8
Q 1 II
a
h m 8
8
O I II
a
0
21 44 51.60
9.1917
S. 9 20 42.0
8.936
0
23 28 8.77
2.1922
8. 1 17 28.3
10.885
]
2! 46 58.93
9.1996
9 11 44.1
8.994
I
23 30 20.37
2.1944
1 6 34.6
10.904
2
21 49 6.32
9.1936
9 2 42.8
9.051
2
23 32 32.10
2.1966
* 0 55 39.8
10.999
3
21 51 13.76
9.1945
8 53 38.0
9.108
3
23 34 43.96
2.1968
0 44 44.0
10.938
4
21 53 21.26
9.1954
8 44 29.8
9.164
4
23 36 55.96
2.9011
0 33 47.2
10.954
5
21 55 28.81
9.1963
8 35 18.3
9.290
5
23 39 8.09
2.9034
0 22 49.5
10.969
6
21 57 36.42
9.1973
8 26 3.4
9.975
6
23 41 20.36
2.9057
0 11 50.9
10.982
7
21 59 44.09
9.1983
8 16 45.3
9.329
7
23 43 32.77
2.9080
S. 0 0 51.6
10.994
8
22 1 51.82
9.1993
8 7 23.9
9.383
8
23 45 45.32
2.9103
N. 0 10 8.4
11.006
9
22 3 59.61
9.1303
7 57 59.3
9.437
9
23 47 58.01
9.9197
0 21 9.1
11.017
10
22 6 7.46
9.1314
7 48 31.5
9.489
10
23 50 10.85
9.2152
0 32 10.4
11.095
11
22 8 15.38
9.1396
7 39 0.6
9.540
11
23 52 23.84
2.2177
0 43 12.1
11.032
12
22 10 23.37
9.1337
7 29 26.7
9.591
12
23 54 36.97
2.9201
0 54 14.2
11.(138
13
22 12 31.43
9.1349
7 19 49.7
9.642
13
23 56 50.25
2.9226
1 5 16.7
11.045
14
22 14 39.56
9.1360
7 10 9.7
9.691
14
23 59 3.68
2.9252
1 16 19.6
11.050
15
22 16 47.75
9.1379
7 0 26.8
9.740
15
0 1 17.27
2.2217
1 27 22.7
11.052
16
22 18 56.02
9.1384
6 50 40.9
9.788
16
0 3 31.01
2.9303
1 38 25.9
11.054
17
22 21 4.36
9.1397
6 40 52.2
9.835
17
0 5 44.91
9.9399
1 49 29.2
11.056
18
22 23 12.78
9.1409
6 31 0.7
9.889
18
0 7 58.96
9.9355
2 0 32.6
11.056
19
22 25 21.27
9.1493
6 21 6.4
9.928
19
0 10 13.17
9.2383
2 11 35.9
11.054
20
22 27 29.84
9.1436
6 11 9.3
9.973
20
0 12 27.55
9.2410
2 22 39.1
11.052
21
22 29 38.50
9.1450
6 1 9.6
10.017
21
0 14 42.09
2.9437
2 33 42.1
11.047
22
22 31 47.24
9.1463
5 51 7.3
10.060
22
0 \6 56.79
9.9464
2 44 44.8
11.042
23
22 33 56.06
TH
2.1477
UKSD.
S. 5 41 2.4
kY 2.
10.103
23
0 19 U.G6
SA
2.2492
TITBD.
N. 2 55 47.2
kY 4.
11.037
0
22 36 4.97
9.1499
S. 5 30 54.9
10.146
0
0 21 26.70
2.2521
N. 3 6 49.2
11.029
1
22 38 13.97
9.1507
5 20 44.9
10.187
1
0 23 41.91
2.9549
3 17 50.7
11.020
2
22 40 23.05
9.1591
5 10 32.5
10.927
2
0 25 57.29
9.9577
3 28 51.6
11.010
3
22 42 32.22
9.1537
5 0 17.7
10.966
3
0 28 12.83
9.9605
3 39 51.9
10.999
4
22 44 41.49
9.1559
4 50 0.6
10.304
4
0 30 28.55
2.2634
3 50 51.5
10.987
5
22 46 50.85
9.1567
4 39 41.2
10.342
5
0 32 44.44
2.9663
4 1 50.3
10.973
6
22 49 0.30
9.1583
4 29 19.5
10.380
6
0 35 0.51
3.2693
4 12 48.2
10.958
7
22 51 9.85
9.1600
4 18 55.6
10.416
7
0 37 16.76
9.9793
4 23 45.2
10.948
8
22 53 19.50
9.1617
4 8 29.6
10.451
8
0 39 33.19
9.9759
4 34 41.2
10.994
9
22 55 29.25
9.1634
3 58 1.5
10.485
9
0 41 49.79
2.9789
4 45 36.1
10.906
10
22 57 39.10
9.1651
3 47 31.4
10.518
10
0 44 6.57
9.9819
4 56 29.9
10.886
11
22 59 49.06
9.1668
3 36 59.3
10.551
11
0 46 23.54
9.9843
5 7 22.4
10.663
12
23 1 59.12
2.1686
3 26 25.3
10.582
12
0 48 40.69
2.2874
5 18 13.5
10.640
13
23 4 9.29
9.1704
3 15 49.4
10.613
13
0 50 58.03
2.9905
5 29 3.2
10.817
14
23 6 19.57
9.1799
3 5 11.7
10.642
14
0 53 15.55
9.9936
5 39 51.5
10.792
15
23 8 29.96
9.1741
2 54 32.3
10.671
15
0 55 33.26
9.9967
5 50 38.2
10.764
16
23 10 40.46
9.1760
2 43 51.2
10.699
16
0 57 51.16
2.9999
6 1 23.2
10.736
17
23 12 51.08
2.1780
2 33 8.5
10.726
17
1 0 9.25
2.3030
6 12 6.6
10.708
18
23 15 1.82
2.1799
2 22 24.1
10.752
18
1 2 27.52
9.3069
6 22 48.2
10.678
19
23 17 12.67
9.1819
2 11 38.2
10.777
19
1 4 45.99
2.3094
6 33 28.0
10.647
20
23 19 23.64
9.1839
2 0 50.9
10.800
20
1 7 4.65
2.3126
6 44 5.8
10.613
21
23 21* 34.74
9.1860
1 50 2.2
10.823
21
1 9 23.50
2.3158
6 54 41.6
10.579
22
23 23 45.96
9.1880
1 39 12.1
10.845
22
1 11 42.54
2.3190
7 5 15.3
10.543
23
23 25 57.30
9.1901
1 28 20.8
10.865
23
1 14 1.78
2.3999
7 15 46.8
10.506
24
23 28 8.77
2.1999
S. 1 17 28.3
10.885
24
1 16 21.21
9.3955
N. 7 26 16.0
10.467
VI.
OCTOBER, 1884.
169
GBEENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Diff.for
1 Minute.
Declination.
Diff.for
1 Minute.
Hour.
Right Ascension
Diff.for
1 Minute.
Declination.
Diff.for
1 Minute.
s
UNDA
r 5.
TUESDAY 7.
h m s
s
0 § a
//
h m 8
8
0 / 9
11
0
1 16 21.21
3.3955
N. 7 26 16.0
10.467
0
3 11 42.57
2.4757
N.14 39 28.9
7.102
1
1 18 40.84
9.3967
7 36 42.9
10.497
1
3 14 11.19
2.4789
14 46 32.1
7.003
2
1 21 0.6tf
2.3320
7 47 7.3
10.386
2
3 16 39.95
2.4806
14 53 29.3
6.903
3
1 23 20.68
2.3353
7 57 29.2
10.343
3
3 19 *8.86
2.4830
15 e 20.5
6.802
4
1 25 40.90
9.3386
8 7 48.5
10.300
4
3 21 37.91
2.4854
15 7 5.6
6.701
5
1 28 1.31
9.3490
8 18 5.2
10.255
5
3 24 7.11
2.4678
15 13 44.6
6.597
6
1 30 21.92
9.3459
8 28 19.1
J0.906
6
3 26 36.45
9.4901
15 20 17.3
6.493
1 7
1 32 42.73
2.3465
8 38 30.2
10.161
7
3 29 5.92
9.4923
15 26 43.8
6.389
1 8
1 35 3.74
9.3518
8 48 38.4
10.119
8
3 31 35.53
2.4946
15 33 4.0
6.983
I 9
1 37 24.95
2.3559
8 58 43.6
10.062
9
3 34 5.27
9.4967
15 39 17.8
6.177
i 10
1 39 46.36
2.3585
9 8 45.8
10.010
10
3 36 35.13
2.4988
15 45 25.2
6.070
1 11
1 42 7.97
9.3618
9 18 44.8
9.956
11
3 39 5.12
2.5008
15 51 26.2
5.969
! 12
1 44 29.77
9.3651
9 28 40.5
9.901
12
3 41 35.23
2.5028
15 57 20.6
5.859
i 13
1 46 51.78
2.3684
9 38 32.9
9.846
13
3 44 5.46
2.5047
16 3 8.4
5.743
1 14
1 49 13.98
2.3717
9 48 22.0
9.789
14
3 46 35.80
2.5066
16 8 49.6
5.639
! 15
1 51 36.38
9.3750
9 58 7.6
9.731
15
3 49 6.25
2^084
16 14 24.2
5.591
16
1 53 58.98
9.3783
10 7 49.7
9.672
16
3 51 36.81
2.5101
16 19 52.1
5.408
17
1 56 21.78
9.3817
10 17 28.2
9.610
17
3 54 7.47
2.5118
16 25 13.2
5.995
18
1 58 44.78
9.3850
10 27 2.9
9.547
18
3 56 38.23
2.5135
16 30 27.5
5.181
19
2 1 7.98
2.3889
10 36 33.8
9.483
19
3 59 9.09
2.5151
16 35 34.9
5.067
20
2 3 31.37
2.3915
10 46 0.9
9.419
20
4 1 40.04
9.5165
16 40 35.5
4.959
2*
2 5 54.96
9.3947
10 55 24.1
9.353
21
4 4 11.07
3.5179
16 45 29.2
4.837
22
2 8 18.74
9.3980
11 4 43.3
9.286
22
4 6 42.19
2.5193
16 50 15.9
4.720
23
2 10 42.72
M(
9.4013
)OT)A1
N.U 13 58.4
r 6.
9917
23
4 9 13.39
WE]
9.5906
DKESI
N.16 54 55.6
)AY8.
4.603
0
2 13 6.90
9.4046
N.ll 23 9.3
9.147
0
4 11 44.66
9.5218
N.16 59 28.3
4.486
1
2 15 31.27
9.4078
11 32 16.0
9.075
1
4 14 16.01
2.5230
17 3 53.9
4.368
2
2 17 55.83
9.4110
11 41 18.3
9.002
2
4 16 47.42
2.5241
17 8 12.4
4.249
3
2 20 20.59
9.4149
11 50 16.2
8.928.
3
4 19 18.90
2^252
17 12 23.8
4.130
4
2 22 45.54
2.4174
11 59 9.6
8.853'
4
4 21 50.44
2.5061
17 16 28.0
4.011
5
2 25 10.68
9.4206
12 7 58.5
8.777
5
4 24 22.03
2.5270
17 20 25.1
3.891
6
2 27 36.01
2.4237
12 16 42.8
8.699
6
4 26 53.68
2.5279
17 24 14.9
3.770
7
2 30 1.53
9.4268
12 25 22.4
8.620
7
4 29 25.38
2.5286
17 27 57.5
3.649
8
2 32 27.23
2.4299
12 33 57.2
6.540
8
4 31 57.11
2.5299
17 31 32.8
3.528
9
2 34 53.12
2.4330
12 42 27.2
6.459
9
4 34 28.88
2.5298
17 35 0.8
3.406
10
2 37 19.19
2.4361
12 50 52.3
8.377
10
4 37 0.68
9.5303
17 38 21.5
3.283
11
2 39 45.45
2.4392
12 59 12.4
8.293
11
4 39 32.51
2.5306
17 41 34.8
3.160
12
2 42 11.89
2.4422
13 7 27.5
8.208
12
. 4 42 4.37
2.5312
17 44 40.7
3.038
13
2 44 38.51
2.4451
13 15 37.4
8.199
13
4 44 36.25
2.5314
17 47 39.3
2.915
14
2 47 5.30
2.4480
13 23 42.1
8.035
14
4 47 8.14
2.5316
17 50 30.5
2.791
15
2 49 32.27
2.4509
13 31 41.6
7.947
15
4 49 40.04
2.5317
17 53 14.2
2.667
16
2 51 59.41
2.4538
13 39 35.7
7.857
16
4 52 11.95
2.5318
17 55 50.5
2.543
17
2 54 26.72
2.4567
13 47 24.4
7.767
17
4 54 43.86
2.5318
17 58 19.4
2.420
18
2 56 54.21
2.4596
13 55 7.7
7.676
18
4 57 15.77
2.5317
18 0 40.9
2.296
19
2 59 21.87
2.4623
14 2 45.5
7.583
19
4 59 47.67
2.5316
18 2 54.9
2.171
20
3 1 49.69
2.4650
14 10 17.7
7.489
20
5 2 19.56
2.5313
18 5 1.4
2.046
21
3 4 17.67
2.4677
14 17 44.2
7.393
21
5 4 51.43
2.5310
18 7 0.4
1.921
22
3 6 45.81
2.4703
14 25 4.9
7.997 1 22
5 7 23.28
2.5306
18 8 51.9
1.796
23
3 9 14.11
2.4730
14 32 19.8
7.200 1 23
5 9 55.10
2.5302
18 10 35.9
1.671
|24
3 11 42.57
2,4757
N.14 39 28.9
7.102 1 24
5 12 26.90
2.5297
N.18 12 12.4
1.546
170
OCTOBER, 1884.
vn.
GREENWICH MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION. .
Ilour.
Right Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
Hour.
Right Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
TH
UKSD,
S.Y 9.
SATURDAY 11.
h m b
8
O I II
a
h m 8
8
O 1 II
a
0
5 12 26.90
2.5297
N.18 12 12.4
1.546
0
7 11 52.72
9.4227
N.17 6 7.4
4.135
1
5 14 58.66
2.5290
18 13 41.4
1.421
1
7 14 17.98
2.4192
17 1 56.1
4.940
2
5 17 30.38
2.5382
18 15 2.9
1.996
2
7 16 43.03
9.4157
16 57 38.6
4.344
3
5 20 2.05
2.5275
18 16 16.9
1.171
3
7 19 7.86
9.4120
16 53 14.9
4.447
4
5 22 33.08
2.5267
18 17 23.4
1.046
4
7 21 32.47
2.4083
16 48 45.0
4.549
5
5 25 5.25
2.5257
18 18 22.4
0.920
5
7 23 56.86
2.4046
16 44 9.0
4.650
6
5 27 36.76
9.5347
18 19 13.8
0.795
6
7 26 21.03
2.4009
16 39 27.0
4.750
7
5 30 8.21
2.5236
18 19 57.8
0.671
7
7 28 44,97
2.3972
16 34 39.0
4.850
8
5 32 39.59
2.5224
18 20 34.3
0.546
8
7 31 8.69
2.3935
16 29 45.0
4.950
9
5 35 10.90
2.5212
18 21 3.3
0.421
9
7 33 32.19
2.3897
16 24 45.0
5.048
10
5 37 42.14
2.5199
18 21 24V.8
0.297
10
7 35 55.46
9.3859
16 19 39.2
5.145
11
5 40 13.29
5L5185
18 21 38.9
0.172-
11
7 38 18.50
9.3621
16 14 27.6
5.941
12
5 42 44.36
2.5 J 71
18 21 45.5
+ 0.048
12
7 40 41.31
9JJ782
16 9 10.3
5.336
13
5 45 15.34
2.5155
18 21 44.7
- 0.075
13
7.43 3.89
2.3743
16 3 47.3
5.431
14
5 47 46.22
2.5139
18 21 36.5
0.199
14
7 45 26.23
2.3704
15 58 18.6
5.525
15
5 50 17.01
2.5123
18 21 20.8
0.323
15
7 47 48.34
2.3665
15 52 44.3
5.616
16
5 52 47.70
2.5106
18 20 57.7
0.446
16
7 50 10.21
2.3626
15 47 4.4
5.710
17
5 55 18.28
2.5088
18 20 27.3
0.568
17
7 52 31.85
2.3587
15 41 19.1
5.800
18
5 57 48.75
2.5069
18 19 49.5
0.691
18
7 54 53.25
2.3547
15 35 28.4
5.890
19
6 0 19.11
2.5050
18 19 4.4
0.814
19
7 57 14.41
2^507
15 29 32.3
5.980
20
6 2 49.35
2^029
18 18 11.9
0.936
20
7 59 35.33
2.3468
15 23 30.8
6.068
21
6 5 19.46
9^008
18 17 12.1
1.057
21
8 1 56.02
9.3498
15 17 24.1
6.155
22
6 7 49.45
2.4987
18 16 5.1
1.1*7
22
8 4 16.47
9^386
15 11 12.2
6.242
23
6 10 19.30
F]
9.4964
N.18 14 50.8
: 10.
1.298
23
8 6 36.67
SI
2J3347
JNDA1
N.15 4 55.1
r 12.*
6.328
0
6 12 49.02
2.4941
N.18 13 29.3
1.418
0
8 8 56.63
9.3307
N.14 58 32.8
6.413
1
6 15 18.60
2.4918
18 12 0.6
1.538
1
8 11 16.35
9.3267
14 52 5.5
6.497
2
6 17 48.04
9.4894
18 10 24.7
1.658
2
8 13 35.&3
2.3227
14 45 33.2
1L579
3
. 6 20 17.33
2.4869
18 8 41.7
1.777
3
8 15 55.07
2.3187
14 38 56.0
6.660
4
6 22 46.47
2.4844
18 6 51.5
1.895
' 4
8 18 14.07
2.3146
14 32 14.0
6.740
5
6 25 15.46
2.4818
18 4 54.3
2.012
5
8 20 32.82
2.3105
14 25 27.2
6.820
6
6 27 44.29
2.4792
18 2 50.0
2.130
6
8 22 51.33
2.3065
14 18 35.6
6.899
7
6 30 12.96
2.4765
18 0 38.7
2.947
7
8 25 9.60
2.3025
14 11 39.3
6.977
8
6 32 41.47
2.4737
17 58 20.4
9.363
8
8 27 27.63
9.2984
14 4 38.3
7.055
9
6 35 9.81
9.4709
17 55 55.1
9.479
9
8 29 45.41
2.2944
13 57 32.7
7.131
10
6 37 37.98
9.4680
17 53 22.9
9.593
10
8 32 2.95
2.2904
13 50 22.6
7.206
11
6 40 5.97
9.4651
17 50 43.9
9.707
11
8 34 20.26
2.2865
13 43 8.0
7.280
12
6 42 33.79
9.4622
17 47 58.0
9.821
12
8 36 37.33
2.2825
13 35 49.0
7.353
13
6 45 1.43
9.4591
17 45 5.3
9.935
13
8 38 54.16
2.2784
13 28 25.7
7.425
14
6 47 28.88
9.4559
17 42 5.8
3.047
14
8 41 10.74
2.2743
13 20 58.0
7.497
15
6 49 56.14
9.4528
17 38 59.6
3.159
15
8 43 27.08
2.2703
13 13 26.1
7.567
1(3
6 52 23.22
9.4497
17 35 46.7
3.271
16
8 45 43.18
2.2664
13 5 50.0
7.636
17
6 54 50.11
9.4465
17 32 27.1
3.382
17
8 47 59.05
2.2625
12 58 9.8
7.704
18
6 57 16.80
9.4439
17 29 0.9
3.492
18
8 50 14.68
9.2585
12 50 25.6
7.771
19
6 59 43.30
9.4399
17 25 28.1
3.601
19
8 52 30.07
9.2546
12 42 37.3
7.837
20
7 2 9.59
9.4365
17 21 48.8
3.708
20
8 54 45.23
2.2507
12 34 45.1
7.902
21
7 4 35.68
9.4332
17 18 3.1
3.816
21
8 57 0.15
9.2467
12 26 49.0
7.967
22
7 7 1.57
2.4297
17 14 10.9
3.923
22
8 59 14.84
9.2428
12 18 49.1
8.030
23
7 9 27.25
2.4262
17 10 12.3
4.029
23
9 1 29.29
9.2389
12 10 45.4
8.092
24
7 11 52.72
2.4227
N.17 6 7.4
4.135
24
9 3 43.51
2.2351
N.I 2 2 38.0
MM
VIII.
OCTOBER, 1884.
171
GREENWICH MEAN TIME.
. THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Diff.for
1 Minute.
Declination.
Diff.for
1 Minute.
Hour.
Right Ascension.
Difflfor
1 Minute.
Declination.
Diff. for
1 Minute.
M(
)NDA^!
1 13.
WEDNESDAY 15.
h m a
s
O 1 II
a
h m s
8
O 1 II
0
9 3 43.51
2.2351
N.12 2 38.0
6.154
0
10 47 2.70
2.0819
N. 4 38 38.4
9.987
1
9 5 57.50
2.2312
11 54 26.9
8.215
1
10 49 7.54
2.0796
4 28 38.7
10.002
2
9 8 11.26
2.2274
11 46 12.2
8.274
2
10 51 12.25
2.0773
4 18 38.1
10.017
3
9 10 24.79
2.2237
11 37 54.0
8.332
3
10 53 16.82
2.0750
4 8 36.6
10.032
4
9 12 38.10
2.2199
1 1 29 32.3
8.390
4
10 55 21.25
2.0728
3 58 34.3
10.045
5
9 14 51.18
2.2161
11 21 7.2
8.447
5
10 57 25.55
2.0706
3 48 31.2
10.057
6
9 17 4.03
2.2123
11 12 38.7
6.503
6
10 59 29.72
2.0684
3 38 27.4
10.069
7
9 19 16.66
2.2086
11 4 6.9
8.558
7
11 1 33.76
2.0663
3 28 22.9
10.080
8
9 21 29.07
2.2049
10 55 31.8
8.612
8
1 1 3 37.67
2.0642
3 18 17.8
10.090
9
9 23 41.25
2.2012
10 46 53.5
8.664
9
11 5 41.46
2.0621
3 8 12.1
10.099
10
9 25 53.21
2.1076
10 38 12.1
8.715
10
U 7 45.12
2.0601
2 58 5.9
10.107
11
9 28 4.96
2.1940
10 29 27.7
8.765
11
1 1 9 48.67
2.0582
2 47 59.3
10.114
12.
9 30 16.49
2.1904
10 20 40.3
8.815
12
11 11 5U0
2.0562
2 37 52.3
10.120
13
9 32 27.81
2.1868
10 11 4y.9
8.864
13
1 1 13 55.42
2.0543
2 27 44.9
10.126
n
9 34 38.91
2.1832
10 2 56.6
8.912
14
11 15 58.62
2.0524
2 17 37.2
10.131
15
9 36 49.80
2.1797
9 54 0.4
8.960
15
11 18 1.71
2.0506
2 7 29.2
10.135
16
9 39 0.48
2.1762
9 45 1.4
9.006
16
11 20 4.69
2.0488
1 57 21.0
10.138
17
9 41 10.95
2.1728
9 35 59.7
9.051
17
11 22 7.57
2.0471
1 47 12.6
10.141
18
9 43 21.22
2.1694
9 26 55.3
9.095
18
11 24 10.34
2.0453
1 37 4.1
10.142
19
9 45 31.28
2.1660
9 17 48.3
9.138
19
11 26 13.01
2.0437
1 26 55.5
10.143
20
9 47 41.14
2.1626
9 8 38.7
9.181
20
11 28 15.58
2.0421
1 16 46.9
10.143
21
9 49 50.79
2.1592
8 59 26.6
9.222
21
11 30 18.06
'2.0405
1 6 38.4
10.142
22
9 52 0.24
2.1559
8 50 12.1
9.262
22
.11 32 20.44
2.0389
0 56 29.9
10.140
23
9 54 9.50
TV
2.1527
ESDA
N. 8 40 55.2
Y 14.
9.301
23
11 34 22.72
TH1
2.0373
TRSD1
N. 0 46 21.6
LY 16.
10.137
0
9 56 18.57
2.1495
N. 8 31 36.0
9.339
0
11 36 24.92
2.0358
N. 0 36 13.5
10.133
1
9 58 27.44
2.1463
8 22 14.5
9.377
1
11 38 27.03
2.0344
0 26 5.6
10.129
2
10* 0 36.12
2.1431
8 12 50.8
9.413
2
11 40 29.05
2.0330
0 15 58.0
10.125
3
10 2 44.61
2.1399
8 3 24.9
9.449
3
11 42 30.99
2.0317
N. 0 5 50.6
10.120
4
10 4 52.91
2.1368
7 53 56.9
9.484
4
11 44 32.85
2.0303
S. 0 4 16.4
10.113
5
10 7 1.03
2.1337
7 44 26.8
9.517
5
11 46 34.63
2.0290
0 14 23.0
10.106
6
10 9 8.96
2.1307
7 34 54.8
9.550
6
11 48 36.33
2.0278
0 24 29.1
10.097
7
10 11 16.71
2.1277
7 25 20.8
9.562
7
11 50 37.96
2.0266
0 34 34.7
10.088
8
10 13 24.28
2.1247
7 15 44.9
9.613
8
11 52 39.52
2.0253
0 44 39.7
10.079
9
10 15 31.67
2.1217
7 6 7.2
9.643
9
11 54 41.00
2.0242
0 54 44.2
10.069
10
10 17 38.89
2.1188
6 56 27.7
9.672
10
11 56 42.42
2.0231
1 4 48.0
10.057
11
10 19 45.93
2.1159
6 46 46.5
9.701
11
11 58 43.77
2.0219
1 14 51.1
10.045
12
10 21 52.80
2.1131
6 37 3.6
9.728
12
12 0 45.05
2.0208
1 24 53.4
10.032
13
10 23 59.50
2.1103
6 27 19.1
9.755
13
12 2 46.27
2.0199
1 34 54.9
10.018
14
10 26 6.04
2.1076
6 17 33.0
9.781
14
12 4 47.44
2.0190
1 44 55.6
10.005
15
10 28 12.41
2.1048
6 7 45.4
9.805
15
12 6 48.55
2.0160
1 54 55.5
9.991
16
10 30 18.62
2.1022
5 57 56.4
9.828
16
12 8 49.60
2.0171
2 4 54.5
9.975
17
10 32 24.67
2.0995
5 48 6.0
9.£5I
17
12 10 5060
2.01 02
2 14 52.5
9.958*
18
10 34 30.56
2.0968
5 38 14.3
9.873
18
12 12 51.54
2.0154
2 24 49.5
9.941
19
10 36 36.29
2.0942
5. 28 21.3
9.894
19
12 14 52.44
2.0146
2 34 45.4
9.923
20
10 38 41.87
2.0917
5 18 27.0
9.915
20
12 16 53.29
2.0138
2 44 40.2
9.904
21
10 40 47.30
2.0892
5 8 31.5
9.934
21
12 18 54.09
2.0130
2 54 33.9
9.885
22
10 42 52.58
2.0867
4 58 34.9
9.953
22
12 20 54.85
2.0123
3 4 2(5.4
9.864
23
10 44 57.71
2.0843
4 48 37.2
9.971
23
12 22 55.57
2.0117
3 14 17.6
9.843
24
10 47 2.70
2.0819
N. 4 38 38.4
9.987
24
12 24 56.25
2.0110
S. 3 24 7.6
9.822
-
—
— . — — —
_
—
— —
)
172
OCTOBER, 1884.
IX.
GKEENWICH MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Diffifor
1 Minute.
Declination.
Difllfor
1 Minute.
Hour.
Bight Ascension.
Diff.for
1 Minute.
Declination.
Diff.for
1 Minute.
0
1
2
3
4
5
6
7
8
9
10
II
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
1(5
17
18
19
20
21
22
23
24
FKIDAY 17.
h
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
13
13
13
13
13
13
13 13
13 15
13 17
13 19
13 21
13 23
13 25
13 27
13 29
13 31
13 33
13 35
13 37
13 39
13 41
13 43
13 45
13 47
13 49
13 51
13 53
13 55
13 57
13 59
14 1
m a
s
24 56.25
3.0110
2G 56.89
S.0104
28 57.50
9.0098
30 58.07
8.0093
32 58.61
3.0087
34 59.12
2.0082
36 59.60
3.0077
39 0.05
3.0073
41 0.48
3.0070
43 0.89
3.0066
45 1.27
3.0062
47 1.64
9.0060
49 1.99
3.0057
51 2.32
3.0054
53 2.64
8.0053
55 2.94
3.0049
57 3.23
3.0048
59 3.52
3.0047
1 3.80
3.0046
3 4.07
3.0045
5 4.34
3.0045
7 4.61
9.0044
9 4.88
3.0043
11 5.13
9.0044
3
4
4
4
4
4
4
5
3 24 7.6
3 .33 56.3
3 43 43.6
53 29.4
3 13.8
12 56.7
22 38.1
32 18.0
41 56.2
51 32.7
1 7.5
5 10 40.6
5 20 11.9
5 29 41.4
5 39 9.0
5 48 34.7
5 57 58.5
6 7 20.2
6 16 39.9
6 25 57.6
6 35 13.2
6 44 26.6
6 53 37.8
7 2 46.8
SATURDAY 18.
5.40
5.67
5.94
6.22
6.51
6.81
7.11
7.42
7.75
8.10
8.46
8.a3
9.22
9.63
10.06
10.52
11.00
11.50
12.02
12.57
13.15
13.76
14.39
15.05
15.74
9.0045
3.0045
3.0046
3.0047
3.0049
3.0050
3.0051
3.0053
3.0056
3.0059
3.0061
3.0063
3.0067
3.0070
9.0074
3.0078
3.0083
9.0085
3.0089
3.0094
3.0103
3.0107
3.0113
9.0117
S. 7 11 53.5
20 57.9
30 0.0
38 59.7
47 57.0
56 51.8
5 44.1
14 33.9
8 23 21.1
8 32 5.8
8 40 47.8
8 49 27.1
8 58 3.6
9 6 37.4
9 15 8.4
9 23 36.6
9 32 2.0
9 40 24.4
9 48 43.9
9 57 0.5
10 5 14.1
10 13 24.6
10 21 32.0
10 29 36.3
8.10 37 37.5
9.833
9.800
9.776
9.759
9.737
9.709
9.677
9.651
9.633
9.594
9.566
0.537
9.507
9.476
9.444
9.413
9.379
9.345
9.319
9.277
9.349
9.905
9.168
9.131
9.093
9.054
9.015
8.975
6.934
8.693
6.851
6.809
8.766
8.793
6.677
8.633
8.586
8.540
8.493
8.446
&398
8.349
8.301
8.353
8.301
8.149
8.097
6.046
7.994
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
22
23
24
SUNDAY 19.
h m s
8
14 1 15.74
3.0117
S.l
14 3 16.46
3.0133
1
14 5 17.22
8.0139
1
14 7 18.01
3.0134
14 9 18.83
3.0140
14 11 19.69
8.0146
14 13 20.58
3.0159
14 15 21.51
9.0158
14 17 22.48
9.0165
14 19 23.49
9.0171
14 21 24.53
9.0177
14 23 25.61
3.0183
14
14 25 26.73
8.0190
1
14 27 27.89
9.0197
I
14 29 29.10
9.0904
1
14 31 30.34
9.0910
|
14 33 31.6*2
9.0317
1
14 35 32.95
3.0335
I
14 37 34.32
3.0333
I
14 39 35.73
9.0339
■I
14 41 37.19
9.0947
14 43 38.69
9.0354
14 45 40.24
3.0363
14 47 41.83
3.0369
S. 1
0 37 37.5
0 45 35.6
0 53 30.5
1 1 22.1
1 9 10.4
1 16 55.4
1 24 37.1
1 32 15.4
I 39 50.3
I 47 21.9
1 54 50.0
2 2 14.6
9 a5.7
16 53.2
24 7.1
31 17.4
38 24.1
45 27.2
52 26.6
59 22.2
6 14.1
13 2.2
19 46.5
26 26.9
MONDAY 20.
14 49
14 51
14 53
14 55
14 57
14 59
15 1
15 3
15 5
15 8
15 10
15 12
15 14
15 16
15 18
15 20
15 22
15 24
15 26
15 28
15 30
15 32
15 34
15 36
15 38
43.46
45.14
46.87
48.64
50.45
52.31
54.22
56.17
58.17
0.22
2.31
4.45
6.64
8.87
11.15
13.48
15.85
18.27
20.73
23.24
25.80
28.40
31.04
£3.73
36.47
8.0976
9.0384
3.0999
3.0999
3.0306
3.0314
3.0393
3.0399
9.0337
3.0345
3.0353
3.0361
3.0368
3.0376
8.0384
3.0393
3.0407
9.0414
9.0439
9.0430
9.0437
3.0444
3.0453
3.0460
S.13 33 3.5
13 39 36.2
13 46 5.0
13 52 29.8
13 58 50.7
14 5 7.6
14 11 20.5
14 17 29.3
14 23 34.0
14 29 34.7
14 35 31.2
14 41 23.6
14 47 11.9
14 52 56.0
14 58 35.8
15 4 11.4
15 9 42.7
15 15 9.8
15 20 32.6
15 25 51.1
15 31 5.2
15 36 14.9
15 41 20.3
15 46 21.2
S.15 51 17.7
7.994
7.943
7.888
7.833
7.778
7.733
7.667
7.610
7.554
7.497
7.439
7.381
7.328
7.969
7.909
7.149
7.069
7.021
6.956
6.896
6.833
6.770
6.708
6.649
6.577
6.519
6.447
&381
6.315
6.948
6.161
6.113
6.045
5.977
5.908
5.839
5.770
5.638
5.557
5.487
5.416
5.344
5.973
5.199
5.126
5.053
4.978
4.905
OCTOBER, 1884.
173
GEEENWICH MEAN TIME.
'<
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Diftfor
1 Minute.
Declination.
Diff.for
1 Minute.
Hour.
Bight Ascension.
Difflfor
1 Minute.
Declination.
DifT. for
1 Minute.
v4
TU
T&8DA
Y21.
THURSDAY 23.
h m 8
6
Oil!
//
h m s
8
° ' ^J'm
n
0
15 38 36.47
94460
S.15 51 17.7
4.905
0
17 17 30.64
9.0707
S.18 16 33.4
1.079
1
15 40 39.25
9.0407
15 56 9.8
4.831
1
17 19 34.89
9.0709
18 17 35.2
0488
2
15 42 42.08
9.0475
16 0 57.4
4.756
2
17 21 39.15
9.0719
18 18 32.0
0.904
3
15 44 44.95
9.0489
16 5 40.5
4.681
3
17 23 43.43
94714
18 19 23.7
0.890
4
15 46 47.86
9.0488
16 10 19.1
4.606
4
17 25 47.72
94715
18 20 10.4
0.737
5
15 48 50.81
9.0406
16 14 53.2
4.531
5
17 27 52.01
9.0716
18 20 52.1
0.653
6
15 50 53.81
9.0503
16 19 22.8
4.4S5
6
17 29 56.3!
9.0717
18 21 28.8
0.569
7
15 52 56.85
9.0510
16 23 47.8
4.378
7
17 32 0.62
94719
18 22 0.4
0.485
8
15 54 59.93
9.0517
16 28 8.2
4.309
8
17 34 4.94
9.0791
18 22 27.0
0.401
9
15 57 3.05
9.0593
16 32 24.0
4.995
9
17 36 9.27
9.0799
18 22 48.6
0.317
10
15 59 6.21
9.0530
16 36 35.2
4.148
10
17 38 13.60
9.0793
18 23 5.1
0.933
11*
16 1 9.41
9.0538
16 40 41.8
4.071
11
17 40 17.94
9.0794
18 23 16.6
0.149
12
16 3 J2.66
9.0545
16 44 43.8
3.994
12
17 42 22.29
9.0795
18 23 23.0
-0.065
13
16 5 15.95
9.0551
16 48 41.1
3.916
13
17 44 26.64
94795
18 23 24.4
+ 0419
14
16 7 19.27
9.0557
16 52 33.7
3.839
14
17 46 30.99
94795
18 23 20.7
0.103
15
16 9 22.63
9.0563
16 56 21.7
3.761
15
17 48 35.34
9.0795
18 23 12.0
0.187
16
16 11 26.03
9.0569
17 0 5.0
31683
16
17 50 39.69
3.0796
18 22 58.2
0.979
17
16 13 29.46
9.0575
17 3 43.5
3.603
17
17 52 44.05
94797
18 22 39.4
0.355
18
16 15 32.93
9.0589
17 7 17.3
3.594
18
17 54 48.41
9.0797
18 22 15.6
0.4)9
19
16 17 36.44
9.0588
17 10 46.4
3.445
19
17 56 52.77
9.0796
18 21 46.7
0.593
20
16 19 39.98
9.0593
17 14 10.7
3.365
20
17 58 57.12
9.0795
18 21 12.8
0408
21
16 21 43.56
9.0599
17 17 30.2
3.965
21
18 1 1.47
9.0795
18 20 33.8
0499
22
16 23 47.17
9.0604
17 20 44.9
3.905
22
18 3 5.82
94794
18 19 49.8
0.775
23
16 25 50.81
WEI
9.0610*
)KESD
S.17 23 54.8
AY 22.
3.196
23
18 5 10.16
F]
94793
RIDA1
S.18 19 0.8
:24.
0.859
0
16 27 54.49
9.0616
S.17 27 0.0
3.046
0
18 7 14.50
94723
S.18 18 6.7
0443
1
16 29 58.20
9.0691
17 30 0.3
9.965
1
18 9 18.84
9.0799
18 17 7.6
1.097
2
16 32 1.94
9.0696
17 32 55.8
9.884
2
18 11 23.17
9.0791
18 16 3.5
1.111
3
16 34 5.71
9.0631
17 35 46.4
9.803
3
18 13 27.49
9.0790
18 14 54.3
1.195
4
16 36 9.51
9.0636
17 38 32.2
9.799
4
18 15 31.81
9.0719
18 13 40.1
1.978
5
16 38 13.34
9.0641
17 41 13.1
9.641
5
18 17 36.12
94717
18 12 20.9
1469
6
16 40 17.20
9.0646
17 43 49.1
9.559
6
18 19 40.42
9.0716
18 10 56.7
1.445
7
16 42 21.09
9.0650
17 46 20.2
9.478
7
18 21 44.71
94714
18 9 27.5
1.598
8
16 44 25.00
9.0654
17 48 46.4
9.397
8
18 23 48.99
9.0713
18 7 53.3
1.619
9
16 46 28.94
9.0659
17 51 7.8
9416
9
18 25 53.26
94719
18 6 14.0
1496
10
16 48 32.91
9.0663
17 53 24.3
9.933
10
18 27 57.53
94711
18 4 29.7
1.779
11
16 50 36.90
9.0667
17 55 35.8
9.150
11
18 30 1.79
94709
18 2 40.5
1.669
12
16 52 40.91
9.0671
17 57 42.3
9.067
12
18 32 6.04
9.0707
18 0 46.3
1.945
13
16 54 44.95
9.0675
17 59 43.9
1.985
13
18 34 10.28
94705
17 58 47.1
9.097
14
16 56 49.01
9.0678
18 1 40.5
1.909
14
18 36 14.50
9.0703
17 56 43.0
9.110
15
16 58 53.09
9.0689
18 3 32.2
1.890
15
18 38 18.71
9.0701
17 54 £3.9
9.193
16
17 0 57.19
9.0685
18 5 18.9
1.737
16
18 40 22.91
9.0698
17 52 19.8
9.276
17
17 3 1.31
9.0688
18 7 0.7
1.655
17
18 42 27.09
9.0696
17 50 0.8
9.358
18
17 5 5.45
9.0699
18 8 37.5
1.572
18
18 44 31.26
9.0694
17 47 36.8
9.411
19
17 7 9.61
9.0694
18 10 9.3
1.488
19
18 46 35.42
9.0699
17 45 7.9
9493 '
20
17 9 13.78
9.0697
18 11 36.1
1.405
20
18 48 39.56
9.0689
17 42 34.0
2.606 j
21
17 11 17.97
9.0700
18 12 57.9
1.399
21
18 50 43.69
9.0687
17 39 55.2
2.688
22
17 13 22.18
9.0709
18 14 14.7
1.939
22
18 52 47.80
9.0684
17 37 11.5
9.769
23
17 15 26.40
9.0705
18 15 26.5
1.156
23
18 54 51.90
9.0689
17 34 22.9
2.651
24
17 17 30.04
9.0707
S.18 16 33.4
1.079 24
18 56 55.98
9.0679
S.17 31 29.4
9.939
174
OCTOBER, 1884.
XL
GKEENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute,
Hour.
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
k;
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
22
23
24
SATURDAY 25.
h
18
18
19
19
19
19
19
19
19
19
1
1
19
19
19
11
19
19
19
19
19
19
19
19
19
19
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
m ■
' s
56 55.98
9.0679
59 0.05
2.0677
1 4.10
2.0674
3 8.14
2.0672
5 12.16
2.0669
7 16.17
2.0667
9 20.16
2.0664
11 24.13
2.0661
13 28.09
2.0658
15 32.03
2.0656
17 35.96
2.0653
19 39.87
2.0650
21 43.76
2.0647
23 47.64
2.0645
25 51.50
2.0642
27 55.34
2.0639
29 59.17
2.0637
32 2.99
2.0635
34 (i.79
2.0632
36 10.57
2.0629
38 14.34
2.0627
40 18.10
2.0625
42 21.84
2.0602
44 25.57
2.0620
S.I7
17
17
17
17
17
17
17
17
17
16
16
16
16
16
16
16
16
16
16
16
16
16
.16
31 29.4
28 31.0
25 27.7
22 19.5
19 6.5
15 48.6
12 25.9
8 58.4
5 26.0
1 48.8
58 6.8
54 20.0
50 28.4
46 32.1
42 31. U
38 25.1
34 14.5
29 59.2
25 39.1
21 14.4
16 45.0
12 10.9
7 32.2
2 48.8
SUNDAY 26.
46 29.28
48 32.98
50 36.67
52 40.34
54 44.00
56 47.65
58 51.30
0 54.94
2 58.56
5 2.17
5.77
9.37
12.96
13 16.55
15 20.13
17 23.70
19 27.27
21 30.84
23 34.40
25 37.96
27 41.52
29 45.09
31 48.66
33 52.23
35 55.80
7
9
11
2.0618
2.0616
2.0613
2.0611
2.0609
2.0608
2.0607
2.0605
2.0603
2.0601
2.0600
2.0599
2.0598
2.0597
2.0596
2.f595
2.0595
2.0594
2.0593
2.0593
2.0594
2.0595
2.0595
2.05S5
2.0596
S.15
15
15
15
15
15
15
15
15
15
15
15
14
14
14
14
14
14
14
14
14
13
13
13
S.13
58 0.8
53 8.2
48 11.0
43 9.1
38 2.7
32 51.8
27 36.3
22 16.3
16 51.8
11 22.7
5 49.2
0 11.2
54 28.8
48 42.0
42 50.8
36 55.!
30 55.1
24 50.7
18 41.9
12 28.8
6 11.4
59 49.8
53 23.9
46 53.7
40 19.2
2.938
3.014
3.096
3.177
3.257
3.338
3.418
3.499
3.580
3.660
3.740
3.899
3.978
4.058
4.137
4.216
4.295
4.373
4.451
4.539
4.607
4.684
4.761
4.838
4.915
4.992
5.069
5.144
5.220
5.296
5.371
5.447
5.522
5.596
5.670
5.743
5.817
5.891
5.964
6.037
6.110
6.182
6.254
6.325
6.396
6.467
6.539
6.610
Bight Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
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
22
23
24
MONDAY 27.
h m
20 35
20 37
20 40
20 42
20 44
20 46
20 48
20 50
20 52
20 54
20 56
20 58
21
21
21
21
21
21
21
21
21
21
21
21 23
21 25
21 27
21 29
21 31
21 33
21 35
21 37
21 39
21 41
21 44
21 46
21 48
21 50
21 52
21 54
21 56
21 58
22 0
8
8
55.80
2.0596
S.l
59.38
2.0597
2.96
2.0598
1
6.55
2.0599
10.15
2.0601
13.76
2.0602
17.37
2.0603
1
20.99
2.0605
1
24.63
2.0608
1
28.29
2.0611
1
31.96
2.0613
1
35.05
2.0616
39.36
2.0619
1
43.08
2.0623
1
46.83
2.0627
1
50.00
2.0630
54.39
2.0634
58.21
2.0639
2.C6
2.0643
5.93
2.0648
9.83
2.0653
13.77
2.0659
17.74
2.0665
1
21.75
2.0671
S.l
3 40 19.2
* 33 40.5
3 26 57.7
3 20 10.7
3 13 19.6
3 6 24.3
2 59 24.9
2 52 21.4
2 45 13.9
2 38 2.3
2 30 46.7
2 23 27.1
2 16 3.4
2 8 35.8
2 1 4.3
1 53 28.9
1 45 49.6
1 38 6.5
1 30 19.5
1 22 28.7
1 14 34.1
I 6 35.7
0 58 33.6
0 50 27.8
TUESDAY 28.
22
22
22
22
22 11
22 13
22 15
25.79
29.87
33.99
38.15
42.35
46.60
50.89
55.23
59.62
4.07
8.57
13.13
17.74
22.41
27.15
31.95
36.82
41.75
46.75
51.83
56.98
2.20
7.50
12.89
18.36
2.0677
2.0683
2.0690
2.0697
2.0704
2.0712
2.0719
2.0728
2.0737
2.0746
2.0755
2.0764
2.0773
2.0784
2.0795
2.0806
2.0817
2.0828
2.0840
2.0852
2.0864
2.0877
2.0891
2.0905
2.0919
S.10
10
10
10
10
10
9
9
9
9
9
9
8
8
8
8
8
8
8
7
7
7
7
7
S. 7
42 18.3
34 5.1
25 48.3
17 27.9
9 3.9
0 36.4
52 5.4
43 30.9
34 52.9
26 11.4
17 26.5
8 38.3
59 46.7
50 51.8
41 53.6
32 52.2
23 47.6
14 39.8
5 28.8
56 14.7
46 57.5
37 37.2
28 13.9
18 47.7
9 18.5
6.610
6.679
6.748
6.817
6.887
6.956
7.024
7.092
7.159
7.226
7.293
7.361
7.427
7.492
7.557
7.622
7.687
7.751
7.815
7.879
7.942
8.004
8.066
8.127
8.169
8.250
&3I0
&370
8.429
8.487
6.546
8.604
8.720
8.776
8.943
8.997
9.050
9.103
9.156
9.209
9.261
9.312
9.363
9.413
9.462
9.512
XII.
OCTOBER, 1884.
175
GREENWICH MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
Ilour.
Right Ascension.
Difllfor
1 Minute.
Declination.
DHT.for
1 Minute.
Honr.
Bight Ascension.
DUE for
1 Minute.
Declination.
Diftfor
1 Minute.
WEI
)NESD
AY 29.
FKIDAY 31.
h m s
8
O / li
tf
h ra ft
H
0 /
0
22 15 18.36
2.0919
S. 7 9 18.5
9.513
0
23 58 3.99
2.3053
N. 1 10
4.3
10.981
1
22 17 23.92
3.0933
6 59 46.3
9.560
1
0 0 16.41
3.3087
1 21
3.4
10.9S8
2
22 19 29.56
3.0947
6 50 11.3
9.607
2
0 2 29.03
2.3131
1 32
2.9
10.995
3
22 21 35.29
3.0983
6 40 33.5
9.653
3
0 4 41.86
3.3155
1 43
2.8
11.003
4
22 23 41.11
3.0978
6 30 52.9
9.700
4
0 6 54.89
3.2189
1 54
3.1
11.007
5
22 25 47.03
8.0994
6 21 9.5
9.746
5
0 9 8.13
2.2324
2 5
3.6
11.010
6
22 27 53.04
3.1010
6 11 23.4
9.791
6
0 11 21.58
2.2360
2 16
4.3
11.013
7
22 29 59.15
3.1037
6 1 34.6
9.835
7
0 13 35.25
2.3296
2 27
5.1
11.014
8
22 32 5.36
3.1044
5 51 43.2
9.878
8
0 15 49.13
2.3333
2 38
6.0
11.015
9
22 34 11.68
3.1063
5 41 49.2
9.933
9
0 18 3.23
3.3366
2 49
6.9
11.014
10
22 36 18.10
3.1079
5 31 52.6
9.965
10
0 20 17.55
3.3405
3 0
7.7
11.013
11
22 38 24.63
3.1097
5 21 53.4
10.007
11
0 22 32.09
2.3443
3 11
8.4
11.009
12
22 40 31.27
3.1116
5 11 51.7
10.048
12
0 24 46.85
3.3479
3 22
8.8
11.004
13
22 42 38.02
3.1135
5 1 47.6
10.088
13
0 27 1.84
3.2517
3 .33
8.9
10.999
14
22 44 44.89
3.1154
4 51 41.1
10.128 •
14
0 29 17.06
3.3556
3 44
8.7
10.993
15
22 46 51.87
2.1173
4 41 32.3
10.167
15
0 31 32.51
3.3594
3 55
8.1
10.985
16
22 48 58.97^
3.1194
4 31 21.1
10.305
16
0 &3 48.19
2.3633
4 6
6.9
10.975
17
22 51 6.20
3.1315
4 21 7.7
10.343
17
0 36 4.11
2.2673
4 17
5.1
10.965
18
22 53 13.55
3.1336
4 10 52.1
10.378
18
0 38 20.26
8.3713
4 28
2.7
10.953
19
22 55 21.03
3.1357
4 0 34.3
10.314
19
0 40 36.65
3.2752
4 38 59.5
10.940
20
22 57 28.63
3.1378
3 50 14.4
10.350
20
0 42 53.28
2.2792
4 49 55.5
10.936
21
22 59 136.36
3.1300
3 39 52.3
10.385
21
0 45 10.15
2.3833
5 0 50.6
10.911
22
23 1 44.23
2.1333
3 29 28.2
10.418
22
0 47 27.26
2.3873
5 11
44.8
10.894
23
23 3 52.24
2.1347
S. 3 19 2.2
10.450
23
0 49 44.62
2.3914
N. 5 22 37.9
10.875
TH1
[JBSDJ
\Y 30.
SATUEXM
LY, NC
)VEMBEE
1.
0
1
23 6 0.39
23 8 8.68
2.1370
S. 3 8 34.2
2 58 4.3
10.483
o
0 52 2.23
2.3956
N. 5 33 29.8
10.855
3.1393
10.514
2
23 10 17.11
8.1417
2 47 32.5
10.544
3
23 12 25.69
3.1443
2 36 59.0
10.573
4
23 14 34.42
3.1467
2 26 23.7
10.603
5
23 16 43.30
2.1492
2 15 46.7
10.630
PHASES
OF T
HE MC
)ON
6
7
8
23 18 52.32
23 21 1.50
23 23 10.85
2.1517
2 5 8.1
1 54 27.9
1 43 46.2
10.657
2.1544
2.1573
10.683
10.707
a
. 4
h
10
9
10
23 25 20.36
23 27 30.03
3.1599
9.1636
1 33 3.0
1 22 18.3
10.733
10.756
O Full Moon
• • ■
in
0.0
11
23 29 39.87
3.1654
1 11 32.3
10.778
(C Last Quart*
;r. . .
. 11
2 J
29.1
12
23 31 49.88
3.1683
1 0 45.0
10.799
# New Moon
. 18
12 :
31.4
13
23 34 0.06
3.1711
0 49 56.4
10.tt0
14
23 36 10.41
3.1739
0 39 G.6
10.839
}) First Quart
er . .
. 26
16 .
54.4
15
23 38 20.93
23 40 31.63
3.1768
0 28 15.7
0 17 23.7
io.ar>8
16
3.1799
10.876
17
23 42 42.52
8.1830
S. 0 6 30.6
10.893
d
. 7
h
1.9
18
23 44 53.59
3.1861
N. 0 4 23.4
10.907
(£ Perigee • •
19
23 47 4.85
3.1893
0 15 18.3
10.933
20
21
23 49 16.29
23 51 27.92
3.1933
2.1955
0 2(5 14.1
0 37 10.6
10.936
10.948
(£ AjK>gee . •
. 23
0.9
22
23 53 39.75
2.1987
0 48 7.8
10.959
23
23 55 51.77
3.3030
0 59 5.7
10.971
[24
23 58 3.99
2.3053
N. 1 10 4.3
10.981
176
OCTOBER, 1884.
XIII.
GREENWICH MEAN TIME.
LUNAR DISTANCES.
•
u
P.L.
P.L.
P.L.
P.L.
Name and Direction
Noon.
of
np».
of
VI*.
of
IX*.
of
of Object,
Diff.
Diff.
Diff.
Diff.
1
An tares
W.
Q I It
77 32 19
9688
O 1 II
79 9 15
9679
O 1 II
80 46 33
9655
O t it
82 24 14
9638
a Aquilee
W.
34 46 10
4154
35 55 20
4090
37 6 40
3899
38 20 1
3790
Aldebaran
E.
103 U 12
9635
101 33 5
99 J 9
99 54 36
9609
98.15 44
9586
2
Antares
W.
90 38 22
3555
92 18 19
9539
93 58 38
9593
95 39 19
9507
a Aquilie
W.
44 52 16
3373
46 15 3
3309
47 39 4
3950
49 4 14
3195
Aldebaran
E.
89 55 46
2504
88 14 38
9488
86 33 8
9479
84 51 15
9456
3
Antares
W.
104 8 0
9436
105 50 44
9499
107 33 48
9408
109 17 10
9396
a Aquiise
W.
56 25 10
9971
57 55 59
9935
59 27 34
9900
60 59 53
9866
Aldebaran
E.
76 16 23
9380
74 32 20
9366
72 47 57
9353
71 3 14
9139
Saturn
E.
92 6 25
9369
90 22 35
9375
88 38 24
9361
86 53 53
9347
4
a Aquito
W.
68 50 56
9737
70 26 47
9715
72 3 7
9695
73 39 53
9677
Fomalhaut
W.
39 41 29
3439
41 3 9
3340
42 26 34
3957
43 51 36
3183 |
Aldebaran
E.
62 14 51
9977
60 28 17
9365
58 41 26
9354
56 54 19
9343
Saturn
E.
78 6 29
9984
76 20 6
9973
74 33 27
9963
72 46 a3
9953
5
Fomalhaut
W.
51 16 23
9907
52 48 33
9866
54 21 35
9830
55 55 24
9796
a Pegasi
W.
34 24 9
9875
35 57 0
9811
37 31 14
9755
39 6 41
9706
Aldebaran
E.
47 55 8
9909
46 6 40
9199
44 18 1
9186
42 29 12
9180
Saturn
E.
63 48 26
9908
62 0 11
9909
60 11 46
9195
58 23 11
9189
Pollux
E.
91 15 30
9993
89 29 20
9985
87 42 59
9979
85 56 28
9973
6
Fomalhaut
W.
63 54 12
9673
65 31 30
9653
67 9 13
9637
68 47 18
9694 i
a Pegasi
\V.
47 18 4
9533
48 58 31
9510
50 39 30
9489
52 20 59
9471 '.
Aldebaran
E.
33 23 6
9157
31 33 34
9155
29 43 58
9153
27 54 19
9151 i
Saturn
E.
49 18 19
9169
47 29 4
9167
45 39 46
9165
43 50 25
9164
Pollux
E.
77 2 7
9955
75 15 1
9953
73 27 53
9953
71 40 44
9953
Jupiter
E.
113 3 7
9995
111 15 16
9991
109 27 20
9918
107 39 20
9916
Vesus
E.
113 16 53
9495
111 35 33
9499
109 54 8
9489
108 12 39
9487
Regulus
E.
113 18 43
9J69
111 29 28
9165
109 40 8
9169
107 50 43
9159
7
Fomalhaut
W.
77 1 37
9579
78 41 1
9574
80 20 31
9579
82 0 5
9569
a Pegasi
W.
60 53 51
9408
62 37 14
9401
64 20 47
9396
66 4 28
9391
Saturn
E.
34 43 42
9170
32 54 29
9174
31 5 22
9179
29 16 23
9165
Pollux
E.
62 45 30
9967
60 58 42
9973
59 12 3
9979
57 25 33
9987
Jupiter
E.
98 38 44
9919
96 50 35
9914
95 2 28
9915
93 14 23
9917
Regulus
E.
98 43 4
9157
96 53 32
9158
95 4 1
9160
93 14 33
9161
Venus
E.
99 44 48
9485
98 3 14
9487
96 21 42
9488
94 40 12
9491
8
a Pegasi
W.
74 44 9
9389
76 28 9
9384
78 12 7
9386
79 56 2
9389
a Arietis
W.
31 17 21
9590
32 58 f>
9499
34 39 30
9469
36 21 27
9450
Pollux
E.
48 36 22
9343
46 51 25
9358
45 6 50
9375
43 22 39
9394
Regulus
E.
84 8 8
9179
82 19 9
9183
80 30 16
9188
78 41 30
9193
Jupiter
E.
84 14 57
9934
82 27 20
9939
80 39 50
9943
78 52 27
9949
Venus
E.
86 13 49
9510
84 32 50
9515
82 51 58
9591
81 11 14
9597
Sun
E.
131 20 39
9470
129 38 43
9475
127 56 54
9480
126 15 13
9487
9
a Arietis
W.
44 56 22
9401
46 39 56
9396
48 23 36
9394
50 7 19
9394
Pollux
E.
34 49 46
9531
33 9 16
9571
31 29 41
9616
29 51 8
9669
Regulus
E.
69 39 56
9998
67 52 7
9934
66 4 30
9949
64 17 5
9950
Jupiter
E.
69 57 48
9989
68 11 22
9990
66 25 8
9998
64 39 5
9306
XIV.
OCTOBER, 1884.
177
GREENWICH MEAN TIME.
LUNAR DISTANCES.
5 .
© g
P.L.
*.L.
P.L.
P.L.
Name and Direction
of Object.
Midnight.
of
Biff.
XV*.
Of
Diff.
XVIIP».
of
Diff.
XXlfc.
of
Diff.
1
An tares
W.
84 2 18
9681
O 1 II
85 40 45
9604
87 19 35
9588
88 58 47
9571
a Aquil®
W.
39 35 14
3691
40 52 11
3601
42 10 44
3518
43 30 48
3443.
Aldebaran
E.
96 36 30
9569
94 56 53
9553
93 16 53
9537
91 36 31
9590
2
Antares
W.
97 20 22
9499
99 1 46
9478
100 43 30
9463
102 25 35
9449
a AquilsB
W.
50 30 29
3143
51 57 46
3096
53 26 0
3059
54 55 9
3009
Aldebaran
E.
83 9 0
9441
81 26 23
9496
79 43 25
9410
78 0 5
9895
3
Antares
W.
111 0 50
9384
112 44 47
9373
114 29 0
9369
116 13 29
9359
a Aqitite
W.
62 32 53
9838
64 6 31
9610
65 40 46
9784
67 15 35
9760
Aldebaran
E.
69 18 11
9396
67 32 49
9313
65 47 8
9300
64 1 8
9988
Saturn
E.
85 9 2
9334
83 23 52
9391
81 38 23
9306
79 52 35
9996
4
a Aquitae
W.
75 17 4
9660
76 54 38
9644
78 32 33
9630
80 10 47
9617
Fomalhaut
W.
45 18 6
3116
46 45 56
3056
48 14 59
3001
49 45 10
9959
Aldebaran
E.
55 6 56
9934
53 19 19
9995
51 31 28
9916
49 43 24
9908
Saturn
E.
70 59 24
9943
69 12 0
9933
67 24 22
9994
65 36 30
9916
5
Fomalhaut
W.
57 29 57
9766
59 5 10
9738
60 40 59
9713
62 17 21
9699
a Pegasi
Aldebaran
W.
40 43 13
9669
42 20 44
9694
43 59 6
9591
45 38 14
9560
E.
40 40 14
9174
38 51 8
9169
37 1 54
9165
35 12 33
9161
Saturn
E.
56 34 27
9183
54 45 34
9178
52 56 34
9175
51 7 29
9179
Pollux
E.
84 9 49
9968
82 23 2
9964
80 36 9
9960
78 49 10
9957
6
Fomalhaut
W.
70 25 41
9611
72 4 21
9601
73 43 15
9599
75 22 21
9585
a Pegasi
Aldebaran
W.
54 2 53
9455
55 45 10
9441
57 27 47
9499
59 10 41
9417
E.
26 4 38
9151
24 14 56
9150
22 25 13
9151
20 35 31
9153
Saturn
E.
42 1 3
9164
40 11 41
9164
38 22 19
9165
36 32 59
9167
Pollux
E.
69 53 35
9954
68 6 28
9956
66 19 24
9959
64 32 24
9963
Jupiter
E.
105 51 17
9914
104 3 11
9913
102 15 3
9919
100 26 54
9919
Venus
E.
106 31 7
9485
104 49 33
9485
103 7 58
9485
101 26 23
9485
Regulus
E.
106 1 14
9157
104 11 42
9157
102 22 9
9157
100 32 36
9157
7
Fomalhaut
W.
83 39 42
9569
85 19 20
9569
86 58 56
9570
88 38 30
9579
a Pegasi
W.
67 48 16
9387
69 32 10
9384
71 16 8
9389
73 0 8
9389
-
Saturn
E.
27 27 33
9199
25 38 53
9900
23 50 20
9911
22 2 15
9994
Pollux
E.
55 39 14
9996
53 53 8
9305
52 7 16
9316
50 21 40
9398
Jupiter
E.
91 26 21
9390
89 38 23
9S93
87 50 29
9996
86 2 40
9930
Regulus
E.
91 25 7
9163
89 35 44
9167
87 46 26
9170
85 57 14
9174
Venus
E.
92 58 46
9494
91 17 24
9497
89 36 7
9501
87 54 55
9505
8
a Pegasi
W.
81 39 53
9393
83 23 38
9397
85 7 17
9409
86 50 49
9408
a Anetis
W.
38 3 51
9434
39 46 37
9499
41 29 40
9413
43 12 56
9408
Pollux
E.
41 38 55
9415
39 55 42
9440
38 13 4
9467
36 31 4
9497
Regulus
E.
76 52 52
9190
75 4 23
9906
73 16 4
9919
71 27 55
9919
Jupiter
E.
77 5 13
9956
75 18 8
9969
73 31 12
9968
71 44 25
9974
Venus
E.
79 30 38
9533
77 50 11
9540
76 9 53
9548
74 29 46
9555
Sun
E.
124 33 41
9499
122 52 17
9499
121 11 2
9505
119 29 56
9519
9
a Arietis
W.
51 51 3
9394
53 34 47
9395
55 18 29
9397
57 2 8
9400
Pollux
E.
28 13 46
9730
26 37 46
9803
25 3 22
9891
23 30 51
9997
Regulus
E.
62 29 52
9958
60 42 51
9966
58 56 2
9975
57 9 26
9985
1
Jupiter
E.
62 53 14
9315
61 7 36
9393
59 22 10
9331
57 36 56
9340
12
178
OCTOBER, 1884.
XV.
GREENWICH MEAN TJME.
LUNAR DISTANCES.
-
•
Name And Direction
Noon.
P.L.
of
nih.
P.L.
of
VP>.
P.L.
of
DP*-
P.L.
of
**
of Object
Diff.
Diff.
Diff.
Diff.
9
Venus
£.
O 1 II
72 49 49
3568
,0 II*
71 10 2
9571
O / //
69 30 27
9579
O / /'
67 51 3
9687
S0K
£.
117 48 59
2530
116 8 13
9537
114 27 38
9535
112 47 14
9544
10
a Arietis
W.
58 45 43
9403
60 29 13
9408
62 12 36
9419
63 55 53
9418
Aldebaran
W.
24 45 53
9381
26 32 21
9989
28 18 37
9397
30 4 41
9306
Regulus
E.
55 23 4
9394
53 36 55
9303
51 51 0
9313
50 5 20
9393
Jupiter
E.
55 51 55
3350
54 7 8
3360
52 22 36
9370
50 38 18
9380
Venus
E.
59 37 7
9635
57 58 59
' 9644
56 21 4
9655
54 43 23
9665
Sun
E.
104 28 11
9588
102 48 59
9599
101 10 0
9607
99 31 14
9617
11
a Arietis
W.
72 30 9
9451
74 12 31
9459
75 54 42
9467
77 36 42
9475
Aldebaran
W.
38 51 49
9350
40 36 35
9359
42 21 8
9369
44 5 28
9378
Saturn
W.
23 16 45
9394
25 0 29
9397
26 44 8
9409
28 27 40
9407
Regulus
E.
41 20 43
9377
39 36 35
9388
37 52 43
9400
36 9 8
9419
Jupiter
E.
42 0 31
9433
40 17 44
9445
38 35 14
9458
36 53 2
9471
Venus
E.
46 38 31
9719
45 2 16
9730
43 26 16
9741
41 50 31
9753
Sun
E.
91 20 45
9666
89 43 19
9676
•88 6 7
9687
86 29 9
9696
12
Aldebaran
W.
52 43 44
9495
54 26 43
9434
56 929
9444
57 52 1
9453
Saturn
W.
37 3 11
9441
38 45 47
9449
40 28 12
9458
42 10 25
9465
Venus
E.
33 55 38
9814
32 21 28
9636
30 47 34
9839
29 13 57
saw
Sun
E.
78 27 42
3747
76 52 5
9758
75 16 42
9768
73 41 32
9779
13
Aldebaran
W.
66 21 24
9500
68 237
9509
69 43 38
9516
71 24 26
9597
Saturn
W.
50 38 37
9507
52 19 40
9516
54 0 31
9595
55 41 10
9533
Pollux
W.
25 43 51
3094
27 13 34
9976
28 44 17
9937
30 15 49
9906
•Sun
E.
65 49 4
9839
64 15 14
9839
62 41 37
9849
61 8 13
9859
14
Aldebaran
W.
79 45 18
9579
81 24 51
9581
83 4 12
9590
84 43 21
9599
Saturn
W.
64 1 27
9576
65 40 55
9585
67 20 11
9593
68 59 15
9601
Pollux
W.
38 1 10
9831
39 35 10
9813
41 9 21
9807
42 43 40
9803
Sun
E.
53 24 21
9909
51 52 13
3918
50 20 17
9937
48 48 33
9937
15
Aldebaran
W.
92 56 3
9648
94 34 0
9653
96 11 45
9660
97 49 18
9669
Saturn
W.
77 11 42
9644
78 49 37
3653
80 27 20
9661
82 4 52
9670
Pollux
W.
50 36 5
9798
52 10 35
3801
53 45 2
9804
55 19 25
9807
Sun
E.
41 12 56
9985
39 42 25
9995
38 12 6
3004
36 41 58
3014
16
Saturn
W.
90 .9 39
9719
91 46 3
9731
93 22 15
9799
94 58 16
9738
Pollux
W.
63 10 9
9838
64 44 0
3634
66 17 44
9840
67 51 20
9645
Sun
E.
29 14 17
3061
27 45 20
3079
26 16 36
3089
24 48 4
3091
20
Sun
W.
16 46 22
3359
18 9 33
3358
19 32 37
3365
20 55 33
3379
a Aquilro
E.
76 34 1
3400
75 11 45
3414
73 49 44
3438
72 27 59
3449
Fomnlbaut
E.
107 52 38
3499
106 30 54
3499
105 9 10
3439
103 47 26
3430
21
Sun
W.
27 48 22
3404
29 10 34
3409
30 32 40
3415
31 54 40
3491
a AquilflB
E.
65 43 25
3599
64 23 25
3541
63 3 46
3569
61 44 28
3580
Fomalhaut
E.
96 59 15
3441
95 37 45
3445
94 16 19
3449
92 54 58
3454
22
Sun
W.
38 43 9
3444
40 4 36
3448
41 25 58
3459
42 47 16
3455
a Aquil©
E.
55 13 49
3698
53 57 0
3797
52 40 41
3756
51 24 53
3789
Fomulhaut
E.
86 9 26
3477
84 48 36
3483
83 27 53
3488
82 7 16
3495
XVL
OCTOBER, 1884.
179
GREENWICH MEAN TIME.
LUNAK DISTANCES.
Name and Direction
of Object.
Midnight
P.L.
of
Diff.
xv*.
P.L.
of
DHL
xvm*.
P.L.
of
Diff.
XXF*
P.L.
of
Diff.
9
Venus
E.
O 1 ii
66 11 51
8506
64 32 51
9605
62 54' 3
9615
61 15 28
9695
Sun
E.
111 7 2
8553
109 27 1
9561
107 47 12
9569
106 7 35
9579
10
a Arietis
W.
65 39 2
9434
67 22 3
9430
69 4 55
9437
70 47 37
9444
Aldebaxan
W.
31 50 32
9314
33 36 11
9393
35 21 37
9339
37 6 50
9349
Regulus
E.
48 19 54
S333
46 34 43
9344
44 49 48
9355
43 5 8
9365
Jupiter
E.
48 54 14
9390
47 10 25
9401
45 26 52
9419
43 43 34
9499
Venus
E.
53 5 56
9075
51 28 43
9687
49 51 45
9697
48 15 1
9707
Sun
E.
97 52 42
9696
96 14 23
9636
94 36 17
9646
92 58 24
9656
11
a Arietis
W.
79 18 31
9483
81 0 8
9499
82 41 33
9500
84 22 46
9510
Aldebaran
W.
45 49 34
3387
47 33 27
9397
49 17 6
9408
51 0 32
9416
Saturn
W.
30 11 5
9413
31 54 21
9419
33 37 28
9496
35 20 25
9434
Regulus
E.
34 25 51
9495
32 42 52
9438
31 0 12
9453
29 17 52
9467
Jupiter
E.
35 11 8
9484
33 29 32
9497
31 48 15
9511
30 7 17
9596
Venus
E.
40 15 1
9765
38 39 47
9776
37 4 48
9788
35 30 5
9801
Sun
E.
84 52 24
9707
83 15 53
9717
81 39 36
9797
80 3 32
9736
12
Aldebaran
W.
59 34 20
9469
61 16 26
9479
62 58 19
9489
64 39 58
9491
Saturn
W.
43 52 27
9474
45 34 17
9489
47 15 55
9490
48 57 22
9499
Venus
E\
'27 40 38
9867
26 7 37
9889
24 34 55
9898
23 2 33
9915
Sun
E.
72 6 36
9788
70 31 53
9798
68 57 23
9809
67 23 7
9819
13
Aldebaran
W.
73 5 2
9536
74 45 25
9545
76 25 35
9554
78 5 33
9564
Saturn
W.
57 21 37
9549
59 .1 52
9551
60 41 55
9559
62 21 47
9567
Pollux
W.
31 48 0
9880
33 20 44
9861
34 53 53
9845
36 27 23
9831
Sun
E.
59 35 1
9869
58 2 2
9879
56 29 16
9888
54 56 42
9898
14
Aldebaran
W.
86 22 17
9608
88 1 1
9617
89 39 33
9695
91 17 54
9634
Saturn
W.
70 38 8
9610
72 16 49
9619
73 55 18
9697
75 33 36
9636
Pollux
W.
44 18 4
9800
45 52 32
9798
47 27 3
9798
49 1 34
9798
Sun
E.
47 17 1
9946
45 45 41
9967
44 14 34
9966
42 43 39
9976
15
Aldebaran
W.
99 26 40
9678
101 3 50
9686
102 40 49
9695
104 17 36
9703
Saturn
W.
83 42 12
9678
85 19 21
9687
86 56 18
9695
88 33 4
9704
Pollux
W.
56 53 44
9811
58 27 58
9815
60 2 7
9818
61 36 11
9893
Sun
E.
35 12 2
3093
33 42 18
3033
32 12 46
3043
30 43 26
3059
16
Saturn
W.
96 34 6
9746
98 9 45
9754
99-45 13
9763
101 20 29
9779
Pollux
W.
69 24 49
9859
70 58 10
9859
72 31 22
9866
74 4 25
9873
Sun
E.
23 19 43
3101
21 51 34
3111
20 23 38
3191
18 55 54
3131
20
Sun
W.
22 18 22
3379
23 41 3
3385
25 3 37
3399
26 26 3
3398
a AquiliB
E.
71 6 30
3457
69 45 18
3479
68 24 23
3488
67 3 45
3504
Fomalhaut
E.
102 25 43
3431
101 4 2
3434
99 42 24
3436
98 20 48
3438
21
Sun
W.
33 16 33
3496
34 38 20
3431
36 0 2
3436
37 21 38
3440
a Aquiltt
E.
60 25 32
9601
59 6 59
3693
57 48 50
3647
56 31 6
3679
Fomalhaut
E.
91 33 42
3457
90 12 30
3469
88 51 23
3467
87 30 22
3471
22
Sun
W.
44 8 30
3458
45 29 41
3460
46 50 50
3463
48 11 56
3464
a Aquito
E.
50 9 39
3893
48 55 0
3859
47 40 59
3900
46 27 39
.3949
Fomalhaut
E.
80 46 46
3500
79 26 22
3506
78 6 5
3514
76 45 56
3591
180
OCTOBER, 1884.
XVIL
GREENWICH MEAN TIME.
LUNAR DISTANCES.
•
° §
I*
Name and Direction
of Object.
Noon.
P.L.
of
Diff.
HP*.
P.L.
of
Diff.
Via.
P.L.
of
Diff.
DC*.
P.L.
of
Diff.
23
Sun
W.
O I II
49 33 0
3466
50 54 2
3467
O 1 II
52 15 3
3467
53°36 4
3467
Mars
W.
22 17 41
3490
23 39 24
3433
25 1 15
3416
26 23 13
3411
ft Aquilro
E.
45 15 2
3989
44 3 12
4041
42 52 13
4097
41 42 8
4157
Fomalhaut
E.
75 25 55
3598
74 6 2
3535
72 56 17
3544
71 26 41
3551
aPegasi
E.
90 17 17
3384
88 52 47
3385
87 28 18
3387
86 3 51
3988
24
Sun
W.
60 21 15
3463
61 42 21
3460
63 3 30
3456
64 24 43
3453
Mars .
W.
33 14 28
3389
34 36 59
3383
35 59 35
3378
37 22 17
3379
An tares
W.
25 27 51
3958
26 50 55
3339
28 14 33
3303
29 38 42
3379
Fomalhaut
E.
64 51 1
3598
63 32 25
3610
62 14 1
3633
60 55 51
3635
a Pegasi
E.
79 1 49
3290
77 37 26
3390
76 13 3
3390
74 48 40
3890
25
Sun
W.
71 11 56
34S9
72 33 40
3433
73 55 32
3415
75 17 31
3408
Mars
W.
44 17 24
334S
45 40 47
3335
47 4 18
3337
48 27 58
3319
Antares
W.
36 45 25
3190
38 11 46
3175
39 38 25
3161
41 5 21
3146
Fomalhaut
E.
54 28 49
3716
53 12 19
3737
51 56 11
3760
50 40 27
3785
a Pegasi
E.
G7 46 42
3988
66 22 17
3388
64 57 52
3388
63 33 27
3988
26
Suw
W.
82 9 43
3364
83 32 41
3353
84 55 51
3343
86 19 13
3333
Mars
W.
55 28 49
3973
56 53 32
3369
58 18 29
3351
59 43 37
3839
Antares
W.
48 24 14
9079
49 52 49
3065
51 21 41
3053
52 50 50
3038
Fomalhaut
E.
44 29 11
3955
43 16 47
4003
42 5 9
4053
40 54 22
4113
a Pegasi
E.
56 31 22
3391
55 7 0
3393
53 42 40
3395
52 18 23
3398
a Arietis
E.
99 19 31
3084
97 51 2
3074
96 22 21
3064
94 53 27
3053
27
Sun
W.
93 19 33
3367
94 44 23
3353
96 9 29
3338
97 34 53
3934
Mars
W.
66 52 56
3176
68 19 34
3161
69 46 30
3147
71 13 43
3199
Antares
W.
60 20 56
9965
61 51- 52
3951
63 23 6
9936
64 54 39
9990
a Pegasi
a Arietis
E.
45 18 15
3339
43 54 40
3344
42 31 19
3358
41 8 15
3375
E.
87 25 26
9993
85 55 5
3981
84 24 28
ooea
asvoo
82 53 35
9954
28
Suw
W.
104 46 28
3149
106 13 47
3135
107 41 26
3108
109 9 26
3089
Mars
W.
78 34 27
3059
80 3 36
3035
81 33 5
9018
83 2 56
9000
Antares
W.
72 37 29
9839
74 11 6
8833
75 45 5
8805
77 19 27
9768
a Arietis
E.
75 14 51
9885
73 42 13
3670
72 9 16
8855
70 36 0
9849
Aldebaran
E.
108 9 36
9784
106 34 47
8768
104 59 37
8751
103 24 5
3735
29
Suw
W.
116 35 6
9996
118 5 24
3977
119 36 6
3957
121 7 13
9937
Antares
W.
85 T7 0
9698
86 53 42
9680
88 30 49
9661
90 8 21
9643
a Aquilce
W.
40 35 3
3715
41 51 34
3631
43 9 35
3553
44 29 1
9480
a Arietis
E.
62 44 59
9769
61 9 50
9754
59 34 22
8741
57 58 36
9736
Aldebaran
E.
95 20 47
9648
93 42 57
9639
92 4 42
8611
90 26 2
3593
30
Suw
W.
128 49 4
9838
130 22 42
8818
131 56 46
3798
133 31 17
8778
Antares
W.
98 22 12
9551
100 2 14
8533
101 42 41
8515
103 23 33
8497
a Aquilffi
W.
51 24 49
3184
52 51 17
3136
54 18 43
3090
55 47 5
9046
a Arietis
E.
49 55 25
9665
48 18 0
3657
46 40 22
8649
45 2 33
9641
Aldebaran
E.
82 6 21
9499
80 25 7
9461
78 43 27
8463
77 1 21
3449
Saturn
E.
97 23 44
9493
95 42 20
9474
94 0 30
9455
92 18 13
8436
31
a Aquilse
W.
63 21 36
3859
64 54 48
3837
66 28 41
8796
68 3 14
8767
Aldebaran
E.
68 24 14
9359
66 39 30
3334
64 54 20
8317
63 8 45
3300
Saturn
E.
83 40 14
3344
81 55 19
3397
80 9 59
8309
78 24 13
3393
XVIII.
OCTOBER, 1884.
181
GREENWICH MEAN TIME.
LUNAR DISTANCES.
*4
Name and Direction
of Ohjeot.
Midnight
P.L.
Of
Diff.
XV*.
PL.
of
Diff.
xvnp»
P.L.
of
Diff.
XXI*.
P.L.
of
Diff.
23
Sun
W.
5l 57 5
3467
56 18 6
3466
0 $ a
57 39 8
3465
0 / II
59 0 11
3464
Mars
W.
27 45 17
3406
29 7 27
3401
30 29 42
3397
31 52 2
3099
a A qui Ire
E.
40 33 1
4994
39 24 58
4998
38 18 4
4360
37 12 25
4479
Fomalhaut
E.
70 7 13
3559
68 47 54
3569
67 28 46
3578
66 9 48
3588
a Pegasi
E.
84 39 25
3968
83 15 0
3969
81 50 36
3869
80 26 12
3990
24
Sun
W.
65 46 0
3446
67 7 22
3445
68 28 48
3440
69 50 19
3435
Mars
W.
38 45 5
3366
40 8 0
3361
41 31 1
3355
42 54 9
3349
Antares
W.
31 3 18
3959
32 28 18
3940
33 53 40
3999
35 19 23
3906
Fomalhaut
E.
59 37 55
3649
58 20 14
3663
57 2 48
3679
55 45 39
3697
a Pegasi
E.
73 24 17
3990
71 59 54
3989
70 35 30
3869
69 11 6
3989
25,
Suw
W.
76 39 38
3400
78 1 54
3399
79 24 20
3363
80 46 56
3373
Mars
W.
49 51 48
3310
51 15 48
3301
52 39 58
3993
54 4 18
3963
Antares
W.
42 32 35
3133
44 0 5
3119
45 27 52
3105
46 55 55
3099
Fomalliaut
E.
49 25 9
3819
48 10 19
3843
46 56 1
3876
45 42 17
3914
a Pegasi
E.
62 9 1
3988
60 44 35
3988
59 20 10
3968
57 55 45
3990
26
Sun
W.
87 42 48
3319
89 6 37
3306
90 30 41
3994
91 54 59
3981
Mars
W.
61 9 0
3997
62 34 37
3915
64 0 28
3803
65 26 34
3189
Antares
W.
54 20 16
3094
55 49 59
3009
57 20 0
9995
58 50 19
9981
Fomalhaut
E.
39 44 33
4179
38 35 47
4953
37 28 11
4339
36 21 54
4436
a Pepsi
E.
50 54 9
3309
49 30 0
3307
48 5 57
3313
46 42 1
3399
a Arietis
E.
93 24 19
3041
91 54 57
3030
90 25 21
3018
88 55 31
3006
27
Sun
W.
99 0 34
3909
100 26 33
3193
101 52 51
3176
103 19 29
3158
Mars
W.
72 41 14
3117
74 9 3
3101
75 37 11
3085
77 5 39
3069
Antares
W.
66 26 32
9904
67 58 46
9888
69 31 20
9873
71 4 14
9656
a Pegasi
E.
39 45 30
3396
38 23 9
3491
37 1 16
3450
35 39 56
3485
aAnetis
E.
81 22 25
9941
79 50 58
S997
78 19 13
9913
76 47 11
9699
28
Sun
W.
110 37 49
3071
112 6 34
3053
113 35 41
3034
115 5 12
3015
Mars
W.
84 33 9
9989
86 3 44
9964
87 34 42
9946
89 6 3
9997
Antares
W.
78 54 11
9770
80 29 18
9753
82 4 48
9735
83 40 42
9716
a Arietis
E.
69 2 26
9897
67 28 33
9819
65 54 21
9797
64 19 49
9783
Aldebaran
E.
101 48 11
97 J 8
100 11 55
970J
98 35 16
9683
96 58 13
9666
29
Sun
W.
122 38 45
9917
124 10 42
9898
125 43 4
9878
127 15 51
9858
Antares
W.
91 46 17
9095
93 24 38
9607
95 3 24
9588
96 42 35
9569
aAquilee
W.
45 49 47
3413
47 11 49
3351
48 35 2
3999
49 59 23
3936
a Arietis
E.
56 22 31
9713
54 46 9
9701
53 9 30
9689
51 32 35
9678
Aldebaran
E.
88 46 57
9574
87 7 27
9556
85 27 31
9537
83 47 9
9518
30
Sun
W.
135 6 14
9759
136 41 36
9740
138 17 23
9790
139 53 36
9701
Antares
W.
105 4 50
9480
106 4fi 32
58 46 28
9469
106 28 38
9445
110 11 9
9498
a Aquila?
W.
57 16 21
3006
9965
60 17 24
9998
61 49 7
9899
a Arietis
E.
43 24 34
9635
41 46 27
9639
40 8 15
9630
38 30 1
9639
Aldebaran
E.
75 18 48
9495
73 35 49
9407
71 52 24
9388
70 8 32
9370
Saturn
E.
90 35 30
9418
88 52 21
9399
87 8 45
9381
85 24 43
9369
31
a Aquilee
W.
69 38 25
9740
71 14 12
9713
72 50 34
9689
74 27 29
9665
Aldebaran
E.
61 22 45
9983
39 36 20
9966
57 49 30
9950
56 2 17
9934
Saturn
E.
76 38 3
9976
74 51 28
9959
73 4 28
9943
71 17 4
9997
182
NOVEMBER, 1884.
AT GREENWICH APPARENT NOON.
1
3
i
©
1
THE SUN'S
Sidereal
Time of
Semi- .
diameter
Passing
Meridian.
Equation of
Time,
to be
Subtracted
from
Apparent
Time.
DUE. for
lHonr.
Apparent
Right Ascension.
DiflT. for
lHoor.
Apparent
Deolination.
Diff. for
1 Honr.
Serai-
diameter.
Sat.
SUN.
Mon.
1
2
3
h ma
14 28 21.17
14 32 17.17
14 36 13.99
9.817
9.850
9.884
S. 14 39 37.5
14 58 35.1
15 17 18.1
-47.70
47.10
46.48
16 H)"oi
16 10.26
16 10.50
67!03
67.15
67.26
m s
16 18.55
16 19.10
16 18.84
a
0.039
0.006
0.027
Tues.
Wed.
Thur.
4
5
6
14 40 11.63
14 44 10.11
14 48 9.43
9.919
9.954
9.989
15 35 46.0
15 53 58.5
16 11 55.0
-45.84
45.18
44.52
16 10.74
16 10.98
16 11.21
67.37
67.48
67.60
16 17.75
16 15.83
16 13.08
0.062
0.096
0.132
Frid.
Sat.
SUN.
7
8
9
14 52 9.60
14 56 10.63
15 0 12.53
10.025
10.061
10.097
16 29 35.2
16 46 58.9
17 4 5.6
-43.83
43.13
42.42
16 11.44
16 11.66
16 11.88
67.72
67.84
67.96
16 9.48
16 5.01
15 59.66
0.168
0.204
0.240
Mon.
Tues.
Wed.
10
11
12
15 4 15.31
15 8 18.95
15 12 23.46
10.133
10.169
10.206
17 20 54.7
17 37 26.0
17 53 39.1
-41.68
40.92
40.16
16 12.10
16 12.33
16 12.54
68.08
68.20
68.32
15 53.46
15 46.40
15 38.47
0.276
0.312
0.348
Thur.
Frid.
Sat.
13
14
15
15 16 28.84
15 20 35.09
15 24 42.20
10.242
10.278
10.314
18 9 33.6
18 25 9.1
18 40 25.1
-39.37
38.56
37.74
16 12.75
16 12.96
16 13.17
68.44
68.56
68.68
15 29.67
15 20.00
15 9.47
0.384
0.420
0.456
SUN.
Mon.
Tues.
16
17
18
15 28 50.17
15 32 58.98
15 37 8.62
10.349
10.384
10.419
18 55 21.3
19 9 57.2
19 24 12.6
-36.91
36.07
35.20
16 13.37
16 13.57
16 13.78
68.80
68.92
69.03
14 58.09
14 45.86
14 32.80
0.491
0.526
0.561
Wed.
Thur.
Frid.
19
20
21
15 41 19.08
15 45 30.36
15 49 42.44
10.453
10.486
10.519
19 38 7.0
19 51 40.0
20 4 51.2
-34.31
33.42
32.50
16 13.98
16 14.17
16 14.36
69.15
69.26
69.37
14 18.93
14 4.26
13 48.78
0.595
0.628
0.661
Sat.
SUN.
Mon.
22
23
24
15 53 55.30
15 58 8.93
16 2 23.32
10.561
10.583
104514
20 17 40.3
20 30 6.8
20 42 10.5
-31.57
30.63
29.67
16 14.55
16 14.74
16 14.92
69.48
69.59
69.69
13 32.52
13 15.49
12 57.70
0.693
0.725
0.756
°5 *o fc
25
26
27
16 6 38.44
16 10 54.29
16 15 10.84
10.645
10.675
10.704
20 53 51.1
21 5 8.2
21 16 1.3
-28.69
27.70
26.70
16 15.10
16 15.27
16 15.44
69.79
69.89
69.99
12 39.18
12 19.94
12 0.00
0.787
0.816
0.845
Frid.
Sat.
SUN.
28
29
30
16 19 28.08
16 23 46.00
16 28 4.59
10.732
10.760
10.787
21 26 30.3
21 36 35.0
21 46 15.0
-25.69
24.68
23.65
16 15.62
16 15.78
16 15.94
70.09
70.18
70.27
1139.37
11 18.07
10 56.10
0.873
0.901
0.928
Mon.
31
16 32 23.81
10.814
S.21 55 29.8
-22.59
16 16.09
70.36
10 33.50
0.955
Note.— The moan time of sen
The sign — prefixed
nidiameter passing may be found by si
to the hourly change of declination ind
lbtracting 0MJ
icates that sou
) from the sidereal time.
th declinations are increasing.
II.
NOVEMBER, 1884.
183
AT GEBENWIOH MEAN FOON.
THE
SUN'S
1
1
1
.d
I
3
"8
!
Equation of
Time,
to be
Added to
Mean Time.
Diff for
lHonr.
Sidereal
Time,
or
Bight Ascension
of
Mean Son.
Apparent
Bight Ascension.
Difll for
1 Hour.
Apparent
Declination.
Diff. for
1 Honr.
Sat.
1
h m a
14 28 23.83
9.818
S. 14° 39 50.5
-47.70
m s
16 18.56
0.039
h m s
14 44 42.39
SUN.
2
14 32 19.84
9.851
14 58 47.9
47.09
16 19.10
0.006
14 48 38.94
Mod.
3
14 36 16.67
9.884
15 17 30.7
46.47
16 18.83
0.027
14 52 35.50
Tues.
4
14 40 14.32
9.919
15 35 58.4
-45.83
16 17.73
0.062
14 56 32.05
Wed.
5
14 44 12.80
9.954
15 54 10.7
45.17
16 15.80
0.096
15 0 28.60
Thur.
6
14 48 12.12
9.989
16 12 7.0
44.51
16 13.04
0.132
15 4 25.16
Frid.
7
14 52 12.29
10.025
16 29 47.0
-43.82
16 9.43
0.168
15 8 21.72
Sat.
8
14 56 13.32
J 0.061
16 47 10.5
43.12
16 4.95
0.204
15 12 18.27
SUN.
9
15 0 15.21
10.097
17 4 16.9
42.41
15 59.60
0.240
15 16 14.82
Mon.
10
15 4 17.98
10.135
17 21 5.8
-41.67
15 53.39
0.276
15 20 11.37
Tues.
11
15 8 21.61
10.169
17 37 36.8
40.92
15 46.32
0.312
15 24 7.93
Wed.
12
15 12 26.11
10.205
17 53 49.6
40.15
15 38.38
0.348
15 28 4.48
Thur.
13
15 16 31.47
10.211
18 9 43.8
-39.36
15 29.57
0.364
15 32 1.04
Frid.
14
15 20 37.70
10.277
18 25 19.0
38.55
15 19.90
0.420
15 35 57.59
Sat.
15
15 24 44.79
10.313
18 40 34.7
37.74
15 9.36
0.456
15 39 54.15
SUN.
16
15 28 52.73
10.348
18 55 30.5
-36.90
14 57.97
0.491
15 43 50.70
Mon.
17
15 33 1.52
10.383
19 10 6.1
36.06
14 45.74
0.526
15 47 47.26
Tues.
18
15 37 11.14
10.418
19 24 21.1
35.19
14 32.67
0.561
15 51 43.81
Wed.
19
15 41 21.58
10.452
19 38 15.1
-34.30
14 18.79
0.595
15 55 40.37
Thur.
20
15 45 32.82
10.485
19 51 47.8
33.40
14 4.11
0.628
15 59 36.93
Frid.
21
15 49 44.86
10.518
20 4 58.7
32.49
13 48.63
0.661
16 3 33.49
Sat.
22
15 53 57.68
10.550
20 17 47.4
-31.56
13 32.36
0.693
16 7 30.04
SUN.
23
15 58 11.27
10.582
20 30 13.6
30.62
13 15.33
0.725
16 11 26.60
Mon.
24
16 2 25.61
10.613
20 42 16.9
29.66
12 57.54
0.756
16 15 23.15
Tues.
25
16 6 40.68
10.644
20 53 57.2
-28.68
12 39.03
0.787
16 19 19.71
Wed.
26
16 10 56.48
10.673
21 5 13.9
27.69
12 19.78
0.816
16 23 16.26
Thur.
27
16 15 12.98
10.702
21 16 6.7
26.69
11 59.84
0.845
16 27 12.82
Frid.
28
16 19 30.16
10.730
21 26 35.4
-25.68
11 39.21
0.873
16 31 9.37
Sat
29
16 23 48.02
10.758
21 36 39.7
24.67
11 17.90
0.901
16 35 5.93
SUN.
SO
16 28 6.55
10.785
21 46 19.3
23.64
10 55.93
0.928
16 39 2.48
Mon.
31
16 32 25.70
10.812
S. 21 55 33.8
-22.58
10 33.33
0.955
16 42 59.04
Note.— Th
Th
an
e semidlamoter for mean noon
o sign — prefixed to the honrl.
> increasing.
may be assumed the same as t
y change of declination indicate
hat for apparent noon.
» that south declinations
Diff for 1 Hour,
+ 9^8565
(Table HE.)
184
NOVEMBER, 1884.
HI.
AT GREENWICH MEAN NOON.
... ,
1
1
"8
1
THE SUN'S
I
i
o
1
Logarithm
of the
Badins Vector
of the
Earth.
Dlfltfor
1 Hoar.
Mean Time
of
Sidereal Noon.
TRUE LONGITUDE.
•
Dift for
lHonr.
LATITUDE.
X
V
1
2
3
306
307
308
219 30 24.8
220 30 31.4
221 30 39.7
29 40?4
29 46.8
29 55.0
150£3
150.31
150.38
- 0.17
0.30
0.43
9.9964001
9.9962891
9.9961799
-46.6
45.8
45.2
h m a
9 13 46.64
9 9 50.74
9 5 54.83
4
5
6
309
310
311
222 30 49.8
223 31 1.8
224 31 15.7
30 5.0
30 16.9
30 30.6
150.46
150.54
150.62
-0.54
0.61
0.67
9.9960722
9.9959662
9.9958620
-44.5
43.8
43.1
9 1 58.92
8 58 3.02
8 54 7.11
7
8
9
312
313
314
225 31 31.5
226 31 49.3
227 32 9.0
30 46.3
31 4.0
31 23.6
150.70
150.78
150.86
-0.69
0.69
0.64
9.9957595
9.9956586
9.9955591
-42.4
41.7
41.1
8 50 11.19
8 46 15.28
8 42 19.37
10
11
12
315
316
317
228 32 30.6
229 32 54.3
230 33 19.9
31 45.1
32 8.6
32 34.1
150.94
151.03
151.11
-0.59
0.49
0.39
9.9954611
9.9953644
9.9952691
-40.5
39.9
39.5
8 38 23.46
8 34 27.56
8 30 31.65
13
14
15
318
319
320
231 33 47.4
232 34 16.8
233 34 48.0
33 1.5
33 30.8
34 1.8
151.19
151.26
151.33
-0.26
-0.13
0.00
9.9951749
9.9950817
9.9949896
-39.0
38.6
38.2
8 26 35.74
8 22 39.83
8 18 43.93
16
17
18
321
322
323
234 35 20.9
235 35 55.3
236 36 31.4
34 34.5
35 8.8
35 44.8
151.40
151.47
151.53
+ 0.12
0.25
0.34
9.9948984
9.9948081
9.9947188
-37.8
37.4
37.0
8 14 48.02
8 10 52.11
8 6 56.20
19
20
21
324
325
326
237 37 8.9
238 37 47.7
239 38 27.9
36 22.2
37 0.8
37 40.8
151.59
151.65
151.70
+ 0.41
0.43
0.43
9.9946305
9.9945432
9.9944569
-36.6
36.2
35.7
8 3 0.28
7 59 4.37
7 55 8.46
22
23
24
327
328
329
240 39 9.3
241 39 51.8
242 40 35.4
38 22.1
39 4.5
39 47.9
151.75
151.79
151.83
+ 0.40
0.34
0.26
9.9943720
9.9942884
9.9942063
-35.1
34.5
33.8
7 51 12.55
7 47 16.64
7 43 20.73
25
26
27
330
331
332
243 41 20.0
244 42 5.6
245 42 52.2
40 32.3
41 17.7
42 4.2
151.87
151.91
151.96
+ 0.17
+ 0.05
-0.09
9.9941259
9.9940472
9.9939704
-33.1
32.4
31.6
7 39 24.82
7 35 28.91
7 31 33.01
28
29
30
333
334
335
* 246 43 39.7
247 44 28.2
248 45 17.7
42 51.6
43 40.0
44 29.3
153.00
152.04
152.08
-0.23
0.36
0.49
9.9938957
9.9938231
9.9937530
-30.7
29.7
28.8
7 27 37.10
7 23 41.19
7 19 45.28
31
336
249 46 8.2
45 19.6
152.12
-0.59
9.9936853
-27.8
7 15 49.36
Nom— The
the
numbers in column
mean equinox of Jiu
K correspond
unary (H.o.
to the tra
e equinox of the date; in oolm
sin X', to
Dift for 1 Hoar,
— 9-.8296.
(Table H.)
IV.
NOVEMBER, 1884.
185
GREENWICH MEAN TIME.
•
i
1
1
THE
MOON'S
8EMTDIAMETER.
HORIZONTAL PARALLAX.
UPPER TRANSIT.
AGE.
Noon.
Midnight
Noon.
Diff. for
lHoor.
Midnight
DUt for
lHoor.
Meridian of
Greenwich.
Diff. for
lHoor.
Noon.
1
2
3
16 15.9
16 27.6
16 35.5
16'2&2
16 32.1
16 37.8
59'34!'9
60 18.0
60 47.0
+ 2.02
1.58
0.87
59'57."9
60 34.5
60 55.2
//
+ 1.80
1.21
+ 0.50
h m
10 29.9
11 25.6
12 24.0
m
2.26
2.38
2.49
d
13.5
14.5
15.5
4
5
6
16 38.8
16 37.1
16 31.1
16 38.5
16 34.6
16 26.7
60 58.9
60 52.8
60 30.6
+ 0.12
-0.60
1.20
60 58.0
60 43 5
60 14.6
-0.25
0.92
1.44
13 24.6
14 26.0
15 26.7
2.55
2.55
2.49
16.5
17.5
18.5
7
8
9
16 21.6
16 10.1
15 57.6
16 16.1
16 3.9
15 51.3
59 56.0
59 13.5
58 27.5
- 1.63
1.87
1.93
59 35.5
58 50.7
58 4.4
-1.78
1.92
1.91
16 25.2
17 20.5
18 12.7
2.37
2.24
2.10
19.5
20.5
21.5
10
11
12
15 45.1
15 33.3
15 22.7
15 39.1
15 27.8
15 17.9
57 41.7
56 58.5
56 19.5
-1.87
1.72
1.52
57 19.7
56 38.4
56 1.7
- 1.80
1.62
1.42
19 2.0
19 49.2
20 35.0
2.00
1.93
1.89
22.5
23.5
24.5
13
14
15
15 13.4
15 5.4
14 58.6
15 9.2
15 1.8
14 55.7
55 45.2
55 15.8
54 51.1
-1.32
1.12
0.94
55 29.9
55 2.9
54 40.4
- 1.22
1.02
0.85
21 20.1
22 5.1
22 50.4
1.87
1,88
1.90
25.5
26.5
27.5
16
17
18
14 53.1
14 48.8
14 45.7
14 50.8
14 47.1
14 44.7
54 30.8
54 15.0
54 3.7
-0.76
0.57
0.37
54 22.3
54 8.8
53 59.9
-0.66
0.47
0.27
23 36.4
6
0 23.0
1.93
1.96
28.5
29.5
0.7
19
20
21
14 44.0
14 43.8
14 45.5
14 43.7
14 44.4
14 47.1
53 57.4
53 56.8
54 2.8
-0.15
+ 0.11
0.40
53 56.3
53 58.9
54 8.6
-0.02
+ 0.25
0.57
1 10.1
1 57.5
2 44.7
1.97
1.97
1.96
1.7
2.7
3.7
22
23
24
14 49.2
14 55.2
15 3.6
14 51.9
14 59.1
15 8.8
54 16.4
54 38.4
55 9.5
+ 0.74
1.10
1.48
54 26.3
54 52.8
55 28.5
+ 0.92
1.30
1.67
3 31.6
4 18.0
5 4.0
1.94
1.92
1.92
4.7
5.7
6.7
25
26
27
15 14.6
15 27.7
15 42.8
15 20.9
15 35.1
15 50.7
55 49.6
56 38.0
57 33.2
+ 1.84
2.17
2.39
56 12.8
57 4.9
58 2.3
+ 2.02
2.30
2.45
5 50.0
6 36.6
7 24.5
1.93
1.96
2.03
7.7
8.7
9.7
28
29
30
15 58.8
16 14.6
16 28.8
15 6.8
16 22.0
16 34.7
58 32.0
59 30.2
60 22.1
+ 2.47
2.32
1.95
59 1.5
59 57.3
60 43.9
+ 2.42
2.17
1.67
8 14.5
9 7.3
10 3.5
2.14
2.27
2.42
10.7
11.7
12.7
31
16 39.6
16 43.3
61 2.0
+ 1.32
61 15.7
+ 0.94
11 3.1
2.55
13.7
186
NOVEMBER, 1884.
V.
GREENWICH MEAN TIME.
•
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Ascension.
JMfffor
IMinute.
Declination.
Diff.for
1 Minute.
Hour.
Right Ascension.
Diff.for
1 Minute.
Declination.
Diff.for
1 Minute.
8A
TUED.
kY 1.
MONDAY 3.
h m a
8
O t it
//
h m 8
8
O 1 II
u
0
0 52 2.23
9.9966
N. 5 33 29.8
10.855
0
2 47 15.09
9.5047
N.13 25 30.5
8£56
1
0 54 20.09
9.9997
5 44 20.5
10.835
1
2 49 45.49
9.5087
13 33 43.2
8.167
2
0 56 38.20
&3038
5 55 10.0
10.613
2
2 52 16.13
9^197
13 41 50.6
8.077
3
0 58 56.55
9^060
6 5 58.1
10.790
3
2 54 47.01
9.5166
13 49 52.5
7.985
4
1 1 15.16
9^199
6 16 44.6
10.765
4
2 57 18.12
9^904
13 57 48.8
7.899
5
1 3 34.02
9^165
6 27 29.9
10.738
5
2 59 49.46
9.5943
14 5 39.5
7.797
6
1 5 53.14
9.3908
6 38 13.4
10.711
6
3 2 21.04
9JB89
14 13 24.4
7.700
7
1 8 12.52
9.3951
6 48 55.2
10.689
7
3 4 52.85
9.5319
14 21 3.5
7.603
8
1 10 32.15
9.3993
6 59 35.2
10.659
8
3 7 24.87
2.5355 •
14 28 36.8
7.505
9
1 12 52.04
9.3337
7 10 13.4
10.690
9
3 9 57.11
9.5399
14 36 4.1
7.405
10
1 15 12.19
9.3381
7 20 49.6
10.587
10
3 12 29.57
9.5498
14 43 25.4
7.304
11
1 17 32.61
&349S
7 31 23.8
10.559
11
3 15 2.25
9.5464
14 50 40.6
7.909
12
1 19 53.29
9.3468
7 41 55.9
10.517
12
3 17 35.14
9.5499
14 57 49.6
7.098
13
1 22 14.23
9^519
7 52 25.8
10.479
13
3 20 8.23
9.5533
15 4 52.4
6.993
14
I 24 35.44
9^557
8 2 53.4
10.440
14
3 22 41.53
9.5567
15 11 48.8
6.887
15
1 26 56.91
9.3601
8 13 18.6
10.400
15
3 25 15.03
9.5599
15 18 38.8
6.780
16
1 29 18.65
JL3646
8 23 41.4
10.358
16
3 27 48.72
9.5631
15 25 22.4
6.673
17
1 31 40.66
9.3690
8 34 1.6
10.315
17
3 30 22.60
9.5663
15 31 59.5
6.563
18
1 34 2.93
9.3734
8 44 19.2
10.971
18
3 32 56.67
9.5694
16 38 29.9
6.459
19
1 36 25,47
9.3779
8 54 34.1
10.995
19
3 35 30.93
SL5724
15 44 53.7
6.341
20
1 38 48.28
9.3894
9 4 46.2
10.177
20
3 38 5.36
9.5753
15 51 10.8
6.237
21
1 41 11.36
9.3869
9 14 55.4
10.198
21
3 40 39.96
9.5781
15 57 21.0
6.113
22
1 43 34.71
9.3914
9 25 1.6
10.077
22
3 43 14.73
2.5809
16 3 24.4
5.999
23
1 45 58.33
SI
9J958
CTKDA
N. 9 35 4.7
Y 2.
10.096
23
3 45 49.67
Tl
SW837
JESDA
N.16 9 20.9
14.
5.883
0
1 48 22.21
9.4009
N. 9 45 4.7
9.973
0
3 48 24.77
9.5863
N.16 15 10.4
5.767
1
1 50 46.36
9.4047
9 55 1.5
9.918
1
3 51 0.03
9.5689
16 20 52.9
5.649
2
1 53 10.78
9.4093
10 4 54.9
9.869
2
3 53 35.44
SW913
16 26 28.3
5.530
3
1 55 35.48
9.4139
10 14 44.9
9.804
3
3 56 10.99
9^937
16 31 56.5
5.410
4
1 58 0.45
9.4183
10 24 31.4
9.745
4
3 58 46.(58
9^960
16 37 17.5
5.990
5
2 0 25.68
9.4998
10 34 14.3
9.685
5
4 1 22.51
9^989
16 42 31.3
5.169
6
2 2 51.18
9.4973
10 43 53.6
9.693
6
4 3 58.47
9.6004
16 47 37.8
5.047
7
2 5 16.95
9.4318
10 53 29.1
9.559
7
4 6 34.56
9.6094
16 52 36.9
4.994
8
2 7 42.99
9.4369
11 3 0.7
9.493
8
4 9 10.76
9.6043
16 57 28.6
4.800
9
2 10 9.29
9.4406
11 12 28.3
9.497
9
4 11 47.08
2.606"
17 2 12.9
4.676
10
2 12 35.86
9.4450
11 21 51.9
9.359
10
4 14 23.51
9.6080
17 6 49.7
4.550
11
2 15 2.69
9.4494
11 31 11.4
9.990
11
4 17 0.04
9.6096
17 11 18.9
4.493
12
2 17 29.79
9.4536
11 40 26.7
9.919
12
4 19 36.66
9.6119
17 15 40.5
4.996
13
2 19 57.15
9.4589
11 49 37.7
9.147
13
4 22 13.38
9.6197
17 19 54.5
4.169
14
2 22 24.77
9.4698
11 58 44.3
9.073
14
4 24 50.19
9.6149
1<* 24 0.8
17 27 59.4
4.011
15
2 24 5>.66
9.4670
12 7 46.4
8,998
15
4 27 27.08
9.6154
3.919
16
2 27 20.81
9.4719
12 16 44.0
8.999
16
4 30 4.04
9.6165
17 31 50.3
3.784
17
2 29 49.21
9.4754
12 25 37.0
6.843
17
4 32 41.06
9.6175
17 35 £3.5
3.655
18
2 32 17.86
9.4797
12 34 25.2
8.763
18
4 35 18.14
9.6185
17 39 8.9
3.594
' 19
2 34 46.77
9.4839
12 43 8.6
8.689
19
4 37 55.28
9.6194
17 42 36.4
3.393
20
2 37 15.93
9.4889
12 51 47.1
8.601
20
4 40 32.47
9.6901
17 45 56.0
3.969
21
2 39 45.35
9.4994
13 0 20.7
8.517
21
4 43 9.70
9.6908
17 49 7.8
3.131
22
2 42 15.02
9.4965
13 8 49.2
8.439
22
4 45 46.97
9.6315
17 52 11.7
9.998
23
2 44 44.93
9.5006
13 17 12.5
8.344
23
4 48 24.28
9.6321
17 55 7.6
9.866
24
2 47 15.09
9.5047
N.13 25 30.5
8.956
24
4 51 1.62
9.6394
N.I 7 57 55.6
9.733
VI.
NOVEMBER, 1884
187 *
GEEENWIOH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
i '
Hour.
Bight Ascension.
Difitfor
1 Minute.
Declination.
Diff.for
1 Minute.
Hoar.
Bight Ascension.
Diff.for
1 Minute.
Din*, for
1 Minute.
• WE]
DNESI
)AY5.
PBIDAY 7.
h m s
8
O 1 it
//
h m 8
8
O 1 m II
a
0
4 51 1.62
9.6584
N.17 57 55.6
9.733
0
6 65 22.41
94897
N.17 36 33.6
3.487
1
4 53 38.97
9.0996
18 0 35.6
9400
1
6 57 53.65
94186
17 &3 0.9
3403
2
4 56 16.33
9.6997
18 3 7.6
9.466
2
7 0 24.64
94145
17 29 21.2
3.719
3
4 58 53.70
9.6996
18 5 31.6
9439
3
7 2 55.39
94103
17 25 34.6
3.633
4
5 1 31.07
2.6397
18 7 47.5
9.196
4
7 $25.88
24060
17 21 41.2
3447
5
5 4 8.43
9.6996
18 9 55.4
9.065
5
7 7 56.11
94016
17 17 41.0
4.059
6
5 6 45.78
9.6993
18 11 55.3
1.931
6
7 10 26.07
9.4972
17 13 34.1
4.171
7
5 9 23.11
9.6990
18 13 47.1
1.796
7
7 12 55.77
2.4997
17 9 20.5
4489
8
5 12 0.42
94913
18 15 30.8
1.663
8
7 15 25.20
9.4889
17 5 0.3
4491
9
5 14 37.69
> 9.6909
18 17 6.5
1.597
9
7 17 54.36
9.4837
17 0 33.6
4.499
10
5 17 14.92
9.6909
18 18 34.1
1499
10
7 20 23.24
9.4791
16 56 0.4
4.607
11
5 19 52.11
9.6194
18 19 53.6
1.958
11
7 22 51.85
9.4745
16 51 20.8
4.713
12
5 22 29.25
9418S
18 21 5.1
1.194
12
7 25 20.18
9.4698
16 46 34.8
4.819
13
5 25 6.33
9.6175
18 22 8.5
0489
13
7 27 48.213
2.4651
16 41 42.5
4.924
14
5 27 43.35
9.6164
18 23 3.8
0455
14
7 30 15.99
9.4603
16 36 43.9
5497
15
5 30 20.30
9.6159
18 23 51.1
0.791
15
7 32 43.47
9.4556
16 31 39.2
5.129
16
5 32 57.17
2.6138
18 24 30.3
0486
16
7 35 10.66
9.4508
16 26 28.4
5431
17
5 35 3396
9.6194
18 25 1.4
0.459
17
7 37 37.56
9.4460
16 21 11.5
5432
18
5 38 10.66
94109
18 25 24.5
0418
18
7 40 4.18
9.4419
16 15 48.5
5.439
19
5 40 47.27
9.6093
18 25 39.6
0.184
19
7 42 30.50
9.4369
16 10 19.6
5430
20
5 43 23.78
94076
18 25 46.6
+ 0.050
20
7 44 56.52
9.4319
16 4 44.9
5497
21
5 46 0.18
9.6057
18 25 45.6
-0.083
21
7 47 22.24
9.4969
15 59 4.4
5.793
22
5 48 36.47
9.6038
18 25 36.7
0415
22
7 49 47.67
9.4913
15 53 18.1
5.819
23
5 51 12.64
TH1
94017
CTESDi
N.18 25 19.8
^Y 6.
0447
23
7 52 12.80
SA'
9.4163
N.15 47 26.1
^Y 8.
5419
0
5 53 48.68
9.5996
N.18 24 55.0
0.480
0
7 54 37.63
9.4113
N.15 41 28.6
6.005
1
5 56 24.59
94974
18 24 22.2
0.619
1
7 57 2.16
9.4063
15 35 25.5
6.097
2
5 59 0.37
94959
18 23 41.6
0.743
2
7 59 26.39
2.4019
15 29 16.9
6.188
3
6 1 36.01
94998
18 22 53.1
0.874
3
8 1 50.31
94969
15 23 2.9
6477
4
6 4 11.50
94903
18 21 56.7
1.005
4
8 4 13.93
94911
15 16 43.6
6466
5
6 6 46.84
94876
18 20 52.5
1.135
5
8 6 37.24
94860
15 10 19.0
6.453
6
6 9 22.01
94848
18 19 40.5
1.964
6
6 9 0.25
94810
15 3 49.2
6440
7
6 11 57.02
94891
18 18 20.8
1493
7
8 11 22.96
94759
14 57 14.2
6.695
8
6 14 31.87
94791
18 16 53.3
1499
8
8 13 45.36
94708
14 50 34.2
6.708
9
6 17 6.54
94763
18 15 18.1
1.650
9
8 16 7.45
9.3657
14 43 49.2
6.792
10
6 19 41.03
94733
18 13 35.3
1.778
10
8 18 29.24
94606
14 36 59.2
6.874
11
6 22 15.34
94709
18 11 44.8
1.905
11
8 20 50.72
94554
14 30 4.3
6.954
12
6 24 49.46
9.5671
18 9 46.7
9431
12
8 23 11.89
94503
14 23 4.7
7.033
13
6 27 23.39
94637
18 7 41.1
9.156
13
8 25 32.76
94459
14 16 0.3
7.119
14
6 29 57.11
94603
18 5 28.0
9.981
14
8 27 53.32
94409
14 8 51.2
7.190
15
6 32 30.63
94569
18 3 7.4
9.405
15
8 30 13.58
94351
14 1 37.5
7467
16
6 35 3.94
94534
18 0 39.4
9498
16
8 32 33.53
94300
13 54 19.2
7.349
17
6 37 37.04
94498
17 58 4.0
9.651
17
8 34 53.18
94849
13 46 56.5
7.415
18
6 40 9.92
94469
17 55 21.3
9.779
18
8 37 12.52
94198
13 39 29.4
7.468
19
6 42 42.58
94494
17 52 31.3
9.893
19
8 39 31.56
94148
13 31 57.9
7461
20
6 45 15.01
94386
17 49 34.1
3.014
20
8 41 50.30
94097
13 24 22.1
7.631
21
6 47 47.22
94348
17 46 29.6
3.134
21
8 44 8.73
9.3047
13 16 42.2
7.700
22
6 50 19.19
9.5308
17 43 18.0
3.252
22
8 46 26.86
9.2997
13 8 58.1
7.769
23
6 52 50.92
9.5268
\7 39 59.3
3.370
23
8 48 44.(2)
2.2947
13 1 9.9
7.837
24
6 55 22.41
9.5227
N.17 36 33.6
3.487
24
8 51 2.23
2.2897
N.12 53 17.7
7.903
"188
NWEMBEK, 1884.
VII.
GREENWICH MEAN TIME.
«
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Diff.for
1 Minute.
Declination.
Diff.for
1 Minute.
Hour.
Sight Asoension.
Diff.for
1 Minute.
Declination.
Diff. for
1 Minute.
si
[JNDA^
sr 9.
TUESDAY 11.
h m . a
B
O I »i
«
h m s
8
O 1 II
0
8 51 2.^3
9.9897
N.12 53 17.7
7.903
' 0
10 35 45.98
2.0886
N. 5 37 211.4
9.877
]
8 53 19.46
9.9847
12 45 21.6
7.968
1
10 37 51.20
9.0855
5 27 36.2
9.895
2
8 55 36.40
9.9798
12 37 21.6
8.033
2
10 39 56.24
9.0894
5 17 42.0
9.919
3
8 57 53.04
9.9749
12 29 17.7
8.096
3
10 42 1.09
9.0793
5 7 46.8
9.998
4
9 0 9.39
9,9701
12 21 10.1
8.157
4
10 44 5.75
9.0763
4 57 50.6
9.944
5
9 2 25.45
9.9659
12 12 58.8
8.918
5
10 46 10.24
9.0733
4 47 53.5
9.958
6
9 4 41.21
9.9603
12 4 43.9
8.977
6
10 48 14.55
9.0703
4 37 55.6
9.979
7
9 6 56.68
9.9555
11 56 25.5
8.336
7
10 50 18.68
34)675
4 27 56.9
9.985
8
9 9 11.87
9.9507
11 48 3.6
8.394
8
10 52 22.65
9.0647
4 17 57.4
9.997
9
9 11 26.77
9.9459
11 39 38.2
6.451
9
10 54 26.45
9.0829
4 7 57.2
10.008
10
9 13 41.38
9.9419
11 31 9.5
8.506
10
10 56 30.08
9.0599
3 57 56.4
10.019
11
9 15 55.71
9.9364
11 22 37.5
8.561
11
10 58 33.55
9.0566
3 47 54.9
104)30
12
9 18 9.75
9.9317
11 14 2.2
8.614
12
11 0 36.87
3.0540
3 37 52.8
10.039
13
9 20 23.51
9.9971
11 5 23.8
8.666
13
11 2 40.03
2.0514
3 27 50.2
10.047
14
9 22 37.00
9.9995
10 56 42.3
8.717
14
11 4 43.04
9.0488
3 17 47.2
10.054
15
9 24 50.21
9.9179
10 47 57.7
6.768
15
11 6 45.89
9.0463
3 7 43.8
10.060
16
9 27 3.15
9.9133
10 39 10.1
8.817
16
11 8 48.60
9.0439
2 57 40.0
•10.066
17
9 29 15.81
9.9087
10 30 19.6
8.865
17
11 10 51.16
3.0415
2 47 35.9
104)73
18
9 31 28.20
9.9043
10 21 26.3
6.919
18
11 12 53.58
9.0399
2 37 31.4
10.076
1!)
9 33 40.33
9.1999
10 12 30.2
8.958
19
11 14 55.87
9.0370
2 27 26.7
10.079
20
9 35 52.19
9.1954
10 3 31.3
9.004
20
11 16 58.02
9.0347
2 17 21.9
10.089
21
9 38 3.78
9.1910
9 54 29.7
9.048
21
11 19 0.03
9.0394
2 7 16.9
10.084
2*
9 40 15.11
9.1867
9 45 25.5
9.091
22
11 21 1.91
94)303
1 57 11.8
104)85
23
9 42 26.18
M(
9.1894
>NDA1
N. 9 36 18.8
I 10.
9.139
23
11 23 3.67
WEI
9.0989
)NESD
N. 1 47 6.7
AY 12.
10.086
0
9 44 37.00
9.1789
N. 9 27 9.6
9.173
0
11 25 5.30
9.0969
N. 1 37 1.5
10.086
1
9 46 47.57
9.1739
9 17 58.0
9.313
1
1 1 27 6.81
9.0949
1 26 56.4
10.084
2
9 48 57.87
9.1697
9 8 44.0
9.953
2
11 29 8.20
9.0993
1 16 51.4
10.083
3
9 51 7.93
9.1656
8 59 27.6
9.999
3
11 31 9.48
9.0904
1 6 46.4
10.061
4
9 53 17.74
9.1615
8 50 8.9
9.399
4
11 33 10.65
9.0186
0 56 41.6
10.078
5
9 55 27.31
9.1574
8 40 48.1
9.304
5
11 35 11.71
9.0167
0 46 37.1
10.073
6
9 57 36.63
9.1533
8 31 25.2
9.399
6
11 37 12.66
9.0149
0 36 32.9
10.068
7
9 59 45.71
9.1494
8 22 0.2
9.434
7
1 1 39 13.50
9.0139
0 26 29.0
10.063
8
10 1 54.56
9.1455
8 12 33.1
9.467
8
11 41 14.24
94)115
0 16 25.4
10.057
9
10 4 3.17
9.1416
8 3 4.1
9.500
9
11 43 14.88
9.0099
N. 0 6 22.2
10.050
10
10 6 11.55
9.1377
7 53 33.1
9.539
10
11 45 15.43
9.0084
S. 0 3 40.6
10.049
11
10 8 19.70
9.1339
7 44 0.3
9.569
11
11 47 15.89
9.0069
0 13 42.9
10.034
12
10 10 27.62
9.1309
7 34 25.7
9.591
12
11 49 16.26
9.0054
0 23 44.7
10.095
13
10 12 35.32
9.1965
7 24 49.4
9.G90
13
11 51 16.54
9.0039
0 33 45.9
10.015
14
10 14 42.80
9.1998
7 15 11.3
9.648
14
11 53 16.73
9.0095
0 43 46.5
10.005
15
10 16 50.05
9.1191
7 5 31.6
9.676
15
11 55 16.84
9.0019
0 53 46.5
9.994
16
10 18 57.09
9.1156
6 55 50.3
9.701
16
11 57 16.87
1.9998
1 3 45.8
9.989
17
10 21 3.92
9.1191
6 46 7.5
9.796
17
11 59 16.82
1.9986
1 13 44.4
9.970
18
10 23 10.54
9.1086
6 36 23.2
9.750
18
12 1 16.70
1.9974
1 23 42.2
9.957
19
10 25 16.95
9.1059
6 26 37.5
9.773
19
12 3 16.51
1.9969
1 33 39.2
9.943
20
10 27 23.16
9.1018
6 16 50.4
9.796
20
12 5 16.25
1.9951
1 43 35.3
9.998
21
10 29 29.16
9.0984
6 7 2.0
9.817
21
12 7 15.92
1.9939
1 53 30.6
9.913
22
10 31 34.96
9.0951
5 57 12.4
9.838
22
12 9 15.52
1.9999
2 3 24.9
9.897
23
10 33 40.57
9.0918
5 47 21.5
9.858
23
12 11 15.07
1.9990
2 13 18.2
9.881
24
10 35 45.98
9.0886
N. 5 37 29.4
9.877
24
12 13 14.56
1.9911
S. 2 23 10.6
9.864
VIIL
NOVEMBER, 1884.
189
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Right Ascension.
Diftfor
1 Minute.
Declination.
Diff.for
1 Minute
Hour.
Right Aaoension.
Difffor
1 Minute.
Declination.
Difffor
1 Minute.
THl
URSD1
ly ia
SATUEDAT 15.
h m b
B
O / //
a
h m b
8
O 1 II
ti
0
12 13 14.56
1.9911
S. 2 23 10.6
9.664
0
13 48 26.12
1.9880
8. 9 44 36.2
8.993
1
12 15 14.00
1.9909
2 33 1.9
' 9.846
1
13 50 25.42
1.9887
9 52 52.4
8JM6
2
12 17 13.38
1.9893
2 42 52.1
9.897
2
13 52 24.76
1.9694
10 I 5.7
8.198
3
12 19 12.71
1.9884
2 52 41.1
9.808
3
13 54 24.15
1.9901
10 9 16.2
8.150
4
12 21 11.99
1.9876
3 2 29.0
9.788
4
13 56 23.58
1.9906
10 17 23.7
8.101
5
12 23 11.22
1.9868
3 12 15.7
9.767
5
13 58 23.05
1.9916
10 25 28.3
8.059
6
12 25 10.41
1.9861
3 22 1.1
9.746
6
14 0 22.57
1.9993
10 33 29.9
8.002
7
1227 9.56
1.9855
3 31 45.2
9.794
7
14 2 22.13
1.9931
10 41 28.5
7.951
8
12 29 8.67
1.9*8
3 41 28.0
9.709
8
14 4 21.74
1.9039
10 49 24.0
7.899
9
12 31 7.74
1.9849
3 51 9.4
9.678
9
14 6 21.40
1.9947
10 57 16.4
7.848
10
12 33 6.78
1.9837
4 0 49.4
9.655
10
14 8 21.1L
14 10 20.8T
1.9956
11 5 5.7
7.796
It
12 35 5.79
1.9839
4 10 28.0
9.631
11
1.9964
11 12 51.9
7.743
12
12 37 4.77
1.9628
4 20 5.1
9.605
12
14 12 20.68
1.9973
11 20 34.9
7.690
13
12 39 3.73
1.9894
4 29 40.6
9.579
13
14 14 20.54
1.9989
11 28 14.7
7.636
14
12 41 2.66
1.9819
4 39 14.6
9.553
14
14 16 20.46
1.9991
11 35 51.2
7.581
15
12 43 1.56
1.9615
4 48 47.0
9.596
15
14 18 20.43
1.9999
11 43 24.4
7.528
16
12 45 0.44
1.9619
4 58 17.7
9.498
16
14 20 20.45
9.0008
11 50 54.3
7.471
17
12 46 59.31
1.9810
5 7 46.8
9.471
17
14 22 20.53
9.0018
11 58 20.9
7.416
18
12 48 58.16
1.9808
5 17 14.2
9.449
18
14 24 20.67
9.0098
12 5 44.2
7.360
19
12 50 57.00
1.9806
5 26 39.8
9.419
19
14 26 20.87
9.0037
12 13 4.1
7.309
20
12 52 55.83
1.9803
5 36 3.6
9.383
20
14 28 21.12
9.0047
12 20 20.5
7.944
21
12 54 54.64
1.9809
5 45 25.6
9.359
21
14 30 21.43
9.0057
12 27 33.4
7.186
22
12 56 53.45
1.9601
5 54 45.8
9.390
22
14 32 21.80
9.0067
12 34 42.8
7.127
23
12 58 5235
F]
1.9800
EMDAl
8. 6 4 4.0
: 14.
9.987
23
14 34 22.23
SI
9.0077
TNDA1
8.12 41 48.7
Z 16.
7.069
0
13 0 51.05
1.9800
S. 6 13 20.3
9.255
0
14 36 22.72
9.0087
8.12 48 51.1
7.010
1
13 2 49.85
1.9800
6 22 34.6
9.999
1
14 38 23.27
9.0097
12 55 49.9
6.950
2
13 4 48.65
1.9800
6 31 46.9
9.188
2
14 40 23.88
8.0107
13 2 45.1
6.889
3
13 6 47.45
1.9601
6 40 57.2
9.154
3
14 42 24.56
9.0116
13 9 36.6
6.827
4
13 8 46.26
1.9803
6 50 5.4
9.119
4
14 44 25.30
9.0196
13 16 24.4
6.766
5
13 10 45.06
1.9803
6 59 11.5
9.063
5
14 46 26.10
8.0138
13 23 8.5
6.704
6
13 12 43.90
1.9804
7 8 15.4
9.047
6
14 48 26.96
2.0149
13 29 48.9
6.642
7
13 14 42.73
1.9806
7 17 17.1
9.010
7
14 50 27.89
9.0160
13 36 25.6
6\580
8
13 16 41.58
1.9809
7 26 16.6
8.979
8
14 52 28.88
9.0170
13 42 58.5
6.516
9
13 18 40.44
1.9811
7 35 13.8
8.934
9
14 54 29.93
9.0161
13 49 27.5
6.452
10
13 20 39.31
1.9814
7 44 8.7
8.896
10
14 56 31.05
8.0199
13 55 52.7
6.387
11
13 22 38.20
1.9817
7 53 1.3
8.857
11
14 58 32.23
9.0909
14 2 14.0
6.393
12
13 24 37.11
1.9880
8 1 51.5
8^17
12
15 0 33.48
9.0913
14 8 31.5
6.958
13
13 26 36.04
1.9633
8 10 39.3
8.777
13
15 2 34.79
9.0994
14 14 45.0
6.193
14
13 28 34.99
1.9897
8 19 24.7
8.736
14
15 4 36.17
9.0236
14 20 54.6
6.197
15
13 30 33.97
1.9839
8 28 7.6
8.694
15
15 6 37.62
2.0947
14 27 0.2
6.060
16
13 32 32.96
1.9837
8 36 48.0
8.651
16
15 8 39.13
2.0957
14 33 1.8
5.999
17
13 34 32.01
1.9841
8 45 25.8
8.608
17
15 10 40.70
2.0268
14 38 59.3
5.995
18
13 36 31.07
1.9846
8 54 1.0
8.565
18
15 12 42.34
2.0979
14 44 52.8
5.857
19
13 38 30.16
1.9851
9 2 33.6
8.591
19
15 14 44.05
9.0990
14 50 42.2
6.769
20
13 40 29.28
1.9857
9 11 3.5
8.477
20
15 16 45.82
9.0300
14 56 27.5
5.791
21
13 42 28.44
1.9869
9 19 30.8
8.439
21
15 18 47.65
9.0311
15 2 8.7
5.659
22
13 44 27.63
1.9868
9 27 55.4
6.387
22
15 20 49.55
2.0399
15 7 45.7
5.569
23
13 46 26.86
1.9874
9 36 17.2
8.340
23
15 22 51.51
2.0332
15 13 18.5
5.519
24
13 48 26.12
1.9880
S. 9 44 36.2
8.293
24
15 24 53.53
2.0342
S.15 18 47.1
5.441
190
NOVEMBER, 1884.
EL
GEEENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
DUI for
1 Minute.
Declination.
Diff.for
1 Minute,
Hoar.
Right Ascension.
Dint for
1 Minute.
Declination.
Diff.for
1 Minute.
M(
MTDA7
T 17.
WEDNESDAY 19.
h m 8
8
O 1 II
«
h m s
B
O / //
//
0
15 24 53.53
9.0342
S.15 18 47.1
5.441
0
17 3 34.75
2.0718
S.18 12 33.1
1497
1
15 26 55.62
9.0853
15 24 11.4
5.370
1
17 5 39.07
9.0799
18 14 12.4
1413
2
15 28 57.77
2.0364
15 29 31.5
5400
2
17 7 43.41
2.0726
18 15 46.6
1439
3
15 30 59.99
9.0375
15 34 47.4
5499
3
17 9 47.78
94799
18 17 15.8
1.445
4
15 33 2.27
9.0386
15 39 59.0
5.157
4
17 11 52.16
94739
18 18 40.0
1469
5
15 35 4.62
3.0396
15 45 6.2
5.084
5
17 13 56.56
9.0734
18 19 59.2
1.977
6
15 37 7.02
9.0405
15 50 9.1
5.011
6
17 16 0.97
9.0737
18 21 13.3
1.193
7
15 39 9.48
9.0416
15 55 7.6
4.938
7
17 18 5.40
24739
18 22 22.4
1.110
8
15 41 12.01
9.0497
16 0 1.7
4.865
8
17 20 9.84
9.0741
18 23 26.5
1.096
9
15 43 14.60
9.0437
16 4 51.4
4.799
9
17 22 14.29
9.0743
18 24 25.5
0.949
10
15 45 17.25
9.0447
16 9 36.7
4.718
10
17 24 18.75
24744
18 25 19.5
0457
11
15 47 19.96
9.0457
ft 14 17.5
4443
11
17 26 23.22
2.0745
18 26 8.4
0.773
12
15 49 22.73
9.0467
16 18 53.9
4469
12
17 28 27.69
24746
18 26 52.3
0.689
13
15 51 25.56
94476
16 23 25.8
4.493
13
17 30 32.17
2.9747
18 27 31.1
0.604
14
15 53 28.44
9.0485
16 27 53.1
4.417
14
17 32 36.66
24748
18 28 4.8
0490
15
15 55 31.38
9.0495
16 32 15.9
4449
15
17 34 41.15
24748
18 28 33.5
0.436
16
15 57 34.38
9.0504
16 36 34.1
4465
16
17 36 45.64
24748
18 28 57.1
0459
17
15 59 37.43
94513
16 40 47.7
4.189
17
17 38 50.13
2.0748
18 29 15.7
0467
18
16 1 40.54
9.0599
16 44 56.8
4.113
18
17 40 54.62
24748
18 29 29.2
0.189
19
16 3 43.70
9.0539
16 49 1.3
4.036
19
17 42 59.11
2.0748
18 29 37.6
0.097
20
16 5 46.92
9.0541
16 53 1.1
3458
20
17 45 3.60
2.0747
18 29 40.9
-0413
21
16 7 50.19
9.0549
16 56 56.2
3.880
21
17 47 8.08
2.0746
18 29 39.2
4-0.071
22
16 9 53.51
9.0558
17 0 46.7
3.609
22
17 49 12.55
2.0745
18 29 32.4
0.155
23
16 11 56.88
TH
9.0567
ESDA1
S.17 4 32.5
I 18.
3.794
23
17 51 17.02
TH1
2.0744
[JBSD^
S.18 29 20.6
LY 20.
0.939
0
16 14 0.31
9.0575
S.17 8 13.6
3446
0
17 53 21.48
2.0742
S.18 29 3.7
0494
1
16 16 3.78
9.0563
17 11 50.0
3487
1
17 55 25.93
24741
18 28 41.7
0.408
2
16 18 7.30
94591
17 15 21.7
3.488
2
17 57 30.37
2.0739
18 28 14.7
0.499
3
16 20 10.87
9.0598
17 18 48.6
3.408
3
17 59 34.80
2.0737
18 27 42.6
0477
4
16 22 14.48
9.0606
17 22 10.7
3499
4
18 1 39.21
2.0734
18 27 5.5
0.661
5
16 24 18.14
94613
17 25 28.1
3450
5
18 3 43.61
24739
18 26 23.3
0.746
6
16 26 21.84
94690
17 28 40.7
3.170
6
18 5 48.00
94730
18 25 36.0
0.830
7
16 28 25.58
94697
17 31 48.5
3.089
7
18 7 52.37
2.0797
18 24 43.7
0.913
8
]6 30 29.37
9.0635
17 34 51.4
3.008
8
18 9 56.72
2.0723
18 23 46.4
0.997
9
16 32 33.20
94649
17 37 49.5
9498
9
18 12 1.05
24720
18 22 44.0
1.081
10
16 34 37.07
9.0648
17 40 42.8
9.847
10
18 14 5.36
2.0717
18 21 36.6
1.165
11
16 36 40.98
2.0654
17 43 31.2
9.766
11
18 16 9.65
9.0713
18 20 24.2
1449
12
16 38 44.92
2.0660
17 46 14.7
9.684
12
18 18 13.91
9.0708
18 19 6.7
1433
13
16 40 48.90
9.0667
17 48 53.3
9403
13
18 20 18.15
94705
18 17 44.2
1.417
14
16 42 52.92
94679
17 51 27.0
9499
14
18 22 22.37
2.0701
18 16 16.7
1.490
15
16 44 56.97
2.0677
17 53 55.9
9.441
15
18 24 26.56
94896
18 14 44.3
1489
16
16 47 1.05
24689
17 56 19.9
9458
16
18 26 30.72
9.0699
18 13 6.9
1485
17
16 49 5.16
2.0688
17 58 38.9
9475
17
18 28 34.86
2.0687
18 11 24.5
1.748
18
16 51 9.31
9.0694
18 0 52.9
9.193
18
18 30 38.97
9.0689
18 9 37.1
1.831
19
16 53 13.49
2.0698
18 3 2.0
9.111
19
18 32 43.05
2.0677
18 7 44.7
1414
20
16 55 17.69
2.0709
18 5 6.2
9.098
20
18 34 47.10
2.0679
18 5 47.4
1.997
21
16 57 21.92
94707
18 7 5.4
1.945
21
18 36 51.12
2.0667
18 3 45.1
2479
22
16 59 26.17
9.0711
18 8 59.6
1.809
22
18 38 55.10
2.0661
18 1 37.9
2.169
23
17 1 30.45
9.0715
18 10 48.8
1.779
23
18 40 59.05
2.0856
17 59 25.7
9444
24
17 3 34.75
' 9.0718
S.18 12 33.1
1.697
24
18 43 2.97
2.0650
S.17 57 8.6
2496
X.
NOVEMBER, 1884.
191
GBEENWICH MEAN TIME.
THE MOON'S EIGHT A8CEN8ION AND DECLINATION.
Hour.
Right Ascension.
Difllfor
1 Minute.
DifT.for
1 Minute.
Hoar.
Right Ascension.
Diff.for
1 Minute.
Declination.
DUE for
1 Minute.
p]
EUIXAS
: 21.
SUNDAY 23.
h m b
8
O / #/
»
h m 8
8
S.14 35 10.1
«
0
18 43 2.97
8.0650
8.17 57 8.6
9496
0
20 21 21.75
84310
5487
1
18 45 6.85
8.0644
17 54 4&6
8.407
1
20 23 23.59
9.0303
14 29 8.8
6.056
2
18 47 J0.70
8.0638
17 52 19.7
8.489
2
20 25 25.39
94997
14 23 3.4
6.195
3
18 49 14.51
8.0639
17 49 47.9
8471
3
20 27 27.16
94999
14 16 53.8
6.194
4
18 51 18.28
3.0896
17 47 11.2
8458
4
20 29 28.89
9.0986
14 10 40.1
6.969
5
18 53 22.02
8.0619
17 44 29.6
8.733
5
20 31 30.59
9.0981
14 4 22.4
6499
6
18 55 25.71
9.0619
17 41 43.2
8414
6
20 33 32.26
94976
13 58 0.7
6496
7
18 57 29.36
9.0606
17 38 51.9
9495
7
20 35 33.90
94970
13 51 34.9
6.463
8
18 59 32.98
8.0600
17 35 55.8
8.975
8
20 37 ,35.50
9.0964
13 45 5.1
6499
9
19 1 36.56
3.0593
17 32 54.9
3.056
9
20 39 37.07
94959
13 38 31.4
6495
10
19 3 40.10
94586
17 29 49.1
3.137
10
20 41 38.61
9.0955
13 31 53.7
6409
11
19 5 43.60
8.0579
17 26 38.5
3416
11
20 43 40.13
84951
13 25 12.0
6.797
12
19 7 47.05
9.0579
17 23 23.2
3495
12
20 45 41.62
94946
13 18 26.4
6.799
13
19 9 50.46
9.0565
17 20 3.1
3475
13
20 47 43.08
9.0949
13 11 36.9
6457
14
19 \\ 53.83
8.0557
17 16 38.2
3.454
14
20 49 44.52
94938
13 4 43.6
6491
15
19 13 57.15
9.0550
17 13 8.6
3433
15
20 51 45.94
9.0935
12 57 46.4
6485
16
19 16 0.43
9.0543
17 9 34.2
3.619
16
20 53 47.34
9.0931
12 50 45.4
7.048
17
19 18 3.67
8.0536
17 5 55.1
3.691
17
20 55 48.71
9.0997
12 43 40.6
7.111
18
19 20 6.86
3.0588
17 2 11.3
3.769
18
20 57 50.06
9.0994
12 36 32.0
7.174
19
19 22 10.01
94591
16 58 22.8
3.847
19
20 59 51.40
9.0991
12 29 19.7
7437
20
19 24 13.11
3.0513
16 54 29.6
3495
20
21 1 52.72
9.0918
12 22 3.tf
7499
21
19 26 16.16
8.0505
16 50 31.8
4409
21
21 3 54.02
9.0916
12 14 43.8
7460
22
19 28 19.17
8.0498
16 46 29.3
4.080
22
21 5 55.31
94914
12 7 20.4
7.491
23
19 30 22.14
SAG
8.0491
DURDi
3.16 42 22.2
LY 22.
4.157
23
21 7 56.59
M(
94919
)NDA^
3.11 59 53.3
ST 24.
7.489
0
19 32 25.06
8.0463
S.16 38 10.5
4433
0
21 9 57.85
9.0910
3.11 52 22.5
7443
1
19 34 27.93
8.0475
16 33 54.2
4410
1
21 11 59.11
94909
11 44 48.1
7403
2
19 36 30.76
84467
16 29 33.3
4486
2
21 H 0.36
94908
11 37 10.2
7469
3
19 38 33.54
84460
16 25 7.8
4.469
3
21 16 1.61
94907
11 29 28.7
7.791
4
19 40 36.28
3.0458
16 20 37.8
4437
4
21 18 2.85
9.0907
11 21 43.7
7.779
5
19 42 38.97
3.0445
16 16 3.3
4413
5
21 20 4.09
9.0907
11 13 55.2
7.838
6
19 44 41.62
84437
16 11 24.2
4.689
6
21 22 5.33
94907
11 6 3.2
7496
7
19 46 44.22
8.0430
16 6 40.6
4.763
7
21 24 6.57
9.0907
10 58 7.7
7453
8
19 48 46.78
8.0499
16 1 52.6
4437
8
21 26 7.81
9.0908
10 50 8.8
8.010
9
19 50 49.29
9.0415
15 57 0.1
4.9J1
9
21 28 9.06
94909
10 42 6.5
8.067
10
19 52 51.76
9.0407
15 52 3.2
4485
10
21 30 10.32
94910
10 34 0.8
8.193
11
19 54 54.18
94399
15 47 1.9
5.059
11
21 32 11.58
9.0911
10 25 51.8
8.178
12
19 56 56.55
94399
15 41 56.1
5.139
12
21 34 12.85
84913
10 17 39.5
8433
13
19 58 58.88
8.0385
15 36 45.9
5.906
13
21 36 14.14
9.0916
10 9 23.9
8488
14
20 1 1.17
84377
15 31 31.4
5479
14
21 38 15.44
94918
10 1 5.0
8.343
15
20 3 3.41
8.0370
15 26 12.5
5451
15
21 40 16.75
9.0990
9 52 42.8
8497
16
20 5 5.61
8.0363
15 20 49.3
5.499
16
21 42 18.08
9.0994
9 44 17.4
8.449
17
20 7 7.77
8.0357
15 15 21.8
5.494
17
21 44 19.44
9.0998
9 35 48.9
8409
18
20 9 9.89
8.0350
15 9 50.0
5466
18
21 46 20.82
9.0939
9 27 17.2
8.554
19
20 11 11.97
94343
15 4 13.9
5.637
19
21 48 22.22
9.0936
9 18 42.4
8.606
20
20 13 14.01
9.0336
14 58 33.6
5.707
20
21 50 23.65
9.0941
9 10 4.5
8.657
21
20 15 16.00
9.0399
14 52 49.0
5.778
21
21 52 25.11
9.0946
9 1 23.5
8.709
22
20 17 17.95
9.0393
14 47 0.2
5448
22
21 54 26.60
9.0959
8 52 39.4
8.761
23
20 19 19.87
94317
14 41 7.2
5417
23
21 56 28.13
9.0957
8 43 52.2
8.811
24
20 21 21.75
9.0310
S. 14 35 10.1
5.987
24
21 58 29.69
9.0963
S. 8 35 2.1
8459
192
NOVEMBER, 1884,
XI.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Bight Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
Hoar.
Bight AflcenBion.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
TU
ESDA
Y25.
THURSDAY 27.
h m s
B
O i //
it
h m »
8
O 1 II
0
21 58 29.69
2.0063
S. 8 35 2.1
8.859
0
23 37 17.02
2.1078
S. 0 43 13.6
10.558
1
22 0 31.29
2.0370
8 26 9.1
8.908
1
23 39 23.58
2.1108
0 32 39.6
10.577
2
22 2 32.93
2.0977
8 17 iai
6.957
2
23 41 30.32
2.1137
0 22 4.4
10.595
3
22 4 34.61
2.0284
8 8 14.2
9.005
3
23 43 37.23
2.1167
0 1! 28.2
10.612
4
22 6 36.34
2.0292
7 59 12.5
9.052
4
23 45 44.32
2.1198
S. 0 0 51.0
10.627
5
22 8 38.12
2.0300
7 50 8.0
9.099
5
23 47 51.60
2.1229
N. 0 9 47.1
10.642
6
22 10 39.94
2.0308
7 41 0.6
9.146
6
23 49 59.07
2.1261
0 20 26.1
10.657
7
22 12 41.82
2.0317
7 31 50.5
9.192
7
23 52 6.73
2.1293
0 31 5.9
10.670
8
22 14 43.75
2.0327
7 22 37.6
9.237
8
23 54 14.58
2.1325
0 41 46.5
10.683
9
22 16 45.74
2.0337
7 13 22.0
9.282
9
23 56 22.63
2.1356
0 52 27.9
10.096
10
22 18 47.79
2.0347
7 4 3.7
9.327
10
23 58 30.88
2.1392
1 3 10.0
10.707
11
22 20 49.90
2.0357
6 54 42.8
9.371
11
0 0 39.33
2.1425
1 13 52.7
10.716
12
22 22 52.08
2.0368
6 45 19.2
9.414
12
0 2 47.98
2.1459
1 24 35.9
10.725
13
22 24 54.32
2.0380
6 35 53.1
9.457
13
0 4 56.84
2.1495
1 35 19.7
10.733
14
22 26 56.64
2.0392
6 26 24.4
9.499
14
0 7 5.92
2.1531
1 46 3.9
10.740
15
22 28 59.03
2.0405
6 16 53.2
9.541
15
0 9 15.21
2.1567
1 56 48.5
10.746
16
22 31 1.50
2.0417
6 7 19.5
9.582
16
0 11 24.72
2.1604
2 7 33.4
10.751
17
22 a3 4.04
2.0430
5 57 43.4
9.622
17
0 13 34.46
2.1642
2 18 18.6
10.756
18
22 35 6.66
2.0444
5 48 4.8
9.662
18
0 15 44.42
2.1679
2 29 4.1
10.759
19
22 37 9.37
2.0458
5 38 23.9
9.701
19
0 17 54.61
2.1717
2 39 49.7
10.761
20
22 39 12.16
2.0473
5 28 40.7
9.740
20
0 20 5.03
2.1756
2 50 a5.4
10.762
21
22 41 15.04
2.0488
. 5 18 55.1
9.778
21
0 22 15.68
2.1795
3 1 21.2
10.763
22
22 43 18.02
2.0504
5 9 7.3
9.816
22
0 24 26.57
2.1835
3 12 7.0
10.762
23
22 45 21.09
WEI
2.0519
)NESE
S. 4 59 17.2
>AY 26.
9.853
23
0 26 37.70
9.1874
BIDA1
N. 3 22 52.7
: 28.
10.760
0
22 47 24.25
2.0535
S. 4 49 24.0
9.889
0
0 28 49.06
2.1914
N. 3 33 38.2
10.757
1
22 49 27.51
2.0552
4 39 30.5
9.924
1
0 31 0.67
2.1966
3 44 23.5
10.753
2
22 51 30.88
2.0570
4 29 34.0
9.960
2
0 33 12.53
2.1998
3 55 8.6
10.749
3
22 53 34.35
2.0588
4 19 a>.3
9.995
3
0 35 24.65
2.2041
4 5 53.4
10.743
4
22 55 37.93
2.0607
4 9 34.6
10.029
4
0 37 37.02
2*2083
4 16 37.8
10.736
5
22 57 41.63
2.0626
3 59 31.9
10.062
5
0 39 49.65
2.2126
4 27 21.7
10.727
6
22 59 45.44
2.0645
3 49 27.2
10.094
6
0 42 2.53
2.2169
4 38 5.0
10.717
7
23 1 49.37
2.0665
3 39 20.6
10.126
7
0 44 15.68
2.2213
4 48 47.7
10.707
8
23 3 53.42
2.0685
3 29 12.1
10.157
8
0 46 29.09
2.2257
4 59 29.8
10.696
9
23 5 57.59
2.0705
3 19 1.8
10.187
9
0 48 42.77
2.2302
5 10 11.2
10.683
10
23 8 1.88
2.0727
3 8 49.7
10.217
10
0 50 56.72
2.2347
5 20 51.8
10.669
11
23 10 6.31
2.0749
2 58 35.8
10.247
11
0 53 10.94
2.2393
5 31 31.5
10.653
12
23 12 10.87
2.0772
2 48 20.1
10.275
12
0 55 25.44
2.2439
5 42 10.2
10.637
13
23 14 15.57
2.0794
2 38 2.8
10.303
13
0 57 40.21
2.2486
5 52 47.9
10.620
14
23 16 20.40
2.0817
2 27 43.8
10.330
14
0 59 55.27
2.2533
6 3 24.6
10.602
15
23 18 25.37
2.0841
2 17 23.2
10.356
15
1 2 10.61
2.2581
6 14 0.1
10.581
16
23 20 30.49
2.0866
2 7 1.1
10.381
16
1 4 26.24
2J3628
6 24 34.3
10.559
17
23 22 35.76
2.0891
1 56 37.5
10.406
17
1 6 42.15
2.2676
6 35 7.2
10.537
18
23 24 41.18
2.0916
1 46 12.4
10.430
18
1 8 58.35
2.2724
6 45 38.8
10.514
19
23 26 46.75
2.0942
1 a5 45.9
10.453
19
1 11 14.84
2.2773
6 56 8.9
10.489
20
23 28 52.48
2.0968
1 25 18.0
10.476
20
I 13 31.63
2.2823
7 6 37.5
10.462
21
23 30 58.37
2.0995
1 14 48.8
10.498
21
1 15 48.72
2 2872
7 17 4.4
10.434
22
23 a3 4.42
2.1022
1 4 18.3
10.519
22
1 18 6.10
2.2922
7 27 29.6
10.406
23
23 35 10.64
2.1050
0 53 46.5
10.539
23
1 20 23.79
2.2973
7 37 53.1
10.376
24
23 37 17.02
2.1078
S. 0 43 13.6
10.558
24
1 22 41.78
2.3023
N. 7 48 14.7
10.344
XII.
NOVEMBER, 1884.
193
GREENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hoar.
Bight Ascension.
Difllfor
1 Minute.
Declination.
Diff.for
1 Minute.
Hour.
Right Ascension.
Diftfor
1 Minute.
Declination.
Biff, for
1 Minute.
SATUEDAY 29.
MONDAY, DECEMBER 1.
0
1
h m s
1 22 41.78
1 25 0.07
8
94093
N. 7 48 14.7
7 58 34.4
//
10444
1 b m s 1 8 1 © * // 1 u
0| 3 19 21.17| 94567 |N.15 148.0 1 7.159
9.3074
10419
2
1 27 18.67
9.3196
8 8 52.1
10.378
3
1 29 37.58
9.3177
8 19 7.8
10.943
4
1 31 56.80
9.3999
8 29 21.3
10.908
5
1 34 16.33
94981
8 39 32.5
10.167
6
1 36 36.17
9.3333
8 49 41.3
10.197
7
1 38 56.33
9.3386
8 59 47.7
10.087
8
1 41 16.81
9.3439
9 9 51.7
10445
9
1 43 37.60
9.3499
9 19 53.1
10.001
10
1 45 58.71
9.3546
9 29 51.8
9466
11
1 48 20.15
94800
9 39 47.8
9409
12
I 50 41.91
94663
9 49 40.9
9.861
13
1 53 3.99
94707
9 59 31.1
9.819
14
1 55 26.40
94761
10 9 18.3
9.769
15
1 57 49.13
94815
10 19 2.5
9.710
16
2 0 12.18
94869
10 28 43.5
9456
17
2 2 35.56
94994
10 38 21.2
9400
PHASES OP THE MOON.
18
19
2 4 59.27
2 7 23.31
94979
10 47 55.5
10 57 26.4
9443
9.4033
9.486
20
2 9 47.67
9.4087
11 6 53.8
9.497
d h m
O Full Moon .... 2 20 36.7
21
22
2 12 1236
2 14 37.38
9.4149
9.4197
11 16 17.6
11 25 37.7
9466
9403
23
2 17 2.72
9.4959
N.ll 34 54.0
9438
<C Last Quarter. ... 9 11 12.4
• New Moon .... 17 6 11.7
SI
JNDAY 30.
J> First Quarter ... 25 10 15.9
0
1
2 19 28.40
2 21 54.41
9.4307 Nil M A3
9.173
9.107
9.4369
11 53 14.7
2
2 24 20.74
9.4416
12 2 19.1
9.038
d h
3
2 26 47.40
9.4471
12 11 19.3
6468
<C Perigee 4 3.7
4
5
2 29 14.39
2 31 41.70
9.4595
9.4579
12 20 15.3
12 29 7.0
8.897
8494
C Apogee 19 14.3
6
2 34 9.34
9.4634
12 37 54.2
8.749
7
8
2 36 37.31
2 39 5.60
9.4688
9.4749
12 46 36.9
12 55 15.0
8473
6497
9
2 41 34.21
9.4796
13 3 48.5
8418
10
2 44 3.15
9.4850
13 12 17.2
8.437
11
2 46 32.41
9.4903
13 20 41.0
8456
12
2 49 1.99
9.4956 .
13 28 59.9
8.973
13
2 51 31.89
94009
13 37 13.8
8.188
14
2 54 2.10
94069
13 45 22.5
8.101
15
2 56 32.63
94114
13 53 25.9
8.013
16
2 59 3.47
9.5166
14 1 24.0
7.994
17
3 1 34.62
94917
14 9 16.8
7.834
18
3 4 6.08
94968
14 17 4.1
7.749
19
3 6 37.84
94319
14 24 45.8
7.648
20
3 9 9.91
9.5370
14 32 21.9
7454
21
3 11 42.28
94490
14 39 52.3
7.457
22
3 14 14.95
94469
14 47 16.8
7459
23
3 16 47.91
94518
14 54 35.4
7.960
•
24
3 19 21.17
24567
N.15 1 48.0
7.159
13
194
NOVEMBER, 1884.
XIII.
GREENWICH MEAN TIME.
LUNAB DISTANCES.
u
foune and Direction
Noon.
P.L.
Of
mh.
P.L.
of
Vl*.
P.L.
of
IX*.
P.L.
of
1*
of Object.
Dlfl.
Biff.
Diff.
Biff.
1
a Aquiltt
W.
O 1 II
76 4 56
2643
O I II
77 42 53
9699
O I II
79 21 18
9603
81° 0 9
9561
Fomalhaut
W.
46 0 30
3073
47 29 13
3009
48 59 15
9950
50 30 30
9898
Aldebaran
E.
54 14 40
2916
52 26 40
9904
50 38 18
9169
48 49 34
9174
Saturn
E.
69 29 17
2312
67 41 7
9197
65 52 35
9189
64 3 41
9169
Pollux
E.
97 27 6
S313
95 41 25
/9996
93 55 20
9981
92 8 53
9967
2
Fomalhaut
W.
58 22 5
9669
59 58 59
9657
61 36 36
9698
63 14 53
9601
aPegasi
Aldebanin
W.
41 36 17
9584
43 15 34
9549
44 55 49
9504.
46 36 57
9470
E.
39 40 50
9113
37 50 10
9103
35 59 15
9099
34 8 4
9083
Saturn
E.
54 54 14
9108
53 3 27
9098
51 12 24
9088
49 21 6
9079
Pollux
E.
83 11 40
9906
81 23 21
9196
79 34 48
9187
77 46 1
2178
3
Fomalhaut
W.
71 34 30
9499
73 15 44
9485
74 57 19
9479
76 39 11
9469
aPegasi
W.
55 13 10
9344
56 58 6
9396
58 43 28
9310
60 29 13
9996
SATURN
E.
40 1 40
9048
38 9 20
9043
36 16 53
9041
34 24 22
9039
Pollux
E.
68 39 27
9159
m 49 47
9150
65 0 4
9149
63 10 19
9148
Regulus
E.
104 45 37
9055
102 53 28
9050
101 1 11
9044
99 8 46
9040
Jupiter
E.
108 58 22
9095
107 7 15
9089
105 15 59
9084
103 24 35
9080
4
Fomalhaut
W.
85 11 32
9433
86 54 20
9431
88 37 10
9431
90 20 0
9433
a Pe^asi
a Arietis
W.
69 22 17
9950
71 9 30
9245
72 56 50
9949
74 44 15
9240
W.
26 11 0
9590
27 51 46
9469
29 33 53
9415
31 17 6
9377
Pollux
E.
54 2 9
9168
52 12 53
9173
50 23 48
9185
48 34 58
9196
Regulus
E.
89 45 27
9039
87 52 42
9039
85 59 57
9039
84 7 13
9034
Jupiter
E.
94 6 21
9070
92 14 35
9070
90 22 50
9071
88 31 6
9073
5
a Arietis
W.
40 4 9
9968
41 50 56
9958
43 37 57
9951
45 25 9
9945
Pollux
E.
39 36 12
9989
37 49 57
9317
36 4 22
9348
34 19 33
9384
Regulus
E.
74 44 42
9054
72 52 32
9061
71 0 32
9067
'69 8 42
9075
Jupiter
E.
79 13 30
9099
77 22 18
9098
75 31 16
9105
73 40 24
9112
Venus
E.
108 33 48
9401
106 50 15
9407
105 6 50
9414
103 23 35
9499
6
a Arietis
W.
54 22 11
9946
56 9 30
9950
57 56 43
9955
59 43 49
9961
Aldebaran
W.
20 15 34
91 J 9
22 6 15
9191
23 56 42
9131
25 46 54
9141
Regulus
E.
59 52 41
9190
58 2 12
9131
56 12 0
9149
54 22 5
9154
Jupiter
E.
64 29 7
9157
62 39 34
9167
60 50 17
9178
59 1 17
9190
Venus
E.
94 50 19
9468
93 8 21
9479
91 26 38
9491
89 45 12
9502
Sun
E.
135 45 40
9417
134 2 30
9498
132 19 35
9439
130 36 56
9450
7
a Arietis
W.
68 36 a5
9304
70 22 28
9315
72 8 6
2396
73 53 27
9338
Aldebaran
W.
34 53 47
9199
36 42 16
9919
38 30 26
2225
40 18 J6
9939
Saturn
W,
20 14 27
9939
22 1 56
9943
23 49 19
2249
25 36 33
9958
Regulus
E.
45 17 12
9990
43 29 14
993ft
41 41 38
9250
39 54 25
9966
Jupiter
E.
50 0 53
9956
48 13 48
9969
46 27 3
2284
44 40 40
9999
Venus
E.
81 22 23
9569
79 42 45
9583
78 3 27
9597
76 24^*8
2612
Spica
E.
98 45 39
9909
96 57 14
9914
95 9 8
9328
93 21 22
9242
Sun
E.
122 7 55
9515
120 27 2
9598
118 46 28
9543
117 6 14
2557
8
Aldebaran
W.
49 12 22
9309
50 58 9
9399
52 43 36
2337
54 28 42
2352
Saturn
W.
34 29 13
9319
36 14 55
9394
38 0 19
9337
39 45 24
2350
Jupiter
E.
35 54 27
9381
34 10 25
9398
32 26 48
2417
30 43 38
2436
Venus
E.
68 14 44
5699
66 37 50
9705
65 1 17
2721
63 25 5
2738
Spica
E.
84 27 40
9312
82 41 58
9396
80 56 37
2341
79 11 37
2355
XIV.
NOVEMBER, 1884.
195
GREENWICH MEAN TIME.
LUNAE DISTANCES.
.
P.L.
P.L.
P.L.
P.L.
of
Diff.
Name and Direction
of Otyeet.
Midnight.
of
Diff.
XVfc.
of
Diff.
xvnifc
of
Diff.
XXI*.
1
a Aquito
W.
82 39 26
8567
84° 19 6
9559
O / /'
85 59 7
9538
87 39 28
9594
Fomalhaut
W.
52 2 52
9846
53 36 17
9604
55 10 40
9763
56 45 57
9794
Aldebaran
E.
47 0 28
9161
45 11 2
9149
43 21 17
9136
41 31 13
9194
Saturn
E.
62 14 26
8155
60 24 51
9143
58 34 57
9130
56 44 44
9119
Pollux
E.
90 22 5
9953
88 34 57
9940
86 47 29
9988
84 59 43
9916
1
2
Fomalhaut
W.
64 53 47
9577
66 33 14
9554
68 13 12
9534
69 53 38
9515 1
aPegasi
Aldebaran
W.
48 18 52
9439
50 1 31
9419
51 44 49
9387
53 28 43
9364 ,
E.
32 16 39
9075
30 25 1
9067
28 as 11
9060
26 41 10
9054!
Saturn
E.
47 29 35
9071
45 37 51
9064
43 45 56
9058
41 53 52
9053 1
Pollux
E.
75 57 1
9171
74 7 50
9165
72 18 30
9160
70 29 2
9155 1
3
Fomalhaut
W.
78 21 18
9453
80 3 38
9445
81 46 9
9439
83 28 48
9436
aPegasi
W.
62 15 18
9984
64 1 41
9973
65 48 20
9964
67 35 13
9956
Saturn
E.
32 31 48
9039
30 39 14
9039
28 46 41
9041
26 54 11
9045
Pollux
E.
61 20 33
9149
59 30 49
9159
57 41 9
9156
55 51 a5
9161 '
Regulus
E.
97 16 14
9037
95 23 37
9034
93 30 56
9039
91 38 12
9039
Jupiter
E.
101 33 5
9076
99 41 29
9073
97 49 49
9079
95 58 6
9071
4
Fomalhaut
W.
92 2 47
9437
93 45 29
9449
95 28 4
9448
97 10 30
9457 !
a Pegasi
a Anetis
W.
76 31 43
9939
78 19 12
9939
80 6 41
9941
81 54 8
9944
W.
33 1 14
9345
34 46 8
9319
36 31 40
9996
38 17 42
9961
Pollux
E.
46 46 25
9910
44 58 13
9996
43 10 24
9944
41 23 2
9966
Regulus
E.
82 14 32
9037
80 21 56
9041
78 29 25
9044
76 37 0
9049
Jupiter
E.
86 39 25
9075
84 47 48
9079
82 56 16
9083
81 4 50
9086
5
a Arietis
W.
47 12 29
9949
48 59 54
9941
50 47 21
9941
52 34 47
9943
Pollux
E.
32 35 36
9496
30 52 39
9476
29 10 52
9535
27 3D 27
9604
Regulus
E.
67 17 4
9063
65 25 38
9091
63 34 25
9100
61 43 26
9109
Jupiter
E.
71 49 43
9190
69 59 14
9198
68 8 58
9137
66 18 55
9147
Venus
E.
101 40 31
9430
99 57 39
9438
98 14 59
9448
96 32 32
9458
6
a Arietis
W.
61 30 46
9966
63 17 32
9977
65 4 6
9985
66 50 27
9994.
Aldebaran
W.
27 36 51
9159
29 26 31
9163
31 15 54
9175
33 4 59
9186 1
Regulus
E.
52 32 28
9166
50 43 9
9179
48 54 10
9199
47 5 31
9206
Jupiter
E.
57 12 35
9909
55 24 11
9914
53 36 5
9998
51 48 19
9941 '
Venus
E.
88 4 2
9515
86 23 10
9598
84 42 36
9541
83 2 20
9555 |
Sun
E.
128 54 3a
9469
127 12 27
9475
125 30 38
9467
123 49 7
9501 i
7
a Arietis
W.
75 38 31
9350
77 23 17
9363
79 7 45
9375
80 51 55
9380 |
Aldebaran
W.
42 5 46
9959
43 52 56
9966
45 39 45
9980
47 26 14
9994 >
Saturn
W.
27 23 35
9967
29 10 23
9977
30 56 56
9988
32 43 13
•9300!
Regulus
E.
38 7 35
9981
36 21 8
9998
34 35 6
9315
32 49 29
9334
Jupiter
E.
42 54 39
9315
41 9 1
9331
39 23 46
9346
37 38 54
9364
Venus
E.
74 45 50
9697
73 7 32
9643
71 29 35
9656
69 51 59
9674 |
Spica
E.
91 33 57
9956
89 46 52
9969
88 0 7
9983
86 13 43
9998
Sun
E.
115 26 20
9579
113 46 46
9567
112 7 33
9609
110 28 40
9617 !
8
Aldebaran
W.
56 13 26
9366
57 57 49
9380
59 41 52
9395
61 25 34
9410 1
Saturn
W.
41 30 11
9363
43 14 39
9377
44 58 47
9391
46 42 a5
9405
Jupiter
E.
29 0 55
9457
27 18 41
9478
25 36 57
9501
23 55 45
9595
Venus
E.
61 49 15
9753
60 13 46
9769
58 38 38
9785
57 3 51
9809
Spica
E.
77 26 58
9370
75 42 40
9385
73 58 44
9400
72 15 9
9415
196
NOVEMBER, 1884.
XV.
GREENWICH MEAN TIME.
•
LUNAR DISTANCES.
r
> Name and tHreotlo*
dT Otyeot.
Noon
of
Diff.
Illh.
P.L.
of
Biff.
VI*.
P.I*
of
Diff.
EX*.
P. L.
of
Diff.
8
StJN
E.
10$ 50' 8
9639
107 H57
9646
Q i II
105 34 7
9663
103° 56 38
9680
9
ALdebaran
W.
63 8 55
9494
64 51 55
9438
66 34 35
9453
68 16 54
9468
•Saturn
W.
48 26 3
9418
50 9 12
9431(
51 52 2
9445
53 34 32
9459
Venus
E.
65 29 26
9816
53 55 22
9834
52 21 38
9850
50 48 15
9866
Spica
E.
70 31 55
9499
68 49 2
9443
67 629
9456
65 24 17
9473
Sun
E.
95 54 31
9759
94 19 9
9774
92 44 7
9790
91 9 26
9805
10
Afdebaran
W.
76 43 28
9538
78 23 48
9551
80 3 50
9565
81 43 33
9578
'
Saturn
w.
62 2 14
9597
63 42 50
9540
65 23 7
9553
67 3 6
9566
Pollux
w.
35 829
9890
36 42 31
9819
38 16 43
9807
39 51 2
9805
Venus
E.
43 626
9945
41 35 4
9960
40 4 1
9975
38 33 17
9991
Spica
S0N
E.
56 58 23
9545
55 18 12
9559
53 38 20
9579
51 58 47
9586
E.
83 21 1
9883
81 48 20
9898
80 15 58
9919
78 43 54
9996
11
Aldebaran
W.
89 57 39
9643
91 35 36
9655
93 13 17
9867
94 50 41
9679
Saturn
W.
75 18 36
9899
76 56 51
9641
78 34 50
9653
80 12 33
9665
Pollux
W.
47 42 52
9611
49 17 6
9815
50 51 14
9890
52 25 16
9895
v Venus
E.
31 4 20
3065
29 35 27
3078
28 6 51
3093
26 38 33
3108
Spica
E.
43 45 40
9853
42 7 57
9866
40 30 31
9679
38 53 23
9699
Sun
E.
71 8 6
9997
69 37 49
3010
68 7 49
3094
66 38 6
3037
12
Saturn
W.
88 17 18
9790
89 53 31
9731
91 29 30
9741
93 5 15
9751
Pollux
W.
60 13 36
9856
61 46 51
9863
63 19 57
9871
64 52 53
9878
Regulus
W.
23 14 28
9805
24 48 50
9807
26 23 9
9810
27 57 24
9615
Jupiter
W.
18 1 54
9891
19 34 25
9883
21 7 5
9880
22 39 49
9880
Spica
E.
30 51 56
9755
29 16 29
9768
27 41 19
9780
26 6 25
9794
Sun
E.
59 13 28
3099
57 45 17
3111
56 17 21
3194
54 49 40
3135
13
Pollux
W.
72 35 15
9915
74 7 15
37 20 20
9999
75 39 6
9999
77 10 48
9937
Regulus
Jupiter
W.
35 46 51
9845
9859
38 53 40
9859
40 26 51
9866
W.
30 23 3
9896
31 55 27
9901
33 27 44
9907
34 59 54
9913
Sun
E.
47 34 39
3190
46 8 18
3901
44 42 10
3911
43 16 14
3991
14
Pollux
W.
84 46 55
9973
86 17 41
9981
87 48 18
9968
89 18 46
9995
Regulus
W,
48 10 36
9900
49 42 55
9907
51 15 5
9913
52 47 7
9990
Jupiter
W.
42 38 50
9943
44 10 14
9950
45 41 30
9955
47 12 39
9969
Sun
E.
36 9 36
3979
34 44 52
3989
33 20 20
3993
31 56 0
3309
15
Regulris
W.
60 25 15
9951
61 56 29
9957
63 27 36
9963
64 58 &5
9969
Jupiter
W.
54 46 27
9991
56 16 51
9997
57 47 7
3003
59 17 16
3008
Sun
E.
24 57 21
3358
23 34 16
3371
22 11 26
3385
20 48 52
i
23 28 55
3399
10
Sum
W.
19 29 5
3531
20 48 55
3595
22 8 52
3519
3515
Fomalhaut
E.
78 23 7
3503
77 2 46
3509
75 42 32
3516
74 22 26
3595
a Pegasi
<E.
93 28 6
3980
92 3 31
3981
90 38 58
3989
89 14 26
3984
20
Sun
W.
30 10 3
8509
31 30 25
3500
32 50 49
3497
34 11 16
3495
Fomalhaut
E.
67 44 15
3570
66 35 8
3581
65 6 13
3593
63 47 31
3606
a Pegasi
E.
82 12 14
3993
80 47 54
3994
79 23 35
3995
77 59 18
3998
21
Sun
W.
40 54 14
3480
42 15 0
3478
43 35 49
3474
44 56 42
3471
Mars
W.
21 37 27
3498
22 57 53
3480
24 18 39
3465
25 39 42
3451
XVI.
NOVEMBER, 1884.
197
GREENWICH MEAN ^IME.
LUNAR DISTANCES.
®
Name and Direction
of Object.
Midnight
P.L.
of
Diff.
XVh.
P.L.
of
Diff.
xvnifc.
P. L,
of
Diff.
XXF*
P.L.
of V
Diff. 1
8
Suzv
E.
o in
102 19 31
9695
100 42 45
9710
O / /'
99 6 19
9796
97 30 14
1
9743 i
9
Aldebaran
W.
69 58 52
9483
71 40 30
9496
73 2*49
9510
75 2 16
9594
Saturn
W.
55 16 43
9473
56 58 35
9487
56 40 7
9500
60 21 20
9514 1
Vends
E.
49 15 13
9889
47 42 31
9896
46 10 9
9914
44 38 &
9999,
Spica
E.
63 42 26
9487
62 0 55
9509
60 19 44
9517
58 38 54
9530
Sun
E.
89 35 5
9891
88 1 4
9836
86 27 23
9859
84 54 2
9897
10
Aldebaran
W.
83 22 58
9591
85 2 5
9604
86 40 54
9616
88 19 25
9830
Saturn
W.
68 42 47
9579
70 22 11
9599
72 1 17
9605
73 40 5
9618
Pollux
W.
41 25 24
9803
42 59 48
9809
44 34 12
9805
46 8 34
9808
Venus
E.
37 2 53
3005
35 32 47
3091
34 3 0
3035
32 33 31
3050
Spica
E.
50 19 33
9599
48 40 37
9613
47 2 0
9696
45 23 41
9640
Sun
E.
77 12 8
9941
75 40 41
9955
74 9 82
9969
72 38 40
9969
11
Aldebaran
W.
96 27 49
9691
98 4 41
9709
99 41 18
9713
101 17 41
9793 |
Saturn
W.
81 50 0
9676
a3 27 12
9687
85 4 9
9698
86 40 51
9710 j
Pollux
W.
53 59 12
9831
55 33 0
9637
57 6 40
9843
58 40 12
S&49
Venus
E.
25 10 33
3199
23 42 &)
3137
22 15 25
8151
20 48 17
31Q6
Spica
E.
37 16 32
9704
♦35 39 58
9717
34 3 41
9799
32 27 40
$ 9749 '
Sun
E.
65 8 39
3000
63 39 26
3083
62 10 83
3075
60 41 63
30£7
12
Saturn
W.
94 40 47
9761
96 16 6
9771
97 51 12
9780
99 26 6
9789
Pollux
W.
66 25 40
9885
67 58 18
9893
69 30 46
9900
71/ 3 5
9907
Regulus
W.
29 31 33
9890
31 5 35
9896
32 39 29
9883
34 13 14
9839
Jupiter
W.
24 12 34
9880
25 45 18
9883
27 17 58
9887
28 50 33
9891
Spica
E.
24 31 49
9807
22 57 30
9891
21 23 30
9838
19 49 51
9855
Sun
E.
53 22 13
3147
51 55 0
3158
50 28 0
3168
49 1 13
3179
13
Pollux
W.
78 42 20
9944
80 13 43
9959
81 44 56
9959
83 16 0
9966
Regulus
W.
41 59 54
9873
43 32 48
9880
43 5 36
9687
46 38 9
9894
Jupiter
W.
36 31 56
9919
38 3 51
9995
39 35 38
9931
41 7 18
37 34 32
89*7
Sun
E.
41 50 30
3931
40 24 58
3949
38 59 39
3953
3969
14
Pollux •
W.
90 49 5
3009
92 19 15
3009
93 49 16
3017
95 19 $.
3099
Regulus
W.
54 19 1
9996
55 50 47
9933
57 22 24
8939
58 53 53
9045
Jupiter
W.
48 43 40
9968
50 14 33
9974
51 45 18
9980
63 15 56
9985
Sun
E.
,30 31 51
3313
29 7 54
3394
27 44 10
3335
26 20 39
3346
15
Regulus
W.
66 29 27
9974
68 0 12
9960
69 30 50
9985
71 1 21
9990
Jupiter
W.
60 47 19
3014
62 17 15
3019
63 47 4
3094
65 16 4?
3030
Sun
E.
19 26 34
3415
18 4 34
3434
16 42 56
3457
15 21 44
3485
19
Sun
W.
24 49 2
3519
26 9 13
3500
27 29 27
3506
28 49 44
3505
Fomalhaut
E.
73 2 29
3533
71 42 41
3541
70 23 2
3550
69 3 33
3560'
aPegasi
E.
87 49 56
3986
86 25 28
3987
85 1 1
UC88
83 36 36
3101 |
20
Sun
W.
35 31 46
3499
36 52 19
3490
38 12 54
3488
39 33 32
3464 -
Fomalhaut
E.
62 29 3
3619
61 10 49
3633
59 52 50
3649
58 35 8
3665 j
aPegasi
E.
76 35 4
3300
75 10 52
3301
73 46 42
3303
72 22 34
3306,
21
Sun
W.
46 17 39
3466
47 38 41
3461
48 59 49
3456
50 21 2
3451 '
Mars
W.
27 1 1
3438
28 22 35
3497
29 44 21
3416
31 6 19
3403
198
NOVEMBER, 1884.
XVII.
GEEBNWICH MEAN TIME.
•
LUNAR DISTANCES.
SI
Name and Direction
Noon.
P.L.
Of
mh.
P.L.
of
Vlh.
P.L.
of
IX*.
P.L.
Of
**
of Object.
Diff.
Diff.
Diff.
Diff.
21
Fomalhaut
E.
O / //
57 17 44
9683
O / //
56 0 38
3709
54 43 53
3794
53 27 31
3746
a Pegasi
E.
70 58 29
3307
69 34 26
3310
68 10 26
3313
66 46 29
3314
22
Sun
W
51 42 21
3446
53 3 46
3439
54 25 18
3433
55 46 57
3497
Mars
W.
32 28 29
3395
33 50 51
3386
35 13 24
3375
36 36 9
3365
Fomalhaut
E.
47 12 17
3893
45 58 50
3939
44 46 3
3975
43 33 59
4093
a Pegasi
E.
59 47 30
3331
58 23 54
3335
57 0 23
3339
55 36 57
3345
23
Sun
W.
62 37 14
3387
63 59 45
3378
65 22 27
3368
66 45 20
3358
Mars
W.
43 32 44
3315
44 56 38
3305
46 20 44
3994
47 45 3
3983
a Pejpisi
E.
48 41 37
3384
47 19 2
3394
45 56 39
3408
44 34 31
3433
a Arietis
E.
91 1 25
3090
89 33 3
3089
88 4 30
3073
86 35 47
3065
24
Sun
W.
73 42 44
3303
75 6 52
3990
76 31 15
3976
77 55 54
3963
Mars
W.
54 50 0
3999
56 15 43
3909
57 41 42
3196
59 7 56
3183
a Arietis
E.
79 9 26
3017
77 39 34
3006
76 9 29
9996
74 39 11
9985
Aldebarau
E.
112 7 14
9919
110 35 19
9907
109 3 9
9895
107 30 44
3883
25
Sun
W.
85 3 14
3191
86 29 34
3175
87 56 13
3158
89 23 12
3141
Mars
W.
66 23 24
3108
67 51 24
3091
69 19 44
3075
70 48 24
3059
a A qui lee
W.
37 22 38
4118
38 32 22
4016
39 43 46
3991
40 56 44
3836
a Arietis
E.
67 4 15
9998
65 32 32
9917
64 0 35
9905
62 28 23
9894
Aldebarau
E.
99 44 30
9815
98 10 22
9801
96 35 55
9785
95 1 8
9771
26
Sun
W.
96 43 17
3054
98 12 23
3035
99 41 52
3017
101 11 44
9997
a Aquilae
W.
47 21 50
3490
48 42 25
3434
50 4 3
3381
51 26 41
3331
a Arietis
E.
54 43 36
9835
53 9 54
9695
51 35 59
9815
50 1 50
9805
Aldebarau
E.
87 2 5
9689
85 25 10
9679
83 47 52
9655
82 10 11
9637
Saturn
E.
100 39 23
9669
99 2 2
9659
97 24 18
9635
95 46 11
9618
27
Sun
W.
108 47 7
9899
110 19 27
9680
111 52 12
9859.
113 25 23
9838
a Aquilae
a Arietis
W.
58 33 32
3114
60 1 25
3077
61 30 3
3040
62 59 26
3005
E.
42 8 13
9769
40 33 4
9766
38 57 51
9765
37 22 37
9767
Aldebaran
E.
73 55 36
9545
72 15 25
9595
70 34 47
9507
68 53 43
9488
Saturn
E.
87 29 26
9595
85 48 48
9507
84 7 44
9488
82 26 14
9469
28
Sun
W.
121 17 56
9738
122 53 46
9717
124 30 3
9698
126 6 46
9678
a Aquilae
W.
70 36 48
9848
72 10 13
9891
73 44 14
9794
75 18 50
9767
Fomalhaut
W.
41 .3 1
3446
42 24 26
3358
43 47 31
3977
45 12 9
3903
Aldebaran
E.
60 21 40
9391
58 37 53
9373
56 53 39
9353
55 8 57
9334
Saturn
E.
73 51 59
9373
72 7 46
9355
70 23 6
9336
68 37 59
9317
29
Fomalhaut
W.
52 35 26
9908
54 7 a5
9861
55 40 44
9816
57 14 51
9775
a Pegasi
Aldebaran
W.
35 50 3
9881
37 22 46
9619
38 56 58
9751
40 32 30
9605
E.
46 18 38
9943
44 31 14
9995
42 43 23
9908
40 55 7
9190
Saturn
E.
59 '45 36
9997
57 57 48
9909
56 9 34
9199
54 20 55
9175
Pollux
E.
89 42 36
9339
87 57 23
9315
86 11 45
9998
84 25 42
9981
30
Fomalhaut
W.
65 18 3
9603
66 56 54
9575
68 36 23
9549
70 16 28
9595
a Pegasi
Aldebaran
W.
48 47 2
9479
50 28 45
9445
52 11 15
9414
53 54 30
9385
E.
31 47 36
9113
29 56 56
9099
28 5 55
9086
26 14 34
9073
Saturn
E.
45 11 35
9100
43 20 36
9087
41 29 17
9074
39 37 38
9069
Pollux
E.
75 29 36
9907
73 41 19
9195
71 52 44
9183
70 3 51
9179
XVHI.
NOVEMBER, 1884.
199
GREENWICH MEAN TIME
LUNAR DISTANCES.
*4
Name and Direction
of Object.
Midnight.
P.L.
of
Diff.
xv*.
P.L.
of
Diff.
xvmh
P.L.
of
Diff.
XXI*
P.L.
of
Diff.
21
Fomalhaut
E.
0 / //
52 11 33
3770
50 56 6
3796
49 40 54
3896
48 26 19
3858
a Pegasi
E.
65 22 34
3317
63 58 42
3390
62 34 54
3394
61 11 10
3397J
22
Sun
W.
57 8 43
3419
58 30 38
3419
59 52 41
3404
61 14 53
3398
Mars
W.
37 59 5
3356
39 22 12
3345
40 45 31
3335
42 9 2
3395
Fomalhaut
E.
42 22 42
4076
41 12 17
4134
40 2 48
4900
38 54 22
4974
a Pegasi
E.
54 13 38
3351
52 50 26
3358
51 27 21
8365
50 4 24
3373
23
Suif
W.
68 8 24
3348
69 31 40
3338
70 55 8
3396
72 18 49
331*
Mars
W.
49 9 35
3971
'50 34 20
395&
3459
51 59 19
3947
53 24 32
3935
a Pegasi
E.
43 12 40
3439
41 51 8
40 29 58
3481
39 9 13
3508
a Arietis
E.
85 6 54
3056
83 37 50
3046
82 8 34
3036
8039 6
3096
24
Sun
W.
79 20 49
3949
80 46 0
3936
82 11 27
3930
83 37 1%
3906
Mars
W.
60 34 27
3168
62 1 15
3153
63 28 20
3138
64 55 43
3194
a Arietis
E.
73 8 40
9974
71 37 55
9963
70 6 56
9959
68 35 43
9940
Aldeba/an
E.
105 58 3
9870
104 25 6
9857
102 51 52
9843
101 18 20
9899
25
Sow
W.
90 50 32
3194
92 18 12
3108
93 46 12
3091
95 14 33
3079
Mars
W.
72 17 24
3049
73 46 45
3095
75 16 27
3007
76 46 31
9989
a Aquike
W.
42 11 9
3756
43 26 57
3683
44 44 2
3614
46 2 21
3550
a Arietis
E.
60 55 56
9889
59 23 14
9670
57 50 17
9858
56 17 4
9846
Aldebaran
E.
93 26 2
9755
91 50 35
9739
90 14 47
9799
88 38 37
9706
26
Sun
W.
102 42 0
9978
104 12 40
9959
105 43 4<
9939
107 15 13
9990
a Aquilee
W.
52 50 17
3983
54 14 48
3938
55 40 12
3195
57 6 27
. 313$
a Arietis
E.
48 27 29
9796
46 52 56
9787
45 18 11
9779
43 43 16'
9773
Aldebaran
E.
80 32 6
9618
78 53 36
96JX)
77 y 41
9589
75 35 21
9564
Saturn
E.
94 7 40
9599
92 28 44
9589
90 49 24
9563
89 938
'9544
27
Sun
W.
114 59 1
9818
116 33 5
9798
118 7 35
9778
119 42 32
9757
a AquilflB
W.
64 29 33
9971
66 0 22
9939
67 31 54
9908
69 4 0
9877
a Arietis
E.
35 47 26
9779
34 12 21
9780
32 37 27
9793
31 2 50
9819
Aldebaran
E.
67 12 13
9469
65 30 16
9449
63 47 51
9436
62 4 59
9411
Saturv
E.
80 44 17
9450
79 1 53
9431
77 19 2
94)9
75 35 44
9393
28
Sun
W.
127 43 55
9659
129 21 30
9640
130 59 31
9691
132 37 98
9601
a Aquike
W.
76 54 1
9749
78 29 45
9719
80 6 0
9696
81 4? 46
9673
Fomalhaut
W.
46 38 14
3135
48 5 41
3079
49 34 25
3013
51 4 21
9958
Aldebaran
E.
53 23 47
9315
51 38 10
9997
49 52 6
9979
48 5 35
9961
Saturn
E.
66 52 24
9998
65 6 22
9980
63 19 53
9969
61 32 58
9944
29
Fomalhaut
W.
58 49 52
9736
60 25 45
9699
62 2 26
9665
63 39 53
9633
a Pegasi
W.
42 9 17
9643
43 47 13
9597
45 26 12
9554
47 6 10
9515
Aldebaran
E.
39 6 25
9174
37 17 18
9156
35 27 M
9143
.33 37 53
9198
Saturn
E.
52 31 50
9159
50 42 21
9143
46 52 28
9199
47 2 13
9114
Pollux
E.
82 39 14
3965
80 52 23
9949
79 5 9
9935
77 17 33
9990
30
Fomalhaut
W.
71 57 6
9509
' 73 38 16
9489
75 19 54
9463
77 1 59
9446
or Pegasi
W.
55 38 26
9359
57 23 0
9334
59 8 10
9319
60 53 52
9991
Aldebaran
E.
24 22 53
9061
22 30 54
9050
20 38 38
9041
18 46 7
9039
Saturn
E.
37 45 41
9051
35 53 26
9041
34 0 56
9039
32 8 12
9094
Pollux
E.
68 14 41
9169
66 25 16
9163
64 35 38
9145
62 45 48
9138
200
DECEMBER, 1884.
AT GREENWICH APPARENT NOON.
I
0
3
©
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed/
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
Frid.
Sat.
SUN.
Mon.
Tues.
Wed.
Thur.
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
THE SUN'S
Apparent
Bight,
h m a
16 32 23.81
16 36 43.65
16 41 4.10
16 45 25.14
16 49 46.74
16 54 8.88
16 58 31.53
17 2 54.69
17 7 18.3a
17 11 42.42
17 16 6.90
17 20 31.77
17 24 56.99
17 29 22.52
17 33 48.32
17 38 14.36
17 42 40.61
17 47 7.03
17 51 33.56
17 56 0.19
18 0 26.86
18
18
18
4 53.54
9 20.19
13 46.79
18 18 13.29
18 22 39.65
18 27 5.84
18 31 31.84
18 35 57.61
18 40 23.12
18 44 48.34
18 49 13.25
DifLtor
lHour.
0.814
0.840
0.865
0.888
0.911
0.934
0.955
0.975
0.994
.012
.028
.043
.056
.068
.079
.089
,097
,103
,107
.110
111
112
,109
,106
.101
.096
.088
.079
.068
.037
,045
Apparent
Declination.
S.21 55 29.8
22 4 19.3
22 12 43.2
22 20 41.2
22 28 132
22 35 18.9
22 41 58.0
22 48 10.4
22 53 56.0
22 59 14.4
23 4 5.4
23 8 28.9
23 12 24.8
23 15 53.1
23 18 53.5
23 21 25.8
23 23 30.0
23 25 6.1
23 26 14.0
23 26 53.7
23 27 5.1
23 26 48.1
23 26 2.9
23 24 49.4
23 23 7.6
23 20 57.6
23 18 19.5
23 15 13.4
23 11 39.2
23 7 37.1
23 3 7.2
11.032 S.22 58 9.7
Din*, for
lHour.
21.53
20.46
-19.37
18.27
17.17
-16.07
14.95
13.82
-12.69
11.55
10.40
- 9.25
8.09
6.94
- 5.77
4.59
3.41
- 2.24
- 1.06
+ 0.12
+ 1.30
2.48
3.65
+ 4.83
6.00
7.18
+ 8.34
9.50
10.66
11.82
+12.97
Semi-
diameter.
16 16.09
16 46.24
16 16.38
16 16.51
16 16.64
16 16.76
16 16.89
16 17.00
16 17.11
16 17.21
16 17.31
16 17.40
16 17.49
16 17.58
16 17.66
16 17.75
16 17.82
16 17.89
16 17.96
16 18.02
16 18.08
16 18.14
16 18.19
16 18.23
16 18.27
16 18.31
16 18.34
16 18.38
16 18.40
16 18.41
16 18.41
16 18.41
Sidereal
Time of
Semi-
diameter
Passing
Meridian.
70.36
70.44
70.52
70.60
70.68
70.75
70.82
70.88
70.94
70.99
71.04
71.08
71.12
71.16
71.19
71.23
71.25
71.27
71.28
71.29
71.30
71.30
71.30
71.29
71.28
71.26
71.24
71.22
71.19
71.15
71.11
71.06
Equation of
Time,
to be
Subtracted
from
Added to
Apparent
Time.
10 33.50
10 10.29
9 46.47
9 22.05
8 57.07
8 31.55
8 5.52
7 38.99
7 11.99
6 44.53
6 16.68
5 48.45
5 19.87
4 50.97
4 21.81
3 52.40
3 22.79
2 53.01
2 23.11
1 53.12
1 23.09
0 53.05
0 23.05
TTOT
0 36.77
1 649
136.04
2 5.41
2 34.54
3 3.43
3 32.02
4 6.29
Din*, for
1 Honr.
0.955
0.980
1.004
.028
.051
.074
.095
.115
.134
.152
.168
.183
.196
.208
.219
.229
.237
.242
.246
.249
.250
.251
.248
.245
.240
.235
.227
.218
.207
.196
.184
1.171
Note.— The mean time of semidiameter passing may be found by subtracting 0*.19 from the sidereal time.
The sign — prefixed to the hourly change of declination indicates that south declinations arc increasing;
the sign + indicates that south declinations are decreasing.
n.
DECEMBER, 1884.
201
AT GBEBNWICH MEAT* NOON.
i
s
•8
*
1
1
J
THE SUN'S
Equation of
Time,
to be
Added to
DUE for
lHour.
Sidereal
Time,
or
Bight Ascension
of
Mean8un. .
Apparent
Bight Ascension.
DHL for
lHonr.
Apparent
Declination.
Diff. for
lHonr.
Subtracted
from
Mean Time.
Mon.
Tues.
Wed.
1
2
3
h m •
16 32 25.70
16 36 45.48
16 41 5.86
10.812
10.837
10.861
S. 21° 55 33.8
22 4 23.0
22 12 46.6
-22.58
21.52
20.45
10 33.33
10 10.12
9 46.30
•
0.955
0.980
1.004
h m •
16 42 59.04
16 46 55.60
16 50 52.16
Thur.
Frid.
Sat.
4
5
6
16 45 26.83
16 49 48.36
16 54 10.43
10.885
10.908
10.931
22 20 44.3
22 28 16.0
22 35 21.4
-19.36
18.26
17.16
9 21.88
8 56.91
8 31.39
1.028
1.051
1.0*4
16 54 48.71
16 58 45.27
17 2 41.82
5 a S
»0 o s
7
8
9
16 58 33.01
17 2 56.09
17 7 19.65
10.959
10.972
10.991
22 42 0.2
22 48 12.3
22 53 57.6
-16.06
14.94
13.81
8 5.37
7 38.85
7 11.85
1.095
1.115
1.134
17 6 38.38
17 10 34.94
17 14 31.50
Wed.
Thur.
Frid.
10
11
12
17 11 43.66
17 16 8.06
17 20 32.84
11.009
11.025
11.040
22 59 15.8
23 4 6.6
23 8 29.9
-12.68
11.54
10.39
6 44.40
6 16.55
5 48.33
1.152
1.168
1.183
17 18 28.05
17 22 24.61
17 26 21.17
Sat.
SUN.
Mon.
13
14
15
17 24 57.97
17 29 23.41
17 33 49.12
11.053
11.065
11.076
23 12.25.6
23 15 53.7
23 18 53.9
-9.24
8.08
6.93
5 19.76
4 50.87
4 21.72
L196
1.208
1.219
17 30 17.73
17 34 14.28
17 38 10.84
Tues.
Wed.
Thur.
16
17
18
17 38 15.07
17 42 41.23
17 47 7.56
11.086
11.093
11.099
23 21 26.1
23 23 30.2
23 25 6.2
- 5.76
4.59
3.41
3 52.32
3 22.72
2 52.95
1.229
1.237
1.242
17 42 7.39
17 46 3.95
17 50 0.50
Frid.
Sat.
SUN.
19
20
21
17 51 34.00
17 56 0.54
18 0 27.12
11.103
11.106
11.107
23 26 14.0
23 26 53.7
23 27 5.1
-2.24
- 1.06
+ 0.12
2 23.06
1 53.08
1 23.06
1.246
1.249
1.250
17 53 57.06
17 57 53.62
18 1 50.18
SSI
22
23
24
18 4 53.71
18 9 20.26
18 13 46.76
11.107
11.105
11.102
23 26 48.1
23 26 2.9
23 24 49.4
+ 1.30
2.48
3.65
0 53.03
0 23.04
1.251
1.248
1.245
18 5 46.74
18 9 43.30
18 13 39.85
6 6M
Thur.
Frid.
Sat
25
26
27
18 18 13.17
18 22 39.44
18 27 5.54
11.097
11.092
11.084
23 23 7.6
23 20 57.7
23 18 19.7
+ 4.83
6.00
7.18
0 36.76
1 6.47
1 36.01
1.240
1.235
1.227
18 17 36.41
18 21 32.97
18 25 29.53
SUN
Mon.
Tues.
Wed.
28
29
30
31
18 31 31.45
18 35 57.13
18 40 22.56
18 44 47.70
11.075
11.064
11.053
11.041
23 15 13.7
23 11 39.6
23 7 37.7
23 3 8.0
+ 8.34
9.50
10.66
11.81
2 5.37
2 34.49
3 3.37
3 31.95
1.218
1.207
1.196
1.184
18 29 26.08
18 33 22.64
18 37 19.19
18 41 15.75
Thur.
32
18 49 12.52
11.028
S. 22 58 10.7
+12.96
4 0.22
1.171
18 45 12.30
Note.— Th
Tl]
arc
e semidiameter for mean noon
o sign — prefixed to the hourl
> inoreasing ; the sign + India
may be assumed the same as t
y change of declination indicate
*tes that south declinations arc
hat for apparent
js that south dec
decreasing.
noon,
linations
Diff. for 1 Hour,
+ 9-.8565.
(Tablom.)
202
DECEMBER, 1884.
m.
AT GREENWICH MEAN NOON.
1
3
THE SUN'S
a
1
1
1
Logarithm
of the
Radius Vector
of the
Earth.
Diff. for
1 Honr.
a
Mean Time
of
Sidereal Noon.
TRUE LONGITUDE.
Diff. for
1 Honr.
LATITUDE.
X
V
1
2
3
336
337
338
249 46 8*2
250 4fr 59.7
251 47 52.2
45 19.6
46 11.0
47 3.4
//
152.12
152.17
152.21
-0?59
0.69
0.76
9.9936853
9.9936200
9.9935574
-27.8
26.8
25.7
h m 8
7 15 49.36
7 11 53.45
7 7 57.54
4
5
6
339
340
341
252 48 45.9
253 49 40.7
254 50 36.5
47 56.9
48 51.5
49 47.2
152.25
152.29
152.34
-0.78
0.78
0.75
9.9934972
9.9934395
9.9933844
-24.6
23.6
22.6
7 4 1.63
7 0 5.72
6 56 9.81
7
8
9
342
343
344
255 51 33.5
256 52 31.6
257 53 30.9
50 44.0
51 42.0
52 41.1
152.39
152.44
152.50
-0.67
0.58
0.47
9.9933317
9.9932815
9.9932336
-21.5
20.5
19.5
6 52 13.90
6 48 17.99
6 44 22.08
10
11
12
345
346
347
258 54 31.4
259 55 33.0
260 56 35.7
53 41.4
54 42.9
55 45.4
152.55
152.59
152.63
-0.36
0.24
-0.11
9.9931878
9.9931440
9.9931020
-18.7
17.9
17.1
6 40 26.17
6 36 30.26
6 32 34.35
13
14
15
348
349
350
261 57 39.4
262 58 43.8
263 59 49.1
56 48.9
57 53.2
58 58.3
152.67
152.71
152.74
+ 0.02
0.13
0.22
9.9930619
9.9930236
9.9929870
-16.3
15.6
14.9
6 28 38.43
6 24 42.52
6 20 46.61
16
17
18
351
352
353
265 0 55.2
266 2 2.1
267 3 9.4
0 4.3
1 11.0
2 18.2
152.77
152.79
152.81
+ 0.29
0.34
0.35
9.9929519
9.9929185
9.9928867
-14.3
13.6
13.0
6 16 50.70
6 12 54.80
6 8 58.89
19
20
21
354
355
356
268 4 17.1
269 5 25.3
270 6 33.9
3 25.7
4 33.7
' 5 42.1
152.83
152.85
152.86
+ 0^32
0.27
0.19
9.9928564
9.9928277
9.9928007
- 12.3
11.6
10.9
6 5 2.97
6 1 7.06
5 57 11.14
22
23
24
357
358
359
271 7 42.6
272 8 51.3
273 10 0.0
6 50.7
7 59.3
9 7.8
152.86
152.86
152.87
+ 0.10
-0.02
0.15
9.9927755
9.9927523
9.9927313
-10.1
9.2
8.3
5 53 15.23
5 49 19.32
5 45 23.41
25
26
27
360
361
362
274 11 8.8
275 12 17.6
276 13 26.3
10 16.3
11 24.9
12 33.4
152.87
152.86
152.86
-0.29
0.42
0.55
9.9927123
9.9926956
9.9926814
- 7.4
6.4
5.4
5 41 27.49
5 37 31.58
5 33 35.67
28
29
30
363
364
365
366
277 14 34.8
278 15 43.4
279 16 51.9
280 18 0.3
13 41.8
14 50.2
15 58.5
17 6.8
152.86
152.86
152.85
162.85
-0.65
0.75
0.81
0.83
9.9926698
9.9926609
9.9926548
9.9926513
- 4.3
3.1
2.0
- 0.8
5 29 39.76
5 25 43.85
5 21 47.94
5 17 52.03
32
367
281 19 8.7
18 15.1
152.65
-0.84
9.9926509
+ 0.4
5 13 56.12
Note.— The
the
numbers in column
moan equinox of Jai
A, correspond
unary 0*.0.
to the tru
e equinox of t
he date; in colui
nn A', to
Diff. for 1 Hour,
— 9«.6296
(TabloII.)
rv.
DECEMBER, 1884.
203
GREENWICH MEAN TIME.
1
3
1
THE
MOON'S
SBMIDIAMETER.
HORIZONTAL
PARALLAX.
UPPER TRANSIT.
AGE.
Noon.
Midnight
Noon.
DMT. for
lHonr.
Midnight
DMT. for
lHonr.
Meridian of
Greenwich.
Diff. for
lHpur.
Noon.
I
2
3
16 39.6
16 45.8
16 46.4
16' 43!'3
16 46.8
16 44.6
61 ' 2."o
61 24.6
61 26.9
//
+ 1.33
+ 0.54
-0.33
* //
61 15.7
61 28.4
61 20.3
+ o'.94
+ 0.10
-0.75
h m
11 3.1
12 5.3
13 8.4
m
2.55
2.63
2.62
d
13.7
14.7
15.7
4
5
6
16 41.5
16 31.8
16 18.7
16 37.2
16 25.6
16 11.4
61 8.9
60 33.4
59 45.3
-1.13.
1.77
3.17
60 53.0
60 10.6
59 18.4
- 1.48^
2.01
2.28
14 10.5
15 9.8
16 5.5
2.53
2.40
2.24
16.7
17.7
18.7
7
8
9
16 3.8
15 48.5
15 34.0
15 56.1
15 41.1
15 27.1
58 50.5
57 54.2
57 0.6
-2.34
2.31
2.12
58 22.2
57 26.9
56 35.8
-2.36
2.23
2.00
16 57.6
17 46.7
18 33.6
2.10
1.99
1.91
19.7
20.7
21.7
10
11
12
15 20.8
15 9.7
15 0.6
15 15.0
15 4.9
14 56.9
56 12.6
55 31.6
54 58.4
-1.86
1.55
1.22
55 51.2
55 14.0
54 44.6
- 1.71
1.38
1.07
19 19.0
20 3.9
20 48.7
1.87
1.87
1.88
22.7
23.7
24.7
13
14
15
14 53.6
14 48.6
14 45.3
14 50.9
14 46.7
14 44.3
54 32.7
54 14.2
54 2.1
-o.<te
0.63
0.39
54 22.6
54 7.4
53 58.3
-0.77
0.51
0.27
21 34.1
22 20.2
23 7.0
1.91
1.94
1.96
25.7
26.7
27.7
16
17
18
14 43.6
14 43.3
14 44.4
14 43.3
14 43.7
14 45.5
53 55.8
53 54.9
53 59.0
-0.15
+ 0.07
0.27
53 54.7
53 56.3
54 3.0
-0.04
+ 0.17
0.39
23 54.4
6
0 41.9
1.98
1.97
28.7
29.7
0.9
19
20
21
14 47.0
14 51.0
14 56.8
14 48.8
14 53.7
15 0.3
54 8.4
54 23.2
54 44.2
+ 0.51
0.74
1.01
54 15.1
54 32.9
54 57.2
+ 0.62
0.87
1.15
1 29.1
2 15.7
3 1.8
1.96
1.93
J.91
1.9
2.9
3.9
22
'23
24
15 4.3
15 13.7
15 25.1
15 8.7
15 19.1
\p 31.4
55 11.8
55 46.5
56 28.2
+ 1.29
1.59
1.87
55 28.2
56 6.5
56 51.5
+ 1.44
1.73
2.00
3 47.4
4 32.9
5 18.9
1.89
1.90
1.94
4.9
5.9
6.9
25
26
27
15 38.2
15 52.5
16 7.3
15 45.2
15 59.9
16 14.6
57 16.3
58 9.0
59 3.5
+ 2.12
2.26
2.24
57 42.2
58 36.3
59 30.1
+ 2.20
2.27
2.17
6 6.1
6 55.5
7 47.8
2.01
2.11
2.25
7.9
8.9
9.9
28
29
30
31
16 21.5
16 33.6
16 42.0
16 45.6
16 27.9
16 38.3
16 44.5
16 45.4
59 55.5
60 39.8
61 10.8
61 24.0
+ 2.04
1.60
0.94
+ 0.14
60 19.0
60 57.3
61 19.8
61 23.1
+ 1.85
1.29
+ 0.55
-0.29
8 43.6
9 42.9
10 44.9
11 48.0
2.40
2.54
2.62
2.62
10.0
11.9
12.9
13.9
32
16 43.7
16 40.7
61 17.0
-0.72
61 6.0
- 1.11
12 50.1
2.54
14.9
204
DECEMBER, 1884.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Ascension.
Diff.for
1 Minute.
Declination.
Diff.for
1 Minute.
Hour.
Right Ascension.
Diff. for
1 Minute.
Declination.
Diff for
1 Minute.
M
ONDA
Y 1.
WEDNESDAY 3.
h m e
8
O » U
it
h m s
8
O 1 il
tf
0
3 19 21.17
2.5567
N.15 1 48.0
7.159
0
5 26 9.82
9.6878
N.18 27 28.0
1.077
1
3 21 54.72
2.5615
15 8 54.5
7.057
1
5 28 51.09
9.6877
18 28 28.3
0.935
2
3 24 28.55
94669
15 15 54.9
6.954
2
5 31 32.35
9.6875
18 29 20.2
0.794
3
3 27 2.66
2.5708
15 22 49.0
6.849
3
5 34 13.60
9.6873
18 30 3.6
0.653
4
3 29 37.05
94755
15 29 36.8
6.743
4
5 36 54.82
9.6866
18 30 38.5
0410
5
3 32 11.72
9.5801
15 36 18.2
6.637
5
5 39 36.01
3.6863
18 31 4.8
0468
6
3 34 46.66
3.5646
15 42 53.2
6.598
6
5 42 17.16
2.6854
18 31 22.6
0.336
7
3 37 21.87
3.5890
15 49 21.6
6.417
7
5 44 58.26
9.6846
18 31 31 J)
4-0.084
8
3 39 57.34
9.5934
15 55 43.3
6.306
8
5 47 39.31
9.6837
18 31 32.7
- 0.057
9
3 42 33.08
94977
16 1 58.3
6.193
9
5 50 20.30
9.6836
18 31 25.0
0.199
JO
3 45 9.07
9.6019
16 8 6.5
6.080
10
5 53 1.22
34813
16 31 8.8
0441
Jl
3 47 45.31
9.6060
16 14 7.9
5.966
11
5 55 42.06
8.6799
18 30 44.1
0.483
12
3 50 21.79
9.6101
16 20 2.4
5.650
12
5 58 228!
9.6784
18 30 11.0
0.623
13
3 52 58.52
3*6141
16 25 49.9
5.739
13
6 1 3.47
94769
18 29 29.5
0.763
14
3 55 35.48
9.6179
16 31 30-3
5.613
14
6 3 44.04
9.6753
18 28 39.5
0403
15
3 58 12.67
9.6317
16 37 3.5
5.493
15
6 6 24.50
9.6733
18 27 41.1
1.043
16
4 0 50.09
9.6355
16 42 29.5
5.373
16
6 9 4.84
9.6713
18 26 34.3
' 1.183
17
4 3 27.73
9.6391
16 47 48.2
5.351
17
6 11 45.06
94693
16 25 19.2
1491
18
4 6 5.58
9.6336
16 52 59.6
5.136
18
6 14 25.16
9.6679
18 23 55.8
1.459
19
4 8 43.64
9.6361
16 58 3.6
5.004
19
6 17 5.12
3.6648
18 22 24.1
1497
20
4 11 21.91
9.6394
17 3 0.1
4.879
20
6 19 44.93
8.6633
18 20 44.1
1.735
21
4 14 0.37
9.6437
17 7 49.1
4.753
21
6 22 24JS9
8.6598
18 18 55.9
1.873
22
4 16 39.03
9.6159
17 12 30.5
4.636
22
6 25 4.10
9.6579
18 16 59.5
2.008
23
4 19 17.88
2.6489
7ESDA
N.17 17 4.2
12.
4.498
23
6 27 43.45
TH
9.6543
UESD.
N.18 14 54.9
kY 4.
3.144
0
4 21 56.90
2.6518
N.17 21 30.2
4.369
0
6 30 22.62
9.6513
N.18 12 42.1
9479
1
4 24 36.10
9.6547
17 25 48.5
' 4.339
1
6 33 1.61
9.6483
18 10 21.4
3.413
2
4 27 15.47
3.6575
17 29 58.9
4.108
2
6 35 40.42
9.6453
18 7 52.6
9447
3
4 29 55.00
9.6601
17 34 1.5
3.977
3
6 38 19.05
9.6433
18 5 15.8
3.679
4
4 32 34.68
9.6695
17 37 56.2
3.845
4
6 40 57.48
8.6386
18 2 31.1
8.611
5
4 35 14.50
9.6649
17 41 42.9
3.713
5
6 43 35.70
3.6353
17 59 38.4
3443
6
4 37 54.46
3.6673
17 45 21.6
3.578
6
6 46 13.71
3.6318
17 56 37.9
3.073
7
4 40 34.56
3.6694
17 48 523
3.444
7
6 48 51.51
94369
17 53 29.6
3.803
8
4 43 14.79
2.6715
17 52 14.9
3.308
8
6 51 29.09
94844
17 50 13.6
3431
9
4 45 55.14
3.6734
17 55 29.3
3.173
9
6 54 6.44
9.6305
17 46 49.9
3.459
10
4 48 35.60
9.6753
17 58 35.5
3.035
10
6 56 43.55
9.6166
17 43 18.5
3.587
11
4 51 16.16
9.6769
18 1 33.5
2.898
11
6 59 20.43
9.6137
17 39 39.5
3.713
12
4 53 56.83
8.6786
18 4 23.3
3.761
12
7 1 37.07
3.6086
17 35 53.0
3.838
13
4 56 37.58
3.6800
18 7 4.8
8.633
13
7 4 33.46
8.6043
17 31 59.0
3.969
14
4 59 18.43
3.6813
18 9 38.0
9.484
14
7 7 9.59
8.6000
17 27 57.6
4.085
15
5 1 59.35
3.6835
18 12 2.9
9.345
15
7 9 45.46
84957
17 23 48.8
4.907
16
5 4 40.34
9.6837
18 14 19.4
9405
16
7 12 21.07
94913
17 19 32.8
4498
17
5 7 21.39
9.6846
18 16 27.5
9.066
17
7 14 56.42
84668
17 15 9.5
4.448
18
5 10 2.49
9.6854
18 18 27.3
1.996
18
7 17 31.49
3.5883
17 10 39.0
4467
19
5 12 43.64
9.6869
18 20 18.6
1.784
19
7 20 6.28
84775
17 6 1.4
4485
20
5 15 24.83
9.6867
18 22 1.4
1.643
20
7 22 40.79
84739
17 1 16.8
4.809
21
5 18 6.05
9.6879
18 23 35.8
1.503
21
7 25 15.02
34681
16 56 25.2
4.917
22
5 20 47.29
9.6675
18 25 1.7
1.361
22
7 27 48.96
34633
16 51 26.7
5.033
23
5 23 28.55
9.6877
18 26 19.1
1.919
23
7 30 22.60
3.5583
16 46 21.4
5.145
24
5 26 9.82
9.6878
N.18 27 28.0
1.077
24
7 32 55.94
34533
N.I 6 41 9.3
5.357
VL
DECEMBER, 1884.
205
GREENWICH MEAN TIME.
•
m
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hoar.
Bight Ascension.
Diltfor
1 Minute.
Biff, for
1 Minute.
Hour.
Bight Ascension.
lilfltfOT
1 Minute.
Declination.
Difllfor
1 Minute.
F
BIDA1
Z 5.
SUNDAY 7.
h m s
8
O / //
//
h m 8
8
. o # //
//
0
7 32 55.94
94699
N.16 41 9.3
6457
0
9 29 5.76
9.9838
N.10 43 56.5
9.195
1
7 35 28.98
94481
16 35 50.5
5468
1
9 31 22.62
94783
10 34 47.5
9.174
2
7 38 1.71
94430
16 30 25.1
5.478
2
9 33 39.16
94799
10 25 35.6
9499
3
7 40 34.14
94379
16 24 53.2
5486
3
9 35 55.37
94675
10 16 20.9
9.968
4
7 43 6.26
94397
16 19 14.8
5493
4
9 38 11.26
9.9699
10 7 3.4
9414
5
7 45 38.06
94974
16 13 30.0
5.799
5
9 40 26.83
94568
9 57 43.2
9457
6
7 48 9.55
94991
16 7 38.9
5.904
6
9 42 42.08
9.9515
9 48 20.5
9.400
7
7 50 40.72
94107
16 1 41.5
6.007
7
9 44 57.01
9.9463
9 38 55.2
9.449
8
7 53 11.56
94113
15 55 38.0
6.109
8
9 47 11.63
94411
9 29 27.4
9.483
9
7 55 42.08
94069
15 49 28.4
6411
9
9 49 25.94
94359
9 19 57.2
9493
10
7 58 12.27
94004
15 43 12.7
6411
10
9 51 39.94
94308
9 10 24.6
9469
11
8 0 42.13
9.4948
15 36 51.1
6.408
11
9 53 53.64
9.9957
9 0 49.8
9498
12
8 3 11.65
9.4893
15 30 23.7
6405
12
9 56 7.03
94907
8 51 12.8
9.634
13
8 5 40.84
9.4838
15 23 50.5
6.609
13
9 58 20.12
94157
8 41 33.7
9.669
14
8 8 9.70
9.4789
15 17 11.5
6497
14
10 0 32,91
9.9107
8 31 52.5
9.703
15
8 10 38.22
9.4796
15 10 26.9
6.790
15
10 2 45.41
94058
8 22 9.3
9.736
16
8 13 6.40
9.4668
15 3 36.7
6.883
16
10 4 57.61
94009
8 12 24.1
9.768
17
8 15 34.24
9.461)
14 56 41.1
6479
17
10 7 9.52
9.1961
8 2 37.1
9.798
18
8 18 1.73
9.4564
14 49 40.1
7.061
18
10 9 21.14
9.1913
7 52 48.3
9.898
19
8 20 28.88
9.4497
14 42 33.8
7.149
19
10 11 32.48
9.1866
7 42 57.7
9.867
20
8 22 55.69
9.4439
14 35 22.2
7.936
20
10 13 43.53
9.1819
7 33 5.5
9484
21
8 25 22.15
9.4381
14 28 5.5
7490
21
10 15 54.30
9.1773
7 23 11.7
9410
22
8 27 48.26
9.4393
14 20 43.8
7.404
22
10 18 4.80
9.1797
7 13 16.3
9436
23
8 30 14.03
SA'
9.4966
rUED,
N.14 13 17.0
1Y 6.
7.487
23
10 20 15.02
M
9.1681
ONDA
N. 7 3 19.4
Y 8.
9460
0
8 32 39.45
9.4907
N.14 5 45.3
7468
0
10 22 24.97
9.1637
N. 6 53 21.1
9483
1
8 35 4.52
9.4149
13 58 8.8
7.648
1
10 24 34.66
9.1599
6 43 21.4
10.006
2
8 37 29.24
9.4099
13 50 27.5
7.797
2
10 26 44.08
9.1547
6 33 20.4
10.097
3
8 39 53.62
9.4034
13 42 41.6
7.804
3
10 28 53.23
9.1503
6 23 18.2
10.047
4
8 42 17.65
94*76
13 34 51.1
7480
4
10 31 2.12
9.1461
6 13 14.8
10466
5
8 44 41.33
P4917
13 26 56.0
7.955
5
10 33 10.76
9.1419
6 3 10,3
10.084
6
8 47 4.66
94*59
13 18 56.5
8.098
6
10 35 19.15
9.1377
5 53 4.7
10.109
7
8 49 27.64
94*09
13 10 52.6
8.100
7
10 37 27.29
9.1336
5 42 58.1
10.118
8
8 51 50.28
94744
13 2 44.5
8.170
8
10 39 35.18
9.1995
5 32 50.5
10.134
9
8 54 12.57
94686
12 54 32.2
8439
9
10 41 42.83
9.1955
5 22 42.0
10.148
10
8 56 34.51
94698
12 46 15.8
8.307
10
10 43 50.24
9.1915
5 12 32.7
10.169
11
8 58 56.10
94570
12 37 55.3
8475
11
10 45 57.41
9.1176
5 2 22.6
10.175
12
9 1 17.35
94519
12 29 30.8
8.440
12
10 48 4.35
9.1137
4 52 11.7
10.187
13
9 3 38.25
94455
12 21 2.5
6404
13
10 50 11.06
9.1099
4 42 0.1
10.197
14
9 5 58.81
94398
12 12 30.4
8467
14
10 52 17.54
9.1061
4 31 48.0
10407
15
9 8 19.03
94349
12 3 54.5
8.699
15
10 54 23.79
9.1093
4 21 35.3
10416
16
9 10 38.91
9.3984
11 55 14.9
8.689
16
10 56 29.82
9.0987
4 11 22.1
10.994
17
9 12 58.44
94997
11 46 31.8
8.747
17
10 58 35.64
94959
4 1 8.4
10.939
18
9 15 17.63
94171
11 37 45.3
8.804
18
11 0 41.24
9.0916
3 50 54.3
10438
19
9 17 36.49
94115
11 28 55.3
6.861
19
11 2 46.63
9.0881
3 40 39.8
10.944
20
9 19 55.(U
9.3068
11 20 1.9
8417
20
11 4 51.81
9.0847
3 30 25.0
10.948
21
9 22 13.19
94009
11 11 5.3
8.970
21
11 6 56.79
9.0813
3 20 10.0
10.959
22
9 24 31.04
9.9947
11 2 5.5
9.093
22
11 9 1.56
9.0779
3 9 54.7
10.956
23
9 26 48.57
9.9893
10 53 2.5
9.076
23
11 11 614
9.0747
2 59 39.3
10468
24
9 29 5.76
9.9638
N.10 43 56.5
9.195
24
11 13 10.52
9.0714
N. 2 49 23.8
10459
206
DECEMBER, 1884.
VII.
•
GBEEMWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION,
%
Hour.
Right Afloension.
JHtr. for
1 Minute.
Declination.
Diff.for
1 Minute.
Hour.
Right Ascension.
Diff.for
1 Minute.
Declination.
Diff.for
1 Minute,
Tt
JBSDA
19.
THURSDAY 11.
h m 8
8
O I II
tt
h m e
O 1 II
//
0
11 13 10.52
20)714
N. 2 49 23.8
10.259
0
12 49 5537
1.9796
S. 5 10 45.8
9.491
1
11 15 14.71
3.0682
2 39 8.2
10.960
1
12 51 54.13
10*789
5 20 14.4
9.460
2
11 17 18.71
2.065*
2 28 52.6
10.959
2
12 53 52.84
1.9789
5 29 51.1
5 39 53
9.498
3
1 1 19 22.53
2.0622
2 18 37.1
10.958
3
12 55 51.51
1.9776
90)96
4
1 1 21 26.17
2.0592
2 8 21.6
10.957
4
12 57 50.15
1.9771
5 48 28.6
90)63
5
1 1 23 29.63
9.0509
1 58 6.2
100254
5
12 59 48.76
10)765
5 57 49.4
90*29
6
1 1 25 32.91
9.0533
1 47 51.1
100150
6
13 1 4733
10)760
6 7 8.1
9.995
7
11 27 36.02
9.0506
1 37 36.2
10.947
7
13 3 45.88
10)756
6 16 24.8
90261
8
1 1 29 38.97
9.0477
1 27 21.5
10.949
8
13 5 44.40
10)759
6 25 39.4
90295
9
11 31 41.75
9.0450
1 17 7.1
10.937
9
13 7 42.90
10)748
6 34 51.8
9.189
10
11 33 44.37
9.0493
1 6 53.1
10.930
10
13 9 41.38
10)745
6 44 2.1
9.153
11
1 1 35 46.83
9.0397
0 56 39.5
10.933
11
13 11 39.84
1.9743
6 53 10.2
9.116
12
11 37 49.13
9.0371
0 46 263
100216
12
13 13 38.29
10)741
7 2 16.1
90)79
13
1 1 39 51.28
9.0340
0 36 13.6
10.907
13
13 15 36.73
1.9738
7 11 19.7
9.041
14
11 41 53.28
9.0399
0 26 1.5
10.198
14
13 17 35.15
1.9736
7 20 21.0
9.003
15
11 43 55.14
2.0997
0 15 49.9
10.188
15
13 19 33.56
1.9735
7 29 20.0
6.964
16
11 45 56.85
9.0974
N. 0 5 38.9
10.177
16
13 21 3197
1.9735
7 38 16.7
8.994
17
11 47 58.43
9.0959
S. 0 4 31.4
10.165
17
13 23 3038
1.9734
7 47 10.9
8.883
18
11 49 59.87
9.0999
0 14 40.9
10.159
18
13 25 28.78
10)733
7 56 2.7
&649
19
11 52 1.18
9.0907
0 3,4 49.7
10.140
19
13 27 27.18
10)734
8 4 52.0
80309
20
11 54 2.36
9.0186
0 34 57.7
10.197
20
13 29 25.59
1.9735
8 13 38.9
8.761
21
11 56 3.41
9.0166
0 45 5.0
10.114
21
13 31 24.00
1.9736
8 22 23.3
8.718
22
11 58 4.34
9.0145
0 55 11.4
10.099
22
13 33 22.42
1.9737
'8 31 5.1
80375
23
12 0 5.15
WEI
90)195
)NESD
S. 1 5 16.8
►AY 10.
10.083
23
13 35 20.85
F]
10)739
BIDAI
S. 8 39 443
r 12.
80532
0
12 2 5.84
9.0106
S. 1 15 21.3
10.067
0
13 37 19.29
10)749
S. 8 48 20.9
60S86
1
12 4 6.42
9.0067
1 25 24.8
10.050
1
13 39 17.75
1.9744
8 56 54.9
80S44
2
12 6 6.89
9.0060
1 35 273
10.039
2
13 41 16.22
10)746
9 5 26.2
&499
3
12 8 7.25
9.0051
1 45 28.7
10.014
3
13 43 14.70
1.9748
9 13 54.8
8.454
4
12 10 7.50
9.0034
1 55 29.0
9.996
4
13 45 13.20
1.9759
9 22 20.7
8.408
5
12 12 7.66
9.0018
2 5 28.2
oom
5
13 47 11.73
1.9757
* 9 30 43.8
80)69
6
12 14 7.72
9.0009
2 15 26.2
9.957
6
13 49 10.28
10)761
9 39 4.1
80)15
7
12 16 7.68
1.9966
2 25 23.0
9.936
7
13 51 8.86
1.9765
9 47 21.6
8.966
8
12 18 7.55
1.9971
2 35 18.5
9.914
8
13 53 7.46
1.9769
9 55 363
8.931
9
12 20 7.33
1.9957
2 45 12.7
9.899
9
13 55 6.09
10)774
10 3 48.1
8.179
10
12 22 7.03
10)949
2 55 5.6
9.870
10
13 57 4.75
1.9779
10 11 57.0
6.193
11
12 24 6.64
1.9928
3 4 57.1
9.847
11
13 59 3.44
1.9785
10 20 2.9
8.073
12
12 26 6.17
1.9916
3 14 47.2
9.893
12
14 1 2.17
1.9791
10 28 5.8
8.093
13
12 28 5.62
1.9903
3 24 a5.9
9.799
13
14 3 0.93
1.9797
10 36 5.7
70273
14
12 30 5.00
1.9691
3 34 23.1
9.774
14
14 4 59.73
1.9803
10 44 2.6
70293
15
12 32 4:31
1.9879
3 44 8.8
9.748
15
14 6 58.57
1.9810
10 51 56.5
7.879
16
12 34 3.55
1.9666
3 53 52.9
9.793
16
14 8 57.45
1.9817
10 59 473
70)90
17
12 36 2.73
1.9657
4 3 35.4
9.695
17
14 10 56.37
10)894
11 7 35.0
7.768
18
12 38 1.85
1.9647
4 13 16.3
9.668
18
14 12 55.34
1.9839
11 15 19.5
7.716
19
12 40 0.90
1.9637
4 22 55.6
9.641
19
14 14 5435
10)839
11 23 0.9
7.663
20
12 41 59.90
1.9898
4 32 33.2
9.619
20
14 16 53.41
1.9847
11 30 39.0
7.609
21
12 43 58.84
1.9819
4 42 9.0
9.583
21
14 18 52.51
1.9854
11 38 13.9
7.555
22
12 45 57.73
1.9811
4 51 43.1
9.553
22
14 20 51.66
1.9663
11 45 45.6
7.500
23
12 47 56.57
1.9803
5 1 15.4
9.522
23
14 22 50.87
102879
11 53 13.9
7.444
24
12 49 55,37
1.9796
8. 5 10 45.8
9.491
24
14 24 50.13
10)681
S. 12 0 38.9
70)69
VIIL
DECEMBER, 1884.
207
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight
Diff.for
1 Minute.
Declnation.
Diff.for
1 Minute.
ilour.
Bight^ABoension.
Diff.for
1 Minute.
Declination.
Diff.for
1 Minute.
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
I
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
SATURDAY 13,
h m e
•
14 24 50.13
1.9881 |S.
14 26 49.44
l 14890 |
14 28 48.81
1.9899
14 30 48.23
14906
14 32 47.71
1.9917
14 34 47.24
1.9997
14 36 46.83
1.9937
14 38 46.48
14947
14 40 46.19
14967
14 42 45.97
1.9968
14 44 45.81
14978
14 46 45.71
• 1.9988
14 48 45.67
14999
14 50 45.70
94011
14 52 45.80
9.0009
14 54 45.96
9.0039
14 56 46.19
9.0043
14 58 46.49
9.0055
15 0 46.85
9.0066
15 2 47.28
9.0078
15 4 47.79
9.0091.
15 6 48.37
9.0109
15 8 49.01
94114
15 10 49.73
9.0196
S.
SUNDAY
15 12
15 14
15 16
15 18
15 20
15 22
15 24
15 26
15 28
15 31
15 33
15 35
15 37
15 39
15 41
15 43
15 45
15 47
15 49
15 51
15 53
15 55
15 57
15 59
16 1
50.52
9.0137
51.38
94149
52.31
94169
53.32
9.0174
54.40
94186
55.55
9.0198
56.77
9.0910
58.07
9.0999
59.44
9.0934
0.88
94947
2.40
94959
3.99
9.0979
5.66
9.0984
7.40
9.0996
9.21
9.0308
11.09
9.0390
13.05
94339
15.08
94344
17.18
94356
19.35
94368
21.60
94381
23.92
94393
26.31
94404
28.77
9.0415
31.29
24427
s.
0 38.9
8 0.6
15 18.9
22 33.8
29 45.3
36 53.3
43 57.8
50 58.8
57 56.3
4 50.2
3 11 40.5
3 18 27.2
3 25 10.3
3 31 49.7
3 38 25.4
3 44 57.3
51 25.4
57 49.8
4 10.4
10 27.1
16 40.0
22 49.0
28 54.0
34 55.1
4.
4
4
40 52,3
46 45.1)
52 34.6
58 19.7
4 0.7
9 37.7
15 10.6
20 39.3
26 3.8
31 24.2
36 40.4
41 52.3
47 0.0
3.4
2.5
57.3
47.7
52
57
1
6
6 11 33.8
6 16 15.5
6 20 52.8
6 25 25.6
6 29 54.0
6 34 18.0
6 38 37.4
16 42 52.3
7489
7433
7.977
7.990
7.169
7.104
7.046
6487
6.998
6.868
6408
6.748
6.687
6463
6400
6.438
6.375
6411
6447
6.169
6.117
6.051
5486
5490
5.853
5.785
5.717
5.650
5489
5413
5.443
5474
5405
5434
5.163
5.099
5.091
4.949
4.877
4.805
4.739
4.658
4484
4410
4.436
4.362
4.986
4.211
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
MONDAY 15.
h
16
16
16
16
16
16 11
16 13
16 15
16 17
16 19
16 22
16 24
16 26
16 28
16 30
16 32
16 34
16 36
16 38
16 40
16 42
16 44
16 46
16 48
16 50
16 52
16 54
16 57
16 59
31.29
33.89
36.56
39.29
42.09
44.96
47.89
50.89
53.95
57.08
0.27
3.52
6.84
10.22
13.65
17.14
20.69
24.30
27.96
31.68
35.45
39.27
43.14
47.06
94497
9.0439
94450
94461
94479
9.0483
9.0494
9.0505
2.0516
94597
24537
9.0548
2.0556
9.0567
9.0577
9.0587
2.0597
9.0606
94615
94694
2.0639
9.0641
9.0649
94656
5.16 42 52.3
16 47 2.7
\(y 51 8.5
16 55 9.8
16 59 6.5
17 2 58.6
17 6 46.1
17 10 28.9
17 14 7.1
17 17 40.6
17 21 9.4
17 24 33.5
17 27 52.8
17 31 7.4
17 34 17.2
17 37 22.3
17 40 22.6
17 43 18.1
17 46 8.7
17 48 54.5
17 51 a5.5
17 54 11.6
17 56 42.9
8.17 59 9.2
TUESDAY 16.
17
17
17
17
17
17
17 13
17 15
17 17
17 19
17 21
17 24
17 26
17 28
17 30
17 32
17 34
17 36
17 38
17 40
•51.03
55.05
59.11
3.22
7.37
11.56
15.80
20.08
24.39
28.74
33.12
37.54
41.99
46.47
50.98
55.52
0.09
4.68
9.30
13.94
18.60
23.28
27 97
32.<>8
37.40
9.0666
94673
9.0681
9.0688
9.0695
9.0703
9.0710
9.0716
9.0722
9.0727
2.0733
2.0739
9.0744
9.0749
94754
94759
9.0763
9.0766
9.0779
9.0775
9.0778
2.0*1
9.0783
9.0786
9.0787
S.18
18
18
18
18
306
47.1
58.7
M
7.0
3.7
1
3
5
8
10
18 42
18 13 55.5
18 15 42.3
18 17 24.1
18 19 0.9
18 20 32.7
18 21 59.5
18 23 21.2
18 24 37.9
18 25 49.6
18 26 56.2
18 27 57.8
18 28 54.3
18 29 45.8
18 30 32.2
18 31 13.5
18 31 49.7
18 32 20.8
18 32 46.9
S.18 33 7.9
4411
4.135
4.059
3463
3407
3.630
3.759
3475
3497
3419
3.441
3469
3.289
3403
3.194
3.045
9465
9.884
9.803
9.793
9449
9461
9.480
9498
9416
9.934
9.159
9.069
1.987
1.904
1.899
1.739
1.655
1472
1.488
1.404
1490
1437
1.153
1.068
0.964
0400
0.816
0.731
0.646
0461
0.477
0492
0.307
208
DECEMBER, 1884.
IX.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Bight Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
Hour.
Bight Ascension.
Diff. for
1 Minute.
Declination.
Diff for
1 Minute.
WEI
)NESD
AY 17.
FBIDAY 19.
k m •
8
Q 1 II
a
h m b
8
O 1 II
0
17 40 37.40
94787
S.18 33 7.9
0407
0
19 20 11.50
9.0611
S.17 10 57.2
3484
1
17 42 42.13
9.0790
18 33 23.8
0449
1
19 22 15.14
9.0609
17 7 13.8
3.769
2
17 44 46.88
9.0799
18 33 34.6
0.137
2
19 24 18.73
94594
17 3 25.7
3441
3
17 46 51.64
9.0794
18 33 40.3
-0.059
3
19 26 22.27
94565
16 59 32.9
3419
4
17 48 56.41
9.0795
18 33 40.9
+ 0.032
4
19 28 25.75
94576
16 55 35.4
3497
5
17 51 1.18
9.0796
18 33 36.4
0.117
5
19 30 29.18
94567
16 51 33.2
4.075
6
17 53 5.96
9.0797
18 33 26.9
0401
6
19 32 32.55
94557
16 47 26.4
4.159
7
17 55 10.74
9.0797
18 33 12.3
0486
7
19 34 35.87
94548
16 43 15.0
4499
8
17 57 15.52
9.0797
18 32 52.5
0479
8
19 36 39.13
9.0538
16 38 58.9
4407
9
17 59 20.31
9.0797
18 32 27.6
0.457
9
19 38 42.33
9.0598
16 34 38.2
4483
10
18 I 25.09
9.0797
18 31 57.6
0449
10
19 40 45.47
9.0519
16 30 13.0
4.458
11
18 3 29.87
94)797
18 31 22.5
0.697
11
19 42 48.56
94510
16 25 43.2
4434
12
18 5 34.65
9.0796
18 30 42.4
0.711
12
19 44 51.59
94500
16 21 8.9
4410
13
18 7 39.42
90)794
18 29 57.2
0.796
13
19 46 54.56
94490
16 16 30.0
4485
14
18 9 44.18
9.0793
18 29 6.9
0.881
14
19 48 57.47
94480
16 11 46.7
4.759
15
18 11 48.94
9.0799
18 28 11.5
0.966
15
19 51 0.32
9.0470
16 6 58.9
4.834
16
18 13 53.69
9.0790
18 27 11.0
1.051
16
19 53 3.11
9.0460
16 2 6.6
4408
17
18 15 58.42
9.0767
18 26 5.4
1.135
17
19 55 5.84
94450
15 57 9.9
4.969
18
18 18 3.13
9,0784
18 24 54.8
1419
18
19 57 8.51
94440
15 52 8.8
5.055
19
18 20 7A3
9.0769
18 23 39.1
1404
19
19 59 11.12
9.0430
15 47 3.3
5.198
20
18 22 12.51
9.0779
18 22 18.3
1488
20
20 1 13.67
94419
15 41 53.4
5409
21
18 24 17.18
94777
18 20 52.5
1.479
21
20 3 16.15
94409
15 36 39.1
5474
22
18 26 21.83
9*0773
18 19 21.7
1456
22
20 5 18.58
94400
15 31 20.5
5446
23
18 28 26.46
TH1
9.0769
S.18 17 45.8
LY 18.
1.640
23
20 7 20.95
SAG
94389
DURDi
S.15 25 57.6
LY 20.
5.417
0
18 30 31.06
94765
S.18 16- 4.9
1.793
0
20 9 23.25
94378
S.15 20 30.5
5.487
1
18 32 35.64
9.0769
18 14 19.0
1407
1
20 11 25.49
94368
15 14 59.1
5459
2
18 34 40.20
94756
18 12 28.0
1.891
2
20 13 27.67
94358
15 9 23.4
5430
3
18 36 44.73
94753
18 10 32.0
1.975
3
20 15 29.79
94348
15 3 43.5
5.700
4
18 38 49.23
94748
18 8 31.0
9458
4
20 17 31.85
9.0336
14 57 59.4
5.769
5
18 40 53.70
94743
18 6 25.0
9.149
5
20 19 33.85
9.0398
14 52 11.2
5.838
6
18 42 58.14
9.0738
18 4 14.0
9495
6
20 21 35.79
94318
14 46 18.9
5.907
7
18 45 2.55
94733
18 1 58.1
9407
7
20 23 37.67
9.0306
14 40 22.4
5476
8
18 47 6.93
9.0797
17 59 37.2
9490
8
20 25 39.49
9.0998
14 34 21.8
6.043
9
18 49 11.27
94790
17 57 1L3
9.479
9
20 27 41.24
94987
14 28 17.2
6.111
10
18 51 15.57
94714
17 54 40.5
9454
10
20 29 42.93
94977
14 22 8.5
6.178
11
18 53 19.84
94709
17 52 4.8
2.637
11
20 31 44.57
94968
14 15 55.8
'6445
12
18 55 24.08
94703
17 49 24.1
9.719
12
20 33 46.15
94958
14 9 39.1
6419
13
18 57 28.28
940696
17 46 38.5
9.801
13
20 35 47.67
9.0948
14 3 18.4
6477
14
18 59 32.43
94689
17 43 48.0
9.889
14
20 37 49.13
94939
13 56 53 8
6.449
15
19 1 36.54
94689
17 40 52.7
9463
15
20 39 50.54
94930
13 50 25.3
6407
10
19 3 40.61
94674
17 37 52.5
3.044
16
20 41 51.89
94990
13 43 52J)
6479
17
19 5 44.63
94666
17 34 47.4
3.195
17
20 43 53.18
9.0911
13 37 16.6
6.637
18
19 7 48.61
94659
17 31 37.5
3405
18
20 45 54.42
9.0909
13 30 36.5
6.700
19
19 9 52.54
9.0659
17 28 22.8
3.985
19
20 47 55.60
9.0193
13 23 52.6
6.763
50
19 11 56.43
94644
17 25 3.3
3468
20
20 49 56.73
94184
13 17 4.9
6.897
21
19 14 0.27
9.0637
17 21 38.9
3.446
21
20 51 57.81
9.0176
13 10 13.4
6.890
22
19 16 4.07
94698
17 18 9.8
3495
22
20 53 58.84
9.0167
13 3 18.1
6.959
23
19 18 7.81
9.0619
17 14 35.9
3405
23
20 55 59.81
94156
12 56 19.2
7.013
24
19 20 11.50
94611
S.17 10 57.2
3484
24
20 58 0.73
94149
S.12 49 16.6
7473
X.
DECEMBER, 1884.
209
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
floor.
Bight Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
Hour.
Bight Ascension.
Diff. for
1 Minute.
Declination..
Diff. for
1 Minute.
ST
JUDAl
r 2i.
TUESDAY 23.
h m s
s
O 1 II
//
b m s
8
~ ° «' «"
//
0
20 58 0.73
2.0149
S. 12 49 16.6
7.073
0
22 34 11.94
9.0043
S. 6 8 &5.4
9.424
1
21 0 1.G0
9.0141
12 42 10.4
7.134
1
22 36 12.22
9.0050
5 59 8.9
9.459
2
21 2 2.42
9.0133
12 35 0.5
7.195
2
22 38 12.54
9.0057
5 49 40.3
9.494
3
21 4 3.20
3.0196
12 27 47.0
7.954
3
22 40 12.90
9.0063
5 40 9.6
9.529
4
21 6 3.93
9.0118
12 20 30.0
7.313
4
22 42 13.30
9.0070
5 30 36.8
9.564
5
21 8 4.61
9.0110
12 13 9.4
7.379
5
22 44 13.74
9.0078
5 21 1.9
9.598
6
21 10 5.25
9J>103
12 5 45.3
7.431
6
22 46 14.23
9.0087
5 11 25.0
9.631
7
21 12 5.85
9.0096
11 58 17.7
7.488
7
22 48 14.78
9.0096
5 1 46.2
9.663
8
21 14 6.40
9.0088
11 50 46.7
7.546
8
22 50 15.38
2.0105
4 52 5.5
9.694
9
21 16 6.91
9.0089
11 43 12.2
7.603
9
22 52 16.04
9.0115
4 42 22.9
9.796
10
21 18 7.38
9.0075
11 35 34.3
7.659
10
22 54 16.76
9.0195
4 32 38.4
9.756
11
21 20 7.81
9.0069
11 27 53.1
7.715
11
22 56 17.54
9.0135
4 22 52.2
9.785
12
21 22 8.21
9.0063
11 20 8.5
7.771
12
22 58 18.38
9.0146
4 13 4.2
9.814
18
21 24 8.57
9.0057
11 12 20.6
7466
13
23 0 19.29
9.0158
4 3 14.5
9.843
14
21 26 8.90
9.0059
11 4 29.4
7.880
14
23 2 20.27
9.0170
3 53 23.0
9.879
i 15
21 28 9.19
9.0046
10 56 35.0
7.934
15
23 4 21.33
94)189
3 43 .29.8
9.900
16
21 30 9.45
9.0041
10 48 37.3
7.987
16
23 6 22.46
9.0195
3 33 35.0
9.996
17
21 32 9.68
9.0037
10 40 36.5
8.040
17
23 8 23.67
9.0909
3 23 38.7
9.953
18
21 34 9.89
9.0039
10 32 32.5
8.099
18
23 10 24.97
2.0293
3 13 40.8
9.977
19
21 36 10.07
9.0097
10 24 25.4
8.144
19
23 12 26.35
2.0237
3 3 41.4
10.009
20
21 38 10.22
94)093
10 16 15.2
8.196
20
23 14 27.82
2.0252
2 53 40.5
10.027
21
21 40 10.35
9.0090
10 8 1.8
8.948
21
23 16 29.38
2.0267
2 43 38.2
10.050
22
21 42 10.46
9.0017
9 59 45.4
&998
22
23 18 31.03
2.0983
2 33 34.5
10.072
23
21 44 10.55
M(
9.0013
)NDA1
S. 9 51 26.1
I 22.
84M7
23
23 20 32.78
WEI
2.0300
)NESD
S. 2 23 29.5
AY 24.
10.095
0
21 46 10.62
8.0011
S. 9 43 3.8
64*97
0
23 22 34.63
2.0317
S. 2 13 23.1
10.117
1
21 48 10.68
9.0008
9 34 38.5
8.446
1
23 24 36.58
2.0334
2 3 15.4
10.137
2
21 50 10.72
9.0005
9 26 10.3
8.494
2
23 26 38.64
9.0352
1 53 6.6
10.157
3
21 52 10.74
9.0003
9 17 39.2
8.549
3
23 28 40.81
2.0371
1 42 56.6
10.177
4
21 54 10.75
9.0009
9 9 5.3
8.589
4
23 30 43.09
2.0390
1 32 45.4
10.196
5
21 56 10.76
9.0001
9 0 28.5
8.636
5
23 32 45.49
2.0409
1 22 33.1
10.214
6
21 58 10.76
9.0000
8 51 48.9
8.689
6
23 34 48.00
9.0438
1 12 19.7
10.232
7
22 0 10.76
J. 9999
8 43 6.6
8.798
7
23 36 50.63
9.0448
1 2 5.3
10.948
8
22 2 10.75
1.9999
8 34 21.5
8.774
8
23 38 53.39
9.0470
0 51 49.9
10.964
9
22 4 10.74
1.9998
8 25 33.7
8.818
9
23 40 56.28
9.0492
0 41 33.6
10.279
10
22 6 10.72
1.9996
8 16 43.3
8.869
10
23 42 59.30
9.0514
0 31 16.4
10.994
11
22 8 10.71
1.9999
8 7 50.2
8.906
11
23 45 2.45
9.0536
0 20 58.3
10.309
12
22 10 10.71
9.0000
7 58 54.5
8.949
12
23 47 5.73
2.0559
0 10 39.3
10.322
13
22 12 10.71
9.0009
7 49 56.3
8.999
13
23 49 9.16
2.0583
S. 0 0 19.6
104)83
14
22 14 10.73
2.0004
7 40 55.5
9.034
14
23 51 12.73
2.0607
N. 0 10 0.7
10344
15
22 16 10.76
9.0006
7 31 52.2
9.075
15
23 53 16.45
2.0632
0 20 21.7
104)56
16
22 18 10.80
9.0008
7 22 46.5
9.116
16
23 55 20.32
2.0657
0 30 '43.4
104J66
17
22 20 10.86
9.0019
7 13 38.3
9.157
17
23 57 24.34
2.0683
0 41 5.6
104175
18
22 22 10.94
9.0015
7 4 27.7
9.197
18
23 59 28.52
2.0710
0 51 28.4
10.384
19
22 24 11.04
9.0018
6 55 14.7
9.936
19
0 1 32.86
2.0737
1 1 51.7
104392
20
22 26 11.16
9.0099
6 45 59.4
9.974
20
0 3 37.36
2.0764
1 12 15.4
104*99
21
22 28 11.31
9.0097
6 36 41.8
9.319
21
0 5 42.03
2.0799
1 22 39.5
10.405
22
22 30 11.49.
9.0039
6 27 21.9
9.350
22
0 7 46.87
9.0691
1 33 4.0
10.411
23
22 32 11.70
2.0037
6 17 59.8
9.387
23
0 9 51.88
9.0850
1 43 28.8
10.415
24
22 34 11.94
9.0043
S. 6 8 35.4
9.494
24
0 11 57.07
9.0880
N. 1 53 53.8
10.418J
14
210
DECEMBER, 1884.
XL
GREENWICH MEAN TIME.
THE MOON'S RIGITT ASCENSION AND DECLINATION.
ITour.
Right Ascension.
Diff.for
1 Minute.
Declination.
Diff. for
1 Minute.
Hour.
Right Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
THURSDAY 25.
SATUEDAY 27.
h m 8
ft
O 1 II
//
h m s
s
O 1 II
H 1
0
0 11 57.07
9.0680
N. 1 53 53.8
10.418
0
1 56 34.92
9.2904
N.10 0 52.2
9.477
1
0 14 2.44
3.0910
2 4 19.0
10.422
1
1 58 52.50
2.9957
10 10 19.4
9.430
2
0 16 7.99
2.0940
2 14 44.4
10.494
2
2 1 10.40
2.3009
10 19 43.8
9.389
3
0 18 13.72
9.0971
2 25 9.9
10.425
3
2 3 28.61
9.3062
10 29 5.3
9.333 j
4
0 20 19.64
9.1003
2 35 35.4
10.425
4
2 5 47.15
2.311?
10 38 23.8
9.283 ;
5
0 22 25.76
2.1036
2 46 0.9
10.425
5
2 8 6.01
9.3171
10 47 39.3
9.232 j
6
0 24 32.07
9.1068
2 56 26.4
10.424
6
2 10 25.20
9.3225
10 56 51.6
9.178
7
0 26 38.58
9.1109
2 6 51.8
10.422
7
2 12 44.71
9.3279
II 6 0.7
9.124
8
0 28 45.29
9.1136
3 17 17.0
10.419
8
2 15 4.55
9.3334
11 15 6.5
9.069
9
0 30 52.21
9.1170
3 27 42.0
10.415
9
2 17 24.72
9.3389
11 24 9.0
9.012
10
0 32 59.33
9.1905
3 38 6.8
10.410
10
2 19 45.22
2.3444
II 33 8.0
8.953
11
0 35 6.67
9.1941
3 48 31.2
10.404
11
2 22 6.05
9.3500
II 42 3.4
8.894
12
0 37 14.22
9.1977
3 58 55.3
10.398
12
2 24 27.22
9.3556
1 1 50 C5.3
8.834
13
0 39 21.99
9.1313
4 9 19.0
10.390
13
2 26 48.72
9.3619
1 1 59 43.5
8.772
14
0 41 29.98
9.1351
4 19 42.1
10.381
14
2 29 10.56
2.3667
12 8 27.9
8.708
15
0 43 38.20
9.1389
4 30 4.7
10.372
15
2 31 32.73
2J793
12 17 8.5
8.644
16
0 45 46.65
9.1427
4 40 26.7
10.363
16
2 33 55.24
2.3779
12 25 45.2
8.578
17
0 47 55.33
9.1465
4 50 48.1
10.151
17
2 36 18.08
2.3835
12 34 17.9
&510
18
0 50 4.2?.
9.1503
5 1 8.8
10.338
18
2 38 41.26
2.3899
12 42 46.4
8.441 |
19
0 52 13.37
9.1543
5 11 28.7
10.325
19
2 41 4.78
2.3948
12 51 10.8
8.379 ;
20
0 54 22.75
9.1584
5 21 47.8
10.311
20
2 43 28.64
9.4005
12 59 31.0
&301 '
21
0 56 32.38
9.1696
5 32 6.0
10.296
21
2 45 52.84
9.4062
13 7 46.9
8.228 |
22
0 58 42.26
9.1667
5 42 23.3
10.279
22
2 48 17.37
2.4116
13 15 58.4
8.153
23
1 0 52.39
2.1709
N. 5 52 39.5
10.269
23
2 50 42.25
2.4175
N.13 24 &3
8.078
FJ
KIDAS
: 26.
81
JNDA1
I 28.
0
1 3 2.77
9.1751
N. 6 2 54.7
10.944
0
2 53 7.47
9.4939
N.13 32 7.7
8.009
1
1 5 13.40
9.1793
6 13 8.8
10.225
1
2 55 33.03
9.4987
13 40 5.5
7.923
2
1 7 24.25)
9.1837
6 23 21.7
10.904
2
2 57 58.92
2.4343
13 47 58.5
7.843
3
1 9 35.44
9.1881
6 33 33.3
10.182
3
3 0 25.15
2.4400
13 55 46.7
7.763
4
1 11 46.86
9.1926
6 43 43.6
10.160
4
3 2 51.72
2.4458
14 3 30.0
7.C8I
5
1 13 58.55
9.1970
6 53 52.5
10.137
5
3 5 18.62
2.4519
14 11 8.4
7.597
6
I 16 10.50
2.9015
7 4 0.0
10.112
6
3 7 45.86
2.4568
14 18 41.7
7.512
7
1 18 22.73
2.9061
7 14 6.0
10.087
7
3 10 13.44
2.4624
J4 26 9.9
7.426
8
1 20 35.24
9.9107
7 24 10.4
10.060
8
3 12 41.35
2.4679
14 &3 32.8
7.337
9
1 22 48.02
9.9153
7 34 13.2
10.032
9
3 15 9.59
2.4735
14 40 50.4
7.248
10
1 25 1.08
9.2201
7 44 14.3
10.003
10
3 17 38.17
9.4791
14 48 2.6
7.158
11
1 27 14.43
9.9248
7 54 13.6
9.979
11
3 20 7.08
9.4845
14 55 9.4
7.067 j
12
1 29 28.06
2.9996
8 4 11.0
9.941
12
3 22 36.31
9.4899
15 2 10.7
6.974 1
13
1 31 41.98
9.9344
8 14 6.5
9.909
13'
3 25 5.87
2.4954
15 9 6.3
6.879 '
14
1 33 56.19
9.9393
8 24 0.1
9.877
14
3 27 35.76
2.5006
15 15 56.2
6.784 |
15
1 36 10.70
9.2449
8 33 51.7
9.842
15
3 30 5.97
2.5062
15 22 40.4
6.687 i
16
1 38 25.50
9.9499
8 43 41.2
9.806
\6
3 32 36.50
2.5115
15 29 18.7
6.589 1
17
1 40 40.61
9.9543
8 53 28.4
9.769
17
3 35 7.35
2.5168
15 35 51.1
6.4S0
18
1 42 56.02
9.2593
9 3 13.4
9.731
18
3 37 38.52
2.5221
15 42 17.5
6.369 1
19
1 45 11.73
2.2644
9 12 56.1
9.692
19
3 40 10.00
2.5973
15 48 37.8
6.287
20
1 47 27.75
2.9695
9 22 36.4
9.651
20
3 42 41.79
2.5324
15 54 51.9
6.IK1
21
1 49 44.07
9.2746
9 32 14.2
9.609
21
3 45 13.89
2.5375
16 0 59.7
6.078
1 22
1 52 0.70
9.9798
9 41 49.5
9.567
22
3 47 46/29
2.5426
16 7 1.2
5.97-2 ,
: 23
1 54 17.65
2.9851
9 51 22.2
9.523
23
3 50 19.00
2.5477
16 12 56.3
5.6G5 '
! 24
I 56 34.92
9.9904
N.10 0 52.2
9.477
24
3 52 52.01
2.5526
N.16 18 45.0
5.757 !
XIL
DECEMBER, 1884.
211
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Ascension.
Diff. for
1 Minute.
Declination.
I)iff.for
1 Minute.
Hour.
Right Ascension.
Diff. for
1 Minute.
Declination.
Diff. for
1 Minute.
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
II
12
13
14
15
16
17
18
19
20
21
22
23
24
MONDAY 29.
h m e
3 52 52.01
3 55 25.31
57 58.91
0 32.79
3 6.96
5 41.41
8 16.14
10 51.14
13 26.41
16 1.95
18 37.74
21 13.79
23 50.09
26 26.64
29 3.43
31 40.45
34 17.70
36 55.17
39 32.86
42 10.77
44 48.88
47 27.19
50 5.70
52 44.39
2.5526
2^575
2.5693
2.5671
2.5718
2.5765
2.5811
2.5*56
2.5901
2.5944
2.5987
2.6029
2.6071
2.6112
2.6151
2.6189
2.6227
2.6264
2.6300
2.6335
2.6369
2.6402
2.6433
2.6463
N.16
16
16
16
16
16
16
16
17
17
17
17
17
17
17
17
17
17
17
17
17
17
17
IN.17
18 45.0
24 27.1
30 2.6
35 31.4
40 53.4
46 8.6
51 16.9
56 18.2
1 12.5
5 59.7
10 39.7
15 12.5
19 38.0
23 56.1
28 6.8
32 10.0
36 5.7
39 53.8
43 34.2
47 6.9
50 31.8
5:* 49.0
56 58.3
59 59.7
TUESDAY 30.
55
58
0
3
6
8
11
13
16
19
22
24
27
30
32
35
38
5 40
5 43
46
48
51
54
56
59
23.26
9.6493
N.l
2.31
2.6522
1
41.53
2.6550
1
20.91
2.6577
1
0.45
2.6602
1
40.14
2.6627
lj
19.97
2.6651
1
59.94
2.6672
1
40.03
2.6692
1
20.24
2.6711
]
0.56
2.6730
1
41.00
2.6748
1
21.54
2.6765
1
2.18
2.6779
1
42.89
2.6791
1
23.67
2.6803
1
4.52
2.6814
1
45.44
9.6824
1
26.41
2.6832
1
7.43
2.6840
1
48.49
2.6846
1
29.58
2.6850
1
10.69
2.6852
1
51.81
9.6854
1
32.94
9.6855
N.l
2 53.1
5 38.5
8 15.9
10 45.2
13 6.4
15 19.4
17 24.3
19 21.0
21 9.4
18 22 49.4
18 24 21.1
18 25 44.5
18 26 59.6
18 28 6.3
18 29 4.5
18 29 54.3
18 30 35.7
18 31 8.6
18 31 &3.0
18 31 49.0
18 31 56.4
18 31 55.3
18 31 45.7
18 31 27.6
18 31 1.0
5.757
5.647
5.536
5.423
5.310
5.196
5.080
4.963
4.846
4.727
4.607
4.486
4.363
4.240
4.116
3.991
3.805
3.737
3.609
3.460
3.351
3.221
3.089
9.957
9.690
9.556
9.421
9.285
2.149
9.013
1.876
1.737
1.598
1.459
1.321
1.182
1.041
0.900
0.760
0.619
0.478
0.337
0.195
+ 0.053
- 0.089
0.231
0.372
0.514
WEDNESDAY 31.
0
1
2
3
4
5
6
7
8
9
10
II
12
13
14
15
16
17
18
19
20
21
22
23
h m s
s
5 59 32.94
2.6855
6 2 14.07
2.6855
6 4 55.20
2.6853
6 7 36.31
2.6850
6 10 17.40
2.6846
6 12 58.46
2.6839
6 15 39.47
2.6832
6 18 20.44
2.6824
6 21 1.36
2.6814
6 23 42.21
2.6803
6 26 22.99
2.6791
6 29 3.70
2.6778
6 31 44.33
2.6763
6 34 24.86
2.6747
6 37 5.29
2.6730
6 39 45.62
2.6712
6 42 25.83
2.6692
6 45 5.92
2.6671
6 47 45.88
2.6649
6 50 25.71
2.6626
6 53 5.39
2.6601
6 55 44.92
2.6576
6 58 24.30
2.6550
7 I 3.52
2.6522
N.l 8
18
18
18
18
18
18
18
18
18
16
18
18
18
18
18
18
18
17
17
17
17
17
N.17
31 1.0
30 25.9
29 42.3
28 50.2
27 49.6
26 40.6
25 23.1
23 57.2
22 22.8
20 40.0
18 48.8
16 49.3
14 41.4
12 25.2
10 0.7
28.0
47.0
57.9
0.6
55 55.2
52 41.7
49 20.2
45 50.7
42 13.2
7
4
1
59
0.514
d.656
0.797
0.939
1.080
1.221
1.362
1.502
1.643
1.783
1.922
2.062
2.201
2.339
2.477
2.614
2,751
2.887
3.023
3.158
3.292
3.425
3.558
3.690
THURSDAY, JANUARY 1, 1885.
0 | 7 3 42.56 I 2.6493 N.17 38 27.9 I 3.820
PHASES OF THE MOON.
O Full Moon .
<C l*ast Quarter .
# New Mood
3) First Quarter
O Full Moon .
d h m
2 6 59.6
8 23 30.4
17 1 24.5
25 1 21.1
31 17 26.2
d h
<C Perigee 2 14.6
<C Apogee 16 16.2
<C Perigee 31 3,9
212
DECEMBER, 1884.
XTTT.
GREENWICH MEAN TIME.
LUNAR DISTANCES.
i
0
P.L.
P.L.
P.L.
P.L.
It
1*
Name and Direction
Noon.
of
mh.
of
VP».
of
lXh.
of
of Object.
Difl.
Diff.
Dlff.
DlflT.
1
Fomalhaut
W.
Oil)
78 44 28
9430
O 1 II
80 27 20
9416
O I II
82 10 32
9404
O 1 it
83 54 1
9303
a Pcgasi
W.
G2 40 5
2979
64 26 46
2955
G6 13 52
9939
68 1 22
3995
Pollux
E.
60 55 47
8133
59 5 38
9198
57 15 22
9196
55 25 2
9194
Regulus
E.
96 50 41
9091
94 57 40
9019
93 4 24
9003
91 10 55
1995
Jupiter
E.
103 50 53
9039
101 58 20
9030
100 5 33
9091
98 12 32
9013
2
aPegasi
W.
77 328
9174
78 52 34
9169
80 41 48
9165
82 31 9
9161
a Arietis
W.
33 31 55
9971
35 18 37
9940
37 6 5
9914
38 54 12
9191
Pollux
E.
46 13 30
9141
44 23 33
9151
42 33 52
9164
40 44 30
9179
Regulus
E.
81 40 47
1968
79 46 22
1965
77 51 53
1963
75 57 20
19©
Jupiter
E.
88 44 41
1985
86 50 43
1981
84 56 39
1979
83 2 32
1978
3
a Arietis
W.
48 1 31
9197
49 51 49
9191
51 42 16
9117
53 32 49
9115
Regulus
E.
66 24 36
1968
64 30 12
1979
62 35 54
1977
60 41 44
1989
Jupiter
E.
73 31 50
1984
71 37 50
1987
69 43 55
1991
67 50 7
1997
4
a Arietis
W.
62 45 39
9196
64 35 59
9131
66 26 11
9138
68 16 12
9147
Aldebarun
W.
28 55 51
9010
30 49 10
9019
32 42 14
9099
34 35 3
9039
Saturn
VV.
16 12 49
9066
18 4 41
9059
19 56 44
9057
21 48 49
9060
Regulus
E.
51 13 31
9093
49 20 33
9034
47 27 52
9045
45 35 28
9057
Jupiter
E.
58 23 41
9036
56 31 3
9046
54 38 40
9057
52 46 34
9068
Spica
E.
104 44 14
9019
102 50 58
9021
100 57 57
9039
99 5 12
9049
5
a ArietiH
W.
77 22 46
9900
79 11 14
9919
80 59 23
9996
82 47 12
9941
Aldebaran
W.
43 54 44
9101
45 45 42
9115
47 36 18
9130
49 26 31
9145
Saturn
W.
31 7 10
9101
32 58 8
9119
34 48 49
9195
36 39 10
9136
Regulus
E.
36 18 36
9130
34 28 23
9148
32 38 37
9166
30 49 18
9185
Jupiter
E.
43 30 55
9137
41 40 53
9153
&> 51 14
9169
38 2 0
9187
Spica
E.
89 45 55
9105
87 55 4
9119
86 4 34
9134
84 14 27
9149
Venus
E.
105 54 42
9479
104 12 50
9487
102 31 19
9503
100 50 10
9590
6
Aldebaran
W.
58 31 45
9996
60 19 34
9943
62 6 58
9960
63 53 56
9977
Saturn
W.
45 45 36
9913
47 33 44
9999
49 21 28
9946
51 8 47
9909
Spica
E.
75 9 46
9931
73 22 4
9947
71 34 47
9965
69 47 56
9983
Venus
E.
92 30 21
9608
90 51 37
9697
89 13 19
9646
87 35 27
9666
Sun
E.
127 44 9
9564
126 4 24
9581
124 25 3
9599
122 46 7
9617
7
Aldebaran
W.
72 42 20
9367
74 26 42
9385
76 10 38
9403
77 54 8
9491
Saturn
W,
59 59 8
9350
61 43 55
9367
63 28 17
9386
65 12 13
9403
Pollux
W.
31 19 35
9705
32 56 8
9693
34 32 57
9686
36 9 56
9661
Spica
E.
61 0 16
9373
59 16 3
9399
57 32 17
9410
55 48 57
2490
Venus
E.
79 32 36
9764
77 57 21
9784
76 22 32
9804
74 48 9
9894
Sun
E.
114 37 43
9719
113 1 19
9731
111 25 20
9750
109 49 47
9770
8
Aldebaran
W.
86 25 15
9519
88 6 12
9599
89 46 45
9546
91 26 54
9563
Saturn
W.
73 45 34
9491
75 27 0
9509
77 8 1
9596
78 48 88
9543
Pollux
W.
44 15 8
9695
45 51 54
9703
47 28 30
9711
49 4 55
9720
Spica
E.
47 18 51
9591
45 38 7
9540
43 57 49
9558
42 17 56
9576
Venus
E.
67 2 40
9923
65 30 50
9949
63 59 25
9969
62 28 24
9961
Sun
E.
101 58 22
9866
100 25 19
9885
98 52 41
9905
97 20 28
9994
9
Aldebaran
W.
99 41 49
9647
101 19 40
9663
102 57 10
9679
104 34 18
9694
Saturn
W.
87 5 54
9696
88 44 14
9649
90 22 12
9657
91 59 50
9679
XIV.
DECEMBER, 1884.
213
GREENWICH MEAN TIME.
LUNAR DISTANCES.
5i
P.L.
P.L.
P.L.
P.L.
Name and Direction
Midnight
of
xv*.
of
xvmh.
of
xxi*.
of
1*
of Object.
Diff.
Diff.
>
Diff.
Diff.
1
Fomalhaut
W.
O / //
85 37 46
8384
O l II
87 21 44
9376
O / /'
89 5 53
9371
90 50 10
9066
a Pegaei
W.
69 49 13
9919
71 37 23
. 9900
73 25 50
9190
75 14 33
9189
Pollux
E.
53 34 39
9193
51 44 15
9195
49 53 54
2198
48 3 38
9134
llegulus
E.
89 17 13
1988
87 23 20
1989
85 29 17
1977
83 35 6
1979
Jupiter
E.
96 19 18
9006
94 25 53
1999
92 32 17
1994
90 38 33
1969
2
a Pegasi
a Arietis
W.
84 20 36
9159
86 10 6
9158
87 59 37
2159
89 49 6
9161
W.
40 42 53
9179
42 32 2
9157
44 21 34
2145
46 11 25
9135
Pollux
E.
38 55 31
9198
37 7 0
9991
35 19 4
9249
33 31 50
9283
Regulus
E.
74 2 46
1989
72 8 11
1969
70 13 37
1963
68 19 5
1965
Jupiter
E.
81 8 23
1977
79 14 13
1977
77 20 3
1979
75 25 55
1961
3
a Arietis
W.
55 23 25
9115
57 14 2
9115
59 4 38
2117
60 55 11
9190
Regulus
E.
58 47 42
1989
56 53 51
1996
55 0 11
9005
53 6 44
9014
Jupiter
E.
65 56 28
9003
64 258
9010
62 9 40
9018
60 16 34
9096
4
a Arietis
W.
70 6 0
9155
71 55 &5
9165
73 44 55
2176
75 33 59
9187
Aldebaran
W.
36 27 36
9051
38 19 51
9069
40 11 48
2075
42 3 26
9086
Saturn
W.
23 40 50
9084
25 32 44
9079
27 24 27
9081
29 15 56
9090
Regulus
E.
43 43 23
9070
41 51 38
9085
40 0 15
9099
38 9 14
2114
Jupiter
E.
50 54 46
9081
49 3 17
• 9094
47 12 8
2107
45 21 20
9199
Spica
E.
97 12 43
9053
95 20 32
9066
93 28 40
9078
91 37 7
9099
5
a Arietis
W.
84 34 39
9996
86 21 44
9971
88 8 26
2267
89 54 45
9304
Aldebaran
W.
51 16 21
9161
53 5 48
9176
54 54 52
2199
£6 43 31
9909
Saturn
W.
38 29 11
9159
40 18 51
9167
42 8 9
9189
^3 57 4
2197
Regulus
E.
29 0 28
9906
27 12 9
2998
25 24 23
9251
23 37 12
9278
Jupiter
E.
36 13 13
9905
34 21 53
9994
32 37 1
9943
30 49 38
2264
Spica
E.
82 24 43
9165
80 35 22
9180
78 46 25
9197
76 57 53
2214
Venus
E.
99 9 24
9637
97 29 2
9554
95 49 4
2572
94 9 30
2590
6
Aldebaran
W.
65 40 29
9995
67 26 36
9313
69 12 17
9331
70 57 32
2349
Saturn
W.
52 55 42
9*79
54 42 12
2997
56 28 16
9314
58 13 55
2339
Spica
E.
68 J 32
9301
66 15 34
9319
64 30 2
9337
62 44 56
2355
VENU8
E.
85 58 1
9684
84 21 0
9704
82 44 26
2724
81 8 18
2744
Sun
E.
121 7 35
9635
119 29 28
9655
117 51 47
2674
116 14 32
9693
7
Aldebaran
W.
79 37 13
9439
81 19 52
2458
83 2 5
9475
84 43 53
9494
Saturn
W
66 55 44
9491
68 38 49
9438
70 21 29
2456
72 3 44
2474
Pollux
Vr.
37 47 1
9680
39 24 8
9681
41 1 13
2684
42 38 14
2669
Spica
E.
54 6 4
9448
52 23 37
2466
50 41 36
2485
49 0 1
2502
Venus
E.
73 14 12
9844
71 40 41
9863
70 7 35
9683
68 34 55
9903
Sun
E.
108 14 40
9789
106 39 58
9808
105 5 41
2828
103 31 49
9846
1 8
Aldebaran
W.
93 6 40
9580
94 46 2
9598
96 25 0
2614
98 3 36
2631
1
Saturn
W.
80 28 51
9560
82 8 41
9577
83 48 8
9593
85 27 12
9610
Pollux
W.
50 41 8
9730
52 17 8
9741
53 52 54
9751
55 28 26
9763
Spicn
E.
40 38 28
9594
38 59 25
9612
37 20 46
2630
35 42 32
9648
Venus
E.
60 57 47
3000
59 27 34
3018
57 57 44
3037
56 28 17
3056
Sun
£.
95 48 39
9949
94 17 13
9960
92 46 10
2978
91 15 30
9996
9
Aldebaran
W.
106 11 6
2710
107 47 33
9725
109 23 40
2739
110 59 28
2753
Saturn
W.
93 37 7
9667
95 14 4
2702
96 50 41
9717
98 26 58
2732
214
DECEMBER, 1884.
XV.
GREENWICH MEAN TIME.
LUNAR DISTANCES.
9
P. L.
P. JL.
P.L.
P. L.
3 §
Name and Direction
Noon.
of
IIP*.
of
VP>
of
Kb
of
9
of Object.
Diff.
Diff.
Diff.
Diff.
Pollux
W.
57 3 43
9774
58 38 45
9785
60 13 32
9797
61° 48 4
9809
Spica
E.
34 4 42
9666
32 27 16
9684
30 50 14
9701
29 13 35
9719
Venus
E.
54 59 13
3073
53 30 31
3091
52 2 10
3109
50 34 11
3195
Sun
E.
89 45 12
3014
88 15 16
3031
86 45 42
3048
85 16 29
3065
10
Pollux
W.
69 36 49
3869
71 9 48
9880
72 42 32
9891
74 15 2
9903
Regulus
W.
32 46 38
0800
34 21 6
9811
35 55 20
9891
37 29 20
9833
Jupiter
W.
25 24 3
9839
26 57 49
3840
28 31 25
9848
30 4 50
9857
Vends
E.
43 19 17
3907
41 53 16
3999
40 27 33
3936
39 2 7
3959
Sun
E.
77 55 25
3145
76 28 10
3160
75 1 13
3175
73 34 34
3189 |
11
Pollux
W.
81 53 56
9958
83 25 2
9968
84 55 55
9978
86 26 35
9988 [
Regulus
W.
45 15-48
9885
46 48 2(i
9895
48 20 51
9905
49 53 4
9914
Jupiter
W.
37 49 0
9903
39 21 15
3913
40 53 18
9991
42 25 10
3931
Venus
E.
31 59 8
3319
30 35 18
3333
29 11 43
3344
27 48 22
3355
Sun
E.
66 25 27
3356
.65 0 24
3369
(i3 35 36
3981
62 11 2
3399
12
Pollux
VV.
93 56 56
3034
95 26 26
3043
96 55 45
3059
98 24 54
3060
Regulus
W.
57 31 15
9958
59 2 21
3965
60 33 17
3973
62 4 4
9980
Jupiter
W.
50 1 47
9970
51 32 37
9978
53 3 17
9985
54 a3 48
9999
Sun
E.
55 11 28
3346*
53 48 10
3356
52 25 3
3365
51 2 7
3375
13
Regulus
W.
69 35 50
3019
71 5 48
3018
72 35 39
3099
74 5 24
3098
Jupiter
W.
62 4 22
3099
63 34 7
3098
65 3 45
3033
66 33 17
3038
Spica
W.
16 10 20
3071
17 39 5
3065
19 7 57
3069
20 36 53
3061
Sun
ri .
44 10 4
3418
42 48 8
3496
41 26 21
3434
40 4 43
3443
14
Regulus
w.
81 32 37
3050
83 1 48
3053
84 30 55
3056
85 59 58
3060
Jupiter
w.
73 59 33
3058
75 28 34
3069
76 57 30
3065
78 26 22
3068
Spica
w.
28 I &3
3064
29 30 26
3066
30 59 17
3068
32 28 6
3069
Sun
E.
33 18 50
3489
31 58 6
3490
30 37 31
3499
29 17 6
3508
19
Sun
VV.
21 40 14
3543
22 59 51
3597
24 19 45
3514
25 39 54
3509
Fomalhaul
E.
49 36 3
3800
48 21 1
3839
47. 6 32
3868
45 52 40
3907
aPegasi
E.
62 37 50
3319
61 14 0
3394
59 50 16
3399
58 26 38
3335
20
Sun
W.
32 23 47
3450
&3 45 7
3441
35 6 37
3439
36 28 17
3493
Fomolhnut
E.
39 54 42
4180
38 45 57
4954
37 38 22
4339
36 32 5
4434
a Pegasi
E.
51 30 26
3376
50 7 42
3387
48 45 1 1
3400
47 22 54
3415
a Arietis
E.
93 58 49
3108
92 30 49
3103
91 2 43
3097
89 34 30
3091
i
21
Sun
W.
43 19 11
3378
44 41 53
3369
46 4 45
3359
47 27 48
3350
a Pegasi
E.
40 36 21
3590
39 16 19
3550
37 56 50
3585
36 37 59
3695
a Arietis
E.
82 11 43
3063
80 42 48
3056
79 13 45
3050
77 44 34
3044
22
Sun
W.
54 25 53
3999
55 50 .6
3968
57 14 32
3976
58 39 11
3965
a Anuria
E.
70 16 41
3010
68 46 41
3003
67 16 32
9997
65 46 15
9989
A 1 tie ha ran
r:>
102 58 19
9899
101 25 59
9890
99 53 27
9880
98 20 42
9870
23
Sun
w.
65 45 56
3904
67 12 1
3189
68 38 23
3176
70 5 1
3169
a \ • 1 1 1 Ha*
w,
44 37 41
3797
45 54 0
3666
47 11 23
3611
48 29 45
3559
a Arietis
E.
58 12 36
9954
56 41 26
9947
55 10 7
9941
53 38 40
9935
A Id i? baron
£.
90 a3 39
9815
88 59 30
2803
87 25 6
9799
85 50 27
9779
XVI.
DECEMBER, 1884.
215
GREENWICH MEAN TIME.
LUNAB DISTANCES.
Name and Direction
of Object.
Midnight
P.L.
of
Biff.
xv*.
P.L.
of
Diff.
xvnp».
P. L.
of
Diff.
XXI*.
P.L.
of
Diff.
9
Pollux
W.
63 22 20
9821
O I II
64 56 20
9633
66 30 5
9645
68 3 35
9857
Spica
E.
27 37 20
9737
26 1 29
9756
24 26 3
9774
22 51 1
9794
Venus
E.
49 6 32
3143
47 39 14
3159
46 12 16
3175
44 45 37
3101
Sun
E.
83 47 36
9083
82 19 4
3098
80 50 52
3114
79 22 59
3199
10
Pollux
W.
75 47 17
9914
77 19 18
9996
78 51 4
9936
80 22 37
9947
Regulus
W.
39 3 5
3844
40 36 36
9655
42 9 53
9865
43 42 57
9875
Jupiter
W.
31 38 4
9866
33 11 6
9876
34 43 56
9885
36 16 34
9894
Venus
E.
37 36 59
3966
36 12 8
3980
34 47 33
3993
33 23 13
3306
Sun
E.
72 8 12
3904
70 42 7
3917
69 16 18
3931
67 50 45
3943
11
Pollux
W.
87 57 3
3997
89 27 19
3007
90 57 23
3017
92 27 15
3096
Regulus
W.
51 25 5
9994
52 56 54
9939
54 28 32
9941
55 59 59
9950
Jupiter
VV.
43 56 50
9939
45 28 19
9947
46 59 38
9955
48 30 47
9969
Venus
E.
26 25 14
3367
25 2 20
3379
23 39 39
3389
22 17 10
3400
Sun
E.
60 46 41
3304
59 22 34
3315
57 58 40
3395
56 34 58
3336
12
Pollux
W.
99 53 53
3068
101 22 42
3076
102 51 21
3084
104 19 50
3091
Regulus
W.
63 34 42
9987
65 5 11
9993
66 35 32
3000
68 5 45
3008
Jupiter
-w.
56 4 11
9999
57 34 25
3005
59 4 31
3011
60 34 30
3017
Sun
E.
49 39 22
3364
48 16 47
3393
46 54 23
3409
45 32 9
3410
13
Regulus
W.
75 35 2
3033
77 4 34
3038
78 34 0
3049
80 3 21
3046
Jupiter
W.
68 2 '43
3043
69 32 3
3047
71 1 18
3051
72 30 28
3055
Spica
W.
22 5 50
3069
23 34 46
3069
25 3 42
3069
26 32 38
3063
Sun
E.
38 43 15
3451
37 21 56
3458
36 0 45
3466
34 39 43
3474
14
Regulus
W.
87 28 56
3063
88 57 51
3066
90 26 42
3069
91 55 30
3070
Jupiter
W.
79 55 11
3071
81 23 56
3073
82 52 38
3076
84 21 17
3078
Spica
W.
&3 56 53
3071
35 25 38
3073
36 54 21
3074
38 23 2
3076
Sun
E.
27 56 51
3518
26 36 47
3598
25 16 54
3540
23 57 14
3554
19
Sun
W.
27 0 16
3490
28 20 51
3480
29 41 38
, 3469
31 2 37
3459
Fomalhout
E.
44 39 27
3950
43 26 58
4000
42 15 18
4053
41 4 31
4113
a Pegasi
E.
57 3 7
3341
55 39 43
3349
54 16 28
3357
52 53 22
3365
20
Sun
W.
37 50 8
3414
39 12 9
3406
40 34 19
3398
41 56 40
3387
Fotnalhaut
E.
35 27 14
4540
34 23 57
4660
33 22 24
4798
32 22 46
4954
a Pegnsi
E.
46 0 54
3431
44 39 12
3449
43 17 51
3470
41 56 53
3493
a Arietis
E.
88 6 10
3087
86 37 44
3081
85 9 11
3075
83 40 31
3069
21
Sun
W.
48 51 2
3339
50 14 28
3330
51 38 5
3390
53 1 53
3310
a Pegasi
E.
35 19 52
3671
34 2 34
3794
32 46 12
3785
31 30 54
3856
a Arietis
E.
76 15 16
3038
74 45 50
3030
73 16 15
3094
71 46 32
3018
22
Sun
W.
60 4 4
3953
61 29 11
3S41
62 54 32
3999
64 20 7
3917
a Arietis
E.
64 15 49
9989
62 45 14
9975
61 14 30
9968
59 43 37
9969
Aldebaran
E.
96 47 45
9859
95 14 34
9849
93 41 10
9838
92 7 32
9897
23
Sun
W.
71 31 56
3148
72 59 8
3133
74 26 37
3119
75 54 24
3104
aAquilre
W.
49 49 4
3510
51 9 17
3464
52 30 21
3499
53 52 13
3381
a Arietis
E.
52 7 6
9999
50 35 24
9994
49 3 35
9919
47 31 40
9914
Aldebaran
E.
84 15 32
9766
82 40 20
9753
81 4 50
9740
79 29 3
9795
216
DECEMBER, 1884.
XVII.
gebenWich mean time.
LUNAR DISTANCES.
•
Name and Direction
Noon.
P.L.
of
IQh.
P.L.
of
VP>.
P.L.
of
I».
P.L.
of
is
of Object.
Diff.
Diff.
Diff.
Diff.
23
Saturn
E.
102 0 48
9795
100 26 13
9789
98 51 22
9770
97 16 15
9758
24
Sun
W.
77 22 29
3088
78 50 53
3073
80 19 36
3057
81 48 38
3041
a Aquilse
W.
55 14 51
3349
56 38 14
3304
58 2 21
3968
59 27 10
3935
a Arietis
E.
45 59 39
9910
44 27 33
9909
42 55 25
9908
41 23 16
9908
Aldebaran
E.
77 52 57
9719
76 16 2S
9698
74 39 50
9684
73 2 48
9669
Saturn
E.
89 16 27
9699
87 39 36
9878
86 2 26
9663
84 24 56
9648
25
Sun
W.
89 18 57
9956
90 50 5
9939
92 21 35
9990
93 53 28
9903
a Aquilee
W.
66 40 48
3089
68 9 19
3054
69 38 25
3097
71 8 4
3001
FomaJhaut
W.
37 27 0
3849
38 41 12
3744
39 57 13
3648
41 14 56
3561
Aldebaran
E.
64 52 30
9591
63 13 22
9574
61 33 52
9556
59 53 59
9549
Saturn
E.
76 12 23
9579
74 32 49
9556
72 52 53
9539
71 12 34
9593
Pollux
E.
107 56 35
9688
106 19 39
9670
104 42 19
9659
103 4 35
9635
26
Sun
W.
101 38 38
9811
103 12 51
9793
104 47 28
9774
106 22 30
9756
aAquilae
W.
78 44 5
9883
80 l(y 46
9869
81 49 54
9841
&3 23 29
9890
Fomalhaut
W.
48 5 18
3915
49 31 9
3160
50 58 6
3108
52 26 6
3060
Aldebaran
E.
51 28 47
9457
49 46 33
9439
48 3 54
9499
46 20 51
9405
Saturn
E.
62 45 16
9440
61 2 38
9493
59 19 36
9405
57 46 9
9389
Pollux
E.
94 49 51
9545
93 9 41
9597
91 29 6
9510
89 48 7
9499
27
Sun
W.
114 23 46
9663
116 1 15
9646
117 39 8
9698
119 17 25
9610
Fomalhaut
W.
60 0 4
9854
61 33 22
9818
63 7 26
9785
64 42 13
9753
a Pegasi
Aldebaran
W.
43 32 39
9776
45 7 38
9739
46 43 35
9690
48 20 28
9659
E.
37 39 21
9318
35 53 48
9301
34 7 50
9985
32 21 28
9968
Saturn
E.
48 52 50
9304
47 6 57
9989
45 20 41
9979
43 34 1
9956
Pollux
E.
81 17 6
9408
79 33 42
9391
77 49 55
9376
76 5 46
9360
28
Fomalhaut
W.
72 45 57
9618
74 24 28
9595
76 3 30
9579
77 43 3
9559
a Pegasi
W.
56 37 3
9489
58 18 32
9469
60 0 39
9436
61 43 22
9419
Saturn
E.
34 34 58
9183
32 46 5
9170
30 56 52
9158
29 7 21
9147
Pollux
E.
67 19 35
9990
65 33 21
9977
63 46 48
9966
61 59 58
9955
Regulus
E.
103 22 9
9193
101 33 31
9177
99 44 29
9169
97 55 4
9147
J UPITER
E.
110 54 28
9187
109 5 41
9171
107 16 30
9156
105 26 56
9141
29
Fomalhaut
W.
86 7 19
9468
87 49 17
9455
89 31 33
9443
91 14 6
9433
a Pegasi
W.
70 25 1
9310
72 10 46
9993
73 56 56
9977
75 43 29
9963
a Arietis
W.
27 10. 37
9559
28 50 28
9499
30 31 52
9436
32 14 36
9387
Pollux
E.
53 2 15
9915
51 14 10
9911
49 25 59
9909
47 37 45
9906
Regulus
E.
88 42 35
9080
86 51 5
9068
84 59 16
9057
83 7 10
9046
Jupiter
E.
96 13 36
9073
94 21 55
9061
92 29 55
9049
90 37 37
9039
30
a Pegasi
W.
84 41 1
9908
86 29 17
9900
88 17 44
9194
90 6 21
9188
a Arietis
W.
41 3 12
9990
42 51 10
9198
44 39 41
9178
46 28 42
9161
Pollux
E.
38 37 20
9939
36 49 51
9956
35 2 46
9977
33 16 12
9309
Regulus
E.
73 42 53
9003
71 49 23
1998
69 55 43
1991
68 1 54
1986
Jupiter
E.
81^12 16
1994
79 18 32
1987
77 24 38
1989
75 30 35
1977
31
a Arietis
W.
55 39 16
9103
57 30 10
9098
59 21 13
9099
61 12 24
9088
Regulus
E.
58 31 16
1974
56 37 0
1974
54 42 44
1974
52 48 29
1976
Jupiter
E.
65 58 43
1963
64 4 10
1963
62 9 37
1963
60 15 5
1965
Spica
E.
112 3 6
1968
110 8 41
1967
108 14 15
1967
106 19 49
1968
XVIII.
DECEMBER, 1884.
217
GREENWICH MEAN TIME.
•
LUNAR DISTANCES.
/
Name and Direction
of Object.
Midnight.
P.L.
of
Diff.
•
xv*.
P.L.
of
Diff.
xvm*
P.L.
of
Diff.
xxi*.
P.L.
of
Diff.
23
Saturn
E.
95 40 52
9745
9! 5 12
9739
92 29 15
8719
90 53 0
9705
24
Sun
W.
83 18 0
3035
84 47 42
3008
86 17 45
9990
87 48 10
9973
a Afjiiilre
W.
60 52 38
3909
62 18 45
3170
63 45 30
3140
, 65 12 51
3110
a Arietis
E.
39 51 7
9909
38 19 0
9913
36 46 58
9990
1 35 15 4
9930
Aldebaran
E.
71 25 26
9653
69 47 43
9638
68 9 40
9693
66 31 16
9607
Saturn
E.
82 47 6
9633
81 8 56
9618
79 30 26
9603
77 51 35
9568
25
Sun
W.
95 25 43
9885
96 58 21
9866
96 31 23
9848
100 4 49
9830
a Aquilee
W.
72 38 15
9977
74 8 57
9959.
75 40 10
9998
77 11 53
9905
Forrmlhutit
W.
42 34 13
34F0
43 54 59
3406
45 17 9
3338
46 40 37
3975
Aldebaran
E.
58 13 44
9595
56 33 5
9508
54 52 3
9491
53 10 37
9474
Saturn
E.
69 31 53
9507
67 50 49
9489
66 9 21
9473
64 27 30
9457
Pollux
E.
101 26 27
9617
99 47 55
9599
98 8 58
9581
96 29 37
9563
26
Sun
W.
107 57 56
9737
109 33 47
9719
111 10 2
9700
112 46 42
9689
a Aquile
W.
84 57 31
9800
86 31 59
9789
88 6 51
9763
89 42 7
9745
Fomalhaut
W.
53 55 5
3014
55 25 1
9970
56 55 51
9999
58 27 33
9891
,
Aldebaran
E.
44 37 23
9387
42 53 30
9370
41 9 12
9353
39 24 29
9335
Saturn
E.
55 52 18
9379
54 8 3
9355
52 23 23
9338
50 38 19
9391
Pollux
E.
88 6 43
9475
86 24 55
9456
84 42 43
9441
83 0 6
9494
27
Sun
W.
120 56 6
9593
122 35 10
9676
124 14 38
9559
125 54 29
9543
Fomalhaut
w.
66 17 42
9794
67 53 50
9695
69 30 36
9668
71 7 59
9649
a Pegasi
w.
49 58 13
9615
51 36 48
9581
53 16 9
9548
54 56 15
9518
Aldebaran
E.
30 34 41
9951
28 47 30
9935
26 59 55
9919
25 11 56
9904
Saturn
E.
41 46 57
9941
39 59 30
9996
38 11 41
9911
36 23 30
9197
Pollux
E.
74 21 14
9345
72 36 20
9331
70 51 5
9317
69 5 30
9303
28
Fomalhaut
W.
79 23 4
9533
81 3 32
9315
82 44 25
9498
84 25 41
9489
a Pegasi
W.
63 26 39
9389
65 10 29
9367
66 54 51
9347
68 39 42
9398
Saturn
E.
27 17 33
9136
25 27 29
9198
23 37 13
9199
21 46 47
9118
Pollux
E.
60 12 52
9945
58 25 31
9936
56 37 57
9928
54 50 11
9291
Regulus
E.
96 5 17
9133
94 15 8
91J8
92 24 37.
9105
90 33 46
9099
Jupiter
E.
103 36 59
S196
101 46 39
9119
99 55 58
9099
98 4 57
9086
29
Fomalhaut
W.
92 56 53
9494
94 39 53
9417
96 23 3
9411'
98 6 22
9407
a Pegasi
a Arietis
W.
77 30 23
9949
79 17 37
9937
81 5 9
9996
82 52 58
9916
W.
33 58 30
9344
35 43 26
9307
37 29 15
9974
39 15 52
9915
V
Pollux
E.
45 49 30
9909
44 1 16
9919
42 13 7
9918
40 25 7
9997
Regulus
E.
81 14 48
9036
79 22 10
9097
77 29 18
9018
75 36 12
9010
Jupiter
E.
88 45 3
9098
86 52 13
9019
84 59 8
9010
83 5 49
9001
30
a Pepsi
a Arietis
W.
91 55 6
9184
93 43 57
9189
95 32 52
9180
97 21 49
9180
W.
48 18 8
9146
50 7 57
9139
51 58 7
9191
53 48 34
9111
Pollux
E.
31 30 16
9335
29 45 8
9377
28 1 0
9499
26 18 7
9495
Regulus
E.
66 7 57
1981
64 13 53
1978
62 19 44
1975
60 25 31
1974
Jupiter
E.
73 36 24
1979
71 42 6
1968
69 47 42
1966
67 53 14
1964
31
a Arietis
W.
63 3 41
9086
64 55 1
9086
66 46 22
9067
68 37 43
9090
Regulus
E.
50 54 17
1979
49 0 10
1983
47 6 9
1987
45 12 15
1993
Jupiter
E.
58 20 35
1967
56 26 9
1970
54 31 48
1975
52 37 34
1980
Spica
E.
104 25 25
1970
102 31 4
1973
100 36 47
1977
98 42 36
1981
218
MERCURY, 1884.
GREENWICH MEAN TIME.
JANUARY.
Apparent
Kight
Ascension.
Noon.
Var.of
R.A:
fori
Hour.
Noon.
Apparent
Declination.
Noon.
Var. of
Decl.
fori
Hour.
Noon.
Meridian
Passage.
FEBRUARY.
Apparent
Kight
Ascension.
Noon.
Var.of
11. A.
fori
Hour.
Noon.
Apparent
Declination.
Noon,
Var.of
Decl.
fori
Hour.
Noon.
Meridian
Passage.
1
2
3
4
5
G
7
8
9
JO
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
h nf s
20 7 13.12
20 12 19.47
20 17 6.22
20 21 30.71
20 25 30.01
20 29 1.02
20 32 0.44
20 34 24.94
20 36 11.17
20 37 15.98
20 37 36.61
20 37 10.90
20 35 57.63
20 33 56.75
20 31 9.71
20 27 39.58
20 23 31.23
20 18 51.26
20 13 47.66
20 8 29.54
20 3 6.45
19 57 47.87
19 52 42.58
19 47 58.25
19 43 41.07
19 39 55.69
19 36 45.21
19 34 11.37
19 32 14.68
19 3054.77
19 30 10.54
19 30 0 36
+13.138
12.379
11.504
10.517
9.404
+ 8.157
6.772
5.246
3.584
+ 1.797
-0.094
2.058
4.0o0
6.014
7.885
- 9.591
11.058
12.218
13.017
13.425
-13.432
13.054
12.332
11.319
10.080
-8.681
7.181
5.636
4.091
2.578
- 1.122
+ 0.260
-21 46 16.0
21 21 44.5
20 56 37.6
20 31 8.4
20 5 31.9
-19 40 4.8
19 15 6.0
18 50 55.7
18 27 55.4
18 6 27.4
-17 46 53.9
17 29 35.5
17 14 50.7
17 2 55.2
16 53 59.1
-16 48 6.9
16 45 17.3
16 45 22.5
16 48 9.5
16 53 20.5
-17 0 34.7
17 9 30.0
17 19 44.7
17 30 58.2
17 42 51.7
-17 55 8.6
18 7 35.2
18 19 59.6
18 32 11.5
18 44 2.5
-18 55 25.1
-19 6 13.0
+60.40
62.13
63.35
63.98
63.95
+63.18
61.58
5Q.12
55.74
51.43
+46.22
40.18
33.43
26.12
18.52
+10.84
+ 3.35
-3.69
10.09
15.67
-20.35
24.10
26.98
29.02
30.32
-31.00
31.14
30.*2
30.12
29.08
-27.76
-26.20
h m
125.1
126.2
1 27.0
1 27.5
1 27.5
127.0
126.1
124.5
122.3
1 19.4
1 15.8
1 11.4
1 6.2
1 0.2
0 53.5
0 46.1
0 38.0
0 29.4
0 20.5
0 11.3
1 0 s.o
{23 M.8
23 43.9
23 35.2
23 27.0
23 19.4
23 12.3
23 5.8
22 59.9
22 54.6
22 49.9
2245.8
22 42.2
Day of the Month.
Semi diameter .
llor. Parallax .
—
—
1st.
6th.
nth.
16th.
21st.
26th.
ir
3.1
•S.6
4.1
4.7
5.0
11
4.9
8.3
9.4
10.9
12.5
13.4
12.9
81bL
4.5
11.8
h m s
19 30 0.36
19 30 22.33
19 31 14 42
19 32 34.45
19 34 20.27
19 36 29.82
19 39 1.15
19 41 52.40
19 45 1.88
19 48 27.91
19 52 9.11
19 56 4.12
20 0 11.72
20 4 30.81
20 9 0.38
20 13 39.52
20 18 27.41
20 23 2.1.31
20 28 26.51
20 33 36.39
20 38 52.40
20 44 14.07
20 49 40.92
20 55 12.53
21 0 48.55
21 6 28.63
21 12 12.49
21 17 59.85
21 23 50.50
21 29 44.24
2135 40.87
21 41 40.24
8
+ 0.260
1.558
2.768
3.887
4.918
+ 5.865
6.733
7.526
8.250
8.911
+ 9.513
10.062
10.563
11.020
11.438
+11.818
12.166
12.484
12.776
13.043
+13.289
1J.514
13.720
13.912
14.089
+14.251
14.402
14.543
14 676
14.800
+14.918
+15.030
-19 6 13.0
19 16 20.9
19 25 43.8
19 34 17.5
19 41 58.3
-19 48 42.8
19 54 28.0
19 59 11.3
20 2 50.4
20 5 23.4
-20 6 48.5
20 7 4.0
20 6 8.5
20 4 1.0
20 0 40.3
-19 56 5.5
19 50 16.0
19 43 11.2
19 34 50.2
19 25 12.8
-19 14 18.7
19 2 7.0
18 48 39.4
18 33 53.7
18 17 50.5
-18 0 29.6
1741 51.0
17 21 54.8
17 041.1
16 38 10.0
-16 14 21.4
-15 49 15.6
-26.20
24.42
22.46
20.33
18.05
-15.64
13.11
10.48
7.76
4.97
-2.11
+ 0.82
3.80
6.83
9.90
+13.00
16.13
19.28
22.46
25.65
+28 86
32.07
35 29
38.52
41.75
+44.99
48.22
51.46
54.68
57.91
+61.13
+64 35
h 1
2242.2
22 39.1
22 36.4
2231.3
22 32.5
22 31.0
2229.9
2229.1
2228.6
2228.3
22 28.3
22 28.5
2228.8
22 29.3
22 30.0
2230.9
2231.9
22 32.9
22 34.1
2235.5
2236.9
22 38.4
2240.0
2241.6
22 43.4
22 45.2
2247.0
22 48.9
2250.9
2252.9
22 54.9
22 57.0
Day of the Month.
Semidiameter . . . .
Horizontal Parallax .
5th.
4.0
10.6
10th.
3.6
9.6
15th.
3.3
8.9
20th.
25th.
8.2
2:9
7.8
Note.— The sign 4- indicates north declinations; the sign — indicates south declinations.
MERCURY, 1884.
219
GREENWICH MEAN TIME.
MARCH.
APRIL.
a
a
o
3
■3
$
Apparent
Right
Ascension.
Var. of
RA.
fori
Hour.
Apparent
Declination.
Var. of
Decl.
for 1
Hour.
Meridian
Passage
3
a
'■3
1
Apparent
Right
Ascension.
Var. of
It. A.
fori
Hour.
Apparent
Declination.
Var. of
Decl.
for I
Hour.
Meridian
Passage
Noon,
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
1
h m s
21 29 44.24
8
+14.800
-16 38 10.0
+ 57.91
h in
22 52.9
X
h m s
0 54 29.48
s
+18.505
O / it
+51 1.6
+141.47
h m
0 13.5
2
21 35 40.87
14.918
16 14 21.4
61.13
2251.9
2
1 1 54.92
18.612
5 57 42.7
141.89
0 17.0
3
21 41 40.24
15.030
15 49 15.6
64.35
.2257.0
3
1 9 22.70
16.699
6 54 29. 1
141.90
0 20.5
4
21 47 42.24
15.137
15 22 52.6
67.56
22 59.1
4
1 16 52/28
18.762
7 51 10.3
141.45
0 24.1
5
21 53 46.77
15.340
14 55 12.5
70.77
23 1.3
5
1 24 23.05
18.796
8 47 34.8
140.51
027.7
6
21 59 53.72
+15.339
-14 26 15.6
+ 73.97
23 3.5
6
1 31 54.23
+18.796
+ 9 43 30.6
+139.05
0 31.3
7
22 6 3.04
15.437
13 56 2.1
77.15
23 5.8
7
1 39 24.95
18.757
10 38 44.9
137.05
0 34.8
8
22 12 14.70
15.533
13 24 32.2
80.32
23 8.1
8
1 46 54.23
18.676
11 33 4.7
134.50
0 38.4
9
22 18 28.66
15.629
12 51 46.2
83.50
23 10.4
9
1 54 21.01
18.548
12 26 16.7
131.40
041.9
10
22 24 44.91
15.725
12 17 44.3
86.66
23 12.8
10
2 1 44.15
18.371
13 18 7.9
127.77
0 45.4
11
22 31 3.47
+15.822
-1 1 42 26.8
+ 89.80
23 15.2
11
2 9 242
+18.142
+14 8 25.5
+123.62
0 48.7
112
22 37 24.37
15 920
11 5 54.2
92.92
23 17.7
12
2 16 14.57
17.802
14 56 57.8
119.00
0 52.0
!l3
22 43 47.64
16.020
10 28 6.7
96.03
23 20.1
13
2 23 19.36
17.529
15 43 34.1
113.95
0 55.1
14
22 50 13.33
16.122
9 49 4.9
99.12
23 22.7
14
2 30 15.54
17.144
16 28 4.5
108.52
0 58.1
15
22 56 41.51
16.227
9 8 49.1
102.18
23 25.2
15
2 37 1.88
16.710
17 10 20.8
102.78
1 0.9
16
23 3 12.27
+16.335
- 8 27 20.2
+105.22
23 27.8
16
2 43 37.23
+16.228
+ 17 50 16.1
+ 96.78
1 3.6
17
23 9 45.68
16.448
7 44 38.9
108.22
23 30.5
17
2 50 0.46
15.701
18 27 44.8
90.58
1 6.0
18
23 16 21.84
16.566
7 0 45.9
111.18
23 33.2
18
2 56 10.53
15.132
19 2 42.8
8-1.24
1 8.2
19
23 23 0.86
16.687
6 15 42.3
114.10
23 35.9
19
3 2 6.46
14.523
19 35 7.3
77.79
1 10.2
!20
23 29 42.85
16.813
5 29 29.3
116.97
23 38.8
20
3 7 47.33
13.877
20 4 56.2
71.28
I 12.0
'21
23 36 27.93
+16.944
- 4 42 8.2
+119.78
23 41.7
21
3 13 12.27
+13.197
+20 32 8.6
+ 64.75
I 13.4
122
23 43 16.20
17.080
3 53 40.6
122.51
23 44.6
22
3 18 20.51
12.485
20 56 44.4
58.23
1 14.6
23
23 50 7.77
17.219
3 4 8.5
125.55 ! 33 47.6
23
3 23 11.29
11.743
21 18 43.9
51.74
1 15.5
24
23 57 2.75
17.3C3
2 13 34.1
127.70 23 50.6
24
3 27 43.94
10.973
21 38 8.2
45.29
1 16.1
25
0 4 1.23
17.510
122 0.1
130.12
23 53.7
25
3 31 57.80
10.178
21 54 58.4
38.90
1 16.3
26
0 11 3.2Q
+17.659
- 0 29 29.7
+132.39
23 56.9
26
3 35 52.29
+ 9.360
+22 9 16.0
+ 32.58
1 16.2
27
0 18 8.90
17.810
+ 0 23 53.4
134.50
27
3 39 26.89
8.520
22 21 2.6
26.32
1 15.9
28
0 25 18.14
17.960
1 18 4.9
136.42
0 0.0
28
34241.10
7.661
22 30 20.1
20.14
1 15.2
29
0 32 30.94
18.107
2 12 59.7
138.11
0 3.4
29
3 45 34.49
6.785
22 37 10.0
14.03
1 14.1
30
0 39 47.22
18.249
3 8 32.0
139.54
0 6.7
30
3 48 6.70
5.897
22 41 34.2
8.00
1 12.7
31
0 47 6.81
+18.382
+ 4 4 35.1
+140.67
0 10.1
31
3 50 17.47
+ 4.999
+22 43 34.6
+ 2.05
1 10.9
32
0 54 29.48
+18.505 1 + 51 1.6
+141.47
0 13.5
32
3 52 6.61
+ 4.095
+22 43 13.0
- 3.83
1 8.8
Day of tlio Month.
1st.
6th.
a
2.7
7.1
Uth.
2.6
6.8
16t
2.
6/
\x. 21st. i
> 2.5
7 6.6
26th.
aist.
D
ay of the Month.
5th.
10th.
15th.
20th.
26
th.
30th.
Semidiameter . .
H or. Parallax . .
//
2.8
-7.4
2.5
6.6
2.5
6.6
Se
midiameter . .
>r. Parallax . .
6.L
; 2.8
) 7.3
3.1
8.0
3.4
9.0
3.9
10.3
4.5
11.8
The sign 4* prefixed to the hourly change of declination indicates
Lions are decreasing. The sign — indicates that north declina
that north declinations are increasing and sout
Lions are decreasing and south declinations incr
ldeclina-
easing.
220
MERCURY, 1884.
GREENWICH MEAT* TIME.
MAT.
JUNE.
4
a
o
a
o
I
Apparent *
Right
Aacenaion.
Var.of
R.A.
for 1
Hour.
Apparent
Declination.
Var.of
Decl.
fori
Hour.
Meridian
Passage.
4
1
o
1
Aacenaion. .
Var.of
B.A.
fori
Hour.
Apparent
Declination.
Var.of
Decl.
fori
Hour.
Meridian
Fsasago.
Noon.
Noon.
Noon,
Nook.
Noon,
Noon.
Noon.
Noon,
1
h m a
3 50 17.47
8
+4.909
+22 43 34.6
+ 9.05
h m
1 10.9
1
h m s
3 25 43.38
8
+ 1.644
O l II
+14 43 40.5
it
-3.43
h ra
2241.2
2
3 52 6.61
4.095
22 43 13.0
-3.83
1 8.8
2
3 26 31.23
9.344
14 43 23.7
+ 9.01
2238.4
3
3 53 34.05
3.193
22 40 31.5
9.61
1 6.3
3
3 27 35.86
3.049
14 45 15.7
7.30
2235.8
4
3 54 39.87
9394
22 35 32.5
15.98
1 3.4
4
3 28 57.23
3.737
14 49 12.8
19.43
223:1.5
5
3 55 24.27
1.406
22 28 18.9
90.83
1 0.2
5
3 30 35.21
4.497
14 55 10.5
17.35
2231.4
6
3 55 47.64
40.549
+22 18 53.7
-96.94
0 56.7
6
3 32 29.69
+ 5.111
+15 3 3.8
+99.05
2229.6
7
3 55 50.52
-0.996
22 7 21.0
31.46
0 52.8
7
3 34 40.49
5.788
1512 47.1
96.59
2228.1
8
3 55 33.71
1.096
21 53 45.6
36.45
0 48.5
8
3 37 7.45
6.458
15 24 14.7
30.74
2226.9
0
3 54 58.19
1.854
21 38 13.5
41.17
0 44.0
9
3 39 50.41
7.191
15 37 20.4
34.69
2225.9
JO
3 54 5.18
9.554
21 20 51.9
45.56
0 39.2
10
3 42 49.22
7.778
15 51 57.8
36.38
2225.2J
1
11
3 52 56.10
-3.191
+21 1 49.4
-49.58
0 34.1
11
3 46 3.74
+ 8.431
+16 8 0.3
+41.79
1
2224.7
12
3 51 32.61
3.754
20 41 15.7
63.15
0 28.8
12
3 49 33.84
9.078
16 25 21.3
44.91
2224.5
13
3 49 56.56
4.936
20 19 22.5
56.19
023.3
13
3 53 19.43
9.791
16 43 53.8
47.74
2224.6
14
3 48 9.98
4.630
19 56 23.0
58.67
017.6
14
3 57 20.44
10.369
17 3 30.7
50 98
.2224.9
15
3 46 15.04
4.931
19 32 31.5
60.51
011.7
15
4 1 36.82
11.009
17 24 4.8
59 59
2225.5
16
3 44 14.05
-5.135
+19 8 3.8
-61.68
( 0 6.8
fa as. s
16
4 6 8.55
+11.649
+17 45 29.0
+54.45
2226.3
17
3 42 9.34
5.940
18 43 16.8
63.19
23 53.8
17
4 10 55.64
19.963
18 7 35.7
56.05
2227.4
18
3 40 3.29
5.947
1818 27.8
61.83
2347.8
18
4 15 58.13
19.995
18 30 17.0
57.33
2228.7
J9
3 37 58.24
5.158
17 53 54.5
60.89
23 41.8
19
4 21 16.05
13.569
18 53 24.9
58.97
2230.3
20
3 35 56.45
4.977
17 29 54.2
59.09
23 36.0
20
4 26 49.47
14.916
J9 16 51.0
58.85
2232.2
21
3 34 0.04
-4.710
+17 6 43.7
-56.67
23 30.2
21
4 32 38.44
+14.666
+19 40 26.7
+59.06
2234.3
22
3 32 10.99
4.364
16 44 39.1
53.61
23 24.6
22
4 38 43.05
15.518,
20 4 2.8
58.88
2236.7
23
3 30 31.11
3.948
16 23 55.0
49.97
23 19.2
23
4 45 3.33
16.173
20 27 30.0
58.30
22 39.3
24
3 29 2.01
3.468
16 4 44.4
45.89
23 14.0
24
4 51 39.31
16.896
20 50 38.2
57.30
2242.3
25
3 27 45.10
9.934
15 47 18.9
41.94
23 9.0
25
4 58 30.96
17.478
21 13 17.1
55.86
2245.4
26
3 26 41.56
-9.355
+15 31 47.9
-36.30
23 4.3
26
5 5 38.21
+18.195
+21 35 15.8
+53.96
2248.8
27
3 25 52.37
1.739
15 18 18.8
31.09
22 59.8
27
513 0.89
18.763
21 56 23.0
51.57
22 52.5
28
3 25 18.32
1.094
15 6 57.3
95.68
2255.5
28
5 20 38.75
19.368
22 16 27.0
48.68
22 56.6
29
3 25 0.02
-0.498
14 57 47.3
90.14
2251.5
29
5 28 31.39
19.995
22 3515.7
45.99
23 0.6
30
3 24 57.92
+0.954
14 50 51.0
14.55
22 47.9
30
6 36 38.31
90.577
22 52 37.1
41.40
23 5.0
31
3 25 12.31
40.946
+14 46 9.0
-8.96
2244.4
31
5 44 58.82
441.196
+23 819.0
+37.01
23 9.7
32
3 25 43.38
4-1.644
4-14 43 40.5
- 3.43
2241.2
32
5 53 32.06
491637
+23 22 9.5
+33.19
2314.5
Day of the Monti
ti.
6th.
10th.
15th. \
10th.
95th.
SOth.
Day of the Month.
4th.
9th.
14th.
19th.
24th.
99th.
Semidinmeter . .
11 or. Parallax . .
5.1
13.4
5.6
14.9
6.0
15.8
«
6.1
16.0
15.5
5.4
14.3
Semidiameter . .
Hor. Parallax . .
4ft
13.0
4.4
11.6
10.3
9.2
n
3.1
8.3
2.9
7.6
Not
B. — The aign -f indicates north declinations;
the aign — indicates south declinations.
MERCURY, 1884.
221
GREENWICH MEAN TIME.
JULY.
AUGUST.
t
Ascension.
Var.of
RA.
fori
Hour.
Apparent
Declination.
Var.of
Decl.
fori
Hoar.
Meridian
Passage.
4
§
•s
Apparent
Right
Ascension.
Var.of
R.A.
for 1
Hour.
Apparent
Declination.
Var.of
Decl.
fori
Hour.
Meridian
Passage.
Noon.
Noon,
Noon.
Noon.
Noon.
Noon.
Noon.
.Noon.
1 i
h m a
5 44 58.82
8
+21.126
+•23 819.0
+ 37.01
h m
23 9.7
i
h m 8
10 3 26.10
8
+15.089
+13 6 34.1
-101.53
h m
121.6
2
5 53 32.06
31.637
23 22 9.5
38.13
2314.5
2
10 9 37 79
15.306
12 25 50.0
103.14
123.8
3
6 217.03
93.101
23 33 57.1
86.77
23 19.5
3
10 15 40.86
14.951
1 1 44 52.8
103.59
125.9
4
6 11 12.48
33.510
23 43 31.3
31.01
23 24.6
4
10 21 35.50
14.604
11 3 46.9
109.88
127.9
5
6 20 17.03
99.859
23 50 42.5
14.86
2329.9
5
10 27 21.91
14.965
10 22 36.0
103.00
129.7
6
6 29 29.16
+93.141
+23 55 22.2
+ 8.40
23 35.3
6
10 33 0.26
+13.939
+ 9 41 24.0
-103.97
131.4
7
6 38 47.23
33.353
23 57 24 0
+ 1.71
2340.7
7
10 38 30.70
13.605
9 0 14.4
103.80
133.0
8
6 48 9.5!
93.493
23 56 43.0
- 5.15
23 46.2
8
10 43 53.35
13.363
8 19 10.6
109.49
134.4
9
6 57 34.24
93.556
23 53 16.2
13.09
2351.7
9
10 49 8.34
19 966
7 38 16.1
109.03
135.7
10
7 6 59.64
93.548
23 47 2.6
19.03
23 57.2
10
10 54 15.75
13.659
6 57 34.2
101.44
136.9
11
7 16 24.00
493.471
+23 38 3.2
-95.90
11
10 59 15.65
+19.340
+ 6 17 8.1
-100.79
137.9
I12
7 25 45.71
93.338
23 26 20.8
39.61
0 2.6
12
11 4 8.08
18.039
5 37 0.9
99.86
138.8
13
7 35 3.28
33.197
23 1 1 59.7
39.11
0 8.0
13
11 8 53.05
11.718
4 57 15.9
98.87
139.6
14
7 44 15.39
39.873
22 55 5.6
45.35
0 13.3
14
11 13 30.55
11.406
4 17 56.3
97.74
140.3
15
1
7 53 20.&2
33.573
22 35 45.2
51.98
0 18.4
15
11 18 0.51
11.090
3 39 5.5
96.47
140.9
16
8 2 18.59
+93.335
+22 14 6.4
-56 88
023.5
16
1122 22.86
+10.771
+ 30 46.7
-95.07
141.3
17
8 11 7.87
31.866
21 50 17.5
63.13
0 28.4
17
1126 37.49
10.440
2 23 3.5
93.51
141.6
18
8 19 47.99
31.473
21 24 27.2
67.00
033.1
18
1 1 30 44.24
10.114
1 45 59.4
91.80
141.7
10
8 28 18.43
31.069
20 56 44.3
71.51
0 37.7
19
1134 42.91
9.773
1 9 38.3
89.93
141.7
20
8 36 38.84
80.638
20 27 17.5
75.66
0 42.1
20
1138 33.26
9.491
+ 0 34 4.0
87.89
141.6
|21
8 44 48.96
+90.305
+19 5615.7
-79.44
0 46.3
21
1142 15.02
+ 9.056
- 0 0 39.2
-85.68
141.4
22
8 52 48.63
19.768
19 23 47.3
89.87
0 50.4
22
1145 47.84
8.678
0 34 26.9
03.97
141.0
23
9 0 37.61
19.330
18 50 0.6
85.97
054.3
23
1149 11.36
8.981
1 7 14.4
80.65
1 40.5
24
9 8 16.52
18.895
18 15 3.3
88.75
0 58.0
24
11 52 25.16
7.865
138 56.5
77.81
139.7
25
i
9 15 44.84
18.465
17 39 3.0
91.93
1 1.5
25
1155 28.73
7.438
2 9 27.6
74.74
138.8
1
26
9 23 2.90
+18.041
+17 2 6.5
-93.43
1 4.9
26
1158 21.51
+ 6.966
- 2 38 41.9
- 71.41
137.7
27
9 30 10.86
17.633
16 24 20.5
95.36
1 8.0
27
12 1 2.89
6.478
3 6 32.9
67.79
136.5
28
9 37 8.88
17.314
15 45 51.4
97.04
111.1
28
12 3 32.23
5.969
3 32 53.6
63.87
135.0
29
9 43 57.20
16.814
15 6 44.8
98.48
1 13.9
29
12 5 48.80
5.413
3 57 36.3
59.63
133.3
30
9 50 36.03
16.433
14 27 6.4
99.70
1 16.6
30
12 7 51.77
4.899
4 20 33.0
55.03
131.4
31
9 57 5.59
+16.041
+13 47 1.2
-100.71
1 19.2
31
12 9 40.32
+ 4.910
- 4 41 34.6
-50.04
129.2
'32
10 3 26.10
+15.669
+ 13 6 34.1
-101.59
121.6
32
1211 13.54
+ 3.559
- 5 0 31.4
-44.63 ( 126.9
Day of the Month.
4th.
9th.
14th. 1
9th.
94th.
#6
6.8
29th.
//
2.7
7.1
Di
Sei
Ho
ty of the Monti
1.
3d.
8th.
13th.
18th.
23d.
28th.
Sei
i-
nidiameter . .
r. Parallax . .
27
7.1
2.5
6.7
25
6.6
6.7
nidiameter .
r. Parallax .
2.8
7.4
//
2.9
7.8
3*1
8.2
8.8
is
9.5
3.9
10.3
|
Th<
ti
» sign -f prefixed to the hourly change of declination indicates that north declinations a
ons are dscreasing. The sign — indicates that north declinations are decreasing and
tre increasing and south declina-
louth declinations increasing.
S22
MERCtJUY, 1884.
GBEENWICH MEAN TIME.
SEPTEMBER.
OCTOBER.
Jd
1
O
1
Apparent
Right
Ascension.
Var. of
R.A.
fori
Hour.
Apparent
Declination.
Var. of
Decl.
fori
Hoar.
Meridian
Passage
1
&
Q
Apparent
Right
Ascension.
Var. of
R.A.
fori
Hour.
Apparent
Declination.
Var. of
Decl.
for I
Hour.
Meridian
Passage.
Noon.
Noon.
Noon.
Noon.
Noon,
Noon.
Noon.
Noon.
1
h m s
12 11 13.54
8
43.559
O I II
- 5 0 31.4
it
-44.63
h m
126.9
1
h m a
1130 35.89
8
+ 5.343
+ 3 56 55. 1
+ 5.37
h ni
22 46.6
2
12 12 30.48
3.853
5 17 13.0
38.77
124.2
2
1132 58.11
6.594
3 56 32.6
- 7.17
22 45.5
3
12 13 30.16
2.113
5 31 28.4
33.43
121.2
3
1135 51.62
7.848
3 51 14.8
19.31
22 44.9
4
12 14 11.58
1.333
5 43 5.7
35.59
118.0
4
1139 13.97
8.996
3 41 15.6
30.60
22 44.8
5
12 14 33.77
+0.511
5 51 52.6
18.33
114.4
5
1143 2.52
10.031
3 26 52.2
41.39
2245.0
6
12 14 35.80
-0.348
- 5 57 36.0
- 10.30
1 10.5
6
11 47 14.56
+10.953
+ 3 8 23.4
- 51.01
22 45.6
7
12 14 16.83
1.339
6 0 3.1
- 1.85
1 6.2
7
11 51 47.34
11.761
2 46 10.3
59.93
22 46.5
8
12 13 36.14
3.155
5 59 1.2
+ 7.11
1 1.6
8
1 1 56 38.22
13.461
2 20 34.2
67.93
22 47.6
0
12 12 33.25
3.088
5 54 18.2
16.55
0 56.6
9
12 1 44.67
13.061
1 51 56 7
75.04
22 49.0
10
12 11 7.93
4.099
5 45 43.4
36.41
051.2
10
12 7 4.38
13.568
1 20 39.1
81.38
22 50.6
11
12 9 20.32
-4.949
- 5 33 8.2
+ 36.57
0 45.5
11
12 12:35.24
+13.991
+ 0 47 1.9
-86.69
22 52.3
12
12 7 11.02
5.835
5 16 27.2
46.86
0 39.4
12
12 18 15.33
14.339
+ 0 11 24.2
91.33
22 54.2
13
12 4 41.19
6.649
4 55 39.5
57.09
0 33.0
13
1224 2.99
14.699
- 0 25 55.6
95.93
22 56.1
14
12 I 52.56
7.386
4 30 49.3
67.01
026.3
14
12 29 56.76
14.849
1 J40.9
98.44
22 58.2
15
11 58 47.58
8.007
4 2 7.7
76.33
019.3
15
12 35 55.42
15.030
1 44 36.1
101.07
23 0.3
16
1 1 55 29.37
-8.483
- 3 29 52.7
+ 84.73
012.1
16
12 41 57.90
+15.170
- 2 25 27.7
-103.15
23 2.4
17
1152 1.77
8.785
2 54 30.5
91.87
j 0 4.7
?» 57. S
17
12 48 3.34
15.378
3 7 3.1
104.73
23 4.6
18
11 48 29.26
8.889
2 16 35.5
97.43
23 49.8
18
12 54 11.02
15.358
3 49 11.0
105.87
23 6.8
19
1 1 41 50.82
8.777
1 36 49.3
101.09
23 42.5
19
13 0 20.35
15.416
4 31 41.6
106.63
23 9.0
20
11 4 1 29.78
8.438
0 55 59.7
109.68
23 35.3
20
13 6 30.86
15.457
5 14 25.9
-107.09
23 11.3
21
11 38 13.63
-7.870
- 0 14 59.0
+103.01
23 28.4
21
13 12 42.18
+15.485
- 5 57 16.2
107.19
2313.6
22
11 35 13.77
7.083
+ 0 25 18.7
99.09
23 21.8
22
13 18 54.04
15.503
6 40 5.3
106.94
23 15.8
23
11 32 35.26
6.094
1 4 0.1
94.00
23 15.7
23
13 25 6.23
15.513
7 22 47.4
106.53
23 18.1
24
11 30 22.65
4.939
1 40 14 8
86.90
23 10.0
24
13 31 18.60
15.517
8 5 17.1
105.90
23 20.3
25
11 28 39.80
3.631
2 13 16.9
78.03
23 4.9
25
13 37 31.05
15.530
8 47 29.3
105.08
23 22.6
26
1127 29.73
-8.903
+ 2 42 27.7
+ 67.67
23 0.4
26
13 43 43.53
+15.591
- 9 29 19.9
-104.10
23 24.9
27
11 26 54.61
-0.715
3 7 16.0
56.19
22 56.4
27
13 49 56.03
15.591
10 10 45.0
109.97
23 27.2
28
1 1 26 55.66
+0.806
3 27 18.5
43.93
22 53.1
28
13 56 8.55
15.533
10 51 41.5
10171
23 29.4
29
11 27 33.28
3.336
3 42 20.0
31.16
2250.3
29
14 2 21.12
15.535
11 32 6.2
100.33
23 31.7
30
11 28 47.06
3.814
3 52 12.5
18.33
22 48.2
30
14 8 33.79
15.531
12 1 1 56.3
98.84
23 34.0
31
1130 35.89
+5.943
+ 3 56 55.1
+ 5.37
2246.6
31
14 14 46.63
+15.539
-12 51 9.5
-97.35
23 36.3
32
11 32 58.11
+6.594
+ 3 56 32.6
- 7.17
2245.5
32
14 20 59.71
+15.551
-13 29 43.4
- 95.57
23 38.5
Day of the Month.
2d.
7th.
13th.
17th.
33d.
37th.
Day of the Month.
3d.
7th.
12th.
17tb.
22d.
27 th.
Seinidiameter . .
Hor. Parallax . .
n
4.3
11.3
n
4.7
12.4
5:0
13.3
5.2
13.7
5-0
13.1
4.4
11.7
Semidiameter . . .
Horizontal Parallax
3.8
10.0
3.3
8.6
7.7
2.6
7.0
2.5
6.6
#4
6.4
Not
1
•
•B.— The sign -f indicates north declinations; the sign — indicates south declinations.
MERCURY, 1884.
223
GKEElirWICH MEAtf TIME.
NOVEMBER
DECEMBER.
1
I
Apparent
Right
Ascension.
Var. of
It. A.
for 1
Hoar.
Apparent
Declination.
Var. of
DccL
fori
Hoar.
Moridinu
Passage.
3
1
o
1
Apparent
Right
Ascension.
Vor.of
11. A.
fori
Hoar.
Apparent
Decimation.
Var. of
Decl.
for 1
Hoar.
Meridian
P&ssngo.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
1
h m s
14 20 59.71
s
+15.551
-13 29 43.4
it
-95.57
h m
23 38.5
1
h m s
17 34 34.89
s
+16.600
-25 3212.5
-16.00
h in
051.7
2
14 27 13.12
15.566
14 7 36.1
93.81
23 40.8
2
17 41 12.81
16.557
25 37 54.1
19.46
0 54.4
3
14 33 26.94
15.585
14 44 45.7
91.97
2343.1
3
17 47 49.48
16.496 25 42 10.3
8.88
0 57.1
4
14 39 41.26
15.608
15 21 10.3
90.06
23 45.4
4
17 54 24.43
16.413
25 45 0.1
596
0 59.7
5
14 45 56.18
15.635
15 56 48.2
88.08
23 47.8
5
18 0 57.12
16.307
25 46 22.6
- 1.69
1 2.3
6
14 52 11.80
+15.666
-16 31 37.9
-86.04
23 50.1
6
18 7 26.93
+16.173
-25 46 17.4
+ 9.05
1 4.9
7
14 58 28.19
15.701
17 5 37.8
83.94
23 52.4
7
18 13 53.17
16.008
25 44 44.0
5.73
1 7.4
8
15 4 45.46
15.739
17 38 46.5
81 78
23 54 8
8
18 20 15.04
15.808
25 41 42.5
9.39
1 9.8
9
15 11 3.68
15.780
18 11 2.6
79.56
23 57.2
9
18 26 31.65
15.569
25 37 13.2
13.05
1 12.1
10
15 17 22.93
15.894
18 42 24.7
77.97
23<59.6
10
18 32 41.99
15.284
25 31 16.5
'16.67
1 14.3
11
15 23 43.26
+15.871
-19 12 51.2
-74.93
11
18 38 44.89
+14.948
-25 23 53.6
+90.93
1 16.4
12
15 30 4.77
15.981
19 42 20.9
79.54
0 2.0
12
18 44 39.04
14.555
25 15 6.3
93.70
I 18.4
13
15 36 27.52
15.973
20 10 52.6
70.09
0 4.4
13
18 50 22.98
14.096
25 4 56.9
97.06
120.2
14
15 42 51.54
16.097
20 38 24.8
67.58
0 6.9
14
18 55 55.04
13.563
24 53 2H.4
30.98
121.8
15
15 49 16.86
16.089
21 4 56.1
65.09
0 9.4
15
19 I 13.32
19.946
24 40 44.8
33.39
123.1
16
15 55 43.51
+16.139
-2130 25.1
-69.40
011.9
16
19 6 15.71
+19.936
-24 26 50.8
+36.14
124.2
17
16 211.52
16.196
21 54 50.6
59.79
0 14.4
17
19 10 59.83
11.499
24 1 1 52.4
38.68
1 25.0
18
16 8 40.87
16.959
2218 11.0
56.98
017.0
18
19 15 23.07
10.494
23 55 56.8
40.90
1 25.4
19
1615 11.58
16.307
22 40 25.0
54.18
0 19.6
19
19 19 22.52
9.439
23 39 12.3
49.74
1 25.4
80
16 21 43.61
16.361
23 131.2
51.39
0 22.2
20
19 22 55.04
8948
23 21 48.5
44.16
125.0
21
16 2816.89
+16.419
-23 2128.1
-48.41
024.8
21
19 25 57.24
+ 6.910
-23 3 56.4
+45.08
124.0
22
16 34 51.37
16.461
23 40 14.3
45.43
0 27.4
22
19 28 25 53
5.491
22 45 48.2
45.50
1 22.5
23
16 4126.97
16.506
23 57 48.4
49.39
0 30.1
23
19 30 16.24
3.779
22 27 37.1
45.33
120.4
24
16 48 3.60
16.546
24 14 8.9
39.30
032.7
24
19 31 25.76
1.991
22 9 37.1
44.57
1 17.6
25
16 5441.14
16.580
24 29 14.3
36.14
0 35.4
25
19 31 50.72
+ 0.069
21 52 2.4
43.99
1 14.0
26
17 1 19.44
+16.608
-24 43 3.3
-39.93
038.1
26
19 3128.27
- 1.956
-21 35 7.2
+41.99
1 9.7
27
17 7 58.31
16.699
24 55 34.4
99.65
0 40.8
27
19 30 16.33
4.047
21 19 4.5
38.85
1 4.6
28
17 14 37 55
16.640
25 6 46.2
96.39
0 43.5
28
19 28 13.98
6.145
21 4 6.2'
35.95
0 58.6
29
17 21 16.92
16.640
25 16 37.3
99.93
0 46.3
29
19 25 21.89
8.179
20 50 21.9
39.70
0 51.8
30
17 27 56.14
16.697
25 25 6.5
19.49
0 49.0
30
19 2142.59
10.065
20 37 58.8
99.90
0 44.2
31
17 34 34.89
+16.600
-25 3212.5
-16.00
0 51.7
31
19 17 20.68
-11.713
-20 27 1.6
+95.55
0 35.9
32
17 41 12.81
+16.557
-25 37 54.1
-19.46
0 54.4
32
19 12 22.92
-13.041
-20 17 32.8
+21.85
0 27.0
Day of the Month.
1st.
6th.
11th.
16th.
91st.
26th.
Day of the Month.
1st
6th.
Uth.
16tl
33
8.1
l. 91st. *J
n
I 3.7
> 9.7 1
►6th.
//
4.2
1.2
81st.
//
4.8
12.7
Semidiameter . .
Hor. Parallax . .
*3
6.2
2.3
6.1
2.3
6.1
2.3
6.2
2.4
6.3
#4
6.5
Se
He
midiameter . .
r. Parallax . .
2?5
6.8
2.7
7.2
2%
7.7
The sign +• prefixed to the hourly change of declination indicates
tions ar 3 decreasing. The sign — indicated that north declinat
that north declinations are increasing and south doclina-
ions are decreasing and south declinations increasing.
224
VENUS, 1884.
GEEENWIOH MEAN TIME,
JANUARY.
FEBRUARY.
4
I
o
*
1
Apparent
Right
Ascension.
Var.of
B.A.
fori
Hoar.
Apparent
Declination.
Var. of
Dec!,
fori
Hour.
Meridian
Passage.
i
Apparent
Right
Ascension.
Var.of
K.A.
fori
Hour.
Apparent
Declination.
Var. of
Decl.
fori
Hour.
Meridian
Fftesage.
Noon*
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
h m s
20 34 3.50
s
+19.668
-20 2733.4
n
+45.07
h m
151.9
l
h m s
23 3 18.98
8
+11.995
-7 28 52.1
+75.33
h m
218.9
2
20 39 12.18
19.833
20 9 14.4
46.53
153.1
2
23 7 49.63
11.960
6 58 38.8
75.78
219.5
3
20 44 19.52
19.777
19 50 20.8
47.95
154.3
3
23 12 19.45
11.997
6 28 15.1
76.90
220.0
4
20 49 25.50
19.790
19 30 53.3
48.34
155.4
4
23 16 48.46
11.185
5 57 41.7
76.59
220.6
5
20 54 30.11
19.063
19 10 52.7
50.70
156.5
5
23 21 16.71
11.163
5 26 59.3
76.85
221.1
6
20 59 33.33
+19.606
-18 50 19.8
+59.03
157.6
6
23 25 44.22
+11.133
-4 56 8.8
+77.97
221.6
7
21 4 35.16
19.548
18 29 15.3
53.33
158.7
7
23 30 11.03
11.104
4 25 10.8
77.56
222.1
8
21 9 35.59
19.480
18 7 39.9
54.60
159.8
8
23 34 37.18
11.077
3 54 6.1
77.88
222.6
9
21 14 34.63
19.439
17 45 34.4
55.84
2 0.9
9
23 3a 2.71
11059
3 22 55.5
78.05
223.1
10
21 19 32.27
19.374
17 22 59.6
57.05
2 1.9
10
23 43 27.66
11.098
2 51 39.7
78.95
223.6
11
21 24 28.53
+19.316
-16 59 56.2
+58.93
2 2.9
11
23 47 52.07
+11.006
-2 20 19.5
+78.49
224.1
12
21 29 23.40
19.958
16 36 25.0
58.37
2 3.9
12
23 52 15.97
10.986
1 48 55.5
78.56
224.6
13
21 34 16.90
19.901
16 12 26.8
60.48
2 4.9
13
23 56 39.41
10.866
1 17 28.4
78.67
225.0
14
21 39 9.03
19.144
15 48 2.4
61.56
2 5.8
14
0 1 2.43
10.851
0 45 59.0
78.76
225.5
15
21 43 59.82
19.088
15 23 12.6
69.60
2 6.7
15
0 5 25.07
10.996
-0 14 28.1
78.81
225.9
16
21 48 49.28
+19.033
-14 67 58.0
+63.61
2 7.5
16
0 9 47.38
+10.893
+0 17 3.7
+78.83
226.3
17
21 53 37.44
11.879
14 32 19.5
64.58
2 8.4
17
0 14 9.39
10.919
0 48 35.6
78.89
226.7
18
21 58 24.30
11.995
14 6 17.9
65.54
2 9.2
18
0 1831.15
10.809
120 7.0
78.79
227.2
19
22 3 9.90
11.873
13 39 53.9
66.45
210.0
19
0 22 52.70
10.884
1 51 37.2
78.73
227.6
20
22 7 54.25
11.899
13 13 8.4
67.33
210.8
20
0 27 14.07
10.887
2 23 5.4
78.63
228.0
■21
22 12 37.38
+11.779
-12 46 2.2
+68.18
211.6
21
0 31 35.30
+10.889
+2 54 30.9
+78.50
228.4
22
22 17 19.31
11.793
12 18 36.1
68.00
212.3
22
0 35 56.43
10.878
3 25 52.9
78.34
228.8
23
22 22 0.07
11.675
1 1 50 50.8
69.78
2 13.1
23
0 40 17.49
10.877
3 57 10.8
78.15
229.2
:24
22 26 39.69
11.696
11 22 47.1
70.53
2 13.8
24
0 44 38.52
10.877
4 28 23.8
77.83
229.6
!25
22 31 18.20
11.589
10 54 25.9
71.94
214.5
25
0 48 59.56
10.878
4 59 31.3
77.68
230.0
26
22 35 55.62
+11.537
-10 25 47.9
+71.99
215.2
26
0 53 20.64
+10.880
+5 30 32.5
+77.41
2 30.4
27
22 40 31.99
11.493
9 56 53.9
79.57
215.9
27
0 57 41.79
10.884
6 126.8
77.10
230.8
28
22 45 7.32
11.451
9 27 44.8
73.19
216.5
28
1 2 3.04
10.888
6 32 13.4
76.76
231.2
29
22 49 41.66
11.410
8 58 21.3
73.77
217.1
29
1 6 24.42
10.885
7 2 51.5
76.38
231.6
30
22 54 15.02
11.370
8 28 44.1
74.39
217.7
30
1 10 45.96
10.809
7 33 20.4
76.00
232.0
31
22 58 47.45
+11.339
- 7 58 54.1
+74.84
218.3
31
1 15 7.70
+10.810
+8 3 39.4
+75.58
2 32.4
32
23 3 18.98
+11.985
- 7 28 52.1
+75.33
2.18.9
32
1 19 29.65
+10.890
+8 33 47.8
+75.19
232.8
Day of the Month.
1st
6th.
Uth.
16th
u aisL'i
6th.
31st.
Day of the Month.
5th.
10th.
15th.
90th.
95th.
Semidiameter . .
Hor. Parallax . .
5.8
6.0
H
5.8
6.1
5.9
6.1
6.1
6.2
\ 6.1
\ 6.3
6.5
6.4
6.6
Semidiameter
Horizontal Parallax . .
6.5
6.7
6.9
£8
7.0
<?.9
7.2
7J
7.4
NOTE.— The sign -f indicates north declinations; the sign — indicates »
oath declinations.
VENOS, 1884.
225
OEEENWICH MEAN TIME.
MARCH.
APRIL.
Apparent
Noon.
h m s
1 10 45.96
1 15 7.70
1 19 99.65
193 51.85
1 28 14.31
132 37.06
137 0.13
1 41 33.55
1 45 47.33
1 50 11.49
1 54 36.06
1 59 1.06
2 3 26.52
2 7 52.45
2 12 18.88
2 16 45.82
2 21 13.28
22541.28
2 30 9.82
2 34 38.92
2 39 8.58
2 43 38.81
2 48 9.60
2 52 40.96
2 57 12.87
3 1 45.34
3 6 18.35
3 10 51.89
3 15 25.93
3 20 0.46
3 24 35.44
3 29 10.85
Var.of
.XL A.
fori
Hcmr.
Noon.
Apparent
Declination.
Noon.
Var.of
Decl.
fori
Hour.
Noon.
Meridian
Passage.
Apparent
Right
Noon.
Var.of
R.A.
fori
Hour.
Noon.
Apparent
Declination.
Noon.
Var.of
Decl.
fori
Hour.
Noon.
Meridian
Pataige.
30
31
8
+10.909
10.910
10.930
10.981
10.948
+10.965
10.968
10.963
10.998
11.015
+11.033
11.051
11.070
11.090
11.111
+11.133
11.155
11.178
11.901
11.994
+11.948
11.971
11.994
11.317
11.340
+11.363
11.386
11.408
11.499
11.449
+11.467
+11.484
+ 73320.4
8 3 39.4
8 33 47.8
9 3 44.9
9 33 30.0
+10 3 2.4
10 3221.4
11 126.9
11 30 16.2
1158 50.8
+12 27 9.2
12 5510.7
13 22 54.7
13 50 20.5
14 17 27.4
+14 44 14.8
15 10 42.0
15 36 48.3
16 2 33.1
16 27 55.8
+16 52 55.7
17 17 32.2
17 4144.7
18 5 32.5
18 28 55.0
+18 51 51.6
19 14 21.7
19 36 24.6
19 57 59.7
20 19 6.5
+20 39 44.5
+20 59 53.1
+76.00
75.58
75.19
74.63
74.11
+73.57
73.00
79.40
71.77
71.11
+70.49
69.70
68.95
68.18
67.38
+66.55
65.70
64.89
63.91
69.97
+68.01
61.09
60.01
58.97
57.90
+56.81
55.69
54.55
53.38
59.19
+50.98
+49.74
h m
232.0
2 32.4
232.8
233.3
233.7
234.1
234.6
235.0
2 35.5
235.9
236.4
236.9
237.4
237.9
238.4
239.0
239.5
240.0
240.5
941.1
941.6
242.2
242.7
243.3
243.9
944.5
945.1
945.7
946.3
947.0
947.6
9 48.3
Day of the Month.
Semidiameter .
Hot. Parallax .
1st.
7.3
7.6
6th.
7.5
7.8
11th.
7.8
8.0
16th.
*0
8.3
flat.
26th.
8.6
8.6
8.9
81st.
9.9
h m a
3 9910.85
3 33 46.66
3 38 99.85
3 49 59.37
3 47 36.18
3 59 13.24
3 56 50.51
4 197.95
4 6 5.51
4 10 43.14
4 15 20.80
4 19 58.43
4 24 35.97
4 29 13.36
4 33 50.55
4 38 27.47
4 43 4.05
4 47 40.93
4 52 15.94
4 56 51.10
5 125.62
6 5 59.42
5 10 32.43
515 4.55
5 19 35.68
5 24 5.73
5 28 34.60
5 33 2.18
5 37 28.37
5 41 53.05
5 46 16.12
5 50 37.46
8
+11.484
11.500
11.515
11.598
11.539
+11.549
11.557
11.563
11.567
11.569
+•11.569
11.566
11.561
11.554
11.544
+11.539
11.516
11.496
11.477
11.459
+Uv494
11.399
11.356
11.316
11.973
+11.22?
11.176
11.191
11.069
10.996
+10.997
+10.859
+90 59 53.1
91 19 31.7
91 38 39.9
91 57 17.0
99 15 99.7
+9939 56.5
99 49 57.8
93 6 96.4
93 99 91.7
93 37 43.5
+93 59 31.3
94 6 44.9
94 90 93.8
94 33 97.9
94 45 56.8
+94 57 50.3
95 9 8.9
95 19 50.4
95 99 56.6
95 39 96.9
+95 48 91.0
95 56 39.0
96 4 90.6
96 1196.4
96 17 55.9
+-96 93 49.3
96 99 6.7
96 33 48.9
26 37 54.1
96 4194.6
+96 44 19.8
+96 46 40.1
+49.74
48.48
47.90
45.90
44.58
+43.94
41.88
40.59
39.19
37.70
+3&97
34.83
33.39
31.94
30.47
+98.99
97.50
96.01
94.51
93.01
+91.51
90.00
18.49
16.98
15.48
+13.98
19.48
10.98
9.49
8.03
+ 6.57
+ 5.19
h m
948.3
948.9
949.6
950.9
950.0
951.5
259.9
959.9
953.6
954.3
955.0
955.7
256.4
967.1
957.7
958.4
959.1
959.8
3 0.4
3 1.1
3 1.7
3 9.3
3 9.9
3 3.5
3 4.1
3 4.7
3 5.9
3 5.7
3 6.2
3 6.7
3 7.1
3 7.5
Day of the Month.
Semidiameter .
Hor. Parallax .
5th.
9.2
9.6
10th.
9.6
10.0
15th.
10.1
10.4
90th.
10.9
95th.
11.1
11.5
30th.
11.7
12.1
The sign + prefixed to the hourly change of declination indicates that north declinations are increasing and south declina-
tions are decreasing. The sign — indicates that north declinations are decreasing and south declinations increasing.
15
^P^«T^5"
226
VENUS, 1884.
GREENWICH MEAN TIME.
MAY.
JUNE.
.4
1
1
1
Apparent
Right
Asceuslon.
Var.of
K.A.
fori
Hour.
Apparent
Declination.
Var.of
DecL
fori
Hour.
Meridian
Passage.
1
1
Ascension.
Var.of
K.A.
fori
Hour.
Apparent
Declination.
Var.of
Decl.
fori
Hour.
Meridinu
Pnmuge.
Noon,
Noon.
Noon,
Noon.
Noon.
Noon.
Noon
Noon,
h m a
5 46 16.12
8
+10.937
+26 44 19.8
+ 6.57
h m
3 7.1
I
h m s
7 37 44.48
s
+6.116
O I II
+24 8 58.0
i>
-26.69
h in
256.0
2
5 50 37.46
10.659
26 40 40.1
5.19
3 7.5
2
7 40 8.13
5.854
23 58 11.4
37.16
254.5
3
5 54 56.96
10.773
26 48 25.8
3.68
3 7.8
3
7 42 25.37
5.589
23 47 13.6
97.63
252.8
4
5 59 14.50
10.688
26 49 37.2
S.96
3 8.1
4
7 44 35.98
5.301
23 36 5.5
9843
251.0
5
6 3 29.97
10.600
26 50 14.6
+ 0.86
3 8.4
5
7 46 39.75
5.019
23 24 48.3
88.39
249.1
6
6 7 43.24
+10.506
+26 50 18.4
-0.53
3 8.7
6
7 48 36.46
+4.713
+23 13 23.1
-98.71
247.1
7
6 1 1 54.20
10.407
26 49 48.8
1.91
3 8.9
7
"750 25.90
4.406
23 150.8
38.98
245.0
8
6 16 2.73
10.303
26 48 46.7
3.96
3 9.1
8
7 52 7.85
4.069
22 50 12.7
99.90
242.7
9
6 20 8.71
10.194
26 47 12.4
4.59
3 9.3
9
7 53 42.10
3.764
22 :<8 29.8
99.38
240.3
10
6 24 12.02
10.081
26 45 6.5
5.90
3 9.4
10
7 55 8.43
3.430
22 26 43.1
39.51
237.8
11
6 28 12.55
+ 9.963
+26 42 29.5
-7.18
3 9.5
11
7 56 26.62
+3.066
+22 14 53.7
-49.60
235.2
12
6 32 10.17
9.839
26 39 22.0
8.44
3 9.5
12
7 57 36.46
9.733
22 3 2.7
99.64
232.4
13
6 36 4.76
9.710
26 35 44.5
9.67
3 9.5
13
7 58 37.74
3.379
21 51 10.9
99.65
229.5
14
6 39 56.20
9.576
26 3137.7
10.88
3 9.4
14
7 59 30.24
9.003
21 39 19.6
29.69
226.4
15
6 43 44.36
9.437
26 27 2.3
13.06
3 9.2
15
8 0 13.77
1.094
21 27 29.6
99.54
223.2
16
6 47 29.11
+ 9.393
+26 21 59.0
-13.21
3 9.0
16
8 0 48.15
+1.938
+21 15 42.0
-39.42
219.8
17
6 51 10.33
9.143
26 16 28.4
14.J3
3 8.7
17
8 1 13.18
0.846
21 3 57.8
99 .96
216.3
18
6 54 47.88
8.986
26 10 31.4
15.49
3 8.4
18
8 128.70
0.446
20 52 18.0
29.06
212.6
19
6 58 21.63
8.895
26 4 8.7
16.47
3 8.0
19
8 1 34.54
+0.040
20 40 43.5
98.89
2 8.7
20
7 1 51.44
8.656
25 57 21.2
17.49
3 7.5
20
8 130.56
HL371
20 29 15.2
98.54
2 4.7
21
7 5 17.17
+ 8.485
+25 50 9.6
-18.47
3 7.0
21
8 1 16.63
-0.787
+20 17 53.9
-98 99
2 0.5
22
7 8 38.67
8.305
25 42 34 9
19.49
3 6.4
22
8 0 52.69
1.907
20 6 40.7
97.87
156.2
23
7 1155.78
6.190
25 34 37.8
90.33
3 5.8
23
8 0 18.65
1.099
19 55 36.3
97.49
151.7
24
715 8.35
7.937
25 26 19.3
31.30
3 5.1
24
7 59 34.48
9.051
19 44 41.6
97.07
147.0
25
7 18 16.21
7.797
25 17 40.4
99.04
3 4.3
25
7 58 40.20
9.471
19 33 57.4
96.09
1 42.2
26
7 21 19.19
+ 7.590
+25 8 42.0
-49.83
3 3.4
26
7 57 35.90
-9.867
+19 23 24.3
-96.14
137.2
27
7 24 17.12
7.306
24 59 25.0
93.58
3 2.4
27
7 56 21.67
3.997
19 13 3.1
35.63
132.0
28
7 27 9.81
7.084
24 49 50.5
94.39
3 1.3
28
7 54 57.69
3.698
19 2 54.4
35.09
126.7
29
7 29 57.09
6.854
24 39 59.5
94.96
3 0.1
29
7 53 24.19
4.089
18 52 58.9
94.53
121.2
30
7 32 38.76
6.616
24 29 53.1
95.58
258.8
30
7 5141.49
4.464
18 43 17.1
93.95
1 15.6
31
7 35 14.62
+ 6.370
+24 19 32.2
-96.16
257.4
31
7 49 49.98
-4.893
+18 33 49.6
-93.34
1 9.8
32
7 37 44.48
+ 6.1J6
+24 8 58.0
-96.69
256.0
32
7 47 50.12
-5.160
+18 24 37.0
-99.71
1 3.9
Day of the Month.
5th.
10th.
15th. '
10th.
25th.
SOUl
Day of the Month.
4th.
9th.
20.2
\ 20.9
14th.
a
21.9
22.7
19th.
24th.
29th.
Semidiameter . .
Hor. Parallax . .
12.4
12.8
13.1
13.6
14.0
14.4
14 9
15.4
16.0
16.6
17.3
17.9
Semidiameter . .
Hor. Parallax . .
18.7
19.3
2#8
24.6
2T
2(
).6
J.5
27.3
28.2
Note.— Tho sign -f indicates north declinations;
the sign — indicates south declinations.
VENDS, 1884.
227
GREENWICH MEAN TIME.
JULY.
AUGUST.
4
1
o
1
Apparent
Right
Ascension.
Var. of
B.A.
fbrl
Hour.
Apparent
Declination.
Var.of
Decl.
fori
Hour.
Meridian
Passage.
1
.1
Apparent
Right
Ascension.
Var.of
B.A.
fori
Hour.
Apparent
Declination.
Var.of
Decl.
fori
Hour.
Meridian
Passage.
Noon.
Noon,
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
1
h m s
7 49 49.98
8
-4.883
+18 33 49!'6
-33.34
h m
1 9.8
1
h m s
6 48 58.32
8
-0.496
+16 24 33.7
+3.43
h m
22 3.2
2
7 47 50.12
5.160
18 24 37.0
93.71
1 3.9
2
6 48 51.35
-0.087
16 26 3.4
4.04
21 59 3
3
7 45 42.44
5.473
1815 39.7
33.06
057.9
3
6 48 54.13
40.316
16 27 47.0
4.59
2155.6
4
7 43 27.61
5.758
18 6 58.3
81.39
051.7
4
6 49 6.52
0.714
16 29 43.0
5.07
21 52.0
5
7 41 6.29
6.012
17 58 33.4
30.69
045.4
6
6 49 28.36
1.104
16 31 49.9
5.49
21 48.6
6
7 38 39.25
-€.933
+17 50 25.4
-19.97
039.0
6
6 49 59.47
+1.486
+16 34 6.3
+5.85
21 45.3
7
7 36 7.31
6.418
17 42 35.0
19.93
032.5
7
6 50 39.64
1.859
16 36 30.5
6.15
21 42.2
8
7 33 31.40
6.565
17 35 2.8
18.45
026.0
8
6 61 28.66
3.334
16 39 1.1
6.38
2139.2
9
7 30 52.46
6.673
17 27 49.2
17.66
0 19.4
9
6 52 26.32
3.579
16 4136.6
6.55
2136.3
10
7 28 11.43
6.737
17 20 55.1
16.84
0 12.9
10
6 53 32.38
3.934
16 44 16.2
6.66
2133.6
11
7 25 29.34
-6.760
+17 14 21.1
-15.99
1 0 6.8
11
6 54 46.60
+3.359
+16 46 55.7
+6.70
2131.0
12
7 22 47.23
6.740
17 8 7.8
15.13
23 53.1
12
6 56 8.74
3.584
16 49 36.4
6.68
2128.6
13
720 6.11
6.678
17 215.8
14.93
23 46.5
13
6 57 38.54
3.898
16 52 16.0
6.61
21 26.3
14
7 17 26.98
6.575
16 56 45.7
13.99
2340.0
14
6 59 15.76
4.303
16 54 52.9
6.47
2124.0
15
7 14 50.80
6.433
16 51 38.2
19.33
2333.6
15
7 1 0.14
4.495
16 57 25.9
6.97
2121.9
16
7 12 18.50
-6JK4
+16 46 53.9
-11.35
2327.2
16
7 2 51.43
+4.778
+16 59 53.5
46.09
21 19.9
17
7 9 50.95
6.039
16 42 33.3
10.36
23 20.9
17
7 4 49.39
5.050
17 2 14.4
5.73
21 18.0
18
7 7 28.97
5.790
16 38 36.8
9.35
2314.7
18
7 6 53.77
5.313
17 4 27.4
5.36
21 16.3
19
7 5 13.31
5.511
16 35 4.7
8.33
23 8.6
19
7 9 4.34
5566
17 6 31.2
4.95
21 14.7
20
7 3 4.66
5.908
16 34 57.1
7.30
23 2.7
20
7 1120.86
5.809
17 8 24.6
4.49
21 13.1
21
7 1 3.63
-4.877
+16 29 14.1
-6.37
2256.9
21
7 13 43.12
+6.043
+17 10 6.5
+3.98
21 11.6
22
6 59 10.75
4.537
16 26 55.7
5.35
2251.2
22
7 16 10.88
6.368
17 1 1 35.7
3.43
21 10.2
23
6 57 26.48
4.160
16 25 1.8
4.34
2245.7
23
7 18 43.94
6.485
17 12 51.2
3.84
21 8.9
24
6 55 51.21
3.778
16 23 32.0
3.35
2240.3
24
7 21 22.10
6.694
17 13 51.9
9.30
21 7.6
23
6 54 25.27
3.384
1622 25.8
8.38
2235.1
25
7 24 5.17
6.894
17 14 36.7
1.59
21 6.4
26
6 53 8.89
-3.981
+16 2142.5
-1.34
2230.1
26
7 26 52.96
+7.086
+17 15 4.8
+0.80
21 5.4
27
6 52 2.27
9.573
162121.3
-0.43
2225.2
27
7 29 45.27
7.371
17 15 15.2
+0.05
21 4.4
28
6 51 5.55
3.158
16 2121.5
+ 0.44
2220.5
28
7 32 41.93
7.449
17 15 7.1
-0.74
21 3.5
29
6 50 18.76
1.741
16 2142.0
1.96
2215.9
29
7 35 42.78
7.690
17 14 39.5
1.57
21 2.6
30
6 49 41.96
1.335
16 22 21.7
3.04
2211.5
30
7 38 47.65
7.784
17 13 51.6
3.43
21 1.8
31
6 49 15.16
-0.909
+16 23 19.3
+ 8.76
22 7.3
31
7 4156.39
+7.943
+17 12 42.7
-3.33
21 1.1
32
6 48 58.32
-0.496
+16 24 33.7
+ 3.43
22 3.2
32
7 45 8.85
+8.095
+17 11 12.2
-4.34 21 0.4
Day of the Month.
4th.
9th.
14th.
19th.
34th.
29th.
Di
Sei
Ho
iy of the Month.
Sd.
8th.
18th.
18th.
2Sd.
38th.
Semidiameter . .
Hor. Parallax . ,
2&6
29.6
29.4
30.4
29.4
30.4
tffe
29.6
27.3
28.3
257
26.6
uidiameter . .
r. Parallax . .
23.9
24.7
s£i
22.9
20*4
21.1
18.9
19.6
if*
18.2
16.3
16.9
The sign + prefixed to the hourly change of declination indicates
tions are decreasing. The sign — indicates that north deolinat
that north declinations are increasing and south deolina-
ions arc decreasing and south declinations increasing.
228
VENUS, 1884.
GEEENWICH MEAN TIME.
SEPTEMBER.
OCTOBER.
1
*
1
Apparent
Right
Ascension.
Var. of
E.A.
fori
Honr.
Apparent
Declination.
Var. of
Decl.
fori
Honr.
Meridian
Passage,
i
1
Apparent
Right
Ascension.
Var. of
B.A.
fori
Honr.
Apparent
Declination.
Var. of
Decl.
fori
Honr.
Meridian
Passsge.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
1
h ro s
7 45 8.85
8
+ 8.085
+17 II' 13.2
u
-4.24
h m
21 0.4
1
h m s
9 39 58.31
a
+10.438
Q I It
+13 3 22.6
-37.83
h m
2057.7
2
7 48 24.89
8.940
17 9 19.3
6.19
20 59.8
2
9 44 9.17
10.466
12 48 1.4
38.93
20 57.9
3
7 51 44.35
8.3*0
17 7 3.3
6.16
20 59.2
3
9 48 20.68
10.483
12 32 13.9
40.02
20 58.2
4
7 55 7.10
8.514
17 4 23.6
7.16
20 58.7
4
9 52 32.81
10.518
12 16 0.5
41.10
20 58.5
5
7 58 33.00
8.643
17 1 19.5
8.18
20 £8.2
5
9 56 45.51
10.541
1159 21.5
42.16
20 58.8
6
8 2 1.92
+ 8.766
+16 57 50.6
-9.29
2057.8
6
10 0 58.70
+10.563
+114217.0
-43.21
2059.0
7
8 5 33.74
8.884
16 53 56.4
10.29
20 57.4
7
10 5 12.51
10.583
1124 47.6
44.24
20 59.3
8
8 9 8.32
8.996
16 49 36.3
11.38
20 57.1
8
10 9 26.74
10.602
11 6 53.6
45.26
20 59.6
9
8/12 45.54
9.104
16 44 50.1
12.48
2056.8
9
1013 41.42
10.620
10 48 35.6
46.25
2059.9
10
8 16 25.27
9.906
16 39 37.3
13.59
20 56.5
10
1017 66.50
10.637
10 29 53.7
47.29
21 0.2
11
8 20 7.39
+ 9.304
+16 33 57.7
-14.72,
20 56.3
11
10 2211.97
+10.652
+10 10 48.7
-48.18
21 0.6
12
8 23 51.80
9.398
16 27 50.9
15.86
2056.1
12
10 26 27.79
10.666
9 5121.0
49.12
21 0.9
13
8 27 38.39
9.484
16 2116.7
17.01
20 56.0
13
10 30 43.94
10.680
9 31 31.0
50.04
21 1.3
14
8 31 27.03
9.567
16 14 14.8
18.16
20 55.9
14
10 35 0.40
10.699
9 11 19.3
50.94
21 1.6
15
8 35 17.63
9.646
16 6 45.1
19.32
20 55.8
15
10 39 17.15
10.704
8 50 46.4
51.81
21 1.9
16
8 39 10.07
+ 9.721
+15 58 47.5
-20.49
20 65.7
16
10 43 34.17
+10.715
+ 829 62.8
-52.66
21 2.2
17
8 43 4.25
9.799
15 50 21.8
21.66
20 55.7
17
10 47 51.44
10.725
8 8 39.1
53.49
21 2.6
18
8 47 0.07
9.858
15 4128.0
22.83
20 55.8
18
10 52 8.94
10.734
7 47 5.8
54.29
21 2.9
19
8 50 57.44
9.981
15 32 6.1
24.01
20 55.8
19
10 56 26.67
10.743
7 2513.4
55.07
21 3.3
20
8 54 56.27
9.980
15 22 16.0
25.16
20 55.9
20
11 0 44.61
10.162
7 3 2.6
55.83
21 3.6
21
8 58 56.47
+10.036
+15 1157.7
-46.35
2056.0
21
11 5 2.76
+10.760
+ 6 40 34.0
-56 M
21 4.0
22
9 2 57.97
10.068
15 1 11.2
27.52
2056.1
22
11 921.11
10.769
6 17 48.1
57.26
21 4.3
23
9 7 0.68
10.137
14 49 56.6
28.69
20 56.2
23
11 13 39.66
10.777
5 54 45.6
57.94
21 4.7
24
911 4.54
10.183
14 38 14.0
29.86
2056.3
24
1 1 17 58.41
10.786
5 3127.1
58.59
21 5.1
25
9 15 9.48
10.237
14 26 3.5
31.02
2056.5
25
1 1 22 17.37
10.794
5 7 53.2
59.22
21 5.5
26
9 19 15.42
+10.968
+14 13 25.2
-32.17
2056.6
26
1126 36.53
+10.803
+ 4 44 4.5
-50.83
21 6.9
27
9 23 22.31
10.306
14 019.2
33.32
20 56.8
27
1130 55.91
10.812
4 20 1.6
60.41
21 6.3
28
9 27 30.10
10.349
13 46 45.8
34.46
20 57.0
28
11 35 15.52
10.892
3 55 45.0
60.96
21 6.7
29
9 31 38.73
10.376
13 32 45.1
35.59
2057.2
29
1139 35.37
10.832
3 31 15.4
61.49
21 7.1
30
9 35 48.15
10.408
13 18 17.3
36.72
2057.4
30
1143 55.47
10.843
3 6 33.6
61.99
21 7.5
31
9 39 58.31
+10.438
+13 3 22.6
-37.83
20 57.7
31
11 48 15.83
+10.854
+ 2 4140.2
-69.46
21 7.9
32
9 44 9.17
+10.466
+12 48 1.4
-38.93
20 57.9
32
1152 36.48
+10.866
+ 2 16 35.7
-69.90
21 8.3
Di
iy of the Month.
2d.
7th.
12th.
17th.
22d.
27th.
Day of the Month.
2d
7th.
12th.
17th.
2*d.
27th.
Seraidiameter . .
Uor. Parallax . .
KV2
15.8
14.3
14.8
lfr
13.9
12.8
13.1
12.0
12.4
11.4
11.8
Bemidiameter . . .
Horizontal Parallax
10.8
11.2
10.3
10.7
9.9
10.2
9.5
9.8
9.1
9.4
6.6
9.1
Notb.— The sign + indicates north declinations;
the sign — indicates south declinations.
-VENUS, 1884.
229
GREENWICH MEAN" TIME.
NOVEMBER
DECEMBEE.
1
*
1
1
Apparent
Right
Ascension.
Var.of
R.A.
fori
Hour.
Apparent
Declination.
Var.of
DooL
fori
Hour.
Meridian
Passage.
1
Q
1
Apparent
Right
Ascension.
Var.of
R.A.
fori
Hour.
Apparent
Declination.
Var.of
Decl.
fori
Hoar.
Meridian
Passage.
Noon.
Noon,
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
h m s
1 1 52 3G.48
8
+10.866
O / //
+ 2 16 35.7
-63.90
h m
21 8.3
1
h m s
14 6 45.68
8
+11.635
O 1 II
-10 42 20.2
it
-69.39
h m
2124.4
2
1 1 5(5 57.43
10.879
1 51 20.8
63.33
21 8.7
2
14 11 25.42
11.677
11 7 7.2
61.70
2125.2
3
12 1 18.70
10.883
125 56.3
63.71
21 9.1
3
14 16 6.17
11.730
1131 41.4
61.15
2125.9
4
12 5 40.30
10.90?
1 0 22.7
64.08"
21 9.5
4
14 20 47.95
11.763
11 56 2.1
60.57
21 26.7
5
12 10 2.26
10.999
0 34 40.7
64.43
21 9.9
5
14 25 30.78
11.807
12 20 8.3
59.95
2127.5
6
12 14 24.59
+10.938
+ 0 851.1
-64.78
21 10.4
6
14 30 14.69
+11.853
-12 43 59.3
-59.30
2128.3
7
12 18 47.31
10.955
- 0 17 5.4
64.99
21 10.8
7
14 34 59.69
11.898
13 7 34.3
58.63
2129.1
8
12 23 10.45
10.973
0 43 8.2
65.94
21 11.3
8
14 39 45.81
11.945
13 30 52.5
57.90
2129.9
9
12 27 34.02
10.993
1 9 16.5
65.46
21 11.7
9
14 44 33.06
11.993
13 53 53.1
57.15
21 30.7
10
12 31 58.04
11.011
135 29.7
65.64
21 12.2
10
14 49 21.45
19.040
14 16 35.3
56.36
2131.6
11
12 36 22.53
+11.031
- 2 1 46.9
-415.79
21 12.6
11
14 54 10.99
+18.068
-14 38 56.2
-55.54
2132.5
12
12 40 47.52
11.052
2 28 7.3
65.91
21 13.1
12
14 59 i.70
13.137
15 1 1.1
54.69
2133.4
13
12 45 13.02
11.074
2 54 30.4
66.00
21 13.6
13
15 3 53.58
13.186
15 22 43.1
53.81
2134.3
14
12 4!) 39.05
11.096
3 20 55.3
66.06
21 14.1
14
15 8 46.64
13.335
15 44 3.5
53.89
21 35.3
15
12 54 5.63
11.190
3 47 21.3
66.09
21 14.6
15
1513 40.88
13.981
16 5 1.4
51.94
2136.3
16
12 58 32.79
+11.144
- 4 13 47.7
-66.09
21 15.1
16
15 18 36.31
+18.334
-16 25 36.1
-60.95
21 37.3
17
13 3 0.55
11.170
4 40 13.6
66.06
21 15.6
17
15 23 32.92
1S.383
16 45 46.7
49.93
2138.3
18
13 7 28.93
11.196
5 6 38.3
65.99
21 16.2
18
15 28 30.72
19.433
17 5 32.5
48.88
2139.4
19
13 1 1 57.96
11.294
5 33 1.0
65.89
21 16.7
19
15 33 29.70
19.489
17 24 52.7
47.80
21 40.4
20
13 16 27.65
11.353
5 59 21.0
65.76
21 17.3
20
15 38 29.86
13.531
17 43 46.6
46.66
2141.5
21
13 20*8.1)4
+11.383
- 6 25 37.5
-65.60
21 17.9
21
15 43 31.21
+13.580
-18 213.4
-45.54
21 42.6
22
13 25 29.14
* 11.313
6 51 49.7
65.41
21 18.5
22
15 48 33.72
19.638
16 20 12.3
44.36
21 43.7
23
13 30 0.98
11.343
7 17 56.9
65.19
21 19.1
23
15 53 37.38
18.676
18 37 42.5
43.16
21 44.8
24
13 34 33.59
11.375
7 43 58.3
64.93
21 19.7
24
15 58 42.19
13.734
18 54 43.4
41.99
21 46.0
25
13 39 7.00
11.409
8 9 53.1
64.64
2120.3
25
16 3 48.16
18.771
19 11 14.3
40.66
21 47.2
26
13 43 41.23
+11.444
- 8 35 40.5
-64.31
2121.0
26
16 8 55.23
+19.818
-19 27 14.4
-39.36
21 48.4
27
13 48 16.31
11.480
9 1 19.8
63.96
2121.6
27
16 14 3.42
19.864
19 42 43.1
38.03
21 49.6
28
13 52 52.27
11.51?
9 26 50.2
63.57
21 22.3
28
16 19 12.71
19.909
19 57 39.7
36.66
2150.9
29
13 57 29.13
11.550
9 52 10.9
63.15
21 23.0
29
16 24 23.07
13.953
20 12 3.6
35.30
21 52.1
30
14 2 6.93
11.595
10 17 21.2
63.70
2123.7
30
16 29 34.48
13.997
20 25 54.1
3390
21 53.4
31
14 6 45.68
+11.635
-10 4220.2
-69.33
21 24.4
31
16 34 46.92
+H.039
-20 39 10.5
-39.47
2154.7
32
14 1 1 25.42
+11.677
-11 7 7.2
-61.70
2125.2
32
16 40 0.37
+13.081
-20 51 52.2
-31.01
[21 56.0
Day of the Month.
1st.
6th.
Uth.
16th.
list
36th.
Day of the Month.
1st
6th.
Uth.
16th
u 31st 9
6th.
81st
Semidiameter . .
Hor. Parallax . .
8.5
8.8
8.2
8.5
7.9
8.2
f.7
8.0
7.7
£3
7.5
Semi diameter . .
Hor. Parallax . .
7!l
7.3
7.2
67
7.0
6%
6.8
6.7
6.3
6.6
6.4
The sign + prefixed to the 1
tions are decreasing. Th
lonrly ohange of declination indicates that north declinations are increasing and sooth declina-
e sign — indicates that north declinations are decreasing and south declinations increasing.
230
MARS, 1884..
GEEENWICH MEAN TIME.
JANUAEY.
FEBRUARY.
•
Apparent
Ascension.
Yar.of
R.A.
fori
Honr.
Apparent
Declination.
Var.of
Deol.
fori
Honr.
Meridian
Passage.
4
1
i
Apparent
Eight
Ascension.
Var.of
B.A.
fori
Honr.
Apparent
Declination.
Var.of
Decl.
fori
Honr.
Meridian
Passage.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
,
h m s
9 40 2.77
s
-1.096
O I II
+17 55 8.5
+11.84
h m
14 55.1
i
h m s
9 3 35.95
8
-4.107
O I It
+21 32 35.0
+17.68
h m
12 16.3
2
9 39 34.77
1.936
18 0 0.2
19.45
14 50.7
2
9 1 57.30
4.109
21 39 32.9
17.19
12 10.8
3
9 39 3.46
1.373
18 5 6.4
13.05
14 46.2
3
9 0 18.71
4.109
2146 20.1
16.73
12 5.2
4
9 38 28.85
1.510
18 10 26.6
13.63
14 41.7
4
8 58 40.38
4.088
21 52 55.9
16.94
1159.6
5
9 37 50.95
1.647
18 16 0.5
14.19
14 37.1
5
8 57 2.*9
4.065
21 59 19.6
15.79
1154.1
6
9 37 9.78
-1.783
+18 2147.7
+14.73
14 32.4
6
8 55 25.24
-4.035
+22 5 30.6
+15.18
1148.6
7
9 36 25.37
1.918
18 27 47.9
15.96
14 27.7
7
8 53 48.83
3.997
22 1128.3
14.09
1143.0
8
9 35 37.74
9.051
18 34 0.5
15.77
14 23.0
8
8 5213.42
3.951
22 17 12.3
14.04
1137.5
9
9 34 46.92
8.183
18 40 25.1
16.96
14 18.1
9
8 50 39.18
3.896
22 22 42.1
13.44
1132.0
10
9 33 52.95
S.313
18 47 1.0
16.79
14 13.3
10
8 49 6.30
3.838
22 27 57.3
19.88
1126.5
11
9 32 55.86
-2.442
+18 53 47.6
+17.15
14 8.4
11
8 47 34.94
-3.779
+22 32 57.5
+19.19
1121.1
12
9 31 55.71
8.568
19 0 44.2
17.56
14 3.4
12
8 46 5.26
3.698
22 37 42.4
11.55
11 15.7
13
9 30 52.55
8.693
19 7 50.2
17.93
13 58.4
13
8 44 37.40
3.619
22 42 12.0
10.91
1110.4
14
9 29 46.46
8.814
19 15 4.9
18.87
13 53.4
14
8 4311.53
3.534
22 46 26.0
10.96
11 5.0
15
9 28 37.49
8.933
19 22 27.4
18.58
1348.3
15
8 4147.78
3.449
22 50 24.4
9.60
1059.8
16
9 27 25.71
-3.047
+19 29 57.0
+18.86
13 43.1
16
8 40 26.28
-3.346
+22 54 7.0
+ 8.04
1054.5
17
9 26 11.22
3.158
19 37 32.8
19.10
13 37.9
17
8 39 7.14
3.946
22 57 33.7
8.S8
10 49.3
18
924 54.11
3.865
19 45 13.9
19.31
1332.7
18
8 37 50.48
3.140
23 0 44.4
7.69
1044.1
19
9 23 34.49
3.367
19 52 59.3
19.46
1327.4
19
8 36 36.43
3.099
23 3 39.2
6.95
1038.9
20
9 22 12.48
3.464
20 0 48.1
19.58
1322.1
20
8 35 25.09
9.914
23 6 18.1
6.99
1033.8
21
9 20 48.19
-3.557
+20 8 39.2
+19.65
13 16.8
21
8 34 16.58
-8.794
+23 8 41.2
+ 5.63
1028.8
92
9 19 21.77
3.648
2016 31.5
19.68
1311.4
22
8 33 10.98
8.671
2310 48.6
4.99
1023.8
23
9 17 53.35
3.789
20 24 24.1
19.67
13 6.0
23
8 32 8.37
8.546
23 12 40.5
4.35
10 18.8
24
9 16 23.09
3.796
20 3216.0
19.69
13 0.5
24
8 31 8.82
8.417
23 14 17.2
3.71
10 13.9
25
9 14 51.16
3.869
20 40 6.0
19.59
12 55.0
25
8 30 12.39
8.985
23 15 38.7
3.09
10 9.1
26
9 13 17.73
-3.991
+20 47 53.2
+19.37
1249.5
26
8 29 19.14
-8.151
+23 16 45.4
+ 8.47
10 4.3
27
9 1142.97
3.979
20 55 36.3
19.18
1244.0
27
8 28 29.13
9.015
23 17 37.4
1.86
959.5
28
9 10 7.06
4.016
21 3 14.2
18.95
1238.5
28
8 27 42.40
1.878
23 18 15.1
1.98
9 54.8
29
9 8 30.20
4.051
21 10 46.0
18.68
1233.0
29
8 26 58.98
1.740
23 18 38.7
- 0.70
950.2
30
9 6 52.60
4.078
21 18 10.7
18.36
1227.5
30
8 2618.89
1.601
23 18 48.5
+ 0.13
945.7
31
9 5 14.45
-4.097
+2125 27.3
+18.01
1221.9
31
8 25 42.15
-1.461
+23 18 44.9
-0.43
941.2
32
9 3 35.95| -4.107
+21 32 35.0
+17.69
12 16.3
32
8 25 6.75
-1.391
+2318 28.1
-0.97
936.7
Day of the Month.
1st
6th.
nth.
16tl
i. llstS
16th.
Mat
Day of the Month.
5th.
10th.
16th.
20th.
35th.
60th.
Semidiameter . .
Hor. Parallax . .
£6
11.6
6.8
12.0
II
7.1
12.4
7.;
I2.t
J 7.5
J 13.0 1
ft
3.1
ft
13.2
Semidiameter . .
Hor. Parallax . .
ft
13.1
i 7.4
13.0
ft
12.7
7.1
12.4
19.0
ft
11.5
Notb.— The sign + Indicates north declinations;
the sign — indicates sonth declinations.
MARS, 1884.
231
GREENWICH MEAN TIME.
MARCH.
Apparent
Right
Ascension.
Noon.
8 9618.89
8 25 42.15
8 25 8.75
8 24 38.70
824 11.99
8 23 48.60
8 23 28.52
8 23 11.71
8 22 58.15
8 22 47.80
8 22 40.62
8 22 36.58
8 22 35.63
8 22 37.73
8 22 42.84
8 22 50.92
8 23 1.92
8 23 15.80
8 23 32.52
8 23 52.02
Var. of
R.A.
fori
Hour.
Noon.
Apparei
Declinati
Noon.
Yar. of
Decl.
fori
Hour.
Noon.
Meridian
Passage.
APRIL.
Apparent
Kigbt
Ascension.
Noon.
h m a
8 31 6.43
8 31 57.82
8 32 51.31
8 33 46.83
8 34 44.33
8 35 43.76
8 36 45.06
8 37 48.19
8 38 53.09
8 39 59.71
8 41 8.01
8 4217.96
8 43 29.51
8 44 42.62
8 45 57.24
8 47 13.34
8 48 30.89
8 49 49.85
8 51 10.18
8 52 31.86
8 53 54.85
8 55 19.12
8 56 44.65
8 58 11.40
8 59 39.34
Var. of
R.A.
fori
Hour.
Noon.
Apparent
Declination.
Noon.
Var. of
Decl.
fori
Hour.
Noon.
Meridian
Passage
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
8
-1.001
1.401
1.391
1.183
1.044
-0.906
0.709
0.033
0.496
0.305
-0.934
-0.104
40.094
0.150
0.975
40.397
0.518
0.038
0.755
0.870
8 24t«B6
40.983
8 24 39.20
, J. 094
8 25 6.79*
1.903
8 25 36.99
1.311
8 26. 9.74
1.417
8 26 45.00
+1.591
8 27 22.72
1.699
8 28 2.85
1.791
8 28 45.34
1.818
8 29 30.14
1.913
8 30 17.19
49.006
8 31 6.43
49.096
423 18 48.5
23 18 44.9
23 18 23.1
23 17 58.4
23 17 16.1
423 16 21.7
23 15 15.4
23 13 57.6
23 12 28.6
23 10 48.5
423 8 57.6
23 6 56.2
23 4 44.6
23 2 23.1
22 59 51.8
+22 57 10.9
22 54 20.5
22 51 20.9
22 48 12.3
22 44 54.7
'+22 4128.3
22 37 53.3
22 34 9.8
22 30 17.9
22 26 17.7
4 0.13
-0.43
0.97
1.50
9.01
-9.51
3.00
3.48
8.94
4.39
-4.84
5.97
5.69
6.10
6.51
-6.90
7.99
7.69
8.05
8.49
-8.78
9.14
9.49
9.83
10.18
+22 22 9.3
-10.59
22 17 52.8
10.85
22 13 28.4
11.18
22 836.2
11.51
22 4 16.2
11.83
+21 59 28.5
-1944
+21 54 33.2
-19.46
h m
945.7
941.2
9 36.7
932.3
927.9
923.6
919.4
915.2
911.0
9 7.0
9 3.0
859.0
855.0
851.1
847.3
843.6
8 39.8
836.1
832.5
828.9
825.4
821.9
818.4
815.0
811.6
8 8.2
8 4.9
8 1.7
7 58.5
755.3
752.2
749.1
Day of the Month.
1st.
6th.
Uth.
16th.
91st.
96th.
Slat
49.096
9.185
9.271
9.354
9.436
43.515
9.599
9.667
9.740
9.811
49.880
9.947
3.013
3.077
3.140
+3.901
3.961
3.319
3.375
3.431
+3.485
3.538
3.589
3.639
3.688
9 1 8.44
+3.736
9 2 38.66
3.789
43 4 9.97
3.896
9 5 42.35
3.870
9 7 15.76
3.913
9 8 50.17
+3.954
9 10 25.56
+3.994
+21 54 33.2
21 49 30.5
21 44 20.4
2139 3.0
21 33 38.3
42128 6.5
2122 27.6
21 16 41.7
21 10 48.7
21 4 48.7
+20 58 41.8
20 52 28.0
20 46 7.2
20 39 39.6
20 33 5.1
+20 26 23.8
20 19 35.6
20 12 40.6
20 5 38.7
19 58 30.0
+19 51 14.5
19 43 52.1
19 36 22.9
19 28 46.9
19 21 4.2
+19 13 14.7
19 5 18.6
18 57 15.7
18 49 6.
18 40 50 0
+18 32 27.2
+18 23 57.8
-19.46
19.77
13.08
13.37
13.67
-13.97
14.97
14.56
14.86
15.14
-15.43
15.79
16.00
16.99
16.58
-16.86
17.15
17.43
17.79
18.01
-18.99
18.57
18.86
19.14
19.49
-19.70
19.98
90.96
90.54
90.81
-91.08
-91.36
h m
749.1
746.0
7 43.0
7 40.0
7 37.0
7 34.
7 31.2
728.3
725.5
722.6
7 19.8
717.1
714.3
711.6
7 9.0
7 6.3
7 3.7
7 1.0
658.4
655.9
6 53.3
6 50.8
648.3
645.8
643.3
640.9
6 38.4
6 36.0
633.7
6 31.3
6 28.9
626.6
Day of the Month.
5th.
10th.
15th.
90th.
25th.
SOth.
Semidiameter .
Hor. Parallax .
6.6
11.5
11.1
10.6
10.2
5.6
9.7
9.3
£l
8.9
Semidiamoter . .
Hor. Parallax . .
4".9
8.5
8.2
7.9
4-3
7.6
4'.2
7.3
4*0
7.0
The sign + prefixed to the hourly change of declination indicates that north declinations are increasing and south declina-
tions are decreasing. The sign — indicates that north declinations are decreasing and south declinations increasing.
232
MARS, 1884.
GEBENWICH MEAT* TIME.
MAT.
JUNE.
1
Apparent
Bight
Ascension.
Viup.of
S.A.
fori
Hoar.
Apparent
Declination.
Viup.of
DecL
fori
Hoar.
Meridian
Passage.
1
1
A scension.
Var.of
B.A.
fori
Hour.
Apparent
Declination.
Var.of
Deol.
fori
Hour.
Meridian
Passage.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
i
h m s
9 8 50.17
8
43.954
O / //
+18 32 27.2
a
-91.08
h m
628.9
1
h m s
10 3 46.74
8
+4 798
0 1 a
+13 20 30.0
-99.05
h m
521.8
3
9 10 25.56
3.984
1823 57.8
91.36
626.6
2
10 5 42.10
4415
13 8 50.1
99.98
519.8
3
912 1.88
4.033
1815 21.9
91.63
624.2
3
10 7 37.87
4.839
12 57 4.7
99.50
517.8
4
9 13 39.12
4.069
18 6 39.5
91.90
621.9
4
10 934.05
4.848
12 45 13.9
99.73
515.8
5
9 15 17.24
4.106
17 57 50.6
29.17
619.6
5
10 1130.61
4.864
12 33 17.7
99.95
513.8
1
6
9 16 56.21
+4.141
+17 48 55.3
-99.44
617.4
6
1013 27.55
+4.880
+12 21 16.1
-30.18
511.8
7
9 18 36.01
4.175
17 39 53.6
29.70
615.1
7
1015 24.86
4.896
12 9 9.2
30.40
5 9.8
8
9 20 16.62
4.906
17 30 45.5
S9.97
612.8
8
10 17 22.54
4.911
1156 57.1
3041
5 7.9
9
9 2158.01
4.910
17 2131.1
93.93
610.6
9
10 19 20.57
4.996
1144 39.7
30.83
5 5.9
10
9 23 40.16
4.979
17 12 10.3
93.50
6 8.3
10
10 21 18.96
4.940
11 32 17.1
31.05
5 3.9
1J
9 2523.05
+4.309
+17 2 43.2
-93.76
6 6.1
11
10 23 17.69
+4.954
+11 19 49.4
-3146
5 2.0
12
9 27 6.65
4.331
16 53 9.8
94.09
6 3.9
12
10 25 16.76
4.988
11 7 16.6
31.47
5 0.0
13
9 28 50.95
4.300
16 43 30.1
94.38
6 1.7
13
10 27 16.17
4.989
10 54 38.8
31.68
4 58.1
14
9 30 35.94
4.388
16 33 44.1
94.54
559.5
14
10 29 15.91
4.996
10 41 55.9
3148
4 56.1
15
9 32 21.60
4.416
16 23 51.9
94.80
557.3
15
10 31 15.99
5.010
10 29 8.1
39.09
4 54.2
16
9 34 7.90
+4.443
+16 13 53.4
-95.06
655.2
16
10 33 16.40
+5.094
+10 16 15.3
-39.30
4 52.9
17
9 35 54.85
4.469
16 3 48.7
95.33
553.0
17
10 3517.13
5.038
10 3 17.7
39.50
450.3
18
9 37 42.43
4.496
15 53 37.8
95.69
5 50.9
18
10 37 18.19
5.051
9 50 15.3
39.70
4 48.4
19
9 39 30.62
4.691
15 43 20.7
95.84
548.7
19
10 39 19.57
5.064
9 37 8.1
39.90
4 46.5
20
9 4119.41
4.545
15 32 57.4
96.09
546.6
20
10 4121.27
5.077
9 23 56.1
33.09
4 44.6
21
9 43 8.78
+4.568
+15 20 28.0
-96.35
544.5
21
10 43 23.29
+5.090
+ 9 10 39.5
-40.98
442.7
S3
9 44 58.72
4.591
16 1152.4
96.61
542.4
22
10 45 25.62
5.103
8571£.3
33.48
440.8
23
9 46 49.23
4.615
15 1 10.8
96.86
540.3
23
10 47 28.26
5.115
8 43 52.6
33 67
4 38.9
24
9 48 40.28
4.638
14 50 23.1
97.11
5 36.2
24
10 49 31.20
5.199
83022.4
3345
4 37.0
25
9 50 31.86
4.660
14 3929.4
97.36
536.1
25
10 5134.45
5.149
816 47.8
34i»
4 35.1
26
9 52 23.97
+4.689
+14 2829.7
-97.61
534.1
26
10 53 38.00
+5.154
+ 8 3 8.9
-3441
4 33.2
27
9 54 16.58
4.709
14 17 24.1
97.85
532.0
27
10 5541.84
5.166
7 49 25.7
34.38
4 31.3
28
9 56 9.68
4.799
14 612.9
98.10
530.0
28
10 57 45.97
5.178
7 35 38.4
3445
4 29.5
29
9 58 3.26
4.749
13 54 55.7
9644
527.9
29
10 59 50.39
' 5.189
7 2147.0
34.79
427.6
30
9 59 57.31
4.769
13 43 32.8
9647
525.9
30
11 155.09
5.901
7 7 51.6
3449
425.7
31
10 151.81
+4.780
+1332 4.2
-9841
523.8
31
11 4.0.06
+5.919"
+ 6 53 52.3
-35.05
4 23.9
32
10 3 46.74
+4.798
+13 20 30.0
-99.05
621.8
32
11 6 5.30
+5.994
+ 6 39 49.2
-36.91
4 22.0
Day of the Month.
5th.
10th.
15th. :
Nth.
95th.
90th.
Day of the Month.
4th.
0th.
14th.
10th.
94th.
90th.
Semidiameter . .
Hor. Parallax . .
3.9
6.8
3.8
6.6
3.6
6.4
6.2
£4
6.0
£.3
5.8
Semidiameter . .
Hor. Parallax . .
5.7
6.5
5.4
£0
5.3
^9
54
5.1
Horn.— The sign + indicates north
declinations; the sign — indicates south declinations.
MARS, 1884.
233
GKEENWICH MEAN TIME.
JULY.
AUGUST.
Var.of
Var.of
Var.of
Var.of
i
1
Ascension.
RA.
fori
Hour.
Apparent
Declination.
DeoL
fori
Hour.
ftferidian
Fatiage.
1
1
Ascension.
B.A.
fori
Hour.
Apparent
Declination.
Decl.
fori
Hour.
Meridian
Postage.
Noon.
Noon.
Noon.
Noon.
~Y
Noon.
Noon.
Noon.
Noon.
h m s
s
O / //
11
1 m
h m s
8
0 / a
a
h m
1
11 4 0.06
+5.919
+6 53 52.3
-35.05
4 23.9
1
12 10 53.95
+5.501
-0 45 38.5
-48.53
328.7
2
11 6 5.30
6.994
6 39 49.2
35.91
4 22.0
2
1213 8.29
5.804
1 1 4.0
38.69
327.0
3
11 810.81
5.995
6 25 42.3
35.37
4 20.2
3
1215 22.97
5.618
1 16 30.8
38.64
325.3
4
1 1 10 16.60
5.945
61131.7
35.59
4 18.3
4
12 17 37.97
5.639
1 31 58.7
38.88
323 6
5
1112 22.65
5.958
5 57 17.5
35.86
4 16.5
5
12 19 53.31
5.646
14727.7
38.79
321.9
6
11 14 28.97
+5.969
+5 42 59.7
-35.81
414.7
6
12 22 8.98
+5.861
-2 2 57.6
—38.76
320.2
7
11.16 35.56
5.380
5 28 38.4
35.96
4 12.8
7
12 24 25.00
5.675
2 18 28.4
86.80
318.5
8
1118 42.41
5.991
V l*i 3.7
36.10
411.0
8
12 26 41.37
5880
2 34 0.0
38.83
316.9
9
1120 49.63
5.303
4 59 45.6
'Kill
4 9.2
9
12 28 58.09
5.784
249 32.3
38.86
315.2
10
1122 56.93
5.313
4 45 14.2
36417
4 v:J
'9J
12 31 15.17
5.719
3 5 5.1
38.88
313.5
11
1125 4.60
46.335
+4 30 39.7
-36.50
4 5.6
11
12 3£2.63
+5.735
-3 20 38.5
-38.90
3 11.9
12
11 27 12.55
' 5.336
4 16 2.0
36.84
4 3.8
12
12 3^D.46
* 5.751
3 36 12.2
38.91
310.3
13
1129 20.77
5.348
4 121.2
36.77
4 2.0
13
l£fc 8.67
5.767
3 51 46.3
38.99
3 8.6
14
11 31 29.27
5.380
3 46 37.4,
T*y
■W40 27.27
5.784
4 7 20.7
38.93
3 7.0
15
11 33 38.07
5.379/
3 3150,1 37.00
1
358.4
15
12 42 46.27
5.800
4 22 55.1
38.93
• 3 5.4
re
1135 47.15
+5.385
+3 17 1.0
-*T.L
356.6
16
12 45 5.67
+5.817
-4 38 29.5
-38.93
3 3.8
17
1137 56.53
8.387
< 3 2 8.5
87.94
-*tf.8
17
12 47 25.48
5.834
4 54 3.9
38.93
3 2.2
18
1140 6.20
♦.410
2 47 13.3
37.36
353.0
•18
1249 45.71
5.851
5 9 38.1
38.99
3 0.6
19
11 42 16.18
5.49*
2 32 15.4
87.46
,361.2
id
1£52 6.35
5.889
5 2512.0
38.90
259.0
20
1144 26.45
4.435
■ 2 \7 JfrO
37.57
349.5
20
1*4 27.41
5.887
6 40 45.4
38.88
257.4
21
114637.08
+5.447
+2 212.1
-87.87
347.7
21
12 5*8.91
+5.905
-5 56 18.3
-38.86
255.8
22
114847.92
%460
147 6.7
37.77
346.0
22
12 59 #.83
5.993
6 11 50.6
38.83
254.2
23
1 1 50 59.12
5.473
1 31 59.0
37.87
344.2
23
13 1332P
5.941
627 22.1
38.79
252.6
24
1153 10.62
5.488
116 49.1
37.96
342.5
24
13 3 56.00| 5.959
6 42 52.6
38.75
251.1
25
1155&44
5.480
>
1 1 37.1
38.04
340.7
25
13 6 19.8T
' 5.978
6 58 22.1
38.70
249.5
26
1157 34.67
+#>519
+0 46 23.0
-38.19
339.0
26
13 842.fr*
+5.986
-7 13 50.5
-38.65
248.0
27
,1159 47.01
5.695
0 31 7.0
38 JO
337.2
27
1311 7.«f
6.015
7 29 17.6
38.80
246.4
28
12 1 59.77
5.538
4 15 49.2
38.97
335.5
28
13 13 31.67*. 6.034
7 44 43.3
38.54
244.9
2?
12 4 12.84
5.551
+0 029.6
38.34
333.8
29
13 15 56.72
6.053
8 0 7.4
38.47
243.4
30
12 6 26.22
5.564
-0 14 51.6
, 38.41
332.1
30
*•***«■**
6.079
815 29.8
38.38
241.9
31
12 8 39.92
+5.577
-0 30 14.3
-38.41
330.4
31
IWV 48.21
+6.098
-8 30 50.4
-38.39
240.4
32
12 10 53.05
+5.591
-0 45 38.5
-88^3
328.7
32
13 2&44??
+4.119
-8 46 9.1
-38.93
236.9
Day of the Month.
4th
ct
Iff
^Oth.
Day oitto Mont
h.
Id.
8th.
18th.
18th.
28d.
98th.
Semidwrneter . .
aaliPTi.8
£7
2.7 i
i'.6
is
J
Semidiameter
ft
> £5
11
2.5
£4
i'A
2.4
Hor. Parallax . <TT5T 4.8
47
4X ,A
1.6
4.5
Hor. Parallax . .
4.S
> 4.4
4.4
4.3
4.3
4.2
The sign 4- preaxj/to the hourly change of deolination indicates that north declinations are increasing and south declina-
tions are deessjjnig. The sign — Indicates that north declinations are decreasing and south declinations increasing.
\
234
MARS, 1884.
GREENWICH MEAN TIME,
SEPTEMBER.
Apparent
Right
Ascension.
Noon.
Var. of
B.A.
fori
Hour.
Noon.
Apparei
Deollnatl*
Noon.
Var. of
Decl.
fori
Hour.
Noon.
Meridian
Passage.
h m
238.9
237.4
2 36.9
2 34.4
2 32.9
OCTOBER.
Apparent
Right
Ascension.
Noon.
Var. of
R.A.
fori
Hoar.
Noon.
Apparent
Declination.
Noon.
Var. of
Dec!,
fori
Hoar.
Noon.
Meridian
Passage.
12
13
14
15
16
17
18
19
20
21
22
23
24
25
h ID 8
13 23 14.67
13 2541.60
13 28 9.02
13 30 36.92
13 33 5.32
13 35 34.22
13 38
13 40 33.58
13 43 4.04
13 45 35.03
s
+6.119
6.130
6 153
6.173
6.193
8 46 9.1
9 125.7
9 16 40.2
9 31 52.3
9 47 2.0
-38.23
38.14
36.05
37.96
37.85
II 13 48 6.57
13 50 38.66
13 53 11.30
13 55 44.50
13 5818.28
14 0 52.63
14 3 27.56
14 6 3.08
14 8 39.18
14 II 15.87
14 13 53.16
14 16 31.05
14 19 9.54
14 21 48.64
14 24 28.35
14 27 8.66
14 29 49.58
14 32 31.13
14 35 13.29
14 37 56.07
14 40 39.48
14 43 23.52
Day of the Month,
Semidiameter .
Hor. Parallax .
h m s
14 40 39.48
14 43 23.52
14 46 8.19
14 48 53.50
14 51 39.46
14 54 26.06
14 5713.32
15 0 1.24
.v9l 18.96
10 23 17,69
10 25 16.76
10 27 16.17
1 15.91
■f 6 17.13
10 37 18.19
10 39 19.57
10 4121.27
10 43 23.29
10 4525.62
10 47 28.26
10 49 31.20
10 51 34.45
10 53 38.00
10 55 41.84
10 57 45.97
10 59 50.39
11 155.09
11 4.0.06
11 0 5.30
+6.823
6.848
6.875
6.909
6.999
+6.955
6.969
4.940
+4.964
4.968
4.969
4.996
5.01Q
+5.694
5.038
5.051
5.064
5.077
+5.090
5.103
5.115
5.199
5.149
+5.154
5.166
5.178
' 5.169
5.991
+5.319
+5.994
-15 59 25.7
16 12 35.6
16 25 38.8
16 38 35.2
16 51 24.7
-17 4 7.0
I7IC41."
IIWOVJ
1144 39.7
113217.1
+11 19 49.4
11 7 16.6
10 54 38.8
10 41 55.9
10 29 8.1
+10 16 15.3
10 3 17.7
9 50 15.3
9 37 8.1
9 23 56.1
+ 9 10 39.5
8 57 1£.3
8 43 52.6
830 22.4
8 16 47.8
+ 8 3 8.9
7 49 25.7
7 35 38.4
7 21 47.0
7 7 51.6
+ 6 53 52.3
+ 6 39 49.2
-33.05
39.78
39.49
39.90
31.90
-31.61
30.61
30.83
31.05
-31.38
31.47
31.68
31.88
39.09
-39.30
39.50
39.70
39.90
33.09
33.48
33 67
34>03
-34.91
34.38
34.55
34.79
34.89
-35.05
-36.91
h m
158.1
156.9
155.7
I 54.5
153.3
152.1
• -\ n
5 7.9
5 5.9
5 3.9
5 2.0
5 0.0
4 58.1
4 56.1
4 54.2
4 52.*
4 50.3
4 48.4
4 46.5
4 44.6
4 42.7
4 40.8
4 38.9
4 37.0
4 35.1
4 33.9
4 31.3
4 29.5
4 27.6
4 25.7
4 23.9
4 22.0
the Month.
Semidiameter, . . .
HorisontalParallax
0th.
4.0| *..
14th.
d'.i
5.4
19th.
£o
5.3
ttth.
99th.
ft
54
5.1
#tiona.
Nom-The sign + indicate north declinations; the sign - indicates south d* „^
MARS, 1884.
235
GTOTONWICH MBAK TIME.
NOVEMBER
DECEMBER.
4
1
1
Apparent
Right
Ascension.
Var.of
R.A.
fori
Hour.
Apparent
Declination.
Var.of
Decl.
fori
Honr.
Meridian
1
©
1
Apparent
Ascension.
Var.of
B. A.
fori
Honr.
Apparent
Declination.
Var.of
Deol.
fori
Hour.
Meridian
Passage.
Passage.
Noon.
Noon.
Noon.
Noon.
Noon*
Noon.
Noon.
Noon.
h m 8
a
O 1 n
a
h m
h m s
a
O I II
i'
h ra
1
16 10 31.39
+7.669
-2143 8.4
-91.91
125.8
1
17 46 40.14
+8.984
-24 17 J.I
-3.59
1 3.7
2
16 13 35.7G
7.695
21 51 31.6
90.71
124.9
2
17 49 59.09
8.996
24 18 19.4
9.93
1 3.0
3
16 16 40.76
7.791
2159 42.7
90.91
124.0
3
17 53 18.32
8.307
24 19 21.7
9.96
1 2.4
4
16 19 46.37
7.746
22 7 41.6
19.70
123.2
4
17 56 37.83
8.318
24 20 8.0
1.60
1 1.8
5
1622 52.59
7.779
22 15 28.1
19.18
122.4
5
17 59 57.59
8.308
24 20 38.3
0.93
1 1.2
6
1625 59.41
+7.797
-22 23 2.0
-18.65
121.5
6
18 3 17.59
+8.338
-24 20 52.4
-0.95
1 0.6
1 7
i*«y* phi.
.7.881
22 30 23.2
18.19
120.7
7
18 6 37.82
6.347
24 20 50.4
+ 0.43
1 0.0
8
11 18 42.41
5.281
O I**!* «
. 17.58
1 19.9
8
18 9 58.26
8.355
24 20 32.1
1.10
0 59.4
9
1120 49.53
5.303
4 69 45.6
J».»
U9.1
9
18 13 18.89
8.363
24 19 57.6
1.78
0 58.8
10
1122 56.93
5J313
4 45 14.2
36.37
4 7.4
it
•!S 1^39.70
8.371
24 19 6.7
9.46
058.2
11
1125 4.60
+5.395
+4 3039.7
-36.50
4 5.6
11
12 33. ?
+8.377
-24 17 59.5
+ 3.14
067.6
12
112712.55
5.336
4 16 2.0
30.64
4 3.8
12
12 35 V | 8.383
24 16 35.9
3.89
067.0
13
1129 20.77
5.348
4 121.2
36.77
4 2.0
13
12 ?n .$.388
24 14 55.9
4.50
056.4
14
11 31 29.27
5.360
3 46 37.4
36.88
4 °:. ;;.
J* J.44 vf^09
24 12 59.5
5.19
055.8
15
1133 38.07
5.379
3 31 50.7 ^h.mk..
• t'14.5
15
18 33 25.91
8396
24 10 46.7
5.87
055.2
re
1135 47.15
+5.385
+■3 17 1.0
-37.19
1138
16
18 36 47.45
+6.390
-24 817.5
+ 6.56
054.6
17
1 1 37 56.53
*38?
< 3 2 8.5
87 JM
*».*
i17
18 40 9.05
8.401
24 5 31.8
7.94
054.1
18
1140 6.20
#.410
2 47 13.3
37.35
353.0
48 43 30.70
8.409
24 2 29.8
7.03
0 53.5
19
114216.18
5.499
2 3215.4
37.46
351.2
19
:1 46 62.36
8.403
23 5911.4
8.61
0 52.9
20
1144 26.45
4.435
•U7J$.0
37.57
349.6
20
12 h W>3
8.403
23 55 36.6
9.99
052.3
21
114637.08
+5.447
+2 212.1
—87.67
347.7
21
12 56 - -^9
+8.409
-23 51 45.5
+ 9.97
051.7
22
114847.92
0J46O
147 6.7
87.77
346.0
22
12 59 1* !
8.400
23 47 38.0
10.65
051.2
23
1150 59.12
5.473
I 31 59.0
37.87
344.2
23
13 1 33.'* ' t. 8.397
23 43 14.2
11.33
050.6
24
1153 10.62
5.480
116 49.1
37.06
342.6
24
13 3 56.00. *394
23 38 34.1
19.00
050.0
25
1155^*44
5.409
1 137.1
38.04
340.7
25
13 6 19.2* ' {390
23 33 37.8
19.68
049.4
26
1157 34.57
+f>519
+0 4623.0
-38.19
339.0
26
13 843.94 386
-23 28 25.4
+13.35
048.8
27
,1159 47.01
5.695
0 31 7.0
38 JO
337.2
27
1311 7.0?' 13B1
23 22 56.8
14.09
048.2
28
12 159.77
5.538
JH5 49.2
38.97
335.5
28
13 13 31.67 j !T*5
,23 17 12.2
14.69
047.6
29
12 4 12.84
5.551
+0 029.6
38.34
333.8
29
13 15 56.72 ' . J9
23 11 11.7
15.35
047.0
30
12 6 26.22
5.564
-0 14 51.6
38.41
332.1
,30
13 18 22.23 S3B9
23 4 55.2
16.01
046.4
31
J2 8 39.92 -W.577
-0 30 14.3
-«,4B
330.4
31
13*. 7.69 +#354
-22 58 22.9
+16.67
0 45.8
32 1 12 10 53.95 1 +5.591 -0 45 38.5 | -68.53
328.7
32
13 23 I4.< 0,\>+8.346
-22 51 34.8
+17.33
0 45.2
Day of the Month.
4th.
;
9th,
14 th. J 19th.
i
24th
♦ay*".,^ ;> u*
1st
6th.
11th.
16tfc
l 31st 1
6th.
Slst.
Semidwrneter . .
• 2jfr
♦, »*2
&
&
2.1
t
Semidiameter . .
A
2.1
A
2.1
A
A
A
rtor. Parallax . .
«:-J
B '3.8 3.8
»*
. 3.8
3.8
Hor. Parallax . .
3.8
3.8 3.8
i
3.t
1 3.8
3.7
3.7
The sign + prefixed
r,'f
toarly change of declination indicates that north declinations are increasing and south decKna-
tiona are decree
v The sign — indicates that north doolinattons are decreasing and south declinations increasing.
236
JUPITER, 1884.
GBEENWICH MEAN TIME.
JANUARY.
FEBRUARY.
4
I
Apparent
Right
Ascension.
Var.of
R.A.
fori
Hour.
Apparent
Declination.
Var.of
Dect.
fori
Hour.
Meridian
Passage.
i
Apparent
Right
Ascension.
Var.of
B.A.
fori
Hour.
Apparent
Declination.
Var.of
Decl.
fori
Hour.
Meridian
Parage.
Noon.
Noon.
Noon,
Noon,
Noon.
Noon.
Noon.
Noon.
i
h m b
8 17 10.41
8
-1.214
O I 11
+20 14 35.1
+4.36
1332.4
i
h m s
8 0 25.04
8
-1.3B5
O 1 a
+21 9 53.3
+4.09
h m
1113.9
2
8 16 41.05
1.S33
20 16 20.4
4.40
1328.0
2
7 59 53.37
1.319
21 11 29.0
3.96
11 9.4
3
8 16 11.27
1.9S0
20 18 6.6
4.44
13 23.6
3
7 59 22.03
1.999
21 13 3.3
3.90
11 5.0
4
8 1541.09
1.266
20 19 53.6
4.47
13 19.1
4
7 58 51.03
1.984
21 14 36.1
3.83
11 0.5
5
8 15 10.52
1.9*3
20 2141.3
4.50
13 14.7
5
7 58 20.42
1.968
21 16 7.3
3.76
1056.1
6
8 14 39.59
-1.907
+20 23 29.8
+4.53
13 10.2
6
7 57 50.21
-1.950
+21 17 36.8
+3.69
1051.6
7
8 14 8.32
1.310
20 25 18.8
4.55
13 5.8
7
7 67 20.41
1.939
21 19 4.7
3.69
1047.2
8
8 13 36.73
1.393
20 27 8.3
4.57
13 1.3
8
7 56 51.03
1.914
21 20 30.9
3.55
10 42.8
9
8 13 4.85
1.335
20 28 58.3
4.59
1256.9
9
7 5622.11
1.195
21 21 55.3
3.48
10 38.4
10
8 12 32.69
1.345
20 30 48.6
4.60
1252.4
10
7 55 53.66
1.175
21 23 18.0
3.41
10 34.0
11
8 12 0.28
-1.355
+20 32 39.2
+4.61
1248.0
11
7 55 25.70
-1.154
+21 24 38.9
+3.33
1029.6
12
8 1 1 27.64
1.364
20 34 29.9
4.69
1243.5
12
7 54 58.24
1.133
2125 57.9
3.35
1025.2
13
8 10 54.79
1.379
20 36 20.7
4.69
1239.0
13
7 54 31.31
1.111
21 27 15.1
3.17
1020.8
14
8 10 21.76
1.379
20 38 11.5
4.69
1334.5
L4
7 54 4.93
1.088
21 28 30.4
3.09
1016.4
15
8 9 48.57
1.385
20 40 2.2
4.61
1230.1
15
753 39.11
1.064
2129 43.7
3.01
1012.1
16
8 9 15.25
-1.390
+20 41 52.7
+4.60
1225.6
16
7 53 13.86
-1.040
+21 30 55.1
+9.97
10*7.7
17
8 841.83
1.304
20 43 43.0
4.59
1221.1
17
7 5240J30;
1,015
2132 t.5
9.85
10 3.4
18
8 8 8.33
1.307
20 45 33.0
4.57
12 16.6
18
7 52 25.17*
0.989
21 33H.9
9.77
959.1
19
8 7 34.77
1.309
20 47 22.6
4.55
1212.1
19
7 58 1.75
0.963
21 94 17.2
9.68
954.8
20
8 7 1.18
1.400
20 4911.6
4.53
12 7.6
20
7 5138.97
-~fl.98ft
. "21 35 20.5
9.59
950.5
21
8 6 27.58
-1.309
+20 51 0.1
+4.51
12 3.1
21
7 51 16.85
-0.908
+21 36 21.7
+9.50
946.2
22
8 5 54.01
1.396
20 52 47.9
4.48
1158.6
22
7 50 55.40
0.880
2137fD.8
2.49
941.9
23
8 5 20.48
1.396
20 54 35.0
4.45
1164.1
23
7 50 34.64
0.851
21 38 17.8
&33
937.7
24
8 4 47.03
1.399
20 56 21.2
4.4*
1 1 49.6
24
7 50 14.58
0.891
21 39 12.7,
U4
933.4
25
8 4 13.68
1.387
20 58 6.5
4.37
1145.1
25
7 49 55.23
0.701
2140 5.4
4
*Wk
: 029.1
26
8 3 40.44
-1.381
+20 5950.9
+4.33
1140.7
26
7 49 36.60
-0.761
+21 40 5K9
+9.06
924.9
27
8 3 7.35
1.374
21 1 34.3
4.98
1136.2
27
7 49 18.71
0.730
21 41 44.3
1.97
920.7
28
8 2 34.44
1.367
21 3 16.6
4.93
1131.7
28
7 49 1.56
0.699-
.21 42 30.5
1.88
916.5
29
8 2 1.73
1.358
21 4 57.7
4.18
1127.2
29
7 48 45.17
0.607
21 43 14.5
1.79
912.3
30
8 129.24
1.348
21 6 37.5
4.13
1122.8
30
7 48 29.58
0.635
21 43 56.3
1.70
9 8.1
31
8 0 57.00
-1.337
+21 8 16.1
+4.08
11 18.3
31
7 4844.67
-0.603
+21 44 36.0
+1j60
9 4X)
32
8 0 25.04
-1.385
+21 9 53.3
+4.09
It 13.9
39-1
7 48 0.60
-0.570
+21 45 13.5
+1.61
859.8
Day of the Month.
1st
Utb.
Usk
Slst
Bay of the Month.
1st.
Uth.
. list.
81st.
Polar Semidiameter . .
Horizontal Parallax . .
2.1
21.9
2.1
22.0
2.1
211)
2.1
# ■-■—"-■
Polar Semidiameter . .
HorisontalParallax . .
21*
3.1
2\%
2.0
2L2
2.0
•20.7
1.9
Not
t— The sign 4- indicates north declinations; the sign — indicates south declinations.
•
JUPITER, 1884.
237
GrBEENWIOH MEAN TIME.
MABCH.
APRIL.
4
I
Apparent
Ascension.
Var.of
B.A.
fori
Hour.
Apparent
Declination.
Var.of
Decl.
fori
Honr.
Meridian
Passage.
1
Apparent
Right
Ascension.
Var.of
RA.
fori
Hour.
Apparent
Decimation.
Var.of
Decl.
fori
Honr.
Meridian
Passage.
Noon,
Noon.
Noon.
Noon,
Noon,
Noon,
Noon.
Noon.
i
h m s
7 48 29.53
8
-0.635
+21 43 56.3
+1.70
h m
9 8.1
1
h m s
7 47 3.47
s
+0.406
O / //
+2147 45.6
-1.05
h m
7 4.9
2
7 4814.67
0.003
21 44 36.0
1.60
9 4.0
2
747 13.59
0.438
21 47 19.3
1.14
7 1.1
3
7 48 0.59
0.570
21 45 13.5
1.61
859.8
3
7 47 24.48
0.470
2146 51.1
1.93
657.4
4
7 47 47.30
0.537
2145 48.8
1.49
855.6
4
7 47 36.13
0.509
214620.8
1.31
653.7
5
7 47 34.80
0.504
2146 21.9
1.33
851.5
5
7 47 48.55
0.534
21 45 48.5
1.39
650.0
6
7 47 23.09
-0.471
+2146 52.8
+1.94
847.4
6
7 48 1.71
+0.565
+21 45 14.2
-1.48
646.3
7
7 47 12.18
0.438
2147 21.6
1.15
843.3
7
74815.63
0.598
21 44 37.9
1.56
642.6
8
7 47 2.08
0.405
2147 48.2
1.06
839.2
8
7 48 30.28
0.696
21 43 59.6
1.64
638.9
9
7 46 52.79
0.371
21 48 12.6
0.97
835.1
9
7 48 45.66
0.656
21 43 19.4
1.79
635.2
10
7 46 44.30
0.337
21 48 34.8
0.88
831.0
10
7 49 1.77
0.686
21 42 37.2
1.80
631.5
11
7 46 36.62
-0.303
+21 48 54.9
+0.79
826.9
11
7 49 18.60
+0.716
+21 41 53.1
-1.89
627.9
12
7 46 29.75
0.969
21 49 12.8
0.70
822.9
12
7 49 36.15
0.745
2141 7.0
1.97
624.2
13
7 46 23.70
0 935
21 49 28.5
0.61
818.9
13
7 49 54.39
0.774
21 40 18.9
9.05
620.6
14
7 46 18.47
0.901
21 49 42.1
0.59
814.9
14
7 50 13.32
0.803
2139 28.8
2.13
617.0
15
7 46 14.05
0.167
21 49 53.6
0.43
810.9
15
7 50 32.95
0.839
21 38 36.8
9.91
613.4
16
7 46 10.44
-0.133
+2150 2.9
+0.34
8 6.9
16
7 50 53.27
+0.861
+21 37 42.6
-9.99
6 9.8
17
7 46 7.64
0.009
215010.1
0.95
8 2.9
17
7 51 14.27
0.889
21 36 46.8
9.37
6 6.2
18
7 46 5.67
0.065
21 50 15.2
0.16
7 59.0
18
7 51 35.94
0.917
2135 48.9
9.45
6 2.6
19
7 46 4.51
-0.031
21 50 18.2
+0.07.
7 55.0
19
7 51 58.27
0.944
2134 49.1
9.53
559.1
90
7 46 4.17
+0.003
21 60,19.1
-0.01
7 51.1
20
7 5221.26
0.971
2133 47.3
9.61
555.5
31
7 46 4.64
40.037
+21 50 17.8
-0.10
747.2
21
7 52 44.90
+0.998
+21 32 43.6
-9.70
562.0
22
746 5.94
#.071
21 50 14.4
0.19
743.3
22
7 53 9.18
1.095
21 31 37.9
9.78
548.5
23
7 4«v6.06
0.105
2150 8.9
0.98
7 39.4
23
753 34.11
1.059
21 30 30.3
9.86
545.0
24
7 46 41.00
0.139
2150 1.3
0.37
7 35.5
24
7 5359.67
1.078
21 29 20.8
9.94
541.5
25
7'* 14.76
0.173
2149 51.7
0.46
7 31.6
25
7 54 25.85
1.104
2128 9.3
3.09
5 38.0
26
7 46 19.30
4&.907
+21 49 39.9
-0.54
727.8
26
7 54 52.65
+1.199
+21 26 55.9
-3.10
534.5
27
7 46 24.67
0.941
21 49 26.0
0.63
7 23.9
27
7 55 20.05
1.154
21 25 40.6
3.18
531.0
28
7 46 30.84
0.974
21 49 10.0
0.79
720.1
28
7 55 48.05
1.179
21 24 23.4
3.96
527.5
29
7 46 37.81
0.307
21 48 52.0
0.80
716.3
29
7 56 16164
1.903
2123 4.3
3.34
624.0
30
7 46 45.58
0.340
214831.9
0.88
712.5
30
7 56 45.80
1.997
21 21 43.3
3.41
520.6
31
7 46 54.13
+0.373
+2148 9.8
-0.96
7 8.7
31
757 15.54
+1.951
+21 20 20.4
-3.49
517.2
32
7 47 3.47
+0,406
+21 47 45.6
-1.05
7 4.9
32
7 57 45.84
+1.974
+21 18 55.6
-3.57
513.8
Day of the Month.
1st
Uth.
21st.
Slst.
Day of the Month.
1st.
Uth.
91st.
31st
Polar Semidiameter . .
Horizontal Parallax . .
2rf!2
1.9
20J
1.9
19%
1.8
lift)
1.8
Polar Semidiameter . .
Horizontal Parallax . .
1.8
1.7
if*
1.7
17.2
1.6
The sign -f prefixed to the hourly change of declination Indicates
tions are decreasing. The sign — indicates that north declinat
that north declinations are increasing and south deolina-
ions are decreasing and south declinations increasing.
238
JUPITER, 1884.
GBEENWICH MEAN TIME.
MAY.
JUNE.
1
1
Apparent
Right
Ascension.
Var.of
R.A.
fori
Hour.
Apparent
Declination.
Var.of
DecL
fori
Hour.
Moridlan
Passage.
a
1
Apparent
Right
Asconaion.
Var.of
B.A.
fori
How.
Apparent
Declination.
Var.of
Deol.
fori
Hour.
Moridlan
Pasngo.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Assia.
Noon.
1
h m a
7 57 15.54
a
+1.951
O / /#
+2120 20.4
-3.49
h ro
517.2
i
h m a
8 16 37.38
8
+1.893
+20 22 13*8
f
-6.85
h ra
334.6
2
7 57 45.84
1.S74
21 18 55.6
3.57
513.8
2
817 21.29
1.837
20 19 52.5
&J8
3 31.4
3
7 58 10.69
1.997
21 17 28.9
3.65
510.4
3
818 5.52
1.850
201729.5
6.00
328.2
4
7 58 48.10
1.390
21 16 0.3
3.73
5 7.0
4
8 18 50.07
1.863
2015 4.8
6.07
325.0
5
7 59 20.04
1.349
21 14 29.9
3.80
5 3.6
5
8 19 34.92
1.876
2012 38.3
6.14
321.8
6
7 59 52.51
+1.364
+21 12 57.6
-3.88
5 0.2
6
820 20.07
+1.888
+20 10 10.2
-4.91
318.7
7
8 0 25.50
1385
21 11 23.5
3.96
4 56.8
7
8 21 5.51
1.900
20 7 40.4
6.98
315.5
8
8 0 59.00
1.406
21 9 47.5
4.04
4 53.4
8
8 2151.24
1.919
20 5 8.9
6.35
312.3
9
8 133.00
1.497
21 8 9.6
4.19
4 50.1
9
8 22 37.24
1.993
20 2 35.7
6.49
3 9.1
10
8 2 7.50
1.448
21 6 29.9
4.90
4 46.7
10
8 23 23.52
1.934
20 0 0.8
6.49
3 6.0
11
8 2 42.49
+1.468
+21 4 48.4
-4.97
4 43.4
11
8 24 10.07
+1.945
+19 57 24.2
HU»
3 2.8
12
8 3 17.95
1.488
21 3 5.0
4.35
4 40.0
12
8 24 66.88
1.956
19 54 45.9
6.63
259.7
13
8 3 53.89
1.508
21 1 19.8
4.43
4 36.7
13
8 25 43.94
1.966
19 52 6.0
6.70
256.5
14
8 4 30.30
1.597
20 59 32.7
4.50
4 33.3
14
826 31.25
1.977
19 49 24.4
6.77
253.4
15
8 5 7.17
1.548
20 57 43.8
4.58
4 30.0
15
8 2718.81
1.1*7
19 46 41.2
6.84
250.2
16
8 5 44.48
+1.565
420 55 53.1
-4.65
4 26.7
16
8 28 6.61
+1.997
+19 43 56.3
-6.90
247.1
17
8 6 22.25
1.583
20 54 0.5
4.73
4 23.4
17
8 28 54.65
9.007
1941 9.8
6.97
243.9
18
8 7 0.45
1.601
20 52 6.1
4.80
4 20.1
18
8 29 42.91
9.016
19 38 21.7
7.04
240.8
19
8 7 39.09
1.619
20 50 9.8
4.88
4 16.8
19
8 80 31.39
9.095
19 35 32.0
7.10
237.7
20
8 818.15
1.636
20 48 11.7
4.96
413.5
20
8 31 20.09
MM
19 3240.6
7.17
234.6
21
8 8 57.63
+1.653
+20 46 11.8
-5.03
410.3
21
8 32 9.00
+9.043
+19 29 47.6
-7.94
231.5
22
8 9 37.52
1.670
20 44 10.1
5.11
4 7.0
22
8 32 58.12
9.051
19 26*3.1
7.M
22&4
23
8 10 17.82
1.687
20 42 6.5
5.19
4 3.7
23
833 47.44
9.059
19 23 57.0
r.*
225.2
24
8 10 58.52
1.703
20 40 1.1
5.96
4 0.4
24
8 34 36.95
9.067
19 20 59.4
♦t.44
222.1
25
8 1 1 39.60
1.719
20 37 53.9
5.34
357.2
25
8 35 26.64
9.074
1918 0.3-
•710
219.0
20
8 12 21.06
+1.735
+20 35 44.9
-6.41
353.9
26
8 36 16.52
+9.081
+19 14 69.6
-7.56
215.9
27
8 13 2.90
1.750
20 33 34.1
5.49
350.7
27
8 37 6.57
9.068
191157.4
7.69
2 12.8
28
8 13 45.10
1.765
20 3121.6
5.58
347.5
28
8 37 56.78
9.01ft
19 8 53.7
7.68
2 9.7
29
8 14 27.65
1.780
20 29 7.3
5.64
344.3
29
8 38 47.15
9.109
19 5 48.6
7.74
2 0.6
30
8 15 10.55
1.795
20 26 51.2
5.71
341.0
30
839 37.68
9.106
19 242.0
7.80
2 3.5
31
8 15 53.80
+1.809
+20 24 33.4
-5.78
337.8
31
8 40 28.35
+9.114
+18 59 34.0
-7.86
2 0.4
32
8 16 37.38
+1.893
+20 2213.8
-5.85
334.6
32
8 41 19.17
+9.190
+1856 24.5
-7.89
157.3
Day of the Month.
1st.
Uth.
91st.
flat.
Day of the Month.
1st
Uth.
21st.
Slat
Polar Semidiameter . .
Horizontal Parallax . .
if*
1.6
1&
1.6
16.4
1.0
i£o
15
Polar Semidiameter . .
Horizontal Parallax . .
lo\0
1.5
15".7
1.5
1.5
1&
1.4
Not*.— The sign + indicates north declinations;
the sign — indicates south deolinations.
JUPITER, 1884.
239
GREENWICH MEAN TIME.
JULY.
AUGUST.
1
1
Apparent
Right
Ascension.
Var.of
R.A.
fori
Hour.
Apparent
Declination.
Var.of
Bed.
fori
Hour.
Meridian
Passage.
i
i
i
Apparent
{font
Ascension.
Var.of
R.A.
fori
Hour.
Apparent
Declination.
Var.of
Bed.
fori
Hour.
Meridian
Fasaage.
Noon,
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
1
h m s
8 40 28.35
s
+2.114
+18 59 34'.b
-7.86
h m
2 0.4
i
h m s
9 7 25.62
8
-WJW1
O 1 n
+171149.0
-9.39
h m
025.4
2
8 41 19.17
9.190
18 56 24.5
7.99
157.3
2
9 8 18.42
9.900
17 8 3.2
9.43
022.3
3
8 4210.12
S.196
18 5313.7
7.98
154.2
3
9. 9 11.20
9.199
17 4 16.5
9.47
019.3
4
8 43 1.21
9.131
18 50 1.4
8.04
151.2
4
910 3.97
2.198
17 0 29.0
9.50
016.2
5
8 43 52.42
9.136
1846 47.7
8.10
148.1
5
9 10 56.72
9.197
16 66 40.7
9.53
013.2
6
8 44 43.75
+9.141
+18 43 32.6
-6.16
145.0
6
91149.44
+9.196
+16 52 51.6
-9.56
010.1
7
8 45 35.20
9.146
18 40 16.2
8.99
142.0
7
912 42.13
9.195
16 49 1.8
9.59
0 7.1
8
8 46 26.76
9.151
18 36 58.5
8.97
138.9
8
913 34.78
9.194
16 45 11.2
9.69
0 4.0
9
8 47 18.42
9.155
18 33 39.4
8.33
135.8
9
9 14 27.40
9.199
16 41 19.9
9.65
t 0 0.9
J» 57.9
10
8 48 10.19
9.159
13 30 19.0
8.33
132.7
10
9 15 19.98
9.190
16 37 27.9
9.68
2354.8
11
8 49 2.05
+9.163
+18 26 57.2
-8.43
129.7
11
9 16 12.51
+9.188
+16 33 35.2
-9.71
2351.7
12
8 49 54.01
9.167
18 23 34.2
8.49
126.6
12
917 5.00
9.186
16 29 41.9
9.74
2348.7
13
8 50 46.06
9.171
18 20 9.9
8.54
123.5
13
9 17 57.43
9.184
16 25 48.0
9.77
23 45.6
14
8 51 38.20
9.174
1816 44.3
8.60
120.5
14
9 18 49.80
9.181
16 21 53.5
9.79
2342.6
15
8 52 30.42
9.177
18 13 17.4
8.65
117.4
15
9 19 42.11
9.178
16 17 58.4
9.81
2339.5
16
8 53 22.71
+9.180
+18 9 49.3
-8.70
114.3
16
9 20 34.35
+9.175
+1614 2.8
-9.83
23 36.5
17
8 54 15.08
9.183
18 6 20.0
8.75
111.3
17
9 21 26.52
9.179
1610 6.7
9.85
23 33.4
18
8 55 7.51
9.186
18 2 49.5
8.80
1 8.2
18
9 2218.60
9.169
16 6 10.1
9.87
23 30.3
19
8 56 0.01
9.180
17 5917.8
8.85
1 5.1
19
9 23 10.61
9.165
16 2 13.1
9.89
2327.3
20
8 56 52.56
9.101
17 56 45.0
8.90
1 2.1
20
9 24 2.53
9.161
15 5815.7
9.90
2324.2
21
8 57 45.16
+9.193
+17 5211.0
-8.94
059.0
21
9 24 54.36
+3.157
+15 54 17.9
-9.99
2321.1
22
8 5837.81
9.195
17 48 35.9
8.99
0 55.9
22
9 25 46.08
9.153
15 50 19.7
9.93
2318.0
23
8 5^30.50
9.196
17 44 59.7
9.03
052.8
23
9 26 37.70
9.149
15 46 21.2
9.94
2314.9
24
9 0 23.23
9.197
17 4122.5
9.06
049.8
24
9 27 29.23
9.145
15 42 22.4
9.95
23 11.8
25
9 115.98
9.198
17 3744.2
9.19
046.7
25
9 28 20.64
9.140
15 38 23.4
9.96
23 8.7
26
9 2 8.75
+4.199
+17 34 4.9
-9.16
0 43.7
26
9 2911.93
+9.135
+15 34 24.1
-9.97
23 5.7
27
9 3 1.54
9.900
17 30 24.6
9.90
040.6
27
9 30 3.09
9.199
15 30 24.6
9.98
23 2.6
28
9 3 54.35
9.901
17 26 43.3
9.94
0 37.6
28
9 30 54.12
9.194
15 26 25.0
9.98
2259.5
29
9 4 47.17
9.901
17 23 1.1
9.98
034.5
29
9 3145.03
9.118
15 22 25.3
9.99
2256.4
30
9 5 39.99
9.901
17 19 18.0
9.39
031.5
30
9 32 35.80
9.119
15 18 25.5
9.99
2253.3
31
9 6 32.81
+9.201
+17 15 33.9
-9.35
028.4
31
9 33 26.43
+9.106
+15 14 25.6
-10.00
2250.2
32
9 7 25.62
-HsJBOl
+17 1149.0
-9.39
025.4
32
9 34 16.91
+9.160
+1510 25.6
-10.00
2247.1
Bay of the Month.
1st.
11th
21st
Slst.
Bay of the Month.
1st
nth.
aist
Slst
Polar Semidiameter . .
Horizontal Parallax . .
iiCi
1.4
lift
1.4
1 14 '.9
1.4
14".8
1.4
Polar Semidiameter . .
Horizontal Parallax . .
1.4
14%
1.4
1 14".9
1.4
14'!9
1.4
The sign + prefixed to the hourly change of declination indicates that north declinations are increasing and south declina-
tions are decreasing. The sign — indicates that north declinations are decreasing and south declinations increasing.
240
JUPITER, 1884.
GREENWICH MEAN TIME.
SEPTEMBER.
OCTOBER.
I
1
Apparent;
Right
Ascension.
Var.of
RA.
fori
Hour.
Apparent
Declination.
Var.of
DecL
fori
Hour.
Meridian
Passage.
I
1
Apparent
Bight
Aaoenaion.
Var.of
RA.
fori
Hour.
Apparent
Declination.
Var.of
Deol.
fori
Hour.
Meridian
Passage.
Noon.
Noon.
Noon.
Noon,
Noon.
Noon.
Noon.
Noon.
1
h m a
9 34 16.91
a
+2.100
+15 10 25.6
-10.00
h m
2247.1
1
h m 8
9 58 1.79
+1.896
O / H
+1313 1.3
-9.33
h m
21 12.7
2
9 35 7.25
2.094
15 6 25.7
10.00
2244.0
2
9 56 45.45
1.813
13 9 18.0
9.98
21 9.5
3
9 35 57.44
9.068
15 2 25.8
10.00
2240.9
3
9 59 28.81
1.800
13 5 35.8
9.93
21 6.3
4
9 36 47.47
2.081
14 58 25.9
9.99
2237.8
4
10 0 11.87
1.788
13 154.9
9.18
21 3.1
5
9 37 37.33
9.074
14 54 26.1
9.99
2234.7
5
10 0 54.62
1.775
12 6815.3
9.13
2050.9
6
9 38 27.03
+41.067
+14 5026.5
-9.98
2231.6
6
10 1 37.05
+1.769
+12 64 37.0
-9.07
20 56.7
7
9 39 16.56
9.080
14 46 27.0
9.97
2228.5
7
10 219.15
1.748
1251 0.0
9.01
20 53.4
6
9 40 5.92
9.053
14 4227.8
9.96
2225.4
8
10 3 0.93
1.734
12 47 24.4
8.95
2050.1
9
9 40 55.09
9.046
14 38 28.7
9.95
2222.3
9
10 3 42.38
1.790
12 43 50.2
6.89
2046.9
10
9 41 44.09
9.038
14 34 29.8
9.94
2219.1
10
10 4 23.49
1.706
12 40 17.5
8.83
2043.7
11
9 42 32.90
+9.030
+14 30 31.2
-9.93
2216.0
11
10 6 4.25
+1.691
+12 36 46.4
-8.77
2040.4
12
9 43 21.52
9.099
14 26 32.9
9.99
2212.9
12
10 5 44.66
1.676
12 33 16.8
8.70
20 37.1
13
9 44 9.94
9.014
14 22 35.0
9.90
22 9.8
13
10 6 24.72
1.661
12 29 48.8
8.63
20 33.9
14
9 44 58.17
9.005
14 18 37.5
9.88
22 6.6
14
10 7 4.41
1.646
1226 22.5
8.56
20 30.6
15
9 45 46.19
1.006
14 14 40.4
9.86
22 3.5
15
10 7 43.73
1.631
12 92 57.9
8.49
20 27.3
16
9 46 34.00
+1.967
+14 10 43.9
-9.84
22 0.3
16
10 6 22.67
+1.615
+1219 35.1
-8.49
20 24.0
17
9 47 21.59
1.978
14 6 47.9
9.89
21 57.2
17
10 9 1.23
1.599
12 16 14.1
8.34
20 20.7
18
9 48 8.95
1.989
14 2 52.4
9.80
2154.0
18
10 9 39.40
1.583
12 12 55.0
8.96
2017.4
19
9 48 56.08
1.959
13 58 57.5
9.77
2150.9
19
10 IX) 17.17
1.666
12 9 37.8
8.18
2014.1
20
9 49 42.97
1.949
13 55 3.3
9.74
21 47.7
20
10 10 54.54
1.549
12 622.5
8.10
2010.7
21
9 50 29.63
+1.939
+13 51 9.7
-9.71
2144.6
21
101131.50
+1.539
+12 3 9.3
-%J1
20 7.4
22
9 5t 16.05
1.999
13 47 16.9
9.68
21 4K4
22
10 12 8.05
1.614
1159 58.2
* *.99
20 4.1
23
9 52 2.21
1.918
13 43 24.9
9.65
21 38.3
23
10 12 44.17
1.498
11 56 49.1
7.83
20 0.8
24
9 52 48.11
1.907
13 39 33.7
9.69
2135.1
24
10 13 19.86
1.478
1153 42.2
7.74
1957.4
25
9 53 33.76
1.896
13 35 43.3
9.58
21 31.9
25
10 13 55.12
1.460
1160 37.6
7.65
1954.1
26
9 54 19.13
+1.885
+13 31 53.8
-9.54
2128.7
26
10 14 29.93
+1.441
+1147 35.2
-7.55
1950.7
27
9 55 4.23
1.874
13 28 5.3
9.50
2125.5
27
1015 4.29
1.499
1144 35.2
7.45
1947.3
28
9 5549.05
1.869
13 24 17.7
9.46
2122.3
28
1015 38.20
1.403
1141 37.5
7.35
1943.9
29
9 56 33.58
1.850
13 20 31.2
9.49
21 19.1
29
1016 11.65
1.384
1138 42.2
7.95
1940.5
30
9 57 17.83
1.838
13 16 45.7
9.38
21 16.9
30
10 16 44.64
1.365
1135 49.3
7.15
1937.1
31
9 58 1.79
+1.896
+13 13 1.3
-9.33
21 12.7
31
10 17 17.16
+1.345
+1132 58.9
-7.05
1933.7
32
9 58 45.45
+1.813
+13 918.0
-9.98
21 9.5
32
1017 49.21
+1.395
+119611.0
-6.94
1930.3
Day of the Month.
lit.
nth.
21st.
Slat.
Day of the Month.
1st.
Uth.
list.
Slat.
Polar Semi diameter . .
Horizontal Parallax . .
15"0
1.4
15J
1.4
15.3
1.4
15*
1.5
Polar Semidiameter . .
Horizontal Parallax . .
1^.6
1.5
i5':8
1.5
16.1
15
1.6
Note.— The sign -f Indicate* north declinations; the sign — Indicate! south declinations.
JUPITER, 1884
241
GREENWICH MEAN TIME.
NOVEMBER
DECEMBER.
S
O
£
1
Apparent
Bight
Ascension.
Var.of
It. A.
fori
Hoar.
• Apparent
Declination.
Var. of
Decl.
fori
Hour.
Meridian
Passage.
§
Apparent
Kight
Ascension.
Var.of
It. A.
fori
Hour.
Apparent
Declination.
Var.of
Docl.
fori
Hoar.
Meridian
Passage.
Noon.
Noon.
Noon,
Noon.
Noon.
Noon.
Noon.
Noon.
-3 89
h m s
10 17 49.21
s
41.395
+11° 30 ll'.O
-6.94
h in
1930.3
I
h m s
10 29 37.05
8
+0.601
+10 29 56.2
U 111
17 43.9
2
10 18 20.77
1.305
1127 25.7
6.83
1926.9
2
1029 51.14
0.573
10 28 50.5
9.66
17 40.2
3
10 18 51.84
1.985
11 24 43.0
6.79
1923.5
3
10 30 4.56
0.545
10 27 48.8
3.49
17 36.5
4
10 19 22.43
1.984
1122 2.9
6.61
19 20.1
4
10 30 17.31
0.517
1026 51.1
8.33
17 32.8
5
10 19 52.51
1.343
11 19 25.6
6.50
19 16.6
5
10 30 29.38
0.489
10 25 57.4
9.15
1729.1
6
10 20 22.09
+1.922
+11 1651.1
-6.38
1913.2
6
10 30 40.75
+0.460
+10 25 7.8
-1.98
1725.3
7
10 20 51.15
1.900
11 14 19.5
6.26
19 9.8
7
10 30 51.43
0.431
10 24 22.2
1.81
1721.5
8
10 21 19.70
1.178
11 11 50.7
6.14
19 0.3
8
10 31 1.42
0.403
10 23 40.8
1.64
17 17.7
9
10 21 47.72
1.156
11 9 24.9
6.09
19 2.8
9
10 31 10.71
0.373
10 23 3.5
1.47
1713.9
10
10 22 15.21
1.134
11 7 2.1
5.89
1859.3
10
10 31 19.28
0.343
10 22 30.4
1.99
1710.1
11
10 22 42.16
+1.111
+11 4 42.4
-5.76
18 55.8
11
10 3127.15
+0.313
+10 22 1.5
-1.11
17 6.3
12
10 23 8.56
1.088
11 2 25.7
5.63
1852.3
12
10 31 34.30
0.963
10 2136.9
094
17 2.5
13
10 23 34.40
1.065
11 0 12.1
5.50
1848.8
13
10 31 40.73
0.953
10 21 16.5
0.76
1658.7
14
10 23 59.68
1.049
10 58 1.7
5.37
1845.3
14
10 31 46.43
0.993
10 21 0.5
0.58
16 54.6
15
10 24 24.40
1.018
10 55 54.5
5.93
1841.8
15
10 31 51.41
0.193
10 20 48.7
0.40
16 50.9
JG
10 24 48.54
+0.994
+10 53 50.6
-5.09
1838.3
(6
10 31 55.66
+0.163
+10 20 41.2
-0.99
1647.1
17
10 25 12.09
0.969
10 51 50.0
4.95
1834.7
17
10 31 59.17
0.133
10 20 36.0
-0.04
1643.2
18
10 25 35.05
0.944
10 49 52.8
4.81
1831.2
18
10 32 1.94
0.101
10 20 39.2
+0.14
16 39.3
19
40 25 57.41
0.919
10 47 59.0
4.67
1827.6
19
10 32 3.98
0.070
10 20 44.7
0.39
16 35.4
20
10 26 19.16
0.894
10 46 8.7
4.53
1824.0
20
10 32 5.28
0.039
10 20 54.5
0.50
1631.5
21
10 26 40.31
+0.869
+10 44 22.0
-4.37
1820.4
21
10 32 5.84
+0.008
+10 21 8.6
+0.68
1627.6
22
10 27 0.84
0.843
10 42 38.8
4.S9
18 16.8
22
10 32 5.66
-0.033
10 21 27.0
0.86
1623.7
23
10 27 20.75
0.817
10 40 59.2
4.07
18 13.2
23
10 32 4.74
0.054
10 2149.7
1.04
16 19.7
24
10 27 40.04
0.791
10 39 23.2
3.99
18 9.6
24
10 32 3.09
0.084
10 22 16.8
1.29
16 15.7
25
10 27 58.69
0.764
10 37 50.8
3.77
18 5.9
25
10 32 0.70
0.115
10 22 48.1
1.40
1611.7
26
10 28 16.70
+0.737
+10 36 22.2
-3.61
18 2.3
26
10 31 57.57
-0.145
+10 23 23.8
+1.58
16 7.7
27
10 28 34.07
0.710
10 34 57.4
3.46
17 58.7
27
10 31 53.71
0.176
10 24 3.7
1.76
16 3.7
28
10 28 50.80
0.683
10 33 36.4
3.30
17 55.0
28
10 31 49.12
0.306
10 24 47.8
1.94
1559.7
29
10 29 6.87
0.656
10 32 19.1
3.14
17 51.3
29
10 31 43.80
0.337
10 25 36.1
9.11
1555.7
30
10 29 22.29
0.699
10 31 5.7
2.98
1747.6
30
10 31 37.74
0.967
10 26 28.7
9.38
1551.7
31
10 29 37.05
+0.601
+10 29 56.2
-3.89
17 43.9
31
10 31 30.96
-0.998
+10 27 25.4
+3.45
1547.6
32
10 29 51.14
+0.573
+10 28 50.5
-9.66
17 40.2
32
10 3123.45
-0.398
+10 28 26.3
+8.63
1543.6
Day of the Month.
1st.
Uth.
91st.
Slst.
Day of the Month.
1st.
Uth.
31st.
Slst.
Polar Semidiameter . .
Horizontal Parallax . .
16.6
1.6
1*1
1.6
17.6
1.7
18.1
1.7
Polar Semidiameter . .
Horizontal Parallax . .
18.1
1.7
18.7
1.8
19.2
1.8
19.8
1.9
The sign + pressed to the hourly change of declination indicates that north declinations are increasing and south declina-
tions are decreasing. The sign — indicates that north declinations are decreasing and south declinations increasing.
16
242
SATURN, 1884.
GREENWICH MEAN TIME.
JANUABY.
FEBRUARY.
4
1
1
Ascension.
Var.of
R A.
fori
Hour.
Apparent
Declination.
Var.of
DecL
fori
Hoar.
Meridian
Paange.
i
Apparent
Right
Ascension.
Var.of
R.A.
fori
Hoar.
Apparent
Declination.
Var.of
Decl.
fori
Hoar.
Meridiau
PtJBftge.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
1
li m i
4 10 21.06
a
-6.003
o
+19
* it
6 4.4
-1.05
h m
926.5
i
h m a
4 6 8.09
8
-0.051
O / /»
+19 2 33.6
+0.53
h m
720.5
2
4 10 6.77
0.588
19
5 30.8
1.00
922.3
2
4 6 7.11
0.031
19 2 47.3
0.59
716.6
3
4 9 52.84
0 573
19
5 16.3
0.95
918.2
3
4 6 6.60
-O.01I
19 3 2.3
0.65
7 12.6
.4
4 9 39.28
0.558
19
4 53.8
0.90
914.0
4
4 6 6.56
+0.010
19 3 18.6
0.70
7 8.7
5
4 9 26.09
0.542
19
4 32.4
0.S6
9 9.9
5
4 6 7.00
0.039
19 3 36.3
0.75
7 4.8
0
4 9 13.27
-o.«w
+19
4 12.1
-6.89
9 5.7
6
4 6 7.91
40.048
+ 19 3 55.2
40.81
7 0.8
7
4 9 0.83
0.510
19
3 52.9
0.77
9 1.6
7
4 6 9.29
0.067
19 4 15.5
0.87
656.9
8
4 8 48.79
0.494
19
3 34.9
0.79
857.4
8
4 6 11.14
0.087
19 4 37.0
0.99
653.0
9
4 8 37.14
0.477
19
3 18.0
0.67
853.3
9
4 6 13.46
0.106
19 4 59.8
0.97
649.1
10
4 8 25.89
0.460
19
3 2.3
0.63
849.2
10
4 6 16.25
0.196
19 5 23.9
1.09
645.3
11
4 8 15.05
-0.443
+19
2 47.8
-0.58
845.1
11
4 6 19.50
+0.145
+19 5 49.2
+1.08
641.4
12
4 8 4.62
0.490
19
2 34.5
0.53
841.0
12
4 6 23.22
0.164
19 6 15.8
1.13
6 37.5
13
4 7 54.01
0.409
19
2 22.4
0.48
836.9
13
4 6 27.41
0.184
19 6 43.6
1.18
6 33.6
14
4 7 45.00
0.389
19
2 11.5
0.43
8 32.8
14
4 C 32.06
0.903
19 7 12.6
1.93
629.8
15
4 7 35.82
0.374
19
2 1.8
0.38
828.7
15
4 6 37.17
0.923
19 7 42.9
1.99
625.9
16
4 7 27.07
-0.356
+19
153.4
-0.33
824.7
16
4 6 42.75
40.949
+19 8 14.4
+1.34
622.1
17
4 7 18.75
0.338
19
146.2
0.98
820.6
17
4 6 48.78
0.961
19 8 47.1
1.39
618.3
18
4 7 10.86
0.320
19
140.3
0.23
816.5
18
4 6 55.27
0.980
19 9 21.0
1.44
614.5
19
4 7 3.41
0.309
19
135.7
0.17
8 12.5
19
4 7 2.22
0.999
19 9 56.0
1.49
610.6
20
4 0 56.41
0.983
19
I 32.3
0.19
8 8.4
20
4 7 9.63
0.318
19 10 32.3
1.54
6 6.8
21
4 6 49.85
-0.964
+19
1 30.2
-0.07
8 4.4
21
4 7 17.49
40.337
+19 11 9.7
+1.59
6 3.0
22
4 U 43.74
0.945
19
129.4
-0.01
8 0.4
22
4 7 25.80
0.356
19 1 1 48.2
1.64
559.2
23
4 6 38.09
0.996
19
129.9
+0.04
7 56.4
23
4 7 34.56
0.375
19 12 27.9
1.68
555.5
24
4 6 32.90
0.907
19
131.7
0.09
752.3
24
4 7 43.77
0.394
19 13 8.7
1.73
551.7
25
4 6 28.16
0.188
19
134.8
0.15
748.3
25
4 7 53.43
0.419
19 13 50.6
1.78
547.9
20
4 6 23.88
-0.168
+19
130.3
+0.91
744.3
26
4 8 3.53
+0.430
+19 14 33.6
+1.89
544.2
27
4 6 20.07
0.149
19
145.1
0.96
740.4
27
4 8 14.07
0.448
19 15 17.7
1.86
5 40.4
28
4 6 16.73
0.130
19
1 52.2
0.31
7 36.4
28
4 8 25.05
0.466
19 16 2.8
1.91
536.7
29
4 6 13.66
0.110
-19
2 0.6
0.37
7 32.4
29
4 8 36.46
0.484
19 16 49.0
1.95
5 32.9
30
4 6 11.46
0.090
19
210.2
0.48
728.4
30
4 8 48.30
0.509
19 17 36.2
1.99
529.1
31
4 6 9.54
-0.071
+19
2 21.2
+0.48
7 24.5
31
4 9 0.58
+0.590
+19 18 24.4
49.03
525.4
32
4 6 8.09
-0.051
+19
2 33.6
+0.53
720.6
32
4 9 18.28
+0.538
+19 19 13.6
49.07
521.7
Day of tho Month.
1st
Uth.
Slat
Slat
Day of the Month.
1st.
Uth.
Slat.
Slat.
Polar Seniidiameter . .
Horizontal Parallax . .
lb
1.1
1.1
9<J
1.0
9%
1.0
Polar Semidiameter . .
Horizontal Parallax . .
tfo
1.0
8.S
l.C
V
8.7
1.0
as
1.0
Note.— The sign + indicates north declinations; the sign — indicate* south declinations.
SATURN, 1884.
243
GREENWICH MEAN TIME.
MARCH.
APRIL.
3
i
'•M
o
1
Apparent
Right
Ascension.
Var.of
K.A.
fori
Hour.
Apparent
Declination.
Var.of
Decl.
fori
Hour.
Meridian
Passage.
I
1
Apparent
Right
Ascension.
Var.of
B.A.
fori
Hour.
Apparent
Declination.
Var.of
Decl.
fori
Hour.
Meridian
Passage.
Noon.
Noon.
Noon.
Noon.
Noon,
Noon.
Noon.
Noon.
J
h m a
4 8 48.30
s
40.509
O 1 II
+19 17 36.2
it
+1.99
h m
529.1
1
h m a
4 18 7.94
+0.976
+19 46 42.4
+4.90
h m
3 36.6
2
4 9 0.58
0.590
19 18 24.4
9.03
525.4
2
4 18 31.50
0.988
^ 19 49 52.1
9.99
333.1
3
4 9 13.28
0.538
19 19 13.6
9.07
521.7
3
4 18 55.35
1.000
19 51 2.3
9.93
3 29.5
4
4 9 26.39
0.555
19 20 3.7
9.11
518.0
4
4 19 19.49
1.019
19 52 12.8
9.95
326.0
5
4 9 39.92
0.572
J9 20 54.8
9.15
514.3
5
4 19 43.91
1.094
19 53 23.6
9.96
322.5
6
4 9 53.86
+0.569
+19 21 46.8
+2.19
5 10.6
6
4 20 8.61
+1.036
+19 54 34.7
+9.97
318.9
7
4 10 8.21
0.006
19 22 39.8
9.93
5 6.9
7
4 20 33.59
1.047
19 55 46.1
9.98
315.4
8
4 10 22.96
0.033
19 23 33.6
9.97
5 3.2
8
4 20 56.84
1.058
19 56 57.8
9.99
311.9
9
4 10 38.10
0.040
19 24 28.3
9.30
4 59.6
9
4 21 24.35
1.069
19 58 9.7
• 3.00
3 8.4
10
4 10 53.65
0.656
19 25 23.9
9.33
4 55.9
10
4 21 50.12
1.080
19 59 21.8
3.01
3 4.9
11
4 11 9.59
+0.673
+19 26 20.3
+9.37
4 52.2
11
4 2216.15
+1.090
+20 0 34.2
+3.09
3 1.4
12
4 11 25.91
. 0.688
19 27 17.5
9.40
4 48.6
12
4 22 42.43
1.101
20 146.8
3.03
2 57.9
13
.4 11 42.61
0.704
19 28 15.5
9.43
444.9
13
4 23 8.96
1.111
20 2 59.5
3.04
254.4
14
4 11 59.70
0.720
19 29 14.3
9.46
4 41.2
14
4 23 35.73
1.191
20 4 12.4
3.04
250.9
15
4 1217.17
0.736
19 30 13.8
9.49
4 37.6
15
4 24 2.74
1.131
20 5 25.4
3.05
247.4
IG
4 12 35.00
+0.751
+19 31 14.1
+4.59
4 34.0
16
4 24 29.99
+1.141
+20 6 38.6
+3.05
244.0
17
4 12 53.21
0.766
19 32 15.0
9.55
4 30.4
17
4 24 57.47
1.151
20 7 51.8
3.05
240.5
16
4 13 11.78
0.781
19 33 16.7
9.58
4 26.7
18
4 25 25.18
1.160
20 9 5.2
3.05
237.0
19
4 13 30.72
0.796
19 34 19.1
9.61
4 23.1
19
4 25 53.12
1.169
20 10 18.7
3.06
2 33.6
40
4 13 50.01
0.811
19 35 22.1
9.64
419.5
20
4 26 21.28
1.178
201132.1
3.08
230.1
21
4 14 9.65
+0.896
+19 36 25.7
+9.67
4 15.9
21
4 26 49.65
+1.187
+2012 45.6
+3.06
226.6
22
4 14 29.65
0.840
19 37 30.0
9.69
4 12.3
22
4 27 18.22
1.196
20 13 59.1
3.06
223.2
23
4 14 50.00
0.855
19 38 34.8
9.79
4 8.7
23
4 27 47.00
1.904
20 15 12.6
3.06
219.7
24
4 15 10.68
0.869
19 39 40.2
9.75
4 5.1
24
4 28 15.99
1.919
20 16 26.1
3.06
216.2
25
4 15 31.70
0.883
19 40 46.3
9.77
4 1.5
25
4 28 45.16
1.990
20 17 39.5
3.06
212.8
26
4 15 53.06
+0.897
+19 41 52.9
+9.79
3 57.9
26
4 29 14.52
+1.998
+20 18 52.9
+3.06
2 9.4
27
4 16 14.75
0.911
19 43 0.0
9.81
3 54.4
27
4 29 44.07
1.935
20 20 6.3
3.08
2 5.9
28
4 16 36.76
0.995
19 44 7.6
9.83
3 50.8
28
4 30 13.60
1.943
20 21 19.6
3.05
2 2.5
29
4 16 59.08
0.938
19 4515.6
9.85
3 47.3
29
4 30 43.70
1.950
20 22 32.7
3.05
159.0
30
4 17 21.73
0.951
19 46 24.1
9.87
3 43.7
30
4 31 13.77
1.257
20 23 45.7
3.04
155.6
31
4 17 44.69
+0.964
+19 47 33.0
49.89
3 40.1
31
4 31 44.01
+1.964
+20 24 58.6
+3.03
152.2
32
4 18 7.94
+0.976
+19 48 42.4
+9 90
3 36.6
32
4 32 14.41
+1.970
+20 26 11.3
+3.08,
148.8
Day of the Month.
1st.
Uth.
Hat.
Slst.
Day of the Month.
1st.
11th.
Hat.
Slat.
Polar Semidiameter . .
Horizontal Parallax . .
8.6
1.0
8^
1.0
0.9
8.2
0.9
Polar Semidiameter . .
Horizontal Parallax . \
8.1
0.9
ao
0.9
7'i
0.9
//
7.9
0.9
The sign -f- prefixed to the hourly change of declination indicates
tions are decreasing. The sign — indicate* that north deolinat
that north declinations are increasing and south declina-
iona are decreasing and south declinations increasing.
244
SATURN, 1884.
GEEEJSTVICH MEAN TIME.
MAT.
JUNE.
4
3
I
1
Apparent
Right
Ascension.
Var.of
a A.
fori
Hoar.
Apparent
Declination.
Var.of
Decl.
fori
Hour.
Meridian
Passage.
4
1
Apparent
Bight
Ascension;
Var.of
RA.
fori
Hour.
Apparent
Declination.
Var.of
Deel.
fori
Hour.
Meridian
Passage.
Noon,
Noon.
Noon.
Noun.
Noon.
Noon.
Noon
Noon.
h m s
4 31 44.01
e
+1.964
+20 24 58*6
+3.03
h m
152.2
!
h ra s
4 48 18.23
8
+1.379
+2^ 0 I&3
43.57
h m
0 6.8
2
4 32 14.41
1.270
20 26 11.3
3.03
148.8
2
'4 48 51.34
1.360
21 1 13.8
9.55
0 3.4
3
4 32 44.96
1.976
20 27 23.8
3.09
145.3
3
4 49 24.46
1.380
21 2 14.7
9.53
1 0 0.0
(S3 56.6
4
4 33 15.66
1.989
20 28 36.2
3.01
141.9
4
4 49 57.59
1.381
21 3 15.0
9.51
2353.3
5
4 33 46.51
1.988
20 29 48.4
3.00
138.5
5
4 50 30.72
1.381
21 4 14.8
9.49
2349.9
6
4 34 17.50
+1.994
+20 31 0.3
+9.99
135.1
6
4 51 3.86
+1.381
+21 5 14.0
+9.46
23 46.5
7
4 34 48.62
1.300
20 32 12.0
9.98
131.7
7
4 51 36.99
1.380
21 6 12.6
9.44
2343.1
8
4 35 19.87
1.305
20 33 23.5
9.97
128.2
8
4 52 10.11
1.380
21 7 10.7
9.49
2339.7
9
4 35 51.25
1.310
20 34 34.7
9.96
124.8
9
4 52 43.22
1.379
21 8 8.2
9.39
2336.4
10
4 36 22.75
1.315
-20 3545.6
9.95
121.4
10
4 53 16.32
1.379
21 9 5.1
9.36
2333.0
' 11
4 36 54.37
+1.390
+20 36 56.2
+9.94
1 18.0
11
4 53 49.40
+1.378
+21 10 1.4
+9.34
2329.6
12
4 37 26.11
1.395
20 38 6.6
9.93
1 14.6
12
4 54 22.45
1.377
21 10 57.1
9.31
23 26.2
13
4 37 57.96
1.399
20 39 16.6
9.91
1 11.2
13
4 54 55.47
1.376
21 1 1 52.2
9.98
2322.8
14
4 38 29.92
1.334
20 40 26.3
3.89
I 7.8
14
4 55 28.45
1.374
21 12 46 8
9.95
23 19.4
15
4 39 1.98
1.338
20 41 35.7
9.68
1 4.4
15
4 56 1.41
1.379
21 13 40.7
9.93
23 16.1
16
4 39 34.13
+1.349
+20 42 44.7
+9.86
1 1.0
16
4 56 34.32
+1.370
+21 14 34.0
+9.91
23 12.7
17
4 40 6.38
1.346
20 43 53.4
9.85
0 57.6
17
4 57 7.18
1.368
21 15 26.7
9.18
23 9.3
IS
4 40 38.72
1.350
20 45 1.7
9.83
0 54.2
18
4 57 39.99
1.366
21 16 18.7
9.15
23 5.9
19
4 41 11.14
1.353
20 46 9.6
9.89
0 50.8
19
4 58 12.75
1.364
21 17 10.1
9.13
23 2.5
20
4 41 43.65
1.356
20 47 17.1
9.80
047.4
20
4 58 45.45
1.361
21 18 0.9
9.10
2259.1 '
21
4 42 16.23
+1.359
+20 48 24.2
+9.79
0 44.0
21
4 59 18.08
+1.356
+21 18 51.1
+9.06
2265.7
22
4 42 48.88
1.369
20 49 30.9
9.77
040.7
22
4 59 50.64
1.355
21 19 40.6
9.05
2252.3
23
4 43 21.60
1.365
20 50 37.1
9.75
0 37.3
23
5 0 23.13
1.359
21 20 29.5
9.03
2248.9
24
4 43 54.38
1.367
20 51 42.9
9.73
0 33.9
24
5 0 55.53
1.349
21 21 17.7
9.00
2245.5
25
4 44 27.22
1.309
20 52 48.3
9.7]
030.5
25
5 127.85
1.345
2122 5.3
1.97
2242.1
26
4 45 0.11
+1.371
+20 53 53.2
+9.69
027.1
26
5 2 0.08
+1.341
+21 22 52.2
+1.94
22 38.7
27
4 45 33.04
1.373
20 54 57.6
9.67
023.7
27
5 2 32.21
1.337
21 23 38.4
1.99
2235.3
28
4 46 6.02
1.375
20 56 1.6
9.65
020.3
28
5 3 4.24
1.333
21 24 24.0
1.89
2231.9
29
4 46 39.03
1.376
20 57 5.0
9.63
016.9
29
5 3 36.16
1.398
2125 8.9
1.86
2228.5
30
4 47 12.07
1.377
20 58 8.0
9.61
013.5
30
5 4 7.99
1.393
21 25 53.2
1.83
2225.1
31
4 47 45.14
+1.378
+20 £9 10.4
+9.59
0 10.2
31
5 4 30.70
+1.318
+21 26 36.8
+1.81
2221.7
32
4 48 18.23
+1.379
+21 0 12.3 +9.57
0 6.8
32
5 5 11.28
+1.313
+21 27 19.7
+1.78
2218.3
Day of the Month.
1st.
Uth.
•JlBt
Slst.
Day of the Month. >
let.
11th.
91st.
Slst.
Polar Semidiameter . .
Horizontal Parallax . .
*9
0.9
H
7.8
0.9
7.H
0.S
. 7.8
09
Polar Semidiameter . .
Horizontal Parallax . .
7"8
0.9
7.8
0.9
7.8
O.S
0.9
Not*.— The sign -+ indicates north declinations;
the sign — indicate* sooth declinations.
SATURN, 1884.
245
GREENWICH MEAN TIME.
JULY.
AUGUST.
1
*
Apparent
Right
Ascension.
Var. of
R.A.
fori
Hour.
Apparent
Declination.
Var. of
Decl.
fori
Hour.
Meridian
Passage.
i
*
Apparent
Right
Ascension.
Var. of
B.A.
fori
Hour.
Apparent
Declination.
Var. of
Decl.
fori
Hour.
Meridian
Passage.
Noon.
Noon.
Noon.
J
Yoon.
Noon.
Noon.
Noon.
Noon.
1
h m s
5 4 39.70
8
+1.318
4
O 1 II
+21 26 36.8
II
+1.81
h m
2221.7
!
h m s
519 41.86
a
+1.075
Oil*
+21 43 40.1
+0.98
h m
2034.7
2
5 » 11.28
1.313
21 27 19.7
1.78
22 18.3
2
5 20 7.52
1.064
2144 2.8
0.93
20 31.2
3
5 5 42.74
1.306
21 28 2.0
1.75
2214.9
3
5 20 32.92
1.053
21 44 25.0
0.90
2027.7
4
5 6 14.08
1.303
21 28 43.6
1.79
22 11.5
4
5 20 58.05
1.049
21 44 46.5
0.88
2024.1
5
5 6 45.29
1.996
21 29 24.5
1.69
22 8.1
5
5 2122.91
1.030
2145 7.4
0.86
2020.6
6
5 7 16.35
+1.292
+21 30 4.8
+1.67
22 4.6
6
5 21 47.49
+1.018
+2145 27.7
+0.83
2017.1
7
5 7 47.28-
1.986
21 30 44.4
1.64
22 1.2
7
5 2211.78
1.006
21 45 47.5
0.80
2013.5
8
5 8 18.07
1.980
21 31 23.3
1.61
21 57.8
8
5 22 35.79
0.994
2146 6.7
0.78
2010.0
9
5 8 48.71
1.974
21 32 1.5
1.58
2154.4
9
5 22 59.52
0.969
21 46 25.3
0.76
20 6.5
10
5 9 19.20
1.968
2132 39.1
1.55
21 50.9
10
5 23 22.95
0.970
21 46 43.3
0.73
20 2.9
11
5 9 49.53
+1.961
+21 33 16.0
+1.53
21 47.5
11
5 23 46.07
40.957
+2147 0.8
+0.71
1959.4
12
5 10 19.70
1J54
21 33 52.3
1.50
21 44.1
12
5 24 8.89
0.944
21 47 17.7
0.69
1955.8
13
5 10 49.71
1.947
21 34 27.9
. 147
21 40.6
13
5 24 31.40
0.931
2147 34.1
0.67
1952.3
14
5 II 19.54
1.940
2135 2.8
1.44
21 37.2
14
5 24 53.60
0.918
21 47 49.9
0.64
1948.7
15
5 1 1 49.20
1.933
21 35 37.0
1.41
21 33.7
15
5 2515.47
0.905
2148 5.2
0.69
1945.1
1G
5 12 18.68
+1.335
+21 36 10.6
+1.39
2130.3
16
5 25 37.02
+0.891
+21 48 19.9
+0.60
1941.5
17
5 12 47.98
1.917
21 36 43.6
1.36
2126.8
17
5 25 58.24
0.877
2148 34.1
0.58
1938.0
18
5 13 17.09
1.909
21 37 15.8
1.33
2123.4
18
5 26 19.13
0.863
21 48 47.8
0.55
1934.4
19
5 13 46.00
1.901
21 37 47.4
1.30
21 19.9
19
5 26 39.67
0.849
2149 1.0
0.53
1930.8
20
5 14 14.72
1.199
21 38 18.4
1.98
21 16.5
20
5 26 59.87
0.835
21 49 13.7
0.51
1927.2
21
5 14 43.23
+1.183
+21 38 48.7
+1.95
21 13.0
21
5 27 19.72
+0.890
+21 49 25.9
+0.49
1923.6
22
5 15 11.53
1.174
21 39 18.4
1.99
21 9.6
22
5 27 39.22
0.805
21 49 37.5
0.47
19 19.9
23
5 15 39.61
1.165
21 39 47.4
1.19
21 6.1
23
5 27 58.36
0.790
21 49 48.7
0.45
1916.3
24
5 16 7.47
1.156
21 40 15.8
1.17
21 2.6
24
5 2817.13
0.775
21 49 59.4
0.43
19 12.7
25
5 16 35.11
1.147
21 40 43.6
1.14
2059.1
25
5 28 35.54
0.760
2150 9.6
0.41
19 9.1
26
5 17 2.51
+1.137
+21 41 10.6
+1.11
2055.6
26
5 28 53.58
+0.744
+21 50 19.3
+0.39
19 5.4
27
5 17 29.68
1.197
21 41 37.1
1.08
20 52.2
27
5 29 11.24
0.798
21 50 28.6
0.37
19 1.8
28
5 17 56.62
1.117
21 42 2.9
1.06
20 48.7
28
5 29 28.52
0.719
21 50 37.4
0.35
18 58.1
29
5 18 23.31
1.107
21 42 28.1
1.03
2045.2
29
5 29 45.42
0.696
21 50 45.7
0.34
18 54.5
30
5 18 49.75
1.097
21 42 52.7
1.00
2041.7
30
5 30 1.94
•
0.680
21 50 53.6
0.39
18 50.8
31
5 19 15.93
+1.086
+21 43 16.7
+0.98
20 38.2
31
5 30 18.06
+0.664
+2151 1.0
+0.30
1847.1
32
5 19 41.86
+1.075
+21 43 40.1
+0.96
20 34.7
32
5 30 33.79
+0.647
+21 51 8.0
+0.98
1843.5
Day of the Month.
1st.
Uth.
91st.
Slst.
Day of the Month.
1st.
Uth.
91st.
Slst.
Polar Semidiameter . .
Horizontal Parallax . .
73
0.9
7.9
0.9
8.0
0.9
8.1
0.9
Polar Semidiameter . .
Horizontal Parallax . .
8.1
0.9
83
O.fl
! #3
) 0.9
8"4
1.0
The sign -f prefixed to the hourly change of declination indicates
tions are decreasing. The sign — indicates that north declinal
that north declinations are increasing and south declina-
tions are decreasing and south decimations increasing.
246
SATURN, 1884.
GREENWICH MEAN TIME.
SEPTEMBER.
OCTOBER.
1
o
Apparent
Sight
Ascension.
Var.of
R.A.
fori
Honr.
Apparent
Declination.
Var.of
Decl.
fori
Hoar.
Meridian
Passage.
I
Apparent
Bight
Ascension.
Var.of
R.A.
fori
Hour.
Apparent
Declination.
Var.of
Decl.
fori
Hoar.
Meridian
Passage.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
1
h in a
5 30 33.79
s
+0.647
0 i n
+2151 8.0
n
+0.98
h m
18 43.5
,
h m s
5 35 5.89
s
+0.099
O I U
+21 51 47.2
-0.14
h m
1649.9
2
5 30 49.12
0.630
21 51 14.6
0.96
1839.8
2
5 35 7.84
0.079
21 51 43.7
0.15
1645.9
3
5 31 4.05
0.614
21 51 20.7
0.93
18 36.1
3
5 35 9.32
0.059
21 51 39.9
0.16
1642.0
4
5 31 18.58
0.507
21 51 26.5
0.99
18 32.4
4
5 35 10.33
0.039
21 51 36.0
0.17
16 38.1
5
5 31 32.70
0.580
21 5131.8
0.90
1828.7
5
5 35 10.86
+0.013
21 51 31.8
0.18
1634.2
6
5 31 46.42
+0.563
+2151 36 8
+0.19
1825.0
6
5 35 10.91
-0.007
+21 51 27.3
-0.19
16 30.3
7
5 31 59.72
0.546
21 51 41.4
017
1821.3
7
5 3510.48
0.097
21 51 22.6
0.90
1626.3
8
5 32 12.60
0.599
21 51 45.5
0.15
18 17.6
8
5 35 9.58
0.047
21 51 17.6
0.91
1622.4
9
5 32 25.06
0.511
21 51 49,3
0.14
1813.8
9
5 35 8.20
0.067
21 51 12.4
0.99
1618.4
10
5 32 37.09
0.493
21 51 52.6
0.13
1810.1
10
5 35 6.35
0.087
2151 7.0
0.93
1614.4
11
5 32 48.70
+0.475
+21 51 55.6
+0.10
18 6.3
11
5 35 4.02
HU07
+21 51 1.3
-0.94
1610.5
12
5 32 59.87
0.457
21 51 58.3
0.09
18 2.6
12
5 35 1.22
0.197
21 SO 55.4
0.95
16 6.5
13
5 33 10.61
0.439
21 52 0.6
0.08
17 58.8
13
5 34 57.93
0.147
21 50 49.3
0.96
16 2.5
14
5 33 20.91
0.490
21 52 2.6
0.07
17 55.1
14
5 34 54.17
0.167
21 50 43.0
0.97
15 58.5
15
5 33 30.77
0409
21 52 4.2
0.05
1751.3
15
5 34 49.94
0.187
21 50 36.4
0.98
1554.5
16
5 33 40.17
+0.383
+21 52 5.5
+0 04
17 47.5
16
5 34 15.24
-0.906
+21 50 29.6
-0.99
15 50.5
17
5 33 49.13
0.364
21 52 6.4
0.03
17 43.7
17
5 34 40.06
0.996
21 £0 22.6
0.30
1546.4
18
5 33 57.63
0.345
21 52 7.0
0.09
17 39.9
18
5 34 34.42
0.946
21 50 15.4
0.31
15 42.4
19
5 34 5.68
0.396
21 52 7.3
+0.01
17 36.1
19
5 34 28.31
0.965
21 50 8.0
0.39
1538.4
20
5 34 13.26
0.307
2152 7.3
-0.01
17 32.3
20
5 34 21.73
0.984
2150 0.3
0.33
1534.3
21
5 34 20.38
+0.288
+21 52 7.0
-0.09
1728.5
21
5 34 14.69
-0.303
+21 49 52.4
-0.34
1530.3
22
5 <fl 27.05
0.368
21 52 6.3
0.03
17 24.7
22
5 34 7.20
0.399
21 49 44.4
0.35
1526.2
23
5 34 33.25
0.919
21 52 5.4
0.05
1720.8
23
5 33 59.25
0.341
2149 36.1
0.36
1522.1
24
5 34 38.97
0.9U9
2152 4.1
0.06
1717.0
24
5 33 50.85
0.359
21 49 27.6
0.36
1518.1
25
5 34 44.23
0.910
21 52 2.6
0.07
1713.1
25
5 33 42.00
0.378
21 49 18.9
0.37
15 14.0
26
5 34 49.02
+0.190
+21 52 0.7
-0.08
17 9.3
26
5 33 32.72
-0.396
+21 49 10.0
-0.38
15 9.9
27
5 34 53.34
0.171
21 51 58.6
0.10
17 5.4
27
5 33 23.01
0.414
2149 1.0
0.39
15 5.8
28
5 34 57.18
0.151
21 51 56.2
0.11
17 1.5
28
5 33 12.66
0.439
21 48 51.7
0.30
15 1.7
29
5 35 0.55
0.131
21 51 53.5
0.19
16 57.6
29
5 33 228
0.450
21 48 42.2
0.40
14 57.6
30
5 35 3.46
0.111
21 51 50.5
O.lj
16 53.8
30
5 32 51.29
0.467
21 48 32.5
0.41
14 53.1
31
5 35 5.89
+0.099
+21 51 47.2
-0.14
1649.9
31
5 32 39.89
-0.484
+21 48 22.6
-0.49
14 49.3
32
5 35 7.84
+0.079
+21 51 43.7
-0.15
1645.9
32
5 32 28.07
-0.501
+21 48 12.6
-0.49
14 45.2
Bay of tho Month.
1st.
Uth.
21st.
Slat.
Day of tho Month.
1st.
Uth.
- 21st.
81st.
Polar Semidiameter . .
Horizontal Parallax . .
1.0
Ob
1.0
8<6
1.0
8.9
1.0
Po
Ho
ar Semidiam
rizontal Para
eter . .
ilia* . .
1.0
II
9.1
1.0
9.2
1.1
6'a
1.1
Note.— The sign -f- indicates north declinations;
the sign — in
dicates south declinations.
SATURN, 1884.
247
GREENWICH MEAN TIME.
NOVEMBER.
DECEMBER.
1
*M
©
I
1
Apparent
Right
Ascension.
Var. of
R.A.
fori
Honr.
Apparent
Declination.
Var. of
DecL
fori
Hour.
Meridian
Passage.
4
I
1
Apparent
Bight
Ascension.
Var. of
R. A.
fori
Hour.
Apparent
Declination.
Var. of
Decl.
fori
Hour.
Meridian
Passage.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon
Noon.
h m 8
5 32 28.07
8
-0.501
+21° 48 12.6
-0.49
h m
14 45.2
1
h m s
5 23 58.68
8
-0.856
+2MI52.9
it
-0.60
h m
12 38.7
2
5 32 15.85
0.518
21 48 2.3*
0.43
1441.1
2
5 23 38.08
0.861
21 41 38.3
0.60
1234.5
3
5 32 3.24
0.534
21 47 51.9
0.44
14 36.9
3
5 23 17.35
0.866
21 41 23.6
0.61
1230.2
4
5 31 50.23
0.550
21 47 41.3
0.45
14 32.8
4
5 22 56.51
0.870
21 41 8.9
0.61
12 25.9
5
5 31 36.83
0.566
21 47 30.5
0.45
14 28.6
5
5 22 35.58
0.874
2140 54.1
0.61
1221.6
6
5 3123.05
-0.583
+21 4719.5
-0.46
14 24.4
6
5 22 14.57
-0.877
+21 40 39.3
-0.61
12 17.3
7
5 31 8.90
0.597
2147 8.3
0.47
14 20.3
7
5 21 53.48
0.880
21 40 24.4
0.61
12 13.1
8
5 30 54.39
0.613
21 46 56.9
0.48
14 16.1
8
5 2132.33
0.883
21 40 9.5
0.61
12 8.8
9
5 30 39.51
0.697
21 46 45.4
0.48
14 11.9
9
521 11.14
0.884
21 39 54.7
0.61
12 4.5
10
5 30 24.27
0.643
2146 33.7
0.49
14 7.7
10
5 20 40 90
0.886
21 39 39.8
0.61
12 0.2
11
5 30 8.69
-0.656
+21 46 21.8
-0.50
14 3.5
11
5 20 28.63
^20 7.34
-0.887
+21 39 24.9
-0.61
1 1 55.9
1*
5 29 52.78
0.670
21 46 9.8
0.51
13 59.3
12
0.887
21 39 10.1
0.61
1151.7
13
5 29 36.53
0.684
21 45 57.6
0.51
13 55.1
13
5 19 46.07
0.886
21 38 55.3
0.61
1147.4
. 14
5 29 19.95
0.697
21 45 45.2
0.52
13 50.9
14
5 19 24.81
0.885
21 38 40.5
0.61
1143.1
,5
5 29 3.07
0.710
21 45 32.7
0.53
13 46.7
15
5 19 3.57
0.884
21 38 25.8
0.61
1138.8
16
5 28 45.89
-0.733
+21 45 20.0
-0.54
13 42.5
16
5 18 42.36
-0.689
+21 38 11.2
-0.60
11 34.5
17
5 28 28.40
0.735
21 45 7.1
0.54
13 38.3
17
5 18 21.22
0.880
21 37 56.6
0.60
1130.2
18
5 28 10.63
0.746
21 44 54.1
0.55
13 34.0
18
5 18 0.14
0.877
21 37 42.1
060
1 1 26.0
19
5 27 52.59
0.757
21 44 40.9
0.55
13 29.8
19
5 17 39.12
0 874
2137 27.7
0.60
11 21.7
20
5 27 34.29
0.768
21 44 27.6
0.56
13 25.6
20
5 17 18.20
0.870
21 37 13.4
0.59
11 17.4
21
5 27 15.73
-0.779
+21 44 14.1
-0.56
1921.3
21
516 57.39
-0.865
+21 36 59.3
-0.59
11 13.1
22
5 26 56.92
0.788
21 44 0.5
0.57
13 17.1
22
5 16 36.69
0.860
21 36 45.4
0.58
11 8.8
23
5 26 37.89
0.797
21 43 46.7
0.57
13 12.8
23
5 16 16.11
0.855
21 36 31.6
0.57
11 4.6
24
5 26 18.65
0.806
21 43 32.8
0.58
13 8.6
24
515 55.67
0.648
21 36 18.0
0.57
11 0.3
25
5 25 59.19
0.815
21 43 18.8
0.56
13 4.3
25
5 15 35.39
0.841
21 36 4.5
0.56
10 56.0
26
5 25 39.53
-0.893
+21 43 4.7
-0.59
13 0.1
26
5 15 15.28
-0.834
+2135 51.3
-0.55
1051.8
27
5 25 19.69
0.830
21 42 50.5
0.59
12 55.8
27
5 14 55.33
0.697
2135 38.2
0.54
1047.5
28
5 24 59.68
0.837
21 42 36.2
0.59
1251.4
28
5 14 35.57
0.819
21 35 25.4
0.53
10 43.2
29
5 24 39.49
0.844
21 42 21.9
0.60
1247.3
29
5 14 16.01
0.811
21 35 12.9
0.53
10 39.0
30
5 24 19.15
0.850
21 42 7.4
0.60
12 43.0
30
5 13 56.66
0.803
21 35 0.6
0.51
10 34.7
31
5 23 58.68
-0.856
21 41 52.9
-0.60
1238.7
31
5 13 37.51
-0.793
+21 34 48.6
-0.50
10 30.5
32
5 23 38.08
-0.861
+21 41 38.3
-0.60
12 34.5
32
5 13 18.59
-0.783
+21 34 36.9
-0.48
10 26.3
Day of the Month.
1st.
nth.
aist.
81st.
Day of the Month.
1st.
Uth.
31st.
81st.
Polar Semidiameter . .
Horizontal Parallax . .
9.4
1.1
#5
1.1
ft
l.i
&7
1.1
Polar Semidiameter . .
Horizontal Parallax . .
fa
1.1
97
1.1
ft
1.1
ft
1.1
Th
t
e sign f- prefixed to the hourly change of declination indicates
ions arc decreasing. The sign — indicates that north declinat
that north declinations are increasing and south decllna-
ions are decreasing and south declinations increasing.
248
URANUS, 1884.
GREENWICH MEAN TIME.
Date.
Apparent
Bight
Ascension.
Var.of
B.A.
fori
Day.
Apparent
Declination.
Var.of
Deol.
fori
Day.
Meridian
Passage.
Date.
Apparent
Right
Ascension.
Var.of
RA.
fori
Day.
Apparent
Declination
Var.of
DeoL
fori
Day.
Meridian
Passage.
Noon,
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
h m a
•
O / //
„
h m
h m s
8
O 1 it
H
h m
Jan. 2
1154 25.56
+0.185
+12626.3
+ 1.85
17 5.4
July 0
1140 35.96
+5.644
+254 25.8
-39.99
5 4.0
6
115424.44
-0.604
126 44.2
7.15
1649.7
4
1141 0.00
6.350
2 5139.7
43.79
4 48.6
10
1154 20.01
1.513
127 23.4
19.49
16 33.9
8
114126.76
7.030
24836.0
48.07
4 33.3
14
1154 12.34
9.316
12823.6
17.58
16 18.0
12
114156.21
7.687
245 15.2
59.97
418.1
16
1154 1.48
3.J09
12944.1
99.61
16 2.1
16
114228.27
8.394
24137.9
56.31
4 2.9
22
1153 47.52
-3.869
+13124.5
W.50
1546.1
20
1143 2.81
+8.937
+23744.7
-00.19
347.8
26
1153 30.52
4.608
133 24.1
39.18
15 30.1
24
114339.75
9.518
2 33 36.4
63.85
3 32.6
30
115310.65
5.300
13541.9
36.69
1514.1
28
1144 18.95
10.060
229 13.8
67.39
317.6
Feb. 3
115248.05
5.969
13817.0
40.78
14 58.0
Aug. 1
1145 0.28
10.579
224 37.9
70.55
3 2.5
7
115222.90
6.585
141 8.2
44.63
14 41.8
5
114543.59
11.056
21949.2
73.56
247.5
11
1 1 51 55.37
-7.153
+1 44 14.0
+48.13
14 25.6
9
114628.74
11.503
+2 14 49.3
-76.34
232.6
15
115125.67
7.669
147 33.2
51.30
14 9.4
13
114715.62
11.918
2 938.6
78.91
217.6
10
1150 54.02
8.133
151 4.4
54.14
13 53.1
17
1148 4.07
19.994
2 4 18.0
81.95
2 2.7
23
115020.60
6.541
1 54 46.3
56.58
1336.8
21
114853.98
19.636
15648.5
63.35
147.8
27
1149 45.69
8.885
15837.1
58.58
1320.5
25
1149 45.18
19.936
1 53 11.2
85.17
132.9
Mar. 2
1149 9.53
-9.158
+2 235.0
+60.13
V3 4.2
29
1150 37.47
13.199
+14727.2
-86.79
118.0
6
1148 32.43
9.364
2 6 38.1
61.94
1247.9
Sept. 2
115130.71
13.410
1 41 37.4
88.01
1 3.2
10
1 1 47 54.62
9.505
210 44.9
61.93
1231.5
6
115224.75
13.590
13543.1
89.04
0 48.4
14
1 1 47 16.39
9.578
2 14 53.5
69.17
12 15.2
10
1 1 53 19.43
13.799
129 45.1
89.81
033.5
18
114638.00
9.584
2 19 2.3
61.97
1158.8
14
1154 14.58
13.899
123 44.6
90.33
018.7
22
1145 59.72
-9.595
+223 9.4
401.34
1142.4
18
115510.07
13.889
+1 1742.4
-90.57
0 3.9
26
114521.80
9.390
227 13.1
60.95
1126.1
22
1156 5.70
13.900
1 1140.0
90.49
23 45.4
30
1144 44.53
9.199
231 11.7
58.79
11 9.7
26
1157 1.27
13.805
1 538.5
90.13
23 30.6
Apr. 3
1144 8.20
8.933
2 35 3.2
56.89
10 53.4
30
115756.62
13.788
059 39.0
89.50
2315.8
7
1143 33.07
8.006
23846.2
54.49
1037.1
Oot. 4
115851.57
13.071
053 42.4
86.60
23 1.0
11
114259.34
-8.930
+24219.2
+51.78
1020.8
• 8
115945.99
13.519
+047 50.2
-87.40
2246.1
15
114227.23
7.799
2 4540.9
48.77
10 4.6
12
12 0 39.70
13.319
0 42 3.2
85.94
2231.3
19
11 41 56.95
7.314
24850.0
45.43
9 48.3
16
12 132.51
13.070
0 3622.7
84.18
2216.4
23
114128.72
6.777
25145.1
41.85
9 32.2
20
12 224.27
19.779
0 30 49.8
89.16
22 1.6
27
1141 2.74
6.194
254 25.1
37.95
916.0
24
12 3 14.75
19.444
0 2525.4
79.85
21 46.7
May 1
114039.17
-6.569
+256 48.7
+33.77
859.9
28
12 4 3.81
19.008
+02011.0
-77.93
2131.8
5
114018.18
4.911
2 5855.2
99.39
843.8
Nov. 1
12 4 51.27
11.048
015 7.6
74.36
21 16.8
9
1139 59.88
4.995
3 0 43.8
94.84
827.8
5
12 536.99
11.190
0 10 16.1
71.96
21 1.8
13
1139 44.38
3.516
3 214.0
90.16
8 11.8
9
12 620.80
10.698
0 5 37.5
67.89
20 46.8
17
113931.75
9.785
3 325.1
15.33
7 55.9
13
12 7 2.57
10.169
+0 113.0
64.98
2031.8
21
113922.09
-9.039
+3 4 16.6
+10.39
7 40.0
17
12.742.10
+9.584
-0 256.7
-60.43
2016.7
25
113915.49
1.959
3 4 48.2
5.34
7 24.1
21
12 819.24
8.989
0 6 50.4
56.30
20 1.6
29
11 39 12.02
-0.477
3 4 59.4
+ 0.95
7 8.4
25
12 853.85
8.391
010 27.1
51.99
1946.4
June 2
113911.67
-K).309
3 4 50.2
-4.86
6 52.6
29
12 925 82
7.644
0 13 46.3
47.49
1931.2
6
113914.44
1.085
3 4 20.7
9.90
637.0
Deo. 3
12 9 55.01
6.938
01647.0
49.80
19 16.0
10
113920.35
+1.863
+3 330.9
-14.93
621.3
7
121021.32
+0.806
-0 1928.7
-37.96
19 0.7
14
113929.35
9.637
3 221.2
19.93
6 5.8
11
121044.66
5.448
0 2150.8
39.98
1845.3
18
1139 41.45
3.410
3 051.5
94.88
550.2
15
1211 4.91
4.664
0 2352.4
97.81
1829.9
22
113956.63
4.179
2 59 2.2
99.70
534.7
19
121121.98
3.860
02533.3
99.56
1814.5
26
114014.82
4.916
2 56 53.5
34.55
519.3
23
12 1135.60
3.049
0 26 52.9
17.99
17 58.9
30
114035.96
+5.644
+254 25.8
-39.93
5 4.0
27
12 11 46.32
+9.917
-0 2751.1
-11.85
17 43.4
July 4
11 41 0.00 46.350
+2 5139.7
-43.79
4 48.6
31
121153.54
+1.385
-0 28 27.7
-6.44
17 27.8
Greatest horizontal parallax, March 16, 0".51.
Least horizontal parallax, September 20, 0//.46.
Greatest seniidiatueter, March 16, 1".04.
Least semidiameter, September 20, 1".74.
NEPTUNE. 1884.
249
GREENWICH MEAN TIME.
Date.
Apparent
Right
Ascension.
Var.of
R.A.
fori
Day.
Apparent
Declination.
Var.of
Decl.
fori
Day.
Meridian
Passage.
Date.
Apparent
Right
Ascension.
Var.of
R.A.
fori
Day.
Apparent
Declination
Var.of
Decl.
fori
Day.
Meridian
Punge.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
h m a
8
O / //
,,
h m
h m a
8
O / //
it
h m
Jan. 2
3 6 6.73
-3.517
+15 36 40.9
-11.90
8 18.5
July 0
32211.28
+6.815
+1645 3.3
+93.18
20 43.0
6
3 5 53.63
3.0.13
1536 0.5
9.04
8 2.6
4
3 2237.81
6.451
16 46 32.9
91.58
20 27.7
10
3 542.50
9.539
1535 28.7
8.89
7 46.7
8
3 23 2.85
6.065
16 47 55.9
19.99
20 12.4
14
3 5 33.38
9.099
15 35 5.9
4.57
730.8
12
3 2326.31
5.657
1649 12.2
18.99
19 57.1
18
3 526.35
1.499
15 34 52.0
9.39
7 15.0
16
32348.09
5.998
1650 21.7
16.47
1941.7
22
3 521.47
-0.948
+15 34 47.2
-0.05
6 59.2
20
3 24 8.11
+4.780
+16 5124.0
+14.65
1926.3
26
3 518.78
-0.396
1534 51.7
+ 9.96
643.4
24
3 24 26.31
4.315
16 5218.9
19.77
1910.9
30
3 5 18.31
+0.160
1535 5.5
4.59
627.7
28
3 24 42.62
3.835
16 53 6.2
10.87
18 55.4
Feb. 3
3 520.07
0.718
1535 28.5
8.90
6 12.0
Aug. 1
3 24 56.97
3.340
16 53 45.9
8.96
18 39.9
7
3 524.06
1.974
1536 0.7
9.19
556.3
5
325 9.31
9.833
1654 17.9
7.01
1824.4
11
3 5 30.27
+1.895
+ 15 36 42.0
+11.45
540.7
9
32519.61
+9.317
+1654 42 0
+ 5.03
19 8.8
15
3 538.66
9.368
15 37 32.2
13.65
525.1
13
32527.83
1.799
1654 58.1
3.05
17 53.2
19
3 5 49.20
9.903
15 38 31.2
15.78
5 9.5
17
32533.93
1.956
16 55 6.4
+ 1.08
17 37.6
23
3 6 1.87
3.497
15 39 38.5
17.85
4*54.0
21
3 2537.88
0.718
16 55 6.8
- 0.90
1721.9
27
3 6 16.61
3.937
15 40 53.9
19.85
4 38.5
25
32539.67
+0.178
1654 59.2
9.86
17 6.2
Mar. 2
3 6 33.36
+4.439
+ 1542 17.1
+91.75
4 23.1
29
32539.31
-0.360
+165443.8
- 4.80
16 50.5
6
3 6 52.06
4.909
1543 47.7
93.55
4 7.7
Sept. 2
3 2536.80
0.894
16 54 20.8
6.71
16 34.7
10
3 712.62
5.365
15 45 25.3
95.93
3 52.3
6
325 32.17
1.490
16 53 50.1
8.58
16 18.9
14
3 7 34.96
5.799
15 47 9.4
98.79
3 36.9
10
3 2525.46
1.936
16 53 11.9
10.41
16 3.0
18
3 7 58.99
6.910
1548 59.5
98.93
321.6
14
3 25 16.71
9.449
16 5226.7
19.18
15 47.1
22
3 8 24.62
+6.609
+1550 55.3
+99.57
3 6.3
18
3 25 5.95
-*.935
+165134.5
-13.89
1531.2
26
3 8 51.77
6.970
15 5256.2
30.80
251.0
22
324 53.24
3.419
16 5035.6
15.53
15 15.3
30
3 920.33
7.308
1555 1.7
31.99
235.8
26
324 38.67
3.867
16 49 30.3
17.09
14 59.3
Apr. 3
3 950.18
7.613
1557 11.4
39.91
220.5
30
3 24 22.34
4.995
16 4819.0
18.56
14 43.3
7
3 1021.19
7.890
1559 24.8
33.76
2 5.3
Oct. 4
3 24 4.35
4.696
16 47 2.0
19.99
14 27.3
11
310 53.26
+8.140
+16 141.3
+34.45
150.1
8
3 2344.79
-5.075
+164539.8
-91.15
14 11.2
15
31126.27
8.369
16 4 0.3
35.09
135.0
12
3 23 23.78
5.499
16 44 13.0
99.94
13 55.1
19
3 12 0.12
8.557
16 621.3
35.47
1 19.8
16
323 1.44
5.737
164242.1
93.91
13 39.0 1
23
3 1234.69
8.729
16 843.9
35.80
1 4.6
20
3 2237.91
6.017
16 41 7.6
94.05
13 22.9
27
3 13 9.85
8.853
1611 7.5
35.98
0 49.5
24
3 2213.35
6.957
16 39 30.0
94.75
13 6.8
May 1
3 13 45.47
+8.950
+1613 31.5
+36.09
0 34.4
28
32147.92
-6.454
+16 37 49.8
-95.99
12 50.6
5
3 1421.41
9.015
16 15 55.4
35.99
019.2
Nov. 1
32121.78
6 611
16 36 7.8
95.68
1234.4
9
314 57.55
9.050
1618 18.7
35.69
0 4 1
5
3 20 55.09
6.798
16 34 24.6
95.91
12 18.3
13
3 1533.78
9.057
16 20 40.8
35.35
2345.2
9
3 20 28.01
6.804
16 3240.7
95.99
12 2.1
17
3 16 9 98
9.035
16 23 1.4
34 90
23 30.1
13
3 20 0.71
6.836
163056 8
95.89
1145.9
21
3 16 46.03
+8.989
+162520.0
+34.35
23 14.9
17
3 19 3:1.37
-6 899
+1629 13.7
-95.60
1129.7
25
3 1721.80
8.895
1627 36.1
33.70
22 59.8
21
319 6.18
6.769
16 27 32.2
95.14
11 13.6
29
3 1757.15
8.775
1629 49.5
39.94
22 44.7
25
3 18 39.33
6.658
16 25 52 8
84.59
10 57.4
June 2
318 31.96
8.697
16 3159.5
39.07
2229.5
29
3 1812.97
6.510
16 24 16.1
93.'<5
1041.2
6
3 19 6.13
8.459
16 34 5.9
31.08
2214.4
Dec. 3
317 47.30
6.390
162242.9
99.83
10 25.1
10
319 39.54
+8.948
+1636 8.1
+99.99
21 59.2
7
317 22.46
-6.090
+ 1621 13.7
-91.75
10 9.0
14
3 2012.07
8.015
16 38 6.7
96.80
21 44.0
II
3 1658.62
5.890
16 19 49.2
90.50
9 52.8
18
320 43.62
7.755
16 3958.3
97.59
21 28.8
15
3 16 35.93
5.519
16 18 30.0
19.09
9 36.7
22
3 2114.08
7.469
16 4145.7
96.16
21 13.6
19
31614.55
5.168
16 17 16.7
17.55
920.6
26
3 2143.34
7.155
164327.5
94.71
20 58.3
23
3 1554.62
4.799
1616 9.8
15.89
9 4.6
30
32211.28
+6.815
+1645 3.3
+93.18
20 43.0
27
31536.26
-4.385
+ 1615 9.7
-14.19
8 48.6
July 4
3 22 37.81 +6.451
+16 46 32.9
+91.58
2027.7
31
3 15 19.58
-3.947 i+16 14 16.9
-19.96
8 32.6
Greatout horizontal parallax, November 13, U".31.
Least horizontal parallax, May 12, 0".29.
GreatcHt acmidutmeter, November 13, 1".33.
Least semidiameter, Kay 12, 1".«5.
250
HELIOCENTRIC CO-ORDINATES, 1884.
MERCURY.
GREENWICH MEAN NOON.
Date.
Heliocentrio
Longitude,
Mean Eqainox
of Date.
Dally
Motion.
Reduction
to
Orbit.
Heliocentrio
Latitude.
Daily
Motion.
Logarithm
of
Had ina
Vector.
Logarithm of Distance
from Earth —
At Date.
At Interme-
diate Date.
O I II
O 1 II
i a
O I II
/ //
Jan. 0
0 47 31.4
4 50 34.4
-12 51.5
-5 3 47.5
+94 31.8
9.5466375
0.0387739
0*0292407
2
10 46 40.8
5 8 39.9
12 16.7
4 8 48.9
30 S6.8
9.5329641
0.0191858
0.0086056
4
21 22 14.7
5 96 60.7
10 3.1
3 2 10.3
96 6.7
9 5200078
9.9975043
9.9858975
6
32 33 28.9
5 44 9.0
6 13.2
1 44 56.8
40 54.6
9.5083960
9.9738145
9.9613015
8
44 17 26.5
5 59 90.7
- 1 11.8
-0 19 36.8
44 5.4
9.4988187
9.9484255
9.9352769
10
56 28 30.5
6 11 9.3
+ 4 13.0
+1 9 51.0
+44 55.8
9.4919486
9.9219740
9.9086632
12
68 58 22.6
6 17 54.8
8 58.2
2 38 12.8
49 56.6
9.4883322
9.8955207
9.8827517
14
81 36 20.1
8 19 9.3
12 3.3
3 59 43.1
38 6.8
9.4882807
9.8705814
9.8592516
16
94 10 30.8
6 14 9.3
12 49.7
5 9 6.9
30 57.8
9.4917990
9.8490082
9.8400829
18
106 29 16.0
6 3 45.3
11 13.8
6 2 37.7
99 94.3
9.4985835
9.8326802
9.8269612
20
118 22 36.6
5 48 58.6
+ 7 45.0
+6 38 29.2
+13 98.5
9.5080929
9.8230289
9.6209224
22
129 43 14.6
5 31 18.3
+ 3 12.2
6 56 52.0
+ 5 3.0
9.5196564
9.8206164
9.8220232
24
140 26 53.0
5 19 19.7
- 1 33.6
6 69 24.2%
- 9 18.9
9.5325835
9.8250065
9.8293945
26
150 31 59.0
4 59 57.1
5 51.4
6 48 32.5*
8 19.8
9.5462443
9.8349952
9.8416096
28
159 59 11.2
4 34 95.8
9 14.7
6 26 58.5
13 1.4
9.5601101
9.8490433
9.8571140
30
168 50 34.8
4 17 19.9
-II 31.4
+5 57 15.3
-16 30.8
0.5737689
9.8656570
9.8745294
Feb. 1
177 9 7.6
4 1 36.8
12 40.8
5 21 36.1
18 59.3
9.5869135
9.8836074
9.8927889
3
184 58 10.6
3 47 43.3
12 48.4
4 41 50.5
90 39.9
9.5993268
9.9019888
9.91 11401
5
192 21 9.1
3 35 33.0
12 2.8
3 59 24.6
91 41.9
9.6108626
9.9201888
9.9290938
7
199 21 23.6
3 94 58.1
10 35.4
3 15 24.8
99 14.5
9.6214260
9.9378227
9.9463523
9
206 2 1.8
3 15 54.5
- 8 36.5
+2 30 41.1
-39 96.1
9.6309608
9.9546666
9.9627547
11
212 25 56.6
3 8 13.4
6 16.2
1 45 51.1
93 91.6
9.6394360
9.9706093
9.9782269
13
218 35 45.9
3 1 48.0
3 42.8
1 1 22.5
93 5.9
9.6468388
9.9856066
9.9927502
15
224 33 54.5
9 56 31.7
- 1 4.5
+0 17 36.1
91 39.9
9.6531672
9.9996605
0.0063414
17
230 22 34.8
9 59 18 6
+ 1 32.4
-0 25 12.4
91 7.6
9.6584250
0.0127973
0.0190337
10
236 3 48.0
9 49 4.0
+ 4 2.3
-1 6 50.7
-90 99.9
9.6626194
0.0250565
0.0308722
21
241 39 27.5
9 46 44.4
G 20.5
1 47 8.8
19 47.5
9.6657584
0.0364866
0.0419051
23
247 1 1 20.4
9 45 18.8
8 22.8
2 25 57.9
19 0.9
9.6678488
0.0471339
0.0521793
25
252 41 8.3
9 44 39.4
10 5.6
3 3 9.6
18 10.1
9.6688962
0.0570468
0.0617419
27
258 10 30.7
9 44 51.1
11 25.9
3 38 35.3
17 14.8
9.6689031
0.0662688
0.0706332
29
263 41 5.3
9 45 51.6
+12 20.9
-4 12 5.5
-16 14.4
9.6678695
0.0748395
0.0788902
Mar. 2
269 14 29.9
9 4741.4
12 49.0
4 43 29.1
15 8.1
9.6657931
0.0827905
0.0865430
4
274 52 25.0
9 50 99.3
12 47.9
5 12 33.1
13 54.6
9.6626681
0.0901508
0.0936155
6
280 36 34.5
9 53 56.3
12 16.5
5 39 1.7
19 39.4
9.6584879
0.0969395
0.1001238
8
286 28 47.7
9 58 96.4
11 13.9
6 2 35.6
10 59.6
9.6532442
0.1031693
0.1060762
10
292 31 0.2
3 3 56.5
+ 9 40.4
-6 22 51.5
- 9 13.9
9.6469302
0.1088446
0.1114726
12
298 45 16.6
3 10 31.0
7 36.9
6 39 20.9
7 13.7
9.6395415
0.1139579
0.1162990
14
305 13 50.6
3 18 15.1
5 6.2
6 51 29.7
4 59.7
9.6310803
0.1184931
0.1205362
16
311 59 7.1
3 97 14.5
+ 2 12.8
6 58 36.7
- 9 10.4
9.6215592
0.1224226
0.1241466
18
319 3 42.5
3 37 34.7
- 0 56.5
6 59 53.7
+ 0 58.0
9.6110090
0.1257015
0.1270794
20
326 30 23.1
3 49 90.8
- 4 11.8
-6 54 24.5
+ 4 36.4
9.5994854
0.1282716
0.1292677
22
334 22 5.2
4 9 36.3
7 19.6
6 41 6.0
8 47.8
9.5870823
0.1300563
0.1306236
24
342 41 48.0
4 17 91.9
10 3.0
6 fo 50.1
13 33.8
9.5739459
0.1309575
0.1310404
26
351 32 26.3
4 33 30.4
12 0.8
5 46 28.7
18 59.6
9.5602917
0.1308555
0.1303856
28
0 56 37.2
4 50 50.8
12 51.6
5 fr 2.2
94 37.9
9.5464258
0.1296093
0.1285058
30
10 56 19.9
5 8 56.6
-12 15.4
-4 7 52.8
+30 33.3
9.5327592
0.1270533
0.1252282
32
21 32 26.9
5 97 7.9
-10 0.2
-3 1 3.7
+36 11.6
9.5198185
0.1230071
HELIOCENTRIC CO-ORDINATES, 1884.
251
MERCURY.
GREENWICH MEAN NOON.
Date.
Heliocentric
Longitude,
Mean JSqninox
of Date.
Daily
Motion.
Reduction
to
Orbit.
Heliocentrio
Latitude.
Daily
Motion.
Logarithm
of
Radius
Yeotor.
Logarithm of Distance
from Earth—,
At Date.
At Interme-
diate Date.
O 1 II
O 1 il
i a
O 1 II
i n
Apr. 1
21 32 26.9
5 97 7.9
-10 0.2
-3 1 3.7
+36 11.6
9.5198185
0.1230071
0.1203663
3
32 44 12.9
5 44 94.0
6 9.3
1 43 41.5
40 58.3
9.5082330
0.1172830
0.1137353
5
44 28 37.7
5 59 33.0
- 1 7.0
-0 18 15.-7
44 7.4
9.4966922
0.1097034
0.1051702
7
56 40 4.1
6 11 11.0
+ 4 17.7
+1 11 13.6
44 55.9
9.4918683
0.1001218
0.0945490
9
69 10 7.6
6 17 58.4
. 9 2.0
2 39 31.7
49 53.4
9.4883052
0.0884471
0.0818169
11
81 48 6.8'
6 19 0.6
+12 5.1
+4 0 53.1
+38 1.9
9.4883095
0.0746639
0.0669999
13
94 22 8.7
6 14 9.1
12 49.3
5 10 3.7
90 50.3
9.4918809
0.0588413
0.0502095
15
106 40 34.6
6 3 33.5
11 11.3
6 3 18.7
99 16.1
9.4987119
0.041 1297
0.0316309
17
118 33 28.2
5 48 43.5
7 41.1
6 38 53.8
13 90.4
9.5082581
0.0217446
0.0115041
19
129 53 33.6
5 31 1.0
+ 3 7.8
6 57 1.1
+ 4 55.6
9.5196473
0.0009444
9.9901011
21
140 36 36.7
5 11 55.0
- 1 37.8
+6 59 19.8
-9 94.3
9.5327901
9.9790102
9.9677083
23
150 41 7.8
4 59 39.8
5 54.9
6 48 17.1
8 94.8
9.5464575
9.9562326
9.9446200
25
160 7 46.0
4 34 9.4
9 17.2
6 26 34.4
13 5.1
9.5603229
9.9329077
9.9211337
27
168 58 38.2
4 16 58.0
11 33.0
5 56 44.8
16 33.4
9.5739758
9.9093372
9.8975583
29
177 16 42.6
4 1 93.3
12 41.4
5 21 1.1
19 1.9
9.5871104
9.8858383
9.8742200
May 1
185 5 20.1
3 47 31.4
-12 47.9
+4 41 12.4
-90 40.4
9.59951 14
9.8627486
9.8514716
3
192 27 56.5
3 35 91.8
12 1.7
3 56 44.6
91 41.9
9.6110327
9.8404390
9.8297018
5
199 27 52.2
3 94 49.4
10 33.8
3 14 43.7
99 14.8
9.6215806
9.8193140
9.8093322
7
206 8 14.0
3 15 46.8
8 34.5
2 29 59.7
99 96.1
96310994
9.7998141
9.7908177
9
212 31 54.5
3 8 7.0
6 13.9
1 45 9.8
39 91.4
9.6395Z82
9.7824012
9.7746227
11
218 41 32.2
3 I 49.6
- 3 40.5
+1 0 41.7
-99 4.8
9.6469447
9.7675376
9.7611982
13
224 39 31.0
9 56 97.9
- 1 2.0
+0 16 56.0
9i 39.3
9.6532566
9.7556527
9.7509426
15
230 28 3.3
9 59 15.9
+ 1 34.7
-0 25 51.4
91 7.0
9.6584983
9.7471024
9.7441584
17
236 9 10.6
9 49 1.5
4 4.5
1 7 28.6
90 99.3
9.6626766
9.7421278
9.7410177
19
241 44 45.9
9 46 49.6
6 22.4
1 47 45.4
19 46.8
9.6657996
9.7408258
9.7415397
21
247 16 35.9
9 45 15.8
+ 8 24.4
-2 26 33.0
-19 0 1
9.6678742
9.7431382
9.7455913
23
252 46 22.6
9 44 39.1
10 7.0
3 3 43.1
18 9.3
9.6G89057
9.7488617
9.7529060
25
258 15 45.1
9 44 51.5
11 27.0
3 39 7.1
17 13.9
9.6688970
9.7576765
9.7631222
27
263 46 21.2
9 45 59.8
12 21.8
4 12 35.4
16 13.5
9.6678477
9.7691898
9.7758257
29
269 19 49.2
9 47 43.5
12 49.3
4 43 57.0
15 7.0
9.6657552
9.7829757
9.7905875
31
274 57 49.2
3 50 35.1
+12 47.7
-5 12 58.7
-13 53.4
9.6626139
9.7986102
9.6069954
Jane 2
280 42 5.2
3 54 0.0
12 15.7
5 39 24.8
19 31.0
9.6584175
9.8156980
9.8246749
4
286 34 26.6
9 58 31.0
. U 12.7
6 2 55.8
10 58.0
9.6531571
9.8338863
9.8432954
6
292 36 49.2
3 4 9.0
9 38.7
6 23 8.4
9 19.9
9.6468262
9.8528684
9.8625747
8
298 51 17.5
3 10 37.5
7 34.8
6 39 34.2
7 10.7
9.6394207
9.8723855
9.8822714
10
305 20 5.5
3 18 99.6
+ 5 3.7
-6 51 38.6
- 4 50.4
9.6309428
9.8922176
9.9021932
12
312 5 38.4
3 97 33.3
+ 2 10.1
6 58 40.7
- 9 7.7
9.6214051
9.9121804
9.9221599
14
319 10 32.6
3 37 44.8
- 0 59.4
6 59 51.9
+ 1 1.9
9.6108390
9.9321139
9.9420218
16
326 37 34.9
3 49 39.3
4 14.7
6 54 16.0
4 40.0
9.599:1006
9.9518757
9.9610502
18
334 29 41.3
4 9 49.9
7 22.3
6 40 49.7
8 51.9
9.5868844
9.9713319
9.9809040
20
342 49 51.5
4 17 35.5
-10 5.3
-6 18 25.2
+13 38.4
9.5737373
9.9903493
9.9996504
22
351 40 59.5
4 33 46.0
12 2.1
5 45 53.9
18 57.8
9.5600768
0.0087890
0.0177455
24
1 5 42.8
4 51 7.3
12 51.7
5 2 16.8
94 49.6
9.5462101
0.0264993
0.0350291
26
11 5 59.0
5 9 13.7
12 14.1
4 6 56.5
30 37 6
9.5325498
0.0433123*
0.0513248
28
21 42 40.3
5 37 93.9
9 57.4
2 59 57.0
36 16.5
9.5196244
0.0590418
0.0664384
30
32 54 58.3
5 44 39.4
- 6 4.8
-1 42 25.9
+41 9.3
9.5080647
0.0734887
0.0801669
32
44 39 52.2
5 59 46.6
- 1 1.9
-0 16 54.1
+44 9.4
9.4985607
0.0864481
252
HELIOCENTRIC CO-ORDINATES, 1884.
•
MERCURY,
GREENWICH MEAN NOON
Date.
Heliocentric
Longitude,
Mean Equinox
of Date.
Daily
Motion.
Redaction
to
Orbit.
Heliocentric
Latitude.
Daily
MoMon.
Logarithm
Radius
Vector.
Logarithm of Diatanoe
from Earth—
At Date.
At Interme-
diate Date.
July 2
44 30 52.2
O / //
5 50 46.6
- 1 1.9
O / //
-0 16 54.1
+44 9.4
9.4985607
0.0864481
00923091
4
56 51 41.0
6 11 90.9
+ 4 22.6
+1 12 36.7
44 54.7
9.4917832
0.0977290
0.1026890
6
69 21 58.1
6 18 9.6
9 5.6
2 40 51.1
49 50.9
9.4882734
0.1071749
0.1111762
8
82 0 0.3
6 18 49.3
12 7.0
4 2 3.6
37 55.6
9.4883334
0.1146868
0.1177054
10
94 33 54.2
8 13 55.4
12 48.7
5 11 1.0
30 43.9
9.4919583
0.1202362
0.1222667
12
106 52 1.4
8 3 91.9
+11 8.8
+6 4 0.1
+99 7.8
9.4986361
0.1238695
0.1250005
14
1 18 44 28.2
5 4B98.6
7 37.3
6 39 18.6
13 19.9
9.5084195
0.1256978
0.1259818
16
130 4 1.5
5 30 44.0
+ 3 3.3
6 57 10.2
+ 4 48.9
9.5200356
0.1258758
0.1254010
18
140 46 29.4
5 11 37.3
- 1 42.1
6 59 15.3
-9 30.5
9.5329948
0.1245803
0.1234367
20
150 50 25.2
4 59 99.4
5 58.6
6 48 1.4
8 99.7
9.5466694
0.1219917
0.1202658
22
160 16 29.2
4 33 59.8
- 9 19.8
+6 26 9.9
-13 8.9
9.5605350
0.1182782
0.1160473
24
169 6 49.7
4 18 49.7
II 34.7
5 56 13.8
16 36.1
9.5741826
0.1135892
0.II09I9I
26
177 24 24.8
4 1 9.5
12 41.9
5 20 25.6
19 3.1
9.5873080
0.1080506
0.1049960
28
185 12 36.7
3 47 19.5
12 47.6
4 40 33.6
90 41.7
9.599*KM>8%
0. I0I7G6I
0.0983703
30
192 34 50.7
3 35 11.9
12 0.7
3 58 3.9
91 49.6
9.61 12042
0.0948169
0.0911133
Aug. 1
199 34 26.4
3 94 40.1
-10 32.2
+3 14 2.0
-39 15.9
9.6217369
0.0872657
0.0832792
3
206 14 31.2
3 15 39.1
8 32.4
2 29 17.6
99 96.9
9.6312397
0.0791578
0.0749053
5
212 37 57.8
3 8 0.7
6 11.6
1 44 27.8
99 91.3
9.6396823
0.0705243
0.0660165
7
218 47 24.1
3 1 37.4
3 38.0
1 0 0.1
99 4.8
9.6470522
0.0613835
0.0566256
9
224 45 13.3
9 56 99.8
- 0 59.5
+0 10 15.4
91 38.9
9.6533477
0.0517432
0.0467360
11
230 33 37 5
9 59 11.5
+ 1 37.1
-0 26 31.1
-91 6.3
9.6585729
0.0416032
0.0363437
13
236 14 38.4
9 40 58.8
4 6.8
1 8 7.1
90 98.6
9.6627347
0.0309553
0.0254368
15
241 50 9.1
9 46 40.7
6 24.5
1 48 22.5
19 46.1
9.6658414
0.0197860
0.0140009
17
247 21 56.0
9 45 14.7
8 26 1
2 27 8.6
18 59.4
9.667«>98
0.0080788
0 0020174
19
252 51 41.5
9 44 39.0
10 8.5
3 4 17.2
18 8.5
9.6689152
9.9958145
9.9894680
21
258 21 4.7
9 44 59.0
+11 28.0
-3 39 39.5
-17 13.0
9.6688902
9.9629761
9.9763376
23
263 51 42.8
9 45 54.0
12 22.2
4 13 5.9
16 19.5
9.6678244
9.9695520
9.9626190
25
269 25 13.9
9 47 45.5
12 49.5
4 44 25.4
15 5.9
9.6657155
9.9555398
9.9483171
27
275 3 18.8
9 50 98.0
12 47.4
5 13 24.8
13 69.9
9.6625578
9.9409550
9.9334588
29
280 47 41.6
9 54 3.8
12 15.0
5 39 48.2
19 99.7
9.6583447
9.9258376
9.9181026
31
286 40 11.5
9 58 35.7
+ 11 11.5
-6 3 16.4
-10 56.6
9.6530677
9.9102682
9.9023539
Sept. 2
292 42 44.4
3 4 7.6
9 37.0
6 23 25.7
9 10.4
9.6467201
9.8943834
9.8863868
4
298 57 25.2
3 10 44.9
7 32.6
6 39 47.6
7 8.5
9.6392977
9.6783998
9.8704661
6
305 26 27.9
3 18 30.8
5 1.2
6 51 47.7
4 48.0
9.6308029
9.8626388
9.8549807
8
312 12 18.0
3 97 39.5
+ 2 7.1
6 58 44.7
-9 5.0
9.6212489
9.8475646
9.6404743
10
319 17 31.8
3 37 55.9
- 1 2.5
-6 59 50.0
+ 1 4.4
9.6106670
9.8338057
9.6276656
12
326 44 56.4
3 49 44.1
4 17.8
6 54 7.2
4 43.7
9.5991136
9.8221714
9.8174489
14
334 37 27.8
4 3 9.4
7 25.2
6 40 33.1
8 56.9
9.5866849
9.8136282
9.8108394
16
342 58 5.7
4 17 50.1
10 7.4
6 17 59.4
13 43.9
9.5735282
9.8092085
9.8068496
18
351 49 44.3
4 34 1.8
12 3.5
5 45 18.3
19 3.0
9.5598618
9.8098580
9 8123019
20
1 15 0.2
4 51 94.9
-12 51.8
-5 1 30.3
+94 48.9
9.5459947
9.8162193
9.82161 II
22
11 15 50.5
5 9 30.7
12 12.8
4 5 58.9
30 43.1
9.5323416
9.8284400
9.8366316
1 24
21 53 5.6
5 97 40.6
9 54.4
2 58 48.8
36 916
9.5194324
9.8460780
9.8566425
26
93 5 56.3
5 44 55.0
6 0.5
1 41 8.7
41 6.0
9.5078991
9.6681674
9.8604800
28
44 51 18.8
5 59 59.0
- 0 56.9
-0 15 31.2
44 11.9
9.4984325
9.6934021
9.9067570
30
57 3 29.2
6 11 98.6
+ 4 27.5
+ 1 14 t.l
+44*54.9
9.4917018
9.9203734
9.9340915
32
69 33 58.2
6 18 6.9
+ 9 9.4
+2 42 11.5
+49 46.4
9.4882458
9.9477665
HELIOCENTRIC CO-ORDINATES, 1884.
253
MERCURY,
GREENWICH MEAN NOON.
Date.
Heliocentric
Lonritade,
If eon Equinox
of Date.
Dally
Motion.
Reduction
to
Orbit.
Heliocentrio
Latitude.
Daily
Motion.
Logarithm
of
Radius
Vector.
Logarithm of Distance
from Earth—
At Date.
At Interme-
diate Date.
Oct 2
O / //
69 33 58.2
O / //
6 18 6.2
+ 9 9.4
O / li
+2 42 11.5
+49 46.4
9.4882458
9.9477665
9.9612712
4
82 12 2.6
6 18 57.4
12 8.7
4 3 13.7
37 49.7
9.4883623
9.9744958
9.9873499
6
94 45 46.6
6 13 47.7
12 48.3
5 1 1 58.5
30 35.7
9.4920409
9.99976J3
0.0116750
8
107 3 33.9
6 3 96
11 6.4
6 4 41.5
91 59.4
9.4989655
0.0230519
0.0338667
10
J 18 55 32.4
5 46 13.0
7 33.3
6 3!) 43.2
13 4.0
9.5085860
0.0441065
0.0537681
12
130 14 32.4
5 30 96.4
+ 2 58.8
+6 57 19.1
+ 4 40.8
9.5202263
0.0628568
0.0713839
14
140 56 24.2
5 11 18.8
- 1 46.4
6 59 10.5
-9 36.8
9.5332036
0.0793658
0.0868222
16
150 59 43.4
4 59 4.4
6 2.2
6 47 45.3
8 34.7
9.5468855
0.0937749
0.1002470
18
160 25 12.8
4 33 35.9
9 22.5
6 25 45.2
13 19.7
9.5607510
0.1062623
0.1118444
80
J69 45 0.5
4 16 97.1
11 36.2
5 55 42 7
16 38.9
9.5743927
0.1170167
0.1218013
22
177 32 6.4
4 0 55.7
-12 42.5
+5 19 49.8
-19 5.0
9.5875082
0.1262194
0.1302916
24
185 19 52.0
3 47 7.9
12 47.2
4 39 54.9
90 49.8
9.5998841
0.1340366
0.1374719
26
192 41 43.2
3 35 0.7
1 1 59.6
3 57 23.3
91 43.4
9.61 13769
0.1406138
0.1434777
28
199 40 59.4
3 94 31.1
10 30.6
3 13 20.3
99 15.5
.9.6218938
0.1460765
0.1484235
30
206 20 47.5
3 15 31.9
8 30.6
2 28 35.6
99 96.9
9.6313802
0.1505300
0.1524065
Nov. 1
212 43 59.4
3 7 53.9
-6 9.3
+1 43 46.1
-99 91.9
9.6398059
0.1540623
0.1555060
3
218 53 13.2
3 1 31.8
3 35.5
0 59 18.9
99 4.3
9.6471589
0.1567449
0.1577857
5
224 50 52.6
9 56 18.6
- 0 57.1
+0 15 34.9
91 38.5
9.6534374
0.1586343
0.1592957
7
230 39 9.4
9 59 8.3
+ 1 39.6
-0 27 10.6
91 6.0
9.6586456
0.1597744
0.1600739
9
236 20 4.6
9 48 56.4
4 9.0
1 8 45.4
90 96.0
9.6627906
0.1601976
0.1601476
11
241 55 31.3
9 46 39.9
+ 6 26.6
-1 48 59.5
-19 45.4
9.6658806
0.1599259
0.1595337
13
247 27 15.9
9 45 13.9
8 28.1
2 27 44.2
18 58.6
9.6679224
0.1589720
0.1582407
15
252 57 0.3
9 44 38.8
10 9.9
3 4 51.2
J8 7.6
9.6689213
0.1573394
0.1562671
17
258 26 23.8
9 44 59.8
11 29.0
3 40 11.7
17 19.1
9.6688798
0.1550229
0.1536044
19
263 57 4.1
9 45 55.6
12 22.9
4 13 36.2
18 11.5
9.6677976
0.1520095
0.1502349
21
269 30 39.1
9 47 47.8
+12 49.7
-4 44 53.6
-15 4.9
9.6656722
0.1482777
0.1461338
23
275 8 49.1
9 50 30.9
12 47.1
5 13-50.7
13 51.0
9.6624983
0.1437980
0.1412656
25
280 53 18.3
9 54 7.4
12 14.2
5 40 11.6
19 98.3
9.6582687
0:1385305
0.1355857
27
286 45 56.5
9 58 40.4
11 10.3
6 3 36.9
10 55.0
9.6529751
,0.1324248
0.1290396
29
292 48 40.0
3 4 13.5
9 35.3
6 23 42.9
9 8.7
9.6466110
0.1254212
0.1215605
Deo. 1
299 3 33.4
3 10 51.0
+ 7 30.4
-6 40 1.0
-7 6.6
9.6391723
0.1174471
0.1130697
3
305 32 50.8
3 18 38.5
4 58.6
6 51 56.7
4 45.6
9.6306613
0.1084164
0.1034741
5
312 18 57.8
3 97 41.5
4- 2 4.2
6 58 48.6
-9 9.9
9.6210915
0.0982289
0.0926663
7
319 24 31.0
338 56
- 1 5.5
6 59 47.9
+ 1 7.6
9.6104945
0.0867703
0.0805247
9
326 52 17.8
3 49 55.9
4 20.8
6 53 58.3
4 47.4
9.5989273
0.0739123
0.0669156
11
334 45 14.2
4 3 15.6
- 7 28.0
-6 40 16.2
+ 9 0.4
9.5864866
0.0595165
0.0516973
13
343 6 19.7
4 18 4.6
10 9.6
6 17 33.6
13 48.0
9.5733207
0.0434410
0.0347316
15
351 58 28.7
4 34 17.6
12 4.9
5 44 42.5
19 8.9
9.5596493
0.0255553
0.0159019
17
1 24 16.9
4 51 40.6.
12 52.0
5 0 43.8
94 53.7
9.5467827
0.0057657
9.9951477
19
11 25 41.0
5 9 46.0
12 11.5
4 5 1.2
30 48.6
9.5321373
9.9840577
9.9725173
21
22 3 30.3
5 97 57.9
- 9 52.0
-2 57 40.6
+36 96.4
9.5192447
9.9605636
9.9^82514
23
33 16 52.2
5 45 9.9
5 56.2
1 39 51.8
41 9 7
95077385
9.9356583
9.9228887
25
45 2 42.3
6 0 11.4
- 0 51.0
-0 14 8.5
44 19.9
9.4983095
9.9100769
9.8973809
27
57 15 13.7
6 11 37.9
+ 4 32.4
+1 15 25.0
44 53.4
9.4916260
9.8850269
9.8732179
29
69 45 54.9
6 18 9.5
9 13.2
2 43 31.4
49 43.4
9.4882235
9.8622159
9.8522862
31
82 23 59.7
6 18 54.8
+12 10.5
+4 4 25.2
+37 43.8
9.4883955
9.8430901
9.8366656
33
94 57 33.5
6 13 40.0
+12 47.7
+5 12 55.4
+30 97.8
9.4921271
9.8314071
254
HELIOCENTRIC CO-ORDINATES, 1884.
VENUS.
GREENWICH MEAN NOON.
Date.
Heliooentrio
Longitude,
Mean Equinox
of l>ate.
Daily
Motiou.
Redaction
to
Orbit.
Heliooentrio
Latitude.
Daily
Motion.
Logarithm
ot
Radius
Vector.
Logarithm of Distance
from Earth —
At Date.
At Interme-
diate Date.
Jan. 2
O / //.
342 28 3.3
0 / //
1 35 18.5
+0 20 .0
O 1 II
-3 23 17.9
-0 18.6
9.8618060
0.1702640
0.1677494
6
348 49 3.0
1 35 17.5
-0 20.0
3 23 17.8
+0 18.8
9.8616136
0.1651786
0.1625510
10
355J0 23.5
1 35S3.8
0 59.0
3 20 48.2
0 56.0
9.8613928
0.1598662
0.1571239
14
1 32 5.8
1 35 88.4
1 35.3
3 15 50.5
1 39.7
9.8611464
0.1543233
0.1514636
18
7 54 10.7
1 35 34.1
2 6.9
3 8 27.7
9 8.4
9.8608773
0.1485437
0.1455620
22
14 16 38.7
1 35 40.0
-2 32.2
-2 58 45.0
+9 49.7
9.8605886
0.1425166
0.1394054
26
20 39 30.5
1 35 46.0
2 50.0
2 46 48.9
3 15.0
9.8604840
0.1362263
0.1329770
30
27 2 46.9
J 35 59.8
2 59.5
2 32 47.7
3 45.1
9.8599671
0.1296557
0.1262608
F«b. 3
33 26 28.5
1 35 58.6
3 0.1
2 16 51.4
4 19.6
9.8596419
0.1227907
0.1192440
7
39 50 35.9
1 36 5.1
- 2 51.8
1 59 11.3
4 37.0
9.8593123
0.1156189
0.1119154
11
46 15 9.7
1 36 11.8
-2 34.8
-1 40 0.4
+4 58.0
9.8589824
0.1081316
0.1042663
15
52 40 10.7
1 36 18.7
2 10.1
1 19 32.6
5 15.3
9.8586564
0.1003174
0.0962833
19
59 5 39.6
1 36 35.8
1 38.8
0 58 3.1
5 98.8
9.8583384
0.0921617
0.0879494
23
65 31 36.9
1 36 39.9
1 2.6
0 35 48.1
5 38.1
9.8580324
0.0836437
0.0792411
27
71 58 2.8
1 36 40.0
-0 23.2
-0 13 3.9
5 43.9
9.8577423
0.0747390
0.0701338
Mar. 2
78 24 57.4
1 36 47.9
+0 17,5
+0 9 51.9
+5 44.0
9.8574720
0.0654228
0.0606037
6
84 52 20.6
1 36 54.3
0 57.4
0 32 41.8
5 40.3
9.8572249
0.0556743
0.0506322
10
91 20 11.9
1 37 1.8
1 34.3
0 55 8.3
5 39.9
9.8570042
0.0454753
0.0402015
14
97 48 30.1
137 7.8
2 6.5
I 16 53.8
5 19.8
9.8568128
0.0348087
0.0292942
18
104 17 13.6
137 13.8
2 32.3
1 37 41.5
5 3.4
9.8566533
0.0236546
0.0178863
22
110 46 20.2
1 37 19.8
+2 50.4
+1 57 15.2
+4 49.9
9.8565279
0.0119851
0.0059465
26
117 15 47.1
1 37 83.9
2 59.9
2 15 19.4
4 18.6
9.8564380
9.9997664
9.9934402
30
123 45 30.9
1 37 87.6
2 59.9
2 31 39.8
3 51.0
9.8563849
9.9869629
9.9803303
Apr. 3
130 15 27.6
1 37 30.3
2 50.8
2 46 3.7
3 80.4
9.8563694
9.9735389
9.9665847
7
136 45 32.7
1 37 31.8
2 33.0
2 58 19.7
9 47.9
9.8563916
9.9594649
9.9521756
11
143 15 41.3
137 39.0
+2 7.3
+3 8 18.1
+9 11.7
9.8564513
9.9447137
0.9370752
15
149 45 47.9
1 37 30.9
1 35.2
3 15 51.3
1 34.6
9.8565475
9.9292558
9.9212508
19
156 15 47.1
1 37 98.3
0 58.1
3 20 53.5
0 56.3
9.8566791
9.9130549
9.9046627
23
162 45 33.3
1 37 94.3
+0 18.1
3 23 21.1
+0 17.4
9.8568442
9.8960674
9.8872626
27
169 15 0.9
] 37 19.0
-0 22.7
3 23 12.4
-0 91.7
9.8570410
9.8782416
9.8689987
May 1
175 44 4.7
1 37 19.4
-1 2.5
+3 20 28.0
-1 0.4
9.8572664
9.8595285
9.8498254
5
182 12 39.6
1 37 4.6
I 38.9
3 15 10.5
1 38.9
9.8575177
9.8398850
9.8297036
9
188 40 41.2
1 36 55.8
2 10.2
3 7 24.5
9 14.6
9.8577916
9.8192778
9.8086048
13
195 8 5.8
1 36 46.9
2 35.2
2 57 16.7
9 49.0
9.8580846
9.7970815
9.7865050
17
201 34 50.5
1 36 36.0
2 51.9
2 44 55.3
3 91.9
9.8583929
9.7750724
9.7633813
21
208 0 53.0
1 36 95.3
-8 0.2
+2 30 30.4
-3 50.7
9.8587126
9.7514297
9.7392163
25
214 26 12.0
1 36 14.9
2 59.4
2 14 13.5
4 17.9
9.8590396
9.7267420
9.7140101
29
220 50 47.1
1 36 3.3
2 49.7
1 56 17.3
4 40.3
9.8593698
9.7010274
9.6878036
June 2
227 14 38.6
1 35 59.6
2 31.5
1 36 55.9
4 59.8
9.8596990
9.6743547
9.6607028
6
233 37 48.0
135 49.3
2 5.8
1 16 23.9
5 15.5
9.8600232
9.6468767
9.6329124
10
240 0 17.4
1 35 39.6
-1 34.0
+0 54 57.1
-6 27.9
9.8603384
9.6188541
9.6047550
14
246 22 9.5
1 35 93.7
0 57.6
0 32 51.4
5 34.9
9.8606407
9.5906793
9.5767030
18
252 43 27.8
1 35 15.8
-0 18.4
+0 10 23.3
5 38.5
9.8609265
9.5629160
9.5494212
22
259 4 16.2
135 8.8
+0 21.6
-0 12 10.9
5 37.9
9.8611924
9.5363368
9.5237989
26
265 24 38.9
1 35 9.9
1 0.4
0 34 34.4
5 33.9
9.8614351
9.5119596
9.5009849
30
271 44 40.3
1 34 58.9
+1 36.5
-0 56 31.2
-5 94.5
9.8616517
9.4910506
9.4823371
July 4
278 4 25.2
1 34 54.6
+2 7.7
-I 17 45.4
-5 11.9
9.8618397
9.4750173
HELIOCENTRIC CO-ORDINATES, 1884.
255
VENUS.
GREENWICH MEAN NOON.
Date
Heliocentric
Longitude,
Mean Equinox
of Date.
Daily
Motion.
Bednotlon
to
Orbit.
Heliocentric
Latitude.
Daily
Motion.
Logarithm
of
Radius
Vector.
Logarithm of Distance
from Earth—
At Date.
At Interme-
dial e Pale.
O I II
O 1 il
i a
o / II
/ //
July 4
278 4 25.2
1 34 54.6
+2 7.7
-1 17 45.4
--5 11.9
9.8618397
9.4750173
9.4692533
8
284 23 58.2
1 34 58.9
2 32.7
1 38 1.9
4 55.6
9.8619971
9.4651777
9.4628855
12
290 43 23.8
I 34 51.0
2 50.3
1 57 6.0
4 35.8
9.8621217
9.4624286
9.4638090
16
297 2 46.4
I 34 50.7
2 59.6
2 14 44.1
4 19.7
9 8622 12: \
9.4669806
9.4718535
20
303 22 10.1
1 34 51.4
3 0.1
2 30 43.7
3 46.6
9.8622677
9.4783027
9.4861776
24
309 41 38.7
1 34 53.1
+2 51.9
-2 44 53.2
-3 17.8
9.8622873
9.4953109
9.5055299
28
316 1 15.4
1 34 55.5
2 35.4
2 57 2.4
9 46.5
9.8622708
9.5166643
9.5285498
Aug. 1
322 21 3.2
1 34 58.6
2 11.3
3 7 2.4
9 13.9
9.8622185
9.5410327
9.5539744
5
328 41 4.7
1 35 9.3
1 40.9
3 14 46.0
1 38.3
9.8621307
9.5672501
9.5807486
9
335 1 22.1
1 35 6.5
1 5.5
3 20 7.3
1 9.9
9.8620087
9.5943739
9.6080451
13
341 21 57.2
1 35 11.1
+0 26.9
-3 23 2.2
-0 95.9
9.8618538
9.6216923
9.6352<gK)
9.6619853
17
347 42 51.5
1 35 16.1
-0 13.0
3 23 28.2
+0 J9.9
9.8616678
9.6487029
21.
354 4 6.3
1 35 91.4
0 52.3
3 21 24.7
0 49.6
9.8614529
9.6750808
9.6879703
25*
0 25 42.7
1 35 96.9
1 29.1
3 16 52.6
1 96.4
9.86I2M7
9.7006397
9.7130803
29
6 47 41.4
1 35 33.6
2 1.7
3 9 55.0
9 9.9
9.8609470
9.7252856
9.7372520
Sept 2
13 10 3.1
1 35 38.4
-2 28.3
-3 0 36.4
+9 36.7
9.8606620
9.7489769
9.7604598
6
19 32 48.5
1 35 44.4
2 47.5
2 49 3.1
3 9.5
9.8603601
9.7717001
9.7826978
10
25 55 58.3
1 35 50.6
2 58.5
2 35 23.2
3 40.0
9.8600451
9.7934543
9.8039714
14
32 19 33.2
135 56.9
3 0.7
2 19 46.3
4 7.9
9.8597208
9.8142517
9.8242991
18
38 43 33.8
1 36 3.4
2 53.9
2 2 23.6
4 39.8
9.8593912
9.8341191
9.8437171
22
45 8 0.8
1 36 10.1
-2 38.4
-1 43 27.8
+4 54.5
9.8590602
9.8530990
9.8622721
26
51 32 54.9
1 36 17.0
2 14.9
1 23 12.6
5 19.5
9.8587322
9.8712426
9.8800165
30
57 58 16.9
1 36 94.0
1 44.7
1 1 52.9
5 96.6
9.8584112
9.8885998
9.8969982
Oct. 4
64 24 7.3
1 36 31.9
1 9.3
0 39 44.7
5 36.7
9.8581013
9.9052160
9.9132570
8
70 50 26.5
1 36 38.4
-0 30.2
-0 17 4.5
5 49.6
9.8578064
9.9211250
9.92882:13
12
77 17 14.7
1 36 45.6
+0 10.4
+0 5 50.3
+5 44.1
9.8575303
9.9363556
9.9437254
16
83 44 31.8
1 36 59.8
0 50.5
0 28 42.4
5 41.9
9.8572767
9.9509362
9.9579917
20
90 12 17.2
1 36 59.8
1 28.1
0 51 14.1
5 33.9
9.8570488
9.9648962
9.9716547
24
96 40 30.0
1 37 6.5
2 1.3
1 13 8.0
5 99.3
9.8568496
9.9782720
9.9847522
28
103 9 8.7
1 37 19.7
2 28.3
1 34 7.0
5 6.5
9.8566818
9.99 11002
9.9973190
Nov. 1
109 38 11.2
1 37 18.3
+2 47.8
+ 1 53 54.8
+4 46.7
9.8565476
0.0034125
0.0093830
5
1 16 7 34.9
1 37 93.9
2 58.7
2 12 15.8
4 93.9
9.8564486
0.0152329
0.0209642
9
122 37 16.4
1 37 97.9
3 0.5
2 28 55.4
3 56.1
9.8563864
0.0265786
0.0320783
13
129 7 11.8
1 37 30.1
2 53.0
2 43 40.6
3 96.0
9.8563616
0.0374646
0.0427399
17
135 37 16.7
1 37 31.9
2 36.7
2 56 19.8
9 53.9
9.8563747
0.0479065
0.05296<0
21
142 7 26.2
1 37 39.4
+2 12.4
+3 6 43.0
+9 18.1
9.8564254
0.0579246
0.0627819
25
148 37 35.1
1 37 31.6
1 41.2
3 14 42.2
1 41.9
9.8565131
0.0675426
0.0722085
29
155 7 37.8
1 37 99.3
1 4.9
3 20 11.2
I 3.1
9.8566365
0.0767823
0.0812661
Deo. 3
161 37 28.6
1 37 95.6
+0 25.2
3 23 6.1
+0 94.3
9.8567943
0.0856616
00899701
7
168 7 1.9
1 37 90.6
-0 15.6
3 23 24.8
-0 14.8
9.8569841
0.0941930
0.0983305
11
174 36 12.4
1 37 14.3
-0 55.6
4-3 21 7.5
-0 53.6
9.8572034
0.1023836
0.1063542
15
181 4 55.1
1 37 6.7<
> 1 32.8
3 16 16.6
1 31.6
9.8574496
0.1102433
0.1140520
19
187 33 5.3
1 36 58.1
2 5.2
3 8 56.2
9 8.3
9.8577192
0.1177820
0.1214356
23
194 0 39.2
1 36 48.6
2 31.3
2 59 12.6
9 43.9
9.8580089
0.1250149
0.1285221
27
200 27 33.5
1 36 38.4
2 49.6
2 47 13.8
3 15.8
9.8583148
0.1319589
0.1353274
31
206 53 45.9
1 36 97.7
-2 59.4
+2 33 9.6
-3 45.8
9.8586331
0.1386289
0.1418640
35
213 19 14.9
1 36 16.8
-3 0.?
+2 17 11.3
-4 19.8
9.8589597
0.1450338
•
256
HELIOCENTRIC CO-ORDINATES, 1884.
»
MARS.
GREENWICH MEAN NOON.
Date.
Heliocentric
Longitude,
Mean Equinox
of Date.
Daily
Mation.
Reduction
to
Orbit.
Heliocentric
Latitude.
Daily
Motion.
Logarithm
of
Radius
Vector.
Logarithm of Distance
from Earth—
At Dato.
At Interme-
diate Date, i
Jan. 2
118° 38 51.0
/ //
87 11.99
W.f?
O / //
-hi 44 19.8
+18.04
0.2135255
9.8772101
9.8710055 1
6
120 27 27.2
97 6.17
32.0
1 45 28.7
16.40
0.2143076
9.8650623
9 8594112 !
JO
122 15 40.8
97 0.67
29.3
1 46 31.0
14.76
0.2150519
9.8540844
9.8491144
14
124 3 33.0
96 55.45
26.2
1 47 26.8
13.14
0.2157581
9.8445334
9.8403738
18
125 51 4.8
96 50.50
23.2
1 48 16.1
11.59
0.2164254
9.8366678
9.8334468 '
22
127 38 17.4
96 45.85
+20.2
+1 48 59.0
+ 9.90
0.2170540
9.8307395
9.8285711 '
26
129 25 12.0
98 41.51
17.0
1 49 35.4
8.99
0.2176435
9.8269637
9.8259346
30
131 11 49.9
96 37.47
13.9
1 50 5.3
6.69
0.2181934
9.8254957
9.8256514
Feb. 3
132 58 12.2
96 33.79
10.6
1 50 28.9
5.10
0.2187036
9.8264001
9.8277352
7
134 44 20.1
96 30.99
7.4
1 50 46.1
3.51
0 2191736
9.8296451
9.8321132
• 11
136 30 14.9
96 97.15
+ 4.1
+1 50 57.0
+ 1.99
0.2196034
9.8351190
9.8386389
15
138 15 57.7
96 94.39
+ 0.9
1 51 1.5
+ 0.34
0.2199926
9.8426476
9.8471179
19
140 1 29.8
96 91.79
- 2.5
1 50 59.7
- 1.99
0.2203410
9.8520196
9.8573215
23
141 46 52.4
96 19.55
5.8
1 50 51.7
9.77
0.2206487
9.8629909
9.8689942
27
143 32 6.6
96 17.59
9.2
1 50 37.5
4.39
0.2209154
9.8752973
9.8818657
Mar. 2
145 17 13.5
96 15.99
-12.3
+ 1 50 17.1
-5.87
0.2211409
9.8886656
9.8956646
6
147 2 14.4
96 14.57
15.5
1 49 50.5
7.40
0.2& 13251
9.9028320
9.910 1389
10
148 47 10.5
96 13.59
18.6
1 49 17.9
8.99
0.2214680
9.0175595
9.9250700
14
150 32 3.0
96 19.77
21.6
1 48 39.2
10.44
0.2215696
9.9326508
9.9402814
18
152 16 53.1
98 19.33
24.5
1 47 54.4
11.95
0.2216296
9.9479453
9.9556266
22
154 1 42.0
98 19.16
-27.5
+ 1 47 3.6
-13.45
0.2216484
9.9633107
9.9709841
26
155 46 30.8
96 19.97
30.3
1 46 6.8
14.94
0.2216254
9.9786340
9.9862483
30
157 31 20.6
96 19.69
33.0
1 45 4.1
16.49
0.2215610
9.9938157
0.0013266
Apr. 3
159 16 12.7
96 13.49
35.4
1 43 55.5
17.89
0.2214552
0.0087729
0.0161473
7
161 1 8.4
98 14.47
37.8
1 42 41.0
19.34
0.2213080
0.0234440
0.0306589
11
162 46 8.9
96 15.89
-40.1
+1 41 20.8
-90.78
0.2211194
0.0377888
0.0448*08
15
164 31 15.4
96 17.45
42.3
1 39 54.8
99.91
0.2208895
0.0517828
0.0586434
19
166 16 28.9
96 19.37
44.2
1 38 23.1
93.63
0.2206184
0.06541 12
0.0720845
23
168 I 50.7
96 91.60
* 46.0
I 36 45.7
95.04
0.2203064
0.0786613
0.0851 399
27
169 47 22.1
96 94.19
47.7
1 35 2.8
96.43
0.2199534
0.0915188
0.0977967
May 1
171 33 4.1
96 96.99
-49.2
+ 1 33 14.3
-47.89
0.2195596
0.1039727
0.1100466
5
173 18 57.9
98 30.04
50.3
1 31 20.2
99.90
0.2191253
0.1160186
0.1218893
9
175 5 4.8
96 33.49
51.2
1 29 20.7
30.55
0.2186507
0.1276599
0.1333319
13
176 51 26.2
96 37.94
52.2
1 27 15.8
31.89
0.2181360
0.1389070
0.1443865
17
178 38 3.2
96 41796
53.1
1 25 5.6
33.90
0.2175815
0.1497715
0.1550630
21
180 24 56.7
96 45.59
-53.5
4-1 22 50.2
-34.51
0.2169874
0.1602617
0.1653682
•*5
182 12 8.2
96 50.93
53.8
1 20 29.5
35.81
0.2163540
0.1703827
0.1753055
29
183 59 38.9
96 55.17
53.9
1 18 3.7
37.09
0.2156817
'0.1801371
0.1848783'
June 2
185 47 30.0
97 0.41
53.8
1 15 32.8
38.35
0.2149709
0.1895303
0.1940946
6
187 35 42.6
97 5.95
53.4
1 12 56.9
39.59
0.2142218
0.1985729
0.2029669
10
189 24 18.0
97 11.79
-52.9
+1 10 16.1
-40.80
0.2134349
0.2072786
0.2115095
14
191 13 17.3
97 17.94
52.1
1 7 30.5
49.00
0.2126107
0.2156610
0.2197346
) 18
193 2 41.9
97 94.41
51.0
1 4 40.1
43.17
0.2117498
0.2237316
0.2276526
22
194 52 33.0
97 31.16
49.9
1 1 45.1
44.39
0.2108526
0.2314978
0.2352678
26
196 42 51.6
97 38.91
48.4
0 58 45.6
45.45
0.2099194
0.2389634
0.2425851
30
198 33 39.1
97 45 57
-46.8
+0 55 41.5
-46.54
0.2089514
0.2461337
0.2496104
July 4
200 24 56.6
97 53.99
-45.0
+0 52 33.2
-47.60
0.2079487
0.2530168
HELIOCENTRIC CO-ORDINATES, 1884.
251
MARS.
GREENWICH MEAN NOON.
Date.
Heliocentric
Longitude,
Mean Equinox
of Date.
Dally
, Motion.
deduction
to
Orbit.
Heliocentric
Latitude.
Dally
Motion.
Logarithm
of
Radian
"Vector.
Logarithm of Distance
from Earth—
At Date.
At Interme-
dial e Date.
Q 1 II
/ //
//
O 1 II
//
July 4
200 24 56.6
37 53.33
-45.0
+0 52 33.2
-47.60
0.2079487
0.2530168
0.2563545
8
202 16 45.3
38 1.17
43.0
0 49 20.7
48.63
0.2069120
0.2596249
0.2628300
12
204 9 6.3
38 9.43
40.7
0 46 4.2
49.63
0.2058424
0.2659710
0.2690491
16
206 2 1.1
38 18.00
38.4
0 42 43.7
50.60
0.2047403
0.2720649
0.2750191
20
207 55 30.7
38 36.84
35.8
0 39 19.2
51.54
0.2036064
0.2779123
0.2807449
24
209 49 36.2
38 35.96
-33.0
+0 35 51.2
-53.45
0.2024423
0.2835171
0.2862294
28
211 44 18.8
38 45.37
30.1
0 32 19.6
53.33
0.2012481
0.2888824
0.2914769
Aug. 1
213 39 39.6
88 55.09
26.9
0 28 44.6
54.15
0.2000248
0.2940143
0.2964960
5
215 35 39.9
39 5.10
23.7
0 25 6.4
54.91
0.1987738
0.2989230
0.3012967
9
217 32 20.8
39 15.38
20.4
0 21 25.3
55.63
0.1974960
0.3036183
0.3058889
13
219 29 43.3
39 35.93
-16.9
+0 17 41.5
-56.31
0.1961926
0.3081096
0.3102808
17
221 27 48.5
39 36.73
13.4
0 13 54.9
56.95
0.1948648
0.3124027
0.3144753
21
223 26 37.5
39 47.79
9.8
0 10 5.8
57.59
0.1935137
0.3164989
0.3184738
25
225 26 11.2
99 59.19
6.0
0 6 14.7
58.09
0.1921405
0.3204006
0.3222801
29
227 26 30.8
30 10.71
-2.3
+0 2 21.7
58.46
0.1907468
0.3241130
0.3259001
Sept. 2
229 27 37.2
30 33.54
+ 1.5
-0 1 33.0
-68.86
0.1893338
0.3276427
0.3293420
6
231 29 31.4
30 34.60
5.3
0 5 29.2
59.19
0.1879032
0.3309992
0.3326152
10
233 32 14.3
30 46.85
9.1
0 9 26.5
59.44
0.1864567
(T.334I906
0.3357260
14
235 35 46.6
30 59.33
12.9
0 13 24.7
59.63
0.1849957
0.3372217
0.3386780
18
237 40 9.2
31 18.00
16.6
0 17 23.5
59.79
0.1835219
0.3400951
0.3414731
22
239 45 22.9
31 34.88
+20.4
-0 21 22.5
-69.74
0.1820372
0.3428119
0.3441121
26
241 51 28.5
31 37.91
24.0
0 25 21.4
59.67
0.1805434
0.3453746
0.3466002
30
243 58 26.5
31 51.10
27.5
0 29 19.9
59.54
0.1790425
0.3477901
0.3489450
Oct. 4
246 6 17.5
39 4.45
30.9
0 33 17.7
59.30
0.1775363
0.3500660
0.3511541
8
248 15 2.3
33 17.93
34.1
0 37 14.3
58.96
0.1760270
0.3522102
0.3532347
12
250 24 41.2
39 3151
+37.1
-0 41 9.4
-68.53
0.1745169
0.3542280
0.3551902
16
252 35 14.5
33 45.16
39.9
0 45 2.5
57.99
0.1730080
0.3561214
0.3570217
20
254 46 42.5
33 58.88
42.6
0 48 53.3
57.36
0.1715026
0.3578915
0.3587310
24
256 59 5.5
33 19 65
45.1
0 52 41.4
56.64
0.1700031
0.3.VJ5406
0.3603212
28
259 12 23.7
33 36.46
47.2
0 56 26.4
55.80
0.1685118
0.3610736
0.3617987
Nov. 1
261 26 37.2
33 40.37
+49.1
-1 0 7.8
-54.84
0.1670312
0.3624976
0.3631713
5
263 41 45.9
33 54.05
50.6
1 3 45.1
53.76
0.1655635
0.3638207
0.3644462
9
265 57 49.5
34 7.76
52.0
1 7 17.9
53 58
0.1641121
0.3650482
0.3656270
13
268 14 47.9
34 31.39
53.0
1 10 45.8
51.39
0.1626789
0.3661828
0.3667156
17
270 32 40.6
34 34.95
53.6
1 14 8.2
49.87
0.1612668
0.3672255
0.3677128
21
272 51 27.3
34 48.36
+53.9
-1 17 24.7
-48.33
0.1598785
0.3681778
0.3686212
25
275 11 7.3
35 1.59
53.9
1 20 34.8
46.67
0.1585167
0.3690438
0.3694464
29
277 31 39.7
35 14.59
53.4
1 23 38.1
44 90
0.1571838
0.3698300
0.3701956
Dec 3
279 53 3.7
35 97.38
52.6
I 26 34.0
43.00
0.1558830
0.3705441
0.3708760
7
282 15 18.4
35 39.91
51.5
1 29 22.1
40.99
0.1516168
0.3711917
0.3714916
11
284 38 22.7
35 53.14
+50.0
-1 32 1.9
-38.85
0.1533880
0.3717759
0.3720445
15
287 2 15.1
36 4.03
48.1
1 34 32.9
36.61
0.1521994
0.3722976
0.3725352
19
289 26 54.4
36 15.56
46.0
1 36 54.8
34.36
0.1510535
0.3727574
0.3729650
23
291 52 19.1
36 38.71
43.4
1 39 7.0
31.80
0.1499529
0.3731585
0.3733386
27
294 18 27.6
36 37.41
40 4
1 41 9.2
89.34
0.1489001
0.3735061
0.3736621
31
296 45 17.8
36 47.63
+37.3
-1 43 0.9
-36.57
0.1478979
0.3738073
0.3739421
35
299 12 48.0
36 57.X
+33.8
-1 44 41.6
-33.79
0.1469485
0.3740673
17
258
HELIOCENTRIC CO-ORDINATES, 1884.
JUPITfeR.
GREENWICH MEAN NOON.
Date.
Heliocentric
Longitude,
Mean Eoninox
of Date.
Daily
Motion.
Reduction
to
Orbit.
Heliocentric
Latitude.
Daily
Motion.
Logarithm
of
Radius
Vector.
Logarithm of Distance
from Earth —
At Date.
At Interme-
diate Date.
Jan. 2
O / //
118 4 58.4
4 59.60
+16.6
O I 11
+0 25 24.2
+6.33
0.7207744
0.6358700
0.6348828
0
118 24 28.6
4 59.44
16.8
0 25 49.5
6.39
0.7208927
0.6340143
0.6332672
10
118 43 58.0
4 59.98
17.1
0 26 14.7
6.31
0.7210109
0.6326430
0.6321439
14
119 3 26.8
4 59.13
17.3
0 26 39.9
6.99
0.7211287
0.6317717
0.6315271
18
119 22 55.0
4 51.97
17.6
0 27 4.9
6.97
0.7212461
0.6314108
0.0314233
22
119 42 22.6
4 51.89
+ 17.8
+0 27 30.0
+6.95
0.7213633
0.6315642
0.6318339
26
120 1 49.6
4 51.66
18.0
0 27 54.9
6.94
0.7214803
0.6322325
0.6327588
30
120 21 15.9
4 51.50
18.3
0 28 19.8
6.99
0.7215970
0.6334124
0.6341905
Feb. 3
120 40 41.6
4 51.35
18.5
0 28 44.7
6.90
0.7217135
0.6350900
0.6361081
7
121 0 6.7
4 51.19
18.7
0 29 9.4
6.18
0.7218296
0.6372421
0.6384887
11
121 19 31.2
4 51.04
+19.0
+0 29 34.1
+6.16
0.7219456
0.6398451
0.6413077
15
121 38 55.0
4 50.88
19.2
0 29 58.7
6.15
0.7220612
0.6428724
0.6445357
19
121 58 18.2
4 50.73
19.4
0 30 23.3
6.13
0.7221765
0.6462944
0.6481443
23
122 17 40.9
4 50.58
19.6
0 30 47.8
6.11
0.7222915
0.6500810
0.6520999
27
122 37 2.9
4 50.43
19.8
0 31 12.2
6.09
0.7224064
0.6541968
0.6563668
Mar. 2
122 56 24.3
4 50.97
+20.0
+0 31 36.5
+6.07
0.7225210
0.658(M)49
0.6609061
6
123 15 45.1
4 50.19
20.2
0 32 0.8
6.06
0.7226352
0.6632661
0.6656800
10
123 35 5.3
4 49.97
20.4
0 32 24.9
6.04
0.7227493
0.6681430
0.6706508
14
123 54 24.8
4 49.89
20.6
0 32 49.1
6.09
0.7228630
0.6731993
0.6757844
18
124 13 43.8
4 49.67
20.8
0 33 13.1
6.00
0.7229763
0.6784016
0.6810473
22
124 33 2.2
4 49.59
+21.0
+0 33 37.1
+5.98
0.7230895
0.6837180
0.6864096
26
124 52 20.0
4 49.37
21.2
0 34 0.9
5.96
0.7232022
0.6891183
0.6918400
30
125 11 37.2
4 49.99
21.4
0 34 24.8
5.94
0.7233146
0.6945706
0.6973064
Apr. 3
125 30 53.8
4 49.07
21.6
0 34 48.5
599
0.7234268
0.7000440
0.7027803
7
125 50 9.8
4 48.99
21.8
0 35 12.2
5.90
0.7235389
0.7055119
0.7082363
11
126 9 25.2
4 48.78
+21.9
+0 35 35.7
+5.88
0.7236505
0.7109509
0.7136534
15
126 28 40.0
4 48.63
22.1
0 35 59.2
5.86
0.7237618
0.7163413
0.7190124
19
126 47 54.2
4 48.48
22.3
0 36 22.7
5.84
0.7238731
0.7216642
0.7242944
23
127 7 7.8
4 48.33
22.5
0 36 46.0
5.89
0.7239839
0.7269014
0.7294827
27
127 26 20.8
4 48.18
22.6
0 37 9.3
5.80
0.7240945
0.7320358
0.7345588
May 1
127 45 33.3
4 48.04
+22.8
+0 37 32.4
+5.78
0.7242046
0.7370503
0.7395086
5
128 4 45.2
4 47.89
23.0
0 37 55.5
5.76
0.7243146
0.7419318
0.7443188
9
128 23 56.5
4 47.74
23.2
0 38 18.5
5.74
0.7244242
0.7466687
0.7489803
13
128 43 7.2
4 47.00
23.3
0 38 41.5
5.79
0.7245335
0.7512528
0.7534849
17
129 2 17.4
4 47.46
23.5
0 39 4.3
5.70
0.7246425
0.7556759
0.7578245
21
129 21 26.9
4 47.39
+23.6
+0 39 27.1
+5.68
0.7247509
0.7599293
0.7619894
25
129 40 35.9
4 47.17
23.8
0 39 49 8
5.66
0.7248589
0.7640043
0.7659730
29
129 59 44.4
4 47.03
23.9
0 40 12.3
5.64
0.7249666
0.7678946
0.7697683
Juue 2
130 18 52.3
4 46.89
24.1
0 40 34.9
5.69
0.7250740
0.7715931
0.7733689
6
130 37 59.6
4 46.75
24.2
0 40 57.3
5.60
0.7251811
0.7750953
0.7767722
10
130 57 6.3
4 46.61
+24.3
+0 41 19.6
+5.57
0.7252879
0.7783992
0.7799761
14
131 16 12.5
4 46.47
24.4
0 41 41.9
5.55
0.7253944
0.7815023
0.7829773
1 18
131 35 18.1
4 46.33
24.6
0 42 4.0
5.53
0.7255006
0.7844008
0.7857722
22
131 54 23.2
4 46.19
- 24.7
0 42 26.1
5.51
0.7256065
0.7870907
0.7883560
26
132 13 27.7
4 46.05
24.8
0 42 48.1
5.49
0.7257120
0.7895677
0.7907256
30
132 32 31.6
4 45.99
+24.9
+0 43 10.0
+5.46
0.7258172
0.7918296
0.7928796
July 4
132 51 35.0
4 45.78
+25.1
+0 43 31.8
+5.44
0.7259220
0.7938755
HELIOCENTRIC CO-ORDINATES, 1884.
259
JUPITER.
GREENWICH MEAN NOON
Date.
Heliocentric
Longitude,
Mean Equinox
of Date.
Dally
Motion.
Redaction
to
Orbit
Heliocentric
Latitude.
Daily
Motion.
Logarithm
of
Radius
Vector.
Logarithm of Distance
from Earth—
At Date.
At Interme-
diate Date.
July 4
O 1 II
132 51 35.0
4 45.78
-1-25.1
O 1 II
+0 43 31.8
+5.44
0.7259220
0.7938755
0.7948172
8
133 10 37.9
4 45.64
25.2
0 43 53.5
5.49
0.7260264
0.7957047
0.7965379
12
133 29 40.2
4 45.50
25.3
0 44 15.1
5.39
0.7261304
0.7973168
0.7980411
16
133 48 42.0
4 45.37
25.4
0 44 36.7
5.37
0.7262341
0.7987108
0.7993255
80
134 7 43.2
4 45.94
25.5
0 44 58.1
5.35
0.7263375
0.7998843
0.8003873
24
134 26 43.9
4 45.11
+25.6
+0 45 19.4
+5.39
0.7264404
0.8008343
0.8012253
28
134 45 44.1
4 44.97
25.7
0 45 40.7
5.30
0.7265430
0.8015602
0.8018390
Aug. 1
135 4 43.7
4 44.84
25.8
0 46 1.8
5.27
0.7266452
0.8020620
0.8022291
5
165 23 42.9
4 44.71
25.9
0 46 22.9
5.25
0.7267471
0.8023407
0.8023965
9
135 42 41.4
4 44.58
26.0
0 46 43.9
5.23
0.7268486
0.8023965
0.8023404
13
136 1 39.5
4 44.45
+26.0
+0 47 4.7
+5.20
0.7269498
0.8022284
0.8020601
17
136 20 37.0
4 44.33
26.1
0 47 25.5
5.16
0.7270507
0.8018352
0.8015537
21
136 39 34.0
4 44.19
26.2
0 47 46.2
5.15
0.7271511
0.8012154
0.8008206
25
136 58 30.5
4 44.08
26.3
0 48 6.7
5.13
0.7272512
0.8003691
0.7998614
29
137 17 26.4
4 43.93
26.4
0 48 27.2
5.11
0.7273507
0.7992974
0.7986773
Sept. 2
137 36 21.9
4 43.80
+26.4
+0 48 47.6
+5.08
0.7274497
0.7980015
0.7972700
6
137 55 16.8
4 43.67
26.5
0 49 7.9
5.06
0.7275483
0.7964826
0.7956394
10
138 14 11.2
4 43.55
26.6
0 49 28.1
5.03
0.7276466
0.7947410
0.7937873
14
138 33 5.1
4 43.42
26.7
0 49 48.2
5.01
0.7277443
0.7927781
0.7917134
18
138 51 58.5
4 43.29
26.7
0 50 8.2
4.99
0.7278419
0.7905930
0.7894172
22
139 10 51.5
4 43.17
+26.H
+0 50 28.1
+4.96
0.7279389
0.7881866
0.7869014
26
139 29 43.9
4 43.04
26.8
0 50 47.9
4.94
0.7280354
0.7855619
0.7841688
30
139 48 35.8
4 42.92
26.9
0 51 7.6
4.91
0.7281315
0.7827229
0.7812247
Oct. 4
140 7 27.3
4 42.79
26.9
0 51 27.2
4.89
0.7282271
0.7796745
0.7780726
8
140 26 18.2
4 42.67
26.9
0 51 46.7
4.86
0.7283224
0.77641.94
0.7747152
12
140 45 8.6
4 42.55
+27.0
+0 52 6.1
+4.83
0.7284172
0.7729599
0.7711543
16
HI 3 58.6
4 42.42
27.0
0 52 25.3
4.81
0.7285116
0.7692980
0.7673947
20
141 22 48.1
4 42.30
27.0
0 62 44.5
4.78
0.7286056
0.7654433
0.7634453
24
141 41 37.0
4 42.18
27.0
0 53 3.6
4.76
0.72865*91
0.7614017
0.7593136
28
142 0 25.5
4 42.06
27.1
0 53 22.6
4.73
0.7287923
0.7571815
0.7550070
Nor. 1
142 19 13.5
4 41.94
+27.1
+0 53 41.4
+4.70
0.7288850
0.7527922
0.7505377
5
142 38 1.0
4 41.82
27.1
0 54 0.2
4.68
0.7289773
0.7482452
0.7459155
9
142 56 48.0
4 41.70
27.1
0 54 18.8
4.65
0.7290690
0.7435486
0.7411465
13
143 15 34.6
4 41.58
27.2
0 54 37.4
4.63
0.7291606
0.7387117
0.7362461
17
143 34 20.7
4 41.46
27.2
0 54 55.8
4.60
0.7292516
0.7337514
0.7312299
1 2I
143 53 6.3
4 41.35
+27.2
+0 55 14.2
+4.57
0.7293421
0.7286841
0.7261162
, 25
144 11 51.5
4 41.23
27.2
0 55 32.4
4.55
0.7294323
0.7235288
0.7209245
29
144 30 36.2
4 41.19
27.2
0 55 50.0
4.59
0.7295219
0.7183054
0.7156745
Dec. 3
144 49 20.4
4 41.00
27.2
0 56 8.6
4.50
0.7296110
0.7130350
0.7103893
7
145 8 4.2
4 40.88
27.2
0 56 26.5
4.47
0.7296996
0.7077408
0.7050918
11.
145 26 47.5
4 40.77
+27.2
+0 56 44.3
+4.44
0.7297878
0.7024452
0.6998046
15
145 45 30.4
4 40.66
27.1
0 57 2.0
4.42
0.7298756
0.6971726
0.6945541
19
146 4 12.8
4 40.55
27.1
0 57 19.6
4.39
0.7299630
0.6919543
0.6893774
23
146 22 54.8
4 40.44
27.1
0 57 37.1
4.36
0.7300499
0,6868274
0.6843083
27
146 41 36.3
4 40.33
27.1
0 57 54.5
4.33
0.7301063
0.6818245
0.67.9380Q
31
147 0 17.4
4 40.29
+27.0
+0 58 11.8
+4.3Q
0.7302923
0.6T69781
0.6746234
35
147 18 58.1
4 40.11
+27.0
+0 58 28.9
+4.97
0.7303Q8O
0.6723107
- M- ■ ■ — i —
260
HELIOCENTRIC CO-ORDINATES, 1884.
SATURN
GREENWICH MEAN NOON.
Date.
Heliocentric
Longitude,
Mean Eqninox
of Date.
Daily
Motiou.
Redaction
to
Orbit.
Helioceiitric
Latitude.
Daily
Motion.
Logarithm
of
Radina
Vector.
Logarithm of Distance
from Earth —
At Date.
At Iutenne-
dlateDate.
O / //
/ «
/ //
O / //
n
Jan. 2
67 54 53.3
9 13.40
-I 37.8
-1 45 14.1
-H.I1
0.9575413
0.9174261
0.9185130
0
68 3 47.3
9 13.51
1 37.8
1 44 57.6
4.19
0.9575169
0.9196471
0.9208262
10
68 19 41.4
2 13.59
1 37.7
1 44 41.1
4.14
0.9574925
0.9220481
0.9233103
14
68 91 35.5
9 13.54
1 37.7
1 44 24.5
415
0.9574683
0.9246109
0.9259480
18
68 30 99.7
9 13.55
1 37.6
1 44 7.9
4.16
0.9574443
0.9273192
0.9287223
22
68 39 93.9
9 13.56
-1 37.6
-1 43 51.3
+4.17
0.9574203
0.9301552
0.9316156
26
68 48 18.9
9 13.58
1 37.6
1 43 34.6
4.18
0.9573966
0.9331012
0.9346096
30
68 57 19.5
9 13.59
1 37.6
1 43 17.8
4.19
0.9573729
0.9361383
0.9376849
Feb. 3
69 6 6.9
9 13.60
1 37.6
1 43 J.0
4.90
0.9573494
0.9392471 .
0.9408224
7
69 15 1.4
9 13.69
1 37.5
1 42 44.2
4.91
0.9573260
0.9424087
0.9440038
11
69 93 56.9
9 13.63
-1 37.5
-I 42 27.3
+4.99
0.9573028
0.9456059
0.9472 J 28
15
69 32 60.4
9 13.64
J 37.5
1 42 10.4
4.94
0.9572797
0.9488227
0.9504336
19
69 41 45.1
9 13.66
1 37.4
1 41 53.4
4.95
0.9572567
0.9520437
0.9536513
93
69 50 39.7
9 13.67
1 37.4
1 41 36.4
4.96
0.9572339
0.9552544
0.9568510
97
69 59 34.5
9 13.68
1 37.3
1 41 19.3
4.97
0.9572112
0.9584392
0.9600171
Mar. 2
70 8 99.9
9 13.60
-1 37.3
-1 41 2.3
+4.98
0.9571886
0.9615832
0.9631358
6
70 17 94.0
9 13.71
1 37.3
1 40 45.1
4.99
0.9571662
0.9646734
0.9661943
10
70 96 18.9
9 13.79
1 37.2
1 40 27.9
4.30
0.9571439
0.9676973
0.9691813
14
70 35 13.8
9 13.73
1 37.2
1 40 10.7
4.31
0.9571218
0.9706450
0.9720873
18
70 44 8.8
9 13.74
1 37.1
1 39 53.5
4.39
0.9570998
0.9735071
0.9749031
99
70 63 3.8
9 13.76
-1 37.1
-1 39 36.2
+4.33
0.9570780
0.9762741
0.9776190
96
71 1 58.9
9 13.77
1 37.0
1 39 18.8
4.34
0.9570563
0.9789367
0.9802260
30
71 10 54.0
9 13.78
1 36.9
1 39 1.4
4.35
0.9570347
0.9814861
0.9827158
Apr. 3
71 19 49.1
9 13.79
1 36.9
1 38 44.0
4.36
0.9570133
0.9839144
0.9850813
7
71 98 44.3
9 13.81
1 36.8
1 38 26.5
4.37
0.9569921
0.9862157
0.9873169
11
71 37 39.6
9 13.89
-1 36.7
-1 38 9.0
+4.39
0.9569709
0.9883844
0.9894178
15
71 46 34.9
9 13.83
1 36.7
1 37 51.5
4.39
0.9569500
0.9904164
0.9913796
19
71 55 30.9
9 13.84
1 36.6
I 37 33.9
4.40
0.9569291
0.9923068
0.9931976
93
72 4 25.6
9 13.85
1 36.5
1 37 16.3
4.41
0.9569084
0.9940512
0.9948671
97
72 13 21.0
9 13.87
1 36.4
1 36 58.6
449
0.9568879
0.9956448
0.9963838
May 1
72 22 16.5
9 13.88
-1 36.3
-1 36 40.9
+4.43
0.9568675
0.9970838
0.9977446
5
72 31 12.1
9 13.80
1 36.3
1 36 23.1
4.44
0.9568472
0.9983660
0.9989479
9
72 40 7.7
9 13.90
1 36.2
1 36 5.3
4.45
0.9568271
0.9994900
0.9999922
13
72 49 3.3
9 13.01
1 36.1
1 35 47.5
4.46
0.9568071
1.0004544
1.0008765
17
72 57 69.0
9 13.99
1 36.0
1 35 29.6
4.47
0.9567872
1.0012581
1.0015987
91
73 6 54.7
9 13.04
-I 35.9
-1 35 11.7
+4.48
0.9567675
1.0018964
1.0021569
95
73 15 50.5
9 13.05
1 35.8
1 34 53.7
4.49
0.9567480
1.0023740
1.0025496
99
73 24 46.3
9 13.06
1 35.7
1 34 35.7
4,50
0.9567286
1.0026838
1.0027765
June 9
73 33 42.1
9 13.07
1 35.6
1 34 17.7
4.51
0.9567093
1.0028279
1. 0028*80
6
73 42 38.0
9 13.08
1 35.5
1 33 59.6
4.59
0.9566902
1.0028071
1.0027353
10
73 51 33.9
9 13.00
-1 35.4
-1 33 41.5
+4.53
0.9566712
1.0026225
1,0024689
14
74 0 29.9
9 14.00
1 35.3
1 33 23.3
4.54
0.9566524
1.0022744
1.0020391
18
74 9 25.9
9 14.01
1 35.2
1 33 5.2
4.55
0.9566337
1.0017630
1.0014461
99
74 18 21.9
9 14.09
1 35.1
1 32 46.9
4.56
0.9566151
1.0010885
1.0006902
96
74 27 18.0
9 14.03
1 34.9
1 32 28.7
4.57
0.9565967
1.0002516
0.9997732
30
74 36 14.1
9 14.04
-1 34.8
-1 32 10.3
+4.58
0.9565785
0.9992552
0.9986978
July 4
74 45 10.3
9 14.05
-1 34.7
-1 31 52.0
+4.50
0.9565604
0.9981014
HELIOCENTRIC CO-ORDINATES, 1884.
261
SATURN
GREENWICH MEAN NOON
Date.
Heliocentric
Longitude,
Mean Equinox
of Date.
Daily
Motion.
Redaction
to
Orbit.
Heliocentric
Latitude.
Daily
Motion.
Logarithm
of
Badina
Vector.
Logarithm of Distance
from Earth—
At Date.
At Interna*-
dint* Date.
July 4
or//
74 45 10.3
9 14.05
i //
-1 34.7
-1° 31 52.0
+4.59
0.9565604
0.9981014
0.9974665
8
74 54 6.5
9 14.06
1 34.6
1 31 33.6
4.60
0.9565424
0.9967934
0.9960625
12
75 3 2.8
9 14.07
1 34.4
1 31 15.2
4.61
0.9565246
0.9953340
0.9945480
16
75 11 59.1
9 14.08
1 34.3
1 30 56.7
4.69
0.9565069
0.9937249
0.9928653
20
75 20 55.4
9 14.09
1 34.2
1 30 38.2
4.63
0.9564894
0.9919693
0.9910371
24
75 29 51.8
9 14.10
-1 34.0
-1 30 19.7
+4.64
0.9564720
0.9900697
0.9890677
28
75 38 48.2
9 14.11
1 33.9
1 30 1.1
4.65
0.9564548
0.9880318
0.9669623
Aug. 1
75 47 44.6
9 14.19
1 33.8
1 29 42.4
4.66
0.9564377
0.9858603
0.9647265
5
75 56 41.1
9 14.13
1 33.6
1 29 23.8
4.67
0.9564208
0.9835616
0.9823663
9
76 5 37.7
9 14.14
1 33.5
1 29 5.T
4.68
0.9564040
0.9811412
0.9796868
13
76 14 34.2
9 14.14
•I 33.3
-1 28 46.4
+4.60
0.9563873
0.9786040
0.9772936
17
76 23 30.8
9 14.15
1 33.2
1 28 27.6
4.70
0.9563708
0.9759563
0.9745931
21
76 32 27.4
9 14.16
1 33.0
1 28 8.8
4.70
0.9563545
0.9732052
0.9717935
25
76 41 24.1
9 14.17
1 32.8
1 27 50.0
4.71
0.9563383
0.9703595
0.9689044
29
76 50 20.8
9 14.16
1 32.7
1 27 31.1
4.79
0.9563223
0.9674293
0.9669354
Sept. 2
76 59 17.5
9 14.19
-1 32.5
-1 27 12.2
+4.73
0.9563064
0.9644240
0.9628964
6
77 8 14.3
9 14.19
1 32.4
1 26 53.3
4.74
0.9562906
0.9613539
0.9597979
10
77 17 11.1
9 14.90
1 32.2
1 26 34 3
4.75
0.9562750
0.9582296
0.9566503
14
77 26 7.9
9 14.91
1 32.0
1 26 15.3
4.76
0.9562597
0.9550617
0.9534653
18
77 35 4.8
9 14.99
1 31.9
1 25 56.2
4.77
0.9562444
0.9518629
0.9602661
22
77 44 "1.7
9 14.93
-1 31.7
-1 25 37.1
+4.78
0.9562291
0.9486471
0.9470378
26
77 52 68.6
9 14.94
1 31.5
1 25 18.0
4.79
0.9562141
0.9454302
0.9433261
30
78 1 55.6
9 14.94
1 31.4
1 24 58.8
4.60
0.9561992
0.9422273
0.9406359
Oct. 4
78 10 52.6
9 14.95
1 31.2
1 24 39.6
4.61
0 9561845
0.9390538
0.9374829
8
78 19 49.6
9 14 96
1 31.0
1 24 20.3
4.89
0.9561700
0.9359253
0.9343830
12
78 28 46.7
9 14.97
-1 30.8
-1 24 1.1
+4.89
0.9561556
0.9328581
0.9313626
16
78 37 43.8 '
9 14.98
• 1 30.6
1 23 41.8
4.83
0.9561413
0.9298691
0.0284100
20
78 46 40.9
9 14.90
1 30.4
1 23 22.4
4.84
0.9561272
0.9269777
0.9255744
24
78 55 38.1
9 14.99
1 30.2
1 23 3.0
4.85
0.9561133
0.9242025
0.9228643
28
79 4 35.3
9 14.30
1 30.0
1 22 43.6
4.86
0.9560995
0.9215620
0.9202978
Nov. 1
79 13 32.5
9 14.31
-1 29.8
-1 22 24.1
+4.87
0.9560858
0.9190737
0.9178918
5
79 22 29.7
9 14.31
1 29.6
1 22 4.7
4.87
0.9560723
0.9167540
0.9156625
9
79 31 27.0
9 14.39
1 29.4
1 21 45.1
4.88
0.9560590
0.9146191
0.9136259
13
79 40 24.3
9 14 33
129.2
1 21 25.6
4.89
0.9560458
0.9126849
0.9117983
17
79 49 21.6
9 14.33
1 29.0
1 21 6.0
4.90
0.9560327
0.9109679
0.9101958
21
79 58 18.9
9 14.34
-1 28.8
-1 20 46.4
+4.91
0.9560198
0.9094832
0.9068319
25
80 7 16.3
9 14.35
1 28.6
1 20 26.7
4.99
0.9560071
0.9082429
0.9077172
29
80 16 13.7
9 14.35
1 28.4
1 20 7.0
4.99
0.9559945
0.9072559
0.9068603
Dec. 3
80 25 11.1
9 14.36
1 28.2
1 19 47.3
4.93
0.9559821
0.9065308
0.9062660
7
80 34 8.6
9 14.37
•
1 28.0
1 19 27.6
4.94
0.9550698
0.9060726
0.9059455
11
80 43 6.1
9 14.37
-1 27.7
-1 19 7.8
+4.95
0.9559576
0.9058866
0.9058964
15
80 52 3.6
9 14.38
1 27.5
1 18 47.9
4.96
0.9559457
0.9059749
0.9061225
19
81 1 1.1
9 14.39
1 27.3
1 18 28.1
4.97
0.9559338
0.9063386
0.9066230
23
81 9 58.6
9 14.39
1 27.0
1 18 8.2
4.97
0.9559221
0.9069748
0.9073932
27
81 18 56.2
9 14.40
1 26.8
1 17 48.3
4.98
0.9559106
0.9078770
0.9084253
31
81 27 53.8
9 14.40
-1 26.6
-1 17 28.3
+4.99
0.9558992
0.9090368
0.9097103
35
81 36 51.5
9 14.41
-1 26.3
-1 17 8.3
+5.00
0.9558880
0.9104444
262
HELIOCENTRIC CO-ORDINATES, 1884.
URANUS.
GREENWICH MEAN NOON.
Bate.
Heliocentric
Longitude,
Mean Equinox
of .Date.
Daily
Motion.
Redaction
to
Orbit.
Heliocentric
Latitude.
Daily
Motion.
Logarithm
of
Radina
Vector.
Logarithm of Distance
from Earth —
At Date.
At Interme-
diate Dot<\
Jan. -2
175 5 46.6
46.63
-3.V
O 1 II
+0 45 24.3
-0.19
1.2621975
1.2577719
1.2561468
+6
175 11 59.7
46.63
3.8
0 45 23.3
0.13
1.2C22025
1.2545431
1.2529093
14
175 18 12.8
46.63
3.8
0 45 22.3
0.13
1.2622077
1.2514337
1.2499439
22
175 24 25.8
46.63
3.8
0 45 21.3
0.13
1.2622128
1.2485082
1.2471348
30
175 30 38.9
46.63
3.8
0 45 20.3
0.13
1.2622180
1.2458322
1.244603* J
Feb. 7
175 36 51.9
46.63
-3.9
+0 45 19.2
-0.13
1.2622232
1.2434701
1.2424239 [
15
175 43 4.9
46.63
3.9
0 45 18.2
0.13
1.2622285
1.2414755
1.2106300 !
23
175 49 18.0
46.63
3.9
0 45 17.1
0.13
1.2622339
1.2398934
1.2392699 ,
Mar. 2
175 55 31.0
46.63
4.0
0 45 16J
0.13
1.2622393
1.2387642
1.2383783
10
176 1 44.0
46.63
4.0
0 45 15.0
0.13
1.2622448
1.2381143
1.2379727
18
176 7 57.1
46.63
-4.0
+0 45 13.9
-0.14
1.2622503
1.2379541
1.2380587
26
176 14 10.1
46.63
4.0
0 45 12.8
0.14
1.2622559
1.2382852
1.2386344
Apr. 3
176 20 23.1
46.63
4.1
0 45 11.7
0.14
1.2622616
1.2391008
1.2396817
U
176 26 36.1
46.63
4.1
0 45 10.5
0.14
1.2622674
1.2403722
1.2411682
19
176 32 49.1
46.63
4.1
0 45 9.4
0.14
1.2622732
1.2420654
1.2430578
27
176 39 2.2
46.63
-4.2
+0 45 8.3
-0.14
1.2622790
1.2441403
1.2453055 ,
May 5
176 45 15.2
46.63
4.2
0 45 7.2
0.15
1.2622849
1.2465465
1.2478555 1
13
176 51 28.2
46.63
4.2
0 45 6.0
0.15
(.2622909
1.2492257
1.2506501 '
21
176 57'4I.2
46.63
4.3
0 45 4.9
0.15
1.2622969
1.2521217
1.2536327
29
177 3 54.2
46.63
4.3
0 45 3.7
0.15
1.2623030
1.2551752
1.2567413
June 6
177 10 7.1
46.63
-4.3
40 45 2.5
-0.15
1.2623090
1.2583235
1.2599140
14
177 16 20.1
46.69
4.4
0 45 1.3
0.15
1.2623152
1.2615065
1.2630946 1
22
177 22 33.1
46.69
4.4
0 45 0.1
0.15
1.2623215
1.2646711
1.2662287 '
30
177 28 46.1
46.63
4.4
0 44 58.9
0.15
1.2623279
1.2677609
1.2692611 :
July 8
177 34 59.0
46.69
4.4
0 44 57.7
0.15
1.2623343
1.2707240
1.2721442
16
177 41 12.1
46.69
-4.5
+0 44 56.4
-0.15
1.2623406
1.2735164
1.2748357
24
177 47 25.0
46.63
4.5
0 44 55.2
0.15
1:2623470
1.2760970
1.2772949
Aug. 1
177 53 37.9
46.63
4.5
0 44 54.0
0.16
1.2623536
1.2784248
1.2794837
9
177 59 50.9
46.69
4.6
0 44 52.8
0.16
1.2623602
1.2804679
1.2813743
17
178 6 3.8
46.69
4.6
0 44 51.5
0.16
1.2623668
1.2821996
1.2829401
25
178 12 16.8
46.69
-4.6
+0 44 50.2
-0.16
1.2623735
1.2835933
1.2841567
Sept. 2
178 18 29.7
46.69
4.6
0 44 49.0
0.16
1.2623802
1.2846280
1.2850066
10
178 24 42.6
46.61
4.7
0 44 47.7
0.16
1.2623870
1.2852911
1.2854799
18
178 30 55.5
46.61
4.7
0 44 46.4
0.16
1.2623938
1.2855717
1.2855656
26
178 37 8.4
46.61
4.7
0 44 45.1
0.16
1.2624008
1.2854614
1.2852590
Oct. 4
178 43 21.3
46.61
-4.8
+0 44 43.8
-0.17
1.2624077
1.2849600
1.2845646
12
178 49 34.2
46.61
4.8
0 44 42.5
0.17
1.2624147
1.2840737
1.2834880
20
178 55 47.1
46.61
4.8
0 44 41.2
0.17
1.2624218
1.2828092
1.28203S9
28
179 2 0.0
46.61
4.8
0 44 39.9
0.17
1.2624289
1.2811807
1.2802370
Nov. 5
179 8 12.9
46.61
4.9
0 44 38.5
0.17
1.2624361
1.2792115
1.2781073
13
179 14 25.7
46.61
-4.9
+0 44 37.1
-0.17
1.2624432
1.2769275
1.2756767
21
179 20 38.6
46.61
4.9
0 44 35.8
0.17
1.2624505
1.2743592
1.2729810
29
179 26 51.4
46.60
5.0
0 44 34.4
0.17
1.2624580
1.2715479
1.2700653
Dec. 7
179 33 4.3
46.60
5.0
0 44 33.0
0.17
1.2624653
1.2685395
1.2669765
15
179 39 17.1
46.60
5.0
0 44 31.6
0.17
1.2624727
1.2653828
1.2637661
23
179 45 29.9
46.60
-5.0
+0 44 30.2
-0.17
1.2624802
1.2621343
1.2604955
31
179 51 42.7
46.60
-5.1
+0 44 28.8
-0.17
1.2624877
1.2588575
HELIOCENTRIC CO-ORDINATES, 1884.
263
NEPTUNE.
GREENWICH MEAN NOON.
Date.
Heliocentric
Lonritade,
Mean Equinox
of Date.
Dally
Motion.
Redaction
to
Orbit.
Heliocentric
Latitude.
Dally
Motion.
Logarithm
of
Radios
Vector.
Logarithm of Distance
from Earth—
At Date.
At Interme-
diate Date.
Jan. -2
49 57 26.6
23.08
-16.1
O 1 II
-1 45 23.3
+0.11
1.4745100
1.4648697
1.4656736
+6
50 0 23.2
93.08
16.2
1 45 22.4
0.11
1.4745096
1.4665209
1.4674049
14
50 3 19.9
39.08
16.3
1 45 21.4
0.11
1.4745092
1.4683219
1.4692669
22
50 6 16.4
99.08
16.4
1 45 20.5
0.11
1.4745088
1.4702350
1.4712*213
30
50 9 13.1
99.08
•
16.5
I 45 19.6
0.11
1.4745084
1.4722206
1.4732280
Feb. 7
50 12 9.6
99.08
-16.5
-1 45 18.7
+0.11
1.4746080
1.4742376
1.4752448
15
50 15 6.2
99.07
16.6
1 45 17.8
0.11
1.4745076
1.4762454
1.4772340
23
50 18 2.8
99.07
16.7
1 45 16.8
0.11
1.4745073
1.4782068
1.4791585
Mar. 2
50 20 59.4
99.07
16.8
1 45 15.9
0.19
1.4745069
1.4800849
1.4809820
10
50 23 56.0
99.07
16.9
1 45 15.0
0.19
1.4745065
1.4818461
1.4826738
18
50 26 52.6
99.07
-16.9
-1 45 14.0
+0.19
1.4745061
1.4834619
1.4842071
26
50 29 49.1
99.07
17.0
1 45 13.1
0.19
1.4745057
1.4849064
1.4865566
Apr. 3
50 32 45.7
99.07
17.1
1 45 12.1
0.19
1.4745053
1.4661553
1.4867007
11
50 35 42.3
99.07
17.2
1 45 II. 1
0.19
1.4745049
1.4871910
1.4876244
19
50 38 38.8
99.07
17.3
1 45 10.2
0.19
1.4745045
1.4879993
1.4863146
27
50 41 35.4
99.07
-17.3
-1 45 9.2
40.19
1.4745041
1.4885692
1.4887620
May 5
50 44 31.9
99.07
17.4
1 45 8.2
0.19
1.4745037
1.4688924
1.4889605
13
50 47 26.5
99.07
17.5
1 45 7.3
0.19
1.4745033
1.4889666
1.4889108
21
50 50 25.0
99.07
17.6
1 45 6.3
0.19
1.4745029
1.4867933
1.4886142
29
50 53 21.6
99.07
17.7
1 45 5.3
0.19
1.4745025
1.4863741
1.4880743
June 6
50 56 18.1
99.07
-17.7
-1 45 4.3
+0.19
1.4746021
1.4677164
1.4873020
14
50 59 14.6
99.07
17.8
1 45 3.3
0.19
1.4745017
1.4668324
1.4863087
22
51 2 11. 1
99.07
17.9
1 45 2.3
0.19
1.4745013
1.4857336
1.4851090
30
51 5 7.7
99.07
18.0
1 45 1.3
0.19
1.4745009
1.4844375
1.4837217
July 8
51 8 4.2
99.07
18.1
1 45 0.3
0.19
1.4745005
1.4829645
1.4821691
16
51 11 0.7
99.07
-18.1
-1 44 59.3
+0.13
1.4745001
1.4613381
1.4804742
24
51 13 57.2
99.06
18.2
1 44 58.3
0.13
1.4744997
1.4795809
1.4786628
Aug. 1
61 16 53.7
99.06
18.3
1 44 57.3
0.13
1.4744993
1.4777238
1.4767680
! 9
51 19 50.2
99.06
18.4
1 44 56.2
0.13
1.4744989
1.4767989
1.4746204
17
51 22 46.7
99.06
18.4
1 44 55.2
0.13
1.4744965
1.4738367
1.4728523
25
51 25 43.2
99.06
-18.5
-1 44 54.2
+0.13
1.4744981
1.4716721
1.4709011
Sept. 2
51 28 39.7
99.06*
18.6
1 44 53.1
0.13
1.4744977
1.4699440
1.4690047
10
51 31 36.2
99.06
18.7
1 44 52.1
0.13
1.4744973
1.4680874
1.4671973
18
51 34 32.6
99.06
18.8
1 44 51.0
0.13
1.4744969
1.4663390
1.4655166
26
51 37 29.1
99.06
16.8
1 44 50.0
0.13
1.4744965
1.4647360
1.4639990
Oct. 4
51 40 25.6
99.06
-18.9
-1 44 48.9
+0.13
1.4744961
1.4633124
1.4626784
12
51 43 22.1
99.06
19.0
1 44 47.9
0.13
1.4744957
1.4621005
1.4615824
20
51 46 18.5
99.06
19.1
1 44 46.8
0.13
1.4744953
1.4611277
1. 4607391
28
51 49 15.0
99.06
19.1
1 44 45.7
0.13
1.4744949
1.4604187
1.4601688
Nov. 5
51 52 11.4
99.06
19.2
1 44 44.6
0.13
1.4744945
1.4599904
1.4598852
13
51 55 7.9
99.06
-19.3
-1 44 43.6
+0.13
1.4744942
1.4598542
1.4598976
21
51 58 4.4
99.06
19.4
1 44 42.5
0.13
1.4744939
1.4600155
1.4602076
29
52 1 0.8
99.06
19.5
1 44 41.4
0.13
1.4744935
1.4604727
1.4608091
Dec. 7
52 3 57.2
99.06
19.5
1 44 40.3
0.14
1.4744931
1.4612147
1.4616875
15
52 6 53.7
99.06
19.6
1 44 39.2
0.14
1.4744927
1.4622252
1.4628251
23
52 9 50.1
99.06
-19,7
-1 44 38.1
+0.14
1.4744923
1.4634836
1.4641964
31
52 12 46.5
99.05
-19.8
-1 44 37.0
+0.14
1.4744919
1.4649595
1
264
SUN'S CO-ORDINATES, 1884.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
Date.
X
Trne Equinox.
Redao.
to
Mean
Eq*xof
Jan. 0.
Y
True Equinox.
Eeduo.
to
Mean
Eq'xof
Jan.0.
z
True Equinox.
Reduc.
to
Mean
Eq'xof
Jan.0.
Noon.
Midnight.
Noon.
Noon.
Midnight.
Noon.
Noon.
Midnight
Noon.
Jan. 0
+0.1627308
+0.1713527
-408
-0.8896169
-0.8882488
+100
-0.3859263
-0.3853329
-401
1
0.1799608
0.1885546
416
0.6868114
0.8853047
91
0.3847094
0.3840559
404
2
0.1971335
0.2056967
423
0.8837290
0.8820843
82
0.3833724
0.3826591
407
3
0.2142437
0.2227735
430
0.8803707
0.6785884
73
0.3819160
0.3811432
410
4
0.2312855
0.2397791
436
0.8767377
0.8748188
64
.0.3803406
0.3795084
412
5
+0.2482536
+0.2567083
-441
-0.8728318
-0.8707771
+ 54
-0.3786467
-0.3777556
-414
6
0.2651427
0.2735560
446
0.8686547
0.8664648
44
0.3768352
0.3758856
416
7
0.2819476
0.2903170
451
0.8642078
0.8618839
33
0.3749069
0.3738991
418
8
0.2986636
0.3069868
456
0.8594931
0.8570357
23
0.3728622
0.3717964
420
9
0.3152859
0.3235603
460
0.85451 18
0.8519219
12
0.3707019
0.3695786
421
10
+0.3318094
+0.3400325
-465
-0.8492662
-0.8465447
+ 1
-0.3684266
-0.3672461
-423
11
0.3482292
0.3563988
469
0.8437576
0.8409053
- 10
0.3660373
0.3648002
425
12
0.3645407
0.3726543
473
0.8379881
0.8350061
21
0.3635347
0.3622411
427
13
0.3807392
0.3887947
476
0.8319596
0.8288488
32
0.3609194
0.3595698
428
14
0.3968201
0.4048149
479
0.8256737
0.8224346
44
0.3581925
0.3567875
430
15
+0.4127787
+0.4207108
-482
-0.8191322
-0.8157663
- 56
-0.3553548
-0.3538944
-431
16
0.4286107
0.4364777
485
0.8123371
0.8088449
68
0.3524065
0.3508913
433
17
0.4443111
0.4521103
487
0.8052898
0.8016722
80
0.3493488
0.3477790
4:34
18
0.4598748
0.4676039
489
0.7979924
0.7942507
92
0.3461823
0.3445588
435
19
0.4752970
0.4829536
490
0.7904472
0.7865823
105
0.34290&5
0.3412315
436
20
+0.4905731
+0.4981549
-491
-0.7826562
-0.778G69I
-118
-0.3395279
-0.3377979
-437
21
0.5056983
0.5132028
492
0.7746213
0.7705132
130
0.3360416
0.3342592
438
22
0.5206678
0.5280926
492
0.7663451
0.7621172
143
0.3324507
0.3306163
439
23
0.5354766
0.5428193
492
0.7578297
0.7534830
156
0.3287561
0.3268702
440
24
0.5501201
0.5573782
492
0.7490776
0.7446138
169
0.3249589
0.3230223
441
25
+0.5645931
+0.5717642
-491
-0.7400919
-0.7355122
-183
-0.3210605
-0.3190737
-441
2G
0.5788908
0.5859724
490
0.7308751
0.7261810
196
0.3170619
0.3150255
442
27
0.5930084
0.5999984
489
0.7214302
0.7166233
210
0.3129646
' 0.3108794
443
28
0.6069417
0.6138378
487
0.7117607
0.7068429
223
0.3087701
0.3066368
444
29
0.6206860
0.6274857
485
0.7018702
0.6968429
237
0.3044797
0.3022990
444
30
+0.6342363
+0.6409374
-483
-0.6917615
-0.6866266
-250
-O.3000949
-0.2978675
-444
31
0.6475887
0.6541896
481
0.6814385
0.6761975
264
0.2956170
0.2933437
445
Feb. 1
0.6607394
0.6672377
478
0.6709043
0.6655595
277
0.2910479
0.2887296
445
2
0.6736843
0.6800785
475
0.6601633
0.6547161
291
0.2863890
0.2840263
445
3
0.6864198
0.6927078
471
0.6492185
0.6436710
304
0.2816417
0.2792356
445
4
+0.6989420
+0.7051220
-467
-0.6380740
-0.6324282
-318
-0.2768081
-0.2743592
-445
5
0.7112472
0.7173172
462
0.6267341
0.6209921
331
0.2718892
0.2693984
445
6
0.7233317
0.7292903
458
0.6152024
0.6093657
345
0.2668870
0.2643552
445
7
0.7351928
0.7410388
453
0.6034823
0.5975529
358
0.2618031
0.2592309
445
8
0.7468278
0.7525595
447
0.5915778
0.5855574
372
0.2566388
0.2540271
445
9
+0.7582334
+0.7638491
-441
-0.5794922
-0.5733829
-385
-0.2513961
•0.2487458
-445
10
0.7694061
0.7749041
436
0.5672298
0.5610335
399
0.2460764
0.2433882
444
11
0.7803428
0.7857219
429
0.5547943
0.5485126
412
0.2406815
0.2379563
444
12
0.7910410
0.7962997
423
0.5421890
0.5358238
426
0.2352127
0.2324510
443
13
0.8014975
0.8066341
416
0.5294174
0.5229707
439
0.2296717
0.2268748
442
14
+0.8117092
+0.8167223
-409
-0.5164841
-0.5099579
-452
^0.2240605
-0.2212290
-141
15
+0.8216732
+0.8265615
-402
-0.5033925
-0.4967883
-465
-0.2183804
-0.2155150
-440
SUN'S CO-ORDINATES, 1884.
265
I FOR GREENWICH MEAN NOON AND MIDNIGHT.
i
Bate.
X
True Equinox.
Rednc.
to
Mean
Eq'x of
Jan. 0.
Y
True Equinox.
Rednc.
to
Mean
Eq'x of
Jan. 0.
z
True Equinox.
Redne.
to
Mean
Eq'x of
Jan. 0.
Noon.
Midnight
Noon.
Noon.
Midnight
Noon.
Noon.
Midnight
Noon.
Feb. J 5
+0.8216732
+0.8265615
-402
-0.5033925
-0.4967883
-465
-0.2183804
-0.2155150
-440
]6
0.831 38C8
0.8361488
394
0.4901458
0.4834655
478
0.2126331
0.2097348
439
17
0.8408470
0.8454813
386
0.4767478
0.4099934
491
0.2068202
0.2038896
438
18
0.8500511
0.8545560
378
0.4632028
0.4563765
503
0.2009434
0.1979817
436
19
0.8689957
0.6633699
369
0.4495148
0.4426183
510
0.1950046
0.1920124
435
20
+0.8676783
+0.8719204
-359
-0.4356876
-0.4287233
-528
-0.1890055
-0.1859842
-433
21
0.8760957
0.8802039
350
0.4217258
0.4146957
540
0.1829485
0.1798987
432
22
0.8842449
0.8882183
340
0.4076338
0.4005405
552
0.1768351
0.1737579
430
23
0.8921239
0.8959612
330
0.3934163
0.3862616
564
0.1706672
0.1675635
428
24
0.8997299
0.9034298
320
0.3790771
0.3718634
576
0.1644469
0.1613177
427
25
+0.9070605
+0.9106218
-310
-0.3646211
-0.3573508
-588
-0.1581760
-0.1550222
-425
26
0.9141135
0.9175351
300
0.3500531
0.3427286
600
0.1518565
0.1486791
423
27
0.9208865
0.9241674
289
0.3353780
0.3280018
611
0.1454904
0.1422908
421
28
0.9273777
0.9305171
278
0.3206005
0.3131749
622
0.1390803
0.1358592
418
29
0.9335854
0.9365825
267
0.3057256
0.2982532
633
0.1326279
0.1293666
416
Mar. 1
+0.9395083
+0.9423622
-255
-0.2907583
-0.2832417
-644
-0.1261355
-0.1228750
-413
2
0.9451441
0.9478541
243
0.2757038
0.2681452
654
0.1196052
0.1163265
411
3
0.9504921
0.9530579
231
0.2605667
0.2529689
664
0.1130392
0.1097435
408
4
0.9555513
0.9579721
219
0.2453522
0.2377171
674
0.1064395
0.1031275
406
5
0.9603203
0.9625956
206
0.2300644
0.2223948
664
0.0998077
0.0964806
403
6
+0.9647984
+43.9669281
-193
-0.2147088
-0.2070068
-694
-0.0931464
-O.0898053
-400
7
0.9689848
0.9709684
180
0.1992895
0.1915576
703
0.0864574
0.0831032
397
8
0.9728789
0.9747163
167
0.18381 16
0.1 76052 I
712
0.0797429
0.0763767
394
0
0.9764806
0.9781715
154
0.1682797
0.1604948
721
0.0730047
0.0696273
390
10
0.9797889
0.9813328
140
0.1526982
0.1446903
730
0.0662446
0.0628571
387
1J
+0.9828032
+0.9842000
-126
-0.1370715
-0.1292424
-739
-0.0594649
-0.0560682
-364
12
0.9855231
0.9867725
112
0.1214035
0.1135555
147
0.0526673
0.0492624
381
13
0.9879481
0.9890499
98
0.1056991
0.0978346
755
0.0458539
0.0424419
377
14
0.9900777
0.9910315
84
0.0899626
0.0820836
764
0.0390265
0.0356080
373
15
0.9919113
0.9927169
69
0.0741983
0.0663073
771
0.0321868
0.0287633
369
16
+0.9934483
+0.9941054
- 54
-0.0584110
-0.0505099
-778
-0.0253374
-0.0219095
-365
17
0.9946883
0.9951967
40
0.0426048
0.0346963
785
0.0184798
0.0150486
361
18
0.9956308
0.9959905
25
0.0267847
0.0188708
792
0.0116163
0.0081830
357
19
0.9962757
0.9964864
- 10
-0.0109551
-0.0030383
798
-0.0047488
-O.0013142
353
20
0.9966226
0.9966843
+ 5
+0.0048790
+0.0127963
805
+0.0021207
+0.0055555
349
21
+0.9966714
+0.9965839
+ 20
+0.0207131
+0.0286288
-811
+0.0089900
+0.0124^39
-344
22
0.9964217
0.9961848
36
0.0365427
0.0444541
817
0.0158570
0.0192891
339
23
0.9958733
0.9954873
52
0.0523625
0.0602673
822
0.0227197
0.0261487
334
24
0.9950268
0.9944919
68
0.0681678
0.0760634
828
0.0295769
0.0330009
329
25
0.9938825
0.9931987
83
0.0839534
0.0918373
833
0.0364235
0.0398435
324
26
+0.9924407
+0.9916087
+ 99
+0.0997145
+0.1075843
-837
+0.0432605
+0.0466743
-319
27
0.9907025
0.9897222
115
0.1154461
0.1232991
842
0.0500845
0.0534909
313
28
0.9886681
0.9875102
131
0.1311428
0.1389764
847
0.0568933
0.0602914
308
29
0.9863386
0.9850636
147
0.1467996
0.1546116
851
0.0636849
0.0670736
302
30
0.9837156
0.9822945
164
0.1624118
0.1701996
855
0.0704571
0.0738352
297
31
+0.9808004
+0.9792335
+180
+0.1779744
+0.1857357
-859
+0.0772078
+0.0805747
-291
32
+0.9775940
+0.9758820
+196
+0.1934831
+0.2012159
-863
+0.0839354
+0.0872898
-285
266
SUN'S CO-ORDINATES, 1884.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
Date.
X
True Equinox.
Roduc.
to
Mean
Eq'x of
Jan. 0.
Y
True Equinox.
Redac.
to
Mean
Eq'x, of
Jan.0.
z
True Equinox.
Reduc. !
to
Mean
Eq'x of
Jan.0.
Noon.
-285'
Noon.
Midnight
Noon.
Noon.
Midnight.
Noon.
Noon.
Midnight.
Apr. 1
+0.9775940
+0.9758820
+196
+0.1934831
+0.2012159
-863
+0.0839354
+•0.0872898
2
0.9740977
0.9722415
212
0.2089333
0.2166348
866
0.0906375
0.0939785
279
3
0.9703135
0.9683140
228
0.224319!)
0.2319881
869
0.0973124
0.1006389
273
4
0.9662433
0.9641016
245
0.2396388
0.2472716
872
0.1039579
0.1072692
267
5
0.9618891
0.9596058
262
0.2548859
0.262481 1
875
0.1105725
0.1138677
2(51
6
+0.9572521
+0.9548284
+279
+0.2700567
+0.2776122
-878
+0,1171543
+0.1204321
-254
7
0.9523348
0.9497714
295
0.2851470
0.2926607
880
0.123701 1
0.1260611
248
8
0.9471386
0.9444365
312
0.3001528
0.3076227
882
0.1302115
0.1334523
241
9
0.9416653
0.9388253
329
0.3150701
0.3224945
884
0.1366834
0.1399046
235
10
0.9359169
0.9329402
346
0.3298954
0.3372723
885
0.1431155
0.1463160
228
11
+0.9298954
+0.9267828
+364
+0.3446243
+0.3519515
-886
+0.1495058
+0.1526847
-222
12
0.9236025
0.9203548
382
0.3592529
0.3665281
887
0.1558525
0.1590090
215
13
0.9170399
0.9136581
399
0.3737770
0.3809988
888
0.1621540
0.1652872
208
14
0.9102096
0.9066946
416
0.388193!
0.3953593
888
0.1684063
0.1715173
201
15
0.9031134
0.8994663
434
0.4024968
0.4096053
888
0.1746139
0.1776979
194
16
+0.8957536
+0.8919753
+•45 1
+0.4166843
+0.4237333
-888
+0.1807690
+0.1838270
-187
17
0.8881319
0.8842235
468
0.4307519
0.4377395
888
0.1868717
0.1899028
180
18
0.8802504
0.8762128
486
0.4446955
0.4516191
887
0.1929201
0.1959236
172
19
0.8721110
0.8679455
504
0.4585102
0.4653683
886
0.1989131
0.2018882
165
20
0.8637165
0.8594243
521
0.4721928
0.4789830
884
0.2048466
0.2077942
157
21
+0.8550691
+0.8506513
+539
+0.4857384
+0.4924588
-883
+0.2107246
+0.2136397
-149 1
22
0.8461712
0.8416292
556
0.4991434
0.5057917
881
0.2165392
0.2194230
141;
23
0.8370257
0.8323611
574
0.5124033
0.5189777
879
0.2222908
0.2251425
133
24
0.8276356
0.8228497
591
0.5255142
0.5320124
877
0.2279778
0.2307965
125
25
0.8180039
0.8130984
608
0.5384718
0.5448919
875
0.2335964
0.2363832
117
26
+0.8081336
+0.8031101
+626
+0.5512722
+0.5576123
-872
+0.2391507
+0.2419008
-109
27
0.7980281
0.7928882
^44
0.5639117
0.5701702
869
0.2446332
0.2473479
101
28
0.7876908
0.7824363
661
0.5763869
0.5825617
865
0.2500446
0.2527230
93
29
0.7771252
0.7717580
679
0.5886938
0.5947a30
861
0.2553830
0.2580244
85
30
0.7663350
0.7608568
697
0.6008287
0.6068307
857
0.2606471
0.2632508
76
May 1
+0.7553239
+0.7497366
+715
+0.6127884
+0.6187016
-863
+0.2658353
+0.2684005
- 68'
2
0.7440954
0.7384007
732
0.6245700
0.6303930
848
0.2709462
0.2734724
59
3
0.7326530
0.7268528
749
0.6361702
0.6419014
843
0.2759788
0.2784651
51
4
0.7210006
0.7150967
767
0.6475862
0.6532241
837
0.2809313
0.2833773
42
5
0.7091417
0.7031361
785
0.6588149
0.6643583
831
0.2858029
0.2882079
33
6
+0.6970804
+0.6909751
+■802
+0.6698538
+0.6753012
-825
+0.2905923
+0.2929558
- 24
7
0.6848205
0.6786171
820
0.6807001
0.6860501
819
0.2952984
0.2976196
15
8
0.6723654
0.6660658
838
0.6913511
0.6966026
,812
0.2999196
0.3021981
- 6
9
0.6597187
0.6533245
856
0.7018041
0.7069556
805
0.3044549
0.3066900
+ 3
10
0.6468836
0.6403965
873
0.7120569
0.7171073
799
0.3089032
0.3110944
12
11
+0.6338636
+0.6272854
+891
+0.7221065
+0.7270543
-791
+0.3132633
+0.3154099
+ 21
12
0.6206625
0.6139952
907
0.7319504
0.7367946
783
0.3175341
0.3196356
31
13
0.6072838
0.6005290
925
0.7415863
0.7463254
775
0.3217144
0.3237703
40
14
0.5937313
0.5868911
941
0.75101 16
0.7556445
766
0.3258032
0.3278129
50
15
0.5800087
0.5730846
959
0.7602236
0.7647486
757
0.3297992
0.3317620
- 59
16
+0.5661 193
+0.5591134
+975
+0.7692192
+0.7736351
-748
+0.3337013
+0.3356170
+ 69
17
+0.5520673
+0.5449814
+991
+0.7779961
+0.7823017
-738
+0.3375087
+0.3393762
+ 78
SUN'S CO-ORDINATES, 1884.
267
FOR GREENWICH MEAN NOON AND MIDNIGHT.
Date.
X
True Equinox.
Bectac.
to
Mean
Eq'xof
Jan. 0.
Y
True Equinox.
Rtduc.
to
Mean
Eq'xof
Jan. 0.
z
True Equinox.
Reduc.
to
Mean
Eq'xof
Jan. 0.
Noon.
Midnight.
Noon.
Noon.
Midnight
Noon.
Noon.
Midnight.
Noon.
May 17
+0.5520673
+0.5449814
+ 991
+0.7779961
+0.7823017
-738
+0.3375087
+0.3393762
+ 78
18
0.5378560
0.5306919
1008
0.7865516
0.7907455
728
0.3412195
0.3430385
88
19
0.5234896
0.5162495
1024
0.7948832
0.7989642
718
0.3448332
0.3466033
98
80
0.5089722
0.5016583
1041
0.8029884
0.8069553
707
0.3483486
0.3500691
108
21
0.4943062
0.4869225
1059
0.8108646
0.8147159
696
0.3517647
0.3534351
118
22
+0.4795019
+0.4720468
+1075
+0.8185091
+0.8222437
-685
+0.3550802
+0.3567000
+128
23
0.4645579
0.4570356
1091
0.8259196
0.8295365
673
0.3582943
0.3598629
138
24
0.4494804
0.4418931
1107
0.8330940
0.8365920
661
0.3614057
0.3629228
148
25
0.4342742
0.4266244
1123
0.8400301
0.8434081
649
0.3644140
0.3658792
158
26
0.4189441
0.4112341
1138
08467256
0.8499826
636
0.3673182
0.3687311
168
27
+0.4034948
+0.3957269
+ 1154
+0.8531789
+0.8563144
-623
+0.3701176
+0.3714776
+178
28
0.3879309
0.3801075
1169
0.8593888
0.8624018
609
0.3728113
0.3741183
188
29
0.3722573
0.3643809
1184
0.8653531
0.8682427
595
0.3753986
0.3766522
198
30
0.3564789
0.3485521
1199
0.8710704
0.8738360
581
0.3778789
0.3790788
208
31
0.3406009
0.3326258
1214
0.8765393
0.8791803
566
0.3802517
0.3813976
218
June 1
+0.3246275
+0.3166066
+1228
+0.8817589
+0.8842750
-551
+0.3825165
+0.3836082
+227
2
0.3085637
0.3004992
1243
0.8867283
0.8891187
535
0.3846728
0.3857102
237
3
0.2924139
0.2843083
1257
0.8914462
0.8937107
519
0.3867202
0.3877029
247
4
0.2761830
0.2680385
1271
0.8959121
0.8980502
504
0.3886581
0.3895859
257
5
0.2598754
0.2516941
1284
0.9001250
0.9021364
487
0.3904863
0.3913592
267
6
+0.2434053
+0.2352796
+1297
+0.9040642
+0.9059684
-470
+0.3922044
+0.3930220
+277
7
0.2270475
0.2187994
1310
0.9077890
0.9095458
452
0.3938120
0.3945743
287
8
0.2105360
0.2022579
1323
0.9112387
0.9128675
434
•0.3953088
0.3960155
297
9
0.1939657
0.1856597
1335
0.9144321
0.9159324
416
0.3966943
0.3973453
307
10
0.1773405
0.1690087
1347
0.9173684
0.9187400
398
0.3979683
0.3985633
317
11
+0.1606649
+0.1523096
+1360
+0.9200470
+0.9212895
-379
+0.3991302
+0.3996690
+327
12
0.1439432
0.1355064
1371
0.9224673
0.9235803
;360
0.4001798
0.4006625
337
13
0.1271799
0.11 87841
1382
0.9246283
0.9256112
340
0.4011171
0.4015434
347
14
0.1103796
0.1019670
1393
0.9265291
0.9273819
320
0.4019414
0.40231 10
357
15
0.0935468
0.0851197
1403
0.9281693
0.9288914
300
0.4026523
0.4029651
367
16
+0.0766861
+0.0682466
+ 1413
40.9295481
+0.930139*3
-280
+0.4032496
+0.4035056
+377
17
0.0598018
0.0513523
1422
0.9306648
0.9311246
259
0.4037332
0.4039323
388
18
0.0426988
0.0344419
1431
0.9315186
0.9318468
239
0.4041029
0.4042449
398
19
0.0259823
0.0175206
1440
0.9321091
0.9323055
217
0.4043584
0.4044434
408
20
+0.0090575
+0.0005935
1448
0.9324359
0.9325001
195
0.4044997
0.4045272
418
21
-0.0078707
-0.0163345
+1456
+0.9324984
+0.9324306
-173
+0.4045261
+0.4044964
+428
22
0.0247972
0.0332583
1464
0.9322967
0.9320969
151
0.4044381
0.4043512
438
23
0.0417172
0.0501732
1471
0.9318310
0.9314990
128
0.4042357
0.4040916
447
24
0.0586256
0.0670737
1479
0.9311011
0.9306373
105
0.4039189
0.4037177
457
25
0.0755169
0.0839545
1485
0.9301075
0.9295119
81
0.4034880
0.4032297
466
26
-0.0923860
-0.1008107
+1491
+0.9288505
+0.9281235
- 58
+0.4029428
+0.4026276
+476
27
0.1092281
0.1176375
1496
0.9273308
0.9264726
34
0.4022840
0.4019119
485
28
0.1260381
0.1344293
1501
0.9255490
0.9245601
* 10
0.4015115
0.4010828
495
29
0.1428107
0.1511816
1506
0.9235060
0.9223870
+ 15
0.4006258
0.4001406
504
30
0.1595416
0.1678899
1510
0.9212031
0.9199544
39
0.3996273
0.3990859
513
31
-0.1762260
-0.1845493
+1513
+0.9186410
+0.9172630
+ 64
+0.3985164 1 +0.3979190
+522
32
-0.1928593
-0.2011554
+1516
+0.9158204
+0.9143136
+ 89
+0.3972936 i +0.3966403
+531
268
SUN'S CO-ORDINATES, 1884.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
Bedao.
Bedao.
Reduc
X
to
Mean
Y
to
Mew
z
to
Mean
Date.
True Equinox.
Eq'x of
Jan. 0.
True Equinox.
Eq'x of
Jan.0.
True Equinox.
Eq'xof
Jan.0.
Noon.
Midnight,
Moon.
Noon.
Midnight.
Noon.
Noon.
MidnijhL
Noon.
July 1
-0.I762260
-0.1845493
+1513
+0.9186410
+0.9172630
+ 64
+0.3985164
+0.3979190
+522
2
0.19*8593
0.2011554
1516
0.9158204
0.9143136
89
0.3972936
0.3966403
531
3
0.2094368
0.2177033
1519
0.9127427
0.9111077
115
0.3959591
0.3952502
540
4
0.2259544
0.2341895
1522
0.9094089
0.9076465
140
0.3945135
0.3937492
549
5
0.2424079
0.2506091
1524
0.9058205
0.9039312
165
0.3980573
0.3921379
558
6
-0.2587926
-0.2669579
+1525
+0.9019786
+0.8999630
+ 191
+0.3912910
+0.3904167
+567
7
0.2751042
0.2832311
1525
0.8978814
0.8957430
218
0.3895151
0.3885862
576
8
0.2913382
0.2994250
1525
0.8935389
0.8912722
244
0.3876300
0.3866466
585
9
0.3074908
0.3155352
1524
0.8889432
0.8865519
270
0.3856361
0.3845986
594
10
0.3235576
0.3315576
1523
0.8840984
0.8815829
296
0.3835341
0.3824426
603
11
-0.3395345
-0.3474879
+1521
+0.8790056
+0.8763667
+ 323
+0.3813243
+0.3801793
+611
12
0.3554172
0.3633219
1519
0.8736661
0.8709041
350
0.3790076
0.3778092
620
13
0.3712015
0.3790553
1517
0 8680808
0.8651963
377
0.3765841
0.3753325
628
14
0.3868828
0.3946834
1514
0.8622509
0.8592447
404
0.3740544
0.3727499
636
15
0.4024567
0.4102020
1510
0.8561779
0.8530506
431
0.3714191
0.3700621
644
16
-0.4179188
-0.4256064
+1506
+0.8498630
+0.8466152
+ 458
+0.3686790
+0.3672698
+652
17
0.4332641
0.4408915
1501
0.8433074
0.8399399
485
0.3658346
0.3643735
659
18
0.4484880
0.4560531
1495
0.8365129
0.8330266
512
0.3628866
0.3613740
667
19
0.4635861
0.4710865
1489
0.8294813
0.8258770
540
0.3598358
0.3582720
675
20
0.4785539
0.4859876
1483
0.8222140
0.8164927
567
0.3566828
0.3550683
683 1
21
-0.4933869
-0.5007512
+1476
+0.8147133
+0.8108760
+ 594
+0.3534287
+0.3517640
+690!
22
0.5080800
0.5153729
1468
0.806961 1
0.8030289
621
0.3500745
0.3483601
697 '
23
0.5226292
0.5298483
1459
0.7990196
0.7949536
649
0.3466208
0.3448571
704
24
0.53702JM3
0.5441726
1450
0.7908312
0.7866526
676
0.3430691
0.3412567
711
25
0.5512769
0.5583421
1440
0.7824181
0.7781282
703
0.3394200
0.3375593
718
26
-0.5653676
-0.5723527
+1430
+0.7737833
+0.7693835
+ 730
+0.3356746
+0.3337663
+725
27
0.5792969
0.5861995
1420
0.7649294
0.7604213
757
0.3318344
0.3298791
731
28
0.5930601
0.5998783
1409
0.7558595
0.7512443
784
0.3279004
0.3258987
738
29
0.6066538
0.6133863
1396
0.7465760
0.7418550
811
0.3238740
0.3218265
744
30
0.6200751
0.6267195
1383
0.7370818
0.7322566
836
0.3197562
0.3176632
750
31
-0.6333192
-0.6398737
+1370
+0.7273798
+0.7224519
+ 864
+0.3155479
+0.3134104
+756
Aug. 1
0.6463828
0.6528461
1356
0.7174733
0.7124441
891
0.3112508
0.3090693
762
2
0.6592632
0.6656335
1342
0.7073648
0.7022358
917
0.3068661
0.3046413
767
3
0.6719565
0.6782319
1327
0.6970573
0.6918298
943
0.3023949
0.3001273
773
4
0.6844592
0.6906381
1311
0.6865537
0.6812293
969
0.2978386
0.2955288
778
6
-0.6967681
-0.7028488
+ 1296
+0.6758569
+0.6704369
+ 995
+0.2931981
+0.2908467
+783
6
0.7088799
0.7148611
1279
0.6649696
0.6594554
1021
0.2884747
0.2860824
788
7
0.7207918
0.7266715
1262
0.6538945
0.6482875
1047
0.2836C98
0.2812372
793
8
0.7325001
0.7382770
1244
0.6426346
0.6369362
1073
0.2787848
0.2763126
797
9
0.7440017
0.7496740
1226
0.6311928
0.6254047
1098
0.2738208
0.2713096
801
10
-0.7552934
-0.7608595
+1207
+0.6195721
+0.6136953
+1123
+0.2687790
+0.2662293
+805
11
0.7663720
0.7718302
1188
0.6077749
0.6018111
1148
0.2636606
0.2610731
809
12
0.7772338
0.7825824
1168
0.5958043
0.5897547
1172
0.2584668
0.2558421
814
13
0.7878756
0.7931131
1147
0.5836629
0.5775293
1196
0.2531992
0.2505381
818
14
0.7982942
0.8034187
1126
0.5713543
0.5651383
1219
0.2478591
0.2451622
821
15
-0.8084860
-0.8134958
+1105
+0.5588816
+0.5525846
+1242
+9.2424478
+0.2397160
+824
16
-0.8184477
-0.8233412
+1084 +0.5462479
+0.5398718
+1265
+0.2369669 +0.2342008
+828
SUN'S CO-ORDINATES, 1884.
2G9
FOR GREENWICH MEAN NOON AND MIDNIGHT.
Date.
4
X
True Equinox.
Rectnc.
to
Mean
Eq'xof
Jan. 0.
Y
True Equinox.
Rednc.
to
Mean
Eq'x of
Jan. 0.
z
True Equinox.
Reduo.
to
Mean
Eq'xof
Jan. 0.
Noon.
Midnight.
Noon.
Noon.
Midnight
Noon.
Noon.
Midnight.
Noon.
+828
Aug.16
-0.8184477
-0.8233412
+1084
+0.5462479
+0.5398718
+1265
+0.2369669
+0.2342008
17
0.8281759
0.8329513
1062
0.5334568
0.5270033
1288
0.2314178
0.2286182
831
18
0.837C672
0.8423231
1039
0.5205118
0.5139828
1310.
0.2258021
0.2220698
834
19
0.8469186
0.8514532
1016
0.5074167
0.5008141
1332
0.2201214
0.2172572
836
20
0.8559268
0.8603389
992
0.4941754
0.4875010
1354
0.2143774
0.2114823
838
21
-0.8646891
-0.8689770
+ 967
+0.4807914
+0.4740472
+1376
+0.2085720
+0.2056466
+840
32
0.8732023
08773648
942
0.4672690
0.4604571
1397
0.2027063
0.1997516
842
23
0.8814640
0.8854996
918
i 0.4536122
0.4467348
1417
0.1967825
0.1937993
844
24
0.8894714
0.8933789
892
0.4398252
0.4328841
1137
0.1908021
0.1877913
845
25
0.8972219
0.9010002
866
0.4259122
0.4189099
1457
0.1847671
0.1817297
846
26
-0.9047136
-0.9083617
+ 839
+0.4118775
+0.4048157
+1476
+0.1786793
+0.1756162
+847
27
0.9119442
0.9154608
813
0.3977253
0.3906066
1495
0.1725406
0.1694528
848
28
0.9189114
0.9222957
786
0.3834601
0.3762863
1514
0.1663528
0.16324 10
v 849
29
0.9256135
0.9288647
758
0.3690858
0.3618592
1532
0.1601175
0.1569825
849
30
0.9320489
0.9351661
730
0.3546070
0.3473208
1550
0.1538364
0.1506794
849
31
-0.9382158
-0.9411979
+ 702
+0.3400278
+0.3327013
+1567
+0.1475117
+0.1443334
+849
Sept. 1
0.9441123
0.9469588
673
0.3253514
0.3179784
1585
0.1411449
0.1379464
849
2
0.9497373
0.9524475
644
0.3105826
0.3031647
1601
0.1347379
0.1315199
&40
3
0.9550892
0.9576622
614
0.2957253
0.2882650
1617
0 1282925
0.1250558
818
4
0.9601664
0.9626016
584
0.2807841
0.2732831
1632
0.1218102
0.1185559
847
5
-0.9649676
-0.9672641
+ 554
+0.2657624
+0.2582225
+1647
+0.1152931
+0.1120219
+846
6
0.9694910
0.9716482
523
0.2506641
0.2430875
1661
0.1087426
0.1054555
845
7
0.9737354
0.9757525
493
0.2354933
0.2278820
1675
0.1021607
0.0988583
843
8
0.9776903
0.9795756
463
0.2202540
0.2126100
1688
0.0955489
0.0922325
841
9
0.9813811
0.9631157
432
0.2049503
0.1972754
1701
0.0889092
0.0855794
839
10
-0.9847791
-0.9863711
+ 400
+0.1895859
+0.1818824
+1713
+0.0822433
+0.0789012
+837
11
0.9878917
0.9893408
368
0.1741655
0.1664355
1725
0.0755532
0.0721996
835
12
09907182
0.9910236
336
0.1586930
0.1509385
1737
0.0688408
0.0654768
833
13
0.9932569
0.9944178
304
0.1431726
0.1353959
1748
0.0621078
0.0587342
830
14
0.9955063
0.9965221
272
0.1276088
0.1198121
1758
0.0553560
0.0519736
827
15
-0.9974651
-0.9983352
+ 239
+0.1120063
+0.1041920
+1768
+0.0485873
+0.0451975
+823
16
0.9991322
0.9998561
206
0.0963699
0.0885406
1777
0.0418042
0.0384078
819
17
1.0005067
1.0010839
173
0.0807045
0.0728622
1786
0.0350086
0.0316068
815
18
1. 00 15876
1.0020177
140
0.0650144
0.0571618
1794
0.0282026
0.0247964
811
19
1.0023743
1.0026571
106
0.0493048
0.0414441
1802
0.0213882
0.0179785
807
20
-1.0028661
-1.0030013
+ 72
+0.0335805
+0.0257145
+1810
+0.0145675
+0.011 1555
+802
21
1.0030626
1.0030500
38
0.0178466
+0.0099775
1817
0.0077427
+0.0043294
797
22
1.0029635
1.0028030
+ 4
+0.0021077
-0.0057620
1823
+0.0009156
-0.0024981
792
23
1.0025687
1.0022606
- 30
-0.0136309
0.0214985
1829
-0.0059114
0.0093241
786
24
1.0018786
1.0014229
64
0.0293641
0.0372273
1834
0.0127361
0.0161471
781
25
-1.0008933
-1.0002900
- 98
-0.0450876
-0.0529443
+1838
-0.0195569
-0.0229650
+775
26
0.9996131
0.9988626
132
0.0607965
0.0686438
1842
0.0263714
0.0297757
769
27
0.9980384
0.9971407
167
0.0764857
0.0843216
1845
0.0331776
0.0365769
763
28
0.9961696
0.9951252
201
0.0921511
0.0999734
1848
0.0399734
0.0433669
757
29
0.9940077
0.9928172
235
0.1077880
0.1155944
1851
0.0467571
0.0501438
750
30
-0.9915537
-0.9902173
-270
-0.1233919
-0.1311799
+1853
-0.0535266
-0.0569055
+743
31
-0.9888082
-0.9873263
- 305
-0.1389580
-0.1467257
+1854
-0.0602800
-0.0636500
+736
270
SUN'S CO-ORDINATES, 1884.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
Bate.
X
True Equinox.
Bedao.
to
Mean
Eq'x of
Jan. 0.
Y
True Equinox.
Rednc.
to
Mean
Eq'x of
Jan.0.
z
True Equinox.
Rednc.
to
Mean
Eq'x of,
Jan.0.
Noon.
Midnight
Noon.
Noon.
Midnight.
Noon.
Noon.
Midnight.
Noon.
Oct. 1
-0.9888082
-0.9873263
-305
-0.1389580
-0.1467257
+1854
-0.0602800
-0.0636500
+736
2
0.9657718
0.9841446
340
0.1544824
0.1622275
1855
0.0670152
0.0703754
729
3
0.9824453
0.9806734
375
0.1699606
0.1776810
1855
0.0737303
0.0770798
721
4
0.9788293
0.9769131
410
0.1653882
0.1930818
1854
0.0804236
0.0837615
713
5
0.9749248
0.9728645
445
0.2007611
0.2084257
1853
0.0870932
0.0904185
705
6
-0.9707324
-0.9685287
- 481
-0.2160752
-0.2237089
+1851
-0.0937372
-0.0970491
+697
7
0.9662534
0.9639066
515
0.2313262
0.2389265
1849
0.1003540
0.1036515
686
8
0.9614883
0.9569988
550
0.2465093
0.25407*2
1847
0.1069413
0.1102232
. 660
9
0.9564381
0.9538063
585
0.2616205
0.2691478
1845
0.1134971
0.1167626
671
10
0.9511036
0.9483301
620
0.2766554
0.2841428
1841
0.1200195
0.1232676
662
11
-0.9454858
-0.9425709
- 654
-0.2916094
-0.2990546
+1837
-0.1265067
-0.1297365
+652
12
0.9395857
0.9365302
689
0.3064778
0.3138785
1832
0.1329568
0.1361673
643
13
0.9334047
0.9302092
724
0.3212562
0.3286103
1627
0.1393677
0.1425578
„ 633
14
0.9269440
0.9236093
759
0.3359400
0.3432448
1821
0.1457373
0.1489060
623
15
0.9202051
0.9167317
793
0.3505241
0.3577774
1816
0.1520635
0.1552097
612
16
-0.9131892
-0.9095780
- 828
-0.3650041
-0.3722036
+1809
-0.1583444
-0.1614673
+601
17
0.9058982
0.9021502
862
0.3793752
0.3865184
1801
0.1645781
0.1676766
590
18
0.8983341
0.8944501
896
0.3936328
0.4007176
1793
0.1707625
0.1738356
579
19
0.8904987
0.8864601
930
0.4077723
0.4147961
1784
0.1768957
0.1799424
568
30
0.8823946
0.8782424
964
0.4217685
0.4287469
1775
0.1829755
0.1859947
556
21
-0.8740240
-0.8697397
- 998
-0.4356768
-0.4425716
+1765
-0.1889998
-0.1919906
+546
23
0.8653898
0.8609746
1032
0.4494328
0.4562600
1755
0.1949668
0.1979283
534
23
0.8564945
0.8519499
1066
0.4630524
0.4698095
1744
0.2008748
0.2038061
522
24
0.6473411
0.8426685
1100
0.4765310
0.4832162
1734
0.2067219
0.2096219
510
25
0.8379324
0.6331333
1133
0.4896644
0.4964751
1722
0.2125060
0.2153738
497
26
-0.8282714
-0.8233472
-1166
-0.5030480
-0.5095826
+1710
-0.2182253
-0.2210603
+485
27
0.8163610
0.8133132
1199
0.5160786
0.5225354
1697
0.2238765
0.2266797
472
28
0.8082044
0.8030348
1232
0.5289526
0.5353295
1684
0.2294637
0.2322303
459
29
0.7978048
0.7925147
1265
0.5416658
0.5479609
1670
0.2349793
0.2377105
446
30
0.7871651
0.7817563
1298
0.5542144
0.5604257
1655
0.2404236
0.2431185
433
31
-0.7762887
-0.7707627
-1330
-0.5665944
-0.5727201
+1640
-0.2457949
-0.2484526
+419
Nov. I
0.7651787
0.7595372
1362
0.5788026
0.5848414
1624
0.2510915
0.2537115
405
2
0.7538385
0.7480827
1394
0.5908361
0.5967861
1609
0.2563124
0.2566939
391
3
0.7422703
0.7364019
1426
0.6026911
0.6085506
1592
0.2614556
0.2639979
377
4
0.7304778
0.7244964
1457
0.6143643
0.6201316
1575
0.2665201
0.2690222
363
5
-0.7184641
-0.7123752
-1488
-0.6258520
-0.6315250
+1557
-0.2715039
-0.2739650
+349
6
0.7062321
0.7000354
1518
0.6371504
0.6427277
1538
0.2764055
0.2788250
334
7
0.6937853
0.6874823
1550
0.6482564
0.6537361
1519
0.2812233
0.2836004
319
8
0.6811269
0.6747195
1580
0.6591663
0.6645467
1500
0.2859560
0.2882899
304
9
0.6662606
0.6617504
1610
0.6698766
0.6751558
1480
0.2906021
0.2928922
269
10
-0.6551894,
-0.6485782
-1640
-0.6803837
-0.6855599
+1460
-0.2951600
-0.2974053
+274
11
0.6419171
0.6352066
1670
0.6906841
0.6957558
1440
0.2996278
0.3018275
259
12
0.6284471
0.6216391
1699
0.7007744
0.7057396
1418
0.3040042
0.3061577
243
13
0.6147832
0.6078798
1728
0.7106509
0.7155079
1396
0.3062678
0.3103944
227
14
0.6009294
0.5939325
1756
0.7203103
0.7250574
1373
0.3124773
0.3145302
211
15
-0.5868897
-0.5798016
-1784
-0.7297466
-0.7343842
+1350
-0.3165710
-0.31H58I6
+195
16
-0.5726689
-0.5654920
-1812
-0.7389631
-0.7434851
+1326
-0.3205676
-0.3225290
+179
SUN'S CO-ORDINATES, 1884.
271
FOR GREENWICH MEAN NOON AND MIDNIGHT.
Date.
X
True Equinox.
Redac.
to
Mean
Eq'x of
Jan.0.
Y
True Equinox.
Rednc.
to
Mean
Eq'x of
Jan. 0.
z
True Equinox.
Rcdnc
to
Mean
Eq'xof
Jan. 0.
Noon.
Midnight.
Noon.
Noon,
Midnight
Noon.
Noon.
Midnight.
Noon.
1
Nov. 16
-0.5726689
-0.5654920
-1812
-0.7389631
-0.7434851
+1326
-0.3205676
-0.3225290
+ 179
17
0.5582715
0.5510078
1839
0.7479498
0.7523568
1302
0.3244655
0.3263770
163
18
0.5437016
0.5363536
1866
0.7567057
0.7609963
1277
0.3282633
0.3301244
147
19
0.5280642
0.5215341
1893
0.7652283
0.7694011
1252
0.3319601
0.3337701
132
20
0.5140638
0.5065540
1919
0.7735144
0.7775680
1227
0.3355544
0.3373128
115
21
-0.4990052
-0.4914182
-1946
-0.7815615
-0.7854945
+1201
-0.3390451
-0.3407513
+ 98
22
0.4837937
0.4761322
1971
0.7893667
0.7931777
1174
0.3424311
0.3440844
81
23
0.4684342
0.4607005
1996
0.7969273
0.8006153
1146
0.3457112
0.3473114
64
24
0.4529316
0.4451280
2020
0.8042415
0.8078055
1118
0.3488848
0.3504311
47
25
0.4372904
0.4294194
2044
0.8113071
0.8147460
1089
0.3519503
0.3534423
30
26
-0.4215157
-0.4135799
-2068
-0.8181220
-0.8214348
+1060
-0.3549071
-0.3563445
+ 13
27
0.4056128
0.3976149
2091
0.8246842
0.8278700
1030
0.3577544
0.3591367
- 4
28
0.3895867
0.3815289
2114
0.8309920
0.8340500
1001
0.3604913
0.3618182
22
29
0.3734421
0.3653267
2136
0.8370437
0.8399729
970
0.3631173
0.3643833
39
30
0.3571834
0.3490127
2158
0.8428375
0.8456372
939
0.3656312
0.3668460
57
Dec. 1
-0.3408154
-0.3325920
-2179
-0.8483720
-0.8510415
+ 907
-0.3680326
-0.3691908
- 74
2
0.3243432
0.3160694
2199
0.8536455
0.8561838
875
0.3703206
0.3714219
92
3
0.307771 1
0.2994492
2219
0.8586564
0.8610629
842
0.3724946
0.3735387
109
4
0.2911042
0.2827365
2238
0.8634031
0.8656769
809
0.3745541
0.3755405
127
5
0.2743469
0.2659360
2257
0.8678841
0.8700246
776
0.3764979
* 0.3774263
144
6
-0.2575045
-0.2490528
-2275
-0.8720981
-0.8741043
+ 743
-0.3783256
-0.3791957
-162
7
0.2405817
0.2320916
2293
0.876013 I
0.8779143
708
0.3800366
0.3808480
179
8
0.2235831
0.2150568
2310
0.8797178
0.8814533
673
0.3816301
0.3823828
197
9
0.2065136
0.1979541
2327
0.8831206
0.8847196
638
0.3831058
0.3837991
214
JO
0.1893786
0.1807880
2343
0.8862502
0.8877121
602
0.3844627
0.3850965
232
11
-0.1721831
-0.1635645
-2358
-0.8891051
-0.8904291
+ 566
-0.3857005
-0.3862745
-250
12
0.1549327
0.1462885
2372
0.8916840
0.8928695
529
0.3868185
0.3873324
268
13
0.1376325
0.1289655
2385
0.8939856
0.8950320
492
0.3878162
0.3882699
286
14
0.1202882
0.1116014
2398
0.8960087
0.8969156
454
0.3886934
0.3890866
304
15
0.1029056
0.0942016
2411
0.8977525
0.8985193
416
+ 377
0.3894494
0.3897818
322
16
-0.0854901
-0.0767719
-2423
-0.8992161
-0.8998427
-O.3900838
-0.3903554
-339
17
0.0680476
0.0593180
2434
0.9003990
0.9008849
338
0.3905966
0.3908073
357
18
0.0505838
0.0418457
2444
0.9013005
0.9016456
299
0.3909874
0.3911371
374
19
0.0331045
0.0243608
2454
0.9019202
0.9021242
260
0.3912563
0.3913450
392
20
-0.0156154
-0.0068688
2463
0.9022578
0.9023210
220
0.3914032
0.3914308
409
21
+0.0018781
+0.0106247
-2471
-0.9023138
-0.9022361
+ 180
-0.3914278
-0.3913943
-427
22
0.0193700
0.0281133
2479
0.9020880
0.9018696
140
0.3913302
0.3912357
444
23
0.0368538
0.0455910
2485
0.9015810
0.9012221
99
0.3911109
0.3909557
462
24
0.0543241
0.0630526
2490
0.9007930
0.9002938
58
0.3907699
0.3905537
479
25
0.0717760
0.0804936
2495
0.8997246
0.8990854
+ 17
0.3903071
0.3900302
497
26
+0.0892046
+0.0979081
-2500
-0.8983763
-0.8975975
- 25
-0.3897229
-0.3893854
-514
27
0.1066037
0.1152905
2504
0.8967491
0.8958313
67
0.3890176
0.3886197
531
28
0.1239679
0.1326355
2506
0.8948441
0.8937875
109
0.3881917
0.3877336
548
29
0.1412927
0.1499388
2507
0.8926617
0.8914667
151
0.3872454
0.3867271
565
30
0.1585731
0.1671949
2508
0.8902026
0.8888695
194
0.3861789
0.3856008
582
31
+0.1758036
+0.1843986
-2508
-0.8874675
-0.8859969
- 237
-0.3849928
-0.3843549
-599
32
+0.1929792
+0.2015448
-2507
-0.8844578
-0.8828502
- 280
-0.3836871
-0.3829897
-616
272 MOON'S LONGITUDE AND LATITUDE, 1884.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
Day
JANUARY.
Day
FEBRUARY.
Day
MARCH.
of
Month.
True Longitude.
Latitude.
of
Month.
True Longitude.
Latitude.
of
Month.
True Longitude.
Latitude.
O / //
Q t II
•
O / It
O I It
O 1 It
O / //
1.0
31^ 30 11.5
+4 50 7.7
1.0
6 20 51.9
+ 1 41 45.0
1.0
30 47 8.4
—0 38 9.7
1.5
322 5 28.5
4 38 33.9
1.5
13 19 34.1
1 6 12.4
1.5
37 57 48.2
1 16 29.3
2.0
328 43 29.2
4 23 9.8
2.0
20 19 15.8
+ 0 29 32.8
2.0
45 7 30.0
1 53 32.5
2.5
333 24 11.1
4 4 3.3
2.5
27 19 49.4
—0 7 39.7
2.5
52 15 53.9
2 28 43.1
3.0
344 7 3J.2
3 41 25.5
3.0
34 21 9.1
0 44 50.4
3.0
09 22 43.4
3 1 27.9
3.5
348 53 36.6
+3 15 31.3
3.5
41 23 10.2
—1 21 24.3
3.5
66 27 45.4
—3 31 17.0
4.0
355 42 23.9
2 46 38.8
4.0
48 25 48.4
1 56 47.0
4.0
73 30 49.2
3 57 44.9
4.5
2 33 58.5
2 15 9.2
4.5
55 28 58.3
2 30 24.9
4.5
80 31 46.3
4 20 30.0
5.0
9 28 24.6
1 41 27.1
5.0
62 32 32.8
3 1 45.8
5.0
87 30 29.2
4 39 15.1
5.5
16 25 45.7
1 6 0.1
5.5
69 3ft 22.1
3 30 19.8
5.5
94 26 51.1
4 53 47.6
6.0
23 26 4.2
+0 29 1&4
6.0
76 40 13.5
—3 55 39.8
6.0
101 20 45.4
—5 3 58.9
6.5
30 29 19.6
—0 8 5.1
6.5
83 43 50.4
4 17 21.9
6.5
108 12 5.3
5 9 45.0
7.0
37 35 28,1
0 45 35.2
7.0
90 46 52.5
4 35 6.1
7.0
115 0 43.5
5 11 5.7
7.5
44 44 20.7
1 22 35.1
7.5
97 48 55.7
4 48 36.9
7.5
121 46 32.4
5 8 5.1
8.0
51 55 42.6
1 58 27.3
8.0
104 49 32.8
4 57 43.5
8.0
128 29 24.0
5 0 50.8
8.5
59 9 12.6
—2 32 33.7
8.5
111 48 14.7
—5 2 20.5
8.5
135 9 10.0
-4 49 34.3
9.0
66 24 22.2
3 4 17.6
9.0
118 44 30.5
5 2 27.5
9.0
141 45 42.6
4 34 30.0
9.5
73 40 35.7
3 33 4.1
9.5
125 37 49.7
4 58 9.4
9.5
148 18 54.4
4 15 55.2
10.0
80 57 11.4
3 58 21.9
10.0
132 27 43.5
4 49 35.8
10.0
154 48 39.2
3 54 9.6
10.5
88 13 22.3
4 19 44.1
10.5
139 13 45.5
4 37 1.0
10.5
161 14 52.4
3 29 34.9
11.0
95 28 17.5
—4 35 49.2
11.0
145 55 33.2
—4 20 42.8
11.0
167 37 31.5
—3 2 34.2
11.5
102 41 4.8
4 49 22.4
11.5
152 32 49.3
4 1 2.0
11.5
173 56 36.5
2 33 31.5
12.0
109 50 52.5
4 57 15.5
12.0
159 5 21.8
3 38 21.5
12.0
180 12 10.0
2 2 51.2
12.5
116 56 51.7
5 0 26.7
12.5
165 33 4.7
3 13 5.9
12.5
186 24 17.9
1 30 57.7
13.0
123 58 18.8
4 59 1.1
13.0
171 55 58.5
2 45 40.2
13.0
192 33 9.1
0 58 14.9
13.5
130 54 36.9
—4 53 9.4
13.5
178 14 9.7
—2 16 29.3
13.5
198 38 55.8
—0 25 6.1
14.0
137 45 17.2
4 43 7.1
14.0
184 27 51.0
1 45 57.8
14.0
204 41 53.6
-|-0 8 6.4
14.5
144 30 0.1
4 29 13.5
14.5
190 37 20.1
1 14 29.4
14.5
210 42 21.3
0 41 1.5
15.0
151 8 35.1
4 11 50.7
15.0
196 42 59.9
0 42 26.3
15.0
216 40 40.7
1 13 19.3
15.5
157 41 1.1
3 51 22.0
15.5
202 45 17.9
—0 10 9.6
15.5
222 37 16.5
1 44 41.1
16.0
164 7 25.6
—3 28 11.9
16.0
208 44 44.8
+0 22 0.5
16.0
228 32 33.3
+ 2 14 49.5
16.5
170 28 3.9
3 2 44.7
16.5
214 41 55.1
0 53 45.8
16.5
234 27 9.9
2 43 2M.0
17.0
176 43 18.2
2 35 24.2
17.0
220 37 25.3
1 24 48.5
17.0
240 21 29.4
3 10 21.1
17.5
182 53 36.7
2 6 33.1
17.5
226 31 54.1
1 54 51.9
17.5
246 16 8.7
3 35 14.1
18.0
188 59 32.1
1 36 33.2
18.0
232 26 1.5
2 23 40.3
18.0
252 11 43.0
3 57 52.9
18.5
195 1 41.0
—1 5 45.0
18.5
238 20 28.1
+2 50 58.0
18.5
258 8 48.9
+4 18 3.8
19.0
201 0 43.0
0 34 27.9
19.0
244 15 54.2
3 16 30.0
19.0
264 8 3.0
4 35 33.5
19.5
206 57 19.1
—0 3 0.3
19.5
250 13 0.5
3 40 1.2
19.5
270 10 2.3
4 50 9.0
20.0
212 52 11.7
-(-0 28 20.4
20.0
256 12 26.0
4 1 16.4
20.0
276 15 23.2
5 1 37.4
20.5
218 46 3.5
0 59 17.'4
20.5
262 14 48.0
4 20 0.7
20.5
282 24 40.8
5 9 46.3
21.0
224 39 36.7
+1 29 33.6
21.0
268 20 41.4
44 35 58.8
21.0
288 38 28.1
+5 14 23.6
21.5
230 33 33.2
1 58 53.3
21.5
274 30 37.6
4 48 55.7
21.5
294 57 15.4
5 15 18.0
22.0
236 28 32.2
2 27 0.0
22.0
280 45 4.4
4 58 36.6
22.0
301 21 29.2
5 12 19.5
22.5
242 25 11.5
2 53 37.2
22.5
287 4 24.6
5 4 47.4
22.5
307 51 31.3
5 5 19.6
23.0
248 24 6.2
3 18 28.3
23.0
293 28 55.4
5 7 15.1
23.0
314 27 38.0
4 54 12.3
23.5
254 25 47.8
+3 41 16.3
23.5
299 58 48.0
+5 5 48.5
23.5
321 9 58.6
+4 38 54.5
24.0
260 30 44.0
4 1 44.4
24.0
306 34 6.7
5 0 18.5
24.0
327 58 35.2
4 19 27.3
24.5
266 39 18.3
4 19 35.5
24.5
313 14 48.9
4 50 39.4
24.5
334 53 21.7
3 55 56.5
25.0
272 51 49.0
4 34 32.9
25.0
320 0 44.7
4 36 49.3
25.0 '
341 54 3.4
3 28 33.3
25.5
279 8 29.7
4 46 20.6
25.5
326 51 37.4
4 18 50.8
25.5
349 0 16.8
2 57 35.2
26.0
285 29 28.4
+4 54 43.7
26.0
333 47 3.7
+3 56 51.9
26.0
356 11 30.4
+2 23 20.0
26.5
291 54 47.3
4 59 28.9
26.5
340 46 34.8
3 31 5.9
26.5
3 27 4.9
1 46 35.2
27.0
298 24 23.5
5 0 25.0
27.0
347 49 37.2
3 1 52.1
27.0
10 46 14.3
1 7 41.8
27.5
304 58 9.0
4 57 23.8
27.5
354 55 34.6
2 29 ar>.o
27.5
18 8 7.9
+0 27 23.9
28.0
311 35 51.1
4 50 20.4
28.0
2 3 48.8
1 54 44.5
28.0
25 31 51.5
—0 13 32.9
28.5
318 17 13.3
4 39 13.8
28.5
9 13 41.4
1 17 54.5
28.5
32 56 29.5
0 54 21.9
29.0
325 1 56.2
+4 24 7.1
29.0
16 24 35.0
+0 39 42.4
29.0
40 21 6.6
—1 34 16.5
29.5
331 49 38.7
4 5 8.1
29.5
23 35 54.6
+ 0 0 47.5
29.5
47 44 50.4
2 12 31.6
30.0
338 39 59.2
3 42 29.0
30.0
30 47 8.4
—0 38 9.7
30.0
55 6 52.2
2 48 25.5
30.5
345 32 36.0
3 16 26.4
30.5
37 57 48.2
1 16 29.3
30.5
62 26 28.3
3 21 21.1
31.0
&& 27 8.7
2 47 21.2
31.0
45 7 30.0
1 53 32.5
31.0
69 43 1.3
3 50 46.9
31.5
359 23 19.1
+2 15 38.1
31.5
52 15 53.9
—2 28 43.1
31.5
76 56 0.3
—4 16 17.4
MOON'S LONGITUDE AND LATITUDE, 1884. * 273
TOR GREENWICH MEAN NOON AND MIDNIGHT.
Day
APRIL.
Day
MAY.
Day
JUNE.
• of
Month.
True Longitude.
Latitude.
of
Month.
True Longitude.
Latitude.
of
Month.
True Longitude.
Latitude.
1.0
Q 1 II
84 5 1.3
O V //
—4 37 33.6
1.0
121 59 53.'l
Q 1 li
-6 12 22.1
1.0
170 38 16.2
O / V/
—2 41 14.0
1.5
91 9 46.7
4 54 22.3
1.5
128 47 16.2
5 4 21.3
1.5
176 51 58.6
2 11 35.7
2.0
98 10 5.0
5 6 36.2
2.0
135 28 33.5
4 52 18.1
2.0
183 1 18.6
1 40 46.3
2.5
105 5 50.1
5 14 13.2
2.5
142 4 1.0
4 36 32.4
2.5
189 6 52.3
1 9 7.1
3.0
111 57 0.5
5 17 15.7
3.0
148 33 58.5
4 17 25.4
3.0
195 9 15.1
0 36 58.7
3.5
118 43 38.7
—5 15 50.1
3.5
154 58 49.2
—3 55 18.7
3.5
201 9 1.5
—0 4 41.0
4.0
125 25 50.2
5 10 6.3
4.0
161 18 58.2
3 30 34.3
4.0
207 6 44.3
4-0 27 26.8
4.5
132 3 42.8
5 0 16.8
4.5
167 34 51.9
3 3 34.4
4.5
213 2 54.1
0 59 6.2
5.0
138 37 26.2
4 46 36.6
5.0
173 46 56.6
2 34 40.8
5.0
218 57 59.5
1 29 59.1
5.5
145 7 11.1
4 29 22.8
5.5
179 55 38.8
2 4 15.6
5.5
224 52 26.6
1 59 48.0
6.0
151 33 8.8
—4 8 54.1
6.0
186 1 23.8
—1 32 40.3
6.0
230 46 39.0
4-2 28 15.7
6.5
157 55 31.1
3 45 30.5
6.5
192 4 36.0
1 0 16.1
6.5
236 40 57.9
2 55 5.7
7.0
164 14 29.8
3 19 33.0
7.0
198 5 38.4
—0 27 24.3
7.0
242 35 41.8
3 20 1.8
7.5
170 30 16.6
2 51 23.7
7.5
204 4 52.4
4-0 5 34.5
7.5
248 31 7.4
3 42 48.9
8.0
176 43 3.3
2 21 24.9
8.0
210 2 38.0
0 38 20.0
8.0
254 27 29.4
4 3 12.3
8.5
182 53 1.7
—1 49 59.6
8.5
215 59 14.0
4-1 10 32.3
8.5
260 25 0.6
+4 20 58.7
9.0
189 0 23.5
1 17 30.7
9.0
221 54 57.9
1 41 52.1
9.0
266 23 52.6
4 35 55.7
9.5
195 5 20.8
0 44 20.9
9.5
227 50 6.1
2 12 0.9
9.5
272 24 16.0
4 47 52.1
10.0
201 8 6.0
—0 10 52.7
10.0
233 44 54.1
2 40 40.9
10.0
278 26 21.0
4 56 38.3
10.5
207 8 52.3
4-0 22 32.0
10.5
239 39 37.0
3 7 34.8
10.5
284 30 17.8
5 2 6.1
11.0
213 7 53.9
+0 55 32.2
11.0
245 34 30.0
4-3 32 26.9
11.0
290 36 16.5
+5 4 9.0
11.5
219 5 25.7
1 27 47.5
11.5
251 29 48.0
3 55 1.9
11.5
296 44 28.3
5 2 42.3
12.0
225 1 44.1
1 58 58.7
12.0
257 25 46.3
4 15 6.2
12.0
302 55 5.6
4 57 43.1
12.5
230 57 7.0
2 28 47.7
12.5
263 22 41.0
4 32 26.9
12.5
309 8*21.9
4 49 10.6
13.0
236 51 53.5
2 56 57.4
13.0
269 20 49.2
4 46 52.6
13.0
315 24 32.3
4 37 5.7
13.5
242 46 24.9
+ 3 23 11.9
13.5
275 20 29.3
44 58 12.9
13.5
321 43 53.5
4-4 21 31.5
14.0
248 41 3.7
3 47 16.1
14.0
281 22 0.9
5 6 18.6
14.0
328 6 43.9
4 2 33.3
14.5
254 36 14.5
4 8 56.3
14.5
287 25 45.2
5 11 1.8
14.5
334 33 23.2
3 40 19.0
15.0
260 32 23.7
4 27 59.6
15.0
293 32 4.9
5 12 16.0
15.0
341 4 11.7
3 14 58.7
15.5
266 29 59.2
4 44 13.8
15.5
299 41 24.0
5 9 55.6
15.5
347 39 30.3
2 46 45.3
16.0
272 29 30.4
44 57 27.3
16.0
305 54 7.8
4-5 3 56.7
16.0
354 19 39.3
+2 15 55.0
16.5
278 31 28.0
5 7 29.6
16.5
312 10 42.7
4 54 16.7
16.5
1 4 57.6
1 42 47.1
17.0
284 36 23.6
5 14 10.7
17.0
318 31 35.8
4 40 54.9
17.0
7 55 41.3
1 7 44.4
17.5
290 44 49.1
5 17 21.4
17.5
324 57 13.7
4 23 52.4
17.5
14 52 2.8
4-0 31 13.8
18.0
296 57 16.9
5 16 53.3
18.0
331 28 2.5
4 3 13.1
18.0
21 54 8.6
-06 14.2
18.5
303 14 18.4
+5 12 39.0
18.5
338 4 26.5
4-3 39 3.2
18.5
29 1 58.3
—0 44 5.3
19.0
309 36 23.5
5 4 32.5
19.0
344 46 47.4
3 11 32.5
19.0
36 15 22.8
'1 21 41.6
19.5
316 4 0.2
4 52 29.5
19.5
351 35 23.1
2 40 54.7
19.5
43 34 3.0
1 58 22.7
20.0
322 37 33.2
4 36 28.1
20.0
358 30 25.8
2 7 2rt.l
20.0
50 57 29.1
2 33 26.3
20.5
329 17 22.7
4 16 29.3
20.5
5 32 1.0
1 31 35.7
20.5
58 24 59.5
3 6 9.6
21.0
336 3 43.9
4-3 52 37.8
21.0
12 40 6.2
4-0 53 46.0
21.0
65 55 41.8
-3 35 61.3
21.5
342 56 44.7
3 25 2.7
21.5
19 54 29.0
4-0 14 32.9
21.5
73 28 33.7
4 1 58.2
22.0
349 56 25.5
2 53 58.4
22.0
27 14 46.2
—6 25 24.6
22.0
81 2 24.8
4 23 42.2
22.5
357 2 37.8
2 19 45.2
22.5
34 40 23.4
1 5 23.1
22.5
88 35 59.6
4 40 51.8
23.0
4 15 3.3
1 42 49.6
23.0
42 10 34.1
1 44 35.9
23.0
96 8 0.8
4 53 3.6
23.5
11 33 13.3
4-1 3 44.4
23.5
49 44 21.2
—2 22 14.7
23.5
103 37 12.7
—5 0 7.7
24.0
18 56 29.1
+0 23 8.8
24.0
57 20 38.2
2 57 31.9
24.0
111 2 24.5
5 2 2.9
24.5
26 24 1.9
—0 18 13.2
24.5
64 58 10.5
3 29 42.5
24.5
118 22 33.8
4 58 56.5
25.0
33 54 54.5
0 59 33.7
25.0
72 35 39.5
3 58 6.4
25.0
125 36 48.7
4 51 3.0
25.5
41 28 3.0
1 40 3.0
25.5
80 11 45.2
4 22 10.1
25.5
132 44 29.2
4 38 42.5
26.0
49 2 18.2
—2 18 51.1
26.0.
87 45 10.0
—4 41 28.5
26.0
139 45 8.3
—4 22 19.6
26.5
56 36 29.1
2 55 10.9
26.5
95 14 41.9
4 55 45.5
26.5
146 38 31.4
4 2 21.6
27.0
64 9 24.8
3 28 19.6
27.0
102 39 17.3
5 4 53.9
27.0
153 24 36.0
3 39 17.5
27.5
71 39 58.3
3 57 40.6
27.5
109 58 3.7
5 8 54.7
27.5
160 3 30.1
3 13 36.4
28.0
79 7 7.9
4 22 44.6
28.0
117 10 20.5
5 7 56.8
28.0
166 35 30.9
2*45 46.9
28.5
86 29 59.8
4 43 10.5
28.5
124 15 40.1
5 2 14.7
28.5
173 1 3.0
2 16 16.3
29.0
93 47 49.6
—4 58 45.4
29.0
131 13 47.3
—4 C2 7.7
29.0
179 20 36.9
-1 45 30.6
29.5
101 0 2.9
5 9 23.8
29.5
138 4 38.4
4 37 58.4
29.5
185 34 47.5
1 13 54.2
30.0
108 6 15.7
5 15 7.1
30.0
144 48 20.1
4 20 11.4
30.0
191 44 12.6
0 41 49.2
30.5
115 6 14.0
5 16 2.6
30.5
151 25 7.8
3 59 12.2
30.5
197 49 31.3
—6 9 36.8
31.0
121 59 53.1
5 12 22.1
31.0
157 55 23.8
3 35 26.2
31.0
203 51 23.9
4-0 22 23.4
31.5
128 47 16.2 -6 4 21.3
31.5
164 19 36.0 — >3 9 18.7
31.5
209 50 30.4 +0 53 53.1
18
274 MOON'S LONGITUDE AND LATITUDE, 1884.
FOR GREENWICH MEAN NOON AND MIDNIGHT.
Day
JULY.
Day
AUGUST.
Day
SEPTEMBER.
of
Month.
True Longitude.
Latitude.
of
Month.
True Longitude.
Latitude.
of
Month.
True Longitude.
Latitude.
1.0
203 51 23*9
+0° 22' 23 '4
1.0
0 1 u
247 44 13.4
+3 56 42.5
1.0*
291 59' 19*2
0 / //
+5 8 40.8
1.5
209 50 30.4
0 53 53.1
1.5
253 40 29.3
4 15 8.8
1.5
298 13 11.1
5 2 31.2
2.0
215 47 29.6
1 24 35.0
2.0
259 38 10.4
4 30 52.1
2.0
304 31 10.1
4 52 38.8
2.5
221 42 59.1
1 54 12.6
2.5
265 37 43.9
4 43 41.0
2.5
310 53 27.5
4 39 2.8
3.0
227 37 34.3
2 22 29.8
3.0
271 39 34.0
4 53 25.0
3.0
317 20 10.1
4 21 45.2
3.5
233 31 48.4
+2 49 11.4
3.5
277 44 0.9
+4 59 54.3
3.5
323 51 19.7
+4 0 51.5
4.0
239 26 11.7
3 14 2.5
4.0
283 51 20.8
5 3 0.3
4.0
330 26 53.4
3 36 31.1
4.5
245 21 11.5
3 36 48.6
4.5
290 1 46.7
5 2 35.9
4.5
337 6 43.7
3 8 57.3
5.0
251 17 12.2
3 57 15.7
5.0
296 15 27.4
4 58 35.7
5.0
343 50 39.1
2 38 27.6
5.5
257 14 34.8
4 15 10.5
5.5
302 32 28.0
4 50 56.7
5.5
350 38 24.1
2 5 24.0
6.0
263 13 37.0
+4 30 20.3
6.0
308 52 50.4
+4 39 38.6
6.0
357 29 40.3
+1 30 13.0
6.5
269 14 33.8
4 42 33.4
6.5
315 16 33.6
4 24 43.8
6.5
4 24 7.2
0 53 24.4
7.0
275 17 37.2
4 51 39.4
7.0
321 43 34.1
4 6 17.6
7.0
11 21 22.8
+0 15 31.2
7.5
281 22 56.5
4 57 29.1
7.5
328 13 46.6
3 44 29.2
7.5
. 18 21 4.0
-0 22 51.0
ao
287 30 38.6
4 59 54.8
8.0
334 47 4.5
3 19 31.1
8.0
25 22 47.7
1 1 5.1
8.5
293 40 48.5
+4 58 51.0
8.5
341 23 20.5
+2 51 39.2
8.5
32 26 11.5
-1 38 33.4
9.0
299 53 30.1
4 54 14.2
9.0
348 2 27.8
2 21 12.8
9.0
39 30 53.4
2 14 38.6
9.5
306 8 46.3
4 46 3.2
9.5
354 44 19.6
1 48 34.5
9.5
46 36 32.8
2 48 44.8
10.0
312 26 39.7
4 34 19.4
10.0
1 28 50.2
1 14 9.9
10.0
53 42 50.4
3 20 18.0
10.5
318 47 13.2
4 19 6.8
10.5
8 15 55.2
0 38 26.7
10.5
60 49 28.0
3 48 47.3
11.0
325 10 30.5
+4 0 31.9
11.0
15 5 31.4
+0 1 55.0
11.0
G7 56 8.5
-4 13 45.1
11.5
331 36 36.4
3 38 44.1
11.5
21 57 36.4
-0 34 53.4
11.5
75 2 35.5
4 34 47.9
12.0
338 5 37.0
3 13 55.7
12.0
28 52 8.8
1 11 25.7
12.0
82 8 33.0
4 51 36.6
12.5
344 37 40! 4
2 46 21.5
12.5
35 49 7.0
1 47 8.2
12.5
89 13 45.2
5 3 56.5
13.0
351 12 56.1
2 16 19.1
13.0
42 48 29.2
2 21 27.3
13.0
96 17 56.3
5 11 37.9
13.5
357 51 34.7
+1 44 8.9
13.5
49 50 11.8
—2 53 49.7
13.5
103 20 50.1
-5 14 35.9
14.0
4 33 47.8
1 10 13.7
14.0
56 54 9.0
3 23 43.1
14.0
110 22 9.6
5 12 50.6 |
14.5
11 19 47.6
+0 34 59.0
14.5
64 0 12.0
3 50 36.7
14.5
117 21 37.7
5 6 25.8 1
15.0
18 9 45.2
—0 1 7.2
15.0
71 8 7.8
4 14 2.3
15.0
124 18 56.7
4 55 33.9
15.5
25 3 50.4
0 37 34.4
15.5
78 17 38.9
4 33 34.7
15.5
131 13 48.5
4 40 26.0 1
16.0
32 2 10.0
—1 13 50.2
16.0
85 28 22.8
—4 48 52.4
16.0
138 5 55.8
—4 21 20.9
16.5
39 4 46.6
1 49 20.2
16.5
92 39 51.8
4 59 38.4
16.5
144 55 1.4
3 58 40.1
17.0
46 11 37.1
2 23 28.7
17.0
99 51 33.3
5 5 40.9
17.0
151 40 49.5
3 32 48.1
17.5
53 22 31.8
2 55 39.4
17.5
107 2 51.0
5 6 54.0
17.5
158 23 5.8
3 4 11.8
18.0
60 37 13.0
3 25 16.3
18.0
114 13 5.2
5 3 17.8
18.0
165 1 3H.3
2 33 19.7
18.5
&7 55 14.3
—3 51 44.5
18.5
121 21 34.6
—4 54 58.3
18.5
171 36 17.5
—2 0 41.2
19.0
75 16 0.2
4 14 31.8
19.0
128 27 37.6
4 42 7.8
19.0
178 6 57.1
1 26 46.1
19.5
82 38 46.6
4 33 9.9
19.5
135 30 34.2
4 25 3.8
19.5
184 33 33.9
0 52 3.6
20.0
90 2 41.6
4 47 15.7
20.0
142 29 47.5
4 4 8.6
20.0
190 56 8.5
—0 17 2.1
20.5
97 26 46.8
4 56 32.3
20.5
149 24 45.1
3 39 48.4
20.5
197 14 45.3
+ 0 17 51.5
21.0
104 50 0.4
-5 0 50.1
21.0
156 15 0.1
—3 12 32.3
21.0
203 29 32.3
+0 52 12.0
21.5
112 11 19.1
5 0 6.9
21.5
163 0 12.1
2 42 50.8
21.5
209 40 41.4
1 25 36.4
22.0
119 29 41.1
4 54 28.4
22.0
169 40 8.0
2 11 15.3
22.0
215 48 27.8
1 57 43.6
22.5
126 44 8.8
4 44 7.3
22.5
176 14 41.6
1 38 16.9
22.5
221 53 10.4
2 28 14.8
23.0
133 53 51.3
4 29 22.6
23.0
182 43 54.1
1 4 25.8
23.0
227 55 11.2
2 56 53.2
23.5
140 58 6.3
—4 10 38.3
23.5
189 7 53.0
—O 30 10.2
23.5
233 54 55.0
+3 23 23.8
24.0
147 56 21.1
3 48 22.2
24.0
195 26 52.4
+0 4 3.5
24.0
239 52 49.1
3 47 33.3
24.5
154 48 14.0
3 23 4.3
24.5
201 41 11.7
0 37 51.0
24.5
245 49 23.6
4 9 10.1
25.0
161 33 33.6
2 55 15.9
25.0
207 51 14.8
1 10 50.4
25.0
251 45 10.0
4 28 3.8
25.5
168 12 18.6
2 25 27.7
25.5
213 57 30.1
1 42 41.8
25.5
257 40 41.4
4 44 4.9
26.0
174 44 37.2
-1 54 10.1
26.0
220 0 29.1
+ 2 13 7.6
26.0
263 36 32.4
+4 57 4.8
26.5
181 10 45.5
1 21 51.5
26.5
226 0 45.8
2 41 51.8
26.5
269 33 18.1
5 6 55.9
27.0
187 31 6.5
0 48 58.4
27.0
231 58 56.2
3 8 40.1
27.0
275 31 34.1
5 13 30.9
27.5
193 46 9.0
-0 15 55.3
27.5
237 55 37.4
3 33 19.2
27.5
281 31 55.4
5 16 43.3
28.0
• 199 56 26.1
+0 16 55.3
2H.0
243 51 27.1
3 55 37.1
28.0
287 34 57.0
5 16 27.3
28.5
206 2 34.2
0 49 13.1
28.5
249 47 3.4
4 15 22.4
28.5
293 41 12.1
5 12 37.9
29.0
212 5 11.6
+ 1 20 39.6
29.0
255 43 3.7
+4 32 24.5
29.0
299 51 12.5
+5 5 11.0
29.5
218 4 58.1
1 50 57.7
29.5
261 40 4.4
4 46 33.2
29.5
306 5 27.3
4 54 4.1
30.0
224 2 34.1
2 19 51.6
30.0
267 38 40.5
4 57 38.9
30.0
312 24 22.4
4 39 16.4
30.5
229 58 39.4
2 47 6.7
30.5
273 39 24.9
5 5 32.6
30.5
318 48 20.0
4 20 49.3
31.0
235 53 53.0
3 12 29.0
31.0
279 42 48.3
5 10 5.7
31.0
325 17 37.6
3 58 47.1
31.5
241 48 52.4
+3 35 45.2
31.5
285 49 18.4
+5 11 10.6
31.5
331 52 27.2
+3 33 17.7
MOON'S LONGITUDE AND LATITUDE, 1884. 275
FOR GREENWICH MEAN NOON AND MIDNIGHT.
Day
of
Month.
OCTOBER.
•
Day
of
Month.
NOVEMBER.
Day
of
Month.
DECEMBER.
True Longitude.
Latitude.
True Longitude.
Latitude.
True Longitude.
Latitude.
1.0
O 1 II
325 17 37.6
+3 58 47.'l
1.0
Q 1 II
14 7 41.1
O 1 n
— 0 1 3.8
1.0
O * II
51 24 5.8
O / //
—3 12 2.4
1.5
331 52 27.2
3 33 17.7
1.5
21 20 15.6
.0 40 35.6
1.5
58 58 32.8
3 41 36.6
2.0
338 32 55.1
3 4 32.9
2.0
28 38 24.8
1 19 56.1
2.0
66 36 26.4
4 7 25.0
2.5
345 19 0.8
2 32 49.0
2.5
36 1 25.1
1 58 20.4
2.5
74 16 25.8
4 28 51.5
3.0
352 10 37.2
1 58 27.2
3.0
43 28 23.2
2 35 2.3
3.0
81 57 4.0
4 45 27.3
3.5
359 7 29.8
-ft 21 53.7
3.5
50 58 17.6
—3 9 16.4
3.5
89 36 52.4
—4 56 52.5
4.0
6 9 17.4
0 43 39.6
4.0
58 30 1.0
3 40 19.7
4.0
97 14 23.9
5 2 56.5
4.5
13 15 32.0
+0 4 20.6
4.5
66 2 22.5
4 7 34.0
4.5
104 48 18.2
5 3 38.1
5.0
20 25 39.5
—6 35 24.1
5.0
73 34 10.5
4 30 27.4
5.0
112 17 24.4
4 59 5.8
5.5
27 39 1.0
1 14 52.5
5.5
81 4 15.9
4 48 35.6
5.5
119 40 44.0
4 49 35.5
6.0
34 54 53.5
—1 53 21.6
6.0
88 31 35.0
—5 142.4
6.0
126 57 32.4
—4 a5 29.7
6.5
42 12 31.2
2 30 8.7
6.5
95 55 11.4
5 9 40.2
6.5
134 7 19.0
4 17 15.4
7.0
49 31 7.6
3 4 32.7
7.0
103 14 18.1
5 12 29 1
7.0
141 9 47.6
3 55 22.7
7.5
56 49 56.5
3 35 55.8
7.5
110 28 18.2
5 10 16.4
7.5
148 4 54.3
3 30 23.1
8.0
64 8 13.4
4 3 44.8
8.0
117 36 45.6
5 3 15.1
8.0
154 52 46.4
3 2 48.2
8.5
71 26 17.1
—4 27 31.9
8.5
124 39 24.3
—4 51 43.3
8.5
161 33 40.1
—2 33 9.2
9.0
78 40 30.4
4 46 55.2
9.0
131 36 7.9
4 36 2.6
9.0
168 7 59.1
2 1 55.8
9.5
85 53 20.8
5 1 39.3,
9.5
138 26 58.4
4 16 37.3
9.5
174 36 12.0
1 29 36.2
10.0
93 3 21.3
5 11 34.8
10.0
145 12 4.4
3 53 52.7
10.0
180 58 51.1
0 56 36.7
10.5
100 10 10.2
5 16 38.3
10.5
151 51 40.1
3 28 15.3
10.5
187 16 30.5
—0 23 21.9
11.0
107 13 30.9
-5 16 52.0
11.0
158 26 4.3
—3 0 11.8
11.0
193 29 45.6
+0 9 45.3
11.5
114 13 11.8
5 12 23.0
11.5
164 55 38.1
2 30 9.0
11.5
199 39 11.1
0 42 23.8
12.0
121 9 5.5
5 3 22.6
12.0
171 20 44.5
1 58 32.8
12.0
205 45 20.6
1 14 13.7
12.5
128 1 8.4
4 50 5.8
12.5
177 41 47.1
1 25 49.0
12.5
211 48 46.0
1 44 56.5
13.0
134 49 20.0
4 32 50.7
13.0
183 59 9.5
0 52 22.4
13.0
217 49 57.0
2 14 14.8
13.5
141 33 42.3
-4 11 58.1
13.5
190 13 14.2
—0 18 37.1
13.5
223 49 20.9
+2 41 52.4
14.0
148 14 18.7
3 47 50.9
14.0
196 24 22.7
+0 15 3.7
14.0
229 47 21.7
3 7 34.1
14.5
154 51 14.3
3 20 53.3
14.5
202 32 54.9
0 48 17.5
14.5
235 44 21.0
3 31 5.7
15.0
161 24 34.6
2 51 31.2
15.0
208 39 8.8
1 20 43.1
15.0
241 40 37.6
3 52 14.2
15.5
167 54 26.0
2 20 10.8
15.5
214 43 20.8
1 52 0.2
15.5
247 36 27.8
4 10 47.7
16.0
174 20 54.8
—1 47 19.3
16.0
220 45 45.7
+2 21 49.6
16.0
253 32 5.6
+4 26 35.4
16.5
180 44 7.4
1 13 23.6
16.5
226 46 36.8
2 49 53.6
16.5
259 27 42.9
4 39 28.2
17.0
187 4 10.6
0 38 50.5
17.0
232 46 6.4
3 15 55.9
17.0
265 23 30.3
4 49 18.4
17.5
193 21 11.0
—0 4 6.0
17.5
238 44 25.9
3 39 41.5
17.5
271 19 37.6
4 55 59.8
18.0
199 35 15.9
+0 30 24.5
18.0
244 41 46.4
4 0 57.1
18.0
277 16 13.8
4 59 27.7
18.5
205 46 33.0
+1 4 17.0
18.5
250 38 18.9
+4 19 30.9
18.5
283 13 27.9
+ 4 59 39.2
19.0
211 55 10.5
1 37 8.9
19.0
256 34 15.0
4 35 12.9
19.0
289 11 29.7
4 56 33.2
19.5
218 1 18.2
2 8 39.4
19.5
262 29 47.3
4 47 54.6
19.5
295 10 30.1
4 50 10.0
20.0
224 5 6.9
2 38 29.2
20.0
268 25 9.4
4 57 29.2
20.0
301 10 41.2
4 40 32.0
20.5
230 6 46.8
3 6 21.1
20.5
274 20 36.6
5 3 51.5
20.5
307 12 17.4
4 2t 43.0
21.0
236 6 38.1
+ 3 31 59.5
21.0
280 16 26.2
+5 6 57.5
21.0
313 15 35.4
+4 11 48.4
21.5
242 4 50.7
3 55 10.9
21.5
286 12 57.7
5 6 44.8
21.5
319 20 54.3
3 52 55.4
22.0
248 1 44.7
4 15 43.3
22.0
292 10 33.0
5 3 12.3
22.0
325 28 35.8
3 31 12.6
22.5
253 57 40.4
4 33 26.6
22.5
298 9 36.1
4 56 20.0
22.5
331 39 4.2
3 6 50.2
23.0
259 53 0.1
4 48 12.0
23.0
304 10 33.9
4 46 9.2
23.0
337 52 46.2
2 40 0 3
23.5
265 48 8.6
+4 59 52.1
23.5
310 13 55.3
+4 32 42.3
23.5
344 10 10.8
+ 2 10 56.7
24.0
271 43 32.8
5 8 20.5
24.0
316 20 11.2
4 16 3.1
24.0
350 31 48.2
1 39 £5.1
24.5
277 39 41.4
5 13 32.1
24.5
322 29 54.3
3 56 16.6
24.5
356 58 9.3
1 7 13.3
25.0
283 37 5.1
5 15 22.4
25.0
328 43 38.5
3 33 29.6
25.0
3 29 45.3
+ 0 33 11.8
25.5
289 36 16.2
5 13 48.1
25.5
335 1 58.4
3 7 50.7
25.5
10 7 5.6
—0 1 46.2
26.0
295 37 48.1
+5 8 46.6
26.0
341 25 28.1
+2 39 30.6
26.0
16 50 37.1
-0 37 14.8
26.5
301 42 15.3
5 0 16.3
26.5
347 54 40.5
2 8 42.9
26.5
23 40 42.3
1 12 45.1
27.0
307 50 12.2
4 48 16.5
27.0
354 30 6.1
1 35 43.9
27.0
30 37 37.5
1 47 44.9
27.5
314 2 13.3
4 32 48.0
27.5
1 12 11.6
1 0 53.9
27.5
37 41 30.5
2 21 39.3
28.0
320 18 52.2
4 13 53.1
28.0
8 1 18.1
+0 24 37.1
28.0
44 52 19.3
2 53 50.9
28.5
326 40 40.5
3 51 36.3
28.5
14 57 39.5
—0 12 38.0
28.5
52 9 49.7
3 23 41.0
29.0
333 8 7.0
+3 26 4.5
29.0
22 1 20.4
—0 CO 1".G
29.0
C9 33 34.2
—3 50 30.4
29.5
339 41 37.0
2 57 27.9
29.5
29 12 14.7
1 27 47.4
29.5
67 2 50.9
4 13 41.4
30.0
346 21 30.6
2 26 0.3
30.0
36 30 4.1
2 4 23.5
30.0
74 36 44.0
4 32 39.3
30.5
353 8 1.8
1 51 59.9
30.5
43 54 16.4
2 39 23.4
30.5
82 14 4.7
4 46 54.4
31.0
0 1 17.0
1 15 49.5
31.0
51 24 5.8
3 12 2.4
31.0
89 53 33.7
4 56 4.2
31.5
7 1 14.1
+0 37 57.2
31.5
58 58 32.8
—3 41 36.6
31.5
97 33 44.4
—4 59 54.6
276
MOON'S EQUATOR, 1884.
FOR GREENWICH MEAN NOON
«
Date
THE MOON'S EQUATOR.
<L
i
A
ft'
TnAHnaflrtn
Aaoend'gNodeon
•Ascend'g Node
Mean
to
Earth's Equator
on
Longitude
Mean
Motion of
Earth's
to Ascending
Earth's
of the
Solar
Equator.
Node on Ecliptic
Equator.
Moon.
Days.
*•
Jan.
1
24° 45.7
27° 2.8
O /
1 41.5
320 45!4
0.1
1° 19.06
11
24 46.1
26 32.6
1 39.8
92 31.3
0.2
2 38.12
21
24 46.4
26 2.5
1 38.0
224 17.1
0.3
3 57.18
31
24 46.8
25 32.3
1 36.3
356 3.0
0.4
5 16.23
Feb.
10
24 47.1
25 2.2
1 34.5
127 48.8
0.5
6 35.29
20
24 47.5
24 32.0
1 32.7
259 34.6
0.6
0.7
7 54.35
9 13,41
March
1
24 47.8
24 1.9
1 30.9
31 20.5
0.8
10 32.47
11
24 48.2
23 31.8
1 29.1
163 6.3
0.9
11 51.53
21
24 48.5
23 1.6
1 27.3
294 &.2
•
31
24 48.8
22 31.5
1 25.5
66 38.0
1.0
2.0
13 10.58
26 21.17
April
10
24 49.1
22 1.4
1 23.7
198 23.8
3.0
39 31.75
20
24 49.4
21 31.3
1 21.9
330 9.7
4.0
52 42.33
30
24 49.7
21 1.2.
1 20.0
101 55.5
5.0
65 62.92
May
10
24 49.9
20 31.1
I 18.2
233 41.4
6.0
79 3.50
20
24 50.2
20 1.0
1 16.4
5 27.2
7.0
8.0
92 14.09
105 24.67
30
24 50.5
19 30.9
1 14.6
137 13.0
9.0
118 35.25 J
June
9
19
24 50.7
24 51.0
19 0.8
18 30.7
1 12.8
1 10.9
268 58.9
40 44.7
10.0
131 45.84
Hoars.
O /
29
24 51.2
18 0.7
1 9.1
172 30.6
1
0 32.94
July
9
24 51.5
17 30.6
1 7.2
304 16.4
2
3
1 5.88
1 38.82
19
24 51.8
17 0.5
1 5.3
76 2.2
4
2 11.76
29
24 52.0
16 30.4
1 3.4
207 48.1
5
2 44.70
Aug.
8
24 52.2
16 0.4
1 1.5
339 33.9
6
3 17.65
18
24 52.5
15 30.3
0 59.7
111 19.8
7
3 50.59
28
24 52.7
15 0.3
• 0 57.8
243 5.6
8
9
4 23.53
4 56.47
Sept.
7
24 52.9
14 30.2
0 55.9
14 51.4
10
5 29.41
17
24 53.1
14 0.2
0 54.0
146 37.3
11
27
24 53.3
13 30.1
0 52.1
278 23.1
6 2.35
Oct.
7
24 53.4
13 0.1
0 50.2
50 9.0
12
6 35.29
17
24 53.6
12 30.0
0 48.3
181 54.8
13
14
7 8.23
7 41.17
27
24 53.8
12 0.0
0 46.4
313 40.6
15
8 14.11
Nov.
6
24 53.9
11 30.0
0 44.5
85 26.5
16
8 47.06
16
24 54.1
11 0.0
0 42.6
217 12.3
17
9 20.00
26
24 54.2
10 30.0
0 40.6
348 58.2
18
9 52.94
Dec.
6
24 54.4
9 59.9
0 38.7
120 44.0
19
20
10 25.88
10 58.62
16
24 54.5
9 29.9
0 36.8
252 29.8
21
11 31.76
26
24 54.6
8 59.9
0 34.8
24 15.7
22
12 4.70
36
24 54.7
8 29.9
0 32.9
156 1.5
23
12 37.64
24
13 10.58
MOON'S LIBRATION.
277
TABLE FOR THE LIBRATION OF THE MOON.
t
Argument, (Q— X) or (ft— X— 180°).
a-*
aX
l
a
B
fl-x
aX
a
B
o
/
O l
o
. o
i
o /
-~p
0
0.0
39
0 0.0
180
46
0.6
56
1 3.9
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
03
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
J1
0.3
39
0 16.9
169
57
0.5
71
1 14.5
123
12
0.3
40
0 18.5
168
58
0.5
73
1 15.3
122
13
0.3
40
0 20.0
167
59
0.5
75
1 16.1
121
14
0.3
40
0 21.5
166
60
0.5
77
1 16.9
120
15
0.3
40
0 23.0
165
61
0.5
80
1 17.6
119
16
0.3
40
0 24.5
164
62
0.5
63
1 18.4
118
17
0.3
40
0 26.0
163
63
0.5
86
1 19.1
117
18
0.3
41
0 27.4
162
64
0.5
69
1 19.8
116
19
0.4
41
0 28.9
161
65
0.4
92
1 20.4
115
20
0.4
41
0 30.4
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
0.4
113
1 23.4
110
25
0.4
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
1 24.4
106
27
0.5
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
0.5
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
0.2
278
1 27.9
96
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£
135
•
aX
1
a
B
fl-x
AX
1
a
B
fl-a
A X has the sign of tan ( X — ft )
a has the sign of oos (ft — X)
B has the sign of sin ( ft — X)
EPH 84 — 18 — 5
278
OBLIQUITY, PRECESSION, ETC., 1884.
FOB GREENWICH
MEAN NOON.
•
Apparent
Obliquity
of the
Ecliptic
Equation of Equinoxes
Precession
of
The Sun's
Mean
Longitude
of Moon's
Ascending
Date.
Equinoxes
in
(Hahben.)
In Longitude.
InB. A.
Longitude.
Aberration.
Hor. Pax.
Node.
Jan. 1
23° 27' 6J92
+ 8.90
+ o!544
aoo
- 20.80
9.00
208 35!8
11
6.86
9.14
0.559
1.38
20.79
9.00
208 4.0
21
6.96
9.27
0.567
2.75
20.77
8.99
207 32.3
31
7.09
9.25
0.566
4.13
20.74
8.98
207 0.5
Feb. 10
7.22
9.09
0.556
5.50
20.71
8.96
206 28.7
20
23 27 7.34
+ 8.79
+ 0.538
6.88
- 20.67
8.94
205 57.0
March 1
7.42
8.34
0.510
8.26
20.63
8.92
205 25.2
11
7.46
7.81
0.478
9.63
20.57
8.90
204 53.4
21
7.44
7.24
0.443
11.01
20.51
8.87
204 21.6
31
7.35
6.67
0.408
12.38
20.45
8.85
203 49.9
April 10
23 27 7.20
4-6.16
+ 0.377
13.76
- 20.39
8.82
203 18.1
20
7.00
5.76
0.352
15.14
20.34
8.80
202 46.3
30
6.78
5.48
0.335
16.51
20.29
8.78
202 14.5
May 10
6.56
5.33
0.326
17.89
20.24
8.76
201 42.8
20
635
5.32
0.325
19.26
20.19
8.74
201 11.0
30
23 27 6.17
+ 5.43
+ 0.332
20.64
-20.16
' 8.72
200 39.2
June 9
6.04
5.64
0.345
22.02
20.13
8.71
200 7.5
19
5.95
5.88
0.360
23.39
20.11
8.71
199 35.7
29
5.93
6.12
0.374
24.77
20.11
8.70
199 3.9
July 9
5.97
6.33
0.387
26.14
20.10
8.70
198 32.1
19
23 27 6.05
+ 6.48
+ 0.396
27.52
-20.12
8.71
198 0.4
29
6.16
6.50
0.398
28.90
20.14
8.72
197 28.6
Aug. 8
6.30
6.39
0.391
30.27
20.17
8.73
196 56.8
18
6.45
6.15
0.376
31.65
20.20
8.75
196 25.0
28
6.57
5.78
0.354
33.02
20.24
8.77
195 53.3
Sept. 7
23 27 6.64
+ 5.30
+ 0.324
34.40
-20.29
8.79
195 21.5
17
6.66
4.75
0.290
35.78
20.35
8.81
194 49.7
27
6.62
4.16
0.254
37.15
20.41
8.84
194 18.0
Oct. 7
6.52
3.60
0.220
38.53
20.47
8.87
193 46.2
17
6.37
3.11
0.190
39.90
20.53
8.88
193 14.4
27
23 27 6.18
+ 2.73
+0.167
41.28
- 20.59
8.91
192 42.6
Nov. 6
5.97
2.49
0.152
42.66
20.64
8.93
192 10.9
16
5.76
2.40
0.147
44.03
20.69
8.95
191 39.1
26
5.57
2.46
0.150
45.41
20.73
8.97
191 7.3
Dec. 6
5.42
2.62
0.160
46.78
20.76
8.98
190 35.6
16
23 27 5.33
+ 2.86
+ 0.175
48.16
- 20.78
8.99
190 3.8 1
26
5.30
3.15
0.193
49.54
20.79
9.00
189 32.0
36
23 27 5.34
+ 3.41
+ 0.209
50.91
- 20.79
9.00
189 0.2
Mean Obli
quity, 1884.0, %
3°27'15".51
(Hansen).
•
Mean Obli
quity, 1884.0, %
3°27'15".i9
( Peters \
Daily Motion
Precession
Precession
for 1884.5 . .
. . 50".2i
S03 log 1.70122
376 log 9.13863
ofn,
_ 3M77
in a Solar Day
. . 0".l
Precession
in a Sidereal Dc
iy . . .
. . 0".l
372 log 9.13744
Sun's Meai
a Equatorial Hon
izontal Para
llax . 8".8
48 log 0.94685
_
PA R T 1 1
ASTRONOMICAL EPHEMERIS
FOR THE
MERIDIAN OF WASHINGTON
KPH 84—18—7
280 FORMULA FOR STAR-REDUCTIONS, 1884.
FORMULA FOB THE REDUCTION OF THE POSITIONS OF THE FIXED STARS, USING
THE NOTATION OF BESSEL, AND THE CONSTANTS OF PETERS AND STRUVE.
NOTATION.
r, the time, reckoned in units of one year, from the beginning of the fiesselian fictitious year,
(1883, December 3R227 = 1884, January 04.227, Washington mean time),
cr0, (Jot the star's mean right ascension and declination at the beginning of the fictitious year,
a, d, the star's apparent right ascension and declination at the time r,
(iy fi'y the annual proper motion in right ascension and declination,
0, the sun's true longitude,
ft, the longitude of the moon's ascending node,
u, the obliquity of the ecliptic,
r, the longitude of the sun's perigee,
r', the longitude of the moon's perigee,
<[ , the moon's mean longitude.
BESSELIAN STAB-NUMBERS.
A=*t — 0.34248 sin ft — 0.00011 sin (30-F)
-f 0.00410 sin 2 ft — 0.00005 sin 2 ( 0 — ft )
— 0.02521 sin 2 0 + O.dbOlO sin 2 (0 — T* )
+ 0.00293 sin (0 + 82° 9') + 0.00009 sin (2 T' — ft )
+ 0.00025 sin (2 0 — ft) + 0.00005 cos T',
— 0.00405 sin 2 <[ + 0.00004 sin 2 V
+ 0.00135 sin (<[ — r')
B = — #2239 cos ft — 00027 cos (3 0 — r)
+ 0.0895 cos 2 ft + 0.0067 cos (2 0 — ft)
— 0.5506 cos 2 0 + 0.0024 cos (2 r' — ft)
— 0.0092 cos (0 + 280° 560 — 0.0023 sin T'
— 0.0886 cos 2 d + 0.0008 cos 2 I"
C = — 20.4451 cos u cos 0
D = — 20.4451 sin 0
E = — 0.0461 sin ft + 0".0014 sin 2 ft — 0".0033 sin 2 0
Bessel's Star -Constant*,
a = 38.07242 -f- K33690 sin oto tan d0 = precession in right ascension
b = tV cos a© tan 60
c = fa cos qlq sec <J0
d = tV sin Oo sec 60
a' as 20".0534 cos oto = precession in declination
b' = — sin cr0
e' = tan a cos 60 — sin a© sin <J0
d' = cos Oo sin dc
Reduction to Apparent Position,
a = Oo + Tfi + Aa + Bb + Ce + Dd + E (in time)
d = d0 + ru' + Aa' + Bb' + Ce' + Dd' (in arc)
INDEPENDENT STAR-NUMBERS,
f = 46".0863 A + E (in arc) = 3».07242 A + fa E (in time)
£ sin G == B k Bin H = C . __
* cos G = 20".O534 ^ k cos H = D % ° ton w
Reduction to Apparent Position.
Bxflo+/+f/t + ^^sin(G+a)tan<J + ^ A sin (H+ a) seed (in time)
d = <J0 + ru1 + gcoa(G + a) + A cos (H + a) sin 6 + tcosd (in arc)
Notes. — (1) When only one or two apparent positions of a Btar are required, or when Bessel's
star-constants are not known with sufficient accuracy, the independent star-numbers
are more convenient. Otherwise, the Besselian star-numbers are more convenient.
(2) In using the star-constants of the British Association Catalogue, a, 6, c, d, a\ 6', e', <Z',
must be changed to c, d, a, 6, — c', — <{', — a', — b'y respectively.
BESSELIAN STAR-NUMBERS, 1884.
281
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
(8id. Hoar.)
Log .4.
Log J*.
LogC.
Log D.
Solar Day.
(Sid. Hoar.)
Log A.
Log B.
LogC.
Log D.
Jan. 0
+9.2549
+0.9381
-0.5236
+1.3036
Feb. 15
+9.4831
+0.9056
-1.1966
+1.0468
1
9.2619
0.9360
0.5643
1.3021
16
9.4844
0.9067
1.2015
1.0348
2
9.2671
0.9343
0.6010
1.3005
17
9.4867
0.9081
1.2062
1.0234
h 3
9.2713
0.9334
0.6351
1.2988
h ,8
9.4902
0.9094
1.2107
1.0094
(7.0) 4
9.2753
0.9334
0.6666
1.2969
(10.0) 19
9.4945
0.9102
1.2160
0.9959
5
+9.2799
+0.9342
-0.6958
+1.2948
20
+9.4994
+0.9101
-1.2191
+0.9818
6
9.2869
0.9356
0.7230
1.2926
21
9.5042
0.9090
1.2231
0.9671
7
9.2935
0.9373
0.7485
1.2903
22
9.5086
0.9070
1.2369
0.9518
8
9.3027
0.9388
0.7724
1.2878
23
9.5121
0.9044
1.2305
0.9358
9
9.3131
0.9397
0.7950
1.2851
24
9.5146
0.9016
1.2340
0.9190
10
+9.3240
+0.9398
-0.8163
+1.2833
25
+9.6161
+0.8991
-1.2373
+0.9015
11
9.3345
0.9390
0.8365
1.2794
26
9.5167
0.8972
1.2405
0.8831
12
9.3440
0.9373
0.8556
1.2763
27
9.5170
0.8962
1.2435
0.8637
13
9.3519
0.9350
0.8738
1.2730
26
9.5173
0.8963
1.2463
0.8433
14
9.3579
0.9324
0.8912
1.2695
29
9.5181
0.8974
1.2489
0.8217
16
+9.3620
+0.9300
-0.9077
+1.2659
Mar. l
+9.5199
+0.8990
-1.2515
+0.7988
16
9.3648
0.9281
0.9235
1.2621
2
9.6228
0.9008
1.2539
0.7746
17
9.3667
0.9371
0.9386
1.2582
3
9.5267
0.9033
1.2561
0.7489
18
9.3685
0.9270
0.9531
1.2541
4
9.6312
0.9031
1.2582
0.7214
19
9.3710
0.9277
0.9669
1.2498
5
9.5360
0.9030
1.2601
0.6919
<fi!!o)20
+9.3746
+0.9289
-0.9802
+1.2453
(11.0) 6
+9.5405
+0.9030
-1.2619
40.6602
21
9.3796
0.9303
0.9930
1.2407
7
9.5443
0.9001
1.2636
0.6259
23
9.3860
0.9314
1.0052
1.2358
8
9.5471
0.8978
1.2652
0.5884
23
9.3933
0.9318
1.0170
1.2308
9
9.5488
0.8954
1.2666
0.5472
24
9.4011
0.9313
1.0284
1.2255
10
9.5494
0.8935
1.2678
0.5015
25
+9.4085
+0.9298
-1.0393
+1.2201
11
+9.5492
40.8933
-1.2689
+0.4505
26
9.4151
0.9276
1.0498
1.2144
12
9.6487
0.8931
1.2699
0.3926
27
9.4205
0.9248
1.0600
1.2086
13
9.5482
0.8930
1.2708
0.3256
28
9.4245
0.9219
1.0607
1.2025
14
9.5484
0.8947
1.2715
0.2462
29
9.4273
0.9194
1.0791
1.1962
15
9.5495
0.8969
1.2721
0.1488
30
+9.4292
+0.9176
-1.0882
+1.1897
16
+9.5516
+0.8993
-1.2725
+0.0232
31
9.4308
0.9167
1.0970
1.1830
17
9.5546
0.9010
1.2728
9.8450
Feb. J
9.4326
0.9167
1.1054
1.1760
18
9.5582
0.9030
1.2730
+9.5391
2
9.4352
0.9175
1.1136
1.1687
19
9.5620
0.9031
1.2731
-7.9030
3
9.4390
0.9187
1.12H
1.1612
20
9.5665
0.9012
1.2731
9.5591
«M» 4
+9.4440
+0.9199
-1.1290
+1.1534
(19UO) 21
+9.5684
+0.8996
-1.2729
-9.8549
5
9.4501
0.9207
1.1363
1.1454
22
9.6705
0.8977
1.2726
0.0389
6
9.4568
0.9208
1.1434
1.1370
23
9.6717
0.8959
1.2721
0.1527
7
9.4635
0.9199
1.1502
1.1284
24
9.5721
0.8947
1.2715
0.2488
8
9.4696
0.9180
1.1568
1.1194
25
9.5721
0.8944
1.2707
0.3272
9
+9.4747
40.9155
-1.1631
+1.1101
26
+9.5722
+0.8961
-1.2699
-0.393?
10
9.4785
0.9125
1.1692
1.1006
27
9.5725
0.8968
1.2689
0.4509
11
9.4809
0.9097
1.1751
1.0906
28
9.5735
0.8992
1.2678
0.5015
12
9.4821
0.9073
1.1808
1.0802
29
9.5766
0.9019
1.2666
0.5466
13
9.4825
0.9058
1.1863
1.0695
30
9.5786
0.9045
1.2652
0.5874
14
+9.4837
+0.9052
-1.1916
+1.0584
31
+9.6824
+O.9066
-1.2637
-0.6245
15
+9.4831
+O.9056
-1.1966
+1.0468
32
+9.5866
+0.9077
-1.2621
-0.6585
*=H
h0."02
282
BESSELIAN STAR-NUMBERS, 1884.
FOR WASHINGTON MEAN MIDNIGHT.
Solar Bay.
(Sid. Hoar.)
LogX
Log B.
LogC.
Log D.
Solar Day.
(Sid. Hour.)
Log A.
Log B.
LogC.
Log 2).
Apr. 1
+9.5866
+0.9077
-1.2621
-0.6585
May 17
+9.6870
+0.9468
-1.0018
-1.2372
2
9.5907
0.9079
1.2603
0.6899
18
9.6882
0.9456
0.9901
1.2418
3
9.5943
0.9072
1.2584
0.7191
19
9.6892
0.9462
0.9779
1.2461
h *
9.5972
0.9060
1.2563
0.7463
h *°
9.6903
0.9477
0.9653
1.2503
(13.0) 5
9.5991
0.9046
1.2541
0.7718
(16.0) 21
9.6919
0.9500
0.9522
1.2544
6
+9.6001
+0.9034
-1/2518
-0.7957
22
+9.6941
+0.9527
-0.9385
-1.2583
7
9.6002
0.9029
1.2494
0.8182
23
9.6970
0.9555
0.9243
1.2620
8
9.6000
0.9033
1.2468
0.8395
24
9.7007
0.9580
0.9094
1.2655
9
9.5998
0.9048
1.2440
0.8597
25
9.7048
0.9599
0.8940
1.2689
10
9.6000
0.9071
1.2411
0.8788
26
9.7091
0.9609
0.8778
1.2722
11
+9.6009
+0.9100
-1.2381
-0.8970
27
+9.7133
+0.9610
-0.8609
-1.2753
12
9.6027
0.9131
1.2349
0.9143
28
9.7170
0.9603
0.8431
1.2783
13
9.6054
0.9158
1.2316
0.9309
29
9.7200
0.9592
0.8245
1.2812
14
9.6088
0.9179
1.2281
0.9467
30
9.7223
0.9581
0.8050
1.2839
15
9.6125
0.9191
1.2245
0.9618
31
9.7239
0.9572
0.7844
1.2864
16
+9.6161
+0.9193
-1.2207
-0.9763
June 1
+9.7250
40.9570
-0.7626
-1.2888
17
9.6193
0.9188
1.2167
0.9901
2
9.7259
0.9576
0.7396
1.2911
18
9.6218
0.9178
1.2126
1.0034
3
9.7269
0.9591
0.7152
1.2933
b 19
9.6236
0.9167
1.2084
1.0162
(17.0) 5
9.7283
0.9612
0.6891
1.2953
(14.0) 20
9.6246
0.9160
1.2039
1.0285
9.7303
0.9637
0.6614
1.2972
21
+9.6251
+0.9161
-1.1993
-1.0404
6
+9.7330
+0.9661
-0.6315
-1.2990
22
9.6254
0.9171
1.1945
1.0518
7
9.7362
0.9660
0.5994
1.3006
23
9.6261
0.9191
1.1896
1.0627
8
9.7398
0.9692
0.5646
1.3021
24
9.6274
0.9218
1.1844
1.0733
9
9.7436
0.9696
0.5267
1.3035
25
9.6295
0.9249
1.1791
1.0635
10
9.7472
0.9691
0.4850
1.3047
26
+9.6325
+0.9281
-1.1736
-1.0933
11
+9.7503
+0.9679
-0.4388
-1.3059
27
9.6363
0.9308
1.1679
1.1028
12
9.7529
0.9664
0.3868
1.3069
28
9.6405
0.9327
1.1620
1.1120
13
9.7548
0.9650
0.3274
1.3078
29
9.6448
0.9337
1.1558
1.1208
14
9.7563
0.9640
0.2590
1.3086
30
9.6488
0.9338
1.1495
1.1293
15
9,7575
0.9637
0.1771
1.3092
May 1
+9.6522
40.9332
-1.1430
-1.1376
16
+9.7587
+0.9642
-0.0765
-1.3097
2
9.6547
0.9323
1.1362
1.1456
17
9.7601
0.9655
9.9445
1.3101
3
9.6564
0.9315
1.1292
1.1533
18
9.7620
0.9674
9.7660
1.3104
4
9.6574
0.9311
1.1220
1.1607
h 19
9.7646
0.p694
-9.4150
1.3105
5
9.6579
0.9316
1.1146
1.1679
(18.0) 20
•9.7678
0.9713
+8.7300
1.3106
(lfth.O> 6
+9.6584
+0.9330
-1.1068
-1.1748
21
+9.7714
+0.9726
+9.5652
-1.3105
7
9.6592
0.9352
1.0988
1.1815
22
9.7753
0.9732
9.8328
1.3103
8
9.6604
0.9380
1.0905
1.1880
23
' 9.7792
0.9728
9.9966
1.3100
9
9.6624
0.9411
1.0820
1.1943
24
9.7827
0.9717
0.1154
1.3096
10
9.6652
0.9440
1.0732
1.2004
25
9.7856
0.9700
0.2078
1.3090
11
+9.6686
+0.9464
-1.0640
-1.2064
26
+9.7879
+0.9681
+0.2843
-1.3083
12
9.6725
0.9479
1.0545
1.2120
27
9.7696
0.9664
0.3493
1.3075
13
9.6764
0.9486
1.0447
1.2173
28
9.7908
0.9652
0.4056
1.3066
14
. 9.6799
0.9484
1.0345
1.2225
29
9.7917
0.9648
0.4552
1.3055
15
9.6830
0.9476
1.0240
1.2276
30
9.7926
0.9652
0.4999
1.3043
16
+9.6853
+0.9466
-1.0131
-1.2325
31
+9.7937
+0.9663
+0.5401
-1.3030
17
+9.6870
40.9458
-1.0018
-1.2372
32
+9.7952
+0.9679
+0.5767
-1.3016
.
*«H
- O."02
BESSELIAN STAR-NUMBERS, 1884.
283
FOR WASHINGTON MEAN MIDNIGHT,
SoUrDay.
(Sid. Hoar.)
Log A,
Log B.
Log a
Log D.
Solar Day.
(Bid. Hoar.)
Log A.
Logi*.
Log C.
Log D.
July 1
+9.7937
+0.9663
+0.5401
-1.3030
Aug. 16
+9.8752
+0.9456
+1.1846
-1.0729
2
9.7952
0.9679
0.5767
1.3016
17
9.8776
0.9441
1.1897
1.0623
3
9.7974
0.9696
0.6106
1.3001
18
9.8796
0.9419
1.1946
1.0515
h 4
9.8000
0.9709
0.6419
1.2984
h ,9
9.8811
0.9392
1.1993
1.0402
(19.0) 5
9.8030
0.9716
0.6709
1.2966
(33.0) 20
9.8821
0.9365
1.2039
1.0286
6
+9.8062
+0.9715
+0.6979
-1.2947
21
+9.8826
+0.9342
+1.2083
-1.0165
7
9.8093
0.9705
0.7233
1.2926
22
9.8828
0.9326
1.2125
1.0038
8
9.8121
0.9688
0.7472
1.2904
23
9.8828
0.9320
1.2166
0.9906
9
9.8144
0.9666
0.7697
1.2881
24
9.8829
0.9322
1.2205
0.9770
10
9.8161
0.9643
0.7910
1.2856
25
9.8832
0.9332
1.2243
0.9627
11
+9.8174
+0.9624
+0.8112
-1.2830
26
+9.8839
+0.9346
+1.2279
-0.9478
12
9.8183 f
0.9611
0.8304
1.2803
27
9.8851
0.9359
1.2315
0.9323
13
9.8192
0.9606
0.8486
1.2775
28
9.8866
0.9368
1.2346
0.9160
14
9.8202
0.9610
0.8660
1.2744
29
9.888(4
0.9370
1.2378
0.8990
15
9.6215
0.9620
0.8826
1.2713
30
9.8903
0.9363
1.2408
0.8810
16
+9.8234
+0.9634
+0.8985
-1.2680
31
+9.8921
+0.9348
+1.2437
-0.8622
17
9.6258
0.9647
0.9137
1.2646
8ept. l
9.8935
0.9326
1.2464
0.8425
18
9.8287
0.9656
0.9283
1.2610
2
9.8945
0.9301
1.2490
0.8217
19
9.8318
0.9657
0.9422
1.2572*
3
9.8950
0.9276
1.2515
0.7996
20
9.8349
0.9650
0.9557
1.2533
4
9.8952
0.9258
1.2538
0.7763
(90.0) 21
+9.8379
+0.9634
+0.9686
-1.2493
cmlo> 5
+9.8952
+0.9248
+1.2559
-0.7514
22
9.8404
0.9612
0.9810
1.2451
6
9.6952
0.9247
1.2580
0.7250
23
9.8424
0.9587
0.9930
1.2407
7
9.8954
0.9256
1.2599
0.6966
24
9.8438
0.9562
1.0046
1.2361
8
9.8959
0.9271
1.2617
0.6661
25
9.8446
0.9542
1.0157
1.2314
9
9.8969
0.9288
1.2634
0.6332
26
+9.8452
+0.9529
+1.0264
-1.2265
10
+9.8984
+0.9304
+1.2649
-0.5973
27
9.6456
0.9524
1.0368
1.2215
11
9.9002
0.9315
1.2663
0.5580
28
9.8462
0.9528
1.0467
1.2162
12
9.9022
0.9318
1.2676
0.5147
29
9.8471
0.9538
1.0564
1.2108
13
9.9042
0.9311
1.2687
0.4665
30
9.8485
0.9551
1.0657
1.2051
14
9.9060
0.9297
1.2697
0.4120
31
+9.8503
+0.9561
+1.0747
-1.1993
15
+9.9073
+0.9277
+1.2705
-0.3496
Aug. 1
9.8526
0.9566
1.0834
1.1933
16
9.9082
0.9255
1.2713
0.2764
2
9.8550
0.9563
1.0919
1.1870
17
9.9086
0.9236
1.2719
0.1881
3
9.8574
0.9551
1.1000
1.1806
18
9.9086
0.9224
1.2724
0.0770
4
9.8597
0.9531
1.1079
1.1739
19
9.9084
0.9221
1.2727
9.9269
0M..O) 5
+9.8615
+0.9505
+1.1156
-1.1670
(0.0) 20
+9.9083
+0.9228
+1.2730
-9.6955
6
9.8628
0.9478
1.1229
1.1598
21
9.9083
0.9244
1.2731
-9.1673
7
9.8637
0.9453
1.1301
1.1524
22
9.9086
0.9264
1.2731
+9.3075
8
9.8642
0.9434
1.1370
1.1446
23
9.9094
0.9286
1.2730
9.7427
9
9.8645
0.9423
1.1435
1.1367
24
9.9106
0.9305
1.2727
9.9552
10
+9.8649
+0.9421
+1.1501
-1.1285
25
+9.9122
+0.9318
+1.2723
+0.0972
11
9.8656
0.9427
1.1564
1.1200
26
9.9138
0.9322
1.2718
0.2041
12
9.8667
0.9438
1.1624
1.1112
27
9.9154
0.9317
1.2711
0.2900
13
9.8683
0.9450
1.1683
1.1022
28
9.9167
0.9305
1.2703
0.3616
14
9.8704
0.9459
1.1739
1.0928
29
9.9177
0.9288
1.2694
0.4229
15
+9.8727
+0.9462
+1.1794
-1.0830
30
+9.9163
+0.9272
+1.2684
40.4764
16
+9.8752
+0.9456
+1.1846
-1.0729
31
+9.9185
+0.9259
+1.2672
+0.5241
■B = H
h 0."02
284
BESSELIAN STAR-NUMBERS, 1884.
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
(Sid. Hour.)
Log A.
Log B.
LogC.
LogD.
Solar Day.
(Sid. Hoar.)
Log A.
Log B.
LogC.
LogD.
Oct. 1
+9.9185
+0.9259
+1.2672
+0.5241
Nov. 16
+9.9642
+0.9696
+1.0283
+1.2256
2
9.9185
0.9254
1.2659
0.5669
17
9.9656
0.9723
1.0170
1.2308
3
9.9184
0.9259
1.2645
0.6058
h 18
9.9674
0.9746
1.0053
1.2358
h *
9.9184
0.9273
1.2629
0.6414
(4.0) 19
9.9694
0.9762
0.9931
1.2406
(1.0) 5
9.9188
0.9296
1.2612
0.6742
20
9.9715
0.9769
0.9805
1.2453
6
+9.9196
+0.9321
+1.2593
+0.7045
21
+9.9734
+0.9768
+0.9672
+ 1.2497
7
9.9209
0.9347
1.2574
0.7328
22
9.9751
0.9761
0.9535
1.2540
8
9.9226
0.9368
1.2552
0.7593
23
9.9765
0.9750
0.9391
1.2581
9
9.9245
0.9382
1.2530
0.7842
24
9.9775
0.9741
0.9241
1.2620
10
9.9265
0.9387
1.2506
0.8075
25
9.9782
0.9737
0.9084
1.2658
11
+9.9283
+0.9383
+1.2480
+0.8296
26
+9.9788
+0.9740
+0.8921
+1.2694
12
9.9299
0.9373
1.2453
0.8505
27
9.9794
0.9751
. 0.8749
1.2728
13
9.9310
0.9361
1.2425
0.8703
28
9.9802
0.9769
. 0.8568
1.2761
14
9.9316
0.9349
1.2395
0.8891
29
9.9813
0.9792
0.8379
1.2792
15
9.9319
0.9343
1.2363
0.9070
30
9.9828
0.9817
0.8179
1.2821
16
+9.9319
+0.9345
+1.2330
+0.9242
Dec. 1
+9.9847
+0.9840
+0.7968
+1.2849
17
9.9318
0.9357
1.2295
0.9405
2
9.9869
0.9858
0.7745
1.2876
18
9.9320
0.9378
1.2259
0.9561
3
9.9893
0.9868
0.7508
1.2901
h 19
9.9324
0.9404
1.2221
0.9711
h 4
9.9916
0.9869
0.7255
1.2924
(9.0) 20
9.9332
0.9433
1.2181
0.9855
(5.0) 5
9.9938
0.9863
0.6986
1.2946
21
+9.9344
+0.9460
+1.2140
+0.9993
6
+9.9957
+0.9851
+0.6697
+1.2967
22
9.9360
0.9482
1.2097
1.0125
7
9.9971
0.9838
0.6386
1.2986
23
9.9378
0.9496
1.2052
1.0252
8
9.9982
0.9827
0.6049
1.3004
24
9.9396
0.9500
1.2005
1.0374
9
9.9990
0.9821
0.5683
1.3020
25
9.9412
0.9497
1.1956
1.0492
10
9.9996
0.9823
0.5282
1.3035
26
+9.9425
+0.9489
+1.1906
+1.0606
11
+0.0003
+0.9833
+0.4838
+1.3048
27
9.9434
0.9479
1.1853
1.0715
12
0.0011
0.9849
0.4341
1.3060
28
9.9440
0.9472
1.1799
1.0820
13
0.0022
0.9869
0.3778
1.3071
29
9.9443
0.9471
1.1742
1.0922
14
0.0036
0.9890
0.3132
1.3080
30
9.9445
0.9478
1.1683
1.1020
15
0.0054
0.9907
0.2368
1.3088
31
+9.9448
+0.9495
+1.1622
+1.1115
16
+0.0074
+0.9918
+0.1440
+1.3094
Nov. 1
9.9454
0.9519
1.1559
1.1206
17
0.0095
0.9921
0.0255
1.3099
2
9.9463
0.9548
1.1494
1.1295
18
0.0115
0.9916
9.8619
1.3103
h 3
9.9477
0.9577
1.1426
1.1380
h 19
0.0133
0.9903
9.5957
1.3105
(3.0) 4
9.9495
0.9604
1.1356
1.1462
(6.0) 20
0.0148
0.9887
+8.7853
1.3106
5
+9.9516
+0.9623
+1.1283
+1.1542
21
+0.0160
+0.9870
-9.4376
+1.3105
6
9.9538
0.9635
1.1208
1.1619
22
0.0169
0.9856
9.7825
1.3104
7
9.9560
0.9618
1.1130
1.1693
23
0.0176
0.9848
9.9728
1.3101
8
9.9579
0.9633
1.1049
1.1765
24
0.0183
0.9848
0.1045
1.3096
9
9.9594
0.9625
1.0965
1.1834
25
0.0191
0.9856
0.2055
1.3090
10
+9.9605
+0.9617
+ 1.0877
+1.1901
26
+0.0201
+0.9870
-0.2872
+1.3083
11
9.9612
0.9612
1.0787
1.1966
27
0.0214
0.9886
0.3558
1.3074
12
9.9617
0.9614
1.0694
1.2028
28
0.0231
0.9902
0.4148
1.3064
13
9.9621
0.9624
1.0597
1.2088
29
0.0251
0.9913
0.4668
1.3052
14
9.9625
0.9643
1.0496
1.2146
30
0.0273
0.9917
0.5130
1.3039
15
+9.9632
+0.9668
+1.0392
+1.2202
31
+0.0296
+0.9913
-0.5548
+1.3025
16
+9.9642
+0.9696
+1.0283
+1.2256
32
+0.0316
+0.9900
-0.5925
+1.3009
B = -\
- 0."01
INDEPENDENT STAR-NUMBERS, 1884.
285
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
/
a
H
(Sid. Hour.)
T
Log p.
Log A.
i
Log i.
In Arc.
In Time.
In Arc
In Time.
In Arc.
In Time.
y
//
8
O /
h m
O /
h m
/t
Jan. 0
0.0007
+ 8.32
+0.555
67 22
4 29.5
350 35
23 22.3
+0.9734
+1.3095
-1.45
-0.1606
1
0.0035
8.45
0.563
66 59
4 27.9
349 38
23 18.6
0.9720
1.3093
1.59
0.2015
2
0.0062
8.55
0.570
66 40
4 26.6
348 42
23 14.8
0.9714
1.3090
1.73
0.2387
3
0.0090
8.63
0.575
66 25
4 25.6
347 45
23 11.0
0.9713
1.3088
1.87
0.2726
4
0.0117
8.71
0.581
66 13
4 24.9
346 49
23 7.0
0.9719
1.3085
2.01
0.3040
(7.0) 5
0.0145
-1- 8.80
+0.587
66 2
4 24.1
345 52
23 3.5
+0.9733
+1.3082
-2.15
-0.3333
6
0.0172
8.93
0.595
65 49
4 23.2
344 55
22 59.7
0.9755
1.3078
2.29
0.3605
7
0.0199
9.09
0.606
65 30
4 22.0
343 58
22 55.9
0.9783
.1.3075
2.43
0.3660
8
0.0227
9.28
0.619
65 8
4 20.5
343 1
22 52.1
0.9810
1.3071
2.57
0.4099
9
0.0254
9.50
0.633
64 39
4 18.6
342 4
22 48.3
0.9837
1.3067
2.71
0.4325
10
0.0281
+ 9.74
+0.649
64 6
4 16.4
341 7
22 44.5
+0.9658
+1.3063
-2.84.
-0.4537
11
0.0309
9.98
0.665
63 30
4 14.0
340 10
2240.7
0.9872
1.3059
2.98
0.4739
12
0.0336
10.20
0.680
62 54
4 11.6
33913
22 36.9
0.9878
1.3055
3.11
0.4931
13
0.0363
10.39
0.693
62 21
4 9.4
338 15
22 33.0
0.9876
1.3050
3.24
0.5113
14
0.0391
10.53
0.702
61 53
4 7.6
337 18
22 29.2
0.9869
1.3046
3.38
0.5286
15
0.0418
+10.63
40.709
61 32
4 6.1
336 20
22 25.3
+0.9860
+1.3041
-3.51
-0.5452
16
0.0446
10.70
0.713
61 Iff
4 5.1
335 22
22 21.5
0.9852
1.3036
3.64
0.5010 1
17
0.0473
10.75
0.717
61" 6
4 4.4
334 24
22 17.6
0.9848
1.3031
3.77
0.5761 '
18
0.0500
10.79
0.719
61 0
4 4.0
333 26
22 13.7
0.9852
1.3025
3.90
0.5906!
-19
0.0528
10.85
0.723
60 54
4 3.6
332 28
22 9.9
0.9863
1.3020
4.02
0.6044
(8.0) 20
0.0555
+10.94
+0.729
60 46
4 3.1
33130
22 6.0
+0.9681
+1.3015
-4.15
-0.6177
21
0.0582
11.07
0.738
60 34
4 2.2
330 31
22 2.1
0.9904
1.3009
4.27
0.6304
22
0.0610
11.23
0.749
60 16
4 1.0
329 33
2158.2
0.9927
1.3003
4.39
0.6426
23
0.0637
11.42
0.761
59 52
3 69.5
328 34
2154.3
0.9948
1.2997
4.51
0.6544
24
0.0665
1K63
0.775
59 24
3 57.6
327 35
2160.3
0.9964
1.2991
4.63
0.6G58
25
0.0692
+11.83
+0.789
58 53
3 55.5
326 36
21 46.4
+0.9973
+1.2985
-4.75
-0.6767
26
0.0719
12.01
0.801
58 21
3 63.4
325 37
21 42.5
0.9975
1.2979
4.86
0.6872
27
0.0747
12.16
0.811
57 52
3 51.5
324 37
2138.5
0.9970
1.2973
4.98
0.6973
28
0.0774
12.27
0.818
57 28
3 49.9
323 38
2134.5
0.9961
1.2967
5.09
0.7071
29
0.0802
12.35
0.823
57 9
3 48.6
322 38
2130.5
0.9951
1.2960
5.21
- 0.7165
30
0.0829
+12.41
+0.827
56 55
3 47.7
32138
2126.5
+0.9944
+1.2954
-5.32
-0.7256
31
0.0856
12.45
0.830
56 46
3 47.0
320 38
2122.5
0.9942
1.2947
5.42
0.7344
Feb. 1
0.0884
12.50
0.833
56 40
3 46.6
319 38
21 18.5
0.9948
1.2941
5.53
0.7428
2
0.0911
12.58
0.839
56 33
3 46.2
318 38
21 14.5
0.9961
1.2934
6.64
0.7509
3
0.0938
12.69
0.846
56 24
3 45.6
317 37
21 10.5
0.9981
1.2927
5.74
0.7588
(0^0) 4
0.0966
+12.84
+0.856
56 10
3 44.6
316 37
21 .6.5
+1.0005
+1.2921
-5.84
-0.7665
5
0.0993
13.02
0.868
55 50
3 43.4
315 36
21 2.4
1.0030
1.2914
5.94
0.7738
6
0.1021
13.22
0.881
55 26
3 41.7
314 35
20 58.3
1.0051
1.2908
6.04
0.7808
7
0.1048
13.42
0.695
54 58
3 39.8
313 34
20 54.2
1.0067
1.2901
6.13
0.7876
8
0.1075
13.61
0.907
54 28
3 37.9
312 32
20 60.1
1.0075
1.2894
6.23
0.7943
9
0.1103
+13.77
+0.918
53 59
3 36.0
311 31
20 46.1
+1.0076
+1.2888
-6.32
-0.8006
10
0.1130
13.90
0.926
53 34
3 34.2
310 29
20 42.0
1.0070
1.2881
6.41
0.8067
11
0.1158
13.97
0.931
53 14
3 32.9
309 28
20 37.9
1.0060
1.2875
6.49
0.8125
12
0.1185
14.01
0.934
53 0
3 32.0
308 26
20 33.7
1.0049
1.2868
6.58
0.8182
13
0.1212
14.02
0.935
52 53
3 31.5
307 23
20 29.5
1.0041
1.2862
6.66
0.8237
14
0.1240
+14.03
+0.935
52 50
3 31.4
306 21
20 25.4
+1.0038
+1.2855
-6.74
-0.8290
15 0.1267
+14.04
+0.936
52 50
3 31.3
305 19
20 21.3
+1.0042
+ 1.2849
-6.82
-0.8341
286
INDEPENDENT STAR-NUMBERS, 1884.
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
(Sid. Hour.)
T
/
0
H
Log£.
Log*.
t
Logi.
In Arc.
In Time.
In Arc.
In Time.
In Arc.
In Time.
Feb. 15
y
0.1267
+14.04
+0.936
O /
52 50
h m
3 31.3
30519
h m
20 21.3
+1.0042
+1.2849
-6.82
-0.8341
16
0.1294
14.08
0.939
52 50
3 31.3
304 16
20 17.1
1.0054
1.2843
6.90
0.8390
17
0.1322
14.16
0.944
52 46
3 31.1
303 13
20 12.9
1.0071
1.2837
6.98
0.8436
h ,8
0.1349
14.27
0.951
52 38
3 30.5
30210
20 8.7
1.0092
1.2831
7.05
0.8481
(10.0) 19
0.1377
14.41
0.961
52 24
3 29.6
301 7
20 4.5
1.0113
1.2825
7.12
0.8525
20
0.1404
+14.58
+0.972
52 5
3 28.3
300 4
20 0.3
+1.0130
+1.2819
-7.19
-0.8566
21
0.1431
14.74
0.983
51 42
3 36.8
299 I
19 56.1
1.0142
1.2814
7.25
0.8606
22
0.1459
14.89
0.993
51 18
3 25.2
297 58
19 51.9
1.0147
1.2808
7.32
0.8644
23
0.1486
15.01
1.001
50 54
3 23.6
296 54
19 47.6
1.0146
1.2803
7.38
0.8680
24
0.1513
15.10
1.007
50 34
3 22.2
295 50
19 43.3
1.0139
1.2798
7.44
0.8715
25
0.1541
+15.15
+1.010
50 18
3 21.2
294 46
19 39.1
+1.0129
+1.2793
-7.50
-0.8748
26
0.1568
15.17
1.011
50 8
3 20.6
293 42
19 34.8
1.0121
1.2788
7.55
0.8779
27
0.1596
15.18
1.012
50 4
3 20.2
292 38
19 30.5
1.0116
1.2783
7.60
0.8809
28
0.1623
15.19
1.013
50 3
3 20.2
291 34
19 26.3
1.0118
1.2779
7.65
0.8838
29
0.1650
15.22
1.015
50 3
3 20.2
290 30
19 22.0
1.0128
1.2774
7.70
0.8865
Mar. 1
0.1678
+15.28
+1.019
50 3
3 20.2
289 26
19 17.7
+1.0144
+1.2770
-7.75
-0.8890
2
0.1705
15 38
1.025
49 58
3 19.9
28821
19 13.4
1.0167
1.2766
7.79
0.8914
3
0.1732
15.52
1.034
49 49
3 19.3
287 17
19 9.1
1.0192
1.2762
7.83
0.8936
4
0.1760
15.68
1.045
49 35
3 18.3
286 12
19 4.8
1.0215
1.2758
7.86
0.8957
5
0.1787
15.85
1.057
49 16
•3 17.0
285 7
19 0.5
1.0235
1.2755
7.90
0,8977
(11*0) 6
0.1815
+16.02
+1.068
48 54
3 15.6
284 3
18 56.2
+1.0249
+1.2752
-7.93
-0.8995
7
0.1842
16.16
1.077
48 32
3 14.1
282 58
18 51.9
1.0255
1.2749
7.96
0.9012
* 8
0.1869
16.27
1.085
48 12
3 12.8
28153
18 47.5
1.0254
1.2746
7.99
0.9027
9
0.1897
16.33
1.089
47 56
3 11.7
280 48
18 43.2
1.0248
1.2743
8.02
0.9041
10
0.1924
16.35
1.090
47 46
3 11.0
279 43
18 38.9
1.0240
1.2741
8.04
0.9053
11
0.1951
+16.34
+1.089
47 42
3 10.8
278 38
18 34.5
+1.0233
+1.2739
-8.06
-0.9064
12
0.1979
16.32
1.088
47 43
3 10.9
277 33
18 30.2
1.0230
1.2737
8.08
0.9074
13
0.2006
16.31
1.088
47 48
3 11.2
276 28
18 25.9
1.0233
1.2736
8.10
0.9082
14
0.2034
16.31
1.089
47 54
3 11.6
275 23
18 21.5
1.0243
1.2734
8.11
0.9089
15
0.2061
16.35
1.090
47 59
3 11.9
27418
18 17.2
1.0260
1.2733
8.12
0.9095
16
0.2088
+16.43
+1.095
47 59
3 12.0
27313
18 12.9
+1.0282
+1.2732
-8.13
-0.9100
17
0.2116
16.55
1.103
47 55
3 11.6
272 8
18 8.5
1.0305
1.2732
8.13
0.9103
18
0.2143
16.68
1.112
47 45
3 11.0
271 3
18 4.2
1.0327
1.2731
8.14
0.9105
19
0.2171
16.83
1.122
47 30
3 10.0
269 58
17 59.9
1.0344
1.2731
8.14
0.9106
20
0.2198
16.97
1.131
47 13
3 8.8
268 53
17 55.6
1.0356
1.2731
8.14
0.9105
(12U0) 21
0.2225
+17.08 ! +1.139
46 55
3 7.6
267 49
17 51.3
+1.0361
+1.2732
-8.13
-0.9103
22
0.2253
17.16
1.144
46 39
3 6.6
266 44
17 46.9
1.0361
1.2732
8.13
0.9099
23
0.2280
17.21
1.147
46 27
3 5.8
265 39
17 42.6
1.0357
1.2733
8.12
0.9095
24
0.2307
17.23
1.149
46 21
3 5.4
264 35
17 38.3
1.0353
1.2734
8.11
0.9089
25
0.2335
17.22
1.148
46 19
3 5.3
263 30
17 34.0
1.0351
1.2736
8.10
0.9082
26
0.2362
+17.22
+1.148
46 22
3 5.5
262 25
17 29.7
+1.0355
+ 1.2737
-8.08
-0.9074
27
0.2390
17.24
1.149
46 27
3 5.8
26121
17 25.4
1.0365
1.2739
8.06
0.9064
28
0.2417
17.28
1.152
46 33
3 6.2
260 17
17 21.1
1.0383
1.2741
8.04
0.9053
29
0.2444
17.36
1.157
46 36
3 6.4
259 13
17 16.8
1.0407
1.2743
8.02
0.9040
30
0.2472
17.48
1.165
46 34
3 6.2
258 8
17 12.5
1.0435
1.2746
7.99
0.9026
31
0.2499
+17.63 +1.175
46 27
3 5.8
257 4
17 8.3
+1.0463
+1.2748
-7.96
-0.9011
32
0.2526
+17.81 1 +1.187
46 15
3 5.0
256 0
17 4.0
+1.0489
+1.2751
-7.93
-0.8995
INDEPENDENT STAR-NUMBERS, 1884.
287
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
(Sid. Hoor.)
T
/
a
R
**gg.
Log A.
i
Log*.
In Arc.
In Time.
In Axe.
In Time.
In Are.
In Time.
Apr.
1
6.2526
+17.81
+1.187
o /
46 15
h m
3 5.0
O /
256 0
h m
17 4.0
+1.0489
+1.2751
-7.93
-0.8995
2
0.2554
17.98
1.199
45 59
3 4.0
254 57
16 59.8
1.0510
1.2755
7.90
0.8977
3
0.2581
18.13
1.209
45 42
3 2.8
253 53
16 55.5
1.0525
1.2758
7.87
0.8958
h
4
0.2609
18.25
1.217
45 26
3 1.7
252 49
16 51.3
1.0532
1.2761
7.83
0.8938
(13.0
1 5
0.2636
18.33
1.222
45 13
3 0.8
25146
16 47.1
1.0535
1.2765
7.79
0.8916
6
0.2663
+18.37
+1.225
45 5
3 0.3
250 43
16 42.9
+1.0533
+1.2769
-7.75
-0.8893
7
0.2691
18.37
1.225
45 2
3 0.1
243 40
16 38.7
1.0532
1.2773
7.70
0.8868
8
0.2718
18.36
1.224
45 4
3 0.3
248 37
16 34.5
1.0533
1.2778
7.66
.0.8842
9
0.2746
18.35
1.223
45 11
3 0.7
247 34
16 30.3
1.0539
1.2782
7.61
0.8815
10
0.2773
18.36
1.224
45 20
3 1.3
246 32
16 26.1
1.0552
1.2787
7.56
0.8786
11
0.2800
+18.40
+1.227
45 27
3 1.8
245 30
16 22.0
+1.0571
+1.2781
-7.51
-0.8756
12
0.2828
18.48
1.232
45 32
3 2.2
244 27
16 17.8
1.0595
1.2796
7.45
0.8724
13
0.2855
18.59
4.239
45 32
3 2.2
243 25
16 13.7
1.0623
1.280]
7.40
0.8691
14
0.2883
18.74
1.249
45 27
3 1.8
242 23
16 9.5
1.0650
1.2806
7.34
0.8656
15
0.2910
18.90
1.260
45 17
3 1.1
24122
16 5.4
1.0674
1.2812
7.28
0.8620
16
0.2937
+19.06
+1.271
45 4
3 0.2
240 20
16 1.3
+1.0694
+1.2817
-7.21
-0.8582 !
17
0.2965
19.20
1.260
44 49
2 59.3
239 19
15 57.3
1.0707
1.2823
7.15
0.8543
18
0.2992
19.31
1.287
44 35
2 58.4
238 18
15 53.2
1.0714
1.2829
7.08
0.8501
h
19
0.3019
19.39
1.292
44 24
2 57.6
237 17
15 49.1
1.0718
1.2834
7.01
0.8458
(14.0) 20
0.3047
19.43
1.295
44 18
2 57.2
236 16
15 45.1
1.0720
1.2840
6/94
0.8414
21
0.3074
+19.45
+1.297
44 16
2 57.0
235 15
1541.1
+1.0723
+1.2846
-6.87
-0.8368
22
0.3101
19.47
1.298
44 19
2 57.2
234 15
15 37.0
1.0730
1.2852
6.79
0.H320
23
0.3129
19.50
1.300
44 24
2 57.6
233 15
15 33.0
1.0742
1.2858
6.71
0.8270
24
0.3156
19.56
1.304
44 29
2 58.0
23215
15 29.0
1.0763
1.2864
6.63
0.8218
25
0.3184
19.65
1.310
44 33
2 58.2
231 15
15 25.0
1.0789
1.2870
6.55
0.8166
26
0.3211
+19.79
+1.319
44 34
2 58.2
230 16
15 21.1
+1.0820
+1.2877
-6.47
-0.8111
27
0.3238
19.96
1.331
44 29
2 58.0
22917
15 17.1
1.0852
1.2883
6.39
0.8053
28
0.3266
20.16
1.344
44 20
2 57.4
228 18
15 13.2
1.0883
1.2889
6.30
0.7994
29
0.3293
20.36
1.357
44 7
2 56.5
227 19
15 9.3
1.0909
1.2895
6.21
0.7934
30
0.3320
20.54
1.369
43 52
2 55.5
226 20
15 5.3
1.0931
1.2902
6.12
0.7871
May
1
0.3348
+20.70
+1.380
43 36
2 54.4
225 21
15 1.4
+1.0946
+ 1.2908
-6.03
-0.7805
2
0.3375
20.82
1.388
43 23
2 53.5
224 23
14 57.5
1.0955
1.2914
5.94
0.7737
3
0.3403
20.91
1.394
43 13
2 52.8
223 25
14 53.7
1.0960
1.2921
5.64
0.7667
4
0.3430
20.95
1.397
43 7
2 52.5
222 27
14 49.8
1.0963
1.2927
5.75
0.7595"
5
0.3457
20.98
1.399
43 7
2 52.5
221 29
14 45.9
1.0968
1.2933
5.65
0.7520
(15.0) 6
0.3485
+21.00
+1.400
43 11
2 52.7
220 32
14 42.1
+1.0977
+1.2940
^5.55
-0.7443
7
0.3512
21.04
1.403
43 16
2 53.1
219 34
14 38.3
1.0992
1.2946
5.45
0.7363
8
0.3540
21.10
1.407
43 23
2 53.5
218 37
14 34.5
1.1011
1.2952
5.35
0.7281
9
0.3567
21.20
1.413
43 27
2 53.8
217 40
14 30.7
1.1037
1.2958
5.24
0.7IU5
•
10
0.3594
21.33
1.422
43 28
2 53.8
216 43
14 26.9
1.1066
1.2964
5.14
0.7106
11
0.3622
+21.50
+1.433
43 24
2 53.6
2i5 47
14 23.1
+ 1.1095
+1.2970
-5.03
-0.7015
12
0.3649
21.69
1.446
43 14
2 53.0
214 50
14 19.3
1.1122
1.2976
4.92
0.6920
13
0.3676
21.89
1.459
43 1
2 52.1
213 54
14 15.6
1.1146
1.2982
4.81
0.6822
14
0.3704
22.07
1.471
42 46
2 51.1
212 58
14 11.9
1.1164
1.2988
4.70
0.6721
15
0.3731
22.22
1.481
42 31
2 50.1
212 2
14 8.1
1.1177
1.2994
4.59
0.6615
16
0.3759
+22.34
+1.489
42 18
2 49.2
211 6
14 4.4
+1.1185
+1.2999
-4.47
-0.6506 i
17
0.3786
+22.43
+ 1.495
42 8
2 48.6
210 II
14 0.7
+1.1191
+1.3005
-4.36
-0.6393 j
288
INDEPENDENT STAR-NUMBERS, 1884.
FOE WASHINGTON MEAN MIDNIGHT.
Solar Day.
(Sid. Hour.)
T
/
G
H
I**?.
Log*.
i
Log*.
In Arc.
In Time.
In Arc.
In Time.
In Are.
In Time,
May 17
y
0.3786
+22.43
+1.495
O /
42 8
h m
9 48.6
o /
21011
h m
14 0.7
+1.1191
+1.3005
-4.36
-0.6393
18
0.3813
22.49
1.499
42 3
2 48.2
209 15
13 57.0
1.1197
1.3010
4.24
0.6276
19
0.3841
22.55
1.503
42 2
2 48.1
208 20
13 53.3
1.1205
1.3016
4.12
0.6154 '
h »
0.3868
22.60
1.507
42 3
2 48.2
207 25
13 49.7
1.1218
1.3021
4.01
0.6028!
(16.0) 21
0.3895
22.68
1.512
42 6
2 48.4
206 30
13 46.0
1.1237
1.3026
3.89
0.5896
22
0.3923
+22.80
+1.520
42 8
2 48.5
205 35
1342.3
+1.1261
+1.3031
-3.77
-0.5760
23
0.3950
22.96
1.531
42 7
2 48 5
204 41
13 38.7
1.1290
1.3036
3.64
0.5617
24
0.3978
23.15
1.543
42 3
2 48.2
203 46
13 35.1
1.1321
1.3040
3.52
0.5469
25
0.4005
23.37
1.558
41 54
2 47.6
202 52
13 31.5
1.1352
1.3045
3.40
0.5314
26
0.4032
23.60
1.573
41 41
2 46.7
20158
13 27.9
1.1381
1.3049
3.27
0.5152
27
0.4060
+23.83
+1.589
41 25
2 45.7
201 4
13 24.3
+1.1404
+1.3054
-3.15
-0.4963
28
0.4087
24.03
1.602
41 8
2 44.5
200 10
13 20.7
1.1421
1.3058
3.02
0.4805
29
0.4114
24.20
1.613
40 51
2 43.4
199 16
13 17.1
1.1435
1.3062
2.90
0.4619
30
0.4142
24.33
1.622
40 38
2 42.5
198 22
13 13.5
1.1443
1.3065
2.77
0.4424 «
31
0.4169
24.42
1.628
40 28
2 41:9
197 28
13 9.9
1.1449
1.3069
2.64
0.4218
June 1
0.4197
+24.48
+1.632
40 23
2 41.6
196 35
13 6.3
+1.1454
+1.3073
-2.51
-0.4001 j
2
0.4224
24.53
1.635
40 22
2 41.5
195 41
13 2.7
1.1462
1.3076
2.38
0.3771
3
0.4251
24.59
1.639
40 24
2 41.6
194 48
12 59.2
1.1474
1.3079
2.25
0.3527
h «
0.4279
24.67
1.645
40 27
2 41.8
193 55
12 55.7
1.1491
1.3082
2.12
0.3266
(17.0) 5
0.4306
24.78
1.652
40 29
2 41.9
193 2
12 52.1
1.1513
1.3085
1.99
0.2988
6
0.4334
+24.93
+1.662
40 28
2 41.8
192 9
12 48.6
+1.1539
+1.3088
-1.86
-0.2691
7
0.4361
25.12
1.675
40 22
2 41.5
191 16
12 45.1
1.1566
1.3090
1.73
0.2370
8
0.4388
25.33
1.689
40 13
2 40.9
190 23
12 41.5
1.1592
1.3092
1.59
0.2022
9
0.4416
25.55
1.703
40 0
2 40.0
189 30
12 38.0
1.1615
1.3094
1.46
0.1642
10
0.4443
25.76
1.717
39 44
2 38.9
188 37
12 34.5
1.1634
1.3096
1.33
0.1224
11
0.4470
+25.95
+1.730
39 27
2 37.8
167 44
12 30.9
+1.1648
+1.3098
-1.19
-0.0760
12
0.4498
26.10
1.740
39 12
2 36.8
186 51
12 27.4
1.1658
1.3100
1.06
0.0241
13
0.4525
26.22
1.748
38 58
2 35.9
185 58
12 23.9
1.1663
1.3101
0.92
9.9646
14
0.4553
26.31
1.754
38 49
2 35.2
185 6
12 20.4
1.1669
1.3103
0.79
9.8962
15
0.4580
26.38
1.759
38 43
2 34.9
184 13
12 16.9
1.1675
1.3104
0.65
9.8146
16
0.4607
+26.45
+1.763
38 40
2 34.7
183 21
12 13.4
+1.1685
+ 1.3104
-0.52
-9.7138
17
0.4635
26.54
1.769
38 40
2 34.7
182 28
12 9.9
1.1698
1.3105
0.38
9.5814
18
0.4662
26.66
1.778
38 40
* 2 34.6
18136
12 6.4
1.1717
1.3105
0.25
9.3913
h ,9
0.4689
26.82
1.788
38 38
2 34.5
180 43
12 2.9
1.1741
1.3106
-0.11
-9.0448
(18.0) 20
0.4717
27.02
1.801
38 33
2 34.2
179 51
11 59.4
1.1767
1.3106
+0.02
+8.3892
21
0.4744
+27.24
+1.816
38 24
2 33.6
178 58
1 1 55.9
+1.1795
+1.3106
+0.16
+9.2040
22
0.4772
27.49
1.833
38 11
2 32.7
178 6
11 52.4
1.1821
1.3106
0.30
9.4702
23
0.4799
27.73
1.849
37 55
2 31.6
177 13
1148.9
1.1843
1.3105
0.43
9.6341
24
0.4826
27.96
1.864
37 37
2 30.5
176 21
11 45.4
1.1861
1.3104
0.57
9.7527
25
0.4854
28.15
1.877
37 19
2 29.3
175 28
11 41.9
1.1873
1.3103
0.70
9.8457
26
0.4881
+28.30
+1.887
37 3
2 26.2
174 35
11 38.3
+ 1.1881
+ 1.3102
+0.84
+9.9220
27
0.4909
28.41
1.894
36 50
2 27.4
173 43
1134.8
1.1886
1.3101
0.97
9.9869
28
0.4936
28.48
1.899
36 41
2 26.8
172 50
11 31.3
1.1889
1.3099
1.10
0.0433
29
0.4963
28.54
1.902
36.36
2 26.4 j 171 57 11 27.8
1.1893
1.3098
1.24
0.0930
30
0.4991
2d.60
1.907
36 35
2 26.3 1 171 4
1124.3
1.1900
1.3096
1.37
0.1375!
31
0.5018
+28.67
+1.911
36 35
2 26.3 170 12
1 1 20.8
+1.1911
+1.3094
+1.51
+0.17771
32
0.5045
+28.78
+1.919
36 35
2 26.3 1 169 20
11 17.3
+1.1927
+1.3092
+1.64
+0.2144 j
INDEPENDENT STAR-NUMBEKS, 1884.
289
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
(Sid. Hour.)
T
/
G
H
I**0.
Log*.
i
Log*.
In Arc.
In Time.
In Arc.
In Time.
In Are.
In Time.
y
it
8
0 /
h m
O /
h m
//
July 1
0.5016
+28.67
+1.911
36 35
2 26.3
170 12
1120.8
+1.1911
+1.3094
+1.51
+0.1777
2
0.5045
28.78
1.919
36 35
2 26.3
169 20
11 17.3
1.1927
1.3092
1.64
0.2144
3
0.5073
28.92
1.928
36 33
2 26.2
168 27
11 13.8
1.1947
1.3090
1.77
0.2482
h 4
0.5100
29.09
1.939
36 28
2 25.9
167 34
11 10.3
1.1968
1.3087
1.90
0.2794
(19.0) 5
0.5128
29.30
1.953
36 19
2 25.3
16641
11 6.7
1.1991
1.3084
2.03
0.3084
6
0.5155
+29.51
+1.967
36 7
2 24.5
165 48
11 3.2
+1.2011
+1-3081
+2.16
+0.3354
7
0.5182
29.72
1.981
35 52
2 23.4
16155
10 59.7
1.2028
1.3078
2.29
0.3608
8
0.5210
29.91
1.994
35 35
2 22.3
164 1
10 56.1
1.2040
1.3075
2.42
0.3846
9
0.5237
30.07
2.005
35 18
2 21.2
163 8
10 52.5
1.2048
1.3072
2.55
0.4072
10
0.5264
30.19
2.013
35 3
2 20.2
16215
10 49.0
1.2052
1.3068
2.68
0.4284
11
0.5292
+30.28
+2.019
34 51
219.4
16121
10 45.4
+1.2054
+1.3064
+2.81
+0.4485
12
0.5319
30.35
2.023
34 43
2 18.9
160 28
10 41.9
1.2056
1.3061
2.94
0.4677
13
0.5347
30.41
2.027
34 38
2 18.5
159 34
10 38.3
1.2061
1.3057
3.06
0.4858
14
0.5374
30.48
2.032
34 36
218.4
158 40
10 34.7
1.2069
1.3053
3.19
0.5033
15
0.5401
30.57
2.038
34 34
2 18.3
157 46
10 31.1
1.2081
1.3048
3.31
0.5198
16
0.5429
+30.70
+2.047
34 32
2 18.2
156 52
10 27.5
+1.2098
+1.3044
+3.43
+0.5357
17
0.5456
30.87
2.058
34 28
2 17.9
155 58
10 23.9
1.2118
1.3039
3.56
0.5510
18
0.5464
31.08
2.072
34 21
217.4
155 4
10 20.3
1.2141
1.3034
3.68
0.5655
19
0.5511
31.30
2.087
34 10
2 16.7
154 9
10 16.6
1.2163
1.3030
3.80
0.5796
20
0.5538
31.53
2.102
33 56
2 15.7
153 14
10 12.9
1.2182
1.3025
3.92
0.5930
(20.0) 21
0.5566
+31.75
+2.117
33 39
2 14.6
152 20
10 9.3
+1.2198
+1.3020
+4.04
+0.6060
22
0.5593
31.93
2.129
33 22
2 13.5
151 26
10 5.7
1.2209
1.3014
4.15
0.6185
23
0.5620
32.08
2.139
33 6
212.4
150 31
10 2.1
1.2214
1.3009
-4.27
0.6304
24
0.5648
32.18
2.145
32 52
2 11.4
149 36
9 58.4
1.2217
1.3004
4.38
0.6419
25
0.5675
32.24
2.149
32 41
210.8
148 41
9 54.7
1.2217
1.2998
4.50
0.6530
26
0.5703
+32.28
+2.152
32 35
2 10.3
147 45
9 51.0
+1.2217
+1.2993
+4.61
+0.6637
27
0.5730
32.31
2.155
32 32
210.1
146 50
9 47.3
1.2219
1.2987
4.72
0.6742
28
0.5757
32.36
2.157
32 31
2 10.1
145 54
9 43.6
1.2224
1.2981
4.83
0.6842
29
0.5784
32.43
2. 102
32 31
2 10.1
144 58
9 39.9
1.2234
1.2975
4.94
0.6938
30
0.5812
32.53
2.169
32 31
210.0
144 2
9 36.1
1.2247
1.2969
5.05
0.7031
31
0.5839
+32.67
+2.178
32 28
2 9.8
143 6
9 32.4
+1.2263
+1.2963
+5.15
+0.7121
Aug. 1
0.5867
32.84
2.189
32 22
2 9.4
142 10
9 28.7
1.2280
1.2957
5.26
0.7209
2
0.5894
33.02
2.201
32 12
2 8.8
141 13
9 24.9
1.2297
1.2951
5.36
0.7294
3
0.5921
33.21
2.214
31 59
2 8.0
14017
921.1
1.2311
1.2945
5.46
0.7375
4
0.5949
33.38
2.225
31 44
2 6.9
139 20
9 17.3
1.2322
1.2939
5.56
0.7454
<»!%) 5
0.5976
+33.52
+2.235
31 28
2 5.9
138 23
9 13.5
+1.2328
+1.2933
+5.66
+0.7530
6
0.6004
33.62
2.241
31 14
2 5.0
137 25
9 9.7
1.2330
1.2926
5.76
0.7604
7
0.6031
33.69
2.245
31 2
2 4.2
136 28
9 5.9
1.2330
1.2920
5.86
0.7676
8
0.6058
33.73
2.249
30 54
2 3.6
135.31
9 2.1
1.2328
1.2914
5.95
0.7744
9
0.6086
33.75
2.250
30 49
2 3.2
134 33
8 58.2
1.2328
1.2908
6.04
0.781 1
10
0.6113
+33.79
+2.253
30 47
2 3.1
133 35
8 54.3
+1.2331
+1.2901
+6.13
+0.7876
11
0.6140
33.84
2.256
30 46
2 3.1
132 36
8 50.4
1.2337
1.2895
6.22
0.7939
12
0.6168
33.92
2.261
30 46
2 3.1
131 38
8 46.5
1.2348
1.2889
6.31
0.7999
13
0.6195
34.05
2.270
30 45
2 3.0
130 39
8 42.6
1.2363
1.2882
6.39
0.8057
14
0.6223
34.21
2.281
30 41
2 2.8
129 41
8 38.7
1.2380
1.2876
6.48
0.8114
15
0.6250
+34.39
+2.293
30 34
2 2.3
128 42
8 34.8
+1.2399
+ 1.2870
+6.56
+0.8168
16
0.6277
+34.59
+2.306
30 23
2 1.6
127 43
8 30.9
+1.2416
+1.2864
+6.64
+0.8221
19
290
INDEPENDENT STAR-NUMBERS, 1884.
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
(Sid. Hour.)
T
f
G
H
JLogfl.
Log*.
i
I*g*.
In Arc.
Id Time.
In Arc.
In Time.
In Arc.
In Time.
Aug. 16
y
0.6277
+34.59 ! +2.306
O /
30 23
h m
2 1.6
0 /
127 43
h m
8 30.9
+1.2416
+1.2864
+6.64
+0.8221
17
0.6305
34.78
2.319
30 10
2 0.7
126 43
8 26.9
1.2430
1.2858
6.71
0.8271 i
16
0.6332
34.94
2.329
29 56
1 59.7
125 44
8 22.9
1.2439
1.2852
6.79
0.8320
<23.0) 30
0.6359
35.07
2.338
29 41
1 58.8
124 44
8 18.9
1.2444
1.2846
6.87
0.8367
0.6387
35.15
2.343
29 28
1 57.9
123 44
8 14.9
1.2445
1.2840
6.94
0.8413
21
0.6414
+35.19 +2.346
29 19
1 57.3
122 44
8 10.9
+1.2444
+1.2834
+7.01
+0.8457;
22
0.6442
35.20 ( 2.347
29 13
1 56.9
121 44
8 6.9
12441
1.2829
7.08
0.8500
23
0.6469
35.20
2.347
29 11
156.7
120 44
8 2.9
1.2439
1.2823
7.15
0.8541
24
0.6496
35.21
2.347
29 11
156.7
119 43
7 58.9
1.2440
1.2817
7.21
0.8580
25
0.6524
35.23
2.349
29 14
1 56.9
118 42
7 54.8
1.2445
1.2812
7.27
0.8617
26
0.6551
+35.29 j +2.353
29 16
1 57.0
11741
7 50.7
+1.2454
+1.2807
+7.33
+0.8653
27
0.6579
35.39 2.359
29 16
157.1.
116 40
7 46.7
1.2466
1.2802
7.39
0.8687
28
0.6606
35.51 ! 2.367
29 14
1 56.9
115 39
7 42.6
1.2480
1.2797
7.45
0 8720
29
0.6633
35.66 2.377
29 9
1 56.6
114 38
7 38.5
1.2496
1.2792
7.50
0.8752
30
0.6661
35.82! 2.388
29 0
1 56.0
11336
7 34.4
1.2507
1.2787
7.55
0.87821
31
0.6688
+35.96
+2.397
28 49
1 55.3
11234
7 30.3
+1.2517
+1.2783
+7.60
+0.8810 !
Sept. 1
0.6715
36.08
2.405
28 37
1 54.5
111 32
7 26.1
1.2522
1.2778
7.65
0.8837*
2
0.6743
36.16
2.411
'28 25
J 53.7
110 30
7 22.0
1.2524
1.2774
7.70
0.6864
3
.0.6770
36.21
2.414
23 16
1 53.0
109 28
7 17.9
1.2523
1.2770
7.74
0.8889
4
0.6798
36.22
2.415
28 9
152.6
108 25
7 13.7
1.2521
1.2766
7.78
0.8912
m.o) 5
0.6825
+36.22
+2.415
28 6
1 52.4
107 22
7 9.5
+1.2518
+1.2762
+7.82
+0.8933
6
0.6852
36.22! 2.415
28 5
1 52.4
106 20
7 5.3
1.2518
1.2759
7.86
0.8954
7
0.6880
36.23
2.416
28 8
1 52.5
105 17
7 1.1
1.2522
1.2755
7.89
0.8973
8
0.6907
36 28
2.419
28 11
1 52.7
104 14
6 56.9
1.2529
1.2752
7.93
0.8991
9
0.6934
36.36
2.424
28 13
1 52.9
103 11
6 52.7
1.2541
1.2749
7.96
0.9008
10
0.6962
+36.49
+2.433
28 14
1 52.9
102 8
6 48.5
+1.2556
+1.2747
+7.99
+0.9023
11
0.6989
36.64
2.443
28 11
1 52.8
101 4
6 44.3
1.2572
1.2744
8.01
0.9037
12
0.7017
36.81
2.454
28 5
152.4
100 1
6 40.1
1.2588
1.2742
8.03
0.9049
13
0.7044
36.98
2.465
27 57
1 51.8
98 58
6 35.9
1.2603
1.2740
8.05
0.9061
14
0.7071
37.13
2.475
27 46
1 51.1
97 54
6 31.6
1.2613
1.2738
8.07
0.9072
15
0.7099
+37.24
+2.483
27 35
1 50.4
96 50
6 27.3
+1.2619
+1,2736
+8.09
+0.9080
16
0.7126
37.32 \ 2.488
27 26
149.7
95 47
6 23.1
1.2622
1.2735
8.11
0.9088
17
0.7153
37.35) 2.490
27 18
149.2
94 43
6 18.9
1.2621
1.2734
8.12
0.9094
18
0.7181
37.35 1 2.490
27 14
1 49.0
93 39
6 14.6
1.2618
1.2733
8.13
0.9099
19
0.7208
37.34 1 2.489
27 14
1 49.0
92 35
6 10.3
1.2616
1.2732
8.13
0.9102
(Oh.O) 20
0.7236
+37.32 j +2.488
27 17
1 49.1
91 31
6 6.1
+1.2617
+1.2732
+8.14
+0.9105
21
0.7263
37.33. 2.488
27 22
1 49.4
90 27
.6 1.8
1.2620
1.2731
• 8.14
0.9106
22
0.7290
37.35 1 2.490
27 27
149.8
89 23
5 57.5
1.2627
1.2731
8.14
0.9105
23
0.7318
37.42 2.495
27 32
1 50.1
88 19
5 53.3
1.2638
1.2732
8.14
0.9104
24
0.7345
37.53 2.502
27 34
1 50.3
87 15
5 49.0
1.2652
1.2732
8.13
0.9101
25
0.7373
+37.66 | +2.511
27 33
1 50.2
86 10
5 44.7
+1.2666
+1.2733
+8.12
+0.9097
26
0.7400
37.80, 2.520
27 29
1 50.0
85 6
5 40.4
1.2680
1.2734
8.11
0.9091}
27
0.7427
37.94 | 2.529
27 22
1 49.5
84 2
5 36.1
1.2691
1.2735
8.10
0.9080
28
0.7455
38.06! 2.537
27 14
1 48.9
82 58
5 31.9
1.2700
1.2736
8.09
0.9077
29
0.7482
38.14 | 2.543
27 6
1 48.4
81 54
5 27.6
1.2704
1.2738
8.07
0.9068
30
0.7509
+38.19' +2.546
26 59
1 47.9
80 50
5 23.3
+1.2705
+1.2740
+8.05
+0.9059
31
0.7537
+38.21 ' +2.547
26 54
1 47.6
79 46
5 19.1
+1.27041+1.2742
+8.03
+0.9047 1
INDEPENDENT STAR-NUMBERS, 1884.
291
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
(Sid. Hour.)
T
/
G
H
1**0.
Log*.
i
Log*.
In Arc
In Time.
In Arc.
In Time.
In Arc.
In Time
Oct. |
y
0.7537
+38!2J
8
+2.547
26 54
h m
147.6
79°46
h m
5 19.1
+1.2704
+1.2742
+8.03
+0.9047
2
0.7564
38.21
* 2.547
26 53
1 47.5
78 42
514.8
1.2703
1.2745
8.00
0.9034
3
0.7592
38.20
2.547
26 54
147.6
77 37
510.5
1.2703
1.2747
7.98
0.901 Q
„ 4
0.7619
38.21
2.547
26 58
1 47.9
76 33
5 6.2
1.2707
1.2750
7.95
0.9003
(1.0) 5
0.7646
38.24
2.549
27 4
1 48.3
75 29
5 1.9
1.2714
1.2753
7.92
0.8986
6
0.7674
+38.31
+2.554
27 10
1 48.7
74 25
4 57.7
+1.2726
+1.2756
+7.88
+0.8967
7
0.7701
38.42
2.561
27 14
1 46.9
73 22
4 53.5
1.2742
1.2760
7.85
0.8947
8
0.7728
38.57
2.571
27 15
149.0
7218
4 49.2
1.2760
1.2763
7.81
.0.8927
9
0.7756
38.74
2.583
27 14
148.9
71 14
4 44.9
1.2777
1.2767
7.77
0.8904
10
0.7783
38.92
2.595
27 9
148.6
70 10
4 40.7
1.2794
1.2771
7.73
0.8880
11
0.781 1
+39.09
+2.606
27 2
148.1
69 7
4 36.5
+1.2808
+1.2775
+7.68
+0.8854
12
0.7838
39.22
2.615
26 54
1 47.6
68 3
4 32.2
1.2818
1.2780
7.63
0.8827
13
0.7865
39.32
2.621
26 46
1 47.1
67 0
4 28.0
1.2825
1.2784
7.58
0.8798
14
0.7893
39.38
2.625
26 41
146.7
65 57
423.8
1.2827
1.2789
7.53
0.8768
15
0.7920
39.40
2.627
26 38
146.5
64 54
4 19.6
1.2828
1.2794
7.48
0.8737
16
0.7948
+39.40
+2.627
26 39
146.6
63 51
4 15.4
+1.2828
+1.2799
+7.42
+0.8704
17
0.7975
39.40
2.627
26 43
146.8
62 48
4 11.2
1.2830
1.2804
7.36
0.8669
18
0.8002
39.41
2.627
26 49
147.2
61 45
4 7.0
1.2835
1.2810
7.30
0.6633
" h ,9
0.8030
39.45
2.630
26 56
147.7
60 42
4 2.8
1.2844
1.2816
7.24
0.8595
(9.0) 20
0.8057
39.52
2.635
27 2
148.2
59 40
3 58.7
1.2856
1.2821
7.17
0.8556
21
0.8084
+39.64
+2.643
27 7
148.5
58 37
3 54.5
+1.2872
+1.2827
+7.10
+0.8514
22
0.8112
39.78
2.653
27 9
148.6
57 35
3 50.3
1.2889
1.2832
7.03
0.8471
23
0.8139
39.94
2.663
27 8
148.5
56 33
3 46.2
1.2906
1.2838
6.96
0.8426
24
0.8167
40.10
2.673
27 4
148.2
55 31
3 42.1
1.2921
1.2844
688
0.8379
25
0.8194
40.25
2.683
26 58
147.8
54 29
3 37.9
1.2933
1.2851
6.81
0.8331
26
0.8221
+40.37
+2.691
26 51
1 47.4
53 27
3 33.8
+1.2942
+1.2857
+6.73
+0.8280
27
0.8249
40.46
2.697
26 45
147.0
52 25
3 29.7
1.2947
1.2863
6.65
0.8228
28
0.8276
40.5!
2.701
26 40
1 46.7
51 24
3 25.6
1.2950
1.2869
6.57
0.8173
29
0.8303
40.54
2.703
26 39
1 46.6
50 23
3 21.5
1.2953
1.2876
6.48
0.6116
30
0.6331
40.56
2.704
26 41
146.7
49 22
3 17.5
1.2956
1.2882
6.39
0.8058
31
0.8353
+40.59
+2.706
26 45
147.0
48 21
3 13.4
+1.2962
+ 1.2889
+6.30
+0.7997
Nov. 1
0.8386
40.65
2.710
26 51
147.4
47 20
3 9.3
1.2971
1.2895
6.21
0.7934
2
0.8413
40.74-
2.716
26 57
1 47.8
46 19
3 .5.3
1.2984
1.2902
6.12
0.7868
h 3
0.8440
40.87
2.725
27 2
148.1
45 18
3 1.2
1.3002
1.2909
6.03
0.7800
(3.0) 4
.0.8468
41.03
2.735
27 5
148.3
44 18
2 57.2
1.3021
1.2915
5.93
0.7730
5
0.8495
+41.23
+2.749
27 5
1 48.3
43 18
2 53.2
+1.3042
+1.2922
+5.83
+0.7657
6
0.a522
41.44
2.763
27 1
148.1
42 18
2 49.2
1.3062
1.2928
5.73
0.7582
7
0.8550
41.65
2.777
26 55
147.7
41 18
2 45.2
1.3080
1.2935
5.63
0.7503
8
0.8577
41.83
2.789
26 48
147.2
40 18
2 41.2
1.3094
1.2941
5.52
0.7422
9
0.8605
41.98
2.79!)
26 40
146.7
39 18
2 37.2
1.3104
1.2948
5.42
0.7339
10
0.8632
+42.09
+2.806
26 34
1 46.2
38 19
2 33.2
+1.3111
+1.2954
+5.31
+0.7251
11
0.8659
42.16
2.811
26 30
146.0
37 19
2 29.3
1.31 16
1.2961
5.20
0.7161
12
0.8637
42.20
2.813
26 29
1 46.0
36 20
2 25.3
1.3120
1.2967
5.09
0.7067
13
0.8714
42.24
2.816
26 31
146.1
35 21
2 21.4
1.3125
1.2973
4.98
0.6970
14
0.8741
42.28
2.819
26 36
1 46.4
34 22
2 17.5
1.3132
K2979
486
0.6869
15
0,8769
+42 35
+2.823
26 42
1 46.8
33 24
2 13.6
+1.3143
+ 1.2985
+4.75
+0.6765
16
0.8796
+42.45
+2.830
26 47
1 47.2
32 25
2 9.7
+1.3157
+ 1.2991
+4.63
+0.6657
292
INDEPENDENT STAR-NUMBERS, 1884.
FOR WASHINGTON MEAN MIDNIGHT.
Solar Day.
(Sid. Hoof,)
T
/
&
H
I*gy.
log*.
i
log*.
In Arc.
In Time.
In Arc
Ib Time.
in Are.
laTfine.
No*. 16
0.8796
+42.45
8
+2.830
O /
26 47
h m
1 47.2
© /
32 95
h m
2 9.7
+1.3157
+1.2991
+4.63
+0.6657
17
0.8324
42.59
2.839
96 51
147.4
3126
2 5.8
1.3174
1.9997
4,51
0.6544
<4-#) 19
0 8851
42.76
2.851
96 5:)
1 47.5
30 28
9 1.9
1.3193
1.3003
4.39
0.6428
0.8878
42.96
2.864
96 52
1 47.4
29 30
158.0
1.3212
1.3009
4.27
0 6305
90
0.8906
43.16
2.877
96 47
147.2
28 32
154.1
1.3229
1.3015
4.15
0.6179
21
0.8933
+43.35
+2.890
26 41
1 46.7
97 34
1 50.3
+1.3245
+1.3020
+4.02
+0.6046
92
9.8960
43.52
2.901
26 33
1 46.2
96 36
i 46.4
1.3257
1.3095
3.90
0,5900
93
0.8988
43.66
2910
96 26
1 45.7
25 38
1 42.5
1.3266
1.3031
3.77
0.5765
94
0.9015
43.76
2.917
96 90
1 45.3
94 41
138.7
1.3272
1.3036
3.64
0.5615
95
0.9043
43.83
2.922
96 16
1 45.1
93 43
134.9
1.3277
1.3041
3.51
0.5458
96
0.9070
+43.89
+2.996
96 15
1 45.0
22 46
131.1
+1.3282
+1.3046
+3.38
+0.5294
97
O.9097
43.96
2.931
96 17
1 45.1
2148
127.2
1.3289
1.3050
3.25
0.5122
98
0.9125
44.04
2.936
96 90
145.3
90 51
193.4
1.3299
1.3055
3.12
0.4942
99
0.9159
44.15
2.943
96.23
1 45.6
19 54
1 19.6
1.3314
1.3059
2.99
0.4752
30
0.9180
44.30
2.953
96 97
145.8
18 57
1 15.8
1.3330
1.3063
2.85
0.4552
Dec. 1
0.9207
+44.50
+2.967
96 28
145.9
18 0
1 19.0
+1.3360
+1.3067
+2.72
+0.4340
9
0.9234
44.73
2.982
96 97
1 45.8
17 3
1 8.2
1.3371
1.3071
2.58
0.4117
3
0.9262
44.97
2.998
26 92
1 45.5
16 7
1 4.5
1.3392
1.3075
2.44
0.3880
(«£•) 5
0.9289
45.21
3.014
96 15
145.0
15 10
1 0.7
1.3411
1.3078
2.30
0.3627
0.9316
45.44
3.029
96 7
1 44.4
14 13
0 56.9
1.3427
1.3081
&17
0.3357
1
6
0.9344
+45.63
+3.042
95 57
1 43.8
13 17
0 53.1
+1.3440
+1.3084
+2.03
+0.3068
7
0.937!
45.79
3.053
95 49
1 43.2
1921
0 49.4
1.3449
1.3087
1.89
0.2756
8
0.9399
45.90
3.060
95 42
1 42.8
1124
0 45.6
• 1.3456
1.3090
1.75
0.2421
9
0.9426
45.99
3.066
25 38
1 42.5
1027
041.8
1.3461
1.3099
1.60
0.2054
10
0.9453
46.05
3.070
25 36
1 42.4
9 31
0 38.1
1.3467
1.3095
1.46
0.1654
fl
0.9481
+46.12
+3.075
25 37
1 42 5
8 35
0 34.3
+1.3473
+1.3097
+1.32
+6.1213,
19
0.9508
46.21
3.081
25 40
142.6
7 39
0 30.6
1.3483
1.3098
1.18
0.0718
13
0.9535
46.33
3.089
25 42
1 42.8
6 43
0 26.9
1.3496
1.3100
1.04
0.0155!
14
0.9563
46.48
3.099
25 44
1 43.0
5 47
0 23.1
1.3512
1.3109
0.89
9.9508,
15
0.9590
46.67
3.111
25 44
143.0
450
0 19.3
1.3530
1.3103
0.75
9.8745 (
16
0.9616
+46.88
+3.195
25 42
142.8
354
0 15.6
+1.3548
+1.3104
+0.60
+9.7825-!
17
0.9645
47.11
3.141
25 36
142.4
2 58
0 11.9
1.3565
1.3105
0.46
9.0640
18
0.9672
47.33
3.155
25 28
1 41.9
2 2
0 8.2
1.3581
1.3105
0.32
9.5005
h l9
0.9700
47.53
3.169
25 19
1 41.2
1 6
0 4.4
1.3594
1.3106
0.17
9.2350'
(6.0)90
0.9727
47.70
3.180
95 9
1 40.6
0 10
0 0.7
1.3603
1.3106
+0.03
+8.4314
91
0.9754
+47.ai
+3.189
25 0
1 40.0
359 14
23 56.9
+1.3610
+1.3106
-0.12
-9.0712]
99
0.9782
47.93 3.195
24 53
1 39.6
358 18
23 53.2
1.3614
1.3105
0.26
9.4193
93
0.9809
48.00 1 3.200
24 49
1 39.2
357 22
23 49.5
1.3619
1.3106
0.41
9.6100 >
94
0.9837
48.07! 3.205
24 47
1 39.0
356 26
23 45.7
1.3624
1.3104
0.55
9.7421
25
0.9864
48.16 1 3.211
24 47
1 39.0
355 30
23 42.0
1.3632
1.3103
0.70
9.8429!
96
0.9891
+48.28 +3.219
24 48
1 39.1
354 33
23 36.2
+1.3643
+1.3102
-0.84
-9.92461
97
0.9919
48.43 3.229
24 49
1 39.2
353 37
23 34.5
1.3657
1.3101
0.98
9.9932
98
0.9946
48.621 3.241
24 48
1 39.2
352 41
23 30.7
1.3673
1.3099
1.13
0.0524
9!)
0.9974
48.84' 3.256
24 46
1 39.0
351 45
23 27.0
1.3692
1.3097
1.27
0.1013
30
1.0001
49 09! 3.273
24 40
1 38.7
360 48
23 93.2
1.3711
1.3095
1.42
0.150(5
31
1.0028
+49.34 +3.289
24 32
138.2
349 52
2) 19.5
+1.3729
+1.3093
-1.56
-0.1922
39
1.0056
+49.58 ' +3.305
24 22
1 37.5
348 55
23 15.7
+1.3744
+1.3091
-1.70
-0.2300 j
FIXED STARS, 1884.
293
MEAN PLACES FOR 1884.0. (January 0*227, Washington.)
Name of Star.
Mogul
tudeT
Bight
Annual
Variation.
Declination.
Annual
Variation.
a Andromedce
P Cassiopeee .
22 Andromeda?
4 Draconis (H.)
y Pegasi (Algenib)
* Andromeda?
t Ceti . . .
6 Ursae Minoris
44 Piscium . .
p Hydri . .
12 Ceti . . .
« Draconis .
* Andromedce
a CassiopesB (var.)
P Ceti . . .
(Pa
21 Cassiopese
o Cassiopeee
8 Piscium .
32* Camelop. (H.)
y Cassiopess .
fi Andromedae
43 Cephei (H.)
e Piscium . .
p Andromeda
f Piscium . .
* Tucame. .
a Ursa? Minoris
fl'Ceti . . .
38 Cassiopeee .
7) Piscium. .
u Andromedce
n Piscium . .
a Eridani (Achernar)
v Piscium . .
o Piscium. .
C Ceti . . .
P Arietis . .
50 Cassiopeee .
Y Andromedce
a Arietis . .
a Draconis .
0 Trianguli .
^Ceti . . .
4 Ursa) Minoris
Y Trianguli .
67 Ceti . . .
t Cassiopeae .
8 Hydri . .
PCcti
5 Ursae Minoris
S.
P.
laris)
S.P.
2.0
2.0
5.3
4.7
2.7
4.3
3.3
6.0
6.0
3.0
6.0
3.3
4.0
2.5
2.0
6.0
5.0
4.3
4.7
2.0
4.0
4.3
4.0
2.3
5.0
5.0
2.0
3.0
6.3
3.7
4.0
5.7
1.0
4.7
4.3
3.0
3.0
4.0
2.3
2.0
3.3
3.0
4.3
5.0
4.3
6.0
4.0
4.0
4.0
4.7
h m 8
0 2 23.570
2 59.559
4 17.671
6 45.458
7 15.787
0
0
0
0
0 12 16.185
0 13 30.911
0 14 19.604
0 19 27.372
0 19 38.137
0 24 7.122
0 28 31.666
0 30 41.196
0 33 55.816
0 37 46.007
0 38 0.099
0 38 15.835
0 42 39.846
0 48 17.133
0 49 42.816
0 50 18.993
0 53 4.993
0 56 55.386
1 3 14.365
1 11 48.925
1 11 50.076
1 16 14.291
1 18 13.507
1 22 36.683
1 25 16.611
1 29 59.504
1 30 56.983
1 33 23.299
1 35 23.705
1 39 16.123
1 45 44.077
1 48 13.970
1 53 32.803
1 56 46.891
2 0 38.124
1 14.989
2 38.607
6 51.144
9 18.981
10 25.205
2 11 11.834
2 19 30.997
2 19 41.290
2 21 59.538
2 27 46.958
+ 3.0904
3.1712
3.1005
2.8927
3.0832
+ 3.1217
3.0529
0.1015
3.0729
3.2394
4- 3.0U10
2.5948
3.1693
3.3708
3.0146
+ 3.8487
3.3170
3.1069
0.3810
3.5751
+ 3.3094
7.1600
3.1085
3.3427
3.0893
+ 2.0562
22.3000
2.9969
4.3699
3.2018
4- 3.5024
3.1698
2.2331
3.1174
3.1617
4- 2.9617
3.3025
5.0008
3.6583
3.3699
+• 1.6235
3.5529
4- 3.1734
— 0.3311
3.5494
+
+
2.9891
4.8551
1.0532
3.1831
0.1967
4- 28 26 59.77
4- 58 30 34.70
4- 45 25 35.48
4-101 44 20.88
4- 14 32 18.90
4- 35 8 31.04
- 9 28 2.26
4- 91 39 24.92
4- 1 17 49.90
- 77 54 27.51
- 4 35 54.11
4-109 34 20.21
4- 33 4 49.90
4- 55 54 3.28
- 18 37 24.94
74 21 13.54
47 38 57.20
6 57 12.56
95 57 23.66
60 5 17.56
4- 37 52 11.77
+ 85 38 2.96
+ 7 15 55.13
4- 35 . 0 18.71
4-3 0 11.51
- 69 29 32.19
4- 88 41 24.87
- 8 46 56.18
4- 69 40 1.19
+ 14 44 50.78
4- 40 49 29.65
4- 11 32 52.18
- 57 49 34.97
4- 4 54 0.61
4- 8 34 23.94
- 10 54 33.92
4- 20 14 25.69
4- 71 51 32.97
4- 41 46 20.71
4- 22 54 47.96
4-115 4 10.48
+ 34 26 16.59
4- 8 18 7.04
4-101 54 26.51
4- 33 18 36.08
- 6 57 26.60
4- 66 52 47.54
- 69 11 14.67
4- 7 56 21.92
4-103 47 18.08
+ 19.885
19.852
20.036
20.023
20.025
+ 19.965
19.959
19.941
19.955
20.287
+ 19.941
19.893
19.675
19.794
19.807
+ 19.757
19.759
19.654
19.597
19.570
+ 19.623
19.517
19.461
19.173
19.042
+ 19.176
18.954
18.677
18.689
18.674
+ 18.157
18.537
18.364
18.340
18.228
+ 17.835
17.741
17.666
17.457
17.188
+ 17.306
17.219
17.044
16.909
16.861
+ 16.746
16.456
16.456
16.310
+ 16.011
'Apparent plaeea of ators nuked with an asterisk axe not given in thia
294
FIXED STARS, 1884.
MEAN PLACES FOR 1884.0. (January Od.227, Washington.)
Name of Star.
Magni-
tude.
Sight Ascension.
Annual
Variation.
Declination.
Annual
Variation.
d Ceti .
fi Hydri
0 Perse i
y Ceti .
a Arietis
47 Cephei (H.) . . .
/? Ursa Minor is . . S. P.
e Arietis
a Ceti
P Persei {Algol) (var.)
48 Cephei (H.) . . .
C Arietis
a Persei
t Hydri
Y* Ursse Minoris . . S. P.
/Tauri
e Eridani . . i . .
d Persei
y Camelopardalis (H.).
y Tauri
Persei . .
Ursee Minoris
Hydri . .
Persei . .
Eridani . .
C
C
r
e
r
A1 Tauri . . .
c Persei . . .
Groombr. 2320 .
o1 Eridani . . .
Y Tauri . . .
Ursee Minoris .
Tauri . . .
Draconis . .
Persei . . .
Men see . . .
S.P
S.P.
S.P
s!p
£
m
d
A Draconis . . . S. P.
a Tauri (Aldebaran) .
t Tauri
a Camelopardalis . .
i Tauri
c Aurigae
C Aurigse . .
e Ursae Minoris
]| Orionis . .
p Eridani . .
S.P
a Aurigse (Capella)
p Orionis (Rigel) .
t Orionis . . . .
^ Tauri . . . .
Groombridge 966 .
4.0
6.0
4.0
3.3
5.7
6.0
2.0
4.3
2.3
2.7
6.3
4.7
2.0
5.0
3.0
4.0
3.0
3.3
4.3
3.0
3.0
4.3
3.3
3.*
3.0
4.7
4.0
6.3
4.3
4.0
5.0
3.7
2.7
6.0
6.0
5.0
1.0
4.3
4.7
5.3
3.0
4.0
4.3
5.0
3.0
1.0
1.0
4.0
2.0
6.3
2 33 32.234
2 34 9.191
16.857
17.408
5.336
2 36
2 37
2 45
2 50 42.566
2 51 3.227
2 52 34.805
2 56 12.958
3 0 37.398
3 5 38.309
3 8 14.081
3 16 2.722
3 18 52.288
3 20 55.223
3 24 28.137
3 27 27.919
3 34 40.157
3 38 7.714
3 40 35.371
3 46 50.496
3 48 13.479
3 49 2.751
3 50 4.236
3 52 37.080
3 57 50.299
4 0 14.552
4 6 0.350
4 6 12.191
4 13 11.557
4 20 54.388
4 21 50.605
4 22 25.420
4 25 15.291
4 25 51.052
4 28 12.991
4 29 15.890
4 35 16.987
4 42 31.276
4 44 35.314
4 49 26.413
4 54 22.235
4 57 53.645
4 57 56.434
5 2 8.824
5
5
5 11
5
5
8 7.244
9 57.791
58.432
18 57.561
24 13.562
+ 3.0723
— 1.4496
+ 4.0670
+ 3.1028
+ 3.3057
+
+
+
+
+
+
7.6971
0.2366
3.4200
3.1298
3.8817
7.3875
3.4384
4.2548
1.6091
0.1377
+ 3.3042
+ 2.8233
+ 4.2477
6.2297
3.5559
+
+
+ 3.7590
— 2.2624
— 1.0026
+ 4.0084
+ 2.7983
+
+
+
+
+
+
+
+
3.5391
4.3352
0.1376
2.9264
3.4083
1.8226
3.4968
0.8053
4.2087
4.2399
— 0.1372
+ 3.4367
+ 3.5947
+ 5.9213
+ 3.5048
+
+
+
+
+
+
+
+
+
3.8999
4.1841
6.3484
3.4239
2.9483
4.4238
2.8811
2.9123
3.7888
7.9967
0 10 21.87
79 36 54.31
48 44 12.62
2 44 46.48
14 36 11.68
4- 78 57 29.90
+ 105 22 13.64
+ 20 52 32.23
+ 3 38 1.95
+ 40 30 27.53
+ 77 18 23.47
+ 20 36 49.20
+ 49 26 49.70
- 77 48 41.55
+ 107 45 11.67
+ 12 32 17.78
- 9 51 5.41
+ 47 24 55.24
+ 70 58 22.63
+ 23 44 43.34
+ 31 32 16.53
+ 101 50 57.28
- 74 35 39.11
+ 39 40 24.14
- 13 50 21.67
+ 21 45 49.27
+ 47 24 5.03
+ 111 53 2.87
- 7 8 27.76
+ 15 20 47.26
+ 103 58 40.10
+ 18 55 19.19
+ 118 13 22.98
+ 42 48 52.70
- 80 29 3.40
+ 110 58 51.88
+ 16 16 29.85
+ 22 43 59.28
+ 66 8 36.90
+ 18 38 28.24
+ 32 58 52.00
+ 40 54 18.22
97 46 25.49
15 14 28.82
5 14 14.67
+
+
+ 45 52 42.41
- 8 20 11.99
— 6 58 15.31
28 30 29.23
74 57 51.10
+
+
+ 15.713
15.675
15.479
15.356
15.026
+ 14.738
14.718
14.625
14.327
14.143
+ 13.775
13.577
13.120
13.017
12.811
+ 12.585
12.412
11.838
11.586
11.404
+ 10.976
10.907
10.975
10.750
10.465
+ 10.108
9.971
9.499
9.638
8.984
+ 8.149
8.284
8.228
8.036
8.013
+
7.797
7.542
7.213
6.650
6.434
6.056
5.658
5.370
5/326
4.950
+
4.066
4.423
4.160
3.392
+
3.137
* Apparent places of stars marked with an asterisk are not given in this Ephemeris.
FIXED STARS, 1884.
295
MEAN PLACES FOR 1884.0. (January 0*.227, Washington.)
Name of Star.
Magni-
tude.
Right Ascension.
Annual
Variation.
Declination.
Annual
Variation.
* Groombridge 944 . •
6.3
h m s
5 24 56.518
+ 18.6191
O / //
+ 85 8 4.61
+ 3!'067
* / Auriga
5.0
5 25 10.750
+ 3.9045
+ 32 6 18.49
3.055
d Orion is (car.) . . .
2.5
5 26 4.830
+ 3.0632
- 0 23 9.96
2.952
a Leporis
3.0
5 27 36.850
4- 2.6446
- 17 54 22.49
2.824
e Orionis
2.0
5 30 19.640
+ 3.0421
- 1 16 37.46
2.590
a Columboe ....
2.0
5 35 26.976
+ 2 1726
- 34 8 1220
+ 2.099
w Draconis . . . S. P.
5.0
5 37 37.927
— 0.3544
+ 111 11 18.91
1.630
• * Orionis
2.7
5 42 15.272
+ 2.8447
- 9 42 42.71
1.554
* v Aurigse
4.0
5 43 26.994
+ 4.1540
+ 39 6 46.69
1.483
v''1 Draconis . . . S. P.
4.3
5 44 0.155
— 1.0801
+ 107 47 40.74
1.672
* d Doradus ....
4.3
5 44 34.127
+ 0.1043
- 65 46 44.18
+ 1.329
a Orionis (var.) . . .
1.2
5 48 53.503
+ 3.2468
+ 7 23 3.34
0.979
* 0 AurigsB
2.0
5 51 1.202
+ 4.4015
+ 44 56 2.44
0.775
* 0 Aurigw
3.0
5 51 48.704
+ 4.0918
+ 37 12 10.99
+ 0.628
v Orionis
4.7
6 0 56.980
4- 3.4273
+ 14 46 51.92
— 0.113
22 Camelopardalis (H.)
4.7
6 6 3.497
+ 6.6179
+ 69 21 29.64
— 0.648
* 7) Ge minor urn . . .
3.3
6 7 52.563
+ 3.6227
+ 22 32 21.07
0.705
d Ursae Minoris . . S. P.
4.3
6 9 44.395
— 19.4505
+ 93 23 23.15
0.902
/a Geminorum . . .
3.0
6 15 56.585
+ 3.6315
+ 22 34 18.49
1.515
* <M Aurigae
5.3
6 15 57.857
+ 4.6267
+ 49 20 43.67
1.406
a Argus (Canopus). .
1.0
6 21 22.704
4- 1.3303
- 52 37 57.49
— 1.859
* v Geminorum . . .
4.7
6 22 4.511
4- 3.5631
+ 20 17 3.44
1.951
* / Draconis . . . S. P.
4.0
6 23 8.812
— 1.0791
+ 107 19 4.38
1.645
y Geminorum . . .
2.3
6 31 0.638
4- 3.4675
+ 16 29 49.52
2.752
* e Geminorum . . .
3.3
6 36 47.685
4- 3.6936
+ 25 14 40.98
3.219
* ^Aurigae
5.7
6 38 22.601
4- 4.3294
+ 43 41 29.02
— 3.195
t a Canis Majoris (Sirius)
1.0
6 40 2.197
+ 2.6437
— 16 33 28.49
4.692
* 0 Geminorum . . .
3.3
6 45 8.607
4- 3.9609
+ 34 5 59.40
3.957
51 Cephei (H.) . . .
5.3
6 45 45.652
4-30.0340
+ 87 13 29.46
4.070
* C Mensse
5.8
6 49 40.879
— 4.8934
- 80 41 21.98
4.232
50 Draconis . . . S. P.
6.0
6 50 6.497
— 1.9050
+ 104 42 12.40
— 4.424
e Canis Majoris . . .
1.7
6 54 4.043
4- 2.3576
- 28 48 54.30
4.699
* C Geminorum (var.) .
4.0
6 57 14.108
4- 3.6527
+ 20 44 21.14
4.974
3 Canis Majoris . . .
2.0
7 3 40.485
4- 2.4384
- 26 12 35.08
5.490
* 63 Aurigce .....
5.0
7 3 40.542
4- 4.1373
+ 39 30 30.62
5.481
* 25 Camelopardalis . .
4.7
7 6 36.827
+ 12.9850
+ 82 37 51.43
— 5.778
* j^Volantis (var.) . .
4.7
7 9 43.832
— 0.4853
- 70 18 36.16
5.887
d Draconis . . . S. P.
3.0
7 12 31.559
+ 0.0308
+ 112 32 33.02
6.326
d Geminorum . . .
3.3
7 13 11.691
+ 3.5884
+ 22 11 40.99
6.312
t Draconis . . . S. P.
4.7
7 17 46.714
— 1.1138
+ 106 51 36.82
6.784
Piazzi vii. 67 . . .
6.0
7 18 48.185
+ 6.3033
+ 68 42 2.27
— 6.797
* 3 Canis Minoris . . .
3.0
7 20 51.595
+ 3.2599
+ 8 31 18.96
6.967
a2 Geminorum (Castor)
1.7
7 27 11.900
+ 3.8392
+ 32 8 30.39
7.524
t a Canis Min. (Procyon )
1.0
7 33 13.760
+ 3.1437
+ 5 31 16.66
8.971
P Geminorum (Pollux)
1.3
7 38 13.019
+ 3.6800
+ 28 18 18.88
8.390
X Ursae Minoris . . S. P
6.3
7 39 59.774
— 63.3185
+ 91 2 48.82
— 8.485
* 26 Lyncis
6.0
7 46 15.766
+ 4.3898
+ 47 51 50.02
8.989
* Groombridge 1374 .
5.7
7 46 17.254
+ 7.2958
+ 74 13 31.96
9.004
<p Geminorum . . .
5.0
7 46 23.843
+ 3.6807
+ 27 3 53.90
9.003
e Draconis . . . S. P.
3.7
7 48 33.524
— 0.1768
+ 110 1 89.03
— !».l?r»
* Apparent places of stars marked with an asterisk are not given in this Ephemeris.
t Periodic corrections given in the Appendix are still to he applied to the positions of Sirins and Frocyoa.
296
FIXED STABS, 1884.
MEAN PLACES FOR 1884.0. (January (^.227, Washington.)
Name of 8tar.
Magni-
tude.
Bight Ascension.
Annual
Variation.
Declination.
Annual
Variation.
* a*1 Cancri .....
6.0
h m s
7 53 54.724
+ 3.6380
+ 25° 42 33^94
— 9.554
3 Ursce Majoris (H.)
5.7
8 1 15.521
+ 6.0555
4- 68 48 49.43
10.120
15 Argus ( t ) . . .
3.0
8 2 36.243
+ 2.5544
- 23 58 14.T9
10.178
* ^Cancri . . .
4.7
8 5 33.517
+ 3.4470
+ 17 59 45.69
10.580
* P Cancri . . .
3.7
8 10 13.428
4- 3.2589
+ 9 32 31.15
10.835
* Cephei (pr.) .
S.
p.
43
8 12 46.473
— 1.9141
+ 102 38 18.41
— 11.007
* 30 Monocerotis .
3.7
8 19 51.822
4- 3.0002
- 3 31 43.74
11.467
* 6 Chameeleontis . .
4.7
8 24 5.857
— 1.70 J 5
- 77 6 34.C0
11.772
y Cancri . . . ,
5.7
8 26 0.023
+ 3.4790
4- 20 50 3.43
11.982
Groombr. 3241
S.
p.
6.3
8 30 29.970
— 0.2162
4-107 51 40.99
12.223
* a Hydree . . .
5.0
8 32 41.711
+ 3.1462
+ 3 44 52.15
- 12.414
* y Cancri . . .
4.3
8 36 34.346
+ 3.4812
4- 21 53 4.98
12.704
e Hydro . . .
3.3
8 40 37.977
+ 3.1822
4- 6 50 36.85
12.986
# a* Cancri (mean).
5.7
8 47 9.936
+ 3.6746
4- 31 1 4.09
13.38G
t Ursce Majoris .
3.0
8 51 15.660
+ 4.1358
+ 48 29 46.12
13.881
12 Year Cat. 1879
S.
p.
6.0
8 52 48.899
— 2.5320
+ 99 53 0.29
— 13.698
<j* Ursse Majoris .
5.0
9 0 10.364
+ 5.3631
4- 67 36 15.34
14.246
* Cancri . . .
5.0
9 1 27.853
+ 3.2563
4- 11 8 3.58
14.273
* $ Hydra . . .
4.0
9 8 19.7&1
-f- 3.1265
+ 2 48 10.47
15.001
* p Argus . . .
1.5
9 11 55.341
4- 0.6796
- 69 14 22.00
14.802
t Argus '. . .•
2.0
9 13 58.967
4- 1.6013
- 58 47 18.63
— 14.990
* a Lyncis . ". .
3.3
9 13 59.130
4- 3.6705
+ 34 52 55.58
15.008
a Cephei . < .
S.
p.
2.7
9 15 48.636
+ 1.4369
4-117 54 20.56
15.165
1 Draconis (H.) .
4.3
9 20 27.657
+ 9.0418
4- 81 50 14.52
15.406
a Hydrae . . .
2.0
9 21 53.230
4- 2.9492
- 8 9 23.13
15.438
d Ursce Majoris .
4.7
9 24 12.294
+ 5.4099
4- 70 20 20.62
— 15.535
6 Ursce Majoris .
3.0
9 25 5.542
4- 4.0442
4- 52 12 18.59
16.200
* JO Leonis Minoris
4.7
9 27 6.902
4- 3.6957
+ 36 54 42.69
15.765
P Cephei (pr.) .
s.
p.
3.0
9 27 9.535
4- 0.7960
4-109 56 54.45
15.753
# o Leonis . . .
3.7
9 34 57.539
4- 3.2074
4- 10 25 9.89
16.208
* C Chamaeleontis .
5.0
9 37 15.707
— 1.5466
- 80 25 11.19
— 16.294
e Leonis . . .
3.0
9 39 15.939
4- 3.4161
+ 24 18 27.82
16.411
11 Cephei ....
s.
p.
5.0
9 40 13.220
4- 0.9030
+ 109 13 21.17
16.535
fj. Leonis . . .
4.0
9 46 9.905
4- 3.4231
+ 26 33 9.68
16.782
* 19 Leonis Minoris
5.3
9 50 34.627
4- 3.6973
+ 41 36 26.59
16.947
79 Draconis . . .
s.
p.
6.3
9 51 25.255
4- 0.7317
+ 106 50 47.02
— 17.010
* w Leonis . . .
5.0
9 54 4.982
4- 3.1748
+ 8 36 0.74
17.127
a Leonis (Regulus)
1.3
10 2 11.624
+ 3.2012
+ 12 32 1.18
17.463
32 Ursse Majoris .
6.0
10 9 35.905
4- 4.4270
+ 65 41 10.55
17.796
* X Ursce Majoris .
3.3
10 10 5.839
4- 3.6417
+ 43 29 34.37
17.860
Yl Leonis . . .
2.0
10 13 34.579
4- 3.3157
+ 20 25 40.26
— 18.076
* /a Hydrse . . .
4.0
10 20 28.868
4- 2.9005
- 16 14 41.13
18.302
* p Leonis Minoris
4.3
10 21 10.396
4- 3.4882
+ 37 18 4.25
18.304
* o Antliae . . .
4.0
10 21 50.644
+ 2.7386
- 30 28 40.52
18.209
9 Draconis (H.).
4.7
10 25 12.648
4- 5.2779
+ 76 18 35.44
18.378
p Leonis . . .
4.0
10 26 42.198
+ 3.1646
+ 9 54 11.13
— 18.423
226 Cephei (B.) .
!s
p.
5.3
10 30 14.067
4- 1.0793
+ 104 22 16.80
18.526
j* 41 Leonis Minoris
5.7
10 37 6.457
4- 3.2717
+ 23 47 43.11
18.730
j) Argus (var.) .
1-6
10 40 33.712
4- 2.3123
- 59 4 29.50
18.865
' I Leonis • . .
•_
*
5.3
10 43 9.592
4- 3.1590
+ 119 31.24
— 18.W55
* Apparent placet of star* marked with an aateriak are not given in this Ephemeria.
FIXED STARS, 1884.
297
MEAN PLACES FOR 1884.0. (January 0*.227, Washington.)
Name of Star.
Magni-
tad
Sight
Annual
Variation.
Declination.
Annual
Variation.
* d* Chamsaleontis .
i Cephei . . .
* 46 Leon is Minor is .
* Groombridge 1706
a Ursse Majoris . .
* fi Octantis ,. " . .
* p3 Leonis
S.P
S.P
S.P
UrsaB Majoris
Leonis . .
Ursse Majoris
Crateris . .
Cephei . .
Leonis . •
Draconis .
Hydras . .
Leonis . .
Cephei . .
Ursse Majoris . . .
fi Leonis
y Ursse Majoris . . .
Groombr. 4163 . S. P.
Virginis
Virginis
Corvi
Draconis (H.) . . .
y Corvi
2 Canum Venaticorum
0 Chamsaleontis . . .
y Virginis ....
6 Ursse Mi nor is • . .
c^Crucis
* d2 Corvi
* fi Canum Venaticorum
P Corvi
k Draconis ....
* T Virginis (mean) . .
21 Cassiopese . . . S. P,
* 31 Coronas Boreal is . .
322 Camelopardalis (H.) .
* y Cassiopeae . . . S. P,
a Canum Venaticorum
* 43 Cephei (H.) . . S. P
* d Muse©
* c Virginis
0 Virginis
* 20 Canum Venaticorum
a Urs. Min. (Polaris) S. P.
a Virginis (Spica) . .
* k Octantis
38 Cassiopeae . . . S. P.
5.0
3.3
4.0
6.0
2.0
6.0
6.0
3.3
2.3
3.3
3.3
5.3
5.0
3.3
4.0
5.0
3.3
3.7
2.0
2.3
7.0
4.3
4.0
3.0
4.7
2.0
5.3
5.0
3.3
6.0
1.0
2.3
4.3
2.3
3.3
2.7
6.0
5.0
4.7
2.0
2.7
4.3
4.0
2.7
4.3
4.7
2.0
1.0
5.0
6.3
h m a
10 44 40.666
10 45 33.074
10 46 49.339
10 50 38.479
10 56 33.643
11
11
11
11
11
0 4.870
0 59.196
3 8.304
7 56.309
12 12.803
II 13 32.517
11 13 52.009
11 21 58.297
11 24 30.253
11 27 17.827
11 31 0.575
11 34 35.484
11 39 55.329
11 43 8.546
11 47 43.567
11 49 12.033
11 54 55.700
11 59 17.994
12 4 9.677
12 6 45.458
12 9 50.491
12 10 18.689
12 11 33.905
12 13 58.289
12 14 19.604
12 20 8.467
12 23 51.877
12 28 13.956
12 28 17,700
12 28 31.666
12 35 46.982
12 38 0.099
12 46 2.943
12 48 17.133
12 49 42.816
12 50 36.066
12 53 4.993
12 54 18.435
12 56 24.175
13 3 56.644
13 12 20.416
13 16 14.291
13 19 4.946
13 22 22.781
13 22 36.683
+ 0.6122
2.1206
3.3710
4.9870
+ 3.7518
— 0.2788
+ 3.0622
3.3953
3.1990
3.2589
+ 2.9960
8.44.17
3.0862
3.6274
2.9421
+ 3.0712
2.4114
3.1924
3.0644
3.1841
+ 2.8602
3.0752
3.0578
3.0789
2.8927
+ 3.0789
3.0233
3.3903
3.0684
0.1015
+ 3.2738
3.1019
2.8606
3.1407
2.5948
+ 3.0381
3.8487
2.9307
0.3810
3.575J
+ 2.8163
7.1600
4.0266
2.9880
3.1007
+ 2.6976
22.3000
3.1530
8.5655
+ 4.3699
+
+
- 79 55 42.70
+ 114 24 34.60
+ 34 50 24.24
+ 78 23 28.53
+ 62 22 37.16
- 83 58 12.04
2 35 5.37
45 7 38.63
+ 21 9 32.51
+ 33 43 37.51
- 14 9 3.83
+ 1J2 31 22.78
+ 3 29 41.78
+ 69 58 16.16
- 31 12 37.64
- 0 11 0.44
+ 103 0 54.48
+ 48 25 21.02
+ 15 13 13.56
+ 54 20 22.62
+ 106 14 6.77
+ 7 45 40.15
+ 9 22 38.22
- 21 58 29.54
+ 78 15 39.12
- 16 53- 52.09
+ 41 18 21.85
- 78 40 4.40
- 0 1 19.66
+ 88 20 35.08
- 62 27 21.94
- 15 52 9.50
+ 41 59 16.39
- 22 45 18.47
+ 70 25 39.79
- 0 48 47.51
+ 105 38 46.46
+ 28 10 19.26
+ 84 2 36.34
+ 119 54 42.44
+ 38 56 42.02
+ 94 21 57.04
- 70 55 21.25
+ 11 34 58.14
- 4 55 10.02
+ 41 11 0.73
+ 91 18 35.13
- 10 33 19.93
- 85 11 24.94
+ 110 19 58.81
19.002
18.872
19.288
19.170
19.357
19.409
19.482
19.499
19.681
19.569
19.460
19.666
19.799
19.834
19.883
19.858
20.074
19.960
20.118
20.026
20.022
20.088
20.016
20.041
20.023
-20.019
20.067
19.999
20.044
19.941
20.017
20.088
19.619
19.966
19.893
19.816
19.757
19.666
19.597
19.570
19.518
19.517
19.484
19.423
19.320
19.043
18.954
18.910
18.802
-18.689
* Apparent place* of star* marked with an aateriak are not given in this Ephemeria.
298
FIXED STARS, 1884.
MEAN PLACES FOR 1884.0. (January Oa.227, Washington.)
Name of Star.
C Virginis. .
* B. A. C. 4536
* m Virginis. .
7) UrssB Majoris
7) Bootis . .
50 Cassiopeae .
* 0 Apodis . .
P Centauri
7z Hydrae .
a Draconis
Bootis . .
Virginis . .
Octantis . .
Ursae Minoris
a Bootis (Arcturus)
X Bootis . .
X Virginis. .
c Cassiopeae .
0 Bootis . .
p Bootis . .
5 Ursae Minoris ,
a2 Centauri . ,
* a Apodis . . ,
* 33 Bootis . .
e Bootis . . .
a2 Libra . .
• 47 Cephei (H.)
,$ Ursae Minoris
* y Scorpii . .
P Bootis . .
48 Cephei (H.)
(} Librae . .
8 Bootis . .
p Octantis. .
S,
ix l Bootis . . .
y* Ursae Minoris .
P Coronae Boreal is
a Coronae Borealis
y Camelop. (H.) .
a Serpentis . .
e Serpentis . .
C Ursae Minoris .
t Coronae Borealis
d Scorpii . . .
ft1 Scorpii . . .
8l Apodis . . .
<p Herculis . .
Groombridge 2320
8 Ophiuchi . . .
tr Coronae Borealis (mean)
Magni-
tude.
3.3
5.0
6.0
2.0
3.0
4.0
5.0
1.0
3.7
3.3
5.0
4.3
5.0
5.0
1.0
4.0
4.7
4.0
4.0
3.7
4.7
1.0
4.7
5.3
2.3
2.3
6.0
2.0
3.3
3.0
6.3
2.0
3.0
6.0
4.0
3.0
4.0
2.0
4.3
2.3
3.3
4.3
4.0
2.3
2.0
5.3
4.0
6.3
3.0
5.7
Bight Ascension.
h m s
13 28 46.958
13 29 36.973
13 35 31.460
13 42 58.182
13 49 9.697
13 53 32.803
13 54 3.832
13 55 38.598
13 59 46.137
14 1 14.989
14
14
14
14
5 6.541
6 42.526
8 27.629
9 18.981
14 10 22.245
14 11 58.411
14 12 50.042
14 19 30.997
14 21 14.919
14 26 49.898
14 27 46.958
14 31 44.779
14 33 30.262
14 34 31.202
14 39 55.315
14 44 27.708
14 50 42.566
14 51 3.227
14 57 16.982
14 57 34.617
15 5 38.309
15 10 45.925
15 10 49.601
15 16 43.209
15 20 6.520
15 20 55.223
15 23 2.807
15 29 46.619
15 38 7.714
15 38 33.278
15 45 2.047
15 48 13.479
15 52 47.176
15 53 28.533
15 58 41.589
16 3 3.053
16 5 6.746
16 6 0.350
16 8 16.026
16 10 20.025
Annual
Variation.
+
+
+
+
+
3.0528
2.6828
3.1426
2.3713
2.8568
4- 6.0008
+ 5.6587
+ 4.1732
+ 3.4066
+ 1.6235
+ 2.7388
+ 3.1932
+ 8.9224
— 0.3311
+ 2.7348
+ 2.2830
+ 3.2372
+ 4.8551
+ 2.0442
+ 2.5878
— 0.1967
+ 4.0420
+ 7.1591
+ 2.2344
+ 2.6213
+ 3.3087
+ 7.6971
— 0.2366
+ 3 5009
+ 2.2601
+ 7.3875
+ 3.2211
+ 2.4208
+ 12.9025
+ 2.2662
— 0.1377
+ 2.4750
+ 2.5391
+ 6.2297
+ 2.9513
+
2.9868
—
2.2624
+
2.4831
+
3.5378
+
3.4800
+
+
+
+
+
8.7375
1.8811
0.1376
3.1392
2.2445
Declination.
0 0 8.78
37 46 37.07
8 7 1.95
49 53 32.95
18 58 46.70
+ 108 8 27.03
- 76 14 7.89
- 59 48 45.72
- 26 7 23.38
+ 64 55 49.52
+ 25 38 29.73
- 9 43 59.82
- 83 8 4.22
+ 78 5 33.49
+ 19 47 12.43
+ 46 37 16.81
- 12 50 11.71
+ 113 7 12.46
+ 52 23 14.10
+ 30 52 51.78
+ 76 12 41.92
- 60 21 30.31
- 78 33 1.19
+ 44 54 19.72
+ 27 33 49.53
- 15 33 32.48
+ 101 2 30.10
+ 74 37 46.36
- 24 49 30.50
+ 40 50 54.80
+ 102 41 36.53
- 8 57 14.90
+ 33 44 53.76
- 84 4 28.97
+ 37 47 4.47
+ 72 14 48.33
+ 29 30 21.74
+ 27 6 20.53
+ 109 1 37.37
+ 6 47 28.59
+ 4 49 39.84
+ 78 9 2.72
+ 27 12 51.96
- 22 17 25.80
- 19 29 13.01
- 78 24 0.49
45 14 22.28
68 6 57.13
3 23 40.98
34 9 11.73
Variation.
- 18.528
16.548
18.300
18.088
18.182
17.666
17.614
17.608
17.518
17.306
17.213
16.943
16.992
16.909
18.895
16.671
16.744
16.456
16.772
15.974
16.011
15.395
15.734
15.723
15.356
15.187
14.738
14.718
14.377
14.375
13.775
13.530
13.599
13.063
12.795
12.81 1
12.611
12.323
11.586
11.572
11.070
10.907
10.630
10.554
10.164
9.776
9.595
9.499
9.537
9.273
* Apparent places of stars marked with an asterisk are not given in this Ephemeris.
FIXED STARS, 1884.
299
MEAN PLACES FOR 1884.0. (January 0d.227, Washington.)
Name of Star.
Magni-
tude.
Bight Ascension.
Annual
Variation.
Declination.
Annual
Variation.
* y Apodis
4.3
h m s
16 15 41.446
8
+ 8.9930
__
78 37 59.55
— 8.°863
t Herculis ....
3.3
16 16 15.283
+ 1.8008
+
46 35 23.96
8.749
* y Urs» Minoris . . .
5.0
16 20 54.388
— 1.8986
+
76 1 19 90
8.149
a Scorpii (Antares)
1.3
16 22 17.748
+ 3.661)3
—
26 10 24 34
8.330
71 Draconis ....
2.7
16 22 25.420
+ 0.8053
+
61 46 37.02
8.228
£ Herculis ....
2.3
16 25 14.011
+ 9.5773
+
21 44 35.39
— 8.076
A Draconis ....
5.0
16 28 12.991
—.0.1372
+
69 1 8.12
7.797
C Ophiuchi ....
2.7
16 30 46.310
+' 3.9986
10 19 52.05
7.590
a Trianguli Australis .
2.0
16 36 23.572
+ 6.9986
—
68 48 44.59
7.211
7} Herculis . . . .
3.3
16 38 55.142
+ 2.0536
+
39 8 36.44
7.037
a Camelopardalis . S. P.
4.7
16 42 31.276
+ 5.9913
+ 113 51 23.10
— 6.650
k Ophiuchi ....
3.3
i6 52 10.681
4- 9.8379
+
9 33 22.61
5.854
d Herculis ....
5.0
16 57 19.417
+ 2.91 II
+
33 44 12.90
5.414
5 Ursa? Minoris . . .
4.3
16 57 53.645
—•6.3484
+
82 13 34.51
5.370
* 17 Ophiuchi ....
2.7
17 3 43.525
+ 3.4366
—
15 34 48.63
4.765
a1 Herculis (var.) . .
3.5
17 9 21.505
+ 9.7333
+
14 31 24.29
— 4.369
# 7r Herculis . ...
3.0
17 11 0.439
+ 9.0889
+
36 56 25.70
4.246
* 0 Ophiuchi ....
3.3
17 14 53.146
4- 3.6787
24 52 57.16
3.973
b Ophiuchi (var.) . .
5.0
17 19 17.188
+ 3.6587
—
24 4 2.33
3.675
* d ArsB ..'....
4.0
17 20 37.890
+ 5.4001
—
60 35 7.14
3.569
Groombr. 966 . . S. P.
6.3
17 24 13.562
+ 7.9967
+ 105 2 8.90
— 3.137
* Groombr. 944 . . S. P.
6.3
17 24 56.518
+ 18.6191
+
94 51 55.39
3.067
ji Draconis ....
2.7
17 27 48.751
+ 1.3531
+
52 23 15.22
2.808
a Ophiuchi ....
2.0
17 29 33.002
+ 9.7897
+
12 38 43.23
2.894
* e Herculis ....
3.3
17 36 11.521
+ 1.6964
+
46 4 6.59
2.091
10 Draconis ....
5.0
17 37 37.927
— 0.3544
+
68 48 41.09
— 1.630
/1 Herculis ....
3.3
17 41 55.161
4- 9.3469
+
27 47 20.98
2.339
(p ! Draconis ....
4.3
17 44 0.155
— 1.0801
+
72 12 19.26
1.672
* 0 Herculis ....
4.0
17 52 16.479
4- 9.0550
+
37 15 59.34
0.657
y Draconis ....
2.3
17 53 54.765
4- 1.3913
+
51 30 10.30
0.562
Y% Sagittarii ....
3.3
17 58 21.378
4- 3.8514
__
30 25 27.02
— 0.363
* 0 Herculis ....
4.0
18 3 1.070
4- 9.3393
+
28 44 49.92
4- 0.267
22 Camelop. (H.) . . S. P.
4.7
18 6 3.497
4- 6.6179
+ 110 38 30.36
0.648
!± Sagittarii ....
4.0
18 6 49.578
4- 3.5866
—
21 5 16.55
0.585
d Ursffi Minoris . . .
4.3
18 9 44.395
— 19.4505
+
86 36 36.85
0.902
7) Serpentis ....
3.0
18 15 18.462
4- 3.1029
—
2 55 39.72
4- 0.664
* A Sagittarii ....
3.0
18 20 48.703
4- 3.7097
25 29 4.53
1.609
* 1 Draconis ....
4.0
18 23 8.812
— 1.0791
4-
72 40 55.62
1.645
1 Aquilee
4.3
18 28 53.685
4- 3.2645
8 19 27.08
2.192
* C Pavonis
4.0
18 29 28.499
4- 7.0314
—
71 31 28.16
2.431
<r Octantis
6.0
18 31 42.572
4-107.4920
—
89 16 20.41
4- 2.747
a Lyrse ( Vega ) . . .
1.0
18 33 0.678
4- 9.0313
+
38 40 34.40
3.152
51 Cephei (H.) . . S. P.
5.3
18 45 45.652
4-30.0340
+
92 46 30.54
4.070
P Lyrae ( var.) . . .
4.0
18 45 47.852
4- 9.9142
+
33 13 42.75
3.963
<r Sagittarii ....
2.3
18 48 4.339
4- 3.7990
—
26 26 22.36
4.098
50 Draconis ....
6.0
18 50 6.497
— 1.9050
4-
75 17 47.60
4- 4.424
* y Lyrae
3.3
18 54 36.280
4- 2.9443
+
32 31 51.94
4.744
C Aquilee
3.0
19 0 4.724
4- 9.7569
+
13 41 30.69
5.093
* c Lyrce
5.0
19 3 9.778
4- 9.1411
+
35 55 8.11
5.166
* 25 Camelopardalis . S. P.
4.7
19 6 36.827
4-12.9850
f 4-
97 22 8.57
4- 5.778
* Apparent places of stars marked with an asterisk are not given in this Ephemeris.
300
FIXED STARS, 1884.
MEAN PLACES FOR 188fcL0. (January (^.227, Washington.)
Name of Star.
Magni-
tude.
Bight Ascension,
Variation.
Declination.
Annual
Variation.
d Sagittarii .
0 Lyra . .
d Draconis .
t Draconis .
Piazzi vii. 67
d Aquilee . . .
P Cygni . . .
k Aquilie . . .
P Sagittae . . .
X Ursse Minor is .
y Aquilee . . .
8 Cygni . . .
a Aquilee (Alt air)
Groombr. 1374
e Pavonis . . .
e Draconis . .
P Aquilee . . .
y Sagittae . . .
c Sagittarii . .
r Aquilee . . .
3 Ursse Majoris (H.
0 Aquilee . • •
01 Cygni . . .
^Capricorni . .
k Cephei (pr.) .
a Pavonis . . .
r Cygni . . .
it Capricorni . .
e Delphini . .
Groombridge 3241
a Delphini . .
P Pavonis . . .
a Cygni . . .
(p Capricorni . .
e Cygni . • •
fi Aquarii . . .
12 Year Cat. 1879
y Cygni . . .
<r* Ursee Majoris .
61 ! Cygni . . .
C Cygni . . .
r Cygni ...
a Cephei . . .
1 Pegasi . . .
C Capricorni . .
1 Draconis (H.).
d Ursse Majoris .
P Aquarii . . .
P Cephei (pr.) .
£ Aquarii . . .
5.0
4.3
3.0
4.7
6.0
3.3
3.0
5.0
4.3
6.3
3.0
2.7
1.3
5.7
4.0
3.7
4.0
3.7
5.0
6.0
5.7
3.0
4.3
3.0
4.3
2.0
2.3
5.0
4.0
6.3
3.7
3.0
1.7
4.3
2.7
4.7
6.0
4.0
5.0
5.0
3.0
4.0
2.7
4.3
4.0
4.3
4.7
3.0
3.0
5.0
h m s
19 10 50.851
19 12 20.476
12 31.559
17 46.714
18 48.185
19
19
19
19 19 38.976
19 26 2.607
19 30 39.030
19 35 50.343
19 39 59.774
19 40 44.696
19 41 20.992
19 45 7.421
19 46 17.254
19 47 9.913
19 48
19 49
19 53
19 55
19 58
20 1
20 5
20 9
20 11
20 12
20 16
20 18
20 20
20 27
20 30
20 34
20 34
20 37
20 39
20 41
20 46
20 52
20 52
21 0
21 1
21 7
21 10
21 15
21 16
21 20
21 20
21 24
21 25
21 27
21 31
33.524
36.919
35.916
31.392
28.431
15.521
19.137
58.749
37.087
46.473
28.267
4.015
40.872
40.288
29.970
14.999
29.591
28.673
13.484
31.071
23.815
48.899
50.930
10.364
41.864
59.948
9.669
48.636
4&300
2.537
27.657
12.294
27.128
9.535
34.603
8
3.5106
2.0789
0.0308
1.1138
6.3033
+ 3.0253
+ 2.4193
+ 3.2291
+ 2.6955
—63.3185
+ 2.8522
+ 1.8761
+ 2.9277
+ 7.2958
+ 7.0574
— 0.1768
4- 2.9471
+ 2.6678
+ 3.6957
+ 2.9332
+ 6.0555
+ 3.0974
+ 1.8893
+ 3.3326
— 1.9141
+ 4.7873
+ 2.1536
+ 3.4402
+ 2.8672
— 0.2162
+ 2.7878
+ 5.4804
+ 2.0443
+ 3.5594
+ 2.4274
+ 3.2402
— 2.5320
+ 2.2339
+
+
+ 2.5494
+ 2.3932
+ 1.4369
+ 2.7721
+ 3.4335
+ 9.0418
+ 5.4099
+ 3.1621
+ 0.7960
+ 3.1984
o,
2.6830
19 9 29.54
37 55 39.31
67 27 26.98
73 8 23.18
+ 111 17 57.73
2 53 3.78
27 43 0.06
7 17 3.70
17 12 28.34
88 57 11.18
+
+
+
+
+ 10 19 52.88
+ 44 50 52.97
+ 8 33 45.84
+ 105 46 28.04
- 73 12 50.73
+ 69 58 20.97
+ 67 3.96
+ 19 10 40.17
- 28 1 52.52
+ 6 57 4.69
+ 111 11 10.57
- 1 9 53.41
+ 46 23 23.63
- 12 54 12.55
+ 77 21 41.59
- 57 6 18.95
+ 39 53 8.92
- 18 35 28.02
+ 10 54 35.24
+ 72 8 19.01
+ 15 30 12.27
- 66 37 5.77
+ 44 51 58.28
- 25 41 12.82
+ 33 32 10.06
- 9 25 4.35
+ 80 6 59.71
+ 40 43 15.52
+ 112 23 44.66
+ 38 10 46.00
+ 29 45 5.51
+ 37 33 2.20
+ 62 5 39.44
+ 19 18 31.30
- 22 54 46.94
+ 98 9 45.48
+ 109 39 39.38
-64 51.36
+ 70 3 5.55
- 8 22 25.88
+ 6.083
6.226
6.326
6.784
"6.797
+ 6.906
7.345
7.728
8.115
8.485
+ 8.526
8.618
9.250
9.004
8.937
+ 9.175
8.738
9.576
9.705
9.918
+ 10.120
10.436
10.776
10.894
11.007
+ 11.157
11.356
11.534
12.023
12.223
+ 12.504
12.495
12.712
12.668
13.325
+ 13.270
13.698
13.712
14.246
17.515
+ 14.599
15.250
15.165
15.227
15.384
+ 15.406
15.535
15.647
15.753
+ 15.957
* Apparent places of atars marked with an asterisk are not given in this Bphemeris.
FIXED STARS, 1884.
301
MEAN PLACES FOR 1884.0. (January 0^227, Washington.)
Name of Star.
74 Cygni •
J1 Octantis.
c Pegasi .
II Cephei ,
w* Cygni .
ft Capricomi
16 Pegasi .
79 Draconis
a Aquarii .
a Gruis
tz Pegasi . . .
v Octantis . .
32 Ursae Majoris .
0 Aquarii . . .
Y Aquarii . . .
7 Aquarii . . .
a Aquarii . . .
9 Draconis (H.) .
a Lacertoe. . .
rj Aquarii . . .
226 Cephei (B.) .
10 Lacertoe . .
P Octantis.
C
X
S.P,
S.P.
Pegasi
Pegasi
Cephei
Aquerii
Groombr. 1706 . S. P.
Pis. Aus. (Fomalhaut)
Ursae Majoris . . S. P.
o Andromeda? . . .
a Pegasi (Markab) . .
f Aquarii
o Cephei
t Pegasi
0 Piscium
X Draconis . . . S. P.
X Andromeda? . . .
t Piscium
y Cephei
t1 Aquarii
d Sculptoris ....
y l Octantis
Groombridge 4 1 63 .
at Piscium
• 33 Piscium ,
Magni-
5.0
5.3
2.3
5.0
4.3
5.0
5.3
6.3
3.0
2.0
4.0
6.0
6.0
4.3
3.3
4.7
5.0
4.7
4.0
4.0
5.3
5.0
4.7
3.3
4.0
3.3
4.0
6.0
1.3
2.0
3.7
2.0
4.3
5.3
4.7
4.7
3.3
4.0
4.3
3.3
5.0
4.3
5.3
7.0
4.0
5.0
Right Ascension.
h m s
21 32 18.003
21 32 59.380
21 38 29.345
21 40 13.220
21 42 30.502
21 46 58.270
21 47 47.055
21 51 25.255
21 59 49.550
22 0 55.048
22
22
22
4 50.177
9 5.367
9 35.905
22 10 42.735
22 15 39.855
22 19 21.189
22 24 30.397
22 25 12.648
22 26 30.803
22 29 23.729
22 30 14.067
22 34 3.418
22 34 7.482
22 35 40.622
22 40 56.648
22 45 33.074
22 46 33.773
22 50 38.479
22 51 14.329
22 56 33.643
22 56 35.100
22 56 58.986
23 8 18.905
23 13 52.009
23 14 53.764
23 22 5.035
23 24 30.253
23 31 53337
23 33 59.050
23 34 35.484
23 38 11.097
23 42 52.981
23 45 15.178
23 49 12.033
23 53 21.302
23 59 23.886
Annual
Variation.
+ 2.4011
9.8479
2.9467
0.9030
2.2127
+ 3.2767
2.7275
0.7317
3.0829
3.8086
+ 2.6596
13.3676
4.4270
3.1695
3.1010
+ 3.0648
3.1762
5.2779
2.4613
3.0838
+ 1.0793
2.6858
6.5200
2.9908
2.8847
+ 2.1206
3.1331
4.9870
3.3260
3.7518
+ 17489
2.9847
3.1090
2.4417
2.9629
+ 3.0410
3.6274
2.9206
3.0840
2.4114
+ 3.1175
3.1334
3.7078
2.8602
3.0781
+ 3.0709
Declination.
89 58 33.36
83 15 2.23
9 20 37.16
70 46 38.83
48 46 23.51
14 5 50.23
25 22 47.04
73 9 12.98
0 52 58.66
- 47 31 19.16
+ 82 36 33.89
- 86 33 19.33
+ 114 18 49.45
- 8 21 37.76
- 1 56 17.56
+ 0 47 20.87
- 11 16 16.19
+ 103 41 24.56
+ 49 41 10.71
- 0 42 54.23
75 37 43.20
38 26 48.25
81 59 19.37
10 13 34.00
22 57 19.59
+
+
+
+
+ 65 35 25.40
- 8 11 47.54
+ 101 86 31.47
- 30 14 12.26
+ 117 37 22.84
41 42 9.29
14 34 52.63
6 40 26.78
67 28 37.22
23 6 19.44
+
+
+
+
+ 5 44 30.51
+ 110 1 43.84
+ 45 49 46.17
+ 4 59 51.50
+ 76 59 5.52
- 18 55 14.20
- 28 46 17.05
- 82 39 48.54
+ 73 45 53.23
+ 6 13 15.84
- 6 21 23.19
Annual
Variation.
+ 16.041
15.984
16.344
16.535
16.534
+ 16.767
16.808
17.010
17.345
17.234
+ 17.571
17.836
17.796
17.792
18.030
+ 18.140
18.309
18.378
18.408
18.449
+ 18.526
18.662
18.664
18.699
18.867
+ 18.872
19.068
19.170
18.987
19.357
+ 19.282
19.296
19.354
19.666
19.652
+ 19.724
19.834
19.470
19.481
20.074
+ 19.957
19.855
19.91)1
20.022
19.930
+ 20.144
4 Apparent places of star* marked with an asterisk are not given in this Ephemeris.
302
JANUARY, 1884.
CIRCUMPOLAR STARS.
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
a Vnm Minoris.
(Polaris.)
51 Cephei (He v.)
6 Ursa Minoris.
X Ureas Minoris.
.Mean
Solar
Date.
Mean
Solar
Date.
Mean
Solar
Date.
Mean
Solar
Date.
Right *
Ascen-
sion.
Declina-
tion
North.
Right
Aacen-
aion.
Declina-
tion
North.
Right
Ascen-
sion.
Declina-
tion
North.
Right
Ascen-
sion.
Declina-
tion
North.
Jan.
h m
1 16
+ 88 41
Jan.
h m
6 46
+ 87° 13
Jan.
h m
18 9
+86° 36'
Jan.
h m
19 38
+ 88° 57
0.3
52.53
45.5
0.5
a
16.74
19.5
1.0
a
18.49
42.9
1.0
a
49.53
25.8
1.3
51.51
45.6
1.5
16.85
19.8
2.0
18.51
42.5
2.0
49.05
25.5
£3
50.48
45.7
2.5
16.92
20.2
3.0
18.55
42.2
3.0
48.65
25.1
3.3
49.47
45.8
3.5
16.97
20.5
4.0
18.59
41.8
4.0
48.31
24.8
4.3
48.50
45.8
4.5
17.01
20.8
5.0
18.65
41.5
5.0
48.01
24.5
5.3
47.59
45.9
5.5
17.03
21.1
6.0
18.70
41.2
6.0
47.72
24.2
6.3
46.74
45.9
6.5
17.06
21.4
7.0
18.75
40.9
7.0
47.42
23.9
7.3
45.92
46.0
7.5
17.10
21.7
8.0
18.79
40.6
8.0
47.10
23.6
6.3
45.11
46.0
8.5
17.15
22.0
9.0
18.81
40.3
9.0
46.75
23.4
9.3
44.30
46.1
9.5
17.22
22.3
9.9
18.84
40.0
10.0
46.38
23.1
10.2
43.46
46.2
10.5
17.29
22.6
10.9
18.86
39.7
11.0
45.98
22.8
11.2
42.57
46.3
11.5
17.35
22.9
11.9
18.89
39.3
12.0
45.59
9fc5
12.2
41.62
46.3
12.5
17.40
23.2
12.9
18.94
39.0
13.0
45.24
22.1
13.2
40.61
46.4
13.5
17.42
23.5
13.9
19.03
38.6
14.0
44.95
21.8
H.2
39.57
46.4
14.5
17.41
23.9
14.9
19.13
38.2
15.0
44.75
21.4
15.2
38.51
46.5
15.5
17.38
24.3
15.9
19.25
37.9
16.0
44.63
21.0
16.2
37.45
46.4
16.5
17.32
24.6
16.9
19.39
37.5
17.0
44.60
20.7
17.2
36.41
46.4
17.5
17.21
25.0
17.9
19.54
37.2
18.0
44.64
20.3
18.2
35.44
46.4
18.5
17.08
25.3
18.9
19.70
36.9
19.0
44.71
20.0
19.2
34.52
46.3
19.5
16.96
25.5
19.9
19.86
36.6
20.0
44.79
J9.7
20.2
33.66
46.3
20.4
16.85
25.8
20.9
20.01
36.4
21.0
44.85
19.4
21.2
32.82
46.2
21.4
16.75
26.1
21.9
20.15
36.1
22.0
44.88
19.1
22.2
31.99
46.2
22.4
16.66
26.4
22.9
20.28
35.8
23.0
44.88
18.8
23.2
31.16
46.2
23.4
16.58
26.7
23.9
20.41
35.5
24.0
44.85
18.5
24.2
30.30
46.2
24.4
16.51
27.0
24.9
20.54
35.2
25.0
44.80
18.2
25.2
29.39
46.1
25.4
16.44
27.3
25.9
20.68
34.9
26.0
44.76
17.9
26.2
28.41
46.1
26.4
16.36
27.6
26.9
20.83
34.6
27.0
44.76
17.5
27.2
27.41
46.1
27.4
16.26
27.9
27.9
21.00
34.3
28.0
44.83
17.2
28.2
26.38
46.0
28.4
16.12
28.3
28.9
21.19
34.0
29.0
44.98
16.8
29.2
25.35
45.9
29.4
15.94
28.6
29.9
21.41
33.6
30.0
45.20
16.4
30.2
24.34
45.8
30.4
15.74
28.9
30.9
21.64
33.3
31.0
45.50
16.1
31.2
23.38
45.7
31.4
15.52
29.2
31.9
21.88
33.1
FEBRUARY, 1884.
303
CIRCUMPOLAR STARS.
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
i
1
a Urs® Minoris.
(Pol***** -^
51 Cephei (He v.)
6Unm
Mi Doris.
% Urate Minoris.
Mean
Solar
Date.
Mean
Solar
Date.
Mean
Solar
Date.
Mean
Solar
Date.
Eight
Ascen-
sion.
Declina-
tion
Forth.
Right
Ascen-
sion.
Declina-
tion
North.
Right
Ascen-
sion.
Declina-
tion
North.
Right
Ascen-
sion.
Declina-
tion
North.
Feb.
h m
1 16
+ 88° 4l'
Feb.
h m
6 46
+ 87° 13
Feb.
h m
18 9
+ 86 26
Feb.
h m
19 38
+ 88° 57
1.2
22.47
it
45.6
1.4
8
15.30
29.5
1.9
22.12
it
32.8
1.0
45.84
15.8
2.2
21.63
45.5
2.4
15.08
29.8
2.9
22.35
32.6
1.9
46.20
15.4
3.2
20.84
45.3
3.4
14.86
30.0
3.9
22.58
32.4
2.9
46.57
15.2
4.2
20.08
45.2
4.4
14.67
30.3
4.9
22.80
32.1
3.9
46.91
14.9
5.2
19.34
45.1
5.4
14.49
30.5
5.9
23.01
31.9
4.9
47.23
14.6
6.2
18.58
45.0
6.4
14.32
30.7
69
23.21
31.7
5.9
47.51
14.4
7.2
17.78
44.9
7.4
14.15
31.0
7.9
23.42
31.4
6.9
47.77
14.1
8.2
16.94
44.8
8.4
13.98
31.3
8.9
23.63
31.1
7.9
48.02
13.8
9.2
16.04
44.7
9.4
13.78
31.6
9.9
23.87
30.9
8.9
48.30
13.5
10.2
15.11
44.6
10.4
13.56
31.9
10.9
24.14
30.6
9.9
48.64
13.1
11.2
14.17
44.4
11.4
13.29
32.1
11.9
24.44
30.3
10.9
49.04
12.8
12.2
13.23
44.2
12.4
12.99
32.4
12.9
24.74
30.1
11.9
49.54
12.5
13.2
12.33
44.1
13.4
12.67
32.7
13.9
25.05
29.9
12.9
50.12
12.1
14.2
11.49
43.9
14.4
12.34
33.0
14.9
25.37
29.7
13.9
50.76
11.8
15.1
10.70
43.6
15.4
12.00
33.2
15.9
25.69
29.5
14.9
51.46
11.5
16.1
9.99
43.4
16.4
11.66
33.4
16.8
26.01
•
29.3
15.9
52.16
11.2
17.1
9.31
43.2
17.4
11.33
33.6
17.8
26.31
29.1
16.9
52.86
11.0
18.1
8.66
43.0
18.4
11.01
33.8
18.8
26.60
29.0
17.9
53.54
10.7
19.1
8.03
42.8
19.4
10.71
34.0
19.8
26.89
28.8
18.9
54.17
10.5
20.1
7.38
42:6
20.4
10.44
34.2
20.8
27.17
28.6
19.9
54.76
10.3
21.1
6.70
42.4
21.4
10.17
34.4
21.8
27.45
28.4
20.9
55.33
10.0
22.1
5.98
42.2
22.4
9.89
34 6
22.8
27.74
28.2
21.9
55.89
9.7
23.1
5.23
42.0
23.4
9.59
34.9
23.8
28.05
28.0
22.9
56.48
9.5
24.1
4.45
41.8
24.3
9.26
35.1
24.8
28.38
27.8
23.9
57.11
9.2
25.1
3.66
41.6
25.3
8.91
35.3
25.8
28.72
27.7
24.9
57.81
8.9
26.1
2.89
41.4
26.3
8.53
35.6
26.8
29.08
27.5
25.9
58.58
8.6
27.1
2.18
41.1
27.3
8.12
35.8
27.8
29.44
27.4
26.9
59.42
8.3
28.1
I
1.51
40.8
28.3
7.71
35.9
28.8
29.81
27.3
27.9
60.32
8.1
29.1
0.94
40.6
29.3
7.31
36.1
29.8
30.17
27.2
28.9
29.9
61.24
62.16
7.8
7.6
304
MARCH, 1884.
CIRCUMPOLAR STARS.
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
i
Menu
Solar
Date.
a Ureas Minoris.
(Polaris.)
Mean
solar
Date,
51 Cepht
si (Hit.)
Mean
Anln*.
6 Ursa Minoris.
Mean
Solar
Date.
X Una? Minoris.
i
Right
Ascen-
sion.
Declina-
tion
North.
Right
Ascen-
sion.
Declina-
tion
North.
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Right
Ascen-
sion.
Declina-
tion
North.
Mar.
h m
1 15
O 1
+86 41
Mar.
h m
6 45
+87° 13
Mar.
h m
18 9
+86 36
Mar.
h m
19 39
■ 1
+88 57,
1.1
8
60.41
40.3
1.3
s
66.91
36.2
1.8
30.52
27.1
1.9
3.08
7.4
2.1
59.94
40.0
2.3
66.53
36.3
2.8
30.84
27.0
2.9
3.96
7.2
3.1
59.50
39.8
3.3
66.17
36.4
3.8
31.16
26.9
3.9
4.80
7.1
4.1
59.06
39.5
4.3
65.63
36.6
4.8
31.48
26.6
4.9
5.59
6.9
6.1
58.61
39.3
5.3
65.49
36.7
5.8
31.80
26.7
5.9
6.35
6.7
6.1
58.12
39.1
6.3
65.15
36.8
6.8
32.11
26.6
6.9
7.12
6.5
7.1
57.69
38.8
7.3
64.80
37.0
7.8
32.44
26.4
7.9
7.93
6.3
8.1
57.02
38.6
8.3
64.44
37.1
6.8
32.79
26.3
8.9
8.81
6.1
9.1
56.43
38.3
9.3
64.05
37.3
9.8
33.16
26.2
9.8
9.75
5.8 |
10.1
55.85
38.0
10.3
63.63
37.5
10.8
33.54
26.1
10.8
10.78
5.6 ;
11.1
55.29
37.7
11.3
63.17
37.6
11.8
33.94
26.1
11.8
11.88
5.4
13.1
54.79
37.4
12.3
62.69
37.7
12.8
34.34
26.0
12.8
13.03
5.2
13.1
54.36
37.1
13.3
62.21
37.8
13.8
34.74
26.0
13.8
14.19
5.1
14.1
54.01
36.6
14.3
61.74
37.9
14.6
35.13
26.0
14.8
15.34
4.9
15.1
53.72
36.4
15.3
61.29
38.0
15.8
35.50
26.0
15.8
16.45
4.8
16.1
53.46
36.1
16.3
60.85
38.0
16.8
35.86
26.0
16.8
17.63
4.7
17.1
53.22
35.8
17.3
60.43
38.0
17.8
36.21
26.0
17.8
18.55
4.6
18.1
52.99
35.5
18.3
60.03
38.1
18.8
36.55
26.0
18.8
19.52
4.4
19.1
52.74
35.2
19.3
59.64
38.1
19.8
36.88
25.9
19.8
20.48
4.3
20.1
52.46
35.0
20.3
69.26
38.2
20.8
37.22
25.9
20.8
21.44
4.2
21.1
52.14
34.7
21.3
58.86
38.3
21.8
37.57
25.9
21.8
22.43
4.0
22.0
51.80
34.4
22.3
58.46
38.4
22.7
37.93
25.8
22.8
23.47
3.9
23.0
51.45
34.1
23.3
58.02
36.4
23.7
38.30
25.8
23.8
24.57
3.7
24.0
51.11
33.8
24.3
57.56
36.5
24.7
36.69
25.8
24.8
25.73
3.6
25.0
50.82
33.5
25.3
57.09
38.6
25.7
39.09
25.8
25.8
26.95
3.5
26.0
50.59
33.1
26.3
56.60
38.6
26.7
39.48
25.9
26.8
28.19
3.4
27.0
50.42
32.8
27.3
56.12
36.6
27.7
39.86
26.0
27.8
29.42
3.3
28.0
50.33
32.4
28.3
65.66
. 38.6
28.7
40.23
26.1
28.8
30.63
3.3
29.0
50.31
32.1
29.3
55.21
36.6
29.7
40.59
26.2
29.8
31.80
3.2
30.0
60.33
31.8
30.3
54.78
38.5
30.7
40.94
26.2
30.8
32.92
3.2
31.0
50.36
31.5
31.3
54.38
38.5
31.7
41.27
26.3
31.8
34.00
3.2
32.0
50.38
31.2
32.2
54.00
38.4
32.7
41.69
26.4
32.8
36.03
3.1
APRIL, 1884.
305
•
OIRCUMPOLAR STARS.
APPABENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
a Ursa Minoris.
(PoUria.\
51 Ceph
ei (Hbv.)
dUrs©
Minoris.
X Urs» Minoris.
Menu
Solar
Date.
\
Mean
Solar
Date.
Mean
Solar
Date.
Mean
Solar
Date.
Bight
Ascen-
sion.
Declina-
tion
North.
Bight
Ascen-
sion.
Declina-
tion
North.
Bight
Ascen-
sion.
Declina-
tion
North.
Right
Ascen-
sion.
Declina-
tion
North.
Apr.
h m
1 15
+88 41
Apr.
h m
6 45
+87° 13
Apr.
h m
18 9
+86° 36
Apr.
h m
19 39
+88° 57
1.0
50.38
31.9
1.9
54.00
38.4
1.7
41.59
//
96.4
1.8
35.03
3.1
9.0
50.38
30.9
9.9
53.69
38.4
9.7
41.90
96.4
9.8
36.04
3.1
3.0
50.35
30.6
3.9
53.93
38.4
3.7
49.99
96.5
3.8
37.06
3.0
4.0
50.97
30.3
4.9
59.84
38.4
4.7
49.55
96.5
4.8
38.12
3.0
5.0
50.16
30.0
5.9
59.43
38.4
5.7
49.91
96.6
5.8
39.23
2.9
6.0
50.05
99.7
6.9
51.99
38.4
6.7
43.98
96.7
6.8
40.41
2.8
7.0
49.97
99.4
7.9
51.59
38.4
7.7
43.66
26.8
7.8
41.66
9.8
8.0
49.94
99.0
8.9
51.04
38.3
8.7
44.04
26.9
8.8
42.95
9.8
9.0
49.96
98.7
9.9
50.56
38.3
9.7
44.49
27.0
9.8
44.27
9.7
10.0
50.05
98.3
10.9
50.06
38.9
10.7
44.79
27.2
10.8
45.57
9.8
11.0
50.93
98.0
11.9
49.61
38.1
11.7
45.14
27.4
11.8
46.84
9.8
12.0
50.44
97.6
12.9
49.17
38.0
19.7
45.47
27.5
19.6
t 48.05
9.8
13.0
50.69
97.3
13.9
48.76
37.8
13.7
45.78
27.7
13.8
49.20
9.9
14.0
50.96
97.0
14.9
48.37
37.7
14.7
46.09
27.8
14.8
50.29
9.9
15.0
51.91
96.7
15.9
48.01
37.6
15.7
46.38
28.0
15.7
51.34
3.0
16.0
51.44
96.4
16.9
47.66
37.5
16.7
46.67
28.1
16.7
52.35
3.0
17.0
51.61
96.9
17.9
47.30
37.4
17.7
46.97
28.2
17.7
53.38
3.1
18.0
51.76
95.9
18.9
46.99
37.3
18.7
47.97
28.4
18.7
54.45
3.1
19.0
51.90
95.6
19.9
46.53
37.9
19.7
47.58
28.5
19.7
55.57
3.1
90.0
59.04
95.3
90.9
46.13
37.9
90.7
47.90
28.7
20.7
56.73
3.1
91.0
59.91
95.0
91.9
45.79
37.1
91.7
48.93
28.9
21.7
57.94
3.1
99.0
59.44
94.7
99.9
45.30
36.9
99.7
48.56
29.1*
22.7
59.18
3.9
93.0
59.73
94.3
93.9
44.88
36.8
23.7
48.86
29.3
23.7
60.41
3.3
94.0
53.11
94.0
24.9
44.46
36.6
94.7
49.18
29.5
24.7
61.61
3.4
95.0
53.54
93.7
95.9
44.06
36.4
25.7
49.47
99.8
25.7
62.77
3.5
96.0
54.01
93.4
96.9
43.69
36.9
96.7
4i>.73.
30.0
26.7
63.87
3.7
97.0
54.51
93.1
97.9
43.36
36.1
97.7
49.97
30.9
27.7
64.91
3.8
97.9
55.01
99.9
98.9
43.05
35.9
98.6
* 50,20
30.4
28.7
65.89
3.9
98.9
55.49
99.6
99.9
49.75
35.7
99.6
60.43
30.6
29.7
66.64
4.1
99.9
55.99
99.4
30.9
49.46
35.5
30.6
60.66
30.8
30.7
67.76
4.9
30.9
56.33
99.9
31.9
49.17
35.3
31.6
50.90
31.0
31 ,7
68.70
4.3
31.9
56.71
91.9
90
306
MAY, 1884.
CIRCUMPOLAR STARS,
APPAKENT PLACES FOE THE UPPEE TEANSIT AT WASHINGTON.
Mean
Solar
Date.
a Urge Minoris.
{Polaris.)
Mean
Solar
Date.
51 Cephei (Het.)
Mean
Solar
Date.
<J Urate Minoris.
Mean
Solar
Date.
X Ureas Minoris.
Bight
Ascen-
eion.
Declina-
tion
North.
Bight
Ascen-
sion.
Declina-
tion
North.
Bight
Ascen-
sion.
Declina-
tion
North.
Bight
Ascen-
sion.
Declina-
tion
North.
May
n m
1 15
+88 41
May
h m
6 45
+87° 13
May
h m
18 9
+86 36
May
h m
19 40
+88 bi
1.9
B
56.71
//
21.9
1.2
42.17
35.3
1.6
s
50.90
31.0
1.7
8.70
4.3
2.9
57.06
21.7
2.2
41.86
35.2
2.6
51.14
31.2
2.7
9.69
4.4
3.9
57.42
21.4
3.2
41.53
35.0
3.6
51.39
31.4
3.7
10.73
4.5
4.9
57.81
21.1
4.2
41.17
34.9
4.6
51.66
31.7
4.6
11.82
4.6
5.9
58.25
20.8
5.2
40.80
34.7
5.6
51.93
31.9
5.6
12.95
4.7
6.9
58.78
20.5
6.2
40.43
34.5
6.6
52.20
32.2
6.6
14.11
4.8
7.9
59.36
20.2
7.1
40.06
34.3
7.6
52.46
32.5
7.6
15.26
5.0
8.9
60.01
19.9
8.1
39.70
34.1
8.6
52.71
32.8
8.6
16.38
6.2
9.9
60.68
19.7
9.1
39.37
33.8
9.6
52.93
33.1
9.6
17.44
5.4
10.9
61.38
19.5
10.1
39.07
33.6
10.6
53.13
33.4
10.6
18.42
5.6
11.9
62.07
19.2
11.1
38.80
33.3
11.6
53.31
33.6
11.6
19.32
5.8
12.9
62.72
19.0
12.1
38.55
33.1
12.6
53.48
33.9
12.6
20.17
6.0
13.9
63.34
18.8
13.1
38.32
32.8
13.6
53.64
34.1
13.6
20.98
6.2
14.9
63.91
18.6
14.1
38.10
32.6
14.6
53.80
34.4
14.6
21.77
6.4
15.9
64.47
18.4
15.1
37.87
32.4
15.6
53.97
34.6
15.6
22.58
6.6
16.9
65.00
18.2
16.1
37.64
32.2
16.6
54.15
34.9
16.6
23.42
6.7
17.9
65.55
18.0
17.1
37.40
32.0
17.6
54.33
35.1
17.6
24.29
6.9
18.9
66.15
17.8
18.1
37.14
31.8
18.6
54.52
35.4
18.6
25.22
7.1
19.9
66.82
17.5
19.1
36.85
31.5
19.6
54.71
35.7
19.6
26.17
7.3
20.9
G7.54
17.3
20.1
36.58
31.3
20.6
54.88
36.0
20.6
27.11
7.5
21.9
68.32
17.1
21.1
36.32
31.0
21.6
55.05
36.4
21.6
28.03
7.7
22.9
* 69.16
16.9
22.1
36.07
30.7
22.6
55.20
36.7
22.6
28.91
8.0
23.9
70.03
16.7
23.1
35.86
30.4
23.6
55.33
37.0
23.6
29.72
8.2
24.9
70.89
16.6
24.1
35.68
30.1
24.6
55.44
37.3
24.6
30.45
8.5
25.9
71.74
16.4
25.1
35.53
29.8
25.6
55.52
37.7
25.6
31.12
8.8
26.9
72.55
16.3
26.1
35.40
29.5
26.6
55.C0
38.0
26.6
31.74
9.1
27.9
73.32
16.1
27.1
35.28
29.2
27.6
55.68
38.2
27.6
32.32
9.3
28.9
74.04
16.0
28.1
35.16
29.0
28.6
55.75
38.5
28.6
32.90
9.6
29.9
74.74
15.9
29.1
35.03
28.7
29.6
55.84
38.8
29.6
33.51
9.8
30.9
75.44
15.7
30.1
34.88
28.4
30.6
55.94
39.0
30.6
34.16
10.0
31.9
76.14
15.6
31.1
34.72
28.2
31.6
56.04
39.3
31.6
34.85
10.2
32.9
76.86
15.4
32.1
34.54
27.9
32.6
56.15
39.7
32.6
35.58
10.4
JUNE, 1884.
307
OIRCUMPOLAR STARS.
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
•
.
a Ursa Minoris.
(Polaris.}
51 Ceph<
si (Hev.)
S Ura« Minoris.
X Ursee Minoris.
Mean
Solar
Dote.
Mean
Solar
Date.
Mean
Solar
Date.
Mean
Bight
Ascen-
sion.
Declina-
tion
North.
Bight
Ascen-
sion.
Declina-
tion
North.
Bight
Ascen-
sion.
Declina-
tion
North.
Date.
Bight
Ascen-
sion.
Declina-
tion
North.
June
h m
1 16
+88 41
Jane
h m
645
+87° 13
June
h m
18 9
+86° 36
Jane
h m
19 40
+88° 57
1.9
16.86
II
15.4
1.1
34.54
//
27.9
1.6
8
56.15
39.7
1.6
35.58
10.4
2.9
17.66
15.2
2.1
34.35
27.7
2.6
56.26
40.0
2.6
36.34
10.7
3.8
18.52
15.1
3.1
34.16
27.4
3.5
56.37
40.4
3.6
37.09
11.0
4.8
19.45
14.9
4.1
33.99
"• 27.1
4.5
56.46
40.7
4.6
37.81
11.3
5.8
20.40
14.8
5.1
33.84
26.7
5.5
66.52
41.1
5.6
38.48
11.6
6.8
21.37
14.6
6.1
33.71
26.4
6.5
56.56
41.4
6.6
39.08
11.9
7.8
22.34
14.5
7.1
33.62
26.1
7.5
56.58
41.8
7.6
39.60
12.2
8.8
23.29
14.5
8.1
33.56
25.7
8.5
56.58
42.1
8.6
40.04
12.5
9.8
24.19
14.4
9.1
33.53
25.4
9.5
66.57
42.4
9.6
40.43
12.8
10.8
25.03
14.3
10.1
33.51
25.1
10.5
56.56
42.7
10.6
40.78
13.1
11.8
25.85
14.3
11.1
33.49
24.8
11.5
56.56
42.9
11.6
41.13
13.4
12.8
26.64
14.2
12.1
33.46
24.6
12.5
56.56
43.2
12.6
41.50
13.6
13.8
27.42
14.1
13.0
33.41
24.3
13.5
66.56
43.5
13.6
41.91
13.9
14.8
28.22
14.0
14.0
33.36
24.0
14.5
66.57
43.8
14.6
42.35
14.1
15.8
29.09
13.9
15.0
33.30
23.8
15.5
56.58
44.2
15.6
42.82
14.4
16.8
30.00
13.8
16.0
33.23
23.4
16.5
56.59
44.5
16.6
43.31
14.7
17.8
30.97
• 13.8
17.0
33.17
23.1
17.5
56.59
44.9
17.6
43.77
15.0
16.8
31.99
13.7
18.0
33.12
22.8
18.5
56.57
45.2
18.6
44.19
15.4
19.8
33.05
13.6
19.0
33.10
22.4
19.5
56.54
45.6
19.6
44.54
15.7
20.8
34.11
13.6
20.0
33.11
22.0
20.5
56.47
45.9
20.6
44.82
16.1
21.8
35.16
13.6
21.0
33.14
21.7
21.5
56.38
46.3
21.6
45.02
16.4
22.8
36.16
13.6
22.0
33.21
21.4
22.5
56.29
46.6
22.6
45.16
> 16.7
23.8
37.11
13.6
23.0
33.30
21.1
23.5
56.18
46.9
23.6
45.25
17.1
24.8
38.02
13.6
24.0
33.40
20.7
24.5
56.08
47.2
24.6
45.32
17.4
25.8
38.88
13.7
25.0
33.49
20.4
25.5
55.99
47.5
25.6
45.40
17.7
26.8
39.72
13.7
26.0
33.56
20.2
26.5
55.91
47.7
26.5
45.52
18.0
27.8
40.56
13.6
27.0
33.62
19.9
27.5
55.83
48.0
27.5
45.69
18.3
28.8
41.42
13.6
28.0
33.65
19.6
28.5
55.76
48.4
28.5
45.89
18.6
29.6
42.32
13.6
29.0
33.67
19.3
29.5
55.69
48.7
29.5
46.12
18.9
30.8
43.27
13.6
30.0
33.69
19.0
30.5
55.62
49.0
30.5
46.36
19.2
31.8
44.28
13.6
31.0
33.72
^ 18.7
31.5
55.54
49.4
31.5
46.59
19.5
308
JULY, 1884.
CIRCUMPOLAR STARS.
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
Mean
Solar
Date.
a Ursa Minoria.
(Polaris.)
Mean
Solar
Date.
51 Ceph<
si (Hbv.)
Mean
Qnlttr
6 Unas Minoris.
Mean
Solar
Date.
A Urate Minoris*
Right
Ascen-
sion.
Declina-
tion
North.
Right
Ascen-
sion.
Declina-
tion
North.
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Right
A scon-
sion.
Declina-
tion
North.
July
h m
1 16
+88 41
July
h m
6 45
+87° 13
July
h m
18 9
+86° 36
July
h m
19 40
+ 88° 57
1.8
44.28
//
13.6
1.0
8
33.72
18.7
1.5
8
55.54
it
49.4
1.5
46.59
19.5
2.8
45.34
13.6
2.0
33.76
18.4
2.5
55.45
49.7
2.5
46.76
19.9
3.8
46.41
13.6
3.0
.33.84
18.0
3.5
55.34
50.1
3.5
46.85
20.2
4.8
47.48
13.6
4.0
33.94
17.6
4.5
55.19
50.4
4.5
46.87
20.6
5.8
48.52
13.7
5.0
34.06
17.3
5.5
55.03
50.7
5.5
46.81
21.0
6.8
49.52
13.8
6.0
34.25
17.0
6.5
5*1.86
51.0
6.5
46.67
21.3
7.8
50.47
13.8
7.0
34.44
16.7
7.5
54.67
51.3
7.5
46.50
21.7
8.8
5I>.36
13.9
8.0
34.63
16.4
8.5
54.49
51.6
8.5
46.32
22.0
9.8
52.21
14.0
9.0
34.81
16.1
9.5
54.32
51.8
9.5
46.15
22.3
10.7
53.05
14.1
10.0
34.98
15.8
10.4
54.15
52.1
10.5
46.00
22.6
11.7
53.90
14.2
11.0
35.13
15.5
11.4
53.99
52.4
11.5
45.90
22.9
12.7
54.77
14.2
12.0
35.27
15.3
12.4
53.84
52.7
12.5
45.83
23.2
13.7
55.70
14.3
13.0
35.41
15.0
13.4
53.68
53.0
13.5
45.76
23.5
14.7
56.68
14.3
14.0
35.55
14.7
14.4
53.52
53.3
14.5
45.68
23.8
15.7
57.71
14.4
15.0
35.70
14.4
15.4
53.35
53.6
15.5
45.57
24.2
16.7
58.77
14.5
16.0
35.88
14.0
16.4
53.15
54.0
16.5
45.41
24.6
17.7
59.84
14.6
17.0
36.09
13.7
17.4
52.93
54.3
17.5
•15.17
24.9
18.7
60.90
14.7
18.0
36.32
13.4
18.4
52.69
54.6
18.5
44.85
25.3
19.7
61.93
14.9
18.9
36.59
13.0
19.4
52.44
54.9
19.5
44.47
25.7
20.7
6-2.90
15.1
19.9
36.88
12.7
20.4
52.18
55.1
20.5
44.03
26.0
21.7
63.81
15.2
20.9
37.17
12.4
21.4
51.91
55.4
21.5
43.56
26.4
22.7
64.66
15.4
21.9
37.46
12.1
22.4
51.65
55.6
22.5
43.09
26.7
23.7
65.47
15.5
22.9
37.74
11.9
23.4
51.40
55.8
23.5
42.65
27.0
24.7
66.28
15.7
23.9
38.00
11.6
24.4
51.17
56.1
24.5
42.25
27.3
25.7
67.09
15.8
24.9
38.25
11.4
25.4
50.95
56.3
25.5
41.89
27.6
26.7
67.92
15.9
25.9
38.48
11.1
26.4
50.73
56.6
26.5
41.57
27.9
27.7
68.81
16.1
26.9
38.70
10.8
27.4
50.50
56.8
27.5
41.27
28.2
28.7
69.75
16.2
27.9
38.92
10.6
28.4
50.28
57.1
28.5
40.96
28.5
29.7
70.73
16.3
28.9
39.15
10.3
29.4
50.04
57.4
29.5
40.61
28.8
30.7
71.73
16.5
29.9
39.40*
10.0
30.4
49.78
57.7
30.5
40.19
29.2
31.7
72.73
16.7
30.9
39.70
9.7
31.4
49.50
58.0
31.5
39.70
29.5
32.7
73.71
16.9
31.9
40.02
9.4
32.4
49.19
58.2
32.5
39.13
29.9
AUGUST, 1884.
309
CIRCUMPOLAR STARS
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
Mean
Solar
Date.
a Ursa Minoris.
(Polaris.)
Mean
51 Ceph
ei (He v.)
Mean
6 Ureas Minoris.
Mean
Solar
Date.
a Ursa
Minoris.
Right
Ascen-
sion.
Declina-
tion
North.
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Right
Ascen-
sion.
Declina-
tion
North.
Aug.
b m
1 17
O 1
+88 41
Aug.
h m
6 45
+87 13
Aug.
h m
18 9
+86 36
Aug.
h m
19 40
+ 88 57
1.7
13.7!
16.9
1.9
40.36
//
9.1
1.4
s
49.19
58.2
1.5
39.13
29.9
2.7
14.64
17.1
2.9
40.72
8.8
2.4
48.87
58.5
2.4
38.50
30.2
3.7
15.52
17.3
3.9
41.09
8.5
3.4
48.54
58.7
3.4
37.82
30.6
4.7
16.34
17.5
4.9
41.46
8.3
4.4
48.21
58.9
4.4
37.11
30.9
5.7
17.11
17.7
5.9
41.82
8.1
5.4
47.89
59.1
5.4
36.40
31.2
67
17.84
16.0
6.9
42.17
7.9
6.4
47.58
59.3
6.4
35.72
31.4
7.7
18.57
18.2
7.9
42.50
7.7
7.4
47.27
59.5
7.4
35.08
31.7
8.7
19.32
18.4
8.9
42.81
7.5
8.4
46.98
59.7
8.4
34.47
32.0
9.7
20.10
18.6
9.9
43.12
7.2
9.4
46.69
59.9
9.4
33.89
32.3
10.7
20.93
18.8
10.9
43.44
7.0
10.4
46.40
60.1
10.4
33.31
32.6
11.7
21.80
19.0
11.9
43.77
6.7
11.4
46.10
60.4
11.4
32.72
32.9
18.7
22.71
19.2
12.9
44.13
6.4
12.4
45.78
60.6
12.4
32.08
33.2
13.7
23.64
19.4
13.9
44.52
6.1
13.4
45.43
60.9
13.4
31.37
33.5
14.7
24.56
19.7
14.9
44.93
5.9
14.4
45.07
61.1
14.4
30.58
33.9
15.6
25.45
19.9
15.9
45.37
5.6
15.4
44.69
61.3
15.4
29.73
34.2
16.6
26.28
20.2
16.9
45.82
5.4
16.3
44.31
61.5
16.4
28.82
34.5
17.6
27.05
20.5
17.9
46.28
5.2
17.3
43.92
61.6
17.4
27.87
34.8
18.6
27.76
20.8
18.9
46.72
5.0
18.3
43.53
61.8
18.4
26.91
35.1
19.6
28.41
21.1
19.9
47.15
4.8
19.3
43.16
61.9
19.4
25.97
35.3
20.6
29.03
21.3
20.9
47.56
4.6
20.3
42.81
62.0
20.4
25.07
35.6
21.6
29.66
21 .G
21.9
47.94
4.5
21.3
42.47
62.2
21.4
24.21
35.8
22.6
30.30
21.8
22.9
48.31
4.3
22.3
42.13
62.3
22.4
23.41
36.1
23.6
30.98
22.1
23.9
48.67
4.1
23.3
41.80
62.5
23.4
22.63
36.3
24.6
31.69
22.3
24.9
49.03
3.9
24.3
41.46
62.7
24.4
21.87
36.6
25.6
32.45
22.6
25.8
49.42
3.7
25.3
41.12
62.9
25.4
21.09
36.9
26.6
33.24
22.8
26.8
49.83
3.4
26.3
40.76
63.0
26.4
20.25
37.1
27.6
34.03
23.1
27.8
50.28
3.2
27.3
40.38
63.2
27.4
19.33
37.4
28.6
34.80
23.4
28.8
50.75
3.0
28.3
39.98
63.)
28.4
18.35
37.7
29.6
35.54
23.7
29.8
51.25
2.8
29.3
39.57
63.5
29.4
17.30
38.0
30.6
36.22
24.1
30.8
51.76
2.6
30.3
39.15
63.6
30.4
16.19
38.3
31.6
36.82
24.4
31.8
52.26
2.5
31.3
38.72
63.7
31.4
15.04
38.5
32.6
37.37
24.7
32.8
52.74
2.3
32.3
38.31
63.8
32.4
13.90
38.8
310
SEPTEMBER, 1884.
CIROUMPOLAR STARS.
APPARENT PLACES FOE THE UPPER TRANSIT AT WASHINGTON.
a Ursa Minoris.
51 Ceph
Bi (Hsy.)
6 Ure» M in oris.
\ Ureas Minoris.
Mean
Solar
Date.
Mean
Mean
Ra1m»
Mean
Solar
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Date.
Bight
Ascen-
sion.
Declina-
tion
North.
Date.
Bight
Ascen-
sion.
Declina-
tion
North.
Bight
Ascen-
sion.
Declina-
tion
North.
Sept.
h m
1 17
+88 41
Sept
h m
6 45
+ 87° 12
Sept.
h m
18 9
+86 37'
Sept
h m
19 39
+88° 57
1.6
37.37
24.7
1.8
52.74
62.3
1.3
8
38.31
3.8
1.4
73.90
36.8
2.6
37.87
25.0
2.8
53.21
62.2
2.3
37.91
3.9
2.4
72.78
39.0
3.6
38.36
25.4
3.8
53.67
62.1
3.3
37.52
3.9
3.4
71.70
39.2
4.6
38.85
25.7
4.8
54.11
62.0
4.3
37.14
4.0
4.4
70.66
39.4
5.6
39.36
25.9
5.8
54.54
61.6
5.3
36.76
4.1
5.4
69.66
39.6
6.6
39.91
26.2
6.8
54.98
61.7
6.3
36.39
4.2
6.4
68.67
39.8
7.6
40.51
26.5
7.8
55.43
61.5
7.3
36.00
4.4
7.4
67.67
40.0
8.6
41.15
26.8
8.8
55.89
61.3
8.3
35.61
4.5
8.3
66.65
40.2
9.6
41.81
27.1
9.8
56.37
61.2
9.3
35.20
4.6
9.3
65.58
40.5
10.6
42.46
27.5
10.8
56.88
61.0
10.3
34.78
4.7
10.3
64.44
40.8
11.6
43.09
27.8
11.8
57.42
60.9
11.3
34.34
4.8
11.3
63.22
41.0
12.6
43.67
28.2
12.8
57.97
60.7
12.3
33.90
4.9
12.3
61.94
41.2
13.6
44.17
.28.6
13.8
58.53
60.6
13.3
33.45
4.9
13.3
60.63
41.4
14.6
44.62
29.0
14.8
59.08
60.5
14.3
32.99
5.0
14.3
69.30
41.6
15.6
45.01
29.3
15.8
59.61
60.4
15.3
32.55
5.0
15.3
67.99
41.8
16.6
45.35
29.7
16.8
60.11
60.4
16.3
32.13
5.0
16.3
56.72
42.0
17.6
45.67
30.0
17.8
60.59
60.3
17.3
31.73
5.0
17.3
55.49
42.1
18.6
46.00
30.4
18.8
61.05
. 60.2
18.3
31.34
5.0
18.3
54.32
42.2
19.6
46.35
30.7
19.8
• 61.50
60.2
19.3
30.96
5.1
19.3
53.19
42.4
20.6
46.75
31.0
20.8
61.96
60.1
20.3
30.58
5.1
20.3
52.08
42.6
21.5
47.18
31.3
21.8
62.42
60.0
21.3
. 30.19
5.2
21.3
50.97
42.7
22.5
47.65
31.6
22.8
62.90
59.9
22.2
29.79
5.2
22.3
49.85
42.9
23.5
48.12
32.0
23.8
63.41
59.8
23.2
29.37
5.3
23.3
48.67
43.1
24.5
48.58
32.3
24.8
63.94
59.7
24.2
26.93
5.3
24.3
47.42
43.3
25.5
49.03
32.7
25.8
64.49
59.6
25.2
28.48
5.3
25.3
46.09
43.5
26.5
49.40
33.1
26.8
65.06
59.5
26.2
28.03
5.3
26.3
44.71
43.6
27.5
49.71
33.5
27.8
65.63
59.5
27.2
27.58
5.3
27.3
43.30
43.8
28.5
49.94
33.9
28.8
66.19
69.5
28.2
27.13
5.2
28.3
41.88
43.9
29.5
60.13
34.3
29.8
66.74
69.4
29.2
26.68
5.2
29.3
40.48
44.0
30.5
50.28
34.7
30.8
67.26
59.4
30.2
26.25
5.1
30.3
39.12
44.1
31.5
50.43
35.0
31.7
67.76
69.4
31.2
25.84
5.1
31.3
37.81
44.2
OCTOBER, 1884.
311
CIRCUMPOLAR STARS.
• .
APPARENT PLACES FOB THE UPPER TRANSIT AT WASHINGTON.
a Ursffi Minoris.
(Polaris.)
51 Cephei (Hey.)
S Urgae Minoris.
2. Ursa Minoris.
Mean
Solar
Date.
Mean
Solar
Date.
Mean
Solar
Date.
Mean
Solar
Date.
Declina-
tion
North.
Eight
Ascen-
sion.
Declina-
tion
North.
Right
Ascen-
sion.
Declina-
tion
North.
Bight
Ascen-
sion.
Declina-
tion
North.
Oct
b m
1 17
+88 41
Oct.
b m
6 46
+87° 12
Oct.
b m
18 9
+86° 37
Oct.
b m
19 38
+ 88° 57
1.5
50.43
35.0
1.7
7.76
59.4
1.2
25.84
5.1
1.3
97.81
44.2
2.5
50.59
35.4
2.7
8.24
59.4
2.2
25.44
5.0
2.3
96.56
44.3
3.5
50.78
35.7
3.7
8.73
59.4
3.2
25.05
5.0
3.3
95)33
44.4
4.5
51.00
36.0
4.7
9.22
59.4
4.2
24.65
5.0
4.3
94.10
44.5
5.5
51.27
36.4
5.7
9.71
69.3
5.2
24.25
5.0
5.3
92.86
44.6
6.5
51.56
36.8
6.7
10.23
59.3
6.2
23.84
5.0
6.3
91.58
44.7
7.5
51.85
37.1
7.7
10.76
59.2
7.2
23.41
5.0
7.3
90.25
44.8
8.5
52.13
37.5
8.7
11.32
59.2
8.2
22.97
4.9
8.3
88.86
45.0
9.5
52.37
37.9
9.7
11.90
59.2
9.2
22.52
4.9
9.3
87.42
45.1
10.5
52.54
38.3
10.7
12.49
59.2
10.2
22.07
4.8
10.3
85.93
45.2
11.5
52.64
38.8
11.7
13.08
59.2
11.2
21.62
4.7
11.3
84.43
45.3
12.5
52.67
39.2
12.7
13.64
59.2
12.2
21.16
4.6
12.3
82.94
45.3
13.5
52.65
39.6
13.7
14.18
59.3
13.2
20.76
4.4
13.3
81.48
45.4
14.5
52.62
40.0
14.7
14.69
59.4
14.2
20.36
4.3
14.2
80.08
45.4
15.5
52.56
40.3
15.7
15.17
59.4
15.2
19.97
4.2
15.2
78.73
45.4
1&5
52.52
40.6
16.7
15.64
59.5
16.2
19.60
4.1
16.2
77.44
45.4
17.5
52.51
41.0
17.7
16.10
59.5
17.2
19.24
4.0
17.2
76.19
45.4
18.5
52.54
41.3
18.7
16.56
59.6
18.2
18.87
3.9
18.2
74.97
45.5
19.5
52.61
41.7
19.7
17.04
59.6
19.2
18.50
3.8
19.2
73.73
45.5
20.5
52.71
42.0
20.7
17.54
59.6
20.2
18.12
3.8
20.2
72.45
45.6
21.5
52.80
42.4
21.7
18.05
59.6
21.2
17.72
3.7
21.2
71.11
45.6
22.5
52.85
42.8
22.7
18.59
59.7
22.2
17.31
3.6
22.2
69.72
45.7
23.5
52.86
43.2
23.7
19.15
59.7
23.2
16.90
3.4
23.2
68.27
45.7
24.5
52.79
43.6
24.7
19.71
59.8
24.2
16.48
3.3
24.2
66.78
45.7
25.5
52.65
44.0
25.7
20.26
59.9
25.2
16.06
3.1
25.2
65.28
45.7
26.5
52.45
44.4
26.7
20.79
60.0
26.2
15.66
2.9
26.2
63.79
45.7
27.5
52.20
44.8
27.7
21.30
60.2
27.2
15.27
2.7
27.2
62.35
45.7
28.4
51.95
45.1
28.7
21.78
60.3
28.1
14.90
2.5
28.2
60.97
45.6
29.4
51.70
45.5
29.7
22.24
60.4
29.1
14.55
2.3
29.2
59.65
45.5
30.4
51.47
45.6
30.7
22.69
60.5
30.1
14.20
2.2
30.2
58.38
45.5
31.4
51.28
46.2
31.7
23.14
60.6
31.1
13.86
2.0
31.2
57.13
45.4
32.4
51.13
46.5
32.7
23.59
60.7
32.1
13.52
1.9
32.2
55.88
45.4
312
NOVEMBER, 1884.
CIRCUMPOLAR STARS,
APPARENT PLACES FOE THE UPPER TRANSIT AT WASHINGTON.
a Ursa Miooris.
(Polaris.)
51 Cephei (He v.)
6 Urse Minoris.
X Urew Minoris.
Mean
Solar
Date.
Mean
Mean
Solar
Date.
Mean
Solar
Right
Ascen-
sion.
Declina-
tion
North.
Date.
Right
Ascen-
sion.
Declina-
tion
North.
Right
Ascen-
sion.
Declina-
tion
North.
Date.
Ill
Declina-
tion
North.
Nov.
h m
1 17
+ 88 41
Nov.
h m
6 46
+ 87° 13
Nov.
h m
18 9
+96 36
Nov.
h m
19 38
+ 88 57'
1.4
51.13
46.5
1.7
23.59
//
0.7
1.1
s
13.52
61.9
1.2
55.88
//
45.4
2.4
51.02
46.8
2.7
24.05
0.8
2.1
13.18
61.7
2.2
54.62
45.4
3.4
50.91
47.2
3.7
24.54
0.9
3.1
12.82
61.6
3.2
53.32
45.4
4.4
50.79
47.6
4.7
25.06
1.0
4.1
12.45
61.4
4.2
51.96
45.4
5.4
50.64
47.9
5.7
25.59
1.1
5.1
12.07
61.2
5.2
50.55
45.4
6.4
50.44
48.3
6.6
26.12
1.2
6.1
11.70
61.0
6.2
49.11
45.3
7.4
50.15
48.7
7.6
26.64
1.4
7.1
11.31
60.8
7.2
47.65
•45.3
8.4
49.61
49.1
8.6
27.15
1.6
6.1
10.94
60.5
8.2
46.19
45.2
9.4
49.40
49.5
9.6
27.63
1.7
9.1
10.59
60.3
9.2
44.77
45.1
10.4
48.95
49.8
10.6
28.09
1.9
10.1
10.26
60.0
10.2
43.41
45.0
11.4
48.49
50.1
1 1.6
28.52
2.1
11.1
9.95
59.8
11.2
42.12
44.8
12.4
48.03
50.5
12.6
28.91
2.3
12.1
9.66
59.5
12.2
40.91
44.7
13.4
47.60
50.8
13.6
29.29
2.5
13.1
9.39
59.3
13.2
39.75
44.6
14.4
47.20
51.1
14.6
29.67
2.7
14.1
9.12
59.1
14.2
38.62
44.5
15.4
46.84
51.4
15.6
30.06
2.9
15.1
8.86
58.9
15.2
37.49
44.4
16.4
46.51
51.7
16.6
30.46
3.0
16.1
8.59
58.7
16.2
36.35
44.3
17.4
46.18
52.0
17.6
30.88
3.2
17.1
8.30
58.5
17.2
35.17
44.2
18.4
45.84
52.3
18.6
31.32
3.3
18.1
7.99
58.3
18.2
33.94
44.1
19.4
45.46
52.6
19.6
31.78
3.5
19.1
7.69
58.0
19.2
32.66
44.0
90.4
45.02
53.0
20.6
32.24
3.7
20.1
7.38
57.8
20.1
31.36
43.9
31.4
44.51
53.3
21.6
32.69
3.9
21.1
7.08
67.5
21.1
30.05
43.7
29.4
43.93
53.7
22.6
33.12
4.2
22.1
6.79
57.2
22.1
28.76
43.6
23.4
43.30
54.0
23.6
33.52
4.4
23.1
6.52
56.9
23.1
27.48
43.4
24.4
42.65
54.3
24.6
33.90
4.7
24.1
6.26
56.6
24.1
26.27
43.2
25.4
41.99
54.6
25.6
34.25
4.9
25.1
6.02
56.3
25.1
25.14
43.0
26.4
41.34
54.8
26.6
34.58
5.2
26.1
5.79
56.0
26.1
24.07
42.8
27.4
40.73
55.1
27.6
34.91
5.4
27.1
5.58
65.7
27.1
23.05
42.6
28.4
40.17
55.4
28.6
35.23
5.6
28.1
5.38
55.4
28.1
22.05
42.4
29.4
39.65
55.6
29.6
35.56
5.8
29.1
5.17
55.2
29.1
21.05
42.3
30.4
39.14
55.9
30.6
35.91
6.0
30.1
4.95
54.9
30.1
20.03
42.1
31.4
38.64
56.2
31.6
36.27
6.2
31. 1
4.73
54.7
31.1
18.97
41.9
DECEMBER, 1884.
313
CIRCUMPOLAR STARS
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
a Ursa Minoris.
(Polaris.)
51 Cephei (Hey.)
dUreae
Minoris.
X Ursa Minoris.
Mean
Solar
Date.
Mean
8olar
Date.
Mean
Solar
Mean
Solar
Date.
Bight
Ascen-
sion.
Declina-
tion
North.
Bight
Ascen-
sion.
Declina-
tion
North.
Date.
Bight
Ascen-
sion.
Declina-
tion
North.
Bight
Ascen-
sion.
Declina-
tion
North.
Dec.
h m
1 17
+88° 41
Dec.
h m
646
+87° 18
Dec.
h m
18 9
+86 36
Dec.
h m
19 37
+ 88° 57
1.4
38.64
//
56.2
1.6
36.27
6.2
1.1
4.73
54.7
1.1
s '
78.97
41.9
2.4
38.12
56.4
2.6
36.64
6.4
2.1
4.49
54.4
2.1
77.87
41.8
3.3
37.65
56.7
3.6
37.02
6.7
3.1
4.25
54.1
3.1
76.73
41.6
4.3
36.90
57.0
4.6
37.40
6.9
4.0
4.01
53.8
4.1
75.57
41.4
5.3
36.20
57.3
5.6
37.77
7.2
5.0
3.78
53.4
5.1
74.40
41.2
6.3
35.45
57.6
6.6
38.11
7.5
6.0
3.58
53.1
6.1
73.27
41.0
7.3
34.65
57.9
7.6
38.42
7.8
7.0
3.40
52.7
7.1
72.21
40.7
8.3
33.81
58.1
8.6
38.70
8.1
8.0
3.24
52.4
8.1
71.23
40.5
9.3
32.97
58.3
9.6
38.94
8.4
9.0
3.09
52.1
9.1
70.32
40.2
10.3
32.17
58.5
10.6
39.16
8.7
10.0
2.97
51.7
10.1
69.49
39.9
11.3
31.39
58.7
11.6
39.37
9.0
11.0
2.86
51.4
11.1
68.72
39.7
12.3
30.68
58.9
12.5
39.58
9.2
12.0
2.75
51.2
12.1
67.98
39.5
13.3
30.00
59.1
13.5
39.80
9.5
13.0
2.64
50.9
13.1
67.23
39.2
14.3
29.32
59.3
14.5
40.03
' 9.7
14.0
5.52
" 50.6
14.1
66.46
39.0
15.3
28.63
59.5
15.5
40.28
10.0
15.0
2.39
50.3
15.1
65.64
38.8
14.3
27.93
59.7
16.5
40.54
10.3
16.0
2.25
50.0
16.1
64.79
38.6
17.3
27.18
59.9
17.5
40.80
10.5
17.0
2.11
49.6
17.1
63.91
38.3
18.3
26.36
60.1
18.5
41.06
10.8
18.0
1.97
49.3
18.1
63.01
38.1
19.3
25.49
60.3
19.5
41.31
11.2
19.0
1.85
48.9
19.1
62.12
37.8
20.3
24.57
60.5
20.5
41.54
11.5
20.0
1.74
\
46.5
20.-1
61.27
37.5
21.3
23.61
60.7
21.5
41.73
11.9
21.0
1.65
48.2
21.1
60.49
37.2
22.3
22.64
60.9
22.5
41.89
12.2
22.0
1.58
47.8
22.1
59.79
36.9
23.3
21.68
61.0
23.5
42.03
12.6
23.0
1.54
• 47.5
23.1
59.17
36.6
24.3
20.76
61.1
24.5
42.15
12.9
24.0
1.51
47.1
24.1
58.61
36.3
25.3
19.89
61.2
25.5
42.26
13.2
25.0
1.49
46.8
25.1
58.08
36.0
26.3
19.06
61.4
26.5
42.38
13.5
26.0
1.47
46.5
26.0
57.57
35.7
27.3
18.28
61.5
27.5
42.51
13.7
27.0
1.44
46.2
27.0
57.05
• 35.4
28.3
17.51
61.6
28.5
42.65
14.0
28.0
1.40
45.9
28.0
56.50
35.1
29.3
16.73
61.7
29.5
42.81
14.3
29.0
. 1.35
45.6
29.0
55.92
34.9
30.3
15.93
61.9
30.5
42.97
14.6
30.0
1.30
45.3
30.0
55.31
34.6
31.3
15.07
62.0
31.5
43.13
14.9
31.0
1.26
44.9
31.0
54.68
34.4
314
FIXED STARS, 1884.
APPARENT PLACES FOE THE UPPER TRANSIT AT WASHINGTON.
Mean
Solar
Date.
a Andromeds.
yPegasi.
(Algcnib.)
/?Hydri
12 Ceti.
Bight
Ascension.
Declination
North.
Bight
Ascension.
Declination
North.
Bight
Ascension.
Declination
South.
Right
Ascension.
Declination
South.
h m
0 2
+28° 26
h m
0 7
+ 14° 32
h m
0 19
o /
-77 53
h m
0 24
O t
-435
Jan. 0.9
24.20 -.14
71.6 -0.9
16.30 -.13
25.9 -0.8
35.41 -.94
104*9 +0.7
7.54 -.19
54.5 -0.7
10.9
24.05 .14
70.6 1.1
16.18 .19
25.0 1.0
34.49 .90
103.9 1.3
7.42 .19
55.2 06
20.2
23.91 .13
69.3 1.9
16.06 .11
24.0 1.0
33.63 .83
102.3 1.9
7.31 .11
55.8 0.5
30.2
23.79 .19
67.9 1.5
15.95 .10
22.9 l.l
32.85 .73
100.1 9.4
7.20 .10
56.2 0.4
Feb. 9.1
23.68 .09
66.3 1.6
15.86 .06
21.8 1.1
32.18 .61
97.5 9.8
7.10 .09
56.6 -0.9
19.1
23.60 -.07
64.6 -1.7
15.79 -.06
20.7 -1.0
31.62 -.49
94.5 +3.9
7.02 -.07
56.7 0.0
29.1
23.55 -.03
62.9 1.7
15.75 -.03
19.7 0.9
31.21 .35
91.2 3.4
6.97 .04
56.6 +0.9
Mar. 10.0
23.53 +.01
61.3 1.5
15.74 +.01
18.9 0.8
30.93 .90
87.6 3.6
6.94 -.01
56.4 0.4
20.0
23.56 .05
59.8 1.3
15.76 .04
18.2 0.6
30.82 -.04
83.9 3.7
6.95 +.09
55.9 0.6
30.0
23.63 .10
58.6 l.l
15.82 .08
17.8 -0.3
30.86 +.19
80.1 3.8
6.99 .06
55.2 0.9
Apr. 9.0
23.75 +.14
57.6 -0.8
15.93 +.19
17.6 0.0
31.05 +.98
76.4 +3.7
7.08 +.10
54.2 +1.1
18.9
23.92 .18
57.0 0.4
16.07 .17
17.7 +0.3
31.41 .43
72.7 3.6
7.20 .14
53.0 1.3
28.9
24.12 .S3
56.8 -0.1
16.26 .91
18.2 0.6
31.91 .58
69.2 3.4
7.37 .18
51.6 1.5
May 8.9
24.37 .26
56.9 +0.3
16.49 .96
19.0 0.9
32.56 .71
65.9 3.1
7.57 .99
50.0 1.7
18.8
24.65 .99
57.4 0.7
16.74 .98
20.0 1.9
33.34 .83
63.0 9.7
7.80 .95
48.2 1.9
28.8
24.96 +.39
58.3 +1.1
17.02 +.99
21.4+1.5
34.22 +.93
60.5 +9.3
8.07 +.97
46.3 +9.0
Jane 7.8
25.28 .33
59.6 1.4
17.33 .31
23.0 1.7
35.20 1.01
58.4 1.8
8.35 .99
44.3 9.0
17.8
25.62 .34
61.2 1.7
17.64 .31
24.8 1.9
36.25 1.07
56.8 1.3
8.65 .30
42.2 9.0
27.7
25.96 .33
63.1 9.0
17.95 .31
26.7 9.0
37.33 1.09
55.8 0.8
8.96 .30
40.2 9.0
July 7.7
26.28 .39
65.2 9.9
18.26 .30
28.8 9.1
38.42 1.09
55.2+0.9
9.26 .30
38.3 1.9
17.7
26.59 +.30
67.4 +9.3
18.55 +.98
•30.9 +9.1
39.50 1.06
55.3 -0.4
9.56 +.99
36.5 +1.7
27.7
26.88 .97
69.8 9.4
18.82 .96
33.0 9.1
40.53 .99
56.0 0.9
9.83 .96
34.9 \J>
Aug. 6.6
27.13 .94
72.3 9.4
19.07 .93
35.0 9.0
41.47 .89
57.2 1.5
10.08 .93
33.5 1.3
16.6
27.35 .90
74.7 9.4
19.28 .19
37.0 1.9
42.31 .77
58.9 9.0
10.31 .90
32.4 1.0
26.6
27.53 .16
77.1 2.4
19.45 .16
38.8 1.7
43.00 .69
61.1 9.4
10.49 .17
31.5 0.7
Sept. 5.5
27.67 +.19
79.4 +9.9
.19.59 +.19
40.4 +1.5
43.54 +.45
63.7 -3.7
10.64 +.13
30.9+0.5
15.5
27.77 .08
81.6 9.1
19.69 .08
41.8 1.3
43.90 .97
66.5 3.0
10.76 .10
30.6+0.9
25.5
27.82 +.04
83.6 1.9
19.75 .04
43.0 1.1
44.07 +.08
69.6 3.1
10.84 .06
30.5 o.o
Oct. 5.5
27.84 .00
85.4 1.7
19.78 +.01
44.0 0.9
44.05 -.11
72.7 3.1
10.88 +.03
30.7 -0.3
15.4
27.83 -.03
86.9 1.4
19.77 -.09
44.8 0.7
43.84 .30
75.8 3.0
10.89 .00
31.0 0.5
25.4
27.78 -.06
88.2 +1.9
19.73 -.05
45.3 +0.4
43.46 -.47
78.8 -9.8
10.86 -.04
31.6-0.6
Nov. 4.4
27.71 '.09
89.3 0.9
19.67 .07
45.7 +0.9
42.91 .62
81.4 9.5
10.82 .06
32.3 0.7
14.4
27.61 .11
90.0 0.6
19.59 .09
45.8 0.0
42.22 .75
83.6 9.0
10.75 .08
33.1 0.8
24.3
27.49 .19
90.4 +0.3
19.49 .11
45.6 -0.9
41.42 .85
85.4 1.5
10.66 .09
33.9 0.8
Dee. 4.3
27.36 .14
90.5 -0.1
19.38 .11
45.3 0.4
40.53 .99
86.6 0.9
10.56 .11
34.8 0.8
14.3
27.22 -.15
90.3 -0.4
19.26 -.12
44.8 -0.6
39.59 -.95
87.2 -0.3
10.45 -.11
35.6 -0.8
24.2
27.07 .15
89.7 0.7
19.14 .13
44.1 0.8
38.64 .96
87.2 +0.3
10.33 .19
36.4 0.8
34.2
26.93 -.15
88.9 -1.0
19.01 -.13
43.3 -0.9
37.70 -.96
86.6' +0.9
10.21 -.19
37.2 -0.7
FIXED STAE8, 1884.
315
APPARENT PLACES FOB THE UPPER TRANSIT AT WASHINGTON.
a Casaiopee.
P Ceti.
31 Caasiopee.
e Piacium.
Moan
Solar
Date.
Bight
Ascension.
Declination
North.
Bight
Aaoenaion.
Declination
South.
Bight
Aaoenaion.
Declination
North.
Bight
Ascension.
Declination
North.
h m
0 33
+55° 53
h m
0 37
o I
-18 37
h m
0 37
+74° 21
h xn
0 56
O /
+ 7 15
Jan. 0.3
57.33 -.30
8L6 -O*
46.35 -.13
30.7 -0.6
a
63.84 -.70
34.8+0.9
56.13 -.19
57.6 -0.8
10.3
56.94 .99
81.1 0.7
46.33 .13
31.3 0.4
63.14 .71
34.8 -0.4
56.00 .12
56.8 0.8
20.3
56.65 -38
80.1 1.9
46.08 .13
31.6 -0.9
61.43 .09
34.0 1.0
55.88 .13
56.1 0.8
30.3
56.37 .26
78.6 1.7
45.96 .19
31.6 +0.1
60.76 .64
33.7 1.6
55.75 .19
55.3 0.7
Feb. 9.1
56.13 .03
76.7 9.0
45.85 .11
31.3 0.4
60.15 .57
30.9 9.1
55.63 .11
54.6 0.7
19.1
55.91 -.19
74.6 -9.3
45.75 -.09
30.8 40.6
59.63 -.47
38.6 -9.5
55.53 -.09
53.9 -0.6
39.1
55.75 .13
73.1 9.5
45.68 .06
30.0 0.9
59.30 .35
36.0 9.8
55.45 .07
53.4 0.5
Mar. 10.1
55.64 -.07
69.5 9.6
45.64 -.03
39.0 1.9
58.93 .99
33.1 9.9
55.39 .04
53.0 0.3
30.0
55.61 .0Q
66.9 9.6
45.63 +.01
37.6 1.4
58.78 -.07
30.0 3.0
55.36 -.01
53.8 -o.i
30.0
55.64 +.07
64.4 9.4
45.66 .05
36.1 1.7
58.79 +.09
.17.0 3.0
55.38 +.03
53.8 +0.1
Apr. 9.0
55.75 +.15
63.1 -9.9
45.73 +.09
34.3 +1.9
58.96 +.94
14.1 -9.8
55.43 +.07
53.0 +0.3
19.0
55.94 .99
60.0 1.9
45.83 .13
33.4 9.0
59.37 .39
11.4 9.5
55.53 .19
53.4 0.6
38.9
56.19 .99
58.3 1.5
45.99 .17
30.3 9.9
59.73 .59
9.0 9.9
55.66 .16
54.3 0.9
May 8.9
56.51 .35
57.0 1.1
46.18 .91
18.0 9.3
60.31 .64
7.0 1.8
55.84 .90
55.3 l.i
18.9
56.88 .40
56.1 0.6
46.41 .25
15.7 9.3
61.00 .73
5.5 1.3
56.06 .93
56.4 1.4
38.8
57.30 +.43
55.8 -0.1
46.67 +.97
13.4 43.3
61.77 +.81
4.5 -0.7
56.31 +.96
57.9 +1.6
Jane 7*8
57.75 .46
55.9 +0.4
46.96 .30
11.1 9.9
63.61 .86
4.0 -0.9
56.58 .98
59.5 1.7
17.8
58.33 .48
56.6 0.9
47.36 .31
8.9 9.1
63.49 .69
4.1 40.4
56.88 .30
61.3 1.8
37.8
58.70 .48
57.7 1.3
47.57 .31
6.9 1.9
64.38 .89
4.7 0.9
57.18 .31
63.3 1.9
July 7.7
59.18 .46
59.3 1.8
47.89 .31
5.1 1.7
65.36 .87
5.9 1.4
57.49 .30
65.1 1.9
17.7
59.63 +.44
61.3 +9.1
48.30 +.30
3.5 +1.4
66.11 +.63
7.6 41.9
57.79 +.99
67.0 +1.9
37.7
60.05 .41
63.6 9.5
48.49 .98
3.3 l.i
66.91 .77
9.7 9.3
58.08 .96
68.9 1.8
Aug. 6.7
60.44 .37
66.3 9.7
48.76 .96
1.3 0.8
67.64 .69
13.3 9.7
58.35 .96
70.6 1.7
16.6
60.79 .38
69.0 9.9
49.00 .99
0.7 0.4
68.39 .60
15.0 3.0
58.59 .93
73.3 1.5
36.6
61.08 .27
73.0 3.1
49.30 .19
0.5 +0.1
68.84 .50
18.3 3.*
58.80 .90
73.6 1.3
Sept. 5.6
61.33 +.91
75.3 +3.9
49.38 +.15
0.6 -0.3
69.39 +.40
31.6 43.5
58.98 +ri6
74.9 +K1
15.5
01.50 .15
78.4 3.9
49.51 .11
1.1 0.6
69.63 .98
35.1 3.6
59.13 .13
75.8 0.9
35.5
61.63 .10
81.5 3.1
49.60 .07
1.8 0.9
69.85 .16
38.7 3.6
59.34 .10
76.6 0.7
Oct. 5.5
61.69 +.04
84.6 3.0
49.65 +.03
3.8 l.i
69.96 +.05
33.3 3.6
59.33 .06
77.1 0.5
15.5
61.70 -.01
87.6 9.8
49.67 .00
4.0 1.3
69.95 -.07
35.8 3.5
59.36 +.03
77.4 +0.9
35.4
61.66 -.07
90.3 +9.6
49.66 -.03
5.4 -1.4
69.83 -.19
39.3 +3.3
59.38 .00
77.5 0.0
Not. 4.4
61.57 .19
93.7 9.3
49.61 .06
6.8 1.4
69.58 .30
43.4 3.0
59.36 -.03
77.5 -HUl
14.4
61.43 .16
94.9 1.9
49.54 .08
8.3 1.4
69.33 .41
45.3 9.6
59.33 .05
77.3 0.4
34.3
61.35 .90
96.6 1.5
49.45 .10
9.6 1.3
68.78 .50
47.7 9.9
59.36 .07
76.8 0.5
Dec. 4.3
61.03 .93
97.9 1.9
49.34 .11
10.8 1.9
68.34 .58
49.6 1.7
59.18 .09
76.3 0.5
14.3
60.78 -.96
98.8 +0.6
49.33 -.19
11.9-1.0
67.63 -.64
51.1 +1.9
59.08 -.10
75.8 -0.6
34.3
60.50 .98
99.1 +0.1
49.09 .13
13.8 0.8
66.95 .69
53.0 +0.6
58.97 .11
75.1 0.7
34.3
60.33 -.99
88.9 -0.4
48.96 -.14
13.5 -0.6
66.34 -.79
53.3 0.0
58.85 -.19
74.4 -0.8
316
FIXED STABS, 1884.
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
/? Andromedre.
0i Ceti.
38 Cassiopefie.
t] Piscium.
Mean
Solar
Date.
Bight
Ascension.
Declination
North.
Bight
Ascension.
Declination
South.
Bight
Ascension.
Declination
North.
Bight
Ascension.
Declination
North,
h m
1 3
+35° 0
h m
1 18
O 1
- 8 46
h m
1 22
+69° 39
h m
1 25
+ 14° 44
Jan. 0.3
s
15.53 -.16
30.2 -0.3
14.20 -.13
60.2 -0.8
39.68 -.49
79.7 +0.7
8
17.61 -.13
n
54.6 -0.6
10.2
15.37 .17
29.7 0.6
14.08 .13
61.0 0.7
39.18 .53
60.1 +0.1
17.49 .13
54.0 0.7
20.2
15.20. .17
28.9 1.0
13.94 .13
61.6 0.5
38.65 .53
79.9 -0.5
17.35 .14
53.2 0.8
30.2
15.02 .17
27.7 1.3
13.81 .13
62.0 0.3
38.12 .53
. 79.1 1.1
17.21 .14
52.4 0.8
Feb. 9.2
14.86 .15
26.4 1.4
13.68 .13
62.3 -0.1
37.61 .49
77.8 1.6
17.08 .13
51.6 0.8
J9.I
14.72 -.13
24.8 -1.6
13.56 -.11
62.3 +0.1
37.15 -.43
76.0 -3.0
16.95 -.13
50.7 -0.8
29.1
14.60 .10
23.2 1.7
13.46 .09
62.1 0.3
36.75 .36
73.7 3.4
16.84 .10
49.9 0.8
Mar. 10.1
14.51 .07
21.4 1.7
13.38 .06
61.6 0.6
36.44 .37
71.2 8.6
16.75 .07
49.2 0.7
20.1
14.47 -.03
19.7 1.6
13.33 -.03
61.0 0.8
36.22 .16
68.4 8.8
16.70 -.03
48.6 0.5
30.0
14.47 +.03
18.1 1*5
13.32 +.01
60.0 1.0
36.12 -.04
65.6 2.8
16.69 +.01
48.1 0.3
Apr. 9.0
14.52 +.08
16.7 -1.3
13.35 +.05
58.9 +1.3
36.14 +.08
62.7 -3.8
16.71 +.05
47.8 -0.1
19.0
14.63 .13
15.6 1.0
13.42 .09
57.5 1.5
36.29 .30
60.0 3.6
16.78 .09
47.8 +0.1
28.9
14.79 .18
14.7 07
13.53 .13
55.9 1.7
36.55 .31
57.5 8.3
16.90 .14
48.1 0.4
May 8.9
15.00 .33
14.2 -0.3
13.68 .17
54.1 1.9
36.92 .43
55.4 8.0
17.06 .18
48.6 0.6
18.9
15.25 .37
14.1 0.0
13.88 .31
52.1 3.0
37.39 .51
53.6 1.6
17.26 .33
49.3 0.9
28.9
15.54 +.31
14.3 +0.4
14.11 +.34
50.1 +3.1
37.95 +.59
52.2 -1.1
17.50 +.35
50.4 +1.3
June 7.8
15.86 .33
14.9 0.8
14.36 .37
46.0 8.1
38.58 .65
51.3 0.6
17.77 .38
51.7 1.4
17.8
16.21 .35
15.9 1.1
14.65 .39
45.9 3.1
39.26 .70
51.0-0.1
18.06 .30
53.1 1.6
27.8
16.56 .36
17.2 1.4
14.94 .30
43.8 3.0
39.97 .73
51.1 +0.4
18.36 .31
54.8 1.7
July 7.8
16.92 .35
18.8 1.7
15.25 .30
41.9 1.9
40.69 .73
51.8 0.9
18.68 .31
56.5 1.8
17.7
17.27 +.34
20.6 +1.9
15.55 +.30
40.0 +1.7
41.41 +.71
53.0 +1.4
18.99 +.31
58.4 +1.8
27.7
17.60 .33
22.7 8.1
15.84 .39
38.4 1.5
42.10 .68
54.6 1.8
19.29 .89
60.2 1.8
Aug. G.7
17.91 .30
24.9 3.3
16.12 .37
37.1 1.3
42.76 .64
56.6 8.3
19.58 .88
62.1 1.8
16.0
18.20 .37
27.2 3.3
16.38 .84
36.0 0.9
43.38 .58
59.0 3.6
19.84 .85
63.8 1.7
26.6
•
18.45 .33
29.6 3.4
16.61 .31
35.3 0.6
43.92 .53
61.7 3.9
20.08 .83
65.4 1.6
Sept. 5.6
18.66 +.19
32.0 +3.4
16.80 +.18
34.9 +0.3
44.41 +.44
64.7 +3.1
20.29 +.19
66.9 +1.4
15.6
18.84 .16
34.3 3.3
16.97 .15
34.7 0.0
44.81 .36
67.9 3.3
20.46 .16
68.3 1.3
25.5
18.97 .18
36.5 3.3
17.10 .11
34.9 -0.3
45.13 .37
71.2 3.4
20.60 .13
69.4 1.0
Oct. 5.5
19.07 .08
38.6 3.0
17.19 .06
35.4 0.6
45.36 .19
74.6 3.4
20.71 .09
70.3 0.8
15.5
19.13 .04
40.6 1.8
17.25 .05
36.1 0.8
45.51 .10
78.0 3.4
20.79 .06
71.1 0.6
25.5
19.15 +.01
42.3 +1.6
17.28 +.03
37.0 -1.0
45.56 +.01
61.3 +3.3
20.84 +.03
71.6 +0.4
Nov. 4.4
19.14 -.03
43.8 1.4
17.28 -.01
38.0 1.1
45.52 -.09
84.5 3.0
20.85 .00
72.0 0.3
14.4
19.10 .06
45.1 l.l
17.26 .04
39.1 1.1
45.39 .17
87.4 8.8
.20.84 -.03
72.1 +«.]
24.4
19.02 .09
46.0 0.8
17.20 .06
40.2 1.1
45.17 .36
90.0 8.5
20.80 .05
72.1 -0.1
Dec. 4.3
18.92 .11
46.7 0 5
17.13 .08
41.4 l.l
44.87 .34
92.3 3.0
20.74 .08
72.0 0.3
14.3
18.80 -.13
47.1 +0.3
17.04 -.10
42.4 -1.0
44.49 -.41
94.1 +1.6
20.65 -.09
71.6-0.4
24.3
18.65 .15
47.1 -0.1
16.93 .11
43.4 0.9
44.05 .46
95.4 1.0
20.55 .11
71.2 0.5
34.3
18.49 -.17
46.8 -0.4
16.81 -.13
44.3 -0.8
43.56 -.51
96.1 +0.4
20.43 -.13
70.6 -0.6
FIXED STARS, 1884.
317
APPARENT PLACES FOB THE UPPEK TRANSIT AT WASHINGTON.
• •
Mean
Solar
Date.
a Eridani.
(Jlehernar.)
0 Piacium.
0 Arietis.
50 Cassiopea.
Right
Ascension.
Declination
South.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
h m
1 33
-57° 49
h m
I 39
0 /
+ 8 34
h m
1 48
+20° 14
h m
1 53
+71° 5l'
Jan. 0.3
23.47 -.33
52.7 -0.7
17.13 -.19
25.0 -0.7
8
15.19 -.19
30.3 -0.4
8
36.67 -.53
49.8 +1.1
10.3
23.14 .34
53.1 -0.9
17.01 .13
24.3 0.7
15.06 .13
29.8 0.6
36.12 .57
50.7 +0.5
20.2
22.79 .34
53.0 +0.4
16.88 .13
23.6 0.7
14.92 .15
29.2 0.7
35.54 .60
50.9 0.0
30.2
22.46 .33
52.4 0.0
16.74 .14
22.9 0.7
14.77 .15
28.4 0.8
34.93 .61
50.6 -0.6
Feb. 9.2
22.13 .31
51.2 1.4
16.60 .14
22.2 0.6
14.62 .15
27.5 0.9
34.32 .59
49.7 1.9
19.2
21.83 -.89
49.4 +1.9
16.47 -.19
21.6 -0.6
14.47 -.14
26.6 -0.9
33.76 -.54
48.2-1.7
29.2
21.57 '94
47.3 9.4
16.36 .10
21.1 0.5
14.34 .19
25.7 0.9
33.24 .47
46.3 9.1
!Mar. 10.1
21.35 .10
44.7 9.7
16.26 .06
20.6 0.4
14.23 .09
24.7 0.9
32.82 .38
44.0 9.4,
20.1
21.18 .14
41.8 3.0
16.20 .05
20.4 -0.9
14.16 .06
23.9 0.8
32.49 .97
41.4 9.7
30.0
21.07 .06
38.7 3.3
16.17 -.01
20.3 0.0
14.12 -.09
23.1 0.7
32.29 .14
38.7 9.8
Apr. 9.0
21.03 -.01
35.3 +3.4
16.18 +.03
20.4 +0.9
14.12 +.03
22.5 -0.5
32.21 -.01
35.8-9.8
19.0
21.05 +.06
31.8 3.5
16.23 .07
20.7 0.5
14.17 .07
22.1 -0.3
32.27 +.13
33.0 9.7
29.0
21.15 .13
28.3 3.5
16.33 .19
21.3 0.7
14.27 .19
22.0 0.0
32.47 .96
30.3 2.6 '
May 8.9
21.31 .90
24.8 3.5
16.48 .16
22.1 0.9
14.41 .17
22.1 +0.3
32.79 .39
27.9 9.3 '
18.9
21.54 .96
21.4 3.3
16.66 .90
23.2 1.9
14.60 .91
22.5 0.5
33.24 .50
25.8 1.9
28.9
21.84 +.38
18.2 +3.1
16.88 +.94
24.5 +1.4
14.83 +.95
23.2 +0.8
33.79 +.60
24.0 -1.5
June 7.9
22.19 .37
15.2 9.8
17.14 .97
25.9 1.5
15.09 .98
24.1 l.l
34.43 .68
22.8 l.o
17.8
22.59 .49
12.6 9.4
17.42 .99
27.6 1.7
15.38 .30
25.3 1.3
36.15 .74
22.0 0.6
27.8
23.02 .45
10.3 9.0
17.71 .30
29.3 1.8
15.69 .31
26.7 1.5
35.91 .78
21.6 -o.l
July 7.8
23.48 .46
8.5 1.5
18.02 .30
31.1 1.8
16.01 .39
28.2 1.6
36.70 .80
21.9 +0.4
17.7
23.95 +.47
7.3 +1.0
18.32 +.30
32.9 +1.8
16.33 +.39
29.9 +1.7
37.51 +.80
22.6 +0.9
27.7
24.42 .46
6.6 +0.4
18.62 .99
34.7 1.7
16.64 .31
31.7 1.8
38.30 .78
23.7 1.4
Aug. C.7
24.88 .44
6.4 -0.1
18.91 .98
36.4 1.6
16.94 .99
33.4 1.8
39.07 .75
25.3 1.8
16.7
25.30 .41
6.8 0.7
19.18 .96
37.9 1.5
17.22 sn
35.2 1.8
39.80 .70
27.3 9.9
26.6
25.69 .36
7.8 1.9
19.42 .93
39.3 1.3
17.48 .94
37.0 1.7
40.48 .64
29.7 9.5
Sept. 5.6
26.03 +.31
9.3 -1.7
19.63 +.90
40.5 +1.1
17.71 +.91
38.6 +1.6
41.09 +.57
32.4 +9.8
15.6
26.30 .95
11.3 9.9
19.82 .17
41.6 0.9
17.91 .19
40.1 1.4
41.62 .49
35.4 3.1
25.6
26.52 .18
13.7 9.5
19.97 .14
42.3 0.7
18.08 .16
41.1 1.3
42.07 .40
38.5 3.9
Oct. 5.5
26.66 .11
16.4 9.8
20.09 .11
42.9 0.5
18.22 .18
42.6 1.1
42.42 .31
41.8 3.9
15.5
26.74 +.04
19.3 3.0
20.18 .07
43.2 +0.9
18.32 .09
43.7 0.9
42.68 .81
46.2 3.3
25.5
26.74 -.03
22.3 -3.0
20.24 +.04
43.4 0.0
18.40 +.06
44.5 +0.8
42.84 +.11
48.5 +3.3
Nov. 4.5
26.68 .00
25.3 9.9
20.26 +.01
43.3 -0.1
18.44 +.03
46.2 0.6
42.90 .00
51.8 3.9
14.4
26.56 .15
28.1 9.7
20.26 -.01
43.1 0.3
18.45 .00
45.6 0.4
42.84 -.11
54.9 3.0
24.4
26.37 .91
30.7 9.4
20.24 .04
42.8 0.4
18.43 -.03
46.0 +0.9
42.68 .91
57.8 9.7
Deo. 4.4
26.14 .95
33.0 9.0
20.19 .06
42.4 0.5
18.38 .06
46.1 0.0
42.42 .31
60.4 9.4
14.3
25.86 -.99
34.8 -1.6
20.11 -.06
41.8 -0.6
18.31 -.06
46.0 -0.1
42.07 -.40
62.5 +1.9
24.3
25.56 .39
36.2 l.l
20.02 .10
41.2 0.6
18.22 .11
45.8 0.3
41.62 .48
64.2 1.4
34.3
25.23 -.33
37.0 -0.7
19.91 -.19
40.6 -0.7
18.10 -.13
45.4 -0.4
41.10 -.55
65.4 +0.9
318
FIXED STARS, 1884.
APPARENT PLACES FOE THE UPPER TRANSIT AT WASHINGTON.
•
a Arietis.
f i Ceti.
tCassiopee.
f » Ceti.
Mean
Solar
Date.
Bight
Ascension.
Declination
North.
Bight
Ascension.
Declination
North.
Eight
Ascension.
Declination
North.
Bight
Ascension.
Declination
North.
h m
2 0
+22 54
h m
2 6
O I
+ 8 18
h m
2 19
+66° 52
h m
2 21
O 1
+ 7 56
Jan. 0.3
8
39.46 -.19
5'i.8 -0.3
62.30 -.10
6.8 -0.6
s
34.47 -.36
61.8+1.9
8
60.77 -.10
20.9 -0.7
J 0.3
39.33 .14
52.4 0.5
52.19 .19
6.1 0.6
34.08 . .41
62.8 0.7
60.66 .19
20.2 0.7
20.3
39.19 .15
51.8 0.6
52.06 .14
5.5 0.6
33.64 .45
63.3 +0.9
60.54 .13
19.6 0.6
30.2
39.03 .16
51.1 0.8
51.92 .14
4.8 0.6
33.18 .47
63.2 -0.3
60.40 .15
18.9 0.6
Feb. 9.2
38.87 .16
60.3 0.9
61.77 .15
4.2 0.6
32.71 .47
626 0.9
60.24 .15
18.3 0.6
19.2
38.72 -.15
49.4 -1.0
51.62 -.14
3.6 -0.5
32.25 -.44
61.5-1.4
60.09 -.15
17.8 -0.5,
29.2
38.58 .13
48.4 1.0
61.49 .19
3.1 0.4
31.82 .41
69.8 1.8
59.95 .13
17.3 0.4
Mar. 10.1
38.46 .11
47.4 1.0
51.38 .10
2.7 0.3
31.45 .34
57.8 9.9
59.83 .11
16.9 0 3
20.1
38.37 .07
46.4 0.9
61.29 .07
2.5 -0.9
31.15 .95
55.6 9.4
69.73 .06
16.7 -0.2
30.1
38.32 -.03
45.5 0.8
61.23 -.04
2.4 o.o
30.94 .16
53.0 9.6
59.66 .05
16.6 o.o
Apr. 9.0
38.30 +.01
44.8 -0.6
51.22 +.01
2.5 +0.9
30.84 -.05
50.4 -9.7
59.62 -.01
16.8 +o.a
19.0
38.34 .06
44.2 0.4
51.24 .05
2.8 0.4
30.83 +.05
47.7 9.6
59.64 +.04
17.1 0.4
29.0
38.43 .11
43.9 -0.9
51.32 .09
3.4 0.7
30.94 .16
45.2 9.5
59.70 .06
17.6 0.7
May 9.0
38.57 .16
43.8 +0.1
51.43 .14
4.1 0.9
31.15 .97
42.8 9.9
59.80 .19
18.4 0.9
18.9
38.75 .90
44.0 0.3
61.60 .18
6.1 l.l
31.46 .36
40.7 1.9
59.95 .17
19.4 i.i
28.9
38.97 + .94
44.5 +0.6
51.80 +.99
6.3 +1.3
31.87 +.45
38.9 -1.6
60.14 +.91
20.6 +1.3
Jane 7.9
39.23 .97
45.2 0.9
62.03 .25
7.7 1.5
32.36 .59
37.6 l.l
60.36 .94
21.9 1.5
17.8
39.52 .30
46.2 1.1
52.30 .97
9.3 1.6
32.92 .58
36.6 0.7
60.62 .97
23.4 1.6
27.8
39.82 .31
47.5 1.3
52.58 .99
10.9 1.7
33.52 .69
36.2 -0.3
60.90 .99
25.0 l.G
July 7.8
40.14 .39
48.9 1.5
52.88 .30
12.6 1.7
34.16 .65
36.2 +0.9
61.19 .30
26.7 1.7
17.8
40.47 +.39
50.5 +1.6
53.18 +.30
14.4 +1.7
34.82 +.66
36.6 +0.7
61.49 +.30
28.4 +1.7
27.7
40.79 .39
52.2 1.7
53.48 .30
16.1 1.7
35.48 .65
37.5 l.l
61.79 .30
30.1 1.6
Aug. 6.7
41.10 .30
53.9 1.7
53.78 .99
17.7 1.6
36.12 .64
38.8 1.5
62.09 .99
31.7 1.5
16.7
41.39 .28
55.6 1.7
54.06 .97
19.2 1.4
36.75 .61
40.5 1.9
62.37 .97
33.1 1.4
26.7
41.66 .96
57.4 1.7
54.31 .95
20.5 1.2
37.33 .66
42.6 9.9
62.63 .95
34.4 1.9
Sept. 5.6
41.91 +.93
59.0 +1.6
64.55 +.99
21.7+1.0
37.87 +.51
45.0+9^
62.88 +.93
35.5 +1.0
15.6
42.12 .20
60.6 1.5
54.76 .19
22.6 0.8
38.36 .46
47.6 9.7
63.09 .90
36.4 o*
25.6
42.31 .17
62.0* 1.4
64.93 .16
23.3 0.6
38.79 .39
50.4 9.9
63.28 .17
37.0 0.6
Oct. 5.5
42.46 .14
63.3 1.9
55.08 .13
23.8 0.4
39.14 .39
53.5 3.1
63.44 .15
37.5 0.3
15.5
42.58 .10
64.5 l.l
55.19 .10
24.1 +0.9
39.43 .95
56.6 3.1
63.58 .19
37.7 +0.1
25.5
42.66 +.07
65.5 +0.9
65.28 +.07
24.2 0.0
39.64 +.17
59.7 +3.1
63.68 +.09
37.7 -O.l
Nov. 4.5
42.72 .04
66.3 0.7
55.33 .04
24.0 -0.9
39.76 +.08
62.8 3.0
63.75 .06
37.6 0.9
14.4
42.75 +.01
66.9 0.5
55.36 +.01
23.8 0.3
39.80 .00
65.7 9.9
63.79 +.03
37.3 0.4
24.4
42.74 -.09
67.4 0.4
55.36 -.01
23.4 0.4
39.76 -.09
68.5 9.7
63.80 .00
36.9 0.5
Dec. 4.4
42.70 .05
67.6 +0.9
55.33 .04
23.0 0.5
39.63 .17
71.0 9.4
63.79 -.03
36.4 0.5
14.4
42.64 -.06
67.7 0.0
55.27 -.07
22.4-0.61 39.42 -.95
73.2 +9.0
63.74 -.06
35.8 -0.6
24.3
42.55 .10
67.7 -0.9
55.19 .09
21.8 0.6 1 39.13 .39
75.0 1.6
63.67 .09
35.2 0.6
34.3
42.44 -.19
67.4 -0.4
55.09 -.11
21.2 -0.6 1 38.77 -.38
76.3-fl.l
63.57 -.11
34.5 -o.6
FIXED STARS, 1884.
319
APPARENT PLAGES FOB THE UPPER TRANSIT AT WASHINGTON.
y Ceti.
a Ceti.
48 Gepbei (H.)
f Arte tie.
Mem
Solar
Date.
Bight
Aaoenaion.
Declination
North.
Bight
Aaoenaion.
Declination
North.
Bight
Ascension.
Declination
North.
Bight
Aaoenaion.
Declination
North.
h m
2 37
O /
+ 2 44
h m
2 56
O /
+ 3 37
h m
3 5
+77° 18
h m
3 8
+20° 36
Jan. 0.3
8
18.66 -.09
43.2 -0.8
14.32 -.06
58.'l -0.8
45.12 -.68
35.2 +*.l
8
15.73 -.08
49.6 -0.9
10.3
18.56 .11
42.4 0.8
14.22 .11
57.3 0.8
44.47 .71
37.0 1.6
16.64 .11
49.4 0.3,
20.3
18.43 .13
41.6 0.7
14.10 .13
56.6 0.7
43.70 .81
38.3 1.0
15.51 .14
49.1 0.4
30.3
18.29 .15
41.0 0.6
13.96 .15
56.0 0.6
42.85 .88
39.0 +0.5
15.36 .16
48.6 0.5
Feb. 9.2
18.14 .15
40.4 0.5
13.81 .16
55.4 0.5
41.95 .93
39.2-0.3
15.20 .17
48.1 0.5
1
19.2
17.98 -.15
40.0 -0.4
13.65 -.16
55.0 -0.4
41.05 -.90
38.7 -0.8
15.03 -.17
1
47.6 -0.6
29.2
17.83 .14
39.7 0.3
13.49 .15
54.6 0.3
40.17 .85
37.7 1.3
14.86 .17
46.9 0.7
Mar. 10.2
17.70 .13
39.6 -0.1
13.34 .13
54.4 -0.1
39.35 .76
36.1 1.8
14.69 .15
46.2 0.7
20.1
17.59 .10
39.5 +0.1
13.22 .11
54.4 +0.1
38.65 .64
34.1 9.2
14.55 .13
45.6 0.7
30.1
17.50 .07
39.7 0.3
13.12 .08
54.5 0.3
38.08 .49
31.7 8.5
14.44 .09
44.9 0.6
Apr. 9.1
17.46 -.03
40.1 +0.5
13.06 -.04
54.9 +0.4
37.66 -.33.
29.1 -3.7
14.37 -.05
i
44.4 -0.5
19.0
17.45 +.03
40.7 0.7
13.04 .00
55.4 0.6
37.43 -.14
26.3 3.8
14.34 -.01
44.0 0.4
29.0
17.49 .06
41.6 0.9
13.06 +.04
56.1 0.8
37.39 +.05
23.4 3.9
14.35 +.04
43.7-0.3
May 9.0
17.58 .11
42.6 1.1
13.13 .09
57.1 l.i
37.54 .84
20.5 3.8
14.42 .09
43.6 o.o
19.0
17.71 .15
43.8 1.3
13.24 .14
58.2 1.3
37.87 .48
17.9 8.6
14.53 .14
43.7 +0.8 '
1
28.9
17.88 +.19
45.2 +1.5.
13.40 +.18
59.5 +1.4
38.37 +.59
15.4 -3.3
14.69 +.18
1
44.0 +0.4
June 7.9
18.09 .S3
46.8 1.6
13.59 .31
61.0 1.5
39.04 .74
13.3 8.0
14.90 .39
44.6 0.6 \
17.9
18.33 .35
48.5 1.7
13.82 .34
62.6 1.7
39.84 .86
11.5 1.6
15.13 .85
45.3 0.8 !
27.9
18.60 .38
50.2 1.7
14.08 .87
64.3 1.7
40.76 .97
10.1 1.2
15.40 .88
46.2 1.0
July 7.8
J 8.88 .39
52.0 1.7
14.35 .38
66.0 1.7
41.78 1.04
9.2 0.7
15.70 .30
47.3 1.1
17.8
19.18 +.30
53.7 +1.7
14.64 +.89
67.6 +1.6
42.86 1.10
8.7 -0.8
16.00 +.31
48.5 +1.8.
27.8
19.47 .30
55.4 1.6
14.94 .30
69.2 1.5
43.98 1.13
8.8 40.3
16.32 .31
49.8 1.3
Aug. 6.7
19.77 .38
56.9 1.4
15.23 .29
70.7 1.4
45.12 1.13
9.2 0.7
16.63 .31
51.1 1.3
16.7
20.05 .87
58.2 1.3
15.52 .38
72.1 1.8
46.24 1.19
10.2 1.3
16.94 .30
52.4 1.3
26.7
20.32 .96
59.4 1.0
15.80 sn
73.2 1.0
47.34 1.07
11.6 1.6
17.24 .89
53.8 1.3
Sept. 5.7
20.56 +.34
60.3 +0.8
16.05 +.35
74.1 +0.8
48.39 1.09
13.4 +9.0
17.52 +.87
55.0 +1.3
16.6
20.79 .31
60.9 0.5
16.29 .83
74.7 0.5
49.38 .94
15.5 8.4
17.78 .35
56.2 l.l
25.6
20.99 .18
61.3+0.3
16.50 .80
75.1 +0.3
50.28 .85
18.0 8.7
1802 .33
57.2 1.0
Oct. 5.6
21.16 .16
61.4 0.0
16.69 .17
75.3 0.0
51.08 .74
20.8 8.9
18.23 .80
58.1 0.8
15.6
21.30 .13
61.3 -0.3
16.85 .15
75.2 -0.8
51.75 .63
23.8 3.1
18.42 .17
58.9 0.7
25.5
21.42 +.10
61.0-0.4
16.99 +.13
74.9 -0.4
52.30 +.46
27.0 +3.8
18.58 +.14
59.6 +0.6
Nov. 4.5
21.50 .07
60.5 0.6
17.09 .09
74.4 0.6
52.70 .33
30.3 3.3
18.70 .11
60.1 0.5
14.5
21.56 .04
59.9 0.7
17.16 .06
73.8 0.7
52.94 +.16
33.6 3.3
18.80 .08
60.5 0.3
24.4
21.58 +.01
59.1 0.8
17.21 +.03
73.1 0.8
53.02 -.01
36.8 3.3
18.86 .05
60.8 0.8
Dec. 4.4
21.67 -.01
58.3 0.8
17.22 .00
72.2 0.8
52.92 .17
39.9 3.0
18.89 +.01
61.0 +0.1
14.4
21.54 -.05
67.5 -0.8
17.20 -.04
71.4 -0.8
52.66 -.34
42.8 +3.7
18.89 -.08
61.0 0.0
24.4
21.48 .08
56.6 0.8
17.15 .07
70.6 0.8
52.24 .50
45.3 3.3
18.85 .06
61.0 -0.1
34.3
21.38 -.10
55.8 -0.8
17.07 -.10
69.8 -0.8
51.67 -.64
47.4 +1.9
18.77 -.09
60.8 -0.3
320
FIXED STARS, 1884.
APPARENT PLACES FOB THE UPPER TRANSIT AT WASHINGTON.
a Persei.
t Eridani.
6 Persei.
9 Tauri.
Mean
Solar
Date.
Right
Ascension.
Declination
North.
Bight
Ascension.
Declination
South.
Sight
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
h * m
3 16
+49° 26
h m
3 27
- 9 50'
h m
3 34
+47° 24
h m
3 40
+23° 44
Jan. 0.4
5.25 -.13
56.3 +1.9
8
29.30 -.08
74.0 -1.3
8
42.68 -.10
60.1 +1.1
8
37.21 -.06
42.6 o.o
10.3
5.10 .16
57.3 0.8
29.21 .11
75.3 11
42.56 .15
61.1 0.8
37.14 .09
42.6 -o.i
20.3
4.90 .22
57.9 0.5
29.09 .13
76.3 0.0
42.38 .19
61.8 0.5
37.03 .13
42.5 0.9
30.3
4.67 .95
58.2 +0.1
28.95 .15
77.2 0.7
42.17 .23
62.1+0.9
36.88 .15
42.3 0.3
Feb. 9.3
4.41 .96
58.1 -4.3
28.78 .17
77.8 0.5
41.93 .95
62.1 -0.9
36.72 .17
42.0 0.4
19.2
4.14 -.27
57.6 -0.6
28.6! -.17
78.1 -4.9
41.67 -.96
61.8 -0.5
36.54 -.18
41.5-0.5
29.2
3.88 .96
56.7 i.o
28.43 .17
78.2 0.0
41.41 .96
61.0 0.9
36.36 .18
41.0 0.6
Mar. 10.2
3.62 .34
65.6 1.3
28.26 .16
78.0 +0.3
41.16 .24
60.0 1.9
36.17 .17
40.4 0.6
20.1
3.40 .90
54.1 1.6
28.1 1 .14
77.6 0.6
40.94 .91
58.7 1.4
36.01 .16
39.8 0.6
30.1
3.22 .15
52.4 1.8
27.98 .11
76.9 0.8
40.75 .16
57.2 1.6
35.87 .19
39.1 0.6
Apr. 9.1
3.10 -.09
50.7 -1.8
27.88 -.08
76.0 +1.1
40.61 -.11
55.6 -1.7
35.77 -.08
38.4 -0.6
19.1
3.04 -.03
48.8 1.8
27.82 -.04
74.8 1.3
40.52 -.05
53.9 1.7
35.71 -.04
37.9 0.5
29.0
3.04 +.04
47.0 1.8
27.81 .00
73.4 1.5
40.50 +.01
52.2 1.7
35.69 +.01
37.4 0.4
May 9.0
3.11 .11
45.3 1.7
27.83 +.05
71.7 1.7
40.55 .08
50.6 1.6
35.73 .06
37.1 0.9
19.0
3.25 .17
43.7 1.5
27.91 .10
69.9 1.0
40.66 .14
49.1 1.4
35.81 .11
36.9-0.1
29.0
3.46 +.93
42.3 -1.9
28.03 +.14
68.0 +9.0
40.84 +.90
47.8 -1.1
35.94 +.16
37.0 +0.1
June 7.9
3.72 .99
41.2 0.0
28.19 .18
65.9 9.1
41.07 .26
46.6 0.0
36.12 .19
37.2 0.3
17.9
4.04 .34
40.4 0.6
28.38 .91
63.8 9.1
41.36 .31
46.0 0.7
36.34 .93
37.6 0.5
27.9
4.39 .37
40.0 -0.3
28.61 .94
61.7 9.1
41.69 .35
45.4 -0.4
36.59 .97
38.2 0.7
July 7.8
4.78 .40
39.8 0.0
28.86 JW
59.6 9.0
42.05 .36
45.2 0.0
36.67 .30
39.0 0.8
17.8
5.20 +.49
40.0 +0.3
29.14 +98
57.7 +1.9
42.44 +.40
45.4 +0.3
37.17 +.31
39.8 40.0
27.8
5.62 .43
40.5 0.7
29.42 .99
55.9 1.7
42.85 .41
45.8 0.5
37.48 .31
40.8 i.o
Aug. 6.8
6.05 .43
41.3 0.0
29.71 .29
54.4 1.4
43.26 .41
46.4 0.8
37.80 .39
41.9 l.l
16.7
6.48 .49
42.4 1.9
30.00 .98
53.1 1.1
43.68 .41
47.4 1.0
38.12 .31
43.0 l.l
26.7
6.89 .40
43.8 1.4
30.28 .97
52.2 0.8
44.08 .40
48.5 1.3
38.43 .31
44.2 l.l
Sept. 5.7
7.28 +.38
45.3 +1.7
30.54 +.96
51.6 +0.4
44.47 +.38
49.9 +1.4
38.73 +.99
45.3 +1.1
15.7
7.66 .36
47.0 1.8
30.80 .94
51.4 0.0
44.85 .36
51.4 1.6
39.01 .98
46.3 1.0
25.6
8.00 .33
48.9 1.0
31.03 .99
51.5 -0.3
45.19 .33
53.1 1.7
39.28 .96
47.3 0.9
Oct. 5.6
8.30 .99
50.9 9.0
31.24 .90
52.0 0.7
45.51 .30
54.8 1.8
39.53 .93
48.2 0.8
15.6
8.58 .95
53.0 9.1
31.42 .17
52.8 1.0
45.80 .97
56.7 1.9
39.75 .21
48.9 0.7
25.5
8.80 +.91
55.1 49.1
31.57 +.14
54.0 -1.9
46.04 +.93
58.6 +1.0
39.94 +.18
49.6 40.6
Nov. 4.5
8.99 .16
57.2 9.1
31.70 .11
55.2 1.4
46.25 .10
60.5 1.9
40.11 .15
50.2 0.5
14.5
9.13 .11
59.3 9.1
31.79 .08
56 7 1.5
46.42 .14
62.4 1.9
40.24 .19
50.7 0.5
24.5
9.22 .06
61.3 1.9
31.85 .04
58.3 1.6
46.53 .00
04.3 1.8
40.34 .08
51.2 0.4
Deo. 4.4
9.25 +.01
63.2 1.8
31.88 +.01
59.9 1.6
46.59 +.04
66.0 1.7
40.41 .05
51.5 0.3
14.4
9.24 -.05
64.9 +16
31.88 -.09
61.5 -1.5
46.61 -.09
67.6 +1.5
40.43 +.01
51.8 +0.2
24.4
9.16 .10
66.4 1.3
31.84 .06
62.9 1.4
46.56 .07
69.0 1.3
40.42 -.03
51.9 +0.1
34.4
9.04 -.15
67.6 +1.0
31.77 -.09
64.3 -1.3
46.46 -.19
70.2 +1.0
40.37 -.07
52.0 0.0
FIXED STABS, 1884.
321
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
f Penei.
y Eridani.
y Tauri.
e Tauri.
Mean
Solar
Date.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
South.
Right
Ascension.
Declination*
North.
Rigl?t
Ascension.
Declination
North.
h m
3 46
+31° 32
h m
3 52
-13 50
h m
4 13
+ 15° 20
h m
4 21
+ 18° 55
Jan. 0.4
s
52.53 -.06
17 '2 +0.4
38.55 -.06
31.8 -1.6
8
13.37 -.03
42.9 -0.3
s
52.50 -.09
15.1 -0.1
10.4
52.45 .10
17.6 0.3
38.48 .10
33.2 1.4
13.32 .07
42.6 0.3
52.46 .06
14.9 0.9
20.3
52.34 .13
17.8 +0.1
38.36 .13
34.5 l.l
13.24 .10
42.2 0.3
52.38 .10
14.7 0.9
30.3
52.18 .16
17.8 -0.1
38.22 .15
35.5 0.9
13.12 .13
41.8 .0.3
52.26 .13
14.5 o 3
Feb. 9.3
52.00 .19
17.6 0.3
38.06 .17
36.3 0.6
12.97 .16
41.5 0.4
52.11 .16
14.2 0.3
19.3
51.81 -.90
17.2 -0.5
37.88 -.18
36.7 -0.3
12.80 -.17
41.1 -0.4
51.94 -.18
13.9 -0.3
29.2
51.61 .90
16.7 0.6
37.69 .18
36.8 0.0
12.62 .18
40.7 0.4
51.76 .16
13.6 0.4
Mar. 10.2
51.41 .10
16.0 0.8
37.51 .18
36.7 +0.3
12.44 .16
40.4 0.3
51.57 .18
13.2 0.4
20.2
51.23 .17
15.1 0.0
37.34 .16
36.2 0.6
12.27 .16
40.0 0.3
51.39 .17
12.8 0.4
30.1
51.08 .14
14.2 0.0
37.19 .13
35.5 0.9
12.12 .14
39.8 0.9
51.24 .14
12.5 0.4
Apr. 9.1
50.96 -.10
13.3 -0.9
37.07 -.10
34.5 +1.9
12.00 -.11
39.6 -0.9
51.11 -.11
12.1 -0.3
19.1
50.89 -.05
12.3 0.9
36.99 .06
33.2 1.4
11.91 .07
39.4 -o.l
51.01 .07
11.9 0.9
29.1
50.86 .00
11.5 0.8*
36.95 -.09
31.6 1.7
11.87 -.09
39.4 +0.1
50.96 -.03
11.7-0.1
May 9.0
50.69 +.06
10.7 0.7
36.95 +.09
29.9 1.9
11.87 +.09
39.6 0.9
50.95 +.09
11.6+0.1
19.0
50.98 .11
10.1 0.5
37.00 .07
27.9 9.0
11.92 .07
39.9 0.4
50.99 .06
11.7 0.9
29.0
51.11 +.16
9.6 -0.4
37.09 +.19
25.8 +9.1
12.01 +.19
40.3 +0.5
51.08 +.11*
11.9 +0.3
June 8.0
51.29 .91
9.4 -0.9
37.23 .16
23.6 9.9
12.15 .16
40.9 0.6
51.22 .15
12.2 0.4
17.9
51.52 .96
9.3 +0.1
37.40 .19
21.4 9.9
12.33 .90
41.6 0.8
51.39 .19
12.7 0.6
27.9
51.78 .98
9.5 0.3
37.62 .23
19.1 9.9
12.54 .93
42.5 0.9
51.61 .93
13.4 0.7
July 7.9
52.08 .30
9.9 0.5
37.86 .95
16.9 9.1
12.79 .96
43.4 1.0
51.85 .96
14.1 0.8
17.8
52.39 +.33
10.4 +0.7
38.12 +.97
14.9 +9.0
13.06 +.98
44.5 +1.1
52.12 +.98
14.9 +0.9
27.8
52.72 .33
11.2 0.8
38.40 .98
13.0 1.7
13.34 .99
45.5 l.l
52.40 .99
15.8 0.9
Aug. 6.8
53.06 .34
12.1 0.9
38.68 .99
11.4 1.5
13.64 .30
46.6 1.0
52.70 .30
16.8 0.9
16.8
53.40 .34
13.0 1.0
38.97 .99
10.2 1.1
13.93 .30
47.6" 1.0
53.00 .30
17.7 0.9
26.7
53.73 .33
14.1 1.)
39.26 .98
9.2 0.8
14.23 .30
48.5 0.9
53.31 .30
18.5 0.8 r
Sept. 5.7
54.06 +.31
15.2 +1.1
39.54 +.97
8.7 +0.3
14.52 +.99
49.4 +0.8
53.61 +.30
19.3 +0.7
15.7
54.36 .30
16.4 l.l
39.80 .96
8.5 0.0
14.81 .98
50.1 0.6
53.90 .99
20.0 0.6
25.7
54.65 .98
17.5 l.l
40.05 .94
8.8 -0.4
15.08 .98
50.6 0.5
54.18 .97
20.6 0.5
Oct. 5.6
54.92 .96
18.7 l.l
40.28 .93
9.4 0.8
15.33 .94
51.0 0.3
54.44 .96
21.1 0.4
15.6
55.16 .93
19.8 1.1
40.48 .19
10.4 1.1
15.57 .29
51.2 0.9
54.69 .94
21.4 0.3
25.6
55.38 +.90
20.8 +1.0
40.66 +.17
11.7-1.4
15.78 +.90
• 51.4 +0.1
54.92 +.21
21.7 +0.9
Nov. 4.5
55.56 .17
21.8 1.0
40.81 .14
13.2 1.7
15.97 .17
51.4 -O.l
55.12 .19
21.8+0.1
14.5
55.71 .13
22.8 0.9
40.93 .10
15.0 1.8
16.13 .14
51.2 0.9
55.29 .16
21.9 0.0
24.5
55.83 .09
23.7 0.8
41.02 .07
16.8 1.9
16.26 .11
51.0 0.3
55.43 .19
21.9 o.o
Dec. 4.5
55.90 .05
24.5 0.8
41.07 +.03
18.7 1.9
16.35 .08
50.8 0.3.
55.53 .09
21.8-0.1
14.4
55.94 +.01
25.2 +0.7
41.09 .00
20.6 -1.8
16.40 +.04
60.5 -0.3
55.60 +.05
21.7 -0.1
24.4
55.92 -.03
25.8 0.5
41.06 -.04
22.4 1.7
16.42 .00
50.2 0.3
55.62 .00
21.6 o.l
34.4
55.87 -.07
26.3 +0.4
41.01 -0.7
23.9 -1.5
16.40 -.04
49.8 -0.3
55.61 -.04
21.5 -0.9
21
322
FIXED STARS, 1884.
APPARENT PLACE8 FOR THE UPPER TRANSIT AT WASHINGTON.
Mean
Solar
Date.
a Tauri.
(Jildebaran.)
a Camelopardalii. •
i Auriga.
11 Ononis.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
h m
4 29
+ 16° 16
h m
4 42
+ 66° 8
h m
4 49
+32° 58
b m
4 57
+ 15° 14
Jan. 0.4
s
17.77 -.01
24.9 -0.3
s
35.71 -.08
38.3 +9.3
8
28.66 .00
48.6 +0.6
8
58.36 +.01
»3 -0.4
10.4
17.73 .05
24.6 0.3
35.58 .18
40.5 9.0
28.64 -.05
49.2 0.5
58.35 -.03
21.9 0.4
20.4
17.66 .09
24.3 0.3
35.34 .27
42.4 1.7
28.57 .09
49.7 0.4
58.30 .07
21.6 0.3
30.3
17.54 .13
24.0 0.3
35.03 .35
43.9 1.3
28.45 .14
50.1 0.3
58.20 .11
21.3 0.3
Feb. 9.3
17.40 .16
23.6 0.3
34.64 .49
45.0 0.9
28.29 .17
50.3 +0.9
58.07 .14
21.0 0.3
19.3
J7.23 -.17
23.3 -0.3
34.20 -.46
45.7 40.4
28.10 -.90
50.4 0.0
57.91 -.17
20.7 -0.3
29.2
17.05 .18
23.0 0.3
33.72 .48
45.8 -0.1
27.90 .91
50.3 -0.9
57.73 .18
20.5 0.9
Mar. 10.2
16.87 .18
22.6 0.3
33.24 .48
45.5 0.6
27.68 .91
*50.0 0.4
57.55 .19
20.3 0.2.
20.2
16.69 .17
22.4 0.3
32.78 .45
44.7 1.0
27.47 .90
49.5 0.5
57.36 .18
20.1 0.2
30.2
16.53 .15
22.1 0.3
32.34 .40
43.4 1.4
27.28 .18
49.0 0.6
57.19 .16
19.9 0.9
Apr. 9.1
16.40 -.12
21.8-0.9
31.97 -.33
41.8-1.8
27.11 -.15
48.2 -0.7
57.04 -.13
19.7 -0.1
19.1
16.30 .06
21.7 -o.i
31.68 .95
39.9 9.0
26.98 .11
47.5 0.8
56.92 .10
19.7 0.0
29.1
16.24 -.04
21.6 0.0
31.47 .16
37.7 9.9
26.90 .06
* 46.6 0.8
56.84 .06
19.7 +0.1
May 9.1
16.22 +.01
21.7+0.1
31.37 -.05
35.4 9.3
26.86 -.01
45.8 0.8
56.80 -.09
19.8 0.9
19.0
16.26 .06
21.9 0.3
31.36 +.05
33.1 9.4
26.88 +.04
45.1 0.7
56.81 +.03
20.0 0.3
29.0
16.34 +.10
22.2 +0.4
31.47 +.16
30.7 -9.3
26.95 +.09
44.4 -0.6
56.86 +.07
20.4 +0.4
June 8.0
16.46 .15
22.7 0.6
31.67 .95
28.4 9.9
27.07 .14
43.8 0.5
56.96 .19
20.8 0.5
17.9
16.63 .19
23.4 0.7
31.96 .34
26.3 9.0
27.24 .19
43.4 0.4
57.10 .16
21.4 0.6
27.9
16.83 .93
24.1 0.8
32.35 .49
24.4 1.8
27.45 .93
43.1 -0.9
57.27 .19
22.1 0.7
July 7.9
17.07 .85
24.9 0.9
32.81 .49
22.8 1.5
27.70 .96
43.0 0.0
57.48 .99
22.8 0.8
17.9
17.32 +.97
25.8 +0.9
33.33 +.54
21.5-1.9
27.98 +.99
43.0 +0.1
57.72 +.95
23.6 +0.8
27.8
17.60 .98
26.8 0.9
33.91 .60
20.5 0.8
28.28 .31
43.2 0.9
57.98 .97
24.5 0.8
Aug. 6.8
17.89 .99
27.7 0.9
34.52 .63
19.8 0.5
28.60 .33
43.5 0.3
58.26 .98
25.3 0.8
16.8
18.19 .30
28.6 0.9
35.16 .65
19.5 -o.i
28.93 .34
43.9 0.5
58.55 .99
26.1 0.7
2G.8
18.49 .30
29.5 0.8
35.82 .66
19.6 +0.9
29.27 .34
44.4 0.5
58.84 .99
26.8 0.6
Sept. 5.7
18.79 +.99
30.2 +0.7
36.48 +.66
20.0 +0.6
29.61 +.34
45.0 +0.6
59.14 +.99
27.4 +0.5
15.7
19.08 .98
30.8 0.6
37.14 .65
20.8 0.9
29.94 .33
45.6 0.6
.59.43 .99
27.8 0.4
25.7
19.35 .97
31.3 0.4
37.78 .69
21.9 1.3
30.27 .39
46.2 0.6
59.71 .98
28.1 0.9
Oct. 5.6
19.62 .96
31.7 0.3
38.39 .59
23.3 1.6
30.58 .31
46.9 0.7
59.99 .97
28.3 +0.1
15.6
19.86 .94
31.9+0.1
38.96 .55
25.0 1.8
30.88 .99
47.6 0.7
60.25 35
28.3 0.0
25.6
20.09 +.9sJ
32.0 0.0-
39.48 +.50
26.9 +9.1
31.15 +.96
48.2 +0.7
60.50 +.93
28.2 -0.9
Nov. 4.6
20.30 .19
31.9-0.1
39.95 .43
29.1 9.3
31.41 .94
49.0 0.7
60.73 .91
28.0 0.3
14.5
20.47 .16
31.8 0.9
40.35 .36
31.5 9.4
31.63 .91
49.7 0.7
60.93 .19
27.7 0.3
24.5
20.62 .13
31.6 0.9
40.66 .97
34.0 9.5
31.82 .17
50.4 0.7
61.10 .16
27.3 0.4
Dec. 4.5
20.73 .09
31.3 0.3
40.89 .18
36.6 9.6
31.97 .13
51.2 0.7
61.24 .19
26.9 0.4
14.5
20.80 +.05
31.1 -0.3
41.03 +.08
39.2 +9.5
32.08 +.08
51.9 +0.7
61.34 +.08
26.5 -0.4
24.4
20.83 +.01
30.8 0.3
41.06 -.09
41.7 9.4
32.13 +.03
52.6 0.7
61.40 +.04
26.2 0.4
34.4
20.82 -.03
30.5 -0.3
40.98 -.19
44.1 +9.3
32.14 -.09
53.3 +0.6
61.41 -.01
25.8 -0.4
FIXED STARS, 1884.
323
APPARENT PLACES FOE THE UPPER TRANSIT AT WASHINGTON.
•
■
Mean
Solar
Dato.
a Aurigs.
(Capclla.)
/? Ononis.
(Rigel.)
P Tauri.
Groombridge 966.
Right
Ascension.
Declination
North.
Bight
Ascension.
Declination
South.
Right
Ascension.
Declination
North.
Bight
Ascension.
Declination
North.
h m
5 8
+45° 52
h m
5 8
o /
- 8 20
h m
5 18
+28° 30
ll Dl
5 24
+74° 57
Jan. 0.4
8
9.97 +.09
39.3 +1.4
59.56 .00
22.2 -1.7
59.75 +.04
23.3 +0.4
20.29 -.03
48.9 +9.8
10.4
9.95 -.04
40.6 1.3
59.54 -.04
23.8 1.5
59.76 -.09
23.7 0.4
20.18 .19
51.6 9.6
20.4
9.88 .10
41.8 l.l
59.48 .06
25.2 1.3
59.72 .07
24.0 0.3
19.90 .35
54.1 9.3
30.4
9.74 .16
42.8 0.9
59.38 .19
26.4 1.1
59.63 .11
24.3 0.3
19.48 .49
56.3 9.0
Feb. 9.3
. 9.56 .90
43.6 0.6
59.25 .15
27.4 0.9
59.49 .15
24.6 0.9
18.92 .61
58.1 1.6
19.3
9.34 -.94
44.0 +0.3
59.09 -.17
28.1 -4.6
59.33 -.18
24.7 +0.1
18.26 -.70
59.4 +1.1
29.3
9.08 .96
44.2 0.0
58.91 .18
28.6 0.4
59.14 .90
24.7 0.0
17.53 .75
60.2 +0.6
Mar. 10.2
8.82 .96
44.1 -0.3
58.72 .19
28.8 -0.1
58.93 .91
24.6 -0.9
16.75 .77
60.5 0.0
20.2
8.56 .96
43.7 0.6
58.53 .18
28.8 +0.9
58.73 .90
24.4 0.3
15.98 .76
60.2 -0.5
30.2
8.31 .93
43.0 0.8
58.35 .17
28.5 0.4
58.53 .19
24.0 0.4
15.23 .71
59.4 l.l
Apr. 9.2
8.09 -.90
42.0 -1.0
58.19 -.15
27.9 +0.7
58.36 -.16
23.6 -0.5
14.55 -.63
58.1 -1.5
19.1
7.91 .16
40.9 1.9
58.06 .19
27.2 0.9
58.21 .13
23.1 0.5
13.97 .63
56.3 1.9
29.1
7.78 .10
39.6 1.3
57.96 .06
26.1 l.l
56.10 .08
22.5 0.5
13.50 .40
54.2- 9.9
May 9.1
7.71 -.04
38.2 1.4
57.90 -.04
24.9 1.3
58.04 -.04
22.0 0.5
13.16 .96
51.9 9.5
19.1
7.70 +.09
36.8 1.4
57.88 .00
23.5 1.5
56.03 +.01
21.5 0.5
12.98 -.11
49.3 9.6
29.0
7.76 +.08
35.3 -1.4
57.91 +.05
21.9+1.7
58.07 +.06
21.0-0.4
12.95 +.05
46.6 -9.7
June 8.0
7.87 .14
34.0 1.3
57.98 .09
20.1 1.8
58.16 .11
20.7 0.3
13.08 .90
43.9 9.7
18.0
8.03 .90
32.8 1.9
58.09 .13
18.3 1.9
58.29 .15
20.4 0.9
13.35 .35
41.3 9.6
27.9
8.26 .95
31.7 1.0
58.24 .17
16.4 1.9
58.46 .19
20.2 -0.1
13.77 .48
38.8 9.4
July 7.9
8.53 .99
30.7 0.8
58.42 .90
14.5 1.9
58.68 .93
'20.2 0.0
14.32 .61
36.5 9.9
J 7.9
8.84 +.39
30.0 -0.6
58.63 +.93
12.6 +1.8
58.92 +.98
20.2 +0.1
14.99 +.79
34.4 -1.9
27.9
9.18 .35
29.5 0.4
58.87 .94
10.9 1.6
59.19 .98
20.4 0.9
15.75 .81
32.6 1.6
Aug. (3.8
9.54 .37
29.1 0.9
59.12 .96
9.4 1.4
59.48 .30
20.6 0.9
16.61 .88
31.2 1.3
16.8
9.93 .39
29.0 -0.1
59.39 .97
8.1 1.9
59.79 .31
20.8 0.3
17.52 .94
30.1 0.9
26.8
10.32 .40
29.1 +0.1
59.66 .98
7,0 0.9
60.11 .39
21.2 0.3
18.49 .99
29.4 0.5
Sept. 5.8
10.73 +.40
29.3 +0.3
59.94 +.96
6.3 +0.5
60.43 +.39
21.5+0.3
19.49 1.01
29.1 -o.l
15.7
11.13 .40
29.7 0.5
60.22 .98
6.0 +0.9
60.75 .39
21.8 0.3
20.51 1.01
29.2 +0.3
25.7
11.52 .39
30.3 0.7
60.50 .27
6.0 -0.9
61.07 .39
22.1 0.3
21.52 1.00
29.7 0.7
Oct. 5.7
11.91 .38
31.0 0.8
60.76 .96
6.4 0.6
61.38 .31
22.5 0.3
22.51 .97
30.6 l.l
15.6
12.27 .36
31.9 1.0
61.02 .95
7.1 0.9
61.68 .99
22.7 0.3
23.46 .99
31.9 1.5
25.6
12.62 +.33
32.9 +1.1
61.25 +.93
8.2 -1.9
61.97 +.98
23.0 +0.3
24.35 +.85
33.6 +1.8
Nov. 4.6
12.94 .30
34.0 1.9
61.47 .91
9.6 1.4
62.24 .95
23.3 0.3
25.17 .77
35.6 9.1
14.6
13.23 .97
35.3 1.3
61.66 .18
11.1 1.6
62.48 .93
23.6 0.3
25.88 .66
37.8 9.5
24.5
13.47 .99
36.7 1.4
61.83 .15
12.8 1.8
62.69 .19
23.9 0.3
26.49 .53
40.4 9.7
Dec. 4.5
13.67 .17
38.1 1.4
61.96 .11
14.6 1.8
62.87 .15
24.3 0.4
26.95 .39
43.1 9.6
14.5
13.81 +.11
39.5 +1.4
62.05 +.07
16.5 -1.8
63.00 +.11
24.6 +0.4
27.27 +.94
46.0 +9.9
24.5
13.90 +.05
41.0 1.4
62.10 +.03
18.2 1.7
63.09 .06
25.0 0.4
27.43 +.07
48.9 9.9
34.4
13.92 -.01
42.4 +1.3
62.11 -.01
19.9 -1.6
63.13 +.01
25.4 +0.4
27.42 -.07
51.7 +9.7
324
FIXED STARS, 1884.
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
1
6 Ononis.
a Leporii.
i Orionis.
a Columbst. j
Mean
Solar
Date.
,
1
Bight
Ascension.
Declination
South.
Bight
Ascension.
Declination
South,
Bight
Ascension.
Declination
South.
Bight
Ascension.
Declination
South.
|
fa m
5 26
- 0 23
fa ra
'5 37
o /
-17 54
h m
5 30
© /
- 1 16
h m
5 35
O 1 .
-34 8
Jan. 0.4
8
6.67 +.03
19.5 -1.3
8
38.66 +.01
33.8 -9.2
s
21.48 +.03
47.2-1.4
8
28.90 -.01
24.7-9.9l
10.4
6.67 -.03
20.8 1.9
38.64 -.03
35.9 2.0
21.49 -.01
48.5 1.3
28.87 .06
27.4 2.0
90.4
6.64 .06
21.9 1.0
38.59 .06
37.8 1.8
21.45 .06
49.7 l.l
28.79 .11
29.9 9.31
30.4
6.56 .10
22.8 0.0
38.49 .19
39.4 1.5
21.38 .10
50.7 0.9
28.66 .15
32.1 1.9
Feb. 9.3
6.44 .13
23.6 0.7
38.35 .15
40.8 1.2
21.26 .13
51.5 0.7
28.48 .19
33.8 1.5 1
19.3
6.29 -.16
24.2-0.6
38.19 -.18
41.8-0.8
21.11 -.16
52.1 -0.5
28.28 -.22
35.2 -l.l j
29.3
6.12 .18
24.7 0.3
38.00 .20
37.80 .90
42.4 0.5
20.94 .18
52.6 0.4
28.05 .24
36.1 0.7!
Mm*. 10.3
5.94 .18
24.9 -0.9
42.8 -0.1
20.76 .19
52.8 H).2
27.80 .25
36.5-0.2
90.2
5.75 .18
25.0 0.0
37.59 .90
42.7. +0.2
20.57 .18
52.9 0.0
27.55 .95
36.5 40.9
30.2
5.57 .17
24.8 +0.9
37.39 .19
42.4 0.5
20.39 .17
52.8 40.2
27.31 .24
36.0 0.7 1
Apr. 9.2
5.41 -.16
24.5 +0.4
37.21 -.17
41.7 +0.8
20.23 -.15
52.5 +0.4
27.08 -.21
35.1 +1.1 j
19.2
5.27 .12
24.1 0.6
37.06 .14
40.7 1.1
20.09 .12
52.0 0.6
26.88 .18
33.8 1.5 '
29.1
5.17 .00
23.4 0.7
36.93 .10
39.4 1.4
19.98 .09
51.3 0.8
26.72 .15
32.1 1.8
May 9.1
5.10 -.05
22.6 0.0
36.85 .06
37.9 1.7
19.91 .05
50.4 1.0
26.59 .10
30.1 2.9 1
19.1
5.08 .00
21.6 l.l
36.81 -.09
36.1 1.9
19.88 -.01
49.4 1.1
26.51 .06
27.8 2.4i
29.0
5.09 +.04
20.4 +1.9
36.60 +.09
34.1 +2.1
19.90 +.03
48.2 +1.3
26.48 -.01
25.2 +2.6
June 8.0
5.16 .08
19.1 1.3
36.85 .06
32.0 2.2
19.95 .08
46.9 1.4
26.49 +.04
22.5 2.8 ;
18.0
5.26 .19
17.8 1.4
36.94 .10
29.7 2.3
20.05 .12
45.5 1.5
26.55 .08
19.7 2.9
28.0
5.39 .16
16.3 1.5
37.06 .14
27.4 2.3
20.18 .15
44.0 1.5
26.66 .13
16.8 2.9:
July 7.9
5.57 .10
14.8 1.5
37.22 .18
25.1 2.2
20.35 .18
42.4 1.5
26.81 .17
13.9 2.8
17.9
5.77 +.91
13.4 +1.5
37.42 +.91
22.9 +2.1
20.55 +.21
41.0 +1.4
27.00 +.21
11.2+2.0
27.9
6.00 .94
12.0 1.4
37.64 93
20.9 1.9
20.77 .93
39.6 1.3
27.23 .24
8.6 2.4
Aug. 6.8
6.24 .95
10.7 1.9
37.88 .95
19.0 1.7
21.02 .25
38.3 1.2
27.48 .26
6.4 9.0
16.8
6.50 .97
9.6 1.0
38.14 .97
17.5 1.4
21.28 .26
37.2 1.0
27.76 .28
4.5 1.7 1
26.8
6.78 .97
8.7 0.8
38.42 .98
16.3 l.o
21.54 .27
36.2 0.8
28.05 .30
3.0 1.9 j
Sept. 0.8
7.05 +.98
8.1 +0.5
38.70 +.28
15.5 +0.6
21.82 +.28
35.6 +0.5
28.36 +.31
1
2.1 +0.7
15.7
7.33 .98
7.7 +0.9
38.98 .28
15.1 +0.2
22.10 .28
35.2 +0.2
28.67 .31
1.7 +0.9 1
25.7
7.61 .97
7.7 -O.l
39.27 .28
15.2 -0.3
22.38 .28
35.2 -0.1
28.98 .31
1.8-0.4i
Oct. 5.7
7.88 .97
7.9 0.4
39.54 .97
15.7 0.7
22.65 .27
35.5 0.4
29.29 .30
2.5 1.0 j
15.7
8.14 .96
8.5 0.7
39.81 .96
16.7 1.2
22.92 .96
36.0 0.7
29.58 .29
3.8 1.5
25.6
8.39 +.94
9.3 -0.9
40.06 +.24
18.0 -1.5
23.17 +.25
36.9 -1.0
29.86 +.27
5.5 -9.0
Nov. 4.6
8.63 .99
10.3 l.l
40.30 .22
19.8 1.9
23.40 .23
38.0 1.2
30.12 .24
7.7 9.4
14.6
8.84 .90
11.5 1.3
40.50 .19
21.8 2.1
23.62 .20
39.2 1.3
30.34 .31
10.2 9.7 j
24.5
9.02 .17
12.9 1.4
40.68 .16
24.0 2.3
23.80 .17
40.6 1.4
30.53 .17
13.0 8.9
Deo. 4.5
9.17 .13
14.3 1.4
40.82 .12
26.3 2.3
23.96 .14
42.1 1.5
30.67 .12
16.0 3.o!
I
14.5
9.29 +.10
15.7-1.4
40.93 +.08
28.6 -2.3
24.08 +.10
43.6 -1.5
30.77 +.08
19.1 -3.0;
24.5
9.36 .05
17.1 1.4
40.99 +.04
31.0 2.2
24.16 .06
45.0 1.4
30.82 +.03
22.1 9.9
34.4
9.40 +.01
18.4 -1.9
41.00 -.01,
33.1 -2.0
24.19 +.02
46.4 -1.3
30.82 -.03
24.9 -9.7
FIXED STARS, 1884.
325
APPARENT PLACES FOB THE UPPER TRANSIT
AT WASHINGTON.
•
a Orion is.
v Orionia.
22 Cameiop. (H.)
ft Geminorum.
Mean
Solar
Date.
Bight
Declination
Right
Declination
Right
Declination
Right
Deolination
i
Aaoenaion.
North.
Ascension.
North,
Aaoenaion.
North.
Aaoenaion.
North.
h m
O I
h m
O /
h m
O /
h m
5 46
+ 7 22
6 0
+ 14 46
6 6
+69 21
6 15
+22° 34
Jan. 0.5
a
55.42 +.05
54.0 -1.0
a
58.98 +.07
42.V -0.5
8
8.45 +.11
23.0 +9.6
58.68 +.00
9.0 -o.l
10.4
55.45 +.01
53.1 0.8
59.02 .09
42.2 0.4
8.50 -.01
25.6 9.5
58.74 +.04
6.9 o.O
30.4
55.44 -.04
52.3 0.7
5&.02 -.03
41.8 0.3
8.42 .14
28.0 9.4
58.76 -.01
9.0 +o.l
30.4
55.3$ .08
51.6 0.6
58.97 .07
4 1 .5 0.3
8.23 .96
30.3 9.1
58.72 .06
9.1 0.1
Feb. 9.4
55.28 .19
51.1 0.5
58.88 .11
41.3 0.9
7.91 .36
32.3 1.8
58.64 .11
9.3 0.1
19.3
55.14 -.15
50.7 -0.3
58.75 -.14
41.1 -O.l
7.50 -.45
34.0 +1.4
58.51 -.14
9.4 +0.1
29.3
54.98 .17
50.4 0.9
58.59 .17
41.0 0.1
7.02 .51
35.2 i.o
58.35 .17
9.6 o.l
Mar. 10.3
54.80 .18
50.2 -0.1
58.41 .18
40.9 -0.1
6.48 .56
36.0 +0.5
58.17 .10
9.7 +0.1
20.3
54.62 .18
50.1 0.0
58.22 .10
40.9 0.0
5.92 .56
36.2 0.0
57.97 .90
9.7 o.o
30.2
54.43 .18
50.2 +0.1
58.03 .18
40.9 0.0
5.37 .54
36.0 -0.6
57.78 JM>
9.8 o.o
Apr. 9.2
54.26 -.16
50.3 +0.9
57.87 -.16
40.9 0.0
4.84 -.50
35.2 -0.0
57.59 -.18
9.7 -0.1
19.2
54.12 .13
50.5 0.3
57.71 .14
40.9 +0.1
4.36 .44
34.0 1.4
57.42 .15
9.6 0.1
29.1
54.00 .10
50.9 0.4
57.58 .11
41.0 0.1
3.96 .36
32.5 1.7
57.29 .19
9.5 o.l
May 9.1
53.92 .06
51.3 0.5
57.50 .07
41.2 0.9
3.64 .97
30.6 9.0
57.19 .08
9.3 0.1
19.1
53.89 -.08
51.9 0.B
. 57.45 -.03
41.4 0.9
3.42 .16
28.4 9.3
57.13 -.04
9.2 o.l
29.1
53.89 +.09
52.6 +0.7
57.44 +.09
41.7 +0.3
3.32 -.05
26.0 -9.4
57.11 +.01
9.0 -O.l
June 8.0
53.94 .06
53.4 0.8
57.48 .06
42.0 0.4
3.32 +.Q6
23.6 9.5
57.14 .05
9.0 -o.l
18.0
54.02 .10
54.3 0.9
57.56 .10
42.4 0.5
3.44 .17
21.1 9.5
57.21 .09
8.9 0.0
28.0
54.14 .14
55.2 1.0
57.68 .14
43.0 0.5
3.67 .98
18.6 9.4
57.32 .13
8.9 o.o
July 8.0
54.30 .17
56.2 1.0
57.84 .17
43.5 0.6
4.00 .37
16.2 9.3
57.47 .17
8.9 O.o
17.9
54.49 +.90
57.2 +1.0
58.03 +.90
44.1 +0.5
4.41 +.46
14.0 -9.1
57.66 +.90
9.0 +0.1
27.9
54.71 .93
58.2 0.0
58.24 .93
44.6 0.6
4.92 .54
12.0 1.0
57.87 .93
9.1 o.i
Aug. 6.9
54.95 .95
59.1 0.8
58.48 .95
45.2 0.5
5.49 .60
10.2 1.6
58.11 .95
9.2 o.i
16.8
55.20 .96
59.9 0.7
58.74 .96
45.6 0.4
6.12 .66
8.7 1.3
58.37 .97
9.3 +0.1
| 26.8
55.47 .97
60.6 0.6
59.01 .98
46.0 0.3
6.80 .70
7.5 1.0
58.65 .98
9.3 o.o
Sept. 5.8
55.75 +.98
61.0+0.4
59.29 +.90
46.3 +0.9
7.53 +.73
6.6 -0.7
58.94 +.30
9.3 o.o
15.8
56.03 .98
61.3 +0.1
59.58 .99
46.5 +0.1
8.27 .75
6.1 -0.3
59.24 .30
9.3 -0.1
25.7
56.32 .98
61.3 -0.1
59.87 .90
46.4 0.0
9.03 .76
6.0 0 0
59.55 .31
9.1 0.9
Oct. 5.7
56.60 .96
61.1 0.3
60.17 .99
46.3 -0.9
9.79 .76
6.2 +0.4
59.86 .31
8.9 0.9
16.7
i
56.88 .97
60.7 0.5
60.46 .90
46.0 0.4
10.54 .74
6.7 0.8
60.16 .30
8.6 0.3
j 25.7
57.14 +.96
60.1 -0.7
60.74 +.98
45.5 -0.6
11.27 +.71
7.7 +1.1
60.46 +.99
8.3 -0.3
jNov. 4.6
57.40 .94
59.4 0.8
61.01 .96
45.0 0.6
11.96 .66
9.0 1.5
60.76 .98
8.0 0.3
| 14.6
57.63 .99
58.4 1.0
61.26 .94
44.4 0.6
12.58 .60
10.6 1.8
61.03 .96
7.6 0.3
I 24.6
57.84 .90
57.4 1.0
61.49 .91
43.7 0.7
13.14 .59
12.5 9.1
61.28 .94
7.3 0.3
Dec. 4.5
58.02 .16
56.4 1.0
61.69 .18
43.0 06
13.61 .49
14.8 9.3
61.51 .91
7.0 0.9
j . 14.5
58.16 +.19
55.4 -1.0
61.85 +.14
42.4 -0.6
13.98 +.31
17.2 +9.5
61.69 +.17
6.9 -0.9
, 24.5
58.27 .08
54.4 0.9
61.97 .10
41.8 0.5
14.24 .19
19.7 9.6
61.84 .19
6.6 -0.1
| 34.5 58.33 + 04
53.5 -0.9
62.04 +.06
41.3-0.4
14.37 +.06
22.3 +9.7
61.94 +.07
6.6 0.0
326
FIXED STARS, 1884.
•
APPARENT PLACES FOR THE UPPER TRAN8IT AT WASHINGTON.
I
Moan
Solar
Date.
a Argus.
(Canopus.)
y Gemi
norum.
a Cania Majoria.
(Sirius.)
e Can is
Majoris.
Bight
Ascension.
Declination
South.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
South.
Right
Ascension.
Declination
South.
h ra
6 21
-52° 37
h m
6 31
+ 16° 29
h m
6 40
- 16° 33
fa m
6 54
-28° 48
Jan. 0.5
s
25.25 -f.oi
68.5 -3.6
■ 8
2.65 +.10
39.2 -0.5
8
4.10 +.09
40.4 -4.5
8
6.08 +.09
64.1 -3.0
10.5
25.23 -.06
72.0 3.4
2.72 +.05
38.8 0.4
4.16 +.04
42.7 9.3
6.15 +.04
67.0 2.9
20.4
25.12 .13
75.2 3.1
2.75 .00
38.5 0.3
4.18 -.01
* 44.9 9.1
6.16 -.09
69.8 2.6
30.4
24.95 .30
78.1 9.7
2.73 -.05
38.3 0.9
4.14 .06
46.9 1.8
6.11 .07
72.3 9.4
Feb. 9.4
24.72 .95
80.6 9.3
2.66 .09
38.2 -0.1
4.05 .10
48.6 1.5
6.02 .19
74.5 9.1,
19.4
24.45 -.30
82.6 -1.8
2.55 -.13
38.1 O.fr
3.93 -!l4
50.0 -1.9
5.88 -.16
76.4 -1.7
29.3
24.13 .33
84.2 1.3
2.40 .16
38. 1 0.0
3.77 .17
51.1 0.9
5.71 .19
77.9 1.3
Mar. 10.3
23.78 .35
85.3 0.8
2.23 .18
38.2 0.0
3.59 .19
51.8 0.6
5.51 .91
79.0 0.9
20.3
23.42 .36
85.8 -0.3
2.04 .19
38.2 0.0
3.39 .90
52.3 -0.3
5.29 .29
79.6 0.5
30.3
23.05 .36
85.9 +0.9
1.85 .18
38.3 0.0
3.19 .90
52.4 0.0
5.06 .93
79.9 -0.1
Apr. 9.2
22.70 -.34
85.4 +0.7
1.67 -.17
38.3 0.0
2.99 -.19
52.2 +0.4
4.84 -.99
79.8 +0.3
19.2
22.37 .39
84.4 1.2
1.51 .15
38.4 +0.1
2.81 .17
51.6 0.7
4.63 .90
79.2 0.7
29.2
22.07 .98
82.9 1.7
1.37 .19
38.5 0.1
2.65 .15
50.8 1.0
4.44 .18
78.3 i.l,
May 9.1
21 81 .93
81.0 9.1
1.26 .09
38.6 0.1
2.52 .19
49.7 1.9
4.28 .15
77.0 1.5
19.1
21.61 .18
78.7 9.5
1.19 .05
38.7 0.9
2.43 .08
. 48.4 1.5
4.15 .11
75.4 1.8
29.1
21.46 -.12
76.1 +9.8
1.16 -.01
38.9 +0.9
2.37 -.04
46.8 +1.7
4.06 -.07
73.5 +9.0
June 8.1
21.36 -.06
73.2 3.0
1.18+03
39.1 0.2
2.35 .00
45.0 1.8
4.00 -.03
71.3 9.2
18.0
21.33 .00
70.1 3.1
1.23 .07
39.4 0.3
2.37 +.04
43.1 9.0
4.00 +.01
69.0 9.4
28.0
21.35 +.06
66.9 3.9
1.32 .11
39.7 0.3
2.43 .08
41.1 9.0
4.03 .05
66.5 9.5
July 8.0
21.44 .12
63.6 3.9
1.45 .15
40.0 0.3
2.52 .11
39.0 9.0
4.10 .09
63.9 2.5
1
18.0
21.59 +.17
60.4 +3.1
1.61 +.18
40.4 +0.4
2.65 KM
37.0 +2.0
4.21 +.13
i
61.4 +9.5 !
27.9
21.79 .93
57.4 9.9
1.80 .91
40.8 0.3
2.81 .17
35.1 1.9
4.36 .16
58.9 9.4
Aug. 6.9
22.04 .97
54.6 9.6
2.02 .93
41.1 0.3
3.00 .90
33.3 1.7
4.54 .19
56.6 9.9 (
16.9
22.33 .31
52.2 9.9
2.26 .95
41.3 0.9
3.22 .92
31.7 1.4
4.74 .22
54.6 1.9
26.8
22.67 .35
50.2 1.7
2.52 .97
41.5 +0.1
3.45 .24
30.4 1.1
4.98 .95
52.9 1.5
Sept. 5.8
23.03 +.37
48.8 +1.9
2.79 +.98
41.6 0.0
3.71 +.96
29.5 +0.7
5.24 +.97
51.6 +1.1
15.8
23.42 .39
47.9 +0.6
3.08 .29
41.5-0.1
3.98 .97
28.9*+0.3
5.52 .99
50.7 0.6
25.8
23.82 .40
47.6 0.0
3.37 .30
41.4 0.3
4.25 .98
28.8 -0.1
5.81 .30
50.3 +0.1 '
Oct. 5.7
24.22 .40
48.0 -0.7
3.67 .30
41.0 0.4
4.54 .29
29.2 0.6
6.12 .31
50.5 -0.4
15.7
24.62 .39
49.0 1.3
3.97 .30
40.6 0.5
4.83 .99
29.9 1.0
6.42 .31
51.2 1.0 '
i
25.7
25.01 +.37
50.6 -1 9
4.26 +.S9
40.0 -0.6
5.11 +.98
31.1 -1.4
6.73 +.30
52.5 -1.5
Nov. 4.7
25.36 .34
52.8 9.4
4.55 .98
39.4 0.7
5.39 .97
32.7 1.8
7.03 .99
54.2 1.9
14.6
25.68 .30
55.4 9.9
4.83 .96
38.7 0.7
5.65 .95
34.6 9.0
7.31 .97
56.3 2.3
24.6
25.96 .95
58.5 3.9
5.08 .94
38.0 0.7
5.89 .99
36.8 9.3
7.57 .94
58.8 2.6
Dec. 4.6
26.18 .19
61.9 3.4
5.31 .21
37.2 0.7
6.10 .19
39.2 9.4
7.79 .21
61.6 2.8
14.5
26.33 +.12
65.4 -3.6
5.50 +.17
36.6 -0.6
6.27 +.15
41.6 -2.5
7.98 +.17
64.5 -2.9
24.5
26.42 +-.05
69.0 3.6
5.65 .13
36.0 0.5
6.41 .11
44.1 2.5
8.12 .12
67.5 3.0
34.5
26.44 -.02
72.5 -3.4
5.76 +.08
35.6 -0.4
6.50 +.07
46.6 -2.4
8.22 +.07
70.4 -Q.9
FIXED STAES, 1884.
327
APPARENT PLACES FOE THE UPPER TRANSIT AT WASHINGTON.
Mean
Solar
Date.
6 Canis Majoris.
<J Geminorum.
Piazzi
vii. 67.
a8 Geminorum.
{Castor.)
Right
Ascension.
Declination
South.
Right
Ascension.
Declination
North.
Right
Ascension.
•
Declination
North.
Right
Ascension.
Declination
North.
h m
7 3
-26° 12
li m
7 13
+22° 11
h ni
7 18
+ 68° 41
h ni
7 27
+32° 8
Jan. 0.5
s
42.50 +.10
44.7-9.9
s
13.70 +.15
29.1 -0.9
8
52.49 +.30
49.0 +9.4
8 ^ *
14.02 +.17
17.6 +0.3
J0.5
42.58 +.05
47.5 9.8
13.83 .10
28.9 -0.1
52.73 .18
51.4 9.5
14.16 .19
17.9 0.5
20.5
42.60 .00
50.2 9.6
13.90 +.05
28.9 o.o
52.84 +.05
54.0 9.5
14.26 .07
18.4 0.6
30.4
42.57 -.05
52.7 9.3
13.92 -.01
29.0 +0.1
52.83 -.08
56.5 9.5
14.29 +.01
19.1 0.7
Feb. 9.4
42.49 .10
54.8 9.0
13.88 .06
29.2 0.9
52.69 .20
59.0 9.4
14.27 -.05
19.9 0.8
19.4
42.37 -.14
56.7 -1.7
13.80 -.10
29.5 +0.3
52.43 -.31
61.2 +9.1
14.19 -.10
20.7 +0.8
29.4
42.21 .17
58.2 1.9
13.68 .14
29.8 0.3
52.08 .40
63.2 1.8
14.07 .14
21.4 0.7
Mar. 10.3
42.02 .90
59.3 0.9
13.52 .17
30.1 0.3
51.64 .47
64.8 1.4
13.90 .18
22.1 0.7
20.3
41.81 .21
60.0 0.5
13.34 .18
30.4 0.3
51.15 .51
65.9 0.9
13.71 .90
22.7 0.5
30.3
41.59 .99
60.3 -0.1
13.15 .19
30.7 0.9
50.62 .53
66.6 +0.4
13.51 .21
23.2 0.4
Apr. 9.2
41.38 -.21
60.2 +0.3
12.96 -.18
30.9 +0.9
50.08 -.53
66.8 0.0
13.30 -.20
23.5 +0.9
J 9.2
41.17 .20
59.8 0.6
12.78 .17
31.0 0.1
49.56 .50
66.5 -0.5
13.10 .19
23.6 +0.1
29.2
40.99 .17
59-.0 1.0
12.62 .15
31.1 +0.1
49.08 .45
65.8 1.0
12.92 .17
23.6 -O.l
May 9.2
40.83 .14
57.8 1.3
12.49 .19
31.1 0.0
48.66 .38
64.6 1.4
12.76 .14
23.4 0.9
19.1
40.70 .11
56.3 1.6
12.39 .08
3J.1 0.0
48.32 .80
63.0 1.7
12.64 .10
23.1 0.4
29.1
40.61 -.07
54.5 +1.9
12.32 -.04
31.1 -0.1
46.06 -.21
61.1 -4.0
12.56 -.06
22.7 -0.5
June 8.1
40.56 -.03
52.5 9.1
12.30 .00
31.0 o.l
47.90 .11
58.9 9.3
12.52 -.09
22.1 0.6
18.1
40.54 +.01
50.2 9.3
12.32 +.04
30.9 0.1
47.83 -.02
56.5 9.5
12.52 +.09
21.5 0.6
28.0
40.57 .05
47.9 9.4
12.37 .07
30.8 0.1
47.86 +.08
54.0 9.6
12.56 .06
20.8 0.7
July 8.0
40.63 .08
45.5 9.4
12.46 .11
30.7 o.l
48.00 .18
51.4 2.6
12.64 .10
20.1 0.7
18.0
40.74 +.12
43.0 +9.4
12.59 +.14
30.6 -0.1
48.23 +.97
48.8 -9.6
12.76 +.14
19.4 -0.8
28.0
40.87 .15
40.7 9.3
12.75 .17
30.4 0.9
► 48.55 .36
46.3 9.5
12.92 .17
18.6 0.8
Aug. G.9
41.04 .18
38.5 9.1
12.94 .90
30.2 0.2
48.95 .44
43.9 9.4
13.11 .21
17.8 0.8
10.9
41.24 .91
36.5 1.8
13.16 .23
30.0 0.9
49.43 .51
41.6 9.9
13.34 .99
17.0 0.8
26.9
41.47 .24
34.8 1.5
13.40 .25
29.8 0.3
49.98 .58
39.5 1.9
13.58 .26
16.2 0.8
Sept. 5.8
41.72 +.26
33.5 +1.1
13.66 +.97
29.4 -0.4
50.58 +.63
37.7 -1.7
13.86 +.28
15.4 -0.8
15.8
41.99 .98
32.7 0.6
13.93 .98
29.0 0.5
51.24 .67
36.1 1.4
14.15 .80
14.6 0.8
25.8
42.27 .99
32.3 +0.1
14.22 .30
28.4 0.6
51.93 .71
34.8 l.l
14.46 .32
13.7 0.8
Oct. 5.8
42.57 .30
32.4 -0.4
14.53 .31
27.8 0.6
52.66 .73
33.9 0.7
14.79 .33
12.9 0.8
15.7
42.87 .30
33.1 0.9
14.84 .31
27.1 0.7
53.40 .74
33.4 -0.4
15.12 .34
12.1 0.8
25.7
43.18 +.30
34.3 -1.4
15.16 +.39
26.4 -0.7
54.14 +.74
33.2 0.0
15.47 +.34
11.4 -0.7
Nov. 4.7
43.48 .99
35.9 1.8
15.47 .31
25.7 0.7
54.88 .79
33.4 +0.4
15.82 .34
10.7 0.6
14.6
43.76 .97
38.0 9.2
15.78 .30
24.9 9.7
55.59 .69
34.1 0.9
16.16 .33
10.2 0.5
24.6
44.02 .95
40.4 9.5
16.07 .98
24.2 0.7
56.26 .64
35.1 1.3
16.48 .39
9.8 0.3
Dec. 4.6
44.26 .92
43.0 9.7
16.34 .95
23.6 0.6
56.86 .57
36.6 1.6
16.79 .99
9.5 -O.l
14.6
44.45 +.18
45.8 -9.9
16.58 +.99
23.1 -4.5
57.39 +.48
38.4 +9.0
17.06 +.95
9.5 0.0
24.5
44.61 .13
48.7 9.9
16.78 .18
22.7 0.3
57.82 .37
40.5 9.3
17.29 «91
9.6 +0.9
34.5 44.72 +.08
51.6 -4.8
16.94 +.13
22.4 -o.l
58.13 +.96
42.9 +9.5
17.47 +.16
9.9 +9.4
328
FIXED STARS, 1884.
APPARENT PLACES FOB THE UPPEK TRANSIT AT WASHINGTON.
Mean
Solar
Date.
a Canis Minoris.
(Procyon.)
/? Geminorum.
(Pollux.)
0 Geminorum.
3 Ursas Majoris (H.)
Right
Ascension.
Declination
North.
Right
Ascension*
•
Declination
North.
Bight
Ascension.
Declination
North.
Right
Ascension.
Declination
North,
h m
7 33
O /
+ 5 30
h m
7 38
+28° 17
h m
7 46
o /
+27 3
h m
8 1
+ 68° 48
Jan. 0.5
8
15.61 +.15
66.4 -1.4
8
15.04 +.19
65.7 o.o
8
25.82 +.19
40.5 -0.1
8
19.36 +.40
32.9 +a.l
10.5
15.74 .11
65.1 1.9
15.20 .13
65.8 +0.9
25.99 .14
40.6 +0.1
19.71 .99
35.1 9.4
20.5
15.82 +.06
64.0 1.1
15.30 .08
66.1 0.4
26.10 .08
40.8 0.3
19.93 .16
37.6 9^
30.5
15.85 .00
63.0 0.9
15.34 +.09
66.6 0.5
26.15 +.03
41.1 0.4
20.03 +.03
40.2 2.6
Feb. 9.4
15.84 -.04
62.2 0.7
15.33 -.04
67.2 0.6
26.15 -.09
41.6 0.5
19.99 -.10
42.7 2.5
19.4
15.77 -.09
61.6-0.5
15.27 -.09
67.8 +0.6
26.09 -.06
42.2 +0.6
19.83 -.91
45.2 +S.4
29.4
15.66 .12
61.2 0.3
15.15 .13
68.4 0.6
25.99 .19
42.8 0.6
19.56 .39
47.G 9.9
Mar. 10.4
15.52 .15
61.0 -0.2
15.00 .16
69.0 0.6
25.85 .16
43.4 0.6
19.19 .41
49.6 1.8
20.3
15.36 .17
60.9 0.0
14.83 .19
69.6 0.5
25.68 .18
44.0 0.5
18.75 .47
51.2 1.4
30.3
15.19 .18
60.9 +0.1
14.63 .90
70.1 0.4
25.49 .19
44.5 0.4
18.25 .51
-52.4 1.0
Apr. 9.3
15.01 -.17
61.0 +0.9
14.43 -.90
70.4 +0.3
25.30 -.19
44.9 +0.3
17.73 -.53
53.1 +0.5
19.2
14.84 .16
61.3 0.3
14.24 .19
70.8 +0.9
25.11 .18
45.2 0.9
17.20 .59
53.4 0.0
29.2
14.68 .14
61.6 0.4
14.06 .17
70.8 0.0
24.93 .16
45.3 +0.1
16.69 .49
53.2 -0.5
May 9.2
14.55 .19
62.1 0.5
13.91 .14
70.7 -o.i
24.78 .14
45.4 0.0
16.22 .44
52.4 0.9
19 2
14.44 .09
62.6 0.6
13.79 .11
70.6 0.9
24.66 .11
45.3 -0.1
15.81 .38
51.3 1.4
29.1
14.37 -.06
63.2 +0.6
13.70 -.07
70.3 -0.3
24.56 -.07
45.1 -0.9
15.47 -J0
49.7 -1.7
June 8.1
14.33 -.09
63.9 0.7
13.65 -.03
70.0 0.4
24.51 -.03
44.9 0.3
15.21 .91
47.8 2.1
18.1
14.32 +.01
64.6 0.7
13.64 +.01
69.6 0.4
24.50 +.01
44.5 0.4
15.05 .19
45.6 9.3 [
28.0
14.35 .05
65.4 0.8
13.67 .05
G9.1 0.5
24.52 .04
44.2 0.4
14.97 -.09
43.2 9.5
July 8.0
14.41 .08
66.l' 0.8
13.74 .09
68.6 0.5
24.58 .08
43.7 0.5
15.00 +.07
40.6 9.6
1
18.0
14.51 +.11
66.9 +0.8
1-3.85 +.19
68.1 -0.6
24.68 +.11
43.2 -0.5
15.12 +.16
I
37.9 -2.7
28.0
14.63 .14
67.6 0.7
13.99 .15
%G7.5 0.6
24.81 *15
42.7 0.6
15.33 .95
35.2 9.7,
Aug. 6.9
14.78 .17
68.3 0.6
14.16 .18
66.8 0.6
24.98 .16
42.1 0.6
15.63 .34
32.5 9.7 ;
16.9
14.96 .19
68.8 0.5
14.36 .91
66.2 0.7
25.17 .9!
4 1 .4 0.7
16.01 .49
29.9 2.6
26.9
15.16 .91
69.2 0.3
14.59 .94
65.5 0.7
25.39 .93
40.7 0.7
16.46 .49
• 27.4 9.4 '
1
Sept. 5.9
15.39 +93
69.4 +0.1
14.84 +.96
64.7 -0.8
25.64 + .96
40.0 -0.8
16.99 +.56
1
25.0 -9.9
15.8
15.63 .95
69.3 -0.1
15.12 .98
64.0 0.8
25.90 .98
39.2 0.8
17.58 .61
22.9 9.0 '
25.8
15.89 .97
69.0 0.4
15.41 .30
63.1 0.9
26.19 .30
38.3 0.9
18.22 .66
21.1 1.7
Oct. 5.8
16.17 .98
68.5 0.7
15.72 .38
62.2 0.9
26.50 .31
37.4 0 9
18.90 .70
19.5 1.4 '
15.8
16.46 .99
67.7 0.9
16.05 .33
61.4 0.9
26.82 .39
36.4 0.9
19.62 .73
18.3 1.0
25.7
16.75 +.99
66.7 -l.l
16.38 +.33
60.5 -0.8
27.14 +.33
35.5 -0.9
20.37 +.75
17.5 -0.6 [
Nov. 4.7
17.04 .99
65.5 1.3
16.72 .33
59.7 0.8
27.48 .33
34.6 0.9
21.12 .75
17.1 -0.9!
14.7
17.34 .98
64.2 1.4
17.05 .33
58.9 0.7
27.81 .33
33.8 0.8
21.86 .73
17.1 +0.3 '
24.6
17.62 .97
62.7 1.5
17.37 .31
58.3 0.6
28.13 .31
33.0 0.7
22.58 .69
17.6 0.7
Dec. 4.6
17.88 .94
61.2 1.5
17.67 .99
57.8 0.4
28.44 .99
32.4 0.5
23.25 .64
18.6 l.l
14.6
18.11 +.99
59.7 -1.5
17.94 +.26
57.4 -0.9
28.71 +.96
31.9-0.4
23.86 +.56
19.9 +1.6
24.6
18,31 .18
58.2 1.4
18.17 .99
57.3 0.0
28.95 .92
31.6-0.9
24.38 .47
21.7 1.9
34.5
18.46 +.13
56.9 -1.3
18.37 +.18
57.3 +0.1
29.15 +.17
31.6 0.0
24 79 +.36
23.8 +2.3
FIXED STARS, 1884.
329
APPARENT PLACES FOE THE UPPER TRANSIT AT WASHINGTON.
Mean
Solar
Date.
Jan. 0.6
10.0
20.5
30.5
Feb. 9.5
Mar
19.4
29.4
10.4
20.4
30.3
15 Argue (i)
Right
Ascension.
A|ir. 9.3
19.3
29.2
M:iy 9.2
19.2
29.2
June 8.1
18.1
28.1
July 8.1
18.0
28.0
Aug. 7.0
16.9
26.9
Sept. 5.9
15.9
25.8
Oct. 5.8
15.8
Nov,
Dec.
25.8
4.7
14.7
24.7
4.6
14.6
24.6
34.6
h m
8 2
38.22 +.17
38.36 .13
38.45 .06
38.48 +.01
38.47 -.04
38.40 -.00
38.30 .13
38.15 .16
37.98 .18
37.79 .19
37.59 -JO
37.39 .19
37.20 .18
37.03 ^ .16
36.88 .13
36.76 -.11
36.67 .07
•36.62 .04
36.59 -.01
36.60 +.03
36.65 +.06
36.73 .10
36.84 .13
36.98 .16
37.16 .19
37.36 +.99
37.60
37.86 .97
38.13 .99
38.43 .30
38.73 +.31
39.04 .31
39.35 .30
39.65 .99
39.93 .96
40.18 +.93
40.39 .19
40.56 +.15
Declination
South,
-23 58
2K8 -9.9
24.7 9.8
27.4 9.7
30.0 9.6
32.4 9.3
34.5 -1.9
36.3 1.6
37.7 1.3
38.9 0.9
39.5 0.5
39.8 -0.9
39.8 +0.9
39.4 0.5
38.7 0.9
37.6 1.9
36.3 +1.5
34.7 1.7
32.8 1.9
30.8 9.1
28.7 9.9
26.5 +9.9
24.3 9.9
22.2 9.0
20.3 1.8
18.6 1.5
17.2 +1.9
16r2 0.8
15.6 +0.3
15 5 -0.1
15.8 0.6
16.7 -l.l
18.0 1.6
19.8 9.0
22.0 9.3
24.4 9.6
27.1 -3.8
29.9 9.8
32.8 -9.8
9 Cancri.
Bight
Ascension.
h m
8 26
1.81 +.23
2.00 .17
2.15 .19
2.24 .06
2.28 +.01
2.26 -.04
2.20 .08
2.10 .19
1.96 .15
1.80 .17
1.62 -.17
1.45 .17
1.28 .16
1.13 .14
0.99 .19
0.88 -.09
0.81 .06
0.76 -.03
0.75 .00
0.77 +.04
0.83 +.07
0.91 .10
1.03 .13
1.18 .16
1.35 .19
1 .55 +.91
1.78 .94
2.03 .96
2.30 .98
2.60 .30
2.90 +.38
3.23 .39
3.55 .39
3.88 .39
4.19 .30
4.48 +.98
4.74 .94
4.96 +.90
Declination
North.
+20 49
49.V -0.6
49.2 0.4
48.9 -0.9
48.8 0.0
48.9 +0.9
49.1 +0.3
49.5 0.4
50.0 0.5
50.5 0.5
51.0 0.5
51.6 +0.5
52.0 0.4
52.4 0.4
52.7 0.3
53.0 0.9
53.2 +0.1
53.2 0.0
53.2 0.0
53.2 -0.1
53.0 0.9
52.9 -0.9
52.6 0.
52.2 0 4
51.8 0.6
51.2 0.6
50.5 -0.7
49.7 0.9
48.8 1.0
47.7 1.1
46.6 1.9
45.4 -1.9
44.1 1.9
42.8 1.9
41.6 1.9
40.5 1.1
39.5 -0.9
38.6 0.7
38.0 -0.5
e Hydra.
Right
Ascension.
h m
8 40
39.68 +.99
39.87 .17
40.02 .19
40.12 .07
40.16 +:09
40.16 -.03
40.1 1 .07
40.02 .10
39.90 .13
39.76 .15
39.60 -.16
39.44 .16
39.28 .15
39.14 .14
39.00 .19
38.90 -.09
38.82 .07
38.76 .04
38.74 -.01
38.74 +.09
38.78 +.05
38.84 .06
38.94 .11
39.05 .13
39.20 .16
39.34 +.19
39.57 .91
39.80 .94
40.05 .96
40.32 .98
40.61 +.99
40.91 .30
41.22 .31
41.53 .30
41.82 .99
42.10 +.97
42.36 .94
42.58 +.90
Declination
North.
+ 6 50
25^2 -1.5
23.8 1.3
22.6 1.1
21.6 0.9
20.8 0.7
20.3 -0.5
19.9 0.3
19.7 HU
19.7 +0.1
19.8 0.9
20.1 +0.3
20.4 0.4
20.8 0.4
21.3 0.5
21.8 0.5
22.3 +0.6
22.9 0.6
23.5 0.6
24.2 0.6
24.8 0.6
25.3 +0.5
25.8 0.6
26.3 0.4
26.6 0.9
26.7+0.
26.7 -0.1
26.5 0.3
26.0 0.6
25.3 0.8
24.4 10
23.2 -1.3
21.8 1.4
20.4 1.6
18.7 1.6
17.1 1.7
15.4 -1.6
13.8 1.5
12.4 -1.4
i Ursa Majoris.
Bight
Asoension.
h Dl
8 51
17.68 +.»
17.96 .95
18.18 .19
18.33 .11
18.41 +.04
18.41 -.03
18.34 .10
18.22 .15
18.04 .90
17.82 .93
17.67 -.95
17.32 .96
17.06 .95
16.82 .93
16.59 .31
16.40 -.17
16.25 .13
16.13 .09
16.07 -.05
16.04
16.07 +.05
16.14 .09
16.25 .14
16.41 .18
16.60 .99
16.84 +.96
17.12 .30
17.44 .35
17.79 .37
18.17 .39
18.58 +.49
19.00 .43
19.44 .44
19.88 .43
20.31 .49
20.72 +.39
21.08 .35
21.41 +.30
Declination
North.
+ 48 29
28.0 +0.8
28.9 l.l
30.1 1.4
31.6 1.6
33.3 1.7
35.1 +1.8
37.0 1.8
38.7 1.7
40.3 1.5
41.8 1.3
42.9 +1.0
43.8 0.7
44.3 +0.3
44.4 0.0
44.2 -0.3
43.8 -0.7
42.9 1.0
41.8 1.9
40.5 1.5
38.9 1.6
37.2 -1.8
35.3 1.9
33.3 9.0
31.3 9.1
29.2 9.1
27.0 -3.1
25.0 9.0
23.0 9.0
21.0 1.8
19.3 1.7
17.7 -1.6
16.3 1.9
15.3 0.9
14.5 0.6
14.1 -0.9
14.1 +0.9
14.4 0 5
15.2 +0.9
330
FIXED STARS, 1884
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
a2 Urate Majoris.
k Cancri.
i Argus.
1 Draconis (H.)
Mean
Solar
Date.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
South.
Right
Ascension.
Declination
North.
h m
9 0
+67 35
h m
9 1
+ 11° 7
h m
9 13
O /
-58 47
h m
9 20
+ 81° 49
Jan. 0.6
S
13.23 +.51
55.2 +1.6
S
29.47 +.94
5K2 -1.3
s
62.01 +.31
16.8 -3.5
33.44+1.30
52.9 +1.9
J 0.6
13.69 .41
56.9 1.9
29.69 .19
50.0 l.l
62.28 .93
20.4 3.7
34.62 1.06
55.0 9.3
20.5
14.04 .30
59.1 9.3
29.86 .15
49.0 0.9
62.48 .15
24.2 3.6
35.55 0.78
57.5 9.7
30.5
14.28 .16
61.5 9.5
29.98 .10
48.2 0.7
62.59 +.07
28.0 3.8
36.18 .48
60.3 9.9
Feb. 9.5
14.39 +.05
64.0 9.6
30.05 +.04
47.6 0.4
62.62 -.01
31.7 3.7
36.51 +.16
63.3 3.0
19.5
14.39 -.07
66.7 +9.6
30.07 .00
47.3 -0.9
62.56 -.09
35.3 -3.5
36.52 -.14
66.4 +3.0
29.4
14.26 .18
69.3 9.5
30.04 -.05
47.2 -0.1
62.44 .16
38.7 3.9
36.23 .44
69.4 9.9
Mar. 10.4
14.03 .96
71.7 3.3
29.97 .09
47.2 +0.1
62.24 .99
41.7 9.9
35.65 .71
72.2 9.7
20.4
13.71 .36
73.9 9.0
29.86 .19
47.4 0.9
61.99 .98
44.4 9.5
34.81 .94
74.8 9.4
30.4
13.31 .43
75.8 1.6
29.73 .14
47.7 0.3
61.69 .39
46.7 9.0
33.76 1.13
77.0 9.0
Apr. 9.3
12.86 -.46
77.2 +1.9
29.58 -.15
48.1 40.4
61.36 -.34
48.5 -1.6
32.54 1.98
78.7 +1.5
19.3
12.38 .48
78.2 0.8
29.43 .16
48.5 0.4
61.00 .36
49.8 1.1
31.21 1.36
79.9 0.9
29.3
11.90 .48
78.7 40.3
29.27 .15
49.0 0.5
60.64 .37
60.6 -0.6
29.82 1.39
80.5 40.3
May 9.2
11.43 .46
78.7 -0.9
29.12 .14
49.5 0.5
60.27 .36
50.9 0.0
28.42 1.37
80.6 -0.3
19.2
10.98 .49
78.2 0.7
28.99 .13
50.0 0.5
59.91 .35
50.7 40.5
27.07 1.31
80.1 0.8
29.2
10.59 -.37
77.3 -1.1
28.88 -.10
50.4 +0.5
59.58 -.39
50.0 +1.0
25.80 1.90
79.1 -1.3
Juue 8.2
10.25 .31
76.0 1.6
28.78 .08
50.9 0.5
59.27 .99
48.8 1.4
24.67 1.05
77.5 1.8
18.1
9.98 .93
74.2 1.9
28.72 .05
51.4 0.4
58.99 .95
47.1 1.9
23.70 .88
• 75.5 9.9
28.1
9.78 .15
72.1 9.9
28.68 -.09
51.8 0.4
58.76 .91
45.1 9.9
22.91 .68
73.1 9.6
July 8.1
9.67 -.07
69.8 9.5
28.67 .00
52.1 0.3
58.57 .16
42.6 9.6
22.33 .47
70.4 9.9
18.1
9.64 +.01
67.2 -9.7
28.69 +.03
52.4 +0.3
58.44 -.10
39.9 49.8
21.97 -.95
67.4 -3.1
28.0
9.69 .09
64.4 9.8
28.73 .06
52.7 0.9
58.36 -.04
37.0 3.0
21.84 -.09
64.2 3.3
Aug. 7.0
9.82 .17
61.6 9.9
28.81 .09
52.8 +0.1
58.35 +.03
34.0 3.0
21.94 +.91
60.8 3.4
17.0
10.04 .95
58.6 9.9
28.91 .19
52.8 -o.l
58.41 .09
31.0 3.0
22.26 .44
57.4 3.4
26.9
10.33 .33
55.8 9.9
29.04 .14
52.7 0.9
58.53 .16
28.0 9.8
22.81 .66
54.1 3.3
Sept. 5.9
10.70 +.40
52.9 -9.8
29.20 +.17
52.4 -0.4
58.72 +.93
25.3 +9.6
23.57 +.87
50.8 -3.9
15.9
11.13 .47
50.2 9.6
29.39 .90
51.9 0.6
58.97 .99
22.8 9.9
24.55 1.07
47.6 3.0
25.9
11.64 .53
47.7 9.4
29.60 .93
51.2 0.8
59.29 .35
20.8 1.8
25.71 1.95
44.7 9.8
Oct. 5.8
12.20 .59
45.4 9.9
29.84 .95
50.3 1.0
59.67 .40
19.3 1.3
27.04 1.41
42.0 9.5
15.8
12.82 .64
43.3 1.9
30.10 .97
49.2 1.9
60.09 .44
18.3 +0.7
28.52 1.55
39.8 9.1
25.8
13.48 +.68
41.7-1.5
30.39 +.99
47.9 -1.4
60.55 +.47
18.0 0.0
30.13 1.65
37.9 -1.7
Nov. 4.8
14.18 .70
40.3 l.l
30.69 .31
46.5 1.5
61.04 .49
18.3 -0.6
31.83 1.73
36.4 1.9
14.7
14.88 .71
39.5 0.6
31.01 .31
44.9 1.6
61.53 .49
19.2 1.3
33.58 1.76
35.5 0.7
24.7
15.60 .70
39.1 -0.1
31.32 .31
43.3 1.6
62.02 .48
20.8 1.9
35.35 1.75
35.1 -0.1
Dec. 4.7
16.29 .67
39.2 +0.4
31.63 .30
41.7 1.6
62.50 .45
22.9 9.4
37.08 1.69
35.3 40.5
14.6
16.94 +.69
39.8 +0.8
31.93 +.99
40.1 -1.5
62.93 +.41
25.6 -9.9
38.73 1.58
36.1 41.0
24.6
17.54 .56
40.9 1.3
32.20 .96
38.6 1.4
63.31 .35
28.7 3.3
40.24 1.42
37.4 1.6
34.6
18.06 +.48
42.4 +1.7
32.44 +.99
37.3 -1.9
63.62 +.97
32.2 -3.6
41.57+1.31
39.2 43.1
FIXED STARS, 1884.
331
APPARENT PLACES FOB THE UPPER TRANSIT AT WASHINGTON.
a Hydra.
d Urate
Vfnjoris.
6 Ursa Majoris.
£ Leonig.
Mean
Solar
Date.
Right
Ascension.
Declination
South.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
h m
9 21
O I
-89
Ir m
9 24
+ 70° 19
h m
9 25
+ 52° 11
h m
9 39
+24° 17
Jan. 0.6
8
54.86 +.04
30.9 -8.3
s
15.03 +.61
59.2 +1.4
a
7.36 +.37
58.8 +0.6
8
17.38 +.28
72.6 -0.9
10.6
55.08 .90
33.2 9.9
15.58 .50
60.8 1.9
7.70 .31
59.6 1.0
17.65 .94
71.9 0.5
20.6'
55.26 .15
35.3 3.0
16.03 .38
62.9 2.2
7.97 .94
60.8 1.4
17.87 .90
71.5 -0.9
30.5
55.39 .11
37.3 1.9
16.35 .26
65.3 9.5
8.18 .17
62.4 1.7
18.04 .14
71.5 +0.1
Feb. 9.5
55.47 .06
39.0 1.7
16.54 +.12
68.0 9.7
8.31 .09
64.2 1.9
18.15 .09
71.7 0.3
19.5
55.50 +.01
40.6 -1.4
16.59 -.02
70.7 +2.8
8.36 +.01
66.2 +2.0
18.22 +.04
72.1 +0.5
29.5
55.48 -.04
41.8 l.l
16.51 .15
73.5 9.7
8.34 -.06
68.3 2.1
18.22 -.02
72.7 0.7
Mar. 10.4
55.42 .07
42.8 0.9
16.30 .96
76.1 9.5
8.24 .13
70.3 2.0
18.18 .06
73.5 0.8
20.4
55.33 .11
43.6 0.6
15.98 .36
78.6 2.3
8.08 .18
72.3 1.9
18.10 .10
74.4 0.9
30.4
55.21 .13
44.1 0.4
15.57 .44
80.7 1.9
7.87 .23
74.1 1.6
, 17.99 .13
75.3 0.9
Apr. 9.3
55.07 -.14
44.4 -0.9
15.09 -.50
82.4 +1.5
7.63 -.26
75.6 +1.3
17.85 -.15
76.2 +0.9
19.3
54.92 .15
44.4 +0.1
14.56 .54
83.7 l.o
7.36 .27
76.8 1.0
17.70 .16
77. 1 0.8
29.3
54.77 .15
44.2 0.3
14.01 .55
84.5 +0 5
7.08 .27
77.6 0.7
17.54 .16
77.9 0.7
May 9.3
54.62 .14
43.8 0.5
13.47 .54
84.8 0.0
6.81 .27
78.1 +0.3
17.38 .15
78.5 0.6
19.2
54.49 .13
43.3 0.7
12.94 .51
84.5 -0.5
6.55 .25
78.2 -O.l
17.22 ,14
79.1 0.4
29.2
54.36 -.11
42.5 +0.8
12.45 -.46
83.8 -1.0
6.32 -.92
77.9 -0.5
17.09 -.13
79.4 +0.3
June 8.2
54.26 .09
41.6 0.9
12.02 .40
82.6 1.4
6.12 .18
77.2 0.9
16.97 .11
79.6 +0.1
18.2
54.18 .07
40.6 l.l
11.66 .33
81.0 1.8
5.95 .14
76.2 1.9
16.68 .08
79.7 0.0
28.1
54.12 .04
39.5 1.2
11.37 .25
79.0 2.2
5.83 .10
74.8 1.5
16.81 .06
79.6 -0.2
July 8.1
54.08 -.01
38.3 1.2
11.10 .16
76.7 2.5
5.75 .06
73.2 1.7
16.76 -.03
79.4 0.3
18.1
54.07 .00
37.0 +1.8
1 1 .05 -.07
74.0 -2.7
5.72 -.01
71.4 -8.0
16.75 .00
79.0 -0.5
28.0
54.09 +.03
35.8 1.9
11.03 +.02
71.2 2.9
6.73 +.04
69.3 9.1
16.76 +.03
78.4 0.6
Aug. 7.0
54.13 .06
34.6 l.l
11.10 .11
68.2 3.0
5.79 .08
67.1 9.3
16.80 .06
77.7 0.8
17.0
54.21 .09
33.5 1.0
11.26 .21
65.2 3.1
5.90 .13
64.7 9.4
16.87 .09
76.9 0.9
27.0
54.31 .19
32.6 0.8
11.51 .30
62.1 3.1
6.06 .18
62.3 2.4
16.97 .12
75.9 1.1
Sept. 5.9
54.44 +.15
31.9 +0.6
11.85 +.38
59.0 -3.0
6.26 +.23
59.8 -2.5
I7.il +.15
74.7 -1.9
15.9
54.60 .18
31.4 +0.3
12.28 .47
56.0 2.9
6.51 .87
57.4 2.4
17.27 .18
73.4 1.4
25.9
54.80 .91
31.3 0.0
12.78 .54
53.2 2.7
6.80 .31
54.9 2.4
17.47 .21
72.0 1.5
Oct. 5.9
55.02 .S3
31.5 -0.3
13 36 .61
50.6 2.5
7.14 .35
52.6 2.3
17.69 .94
70.4 1.6
15.8
55.27 .96
32.0 0.7
14.01 .68
48.3 2.2
7.51 .39
50.4 2.1
17.95 sn
68.8 1.7
25.8
55.54 +.98
32.9 -1.1
14.72 +.73
46.3 -1.8
7.92 +.42
48.4 -1.9
18.24 +.30
67.1 -1.7
Nov. 4.8
55.83 .30
34.1 1.4
15.47 .77
44.7 1.4
8.36 .45
46.7 1.6
18.55 .39
65.3 1.7
14.7
56.14 .31
35.6 1.7
16.25 .79
43.5 0.9
8.82 .46
45.2 1.3
18.88 .33
63.6 1.7
24.7
56.45 .31
37.5 1.9
17.05 .79
42.8 -0.4
9.29 .47
44.1 0.9
19.22 .34
62.0 1.6
Deo. 4.7
56.76 .30
39.5 9.1
17.83 .77
42.6 +0.1
9.75 .46
43.4 0.5
19.56 .34
60.4 1.4
14.7
57.06 +.99
41.7 -2.9
18.58 +.73
43.0 +0 6
10.20 +.44
43.2 -0.1
19.90 +.33
59.1 -1.2
24.6
57.33 .86
43.9 9.2
19.28 .66
43.9 1.1
10.62 .40
43.3 +0.4
20.21 .30
58.0 1.0
34.6
57.57 +.23
46.2 -2.2
19.90 +.57
45.3+1.6
11.00 +.35
43.9 +0.8
20.50 +.26
57.1 -0.7
332
FIXED STARS, 1884.
APPARENT PLACES FOB THE UPPER TRANSIT AT WASHINGTON.
Mean
Solar
Date.
fi Leonis.
a Leonis.
(Rcgulus.)
32UroB
Majoris.
yl Leonia.
Bight
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
Bight
Ascension.
Declination
North,
Right
Ascension.
Declination
North.
h m
9 46
+26° 32
h m
10 2
+ 12° 31
h m
10 9
+65° 40
h m
10 13
+20° 25
Jan. 0.6
S
11.31 +.30
54.0 -0.8
s
12.96 +.88
48.9 -1.5
8
37.56 +.67
48.0 +0.8
s
35.83 +.30
26.1 -1.8
10.6
11.59 .35
53.3 0.4
13.23 .94
47.6 1.3
38.10 .50
49.0 1.9
36.11 .96
.25.0 0.9
20.6
11.81 .80
53.0 -0.1
13.45 .80
46.4 1.0
38.56 .49
50.4 1.7
36.35 .39
24.2 0.6
30.6
1J.99 .15
53.1 +0.3
13.63 .16
45.6 0.7
38.93 .39
52.4 9.1
36.55 .17
23.8 -0.3
Feb. 9.5
12.12 +.10
53.4 0.4
13.76 .11
45.0 0.5
39.19 .91
54.7 9.4
36.70 .19
23.6 0.0
19.5
12.19 +.04
54.0 +0.7
13.84 +.06
44.6 -0.9
39.35 +.10
57.2 +9.6
36.80 +,07
23.8 +0.3
29.5
12.20 -.01
54.7 0.8
13.87 +.01
44.6 0.0
39.39 -.01
59.9 9.7
36.84 +.03
24.2 0.5
Mar. 10.4
12.17 .05
55.6 1.0
13.86 -.04
44.7 +0.9
39.32 .11
62 6 9.7
36.84 -.09
24.8 0.7
20.4
12.10 .09
56.6 1.0
13.80 .07
45.0 0.4
39.16 .91
65.2 9.5
36.80 .06
25.5 0.8
30.4
11.98 .13
57.7 1.0
13.72 .10
45.5 0.5
38.91 .99
67.6 9.3
36.72 .10
26.4 0.9
Apr. 9.4
11.84 -.15
58.7 +1.0
13.60 -.19
46.0 +0.6
38.59 -.35
69.8 +9.0
36.61 -.19
27.3 +0.9
19.3
11.69 .16
59.7 0.9
13.47 .13
46.6 0.6
36.22 .39
71.6 1.6
36.48 .13
28.2 0.9
29.3
11.53 .16
60.5 0.8
13.34 .14
47.3 0.6
37.82 .49
72.9 l.l
36.34 .14
29.0 0.8
May 9.3
11.36 .16
61.2 0.6
13.20 .14
47.9 0.6
37.39 .43
73.8 0.7
36.20 .14
29.8 0.7
19.3
11.21 .15
61.8 0.5
13.06 .13
48.5 0.6
36.96 .49
74.2 +0.9
36.05 .13
30.5 0.6
29.2
11.07 -.13
62.1 +0.3
1293 -.19
49.1 +0.6
36.56 -.40
74.1 -0.9
35.92 -.19
31.1 +0.5
June 8.2
10.94 .11
62.3 +0.1
12.82 .10
49.6 0.5
36.17 .36
73.6 0.8
35.80 .11
31.5 0.4;
18.2
10.84 .09
62.3 -0.1
12.72 .06
50.1 0.4
35.83 .39
72.5 1.9
35.69 .10
31.8 o.a ;
28.2
10.77 .06
62.2 0.9
12.65 .07
50.5 0.4
35.54 .97
71.1 1.6
35.61 .08
31.9 +0.1
July 8.1
10.72 .04
61.8 0.4
12.59 .05
50.8 0.3
35.30 .91
69.2 9.0
35.54 .06
31.9-0.1
18.1
10.69 -.01
61.3 -0.6
12.56 -.09
51.0 +0.1
35.13 -.14
67.0 -9.4
35.50 -.03
31.8 -0.8
28.1
10.70 +.08
60.6 0.8
12.55 .00
51.1 0.0
35.02 .06
64.5 9.6
35.48 -.01
31.4 0.4
Aug. 7.0
10.73 .05
59.8 0.9
12.56 +.03
51.1 -0.1
34.97 -.01
61.8 9.8
35.48 +.09
31.0 0.6
17.0
10.80 .08
58.8 l.i
12.61 .06
50.9 0.3
35.00 +.07
58.8 3.0
35.52 .05
30.3 0.7
27.0
10.89 .11
57.7 1.3
12.68 .08
50.5 0.4
35.10 .14
55.8 3.1
35.58 .08
29.5 0.9
Sept. 6.0
11.02 +.14
56.4 -1.4
12.78 +.19
50.0 -0.6
35.28 +.91
52.6 -3.1
35.68 +.11
28.5 - l.l
15.9
11.18 .18
55.0 1.5
12.91 .15
49.3 0.8
35.52 .98
49.5 3.1
35.80 .14
27.3 1.3
25.9
11.37 .31
53.4 1.6
13.07 .18
48.4 1.0
35.84 .35
46.4 3.0
35.96 .16
25.9 1.4
Oct. 5.9
11.59 .34
51.7 1.7
13.27 .91
47.2 1.9
36.23 .43
43.4 9.9
36.15 .91
24.4 1.6
15.8
11.85 .97
50 0 1.8
13.50 .94
45.9 1.4
36.69 .49
40.6 9.7
36.38 .94
22.7 1.7
25.8
12.14 +.30
48.2 -1.8
13.75 +.97
44.4 -1.6
37.21 +.55
38.0 -9.4
36.64 +.37
20.9 -1.8
Nov. 4.8
12.45 .39
46.3 1.8
14.04 .99
42.8 1.7
37.78 .59
35.7 9.1
36.93 .30
19.0 1.9
14.8
12.78 .34
44.6 1.7
14.34 .31
41.0 1.6
38.40 .63
33.9 1.6
37.24 .33
17.1 1.9
24.7
13.12 .35
42.9 1.6
14.66 .39
39.1 1.8
39.04 .65
32.5 1.9
37.57 .33
15.2 1.8
Dec. 4.7
13.47 .34
41.4 1.4
14.98 .39
37.3 1.8
39.70 .66
31.5 0.7
37.90 .34
13.4 1.7
14.7
13.81 +.33
40.0 -1.3
15.30 +.39
35.5 -1.7
40.36 +.64
31.1 -0.1
38.24 +.33
11.8-1.6
24.7
14.14 .31
39.0 0.9
15.61 .30
33.8 1.6
40.98 .60
31.3 +0.5
38.56 .31
10.3 1.3
34.6
14.43 +.98
38.2 -0.6
15.90 +.97
32.4 -1.4
41.56 +.55
32.0 +l.o
38.86 +.89
9.1 -1.0
FIXED STABS, 1884.
333
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
9 Draconis (H.)
p Leoniii.
71 Argus.
I Leonis.
Mean
Solar
Date.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
South.
Right
Ascension.
Declination
North.
h m
10 25
+76° it
li m
10 26
+9° 63
li m
10 40
o /
-59 4
li m
10 43
4-11 9
Jan. 0.7
s
14.57 +.96
7l'.8 +0.9
s
43.43 +.99
60.0 -1.7
8
36.33 +.45
31.3 -9.9
10.73 +.30
30.1 -1.7
10.6
15.47 .84
73.0 1.5
43.69 .96
58.5 1.5
36.75 .39
34.4 9.9
11.00 .87
18.5 1.5
20.6
16.85 .71
74.7 9.0
43.94 .99
57.1 1.9
37.10 .39
37.7 3.4
11.36 .33
17.3 1.9
30.6
16.89 .55
76.9 9.4
44.14 .18
56.0 0.9
37.39 .95
31.3 3.6
11.47 .19
16.1 0.9
Feb. 9.6
17.36 .38
79.5 9.7
44.39 .13
65.3 0.7
37.60 .17
34.9 3.7
11.64 .14
15.4 0.6
19.5
17.64 +.10
83.3 +9.9
44.39 +.08
54.7 -6.4
37,78 4.09
38.6 -3.7
11.76 +.10
14.9 -0.3
29.5
17.74 +.01
85.3 3.0
44.45 +.03
54.4 -0.9
37.77 +.01
43.3 3.6
11.83 .05
14.7 -0.1
Mar. 10.5
17.66 -.17
88.3 9.9
44.46 -.01
54.4 +0.1
37.75 -.06
45.8 3.4
11.86 +.01
14.7 +0.1
20.4
17.40 .34
01.3 9.8
44.43 .05
54.6 0.3
37.66 .19
49.0 3.1
11.85 -.03
15.0 0.3
30.4
16.98 .48
93.9 9.5
44.36 .08
54.9 0.4
37.51 .18
53.0 9.8
11.80 .07
15.4 0.5
Apr. 9.4
16.43 -.80
96.3 +9.9
44.37 -.10
55.4 +0.5
37.31 -.99
54.6 -9.4
11.78 -.09
16.0 +0.6
19.4
15.78 .69
98.3 1.8
44.16 .19
56.0 0.6
37.07 .96
56.8 9.0
11.63 .11
16.6 0.7
89.3
15.05 .75
99.8 1.9
44.04 .13
56.6 0.6
36.79 .39
58.7 1.6
11.50 .19
17.3 0.7
May 9.3
14.37 .79
100.8 0.7
43.91 .13
57.3 0.6
36.49 .91
60.0 l.l
11.38 .13
18.0 0.7
19.3
13.48 .79
101.3+0.9
43.78 .13
57.9 0.6
36.17 .89
60.9 0.6
11.35 .13
18.8 0.7
89.3
13.69 -.77
101.3-0.4
43.65 -.19
58.6 +0.6
35.85 -.39
61.3-0.1
11.13 -.13
19.4 +0.7
June 8.8
11.94 .73
100.5 0.9
43.54 .11
59.1 0.6
35.53 .39
61.1 +0.4
11.01 .11
30.1 0.6
18.8
11.85 .66
99.4 1.4
43.44 .10
59.7 0.5
35.31 .91
60.4 0.9
10.90 .10
30.6 0.5
88.8
10.63 .57
97.8 1.8
43.35 .08
60.3 0.5
34.93 .98
59.3 1.3
10.80 .99
21.3 0.4
July 8.1
10.10 .47
95.7 9.3
43.38 .06
60.6 0.4
34.64 .96
57.8 1.8
10.73 .07
31.5 0.3
18.1
9.68 -.36
93.3-9.6
43.33 -.04
61.0 +9.3
34.41 -.99
55.8 +3.1
10.66 -.05
21.8+0.3
88.1
9.38 .85
90.4 9.9
43.30 -.09
61.3+0.9
34.31 .17
53.5 9.5
10.68 .04
38.0 +o.i
Aug. 7.1
9.19 -.13
87.4 3.9
43.19 .00
61.3 0.0
34.06 .19
50.9 8.7
10.60 -.91
88.0 -o.i
17.0
9.13 .00
84.1 3.3
43.31 +.03
61.3-0.1
33.97 -.06
48.1 3.9
10.60 +.09
21.9 0.3
87.0
9.19 +.13
80.7 3.4
43.35 .06
61.0 0.3
33.94 .00
45.3 3.9
10.63 .04
21.6 0.4
Sept. 6.0
9.39 +.98
77.3 -3.5
43.33 +.09
60.6 -0.5
33.98 +.07
43.4 +9.8
10.69 +.07
21.1 -0.6
16.0
9.78 .39
73.8 3.4
43.44 .19
60.0 0.7
34.09 .15
39.6 9.7
10.78 .11
80 4 0.8
85.9
10.18 .59
70.4 3.3
43.57 .16
59.3 0.9
34.37 .99
37.0 8.4
10.90 .14
19.4 l.o
Oct. 5.9
10.76 .64
67.1 3.9
, 43.75 .19
58.3 1.3
34.53 .99
34.8 8.0
11.06 .18
18.3 1.3
15.9
11.46 .76
64.1 9.9
43.95 .99
56.9 1.4
34.86 .36
33.1 15
11.86 .91
16.9 1.5
85.8
18.37 +.86
61.3 -9.6
44.19 +.96
55.4 -1.6
35.35 +.49
31.8+1.0
11.48 +.84
15.4 -1.6
Nov. 4.8
13.18 .95
58.9 9.9
44.46 .98
53.7 1.7
35.69 *47
31.1 +0.4
11.75 .87
13.6 1.8
14.8
14.17 1.01
57.0 1.7
44.76 .30
519 1.9
36.18 .50
31.0 -0.9
13.04 .30
11.8 9.0
84.8
15.80 1.06
55.5 1.9
45.07 .39
50.0 1.9
36.69 .53
31.5 0.6
13.35 .33
9.8 9.0
Dec. 4.7
16.88 1.07
54.6 -0.6
45.40 .39
48.1 1.9
37.31 .59
33.7 1.4
13.67 .32
7.8 9.0
14.7
17.34 1.05
54.3 0.0
45.73 +.39
46.1 -1.9
37.78 +.50
34.4 -8.0
13.00 +.39
5.8 -1.9
84.7
18.38 1.00
54.5 +0.8
46:03 .31
44.3 1.8
38.31 .47
36.8 3.5
13.33 .31
4.0 1.8
34.6
19.34 +.99
55.4 +1.9
46.33 +.98
43.6 -1.6
38.66 +.49
39.5 -3 0
13.63 +.99
3.3 -1.7
334
FIXED STARS, 1884.
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
a Ursffi Majoris.
6 Leonis.
6 Crateria.
r Leonis.
Mean
Solar
Date.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
South.
Right
Ascension.
Declination
North,
•
h m
10 56
+62° 21
h m
11 7
O /
+21 9
h m
11 13
o /
-14 9
h m
11 21
+ 3 29
Jan. 0.7
8
34.51 +.56
74.4 +0.1
67.22 +.33
18.9 -1.5
8
33.70 +.31
5.9 -9.4
8
59.26 +.31
34.2 -2.0
10.7
35.05 .51
74.7 0.6
57.53 .30
17.6 1.9
34.00 .98
8.2 9.4
59.56 .99
32.3 1.8
20.6
35.53 .45
75.6 1.9
57.82 .97
16.6 0.8
34.27 .95
10.6 9.3
59.83 .96
30.5 1.6
30.6
35.94 .37
77.0 1.6
58.06 .99
16.0 0.5
34.50 .91
12.8 9.9
60.07 .99
29.0 1.4
Feb. 9.6
36.26 .96
78.9 9.1
58.26 .10
15.7 -0.1
34.69 .17
15.0 9.1
60.27 .18
27.7 l.l
19.5
36.50 +.19
81.1 +9.4
58.42 +.13
15.7 +0.9
34.84 +.19
17.0 -1.9
60.43 +.13
26.7-0.9!
89.5
36.64 +.09
83.6 9.6
58.52 .08
16.1 0.5
34.94 .08
18.7 1.6
60.54 .09
26.0 0.6 1
Mar. 10.5
36.68 .00
86.3 9.7
58.57 +.03
16.8 0.8
34.99 +.03
20.2 1.4
60.60 .05
25.5 0.3
20.5
36.63 -.09
89.0 9.7
58.58 -.01
17.6 0.9
35.00 .00
21.5 l.l
60.63 +.01
25.3 -o.l
30.4
36.50 .17
91.6 9.6
58.55 .05
18.6 1,0
34.96 -.04
22.5 0.9
60.62 -.03
25.3 +0.1
Apr. 9.4
36.30 -.93
94.1 +9.3
58.49 -.08
19.7 +1.1
34.93 -.08
23.2 -6.7
60.57 -.06
25.5 +0.3
19.4
36.03 .99
96.3 9.0
58.40 .10
20.8 1.1
34.86 .09
23.7 0.4
60.51 .08
25.9 0.4
29.4
35.72 .33
98.2 1.7
58.29 .19
22.0 l.l
34.76 .10
24.0 -0.9
60.42 .09
26.4 0.5
May 9.3
35.38 .35
99.6 1.9
58 17 .13
23.0 1.0
34.65 .11
24.0 +0.1
60.32 .10
27.0 0.6
19 3
35.02 .36
100.6 0.8
58.04 .13
24.0 0.9
34.53 .19
23.9 0.3
60.21 .11
27.6 0.7
29.3
34.66 -.36
101.2 +0.3
57.90 -.13
24.8 +0.8
34.41 -.19
23.5 +0.5
60.10 -.u
28.3 +0.7
Jane 8.2
34.31 .34
101.2 -0.9
57.78 .19
25.5 0.6
34.29 .19
23.0 0.6
59.98 .11
29.0 0.7
18.2
33.98 .39
100.8 0.7
57.66 .19
26.0 0.4
34.18 .11
22.2 0.8
59.87 .11
29.7 0.7
28.2
33.67 .99
99.9 l.l
57.54 .11
26.3 +0.9
34.07 .10
21.4 0.9
59.77 .10
30.3 0.6
July 8.2
33.40 .95
98.6 1.5
57.44 .09
26.4 0.0
33.96 .09
20.4 l.l
59.66 .09
31.0 0.6
18.1
33.18 -.90
96.8 -1.9
57.36 -.08
26.3 -0.9
33.88 -.08
19.3 +1.1
59.59 -.08
31.6 +0.5
28.1
33.00 .15
94.7 9.3
57.30 .06
26.0 0.4
33.80 .07
18.1 1.9
59.52 .06
32.0 0.4
Aug. 7.1
32.87 .10
92.3 9.6
57.25 .03
25.6 0.6
33.74 .05
16.9 1.9
59.47 .04
32.4 0.3
17.1
32.80 -.04
89.6 9.8
57.23 -.01
24.9 0.8
33.71 -.09
15.8 1.1
59.44 -.09
32.7 +0.9/
27.0
32.79 +.09
86.6 3 0
57.23 +.09
24.0 l.o
33.70 +.01
14.7 1.0
59.43 .00
32.8 o.o
Sept. 6.0
32.84 +.08
83.5 -3.3
57.27 +.05
22.9 -1.9
33.72 +.03
13.7 +0.9
59.44 +.03
32.8 -0.9
16.0
32.96 .15
80.3 3.9
57/33 .08
21.6 1.4
33.78 .07
12.9 0.7
59.49 .07
32.5 0.4
26.0
33.14 .99
77.0 3.3
57.44 .19
20.0 1.6
33.87 .11
12.4 0.4
59.58 .10
32.0 0.6
Oct. 5.9
33.40 .99
73.8 3.9
57.58 .16
18.3 1.8
34.00 .15,
12.1 +0.1
59.69 .14
31.2 0.9
15.9
33.72 .36
70.6 3.1
57.75 .90
16.5 9.0
34.17 .19
12.2 -0.9
59.85 .18
30.2 l.l
25.9
34.11 +.43
67.6 -9.9
57.97 +.94
14.4 -9.]
34.38 +.93
12.6 -0.6
60.05 +.91
29.0 -1.4
Nov. 4.8
34.56 .48
64.8 9.6
5$.22 .97
12.3 9.9
34.63 .96
13.3 0.9
60.28 .95
27.5 1.6
14.8
35.06 .59
62.3 9.3
58.51 .30
10.1 9.9
34.90 .99
14.4 1.3
60.55 .98
25.8 1.8
24.8
35.61 .56
60.2 1.9
58.82 .39
8.0 9.1
35.21 .31
15.9 1.6
60.84 .30
23.9 9.0
Dec. 4.8
36.19 .58
58.6 1.4
59.15 .34
5.9 9.0
35.53 .39
17.7 1.9
61.15 .39
21.8 9.1
14.7
36.78 +.59
57.5 -0.9
59.49 +.34
3.9 -1.9
35.86 +.33
19.7 -9.1
61.48 +.39
19.8 -9.1
24.7
37.36 .57
56.9 -6.3
59.83 .33
2.1 1.6
36.18 .39
21.9 9.3
61.80 .39
17.7 9.0
34.7
37.92 +.54
56.9 +0.3
60.16+ J)
0.6 -1.3
36.50 +.30
24.2 -9.4
62.11 +.31
15.7 -1.9
FIXED STARS, 1884.
335
APPARENT PLACES FOB THE UPPER TRAN8IT AT WASHINGTON.
\ Draconis.
v Leonia.
/? Leonia.
y UrsoD Majoris.
Mean
Solar
Date.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
South.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
h m
11 24
+69° 57
h m
11 31
o /
- 0 11
h m
11 43
+;£ 12
11 47
+ 54° 19
Jan. 0.7
s
30.59 +.74
«
52.6 o.o
1.52 +.39
6.5 -9.1
a
9.28 +.33
62.7 -1.8
43.84 +.48
61.6 -0.8
10.7
31.31 .69
52.9 +0.5
1.82 .99
8.5 9.0
9.59 .31
61.1 1.5
44.31 .45
61.0-0.3
20.7
31.97 ,6S
53.7 l.i
2.10 .96
10.4 1.8
9.89 .98
59.7 1.2
44.75 .42
61.1 +0.3
30.6
32.55 .53
55.2 1.7
2.35 .99
12.1 1.6
10.15 .94
58.6 0.9
45.14 .37
61.7 0.9
Feb. 9.6
33.03 .49
57.1 9.1
2.55 .18
13.6 1.3
10.37 .90
57.9 0.8
45.48 .31
62 8 1.4
19.6
33.40 +.31
59.4 +9.5
2.71 +.M
14.8 -1.1
10.55 +.16
57.5 -0.9
45.76 +.94
64.4 +1.8
29.5
33.64 .18
62.1 9.8
2.83 .10
15.8 0.8
10.69 .11
57.5 +0.1
45.96 .16
66.4 9.1
Mar. 10.5
33.76 +.06
65.0 9.9
2.90 .06
16.5 0.6
10.78 .07
57.7 0.4
46.08 .09
68.7 9.4
20.5
33.75 -.06
67.9 9.9
2.94 +.09
16.9 0.3
10.82 +.03
58.2 0.6
46.14 +.09
71.2 9.5
30.5
33.63 .18
70.8 9.8
2.94 -.09
17.1 -o.i
10.83 -.01
59.0 0.8
46.12-05
73.8 9.6
Apr. 9.4
33.40 -.98
73.6 +9.6
2.90 -.05
17.0 +0.1
10.80 -.04
59.8 +0.9
46.04 -.11
76.4 +2.5
19.4
33.07 .36
76.1 9.3
2.84 .07
16.9 0.3
10.74 .07
60.8 1.0
45.91 .16
78.8 2.3
29.4
32.68 .43
78.3 9.0
2.76 .09
16.5 0.4
10.66 .09
61.8 1.0
45.73 .90
81.0 2.1
May 9.3
32.22 .47
80.0 1.5
2.67 .10
16.1 0.5
10.57 .10
62.9 1.0
45.52 .93
83.0 1.8
19.3
31.73 .50
81.3 1.0
2.58 .11
15.5 0.6
10.46 .11
63.8 1.0
45.28 .95
84.6 1.4
29.3
31.22 -.51
82.1 +0.5
2.46 -.11
14.9 +0.6
10.34 -.19
64.8 +0.9
45.03 -.96
85.8 +1.0
June 8.3
30.70 .51
82.4 o.o
2.34 .11
14.2 0.7
10.22 .19
65.6 0.8
44.77 .96
86.6 0.5
18.2
30.20 .49
82.1 -0.5
2.24 .11
13.6 0.7
10.11 .19
66.3 0.6
44.51 .96
86.9 +0.1
28.2
29.72 .46
81.4 1.0
2.13 .10
12.8 0.7
9.99 .11
66.8 0.5
44.25 .95
86.8 -0.3
July 8.2
29.28* .49
80.1 1.5
2.03 .09
12.1 0.7
9.88 .10
67.2 0.3
44.02 .93
86.2 0.8
18.2
28.89 -.36
78.4 -9.0
1.94 -.08
11.4 +0.7
9.78 -.09
67.5 +0.1
43.80 -.21
85.2 -1.2
28.1
28.55 .30
76.2 9.4
1.87 .07
10.8 0.6
9.70 .08
67.5 0.0
43.60 .18
83.8 1.6
Aug. 7.1
28.28 .93
73.6 9.7
1.81 .05
10.3 0.5
9.62 .06
67.4 -0.2
43.44 .14
82.0 2.0
17.1
28.09 .16
70.8 3.0
1.76 .03
9.8 0.4
9.57 .04
67.0 0.3
43.32 .11
79.8 2.3
27.0
27.97 -.07
67.7 3.9
1.75 -.01
9.5 +0.9
^9.54 -.09
66.5 0.6
43.23 .06
77.4 2.0
Sept. 6.0
27.94 +.01
64.4 -3.4
1.75 +.09
9.4 0.0
9.54 +.01
65.8 -0.9
43.19 -.09
74.6 -2.8
16.0
27.99 .10
60.9 3.5
1.79 .06
9.4 -0.9
9.56 .04
64.8 l.l
43.20 +.04
71.7 3.0
26.0
28.14 .90
57.3 3.6
1.87 .09
9.7 0.4
9.62 .08
63.6 1.3
43.26 .09
68 5 3 2
Oct. 5.9
28.38 .99
53.8 3.5
1.98 .13
10.2 0.7
9.72 .19
62.2 1.5
43.38 .15
65.3 3.3
15.9
28.72 .38
50.3 3.4
2.13 .17
11.0 0.9
9.86 .16
60.5 1.7
43.56 .21
62.0 3.3
25.9
29.15 +.47
47.0 -3.9
2.32 +.91
12.1 -1.9
10.04 +.90
58.7 -1.9
43.81 +.27
58.8 -3.2
Nov. 4.9
29.67 .56
43.9 9.9
2.54 .94
13.4 1.5
10.26 .94
56.6 9.1
44.11 .33
55.6 3.0
14.8
30.27 .63
41.2 9.5
2.81 .98
15.0 1.7
10.52 .97
54.5 9.9
44.47 .36
52.7 2.8
24.8
30.94 .69
38.9 9.1
3.10 .30
16.9 1.9
10.80 .30
52.3 9.9
44.87 .43
50.0 2.5
Dec. 4.8
31.65 .73
37.0 1.6
3.40 .39
18.8 9.0
11.12 .32
50.1 2.2
4532 .46
47.6 9.1
14.8
32.40 +.75
35.7 -1.0
3.73 +.39
20.9 -9.1
11.44 +.33
48.0 -9.1
45.79 +.48
45.7-1.7
24.7
33.16 .75
35.0 -0.4
4.05 .39
23.0 9.1
11.77 .33
45.9 1.9
46.27 .48
44.3 1.9
34.7
33.90 +.79
34.8 +0.9
4.36 +.31
25.1 -9.0
12.10 +.32
44.1 -1.7
46.75 +.47
43.4 -0.6
336
FIXED STARS, 1884.
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
o Virginia.
4 Draconia (H.)
yCorvi.
P Chamaeleontia.
Mean
Solar
Date.
Right
Accession.
Declination
North.
Bight
Ascension.
Declination
Aiorth.
Right
Ascension.
Declination
South.
Bight
Ascension.
Declination
South.
li m
11 59
+ 9° 32
h m
12 6
+78 14
h m
12 9
-16 53
h m
12 11
-78 39
Jan. 0.7
8
18.68 +.33
29.9 -9.0
s
44.12+1.90
75.7 -0.4
a
51.40 +.33
5o!e -9.9
s
38.20+1.94
47.9 -1.5
10.7
19.00 .31
28.0 1.8
45.29 1.15
75.6 +0.8
51.72 .31
53.0 9.9
39.40 1.15
, 49.7 9.0
90.7
19.29 .98
26.4 1.6
46.40 1.07
76.2 0.9
52.02 .99
55.3 9.3
40.51 1.05
51.9 2.5
30.6
19.56 .95
25.0 1.9
47.43 .97
77.4 1.5
52.30 .96
57.6 9.9
41.50 .99
54.6 9.9
Feb. 9.6
19.79 .91
24.0 0.9
48.33 .89
79.2 9.0
52.54 .99
59.8 9.1
42.35 .78
57.8 3.3
19.6
19.98 +.17
23.3-0.6
49.07 +.65
81.5 +9.5
52.74 +.18
61.8-9.0
43.05 +.69
61.2-33
29.6
20.13 .13
22.8 -0.3
49.62 .46
84.1 9.6
52.90 .14
63.7 1.6
43.58 .45
64.8 3.7
Mar. 10.5
20.23 .06
22.7 0.0
49.1)8 .95
87.1 3.0
53.01 .10
65.3 1.6
43.95 .96
68.6 3.6
20.5
20.30 .04
22.9 +0.3
50.13 +.05
90.2 3.1
53.09 .06
66.8 1.3
44.14 +.11
72.3 3.8
30.5
20.32 +.01
23.3 0.5
50.08 -.15
93.3 3.1
53.13 +.09
67.9 1.1
44.16 -.05
76.1 3.7
Apr. 9.5
20.31 -.09
23.9 +0.7
49.83 -.33
96.4 +3.0
63.13 -.01
68.9 -0.9
44.03 -.91
79.7 -3.5
19.4
20.27 .06
24.6 0.8
49.40 .50
99.2 9.7
53.11 .04
69.6 0.6
43.74 .36
83.0 3.2
29.4
20.21 .07
25.4 0.8
48.83 .64
101.8 9.4
53.06 .06
70.1 0.4
43.31 .50
86.2 9.9
May 9.4
20.13 .00
26.3 0.9
48.12 .76
104.0 1.9
52.99 .06
70.4 -0.9
42.74 .69
88.9 9.6
19.3
20.04 .10
27.2 0.9
47.31 .84
105.7 1.4
52.90 .09
70.5 0.0
42.07 .79
91.3 9.9
29.3
19.93 -.11
28.0 +0.8
46.44 -.90
106,9 +0.9
52.80 -.10
70.3 +0.2
41.30 -.81
93.2 -1.7
June 8.3
19.83 .11
28.8 0.8
45.51 .93
107.5 +0.4
52.69 .11
70.0 0.4
40.45 .88
94.7 u
16.3
19.71 .11
29.6 0.7
44.57 .93
107.7 -0.1
52.58 .19
69.6 0.6
39.54 .93
95.6 0.7
28.2
19.60 .11
30.2 0.6
43.64 .91
107.2 0.7
52.46 .19
68.9 0.7
38.59 .95
96.0 -o.l
July 8.2
19.49 .11
30.8 0.5
42.74 .87
106.2 1.3
62.34 .19
6a 1 0.9
37.64 .94
96.8 +0.5
18.2
19.39 -.10
31.2 +0.4
41.90 -.80
104.7 -1.7
52.23 -.11
67.2 +1.0
36.71 -.91
95.0 +1.0
28.2
19.30 .09
31.6 0.9
41.14 .79
102.8 9.9
52.12 .10
66.1 l.l
35.83 .85
93.8 13
Aug. 7.1
19.22 .07
31.7 +0.1
40.46 .69
100.4 9.6
52.02 .09
65.0 1.1
35.02 .75
92.0 9.0
17.1
19.15 .05
31.7 -0.1
39.90 .50
97.6 3.0
51.94 .07
63.9 l.l
34.33 .63
89.8 9.4
27.1
19.11 -.03
31.4 0.3
39.45 .&
94.4 3.3
51.88 .05
62.8 l.l
33.77 .48
87.2 9.7
Sept. 6.0
19.09 .00
31.1 -0.5
39.14 -.94
91.1 -3.5
51.85 -.09
61.8+1.0
33.36 -.31
84.4 +9.9
16.0
19.10 +.03
30.4 0.7
38.98 -.09
87.5 3.6
51.84 +.09
60.9 0.8
33.15 -.19
81.4 3.1
26.0
19.14 .06
29.6 1.0
38.97 +.07
83.8 3.7
51.88 .05
60.2 0.6
33.13 +.06
78.3 3.1
Oct. 6.0
19.22 .10
28.5 1.9
39.12 .93
80.0 3.7
51.96 .10
59.7 0.4
33.32 .99
75.2 3.0
15.9
19.35 .14
27.1 1.4
39.43 .40
76.3 3.7
52.07 .14
59.5 +0.1
33.72 .50
72.3 9.8
25.9
19.51 +.18
25.6 -1.7
39.91 +.56
72.7 -3.5
52.24 +.18
59.6 -0.3
34.32 +.70
69.7 +9.4
Nov. 4.9
19.72 .99
23.8 1.9
40.55 .79
69.3 3.3
52.44 .93
60.0 0.6
35.11 .87
67.5 9.0
14.8
19.96 .96
21.8 9.0
41.34 .86
66.2 9.9
52.69 .97
60.9 1.0
36.06 1.09
65.8 1.5
24.8
20.23 .99
19.8 9.1
42.27 .98
63.4 9.5
52.97 .30
62.0 1.3
37.14 1.13
64.6 0.9
Dec. 4.8
20.54 .31
17.6 9.9
43.31 1.08
61.2 9.0
53.28 .39
63.5 1.6
38.32 1.91
64.1 +0.9
14.8
20.86 +.39
15.4 -4.1
44.43 1.15
59.5 -1.4
53.61 +.33
65.2 -1.9
39.55 1.94
64.1 -0.4
24.7
21.18 .33
13.4 9.0
45.61 1.18
58.3 0.8
53.94 .33
67.2 9.1
40.80 1.93
64.9 1.0
34.7
21.50 +.39
11.4 -1.9
46.60+1.18
57.9 -0.1
54.28 +.33
69.4 -9.9
42.01+1.19
66.2 -1.7
FIXED STARS, 1884.
337
APPARENT PLACES FOE THE UPPEE TEANSIT AT WASHINGTON.
<q Virginia.
a1 Cruris.
/? Conri.
k Draconis.
Mean
Solar
Date.
Bight
Aaoenalon.
Declination
South.
Bight
Ascension.
Declination
South.
Bight
Aaoenalon.
Declination
South.
Bight
Ascension.
Declination
North.
h m
12 13
o /
- 0 1
h m
12 20
-62° 27
h m
12 28
o >
-22 45
h m
12 28
+70° 24
Jan. 0.7
8
58.98 +.33
24.2 -9.1
8
10.40 +.59
7.4 -1.7
a
18.57 +.35
14.4 -4.1
8
30.70 +.75
77.6 -4.9
10.7
59.30 .31
26.2 9.0
10.97 .55
9.3 9.1
18.91 .33
16.6 9.9
31.45 .74
77.0 -0.3
20.7
59.60 .39
28.1 1.8
11.50 .51
11.7 9.6
19.23 .31
18.9 9.3
32.18 .71
77.1 -H>.4
30.7
59.87 .85
29.8 1.6
11.98 .45
14.4 9.9
19.52 .98
21.2 9.3
32.86 .65
77.8 1.0
Feb. 9.6
60.11 .99
31.4 1.4
12.41 .39
17.5 3.9
19.78 .94
23.5 2.3
33.47 .56
79.1 1.6
19.6
60.31 +.18
32.6 -1.1
12.76 +.39
20.8 -3.4
20.00 +.90
25.7 -9.9
33.98 +.46
81.0 +9.1
29.6
60.47 .14
33.6 0.8
13.04 .94
24.3 3.5
20.16 .16
27.9 9.0
34.40 .35
83.3 9.5
Mar. 10.5
60.59 .10
34.2 0.5
13.25 .17
27.8 3.5
20.32 .19
29.8 1.8
34.69 .23
86.0 9.8
20.5
60.66 .06
34.6 0.3
13.38 .09
31.2 3.4
20.42 .08
31.6 1.6
34.86 +.11
88.9 3.0
30.5
60.70 +.03
34.8 -0.1
13.43 +.09
34.6 3.3
20.48 .04
33.1 1.4
34.91 -.01
92.0 3.0
Apr. 9.5
60.71 -.01
34.8 +0.1
13.42 -.04
37.8 -3.1
20.50 +.01
34.4 -1.9
34.84 -.19
95.0 +3.0
19.4
60.69 .03
34.6 0.3
13.35 .10
40.7 9.8
20.50 -.09
35.5 1.0
34.66 .93
98.0 9.8
29.4
60.64 .05
34.2 0.4
13.22 .16
43.4 9.5
20.46 .05
36.3 0.7
34.38 .33
100.7 9.6
May 9.4
60.58 .07
33.7 0.5
13.03 .91
45.7 9.9
20.41 .07
36.9 0.5
34.02 .39
103.1 9.9
19.4
60.50 .09
33.1 0.6
12.80 .95
47.7 1.7
20.33 .09
37.3 -0.9
33.60 .45
105.1 1.8
29.3
60.41 -.10
32.4 +0.7
12.54 -.98
49.2 -1.3
20.24 -.10
37.4 0.0
33.12 -.49
106.7 +1.3
June 8.3
60.31 .10
31.8 0.7
12.24 .31
50.3 0.8
20.13 .11
37.3 +0.9
32.61 .59
107.8 0.8
18.3
60.20 .11
31.0 0.7
11.91 .33
50.9 -0.4
20.02 .19
37.0 0.4
32.08 .53
108.3 +0.3
28.2
60.09 .11
30.3 0.7
11.57 .34
51.0 +0.1
19.89 .13
36.5 0.6
31.54 .53
108.3 -0.9
July 8.2
59.98 .11
29.6 0.7
11.22 .35
50.6 0.6
19.76 .13
35.8 0.8
31.02 .59
107.8 0.8
18.2
59.88 -.10
29.0 +0.6
10.88 -.34
49.8+1.1
19.64 -.13
34.9 +1.0
30.51 -.49
106.8 -1.3
26.2
59.78 .09
28.4 0.6
10.54 .39
48.4 1.5
19.51 .19
33.8 1.1
30.04 .45
105.3 1.8
Aug. 7.1
59.69 .08
27.9 0.5
10.24 .99
46.7 1.9
19.40 .11
32.7 1.9
29.61 .40
103.3 9.9
17.1
59.61 .0?
27.5 0.3
9.97 .94
44.6 9.3
19.30 .09
31.4 1.3
29.24 .34
100.9 9.6
27.1
59.56 .05
27.2+0.1
9.76 .18
42.2 9.5
19.22 .07
30.1 1.3
28.93 .98
98.1 9.9
Sept. 6.1
59.52 -.09
27.1 0.0
9.60 -.19
39.6 +9.7
19.16 -.04
28.9 +1.9
28.70 -.19
95.0 -8.9
16.0
59.52 +.01
27.2 -0.9
9.52 -.04
36.8 9.8
19.14 .00
27.7 1.1
28.55 .10
91.7 3.4
26.0
59.55 .05
27.4 0.4
9.52 +.05
34.0 9.7
19.15 +.04
26.6 0.9
28.49 -.01
88.1 3.6
Oct. 6.0
59.62 .09
28.0 0.7
9.62 .14
31.4 9.6
19.21 .08
25.8 0.7
28.53 +.09
84.5 3.7
15.9
59.73 .13
28.8 0.9
9.80 .93
28.9 9.3
19.31 .13
25.2 0.4
28.67 .19
80.7 3.7
25.9
59.88 +.17
29.8 -1.2
10.07 +.31
26.7 +9.0
19.46 +.17
24.9 +0.1
28.92 +.30
77.1 -3.6
Nov. 4.9
60.07 .91
31.1 1.5
10.42 .40
24.9 1.5
19.66 .99
25.Q -0.3
29.27 .40
73.5 3.4
14.9
60.31 .95
32.7 1.7
10.86 .47
23.6 1.0
19.90 .96
25.5 0.6
29.72 .50
70.2 3.9
24.8
60.57 .98
34.5 1.9
11.36 .59
22.9 +0.5
20.18 .30
26.3 l.o
30.27 .59
67.1 9.8
Dec. 4.8
60.87 .30
36.4 9.0
11.91 .56
22.7 -o.i
20.50 .33
27.5 1.4
30.90 .66
64.5 9.4
14.8
61.16 +.39
38.5 -9.1
12.48 +.58
23.2 -0.7
20.83 +.34
29.0 -1.7
31.60 +.73
62.4 -1.9
24.8
61.51 .39
40.6 9.1
13.07 .59
24.2 1.3
21.17 .34
30.8 1.9
32.33 .75
60.8 1.3
34.7
61.83 +.31
42.7 -9.0
13.65 +.57
25.8 -1.9
21.52 +.34
32.9 -9.0
33.09 +.76
59.8 -0.6
22
338
FIXED STARS, 1884.
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
32* Camelop. (H.)
a* Can. Venaticorum.
6 Virginia.
a Virginia.
(Spica.)
Mean
Solar
Date.
i
Bight
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
Bight
Ascension.
Declination
South.
Bight
Ascension.
Declination
South.
h m
12 48
O 1
+84 1
h m
12 50
+ 38° 56
b m
13 3
O f
- 4 55
13 19
i
-10° 33
Jan. 0.8
s
11.24+9.90
74.2 -0.8
s
36.02 +.39
20.5 -1.8
8
57.09 +.33
10.8 -9.0
8
5.37 +.33
18.2 -9.0
10.7
13.43 9.18
73.7 -0.1
36.40 .38
24.9 1-3
57.42 .39
12.8 9.0
5.70 .33
20.1 9.0 1
90.7
15.60 9.12
73.9 +0.5
36.78 .36
23.8 0.8
57.74 .31
14.8 1.9
6.02 .31
22.1 1.9
30.7
17.67 1.96
74.8 1.9
37.13 .33
23.3-0 J3
58.03 .98
16.7 1.8
6.33 .99
24.0 1.8 1
Feb. 9.6
19.56 1.77
76.2 1.8
37.44 .30
23.3 +0.9
58.30 .95
18.3 1.6
6.61 .97
25.8 1.7 1
19.6
21.21+1.49
78.2 +9.3
37.72 +.95
23.8 +0.7
58.54 +.99
19.8 -1.3
6.86 +.93
27.4 -1.5:
29.6
22.56 1.17
80.7 9.7
37.95 .90
24.8 1.9
58.74 .19
21.0 1.1
7.08 .90
28.9 1.3
Mar. 10.6
23.55 0.80
83.6 3.0
38.13 .15
26.2 1.6
58.91 .15
21.9 0.8
7.26 .16
30.1 l.i 1
20.5
24.16 0.41
86.7 3.1
38.26 .10
27.9 1.9
59.04 .11
22*6 0.6
7.40 .13
31.1 0.9 '
30.5
24.38+0.09
89.8 3.1
38.34 .05
29.9 9.1
59.13 .08
23.1 0.3
7.51 .09
31.8 0.6 1
Apr. 9.5
24.21-0.36
93.0 +3.1
38.37 +.01
32.1 +9.9
59.19 +.04
23.2 -4).i
7.59 +.06
32.4 -0.4 '
19.5
23.66 0.79
96.1 9.9
38.36 -.03
34.3 9.9
59.22 +.09
23.3 +o.l
7.63 +.03
32.7 0.9 j
29.4
22.77 1.05
98.9 9.6
38.31 .07
36.6 9.9
59.22 -.01
23.1 0.9
7.65 .00
32.9 -o.i i
May 9.4
21.57 1.33
101.4 9.3
38.22 .10
38.7 9.0
59.20 .03
22.8 0.4
7.64 -.09
32.8 +0.1
19.4
20.10 1.57
103.4 1.8
38.11 .19
40.7 1.8
59.15 .05
22.4 0.5
7.61 .04
32.7 0.9
29.4
18.44-1.76
105.0 +1.3
37.97 -.14
42.4 +1.6
59.09 -.07
21.8 +0.6
7.56 -.08
32.4 +0.3 1
Jane 8.3
16.61 1.87
106.1 0.8
37.82 .16
43.8 1.3
59.01 .09
21.3 0.6
7.49 .08
32.0 0.4 1
18.3
14.69 1.94
106.6 +0.9
37.06 .17
44.9 0.9
58.92 .10
20.6 0.7
7.40 .09
31.6 0.5
28.3
12.73 1.97
106.6 -0.3
37.48 .17
45.7 0.6
58.82 .11
20.0 0.7
7.30 .11
31.0 0.6
July 8.2
10.76 1.94
106.0 0.9
37.31 .18
46.0 +0.9
58.70 .19
19.3 0.7
7.19 .19
30.3 0.7
18.2
8.85+1.86
104.8 -1.4
37.13 -.18
46.0 -0.9
58.59 -.19
18.6 +0.7
7.07 -.19
29.7 +0.7
26.2
7.04 1.74
103.2 1.9
36.96 .17
45.7 0.8
58.47 .19
17.9 0.6
7.94 .19
29.0 0.7
Aug. 7.2
5.36 1.59
101.0 9.3
36.80 .15
44.9 1.0
58.35 .11
17.3 0.6
7.82 .19
28.2 0.7
17.1
3.86 1.40
98.5 9.7
36.65 .13
43.8 1.3
58.24 .10
16.8 0.5
6.70 .11
27.5 0.7
27.1
2.57 1.17
95.5 3.1
36.53 .11
42.3 1.7
58.15 .08
16.3 0.4
6.59 .10
26.9 0.6
Sept. 6.1
1.52-0.99
92.3 -3.4
36.43 -.08
40.4 -9.0
58.07 -.06
15.9 +0.3
6.50 -.08
26.3+0.5
16.1
0.73 0.65
88.8 3.6
36.36 -.05
38.3 9.3
58.02 -.03
15.8+0.1
6.44 .05
25.8 0.4
26.0
0.22 0.35
85.1 3.7
36.34 .00
35.9 9.5
58.00 .00
15.7 -0.1
6.40 -.09
25.5 +0.9
Oct. 6.0
0.03-0.04
81.3 3.8
36.36 +.04
33.3 9.7
58.02 +.04
16.0 0.3
6.41 +.09
25.3 0.0
16.0
0.15+0.99
77.5 3.8
36.42 .09
30.4 9.9
58.08 .08
16.4 0.6
6.45 .07
25.4-4.9
25.9
0.61+0.09
73.7 -3.7
36.54 +.14
27.4 -3.0
58.18 +.13
17.1 -0.8
6.54 +.19
25.8 -0.5
Nov. 4.9
1.39 0.95
70.1 3.5
36.71 .90
24.4 3.1
58.34 .17
18.1 1.1
6.69 .16
26.4 0.7
14.9
2.50 1.98
66.8 3 9
36.93 .95
21.3 3.0
58.53 .99
19.3 1.4
6.87 .91
27.3 1.0
24.9
3.91 1.54
63.8 9.8
37.20 .99
18.3 9.9
58.77 .95
20.8 1.6
7.10 .95
28.4 1.3
Dec. 4.8
5.59 1.79
61.2 9.3
37.52 .33
15.4 9.7
59.04 .98
22.5 1.8
7.37 .98
29.9 1.5
14.8
7.50+1.99
59.1 -1.8
37.86 +.36
12.8 -9.4
59.34 +.31
24.4 -1.9
7.66 +.31
31.5-1.7
. 24.8
9.58 9.13
57.6 1.9
38.23 .38
10.6 Q.1
59.66 .39
26.4 9.0
7.98 .39
33.4 1.9
34.8
11.75+5.19
56.7 -p.fi
38.61 +.38
8,7 -l.fi
59.98 +.39
28.5 -9.0
8.31 +.33
35.3 -9.0
FIXED STARS, 1884.
339
APPABENT PLACES FOB THE UPPER TRANSIT AT WASHINGTON.
f Virginia.
tf Ur§» Majoria.
tf Bootis.
p Centauri.
Mean
Solar
Date.
Sight
Aaoenaion.
Declination
South.
Right
Aaoenaion.
Declination
North.
Right
Aaoenaion.
Declination
North.
Right
Aaoenaion.
Declination
South.
h m
13 28
o /
-00
h in
13 42
+49° 53'
h m
13 49
+ 18° 58
h m
13 55
-59° 48
Jan. 0.8
n
47.21 +.33
10.3 -9.1
8
57.4 1 +.49
17.6 -9.9
s
9.60 +.33
39.8 -9.3
39.32 +.56
28.8 -0.5
10.8
47.53 .39
12.3 9.0
57.83 .43
15.6 1.6
9.92 .33
37.6 9.0
39.89 .56
29.5 0.9
30.7
47.85 .31
14.2 1.8
58.26 .49
14.3 1.0
10.25 .39
35.8 1.6
40.45 .56
30.6 1.4
30.7
48.15 .99
16.0 1.6
58.68 .41
13.6 -0.4
10.57 .31
34.4 1.3
41.00 .53
32.3 1.8
Feb. 9.7
48.44 .87
17.5 1.4
59.08 .38
13.4 +0.9
10.87 .99
33.3 0.8
41.52 .50
34.3 9.2
19.7
48.69 +.94
18.7 -l.i
59.45 +.34
13.9 +0.8
11.14 +.96
32.7 -0.4
42.00 +.46
36.6-9.5
29.6
48.91 .90
19.7 0.8
59.77 .30
15.0 1.3
11.39 JO
32.5 0.0
42.43 .40
39.2 9.7
Mar. 10.6
49.10 .17
20.3 0.5
60.04 .94
16.6 1.8
11.60 .19
32.7 +0.4
42.81 .35
42.0 9.8
20.6
49.25 .13
20.7 -0.3
60.26 .19
18.6 9.9
11.77 .16
33.3 0.8
43.12 .39
44.9 9.9
30.5
49.36 .10
20.8 0.0
60.41 .13
20.9 9.5
11.91 .19
34.3 l.l
43.38 .93
47.8 3.0
Apr. 9.5
49.44 +.07
20.7 +0.9
60.51 +.07
23.5 +9.7
12.01 +.08
35.5 +1.3
43.58 +.17
50.8 -9.9
19.5
49.50 .04
20.4 0.4
60.56 +.09
26.3 9.8
12.07 .05
36.9 1.5
43.72 .11
53.7 9.8
29.5
49.52 +.01
19.9 0.5
60.55 -.03
29.0 9.7
12.10 +.01
38.4 1.6
43.80 +.05
56.5 9.7
May 9.4
49.52 -.01
19.3 0.7
60.49 .06
31.7 9.6
12.11 -.01
40.1 1.C
43.82 -.01
59.1 9.5
19.4
49.49 .04
18.6 0.7
60.39 .19
34.3 S.4
12.08 .04
41.7 1.6
43.78 .08
61.5 9.9
29.4
49.44 -.06
17.9 +0.8
60.25 -.16
36.6 +9.1
12.04 -.06
43.2 +1.5
43.68 -.19
63.6 -1.9
June 8.4
49.38 .07
17.1 0.8
60.08 .19
38.5 JL.8
11.96 .08
44.7 1.4
43.54 .17
65.4 1.6
18.3
49.29 .09
16.3 0.8
59.88 .91
40.2 1.4
11.87 .10
46.0 1.9
43.35 .99
66.8 1.9
28.3
49.19 .10
15.6 0.7
59.66 .93
41.4 1.0
11.76 .19
47.1 1.0
43.11 .96
67.9 0.8
July 8.3
49.08 .11
14.8 0.7
59.42 .94
42.1 0.5
11.64 .13
48.0 0.8
42.84 .99
68.5 -0.4
18.2
48.96 -.19
14.2 +0.6
59.17 -.95
42.4 +0.1
11.50 -.14
48.6 +0.5
42.53 -.31
68.7 0.0
28.2
48.84 .19
13.6 0.5
58.92 .95
42.3 -0.4
11.36 .14
49.1 +0.3
42.21 .39
68.4 +0.5
Aug. 7.2
48.72 .19
13.1 0.4
58.67 .94
41.7 0.8
11.22 .14
49.2 0.0
41.89 .33
<67.7 0.9
17.2
48.59 .19
12.7 0.3
58.43 .93
40.6 1.3
11.08 .14
49.1 -0.3
41.56 .31
66.6 1.3
27.1
48.48 .10
12.4 +0.9
58.20 .91
39.1 1.7
10.94 .13
48.7 0.6
41.26 .99
65.1 1.7
Sept. 6.1
48.38 -.08
12.3 0.0
58.00 -.18
37.2 -9.1
10.82 -.11
48.0 -0.8
40.99 -.95
63.2 +9.0
16.1
48.31 .08
12.4 -0.9
57.84 .15
34.9 9.5
10.72 .09
47.0 l.l
40.76 .19
61.0 9.3
26.1
48.27 -.03
12.6 0.4
57.71 .10
32.3 9.8
10.65 .05
45.8 1.4
40.60 .13
56.7 9.4
Oct. 6.0
48.26 +.01
13.1 0.6
57.64 -.05
29.3 3.1
10.61 -.01
44.2 1.7
40.52 -.05
56.2 9.6
16.0
48.30 .05
13.8 0.8
57.61 +.01
26.1 3.3
10.62 +.03
42.4 1.9
40.51 +.04
53.7 9.4
26.0
48.37 +.10
14.8 -1.1
67.65 +.07
22.8 -3.4
10.66 +.07
40.4 -9.1
40.59 +.13
51.3 +9.3
Nov. 4.9
48.50 .15
16.0 1.3
57.76 .14
19.3 3.5
10.76 .19
38.1 9.4
40.76 .99
49.1 9.1
14.9
48.67 .19
17.5 1.6
57.93 .90
15.8 3.5
10.91 .17
35.7 9.5
41.03 .30
47.2 1.8
24.9
48.88 JO
19.2 1.8
58.16 .96
12.3 3.4
11.10 .99
33.1 9.6
41.37 .38
45.6 1.3
Dec. 4.9
49.13 .97
21.0 1.9
58.45 .39
9.0 3.1
11.34 .95
30.5 9.6
41.79 .45
44.5 0.9
14.8
49.42 +.30
23.0 -9.0
58.80 +.37
6.0 -9.8
11.61 +.99
28.0-9.5
42.27 +.50
43.9 +0.4
24.8
49.72 .31
25.1 9.0
59.18 .40
3.4 9.4
11.92 .31
25.5 9.4
42.80 .54
43.7 -0.1
34.8
50.04 +.39
27.1 -9.0
59.60 +.49
1.2 -9.0
11.24 +.39
23.2 -9.9
43.35 +.56
44.1 -0.7
340
FIXED STARS, 1884.
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
Mean
Solar
Date.
a Oraconia.
a Bootis.
{ArctuTus.)
0 Bootis.
p Bootis.
Bight
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North,
h m
14 1
+64° 55
h m
14 10
+ 19° 46
h m
14 21
+52° 22
h m
14 26
+30° 52
Jan. 0.8
13.08 +.56
32.9-9.9
8
22.01 +.39
It
66.3 -9.3
8
13.71 +.41
60.7-9.6
49.37 +.39
43.5 -2JS
10.8
13.66 .58
31.0 1.6
22.33 .39
64.1 9.1
14.13 .43
58.4 9.0
49.70 .34
41.2 9.1
20.8
14.25 .50
29.7 0.9
22.65 .39
62.1 1.6
14.57 .44
56.7 1.4
50.04 .34
39.2 1.7
30.7
14.85 .58
29.1 -0.3
22.97 .3J
60.6 1.4
15.01 .44
55.6 0.8
50.38 .33
37.8 1.9
Feb. 9.7
15.42 .56
29.2 +0.4
23.28 .99
59.4 0.9
15.44 .49
55.2-0.9
50.71 .39
36.8 0.7
19.7
15.96 +.51
29.9 +1.0
23.56 +.97
58.7 -6.5
15.84 +.39
55.3 +0>5
51.02 +.30
36.3 -4.9
39.6
16.44 .45
31.2 1.6
23.82 .94
58.4 -0.1
16.21 .35
56.1 1.1
51.31 .97
36.4 44.3
Mar. 10.6
16.85 .3?
33.1 9.1
24.04 .91
58.5 +0.4
16.54 .30
57.4 1.6
51.56 .94
37.0 0.8
20.6
17.19 .99
35.5 9.5
24.23 .17
59.1 0.8
16.81 .96
59.3 9.1
51.78 .90
38.1 1.3
30.6
17.44 .90
38.2 9 8
24.39 .14
60.0 11
17.03 .19
61.6 9.4
61.96 .16
39.5 1.6
Apr. 9.5
17.60 +.11
41.1 +3.0
24.51 +.10
61.2+1.3
17.19 +.13
64.2 +9.7
52.10 +.19
41.3+1.9
19.6
17.67 +.03
44.2 3.1
24.59 .07
62.6 1.5
17.29 .07
67.0 9.9
52.20 .08
43.3 9.1
29.6
17.65 -.06
47.3 3.0
24.64 .04
64.2 1.6
17.33 +.09
69.9 9.9
52.27 .05
45.5 9.9
May 9.5
17.55 .14
50.4 9.9
24.66 +.01
65.9 1.7
17.32 -.04
72.8 9.9
52.30 +.01
47.8 9.3
19.4
17.38 .91
53.2 9.7
24.66 -.09
67.6 1.7
17.26 .09
75.6 9.7
52.29 -.09
50.1 9.9
j
29.4
17.14 -.97
55.8 44.4
24.62 -.05
69.2 +1.6
17.15 -.13
78.2 +9.5
52.26 -.05
52.2 +9.1
June 8.4
16.84 .39
57.9 9.0
24.56, .07
70.8 1.6
16.99 .17
80.5 9.9
52.19 .08
54.2 1.9
18.3
16.50 .36
59.7 1.6
24.48 .09
72.1 1.3
16.80 .91
82.5 1.8
52.10 .11
56.0 1.7
28.3
16.11 .40
61.0 l.l
24.37 .11
73.3 l.l
16.58 .94
84.1 1.4
51.98 .13
57.5 1.4
July 8.3
15.70 .49
61.8 +0.5
24.25 .13
74.3 0.9
16.33 .96
85.3 0.9
51.84 .16
58.8 1.1
18.3
15.27 -.44
62.1 0.0
24.11 -.14
75.0 +0.6
16.06 -.98
86.0 +0.5
51.68 -.17
59.7 +4.7
28.2
14.83 .44
61.9-6.4
23.96 .15
75.5 0.4
15.78 .99
86.2 0.0
51.51 .18
60.2 +0.4
Aug. 7.2
14.39 .43
61.2 1.0
23.81 .15
75.7 +0.1
15.49 .99
86.0 -0.5
51.33 .18
60.4 0.0
17.2
13.96 .41
59.9 1.5
23.66 .15
75.6 -0.9
15.20 .98
85.3 1.0
51.14 .18
60.3 -0.4
27.2
13.56 .38
58.2 9.0
23.50 .14
75.3 0.5
14.92 .97
84.1 1.4
50.96 .18
59.7 0.7
Sept. 6.1
13.20 -.34
56.0 -9.4
23.36 -.13
74.6 -0 6
14.66 -.95
82.4 -1.9
50.79 -.16
58.8 -l.l
16.1
12.88 .99
53.4 9.8
23.24 .11
73.6 l.l
14.43 .91
60.3 9.3
50.64 .14
57.5 1.5
26.1
12.62 .93
50.5 3.1
23.15 .08
72.3 1.4
14.24 .17
77.9 9.6
50.52 .11
55.9 1.8
Oct. 6.0
12.43 .15
47.2 3.4
23.09 -.04
70.8 1.7
14.09 .19
75.0 3.0
50.43 .07
53.9 2.1
16.0
12.32 -.07
43.7 3.6
23.07 .00
68.9 9.0
14.00 -.06
71.9 3.9
50.38 -.03
51.6 9.4
26.0
12.29 +.09
40.0 -3.7
23.09 +.05
66.8 9.9
13.97 .00
68.6 -3.4
50.37 +.09
49.1 -9.7
Nov. 5.0
12.36 .19
36.3 3.8
23.16 .10
64.5 9.4
14.01 +.07
65.0 3.6
50.42 .06
46.3 9.9
14.9
12.52 .91
32.5 3.7
23.29 .15
62.0 9.6
14.12 .14
61.4 3.6
50.53 .13
43.4 3.0
24.9
12.78 .30
28.9 3.6
23.46 .19
59.4 9.7
14.29 .91
57.8 3.6
50.66 .18
40.4 3.0
Dec. 4.9
13.13 .3D
25.4 3.3
23.67 .94
56.7 9.7
14.54 .98
54.3 3.4
50.89 .93
37.3 3.0
14.9
13.56 +.46
22.2 -9.9
23.93 +.97
54.0 -9.6
14.85 +.33
51.0-3.1
51.14 +.97
34.3 -9.9
24.8
14.06 .53
19.5 9.5
24.22 .30
51.4 9.5
15.21 .38
48.0 9.8
51.43 .31
31.5 9.7
34.8
14.61 +.57
17.2 -9.p
24.53 +.39
49.0 -9.4
15.61 +.49
45.4 -9.3
51.75 +.33
29.0 -9.4
FIXED STARS, 1884.
341
APPARENT PLAGES FOB THE UPPER TKANSIT AT WASHINGTON.
5 Ursffi Minoris.
a" Centauri.
e Boo tie.
a3 Libras.
Mean
Solar
Dato.
Bight
Ascension.
Declination
North.
Bight
Asoenaion.
Declination
Bight
Ascension.
Declination
North.
Bight
Ascension.
Declination
South,
h m
14 27
+76° 12
h m
14 31
-60° 21
h m
14 39
+27° 33
h m
14 44
-15 33'
Jan. 0.8
8
42.43 +.85
26.3 -4.3
8
45.08 +.54
12.9 0.0
54.78 +.31
42^9 -9.6
8
27.69 +.31
26.2-1 A
J 0.8
43.32 M
24.8 1.7
45.64 .56
13.1 -0.4
55.10 .39
40.5 9.9
28.00 .39
27.8 1.5
20.8
44.27 .07
22.9 l.l
46.20 .66
13.8 0.9
55.43 .33
38.5 1.8
28.33 .33
29.3 1.6
30.7
45.25 .96
22.2 -0.4
46.76 .55
14.9 1.3
55.76 .33
36.9 1.4
28.66 .39
30.9 1.6
Feb. 9.7
46.23 .06
22.1 +0.3
47.30 .53
16.4 1.7
56.09 .39
35.8 0.9
28.97 .31
32.5 1.5
19.7
47.17 +.00
22.8 +1.0
47.81 +.50
18.3 -9.0
56.40 +.30
35.2 -0.4
29.27 +.99
33.9 -1.4
39.7
46.03 .81
24.0 1.6
48.29 .45
20.4 9.3
56.68 .97
35.1 +0.9
29.55 .97
35.3 1.3
Mar. 10.6
48.79 .70
25.9 9.1
48.71 .40
22.8 9.5
56.94 .94
35.5 0.6
29.60 .94
36.4 1.1
20.6
49.43 .67
28.2 *J>
49.09 .35
25.4 9.6
57.16 .91
36.4 l.l
30.03 .91
37.4 0.9
30.6
49.92 .49
31.0 9.9
49.41 .99
28.1 9.7
57.36 .17
37.6 1.4
30.22 .18
38.3 0.7
Apr. 9.6
50.26 -+.96
34.0 +3.1
49.67 +.93
30.9 -9.8
57.51 +.13
39.2 +1.7
30.39 +.15
38.9 -0.6
19.5
50.43 +.10
37.2 3.9
49.87 .17
33.6 9.7
57.62 .10
41.1 9.0
30.52 .19
39.4 0.4
29.5
50.45 -.06
40.4 3.9
50.01 .11
36.4 9.6
57.70 .06
43.2 9.1
30.63 .09
39.7 0.9
May 9.5
50.31 .99
43.6 3.1
50.09 +.05
39.0 9.5
67.75 +.03
45.3 9.9
30.71 .08
39.8 -O.l
19.4
60.02 .36
46.6 9.9
60.11 -.01
41.4 9.4
67.76 .00
47.5 9.1
30.76 .03
39.9 0.0
29.4
49.59 -.48
49.3 +9.5
50.07 -.07
43.7 -9.1
57.74 -.03
49.6 +9.0
30.78 +.01
39.9 +0.1
June 8.4
49.05 .60
51.7 9.9
49.97 .13
45.7 1.9
57.69 .08
51.6 1.0
30.77 -.09
39.7 0.9
18.4
46.40 .69
53.6 1.7
49.81 .19
47.4 1.5
57.62 .00
53.4 1.7
30.73 .05
39.5 0.3
28.3
47.67 .77
55.1 1.9
49.60 .94
48.8 1.9
57.51 .19
66.0 1.4
30.67 .07
39.2 0.3
July 8.3
46.87 .89
56.1 0.7
49.34 .98
49.8 0.8
57.39 .14
56.3 1.1
30.58 .10
36.8 0.4
J 8.3
46.03 -.86
56.6 +0.9
49.04 -.31
50.3 -0.4
57.24 -.15
57.3 +0.8
30.47 -.12
38.4 +0.5
28.3
45.16 .67
56.5 -0.9
46.71 .34
50.5 +0.1
57.08 .17
58.0 0.6
30.34 .14
37.9 0.5
Aug. 7.2
44.28 .86
55.9 0.9
48.36 .35
50.2 0.5
56.90 .18
58.3 +6.9
30.19 .15
37.3 0.6
17.2
43.42 .64
54.8 1.4
48.00 .35
49.4 0.0
66.72 .18
56.3 -0.1
30.04 .16
36.8 0.6
27.2
42.60 .80
53.1 1.9
47.66 .34
48.3 1.3
56.54 .17
57.9 0.6
29.88 .16
36.2 0.6
Sept. 6.1
41.83 -.73
51.0-9.3
47.33 -.31
46.8 +1.7
56.37 -.16
57.2 -0.9
29.74 -.14
36.6+0.6
16.1
41.13 .65
48.5 9.7
47.04 .96
44.9 9.0
56.22 .14
56.1 1.3
29.61 .19
35.0 0.5
26.1
40.53 .65
45.6 3.1
46.81 .90
42.7 9.9
56.09 .11
54.6 1.6
29.50 .09
34.5 0.4
Oct. 6.1
40.04 .43
42.4 3.4
46.64 .13
40.4 9.4
55.99 .08
52.9 1.9
29.42 .06
34.1 0.3
16.0
39.68 .99
38.9 3.6
46.55 -.04
38.0 5.4
55.93 -.04
50.8 9.9
29.38 -.09
33.9 +0.9
26.0
39.40 -.14
35.2 -3.7
46.55 +.05
35.5+9.4
55.92 +.01
48.5-9^
29.39 +.03
33.6 0.0
Nov. 5.0
39.40 +.02
31.4 3.8
46.65 .14
33.2 9.3
55.95 .06
45.9 9.7
29.45 .08
34.0 -0.3
15.0
39.61 .10
27.6 3.8
46.84 .93
31.0 9.1
66.04 .19
43.1 9.8
29.56 .13
34.3 0.5
24.9
39.78 .95
23.9 3.6
47.12 .33
29.2 1.8
56.19 .17
40.2 9.9
29.72 .18
34.9 0.7
Dec. 4.9
40.22 .61
20.3 3.4
47.48 .40
27.7 1.3
56.38 .99
37.3 9.9
29.92 .93
35.8 1.0
14.9
40.80 +.65
17.1 -3.0
47.91 +.46
26.6 +0.8
66.62 +.96
34.4 -9.8
30.17 +.97
36.9 -1.9
24.8
41.52 .78
14.2 9.6
46.40 .51
26.0 +0.4
56.89 .99
31.6 9.7
30.45 .99
38.2 1.4
34.8
42.36 +.88
11.9-9.1
48.93 +.54
25.9 0.0
57.90 +.31
29.0 -9.4
30.76 +.31
39.6 -1.5
342
FIXED STAES, 1884.
APPARENT PLACES FOE THE UPPEK TRANSIT AT WASHINGTON.
(3 Ursae Minoris.
/? Bootia.
(3 Libre.
I** Bootis.
Mean
Solar
Date.
Sight
Ascension.
Declination
North.
Bight
Ascension.
Declination
North.
Ifight
Ascension.
Declination
South.
Bight
Ascension.
Declination
North.
h m
14 50
+74 37
h ro
14 57
+40 50
h m
15 10
O /
- 8 57
h m
15 20
+37° 46
Jan. 0.8
6
58.85 +.73
38.7 -9.6
s
33.64 +.31
46.8 -9.8
H
45.78 +.99
9.9 -1.6
8
5.53 +.30
58.1 -s.9
10.8
59.61 .80
30.4 9.0
33.98 .35
43.6 9.4
46.08 .31
11.5' 1.6
5.84 .39
55.4 9.5
80.8
60.45 .86
88.7 1.4
34.34 .37
41.5 1.9
46.33 .31
13.1 1.6
6.18 .34
53.8 9.0
30.8
61.38 .88
87.7 -0.7
34.71 .37
39.9 1.3
46.64 .31
14.6 1.5
6.53 .35
51.3 1.5
Feb. 9.7
68.81 .88
87.3 0.0
35.07 .36
38.8 0.8
46.95 .30
16.0 1.4
6.68 .35
50.1 i.o
19.7
63.08 +.64
87.6 +0.6
35.43 +.34
38.4 -0.9
47.85 +.99
17.3 -1.9
7.83 +.34
49.4 -0.4
89.7
63.89 .78
88.5 1.3
35.76 .39
38.6 +0.4
47.54 .97
18.4 1.0
7.55 .39
49.3 +0.9
Mar. 10.7
64.63 .69
30.1 1.8
36.06 .99
39.3 1.0
47.80 .95
19.3 0.8
7.86 .99
49.7 0.7
80.6
65.87 .58
38.8 9.9
36.33 .95
40.5 1.5
48.03 .93
19.9 0.5
8.13 .96
50.8 1.3
30.6
65.79 .45
34.8 9.7
36.56 .91
48.3 1.9
48.85 .90
80.4 0.3
8.37 .99
58.3 1.7
Apr. 9.6
66.17 +.31
37.6 +3.0
36.74 +.16
44.4 +9.3
48.43 +.17
80.6 -0.1
8.58 +.18
54.8 +9.1
19.5
66.41 .17
40.8 3.9
36.88 .19
46.8 9.5
48.59 .14
80.6 +0.1
8.74 .14
56.4 9.4
89.5
66.51 +.03
44.0 3.9
36.98 .08
49.4 9.6
48.71 .11
80.4 0.9
8.87 .10
58.9 9.6
May 9.5
66.47 -.11
47.8 3.9
37.03 +.03
58.1 9.7
48.81 .08
80.8 0.3
8.95 .06
61.6 9.7
19.5
66.89 .94
50.4 3.0
37.04 -.01
54.8 9.7
48.88 .05
19.8 0.4
8.99 +.09
64.8 9.6
89.4
65.98 -.36
53.3 +9.8
37.08 -.05
57.4 +9.5
48.98 +.03
19.3 +0.5
9.00 -.09
66.9 +9.6
June 8.4
65.56 .48
55.9 9.4
36.95 .08
59.8 9.3
48.93 .00
18.8 0.5
. 8.96 .05
69.4 9.4
18.4
65.03 .57
58.1 9.0
36.85 .19
68.0 9.1
48.98 -.03
18.8 0.6
8.89 .09
71.7 9.9
88.4
64.48 .65
59.9 1.6
36.78 .15
63.9 1.7
48.87 .06
17.7 0.6
8.78 .19
73.7 1.9
July 8.3
63.74 .71
61.8 1.1
36.55 .18
65.5 1.4
48.80 .09
17.1 0.6
8.64 .15
75.5 1.6
18.3
63.00 -.76
68.0 +0.6
36.36 -.90
66.7 +1.0
48.70 -.11
16.5 +0.5
8.48 -.18
76.9 +1.9
88.3
68.88 .79
68.3 0.0
36.16 .99
67.4 0.6
48.58 .13
1(5.0 0.5
8.38 .90
77.9 0.8
Aug. 7.8
61.43 .80
68.1 -0.5
35.93 .93
67.8 +0.1
48.44 .15
15.5 0.5
8.07 .99
78.5 +0.4
17.8
60.63 .79
61.3 1.0
35.70 .93
67.7 -0.3
48.88 .16
15.0 0.4
7.85 .93
78.7 0.0
87.8
59.55 .76
60.0 1.5
35.47 .93
67.8 0.8
48.13 .16
14.6 0.4
7.68 .93
78.4 -0.5
Sept. 6.8
59.18 -.71
58.3 -9.0
35.84 -.99
66.8 -1.9
47.97 -.15
14.8 +0.3
7.40 -.99
77.7 -0.9
16.1
59.43 .65
56.1 9.4
35.04 .90
64.8 1.6
47.83 .14
13.9 0.9
7.18 .91
76.6 1.3
86.1
58.88 .56
53.4 9.8
34.85 .17
63.0 9.0
47.70 .11
13.7 +0.1
6.99 .18
75.1 1.7
Oct. 6.1
57.31 .46
50.4 3.9
34.70 .13
60.8 9.4
47.60 .08
13.6 o.o
6.83 .14
73.8 9.1
16.1
56.90 .34
47.1 3.4
34.60 .08
58.3 9.7
47.54 -.04
13.8 -0.9
6.70 .10
70.9 9.4
86.0
56.68 -.81
43.5 -3.7
34.54 -.03
55.4 -3.0
47.58 .00
14.0 -0.4
6.63 -.05
68.3 -9.7
Nov. 5.0
56.48 -.06
39.8 3.8
34.54 +.03
58.3 3.2
47.55 +.05
14.6 0.6
6.60 .00
65.4 3.0
15.0
56.49 +.09
36.0 3.8
34.60 .09
49.1 3.3
47.63 .10
15.3 0.8
6.64 +.06
68.3 3.9
84.9
56.66 .34
38.8 3.7
34.78 .15
45.7 3.4
47.76 .15
16.8 1.0
6.73 .19
59.1 3.3
Dec. 4.9
56.97 .39
88.5 3.5
34.90 .91
48.3 3.3
47.94 .90
17.4 1.9
6.87 .18
55.8 3.3
14.9
57.43 +.53
85.1 -3.9
35.13 +.96
39.0 -3.9
48.15 +.94
18.7 -1.4
7.08 +.93
58.5 -3.9
84.9
58.03 .66
82.0 9.8
35.41 .30
35.9 3.0
48.41 .99
80.8 1.5
7.33 .97
49.4 3.0
34.8
58.73 +.75
19.4 -9.4
35.73 +.34
33.1 -3.6
43.70 +.99
81.7-1.6
7.68 +.31
46.5 -9.7
FIXED STARS, 1884.
343
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
/8 Ursa MinorU.
aCoronn Borealis.
a Serpentis.
e Serpentis.
Mean
Solar
Date.
Bight
Ascension.
Declination
North.
Bight
Ascension.
Declination
North.
Bight
Ascension.
Declination
North.
Bight
Ascension.
Declination
North.
h m
15 20
+72° 14
h m
15 29
+27° 6
h m
15 38
o /
+ 6 47
h m
15 45
O /
+ 4 49
Jan. 0.9
•
51.15 +.57
37.5 -9.9
8
45.86 +.98
17*0 -3.7
32.80 +.97
30.4 -9.1
8
1.56 +.96
42.4 -9.0
10.8
51.77 .65
34.8 9.4
46.14 .30
14.5 9.4
33.07 .98
28.4 9.0
1.84 .98
40.4 1.9
20.8
52.46 .79
32.8 1.8
46.46 .39
12.2 9.1
33.37 .30
26.4 1.8
2.13 .30
38.6 18
30.8
53.21 .76
31.3 1.9
46.78 .39
10.4 1.6
33.67 .30
24.7 1.6
2.43 .30
36.9 1.6
Feb. 9.8
53.98 .77
30.4 -0.5
47.10 .39
9.0 1.9
33.97 .30
23.3 1.3
2.73 .30
35.5 1.3
19.7
54.76 +.76
30.3 +0.9
47.42 +.31
8.0 -0.7
34.27 +.99
22.2 -1.0
3.03 +.99
34.3 -1.0
29.7
55.50 .79
30.8 0.9
47.72 .99
7.6 -0.1
34.56 .38
21.4 0.6
3.32 .98
33.5 0.6
Mar. 10.7
56.19 .66
32.0 1.5
48.01 .97
7.8 +0.4
34.83 JM
21.0 -0.9
3.59 .96
33.1 -0.3
20.6
56.81 .57
33.8 1.9
48.27 .95
8.4 0.9
35.08 .94
20.9 +0.1
3.84 .94
33.0 +o.l
30.6
57.34 .47
36.0 9.5
48.50 .99
9.5 1.3
35.30 .21
21.2 0.4
4.07 .99
33.2 0.4
Apr. 9.6
57.76 +.36
38.7 +9.8
48.70 +.18
11.0 +1.7
35.50 +.19
21.8+0.7
4.27 +.19
33.7 +0.6
19.6
58.07 .25
41.7 3.1
48.86 .15
12.8 1.9
35.67 .16
22.7 1.0
4.45 .16
34.5 0.9
29.5
58.25 +.19
44.9 3.9
49.00 .19
14.8 9.1
35.82 .13
23.8 1.9
4.60 .13
35.5 l.o
May 9.5
58.32 .00
48.2 3.9
49.10 .08
17.0 9.3
35.93 .10
25.0 1.3
4.72 .11
36.6 l.a
19.5
58.26 -.19
51.4 3.9
49.16 .05
19.4 9.3
36.02 .07
26.4 1.4
4.82 .08
37.9 1.3
29.5
58.09 -.93
54.5 +3.0
49.19 +.01
21.6 +9.3
36.08 +.04
27.8 +1.4
4.88 +.05
39.2 +1.3
Jane 8.4
57.80 .33
57.4 9.7
49.18 -.09
23.9 9.9
36.10 +.01
29.2 1.4
4.92 +.09
40.5 1.3
18.4
57.42 .43
59.9 9.4
49.15 .05
26.0 9.0
36.10 -.09
30.5 1.3
4.92 -.01
41.8 1.3
28.4
56.95 .51
62.1 9.0
49.08 .09
27.8 1.8
36.06 .05
31.8 1.9
4.89 .04
42.9 1.9
July 8.3
56.41 .58
63.8 1.5
48.98 .19
29.5 1.5
36.00 .08
32.9 1.1
4.83 .07
44.1 1.0
18.3
55.80 -.63
65.1 +1.0
48.84 -.14
30.9 +1.9
35.90 -.11
33.9 +0.9
4.74 -.10
45.0 +0.9
28.3
55.15 .67
65.9 +0.5
48.69 .16
31.9 0.9
35.78 .13
34.8 0.8
4.62 .19
45.9 0.8
Aug. 7.3
54.46 .69
66. 1 0.0
48.52 .18
32.6 0.5
35.65 .15
35.5 0.6
4.49 .14
46.6 0.6
17.2
53.76 .70
65.8 -0.5
48.33 .19
33.0 +0.9
35.49 .16
36.0 0.4
4.34 .16
47.1 0.4
27.2
53.05 .70
65.0 1.0
48.13 .90
33.0 -0.9
35.32 .17
36.2 +0.9
4.17 .17
47.4 +0.9
Sept. 6.2
52.37 -.67
63.7 -1.6
47.94 -.19
32.6 -0.6
35.16 -.16
36.3 0.0
4.00 -.16
47.5 0.0
16.2
51.72 .63
61.9 9.0
47.75 .18
31.8 0.9
35.00 .15
36.2 -0.3
3.84 .15
47.4 -0.9
26.1
51.12 .56
59.6 9.4
47.58 .16
30.8 1.3
34.85 .13
35.8 0.5
3.69 .14
47.2 0.4
Oct. 6.1
50.59 .48
57.0 9.7
47.44 .13
29.3 1.6
34.73 .11
35.2 0.7
3.57 .11
46.6 0.6
16.1
50.16 .38
53.9 3.9
47.33 .09
27.5 9.0
34.64 .07
34.3 1.0
3.47 .08
45.9 0.9
26.0
49.83 -.97
50.5 -3.5
47.26 -.04
25.3 -9.3
34.58 -.03
33.2 -1.9
3.41 -.04
44.9 -1.1
Nov. 5.0
49.62 .15
46.9 3.6
47.24 +.01
22.9 9.5
34.58 +.09
31.8 1.5
3.40 +.01
43.6 1.3
15.0
49.54 -.09
43.2 3.8
47.28 .06
20.3 9.7
34.62 .07
30.2 1.7
3.44 .06
42.2 1.6
25.0
49.59 +.19
39.4 3.8
47.37 .11
17.4 9.9
34.71 .11
28.4 1.9
3.53 .11
40.5 1.7
Deo. 4.9
49.78 .96
35.7 3.7
47.51 .16
14.5 9.9
34.85 .16
26.5 9.0
3.66 .16
38.7 1.9
14.9
50.10 +.39
32.1 -3.5
47.70 +.91
11.6-9.9
35.04 +.91
24.4 -9.1
3.84 +.90
36.7 -9.0
24.9
50.55 .50
28.8 3.1
47.93 .95
8.7 9.8
35.26 .94
22.3 9.1
4.06 .94
34.7 9.0
34.9
51.11 +.61
25.8 -9.7
48.20 +.99
5.9 -9.6
35.52 +.97
20.2 -9.1
4.32 +.97
32.7 -9.0
344
FIXED STARS, 1884.
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
CUraas]
kfinoris.
e CoroneB Borealis.
<J Scorpii.
f3l Scorpii.
Mean
Solar
Date.
Bight
Ascension.
Declination
North,
Bight
Ascension.
Declination
North.
Bight
Ascension.
Declination
South.
Bight
Ascension.
Declination
South, '
h m
15 48
o /
+78 8
h m
15 52
+27° 12
h m
15 53
-22° 17
h m
15 58
-19° 29
Jan. 0.9
6.71 +.69
54.2 -9.9
s
46.32 +.96
49.9 -9.8
s
28.19 +.98
16.6 -0.7
s
41.21 +.97
4'.4 -0.8
10.9
7.48 .84
51.4 9.6
46.59 .98
47.3 9.5
28.48 .31
17.4 0.9
41.50 .30
5.3 1.0
20.8
8.39 .06
49.1 9.0
46.89 .30
44.9 9.9
28.80 .39
18.4 1.0
41.81 .31
6.4 l.l
30.8
9.40 1.04
47.4 1.4
47.20 .39
42.9 1.8
29.13 .33
19.4 1.1
42.13 .39
7.4 l.l
Feb. 9.8
10.48 1.10
46.3 0.6
47.52 .39
41.4 1.3
29.46 .33
20.5 1.1
42.45 .39
8.5 1.1
19.7
11.60 l.U
45.8 -0.1
47.84 +.31
40.4 -0.8
29.78 +.39
21.6 -1.1
42.77 +.31
9.6 -1.0
89.7
12.70 1.07
46.1 40.6
48.15 .30
39.8 -0.3
30.10 .31
22.6 1.0
43.08 .31
10.6 0.9
Mar. 10.7
13.75 1.00
47.0 1.9
48.44 .98
39.9 +0.3
30.40 .99
23.6 0.9
43.38 .99
11.5 0.8
20.7
14.71 .90
48.5 1.8
48.7] .96
40.4 0.8
30.68 .97
24.5 0.6
43.66 .97
12.2 0.7
30.6
15.55 .77
50.6 9.3
48.96 .93
41.4 1.9
30.94 .95
25.3 0.7
43.91 .95
12.9 0.6 1
Apr. 9.6
16.25 +.69
53.1 +9.7
49.18 +.90
42.8 +1.6
31.17 +.99
25.9 -0.6
44.15 +.99
13.4 -0.5
19.6
16.78 .45
55.9 3.0
49.37 .17
44.6 1.9
31.36 .90
26.5 0.5
44.36 .90
13.8 0.3 1
29.6
17.14 .87
59.1 3.9
49.52 .14
46.6 9.9
31.56 .17
27.0 0.4
44.54 .17
14.1 0.9|
May 9.5
17.32 +.09
62.3 3.3
49.65 .10
48.9 9.3
31.72 .14
27.3 0.3
44.70 .14
14.3 -o.i
19.5
17.31 -JO
65.6 3.9
49.73 .07
51.2 9.4
31.84 .11
27.6 0.3
44.82 .11
14.4 +0.1 1
29.5
17.12 -.96
68.8 +3.1
49.78 +.03
53.6 +9.4
31.93 +.07
27.8 -0.9
44.91 +.08
14.4 0.0 J
June 8.4
16.75 .44
71.8 9.9
49.80 .00
56.0 9.3
31.99 +.04
28.0 0.1
44.97 .04
14.4 0.0 1
18.4
16.23 .59
74.5 9.6
49.78 -.04
58.2 9.1
32.01 .00
28.1 -0.1
45.00 +.01
14.4 +0.1 {
28.4
15.56 .73
76.9 9.9
49.73 .07
60.2 1.9
31.99 -.03
28.2 0.0
44.99 -.03
14.3 0.1 1
July 8.4
14.76 .86
78.9 1.7
49.64 .10
62.0 1.7
31.94 .07
28.2 0.0
44.94 .08
14.2 0.9 .
18.3
13.85 -.95
80.5 +1.3
49.52 -.13
63.5 +1.4
31.86 -.10
28.1 +0.1
44.87 -.09
14.0 +0.9|
28.3
12.86 1.09
81.5 0.8
49.38 .16
64.8 l.l
31.75 .13
27.9 0.9
44.76 .19
13.8 0.91
Aug. 7.3
11.81 1.07
82.1 +0.3
49.20 .18
65.7 0.7
31.61 .15
27.7 0.3
44.62 .15
13.5 0.3 1
17.3
10.71 1.10
82.1 -0.9
49.02 .19
66.2 +0.4
31.45 .17
27.4 0.4
44.47 .16
13.2 0.3 *
27.2
9.60 1.10
81.6 0.7
48.81 .90
66.4 0.0
31.27 .18
27.0 0.4
44.29 .17
12.8 0.4
Sept. 6.2
8.51 1.08
80.6 -1.9
48.61 -.90
66.2 -0.4
31.10 -.18
26.5 +6.5
44.12 -.17
12.4 +0.4 1
16.2
7.45 1.09
79.1 1.7
48.41 .19
65.6 0.8
30.92 .17
26.0 0.5
43.94 .16
12.0 0.4
26.1
6.46 .94
77.2 9.9
48.23 .17
64.6 l.l
30.76 .15
25.5 0.6
43.78 .15
11.5 0.4
Oct. 6.1
5.66 .84
74.8 9.6
48.06 .15
63.3 1.5
30.62 .19
24.9 0.6
43.65 .19
11.1 0.4
16.1
4.77 .79
72.0 3.0
47.94 .11
61.6 1.8
30.52 .08
24.4 0.5
43.54 .08
10.7 0.3 1
i
26.1
4.12 -.56
68.8 -3.3
47.84 -.07
59.6 -9.9
30.46 -.04
24.0 +0.4
43.48 -.04
1
10.4 +0.2
Nov. 5.0
3.64 .39
65.4 3.5
47.80 -.09
57.3 9.4
30.45 +.09
23.6 0.3
43.47 +.01
10.2+0.1;
15.0
3.34 -.90
61.8 3.7
47.81 +.03
54.7 9.7
30.49 .07
23.4 +0.1
43.50 .06
10.2 -o.i
25.0
3.24 .00
58.1 3.7
47.87 .09
52.0 9.8
30.59 .19
23.4 -0.1
43.59 .11
10.4 0.9
Deo. 5.0
3.33 +.90
54.4 3 7
47.98 .14
49.0 9.9
30.74 .17
23.6 0.3
43.73 .17
10.7 0.4
14.9
3.63 +.40
50.7 -3.5
48.15 +.19
46.1 -9.9
30.94 +.99
24.0 -0.5
43.92 +.91
11.2-0.6,
24.9
4.12 .58
47.3 3.9
48.36 .33
43.2 9.8
31.18 .96
24.6 0.7
44.16 .95
12.0 0.8 j
34.9
4.80 +.66
44.3 -9.8
48.61 +.97
40.4 -9.7
31.46 +.30
25.4 -0.9
44.42 +.99
12.8 -1.0 1
FIXED STARS, 1884.
345
1
APPARENT PLACES FOB THE UPPER TRANSIT AT WASHINGTON.
Hean
Solar
Date.
Groombridge 8380.
6 Ophiuchi.
r Herculis.
•
a Scorpii.
{Antares.)
Right
Asoenskm.
Declination
North.
Right
Ascension.
Declination
South,
Right
Ascension.
Declination
North.
Bight
Ascension.
Declination
South.
h m
16 5
+68° 6
h m
16 8
- 8° 28
h m
16 16
+46° 85
h m
16 22
-26° 10'
Jan. 0.9
56.83 +.39
50.8 -3.9
15.53 +.95
35.8 -1.7
13.73 +.96
30.5 -3.9
8
17.27 +.97
14.2 -4.4
10.9
57.86 .48
47.7 9.8
15.79 .97
37.4 1.6
14.02 .30
17.4 9.9
17.55 .30
14.7 0.5
80.8
57.78 .55
45.1 9.4
16.07 .99
39.0 1.5
14.34 .34
14.7 9.5
17.66 .39
15.3 0.7
30.8
58.36 .60
43.0 1.8
16.37 .30
40.4 1.4
14.69 .36
13.5 9.0
18.19 .33
16.0 0.8
Feb. 9.8
58.98 .08
41.6 1.1
16.67 .30
41.7 1.9
15.06 .38
10.8 1.4
18.58 .33
16.8 0.8
19.8
59.68 +.64
40.8 -0.4
16.97 +.30
43.8 -1.0
15.44 +.38
9.7 -0.8
16.86 +.33
17.6 -0.8
29.7
60.85 .63
40.7 +0.9
17.36 .99
43.7 0.7
15.83 .37
9.3 -4.9
19.18 .39
18.5 0.8
Mar. 10.7
60.87 .60
41.3 0.9
17.54 .97
44.3 0.5
16.19 .35
9.4 +0.5
19.50 .31
19.3 0.8
80.7
61.44 .54
43.4 1.5
17.80 .96
44.6 -0.9
16.53 .33
10.3 1.1
19.81 .99
30.0 0.7
30.7
61.96 .48
44.3 9.0
18.05 .94
44.7 40.1
16.85 .30
11.5 1.6
30.09 .97
30.8 0.7
Apr. 9.6
68.40 +.40
46.5 +9.5
18.38 +.91
44.5 +0.3
17.13 +.98
13.4 49.1
30.36 +.95
31.4 -0.6
19.6
63.77 .39
49.3 9.9
18.48 .19
44.1 0.5
17.38 .99
15.7 9.5
30.60 .93
83.0 0.6
39.6
63.04 .99
52.3 3.1
18.65 .16
43.5 0.7
17.58 .18
18.3 9.8
80.81 .90
38.5 0.5
May 9.5
63.88 .13
55.5 3.3
18.80 .14
43.7 0.8
17.73 .13
31.3 3.0
31.00 .17
83.0 0.5
19.5
63.30 +.03
58.8 3.3
18.93 .11
41.9 0.9
17.83 .08
34.3 3.0
81.16 .14
83.4 0.4
89.5
63.88 -.07
63.1 +3.9
19.01 +.07
41.0 40.9
17.89 +.03
37.3 +3.0
31.38 +.11
83.8 -0.4
June 8.5
63.16 .16
65.3 3.1
19.07 .04
40.0 0.9
17.90 -.09
30.3 9.9
81.36 .07
34.1 0.3
18.4
68.96 .95
68.3 9.8
19.10 +.01
39.1 0.9
17.85 .07
33.3 9.7
81.41 +.03
34.4 0.3
88.4
68.67 .33
70.9 9.5
19.09 -.09
38.2 0.9
17.76 .11
35.8 9.5
31.43 -.01
84.7 0.9
July 8.4
68.30 .40
73.3 9.1
19.05 .05
37.4 0.8
17.63 .16
38.1 9.1
31.40 .05
34.9 0.9
18.4
61.87 -.46
75.1 +1.6
18.98 -.09
36.6 +0.7
17.46 -.19
40.1 +1.8
31.33 -.08
85.1 -0.1
88.3
61.38 .51
76.6 1.9
18.88 .11
35.9 0.6
17.34 .93
41.7 1.4
31.83 .19
85.1 o.o
Aug. 7.3
60.84 .55
77.4 0.7
18.75 .14
35.3 0.5
17.00 .96
43.9 1.0
31.09 .15
85.1 44.1
17.3
60.37 .58
77.9 +0.9
18.60 .16
34.9 0.4
16.73 .98
43.6 40.5
80.93 .17
85.0 0.9
37.8
58.69 .60
77.8 -0.9
18.44 .17
34.5 0.3
16.44 .99
43.9 0.0
80.75 .18
84.7 0.3
Sept. 6.2
59.09 -.60
77.3 -0.9
18.37 -.17
34.3 +0.9
16.14 -.99
43.6 -0.5
80.56 -.19
84.4 40.4
16.3
68.51 .66
76.0 1.4
18.10 .16
34.1 +0.]
15.85 .98
43.9 0.9
80.37 .18
83.9 0.5
86.2
57.96 .53
74.4 1.9
17.94 .15
34.1 -0.1
15.58 .37
41.8 1.4
80.80 .17
83.4 0.6
Oct. 6.1
57.46 .47
73.3 9.3
17.80 .19
34.3 0.3
15.38 .94
40.1 1.9
80.04 .14
28.8 0.6
16.1
57.03 .40
69.8 9.7
17.69 .09
34.7 0.4
15.10 .90
38.0 9.3
19.91 .11
83.3 0.6
86.1
56.65 -.39
66.8 -3.1
17.63 -.05
35.3 -0.6
14.93 -.15
35.5 -9.7
19.88 -.06
81.6 +0.6
Nov. 5.1
56.38 .99
63.6 3.4
17.60 -.01
35.9 0.8
14.81 .09
33.7 3.0
19.78 -.01
81.1 0.5
15.0
56.80 -.19
60.1 3.6
17.61 +.04
36.9 1.0
14.75 -.03
39.5 3.9
19.80 +.04
80.7 0.4
85.0
56.14 .00
56.4 3.7
17.68 .09
38.0 1.9
14.75 +.04
36.3 3.4
19.87 .10
80.3 0.9
Deo. 5.0
56.19 +.11
53.6 3.7
17.80 .14
39.3 1.3
14.83 .10
38.7 3.5
19.99 .15
80.3 44.1
14.9
56.36 +.99
48.9 -3.6
17.96 +.19
40.8 -1.5
14.95 +.16
19.2 -3.5
80.16 +.90
80.2 -o.l
84.9
56.64 .33
45.3 3.4
18.17 .93
42.3 1.6
15.15 .99
15.7 3.4
80.39 .94
20.4 0.3
34.9
57.08 +.44
48.0 -3.1
18.41 +.95
44.0 -1.6
15.40 +.97
12.6 -3.9
80.65 +.98
20.8 -4.5
346
FIXED STARS, 1884.
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON,
tf Draconis.
0 Here u lis.
A Draconis.
f Ophiuchi.
Mean
Solar
Date.
Bight
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
South.
h m
16 22
+61° 46
h m
16 25
+21° 44
h m
16 28
+69° 0
h m
16 30
O 1
-10 19
Jan. 0.9
22.74 +.31
32.6 -3.4
s
13.16 +.93
36.3 -9.7
8
9.19 +.35
63.9 -3.5
s
45.77 +.80
44.9 -1.9
10.9
23.08 .37
29.4 3.0
13.40 .95
33.7 9.4
9.59 .45
60.6 3.0
46.02 .97
46.1 1.2
20.9
23.49 .44
26.7 9.5
13.67 .98
31.4 9.9
10.08 .63
57.9 9.5
46.30 .29
47.4 l*
30.8
23.95 .48
24.4 9.0
13.96 .30
29.4 1.8
10.64 .59
55.6 9.0
46.59 .30
48.5 l.l
Feb. 9.8
24.44 .50
22.7 1.4
14.26 .30
27.8 1.4
11.26 .63
53.9 1.4
46.89 .30
49.6 1.0
19.8
24.96 +.51
21.6-0.7
14.57 +.30
26.6 -1.0
11.91 +.66
52.8 -0.7
47.20 +.30
50.6 -0.9
29.8
25.48 .51
21.2 0.0
14.87 .30
25.8 -0.5
12.58 .65
52.4 0.0
47.50 .30
51.4 0.7
Mar. 10.7
25.98 .49
21.5 +0.6
15.16 .99
25.6 0.0
13.22 .63
52.7 +0.6
47.79 .99
52.0 0.5
20.7
26.46 .4«
22.5 1.9
15.44 .97
25.8 +0.5
13.84 .59
53.7 1.3
48.07 .97
52.4 0.3
30.7
26.90 .41
24.0 1.8
15.70 .95
26.6 0.9
14.41 .53
55.2 1.8
48.33 .95
52.6 -o.i
Apr. 9.6
27.28 +.36
26.1 +9.3
15.94 +.99
27.7 +1.3
14.91 +.46
57.3 +9.3
48.67 +.93
52.6 +0.1
19.6
27.61 .99
28.6 9.7
16.16 .90
29.2 1.6
15.33 .38
59.9 9.7
48.80 .21
52.5 0.2
29.6
27.87 .83
31.5 3.0
16.34 .17
31.0 1.9
15.66 .96
62.8 3.0
49.00 .19
52.2 0.4
May 9.6
28.06 .15
34.7 3.9
16.49 .14
33.0 9.1
15.90 .19
66.0 3.9
49.17 .16
51.7 0.5
19 5
28.18 +.08
37.9 3.3
16.62 .11
35.2 9.9
16.03 +.08
69.3 3.3
49.32 .13
51.2 0.6
29.5
28.22 .00
41.2 +3 J
16.70 +.07
37.4 +9.9
16.06 -.09
72.6 +3.3
49.44 +.10
50.6 +0.6
June 8.5
28.18 -.07
44.4 3.1
16.76 +.04
39.6 9.9
16.00 .19
75.9 3.9
49.52 .07
50.0 0.6
18.4
28.07 .14
47.5 3 0
16.78 .00
41.8 9.1
15.83 .91
79.0 3.0
49.57 +.03
49.4 0.6
28.4
27.89 .81
50.3 9.7
16.76 -.04
43.8 1.9
15.57 .30
81.8 9.7
49.59 .00
48.8 0.6
July 8.4
27.65 .97
52.8 9.3
16.70 .07
45.7 1.7
15.22 .38
84.3 9.4
49.57 -.04
48.3 0.6
18.4
27.35 -.33
54.9 +1.9
16.61 -.10
47.3 +1.5
14.80 -.46
86.5 +1.9
49.51 -.07
47.7 +0.5
28.3
27.00 .37
56.6 1.5
16.49 .13
48.7 1.9
14.30 .59
88.2 1.5
49.42 .10
47.2 0.4
Aug. 7.3
26.60 .41
57.8 1.0
16.34 .16
49.7 0.9
13.76 .57
89.4 i.o
49.30 .13
46.8 0.4
17.3
26.17 .44
58.6 +0.5
16.17 .18
50.5 0.6
13.17 .60
90.2 +0.5
49.16 .15
46.4 0.4
27.3
25.72 .46
58.8 0.0
15.98 .19
51 .0 +0.3
12.55 .69
90.4 0.0
49.00 .17
46.1 0.3
Sept. 6.2
25.26 -.46
58.5 -0.5
15.78 -.90
51.1 -0.1
11.92 -.63
90.1 -0.6
48.82 -.17
45.8 +0.3
16.2
24.80 .45
57.6 l.l
15.58 .90
50.8 0.4
11.30 .61
89.3 l.l
48.65 .17
45.6 0.2
26.2
24.37 .43
56.3 1.6
15.39 .18
50.2 0.8
10.69 .58
88.0 1.6
48.48 .16
45.4 +0.1
Oct. 6.1
23.96 .38
54.5 9.0
15.22 .16
49.2 l.l
10.13 .53
86.2 9.1
48.33 .14
45.4 0.0
16.1
23.60 .33
52.2 9.5
15.08 .13
47.9 1.5
9.62 .47
83.9 9.5
48.20 .11
45.4 -O.I
26.1
23.30 -.96
49.5 -9.9
14.97 -.09
46.3 -1.8
9.19 -.39
81.2-9.9
48.12 -.07
45.6 -0.9
Nov. 5.1
23.07 .19
46.4 3.9
14.90 -.04
44.4 9.1
8.85 .99
78.1 3.9
48.07 -.09
46.0 0.4
15.0
22.92 .11
43.1 3.5
14.88 .00
42.2 9.3
8.60 .19
74.7 3.5
48.07 +.03
46.4 0.5
25i0
22.86 -.01
39.5 3.6
14.91 +.08
39.8 9.5
8.47 -.07
71.1 3.6
48.12 .08
47.1 0.7
Dec. 5.0
22.89 +.08
35.8 3.7
15.00 .11
37.2 9.6
8.46 +.05
67.4 3.7
48.22 .19
47.9 0.9
14.9
23.02 +.17
32.1 -3.7
15.13 +.16
34.5 -9.7
8.57 +.17
63.7 -3.7
48.37 +.17
48.9 -1.0
24.9
23.23 .98
28.4 3.5
15.31 .90
31.8 9.7
8.80 .98
60.1 3.5
48.57 .21
50.0 1.1
34.9
23.53 +.34
25.0 -3.3
15.53 .84
29.1 -9.6
9.13 +.39
56.6 -3.3
48.80 +.94
51.2-1.9
FIXED STABS, 1884.
347
APPARENT PLACE8 FOE THE UPPER TRANSIT AT WASHINGTON.
a Trianguli Australia.
9 Herculia.
« Ophiuchi.
d Herculia.
Mean
Solar
Date.
Bight
Aacenaion.
Declination
South.
Bight
Aacenaion.
DeoUnatlon
North.
Bight
Aaoonaion.
Declination
Forth.
Bight
Aacenaion.
Declination
North.
h m
16 96
-68° 48
h m
16 38
+ 39° 8
h m
16 52
+ 9° 33
h m
16 57
+33 44
Jan. 0.9
a
21.96 +.54
28.9 +1.9
53.83 +.99
35.V -3.9
a
9.93 +.90
26.8 -9.9
18.23 +.19
14.2 -3.1
10.9
22.55 .69
27.2 1.5
54.07 .96
32.7 9.9
10.15 .93
24.8 9.0
18.45 .94
11.2 9.9
20.9
23.20 .68
25.9 1.1
54.35 .30
29.9 9.6
10.40 .96
22.8 1.8
18.71 sn
8.5 9.5
30.8
23.91 .73
25.0 0.7
54.66 .39
27.6 9.1
10.67 J97
21.0 1.6
18.99 .99
6.1 9.1
Feb. 9.8
24.65 .75
24.6 +0.9
54.99 .34
25.7 1.6
10.95 .99
19.5 1.3
19.30 .31
4.2 1.6
19.8
25.41 +.78
24.6 -0.9
55.34 +.34
24.4 -1.0
11.24 +.99
18.4 -1.0
19.62 +.39
2.7 -1.9
29.8
26.18 .76
25.0 0.6
55.68 .34
23.6 -0.4
11.53 .99
17.5 0.6
19.94 .38
1.8-0.6
Mar. 10.7
26.92 .74
25.7 0.9
56.02 .33
23.5 +0.9
11.82 .98
17.1 -0.9
20.26 .39
1.5 0.0
20.7
27.64 .70
26.8 1.9
56.34 .31
24.0 0.8
12.10 .97
17.1 +0.9
20.57 .30
1.8+0.5
30.7
28.33 .66
28.3 1.6
56.64 .99
25.0 1.3
12.36 J6
J 7.4 0.6
20.87 .99
2.6 1.1
Apr. 9.6
28.97 +.61
30.0 -1.9
56.92 +.96
26.6 +1.8
12.61 +.94
18.1 +0.9
21.15 +.96
3.9 +1.6
19.6
29.54 .54
32.0 9.1
57.17 .93
28.6 9.9
12.84 JB
19.1 1.1
21.40 .94
5.7 9.0
29.6
30.06 .47
34.2 9.3
57.38 .19
30.9 9.5
13.04 .19
20.4 1.4
21.62 .91
7.9 9.3
May 9.6
30.49 .30
36.6 9.4
57.55 .15
33.6 9.7
13.22 .16
21.9 1.6
21.81 .17
10.3 9.5
19.5
30.84 .31
39.1 9.5
57.69 .11
36.4 9.9
13.38 .14
23.6 1.7
21.96 .13
13.0 9.7
29.5
31.11 +.21
41.7 -i5
57.78 +.07
39.3 +9.9
13.50 +.11
25.3 +1.7
22.08 +.09
15.7 +9.8
June 8.5
31.28 .19
44.2 9.5
57.83 +.09
42.2 9.8
13.59 .07
27.0 1.7
22.15 .05
18.5 9.8
18.5
31.34 +.09
46.7 9.4
57.83 -.09
45.0 9.7
13.64 +.04
28.8 1.7
22.19 +.01
21.2 9.7
28.4
31.31 -.08
49.1 9.3
57.79 .06
47.6 9.5
13.66 .00
30.4 1.6
22.18 -.03
23.8 SL&
July 8.4
31.18 .18
51.3 9.1
57.70 .10
50.0 9.3
13.64 -.04
31.9 1.4
22.12 .07
26.2 9.3
18.4
30.95 -.97
53.2 -1.8
57.58 -.14
52.1 +1.9
13.59 -.07
33.2 +1.3
22.03 -.10
28.4 +9.0
28.3
30.64 .35
54.9 1.5
57.42 .18
53.9 1.6
13.50 JO
34.4 1.1
21.90 .15
30.2 1.7
Aug. 7.3
30.25 .49
56.1 1.1
57.22 .91
55.2 1.9
13.38 .13
35.4 0.9
21.73 .18
31.7 1.3
17.3
29.79 .48
57.0 0.6
57.00 .93
56.2 0.8
13.23 .16
36.2 0.6
21.54 .21
32.8 0.9
27.3
29.29 .51
57.4 -o.l
56.75 .95
56.8 +0.3
13.06 .17
36.7 0.4
21.32 .99
33.5 0.5
Sept. 6.2
28.76 -.53
57.3 +0.3
56.50 -.96
56.8 -0.1
12.88 -.18
37.0 +0.3
21.08 -.94
33.8 +0.1
16.2
28.24 .51
56.7 0.8
56.24 .95
56.5 0.6
12.70 .18
37.1 0.3
20.84 .94
33.7 -0.3
26.2
27.74 .48
55.7 1.9
55.99 .94
55.7 1.0
12.52 .17
36.8 0.3
20.61 .93
33.2 0.8
Oct. 6.2
27.28 .49
54.2 1.7
55.76 .99
54.4 1.5
12.35 .16
36.3 0.3
20.39 .91
32.2 1.2
16.1
26.90 .34
52.4 9.0
55.55 .18
52.7 1.9
12.20 .13
35.6 0.3
20.19 .18
30.8 1.6
26.1
26.60 -.94
50.2 +9.3
55.39 -.14
50.6 -9.3
12.09 -.09
34.6 +0.3
20.02 -.14
29.0 -9.0
Nov. 5.1
26.41 .13
47.8 9.5
55.27 .09
48.2 9.6
12.01 .05
33.3 0.9
19.90 .10
26.8 9.3
15.0
26.34 -.01
45.2 9.6
55.20 -.04
45.4 9.9
11.98 -.01
31.8 0.9
19.83 -.05
24.3 9.6
25.0
26.40 +.19
42.6 9.6
55.19 +.09
42.3 3.1
11.99 +.04
30.1 0.9
19.81 .00
21.5 9.9
Dec. 5.0
26.58 .95
40.1 9.5
55.24 .08
39.1 3.3
12.06 .09
28.2 o.l
19.84 +.08
18.5 3.0
15.0
26.89 +.37
37.7 +9.3
55.35 +.13
35.8 -3.3
12.17 +.13
26.1 +0.1
19.93 +.19
15.4 -3.1
24.9
27.31 .47
35.5 9.0
55.51 .19
32.4 3.9
12.$3 .18
24.0 0.0
20.07 .17
12.3 3.1
34.9
27.84 +.57
33.6 +1.7
55.72 +.94
29.2 -3.1
12.53 +.91
21.8-0.1
20.26 +.91
9.2 -3.0
348
FIXED 8TAES, 1884.
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
e Ursa? Minoris.
a1 Herculis.
b Ophiuchi.
ft Draconis.
Mean
Solar
Date.
Right
Ascension.
Declination
North.
Bight
Ascension.
Declination
North.
Right
Ascension.
Declination
South.
Bight
Ascension.
Declination
North.
h m
16 57
+82 13
h m
17 9
+ 14 81
h m
17 19
O I
-24 3
h m
17 27
+52° 23
Jan. 0.9
49.30 +.54
33.0 -3.3
90.66 +.19
98.5-9.3
s
16.49 +.91
53.0 -0.9
46.77 +.17
174 -3.5
10.9
49.98 .83
99.8 3.0
90.87 .23
9G.3 9.9
16.72 .95
53.9 0.3
46.97 .93
14.0 3.3
90.9
43.95 1.09
96.9 9.7
91.10 .95
94.1 9.0
16.98 .97
53.5 0.4
47.93 .98
10.9 3.0
30.9
45.16 l.ao
94.5 9.9
91.36 .97
99.9 1.8
17.27 .30
53.9 0.4
47.54 .38
8.1 9.6
Feb. 9.8
46.56 1.47
99.6 1.6
91.64 .96
90.6 1.5
17.58 .31
54.3 0.4
47.89 .37
5.7 2.1
19.8
48.10 1.58
91.3-1.0
91.93 +.99
19.3 -1.1
17.89 +.39
54.8 -0.4
48.97 +.39
4.0 -1.5
29.8
49.72 1.63
90.6 -0.3
92.29 .99
18.4 0.6
18.21 .39
65.9 0.4
48.67 .40
9.8 0.9
Mar. 10.8
51.36 1.68
90.6 +0.3
99.51 .99
16.0 -0.9
18.53 .39
55.5 0.3
49.08 .41
9.9-0.9
90.7
59.90 1.86
21.9 0.9
99.79 .98
18.0 +0.3
18.85 .31
55.8 0.3
49.49 .40
9.4 +0.5
30.7
54.46 1.43
99.5 1.4
93.06 .97
18.4 0.6
19.15 .30
66.0 0.9
49.88 .38
3.9 1.1
Apr. 9.7
55.89 1.96
94.3 +9.0
93.39 +.95
19.9 +1.0
19.44 +.98
56.9 -0.9
50.25 +.36
4.6 +1.7
19.6
56.98 1.0ft
96.6 9.5
93.56 .93
90.4 1.3
19.79 .97
56.4 0.1
50.59 .39
6.6 9.1
99.6
57.91 .80
99.3 9.8
93.78 .91
91.9 1.6
19.98 .95
56.4 0.1
50.89 .98
8.9 9.6
May 9.6
56.58 .54
32.3 3.1
93.98 .18
93.6 1.8
90.91 .99
56.5 0.1
51.15 .93
11.6 9.9
19.6
58.99 +.96
35.5 3.9
94.14 .15
95.5 1.9
90.42 .19
56.6 0.1
51.36 .18
14.7 3.1
99.5
59.11 -.69
38.8 +9.3
94.98 +.19
97.5 +9.0
90.60 +.16
66.6 -0.1
51.59 +.19
17.9 +3.3
Jane 8.5
58.94 .30
49.0 3.9
94.38 .08
99.6 9.0
90.74 .19
56.7 0.1
51.61 .06
91.9 3.3
18.5
58.61 .57
45.9 3.0
94.45 .05
31.6 1.9
90.84 .08
56.8 0.1
51.65 +.01
94.4 3.9
98.4
57.81 .89
48.1 9.8
94.48 +.01
33.5 1.9
90.91 +.04
56.9 0.1
51.69 -.05
97.6 3.1
July 8.4
56.87 1.05
50.8 9.5
94.47 -.01
35.3 1.7
90.93 .00
57.0 0.1
51.54 .11
30.6 9*
18.4
55.71-1.96
53.1 +9.1
94.49 -.06
36.9 +1.5
90.91 -.04
57.1 -0.1
51.40 -.16
33.3 +S.5
98.4
64.36 1.43
55.0 1.7
24.34 .10
38.3 1.3
90.85 .08
57.3 0.1
61.91 .99
35.7 2.2
Aug. 7.3
52.84 1.57
56.6 1.3
94.92 .13
39.5 1.0
90.75 .19
57.4 -0.1
50.97 .96
37.7 1.8
17.3
51.21 1.68
57.6 0.8
94.07 .16
40.4 0.8
90.69 .15
57.4 0.0
50.68 .30
39.9 1.3
97.3
49.48 1.75
56.9 +0.3
93.90 .18
41.1 0.5
90.45 .17
57.4 0.0
50.36 .88
40.4 0.9
Sept. 6.3
47.70-1.78
58.9 -0.9
93.79 -.19
41.5+0.9
90.97 -.19
57.3 +0.1
50.02 -.95
41.0+9.4
16.2
45.91 1.77
57.8 0.7
23.52 .19
41.6 0.0
90.07 .19
57.9 0.9
49.67 .35
41.1 -0.1
96.2
44.15 1.79
56.8 1.3
93.33 .19
41.4-0.4
19.88 .19
57.0 0.3
49.31 .35
40.8 0.6
Oct. 6.2
42.46 1.63
55.4 1.7
93.15 .17
40.8 0.7
19.70 .17
56.7 9.3
48.96 .33
39.9 1.1
16.1
40.89 1.49
53.4 9.1
92.99 .15
40.0 1.0
19.54 .15
56.4 0.3
48.64 .30
38.5 1.6
96.1
39.48-1.39
51.1 -4.5
99.86 -.11
38.9 -1.3
19.41 -.11
56.1 +0.3
48.36 -.98
36.6-9.1
Nov. 5.1
38.26 1.10
48.4 9.9
92.76 .07
37.5 1.5
19.39 .07
55.7 0.3
48.19 Jtt
34.3 94
15.1
37.28 .85
45.3 9.9
22.71 -.03
35.8 1.8
19.98 -.99
55.4 0.3
47.93 .16
31.6 9.9
95.0
36.57 .57
42.0 3.4
22.71 +.09
33.9 9.0
19.98 +.63
55.9 0.9
47.81 .09
98.5 3.2
Deo. 5.0
36.14 -.97
38.5 3.5
99.75 .07
31.8 9.9
19.35 .09
55.1 +0.1
47.76 -.09
95.9 3.4
15.0
36.03 +.05
34.9 -3.5
92.64 +.13
29.5 -*.3
19.46 +.14
55.0 o.o
47.78 +.05
91.7 -a.5
95.0
36.93 .36
31.4 3.5
99.98 .16
97.9 9.3
19.69 .18
55.1 -o.i
47.87 .13
18.9 34
34.9
36.74 +.65
28.0 -3.4
93.16 +.90
24.8 -9.3
19.83 +.99
55.3 -0.9
48.03 +.19
14.6 -3.4
FIXED STARS, 1884.
349
APPARENT PLACES FOB THE UPPEB TRANSIT AT WASHINGTON.
a Ophiuchi.
t> Draconis.
fi Herculis.
^* Draconis.
Mean
Solar
Date.
Sight
Ascension.
Declination
North.
a Bight
Ascension.
Declination
North.
Bight
Ascension.
Declination
North.
Bight
Ascension.
Declination
North.
h m
17 29
+ 12° 38
h m
17 87
+ 68° 48
h m
17 41
+27° 47
h m
17 43
+72° 12
Jan. 1.0
8
32.15 +.17
48.5 -9.3
8
34.09 +.17
43.8 -3.6
8
54.07 +.15
25.6 -9.9
8
55.52 +.16
22.6 -3.6
10.9
32.34 .90
46.4 9.1
34.32 .98
40.2 3.4
54.24 .19
22.8 9.7
55.75 .99
19.0 3.4
30.9
32.56 .S3
44.3 9.0
34.66 .38
37.0 3.1
54.45 .99
20.2 9.5
56.11 .49
15.8 3.1
30.9
32.80 JW
42.4 1.8
35.09 .47
34.1 9.7
54.69 .25
17.8 9.9
56.58 .53
12.8 9.7
Feb. 9.8
33.07 .97
40.8 1.5
35.60 .54
31.7 9.9
54.96 .98
15.7 1.9
57.16 .69
10.3 9.9
19.8
33.35 +.98
39.5 -l.l
36.18 +.00
29.8 -1.6
55.24 +.99
14.1 -1.4
57.82 +.68
8.3 -1.7
29.8
33.63 .89
38.6 0.7
36.80 .68
28.5 0.9
55.54 .39
12.9 0.9
58.53 .73
7.0 l.o
Mar. 10.8
33.92 .90
38.0 -0.3
37.44 .64
27.9 -0.3
55.84 .30
12.3 -0.3
59.27 .76
6.3 -4.3
20.7
34.21 .98
38.0 +0.1
38.08 .64
28.0 +0.4
56.15 .30
12.2 +0.9
60.03 .75
6.3 +0.3
30.7
34.48 .97
38.4 0.5
38.71 .61
28.8 1.0
56.44 .99
12.6 0.7
60.76 .79
7.0 l.o
Apr. 9.7
34.75 +.98
39.1 +0.6
39.30 +.57
30.1 +1.7
56.73 +.98
13.6 +1.9
61.47 +.67
8.2 +1.6
19.7
35.00 .94
40.2 1.9
39.84 .50
32.1 9.9
57.00 .96
15.1 1.6
62.10 M
10.1 9.1
29.6
35.23 .99
41.6 1.5
40.32 .43
34.5 9.6
57.25 .94
16.9 9.0
62.66 .51
12.5 9.5
May 9.6
35.44 .90
43.3 r.7
40.71 .36
37.3 3.0
57.48 .91
19.0 9.3
63.12 .41
15.2 9.9
19.6
35.63 .17
45.1 1.9
41.01 .96
40.4 3.2
57.67 .18
21.4 9.5
63.48 .30
18.3 3.9
29.6
35.78 +.14
47.1 +9.0
41.22 +.15
43.8 +3.4
57.83 +.14
24.0 +9.6
63.72 +.18
21.6 +3.3
June 8.5
35.91 .10
49.0 9.0
41.32 +.05
47.2 3.4
57.96 .11
26.6 9.6
63.85 +.06
24.9 3.4
18.5
35.99 .07
51.0 1.9
41.33 -.05
50.6 3.4
58.04 .07
29.2 9.6
63.85 -.06
28.3 3.3
28.5
36.04 +.03
52.9 1.9
41.23 .15
53.9 3 9
58.09 +.09
31.8 9.5
63.72 .18
31.6 3.9
July 8.4
36.06 -.01
54.7 1.7
41.03 .95
57.0 3.0
58.09 -.99
34.2 9.3
63.49 .30
34.8 3.0
18.4
36.02 -.05
56.3 +1.5
40.73 -.34
59.9 49.7
58.05 -.06
36.5+3.1
63.14 -.40
37.7 +9.7
28.4
35.96 .08
57.8 1.3
40.35 .49
62.4 9.3
57.96 .10
38.5 1.8
62.68 .50
40.2 9.4
Aug. 7.4
35.86 .19
59.0 l.l
39.89 .49
64.6 9.0
57.84 .14
40.2 1.5
62.13 .59
42.4 9.0
17.3
35.72 .15
60.0 0.9
39.37 .55
66.3 1.5
57.68 .17
41.6 1.2
61.51 .66
44.2 1.5
27.3
35.56 .17
60.7 0.6
38.79 .60
67.6 1.0
57.50 .90
42.6 0.8
60.82 .71
45.5 1.1
Sept. 6.3
35.38 -.18
61.2 +0.3
38.17 -.63
68.3 +0.5
57.29 -.91
43.2+0.5
60.08 -.75
46.4 +0.6
16.2
35.19 .19
61.3 o.o
37.53 .64
68.6 0.0
57.06 .93
43.5 +0.1
59.31 .77
46.7 0.0
26.2
34.99 .19
61.2 -0.9
36.88 .64
68.3 -0.5
56.84 .99
43.4 -0.3
58.54 .77
46.5 -0.5
Oct. 6.2
34.81 .18
60.8 0.5
36.25 .69
67.5 l.l
56.62 .91
42.9 0.7
57.77 .76
45.8 1.0
16.2
34.64 .16
60.1 0.8
35.65 .58
66.2 1.6
56.42 .19
41.9 l.l
57.04 .70
44.5 1.5
26.1
34.50 -.19
59.2 -l.l
35.10 -.53
64.4 -9.1
56.24 -.16
40.6 -1.5
56.37 -.64
42.8 -9.0
Nov. 5.1
34.39 .09
57.9 1.4
34.62 .44
62.0 9.5
56.09 .19
38.9 1.9
55.77 .55
40.5 9.4
15.1
34.33 -.94
56.4 1.6
34.22 .35
59.3 9.9
55.99 .08
36.9 9.9
55.26 .46
37.9 9.8
25.1
34.31 .90
54.6 1.9
33.91 .96
56.2 3.9
55.94 -.03
34.5 9.5
54.87 .33
34.8 3.9
Dec. 5.0
34.33 +.95
52.7 9.0
33.72 .14
52.8 3.5
55.93 +.09
32.0 9.7
54.60 .90
31.5 3.4
15.0
34.41 +.19
50.6 -9.9
33.64 -.08
49.3 -3.6
55.98 +.07
29.2 -9.8
54.46 -.06
27.9 -3.6
25.0
34.53 .14
48.4 9.9
33.68 +.10
45.6 3.6
56.07 .19
26.3 9.9
54.47 +.07
24.3 3.6
35.0
34.69 +.19
46.1 -4.3
33.84 +.91
42.0 -3.5
56.21 +.16
23.4 -3.0
54.61 +.91
20.7 -3.5
350
FIXED STARS, 1884.
APPABENT PLACES FOB THE UPPER TRANSIT AT WASHINGTON.
y Droconia.
y* Sagittarii.
fi Sagittarii.
9 Serpentia.
Mean
Solar
Date.
Bight
Ascension.
Declination
North.
Right
Aacension.
Declination
South.
Bight
Ascension.
Declination
South.
Bight
Ascension.
Declination
South.
h m
17 53
+51° 29
h m
17 58
-30° 25
h m
18 6
O i
-21 5
h m
18 15
O 1
- 2 55
Jan. 1.0
8
52.85 +.13
74.8 -3.5
20.52 +.18
17.8 +0.4
8
48.77 +.16
8.2-0.9
8
17.67 +.13
3^2 -1.3
11.0
53.01 .19
71.4 3.3
20.72 .99
17.5 0.3
48.95 .90
8.3 0.9
17.82 .17
33.5 1J9
30.9
53.24 .35
68.1 3.1
20.97 .96
17.2 0.9
49.17 .93
8.6 0.9
18.01 .90
34.7 1J9
30.9
53.51 .30
65.2 9.7
21.24 .98
17.0 0.1
49.41 .96
8.8 0.9
18.22 .93
35.9 1.1
Feb. 9.9
53.83 .34
62.6 9.3
21.53 .31
16.9 0.1
49.68 .98
9.0 0.9
18.46 .95
36.9 0.9
19.8
54.18 +.37
60.6 -1.7
21.85 +.39
16.8 +0.1
49.97 +.99
9.2 -0.1
18.72 +.96
37.7 -0.7
29.8
54.56 .39
59.2 1.1
22.18 .33
16.8 0.0
50.26 .30
9.3 -0.1
18.99 .97
38.3 0.5
Mar. 10.8
54.96 .40
58.4-0.5
22.51 .33
16.8 0.0
50.57 .31
9.3 0.0
19.27 .98
38.6 -0J9
20.8
55.36 .40
58.2 +0.9
22.84 .33
16.7 o.o
50.88 .31
9.3 +0.1
19.55 .98
38.7 +0.1
30.7
55.76 .39
58.8 0.6
23.17 .33
16.7 0.0
51.19 .31
9.1 0.9
19.84 .98
38.4 0.3
i
Apr. 9.7
56.13 +.37
59.9 +1.4
23.50 +.39
16.7 0.0
51.49 +.30
8.9 +0.3
20.12 +.96
1
38.0 +0.6 j
19.7
56.49 .34
61.6 1.9
23.81 .30
16.8 0.0
51.78 .99
8.6 0.3
20.39 .97
37.2 0.8
29.6
56.82 .31
63.8 9.4
24.11 .99
16.8 -0.1
52.06 .97
8.3 0.4
20.65 .95
36.3 1.0 1
May 9.6
57.10 .96
66.4 9.8
24.39 .97
16.9 0.1
52.33 .95
7.9 0.4
20.89 .94
35.2 IS
19.6
57.34 .99
69.3 3.0
24.64 .94
17.1 0.9
52.57 .33
7.6 0.3
21.12 .91
34.0 lit1
29.6
57.53 +.16
72.5 +3.9
24.87 +.91
17.3 -0.3
52.79 +.90
7.2 +0.3
21.32 +.19
32.7 +1.3
June 8.5
57.67 .11
75.8 3.3
25.06 .17
17.6 0.3
52.97 .17
7.0 0.3
21.49 .15
31.4 1.3
18.5
57.75 +.05
79.1 3.3
25.21 .13
17.9 0.4
53.12 .13
6.7 0.9
21.63 .19
30.2 1.3
28.5
57.76 -.01
82.4 3.9
25.32 .08
18.3 0.4
53.23 .08
6.6 0.1
21.73 .08
28.9 is
July 8.4
57.72 .07
85.5 3.0
25.38 +.04
18.8 0.4
53.30 +.04
6.4 +0.1
21.80 .04
27.8 1.1
18.4
57.62 -.13
88.4 +9.7
25.39 -.01
19.3 -0.5
53.32 .00
6.4 0.0
21.82 .00
26.8 +1.0
28.4
57.46 .19
91.0 9.4
25.36 .05
19.8 0.4
53.30 -.04
6.4 0.0
21.80 -.04
25.9 0.8
Aug. 7.4
57.25 .93
93.2 9.1
25.28 .10
20.2 0.4
53.23 .08
6.5 -O.l
21.74 .06
25.1 0.7
17.3
5(5.99 .98
95.1 1.6
25.16 .14
20.6 0.4
53.12 .19
6.6 0.1
21.64 .19
24.5 0.5
27.3
56.69 .31
96.5 1.9
25.01 .17
21.0 0.3
52.98 .15
6.7 0.1
21.50 .15
24.0 0.4
Sept. 6.3
56.37 -.33
97.5 +0.7
24.82 -.19
21.2-0.9
52.82 -.17
6.7 -0.1
21.35 -.16
23.7 +0.9
16.3
56.02 .35
98.0 +0.2
24.62 .90
21.3 -0.1
52.64 .19
6.8 0.0
21.17 .18
23.6 +0.1
26.2
55.67 .35
98.0 -0.3
24.41 .91
21.3 +0.1
52.44 .19
6.8 0.0
20.99 .18
23.5 -0.1
Oct. 6.2
55.33 .34
97.4 0.8
24.21 .90
21.1 0.1
52.25 .18
6.8 o.o
20.80 .18
23.6 0.9
16.2
55.00 .31
96.4 1.3
24.02 .18
20.9 0.1
52.08 .17
6.7 +0.1
20.63 .16
23.9 0.3
26.2
54.70 -.98
94.8 -1.8
23.85 -.15
20.5 +0.1
51.92 -.14
6.6 +0.1
20.48 -.14
24.3 -0.5
Nor. 5.1
54.44 .94
92.8 9.9
23.73 .10
20.0 +0.1
51.80 .10
6.5 0.1
20.35 .11
24.9 0.7
15.1
54.23 .18
90.4 9.6
23.65 -.08
19.5 O.o
51.72 .06
6.4 +0.1
20.27 .07
25.6 0.8
25.1
54.08 .19
87.5 3.0
23.61 .00
18.9 0.0
51.68 -.01
6.4 o.o
20.22 -.09
26.5 0.9
Deo. 5.0
53.99 -.05
84.4 3.3
23.64 +.05
18.4 0.0
51.69 +.04
6.3 0.0
20.22 +.09
27.5 1.1
15.0
53.97 +.09
81.0-3.4
23.71 +.10
17.9 0.0
51.76 +.09
6.4 -0.1
20.26 +.06
28.7 -1.2
25.0
54.02 .08
77.5 3.5
23.84 .15
17.4 -0.1
51.87 .13
6.5 0.1
20.35 .11
29.9 1.3
35.0
54.14 +.15
74.0 -3.5
24.02 +.90
17.0 -O.l
52.02 +.17
6.6 -0.9
20.48 +.15
31.2 -1.3
.FIXED STABS, 1884.
351
APPARENT PLACE8 FOE THE UPPER TRANSIT AT WASHINGTON.
Mean
Solar
Date.
1 Aquilos.
a Octantis.
a Lyrae.
(Vega.)
p Lyrae.
Right
Ascension.
Declination
South.
Right
Aaoenaion.
Declination
South,
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
h m
18 28
O /
- 8 19
h
18
-89° 15
h m
18 92
+38° 40
h m
18 45
+33° 13
Jan. 1.0
8
52.89 +.13
19.4 -0.9
m s
30 8.9+4.8
70.7 +3.4
59.37 +.08
42.0 -8.1
s
46.70 +.07
5l".0 -9.9
lt.O
53.03 .16
20.3 0.9
30 15.4 8.1
67.4 3.9
59.48 .13
38.8 3.1
46.80 .19
48.1 9.9
20.9
53.21 .19
21.2 0.8
30 24.9 11.0
64.2 3.0
59.63 .18
35.8 9.9
40.94 .16
45.2 9.7
30.9
53.42 .99
22.0 0.8
30 37.1 13.5
61.4 9.7
69.84 .99
33.0 9.7
47.12 .90
42.6 9.6
Feb. 9.9
53.66 .94
22.7 0.6
30 51.7 15.6
58.9 9.3
60.08 .96
30.5 9.3
47.34 .93
40.2 9.9
19.9
53.91 +.96
23.2 -0.5
31 8.2+17.3
56.7 +1.9
60.35 +.96
28.4 -1.8
47.60 +.96
38.2 -1.8
29.8
54.18 .97
23.6 0.3
31 26.2 18.6
65.0 1.5
60.65 .31
26.8 1.3
47.87 .98
36.6 1.3
Mar. 10.8
54.46 .98
23.8 -O.l
31 45.2 19.4
53.8 1.0
60.96 .38
25.8 0.8
48.17 .30
35.5 0.8
20.8
54.74 .99
23.8 +0.9
32 4.9 19.8
53.1 +0.5
61.29 .33
25.4 -0.9
48.47 .31
35.0 -0.9
30.6
55.03 .99
23.5 0.4
32 24.7 19.8
52.8 0.0
61.62 .33
25.5 +0.4
48.79 .39
35.1 +0.3
Apr. 9.7
55.32 +J98
23.0 +0.6
32 44.3+19.4
53.0 -0.5
61.96 +.33
26.2 +1.0
49.10 +.31
35.7 +0.9
19.7
55.60 .96
22.3 0.7
33 3.3 18.5
53.7 0.9
62.28 .31
27.5 1.5
49.41 .30
36.9 1.4
29.7
55.88 .97
21.5 0.9
33 21.2 17.3
54.9 1.4
62.58 .99
29.3 9.0
49.71 .99
38.5 1.8
May 9.6
56.13 .95
20.5 1.0
33 37.8 15.8
56.5 1.8
62.86 .97
31.5 9.4
49.99 .97
40.6 9.9
19.6
56.38 M
19.5 1.1
33 52.6 13.8
58.5 9.1
63.12 .94
34.1 9.7
50.24 .94
43.0 9.5
29.6
56.59 +.90
18.4 +1.1
34 5.4+11.6
60.8 -4.4
63.34 +.90
36.9 +9.9
50.47 +.91
45.7 +9.6
June 8.6
56.78 .17
17.4 1.0
34 15.8 9.1
63.3 9.7
63.52 .16
39.9 3.1
60.66 .17
48.5 9.9
18.5
56.94 .14
16.3 1.0
34 23.5 6.4
66.2 9.9
63.65 .11
43.0 3.1
50.81 .13
51.4 9.9
28.5
57.06 .10
15.4 0.9
34 28.4 3.5
69.1 3.0
63.74 .06
46.1 3.1
50.92 .08
54.4 9.9
July 8.5
57.14 .08
14.5 0.8
34 30.4+ 0.5
72.2 3.0
63.78 +.01
49.2 9.9
50.98 +.04
57.3 9.8
18.5
57.17 +.09
13.7 +0.7
34 29.4- 9.6
75.2 -3.0
63.77 -.04
52.0 +9.8
60.99 -.01
60.0 +9.7
28.4
57.17 -.01
13.1 0.6
34 25.3 5.5
78.1 9.8
63.70 .09
54.7 9.5
60.95 .06
62.6 9.4
Aug. 7.4
57.12 .07
12.6 0.5
34 18.3 8.3
80.8 9.5
63.59 .13
57.0 9.9
50.87 .11
64.9 9.9
17.4
57.03 .10
12.1 0.4
34 8.6 10.8
83.2 9.9
63.44 .18
59.1 1.9
50.74 .15
66.9 1.8
27.3
56.91 .14
11.8 0.9
33 56.5 13.0
85.2 1.8
63.24 .31
60.8 1.5
50.57 .18
68.6 1.5
Sept. 6.3
56.76 -.16
11.6+0.1
33 42.6-14.7
86.8 -1.3
63.02 -.94
62.1 +1.1
50.38 -.91
69.9 +1.1
16.3
56.59 .18
11.6 0.0
33 26.9 15.9
87.9 0.7
62.77 .96
63.0 0.6
50.16 .23
70.8 0.7
26.3
56.41 .18
11.6 o.o
33 10.5 16.5
88.3 -0.9
62.51 .96
63.4 +0.9
49.92 .94
71.3 +0.3
Oct. 6.2
56.22 .18
11.6-0.1
32 53.7 16.5
88.2 +0.4
62.24 .96
63.3 -0.9
49.68 .94
71.4 -0.9
16.2
56.05 .16
11.8 0.9
32 37.3 15.8
87.5 1.0
61.99 .95
62.8 0.7
49.44 .93
71.0 0.6
26.2
55.89 -.14
12.1 -0.3
32 22.0-14.4
86.2 +1.6
61.75 -.93
61.9 -1.9
49.22 -.9)
70.2 -1.0
Nov. 5.2
55.76 .11
12.5 0.4
32 8.3 19.5
84.3 9.1
61.53 .90
60.4 1.7
49.02 .18
68.9 1.4
15.1
55.67 .08
13.0 0.5
31 56.8 10.1
81.9 2.5
61.36 .15
58.5 9.1
48.86 .14
67.3 1.8
25.1
55.62 -.03
13.6 0.6
31 48.1 7.9
79.1 9.9
61.23 .11
66.3 9.4
48.73 .10
65.2 9.9
Dec. 5.1
55.60 +.01
14.2 0.7
31 42.4 4.0
76.1 3.9
61.14 -.06
53.7 9.7
48.65 -.06
62.8 9.5
15.0
55.64 +.06
15.0 -0.8
31 40.0- 0.7
72.8 +3.3
61.12 .00
50.8 -3.0
48.62 .00
60.2 -9.7
25.0
55.72 .10
15.9 0.9
31 40.9+ 9.6
69.4 3.4
61.14 +.05
47.8 3.1
48.64 +.04
57.4 9.9
! 35.0
55.84 +.14
16.8 -1.0
31 45.3+ 5.3
66.0 +3.4
61.22 +.11
44.6 -3.9
48*71 +.09
54.4 -3.0
352
FIXED STARS, 1884.
APPARENT PLACES FOB THE UPPER TRANSIT AT WASHINGTON.
a Sagittarii.
50 Draco n is.
f Aquilae.
d Sagittarii.
Mean
Solar
Date.
/
Bight
Aaoeneion.
Declination
South,
Right
A'HM^IWJrtMli
Declination
North.
Bight
Aaoenaion.
Declination
North.
Bight
Aaoenaion.
Declination
/South.
h m
18 48
-26° 26
h m
18 49
+ 75 17
h m
19 0
o /
+ 13 41
h m
19 10
O /
-19 9
Jan. 1.0
8
3.43 +.12
14.8 +0.3
8
61.29 -.08
57.4 -3.5
8
3.86 +.08
39.0 -9.0
50.00 +.09
22.5 -41.1
11.0
3.57 .16
14.5 0.3
61.29 +.09
53.9 3.5
3.96 .19
36.9 9.0
50.11 .13
22.6-0.1
90.9
3.76 .90
14.2 0.3
61.47 .95
50.4 3.4
4.10 .15
34.9 1.9
50.26 .17
22.7 0.0
30.9
3.97 .93
13.9 0.3
61.80 .41
47.1 3.1
4.27 .18
33.1 1.8
50.44 .90
22.7 0.0
Feb. 9.9
4.22 .96
13.6 0.3
62.28 .55
44.1 9.8
4.46 .91
31.4 1.5
50.65 JB
32.6 +0.1
19.9
4.49 +.96
13.3 +0.3
$2.90 +.67
41.6 -9.3
4.69 +.93
30.0 -1.9
50.89 +.95
22.5 +0.9
39.9
4.78 .90
13.0 0.3
63.62 .76
39.5 1.8
4.93 .25
98.9 0.9
51.15 .97
22.3 0.3
Mar. 10.8
5.08 .31
126 0.4
64.42 .83
37.9 1.9
5.19 .97
28.2 -0.5
51.42 .98
22.0 0.4
20.8
5.40 .as
12.2 0.4
65.29 .68
37.1 -0.5
5.47 .98
28.0 o.o
51.71 .99
21.5 0.5
30.8
5.71 .38
11.7 0.5
66.18 .89
36.8 +0.1
5.75 .98
28.2 40.4
52.01 J»
21.0 0.6
Apr. 9.7
6.03 +.39
11.3 +0.5
67.06 +.6?
37.3 +0.6
6.04 +.39
28.8 40.8
52.32+ jo
20.4 +0.7
19.7
6.35 .31
10.8 0.5
67.92 .83
38.4 1.4
6.32 .28
29.7 1.9
52.62 .30
19.6 0.8
29.7
6.66 .31
10.3 0.4
68.71 .76
40.0 1.9
6.60 .97
31.0 1.5
52.92 .30
18.8 0.8 1
May 9.7
6.96 .99
9.9 0.4
69.43 .68
42.2 9.4
6.87 .96
32.7 1.7
53.22 .99
18.0 0.8
19.6
7.24 .97
9.5 0.3
70.04 .55
44.8 9.8
7.12 .94
34.6 9.0
53.50 .97
17.2 0.8
29.6
7.50 +.94
9.2 40.3
70.53 +.43
47.8 +3.1
7.35 +.91
36.6 49.1
53.76 +.25
16.4 +0.7
June 8.6
7.73 .91
9.0 40.9
70.89 .99
51.0 3.3
7.55 .18
38.8 9,2
53.99 JB
15.8 0.6
18.6
7.93 .17
9.0 0.0
71.11 +.14
54.4 3.4
7.72 .15
41.0 9.9
54.20 .19
15.2 0.5
28.5
8.08 .13
9.0 -0.1
71.18 .00
67.8 3.5
7.85 .11
43.2 9.9
54.36 .15
14.7 0.4
July 8.5
8.19 .09
9.1 0.2
71.10 -.15
61.3 3.4
7.94 .07
45.4 9.1
54.49 JO
14.3 0.3
18.5
8.25 +.04
9.3 -0.3
70.88 -.99
64.6 +3.9
7.99 +.09
47.4 +1.9
54.57 +.06
14.0 +0J9
28.4
8.27 -.01
9.6 0.3
70.51 .43
67.8 3.0
7.99 -.03
49.2 1.7
57.61 +.01
13.9 +0.1
Aug. 7.4
8.24 .05
10.0 0.4
70.02 .56
70.7 9.8
7.95 .06
50.9 1.5
54.60 -.03
13.9 0.0
17.4
8.16 .10
10.4 0.4
69.40 .67
73.3 9.4
7.87 .10
52.3 1.3
54.54 .08
14.0 -0.1
27.4
8.04 .14
10.8 0.4
68.68 .76
75.5 9.0
7.76 .13
53.5 1.0
54.44 .11
14.2 0.9
Sept. 6.3
7.89 -.17
11.2 -0.4
67.88 -.84
77.3 +1.6
7.61 -.16
54.4 +0.8
54.31 -.15
14.4 -0J9
16.3
7.71 .19
11.5 0.3
67.00 .90
78.7 l.l
7.44 .18
55.0 0.5
54.15 .17
14.6 0.9
26.3
7.51 .90
11.7 0.9
66.08 .93
79.5 0.6
7.25 .19
55.3 +0.9
53.97 .16
14.8 0.9
Oct. 6.2
7.31 .90
11.9-0.1
65.14 .94
79.9 40.1
7.06 .19
55.4 -0.1
53.78 .19
15.0 0.9
16.2
7.12 .19
11.9 0.0
64.20 .93
79.7 -0.5
6.87 .18
55.1 0.4
53.60 .18
15.2 Oil
26.2
6.94 -.17
11.9 +o.i
63.29 -.89
78.9 -1.0
6.69 -.17
54.5 -0.7
53.42 -.17
15.4 -o.l
Nov. 5.2
6.79 .13
11.8 0.9
62.43 .89
77.7 1.5
6.53 .14
53.7 1.0
53.27 .14
15.5 0.1
15.1
6.67 .09
11.6 0.9
61.65 .73
75.9 9.0
6.40 .11
52.6 1.3
53.15 .11
15.7 0.1
25.1
6.60 -.05
11.3 0.3
60.97 .69
73.6 9.5
6.31 .07
51.2 1.5
53.06 .06
15.8 0.1
Dec. 5.1
6.57 .00
11.0 0.3
60.41 .49
70.9 9.9
6.26 -.03
49.5 1.7
53.02 -.09
15.9 0.1
15.1
6.59 +.05
10.7 +0.3
59.99 -.34
67.8 -3.9
6.25 +.01
47.7 -1.9
53.02 +.09
16.0 -0.1
25.0
6.66 .09
10.4 0.3
59.73 .18
64.5 3.4
6.28 .05
45.7 9.0
53.06 .06
16.1 0.1
35.0
6.78 +.14
10.1 +0.3
59.63 -.09
61.0 -3.6
6.35 +.09
43.7 -9.1
53.15 +.11
16.2 -0.1
FIXED STAES, 1884.
353
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
6 Draconis.
r Draconis.
6 Aquiloe. ,
k Aquilae.
Mean
Solar
Dato.
Right
Ascension.
Declination
North.
Bight
Ascension.
Declination
North.
Right
Ascension.
Declination
Nortli.
Right
Ascension.
Declination
South.
h m
19 12
+ 67° 27
h' m
19 17
+ 73° 8
h ni
19 19
+ 2° 53
li ni
19 30
- 7° 16
Jan. 1.0
s
28.49 -.07
38.4 -3.4
8
42.53 -.14
35.3 -3.4
38.19 +.07
litis -m
s
38.24 +.06
56.4 -0.8
J1.0
28.47 +.04
35.0 3.5
42.46 .00
31.9 3.5
38.28 .11
10.4 1.4
38.33 .10
57.2 0.7
21.0
28.57 .15
31.5 3.4
42/64 +.14
28.4 3.4
38.40 .14
9.1 1.3
38.45 .14
57.9 0.7
30.9
28.77 .25
28.1 3.2
42.75 .28
25.0 3.3
38.56 .17
7.8 1.2
38.60 .17
58.5 0.6
Feb. 9.9
29.07 .34
25.0 2.9
43.10 .41
,21.9 3.0
38.74 .20
6.7 1.0
38.78 .19
59.1 0.5
19.9
29.46 +.43
22.2 -2.5
43.58 +.53
19.1 -2.6
38.95 +.22
. 5.8 -0.8
38.99 +.22
59.5 -0.3
29.9
29.92 .50
19.9 2.0
44.16 .62
16.7 2.1
39.18 .24
5.1 0.5
39.22 .24
59.7 -0.1
Mar. 10.8
30.45 .55
18.2 1.4
44.82 .70
14.9. \.5
39.43 .26
4.7 -0.2
39.47 .26
59.7 +0.1
20.8
31.02 .59
17.1 0.8
45.56 .75
13.7 0.9
39.70 .27
4.7 +0.1
39.73 .27
59.4 0.4
30.8
31.63 .61
16.6 -0.1
46.33 .78
13.1 -0.2
39.97 .28
5.0 0.4
40.01 .28
59.0 0.6
Apr. 9.8
32.24 +.61
16.8 +0.5
47.11 +.78
13.2 +0.4
40.25 +.28
5.6 +0.7
40.30 +.29
58.2 +0.8
19.7
32.84 .59
17.7 l.l
47.89 .76
13.9 1.0
40.54 .28
6.5 1.0
40.59 .29
57.4 1.0
29.7
33.42 .54
19.1 1.7
48.63 .71
15.3 1.6
40.82 .28
7.7 1.3
40.88 .29
56.3 1.2
May 9.7
33.95 .50
21.1 2.2
49.32 .65
17.2 2.1
41.10 .27
9.1 1.5
41.16 .26
55.1 1.3
19.G
34.42 .44
23.6 2.7
49.92 .56
19.6 2.6
41.36 .25
10.7 1.6
41.44 .27
53.8 1.3
29.G
34.83 +.36
26.5 +3.0
50.44 +.46
22.4 +3.0
41.61 +.23
12.4 +1.7
41.69 +.24
52.4 +1.3
June 8.0
35.15 .28
29.7 3.3
50.85 .35
25.5 3.2
41.83 .21
14.2 1.8
41.93 .22
51.1 1.3
18.6
35.39 .19
33.1 3.4
51.14 .23
28.8 3.4
42.02 .17
15,9 1.7
42.14 .19
49.8 1.3
28.5
35.53 + 09
36.6 3.5
51.30 +.10
32.3 3.5
42.18 .14
17.6 1.7
42.31 .15
48.6 l.l
July 8.5
35.57 -.01
40.1 3.5
51.34 -.03
35.8 3.5
42.29 .10
. 19.3 1.6
42.44 .11
47.5 l.O
18.5
35.51 -.11
43.6 +3.4
51.24 -.16
39.3 +3.4
42.37 +.05
20.8 +1.4
42.53 +.07
46.5 +0.9
28.5
35.35 .20
46.9 3.2
51.02 .28
42.6 3.3
42.40 +.01
22.2 1.3
42.58 +.03
45.6 0.8
Aug. 7.4
35.10 .29
50.0 3.0
50.67 .40
45.8 3.0
42.39 -.03
23.4 l.l
42.58 -.02
45.0 0.6
17.4
34.77 .37
52.8 2.6
50.21 .51
48.7 2.7
42.33 .07
24.4 0.9
42.54 .06
44.4 0.4
27.4
34.35 .45
55.3 2.3
49.65 .60
51.2 2.4
42.24 - .11
25.2 0.7
42.46 .10
44.1 0.3
Sept. 6.3
33.87 -.51
57.4 +1.9
49.01 -.68
53.4 +2.0
42.12 -.14
25.8 +0.5
42.35 -.13
43.8 +0.2
16.3
33.34 .55
59.0 1.4
48.29 .74
55.2 1.5
41.96 .16
26.2 0.3
42.20 .16
43.8 0.0
20.3
32.77 .58
60.2 09
47.52 .78
56.4 l.o
41.79 .17
26.4 +0.1
42.04 .17
43.8 -0.1
Oct. 6.3
32.17 .60
60.8 +0.4
46.72 .80
57.2 +0.5
41.62 .18
26.4 -0.1
41.86 .18
43.9 0.2
16.2
31.57 .59
60.9 -0.2
•45.91 .80
57.4 0.0
41.44 .17
26.2 0.3
41.68 .17
44.1 0.3
26.2
30.99 -.57
60.5 -0.7
45.11 -.78
57.1 -0.6
41.26 -.16
25.8 -0.5
41.52 -.16
44.4 -0.4
Nov. 5.2
30.43 .53
59.5 1.3
44.34 .74
56.2 1.2
41.11 .14
25.2 0.7
41.36 .14
44.9 0.5
15.2
29.92 .48
57.9 1.8
43.63 .67
54.8 1.7
40.99 .11
24.5 0.9
41.23 .11
45.4 0.5
25.1
29.47 .41
55.9 2.3
43.00 .59
52.8 2.2
40.89 .08
23.5 l.l
41.14 .08
46.0 6.6
Dec. 5.1
29.10 .33
53.3 2.7
42.46 .48
50.4 2.6
40.84 -.04
22.4 1.2
41.08 -.04
46.6 0.7
15.1
28.81 -.23
50.4 -3.1
42.03 -.36
47.6 -3.0
40.82 .00
21.1 -1.3
41.06 .00
47.3 -0.7
25.0
28.63 .13
47.2 3.3
41.73 .23
44.5 3.3
40.84 +.04
19.8 1.4
41.08 +.04
48.1 0.8
35.0
28.55 -.03
43.8 -3.5
4 1.57 -.09
41.1 -3.5
40.91 +.08
18.4 -1.4
41.14 +.08
48.9 -0.8
23
354
FIXED STARS, 1884.
APPARENT PLAGES FOE THE UPPER TRANSIT AT WASHINGTON.
Mean
Solar
Date.
y Aquiln.
a Aquilte.
(AUair.)
e Draconis.
/? Aquilas.
Right
Ascension.
Declination
North.
Bight
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
Bight
Ascension.
Declination
North.
b m
19 40
-fid 19
h m
19 45
+ 8 33
h ra
19 48
+69° 58
h m
19 49
1
o e
+ 67
Jau. 1.0
B
43.92 +.04
Ot'.V -1.7
B
6.66 +.05
54.6 -1.6
S
30.42 -.18
35.5 -3.3
B
36.17 +.04
12.4 -1.5 :
11.0
43.98 .06
60.0 1.7
6.72 .08
52.9 1.6
30.30 -.06
32.1 3.4
36.23 .07
10.9 ij>
21.0
44.08 .11
58.2 1.7
6.82 .11
51.3 1.6
30.30 +.05
28.7 3.4
36.32 .11
9.5 1.4
31.0
44.21 .15
56.6 1.6
6.94 .15
49.8 1.5
30.41 .17
25.3 3.5
36.44 .14
8.1 1.3
F*b. 9.9
44.37 .18
55.1 1.4
7.10 .17
48.4 1.3
30.64 .39
22.0 3.1
36.60 .17
6.8 l.l
19.9
44.56 +.90
53.9 -1.1
7.29 +.30
47.3 -1.0
30.98 +.39
19.0 -8.8
36.78 +.30
5.8 -0.9
99.9
44.78 .33
52.9 0.8
7.51 .33
46.4 0.7
31.42 .48
16.4 3.4
36.99 .33
5.0 0.6 :
Mar. 10.9
45.02 .as
52.3 -0.4
7.74 .34
45.9 -0.4
31.94 .56
14.2 1.8
37.22 .94
4.5 -0.3
20.8
45.27 .96
52.1 0.0
8.00 .36
45.7 0.0
32.53 .61
12.7 1.9
37.47 .36
4.4 0.0
30.8
45.54 .96
52.2 +0.3
8.26 .38
45 9 +0.4
33.17 .65
11.8 -0.6
37.74 .37
4.6 +0.4 (
Apr. 9.8
45.82 +.96
52.8 +0.7
8.54 +.36
46.4 +0.7
33.84 +.67
11.5 0.0
38.02 +.36
1
5.1 +0.7
19.8
46.11 .99
53.7 i.i
8.83 .39
47.3 l.l
34.52 .67
11.8 +0.7
38.31 .39
6.0 i.o
29.7
46.40 .96
54.9 1.4
9.12 .99
48.6 1.4
35.18 .65
12.8 1.3
38.59 .39
7.2 1.3
Mny 9.7
46.68 .96
56.4 1.6
9.41 .98
50.1 1.6
35.82 .61
14.4 1.9
38.88 .36
8.7 1.6
19.7
46.95 .96
58.2 1.9
9.68 .37
51.8 1.8
36.40 .55
16.5 9.3
39.16 .37
10.4 1.8
1
29.6
47.21 +.94
60.2 +9.0
9.94 +.95
53.8 +3.0
36.91 +.47
19.1 +3.7
39.42 +.35
1
12.2 +1.9
June 8.6
47.44 .39
62.3 9.1
10.18 .39
5o.8 3.1
37.35 .39
22.0 3.1
39.66 .33
14.1 1.9
18.6
47.65 .19
64.4 3.1
10.39 .19
57.9 3.1
37.69 .39
25.3 3.3
39.87 .90
16.1 1.9
28.6
47.82 .15
66.5 9.1
10.56 .16
59.9 3.0
37.93 .18
28.7 3.5
40.05 .16
18.0 1.9
July 8.5
47.95 .11
68,6 9.0
10.70 .13
61.9 3.0
38.06 +.08
32.3 3.6
40.19- .13
19.9 1.8
18.5
48.04 +.07
70.5 +1.9
10.79 +.07
63.8 +1.8
38.08 -.03
35.8 +3.5
40.29 +.06
21.6 +1.7
28.5
48.08 +.09
72.4 1.7
10.85 +.03
65.6 1.7
37.99 .14
39.4 3.4
40.35 +.03
23.2 1.5
Aug. 7.4
48.08 -.09
74.0 1.5
10.85 -.01
67.1 1.5
37.80 .35
42.7 3.3
40.36 -.01
24.6 1.3
17.4
48.04 .06
75.4 1.3
10.82 .06
68.5 1.3
37.50 .34
45.9 3.0
40.33 .05
25.9 l.l
27.4
47.96 .10
76.6 1.1
10.74 .10
69.6 1.0
37.10 .43
48.8 3.7
40.25 .09
26.9 0.9
Sept. 6.4
47.84 -.13
77.5 +0.8
10.63 -.13
70.5 +0.8
36.63 -.51
51.3 +3.3
40.15 -.19
27.7+0.7J
16.3
47.69 .16
78.2 0.6
10.49 .15
71.2 0.5
-36.08 .57
53.4 1.9
40.01 .15
28.3 0.4 '
26.3
47.52 .17
78.7 +0.3
10.32 .17
71.6 +0.3
35.48 .63
55.1 1.4
39.85 .17
28.6 +0.9
Oct. 6.3
47.34 .18
78.8 0.0
10.15 .16
71.8 0.0
34.84 .65
56.3 0.9
39.68 .18
28.7 0.0
16.3
47.16 .18
78.8 -0.9
9.96 .18
71.7-0.9
34.18 .66.
57.0 +0,4
39.50 .18
28.6 -0.3
26.2
46.98 -.17
78.4 -0.5
9.79 -.17
71.4 -ho.5
33.51 -.66
57.1 -0.1
39.32 -.17
28.2 -0.5
Nov. 5.2
40.82 .15
77.8 0.7
9.63 .15
70.8 0.7
32.86 .63
56.7 0.7
39.16 .15
27.7 0.7
15.2
46.68 .13
76.9 i.o
9.49 .13
70.0 0.9
32.25 .59
55.7 1.3
39.02 .13
26.9 0.9
25.1
46.56 .10
75.8 1.9
9.38 .10
68.9 l.l
31.69 .53
54.1 1.8
38.91 .10
25.9 l.l'
Dec. 5.1
46.49 .06
74.5 1.4
9.30 .06
67.7 1.3
31.20 .45
52.0 3.3
38.83 .06
24.8 1.9
15.1
46.14 -.03
73.0 -1.6
9.26 -.09
66.3 -1.5
30.79 -.35
49.5 -3.7
38.78 -.03
23.4 -1.4 ;
25.1
46.44 +.03
71.3 1.7
9.26 +.02
64.8 1.6
30.49 .35
46.5 3 1
38.78 +.01
22.0 1.5 1
35.0
46.48 +.06
69.6 -1.8
9.29 +.05
63.1 -1.6
*30.29 -.15
43.3 -3.5
38.81 +.05
20.5 -1.5 !
FIXED STARS, 1884.
355
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
-
r Aq
uiIcb.
a8 Cap
ricorni.
k Cephei.
a Pavonis.
Mean
Solar
Date.
Right
Ascension.
Declination
North.
Bight
Ascension.
Declination
South.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
South.
b m
19 58
O /
+ 6 57
h m
20 11
-12° 53
h m
20 12
+77° 21
h m
20 16
O 1
-57 5
Jan. 1.1
B
27.70 +.09
13.3-1.5
8
36.33 +.03
66.6 -0.4
8
41.83 -.44
5&3 -3.1
8
26.34 +.01
77.6 +9.3
11.0
27.75 .06
11.8 1.5
36.38 .06
66.9 0.3
41.48 .96
55.2 3.2
26.38 .07
75.3 9.3
21.0
27.83 .10
10.3 1.5
36.46 .10
67.2 0.9
41.31 -.07
51.9 3.3
26.49 .14
73.0 9.4
31.0
27.95 .13
8.9 1.3
36.58 .13
67.4 -0.1
41.34 +.19
48.5 3.4
26.66 .90
70.6 9.4
Feb. 10.0
28.10 .16
7,6 l.l
36.72 .16
67.5 0.0
41.55 .30
45.1 3.9
26.90 .96
68.2 9.4
19.9
28.27 +.19
6.6 -0.9
36.90 +.19
67.4 +0.1
41.94 +.48
42.0 -3.0
27.18 +.31
65.8 +9.3
89.9
28.47 .21
5.8 0.7
37.10 .21
67.2 0.3
42.50 .64
39.2 9.6
27.52 .36
63.5 9.9
Mar. 10.9
28.70 .34
5.3 -0.3
37.33 .24
66.8 0.5
43.22 .78
36.8 9.1
27.91 .40
61.4 2.0
20.8
28.94 .95
5.1 0.0
37.57 .26
66.3 0.7
44.05 .88
34.9 1.6
28.33 .44
59.5 1.8
30.8
29.21 .97
5.3 +0.4
37.84 .97
65.5 0.8
44.98 .96
33.6* 1.0
28.78 .46
57.7 1.6
Apr. 9.8
29.48 +.28
5.9 +0.7
'38.12 +.99
64.6 +1.0
45.98 1.01
32.9 -0.3
29.25 +.48
56.3 +1.3
19.8
29.77 .29
6.8 l.l
38.42 .30
63.6 l.l
47.00 1.09
32.9 +0.3
29.75 .50
55.1 1.0
29.7
30.06 .29
8.0 1.3
38.72 .30
62.4 1.9
48.02 1.00
33.5 0.9
30.25 .50
54.2 0.7
May 9.7
30.34 .28
9.5 1.6
39.02 .30
61. 1 1.3
49.00 .95
34.7 1.6
30.75 .50
53.6 +0.4
19.7
30.62 .97
11.2 1.8
39.31 .99
59.8 1.3
49.91 .87
36.4 9.0
31.25 .48
53.4 0.0
29.7
30.89 +.25
13.0 +1.9
39.60 +.28
58.5 +1.3
50.73 +.76
38.7 +9.5
31.72 +.46
53.5 -0.3
June 8.G
31.14 .93
15.0 9.0
39.86 .25
57.2 1.9
51.43 .63
41.4 9.9
32.16 .49
54.0 0.7
18.6
31.35 .20
17.0 9.0
40.11 .93
56.0 l.l
51.99 .49
44.4 3.9
32.56 .37
54.8 1.0
28.G
31.54 .17
19.0 9.0
40.32 .19
55.0 1.0
52.40 .33
47.7 3.4
32.91 .32
56.0 1.3
July 8.5
31.69 .13
21.0 1.9
40.49 .16
54.1 0.8
52.65 +.16
51.1 3.5
33.20 .95
57.4 1.6
18.5
31.80 +.09
22.8 +1.8
40.63 +.11
53.3 +0.7
52.74 .00
54.7 +3.6
33.41 +.18
59.1 -1.8
28.5
31.86 +.04
24.5 1.6
40.72 .07
52.7 0.5
52.65 -.17
58.2 3.5
33.55 .10
61.0 1.9
'Aug. 7.5
31.88 .00
26.0 1.4
40.76 +.09
52.3 0.3
52.40 .33
61.7 3.4
33.62 +.09
63.0 9.0
17.4
31.86 -.04
27.3 1.9
40.76 -.09
52.0 +0.9
51.98 .49
65.1 3.9
33.60 -.05
65.0 9.0
27.4
31.79 .08
28.4 1.0
40.71 .07
51.9 0.0
51.42 .63
68.2 3.0
33.50 .14
67.0 1.9
Sept. 6.4
31.69 -.12
29.3 +0.7
40.62 -.10
51.9-0.1
50.73 -.75
71.0 +9.7
33.34 -.90
68.9-1.8
j 16.4
31.56 .14
29.9 0.5
40.50 .13
52.1 0.9
49.92 .86
73.5 9.3
33.11 .25
70.6 1.6
26.3
31.40 .16
30.3 +0.3
40.36 .15
52.3 0.3
49.01 .94
75.6 1.8
32.83 .30
72.1 1.3
Oct. 6.3
31.23 .17
30.5 0.0
40.19 .17
52.6 0.3
48.03 1.01
77.2 1.4
32.52 .39
73.2 1.0
16.3
31.05 .18
30.4 -0.9
40.02 .17
53.0 0.4
46.99 1.05
78.3 0.9
32.18 .34
74.0 0.6
j 26.2
30.88 -.17
30.1 -0.4
39.84 -.17
53.3 -0.4
45.93 1.06
78.9 +0.3
31.84 -.33
74.4 -0.9
Nov. 5.2
30.72 .15
29.5 0.6
39.68 .15
53.7 0.4
44.87 1.04
78.9 -0.9
31.52 .31
74.3 +0.3
15.2
30.57 .13
28.8 0.8
39.54 .13
54.1 0.4
43.84 1. 00
78.4 0.8
31.22 .98
73.8 0.7
25.2
30.46 .10
27.8 i.o
39.42 .10
54.5 0.4
42.88 .99
77.3 1.4
30.96 .93
72.9 l.l
Dec. 5.1
30.37 .07
26.7 1.9
39.34 .07
55.0 0.4
42.00 .81
75.6 1.9
30.76 .17
71.7 1.5
15.1
30.32 -.03
25.4 -1.4
39.29 -.03
> 55.4 -0.4
41.24 -.70
73.4 -9.4
30.62 -.11
70.0 +1.8
25.1
30.30 .00
24.0 1.5
39.27 .00
55,8 0.4
40.61 .54
70,8 9.8
30,55 -.04
68.1 9.0
35. f
30.33 +.04
22.5 -1.6
39.30 +.04
66.9 -0.4
40,15 -.3*
67.8 -a.9
30.54 +.03
66.0 +9.3
356
FIXED STABS, 1884.
APPARENT PLACES FOE THE UPPER TRANSIT AT WASHINGTON.
y Cygni.
n CapricornL
e Delphini.
Groom bridge 3241.
Mean
Sobr
Date.
Bight
Ascension.
Declination
North.
Right
Ascension.
Declination
South.
Right
Ascension.
Declination
North.
Bight
Ascension.
Declination
North.
h m
20 18
+39 53
h m
20 20
-18° 35
h m
20 27
+ 10° 54
h m
20 30
o $
+72 8
Jan. 1.1
3.06 -.05
22.4 -9.7
8
40.08 +.09
23J o.o
s
39.64 -.09
44.6 -1.6
27.10 -.33
36\6 -9.9
11.0
3.04 .00
19.6 9.8
40.12 .00
23.1 +0.1
39.65 +.03
43.0 16
26.83 .90
33.6 3.9
21.0
3.08 +.05
16,7 9.9
40.20 .09
23.0 o.i
39.70 .07
41.3 1.6
26.69 -.08
30.2 3.3
31.0
3.15 .10
13.8 9.8
40.31 .13
22.8 0.9
39.79 .10
39.8 1.5
26.68 +.05
26.9 3.4 j
Feb. 10.0
3.27 .14
11.0 9.6
40.45 .16
22.5 0.3
39.91 .13
38.3 1.3
26.80 .19
23.5 3.3 j
19.9
3.44 +.10
8.5-4.4
40.62 +.19
22.1 +0.5
40.05 +.16
37.1 -1.1
27.05 +.31
20.3 -3.0
29.9
3.64 .23
6.3 9.1
40.83 .99
21.5 0.6
40.23 .19
36.1 0.8
27.42 .49
17.4 9.7
Mar. 10.9
3.89 .96
4.5 1.5
41.05 .94
20.9 0.7
40.44 .39
35.4 tf.5
27.91 .53
14.9 9.3
20.9
4.17 .80
3.3 1.0
41.30 .96
20.1 0.9
40.66 .94
35.1 -0.1
28.49 .69
12.8 1.7
30.8
4.47 .39
2.d -0.4
41.57 .98
19.1 1.0
40.91 .96
35.2 +0.9
29.14 .68
11.4 1.9
Apr. 9.8
4.80 +.33
2.4 40.1
41.86 +.99
18.1 +1.1
41.18 +.98
35.6 +0.6
29.85 +.73
10.5 -0.5
19.8
5.14 .34
2.8 0.7
42.16 .30
16.9 1.9
41.47 .99
30.4 l.o
30.59 .75
10.3 +0.1
29.8
5.48 .34
3.8 1.3
42.46 .31
15.7 1.9
41.76 .99
37.6 1.3
31.34 .74
10.8 0.7
May 9.7
5.82 .34
5.3 1.7
42.77 .31
14.5 1.9
42.05 .99
39.1 1.6
32.08 .79
11.8 1.3
19.7
6.15 .39
7.3 9.9
43.08 .30
13.2 1.9
42.34 .98
40.8 1.9
32.78 .67
13.4 1.9
29.7
6.47 +.30
9.7 +9.5
43.38 +.99
12.1 +1.1
42.62 +.97
42.8 +9.0
33.42 +.61
15.6 +9.4
June 8.6
6.75 .97
12.4 9.8
43.66 .97
11.0 1.0
42.88 .95
44.9 9.1
33.99 .59
18.2 9.8
18.6
7.00 .93
15.3 3.0
43.91 .94
10.0 0.9
43.12 .99
47.1 9.9
34.47 .49
21.2 3.1
28.C
7.21 .19
18.4 3.9
44.14 .91
9.2 0.7
43.33 .19
49.3 9.9
'34.84 .38
24.4 3.4
July 8.6
7.37 .14
21.6 3.9
44.33 .17
8.6 0.5
43.50 .15
51.4 9.1
35.10 .90
27.9 3.5
18.5
7.48 +.08
24.8 +3.9
44.47 +.19
8.1 +0.4
43.63 +.11
53.5 +9.0
35.25 +.08
31.4 +3.6
28.5
7.54 +.03
28.0 3.1
44.57 .08
7.8 +0.9
43.72 .07
55.5 1.9
35 27 -.04
35.1 3.6
Aug. 7.5
7.55 -.09
31.0 9.9
44.63 +.03
7.7 0.0
43.77 +.09
57.3 1.7
35.17 .16
38.6 3.5
17.4
7.50 .07
33.8 9.7
44.64 -.09
7.8 -O.l
43.77 -.09
58.9 1.5
34.95 .97
42.1 3.3
27.4
7.40 .19
36.3 9.4
44.60 .06
8.0 0.3
43.73 .06
60.2 1.9
34.63 .37
45.3 3.1
Sept. 6.4
7.26 -.16
38.5 +9.0
44.52 -.10
8.3 -0.3
43.64 -.10
61.3 +1.0
34.20 -.47
48.3 +9.8
16.4
7 07 .90
40.4 1.7
44.40 .13
8.6 0.4
43.53 .13
62.2 0.8
33.68 .56
51.0 9.4
26.3
6.86 .99
41.9 1.3
44.25 .16
9.1 0.4
43.38 .15
02.8 0.5
33.08 .63
53.2 9.0
Oct. 6.3
6.62 .94
43.0 0.8
44.09 .17
9.6 0.5
43.22 .17
63.2 +0.9
32.42 .68
55.0 1.6
16.3
6.38 .95
43.6 +0.4
43.91 .18
10.0 0.4
43.05 .17
63.3 0.0
31.72 .71
56.4 l.l
26.2
6.12 -.95
43.7 -0.1
43.74 -.17
10.4 -0.4
42.88 -.17
63.1 -0.3
31.00 -.79
57.1 +0.5
Nov. 5.2
5.88 .94
43.4 0.6
43.57 .16
10.8 0.4
42.71 .16
62.7 0.6
30.27 .79
57.4 0.0
15.2
5.65 .99
42.6 1.0
43.42 .14
11.2 0.3
42.55 .14
d2.0 0.8
29.56 .69
57.0 -0.6
25.2
5.45 .19
41.3 1.5
43.29 .11
11.5 0.9
42.42 .19
61.1 1.0
28.89 .65
56.1 1.9
Doc. 5.1
5.27 .15
39.6 1.9
43.20 .08
11.7 0.9
42.32 .09
59.9 1.9
28.27 .58
54.6 1.8
15.1
5.14 -.19
37.4 -9.3
43.14 -.04
11.9-0.1
42.24 -.06
58.6 -1.4
27.72 -.50
52.6 -9.3
25.1
5.04 .07
35.0 9.6
43.12 .00
12.0 o.i
42.20 -.09
57.1 1.5
27.27 .40
50.1 9.7
35.1
5.00 - 09
32.3 -9.8
43.15 +.04
12.0 -o.o
42.19 +.09
55.5 -1.6
26.92 -.99
47.2 -3.1
FIXED &TARS, 1884.
357
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
a Cygni.
ft Aquarii.
i' Cygni.
12 Year Cat. 1879.
Mean
Solar
Date.
Right
Ascension.
Declination
North.
Bight
Ascension.
Declination
South.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
h m
20 37
+44 51
h m
20 46
o /
- 9 24
b m
20 52
+40° 43
li m
20 52
+80° 6
Jan. l.l
8
27.73 -.08
73.2 -2.6
8
23.16 -.01
58.7 -0.5
8
50.18 -.08
30.4 -2.5
44.09 -.77
79.2 -9.7
11. 1
27.68 -.03
70.4 9.9
23.17 +.03
59.2 0.4
50.12 -.04
27.8 9.7
43.43 .56
76.4 3.0
31.0
27.68 +.09
67.5 3.0
23.22 .06
59.6 0.4
50.1 1 +.01
25.0 9.8
42.98 .33
73.3 3.2
31.0
27.72 .07
64.5 3.0
23.30 .09
60.0 0.3
50.14 .05
22.2 9.6
42.77 -.09
70.0 3.3
Feb. 10.0
27.82 .12
61.6 9.8
23.41 .19
60.2 -0.1
50.21 .10
19.4 9.7
42.80 +.15
66.7 3.3
20.0
27.96 +.17
58.8 -9.6
23.55 +.15
60.2' o.o
50.33 +.15
16.6 -9.5
43.07 +.39
63.4 -3.2
29.9
28.16 .S3
56.4 9.9
23.71 .18
60.1 +0.2
50.50 .19
14.5 9.9
43.57 .61
60.3 2.9
Mar. 10.9
28.40 .96
54.4 1.8
23.91 .91
59.8 0.4
50.72 .23
12.5 1.7
44.29 .81
57.6 9.5
20.9
28.68 .99
52.8 1.3
24.13 .93
59.2 0.6
50.96 .97
11.0 1.2
45.20 .98
55.3 9.1
30.8
28.98 .39
51.8 0.7
24.37 .95
58.5 0.9
51.25 .30
10.0 0.7
46.26 1.19
53.5 1.5
Apr. 9.8
29.32 +.35
51.4 -0.1
24.64 +.97
57.5 +1.1
51.56 +.39
9.6 -0.2
47.44 1.29
52.3 -0.9
19.8
29.68 .36
51.6 +0.5
24.92 .28
56.4 1.9
51.89 .34
9.7 +0.4
48.70 1.27
51.7-0.3
29.8
30.05 .37
52.3 1.0
25.21 .30
55.0 1.4
52.24 .35
10.4 0.9
49.98 1.28
51.7 +0.3
May 9.7
30.41 .36
53.6 1.6
25.51 .30
53.6 1.5
52:59 .35
11.6 1.5
51.26 1.25
52.3 0.9
19.7
30.77 .35
55.4 9.0
25.81 .30
52.1 1.5
52.94 .34
13.3 1.9
52.48 1.18
53.6 1.5
29.7
31.12 +.33
57.7 43.4
26.10 +.29
50.6 +1.5
53.28 +.33
15.4 +9.3
53.62 1.08
55.3 +9.0
June 8.7
31.43 .30
60.4 9.8
26.38 .27
49.0 1.5
53.59 .30
17.9 9.7
54.64 .94
57.6 9.5
18.6
31 71 .96
63.3 3.0
26.64 .25
47.6 1.4
53.88 .97
20.7 2.9
55.51 .76
60.3 9.9
28.6
31.95 .91
66.4 3.9
26.88 .22
46.2 1.3
54.12 .23
23.8 3.1
56.20 .60
63.3 3.9
July 8.6
32.14 .16
69.7 3.3
27.08 .18
45.0 1.1
54.33 .18
26.9 3.9
56.70 .40
66.6 3.4
16.5
32.27 +.11
73.0 +3.3
27.24 +.14
43.9 +1.0
54.48 +.13
30.2 +3.9
57.01 +.20
70.1 +3.5
28.5
32.35 +.05
76.3 3.9
27.36 .10
43.0 0.8
54.58 .07
33.4 3.9
57.10 .00
73.7 3.6
Aug. 7.5
32.38 .00
79.5 3.1
27.44 +.05
42.4 0.6
54.63 +.09
36.5 3.1
56.99 -.22
77.3 3.6
17.5
32.34 -.06
.82.6 9.9
27.46 .00
41.9 0.4
54.62 -.03
39.4 2.9
56.67 .42
60.8 3.5
27.4
32.25 .11
85.4 9.7
27.45 -.04
41.5 0.2
54.56 .08
42.2 9.6
56.16 .61
84.2 3.3
Sept. 6.4
32.11 -.16
87.9 +9.4
27.39 -.08
41.4 +0.1
54.46 -.13
44.7 +9.3
•55.46 -.78
87.5 +3.1
16.4
31.93. .90
90.1 2.0
27.30 .11
41.4 -0.1
54.31 .17
. 46.9 9.0
54.59 .94
90.4 9.8
'26.4
31.71* .23
91.9 1.6
27.17 .13
4 1 .6 0.2
54.12 .20
48.7 1.6
53.58 1.07
93.0 9.4
Oct. 6.3
31.46 .95
93.3 l.l
27.03 .15
41.8 0.3
53.91 .99
50.1 1.9
52.44 1.18
95.2 9.0
16.3
31.20. .96
94.2 0.7
26.86 .16
42.2 0.4
53.68 .94
51.1 0.8
51.21 1.96
96.9 1.5
26.3
30.93 -.97
94.6 +0.2
26.70 -.16
42.6 -0.4
53.43 -.94
51 .6 +0.3
49.91 1.39
98.2 +1.0
Nov. 5.2
30.66 .96
94.6 -«».3
26.54 .15
43.1 0.5
53.19 .94
51.6 -0.9
48.58 1.33
98.9+0 4
15.2
30.40 .25
94.0 0.8
26.39 .14
43.6 0.5
52.96 .23
51.2 0.7
47.25 1.39
99.0 -0.9
25.2
30.17 .29
92.9 1.3
26.26 .12
44.1 0 5
52.74 .21
50.3 1.9
45.95 1.26
98.5 0.7
Dec. 5.2
29.96 .19
91.4 1.8
26.16 .09
44.7 0.6
52.55 .18
48.9 1.6
44.72 1.17
97.5 1.3
15.1
29.79 -.15
89 4 -9.9
26.08 -.06
45.3 -0.6
52.38 -.14
47.1 -2.0
43.61 1.05
95.9 -1.6 '
25.1
29.66 .11
87.0 9.5
26.04 -.03
45.8 0.5
52.26 .11
44.9 9.3
42.64 .88
93.7 9.8
35.1
29.57 -.06
84.3 -9.8
26.03 +.09
46.4 -0.5
52.17 -.07
42.4 -9.7
41.84 -.70
91.2-9.8
358
FIXED STARS, 1884.
APPARENT PLACES FOE THE UPPER TRANSIT AT WASHINGTON.
61 l Cygni.
Z Cygni.
a Cophei.
1 Pegasi.
Moan
Solar
Date.
Right
Ascension.
Declination
liorth.,
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
h m
21 1
+38° 10
h m
21 7
+ 29° 45
h m
21 15
+ 62 5
h m
21 16
+ 19° 18
Jan. 1.1
s
41.20 -.07
60.8 -9.3
s
59.40 -.07
18.8-9.1
s
47.46 -.24
58.5 H8.5
s
42.84 -.05
42.5-1.7
11.1
41.15 -.03
58.4 9.5
59.35 -.03
16.6 9.3
47.25 .17
55.8 9.9
42.80 -.09
40.7 1.8
21.1
41.14 +.01
55.8 9.6
59.34 +.01
14.3 9.4
47.11 .10
52.7 3.1
42.80 +.09
38.8 l.»
31.0
41.17 .06
53.2 9.6
59.37 .05
11.9 9.4
47.05 -.09
49.5 3.9
42.83 .05
37.0 1.8
Feb. 10.0
41.25 .10
50.6 9.5
59.44 .09
9.6 9.3
47.07 +.06
46.3 3.9
42.69 .08
35.1 1.7
80.0
41.37 +.15
48.1 -9.3
59.54 +.19
7.4 -9.1
47.17 +.14
43.1 -3.1
42.99 +.11
33.5 -1.5
29.0
41.54 .19
46.0 9.0
59.68 .16
5.5 1.8
47.35 .99
40.1 9.8
43.12 .15
32.1 1.3;
Mar. ]0.9
41.75 .99
44.1 1.6
59.86 .90
3.9 1.4
47.61 .30
37.4 9.5
43.28 .18
31.0 l.o I
20.9
41.99 .96
42.8 1.1
60.08 .93
2.7 1.0
47.94 .36
35.2 9.0
43.48 .91
30.2 0.6 ;
30.9
42.27 .99
41.9 0.6
60.32 .96
2.0 —0.5
48.34 .43
33.4 1.5
43.70 .94
29.8 -«.i
Apr. 9.8
42.58 +.39
41.5 -0.1
60.60 +.98
1.7 0.0
48.79 +.47
32.2 -0.9
43.96 +.96
29.9 +0.2
19.8
42.91 .34
41.7+0.5
60.89 .30
2.0 +0.5
49.27 .50
31.6 -0.3
44.23 .98
30.4 0.7
29.6
43.26 .35
42.4 1.0
61.21 .39
2.7 1.0
49.79 .59
31.7 +0.3
44.52 .30
31.3 1.1
May 9.8
43.61 .35
43.7 1.5
61.52 .39
4.0 1.6
50.31 .59
32.3 1.0
44.83 .30
32.6 1.5
19.7
43.96 .35
45.4 1.9
61.85 .39
5.6 1.8
50.83 .51
33.6 1.5
45.13 .30
34.3 1.8 !
29.7
44.30 +.33
47.6 +9.4
62.16 +.31
7.6 +9.9
51.32 +.48
35.4 +9.0
45.44 +.30
36.3 +9.1
June 8.7
44.63 .31
50.1 9.7
62.46 .99
10.0 9.5
51.79 .44
37.7 9.5
45.73 \98
38.4 9.3
18.6
44.92 .98
53.0 9.9
62.74 .96
12.6 9.7
52.21 .39
40.4 9.9
46.00 .96
40.8 9.4
28.6
45.18 .94
56.0 3.1
62.98 .93
15.3 9.8
52.58 .33
43.4 3.9
46.24 .93
43.3 9.5
July 8.6
45.40 .90
59.2 3.9
63.19 .19
18.2 9.9
52.87 .96
46.7 3.4
46.46 .19
45.8 9.5
18.6
45.58 +.15
62.4 +3.9
63.36 +.15
21.1 +9.9
53.10 +.18
50.2 +3.5
46.63 +.15
48.3 +9.5
28.5
45.70 .10
65.6 3.9
63.48 .10
24.0 9.8
53.24 .10
53.8 3.6
46.77 .11
50.8 9.4
Aug. 7.5
45.77 +.04
68.8 3.1
63.56 +.05
26.7 9.7
53.30 +.09
57.4 3.6
46.86 .07
53.1 9.9
17.5
45.79 -.01
71.8 9.9
63.58 .00
29.3 9.5
53.28 -.06
61.0 3.5
46.90 +.09
55.2 9.0
27.4
45.75 .06
74.6 9.7
63.56 -.05
31.7 9.3
53.19 .13
64.4 3.3
46.90 -.09
57.2 1.8
Sept. 6.4
45.67 -.10
77.1 49.4
63.49 -.09
33.8 +9.0
53.02 -.90
67.6 +3.1
46.85 -.06
58.8 +1.6
1 16.4
45.55 .14
79.3 9.0
63.38 .19
35.7 1.7
52.78 .97
70.5 9.8
46.77 .10
60.3 1.3
I 26.4
45.39 .17
81.2 1.7
63.24 .15
37.2 1.3
52.48 .39
73.1 9.4
46.65 .13
61.4 l.o
Oct. 6.3
45.20 .90
82.7 1.3
63.08 .18
38.4 1.0
52.13 .37
75.3 9.0
46.51 .15
62.2 0.7
16.3
45.00 .91
83.8 0.9
62.89 .19
39.2 0.6
51.75 .40
77.1 1.5
46.35 .16
62.8 +0.4
26.3
44.78 -.99
84.4 +0.4
62.70 -.90
39.6 +0.9
51.33 -.49
78.3 +1.0
46.18 -.17
63.0 0.0
Nov. 5.3
44.56 .99
84.6 0.0
62.50 .19
39.6 -0.9
50.91 .43
79.0 +0.4
46.01 .17
62.9 -0.3
15.2
44.35 .90
84.4 -0.5
62.31 .18
39.2 0.6
50.48 .49
79.2 -0.1
45.84 .16
62.4 0.6
i 25.2
44.15 .19
83.6 1.0
62.13 .17
38.4 1.0
50.06 .40
78.8 0.7
45.69 .14
61.7 04)
Dec. 5.2
43.96 .16
82.4 1.4
61.98 .15
37.2 1.4
49.67 .38
77.8 1.3
45.56 .19
60.7 1.9
^ 15.2
43.83 -.13
80.8 -1.8
61.84 -.19
35.7 -1.7
49.31 -.33
76.2-1.8
45.44 -.10
59.3 -1.4
25.1
43.71 .10
78.8 9.1
61.74 .09
33.8 9.0
49.00 .98
74.1 9.3
45.36 .07
57.8 1.6
35.1
43.63 -.06
76.5 -9.4
61.67 -.05
31.7 -9.3
48.74 -.99
74.6-9.7
45.30 -.03
56.1 -1.8 j
FIXED STARS, 1884.
359
APPARENT PLACES FOE THE UPPER TRANSIT AT WASHINGTON.
/? Aquarii.
0 Cephei.
£ Aquarii.
e Pegasi.
Mean
Solar
Date.
Right
Ascension.
Declination
South.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
South.
Right
Asoension.
Declination
North.
h m
21 25
O /
-64
h m
21 27
+70 2
h m
21 31
O 1
- 8 22
li m
21 38
+ 9 20
Jan. 1.1
26.62 -.04
46J -0.6
8
7.96 -.40
86.0 -9.4
B
34.10 -.04
2K3 -0.5
8
28.97 -.06
45.9 -1.9
11.1
26.60 -.01
46.7 0.6
7.60 .30
83.4 9.8
34.08 -.01
21.8 0.5
28.93 -.03
44.6 1.3
21.1
26.61 +.09
47.3 0.5
7.35 .90
80.4 3.1
34.08 +.09
22.2 0.4
28.92 .00
43.3 1.3
31.0
26.65 .05
47.7 0.4
7.20 -.09
77.3 3.9
34.11 .05
22.5 0.3
28.93 +.03
42.0 1.3
Feb. 10.0
26.71 .08
46.0 0.3
7.16 +.09
74.0 3.3
-34.17 .08
22.7 -o.l
28.98 .06
40.7 1.9
20.0
26.81 +.11
48.2 -O.l
7.24 +.14
70.7 -3.9
34.27 +.11
22.7 +0.1
29.06 +.09
39.7 -1.0
39.9
26.94 .14
48.2 +O.I
7.44 .95
67.5 3.0
34.39 .14
22.6 0.3
29.17 .13
38.8 0.7
Mar. 10.9
27.10 .17
48 0 0.4
7.74 .36
64.7 9.7
34.54 .17
22.2 0.5
29.31 .16
38.2 0.5
20.9
27.29 .90
47.5 0.6
8.15 .45
62.2 9.9
34.73 .90
21.6 0.7
29.49 .19
37.9 -0.1
30.9
27.50 .83
*46.8 0.8
8.65 .54
60.2 1.7
34.94 .99
20.8 0.9
29.69 .99
37.9 +0.9
Apr. 9.8
27.74 +.95
45.8 +1.1
9.23 +.60
58.7 -1.9
35.18 +.95
19.7 +1.1
29.92 +.94
38.3 +0.5
19.6
28.00 .97
44.6 1.3
9.86 .65
57.8 -0.6
35.44 .97
16.5 1.3
30.18 .97
39.0 0.9
29.8
28.29 .99
43.3 1.4
10.53 .68
57.6 0.0
35.72 .99
17.1 1.6
30.46 .98
40.1 1.9
May 9.8
28.58 .30
41.7 1.6
11.22 .69
57.9 +0.7
36.01 .30
15.5 1.6
30.75 .30
41.4 1.6
19.7
28.88 .30
40.1 1.7
11.90 .67
58:9 1.2
36.32 .30
13.8 1.7
31.05 .30
43.1 1.7
29.7
29.18 +.30
38.4 +1.7
12.56 +.64
60.4 +1.6
36.62 +.30
12.1 +1.7
31.35 +.80
44.9 +1.9
June 8.7
29.47 .98
36.6 1.7
13.18 .59
62.5 9.3
36.92 .99
10.4 1.7
31.64 .99
47.0 9.1
18.7
29.75 .97
34.9 1.7
13.73 .59
65.0 9.7
37.20 .97
8.8 1.6
31.92 .97
49.1 9.9
28.6
30.01 .84
33.3 1.6
14.21 .44
67.9 3.1
37.46 .95
7.2 1.5
32.18 .94
51.3 9.3
July 8.6
30.23 .81
31.8 1.4
14.61 .35
71.1 3.3
37.69 .99
5.8 1.3
32.41 .21
53.4 9.1
I 18.6
30.43 +.17
30.4 +1.3
14.91 +.95
74.6 +3.5
37.89 +.18
4.5 +1.1
32.60 +.18
55.5 +9.0
1 28.5
30.58 .13
29.3 1.1
15.10 .14
78.2 3.6
38.05 .14
3.5 0.9
32.76 .14
57.5 1.9
Aug. 7.6
30.69 .09
28.3 0.9
15.19 +.03
81.9 3.7
38.17 .09
2.6 0.7
32.87 .09
59.4 1.8
17.5
30.75 +.04
27.6 0.6
15.17 -.08
85.5 3.6
38.24 +.05
2.0 0.5
32.94 +.05
61.0 1.5
i 27.5
30.77 .00
27.0 0.4
15.04 .17
89. 1 3.5
38.26 .00
1.6 0.3
32.97 .00
62.5 1.3
Sept. 6.4
30.75 -.04
26.7 +0.9
14.82 -.97
92.5 +3.3
38.25 -.04
1.4 +0.1
32.95 -.04
63.7 +1.1
16.4
30.68 .08
26.5 +0.1
14.50 .36
95.6 3.0
38.19 .07
1.3-0.1
32.90 .07
64.7 0.9
1 26.4
30.59 .11
26.6 -o.l
14.10 .44
98.5 9.7
38.10 .10
1 .5 0.9
32.81 .10
65.4 0.6
Oct. 6.4
30.47 .13
26.7 0.9
13.62 .50
101.0 9.3
37.96 .13
1.8 0.3
32.69 .18
65.9 0.4
16.3
30.33 .15
27.0 0.4
13.09 .65
103.0 1.8
37.85 .14
2.1 0.4
32.56 .14
66.2 +0.1
26.3
30.18 -.15
27.4 -0.5
12.52 -.60
104.6 +1.3
37.70 -.15
2.6 -0.5
32.41 -.16
66.2 -O.l
Nov. 5.3
30.02 .15
27.9 0.5
11.91 .61
105.6 0.7
37.54 .15
3.2 0.6
32.25 .16
66.0 0.3
15.2
29.88 .14
28.5 0.6
11.30 .61
106.1 +0.9
37.40 .14
3.8 0.6
32.10 .15
65.5 0.5
25.2
29.74 .13
29.1 0.6
10.69 .60
105.9 -0.4
37.26 .13
4.4 0.6
31.96 .13
64.9 0.7
Dec. 5.2
29.62 .11
29.8 0.7
10.11 .56
105.2 1.0
37.14 .11
5.0 0.6
31.84 .19
64.0 0.9
15.2
29.53 -.08
30.4 -0.7
9.57 -.51
103.9 -1.6
37.04 -.09
5.6 -0.6
31.73 -.10
63.0 -l.l
25.1
29.46 .06
31.1 0.7
9.08 .45
102.0 9.1
36 97 .06
6.2 0.6
31.64 .07
61.9 1.9
35.1
29.42 -.03
31.8-0.6
8.67 -.38
99.7 -9.6
36.93 -.03
6.7 -0.5
31.58 -.04
60.6-1.3
360
FIXED STARS, 1884.
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
11 Cephei.
fi Capricorni.
79 Draconis.
a Aquarii.
Mean
Solar
Date.
Right
Ascension.
Declination
North.
Bight
Ascension.
Declination
South.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
South.
h m
21 40
+70 46
It m
21 46
o /
-14 5
h m
21 51
+73° 9
h m
21 59
O /
- 0 52
1
Jan. 1.1
8
11.82 -.44
59.9 -9.9
s
57.77 -.05
47.6 -0.3
*
23.85 -.53
34.7 -9.1
s
49.22 -.07
i
53.0 -0.8
11. 1
11.43 .35
57.4 9.6
57.74 -.02
47.8 -0.1
23.37 .44
32.4 3.5
49.17 .04
53.8 0.8
21.1
11.13 .35
54.6 3.0
57.73 +.01
47.8 0.0
22.98 .32
29.6 99
49.15 -.01
54.6 0.7
31.1
10.93 .14
51.5 3.9
57.75 .03
47.8 +0.1
22.72 .20
26.6 3.1
49.15 +.02
55.3 0.6
Feb. 10.0
10.86 -.09
48.2 3.3
57.80 .0*
47.6 0.3
22.58 -.10
23.3 3.3
49.18 .05
55.9 0.5
i
20.0
10.90 +.10
44.9 -3.9
57.88 +.10
47.2 +0.5
22.58 +.07
20.1 -3.2
49.24 +.07
1
56.3 -0.9
Mar. 1.0
11.06 .99
41.7 3.0
57.99 .13
46.7 0.6
22.72 .21
16.8 3.1
49.33 .11
56.6 -O.l
10.9
11.34 .34
38.8 9.8
58.13 .16
46.0 0.8
23.00 .34
13.8 2.9
49.46 .14
56.6 +0.1
20.9
11.74 .44
36.2 9.4
58.30 .19
45.0 1.0
23.41 .46
11.1 9.5
49.61 .17
56.3 0.4
30.9
12.22 .53
34.1 1.9
58.51 .29
43.9 1.2
23.93 .58
8.8 3.6
49.£0 .20
55.8 0.6
Apr. 9.9
12.80 +.61
32.4 -1.3
58.74 +.94
42.6 +1.4
24.56 +.66
7.0 -1.5
50.01 +.93
55.0 +0.9
19.8
13.44 .66
31.4 0.7
59.00 .97
41.2 1.5
25.25 .73
5s8 0.9
50.26 .95
54.0 i.»
29,8
14.12 .70
31.0 -0.1
59.28 .29
39.6 1.6
26.01 .78
5.2 -0.3
50.52 XI
52.6 1.4
May 9.8
14.83 .71
31.1 +0.5
59.57 .30
37.9 1.7
26.80 .80
5.2 +0 3
50.81 .29
51.1 1.6
19.8
15.54 .70
31.9 I 1
59.88 .31
36.2 1.7
27.60 .79
5.8 0.9
51.10 .30
49.4 1.7
29.7
16.24 +.67
33.3 +1.6
60.19 +.31
34.5 +1.7
28.39 +.76
7.0 +1.5
51.40 +.30
47.6 +1.9 !
June 8.7
16.89 .63
3V2 2.9
60.49 .30
32.9 1.6
29.13 .71
8.7 2 0
51.70 .29
45.7 1.9
18.7
17.49 .56
37.6 9.6
60.79 .29
31.3 1.5
29.82 .65
11.0 2.5
51.99 .98
43.8 1.9
28.6
18.01 .48
40.4 3.0
61.07 .27
30.0 1.3
30.42 .56
13.6 2.8
52.26 .96
42.0 1.8
July 8.6
18.45 .39
43.6 3.3
61.32 .93
28.7 l.i
30.94 .46
16 6 3.9
52.51 .93
40.2 1.7
18.6
18.79 +.29
47.0 +3.5
61.53 +.20
27.7 +0.9
31.34 +.35
20.0 +3.4
52.73 +.90
38.5 +1.6
28.6
19.02 .18
50.5 3.6
61.71 .16
26.9 0.7
31.64 .23
23.5 3.6
52.90 .15
37.0 1.4
Aug. 7.5
19.15 +.07
54.2 3.7
61.84 .11
26.4 0.4
31.81 +.11
27.1 3.7
53.04 .19
35.6 1.2
17.5
19.17 -.04
57.9 3.7
61.93 .07
26.1 +0.2
31.86 -.01
30.8 3.7
53.14 .07
34.5 1.0 '
27.5
19.08 .14
61.5 3.5
61.98 +.09
26.0 0.0
31.79 .13
34.5 3.6
53.19 +.03
33.6 0.8 1
Sept. 6.5
18.88 -.94
65.0 +3.4
61.97 -.09
26.1 -0.2
31.60 -.25
38.1 +3.5
53.20 -.01
33.0 +0.6
16.4
18.59 .34
68.2 3.1
61.93 .06
26.4 0.3
31.29 .35
41.4 3.9
53.16 .05
32.5 0.3
26.4
18.21 .49
71.2 2.8
61.85 .09
26.8 0.5
30.89 .45
44.6 3.0
53.10 .06
32.3 +0.1
Oct. 6.4
17.75 .49
73.9 9.4
61.74 .19
27.3 0.6
30.39 .54
47.4 9.6
53.00 .11
32.2 0.0
16.3
17.23 .55
76.1 9.0
61.62 .14
28.0 0.6
29.82 .60
49.8 9.1
52.88 .13
32.3-0.8
.26.3
16.65 -.59
77.8 +1.5
61.47 -.15
28.6 -0.6
29.18 -.66
51.7 +1.7
52.75 -.14
32.6 -0.3
Nov. 5.3
16.04 .69
79.1 1.0
61.32 .15
29.2 0.7
28.49 .70
53.1 1.9
52.61 .14
33.0 0.5
15.3
15.42 .63
79.7 +0.4
61.17 .14
29.9 0.6
27.78 .71
54.0 +0.6
52.47 .14
33.6 0.6
25.2
14.79 .69
79.8 -0.9
61.03 .13
30.5 0.6
27.06 .71
54.3 0.0
52.33 .13
34.2 0.7
Dec. 5.2
14.18 .59
79.3 0.8
60.90 .19
31.0 0.5
26.35 .69
54.0 -0.6
52.20 .13
34.9 0.8
15.2
13.60 -.55
78.2 -1.4
60.80 -.10
31.5 -0.4
25.68 -.65
53.1 -1.9
52.10 -.10
35.7 -0.8
25.1
13.08 .49
76.5 1.9
60.71 .07
31.9 0.3
25.05 .59
51.6 1.8
52.01 .08
36.5 0.8
35.1
12.63 -.41
74.3 -9.4
60.66 -.04
32.2 -0.2
24.50 -.50
49.5 -9.3
51.94 -.05
37.4 -^0.8
FIXED STARS, 1884.
361
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
a Gruis.
0 Aquarii.
7T Aquarii.
if Aquarii.
Mean
Solar
Date.
Right
Ascension.
Declination
South.
Right
Ascension.
Declination
South.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
South.
h m
22 0
-47° 30
h m
22 10
O /
- 8 21
h m
22 19
O /
+ 0 47
h m
22 29
O /
- 0 42
Jan. 1.1
6
53.90 -.19
84.3 +1.9
8
42.40 -.07
34'.4 -0.5
8
20.96 -.07
26.5 -0.9
8
23.54 -.08
49.3 -0 8
11.1
53.80 .08
82.9 1.6
42.34 .04
34.9 0.4
20.90 .05
25.6 0.8
23.47 .06
50.1 0.8
21. 1
53.74 -.03
81.2 1.8
42.31 -09
35.3 0.3
20.86 -.03
24.8 0.8
23.42 .04
50.8 0.7
31.1
53.73 +.01
79.3 9.1
42.30 +.01
35.6 -0.9
20.84 .00
24.1 0.7
23.40 -.61
51.5 0.6
Feb. 10.0
53.77 .06
77.1 9.3
42.32 .04
35.7 0.0
20.85 +.03
23.4 0.6
23.40 +.09
52.1 0.5
20.0
53.&5 +.10
74.7 +2.4
42.38 +.07
35.7 +0.1
20.90 +.05
22.9 -0.4
23.43 +.04
52.5 -0.3
Mar. 1.0
53.98 .15
72.3 9 5
42.46 .10
35.4 0.3
20.96 .08
22.6 -0.9
23.49 .07
52.7 -o.l
11.0
54.15 .19
69.7 9.5
42.58 .13
35.0 0.6
21.07 .19
22.5 0.0
23.59 .11
52.7 +0.1
20.9
54.36 .24
67.2 9.5
42.72 .16
34.3 0.8
21.21 .15
22.6 +0.3
23.72 .14
52.4 0.4
30.9
54.62. .28
64.7 9.5
42.90 .90
33.4 l.o
21.38 .18
23.1 0.6
23.88 . .18
51.9 0.6
Apr. 9.9
54.92 +.38
62.2 +9.4
43.11 +.99
32.3+1.9
21.58 +.99
23.8 +0.9
24.07 +.91
51.1 +0.9
19.8
55.25 .35
59.9 9.9
43.35 .95
31.0 1.4
21.81 .94
24.8 1.1
24.29 .94
50.1 1.9
29.8
55.62 .38
57.8 9.0
43.62 .97
29.5 1.6
22.06 .97
26.0 1.4
24.55 .96
48.8 1.4
May 9.8
56.00 .40
55.9 1.8
43.90 .29
27.8 1.7
22.34 .99
27.5 1.6
24.82 .98
47.3 1.6
19.8
56.41 .41
54.2 1.5
44.20 .30
26.1 1.8
22.64 .30
29.2 1.8
25.11 .30
45.6 1.8
29.7
56.83 +.41
52.9 +1.1
44.50 +.31
24.3 +1.6
22.94 +.30
31.0 +1.9
25.41 +.30
43.7 +1.9
June 8.7
57.24 .41
51.9 0.8
44.81 .30
22.4 1.6
23.24 .30
33.0 1.9
25.72 .30
41.8 1.9
18.7
57.64 .39
51.3+0.4
45.11 .99
20.7 1.7
23.54 .99
34.9 9.0
26.02 .99
39.9 1.9
28.7
58.02 .36
51.1 0.0
45.39 .97
19.0 1.6
23.82 .87
36.9 1.9
26.30 .97
37.9 1.9
July 8.6
58.36 .32
51.3 -0.4
45.65 .94
17.4 1.5
24.08 .34
38.8 1.8
26.56 .95
36.1 1.8
18.6
58.67 +.96
51.9 -0.8
45.87 +.91
16.1 +1.3
24.30 +.91
40.6 +1.7
26.80 +.29
34.4 +1.7
28.6
58.92 .93
52.8 l.i
46.06 .17
14.9 l.o
24.50 .17
42.2 1.5
27.00 .18
32.8 1.5
Aug. 7.5
59.12 .17
54.1 1.4
46.22 .13
14.0 0.8
24.65 .13
43.6 1.3
27.17 .14
31.4 1.3
17.5
59.25 .10
55.6 l.tf
46.32 .09
13.3 0.6
24.76 .09
44.9 1.1
27.29 .10
30.2 1.0
27.5
59.32 +.04
57.4 1.8
46.39 +.04
12.8 0.3
24.83 .05
45.9 0.9
27.37 .08
29.3 0.8
Sept. 6.5
59.33 -.08
59.3 -1.9
46.41 .00
12.6 +0.1
24.86 +.01
46.7 +0.7
27.40 +.02
28.6 +0.6
16.4
59.27 .08
61.2 9.0
46.39 -.04
12.6 -0.1
24.84 -.03
47.2 0.5
27.40 -.09
28.1 0.4
26.4
59.16 .13
63.2 1.9
46.33 .07
12.7 0.9
24.80 .07
47.6 -0.2
27.36 .05
27.8 +0.9
Oct. 6.4
59.00 .18
65.0 1.8
46.24 .10
13.0 0.4
24.72 .09
47.7 0.0
27.29 .08
27.8 0.0
16.4
58.81 .81
66.7 1.6
46.13 .19
13.5 0.5
24.61 .11
47.7 -0.1
27.19 .11
27.9 -0.2
26.3
58.58 -.93
68.2 -1.3
46.00 -.13
14.0 -0.6
24.49 -.13
47.5 -0.3
27.08 -.12
28.2 -0.3
Nov. 5.3
58.34 .94
69.3 l.o
45.86 .14
14.6 0.6
24.36 .14
47.1 0.4
26.95 .13
28.6 0.5
15.3
58.10 .94
70.1 0.6
45.72 .14
15.2 0.7
24.22 .14
46.6 0.6
26.82 .13
29.1 0.6
25.2
57.87 .93
70.5 -0.9
45.59 .13
15.9 0.7
24.08 .13
46.0 0.7
26.68 .13
29.8 0.7
Dec. 5.2
57.65 .91
70.4 +0.2
45.46 .19
16.6 07
23.96 .19
45.2 0.8
26.56 .19
30.5 0.7
15.2
57.46 -.18
70.0 +0.6
45.35 -.10
17.2 -0.6
23.84 -.11
44.5 -0.8
26.44 -.11
31.2 -0 8
25.2
57.30 .14
69.2 1.0
4525 .08
17.8 0.6
23.74 .09
43.6 0.8
26.34 .09
32.0 0.8
35.1
57.17 -.10
68.0 +1.4
45.18 -.08
18.4 -0.5
23.66 -.07
42.8 -0.9
26.26 -.07
32.8 -0.8
362
FIXED STABS, 1884.
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON.
226 Cephei (B.)
£ Pegasi.
i Cephei.
A Aquarii.
Mean
Solar
Date.
Bight
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
Bight
Ascension.
Declination
North.
Bight
Ascension.
Declination
South.
h m
22 30
+75° 37
h m
22 35
+ 10° 13
h m
22 45
+65° 35
h m
22 46
O 1
- 8 11
Jan. 1.2
8
13.41 -.71
66.1 -1.6
s
40.54 -.09
42J -1.1
s
33.09 -.40
47'.2 -1.6
B
33.60 -.09
45.5 -0.5 J
11.1
12.74 .69
64.3 9.1
40.46 .07
40.9 1.9
32.71 .35
45.5 9.0
33.52 .07
46.0 0.4
21.1
12.17 .51
62.0 9.5
40.40 .05
39.7 1.9
32.38 .99
43.2 9.4
33.46 .05
46.4 0.3 i
31.1
11.72 .36
59.2 9.9
40.37 -.09
38.5 1.9
32.13 .29
. 40.6 2.8
33.43 -.03
46.G -0.2
Feb. 10.1
11.41 .33
56.2 3.1
40.36 +.01
. 37.4 l.l
31.94 .14
37.7 3.0
33.41 .00
46.7 0.0 ■
20.0
11.25 -.08
53.0 -3.9
40.38 +.04
36.3 -1.0
31.84 -.05
34.6 -3.1
33.43 +.03
1
46.6 +0.9 \
Mar. 1.0
11.26 +.07
49.7 3.9
40.43 .07
35.4 0.6
31.84 +.04
31.5 3 1
33.48 .06
46.4 0.4
11.0
11.43 .96
46.6 3.1
40 52 .10
34.8 0.6
31.93 .14
28.5 9.9
33.55 .09
45.9 0.6
20.9
11.76 .41
43.6 9.8
40.64 .14
34.4 -0.9
32.12 .23
25.6 2.7
33.66 .13
45.2 0.8 '
30.9
12.25 .56
41.0 9.4
40.79 .17
34.4 +0.1
32.39 .32
23.1 9.3
33.81 .16
44.2 l.l!
Apr. 9.9
12.86 +.67
38.8 -9.0
40.96 +.21
34.6 +0.4
32.76 +.40
21.0-1.9
33.99 +.90
43.1 +1.3
19.9
13.60 .78
37.1 1.5
41.21 .94
35.2 0.7
33.20 .47
19.4 1.4
34.20 .93
417 1.5
29.8
14.42 .85
35.9 0.9
41.46 .96
36.1 l.l
33.70 .53
18.3 0.8
34.45 .26
40.1 i.«
May 9.8
15.30 .90
35.3 -0.3
41.74 .98
37.3 1.4
34.25 .57
17.8 -0.2
34.72 .98
38.4 1.8 '
19.8
16.22 .90
35.4 +0.3
42.03 .30
38.8 1.6
34.83 .59
17.9 +0.9
35.00 .30
36.6 1.9>
|
29.8
17.14 +.91
36.0 +0.9
42.33 +.30
40.6 +1.9
35.42 +.59
18.5 +0.9
35.31 +.30
34.7 +1.9 1
June 8.7
18.05 .88
37.2 1.5
42.64 .30
42.5 9.0
36.01 .58
19.8 1.5
35.62 .31
32.8 1.9
18.7
18.91 .89
39.0 9.0
42.94 .99
44.6 9.1
36.58 .56
21.5 9.0
35.92 .30
30.9 1.8 !
28.7
19.69 .74
41.3 9.5
43.22 .98
46.8 9.2
37.12 .51
23.8 9.4
36.21 .99
29.1 1.71
July 8.6
20.39 .64
44.0 9.9
43.49 .96
49.0 9.9
37.60 .45
26.4 9.8
36.49 .96
27.5 1.6
18.6
20.98 +.53
47.0 +3.2
43.73 +.39
51.1 +9.1
38.03 +.39
29.4 +3.1
36.74 +.24
26.O+1.4'
28.6
21.46 .41
50.3 3.4
43.93 .18
53.2 9.0
38.38 .31
32.6 3.4
36.96 .90
24.8 l.l 1
Aug. 7.6
21.80 .27
53.8 3.6
44.10 .15
55.1 1.9
38.66 .23
36.1 3.5
37.14 .16
23.7 0.9!
17.5
22.00 +.14
57.5 3.7
44.23 .10
56.9 1.7
38.84 .15
39.7 3.6
37.28 .12
23.0 0.7
27.5
22.07 .00
61.2 3.7
44.31 .06
58.4 1.5
38.95 +.06
43.3 3.6
37.38 .08
22.4 0.4
Sept. 6.5
22.00 -.13
64.9 +3.6
44.35 +.09
59.8 +1.9
38.97 -.01
46.9 +3.5
37.44 +.04
22.2 +0.2
16.5
21.80 .97
68.5 3.5
44.35 -.02
60.9 l.o
38.91 JO
50.4 3.4
37.45 .00
22.1 0.0 1
26.4
21.47 .39
72.0 3.3
44.31 .05
61.8 0.8
38.77 .18
53.7 3.9
37.43 -.04
22.3 -0.9 j
Oct. 6.4
21.03 .50
75.1 3 0
44.24 .08
62.5 0.5
38.56 .24
56.8 9.9
37.37 .07
22.6 0.4 1
16.4
20.48 .60
78.0 9.7
44.15 .10
62.9 0.3
38.28 .30
59.6 9.5
37.29 .10
23.1 0.5
26.3
19.83 -.68
80.4 +9.9
44.04 -.19
63.0 +0.1
37.95 -.36
61.9+9.1
37.18 -.11
23.7 -0.6
Nov. 5.3
19.11 .75
82.4 1.7
43.91 .13
63.0 -0.9
37.57 .40
63.8 1.7
37.06 .19
24.3 0.7 1
15.3
18.33 .80
83.9 1.9
43.78 .14
62.7 0.4
37.15 .43
65.2 l.l
36.93 .13
25.0 0.7 !
25.3
17.52 .89
84.8 +0.6
43.64 .13
62.2 0.6
36.71 .44
66.1 +0.6
36.80 .13
25.8 0.7 j
Dec. 5.2
16.69 .89
85.1 0.0
43.51 .13
61.6 0.8
36.26 .45
66.4 0.0
36.67 .19
26.5 0.7 1
15.2
15.87 -.80
84.8 -0.6
43.38 -.19
60.7 -0.9
35.81 -.43
66.1 -0.6
36.55 -.11
27.2 -0.7 1
25.2
15.08 .76
83.9 1.9
43.28 .10
59.7 l.l
35.38 .49
65.2 1.9
36.44 .10
27.8 0.6
35.2
14.35 -.69
82.3 -1.8
43.18 -.06
58.6 -1.9
34.97 -.39
63.7 -1.7
36.35 -.08
28.4 -0.5 i
FIXED STARS, 1884.
363
APPARENT PLACES FOB THE UPPER TRANSIT AT WASHINGTON.
•
Mean
Solar
Date.
a Piscis Australia.
(FomalhatU.)
a Pegaui.
(Markab.)
o Cephei.
6 Piscium.
Right
Ascension.
Declination
South.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North.
h m
22 51
-30° 13
li m
22 58
+ 14° 34
h m
23 13
+ 67° 28
h m
23 22
O l
+ 5 44
Jan. 1.2
s
13.88 -.19
76.7 +0.3
8
59.07 -.10
61.5 -l.l
8
52.50 -.46
50.4 -1.1
s
5.18 -.11
35.9 -0.9
11.2
13.78 .09
76.4 0.5
58.97 .09
60.4 1.2
52.06 .42
58.0 1.7
5.08 .09
35.0 0.9
21.1
13.70 .06
75.7 0.8
58.89 .07
59.1 13
51.67 .37
56.1 2.1
5.00 .08
34.1 0.9
31.1
13.65 .04
74.8 1.0
58.83 .05
57.8 1.3
51.33 .30
53.7 2.5
4.93 .06
33.2 0.9
Feb. 10.1
13.63 -.01
73.6 1.3
58.80 -.02
56.4 1.3
51.07 .23
51.0 2.8
4.88 .04
32.4 0.8
20.1
13.64 +.03
72.3 +1.5
58.79 +.01
55.2 -1.2
50.90 -.13
48.1 -3.0
4.85 -.01
31.6-0.6
Mar. 1.0
13.68 .06
70.7 1.7
58.82 .04
54.1 1.0
50.82 -.03
45.0 3.1
4.86 +\01
31.1 0.5
11.0
13.76 .10
68.9 1.9
58.88 .08
53.2 0.8
50.84 +.07
41.9 3.0
4.90 .06
30.7 -0.2
21.0
13.88 .14
66.9 2.0
58.98 .12
52.6 0.5
50.97 .18
39.0 2.8
4.97 .09
30.6 0.0
30.9
14.04 .18
64.8 2.1
59.12 .16
52.2 -0.2
51.21 .28
36.3 2.5
5.08 .13
30.8 40.3
Apr. 9.9
14.24 +.91
62.6 +2.2
59.29 +.19
52.2 +0.1
51.54 +.38
33.9 -9.1
5.23 +.17
31.2 +0.6 '
19.9
14.46 "25
60.4 2.2
59.50 .22
52.5 0.5
51.96 .46
32.0 1.7
5.42 .20
31.9 0.9
29.9
14.73 .28
58.2 2.2
59.74 .26
53.2 0.9
52.46 .53
30.6 1.2
5.64 .23
32.9 1.1
May 9.8
15.02 .31
56.0 2.1
60.01 .98
54.2 1.2
53.02 .58
29.7 -0.6
5.89 .26
34.2 1.4
19.8
15.34 .33
53.9 2.0
60.30 .30
55.6 1.5
53.62 .62
29.4 0.0
6.16 .98
35.7 1.6
29.8
15.67 +.34
52.0 +1.9
60.60 +.31
57.2 +1.8
54.25 +.63
29.6 +0.6
6.46 +.30
37.4 +1.8
June 8.8
16.01 '.34
50.2 1.6
60.91 .31
59.1 2.0
54.90 .64
30.5 l.l
6.76 .30
39.3 1.9
18.7
16.35 .34
48.7 1.4
61.22 .30
61.1 2.1
55.52 .62
31.9 1.6
7.07 .30
41.3 2.0
28.7
J 6.68 .32
47.5 l.l
61.52 .99
63.3 2.2
56.13 .58
33.8 2.1
7.37 .99
43.4 2.0
July 8.7
* 17.00 .30
46.6 0.7
61.80 .27
65.5 2.3
56.68 .53
36.1 2.5
7.65 .98
45.5 2.0 j
18.6
17.28 +.27
46.0 +0.4
62.06 +.24
67.8 +2.2
57.19 +.47
38.8 42.9
7.92 +.95
47.4 +1.9
28.6
17.53 .23
45.8 +0.1
62.28 .21
70.0 2.2
57.63 .40
41.9 3.2
8.16 .93
49.3 1.8
Aug. 7.6
17.74 .19
45.9 -0.3
62.47 .17
72.2 2.1
57.98 .32
45.2 3.4
8.36 .19
51.0 1.7
17.6
17.91 .14
46.4 0.6
62.61 .13
74.2 1.9
58.26 .93
48.7 3.5
8.53 .15
52.6 1.5
27.5
18.02 .09
47.1 0.9
62.72 .08
76.0 1.7
58.45 .14
52.3 3.6
8.66 .11
53.9 1.2
Sept. 6.5
18.09 +.04
48.1 -l.l
62.78 +.04
77.6 +1.5
58.55 +.05
56.0 +3.6
8.75 +.07
55.0 +1.0
16.5
18.11 .00
49.3 1.3
62.8*1 .00
79.0 1.3
58.56 -.03
59.6 3.5
8.79 +.03
56.0 0.8
26.4
18.08 -.05
50.7 1.4
62.79 -.03
80.2 1.0
58.48 .12
63.0 3.4
8.80 -.01
56.6 0.6
Oct. 6.4
18.02 .08
52.2 1.5
62.74 .06
81.1 0.8
58.32 .19
66.3 3.1
. 8.78 .04
57.0 0.3
16.4
17.92 .11
53.6 1.5
62.67 .09
81.8 0.5
58.09 .26
69.3 2.8
8.73 .07
57.3 +0.1
26.4
17.79 -.14
55.0 -1.4
62.57 -.11
82.2 +0.3
57.79 -.33
72.0 +2.5
8.65 -.09
57.3 -0.1
Nov. 5.3
17.64 .15
56.4 1.2
62.45 -.12
82.3 o.o
57.43 .38
74.2 2.0
8.55 .10
57.1 0.2
15.3
17.48 .16
57.5 1.0
62.32 .13
82.2 -0.2
57.02 .43
76.0 1.5
8.44 .11
56.8 0.4
25.3
17.32 .16
58.4 0.8
62.19 .13
81.9 0.4
56.58 .46
77.3 1.0
8.32 .12
56.3 0.5
Dec. 5.3
17.16 .15
59.1 0.5
62.06 .13
81.4 0.7
56.10 .48
78.0 +0.4
8.20 .12
55.6 0.7
15.2
17.01 -.14
59.5 -0.3
61.93 -.13
80.6 -0.9
55.62 -.48
78.2 -0.2
8.08 -.12
54.9 -0.8
25.2
16.88 .13
59.6 0.0
61.81 .12
79.6 1.0
55.14 .47
77.7 0.8
7.96 .11
54.1 0.8
35.2
16.76 -.11
59.5 -H>.3
61.70 -.10
78.5 -1.2
54.67 -.45
76.6 -1.4
7.85 -.10
53.2 -0.9
364
FIXED STARS, 1884.
APPARENT PLACES FOR THE UPPER TRANSIT AT WASHINGTON. ■
i Piscium.
y Cepbei.
Groombridge 4163.
•
u Piscium.
Moan
Solar
Date.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
NorO.
Right
Ascension.
Declination
North.
Right
Ascension.
Declination
North. |
h m
23 33
O 1
+ 4 59
h m
23 34
+76° 58
h m
23 49
+73° 45
h m
23 53
O 1
+ 6 13
Jan.
1.2
8
59.26 -.11
56.2 -0.9
8
36.70
-.86
8&8 -o.e
s
13.45 -.69
it
75.9 -0.5
s
21.64 -.19
20.3 -0.9
11.9
59.16 .10
55.4 0.9
35.85
.81
87.8 1.3
12.78 .65
75.1 1.1
21.53 .11
19.5 0.9
21.2
59.06 .09
54.5 0 9
35.07
.74
86.2 1.6
12.15 .60
73.6 1.7
21.42 .10
18.6 0.9
31.1
58.99 .07
53.6 0.8
34.38
.63
84.1 9.3
11.59 .59
71.7 9.9
21.33 .08
17.8 0.8
Feb.
10.1
58.93 .06
52.9 0.7
33.81
.50
81.6 9.7
11.11 .49
69.3 9.6
21.26 .06
17.0 0.7
20.1
58.90 -.09
52.2 -0.6
33.38
-.34
78.8 -3.0
10.74 -.31
66.5-9 9
21.21 -.04
16.3 -0.6 '
Mar.
1.1
58.89 +.01
51.7 0.4
33.12
-.17
75.7 3.1
10.50 .17
63.5 • 3.1
21.18 -.01
15.7 0.5
11.0
58.92 .06
51.4 -0.9
33.04
.00
72.5 3.1
10.39 -.03
60.4 3.1
21.19 +.09
15.4 -0.3
21.0
58.98 .06
51.3 0.0
33.14
+.19
69.4 3.1
10.43 +.11
57.3 3.0
21.23 .06
15.2 0.0
31.0
59.08 .19
51.5 +0.3
33.42
.37
66.4 9.9
10.62 .96
54.4 9.6
21.31 .10
15.3 +0.9
Apr.
9.0
59.22 +.16
51.9 46.6
33.87 +.53
63.7 -9.5
10.95 +.40
51.6-9.5
21.44 +.14
15.7+0 5
19.9
59.40 .90
52.6 0.9
34.48
.68
61.4 9.1
11.42 .59
49.3 9.9
21.60 .16
16.3 0.8
29.9
59.61 .93
53.6 1.1
35.23
.80
59.5 1.6
12.00 .63
47.3 1.7
21.79 .91
17.3 l.l
May
9.9
59.86 .96
54.9 1.4
36.09
.90
58.1 l.l
12.68 .71
45.9 1.9
22.02 .25
18.5 1.3
19 8
60.12 .96
56.4 1.6
37.04
.97
57.3 -0.5
13.44 .76
45.0 0.6
22.28 .97
19.9 1J>
29.8
60.42 +.30
58.2 +1.8
38.04
1.09
57.1 0.0
14.25 +.83
44.6 -6.1
22.57 +.99
21.6+1.7
June
8.8
60.72 .31
60.0 1.9
39.07
1.09
57.4 +6.6
15.09 .85
44.9 +0.5
22.87 .30
23.4 1.9
18.8
61.03 .31
62.0 9.0
40.08
1.00
58.4 1.9
15.94 .84
45.7 1.1
23.17 .31
25.3 9.0
28.7
61.33 .30
64.0 9.0
41.07
.96
59.8 1.7
16.77 .81
47.0 16
23.48 .30
27.3 9.0
July
8.7
61.62 .26
66.0 9.0
42.00
.89
61.8 9.9
17.56 .76
48.9 9.1
23.78 .99
29.4 9.0
18.7
61.89 +.96
68.0 +1.9
42.85
+.80
64.2 +9.6
18.30 +.70
51.2 +9.5
24.06 +.97
1
31.3 +1.9
28.6
62.14 .93
69.8 1.8
43.60
.69
67.0 3.0
18.96 .61
53.9 9.9
24.32 .94
33.2 1.8
Aug.
7.6
62.36 .90
71.5 1.6
44.23
.57
70.2 3.3
19.53 .53
56.9 3.9
24.54 .91
35.0 1.7
17.6
62.53 .16
73.0 1.4
44.74
.44
73.6 3.5
20.00 .41
60.2 3.4
24.74 .18
36.6 1.5
27.6
62.67 .19
74.3 1.9
45.10
.30
77.2 3.6
20.36 .30
63.7 3.6
24.90 .13
37.9 1.3
i
Sept
. 6.5
62.77 +.08
75.4 +1.0
45.33 +.15
80.9 +3.7
20.60 +.19
67.3 +3.7
25.02 +.10
i
39.1 +1.0
16.5
62.84 +.04
76.2 0.7
45.41
+.01
84.6 3.7
20.74 +.07
71.0 3.7
25.10 .06
40.0 0.8 J
26.5
62.66 .00
76.9 0.5
45.34
-.14
88.3 3.6
20.75 -.04
74.7 3.6
25.14 +.03
40.7 0.6*
Oct.
6.4
62.85 -.03
77.2 0.3
45.14
.97
91.8 3.5
20.66 .15
78.2 3.5
25.15 -.01
41.2 0.4 '
16.4
62.81 .05
77.4 +6.1
44.80
.40
95.2 3.9
20.45 .96
81.6 3.9
25.12 .04
41.5 +0.1
26.4
62.74 -.06
77.4 -6.1
44.33
-.53
98.3 +3.9
20.13 -.36
84.7 +9.9
25.08 -.08
41.5-0.1
Nov.
5.4
62#.65 .09
77.2 0.3
43.75
.63
101.0 9.5
19.72 .45
87.5 9.6
25.00 .08
41.4 0.9
15.3
62#.55 .11
76.8 0.4
43.07
.73
103.4 9.1
19.23 .53
89.8 9.1
24.91 .10
41.1 0.4
25.3
62.44 .11
76.3 0.6
42.30
.80
105.2 1.5
18.66 .60
91.7 1.6
24.81 .U
40.6 0.5 J
Dec.
5.3
62.32 .19
75.7 0.7
41.46
.86
106.4 0.9
18.03 .65
93.1 1.1
24.70 .19
40.0 0.6
15.3
62.20 -.19
75.0 -0.8
40.59
-.88
107.0 +6.3
17.36 -.68
93.8 +0.4
24.58 -.19
39.4 -0.7
25.2
62.08 .19
74.1 0.8
39.69
.89
107.0 -0.3
16.67 .69
94.0 -0.9
24.46 .19
38.6 0.8
35.2
61.97 -.11
73.3 -0.9
38.81
-.87
106.4 -0.9
15.98 -.68
93.5 -0.7
24.34 -.11
37.8 -6.8
SOLAR EPHEMERIS, 1884.
S65
FOR WASHINGTON MEAN AND APPARENT NOON.
Apparent Right
Ascension.
Apparent
Declination.
Hourly
Motion.
Equation
of Time
for
Semi.
Sidereal
Sidereal
Date.
diameter
at
Time of
Scniid.
Time
of
Mean Noon.
App.
Noon.
Mean Noon.
App.
Noon.
Right
A seen.
Decli-
nation.
Apparent
Noon.
Apparent
Noon.
Passing
Meridr
Mean
Noon.
h m s
s
O i II
„
s
/*
m b
i a 1 m s
h m s
Jau. 0
18 42 23.14
23.74
-23 5 38.7
38.1
11.056
+11.19
+ 3 15.74
16 18.36 1 11.12
18 39 7.47
1
18 46 48.32
49.01
23 0 56.3
55.6
11.043
19.34
3 44.37i 16 18.37 ' 1 11.08
18 43 4.02
2
18 51 13.18
13.96
22 55 46.4
45.4
11.098
J3.46
4 12.68
16 18.37 | 1 11.04
18 47 0.58
3
18 55 37.65
38.51
22 50 9.0
7.8
11.013
14.69
4 40.61
16 18.37 | 1 10.99
18 50 57.13
4
19 0 1.72
2.66
22 44 4.5
3.1
10.994
15.75
5 8.14
16 18.37 j 1 10.94
18 54 53.69
5
19 4 25.37
26.38
-22 37 32.9
31.3
10.976
+16.87
+ 5 35.22
16 18.36 : 1 10.88
18 58 50.25
6
19 8 48.54
49.64
22 30 34.5
32.7
10.956
17.99
6 1.83
16 18.34
1 10.82
19 2 46.81
7
19 13 11.23
12.41
22 23 9.5
7.4
J0.935
19.09
6 27.96
16 18.32
1 10.75
19 6 43.36
8
19 17 33.40
34.66
22 15 18.1
15.8
10.913
90.18
6 53.59
16 18.30
1 10.68
19 10 39.92
9
19 2155.03
56.36
22 6 60.5
57.9
10.890
91.97
7 18.68
16 18.26
1 10.61
19 14 36.47
10
19 26 16.11
17.51
-21 58 17.0
14.1
10.866
+99.34
+ 7 43.20
16 18.22
1 10.53
19 18 33.03
11
19 30 36.60
38.07
21 49 7.8
4.6
10.841
93.41
8 7.14
16 18.18
1 10.46
19 22 29.59
12
19 34 56.49
58.03
21 39 33.2
29.7
10.816
94.46
8 30.48
16 18.13
1 10.38
19 26 26.15
13
19 39 15.77
17.37
21 29 33.4
29.6
10.790
95.51
8 53.21
16 18.07
I 10.29
19 30 22.70
14
19 43 34.41
36.07
21 19 8.7
4.6
10.763
96.54
9 15.29
16 18.01
1 10.20
19 34 19.26
15
19 47 52.40
54.12
-21 8 19.4
15.0
10.736
+97.56
+ 9 36.73
16 17.94
1 10.11
19 38 15.81
16
19 52 9.72
11.50
20 57 5.8
1.1
10708
98.57
9 57.49
16 17.86
1 10.02
19 42 12.37
17
19 56 26.37
28.20
20 45 28.0
23.0
10.679
99.57
10 17.58
16 17.78
1 9.92
19 46 8.93
18
20 0 42.32
44.20
20 33 26.6
21.2
•10.650
30.55
10 36.97
16 17.70
1 9.82
19 50 5.49
19
20 4 57.57
59.50
20 20 61.9
56.2
J 0.691
31.51
10 55.66
16 17.60
1 9.71
19 54 2.04
#20
20 912.10
14.08
-20 8 14.1
8.1
10.591
+39.46
+11 13.64
16 17.50
1 9.61
19 57 58.60
21
20 13 25.90
27.93
19 54 63.7
57.3
10.560
33.40
1 1 30.89
16 17.40
1 9.51
20 1 55.15
22
20 17 38.96
41.03
1941 31.0
24.3
10.598
34.39
11 47.39
16 17.30
1 9.40
20 5 51.71
23
20 21 51.25
53.36
19 27 36.2
29.2
10.496
35.93
12 3.12
16 17.18
1 9.29
20 9 48.26
24
20 26 2.77
4.92
19 13 19.9
12.6
10.464
36.19
12 18.08
16 17.07
1 9.18
20 13 44.82
25
20 30 13.51
15.69
-18 58 42.3
34.6
10.431
+37.00
+12 32.26
16 16.95
1 9.07
20 17 41.37
26
20 34 23.46
25.67
18 43 44.0
36.0
10.396
37.86
12 45.65
16 16.a3
1 8.96
20 21 37.93
27
20 38 32.61
34.85
18 28 25.2
16.8
10.364
38.70
12 58.24
16 16.71
1 8.85
20 25 34.48 j
28
20 42 40.95
43.21
1812 46.4
37.7
10.330
39.59
13 10.02
16 16.59
1 8.74
20 29 31.04
29
20 46 48.46
50.75
17 56 48.0
39.0
10.996
40.33
13 20.97
16 16.45
1 8.62
20 33 27.59
30
20 50 55.15
57.46
-17 40 30.4
21.1
10.969
+41.19
+13 31.09
16 16.32
1 8.51
20 37 24.15
31
20 55 1.00
3.33
17 23 54.0
44.4
J0.997
41.90
13 40.38
16 16.18
1 8.39
20 41 20.70
Feb. 1
20 59 6.02
8.37
17 6 59.2
49.3
J0.192
49.65
13 48.84
16 16.04
1 8.28
20 45 17.26
2
21 3 10.20
12.56
16 49 46.6
36.5
10.157
43.39
13 56.46
1615.89
1 8.16
20 4913.81
3
21 7 13.54
15.91
16 32 16.4
6.0
10.199
44.11
14 3.24
16 15.75
1 8.05
20 53 10.37
4
21 11 16.04
18.42
-16 14 28.9
18.3
10.087
+44.82
+14 9.18
16 15.59
1 7.93
20 57 6.92
5
21 15 17.71
20.09
15 56 24.8
14.0
10.059
45.51
14 14.28
16 15.43
1 7.82
21 1 3.48
6
21 19 18.54
20.93
15 37 64.3
53.3
10.018
46.18
14 18.55
16 15.27
J 7.70
21 5 0.03
7
21 23 18.55
20.94
.15 19 28.0
16.7
9.963
46.84
14 21.99
16 15.11
1 7.59
21 8 56.59
8
21 27 17.74
20.13
15 0 36.0
24.6
9.949
47.48
14 24.62
16 14.93
1 7.47
21 12 53.14
9
21 31 16.12
18.51
-14 41 29.0
17.4
9.917
+48.10
+ 14 26.45
16 14.75
1 7.36
21 16 49.70
10
21 35 13.72
16.10
14 21 67.2
55.5
9.884
48.70
14 27.48
16 14.57
1 7.25
21 20 46.25
11
21 39 10.53
12.90
14 2 31.2
19.3
9859
49.99
14 27.73
16 14.39
1 7.14
21 24 42.81
12
21 43 6.58
8.94
13 42 41.2
29.2
9.890
49.66
14 27.22 16 14.19
I 7.03
21 28 39.36
13
21 47 1.87
4.22
13 22 37.6
25.5
9.789
50.49
14 25.95
16 13.99
1 6.92
21 32 35.91
14
21 50 56.42
58.76
-13 2 20.8
8.6
9.758
+50.96
+14 23.94 16 13.79
1 6.82
21 36 32.46
15 21 54 50.24
52.57
-12 41 51.4
39.1
9.797
+51.48
+14 21.20 i 16 13.59
1 6.71
21 40 20.02 j
Note.— For mean time interval of semidiameter passing meridian, subtract 0M0 from the sidereal interval.
366
SOLAR EPHEMEEIS, 1884.
FOR. WASHINGTON MEAN AND APPARENT NOON.
i
Date.
Apparent Right
Ascension.
Apparent
Declination.
Hourly
Motion.
Banation
of Time
for
Apparent
Noon.
Semi-
diameter
at
Apparent
Noon.
Sidereal
Time of
Remid.
Pawing
Merid.
Sidereal
Time i
of !
Mean
Noon. f
Mean Noon.
App.
Noon.
Mean Noon.
App.
Noon.
Right
Aacen.
Decli-
nation.
Feb. 15
h m b
21 54 50.24
8
52.57
-12 4151.4
39.1
a
9.787
+51.48
m a
+14 21.20
16 13 .59
m a
I 6.71
h m s
21 40 29.09
16.
21 58 43.34
45.65
12 20 69.7
57.3
9.697
51.98
14 17.74
16 13.38
1 6.61
21 44 25.57
17
22 2 35.74
38.03
12 0 16.2
3.7
9.669
59.47
14 13.57
16 13.17
1 6.50
21 48 22.13
18
22 6 27.46
29.73
11 38 71.1
58.6
9.641
59.94
14 8.73
16 12.95
1 6.40
21 52 18.68
19
22 10 18.51
20.76
11 17 54.9
42.4
9.614
53.39
14 3.23
16 12.73
1 6.30
21 56 1523;
80
22 14 8.91
11.14
-10 56 27.9
15.4
9.587
+53.83
+13 57.07
16 12.50
1 6.21
22 0 11.78
21
22 17 58.66
60.87
10 34 50.8
38.3
9.560
54.95
13 50.26
16 12.28
1 6.11
22 4 8.34!
32
22 21 47.79
49.97
10 12 63.8
51.3
9.534
54.65
13 42.83
16 12.05
1 6.02
22 8 4.89
23
22 25 36.30
38.45
9 50 67.5
55.0
9.509
55.03
13 34.78
16 11.82
1 5.93
22 12 1.44
24
22 29 24.20
26.32
9 28 62.1
49.7
9.484
55.40
13 26.13
16 11.59
1 5.84
22 15 57.99 1
25
22 33 11.51
13.60
- 9 6 48.3
35.9
9.45b
+55.75
+13 16.88
16 11.36
1 5.75
22 19 54.55
26
22 36 58.24
60.30
8 44 26.2
13.9
9.435
56.08
13 7.05
16 11.12
1 5.67
22 23 51.10!
27
22 40 44.40
46.43
8 21 56.5
44.3
. 9.413
56.39
12 56.66
16 10.89
1 5.59
22 27 47.65
28
22,44 30.02
32.02
7 59 19.4
7.3
9.390
56.69
12 45.73
16 10.65
1 5.51
22 31 44.20
29
22*48 15.10
17.07
7 36 35.4
23.4
9.3G6
56.96
12 34.26
16 10.41
1 5.43
22 35 40.75]
Mar. 1
22 51 59.65
61.58
- 7 13 45.0
33.2
9.346
+57.99
+12 22.24
16 10.17
1 5.36
22 39 37.31
2
22 55 43.69
45.59
6 50 48.6
36.9
9.395
57.47
12 9.72
16 9.93
1 5.29
22 43 33.87
3
22 59 27.25
29.11
6 27 46.4
34.9
9.305
57.70
11 56.73
16 9.69
I 6.23
22 47 30.42
4
23 3 10.33
12.15
6 4 39.0
27.7
9.986
57.91
1 1 43.26
16 9.45
1 5.16
22 51 26.97
5
23 6 52.95
54.73
5 41 26.6
15.5
9.967
58.11
11 29.32
16 9.20
1 5.10
22 55 23.52
6
23 10 35.14
36.86
- 5 17 69.8
58.9
9.950
+58.99
+11 14.96
16 8.95
1 5.04
22 59 20.07 1
7
23 14 16.91
18.61
4 54 48.8
38.1
9.933
58.45
11 0.18
16 8.69
1 4.99
23 3 16.62
8
23 17 58.30
59.95
4 31 24.1
13.6
9.317
58.60
10 45.01
16 8.44
1 4.93
23 7 13.18 '
9
23 21 39.31
40.92
4 7 56.0
45.7
9.909
58.73
10 29.47
16 8.18
1 4.88
23 11 9.73
10
23 25 19.98
21.55
3 44 24.9
14.8
9.188
58.85
10 13.59
16 7.92
1 4.83
23 15 6.28
11
23 29 0.32
1.85
- 3 20 51.1
41.3
9.175
+58.96
+ 9 57.38
16 7.65
1 4.78
23 19 2.83
12
23 32 40.37
41.85
2 57 15.0
5.4
9.163
59.05
9 40.88
16 7.39
1 4.74
23 22 59.38
13
23 36 20.14
21.57
2 33 36.8
27.5
9.159
59.13
9 24.10
16 7.12
1 4.70
23 26 55.93
14
23 39 59.66
61.05
2 9 57.1
48.0
9.149
59.18
9 7.06
16 6.85
1 4.66
23 30 52.49
15
23 43 38.95
40.30
1 46 16.1
7.3
9.133
59.92
8 49.80
16 6.57
1 4.63
23 34 49.04 1
16
23 47 18.04
19.34
- 1 22 34.3
25.8
9.195
+59.95
+ 8 32.34
16 6.30
1 4.60
23 38 45.59
17
23 50 56.95
58.20
05851.8
43.6
9.U8
59.97
8 14.71
16 6.02
1 4.58
23 42 42.14
18
23 54 35.71
36.91
0 35 9.2
1.3
9.119
59.97
7 56.92
16 5.75
1 4.55
23 46 38.69 !
19
23 58 14.32
15.48
- 0 1 1 26.8
19.2
9.106
59.96
7 38.98
16 5.47
1 4.53
23 50 35.24
20
0 I 52.82
53.94
+ 0 12 15.1
22.4
9.109
59.93
7 20.92
16 5.19
1 4.51
23 54 31.80
21
0 5 31.22
32.30
+ 0 35 56.0
63.0
9.099
+59.18
+ 7 2.78
16 4.91
1 4.50
23 58 28.35
22
0 9 9.55
10.58
0 59 35.7
42.4
9.096
59.13
6 44.56
16 4.63
1 4.48
0 2 24.90
23
0 12 47.81
48.80
1 23 13.7
20.1
9.094
59.04
6 26.28
16 4.35
1 4.47
0 6 21.45 '
24
0 16 26.04
26.98
1 46 49.7
55.8
9.093
58.95
6 7.95
16 4.07
1 4.46
0 10 18.01 ,
25
0 20 4.24
5.14
2 10 23.3
29.0
9.099
58.84
5 49.60
16 3.79
1 4.46
0 14 14.56;
26
0 23 42.44
43.29
+ 2 33 54.1
59.5
9.099
+58.79
+ 5 31.25
16 3.51
1 4.46
01811.11 !
27
0 27 20.64
21.44
2 57 21.8
26.9
9.093
58.58
5 12.91
16 3.23
1 4.47
0 22 7.66,
28
0 30 58.87
59.62
3 20 46.0
50.8
9.094
58.49
4 54.59
16 2.95
1 4.47
0 26 4.21
29
0 34 37.14
37.84
3 44 6.2
10.7
9.096 j 58.95
4 36.31
16 2.68
1 4.48
0 30 0.76,
30
0 38 15.46
16.11
4 7 22.2
26.4
9.099 , 58.07
4 18.09
16 2.40
I 4.49
0 33 57.31
1
31
0 41 53.86
54.46
+ 4 30 33.6
37.5
9.109 1 +57.88
+ 3 59.95
16 2.13
1 4.51
0 37 53.86 !
32
0 45 32.35
32.91
+ 4 53 40.1
43.7
9106 ' +57.66
+ 341.89
16 1.86
1 4.53
0 41 50.42;
Note.— For mean time interval of semidiameter passing meridian, subtract 0*.I8 from the sidereal interval.
SOLAR EPHEMERIS, 1884.
367
FOR WASHINGTON MEAN AND APPARENT NOON.
Date.
Apparent Right
Ascension.
Apparent
Declination.
Hourly
Motion.
Equation
or Time
for
Apparent
Aoon.
Semi-
diameter
at
Apparent
Noon.
Sidereal
Time of
Semid.
Passing
Merid.
Sidereal
Time
of
Mean
Noon.
Mean Noon.
App.
Noon.
Mean Noon.
App.
Noon.
Right
A seen.
Decli-
nation.
Apr. 1
h m a
0 45 32.35
32.91
O / //
+ 4 53 40.1
43.7
s
9.106
+57.66
m a
+ 3 41.89
16 1.86
m 8
1 4.53
h m a
0 41 50.42
2
0 49 10.95
11.47
5 16 41.2
44.5
9.111
57.43
3 23.93
16 1.59
1 4.56
0 45 46.97
3
0 52 49.67
50.15
5 39 36.7
39.7
9.117
57.19
3 6.10
16 1.32
1 4.58
0 49 43.53
4
0 56 28.54
28.97
6 2 26.3
29.0
9.123
56.94
2 48.42
16 1.05
1 4.60
0 53 40.08
5
1 0 7.57
7.95
6 25 9.6
12.0
9.130
56.67
2 30.90
16 0.78
1 4.62
0 57 36.63
G
1 3 46.78
47.11
+ 6 47 46.1
48.2
9.138
+56.38
+ 2 13.57
16 0.51
1 4.65
1 133.18
7
1 7 26.19
26.48
7 10 15.6
17.4
9.147
56.08
1 56.44
16 0.24
1 4.68
1 5 29.73
8
1 11 5.83
6.08
7 32 37.8
39.3
9.157
55.77
1 39.53
15 59.96
I 4.72
1 9 26.28
9
1 14 45,73
45.94
7 54 52.4
53.6
9.168
55.44
122.87
15 59.69
1 4.76
1 13 22.84
10
1 18 25.89
26.06
8 16 58.9
59.9
9.179
55.10
1 6.48
15 59.42
1 4.80
1 17 19.39
11
1 22 6.33
6.46
+ 8 38 57.2
57.9
9.191
+54.75
+ 0 50.38
15 59.15
1 4.84
1 21 15.94
12
1 25 47.06
47.15
9 0 46.9
47.4
9.904
54.39
0 34.57
15 58.88
I 4.89
1 25 12.49
13
129 28.14
28.19
9 22 27.7
28.0
9.918
54.0J
0 19.10
15 58.61
1 4.94
1 29 9.04
14
133 9.57
9.58
9 43 59.2
59.3
9.S33
53.63
+ 0 3.98
15 58.34
1 4.99
1 33 5.59
15
1 36 51.36
51.33
10 5 21.2
21.0
9.249
53.30
- 0 10.78
15 58.07
I 5.04
1 37 2.14
16
1 40 33.53
33.46
+ 10 26 33.2
32.8
9.965
+53.78
-0 25.17
15 57.80*
1 5.10
1 40 58.70
17
1 44 16.10
15.99
10 47 34.9
34.3
9.382
53.34
0 39.16
15 57.53
1 5.16
1 44 55.26
18
1 47 59.08
58.94
11 8 26.0
25.2
9.300
51.90
0 52.73
15 57.26
1 5.22
1 48 51.81
19
1 51 42.49
42.31
1129 6.3
5.3
9.318
51.44
1 5.87
15 56.99
1 5.28
1 52 48.37
80
1 55 26.34
26.13
1 1 49 35.3
34.2
9.337
50.97
1 18.57
15 56.73
1 5.35
1 56 44.92
21
1 59 10.64
10.40
+12 9 52.8
51.5
9.356
+50.48
- 1 30.82
15 56.47
1 5.41
2 0 41.47
22
2 2 55.41
55.14
12 29 58.3
56.8
9.375
49.97
1 42.61
15 56.21
1 5.48
2 .4 38.02
23
2 6 40.65
40.35
12 49 51.5
49.9
9.395
49.45
1 53.92
15 55.95
1 5.54
2 8 34.58
24
2 10 26.36
26.03
13 9 32.1
30.4
9.415
48.93
2 4.76
15 55.70
1 5.61
2 1231.13
25
2 14 12.56
12.20
13 28 59.8
58.0
9.435
48.37
215.11
15 55.45
1 5.68
2 16 27.69
26
2 17 59.26
58.87
+13 48 14.2
12.3
9.456
+47.81
- 2 24.96
15 55.20
1 5.75
2 20 24.24
27
2 21 46.45
46.04
14 715.0
13.0
9.477
47.34
2 34.32
15 54.96
1 5.82
2 24 20.79
28
2 25 34.14
33.71
14 25 61.8
59.8
9.498
46.65
2 43.18
15 54.72
1 5.90
2 28 17.34
29
2 29 22.34
21.89
14 44 34.4
32.3
9.519
46.05
2 51.54
15 54.48
1 5.97
2 32 13.90
30
2 33 11.06
10.58
15 2 52.4
50.2
9.540
45.44
2 59.38
15 54.25
1 6.05
2 36 10.45
May 1
2 36 60.29
59.79
+15 20 55.4
53.2
9.569
+44.81
- 3 6.70
15 54.02
1 6.13
2 40 7.01
2
2 40 50.05
49.53
15 38 43.1
40.9
9.584
44.17
3 13.49
15 53.80
1 6.21
2 44 3.56
3
2 44 40.34
39.80
15 56 15.3
13.0
9.606
43.51
3 19.76
15 53.57
1 6.29
2 48 0.12
4
2 48 31.17
30.61
1613 31.5
29.1
9.629
43.84
3 25.49
15 53.35
1 6.37
2 51 56.67
5
2 52 22.54
21.97
16 30 31.6
29.2
9.653
42.16
3 30.68
1553.13
1 6.45
2 55 53.23
6
2 56 14.47
13.89
+16 47 15.3
12.8
9.675
+41.47
- 3 35.31
15 52.91
1 6.53
2 59 49.78
7
3 0 6.95
6.36
17 3 42.2
39.7
9.698
40.77
3 39.38
15 52.69
1 6.61
3 3 46.34
8
3 3 59.99
59.39
17 19 52.1
49.6
9.733
40.05
3 42.89
15 52.48
1 6.70
3 7 42.89
9
3 7 53.60
52.99
17 35 44.6
42.1
9.746
39.33
3 45.84
15 52.27
1 6.78
3 1 1 39.45
10
3 1 1 47.78
47.16
17 51 19.5
17.0
9.770
38.58
3 48.21
15 52.06
I 6.86
3 15 36.00
11
315 42L54
41.91
+18 6 36.5
34.0
9.794
+37.83
- 3 50.01
15 51.85
1 6.94
3 19 32.56
12
3 19 37.88
37.25
18 21 35.2
32.8
9.818
37.06
3 51.23
15 51.64
1 7.03
3 23 29.11
13
3 23 33.80
33.17
18 36 15.5
13.1
9.843
36.39
3 51.87
15 51.43
1 7.11
3 27 25.67
14
3 27 30.31
29.68
18 50 37.0
34.7
9.867
35.50
3 51.92
1551.23
1 7.19
3 31 22.22
15
3 31 27.40
26.77
19 4 39.5
37.3
9.891
34.70
3 51.38
15 51.03
1 7.27
3 35 18.78
16
3 35 25.08
24.45
+10 18 22.7
20.6
9.916
+33.F9
- 3 50.25
1550.83
1 7.35
3 39 15.33
17
3 39 23.34 22.72 +19 31 46.3
44.3
9.940
+33.07
- 3 48.55
15 50.64
1 7.43
3 43 11.89
Note.— .For mean time interval of aemidiameter passing meridian, subtract 0M8 from the sidereal interval.
368
SOLAR EPHEMERIS, 1884.
FOR WASHINGTON MEAN AND APPARENT NOON.
Date.
Apparent Right
Anccngion.
Apparent
Declination.
Hourly
Motion.
Eqnation
or Time
for
Apparent
Noon.
Semi-
diameter
at
Apparent
Noon.
Sidereal
Time of
Semid.
Pasaing
Merid.
I
Sidereal
Time
of
Mean
Noon.
Mean Noon.
App.
Noon.
Mean Noon.
App.
Noon.
Right
A scon.
Decli-
nation.
May 17
h m e
3 39 23.34
8
22.72
O 1 It
+ 19 31 46.3
44.3
8
9.940
//
+33.07
m a
- 3 48.55
15 50.64
m 8
1 7.43
h m a
3 43 11.81)
18
3 43 22.16
21.56
19 44 50.1
48.1
9.964
32.24
3 46.26
15 50.45
1 7.51
3 47 8.44
19
3 47 21.59
20.97
19 57 33.8
31.9
9.987
31.39
3 43.41
15 50.26
I 7.59
3 5! 5.00
20
3 51 21.56
20.95
20 9 57.2
55.3
10.010
30.54
3 40.00
15 50.07
1 7.66
3 55 1.55
21
3 55 22.09
21.49
20 21 59.9
58.1
10.033
29.67
3 36.03
15 49.89
1 7.74
3 58 58.11
22
3 59 23.16
22.57
+20 33 41.8
40.1
10.055
+28.80
- 3 31.51
15 49.72
1 7.81
4 2 54.66
23
4 3 24.75
24.18
' 20 45 2.6
1.0
10.077
27.91
3 26.47
15 49.55
1 7.89
4 6 51.22
24
4 7 26.86
26.30
20 56 2.0
0.5
10.098
27.02
3 20.92
15 49.38
1 7.96
4 10 47.77
25
4 11 29.47
28.92
21 6 39.8
38.4
10.119
26.12
a 14.87
15 49.22
1 8.03
4 14 44.33
26
4 15 32.56
32.03
21 16 55.9
54.6
10.139
25.21
3 8.33
15 49.06
1 8.09
4 18 40.88
27
4 19 36.12
35.61
+21 26 49.9
48.7
10.158
+24.29
- 3 1.32
15 48.91
1 8.16
4 22 37.44
28
4 23 40.14
39.65
21 36 21.7
20.6
10.176
23.36
2 53.86
15 48.76
1 8.22
4 26 33.99
29
4 27 44.59
44.12
21 45 31.0
30.0
10.194
22.42
2 45.97
15 48.62
1 8.28
4 30 30.55
30
4 31 49.46
49.01
21 54 17.7
16.8
10.211
21.47
2 37.66
15 48.49
1 8.34
4 34 27.11
31
4 35 54.73
54.30
22 241.5
40.7
10.927
20.51
2 28.95
15 48.36
1 8.40
4 38 23.67
June I
4 39 60.38
59.98
+22 10 42.3
41.6
10.943
+19.56
- 2 19.85
15 48.23
1 8.46
4 42 20.22
2
4 44 6.40
6.02
22 18 20.0
19.3
10.958
18.58
2 10.39
15 48.10
1 8.52
4 46 16.78
3
4 43 12.77
12.42
22 25 34.3
33.7
10.979
17.60
2 0.57
15 47.98
1 8.57
4 50 13.33
4
4 52 19.48
19.16
22 32 25.0
24.5
10.986
16.62
1 50.42
15 47.86
1 8.62
4 54 9.89
5
4 56 26.50
26.21
22 38 52.0
51.6
10.299
15.63
1 39.96
15 47.75
1 8.66
4 58 6.45
6
5 0 33.83
33.57
+22 44 55.2
54.9
10.311
+14.64
- 1 29.19
15 47.64
1 8.70
5 2 3.01
7
5 4 41.44
41.21
22 50 34.5
34.2
1 0.333
13.64
1 18.13
15 47.53
1 8.74
5 5 59.56
8
5 6 49.32
49.12
22 55 49.7
49.5
10.334
12.63
1 6.80
15 47.43
1 8.78
5 9 56.12
9
5 12 57.47
57.30
23 0 40.9
40.7
10.344
11.62
0 55.21
15 47.32
1 8.81
5 13 52.67
10
5 17 5.85
5.72
23 5 7.8
7.6
10.353
10.60
0 43.39
15 47.22
1 8.84
5 17 49.23
11
5 21 14.44
14.35
+23 9 10.2
10.1
10.362
+ 9.58
- 0 31.36
15 47.12
1 8.87
5 21 45.79
12
5 25 23.24
23.18
23 12 48.2
48.2
10.370
8.55
0 19.12
15 47.03
1 8.89
5 25 42.35
13
5 29 32.23
32.21
23 16 1.7
1.7
10.378
7.52
- 0 6.68
15 46.94
1 8.91
5 29 38.90
14
5 33 41.38
41.39
23 18 50.6
50.6
10.384
6.49
+ 0 5.92
15 46.85
1 8.93
5 33 35.4G
15
5 37 50.67
50.72
23 21 14.8
14.8
10.390
5.47
0 18.65
15 46.77
1 8.95
5 37 32.02
1
16
5 42 0.08
0.17
+23 23 14.3
14.3
10.394
+ 4.44
+ 0 31.50
15 46.69
1 8.96
5 41 28.58
17
5 46 9.58
9.71
23 24 49.1
49.1
10.398
3.42
0 44.45
15 46.62
1 8.97
5 45 25.13
18
5 50 19.15
19.32
23 25 59.1
59.1
10.400
2.39
0 57.47
15 46.55
1 8.98
5 49 21.69
19
5 54 28.77
28.97
23 26 44.3
44.3
10.401
1.37
1 10.54
15 46.49
1 8.98
5 53 18.24!
20
5 58 38.40
38.64
23 27 4.7
4.7
10.401
+ 0.34
1 23.61
15 46.43
1 8.98
5 57 14.80 !
21
6 2 48.03
48.31
+23 27 0.3
0.3
10.400
-0.69
+ 1 36.68
15 46.38
I 8.97
6 1 11.36J
22
6 6 57.62
57.94
23 26 31.1
31.1
10.398
1.73
1 49.71
15 46.34
1 8.96
6 5 7.92.
23
6 11 7.15
7.50
23 25 37.1
37.1
10.395
2.76
2 2.69
15 46.30
I 8.95
6 9 44?!
24
6 15 16.59
16.98
23 24 18.4
18.3
10.390
3.79
2 15.57
15 46.26
1 8.94
6 13 1.03
25
6 19 25.91
26.34
23 22 35.1
34.9
10.385
4.82
2 28.34
15 46.23
1 892
6 16 57.59
26
6 23 35.08
35.55
+23 20 27.1
26.9
10.378
- 5.85
+ 2 40.95
15 46.21
1 8.90
6 20 54.15
27
6 27 44.08
44.58
23 17 54.5
54.2
10.371
6.87
2 53.40
15 46.19
1 8.88
6 24 50.70
28
6 31 52.88
53.42
23 14 57.4
57.0
10.362
7.89
3 5.65
15 46.17
I 8.85
6 28 47.26
29
6 36 1.46
2.03
23 1 1 35.8
35.3
10.352
8.90
3 17.68
15 46.16
1 8.82
6 32 43.81
30
6 40 9.79
10.40
23 7 49.9
49.3
10.341
9.91
3 29.45
15 46.16
4 8.79
6 36 40.37
3!
6 44 17.85
18.49
+03 3 30.8
39.1
10.330
-10.92
+ 3 40.95
15 46.16
1 8.75
6 40 36.93 1
32
6 48 25.62
26.29
+22 59 5.6
4.8
10 317
-11.92
+ 3 52.16 15 46.16 1 8.71
6 44 33.49J
Note.— For mean time interval of semidiameter passing meridian, subtract 0M9 from the sidereal interval.
SOLAR EPHEMERI8, 1884.
369
FOR WASHINGTON MEAN AND APPARENT. NOON.
Date.
Apparent Bight
Ascension.
Apparent
Deoflnatibn.
Hourly
Motion.
Sanation
or Time
for
Apparent
Noon.
Semi-
diameter
at
Apparent
■ Noon.
Sidereal
Time of
Semid.
Passing
Merid.
Sidereal
Time
of
Mean
Noon.
Mean Noon.
App.
Noon.
Mean Noon.
App.
Noon.
Right
A seen.
Decli-
nation.
July 1
h m s
6 44 17.85
18.49
+23 3 39.8
39.1
B
10.390
-10.99
m s
+3 40.95
15 46.16
m s
1 8,75
h m b
6 40 36.93
2
6 46 25.62
26.29
22 59 5.6
4.8
10.317
11.99
3 52.16
15 46.16
I 8.71
6 44 33.49
3
6 52 33.09
33.79
.22 54 7.4
6.5
10.904
19.99
4 3.08
15 46.17
1 8.67
6 48 30.04
4
6 56 40.23
40.96
22 48 45.2
44.2
10.990
13.99
4 13.66
15 46.18
1 8.63
6 52 26.60
5
7 0 47.02
47.78
22 42 59.2
58.1
10.975
14.9)
4 23.90
15 46.20
1 8.58
6 56 23.15
6
7 4 53.45
54.24
+22 36 49.5
48.3
10.960
-15.89
+4 33.77
15 46.22
I 8.53
7 0 19.71
7
7 8 59.50
60.32
22 30 16.3
15.0
10.944
16.87
4 43.26
15 46.24
1 8.48
7 4 16.27
* 8
7 13 5.16
6.00
22 23 19.8
18.4
10.998
17.84
4 52.36
15 46.36
1 8.42
7 8 12.83
9
7 17 10.42
11.28
22 1560.1
58.6
10.911
18.80
5 1.07
15 46.29
1 8.36
7 12 9.38
10
7 21 15.27
16.15
22 8 17.4
15.8
10.193
19.76
5 9.36
15 46.32
1 8.30
7 16 5.94
11
7 25 19.69
20.59
+22 0 11.8
10.0
10.175
-90.71
+5 17.22
15 46.36
1 8.24
7 20 2.49
12
7 29 23.66
24.58
21 51 43.5
41.6
10.156
91.65
5 24.64
15 46.40
1 8.18
7 23 59.05
13
7 33 27.18
28.12
21 42 52.7
50.7
10.137
99.58
5 31.60
15 46.44
1 8.11
7 27 55.61
14
7 37 30.23
31.19
21 33 39.6
37.5
10.117
93.50
5 38.09
15 46.49
1 8.04
7 31 52.17
15
7 41 32.81
33.78
21 24 4.4
2.1
10.097
94.49
544.11
15 46.54
1 7.97
7 35 48.72
16
7 45 34.90
35.88
+21 14 7.3
4.9
10.076
-95.33
+5 49.64
15 46.59
1 7.90
7 39 45.28
17
7 49 36.48
37.47
21 3 48.5
46.0
10.055
96.93
5 54.67
15 46.65
1 7.82
7 43 41.83
18
7 53 37.55
36.55
20 53 8.4
5.8
10.033
97.1 1
5 59.18
15 46.71
1 7.74
7 47 38.39
19
7 57 38.10
39.11
20 42 7.1
4.3
10.011
97.99
6 3.17
15 46.78
1 7.66
7 51 34.94
20
8 1 38.10
39.12
20 30 44.8
41.9
9.988
98.86
6 6.61
15 46.86
1 7.58
7 55 31.50
21
8 5 37.55
38.57
+20 18 61.8
58.8
9.965
-99.79
+6 9.50
15 46.94
1 7.50
7 59 28.06
22
8 9 36.43
37.46
20 6 58.4
55.3
9.941
90.56
6 11.82
15 47.03
1 7.42
8 3 24.62
23
8 13 34.74
35.77
19 54 34.9
31.6
9.917
31.40
6 13.57
15 47.12
1 7.34
8 7 21.17
24
8 17 32.46
33.49
19 41 51.5
48.1
9.899
39.22
6 14.74
15 47.22
1 7.26
8 1 1 17.73
25
8 21 29.59
30.62
19 28 48.3
44.8
9.867
33.03
6 15.31
15 47.32
1 7.17
8 15 14.28
26
8 25 26.11
27.15
+19 15 25.8
22.3
9.841
-33.83
+6 15.28
15 47.43
1 7.09
8 19 10.84
27
8 29 22.03
23.06
19 1 44.3
40.7
9.816
34.63
6 14.64
15 47.54
1 7.00
8 23 7.39
28
8 33 17.33
18.35
18 47 44.1
40.4
9.790
35.40
6 13.38
15 47.66
1 6.92
8 27 3.95
29
8 37 12.01
13.02
18 33 25.2
21.5
9.765
36.17
6 11.51
15 47.78
1 6.83
8 31 0.50
30
8 41 6.07
7.07
18 18 48.2
44.5
9.739
96.99
6 9.01
15 47.90
1 6.75
8 34 57.06
31
8 44 59.50
60.49
+16 3 53.2
49.4
9.714
-37.66
+6 5.88
15 48.03
1 6.66
8 38 53.61
Aug. 1
8 48 52.31
53.29
17 48 40.6
36.8
9.688
38.39
6 2.13
15 48.17
1 6.58
8 42 50.17
2
8 52 44.49
45.46
17 33 10.5
6.7
9.669
39.11
5 57.76
15 48.31
I 6.49
8 46 46.72
3
8 56 36.06
37.01
17 17 23.4
19.6
9.636
39.81
5 52.77
15 48.45
1 6.40
8 50 43.28
4
9 0 27.02
27.95
17 1 19.4
15.5
9.611
40.51
5 47.17
15 48.59
1 6.31
8 54 39.83
5
9 4 17.38
18.29
+16 44 58.9
55.0
9.586
-41.19
+5 40.97
15 48.74
1 6.22
8 58 36.39
6
9 8 7.14
8.03
16 28 22.3
18.4
9.561
41.86
5 34.18
15 48.89
1 6.14
9 2 32.94
7
9 1156.31
57.18
16 11 29.6
25.7
9.537
49.59
5 26.79
15 49.04
1 6.05
9 6 29.50
8
9 15 44.90
45.75
15 54 21.2
17.4
$.513
43.17
5 18.82
15 49.19
"1 5.97
9 10 26.05
9
9 19 32.92
33.74
15 36 57.4
53.6
9.489
43.81
5 10.26
15 49.34
1 6.88
9 14 22.61
10
9 23 20.37
21.17
+15 19 18.6
14.9
9.466
-44.43
+5 1.18
15 49.50
1 5.80
918 19.16
11
9 27 7.28
8.05
15 1 25.0
81.3
9.443
45.04
4 51.54
15 49.66 1 5.72
9 22 15.71
12
9 30 53.64
54.38
14 43 16.8
13.2
9.491
45.64
4 41.35
15 49.82 1 5.64
9 26 12.26
13
9 34 39.47
40.18
14 24 54.5
51.0
9.399
46.93
4 30.62
15 49.99
1 5.56
9 30 8.82
14
9 38 24.78
25.46
14 6 18.4
15.0
9.377
46.79
4 19.38
15 50.16
1 5.48
9 34 5.37
15
9 42 9.58
10.22
+13 47 28.7
25.4
9.356
-47.35,
+4 7.62
15 50.33 j 1 5.40
9 38 1.93 j
16
9 45 53.87
54.48
+13 28 25.8
22.7
! 9.335
-47.89
+3 55.36 15 50.51 : 1 5.33
9 41 58.481
Notk.— For mean time interval of semidiamatar passing meridian, subtract 0M9 from the sidereal interval.
24 .....
370
SOLAE EPHEMERIS, 1884.
FOR WASHINGTON MEAN AND APPARENT NOON.
Date.
Apparent Right
Ascension.
Apparent
Declination.
Hourly
Motion.
Equation
of Time
for
Apparent
Noon.
Semi-
diameter
at
Apparent
Noon.
Sidereal
Time of
Semid.
Passing
Merid.
Sidereal
Time
of
Mean
Noon.
Mean Noon.
App.
Noon.
.Mean Noon.
App.
Noon.
Right
Aacen.
Decli-
nation.
Aug. 16
h m a
9 45 53.87
8
54.48
O 1 II
+13 28 25.8
22.7
8
9.335
-47.89
m s
+ 3 55.36
I5 6QL51
m s
1 5.33
u m s
9 41 58.48
17
9 49 37.67
38.25
13 9 10.0
7.0
9.315
48.49
3 42.60
15 50.69
1 5.25
9 45 55.04
18
9 53 20.99
21.53
12 49 41.6
38.8
9.995
48.94
3 29.37
15 50.88
1 5.18
9 49 51.59
19
9 67 3.83
4.34
12 29 60.9
58.2
9.975
49.44
3 15.66
15 51.07
1 5.11
9 53 48.14
20
10 0 46.20
46.67
1210 8.3
5.8
9.956
49.93
3 1.48
15 51.27
1 5.04
9 57 44.69
21
10 4 28.11
28.54
+11 50 4.2
1.9
9.937
-n50.41
+ 2 46.83
15 51.47
1 4.97
10 141.25
22
10 8 9.56
9.95
1 1 29 48.8
46.7
9.918
50.87
2 31.73
15 51.68
1 4.91
10 5 37.80
23
10 11 50.57
50.92
11 9 22.5
20.6
9.900
51.39
2 16.18
1551.89
1 4.84
10 9 34.36
24
10 1531.15
31.46
10 48 45.6
43.9
9.189
51.75
2 0.21
15 52.10
I 4.78
10 13 30.91
25
10 1911.31
11.58
10 27 58.5
57.0
9.165
59.17
1 43.82
1552.32-
1 4.72
10 I7 27.4G
26
10 22 51.06
51.29
+10 7 1.4
0.1
9.148
-48.58
+ 1 27.03
15 52.54
I 4.67
10 2124.01
27
10 26 30.42
. 30.60
9 45 54.7
53.6
9.13S
59.97
1 9.84
15 52.76
1 4.61
10 25 20.56
28
10 30 9.40
9.53
9 24 38.8
38.0
9.116
53.35
0 52.27
15 52.99
1 4.56
10 29 17.12
29
10 33 48.01
48.10
9 3 13.9
13.4
9.101
53.79
0 34.33
15 53.22
1 4.51
10 33 13.67
30
10 37 26.27
26.32
8 41 40.4
40.1
9.087
54.07
+ 0 16.05
15 53.45
1 4.47
10 37 10.22
31
10 41 4.20
4.20
+ 8 19 58.6
58.6
9.074
-54.41
- 0 2.57
15 53.68
1 4.42
10 41 C.77
Sept. 1
10 44 41.81
41.76
7 58 8.8
9.0
9.06L
54.74
021.51
15 53.92
1 4.38
10 45 3.32
2
10 48 19.13
19.03
736 11.4
12.0
9.049
55.05
0 40.75
1554.16
1 4.34
10 48 59.88
3
10 51 56.17
56.02
7 14 6.6
7.5
9.038
55.35
1 0.26
15 54.40
1 4.30
10 52 56.43
4
10 55 32.96
32.76
6 51 54.7
55.9
9.098
55.64
1 20.02
15 54.64
1 4.26
10 56 52.99
5
10 59 9.52
9.27
+ 6 29 36.1
37.6
9.019
-55.91
- 1 40.00
15 54.88
1 4.23
II 0 49.54
6
11 2 45.87
45.57
6 7 11.0
12.8
9.011
56.17
2 0.20
15 55.12
1 4.20
II 4 46.09
7
It 6 22.03
21.68
5 44 39.8
41.9
9.003
56.49
2 20.59
15 55.36
1 4.17
11 8 42.64
8
11 9 58.03
57.63
6 22 2.7
5.2
8.997
56.66
241.14
15 55.60
1 4.14
11 12 39.20
9
11 13 33.88
33.43
4 59 20.2
23.1
8.991
56.88
3 1.83
15 55.85
1 4.12
11 16 35.75
10
1 1 17 9.62
9.12
+ 4 36 32.5
35.7
8.987
-67.09
- 3 22.64
15 56.10
1 4.10
1 1 20 32.30
11
1 1 20 45.25
44.71
4 13 39.9
43.5
8.983
57.28
3 43.55
15 56.35
1 4.09
1 1 24 28.85
12
11 24 20.81
20.21
3 50 42.7
46.6
8.980
57.46
4 4.54
15 56.60
1 4.07
11 28 25.40
13
1 1 27 56.30
55.65
32741.3
45.6
8.978
57.63
4 25.59
15 56.85
I 4.06
11 32 21.95
14
11 31 31.76
31.05
3 4 36.0
40.6
8.977
57.79
4 46.69
15 57.10
1 4.05
11 36 18.51
15
1135 7.19
6.43
+ 2 41 27.2
32.2
8.976
-57.93
- 5 7.80
15 57.36
1 4.05
1 1 40 15.00
16
11 38 42.62
41.81
2 18 15.2
20.5
8.976
58.06
5 28.92
15 57.62
1 4.05
11 44 11.61
17
1 1 42 18.06
17.19
1 55 0.4
6.1
8.977
58.17
5 50.02
15 57.88
1 4.05
11 48 8.16
18
1 1 45 53.53
52.61
1 31 43.1
49.1
8.979
58.97
6 11.09
15 58.14
1 4.05
11 52 4.71
19
1 1 49 29.05
28.08
1 8 23.6
30.0
8.981
58.35
6 32.12
15 58.41
1 4.06
1156 1.26
20
11 53 4.63
3.61
+ 0 45 2.4
9.1
8.984
-58.49
- 6 53.09
15 58.68
1 4.07
1 1 59 57.82
21
1 1 56 40.29
39.21
+ 0 21 39.7
46.8
8.988
58.47
7 13.98
15 58.95
1 4.09
12 3 54.37
22
12 0 16.04
14.91
- 0 1 44.0
36.6
8.999
58.51
7 34.78
15 59.22
1 4.11
12 7 50.92
23
12 3 51.91
50.73
0 25 8.5
0.7
8.997
58.53
7 55.46
15 59.50
1 4.13
12 II 47.47
24
12 7 27.91
26.68
0 48 33.3
25.2
9.003
58.54
8 16.01
15 59.77
1 4.15
12 15 44.03
25
12 1 1 4.06
2.77
- 1 1 1 58.2
49.7
9.010
-58.53
- 8 36.40
16 0.05
1 4.18
12 19 40.58
26
12 14 40.38
39.04
1 35 22.7
13.9
9.017
58.51
8 56.63
16 0.33
1 4.21
12 23 37.13
27
12 18 16.88
15.49
1 58 4<>.5
37.4
9.095
58.47
9 16.68
16 0.61
1 4.24
12 27 33.68
28
12 21 53.59
52.15
2 21 69.3
59.9
9.034
58.49
9 36.52
16 0.89
1 4.27
12 31 30.23
29
12 25 30.53
29.03
2 45 30.6
20.9
9.044
58.35
9 56.13
16 1.17
1 4.31
12 35 26.78
30
12 29 7.72
6.17
- 3 8 50.2
40.2
9.055
-58.27
-10 15.49
16 1.45
1 4.35
12 39 23.34
31
12 32 45.18
43.58
- 3 31 67.8
57.5
9.067 -58.18
-10 34.58
16 1.73
1 4.40
12 43 19.89)
Nptb.— For mean time interval of somidiametor passtag meridian, subtract 0*.18 from the sidereal interval.
SOLAR EPHEMERIS, 1884.
371
FOR WASHINGTON MEAN AND APPARENT NOON.
Date.
Apparent I
Ascensic
tight
n.
App.
Noon.
Apparent
Declination.
Hourly
Motion.
Equation
of Time
for
Apparent
Semi-
diameter
at
Apparent
Noon.
Sidereal
Time of
Semid.
Passing
Merid.
Sidereal
Time
of
Mean
Noon.
Mean Noon.
Mean Noon.
App.
Noon.
Right
Aacen.
Decli-
nation.
Oct. 1
h m s
12:12 45.18
43.58
- 3 3167.8
57.5
8
9.067
-58.18
m a
-10 34.58
16 L73
m g
1 4.40
h m 8
12 43 19.89
2
12 36 22.94
21.29
3 55 22.9
12.3
9.060
58.07
10 53.37
16 2.01
1 4.45
12 47 16.44
3
12 39 61.02
59.32
4 18 35.2
24.4
9.094
57.95
11 11.83
16 2.29
1 4.50
12 51 12.99
4
12 43 39.45
37.70
4 41 44.4
33.3
9.109
57.81
1 1 29.95
16 2.57
1 4.55
'12 55 9.54
5
12 47 18.24
16.44
5 4 50.2
38.9
9.195
57.66
11 47.71
16 2.85
1 4.61
12 59 6.09
1
6
12 50 57.42
55.57
- 5 27 52.2
40.6
9.142
-67.49
-12 5.09
16 3.13
1 4.67
13 3 2.65 1
7
12 54 37.01
35.12
5 50 50.0
38.2
9.159
57.31
12 22.05
16 3.40
1 4.73
13 6 59.20,
8
12 58 17.04
15.10
6 13 43.4
31.4
9.178
57.19
12 38.57
16 3.67
1 4.79
13 10 55.75 !
9
13 1 57.54
55.56
6 36 31.8
19.6
9.197
56.91
12 54.62
16 3.94
1 4.86
13 14 52.30
10
13 5 38.52
36.50
6 59 15.0
2.6
fe918
56.68
13 10.20
16 4.21
1 4.93
13 18 48.86
11
13 9 20.00
17.94
- 7 21 52.6
40.0
9.939
-56.44
-13 25.27
16 4.48
1 5.00
13 22 45.41
12
13 12 62.00
59.90
7 44 24.3
11.5
9.961
56.18
13 39.82
16 4.75
1 5.07
132641.96!
13
13 16 44.54
42.40
8 6 49.6
36.7
9.964
55.91
13 53.83
16 5.02
1 5.15
13 30 38.51 1
14
13 20 27.64
25.46
8 28 68.2
55.1
9.306
55.69
14 7.28
16 5.29
I 5.23
13 34 35.06
15
13 24 11.32
9.10
8 51 19.7
6.5
9.339
55.39
14 20.16
16 5.55
1 5.31
13 38 31.61 I
16
13 27 55.59
53.33
- 9 13 23.8
10.5
9.357
-55.00
-14 32.45
16 5.82
1 5.40
13 42 28.17,
17
13 31 40.45
38.15
9 35 19.9
6.4
9.383
54.67
14 44.15
16 6.09
1 5.49
13 46 24.72
18
13 35 25.93
23.59
9 56 67.0
54.1
9.408
54.31
14 55.23
16 6.36
1 5.58
13 50 21.38,
19
13 39 12.05
9.63
10 18 46.6
33.0
9.435
53.94
15 5.67
16 6.63
1 5.67
13 54 17.83
20
13 42 58.81
56.41
10 40 16.5
2.8
9.469
53.55
15 15.46
16 6.90
1 5.76
13 58 14.38
21
13 46 46.22
43.79
-11 1 36.8
23.1
9.490
-53.14
-15 24.61 I 16 7.17
1 5.86
14 2 10.93;
22
13 50 34.30
31.84
1 1 22 47.3
33.5
9.518
59.79
15 33.10
16 7.44
1 5.96
14 6 7.49,
23
13 54 23.05
20.56
1 1 43 47.3
33.6
9.546
59.96
15 40.91
16 7.71
1 6.06
14 10 4.04'
24
13 58 12.49
9.98
12 4 36.7
23.0
9.575
51.89
15 48.02
16 7.98
1 6.16
14 14 0.59
25
14 2 2.64
0.10
12 25 14.8
1.2
9.604
51.35
15 54.43
16 8.25
1 6.27
14 17 57.14
26
14 5 53.49
50.93
-12 45 41.4
27.8
9.634
-50.86
-16 0.14
16 8.52
1 6.38
14 21 53.70
27
14 9 45.07
42.49
13 5 56.0
42.5
9.665
50.35
16 5.13
16 8.78
1 6.49
14 25 50.25
28
14 13 37.39
34.79
13 25 58.3
44.9
9.696
49.83
16 9.37
16 9.04
1 6.60
14 29 46.81 i
29
14 17 30.45
27.83
13 45 47.7
34.4
9.797
49.99
16 12.86
16 9.30
1 6.71
14 33 43.36
30
14 21 24.28
21.64
14 5 24.0
10.8
9.759
48.73
16 15.60
16 9.56
1 6.82
14 37 39.91
31
14 25 18.88
16.23
-14 24 46.5
33.4
9.793
-48.16
-16 17.56
16 9.81
I 6.94
14 41 36.*6,
Nov. 1
14 29 14.27
11.61
14 43 55.2
42.2
9.895
47.57
16 18.74
16 10.06
1 7.05
14 45 33.02;
2
14 33 10.46
7.79
15 2 49.5
36.7
9.858
46.96
16 19.12
16 10.31
1 7.17
14 49 29.57
3
14 37 7.46
4.78
15 21 29.1
16.5
9.899
46.33
16 18.68
16 10.55
1 7.28
14 53 26.13
4
14 41 5.29
2.60
15 39 53.5
41.1
9.997
45.69
16 17.41
16 10.79
1 7.40
14 57 22.68
5
14 45 3.95
1.26
-15 57 62.4
50.2
9.969
-45.03
-16 15.31
16 11.03
1 7.51
15 1 19.23,
6
14 49 3.45
0.76
16 15 55.2
43.2
9.997
44.36
16 12.38
16 11.26
1 7.63
15 5 15.79
7
14 53 3.80
1.11
16 33 31.8
20.Q
10.033
43.67
16 8.60
16 11.49
I 7.75
15 912.35
8
14 57 5.02
2.33
16 50 51.6
40.1
10.069
49.97
16 3.94
16 11.71
1 7.87
15 13 8.90
9
15 1 7.10
4.42
17 7 54.3
43.0
10.105
49.95
15 58.41
16 11.93
1 7.99
15 17 5.45
10
15 5 10.05
7.38
-17 24 39.4
28.4
10.141
-41.51
-15 52.02
16 12.15
1 8.11
15 21 2.00
I!
15 9 13.87
11.21
17 40 66.7
56.0
10.177
40.75
15 44.77
16 12.37
1 8.23
15 24 58.56
12
15 13 18.55
15.90
17 57 15.5
5.1
10.313
39.98
15 36.65
16 12.58
1 8.35
15 28 5o.lL
13
15 17 24.10
21.47
18 12 65.7
55.6
10.949
39.19
15 27.66
16 12.79
1 8.47
15 32 51.67
14
15 21 30.51
27.90
18 28 36.6
26.8
10.985
38.38
15 17.81
16 13.00
1 8.59
15 36 48.22
15
15 25 37.78
35.19
-18 43 48.1
38.6
10.391
-37.56
-15 7.10
16 13.21
1 8.71
15 40 44.78
16
15 29 45.91
43.34
-18 58 39.6
30.5
10.366
-36.79
-14 55.54
16 13.41
1 8.82
15 44 41.33
NOTE. — For mean time interval of semidiiimeter pawing meridian, subtract 0\18 from the sidereal interval.
372
SOLAR EPHEMERIS, 1884
1
FOR WASHINGTON MEAN AND APPAEENT NOON.
Date.
Apparent Bight
AHcension.
Apparent
Declination.
Hourly
Motion.
Equation
of Time
for
Apparent
Semi-
diameter
at
Apparent
Noon.
Sidereal
Time of
Semid.
Pa&Ring
Merid.
Sidereal !
Time !
of !
Mean >
Noon. )
Mean Noon.
App.
Noon.
Mean Noon.
App.
Noon.
Right 1 Decli-
Aacen. ; nation.
i
Nov. 16
h m a
15 39 45.91
8
43.34
-18 58 39.6
//
30.5
B
10.356
-36.79
m s
-14 55.54
16 13.41
m a
1 8.82
h m a
15 44 41.33
17
15 33 54.88
53.34
19 13 10.8
2.0
10 391
35.87
(4 43.13
16 13.61
1 8.94
15 48 37.89 '
18
15 38 4.67
3.16
19 37 31.4
13.0
10.425
36.00
14 29.90
16 13.82
1 9.05
15 53 34.44
19
15 43 15.38
13.80
19 41 10.9
3.8
10.459
34.11
14 15.86
16 14.02
1 9.17
15 5C 31.00
30
15 46 36.70
34.35
19 54 38.9
31.3
10.493
33.91
14 1.01
16 14.31
1 9.38
16 0 37.50
21
15 50 38.91
36.50
-30 7 45.1
37.7
10.585
-33.29
-13 45.36
16 14.40
1 9.39
16 4 24.12
33
15 54 51.89
49.52
30 30 39.0
23.0
10.557
31.36
13 38.94
16 14.59
1 9.50
16 8 30.671
33
15 59 5.64
3.31
30 32 50.4
43.7
10.589
30.41
13 11.75
16 14.78
1 9.61
16 13 17.23
34
16 3 30.14
17.86
30 44 48.8
42.5
10.020
99.45
12 53.81
16 14.96
1 9.71
16 16 I3.78i
35
16 7 35.37
33.14
30 56 24.0
18.0
10.650
98.47
13 35.13
16 15.14
1 9.81
16 30 10.34
36
16 11 51.33
49.14
-31 7 35.6
30.0
10.679
-97.48
-13 15.73
16 15.31
1 9.91
16 24 6.80
37
16 16 7.97
5.84
31 18 33.3
18.0
10.708
96.48
11 55.64
16 15.48
1 10.01
16 38 3.45.
38
16 30 35.30
33.33
31 28 46.9
42.0
10.736
86.47
U 34.87
16 15.65
1 10.11
16 33 0.00'
39
16 34 43.30
41.39
21 38 45.9
41.3
10.764
94.45
11 13.48
16 15.81
1 10.20
10 35 50.56 j
30
16 39 1.96
0.01
31 48 30.1
15.9
10.791
93.49
10 51.33
16 15.97
1 10.39
16 30 53.11 j
Dec. 1
16 33 31.35
19.36
-31 57 39.3
25.3
10.617
-99.36
-10 28.59
16 16.13
1 10.38
16 43 49.67 !
3
16 37 41.16
39.34
33 6 13.9
9.3
10.849
91.30
10 5.24
16 16.37
1 10.46
16 47 40.33;
3
16 41 61.67
59.92
32 14 31.0
27.7
10.866
90.99
9 41.39
16 16.41
1 10.54
16 51 42.79
4
16 46 33.76
31.08
22 22 23.2
20.2
10.890
19.13
9 16.74
16 16.54
1 10.62
16 55 30.34
5
16 50 44.41
43.80
22 29 49.3
46.6
10.913
16.03
8 51.65
16 16.67
1 10.69
16 50 35.90
6
16 55 6.59
5.05
-22 36 49.0
46.6
10.935
-16.93
- 8 36.03
16 16.79
1 10.76
17 3 39.45
7
16 59 39.38
37.83
32 43 22.1
20.0
10.956
15.89
7 59.88
16 16.91
1 10.83
17 7 29.01
8
17 3 53.47
51.09
22 49 28.5
36.6
10.976
14.70
7 33.24
16 17.03
1 10.89
17 II 35.57
9
17 8 16.13
14.83
33 55 8.0
6.4
10.994
13.57
7 6.14
16 17.13
1 10.95
17 15 33.13;'
10
17 13 40.31
38.99
33 0 30.3
18.9
11.019
19.44
6 38.60
16 17.33
1 11.00
17 19 18.68
11
17 17 4.70
3.56
-33 5 5.2
4.0
11.098
-11.30
- 6 10.67
16 17.33
1 11.05
17 33 15.24
13
17 31 39.56
38.51
23 9 22.7
21.7
11.043
10.15
5 42.36
16 17.43
1 11.09
1727 11.80
13
17 35 54.76
53.80
23 13 12.5
11.7
11.056
9.00
5 13.71
16 17.51
1 11.13
17 31 8.36
14
17 30 30.36
19.39
23 16 34.6
34.0
11.068
7.84
4 44.75
16 17.60
1 11.17
17 35 4.91
15
17 34 46.03
45.25
23 19 28.8
28.4
11.078
6.68
4 15.53
16 17.68
1 11.30
17 39 1.47
ie
17 39 13.03
11.34
-33 31 55.0
54.7
11.087
-5.51
- 3 46.07
16 17.76
111.33
17 42 58.03
17
17 43 38.33
37.63
23 33 53.1
52.9
11.094
4.34
3 16.43
16 17.83
1 11.35
17 46 54.58
18
17 48 4.58
4.07
33 35 33.1
23.0
11.100
3.16
2 46.61
16 17.90
1 11.37
17 50 51.13
19
17 53 31.04
30.62
33 36 34.9
24.9
11.104
1.99
3 16.70
16 17.97
1 11.38
17 54 47.60
* 30
17 56 57.59
57.26
33 36 58.5
56.5
11.106
- 0.81
1 46.70
16 18.03
1 11.39
17 58 44.25,
31
18 1 34.17
23.93
-33 27 3.8
3.8
11.107
+ 0.37
- 1 16.67
16 18.09
1 11.3a
18 2 40.81
33
18 5 50.76
50.62
33 36 40.8
40.8
11.107
1.55
0 46.63
16 18.15
1 11.30
18 6 37.37
33
18 10 17.31
17.26
33 25 49.5
49.5
11.104
9.73
- 0 16.63
16 18.20
1 11.30
18 10 33.93
34
18 14 43.79
43.84
33 34 30.0
30.0
11.101
3.90
+ 0 13.31
16 18.24
1 11.29
18 14 30.48
35
18 19 10.17
10.31
23 22 42.2
42.2
11.096
5.08
0 43.14
16 18.28
1 11.38
18 18 27.04
36
18 31)36.41
36.64
-23 20 26.3
26.2
11.090
+ 6.95
+ 1 12.83
16 18.32
1 11.36
18 22 23.60
37
18 38 3.47
2.79
23 17 42.3
42.1
11.083
7.49
1 42.34
16 18.35
1 11.34
18 36 30.16
38
18 32 38.33
28.74
23 14 30.2
29.9
11.073
8.58
2 11.66
16 18.38
1 11.31
18 30 16.71
39
18 36 53.96
54.46
23 10 50.2
49.8
11.069
9.74
2 40.74
16 18.40
1 11.18
18 34 13.27
30
18 41 19.33
19.91
23 6 42.3
41.7
11.051
10.90
3 9.57
16 18.41
1 11.14
18 38 9.83
31
18 45 44.41
45.07
-23 2 6.7
5.9
11.03*
+19.05
+ 3 38.11
16 18.41
1 1 1.10
18 42 6.37
33
18 50 9.16
991
-22 57 3.5
2.5
11.024 4-13.90 '
+ 4 6.31
16 18.41
1 11.05
18 46 2.93
Nqtk.— For mean tiii|o iatorvnl of aemidiamuter passing meridian, subtract 0M9 from the sidereal interval.
MOON-CULMINATIONS, 1884.
373
AT TRANSIT OF MOON'S CENTRE OVER THE MERIDIAN OF WASHINGTON.
Date.
Mean Time
of
Transit
Diff.for
lHour
of
Long.
Bight
Ascension
of
Centre.
Diff.for
lHour
of
Long.
Geocentric
Declination
of
Centre.
Diff.for
iHonr
of
Long.
Sid. Time
ofSemid.
Pawling
Meridian.
Geoeentrio
Semi-
diameter.
Equatorial
Horizontal
Parallax.
Bright
Limbs.
h ni
m
h m b
8
O 1 II
//
8
/ //
/ H
Jan. 0
I 49.93
8.066
2029 21.53
134.17
-1352 47.9
+466.6
65.69
15 25.0
56 28.2
i.
s.
1
2 39.23
2.042
2122 44.13
139.75
-1024 35.3
570.3
65.58
15 33.2
56 58.2
i.
s.
2
3 28.08
9.031
22 1539.39
139.09
- 620 27.0
645.3
65.46
15 41.4
57 28.4
l.
s.
3
4 16.88
3.043
23 832.12
139.64
- 152 33.8
686.4
65.68
15 49.6
57 58.5
i.
s.
4
5 6.27
3.060
0 2 0.15
135.01
+ 245 33.2
695.7
66.31
15 57.7
58 28.2
i.
s.
5
5 56.98
3.151
0 5647.70
139.95
+ 71857.4
+664.9
67.40
16 5.5
58 56.7
i.
"s.
6
6 49.71
3.347
153 36.81
145.03
1131 3.7
588.7
68.82
16 12.4
59 22.3
i.
s.
7
7 44.93
3.354
2 5255.24
151.49
15 3 47.8
467.9
70.35
16 17.9
59 42.4
i.
s.
8
8 42.60
3.447
3 54 42.02
157.09
17 3854.9
301.8
71.63
16 21.2
59 54.4
i.
s.
9
9 42.06
3.497
4 58 15.87
160.14
19 0 58.1
+104.7
72.27
16 21.5
59 55.5
i.
s.
10
10 41.96
3.481
6 217.50
159.30
-1-19 122.4
-103.8
72.03
16 18.2
59 43.7
i.
s.
11
11 40.79
3.407
7 511.82
154.64
17 4123.7
-393.1
70.90
16 11.5
59 19.0
i.
s.
12
12 37.16
9.386
8 5 39.72
147.39
15 1154.9
-447.1
69.16
16 1.7
58 42.9
ii.
s.
13
13 30.40
3.151
9 2 59.71
139.97
1149 55.4
-555.0
67.17
15 49.5
57 58.2
ii.
s.
14
14 20.49
3.096
9 57 9.67
131.76
754 4.4
HH7.9
65.32
15 36.3
57 9.8
ii.
s.
15
15 7.85
1.996
10 48 36.02
195.74
+ 34124.3
-640.8
63.83
15 23.3
56 21.8
ii.
s.
16
15 53.19
1.858
1138 0.40
191.63
-0 34 0.3
-639.9
62.81
1511.3
55 37.9
ii.
s.
17
16 37.29
J.839
12 26 9.86
119.48
- 441 3.1
-599.5
62.29
15 1.4
55 1.4
n.
s.
18
17 20.92
1.818
13 1351.00
119.94
- 8 30 50.9
-546.3
62.26
M 54 .a
54 34.2
n.
s.
19
18 4.77
1.841
14 146.25
190.69
-1155 48.1
-475.4
62.64
14 49.5
54 17.7
ii.
s.
20
18 49.45
1.886
14 50 31.33
193.31
-14 48 49.8
-366.8
63.34
14 48.1
54 12.6
ii.
s.
21
19 35.40
1.944
1540 32.05
196.83
-17 2 53.8
-280.5
64.22
14 49.7
54 18.4
ii.
a
22
20 22.81
3.007
1632 1.34
130.59
-1830 58.3
-157.1
65.13
14 54.0
54 34.2
u.
s.
23
21 11.66
3.069
1724 56.50
133.89
-19 6 33.6
- 18.7
65.91
15 0.4
54 58.6
ii.
s.
24
'22 1.64
9.100
18 1859.93
136.19
-1844 40.6
+139.1
66.42
15 9.0
55 29.5
ii.
s.
25
22 52.28
9.116
1913 43.29
137.19
-1723 6.4
+878.1
66.61
15 18.6
56 4.6
ii.
s.
26
23 43.07
9.114
20 836.13
137.04
-15 325.2
416.0
66.54
15 28.5
56 41.0
ii.
s.
28
0 33.05
9.100
21 3 15.51
136.18
-1 1 51 24.5
538.1
66.33
15 38.1
57 16.2
i.
s.
29
1 23.86
9.085
2157 32.90
1W.39
- 7 56 47.4
639.6
66.13
15 46.8
57 48.3
i.
s.
30
2 13.84
9.089
22 51 36.62
135.14
- 332 23.1
686.1
66.13
15 54.2
58 15.4
i.
s.
31
3 3.98
3.100
23 45 49.44
136.15
+ 1 651.2
+703.3
66.44
16 0.1
58 37.3
i.
s.
Feb. 1
3 54.80
3 140
0 40 43.49
138.60
5 44 41.3
678.8
67.12
16 4.6
58 53.5
i.
s.
2
4 46.87
3.303
136 52.86
J 49.38
10 4 12.0
CI1.6
68.11
16 7.7
59 4.8
i.
s.
3
5 40.63
9.970
234 44.26
146.96
134821.9
509.9
69.26
16 9.4
59 11.2
i.
s.
4
6 36.24
9.353
3 34 26.45
151.39
16 4057.0
354.7
70.34
16 9.9
59 13.0
i.
s.
5
7 33.38
9.403
4 35 40.92
154.45
+1828 9.2
+177.3
71.03
16 9.0
59 9.8
i.
s.
6
8 31.26
9.411
5 37 39.57
154.95
19 0 54.1
- 14.5
71.09
16 6:6
59 1.0
i.
s.
7
9 28.75
9.371
6 3914.90
159.51
1817 3.9
-909.3
70.45
16 2.7
58 46.0
i.
N.S.
8
10 24.74
9.988
7 39 19.82
147.56
162212.9
-366.9
69.20
15 56.6
58 23.8
i.
N.S.
9
11 18.43
9.184
837 7.08
141.96
1328 23.3
-495.9
67.59
15 48.7
57 55.2
i.
s.
10
12 9.54
9.076
'9 32 18.47
134.76
+ 9 51 18.9
-589.8
65.94
15 39.4
57 21.1
i. ii.
s.
, 11
12 58.19
1.983
10 25 2.09
139.06
5 47 36.2
-«99.3
64.50
15 29.2
56 43.6
ii.
sJ
1 ,2
13 44.82
1.909
II 15 43.99
134.68
+ 1 32 39.9
-639.8
63.40
15 18 8
56 53
ii.
s;
i ,3
14 30.02
1.862
12 4 59.58
131.88
- 2 40 13.9
-630.0
62.71
15 8.9
55 29.0
ii.
s.
1 h
15 14.41
1.849
12 53 27.21
190.69
- 6 40 6.6
-575.6
62.46
15 0.4
54 57.7
u.
_BJ
374
MOON-CULMINATIONS, 1884.
AT TRAN8IT OF MOON'S CENTRE OVER THE MERIDIAN OF WASHINGTON.
Date.
Mean Time
of
Transit
Diff.for
lHour
of
Long.
Right
Ascension
of
Centre.
Difffor
lHour
of
Long.
Geocentric
Declination
of
Centre.
Diff.for
lHonr
of
Long.
Sid. Time
ofSemid.
Passing
Meridian.
Geocentric
Semi-
diameter.
Equatorial
Horizontal
Parallax.
Bright
Limbs.
h m
m
h m a
a
o / //
u
a
/ //
/ «
*Vb. 14
15 14.41
1.849
12 5327.21
190.69
- 640 6.6
-575.6
62.46
15 0.4
54 57.7
II. S.
15
15 58.63
1.847
13 4143.92
190.95
-10 17 53.3
-510.1
62.60
14 53.8
54 33.6
II. S.
16
16 43.21
1.873
14 30 22.77
199.47
-132551.0
-496.8
63.05
14 49.7
54 18.5
II. S.
17
17 28.60
J. 913
151950.32
194.94
-15 57 6.2
-396.8
63.74
14 48.5
54 14.0
II. S.
18
18 15.10
1.963
161024.50
197.95
-17 4515.8
-911.5
64.53
14 50.3
54 20.7
11. S.
19
19 2.83
3.014
17 212.60
131.03
-18 44 27.0
- 89.4
65.31
14 55.1
54 38.5
II. S.
20
19 51.72
9.059
17 5510.67
133.71
-1849 39.5
+ 57.7
65.95
15 2.8
55 6.5
ii. n. a
21
20 41.55
9.099
1849 4.99
135.67
-17 5728.8
303.5
66.38
1512.8
55 43.4
ILN.S.
22
21 31.99
9.110
19 43 36.58
136.83
-16 7 0.7
347.8
66.59
15 24.5
56 26.5
ILN.s.
23
22 22.76
9.119
20 3827.42
137.33
-13 20 44.2
481.0
66.66
15 37.1
57 12.8
ILN.s.
24
23 13.67
9.194
2133 26.89
137.63
- 9 45 6.2
+593.8
66.68
15 49.5
57 58.0
II.N.S.
26
0 4.73
9.133
222835.62
138.19
- 53041.8
673.3
66.79
16 0.4
58 38.7
II. S.
27
0 56.15
9.154
23 24 5 84
139.48
- 0 5153.9
713.5
67.13
16 9.2
59 11.1
I. S.
28
1 48.27
9.199
0 2018.40
141.73
+ 3 53 54.2
707.5
67.73
16 15.2
59 32.7
I. S.
29
2 41.49
9.945
117 36.46
144.90
827 31.4
653.5
68.57
16 18.0
59 42.7
I. S.
1
Mar. 1
3 36.07
3.305
216 17.18
148.59
+122931.4
+550.0
69.51
16 17.7
59 41.7
1
I. s.
2
4 32.07
9.359
31622.51
151.80
15 42 1.0
406.4
70.36
16 15.0
59 31.6
I. s.
3
5 29.13
9.390
4 17 32.10
153.70
175041.0
333.3
70.86
16 10.3
59 14.5
I. s.
4
6 26.54
9.386
519 2.79
153.45
1846 40.0
+ 45.8
70.80
16 4.4
58 52.7
I. s.
5
7 23.36
9.319
6 19 57.81
150.74
182751.3
-137.9
70.12
15 57.6
58 27.9
I. N.S.
.6
8 18.68
9.964
719 22.68
146.07
+16 58 52.3
-303.7
68.93
15 50.3
58 1.1
I. N.s.
7
9 11.88
9.168
816 39.92
140.99
14 29 43.9
-437.3
67.44
15 42.6
57 32.9
I. N.
8
10 2.73
9.071
9 1 1 35.82
134.43
11 13 42.2
-S36.6
65.90
15 34.6
57 3.6
I. N.
9
10 51.36
1.985
10 4 18.15
199.96
725 18.1
-599.4
64.52
15 26.4
56 33.5
I. N.
10
11 38.15
1.918
10 55 9.71
135.96
+ 3 18 48.9
-637.6
63.45
15 18.2
56 3.3
I. N.S.
11
12 23.61
1.874
1144 41.21
199.60
- 0 52 32.1
-694.3
02.7&
15 10.2
55 33.6
II. S.
12
13 8.28
1.853
12 3325.85
191.34
- 4 56 55.1
-593.3
62.43
15 2.6
55 5.9
II. S.
13
13 52.71
1.853
13 2155.33
191.31
- 843 58.2
-538.3
62.48
14 56.1
54 42.0
II. S.
14
14 37.35
1.870
14 10 37.42
139.34
-12 4 41.3
-463.1
62.81
14 51.1
54 23.5
II. S.
15
15 22.56
1.899
14 59 53.86
194.13
-14 5115.6
-367.9
63.35
14 48.0
54 12.1
II. S.
16
16 8.58
1.936
15 49 59.19
136.35
-16 56 57.0
-358.1
64.00
14 47.3
54 9.5
IL S.
17
16 55.51
1.975
16 40 59.60
138.67
-1816 3.5
-135.4
64.66
14 49.2
54 16.8
II. S.
18
17 43.34
9.010
17 3253.52
130.77
-18 44 1.4
- 3.0
65.23
14 54.1
54 34.8
ILN.S.
19
18 31.92
9.038
18 25 33.17
139.46
-18 17 40.6
+135.4
65.66
15 2.0
55 3.6
II.N.S.
20
19 21.10
9.059
1918 48.16
133.74
-16 55 35.9
874.7
65.96
15 12.6
55 42.7
II. N.
21
20 10.71
9.075
20 1229.89
134.73
-14 38 35.5
+408.9
66.16
15 25.6
56 30.2
II. N.
22
21 0.73
9.094
21 6 35.69
135.80
-113010.2
530.4
66.36
15 40.0
57 23.3
II. N.
23
21 51.25
9.119
22 1 11.71
137.31
- 7 37 10.1
630.9
66.68
15 54.9
58 18.0
II. N.
24
22 42.52
9.157
2256 33.27
139.65
- 3 10 16.4
698.0
67.21
16 9.0
59 9.7
II.N.S.
25
23 34.93
9.913
23 53 2.55
143.07
+ 13536.4
733.4
68.00
16 20.7
59 52.6
ILN.S.
27
0 28.85
9.983
051 3.17
147.91
+ 62135.9
+697.4
69.04
16 28.8
60 22.4
I. S.
28
1 24.56
9.360
150 51.60
151.89
10 46 4.0
615.6
70.18
16 32.4
60 35.6
I. S.
29
2 22.04
9.497
25226.43
155.88
14 27 2.3
481.3
71.20
16 31.3
60 31.7
I. S.
30
3 20.82
9.464
3 5519.46
158.13
17 5 37.2
306.4
71.81
16 26.2
60 12.9
I. S.
31
4 19.98
9.456
4 58 35.10
157.65
+1829 24.6
+111.1
71.75
16 17.9
59 42.3
I. S.
MOON-CULMINATIONS, 1884.
375
- _ _. .
AT TRANSIT OF MOON'S CENTRE OVER THE MERIDIAN OF WASHINGTON.
Date.
Moan Timo
of
Transit.
Diff.for
1 Hour
of
Long.
Right
Awenrtion
of
Contra.
Diff.for
I Hour
of
Long.
Geocentric
Declination
of
Centre.
Diff.for
lHour
of
Long.
Sid. Time
ofSemid.
Passing
Meridian.
Geocentric
Scmi-
dianioter.
Equatorial
Horizontal
Parallax.
Bright
Limbs.
h m
m
h m 8
8
O / //
//
8
/ //
/ //
Apr. 1
5 18.33
9.398
6 1 2.60
154.17
+18 34 39.6
-89.7
70.96
16 7.6
59 4.4
I. N.S.
2
6 14.81
9.303
7 1 37.03
148.40
17 26 3.7
-955.6
69.58
15 56.4
58 23.3
I. N.
3
7 8.72
9.169
7 59 37.17
141.53
15 14 22.4
-396.9
67.88
15 45.2
57 42.4
I. N.
4
7 59.88
9.078
854 51.58
134.78
12 13 22.3
-509.1
66.14
15 34.5
57 3.2
I. N.
5
8 48.51
1980
9 47:34.01
198.98
8 37 23.8
-579.9
64.59
15 24.7
56 27.2
I. N.
6
9 35.10
1.907
10 38 13.83
194.61
+ 4 39 59.8
-609.5
63.38
15 15.9
55 54.7
I. N.
7
10 20.27
1.861
1 1 27 27.67
191.80
+ 0 33 32.0
-618.0
62.59
15 8.1
55 26.0
I. N.
8
11 4.62
1.839
12 15 62.95
190.53
- 3 30 46.0
-599.3
62.22
15 1.3
55 0.8
I. N.
9
II 48.75
1.841
13 4 4.14
190.60
- 7 22 38.0
-556.1
62.21
14 55.4
54 39.3
I. N.S.
10
12 33.12
1.659
13 52 30.00
191.71
-10 52 36.4
-490.9
62.50
14 50.7
54 22.0
11. S.
11
13 18.08
1.889
14 41 31.67
193.59
-13 52 4.1
-403.9
63.01
14 47.3
54 9.5
II. S.
12
14 3.84
1.934
153121.18
195.69
-16 1321.6
-999.7
63.62
14 45.5
54 3.0
11. s.
13
14 50.43
1.957
16 22 1.00
197.64
-17 50 2.7
-181.4
64.22
14 45.6
54 3.4
II. s.
14
15 37.75
1.984
17 13 24.81
199.97
-18 37 12.6
-59.9
64.70
14 47.9
54 11.9
II. N.S.
15
16 25.62
9.009
18 5 20.87
130.97
-183144.4
+ 80.8
65.04
14 52.7
54 29.6
II. N.
16
17 13.79
9.011
18 5736.02
130.88
-17 3228.2
+915.1
65.23
15 0.2
54 57.1
H.N.
17
18 2.14
9.017
19 50 1.45
131.93
-1540 11. 1
345.0
65.34
15 10.5
55 34.7
II. N.
18
18 50.65
9.096
20 42 36.67
131.76
-I2574I.I
465.4
65.47
15 23.2
56 21.5
11. N.
19
19 39.50
9.047
2135 32.06
133.00
- 929 52.0
570.7
65.74
15 37.9
57 15.7
II. N.
20
20 29.04
9.065
22 29 9.19
135.31
- 5 24 9.6
653.5
66.27
15 53.9
58 14.3
11. N.
21
21 19.75
9.148
23 23 58.78
139.07
- 0 51 14.2
+704.9
67.16
16 9.8
59 12.8
II. N.
22
22 12.32
2.936
020 36.35
144.99
+ 354 11.4
714.1
68.40
16 24.1
60 5.3
II. N.
23
23 7.18
9.340
1 19 33.48
150.60
8 3255.2
670.0
69.89
16 35.1
60 45.7
II. N.
25
0 4.63
9.446
221 6.13
157.04
1242 9.2
566.9
71.42
16 41.4
61 8.9
I. N. S.
20
1 4.42
9.599
3 24 50.72
169.03
15 5820.7
406.3
72.62
16 42.1
61 11.4
I. N.S.
27
2 5.63
9.569
4 30 19.08
163.93
+18 1 57.3
+907.9
73.10
16 37.3
60 53.7
I. N.S.
28
3 6.79
9.596
535 35.30
161.74
184226.4
- 4.9
72.65
16 27.9
60 19.0
I. N. S.
29
4 6.30
9.436
6 39 12.15
155.89
18 0 39.3
-199.9
71.32
16 15.2
59 32.7
I. N.
30
5 2.96
9.993
7 39 57.56
147.75
16 7 6.4
-361.1
69.42
16 1.0
58 40.4
I. N.
May 1
5 56.26
9.151
8 3720.88
139.96
13 17 31.6
-480.0
67.35
15 46.6
57 47.4
I. N.
2
6 46.31
9.095
93129.52
131.70
+ 9 48 35.9
-558.5
65.43
15 32.9
56 57.3
I. N.
3
7 33.69
1.998
1022 56.10
195.89
5 55 27.4
-601.8
63.87
15 20.7
5612.5
I. N.
• 4
8 19.10
1.869
11 12 24.50
191.87
+ 1 51 1.9
-615.6
62.78
15 10.3
55 34.3
I. N.
5
9 3.31
1.838
12 041.11
119.89
- 2 13 42.4
-604.0
62.17
15 1.8
55 2.9
I. N.
6
9 47.05
1.899
12 4829.10
119.44
- 6 9 4.0
-569.0
62.00
14 55.1
54 38.2
I. N.
7
10 30.92
1.838
13 3625.32
190.45
- 9 46 6.3
-619.5
62.21
14 50.1
54 19.6
I. N.
8
11 15.39
1.870
14 24 57.55
199.38
-1256 18.9
-435.1
62.70
14 46.6
54 7.0
I. N.
9
12 0.76
1.910
15 14 23.06
194.77
-15 3139.4
-338.5
63.32
14 44.6
53 59.7
II. N. 8.
10
12 47.08
1.949
16 4 46.60
197.13
-17 24 53.5
-995.9
63.95
14 44.1
53 58.0
II. N.S.
11
13 34.25
1.979
16 56 0.95
198.94
-1830 8.5
-99.4
64.46
14 45.3
54 2.4
II. N.S.
12
14 21.98
1.996
17 47 49.42
199.94
-18 43 27.1
+ 33.4
64.78
14 48.2
54 13.0
II. N.
13
15 9.94
1.998
18 39 51.43
130.10
-18 3 14.1
167.9
64.89
14 53.1
54 31.0
11. N.
14
15 57.83
1.991
19 31 49.42
199.67
-16 30 20.4
995.9
64.84
15 0.1
54 56.8
11. N.
15
16 45.52
1.983
2023 35.16
199.16
-14 7 48.3
414.6
64.76
15 9.4
55 30.8
II. N.
16
17 33.09
1.983
21 15 13.55
199.17
-11 031.9
+518.9
64.79
15 20.9
56 13.2
II. N.
376
MOON-CULMINATIONS, 1884.
AT TRANSIT OF MOON'S CENTRE OVER THE MERIDIAN OF WAS^iNGTON.
Date.
Men Tine
of
Transit.
h m
Diftfur
lHonr
of
Long.
Right
Aeeenakm
of
Centre.
Diftfor
llloar
of
Long.
Geocentric
Declination
of
Centre.
Diff.for
lHour
of
Long.
Sid. Time
ofSemid.
Passing
Meridian.
Geocentric
Semi-
diameter.
Equatorial
Horizontal
Parallax.
Bright
Limbs.
m
h m s
8
O / /'
„
8
, //
, „
May 16
17 33.09
1.963
21 15 13.55
199.17
-11 031.9
+518.9
64.79
15 20.9
56 13.2
II. N.
17
18 20.85
9.001
22 7 3.82
130.95
- 7 15 5.4
604.8
65.07
15 34.5
57 3.0
II. N.
18
19 9.35
9.046
2259 37.96
139.90
- 25956.3
666.5
65.73
15 49.6
57 58.4
II. N.
19
19 59.26
9.190
23 53 37.50
137.39
+ 13354.5
696.7
66.83
16 5.3
58 56.1
II. N.
20
20 51.35
2.298
0 4947.81
143.74
61156.0
665.6
68.36
16 20.3
59 51.1
II. N.
21
21 46.26
9.353
14848.43
151.44
+10 3526.5
+639<5
70.17
16 33.0
60 37.7
II. N.
22
22 44.32
9.489
250 57.93
159.91
14 22 1.7
500.5
71.98
16 41.7
61 9.7
11. N. 1
23
23 45.17
9.579
3 5555.59
165.09
17 825.7
393.3
73.33
16 45.1
61 22.3
II. N. I
25
0 47.64
9.611
5 230.48
167.01
18 35 49.2
+109.9
73.79
16 42.6
61 13.2
I. N. .
26
1 49.90
9.509
6 8 53.05
164.05
18 35 44.1
-108.4
73.14
16 34.5
60 43.5
I. N.
27
2 50.10
9.445
7 13 11.53
156.96
+17 12 34.0
-301.0
71.53
16 22.2
59 58.1
I. N.
28
3 46.98
9.993
814 10.10
147.77
14 40 55.2
-448.9
69.39
16 7.1
59 2.8
I. N.
29
4 40.13
9.139
91124.10
138.54
11 1954.4
-548.9
67.15
15 51.1
58 4.0
I. N.
30
5 29.83
9.006
10 5 11.09
130.67
7 28 9.6
-604.0
65.18
15 35.5
57 6.8
I. N.
31
6 16.79
1.911
1056 12.84
194.89
+ 32127.0
-694.1
63.67
15 21.5
5615.4
I. N. 1
June 1
7 1.85
1.659
1145 20.42
191.16
- 0 47 37.8
-616.8
62.68
15 9.5
55 31.1
I. N.
2
7 45.86
1.893
123324.78
119.54
- 4 48 57.1
-5869
62.20
14 59.9
54 55.9
I. N.
3
8 29.58
J. 695
1321 11.94
119.67
- 833 51.7
-535.1
62.18
14 52.7
54 29.5
I. N.
4
9 13.65
1.651
14 919.73
191.18
-1154 26.5
-464.6
62.52
14 47.8
54 11.6
I. N.
5
9 58.51
1.690
14 58 15.52
193.57
-14 43 4.6
-375.4
63.10
14 45.1
54 1.6
I. N.
6
10 44.42
1.935
1548 13.70
196.98
-16 5226.6
-968.7
63.76
14 44.3
53 58.6
I. N.
7
11 31.35
1.974
16 39 14.29
198.68
-18 1559.1
-146.9
64.36
14 45.2
54 1.8
I. N.
8
12 19.11
9.001
17 31 3.72
130.97
-1848 37.3
- 15.1
64.77
14 47.6
54 10.7
II. N.
9
13 7.28
9.010
1823 18.84
130.80
-1827 31.2
+190.5
64.93
14 51.5
54 25.0
II. N.
10
13 55.46
9.009
1915 34.23
130.34
-17 1237.4
959.8
64.85
14 56.6
54 44.6
11. N.
11
14 43.32
1.965
20 7 30.25
199.99
-15 641.0
+374.9
64.63
15 3.6
55 9.5
II. N.
12
15 30.75
1.968
20 58 59.94
198.95
-12 14 50.1
481.5
64.42
15 12.0
55 40.4
II. N.
13
16 17.87
1.969
2150 11.73
197.90
- 8 44 4.5
568.8
64.38
15 22.0
56 17.1
11. N.
14
17 5.10
1.978
224129.58
198.88
- 4 4250.3
633.3
64.65
15 33.5
56 59.4
II. N.
15
17 53.04
9.093
23 33 30.31
131.53
- 021 3.7
670.7
65.39
15 46.3
57 46.2
II. N.
> 16
18 42.44
9.101
0 26 59.56
136.95
+ 4 9 20.4
+675.3
66.58
15 59.8
58 35.8
II. N.
17
19 34.13
9.919
122 45.54
149.87
8 33 43.1
639.9
68.20
16 13.1
59 24.7
IL N.
18
20 28.75
9.343
22128.64
150.85
1234 5.7
553.5
70.10
16 25.0
60 8.7
II. N.
19
21 26.60
9.475
323 25.79
158.76
154943.1
415.0
71.93
16 34.2
60 42.3
II. N.
20
22 27.27
9.571
4 28 12.26
164.58
17 5943.1
996.1
73.24
16 39.2
61 0.8
11. N.
21
23 29.50
9.599
5 34 32.50
166.30
+•18 4812.0
+ 19.0
73.61
16 39.1
61 0.3
11. N.
23
0 31.43
9.547
6 40 35.06
163.13
18 9 39.0
-901.8
72.87
16 33.7
60 40.4
I. N.
24
1 31.24
9.499
7 44 30.53
156.01
16 11 7.5
-383.8
71.22
16 23.4
60 2.8
I. N.
25
2 27.77
9.960
845 8.07
146.99
13 915.0
-*16.9
69.11
16 9.8
59 12.8
I. N.
26
3 20.67
9.139
9 42 7.51
138.10
924 30.2
-598.5
66.96
15 54.4
58 16.1
I. N.
27
4 10.29
9.006
10 35 48.89
130.65
+ 5 16 19.9
-«35.5
65.13
15 38.r
57 18.5
I. N.
28
4 57.31
1.917
1126 54.68
195.90
+ 1 049.0
-636.9
63.75
15 24.0
56 24.3
I. N.
29
5 42.59
1.869
121615.49
191.88
- 3 931.9
-610.9
62.89
15 11.2
55 37.3
I. N.
30
6 26.96
1.840
13 4 41.32
190.57
- 7 4 58.3
-563.1
62.54
15 0.8
54 59.2
I. N.
31
7 11.15
1.847
13 52 56.80
190.97
-10 37 28.4
-496.5
62.62
14 53.2
54 31.2
I. N.
MOON-CULMINATIONS, 1884.
377
AT TRANSIT OF MOON'S CENTRE OVER THE MERIDIAN OF WASHINGTON.
Date.
Mean Time
of
Transit.
Diftfor
lHoor
of
Long.
Right
Ascension
of
Centre.
Diftfor
lHour
of
Long.
Geocentric
Declination
of
Centre.
Diftfor
lHour
of
Long.
Sid. Time
ofSemid.
Passing
Meridian.
Geocentric
* Semi-
diameter.
Equatorial
Horizontal
Parallax.
Bright
Limbs.
h m
m
h m a
8
O / //
a
8
/ a
/ /»
July 1
7 11.15
1.847
13 5256.80
190.97
-103728.4
-496.5
62.62
14 53.2
54 31.2
I. N.
2
7 55.78
1.875
14 4138.18
199.68
-1339 51.2
-419.6
63.02
14 48.3
54 13.3
I. N.
3
8 41.25
1.916
15 31 10.67
195.13
-16 5 18.9
-319.1
63.61
14 46.0
54 4.9
I. N.
4
9 27.77
1.900
162146.17
197.81
-174725.1
-196.0
64.24
14 46.1
54 5.4
L N.
5
10 15.30
1.906
171321.95
130.07
-1840 31.6
-67.0
64.77
14 48.3
54 13.5
I. N.
6
11 3.5G
9.000
18 541.93
131.49
-1840 35.8
+ 68.1
65.08
14 52.2
54 27.8
I. N.
7
II 52.14
9.095
185821.67
131.70
-174559.1
904.4
65.12
14 57.5
54 47.1
I. N.
8
12 40.64
9.014
1950 55.93
131.09
-1558 1.9
333.6
64.96
15 3.9
55 10.6
II. N.
9
13 28.75
1.995
2043 6.88
199.86
-1321 5.9
446.3
64.69
15 11.2
55 37.6
n.N.
10
14 16.39
1 977
21 34 49.97
128.81
-10 2 9.2
549.7
64.46
15 19.3
56 7.2
II. N.
11
15 3.75
1.973
2226 16.12
198.58
- 6 10 10.4
4619.8
64.45
15 28.1
56 39.5
n.N.
12
15 51.26
1.990
2317 50.83
199.60
- 15537.6
654.9
64.78
15 37.5
57 13.8
II. N.
13
16 39.52
9.086
0 10 10.63
139.36
+ 22940.3
665.9
65.53
15 47.3
57 50.0
II. N.
14
17 29.25
9.113
1 3 59.40
136.96
65221.5
641.9
66.73
15 57.4
58 27.1
II. N.
15
18 21.16
9.917
159 59.27
143.94
1057 11.9
575.8
68.29
16 7.3
59 3.4
II. N.
16
19 15.78
9.336
25842.09
150.39
+14 26 58.4
+465^
70.01
16 16.2
59 36.3
II. N.
17
20 13.22
9.447
4 0 14.19
157.06
17 3 26.4
309.9
71.56
16 23.3
60 2.4
II. N.
18
21 12.93
9.590
5 4 3.10
161.48
1829 59.0
+118.9
72.53
16 27.6
6018.2
II. N.
19
22 13.69
9.531
6 855.10
169.15
18:1545.4
-89.8
72.64
1628.3
60 20.7
11. N.
20
23 13.88
9.473
7 13 12.92
158.70
1719 33.2
-987.9
71.80
16 24.7
60 7.6
II. N.
22
0 12.03
9.306
81528.09
159.19
+14 50 41.6
-4498
70.24
16 17.1
59 39.6
I. N.
23
1 7.25
9.995
914 47.05
144JB
1126 8.4
-564.4
68.34
16 6.1
58 59.0
I. N.
24
1 59.34
9.106
1010 57.68
136.71
72548.4
-699.9
66.49
15 52.8
58 10.4
I. N.
25
2 48.63
9.004
11 419.94
130.41
+ 3 833.6
-650.4
64.94
15 38.7
57 18.5
I. N.
26
3 35.76
1.996
115531.56
195.86
- 1 9 47.2
-436.2
63.82
15 25.0
56 26.0
I. N.
27
. 4 21.44
1.883
124516.81
123.90
- 516 48.7
-594.9
63.17
15 12.5
55 41.8
I. N.
28
5 6.42
1.860
1334 19.31
129.98
- 9 252.2
-532.2
62.96
15 2.1
55 4.0
I. N.
29
5 51.33
1.877
14 2317.66
199.80
-1220 12.0
-451.6
63.12
14 54.4
54 35.8
I. N.
30
6 36.68
1.904
151242.66
124.42
-15 2 9.T
-355.6
63.53
14 49.6
54 18,3
I. N.
31
7 22.81
1.941
16 254.84
196.66
-17 243.4
-945.0
64.08
14 47.8
54 11.5
I. N.
Aug. 1
8 9.87
1.960
1654 2.71
198.97
-181630.5
-192.0
64.63
14 48.7
54 14.9
I. N.
2
8 57.79
9.019
17 46 2.19
130.88
-1839 4.5
+ 10.4
65.05
14 62.2
54 27.6
I. N.
3
9 46.33
9.090
1838 38.68
139.09
-18 7 36.9
147.1
65.28
14 57.7
54 47.9
I. N. S.
4
10 35.13
9.034
193131.72
139JT7
-164141.0
281.6
65.29
15 4.8
55 14.1
I. N.S.
5
11 23.89
9.097
2024 22.00
131.83
-14 2344.4
405.9
65.14
15 13.0
55 44.2
I. N.s.
6
12 12.41
9.016
21 16 57.70
131.14
-11 1918.7
+519.8
64.95
1521.8
56 16.3
II. N.
7
13 0.69
9.009
22 919.00
130.79
- 7 3646.7
595.5
64.86
15 30.6
56 48.7
II. N.
8
13 48.95
9016
23 139.19
131.13
- 32653.0
648.7
65.00
15 39.1
57 20.0
11. N.
9
14 37.61
9.043
2354 23.17
139.76
+ 0 57 44.9
668.5
65.47
15 47.1
57 49.2
II. N.
10
15 27.20
9.094
048 3.53
135.84
523 0.5
651.4
66.31
15 54.3
5815.9
ii.isr.
11
16 18.31
9.169
1 43 15.05
140.33
+ 93335.5
+5944
67.49
16 0.8
58 39.8
II. N.
12
17 11.42
9.960
24026.66
145.75
131319.6
497.0
68.86
16 6.4
59 0.3
• II. N.
13
18 6.74
2.350
3 39 51.42
151.93
16 5 53.1
359.4
70.20
16 10.9
59 16.9
II. N.
14
19 4.05
9.490
4 41 16.04
155.51
175622.2
+188.3
71.21
16 14.1
59 28.4
II. N.
15
20 2.61
9.451
543 56.23
157.34
+1833 46.5
- 3.1
71.59
16 15.4
59 33.2
II. N.
378
MOON-CULMINATIONS, 1884.
AT TRANSIT OF MOON'S CENTRE OVER THE MERIDIAN OF WASHINGTON.
Date.
Moan Time
of
Transit.
Diff.for
lliour
of
Long.
Bight
Ascension
of
Centre.
Diff.for
lliour
of
Long.
Geocentric
Declination
of
Centre.
Difffor
lUour
of
Long.
Sid. Time
ofSemid.
Passing
Meridian.
Geocentric
Semi-
diameter.
Equatorial
Horizontal
Parallax.
Bright
Limbs.
h m
in
h m 8
s
O / /»
a
a
/ //
/ /<
Aug. IG
21 1.30
9.430
6 4643.36
156.06
+ 17 53 46.3
-195.2
71.22
16 14.4
59 29.7
II. N. S.
17
21 58.87
2.361
7 4823.97
151.93
16 0 16.4
-367.3
70.18
16 10.9
59 16.7
II. N. S.
18
22 54.41
9.963
8 48 1.61
146.01
13 4 46.5
-503.9
68.70
16 4.7
58 53.8
II. N. S.
19
23 47.44
9.157
9 45 9.13
139.63
92341.0
-594.7
67.10
15 56.0
58 21.8
II. N.
21
0 38.01
9.060
10 3948.28
133.80
515 2.2
-641.4
65.63
15 45.3
57 42.9
I. N.
22
1 26.48
1.983
1132 21.08
199.17
+ 05557.5
-647.9
64.48
15 33.7
57 0.0
I. N.
23
2 13.40
1.931
12 93 20.08
196.00
- 31847.1
-690.8
63.73
1521.9
56 16.7
I. N.
24
2 59.35
1.909
13 13 20.99
194.31
- 717 84
-567.0
63.34
1511.0
55 36.6
I. N.
25
3 44.89
1.806
14 2 57.55
193.94
-1049 31.3
-491.8
63.30
15 1.6
55 2.2
I. N.
26
4 30.50
1.907
14 52 39.39
194.61
-13 4616.1
-399.3
63.53
14 54.5
54 36.2
I. N.
27
5 16.55
1.931
15 42 44.92
196.01
-16 7 68
-292.7
63.93
14 50.1
54 20.0
I. N.
28
6 3.22
1.959
163329.74
197.75
-17 40 52.6
-174.4
64.39
14 48.7
54 14.7
I. N.
29
6 50.59
1.987
1724 56.29
129.43
-18 2521.8
-46.8
64.80
14 50.2
54 20.5
I. N.
30
7 38.57
9.009
1816 59.48
130.76
-1817 35.1
+ 86.4
65.10
14 54.7
54 36.8
I. N. S.
31
8 26.98
9.093
19 9 28.72
131.58
-17 16 11. 1
990.4
65.25
15 1.7
55 2.6
I. N. S.
Sept. 1
9 15.63
9.099
20 2 12.03
131.95
-152154.4
+349.5
65.27
15 10.7
55 35.7
I. N . S.
2
10 4.36
9.039
20 55 0.83
139.10
-1238 4.1
466.9
65.25
1521.2
56 14.3
I. N . S.
3
10 53.17
2.037
2147 54.02
139.39
- 9 10 51.8
565.1
65.28
15 32.3
56 55.0
I. N. S.
4
II 42.20
9.051
22 41 0.05
133.94
- 5 928.8
636.6
65.46
15 43.2
57 34.7
I. N. S.
5
12 31.73
9.080
23 34 36.62
134.97
- 0 46 2.6
674.5
65.91
15 52.9
58 10.6
II. N.
6
13 22.17
2.197
029 7.97
137.89
+ 3 44 44.9
+679.5
66.66
16 1.0
58 40.2
II. N.
7
14 13.96
2.199
125 0.20
141.68
8 6 11.9
697.2
67.67
16 6.9
59 2.0
II. N.
8
15 7.44
9.966
2 22 34.12
146.19
12 0 35.8
537.4
68.84
16 10.6
59 15.7
II. N.
9
16 2.71
9.339
3 2156.68
150.59
15 10 35.0
406.2
69.96
16 12.2
59 21.6
II. N.
10
16 59.56
9.393
4 22 53.15
153.83
1721 2.1
241.5
70.78
16 12.0
59 20.7
11. N.
11
17 57.31
9.419
5 24 44.16
154.96
+1821 13.2
+ 57.4
71.07
16 10.1
59 13.9
.11. N.
12
18 55.01
9.388
626 32.26
153.58
18 6 42.7
-198.8
70.72
16 7.0
59 2.5
II. N. S.
13
19 5166
9.397
7 27 17.35
149.85
1640 11.2
-299.9
69.78
16 2.6
58 46.2
II. S.
14
20 46.50
9.940
8 26 13.29
144.65
14" 10 40.0 ' -442.0
68.45
15 57.0
58 25.8
II. S.
15
21 39.15
9.147
9 22 57.60
139.05
10 51 33.9 j -547.0
66.99
15 50.3
58 0.9
II. S.
16
22 29.64
9.069
101731.47
133.90
+ 6 58 24.2! -612.2
65.65
15 42.5
57 32.2
11. S.
17
23 18.26
1.993
II 10 13.29
129.78
+ 2 46 56.8 j -638.9
64.56
15 33.7
57 0.0
1I.N.S.
19
0 5.48
1.946
12 1 30.89
126.90
- 128 1.8 -630.5
63.81
15 24.3
56 25.7
I. N.
20
0 51.81
1.919
12 5154.82
125.30
- 533 23.0 -591.6
63.41
15 14.9
55 51.1
I. N.
21
1 37.73
1.910
13 4153.79
124.80
- 9 17 52.4
-527.0
63.33
15 6.2
55 18.7
L N.
22
2 23.62
1.916
14 31 51.58
125.14
-12:5210.0
-441.3
63.48
14 58.3
54 50.2
I. N.
23
3 9.78
1.931
1522 5.19
126.05
-15 8 43.6
-339.0
63.79
14 52.4
54 28.4
I. N.
24
3 56.35
1.950
16 12 43.96
127.19
-17 1 40.5
-224.0
64.15
14 48.7
54 14.9
I. N.
25
4 43.38
1.968
17 3 49.90
128.98
-18 6 39.7
-99.8
64.48
14 47.7
54 11.3
I. N.
&>
5 30.80
1.989
17 5519.19
129.10
-182051.3
+ 29.5
64.73
14 49.7
54 18.4
I. N.S.
27
6 18.49
1.991
18 47 4.93
129.65
-17 42 55.7
+160.1
64.87
14 54.7
54 36.8
I. S.
28
7 6.34
1.996
19 39 0.80
129.98
-16 13 10.1
287.9
64.92
15 2.5
55 5.6
I. S.
29
7 54.33
9.003
20 31 4.69
130.37 -13 53 36.7
131.11 J -10 48 19.5
408.3
64.97
15 13.0
55 44.1
I. S.
30
8 42.54
9.016
2123 21.30
515.5
65.10
15 25.5
56 29.6
I. S.
31
9 31.17
9.039
22 16 3.66
132.56 - 7 3 47.6
+603.2
65.41
15 39.0
57 19.4
I. S.
MOON-CULMINATIONS, 1884.
379
AT TRANSIT OF MOON'S CENTRE OVER THE MERIDIAN OF WASHINGTON.
Date.
Moan Time
of
Transit.
Difltfor
lHour
of
Long.
Bight
Ascension
of
Centre.
Diff.for
lHour
of
Long.
Geocentric
Declination
of
Centre.
Diff.for
lllour
of
Long.
Sid. Time
ofSemid.
Passing
Meridian.
Geocentric
Semi-
diameter.
Equatorial
Horizontal
Parallax.
i
Bright
Limbs.
i
h m
m
h in b
8
O f H
//
B
/ //
i n
J
Oct. 1
9 31.17
9.039
22 16 3.66
139.56
- 7 3 47.6
+603.9
65.41
15 39.0
57 19.4
I. s.
2
10 20.56
9.080
23 9 32.52
135.09
- 24925.1
663.4
65.97
15 52.6
58 9.7
I. s.
3
11 11.18
9.141
0 4 14.25
138.64
+ 142 0.1
687.0
66.84
16 5.1
58 55.3
1. N . S.>
4
12 3.46
9.919
1 0 36.11
143.39
6 14 11.4
665.9
68.00
16 15.1
59 32.3
Il.N.S.
5
12 57.75
9.307
158 58.98
148.69
1027 59.7
594.4
69.31
16 21.9
59 57.0
II. N.
6
13 54.13
9.390
2 59 27.62
153.69
+14 3 3.2
+479.9
70.56
16 24.8
60 7.9
II. N.
7
14 52.26
9448
4 141.19
157.15
1640 37.8
309.9
71.47
16 24.0
60 4.9
II. N.
8
15 51.30
9.463
5 4 50.18
158.10
18 6 59.4
+190.1
71.75
16 19.9
59 49.9
II. N. |
9
16 50.12
9.499
6 7 45.25
156.00
18 16 7.1
- 73.9
71.30
16 13.5
59 26.2
11. N. S.l
10
17 47.55
9.351
7 9 16.93
151.29
17 10 29.4
-950.7
70.20
16 5.5
58 56.8
II. S.
Jl
16 42.76
9.948
8 8 35.56
145.11
+14 59 30.7
-398.5
68.68
15 56.7
58 24.4
II. S.
12
19 35.43
9.143
9 520.98
138.79
115641.2
-509.5
67.06
15 47.6
57 51.2
11. S.
13
20 25.67
9.048
959 40.11
133.06
8 16 56.5
-583.1
65.57
15 38.6
57 18.2
II. S.
14
21 13.90
1.975
105158.15
198.69
4 14 56.7
-691.9
64.38
15 29.9
56 46.1
II. S.
15
22 0.68
1.997
1 1 42 49.02
195.80
+ 0 4 20.8
-696.6
63.57
15 21.4
56 15.1
II. S.
16
22 46.59
1.903
1232 48.15
194.34
- 4 223.1
-609.3
63.15
15 13.4
55 45.5
II. 8.;
17
23 32.18
1.899
132227.48
194.10
- 75357.2
-551.3
63.07
15 59
55 17.8
II.N.S.1
19
0 17.86
1.910
14 1212.19
194.74
-1120 16.3
-476.6
63.24
14 59.0
54 52.7
I. N.S.
80
1 3.90
1.998
15 218.81
195.86
-14 12 35.2
-381.0
63.57
14 53.2
54 31.2
I. N. S.
21
1 50.42
1.948
155254.01
197.06
-162341.7
-971.3
63.94
14 48.7
54 14.9
I. N.
22
2 37.37
1.963
16 43 55.19
197.97
-17 4811.7
-149.6
64.24
14 46.0
54 5.1
I. N.
23
3 24.59
1.971
17 35 12.89
198.41
-182239.5
-99.0
64.43
14 45.6
54 3.5
I. N.S.
24
4 11.88
1.969
1826 34.86
198.35
-18 5 39.7
+106.9
64.48
14 47.7
54 11.3
I. S.
25
4 59.08
1.963
1917 51.00
197.97
-16 57 39.5
939.3
64.43
14 52.6
54 29.3
I. S.
26
5 46.12
1.958
20 8 57.67
197.63
-15 043.4
350.8
64.36
15 0.5
54 58.1
I. S.
27
6 33.10
1.959
21 0 0.80
197.75
-121822.1
+459.0
64.38
15 11.2
55 37.4
I. S.
28
7 20.29
1.977
21 51 16.93
198.78
- 855 33.2
559.5
64.61
15 24.4
56 25.8
I. S.
29
8 8.15
9.016
224312.58
131.10
- 4 59 2.6
696.3
65.15
15 39.4
57 21.1
I. S.
30
8 57.24
9.080
23 3622.23
134.98
- 0 38 7.7
673.0
66.08
15 55.3
58 19.5
I. S.
31
9 48.19
9.171
0 3124.35
140.46
+ 354 28.4
683.9
67.39
16 10.7
59 15.9
I. S.
Nov. 1
10 41.60
9.964
128 54.54
147.93
+ 8 2 1 55.8
+645.6
69.01
16 23.9
60 4.6
I. S.
2
11 37.84
9.403
22914.67
154.41
1223 33.4
553.0
70.72
16 33.6
60 40.0
I. S.
3
12 36.80
9.504
3 3218.12
160.55
15 36 52.9
405.0
72.19
16 38.4
60 57.5
II. N.S.
4
13 37.69
9.559
4 37 18.32
163.86
17 4148.3
914.1
73.00
16 37.8
60 55.6
II.N.S.
5
14 39.12
9.547
542 50.71
163.19
1825 45.8
+ 4.9
72.89
16 32.4
60 35.5
II. N. S.
6
15 39.43
9.468
6 4715.86
158.39
+17 47 8.2
-194.3
71 85
16 23.0
60 1.2
II. S.
7
16 37.27
9.346
7 4912.49
151.03
1554 42.5
-361.4
70.15
16 11.2
59 17.7
II. S.
8
17 31.96
9.911
847 59.14
149.86
13 3 45.2
-486.9
68.18
15 58.2
58 30.1
II. S.
9
18 23.48
9.066
9 43 35.27
135.36
93129.1
-568.4
66.30
15 45.3
57 42.6
II. S.
10
19 12.29
1.987
10 3628.78
199.40
5 34 6.9
-619.7
64.75
15 33.1
56 57.9
II. S.
11
19 59.10
1.919
1127 21.69
195.39
+ 12542.8
-694.4
63.64
15 22.2
56 17.8
II. S.
12
20 44.66
1.883
1216 59.18
193.11
- 24141.9
-608.9
62.99
15 12.6
55 42.7
IL S.
13'
21 29.67
1.879
13 6 3.64
199.51
- 6 37 34.5
-567.9
62.77
15 4.5
55 12 9
II. S.
14
22 14.71
1.883
13 55 9.74
193.16
-10 1222.6
-503.9
62.89
14 57 J
54 48.0
II. S.
15
23 0.18
1.907
14 44 42.17
194.61
-13 17 21.0
-418.4
63.23
14 52.2
54 27.7
II. S.
380
MOON-CULMINATIONS, 1884.
AT TRANSIT OF MOON'S CENTRE OVER THE MERIDIAN OF WASHINGTON.
Date.
Mean Time
of
Transit
Diff.for
IHour
of
Long.
Bight
Ascension
of
Centre.
Diff.for
IHour
of
Long.
Geocentric
Declination
of
Centre.
Diftfor
IHoar
of
Long.
Sid. Time
ofSemtd.
Passing
Meridian.
Geocentric
Semi-
diameter.
Equatorial
Horizontal
Parallax.
Bright
Limbs.
h m
m
h m s
8
O 1 /'
a
8
/ //
/ a
Nov. 1G
23 46.30
1.998
15 34 53.40
198.39
-1544 38.2
-315.9
63.66
14 48.0
54 12.3
II.
s.
18
0 33.06
1.969
162543.19
197.74
-172741.1
-197.9
64.05
14 45.1
54 1.7
I.
N.S.
19
1 20.26
1.979
17 17 0.00
198.51
-182146.7
-71.6
64.28
14 43.7
53 56.4
I.
N.S.
20
2 7.61
1.971
18 825.14
198.44
-1824 29.1
+ 57.9
64.32
14 44.1
53 57.9
I.
S.
21
2 54.77
1.957
185939.10
197.63
-17 3547.0
184.6
64.19
14 46.5
54 6.5
I.
s.
22
3 41.52
1.938
19 50 28.31
196.46
-1557 50.5
+303.4
63.96
14 51.1
54 23.5
I.
s.
23
4 27.81
1.991
20 40 50.02
195.44
-1334 33.2
410.9
63.74
14 58.2
54 49.7
I.
s.
24
5 13.83
1.916
2130 54.83
195.13
-1031 1.6
504.9
63.69
15 8.0
55 25.8
I.
s.
25
5 59.95
1.999
2221 6.50
196.08
- 653 26.4
580.7
63.96
1520.3
56 11.0
I.
s.
26
6 46.78
1.976
2312 0.44
198.71
- 24911.7
636.6
64.64
15 35.0
57 4.7
I.
s.
27
7 35.05
9.053
0 4 20.83
133.33
+ 1 32 19.9
+665.9
65.78
1551.1
58 4.0
1.
s.
23
8 25.55
9.163
05856.15
139.95
55846.3
659.6
67.39
16 7.8
59 5.3
I.
s.
29
9 19.05
9.999
15631.17
148.18
10 1344.0
606.7
69.36
16 23.4
60 2.6
I.
s.
30
10 15.99
9.445
257 33.39
156.96
13 5639.3
498.9
71.41
16 36.2
60 49.5
I.
s.
Dec. 1
11 16.23
3.568
4 1 54.24
164.96
1644 40.1
333.9
73.11
16 44.4
61 19.6
I.
s.
2
12 18.77
9.630
5 8 33.60
168.16
+181722.4
+195.5
73.99
16 46.8
6128.5
II.
s.
3
13 21.85
9.610
61545.28
166.91
182310.9
-95.6
73.73
16 43.0
61 14.7
II.
s.
4
14 23,45
9.519
7 2127.81
160.97
17 3 32.2
-996.5
72.40
16 33.9
6041.1
II.
s.
5
15 22.04
9.367
824 9.54
159.94
14 31 42.7
-453.9
70.40
16 20.7
59 52.8
11.
s.
6
16 16.97
9.913
9 23 11.05
149.96
11 7 19.3
-559.4
68.20
16 5.3
58 56.7
II.
s.
7
17 8.38
9.077
1018 40.82
134.79
+ 71031.5
-817.9
66.19
15 49.5
57 58.2
II.
s.
8
17 56.91
1.973
1111 16.73
198.56
+ 258 46.9
-635.7
64.60
15 34.4
57 2.5
n.
s.
9
18 43.37
1.905
12 1 48.89
194.49
- 1 13 56.5
-693.3
63.52
15 20.8
56 12.8
ii.
s.
10
19 28.63
1.871
12 51 8.28
199.45
- 51635.0
-586.0
62.95
15 9.4
55 30.7
ii.
s.
11
20 13.43
1.866
13 40 0.46
199 15
- 859 59.6
-597.6
62.81
15 0.2
54 56.7
ii.
s.
12
20 58.39
1.883
14 2?) 1.92
193.14
-1216 6.9
-449.9
63.01
14 53.1
54 30.8
ii.
s.
13
21 43.92
1.919
1518 37.41
194.90
-14 57 34.6
-354.5
63.40
14 48.1
54 12.4
ii.
s.
14
8*30.19
1.943
16 8 57.85
196.78
-16 57 41.8
-043.6
63.84
14 44.9
54 0.8
ii.
s.
15
23 17.15
1.966
16 59 59.84
198.9?
-18 10 56.9
-191.0
64.19
14 43.4
53 55.2
ii.
s.
17
0 4.54
1.978
17 5127.68
198.89
-1833 34.8
+ 8.4
64.35
14 43.4
53 55.4
i.
s.
18
0 51.98
1.979
18 42 58.52
198.59
-18 4 13.6
+137.9
64.26
14 44.9
54 0.7
i.
s.
19
1 39.10
1.959
19 34 9.77
197.31
-1644 8.6
960.9
63.99
14 47.9
64 12.0
i.
s.
20
2 25.64
1.996
20 24 46.38
195.79
-14 36 59.5
379.3
63.64
14 52.6
54 29.1
i.
s.
21
3 11.56
1.903
21 14 46.10
194.34
-1148 17.4
468.4
63.35
14 59.1
54 53.1
l.
s.
2i
3 57.09
1.894
22 4 21.31
193.78
- 824 47.1
546.0
63.27
15 7.6
55 24.1
i.
s.
23
4 42.64
1.907
2253 58.32
194 57
- 4 34 7.8
+603.7
63.53
15 18.1
# 56 2.8
i.
s.
24
5 28.85
1.950
23 44 15.33
197.17
- 024 54.8
638.4
64.23
15 30.6
56 48.7
i.
s.
25
6 16.51
9.098
0 35 59.16
131.84
+ 3 5248.2
645.9
65.43
15 44.8
57 40.9
i.
s.
26
7 6.45
9.140
1 30 0.74
138.69
8 6 36.6
617.3
67.13
16 0.0
58 36.8
i.
s.
27
7 59.47
9.989
227 6.82
147.10
12 0 50.7
545.9
69.18
1615.2
59 32.5
i.
s.
28
8 56.03
9439
3 27 46.33
156.15
+15 1624.9
+493.9
71.30
16 28.9
60 22.8
i.
s.
29
9 56.01
9.559
4 3151.47
163.85
17 3226.8
949.1
73.05
16 39.3
61 1.1
i.
s.
30
10 58.41
9.696
5 38 22.23
167.93
18 30 39.7
+ 37.8
73.94
16 45.0
61 21.8
i.
s.
31
12 1.45
9.611
64531.64
166.97
18 129.9
-189.0
73.71
16 44.8
6121.2
i. ii.
s.
32
13 3.12
9.518
7 51 18.85
161.39
+16 819.0
-377.1
72.35
16 38.5
60 58.5
ii.
s.
MERCURY, 1884.
381
FOE TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Transit.
Apparent
R. Ascension
at
Transit
Apparent
Declination
at
Transit.
Hot.
Par.
Semi
rtinm.
S.T.«f!
Sem.i
Pass.
Mer.
Date.
Mean
Time
of
Transit.
Apparent
R. Ascenmon
at
Tranait.
Apparent
Declination
at
Transit
Ilor.
Par.
it
6.8
Setni-
(liam.
8.T.of
Sem.
Pass.
Mer.j
0.23
Jan. 0
h m
1 24.0
h m b
20 3 19.28
O / #/
-*2 3 37.7
6.1
//
3.1
8
0.22!
Feb. 14
h m
2229.5
h m s
20 941.99
-20 0 3.6
1
1 25.4
20 838.65
2139 38.0
8.3
3.1
0.22
15
2230.2
20 14 22.65
19 5517.4
8.7
3.3 0.23
2
126.4
20 1340.11
21 14 54.5
8.5
3.2
0.23
16
2231.1
2019 11.97
194916.2
8.6
3.2
0.23
3
127.2
201821.19
2049 39.4
8.6
3.3
0.23
17
2232.1
2024 9.23
19 4159.4
6.4
3.2
0.22
4
127.5
202239.13
20 24 6.3
9.0
3.4
0.24
16
22 33.2
2029 13.73
19 3326.4
8.3
3.1
0.22
5
127.4
202630.96
-195830.7
9.2
3.5
0.24
19
2234.4
2034 24.86
-1923 36.7
8.2
3.1
0.22
6
126.9 20 29 53.55
1933 9.9
9.5
3.6
0.25
20
2235.8
20 3942.09
1912 30.0
8.1
3.1
0.22
7
125.8
203243.60
19 823.5
9.8
3.7
0.25
21
2237.2
20 45 4.92
19 0 6.1
8.0
3.0
0.21
' 8
124.1
2034 57.83
1844 31.8
10.1
3.8
0.26
22
2238.7
20 50 32.89
184624.9
7.9
3.0
0.21
9
121.7
20 36 32.96
182156.4
10.4
4.0
0.27
23
2240.3
20 56 5.58
183126.0
7.8
2.9
0.20
10
1 18.7
20 3725.98
-18 0 59.8
10.7
4.1
0.27
24
2242.0
21 142.65
-1615 9.3
7.7
2.9
0.20
11
1 14.9
20 37 34.39
1742 3.6
11.0
4.2
0.28
25
22 43.7
21 7 23.77
17 5734.6
7.7
2.9
0.20
12
110.3
20 36 56.29
17 2527.4
11.3
4.3
0.29
26
2245.5
21 13 8.64
17 3842.0
7.6
2.9
0.20
13
1 5.0
20 35 30.83
171128.5
11.6
4.4
0.29
27
2247.4
211657.00
17 1631.6
7.5
2.8
0.19
14
0 58.9
20 33 18.47
17 0 21.2
12.0
4.5
0.30
28
2249.3
2124 48.64
1657 3.5
7.4
2.8
0.19
15
0 52.0
20 3021.04
-165213.8
12.3
4.7
0.31
29
2251.3
2130 43.35
-1634 17.7
7.4
2.8
0.19
16
0 44.4
2026 42.08
1647 8.7
12.6
4.8
0.32
Mnr. 1
2253.3
213640.94
16 1014.2
7.3
2.8 0.1 <)
17
0 36.2
20 2226.88
16 45 3.0
12.8
4.8
0.32
2
2255.4
2142 41.28
15 44 53.2
7.2
2.8, 0J9;
18
0 27.5
2017 42.22
164547.5
13.0
4.9
0.33
3
2257.5
214844.25
15 1814.8
7.2
2.7
0.I8J
19
0 18.5
201236.41
1649 8.2
13.2
5.0
0.33
4
2259.6
21 54 49.74
14 50 19.1
7.1
2.7
0.18
20
0 9.3
20 718.38
-16 54 46.5
13.3
5.0
0.34
5
23 1.8
22 0 57.67
-14 21 6.3
7.1
2.7
0.18
21
0 0.0
20 157.55
17 221.6
13.4
5.1
0.34
6
23 4.0
22 7 7.97
13 5036.6
7.0
2.7
0.18
21
23 50.9
195643.08
171131.9
13.3
5.1
0.34
7
23 6.3
2213 20.62
13 18 50.3
7.0
2.7
0.18'
22
23 42.0
195143.36
17 2156.4
13.2
5.0
0.34
6
23 8.6
221935.59
124547.7
6.9
2.6
0.16
23
23 33.4
1947 5.64
17 33 15.3
13.2
4.9
0.34
9
2310.9
222552.87
12 1 1 28.9
6.9
2.6
0.17 '
24
23 25.3
194255.70
-1745 10.4
13.1
4.9
0.34
10
2313.3
22 3212.4?
-113554.2
6.8
2.6
0.17
25
23 17.8
19 3917.82
176726.2
12.9
4.8
0.34
11
2315.7
22 38 34.42
10 59 4.2
6.8
2.6
0.17
26
23 10.8
19 36 14.82
18 949.7
12.8
4.8
0.33
12
2318.2
2244 58.78
102059.1
6.8
2.6
0.17
27
23 4.4
19 33 48.23
1822 9.3
12.6
4.7
0.33
13
23 20.7
225125.61
9 4139.4
6.7
2.6
0.17
28
2258.6
19 3158.41
1834 15.2
12.4
4.6
0.32
14
23 23.2
225754.9?
9 1 5.6
6.7
2.5
0.17
29
2253.5
1930 44.90
-184559.3
12.1
4.5
0.32
15
2325.8
23 4 26.93
- 8 19 18.6
6.7
2.5
0.16
30
2249.0
19 30 6.56
18 57 14.4
11.8
4.4
0.31
16
2328.4
2311 1.5?
7 3618.7
6.7
2.5
0.16
31
2245.0
19 30 1.79
19 7 54.3
11.5
4.3
0.31
17
2331.1
231739.00
6 52 7.1
6.6
2.5
0.16
Feb. 1
2241.5
19 3028.69
1917 53.7
11.2
4.2
0.30
18
2333.8
232419.34
6 6 44.7
6.6
2.5
0.16
2
2238.5
19 3125.23
1927 7.9
11.0
4.2
0.30
19
2336.6
23 31 2.71
62012.8
6.6
2.5
0.16 '
3
22 35.9
19 32 49.30
-19 35 32.7
10.8
4.1
0.29
20
23 39.4
23 37 49.21
- 4 3232.7
6.6
2.5
i
0.16
4
2233.8
19 34 38.7?
1943 4.4
10.6
4.0
0.28
21
2342.3
23 44 38.96
34346.2
6.6
2.5
0.16,
5
2232.1
19 36 51.62
1949 39.6
10.4
3.9
0.28
22
23 45.2
235132.05
253 55.2
6.6
2.5
0.16
6
22 30.7
19 3925.95
195515.2
10.2
3.8
0.27
23
2348.2
23 5628.60
2 3 2.1
6.6
2.5
0.16
7
2229.7
19 42 19.95
1959 48.7
10.0
3.8
0.27
24
2361.3
0 5 28.70
1 11 9.6
6.6
2.5
0.16
8
2229.0
194531.92
-20 317.8
9.8
3.7
0.26
25
2364.4
01232.39
- 01621.0
6.6
2.5
0.16
9
2228.5
19 49 0.28
20 540.6
9.6
3.6
0.26
26; 23 57.6
01939.73
+ 0 3519.9
6.6
2.5
0.16
10
2228.3
19 5243.60
20 6 55.3
9.4
3.6
0.25
26, 0 0.8
0 2660.70
129 48.4
6.6
2.5
0.16
11
2228.3
19 56 40.57
20 7 0.2
9.3
3.5
0.25
29
0 4.1
0 34 5.25
224 59.3
6.6
2.5
0.16
12
2228.5
20 050.00
20 554.<J
9.1
3.4
0.24
30
0 7.4
0 4123.29
32046.6
6.6
2.5
0.16
13
2228.9
20 5 10.81
-20 3 35.4
9.0
3.4
0.24
31
0 10.8
0 48 44.62
+ 4 17 3.5
0.6
2.5
0.16
14
22 2:1.51 20 9 41.99-20 0 3.6
8.8
3.3 0.23
32 0 14.3
0 56 9.00
+ 5 13 42.2
6.7
2.5
0.16;
382
MERCURY, 1884.
FOR TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Transit
Apparent
R. Ascension
at
Transit
Apparent
Declination
at
Transit.
Hor.
Par.
Semi
diam.
8.T.of
Sem.
Pats.
Mer.
Date.
Mean
Time
of
Transit
Apparent
R. Asoension
at
Transit
Apparent
Declination
at
Transit
Hor.
Par.
Semi-
diam.
S.T.of
Bern.
Pass.
Mer.
Apr. 1
h in
0 14.3
h m 8
0 56 9.00
O / II
+ 5 13 42.2
6.7
2.5
8
0.16
May 16
h m
23 58.5
h m s
3 4142.53
O 1 II
+18 3759.2
16.0
//
6.0
s
0.43
2
0 17.8
1 3 36.09
610 33.8
6.7
2.5
0.16
17
23 52.5
3 39 37.02
1813 18.2 16.1
6.0 0.42
3
0 21.3
1 1 1 5.43
7 728.3
6.8
2.6
0.17
18
23 46.5
3 37 32.98
174856.5
16.1
6.0
0.42
4
024.9
1 1836.46
8 4 15.0
6.8
2.6
0.17
19
2340.6
3 3532.61
172510.9
16.0
6.1
0.42
5
028.4
126 8.51
9 0 42.4
6.9
2.6
0.17
20
23 34.7
3 33 37.98
17 217.8
16.0
6.1
0.41
6
0 32.0
13340.78
+ 95638.0
6.9
2.6
0.17
21
2329.0
33151.01
+164032.9
15.9
6.0
0.41
7
0 35.6
141 12.3?
10 5148.7
7.0
2.7
0.18
22
23 23.5
3 3013.43
1620 10.4
15.8
6.0
0.41
8
0 39.2
14842.27
1146 1.3
7.1
2.7
0.18
23
2318.1
32846.83
16 122.8
15.7
5.9
0.40
9
042.7
156 9.37
1239 2.6
7.2
2.8
0.18
24
2312.9
327 32.55
1544 21.3
15.5
5.8
0.40
10
0 46.1
2 3 32.48
1330 39.5
7.4
2.8
0.18
25
23 8.0
3 26 31.73
152914.8
15.2
5.8
0.40
11
0 49.4
21050.37
+14 20 39.1
7.5
2.8
0.19
26
23 3.3
32545.31
+151610.4
15.0
5.7
0.39
12
0 52.7
218 1.78
15 849.8
7.6
2.9
0.19
27
2258.8
325 14.06
15 513.5
14.7
5.6
0.39
13
0 55.8
225 5.43
1555 1.2
7.8
2.9
0.20
28
2254.6
324 58.53
14 5627.6
14.5
5.5
0.38
14
0 58.7
• 232 0.07
16 39 3.8
7.9
3.0
0.20
29
22 50.7
324 59.16
14 4954.8
14.3
5.4
0.37
15
1 1.5
238 44.48
1720 49.5
8.1
3.1
0.21
30
2247.1
32516.24
14 45 35.6
14.0
5.3
0.37
16
1 4.1
245 17.52
+18 011.8
8.3
3.2
0.21
31
22 43.7
325 49.95
+ 14 4328.9
13.8
5.2
0.36
17
1 6.5
25138.07
1837 5.5
8.5
3.2
0.22
June 1
22 40.6
326 40.38
14 4333.0
13.5
5.1
0.35
18
1 8.7
257 45.10
19 1126.8
8.7
3.3
0.22
2
2237.8
327 47.53
14 4544.8
13.2
5.0
0.34
19
1 10.6
3 3 37.63
19 43 13.1
8.9
3.4
0.23
3
2235.3
32911.36
14 50 0.6
12.9
4.9
0.33
20
1 12.3
3 914.77
201222.8
9.1
3.4
0.24
4
22 33.0
3 30 51.76
14 5615.9
12.6
4.8
0.33
21
1 13.7
3 14 35.67
+20 3855.2
9.4
3.5
0.25
5
22 31.0
3 32 48.57
+15 4 25.6
12.4
4.7
0.32
22
1 14.8
319 39.58
21 250.6
9.6
3.6
0.25
6
2229.3
3 35 1.66
1514 24.3
12.1
4.6
0.31
23
1 15.6
3 24 25.77
2124 9.4
9.9
3.7
0.26
7
2227.8
3 37 30.89
1526 6.4
11.8
4.5
0.30
24
1 16.2
3 28 53.57
2142 52.8
10.1
3.8
0.27
8
2226.6
3 40 16.09
15 3925.6
11.5
4.4
0.30
25
1 16.4
3 33 2.35
2159 2.2
10.4
3.9
0.28
9
2225.7
34317.13
15 54 15.5
11.3
4.3
0.29
26
1 16.2
33651.56
+2212 39.3
10.7
4.0
0.29
10
2225.1
346 33.87
+161029.6
II. 1
4.2
0.28
27
1 15.8
3 4020.69
2223 45.8
11.0
4.1
0.29
11
2224.7
3 50 6.21
1628 1.3
10.8
4.1
0.28
28
115.0
34329.29
223223.4
11.3
4.3
0.30
12
2224.5
3 53 54.06
164643.7
10.6
4.0
0.27
29
1 13.8
3 46 16.95
22 38 34.1
11.6
4.4
0.31
13
2224.6
3 57 57.36
17 629.7
10.3
3.9
0.27
30
1 12.3
3 48 43.35
2242 19.9
11.9
4.5
0.32
14
2225.0
4 216.08
17 27 12.0
10.1
3.8
0.26
May 1
1 10.5
350 48.28
+2243 42.7
12.2
4.6
0.33
15
2225.6
4 6 50.21
+17 4843.5
9.9
3.7
0.26
2
1 8.3
3 52 31.57
224244.2
12.5
4.7
0.34
16
2226.5
4 1139.76
181056.6
9.7
3.7
0.25
3
1 5.7
3 53 53.21
223926.9
12.9
4.9
0.34
17
2227.6
416 44.79
1833 43.5
9.4
3.6
0.24
4
1 2.8
3 54 53.35
2233 53.5
13.2
5.0
0.35
18
2229.0
4 22 5.35
1856 56.1
9.2
3.5
0.24
5
0 59.5
3 55 32.23
2226 6.9
13.5
5.1
0.36
19
2230.7
42741.51
1920 25.8
9.0
3.4
0.23
6
0 55.9
3 55 50.29
+2216 10.4
13.8
5.2
0.37
20
2232.6
4 33 33.33
+ 19 44 4.0
8.8
3.3
0.23
7
0 51.9
35548.13
22 4 8.3
14.1
5.3
0.38
21 2234.8
4 39 40.91
20 741.5
8.7
3.3
0.22
8
0 47.6
35526.62
2150 5 8
14.4
5.4
0.38
221 22 37.2
4 46 4.29
20 31 8.8
8.5
3.2
0.22
9
0 43.0
3 54 46.82
2134 9.2
14.7
5.5
0.39
23*2239.9
4 5243.49
20 5415.7
8.3
3.1
0.22
10
038.1
3 53 49.97
21 1626.0
14.9
5.6
0.40
24 2242.9
4 59 38.48
21 1651.7
8.2
3.1
0.21
11
0 33.0
3 5237.55
+20 57 5.0
15.1
5.7
0.41
25 2246.1
5 6 49.19
+2138 45.7
8.0
30
0.21
12
0 27.6
3 51 11.25
20 36 16.2
15.3
5.8
0.41
26 22 49.6
5 14 15.45
2159 46.4
7.9
3.0
0.21
13
0 22.0
3 49 32.96
20 14 11.5
15.5
5.8
0.42
27
2253.3
52157.00
221941.9
7.7
2.9
0.20
14
0 16.3
3 47 44.72
1951 4.4
15.7
5.9
0.42
28
2257.3
52953.42
223819.9
7.6
2.9
0.20
15
0 10.5
3 45 48.70
1927 9.3
158
6.0
0.42
29 23 \%
30 23 6.0
538 4.16
225528.1
7.5
2.8
020
16
0 4.5
34347.19 + 19 242.0
15.9
6.0
0.42
54628.51
+2310 54.2
7.4
2.8
0.20
16
23 58.5
1 3 4142.53 + 18 37 59.2
16.0
6.0 0.43
31 '23 10.7
5 55 5.59+2324 26.2 7.3
; 2.8 0.19
MERCURY, 1884.
383
1
FOR TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Transit.
Apparent
It. Ascension
at
Transit.
Apparent
Declination
at
Transit.
Ho-.
Par.
Semi
dlam.
8.T.uf
Sera.
Pass.
Mer.
Date.
Mean
Time
of
Transit.
Apparent
K. Ascension
at
Transit.
Apparent
Declination
at
Transit
Hor.
Par.
Semi
dlain.
11
3.3
a.T.of
Sena.
Pass.1
Mer.
1
■ "1
0.22
July 1
h m
23 10.7
b m s
5 55 5.59
+23 24 26^2
7.3
it
2.8
8
0.19
Aug.17
h m
141.6
h ra b
112748.53
0 t a
+ 21226.4
8.7
2
£) 15.5
6 3 54.34
23 35 52.7
7.2
2.7
0.19
18
141.7
113153.02
13533.9 8.8
3.3
0.22
3
23 20.5
6 12 53.45
23 45 3.1
7.1
2.7
0.19
19
141.7
1135 49.34
0 5925.7
9.0
3.4
0.22,
4
23 25.7
6 22 1.52
235147.7
7.0
2.7
0.19
20
141.6
1I39 37.25J+ 0 24 5.8
9.1
3.4
0.22!
5
2331.0
6 31 16.97
23 5558.4
6.9
2.6
0.19
21
141.3
1143 16.46
- 01021.7
9.2
3.5
0.23 j
6
23 36.4
640 38.10
+23 5729.0
6.9
2.0
0.19
22
140.9
1146 46.61
- 043 52.2
9.4
35
0.23 1
7
23 41.9
6 50 3.13
23 5614.8
6.8
2.6
0.18
23
140.3
1150 7.34 1 16 20.9
9.5
3.6
0.23 '
8
23 47.4
6 59 30.30
23 52 13.2
6.8
2.5
0.18
24
1 39.5
IJ 53 18.20 147 42.4
9.7
3.6
0.24 '
9
23 52.9
7 8 57.78
23 45 23.5
6.7
2.5
0.18
25
138.6
1156 18.66 2 17 51.2
9.9
3.7
0.24 |
10
23 58.4
7 1823.84
23 3547.3
6.7
2.5
0.18
26
1 37.5
1159 8.16
24641.3
10.0 3.7
0.25 (
12
0 3.8
7 27 46.90
+2323 27.6
6.7
2.5
0.18
27
136.2
12 146.08
- 3 14 6.2
10.2* 3.8
0.25
13
0 9.1
7 37 5.46
23 829.1
6.6
2.5
0.18
28
134.7
12 4 11.76
3 39 58.7 10.4 3.9
0.26 !
14
• 0 14.4
7 46 18.19
2250 58.0
6.6
2.5
0.18
29
1 33.0
12 624.46
4 4 11.0 10.6 4.0l0.2T>
15
0 19.5
7 55 23.91
22 31 1.5
6.6
2.5
0.18
30
131.0
12 823.34
4 26 34.7
10.8 4.1
0.27
10
0 24.5
8 4 21.67
22 8 47.5
6.6
2.5
0.18
31
128.8
1210 7.59
4 47 0.8
10.9 4.1
0.27'
1?
0 29.4
8 13 10.65
+21 44 24.6
6.6
2.5
0.17
Sept. 1
126.3
121136.28
-55 19.7
11. 1 4.2
0.28
18
0 34.1
8 2150.22
21 18 I.H
6.7
2.5
0.17
2
123.6
121248.47
5 2120.8 11. 3! 4.3
0.28
19
0 38.0 8 30 19.90
20 49 47.9
6.7
2.5
0.17
3
1 20.6
121343.18
5 34 52.8 II.51 4.4
0 2!)
20
0 43.0 8 38 39.35
20 19 51.8
6.7
2.5
0.17
4
1 17.3
1214 19.45
5 4543.9 11.8 4.5
0.29
21
0 47.2
846 48.34
19 48 22.5
6.7
2.5
0.17
5
1 13.6
1214 36.32
5 53 41.9
12.0
4.5
0.30
22
0 51.2
854 46.73
+191528.5
6.8
2.6
0.18
6
1 9.6
1214 32.89
- 55834.1
12.2
4.6
0.30
23
055.0
9 2 34.52
18 41 17.9
6.8
2.6
0.18
7
1 5.3
1214 8.38
6 0 7.7
12.4 4.7
0.31
24
0 58.7
910 11.74
18 558.6
6.8
2.6
0.18
8
1 0.6
121322.17
55810.3
12.6, 4.7
0.31
26
1 2.2
0 17 38 50
17 29 38.0
6.9
2.6
0.18
9
0 55.5
1212 13.82
5 52 30.5
12.8 4.8 0.32
26
1 5.5
9 24 54.94
16 5223.0
6.9
2.0
0.18
10
050.1
121043.22
'54258.2
13.0 4.9
0.32,
2/
1 8.7
9 32 1.22
+16 14 20.2
7.0
2.7
0.18
11
0 44.3
12 8 50.64
- 529 25.9
13.2
5.0
0.32,
28
1 11.7
9 3857.53
15 35 35.8
7.0
2.7
0.18
12
0 38.1
12 6 36.80
5 1 1 49.5
13.3
5.0
0.33J
29
1 14.5
945 44.11
14 56 15.6
7.1
2.7
0.18
13
031.6
12 4 3 01
4 50 9.4
13.4
5.0
0.33
30
1 17.2
9 5221.18
14 16 25.2
7.1
2.7
0.18
14
0 24.8
12 1 11.12
4 24 31. 1
13.5
5.1
0.33,
31
1 19.7
9 58 48.97
13 36 9.6
7.2
2.7
0.18
15
0 17.8
1158 3.73
3 55 7.4
13.6
5.1
0.33
Aug. |
122.1
10 5 7.70
+12 55 33.5
7.3
2.8
0.18
16
0 10.6
1 1 54 44.08
- 322 18.0
13.7
5.2
0.34
2
1 24,3
1011 17.60
12 1441.5
7.3
2.8
0.18
17
0 3.1
1151 16.07
2 4630.3
13.7
5.2
0.341
3
126.4
10 17 18.87
1133 37.9
7.4
2.8
0.18
17
23 55.6
1147 44.25
2 819.7
13.7
5.2
0.34
4
128.3
10 23 11.70
10 5226.9
7.5
2.8
0.18
18
23 48.2
1 1 44 13.58
12828.5
13.6
5.1
0.34
5
130.1
10 2856.29
1011 12.3
7.6
2.8
0.19
19
23 40.9
1140 49.35
0 47 44.8
13.5
6.1
0.33'
1
6
131.8
1034 32.82
+ 9 29 57.6
7.6
2.9
0.19
20
23 33.8 1137 36.96
- 0 7 0.5
13.3
5.0
0.33
7
133.3
10 40 1.44
8 48 46.8
7.7
2.9
0.19
21
23 26.9 1134 41.70
+ 0 3251.2
13.1
4.9 0.33
8
134.7
104522.25
8 7 42.8
7.8
2.9
0.19
22
2320.4
1132 8.43
1 10 58.3
12.9
4.8 0.32
9
1 30.0
10 50 35.38
72649.3
7.9
3.0
0.19
23
23 14.4
1130 1.58
14631.8
12.6
4.7
0.32
10
137.1
10 55 40.92
6 46 9.6
8.0
3.0
0.19
24
23 8.9
1128 24.82
218 47.4
12.3
4.6
0.31
11
138.1
11 0:18.93
+ 6 5 46.8
8.1
3.0
0.20
25
23 3.9
112721.02
+ 247 8.0
12.0
4.5
0.30
12
139.0
11 529.43
525 44.1
8.2
3.1
0.20
26
2259.5 1126 52.20
311 3.8
11.6
4.4
0.29
13 1 39.8
11 10 12.43
4 46 4.6
8.3
3 1
0.20
27
22 55.711126 59.47
33012.7
11.3
4.3 0.28 1
J 4 140.4 11 14 47.92
4 6 51.8
8.4
3.1
0.20
28
22 52.4 1127 43.13
3 44 20.6
10.9
4.2 0.28
15
141.0, 11 19 15.84
3 28 9.0
8.5
3.2 0.21
29
2249.8'll29 2.68
1
3 53 20.5
10.6
4.0 0.27
16 141.4112336.08
+ 249 59.3
8.6
3.2| 0.21
30
22 47.8 1 1 30 56.96 + 3 57 12. 1
10.3
3.9 0.26
17. 1 41. 0' 1 1 27 48.53:+ 2 1226.4
8.7
3.3> 0.22
31
22 46.3 II 33 24.28+ 3 56 0.7
9.9
3.71 0.25
884
MERCURY, 1884.
FOR TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Transit.
Apparent
R. Ascension
at
Transit
Apparent
DeeUn.tion
at
Transit.
Hor.
Par.
Semi
diam.
8.Tu>f
Sem.
Pass.
Mer.
Date.
Mean
Time
or
Transit
Apparent
R. Ancenaion
at
Transit
Apparent
Declination
at
Transit.
Hor. Semi-
Par, diam.
// //
6.2 2.3
S.T.of'
Sem.
Pass.
Mer.
s
0.171
Oct. 1
h m
2246.3
bras
1133 24.28
* O / //
+ 3 56 0.7
9.9
//
3.7
8
0.25
Nov. 17
h m
015.0
h m s
16 3 38.78
-22 0MK6
2
22 45.3
11 3622.54
3 49 56.4
9.7
3.6
0.24
18
017.5
16 10 9.13
2223 18.6
6.2
2.4
0.171
3
22 44.8
1 1 39 49.25
3 39 13.3
9.4
3.5
0.23
19
020.1
1616 40.84
224519.6
6.3
2.4
0.17
4
22 44.8
114341.78
324 8.7
9.1
3.4
0.22
20
022.7
162313.87
23 612.3
6.3
2.4
0.17
5
2245.1
1147 57.42
3 5 2.0
8.9
3.3
0.22
21
025.3
1629 48.15
232555.2
6.3
2.4
0.17
6
2245.8
115233.44
+ 24214.0
8.6
3.2
0.21
22
028.0
163623.63
-2344 26.9
6.3
2.4
0.17
7
22 46.8
1 1 57 27.22
2 16 6.0
8.4
3.2
0.21
23
0 30.6 1643 0.21
24 145.9
6.4
2.4
0.17
8
22 48.0
12 2 36.26
1 46 59.4
8.2
3.1
0.20
24
0 33.3 1649 37.80
2417 50.6
6.4
2.4
0.17
9
22 49.4
12 7 58.26
1 15 15.5
8.0
3.0
0.20
25
0 36.0,165616.28
24 32 39.6
6.5
2.4
0.17
10
2251.0
121331.14
041 14.7
7.8
3.0
0.19
26
0 38.7
17 2 55.48
24 4611.5
6.5
2.5
0.17
11
22 52.7
12 19 13.01
+ 05 16.1
7.6
2.9
0.19
27
041.4
17 9 35:22
-24 5824.9
6.6
2.5
0.18
12
2254.6
1225 2.25
- 03222.1
7.5
2.8
0.19
28
0 44.1
17 16 15.27
25 918.4
6.6
2.5
0.18
13
2256.6
1230 57.41
1 1 1 23.4
7.4
2.8
0.18
29
0 46.8 17 2255.38
2518 50.6
6.7t
. 2.5 0.18
14
2258.6
123657.29
1 51 32.6
7.2
2.7
0.18
30
0496 17 2935.26
2527 0.3
6.7
2.5
0.18
15
23 0.7
1243 0.87
2 32 36.2
7.1
2.7
0.18
Dec. 1
0 52.3' 173614.59
2533 46.1
6.8
2.6
0.18
16
23 2.8
1249 7.3J
- 3 14 21.8
7.0
2.6
0.17
2
0 55.0 174252.98-25 39 6.9
6.8
2.6
0.18
17
23 5.0
12 55 15.88
3 56 38.3
6.9
2.6
0.17.
3
057.6,17 4929.99
25 43 1.8
6.9 2.6 0.19
18
23 7.3
13 126.01
4 39 15.9
6.8
2.6
0.17
4
1 0.3,17 56 5.14
254529.7
7.0j 2.6
0.19
19 23 9.5
13 7 37.26
522 5.7
6.8
*6
0.17
5
1 2.9,18 2 37.86
25 4629.9
7.1 2.7
0.19
20 S3 11.8
1313 49.28
6 5 0.2
6.7
2.5
0.17
6
1 5.4 18 9 7.51
2546 1.8
7.2 2.7
0.19
21123 14.0
1320 1.80
- 6 47 52.6
6.6
2.5
0.16
7
1 7.91181533.37
-25 44 5.3
7.3! 2.7
0.20
22
23 16.3
132614.62
7 30 36.9
6.6
2.5
0.16
8
1 10.3 182154.59
254040.4
7.4 2.8
0.20
23
23 18.6
13 32 27.59
8 13 7.7
6.5
2.5
0.16
9
1 12.6, 182810.24
253547.5
7.5 2.8
0.20
24
23 20.8
1338 40.64
855 20.1
6.5
2.4
0.16
10
1 14.8 1834 19.28
25 2927.3
7.6 2.9
0.21
25
23 2:).!
13 44 53.72
937 10.1
6.4
2.4
0.16
11
1 16.91 1840 20.49
252141.1
7.7
2.9
0.21
26
2325.4
13 51 6.81
-1018 34.0
6.3
2.4
0.16
12
1 18.8* 184612.53
-251230.8
7.9
3.0
0.21
27
23 27.6
13 57 19.92
10 5928.6
6.3
2.4
0.16
13
120.5; 1851 53.86
25 159.0
6.1
3.0
0.22
28
23 29.9
14 3 33.09
113950.7
6.3
2.4
0.16
14
182.1 185722.74
24 50 9.0
8.2
3.1
0.22
29
23 32.2
14 9 46.38
1219 37.6
6.3
2.4
0.16
15
1 23.4i 19 2 37.22
24 37 5.0
8.4
3.2
0.23
30
23 34.5
14 15 59.85
1258 47.0
6.2
2.3
0.16
16
124.4, 19 735.09
24 2252.1
8.6 3.2
0.23
31
23 36.7
14 2213.58
-133716.5
6.2
2.3
0.16
17
125.IJ 191213.92
-24 7 36.8
8.8 3.3
0.94
Nov. 1
23 39.0
14 2827.65
14 15 4.3
6.2
2.3
0.16
18
1 25.5 1916 31.02
23 5126.8
9.0J 3.4
0.24
2
23 41.3
14 34 42.16
14 52 8.5
6.2
2.3
0.16
19
125.4,19 20 23.42
2334 30.6
9.3 3.5
0.25
3
23 43.6
14 40 57.19
152827.3
6.2
2.3
0.16
20
1 24.81, 192347.92
231668.3
9.5 3.6
0.26
4
23 45.9
14 47 12.85
16 3 58.9
6.1
2.3
0.16
21
1 23.8 19 26 41.12
2259 1.3
9.7 3.7
0.26
5
2348.3
14 5329.2)
-163841.9
6.1
2.3
0.16
22
122.2 1928 59.41
-2240 52.1
10.1, 3.8
0.27
6J 23 50.6
14 5946.41
17 12 34.7
6.1
2.3
0.16
23
1 19.9,19 30 39.18
222244.2
10.4 3.9
0.28
7 23 53.0
15 6 4.48
17 45 35.7
6.1
2.3
0.16
24
1 16.9,193136.93
22 4 51.7
10.7| 4.0
0.28
8 23 55.3
151223.53
1817 43.7
6.1
2.3
0.16
25
113.2,19 3149.49
214728.7
11.0 4.1
0.29
9 2357.7
151843.63
18 48 57.3
6.1
2.3
0.16
26
1 8.7 1931 14.28
213049.3
11.3 4.2
0.30
11
0 0.1
1525 4.85
-1919 14.9
6.1
2.3
0.16
27
1 3.4 1929 49.59
-21 15 5.9
11.6 4.4
0.31
12
0 2.5
15 3127.26
19 46 35.2
6.1
2.3
0.16
28
057.2 19 27 34.96
21 029.5
11.9 4.5
0.31
13
0 5.0
15 3750.93
20 16 57.0
6.1
2.3
0.16
29
050.2 192431.58
2047 9.0
12.2' 4.6
0.32
14
0 7.4
15 44 15.89
20 44 18.8
6.2
2.3
0.16
30
042.5 19 2042.51
203510.6
12.5* 4.7
0.33
15
0 9.9
1550 42.17
21 10 39.2
6.2
2.3
0.16
31
0 34.1 19 16 12.S7
l
2024 38.3
12.7| 4.8
0.34
16 012.4
15 57 9.79
-2135 56.9
6.2
2.3
0.16
32
025.1, 19 11 9.79
-201534.0
12.9 4.8 0.34
17' 0 15.0
16 3 38.78-22 0 10.6
6.2
2.3 0.17
33
0 15.7 19 512.18
-20 7 57.2113.0 4.9! 0.34
VENUS, 1884.
385
FOR TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Transit.
Apparent
R. Ascension
at
Transit.
Apparent
Declination
at
Transit.
Hor.
Par.
Semi
dlam.
8.T.of
Sem.
Pass.
Mer.
Date.
Mean
Time
of
Transit.
Apparent
R. Ascension
flt
Transit.
Apparent
Declination
at
Traiisit
Hor.
Par.
Semi-
dlam.
8.T.of
Sem.
Pass.
Mer.
n
0.46
Jan. 0
h m
151.0
h m s
20 30 23.86
O 1 II
-2040 11.4
5.9
5.7
s
0.41
F*b.l5
h m
226.0
h m s
0 6 47.83
- 0 431.5
7.0
6.8
, t
152.2
203533.76
20 22 16.3
6.0
5.8
0.41
16
226.4
011 10.12
+ 027 1.0
7.1
6.8 0.45 \
2
153.4
204042.29
20 3 46.2
6.0
5.8
0.41
17
226.8
01532.12
0 5833.3
7.1
6.9
0.45
3
154.5
20 4549.47
194441.7
6.0
5.8
0.41
18
227.3
0 19 53.89
130 4.9
7.1
6.9
0.46
4
155.6
20 50 55.30
1925 3.4
6.0
5.8
0.41
19
227.7
0 24 15.46
2 135.1
7.2
6.9
0.46
5
156.7
20 5559.74
-19 4 52.2
6.0
5.8
0.41
20
228.1
028 36.85
+ 233 3.1
7.2
7.0
0.46
6
157.8
21 1 2.78
18 44 8.9
6.1
5.8
0.41
21
228.5
03258.11
3 4 28.1
7.2
7.0
0.46
7
158.9
21 6 4.42
1822 54.2
6.1
5.9
0.41
22
2 28.9
0 37 19.29
3 3549.4
7.3
7.0
0.46
8
2 0.0
21 11 4.66
18 1 8.9
6.1
5.9
0.41
23
229.3
04140.41
4 7 6.4
7.3
7.1
0.47
9
2 1.1
21 16 3.50
17 3853.7
6.1
5.9
0.41
24
229.7
0 46 1.51
4 3818.3
7.4
7.1
0.47
10
2 2.1
2121 0.94
-1716 9.3
6.1
5.9
0.41
25
2 30.1
0 50 22.63
+ 5 924.4
7.4
7.1
0.47
11
2 3.1
212556.99
16 5256.6
6.1
5.9
0.41
26
2 30.5
0 54 43.80
540 24.0
7.4
7.2
0.47
12
2 4.1
2130 51.65
162916.2
6.2
6.0
0.41
27
2 30.9
0 59 5.05
611 16.4
7.6
7.2
0.47
13
2 5.1
213544.93
16 5 9.1
6.2
6.0
0.41
28
2 31.3
1 326.41
6 42 0.9
7.5
7.2
0.48
14
2 6.0
21 40 36.84
15 40 36.0
6.2
6.0
0.42
29
2 31.7
1 747.92
712 36.7
7.6
7.3
0.48
15
2 6.9
2145 27.41
-15 1537.7
6.2
6.0
0.42
Mar. 1
232.1
1 12 9.60
+ 743 3.0
7.6
7.3
0.48
16
2 7.7
21 50 16.65
14 5014.8
6.2
6.0
0.42
2
232.5
1 1631.48
8 13 19.2
7.6
7.4
0.48
17
2 8.6
2155 4.59
14 24 28.3
6.3
6.1
0.42
3
232.9
120 53.59
843 24.6
7.7
7.4
0.49
'18
2 9.4
215951.23
135818.9
6.3
6.1
0.42
4
2 33.4
1 25 15.95
9 13 18.5
7.7
7.4
0.49
19
210.2
22 4 36.61
133147.4
6.3
6.1
0.42
5
233.8
129 38.58
943 0.1
7.8
7.5
0.50
20
211.0
22 920.74
-13 4 54.6
6.3
6.1
0.42
6
2 34.2
134 1.51
+101228.8
7.8
7.5
0.50
21
2 11.8
2214 3.65
1237 41.3
6.4
6.1
0.42
7
234.7
13824.77
10 4143.9
7.8
7.6
0.50
22
212.5
221845.37
1210 8.4
6.4
6.2
0.42
8
235.1
14248.39
11 10 44.6
7.9
7.6
0.51
23
213.2
222325.92
1 1 42 16.5
6.4
6.2
0.42
9
235.6
1 47 12.37
1139 30.2
7.9
7.7
0.51
24
213.9
2228 5.33
1114 6.5
6.4
6.2
0.42
10
236.0
1 51 36.74
12 8 0.2
6.0
7.7
0.52
25
214.6
223243.64
-104539.2
6.5
6.2
0.42
11
2 36.6
156 1.53
+123613.8
8.0
7.8
0.52
26
215.3
223720.86
1016 55.4
6.5
6.3
0.42
12
2 37.0
2 026.76
13 4 10.2
8.1
7.8
0.53
27
216.0
22 4157.03
9 47 55.9
6.5
6.3
0.42
13
2 37.5
2 4 52.46
13 3148.9
8.1
7.9
0.53
28
216.6
2246 32.17
91841.5
6.5
6.3
0.42
14
2 38.0
2 918.64
1359 9.2
8.2
7.9
0.54
29
217.2
2251 6.32
84913.0
6.6
6.3
0.43
15
2 38.5
213 45.33
14 2610.4
8.2
8.0
0.54
30
217.8
225539.51
- 81931.0
6.6
6.4
0.43
16
2 39.1
2 18 12.53
+14 5251.9
8.3
8.0
0.55
31
218.4
23 011.77
74936.5
6.6
6.4
0.43
17
2 39.6
22240.26
15 19 13.0
8.3
8.1
0.55
Feb. 1
219.0
23 4 43.13
7 1930.2
6.6
6.4
0.43
18
240.1
2 27 8.53
154512.9
8.4
8.1
0.56
2
219.6
23 913.63
64912.8
6.6
6.4
0.43
19
240.6
23137.35
1610 51.2
8.5
8.2
0.56
3
220.1
231343.30
61845.3
6.7
6.5
0.43
20
241.2
236 6.74
16 36 7.1
8.5
8.2
0.67
4
220.7
231812.17
-548 8.3
6.7
6.5
0.43
21
241.7
240 36.70
+17 1 0.0
8.6
8.3
0.57
5
221.2
232240.29
517 22.6
6.7
6.5
0.43
22
242.3
245 7.22
172529.3
8.6
8.3
0.58
6
221.7
2327 7.67
4 4629.0
6.8
6.5
0.43
23
242.8
24938.30
17 4934.4
8.7
8.4
0.58
7
222.2
233134.36
41528.2
6.8
6.6
0.43
24
243.4
254 9.95
1813 14.6
8.8
8.5
0.59
8
222.7
23 36 0.40
3 44 20.9
6.8
6.6
0.44
25
2 44.0
25842.16
183629.3
8.8
8.5
0.59
9
223.2
2340 25.83
- 3 13 8.0
6.9
6.6
0.44
26
244.6
3 3 14.92
+185917.8
8.9
8.6
0.60
10
223.7
23 44 50.69
24150.1
6.9
6.6
0.44
27
245.2
3 7 48.22
192139.6
9.0
8.6
0.60
11
224.2
23 4915.02
21028.0
6.9
6.7
0.44
28
245.8
31222.04
19 4334.0
9.0
8.7
0.61
12
224.7
23 53 38.85
139 2.4
6.9
6.7
0.44
29
246.4
31656.36
20 5 0.4
9.1
8.8
0.61
13
225.1
23 58 2.24
1 7 33.9
7.0
6.7
0.45
30
247.1
32131.16
202558.3
9.2
8.8
0.62
14
225.6
0 225.22
- 036 3.3
7.0
6.8
0.45
31
247.7
326 6.41
+204627.2
9.2
8.9
0.63
15
226.0
0 6 47.83
- 0 4 31.5
7.0
6.8
0.45
32
248.4
330 42.08
+21 626.5
9.3
9.0
0.63
25
386
VENUS, 1884
FOB TBAN8IT AT WASHINGTON.
Mean
Time
Apparent
R. Ascension
Apparent
Declination
S.T.of
Sem.
Date.
Mean
Time
Apparent
R. Ascension
Apparent
Declination
_ L
«LTjtf|
Date.
of
at
at
Hot.
Semi-
Pate.
or
at
at
Hor. [Sem
i- Pass.'
Transit
Transit
Transit.
Far.
diam.
Iter.
-
Transit
Transit
Transit.
Par. taaoo
i. ftfer. ;
h m
h m s
O 1 II
//
a
s
h m
b m e
O 1 It
// ii
Apr. 1
248.4
330 42.08
+21 62(1.5
9.3
9.0
0.63
May 17
3 8.7
6 5225.84
+2614 28.4
14.9, 14.4 1.07
2
249.0
3 3518.15
212555.7
9.4
9.1
0.64
18
3 8.3
6 56 2.04
26 822.5
15.1
14.6 1.08
3
249.7
339 54.58
2144 54.2
9.4
9.1
0.65
19
3 7.9
66934.38
26 151.2
15.3 14.8 1.10
4
250.3
344 31.33
22 321.4
9.5
9.2
0.65
20
3 7.4
7 3 2.73
2554 55.4
15.5
15.0 1.11
5
251.0
349 8.36
2221 17.0
9.6
9.2
0.66
21
3 6.9
7 626.94
2547 35.9
15.7 15.2 1.12
6
251.6
3 53 45.63
+223840.5
9.7
9.3
0.67
22
3 6.3
7 946.87
+2539 53.6
16.0
15.4
I 1.14
7
252.3
3 5823.09
225531.5
9.8
9.3
0.67
23
3 5.6
713 2.35
25 3149.3
16.2
15.7 1.15 1
8
253.0
4 3 0.71
231149.5
9.8
9.4
0.68
24
3 4.9
7 16 13.23
252324.0
J6.4
I5.fi
n.i7
9
253.7
4 738.43
2327 34.1
9.9
9.5
0.69
25
3 4.1
7 19 19.33
25 14 38.6
16.6
16.1
1.16 1
10
254.4
4 12 16.20
234245.0
10.0
9.6
0.70
26
3 3.2
72220.49
25 5 34.1
16.9
16.2
1 1.20
11
255.1
41653.99
+23 5721.7
10.1
9.7
0.71
27
3 2.2
72516.53
+24 5611.4
17.2
16.6 1.21 j
13
255.8
42131.73
24 1124.1
10.2
9.8
0.72
28
3 1.1
728 7.27
24 46 31.6
17.4
16.8 1.23 (
13
256.5
4 26 9.36
24 24 51.7
10.3
9.9
0.72
29
259.9
73052.53
24 3635.7
17.7
17.1
1.24
14
257.2
4 3046.82
24 3744.3
10.4
10.0
0.73
30
258.6
73332.11
24 2624.8
17.9 17.3
18.4 17.6
1.26
15
267.8
4 3524.05
24 50 1.7
10.5
10.1
0.74
31
257.2
736 5.82
241559.9
1.28
16
258.5
4 40 0.99
+25 143.6
10.6
10.2
0.75
June 1
265.7
738 33.46
+24 522.1
18.5 17.9
1.30 J
17
259.2
4 44 37.57
251249.7
10.7
10.3
0.76
2
254.2
74054.83
23 54 32.4
18.8 18.2 1.38
18
259.9
4 4913.72
252320.0
10.8
10.4
0.76
3
252.5
743 9.72
2343 31.8
19.1
18.5
1.34
19
3 0.5
4 5349.38
253314.3
10.9
10.5
0.77
4
250.7
74517.92
23 3221.4
19.4
18.7
1.36*
90
3 1.2
4 5824.46
254232.5
11.0
10.6
0.78
5
248.7
74719.21
2321 2.3
19.7
19.0
1.38
21
3 1.8
5 258.87
+255114.5
11.1
10.7
0.79
6
246.7
74913.38
+23 935.6
20.1
19.3
1.40 j
?8
3 2.4
5 732.53
25 5920.4
11.2
10.8
0.80
7
244.6
751 0.22
2258 2.3
20.4
19.7
1.42
23
tf 3.0
512 5.35
26 6 50.1
11.3
10.9
0.80
8
242.3
75239.51
224623.5
20.7
20.0
1.44
24
3 3.6
516 37.25
261343.6
11.4
11.0
0.81
9
239.8
754 11.04
2234 40.4
21.0 20.3
1.46
25
3 4.2
521 8.13
2620 0.9
11.5
11.1
0.82
10
237.3
75534.60
222253.9
21.4
20.6
1.48
26
3 4.8
52537.90
+262542.1
11.6
11.2
0.83
11
234.6
7 56 49.98
+2211 5.2
21.7
21.0
1.50
27
3 5.3
530 6.44
2630 47.3
11.7
11.3
0.84
12
231.8
75756.97
21 59 15.3
22.1
21.3
1.53
28
3 5.8
534 33.65
26 3516.6
11.9
11.6
0.85
13
228.9
75855.36
2147 25.1
22.4 21.7
1.55
29
3 6.3
53859.43
263910.4
12.0
11.6
0.86
14
225.8
75944.94
21 3535.6
23.8 22.0
1.57
30
' 3 6.8
54323.65
264228.8
12.1
11,7
0.87
15
222.6
8 025.52
212347.9
23.222.4
J.50
May 1
3 7.2
54746.22
+2645 12.1
12.3
11.8
0.88
16
219.1
8 056.93
+21 12 2.9
23.6J22.7
1.62
2
3 7.6
552 7.01
264720.5
12.4
12.0
0.89
17
215.6
8 1 18.99
21 021.7
23.9 23.1
1.64'
3
3 7.9
55625.92
264854.3
12.6
12.1
0.90
18
211.8
8 131.53
204845.2
24.323.5
1.67
4
3 8.2
6 0 42.82
26 4953.9
12.7
12.3
0.91
19
2 7.9
8 134.39
20 3714.3
24.7, 23.8
1.09
6
3 8.5
6 4 57.60
26 5019.7
12.8
12.4
0.92
20
2 3.9
8 127.44
202550.0
25.1
24.2
1.71
6
3 8.7
6 9 10.13
+265012.0
13.0
12.5
0.93
21
159.6
8 110.57
4-20 14 33.0
25.4 24.6
1.74
7
3 8.9
61320.30
26 4931.1
13.1
12.7
0.94
22
155.3
8 043.73
20 324.3
25.8 24.9
1.76
8
3 9.1
61727.99
264817.8
13.3
12.8
0.96
23
150.8
8 0 6.85
195224.7
26.2 25.3
1.79
9
3 9.3
62133.09
264632.5
13.5
13.0
0.97
24
146.1
75919.89
194135.1
26.6 25.7
1.81
10
3 9.4
62535.47
264415.8
13.6
13.1
0.98
25
141.2
7 5822.95
193056.1
27.0*26.0
1.83
11
3 9.5
629 35.02
+264128.2
13.8
13.3
0.99
26
136.2
75716.07
+192028.5
27.3 26.4
1.85
1.88
1.90
1.92
1.94
12
3 9.5
6 3331.62
2638 10.3
13.9
13.4
1.00
27
131.0
755 59.38
19 10 13.0
27.7 26.7
13
3 9.5
637 25.13
2634 22.6
14.1
13.6
1.02
28
125.6
7 54 33.07
19 010.2
28.0,27.0
14
3 9.4
64115.44
26 30 5.9
14.3
13.8
1.03
29
120.1
762 57.40
185020.7
28.3 27.3
15
3 9.2
645 2.41
262520.8
14.5
14.0
1.04
30
114.4
75112.71
184044.9
28.6 27.6
16
3 9.0
64845.92
+2620 8.1
14.7
14.2
1.05
31
1 8.6
74919.40
+183123.5
28.9 27.9
1.96
17
3 8.7
65225.84
+26 14 28.4
14.9 14.4
1.07
32
I 2.7
74717.96+182217.1 29.2
28.«_
VENUS, 1884.
387
FOR TRANSIT AT WASHINGTON.
Data.
Mean
Time
of
Transit.
Apparent
B.Asoension
at
Transit
Apparent
Declination
at
Transit.
Hor.
Par.
Semi-
diam.
8.T.of
Sem.
Pass.
Mer.
Date.
Mean
Time
of
Transit.
Apparent
R. Ascension
at
Transit.
Apparent
Declination
at
Transit.
Hor.
Par.
Semi-
diam.
8.T.of
Sem.
Pass.
Mer.
July 1
h m
1 8.6
h m u
7 4919.40
Q 1 II
4-18 3123.5
28.9
27.9
s
1.96
Aug. 15
h m
2121.5
h m s
7 3 3.40
O 1 II
+17 0 8.4
20.2
19.5
1.35
2
1 2.7
7 47 17.96
182217.1
29.2
28.2
1.97
16
21 19.5
7 5 1.87
17 228.3
19.9
19.2
1.33
3
0 56.6
745 8.93
181326.1
29.5
28.4
1.99
17
21 17.7
7 7 6.73
17 4 40.3
19.5
18.9
1.31
4
0 50.4
74252.99
18 4 51.0
29.7
28.7
2.01
18
21 16.0
7 917.75
17 643.0
19.3
18.6
1.29
6
0 44.1
740 30.81
175632.4
29.9
28.9
2.03
19
21 14.4
71134.69
17 835.2
19.0
18.3
1.27
6
0 37.7
738 3.16
+174830.7
30.1
29.0
2.04
20
21 12.6
713 57.35
+17 10 15.8
18.7
16.1
1.26
7
0 31.2
73530.87
1740 46.7
30.2
29.2
2.05
21
21 11.3
71625.49
17 11 43.7
18.4
17.8
1.24
8
024.6
7 3254.87
17 3320.9
30.3
29.3
2.06
22
21 9.9
71858.90
171257.7
18.1
17.5
1.22
9
018.0
73016.11
172613.6
30.4
29.4
2.06
23
21 8.6
7 2137.39
171356.8
17.9
17.3
1.20
10
011.5
727 35.50
1719 25.8
30.5
29.4
2.06
24
21 7.3
724 20.77
1714 40.0
17.6
17.0
1.19
11
0 4.9
724 54.06
+171258.1
30.5
29.5
2.07
25
21 6.2
727 8.85
+1715 6.4
17.4
16.8
1.17
11
23 58.3
72212.81
17 6 51.0
30.5
29.5
2.06
26
21 5.2
7 30 1.45
171515.1
lf.l
16.5
1.16
13
23 51.7
7 1932.77
17 1 5.2
30.5
29.4
2.06
27
21 4.2
73258.39
1715 5.3
16.9
16.3
1.14
13
23 45.1
716 54.90
165541.2
30.4
29.4
2.05
28
21 3.3
73559.50
1714 35.9
16.6
16.1
1.13
14
2338.6
714 20.13
1650 39.7
30.3
29.3
2.04
29
21 2.5
7 39 4.62
171346.2
16.4
15.9
1.11
15
2332.2
7 11 49.37
+16 46 1.3
30.2
29.1
2.03
30
21 1.7
74213.60
+171235.5
16.2
15.6
1.10
16
2325.9
7 923.47
164146.5
30.0
29.0
2.02
31
21 1.0
74526.29
1711 3.1
16.0
15.4
1.09
17
2319.6
7 7 3.23
1637 55.6
29.8
28.8
2.01
Sept. 1
21 0.3
7 4842.55
17 9 8.2
15.7
15.2
1.07
18
2313.4
7 4 49.39
1634 28.9
29.6
28.6
1.99
2
2059.7
7 52 2.23
17 650.2
15.5
15.0
1.06
19
23 7.3
7 242.60
163126.5
29.4
28.4
1.97
3
2059.1
75525.19
17 4 8.4
15.3
14.8
1.04
20
23 1.4
7 043.46
+162848.5
29.1
28.1
1.95
4
20 58.6
758 51.28
+17 1 2.2
15.1
14.6
1.03
21
2255.7
65852.48
162634.8
28.8
27.9
1.94
5
20 58.1
8 220.39
16 5731.1
14.9
14.4
1.01
22
2250.0
65710.10
1624 45.3
28.5
27.6
1.92
6
20 57.7
8 552.39
16 53 34.7
14.7
14.2
1.00
23
2244.5
65536.69
162319.7
28.2
27.3
1.90
7
2057.3
8 927.15
164912.4
14.6
14.1
0.99
24
2239.2
65412.57
162217.4
27.9
27.0
1.88
8
2057.0
813 4.55
1644 23.9
14.4
13.9
0.97
25
2234.1
65257.97
4-162137.7
27.6
26.6
1.86
9
20 56.7
81644.45
+16 39 8.8
14.2
13.7
0.96
26
2229.1
65153.07
1621 19.8
27.2
26.3
1.83
10
2056.5
82026.74
163326.9
14.0
13.6
0.94
27
2224.2
65058.00
162123.0
26.9
26.0
1.81
11
2056.3
82411.31
162717.8
13.9
13.4
0.93
28
22.19.5
65012.82
162146.4
26.5
25.6
1.79
12
2056.1
827 58.05
162041.2
13.7
13.3
0.92
29
2215.0
64937.56
162228.7
26.1
25.3
1.76
13
20 56.0
63146.85
1613 37.0
13.5
13.1
0.91
30
2210.6
64912.24
+162328.6
25.8
24.9
1.74
14
20 55.9
83537.60
+16 6 5.0
13.4
13.0
0.89
31
22 6.4
648 56.81
1624 45.0
25.4
24.5
1.71
15
2055.8
839 30.18
1558 5.0
13.3
12.8
0.88
Aug. 1
22 2.4
64851.18
162616.4
25.0
24.2
1.69
16
20 55.7
84324.50
154936.9
13.1
12.7
0.87
2
2158.6
64855.22
1628 1.4
24.7
23.8
1.66
17
2055.7
84720.45
154040.7
13.0
12.5
0.86
3
21 54.9
649 8.79
162968.6
24.3
23.5
1.64
18
20 55.8
8 5117.95
1531 16.4
12.8
12.4
0.85
4
2151.3
64931.75
+1632 6.4
23.9
23.1
1.61
19
2055.8
85516.91
+152123.9
12.7
12.3
0*34
5
21 47.9
650 3.91
163423.5
23.5
22.8
1.59
20
20 55.9
8 5917.24
1511 3.1
12.5
12.1
0.83
6
21 44.7
65045.07
163648.2
23.2
22.4
1.56
21
2056.0
9 318.86
15 014.1
12.4
12.0
0.82
7
21 41.6
65135.02
163919.1
22.8
22.1
1.54
22
2056.1
9 721.69
14 4857.0
12.3
11.9
0.81
8
2138.6
65233.55
164154.7
22.5
21.7
1.52
23
2056.2
91125.66
14 3711.9
12.1
11.8
0.80
9
2135.7
65340.43
+1644 33.4
22.1
21.4
1.49
24
2056.3
91530.71
+14 24 58.9
12.0
11.6
0.80
10
2133.0
654 55.42
164713.7
21.8
21.1
1.47
25
2056.5
91936.77
14 12 18.2
11.9
11.5
0.79
11
2130.5
65618.27
164954.1
21.4
20.7
1.44
26
2056.6
92343.77
1359 9.8
11.8
11.4
0.78
12
2128.1
65748.74
165233.2
21.1
20.4
1.42
27
2056.8
92751.67
134533.9
11.7
11.3
0.77
13
2125.8
65926.59
1655 9.5
20.6
20.1
1.40
28
20 57.0
932 0.41
133130.7
11.6
11.2
0.76
14
2123.6
7 111.56
+165741.7
20.5
19.8
1.38
29
2057.2
936 9.93
+1317 0.4
11.4
11.0
0.76
15
2121.5
7 3 3.40
+17 0 8.4
20.2
19.5 1.35
30
2057.4
94020.19
+13 2 3.2
11.3
109
0.75
388
VENUS, 1884.
FOR TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Transit
Apparent
R. Ascension
at
Transit.
Apparent
DedWtkm
at
Transit.
Hor.
Par.
Sffni-
diam.
8.T.of
Sem.
Pais.
Mer.
Date.
Mean
Time
or
Transit
Apparent
R. Aiioension
»t
Transit
Apparent
Declination
at
Transit
Hor.
Par.
7.9
Semi-
diam.
ill
&T.OT
Rem.
Pas*.
Mer.
11
0.51
Oct. 1
h ID
20 57.7
h m a
944 31.15
+1246 39.5
11.2
10.8
8
0.74
Nov.16
h m
21 15.2
h m 0
13 327.27
- 4 425UJ
2
2058.0
94842.76
123049.6
11.1
10.71 0.73
17
21 15.7
13 7 55.81
5 916.7
7.9
7.6
0.51
3
2058.3
95254.98
1214 33.7
11.0
10.6 0.72
18
21 16.3
131225.01
53539.8
7.8
7.6 0.50
4
20 58.6
957 7.78
1157 52.2
10.9
10.5 0.72
19
21 16.8
131054.87
6 2 0.1
7.8
7.5 0.50
5
20 58.9
10 121.12
1140 45.4
10.8
10.4 0.71
20
21 17.4
132125.43
62816.8
7.7
id
0.50
6
20 59.1
10 534.96
+1123 13.6
10.7
10.3 0 70
21
21 18.0
132556.71
- 654 29.1
7.7
7.4
0.50
7
2059.4
10 949.28
11 5 17.2
10.6
10.2 0.70
22
21 18.6J 133028.74
7 2036.4
7.7
7.4
0.50
8
20 59.7
1014 4.05
10 4656.7
10.5
10. 1
0.69
2*3
21 19.2
1335 1.55
7 4637.8
7.6
7.4
0.49
9
21 0.0
10 18 19.22
102812.6
10.4
10.1
0.68
24
21 19.8
13 3935.16
812 32.6
7.6
7.3
0.49:
10
21 0.3
10 2234.77
10 9 5.3
10.3
10.0
0.68
25
2120.4
1344 9.60
83819.9
7.5
7.3
0.49
11
21 0.7
102650.68
+ 94935.4
10.2
9.9
0.67
26
2121.1
134844.90
-9 359.0
7.5
7.2 0.49
12
21 1.0
1031 6.92
929 43.2
10.2
9.8
0.67
27
2121.7
135321.08
92929.1
7.4
7.2i 0.49
13
21 1.4
103523.46
9 929.3
10.1
9.7
0.66
28
21 22.4
13 57 58.17
9 54 49.5
7.4
7.2 0.48!
14
21 1.7
103940.30
84854.2
10.0
9.6
0.65
29
21 23.1
14 236.20
10 19 59.3
7.4
7.1
0.48 1
15
21 2.0
1043 57.40
827 58.4
9.9
9.6
0.65
30
2123.8
14 715.19
1044 57.8
7.3
7.1
0.48 1
16
21 2.3
104814.75
+ 8 6 42.6
9.8
9.5
0.64
Dec. 1
2124.6
14 1155.17
-11 944.2
7.3
7.1
0.48
17
21 2.7
105232.34
7 45 7.2
9.7
9.4
0.64
2
21 25.4
14 1636.17
113417.8
7.3
7.0,0.48
18
21 3.0
105650.16
7 23 12.8
9.7
9.3
0.63
3
21 26.1
14 21 18.21
1158 37.7
7.2
7.0^.48:
19
21 3.4
11 1 8.19
7 1 0.0
9.6
9.3 0.63
4
2126.9
14 26 1.30
122243.1
7.2
6.9! 0.47!
20
21 3.7
11 526.43
6 3829.5
9.5
9.2 0.62
5
21 27.7
14 3045.48
124633.2
7.2
6.9. 0.47 |
21
21 4.1
11 944.86
+ 61541.7
9.4
9.1
0.6t
6
2128.5
14 3530.76
-1310 7.2
7.1
6.9 0.47*
22
21 4.4
11 14 3.50
5 5237.3
9.4
9.1
0.61
7
2129.3
14 40 17.17
1333 24.3
7.1
6.8|o.47!
23
21 4.8 11 1822.34
529 17.0
9.3
9.0
0.60
8
2130.1
14 46 4.71
135623.7
7.1
6.8,0.47'
24
21 5.2.112241.38
5 5 41.3
9.2
fl.9
0.60
9
2130.9
14 49 53.40
14 19 4.6
7.0
6.8 0.47 1
25
21 5.6 1127 0.03
4 4150.9
9.2
8.9
0.59
10
21 31.8
14 54 43.25
14 4126.1
7.0
6.7 0.47
26
21 6.0 113120.10
+ 4 17 46.3
9.1
8.8
0.59
11
2132.7
14 59 34.27
-15 3 27.6
7.0
6.7 0.47
27
21 6.4 113539.80
3 53 28.0
9.0
8.7
0.59
12
2133.6
15 4 26.47
1525 8.0
6.9
6.7.0.46
28
21 6.8( 1139 59.74
3 28 56.8
9.0
8.7
0.58
13
21 34.5
15 919.85
15 4626.7
6.9
6.7 0.46
29
21 7.2 1144 19.93
3 4 13.5
8.9
8.6
0.58
14
2135.5
1514 14.42
16 7 22.9
6.9
6.6 0.46
30
21 7.6 114840.39
239 18.6
8.8
8.5
0.57
15
2136.5
151910.18
162755.7
6.8
6.6 0.46
31
21 8.0 1153 1.14
+ 2 14 12.7
8.8
8.5
0.57
16
2137.5
1524 7.14
-1648 4.4
6.8
6.61 0.46 :
Nov. 1
21 8.4 1157 22.19
14856.5
8.7
8.4
0.57
17
2138.5
1529 5.29
17 7 48.1
6.8
6.6 0.46!
2
21 8.8 12 1 43.57
123 30.7
8.7
8.4
0.56
18
2139.6
1534 4.62
17 27 6.2
6.7
6.5
0.401
3
21 9.2 12 6 5.28
0 57 55.9
8.6
8.3
0.56
19
21 40.6
1539 5.14
174557.8
6.7
6.5
0.45'
4
21 9.6 121027.36
0 32 12.7
8.5
8.3
0.55
20
2141.7
1544 6.85
18 4 22.2
6.7
6.5
0.45 .
• 6
21 10.0 12 14 49.81
+ 0 622.0
8.5
8.2
0.55
21
21 42.8
1549 9.73
-1822 18.Q
6.7
6.4
0.45
6
21 10.5 12 19 12.65
- 01935 6
8.4
8.1
0.55
22
21 43.9
1554 13.77
183946.1
6.6
6.4! 0.45
7
21 10.9 122335.91
0 4539.4
8.4
8.1
0.54
23
21 45.0
155918.97
18 5644.2
6.6
6.4J 0.45
8
21 11.4 1227 59.61
1 1148.7
8.3
8.0
0.54
24
21 46.2
16 4 25.31
19 13 12.2
6.6
6.40.45
9
21 11,8 123223.76
138 2.8
8.3
8.0
0.53
25
21 47.4
16 9 32.78
1929 9.3
6.6
6.3 0.45 !
10
2112.3 12 3648.38
-24 20.9
8.2
7.9
0.53
26
21 48.6
1614 41.36
-19 44 34.9
6.5
6.3
0.45
11
2112.6 12 41 13.50
23042.2
8.2
7.9
0.53
27
21 49.9
161951.04
19 5928.3
6.5
6.3
0.45
12
21 I3.2r 124539.14
2 57 6.0
8.1
7.8
0.52
28
2151.2
1625 1.80
201348.8
6.5
6.2
0.44
13
21 13.7 1250 5.31
32331.6
8.1
7.8
0.52
29
21 52.4
16 30 13.61
2027 35.8
6.5
6.2
0.44
14
21 14.2J 1254 32.04
34958.2
8.0
7.8
0.51
30
2153.7
163526.46
2040 48.6
6.4
6.2
0.44,
15
2114.7:125859.35
- 4 1625.2
8.0
7.7
0.51
31
21 55.0
16 40 40.31
-20 53 26.6
6.4
6.2
0.44
16. 21 J5.2 13 3 27.27- 4 42 51.6
7.9
7.7
0.51
32
2156.3
1645 55.14
-21 529.2
6.4
6.2 0.44 j
MARS, 1884
389
FOR TRANSIT AT WASHINGTON,
Date.
Moan
Time
of
Transit
Apparent
B.Aaconsion
at
Transit
Apparent
Declination
at
Transit.
Hor.
Par.
Semi-
diam.
8.T.of
Sera.
Pass.
Mer.
Date.
Mean
Time
of
Transit.
Apparent
R. Ascension
at
Transit.
Apparent
Dedication
at
Transit
Hor.
Par.
Semi
diain.
S.T.of
Sera.
Pass.
Men
Jan. 0
h m
14 58-6
h m s
9 40 7.00
+ 1754 S&6
11.6
6.6
s
0.47
Feb 15
h m
10 58.6
h in s
840 59.80
+99 5955.V
I9.V
7.3
s
0,53
1
14 54.9
9 39 39.61
17 59 10.9
11.7
6.6
0.47
16
10 53.4
8 39 33.16
99 56 96.9
19.6
" 7.3 0.59
o
14 49.6
9 39 8.Q5
18 4 13.6
11.7
6.7
0.47
17
10 48.9
8 38 15.94
99 5949.9
19.6
7.9 0.59
3
14 45.3
9 38 35.01
18 9 30.8
11.8
6.7
0.48
18
10 43.0
8 37 1.96
93 9 41.6
19.5
7.9 0.69
4
14 40.7
937 57.80
18 15 1.3
11.9
6.8
0.48
19
10 37.8
8 35 49.94
93 595.3
19.4
7.1
0.59
5
14 36.1
937 17.33
+169045.1
19.0
6.8
0.48
90
10 39.7
8 34 39.99
+93 7 53.3
19.4
7.1
0.51
6
14 31.4
9 36 33.64
189641.8
190
6.9
0.49
91
10 97.7
833 33.61
93 10 5.7
19.3
7.0
0.51
7
14 96.7
9 3546.75
18 3951.0
19.1
6.9
0.49
99
JO 99.7
839 30.16
' 93 19 9.7
19.9
7.0
0.51
6
14 99.0
934 56.68
1839 19.1
19.9
7.0
0.49
93
10 17.8
8 3199.71
9313 44.9
19.1
6.9
0.60
9
14 17.1
934 3.48
184544.6
19.3
7.0
0.50
94
10 19.9
6 30 39.35
93 1511.0
19.0
6.9
0.50
10
14 19.9
933 7.18
+185997.9
19.4
7.1
0.50
95
10 8.0
899 38.13
+93 1699.8
19.0
6.6
0.50
11
14 7,3
9 39 7.83
18 5991.9
19.4
7.1
0.50
96
10 3.9
896 47.11
93 1790.0
11.9
6.8 0.49
13
14 9.3
9 31 5.49
19 693.9
19.5
7.1
0.51
97
9 58.5
897 59.39
23 18 9.8
11.8
6.7
(U9
13
1357.3
930 0.91
1913 35.4
19.6
7.9
0.51
98
953.8
897 14.81
93 1831.5
11.7
•6.7
0.49
14
13 59.3
99859.06
199054.8
19.7
7.9
0.51
99
949.9
89633.61
93 1846.4
11.6
6.6
0.46
15
13 47.9
997 41.19
+199891.4
19.7
7.9
0.59
Mai . 1
044.7
895 55.79
+931847.9
11.6
6.6
0.46
16
13 49.0
9 9697.47
19 3554.3
19.8
7.3
0.59
9
940.9
89591.15
93 18 36.1
11.5
6.6
0.47
17
13 36.8
99511.90
19 43 39.7
19.8
7.3
0.59
3
9 35.7
894 49.91
93 1811.3
11.4
6.6
0.47
18
1331.6
993 59.41
19 51 15.6
19.9
7.3
0.53
4
931.3
894 91.99
93 17 33.9
11.3
6,4
0.47
19
13 96.3
99931.99
19 59 9.0
19.9
7.4
0.53
5
997.0
893 57.38
93 16 44.5
11.9
6.4
0.46
SO
13 91.0
9 91 7.74
+90 6 50.9
13.0
7.4
0.53
6
999.7
893 36.07
+93 1549.9
11.1
6.3
0.46
91
13 15.6
91949.19
901441.3
13.0
7.4
0.53
7
9 18.5
893 18.01
9314 99.9
11.0
6.3
0.45
99
13 10.9
9 16 14.49
90 9939.9
13.0
7.4
0 53
8
914.3
893 3.90
93 13 5.6
10.9
6.9
0.46
93
13 4.8
9 1644.99
90 3099.5
13.1
7.5
0.53
9
9 10.9
8 99 51.60
93 1 1 30.9
10.8
6.9
0.44
94
19 59.4
9 15 13.80
90 38 11.3
13.1
7.5
0.54
10
9 6.1
89943.16
93 9 44.0
10.7
6.1
0.44
95
1953.9
9 13 41.0?
+90 45 57.5
13.1
7.5
0.54
11
9 9.1
.89937.86
+93 7 47.9
10.6
6.1
0.43
96
19 48.4
919 6.98
90 53 40.0
13.1
7.5
0.54
19
8 58.1
89935.65
93 5 40.1
10.5
6.0
0.43
97
19 49.9
9 1031.71
91 1 17.5
13.9
7.6
0.54
13
8 54.9
89936.50
93 393.0
10.4
6.0
0.43
96
1937.4
9 8 55.46
91 849.9
13.9
7.6
0.54
14
8503
89940.35
93 0 56.1
10.3
5.9
0.49
90
1931.8
9 7 18.41
91 16 14.9
13.9
7.6
0.54
15
846.5
89947.16
99 5819 6
10.9
5.9 0.49
30
1996.3
9 640.76
+9193 31.4
13.9
7.6
0.54
16
849.8
89956.91
+995533.7
10.9
5.6
0.41
31
1990.7
9 4 9.79
9130 39.9
13.9
7.5
0.54
17
839.0
893 9.55
995938.5
10.1
5.6
0.41
Feb. 1
19 15.9
9*294.47
9137 38.9
13.9
7.5
0.54
18
835.3
89395.09
9949 34.9
10.0
5.7
0.40
9
19 9.6
9 0 46.99
91 44 97.5
13.1
7.5
0.54
19
831.7
893 43.99
994690.9
9.9
5.7
0.40
3
19 4.0
8 59 8.18
9151 5.0
18.1
7.5
0.54
90
896.1
8 94 4.30
99 4958.8
9.8
5.6
0.40
4
1158.5
857 30.59
+915730.7
13.1
7.5
0.54
*"
894.6
694 98.09
+99 3998.0
9.7
5.6
0.39
5
1 1 59.9
8 5553.45
99 3 44,0
13.1
7.5
0.54
99
891.1
894 54.39
993548.7
9.7
5.5
0.39
6
1147.4
854 17.14
99 944.3
13.0
7.5
0.54
93
817.7
89593.38
99 39 1.0
9.6
5.5
0.39
7
U4I.9
85941.78
99 1531.1
13.0
7.6
0.54
94
814.9
89554.93
9998 5.0
9.5
5.4
0.38
8
1136.3
8 51 7.54
9991 3.9
13.0
7.5
0.54
95
8 10.9
69699.00
9994 0.8
9.4
5.4
0.38
9
1 1 30.8
849 34.60
+999699.3
13.0
7.5
0.54
96
8 7.5
897 5.54
+991948.6
9.4
5.3
0.38
10
1195.4
8 48 3.10 993196.0
19.9
7.4
0.53
97
8 4.9
897 44.51
9915 96.3
9.3
5.3
0.37
11
11 19.9
846 33.90
9936 14.7
19.9
7.4
0.53
98
8 1.0
8 98 95.85
99 11 0.9
9.9
5.9
0.37
19
11 14.6
8 45 5.07
99 40 48.1
19.8
7.4
0.53
99
7 57.8
8 99 9.51
99 694.3
9.1
5.1
0.37
13
11 9.9
8 43 38.88
9945 6.1
19.8
7.4
0.53
• 30
7 54.6
8 99 55.44
99 140.7
9.0 5.1
0.37
14
11 3.9
8 4914.75+99 49 8.7
19.7
7.3
0.53
31
7 51.5
8 30 43.58
+9156 49.5
9.0 5.0
0.36
15.1058.6
8 40 59.80+99 5955.7
19.7
7.3
0.53
39
7 48.4
83133.88
+91 51 50.9
8.9! 5.0' 0.36
390
MAES, 1884.
FOB TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Transit
Apparent
ILAsoenaton
at
Transit
Apparent
Deounatlon
at
Transit
Hot.
Par.
Semi
(Uam.
B.T.of
Sem.
Pats.
Mer.
Date.
Mean
Time
of
Transit
Apparent
R. Ascension
at
Transit
Apparent
Declination
at
Transit
Hor.
Par.
Semi-
dlam.
Bern.
Pans.
Mer.
Apr. 1
h m
.7 48.4
h m «
83133.88
O 1 II
+21 51 50.9
8.9
it
5.0
0.36
May 17
h m
552.6
fame
93644.15
Q 1 II
+1559 9.1
6.4
3.6
a
0.25
2
7 45.4
8 3226.30
214644.8
8.8
5.0
0.36
18
550.4
93831.84
154856.3
6.3
3.6
0.25
3
742.4
8 3320.77
214131.4
8.8
4.9
0.36
19
548.3
94020.14
15 3837.3
6.3
3.5
0.25
4
7 39.4
8 34 17.24
21 36 10.8
8.7
4.9
0.35
20
546.2
942 9.04
152812.1
6.3
3.5
0.25
5
736.4
83515.65
2130 43.0
8.6
4.9
0.35
21
544.1
943 58.51
151740.8
6.2
3.5
0.24
6
7 33.5
83615.96
+2125 8.1
8.6
4.8
0.35
22
542.0
945 48.55
+15 7 3.4
6.2
3.5
0.24
7
7 30.6
837 18.11
21 1926.2
8.5
4.8
0.35
23
539.9
947 39.14
14 5620.0
6.2
3.4
0.24
8
727.7
83822.04
21 1337.2
8.4
4.8
0.34
24
537.8
94930.27
14 4530.5
6.1
3.4
0.94
9
724.9
83927.71
21 7 41.3
8.4
4.7
0.34
25
535.7
95121.93
14 3435.1
6.1
3.4
0.24
10
722.0
840 35.09
21 138.4
8.3
4.7
0.34
26
533.6
95314.10
14 2333.8
6.0
3.4
0.24
H
7 19.2
84144.12
+20 5528.6
8.2
4.6
0.33
27
531.6
9 55 6.77
+141226.6
6.0
3.4
0.23
12
716.5
8 4254.76
2049 11.9
8.1
4.6
0.33
28
529.5
95659.93
14 113.6
6.0
3.4
0.23
* 13
713.8
8 44 6.99
204248.3
8.1
4.6
0.33
29
527.5
95853.56
134954.9
5.9
3.3
0.23
14
711.1
84520.74
20 3617.9
8.0
4.5
0.33
30
525.5
10 0 47.64
13 3830.5
5.9
3.3
0.23
15
7 8.4
84635.99
2029 40.7
7.9
4.5
0.32
31
523.4
10 2 42.17
1327 0.4
5.8
3.3
0.23
16
7 5.7
8 4752.69
+202256.6
7.9
4.4
0.32
June 1
521.4
10 4 37.13
+131524.7
5.8
3.3
0.23
17
7 3.1
84910.82
20 16 h.l
7.8
4.4
0.32
2
519.4
10 632.51
13 3 43.4
5.8
3.3
0.22
18
7 0.5
850 30.33
20 9 7.9
7.8
4.3
0.31
3
5 17.4
10 828.30
125156.6
5.8
3.3
0.22
19
657.9
85151.19
20 2 3.4
7.7
4.3
0.31
4
515.4
101024.48
1240 4.4
6.7
3.2
0.22
90
655.3
85313.39
1954 52.1
7.7
4.3
0.31
5
513.4
101221.04
1228 6.9
5.7
3.2
0.22
21
6 52.8
854 36.89
+1947 33.9
7.6
4.2
0.30
6
511.4
10 14 17.98
+1216 4.0
5.7
3.2
0.22
22
6 50.3
8 56 1.65
1940 8.9
7.5
4.2
0.30
7
5 9.4
10 16 15.29
12 355.8
5.7
3.2
0.22*
23
647.8
85727.63
193237.1
7.5
4.2
0.30
8
5 7.5
10 18 12.96
115142.4
5.6
3.2
0.22
24
6 45.3
858 54.82
1924 58.5
7.4
4.1
0.30
9
5 5.5
102010.98
113923.8
5.6
3.2
0.22
25
642.8
9 0 23.19
19 17 13.2
7.4
4.1
0.29
10
5 3.5
1022 9.35
1127 0.1
5.6
3.2
0.21
26
640.4
9 152.70
+19 921.3
7.3
4.1
0.29
11
5 1.6
1024 8.07
+1114 31.2
5.5
3.1
0.21 :
27
637.9
9 3 23.31
19 122.6
7.3
4.0
0.29
12
4 59.6
1026 7.12
11 157.3
5.5
3.1
0.21
28
635.5
9 4 54.99
1853 17.3
7.2
4.0
0.28
13
4 57.7
1028 6.51
104918.4
5.5
3.1
0.21
29
6 33.2
9 627.72
18 45 5.3
7.2
4.0
0.28
14
4 55.7
1030 6.23
103634.5
5.5
3.1
0.21
30
6 30.8
9 8 1.46
183646.7
7.1
4.0
0.28
15
4 53.8
1032 6.29
102345.6
5.4
3.1
0.21
May 1
628.4
9 936.19
+182821.5
7.1
3.9
0.27
16
4 51.8
10 34 6.67
+1010 51.9
5.4
3.1
0.21
2
626.1
911 11.88
181949.8
7.0
3.9
0.27
17
4 49.9
1036 7.38
95753.3
6.4
3.0
0.20
3
623.7
91248.49
1811 11.6
7.0
3.9
0.27
18
4 48.0
10 38 8.41
944 49.9
6.4
3.0
0.20
4
621.4
914 26.00
18 227.0
6.9
3.9
0.27
19
4 46.1
1040 9.76
93141.8
5.3
3.0
0.20
5
619.2
916 4.37
17 53 35.9
6.9
3.9
0.27
20
4 44.2
104211.43
91829.0
5.3
3.0
0.20
6
616.9
91743.59
+1744 38.4
6.8
3.8
0.26
21
4 42.3
10 4413.42
+ 9 511.5
5.3
3.0
0.20
7
614.6
91923.62
17 3534.5
6.8
3.8
0.26
22
4 40.4
104615.71
85149.5
5.3
3.0
0.20
6
612.3
921 4.44
172624.3
6.7
3.8
0.26
23
4 38.5
1048 18.31
83823.0
5.2
3.0
0.20
9
610.1
922 46.03
1717 7.8
6.7
3.8
0.26
24
4 36.6
10 5021.22
824 52.1
5.2
3.0
0.20
10
6 7.9
924 28.37
17 744.9
6.6
3.8
0.26
25
4 34.7
10 5224.43
81116.8
5.2
2.9
0.19
11
6 5.6
92611.43
+ 16 5815.7
6.6
3.7
0.26
26
4 32.8
1054 27.94
+ 75737.2
5.2
2.9
0.19
12
6 3.4
927 55.21
164840.2
6.5
3.7
0.26
27
4 31.0
105631.74
74353.5
5.1
2.9
0.19
13
6 1.2
92939.68
163858.4
6.5
3.7
0.26
28
4 29.1
10 5835.82
730 5.6
5.1
2.9
0.19
14
559.1
9 31 24.82
162910.4
6.5
3.7
0.25
29
427.2
11 040.19
7 16 13.7
5.1
2.9 0.19
15
556.9
93310.61
16 19 16.2
6.4
3.6
0.25
30
4 25.3
11 244.83
7 217.8
5.1
2.9
0.19
16
554.7
9 34 57.06
+16 9 15.8
6.4
3.6
0.25
31
4 23.5
11 4 49.75
+ 6 4818.1
5.0
2.9
0.19
17
552.6
9 36 44.15+15 59 9.1
6.4
3.6
0.25
32
4 21.6
11 654.94
+ 6 34 14.6
5.0
2.9 0.19
JUPITER, 1884.
391
•
FOR TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Transit
Apparent
R. Ascension
at
Transit
Apparent
Declination
at
Transit.
Hor.
Par.
Polar
Semi-
illam.
8.T.of
Sem.
Pass.
Mer.
Date.
Mean
Time
of
Transit
Apparent
R. Ascension
at
Transit
Apparent
Declination
at
Transit
Hor.
Par.
Polar
Semi-
diam.
8.T4rf
Sem.
Pass.
Mer.
Jan. 0
h m
13 36.0
h m •
8 17 16.80
O I II
+20 1412.1
//
2.0
11
21.7
8
1.64
Feb. 15
h m
1011.2
h m s
7 5322.92
0 1 a
+213029.5
2.0
11
21.4
1.63
1
13 31.6
81647.63
20 1556.8
2.0
21.8
1.65
16
10 6.8
75258.12
21 31 39.5
2.0
21.4
1.63
2
1327.1
8 16 18.00
201742.5
2.6
21.8
1.65
17
10 2.5
7 5233.92
213247.5
2.0
21.4
1.63
3
1322.6
81548.01
201929.0
2.1
21.9
1.66
18
9 58.2
7 5210.35
213353.4
2.0
21.3
1.62
4
1318.1
8 15 17.63
2021 16.3
2.1
21.9
1.66
19
9 53.9
7 51 47.40
21 34 57.2
2.0
21.3
1.62
6
13 13.6
81446.88
+2023 4.2
2.1
21.9
1.66
20
949.6
75125.09
+213559.0
2.0
21.3
1.62
6
13 9.2
81415.79
20 24 52.8
2.1
21.9
1.66
21
945.3
7 51 3.45
2136 58.7
2.0
21.2
1.61
7
13 4.7
81344.37
202641.9
2.1
21.9
1.66
22
941.0
750 42.49
2137 56.3
2.0
21.2
1.61
8
13 0.3
8 13 12.65
2028 31.4
2.1
21.9
1.66
23
936.8
75022.22
213851.8
2.0
21.1
1.61
9
1255.8
81240.66
20 3021.3
2.1
21.9
1.66
24
932.5
750 2.65
213945.5
2.0
21.1
1.60
10
1251.4
812 8.41
4-203211.5
2.1
21.9
1.66
25
*9 28.2
7 4943.80
+214036.4
2.0
21.0
1.60
11
1246.9
81135.93
2034 1.9
2.1
22.0
1.66
26
924.0
74925.67
21 41 25.4
2.0
21.0
1.60
12
1242.4
811 3.24
20 35 52.3
2.1
22.0
1.67
27
919.8
7 49 8.28
21 42 12.4
2.0
20.9
1.59
13
1238.0
81030.36
203742.7
2.1
22.0
1.67
28
915.6
7 4851.63
2142 57.1
2.0
20.9
1.59
14
1233.5
8 957.31
20 39 33.1
2.1
22.0
1.67
29
911.4
74835.74
2143 39.7
2.0
20.6
1.59
15
1229.0
8 924.12
+204123.3
2.1
22.0
1.67
Mar. 1
9 7.2
7 4820.61
+2144 20.1
2.0
20.8
1.58
16
1224.6
8 850.80
204313.3
2.1
22.0
1.67
2
9 3.1
7 48 6.25
21 44 58.4
1.9
20.7
1.58
17
1220.1
8 8 17.44
2045 3.1
2.1
22.0
1.67
3
858.9
747 52.67
214534.5
1.9
20.6
1.57
18
1215.6
8 744.01
20 4652.5
2.1
22.0
1.67
4
854.7
7 4739.88
2146 8.4
1.9
20.6
1.57
19
1211.1
8 710.53
20 4841.4
2.1
22.0
1.67
5
850.6
7 4727.88
214640.1
1.9
20.5
1.56
20
12 6.6
8 6 37.04
+205029.6
2.1
22.0
1.67
6
846.5
74716.67
+2147 9.7
1.9
20.4
1.56
21
12 2.1
8 6 3.56
205217.3
2.1
22.0
1.67
7
842.4
7 47 6.26
214737.2
1.9
20.4
1.55
22
1157.6
8 530.12
20 54 4.2
2.1
22.0
1.67
8
838.3
7 46 56.65
2148 2.5
1.9
20.3
1.55
23
1153.1
8 4 56.74
2055 50.4
2.1
22.0
1.67
9
834.2
74647.85
214825.6
1.9
20.3
1.55
24
1148.7
8 4 23.46
20 57 35.7
2.1
22.0
1.67
10
8 30.1
7 4639.84
214846.5
1.9
20.2
1.54
25
1144.2
8 3 50.30
+205920.0
2.1
22.0
1.67
11
826.0
7 4632.64
+2149 5.3
1.9
20.2
1.54
26
1139.7
8 317.27
21 1 3.4
2.1
22.0
1.67
12
822.0
7 4626.24
214921.9
1.9
20.1
1.54
27
1135.2
8 244.40
21 245.7
2.1
22.0
1.67
13
818.0
7 4620.66
2149 36.4
1.9
20.1
1.53
28
1130.7
8 211.73
21 4 26.9
2.1
22.0
1.67
14
814.0
7 4615.90
2149 48.8
1.9
20.0
1.53
29
1126.3
8 139.27
21 6 6.8
2.1
22.0
1.67
15
810.1
7 4611.95
214959.1
1.9
20.0
1.53
30
1121.8
8 1 7.05
+21 745.4
2.1
21.9
1.67
16
8 6.0
746 8.80
+2150 7.2
1.9
19.9
1.52
31
1117.3
8 0 35.09
21 922.8
2.1
21.9
1.67
17
8 2.1
7 46 6.45
21 50 13.2
1.9
19.8
1.62
Feb. 1
11 12.9
8 0 3.43
21 10 58.7
•2.1
21.9
1.67
18
758.2
746 4.93
215017.1
1.9
19.7
1.51
2
11 8.4
75932.08
211233.1
2.1
21.9
1.67
19
7 54.2
746 4.22
21 50 18.9
1.9
19.7
1.51
3
11 4.0
759 1.07
21 14 6.1
2.1
21.8
1.66
20
750.3
746 4.32
21 50 18.6
1.9
19.6
1.50
4
1059.5
75830.41
+21 1537.6
2.0
21.8
1.66
21
746.4
746 5.23
+21 50 16.2
1.9
19.6
1.50
6
1055.1
758 0.15
2117 7.4
2.0
21.8
1.66
22
742.5
746 6.97
215011.7
1.8
19.5
1.49
6
JO 50.7
7 5730.30
21 1835.5
2.0
21.8
1.66
23
738.6
746 9.52
2150 5.1
1.8
19.5
1.49
7
JO 46.3
7 57 0.87
2120 2.0
2.0
21.7
1.66
24
7 34.7
7 4612.88
214956.4
1.8
19.4
1.48
6
1041.9
7 6631.88
21 21 26.8
2.0
21.7
1.66
25
7 30.8
7 4617.05
214945.7
1.8
19.4
1.48
9
JO 37.5
756 3.36
+212249.8
2.0
21.7
1.66
26
727.0
74622.01
+214932.9
1.6
19.3
1.47
10
10 33.1
7 5535.32
212411.1
2.0
21.7
1.66
27
7 23.1
746 27.79
21 49 17.9
1.8
19.2
1.47
11
10 28.7
7 55 7.78
212530.5
2.0
21.6
1.65
28
719.3
7 4634.36
2149 0.9
1.8
19.2
1.46
12
10 24.3
754 40.74
212648.1
2.0 21.6
1.65
29
7 15.5
74641.72
214841.9
1.8
19.1
1.46
13
10 19.9
7 54 14.24
2128 3.9
2.0 21.5
1.64
30
7 11.7
7 46 49.88
21 1820.8
1.8
19.0
1.45
14
10 15.5
7 5348.30
+2125)17.7
2.0 21.5
1.64
31
7 7.9
7 46 58.81
+2147 57.7
1.8
19.0
1.45
15
10 11.2
7 5322.92+2130 29.5
2.0121.4
1.63
32
7 4.1
7 47 8.52
+2147 32.5
1.8
18.9
1.44
392
JUPITER, 1884.
• , , ■ - »■
FOR TRANSIT AT WASHINGTON.
i
Date.
Mean
Time
of
Transit
Apparent
R. Ascension
at
Transit.
Apparent
Declination
at
Transit.
Hor.
Par.
PolAT
Seml
diam.
8.T.0I
Sera.
Pass.
Mer.
Date.
Mean
Time
of
Transit
Apparent
R. Ascension
at
Transit
Apparent
Declination
at
Transit
Hor.
Par.
Polai
Semi
diam
- See*.
- Paaa
. Mer.
Apr. 1
h m
7 4.1
h m s
7 47 8.52
O 1 II
+2147 32.5
1.8
18.9
s
1.44
Nov.16
h m
18 37.5
b m s
102511.86
O I It
+10 5151.2
l'.6
17.3 1.95
2
7 0.3
7 47 19.00
2147 5.2
1.8
18.9
1.44
17
18 33.9
10 2534.77
10 4954.2
1.6
17.4 1.26
3
6 56.6
7 47 30.25
2146 36.1
1.8
18.8
1.43
18
18 30.4
102557.08
10 48 0.7
1.6
17.4
1.26
4
6 52.9
7 4742.25
2146 4.9
1.8
18.7
1.43
19
1826.8
102618.79
JO 46 10.6
1.6
17.5 1.96
5
649.2
7 47 54.99
214531.7
1.8
18.7
1.43
20
1823.2
10 26 39.89
1044 24.0
1.6
17.5 1.27
6
6 45.5
7 48 8.51
+21 44 56.5
1.8
18.6
1.42
21
18 19.6
1027 0.39
+10 4241.0
1.7
17.6 1.27 j
7
641.8
7 4822.76
21 44 19.3
1.7
18.5
1.42
22
18 16.0
1027 20.26
1041 1.6
1.7
17.6| 1.27 j
8
6 38.1
7 48 37.73
2143 40.1
1.7
18.5
1.41
23
18 12.4
1027 39.51
10 3925.8
1.7
17.7
1.28
9
6 34.4
7 48 53.43
2142 59.0
1.7
18.4
1.41
24
18 8.8
1027 58.14
1037 53.6
1.7
17.7
1.28
10
6 30.7
7 49 9.85
21 42 16.0
1.7
J8.4
1.41
25
18 5.1
1028 6.13
10 3625.0
1.7
17.8] 1.28
Jl
6 27.1
7 49 26.98
+214131.1
1.7
18.3
1.40
26
18 1.5
1028 33.48
+10 35 0.2
1.7
17.8
1.29,1
1*2
6 23.4
749 44.82
2140 44.1
1.7
18.2
1.40
27
17 57.9
10 28 50.19
10 33 39.2
1.7
17.9
1.29!
13
6 19.8
7 50 3.35
21 39 55.2
1.7
18.2
1.39
28
17 54.2
10 29 6.25
10 3222.1
1.7
I7.9| 1.29 j
14
6 16.2
7 50 22.57
2139 4.3
1.7
18.)
1.39
29
17 50.5
102921.65
10 31 8.7
1.7
18.0
1.30
15
6 12.6
7 5042.47
213811.5
1.7
18.1
1.38
30
1746.8
10 29 36.40
1029 59.2
1.7
18.0
1.30
16
6 9.0
7 51 3.06
+21 37 16.7
1.7
18.0
1.38
Dec. 1
1743.1
1029 50.49
+102853.6
1.7
18.1
1.30
17
6 5.4
7 5124.32
21 36 19.9
1.7
18.0
1.37
2
17 39.4
10 30 3.91
102751.8
1.7
18.1
1.31
18
6 1.8
7 5146.25
2135 21.2
1.7
17.9
1.37
3
17 35.7
10 3016.65
10 26 54.0
1.7
18.2
1.31 !
19
5 58.3
7 52 8.83
21 34 20.7
1.7
17.9
1.36
4
17 32.0
10 30 28.73
10 26 0.2
1.7
18.3
1.32
20
554.8
7 52 32.07
21 33 18.1
1.7
17.8
1.36
5
17 28.3
1030 40.12
102510.5
1.7
18.3
1.32
21
5 51.3
7 5255.95
+21 32 13.7
1.7
17.8
1.36
6
1724.5
10 30 50.81
+1024 24.9
1.7
18.4
1.33
22
5 47.8
7 53 20.46
2131 7.3
1.7
17.7
1.35
7
17 20.7
10 31 0.81
10 23 43.3
1.7
18.5
1.33
23
5 44.3
7 53 45.61
2129 59.0
1.7
17.7
1.35
8
1716.9
10 31 10.12
1023 5.8
1.7
18.5 1.34
24
5 40.8
7 54 11.39
2128 48.8
1.7
17.6
1.34
9
17 13.1
10 31 18.73
10 2232.5
1.7
18.6
1 34 ;
25
5 37.3
7 54 37.78
2127 36.6
1.7
17.6
1.34
10
17 9.3
103126.62
10 22 3.4
1.7
18.6
1.34 :
26
5 33.8
7 55 4.79
+2126 22.5
1.7
17.5
1.33
11
17 5.5
10 3133.80
+102138.5
1.8
18.7
1.35
27
5 30.3
7 5532.39
2125 6.6
1.6
17.5
1.33
12
17 1.7
10 3140.26
10 2117.9
1.8
18.7
1 .35 ;
28
526.8
7 56 0.59
2123 48.7
1.6
17.4
1.32
13
16 57.9
10 3146.01
10 21 1.5
1.8
18.8 1.35!
29
5 23.3
7 56 29.37
212228.9
1.6
17.4
1.32
14
16 54.0
10 3151.03
10 20 49.5
1.8
18.8 1.36 j
30
5 19.9
7 56 58.71
+2121 7.3
1.6
17.3
1.31
15
16
1650.1
16 46.3
10 31 55.33
10 3158.90
102041.7
+1020 38.2
1.8
1.8
18.9
18.9
1.36 '
1.36 ;
Nov. 1
1929.6
101821.59
+112721.4
1.6
16.6
1.20
17
1642.4
10 32 1.73
10 20 38.9
1.8
19.0
1.37 !
2
19 26.2
101852.55
1 1 24 39.2
1.6
16.6
1.20
18
16 38.5
10 32 3.82
10 2044.0
1.8
19.0
1.37
3
1922.8
1019 23.06
112159.6
1.6
16.7
1.21
19
16 34.6
10 32 5.19
1020 53.4
1.8 19.1
1.38
4
19 19.4
10 19 53.07
1 1 19 22.7
1.6
16.7
1.21
20
16 30.7
10 32 5.82
1021 7.1
1.8 19.2
1.38
5
19 15.9
10 20 22.57
+1116 48.6
1.6
16.8
1.22
21
16 26.8
10 32 5.72
+10 2124.8
1.8 19.2
1.8; 19.3
1.39
6
19 12.5
102051.56
1114 17.4
1.6
16.8
1.22
22
1622.8
10 32 4.88
10 2147.2
1.39 ;
7
19 9.0
102120.03
111149.1
1.6
16.9
1.22
23
1618.8
10 32 3.30
10 2213.7
1.8 19.4
1.40
8
19 5.6
10 2147.98
11 9 23.6
1.6
16.9
1.23
24
16 14.8
10 32 1.00
10 2244.5
1.8 19.4
1.40
9
19 2.1
102215.40
11 7 1.1
1.6
17.0
1.23
25
16 10.8
10 3157.97
10 23 19.5
1.8 19.5
1.40
10
1858.6
1022 42.28
+11 4 41.7
1.6
17.0
1.23
26
16 6.8
10 3154.20
4-1023 58.9
1.8 19.5
1.41
11
18 55.1
10 23 8.62
11 225.4
1.6
17.1
1.24
27
16 2.8
10 3149.70
10 24 42.4
1.8 19.6
1.41 !
12
1851.6
1023 34.40
11 012.1
1.6
17.1
1.24
28
15 58.8
10 3144.48
1025 30.1
1.8 19.6 1.41
13
18 48.0
1023 59.62
10 58 2.0
1.6
17.2
1.24
29
15 54.8
10 3138.54
102622.0
1.8| 19.7
1.42
14
1844.5
10 24 24.27
10 55 55.1
1.6
17.2
1.25
30
1550.8
10 3L 31.86
102718.1
l.8j 19.7
1.42
15
1841.0
1024 48.36
+10 53 51.5
1.6
17.3
1.25
31
1546.7
10 3124.46
+102818.3
1.9 19.8 1.43
16
18 37.5
102511.86
+10 5151.2
1.6
17.3
1.25
32
15 42.7
10 31 16.34
+1029 22.7
1.0! 19.8! 1.43
SATURN, 1884.
393
FOR TRANSIT AT WASHINGTON.
Bate.
Mean
Time
of
Transit.
Apparent
B. Ascension
at
Truudk
Apparent
Destination
at
Trausit.
Hor.
Par.
Polar
Semi
dJam.
8.T.of
Sent.
Pass,
Mer.
8
0.72
Date.
Mean
Time
of
Transit.
Apparent
R. Ascension
at
Transit.
Apparent
Declination
at
Transit.
Hor.
Par.
Polar
Semi
diau.
8.T.of
Bern.
Pass.
Mer.
0.66
Jan. 0
h m
929.7
h m m
4 10 26.71
o
+19
6 14.2
1.1
9.5
Feb. 15
h m
625.1
h m s
4 639.80
O 1 II
+19 7 57.9
1.0
n
8.8
1
925.6
4 10 12.34
19
5 49.3
1.1
9.510.71
16
621.3
4 6 45.58
19 8 29.9
1.0
8.8
0.66
2
921.4
4
9 58.31
19
525.4
I.I
9.5 0.71
17
617.5
4 6 51.82
19 9 3.1
1.0
8.8
0.66
3
917.3
4
944.64
19
5 2.7
1.1
9.4 0.71
18
613.6
4 6 58.51
19 937.5
1.0
8.7
0.66
4
9 13.1
4
931.34
19
4 40.9
I.I
9.4
0.71
19
6 9.8
4 7 5.66
191013.0
1.0
8.7
0.66
5
9 9.0
4
918.41
+19
4 20.2
1.1
9.4
0.71
20
6 6.0
4 713.26
+191049.8
1.0
8.7
0.66
6
9 4.8
4
9 5.85
19
4 0.6
1.1
9.4
0.71
21
6 2.2
4 721.31
19 1 1 27.6
1.0
8.7
0.66
• 7
9 0.7
4
853.68
19
342.2
1.1
9.4
0.71
22
5 58.4
4 729.81
19 12 6.5
1.0
8.7
0.66
8
856.6
4
841.90
19
324.9
1.1
9.4
0.71
23
554.6
4 7 38.76
19 12 46.6
1.0
8.7
0.65
9
852.4
4
830.52
19
3 8.7
1.1
9.4
0.71
24
550.9
4 748.15
191327.8
1.0
8.7
0.65
10
848.3
4
819.53
+19
253.7
1.1
9.3
0.71
25
547.1
4 7 57.98
+191410.1
1.0
8.6
0.65
11
844.2
4*
8 8.96
19
240.0
1.1
9.3
0.70
26
543.3
4 8 8.25
19 14 53.5
1.0
8.6
0.65
12
8 40.1
4
758.79
19
227.4
1.1
9.3 0.70
27
5 39.6
4 818.96
19 1537.9
1.0
8.6
0.65
13
836.0
4
7 49.05
19
216.0
1.1
9.3 0.70
28
5 35.9
4 830.10
19 1623.4
1.0
8.6 0.65
14
83J.9
4
7 39.70
19
2 5.8
l.L
9.3 0.70
29
532.1
4 841.67
19 17 9.9
1.0
8.6 0.65
15
827.9
4
730.79
+19
166.9
1.1
9.3 0.70
Mar. 1
528.4
4 853.67
+1917 57.4
1.0
8.6
0.65
16
823.8
4
722.31
19
149.2
1.1
9.3 0.70
2
524.7
4 9 6.1 1
191845.9
1.0
8.5
0.65
17
819.8
4
714.26
19
142.7
1.1
9.2 0.70
3
521.0
4 9 18.96
1919 35.4
1.0
8.5
0.64
18
8 15 7
4
7 6.64
19
137.5
1.0
9.2 0.70
4
517.2
4 9 32.21
19 2025.8
1.0
8.5
0.64
* 19
811.6
4
6 59.45
19
133.6
1.0
9.2 0.70
5
513.5
4 945.89
192117.2
1.0
8.5
0.64
30
8 7.6
4
652.72
+19
130.9
1.0
9.2 0.70
6
5 9.8
4 959.97
+1922 9.4
1.0
8.5
0.64
21
8 3.6
4
646.43
19
129.5
1.0
9.2 0.69
7
5 6.1
4 10 14.45
1923 2.7
1.0
8.5
0.64
22
7 59.5
4
640.59
19
129.4
1.0
9.2 0.69
8
5 2.5
4 1029.33
19 23 56.7
1.0
8.4
0.64
. 23
7 55.5
4
6 35.21
19
130.6
1.0
9.2 0.69
9
4 58.8
4 1044.60
1924 51.6
1.0
8.4
0.64
24
7 51.5
4
630.28
19
133.1
1.0
9.1
0.69
10
4 55.1
4 11 0.28
192547.4
1.0
8.4
0.64
25
7 47.5
4
625.80
+19
136.9
1.0
9.1
0.69
11
4 51.4
4 11 16.34
+192644.0
1.0
8.4
0.64
26
743.5
4
621.78
19
142.1
1.0
9.1
0.69
12
4 47.8
4 1 1 32.78
192741.3
1.0
8.4
0.63
27
7 39.5
4
618.23
19
148.6
1.0
9.1
0.69
13
4*44.1
4 1 1 49.60
1928 39.5
1.0
8.4
0.63
28
7 35.5
4
615.15
19
156.4
1.0
9.1
0.69
14
4 40.5
4 12 6.80
19 29 38.4
0.9
8.4
0.63
29
30
7 31.5
727.6
4
4
6 12.54
6 10.40
19
+19
2 5.5
215.8
1.0
1.0
9.1
9.1
0.69
0.68
15
4 36.8
17 60.4
4 1224.39
533 39.78
+19 30 38.1
+2152 5.5
0.9
1.0
8.4
8.7
0.63
0.67
Sept. 15
31
723.6
4
6 8.73
19
227.5
1.0
9.0 0.68
16
17 46.7
533 48.74
21 52 6.4
1.0
8.7
0.67
Feb. 1
719.7
4
6 7.53
19
240.5
1.0
9.0 0.68
17
17 42.9
533 57.24
2152 7.0
1.0
8.7
0.67
2
715.7
4
6 6.80
19
254.8
1.0
9.0 0.68
18
17 39.1
534 5.29
2152 7.3
1.0
8.7
0.67
3
711.8
4
6 6.53
19
310.4
1.0
9.0. 0.68
19
17 35.3
534 12.88
2152 7.3
1.0
8.7
0.07
4
7 7.8
4
6 6.73
+19
327.4
1.0
9.0 0.68
20
1731.5
5 34 19.99
+21 52 7.0
1.0
8.8
0.67
5
7 3.9
4
6 7.40
19
3 45.7
1.0
9.0 0.68
21
1727.7
534 26.67
2152 6.4
1.0
8.6
0.67
6
7 0.0
4
6 8.55
19
4 5.2
1.0
8.9 0.68
22
17 23.8
534 32.88
2152 5.5
1.0
8.8 0.68
7
656.1
4
6 10.16
19
4 26.1
1.0
8.9 0.67
23
17 20.0
5 34 38.61
2152 4 2
1.0
8.8*0.68
8
652 2
4
6 12.24
19
4 48.2
1.0
8.9
0.67
24
17 16,1
534 43.89
2152 2.7
1.0
8.8 0.68
9
6 48.3
4
6 14.78+19
511.6
1.0
8.9
0.67
25
17 12.3
534 48.70
+2152 0.9
1.0
8.8 0.68
10
6 44.4
4
6 17.60
19
536.3
1.0
8.9
0.67
26
17 8.4
534 53.04
21 51 58.8
1.0
8.9
0.68
11
6 40.5
4
6 21.27
19
6 2.1
1.0
8.9
0.67
27
17 4.6
5 34 56.91
21 51 56.4
1.0
8.9
0.68
12
6:56.7
4
625.21
19
629.3
1.0
8.9 0.67
28
17 0.7
5 35 0.31
21 51 53.7
1.0
8.9
0.68
13
632.8
4
629.61
19
6 57.6
1.0
8.8 0.67
29
16 56.8
535 3.25
21 51 50.8
1.0
8.9 0.68
14
629.0
4
634.48+19
7 27.1
1.0
8.8 0.67
30
1652.9
535 5.71
+21 51 47.5
1.0
8.9
0.69
15
6 25.1
4
6 39.80+19
7 57.9
1.0
8.81 0.66
31
16 49.0
5 35 7.69
+21 51 44.0
1.0
8.9
0.69
394
SATURN, 1884.
FOE TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Transit
Apparent
R.Asoension
at
Transit.
Apparent
Declination
at
Transit.
Hot.
Par.
Polar
Semi
dtam.
8.T.of
Sem.
Pass.
Mer.
Date.
Mean
Time
of
Transit.
Apparent
R. Ascension
at
Transit.
Apparent
Declination
at
Transit.
Hor.
Par.
Polar
Semi-
diaan.
8-T.of
Sean.
Paves.
Mer.
Oct. 1
h m
16 49.0
h m s
5 35 7.69
O 1 II
+21 51 44.0
1.0
//
8.9
0.69
Not. 16
h m
1341.6
h m s
52832.18
O 1 II
+21 45 10.0
1.1
9.6
a
0.74 ,
2
16 45.1
535 9.21
21 51 40.2
1.0
9.0
0.69
17
13 37.4
52814.52
21 44 57.0
1.1
9.6
0.74
3
1641.2
535 10.26
21 51 36.4
1.0
9.0
0.69
18
1333.1
52756.59
21 44 43.9
1.1
9.6
0.74
4
16 37.3
53510.83
21 51 32.2
1.0
9.0
0.69
19
1328.9
52738.40
21 44 30.6
1.1
9.6
0.74
5
1633.4
53510.92
21 51 27.7
1.0
9.0
0.69
20
1324.7
52719.95
21 44 17.2
1.1
9.6
0.74
6
1629.4
53510.54
+21 51 23.1
1.0
9.0
0.69
21
1320.4
527 1.25
+2144 3.6
1.1
9.6
0.74
7
1625.5
535 9.69
2151 18.1
1.0
9.0
0.69
22
13 16.2
52642.33
214349.9
1.1
9.6
0.74
8
1621.5
535 8.36
21 51 13.0
1.0
9.1
0.70
23
1311.9
52623.20
214336.1
1.1
9.7
0.74
9
1617.5
535 6.57
2151 7.6
1.0
9.1
0.70
24
13 7.7
520 3.85
214322.2
1.1
9.7
0.74
10
16 13.6
535 4.28
2151 1.9
1.0
9.1
0.70
25
13 3.4
52544.30
2143 8.1
1.1
9.7
0.74
11
16 9.6
535 1.54
+215056.1
1.0
9.1
0.70
26
12 59.1
52524.56
+214254.0
1.1
9.7
0.74
12
16 5.6
534 58.33
215050.0
1.0
9.1
0.70
27
1254.9
525 4.65
214239.8
I.I
9.7
0.74
13
16 1.6
534 54.64
215043.8
1.0
9.1
0.70
28
1250.6
524 44.56
214225.5
1.1
9.7
0.74
14
15 57.6
534 50.48
2160 37.2
1.0
9.2 0.70
29
1246.4
524 24.32
214211.1
1.1
9.7
0.74
15
15 53.6
534 45.85
2150 30 5
1.0
9.2 0.70
9.2,0.71
30
1242.1
524 3.95
214166.7
1.1
9.7
0.74
16
1549.6
534 40.75
+215023.5
1.0
Dec 1
1237.8
52343.44
+214142.1
1.1
9.7
0.74
17
1545.6
534 35.18
21 50 16.3
1.0
9.2 0.71
2
1233.5
52322.80
214127.4
1.1
9.7
0.74
18
1541.5
534 29.15
2150 8.9
1.0
9.2 0.71
3
1229.3
523 2.05
21 41 12.8
I.I
9.7
0.74
19
1537.5
534 22.64
2150 1.3
1.0
9.2 0.71
4
1225.0
52241.21
214058.0
1.1
9.7
0.74
90
1533.5
53415.68
2149 53.4
1.0
9.2
0.71
5
1220.7
52220.28
214043.2
1.1
9.7
0.74
21
1529.4
5 34 8.28
+2149 45.4
1.1
9.2
0.71
6
12 16.4
52159.27
+214028.4
1.1
9.7
0.74
22
1525.3
534 0.42
21 49 37.2
1.1
9.3
0.71
7
1212.2
52138.20
21 40 13.5
1.1
9.7
0.74
33
1521.3
53352.11
214928.7
I.I
9.3
0.71
8
12 7.9
521 17.09
213958.7
1.1
9.7
0.74
24
15 17.2
53343.35
214920.1
1.1
9.3
0.71
9
12 3.6
520 55.92
213943.9
1.1
9.7
0.74
25
15 13.1
53334.16
21 49 11.2
1.1
9.3
0.72
10
1 1 59.3
52034.72
213929.0
I.I
9.7
0.74
26
15 9.0
5 33 24.55
+2149 2.3
1.1
9.3
0.72
11
1155.0
52013.50
+213914.3
1.1
9.7
0.74
27
15 4.9
53314.50
214853.1
1.1
9.3
0.72
12
1150.8
51952.29
2138 59.5
1.1
9.7
0.74
28
15 0.8
533 4.02
214843.7
i.r
9.4
0.72
13
1146.5
51931.08
213844.7
I.I
9.7
0.74
29
14 56.7
5 3253.12
214834.0
i.i
9.4
0.72
14
1142.2
519 9.90
213830.1
1.1
9.7
0.74
30
14 52.6
53241.82
214824.2
i.i
9.4
0.72
15
1 1 37.9
51848.74
21 38 15.5
1.1
9.7
0.74
31
14 48.4
53230.10
+21 48 14.2
i.i
9.4
0.72
16
1 1 33.6
51827.64
+2138 0.9
1.1
9.7
0.74
Nov. 1
14 44.3
53217.98
2148 4.0
i.i
9.4
0.72
17
1129.3
518 6.60
213746.4
1.1
9.7
0.74
2
14 40.2
5 32 5.47
2147 53.7
i.i
9.4
0.72
18
1125.0
517 45.62
2137 32.1
1.1
9.7
0.74
3
14 36.1
5 3152.57
2147 43.2
i.i
9.4
0.72
19
1120.8
517 24.74
21 37 17.8
1.1
9.7
0.74
4
14 31.9
53139.27
21 47 32.5
i.i
9.4
0.73
20
11 16.5
517 3.96
2137 3.7
1.1
9.7
0.74
5
14 27.7
53125.60
+214721.5
i.i
9.5
0.73
21
11 12.2
51643.28
+213649.8
1.1
9.7
0.74
6
14 23.5
53111.56
21 47 10.4
u
9.5
0.73
22
11 7.9
51622.72
213636.0
1.1
9.7
0.74
7
14 19.4
53057.16
2146 59.1
i.i
9.5
0.73
23
11 3.7
516 2.30
213622.4
1.1
9.7
0.74
8
14 15.2
530 42.39
21 46 47.7
i.i
9.5
0.73
24
10 59.4
51542.02
2136 8.9
I.I
9.7
0.74
9
14 11.0
53027.26
214636.0
i.i
9.5
0.73
25
10 55.1
51521.92
213555.6
I.I
9.7
0.74
10
14 6.8
53011.80
+214624.2
1.1
9.5
0.73
26
1050.9
515 1.97
+213542.5
I.I
9.7
0.74
11
14 2.6
529 56.00
21 46 12.3
i.i
9.5
0.73
27
10 46.6
5 14 42.21
213529.7
I.I
9.7
0.74
12
13 58.4
529 39.87
2146 0.2
1.1
9.5
0.73
28
10 42.3
514 22.64
213517.1
1.1
9.7
0.74
13
13 54.2
52923 40
2145 47.8
i.i
9.6
0.73
29
10 38.1
514 3.27
21 35 4.8
1.1
9.6 0.74
14
1350.0
529 6.63
214535.4
i.i
9.6
0.73
30
10 33.8
51344.10
21 34 52.7
1.1
9.6 0.74
15
13 45.8
528 40.56
+214522.8
i.i
9.6
0.73
31
10 29.6
51325.16
+21 34 40.9
1.1
9.6! 0.74
161 13 41.6
528 32.18
+21 45 10.0
i.i
9.6
0.74
32
10 25.3
5 13 6.46
+21 34 29.4
I.I
9.61 0.74
URANUS, 1884.
395
FOE TRANSIT AT WASHINGTON
Date.
Mean
Time
of
Transit.
Apparent
B. Ascension
at
Transit.
Apparent
Declination
at
Transit.
Hot.
Par.
Semi'
dlam.
8.T.of
Sem.
Pass.
Mer.
Date.
Mean
Time
of
Transit.
Apparent
R. Ascension
at
Transit.
Apparent
Deolination
at
Transit.
Hor.
Par.
Semi
diam.
8.T\of
Sem.
Pass.
Mer.
Jan. 0
h in
17 12.5
h m 8
1 1 54 25.31
O 1 II
+ J 2625.1
0.5
1.9
0.12
Feb- 15
h m
14 8.5
h m s
11 51 19.47
O I II
+ 1 48 14.8
0.5
1.9
8
0.13
1
17 8.6
1 1 54 25.57
12626.1
0.5
1.9
0.12
16
14 4.4
1151 11.66
149 6.9
0.5
1.9
0.13
2
17 4.6
1154 25.63
12628.3
0.5
1.9
0.13
17
14 0.4
1151 3.73
149 59.8
0.5
1.9
0.13
3
17 0.7
1154 25.48
126 32.0
0.5
1.9
0.13
18
1356.3
115055.69
150 53.3
0.5
1.9
0.13
4
1656.7
1154 25.10
126 37.0
0.5
1.9
0.13
19
1352.3
1150 47.54
1 51 47.6
0.5
1.9
0.13
5
1652.8
1154 24.50
+ 12643.5
0.5
1.9
0.13
20
1348.2
1150 39.29
+ 15242.5
0.5
1.9
0.13
6
16 48.8
1154 23.73
126 51.2
0.5
1.9
0.13
21
1344.1
1150 30.92
153 38.0
0.5
1.9
0.13
7
1644.8
1154 22.75
127 0.2
0.5
1.9
0.13
22
13 40.0
1150 22.45
154 34.1
0.5
1.9
0.13
8
1640.9
1154 21.55
1 27 10.5
0.5
1.9
0.13
23
1336.0
1150 13.90
15530.7
0.5
1.9
0.13
9
1636.9
1154 20.16
12722.2
0.5
1.9
0.13
24
1331.9
1160 5.26
15627.9
0.6
1.9
0.13
10
1633.0
1154 18.57
+ 12735.2
0.5
1.9
0.13
25
1327.8
1149 56.53
+ 15725.6
0.5
1.9
0.13
11
1629.0
1154 16.78
127 49.4
0.5
1.9
0.13
26
13 23.7
114947.71
15823.7
0.5
1.9
0.13
12
16 25.1
1154 14.79
128 4.9
0.5
1.9
0.13
27
13 19.7
114938.82
15922.3
0.5
1.9
0.13
13
1621.1
1 1 54 12.58
12821.6
0.5
1.9
0.13
28
1315.6
114929.86
2 0 21.4
0.5
1.9
0.13
14
1617.2
1154 10.20
12839.8
0.5
1.9
0.13
29
1311.5
114920.83
2 120.8
0.5
1.9
0.13
15
16 13.2
1154 7.62
+ 12859.1
0.5
1.9
0.13
Mar. 1
13 7.4
114911.73
+ 2 220.5
0.5
1.9
0.13
1G
16 9.2
1154 4.83
1 29 19.6
0.5
1.9
0.13
2
13 3.3
1149 2.57
2 320.6
0.5
1.9
0.13
17
16 5.2
1154 1.85
12941.5
0.5
1.9
0.13
3
1259.2
114853.36
2 4 21.0
0.5
1.9
0.13
18
16 1.3
1153 68.68
130 4.6
0.5
1.9
0.13
4
1255.1
114844.09
2 521.7
0.5
1.9
0.13
19
1557.3
115355.32
13028.9
0.5
1.9
0.13
6
1251.0
114834.77
2 622.8
0.5
1.9
0.13
20
1553.3
1153 51.76
+ 13054.3
0.5
1.9
0.13
6
1247.0
114825.41
+ 2 724.2
0.5
1.9
0.13
21
1549.3
115348.01
13121.0
0.5
1.9
0.13
.7
1242.9
114816.01
2 8 25.8
0.5
1.9
0.13
22
1545.3
115344.08
1 31 48.9
0.5
1.9
0.13
8
1238.8
1148 6.68
2 927.7
0.5
1.9
0.13
23
1541.3
115339.97
1 32 18.0
0.5
1.9
0.13
9
1234.7
114757.11
21029.6
0.5
1.9
0.13
24
1537.3
115335.67
132 48.3
0.5
1.9
0.13
10
1230.6
114747.62
21131.3
0.5
1.9
0.13
25
1533.3
115331.18
+ 1 33 19.7
0.5
1.9
0.13
11
1226.5
114738.10
+ 21233.1
0.5
1.9
0.13
26
1529.2
115326.50
133 52.3
0.5
1.9
0.13
12
1222.4
114728.56
21334.8
0.5
1.9
0.13
27
1525.2
115321.65
134 25.9
0.5
1.9
0.13
13
1218.3
114719.01
2 14 36.6
0.5
1.9
0.13
28
1521.2
115316.64
135 0.6
0.5
1.9
0.13
14
12 14.3
1147 9.45
21538.5
0.5
1.9
0.13
29
15 17.2
115311.45
13536.5
0.5
1.9
0.13
15
12 10.2
114659.67
21640.5
0.5
1.9
0.13
30
1513.2
1153 6.08
+ 13613.4
0.5
1.9
0.13
16
12 6.1
114660.30
+ 21742.5
0.5
1.9
6.13
31
15 9.2
1153 0.56
136 51.4
0.5
1.9
0.13
17
12 2.0
1146 40.73
218 44.5
0.5
1.9
0.13
Feb. 1
15 5.2
115254.87
13730.5
0.5
1.9
0.13
18
1157.9
114631.17
21946.4
0.6
1.9
0.13
2
15 1.2
115249.01
1 38 10.5
0.5
1.9
0.13
19
1153.8
114621.61
22048.2
0.5
1.9
0.13
3
14 57.1
115243.00
13851.6
0.5
1.9
0.13
20
1149.7
114612.07
221 49.7
0.5
1.9
0.13
4
14 53.1
115236.85
+ 13933.6
0.5
1.9
0.13
21
1145.6
1146 2.54
+ 22251.2
0.5
1.9
0.13
5
14 49.0
115230.52
1 40 16.6
0.5
1.9
0.13
22
1141.5
114553.04
22352.4
0.5
1.9
0.13
6
14 44.9
115224.03
141 0.5
0.5
1.9
0.13
23
1 1 37.4
114543.56
224 53.4
0.5
1.9
0.13
7
14 40.9
115217.41
1 41 45.4
0.5
1.9
0.13
24
1133.3
114534.12
22554.1
0.5
1.9
0.13
8
14 36.8
115210.64
14231.1
0.5
1.9
0.13
25
1129.2
114524.69
22654.6
0.5
1.9
0.13
9
14 32.8
1152 3.73
+ 14317.7
0.5
1.9
0.13
26
1125.2
114515.32
+ 227 54.7
0.5
1.9
0.13
10
14 28.7
115156.68
144 5.2
0.5
1.9 0.13
27
1121.1
1145 5.99
22854.5
0.5
1.9
0.13
11
1424.7
115149.50
1 44 53.5
0.5
1.9 0.13
28
1117.0
1144 56.71
229 53.9
0.5
1.9
0.13
12
14 20.6
115142.18
14542.6
6.5
1.9 0.13
29
11 12.9 1144 47.48
230 52.9
0.5
1.9
0.13
13
14 16.6
115134.74
146 32.5
0.5
1.9 0.13
30
11 8.8 1144 38.30
2 3151.5
0.5
1.9
0.13
14
14 12.5
115127.15
+ 147 23.3
0.5
1.9 0.13
31
11 4.7
1144 29.19
+ 232 49.6
0.5
1.9
0.13
15
14 8.5 1151 19.47+ 148 14.8
0.5
1.9 0.13
32
11 0.6 1144 20.14
+ 233 47.3
0.5
1.9
0.13
396
URANUS, 1884.
FOR TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Transit
Apparent
R. Ascension
at
Transit
Apparent
Declination
at
Transit
Uor.
Par.
0.5
Semi
diam.
n
1.9
8.T.0I
Sen.
Pais.
Mer.
Date.
Mean
Time
cf
Transit
Apparent
R. Aftcenaion
at
Transit
Apparent
Declination
at
Transit
Hor.
Par.
8-T.of
8cm
Semi- Paaa.
diam. Mer.
1
Apr. 1
h m
11 0.6
b ro s
1144 20.14
O / /»
+ 233 47.3
s
0.13
Mayl7
h m
7 55.0
h m s
1139 3*26
0 / //
+ 3 3 33.4
it
0.5
1.9! 0.13
2
10 56.5
114411.16
2 34 44.4
0.5
1.9
0.13
. ,8
7 51.0
1139 27.68
3 3 47.3
0.6
1.9j 0.131
3
10 52.5
1144 2.25
23541.0
0.5
1.9
0.13
* 19
7 47.0
113925.27
3 4 0.1
0.5
1.9 0.13
1.9J 0.13
1.9 0.13
4
10 48.4
1143 53.43
2 36 37.1
0.5
1.9
0.13
20
743.0
113923.06
3 4 11.7
0.5
5
1044.3
1143 44.69
2 37 32.6
0.5
1.9
0.13
21
7 39.1
113921.04
3 4 22.0
0.5
6
1040.2
11 43 36.03
+ 23827.5
0.5
1.9
0.13
22
7 35.1
1 1 39 19.21
+ 3 431.1
0.6
1.9.0.13
1.9 0.13
1.9 0.12
7
10 36.2
114327.44
2 3921.8
0.5
1.9
0.13
23
7 31.2
1139 17.57
3 4 38.9
05
8
10 32.1
114318.94
240 15.5
0.5
1.9
0.13
24
7 27.2
1139 16.12
3 445.5
0.5
9
1028.1
1143 10.55
2 41 8.5
0.5
1.9
0.13
25
723.3
1139 14.87
3 4 50.8
0.5
1.8:0.12,
10
10 24.0
1143 2.22
2 42 0.8
0.6
1.9
0.13
26
719.3
1139 13.81
3 4 54.6
0.5
I.81 0.12 1
II
1020.0
114254.02
+ 242 52.5
0.5
1.9
0.13
27
715.4
1139 12.95
+ 34 57.6
0.5
1.£0.I*j
12
10 15.9
1142 45.93
243 43.4
0.5
1.9
0.13
28
7 11.4
1 1 39 12.28
3 4 59.1
0.6
1.80.12
13
10 11.9
1142 37.96
244 33.6
0.5
1.9
0.13
29
7 7.5
1139 11.81
3 4 59.3
0.5
1.8 0.12
14
10 7.8
1142 30.08
245 23.0
0.5
1.9
0.13
30
7 3.5
113911.54
3 458.3
0.5
1.8
0.12
15
16
10 3.7
9 59.7
114222.32
1142 14.67
2 46 11.7
+ 246 59.6
0.5
0.5
1.9
1.9
0.13
0.13
31
6 59.6
1922.8
113911.44
12 9 48.12
+ 3 4 56.0
-016 3.4
0.5
0.5
1 8
0.12
Dec. 1
1.8 0.12
1.8J0.I2
17
9 55.6
11 42 7.13
2 47 46.6
0.5
1.9
0.13
2
19 19.0
12 955.14
0 16 46.8
0.6
18
9 51.6
114159.73
2 48 32.8
0.5
1.9
0.13
3
19 15.2
12 10 1.97
0 17 29.2
0.5
1.8(0.12
19
9 47.6
114152.43
2 4918.1
0.5
1.9
0.13
4
19 11.4
1210 8.62
0 18 10.3
0.5
1.8 0.12
20
9 43.5
114145.29
2 50 2.6
0.5
1.9
0.13
6
19 7.6
12 10 15.09
018 50.2
0.5
I.81 0.12
1.8 0.12
21
9 39.4
114138.27
+ 2 50 46.2
0.5
1.9
0.13
6
19 3.8
12 1021.38
- 01929.0
0.5
22
9 35.3
114131.38
25128.8
0.5
1.9
0.13
7
18 59.9
12 10 27.47
0 20 6.5
0.6
1.8 0.12
23
9 31.3
114124.62
2 52 10.6
0.5
1.9
0.13
8
18 56.0
1210 33.39
02042.4
0.5
1.8 0.12
24
927.2
1141 18.02
25251.3
0.5
1.9
0.13
9
18 52.2
12 1039.11
0 21 17.2
0.5
1.8 0.12
25
9 23.2
1141 11.55
25331. 1
0.5
1.9
0.13
10
18 48.3
12 10 44.65
0 2150.7
0.5
1.8
0.12
26
919.1
1141 5.23
+ 2 54 9.8
0.5
1.9
0.13
11
18 44.5
1210 49.99
- 022 22.9
0.5
1.8 0.12
27
915.1
1140 59.05
2 54 47.6
0.5
1.9
0.13
12
18 40.6
12 10 55.14
0 22 53.9
0.5
1.8
0.12
28
9 11.1
1140 53.04
2 55 24.4
0.5
1.9
0.13
13
18 36.8
1211 0.09
0 2323.6
0.5
1.8-0. 12
29
9 7.0
11 40 47.18
256 0.1
0.5
1.9
0.13
14
18 32.9
12 II 4.85
0 23 52.1
0.5
1.8
0.12
30
9 3.0
1140 41.47
2 56 34.8
0.5
1.9
0.13
15
1829.1
12 11 9.41
024 19.2
0.5
1.6
0.12
May 1
8 59.0
1140 35.92
+ 2 57 8.4
0.5
1.9
0.13
16
18 25.2
1211 13.77
- 0 24 45.0
0.5
1.6
0.12
2
8 55.0
1 1 40 30.54
2 57 40.9
0.5
1.9
0.13
17
1821.4
1211 17.93
0 25 9.5
0.5
1.8
0.12
3
851.0
1140 25.33
2 58 12.2
05
1.9
0.13
18
1817.5
121121.89
0 25 32.7
0.5
1.8
0.12
4
8 47.0
114020.27
2 58 42.7
0.5
1.9
0.13
19
1813.6
121125.64
0 25 54.6
0.5
r.e
0.12
5
8 43.0
1 1 40 15.38
259 12.0
0.5
1.9
0.13
20
18 9.7
121129.19
02615.2
0.5
1.8
0.12
6
8 39.0
1140 10.65
+ 25939.9
0.5
1.9
0.13
21
18 5.8
121132.54
- 026 34.4
0.5
1.6
0.12
7
8 34.9
1140 6.10
3 0 7.1
0.5
1.9
0.13
22
18 2.0
121135.69
0 26 52.3
0.5
1.8
0.12
8
8 30.9
1140 1.72
3 .0 33.0
0.5
1.9
0.13
23
1758.1
121138.63
0 27 8.9
0.5
1.8
0.12
9
826.9
113957.53
3 0 57.7
0.5
1.9
0.13
24
17 54.3
121141.37
0 2724.1
0.5
1 8
0.12
10
8 23.0
113953.50
3 121.3
0.5
1.9
0.13
25
17 50.4
121143.89
0 27 38.0
0.5
1.6
0.12
11
8 19.0
1 1 39 49.64
+ 3 1 43.7
0.5
1.9
0.13
26
17 46.5
121146.23
- 02750.6
0.5
1.9
0.12
12
815.0
1 1 39 45.96
3 2 4.9
0.5
1.9
0.13
27
17 42.6
121148.34
028 1.7
0.5
1.9
0.12
13
811.0
1 1 39 42.46
3 224.9
0.5
1.9
0.13
28
17 38.7
12 1150.25
02811.7
0.5
1.9
0.12
14
8 7.0
1139 39.13
3 2 43.9
0.5
1.9
0.13
29
17 34.8
121151.96
0 2820.1
0.5
1.9
0.12
15
8 3.0
1 1 39 36.00
3 3 1.5
0.5
1.9
0.13
30
17 30.9
121153.46
0 28 27.4
0.5
1.9
0.13
16
7 59.0
1139 33.04
+ 33 18.0
0.5
1.9
0.13
31
17 27.0
121154.82
- 0 28 33.2
0.5
1.9
0.13
17
7 55.0
1 1 39 30.26
+ 33 33.4
0.5
1.9
0.13
32
17 23.1
12 1156.12
- 0 2837.8
0.5
1.9 0.13
NEPTUNE, 1884.
397
FOR TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Transit.
Apparent
R. Ascension
at
Transit.
Apparent
Declination
at
Transit.
Hor.
Par.
Semi-
diam.
8.T.of
Bern.
Pass.
Mer.
Date.
Mean
Time
of
Transit
Apparent
R. Ascension
at
Transit.
Apparent
Declination
at
Transit.
Hor.
Par.
Semi-
diam.
8.T.of
Sem.
Pass.
Mer.
Jan. 0
h m
825.7
h
3
m a
611.91
o / n
+ 153657.6
ti
0.3
it
1.3
ft
0.09
Feb. 15
h m
524.3
h m s
3 539.71
O 1 it
+1537 38.2
it
0.3
1.3
0.09
1
821.6
3
6 8.29
153646.0
0.3
1.3
0.09
16 520.4
3 542.20
1537 52.4
0.3
1.3
0.09
2
8 17.7
3
6 4.77
153634.8
0.3
1.3
0.09
17
516.5
3 544.82
1538 7.1
0.3
1.3
0.09
3
813.7
3
6 1.39
153624.1
0.3
1.3
0.09
18
512.6
3 547.57
153822.3
0.3
1.3
0.09
4
8 9.7
3
558.14
153614.0
0.3
1.3
0.09
19
5 8.7
3 5 50.45
153838.0
0.3
1.3
0.09
5
8 5.7
3
555.00
+15 36 4.5
0.3
1.3
0.09
20
5 4.9
3 5 53.47
+ 153854.2
0.3
1.3
0.09
6
8 1.8
3
5 51.98
153555.5
0.3
1.3
0.09
- 21
5 1.0
3 5 56.62
153910.9
0.3
1.3
0.09
7
7 57.8
3
549.09
15 3547.1
0.3
1.3
0.09
22
4 57.1
3 569.89
153928.2
0.3
1.3
0.09
8
7 53.8
3
546.32
15 3539.2
0.3
1.3
0.09
23
4 53.2
3 6 3.30
1539 46.0
0.3
1.3
0.09
9
749.8
3
543.67
153531.8
0.3
1.3
0.09
24
4 49.4
3 6 6.84
15 40 4.2
0.3
1.3
0.09 ,
10
745.9
3
541.15
+153525.0
0.3
1.3
0.09
25
4 45.5
3 6 10.51
+154022.9
0.3
1.3
0.09
11
741.9
3
538.75
1535 18.8
0.3
13
0.09
26
4 41.6
3 614.30
154042.2
0.3
1.3
0.09
12
7 37.9
3
536.48
15 3513.1
0.3
1.3
0.09
27
4 37.7
3 618.22
15 41 2.0
0.3
1.3
0.09
13
7 34.0
3
534.34
15 35 8.0
0.3
1.3
0.09
28
4 33.9
3 6 22.26
154122.3
0.3
1.3
0.09
14
7 30.0
3
5 32.33
1535 3.5
0.3
1.3
0.09
29
4 30.0
3 626.42
+154143.0
0.3
1.3
0.09
. 15
726.0
3
5 30.44
+15 34 59.5
0.3
1.3
0.09
16
7 22.1
3
528.69
1534 56.1
0.3
1.3
0.09
Sept. 1
1637.8
32536.88
+1654 21.5
0.3
1.3
0.09
17
7 18.1
3
527.07
1534 53.2
0.3
1.3
0.09
2
16 33.9
32535.94
16 54 14.5
0.3
1.3
0.09
18
714.1
3
525.58
1534 50.9
0.3
1.3
0.09
3
1629.9
32534.87
16 54 7.2
0.3
1.3
0.09
19
7 10.2
3
5 24.23
1534 49.1
0.3
1.3
0.09
4
1626.0
325 33.66
165359.4
0.3
1.3
0.09
20
7 6.2
3
523.01
+15 34 47.9
0.3
1.3
0.09
5
1622.0
32532.32
+1653 51.1
0.3
1.3
0.09
21
7 2.3
3
521.93
15 34 47.3
0.3
1.3
0.09
6
1618.1
32530.85
165342.3
0.3
1.3
0.09
22
6 58.3
3
520.99
1534 47.3
0.3
1.3
0.09
7
1614.1
32529.25
1653 33.0
0.3
1.3
0.09
23
6 54.4
3
520.19
1534 47.9
0.3
1.3
0.09
8
16 10.1
32527.52
165323.2
0.3
1.3
0.09
24
6 50.4
3
5 19.53
1534 49.0
0.3
1.3
0.09
9
16 6.2
32525.67
165313.1
0.3
1.3
0.09
25
6 46.5
3
518.99
+15 34 50.7
0.3
1.3
0.09
10
16 2.2
32523.69
+1653 2.6
0.3
1.3
0.09
26
642.6
3
518.59
1534 53.0
0.3
1.3
0.09
11
1558.3
32521.59
1652 51.6
0.3
1.3
0.09
27
6 38.6
3
5 18.33
15 34 55.8
0.3
1.3
0.09
12
15 54.3
32519.37
165240.2
0.3
1.3
0.09
28
6 34.7
3
5 18.21
1534 59.2
0.3
1.3
0.09
13
1550.3
32517.02
165228.3
0.3
1.3
0.09
29
630.8
3
518.23
1535 3.2
0.3
1.3
0.09
14
15 46.3
325 14.54
16 5216.0
0.3
1.3
0.09
30
6 26.8
3
5 18.39
+15 35 7.8
0.3
1.3
0.09
15
1542.4
32511.93
+1652 3.2
0.3
1.3
0.09
31
622.9
3
518.69
153513.0
0.3
1.3
0.09
16
15 38.4
3 25 9.20
165150.0
0.3
1.3
0.09
Feb. 1
619.0
3
519.13
15 3518.7
0.3
1.3
0.09
17
1534.4
325 6.35
165136.4
0.3
1.3
0.09
2
615.1
3
5 19.70
15 3525.0
0.3
1.3
0.09
18
1530.4
325 3.38
165122.4
0.3
1.3
0.09
3
6 11.1
3
520.41
153531.9
0.3
1.3
0.09
19
1526.4
325 0.29
1651 8.0
0.3
1.3
0.09
4
6 7.2
3
521.27
+153539.3
0.3
1.3
0.09
20
1522.5
324 57.08
+1650 53.1
0.3
1.3
0.09
5
6 3.3
3
522.26
153547.3
0.3
1.3
0.09
21
15 18.5
324 53.75
165037.8
0.3
1.3
0.09
6
559.4
3
523.38
15 3555.9
0.3
1.3
0.09
22
15 14.5
324 50.30
165022.2
0.3
1.3
0.09
7
555.5
3
524.65
1536 5.1
0.3
1.3
0.09
23
15 10.5
324 46.74
1650 6.2
0.3
1.3
0.09
8
551.5
3
526.06
153614.6
0.3
1.3
0.09
24
15 6.5
324 43.07
1649 49.8
0.3
1.3
0.09
9
547.7
3
527.60
+153625.1
0.3
1.3
0.09
25
15 2.5
324 39.29
+164933.0
0.3
1.3
0.09
10
543.8
3
529.28
1536 35.9
0.3
1.3
0.09
26
14 58.5
324 35.40
164915.8
0.3
1.3
0.09
11
539.9
3
531.10
153647.3
0.3
1.3
0.09
27
14 54.5
324 31.39
1648 58.3
0.3
1.3
0.09
12
536.0
3
5 33.05
153659.2
0.3
J. 3
0.09
28
14 50.5
324 27.28
1648 40.4
0.3
1.3
0.09
13
532.1
3
535.13
153711.6
0*3
1.3
0.09
29
14 46.5
324 23.07
164822.2
0.3
1.3
0.09
14
528.2
3
537.35
+15 3724.6
0.3
1.3
0.09
30
14 42.5
324 18.76
+16 48 3.6
0.3
1.3
0.09
15
524.3
3
5 39.71
+15 37 38.2
0.3
1.3
0.09
31
14 38.5
324 14.34
+1647 44.6
0.3
1.3
0.09
398
NEPTUNE, 1884.
FOR TRANSIT AT WASHINGTON.
Date.
Mean
Time
of
Transit
Apparent
R. Ascension
at
Transit.
Apparent
Declination
at
Transit.
Hor.
Par.
Ssml
S.T/>f
8em.
Pats.
Mer.
Date.
Mean
Time
of
Transit
Apparent
R. Ascension
at
Transit.
DeoUnatJon
at
Transit.
Hor.
Psr.
a.Tu>f
Sens.
3cmf- Pfcas.
dis&an Mm--
'
Oct. 1
h m
14 38.5
h m s
324 14.34
O / II
+16 47 44.6
0.3
II
1.3
0.09
Nov. 1 6
a m
1133.0
h m s
31935.45
+I6292L6
it
0.3
1.3 0.09
2
14 34.5
324 9.82
164725.2
0.3
1.3
0.09
17
1129.0
31928.65
162856.0
0.3
i.a| o.oo
3
14 30.5
324 5.20
1647 5.6
0.3
1.3
0.09
18
1124.9
31921.86
162830.6
0.3
1.
3 0.09
4
14 26.5
324 0.48
16 46 45.7
0.3
1.3
0.09
19
1120.9
3 19 15.06
1628 5.3
0.3
1.3)0.09
5
14 22.5
323 55.67
164625.4
0.3
1.3
0.09
20
11 16.8
3 19 8.32
162740.1
0.3
1.3J0.09 1
6
14 18.5
323 50.76
+16 46 4.8
0.3
1.3
0.09
21
11 12.8
319 1.57
+162715.1
0.3
I.3J0.O9 1
7
14 14.5
323 45.76
164543.9
0.3
1.3
0.09
22
II 8.7
31854.85
162650.2
0.3
1.310.09 1
8
14 10.4
32340.67
16 4522.7
0.3
1.3
0.09
23
11 4.7
31848.16
162625.5
0.3
1. a 0.09 f
9
14 6.4
32335.49
16 45 1.3
0.3
1.3
0.09
24
11 0.7
31841.50
1626 0.9
0.3
1.3)0.09 J
10
14 2.4
32330.23
1644 39.6
0.3
1.3
0.09
25
10 56.6
31834.87
162536.5
0.3
1.3)0.09 1
11
1358.4
3 2324.88
+16 44 17.6
0.3
1.3
0.09
26
10 52.6
3 1828.27
+162512.3
0.3
1.3(0.09 1
12
13 54.3
323 19.44
16 4355.3
0.3
1.3
0.09
27
10 48.5
31821.70
1624 48.2
0.3
1.3
0.09
13
13 50.3
32313.93
1643 32.8
0.3
1.3
0.09
28
10 44.5
3 18 15.18
1624 24.2
0.3
1.3
0.09
14
13 46.3
323 8.34
164310.1
0.3
1.3
0.09
29
10 40.4
318 8.70
16 24 0.4
0.3
1.3
0.09
15
1342.3
323 2.67
164247.1
0.3
1.3
0.09
30
1036.4
318 2.26
1623 37.0
0.3
1-3
0.09
16
13 38.2
32250.93
+164223.9
0.3
1.3
0.09
Deo. 1
10 32.4
317 55.86
+162313.8
0.3
1.3
0.09
17
13 34.2
32251.11
1642 0.5
0.3
1.3
0.09
2
1028.3
317 49.51
1622 50.8
0.3
1.3 0.09!
18
13 30.2
32245.22
16 4136.9
0.3
1.3
0.09
3
1024.3
317 43.21
162228.1
0.3
1.3
0.09
19
1326.2
322 39.27
1641 13.1
0.3
1.3
0.09
4
10 20.2
317 36.97
1622 5.6
0.3
1.3
0.09
90
13 22.1
32233.25
164049.1
0.3
1.3
0.09
5
10 16.2
31730.79
162143.4
0.3
1.3
0.09
SI
13 18.1
32227.16
+16 4024.9
0.3
1.3
0.09
6
10 12.2
317 24.67
+1621 21.5
0.3
1.3
0.09
22
13 14.1
32221.02
1640 0.5
0.3
1.3
0.09
7
10 8.1
3 17 18.60
162059.9
0.3
1.3
009
23
13 10.0
32214.83
16 39 35.9
0.3
1.3
0.09
8
10 4.1
3 17 12.60
162038.6
0.3
1.3
0.09
24
13 6.0
3 22 8.58
163911.2
0.3
1.3
0.09
9
10 0.1
317 6.67
1620 17.5
0.3
1.3
0.09
25
13 2.0
322 2.27
16 3846.3
0.3
1.3
0.09
10
9 56.1
317 0.81
161956.8
0.3
1.3
0.09
26
1257.9
32155.92
+163821.3
0.3
1.3
0.09
11
952.0
31655.01
+161936.4
0.3
1.3
0.09
27
1253.9
32149.52
16 37 56.1
0.3
1.3
0.09
12
9 48.0
316 49.27
16 19 16.3
0.3
1.3
0.09
28
1249.8
32143.08
16 37 30.8
0.3
1.3
0.09
13
9 44.0
31643.60
161866.6
0.3
1.3
0.09
29
1245.8
32136.60
16 37 5.4
0.3
1.3
0.09
14
9 39.9
316 38.02
161837.3
0.3
1.3
0.09
30
1241.7
32130.07
163639.9
0.3
1.3
0.09
15
9 35.9
316 32.54
16 18 18.3
0.3
1.3
0.09
31
12 37.7
32123.50
+16 3614.3
0.3
1.3
0.09
16
9 31.9
31627.14
+161*69.7
0.3
1.3
0.09
Nov. 1
1233.7
321 16.90
16 35 48.7
0.3
1.3
0.09
17
927.9
31621.82
161741.5
0.3
1.3
0.09
2
132!l.fi
321 10,27
16 35 23.0
0.3
1.3
0.09
18
923.8
3 16 16.59
161723.6
0.3
1.3
0.09
3
1235.6
321 3.61
10 34 57.2
0.3
1.3
0.09
19
919.8
31611.44
1617 6.1
0.3
1.3
0.09
4
1221 ,*
3 20 56.9-2
16 34 31.5
0.3
1.3
0.09
20
915.8
316 6.38
1616 49.0
0.3
1.3
0.09
5
1217.5
3 20 50,21
+ 16 34 5.8
0.3
1.3
0.09
21
911.8
316 1.42
+161632.4
0.3
1.3
0.09
6
12 13,5
3 90 43.4?
16 33 40.0
0.3
1.3
0.09
22
9 7.8
31556.56
16 16 16.2
0.3
1.3
0.09
7
12 M
3 20 30.71
163314.1
0.3
1.3
0.09
23
9 3.8
31551.79
1616 0.4
0.3
1.3
0.09
8
12 5.4
3 20 29,93
32 48.1
0.3
1.3
0.09
24
859.8
31547.12
1615 45.0
0.3
1.3
0.09
9
12 L3
320 23.14
16 32 22.1
0.3
1.3
0.09
25
8 55.8
31542.55
161530.1
0.3
1.3
0.09
10
1157,3
320 1(i,34
+ 163156.2
0.3
1.3
0.09
26
8 51.8
31538.09
+16 15 15.6
0.3
1.3
0.09
11
1 i 5-X2
3 20 9.53
16 3130.3
0.3
1.3
0.09
27
847.8
31533.72
1615 1.5
0.3
1.3
0.09
12
1149,2
320 2.72
IG31 4.4
0.3
1.3
0.09
28
8 43.8
31529.46
16 14 47.9
0.3
1.3
0.09
13
1145,1
3 19 65.90
J 30 38.6
0.3
1.3
0.09
29
839.8
31525.31
16 14 34.8
0.3
1.3
0.09
14
1141.1
3 19 49.UH
16 30 12.9
0.3
1.3
0.09
30
8 35.8
31521.28
16 14 22.1
0.3
1.3
0.09
15
1137.1
31942.26
+ IG2947.2
0.3
1.3
0.09
31
831.8
3 15 17.34
+1614 9.9
0.3
1.3
0.09
16
1133,0
3 19 35.45
+ 1629 21.6
0.3
1.3
0.09
32
827.8
3 15 13.53
+1613 58.3
0.3
1.3, 0.09
PART III
PHENOMENA
EPH 84—85—16
400 ECLIPSES, 1884
ECLIPSES IN 1884.
Lf the year 1884 there will be five eclipses, three of the sun and two of the moon.
I.— wfl Partial Edip$t of the Sun, 1884, March 26, invisible at Washington.
ELEMENTS OF THE ECLIPSE.
d h m s
Greenwich mean time of & in right ascension, March 26 18 51 3&3
h m s s a
Sun and moon's R. A. 0 25 47.20 Hourly motions 9.09 and 140.03
Sun's declination 2 47 19A N. Hourly motion o' 58j6 N.
Moon's declination 4 19 23.9 N. Hourly motion 11 29.5 N.
Sun's equa. hor. parallax 8.9 Sun's true semidiameter 16 1.2
Moon's equa. hor. parallax 60 11.4 Moon's true semidiameter 16 2&3
CIRCUMSTANCES OP THE ECLIPSE.
Eclipse begins March 26 17 12*2 in long. 9° 28.2 E . and in lat 54° Ills N.
Greatest eclipse 26 18 2.3 7 50.1 W. 72 5.0 N.
Eclipse ends 26 18 51.9 103 54.3 W. 87 12£ N.
Magnitude of gieatest eclipse = 0,141, (sun's diameter «= 1).
VL—A Total Eclipse of the Moon, 1884, April 9-10, partly visible at Washington, and visible
in North America, the Pacific Ocean and Asia.
ELEMENTS OF THE ECLIPSE.
d h m a
Greenwich mean time of g in right ascension, April 9 23 53 50.7
h m § s
Sun's right ascension 1 17 37.81 Hourly motion 9.17
Moon's right ascension v 13 17 37.81 Hourly motion 117.21
Bun's declination 8 12 119 N. Hourly motion 0 553 N.
Moon's declination 8 24 12.6 S. Hourly motion 8 43.6 S.
Sun's equa. hor. parallax 8.8 Sun's true semidiameter 15 57.3
Moon's equa. hor. parallax 54 33.8 Moon's true semidiameter 14 51.4
TIMES OF THE PHASES.
Greenwich Mean Time. Washington Mean Time,
d h m d h m
Moon enters penumbra April 9 20 41.3 April 9 15 33.1
Moon enters shadow 21 52.3 16 44.1
Total eclipse begins 22 59.6 17 51.6
Middle of the eclipse 23 46.6 18 38.4
Total eclipse ends 10 0 33.3 19 25.1
Moon leaves shadow 1 40.9 20 32.7
Moon leaves penumbra 2 52£ 21 44.0
CIRCUMSTANCES OF THE ECLIPSE.
First contact of shadow with the moon's limb 94° from the north point toward the east,
when the moon is in the zenith iu longitude 149° 42* west of Greenwich, and in latitude 8° 6f
south.
Last contact of shadow with the moon's limb 61° from the north point toward the west,
when the moon is in the zenith in longitude 155° 53' east of Greenwich, and in latitude 8° iff
south. .....
Magnitude of the eclipse = 1.438, (moon's diameter = 1).
ECLIPSES, 1884.
401
UL—A Partial Edip$e of (he Sun, 1884, April 25, invisible at Washington.
ELEMENTS OF THE ECLIPSE.
d h m s
Greenwich mean time of & in right ascension, April 25 2 17 18.0
h m a a
Sun and moon's R. A.
Sun's declination
Moon's declination
Sun's equn. hor. parallax
Moon's equa, hor. parallax
CIRCUMSTANCES OF THE ECLIPSE.
Eclipse begins April 25 1 0.5 in long. 82 &5 W. and in lat 59 12,3 S.
Greatest eclipse 25 2 46.4 4 26.7 E . 70 48.2 S.
Eclipse ends 25 4 32.4 12 20.6 E . 33 6.7 S.
Magnitude of greatest-eclipse -=-0.754, (sun's diameter = 1).
2 13 45.69
Hourly motions
9.43 and 15031
13° 26' 41.9 N.
Hourly motion
0 48.4 N.
12 15 15.8 N.
Hourly motion
9 18.8 N
8.8
Sun's true semidiameter
15 53.3
61 7.1
Moon's true semidiameter
16 38.5
IV.— A Total Edipst of (he Moon, 1884, October 4, partly visible at Washington; visible in
Europe, Asia and Africa, and the Atlantic Ocean.
ELEMENTS OF THE ECLIPSE.
d h
Greenwich mean time of g in right ascension, October 4 10
h m s
12 44 24.99
0 44 24.99
8
8
4.3
Sun's right ascension
Moon's right ascension
Sun's declination 4 46 33.4
Moon's declination 4 57 57.9
Sun's equa. hor. parallax 8.9
Moon's equa. hor. parallax 59 22.9
Hourly motion
Hourly motion
S. Hourly motion
N. Hourly motion
Sun's true semidiameter
Moon's true semidiameter
9?11
136.90
0 57.8 i
10 53.0 I
16 0.4
16 10 1
Moon enters penumbra
Moon enters shadow
Total eclipse begins
Middle of the eclipse
Total eclipse ends
Moon leaves shadow
Moon leaves penumbra
TIMES OF THE PHASES.
Greenwioh Mean Time,
d h
October 4
7 15.4
8 14.9
9 15.3
10 2.0
10 48.7
11 49.1
12 48.5
Washington Mean Time,
d h m
October 4 2 7.2
3 6.7
4 7.1
4 53.8
5 40.5
6 40.9
7 40.3
CIRCUMSTANCES OF THE ECLIPSE.
First contact of shadow with the moon's limb 83° from the north point toward the east,
when the moon is in the zenith in longitude 52° 23' east of Greenwich, and in latitude 4° 38'
north.
Last contact of shadow with the moon's limb 117° from the north point toward the west,
when the moon is in the zenith in longitude 0° 4& east of Greenwich, and in latitude 5° W
north.
Magnitude of the eclipse = 1,533, ( moon's diameter = 1 ).
26
402
ECLIPSES, 1884.
V.— A Partial Eclipse of the Sun, 1884, October 18, invisible at Washington.
ELEMENTS OF THE ECLIPSE.
d h m a
Greenwich mean time of <$ in right ascension, October 18 11 39 4.9
Sun and moon's R. A.
Sun's declination
Moon's declination
Sun's equa. hor. parallax
Moon's equa, hor. parallax
h ni 8
13 36 27.25
10° 3
1.1
S.
8 55
3.8
8.9
s.
55 10.4
Hourly motions
Hourly motion
Hourly motion
Sun's true semidiameter
Moon's true semidiameter
9.42 and 120.39
0'542 S.
8 36.0 S.
16 4.2
15 1.4
Eclipse begins
Greatest eclipse
Eclipse ends
CIRCUMSTANCES OF THE ECLIPSE.
October 18 10 20.3 in long. 132° 0.6 E . and in lat. 63 30.5 N.
18 12 17.7 130 18.1 W. 71 32.2 N.
18 14 15.5 134 22.7 W. 33 25.0 N.
Magnitude of greatest eclipse = 0.638, (sun's diameter = 1).
The regions within which the eclipses of the sun are visible are laid down on the follow ing
charts, from which may also be found the Greenwich time of beginning or ending within
fifteen or twenty minutes, by means of the dotted lines.
BESSELIAN ELEMENTS OF THE PARTIAL ECLIPSE
OF THE SUN, 1884, MAftCH 26.
Greenwich
Mean
Time.
Co-ordinates of
Centre of Shadow on
Fundamental Plane.
V
Direction of Axis of Shadow.
Log sin d.
Log cos d.
Badias of Penumbra
on
Fundamental Plane.
/
h m
17 10
17 20
17 30
17 40
17 50
18 0
18 10
18 20
18 30
18 40
18 50
-0.92004
0.82946
0.73888
0.64830
0.55771
-0.46712
0.37662
0.28592
0.19532
0.10472
-0.01412
+ 1.23760
1.26674
1.29587
1.32500
1.35413
+ 1.38325
1.41236
1.44147
1.47058
1.49968
+ 1.52878
+8.68234
8.68275
8.68317
8.68358
8.68400
+ 8.68441
8.68482
8.68523
8.68565
8.68606
+8.68647
+9.99950
9.99950
9.99949
9.99949
9.99949
+9.99949
9.99949
9.99949
9.99949
9.99949
+9.99949
256 9.3
258 39.4
261 9.4
263 39.5
266 9.5
268 39.6
271 9.6
273 39.6
276 9.7
278 39.7
281 9.8
+0.53774
0.53773
0.53771
0.53770
0.53769
+0.53768
0.53766
0.53765
0.53763
0.53762
+0.53760
Greenwich
Mean
Time.
Log A X
for
1 Minute.
Log Ay
for
1 Minute.
Log A n
for
1 Minute.
Log Tangent of Angle of Cone-
Penumbra.
h
17
18
19
+7.9570
7.9571
+7.9572
+7.4646
7.4642
+ 7.4637
+ 1.1762
1.1762
+ 1.1762
7.66716
7.66716
7.66717
PARTIAL ECLIPSE or MARCH 26T.H 1884.
^ 5 —
3 -J \?
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b
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tr
o
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S-
s
f*
u
oo
q
^•^y j^y a / //Br
1\ YSrA ^v /rfcsJ \«
<S
~"\> \ ^/y^^ xL~ / / /%»|i\,
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NoLC "/#<• /ton/* ttf//*yt/i/ti/iy and earting utr ip:/'n'»*ctf t'/i (•'rrrnnrc/t Jfrr'/t 7tftn\
PARTIAL ECLIPSE of APRIL 25T.H 1884.
4
■■£ gj
b
>C *v
A>>'
/ ;£ /
r^Y \ /\ *
A *//K
vf/k X \ 5
O
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Ar ^^vsd
^ ^V / ^ob* xv\ \ \
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^"%w / yPKs v^. \ ^^
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/^>^ /^\\A\ \\ )
Ao
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\ U^x^W^TJ
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\ \ "^V"-
\ ^- — \* *\ ^c&3>'""^<^/ v
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"~^\ x^L
^\^-^^ \ x^f \ J^ -v/sl /
^'
£\ \2K.
^rO/^^/\ y xf^l/ kl/
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'<*>
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'NotMl.-7'Ati hour*ofl>€ft/tru7>g and ending w expressed in GrefmmJi Jfaartpmc
ECLIPSES, 1884.
403
BESSELIAN ELEMENTS OF THE PARTIAL ECLIPSE
OF THE SUN, 1884, APRIL 25.
Co-ordinates of
Radius of Pennmhra
Centre of Shadow on
Direction of Aids of Shadow.
on
Greenwich
Mean
Fundamental Plane.
Fundamental Plane.
Time.
X
y
Log sin <L
Log cos d.
/«
1
h m
1 0
-0.72669
- 1.35145
+9.36600
+9.98795
15 33.2
+0.53345
1 10
0.63269
1.32817
9.36607
9.98795
18 3.3
0.53345
1 20
0.53868
1.30489
9.36614
9.98795
20 33.3
0.53344
1 30
0.44467
1.28161
9.36620
9.98794
23 3.3
0.53344
1 40
0.35066
1.25833
9.36627
9.98794
25 33.4
0.53344
1 50
0.26665
1.23505
9.36634
9.98794
28 3.4
0.53344 !
2 0
-0.16264
-1.21177
+9.36641
+9.98793
30 33.4
+ 0.53343
2 10
-0.06862
1.18849
9.36648
9.98793
33 3.5
0.53343
2 20
+0.02540
1.16521
9.36655
9.98792
35 33.5
0.53342
2 30
0.11942
1.14193
9.36661
9.98792
38 3.5
0.53342
2 40
0.21344
1.11865
9.36668
9.98792
40 33.6
0.53341
2 50
0.30746
1.09537
9.36675
9.98791
43 3.6
0.53340
3 0
+0.40148
-1.07210
+9.36682
+9.98791
45 33.6
+0.53339
3 10
0.49550
1.04883
9.36689
9.98791
48 3.6
0.53338
3 20
0.58953
1.02556
9.36696
9.98790
50 33.7
0.53337
3 30
0.68355
1.00229
9.36703
9.98790
53 3.7
0.53336 i
3 40
0.77758
0.97902
9.36710
9.98789
55 33.7
0.53335 |
3 50
0.87160
0.95575
9.36717
9.98789
58 3.8
0.03334
i
4 0
+0.96562
-0.93248
+9.36724
+9.98789
60 33.8
1
+0.53333
4 10
1.05964
0.90922
9.36731
9.98788
63 3.8
0.53331 '
4 20
1.15365
0.88596
9.36738
9.98788
65 33.9
0.53330
4 30
1.24766
0.86271
9.36745
9.98787
68 3.9
0.53328
4 40
1.34168
0.83945
9.36752
9.98787
70 33.9
0.53327
4 50
+ 1.43569
-0.81619
+9.36759
+9.98787
73 4.0
+0.53325 ;
Greenwich
Log A x
u
yg Ay
Log A/i
Log Tangent
of Angle of Cone—
Mean
Time.
for
1 Minute.
u
for
Minute.
for
1 Minute.
Pennmhra.
h
1
+7.9731
H
1-7.3670
+ 1.1762
7
66687
2
7.9732
7.3670
1.1762
7
66686
3
7.9732
7.3669
1.1762
7
66686
4
7.9732
7.3667
1.1762
7
66685
5
+7.9731
H
f-7.3664
+ 1.1762
7
66685
404
ECLIPSES, 1884.
BE8SELIAN ELEMENTS OF THE PARTIAL ECLIPSE
OF THE SUN, 1884,
OCTOBER 18.
Co-ordinates of
Radios of Penumbra
Centre of Shadow on
Direction of Axis of Shadow.
on
Greenwich
Mean
Time.
Fundamental Plane.
Fundamental Plane.
X
y
- Log sin d.
Log cos <Z.
A*
1
h in
10 20
-0.65650
+ 1.41871
-9.24112
+9.99331
158° 44.3
+0.56482
10 30
0.57349
1.39546
9.24122
9.99330
161 14.3
0.56484
10 40
0.49048
1.37221
9.24133
9.99330
163 44.4
0.56486
10 50
0.40747
1.34895
9.24143
9.99380
166 14.4
0.56488
11 0
-0.32445
+ 1.32570
-9.24154
+9.99329
168 44.4
+0.56490
11 10
0.24144
1.30246
9.24164
9.99329
171 14.5
0.56492
11 20
0.15842
1.27921
9.24175
9.99329
173 44.5
0.56494
11 30
-0.07540
1.25596
9.24185
9.99328
176 14.5
0.56496
11 40
4-0.00762
1.23271
9.24196
9.99328
178 44.6
0.56497
11 50
0.09064
1.20946-
9.24206
9.99328
181 14.6
0.56499
12 0
+0.17366
+ 1.18621
-9.24217
+9.99327
183 44.6
+0.56501
12 10
0.25668
1.16296
9.24227
9.99327
186 14.7
0.56502
12 20
0.33969
1.13972
9.24238
9.99327
188 44.7
0.56504
12 30
0.42271
1.11648
9.24248
9.99326
191 14.7
0.56505 '
12 40
0.50573
1.09323
9.24259
9.99326
193 44.7
0.56507
12 50
0.58875
1.06999
9.24269
9.99326
196 14.8
0.56508
13 0
+0.67176
+ 1.04675
-9.24280
+9.99325
198 44.8
+0.56510 1
13 10
0.75477
1.02351
9.24290
9.99325
201 14.8
0.56511
13 20
0.83777
1.00027
. 9.24301
9.99325
203 44.9
0.56513
13 30
0.92078
0.97703
9.24311
9.99324
206 14.9
0.56514
13 40
1.00379
0.95379
9.24322
9.99324
208 44.9
0.56515
13 50
1.08680
0.93055
9.24332
9.99324
211 15.0
0.56516
14 0
+ 1.16980
+0.90732
-9.24343
+9.99324
213 45.0
+0.56517
14 10
1.25280
0.88408
9.24353
9.99323
216 15.0
0.56518
14 20
1.33580
0.86085
9.24364
9.99323
218 45.1
0.56519
14 30
1.41880
0.83762
9.24374
9.99323
221 15.1
0.56520
14 40
1.50180
0.81439
9.24385
9.99322
223 45.1
0.56521
1*50
1.58480
0.79116
9.24395
9.99322
226 15.1
0.56522
15 0
+ 1.66780
+0.76793
-9.24406
+9.99322
228 45.2
+0.56522
Greenwtah
Log A X
u
yg Ay
Log A ft
Log Tangent
of Angle of Cone—
Mean
Time.
for
1 Minute.
ij
for
Minute.
for
1 Minute.
Penumbra.
h
10
+7.9191
-7.3666
+ 1.1762
7.
67193
11
7.9192
7.3664
1.1762
7.
67193
12
7.9192
7.3663
1.1762
7.
67194
13
7.9191
7.3663
1.1762
7
67195
14
7.9191
7.3661
1.1762
7
67195
15
+7.9190
-7.3660
+ 1.1762
7
67196
PARTIAL ECLIPSE o
fe. i'.
Ar
gp
70'
so
>*
1
,
e
^^ ^ *
.Jy<S /:
^/•■; /
jZ^fSU / 1
/ \/ 7 _ In
?%/ nrJV
f » / / /C^ /ft
A^r^L / ••{-.. .
^\ ^ A
ij\~ \\ \ & (Any
I #
/\\ \ / / R3
40* -\
/ "2NJ v
iSft* -1 —
/ i *
l«
Ift* -1
r^?> /
& \ /
"^y
'**** /
/ *9 JsZands
* / '•
1 v
140"
Longitude East of 160° Greenwich
180c
Note.— The hours cffajirming cuul end*
OCTOBER 18 T.H 1884.
^ s '£ *
'£
I " ' ■— —- -SLA
/ • //
~<r
/ •" //
-J T-" /i
iji^L
^h^m $
«tf
//'VN^
*T \A \ \o_. \y^- y VX / \\ / >s
w^
%
Vv\ w\ ><S\ ^ix^— ^
\ A r\ \^ V\ x
\ §■ ?? \ /\x y x
<B
\\ / \>^ \ k' J*/ \
\L^\ tfS '/>< \
\ ^\^£2\ \ /\
\~*<~l^^^\rtft- \ \ s^ \
^==5=S>/' \ \ ^S\ \
\ ^~-^\ \ \ .^^^
*J
\ ~ \*"^ \ \
^'"'^ \ >V*.^«V
160° Long-itude West of 14iT Greenwich
120"
y <z^? expressed tsi Greenwich J/ran Tisnr.
MOON'S PHASES, LIBRATION, ETC., 1884.
405
WASHINGTON MEAN TIME.
PHASES OF THE MOON.
New Moon.
d h m
Jnnuaiy 27 11 53.0
February 26 1 26.9
Muroh 26 12 39.3
April 24 21 49.4
May 24 5 28.3
Jime 22 12 24.9
July 21 19 45.9
August 20 4 45.8
September 18 16 28.8
October 18 7 23.2
Novem-ber 17 1 3.5
December 16 20 16.3
First' Quarter.
January
February
March
Apiil
May
May
(1 h m
5 4 26.9
3 12 49.0
3 20 24.9
2 4 8.7
1 12 59.3
30 23 48.3
June 29 13 6.5
July 29 4 53.1
August 27 22 33.7
September 26 17 12.6
October 26 11 46.2
November 25 5 7.7
December 24 20 12.9
Full Moon.
January
February
March
April
May
June
July
August
September
October
Nove#mber
December
d h m
11 22 18.9
10 1139.7
11 2 31.7
9 18 35.9
9 10 59.4
8 2 41.0
17 2.1
5 58.4
17 47.6
4 51.8
15 28.5
1 51.4
December 31 12 18.0
Last Quarter.
January
February
March
April
May
June
July
August
September
October
November
December
d h ra
19 12 15.1
18 10 4.4
19 6 4.8
17 22 46.5
17 11 46.5
15 21 26.2
15 4 30.6
13 9 59.9
11 15 8.2
10 21 20.9
9 6 4.2
8 18 22.2
APOGEE, PERIGEE, AND GREATEST LIBRATION.
Apogee.
January
February
1 March
April
May
June
July
July
August
September
October
November
Decern ber
20 18.2
17 15.2
16 11.3
13 1.5
10 7.4
6 10.3
3 19.9
31 11.0
28 5.5
25 0.9
22 J 9.8
19 9.2
16 1 I.I
Perigee.
January
February
February
March
April
May
June
July
August
September
October
November
Decern l>er
December
d h
6 23.6
4 3.9
29 12.9
28 8.3
25 15.7
24 1.6
21 10.5
19 13.6
15 23.0
10 0.f)
6 20.8
3 22.6
2 9.5
30 22.8
Greatest Libration.
January
January
February
March
April
May'
June
July
August
September
October
Octol>er
November
December
d h m
1 10 50 E.
27 14 55 E.
23 21 52 E.
22 19 2 E.
19 23 8 E.
18 4 37 E.
15 4 55 E.
12 15 37 E.
8 0 59 E.
17 38 E.
7 1 E.
8 30 E.
15 43 E.
22 48 E.
January
February
March
April
May
May
June
d h m
14 33 10 W.
11 9 54 W.
18 48 W.
9 23 W.
4 1 W.
7 52 W.
12 42 W.
8
4
2
30
27
July 25
August 22
September 18
October
November
14 1W.
6 59 W.
7 18 W.
14 12 35 W.
10 16 37 W.
December 8 17 50 W.
FORMULAE FOR THE LIBRATION OF THE MOON.
Put /, the inclination of the moon's equator to the ecliptic (= 1° 28' .8),
ft, the mean longitude of the moon's ascending node, (see page 278), or the mean longitude
of the descending node of the moon's equator,
C, the angle at the centre of the moon's disk made by a lunar meridian with the circle of
declination, counted from north to east on the apparent disk,
X, /?, a', <$', the apparent longitude, latitude, right ascension, and declination of the moon, corrected
for parallax,
X', the selenocentric longitude of the earth, counted on the moon's equator from its descend-
ing node, ft,
i, A, ft', d , the quantities defined on page 276, where their values for the year are given.
The moon's libration in longitude and latitude may then be found, for any time, by means of the
following formulas, in connection with the tables given on pages 276 and 277: —
A X = — 0'.57 sin 2 (ft — X)
a = sin / cos (ft — X)
tan B = tan / sin (ft — X)
V = X +'A X + a b
The libration in latitude = b = B — /9
The libration in longitude = I = X1 — <{
See table, page 277.
sin C =s sin i
. cos (X' -f- A — ft)
. . cos (a1 — ft')
oos b
406
OCCULTAT10N8, 1884.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JANUARY.
Thk Stah's
At Conjunction in It. A.
Limiting
Parallels.
Name
Mag.
Red'm
188
A*
i from
4.0.
Apparent
Declination.
Washington
Mean Time.
Hour Angle
H
h m
Y >
X1
y'
N.
S.
o :
«
8
O /
d h m
o
19 Aquarii
54
-0.56
4 4.4
-10 14.4
1 0 53.7
- 1 42.1
-0.4603
0.5543
40.1595
4 6
-65J
B. AC. 756-2
64
0.48
4.0
9 34.3
10 8.5
4 7 14.5
40.3519
0.5534
0.1681
454
-16
cl Capricorni
c« Capricorni
5
0.48
4.0
9 36.7
10 10.7
4 7 16.6
40.3992
0.5534
0.1681
457
-13 '
6
0.47
4.0
9 48.5
10 47.4
4 7 52.1
40.7107
0.5533
0.1688
480
4 4
30 Aquarii
54
0.39
4.1
7 4.9
18 47.1
- 8 24.0
-0.7750
0.5524
0.1752
-10
-90
44 Aquarii
6
-0.32
4 3.9
- 5 57.9
3 1 18.2
- 2 5.5
-0.7836
0.5522
40.1795
-10
-90
51 Aquarii
6
0.28
3.8
5 25.2
4 360
4 1 5.7
-0.7548
0.5520
0.1818
- 8 -90
k Aquarii
6
-0.20
3.6
- 4 49.4
11 2.5
4 7 19.6
-0.1943
0.5520
0.1851
424
-47
15 Piscium
64
40.12
3.2
4 0 46.4
3 14 5.2
4 9 28.9
-0.7477
0.5541
0.1928
- 6
-83
X Piscium
5
0.16
3.1
1 8.6
17 8.9
-11 33.4
-0.6404
0.5545
0.1929
0
-81 1
21 Piscium
6
40.19
4 2.7
4 0 25.8
20 34.5
- 8 14.7
40.7546
0.5552
40.1928
490
4 7
22 Piscium
64
0.22
3.1
2 17.3
21 4<.l
- 7 7.4
-0.9344
0.5556
0.1928
-18
-88
25 Piscium
6
0.22
2.8
1 26.7
22 15.0
- 6 37.5
40.0308
0.5556
0.1927
437
-33
Lalande 47041
6
0.26
2.5
1 18.2
4 1 20.8
- 3 37.8
40.7741
0.5563
0.1923
490
+ 8
60 Piscium
64
0.58
2.3
6 6.5
23 2.9
- 6 39.8
-0.0357
0.5627
0.1854
433
-36
62 Piscium
6
40.59
4 2.5
4 6 40.0
23 26.5
- 6 17.0
-0.5320
0.5630
40.1849
4 6
-69'
6 Piscium
44
0.60
2.5
6 57.2
23 37.2
- 6 6.7
-0.7920
0.5632
0.1U49
- 9
-83
B. AC. 274
64
0.65
18
5 51.3
ff 4 37.4
- 1 16.8
41.2457
0.5652
0.1822
490
447
e Piscium
4
0.67
2.0
7 15.9
6 0.8
4 0 3.7
40.0628
0.5656
0.1813
439
-30
f Piscium
44
0.74
1.6
6 57.3
10 47.5
4 4 40.4
41.2283
0.5678
0.1778
490
446
54 Ceti
6
40.98
4 1.1
+10 28.1
6 3 0.2
- 3 41.3
40.4434
0.5746
40.1635
464
- 7
B. A. C. 609
6
1.04
1.1
11 43.9
6 40.0
- 0 9.4
-0.2409
0.5782
0.1593
422
-45
29 Arietis
64
1.26
4 0.5
14 31.2
20 48.3
-10 32.1
-0.9181
0.5838
0.1418
-18
-76
o Arietis
6
1.33
0.0
14 49.1
7 1 39.1
- 5 52.1
-0.5483
0.5864
0.1347
4 4
-63;
a Arietis
54
1.34
- 0.8
14 36.2
4 31.5
- 3 6.1
40.0503
0.5878
0.1304
438
-25
Nepturx
415 35.7
13 1.9
4 5 5.0
40.1054
0.5917
40.1169
442
-20
B. AC. 1119
6
4161
- 2.4
16 9.6
23 59.8
- 8 22.4
40.7150
0.5969
0.0974
490
415
B AC. 1240
6
1.73
3.1
17 51.9
8 8 29.6
- 0 12.6
-0.2338
0.6007
0.0810
422
-36
B.A.C. 1272
6
1.75
2.8
17 1.6
11 21.7
4 2 32.8
40.8279
0.6012
0.0760
490
425
Saturn
19 3.4
14 14.3
4 5 18.6
-0.9931
0.60&
0.0701
-25
-71
i
(5i Tauri
4
41.80
- 4.4
417 16.1
17 14.9
4 8 12.1
40.9961
0.6030
40.0636
490
437
<J» Tauri
54
1.81
4.5
17 10.4
17 42.3
4 8 38.5
41.1197
0.6033
0.0622
490
448'
d3 Tauri
5
1.83
4.4
17 39.6
18 14.8
4 9 9.6
40.6658
0.6033
0.0616
488
+16
e Tauri
34
1.85
4.3
18 55.3
19 27.1
+10 19.0
-0.5240
0.6039
0.0584
46
-54
B.A.C. 1468
6
1.90
5.3
18 31.4
9 2 22.0
- 7 2.5
40 2286
0.6052
0.0561
449
- 7,
i Tauri
54
41.92
- 5.7
+18 38.4
4 22.5
- 5 6.7
40.1969
0.6057
40.0390
447
- 8!
m Tauri
54
1.97
6.5
18 29.2
10 37.5
4 0 53.3
40.5541
0.6064
0.0257
475
+13
119 Tauri
5
2.04
7.8
18 30.3
20 18.1
410 10.7
40.6833
0.6070
0.0040
490
422
120 Tauri
6
2:04
7.9
18 27.3
20 48.9
+10 40.2
40.7367
0.6068
40.0033
490
425,
127 Tauri
64
2.07
8.2
18 55.3
10 0 27.7
- 9 49.8
40.2657
0.6066
-0.0052
452
- 1
B.A.C. 1867
64
42.10
- 8.3
420 16.1
4 30.2
- 5 57.0
-1.1220
0.6063
-0.0141
-38
-70
X1 Ononis
X* Orionis
^Orionis
44
2.10
8.4
20 15.1
4 55.7
- 5 32.4
-1.1122
0.6061
0.0145
-36
-70
5
2.09
8.6
19 43.5
5 9.0
- 5 19.7
-0.5871
0.6061
0.0149
42
-55;
6
2.10
8.9
19 41.3
8 28.8
- 2 7.9
-0 6124
0.6057
0.0227
0
-59
X* Orionis
5
2.11
8.8
20 8.3
8 39.1
- I 58.0
-1.0676
0.6057
0.0231
-32
-70 =
68 Orionis
6
42.11
- 9.3'
419 48 7
11 50.2
4 1 5.5
-0.8254
0.6050
-0.0298
-13
-7| !
71 Orionis
6
2.11
9.6
19 11.4
12 57.9
4 2 10.5
-0.2361
0.6049
0.0323
422
-32
! 26 Geminorum
54
2.11
11.0
17 45.2
23 52.3
-11 20.9
40.7321
0.6019
0.0554
490
421 J
A Geminorum
4
2.10
12.4
16 44.8
11 14 12.9
4 2 26.2
40.7492
0.5961
0.0835
490
419.
W. vii.685
6
2.10
12.7
17 19.8
19 47.2
4 7 47.7
-0.3398
0.5930
0.0944
+16
-44
J 68 Geminorum
54
42i>8
-12.9
+16 4.4
20 33.1
4 8 31.9
40.8644
0.5925
-0.0957
490
425;
1 1 Cancri
6
2.06
13.5
16 5.8
19 6 13.8
- 6 9.1
-0.1664
0.5875
0.1121
426
-351
1 5 Cancri
64
2.07
13.4
16 46.3
8 6.3
- 4 20.8
-1.0673
0.5862
0.1151
-30
-74
1 29 Cancri
6
2.01
13.9
14 35.1
19 39.2
4 6 46.7
-0.2701
0.5790
0.1326
420
-53
] A1 Cancri
6
1.97
14.1
13 5.6
13 1 59.2
-11 6.9
40.3977
0.5750
0.1408
460
- 7
1 A8 Cancri
6
4196
-14.2
412 31.9
3 37.5
1 7 34.7
- 9 32.2
+0.7447
0.5738
-0.1430
490
♦18 '
60 Cancri
6
+1.94
-14.1
412 3.9
- 5 43.3
40.6518
0.5712
-0.1477
484
46
OCCULTATIONS, 1884.
407
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JANUABY. !
!
Thb Stab's
At Conjunction in R. A.
Limiting i
Parallels.
Name.
Mag.
Red'o
18*
i from
14.0.
A<5
Apparent
Declination.
Washington
Mean Tune.
Hoar Angle
H
Y
7f
•
N.
S.
0
-17
a Cancri
4
+L93
-HJ
+ 12 18.2
d h m
13 8 42.2
h m
- 4 38.2
+0.2391
0.5706
-0.1489
+50
k Cancri
5
1.92
14.2
11 7.9
12 50.3
- 0 38.7
+0.8277
0.5679
0.1544
+90
+16 j
u Leonis
H
1.84
14.0
9 33.4
22 11.8
+ 8 23.5
+0.9881
0.5623
0.1623
+90
+26
A Leonis
H
1.83
13.9
10 13.4
23 47.2
+ 9 55.7
+0.0347
0 5609
0.1638
+37
-30
o Leonis
34
1.81
13.9
10 24.9
14 4 1.2
- 9 58.8
-0.8660,
0.5584
0.1671
-14
-80
B. A.C.3398
6
+1.76
-13.6
+ 9 28.6
11 7.8
- 3 6.3
-1.0945
0.5541
-0.1720
-31
-81
B. A. C. 3407
6
1.75
13.5
8 51.8
11 55.3
- 2 20.4
-0.5903
0.5534
0.1726
+ 3
-72
n LeoniR
5
1.75
13.5
8 35.8
12 54.5
- 1 23.1
-0.4805
0.5529
0.1732
+ 9
-64
16 Sextantis
6
1.72
13.1
6 44.2
17 11.6
+ 2 45.6
+0.7254
0.5505
0.1756
+90
+ 7
4*3 Leonis
64
1.68
12.8
7 7.6
23 45.1
+ 9 6.3
-0.8494
0.5466
0.1786
-13
-83
34 Sextantis
64
+1.63
-12.0
+ 4 111
Iff 9 16.8
- 5 40.1
+0.5429
0.5421
-0.1822
+71
- 5
35 Sextantis
64
1.62
12.1
5 21.2
9 36.9
- 5 20.7
-0.7570
0.5419
0.1822
- 7
-79
d Leonis
44
1.5G
11.5
4 14.2
18 5.5
+ 2 52.1
-1.1282
0.5380
0.1839
-33
-86
p3 Leonis
6
1.54
10.9
2 34.9
21 16.4
+ 6 57.1
+0.0534
0.5366
0.1 843
+38
-32
75 Leonis
54
1.50
10.5
2 38.7
1* 2 25.7
+10 57.0
-0.9676
0.5345
0.1846
-20
-88
76 Leonis
64
+1.49
-10.4
+ 2 16.9
3 15.3
+11 45.1
-0.7304
0.5345
-0.1847
- 5
-86
70 Leonis
54
1.47
10.1
+ 2 2.4
5 49.4
- 9 45.5
-0.9477
0.5332
0.1845
-19
-88
v Leonis
5
143
9.5
- 0 11.3
12 20 9
- 3 25.8
+0.2423
0.531 1
0.1843
+49 -22
B AC. 4134
6
1.26
6.9
3 18.6
17 9 26.4
- 6 58.2
-0.2193
0.5260
0.1791
+23
-48
/ Virginis
6
1.19
5.4
5 11.7
19 2.4
+ 2 20.9
+0.1329
0.5248
0.1752
+42
-28
B.A.C.4394
6
+1.07
- 3.2
- 8 21.8
18 1 1 28.0
- 5 42.6
+0.7974
0.5240
-0.1658
+82
+ 9
h Virginis
5
0.96
- 1.8
9 34.0
10 0 5.8
+ 6 33.0
+0.0826
0.5246
0.1573
+37
-31
a Virginis
44
0.75
+ 12
12 50.2
23 44.8
+ 5 29.9
+0.2157
0.5285
0.1360
+42 -23
5 Librae
64
0.63
2.8
14 5J.3
2© 13 19.1
- 5 20.4
+0.8262
0.5315
0.1219
+75+12
fi Libras
6
0.59
2.6
13 39.9
15 1.9
- 3 40.7
-0.8262
0.5319
0.1198
-19 j -90
a1 Libras
6
+0.61
+ 3.1
-15 20.8
15 41.2
- 3 2.6
+1.1416
0.5:322
-0.1188
+75!+37,
a* Libra?
«4
0.61
3.1
15 33.4
15 47.0
- 2 57.0
+1.1787
0.5322
0.1188
+751+41
y' Libra*
6
0.53
3.7
15 48.3
23 39.2
+ 4 40.8
+0.5534
0.5345
0.1094
+62 ! - 4
v* Libra;
64
0.54
3.8
16 1.8
23 44.7
+ 4 46.1
+0.7949
0.5345
0 1094
+74 ' +10
o1 Librae
6
0.45
3.9
15 7.6
41 6 48.3
+11 36.9
-0.9477
0.5366
0.1005
-29 ! -90
C Libra
54
+0.41,
+ 4.5
-16 18.6
10 21.4
- 8 56.7
+0.01 1 1
0.5379
-0.0962
+2r>! -35
C2 Libra*
6
0.41
4.9
17 2.3
11 0.0
- 8 19.2
+0.7558
0.5382
0.0951
+73 + 8
C3 Librae
6
0.40
4.6
16 12.6
11 32.7
- 7 47.6
-0.2119
0.5383
0.0940
+13-48
C4 Libra;
6
0.39
4.8
16 27.4
12 38.9
- 6 43.5
-0.0424
0.538?
0.0927
+22 ' -38
0 Librae
44
0.27
5.4
16 23.2
22 51.2
+ 3 9.7
-0.9956
0.5417
0.0788
-35 : -90
X Ophiucbi
24 Scorpii
29 Ophiuchi
6
+0.13
+ 6.6
-18 114
22 14 48.0
- 5 24.0
^0.0661
0.5471
-0.0552
+17 '-39
5
+0.07
6.8
17 30.9
21 43.8
+ 1 18.3
-1.1614
0.5494
0.0443
-53
-90
6
-0.03
7.4
18 42 6
23 7 15.7
+10 31.6
-0.1972
0.5522
-0.0290
+ 7
-47
B.A.C.6060
6
0.26
7.6
18 46.7
24 8 20.2
+10 46.2
-0.3153
0.5590' +0.01 32
- 1
-55
B. A. C. 6294
6 | 0.38
7.3
18 28.8
23 0 35.5
+ 2 28.7
-0.1837
0.5619
0.0421
+ 9
-47
p1 Sagittarii
4 1-0.50
+ 6.6
-18 3.8
23 25.2
+ 0 31.8
+0.7702
0,5639
+0.0811
+72
+ 9
t; Sagittarii
44 ' 0.49
6.5
16 10.2
23 29.0
+ 0 35.4
-1.2500
0.5639
0.0811
-61
-90
c' Sagittarii
6 I 0.53
6.2
16 33.3
26 8 4.8
+ 8 53.7
-0.0817
0.5641
0.0947
+20
-40
«* Sagittarii
5 1 0.54
6.2
16 23.5
8 53.9
+ 9 41.1
-0.1776
0.5641
0.0961
+15
-46
B. AC. 6746
6 0.54
6.2
15 44.2
9 22.3
+10 8.6
-0.8291
0.5641
0.0973
-22
-90
g Sagittarii
*4
-0.56
+ 5.9
-15 47.8
15 54.5
- 7 32.6
-0.0974
0.5641
+0.1069
+20
-41
[3 Capricorn!
3
0.56
5.3
15 8.6
NEW
27 2 23.0
MOON.
+ 2 34.4
+0.4141
0.5636
0.1228
+53
+12L
30 Aquarii
54
0.44
2.9
7 5.0
20 1 13.5
- 0 10.1
-0.9272
0.5603
0.1751
-20 , -90
44 Aquarii
6
-0.41
+ 2.6
- 5 58.0
7 35.5
+ 5 59.2
-0.9495
0.5601
+0.1801
-21
-90
51 Aquarii
6
0.39
2.4
5 25.3
10 49.0
+ 9 6.1
-0.9294
0.5598
0.1821
-19
-90
k Aquarii
6
0.34
2.1
4 49.5
17 7.0
- 8 48.5
-0.3873
0.5595
0.1856
+13
-59
13 Piscium
64
0.15
0.8
- 1 43.6
SO 18 0.7
- 8 44.9
+1.1625
0.5601
0.1932
+89
+36
J 5 Piscium
64
0.12
1.2
+ 0 40.3
19 37.8
- 7 11.0
-0.9842
0.5603
0 1932
-22 -90 !
A Piscium
5
-0.09
♦ 1.1
+ 1 8.5
22 3*3
- 4 166
-0.8845
0.5604
+0.1934
-151-89!
21 Piscium
6 i -0.06 + 0.8
+ 0 25.8
31 2 0.9
- 1 0.9
+0.4965
0.5606
+0.1934 +671-81
408
OCCULTATIONS. 1884.
1
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS. 1
JANUARY.
Thb Stab's
At Conjunction irB. A.
Limiting
Parallels.
Name.
Hag.
Bed'm
188
i from
4.0.
A4
Apparent Washington
Declination. Mean Time.
Honr Angle
H
T
X1
y1
N.
8. -
22 Piscium
64
-0*04
+ l".0
+ 2 17.2
d h m
31 3 9.6
h m.
+ 0 5.5
-1.1806
0.5607
+0.1933
-3§
o
-88
25 Piscium
6
0.03
0.8
1 26.7
3 39.9
+ 0 34.7
-0.2217
0.5610
0.1931
+23
-48
Lalande 47041
6
-0.01
+ 0.5
+ 1 18.2
6 43.0
+ 3 31.6
+0.5115
0.5615
+0.1928
+69
- 7
FEBRUARY. |
60 Piscium
64
+0.24
+ 0.2
+ 6 6.5
1 4 12.9
+ 0 17.4
-0.3159
0.5653
+0.1855
+18
-53
62 Piscium
6
0.25
+ 0.4
6 40.0
4 36.5
+ 0 40.2
-0.8100
0.5654
0.1851
-10
-83
B. AC. 221
6
0.24
- 0.2
4 41.0
4 36.9
+ 0 40.6
+1.2123
0.5654
0.1851
+90
+43
6 Piscium
44
0.25
+ 0.4
6 57.2
4 47.1
+ 0 50.4
-1.0678
0.5653
0.1850
-28
"*l
B A.C.274
64
+0.30
- 0.2
+ 5 51.3
9 46.2
+ 5 39.2
+0.9636
0.5667
+0.1819
+90
+22,
e Piscium
4
0.33
0.0
7 15.9
11 9.4
+ 6 59.6
-0.2205
0.5669
0.1811
+23
-46
£ Piscium
44
0.38
0.4
6 57.7
15 55.S
+11 36.0
+0.9458
0.5682
0.1776
+90
+21:
54 Ceti
6
0.61
0.8
10 28.1
3 8 12.0
+ 3 17.9
+0.1573
0.5732
0.1631
+44
-23!
B.A.C.609
6
0.68
0.7
11 43.9
11 53.7
+ 6 51.7
-0.5294
0.5744
0.1590
+ 6
-65
29 Arietis
64
+0.89
- 1.2
+14 31.2
3 2 12.3
- 3 20.8
-1.2048
0.5793
+0.1415
-44
-76
o Arietis
6
0.96
1.6
14 49.1
7 8.0
+ 1 24.1
-0.8277
0.5813
0.1348
-12
-76
a Arietis
54
0.98
2.4
14 362
10 3.6
+ 4 13.3
-0.2247
0.5822
0.1300
+23
-41 i
Neptcrk
15 35.6
18 32.9
-II 36.2
-0.1807
0.5853
0.1163
+25
-37,
B. AC. 1119
6
1.28
3.5
16 9.5
4 5 57.8
- 0 37.0
+0.4695
0.5889
0.0973
+66
+ lj
B. A. C. 1240
6
+1.42
- 3.9
+17 51.9
14 41.3
+ 7 46.8
-0.4796
0.5916
+0.081 1
+ 8
-53
B. A.C. 1272
6
1.44
4.5
17 1.6
17 38.2
+10 36.8
+0.5996
0.5923
0.0753
+79
+11
<)' Tauri
4
1.50
5.1
17 16.1
23 41.7
- 7 J33.6
+0.7771
0.5937
0.0637
+90
+23
d* Tauri
54
1.50
5.3
17 10.4
0 0 10.2
- 7 6.1
+0.9022
0.5936
0.0632
+90
+31
<P Tauri
5
1.52
5.2
17 39.6
0 43.5
- 6 34.1
+0.4443
0.5940
0.0618
+65
+ 3'
e Tauri
34
+1.56
- 4.9
+18 55.3
1 58.1
- 5 22.4
-0.7588
0.5941
+0.0594
- 9
-71 1
B.A.C. 1468
6
1.64
5.9
18 31.4
9 5.6
+ 1 28.6
+0.0169
0.5957
0.0452
+36
-19!
i Tauri
54
1.67
6.1
18 38.4
11 10.2
+ 3 28.5
-0.0135
0.5957
0.0409
+34
-20
m Tauri
54
1.74
6.9
18 29.2
17 37.0
+ 9 40.3
+0.3621
0.5967
0.0272
+58
+ 2
115 Tauri
6
1.82
8.0
17 51.6
6 1 35.2
- 6 39.9
+1.1497
0.5969
0.0103
+90
+55
119 Tauri
5
+1.85
- 8.0
+18 30.3
3 36.2
- 4 43.6
+0.5116
0.5970
+0.0063
+70
+12
120 Tauri
6
1.86
8.1
18 27.3
4 8.1
- 4 13.0
+0.5657
0.5969
+0.0056
+76
+15
127 Tauri
64
1.89
8.4
18 55.3
7 53.9
- 0 35.9
+0.0966
0.5965
-0.0025
+41
-10
X* Orion is
5
1.95
8.7
19 43.5
12 44.1
+ 4 3.1
-0.7579
0.5964
0.0129
- 9
-71
X* Orionis
6
1.98
9.1
19 41.2
16 10.3
+ 7 21.4
-0.7752
0.5960
0.01 97
-10
-71
68 Orionis
6
+2.01
- 9.6
+19 48.7
19 37.8
+10 40.9
-0.9845
0.5954
-0.0273
-25
-71
71 Orionis
6
2.01
9.8
19 11.4
20 47.5
+11 47.9
-0.3853
0.5954
0.0295
fl3
-41
26 Geminorum
54
2.08
11.3
17 45.2
r 8 1.4
- 1 24.0
+0.6209
0.5930
0.0522
+82
+14
51 Geminorum
54
2.13
12.8
16 21.1
20 47.5
+10 53.2
+1.2303
0.5893
0.0770
+90
+59 '
3 Geminorum
4
2.15
12.8
16 44.8
22 45.0
-11 13.8
+0.6708
0.5887
0.0804
+88
+14 J
W.vii.685
6
+2.17
-13.2
+17 19.8
8 4 27.2
- 5 44.4
-0.4137
0.5864
-0.0910
+12
-49
68 Geminorum
54
2.17
13.5
16 4.4
5 14.4
- 4 58.9
+0.8035
0.5864
0.0918
+90
+21 1
1 Cancri
6
2.20
14.2
16 5.8
15 7.3
+ 4 32.2
-0.2110
0.5820
0.1084
+23
-38
5 Cancri
64
2.21
14.1
16 46.3
17 1.9
+ 6 22.6
-1.1169
0.5811
0.1115
-35
-74j
20 Cancri
6
2.22
15.2
14 35.0
• 4 46.3
- 6 18.3
-0.2773
0.5753
0.1290
+20
-44
A1 Cancri
6
+2.22
-15.5
+13 5.5
11 11.4
- 0 6.7
+0.4107
0.5723
-0.1372
+61
- 6
A2 Cancri
6
2.21
15.7
12 31.8
12 50.8
+ 1 29.2
+0.7634
0.5712
0.1 395
+90
+14 '
60 Cancri
6
2.22
15.8
12 3.8
16 50.6
+ 5 20.6
+0.6817
0.5694
0.1443
+88
+ 81
a Cancri
4
2.22
15.8
12 18.1
17 58.7
+ 6 26.3
+0.2701
0.5688
0.1455
+51
-15 1
k Cancri
5
2.22
16.0
11 7.8
22 9.0
+10 28.0
+0.8706
0.5670
0.1502
+90
+19
u Leonis
54
+2.21
-16.2
+ 9 33.3
10 7 33.6
- 4 26.7
+1.0561
0.5614
-0.1597
+90
♦31
k Leonis
54
2.20
16.3
10 13.3
9 9.7
- 2 53.9
+0.1045
0.5609
0.1611
+41
-26
o Leonis
34
2.21
16.3
10 24.8
13 24.1
+ 1 12.0
-0.7887
0.5586
0.1649
- 9
-80
B. A. C. 3398
6
2.19
16.3
9 28.5
20 31.0
+ 8 4.8
-0.9993
0.5554
0.1701
-23
-81
B.A.C. 3407
6
2.19
16.3
8 51.7
21 18.8
+ 8 51.0
-0.4903'
0.5551
0.1704
+ 8
-64
7T Leonis
5
+2.19
-16.3
+ 8 35.7
22 17.9
+ 9 48.2
-0.3783
0.5549
-0.1711
+14
-56
16 Sextantie
6
+2.18
-16.1
+ 6 44 1
11 2 34.4
-10 3.6
+0.8403
0.5524
-0.1739
+90
+14
— — — - —
— — — - -- --
....... .
OCCULTATIONS. 1884.
409
J ELEMENTS FOR THE PREDICTION OP OCCULTATIONS.
FEBRUARY.
Thb Star's
At Conjunction in B. A.
Limiting
Parallels.
Name.
Mag.
Red'ns from
1884.0.
Apparent
Declination.
Washington
Mean Tune.
Hour Angle
H
Y
as1
y"
N.
S.
43 Leonis
64
+2*16
-16.0
+ 7° 7.5
d h m
11 9 6.7
h m
- 3 44.1
-0.7197
0.5494
-0.1772
o
- 5
-83
34 Sextan tie
64
2.15
15.5
4 11.0
18 34.9
+ 5 26.0
+0.6963
0.5454
0.1811
+88
+ 4
35 Sextan tia
61
2.14
15.6
5 21.1
18 55.0
+ 5 45.5
-0.6027
0.5454
0.1811
+ 2
-75
d Leonis
H
2.11
15.2
4 14.1
J» 3 19.4
-10 6.0
-0.9510
0.5424
0.1833
-19
-86
p* Leonis
6
2.10
14.8
2 34.9
6 28.3
- 7 3.0
+0.2292
0.5408
0.1838
+49
-22
75 Leonis
5*
+2.08
-14.6
+ 2 38.7
11 34.7
- 2 62
-0.7782
0.5391
-0.1642
- 8
-88
76 Leonis
64
2.07
14.5
2 16.9
12 23-5
- 1 18.8
-0.5382
0.5388
0.1843
+ 6
-71
79 Leonis
54
2.06
14.3
+ 2 2.4
14 56.1
+ 1 9.1
-0.7491
0.5382
0.1843
- 6
-82
v Leonis
5
2.04
13.9
- 0 11.3
21 22.7
+ 7 23.9
+0.4526
0.5358
0.1839
+64
-10
fi. A. C. 4134
6
1.95
11.7
3 18.7
13 18 12.1
+ 3 35.4
+0.0289
0.5315
0.1795
+36
-33
/ Virginis
fi. A. C. 4394
6
+1.92
-10.4
- 5 11.8
14 3 40.2
-11 13.5
+0.3932
0.5301
-0.1756
+58
-14
6
1.83
8.4
8 21.8
19 53.3
+ 4 30.6
+1.0732
0.5288
0.1663
+82
+29
h Virginis
5
1.76
6.7
9 34.1
1* 8 22.7
- 7 22.4
+0.3712
0.5285
0.1573
+55
-15
B AC 4591
6
1.69
6.1
9 7.7
15 39.7
- 0 18.4
-1.2374
0.5292
0.1514
-49
-90
\ Virginis
44
1.59
3.4
12 50.3
16 7 50.8
- 8 36.4
+0.5131
0.5305
0.1362
+62
- 7
5 Librae
64
+1.49
- 1.5
-14 58.3
21 22.1
+ 4 30.5
+1.1256
0.5326
-0.1222
+75
+35
fi Libra
6
1.46
1.6
13 39.9
23 4.7
+ 6 9.9
-0.5270
0.5329
0.1199
- 1
-71
v1 Libra
6
1.39
0.2
15 48.4
IT 7 41.8
- 9 28.8
+0.8517
0.5346
0.1095
+75
+14
v» Librae
64
1.40
- 0.1
16 2.0
7 47.3
- 9 23.5
+1.0914
0.5347
0.1095
+74
+33
o1 Librae
6
1.33
+ 0.3
15 7.7
14 51.5
- 2 32.3
-0.6528
0.5363
0.1007
-10
-85
o* Librae
6
+1.31
+ 0.3
-14 43.2
15 51.8
- 1 33.7
-1.2042
0.5363
-0.0994
-52
-90
f ' Libra
54
1.30
1.1
16 18.7
18 25.1
+ 0 54.8
+0.3061
0.5370
0.0959
+43
-18
£* Librae
6
1.30
1.5
17 2.4
19 3.9
+ 1 32.4
+1.0510
0.5371
0.0953
+73
+30
1 £3 Librae
6
1.29
1.2
16 12.7
19 36.7
f 2 4.1
+0.0830
0.5373
0.0944
+30
-30
C4 Libra
6
1.28
1.6
16 27.5
20 43.1
+ 3 8.4
+0.2508
0.5375
0.0929
+39
-21
i 0 Libra
44
+1.16
+ 2.2
-16 23.3
18 6 58.5
-10 55.2
-0.7094
0.5399
-0.0792
-16
-90
! 4!) Libra
6
1.12
2.3
16 11.4
10 11.7
- 7 48.1
-1.1754
0.5408
0.0748
-52
-90
| x Ophiuchi
6
1.00
4.0
18 11.4
23 2.5
+ 4 38.3
+0.1986
0.5440
0.0557
+32
-24
i 24 Scorpii
39 Ophiuchi
5
0.90
4.2
17 30.9
19 6 2.2
+11 24.5
-0.8980
0.5461
0.0452
-32
-90
6
0.81
5.2
18 42.6
15 40.0
- 3 16.3
+0.0568
0.5486
-0.0297
+21
-32
B. A. C. 6060
6
+0.51
+ 6.5
-18 46.7
30 17 2.3
- 2 43.8
-0.0945
0.5543
+0.0120
+11
-41
B. AC. 6294
6
0.32
6.8
18 28.8
»1 9 28.7
-10 50.2
+0.0090
0 5577
0.0402
+20
-35
p' Sagittarii
4
0.09
6.9
18 3.8
*9 8 30.0
+11 24.5
+0.9206
0.5610
0.0787
+72
+20
v Sagittarii
44
0.09
6.4
16 10.2
8 33.8
+11 28.2
-1.1005
0.5610
0.0787
-44
-90
c1 Sagittarii
6
0.01
6.4
16 33.3
17 12.2
- 4 11.0
+0.0515
0 5620
0.0922
+27
-32
e* Sagittarii
5
+0.01
+ 6.4
-16 23.5
18 1.5
- 3 23.4
-0.0444
0.5622
+0.0936
+22
-38
B. A. C. 6746
6
0.00
6.2
15 44.2
18 30.1
- 2 55.5
-0.6974
0.5624
0.0948
-14
-90
g Sagittarii
54
-0.04
6.1
15 47.8
*3 1 3.3
+ 3 24.1
+0.0177
0.5627
0.1045
+27
-34
Jj Capricorni
3
0.12
5.6
15 8.6
11 32.0
-10 28.6
+0.5046
0.5632
0.1206
+59
- 7
B. A. C. 7087
6
0.16
5.2
14 7.1
17 31.6
- 4 41.2
+0.1700
0.5639
0.1290
+38
-25
8 Aquarii
6
-0.23
+ 4.7
-13 29.9
94 5 11.9
+ 6 35.2
+1.1107
0.5640
+0.1438
+77
+34
v Aquarii
44
0.25
+ 4.2
-11 50.3
NEW
9 35.7
MOON.
'+10 49.9
+0.0226
0.5645
0.1496
+32
-34
60 Piscium
64
-0.02
- 1.4
+ 6 6.5
38 11 1.5
+ 8 53.7
-0.4811
0.5746
+0.1867
+ 9
-65
62 Piscium
6
0.00
1.4
6 40.0
11 24.3
+ 9 15.6
-0.1*725
0.5748
0.1864
-21
-84
B. A. G, 221
6
-0.01
1.4
4 41.0
11 24.7
+ 9 16.0
+1.0245
05748
0.1864
+90
+26
<5 Piscium
44
0.00
1.3
6 57.2
11 34.6
+ 9 25.5
-1.2291
0.5748
0.1864
-44
-83
BAG. 274
64
+0.04
1.8
5 51.3
16 25.4
- 9 54.0
+0.7727
0.5761
0.1833
+90
+ 9
e Piscium
4
+0.05
- 1.7
+ 7 15.9
17 46.3
- 8 35.9
-0.3987
0.5763
+0.1825
+13
-58
1 Venus
7 7.0
22 7.5
- 4 24.1
+0.5578
0.5517
0.1643
+71
- 2
1 C Piscium
44
0.09
2.2
6 57.7
22 24.8
- 4 7.5
+0.7454
05775
0.1789
+90
+ 8
I 54 Ceti
6
0.26
2.8
10 28.1
29 14 16.5
+11 9.8
-0.0502
0.5813
0.1643
+32
-34
: B.A.C.609
1
6
+0.30
- 2.7
+11 43.9
17 52.9
- 9 21.7
-0.7333
0.5822
+0.1601
- 6
-78
410
0CCULTATI0NS, 1884.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
MARCH. {
The Stau's
At Conjunction in B. A.
Limiting 1
Parallels. ;
Name.
Mag.
Red'na from
1884.0.
Apparent
Declination.
Washington
Mean Time.
Hour Angle
H
Y
a/
y'
N.
o
-28
S. |
o •
-76
o Arietis
6
8 1 „
+0.53 - 3.3
+14° 49.4
d h m
1 12 44.5
h m
+ 8 48.0
-1.0442
0.5870
+0.1348
a Arietis
54
0.56
3.9
14 361
15 37.3
+11 34.4
-0.4461
0.5880
0.1303
+I0|-55|
Neptune
15 42.4
2 0 30.2
- 3 52.8
-0.4616
0.5895
0.1160
+ 9
-55
B.A.C.I1I9
6
0.80
4.7
16 9.5
11 18.0
+ 6 30.5
+0.2388
0.5917
0.0979
+49
-11
II. A. C. 1240
6
0.93
5.0
17 51.9
19 58.6
- 9 8.7
-0.7091
0.5929
0.0815
-6
-72
B.A.C. 1272
6
+0.96
- 5.6
+17 1.6
22 55.0
- 6 19.1
+0.3709
0.5933
+0.0760
+59
- 2
<Ji Tauri
4
1.04
6.2
17 16.1
3 4 58.1
- 0 29.8
+0.5503
0.5938
0.0641
+74
+ 9
rP Tauri
54
1.03
6.2
17 10.4
5 26.4
- 0 2.6
+0.6769
0.5939
0.0628
+90
+16
<J3 Tauri
5
1.05
6.0
17 39.6
5 59.9
+ 0 29.6
+0.2195
0.5939
0.0621
+48
- 9
c Tauri
3«
1.08
5.8
18 55.3
7 14.6
+ 1 41.4
-0.9845
0.5939
0.0600
-25
-71
B AC. 1468
6
+1.17
-6.6
+18 31.4
14 23.2
+ 8 33.6
-0.2063
0.5939
+0.0447
+23
-31
i Tauri
54
1.19
6.8
18 38.4
16 28.2
+10 33.8
-0.23:15
0.5939
0.0406
+22
-32
m Tauri
H
1.27
7.4
18 29.2
22 57.7
- 7 11.6
+0.1458
0.5939
0 0278
+44
-10 :
115 Tauri
6
1.36
8.4
17 51.6
4 7 0.2
+ 0 32.4
+0.9428
0.5932
0.0114
+90
+38
110 Tauri
5
1.40
8.4
J 8 30.3
9 2.6
+ 2 30.1
+0.3042
0.5929
0.0073
+54
+ 1;
120 Tauri
6
+1.41
- 8.5
+18 27.3
9 34.7
+ 3 0.9
+0.3587
0.5929
+0.0058
+58
+ 4
127 Tauri
61
1.45
8.7
18 55.3
13 23.3
+ 6 40.8
-0.1089
0.5924
-0.0022
+29
-22
130 Tauri'
6
1.46
9.3
17 40.9
15 15.8
+ 8 29.1
+1.151 1
0.5920
0.0053
+90
+57.
%* Ononis
^Orionis
5
1.52
8.9
19 43.5
18 17.5
+11 23.8
-0.9645
0.5916
0.0112
-24 -71 |
6
1.55
9.3
19 41.2
21 46.6
- 9 15.0
-0.9793
0.5909
0.0188
-25
-7i ;
71 Orionis
6
+1.61
- 9.8
+19 114
0 2 28.4
- 4 44.0
-0.5824
0.5898
-0.0285
+ 2
-56
26 Geminorum
54
1.71
11.2
17 45.2
13 54.6
+ 6 16.5
+0.4439
0.5868
0.0504
+64
- 5
51 (leminorum
54
1.83
12.7
16 21.1
• 2 56.7
- 5 10.2
+1.0735
0.5822
0.0743
+90
+42
"X Geminorum
4
1.84
12.7
16 44.8
4 56.7
- 3 14.6
+ 2 22.5
+0.5131
0.5813
0.0778
+70
+ 5
W. vii. 685
6
1.90
13.0
17 19.8
10 46.6
-0.5745
0.5793
0.0880
+ 2
-61
68 Geminorum
54
+1.91
-13.4
+16 4.4
11 34.6
+ 3 8.8
+0.6575
0.5786
-0.0894
+86
+I3|
1 Cancri
6
1.97
14.0
16 5.8
21 41.1
-II 6.4
-0.3532
0.5746
0.1056
+15
-46
29 Cancri
6
2.07
15.2
14 35.0
7 1 1 38.9
+ 2 21.9
-0.3966
0.5682
0.1257
+13
-52
A1 Cancri
6
2.10
15.7
13 5.5
18 12.5
+ 8 41.9
+0.3120
0.5656
0.1339
+54
-12,
A2 Cancri
6
2.10
15.9
12 31.8
19 54.2
+10 20.1
+0.6697
0.5645
0.1371
+86
+ 8
60 Cancri
6
+2.13
-16.2
+12 3.8
23 59.1
- 9 43.3
+0.5936
0.5628
-0.1405
+77
+ 3
a Cancri
4
2.14
16.1
12 18.1
8 1 8.7
- 8 36.1
+0.1800
0.5624
0.1419
+46
-20
k Cancri
5
2.15
16.4
11 7.8
5 24.1
- 4 29.3
+0.7JJ64
0.5605
0.1470
+90
+15
o Leonis
54
2.19
16.7
9 33.3
15 0.0
+ 4 47.4
+1.0007
0.5565
0.1561.
+90
+27
A Leonis
54
2.20
16.8
10 13.3
16 37.7
+ 6 21.9
+0.0422
0.5556
0.1578
+37
-29
o Leonis
34
+2.21
-16.7
+10 24.8
20 56.9
+11 32.6
-0.8498
0.5540
-0.1612
-13
-80 :
B. AC. 3398
6
2.24
16.9
9 28.5
9 4 11.0
- 6 27.5
-1.0476
0.5511
0.1665
-27
-81
B. A. C. 3407
6
2.24
17.0
8 51.7
4 59.4
- 5 40.6
-0.5328
0.5507
0.1673
- 6
-67
t Leonis
5
2.24
17.0
8 35.7
5 59.5
- 4 42.5
-0.4183
0.5503
0.1679
+12
-58
16 Sextantis
6
2.25
17.2
6 44.1
10 20.0
- 0 30.4
+0.8183
0.5489
0.1706
+90
+13
43 Leonis
64
+2.27
-17.2
+ 7 7.5
16 57.6
+ 5 54.5
-0.7389
0.5463
-0.1742
-6
-81
34 Sextantis
64
2.29
17.2
4 1 1.0
10 2 32.4
- 8 48.7
+0.7025
0.5432
0.1784
+89
+ 5
35 Sextantis
64
2.29
17.1
5 21.1
2 52.7
- 8 29.1
-0.6046
0.5432
0.1784
+ 2
-75
d Leonis
44
2.30
16.9
4 14!
11 21.8
- 0 15.8
-0.9383
0.5407
0.1887
-19
-86
p* Leonis
6
2.31
16.8
2 34.8
14 32.2
+ 2 48.7
+0.2607
0.5396
0.1810
+50
-21
75 Leonis
54
+2.32
-16.6
+ 2 38.6
19 40.6
+ 7 47.6
-0.7425
0.5383
-0.1820
-6
-84
76 Leonis
64
2.32
16.5
2 16.8
20 29.8
+ 8 353
-0.5013
0.5383
0.1821
+ 7
-67
79 Leonis
54
2.33
16.4
+ 2 2.3
23 3.1
+11 3.9
-0.7074
0.5375
0.1822
- 4
-88
v Leonis
5
2.34
16.1
- 0 11.4
11 5 31.5
- 6 395
+0.5100
0.5363
0.1823
+68
- 7
B. A. C. 4134
6
2.34
14.6
3 18.7
13 2 22.3
-10 26.7
+01194
0.5332
0.1785
+41
-28
/ Virginis
6
+2.34
-13.6
- 5 11.8
11 49.5
- 1 165
+0.4990
0.5321
-0.1748
+66
- 8
B. A. C. 4394
6
2.31
11.7
8 21.9
13 3 59.2
- 9 35.7
+1.2050 0.5314
0.1659
+82
+42
k Virginia
5
2.31
10.3
9 34.2
16 24.9
+ 2 27.6
+0.5176 0.5319
0.1569
+65
- 6
B.A.C.459I
6
2.28
9.4
9 7.8
23 39.6
+ 9 29.3
-1.082!)
0.5320
0.1512
-34
-!K>
A Virginis
44
2.24
7.0
12 50.3
14 15 45.5
+ 1 6.0
+0.6841
0.5333
0.1360
+76
+ 3
fi Libre
6
+2.16
- 4.!)
-13 40.0
15 6 55.7
- 8 11.3
-0.3446
0.5352
-0.1198
+ 9
-56 1
vx Libra?
6
+2.13
- 3.3 -15 48.5
15 315
+ 0 8.7 +1.0406 0.5366
-0.1094
+75
+29 1
OCCULTATIONS, 1884.
411
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
MARCH.
The Stau'b
At Conjunction in R. A.
Limiting
Parallels.
Name.
Mag.
Red'ns from
1884.0.
Aa AJ
Apparent
Declination.
Washington
Mean Time.
Hoar Angle
H
Y
7f
y'
N.
S.
va Librae
<4
+2*14
-&
-1§ 2.1
d h m
15 15 37.0
a m
4 0 14.0
+1.2823
0.5366
-0.1094
e
474
o
460
o1 Libra •
6
2.08
2.7
15 7.7
22 40.6
4 7 4.6 -0.4653
0.5375
0.1005
0
-66
os Libre
6
2.06
2.7
14 43.2
23 40.8
4 8 2.9
-1.0172
0.&378
0.0991
-35
-90
{* Libra
5*
2.06
1.9
16 18.7
16 2 14.2
+10 31.5
40.4984
0.5380
0.0962
456
- 7
C* Libra
6
2.06
1.8
16 12.7
3 25.7
+11 40.8
40.2713
0.5383
0.0942
441
-19
p Libra
6
^2.05
- 1.6
-16 27.5
4 32.1
-11 14.8
40.4413
0.5388
-0.0927
452
-10
8 Libra
4*
1.96
0.4
16 23.3
14 48.3
- 1 17.8
-0.5189
0.5401
0.0789
- 5
-70
49 Libra
6
1.92
- 0.1
16 11.4
18 5.0
4 1 52.9
-0.9840
0.5408
0.0744
-35
-90
X Ophiuchi
6
1.83
4 1.9
18 11.5
17 6 56.4
- 9 40.0
40.3949
0.5432
0.0555
445
-13
24 Scorpii
5
1.74
2.4
17 31.0
13 59.1
- 2 50.8
-0.7060
0.5442
0.0448
-19
-90
29 Ophiuchi
6
4-1.65
4 3.7
-18 42.6
23 42.1
4 6 33.6
40.2521
0.5461
-0.0296
433
-21
B. A. C. 6060
6
1.34
6.0
18 467
19 1 23.7
4 7 25.4
40.0896
0.5500
40.0121
422
-30
B.A.C.6294
6
1.13
6.9
18 28.8
18 6.7
- 0 24.5
40.1854
0.5524
0.0389
430
-24
p1 Sagittarii
4
0.83
7.8
18 3.8
90 17 34.0
- 1 43.6
41.0852
0.5550
0.0767
472
433
v Sagittarii
4*
0.82
7.1
16 10.2
17 37.9
- 1 308
-0.9504
0.5550
0.0767
-32
-90
«' Sagittarii
6
+0.72
4 7.5
-16 33.3
91 2 26.1
4 6 50.8
40.2020
0.5558
+0.0910
436
-23
I «« Sagittarii
5
0.71
7.4
16 23.5
3 16.5
4 7 39.6
40.1037
0.5558
0.0915
430 -29
B. A. C. 6746
6
0.71
7.1
15 44.2
3 45.6
4 8 7.8
-0.5538
0.5558
0.0925
-6
-74
g Sagittarii
54
0.63
7.3
15 47.8
10 26.1
- 9 25.1
+0.1602
0.5565
0.1027
435
-26
| (3 Capricorni
3
0.51
7.1
15 8.6
21 6.1
4 0 53.5
40.6387
0.5576
0.1177
470
4 1
B. A. C. 7087
6
40.44
46.7
-14 7.1
29 3 11.8
4 6 47.1
4.02961
0.5582
40.1260
445
-18
8 Aquarii
6
0.33
6.5
13 29.9
15 2.4
- 5 46.2
41.2243
0.5597
0.1415
477
446
v Aquarii
44
0.29
5.8
11 50.3
19 29.6
- 1 28.1
40.1274
0.5602
0.1474
437
-28
17 Aquarii
6
0.24
5.1
9 48.8
93 1 38.4
4 4 28.3
-1.0617
0.5609
0.1543
-34
-90
1!) Aquarii
H
0.23
5.1
10 14.4
2 40.3
4 5 28.1
-0.4569
0.5613
0.1555
4 6
-64
B. AC. 7562
64
+0.14
44.6
- 9 34.3
11 40.3
- 9 50.1
40.2916
0.5622
40.1648
449
-19
' c1 Capricomi
5
0.14
4.6
9 36.7
11 42.5
- 9 48.0
40.3383
0.5622
0.1648
452
-16
t2 Capricorni
6
0.14
4.6
9 48.5
12 18.2
- 9 13.5
40.6401
0.5622
0.1650
476
4 1
30 Aquarii
54
0.10
3.7
7 4.9
20 2.2
- 1 45.4
-0.8708
0.5632
0.1724
-17
-90
44 Aquarii
6
0.06
3.2
5 57.9
94 2 18.6
4 4 18.2
-0.9168
0.5643
0.1774
-19
-90
51 Aquarii
6
40.04
4 2.9
- 5 25.3
5 28.3
4 7 21.4
-0.9049
0.5654
40.1801
-18
-90
k Aquarii
6
40.02
4 2.5
- 4 49.5
NEW
11 38.1
MOON.
-10 41.5
-0.3912
0.5663
0.1842
413
-59
o Arietis
6
40.22
- 4.7
+J4 49.0
28 20 38.1
- 5 30.7
-1.1194
0.5980
40.1364
-35
-76
a Arietis
54
0.24
5.1
14 36.1
23 25.2
- 2 50.0
-0.5316
0.5984
0.1317
4 5
-61
Neptune
15 54.8
29 9 5.9
4 6 28.1
-0.6335
0.6007
0.1160
- 1
-67
B. A. C. 1119
6
0.41
6.1
16 9.5
18 27.9
- 8 31.9
40.1292
0.6024
0.0984
443
-17
B. A.C. 1240
6
0.51
6.2
17 51.9
30 2 52.6
- 0 27.1
-0.8070
0.6027
0.0824
-12
-72
B.A.C. 1272
6
40.52
- 6.7
417 1.6
5 43.8
4 2 17.3
40.2560
0.6029
40.0784
451
- 8
<Jl Tauri
4
0.58
7.1
17 16.1
11 36.5
4 7 56.0
40.4311
0.6029
0.0646
463
+ 2
63 Tauri
6
0.57
7.4
16 30.3
11 48.7
4 8 7.8
41.2070
0.6029
0.0643
490
+57
6* Tauri
54
0.59
7.2
17 10.4
12 4.1
4 8 22.6
40.5562
0.6029
0.0639
474
4 9
<P Tauri
5
0.60
7.1
17 39.6
12 36.5
4 8 53.7
+0.1033
0.6029
0.0625
441
-15
e Tauri
34
40.62
- 6.8
418 55.3
13 49.1
410 3.4
-1.0849
0.6030
40.0602
-34
-71
B.A.C. 1463
6
0.68
7.5
18 31.4
20 46.3
- 7 15.8
-0.3174
0.6023
0.0458
417
-38
i Tauri
54
0.70
7.6
18 38.4
22 48.3
- 5 18.6
-0.3459
0.6023
0.0415
415
-40
1 m Tauri
54
0.77
8.1
18 29.2
31 5 8.3
4 0 46.5
40.0268
0.6013
0.0285
436
-16
:1I5 Tauri
6
0.85
8.9
17 51.6
13 0.3
4 8 20.0
40.8151
0.5994
0.0114
+90
430
119 Tauri
5
40.89
- 8.9
+18 30.3
15 0.1
+10 15.1
40.1833
0.5991
40.0074
446
- 6
120 Tauri
6
0.89
8.9
18 27.3
15 31 6
+10 45.4
40.2372
0.5988
40.0059
449
- 3
127 Tauri
64
0.94
9.1
18 55.2
19 16.0
- 9 39.0
-0.2242
0.5980
-0.0013
422
-28
130 Tauri
6
40.95
- 9.6
417 40.9
21 64
- 7 52.9
41.0202
0.5974
-0.0054
490
445
412
OCCULTATIONS, 1884.
ELEMENTS FOR THE PREDICTION OP OCCULTATIONS.
APRIL.
Thk Star's
At Conjunction in R. A.
Limiting
Parallels.
Name.
Mag.
Red'ns from
1884.0.
Aa | AJ
Apparent
Declination.
Washington
Mean 'nine.
HonrAngl?
H
Y
X7
. y'
N.
S.
s
o /
d h ra
h ra
o
-7?
£* Ononis
5
+1.01
- 9.1
+19 43.5
1 0 4.9
- 5 1.3
-1.0720
0.5964
-0.0115
-33
^Ononis
6
1.05
9.4
19 41.3
3 30.8
- 1 43.4
-1.0912
0.51)55
0.0194
-35
-71
71 Orionis
6
1.08
9.8
19 11.4
8 8.7
+ 2 43.8
-0.6949
05939
0.0280
- 5
-68
26 Geminorum
5*
1.20
10.9
17 45.2
19 27.0
-10 23.7
+0.3238
0.5887
0.0506
+55
- 2
51 Geminorum
H
1.33
12.3
16 21.1
2 8 23.9
+ 2 4.3
+0.9585
0.5825
0.0745
+90
+33
X Geminorum
4
+1.36
-12.1
+16 44.8
10 23.4
+ 3 59.4
+0.3998
0.5816
-0.0780
+61
- 1
W. vii. 685
6
1.42
12.4
17 19.8
16 12.6
+ 9 35.9
-0.6814
0.5789
0.0873
- 4
-70
68 Geminorum
5*
1.43-
12.9
16 4.4
17 0.6
+10 22.1
+0.5456
05785
0.0885
+73
+ 6
1 Cancri
6
1.52
13.3
16 5.8
3 3 7.5
- 3 52.6
-0.4567
0.5732
0.1045
+ 9
-54
12 Cancri
6*
1.57
13.8
13 58.5
8 18.2
+ 1 7.1
+1.1874
0.5705
0.1120
+90
+50
27 Cancri
H
+1.64
-14.6
+13 1.9
16 20.1
+ 8 52.2
+1.2289
0.5661
-0.1228
+90
+53
29 Cancri
6
1.66
143
14 35.1
17 9.3
+ 9 39.7
-0.4963
0.5656
0.1242
+ 7
-59
A1 Cancri
6
1.73
14.9
13 5.6
23 45.7
- 7 57.5
+03166
05622
0.1326
+48
-17
A8 Cancri
6
1.74
15.1
12 31.8
4 1 28.2
- 6 18.5
+0.5785
0.5610
0.1348
+75
+ 3
60 Cancri
6
1.78
15.3
12 3.8
5 35.4
- 2 19.6
+0.5058
0.5588
0.1393
+69
- 2
a Cancri
4
+1.79
-15.3
+12 18.1
6 45.7
- 1 11.7
+0.0911
0.5585
-0.1405
+40
-24
k Cancri
5
1.83
15.6
11 7.8
11 3.8
+ 2 57.8
+0.7126
0.5563
0.1448
+90
+ 9
d Leonis
54
1.90
16.2
9 33.3
20 46.4
-11 38.8
+0.9237
0.5518
0.1543
+90
+22
k Leonis
5J
1.91
16.1
10 13.3
22 25.4
-10 3.1
-0.0370
0.5511
0.1557
+33
-34
o Leonis
34
1.95
16.1
10 24.8
0 2 48.0
- 5 48.9
-0.9294
0.5492
0.1592
-19
-80
B. AC. 331)8
6
+2.01
-16.3
+ 9 28.5
. 10 8.0
+ 1 17.0
-1.1233
0.5462
-0.1643
-34
-81
B. A. C. 3407
6
2.01
16.4
8 51.7
10 57.0
+ 2 4.4
-0.6045
0.5458
0.1648
+ 2
-73
n Leonis
5
2.02
16.5
8 35.7
11 57.9
+ 3 3.4
-0.4896
0.5454
0.1657
+ 8
-64
16 Sextantia
6
2.06
16.9
6 44.1
16 22.2
+ 7 19.1
+0.7551
0.5439
0.1683
+90
+ 9
43 Leonis
64
2.10
16.7
7 7.5
23 5.4
-10 104
-0.8033
0.5415
0.1717
-10
-83
34 Sextantis
64
+2.18
-17.1
+ 4 11.0
6 8 48.7
- 0 45.0
+0.6543
0.5383
-0.1756
+82
♦ 2
35 Sextantis
64
2.17
16.9
5 21.1
9 9.3
- 0 25.1
-0.6598
0.5383
0.1756
- 2
-«l
d Leonis
44
2.23
16.8
4 14.1
17 45.4
+ 7 55.3
-0.9865
0.5362
0.1782
-22
-ee
p* Leonis
75 Leonis
6
2.25
17.0
2 34.8
20 58.7
+11 2.7
+0.21 9 r
0.5354
0.1791
+48
-23
54
2.28
16.7
2 38.6
7 2 11.2
- 7 54.3
-0.7843
0.5344
0.1797
- 9
-88
76 Leonis
64
+2.29
-16.7
+ 2 16.8
3 1.0
- 7 6.0
-0.5416
0.5342
-0.1798
+ 5
-71
79 Leonis
54
2.30
16.6
+ 2 2.3
5 36.3
- 4 35.3
-0.7457
0.5334
0.1801
- 7
-83
v Leonis
5
234
16.5
- 0 11.4
12 9.7
+ 1 46.2
+0.4820
0.5326
0.1802
+66
- 8
B AC. 4134
6
2.46
15.7
3 18.8
8 9 13.9
- 1 47.4
+0.1072
0.5305
0.1768
+41
-29
/ Virginig
6
2.51
15.1
5 11.9
18 45.8
+ 7 27.4
+0.4955
0.5302
0.1732
+66
- 8
B A. C. 4394
6
+2.60
-13.5
- 8 21.9
9 11 1.6
- 0 45.7
+1.2092
0.5292
-0.1646
+82
+42
h Virginia
B. AC. 4591
5
262
12.0
9 34.2
23 30.2
+11 20.5
+0.5338
0.5317
0.1563
+66
- 5
6
2.62
11.1
9 7.8
10 6 46.0
- 5 366
-1.0673
0.5322
0.1509
-32
-90
A Virginis
fi Librs
44
2.67
8.9
12 50.3
22 53.0
+10 1.2
+0.7112
05345
0.1360
+77
+ 5
6
2.67
6.8
13 40.0
11 14 2.7
+ 0 43.2
-0.3120
0.5367
0.1198
+11
-54
v1 Libra
6
+2.67
- 5.4
-15 48.5
22 37.9
+ 9 2.7
+r.0794
05382
-0.1094
+75
+32
o1 Libra
6
2.65
4.4
15 7.8
13 5 465
- 8 1.9
-0.4235
0.5395
0.1005
+ 3
-62
o* Li brie
6
2.63
4.4
14 43.3
6 46.6
- 7 3.6
-0.9765
0.5395
0.0994
-32
-90
C1 Libra
54
2.65
3.8
16 18.8
9 19.9
- 4 35.1
+0.5401
0.5398
0.0962
+60
- 4
C3 Libra
6
2.65
3.6
16 12.8
10 31.3
- 3 25.9
+0.3145
0.5401
0.0942
+44
-17
C« Libra
6
+2.64
- 3.5
-16 27.6
11 37.6
- 2 21.6
+0.4865
05404
-0.0927
+55
- 8
0 Librs
44
2.60
2.0
16 23.3
21 53.3
+ 7 34.8
-0.4755
0.5417
0.0788
- 3
-67
49 Libra
6
2.56
- 16
16 11.4
13 1 7.1
+10 42.5
-0.9419
0.5421
0.0744
-32
-90
X Ophiuclii
24 Scorpii
6
2.52
+ 0.7
18 11.5
14 1.8
- 0 47.1
+0.4421
05440
0.0555
+48
-10
5
2.47
1.6
17 31.0
21 5.2
+ 6 2.9
-0.6601
0.5449
0.0449
-16
-87
29 Ophiuchi
B.A.C.6060
6
+2.40
+ 3.1
-18 42.6
14 6 50.1
- 8 30.8
+0.2993
0.5461
-0.0296
+36
-18
6
2.15
6.3
18 46.7
15 8 42.0
- 7 28.6
+0.1379
0.5483
+0.0116
+24
-27
B. A. C. 6294
6
1.95
7.8
18 28.8
1H 1 36.7
+ 8 53.2
+0.2343
05490
0.0388
+33
-21
, p1 Sagittarii
i v Sagittarii
4
1.65
9.5
18 3.7
17 1 27.4
+ 7 57.6
+1.1371
0.5496
0.0760
+72
+39
44
1.64
9.0
16 10.2
1 31.3
+ 8 1.4
-0.9158
0.5496
0.0760
-30
-90
e» Sagittarii
& Sagittarii
6
+1.53
+ 9.4
-16 33.2
10 30.4
- 7 17.0
+0.2420
0.5496
+0.0898
+38
-21
5
+151
+ 9.5
-16 23.4
11 21.8
- 6 27.3
+0.1427
0.5496
+0.0901
+33 -27
OCCULTATIONS, 1884.
413
ELEMENTS FOE THE PREDICTION OF OCCULTATIONS.
APBIL.
Thb Stab's
At Conjunction im R. A.
Limiting
Parallels.
Name.
Mag.
Red'ns from
18810.
Apparent
Declination.
Washington
Mean Time.
Hour Angle
H
r
*
*'
N.
S.
o
-71
B.A.C.6746
6
+1*51
+ 9.2
-15° 44.1
d h m
17 11 51.5
b m
- 5 58.6
-0.5216
0.5499
+0.0903
c
- 4
g Sagittarii
54
1.41
9.6
15 47.7
18 41.0
+ 0 37.6
+0.1996
0.5499
0.1011
+37
-23
3 Capricorn i
3
1.28
9.7
15 8.5
18 5 36.0
+11 11.3
+0.6814
0.5503
0.1162
+73^
+ 4
B. AC. 7087
6
1.19
9.4
14 7.0
11 50.8
- 6 46.2
+0.3332
0.5505
0.1244
+48
-16
8 Aquarii
6
1.05
0.2
13 29.8
23 59.6
+ 4 58.8
+15685
0.5514
0.1394
+77
+53
v Aquarii
44
+0.99
+ 8.7
-11 50.3
19 4 33.8
+ 9 24.1
+0.1569
0.5518
+0.1448
+39
-26
17 Aquarii
6
0.92
8.1
9 48.8
10 52.2
- 8 29.9
-1.0433
0.5525
0.1516
-31
-90
19 Aquarii
54
0.91
8.1
10 14.4
11 55.7
- 7 28.5
-0.4318
05527
0.1528
+ 7
-65
B.A.C.7562
64
0.80
7.7
9 34.3
21 9.7
+• 1 27.2
+0.321 1
0.5541
0.1619
+51
-17
cl Capricorni
5
0.80
7.8
9 36.7
21 11.9
+ 1 29.4
+0.3681
0.5541
0.1619
+54
-15
c3 Capricorni
6
+0.79
+ 7.8
- 9 48.5
21 48.5
+ 2 4.8
+0.6730
0.5541
+0.1627
+78
+ 3
30 Aquarii
54
0.73
6.7
7 4.9
20 5 44.0
+ 9 44.5
-0.8551
0.5556
0.1696
-16
-90
44 Aquarii
6
0.65
6.3
5 57.9
12 9.4
- 8 3.0
-0.9032
0.5568
0.1746
-18
-90
51 Aquarii
6
0.62
6.0
5 25.2
15 23.5
- 4 55.3
-0.8941
0.5577
0.1774
-17
-90
k Aquarii
6
0.56
5.5
4 49.4
21 41.6
+ 1 10.1
-0.3774
0.5591
0.1816
+13
-58
13 Piscium
64
+0.36
+ 3.2
- 1 43.5
91 22 14.4
+ 0 52.7
+1.0563
0.5670
+0.1917
+89
+28
15 Piscium
64
0.36
2.5
+ 0 40.3
23 48.9
+ 2 23.9
-1.0656
0.5678
0.1921
-28
-90
X Piscium '
5
0.34
2.3
1 8.5
*» 2 44.5
+ 5 13.5
-0.9774
0.5689
0.1925
-22
-89
21 Piscium
6
0.31
2.2
0 25.8
6 0.9
+ 8 23.0
+0.3711
0.5701
0.1 928
+58
-15
25 Piscium
6
0.31
1.8
1 267
7 36.6
+ 9 55.4
-0.3423
0.5710
01928
+16
-56
Lalande 47041
6
+0.30
+ 1.6
+ 1 18.2
10 33.5
-11 13.9
+0.3685
0.5724
+0.1928
+57
-15
60 Piscium
64
0.21
- 0.8
6 6.5
*3 7 6.6
+. 8 34.9
-0.5088
0.5816
0.1876
+ 7
-67
62 Piscium
6
0.22
0.8
6 40.0
7 28.9
+ 8 56.4
-0.9940
0.5821
0.1874
-23
-84
B. AC. 881
6
0.21
0.6
4 41.0
7 29.3
+ 8 56-8
+0.9790
0.5821
0.1874
+90
+52
e Piscium
4
018
1.5
7 15.9
NSW
13 40.7
MOON.
- 9 5.4
-0.4377
05851
0.1839
+11
-61
B. AC. 1240
6
+0.30
- 6.9
+17 61.9
36 12 16.2
+10 44.6
-0.7921
0.6127
+0.0843
-11
-72
B. A.C. 1272
6
0.30
7.2
17 1.6
15 2.0
-10 36.5
+0.2555
0.6132
0.0781
+50
- 8
fr Tauri
4
0.33
7.7
17 16.1
20 43.5
- 5 9.0
+0.4270
0.6137
0.0659
+63
+ 2
63 Tauri
6
0.32
7.8
16 30.3
20 55.3
- 4 57.6
+1.1921
0.6137
0.0658
+90
+56
<P Tauri
54
0.32
7.7
17 10.4
21 10.2
- 4 43.3
+0.5509
0.6137
0.0651
+74
♦ 0
<P Tauri
5
+0.34
- 7.7
+17 39.6
21 38.9
- 4 15.9
+0.1033
0.6137
+0.0638
+41
-15
e Tauri
34
0.35
7.5
18 55-3
22 51.8
- 3 5.9
-1.0615
0.6137
0.0614
-32
-71
B. A. C. 1468
6
0.39
8.1
18 31.4
ST 5 35.2
+ 3 21.0
-0.3074
0.6135
0.0464
+17
-38
t Tauri
54
0.40
8.2
18 38.4
7 32.9
+ 5 13.9
-0.3355
0.6134
0.0421
+16
-39
m Tauri
54
0.44
8.6
18 29.2
13 39.9
+11 5.9
+0.0346
0.6128
0.0285
+37
-16
115 Tauri
6
+0.49
- 95
+17 51.5
21 15.7
- 5 36.9
+0.8119
0.6109
+0.0121
+90
+30
119 Tauri
5
0.52
9.2
18 30.2
23 11.4
- 3 45.8
+0.1903
0.6103
0.0078
+47
- 6
120 Tauri
6
0.52
9.2
18 27.2
23 41.9
- 3 16.6
+0.2434
0.6103
+0.0063
+50
- 3
127 Tauri
64
0.55
9.4
18 55.2
28 3 18.6
+ 0 11.3
-0.2106
0.6084
-0.0012
+23
-28
130 Tauri
6
0.55
9.8
17 40.9
5 5.1
+ 1 53.5
+1.0139
0.6084
0.0053
+90
+44
X* Ononis
5
+0.59
- 9.5
+19 43.4
7 57.6
+ 4 39.0
-1.0452
0.6075
-0.0118
-31
-71
X* Orionis
6
0.63
9.5
19 41.2
11 16.5
+ 7 50.0
-1.0602
0.6066
0.0186
-32
-71
71 Orionis
6
0.66
9.9
19 11.4
15 45.0
-11 52.2
-0.6724
0.6043
0.0285
- 4
-65
26 Geminorum
54
0.76
10.8
17 45.2
90 2 41.3
- 1 21.7
+0.3323
0.59^7
0.0510
+56
- 2
51 Geminorum
54
0.88
11.7
16 21.1
15 14.9
+10 42.9
+0.9620
0.5916
0.0751
+90
+34
7\ Geminorum
4
+0.90
-11.8
+16 44.8
17 11.0
-11 25.3
+0.4112
0.5905
-0.0784
+62
0
W.vii.685
6
0.96
11.7
17 19.8
22 50.5
- 5 58.6
-0.6537
0.5864
00885
- 2
-68
68 Geminorum
54
0.97
125
16 4.4
23 37.2
- 5 13.7
+0.5572
0.5861
0.0899
+74
+ 7
1 Cancri
6
1.06
12.4
16 58
30 9 29.0
+ 4 16.3
-0.4306
0.5793
0.1059
+11
-52
12 Cancri
64
1.12
12.9
13 58.5
14 32.6
+ 9 8.9
+1.1932
0.5761
0.1135
+90
+50
27 Cancri
54
+1.19
-13.7
+13 1.9
22 24.7
- 7 15.8
+1.2385
0.5709
-0.1246
+90
+55
29 Cancri
6
+1.21
-135
+14 35.1
23 13.0
- 6 29.2
-0.4688
0.5707
-0.1251
+ 9
-57
414
OCCULTATIONS. 1884.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
MAY.
Thr Stab's
Apparent
Declination.
At Conjunction in R. A.
Limiting
Parallel*.
Name.
Mag.
Red'm
188
i tram
4.0.
-13.9
Washington
Mean Tune.
Honr Angle
H
Y
X1
y*
N.
S.
A1 Cancri
6
+1*27
+13° 5.6
d h m
1 5 42.5
h m
- 0 13.2
+05370
0.5663
-0.1335
+4§
o
-16
A* Cancri
6
1.29
14.1
12 31.9
7 23.3
+ 1 24.1
+0.5940
0.5646
0.1356
+77
+ 4
60 -Cancri
6
1.34
14.2
12 3.9
11 267
+ 5 19.1
+0.5244
0.5623
0.1402
+70
- 1
i a Cancri
4
1.35
14.1
12 18.2
12 36.0
+ 6 26.0
+0.1129
0.5615
0.1413
+41
-23
j k Cancri
5
1.39
14.6
1 1 7.9
16 50.7
+10 32.1
+0.7298
0.5590
0.1456
+90 ' +1 1
1 u Leonis
54
+1.50
-15.0
+ 9 33.3
3 2 26.9
- 4 11.0
+0.9441
0.5533
-0.1546
+90
+23
' A Leonis
H
1.52
14.8
10 13.4
4 5.0
- 2 361
-0.0140
0.5526
0.1559
+34
-32
o Leonis
34
1.55
14.6
10 24.9
8 25.5
+ 1 35.9
-0.8999
0.5502
0.1595
-17
-80
B. A. C. 3398
6
1.63
14.8
9 28.6
15 42.7
+ 8 39.0
-1.0940
0.5465
0.1646
-31
-81
B.A.C.3407
6
1.64
15.1
8 51.7
16 31.5
+ 9 26.3
-0.5754
0.5457
0.1650
+ 3
-71
7T Leonis
5
+1.65
-15.2
+ 8 35.7
17 32.2
+10 25.0
-0.4610
0.5455
-0.1657
+10
-62
46 Sextantia
6
1.71
15.6
6 44.1
21 55.4
- 9 20.2
+0.7789
0.5436
0.1682
+90
+11
43 Leonis
64
1.76
15.5
7 7.5
3 4 37.9
- 2 50.3
-0.7762
0.5405
0.1685
- 8
-S3
i 34 Sextant is
64
1.88
16.1
4 11.0
14 21.3
+ 6 35.0
+0.6800
0.5367
0.1754
+86
+ 3
35 Sextontis
64
1.87
15.8
5 21.1
14 41.8
+ 6 54.9
-0.6338
0.5366
0.1765
0
-78
d Leonis
44
+1.96
-15.7
+ 4 14.1
23 19.4
- 8 43.3
-0.9625
0.5339
-0.1778
-21
-86
p:i Leonis
6
1.99
16.1
2 34.8
4 2 33.2
- 5 35.4
+0.2441
0.5326
0.1782
+49
-21
1 75 Leonis
54
2.04
15.8
2 38.6
7 47.1
- 0 31.1
-0.7593
0.5316
0.1791
- 7
-79
76 Leonis
64
2.05
15 9
2 16.8
8 37.2
+ 0 17.6
-0.5182
0.5313
0.1791
+ 6
-69
79 Leonis
54
2.08
15.8
+ 2 2.3
11 13.4
+ 2 49.1
-0.7244
0.5310
0.1793
- 5
-87
v Leonis
5
+2.14
-15.9
- 0 11.4
17 49.1
+ 9 13.0
+0.5041
0.5296
-0.1 794
+68
- 7
B. A. C. 41214
6
2.36
15.1
3 18.8
5 15 2.7
+ 5 48.7
+0.1238
0.5272
0.1756
+42 -28
/ Virginia
B. A. C. 4394
6
245
14.7
5 11.8
6 0 39.4
- 8 51.5
+0.5094
0.5270
0.1726
+67
- 7
6
2.61
13.7
8 21.9
17 3.2
+ 7 3.3
+1.2232
0.5279
0.1646
+82
+44
k Virginis
5
2.70
12.3
9 34.2
7 5 37.4
- 4 44.8
+0.5351
0.5292
0.1562
+67
- 5
B. A. C. 4591
6
+2.73
-11.3
- 9 7.8
12 56.1
+ 2 20.9
-1.0718
0.5292
-0.1507
-33 ' -90
X Virginis
44
2.88
9.6
12 50.4
8 5 8.4
- 5 55.9
+0.7053
0.5331
0.1362
+77'+ 5
! fi Librae
vl Librie
6
2.95
7.4
13 40.0
20 21.4
+ 8 49.5
-0.3311
0.5362
0.1204
+10
-55
6
3.00
6.2
15 48.5
9 4 57.7
- 6 50.0
+1.0571
0.5378
0.1102
+75
+30
ox Librae
6
3.01
4.9
15 7.8
12 6.9
+ 0 5.9
-0.4519
0.5393
0.1013
+ 1
-65
o8 Libras
6
+3.00
- 4.7
-14 43.3
13 7.1
+ 1 4.3
-1.0076
0.5395
-0.1000
-34
-90
C1 Librae
54
3.03
4.3
16 18.8
15 40.2
+ 3 32.6
+0.5113
0.5403
0.0965
+57
- 6
p Librae
6
3.04
4.2
16 12.8
16 51.8
+ 4 42.0
+0.2853
0.5405
0.0951
+42
-19
£« Librae
6
3.04
4.0
16 27.6
17 58.2
+ 5 46.4
+0.4557
0.5408
0.0935
+53
- 9
6 Libra?
44
3.04
2.3
16 23.3
10 4 13.9
- 8 17.1
-0.5133
0.5426
0.0802
- 5
-70
49 Libra?
6
+3.04
- 1.7
-16 11.4
7 27.5
- 5 9.5
-0.9837
0.5433
-0.0746
-35
-90
X Ophiuchi
24 Scorpii
29 Ophiuchi
B.A.C.6060
6
3.05
+ 0.4
18 11.5
20 21.5
+ 7 20.2
+0.3965
0.5454
0.0565
+45
-12
5
3.04
1.6
17 31.0
11 3 24.2
- 9 50.6
-0.7132
0.5467
0.0452
-20
-90
6
3.00
3.2
18 42.6
13 8.4
- 0 25.0
+0.2424
0.5476
-0.0243
+32
-21
6
2.85
7.1
18 46.7
Id 14 59.6
+ 0 36.4
+0.0664
0.5492
+0.0109
+20
-31
B.A.C.6294
6
+2.69
+ 9.4
-18 28.7
13 7 56.1
- 6 59.9
+0.1507
0.5493
+0.0380
+28
-26
p1 Sagittarii
v Sagittarii
4
2.45
11.8
18 3.7
14 7 55.3
- 7 47.1
+1.0515
0.5483
0.0750
+72
+31
44
2.43
11.4
16 10.1
7 59.2
- 7 43.2
-1.0167
0.5483
0.0752
-37
-90
el Sagittarii
6
2.35
12.3
16 33.2
17 3.6
+ 1 3.6
+0.1492
0.5478
0.0885
+33 ; -26
4* Sagittarii
5
2.33
12.3
16 23.4
17 55.4
+ 1 53.8
+0.0473
0.5475
0.0897
+27
-32
B.A.C.6746
6
+2.33
+12.1
-15 44.1
18 25.5
+ 2 22.9
-0.6220
0.5475
+0.0908
-10
-81
| g Sagittarii
1 3 Capricorni
B.A.C.7087
54
2.25
12.7
15 47.7
Iff 1 20.1
+ 9 4.3
+0.1015
0.5470
0.0998
+31
-29
3
2.10
13.1
15 8.5
12 24.7
- 4 12.4
+0.5832
0.5463
0.1152
+65
- 2
6
2.02
13.0
14 7.0
18 45.9
+ 1 56.5
+0.2286
0.5461
0.1231
+41
-22
8 Aquarii
6
1.86
13.1
13 29.8
16 7 9.4
-10 3.8
+1.1735
0.5456
0.1376
+77
+40
v Aquarii
17 Aquarii
19 Aquarii
B. A. C. 7562
44
+1.80
+12.7
-11 50.2
11 49.6
- 5 32.5
+0.0499
0.5458
+0.1429
+33
-32
6
1.72
12.2
9 48.7
18 17.0
+ 0 42.5
-1.1679
0.5456
0.1493 -42
0.1505!+ 1
0.1600 1+44
0. 1600 j +47
+0.1606|+69
-90
54
1.71
12.2
10 14.3
19 22.1
+ I 45.5
-0.5490
0.5457
-72
64
1.59
11.9
9 34.2
11 4 50.3
+10 55.5
+0.2120
0.5464
-23
cl Capricorni
5
1.59
12.0
9 366
4 52.5
+10 57.7
+0.2598
0.5464
-20
<fl Capricorni
30 Aquarii
6
+1.58
+12.0
- 9 48.4
5 30.1
+11 34.0
+0.5689
0.5466
- 3
54 +1.50
+110
- 7 4.8
13 38.8
- 4 32.9
-0.9772
0.5473
+0.1 673 J -24, -90
OCCULTATIONS, 1884.
415
' ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
MAY.
Thk Star's
At Conjunction in R. A.
Limiting
Parallels.
Name.
Mag.
Red'na from
1884.0.
Aa A«J
Apparent
Declination.
Washington
Mean Time.
Hour Angle
H
7
V
y'
N.
S.
o
i* ■ ~
s
a
-5°25:i
d h m
h m
o
1 51 Aquarii
6
+1.38
+10.1
17 23 35.4
+ 5 4.4
-1.0170
0.5488
+0.1747
-26
-90
i k Aquarii
6
1.31
9.7
4 49.3
18 6 4.9
+11 21.2
-0.4906
0.5500
0.1788
+ 7
-4>7
. 13 Piacium
64
1.03
7.2
- 1 43.5
19 7 23.7
+11 50.0
+0.9752
0.5577
0.1890
+89
+22
15 Piscium
64
1.02
6.4
+ 0 40.4
9 13
-10 35.8
-1.1776
0.5581
0.1893
-38
-90
1 X Piscium
5
1.01
6.0
1 8.6
12 2.3
- 7 40.8
-1.0849
0.5594
0.1899
-30
-89
21 Piscium
6
♦0.97
+ 6.0
+ 0 25.9
15 24.6
- 4 25.3
+0.2842
0.5609
+0.1903
+52
-19
25 Piscium
6
0.96
5.6
1 26.8
17 3.3
- 2 50.1
-0.4386
0.5614
0.1903
+11
-S3
, Lalande 47041
6
0.92
5.5
I 18.3
20 5.4
+ 0 5.8
+0.2834
0.5627
0.1903
+52
-19
60 Piscium
64
0.77
2.4
6 6.5
90 17 12.8
- 3 30.7
-0.5826
0.5735
0.1859
+ 3
-73
62 Piscium
6
0.76
2.3
6 40.0
17 35.6
- 3 8.8
-1.0730
0.5737
0.1855
-29
-84
B.A.C.221
6
+0.74
+ 2.8
+ 4 41.0
17 36.0
- 3 8.4
+0.9206
0.5737
+0.1855
+90
+19
B. A.C.274
64
0.72
1.9
5 51.3
22 35.8
+ 1 40.8
+0.6643
0.5769
0.1882
+84
+ 3
e Piscium
4
0.72
1.5
7 15.9
23 56.3
+ 2 58.4
-0.5021
0.5776
0.1825
+ 7
-66
£ Piscium
44
0.67
1.1
6 57.7
31 4 32.3
+ 7 24.3
+0.6339
0.5804
0.1795
+80
+ 2
88 Piscium
6
0.66
+ 1.2
6 23.0
4 58.0
+ 7 49.1
+1.2877
0.5805
0.1794
+90
+56
54 Ceti
6
+0.59
- 1.2
+10 28.1
20 5.2
- 1 37.3
-0.1585
0.5895
+0.1665
+26
-41
B. AC. 609
6
0.58
1.6
11 43.9
23 35.3
+ 1 44.9
-0.8307
0.5918
0.1625
-12
-79
o Arietis
6
0.50
3.8
14 49.0
29 17 41.6
- 4 50.8
-M231
0.6027
0.1388
-35
-76
Mercurt
16 8.8
NEW
23 13 37.1
MOON.
- 9 43.1
+0.0131
0.6323
+0.1178
+36
-25
£* Ononis
5
+0.48
- 9.4
+19 43.4
95 17 56.2
-*7 34.2
-0.9554
0.6165
-0.0108
-23
-71
^Ononis
6
0.49
9.5
19 41.2
21 9.7
- 4 28.7
-0.9665
0.6156
0.0166
-24
-71
68 Ononis
6
0.51
9.7
19 48.7
90 0 24.7
- 1 21.8
-1.1620
0.6142
0.0256
-42
-71
71 Orion is
6
0.51
9.8
19 11.4
1 30.5
- 0 18.6
-0.5778
0.6138
0.0280
+ 2
-56
26 Gerainorum
54
0.55
10.5
17 45.2
12 7.0
+ 9 51.9
+0.4252
0.6093
0.0506
+63
+ 3
51 Geminorum
54
+0.61
-11.2
+16 21.1
97 0 16.1
- 2 27.9
+1.0571
0.6020
-0.0742
+90
+41
A Geminorum
4
0.63
11.2
16 44.8
2 8.4
- 0 40.0
+0.5183
0.6012
0.0788
+70
+ 6
W. vii. 685
6
0.68
11.2
17 19.8
7 36.5
+ 4 35.3
-0.5267
0.5973
0.0895
+ 5
-57
68 Geminorum
54
0.68
11.4
16 4.4
8 21.7
+ 5 18.7
+0.6658
0.5973
0.0900
+87
+13
1 Cancri
6
0.76
11.7
16 5.8
17 53.5
- 9 31.3
-05979
0.5902
0.1069
+18
-43
29 Cancri
6
+0.87
-12.3
+14 35.1
98 7 10.2
+ 3 15.7
-0.3241
0.5806
-0.1266
+17
-47
A' Cancri
6
0.93
12.7
13 5.6
13 27.0
+ 9 19.0
+0.3767
0.5754
0.1352
+59
- 8
A* Cancri
6
0.94
12.9
12 31.9
15 4.8
+10 53.2
+0.7304
0.5752
0.1371
+90
+12
60 Cancri
6
0.98
12.9
12 3.9
19 0.6
-,9 19.3
+0.6622
0.5715
0.1417
+85
+ 7
a Cancri
4
0.99
12.9
12 18.2
20 7.7
- 8 14.7
+0.2585
0.5711
0.1428
+50
-15
k Cancri
5
+1.03
-13.2
+11 7.9
99 0 14.7
- 4 16.2
+0.8672
0.5683
-0.1473
+90
+19
6> Leonis
54
1.14
13.6
9 33.4
9 34.2
+ 4 44.0
+1.0829
0.5610
0.1565
+90
+34
k Leonis
54
1.16
13.3
10 13.4
11 9.7
+ 6 16.3
+0.1418
0.5605
0.1576
+43
-23
o Leonis
34
1.20
13.2
10 24.9
15 23.0
+10 21.1
-0.7303
0.5563
0.1613
- 6
-80
B. A. C. 3398
6
1.27
13.4
9 28.6
22 29.3
- 6 46.8
-0.9202
0.5526
0.1664
-18
-81
B. A. C. 3407
6
+1.28
-13.6
+ 8 51.8
23 17.1
-6 0.5
-0.4107
0.5526
-0.1667
+12
-58
7T Leonis
5
1.29
13.7
8 35.8
30 0 16.2
- 5 3.4
-0.2983
0.5523
0.1673
+18
-30
16 Sextan tis
6
1.35
14.2
6 44.2
4 33.2
- 0 54.8
+0.9290
0.5491
0.1699
+90
420
43 Leonis
64 J
1.41
13.9
7 7.6
11 7.1
+ 5 26.4
-0.6063
0.5458
0.1733
+ 2
-75
34 Sextan tis
64
1.54
14.6
4 11.1
20 39.3
- 9 19.6
+0.8328
0.5409
0.1769
+90
+13
35 Sextantis
64
+1.53
-14.2
+ 5 21.2
20 59.5
- 9 0.0
-0.4668
0.5409
-0.1769
+ 9
-64
d Leonis
44
1.64
14.0
4 14.2
31 5 28.7
- 0 46.7
-07925
0.5369
0.1791
- 9
-86
p* Leonis
6
1.68
14.4
2 34.9
8 39.9
+ 2 18.7
+0.4006
0.5358
0.1797
+60
-13
75 Leonis
54
1.74
14.1
2 38.7
13 49.7
+ 7 18.9
-0.5981
0.5339
0.1801
+ 2
-76
76 Leonis
64
1.75
1.4.2
2 16.9
14 39.2
+ 8 6.9
-0.3573
0.5335
0.1802
+15
-57
79 Leonis
54
+1.78
-14.0
+ 2 2.4
17 13.6
+10 36.7
-0.5635
0.5328
-0.1605
+ 4
-73
v Leonis
1
I
i
i
5
+1.86
-14.2
- 0 11.3
23 45.3
- 7 3.5
+0.6549
0.5308
-0.1804
+82
+ 1
416
OCCULTA TIONS,. 1884.
ELEMENTS FOR THE PREDICTION OF OOCULTATIONS.
JUKE.
Tim Stab's
At CoKJUKcnoK nr B. A.
Limiting
Parallels.
Name.
Ifeg.
Red'ns from
18*4.0.
Apparent
DedloatloD.
Washington
Mean Tune.
Hoar Angle
H
Y
X?
y*
N.
s.
B. AC. 4134
6
+2*12
-13.7
- 3 18.7
d h m
1 20 51.0
b m
-10 355
+0.2665
0.5271
-0.1766
o
+50
o
-20
/ Virginis
6
2.25
13.5
5 11.8
» 6 26.4
- 1 17.2
+0.6443
05262
0.1731
+79
+ 1
k Virginia
5
2.59
11.7
9 34.2
3 11 26.3
+ 2 51.5
+0.6428
05273
0.1567
+75
+ 1
B. AC. 4591
6
2.66
10.8
9 7.8
18 46.4
+ 9 58.6
-0.9731
0.5279
0.1512
-25
-90
A, Virginis
44
2.87
9.2
12 50.4
4 11 2.5
+ 1 45.6
+0.7825
0.5309
0.1370
+78
♦ 9
H Libra
6
+3.01
- 6.9
-13 40.0
6 2 19.1
- 7 25.4
-0.2737
0.5343
-0.1213
+13
-52
vl Libre
6
3.10
5.9
15 48.5
10 57.3
+ 0 57.0
+1.1033
05363
0.1113
+75
+34
o1 Librae
6
3.15
4.6
15 7.8
18 7.7
+ 7 54.2
-0.4186
0.5380
0.1026
+ 3
-62
os Librae
6
3.15
4.3
14 43.3
19 8.0
+ 8 52.7
-0.9740
05384
0.1013
-31
-90
£ Librae •
51
3.19
4.1
16 18.8
21 41 b
+11 21.5
+0.5408
0.5391
0.0978
+60
- 5
(* LibrfB
6
+3.20
- 4.0
-J6 12.8
22 53.3
-11 29.0
+0.3130
05394
-0.0964
+44
-17
I* Libra
6
3.20
3.8
16 27.6
23 59.9
-10 24.4
+0.4815
05396
0.0948
+55
- 8
8 Libre
4*
3.26
2.0
16 23.3
6 10 16.5
- 0 27.1
-0.5019
0.5420
0.0613
- 4
-69
49 Libra
6
3.27
- 1.4
16 114
13 30.2
+ 2 40.6
-0.9763
0.5429
0.0763
-34
-90
X Ophiuchi
6
3.36
+ 0.7
18 11.5
7 2 24.1
- 8 50.0
+0.3796
05459
0.0574
+44
-13
24 Scorpii
5
+3.36
+ 2.0
-17 31.0
9 26.5
- 2 0.9
-0.7367
0.5473
-0.0468
-21
-90
29 Ophiuchi
6
3.40
3.7
18 42.6
19 9.4
+ 7 23.4'
+0.2032
0.5464
-0.0322
+30
-23
B. A. C. 6060
6
3.39
8.1
18 46.7
8 20 54.9
+ 8 19.2
-0.0147
0.5513
+0.0094
+15
-36
B. AC. 6294
6
3.30
10.8
18 28.7
9 13 46.5
+ 0 37.9
+0.0441
0.5513
0.0368
+21
-32
p' Sagittarii
4
3.15
14.1
18 3.7
10 13 39.6
- 0 15.2
+0.9133
0.5502
0.0742
+72
+19
v Sagittarii
44
+3.13
+13.8
-16 10.1
13 43.6
- 0 11.4
-1.1580
0.5502
+0.0742
-50
-90
el Sagittarii
6
3.07
14.9
16 33.2
22 45.7
+ 8 33.2
-0.0036
0.5492
0.0875
+24
-35
e* Sagittarii
5
3.06
14.9
16 23.4
23 37.4
+ 9 23.2
-0.1057
0.5491
0.0889
+18
-41
B.A.C.6746
6
3.05
14.9
15 44.1
11 0 7.6
+ 9 52.4
-0.7760
0.5491
0.0893
-19
-90
g Sagittarii
54
2.99
15.5
15 47.6
7 1.3
- 7 27.2
-0.0618
0.5486
0.0991
+22
-39
(3 Capricorni
3
+2.87
+16.4
-15 8.4
18 5.9
+ 3 16.1
+0.4093
0.5470
+0.1139
+52
-12
B. A. C. 7087
6
2.80
16.6
14 6.9
1» 0 275
+ 9 25.5
+0.0470
0.5466
0.1223
+31
-32
8 Aquarii
6
2.65
17.2
13 29.7
12 53.8
- 2 31.9
+0.9854
0.5451
0.1373
+77
+23
v Aquarii
44
2.60
16.9
11 50.1
17 35.9
+ 2 1.2
-0.1508
0.5448
0.1419
+22
-44
19 Aquarii
54
2.51
16.7
10 14.2
IS | 11.9
+ 9 22.7
-0.7601
0.5442
0.1494
-12
-90
B. A. C. 7562
64
+2.40
+16.6
- 9 34.1
10 46.1
- 5 21.3
+0.0018
0.5439
+0.1585
+32
-35 1
c1 Capricorni
5
2.40
16.7
9 36.5
10 48.4
- 5 19.1
+0.0499
0.5439
0.1585
+35
-321
c* Capricorni
6
2.40
16.7
9 48.3
11 26.4
- 4 42.3
+0.3597
05439
0.1592
+54
-15
30 Aquarii
54
2.82
15.8
7 4.7
19 41.8
+ 3 17.5
-1.2028
05439
0.1659
-44
-90
6 Aquarii
44
2.23
16.3
. 8 21.3
14 2 15.0
+ 9 385
+1.2537
05440
0.1704
+82
+48
44 Aquarii
6
+2.25
+15.6
- 5 57.7
2 24.8
+ 9 47.6
-1.2555
0.5442
+0.1708
-50
-90
51 Aquarii
Lalande 43974
6
2.21
15.4
5 25.0
5 48.4
-10 55.2
-1.2480
05442
0.1730
-48
-90
6
2.16
15.8
7 8.3
9 15.4
- 7 34.7
+1.1735
0.5444
0.1750
+83
+38
k Aquarii
6
2.13
14.9
4 49.3
12 25.4
- 4 30.8
-0.7178
05449
0.1770
- 6
-90
11 Piscium -
64
1.85
12.9
. 2 25.5
Iff 13 10.1
- 4 33.7
+1.2773
0.5491
0.1864
+88
+50
13 Piscium
64
+1.85
+12.5
- 1 43.4
14 21.6
- 3 24.5
+0.7684
0.5495
+0.1864
+72
+ 8
14 Piscium
6
1.84
12,6
- 1 53.0
15 23.1
- 2 25.0
+1.1269
05503
0.1869
+88
+33
21 Piscium
6
1.77
11.3
+ 0 26.0
22 36.5
+ 4 34.2
+0.0708
05524
0.1877
+39
-31
25 Piscium
6
1.76
10.9
1 26.9
16 0 18.2
+ 6 12.5
-0.6605
0.5525
0.1877
- 1
-83
Lalande 47041
6
1.73
10.4
1 18.4
3 25.7
+ 9 13.8
+0.0723
0.5541
0.1878
+39
-31
60 Piscium
64
+1.54
+ 7.1
+ 6 6.6
IT 1 14.9
+ 6 19.1
-0.7905
0.5628
+0.1834
- 9
-4*4
62 Piscium
6
1.54
7.0
6 40.1
1 385
+ 6 41.9
-1.2865
0.5635
0.1832
-53
-84
B.A.C.221
6
1.51
7.7
4 41.1
1 39.0
+ 6 42.4
+0 7376
05635
0.1632
+90
+ 7
B. A. C. 274
64
1.47
6.2
5 51.4
6 49.2
+11 42.0
+0.4848
0.5662
0.1808
+66
- 7
e Piscium
4
1.47
5.9
7 16.0
8 12.4
-10 57.8
-0.6993
0.5667
0.1802
- 4
-83
f Piscium
44
+1.41
+ 5.9
+ 6 57.8
12 58.0
- 6 22.1
+0.4612
05698
+0.1776
+64
- 8
88 Piscium
6
1.40
6.2
6 23.1
13 24.4
- 5 56.7
+1.1249
05703
0.1772
+90
+35
o Piscium
44
1.30
3.6
8 34.5
18 2 42.9
+ 6 53.4
+1.1989
0.5778
0.1670
+90
+45
54 Ceti
6
1.29
2.9
10 28.1
5 2.7
+ 9 8.2
-0.3182
05790
0.1650
+17
-50
B.A.C.609
6
1.28
1.6
11 43.9
8 39.7
-11 22.7
-0.9947
05815
0.1612
-24
-79
31 Arietis
54
+1.12
+ 0.6
+11 56.7
19 0 7.3
+ 3 30.4
+1.1487
0.5909
+0.1431
+90
+42
a Arietis
_5».
+1.07
- 0.8
+14 36.2
6 8.8
+ 9 18.1
-0.6590
05950
+0.1345
-2
-72
OCCULT ATIONS. 1884.
417
1 • — ' ■ ■ ' ... 1
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JUNE.
Tim Star's
At Conjunction in R. A.
Limiting
Parallels.
Name.
Mag.
Red'n
188
i from
4.0.
Apparent
Declination.
Washington
Mean Time.
Hoar Angle
H
Y
X?
y'
N.
S.
N*FTU»E
s
"
+I69 40'.9
d b m
19 20 29.0
h m
- 0 55.3
-0.9581
0.6064
+0.1114
-2§
-74°
B AC. 1119
6
+0.95
- 4.2
16 9.5
20 1 9.0
+ 3 33.5
+0.0675
0.6059
0.1030
+39
-21
II. A.C.I 240
6
0.90
5.4
17 51.9
9 24.6
+11 29.3
-0.8310
0.6103
0.0862
-14
-73
B. AC. 1272
6
0.88
5.3
17 1.6
12 11.7
- 9 50.5
+0.2282
0.6110
0.0814
+49
-10
d1 Tauri
4
0.84
6.1
17 161
17 54.1
- 4 22.0
+0.4215
0.6135
0.0694
+63
+ 2
63 Tauri
6
+0.83
- 6.0
+16 30.3
18 6.0
- 4 10.6
+1.1858
0.6138
+0.0692
+90-
+54
<P Tauri
54
0.84
6.1
17 10.4
18 20.9
- 3 56.2
+05444
0.6138
0.06JB
+73
+ 8
<P Tauri
5
0.83
6.2
17 39.6
18 52.3
- 3 26.2
+0.1016
0.6142
0.0674
+41
-16
e Tauri
34
0.84
6.3
18 55.3
20 2.4
- 2 19.0
-1.0622
0.6142
0.0651
-31
-71
t Tauri
54
0.78
7.0
18 38.4
91 4 40.6
+ 5 57.9
-0.3047
0.6167
+0.0459
+18
-37
NEW
MOON.
1 Cancri
6
+0.68
-11.2
+16 5.8
94 3 53.5
+ 2 168
-0.1601
0.5980
-0.1064
+26
-34
5 Cancri
64
0.69
11.0
16 46.3
5 42.0
+ 4 1.1
-1.0297
0.5969
0.1098
-28
-74
39 Cancri
6
+0.74
-11.5
+14 35.1
16 60.5
- 9 15.9
-0.1579
0.5892
-0.1272
+26
-36
A 'Cancri
6
0.78
11.8
13 5.6
22 57.4
- 3 22.6
+0.5476
0.5849
0.1355
+72
+ 2
A3 Cancri
6
0.79
11.9
12 31.9
90 0 32.4
- 1 51.2
+0.8956
0.5833
0.1378
+90
+23
60 Cancri
6
0.82
11.9
12 3.9
4 21.7
+ 1 49.8
+0.8369
0*812
0.1421
+90
+18
a Cancri
4
0.83
12.0
12 18.2
5 26.8
+ 2 52.4
+0.4381
0.5797
0.1441
+63
- 5
k Caucri
5
+0.85
-12.1
+1 1 7.9
9 26.8
+ 6 43.8
+1.0464
0.5769
-0.1486
+90
+32
u Leonis
54
0.93
12.3
9 33.4
18 30.1
- 8 32.2
+1.2729
0.5705
0.1580
+90
+55
k Leonis
54
0.94
12.1
10 13.4
20 2.7
- 7 2.9
+0.3466
0.5697
0.1592
+56
-12
o Leonis
34
0.97
11.9
10 24.9
96 0 8.8
- 3 5.2
-0.5104
0.5669
0.1628
+ 7
-64
B.A.C.3398
6
1.03
12.0
9 28.6
7 2.4
+ 3 34.2
-0.6863
0.5619
0.1681
- 3
-80
B. A. C. 3407
6
+1.04
-12.0
+ 8 51.8
7 48.6
+ 4 18.8
-0.1842
0.5615
-0.1687
+25
-43
ir Leonis
5
1.05
12.1
8 35.8
8 46.0
+ 5 14.3
-0.0706
0.5609
0.1693
+31
-37
16 Sextan tin
6
1.09
12.5
6 44.2
12 55.6
+ 9 15.5
+1.1416
0.5581
0.1718
+90
+37
43 Leonis
64
1.14
12.2
7 7.6
19 18.1
- 8 34.8
-0.3624
0.5542
0.1752
+15
-55
34 Sextantis
64
1.25
12.7
4 11.1
97 4 34.2
+ 0 23.1
+1.0666
0.5489
0.1791
+90
+29
35 Sextantis
64
+1.24
-12.4
+ 5 21.2
4 53.9
+ 0 42.2
-0.2165
0.5488
-0.1792
+23
-47
d Leonis
44
1.34
12.2
4 14.2
13 9.6
+ 8 42.0
-05320
0.5448
0.1811
+ 6
-69
p3 Leonis
6
1.38
12.5
2 34.9
16 15.9
+11 42.4
+0.6491
0.5432
0.1818
+82
+ 1
75 Leonis
54
1.44
12.2
2 38.7
21 18.1
- 7 24.9
-0.3335
0.5408
0.1823
+17
-55
76 Leonis
64
1.45
12.3
2 16.9
22 6.4
- 6 38.1
-0.0971
0.5405
0.1824
+30
-40
79 Leonis
54
+1.48
-11.9
+ 2 2.4
98 0 37.0
- 4 12.3
-05988
0.5392
-0.1823
+18
-53
v Leonis
5
1.56
12.5
- 0 11.3
6 59.9
+ 1 58.8
+0.9072
0.5367
0.1822
+90
+17
B.A.C.4I34
6
1.82
12.0
3 18.7
99 3 41.3
- 1 57.7
+0.52%
0.5310
0.1782
+69
-6
/ Virginia
6
1.96
11.7
5 11.8
13 8.0
+ 7 12.0
+0.8968
0.5292
0.1747
+85
+16
A Virginia
5
+2.35
-10.1
- 9 34.2
39 17 50.6
+11 3.4
+0.8784
0.5279
-0.1578
+81
+15
JULY.
B AC. 4591
6
+2.43
- 9.1
- 9 7.7
1 1 8.3
- 5 52.0
-0.7381
0.5283
-0.1525
- 9
-90
X Virginis
44
2.68
8.1
12 50.3
17 21.5
+ 9 52.1
+0.9893
05303
0.1389
+78
+24
2 Libra
6
+2.67
-7.3
-11 11.2
19 34.1
-11 59.2
-1.1379
0.5307
-0.1356
-40
-90
p. Librae
6
2.87
6.0
13 40.0
9 8 37.4
+ 0 40.4
-0.0828
0.5321
0.1218
+24
-40
o1 Libre
6
3.07
3.9
15 78
3 0 27.1
- 7 58.9
-0.2514
0.5367
0.1033
+12
-50
•* Libra
6
3.05
3.6
14 43.3
1 275
- 7 0.3
-O.8097
05369
0.1022
-20
-90
f > Libra
54
3.11
3.6
16 18.8
4 1.5
- 4 31.1
+0.6969
0.5374
0.0993
+73
+ 5
f3 Libre
6
+3.12
- 3.4
-16 12.8
5 13.3
- 3 21.5
+0.4697
05378
-0.0980
+55
- 9
C4 Libre
6
3.15
3.4
16 27.6
6 20.0
- 2 16.8
+0.6342
0.5380
0.0965
+68
+ 1
if Libre
6
3.16
2.1
15 18.2
11 51.8
+ 3 4.7
-1.1614
05394
0.0890
-49
-90
0 Libre
44
3.23
1.4
16 23.3
16 37.6
+ 7 41.6
-0.3643
0.5407
0.0825
+ 4
-58
49 Libra
6
3.25
-08
16 11.4
19 51.8
+10 49.7
-0.8453
0.5414
0.0780
-25
-90
X Ophiuchi
6
+3.40
+ 1.1
-18 11.5
4 8 46.7
- 0 39.8
+0.4863
0.5421
-0.0595
+52
- 7
24 Scorpii
5 43.43
+ 2.5
-17 31.0
15 49.4
+ 6 95
-0.6449
0.5462
-0.0490
-15
-85
27
418
OCCULTATIONS, 1884.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JULY.
The Stah'b
AT COXJUNCTIOX IN R. A.
Limiting ;
Parallels. [
Name.
Us*
Red'ns from
1884.0,
4a i A<J
Apparent
DeelhMiion.
Washington
Mono Time.
Hoar Angle
H
Y
*
y'
N.
o
+!15
t
-19
29 Ophiuchi
6
♦3*53
+ 4.0
-18 42i>
d h m
5 1 32.2
h ro
- 8 263
+0.2751
0.5482
-0.0338
B. A.c.boeo
6
3.63
8.9
18 46.7
6 3 14.5
- 7 33.7
+0.0037
0.5520
+0.0070
+16
-35
B A C 6294
6
365
11.9
18 287
20 1.1
+ 8 404)
+0.0275
0.5537
0.0346
+20
-33
p* Sagittarii
4
3.61
154)
18 3.6
7 19 42.7
+ 7 35.2
+0.8397
0.5533
0.0725
+72
+14
v Sagittarii
44
3.58
15.6
16 10.0
19 46.6
+ 7 39.0
-1.2238
0.5533
0.0725
-58
-90
el Sagittarii
6
♦3.56
+16.7
-16 33.1
8 4 44.1
- 7 41.0
-0.0926
0.5527
+0.0859
+19
-40
tfl Sagittarii
5
3.55
16.9
16 23.3
5 35.4
- 6 51.3
-0.1961
0.5527
0.0873
+13
-47
B. AC. 6746
6
3.54
16.!)
15 44.0
6 5.1
- 6 22.7
-0.8662
0.5527
0.0877
-25
-90
g Sagittarii
5*
3.51
17.7
15 47.6
12 54.8
+ 0 13.8
-0.1649
0.5524
0.0977
+16
-45
p Capricorni
3
3.44
18.9
15 84
23 52.6
+10 50.2
+0.2800
0.5513
0.1129
+43
-19
B. A. C. 7063
6
♦3.42
+19.5
-15 26.2
9 4 40.1
- 8 31.6
+1.1558
0.5505
+0.1192
+75
+39
B.A.C.7087
6
3.39
19.4
14 6.9
6 10.5
- 7 4.1
-0.0919
0.5504
0.1208
+23
-40
8 Aquarii
6
3.2!)
20.3
13 29.7
18 29.2
+ 4 50.8
+0.8183
0.5490
0.1360
+77
+12
v Aquarii
-4*
3.26
20.3
11 50.1
23 8.8
+ 9 21.4
-0.3224
0.5486
0.1408
+12
-55
19 Aquarii
54
3.18
20.4
10 14.2
10 6 40.7
- 7 21.1
-0.9434
0.5478
0.1488
-24
-90
B. AC. 7562
64
♦3.11
+20.7
- 9 34.1
16 10.9
+ 1 50.9
-0.2012
05470
+0.1576
+21
-47
c1 Capricorni
5
3.11
20.7
9 365
16 13.1
+ 1 53.0
-0.1531
05470
0.1576
+23
-44
c2 Capricorni
6
3.11
20.7
9 483
16 50.9
+ 2 29.6
+0.1584
05467
0.1582
+41
-26
6 Aquarii
44
2.98
20.7
8 21.3
11 7 35.1
- 7 14.4
+1.0304
05463
0.1699
+82
+26
Lalande 43974
6
2.92
20.4
7 8.3
14 34.6
- 0 28.3
+0.9428
05461
0.1743
+83
+19
k Aquarii
6
♦2.90
+19.6
- 4 49.2
17 44.5
+ 2 35.7
-0.9574
0.5461
+0.1761
-21
-90
11 Piscium
64
2.66
18.1
2 254
Id 18 34.4
+ 2 37.9
+1.0209
05480
0.1852
+88
+25
13 Pisciura
64
2.66
17.8
1 43.3
19 46.6
+ 3 47.7
+0.51 11
0.5483
0.1853
+68
- 7|
14 Piscium
6
2.65
17.8
- 1 52.9
20 48.8
+ 4 48.0
+0.8702
05483
0.1856
^88
+m;
21 Piscium
6
2.58
16.6
+ 0 26.1
13 4 64
+11 51.4
-0.1947
0.5496
0.1863
+24
-46
25 Piscium
6
+2.58
+16.2
+ 1 27.0
5 49.2
-10 29.1
-0.9345
0.5503
+0.1864
-19
-«9
Lalande 47041
6
2.54
16.1
1 185
8 59.3
- 7 25.2
-0.1960
0.5520
0.1863
+24
-46
60 Piscium
64
2.37
12.4
6 6.7
14 7 10.9
- 9 57.5
-1.0671
0.5577
0.1817
-29
-84
B. A.C.22I
6
2.34
12.9
4 41.2
7 35.4
- 9 33.8
+0.4760
0.5581
0.1815
+65
- 8
B.A.C.274
64
2.30
11.8
5 51.5
12 52.5
- 4 27.4
+0.2211
0.5602
0.1792
+48
-21 '
t Piscium
4
♦2.30
+11.2
+ 7 161
14 17.7
- 3 5.1
-0.9731
0.5605
+0.1783
-21
-83;
£ Piscium
44
2.24
10.7
6 57.9
19 10.3
+ 1 37.6
+0.2017
0.5624
0.1757
+47
-22.
88 Piscium.
6
2.23
10.9
6 23.2
19 37.3
+ 2 3.7
+0.8736
0.5628
0.1754
+90
+16
B. AC. 410
6
2.19
10.2
6 48.4
23 19.5
+ 5 38.3
+1.0869
0.5641
0.1730
+90
+32
o Piscium
44
2.1*
8.5
8 34.5
Iff 9 17.8
- 8 44.1
+0.9636
0.5693
0.1654
+90
+24
54 Ceti
6
+2.11
+ 7.5
+10 28.2
11 41.5
- 6 25.4
-0.5738
0.5707
+0.1631
+ 3
-69
B. A.C.600
6
2.09
6.6
11 44.0
15 25.2
- 2 49.7
-1.2581
05729
0.1595
-50
-79
3lArietis
54
1.91
4.3
11 56.8
1* 7 22 6
-11 26.7
+0.9367
0.5811
0.1420
+90
+25
o Arietis
54
1.88
+ 2.8
14 36.2
13 36.2
- 5 26.9
-0.8892
0.5849
0.1333
-17
-76
Neptouk
16 50.7
17 5 37.3
+ 9 58.1
-1.1921
0.5936
0.1086
-44
-74
B. A. CM 119
6
+1.69
- 0.8
+16 9.6
9 15.6
-10 32.0
-0.1202
05953
+0.1027
+28
-32
B. AC. 1240
6
1.61
2.6
17 52.0
17 47.8
- 2 19.7
-1.0151
0.5995
0.0872
-27
-72
B. AC. 1272
6
1.58
2.6
17 1.7
20 40.4
+ 0 26.1
+0.0666
0.6011
0.0816
+39
-19
<1' Tauri
4
1.52
3.5
17 161
18 2 34.0
+ 6 5.8
+0.2762
0.6035
0.07(H)
+52
- 7
63 Tauri
6
1.50
3.3
16 30.3
2 46.2
+ 6 17.5
+1.0512
0.6035
0.0699
+9(1
+41
<J*T.iuri
54
+1.51
- 3.5
+17 10.4
3 1.6
+ 6 32.3
+0.4024
0.6035
+0.0695
+61
0
iP Tauri
5
1.51
3.7
17 39.6
3 34.0
+ 7 3.4
-0.0465
0.6036
0.0682
+32
-24
e Tauri
34
1.51
4.2
18 55.3
4 46.3
+ 8 12.8
-1.2252
0.6043
0.0658
-51
-71
B.A.C. 1468
6
1.43
5.0
18 31.4
11 40.2
- 9 9.7
-0.4201
0.6067
0.0515
+11
-46
i Tauri
54
1.41
5.4
18 3H.4
13 40.4
- 7 14.3
-0.4365
0.6073
0.0473
+10
-46
m Tauri
54
+1.35
-6.0
+18 29.2
19 53.3
- 1 16.4
-0.0298
0.6091
+0.0343
+33
-20
1 15 Tauri
6
1.26
6.7
17 51.6
19 3 32.5
+ 6 4.2
+0.7907
0.6106
0.0172
+90
+28:
119 Tauri
5
1.25
7.1
18 30.3
5 28.6
+ 7 55.6
+0.1790
0.6108
0.0131
+46
- 7
120 Tauri
6
1.24
7.2
18 27.3
5 59.1
+ 8 24.8
+0.2353
0.6108
0.0123
+49
-4,
127 Tauri
64
1.22
7.5
18 55.3
9 35.2
+11 52.2
-0.2004
0.6110
0.0040
+23
-27
130 Tauri
6
+1.19
- 7.5
+17 41.0
11 21.3
-10 26.0
+1.0356
0.6113
+0.0007
+90
+46
X* Ononis
5
+1.18 - 8.2
+19 43.5
14 12.5
-.7 41.7
-1.0025
0.6113
-0.0058
-27
-71
OCCULTATIONS, 1884.
410
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
JULY.
The Stab's
. At Conjunction ih R. a.
Limiting
Parallels.
Name.
Mag.
Red'n
18*
Aa
b from
(4.0.
Apparent
Declination.
Washington
Mean Tune.
Hoar Angle
H
Y
4
*
N.
a
8
-#4
O i
d h m
b m
j3 Ononis
6
+1.15
+19 41.3
19 17 29.1
- 4 33.1
-0.9975
0.6112
-0.0134
-26
-71
69 Ononis
6
1.12
8.7
19 48.8
20 47.0
- 1 23.2
-1.1781
0.6109
0.0207
-45
-71
71 Ononis
6
1.11
8.7
19 11.5
21 53.5
- 0 19.4
-0.5833
0.6108
0.0230
+ 2
-56
26 Geminorutn
&4
1.02
9.4
17 45.3
30 8 34.2
+ 9 55.5
+0.4743
0.6091
0.0464
+67
+ 7
Venus
16 29.3
NEW
18 29.1
MOON.
- 4 33.4
+1.1763
0.6310
0.0665
+90
+54
f Leonis
54
40.90
-10.8
+11 48.6
33 5 51.3
+ 4 33.9
-1.1218
0.5751
-0.1586
-34
-79
h Leon is
54
0.90
11.0
10 13.4
5 52.6
+ 4 35.1
+0.4929
0.5751
0.1586
+67
- 4
o Leonis
34
0.92
10.9
10 24.9
9 54.8
+ 8 28.8
-0.3509
0.5725
0.1623
+16
-52
B.A.C.3396
6
0.95
10.9
9 28.6
16 41.5
- 8 58.7
-0.51 1 1
0.5678
0.1681
+ 7
-65
B.A.C.34U7
6
0.96
10.9
8 51.8
17 26.8
- 8 15.0
-0.0103
0.5675
0.1687
+34
-26
n Leonis
5
♦0.97
-10.9
+ 8 35.8
18 23.3
- 7 20.4
+0.1044
0.5670
-0.1694
+41
-27
43 Leonis
64
1.03
10.7
7 7.6
34 4 43.1
+ 2 38.2
-0.1636
0.5611
0.1756
+26
-43
34 SexUinlis
64
1.10
11.0
4 11.1
13 47.7
+11 24.6
+1.2726
0.5565
0.1797
+90
+51
35 Sextantts
64
1.09
10.7
5 21.2
14 7.1
+11 43.5
+0.0017
0.5564
0.1798
+35
-34
d Leonis
44
1.15
10.5
4 14.2
22 11.8
- 4 27.8
-0.3012
0.5522
0.1823
+18
-52
p* Leonis
6
+1.17
-10.7
+ 2 34.9
35 1 14.0
- 1 31.6
+0.8752
0.5504
-0.1827
+90
+15
75 Leonis
54
121
10.5
2 38.7
6 9.3
+ 3 14.3
-0.0927
0.5486
0.1834
+30
-40
76 Leonis
64
1.22
10.5
2 16.9
6 56.4
+ 3 59.8
+0.1452
0.5479
0.1835
+43
-26
79 Leonis
54
1.25
10.4
+ 2 2.4
9 23.7
+ 6 22.4
-0.0508
0.5465
0.1837
+32
-38
v Leonis
5
1.31
10.6
- 0 11.3
15 37.9
-11 35.3
+1.1521
0.5453
0.1837
+90
+36
B. AC. 4134
6
+1.55
-10.1
- 3 18.7
36 11 52.1
+ 8 0.9
+0.7939
0.5375
-0.1798
+87
+10
/ Virginia
6
1.67
9.7
5 11.8
21 7.4
- 7 0.8
+1.1695
0.5354
0.1762
+85
+38
A Virginis
5
2.03
8.4
9 34.1
38 1 21.0
- 3 38.6
+1.1588
0.5317
0.1593
+81
+37
m Virginis
54
2.06
7.4
8 7.2
5 43.9
+ 0 363
-1.1099
0.5316
0.1557
-35
-90
B. A. C. 4591
6
2.11
7.4
9 7.7
8 32.9
+ 3 20.2
-0.4456
0.5316
0.1534
+ 7
-63
W.« xiii. 825
6
+2.16
-67
- 8 59.4
12 53.3
+ 7 32.8
-1.2555
0.5319
-0.1497
-52
-90
A Virginis
44
2.36
6.5
12 50.3
39 0 36.0
- 5 5.8
+1.2677
0.5322
0.1389
+77
+53
2 Libre
6
2.35
5.6
11 11.2
2 47.7
- 2 58.0
-0.8492
0.5326
0.1369
-18
-90
p. Libre
6
2.55
46
13 40.0
15 46.2
+ 9 36.8
+0.1891
0.5337
0.1230
+39
-24
o1 Librae
6
2.78
2.7
15 7.7
30 7 32.5
+ 0 54.1
+0.0037
05363
0.1044
+26
-34
o8 Libras
6
+2.78
- 2.5
-14 43.2
8 32.9
+ 1 52.6
-0.5507
0.5366
-0.1031
- 4
-73
C1 Libras
54
2.83
2.5
16 18.7
11 6.6
+ 4 21.6
+0.9488
0.5369
0.1002
+74
+22
C3 Librae
6
2.85
2.4
16 12.7
12 18.5
+ 5 31.3
+0.7168
0.5370
0.0990
+74
+ 6
C« Libra
6
2.86
2.3
16 27.5
13 24.9
+ 6 35.6
+0.8829
0.5375
0.0969
+74
+17
tl Libra
6
2.91
0.9
15 18.2
18 56.7
+11 575
-0.9128
0.5384
0.0902
-29
-90
0 Libra
44
+2.98
- 0.5
-16 23.3
23 42.6
- 7 25.9
^4).1254*
0.5396
-0.0836
+17
-42
49 Libra
6
3.01
0.0
16 11.4
31 2 56.9
- 4 17.7
-0.6108
0.5401
0.0704
-10
-80
X Ophiucht
6
3.20
+ 1.8
18 11.5
15 53.1
+ 8 14.2
+0.6993
0.5429
0.0609
+70
+ 5
24 Scorpii
5
+3.27
+ 3.3
-17 30.9
22 56.7
- 8 55.6
-0.4408
0.5444
-0.0504
- 5
-64
AUGUST.
29 Ophiuchi
6
♦3.37
+ 4.6
-16 42.6
1 8 41.0
+ 0 30.2
+0.4608
0.5465
-0.0354
+48
- 9
B. AC. 6060
6
3.59
9.2
18 46.7
3 10 26.1
+ 1 25.5
+0.1469
0.5511
+0.0057
+24
-26
B. AC. 6294
6
'3.67
12.2
18 28.7
S 3 12.9
- 6 20.5
+0.1366
0.5533
0.0324
+26
-27
p1 Sagittarii
4
.3.72
16.2
18 3.6
4 2 50.2
- 7 29.7
+0.8950
0.5545
0.0701
+72
+18
v Sagittarii
44
3.69
16.5
16 10.0
2 54.2
-7 25.8
-1.1617
0.5545
0.0704
-51
-90
«' Sagittarii
6
+3.71
+17.7
-16 33.1
11 48.5
+ 1 11.0
-0.0543
0.5546
+0.0840
+21
-38
«* Sagittarii
5
3.71
17.8
16 23.3
12 39.4
+ 2 0.2
-0.1592
0.5546
0.0854
+15
-44
B. AC. 6746
6
3.70
18.0
15 44.0
13 9 0
+ 2 28.8
-0.8266
0.5545
0.0857
-2*3
-90 i
j SagitUrii
54
3.71
18.8
15 47.6
19 55.4
+ 9 1.9
-0.1461
0.5545
0.0958
+17
-44
ft Capricorni
3
3.70
20.3
15 8.4
5 6 47.0
- 4 27.8
+0.2749
0.5540
0.1113
+43
-19
B. A. C. 7063
6
+3.71
+20.8
-15 26.2
11 31.4
+ 0 7.3
+1.1358
0.5540
+0.1177
+75
+37
B. A. €.7087
6
+3.68
+81.1
-14 6.8
13 0.8
+ 1 33.8
-0.1130
0.5540
+0.1194
+21
-41
420
OCCULTATIONS, 1*884.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
•
AUGU8T.
The Stab's
I
At Conjunction ih K. a.
Limiting
Parallels.
Name.
M*g.
RetTm
188
• from
4.0.
44
Apparent
Declination.
i Washington
Mean Tune.
Hour Angle
H
r
X*
y*
N.
8.
c
+ 9
8 Aquarii
6
+34>5
+22J2
-13° 29.6
d h m
6 1 10.4
h m
-10 40.5
+0.7674
0.5535
+0.1344
o
+77
v Aquarii
44
3.62
22.5
11 50.0
5 45.9
- 6 13.9
-0.3795
0.5531
0.1401
+ 9
-59
19 Aquarii
54
3.59
23.0
10 14 1
13 11.5
+ 0 57.2
-1.0141
0.5525
0.1478
-29
-90
B.A.C.7562
<a
3.56
23.5
9 34.0
22 32.6
+10 0.0
-0.2939
0.5522
0.1571
+15
-53
ex Capricorni
5
3.56
23.5
9 36.4
22 34.9
+10 2.3
-0.2460
0.5522
0.1571
+18
-49
c* Capricorni
6
+3.56
+23.5
- 9 48.2
23 12.2
+10 38.4
+0.0601
0.5521
+0.1574
+35
-31
0 Aquarii
44
3.49
23.7
8 21.2
7 13 42.0
+ 0 39.9
+0.b<>74
0.5517
0.1696
+82
+17
p Aquarii
Lalande 43074
H
3.48
23.8
8 23.6
15 18.4
+ 2 13.2
+1.2137
0.5517
0.1704
+82
+43
6
3.44
23.7
7 8.2
20 34.7
+ 7 19.2
+0.7952
05517
0.1742
+83
+10
« Aquarii
6
3.43
23.4
4 49.1
23 41.5
+10 20.0
-1.0993
05517
0.1760
-33
-90
11 Piscium
64
+3.29
+22.4
- 2 25.3
9 0 9.2
+10 0.0
+0.8288
0.5529
+0.1853
+88
+12
13 Piscium
<*4
3.29
22.3
1 43.2
1 20.4
+11 8.9
+0.3161
0.5534
0.1856
+53
-17
14 Piscium
6
3.29
22.2
- 1 52.8
2 21.7
-11 51.8
+0.6722
0.5535
0.1857
+84
+ 2
21 Piscium
6
3.25
21.2
+ 0 26.2
9 33.9
- 4 53.8
-0.3985
0.5542
0.1864
+13
-60
25 Piscium
6
3.25
20.9
1 27.0
11 15.7
- 3 15.3
-1.1342
0.5546
0.1863
-34
-89
Lalande 47041
6
+3.23
+20.8
+ 1 18.5
14 23.6
- 0 136
-0.4013
0.5551
+0.1863
+13
-60
B. A. C. 221
6
3.08
17.7
4 413
10 12 50.1
- 2 31.7
+0.2439
0.5601
0.1812
+49
-21
B. A. C. 274
64
3.07
16.7
5 51.6
18 6.3
+ 2 33.7
-0.0154
0.5614
0.1788
+34
-34
e Piscium
4
3.07
16.1
7 162
19 31.2
+ 3 55.8
-1.2120
0.5619
0.1779
-43
-83
73 Piscium
64
3.03
16.7
5 2.3
20 24.2
+ 4 47.0
+1.2391
0.5624
0.1774
+90
+47
f Piscium
44
+3.03
+15.6
+ 6 58.0
11 0 23.6
+ 8 38.2
-0.0394
0.5635
+0.1751
+33
-35
88 Piscium
6
3.01
15.7
6 23.3
0 50.8
+ 9 4.5
+0.6334
0.5636
. 0.1750
+80
+ 2
B. A.C.4I0
6
2.98
15.1
6 48.4
4 33.1
-11 20.8
+0.8482
0.5649
0.1724
+90
+15
o Piscium
44
2.92
13 1
8 34.6
14 33.6
- 1 41.1
+0.7196
0.5684
0.1645
+90
+ 8
54 Ceti
6
2.91
12.0
10 28.3
16 58.4
+ 0 38.6
-0.8249
0.5694
0.1626
-12
-80
31 Arietis
54
+2.74
+ 8.5
+11 56.8
1* 12 51.8
- 4 10.2
+0.7008
0.5779
+5.1410
+90
+10
a Arietis
54
2.70
7.0
14 36.3
19 11.4
+ 1 55.7
-1.1371
05803
0.1328
-37
-76
B. AC. 1119
6
2.52
2.6
16 9.6
13 15 14.5
- 2 45.8
-0.3493
0.5884
0.1023
+15
-46
B. AC. 1272
6
2.40
+ 0.3
17 1.7
14 2 56.5
+ 8 29.6
-0.1499
0.5929
0.0817
+26
-31
<J! Tauri
4
2.32
- 0.9
17 162
8 59.7
- 9 41.1
+0.0639
0.5948
0.0704
+38
-18
63 Tauri
6
+2.29
- 0.7
+16 30.4
9 12.3
- 9 28.9
+0.8500
0.5951
+0.0702
+90
+27
<5* Tauri
54
2.31
0.9
17 10.5
9 27.9
- 9 14.0
+0.1953
0.5951
0.0692
+47
-11
<P Tauri
5
2.31
1.2
17 39.7
10 1-3
- 8 41.8
-0.2592
0.5953
0.0685
+20
-37
B. AC. 1468
6
2.21
2.7
18 31 5
18 21.5
- 0 40.9
-0.6273
0.5975
0.0526
- 1
-£2
t Tauri
54
2.30
3.1
18 38.4
20 25.2
+ 1 18.0
-0.6406
0.5981
0.0476
- 2
-63
B. A. C. 1526
54
+2.13
- 3.0
+16 58.1
22 51.1
+ 3 38.2
+1.1582
0.5988
+0.0430
+90
+54
m Tauri
54
2.11
4.2
18 29.2
15 2 49.2
+ 7 27.1
-0.2184
0.5995
0.0349
+22
-31
111 Tauri
54
1.99
4.7
17 16.5
9 36.9
-10 1.2
+1.1926
0.6006
0.0208
+90
+60
115 Tauri
6
1.99
5.0
17 51.6
10 42.4
- 8 58.2
+0.6248
0.6008
0.0186
+82
+18
119 Tauri
5
1.98
5.5
18 30.3
12 42.0
- 7 3.3
+0.0084
0.6011
0.0144
+35
-16
|l20 Tauri
6
+1.97
- 5.6
+18 27.3
13 13.5
- 6 33.1
+0.0655
0.6011
+0.0138
♦39
-13
127 Tnuri
64
1.92
6.2
18 55.3
16 56.3
- 2 59.0
-0.3695
0.6013
0.0057
+14
-38
130 Tauri
6
1.88
6.1
17 41.0
18 45.6
- 1 14.0
+0.8851
0.6016
+0.0018
+90
+35
I £* Orionis
5
188
7.1
19 43.5
21 42.0
+ 1 35.5
-1.1754
0.6017
-0.0044
-44
-71
jp Orionis
6
1.84
7.5
19 41.3
16 1 4.8
+ 4 50.3
-1.1639
0.6016
0.0113
-43
-74
1 71 Orionis
6
+1.77
- 8.0
+19 11.5
5 37.0
+ 9 11.8
-0.7372
0.6016
-0.0212
- 8
-71
• 26 Geminorum
54
1.61
8.8
17 45.3
16 36.5
- 4 14.5
+0.3545
0.6007
0.0439
+57
0
i Venuw
17 3.7
17 4 37.0
+ 7 18.0
+0.3953
0.5797
0.0667
+60
0
51 Geminorum
54
1.47
9.7
16 21.1
5 3.2
+ 7 43.3
+1.0715
0.5980
0.0683
+90
+43
X Geminorum
4
1.45
9.9
16 44.8
6 57.3
+ 9 32.9
+0.5401
0.5973
0.0720
+72
+ 8
W. vii. 685
6
+1.41
-10.4
+17 19.8
12 29.4
- 9 7.7
-0.4764
0.5958
-0.0827
+ 8
-53
68 Geminorum
54
1.38
10.1
16 4.4
13 15.1
- 8 23.8
+0.7309
0.5958
0.0835
+90
+18
1 Cancri
6
1.89
10.6
16 5.8
22 48.9
+ 0 48.2
-0.1771
0.5921
0.1009
+25
-35
5 Cancri
64
1.29
10.8
16 46.3
NEW
18 0 39.6
MOON
+ 2 34.7
-1.0498
0.5915
0.1040
-30
-74
79 Leon is
54
+1.14
- 9.3
+ 2 2.4
91 18 38.0
- 6 35.4
+0.0839
0.5507
-0.1832
+39
-30
OCCULTATIONS, 1884.
421
ELEMENTS FOR THE PREDICTION OF OCCULT ATIONS.
AUGUST.
Thb Stab's
At Conjunction in R. A.
Limiting
Parallels.
Name.
Mag.
Red'ns from
1884.0.
Aa &6
Apparent
Declination.
Washington
Mean Time.
Hour Angle
H
T
X?
y'
N.
S.
+5i
- 2
+21
-25
-90
v LeonU
Mercury
B.A.C.4134
Mars
m Virginia
5
6
+L18
1.34
1.72
-9"2
8.4
6.7
O *
- 0 11.3
0 53.7
3 18.6
6 45.2
8 7.2
d h m
22 0 48.4
8 53.3
20 47.6
S3 22 29.1
24 14 3.7
h ra
- 0 36.8
+ 7 12.6
- 5 15.6
- 4 22.0
+10 44.0
+1.2960
+0.5648
+0.9674
+0.1761
-0.8782
0.5483
0.5099
0.5425
0.5118
0.5363
-0.1834
0.1591
0.1800
0.1562
0.1565
o
+90
+72
+87
+43
-18
B. A. C. 4591
W*. xiii.825
96 Virginis
2 Libra
fi Libra
6
6
64
6
6
4-1.76
1.80
1.87
1.96
2.15
- 5.7
5.1
4.4
39
3.2
- 9 7.7
6 59.4
9 47.2
11 11.2
13 40.0
16 50.4
21 7.4
*t 3 42.0
10 52.0
23 43.0
-10 34.4
- 6 25.3
- 0 2.8
+ 6 54.0
- 4 38.7
-0.2171
-1.0205
-1.1246
-0.6084
+0.4281
0.5363
0.5360
0.5359
0.5360
0.5366
-0.1542
0.1507
0.1443
0.1373
0.1237
+20
-29
-38
- 4
+55
-48
-90
-90
-78
-11
o1 Libre
•* Libra
£i Libra
£> Libra
f« Libra
6
6
54
6
6
+135
2.35
2.40
2.41
2.43
- 1.4
1.2
1.3
I.I
- 1.0
-15 7.7
14 43.2
16 18.7
16 12.7
16 27.5
36 15 23.0
16 23.1
18 56.0
20 7.5
21 13.8
+10 32.4
+11 30.6
-10 1.2
- 8 52.0
- 7 47.7
+0.2424
-0.3123
+1.1817
+0.9539
+1.1158
0.5382
0.5383
0.5387
0.5387
0.5388
-0.1049
0.1036
0.1007
0.0992
0.0978
+40
+ 9
+74
+75
+75
-21
-54
+43
♦22
+36
-q Libra
0 Libra
49 Libra
X Ophiuchi
24 Scorpii
6
44
6
6
5
+2.48
2.54
2.58
2.77
2.84
+ 0.2
0.5
1.0
8.4
3.7
-15 18.2
16 23.3
16 11.4
18 11.5
17 30.9
27 2 44.4
7 29.7
10 43.6
23 40.0
9S 6 44.4
- 2 27.4
+ 2 9.0
+ 5 16.8
- 6 11.2
+ 0 39.9
-0.6753
+0.1086
-0.3757
+0.9270
-0.2194
0.5394
0.5399
0.5407
0.5425
0.5434
-0.0903
0.0838
0.0796
0.0612
0.0507
-13
+30
+ 3
+73
+ 8
-88
-28
-59
+21
-48
i 29 Ophiuchi
B. A. C. 6060
B. AC. 6294
p1 Sagittarii
v Sagittarii
6
6
6
4
44
+2.97
3.24
3.37
3.52
3.49
+ 5.0
9.4
12.2
16.0
16.5
-18 42.6
18 46.6
18 28.7
18 3.6
16 10.0
16 30.7
*» 18 24.2
30 11 17.6
31 II 3.3
11 7.2
+10 7.6
+11 11.4
+ 3 31.9
+ 2 31.3
+ 2 35.1
+0.6782
+0.3361
+0.3074
+1.0335
-1.0261
0.5451
0.5486
0.5503
0.5527
0.5529
-0.0359
+0.0048
0.0309
0.0669
0.0669
+67
+36
+37
+72
-38
+ 4
-16
-17
+29
-90
el Sagittarii
e* Sagittarii
i B.A.C.6746
6
5
6
+3.56
3.56
+3.55
+17.7
17.8
+18.1
-16 33.1
16 23.3
-15 44.0
20 3.7
20 54.7
21 24.3
+11 14.0
-11 56.6
-11 28.0
+0.0724
-0.0362
-0.7033
0.5529
0.5529
0.5529
+0.0821
0.0835
+0.0846
+28
+22
-15
-30
-37
-90
j SEPTEMBER.
g Sagittarii
0 Capricorni
B. A.C.7063
B. A. C. 7087
54
3
6
6
+3.59
3.62
3.66
3.64
+18.8
20.5
20.9
21.3
-15 47.6
15 8.4
15 26.2
14 6.8
1 4 11.9
15 4.0
19 48.2
21 17.3
- 4 53.8
+ 5 36.9
+10 11.9
+11 38.0
-0.0324
+0.3678
+1.2190
-0.0268
0.5533
05537
0.5537
0.5540
+0.0939
0.1092
0.1158
0.1175
+23
+48
+75
+26
-37
-14
+47
-36
8 Aquarii
v Aquarii
, 19 Aquarii
| B. AC. 7562
i e1 Capricorni
6
44
54
64
5
+3.66
3.66
3.66
3.67
3.67
+22.5
23.1
23.9
24.5
24.5
-13 29.6
11 50.0
10 14.1
9 34.0
9 36.4
9 9 24 6
13 58.8
21 21.2
3 6 37.3
6 39.5
- 0 38.4
+ 3 468
+10 54.8
- 4 7.5
- 4 6.4
+0.8289
-0.3213
-0.9657
-0.2676
-0.2201
0.5543
0.5543
0.5546
0.5550
0.5550
+0.1327
0.1385
0.1465
0.1562
0.1562
+77
+12
-26
+17
+19
+13
-54
-90
-51
-48
e* Capricorni
0 Aquarii
p Aquarii
Lalande 43974
k Aquarii
6
44
54
6
6
+3.67
3.66
3.66
3.66
3.66
+24.5
25.1
25.1
25.3
25.4
- 9 48.2
8 21.2
8 23.6
7 8.2
4 49.1
7 16.5
21 35 6
23 10.6
4 4 22.3
7 26.0
- 3 29.6
+10 21.3
+11 53.1
- 7 5.4
- 4 7.7
+0.0827
+0.8917
+1.2001
+0.7773
-1.1105
0.5550
0.5559
0.5560
0.5565
0.5568
+0.1565
0.1600
0.1700
0.1736
0.1758
+36
+82
+82
+83
-34
-30
+16
+42
+ 9
-90
11 Piscium
13 Piscium
14 Piscium
21 Piscium
25 Piscium
64
64
6
6
6
+3.64
3.65
3.65
3.65
3.66
+24.9
24.7
24.6
24.0
23.8
- 2 25.3
1 43.2
- 1 52.8
+ 0 26.2
1 27.1
0 7 261
8 35.8
9 35.9
16 39.0
18 18.5
- 4 55.4
- 3 48.0
- 2 49.9
+ 3 59.0
+ 5 35.1
+0.7595
+0.2496
+0.6007
-0.4702
-1.2042
0.5598
0.5599
0.5603
0.5614
0.5616
+0.1858
0.1861
0.1864
0.1871
0.1872
+78
+49
+76
+ 9
-42
+ 8
-21
- 2
-65
-89
Lalande 47041
B. A. C. 221
B. A. C. 274
73 Piscium
f Piscium
6
6
64
64
44
+3.64
3.61
3.61
3.57
3.58
+23.6
21.1
20.2
20.1
19.2
+ 1 18.6
4 41.4
5 51.6
5 2.3
6 58.0
21 22.4
6 19 18.6
7 0 27.7
2 42.7
6 37.0
+ 8 32.9
+ 5 44.2
+10 42.6
-1 1 7.0
- 7 20.9
-0.4832
+0.1259
-0.1343
+1.1056
-0.1663
0.5623
0.5672
0.5692
0.5701
0.5710
+0.1873
0.1824
0.1798
0.1786
0.1761
♦ 8
+42
+27
+90
+25
-66
-27
-41
+34
-43
88 Piucium
B.A.C.4I0
6
6
+3.57
+3.56
+19.2
+18.5
+ 6 23.3
+ 6 48.5
7 3.7
10 41.2
- 6 55.1
- 3 25.2
+0.5006
+0.7069
0.5710
0.5722
+0.1761
+0.1734
♦67
+<K)
- 5
+ 7
422
OCCULTATIONS, 1884.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
SEPTEMBER.
The Star's
At Conjunction in R. A.
Limiting
Parallels.
Name.
Hag.
Red'ns from
1884.0.
A* A*
Apparent
Declination.
Washington
Mean Time.
Hour Angle
H
T
4
*
N.
8.
o Piscium
4i
+3*53
+16.7
+ 8 34.7
d h m
T 20 29.8
h m
+ 6 2.6
+0.5703
0.5751
+0.1655
+74
o
0
54 Ceti
6
3.55
15.9
10 28.4
22 51.9
+ 8 19.6
-0.9625
05759
0.1634
-22
-80
31 Arietis
54
3.44
12.1
11 56.9
8 18 26.1
+ 3 11.4
+0.5380
0.5825
0.1412
+71
+ 1
38 Arietis
5
3.41
11.2
11 57.6
21 57.9
+ 6 35.5
+1.0219
0.5834
0.1368
+90
+32
B. A.C. 1119
6
3.32
5.5
16 9.7
• 20 34.6
+ 4 21.7
-0.5154
05902
0.1021
+ 6
-58
B.A.C. 1272
6
+3.21
+ 2.9
+17 1.7
10 8 15.4
- 8 24.1
-0.3167
0.5930
+0.0819
+17
-42
<J« Tauri
4
3.13
1.5
17 16.2
14 19.2
- 2 34.2
-0.0994
0.5943
0.0708
+29
-27
63 Tauri
6
3.10
1.7
16 30.4
14 31.6
- 2 22.3
+0.6857
05943
0.0698
+90
+16
d* Tauri
54
3.12
1.5
17 10.5
14 47.5
- 2 7.0
+0.0286
0.5943
0.0694
+36
-20
6* Tauri
5
3.12
1.1
17 39.7
15 21.0
- 1 34.7
-0.4246
0.5946
0.0687
+11
-48
75 Tauri
64
+3.07
+ 14
+16 6.0
16 34.6
- 0 24.0
+1.2365
0.5948
+0.0659
+90
+62
a Tauri
1
3.04
+ 0.8
16 16.5
19 35.9
+ 2 30.4
+1.2520
05953
0.0600
+90
+65
B.A.C. 1468
6
3.04
- 0.8
18 31.5
23 43.4
+ 6 28.3
-0.7921
05958
0.0521
-12
-72
i Tauri
54
3.01
1.3
18 38.5
11 1 48.0
+ 8 28.0
-0.8058
05960
0.0480
-13
-72
B. A. C. 1526
54
2.93
1.3
16 58.2
4 15.0
+10 49.4
+0.9963
0.5961
0.0435
+90
+39
m Tauri
54
+2.92
- 2.5
+18 29.3
8 15.3
- 9 19.6
-0.3828
0.5965
+0.0354
+13
-42
111 Tauri
54
2.79
3.3
17 16.5
15 7.4
- 2 43.4
+1.0394
05967
0.0216
+90
+44
115 Tauri
6
2.79
3.7
17 51.6
16 13.8
- 1 39.5
+0.4692
0.5<>67
0.0194
+65
+ 9
1 17 Tnuri
64
2.77
3.5
17 8.4
16 35.3
- 1 I8£
+1.2050
0.5967
0.0181
+90
+61
119 Tauri
5
2.78
4.3
18 30.3
18 14.9
+ 0 16.8
-0.1495
05967
0.0152
+26
-25.
120 Tauri
6
+2.76
- 45
+18 27.3
18 46.7
+ 0 47.4
-0.0912
05967
+0.0138
+2!)
-22
127 Tauri
64
2.71
5.1
18 55.3
22 32.5
+ 4 24.5
-0.5253
05966
0.0059
+ 5
-50;
130 Tauri
6
2.67
5.0
17 41.0
151 0 23.5
+ 6 11.3
+0.7365
0£966
+0.0020
+90
+261
71 Orionis
6
2.53
7.6
19 11.5
11 25.8
- 7 12.0
-0.8898
05956
-0.0203
-18
-71
23 Geminorum
64
2.37
8.1
16 53.4
20 3.9
+ 1 6.2
+1.2012
05943
0.0371
+90
+59
26 Geminorum
54
+2.35
- 8.8
+17 45.3
22 38.4
+ 3 34.9
+0.2205
0.5938
-0.0425
+48
- 7
51 Geminorum
54
2.16
9.9
16 21.1
13 11 21.6
- 8 10.9
+0.9565
0.5907
0.0661
+90
+34
A Geminorum
4
2.13
10.2
16 44.8
13 18.3
- 6 18.7
+0.4197
0.5898
0.06JW
+62
+ 1
W. vii. 685
6
2.07
11.1
17 19.8
18 58.4
- 0 51.3
-0.6023
0.5882
0 0801
V
-63
68 Geminorum
54
2.04
10.6
16 4.4
19 45.0
- 0 6.4
+0.6177
0.5880
0.0817
+80
+11
1 Cancri
6
+1.91
-11.5
+16 5.8
14 5 32.8
+ 9 19.7
-Q 2881
0.5844
-0.0986
+18
-42
5 Cancri
64
1.90
11.8
16 46.3
7 26.3
+1 1 9.0
-1.1684
0.5834
0.1015
•42
-741
29 Cancri
6
1.74
12.0
14 35.1
19 2.3
- 1 40.4
-0.2086
0.5791
0.1189
+23
-39
A1 Cancri
6
1.66
11.8
13 5.6
15 1 21.6
+ 4 25.3
+0.5432
0.5768
0.1275
+72
+ 2i
A8 Cancri
6
1.63
11.7
12 31.9
2 59.5
+ 5 59.6
+0.9101
05759
0.1299
+90
+24
60 Cancri
6
+1.59
-11.8
+12 3.9
6 55.2
+ 9 47.0
+0.8718
05744
-0.1351
+90
+21
a Cancri
4
1.58
11.9
12 18.2
8 2.1
+10 515
+0.4738
05737
0.1363
+66
- 3
k Cancri
5
1.54
11.7
11 7.9
12 7.7
- 9 11.6
+1.1135
0.5723
0.1413
+90
+39;
£ Leonis
54
1.45
11.9
11 48.6
22 53.2
+ 1 11.5
-1.1706
05674
0.1530
-40
-79
h Leonis
54
1.47
11.5
10 13.4
22 54.5
+ 1 12.7
+0.4672
0.5674
0.1523
+65
- 5
o Leonis
34
+1.49
-11.5
+10 24.9
16 3 3.2
+ 5 12.8
-0.3730
0.5658
-0.1568
+14
-54
B. A. C. 3398
6
1.37
11.5
9 28.6
9 59.4
+11 54.9
-0.5105
05632
0.1627
+ 6
-65
B.A.C. 3407
6
1.36
11.4
8 51.8
10 45.8
-11 20.3
-0.0017
0.5630
0.1634
+34
-32
it Leonis
5
1.36
11.4
8 35.8
11 43.3
-10 24.7
+0.1195
0.5626
0.1642
+41
-25
43 Leonis
64
1.31
11.0
+ 7 7.6
NEW
22 14.0
MOON.
- 0 15.2
-0.1147
05585
0.1712
+28
-39
At Virginia
B.A.C. 4591
54
+1.47
- 4.6
- 8 7.2
«• 22 28.7
- 3 3.2
-0.7872
053%
-0.1564
-12
-90
6
1.50
4.5
9 7.2
91 1 14.5
- 0 22.5
-0.1320
0.5395
0.1544
+24
-42 '
I
W*.xiii.825
S
+1.52
- 4.0
- 8 59.4
5 29.6
+ 3 44.7
-0.9234
0.5395
-0.1505
-22
-90
96 Virginia
64
1.56
3.4
9 47.2
12 1.7
+10 4.7
-1.0235
0.5394
0.1446
-30
-90l
2 Libra
6
1.64
2.8
11 11.1
19 8.6
- 7 1.5
-0.5057
0.5394
0.1377
+ 2
-68
ft, Libra
6
1.78
1.8
13 39.9
» 7 54.0
+ 5 20.1
+0.5369
0.5399
0.1238
+63
- 5
o1 Libra
6
1.94
0.2
15 7.7
23 28.0
- 3 34.9
+0.3613 0.5408
0.1050
+48
-14
os Libra
6
+1.93
- 0.3
-14 43.2
»3 0 27.7
- 2 37.1
-0.1908 0.5409
-0.1037
+16
-46
f " Libra
6 ! V2.00 + 0.2
-16 12.7
4 11. 1
+ 0 59.3
+1.074210.5412
-0.0993
+74
+32
OCCULTATIONS, 1884.
423
ELEMENTS FOR THE PREDICTION OP OCCULTATIONS.
■
SEPTEMBER.
Thb Star's
At Conjunction in R. a.
Limiting
Parallelfl.
Name.
Mag.
Red'na from
1684.0.
Aa AS
Apparent
DocfinaHon.
Washington
Mean Ximo.
Hour Angle
H
T
of
*
N.
6.
f Libra
6
+2JI2
+ 0.2
-lb9 27.5
d h m
33 5 17.1
h m
+ 2 3.3
+1.2379
0.5413
-0.0981
+74°
+5f
y Libra*
41
1.98
1.0
14 24.1
6 35.5
+ 3 19.2
-1.1574
0.5413
0.0959
-48
-90
tf Libra
6
2.03
1.3
15 18.2
10 46.1
+ 7 22.0
-0.5517
0.5417
0.0905
-6
-T3
0 Libre
4*
2.10
1.6
16 23.3
15 30.3
+11 57.3
+0.2300
0.5417
0.0839
♦37
-22
49 Libra
6
2.13
2.0
16 11.4
18 43.6
- 8 55.5
-0.2522
0.5419
0.0795
+10
-60
X Ophiuchi
6
♦2.29
+ 3.3
-18 11.4
*4 7 38.5
+ 3 35.2
+1.0474
0.5432
-0.0610
+72
+31
0 Ophiuchi
5
2.27
4.1
16 21.3
9 41.1
+ 5 33.9
-1.1031
0.5433
0.0581
-46
-90
24 Soorpti
5
2.35
4.6
17 30.9
14 43.1
+10 264
-0.0941
0.5438
0.0508
+15
-40
29 Ophiuchi
6
2.46
5.5
18 42.6
20 0 30.4
- 4 5.0
+0.8028
0.5446
-0.0360
+72
+12
B AC. 6060
6
2.74
9.5
16 46.6
SMI 2 32.5
- 2 52.5
+0.4550
0.5461
+0.0044
+44
-9
B.A.C.6294
6
+2.89
+12.1
-18 28.7
19 35.4
-10 22.4
+0.4205
0.5467
+0.0310
+44
-11
p> Sagittarii
4
3.08
15.4
18 3.6
»* 19 38.7
-II 5.5
+1.1413
0.5476"
0.0676
+72
+40
v Sagittarii
41
3.06
15.9
16 10.0
19 42.7
-II 1.6
-0.9262
0.5476
0.0676
-31
-90
«» Sagittarii
6
3.14
17.0
16 33.1
*8 4 465
- 2 15.4
+0.1689
0.5479
0.0810
+33
-25
e* Sagittarii
5
3.15
17.2
16 23.3
5 38.3
- 1 25.2
+0.0617
0.5479
0.0823
+27
-31
B A. C. 6746
6
+3.14
+17.4
-15 44.0
6 -8.3
- 0 56.2
-0.6ICI
0.5479
+0.0626
-10
-79
$■ Sagittarii
51
3.20
18.3
15 47.6
13 1.4
+ 5 43.6
+0.0597
0.5484
0.0925
+28
-31
ii Capricorni
3
3/27
19.8
15 8.4
30 0 2.4
- 7 36.7
+0.4576
0.5489
0.1077
+55
- 9
• B. A.C.7067
6
3.31
20.6
14 6.9
• 6%0.5
- 1 30.8
+0.0557
0.5492
0.1159
+30
-31
8 Aquarii
6
3.39
22.0
13 29.6
18 36.3
+10 21.2
+0.9028
0.5501
0.1315
+77
+18
v Aquarii
41
+3.40
+22.6
-II 50.0
23 13.5
- 9 10.5
-0.2526
0.5504
+0.1365
+16
-50
19 Aqunrii
51
3.43
23.6
10 14.1
3* 6 40.0
- 1 58.6
-0.9057
0.5521
0.1451
-22
-90
B. AC. 7563
61
3.48
24.2
9 34.0
16 0.4
+ 7 3.6
-0.2097
0.5521
0.1544
+20
-47
ex Capricorni
5
3.48
24.2
9 36.4
16 2.6
+ 7 5.7
-0.1621
0.5521
0.1544
+22
-44
e* Capricorni
6
+3.48
+24.2
- 9 48.2
16 39.7
+ 7 41.6
+0.1392
0.5522
+0.1551
+39
-27
OCTOBER,
B Aquarii
41
+3.56
+24.9
- 8 21.2
1 7 2.6
- 2 23.7
+0.9347
0.5545
+0.1677
+82
+19
LaJandc 43974
6
3.59
25.2
7 8.2
13 49.5
+ 4 9.8
+0.8126
0.5556
0.1728
+63
+11
*c Aquarii
6
+3.58
+25.7
- 4 49.1
16 53.3
+ 7 7.6
-1.0715
0.5562
+0.1747
-31
-90
11 Piacium
61
3.70
25.5
2 25.3
9 16 46.0
+ 6 12 4
+0.7727
0.5620
0.1858
+88
+ 9
13 Piacium
61
3.71
25.4
1 43.2
17 55.0
+ 7 19.1
+0.2654
0.5623
0.1861
+50
-20
14 Piacium
6
3.72
25.4
- 1 52.8
16 54.5
+ 8 16.6
+0.6127
0.5626
0.1864
+77
- I
21 Piacium
6
3.76
25.2
+ 0 26.2
S 1 52.9
- 8 59.1
-0.4586
0.5646
0.1874
+ 9
-64
25 Piacium
6
+3.77
+25.3
+ 1 27.1
3 30.9
- 7 24.5
-1.1877
0.5653
+0.1877
-40
-89
Lalande 47041
6
3.79
24.9
1 18.6
6 32.4
- 4 29.2
-0.4763
0.5665
0.1878
+ 8
-65
B. A.C.22I
6
3.86
22.9
4 41.4
4 4 56
- 7 41.0
+0.1129
0.5740
0.1837
+42
-27
B. A.C.274
61
3.90
22.1
5 51.7
9 8.1
- 2 49.2
-0.1496
0.5755
0.1815
+26
-42
73 Piacium
61
3.86
21.8
5 2.4
11 20.1
- 0 41.8
+1.0752
0.5767
0.1803
+90
+31
f Piacium
41
+3.<>2
+21.1
+ 7 0.1
15 8.9
+ 2 58.8
-0.2182
0.5780
+0.1780
+22
-46
88 Piacium
6
3.92
21.1
6 23.4
15 34.8
+ 3 23.8
+0.4748
0.5785
0.1776
+65
- 7
B AC. 410
6
3.92
20.5
6 48.5
19 7.2
+ 6 48.5
+0.6787
0.5798
0.1753
+86
+ 5
96 Piacium
61
3.91
20.1
6 42.0
21 44.6
+ 9 20.2
+1.2439
0.5808
0.1733
+90
+49
o Piacium
41
3.95
18.8
8 34.7
A 4 40.6
- 7 58.8
+0.5382
0.5837
0.1675
+71
- 2
54 Ceti
6
+3.98
+16.2
+10 28.4
6 59.0
- 5 45.5
-0.9772
0.5845
+0.1654
-23
-80
31 Arietia
51
3.98
14.2
11 56.9
6 2 0.4
-II 26.6
+0.4944
0.5919
0.1433
+67
- 2
\\S Arictis
5
3.97
13.3
11 57.6
5 25.8
- 8 9.0
+0.9654
0.5932
0.1384
+90
+28
B.A.C.II19
6
3.96
7.6
16 9.7
7 3 23.9
-11 1.5
-0.5539
0.5998
0.1 033
+ 3
-61
B. A. C. 1272
6
3.90
4.5
17 1.8
14 45.8
- 0 6.2
-0.3612
0.6019
0.0825
+14
-45
V Tauri
4
+3.86
+ 2,9
+17 16.2
20 40.4
+ 5 34.4
-0.1466
0.6026
+0.0710
+26
-30
63 Tciuri
6
3.83
3.1
16 30.5
20 52.6
+ 5 46.2
+0.6295
0.6026
0.0708
+82
+ 13
<1* Tuuri
51
3.85
2.8
17 10.5
21 8.1
+ 6 10
-0.0200
0 6026
0.0704
+33
-23
iP Tauri
5
3.86
2.5
17 39.7
21 40.6
+ 6 32.3
-0.4680
0.6026
0.0690
+ 8
-51
75 Tuuri
61
3.82
2.6
16 6.0
22 52.6
+ 7 41.4
+1.1763
0.6027
0.0668
+90
+54
a Tuuri
1
+3.78
+ 1.9
+16 16.5
8 1 49.6
+10 31.5
+1.1899
0.6029
+0.0615
+90
+56
B. AC. 1468
6
+3.80
+ 0.3
+18 31.5
5 51.4
- 9 36.2
-0.8324
0.6032
+0.0527
-14
-72
424
OCCULTATIONS, 1884.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
OCTOBER.
The Stab's
At Conjunction in R. A.
Limiting
Parallel*.
2Jam©.
Mag.
Red'os from
1884.0.
Aa 1 44
Apparent
Declination.
Washington
Mean Tune.
HonrAngle
H
Y
7?
t
N.
c
-72
t Tauri
H
43*78 ' - 0.3
+18° 38.5
d h in
8 7 53.2
h m
- 7 39.3
-0.8461
0.6032
+0.0487
-15
B. A. C. 1526
54
3.70
0.4
16 58.2
10 17.2
- 5 20.9
+0.9365
0.6033
0.0441
+!M)
+35
m Tauri
54
3.70
1.8
18 29.3
14 12.4
- 1 35.0
-0.4293
0.6032
0.0358
+10
-45
111 Tauri
54
3.58
3.0
17 16.6
20 56.8
+ 4 53.5
+0.9788
0.6026
0.0216
+90
+40
115 Tauri
6
3.58
3.3
17 51.6
22 1.9
+ 5 56.0
+0.4167
0.6025
0.0199
+62
+ 6
117 Tauri
64
+3.55
- 3.2
+17 8.4
22 23.2
+ 6 16.4
+11466
0.6025
+0.0191
+90
+55
119 Tauri
5
3.57
4.0
18 30.3
9 0 1.0
+ 7 50.3
-0.1976
0.6023
0.0152
+23
-28
120 Tauri
6
3.57
4.1
18 27.3
0 32.3
+ 8 20.4
-0.1407
0.6022
0.0137
+26
-23
127 Tauri
64
3.52
5.0
18 55.3
4 14.7
+11 54.1
-0.5699
0.6016
0.0070
+ 2
-54
130 Tauri
6
3.47
5.2
17 41.0
6 4.0
-10 20.9
+0.6810
0.6012
+0.0027
+90
+22
71 Ononis
6
+3.35
- 7.8
+19 11.5
16 58.0
+ 0 7.5
-0.9337
0.5988
-0.0199
-22
-71
26 Geminorum
54
3.161 9.5
17 45.2
10 4 5.0
+10 48.8
+0.1723
0.5956
0.0420
+45
-10
51 Geminorum
54
2.94 1 III
16 2L.1
16 45.2
- 1 0.0
+0.9074
0.5903
0.0663
+90
+31
A. Geminorum
4
2.02 11.5
16 44.8
18 41.8
+ 0 52.2
+0.3735
0.5895
0.0699
+58
- 1
W. vii. 685
6
2.84 j 12.4
17 19.8
11 0 22.2
+ 6 19.8
-0.6479
0.5874
0.0796
- 2
-67
68 Geminorum
54
+2.81 1-18.1
+16 4.4
1 9.0
+ 7 4.7
+0.5733
0.5870
-0.0810
+75
+ 8
1 Cancri
6
2.66
13.4
16 5.8
10 59 0
- 7 27.0
-0.3312
0.5820
0.0976
+16
-44
5 Cancri
e>4
2.65
13.8
16 46.3
12 53.1
- 5 36.9
-1.2114
0.5813
0.1007
-47
-74
29 Cancri
6
2.46
14.2
14 35.1
13 0 34.6
+ 5 39.2
-0.2488
05761
0.1182
+21.
-41
A1 Cancri
6
2.34
14.2
13 5.6
6 57.8
+11 48.8
+0.5075
0.5724
0.1266
+68
0
A8 Cancri
6
+2.32
-14.1
+12 31.9
8 36.9
-10 35.5
+0.8778
0.5714
-0.1289
+90
+22
60 Cancri
6
2.25
14.3
12 3.9
12 35.4
- 6 45.4
+0.8379
0.561)6
0.1338
+.%
+19
a Cancri
4
2.25
14.4
12 18.2
13 43.3
- 5 39.9
+0.4397
0.5690
0.1350
+63
- 5
k Cancri
5
2.18
14.1
11 7.9
17 52.2
- 1 39.6
+1.0847
0.5670
0.1397
+90
+36
£ Leon is
54
2.05
14.7
11 48.6
13 4 47.5
+ 8 53.2
-1.2109
0.562*2
0.1511
-44
-79
A Leonis
54
+2.05
-14.2
+10 13.4
4 48.8
+ 8 54.4
+0.4372
0.5622
-0.1511
+63
- 7
o Leonis
34
2.00
14.4
10 24.9
9 1.6
-11 1.3
-0.4082
0.5602
0.1550
+12
-56
B. A. C. 3398
6
1.92
14.1
9 28.6
16 4.9
- 4 12.1
-0.54;%
0.5573
0.1608
+ 4
-67
B.A.C.3407
6
1.91
14.0
8 51.8
16 52.1
- 3 26.5
-0.0279
0.5569
0.1614
+33
-34
re Leonis
5
1.90
13.8
8 35.8
17 50.6
- 2 30.5
+0.0924
05565
0.1621
+40
-27
43 Leonis
64
+1.79
-13.4
+ 7 7.6
14 4 32.5
+ 7 50.H
-0.1401
0.5524
-0.1692
+27
-41
35 Sextantis
64
1.71
12.8
5 21.2
14 13.3
- 6 47.2
+0.0650
05494
0.1740
+38
-30
d Leonis
44
1.66
12.3
4 14.2
22 29.9
+ 1 13.5
-0.2097
05465
0.1769
+23
-46
p* Leonis
6
1.64
11.9
2 34.9
Iff 1 35.8
+ 4 13.6
+0.9915
05461
0.1778
+90
+24
75 Leonis
54
1.61
11.7
2 38.7
6 36.7
+ 9 4.9
+0.0301
05445
0.1788
+36
-33
76 Leonis
64
+1.60
-11.5
+ 2 16.9
7 24.7
+ 9 51.5
+0.2724
05445
-0.1792
+51
-19
79 Leonis
54
1.59
11.4
+ 2 2.4
9 54.3
-11 43.6
+0.0832
0.5441
0.1795
+39
-30
B.A.C.4I34
6
1.49
- 8.8
- 3 18.6
NEW
16 12 34.1
MOON.
- 9 53.7
+1.0132
05399
0.1776
+87
+25
£* Libra
6
+1.76
+ 1.0
-16 12.7
M ] 1 47.6
+10 33.6
+1.0644
0.5430
-0.0996
+74
+31
C4 Libra
6
1.78
1.2
16 27.5
12 53.4
+11 27.4
+1.2303
0.5430
0.0982
+74
+50
y Libra
44
1.72
1.7
14 24.1
14 11.8
-11 16.7
-1.1698
0.5430
0.0967
-49
-90
y Libra)
6
1.76
2.1
15 18.2
18 21.9
- 7 14.4
-0.5652
05433
0.0913
- 6
-74
0 Libra
44
+1.81
+ 2.6
-16 23.3
23 5.2
- 2 40.1
+0.2211
0.5438
-0.0847
+36
-22
49 Libra
6
183
3.0
16 11.4
31 2 18.1
+ 0 26.8
-0.2636
0.5440
0.0806
+ 9
-51
X Ophiuchi
6
1.95
4.2
18 11.4
15 11.3
-11 4.4
+1.0361
0.5448
0.0619
+72
+29
0 Ophiuchi
5
1.91
5.0
16 21.3
17 13.7
- 9 5.8
-1.1194
05450
0.0589
-48
-90
24 Scorpii
5
1.97
5.2
17 30.9
22 15.2
- 4 13.9
-0.1109
0.5450
0.0515
+14
-41
29 Ophiuchi
6
+2.07
+ 6.2
-18 42.6
33 8 2.1
+ 5 14.5
+0.7882
0.5458
-0.0366
+72
+11
B.A.C.6060
6
2.27
9.5
18 46.6
33 10 7.4
+ 6 30.0
+0.4348
05461
+0.0037
+43
-10
B. A. C 6294
6
2.40
11.9
18 28.7
34 3 16.8
- 0 53.3
+0.3968
05449
0.0303
+43
-12
p1 Sagittarii
4
2.59
14.8
18 3.7
36 3 36.0
- 1 20.5
+1.1184
0.5441
0.0670
+72
+37
v Sagittarii
44
2.56
15.5
16 10.1
3 40.0
- 1 16.6
-0.9620
0.5440
0.0670
-34
-90
e1 Sagittarii
6
+2.65
+16.2
-16 33.1
12 52.0
+ 7 38.0
+0.1355
0.5434
+0.0800
+31
-27
e3 Sagittarii
5
+2.65 +16.4 i -16 23.3
13 44.6
+ 8 28.9
+0.0293 0.5434
+0.0815
+25
-33
OCCULTA TIONS, 1884.
425
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
OCTOBER.
Thk STAK'8
At Conjunction in R. A.
Limiting
Parallels. \
Naiuo.
Mag.
Red'iu
188
i from
4.0.
&6
Apparent
Declination.
Washington
Mean Time.
Hour Aug)?
H
r
7f
V'
N.
o
-12
1
8.!
!
o '
-84'
B. A. C. 6746
6
+255
+167
-15 44^0
d b m
2ff 14 15.1
h m
+ 8 58.4
-0.6496
0.5434
+0.0818
g Sagittarii
5*
2.71
17.3
15 47.6
21 15.3
- 8 14.7
+0.0256
0i>430
0.0915
+26
-33
5 Capricorni
3
2.80
18.5
15 8.4
26 8 28.6
+ 2 37.4
+0.4233
0.5429
0.1068
+52
-11
B. A. C. 706S
6
2.86
18.9
15 26.2
13 22.4
+ 7 21.9
+1.2823
0.5429
0.1124
+75
+60
B.A.C.7087
6
2.85
19.5
14 6.9
14 54.5
+ 8 51.1
+0.0161
0.5427
0.1147
+28
-34
8 Aquarii
6
+2.94
+20.7
-13 29.7
27 3 26.0
- 3 1.2
+0.8752
05431
+0.1298
+77
+16
v Aquarii
41
2.97
21.5
11 50.1
8 9.4
+ 1 33.3
-0.2927
0.5431
0.1347
+13
-52
19 Aquarii
51
3.02
22.3
10 14.1
15 46.0
+ 8 55.4
-0.9532
0.5439
0.1431
-25
-90
B. AC. 7563
61
3.11
23.0
9 34.0
28 | 19.3
- 5 49.5
-0.2525
0.5446
0.1523
+17
-50
c1 Capricorni
5
3.11
22.9
9 36.4
1 215
- 5 47.4
-0.2045
0.5446
0.1523
+20
-47
c» Capricorni
6
+3.11
+22.9
- 9 48.2
1 59.4
- 5 10.7
+0.1031
0.5449
+0.1531
+37
-29
0 Aquarii
41
3.23
23.7
8 21.2
16 41.4
+ 9 3.1
+0.9053
0.5473
0.1658
+82
+17
p Aquarii
Lalande 43974
51
3.25
23.8
8 23.6
18 18.2
+10 36.8
+1.2139
0.5474
0.1666
+82
+44
6
3.29
24.0
7 8.2
23 37.0'
- 8 14.7
+0.7820
0.5487
0.1708
+83
+ 9
k Aquarii
6
3.33
24.8
4 49.1
29 2 44.5
- 5 I3.I
-1.1166
0.5494
0.1729
-35
-90
11 Piscium
61
+3.52
+24.6
- 2 25.3
30 3 2.2
- 5 43.3
+0.7454
0.5568
+0.1844
+83
+ 7
13 Piscium
61
3.54
24.9
1 43.2
4 12.1
- 4 35.7
+0.2357
0.5572
0.1847
+48
-22
14 Piscium
6
3.55
25.0
- 1 52.8
5 12.5
- 3 37.2
+0.5878
0.5575
0.1849
+75
- 2
21 Piacium
6
3.63
24.9
+ 0 26.2
12 15.9
+ 3 12.0
-0.4841
0.5604
0.1864
+ 8
-66
23 Piacium
6
3.66
24.9
1 27.1
13 55.0
+ 4 47.7
-1.2165
0.5610
0.1866
-43
-89
Lalande 47041
6
+3.68
+24.6
+ 1 18.6
16 58.3
+ 7 44.8
-0.4997
0.5626
+0.1870
+ 7
-67
B.A.C. 221
6
3.89
22.8
4 41.4
31 14 37.7
+ 4 39.3
+0.0994
0.5738
0.1841
+40
-28
B.A.C. 274
61
3.94
22.5
5 51.7
19 39.9
+ 9 30.9
-0.1596
0.5763
0.1821
+26
-43
73 Piscium
61
+3.94
+21.9
+ 5 2.4
21 51.6
+11 37.9
+1.0666
0.5773
+0.1809
+90
+30
NOVEMBER.
f Piacium
41
+3.99
+21.5
+ 6 58.1
1 1 39.6
- 8 42.3
-0.1905
0.5789
+0.1786
+24
-44
88 Piacium
6
3.99
21.4
6 23.4
2 5.5
- 8 17.3
+0.4665
0.5791
0.1785
+64
- 7
B.A.C.4I0
6
4.01
20.8
6 48.5
5 36.6
- 4 53.9
+0.6708
05812
0.1762
+85
+ 4
96 Piacium
61
+4.03
+20.4
+ 6 42.0
8 13.0
-2 23.2
+1.2351
0.5824
+0.1745
+90
+48
o Piscium
41
4.11
19.3
8 34.7
15 5.3
+ 4 14.0
+0.5382
0.5862
0.1689
+71
- 2
54 Ceti
6
4.17
19.0
10 28.4
17 22.0
+ 6 25.6
-0.9674
0.5875
0.1669
-22
-80
31 Arietia
51
4.29
14.9
11 56.9
2 12 5.3
+ 0 26.3
+0.5060
0.5977
0.1455
+68
- 1
38 Arietia
5
4.38
14.2
11 57.6
15 26.6
+ 3 39.9
+0.9729
0.5995
0.1405
+90
+28
B.A.C. 1119
6
+4.44
+ 8.4
+16 9.7
3 12 51.6
+ 0 14.3
-0.5117
0.6085
+0.1058
+ 6
-57
B.A.C. 1272
6
4.45
5.2
17 1.8
23 53.0
+10 49.0
-0.3149
0.6120
0.0848
+17
-42
<5> Tauri
4
4.44
3.5
17 16.3
4 5 36.1
- 7 41.9
-0.1017
0.6134
0.0730
+2!)
-28
63 Tauri
6
4.41
3.5
16 30.5
5 48.0
- 7 30.5
+0.6643
0.6135
0.0727
+87
+15
d* Tauri
51
4.43
3.4
17 10.6
6 2.9
- 7 16.3
+0.0246
0.6135
0.0724
+36
-20
<P Tauri
5
+4.45
+ 3.1
+17 39.8
6 34.4
- 6 46.1
-0.4151
0.6135-
+0.0701
+11
-47
75 Tauri
61
4.40
3.1
16 6.1
7 44.0
- 5 39.3
+1.2025
0.6139
0.0686
+90
+57
a Tauri
1
4.31)
22
16 16.5
10 35.1
- 2 55.1
+1.2176
0.6141
0.0625
+90
+59
B. A. C. 1468
6
4.44
+ 0.7
18 31.5
14 28.8
+ 0 49.0
-0.7698
0.6144
0.0542
-10
-72
i Tauri
51
4.44
0.0
18 38.5
16 26.4
+ 2 41.7
-0.7816
0.6145
0.0494
-11
-72
B.A.C. 1526
51
+4.37
- 0.2
+16 58.2
18 45.4
+ 4 55.1
+0.9757
0.6148
+0.0462
+90
+38
m Tauri
51
4.39
1.7
18 29.3
22 32.5
+ 8 32.8
-0.3649
0.6145
0.0366
+14
-41
111 Tauri
51
4.30
3.1
17 16.5
5 5 2.8
- 9 12.7
+1.0271
0.6141
0.0227
+90
+44
115 Tauri
6
4.30
3.6
17 51.6
6 5.7
- 8 12.5
+0.4709
0.61 41
0.0204
+67
+ 9
.117 Tauri
61
4.28
3.5
17 8.4
6 26.1
- 7 52.9
+1.1888
0.6139
0.0191
+90
+59
119 Tauri
5
+4.30
- 4.3
+18 30.3
8 0.6
-6 22.2
-0.1335
0.6138
+0.0161
+27
-24
120 Tauri
6
4.30
4.5
18 27.3
8 30.7
- 5 53.4
-0.0741
0.6138
0.0147
+30
-21
127 Tauri
61
4.27
5.5
18 55.3
12 5.3
- 2 27.6'
-0.4980
0.6131
0.0073
+ 6
-48
130 Tauri
6
4.22
5.7
17 41.0
13 50.8
- 0 46.3
+0.7376
0.6125
+0.0030
+90
+26
71 Orionis
6
4.12
8.9
19 11.5
6 0 22.4
+ 9 19.6
-0.8476
0.6098
-0.0195
-15
-71
23 Geminorum
61
+3.99
-10.2
+16 53.3
8 38.5
- 6 44.2
+1.2075
0.6066
-0.0375
+90
+60
26 Geminorum
51
+3.98
-11.1
+17 45,2
11 7.2
- 4 21.4
+0.2460 0.6054
-0.0424
+£fl
-6
42G
0CCULTAT10XS, 1884.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
NOVEMBER.
The Stab's
At Conjunction w B. A.
Limiting
Parallels.
Name.
Mag.
Red'ni
lffl
A«
i from
4.0.
Apparent
Dedication.
Washington
Mean Time.
Hour Angle
H
T
2/
/
N.
8.
51 Geminorum
54
+377
n
-13.5
+l<> 21.1
d h m
6 23 23.9
h m
+ 7 26.2
+0.9781
0.5993
-0.0674
+90
+36
2 Geminocum
4
3.76
13.8
16 44.8
7 1 17.3
+ 9 15.3
+0.4519
0.5985
0.0703
+65
+ 3
W. vii. 685
6
368
15.2
17 19.7
6 48.0
- 9 268
-0.5521
0.5953
0.0807
+ 3
-58
68 Geminorum
54
3.65
14.8
16 4.4
7 33.5
- 8 43.1
+0.6513
0.5946
0.0822
+85
+13
1 Cancri
6
3.50
16.4
16 5.7
17 8.4
+ 0 30.0
-0.2362
0.5891
0.0964
+21
-38
5 Cancri
64
+3.46
-16.8
+16 46.2
19 0.0
+ 2 17.4
-1.1059
0.5878
-0.1015
-35
-74
29 Cancri
6
3.28
17.6
14 35.0
8 6 26.4
-10 41.6
-0.1512
0.5803
0.1192
+26
-35
A > Cancri
6
3.16
17.6
13 5.5
12 42.9
- 4 38.*
+0.5984
0.5764
0.1275
+77
+ 5
A* Cancri
6
3.14
17.5
12 31.8
14 20.4
- 3 4.7
+0.9659
0.5763
0.1293
+90
+28
60 Cancri
6
3.07
17.8
12 3.8
18 15.4
+ 0 41.9
+0.9288
0.5735
0.1343
+90
+25
a Cancri
4
+3.07
-17.9
+12 18.1
19 22.2
+ 1 46.3
+0.5338
0.5728
-0.1355
+71
+ 1
K Cancri
5
2.97
17.8
11 7.8
23 27.7
+ 5 43.2
+1.1746
0.5697
0.1406
+90
+45
f Leon is
54
2.84
18.7
11 48.5
9 10 16.3
- 7 50.7
-1.1059
0.5636
0.1515
-33
-79
h Leonis
54
2.84
18.2
10 13.3
10 17.7
- 7 49.4
+0.5331
0.5636
0.1515
+70
- 1
o Leonis
34
2.78
18.5
10 24.8
14 28.4
- 3 47.2
-0.3078
0.5607
0.1555
+17
-49
B. AC. 3398
6
+2.67
-18.3
+ 9 28.5
21 29.6
+ 2 59.9
-0.4443
0.5572
-0.1611
+10
-60
B. AC. 3407
6
2.66
18.1
8 51.7
22 16.6
+ 3 45.3
+0.0695
0.5571
0.1614
+39
-28
it Leonis
5
2.65
17.9
8 35.7
23 15.0
+ 4 41.8
+0.1876
0.5565
0.1623
+46
-22
43 Leonis
64
2.5 1
17.5
7 7.5
10 9 55.9
- 8 58.4
-0.0472
0.5512
0.1691
+32
-36
35 Sextant is
64
2.39
16.8
5 21.1.
19 37.7
+ 0 24.6
+0.1545
0.5470
0.1736
+44
-25
d Leonis
44
+2.30
-15.9
+ 4 14.1
11 3 56.7
+ 8 27.7
-0.1216
0.5439
-0.1765
+28
-41
p* Leonis
6
2.28
15.7
2 34.8
7 3.8
+11 28.9
+1.0787
0.5428
0.1772
+90
+30
75 Leonis
54
2.24
15.6
2 38.6
12 6.8
-•7 37.7
+0.1151
0.5413
0.1782
+41
-28
76 Leonis
64
2.23
15.4
2 16.8
12 55.1
- 6 50.8
+0.3558
0.5411
0.1784
+56
-15
79 Leonis
54
2.21
15.2
+ 2 2.4
15 25.9
- 4 24 7
+0.1630
0.5402
0.1786
+44
-25
B. A. C. 4134
6
+2.02
-122
- 3 18.7
12 18 22.7
- 2 17.6
+1.0814
0.5353
-0.1773
+87
+30
m Virginis
54
1.84
6.8
8 7.2
14 12 22.7
- 9 34.0
-0.7752
0.5351
0.1564
-11
-90
B. AC. 4591
6
1.84
6.2
9 7.7
15 10.9
- 6 50.9
-0.1 1 1 1
05356
0.1543
+26
-41
W.*xiii.825
6
1.82
5.8
8 59.4
19 29.7
- 2 40.0
-0.9208
0.5362
0.1507
-22
-90
96 Virginis
64
1.81
4.9
9 47.2
15 2 6.7
+ 3 44.9
-1.0287
0.5365
0.1452
-30
-90
2 Libra
6
+1.80
- 3.8
-11 11.2
NEW
9 18.1
MOON.
+10 43.2
-0.5125
0.5379
-0.1389
+ 2
-69
29 Ophiuchi
6
1.95
+ 6.4
18 42.6
18 14 46.1
-10 14.0
+0.6985
0.5469
-0.0376
+69
+ 6
B.A.C.6060
6
+2.04
+ 9.7
.-18 46.6
19 16 49.2
- 9 0.6
+0.3170
0.5473
+0.0028
+35
-17
B. AC. 6294
6
2.11
11.7
18 28.7
20 9 58.4
+ 7 35.8
+0.2629
0.5462
0.0294
+34
-20
p1 Sagittarii
4
2.25
14.3
18 3.7
21 10 22.0
+ 7 13.1
+0.9674
0.5438
0.0655
+72
+24
v Sagittarii
44
2.22
14.9
16 10.1
10 25.9
+ 7 17.0
-1.1262
0.5434
0.0663
-48
-90
e1 8agittarii
6
2.29
15.6
16 33.1
19 41.5
- 7 44.9
-0.0276
0.5424
0.0792
+22
-36
«* Sagittarii
5
+2.29
+ 15.7
-16 23.3
20 34.4
- 6 53.7
-0.1400
0.5423
+0.0807
+16
-43
B. A. C. 6746
6
2.28
15.9
15 44.0
21 5.3
- 6 23.8
-0.8214
0.5423
0.0809
-23
-90
g Sagittarii
54
2.33
166
15 47.6
22 4 9.2
+ 0 26.8
-0.1471
0.5413
0.0904
+16
-43
(3 Capricorn!
3
2.40
17.6
15 8.4
15 30.1
+11 26.5
+0.2474
0.5400
0.1055
+41
-21
B.A.C.7063
6
2.45
17.8
15 262
20 27.8
- 7- 45.1
+1.1105
0.5395
0.1118
+75
+35
B.A.C.7087
6
+2.44
+18.4
-14 6.9
22 1.3
- 6 14.5
-0.1645
0.5392
+0.1133
+18
-45
8 Aquarii
6
2.52
19.2
13 29.7
23 10 45.7
+ 6 6.1
+0.6948
0.5382
0.1282
+76
+ 4
9 Aquarii
6
2.54
19.1
13 58.5
11 21.5
+ 6 40.8
+ 1.2948
0.5382
0.1284
+76
+61
v Aquarii
44
2.56
19.9
11 50.1
15 34.4
+10 45.9
-0.4849
0.5380
0.1335
+ 3
-«7
19 Aquarii
54
2.62
20.8
10 14.2
23 20.9
- 5 42.0
-1.1524
0.5377
0.1409
-41
-90
B. AC. 7562
64
+2.71
♦21. 4
- 9 34.0
24 9 7.6
+ 3 465
-0.4483
0.5377
+0.1503
+ 7
-63
el Capricorni
5
2.70
21.2
9 36.4
9 9 9
+ 3 48.7
-0.3997
0.5382
0.1503
+ 9
-60
e* Capricorni
6
2.71
21.3
9 48.2
9 487
+ 4 26.4
-0.0*82
0.5382
0.1513
+26
-40
0 Aquarii
44
2.84
21.8
8 21.2
25 0 54.6
- 4 55.9
+0.7249
0.5391
0.1634
+82
+ 6
p Aquarii
54
2.84
21.7
8 23.6
2 34.4
- 3 19.1
+1.0397
0.5394
0.1646
+82
+27
Laiande 43974
6
+2.91
+22.2
- 7 8.2
8 2.3
+ 1 58.5
+0.6043
0.5398
+0.1682
+74
- 1
B. A. C. 8094
54 ^3.15 +22.6
- 4 7.2
26 5 38.7
- 1 5.9
+1.1639
0.5449
+0.1795
+86 +37
OCCULTATIONS, 1884.
427
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
NOVEMBER.
The Star's
At Conjunction in R. A.
Limiting
Parallels.
Name.
Mag.
Red'ns from
1884.0.
Apparent
Declination.
Washington
Mean Time.
Hoar Angle
H
Y
X*
y'
N.
o
+74
S.
11 Piscium
6*
+3.22 +22.9
o /
- 2 25.3
d h m
241 12 19.2
h m
+ 5 21.9
+0.5829
0.5469
+0.1817
13 Piscium
64
3.25 23.9
1 43.2
13 31.3
+ 6 31.6
+0.0663
0.5475
0.1823
+38
-31
14 Piscium
6
3.26
22.9
- 1 52.8
14 33.6
+ 7 31.9
+0.4234
0.5478
0.1825
+61
-11
21 Piscium
6
3.35
23.3
+ 0 26.2
21 50.6
- 9 25.3
-0.6572
0.5507
O.I£40
- 2
-83
Lalande 47041
6
3.42
23.0
1 18.6
27 2 41.9
- 4 43.5
-0.6668
05525
0.1845
- 2
-84
B. A. C. 25*1
6
+3.71
+21.7
+ 4 41.4
28 1 0.2
- 7 10.0
-0.0306
0.5640
+0.1824
+33
-36
B. AC. 274
64
3.80
21.4
5 51.7
6 10.6
- 2 10.2
-0.2865
0.5669
0.1805
+19
-51
73 Piscium
64
3.81
20.8
5 2.3
8 25.4
- 0 0.1
+0.9548
0.5688
0.1797
+90
+17
e Piscium
54
3.83
20.5
5 2.5
9 59.3
+ I 30.5
+1.2311
0.5694
0.1789
+!K>
+46
£ Piscium
44
3.90
20.7
7 0.0
12 19.2
+ 3 45.6
-0.3393
0.5709
0.1778
+16
-54
88 Pisciu.ni
6
+3.89
+20.5
+ 6 23.3
12 45.5
+ 4 10.9
+0.3578
05712
+0.1775
+57
-14
B.A.C.4I0
6
3.94
20.0
6 48.5
16 21.7
+ 7 39.5
+0.5690
0.5732
0.1756
+73
- 2
96 Piscium
64
3.97
19.5
6 42.0
19 1.5
+10 13.6
+1.1410
0 5750
0.1738
+90
+38
o Piscium
44
4.08
18.6
8 34.7
29 2' 2.2
- 7 0.8
+0.4483
0.5797
0.1687
+63
- 7
54 Ceti
6
4.15
18.6
10 28.4
4 21.3
- 4 46.8
-1.0622
0.5808
0.1668
-29
-80
31 Arietis
54
+4.38
+14.5
+11 56.9
23 19.7
-10 30.9
+0.4546
0.5942
+0.1468
+64
- 6
38 Arietis
5
+4.41
+13.6
+11 57.6
30 2 42.6
- 7 15.8
+0.9303
0.5966
+0.1420
+90
+25
DECEMBER.
B AC. 1119
6
+4.70
+ 8.4
+16 9.7
1 0 9.2
-10 39.8
-0.5159
0.6095
+0.1082
+ 6
-58
B.A.C. 1272
6
4.78
5.1
17 1.8
11 5.4
- 0 10.3
-0.2950
0.6149
0.0874
+18
-41
<5l Tauri
4
4.82
3.2
17 16.3
16 44.4
+ 5 14.7
-0.0717
0.6174
0.0756
+31
-26
63 Tauri
6
4.79
3.2
16 30.5
16 56.2
+ 5 26.0
+0.6890
0.6174
0.0754
+90
+16
rf* Tauri
54
4 81
3.2
17 10.6
17 10.9
+ 5 40.1
+0.0554
0.6177
0.0749
+:$8
-19
(P Tauri
5
+4.84
+ 2.9
+17 39.7
17 41.9
+ 6 9.8
-0.3795
0.6180
+0.0735
+13
-45
75 Tauri
64
4.79
2.6
16 6.0
18 50.5
+ 7 15.5
+1.2277
0.6183
0.0712
+90
+60
B. A.C. I46S
6
4.88
+ 0.5
18 31.5
3 1 28.5
-10 23.0
-0.7143
0.6203
0.0566
- 6
-70
i Tauri
&4
4.89
- 0.2
18 38.5
3 24.0
- 8 32.4
-0.7230
0.6208
0.0524
- 7
-72
B.A.C. 1526
&4
4.K4
0.8
16 58.2
5. 40.2
- 6 21.9
+1.0216
0.6213
0.0475
+90
+41
m Tauri
54
+4.89
- 2.1
+18 29.3
9 22.7
- 2 48.7
-0.2993
0.6219
+0.0397
+18
-37
111 Tauri
54
4.83
4.1
17 16.5
15 436
+ 3 16.2
+1.0884
0.6223
0.0247
+90
+49
115 Tauri
6
4.85
4.3
17 51.6
16 45.0
+ 4 15.0
+0.5401
0.6223
0.0225
+73
+12
119 Tauri
5
4.86
5.0
18 30.3
18 36.9
+ 6 2.2
-0.0504
0.6224
0.0179
+32
-12
120 Tauri
6
4.86
5.2
18 27.3
19 6.4
+ 6 30.5
+0.0081
0.6223
0.0173
+35
-16
127 Tauri
64
+4.85
- 6.4
+18 55.3
22 35.0
+ 9 50.3
-0.4052
0.6222
+0.0088
+12
-41
130 Tauri
6
4.82
68
17 41.0
3 0 17.6
+11 28.6
+0.8174
0.6219
+0.0054
+90
+30
2» Orion is
5
4.87
7.8
19 43.5
3 3.2
- 9 52.8
-1.1727
0.6217
-0.001 1
-44
-71
^ Orion is
6
4.85
8.9
19 41.3
6 13.7
- 6 50.2
-1.1540
0.6213
0.0081
-42
-71
71 Ononis
6
4.81
10.1
19 11.4
10 29.9
- 2 44.7
-0.7244
0.6203
0.0188
- 7
-71
26 Geminorum
54
+4.69
-12.9
+17 45.2
20 53.1
+ 7 12.6
+0.3699
0.6172
-0.0417
+58
+ 1
51 Geminorum
54
4.51
15.7
16 21.0
4 8 43.2
- 5 26 5
+1.1112
0.6115
0.0669
+90
+47
A Geminorum
4
4.51
16.1
16 44.7
10 32.2
- 3 41.9
+0.5957
0.6106
0.0707
+78
+11
W. vii. 685
6
4.46
17.6
17 19.7
15 50.5
+ 1 23.5
-0.3825
0.6075
0.0810
+13
-46
68 Geminorum
54
4.43
17.5
16 4.3
16 34.1
+ 2 5.4
+0.8000
0.6071
0.0826
+90
+22
1 Cancri'
6
+4.31
-19.4
+16 5.7
0 1 47.0
+10 56.3
-0.0580
0.6013
-0.0994
+31
-28
5 Cancri
64
4.30
20.0
16 46.2
3 34.2
-11 20.7
-0.9105
0.6001
0.1027
-19
-71
29 Cancri
6
4.12
21.2
14 34.9
14 34.4
- 0 45.9
+0.0434
0.5923
0.1205
+37
-24
A1 Cancri
6
4.01
21.6
13 5.4
20 36.5
+ 5 25
+0.7891
0.5879
0.1291
+90
+16
A3 Cancri
6
3.98
21.6
12 31.7
22 10.5
+ 6 33.1
+1.1505
0.5b71
0.1311
+90
+44
j60 Cancri
6
+3.92
-22.1
+12 3.7
6 1 56.8
+10 11.0
+1.1179
0.5843
-0.1361
+90
+41
• a Cancri
4
3.93
22.2
12 18.0
3 1.2
+11 13.0
+0.7300
0.5835
0.1376
+90
+12
£ Leonis
54
3.72
23.3
11 48.4
17 24.1
+ 1 4.7
-0.8694
05729
0.1538
-15
-7!)
h Leonis
54
3.70
22 8
10 132
17 25.4
+ 1 6.0
+0.7437
0.5729
0.1538
+90
+11
o Leonis
34
3.65
23.1
10 24.7
21 28.2
+ 5 0.3
-0.0817
05701
0.1577
+30
-36
B. A. C. 3398
6
+3.54
-23.1
+ 9 28.4
7 4 16.3
+11 34.1
-0.2121
0.5659
-0.1630
+23
-44
B. A. C 3407
6
+3.53
-23.0
+ 8 51.6
5 1.9
-11 41.8
+0.2943
0.5649
-0.1638
+52 -16
428
OCCULTATIONS, 1884.
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
DECEMBER.
Tim Stab's
At Conjunction in K. A.
Limiting
Parallels.
Name.
Mag.
lied'its from
18P4.0.
Apparent
Declination.
Washington
Mean Time.
Hoar Angle
H
T
*
•
y'
N.
S.
o
- 9
A- Leonis
5
+3J52
-22.9
O t
+ 8 35.6
<1 h m
7 5 58.6
h m
-10 47.1
+0.4126
0.5644
-0.1643
o
+61
43 Leon is
6*
3.38
22.7
7 7.4
16 22.0
- 0 44.9
+0.1862
05584
0.1711
+46
-23
48 Leonis
54
3.31
22.9
7 32.7
21 49.6
+ 4 31.8
-1.1943
0.5547
0.1740
-41
-83
35 Sextantis.
64
3.26
22.2
5 21.0
8 1 49.7
+ 8 24.0
+0.3886
0.5526
0.1756
+59
-12
d Leonis
44
3.16
21.2
4 14.0
9 58.3
- 7 43.2
+0.1133
0.5483
0.1782
+41
-28
p3 Leonis
6
+3.12
-21.0
+ 2 34.7
13 1.9
- 4 45.5
+1.3020
0.5469
-0.1790
+90
+56
75 Leonis
54
3.07
20.9
2 38.6
17 59.8
+ 0 2.8
+0.34%
0.5449
0.1799
+56
-16
76 Leonis
64
3.06
20.7
2 16.8
18 47.4
+ 0 48.9
+0.5841
0.5445
0.1800
+75
- 2
79 Leonis
54
3.03
20.5
+ 2 2.3
21 15.9
+ 3 12.7
+0.3953
0.5438
0.1803
+59
-13
B.A.C.4134
6
2.81
16.8
- 3 18.8
9 23 56.6
+ 5 3.6
+1.2933
0.5353
0.1780
+87
+54
m Virginia
54
+ 2.51
-10.8
- 8 7.3
11 17 58.4
- 2 11.0
-0.6054
0.5322
-0.1569
- 1
-77
B. AC. 4591
6
2.51
10.1
9 7.8
20 47.6
+ 0 33.2
+0.0546
0.5325
0.1546
+35
-32
W*.xiii.825
6
2.48
9.5
8 59.5
19 1 8.0
+ 4 45.7
-0.7621
0.5327
0.1515
-11
-90
96 Virginis
64
2.43
8.5
9 47.2
7 47.5
+11 13.1
-0.8825
0.5333
0.1458
-19
-90
k Virginis
44
2.42
8.2
9 44.2
9 45.0
-10 53.0
-1.2212
0.5335
0.1441
-49
-90
2 Libre
6
+2.41
- 7.1
-11 11.2
15 2.0
- 5 45.5
-0.3790
0.5344
-0.1393
+ 9
-58
fi Libre
6
2.37
4,7
13 40.0
13 3 59.0
+ 6 47.8
+0.6321
0.5360
0.1261
+71
+ 1
o1 Libre
6
2.32
1.9
15 7.7
19 43.4
- 1 56.8
+0.4002
0.5390
0.1080
+51
-12
o2 Libre
6
2.30
1.8
14 43.2
20 43.7
- 0 58.4
-0.1586
0.53DI
0.1068
+18
-44
£3 Libre
6
2.33
l.l
16 12.7
14 0 28.7
+ 2 39.6
+1.1000
0.5399
0.1021
+74
+34
f» Libre
6
+2.33
- 0.9
-16 27.5
1 35.2
+ 3 44.1
+1.2632
0.5402
-0.1006
+74
+56
y Libre
44
2.26
1.1
14 24.1
2 54.4
+ 5 0.8
-1.1482
0.5401
0.0992
-46
-90
9 Libre
6
2.26
- 0.3
15 18.2
7 6.5
+ 9 5.1
-0.5543
0.5412
0.0939
- 6
-73
6 Libre
44
2.27
+ 0.6
16 23.3
11 52.1
-10 18.2
+0.2163
0.5417
0.0875
+37
-22
49 Libre
6
2.26
1.1
16 11.4
15 64
- 7 10.0
-0.2794
0.5423
0.0833
+ 9
-52
X Ophiuclii
6
+2.26
+ 3.3
-18 11.4
15 4 3.2
+ 5 22.6
+0.9817
0.5446
-0.0650
+72
+25
0 Ophiuchi
5
2.20
3 3
16 21.3
6 5.9
+ 7 21.4
-1.1877
0.5450
0.0621
^55
-90
24 Scorpii
6
2.22
4.3
17 30.9
NEW
11 8.0
MOON.
-11 46.0
-0.1909
0.5457
-0.0549
+10
-46
p1 Sagittarii
4
+2.19
+13.9
-18 3.7
18 16 20.3
- 9 15
+0.8076
0.5463
+0.0641
+72
+12
«' Sagittarii
6
2.17
15.0
16 33.2
10 1 37.6
- 0 1.4
-0.2048
0.5448
0.0779
+12
-47
t* Sagittarii
5
2.18
15.1
16 23.3
2 30.4
+ 0 49.8
-0.3174
0.5445
0.0792
+ 6
-55
B. AC. 6746
6
2.17
15.2
15 44.0
3 1.1
+ 1 19.4
-1.0018
0.5445
0.0795
-36
-90
g Sagittarii
54
+2.19
+15.8
-15 47.6
10 3.7
+ 8* 8.8
-0.3390
0.5437
+0.0892
+ 6
-56
ft Capricorni
3
2.22
16.8
15 8.4
21 23.3
- 4 52.8
+0.0368
0.5416
0.1044
+28
-33
B. A. C. 7063
6
2.26
17.0
15 26.2
30 2 20.9
- 0 4.6
+0.8939
0.5412
0.1 100
+75
+18
B. A. C. 7087
6
2.24
17.3
14 6.9
3 54.3
+ 1 25.9
-0.3872
0.5408
0.1121
+ 6
-59
8 Aquarii
6
2.31
18.0
13 29.7
16 39.8
-10 12.3
+0.4572
0.5389
0.1271
+57
- 9
9 Aquarii
6
+2.32
+18.0
-13 58.5
17 15.7
- 9 37.5
+1.0602
0.5388
+0.1273
+76
+30
v Aquarii
44
2.32
18.6
11 50.1
21 29.6
- 5 31.4
-0.7376
0.5383
0.1322
-12
-90
B. AC. 7562
64
2.43
19.8
9 34.1
31 15 10.2
+11 36.5
-0.7201
0.5360
0.1488
- 9
-90
c' Capricorni
5
2.43
19.7
9 36.5
15 12.6
+11 38.8
-0.6712
0.5360
0.1488
- 6
-85
c* Capricorni
6
2.43
19.7
9 48.3
15 51.8
-11 43.2
-0.3573
0.5360
0.1496
+12
-57
0 Aquarii
44
+2.52
+20.1
- 8 21.3
33 7 9.1
+ 3 6.1
+0.4506
0.5356
+0.1613
+61
-10
p Aquarii
54
2.55
20.1
8 23.7
8 50.6
+ 4 44.6
+0.7674
0.5356
0.1627
+82
+ 8
Lalunde 43974
6
2.60
20.4
7 8.3
14 23.9
+10 7.6
+0.3234
0.5357
0.1663
+52
-17
B.A.C.8094
54
2.82
20.7
4 7.3
33 12 28.8
+ 7 31.8
+0.8851
0.5382
0.1772
+86
+16
11 Piscium
64
2.90
21.0
2 25.4
19 20.4
- 9 49.4
+0.2975
0.5394
0.1792
+52
-18
13 Piscium
64
+2.93
+21.2
- 1 43.3
20 34.6
- 8 37.6
-0.2247
0.5399
+0.1796
+22
-48
14 Piscium
6
2.94
21.0
- 1 52.9
21 38.6
- 7 35.5
+0.1379
0.5401
0.1801
+43
-27
21 Piscium
6
3.03
21.3
+ 0 26.2
34 5 8.9
- 0 19.3
-0.9612
0.5419
0.1813
-21
-90
Lalande 47041
6
3.10
21.0
1 18.5
10 9.7
+ 4 32.0
-0.9657
0.5437
0.1819
-21
-89
B. A.C.22I
6
3.44
I9.H
4 41.3
25 9 15.6
+ 2 53.3
-0.3028
0.5527
0.1796
+18
-52
B. A.C.274
64
+3 53
+19.6
+ 5 51.6
14 37.7
+ 8 4.6
-0.5552
0.5558
+0.1778
+ 4
-71
73 Piscium
64 +3.55 +18.9
+ 5 2.3
16 58.0
+10 20.3
+0.7094
0.5569
+0.1770
+90
+ 6
OCCULTATIONS, 1884.
429
ELEMENTS FOR THE PREDICTION OF OCCULTATIONS.
DECEMBER.
Thb Stab's
At Conjunction in K. A.
Limiting
Parallel*.
Name.
Hag.
lteu'ns from
1884.0.
Apparent
DecUuatkra.
Washington
Mean Time.
Hour Angle
r
*
V1
N.
8.
Aa
A*
1 e Piscium
&4
+3*58
n
+18.7
o *
+ 5 2.5
d h m
** 18 35.4
h m
+11 54.4
+0.9908
0.5578
+0.1763
o
+90
+22
1 £ Piscium
44
3.63
19.1
6 58.0
21 0.7
- 9 45.1
-0.5685
0.5591
0.1752
+ 3
-71
1 88 Piscium
6
3.64
18.7
6 23.3
21 28.2
- 9 18.5
+0.1081
0.5597
0.1750
+41
-27
i B.A.C.4I0
6
3.6!)
18.4
6 48.5
M 1 12.9
- 5 41.5
+0.3254
0.5613
0.1732
+54
-15
1 96 Piscium
61
3.72
17.8
6 42.0
3 58.9
- 3 1.2
+0.9131
0.5633
0.1715
+90
+20
1 o Piscium
44
+3.86
+17.1
+ 8 34.7
11 16.1
+ 4 1.0
+0.2211
0.5674
+0.1667
+48
-20
| 31 Arietis
54
4.25
13.5
11 56.9
97 9 22.3
+ 1 19.8
+0.2685
0.5826
0.1459
+51
-15
38 Arietis
5
4.29
12.5
11 57.6
12 52.6
+ 4 42.4
+0.7684
0.5853
0.1414
+90
+13
Lalande 5725
6
4.44
10.5
12 44.8
21 43.8
-10 46.4
+1.1660
0.5919
0.1294
+90
+46
B.A.C.11I9
6
4.70
7.7
16 9.7
38 10 59.8
+ 1 59.0
-0.6575
0.6045
0.1095
- 3
-70
B. AC 1272
6
+4.85
+ 4.6
+17 1.8
22 12.6
-II 14.9
-0.4015
0.6074
+0.0889
+12
-48
c5» Tauri
4
4.92
2.7
17 16.2
39 3 58.6
- 5 42.8
-0.1593
0.6109
0.0775
+26
-31
63 Tauri
6
4.90
2.4
16 30.4
4 10.6
- 5 31.3
+0.6092
0.6109
0.0774
+80
+11
6* Tauri
54
4.93
2.6
17 10.5
4 25.5
- 5 17.0
-0.0296
0.6115
0.0762
+3*
-24
<P Tauri
5
4.95
2.5
17 39.7
4 57.3
- 4 46.5
-0.4696
0.6115
0.0757
+ 8
-51
75 Tauri
64
+4.91
+ 1.8
+16 6.0
6 7.1
- 3 39.6
+1.1537
0.6123
+0.0734
+90
+51
1 a Tauri
1
4.91
+ 0.8
16 16.5
8 58.5
- 0 55.1
+1.1822
0.6135
0.0674
+90
+54
1 B. AC. 1468
6
5.04
- 0.1
18 31.5
12 51.7
+ 2 48.6
-0.7841
0.6152
0.0591
-11
-72
i t Tauri
54
5.06
0.6
18 '38.5
14 48.9
+ 4 40.9
-0.7885
0.6160
0.0550
-11
-72
! B.AC. 1526'
54
5.01
1.9
16 58.2
17 6.8
+ 6 53.1
+0.9746
0.6169
0.0502
+90
+37
m Tauri
54
+5.09
-2.7
+18 29.3
20 51.7
+10 28.7
-0.3431
0.6183
+0.0418
+15
-40
1)1 Tauri
54
5.10
5.5
17 16.5
89 3 16.0
- 7 23.0
+1.0668
0.6201
0.0277
+!K)
+47
115 Tauri
6
5.11
5.2
17 51.6
4 17.7
- 6 24.0
+0.5202
0.6203
0.0256
+71
+11
117 Tauri
64
5.09
5.4
17 8.4
4 37.7
- 6 4.8
+1.2345
0.6204
0.0241
+90
+65
119 Tauri
5
5.14
5.7
18 30.3
6 10.1
- 4 36.2
-0.0685
0.6207
00212
+31
-21
120 Tauri
6
+5.14
- 5.9
+18 27.3
6 39.7
- 4 7.9
-0.0082
0.6209
+0.0196
+34
-17
1*27 Tauri
64
5.17
7.1
18 55.3
10 9.2
- 0 475
-0.4107
0.6216
0.0121
+11
-42
130 Tauri
6
5.14
7.8
17 41.0
11 51.8
+ 0 51.1
+0.8164
0.6216
0.0078
+90
+30
; x2 Orionis
5
5.21
8.4
19 415
14 37.5
+ 3 29.8
-1.1665
0.6222
+0.0013
-43
-71
! -^Ononis
6
5.21
9.6
19 41.2
17 47.7
+ 6 32.1
-1.1353
0.6220
-0.0059
-40
-71
71 Orionis
6
+5.20
-11.0
+19 11.4
22 3.2
+10 36.9
-0.6971
0.6222
-0.0155
-6
-68
26 Geminorum
54
5.15
14.1
17 45.2
31 8 21.5
- 3 30.7
+0.4235
0.6209
0.0386
+63
+ 5
51 Geminorum
54
5.05
17.8
16 21.0
20 1.8-
-+ 7 40.4
+1.1932
0.6176
0.0645
+90
+56
A Geminorum
4
+5.06
-18.2
+16 44.7
21 48.9
+ 9 23.1
+0.6841
0.6166
-0.0687
+90
+17
•
•
430
PREDICTION OF OCCULTATIONS.
POWNES'S TABLE GIVING VALUES OP r.
FOB COMPUTING THE TIME AND HOUR-ANGLE OF APPARENT CONJUNCTION.
Lat. 72*
Lat. 663
Lat. 60O
Lat. 54o
Lat. 48°
Lat. 42°
Lat 36°
k
T*
z'
z'
z'
z'
z<
z'
ffl
M
m
.50
.62
.56
.50
m
.62
m
.56
m
.50
.62
.56
m
.50
.62
.56
.50
.62
.56
.50
.62
.56
.50
h m
m
m
m
m
m
in
m
m
m
in
m
m
m
m
m
m
0 0
0
O
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
ID
2
3
2
2
2
2
3
3
3
3
4
4
4
4
5
5
5
6
5
6
7
00
3
3
4
4
5
5
5
6
7
6
7
9
8
9
11
9
10
12
11
12
14
30
5
5
6
6
7
8
8
9
11
10
II
13
12
13
16
14
16
18
16
18
22
40
6
7
8
8
9
11
11
12
14
13
15
17
16
18
21
18
21
24
21
24
29
60
7
a
10
10
II
13
13
15
17
16
19
21
19
22
26
22
26
30
26
30
36
1 0
9
10
11
12
14
16
16
18
21
19
22
26
23
26
31
26
31
36
30
35
42
10
10
12
13
14
16
18
18
21
24
22
26
30
26
30
36
31
35
42
35
40
48
20
19
13
15
16
18
21
21
23
27
25
29
34
30
34
40
35
40
47
39
45
54
30
13
15
17
18
20
23
23
26
30
28
32
37
33
38
45
39
44
52
43
50
59
40
14
16
18
20
22
25
25
29
33
31
35
41
36
42
49
42
48
57
47
54
64
50
10
la
20
21
24
28
27
31
36
34
38
44
39
45
53
45
52
61
51
58
68
2 0
!7
10
22
23
26
30
29
33
39
36
41
47
42
48
56
48
55
65
54
62
72
10
19
90
23
25
28
32
31
36
41
38
43
50
45
51
59
51
59
68
57
66
76
20
l!l
22
24
26
30
34
33
38
43
40
46
53
47
54
62
54
62
71
60
69
80
30
20
23
26
28
31
36
35
40
45
42
48
55
50
56
65
57
64
74
63
72
83
40
*il
24
27
20
33
37
37
42
47
44
50
58
52
59
68
59
67
77
65
74
-86
50
m
25
28
30
34
39
38
43
49
46
52
60
54
61
70
61
69
79
68
76
88
3 0
23
26
30
31
35
40
40
45
51
48
54
62
56
63
72
63
71
81
70
79
90
JO
2i
27
31
33
36
42
41
46
53
49
56
63
57
65
74
65
73
83
72
81
92
20
25
2*
32
34
38
43
42
47
54
51
57
65
59
66
75
66
74
"85
73
82
JO
30
26
29
33
35
39
44
43
49
55
52
58
66
60
67
77
68
76
86
74
83
95
40
m
29
33
36
40
45
44
50
56
53
59
67
61
69
78
69
77
87
75
84
96
50
27
30
34
36
41
46
45
51
57
54
60
68
62
70
79
70
78
88
76
85
96
4 0
28
31
35
37
41
47
46
52
58
55
61
69
63
70
79
71
79
89
77
86
J»7
10
2*
31
35
38
42
47
47
52
59
56
62
70
64
71
80
71
79
89
78
86
97
20
29
32
36
38
42
48
47
53
59
56
62
70
64
71
80
72
80
89
78
87
97
30
20
32
36
39
43
48
48
53
60
57
63
71
65
72
81
72
80
90
79
87
97
40
29
33
37
39
43
49
48
53
60
57
63
71
65
72
81
72
80
89
79
87
97
50
30
33
37
39
44
49
48
54
60
57
63
71
65
72
81
72
80
89
79
87
96
5 0
30
33
37
39
44
49
49
54
60
57
63
71
65
72
80
72
80
89
78
86
95
JO
30
33
37
40
44
49
49
54
60
57
63
71
65
72
80
72
79
88
78
86
95
tw
30
:o
37
40
44
49
49
54
60
57
63
71
65
71
7!)
72
79
88
78
85
94
30
30
33
37
40
44
49
49
54
60
57
63
70
64
71
79
71
78
87
77
85
93
40
30
33
37
39
44
49
48
53
59
56
62
70
64
70
78
70
77
86
76
84
91
GO
30
33
37
39
43
48
48
53
59
56
61
69
63
70
77
70
77
85
75
83
90
6 0
30
33
37
39
43
48
48
52
58
55
61
68
63
69
76
69
76
84
74
82
89
10
30
33
37
39
43
47
47
52
58
55
60
67
62
68
75
68
75
82
73
80
87
20
&
32
36
38
42
47
47
51
57
54
60
66
61
67
74
67
73
81
72
79
85
30
29
32
36
38
42
46
46
51
56
53
59
65
60
66
73
66
72
80
71
78
84
40
20
32
35
37
41
46
45
50
55
53
58
64
59
65
71
65
71
78
70
76
82
60
2*
31
35
37
40
45
45
49
54
52
57
62
58
63
70
63
69
76
68
74
80
7 0
28
31
34
36
40
44
44
48
53
51
55
61
57
62
68
62
68
75
67
73
78
10
27
30
34
35
39
43
43
47
52
50
54
60
56
61
67
61
66
73
65
71
76
20
27
30
33
35
38
42
42
46
51
48
53
58
54
59
65
59
65
71
64
69
74
30
26
20
32
34
37
41
41
45
49
47
52
57
53
58
63
58
63
69
62
67
71
40
, ac>
28
31,
33
36
40
40
44
48
46
50
55
51
56
62
56
61
67
50
25
27
31
32
35
39
39
42
47
45
49
53
50
54
60
54
59
65
8 0
>l\
27
30
31
34
38
38
41
45
43
47
52
48
52
58
53
57
63
10
24
m
29
30
33
37
36
40
44
42
46
50
47
5]
56
52
55
60
90
23
25
28
29
32
35
35
38
42
40
44
48
45
49
54
:io
22
24
27
28
31
34
34
37
41
39
42
46
43
47
52
40
81
23
26
27
30
33
33
35
39
37
41
44
41
45
49
60
20
22
25
26
28
31
31
34
37
36
39
42
40
43
47
y o
10
21
24
25
27
30
30
32
35
34
37
40
10
|H
20
22
24
26
28
28
31
34
32
35
38
90
18
10
21
22
24
27
27
29
32
31
33
36
30
16
18
20
21
23
25
25
27
30
29
31
34
40
in
17 1 10
20
22
24
24
26
28
27
29
32
1
(Concluded at bottom of next page.)
EPH 84—27—14
PREDICTION OF OCCULTATIONS.
431
DOWNES'S TABLE GIVING VALUES OF r.
FOR COMPUTING THE TIME AND HOUR-ANGLE OF APPARENT CONJUNCTION.
k
Lat. 30°
Lat. 24°
Lat. 18©
Lat. l2o
Lat. 6°
Lat. 0°
z'
z'
z'
z'
z'
z'
m
.56
.511
.62
,56 ,5i J
62
.56
.50
62
m
.56
50
.62
.56
.50
.62
.56
.50
h in
in
m
ni
m
m
in
□i
tn
m
Ul
in
m
m
m
m
m
m
0 0
0
0
0
0
0
Q
0
0
0
0
0
0
0
0
0
0
0
0
10
6
7
8
7
7
9
7
8
0
7
8
10
7
8
10
8
9
11
20
12
11
16
13
14
18
14
16
19
.14
16
20
14
17
21
15
18
21
30
17
20
VI
10
22
27
10
24
29
2)
25
30
21
.25
31
22
26
32
id
23
27
32
25
29
36
26
32
39
28
33
40
28
34
41
29
34
42
50
m
33
40
31
36
44
32
39
48
35
40
50
35
42
51
35
42
52
1 0
33
39
47
36
42
52
38
46
56
40
47
59
41
49
60
41
49
61
10
*38
45
54
11
48
59
44
52
63
46
54
67
47
56
68
47
56
69
so
43
50
60
46
54
65
49
58
70
52
60
74
53
62
75
53
63
76
30
48
55
66
51
60
71
54
64
76'
57
66
79
58
68
81
59
69
82
40
52
60
71
* 56
65
77
59
61 1
82
62
72
154
63
73
87
64
74
88
50
56
64
76
60
69
82
64
74
$7
66
77
69
68
76
92
68
79
93
2 0
59
68
80
64
73
86
68
78,
91
70
81
95
72
83
97
72
K*
.96
10
62
72
84
67
77
90
7!
81
95
74
85
99
75
87
101
76
87
102
SO
55
75
H7
70
HI
94
74
85
m
77
88
103
78
90
105
79
91
J06 .
30
W
78
90
73
84
97
77
88
102
80
91
106
81
93
108
82
94
109
40
71
81
93
76
87
KM)
HJ
91
105
S3
94
J 09
84
96
111
85
97
112
50
74
83
96
78
89
1.2
82
93
107
63
m
111
87
98
113
87
99
114
3 0
76
B5
!M
80
91
, 104
84
95
109
87
98
113
89
100
115
89
101
)I6
U)
77
87
99
82
m
106
86
97
111
89
100
114
91
102
116
91
103
117
20
79
m
101
84
,94
107
88
99
112
91
102
115
92
104
118
93
104
U8
30
80
90
102
85
05
108
69
100 113
m
103
H6
94
105
119
94
105
no
40
81
91
103
86
96
109
90
101 i 114
93
104
117
95
106
119
93
106
120
50
88
92
104
87
97
110
91
101 114
94
104
118
95
106
120
96
107
120
4 0
83
m
104
88
98
110
92
102 114
94
105
118
96
107
120
97
107
120
10
84
m
104
88
98
no
92
102 114
95
105
118
96
107
120
97
107
120
20
84 1 m
104
89
98
110
92
102 114
95
105
117
96
107
119
97
107
120
30
84 93
104
89
98
110
92
102 114
95
105
117
96
107
119
97
107
119
40
84
93
104
89
m
109
m
102' 113
95
104
116
96
106
118
97
107
119
60
84
93
103
m
97
108
92
101
113
94
104
tie
96
106
117
m
106
118
5 0
84
92
103
B8
97
108
91
101
112
94
103
114
95
105
116
96
105
117
10
83
92
102
88
96
107
91
100
110
93
102
113
95
104
115
95
104
115
20
83 1 91
101
87
95
106
90
99
109
92
101
112
94
103
114
94
103
114
30
82
90
100
86
N
104
89
*98
108
92
100
111
93
102
112
93
102
113
40
81
69
98
85
93
103
88
97
106
91
99
109
92
100
110
50
80
, *w
97
84
92
101
87
JJ5
105
89
97
107
6 0
79
1 87
95
83
91
100
86
94
103
88
96
105
10
78
i **
94
62
89
m
'84
92
101
20
77
1 84
92
80
88
96
82
91
99
30
75
82
90
71*
86
94
40
74
! 81
88
77
84
92
50
72
79
86
7 0
71
77
84
(Concluded from pre*
cding po-gt.)
A
Lat. 72*
L
at, 66°
Lat, 60°
h
Lat*
73°
Lat. 66°
Lat. 60°
**
d
x'
a'
z'
z'
Til
5(
n
> .50
j m
.62
m
56
in ,
.50 .
hi
m
Til
.5*
ii
.50
m
ft
ii
.50
m
.62
m
.56
m
.50
ID
m
.56
m
.50
m
h
m
Ii m
in
9 I
JO
14
H
) 18
IH
20
22
22
24
26
11 0
7
c
8
9
10
11
10
11
12
10
0
13
IS
>l 16
17
19
21
20
ft
24
10
6
6
7
7
8
9
9
9
10
'
10
12
1
1 15
16
17
19
19
21
22
20
5
£
6
6
6
7
7
8
8
!
40
II
It
l\ 14
15
16
17
17
1!
20
30
3
1
4
4
5
5
;
JO
10
1
12
i ;
M
16
16
17
18
40
2
:
3
3
3
4
t
10 .
9
li
) II
12
13
14
14
i:
16
50
1
i
1
1
2
2
1
iO
e
j
1 10
10
11
12
12
i:
11
12 0
0
i
0
0
0
0
EPH 84—27—15
432
OCCULTATIONS, 1884.
OCCULTATIONS VISIBLE AT WASHINGTON DURING THE YEAR 1884.
Date.
Thb Star's
IMMERSION.
EMERSION.
•3
©
s
i
Washington
AngU
tfrom
. Washington
Angle from
Name.
Mag
Sidereal
Time.
Mean
Time.
North
Point.
Ver.
tex.
Sidereal
Time.
Mean
Time.
North
Point
Ver
tex.
NEW MOON.
h m
h ni
0
0
h m
h m
c
c
h m
Jan. 9
11
13
m Tauri
A Gem i riorum
CO Cancri*
54
4
6
5 54
10 23
1 32
10 38
14 58
6 0
139
151
144
112
99
191
6 46
11 9
2 9
11 30
15 44
6 38
221
240
236
178
186
286
0 52
0 46
038
13
13
14
15
16
a Cancri
* Cancri
16 Sextantig
34 Sextantig*
v Leonis
NEW MOON
4
5
6
64
5
2 26
8 24
13 26
3 15
6 6
6 54
12 52
17 49
7 36
10 22
63
202
105
139
87
114
217
55
188
138
3 11
Star6'.4
14 31
4 0
7 5
7 40
south of
18 54
8 20
11 21
318
D's
306
253
317
10
limb.
255
304
6
0 45
1 5
0 45
059
31
Feb. 4
6
Lalande 47041
B.A.C.III9
127 Tauri
6
6
64
4 13
1 55
4 25
7 30
4 57
7 19
100
85
23
52
124
57
5 6
3 15
5 0
. 8 23
6 17
7 54
220
245
334
170
254
353
053
120
035
7
9
9
9
II
26 Geminorum
A > Cancri
A* Cancri
60 Cancrif
34 Sextantis
NEW MOON.
54
6
6
6
64
4 23
7 44
10 36
15 5
17 1
7 13
10 25
13 17
17 45
19 33
169
108
152
75
67
216
130
114
24
16
4 42
9 8
11 83
15 49
17 40
7 32
II 49
14 14
18 29
20 13
197
293
252
319
330
241
280
204
270
280
0 19
124
058
0 44
039
28
Mar. 3
3
Veicus
<J* Tauri
d3 Tauri
54
5
19 25
4 6
4 29
20 50
5 17
5 41
346
171
55
38
177
48
19 31
Star 1 '.9
5 42
20 56
aouth of
6 54
335
D's
291
27
limb.
254
0 6
1 13
4
4
5
6
8
119 Tauri
120 Tauri
26 Geminorum*
68 Geminorum
u Leonis}
5
6
54
04
54
8 27
9 7
14 2
11 19
15 16
9 34
10 14
15 4
12 18
16 6
66
71
9
114
143
13
17
322
61
91
9 27
10 6
Star 1'.6
12 21
16 1
10 34
11 13
north of
13 20
16 51
305
300
D's
278
254
250
245
limb.
224
204
1 0
0 59
1 2
0 45
9
12
13
14
15
16 Sextantis
/ Virginia
h Virginia
X Virginia
»l Libre
6
6
5
44
6
9 38
9 46
16 51
15 13
14 55
10 25
10 21
17 22
15 40
15 18
205
107
17
72
157
214
144
336
58
158
Star 1 '.8
11 12
Star3'.8
16 25
15 55
aouth of
11 47
north of
16 52
16 18
D's
308
D's
324
237
limb.
329
limb.
295
224
126
1 12
1 0
20
ol Sagittarii
NEW MOON
4
16 14
16 17
144
179
16 55
16 58
205
234
0 42
Apr. 2
X Geminorum
a Cancri
4
4
12 13
6 41
11 25
5 46
36
28
342
69
12 34
6 56
11 47
6 1
352
7
299
45
0 22
0 15
4
6
7
B
12
K Cancri
34 Sextan riti
v Leonis
D. A. C. 4134
C1 Librm
5
64
5
6
Si
12 41
9 0
13 55
9 3
8 54
11 45
7 57
12 47
7 52
7 27
108
150
26
26
123
57
179
350
66
176
13 46
10 13
Star0'.8
Star3'.7
9 51
12 50
9 10
north of
north of
8 24
294
264
D'«
D's
270
241
272
limb.
limb.
321
1 5
1 13
057
12
12
13
f» Libr«
f* Librro
X Ophiuchi
6
6
6
10 7
11 17
14 53
8 40
9 50
13 21
57
80
13
107
125
33
10 49
12 23
Star4M
9 22
10 56
north of
338
318
D's
25
355
limb.
0 42
1 6
Nont.^Tho angliM of poiftlu
* Whole occul tat io&
t Imnu-raion lMow t
J Emersion hpluw th
J i :»!•>■
at? hoi
■ Imri
Hooted fa
the horiftc
i&un of w
ton of Wa*
I I i the noil
n of Wash
> hington.
Engton.
bh point
lngton.
and vertex of the moon's lim
b, toward the eai
it
OCCULTATIONS, 1884.
433
OCCULTATIONS VISIBLE AT WASHINGTON DURING THE YEAR 1884.
IMMERSION.
EMERSION.
"3
1
I1
Date.
•
Washington
Angl<
ifrom
Washington
Angl* from
Nam©.
Hftg.
Sidereal
Time.
Mean
Time.
North
Point.
Ver-
tex.
Sidereal
Time.
Mean
Time.
North
Point.
Ver-
tex.
h m
h in
o
0
h m
h m
c
p
h m
NEW MOON.
.
May 1
9
15
20
A* Cancri
60 Cancri*
C1 Libra
(3 Capricorn i*
B. A. C. 221
NEW MOON.
6
6
54
3
6
10 11
ft 22
20 15
14 18
19 46
7 30
12 40
17 1
10 41
15 48
118
17
5
35
86
85
326
316
88
136
11 28
Start '.2
Star0'.5
15 1
20 45
8 46
north of
north of
11 23
16 47
286
y*
311
22!)
239
limb.
limb.
1
277
1 16
0 42
0 59
27
29
June 3
4
5
68 Gem i riorum X
u Leonis
h Virginia
\ Virginia
v1 Libre
54
54
5
44
6
13 37
15 23
17 9
16 13
16 18
9 13
10 51
12 17
11 17
11 18
85
167
49
87
104
33
115
7
62
148
14 25
15 52
17 48
17 32
17 3
10 1
11 19
12 56
12 36
12 3
300
230
343
303
223
251
180
2!H>
264
197
0 48
0 28
0 39
1 19
0 45
10
12
15
15
20
pl Sagittarii
8 Aquarii
13 Piscium
14 Piscium
d» Tauri
NEW MOON.
4
6
64
6
4
18 3
16 33
18 16
19 28
22 29
12 43
11 5
12 36
13 48
16 29
93
101
48
136
18
108
146
96
183
73
19 34
17 42
19 15
19 54
22 58
14 13
12 14
13 35
14 14
16 58
244
233
272
178
316
240
271
320
223
10
1 30
1 9
0 59
026
0 29
25
28
July 4
a Cancri
v Leonis
X Ophiuchi
Lalande 43974
NEW MOON.
4
5
6
6
12 30
14 1
15 5
20 53
6 12
7 31
8 II
13 31
48
133
13
100
357
96
30
124
12 59
15 12
8tar2M
22 2
6 41
8 42
north of
14 40
354
276
>'■
208
302
230
limb.
215
0 29
1 11
1 9
30
C Libra*
54
20 50
12 13
140
90
21 34
12 57
230
177
0 44
Aug. 5
II
12
16
B. A. C. 7063
0 Aquarii
o Piscium
31 Arietis
26 Geminorum
NEW MOON.
6
44
44
54
54
20 19
22 31
22 29
20 37
0 41
11 18
13 22
13 4
11 9
14 56
161
114
77
56
54
162
109
124
108
107
Star2'.5
23 24
23 41
21 31
1 28
south of
14 16
14 16
12 3
15 43
193
234
266
303
limb.
175
271
319
358
0 53
1 12
054
0 48
31
Sept. 2
5
7
10
pl Sagittarii
8 Aquarii
14 Piscium
B. AC. 410
63 Tauri
4
6
6
6
6
22 43
19 10
19 22
20 10
0 20
12 0
8 19
8 19
9 0
12 57
165
71
6
47
10!)
126
94
54
99
163
Star 5'. 1
20 37
19 53
21 8
1 17
south of
9 47
8 50
9 57
13 55
D's
251
311
269
223
limb.
255
356
319
274
1 28
0 31
0 57
0 58
11
13
115 Tauri
X Geminorum*
NEW MOON.
6
4
2 16
23 21
14 49
11 46
94
50
147
94
3 31
23 58
16 4
12 23
252
313
295
1
1 15
0 37
24
X Ophiuchi
6
21 19
9 2
180
131
Star 1 '.7
south of
D'«
limb.
Oct. 1
4
8
12
13
B Aquarii
88 Piscium
B. A. C. 1526
a Cancrif
n Leonis
44
6
54
4
5
18 2
5 16
21 58
1 26
5 55
5 17
16 19
8 45
11 57
16 21
83
96
144
91
34
128
47
194
138
85
19 13
6 13
22 21
2 18
6 15
6 29
17 15
9 9
12 49
16 41
238
231
198
286
277
180
249
3:*6
51
1 11
0 57
0 23
0 52
0 20
Not*.— The angles of positio
* Whole oocaltation
t Immersion below tl
X Emersion below th<
nare
below
lie hoi
»horii
counted fn
the horizo
icon of W
Bonof Wai
wn the nort
n of Wash
uhington.
ihington.
th point
ington.
and vertex of the moon's liml
t>, toward the east.
28
434
OCCULTATIONS, 1884.
OCCULTATIONS VISIBLE AT WASHINGTON DURING THE YEAR 1884.
Ths Star's
IMMERSION.
EMERSION.
i of Ocenl*
ion.
Date.
Washington
Angle
from
Washington
Angle from
|3
Name.
Mag.
Sidereal
Mean
North
Ver-
Sidereal
Meau
North
Ver-
8
Time.
Time.
Point
tex.
Time.
Time.
Point.
tex.
&
b m
h in
o
o
h m
h ni
c
e
h tn
NE W MOON.
Oct. 26
0 Capricorn!
3
23 42
9 19
37
357
0 40
10 17
285
239
058
Nov. 1
B. A. C.4IOf
6
18 49
4 2
30
81
19 29
4 42
293
345
0 40
1
o Piscium
44
6 45
15 57
110
58
7 32
16 44
222
171
0 47
2
31 Arietis
54
2 29
11 38
89
89
3 43
12 52
234
206
1 14
5
130 Tauri
6
4 29
13 25
177
210
Star 5^.8
south of
r*
limb.
6
26 Geminorum
64
0 56
9 49
2
55
1 0
9 53
354
48
0 4
8
A1 Cancri
6
2 16
11 1
134
185
3 3
11 47
242
295
0 46
11
79 Leonisf
NEW MOON.
r>4
4 59
13 32
63
114
5 41
14 13
333
24
0 41
25
Lalande 43974
6
0 44
8 23
82
49
1 55
9 34
228
185
I 11
26
B. A. C. 8094
54
21 2
4 37
154
185
Star3'.9
south of
D'«
limb.
28
88 Piscium
6
6 13
13 38
72
21
7 9
14 36
257
206
0 57
Dec. 1
63 Tanrit
6
10 36
17 49
121
69
11 18
18 31
236
187
0 42
2
115 Tauri
6
10 23
17 32
95
40
11 17
18 27
273
220
054
4
X Geminorum
4
1 51
8 54
124
178
2 42
9 44
239
293
050
4
68 Geminorum
51
10 29
17 31
IBM
132
10 43
17 44
206
154
0 14
6
k Leonis
54
10 44
17 37
147
119
11 47
18 41
260
218
1 4
7
43 Leonis
64
8 32
15 22
49
82
9 7
15 57
359
22
035
8
75 Leonis
54
10 32
17 18
64
77
11 23
18 8
352
348
0 50
8
76 Leonis
NEW MOON.
64
11 44
18 30
99
88
13 3
19 48
316
285
I 18
22
0 Aquarii
44
2 4
7 56
69
26
3 10
9 2
247
198
1 6
22
p Aquarii*
54
4 12
10 4
160
109
Star 5^.3
south of
)>'•
limb.
26
o Piscium
44
6 41
12 17
43
351
7 30
13 6
289
237
0 49
27
31 Arietis
54
3 59
9 31
52
19
5 10
10 42
276
230
1 11
27
38 Arietis
5
8 35
14 7
171
119
8tar3'.3
south of
D'«
limb.
31
26 Geminorum
54
1 25
6 41
78
132
2 24
7 40
278
333
059
Note.— The angles of position are
wanted fr
om the nor
th point
and vertex of the moon's Urn
b, toward the east.
* Whole occultation belo*
- the nortec
m of Waal
lington.
t Immersion below the ho
cizonof W
aehington.
X Emersion below the bori
son of Wai
Bhington.
436
DISK OF MERCURY, 1884.
FOR WASHINGTON MEAN NOON.
Date.
k
i
$
L
Date.
k
i
e
L
Jan.
1
0.694
67?2
352?1
57.2
July 4
0.910
35?0
182?2
67.0
6
0.511
88.7
347.4
63.0
9
0.984
14.6
196.3
66.6
11
0.276
116.7
342.7
49.7
14
0.996
7.4
328.1
59.4
.
16
0.069
149.6
331.8
20.3
19
0.961
22.7
0.4
50.3
21
0.009
168.8
226.8
2.3
24
0.906
35.7
9.3
42.4
26
0.113
140.7
185.4
21.6
29
0.846
46.2
14.8
36.8
31
0.274
116.8
179.0
37.1
Aug. 3
0.787
55.0
18.6
33.3
Feb.
5
0.422
99.0
175.0
40.2
8
0.728
62.8
21.6
31.4
10
0.538
85.6
171.4
37.8
13
0.669
70.2
23.9
30.7
15
0.628
75.2
167.9
34.4
18-
0.606
77.8
25.9
31.0
20
0.698
66.7
164.2
31.5
23
0.534
86.1
27.6
31.9
25
0.754
59.4
160.7
29.6
28
0.450
95.8
29.3
32.8
Mar.
1
0.802
52.8
157.2
28.8
Sept. 2
0.348
107.7
31.4
32.5
6
0.846
46.2
153.9
29.1
7
0.229
122.8
a5.o
28.2
11
0.886
39.4
150.6
30.6
12
0.104
142.3
40.4
16.9
1G
0.926
31.6
147.3
33.7
17
0.016
• 165.5
59.2
3.1
21
0.958
23.8
143.4
38.5
22
0.028
160.7
187.5
5.9
26
0.991
11.1
134.0
46.1
27
0.167
131.8
203.0
31.5
31
0.998
5.1
7.9
55.9
Oct. 2
0.400
101.6
206.4
59.2
Apr.
5
0.964
22.5
338.6
65.8
7
0.630
75.0
209.0
67.1
10
0.863
43.4
335.9
70.3
12
0.800
53.1
210.6
60.0
15
0.710
65.2
336.2
66.2
17
0.906
35.7
211.5
49.1
20
0.532
86.3
337.4
55.3
22
0.960
23.0
211.7
39.7
25
0.377
104.2
339.2
43.6
27
0.988
12.7
211.8
32.9
30
0.239
121.5
340.4
31.1
Nov. 1
0.997
6.0
213.4
28.6
May
5
0.126
138.3
340.2
18.6
6
0.999
2.7
19.6
26.0
10
0.045
155.4
341.9
7.4
11
0.994
8.8
22.8
24.7
15
0.005
172.8
355.0
0.8
16
0.983
14.4
21.1
24.6
20
0.008
169.8
144.8
1.3
21
0.967
21.0
18.1
25.5
25
0.051
153.8
151.0
8.0
26
0.943
27.6
14.7
27.6
30
0.122
139.1
153.5
16.6
Deo. 1
0.908
35.2
10.8
31.3
Jane
4
0.208
125.3
155.5
24.5
6
0.856
44.6
6.7
36.9
9
0.304
113.1
157.7
31.1
11
0.776
56.5
2.6
44.8
14
0.408
100.6
160.5
37.1
16
0.654
72.1
356.3
54.0
19
0.523
87.4
164.1
43.9
21
0.471
93.3
354.4
58.7
24
0.652
72.3
168.7
52.0
26
0.242
121.1
350.2
45.0
29
0.780
55.9
174.7
60.2
31
0.046
155.1
338.3
11.3
34
0.910
35.0
182.2
67.0
36
0.020
163.8
328.7
4.8
NOTATION.
jfc, the ratio of the illuminated portion of the apparent disk to the entire apparent disk con-
sidered as the superficies of a circle.
t, the angle between the sun and earth, as seen from the planet.
0, the angle which the line joining the cusps, or extremities of the illuminated portion, makes
with the meridian.
L, the brilliancy of the disk. The unit of L is the amount of light received by an eye from
a circular disk with the same albedo hs the planet, subtending an angular radius of one
second of arc, situated nt distance unity from the sun, and illuminated by the latter as
the mean disk of the planet is illuminated.
DISK OF VENUS, 1884.
437
FOR WASHINGTON MEAN NOON.
Date
k
i
e
L
Date.
*
4
e
L
Jan. 1
0.909
35.°3
349?1
57.0
July 6
0.013
167?1
33?0
20.2
6
0.899
37.0
346.9
58.2
8
0.007
170.6
46.7
10.9
11
0.890
38.7
345.0
59.5
10
0.004
172.9
72.5
6.1
16
0.880
40.5
343.3
60.9
12
0.004
173.1
108.7
6.1
21
0.870
42.3
341.9
62.3
14
0.007
170.6
136.0
10.9
26
0.859
44.1
340.6
63.9
16
0.013
167.2
,149.5
19.9
31
0.848
45.9
339.5
65.6
18
0.021
163.4
157.0
32.6
Feb. 5
0.836
47.8
338.6
67.5
20
0.032
159.5
161.7
47.9
10
0.824
49.7
338.0
69.5
22
0.044
156.7
164.9
64.8
15
0.811
51.6
337.6
71.6
24
0.059
151.9
167.2
82.5
20
0.797
53.6
337.4
74.0
26
0.075
148.2
169.0
100.1
25
0.782
55.6
337.4
76.5
28
0.092
144.8
170.4
116.6
Mar. 1
0.767
57.7
337.6
79.2
30
0.110
141.4
171.6
131.6
6
0.751
59.8
338.1
82.1
Aug. 1
0.128
138.1
172.7
145.0
11
i
0.734
62.0
338.8
85.3
3
0.146
135.0
173.8
156.4
16
0.717
64.3
339.7
88.7
8
0.193
127.8
176.0
177.4
21
0.699
66.6
340.8
92.5
13
0.238
121.6
178.1
186.4
26
0.680
69.0
342.1
96.6
18
0.281
116.0
180.2
188.6
31
0.660
71.4
343.5
101.0
23
0.321
110.9
182.3
185.9
Apr. 5
0.639
73.9
345.1
105.8
28
0.357
106.4
184.4
180.0
10
0.617
76.5
346.9
111.0
Sept. 2
0.393
102.3
186.6
172.5
15
0.593
79.2
348.9
116.6
7
0.426
98.5
188.8
164.5
20
0.569
82.0
350.9
122.9
12
0.457
95.0
190.9
156.2
25
0.543
85.0
353.0
129.4
17
0.486
91.6
193.0
148.2
30
0.516
88.1
355.1
136.5
22
0.513
88.5
195.0
140.5
May 5
0.488
91.4
357.1
144.3
27
0.539
85.5
196.9
133.3
10
0.458
94.9
359.1
152.4
Oct. 2
0.563
82.7
198.6
126.5
15
0.426
98.6
1.0
160.6
7
0.586
80.0
200.2
120.4
20
0.392
102.5
2.8
168.7
12
0.609
77.4
201.5
114.6
25
0.355
106.8
4.5
175.9
17
0.631
74.8
202.7
109.3
30
0.316
111.5
6.0
181.4
22
0.652
72.3
203.7
104.4
June 4
0.275
116.7
7.4
183.9
27
0.671
70.0
204.4
99.9
9
0.231
122.5
8.7
181.1
Nov. 1
0.690
67.7
204.9
95.8
14
0.185
129.1
9.9
170.3
6
0.708
65.4
205.2
92.0
16
0.166
131.9
10.5
163.0
11
0.726
, 63.2
205.2
88.4
18
0.147
134.8
11.1
153.9
16
0.743
61.0
204.9
85.1
20
0.129
137.9
11.8
142.7
21
0.759
58.8
204.4
82.0
22
0.110
141.1
12.6
130.1
26
0.774
56.7
203.6
79.2
24
0.093
144.5
13.4
115.5
Dee. 1
0.789
54.7
202.*
76.5
26
0.076
148.1
14.5
99.3
6
0.803
52.7
201.1
74.0
28
0.060
151.8
16.0
82.2
11
0.816
50.7
199.5
71.7
30
0.045
155.6
18.0
64.6
16
0.829
48.8
197.6
69.5
July 2
0.032
159.4
21.0
47.8
21
0.842
46.8
195.5
67.5
4
0.021
163.2
25.5
32.7
26
0.K54
44.9
193.1
65.6
6
0.013
167.1
33.0
20.2
31
0.865
43.1
190.5
63.9
438 SATELLITES AND DISK OF MARS, 1884.
The satellites of Man
i can probably not be observed
during the year 1884, the planet being
near aphelion.
•
THE APPARENT DI8K OF MARS.
1884, January
1
0.982
31
1.000
•
March
1
31
0.965
• 0.917
April
30
0.897
May
30
0.899
June
29
0.913
July
29
0.927
Augurt
28
0.945
Septetnbei
• 27
0.962
October
27
0.977
November 26
0.988
December
26
0.996
The numbers which
represent the apparent disk are the versed sines of the illuminated
portion divided by the
apparent diameter, or
the ratio of the apparent
illuminated disk to
the entire disk.
JUPITER'S SATELLITES, 1884.
439
APPAEENT ORBITS OF THE SATELLITES OF JUPITER IN 1884,
AS SEEN IN AN INVERTING TELESCOPE.
{The vertical scale i*Jwe times (he horizontal one.)
The object of this figure is to facilitate the identification of the satellites in cases where
the diagrams of configurations do not suffice for that purpose: reference to the above diagram
enables one to identify the inner and outer satellite of the pair. The central, vertical ellipse
represents the disk of Jupiter, elongated five times in the vertical direction to correspond to
the representation of the orbits of the satellites.
Facing each page of the phenomena of Jupiter's satellites, pages 443 — 460, is the page of
diagrams of configurations, for the same month. The light disks O in the vertical row in the
middle of the page represent the relative position of Jupiter each day. The dots adjacent
in the same horizontal space represent the positions of the several satellites on the same day,
at the hour and minute of Washington mean time indicated above the diagrams. The lati-
tudes of the satellites are always considered zero in constructing the diagrams, except where
two or more satellites chance to be at nearly the same distance from the planet, when they
are placed one above the other according to their apparent latitudes. The numerals designat-
ing the satellites are placed on the right or left hand side of the dot, according as the
motion of the satellite, for the time of the configuration, is toward the east or toward the
west— the moiion being always toward the numeral. Frequently, at the epoch of the config-
uration, one or more satellites will be invisible, being projected on the disk of the planet:
this phenomenon is indicated by a light disk O at the left hand side of the page. Frequently,
also, one or more satellites will be invisible, being concealed in occultation behind the disk,
or eclipsed in the shadow of the planet: this phenomenon is indicated by a dark disk # at
the right hand side of the page. In both cases, the annexed numeral serves to point out
which satellite is thus rendered invisible.
When an observation is made at a different hour from that for which the diagram is con-
structed, the motion of the satellite during the interval may be judged by transferring its
given position to the above diagram, and estimating its motion during the elapsed interval on
the above diagram of the orbits, by means of the following table of the periods: —
MEAN SYNODIC PERIODS OF THE SATELLITES.
L
1L
IIL
IV.
d h m s d
I 18 28 35.945 = 1.76986048
3 13 17 53.735 = 3.55409416
7 3 59 35.854 = 7.16638730
16 18 5 6.928
16.75355241
440
JUPITER'S SATELLITES, 1884.
WASHINGTON MEAN TIMES OF GEOCENTRIC SUPERIOR CONJUNCTION.
SATELLITE I.
h m
h m
h m
h m
Jan. 0
5 54.9
Mar. 19
19 46.0
June 7
11 39.2
Oct. 16
12 49.8
2
24 20.8
21
14 13.8
9
6 9.4
18
7 19.2
3
18 46/7
23
8 41.8
11
0 39.4
20
1 48.6
5
13 12.7
25
3 9.8
12
19 9.6
21
20 17.9
7
7 38.5
26
21 38.0
14
13 39.7
23
14 47.2
9
2 4.4
28
16 6.1
16
8 10.0
25
9 16.4.
10
20 30.4
30
10 34.3
18
2 40.2
27
3 45.5
12
14 56.2
Apr. 1
5 2.6
19
21 10.4
28
22 14.7
14
9 22.0
2
23 31.0
21
15 40.6
30
16 43.7
16
3 47.9
4
17 59.5
23
10 10.9
Nov. 1
11 12.8
17
22 13.7
6
12 28.0
25
4 41.1
3
5 41.7
19
16 39.6
8
6 56.5
26
23 11.5
5
0 10.6
21
11 5.4
10
1 25.2
28
17 41.8
6
18 39.5
23
5 31.4
11
19 53.8
30
12 12.2
8
13 8.3
24
23 57.3
13
14 22.6
10
7 37.1
26
18 23.2
15
8 51.5
12
2 5.9
28
12 49.2
17
3 20.5
13
20 34.5
30
7 15.1
18
21 49.5
15
15 3.0
Feb. 1
1 41.1
20
16 18.5
17
9 31.6
2
20 7.2
22
10 47.5
Aug. 31
11 53.8
19
4 0.0
4
14 33.3
24
5 16.7
Sept. 2
6 24.1
20
22 28.5
6
8 59.5
25
23 45.8
4
0 54.2
22
16 56.8
8
3 25.6
27
18 15.1
5
19 24.4
24
11 25.1
9
21 51.9
29
12 44.3
7
13 54.4
26
5 53.4
11
16 18.1
May 1
7 13.8
9
8 24.6
28
0 21.5
13
10 44.6
3
t 43.1
11
2 54.6
29
18 49.6
15
ft 11.0
4
20 12.6
12
21 24.7
Deo. 1
13 17.6
16
23 37.5
6
14 42.0
14
15 54.7
3
7 45.6
18
18 3.9
8
9 11.5
16
10 24.8
5
2 13.5
20
12 30.6
10
3 41.1
18
4 54.7
6
20 41.3
22
6 57.2
11
22 10.8
19
23 24.6
8
15 9.0
24
1 24.0
13
16 40.4
21
17 54.5
10
9 36.8
25
19 50.8
15
11 10.1
23
12 24.4
12
4 4.4
27
14 17.7
17
5 39.8
25
6 54.3
13
22 31.9
29
8 44.6
19
0 9.6
27
1 24.1
15
16 59.5
Mar. 2
3 11.7
20
18 39.4
28
19 53.8
17
11 26.9
3
21 38.6
22
13 9.3
30
14 23.6
19
5 54.3
5
16 5.9
24
7 39.1
Oct. 2
8 53.4
21
0 21.5
7
10 33.1
26
2 9.1
4
3 23.0
22
18 48.7
9
5 0.4
27
20 38.9
5
21 52.7
24
13 15.9
10
23 27.8
29
15 8.9
7
16 22.4
26
7 42.9
12
17 55.3
31
9 38.9
9
10 51.9
3?
2 10.0
14
12 22.8
June 2
4 9.1
11
5 21.4
29
20 36.9
16
6 50.5
3
22 39.1
12
23 50.9
31
15 3.8
18
1 18.1
5
17 9.2
14
18 20.4
JUPITER'S SATELLITES, 1884.
441
■
WASHINGTON MEAN TIMES OF GEOCENTRIC SUPERIOR CONJUNCTION.
SATELLITE
II
•
•
/
h m
h m
h m
h m
Jan.
2
8 22.8
Mar.
20
9 45.4
Jnne
6
14 39.6
Oct
16
6 15.9
5
21 30.7
23
22 59.5
10
4 2.0
.
19
19 37.7
9
10 38.2
27
12 14.3
13
17 24.7
23
8 59.9
12
23 45.1
31
1 29.6
17
6 47.5
26
22 21.0
16
12 52.5
Apr.
3
14 45.4
20
20 10.6
30
11 42.7
20
1 59.4
7
4 1.7
24
9 33.7
Nov.
3
1 3.1
23
15 6.7
10
17 18.6
27
22 57.0
6
14 24.0
27
4 13.6
14
6 36.0
10
3 43.5
30
17 21.2
17
19 53.6
13
17 1.7
Feb.
3
6 28.6
21
9 11.8
. Sept.
1
0 11.4
17
6 22.4
6
19 36.5
24
22 30.4
3
13 35.4
20
19 41.6
10
8 44.6
28
11 49.3
7
2 59.2
24
8 59.5
13
21 53.2
May
2
1 8.7
10
16 23.3
27
22 17.9
17
11 2.1
5
14 28.4
14
5 47.0
Dec.
1
11 34.6
21
0 11.6
9
3 48.5
17
19 11.1
5
0 51.9
24
13 21.5
12
17 8.9
21
8 34.5
8
14 7.6
28
2 31.9
16
6 29.6
24
21 58.3
12
3 23.8
Mar.
2
15 42.7
19
19 50.7
28
11 21.4
15
16 38.4
6
4 54.1
23
9 12.0
Oct
2
0 45.0
19
5 53.5
9
18 6.1
26
22 33.6
5
14 7.7
22
19 6.9
13
7 18.7
30
11 55.4
9
3 3<X9
26
8 20.8
16
20 31.7
June
3
1 17.3
12
16 53.2
29
21 33.1
£
SATELLITE
II]
[.
h m
h m
h m
h m
Jan.
4
18 33.0
Mar.
30
11 56.9
June
24
14 12.6
Oct.
17
12 51.0
11
21 49.1
Apr.
6
15 49.6
31
18 37.9
24
17 4.8
19
1 4.4
13
19 46.5
31
21 15.8
26
4 20.4
20
23 47.8
Nov.
8
1 24.2
Feb.
2
7 36.9
28
3 53.0
15
5 29.0
9
10 55.7
May
5
8 2.1
Sept.
4
10 42.3
22
9 30.5 '
16
14 17.0
12
12 13.7
11
15 7.2
29
13 27.3
23
17 42.1
19
16 28.3
18
19 31.3
Dec.
6
17 19.9
Mar.
1
21 11.3
27
20 44.9
25
23 54.0
13
21 7.8
9
0 45.5
June
3
1 3.7
Oct.
3
4 15.5
21
0 51.1
16
4 24.9
10
5 24.8
10
8 34.3
28
4 29.7
23
8 8.6
17
9 47.7
£
JATELLITE
IV
•
h m
h m
h m
h m
Jan.
14
1 57.7
Apr.
6
6 48.1
Juno
29
7 26.8
Oct.
25
6 5.5
30
16 0.5
23
0 51.0
Nov.
It
1 6.5
Feb.
16
6 24.6
May
9
19 41.1
Sept.
4
17 58.4
27
19 21.7
Mar.
3
21 34.3
26
15 10.2
21
14 22.6
Dec.
14
12 42.3
20
13 41.0
June
12
11 8.0
Oct.
8
10 27.6
31
5 3.1
442
JUPITER'S SATELLITES, 1884.
^
fASHINGTO*
r mi
JARY
SAN
TIH
E.
JANt
d h m •
cl h m a
d h m s
1 1 23
in.
8h.
In.
11 5 45
n.
Sh.
Eg.
31 21 38
n.
Sh.
Eg.
1 37
I.
8h.
In.
6 10
n.
Tr.
Eg.
33 558
rv.
Tr.
In.
2 4
I.
Tr.
In.
16 28
i.
Sh.
IrT.
644
IV.
8h.
In.
3 10
III.
Tr.
In.
16 39
i.
Tr.
In.
7 15
I.
Tr.
In.
3 57
I.
Sh.
Eg.
18 48
i.
Sh.
Eg.
7 19
I.
Sh.
In.
423
L
Tr.
Eg.
18 59
L
Tr.
Eg.
. 935
I.
Tr.
Eg.
4 55
III.
Sb.
Eg.
19 21 9.3
in.
Ec.
Dis.
9 39
I.
Sh.
Eg.
6 46
III.
Tr.
EP.
23 37
in.
Oc.
Re.
10 29
rv.
Tr.
Eg.
Eg.
22 47 38.7
I.
Ec.
Da.
19 13 38 29.2
i.
Ec.
Dis.
11 8
IV.
Sh.
3 1 31
I.
Oc.
Re.
16 6
i.
Oc.
Re.
12 59
in.
Tr.
S
6 7 1.5
II.
Ec
Die.
22 0 45.7
ii.
Ec
Dis.
13 20
in.
8h.
In.
950
n.
Oc.
Re.
IS 1 12
n.
Oc
Re.
16 34
in.
Tr.
Eg.
20 5
L
8h.
In.
10 56
i.
Sh.
In.
16 63
m.
Sh.
&
20 30
I.
Tr.
In.
11 5
i.
Tr.
In.
23 4 21
i.
Oc
22 25
I.
Sh.
Eg.
13 16
i.
Sb.
Eg.
6 44 46.3
i.
Ec.
Re
22 49
I.
TV.
Eg.
13 25
i.
Tr.
Eg.
Dm.
13 39
ii.
Oc
Dis.
3 17 16 4.2
I.
Ec
Dfc
22 32 28.9
IV.
Ec
16 44 22.6
n.
Ec
Re
19 57
I.
Oc.
Re.
14 4 13
IV.
Oc.
Re.
34 1 41
i.
Tr.
In.
4 0.17
II.
Sh.
In.
8 6 57.8
i.
Ec.
Dis.
1 47
i.
Sh.
In.
1 3
II.
Tr.
In.
10 32
i.
Oc
Re.
4 1
i.
Tr.
Eg.
3 11
II.
Sh.
Eg.
16 9
n.
Sh.
In.
4 7
i.
Sh.
Eg.
Dis.
3 57
11.
Tr.
Eg.
16 22
ii.
Tr.
In.
22 47
i.
Oc
14 34
I.
Sh.
In.
19 3
ii.
Sh.
Eg.
3ft 1 13 20.1
i.
Ec
Re.
14 56
I.
Tr.
In.
19 17
ii.
Tr.
Eg.
743
n.
Tr.
In.
15 22 34.3
in.
Ec.
Dis.
1ft 5 25
i.
Sh.
In.
8 1
ii.
Sh.
In.
16 54
i.
8h.
Eg.
5 31
i.
Tr.
In.
10 38
ii.
Tr.
Eg.
17 15
i.
Tr.
Eg.
7 45
i.
8h.
Eg.
10 55
ii.
sh:
Ei-
20 21
in.
Oc.
Re.
7 51
i.
Tr.
Eg.
20 7
i.
Tr.
S!
* 11 44 3^5
i.
Ec.
Dis.
9 21
in.
8b.
In.
20 16
i.
Sh.
In.
12 45
IV.
Sb.
In.
944
in.
Tr.
In.
22 27
h
Tr.
Eg.
14 23
i.
Oc
Re.
12 54
in.
Sh.
Eg.
22 36
i.
Sh.
Eg.
Dis.
15 53
IV.
Tr.
In.
13 19
m.
Tr.
Ep.
Dis.
36 2 33
in.
Oc
17 4
IV.
Sh.
Eg.
Dm.
10 2 35 32.1
i.
Ec.
6 44 30.4
in.
Ec
Re
19 24 42.3
n.
Ec.
4 58
i.
Oc.
Re
17 13
i.
Oc
Die
20 24
IV.
Tr.
Eg.
11 19 4.3
ii.
Ec
Dis.
19 41 57.5
i.
Ec
Re.
22 58
n.
Oc.
Re.
14 20
u.
Oc
Re.
37 2 46
ii.
Oc
Dis.
• 9 2
i.
8h.
In.
23 53
i.
Sh.
In.
6 2 5.8
ii.
Ec
Re
9 22
i.
Tr.
In.
23 57
i.
Tr.
In.
14 33
i.
Tr.
In.
11 22
i.
Sh.
E*
17 2 13
i.
Sh.
Eg.
14 45
i.
Sh.
In.
11 41
i.
Tr.
Eg.
Die.
2 17
i.
Tr.
Eg.
Dis.
16 53
i.
Tr.
Eg.
7 6 13 0.0
i.
Ec.
21 4
i.
Oc.
17 5
i.
Sh.
Eg.
Dl8.
8 48
h
Oc.
Re.
23 24
i.
Oc.
Re.
38 11 39
i.
Oc.
13 34
n.
Sh.
In.
18 5 26
n.
Sh.
In.
14 10 31.7
i.
Ec
Re
14 9
ii.
Tr.
In.
5 29
ii.
Tr.
In.
20 50
ii.
Tr.
In.
16 28
ii.
Sh.
Eg.
8 20
n.
Sh.
Eg.
21 19
ii.
Sh.
In.
17 4
n.
Tr.
Eg.
824
n.
Tr.
Eg.
23 45
ii.
Tr.
Eg.
8 3 31
i.
Sh.
In!
18 22
i.
Sh.
In.
30 0 13
ii.
Sh.
Eg.
3 48
i.
Tr.
In.
18 23
i.
Tr.
In.
859
i.
Tr.
S.
522
in.
8h.
In.
20 42
i.
8h.
Eg.
9 13
i.
Sh.
In.
5 51
i.
Sh.
Eg.
20 43
L
Tr.
Eff.
11 19
i.
Tr.
Eg.
6 7
i.
Tr.
Eg.
23 17
in.
Oc.
Die.
11 33
i.
Sh.
Eg.
628
in.
Tr.
In*
10 2 52
in.
Oc.
Re.
16 15
in.
Tr.
In. .
854
in.
Sh.
Eg.
15 30
i.
Oc.
Dis.
17 18
in.
Sh.
In.
10 3
in.
Tr.
Eg.
17 50
i.
Oc.
Re.
19 49
in.
Tr.
Eg.
• 0 41 30.8
i.
Ec.
Die.
30 0 32
ii.
Oc.
Dis.
20 52
in.
Sh.
Ep.
3 14
i.
Oc.
Re.
3 26 8.0
ii.
Ec.
Re.
30 6 5
i.
Oc
Die
8 43 3.8
u.
Ec.
Die.
12 49
i.
Tr.
In.
8 39 12.3
i.
Ec
Re.
12 5
ii.
Oc.
Re.
12 50
i.
8h.
In.
13 46
IV.
Oc.
Dis.
21 59
i.
Sh.
In.
15 9
i.
Tr.
Eg.
15 54
ii.
Oc
Dis.
22 14
i.
Tr.
In.
15 10
i.
Sh.
Eg.
19 20 17.3
n.
Ec
Re
10 0 19
i.
Sh.
Eg.
31 9 55
i.
Oc.
Dis.
20 53 12.6
IV.
Ec
Re.
0 33
i.
Tr.
Eg.
Dfe.
12 16 8.2
i.
Ec
Re.
31 3 25
i.
Tr.
In.
19 9 58.4
i.
Ec.
18 36
n.
Tr.
In.
3 42
i.
Sh.
In.
21 40
L
Oc.
Re.
18 44
n.
Sh.
In.
5 45
i.
Tr.
Eg.
11 2 51
ii.
Sh.
In.
21 31
ii.
Tr.
Eg.
6 2
i.
Sh.
Eg.
3 15
ii.
Tr.
In.
Not*.— In. denote* ingress; Eg., egress; Dis., disappearance; Re., reappearance; Ec, eclipse.
Oc denotes ooonltation; Tr., transit of the satellite; Sh., transit of the shadow.
JUPITER'S SATELLITES, 1884.
443
WASHINGTON MEAN TIME.
JANUARY.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
I.
ft
TTT .1 / - A
III. ^ ( 4
w
• \r 7
II
•ft
.f~\
IV. Jf )
kJ
m' \ /
Configurations at .12* for an Inverting Telescope.
JHj.
West
Km*.
1
•2 1- 3- O -4
2
3- O '2 1- 4-
3
•3 -l O 2* 4'
4
2- 3 O I' 4-
5
•2 O 4- -3
•1 •
6
4- I'O -2 3
7
4- O 2-1 3-
8
4- 2- V 3- O
9
4- 3- O 'I
■2 9
10
•4 -3 -1 O 2"
11
4 I O V
12
•4 2 1 O -3
13
Ol" -4 O 2 -3
14
15'
o v; 3-
Q3- 2- 1- O -4
16
3* O '1 *4
2 9
17
•3 -1 C
) 2- -4
) 1- 4-
18
•3 2- C
19
•2 -1 O '3 4-
20
lO * '2 3 4-
21
O 2* 4- 3-
•)•
22
23
2' 1-4-©'
4; • o* i
24
25
4-3 1- O '2
4- -3 2- O 1'
26
4- 2 1 O 3
27
•4 O 1' '2 *3
28
•4 O 2- 3-
!•
29
•4 2- 1- O 3-
30
3- -2 • 04 'I
.
31
3-. 1" O *4-2
'
444
JUPITER'S SATELLITES, 1884.
WASHINGTON MEAN TIME.
FEBRUARY.
d h m s
d b m •
d h m s
1 0 31
I.
Oc
Dig.
30 18 1
I.
Tr.
In.
20 5 51
III.
Tr.
Eg.
3 7 48.4
I.
Ec.
Re.
18 34
I.
Sh.
In.
8 52
III.
Sh.
Eg.
Die.
9 57
II.
Tr.
In.
20 20
I.
Tr.
Eg.
11 21
I.
Oc
10 37
II.
Sh.
In.
20 54
I.
Sh.
Eg.
Dis.
14 23 25.1
I.
Ec
Re.
12 52
II.
Tr.
Eg.
11 15 8
I.
Oc.
22 44
II.
Oc.
Dis.
13 31
II.
Sh.
Eg.
17 59 46.9
I.
Ec.
Re
M 3 7 43.0
n.
Ec
Re.
21 51
I.
Tr.
In.
w 122
II.
Tr.
In.
840
i.
Tr.
In.
2211
I.
Sh.
In.
2 31
II.
Sh.
In.
926
i.
Sh.
In.
a o To
I.
Tr.
Eg.
4 17
II.
Tr.
Eg.
11 0
i.
Tr.
Eg.
0 31
I.
Sh.
Eg.
525
n.
Sh.
Eg.
11 47
h
Sh.
Eg.
Dis.
5 50
in.
Oc
Dm.
12 28
i.
Tr.
In.
99 5 47
i.
Oc
10 44 10.1
in.
Ec.
Re.
13 3
i.
Sh,
In.
8 52 7.6
L
Ec
Re.
18 57
i.
Oc
Die
14 47
i.
Tr.
Eg.
16 50
n.
Tr.
In.
21 36 28.1
i.
Ec
Re.
15 23
i.
Sh.
Eg.
18 25
n.
Sh.
In.
3 5 1
ii.
Oc
Dis.
22 52
in.
Tr.
In!
19 44
n.
Tr.
Eg.
8 38 1.5
n.
Ec
Re.
13 1 16
in.
Sh.
In.
21 20
n.
Sh.
Eg.
16 17
i.
Tr.
In.
226
in.
Tr.
Eg.
93 3 7
i.
Tr.
In.
16 39
i.
Sh.
In.
4 51
in.
Sh.
Eg.
3 55
i.
Sh.
In.
18 36
i.
Tr.
Eg.
9 35
i.
Oc.
Dis.
527
i.
Tr.
Eg.
18 59
i.
Sh.
Eg.
12 28 32.3
i.
Ec.
Re.
6 15
i.
Sh.
Eg.
Du.
. 4 13 23 /
i.
Oc
20 36
ii.
Oc.
Dis.
15 55
ni.
Oc.
16 5 4.8
i.
Ec.
Re.
14 0 31 57.9
ii.
Ec
Re.
22 43 15.0
in.
Ec.
Re.
23 5
n.
Tr.
In.
6 54
i.
Tr.
In.
94 0 14
i.
Oc
Dis.
23 55
n.
Sh.
In.
7 31
i.
Sh.
In.
3 20 54.4
i.
Ec
Re.
3 2 0
n.
Tr.
Eg.
9 13
i.
Tr.
Eg.
10 56
IV.
Tr.
In.
249
ii.
Sh.
Eg.
9 51
i.
Sh.
Eg.
Du.
11 54
n.
Oc
Dis.
10 43
i.
Tr.
In.
Iff 4 1
i.
Oc.
15 23
IV.
Tr.
Eg.
11 8
i.
Sh.
In.
6 57 12.7
i.
Ec.
Re.
16 25 27.6
ii.
Ec
Re
13 2
i.
Tr.
Eg.
14 31
ii.
Tr.
In.
18 44
IV.
Sh.
In.
13 28
i.
Sh.
Eg.
15 49
n.
Sh.
In.
21 33
L
Tr.
In.
19 32
in.
Tr.
In.
17 25
ii.
Tr.
Eg.
22 23
I.
Sh.
In.
21 17
in.
Sh.
In.
18 43
ii.
Sh.
Eg.
23 17
IV.
Sh.
Eg.
23 7
m.
Tr.
Eg.
16 1 21
i.
Tr.
In.
23 53
I.
Tr.
Eg.
. t 0 52
in.
Sh.
Eg.
2 0
i.
Sh.
In.
M 0 43
I.
Sh.
Eg.
7 50
i.
Oc.
Die.
340
i.
Tr.
Eg.
Du.
18 41
I.
Oc
10 33 47.8
i.
Ec.
Re.
4 11
IV.
Oc.
21 49 36.4
I.
Ec
Re.
18 9
ii.
Oc
Dis.
4 20
i.
Sh.
Eg.
9t 6 1
II.
Tr.
In.
21 56 9.2
ii.
Ec.
Re.
8 38
IV.
Oc
Re.
7 43
II.
Sh.
In.
7 5 9
i.
Tr.
In.
10 36 30.6
IV.
Ec.
Dis.
8 55
II.
Tr.
Eg.
5 37
i.
Sh.
In.
12 30
HI.
Oc.
Dis.
10 38
II.
Sh.
Eg.
7 28
i.
Tr.
Eg.
14 59 47.8
IV.
Ec.
Re.
16 0
I.
Tr.
In.
7 57
i.
Sh.
Eg.
18 43 36.8
in.
Ec.
Re
16 52
I.
Sh.
In.
20 11
IV.
Tr.
In.
22 28
i.
Oc.
Dis.
18 20
I.
Tr.
Eg.
8 0 39
IV.
Tr.
Eg.
IT 1 25 57.4
i.
Ec.
Re.
19 12
I.
Sh.
Eg.
0 44
IV.
Sh.
In.
9 35
ii.
Oc.
Dis.
97 544
III.
Tr.
In.
2 16
i.
Oc
Dis.
13 49 42.7
n.
Ec
Re
9 16
III.
Sh.
In.
5 2 26.2
i.
Ec.
Re.
19 47
i.
Tr.
In.
9 18
III.
Tr.
Eg.
5 12
IV.
Sh.
Eg.
20 29
i.
Sh.
In.
12 52
in.
Sh.
Eg.
12 13
n.
Tr.
In.
22 7
i.
Tr.
Eg.
13 8
i.
Oc.
Die
13 13
n.
Sb.
In.
22 49
i.
Sh.
Eg.
16 18 25.9
i.
Ec
Re
15 8
ii.
Tr.
Eg.
18 16 54
i.
Oc.
Dis.
98 1 5
n.
Oc.
Dis.
16 7
n.
8h.
Eg.
19 54 37.8
i.
Ec.
Re.
5 43 24.0
n.
Ec.
Re.
23 35
i.
Tr.
In.
19 3 40
ii.
Tr.
In.
10 27
i.
Tr.
In.
• 0 5
i.
Sh.
In.
5 7
n.
Sh.
In.
11 21
i.
Sh.
In.
154
i.
Tr.
Eg.
6 34
ii.
Tr.
Eg.
12 47
i.
Tr.
Eg.
2 25
i.
Sh.
Eg.
Die
8 2
n.
Sh.
Eg.
13 41
i.
Sh.
Eg.
D?e
9 9
in.
Oc.
14 14
i.
Tr.
In.
9t 7 35
i.
Oc
14 44 3.0
in.
Ec.
Re.
14 57
i.
Sh.
In.
10 47 9.9
i.
Ec.
Re.
20 42
i.
Oc.
Dis.
16 33
i.
Tr.
Eg.
19 12
n.
Tr.
In.
23 31 8.5
i.
Ec.
Re.
17 17
i.
Sh.
Eg.
21 1
ii.
Sh.
In.
1* 7 17
n.
Oc.
Dis.
9t 2 17
in.
Tr.
In.
22 6
n.
Tr.
Eg.
11 13 53.8
n.
_Ec^
Re._
5 16
_IIL
Sh.
In.
23 56
ii.
Sh.
Eg^
Nots.— In. denotes ingress; Eg., egress; Dis., disappearance; Re., reappearance; Ec., eclipse.
Oc. denotes ooonltation; Tr., transit of the satellite; Sh., transit of the shadow.
JUPITER'S SATELLITES, 1884.
445
WASHINGTON MEAN TIME.
FEBRUARY.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
I.
rv
in £^l '
W
Kj •
II.
^ •
TV f ' 1 A
r
•
^ •
L/ •
Configurations at llh 30™ for an Inverting Telescope.
•
Bay.
Wert.
Bast.
1
O 2-
•3 O 1 4
2
3
•2 -1 O "3
•4
o i '3
•4
4
5
•1 O 2" 3-
4-
O l-
2' O 3- 4-
6
3-2 O 1 4"
7
3- 1- O 4- -2
8
•3 4- 20 * 1
9
4- -2 •! O
•3#
10
4* O *2 1- -3
11
4- - 'JO 2- 3-
12
13
•4 2- lO ' 3-
•4 I O
■\m
14
•4 3- J- O "2
15
•3 -4 O 2- -1
16
2- 1- ■ 03
•4#
17
O 1" '3-4
•2*
18
•1 O 2- 3- -4
19
2' O I' 3-
•4
20
•2 3- O
4-
•!•
21
3- 1- O 2
4-
22
23
•3 O -ir 4-
2- 1- -3 O 4-
24 |0 4-
• 02 1 '3
25 |
4- •! O 2- -3
26 |
4- 2- O I' 3-
87 |
4- ' 2 8:
O 2
28 |0 1-
4- 3-
29|
•4 -3 O 1 2-
446
JUPITER'S SATELLITES, 1884.
>
WASHINGTON MEAN TIME.
MARCH.
d h m s
d h m s
d h m s
1 4 54
I.
Tr.
In.
11 19 37
L
Tr.
In.
91 16 32 53.7
L
Ec Re.
549
L
8h.
In.
20 41
I.
Sh.
In.
99 232
II.
Tr. In.
7 14
I.
Tr.
Eg.
21 57
I.
Tr.
Eg-
4 52
n.
8b. In.
8 9
I.
8b.
**•
23 1
I.
Sh.
Eg.
526
n.
Tr. Eg.
19 24
IIL
Oc
Dm.
19 232
IV.
Tr.
Id!
747
IL
Sh. Eg.
22 58
III.
Oc.
Re
658
IV.
Tr.
Eg.
10 23
i.
Tr. In.
23 15 96.0
nL
Ec.
Die
12 45
IV.
Sh.
In.
1134
L
Sh. In.
9 2 2
I.
Oc
Die
12 51
III.
Tr.
In.
12 43
i.
Tr. Eg.
2 43 18,6
III.
Ec
Re.
16 25
UL
Tr.
"5t
13 54
i.
So. Eg.
Oc D&.
5 15 58.7
I.
Ec.
Re.
16 45
I.
Oc
99 622
in.
14 16
II.
Oc.
Die
17 14
in.
Sh.
In.
7 31
i.
Oc Die
19 1 8.0
IL
Ec
Re.
17 21
IV.
Sh.
Eg.
955
IIL
Oc Re
23 21
I.
Tr.
In.
20 8464
I.
Ec.
Re
11 1 46.6
i.
Ec Re
3 0 18
I.
Sh.
In.
20 51
III.
8h.
Eg.
Die
11 15 31.2
IIL
Ec Die
141
I.
Tr.
Eg.
IS 5 52
II.
Oc
14 44 36.4
in.
Ec Re
2 38
I.
Sh.
E£.
10 54 32.7
IL
Ec
Re
21 32
IL
Oc Die.
19 21
IV.
Oc
Die
14 4
L
Tr.
In.
94 2 47 40.3
IL
Ec Re
20 29^
I.
Oc
Die
15 10
L
Sh.
In.
4 51
i.
Tr. In.
23 44 424
I.
Ec.
Re,
16 24
L
Tr.
Eg.
6 3
i.
Sh. In.
23 48
IV.
Oc.
Re,
17 30
L
Sh.
Eg.
Die
7 11
i.
Tr. Eg.
Sh. Eg.
Oc. Die
4 4 39 35.2
IV.
Ec
Die
14 11 13
L
Oc
8 23
i.
824
II.
Tr.
In.
14 37 34.0
I.
Ec
Re
9ft 2 0
i.
9 6 41.2
IV.
Ec.
Re.
If 0 3
II.
Tr.
In.
5 30 334
i.
Ec Re
10 20
IL
Sh.
In.
2 15
II.
Sh.
In.
15 48
n.
Tr. In.
11 18
II.
Tr.
Eg.
2 57
II.
Tr.
Eg.
18 11
ii.
Sh. In.
13 15
IL
Sh.
Eg.
5 10
n.
Sh.
Eg.
18 42
n.
Tr. Eg.
17 48
I.
Tr.
In.
832
I.
Tr.
Id
21 6
ii.
Sh. Eg.
18 47
L
Sh.
In.
939
L
Sh.
In.
23 19
i.
Tr. S!
20 8
I.
Tr.
Eg.
10 52
,1.
Tr.
Eg.
99 032
i.
Sh. In.
21 7
I.
Sh.
Eg.
11 59
I.
Sh.
Eg.
1 39
i. *
Tr. Eg.
i 9 15
in.
Tr.
In.
19 2 38
in.
Oc
Die.
252
i.
Sh. Eg.
12 49
III.
Tr.
Eg.
5 40
I.
Oc
Die.
20 18
IIL
Tr. In.
13 15
in.
Sh.
5!
6 12
IIL
Oc
Re.
20 28
i.
Oc Die
14 56
i.
Oc
Die.
7 15 39.6
IIL
Ec
Die
23 51
in.
Tr. Eg.
16 52
iii.
Sh.
Eg..
9 6 25.8
I.
Ec
Re
23 59 283
i.
Ec Re.
18 13 334
L
Ec.
Re
10 44 18.2
in.
Ec.
Re
9T 1 13
ni.
Sh. In.
• 327
II.
Oc
Die
19 5
n.
Oc
Die
4 51
in.
Sh. Eg.
Oc Die
8 19 0.6
II.
Ec
Re.
IT 0 12 14.7
n.
Ec
Re
10 47
IL
12 15
L
•ftp.
In.
3 0
L
Tr.
In.
16 5 21.7
ii.
Ec Re
13 15
I.
Sh.
In.
4 7
i.
Sh.
In.
17 47
i.
Tr. In.
14 35
L
Tr.
Eg.
520
i.
Tr.
Eg.
Eg.
19 0
i.
Sh. In.
15 35
I.
Sh.
Eg-
627
i.
Sh.
20 7
L
Tr. Eg.
7 923
I.
Oc.
Die.
18 0 8
i.
Oc
Die
21 20
i.
Sh. Eg.
Oc Die
12 42 19.1
I.
Ec.
Re
3 35 12.0
i.
Ec
Re
98 14 56
i.
21 36
II.
Tr.
In.
13 17
n.
Tr.
In.
18 28 17.1
i.
Ec Re
23 38
II.
Sh.
In.
15 34
ii.
Sh.
In.
19 7
IV.
Tr. In.
8 0 30
II.
Tr.
Eg.
16 11
n.
Tr.
Eg.
23 33
IV.
Tr. Eg.
233
IL
Sh.
Eg.
18 29
n.
Sh.
Eg.
99 5 4
n.
Tr. In!
642
I.
Tr.
In.-
2128
i.
Tr.
In.
6 47
IV.
Sh. In.
7 44
I.
Sh.
In.
22 36
i.
Sh.
In.
730
u.
Sh. In.
9 2
I.
Tr.
Eg.
23 48
i.
Tr.
Eg.
758
IL
Tr. Eg.
10 4
I.
Sh.
Ep.
It 0 56
i.
Sh.
Eg.
10 25
n.
Sh. Eg.
22 59
III.
Oc.
Die
16 32
IIL
Tr.
I?.
11 26
IV.
Sh. Eg.
• 2 32
III.
Oc.
Re.
18 36
i.
Oc.
Die.
12 15
i.
Tr. In.
3 15 16.8
III.
Ec.
Die.
20 6
in.
Tr.
Eg.
13 29
i.
Sh. In.
350
I.
Oc.
Die.
21 13
in.
Sh.
In!
14 35
i.
Tr. Eg.
6 43 27.8
III.
Ec
Re.
22 4 5.7
i.
Ec.
Re.
15 49
i.
Sh. Eg.
Oc Die
7 11 94
I.
Ec
Re.
90 0 51
in.
Sh.
Eg.
Die
39 9 24
i.
16 39
II.
Oc.
Die
8 18
ii.
Oc
10 10
m.
Oc. Die
21 36 43.8
II.
Ec.
Re.
11 28
IV.
Oc
Die.
12 57 104
i.
Ec Re.
19 1 10
I.
Tr.
In.
13 30 0.0
ii.
Ec.
Re.
13 44
in.
Oc Re.
2 13
I.
Sh.
In.
15 54
IV.
Oc
Re.
15 15 29.6
in.
Ec Die
3 30
I.
Tr.
Eg.
15 55
i.
Tr.
In.
18 45 T>.2
in.
Ec Re
4 33
I.
Sh.
Eg.
Die
17 5
i.
Sh.
In.
31 0 2
ii.
Oc Die
22 18
I.
Oc
18 15
i.
Tr.
Eg.
5 23 0.0
n.
Ec Re
tl 1 39 54.5
I.
Ec
Re.
19 25
i.
Sh.
&
643
i.
Tr. In.
10 49
II.
Tr.
In.
22 42 45.7
IV.
Ec
7 58
i.
8h. In.
12 57
II.
Sh.
In.
91 3 13 18.3
IV.
Ec.
Re.
9 3
i.
Tr. Eg.
13 43
II.
Tr.
Eg.
13 4
i.
Oc
Die.
10 18
i.
Sh. Eg.
15 52
II.
Sh.
Eg.
Von.— Ie
Oc
ingress; Eg., egress; Die, disappearance; Be, reappearance; Ec., eclipse
oooultfttioni Tr., transit of the satellite; Sh., transit of the shadow.
JUPITER'S SATELLITES, 1884.
447
WASHINGTON MEAN TIME.
MAKCH.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
I.
Qi :
III (— V
r
•
O
m. ^j.
II.
^ •
,v C^
d
•
r
•
O '
{J
Configurations at llh for an Inverting Telescope.
B«j.
Wett
Bait
1
•4 2- *l O
2
•4 -2 O '1 *3
X
3
1- -4 O '2 3
4
02-
o ■; 3-
5
03-
•2 1 O "4
6
3- lO ' -2
•4
7
•3 O 2*
'4 -1 •
8
•i 1- O
4
•
9
•2 O %
4-
10
1- O 2 -34-
11
20' 1-4- 3-
IS
•2 -1 4- O r
13
4-3- O i
14
4* -3 O'l 2-
15
4- -3 2- l-O
16
•4 -2 O i
17
•4 I'O *2 *3
18
•4 O 2* *1 3-
19
S -l O 3-
90
3' • Q4 1-
•2*
21
3- 1 O %
22
el-
•3 2- O *4
23
•2 0#3
•4
1#
24
1- O '2 3
•4
25
O 2- -1 3-
4'
26
2- 1- O 3-
4-
27
3' O I' 4-
•2#
28
s' -1 O 4- 2'
29
•3 4- 2' lO *
30
4- -2 O
1 • 3 •
31
4' !• Q •» -3
448
JUPITER'S SATELLITES, 1884.
V
fASHINGTO*
J MEAN TIM
?IL.
E.
API
d b m s
d h m s
d h m s
1 3 52
I.
Oc
Dis.
JO 21 33
I.
Tr.
In.
21 3 14 41.8
m.
Ec
Dis.
7 25 584
L
Ec.
Re.
22 50
I.
Sh.
In.
6 45 21.2
III.
Ec.
Re.
18 20
II.
Tr.
In.
23 53
I.
Tr.
Eg.
Eg.-
Dis.
7 45
II.
Oc
Dis.
20 49
11.
8b.
In.
11 1 10
I
Sh.
12 26
I.
Tr.
In.
21 14
II.
Tr.
Eg.
18 44
I.
Oc.
13 8 24.6
n.
Ec.
Re
23 44
II.
Sh.
Eg-
22 19 11.5
I.
Ec
Re.
13 43
L
Sh.
In.
a 1 11
I.
Tr.
In.
1« 10 13
n.
Tr.
In.
14 46
i.
Tr.
Eg.
2 27
I.
8h.
In.
12 45
n.
Sh.
In.
16 3
i.
Sh.
Eg.
DlB.
3 31
I.
Tr.
Eg.
13 7
ii.
Tr.
Eg-
aa 9 38
i.
Oc.
4 47
I.
*h.
Eg.
15 40
n.
Sh.
Eg.
13 12 23.8
i.
Ec.
Re
22 21
I.
Oc.
DlS.
16 2
i.
Tr.
In.
22 37
IV.
Oc
Dis.
3 0 8
III.
Tr.
In.
17 19
i.
Sh.
In.
3S 2 11
u.
Tr.
In.
1 54 53£
I.
Ec.
Re.
18 22
i.
Tr.
Eg.
3 5
rv.
Oc.
Re,
3 41
III.
Tr.
Kg.
19 39
i.
Sh.
Eg.
Dis.
4 41
ii.
Sh.
In.
5 12
III.
Sh.
Iu.
IS 13 13
i.
Oc.
5 6
n.
Tr.
Eg.
In.
8 51
III.
Sb.
E*'
16 48 6.5
i.
Ec
Re.
6 55
i.
Tr.
13 18
II.
Oc.
Die
18 0
in.
Oc
Dis.
7 37
n.
Sh.
Eg.
In.
18 40 37.7
11.
Ec.
Re.
21 33
in.
Oc
Re.
8 11
i.
Sh.
19 39
I.
Tr.
In.
23 14 43.3
in.
Ec.
Dis.
9 15
i.
Tr.
Eg.
Dis.
20 56
I.
Sh.
In.
14 2 45 0.7
in.
Ec.
Re.
10 31
i.
Sh.
21 59
I.
Tr.
Eg.
5 9
n.
Oc.
Dis.
10 50 5.3
IV.
Ec
23 16
I.
Sh.
Eg.
10 30
i.
Tr.
In.
15 26 26.7
IV.
Ec
Re.
4 16 50
I.
Oc
Dm.
10 33 21.8
ii.
Ec.
Re.
SM 4 7
I.
Oc.
Dis.
20 23 43.5
I.
Ec.
Re.
11 48
i.
Sh.
In.
7 41 19.9
I.
Ec.
Re.
» 7 37
II.
Tr.
In.
12 39
IV.
Tr.
In.
12 4
III.
Tr.
In.
10 7
II.
8b.
In.
12 50
i.
Tr.
Eg.
15 39
III.
Tr.
Eg.
10 31
II.
Tr.
Eg.
14 8
i.
Sh.
Eg.
17 12
III.
Sh.
S:
13 2
II.
Sb.
Eg.
17 7
IV.
Tr.
Eg.
20 51
in.
Sh.
Eg.
Dis.
14 8
I.
Tr.
In.
Iff 048
IV.
Sh.
In.
21 3
ii.
Oc
15 24
I.
Sh.
In.
5 30
IV.
Sh.
Eg.
Sff 1 24
i.
Tr.
In.
16 28
I.
Tr.
Eg.
7 42
I.
Oc.
Dis.
2 25 53.2
ii.
Ec
Re
17 44
I.
Sh.
Eg.
11 16 54.5
I.
Ec.
Re.
2 40
i.
Sb.
In.
• 4 35
IV.
Oc.
Die
23 32
11.
Tr.
In.
3 44
i.
Tr.
Eg.
9 1
IV.
Oc.
Re.
10 2 4
II.
Sh.
In.
5 0
i.
Sh.
11 18
I.
Oc.
Dis.
226
II.
Tr.
Eg.
22 36
i.
Oc.
14 3
in.
Oc.
Dig.
4 59*
II.
Sh.
Eg.
ao 2-10 9.8
i.
Ec.
Re.
14 52 38.0
i.
Ec.
Re.
4 59
I.
Tr.
In.
15 31
n.
Tr.
In.
16 46 22.8
IV.
Ec.
Dis.
6 17
I.
Sh.
In.
18 0
n.
Sh.
In.
17 36
in.
Oc.
Re.
7 19
I.
Tr.
Eg.
18 26
n.
Tr.
Eg.
19 15 6.2
in.
Ec.
Dis.
8 37
I.
Sh.
Eg.
Dis.
19 53
i.
Tr.
En
21 20 0.0
IV.
Ec
Re.
IT 2 11
I.
Oc.
20 56
n.
Sh.
Eg.
In.
22 45 0.8
in.
Ec.
Re.
5 45 50.5
I.
Ec.
Re.
21 9
i.
Sh.
7 235
IT.
Oc.
Dis.
8 1
III.
Tr.
In.
22 13
i.
Tr.
5*
Eg.
Dus.
7 58 13.8
11.
Ec.
Re.
11 36
ra-
Tr.
Eg.
23 29
i.
Sh.
8 36
I.
Tr.
In.
13 12
in.
Sh.
In!
ar 17 5
i.
Oc
9 53
I.
Sh.
In.
16 51
in.
8h.
Eg.
Dis.
20 39 5.1
i.
Ec.
Re.
10 56
I.
Tr.
Eg.
18 26
n.
Oc
as 2 6
in.
Oc.
Dis.
12 13
I.
Sh.
Eg.
23 28
i.
Tr.
In.
5 40
in.
Oc
Re
8 5 47
I.
Oc
Dis.
23 50 53.2
ii.
Ec.
Re.
7 14 39.8
in.
Ec.
Die
9 21 26.1
I.
Ec.
Rt».
18 0 45
i.
Sh.
In.
10 22
n.
Oc.
Dis.
20 55
11.
Tr.
In.
1 48
i.
Tr.
Eg.
10 45 40.2
in.
Ec
Re.
23 26
II.
Sh.
In.
3 5
i.
Sh.
Eg.
Dis.
11 22
i.
Tr.
In.
23 49
II.
Tr.
Eg.
20 40
i.
Oc.
15 37
i.
Sh.
In.
• 2 21
II.
Sh.
Eg.
19 0 14 40.5
i.
Ec
Re.
15 43 22.0
n.
Ec.
Re.
3 5
I.
Tr.
In.
12 51
ii.
Tr.
In.
16 42
i.
Tr.
Eg.
4 21
I.
Sh.
In.
15 22
ii.
Sh.
In.
17 57
i.
Sh.
Eg.
Dis.
5 25
1.
Tr.
Eg.
15 46
ii.
Tr.
Eg.
20 11 34
i.
Oc
6 41
I.
Sh.
Eg.
17 57
i.
Tr.
In.
15 7 53.0
i.
Ec.
Re
10 0 15
I.
Oc.
Dis.
18 18
n.
Sh..
Eg.
30 4 51
ii.
Tr.
In.
3 50 21.6
I.
Ec.
Re.
19 14
i.
Sh.
In.
7 19
ii.
Sh.
In.
4 3
III.
Tr.
In.
20 17
i.
Tr.
Eg.
7 46
ii.
IV.
Eg.
7 37
in.
Tr.
Eg.
21 34
i.
Sh.
>*•
Dis.
8 51
i.
Tr.
l£
9 12
m.
Sh.
In.
20 15 9
i.
Oc
10 6
i.
Sh.
In.
12 51
in.
Sh.
Eg.
18 43 35.8
i.
Ec.
Re.
10 15
ii.
Sh.
Eg.
15 52
n.
Oc.
Dis.
22 1
in.
Oc.
Dis.
11 11
i.
Tr.
Eg.
_Eg;_
21 15 48.1
ii.
Ec.
Re.
31 1 35
in.
Oc
Re.
12 26
i.
Sh.
Jffors.— In. denotes InT*""; £'?•< egress; Dis., disappearance; Be, reappearance; Ec., eclipse.
Oc. denotes ooonltation; Tr., transit of the satellite; Sh.. transit of the shadow.
JUPITER'S SATELLITES, 1884.
449
WASHINGTON MEAN TIME.
APRIL.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
I.
r^ *
III ( \ d
r
•
9
ni. {J .
II.
^ j
iv f2^
d
•
r
•
^ •
Ly
Configurations at 10h for an Inverting Telescope.
D»y.
WMt
«~
1
4- O 12- 3-
9
•4 2- 1- O 3'
3
•4 3- -2 O 'I
4
•4 3' *1 C
5
O 2"
•3 -4 C
6
7
•2 V1 O '4
O l-
O '2 '3 4
8
O "I 2* '3 -4
9
8" !• O 3-
•4
10
•2 3- O 1
•4
11
3- -1 O #2
4-
12
•3 20 * I' 4-
13
•2 -3 1 O 4-
14
IO * "3
•2#
15
4* O 2- 3
•!•
16
4- 2- I- O 3-
17
O 3-
4- -2 O '1
18
4- 3- 1- O 2
19
20
•4 '3 O 2- 1-
•4 2- '3 1 O
21
•4 C
) 1- -3
) 2- -3
•2«
•1 •
22
•4 C
23
2- 1* O 4 3-
24
•2 3Q ' -1 -4
93
3' V O '2 -4
26
•3 O 2* *1
•4
27
% -l o
4-
28
02 1-
4-
•3*
29
1 O 2- -3 4-
30
O l-
«• O 4-3-
29
450
JUPITER'S SATELLITES, 1884.
WASHINGTON MEAN TIME:
MAY.
d h m 0
d h m m
d h m b
16 4
I.
Oc.
Dis.
10 23 50
II.
Tr.
Eg.
91 15 12
II.
Sh.
In.
7 2
IV.
Tr.
Iti.
11 0 58
I.
Sh.
Iii!
15 50
I.
Sb.
In.
9 36 48.9
I.
Ec.
Re.
2 7
I.
Tr.
Eg.
15 58
II.
IV.
Eg-
11 32
IV.
Tr.
Eg.
2 11
II.
Sh.
Eg.
17 4
I.
Tr.
Eg.
16 10
III.
Tr.
Id.
3 18
I.
Sh.
Eg.
Die.
18 8
n.
Sh.
Eg.
18 49
IV.
Sh.
In.
21 1
I.
Oc.
18 10
I.
8b.
Eg.
19 45
III.
Tr.
Eg.
19 0 30 0.8
I.
Ec.
Re.
99 11 59
I.
Oc.
Dis.
21 11
III.
Sh.
In!
% 10 26
IU.
Oc.
Dis.
15 23 5.6
I.
Ec.
Re.
23 34
IV.
Sh.
Eg.
14 1
III.
Oc.
Re.
93 4 46
III.
Tr.
In.
23 41
II.
Oc.
Dm.
15 15 10.3
III.
Ec.
Dis.
7 45
II.
Oc.
Dis.
a 0 50
III.
Sh.
Eg.
15 42
II.
Oc.
Dis.
823
III.
Tr.
Eg.
3 20
I.
Tr.
In.
18 16
I.
Tr.
In.
9 9
in.
Sh.
In.
4 35
I.
8h.
In.
18 46 48.9
in.
"Ec.
Re.
9 14
i.
Tr.
In.
5 0 48.0
II.
Ec.
Re.
19 27
i.
Sh.
In.
10 19
i.
Sh.
In.
5 40
I.
Tr.
Eg.
20 36
i.
Tr.
Eg.
11 34
i.
Tr.
Eg.
6 55
I.
Sh.
E?.
Dis.
20 53 1.0
ii.
Ec.
Re.
12 39
i.
Sh.
Eg.
3 0 33
I.
Oc.
21 47
i.
Sh.
Eg.
Dis.
12 45 4.2
ii.
Ec.
Re.
4 5 38.7
I.
Ec.
Re.
13 15 30
i.
Oc.
12 49
in.
Sh.
Eg.
18 12
II.
Tr.
In.
18 58 47.7
i.
Ec.
Re.
94 6 29
i.
Oc
Dis.
20 38
II.
Sh.
In.
14 10 17
ii.
Tr.
In.
9 51 53.9
i.
Ec.
Re.
21 7
II.
Tr.
Eg.
12 35
ii.
Sh.
Iu.
9ff 2 25
n.
Tr.
In.
21 49
I.
Tr.
l£
12 46
i.
Tr.
In.
3 43
i.
Tr.
In.
23 3
I.
Sh.
In.
13 12
ii.
Tr.
Eg.
4 31
ii.
Sh.
In.
23 33
II.
Sh.
Eg.
13 55
i.
Sh.
Iu!
4 47
i.
Sh.
Iu.
4 0 9
I.
Tr.
Eg.
15 6
i.
Tr.
Eg.
520
n.
Tr.
Eg.
123
I.
Sh.
Eg.
15 30
ii.
Sh.
Eg.
6 3
i.
Tr.
Eg.
19 3
I.
Oc.
Dis.
16 15
i.
Sh.
Eg.
Dw.
7 7
i.
Sh.
Eg.
22 34 33.8
I.
Ec.
Re.
1* 10 0
i.
Oc.
7 27
n.
Sh.
e|.
Dis.
ft 6 15
in.
Oc.
Dis.
13 27 42.4
i.
Ec.
Re.
96 0 59
i.
Oc.
950
in.
Oc.
Re.
10 0 31
m.
Tr.
In.
4 20 47.5
i.
Ec.
Re.
11 15 13.7
in.
Ec.
Dis.
4 7
in.
Tr.
Eg.
Dis.
12 53
IV.
Oc.
Dis.
13 1
n.
Oc.
Dis.
5 2
ii.
Oc.
17 28
IV.
Oc.
Re.
14 46 33.7
in.
Ec.
Re.
5 9
in.
Sh.
In.
18 57
in.
Oc
Dis.
16 18
i.
Tr.
In.
7 15.
i.
Tr.
In.
21 6
n.
Oc
Dis.
17 32
i.
Sh.
In.
8 24
i.
Sh.
In.
22 13
i.
Tr.
In.
18 18 14.0
ii.
Ec.
Re.
8 49
in.
Sh.
Eg.
22 33
in.
Oc
Re.
18 38
i.
Tr.
Eg.
9 35
i.
Tr.
Eg.
22 56 37.3
IV.
Ec.
Dis.
19 52
i.
Sh.
Eg.
Dis.
10 10 22.8
n.
Ec.
Re.
23 14 36.1
m.
Ec
Dis.
6 13 32
i.
Oc.
10 44
i.
Sh.
Eg.
DVs.
23 16
i.
Sh.
In.
17 3 21.3
i.
Ec.
Re.
IT 4 30
i.
Oc.
97 0 33
i.
Tr.
Eg.
7 7 33
ii.
Tr.
In.
7 56 31.1
i.
Ec.
Re.
1 36
i.
Sh.
Eg.
9 57
ii.
Sh.
In.
23 39
n.
Tr.
In.
2 2 23.2
ii.
Ec
Ee.
10 28
n.
Tr.
Eg.
18 1 45
i.
Tr.
In.
2 46 48.9
in.
Ec.
Re.
10 48
i.
Tr.
In.
1 53
ii.
Sh.
In.
3 37 31.9
IV.
Ec.
Re.
12 1
i.
Sh.
Iu.
2 9
IV.
Tr.
In.
19 29
i.
Oc.
.Dis.
12 52
n.
Sh.
Eg.
2 35
ii.
Tr.
Eg.
22 49 32.9
i.
Ec
Re.
13 8
i.
Tr.
Eg.
253
i.
Sh.
In.
98 15 49
ii.
Tr.
In.
14 21
i.
Sh.
Eg.
4 5
i.
Tr.
Eg.
16 43
i.
Tr.
In.
8 8 2
i.
Oc.
Dis.
4 49
n.
Sh.
Eg.
17 45
i.
Sh.
In.
11 32 16.8
i.
Ec.
Re.
5 13
i.
Sh.
Eg.
17 £0
ii.
Sh.
In.
20 19
in.
Tr.
In.
6 42
IV.
Tr.
Eg.
18 43
ii.
Tr.
Eg.
23 54
in.
Tr.
Eg.
12 50
IV.
Sh.
In.
19 3
i.
Tr.
Eg.
• 1 10
in.
Sh.
In.
17 38
IV.
Sh.
Eg.
20 5
i.
Sh.
Eg.
2 21
ii.
Oc.
Dis.
23 0
i.
Oc.
Dis.
20 46
ii.
Sh.
Eg.
4 49
in.
Sh.
Eg.
It 2 25 25.3
i.
Ec
Re.
90 13 59
i.
Oc
Dis.
5 17
i.
Tr.
In.
14 40
in.
Oc.
Dis.
17 18 25.9
i.
Ec.
Re.
6 29
i.
Sh.
In.
18 16
in.
Oc.
Re.
30 9 4
in.
Tr.
In.
7 35 37.7
ii.
Ec.
Re.
' 18 23
ii.
Oc.
Dis.
10 28
ii.
Oc
Dis.
7 37
i.
Tr.
Eg.
19 15 6.3
in.
Ec.
Dis.
11 13
i.
Tr.
In.
8 49
i.
Sh.
Eg.
Dis.
20 14
i.
Tr.
In.
12 13
i.
Sh.
In.
17 26
IV.
Oc.
21 21
i.
Sh.
In.
12 41
in.
Tr.
Eg.
21 57
IV.
Oc.
Re.
22 34
i.
Tr.
Eg.
13 9
in.
Sh.
In!
10 2 31
i.
Oc.
Dis.
22 47 2.5
in.
Ec.
Re.
13 33
i.
Tr.
Eg.
4 53 19.8
IV.
Ec.
Dis.
23 27 44.0
ii.
Ec.
Re.
14 33
i.
Sh.
Eg.
6 1 6.1
i.
Ec.
Re.
23 41
i.
Sh.
Eg.
Dis.
15 19 42.1
ii.
Ec.
Re.
9 32 6.6
IV.
Ec.
Re.
90 17 29
i.
Oc.
16 49
in.
Sh.
&■
20 55
ii.
Tr.
In.
20 54 11.5
i.
Ec.
Re.
31 8 29
i.
Oc
23 16
ii.
Sh.
In.
91 13 2
n.
Tr.
In.
11 47 13.0
i.
Ec
Re.
23 47
i.
Tr.
In.
14 44
i.
Tr.
In.
Note.— In. deno^s ingress ; Eg., egress; Bis., disappearance; Re., reappearance; Eo., eclipse.
Oc denotes oocultation; Tr., transit of the satellite; Sh., transit of the shadow.
JUPITER'S SATELLITES, 1884.
451
WASHINGTON MEAN TIME.
MAY.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
L
(Q ;
III (— \ d
r
•
O
\J'
II.
^ •
- P^
d
•
r
•
^ •
Kj
Configurations at 9h 30m for an Inverting Telescope.
DV.
West
XMt
1
04-
•2 O 3-
•1 •
2
4-3- 1- O 2
3
4" 3- O ?
4
4- -3 8- 1- O
5
4- -2 O 1'
•3 •
6
•4 -1 O -8 -3
7
OS*
•4 O l 3-
8
•4 -2 O 3-
•1 •
9
3. .4|. o -a
10
3- O \ 8-
11
•3 -",. O 4
12
•2 • 03 I'
•4
13
1 O 9 '3
•4
14
20 ' 1" 3'
4-
15
•2 • Oi 3-
4-
16
Oi-
3- O 4-
•2#
17
3- O 1 *,.
18
•3 ■"., 4. O
19
4- -8 -3 O 1
20
4- 1 O
21
~ 22"
23
4- O 3- 1- -3
4- 2- 1 O 3-
Oi-
•4 3-C
•2#
•1 •
24
•4 3- C
25
•3 -4 »;. O
26
•8-3 • 04 'I
27
i- O >
28
O rv '3-4
29
2- -1 O 3-
•4
30
03-
• O8 1-
•4
31 |
3« O *
4-
-1 •
452
JUPITER'S SATELLITES, 1884.
WASHINGTON MEAN TIME.
JUNE.
d h tn •
d h 10 B
d h m s
1 5 12
II.
Tr.
In.
19 7 13 47.8
III.
Ec.
Die
29 22 7
HI.
Tr. In.
5 43
I.
Tr.
In.
10 46 29.2
III.
Ec.
Re.
22 33
IV.
Tr. Eg.
6 42
I.
81».
In.
23 29
I.
Oc.
Die
23 3 22.4
11.
Ec Re.
7 8
II.
8b.
In.
11 2 40 2.8
I.
Ec
R*.
91 0 52
IV.
Sh. In.
8 3
I.
Tr.
Eg.
20 43
I.
Tr.
In.
1 6
HI.
Sh. In.
8 6
II.
Tr.
Eg.
21 24
II.
Tr.
In.
1 46
HI.
Tr. Eg.
9 2
I.
Sh.
Eg.
21 34
I.
8b.
In.
4 47
III.
Sb. Eg.
10 4
1L
Sb.
%-
23 3
I.
Tr.
Eg.
5 43
IV.
Sh. Eg.
3 259
I.
Oc.
Die
23 5
II.
8b.
In.
14 31
I.
Oc. Die
6 16 5.7
I.
Ec.
Re.
23 54
I.
Sh.
Eg.
17 32 44.0
I.
Ec. Re
23 15
HI.
Oc.
Die
1* 0 18
II.
Tr.
Eg.
23 11 43
I.
Tr. In.
23 50
II.
Oc.
Die
2 1
11.
Sh.
Eg.
12 26
I.
Sh. In.
S 0 13
I.
Tr.
In.
8 48
rv.
Oc.
Die.
13 36
II.
Tr. In.
1 11
I.
8b.
In.
13 28
IV.
Oc.
Re.
14 3
I.
Tr. Eg.
' 2 33
I.
Tr.
Eg.
16 59 35.7
IV.
Ec.
Dis.
14 46
1.
Sh. Eg.
2 52
III.
Oc.
Re.
18 0
i.
Oc
Die
15 1
II.
Sh. In.
3 14 2.4
III.
Ec.
Din.
21 8 53.5
i.
Ec.
Re.
16 31
II.
Tr. Eg.
Sb. Eg.
3 31
I.
flb.
Eg.
21 42 17.1
IV.
Ec
Re.
17 57
II.
4 36 59,5
II.
Ec.
Re.
IS 15 13
i.
Tr.
In.
38 9 1
I.
Oc Dis.
6 46 30.2
111.
Ec.
Re.
15 57
ii.
Oc
Die.
12 1 33,3
I.
Ec Re.
21 29
I.
Oc
Die
16 3
i.
Sh.
In.
M 6 13
I.
Tr. In.
21 48
IV.
Tr.
In.
17 33
i.
Tr.
Eg.
655
I.
Sb. In.
4 0 44 50.1
I.
Ec.
Re.
17 45
in.
Tr.
H.
8 6
U.
Oc Die
225
IT.
Tr.
Eg.
18 23
i.
Sh.
Eg.
833
I.
Tr. Eg.
6 51
IV.
Sh.
In.
20 28 50.7
ii.
Ec.
Re.
9 15
I.
Sh. Eg.
11 41
IV.
Sh.
Eg.
21 7
HI.
8b.
In.
12 20 37.0
II.
Ec Re.
18 36
II.
Tr.
In.
21 23
HI.
Tr.
Eg.
12 23
III.
Oc. Dh.
18 43
I.
Tr.
In.
14 0 48
HI.
Sh.
&
18 46 42.2
HI.
Ec Re
19 39
I.
8h.
In.
12 30
I.
Oc
3* 3 31
1.
Oc Die.
20 27
11.
Sh.
In.
. 15 37 38.4
I.
Ec.
Re.
6 30 14.2
I.
Ec Re
21 3
I.
Tr.
Eg-
li 9 43
I.
Tr.
In.
M 043
I.
Tr. In.
21 30
II.
Tr.
Eg.
10 31
I.
Sh.
In.
1 23
I.
Sb. In.
21 59
I.
8b.
Eg.
10 48
II.
Tr.
In.
3 1
II.
Tr. In.
.23 23
II.
8b.
Eg.
12 3
I.
Tr.
Eg.
3 3
I.
Tr. Eg.
I 15 59
I.
Oc.
Die
12 23
H.
Sh.
In.
343
I.
Sh. Eg.
19 13 42.1
I.
Ec.
Re.
12 51
I.
Sh.
Eg.
4 20
H.
Sh. In.
• 13 12
II.
Oc.
Die
13 42
II.
Tr.
Eg.
5 56
II.
Tr. Eg.
13 13
I.
Tr.
In.
15 19
II.
Sh.
Eff.
Die
7 16
H.
Sh. Eg.
13 24
III.
IV.
In.
.19 7 0
I.
Oc
22 1
I.
Oc Die
14 8
I.
8h.
In.
10 6 28.9
I.
Ec
Re.
37 0 59 2.0
I.
Ec. Re
15 33
I.
Tr.
Eg.
17 4 13
I.
Tr.
Iu.
19 13
I.
Tr. In.*
16 28
I.
8h.
Eg.
5 0
I.
8b.
In.
19 52
I.
Sh. In.
17 1
III.
Tr.
Eg.
520
II.
Oc.
Die
21 29
II.
Oc Die
17 8
III.
Sh.
In!
6 33
I.
Tr.
Eg.
21 33
I.
Tr. Eg.
17 54 17.3
II.
Ec.
Re.
7 20
I.
Sh.
4
Die.
22 12
I.
Sh. Eg.
2049
III.
Sh.
Eg.
7 58
III.
Oc
98 1 37 53.3
H.
Ec Re.
7 10 29
I.
Oc.
Dl8.
9 46 59
II.
Ec.
Re.
2 31
III.
Tr. In.
13 42 27.9
I.
Ec.
Re.
14 46 20.9
HI.
Ec
Re.
5 4
III.
Sh. In.
8 7 43
I.
Tr.
In.
18 1 30
I.
Oc.
Die.
6 10
III.
Tr. Eg.
8 0
IL
Tr.
In.
4 35 11.1
I.
Ec
Re
8 46
III.
Sb. Eg.
837
I.
Sh.
In.
22 43 .
I.
Tr.
In.
16 32
I.
Oc Die
9 46
II.
Sh.
In.
23 29
I.
Sh,
In.
19 27 44.2
I.
Ec Re
10 3
I.
Tr.
Eg.
19 0 12
IL
Tr.
In.
39 5 5
IV.
Oc Die
10 54
II.
Tr.
Eg.
1 3
I.
Tr.
Eg.
9 49
IV.
Oc Re
10 57
I.
Sh.
Eg.
1 42
II.
Sh.
In.
11 1 50.5
IV.
Ec Die
12 42
II.
Sh.
Eg.
Dw.
1 49
I.
Sh.
Eg.
13 44
I.
Tr. In.
• 459
I.
Oc
3 6
II.
Tr.
Eg.
14 21
I.
8h. In.
8 11 19S
I.
Ec.
Re.
4 38
II.
Sh.
Eg.
Die
15 45 59.7
IV.
Ec Re
16 2 13
I.
Tr.
In.
20 0
I.
Oc
16 4
I.
Tr. Eg.
235
II.
Oc
Die
23 4 0.3
I.
Ec
Re.
1G26
H.
Tr. In.
3 5
I.
Sh.
In.
99 17 13
I.
Tr.
In.
16 41
I.
Sh. Eg.
336
III.
Oc.
Dis.
17 52
IV.
Tr.
In.
17 39
II.
Sh. In.
4 33
I.
Tr.
Eg.
17 57
I.
Sh.
In.
19 21
II.
Tr. Eg.
525
I.
8b.
Eg.
18 43
II.
Oc
Die.
20 35
II.
Sh. Eg.
Oc Dw.
7 1133.5
II.
Ec.
Re.
19 33
I.
Tr.
Eg.
99 11 2
I.
7 13
ni.
Oc
Re.
20 17
I.
Sh.
e|.
13 56 31.9
I.
Ec Re.
The sate
llites
are not visil
jle during July ai
nd August, Jupiter being too near
the sun.
Nore— In. denotes ingress-, Eg., egress; Die, dianppearnaoe; Re., reappearance; Ec., eclipse.
Oc. denotes oocnltation; Tr., transit of the satellite; Sh.. transit of the shadow.
JUPITER'S SATELLITES, 1884.
453
WASHINGTON MEAN TIME.
JUNE.
Phages of the Eclipses of the Satellites for an Inverting Telescope.
I.
rv
m O •
9'
C7 *
II
S s
TV £..;:.■" n d r
^ •
x v • i1 j u r
Configurations at 9h 0™ for an Inverting Telescope.
Day.
Wert.
Saat.
1
•3 ,r o 4-
2
O I 4-
3
i- o ,\.
4
5
4- o ;. -s
4- «• 1 O 3-
6
4- -SO r,-
7
4- 3- -lO *
8
OlO 8" -4 3- O
9
•4 ,* O 'I
10
•4 1- O *3
■3«
11
•4 C
) '1 «• -3
) 3-
-4#
12
c
13
•8 O ,?" 4 |
14
3- •■ C
) -3 -4
V "4
) '4
) 4-
• 1 •
•8«-3«
15
3" C
16
•3 8- C
17
I- C
18
O • 8- -3 4-
19
1- Vj f
20
•8 O 4i 3-
21
% O 8
22
4" o ,.-
23
4- 3 8-
Ol
'O
•2»
24
4'
25
•4 O 'I «,
26
•4 1-9- O "3
27
•4 -9 O •« 3'
28
•4 1 3- O 8
29
3- O ,'•
•4 •
1
30
•3 8- -1 O -4
j
454
JUPITER'S SATELLITES, 1884.
WASHINGTON MEAN TIME.
SEPTEMBER.
d h in s
d h m 8
d h m •
1 728
I.
Sh.
In.
11 22 18
I.
Sh.
In.
91 11 55
IV.
Oc. Dis.
7 52
I.
Tp.
In.
22 53
I.
Tp.
In.
16 3 26.9
I.
Ec. Dis.
948
I.
Sh.
Eg.
19 0 39
I.
Sh.
Eg.
16 50
rv.
Oc. Re.
10 13
I.
Tr.
Eg.
1 13
I.
Tp.
Eg.
19 5
I.
Oc. Re.
17 4
II.
Sh.
In.
8 56
II.
Sh.
In.
99 4 47
in.
Sh. In.
17 55
U.
Tr.
In.
10 7
IL
Tp.
In.
7 45
III.
Tp. In.
20 1
II.
Sh.
Eg.
1153
II.
Sh.
Eg.
830
in.
Sh. Eg.
20 51
II.
Tp.
Eg.
Dw.
13 3
II.
Tp.
Eg.
11 27
in.
Tp. Eg.
9 4 50 34.3
I.
Ec.
18 48
IV.
Sh.
In!
13 9
i.
Sh. In.
7 34
I.
Oc
Re.
19 41 20.7
I.
Ec.
Dis.
13 53
i.
Tp. In.
3 1 56
I.
Sh.
In.
22 35
I.
Oc.
Re.
15 29
i.
Sh. Eg.
223
I.
Tp.
In.
23 44
IV.
Sh.
Eg.
16 13
i.
Tr. Eg.
4 16
I.
Sh.
Eg.
13 0 28
IV.
Tp.
In.
93 0 49
n.
Sh. In.
4 43
I.
Tp.
Eff.
DlS.
524
IV.
Tr.
Eg.
2 18
n.
Tp. In.
11 15 36.6
II.
Ec.
16 46
I.
Sh.
In!
3 46
n.
Sh. Eg.
15 4
II.
Oc.
Re.
17 23
I.
Tp.
In.
5 14
n.
Tp. Eg.
Ec. Du.
23 19 0.6
I.
Ec.
Die.
19 7
I.
Sh.
Eg.
10 31 54.5
i.
4 2 4
I.
Oc.
Re.
19 43
I.
Tp.
Eg.
13 34
i.
Oc Re.
7 3 0.8
III.
Ec.
Dis.
14 3 7 34.3
ir;
Ec.
Dis.
94 7 37
i.
Sh. In.
11 6 51.1
IV.
Ec.
Dis.
7 15
ii.
Oc
Re.
823
i.
Tr. In.
12 34
III.
Oc.
Re.
14 9-45.2
i.
Ec.
Dis.
9 57
i.
Sh. Eg.
20 24
I.
Sh.
In.
17 5
i.
Oc.
Re.
10 43
i.
Tp. Eg.
Ec. 1Mb.
20 26
IV.
Oc.
Re.
Iff 0 49
in.
Sh.
In.
19 0 6.8
ii.
20 53
I.
Tp.
In.
3 21
in.
Tr.
In.
23 27
ii.
Oc Re.
22 45
I.
Sh.
Eg.
4 32
in.
Sh.
Eg.
9* 5 0 16.2
i.
Ec. Dis.
23 13
I.
Tp.
Eg.
7 4
in.
Tp.
Eg.
8 4
i.
Oc Re.
§6 21
II.
Sh.
I?.
11 15
i.
Sh.
In!
18 57 35.6
in.
Ec. Dis.
7 19
II.
Tp.
In.
• 11 53
i.
Tp.
In.
96 l 45
in.
Oc. Re.
9 18
II.
Sh.
Eg.
13 35
i.
Sh.
Eg.
Eg.
2 5
i.
Sh. In.
10 15
IL
Tp.
Eg.
14 13
i.
Tp.
2 53
i.
Tr. In.
17 47 30.7
I.
Ec.
Dis.
22 14
ii.
Sh.
In.
4 26
i.
8h. Eg.
20 35
I.
Oc.
Re.
23 31
ii.
Tr.
In.
5 13
i.
Tp. Eg.
• 14 53
I.
Sh.
In.
10 1 11
n.
Sh.
Eg.
14 6
ii.
Sh. In.
15 23
I.
Tp.
In.
227
ii.
Tr.
Eg.
Dis.
15 41
ii.
Tr. In.
17 13
I.
Sh.
Eg-
8 38 14.5
i.
Ec.
17 3
ii.
Sh. Eg.
17 43
I.
Tp.
Eg.
11 35
L
Oc.
Re.
18 37
n.
Tp. Eg.
7 0 32 48.8
II.
Ec.
Dis.
17 5 43
i.
Sh.
In.
23 28 40.8
i.
Ec. Dis.
4 27
II.
Oc.
Re.
623
i.
Tr.
In.
97 2 34
i.
Oc. Re.
12 15 56.7
I.
Ec.
Dis.
8 4
i.
Sh.
Eg.
20 34
i.
Sh. In.
15 5
I.
Oc.
Re.
8 43
i.
Tr.
Eg.
D?s.
21 23
i.
Tp. .In.
20 51
III.
Sh.
In.
16 25 12.1
n.
Ec.
22 54
i.
Sh. Eg.
22 57
III.
Tp.
In.
20 39
n.
Oc.
Re.
23 43
i.
Tp. Eg.
8 034
III.
Sh.
Eg.
18 3 6 37.6
i.
Ec.
Dis.
98 8 17 19.7
ii.
Ec Dis.
240
in.
Tp.
Eg.
6 5
i.
Oc.
Re.
12 50
ii.
Oc Re
9 21
i.
Sh.
In.
14 59 25.0
in.
Ec.
Dis.
17 57 2.1
i.
Ec Dis.
953
i.
Tp.
In.
21 23
hi.
Oc.
Re.
21 4
i.
Oc Re.
11 42
i.
Sh.
Eg.
19 0 12
i.
Sh.
In.
99 8 45
in.
Sh. In.
12 13
i.
Tp.
Eg.
0 53
i.
Tp.
In.
12 6
in.
Tp. In.
19 39
ii.
Sh.
In.
232
i.
Sh.
Eg.
12 28
ni.
Sh. Eg.
20 43
ii.
Tp.
In.
3 13
i.
Tp.
Eg.
12 46
IV.
Sh. In.
22 36
n.
Sh.
Eg-
11 31
ii.
Sh.
In*
15 2
i.
Sh. In.
23 39
n.
Tp.
Eg.
12 54
ii.
Tp.
In.
15 49
in.
Tp. Eg.
• 6 44 27.9
i.
Ec.
Dis.
14 28
ii.
Sh.
Eg.
15 53
i.
Tp. In.
935
i.
Oc.
Re.
15 51
ii.
Tp.
Eg.
17 23
L
Sh. Eg.
1# 3 49
i.
Sh.
In.
21 35 3.9
i.
Ec.
Dis.
17 42
IV.
Sh. Eg.
423
i.
Tp.
In.
20 0 35
i.
Oc.
Re.
18 13
i.
Tp. Eg.
6 10
i.
Sh.
Eg.
18 40
i.
Sh.
In.
20 42
IV.
Tp. In.
6 43
i.
Tp.
E£.
Du.
19 23
i.
Tp.
In.
30 1 37
IV.
Tp. Eg.
13 50 22.0
ii.
Ec.
21 0
i.
Sh.
Eg.
323
ii.
Sh. In.
17 51
ii.
Oc.
Re.
21 43
i.
Tr.
Eg.
5 4
ii.
Tp. In.
11 1 12 52.5
i.
Ec.
Dis.
91 5 6 50.3
IV.
Ec.
Dis.
620
n.
Sh. Eg.
4 5
i.
Oc.
Re.
5 42 24.6
II.
Ec.
Dis.
8 0
ii.
Tp. Eg.
Ec. Dis.
11 1 3.3
in.
Ec.
Dis.
9 53 43.9
IV.
Ec.
Re.
12 25 28.0
i.
16 59
in.
Oc.
Re.
10 3
II.
Oc.
Re.
15 34
i.
Oc. Re.
Von.— In. denotes ingress; Eg.f egress; Dis., dissppearanoe; Re., reappearance; Ec., eclipse.
Oc denotes oooultatton ; Tr., transit of the satellite; Sh.t transit of the shadow.
JUPITER'S SATELLITES, 1884.
455
WASHINGTON MEAN TIME.
SEPTEMBER.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
I.
ift
III • t
O
\J
vJ
II.
i (Q
d r a
IV • • 1
o
W
iTl W 1
vj
Configurations at 16u Om for an Inverting Telescope.
Day.
West
Efelt*
1
•4 3- 1- 0 2-
2
•4 -3 2- O 1
3
•4 -3 1 O 2
4
c
"c
) ,'• 2-
•4 •
5
6
Ol'
2* 1
) -4 -3
•2 O 3- *4
7
O 1 3- 2
•4
8
3- 1- O 2-
•4
9
3- 2- C
) 1
) 4-
4-
•2#
10
•3 1- C
11
O 1* * 4-
•3#
12
r o 4- -3
13
•2 4- O 1" 3'
14
4- O
•1 •
15
4- 3- 1- O . 2-
16
4- 3' 2- O 'I
17
•4 -3 1* 2C
)
) 1- -2
) 3
•3#
18
•4 . C
19
•4 1 2- C
20
4 C
) 1- 3-
) -8 3-
•4 •
21
•ic
22
" 23~
i 24~
en-
3- O 2- 4
s' 2- O 1 '4
■3 J O
•4
25
•3 O "I '*
•4
26
27
O*
1 O '3
4-
•2 O 1' *3 4-
28
29
1 O "* 3- 4-
3'©' 4- 2-
30 |
3- f o-i
456
JUPITER'S SATELLITES, 1884.
^
fASHINGTO*
J MEAN TIM
)BER.
E.
OCTC
d h m 0
d h m s
d h m 0
1 9 30
I.
Sh.
In.
12 0 21
I.
Sh.
In.
21 16 12
n.
Tr.
Eg.
Dis.
10 23
I.
Tp.
In.
1 21
I.
Tr.
In.
18 5 32.3
I.
Ec.
11 51
1.
Sh.
Eg.
2 41
I.
Sh.
Eg.
21 28
I.
Oc.
Re.
12 43
I.
TV.
Eg.
3 41
I.
Tr.
Eg.
Dis.
22 15 11
I.
Sh.
In.
21 35 6.6
11.
Ec.
Dis.
13 27 25.8
II.
Ec.
16 17
I.
Tr.
In.
. a 2 13
II.
*Oc.
Re.
18 21
II.
Oc.
Re.
17 31
I.
Sh.
Eg.
6 53 4a?
I.
Eo.
Dis.
21 43 54.1
I.
Ec.
DU.
18 37
I.
Tp.
EF. •
Dis.
10 2
I.
Oc.
.Re.
13 1 1
I.
Oc.
Re.
23 5 20 38.5
II.
Ec.
22 56 15.0
III.
Ec.
Dis.
16 41
III.
Sh.
In.
10 28
n.
Oc.
Re.
3 3 59
I.
Sh.
In.
18 50
I.
Sh.
In.
12 33 49.1
I.
Ec
Dis.
4 52
I.
Tr.
In.
19 50
I.
Tr.
In.
15 57
I.
Oc
Re.
6 7
III.
Oc.
Re.
20 24
m.
Sh.
Eg.
24 9 40
I.
Sh.
In.
620
I.
Sh.
Eg.
20 44
in.
Tr.
In.
10 46
I.
Tp.
In.
7 12
I.
Tr.
Eg.
21 10
i.
Sh.
Eg.
10 49 26.6
in.
Ec.
Dis.
16 40
II.
8h.
In.
22 10
i.
Tr.
Eg.
12 0
i.
Sh.
Eg.
18 27
II.
Tr.
In.
14 0 26
in.
Tr.
Eg.
13 6
i.
Tr.
Eir.
19 37
II.
Sh.
Eg.
8 31
n.
Sh.
In.
14 23 6.6
nl.
Ec.
Re
21 23
II.
Tr.
Eg.
10 33
ii.
Tr.
In.
15 14
in.
Oc.
Dis.
4 1 22 11.2
I.
Eo.
Die.
11 28
ii.
Sh.
Eg.
17 5 30.6
IV.
Ec.
Dis.
4 33
I.
Oc.
Re.
13 30
n.
Tr.
Eg.
Die.
18 55
in.
Oc.
Re.
22 27
I.
Sh.
Iu.
16 12 16.6
i.
Ec.
21 51 24.2
IV.
Ec.
Re.
23 22
I.
Tr.
In.
19 30
i.
Oc.
Re.
2* 0 22
ii.
Sh.
In.
* 0 48
I.
Sh.
Kg.
1* 13 18
i.
8h..
In.
2 36
n.
Tp.
In.
1 42
I.
Tr.
Eg.
14 20
i.
Tr.
In.
3 18
n.
Sh.
Eg.
10 52 20.1
II.
Ec.
Dis.
15 38
i.
Sh.
Eg.
3 40
IV.
Oc
Dis.
15 36
II.
Oc.
Re.
16 40
i.
Tp.
Eg.
Dis.
5 33
ii.
Tp.
Sf
19 50 31.1
I.
Ec.
Dis.
1« 2 45 22.5
ii.
Ec.
7 2 7.3
i.
Ec.
23 3
I.
Oc
Re.
6 43
IV.
Sh.
In.
8 31
IV.
Oc
Re.
• 12 43
III.
Sh.
In.
7 44
ii.
Oc.
Re.
10 26
i.
Oc.
Re.
16 26
III.
Tp.
In.
10 40 34.3
i. .
Ec.
Dis.
26 4 8
i.
Sh.
In.
16 26
III.
Sh.
Eg.
11 39
IV.
Sh.
Eg.
5 16
i.
Tp.
In.
16 56
L
Sh.
In.
14 0
i.
Oc
R*.
628
i.
Sh.
Eg.
17 52
I.
Tr.
In.
16 32
IV.
Tr.
In.
7 36
i.
Tr.
Dis.
19 16
I.
Sh.
Eg-
21 25
IV.
Tp.
Eg.
Dis.
18 37 53.7
n.
Ec
20 8
III.
Tr.
Eg.
IT 6 52 0.4
in.
Eo.
23 49
n.
Oo.
Re.
20 12
I.
Tr.
Eg.
7 46
i.
Sh.
In.
27 1 30 23.3
i.
Ec.
Dis.
7 5 57
II.
Sh.
In.
8 49
i.
Tr.
In.
4 55
i.
Oc
Re.
7 49
II.
Tr.
In.
10 6 x
i.
Sh.
Eg.
22 36
i.
Sh.
In.
854
II.
Sh.
Eg.
10 25 47.0
HI.
Ec.
Re.
23 45
i.
Tp.
In.
10 46
II.
Tr.
Eg.
11 0
in.
Oc.
Dis.
28 0 37
in.
Sh.
In.
14 18 55.3
I.
Ec.
Dis.
11 9
i.
Tp.
Eg.
0 57
i.
Sh.
Eg.
17 32
I.
Oc
Re.
. 14 42
in.
Oc.
Re
2 5
i.
Tr.
Eg.
23 6 13.7
IV.
Ec.
Dis.
21 48
n.
Sh.
In.
4 20
in.
Sh.
Eg.
8 3 52 46.1
IV.
Ec.
Re.
23 54
n.
Tr.
In.
5 14
in.
Tp.
In. ,
8 0
IV.
Oc.
Dis.
18 0 44
ii.
Sh.
Eg.
8 55
in.
Tp.
Eg.
11 24
I.
Sh.
In.
2 51
ii.
Tp.
Eg.
Dis.
13 39
ii.
Sh.
In!
12 21
I.
Tr.
In.
5 8 54.0
i.
Ec.
15 57
n.
Tr.
In.
12 55
IV.
Oc.
Re.
8 29
i.
Oc.
Re.
16 35
n.
Sh.
Eg.
13 45
I.
Sh.
Eg.
19 2 15
i.
Sh.
In.
18 53
ii.
Tp.
Eg.
Dm.
14 41
I.
IV.
Eg.
3 18
i.
Tr.
In.
19 58 43.0
i.
Ec
• 0 10 12.0
II.
Ec.
Dis.
4 35
i.
Sh.
Eg.
23 25
i.
Oc
Re.
4 59
IL
Oc.
Re.
5 38
i.
Tr.
Eg.
Dis.
29 17 5
i.
Sh.
In.
8 47 14.3
I.
Ec.
Dis.
16 2 37.1
n.
Ec.
18 14
i.
Tp.
In.
12 2
I.
Oc.
Re.
21 6
ii.
Oc.
Re.
19 25
i.
8h.
Eg.
19 2 54 11.1
in.
Ec.
Dis.
23 37 11.1
i.
Ec.
Dis.
20 34
i.
Tp.
**•
Dw.
553
i.
Sh.
In.
29 2 59
i.
Oc.
Re.
39 7 55 59.9
ii.
Ec.
6 28 2.7
iii.
Ec.
Re.
20 39
in.
Sh.
In.
13 11
n.
Oc.
Re.
6 43
in.
Oc.
Dis.
20 43
i.
Sh.
In.
14 26 56.8
i.
Eo.
Dis.
6 51
i.
Tr.
In.
21 48
i.
Tr.
In.
17 54
i.
Oc.
Re.
8 13
i.
Sh.
Eg.
23 3
i.
Sh.
Eg.
31 11 33
i.
Sh.
In.
9 11
i.
Tr.
Eg.
31 0 8
i.
Tr.
Eg*
12 43
i.
Tp.
In.
10 25
in.
Oc.
Re.
022
in.
Sh.
Eg.
13 54
i.
Sh.
&
19 14
n.
Sh.
In.
1 0
in.
Tr.
In.
14 46 51.1
HI.
Ec.
21 11
ii.
Tp.
In.
4 41
in.
Tp.
Eg.
15 3
I.
Tp.
Eg.
22 11
ii.
Sh.
Eg.
11 5
n.
Sh.
iS:
18 20 23.5
III.
Ec.
Re.
11 0 8
ii.
Tr.
Eg.
13 15
ii.
Tr.
In.
19 25
III.
Oc.
Dis.
3 15 35.6
i.
Ec.
Dis.
14 1
ii.
Sh.
Eg.
23 6
III.
Oc.
Re
6 31
i.
Oc.
Re.
Notb.— In. denotes ingress ,- Eg., egress; Dis., disappearance; Re., reappearance; Ec., eclipse.
Oc denotes oooultation; Tr., transit of the satellite; Sh., transit of the shadow.
JUPITER'S SATELLITES, 1884.
457
!
WASHINGTON MEAN TIME.
1 OCTOBER.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
I.
i r\
in • #r 1
9
kJ
II.
* ^
tv • • r n
W
^
Configurations at 15* MP* for an Inverting Telescope.
1
West.
iMt.
1
4.* 2 1- O
2
4- -3 O "1 »•
3
4- 1- O 2* -3
4
•4 2 (
) 1- -3
) 3-
•8«
5
•4 1 C
6
•4 OS' 1" 2-
7
3- -4 2- O
•1 •
8
•3 -2 1- O "4
9
•3 O -1 2 -4
10
1- O \ '4
11
2- O -l' -3. '4
12
1 O 3' 4-
•2«
13
O 3l* 2- 4-
14
3- ,:' o 4-
15
Oi-
3- 2 O 4-
16
•3 04"l 2
17
4- 1- O '3 2'
18
4- 2 O 'I '3
19
~20~
21
4- 1 -2 O 3-
4- O \ '2
02-
•4 3- 1 O
2*2
•4 3- -2 Ol'
23
•4 -3 C
5 8
} 8-
1 •
•3«
24
•4 1- (
25
2- O \ 3
26
1- -2 O %
27
O I* 3'2 -4
28
I *0- '4
29
3* 2 Of 4-
30
•3 O *2 4-
•1 •
31
l-O 2- 4-
•3«
458
JUPITER'S SATELLITES, 1884.
WASHINGTON MEAN TIME.
NOVEMBER.
d h m 8
d h m 8
d h m a
i 255
II.
Sh.
In.
11 4 44
I.
Sh.
Eg.
30 23 38
I.
Oc
Be.
5 17
II.
Tr.
In.
5 57
I.
Tr.
Eg.
31 17 14
I.
Sh.
In.
5 51
II.
Sh.
Eg.
833
III.
Sh.
lu.
18 29
I.
Tr.
In.
8 13
II.
Tr.
Eg.
12 15
in.
Sh.
Eg.
19 34
I.
Sh.
Eg.
6 55 15.9
I.
Ec.
Dis.
13 31
III.
Tr.
In.
20 49
I.
Tr.
Eg.
Dis.
12 23
I.
Oc
Be.
17 10
in.
Tr.
Eg.
33 2 40 26.0
III.
Ec.
a o 40
IV.
Sh.
In.
18 45
n.
Sh.
In.
6 13 31.6
III.
Ec.
Be.
5 35
IV.
Sh.
Eg.
21 14
ii.
Tr.
In.
7 41
III.
Oc.
Dis.
6 1
I.
Sh.
In
21 41
n.
Sh.
Eg.
Dw.
10 35
U.
Sh.
In.
7 12
I.
Tr.
In.
23 44 52.3
i.
Ec.
11 20
III.
Oc.
Be.
8 22
I.
Sh.
Eg-
13 o 10
ii.
Tr.
Eg.
13 7
II.
Tr.
In.
9 32
I.
Tr.
Eg.
3 16
i.
Oc.
Be.
13 31
n.
Sh.
Eg.
11 52
IV.
Tr.
In.
20 52
i.
Sh.
In.
14 34 20.5
I.
Ec.
Die.
16 41
IV.
Tr.
Eg.
DlS.
22 6
i.
Tr.
In.
16 3
II.
Tr.
Eg.
21 13 15.8
II.
Ec.
23 12
i.
Sh.
Eg.
18 7
I.
Oc.
Bel
3 2 31
II.
Oc.
Be.
13 0 26
i.
Tr.
Eg.
Dis.
33 11 42
I.
Sh.
lu.
3 23.30.9
I.
Ec.
Dis.
13 6 56.7
n.
Ec.
12 57
I.
Tr.
In.
6 52
I.
Oc.
Be.
18 13 6.6
i.
Ec.
Dis.
14 2
1.
Sh.
Eg.
4 0 30
I.
Sh.
In.
18 30
ii.
Oc.
Be.
15 17
I.
Tr.
Eg.
Dis.
1 41
I.
Tr.
In.
21 44
i.
Oc.
Be.
34 4 59 56.2
II.
Ec.
2 51
I.
Sh.
Eg.
14 15 21
i.
Sh.
In.
9 2 33.6
I.
Ec.
Dis.
4 1
I.
Tr.
Eg-
16 35
i.
Tr.
In.
10 28
II.
Oc.
Be.
4 35
in.
Sh.
In"
17 41
i.
Sh.
Eg.
12 35
I.
Oc.
Be.
8 18
m.
Sh.
Eg.
18 55
i.
Tr.
Eg.
3ff 6 11
I.
Sh.
In.
9 24
in.
Tr.
In.
22 42 16.6
in.
Ec.
Dis.
726
I.
Tr.
In.
13 4
ni.
Tr.
Eg.
Iff 2 15 32.2
in.
Ec.
Be.
8 31
I.
Sh.
Eg.
16 12
n.
Sh.
In.
3 39
ni.
Oc.
Dis.
9 46
I.
Tr.
Eg.
18 36
n.
Tr.
In.
7 19
in.
Oc.
Be.
16 28
III.
Sh.
U.
19 8
n.
Sh.
Eg.
8 1
ii.
Sh.
In.
20 10
III.
Sh.
Eg.
21 32
ii.
Tr.
Eg.
10 32
ii.
Tr.
In.
21 33
III.
Tr.
hf.
21 51 49.6
i.
Ec.
Die.
10 57
n.
Sh.
Eg.
Dis.
23 52
n.
Sh.
In.
S 1 21
i.
Oc.
Re.
12 41 21.8
i.
Ec.
36 1 11
in.
Tr.
Eg.
18 58
i.
Sh.
In.
13 28
n.
Tr.
Eg.
224
ii.
Tr.
l£
20 10
i.
Tr.
In.
16 13
i.
Oc.
b£.
248
ii.
Sh.
Eg.
Dis.
21 19
i.
Sh.
Eg.
16 9 49
i.
Sh.
In.
3 30 49.6
i.
Ec
| 22 30
i.
Tr.
Eg.
11 3
h
Tr.
In.
520
n.
Tr.
Eg.
6 10 31 26.4
n.
Ec.
Dis.
12 9
i.
Sh.
Eg.
7 3
i.
Oc.
Be.
15 52
n.
Oc.
Be.
13 23
i.
Tr.
Eg.
Dis.
37 0 39
i.
Sh.
In.
16 20 4.6
i.
Ec.
Dis.
17 2 24 17.5
ii.
Eo.
1 55
i.
Tr.
In.
19 49
i.
Oc.
Be.
7 9 35.2
i.
Ec.
Dis.
2 59
i.
Sh.
Eg.
T 13 27
i.
Sh.
In.
7 50
ii.
Oc.
Be.
4 15
i.
Tr.
Eg.
Dis.
14 39
i.
Tr.
In.
10 41
i.
Oc.
Be.
5 2 51.3
IV.
Ec.
15 47
i.
Sh.
Eg-
18 4 17
i.
Sh.
In.
9 46 33.5
IV.
Ec.
Be.
16 59
i.
Tr.
&
5 32
i.
Tr.
In.
17 0
IV.
Oc
Dis.
18 44 38.6
in.
Ec.
6 37
i.
Sh.
Eg.
18 18 18.6
ii.
Ec
Dis.
22 18 3.0
in.
Ec.
Re.
7 52
i.
Tr.
Eg.
21 43
IV.
Oc.
Be.
23 34
in.
Oc.
Dis.
12 30
in.
Sh.
In!
21 59 3.5
i.
Ec.
Dis.
8 3 14
in.
Oc.
Be.
16 12
in.
Sh.
Eg.
23 46
n.
Oc.
Be.
528
ii.
Sh.
In.
17 34
ni.
Tr.
In.
38 1 31
i.
Oc.
Be.
7 55
n.
Tr.
In.
18 37
IV.
Sh.
In.
19 7
i.
Sh.
In.
824
ii.
Sh.
Eg.
Dis.
21 13
in.
IV.
Eg.
20 23
i.
Tr.
In.
10 48 20.5
i.
Ec.
21 18
ii.
Sh.
In.
21 27
i.
Sh.
Eg.
10 51
ii.
Tr.
Eg.
23 32
IV.
Sh.
Eg.
22 43
i.
Tr.
Eg.
Dl8.
14 18
i.
Oc.
Be.
23 50
n.
Tr.
In.
36 6 37 56.3
in.
Ec
• 755
i.
Sh.
In.
19 0 14
n.
Sh.
Eg.
Dis.
10 10 50.9
in.
Ec.
Be.
9 8
i.
Tr.
In.
1 37 52.1
i.
Ec.
11 38
m.
Oc.
Dis.
10 16
i.
Sh.
Eg.
2 46
n.
Tr.
Eg.
13 8
n.
Sh.
In.
11 28
i.
Tr.
Eg.
Dis
5 10
i.
Oc.
Be.
15 16
ni.
Oc
Be.
23 48 43.8
ii.
Ec.
6 31
IV.
Tr.
In.
15 41
ii.
Tr.
In.
10 5 12
n.
Oc.
Be.
11 15
IV.
Tr.
Eg.
16 4
n.
Sh.
Eg.
5 16 34.6
i.
Ec.
Dis.
22 46
i.
Sh.
In.
16 27 17.4
i.
Ec.
Die.
8 47
i.
Oc.
Be.
20 0 0
i.
Tr.
In.
18 37
ii.
Tr.
Eg.
11 4 18.2
IV.
Ec.
Dis.
1 6
i.
Sh.
Eg.
19 59
i.
Oc
rS.
15 49 14 2
IV.
Ec.
Be.
220
i.
Tr.
Eg.
Dig.
30 13 36
i.
8h.
In.
22 43
IV.
Oc.
Dis.
15 42 36.1
n.
Ec.
14 51
i.
Tr.
In.
11 2 24
i.
Sh.
In.
20 6 6.0
i.
Ec.
Dis.
15 56
i.
Sh.
Eg.
3 30
IV.
Oc.
Be.
21 10
ii.
Oc.
Be.
17 11
i.
Tr.
Eg.
3 37
i.
Tr.
In.
Note.— In. denotes Ingres*; Eg., espess; Dis., disappearance; Be., reappearance; Eo., eclipse.
Oc. denotes oconltation ; Tr., transit of the satellite; Sh., transit of the shadow.
JUPITER'S SATELLITES, 1884
459
WASHINGTON MEAN TIME.
NOVEMBER.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
I.
'. r^
d r X~\
ttt • • r 1
^y
. kJ
II.
• ^
iv • • r
^
vj
Configurations at 15h 0™ for an Inverting Telescopt.
Day.
Week
Ettt.
1
2- O 'J
2
CM'
O 3
3
4* O 1 *2 3-
4
4- -1 3- O 2-
5
4- 3-2- O 1"
6
4- -3 -1 O
•«•
7
Oi-
•4 -3 C
> 2-
) 1 3
8
•4 2- C
9
•4 -2 V O -3
10
O -1-2 3-
-4«
11
OS-
1- O 2- -4
12
S' 2- O 1* '4
13
•3 -1 O 4
•2*
14
•3 O I' 2- 4
15
2' O *3 4-
•1 •
16
•2 1- O -3 4-
17
O 1*2 3- 4-
18
V O 3- 2- 4-
19
3* 2" 4- O J'
20
~2f
•3 4- -1 -2 O
4- -3 C
) 1- "2
) 3
•I •
22
23
02-
CM-
4' C
•4 -2 C
24
•4 O 'I 2 3-
25
•4 1- O 3' 2'
26
•4 3-2' O 'I
27
3- -1-2 -40
28
•3 O 1- \
29
1 02' '4
■3 •
30
Oi-
•2 O '3 '4
460
JUPITER'S SATELLITES, 1884.
WASHINGTON MEAN TIME.
DECEMBER.
d h m s
d h m s
d h m •
1 7 35 40.3
II.
Ec.
Die.
11 23 29 59.2
IL
Eo.
Dis.
22 6 31
IV.
Sh.
In.
10 55 30.3
I.
Ec
Din.
1« 1 44 55.9
I.
Ec.
Dis.
11 23
IV.
Sh.
Eg.
Dis.
13 3
II.
Oc.
Re.
4 52
II.
Oc.
Re.
15 23 24.1
H.
Ec
14 27
I.
Oc.
Re.
5 14
I.
Oc.
Re.
16 34 21.1
I.
Ec.
Dis.
9 8 4
I.
Sh.
Id.
22 54
I.
Sh.
In.
17 11
IV.
Tr.
In.
9 19
I.
Tr.
In.
13 0 7
I.
Tr.
In.
19 58
I.
Oc.
Re.
10 24
I.
Sh.
Eg.
1 14
I.
Sh.
Eg.
20 35
II.
Oc.
Re.
11 39
I.
Tr.
Eg.
226
I.
Tr.
Eg.
Die.
2146
IV.
Tr.
Eg.
20 26
III.
Sh.
In.
14 32 33.7
III.
Ec.
33 13 45
I.
Sh.
S:
3 0 8
III.
Sh.
Eg.
18 5 3.9
III.
Ec.
Re.
14 52
I.
Tr.
In.
129
III.
Tr.
Id.
18 U
II.
Sh.
In.
16 5
I.
Sh.
Eg.
225
II.
Sh.
In.
19 19
HI.
Oc.
Dis.
17 11
I.
Tr.
Eg.
4 57
II.
Tr.
Id.
20 13 9.6
I.
Eo.
Dis.
34 8 20
HI.
Sh.
Id.
5 6
III.
Tr.
Eg.
20 40
II.
Tr.
In.
10 4
II.
Sh.
In.
5 21
II.
Sb.
Eg.
21 10
II.
Sh.
Eg.
11 2 36.8
I.
Ec.
Dis.
5 23 45.9
I.
Eg.
Dm.
22 56
III.
Oc.
Re.
12 2
III.
Sh.
Eg.
7 53
II.
Tr.
Eg.
23 1 45.1
IV.
Ec.
Dis.
12 18
II.
Tr.
In.
8 55
I.
Oc.
Re.
23 36
II.
Tr.
Eg.
12 48
HI.
Tr.
Iu.
4 2 32
I.
Sb.
In.
23 42
I.
Oc
Re.
13 0
II.
Sh.
Eg.
3 47
I.
Tr.
In.
14 3 43 54.5
IV.
Ec.
Re.
14 26
I.
Oc.
Re.
4 52
I.
Sh.
Eg.
10 23
IV.
Oc.
Dis.
15 13
H.
Tr.
Eg.
6 7
I.
Tr.
Eg.
15 1
IV.
Oc.
Re.
16 24
III.
Tr.
Eg.
20 54 6.4
II.
Eo.
Die.
17 22
I.
Sh.
In.
M 8 13
I.
Sh.
In.
23 51 59.8
I.
Ec.
Die.
18 35
I.
Tr.
In.
9 19
I.
Tr.
Iu.
* 2 20
II.
Oc.
Re.
19 42
I.
Sh.
Eg.
10 33
I.
Sh.
Eg.
3 23
I.
Oc
Re.
20 54
I.
Tr.
e|.
Dis.
11 38
I.
Tr.
E£-
Dis.
12 34
IV.
Sh.
In.
10 12 47 24.2
II.
Ec.
*« 4 41 59.5
II.
Ec.
17 28
IV.
Sh.
Eg.
14 41 22.9
I.
Ec.
Dis.
5 30 52.3
I.
Eo.
Dis.
21 1
I.
Sh.
In.
18 6
H.
Oc.
Re.
8 53 •
I.
Oc.
Re.
22 15
I.
Tr.
In.
18 9
L
Oc.
Re.
9 49
n.
Oc.
Re
23 21
I.
Sh.
Eg.
16 11 51
I.
Sh.
In.
ay 2 42
i.
Sh.
In.
6 0 19
IV.
Tr.
In.
13 2
I.
Tr.
In.
3 46
i.
Tr.
In.
0 35
I.
Tr.
Eg.
14 11
I.
Sh.
Eg.
5 2
i.
Sh.
Eg.
4 59
IV.
Tr.
Eg.
15 21
I.
Tr.
Eg.
6 5
i.
Tr.
Dis.
10 35 23.3
ILL
Ec.
Dl8.
IT 4 22
III.
Sh.
In.
22 27 35.2
HI.
Eo.
1 14 8 6.1
in.
Ec.
Re.
7 31
II.
Sb.
In.
23 20
ii.
Sh.
In.
15 31
III.
Oc.
Dis.
8 4
III.
Sh.
Eg.
23 59 7.0
i.
Eo.
Dis.
15 41
II.
Sh.
In.
9 7
III.
Tr.
Iii!
38 1 30
ii.
Tr.
In.
18 12
II.
Tr.
In.
9 9 38.3
I.
Ec.
Dis.
1 59 36£
in.
Ec.
Re.
18 20 13.3
I.
Ec.
Die.
9 53
II.
Tr.
In.
2 16
ii.
Sh.
Ep.
Dis.
18 37
II.
Sh.
Eg.
10 27
II.
Sh.
Eg.
2 42
in.
Oc.
19 9
III.
Oc.
Re.
12 37
I.
Oc.
Re.
3 20
i.
Oc
Re.
21 8
II.
Tr.
Eg.
12 43
III.
Tr.
Eg.
4 25
ii.
Tr.
Eg.
21 51
I.
Oc.
Re.
12 49
U.
Tr.
Eg.
6 18
in.
Oc.
Re.
7 15 29
I.
Sh.
In.
18 6 19
I.
Sh.
In.
21 10
i.
Sh.
In.
1C 43
I.
Tr.
In.
7 30
I.
Tr.
In.
22 13
i.
Tr.
Id.
17 49
I.
Sh.
Eg.
8 39
I.
Sh.
Eg.
23 30
i.
Sb.
Eg.
19 3
I.
Tr.
Eg.
9 49
I.
Tr.
Eg.
Dm.
M 0 32
i.
Tr.
Eg.
Dis.
8 10 11 29.5
II.
Ec.
Dis.
It 2 5 57.0
II.
Ec.
17 59 28.7
ii.
Ec
12 48 26.3
I.
Ec.
Die.
3 37 53.3
I.
Ec.
Dis.
18 27 21.8
i.
Ec.
Dis.
15 36
II.
Oc.
Re.
7 4
I.
Oc.
Re.
21 47
i.
Oc
Re.
16 19
I.
Oc.
Re.
7 21
II.
Oc.
Re.
23 1
n.
Oc.
Re.
• 9 57
I.
Sh.
In.
2* 0 48
I.
Sh.
Iu.
39 15 39
i.
Sh.
Id.
11 11
I.
Tr.
In.
157
I.
Tr.
In.
16 40
i.
Tr.
In.
12 17
I.
Sh.
Eg.
3 8
I.
Sh.
Eg.
17 0 26.3
IV.
Ec.
Dis.
13 31
I.
Tr.
Eg.
4 16
I.
Tr.
&
17 59
i.
Sh.
Eg.
!• 024
in.
Sh.
In.
18 29 49.2
III.
Ec.
18 59
i.
Tr.
Eg.
4 6
HI.
Sh.
Eg.
20 47
II.
Sh.
In.
21 40 48.1
IV.
Ec
Re.
4 58
ii.
Sh.
In.
22 2 5.4
III.
Ec.
Re.
31 2 46
IV.
Oc.
Dis.
5 20
in.
Tr.
In.
22 6 7.3
I.
Ec.
Dis.
7 20
IV.
Oc.
Re.
7 16 41.6
i.
Ec.
Dis.
23 3
HI.
Oc.
Dis.
12 19
HI.
Sh.
In.
7 26
ii.
Tr.
In.
23 6
II.
Tr.
In.
12 37
ii.
8h.
In.
7 54
ii.
Sh.
Eg.
23 43
II.
Sh.
Eg.
12 55 38.2
i.
Ec.
Dis.
8 57
in.
Tr.
Eg.
«1 1 31
I.
Oc.
Re.
14 42
ii.
Tr.
In.
10 22
ii.
Tr.
Eg.
2 1
II.
Tr.
Eg.
15 33
ii.
Sh.
Eg.
10 47
i.
Oc.
Re.
239
III.
Oc.
Re.
16 0
HI.
Sh.
Eg-
11 4 26
i.
Sh.
In.
19 16
I.
Sh.
In.
16 13
i.
Oc
Re
5 39
i.
Tr.
In.
20 24
I.
Tr.
In.
16 26
in.
Tr.
Id.
646
i.
Sh.
Eg.
21 36
I.
Sh.
Eg.
17 37
ii.
Tr.
Eg.
7 58
i.
Tr.
J3*.
22 43
I.
Tr.
_E*_.
20 1
in.
Tr.
Kg.
Note.— In. denotes ingress; Eg., ogress ; Dis., disappearance; Be., reappearance; Ec, eclipse.
Oc. denotes oooultation; Tr., transit of the satellite; Sh., transit of the shadow.
JUPITER'S SATELLITES, 1884.
461
WASHINGTON MEAN TIME.
• DECEMBER.
Phases of the Eclipses of the Satellites for an Inverting Telescope.
I.
i Q
^
d r ^~>
ttt • • r
)
^
z)
O
1
II.
• 6
>
d r /"^N
TV * * h
\
^
J
^
1
Configurations
at 14b OF* for an Inverting Telescope.
Day.
Veil
■art.
1
O •a 3- -4
•1 •
2
1- O 3' 2- 4«
3
O 'I 4-
4
3*
I O <•
5
•3
O i: s
6
1 O 2'
•3 •
7
4-
2' O 1' *3
8
4-
O 3- •!
• 2»
9
4-
l-O ."!■
10
•4
O 1
11
•4 3-
•2 !• O
12
•4 -3
O
13
•4 -1 -3 (
} 8-
D 1- -3
•4 •
14
9- C
15
1 O •* 3
•2 •
16
iOi-
O 2'3- '4
17
i VO'I -4
18
3-
•2 !• O '*
19
•3
O \ 4-
20
I ? O 2 4-
21
| 2* O 1-3 4-
22
| 7 O 4- -3
23
| 4- Ol- '2 3-
I 24
| O 2' O 3- 4-
o
1 •
| 25
4- 3
• -2 l'O
| 26
4- -3
o \
I-27-
28
•4
•3 1- O 2*
•4
«• O ',•
29
•4
\ O 3
30
•4 O 1- -3 3-
31
O,.'- -4
•1 •
CO
Oi
e*
**
lO
cc
00
o
I *%
00
©»
©*
s
t*
St
iS**
^
^
01
^*
|0
IH
Ca
£8
f-«
e*
t^.
r
i-5
h5
>
1
M
!;
!
ill
ill
j
i H^ fcJ fcJ HI »-? 1
BPH 84—39—14
SATELLITES OF SATURN, 1884.
463
WASHINGTON MEAN TIMES OP ELONGATION, ETC.
In the diagram on the preceding page, the ]M>inte of the orbits marked "o
" are those of
the eastern elongation, as seen in an inverting telescope. The apparent positions of a satellite
at any time may be marked on the diagram by counting around the orbit the interval in days
and hours which has elapsed since the last east elongation. The times of these elongations
may be found from the following tables. Mimas can be seen only within a few hours of each
elongation: the time of every elongation visible at Washington is therefore given. The times
of other elongations of any satellite in the same direction may be found by adding or sub-
tracting any multiple of the period. For the three outer satellites the times of elongation and
conjunction are given. The following abbreviations are used:—
E., East Elongation,
L, Inferior Conjunction (north of planet),
W., West Elongation,
S., Superior Conjunction (south of planet).
MIMAS.
Elongations FisQfU at Washington*
d h
d h
d h
d h
d h
d h
Jan. 3 12.0 W.
Feb. 1 5.7 E.
Mar. 11 8.6 W.
Sept.30 12.4 E.
Nov. 3 10.5 E.
Dec. 6 10.0 E.
4 10.6 W.
6 10.2 W.
12 7.2 W.
Oct. 5 16.8 W.
8 15.0 W.
7 8.7 E.
5 9.2 W.
7 8.8 W.
13 5.8 W.
6 15.4 W.
9 13.6 W.
8 7.3 E.
6 7.8 W.
8 7.4 W.
14 4.4 W.
7 14.0 W.
10 12.2W.
9 5.9 E.
7 6.4 W.
9 6.0 W.
19 8.8 E.
8 12.6 W.
11 10.8 W.
12 13.0 W.
8 6.1 W.
10 4.6 W.
20 7.4 E.
9 11.2 W.
12 9.4 W.
13 11.6 W.
12 10.8 £.
15 9.0 E.
21 6.0 E.
14 15.6 E.
16 15.2 E.
14 10.2 W.
13 9.4 £.
16 7.6 E.
22 4.6 E.
15 14.2 E.
17 13.8 E.
15 8.8 W.
14 8.0 E.
17 6.2 E.
27 9.3 W.
16 12.8 E.
18 12.4 E.
16 7.4 W.
15 6.6 £.
18 4.8 E.
28 7.9 W.
17 11.4 E.
19 11.0 E.
17 6.1 W.
16 5.2 E.
23 9.4 W.
29 6.5 W.
22 15.8 W.
20 9.6 E.
18 4.7 W.
20 11.1 W.
24 8.0 W.
30 5.1 W.
23 14.4 W.
25 14.0 W.
21 11.8 E.
21 9.7 W.
25 6.6 W.
24 13.0 W.
26 12.6 W.
22 10.4 E.
22 8.3 W.
26 5.2 W.
Sept 19 16.3 W.
25 11.6 W.
27 11.2 W.
23 9.0 E.
23 6.9 W.
Mar. 2 9.6 E.
20 14.9 W.
26 10.3 W.
28 9.8 W.
24 7.6 E.
24 5.5 W.
3 8.2 E.
21 13.5 W.
30 16.1 E.
29 8.4 W.
25 6.2 E.
29 9.8 E.
4 6.9 E.
27 16.6 E.
31 14.7 E.
Dec. 3 14.2 E.
26 4.8 E.
30 8.4 E.
6 5.5 E.
28 15.2 E.
Nov. 1 13.3 E.
4 12.8 E.
30 10.8 W.
31 7.0 E.
10 10.0 W.
29 13.8 E.
2 11.9 E.
5 11.4 E.
31 9.4 W.
ENGELADUS.
d h
d h
d h
d h
d h
d h
Jan. 2 9.6 E.
Jan. 16 2.3 E.
Jan. 29 19.2 E.
Feb. 12 12.0 E.
Feb. 26 4.9 E.
Mar. 10 21.8 E.
3 18.5 E.
17 11.2 E.
31 4.1 E.
13 20.9 E.
27 13.8 E.
12 6.7 E.
5 3.4 E.
18 20.1 E.
Feb. 1 13.0 E.
15 5.8 E.
28 22.7 E.
13 15.6 E.
6 12.3 E.
20 5.0 E.
2 21.9 E.
16 14.7 E.
Mar. 1 7.6 E.
15 0.5 E.
7 21.2 E.
21 13.9 E.
4 6.8 E.
17 23.6 E.
2 16.5 E.
16 9.4 E.
9 6.0 E.
22 22.8 E.
5 15.6 E.
19 8.5 E.
4 1.4 E.
17 18.3 E.
10 14.8 E.
24 7.6 E.
\ 7 0.4 E.
20 17.3 E.
5 10.2 E.
19 3.2 E.
11 23.7 E.
25 16.5 E.
8 9.3 E.
22 2.2 E.
6 19.1 E.
20 12.1 E.
13 ao E.
27 1.4 E.
9 18.2 E.
23 11.1 E.
8 4.0 E.
21 21.0 E.
14 17.4 E.
28 10.3 E.
11 3.1 E.
24 20.0 E.
9 12.9 E.
23 5.9 E.
464
SATELLITES OF SATURN, J884.
WASHINGTON MEAN TIMES OF EAST ELONGATIONS.
ENCELADUS— (Concluded.)
d h
d b
d b
d b
d b
d b
Mar. 24 14.8 E.
Sept. 22 22.5 E.
Oct. 13 11.7 E.
Nov. 3 0.9 E.
Nov. 23 14.1 E.
Dec 14 3.2 E.
25 23.7 E.
24 7.4 E.
14 20.6 E.
4 9.8 E.
24 23.0 E.
15 12.1 E.
27 8.6 E.
25 16.3 E.
16 5.5 E.
5 18.7 E.
26 7.9 E.
16 21.0 E.
28 17.5 E.
27 1.1 E.
17 14.4 E.
7 3.5 E.
27 16.7 E.
18 5.8 E.
30 2.4 E.
28 10.0 E.
18 23.3 E.
8 12.4 E.
29 1.6 E.
19 14.7 E.
31 11.3 E.
29 16.9 E.
20 8.2 E.
9 21.3 E.
30 10.4 E.
20 23.6 E.
Apr. 1 20.1 E.
Oot 1 3.8 E.
21 17.1 E.
11 6.2 E.
Dec 1 19.3 E.
22 8.4 E.
2 12.7 E.
23 1.9 E.
12 15.1 E.
3 4.2 E.
23 17.3 E.
Sept. 13 8.2 E.
3 21.5 E.
24 10.7 E.
14 0.0 E.
4 13.0 E.
25 2.2 E.
14 17.1 E.
5 6.4 E.
25 19.6 E.
15 8.9 E.
5 21.9 E.
26 11.1 E.
16 2.0 E.
6 15.3 E.
27 4.5 E.
16 17.8 E.
7 6.8 E.
27 20.0 E.
17 10.9 E.
8 0.2 E.
28 13.4 E.
18 2.7 E.
8 15.7 E.
29 4.9 E.
18 19.8 E:
9 9.1 E.
29 22.3 E.
19 11.5 E.
10 0.6 E.
30 13.8 E.
20 4.7 E.
10 17.9 E.
31 7.2 E.
20 20.3 E.
11 9.5 E.
31 22.6 E.
21 13.6 E.
12 2.8 E.
Nov. 1 16.1 E.
22 5.2 E.
12 18.4 E.
33 7.5 E.
-
TET1
3YS.
d h
d b
d b
d b
d b
d b
Jan. 1 20.2 E.
Feb. 8 13.9 E.
Mar. 17 8.2 E.
Sept. 22 5.7 E.
Oct 29 23.8 E.
Dec 6 17.6 E.
3 17.5 E,
10 11.2 E.
19 5.6 E,
24 3.0 E.
31 21.1 E.
8 14.9 E.
5 14.8 E.
12 8.6 E.
21 3.0 E.
26 0.4 E.
Nov. 2 18.4 E.
10 12.2 E.
7 12.0 E.
14 5.9 E.
23 0.3 E.
27 21.7 E.
4 15.7 E.
12 9.5 E.
9 9.2 E.
16 3.2 E.
24 21.6 E.
29 19.0 E.
6 13.0 E.
14 6.8 E.
11 6.5 E.
18 0.5 E.
26 18.9 E.
Oct. 1 16.3 E.
8 10.3 E.
16 4.1 E.
13 3.8 E.
19 21.9 E.
28 16.3 E.
3 13.7 E.
10 7.7 E.
18 1.4 E.
15 1.1 E.
21 19.2 E.
30 13.6 E.
5 11.0 E.
12 5.0 E.
19 22.7 E.
16 22.4 E.
23 16.5 E.
Apr. 1 10.9 E.
7 8.3 E.
14 2.2 E.
21 20.0 E.
18 19.7 E.
25 13.8 E.
3 8.2 E.
9 5.6 E.
15 23.5 E.
23 17.2 E.
20 16.9 E.
27 11.1 E.
5 5.5 E.
11 2.8 E.
17 20.7 E.
25 14.4 E.
22 14.2 E.
29 8.4 E.
13 0.1 E.
19 18.0 E.
27 11.7 E.
24 11.5 E.
Mar. 2 6.7 E.
Sept. 7 3.3 E.
14 21.4 E.
21 16.3 E.
29 9.0 E.
26 8.8 E.
4 3.0 E.
9 0.6 E.
16 18.7 E.
23 12.6 E.
31 6.3 E.
28 6.2 E.
6 0.4 E.
10 21.9 E.
18 16.1 E.
25 9.9 E.
1885
30 3.5 E.
7 21.7 E.
12 19.2 E.
20 13.4 E.
27 7.2 E.
Jan. 2 3.6 E.
Feb, 1 0.8 E.
9 19.0 E.
14 16.5 E.
22 10.7 E.
29 4.5 E.
4 0.9 E.
2 22.1 E.
11 16.3 E.
16 13.8 E.
24 6.0 E.
Deo. 1 1.8 E.
5 22.2 E.
4 19.3 E.
13 13.6 E.
18 11.1 E.
26 5.2 E.
2 23.0 E.
6 16.6 E.
15 10.9 E.
20 8.4 E.
28 2.5 E.
4 20.3 E.
DIONE.
d h
d h
d h
d b
d b
d b
Jan. 2 21.2 E.
Feb. 4 17.2 E.
Mar. 8 13.6 E.
Sept 24 12.8 E.
Oct 27 8.9 E.
Nov. 29 4.7 E.
5 14.8 E.
7 10.8 E.
11 7.3 E.
27 6.5 E.
30 2.6 E.
Dec 1 22.4 E.
8 6.5E,
10 4.6 E.
14 1.0 E.
30 0.2 E.
Nov. 1 20.2 E.
4 16.0 E.
11 2.1 E.
12 22.2 E.
16 18.8 E.
Oet 2 17.9 E.
4 13.9 E.
7 9.7 E.
13 19.8 E.
15 15.9 E.
19 12.5 E.
5 11.5 E.
7 7.5 E.
10 3.3 E.
16 13.5 E.
18 9.6 E.
22 6.2 E.
8 5.2 E.
10 1.2 E.
12 21.0 E.
19 7.2 E.
21 3.3 E.
24 23.9 E.
10 22.9 E.
12 18.8 E.
15 14.5 E.
22 0.8 E.
23 21.0 E.
27 17.7 E.
13 16.6 E.
15 12.5 E.
18 8.2 E.
24 18.5 E.
26 14.7 E.
30 11.4 E.
16 10.2 E.
18 6.1 E.
21 1.7 E.
27 12.2 E.
29 8.5 E.
19 3.9 E.
20 23.8 E.
23 19.4 E.
30 5.9 E.
Mar. 3 2.2 E.
Sept 19 1.3 E.
21 21.6 E.
23 17.4 E.
26 13.1 E.
Feb. 1 23.5 E.
6 19.9 E.
21 19.0 E.
24 15.3 E.
26 11.1 E.
29 6.8 E.
SATELLITES AND RINGS OF SATURN, 1884. 465
RHEA.
TITAN.
HYPERION.
a
h
d h
d h
d h
d
h
d
h
Jan. 3
6.5 E.
Sep. 21 13.3 E.
Jan. 2 13.3 E.
Sep. 30 13.0 E.
Jan. 3
3.0 W.
Sep. 15
22.8 W.
7
18.6 E.
26 1.7 E.
6 11.91.
Oct. 4 12.71.
8
10.08.
21
5.08.
12
7.0 E.
30 14.1 E.
10 10.9 W.
8 12.4 W.
13
17.0 E.
26
11.5 E.
16
19.3 E.
Oct
. 5 2.5 E.
14 10.2 8.
12 12.0 8.
19
0.0 1.
Oct. 1
18.21.
21
7.7 E.
9 15.0 E.
18 9.9 E.
16 11.7 E.
24
7.0 W.
7
LOW.
25
20.2 E.
14 3.3 E.
22 9.51.
20 11.31.
29
14.08.
12
6.0 8.
30
8.4 E.
18 15.7 E.
26 9.2 W.
24 10.9 W.
28 l6.5 8.
Feb. 3
21.2 E.
17
15.2 E.
Feb. 3
20.9 E.
23 4.1 E.
30 8.8 8.
9
4.71.
22
22.61.
8
9.3 E.
27 16.5 E.
Feb. 3 8.5 E.
Nov. 1 10.0 E.
14
12.3 W.
28
6.2 W.
12
21.7 E.
Nov
-. 1 4.8 E.
7 8.21.
5 9.41.
19
20.08.
Nov. 2
14.0 8.
17
10.2 E.
5 17.2 E.
11 7.9 W.
9 8.7 W.
25
3.8 E.
7
21.6 E.
21
22.7 E.
10 5.5 E.
15 7.68.
13 7.8 8.
Mar. 1
11.81.
13
4.91.
26
11.1 E.
14 17.8 E.
19 7.4 E.
17 7.0 E.
6
19.9 W.
18
12.1 W.
Mar. 1
23.6 E.
19 6.2 E.
23 7.01.
21 6.31.
12
4.08.
23
19.0 S.
6
12.1 E.
23 18.4 E.
27 6.8 W.
25 5.6 W.
17
12.2 E.
29
1.8 E.
11
0.5 E.
28 6.8 E.
Mar. 2 6.5 8.
29 4.88.
22
20.51.
Deo. 4
8.61.
15
13.0 E.
Dec
u 2 19.1 E.
6 6.4 E.
Dec. 3 4.1 E.
28
4.8 W.
9
15.3 W.
20
1.6 E.
7 7.3 E.
10 6.21.
7 3.4 1.
Apr. 2
13.08.
14
22.08.
24
14.0 E.
11 19.5 E.
14 6.1 W.
11 2.8 W.
7
21.3 E.
' 20
4.9 E.
29
2.6 E.
16 7.8 E.
18 5.9 8.
15 2.18.
13
5.61.
25
11.91.
Apr. 2
15.2 E.
20 20.1 E.
22 5.9 E.
19 1.4 E.
18
13.9 W.
30
18.9 W.
25 8.3 E.
26 5.81.
23 0.7 1.
23
22.3 8.
1885
Sept. 12
12.4 E.
29 20.7 E.
30 5.8 W.
27 0.1 W.
Jan. 5
2.08.-
17
0.8 E.
34 9.0 E.
30 23.5 8.
10
9.2 E.
( Inferior Conjunction .
pitq J nut Elongation .
January 15
March 31
June 21
September 9
November 28
TApri
February 3
April 21
May 11
July 11
October 1 ,
December 18
jatwuo^ Superior Comedo* .
February 21
July 31
October 20
1 East Elongation •
March 10
May 31
August 20
November 8
THE
APPARENT ELEMENTS OF SATURN'S RINGS.
a
b
P
I
V
«
«'
Inclination of
The Elevation
The Elevation
Earth's Longitude from Saturn
_
Outer
Outer
Minor
Axis.
Northern
of the Earth
of the Sun
ooonted on Plane of Bins
QraeilWkcu
Semi-Minor
above the
above the
from the Kins'
oending Nodi
s As-
Moan
Noon
Major
Axis.
.Axis to Circle
of Declination
Plane of the
King.
Plane of the
Ring.
»on
from North
to East.
Equator.
Ecliptic.
Jan.
1
45.'48
19U9
0 /
— 3 25.1
0 /
— 25 22.7
— 25 57.0
117° 24,9
0 /
74 43.7
21
44.13
18.90
3 18.6
25 21.1
26 2.3
116 29.3
73 48.2
Feb.
10
42.60
18.29
3 17.7
25 25.4
26 7.3
116 20.8
73 39.7
Mar.
1
41.06
17.73
3 22.6
25 35.5
26 12.0
117 1.1
74 20.1
21
39.68
17.29
3 32.8
25 49.7
26 16.5
118 26.2
76 45.3
Apr.
10
3a 58
16.97
— 3 47.1
— 26 5.6
— 26 20.7
120 27.9
77 47.1
30
37.80
16.78
4 4.2
26 21.0
26 24.5
122 56.6
80 15.9
May
20
37.36
16.70
4 22.8
26 33.6
26 28.2
125 42.6
83 1.9
Jane
9
37.28
16.75
4 41.6
26 42.1
26 31.6
128 36.1
85 55.5
29
37.55
16.92
4 59.4
26 46.3
26 34.7
131 27.3
88 46.8
July
19
38.17
17.19
— 5 15.3
— 26 46.2
— 26 37.4
134 6.7
91 20.3
Ang.
8
39.12
17.59
5 28.4
26 42.9
26 39.8
136 24.7
93 44.3
28
40.37
18.10
5 38.2
23 38.2
26 42.0
138 11.7
95 31.4
Sept.
17
41.83
18.70
5 44.1
26 33.6
26 43.9
139 19.0
96 38.8
Oct.
7
43.40
19.38
5 45.9
26 31.0
26 45.5
139 39.8
96 59.6
27
44.90
20.05
— 5 43.4
— 26 31.2
— 26 46.6
139 11.8
96 31.7
War.
16
46.02
20.58
5 36.9
26 33.8
26 47.8
137 59.8
95 19.8
Dee.
6
46.56
20.87
5 27.5
26 38.0
26 48.6
136 17.8
93 37.9
26
46.39
20.85
5 17.2
26 42.3
26 49.0
134 28.7
91 48.9
31
46.25
20.82
— 5 14.7 | — 26 43.4
— 26 49.0
134 3.1
91 23.4
The factor to be
multiplied by a and b to obtain the axes of —
The in
ner ellipse of the outer ring = 0 8801 log fact*
iter ellipse of the inner ring = 0.9599 log fact
wr — 9.9445
The ot
or = 9.9344
The in
aer ellipse of the inner ring = 0.6650 log fact*
w = 9.8228
The to
ner ellipse of the dusky ring = 0.5486 log fact
or = 9.7392
Not*.— The n
egative sign of 1 indicates that the visible turiaoa *€ the ring
to the southern om>
30
466
SATELLITES OF URANUS, 1884.
Q***** Ax ?
Tifmria 1
V \ '
FmbrUl\
\ \ ^
Ariel \ \ I )k\\ \
WW 1 \ i-**1
\ \ \1/ 1 \UmMel
V \ \ 11
i\ \ \ / 1
K ^Yoberon
APPARENT ORBITS OF THE SATELLITES OF URANUS IN 1884,
AS SEEN IN AN INVERTING TELESCOPE.
WASHINGTON MEAN TIMES OF ELONGATIONS.
AKIEL.
UMBRIEL.
TITANIA.
OBERON.
North.
South.
North.
South.
North.
South.
North and South.
d h
Jan. 0 13.5
8 3.0
15 16.4
23 5.9
30 19.3
d n
Jan. 1 19.7
9 9.2
16 22.6
24 12.1
Feb. 1 1.5
d h
Jan. 1 4.1
9 11.0
17 17.9
26 0.8
Feb. 3 7.8
d h
Jan. 3 5.8
11 12.7
19 19.6
28 2.5
Feb. 5 9.5
d h
Jan. 1 14.7
10 7.6
19 0.5
27 17.4
Feb. 5 10.3
d h
Jan. 5 23.1
14 16.0
23 8.9
Feb. 1 1.8
9 18.7
d )i
Jan. 3 21.4 N.
10 14.9 S.
17 8.5 N.
24 2.1 8.
30 19.6 N.
Feb. 7 8.8
14 22.2
22 11.7
Mar. 1 1.2
8 14.6
8 15.0
16 4.4
23 17.9
Mar. 2 7.4
9 20.8
11 14.7
19 21.6
28 4.5
Mar. 7 11.4
15 18.3
13 16.4
21 23.3
Mar. 1 6.2
9 13.1
17 20.0
14 3.2
22 20.1
Mar. 2 13.1
11 6.0
19 23.0
19 11.6
27 4.5
Mar. 6 21.5
15 14.4
24 7.4
Feb. 6 13.2 8.
13 6.7 N.
20 0.3 S.
26 17.8 N.
Mar. 4 11.4 8.
16 4.1
23 17.6
31 7.1
Apr. 7 20.5
15 10.0
17 10.3
24 23.8
Apr. 1 13.3
9 2.7
16 16.2
24 1.2
Apr. 1 8.2
9 15.1
17 22.0
26 4.9
26 2.9
Apr. 3 9.9
11 16.8
19 23.7
28 6.6
28 16.0
Apr. 6 9.0
15 2.0
23 18.9
May 2 11.8
Apr. 2 0.4
10 17.4
19 10.4
28 3.3
May 6 20.2
11 4.9 N.
17 22.5 8.
24 16.0 N.
31 9.6 8.
Apr. 7 3.1 N.
22 23.5
30 12.9
May 8 2.4
15 15.8
23 5.3
24 5.7
May 1 19.1
9 8.6
16 22.0
24 11.5
May 4 11.8
12 18.7
21 1.6
29 8.5
June 6 15.4
May 6 13.5
14 20.4
23 3.3
31 10.2
June 8 17.1
11 4.8
19 21.8
28 14.7
June 6 7.7
15 0.6
15 13.2
24 6.2
June 1 23.1
10 16.1
19 9.0
13 20.7 8.
20 14.2 N.
27 7.8 8.
May 4 1.4 N.
10 19.0 8.
Not. 30 18.4
Deo. 8 7.9
15 21.3
23 10.8
31 0.3
Dec. 7 1.7
14 15.1
22 4.6
29 18.0
Dec. 1 20.1
10 3.0
18 9.9
26 16.9
Dec. 3 21.8
12 4.7
20 11.6
28 18.6
Nov. 27 10.0
Dec. 6 3.0
14 20.0
23 12.9
32 5.8
Dec. 1 18.5
10 11.5
19 4.4
27 21.3
17 12.6 N.
Dee. 5 10.6 N.
12 4.2 8.
18 21.7 N.
25 15.1 8.
d h d h
Period of Ariel, 2 12.489 Period of Titanfa, 8 16.942
Period of Umbriel, 4 3.460 Period of Oberon, 13 11.119
Nom—For Ariel only every third elongation is given, and for Umbriel every alternate one. The intermediate ones
may be found by adding multiples of the period of the satellite.
SATELLITE OF NEPTUNE, 1884.
467
APPARENT ORBIT OF THE SATELLITE OF NEPTUNE IN 1884,
A8 SEEN IN AN INVERTING TELESCOPE.
WASHINGTON MEAN TIMES OF ELONGATIONS.
South West
North East
South West.
North East
SouthWest
North East
d b
d h
d h
d h
d h
d h
Jan.
2 19.0
Aug.
21 20.9
Aug. 24 19.4
Oct.
25 12.6
Oct.
28 11.2
Jan. 5 17.5
8 16.0
27 18.0
30 16.5
31 9.7
Nov.
3 8.3
11 14.5
14 13.1
Sept.
2 15.0
Sept. 5 13.5
Nov.
6 6.8
9 5.4
17 11.6
20 10.1
8 12.1
11 10.6
12 3.9
15 2.4
23 8.6
26 7.1
14 9.1
17 7.6
18 1.0
20 23.5
29 5.6
Feb.
1 4.2
20 6.2
23 4.7
•
23 22.1
26 20.7
Feb. 4 2.7
7 1.2
26 3.2
29 1.7
29 19.2
Dec.
2 17.9
9 23.7
12 22.2
Oct.
2 0.3
Oct. 4 22.8
Dec.
5 16.3
8 14.9
15 20.7
18 19.3
7 21.3
10 19.9
11 13.4
14 12.0
21 17.8
24 16.3
13 18.4
16 16.9
17 10.4
20 9.0
27 14.8
Mar.
1 13.4
19 15.4
22 14.0
23 7.5
26 6.1
The above times are those of each passage of the satellite through an apsis of its apparent
orbit The position of the satellite at any other time may be found by measuring around the
orbit from the apsis last passed through, remembering that the radius vector of the satellite
describes equal areas in equal times.
Period of the satellite of Neptune, 5d 21h.045.
In the above diagrams, the central circle represents the planet, and is on the same scale
as the orbits.
4G8
PHENOMENA, 1884.
WASHINGTON MEAN TIME.
PLANETABY CONSTELLATIONS.
d h m
Jan. 1 22 -
2 10 -
3 19 -
3 23 -
7.13 2
8 5-
8 14 14
11 1 -
12 14 53
12 20 -
14 1 29
17 0 5
19 10 -
20 3 -
23 4 -
26 9 48
28 3 -
30 4 16
31 18 -
31 18 -
Feb. 2 21 -
3 18 33
4 19 34
6 21 -
8 17 39
9 16 40
13 7 44
13 11 -
15 15 -
15 16 -
22 0 -
24 7 15
25 19 -
28 22 7
29 2 -
Mir. 2 0 30
3 2 8
6 20 16
7 12 8
11 13 53
11 21 -
15 14 -
17 4 -
19 12 -
19 17 -
21 14 -
26 9 11
26 - -
27 9 -
29 9 6
29 12 55
29 15 -
30 11 57
Apr. 2 11 -
S Stationary.
Perigee.
9 greatest Hel. Lat. S.
g greatest elong. E. 19 16
<$tp<C tp— 0 6
8 inQ
6 h€ •- . h + 059
tt Stationary.
621C 21 + «41
5 in Perihelion.
6 $€ <?+9 18
6 &<C §4-327
*$ot .
& g ©Inferior.
§ greatest Hel. Lat N.
6 S<C S- 134
tp Stationary.
6 9<C 9-5 7
5 Stationary.
g (JO
>i Stationary.
6VC V + 011
6h€ h + 118
DWO
6 2t€ 21 + 5 45
6 <J<C $ + 943
<S 5C •» S-h 3 18
§ greatest elong. W. 26 12
8 in 8
£ greatest Hel. Lat. N.
<J8C S— 6 16
g in Aphelion.
6 9 € 9— 0 32
9 ^ 8
6 ¥<C ¥+ 027
6* >i <C h -h 1 42
<S2£<C Jtf-h 554
<$3<c $ + 9 6
<J §<C S-h 320
A Stationary.
s so
5 greatest Hel. Lat. S.
O enters °f> Spring com.
jI Stationary.
<J in Aphelion.
6 B<C S — 325
0 eclipsed, invis. at Wash.
(5V? V— 334
<J V<C V + 038
<J 9 <C 9 + 4 31
<$ B ©Superior.
6* >i<C H2 4
9 in Perihelion.
d h m
Apr. 3 1 52
322 26
5 5-
7 18 37
9 19 -
9 - -
12 11 -
14 7 -
20 3 -
20 14 -
24 14 -
24 - -
25 9 -
25 20 27
26 5 55
27 1 56
28 2 41
30 12 21
May 1 21 1
2 5-
4 22 33
5 12 -
5 12 -
10 10 -
13 14 -
17 5 -
23 8 56
23 13 37
23 19 -
24 18 1
27 7 54
28 3 42
30 3 -
30 320
30 21 -
30 23 -
June 1 3 54
3 - -
3 4-
12 11 -
13 4 -
14 3 -
18 12 -
19 15 -
19 20 29
20 8 -
21 0 41
21 10 30
24 7 23
24 22 26
25 6 -
27 14 31
28 11 42
30 12 -
621C 21 + 6 0
6 £C £ + 8 10
g inQ
6 &€ S-H 327
g in Perihelion.
<C eclipsed, vis. at Wash.
6 h 9 h— 413
u2tO
$ greatest Hel. Lat. N.
6 V 3 ¥ — 420
9 greatest Hel. Lat. N.
Q eclipsed, invis. at Wash.
Q greatest elong. E. 20 32
6 ¥<T V+ 044
6 S<C g-h 5 47
6h€ h + 2 19
6 9<C 9-r- 753
621C 21+ 558
6 & <C J+7 9
9 greatest elong. E. 45 33
6 5<C 5-4-329
g Stationary.
6 WO
3 ^ 8
6* 3 ©Inferior.
<$tp<C ¥+0 48
& g <C . .n 5-0 1
§ in Aphelion.
6 hC h+ 232
<59<C 9-H87
621C 21+ 549
§ Stationary.
6 2<C 3+ 550
0 Stationary.
<$ <J ceLeonis . . £ -t- 0 58
6 5<C 5+321
9 greatest brilliancy.
g greatest elong. W. 23 19
8 greatest Hel. Lat S.
D SO
9 Stationary.
9 inQ
<$ ¥<C V-f- 058
O enters 23, Summer com.
<$SC $-h 139
6hC h+ 246
<J9<T 9+46
<J.tfC 2 + 535
<ss>i *+ ? I
<5 £<C $+ 4 8
6 $<C 5-4- 3 4
0 Apogee.
PHENOMENA, 1884.
469
WASHINGTON MEAN TIME.
PLANETARY CONSTELLATIONS.
July
d h in
2 4-
6 18 -
11 9 -
11 13 -
12 12 -
17 2 -
17 5 27
19 1 1
19 2 -
20 18 28
22 15 -
22 18 34
22' 19 5
23 23 -
25 21 57
26 5 4
30 — —
Aug. 1 23 -
7 1-
9 13 -
13 12 10
14 11 -
15 12 -
15 12 44
17 4 37
17 - -
19 14 36
19 18 -
22 8 53
22 9 35
22 20 -
23 5 -
23 22 29
2$ 17 -
31 5 -
Sept.
5 18 -
9 3 -
9 17 29
11 21 17
15 1 8
15 22 -
16 0 -
16 8 30
18 16 13
18 21 7
18 22 -
20 10 -
20 19 -
21 18 48
21 22 -
28 3
28 5
Oct 2 18
8 in
8 in Perihelion.
6 9 0 Inferior.
<J 8 9 8-4-620
6 8 ©Superior.
8 greatest Hel. Lat N.
6 Wtf ¥4- 1 II
6h€ h+3 2
6 § <J 6-h on
6 9* 9- HI
6 8 2 S+ HO
621C Jtf-h 521
<J 8 <C 8+630
9 Aphelion.
6 &<L §4-243
6 &<L £+25
6 0 /J Virginia .©4-02
9 N Stationary.
6 V€ tp+ 125
j greatest Hel. Lat S.
ih€ h-H 3 17
6 9 <L 9— 038
9 greatest brilliancy.
6XC 21+ 5 8
5 in Aphelion.
<$ S <T B— 033
6 6<t |-h 835
«5SS §+3 5
b. greatest elong. E. 37 31
6 St <J — 0 10
<J? Stationary.
3 in 8
Q Htatiouary.
g greatest Hel. Lat. S.
<$WC V-»- 1 33
6 h€ h+ 328
<5 9 C 9 + 236
O h0
6 $X S+ 4 43
62t<L %+ 455
<5 § C B — 134
6 § C ....... 1+ 2 14
<5 § Q Inferior.
<* f ©
9 greatest eloug. W. 46 6
6 }£ $- 220
O enters £±, Autumu com.
«. in 8
8 Stationary.
8 in Perihelion.
d h m
Oct. 4 - -
4 15 -
4 20 -
5 23 -
623 44
7 7-
8 15 -
9 3 50
10 19 -
13 2 -
13 23 57
14 14 48
16 7 19
17 7 58
18 - -
20 18 15
Nov. 3 8 14
3 18 -
4 3-
5 10 16
5 12 -
10 12 33
12 15 45
13 3 -
13 10 -
13 12 38
15 17 -
17 15 53
18 20 48
25 15 -
30 18 20
Dec. 2 17 46
4 11 -
5 6-
6 2-
7 22 52
9 23 8
11 H -
13 16 37
17 7 -
18 1 &>
18 18 34
20 12 -
20 17 -
24 2 -
24 22 -
25 2 -
28 4 0
29 12 -
29 17 -
30 1 48
31 11 -
.C eclipsed, via. at Wash.
8 greatest elong. W. 17 56
ri Stationary.
6 9 21 ?-l 15
6V€ V+ 133
6 9 aLeonia . . O — 0 55
<*SS I— HO
6 h€ ?+ 330
8 greatest Hel. Lat N.
621* #4- 442
<J 9 <C ?4- 335
6 &<T $4-2 5
6 8<T 84-2 1
O eclipsed, invis. at Wash.
6 <JC <J— 4 10
6VC $4- 128
6 § 9 &— 050
6 8 © Superior.
6h€ h+ 323
8 «Q
6 2L<L #4- 426
6&C S-h 154
no
9 in Perihelion.
6 9<C 94-2 1
8 in Aphelion.
<$8<T 8— 5 18
6 $<L £—526
D#©
6 ¥<£ #4- 125
6 hC h-h 3 15
6 8 <? 8-iae
9 greatest Hel. Lat. N.
8 greatest Hel. Lat. S.
6 2t€ #4- 410
<5lC §4- 137
ghO
6 9 <L 9— I 15
8 greatest elong. £. 20 12
6 <?<T <J— 559
<S8C 8—627
21 Stationary.
tenters "VJ, Winter com.
O
8 Stationary.
8 lDQ
6 V € ?+ 133
6 8 & 84-225
8 in Perihelion.
6h<L >14- 3 16
© Perigee.
470
OBSERVATORIES.
POSITIONS OF OBSERVATORIES.
( North Latitudes and West Longitudes are Considered Positive.)
Place.
Latitude.
Reduction
to
Longitude
Geocentric
Log p.
Latitude.
From Washington.
From Greenwich.
Abo
+ 60° 26 56\8
— 9 53.5
9.998902
h ra e
- 6 37 20.3
h m •
- 129 8.2
Adelaide .
-34 57
+ 10 47.8
9.999526
-14 22 33.1
- 9 14 21.0
Albany
Alfred .
+ 42 39 49.5
— 11 88.2
9.999336
- 0 13 12.87
+ 4 54 59.22
+ 42 15 19.8
— 11 87.2
9.999346
+ 0 2 55.00
+ 5 11 7.09
Algier
+ 36 45 2.7
— 11 1.6
9.999483
- 5 20 23.48
- 0 12 11.39
Allegheny
+ 40 27 41.6
— 11 21.6
9.999391
+ 0 11 50.84
+ 5 20 2.93
Altona
+ 53 32 45.3
— 11 0.8
9.999063
- 5 47 58.44
- 0 39 46.35
Amherst .
+ 42 22 15.6
— 11 27.5
9.999343
- 0 18 4.8
+ 4 50 7.3
Annapolis
+ 38 58 53.5
— 11 15.0
9.999428
- 0 2 15.60
+ 5 5 56.49
Ann Arbor
+ 42 16 48.0
— 11 87.3
9.999346
+ 0 26 43.10
+ 5 34 55.19
Armagh .
+ 54 21 12.7
— 10 54.9
9.999043
- 4 41 36.6
+ 0 26 35.5
Athens
+ 37 58 20.0
— 11 9.4
9.999453
- 6 43 7.8
- 1 34 55.7
Berlin
+ 52 30 16.7
— 11 7.7
9.999088
- 6 1 47.00
- 0 53 34.91
Berne
+ 46 57 8.7
— 1 1 89.2
9.999227
- 5 37 58.1
- 0 29 46.0
Bethlehem
+ 40 36 23.9
— 11 28.2
9.999388
- 0 6 40.19
+ 5 1 31.90
Birr Castle
+ 53 5 47.0
— 11 3.9
9.999074
- 4 36 31.2
+ 0 31 40.9
Bologna .
+ 44 29 47.0
— 11 30.5
9.999289
- 5 53 36.7
- 0 45 24.6
Bonn . .
+ 50 43 45.0
— 11 17.3
9.999 J 32
- 5 36 35.38
— 0 28 23.29
Bothkamp
+ 54 12 9.6
— 10 56.0
9.999047
- 5 48 42.9
— 0 40 30.8
Breslau .
+ 51 6 56.5
— 11 15.4
9.999122
- 6 16 20.80
- 1 8 8.71
Brussels .
+ 50 51 10.5
— 11 16.8
9.999129
- 5 25 40.7
- 0 17 28.6
Cambridge (Eng.)
+ 52 12 51.6
— 11 9.4
9.999095
- 5 8 34.84
— 0 0 22.75
Cambridge (Mass.)
+ 42 22 48.3
— 11 27.6
9.999343
- 0 23 41.11
+ 4 44 30.98
Cape of Good Hop*
* .
- 33 56 3.4
+ 10 39.0
9.999550
- 6 22 7.1
- 1 13 55.0
Chapultepec . .
+ 19 25 17.5
— 7 12.0
9.999841
+ 128 26.15
+ 6 36 38.24
Charkow . . .
+ 50 0 10.2
— 11 80.5
9.999150
- 7 33 6.8
— 2 24 54.7
Chicago . . .
+ 41 50 1.0
— 11 86.8
9.999357
+ 0 42 14.69
+ 5 50 26.78
Christiania . .
+ 59 54 43.7
— 10 0.2
9.998914
- 5 51 5.94
- 0 42 53.85
Cincinnati (New Obs.).
+ 39 8 35.5
— 11 15.8
9.999424
+ 0 29 29.33
+ 5 37 41.42
Cincinnati (Old Obs).
+ 39 6 26.5
— 11 15.6
9.999425
+ 0 29 46.85
+ 5 37 58.94
Clinton
+ 43 3 17.0
— 11 28.9
9.999326
- 0 6 34.65
+ 5 1 37.44
Coimbra •
+ 40 12 25.8
— 11 20.6
9.999393
- 4 34 37.6
+ 0 33 34.5
Copenhagen
+ 55 41 13.6
— 10 43.9
9.999011
- 5 58 31.3
— 0 50 19.2
Cordoba .
- 31 25 15.4
+ 10 13.5
9.999608
- 0 51 27.0
+ 4 16 45.1
Cracow .
+ 50 3 50.0
— 11 20.3
9.999149
- 6 28 2.6
— 1 19 50.5
Dantzig .
+ 54 21 18.0
— 10 54.9
9.099043
- 6 22 51.4
- 1 14 39.3
Dorpat. .
+ 58 22 47.4
— 10 17.6
9.998948
- 6 55 5.6
— 146 53.5
Dublin. .
+ 53 23 13
— 11 1.9
9.999066
- 442 50
+ 025 22
Dusseldorf
+ 51 12 25
— 11 15.0
9.999120
- 5 35 17
-027 5
Dun Echt
+ 57 9 36
— 10 30.2
9.998977
- 4 58 32.1
+ 0 9 40.0
Durham .
+ 54 46 6.2
— 10 51.6
9.999033
- 5 1 52.3
+ 06 19.8
Edinburgh
+ 55 57 23.2
— 10 41.5
9.999005
- 4 55 29.04
+ 0 12 43.05
Florence .
+ 43 46 4.1
— 11 29.9
9.999308
- 5 53 13.6
- 0 45 1.5
Geneva .
+ 46 11 58.8
— 11 30.1
9.999246
- 5 32 48.86
- 0 24 36.77
Georgetown
+ 38 54 26.2
— 11 14.6
9.999430
+ 0 0 6.20
+ 58 18.29
Glasgow (Missouri) .
+ 39 16 16.8
— 11 16.4
9.999421
+ 1 3 5.93
+ 6 11 18.02
Glasgow (Scotland) .
+ 55 52 42.8
— 10 42.2
9.999006
- 4 51 1.5
+ 0 17 10.6
EPH 84 — 30 — 6
OBSERVATORIES.
471
POSITIONS OF OBSERVATORIES.
( North Latitudes and West Longitudes are Considered Positive.)
Place.
Gottingen .
Gotha . .
Greenwich
Hamburg .
Hanover .
Hastings-on-Hudson
Haverford . . .
Helsingfors . . .
Hudson ....
Kasan
Kew . . .
Kiel . . .
Kiew . . .
Konigsberg .
Kremsmunster
Leiden .....
Leipzig . . . . ,
Ley ton . . . . ,
Lisbon (Marine Obs.) ,
Lisbon (Royal Obs.) ,
Liverpool . . .
Lubec ,
Lund
Madison .....
Madras .....
Madrid
Manheim .....
Marburg -
Markree .....
Marseilles ....
Melbourne ....
Mexico .....
Milan
Modena .....
Montsouris ...
Moscow ....
Mount Hamilton
Munich ....
Naples ....
Neuchatel . . .
New Haven . . .
•New York (Columb. Coll.)
I New York (Ruthbkfuro)
| Nicolaeff
Odessa
I Ogden
! 0-Gya!la
Latitude.
+ 51
+ 50
+ 51
+ 53
+ 43
40
40
60
41
55
31 47.9
56 37.5
28 38.4
33 7.0
42 15
•
59 25
0 36 5
9 43.3
14 42.6
47 24.2
+ 51 28 6
+ 54 20 29.7
+ 50 27 11.1
+ 54 42 50.6
+ 48 3 23.7
+ 52 9 20.0
+ 51 20 6.3
+ 51 34 34
+ 38 42 17.6
+ 38 42 31.3
+ 53 24 4
+ 53 51 31.2
+ 55 41 52.1
+ 43 4 36.7
+ 13 4 8.1
+ 40 24 30.0
+ 49 29 11.0
+ 50 48 46.9
+ 54 10 31.8
+ 43 18 19.1
- 37 49 53.3
+ 19 26 1.3
+ 45 27 59.2
+ 44 38 52.8
+ 48 49 18.0
4- 55 45 19.8
+ 37 21 3
+ 48 8 45.5
+ 40 51 45.4
+ 46 59 51.0
+ 41 J8 36.5
+ 40 45 23.1
+ 40 43 48.5
+ 46 58 20.6
+ 46 28 36
+ 41 13 8.6
+ 47 52 43.4
Reduction
to
Geocentric
Latitude.
— II 13.3
— II 16.3
— II 13.6
— II 08
— II 29.8
— 1 1 23.6
— II 19.8
— 9 57.1
— 1 1 24.4
— 10 43.0
— II 13.6
— 10 55.0
— II 18.6
— 10 52.0
— II 27.0
— II 9.8
— II 14.3
— 11 13.0
— II 13.5
— 11 13.6
— II 1.8
— 10 58.6
— 10 43.8
— 11 28.9
— 5 3.3
— II 21.4
— 1 1 23.5
— 11 16.9
— 10 56.2
— 11 29.3
+ 11 8.6
— 7 12.2
— 1 1 30.6
— II 30.6
— II 24.8
— 10 43.3
— II 5.6
— II 26.7
— II 23.1
— II 29.1
— II 24.6
— 1 1 22.7
— 1 1 22.6
— 1 1 29.2
— 11 29.8
— II 24.3
— 1 1 27.4
Log p.
9.999112
9.999127
9.999113
9.999062
9 999309
9.999376
9.999402
9.998909
9.999371
9.999009
9.999114
9.999043
9.999139
9.999034
9.999199
9.999097
9.999117
9.999111
9.999435
9.999435
9.999066
9.999055
9.9990] 1
9.999325
9.999926
9.999393
9.999163
9.999130
9.999047
9.999320
0.999466
9.999840
9.999265
9.999285
9.999180
9.999009
9.999468
9.999197
9.999381
9.999226
9.95)9370
9.999384
9.999384
9.999226
9.999239
9.999372
9.999204
Longitude
From Washington. From Greenwich
- 5 47 58.33
-5 51 2.62
-58 12.09
- 5 48 5.8
- 0 19 4.13
- 0 12 42.4
- 0 6 59.34
- 6 48 1.25
+ 0 17 32.06
- 8 24 41.0
- 5 6 57.0
- 5 48 47.85
- 7 10 12.73
-6 30 11.00
- 6 4 44.3
-5 26 8.44
- 5 57 46.11
-58 11.22
- 4 3147.1
-4 31 27.41
- 4 55 54.9
- 5 50 57.64
- 6 0 57.11
+ 0 49 25.8
-10 29 11.5
- 4 53 26.7
-5 42 2.61
- 5 43 17.1
- 4 34 23.7
- 5 29 46.73
-14 48 6.9
+ 1 28 14.58
- 5 44 58.06
- 5 51 54.9
- 5 17 32.77
- 7 38 29.0
+ 2 58 14.6
- 5 54 38.22
-65 13.0
-5 36 2.3
- 0 16 29.90
- 0 12 18.40
- 0 12 15.47
- 7 16 6.2
- 7 11 14.4
+ 2 19 47.52
- 6 20 57.68
h m s
- 0 39 46.24
- 0.42 50.53
0 0 0
- 0 39 53.7
+ 4 49 7.96
+ 4 55 29.7
+ 5 1 12.75
- 139 49.16
+ 5 25 44.15
- 3 16 28.9
+ 0 1 15.1
- 0 40 35.76
-22 0.64
- 1 21 58.91
- 0 56 32.2
- 0 17 56.35
- 0 49 34.02
+ 00 0.87
+ 0 36 25.0
+ 0 36 44.68
+ 0 12 17.2
- 0 42 45.55
- 0 52 45.02
+ 5 57 37.9
- 5 20 59.4
+ 0 14 45.4
- 0 33 50.52
- 0 35 5.0
+ 0 33 48.4
-0 21 34.64
- 9 39 54.8
+ 6 36 26.67
- 0 36 45.97
- 0 43 42.8
- 0 9 20.68
- 2 30 16.9
+ 8 6 26.7
- 0 46 26.13
-0 57 0.9
- 0 27 50.2
+ 4 51 42.19
+ 4 55 53.69
+ 4 55 56.62
-2 7 54.1
- 2 3 2.3
+ 7 27 59.61
- 1 12 45.59
BPH 84 — 30—7
472
OBSERVATORIES.
POSITIONS OF OBSERVATORIES.
( North Latitude* and West Longitudes are Considered Positive.)
Pteee.
LatitutU.
Reduction
to
Geocentric
Latitude,
Log/?.
Longitude
From Washington. From Greenwich.
E m •
- 1 9 2.6
+ 0 5 2.6
+ 05 0.40
- 0 47 29.13
- 0 53 25.0
-10 4 6.2
- 0 9 21.02
+ 5 0 38.45
- 0 55 23.18
- 0 52 17
+ 4 55 33.6
- 0 57 41.4
+ 4 58 37.55
- 2 1 18.67
+ 4 44 49.3
Olmutz • . .
Oxford (Radcliffe)
Oxford ( University)
Padua ....
Palermo . • .
Paramatta • .
Paris ....
Philadelphia . .
Pola ....
Potsdam . . .
Poughkeepsie .
Prague . . .
Princeton . . .
Pulkowa • • .
Quebec . . .
Rio de Janeiro .
Rochester • .
Rome ....
Saint Petersburg
San Fernando .
Santiago de Chile
Schwerin .
Senftenberg
Speier . .
Stockholm
Stonyhurst
Strassburg (New
Strassburg(OZd
Sydney . .
Toulouse . •
Turin . . .
Twickenham
Upsala • •
Utrecht . .
Venice . .
Obs.)
Obs.)
Vienna (Josephstadt)
Vienna (New Obs.)
Vienna (Old Obs.)
Warsaw . . .
Washington . .
West Point . .
■ Wirhelrashaven .
Williamstown (Mass.)
Will iamsto wn ( Victoria)
Wilna. . . .
Windsor . . .
Zurich. . . .
+ 49 35 43
+ 51 45 36.0
+ 51 45 34.2
+ 45 24 2.5
+ 38 6 44
- 33 48 49.8
+ 48 50 11.8
+ 39 57 7.5
+ 44 51 49.0
+ 52 22 56
+ 41 41 18
+ 50 5 18.8
+ 40 20 57.8
+ 59 46 18.7
+ 46 48 17.3
- 22 54 23.8
+ 43 8 15
+ 41 53 53.7
+ 59 56 29.7
+ 36 27 41.5
- 33 26 42.0
+ 53 37 38.2
+ 50 5 10.1
+ 49 18 55.4
+ 59 20 33.0
+ 53 50 40
+ 48 34 59.7
+ 48 34 53.8
*-33 51 41.1
+ 43 36 47
+ 45 4 6.0
+ 51 27 4.2
+ 59 51 31.5
+ 52 5 10.5
+ 45 25 49.5
+ 48
+ 48
+ 48
+ 52
'+38
12 53.8
13 55.4
12 35.5
13 5.7
53 38.8
<+ 41 23 31
+ 53 31 52.0
+ 42 42 49
- 37 52 7.2
+ 54 41 0
- 33 36 28.9
+ 47 22 40.0
— 11 88.1
— II 12.0
— II 18.0
— 11 30.6
— 11 10.8
+ 10 37.8
— 11 84.8
— II 19.5
— II 30.6
— II 8.4
— II 85.8
— II 80.8
— II 81.8
— 10 1.8
— 11 89.4
+ 8 13.9
— 11 89.0
— 11 86.3
— 9 59.8
— 10 59.5
+ 10 34.4
— 11 0.8
— II 80.8
— II 83.8
— 10 C.9
— 10 58.7
— 1 1 85.5
— II 85.5
+ 10 38.3
— 11 89.7
— II 30.7
— 11 13.7
— 10 0.8
— 11 10.8
— II 30.6
— II 86.6
— II 86.5
— 1186.6
— 11 9.4
— 11 14.5
— 11 84.9
— 11 0.9
— II 88.3
+ 11 8.8
— 10 58.3
+ 10 35.9
— 11 88.5
9.999100
9.999106
9.999106
9.999866
9.999449
9.999553
9.999 1 79
9.999404
9.9992H0
9.999091
9.999360
9.999148
9.999394
9.998917
9.999831
9.999788
9.999384
9.999335
9.998913
9.999490
9.999561
9.999061
9.1)99148
9.999IG7
9.998987
9.999055
9.999186
9.999186
9.999558
9.999318
9.999875
9.999114
9.998915
9.999096
9.999866
9.999195
9.999195
9.999195
9.999095
9.999430
9.999368
9.900063
9.980334
9.999455
9.999036
9.999558
9.999816
h ra e
- 6 17 14.7
- 5 3 9.5
. 5 3 11.69
. 5 55 41.22
. 6 1 37.1
15 12 18.3
. 5 17 33.11
. 0 7 33.64
. 6 3 35.27
■ 6 0 29
0 12 38.5
- 6 5 53.5
- 0 9 34.54
- 7 9 30.76
. 0 23 22.8
2 15 30.68
• 038
- 5 58 6.79
. 7 9 25.6
. 4 43 22.5
- 0 25 29.7
. 5 53 52.8
- 6 14 2.7
. 5 41 57.7
6 20 26.09
- 4 58 19.41
5 39 16.74
5 39 14.58
15 13 2.7
. 5 14 3.2
5 39 0.5
- 5 6 59.0
6 18 42,7
. 5 28 43.8
. 5 57 37,5
6 13 37.4
6 13 33.31
6 13 43.83
6 32 19.5
0 0 0
0 12 22.71
5 40 47.30
0 15 18.6
14 47 50.9
6 49 24.0
15 11333
5 42 24.7
+ 2 52 41.41
+ 5 1120
- 0 49 54.70
- 2 1 13.5
+ 0 24 49.6
+ 4 42 42.4
- 0 45 40.7
- 1 5 50.6
- 0 33 45.6
- 1 12 14.00
+ 0 9 52.68
-0 31 4.65
- 0 31 2.49
-10 4 50.6
- 0 5 51.1
- 0 30 48.4
+ 0 1 13.1
- 1 10 30.6
- 0 20 31.7
- 0 49 25.4
- 1 5 25.3
- 1 5 21.22
- 1 5 31.74
-124 7.4
+ 58 12.09
+ 4 55 49.38
- 0 82 35.21
+ 4 52 53.5
- 9 39 38.8
- 1 41 11.9
-10 3 21.7
- 0 34 12.6
EPH 84—30—8
ON THE ARRANGEMENT AND USE OF THE AMERICAN
EPHEMERIS AND NAUTICAL ALMANAC.
PART J— THE EPHEMERIS FOB THE MERIDIAN OP GREENWICH.
The greater portion of this Ephemeris, embracing the positions 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 ephemerides of the planets Mercury, Venus, Mars, Jupiter, aod
Saturn, is designed for the special use of navigators. The remainder contains the ephemeris
of Uranus and Neptune, the heliocentric co-ordinates of the seven major planets, the rectangular
equatorial co-ordinates of the sun, the moon's longitude and latitude, data for the libration of the
moon, the obliquity of the ecliptic, the equation of equinoxes, etc.
•
TIME.
Astronomers make use of several different kinds of time : mean solar time ; true, or apparent
solar time ; and sidereal time.
Solar Time. — Solar time is that used for all the purposes of ordinary life, and is measured
by the daily motion of the sun. A Solar Day ia the interval of time between two successive
transits of the sun over the same meridian; and the hour-angle of the sun is called Solar Time.
This is the most natural and direct measure of time. But the intervals between the successive
returns of the sun to the same meridian are not exactly equal, owing to the varying motion of
the earth around the sun, and to the obliquity of the ecliptic. The intervals between the sun's
transits over the meridian being unequal, it is impossible to regulate a clock or chronometer so
that it shall accurately follow the sun.
To avoid the irregularity which would arise from using the true sun as the measure of time,
a fictitious sun, called the Mean Sun, is supposed to move in the equator with a uniform velocity.
This mean sun is supposed to keep, on the average, as near the real sun as is consistent with
perfect uniformity of motion; it is sometimes in advance of it, and sometimes behind it, the
greatest deviation being about 16 minutes of time.
Mean Solar Time, which is perfectly equable in its increase, is measured by the motion of this
mean sun. The clocks in ordinary use and the chronometers used by navigators are regulated
to mean solar time.
True% or Apparent Solar Time is measured by the motion of the real sun.
The difference between apparent and mean time is called the Equation of Time, By means
of it we change apparent to mean time, or the reverse. Thus, if the apparent 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, on page I of
the Calendar for each month. If the mean time be given, the apparent time is obtained by
applying the equation of time as directed by the precept on page II of the Calendar.
Sidereal Tfat*.— Sidereal time is measured by the daily motion of the stars ; or, as it is used
by astronomers, by the daily motion of that point in the equator from which the true right ascen-
sions of the stars are counted. This point is the vernal equinox, and its hour-angle is called
Sidereal Time. Astronomical clocks, regulated to sidereal time, are called sidereal clocks.
EPH 84 — 30 — 9
474 THE AMERICAN EPHBMERIS.
A Sidereal Day is the interval of time between the transit of the vernal equinox over any
meridian, and its next succeeding return to the same meridian. It is about 3m 56s shorter than
the mean solar day ; 365£ solar days, or a year, being divided into 366£ sidereal days. It is
divided into 24 hours. The sidereal hours are counted from 0 to 24, commencing with the
instant of the passage of the true vernal equinox over the upper meridian* and ending with its
return to the same meridian. About March 21st of each year the sidereal clock agrees with the
mean time, or ordinary clock; and it gains on it about 3m 56s per day, so that at the end of a
year it will have gained an entire day, and will again agree with it.
Day. — The Civil Day, according to the customs of society, commences at midnight, and
comprises twenty-four hours from one midnight to the next following. The hours are counted
from 0 to 12 from midnight to noon, after which they are again reckoned from 0 to 12 from
noon to midnight. Thus the day is divided into two periods of 12 hours each ; the first of which
is marked A. M., the last is marked P. M.
The Astronomical Day commences at noon on the civil day of the same date. It also com-
prises twenty-four hours ; but they are reckoned from 0 to 24, and from the noon of one day to
that of the next following. The astronomical as well as the civil time may be either apparent
or mean, according as it is reckoned from apparent noon or from mean noon.
The civil day begins twelve hours before the astronomical day; therefore the first period
of the civil day answers to the last part of the preceding astronomical day, and the last period
of the civil day corresponds to the first part of the same astronomical day. Thus, January 9th,
2 o'clock, A. M.', civil time, is January 8th, 14h, astronomical time ; and January 9th, 2 o'clock,
P. M., civil time, is also January 9th, 2h, astronomical time. The rule, then, for the transfor-
mation of civil time into astronomical time is this: — If the civil time is marked A. M., take one
from the day and add twelve to the hours, and the result is the astronomical time wanted ; if the
civil time is marked P. M., take away the designation P. M., and the astronomical time is had
without further change.
To change astronomical to civil time, we simply write P. M. after it, if it is less than 12
hours. If greater than 12 hours, we subtract 12 hours from it, add 1 to the days, and write
A. M. For example, January 3d, 23 hours, astronomical time, is January 4th, 11 o'clock,
A. M., civil time.
If the longitude from Greenwich be expressed in time, and, when west, added to the local
time, or, when east, subtracted from the local time, the result is the corresponding Greenwich
time. If the local mean time is used, the result is the Greenwich mean time, which ordinarily
is that required for the use of this Ephemeris. The rule is the same, whether we use mean or
sidereal time.
THE CALENDAR.
The Calendar is divided into twelve months; and to each month are assigned eighteen pages,
the contents of which are as follow:
Page I contains, for Greenwich apparent noon of each day, The Sun's Apparent Right
Ascension, and Declination, and the Equation of Time. Adjoining columns contain the differ-
ences of these quantities for one hour. By multiplying this difference by the hours and parts
of an hour from Greenwich apparent noon, and adding the amount to, or subtracting it from,
the quantity at noon, according as that quantity is increasing or decreasing, we obtain the value
of any quantity for any given Greenwich apparent time. The hourly differences are given for
the instant of apparent noon at Greenwich, and, wlien greater accuracy is required, should be
first interpolated for half the hours and parts of an hour of the Greenwich apparent time.
This page is chiefly used when the sun is observed on the meridian, and the local apparent
time is 0h 0m 0s. The longitude from Greenwich expressed in time, if west, is at that instant the
Greenwich apparent time, or time after Greenwich apparent noon ; if east, it is time before
£FU 84 — 30 — 10
U8B OP THE TABLES, 475
Greenwich apparent noon. The longitude of any place 19 therefore employed in reducing the
quantities on th;s page to apparent noon at that place.
The right ascension of the sun thus reduced is the sidereal time of local apparent noon. The
difference between it and the clock time of the meridian passage of the sun is the error of the
clock on sidereal time.
The declination of the sun reduced to the meridian, or apparent noon, of the place, is required
m finding the latitude from a meridian altitude of the sun.
As an example of the use of page I : —
Let the sun's declination be required at apparent noon, 1884, May 30th, at a place whose
longitude is 180° 20% or 12* lm 20* west from Greenwich.
h m ■
Local apparent time . May 30, 0 0 0
Longitude from Greenwich (additive) . 12 1 20
Greenwich apparent time . . . May 30, 12 1 20
Reducing the minutes and seconds to decimals of an hour, we find that this moment is 12b.022
after Greenwich apparent noon on May 90th, or 1 ln.978 before Greenwich apparent noon on
May 31st.
On page 74 of the Ephemeris we find that the change of declination in one hour is
May 30, at Greenwich apparent noon . 21.68
May 31, at Greenwich apparent noon . . 20.72
Difference for one day ..... 0.96'
If we want to be very exact, we find the amount of this hourly difference for the time which
is half way between Greenwich noon and the time of observation; that is, for 6 hours after
Greenwich noon of the 30th „ this being half of 12 hours. Six hours is 0.25 of a day ; so the
calculation is as follows : —
Difference for one hour, May 30 ... . 21.68
Change for one day (or 0".96) X 0.25 . . . 0.24
Difference at 6 hours after noon .... 21.44
21 ".44 X 12.022 = 257".8« 4' 17".8
Declination at Greenwich noon, May 30 . . N. 21 52 26.0
Change in 12.022 hours (additive) . . 4 17.8
Sun's declination at time of observation . . N. 21 56 43.8
When the time of observation is only a few hours before Greenwich noon, it may be better to
count the longitude backward from this nearest noon. Thus, in the example just given, the time
is llh.978 before Greenwich noon of May 31st; half this interval is about 0.25 of a day, and
the hourly motion for the middle of the interval is 20//.96. Then, we find: —
Declination at Greenwich noon, May 31 . N. 22 0 54.8
Product of 20".96 X 1 1 .978 =251".l ( extractive ) . 4 11.1
Sun's declination at time of observation . . N. 21 56 43.7
It will always be well to make the calculation by both methods, as their agreement will show
both to be right. In the above example, the results differ by only 0//.l, a quantity too small to
be considered an error.
At sea it is ordinarily sufficient to have the declination to the nearest half minute ; and the
reduction may be found by Table V of Bowditch's American Practical Navigator.
The equation of time, as has been before explaiued, 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. The heading of the column directs the manner in which the
equation is to be applied. When 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 dates between which the
change takes place. The equation of time, as given on page I, is the mean time of apparent
noon, or the hour-angle of the mean sun at that instant.
eph 84—30—11
476 THE AMERICAN EPHEMEBIS.
The Sun's Semidiameter, and the Sidereal Time of Semidiamcter Passing Meridian are also
given on page I. The sun's semidiameter is used in reducing the altitude of the upper or lower
limb of the sun to the altitude of the centre ; and in reducing the angular distance of the limb
from the moon or some other object, to the distance from the centre of the sun. The sidereal
time of 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. The quantity found in this column is to be added to the time of transit of the first, or
western, limb; and to be subtracted from the time of transit of the second, or eastern, limb.
Page II contains, for Greenwich mean noon of each day, The Sun's Apparent Right Ascen-
sion, and Declination, the Equation of Time, and the Sidereal Time of Mean Noon. The
hourly changes of these quantities are also given, and may be used in reducing them to any
Greenwich mean time. The hourly changes may be first interpolated for half the Greenwich
time, when great precision is required, in the way described in explaining the calculation of the
declination.
The right ascension and declination on pages I and II are affected by aberration, and there-
fore denote the apparent position of the true sun. Page II is more conveniently used when the
mean time is known. This is the case in most observations of the sun out of the meridian,
when the times have been noted by a clock or chronometer regulated to mean time. The quan-
tities on this page can be reduced to mean noon of any place by interpolating for the longitude,
as in the example of the sun's declination on the preceding page.
The sun's declination is required for finding the latitude of the place, the local time, and the
sun's azimuth and amplitude, from observations of the sun.
The equation of time is needed in finding the mean time from observations of the sun, and
the latitude from observations out of the meridian. The heading of the column directs the
manner in which it is to be applied to mean time to obtain the apparent time.
The equation of time, as given on page II, is the apparent time of mean noon; and is
equivalent to the hour-angle of the true sun at the instant of mean noon.
The sidereal time of mean noon is also the right ascension of the mean sun at Greenwich
mean noon. It may be reduced for the longitude, or to any Greenwich mean time, by using
the hourly difference, 9*.8565 ; or by Table III, appended to this volume, for reducing intervals
of mean solar to sidereal time. Table LI of Bowditch's Navigator may be used for the
same purpose when only the nearest quarter of a second is required.
The sun's right ascension and the sidereal time of mean noon, or right ascension of the mean
sun, are useful in converting mean time to sidereal time. We first find the Greenwich mean
time, then the R. A- of the mean sun for this time, as last explained: this being added to the
local mean time will give the sidereal time.
The sidereal time of mean noon, reduced for the longitude of the place, is also used in con-
verting sidereal time to mean time. Subtracting the reduced value from the given sidereal time,
gives the interval of sidereal time from noon. Subtracting from this the corresponding reduc-
tion of a sidereal interval to a mean time interval, in Table II, appended to this volume, or
Table LII of Bowditch's Navigator, will give the mean time required. This reduction may
also be found by multiplying 9*,8296 by the hours and parts of an hour of the given sidereal
time.
As examples of the use of page II : —
1. — Let the sun's right ascension and the equation of time be required for 1884, May 15th,
9h 2* 30% A. M., mean time, at a place whose longitude is 100° KK, or 6h 40" 40-, west of
Greenwich.
h m a
Local astronomical mean time May M, SM 2 30
Longitude from Greenwich (additive) • • 6 *Q *Q
Greenwich menn time May 15, 3 43 10=»>.7194
EPH 84 — 30 — 12
h m b
3 30 31.59
+
1 5.82
3 31 37.41
24 37 34.81
21
5 57.40
—
3 27.40
USB OP THE TABLES. 477
&*'# Right Jscensum. Equation of Time.
h m a mi
May 15, Greenwich noon . 3 30 36.61 May 15, noon . 3 51.54 (additive).
H. D. 9«.888 X 3.7194 . . + 0 36.78 H. D. — (K031 X 3.72 . — 0.12
3 31 13.39 3 51.42
In this cane, the hourly differences interpolated to half the interval, or lb.9 after noon, have been used.
The equation of time in this example is additive to mean time. Its reduction could also have been found
by Table VI, A., of Bowditch's Navigator, but to seconds only.
2. — If the sidereal time is required for the same date and time, we have : —
h m s
May 15, Sidereal Time (at Greenwich mean noon). 3 34 28.15
Hourly Difference 9-.B565 x 3.7194 + 0 36.66
Add the local astronomical mean time .... 21 2 30.00
The required sidereal time is (rejecting 24h) . . 0 37 34.81
The reduction 0" 36B.66 could have been found in Table HI corresponding to the Greenwich mean time
3* 43» 10*. Also, by Table LI of Bowditch's Navigator, the reduction is 0» 36*.7.
3. — On 1884, May 15, A. M., at a place whose longitude is 100° 1C W., suppose the sidereal
time to be 91 37" 34\81, and that the corresponding mean time is required.
The astronomical day is May 14 ; the longitude in time, + 611 40m 40s, or + 6X678.
May 14, Sidereal Time (at Greenwich mean noon) ....
The H. D. 9>.856o X 6.678, or the reduction for 6>> 40™ 40* in Table III
The sidereal time of local mean noon ......
The given sidereal time ( + 24h, if necessary for the following subtraction)
Subtracting the first from the second gives the sidereal interval from noon . 21 5 57.40 = 2Jh.0993
— 9*.8896 X 21.0993, or the reduction for 21* 5» 57».4 in Table II . •
The required astronomical mean time is . May 14, 21 2 30.00
Page III contains, for Greenwich mean noon of each day, The Sun's True Longitude, and
Latitude, and the Logarithm of the Radius Vector of the Earth. The longitudes of the sun
are the true longitudes, not corrected for aberration. The longitude is given in two columns,
headed X and X'\ X representing the sun's longitude counted from the true equinox of the date;
and X\ the same co-ordinate counted from the mean equinox of the beginning of the year,
(January C.O). 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 latitude is referred to the ecliptic of the date.
The last column on page III contains the Mean Time of Sidereal Noon ; that is, the number
of hours, minutes and seconds after Greenwich mean nooa when the first point of Aries passes
the meridian of Greenwich. It may be reduced to any meridian by interpolating for the long-
itude, or to any Greenwich sidereal time by means of the hourly difference, — 98.8296. The
reduction, however, can be taken directly from Table II for reducing intervals of sidereal time
to mean solar time ; or, approximately, from Table LII of Bowditch's Navigator.
This column may be used in converting sidereal time to mean time instead of that on page II.
As an illustration, let us take Example 3, above.
It is seen in advance that the sum of the mean time of sidereal noon and the given sidereal
time is less than 24 hours. Were it more than 24 hours, the mean time of sidereal noon should
be taken out for May 13, that is the preceding astronomical day.
feme
May 14, the mean time of Greenwich sidereal noon is . 20 26 6.1)9
The H. D. — 9-.S296 X 6.67a, or the reduction for long., Table II — 1 5.64
The mean time of local sidereal noon . . 20 25 1.33
Add the given sidereal time ...... 0 37 34.81 ±=0fc.6263
The Hum la 21 2 96.16
— 9*^2^ xd.6t^, or thdre4i»tio«fbf 0*37- 34«4!l in Table II . — 0 6.16
The required astronomical mean time . May 14, 21 2 30.00
EPH 84 — 30 — 13
478 THB AMERICAN EPHEMEBIS.
Page IV contains The Moon's Semidiameter and Equatorial Horizontal Parallax, for each
mean noon and midnight at Greenwich. Columns adjoining those of the horizontal parallax
give the change of this quantity in one hour, by means of which it can be reduced to any other
Greenwich mean time, in the same way as the sun's declination and the equation of time in the
preceding examples. The sign plus or minus prefixed to the hourly differences, shows whether
the horizontal parallax is increasing or decreasing.
The reduction of the moon's semidiameter may be readily found by multiplying the reduction
of the horizontal parallax by 0.272. It may also be obtained from Table XI of Bowditch's
Navigator, or by simply computing the proportional part.
If, for example, the semidiameter of the moon is to be taken out for 1884, May 1, 10h, P. M., Green-
wich mean time, we see that the difference of the semidiameters at noon and midnight of May 1 is 6".9 ;
then,
as 12* : ]0h = 6".9 : 5".8,
which is the correction to be subtracted from the semidiameter at noon, because the semidiameter is de-
creasing. The moon's semidiameter then, for May 1, 10b, is 15' 53".0— 0' 5".8, or 15' 47".2.
The moon's semidiameter and horizontal parallax are required for all observations of the moon.
When great precision is needed, the hourly differences should be first interpolated for half the
interval of Greenwich time from noon or midnight, and a correction applied to the horizontal
parallax for the latitude of the place of observation.
The Mean Time of the Moon's Upper Transit at Greenwich, which is given on page IV to
tenths of a minute, is also accompanied with a column of differences for one hour of longitude, by
means of which, having the longitude turned into time, the local time of the moon's meridian pass-
age at any other place may be computed. The reduction may be taken from Bowditch's Table
XXVIII by simple inspection. The last column of this page contains the Age of the moon, or
the time elapsed since the preceding new moon, to tenths of a day.
Pages V — XII contain The Moon's Bight Ascension, and Declination, for each day and hour
of Greenwich mean time. They are accompauied with columns of differences for one minute,
which are also given at each hour. The Greenwich mean time, which is required for taking
out these quantities, may be taken from a well-regulated chronometer, or obtained by applying
the longitude, turned into time, to the local mean time of the observer. The right ascension!
or declination, is taken out for the day and hour of the Greenwich mean time; the Biff, for 1
Minute multiplied by the minutes and parts of a minute of the Greenwich time; and the product
added to, or subtracted from, the quantity, according as the quantity is increasing or decreasing.
Thus, suppose the moon's right ascension and declination are required for 1884, May 1,
10u 10m 30*, astronomical mean time at Greenwich : —
Right Ascension. Declination.
May I, 10»» . . . . 8 34 56.28 N. 13 25 4#1
Diff. ».246l X 10.500 . . = + 23.58 7".653 x 10.500 = — 1 20.4
May 1, 10M0™ 30 . . . 8 35 19.86 N. 13 24 26.7
The differences interpolated for 5».2 = 0h.09 are for the right ascension 2B.2456, and for the declination
7".659,- which may be used for greater precision.
Page XII contains also the Piloses of the Moon and the dates of the Moon's Perigee and
Apogee, or least and greatest distances from the earth.
Pages XIII — XVIII contain the Lunar Distances, or the angular distances of the centre
of the moon from the centre of the sun, and from the four larger planets and certain fixed stars,
as they would appear to an observer at the centre of the earth. They aise given for every third
hour of Greenwich mean time, beginning at noon ; the dates are therefore astronomical. All the
distances that can be observed on the same day are grouped together under that date; and the
columns are read from left to right, across both pages of the same opening. The letter W. or E.
is affixed to the name of the sun, planet or star, to indicate that it is on the west, or east, side of
the moon.
EPH 84 — 30 — u
USE OP TBE TABLES. - 479
An observer on the earth's surface having measured a lunar distance, corrected it for errors of
his instrument and for the semidiameter of the objects, and cleared it from the effects of refraction
and parallax, finds the true, or geocentric, distance ; that is, the distance as it would have appeared
from the centre of the earth at the moment of observation. With this distance and the distances
in the Ephcmeris of the same bodies on the same day, the Greenwich mean time of the observa-
tion can be found.
To lessen the labor of computation, there is given in the Ephemeris, between every two suc-
cessive distances, the logarithm of the seconds of time in which the distance changes 1"; or, as
it is usually called, the Proportional Logarithm of the Difference. It is given for the middle
instant of the two hours between which it is placed.
For computing the Greenwich time we have the following rule : —
Find in the Almanac the two distances between which the true distance falls ; take out the
nearest of these, the hours of Greenwich time over it, and the P. L. of Diff. between them.
Find the difference between the true distance and the distance taken from the Almanac ; and
from the proportional logaritfim of this difference, as found in the Navigator, subtract the
P. L. of Diff. taken from the Almanac.
The result is the proportional logarithm of an interval of time to be added to the hours
of Greenwich time, taken from the Almanac, when the earlier Almanac-distance is used ; to be
subtracted from the hours of Greenwich time, when the later Almanac-distance is used.
Another method is, to add the common logarithm of the difference of the true and the Almanac-
distances to the P. L. of Diff. of the Almanac; the sum will be the common logarithm of the
correction to be applied to the hours of Greenwich time. The Table of Logarithms of small
Arcs in Space or Time, given at the end of the volume for 1871, saves the operation of reducing
degrees (or hours) and minutes to seconds, and the reverse.
As the P. L. of Diff. in the Ephemeris varies, the Greenwich time found by the methods just
described may not be sufficiently exaot. To correct it for such variation, or second difference, take
the difference between the P. L. of Diff. used and the one which follows it in the Ephemeris, (or,
more strictly, half the difference of the preceding and following ones). With this difference, and
the first correction of the Greenwich time already found, enter Table I, appended to this volume,
and take out the corresponding seconds, which are to be added to the approximate Greenwich
time when the Prop. Logs, in the Ephemeris are decreasing; and subtracted when they are
increasing.
Thus the Greenwich mean time of the observation can be obtained. If the observer has noted
the time of observation by a chronometer, the difference of this chronometer-time and the Green-
wich mean time will be the error of the chronometer on Greenwich time as found from the lunar
distance. In this way lunar distances can be used as a check upon the chronometer. By a
series of carefully observed lunar distances on both sides of the moon, the chronometer-error
may generally be ascertained within 20 or 30 seconds.
If the observer has found the local mean time of observation from the observed altitude of one
of the bodies, or by a watch regulated to that time by recent observations and corrected for change
of longitude in the interval, the difference of this local time and the Greenwich time found from
the lunar distance will be his longitude. A longitude derived by this method should always be
considered as uncertain by f/ or more.
As an example of finding the Greenwich mean time from a lunar distance, suppose that in 1884, Feb. 19,
about 6h of Greenwich mean time, the corrected distance of the moon's centre from that of the sun is
83°»0'0":- o ./ //
Corrected distance ....
Distance in the Ephemeris, Feb. 19, VIh
Difference ....
Time from Vlh (after) ....
Corr. for 2d Diff., Table I
Greenwich mean time, Feb. 19. . . 6 20 33
£PH 84 — 30 — 15
. 83 10 0
. 83 19 14
P. L.
0.3437
. 0 9 14
. + 0 20 22
.+ 1
P.L.
P. L.
t.2899
0.9462
480 THE AMERICAN EPHEMEBIS.
By a table of common logarithms, or a table of logarithm! of small area, the reduction^ the Greenwich
time would be found thus : —
From Ephemeris . . . . . P. L. 0.3437
Diff. of distances, 9* 14" =» 554" log 2.7435
Red. of Greenwich time, + V>M*2&*=lf&> • • • lo8 3-087^
The result is the same as by the previous method.
Pages 218 — 249 contain the geocentric ephemerides of the seven major planets. The posi-
tions are referred to the equator and true equinox of the date, and corrected for aberration ;
they are, therefore, apparent positions. All the data except meridian passage are given for the
moment of Greenwich mean noon. The column Meridian Passage gives the hour, minute and
tenth of that passage of the planet over the meridian of Greenwich which occurs next after the
noon of the date.
The right ascension and declination of a planet are required whenever it has been observed
for time, latitude or azimuth. The mode of reducing them to any instant of Greenwich mean
time is the same as in the examples for the sun, previously given. The local mean time of
passage across any other meridian can be found by dividing the daily differences by 24, and
multiplying the quotient by the hours and fractions of the longitude of the place. The product
is subtractive from the time of Greenwich passage when the place is east of Greenwich, and
additive when west The corrections can never exceed one-half the change for one day.
Pages 250 — 263 contain the heliocentric positions of the seven major planets, and the log-
arithms of their distances from the earth. The heliocentric longitude is reckoned, not from the
true equinox, as in the preceding ephemerides, but from the mean equinox of the date. It is,
therefore, necessary to apply nutation, if the longitude from the true equinox is required. The
daily motion is given for the moment of Greenwich mean noon. The column Reduction to Orbit
gives the correction to be applied to the heliocentric longitudes in order to obtain the longitude
counted along the orbit of the planet. This longitude is equal to the distance of the node from
the mean equinox, plus the distance of the planet from the node. The heliocentric latitude is
counted from the moving plane of the ecliptic. The Logarithm of Radius Vector is the logarithm
of the distances of the centre of the planet from that of the sun, at each Greenwich mean noon
given in the first column. The two last columns give, in the same way, the logarithm of the
true distance of the centre of the planet from that of the earth. The one column gives the
quantity for the Greenwich noon indicated on the left hand side of the page, and the other for
the noon which is midway between that date and the date next below it In the case of Mercury,
this intermediate date is mean noon of the day immediately following; in the case of Venus,
Mars, Jupiter, and Saturn, it is mean noon of the second day following; and in the case of
Uranus and Neptune, mean noon of the fourth day following.
Pages 264 — 271 contain the rectangular co-ordinates of the centre of the sun, referred to the
centre of the earth as the origin, and to the true equator and equinox of each date as the circle
and point of reference. Each co-ordinate is given first for Greenwich mean noon, and in the
column following for mean midnight of the same day. The columns Reduc. to Mean Eq*x of
Jan. 0 give the corrections to be applied to the co-ordinates for noon in order to 'obtain the cor-
responding co-ordinates referred to the mean equator and the mean equinox of January 0.
Pages 272 — 275 give the longitude and latitude of the moon for every Greenwich mean noon
and midnight. Both quantities are referred to the true ecliptic and equinox of the date.
Pages 276 and 277 contain the position of the moon's equator and the mean longitude of the
moon, and a table for computiug the libration of the moon. The epochs of greatest libration of
the moon, together with the formula for finding the libration in longitude and latitude are given
on page 405.
Page 278 contains, for each tenth Greenwich mean noon, the values of the principal elements
arising from the motion of the equinox, and also the aberration and parallax of the sun. The
column Apparent Obliquity of ike Ecliptic (Hansen) gives the true inclination of the earth's
£PH 64 — 30 — 16
USE OF THE TABLES. 481
equator to the ecliptic, without correction for the terms depending on the moon's longitude.
The Equation of Equinoxes is really the astronomical nutation ; that given In Longitude is the
correction to be applied to the longitude of the body referred to the mean equinox, in order to
obtain that longitude as referred to the true equinox. When the correction is positive, as in the
year 1884, the true longitudes are greater than those referred to the mean equinox. The
equation In R. A. is equal to that in longitude, multiplied by the cosine of the obliquity of the
ecliptic.
The next column gives the Precession of Equinoxes in Longitude from January 0 to each of
the following dates. The Sun's Aberration is the quantity which is to be applied to the true
longitude of the sun in order to obtain its apparent longitude. The correction being negative
shows that the apparem) longitude as affected by aberration is always less than the true longitude.
The sun's equatorial horizontal parallax, given in the next column, is the angle subtended by the
radius of the earth's equator, as seen from the centre of the sun.
PART II— THE EPHfeMERIS FOR THE MERIDIAN OF WASHINGTON.
Page 280 contains the formulae for the reductions of the positions of the fixed stars, using the
notation of Bssssl, and the constants of Peters and Strttve. The formulas by which the star*
numbers are computed are also given.
Pages 281—284 contain the logarithms of the Besselian Star-Numbers, A, B, C, D, for each
Washington mean midnight These numbers serve to reduce the mean place of a star at the
beginning of the Besselian fictitious year to its apparent place at the dates for which the numbers
are given. If used in accordance with the English and French notation, the pair of quantities
A and B must be interchanged with the pair C and J); that is, A must be interchanged with C,
and B with D. In the first column along with the solar day is given, for certain dates, the side-
real hour and tenth of midnight. The sidereal time for which any set of quantities is given can
be found by interpolation from these numbers.
The following is an example of the reduction of a star to apparent place by the Besselian
star-numbers : —
Computation of the apparent place of a Lyra for 1884
, November 10,
for the upper transit at
Washington.
(Star-Catalogue) log a 0.3039 log 6 7.8842
loge
8.0884
log d 8.9269*
(Page 284) log A 9.9602 log B 0.9619
logC
1.0894
log D 1.1883
(Star-Catalogue) log a' 0.4592 log b* 9.9955
loge'
9.9609
log d' 8.9528
log A a 0.2641 log Bb 8.8461
log Cc
9.1778
log Dd 0.1152*
log A a' 0.4194 log B b> 0.9574
log Cc
1.0703
log Dd' 0.1411
Mean Place, 1884.0, (Page 299) Oq — 18 33 0*678
<»o = -
f 3#40 34.40
Ja» + 1.837
Aa!=*
+ 2.63
Bb= + 0.070
£*'«
+ 9.07
C«» + 0.150
Cc'=*
+ 11.76
Drf= — 1.304
Dd> =
+ 1.38
E m* + 0.001
r,' =
+ 0.23
r/*= + 0.016
d =
Apparent Place, 1884, Nov. 10, a -■ 18 33 1 .448
+ 38 40 59.47
Pages 285 — 292 contain the Independent Star-Numbers, which can be used for the same pur*
pose. The column r gives the fraction of the year from the beginning of the fictitious year to
each date. These quantities are connected with those of Bssssl by the relations given on page
280, where are also found the formulas and precepts for the application of both systems of
numbers. In order to use the Besselian numbers, it is necessary to have the values of the star-
constants, a, ft, c, dy a', fc7, </, d'. The independent star-numbers, are given in order that the
apparent place of the star may be determined wftefl i{ iq not convenient to compute these
numbers.
SPH 84—31 — 1
31
482 THE AMERICAN EPHEMBRIS.
The following is an example of the reduction of a star to apparent place by the independent
star-numbers : —
Compulation of ike apparent place of a Lyra for 1884, November 10, for the upper transit at
Washington.
Oo = 18 3:T.O
<f0 = + 38 40.6
0 = 1 46.3)
H= 2 '34.2 5
(Page 291)
G + a= 20 19.3
JJ+a = 21 7.2
log -fg 8.8239
(Pago 291) log? 1.3109
log ain (G +a) 9.9142 n
log tan 6 9.9033
log -jV 8.8239
log A 1.2952
log sin (JJ+a) 9.83731
log sec 6 0.1075
Oo = 18 33 0.678
it / = + 2.804
(f ) — - 0*96
log(*)
9.9523 »
log (A) 0.0639 n (A) = — 1.158
Tfl = + 0-016
Apparent Right Ascension = 18 33 1.445
log? 1.3109.
log cos (G+a) 9.7570
log A 1.2952
log cob (Jf+a) 9.8610
rfy = + 38 40 34.40
1og(*0
1.0679
log sin (J 9.7958
(^) + 11.70
(Page 291) log t
log con 6
0.7273
9.8925
log (A') 0.9520
(A') + 8.95
(0 + 4.17
rpi + K>.23
log (•)
0.6198
Apparent Declination =+ 38 40 59.45
Pages 293—901 contain the mean places of three hundred and eighty-three stars, for the
beginning of the fictitious year 1884, or the moment when the sun's mean longitude is 280°.
The annual variations are to be considered as the differential co-efficients of each co-ordinate
with respect to the time at the beginning of the year.
In order that the list of mean places of stars may serve the purpose of a working-catalogue
for the convenient use of astronomers, the position of each of the northern circum polar stars is
given in duplicate, one position being for the upper and the other for the lower culmination.
The positions for the lower culmination are marked S. P. In this case, the right ascensions are
the sidereal times at which the star crosses the lower meridian ; and, in order to have the expres-
sions for the co-ordinates congruous in all cases, the declinations are counted from the equator
through the north pole, and therefore exceed 90°. The method of obtaining the time of obser-
vation and setting of the circle in order to find a star on the meridian is then uniform for all the
stars.
Beginning with the volume for 1882, the number of stars has been greatly increased, in order
to make the list more useful to field-astronemers. The apparent places are not, however, given
for the stars then added for the first time. In order to show at a glance these additional stars,
they are indicated in the list by an asterisk.*
Pages 302 — 313 contain the apparent positions of the four north polar stars, a, d, and X Ursss
Minor is, and 51 Cephei, for every upper transit at Washington. They include the terms depend-
ing on the moon's longitude. The mean solar time of transit is given in the column Mean Solar
Date, in order that each transit above and below the pole may be readily identified. Suppose,
for example, that the transit of Polaris below the pole on January 26th is to be found, and we
wish to know whether it precedes or follows the upper transit of the same date. On page 302,
we find that the upper transit occurs January 26.2 ; the lower transit, therefore, occurs January
26.7 But, the lower transit following that of July 1st (page 308), does not take place until July
2.3. Hence, the lower transit of July 1st precedes the upper one of the same date. A transit
occurring very nearly at noon may also be identified without a computation to ascertain the
actual mean date, by simply noting the tenth of a day in the column of Mean Solar Date.
• It is contemplated. to issue a supplement to the Ephemeris for 1884, containing apparent right aacensions
t}f these actional stara for the years 1881— 188*.
E?p 8*-^}l— 2
USE OF THE TABLES. 4g3
Pages 314—364 contain, for every tenth upper transit at Washington, the apparent places of
those stars of the preceding list which are not marked with an asterisk. The mean solar date
in each left hand column gives the day and tenth of the transit; so that each intermediate transit
may he readily identified. Along with each co-ordinate is given, in small type, the change for
ten days. This quantity is to be regarded as the differential co-efficient corresponding to the
dates for which the star-places are given.
Pages 365—372 contain the apparent right ascension, declination, and semidiamter of the sun,.
and the sidereal time, all for Washington mean noon. Adjoining columns give the seconds of
right ascension and of declination for apparent noon, that is, for the moment of transit of the
sun's centre over the meridian of Washington. The hours and minutes of right ascension, and
the degrees and minutes of declination are the same for both mean and apparent noon. In case
they would have differed, the minute which would have been numerically larger is diminished
by one, and the seconds increased by sixty, so that there is always a correspondence between
the two numbers. The hourly motions in right ascension and declination are given for the
moment of mean noon, but may be regarded as having the same values for apparent noon.
The Equation of Time for Apparent Noon is the correction to be applied to apparent time in
order to obtain mean time. It is, therefore, mean time minus apparent time. Each number as
given is the mean time of transit of the sun's centre over the meridian of Washington, counted
from the nearest noon. The use of all the quantities is substantially the same as in the Ephe*
merit for the Meridian of Greenwich.
Pages 373 — 380 contain the right ascension, declination, semidiameter, and parallax of the
moon at the moment of transit over the meridian of Washington. The mean time given in the
second column is that of transit of the moon's centre over this meridian. The differences for
one hour of longitude are the amounts by which the local mean times of transit over a meridian
one hour west of Washington exceed those given in the column Mean Time of Transit, supposing
the rate of change to be uniform and equal to what it is at the moment of transit over the meri-
dian of Washington. The next four columns need no especial explanation, except that the
differences for one hour of longitude are computed as if the motion of the moon in right ascen-
sion were uniform. By means of them, the position of the moon can be computed with astro-
nomical accuracy at the moment of transit over any meridian not exceeding one hour in longi-
tude from that of Washington, by taking account of second differences. With greater longitudes
of the place the accuracy of the result obtained in this way will diminish. The columns of
sidereal time of semidiameter passing meridian, etc., do not seem to need any explanation,
except that they all refer to the moment of transit. The column Bright Limbs is given to
indicate to the observer which limbs are illuminated. When two opposite limbs are both so
nearly full that they can be well observed, both are indicated ; and the one which is deficient is
printed in smaller type. When the illumination is so nearly equal that no choice can be made
between them, both are printed in large type.
Pages 381 — 398 contain the geocentric apparent right ascensions and declinations of the seven
major planets, and their semidiameters and horizontal parallaxes, for the moments of all those
transits over the meridian of Washington which can be ohserved.
PART HI— PHENOMENA.
This portion of The American Ephemeris and Nautical Almanac gives the principal astro-
nomical phenomena of the year, reduced to Washington mean time, except in the case of the
eclipses and the data for the rings of Saturn, which are given in Greenwich mean time.
Pages 400 — 104 inclusive contain the elements necessary for computing the three eclipses of
the sun which occur during the year.
The eclipse-elements are given for the moment of conjunction of the sun and moon in
right ascension. The subsequent tables and results are not, however, computed from these
eph 84 — 31 — 3
484 THE AMERICAN EPHBMERIS.
elements unchanged ; but from the accurate positions of the two bodies as interpolated for each
hour of the eclipse. The principal circumstances of each eclipse are as follow : —
On the line ** Eclipse begins" is given the Greenwich mean time at which the earth first
touches the moon's penumbra, and the longitude and latitude of the point of touching.
The " Central eclipse begins91 when the axis of the moon's shadow first touches the earth,
and the longitude and latitude of the point of touching follow.
"Central eclipse at noon11 indicates the moment when the axis of the shadow is coincident
with the plane of the meridian at the point of its intersection with the earth's surface. To the
observer at this point the eclipse will be central at the moment of apparent noon.
" Central eclipse ends'9 and " Eclipse ends'9 have the converse meaning of the beginning.
Maps of the Eclipses. — The regions in which each eclipse is visible are shown upon the maps
given in connection with them. From these maps may also be derived the approximate deter-
mination of the times of beginning and ending and of the magnitude of the eclipses at any place.
The dotted curves show the outlines of the shadow for each hour of Greenwich mean time and
therefore pass through all the places where the eclipse begins or ends at that hour. To find at
what hour the eclipse begins at any place we determine by inspection between what pair of these
curved lines the place is situated. The eclipse will then begin between these two hours of
Greenwich mean time : the fraction of the hour may be determined by dividing the hour propor-
tionally to the space which it represents on the map. This division may be a little more exact
by allowing for the changes in this space as indicated by their varying width. The Greenwich
mean time thus found must be reduced to local mean time by applying the longitude.
As an example, suppose we wish to find the time at which the eclipse of 1884, October 18th,
begins at San Francisco, California. We find this city to be situate very near the line of
'•Middle of Eclipse at Sunset." The end of the eclipse will, therefore, not be visible. If, for
the beginning, we pass through the position of San Francisco a regularly curved line which will
intersect the three curves of beginning "at llb," "at 12h," and "at 18V* (making the curved
line perpendicular to these three curves at the points of intersection), we shall find this city to
be situate between the curves of 12 hours and 13 hours, and nearer to 12 hours than to 13.
The ratio of the distance from the two curves would correspond to 12 hours 28 minutes. But,
when we compare the distance of the curves with the distance between the curves of 1 1 hours
and 12 hours, we find it to be diminishing. Allowing 2 minutes for this change, the time of
ending would be 12 hours 26 minutes — which is probably within 3 or 4 minutes of the truth.
Changing to local time the result will be: —
h m •
Greenwich mean time of ending, October 18, 12 26
Longitude, west of Greenwich, 8 10
Local mean time of ending, October 18, 4 16 ±3"
In the case of total and annular eclipses, a rough estimate of {he magnitude of the eclipse may
be obtained from the position of the place relatively to the central line and to the limit On the
central line, the eclipse is annular or total; while on the limit, the limb of the moon only grazes
that of the sun.
More Accurate Computations. — A more accurate determination of the phases as visible at any
point of the earth's surface may be obtained from the Besselian elements, which are given for
every ten minutes of Greenwich mean time. Their geometric signification is as follows: —
Let us imagine a plane passing through the centre of the earth, perpendicular to the right line
joining the centres of the sun and moon. This latter line is the axis of the moon's shadow, and
the plane is called the fundamental plane. We take the intersection of this plane with that of
the earth's equator as the axis of Jl, and the centre of the earth as the origin of co-ordinates.
The axis of Y is perpendicular to that of JT, and directed toward the north, x and y are then
the co-ordinates of the point in which the axis of the shadow intersects the fundamental plane.
The angle d, of which the sine and cosine are both given, is the declination of that point of the
celestial sphere toward which the axis of the shadow j3 directed ; this direction being that from
ppji 84—31—4
USB OF THE TABLES.
485
the earth toward the moon and sun. The angle ft is the Greenwich hour-angle of this tome
point of the celestial sphere.
The quantities I and V are the radii of the shadow-cones upon the fundamental plane, I cor-
responding to the penumbra, and V to the umbra, or annulus. The notation is that of Chauve-
net's Spherical and Practical Astronomy, in which V is regarded as positive for an annular,
and negative for a total eclipse.
The angles/ and/7, the tangents of which are given, are the angles which each element of
the respective shadow-cones makes with the axis of the shadow ; or, they are the semi-angles of
the two cones.
At the bottom of the table are given the logarithms of the change of &, y and /i, in one minute,
in order to facilitate the interpolation to any required moment.
The method of computing the eclipse from the given elements is as follows. It is premised
that the moments of beginning and ending are those at which the distance of the observer from
the axis of the shadow or penumbra is equal to the radius of the latter at the point of observa-
tion. To find such distance and radius we compute —
(1) The co-ordinates, £, 7, and C, of the observer, at some assumed moment of Greenwich
mean time, as near as practicable to the true time of the required phase, together with their varia-
tions for one minute.
(2) The co-ordinates x and y of the axis of the shadow at the same moment, which, with their
variations for one minute, are taken from the tables of elements.
(3) Hence, the position and motion of the observer relative to the axis of the shadow.
(4) The radius of the penumbra or umbra at a distance from the fundamental plane* equal to
that of the observer.
(5) Then, assuming the motions to be uniform, we determine the time required for the
observer to be brought to a distance from the axis of the shadow equal to this radius.
The formula and directions for the several steps in the computation are as follow : —
(1) Find the geocentric co-ordinates of the station referred to the earth's equator, which are
represented by p cos p7 and p sin y7, p being the distance from the centre of the earth, and q? the
geocentric latitude. These may be obtained from geodetic tables, or may be computed from the
following table by the formulae —
p cos ^ = F cos <p
p sin $/; ae sin <p
f being, as usual, the geographic latitude. <
G
Table for Computing the Geocentric Co-ordinates of a Place.
9
Log*.
Log tf.
0°
5
10
15
20
25
30
85
40
45
50
55
60
65
70
75
80
85
90
0.00000 t
0.00001 ]
0.00005 *
0.00010 •
0.00018 I
0.00027 •
0.00038 "
0.00050 "
0.00062 "
0.00075 "
0.00088 !!
0.00101 "
0.00113 J:
0.00124 "
0.00133 I
0.00141 Z
0.00146 ?
0.00150 *
0.00151 l
0.00902 Q
0.00800 Z
0.00297 |!
0.00292 I
0.00284 I
0.00275 ,;
0.00264 "
0.00252 "
0.00239 :t
0.00226 "
0.00213 J?
0.00201 "
0.00189 J?
0.00178 "
0.00169 I
0.00161 I
0.00155 Z
0.00152 ,
0.00151 l
EPU 84—31—6
486 TOE AMERICAN EPDEMERIS.
For the assumed Greenwich mean time of computation take from the table of elements the
values of sin d, cos d9 and //. But : *
Xy the longitude west from Greenwich. The co-ordinates of the observer will then be:—
f = /> cos <pt sin ( ft. — X )
y sm p sin <p' cos d — p cos <p' sin d cos ( jt — X )
C = /9 sin ^' sin 4 •+■ /> cos p7 cos d cos (ft — X )
and their variations in one minute of mean time will be : —
£' = [7.6398] p cos ip1 cos ( /x - X)
if — [7.6398] /t> cos p' sin <J sin (/* — A) = [7.6398] £ sin d
C is not wanted.
(2) The co-ordinates x and y of the axis of the shadow are taken from the tables of elements
for the same assumed moment of Greenwich mean time, together with their variations for one
minute, which are equal to one-tenth of the differences of two consecutive numbers. The
variations for one minute we represent by x* and y*. Their logarithms are given at the foot of
the tables.
(3) The distance m and position-angle M of the axis of the shadow relative to the observer,
and the relative motions, it and Ny are computed by the formulae:—
m sin M = x — £
m cos M =s y — y
nsin N^x*-?
n cos N = y7— r/
(4) The radius L of the shadow or penumbra at the distance C from the fundamental plane
is computed by the formula
L = Z-Ctan/
I and / being found in the table of elements, and £ computed in (1).
(5) If the time chosen for computation is exactly that of the beginning or end of the eclipse,
we shall have—
m = L
But, as this condition can scarcely ever be fulfilled on a first trial, a correction r to the assumed
time is computed thus. Find the angle <f> from the equation,
m sin ( M — N)
sin <p = *-= '-
There will be two values to this angle, of which one will be in the first and the other in the
second quadrant when sin <f> is positive, and one in the third and the other in the fourth when
sin <f> is negative. But, simplicity will be gained by taking only that value of <p for which
cos <l> is positive. This value lies between the limits + 96° and — 90°. The correction r to
the assumed time will be found in minutes, from —
For beginning : m cos ( M — N) L cos <f>
n n
For ending: m cos ( M — N) Lcos<p
^ "" n - n
One such pair of values of r cannot, however, give the times of both beginning and ending
with accuracy. To attain accuracy we must, in commencing the computation, assume two
times, one as near as practicable to that of beginning, and another near that of ending. These
approximate times may be derived from the chart of the eclipse. We shall thus have two pairs
of values of r. The computation for the first assumed time will give a small and nearly correct
value for the beginning of the eclipse, and a large value which, added to the assumed time, will
give an inaccurate time of ending. The computation for the second assumed time will give a
small and nearly correct value for the end, and a large negative and inaccurate one for the
beginning. We shall thus deduce two times of beginning and two of ending, of each of which
only one is to be considered approximately correct.
EPH 84 — 31—6
USE OF THE TABLES. 487
The more accurate times of beginning and ending may now be taken in place of the first
assumed ones, and the computation may be repeated from the beginning, leading to a f>air of
values of r, which should be very small and accurate. Such a repetition of the computation will
in general be advisable, to guard against accidental numerical errors. The following theorem
will, however, enable us to obtain a second approximation to the true times of each phase with-
out repeating the computation.
Theorem. — The error of each result is approximately proportional to the square of the cor-
rection r, multiplied by the sine of the sun's hour-angle, (/*—-*), f0* ^ middle of the interval
between the time of computation and that of the phase.
To apply this theorem we find the two values of r* sin (p— A) corresponding to the required
phase. We then find the ratio of these quantities — which will commonly be a large number, and
divide the difference of the results by this ratio. The quotient will be a correction to be applied
to the more accurate result in such a way as to make it deviate yet more from the less accurate
one. This correction should be positive in the local forenoon, and negative in the afternoon,
and its value should never materially exceed O^OOl r*.
Unless the times chosen for computation are unusually in error, say ten minutes or more, the
corrected results thus obtained will be theoretically correct within less than a second. But to
guard against numerical errors it is better, after making this final correction, to repeat the com-
putations so far as to obtain new values of m and L for the corrected times. If these two quan-
tities agree within a unit of the fourth place of decimals, the times employed are generally
correct within a second of time. If they differ too widely, farther corrections and recomputa-
tions may be made by the computer according to his own judgment
It may be remarked that the uncertainty of the ephemerides is such that a prediction may be
several seconds in error from this unavoidable cause alone.
Position-angle of Point of Contact. — The position-angle, P, of the point of contact, reckoned
from the north point of the sun's limb toward the east, is found by the formula
For beginning: P « N — <p ± 180°
For end: P _ N + <p
it being assumed that, in each case, the value of ^ is taken between the limits ± 90°.
As an example of the method, we shall compute the first contact of the partial eclipse of 1884,
October 18, for Mount Hamilton, California:—
Latitude, ? — + 37° 21' 3"
Longitude, X = + 131° 36* 40" West of Greenwich.
The constants for, the place are computed thus: —
log sin <p +9.78297 log cos ? +9.90033
log G 0.00246 logP +0.00056
log/) sin/ 9.78051 log /> cos?/ +9.90069
From the chart we find the approximate time of the phase as follows :—
h m
Beginning, 12 30 Greenwich Mean Time.
PL 191° 14.7
li-l 69 38.0
log sin d — 9.24248
log coed + 9.99326
log sin (/* -A) + 9.97196
log p cos <? sin d — 9.14338
log cos {ft -X) + 9.54161
log p cos tf cos d 9.89416
lege + 9.87286
BFH 84—31—7
488
TBB AMB&IOAN BPHBMBBI8.
log p cot J tin d ooo (/* — k )
—
8.66499
log p MO |/ cot d
+
9.77377
Iogicotr/cot<fcot(/i — i)
+
9.43577
log /» tin ^ tin <Z
—
9.02299
log**
+
7.06881
log*'
—
6.75514
e
+
0.74621
X
+
0.42271
*-e
—
0.32350
7
+
0.64240
y
+
1.11648
y-v
+
0.47408
logC
+
9.22352
TtAfe i log tan/, Penumbra
\ log tan/, Shadow
7.67194
• • • .
For Penumbra, /
0.56505
L
0.56426
x'
+
0.00830
f
+
0.00121
*'-*'
• +
0.00709
*'
—
0.00232
V
—
0.00057
if'-,'
—
0.00175
log m tin Jtf
—
9.50987
log m cot M
+
9.67585
log * tin JV
+
7.85065
log »cotJV
—
744304
AT
325 41.5
iV
103 52.0
Jlf — 2V
221 49.5
logL
9.75148
log tin (If- N)
—
9.82403
logm
9.75886
log cot (If- tf)
—
9.87226
logn
7.86350
log tin <p
—
9.83141
f
—
42 42.6
log COS iff
9.86618
L cosi/f
log ^
1.75416
log ^ '
—
1.76760
mcos(Jf-iV)
n
+
m
68.560
L cot ^
n
—
56.775
m ■
*1
+
1.785 — 1 47.1
The concluded time of first contact it therefore Es* 81* 47M, Greenwich
EPH 84—31—8
time.
USB OF THE TABLES. 489
The correction is so email that the time found is as accurate as the tables admit of its being.
Pot the poeition-angle we have : —
N
108 6S.0
+ 42 42.6
' ± 180
or,
P - 826 84.6
Pa- 33 25.4
Showing that the eclipse will first appear at a point of the sun's limb 83° 25/.4 west from the
north point of the limb.
Elements of Occultations. — Pages 406 — 439 give the elements for the prediction of the times
of occultation of stars and planets by the moon. In the columns referring to the star, those
headed Redans from 1884.0 give the quantities necessary to reduce the mean place of the star
at the beginning of 1884 to its apparent place at the time of occultation. These reductions are
sufficiently accurate to be definitive.
The quantities in the following five columns are all given for the moment of geocentric con-
junction of the star and moon in right ascension. Let there be a line passing from the star
through the centre of the moon, and let a plane perpendicular to this line pass through the
centre of the earth : this plane will be the fundamental plane for the occultation. The system
of co-ordinates is similar to that already described for eclipses. The cone circumscribing the
moon and star may be regarded as a cylinder having every where the same diameter as the
moon. This cylinder will intercept the fundamental plane in a circle of which the linear diam-
eter will be the same as that of the moon.
The Washington Mean Time is the moment at which the two bodies are in geocentric con-
junction in right ascension. At this moment the co-ordinate * of the axis of the cylinder on
the fundamental plane has the value zero. The column Hour Angle H gives the common
geocentric hour angle of the moon and star at the same moment, counted from the meridian
of Washington — positive toward the west and negative toward the east Column Y gives the
co-ordinate jr of the axis of the cylinder upon the fundamental plane at the same moment
Columns x* and y* give the hourly variation of x and y. The linear unit in these columns is
the earth's equatorial radius. The limiting parallels, north and south, show the extreme limits
of latitude within which the occultation will be visible.
By the aid of these elements, the Washington mean time of immersion and emersion of a
star behind the limb of the moon may be computed for any part of the earth by a method nearly
the same as that already explained for computing eclipses, only more simple.
We shall first show how to compute an isolated occultation for a particular place, assuming it
to be visible at that place, and then show how all the occultations which will be visible at a place
may be selected and computed by a more rapid process.
(1) The geocentric co-ordinates of the place, p sin tf and p cos j/, are to be computed with
three or four places of decimals by the formulee,
. sin f
p sin f/ — jf-
p COSf7 a F OOBf
already given in connection with the eclipses.
As in the case of eclipses, it is necessary to have an approximate time of the phenomenon,
corresponding to that obtained from the charts of the eclipses. The quantity U being the
Washington west hour-angle of the two bodies at the moment of geocentric conjunction, H — X
will be the local hour-angle at this same moment Let us call this angle K, putting
K~H-X
EPH 84 — 31 — 9
490 THE AMERICAN EPHEMEBIS
The next step will then be to find the approximate moment of apparent conjunction in right
ascension as seen from the place. An approximate correction to reduce the time and hour-angle
for geocentric conjunction to those for apparent conjunction may be taken from Mr. Downes's
table, on pages 430 — 431. This correction will have the same sign as A©.
When this table is not available, the correction may be computed thus : Compute the quanti-
ties £<„ $', and r from the formula,
Co ■■ P cos v* sin J^
?' = [9.4192] cos (h + i K)
r — *L_
zf - e
r will then be the approximate interval between the times of geocentric and local conjunction..
By applying it to the Washington mean time of the former, as given with the elements, we shall
have the Washington mean time of the latter within a few minutes.
The average duration of an occultation is about an hour. Thence, by adding and subtracting
(^.5 to the mean time of apparent conjunction, we shall have rough times of the phases of im-
mersion and emersion for farther computation. Let us then put,
T, — r - 0>.5
T, — T + 0h.5
T, the Washington mean time of geocentric conjunction in R. A.
d, the declination of the star.
(2) Compute for the moments T + Ti and* T + r% the following quantities, in which we write
r for each of the quantities tx and t». The latter, when used as angles, are to be changed to
arc by multiplying by 15°, and the minutes are to be further increased by one-sixth the number
of degrees in order to reduce to the sidereal hour-angle.
f «/) cos p* sin (ho + r)
y = p sin f7 cos d — p cos f7 sin d cos (A* -f- r)
^ — [9.4192] p cos ? cos (A* + r)
rf = [9.4192] /9Cosf/sin<lsin(A0 + r)-> [9.4192] * sin d
x =* xf T
y - Y+y'r
Compute m, M% n and N from the equations
m sin M = x — $
mco&M = y — y
n sin N =x* — £'
n cos N = yf — ^
»' = ^ = [8.2218] n
sin ^ - [0.5650] m sin (JIT - IV)
Then, tx and (3 from the equations
tlBS — ?cos(J*f— 2V) — L-^_ — J cos ^ (Beginning.)
fraB-J?cos(3f--iV-)4 [9>4y°J cos ? (End.)
The quantities t\ and <* will then be the corrections in minutes to be applied to the respective
times T+ ti and T+ r% to obtain the Washington mean times of the phases.
As in the case of eclipses, the small value of tx will give an accurate result for one phase, and
the large value an inaccurate result for the other. Both accurate results may then be corrected
eph 84 — 31 — 10
USB OF THE TABLES. 491
by comparison with the inaccurate one, in the way described for eclipses, and a result obtained
which will probably be correct within a fraction of a minute of time.
As a check upon, the result, it will be advisable to compute £, iy, x and y for the moments finally
obtained. If the times are correct these quantities will fulfil the condition,
v7 (tf-01 + (*-?)* - 0.2723
If log m sin ( M — N) » 9.4350 nearly, a recalculation will generally be necessary to deter-
mine whether, numerically, sin (p < 1, or sin ^ > 1. In the latter case, the impossible value of
sin <p indicates that an occultation at the given place is impossible, unless the computed distance
from the moon's limb is within the errors of the ephemerides of the moon and star.
In such cases of near approach to the moon's limb, we may take (p = 90°, or 270°, according
as sin ( M — N) is positive or negative; and for finding the time of nearest approach,
wcos(itf— N)
n'
Putting x for the moon's horizontal parallax the distance from the moon's limb will be,
* [m sin ( M - N) - 0.2723]
disregarding the sign of sin ( M — N) ; or, allowing for the augmentation of the semidiameter,
x [m sin ( Jlf- N) - 0.2728] [1 + ssinir]
where % = p cos p7 cos d cos (h^, + t) + p Bin y* b'w d
The position-angle, P, of the line from the moon's centre to the star at the times of contact,
reckoned from the north point toward the east, is given by the* formula : —
P =* N — (p for immersion,
P — N + tp ± 180° for emersion,
it being supposed that the value of tpy in each case, is taken between the limits ± 90°.
To find the angle from the vertex, we compute the angle C from the formula,
? + '?'
in which the value of t corresponding to the phase is to be used. Then : —
F=P- C
is the angle from the vertex, also reckoned from the north toward the east
As an example of an isolated occultation, we shall compute that of X Geminorum on 1884,
January 11, for Lady Franklin Bay, of which the position ii
From (1) of eclipses we find,
<p - + 81° 4C
X = - 0* 50».2
log p sin <? 9.9938
log p cosy 9.1627
From the table of elements, page 406 H — + 2h 26m.2
Hence, A* =- H - X _ + 3* 16».4
From the equations on page 490, the correction to the time of apparent conjunction is found
to be + 14m-
sph 84—31—11
492
THE AMERICAN EPHEMERIS.
Adding this to the time of geocentric conjunction, and then subtracting and adding half an
hour, we have for the approximate Washington times to be used in the computations,
T= January 11, 13h 56»9
T= January 11, 14L 56m.9
SuMmioii.
h m
+ 3 16.4
+ 44.1
+ 4 0.5
+60° 7'.5
Immersion,
n
— - 16"
— - 0.27;
Emersion,
*2
— + 44ffl
- + 0.73;
f,
reduced to sidereal time
K + r
*o + t
' ( in arc )
sin d
cos d
sin
<*.+*>
p cos f/ sin d
cos
{*. + *)
log?
log p cos f7 sin d cos (ho + r)
log p sin <f>* cos d
log p cos f7 cos (^o + t)
log p sin J sin d
log £' — [9.4192] p cos ?• cos (^ + t)
log ijy = [9.4192] p cos f7 sin d sin ( A* + t)
p sin f/cosd
— /'cosf'sin 4 cos (A* + r)
e
y=Y+y'T
y — *
a/
y-,'
log m sin Jlf
log m cos M
log tan Jlf
log* sin JV
log n cos JV
log tan Jf
Jf
N
M-N
BFH 64—31—19
+
+
+
+
+
+
+
+
+
+•
+
+
+
+
h m
8 16.4
16.0
3 0.4
45° 6M>
9.4596
9.9812
9.8502
8.6223
9.8487
9.0129
8.4710
9.9750
9.0114
9.4534
8.4306
7.8917
0.9441
0.0296
+
0.9145
— .
0.1609
+
0.1030
—
0.2639
+
0.7717
+
0.9145
—
0.1428
+
0.5961
+
0.0269
+
0.5692
0.0835
+
0.0078
- 0.0913
- 9.4214
- 9.1547
+ 0.2667
+ 9.7553
- 8.9605
- 0.7948
241° 84J8
99 6.7
142 28.1
+
+
+
+
+
9.4596
9.9812
9.9381
8.6223
9.6973
+ 9.1006
+ 8.3196
+ 9.9750
+ 8.8600
+ 9.4534
+ 8.2792
+ 7.9796
+ 0.9441
- 0.0209
+
0.9232
+
0.4352
+
0.1261
+
0.3091
+
0.6882
+
0.9232
—
0.2350
+
0.5961
+
0.0190
+
0.5771
—
0.0835
+
0.0095
- 0.0930
+ 9.4901
- 9.3711
- 0.1190
+ 9.7613
- 8.9685
- 0.7928
127° 14.8
99 9.3
38 5.6
USB OP THE TABLES. 493
logsin(ilf — N)
9.7847
log m
9.4772
log*
9.7609
logn7
7.9827
log sin iff
9.8269
log cos (Jf— N)
—
9.8993
1 m
,og»'
1.4946
log cos <j>
9.8699
[9.4350] -r «'
1.4523
-Jcos(Jlf-iV)
+
24.8
[9.4850]
4 ; * COS0
±
21.0
h
+
3.8
t% (inaccurate)
+
45.8
• .
h m
Washington conjunction + r
13 56.9
Washington mean time of phase
14 0.7
— X
+
50.2
Local mean time of phase at Lady Franklin Bay,
14 50.9
Emersion.
9.6729
9.5892
9.7669
7.9887
9.8271
+ 9.9456
1.6005
9.8696
1.
- 35.2
± 20.7
- 14.5
- 55.9
h m
14 56.9
14 42.4
+ 50.2
15 32.6
These times may now be corrected in the way described for the eclipses, but for the purposes
of prediction, this correction need be executed only for the emersion.
For the position-angles from the north point of the moon's limb toward the east we have —
Immersion. Emersion.
N
99 7
99 9
4>
42 10
42 11
180
P 56 57 321 20
Prediction of Many Occultations for a Given Place. — When it is desired to predict all the
occultations which will be visible at some one place, tables may be constructed and applied in
such a way as to greatly diminish the labor of computation. In using such tables the most con-
venient course will be to find for each occultation the hour-angle of the star at the moment of
apparent conjunction in right ascension, as seen from the place of observation. The table of
elements, pages 406 — 429, gives if, the Washington hour-angle at the moment of geocentric
conjunction. The corresponding geocentric hour-angle at the place will be —
ho =» H — X (X — west longitude from Washington).
The moment of apparent conjunction, as seen from the station, will be given by the condition
f = i; or, using the values of € and x,
p cos f7 sin A as xf T
h being the west hour-angle of the star at the moment in question, and r the interval, in hours
of mean time, which has elapsed since geocentric conjunction. ' We shall therefore have,
h — hQ + r
for the hour-angle at the end of the interval r after geocentric conjunction. In strictness, r
should here be multiplied by the factor 1 + Qge<»g» because the star moves a little more than 15°
in an hour of mean time ; but the error arising from the neglect of the factor is too small to be
important, as it will affect the predicted time of conjunction by less than 10 seconds. The
equation for finding r is therefore,
p cos </>' sin (h0 + r) = a/ r
£PH 84—31—13
494 TDE AMEBIOAN EPHBMBBIS.
The quantities A0 and xf being derived immediately from the data of the Ephemeris, the quantity
r is readily obtained by successive approximation, and may be tabulated as a function of
A0 and a/. The computation of r is effected as follows. We have
sin (Aa + t) = sin A0+ 2 sinjr cos (ho + J t) (1)
The value of r in arc being seldom more than 24° we may put r itself for 2 sin J r. The equa-
tion will then become
p cos y* sin ho + r p cos ?' cos (A© + £ r ) =» xf r
from which we find
p cos ?' sin &o
(2)
(3)
a/ — k p cos y/ cos.( ho + £ r )
To tabulate r, we must first have a table of the quantities
£ = /> cos f7 sin h
¥ = [9.41916] ^ cos f7 cos A
which table may be formed for every 10 minutes (in time) of A. If we then put ?0 for the value
of £ corresponding to A =» A©, and ?' ! for the value of £' corresponding to A = A« -f £ r, we shall
have
'-*** w
Since we must know the value of r, approximately, before we can take £'i from the table, this
equation can be solved only by successive approximations. The approximations converge so
rapidly as to offer no difficulty. It will be best to begin by computing values of r for the two
extremes of a/, namely, a/ = 0.48 and xf = 0.60, because the approximate values of r can then
be interpolated for all intermediate values of a/. For the first approximation may be taken —
Jt = 50msin|Ao (for x* — 0.48)
! (5)
Jr =r40»sin|Ao (for a/ = 0.60)
or, the approximate values of r may be taken from Mr. Downes's table, pages 490 — 431. It will
be best to make the computation for every 30 minutes of AQ, and to find the intermediate values of
r for every 10™ by interpolation. Then for each 30" of A© we take £' from a table with the argu-
ment A© -f- J r, and log € with the argument Ao, and thence compute r by (4). If the value of r
thus arrived at differs more than 3m from that employed in taking out £*, a new value may be
used to correct €', and the computation may be repeated. The values corresponding to x'ssO.51,
xf » 0.54, and xf = 0.57 can then be computed with the single interpolation of approximate
values of r, and afterward the table can be extended by interpolation to every 0.01 of xf between
xf = 0.48 and xf = 0.62. It will be best to compute r in the first place to every 0.001 of an
hour, and to drop the last figure in forming the definitive table. We shall call the table thus
formed Table L
The values of y and of r/ may then be tabulated for every degree of the star's declination, and
every 10™ of A. It will not be really necessary to compute the table for negative values of d,
since by putting
iji= p sin <p* cos d
yt = — ■ P cos y* sin d cos A
7i may be given in a table of single-entry ; and taking y% from the table of double-entry for a
positive d we shall have
? — 1i zfc ?t
the lower sign being used for a negative d. But the extension of the table for y to negative
values of d is so readily made that it will probably be found better to do it, so as to save taking
out 71 and y2 separately.
epp 84—31—14
USE OF THE TABLES. 495
We shall call this table for 19 Table II, and the corresponding one for if with the same argu-
ments Table JUL The precepts for using the tables will then be as follow: —
From Table I with the arguments vf and H — X » ho take out the value of r. It will be
sufficient to use the nearest 0.01 of a/, r will be of the same sign as A*. Then, enter Table
II with the arguments d (the star's declination) and h ■■ A* + r, and take out the value of y.
Form the quantities y = Y + yf t, and y — y. If the latter quantity lies between the limits
± 0.28, it is almost certain that there will be an occupation. If it falls without the limits ± 0.33,
it is almost certain that there will not be an occultation. Between the years 1881 and 1880
these last limits may be reduced to ± 0.32, and cases near this limit may be rejected if yf is
small. A convenient rule to adopt will be —
jf < 0.10, limits = ± 0.29
10 < y* < 0.15, limits - ± 0.30
15 < y> < 0.20, limits - ± 0,31
20 < yf limits =- ± 0.33 or ± 0.32
Here, only the absolute value of y* is to be considered, without respect to its algebraic sign*
If y — y falls between the limits thus indicated, take the values of ?' and if from their appro*
priate tables and compute 0, Q and A from the equations
v sin Q = yf — if
v cos Q = a/ — ?
A =» ( y - n ) cos Q
If A > 0.2723 or log A > 9.4350 there will be no occultation, or, at best, the moon will only
graze the star when A — 0.2723 is very small. If A < 0.2723, compute
0.2723 sin P
r.-.'-^sinQ cosP-g-^ (P<180»)
V
We shall then have-
Local mean time of immersion, T — J + r + ri — rf
Local mean time of emersion, T— •* + t + t1 + t1
Position-angle from north toward east at immersion, 180° — Q — P
Position-angle from north toward east at emersion, 180° — Q + P
In predicting the occupations for a given place, the first operation will be to go over the list
of occultations in the Ephemeris, and select those which may be visible. The conditions of
possible visibility are : —
1. The limiting parallels in the last columns must include the latitude of the place.
2. The quantity H — A, taken without regard to sign, must be less than the semi-diurnal arc
of the star by at least one hour. On very rare occasions an emersion might be seen in the east
horizon, or an immersion in the west, when this difference is a few minutes less than an hour.
3. The sun must not be much more than an hour above the horizon at the local mean time
T — A, unless the star is bright enough to be seen in the day time.
The most convenient course will be to write the value of — X on the bottom of a sheet of
paper, and, passing through the list of occultations, pause over each one for which condition
(1) is fulfilled, and examine whether conditions (2) and (3) are fulfilled. If either fails, the com-
puter passes on. Very often it will require some examination to find whether H — X or T — X
falls within the limits : in these cases, the computer may mark the occultation for trial and leave
the decision for the subsequent operations. The whole list can be gone over in less than a day,
and it will probably be found that about one-tenth of the occultations are marked for trial.
Phenomena of Planets and Satellites, pages 436 — 467. — These are, for the most part, suffi-
ciently explained in the body of the work. The following additional explanations are added for.
completeness.
eph 84 — 31 — 15
496 THB AMBBICAN EPHBMBBia
Disks of Mercury and Venus, pageb 436 and 487. — The angle 0, needed in reducing meridian*
observations, is the angle which the arc of great circle from the planet to the sun makes with the
arc from the planet toward the west, reckoned in the direction west, north, east, south. This
position-angle is reckoned from 0° to 360°, as in the measurement of double stars, the planet
taking the place of the central star. But its measure is 90° greater than that of a double star.
We may also regard 6 as expressing the angle which the line of cusps makes with the
meridian, the positive direction of the meridian being toward the north, and the positive direc-
tion of the line of cusps that in which a person following this line would have the centre of the
planet upon his right
Satellites of Jupiter, pages 439 — 461. — The times of phenomena are explained at the foot of
each page ; the diagrams, on page 439.
Phenomena, pages 468 and 469. — The conjunctions, quadratures, and oppositions of the
planets with respect to the sun give the hours when the longitude of each planet differs from
that of the sun by 0°, 90°, or 180°.
The conjunctions of the moon and planets with each other are given in right ascension*
The degrees and minutes to the right show the difference of declination at the moment of con-
junction.
Latitude by Observed Altitude of Polaris. — Table IV replaces the Tables A, B, C, D, given
as a Supplement to the volumes of the Ephemeris for 1874 — 1881, and is intended for use at sea
and reconnaissance on land. It will furnish an approximate value of the latitude, the probable
error of which, in so far as the table is concerned, will be a few tenths of a minute of arc.
EFli 84—31—16
APPENDIX.
ON THE CONSTRUCTION OF THE AMERICAN EPHEMERIS
ANI5 NAUTICAL ALMANAC FOR 1884.
The adopted constants of precession, nutation, and aberration are those of Strdve and Peters,
namely: —
Precession = 50*2411 + <J!0002268 /
Nutation = 9.2231 + 0.000009 t
Aberration = 20.4451
in which t is the number of years after 1800.0.
The obliquity of the ecliptic is that of Hansen's Tables du Soleil, which is 0".32 greater than that
of Peters, given in the issues of this Ephemeris preceding that for 1882. A comparison of Hansen's
mean obliquity with those of Peters and of Le Verrier at different epochs is given in the following
table: —
Epoch.
Hansen.
Peters.
Le Verrier.
H.-4V
H— L.
1750
1800
1850
1900
23 28 18.19
23 27 54.80
23 27 31.42
23 27 8.02
1744
54.22
30.99
7.76
1&42
55.63
31.83
8.03
+ 075
+ 0.58
+ 0.43
+ 0.26
— 1.23
— 0.83
— 0.41
— 0.01
The formulas for reduction of places of the fixed stars, page 280, correspond to the Star Tables
of the .American Ephemeris, Washington, 1869.
The mean right ascensions of stars have been reduced to Newcomb's fundamental standard, in
the catalogue attached to the Washington Observations for 1870, Appendix II, with the following
exceptions: The right ascensions of the 48 circumpolar stars north of 60° north declination are
from Dr. Gould's Standard Places of Fundamental Stars, second edition, United States Coa>t Survey
Office, 1866. Of the twelve stare south of 50° south declination, the positions of /3 Hydri, aTrianguli
Australis, and a Octantis, have been corrected from data furnished by Dr. Gould ; while the remaining
nine are, as before, from the British Nautical Almanac for 1848.
The right ascensions of additional stars in the general list, for which no apparent places are given
in the subsequent section, have been taken partly from the Catalogue of 1098 Standard Clock and
Zodiacal Stars, forming Part IV of Vol. I of Astronomical Papers Prepared for the Use of the American
Ephemeris and Nautical Almanac, Washington, 1881 ; and partly from the catalogue of the Astronomische
Gesellschafl of 1878. A few have been derived from recent catalogues without a rigorous reduction
for equinox.
The mean declinations of stars are taken from Boss's paper in the Report of the Northern Boundarif
Commission, Washington, 1879, for all stars fouud therein. The declinations of all the other stars
have been reduced to the same standard, except those of the additional ones above, which have been
taken partly from the Astronomische Gesellschafl list, and partly from places in recent catalogues.
To the apparent places of Sirius and Procyon have been appljec| the periodic corrections resulting
from Auwers's investigations.
eph 84 — 32 — 1
32
498 APPENDIX.
The values of these corrections are: —
Year. Siriua. , Procyan.
1884.0 A a = — 0.019 A«J = -U1 A a = — 0.016 A<J = + l!o2
1885.0 A a = — 0.001 A <J = — 1.34 A a = — 0.006 A A = + J-05
The mean places of the stars are all identica' with those found in Vol. 1, Part IV of Astronomical
Papers Prepared for the Use of the .American Ephemeris and Nautical Almanac, Washington, 1881.
The ephemeris of the sun is constructed from Hansen and Olufsen's Tables du Soldi, Ooj>enhagen,
185ft, except that Struve's aberration has been used. This is equivalent to adding 0".I9 to the true
longitudes, but does not affect (he right ascensions and declinations. The sun's rectangular equatorial
co-ordinates have beeu computed from the longitudes and latitudes by the following formula3: —
X = R cos /,
Y = R sin A cos w — 19.3 R (i
Z = R sin / sin u + 44.5 R 3
The reductions to mean equinox, 1884.0, are computed by the formula*,
A-X/ = +F8ecwAP.
A F = — X cos cj A X + A a> — 9.4 r R sin ( © -f 187° )
AZ' = — Xsin w AX— FA w + 21.7 tR sin (0-fl87°)
in which A and /? are the longitude and latitude of the sun referred to the equinox and ecliptic of
the date; u, the obliquity of the ecliptic; A 2 , the reduction of longitude for precession and nutation*
from January 0; At>, the reduction of the mean to the apparent obliquity; and r, the fraction of the
year since January 0. The numerical coefficients are in units of the seventh place of decimals.
The correction for latitude has been taken from Goetze's paper in the Astronomical Journal, Vol. II,
page 71.
The mean equatorial horizontal parallax of the sun, adopted from Professor Newcomb's Investiga-
tion of the Distance of the Sun and the Elements which depend on it,* is 8;/.848. The adopted semi-
diameter of the sun at the earth's mean distance is lrV 2". In the computations pertaining to
eclipses, Bess el's semidiameter, 157 59".788 has been used. •
The right ascension, declination, and parallax of the moon are derived from Hansen's Tables de la
Lune, London, 1857, the mean longitude being corrected in accordance with Newcomb's Researches
on the Motion of the Moon, Part I, p. 268,f and a corrected table being substituted ibr Table XXXTV.
The semidiameter of the moon is computed from the moon's horizontal parallax by the formula,
5 — 0.272274 *r -+- 2".5
The constant 2".5 is omitted in the computation of eclipses and occultations, as due entirely to tele-
scopic and ocular irradiation.
The ephemeris of Mercury is derived from Professor Winlock's Tables of Mercury, Washington,
1864. They are bnsed on the older theory of Le Verrier, published in the Additions to the
Connaissance des Temps for 1848.
The ephemeris of Venus is derived from Mr. G. W. Hill's Tables of Venus, Washington, 1872.
The ephemeris of Mars is derived from manuscript tables constructed from Lindenau's Tables.
Mr. Hugh Breen's results, contained in his paper On the Corrections of Lindenau's Elements of
Mars, published in the Memoirs of the Royal Astronomical Society, Vol. XX, have also been discussed
and applied; and Le Verrier's secular variations of the elements are likewise adopted. The fol-
lowing are the corresponding corrected elements and annual variations for Washington, 1855.0: —
L
=
320 13 33.87 +
689101.1527 t
7T
=
333 23 17.84 +
65.9990 t
Q
=
48 25 55.29 -f-
27.6997 t
1
=
1 51 2.20 —
0.02141 t
e
=
19238".75 -f-
0.18549 t
n
=
689050".8927
a
=
1.5236915
* Astronomical Observations made at the U. S. Naval Observatory, Washington, 1865, Appendix II.
t Astronomical Observations made at the U. S. Naval Observatory, Washington, 1875, Appendix II.
J-PJI *I— 3?— «i
CONSTRUCTION OF THE KPHEMERIS.
409
The uphsiiicris of Jupiter is derived from manuscript tables constructed from Bouvard'h Tables,
with such changes as were required to make them correspond more nearly to the formulae.
The ephemcris of Saturn is derived from a provisional theory constructed by Mr. George W.
Hill, and still unpublished.
The ephemerides of Uranus and Neptune are derived from Professor Newcomb's Tables, pub-
lished by the Smithsonian Institution. «
The semidiumeters of the planets are computed from the followiug values: —
Semidiameter.
Log Dint.
Mercury
3^34
0.00
Venus
8.546
± 0.086
0.00
Mars (polar)
2.842
± 0.057
0.25
Jupiter (polar)
18.78
± 0.067
0.70
Saturn (polar)
8.77
J- 0.039
0.95
Uranus
1.68
± 0.3
1.30
Neptune
1.28
1.48
Jupiter (equatorial)
20.00
0.70
Saturn (equatorial)
9.38
0.95
Authority.
Le Ve brier, TTieory of Mercury.
Pejrce, from the Washington Obser-
vations of 1845 and 1846, made
with the Mural Circle.
The elements of eclipses of the sun and occultations of stars by the moon are adapted to Bebsel's
method, using the special forms in Chauvenet'b Spherical and Practical Astronomy. The adopted
semidiameters are: — •
Semidiameter of the sun at distance unity.
Ratio, radius of moon : radius of earth . .
959.788
0.27227
The eclipses of Jupiter's satellites are computed from Toon's Continuation of Damoiseau'b Tables,
Washington, 1876. The occultations, transits, etc., are computed from Woolhouse's Tables, British
Nautical Mmanac for 1835, Table II of each satellite having been adapted to Damoiseau's Tables.
The elongations and conjunctions of the satellites of Saturn are computed from manuscript tables
by Professor Newcomb.
The apparent elements of the rings of Saturn are computed from Bessel's data, except those for
the dusky ring.
The elongations of the satellites of Uranus, and of the satellite of Neptune are prepared from the
data of Professor Newcomb's Uranian and Neptunian Systems, Washington, 1875.
Jn compiling the positions of observatories, the latest available data have been used. The positions
have been furnished, in many instances, through the courtesy of the directors of the Observatories,
in response to a circular issued by the Superintendent of the American Ephemeris. The following
results of Dr. Albrecht's adjustment, Mronomischt Mtchrichten, Band 95, coL 129, have also been
adopted: —
Berlin — Greenwich .
Berlin — Paris .
Berlin — Vienna .
Berlin — Altona .
Berlin — Wilhelmshaven
Berlin — Leiden .
Berlin — Bonn .
Berl in — Manheim
Berlin — Strassburg .
Berlin — Munich
Berlin — Leipzig
Berlin — Gttttingen .
— 53 34.906
— 44 13.88?
+ 11 46V312
— 13 48.55$
— 20 59.7$
-35 3€^
— 25 lLglj?
— 19 44.392
— 22 30.206
— 7 8.778
— 4 0.891
— 13 48.666
The reduction to geocentric latitude, and the logarithm of the radius of the earth are derived from
Bessel's elements of the terrestrial spheroid, as adapted in Table III of Chauvenet's Spherical and
Practical Astronomy, Vol. II: — *
log e = 8.9122052
^ _ 9 = _ 1 1 / 30//.65 sin 2 <p + 1".16 sin 4 <p
log P = 9.0992747 + 0.0007271 cos 2 <p — 0,0000018 cos .4 <p
EPH 84 — 33 — 3
500 APPENDIX.
Table IV, for finding the latitude from an observed altitude of Polaris, is constructed for —
( 1 ) An altitude of Polaris equal to 45°.
(2) A declination of Polaris equal to + 88° 41' 35".
The directions for using the table are adapted to a right ascension of Polaris equal to lh 16m.9.
Somewhat greater accuracy may be insure^ by substituting the right ascension of Polaris at the date
of observation, from pages 302—313 of this volume.
The principal computations of the Ephemeris have been distributed in the following manner: —
The sun has been computed by Mr. Eastwood; the moon's longitude, latitude, semidiameter and
horizontal parallax, by Professor Keith; light ascension and declination, by Professor Van Vleck;
culminations, by Professor Runxle; lunar distances, by Mr. W. B. Oliver; Mercury and Venus, by
Mr. Austin; Mars, by Mr. Ferrel; Jupiter, by Professor Kendall; Jupiter's Satellites, by Mr. W.
F. McK. Hitter; Saturn, by Mr. Roberdeau Buchanan; Uranus, by Mr. H. Meier; Neptune, by Mr.
Wiessner. The fixed stars have been prepared by Mr. Wiessner and Mr. Meier; the general con-
stants for their reduction, by Mr. Ferrel; the occultations, by Mr. Downes, assisted by Mr. Wiessner;
and the eclipses have been computed and the charts projected by Mr. Buchanan.
eph 84—39—4
TABLE L
CORRECTION REQUIRED, ON ACCOUNT OF SECOND DIFFERENCES OF THE MOON'S
MOTION, IN FINDING THE GREENWICH TIME CORRESPONDING
TO A CORRECTED LUNAR DISTANCE.
Approximate
Interval.
h m
0 0
0 10
0 20
0 30
0 40
0 50
1 0
1 10
1 20
I 30
h m
0 0
0 10
0 20
0 30
0 40
0 50
1 0
1 10
1 20
I 30
h m
0 0
0 10
0 20
0 30
0 40
0 50
1 0
1 10
1 20
1 30
h m
3 0
2 50
2 40
2 20
2 10
2 0
1 50
1 40
1 30
h m
3 0
2 50
2 40
2 30
2 20
2 10
2 0
1 50
1 40
1 30
h m
3 0
2 50
2 40
2 30
2 20
2 10
2 0
1 50
1 40
1 30
Difference of the Proportional Logarithms in the Ephemeris*
10
1! 14 16 18
o ; o
l! l
2 2
i
2 2
3 3
3 4
I
3,4
4 4
4 4
4 415
SO
It
24
16: 18
to
n
14
IS
18
40,
4!
44
4S
48
SO
f!
o
3
6
9
11
13
14
15
16
16
Difference of the Proportional Logarithms in the Ephemeris.
S4
S6
S8
60
16 17
64
17 18
18 1 19
19 20
19! 20
66 68
IB 19
70
7S
74
76,78
0 0
5 5
9 10
21 22
22 23
23124
24124
I
80
82
84
0
0
5
6
10
10
14
14
18
18
21
21
23
23
24
25
25
26
25
26
92
94
96
98
100
0
7
12
17
22
25
28
30
31
31
Difference of the Proportional Logarithms in the Ephemeris.
102
104
106
108
110
112
114
116
118
120
122
114
126
• 0
8
15
22
27
31
35
37
39
39
128
ISO
112
114
116
118
0
9
17
24
30
34
38
41
42
43
The correction is to be added to the approximate Greenwich time when the proportional logarithms in the
Epheinm-in tiro decreasing, and subtracted when they are Increasing,
EPH 84 — 32 — 5
TABLE II.— SIDEREAL INTO MEAN SOLAR TIME,
TO BE SUBTRACTED FROM A SIDEREAL TIME INTERVAL.
Side-
real.
m
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
50
Side-
I real.
m a
0 0.000
0 0.164
0 0.328
0 0.491
0 0.655
0 0.819
0 0.983
0 1.147
0 1.311
0 1.474
0 1.638
0 1.802
0 1.966
0 2.130
0 2.294
0 2.457
0 2.621
0 2.785
0 2.949
0 3.113
0 3.277
0 3.440
0 3.604
0 3.768
0 3.932
0 4.096
0 4.259
0 4.423
0 4.587
0 4.751
0 4.915
0 5.079
5.242
5.406
0
0
0 5.570
0 5.734
0 5.898
0 6.062
0 6.225
0 6.389
0 6.553
0 6.717
0 6.881
0 7.045
0 7.208
0 7.372
0 7.536
0 7.700
0 7.864
0 8.027
0 8.191
0 8.355
0 8.519
0 8.<>83
0 8.847
0 9.010
0 9.174
0 9.338
0 9.502
0 9.066
0h.
m a
0 9.830
0 9.993
0 10.157
0 10.321
0 10.485
0 10.049
0 10.813
0 10.976
0 11.140
0 11.304
0 11.468
0 11.632
0 11.795
0 11.959
0 12.123
0 12.287
0 12.451
0 12.615
0 12.778
0 12.942
0 13.106
0 13.270
0 13.434
0 13.598
0 13.761
0 13.925
0 14.089
0 14.253
0 14.417
0 14.581
0 14.744
0 14.908
0 15.072
0 15.236
0 15.400
0 15.563
0 15.727
0 15.891
0 16.055
0 16.219
0 16.383
0 16.546
0 16.710
0 16.874
0 17.038
0 17.202
0 17.366
0 17.529
0 17.693
0 17.857
0 18.021
0 18.185
0 18.349
0 18.512
0 18.676
0 18.840
0 19.004
0 19.168
0 19.331
0 19.495
lh-
m b
0 19.659
0 19.823
0 19.987
0 20.151
0 20.314
0 20.478
0 20.642
0 20.806
0 20.970
0 21.134
0 21.297
0 21.461
0 21.625
0 21.789
0 21.953
0 22.117
0 22.280
0 22.444
0 22.608
0 22.772
0 22.936
0 23.099
0 23.263
0 23.427
0 23.591
0 23.755
0 23.919
0 24.082
0 24.246
0 24.410
0 24.574
0 24.738
0 24.902
0 25.065
0 25.229
0 25.393
0 25.557
0 25.721
0 25.885
0 26.048
0 26.212
0 26.376
0 26.540
0 26.704
0 26.867
0 27.031
0 27*195
0 27.359
0 27.523
0 27.687
0 27.850
0 28.014
0 28.178
0 28.342
0 28.506
0 28.670
0 28.833
0 28.997
0 29.161
0j>9.325
nfa.
m a
0 29.489
0 29.653
0 29.816
0 29.980
0 30.144
0 30.308
0 30.472
0 30.635
0 30.799
0 30.963
0 31.127
0 31.291
0 31.455
0 31.618
0 31.782
0 31.946
0 32.110
0 32.274
0 32.438
0 32.601
0 32.765
0 32.929
0 33.093
0 33.257
0 33.420
0 33.584
0 33.748
0 33.912
0 34.076
0 34.240
0 34.403
0 34.567
0 34.731
0 34.895
0 35.059
0 35.223
0 35.386
0 35.550
0 35.714
0 35.878
0 36.042
0 36.206
0 36.369
0 36.533
0 36.697
0 36.861
0 37.025
0 37.188
0 37.352
0 37.516
0 37.680
0 37.844
0 38.008
0 38.171
0 38.335
0 38.499
0 38.663
0 38.827
0 38.991
0 39.154
3*
m a
0 39.318
0 39.482
0 39.646
0 39.810
0 39.974
0 40.137
0 40.301
0 40.465
0 40.629
0 40.793
0 40.956
0 41.120
0 41.284
0 41.448
0 41.612
0 41.776
0 41.939
0 42.103
0'42.2ff7
0 42.431
0 42.595
0 42.759
0 42.922
0 43.086
0 43.250
0 43.414
0 43.578
0 43.742
0 43.905
0 44.069
0 44.233
0 44.397
0 44.561
0 44.724
0 44.888
0 45.052
0 45.216
0 45.380
0 45.544
0 45.707
0 45.871
0 46.035
0 46.199
0 46.363
0 46.527
0 46.690
0 46.854
0 47.018
0 47.182
0 47.346
0 47.510
0 47.673
0 47.837
0 48.001
0 48.165
0 48.329
0 48.492
0 48.656
0 48.820
0 48.984
I
m s
0 49.148
0 49.312
0 49.475
0 49.639
0 49.803
0 49.967
0 50.131
0 50.295
0 50.458
0 50.622
0 50.786
0 50.950
0 51.114
0 51.278
0 51.441
0 51.605
0 51.769
0 51.933
0 52.097
0 52.260
0 52.424
0 52.588
0 52.752
0 52.916
0 53.080
0 53.243
0 53.407
0 53.571
0 53.735
0 53.899
0 54.063
0 54.226
0 54.390
0 54.554
0 54.718
0 54.882
0 55.046
0 55.209
0 55.373
0 55.537
0 55.701
0 55.865
0 56.028
0 56.192
0 56.356
0 56.520
0 56.684
0 56.848
0 57.011
0 57.175
0 57.339
0 57.503
0 57.667
0 57.831
0 57.994
0 58.158
0 58.322
0 58.486
0 58.650
0 58.814
-h.
0 58.977
0 59.141
0 59.305
0 59.469
0 59.633
0 59.796
0 59.960
1 0.124
1 0.288
1 0.452
1 0.616
0.779
0.943
1.107
1.271
1 1.435
1 1.599
1 1.762
1 1.926
1 2.090
2.254
2.418
2.582
2.745
2.909
3.073
3.237
3.401
3.564
3.728
3.892
4.056
4.220
4.384
4.547
1 4.711
1 4.875
1 5.039
1 5.203
1 5.367
1 5.530
1 5.694
1 5.858
1 6.022
1 6.186
1
1
1
1
6.350
6.513
6.677
6.841
1 7.005
7.169
7.332
7.496
7.660
7.824
7.988
8.152
1 8.315
8.479
8.643
1 8.807
1 8.971
1 9.135
1 9.298
1 9.4G2
1 9.626
1 9.790
1 9.954
1 10.118
1 10.281
1 10.445
1 10.609
1 10,773
1 10.937
1 11.100
1 11.264
1 11.428
1 11.592
1 11.756
1 11.920
1 12.083
1 12.247
1 12.411
1 12.575
1 12.739
1 12.903
1 13.066
1 13.230
1 13.394
1 13.558
1 13.722
1 13.866
1 14.049
1 14.213
1 14.377
1 14.541
1 14.705
1 14.868
1 15.032
1 15.196
1 15.360
1 15.524
1 15.688
1 15.851
1 16.015
1 16.179
1 16.343
1 16.507
1 16.671
1 16.834
1 16.998
17.162
17.326
17.490
17.654
17.817
17.981
18.145
18.309
18.473
For
Seconds.
8
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
*>
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
0.000
0.003
0.005
0.008
0.011
0.014
0.016
0.019
0.022
0.025
0.027
0.030
0.033
0.035
0.038
0.041
0.044
0.046
0.049
0.052
0.055
0.057
0.060
0.063
0.066
0.068
0.071
0.074
0.076
0.079
0.082
0.085
0.087
0.090
0.093
0.096
0.098
0.101
0.104
0.106
0.109
0.112
0.115
0.117
0.120
0.123
0.126
0.128
0.131
0.134
0.137
0.139
0.142
0.145
0.147
0.150
0.153
0.156
0.158
0.161
For
Seconds.
EPH 84 — 32—6
TABLE II.— SIDEREAL INTO MEAN SOLAR TIME.
i """
1
!__
TO BE £
SUBTRACT
10h
VED FROM A SIDEREAL TIME INTERVAL.
i Sido-
1 real.
8h-
m a
9h.
11*
L2h
13h-
14h.
15h-
For
Seconds.
m
m s
in a
m s
m
a ma
me m s
8 • 8
0
1 18.0:?6
1 28.466
1 38.296
1 48.125
1 57.955 1 2 7.784
2 17.614
2 27.443
0 1 0.000
1 1
1 l«.fU0
1 28.630
1 38.459
1 48.289
1 58.119 ! 2 7.948 2 17.778
2 27.607
1 1 0.003
, 2
1 18.964
1 '^.794
1 38.623
1 48.453
1
58.280 2 8.112
2 17.941
2 27.771
2 ! 0.005
»
1 19.128
1 28.958
1 38.787
1 48.617
1 58.446
2 8.276
2 18.105 , 2 27.935
3
0.008
1 4
1 19.*92
1 29.121
1 38.951
1 48.780
1 58.610
2 8.440
2 18.269 • 2 28.099
4
0.011
I f)
I 19.4C6
1 29.285
1 39.115 1 48.944
1 58.774
2 8.603
2 18.433 2 28.263
5
0.014 "
1 6
1 19.019 j 1 29.449
1 39.279 1 1 49.108
1 58.938 2 8.767
2 18.597 : 2 28.426
6
0.016
, 7
1 19.783 1 1 29.013
1 39.442 1 1 49.272
1
59.101 , 2 8.931
2 18.761 . 2 28.590
7
0.019
1 8
1 19.947 1 29.777
1 39.606 1 49.486
1 59.265 2 9.095
2 18.924 , 2 28.754
8 I 0.022 I
9
1 20.111 1 29.940
1 39.770 j 1 49.600
1 59.429
2 9.259
2 19.088 1 2 28.918
9 ! 0.025 :
10
1 20.275 | 1 30.104
1 39.934 1 49.763
1 59.593
2 9.423
2 19.252 1 2 29.082
10 | 0.027 i
1 ll
1 20.439 1 30.268
1 40.098 ! 1 49.927
1 59.757
2 9.586
2 19.416 2 29.245
11 0.030
12
1 20.602
1 30.432
1 40.261 1 1 50.091
1
59.921
2 9.750
2 19.580 2 29.409
12 0.033
. 18
1 20.706
1 30.596
1 40.425 ! 1 50.255
2
0.084
2 9.914
2 19.744 2 29.573
13 | 0.035
i 14
I 20.930
1 30.760
1 40.589 1 50.419
2
0.248
2 10.078
2 19.907 1 2 29.737
14 0.038
! 15
1 21.094
1 30.923
1 40.753 ' 1 C0X83 | 2
0.412 I 2 10.242
2 20.071 ; 2 29.901
15 ■ 0.041
, 16
1 21.258
1 31.087
1 40.917 1 50.746
2
0.576 ' 2 10.405
2 20.235 2 30.065
16 ! 0.044
1 17
1 21.422
1 31.251
1 41.081 1 1 f.0.910
2
0.740 ' 2 10.569 2 20.399 ' 2 30.228
17 0.046
1 18
1 21. J 85 j 1 31.415
1 41.244 , 1 51.074
2
0.904 | 2 10.733 . 2 20.013 2 30.392
18 ; 0.049 !
19
1 21.749 1 1 31.579
1 41.408 i 1 51.238
2
1.067 2 10.897 ] 2 20.727 , 2 30.556
19 i 0.052 1
l i
20
1 21.913 - 1 31.743
1 41.572 1 51.402
2
1.231
2 11.061 1 2 20.890 j 2 30.720
20 | 0.«055 !
I 21
1 22.077 1 1 31.906
1 41.736 ; I 51.565
2
1.395
2 11.225 2 21.054 i 2 30.884
21 ! 0.057
22
1 22.241 1 1 32.070
1 41.900 , 1 51.7*9 1 2
1.559
2 11.388 i 2 21.218 2 31.048
22 , 0.060
1 23
1 22.404 1 1 32.234
1 42.064 1 51.893
2
1.723
2 11.552
2 21.382 2 31.211
23 0.063
: 24
1 22.568 1 32.398
1 42.227 | 1 52.057
2
1.887
2 11.716
2 21.546 ; 2 31.375
24 1 0.066
i 25
1 22.732 | 1 32.562
1 42.391 1 52.221
2
2.050
2 11.880
2 21.709 2 31.539
25 j 0.068
26
1 22.896 | 1 32.726
1 42.555 ! 1 52.385
2
2.214
2 12.044
2 21.873 ! 2 31.703
26 ' 0.071
1 ™
1 23.060 1 1 32.889
1 42.719 i 1 52.548
2
2.378
2 12.208 2 22.037 ! 2 31.837
27 0.074
1 28
1 23.224 1 33.053
1 42,883 i 1 T2.712
2
2.542
2 12.371
2 22.201 2 32.031
28 0.076
! 29
1 23.387 1 33.217
1 43.047 | 1 52.876
2
2.706
2 12.535
2 22.365 , 2 32.194
29 j 0.079
i 36
1 23.551 1 1 33.381
1 43.210 i 1 53.040
1 2
2.869
2 12.699
2 22.529 | 2 32.358
30 0.082
31
1 23.715 ! 1 33.545
1 43.374 ! 1 53.204
2
3.033 2 12.863
2 22.692 ! 2 32.522
31 i 0.085
; 32
1 23.879 ' 1 33.708
1 43.538 ! 1 53.368
2
3.197
2 13.027
2 22.856 2 32.686
32 i 0.087
* 33
I 24.043 | 1 33.872
1 43.702 ! 1 53.531
2
3.361
2 13.191
2 23.020 i 2 32.850
33 ! 0.090
: 34
1 24.207 1 34.036
1 43.866 1 53.695
o
3.;:j->
2 13.:r.4 2 23.18-1 2 8J.013
34 1 0.093
' 35
1 24.370 i 1 34.200
1 44.029 1 53.&r>9
2
3.689 2 13.518
2 23.348 , 2 33.177
35 ' 0.096
: 36
I 24.534 1 34.1364
1 44.193
1 54.023
2
3.ar>2
2 13.682
2 23.512 2 33.341
36 ! 0.098
1 37
1 24.(>98 1 1 34.528
1 44.357
1 54.187
2
4.016
2 13.846
2 23.675 1 2 33.505
37 , 0.101
1 38
1 24.862 1 1 34.691
1 44.521
1 54.351
2
4.180
2 14.010
2 23.839 2 33.669
38
0.104
39
1 25.026 , 1 34.855
1 44.685
1 54.514
2
4.344
2 14.173
2 24.003 2 33.833
39
0.106
1 40
1 25.190 ! 1 35.019
1 44.849
1 54.678
2
4.508
2 14.337
2 24.167 ' 2 33.996
40
0.109
41
1 25.353 ] 1 85.183
1 45.012
1 54.842
2
4.672
2 14.501
2 24.331
2 34.160
41 , 0.112
42
1 25.517 ! 1 35.347
1 45.176
1 55.006
2
4.835
2 14.665
2 24.495
2 34.324
42
0.115
, 43
1 25.681 1 35.511
1 45.340
1 55.170
2
4.999
2 14.829
2 24.658
2 34.488
43
0.117
44
1 25.845 . 1 35.674
i
1 45.504 . 1 55.333
2
5.163
2 14.993
2 24.822 2 34.652
44
0.120
45
1 26.009 1 35.838
1 45.668 1 55.497
2
5.327
2 15.156
2 24.986 1 2 34.816
45
0.123
40
1 26.172 ; 1 36.i:02
1 45.832
1 55.661
2
5.491
2 15.320 -2 25.150 2 34.979
46 0.126
: 47
1 26.830 . 1 30.166
1 45.995
1 55.825
2
5.655
2 15.484
2 25.314 2 35.143
47 j 0.128
48
1 26.f00 ' 1 36.330
1 46.159
1 55.989
2
5.818
2 15.648
2 25.477 2 35.307
48 0.131
49
1 26.664 1 1 36.493
1 46.323
1 56.153
2
5.982
2 15.812
2 25.641
2 35.471
49
0.134
CO
1 26.828
1 36.657
1 46.487
1 56.316
2
6.146
2 15.976
2 25.805
2 35.635
50
0.137
51
1 26.992
1 36.821
1 46.651
1 56.480
2
6.310
2 16.139
2 25.969
2 35.798
51
0.139
52
1 27.155
1 36.985
1 46.815
1 56.644
2
6.474
2 16.303
2 26.133 , 2 35.962
52
0.142
53
1 27.319
1 37.149
1 46.978 , 1 56.808
2
6.637 2 16.467
2 26.297 2 36.126
53
0.145
54
1 27.483
1 37.313
1 47.142 | 1 56.972
2
6.801
2 16.631
2 26.460 • 2 36.290
54
0.147
i 55
1 27.647
1 37.476
1 47.306
1 57.136
2
6.965
2 16.795
2 26.624
2 36.454
55
0.150
56
1 27.811
1 37.640
1 47.470
1 57.299
2
7.129
2 16.959
2 26.788
2 36.618
56
0.153
57
1 27.975 1 1 37.804
1 47.634
1 57.463
2
7.293
2 17.122
2 26.952
2 36.781
57 j 0.156
58
1 28.138 I 1 37.968
1 47.797
1 57.627
2
7.457
2 17.286
2 27.116
2 36.945
58 | 0.158
! 59
1 28.302
1 38.132
1 47.961
1 57.791
2
7.620
2 17.450
13h*
i
2 27.280
2 37.109
59 1 0.161
Side-
j real.
*'"
9'-
ioh-
Ub.
12h-
14h-
15**
For
Seconds.
EPH. 84 — 32—7
TABLE IL— SIDEREAL INTO MEAN SOLAR TIME.
1
TO BE I
17h.
m "a
5UBTRAC
18h-
~m s
rED FROM A SIDEREAL TIME INTERVAL.
Side-
real.
m 8
19b-
20h*
21b-
2211-
23h-
Pot
Seconds.
m
m t
m s
m b
m s
8
8
0
2 37.273
2 47.102
2 56.932 j 3 6.762
3 16.591
3 26.421
3 36.250
3 46.080
0
0.000 |
1
2 37.437
2 47.266
2 57.096 3 6.925
3 16.755
3 26.585
3 36.414
3 46.244
1
0.003
2
2 37.601
2 47.430
2 57.260 3 7.089
3 16.919
3 26.748
3 36.578
3 46.407
2
0.005
3
2 37.764
2 47.594
2 57.424
3 7.253
3 17.083
3 26.912
3 36.742
3 46.571
3
0.008 |
4
2 37.928
2 47.758
2 57.587
3 7.417
3 17.246
3 27.076
3 36.906
3 46.735
4
0.011 j
5
2 38.092
2 47.922
2 57.751
3 7.581
3 17.410
3 27.240
3 37.069
3 46.899
5
0.014 1
6
2 38.256
2 48.065
2 57.915
3 7.745
3 17.574
3 27.404
3 37.233
3 47.063
6
0.016 |
7
2 38.420
2 48.249
2 58.079
3 7.908
3 17.738
3 27.568
3 37.397
3 47.227
7
0.019 !
8
2 3B.584
2 48.413
2 58.243
3 8.072
3 17.902
3 27.731
3 37.561
3 47.390
8
0.022 1
9
2 38.747
2 48.577
2 58.406
3 8.236
3 18.066
3 27.895
3 37.725
3 47.554
9
0.025 !
10
2 38.911
2 48.741
2 58.570
3 8.400
3 18.229
3 28.059
3 37.889
3 47.718
10
0.027 1
11
2 39.075
2 48.905
2 58.734
3 8.564
3 18.393
3 28.223
3 38.052
3 47.882
11
0.030 '
12
2 39.239
2 49.068
2 58.898
3 8.728
3 18.557
3 28.387
3 38.216
3 48.046
12
0.033 !
13
2 39.403
2 49.232
2 59.062
3 8.891
3 18.721
3 28.550
3 38.380
3 48.210
13
0.035 ;
14
2 39.566
2 49.396
2 59.226
3 9.055
3 18.885
3 28.714
3 38.544
3 48.373
14
0.038
15
2 39.730
2 49.560
2 59.389 | 3 9.219
3 19.049
3 28.878
3 38.708
3 48.537
15
0.041 !
16
2 39.894
2 49.724
2 59.553
3 9.383
3 19.212
3 29.042
3 38.871
3 48.701
16
0.044
17
2 40.058
2 49.888
2 59.717
3 9.547
3 19.376
3 29.206
3 39.035
3 48.865
17
0.046 '
18
2 40.222
2 50.051
2 59.881
3 9.710
3 19.540
3 29.370
3 39.199
3 49.029
18
0.049 !
19
2 40.386
2 50.215
3 0.045
3 9.874
3 19.704
3 29.533
3 39.363
3 49.193
19
0.052 j
20
2 40.549
2 50.379
3 0.209 , 3 10.038
3 19.868
3 29.697
3 39.527
3 49.356*
20
0.055 !
21
2 40.713
2 50.543
3 0.372 , 3 10.202
3 20.032
3 29.861
3 39.691
3 49.520
21
0.057
22
2 40.877
2 50.707
3 0.536 ; 3 10.366
3 20.195
3 30.025
3 39.&54
3 49.684
22
0.060
23
2 11.041
2 50.870
3 0.700 3 10.530
3 20.359
3 30.189
3 40.018
3 49.848
23
0.063
24
2 41.205
2 51.034
3 0.864 | 3 10.693
3 20.523
3 30.353
3 40.182
3 50.012
24
0.066
25
2 41.369
2 51.198
3 1.028 ! 3 10.857
3 20.687
3 30.516
3 40.346
3 50.175
25
0.068
26
2 41.532
2 51.362
3 1.192 ! 3 11.021
3 20.851
3 30.680
3 40.510 1 3 50.339
26
0.071
27
2 41.696
2 51.526
3 1.355 i 3 11.185
3 21.014
3 30.844
3 40.674
3 50.503
27
0.074 i
28
2 41.860
2 51.690
3 1.519 j 3 11.349
3 21.178
3 31.008
3 40.837
3 50.667
28
0.076 i
29
2 42.024
2 51.853
3 1.683 ! 3 11.513
3 21.342
3 31.172
3 41.001
3 50.831
29
0.079 •
30
2 42.188
2 52.017
3 1.847
3 11.676
3 21.506
3 31.336
3 41.165
3 50.995
30
0.062 ;
31
2 42.352
2 52.181
3 2.011
3 11.840
3 21.670
3 31.499
3 41.329
3 51.158
31
0.085 ,
32
2 42.515
2 52.345
3 2.174
3 12.004
3 21.834
3 31.663
3 41.493
3 51.322
32
0.0K7
33
2 42.079
2 52.509
3 2.338
3 12.168
3 21.997
3 31.827
3 41.657
3 51.486
33
0.090
34
2 42.843
2 52.673
3 2.502
3 12.332
3 22.161
3 31.991
3 41.820
3 51.650
34
0.093 '
35
2 43.007
2 52.836
3 2.666
3 12.496
3 22.325
3 32.155
3 41.984
3 51.814
35
0.096 ;
36
2 43.171
2 53.000
3 2.830
3 12.659
3 22.489
3 32.318
3 42.148
3 51.978
36
0.098
37
2 43.334
2 53.164
3 2.994
3 12.823
3 22.653
3 32.482
3 42.312
3 52.141
37
0.101 j
38
2 43.498
2 53.328
3 3.157
3 12.987
3 22.817
3 32.646
3 42.476
3 52.305
38
0.104 !
39
2 43.662
2 53.492
3 3.321
3 13.151
3 22.980
3 32.810
3 42.639
3 52.469
39
0.106 .
40
2.43.826
2 53.656
3 3.4&r>
3 13.315
3 23.144
3 32.974
3 42.803
3 52.633
40
0.109
41
2 43.990
2 53.819
3 3.649
3 13.478
3 23.308
3 33.138
3 42.967
3 52.797
41
0.112 .
42
2 44.154
2 53.983
3 3.813
3 13.642
3 23.472
3 33.301
3 43.131
3 52.961
42
0.115 j
43
2 44.317
2 54.147
3 3.977
3* 13.806
3 23.636
3 33.465
3 43.295
3 53.124
43
0.117
44
2 44.481
2 54.311
3 4.140
3 13.970
3 23.800
3 33.629
3 43.459
3 53.288
44
0.120
45
2 44.645
2 54.475
3 4.304
3 14.134
3 23.963
3 33.793
3 43.622
3 53.452
45
0.123
46
2 44.809
2 54.638
3 4.468
3 14.298
3 24.127
3 33.957
3 43.786
3 53.616
46
0.126 ,
47
2 44.973
2 54.802
3 4.632
3 14.461
3 24.291
3 34.121
3 43.950
3 53.780
47
0.128
48
2 45.137
2 54.966
3 4.706
3 14.625
3 24.455
3 34.284
3 44.114
3 53.943
48
0.131
49
2 45.300
2 55.130
3 4.960
3 14.789
3 24.619
3 34.448
3 44.278
3 54.107
49
0.134 ,
50
2 45.464
2 55.294
3 5.123
3 14.953
3 24.782
3 34.612
3 44.442
3 54.271
fO
0.137
51
2 45.628
2 55.458
3 5.287 3 15.117
3 24.946
3 34.776
3 44.605
3 54.435
51
0.139
52
2 45.792
2 55.621
3 5.451 ; 3 15.281
3 25.110
3 34.940
3 44.769
3 54.599
52
0.142
53
2 45.956
2 55.785
3 5.615 » 3 15.444
3 25.274
3 35.104
3 44.933
3 54.763
53
0.145
54
2 46.120
2 55.949
3 5.779
3 15.608
3 25.438
3 35.267
3 45.097
3 54.926
54
0.147
55
2 46.283
2 56.113
3 5.942
3 15.772
3 25.602
3 35.431
3 45.261
3 55.090
55
0.150 ,
56
2 46.447
2 56.277
3 6.106 3 15.936
3 25.765
3 35.595
3 45.425
3 55.254
56
0.153
57
2 46.611
2 56.441
3 6.270 ' 3 16.100
3 25.929
3 35.759
3 45.588
3 55.418
57
0.156 ,
1 fx1
2 46.775
2 56.604
3 6.434 3 16.264
3 26.093
3 35.923
3 45.752
3 55.582
58
0.K8
j 59
2 40.939
2 56.768
3 6.598
3 16.427
19h-
3 26.257
20h-
3 ,'56.086
2Lh
3 45.916
22b-
3 55.746
23h
_59_
0.161
Sido-
; real.
! i
16h-
17h.
18h'
So
For i
roods. 1
£PH 84—32—8
TABLE III.— MEAN SOLAR INTO SIDEREAL TIME.
TO BE ADDED TO A MEAN TIME INTERVAL.
m
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
IB
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
r«
59
m s
0 0.000
0.164
0.329
0.493
0 0.657
0.821
0.986
1.150
1.314
0 1.478
0 1.643
0 1.807
0 1.971
0 2.136
0 2.300
0 2.464
0 2.628
0 2.793
0 2.957
0 3.121
0 3.285
0 3.450
0 3.614
0 3.778
0 3.943
0 4.107
0 4.271
0 4.435
0 4.600
0 4.764
0 4.928
0 5.093
0 5.257
0 5.421
0 5.585
0 5.750
0 5.914
0 6.078
0 6.242
0 6.407
0 6.571
0 6.735
0 6.900
0 7.064
0 7.228
0 7.392
0 7.557
0 7.721
0 7.885
0 8.049
0 8.214
0 8.378
0 8.542
0 8.707
0 8.871
0 9.035
0 9.199
0 9.364
0 9.528
0 9.692
i Mean '
, Solar. J
0
I".
0 9.856
0 10.021
0 10.185
0 10.349
0 10.514
0 10.678
0 10.842
0 11.006
0 11.171
0 11.335
0 11.499
0 11.663
0 11.828
0 11.992
0 12.156
0 12.321
0 12.485
0 12.649
0 12.813
0 12.978
0 13.142
0 13.306
0 13.471
0 13.635
0 13.799
0 13.963
0 14.128
0 14.292
0 14.456
0 14.620
0 14.785
0 14.949
0 15.113
0 15.278
0 15.442
0 15.606
0 15.770
0 15.935
0 16.099
0 16.263
0 16.427
0 16.592
0 16.756
0 16.920
0 17.085
0 17.249
0 17.413
0 17.577
0 17.742
0 17.906
0 18.070
0 18.234
0 18.399
0 18.563
0 18.727
0 18.892
0 19.056
0 19.220
0 19.384
0_ 19.549
m 8
0 19.713
0 19.877
0 20.041
0 20.206
0 20.370
0 20.534
0 20.699
0 20.863
0 21.027
0 21.191
0 21.356
0 21.520
0 21.684
0 21.849
0 22.013
0 22.177
0 22.341
0 22.506
0 22.670
0 22.834
0 22.996
0 23.163
0 23.327
0 23.491
0 23.656
0 23.820
0 23.984
0 24.148
0 24.313
0 24.477
0 24.641
0 24.805
0 24.970
0 25.134
0 25.298
0 25.463
0 25.627
0 25.791
0 25.955
0 26.120
0 26.284
0 26.448
0 26.612
0 26.777
0 26.941
0 27.105
0 27.270
0 27.434
0 27.598
0 27.762
0 27.927
0 28.091
0 28.255
0 28.420
0 28.584
0 28.748
0 28.912
0 29.077
0 29.241
0 29.405
m t
0 29.569
0 29.734
0 29.898
0 30.062
0 30.227
0 30.391
0 30.555
0 30.719
0 30.884
0 31.048
0 31.212
0 31.376
0 31.541
0 31.705
0 31.869
0 32.034
0 32.198
0 32.362
0 32.526
0 32.691
0 32.855
0 33.019
0 33.183
0 33.348
0 33.512
0 33.676
0 33.841
0 34.005
0 34.169
0 34.333
0 34.498
0 34.662
0 34.826
0 34.990
0 35.155
0 35.319
0 35.483
0 35.648
0 35.812
0 35.976
0 36.140
0 36.305
0 36.469
0 36.633
0 36.798
0 36.962
0 37.126
0 37.290
0 37.455
0 37.619
0 37.783
0 37.947
0 38.112
0 38.276
0 38.440
0 38.605
0 38.769
0 38.933
0 39.097
0 39.262
m s
0 39.426
0 39.590
0 39.754
0 39.919
0 40.083
0 40.247
0 40.412
0 40.576
0 40.740
0 40.904
0 41.069
0 41.233
0 41.397
0 41.561
0 41.726
0 41.890
0 42.054
0 42.219
0 42.383
0 42.547
0 42.711
0 42.876
0 43.040
0 43.204
0 43.368
0 43.533
0 43.697
0 43.861
0 44.026
0 44.190
0 44.354
0 44.518
0 44.683
0 44.847
0 45.011
0 45.176
0 45.340
i 0 45.504
, 0 45.66rt
0 45.833
0 45.997
0 46.161
0 46.325
0 46.490
0 46.654
0 46.818
0 46.983
0 47.147
0 47.311
0 47.475
0 47.640
0 47.H04
0 47.968
0 49.282
0 49.447
49.611
49.775
49*939
50.104
50.268
0 50.432
0 50.597
0 50.761
0 50.925
0 51.089
0 51.254
0 51.418
0 51.582
0 51.746
0 51.911
0 52.075
0 52.239
0 52.404
0 52.568
0 52.732
0 52.896
0 53.061
0 53.225
0 53.389
0 53.554
0 53.718
0 53.882
0 54.046
0 54.211
0 54.375
0 54.539
0 54.703
0 54.868
0 55.032
0 55.196
0 55.361
0 55.525
0 55.689
0 55.853
0 56.018
0 56.182
0 56.346
0 56.510
0 56.675
0 56.839
0 57.003
0 57.168
0 57.332
0 57.496
0 57.660
0 57.825
0 48.132 | 0 57.989
0 48.297 0 58.153
0 48.461
0 48.625
0 48.790
0 48.954
0 49.118
2h.
3h'
fr
0 58.317
0 58.482
0 58.646
0 58.810
0 58.975
^h.
m s
0 59.139
0 59.303
0 59.467
0 59.632
0 59.796
0 59.960
1 0.124
1 0.289
1 0.453
1 0.617
1
1
1
1
1
1
1
1
1
1
1 2.424
1 2.589
1 2.753
1 2.917
1 3.081
0.782
0.946
1.110
1.274
1.439
1.603
1.767
1.932
2.096
3.246
3.410
3.574
3.739
3.903
1 4.067
4.231
4.396
4.560
4.724
1 4.888
1 5.053
1 5.217
1 5.381
1 5.546
5.710
5.874
6.038
6.203
6.367
6.531
6.695
6.860
7.024
7.188
1 7.353
7.517
7.681
1 7.845
1 8.010
8.174
8.338
8.502
8.667
8.831
8*995
1 9.160
9.324
9.488
9.652
9.817
9.981
10.145
10.310
10.474
1
1
1
1
1
1
1
1
1 10.638
1 10.802
1 10.967
1 11.131
1 11.295
1 11.459
1 11.624
1 il.788
1 11.952
1 12.117
1 12.281
1
1
1
1
12.445
12.609
12.774
12.938
13.102
13.266
13.431
1 13.595
1 13.759
1 13.924
1 14.088
1 14.252
1 14.416
1 14.581
1 14.745
1 14.909
1 15.073
1 15.238
1 15.402
1 15.566
1 15.731
1 15.895
1 16.059
1 16.223
1 16.388
1 16.552
1 16.716
1 16.881
1 17.045
1 17.209
1 17.373
17.538
17.702
17.866
1 18.030
1 18.195
1 18.359
1 18.523
1 18.688
For
Seconds.
8
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
16
19
20
21
22
23
24
25
26
27
28
0.000
0.003
0.005
0.008
0.011
0.014
0.016 i
0.019
0.022
0.025
0.027
0.030
0.033
0.036
0.038
0.041
0.044
0.047
0.049
0.052
0.055
0.057
0.060
0.0(53
0.066
0.068
0.071
0.074
0.077
0.079
0.082
0.085
0.08*
0.090
0.093
0.096
0.099
0.101
0.104
0.107
0.110
0.112
0.115
0.118
0.120
0.123
0.126
0.129
0.131
0.134
0.137
0.140
0.142
0.145
0.148
0.151
0.158
0.156
0.1C9
0.162
For
Seconds.
EPH 8 J— 32— 9.
TABLE III.— MEAN SOLAR INTO SIDEREAL TIME.
TO BE ADDED TO A MEAN TIME INTERVAL.
Mean
Solar.
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
1G
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
Sola
1 18.852
1 19.01?
1 19.180
1 19.345
1 19.509
1 19.673
1 19.837
1 20.002
1 20.166
1 20.330
1 20.495
1 20.659
1 20.823
1 20.987
1 21.152
1 21.316
1 21.480
1 21.644
1 21.809
1 21.973
1 22.137
1 22.302
1 22.466
1 22.630
1 22.794
1 22.959
1 23.123
1 23.287
1 23.451
1 23.616
1 23.780
1 23.944
1 24.109
1 24.273
1 24.437
1 24.601
1 24.766
1 24.930
1 25.094
1 25.259
1 25.423
1 25.587
1 25.751
1 25.916
1 26.080
1 26.244
1 26.408
1 26.573
1 26.737
1 26.901
I 27.066
1 27.230
1 27.394
1 27.558
1 27.723
1 27.887
1 28.051
1 28.215
1 28.380
1 28.544
H*
2H.708
28.873
29.037
29.201
29.365
1 29.530
1 29.694
1 29.858
1 30.022
1 30.187
1 30.351
1 30.515
1 30.680
1 30.844
1 31.008
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1 33.637
1 33.801
1 33.965
1 34.129
1 34.294
1 34.458
1 34.622
1 34.786
1 34.951
1 35.115
31.172
81.337
31.501
31.665
31.829
31.994
32.158
32.322
32.487
32.651
32.815
32.979
33.144
33.308
33.472
10h*
I 38.565
1 38.729
1 38.893
1 39.058
1 39.222
1 39.386
1 39.550
1 39.715
1 39.879
1 40.043
40.207
40.372
40.536
40.700
40.865
1 41.029
1 41.193
1 41.357
1 41.522
1 41.686
41.850
42.015
42.179
42.343
42.507
42.672
42.836
43.000
43.164
I 1 43.329
35.279
35.444
35.608
35.772
35.936
36.101
36.265
36.429
36.593
36.758
1
1
1
1
1
1
1
1
1
1
1 36.922
1 37.086
1 37.251
1 37.415
1 37.579
1 37.743
1 37.908
1 38.072
1 38.236
1 38.400
f>h
1 43.493
1 43.657
1 43.822
1 43.986
1 44.150
44.314
44.479
44.643
44.807
44.971
1 45.136
1 45.300
1 45.464
1 45.629
1 45.793
1 45.957
1 46.121
1 46.286
1 46.450,
1 46.614
1 46.778
1 46.943
1 47.107
1 47.271
1 47.436
47.600
47.764
47.928
48.093
1 48.257
10h
ll1
1 48.421
1 48.585
1 48.750
1 48.914
1 49.078
49.243
49.407
49.571
49.735
49.900
1 50.064
1 50.228
1 50.393
1 50.557
1 50.721
1 50.885
1 51.050
1 51.214
1 51.378
1 51.542
1 51.707
1 51.871
1 52.035
1 52.200
1 52.364
52.528
52.692
52.857
53.021
53.185
1 53.349
1 53.514
1 53.678
1 53.842
1 54.007
1 54.171
1 54.335
1 54.499
1 54.664
1 54.828
1 54.992
1 55.156
1 55.321
1 55.485
1 55.649
55.814
55.978
56.142
56.306
56.471
12h
1 56.635
1 56.799
1 56.964
1 57.128
1 57.292
1 57.456
1 57.621
1 57.7&r>
1 57.949
1 58.113 i 2
1 58.278
1 58.442
1 58.606
1 58.771
1 58.935
1 59.099
1 59.263
1 59.428
1 59.592
1 59.756
1 59.920
2 0.085
2 0.249
2 0.413
2 0.578
0.742
0.906
1.070
1.235
1.399
1.563
1.727
1.892
2.056
2.220
2.385
2.549
2.713
2.877
3.042
3.206
3.370
3.534
3.699
3.863
4.027
4.192
4.356
4.520
4.684
2 4.849
5.013
5.177
5.342
2 5.506
5.670
5.834
5.999
6.163
6.327
2 6.491
2 6.656
2 6.820
2 6.984
2 7.149
7.313
7.477
7.641
7.806
7.970
^ j h. I j 2h-
13h-
m b
2 8.134
2 8.298'
2 8.463
2 8.627
2 8.791
2 8.956
2 9.120
2 9.284
2 9.448
2 9.613
2 9.777
2 9.941
2 10.105
2 10.270
2 10.434
2 10.598
2 10.763
2 10.927
2 11.091
2 11.255
2 11.420
2 11.584
2 11.748
2 11.912
2 12.077
2 12.241
2 12.405
2 12.570
2 12.734
2 12.898
13.062
13.227
13.391
13.555
13.720
2 13.884
2 14.048
2 14.212
2 14.377
2 14.541
2 14.705
2 14.869
2 15.034
2 15.198
2 15.362
2 15.527
2 15.691
2 15.855
2 16.019
2 16.184
2 16.348
2 16.512
2 16.676
2 16.841
2 17.005
2 17.169
2 17.334
2 17.498
2 17.662
2 17.826
13
h.
14h
m a
2 17.991
2 18.155
2 18.319
2 18.483
2 18.648
18.812
18.976
19.141
19.305
19.469
2 19.633
2 19.798
2 19.962
2 20.126
2 20.290
2 20.455
2 20.619
2 20.783
2 20.948
2 21.112
2 21.276
2 21.440
2 21.605
2 21.769
2 21.933
2 22.098
2 22.262
2 22.426
2 22.590
2 22.755
2 22.919
2 23.083
2 23.247
2 23.412
2 23.576
2 23.740
2 23.905
2 24.069
2 24.233
2 24.397
2 24.562
2 24.726
2 24.890
2 25.054
2 25.219
2 25.383
2 25.547
2 25.712
2 25.876
2 26.040
2 26.204
2 26.369
2 26.533
2 26.697
2 26.861
2 27.026
2 27.190
2 27.354
2 27.519
2 27.683
14h
15h
m s
2 27.847
2 28.011
2 28.176
2 28.340
2 28.50^
2 28.668
2 28.833
2 28.997
2 29.161
2 29.326
2 29.490
2 29.654
2 29.818
2 29.983
2 30.147
30.311
30.476
30.640
30.804
30.968
2 31.133
2 31.297
2 31.461
2 31.625
2 31.790
2 31.954
2 32.118
2 32.283
2 32.447
2 32.611
2 32.775
2 32.940
2 33.104
2 33.268
2 33.432
2 33.597
2 33.761
2 33.925
2 34.090
2 34.254
2 34.418
2 34.582
2 34.747
2 34.911
2 35.075
2 35.239
2 35.404
2 35.568
2 35.732
2 35.897
2 36.061
2 36.225
2 36.389
2 36.554
2 36.718
36.882
37.047
37.211
37.375
2 37.539
15h'
For
Seconds.
8
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
0.000
0.003
0.005
0.008
0.011
0.014
0.016
0.019
0.022
0.025
0.027
0.030
0.033
0.036
0.038
0.041
0.044
0.047
0.049
0.052
0.055
0.057
0.060
0.063
0.066
0.068
0.071
0.074
0.077
0.079
0.082
0.085
0.088
0.090
0.093
0.096
0.099
0.101
0.104
0.107
0.110
0.112
0.115
0.118
0.1*0
0.123
0.126
0.129
0.131
0.134
0.137
0.140
0.142
0.145
0.148
0.151
0.1f>3
O.iro
o.irt)
0.162
For
Seconds
EPET 84— 32— 10
TABLE III.— MEAN SOLAR INTO SIDEREAL TIME.
TO BE ADDED TO A MEAN TIME INTERVAL.
Mean
Solar.
m
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
16h
m s
2 37.704
2 37*868
2 38.032
2 38.196
2 38.361
2 38.525
2 38.689
2 38.854
2 39.018
2 39.182
2 39.346
2 39.511
2 39.675
2 39.839
2 40.003
2 40.168
2 40.332
2 40.496
2 40.661
2 40.825
2 40.989
2 41.153
2 41.318
2 41.482
2 41.646
2 41.810
2 41.975
2 42.139
2 42.303
2 42.468
2 42.632
2 42.796
2 42.960
2 43.125
2 43.289
2 43.453
2 43.617
2 43.782
2 43.946
2 44.110
2 44.275
2 44.439
2 44.603
2 44.767
2 44.932
2 45.096
2 45.260
2 45.425
2 45.589
2 45.753
2 45.917
2 46.082
2 46.246
2 46.410
2 46.574
2 46.739
2 46.903
2 47.067
2 47.232
2 47.396
Mean1
Solarl
I6h-
11
•:h.
m a
2 47.560
2 47.724
2 47.889
2 48.053
2 48.217
2 48.381
2 48.546
2 48.710
2 48.874
2 49.039
2 49.203
2 49.367
2 49.531
2 49.696
2 49.860
2 50.024
2 50.188
2 50.353
2 50.517
2 50.681
2 50.846
2 51.010
2 51.174
2 51.338
2 51.503
2 51.667
2 51.831
2 51.995
2 52.160
2 52.324
2 52.488
2 52.653
2 52.817
2 52.981
2 53.145
2 53.310
2 53.474
2 53.638
2 53.803
2 53.967
54.131
54.295
54.460
54.624
54.788
2 54.952
2 55.117
2 55.281
2 55.445
2 55.610
2 55.774
2 55.938
2 56.102
2 56.267
2 56.431
2 56.595
2 56.759
2 56.924
2 57.088
2 57.252
17
h.
18h
2 57.417
2 57.581
2 57.745
2 57.909
2 58.074
2 58.238
2 58.402
2 58.566
2 58.731
2 58.895
2 59.059
2 59.224
2 59.388
2 59.552
2 59.716
2 59.881
3 0.045
3 0.209
3 '0.373
3 0.538
0.702
0.866
1.031
1.195
1.359
1.523
1.688
1.852
2.016
2.181
2.345
2.509
2.673
2.838
3.002
3.166
3.330
3.495
3:659
3.823
3.988
4.152
4.316
4.480
4.645
4.809
4.973
5.137
5.302
5.466
3 5.630
3 5.795
3 5.959
3 6.123
3 6.287
6.452
6.616
6.780
6.944
7.109
18
h.
19h
20*-
7.273
7.4:37
7.602
7.766
7.930
3 8.094
3 8.259
3 8.423
3 8.587
3 8.751
3 8.916
3 9.080
3 9.244
3 9.409
3 9.573
3 9.737
3 9.901
3 10.066
3 10.230
3 10.394
3 10.559
3 10.723
3 10.887
3 11.051
3 11.216
3 11.380
3 11.544
3 11.708
3 11.873
3 12.037
12.201
12.366
12.530
12.694
12.858
13.023
13.187
13.351
13.515
13.680
3
3
3
3
3
3
3
3
3
3
3 13.844
3 14.008
3 14.173
3 14.337
3 14.501
3 14.665
3 14.830
3 14.994
3 15.158
3 15.322
3 15.487
3 15.651
3 15.815
3 15.980
3 16.144
3
3
3
3
3
m a
3 17.129
3 17.294
3 17.458
3 17.622
3 17.787
3 17.951
3 18.115
3 18.279
3 18.444
3 18.608
3 18.772
3 18.937
3 19.101
3 19.265
3 19.429
3 19.594
3 19.758
3 19.922
3 20.086
3 20.251
3 20.415
3 20.579
3 20.744
3 20.908
3 21.072
3 21.236
3 21.401
3 21.565
3 21.729
3 21.893
3 22.058
3 22.222
3 22.386
3 22.551
3 22.715
3 22.879
3 23.043
3 23.208
3 23.372
3 23.536
3 23.700
3 23.865
3 24.029
3 24.193
3 24.358
3 24.522
3 24.686
3 24.850
3 25.015
3 25.179
3 25.343
3 25.508
3 25.672
3 25.836
3 26.000
16.308 ' 3 26.165
16.472 I 3 26.329
16.637 | 3 26.493
16.801 3 26.657
16.965 I 3 26.822
19*
20h'
21k
3 26.986
3 27.150
3 27.315
3 27.479
3 27.643
3 27.807
3 27.972
3 28.136
3 28.300
3 28.464
3 28.629
3 28.793
3 28.957
3 29.122
3 29.286
3 29.450
3 29.614
3 29.779
3 29.943
3 30.107
3 30.271
3 30.436
3 30.600
3 30.764
3 30.929
3 31.093
3 31.257
3 31.421
3 31.586
3 31.750
3 31.914
3 32.078
3 32.243
3 32.407
3 32.571
3 32.736
3 32.900
3 33.064
3 33.228
3 33.393
3 33.557
3 33.721
3 33.886
3 34.0C0
3 34.214
3 34.378
3 34.543
3 34.707
3 34.871
3 35.085
3 35.200
3 35.364
3 35.528
3 35.693
3 35.857
3
3
3
3
3
36.021
36.185
36.350
36.514
36.678
2llL
22*
23b
m s
3 36.842
3 37.007
3 37.171
3 37.335
3 37.500
3 37.664
3 37.828
3 37.992
3 38.157
3 38.321
3 38.485
3 38.649
3 38.814
3 38.978
3 39.142
3 39.307
3 39.471
3 39.635
3 39.799
3 39.964
3 40.128
3 40.292
3 40.456
3 40.621
3 40.785
3 40.949
3 41.114
3 41.278
3 41.442
3 41.606
3 41.771
3 41.935
3 42.099
3 42.264
3 42.428
3 42.592
3 42.756
3 42.921
3 43.085
3 43.249
3 43.413
3 43.578
3 43.742
3 43.906
3 44.071
3 44.235
3 44.399
3 44.563
3 44.728
3 44.692
3 45.056
3 45.220
3 45.385
3 45.549
3 45.713
3 45.878
3 46.042
3 46.206
3 46.370
3 46.535
m a
3 46.699
3 46.863
3 47.027
3 47.192
3 47.356
3 47.520
3 47.685
3 47.849
3 48.013
3 48.177
3 48.342
3 48.506
3 48.670
3 48.834
3 48.999
3 49.163
3 49.327
3 '49.492
3 49.656
3 49.820
3 49.984
3 50.149
3 50.313
3 50.477
3 50.642
3 50.806
3 50.970
a 51.134
3 51.299
3 51.463
3 51.627
3 51.791
3 51.956
3 52.120
3 52.284
3 52.449
3 52.613
3 52.777
3 52.941
3 53.106
3 53.270
3 53.434
3 53.598
3 53.763
3 53.927
3 54.091
3 54.256
3 54.420
3 54.584
3 54.748
3 54.913
3 55.077
3 55.241
3 55.405
3 55.570
3 55.734
3 55.898
3 56.063
3 56.227
3 56.391
*22
h.
I
23h-
Pot
Second*.
0.C00
0.003
0.005
0.008
0.011
0.014
0.016
0.019
0.022
0.025
0.027
0.030
0.033
0,036
0.038
0.041
0.044
0.047
0.049
0.052
0.055
0.057
0.060
0.063
0.066
0.068
0.071
0.074
0.077
0.079
0.082
0.085
0.088
0.090
0.093
0.096
0.099
0.101
0.104
0.107
0.110
0.112
0.115
0.118
0.120
0.123
0.126
0.129
0.131
0.134
0.137
0.140
0.142
0.145
0.148
0.151
0.153
0.156
0.159
0.162
For
Seconds.
EPH 84—32—11
TABLE IV.— LATITUDE BY POLARIS.
TABLE FOR FINDING THE LATITUDE BY AN OBSERVED
ALTITUDE OF POLARIS.
Reduce the observed altitude of Polaris to the true altitude.
Reduce the recorded time of observation to local sidereal time.
r less than lh 16m.9, subtract it from lh 16.^;
If the sidereal time is ) between l*> 16m.9 and 13h 16ra.9, subtract lh 16™. 9 from it;
( greater than 13h 16m.9, subtract it from 25b 1^.9;
and the remainder is the hour-angle of Polaris.
With this hour-angle take out the correction from Table IV, and add it to or subtract it
from the true altitude, according to its sign. The result is the latitude of the place.
Example.— 1884, November 10, at 9*> 28na 28>, P. M., mean solar time, in longitude 28° east of Green-
wich, suppose the true altitude of Polaris to be 28° 28' : required the latitude of the place.
h m a
Local astronomical mean time . 9 28 28
Reduction from Table 111, for 9* 28™28» + 1 33
Greenwich sidereal time of mean noon, November 10, page 183 15 20 11
Reduction from Table 111, for longitude ( = lb 52™ east, or minus ) — 0 18
Sum (having regard to signs) equals local sidereal time . 0 49 54 = 0h 49*.9
h m
1 16.9
Subtract sidereal time . . . . . . * . 0 49.9
Remainder equals hour-angle of Polaris .... 0 27.0
True altitude . +2^28.0
Correction from Table IV. . — 1 17.8
Sum equals latitude - . . 4-27 10.2
TABLE IV— 1884.
Hoar-Angle.
oh-
lh'
2h.
3h-
4b.
5h-
m
O /
O /
o /
O /
o /
o /
0
- X IM 00
-1 l5'7 .'.
- ' 77 00
-0 55.0 '
-0 38.6 '
-0 19.4 '
5
1 18.4 °/°
1 15.8 °5
1 6.8 09
0 53.8
0 37.0 "
0 17.8 '■•
10
1 18.3 »•
1 14.7 "
1 5.9 °9
1.3
0 52.5
0 35.5 "
0 16.1 "
15
. 18.8 °/
' ".8 "
. 4.9 10
0 51.2 J~
0 34.0 "
0 14.4 "
0.1
0.6
1.0
1.3
1.6
1.7
20
- ' I8-1 „ «
- 1 13.6 „ .
- 1 3.9
- 0 49.9
-0 38.4
-0 18.7
25
1 ,7'9 ol
' *30 "
. 3.9 °
0 48.6 *
0 30.8 '"
0 11.0 }•*
30
» ,7-7 »1
1 18.4 "
1 1.9 ,0
0 47.2
0 89.8 '"
0 9.3 17
35
I 17.5 "
. 11.7 "7
1 0.8 1A
0 45.8 J'4
0 87.6 J"'
0 7.6 7
0.3
0.7
1.1
1.4
M
1.7
40
- 1 17.8
-1 11.0 .
- 0 59.7
-0 44.4
- 0 86.0
-0 5.9
45
1 16.9 "
' «>.» "
0 58.6
0 43.0 ]'l
0 84.4 ]*
0 4.2 7
50
. .6.5 °<
• 9-4 M
0 57.4 lM
0 41.5 "
0 88.8 "
0 2.5 1'7
55
. 16.1 "
• 8.6 "
0 56.2 **
0 40.0 '*
0 81.1 J*7
-0 0.8 *7
60
- . 15.7 M
- I 7.7 °-9
- 0 55.0
-0 38.5
-0 19.4 1,T
+ 0 0.9 '7
Hoar-Angle.
6h
nh.
gh.
9h.
io"-
11^
tu
o /
o /
O /
O /
O /
O I
0
+ 0 0.9 '
+ 0 21.2 '
+ 0 39.9 '
+ 0 55.9 '
+ l M o'g
+ 1 16.8 '
5
0 8.7 l8
0 22.8 U6
0 41.4 K5
0 57.1 *
' M '*
1 16.8 -
10
0 4.4 U1
0 24.4 '•*
0 42.8 \A
0 58.2 ;•
' M !1
« <«e *
15
0 6.1 w
0 26.0 K6
0 44.2
0 59.3 ;|
1 10.5 '"I
0.3
1 16.9 ~
1.7
1.6
1.4
1.1
0.7
0.3
20
+ 0 7.8 ,
+ 0 27.6 tm
+ 0 45.6
+ 1 0.4
+ 1 ,12 »,
+ • I7S - -
25
1.7
0 9.5
0 29.2 1S
0 47.0 .
1 1.5 •'
1 ...9 n07
0.3
1 17.5 ;
30
0 11.2 l,?
0 30.8 L6
0 48.4 M
1 2.5 10
> l8-° M
1 17.7 °-8
35
0 12.9 1#?
0 32.4 U*
0 49.7 lmZ
i 3.5 ;-°
1 13.8 °/«
1 17.9 °"
1.6
L.5
1.3
1.0
0.6
0.8
40
+ 0 14.5
+ 0 33.9
+ 0 51.0
+1 4S 10
+ l ,38 on
+ 1 18.1
45
0 16.2
0 35.4 K5
0 52.3 1#3
1 5.5 ,0
1 14.4 "
1 18.8 M
50
1.7
0 17.9 * '
0 36.9 *5
0 53.5 1#9
» «•< A
• '« I*
1 .8.3 "
55
0 19.6
0 38.4 *
0 54.7 1*9
' 7-3 °/!
0.5
1 15.4 **
« ,8-4 M
60
+ 0 21.2 x*
+ 0 39.0
+ 0 55.9 K2
0.9
+ 1 8.2
0.4
+ 1 15.8
+ 1 .8.4 M
EPH 84—32—12
I
141384
a4
NOV 10 1884
^